##gff-version 3
sequence1	MetaGeneAnnotator	CDS	66	1391	.	+	0	ID=MGA_1;product=chromosomal replication initiator protein DnaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011947895.1;translation=MLEPSKLWEALKKTLEDNQIIFSDYISHNVRAIDFSNSTLVLQIDDYRSYIEIDNIKSEIEKKANQNYGALLGEISIELQKNFKDFLNPNNVKKERIFNNLNKKFTFNNYVIGDNNLFAYKLGMAILDGKLSNSPLMIYGDSGLGKTHLAQAIGNEMIEKNPESKVFYTTSTEFSNELIKSFSERTTISFKDKYADLDMLIVDDIQFFENIFGKGDDKIQKEFYNAFNTLHMANKPIILISDKYPEELTNVEARLISRLVSGALVELKMPDKTSRISIIKTIITKENIPMDQELMYFIADELETNIRELEGFVNTIVARAKLMNEVVNKKMIIDELNKKIIRKKCSITSDKILDTVSVYYNIEKSEILGKSRKAEIVRARDASRYLLTNILKITLGEIGKMFGSDHTSIVKALEKIRLMETEDPSNQLLKDIKTLKSNIES;locus_tag=LOCUS_00010;gene=dnaA;note=WP_011947895.1 chromosomal replication initiator protein DnaA (Clostridium botulinum) [pid:33.8%25%2C q_cov:94.3%25%2C s_cov:92.2%25%2C Eval:6.0e-59],MGA_1
sequence1	MetaGeneAnnotator	CDS	1493	2782	.	+	0	ID=MGA_2;product=branched-chain amino acid transport system II carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000771689.1;translation=MKIKKEYMYVSLLIFGMFFGAGNLIFPPFVGKEAGSAVVISMIGFGITSTVTTMLGVYLGFKENILGEIYSKLGMKFTKLIFCLACCAIAIIAIPRAALTPFTMMITEVVVLESNVEIFKIIYIILFFSMVYYLSYNQSNILTVIGKILTPLLLALIFIIAITTFTTQKLEFLFSNEMYQSLPLLKGFLQGYNTMDSLGSIIVGITVVNIIKNNYNLKEGELKTYGKVGVTIAGILMFLIYLILGVIGAGLSKNYTLATNGAIILKEIVRLLFGNFGIFVLIAVFFVACLTACISILTFSSEFNYEAFSKFKYTHWLKFFIGLSILLSMLSLDMILKLSIPILLLIYPIILSILLLEITNEKDKRVYKGTMIFLIILNTVTIINSIVFKLDIITGQLMKLPFYNDNFSWAIPTVLFYFLLKIVYGINKK;locus_tag=LOCUS_00020;gene=brnQ;note=WP_000771689.1 branched-chain amino acid transport system II carrier protein (Bacillus cereus) [pid:30.1%25%2C q_cov:99.1%25%2C s_cov:98.8%25%2C Eval:3.5e-48],MGA_2
sequence1	MetaGeneAnnotator	CDS	2871	3407	.	+	0	ID=MGA_3;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILSILLMVGLTSFAAKVTGPRYRVEGAFSTVSLLLPSRDSFVKINIDVSASASFLPEWKAQINRKFDITFGPKIAANLITKITGDGTEIFPNGTIGIETDFNYLVKEDVKVYTSIEAGLGAGSNIVIKNNSTTPEFKPAIIVKLGLGAKIKDKYNIGVYAGYGKGLLGIEAGYTF;locus_tag=LOCUS_00030;note=MGA_3
sequence1	MetaGeneAnnotator	CDS	3800	4042	.	+	0	ID=MGA_4;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKPKISTEFSYVEGRLKVSPWIGAEFNLENKPNGASNNGTTENKDFVLRKIVGKGGIETNQLLKMKFFFIIILIFEKNMS;locus_tag=LOCUS_00040;note=MGA_4
sequence1	MetaGeneAnnotator	CDS	4069	6642	.	+	0	ID=MGA_5;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVNMNRKILMFFILSTQLLNALGSYNNGFFDGFKEENLTKVKYDNSTYPTEGQIGKPENNGKWPGIGPNGEKEGTATLLYTRIPSIIVTNDNKIIVMYDLRWNNPKDPGNNTREKIGADHGRIDQGISISEDGGKTWKTKTGIKFDDIWRYGKRTAPQKYRRRLMDSTLIYNHLTDEILSLHGSWNEFTGGNWYAKREDYYNKEIWAALMHKSIDGGKTWERTHKFDKNNNGLFKEHSPDNPVKAFLGGVGTGIVMRDGTLVMSVQTAHENKGMGKKAIGATLMYSRDGGKTWQMPKIDNSKILMPNSSSLENMLFEMDGKLVITGRGIDTSNNSGQRNNKQRNNMNNKHRWAYYTEDMGQTWKKFEPLHTFQTVTSQATQGSTLYVTLPSGKKVILVSAPKGNGNDSWKRGNLALYALSGKDKNHMKEITLIKPGSGNALGAGYSSLAYKGGNLFAAYEDNGDISVKNLTEYIAEIEKLATEWGLEDERAKDIKKVKELKSLTTKQKELLEKAMMEDNDRAFTEAMVLNTELEELDKNVAKYSKELEDNKEALPSSIRRFNSAIEGLKGEKRDNLVKVLKTRIIKAEVDDTGENIKDVMDFDLYKPVAEKFLYKRVDIAENDDNIFAGFGVKVGSTDNYFKFGYNHDISNFKLGGFFEIYESKINARNISVGTTFKTVFENKHTFKNFIRYRHQSLYNLKINNKNDRYNDVILHNLDFYSSYETKLNLNKNISITPKAGILLTYSHEALLDEDARLDRRIGVSTDISVKAELKHKNTKFKIKPEILITDNAKYISQTNLSNKRDKTDNKILEYNIQFGISAKVNGINLDLDLDLNDTSKNRNKTNVRLNFMSGYSW;locus_tag=LOCUS_00050;note=WP_005786655.1 exo-alpha-sialidase (Bacteroides) [pid:24.9%25%2C q_cov:33.4%25%2C s_cov:43.2%25%2C Eval:9.2e-12%2C partial hit],MGA_5
sequence1	MetaGeneAnnotator	CDS	6877	7665	.	+	0	ID=MGA_6;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKMLGILLIQFFSFASIKVDGKSNVYVEKSNNGIDVINISTPSSKGISHSTFTDFNIGEKGAVINNSKNIARSRIAGLINGNKNIKEKRAKLALLDVTGVKESRLSGILEALSKDRLDVILSNPNGITLDGANFLNIHNMSLSTSKVIVEEGDIKSLKELNSSDNLEIVANSFKSEGDIIGKEITIKTYAGEEGKLLSADIIGSVHGDVVKIVATRSGIGVKSIEARDLTLESKVQADIEKIKVDNLNIKVEEDFKNKDKI;locus_tag=LOCUS_00060;note=WP_143403532.1 filamentous hemagglutinin N-terminal domain-containing protein (Fusobacterium massiliense) [pid:29.3%25%2C q_cov:98.9%25%2C s_cov:15.6%25%2C Eval:3.1e-34%2C partial hit],MGA_6
sequence1	MetaGeneAnnotator	CDS	8157	8471	.	+	0	ID=MGA_7;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDWNKYLNISNKRYTPSLSLEYGYKEMLNISNVIEREKLNTELSLDLRYKSIYSNIGLSTDYRYVNPHVKIGINFDVSRLNIDTSLEYNQVFRALFAIRFDVIK;locus_tag=LOCUS_00070;note=MGA_7
sequence1	MetaGeneAnnotator	CDS	8557	11103	.	+	0	ID=MGA_8;product=DNA mismatch repair protein MutS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494923.1;translation=MSTPLMKQYNEIKKDYMEYILFFRLGDFYEMFFEDAEIASRVLGLTLTARNKEKGMNIPLAGIPYHSSKPYIAKLVNAGYKVAICEQTENPKDAKGIVKREVVQIVTSGTMQDVDYLDSKSNNYLACIYYSNQNYAMSYLDITTGEFKVLECDEDNLISEIYKIEPKEILLTQSLKEKFGSIIDKLDINISIVTKVNDAEKFLKDYFNIVSLDSYGIFGKKAMIDACACILDYVLAMQFNNELTIRKIEVINKSKFVEISSSTLRNLEIVKNQRDKTTYGSLLWVLDKCKSSTGSRKLKQLLQSPLLELDEINKRYDDIEYLCKEIIKREEIRNLLDNVYDIERLLGKVIFSNENGKDINALKNTIYSSFKIRDLWPEKFKNIDFNILQEIHTKIDNILLEDAPFSVREGNMIKSGVNSELDELRNIMNNGTGILLEIESREREKTGIKNLKIKYNNIFGYFIEVSKSNMNMVPETYIRKQTLSNAERYITEEIKSYEDKIINSKAKITELEYIIFKNLSSYIKEFKNVFIELSNTLAYIDILISFAITALENNYVRPNFNEEYFEIKDARHPVVEKLIGDNTFISNNVYFDDKNRFIILTGPNMSGKSTYMKQIALISIMAQIGSFVPASSANLNMVDKILTRIGASDDILSGQSTFMVEMSEVASIINSATTNSLIILDEVGRGTSTYDGLAIASSISKYIVENINAKSIFATHYHELTELENEYETIKNYRIEVEEKNGKVNFLRTIVKGGADRSYGIEVAKLAGLPKTIIRESTKLLKSFEVEKKNGQISLFDNFEYENYDKIEKLEETIDNLNEKLDKLRNVDINNMTPINALNLLMQIKEEI;locus_tag=LOCUS_00080;gene=mutS;note=WP_029494923.1 DNA mismatch repair protein MutS (Fusobacterium hwasookii) [pid:49.8%25%2C q_cov:99.5%25%2C s_cov:98.6%25%2C Eval:1.1e-235],MGA_8
sequence1	MetaGeneAnnotator	CDS	11116	12054	.	+	0	ID=MGA_9;product=type 2 isopentenyl-diphosphate Delta-isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000184890.1;translation=MNRKDDHLKFALDSMSKKNGFDEYMLEYISIPSFGLNDIDTRTKIGEVVFEYPFFINSITGGSEKGDKINKDLEYVSEKTGIFLFPGSYSPFLNKEEVSYPKNQGVNLGIDKPVNLHLEAISKTNAKFLQVHVNLIQEIVMPEGERNFETWESNLKDILSTVKIPVILKETGFGMGRGSFIKAKELGVKILDISGKGGTNFAQIENRRRNKEKKYYEEIGYYTTESLEIAKEFKDDFEIIASGGIRHPLDVVKALALGAKAVGISKTFLEILEVNGRDALIDTINTWKEDIRNIMLLTDSKNIEELRGKIRR;locus_tag=LOCUS_00090;gene=fni;EC_number=5.3.3.2;note=WP_000184890.1 type 2 isopentenyl-diphosphate Delta-isomerase (Streptococcus) [pid:47.1%25%2C q_cov:98.1%25%2C s_cov:94.6%25%2C Eval:2.4e-74],MGA_9
sequence1	MetaGeneAnnotator	CDS	12197	13393	.	-	0	ID=MGA_10;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILIILVFLQFLIFSKEEVKIVNGFKQGKFIDRLEDGSIEKGKYVNDIKSGEYTFEIPDNNLLLKGNYLNGLLNGVEKIYKNGKYIGEITYFQNKVLGNQVEYIDELIRSGYMGVNNNGYFKLKTPDSIIEYKQENDLVTGQVIINKNNGDKIYLTLFEGITLGDVKYVKRNGEISYYEYLFDIENITKSEEKFLENIYIYLEENKVEKINNLKNGNVKIEVDNAIIEYSYVNNEITGTVRLTFPDIIKEITFKNGKREGIATYTSDNFSEIRSYKNDILEGNIKKEKETLVYSKGKMIKMIQYIDDKTFITTNFINEKPVGNLIITENGKERIIAKYDKNHILVFNVKEYAKNGDKLLFYGSLTNPIYIIAYKKNGEKRQYKSLKDYLENKEYVK;locus_tag=LOCUS_00100;note=MGA_10
sequence1	MetaGeneAnnotator	CDS	13393	13824	.	-	0	ID=MGA_11;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKWFYRSISIFVGVLGLLFFNTPKIFIYILIFLGIILAIIGFIHLKVNSGQGCIISNRITVDGENVGYCYRQREKLGKNDSGWRFFAGDEDENYLKDPSNFGVYKLSIVCNLDKNVREILNLPYDTELRVNEKGILVKVENN;locus_tag=LOCUS_00110;note=WP_164921943.1 DUF2185 domain-containing protein (Rhodopirellula baltica) [pid:39.6%25%2C q_cov:66.4%25%2C s_cov:81.7%25%2C Eval:4.7e-12%2C partial hit],MGA_11
sequence1	MetaGeneAnnotator	CDS	14082	14618	.	-	0	ID=MGA_12;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKHGSYGLAQVYVSCKNKGYNRSFGSMCRINYPSEKVQVDIKYIPNECIKFNSKGIRYYKITAIDEYSRKRVLKVIKEKSTYETSKYIKELERAIGFKIETIQVDNGYEFVNDKDVTDKEDGKILYSRKEFRSEEELIENVKRHERLYNNTAKTVLNFKSPNEVVREYFTKVKKEA;locus_tag=LOCUS_00120;note=MGA_12
sequence1	MetaGeneAnnotator	CDS	15049	15441	.	-	0	ID=MGA_13;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901602.1;translation=MSKQFLGTGRRKTSVARVRLIPGQTGVVINGKDMREFFAGREILAKIVEQPLELTNTLNKFGVNVTVHGGGNTGQAGAIRLGISRALVENDAELKAGLREAGFLTRDSRMVERKKYGKKKARRSPQFSKR;locus_tag=LOCUS_00130;gene=rpsI;note=WP_005901602.1 30S ribosomal protein S9 (Fusobacterium) [pid:76.4%25%2C q_cov:97.7%25%2C s_cov:95.5%25%2C Eval:3.1e-47],MGA_13
sequence1	MetaGeneAnnotator	CDS	15454	15888	.	-	0	ID=MGA_14;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901604.1;translation=MNKDTKMQKKEEVVRNWHLVDAEGLVLGKLAVEIAKKLIGKDKVSYTPHVDGGDYVVVINAEKIAVTGKKLTDKKYYRHSGFPGGLKTRSLEEMLAKKPTEVLRKAVERMLPKNKLGRQMINRLKLNVGPTHSNEAQKPTKMEI;locus_tag=LOCUS_00140;gene=rplM;note=WP_005901604.1 50S ribosomal protein L13 (Fusobacterium nucleatum) [pid:67.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-52],MGA_14
sequence1	MetaGeneAnnotator	CDS	16061	16771	.	+	0	ID=MGA_15;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003227564.1;translation=MNELLLKVVGLSIWYDRKNIIENAEFTINKNEIVALVGINGSGKTTLINTLVGIHFKYSLETLIFNNRKISFDDINFKLNRIAVFSQDDSFRYWSFMKYIKFVFETYNINMDSEYIDYLIDGFNFREYINYMRKDLSMGNKKKFALIVAFGLRLPFLIFDEPVDGLDFGSTAFLYRIIKEYKSFGSILMSTHIAESISEACDKLIFLNEGKITSKISIQGKISTSDIFNLVKEKNL;locus_tag=LOCUS_00150;note=WP_003227564.1 ABC transporter ATP-binding protein (Bacillus) [pid:31.8%25%2C q_cov:90.7%25%2C s_cov:92.1%25%2C Eval:1.3e-25],MGA_15
sequence1	MetaGeneAnnotator	CDS	16768	17889	.	+	0	ID=MGA_16;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIRIFLKDIFDKKLYLDTYHFQFSYFFLINTFLREFKYLGEFSVKNSVIYIMVGLFFSIYFFVRTYIKNDRIMPYYALPVSRVKINESFIISVFFDTFFRKILILIAFMLNFDIESIFYVNLFLLLPSIIILSFIGNVTNISKINKFITLSISIVYIFIILILSFYTNLIMTFILGLCICFFYYVFVRKYFIAHAFFKINISNKLSKFSLNNYFLKFFLAENVYIINSVGILIMVVVVGLFSPKEISLPLSCAIGTINTPLLTIFSTEKELENMNNFFPNKFRSLNRDYVFLILSYFFMVKVIILIINLKDISIRMLIHLFLILIVEVYFSYMLEKKIPIKNKKTTMQIWKNPRKYILTLIILLTSAIFQYFI;locus_tag=LOCUS_00160;note=MGA_16
sequence1	MetaGeneAnnotator	CDS	17932	18939	.	-	0	ID=MGA_17;product=type I glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016560.1;translation=MAVKVAINGFGRIGRLALRLMINDPNFNVVAVNDLSDAKTLAHLFKYDSAQGRFDGTVEVKEGAFIVNGKEVKSFADADPKNLPWGELGVDVVLECTGFFTKKEKAEAHIEAGAKKVVISAPGQGDLKTVVFNVNHNILDGSETVVSAASCTTNCLAPMAKVLNDKFGIVAGTMTTIHAYTGDQNTLDAPHRKGDLRRARAAAENIVPNSTGAAKAIGLVIPELSGKLDGGAQRVPVPTGSLTELVSILEKTVTAAEINAAMKEAANESFGYTEEELVSSDIIGIKFGSLFDATQTKVVTVGDKQIVKTVSWYDNEMSYTAQLIRTLDYIVNLSK;locus_tag=LOCUS_00170;gene=gap;note=WP_011016560.1 type I glyceraldehyde-3-phosphate dehydrogenase (Fusobacterium nucleatum) [pid:81.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-153],MGA_17
sequence1	MetaGeneAnnotator	CDS	19131	19511	.	+	0	ID=MGA_18;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFLCALATFVFTSCSTVVNGKGQNYKITSSENIQVINKYGKVIKEGKGELKVYLEKGDGFFTGAHYTVKSAGKEYTIEPKVNIGSFIVGNIFVPGFWGFIVDGATGAMYDLYVDGKYTNEIKF;locus_tag=LOCUS_00180;note=MGA_18
sequence1	MetaGeneAnnotator	CDS	19609	20499	.	+	0	ID=MGA_19;product=DNA-binding protein WhiA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902471.1;translation=MSYSSKLKDEILDKKNIDKNDIMAELFGLLLSKNCIKNSGIEFSTENLKLAQRVYNNILKVTNIAPQLRYITAKRFSKPRVYTISITNIIDIEESYGSFLKELFSFKKYSDNKNIAGILRGYFLNSGYIKDPSKGYTLDFFIDTEDASTFLYMLLKHINKKVFQTEKKNKNIVYIRNSEDILDIIHMIGGLQVFFEYEDVTVQKELNNKINRNMNYELANETKKMSASIKQIDMIEYIDEKIGLDNLTKALSELSKLRLIYDEDSFQELADKLKISKSGIRNRFRRLEEIYLELKG;locus_tag=LOCUS_00190;gene=whiA;note=WP_005902471.1 DNA-binding protein WhiA (Fusobacterium nucleatum) [pid:46.4%25%2C q_cov:99.3%25%2C s_cov:97.7%25%2C Eval:1.4e-65],MGA_19
sequence1	MetaGeneAnnotator	CDS	20504	21145	.	+	0	ID=MGA_20;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLNEYNGFDEFLDDFKNFNEKSKYFKIDMNANILIKEPSYILEYGYMYYVKGFKDVNNVFDLKDIYLRKEKKIKRHSSIEKEKLKESFFRAIFNRDEIHSLSLSNELIRRDSKMFFDILYLNAKLSDDANRLIKVYLFEKIFEDIGLSIPFLRNLIGYICKSKEGYGNKKEVDKLYSYILKNRFNEEIEVNVNKMNENNTIILRFLEEEQC;locus_tag=LOCUS_00200;note=MGA_20
sequence1	MetaGeneAnnotator	CDS	21139	22407	.	+	0	ID=MGA_21;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016148.1;translation=MLDMKFIRENVELVKQGLKNRKSEYNLDELLEMDIKRRTLLTEVETLKKERNDVSAIIGKNAREGIDSTELKENMAKVSNKIKELDVEVLEIEEKQKMLLLTIPNVPHVSTPVGESEDDNVEIRRWGKPTEFNFEVKSHDELGVNLDILDFERGAKLSGSRFTVYKGMGARLERALINFMLDVHTEEHGFTEILTPQLAKKDIMIGTGQLPKFEEDMYKIQGEDLYLIPTAEVTLTNMYAGEILKEEELPKHFCGFTACFRQEAGSGGRDLKGLIRQHQFNKVEMVKIVHPDKSYEELEHMTNCGEKILQKLNLPYRVLSLCTGDMGFSAAKTYDIEVWVPSQNKYREISSCSNTEDFQARRAMIKFRAEDKKSYFVHTLNGSGLAVGRTLLAIIENYQQEDGSILIPEALVPYMGGKTEIR;locus_tag=LOCUS_00210;gene=serS;EC_number=6.1.1.11;note=WP_011016148.1 serine--tRNA ligase (Fusobacterium nucleatum) [pid:61.8%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:7.6e-149],MGA_21
sequence1	MetaGeneAnnotator	CDS	22416	23117	.	+	0	ID=MGA_22;product=GH25 family lysozyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000727676.1;translation=MKRTIKWIIFLSLLGGLAWYLEFSGYLYHNHILSMKYDIHGIDISHHKVRLNWYQIDKRYKFVFMKATEGKDHLDRDFFYNWNKAQLTGFRVGAYHFFSMLSKGKEQAKFYISKVPIVEKAFPPIIDLEIPTKYPKEVVNKELKDLIDILEKHYRKRAIIYVTRHTYKAYIENEFLDNPIWVRNIKWYPSQKRWDFWQYSNRGRVKGISGFTDRNAFKGTDIDEFITKNKIVQ;locus_tag=LOCUS_00220;note=WP_000727676.1 GH25 family lysozyme (Bacillus) [pid:39.9%25%2C q_cov:96.1%25%2C s_cov:95.9%25%2C Eval:1.0e-43],MGA_22
sequence1	MetaGeneAnnotator	CDS	23154	25037	.	+	0	ID=MGA_23;product=ABC-F family ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903085.1;translation=MNLVQFNNVWKQYNGEYILKDISFSVDHMDKIGLIGLNGVGKSSLIKILLGKENHDGKEGNVNEKGNVFLNPNIKVGYLSQNHLFASEKNTVYEELLEVFYRQKELLFKINILNTLMSVSDNIEELLKDYEKLQHEYEATGGYEIEFKIKQVMQGLELNNFRDINISSLSGGEKTRVTLAKLLLQEPDLLILDEPTNHLDIVSIEWLEEYLKKYTKAFILISHDRIFLDEVCNKIMEIENRKIYEYSGNFSDFVIQKELYIKGEIKRFEKESEKIRKIEEYISRYKAGIKAKQARGRQTILDRMERMDNPVFNINRMKLKFEMKSQSADRVLSVNKICKSFDNKKVLNNVSFDLYKGDKVGIIGKNGIGKSTLLKILIGNLKQDSGDFKIGERVHVGYYDQDHQNLYPSNNILQEINNSLSYTEEYLRSKAAAFLFTSDDVLKQISLLSGGEKVRVSLLKLIEEKANLLILDEPTNHLDIYSIEVLENALIDYMGTMLLISHNRHFLDSVCNKIYFLSENGLEEFKGNYGEYKESIKNKKEVVDKTEEKLSYEERKSKQKAEIKRKKDLEKLEKNIEEISKKLKSLDDEMAKAGKVNDLEKMISIQKEIDDMKIREDELILLWSELE;locus_tag=LOCUS_00230;note=WP_005903085.1 ABC-F family ATP-binding cassette domain-containing protein (Fusobacterium nucleatum) [pid:46.7%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:5.2e-163],MGA_23
sequence1	MetaGeneAnnotator	CDS	25103	26320	.	+	0	ID=MGA_24;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLNTLEELIGKKIFSLKEDFKVSINSKEATPNSVFFAINKGNDYAKEAESMGAFVIYDKKELDIHNGHYVEDSVKFMQEFARRYRKNNKFIVIGITGSNGKTTVKDILHSVLSNKGVRVYKTQGNYNNHIGLPFTILSAKDSDEILLLEMGMSNLGEIDLLGYIAKPDYSIITNIGQSHLEYLKTMENVFKAKTEIIPHTSKKVVVNGKDEFLSKLDGVIKVETKDIKTNLLGDHNLLNVSIVDSLLKYMGFDDLCYENIELTDGRFQIVKGKYTYINDAYNASPISMKASLETFSKICNESFKIIALGDMLELGSDEKKYHEDLSYVLRETNFDRLFLYGKRMKYLYEKLCNLDDISFKFEYFDNKEDIKKAIDNIETIKEKVVLLKGSRSMKMEDIMEVNN;locus_tag=LOCUS_00240;note=WP_124797249.1 D-glycero-beta-D-manno-heptose 1%2C7-bisphosphate 7-phosphatase (Fusobacterium canifelinum) [pid:44.3%25%2C q_cov:99.3%25%2C s_cov:70.6%25%2C Eval:2.7e-87%2C partial hit],MGA_24
sequence1	MetaGeneAnnotator	CDS	26320	27408	.	+	0	ID=MGA_25;product=phospho-N-acetylmuramoyl-pentapeptide-transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902299.1;translation=MLYYIQSLFIDQYTYLRVFKSISIRMGVAFGVALFFMIIFGNPFIKWLKYKKFGDTIREEGPESHYSKQGTPTMGGLLIISSILFSTLIAGNFTNKFTIFLFFMTIVFSSIGFYDDYLKLTKSKKGLSSKKKLLFQTIMTLIVFVFIYELGLVNKTIDFSIINPILKKSYIYIGPVMFFVFMFFIIVGTSNAVNLTDGLDGLVSSQIVVVSSILMLIAYAVGHYNWSEYINIYYVMGAGEIAVFLASIVGGSLGFLWFNFFPAQVFMGDVGSLTIGGLLGTIFILLKQELLLPIMGVIFFVEALSVIIQVISYRKFKKRVFKMAPIHHHFEKLGMPETKVTIRFLIITIIAGLLALIILKLR;locus_tag=LOCUS_00250;gene=mraY;EC_number=2.7.8.13;note=WP_005902299.1 phospho-N-acetylmuramoyl-pentapeptide-transferase (Fusobacterium nucleatum) [pid:47.0%25%2C q_cov:95.0%25%2C s_cov:94.2%25%2C Eval:5.0e-90],MGA_25
sequence1	MetaGeneAnnotator	CDS	27420	28793	.	+	0	ID=MGA_26;product=UDP-N-acetylmuramoyl-L-alanine--D-glutamate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029597345.1;translation=MIIVFGAGISGIGAKELLESKGKEVLLVDDKVGEITASKALEIIEDKEVEYIVKSPGISFENSFIKKAMEKNIPIYSEIDIAYEYMNKDIQIIAFTGTNGKTTTCTKTYEMLKKAGFNVELGGNVGRSFAEIVKENKELDYIVLELSSYQLENNPKIKPYISGIINLTPDHLGRYKDVEDYYMTKFNIFSNQDKKDRMIVNVDDATFLNLYNKAKELENYRNPKRVYISTNNKGSIFVKNGQIYVMKDLSEMYNSKFSLSQSADKLIDVKDIALKGEHNLENMLFLIATAKICGVPNKVIRNFLKEVKSIEHRMEDFFKKSNTVFINDSKGTNVASTKKAIASYENDVILICGGEDKKVPLYELGKEIGKKIKFTYIYGENRYLIENELKKVGYSKYSIFETVDECIMDIKDNVNFEEDITILYSPATSSFDQFKNFEERGKYFKNKVIEILGENNV;locus_tag=LOCUS_00260;gene=murD;EC_number=6.3.2.9;note=WP_029597345.1 UDP-N-acetylmuramoyl-L-alanine--D-glutamate ligase (Fusobacterium nucleatum) [pid:43.2%25%2C q_cov:98.7%25%2C s_cov:99.1%25%2C Eval:1.4e-90],MGA_26
sequence1	MetaGeneAnnotator	CDS	28786	29904	.	+	0	ID=MGA_27;product=putative lipid II flippase FtsW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003406017.1;translation=MYNFFRTDSKKKLITTIIILILILNIIGILNLLSLASPESLKNTLGLSHVSIIGKHLKYLIGTFASMFIITLFLNVNKLNKLTIFIMFFIVFGLIYTLVAGKSVNGARRWIGFGSFTIQFSEFAKLFLILVLAYMIERAYYIKKERLNIYIYTGLYTMFCAGLILISRSFSATVQFVLIFICMYWVSEVISYKKIIFTVICLGFSGVVAIFSKGYRISRLNLENEHALLSMKSISNGGFFGSGYGNGISRNFYLPEVQTDYIFAGFVDEWGFIGAIVLITLFILLIYFIFYSAKFANSVYEKMIIYGVGFMIANQFILHIGINVNLLPSTGVTLPFLSAGGSSMLTVGIGLGFVLSIILSMNDKLEEGVIYE;locus_tag=LOCUS_00270;gene=ftsW;note=WP_003406017.1 putative lipid II flippase FtsW (Pseudomonas) [pid:30.9%25%2C q_cov:81.5%25%2C s_cov:78.2%25%2C Eval:1.6e-35],MGA_27
sequence1	MetaGeneAnnotator	CDS	29897	30943	.	+	0	ID=MGA_28;product=undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626926.1;translation=MSKILITTGGTGGHIYPALALAEKLKEQGHELVFMGTCHRMEKEIVPARGYKFYGLDILPLRSIMGIVKLFKGIYDARKILKNEKIDYVIGFGNYISLPALLAGKTLKLDIFLQEQNVTMGQANKWMYPYAKKVFIAFSETLKSVKNNHKEKFVVTGNPIRPEFYNLSKEEVREKMGIAKDAKVITVMGGSLGAKNINDALIKKFEDIKNSKVIFYWATGKDLYKDITSKIEENENTIVVPYFEEAYNVMAASDILLCRAGASTISELIELEKPAMLIPYNFVGQKENAEILEAINSAKIYSNEEVEIAIDEAIRLVNNEDKLKYMKDNISKINPGNAVENIIKYFEV;locus_tag=LOCUS_00280;gene=murG;EC_number=2.4.1.227;note=WP_201626926.1 undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase (Fusobacterium canifelinum) [pid:45.0%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:8.1e-82],MGA_28
sequence1	MetaGeneAnnotator	CDS	30944	31585	.	+	0	ID=MGA_29;product=pyroglutamyl-peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015794.1;translation=MDKILITAFEPFGGEKINSTEKVLNFLPEKIGNLEIIKLLLPVVRNKSLCKIKDKIMEEKPKYILSLGQAGGSKNIAIERIGINVDDYRIKDNAGNQPIDEKIFCDGENAHFSTLPIKKIYEKLENKGYSVKISNTAGTFVCNHVLYGIRYMIEKEKLDIKSGFIHIPYIDEQVKDDNTFSMSIKDILNAIICAIEVIENYEKDEKIVAGEIF;locus_tag=LOCUS_00290;gene=pcp;EC_number=3.4.19.3;note=WP_011015794.1 pyroglutamyl-peptidase I (Fusobacterium nucleatum) [pid:57.7%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:4.2e-62],MGA_29
sequence1	MetaGeneAnnotator	CDS	31713	31841	.	+	0	ID=MGA_30;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILLNIIITINLDFKENRINIKELKYGVRKLHKIRECEKNL;locus_tag=LOCUS_00300;note=MGA_30
sequence1	MetaGeneAnnotator	CDS	32257	32691	.	-	0	ID=MGA_31;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTRKEKYENEKYFKKSEYMKDFEESFENIKIELKEISEKLFNLLPDKSINSEEKIERLARLIPESIMESEFSRTGRTKLNIIRRKLDYLVPNPNLNYFEKIDYLVSIANNLVPDKEKLIEKLEEIDDFRRTDNGRLFVSEESK;locus_tag=LOCUS_00310;note=MGA_31
sequence1	MetaGeneAnnotator	CDS	32693	33319	.	-	0	ID=MGA_32;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVIEGNKKSYIKEILESYRFVFSHLLLKLIIICYIILVVSIGIFTSIQTFFILKTLKLDKSSLGLIIGLGNIGFFIGSFIASFLSKKVKIAKSILLSISFYFLGYISFYFFKSVYFLILGQVLISAALPVYNINIVTLRQNVTPTEKLASVSSIFRVCGRGLVPIGALIGGVLGTVISLKYSILIAAFIVILSAIPIVFSKNLMEGK;locus_tag=LOCUS_00320;note=MGA_32
sequence1	MetaGeneAnnotator	CDS	33300	33920	.	-	0	ID=MGA_33;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKSMKIINKNFSFLSFSSFFDKVAIQFSIFLFPLIAIYLYEANLMKTSLITFVTFIPNLLFSNHIGIFVDRHNKKKILLISNIISTILIFVLILSIFLKIRSFILFYFIIFLSNTIRVFYTLTYISYIPVLVEKENFRKANIVLEVINSFVQVIFPSLLGILINYVSLPMLTLGYGFSHILSMLGQLFINKEEEIKNKNEGNRR;locus_tag=LOCUS_00330;note=MGA_33
sequence1	MetaGeneAnnotator	CDS	34109	35095	.	+	0	ID=MGA_34;product=class II fructose-1%2C6-bisphosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010932731.1;translation=MKYNYKDLGLVNTKEMFAKANREGYSVPAFNFNNLEQLQAIVEACVEMGSPVILQVSTGARKYIGKEMLPFLAKAATAYVKATGSDIPIALHLDHGPSFEACKDCIEYGFSSVMIDASHHSFDENIELSKKVAEFAHQNDVTVEAELGVLAGVEDDVVAEETIYTQPDEVEEFVNRTGVDSLAIAIGTSHGAHKFKPGDDPKIRLDILKEIEKRIPGFPIVLHGSSSVPQQFVKKIIQYGGAMKDAIGIPDEQLLLSSKSAVAKINVDTDGRLAFTAGVREVLANNPGEFDPRKYAGKAKEYMKEYYKSKIIDVFGSQDAYKRGVEVK;locus_tag=LOCUS_00340;note=WP_010932731.1 class II fructose-1%2C6-bisphosphate aldolase (Chlorobaculum tepidum) [pid:66.1%25%2C q_cov:95.4%25%2C s_cov:96.9%25%2C Eval:7.1e-117],MGA_34
sequence1	MetaGeneAnnotator	CDS	35161	35661	.	+	0	ID=MGA_35;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFGRMTDTEIAKMILKGLGKEENIDSLESCFTRLRVGVKNLDKVNTEVLKESGAIDIVIIDENNIQIVMGPKAPKILSIINNSGIDEKDLAKDVKIIEALGKKENIDSLESCFTRLRVGVKNLDKVNTNVLKEIGALDIIVVDENNIQIVMGPKAPKILEDLKKLI;locus_tag=LOCUS_00350;note=WP_011948069.1 PTS transporter subunit EIIC (Clostridium) [pid:42.7%25%2C q_cov:45.2%25%2C s_cov:14.1%25%2C Eval:2.6e-11%2C partial hit],MGA_35
sequence1	MetaGeneAnnotator	CDS	35670	36623	.	+	0	ID=MGA_36;product=ROK family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903111.1;translation=MKYFVGVDLGGTNVKIGILDSEYNILTEESIKTESKRGPEDTFTRIWNKIQELFTKISVDISELEGIGFGIPGPVVNKSIVKIAANFSWGNDFNAKELFERISGKTVIVENDVRAIALGENLFGASKGYKNSIILPIGTGIAAGMIINGELISGNDGAAGEIGHISVDLNGYKCGCGLTGCLELFTSAKGIVREGIKVLKQEKKGILYETFKDDFEKLEAFHIFLEARKGDEVAEIIVDNFCNKLAYGIGVLINLVNPEIIVIAGGLAKSSDLIIAGVKKHLPKYALNMSIDIPIVKSELLDSAGVKGAASLIINKK;locus_tag=LOCUS_00360;note=WP_005903111.1 ROK family protein (Fusobacterium nucleatum) [pid:43.8%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:1.0e-72],MGA_36
sequence1	MetaGeneAnnotator	CDS	36636	37121	.	+	0	ID=MGA_37;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILMALSIISSLFTFSAEAKYKLSEVEQAVIQTELTKIAEKGTLDLIYSDFNTYVADLIKKEKSKNSKYDETKFENKKSLYTLGLKHIFAQIGYESNFSIKELPGNKAEFKYYVDKTIDSKDAYYLDKAVVEILNNLYQKPTEVTFKLYSDVKLTKEKK;locus_tag=LOCUS_00370;note=MGA_37
sequence1	MetaGeneAnnotator	CDS	37131	37565	.	+	0	ID=MGA_38;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFIAIMILLSFNSFSMIDIEDGLAELNNIKKELIIKYKKVMNIDFSDVSEKSTNELRIFNETLYLKFLSKYVFDVTDVKMYSSKNVNNLVIFADTPIEKDDFDSIYSIIAKKENDKRLKLLQVPSSSTKNIIIQEKSSERD;locus_tag=LOCUS_00380;note=MGA_38
sequence1	MetaGeneAnnotator	CDS	37572	39167	.	+	0	ID=MGA_39;product=CTP synthase (glutamine hydrolyzing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003227612.1;translation=MIKYIFVTGGVVSSLGKGITAASLGRLLKERGYKVTIQKFDPYLNIDPGTMSPYQHGEVFVTADGAETDLDLGHYERFINEELTKYNNVTSGKIMSTIINKERKGDYLGGTVQVIPHVTNEIKKKIMQAGKASNSDIVITEIGGTIGDIESNPFIEAIRQFKKDVGRENVIYIHVTLLPYLKAAGELKTKPTQQSVKMLQGLGVNPDIIILRSEHPVDKNIKSKVSLFCDVDESSVIEALDANNLYEIPIHMEDLGLADEVCRKLNLENIKPSLEKWKEMVNRFMNPKHEIKVAVVGKYVELKDAYISINESIEHAGFHYDTKVQIDYLKAEEFDLTELKEYDGILVPGGFGGRGIEGKINTVRFARENKIPFFGICLGMQMATIEFARNVLGMQGANSTEFDENTPYPVISLIEQQGDIENLGGTMRLGAYPCKLDPNSKAYALYGQMEVLERHRHRYEFNKKYLEEFEKHGFKIVGKSPDGNYVEIIEVEDHPFFIAAQFHPEFMSRPNKPHSLFKGWIKAILDKKNIK;locus_tag=LOCUS_00390;gene=pyrG;EC_number=6.3.4.2;note=WP_003227612.1 CTP synthase (glutamine hydrolyzing) (Bacillus) [pid:60.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.0e-198],MGA_39
sequence1	MetaGeneAnnotator	CDS	39213	39416	.	+	0	ID=MGA_40;product=S4 domain-containing protein YaaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963332.1;translation=MEIKINTEYIKLDQLLKYANLVENGSSAKEMILEGRVLVDNEVEVRRGRKIYRGMIVEFEGERVEVK;locus_tag=LOCUS_00400;gene=yaaA;note=WP_010963332.1 S4 domain-containing protein YaaA (Clostridium) [pid:58.5%25%2C q_cov:97.0%25%2C s_cov:95.6%25%2C Eval:4.5e-14],MGA_40
sequence1	MetaGeneAnnotator	CDS	39413	40489	.	+	0	ID=MGA_41;product=DNA replication/repair protein RecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016062.1;translation=MIKEIFFSGFRNLIDKRIKLSRGFNLIYGENAQGKTSFMEAIYFGATGRSFRTKKNNEMIKYDSNDAKIFVKLDNTSNYSINLFKNEKKYFKNGEKIKYVDYIGDILAVSFIPEDVELVMGNPSIRRGFFNYEISQINKEYLHLIVDYEKILKVRNKMLKDKKHKEELYLIYNEKYIDICAKILKIRKEYVDELNKYLDKNYKDLFNIEHNFKLIYENFLKIDDVSDIEENKKIIEKLLKSKEIYDIQVGYSNYGVHKDEYIFELNGKNARHYSSQGEKKSIVFILKISEIELIEKKENKKPIFLMDDITSFFDNFRKNQIIHYFLEKEIQCFLTSTEDLKIVGKKFDVDRGIINEKD;locus_tag=LOCUS_00410;note=WP_011016062.1 DNA replication/repair protein RecF (Fusobacterium nucleatum) [pid:40.3%25%2C q_cov:99.4%25%2C s_cov:98.1%25%2C Eval:6.7e-71],MGA_41
sequence1	MetaGeneAnnotator	CDS	40476	41318	.	+	0	ID=MGA_42;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKISNMALEIKKYFGFNYDKFVDNALISKCSICSIKDGYINIYVNDPNVKIFINQIKYNILLEARKYCEIIDIRILDDKKNIVNTRNMKRQMMKEKTTFDDGVKYIKISDEEKDKILSDISKLEVSEEVKNHLYDIAEIYFKKGMEVKVTCPVCNMDRIDLIGDKCLICIQKELEYSREEAYYNLKKDPYILNNSKIYIDARRRILEEKVDKIFKYLDSKKEKADINIINFLFMDYAVYKAGSMDTEIQFLAANELRKKLFHYYKNKNINIPVLGENNE;locus_tag=LOCUS_00420;note=MGA_42
sequence1	MetaGeneAnnotator	CDS	41311	44013	.	+	0	ID=MGA_43;product=transcription-repair coupling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016080.1;translation=MNKENIRLLKEEVVNKLTSMGIFKMVVISSASNNLEYYYNILKQEGSEYESKYVNLSSYSFIDLVGVNIEILEFLNKNTKGILFLDINLALKIFFDEFKSKEFKVNEEYSRDEILKYLVENGYKKEYTVLNKGEFAIRGDIIDIYPSNLDNPIRLDFFDTILENIKIFSTYDQRSIENIEEITVFGNVLSGMEREIVDMISIFSKGNIEIFLENKEFLEVKLEQMLMFDKDNEKVLKERFNKLIEKGNLLEVSRSKDRNYQDEIKSKRERIEKKGIKYSNINQILEGDYVIHVEFGIGIYMGAVNINDRDYLYIQYADNDKLYIPVEKLDRISKYMSTGIAPKLYSLGTKGFKRREKRIREDVEKFAQELINIQAKRKLVRKLPLIKDTLWQEEFEEKFSFNLTWDQQKAVEDIKHDLESGRLMDRILVGDVGYGKTEVAMRAAFKAIENGYQCAILAPTTVLANQHFERCHKRFEDFGISVNNLSRLTGKNTDDVLDGLKNGKIDLVIGTHRLLGDDVKFKNLGLLIIDEEQKFGVNAKEKIKKRKEDIHLLTLSATPIPRTLNLALLGIRDISLIQSSPMDRLPIITQKIQEDEIKKVILKELSRDGQVFYITNNVKGMAEKQKSLKKLMPDFVNIEYIHGKLSPREIKQKINDFDEGKFDILIASTIVENGIDITNANSIIIENYTSLGLSQIYQLRGRVGRGKRQGYCYLLDSEYKSKKGKEKDKSLEKIEGVEGGGYLLSLEDLNIRGAGEILGEKQHGAIDMFGYDLYLKMLKNEINKLKGEKVREFKNTEIDLLNNGYIPEEYIEKDERILIYKRYAEVQNESELNELTEEIRDRFGKIPKQMQNFIYSIKIKLYMIENNIDKIKENDKEYILTLQEFEVILTKEEFSKRIKK;locus_tag=LOCUS_00430;note=WP_011016080.1 transcription-repair coupling factor (Fusobacterium nucleatum) [pid:42.5%25%2C q_cov:94.8%25%2C s_cov:92.8%25%2C Eval:7.1e-204],MGA_43
sequence1	MetaGeneAnnotator	CDS	44190	44486	.	+	0	ID=MGA_44;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSINDIIATILIAIVGIAIEYSINKYIGRLVLLISMFFYHLHLESIMNIFEINDVIIIFLILGINFIVEYHTNKYVSLITYTLAVFVYFLFKIPSNIY;locus_tag=LOCUS_00440;note=MGA_44
sequence1	MetaGeneAnnotator	CDS	44616	48326	.	+	0	ID=MGA_45;product=phosphoribosylformylglycinamidine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494805.1;translation=MSDLRFFVEKKKHCNFERRRLLKQLQEELGVVSLKDIRILNCYDIFGCPNDMEDIKKMILSEPVTDDIFEKLELNDEKYFAIEYLPGQFDQRAHSAMQCIDILISNKNVEITTSKIFIIYGEVSNDELQKIKNYIINPIETREKNLNILKKEKINVNTNIIQYNNFINLNSDELENLRKNLGLSMTYEDILHIQNYYKSEKRNPTETEIKVFDTYWSDHCRHSTFETKINNVKFPDSEYGKFLNLEFKKYLEIKEIVSKHKNITLMDMATVVAKYFKKIGKLDNLEISEENNACSIYIDVETEKFNGEKNIEKWLLMFKNETHNHPTEIEPFGGAATCLGGAIRDPLSGRAYVYQAIRVTGSANPLESIENTLKGKLSQKKITTGAAHGYSSYGNQIGIATSLVSEIYHEGYKAKRMEVGAVVAAAPLENVVRKTPENGDSIILLGGKTGRDGCGGATGSSKEHTNKSIFLCGSEVQKGNAPEERKIQRLFRNGNVTKLIKKCNDFGAGGVAVAIGELADGIDVNLDLIPVKYEGLSGTELAISESQERMAVVVAKEYVEEFLKEAEKENLLATVVGKITDNERLILRYRGKEIVNISRGFLNTNGATQEIDIKIENIDVKDFLSRDLSSNTFKEKWLENIEKLNVASTKGLSEMFDSSIGASTVLMPYGGKYQLSPIDVSIMKIPMISKKTNTSSAITWGYNPYLTEKSPYHGSMYAVLESIAKLVASGTSYDGIYLSFQEYFEKLGKDNVKWSKPMLALLGAMRCQLDFEIAAIGGKDSMSGTFENISVPPTLISFAVNTVNAKDVISTEIKEVGNRIYLVENKINDDLSYNSKDIKEKYSKVLDEIKKGKILSAKVVGMGGIAGTLSQMCFGNKIGIKLDNLDLDYFKYMPGSIIVESKEELDFTLIGESIKEFNITFKDEVIDLEKLLYLWLNKLDNVFPYEYKEEKKEYINISKPKIIDYSSSIKVAKPRVLITAFPGTNCEYDMKNIFERNGAITNITLFKNLNRTHIESSIDEICKELKNSQIFVIPGGFSAGDEPDGSGKFIATVLQNPKIKEEIERFLQRDGLILGICNGFQALVKSGLLPYGNIGEITEDSPTLTYNKIGRHISQMVKTRISTNRSPWLSSFNVGDEFDLPVSHGEGRFFASEKTLQKLIENGQVATQYVDFNGKATNEFKFNPNGSEFAIEGIISPDGKIFGKMGHSERTGENILKNVSGNKYQNIFKNGIEYFK;locus_tag=LOCUS_00450;EC_number=6.3.5.3;note=WP_029494805.1 phosphoribosylformylglycinamidine synthase (Fusobacterium hwasookii) [pid:66.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_45
sequence1	MetaGeneAnnotator	CDS	48338	48817	.	+	0	ID=MGA_46;product=5-(carboxyamino)imidazole ribonucleotide mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003357851.1;translation=MQVAIIFGSRSDLNVMKGASNVLKEFDIKYEAFILSAHRVPELLEETIKEIEEKGCEVIIAGAGLAAHLPGVIASKTILPVIGVPINASLGGIDSLYSIVQMPKGIPVATVGIDNSYNAGMLAVQILSVKHLEIKEMLIRFRKEMKEKFKLDNEVKVEI;locus_tag=LOCUS_00460;gene=purE;EC_number=4.1.1.21%3B 5.4.99.18;note=WP_003357851.1 5-(carboxyamino)imidazole ribonucleotide mutase (Clostridium botulinum) [pid:69.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-56],MGA_46
sequence1	MetaGeneAnnotator	CDS	48820	49617	.	+	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYEELFLKDLEDYKKILNGYNDKENKKRICGEQALKPNLYENICFDIYSLNRKTLDYYFKFSEDKIVKVSYEELNKNEIIVRKYLSEKNKVSILETLNKFSNLIELFPEKYEKDTEKNTVKLILVSIAIILYYSKILKYFQLEISKLDMNKLYSEYDEVEYMKVENLLRDITTFYVKTYYKYPLNEMRETSEITEYLMEYYNIDKQMQELTRNLTIIKDAIFYQIQKKEEKLIDRRDFIIQILGIVFTILGLLIGVIQIYQVFK;locus_tag=LOCUS_00470;note=MGA_47
sequence1	MetaGeneAnnotator	CDS	49636	50349	.	+	0	ID=MGA_48;product=phosphoribosylaminoimidazolesuccinocarboxamide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016809.1;translation=MEKTNFLYEGKAKQLYLTDDENLVIVLYKDDATAGNGIKKGSIKNKGILNNDITTLIFNLLEDHGIKTHFVKKLNEREQLCQKVDIFPLEVIVRNVIAGSMAERLGIKEGTKPINTIFEICYKNDKYGDPLINDHHAVSLGLATYDELREIYSITDKINKLLKEKFDELGIILVDFKIEFGKNSKGEILLADEITPDTCRFWDKETGEKLDKDRFRRDLGNIEEAYLEIFKRLAGKN;locus_tag=LOCUS_00480;EC_number=6.3.2.6;note=WP_011016809.1 phosphoribosylaminoimidazolesuccinocarboxamide synthase (Fusobacterium nucleatum) [pid:81.8%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:2.7e-111],MGA_48
sequence1	MetaGeneAnnotator	CDS	50372	51739	.	+	0	ID=MGA_49;product=amidophosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016808.1;translation=MSNTKMVKRIEEGGVFALYSKTLRDDLVSISYYGLYALQHRGQESAGVTICDALSEDIRHKTIKGKGLVSDVFSVDDLKSYVGNILVAHVKYGIESGTSYRNYQPLRGDSLLGKVSIVHAGNLINTNKIVLELLEEGSMFQTETDTEIILKLIGKNAKYGYRNAILNTIKSIEGAFAIATIIEDKLVAIRDPHGIRPLCLGQFEDGTYVVASESCAIDSIGATFIRDIEPGEMIIIDRNGIESIKYDDRKERSYSSFEYIYFARPDSVMDGLSVYKARHSCGRYLYEQNPILADLVIGVPDSGVAAGIGFSEASGIPYATALLKNKYIGRTFIMPGQASREMAVRLKLNAMKTLIAGKRVVVVDDSLVRGTTSKILIKILYEAGASEVHFRSASPVVISESYFGASIASDKELIGNSMNIDEIREYIGATTLEYLSIENLVKALNGLDCNLDCFK;locus_tag=LOCUS_00490;gene=purF;EC_number=2.4.2.14;note=WP_011016808.1 amidophosphoribosyltransferase (Fusobacterium nucleatum) [pid:61.6%25%2C q_cov:97.1%25%2C s_cov:99.1%25%2C Eval:9.3e-156],MGA_49
sequence1	MetaGeneAnnotator	CDS	51761	52762	.	+	0	ID=MGA_50;product=phosphoribosylformylglycinamidine cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016807.1;translation=MSNSYKASGVDKEEGYKAVKLMKEKVIKTHNGSVLNNLGSFGAMYELGKYNNPVLVSGTDGVGTKLHIALKQKKYDTVGIDAVAMCVNDILCHGAKPLFFLDYLACGKLNAEVAAEIVSGIAQGCLEAKVSLIGGETAEMPGFYKIGDYDIAGFCVGVVEKDKIVNGSKVKHGDIIIGLASSGFHSNGYSLIRKIFSDYDEEILGKKIDEILLTPTRIYVENVLKILDKFNVNGMAHITGGGLIENLPRAMGENMSPVVFKNNLIVPDIFKELQRRGDISEEEMFGTFNMGVGFTLIVDSKDVDNILEELNNLGEKAFIIGHVEKGDNTLCLK;locus_tag=LOCUS_00500;gene=purM;EC_number=6.3.3.1;note=WP_011016807.1 phosphoribosylformylglycinamidine cyclo-ligase (Fusobacterium nucleatum) [pid:72.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-145],MGA_50
sequence1	MetaGeneAnnotator	CDS	52750	53298	.	+	0	ID=MGA_51;product=phosphoribosylglycinamide formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016806.1;translation=MSKIAVLVSGSGTNLRKILENNIDVAVIISDRKCLSEDIAKEYNIPYFELERKNISNKILDILNDIDVELIVLAGFLSIIKGDILDKYENRIINIHPSLIPKYSGVGMYGMRIHEKVFENKETISGTTIHYVTKGVDEGKIIRQEIVDVREAKSPEEIQKLILEREWEIYPKTIKEILEERK;locus_tag=LOCUS_00510;note=WP_011016806.1 phosphoribosylglycinamide formyltransferase (Fusobacterium nucleatum) [pid:54.4%25%2C q_cov:98.4%25%2C s_cov:100.0%25%2C Eval:3.4e-53],MGA_51
sequence1	MetaGeneAnnotator	CDS	53298	54800	.	+	0	ID=MGA_52;product=bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016803.1;translation=MKRALISVYDKENILEIANFLEKRGVEIISTGGSYNYLKENNIKVIDISEVTNFPEMLDGRVKTLHPNIHGGILAIRDKEEHMKTIKEHNIDTIDYVIVNLYPFFEKVNEDITEAEKIEFIDIGGPSMLRSAAKSFEDVVVISDKEDYNLVIDEINEIGDVSLSTRKKLAAKVFNLTSAYDGAIFNFLNEEEFPKYLTISYTKESEMRYGENSHQMAAYYVDNTNDGAMKGFKQLNGKELSYNNIRDMDLAWKVVCEFDEIACCAVKHSTPCGVAIGSDVKDAYVKAYECDPVSIFGGIVAINREVDLQTAELLSKIFLEIVIAPKFTSDALEELKKKKNLRIIECLKKPIDKKEMVKVDGGMLYQDVDNILYSNLKVVTEKTVNDSEMKDLIFGLKVVKYVKSNGIVVAKDGKTLGIGAGEVSRIWAAEKALERSKKTSGAIMASDAFFPFEDVVELSAKYGISSIIQPGGSINDEKSIKACNMNNIAMVISEIRHFKH;locus_tag=LOCUS_00520;gene=purH;EC_number=2.1.2.3%3B 3.5.4.10;note=WP_011016803.1 bifunctional phosphoribosylaminoimidazolecarboxamide formyltransferase/IMP cyclohydrolase (Fusobacterium nucleatum) [pid:71.1%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:1.4e-205],MGA_52
sequence1	MetaGeneAnnotator	CDS	54809	56020	.	+	0	ID=MGA_53;product=phosphoribosylamine--glycine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016802.1;translation=MKVLIIGSGGREDAIMWKIKQNSNVEKIYIKSSNDIFEIKDFALKEKIDLTIVGSEELLVKGIVDEFKNARLKIFGPDKKAAMLEGSKDFAKKFMKKHGVNTAKYESFTDKLKAIEYIKENRIYPIVIKASGLAAGKGVIIAENEYEAIRAINDIMENRIFGSAGDTLVIEEFLKGVEVSILSITDSNVILPFKSAKDHKKILEGEKGLNTGGMGVISPNPYYSEKVEKEFIEKILNPTLEGLKKEKMNFSGIIFFGLMITEKGVYLLEYNMRLGDPETQCLLPLMENDLIELINASLERKLDEIEIKWKDEHSCCVVAVSNGYPEHYEKGKEIKGIENIDKDSQVFLAGVKKESDKYYSNGGRVLNIVSQAKTREKAIEKAYEQLEKICFEGKYFRKDIGKV;locus_tag=LOCUS_00530;gene=purD;EC_number=6.3.4.13;note=WP_011016802.1 phosphoribosylamine--glycine ligase (Fusobacterium nucleatum) [pid:61.1%25%2C q_cov:99.5%25%2C s_cov:98.1%25%2C Eval:5.3e-144],MGA_53
sequence1	MetaGeneAnnotator	CDS	56071	56310	.	-	0	ID=MGA_54;product=DUF2087 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002360471.1;translation=MINNFFKNDRLIKIPKKYEAKLEVFKFFHDKFEYNKEYTEKEINEILKEYFDDYAVLRRYLIDFKYLKRDKNGKVYEKI;locus_tag=LOCUS_00540;note=WP_002360471.1 DUF2087 domain-containing protein (Enterococcus) [pid:55.1%25%2C q_cov:98.7%25%2C s_cov:90.7%25%2C Eval:9.9e-22],MGA_54
sequence1	MetaGeneAnnotator	CDS	56303	56557	.	-	0	ID=MGA_55;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQAFSILGIILSTYTHPNLIKNDESRATIVSVLNTFSGLIMTILLSLNGILSTRFGILNSWRIFILLSIIAVLIVSMWEEPKYD;locus_tag=LOCUS_00550;note=MGA_55
sequence1	MetaGeneAnnotator	CDS	56593	59379	.	+	0	ID=MGA_56;product=type I pullulanase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001167510.1;translation=MDKILKKIVFMFLLLMQMFMFAASTKVTIHYKPSENLEWDLWVWGDKAGGNAYAFDKEDEFGKYAEITLDGEHKKVGYIVRLSDWSKKDVAEDRFIDIQDGEAEVWVKSQDPKTYYSNPDKAPLIFNNVNLEISYYPVEKDAKKYRVKVWSEGGKAKYINLVKDGEKFIAKGNYEGKEITKLNFEITKRWWFFFEKKVDVAREITKIDESGNVKIYVNQEDKMIYKSEKSATKPKAIENASIDTMNSITVKTNKNFNLKKEIARGITTNFDNKIKEIVSLTDDEFQTNIFKIVFDNDLDLKNKNGEIMISSFGKSKVNLGAVVRDKSFDDFYAYDGKLGSIYTKDFTTIKVWAPTADFVNLLIYEGEKITRKAMTLGEKGVYSITLDGDRLGLVYQFEVGVNGEVNITNDPYTYGTTVNGGKSVVVNPIISNVDYPKLDNVIIYELHVRDLSSHPLSGIKNKGKFLGLTEKGTKTSRGQITGLDYIKSLGITHVELLPIYDFSSYSVDETNQFARYNWGYDPVNYNTPEGSYSTNPYDPNVRIEELQKMIDTLHKNNLGVIMDVVYNHVFSAGEHAFNKIVPGYYYRYDNEGNLTNGTGVGNDIASERKMVRKFIIDSAKYWAKTFKLDGFRFDLMGILDVETMKELRDEMKKINPNFFILGEGWDMGTLDPEMKASQNNANKLEGIAFFNDDFRDAVKGSTFGQIGKGFISGNLKQEERLFASIKGGEGIRTYSSPMQLIQYIEAHDNLTLFDQISRTNNTEDLETITRRHNLGTTIVLLSQGVPFIHAGQEFLRTKGGDENSYRSSDEVNRLDWELAKKNRASVELVRELIKIRKENPDFNLKTFDEVNKNISPIKVIDQLIAYTQADKIIAFNASGKNKELKIPNGKYIVLVKGNKASAKGLEEIEVKDGKVIIPMQSALVLKNK;locus_tag=LOCUS_00560;gene=pulA;EC_number=3.2.1.41;note=WP_001167510.1 type I pullulanase (Bacillus cereus group) [pid:42.9%25%2C q_cov:85.8%25%2C s_cov:94.6%25%2C Eval:3.0e-173],MGA_56
sequence1	MetaGeneAnnotator	CDS	59552	60775	.	-	0	ID=MGA_57;product=IS91 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011674482.1;translation=MYNSNKIKSIFSKYILTNSINSIKPYFDKKHIEHINHSIHNFLNCGNLSKGFISYRCSSCNFQHKMKLTCKSRLCPSCGYNYSVNWTNSILKQFINIPHRHVLFTVPKEFRKFIAYDRSILSKMSKAINDIFKYQFHNIKDKVKRKIYIPKSNPNYFTNSDIINYGLITVIHTFGRDLKFNPHIHAIISLGGFNKKFQYKELKYFHVPSIANQWKFSLCKLISNANYPNDIIKIQAKKAVSNVYDNDVRFFFNVAGNDINNPKYIIKYLGRYLSRVPIAEYKIVNIDFNKNSLTFKFEDLSNNKEVTYSTLSFKDFVAKVLFHLPLKYFKMINRYGFYARRISSKVKMSLFYLKAQVNKKSLSLFRKNFKELWDFDPFMCPHCNIYLKRYELFIDNGLSPPIHKFYN;locus_tag=LOCUS_00570;note=WP_011674482.1 IS91 family transposase (Lacticaseibacillus paracasei) [pid:26.2%25%2C q_cov:87.0%25%2C s_cov:76.9%25%2C Eval:8.0e-39],MGA_57
sequence1	MetaGeneAnnotator	CDS	61490	62077	.	+	0	ID=MGA_58;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPNAQCGQFVLLPDLKKGVFIYSLKNKTNENEYSRMIVNFMNRNFNEFCNSGTTGLDINMPKSVFYNWIIKYYREKGVEFFITKDMDKFLIVPIDQFSKYFDVKAKYREKKRGSSSLTNSNKYDFENAMNKSGINFNFNELDIMSDKYLDGIKVNGNKYDYLIIQKGNNYKVRKLSNTRNANVIFSIKLMDYDLE;locus_tag=LOCUS_00580;note=MGA_58
sequence1	MetaGeneAnnotator	CDS	62188	63177	.	-	0	ID=MGA_59;product=DNA cytosine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010951379.1;translation=MIEVKNKSLAGLKFIDLFAGLGGFRLSLESFGAECVYSNEWDKNAQKVYQMNFGDMPEGDITLIDENNIPDHDILCAGFPCQAFSISGKQKGFEDNRGTLFFDVARIIKAKNPKVVFMENVKNFASHDNGNTLKIVQNTMIDLGYDFYYDILNSLDFGIPQKRERIYMVCFRKDLNIKNFIFPKPFKLSTFVEDLLLPDEEVSNLIINRDDLVLKDKEIKENSNKAIRIGTVGKGGQGERIYSPKGIAITLSAHGGGIFSKTGGYLINGKTRKLHPRECARIMGYPDTYLIHPSSSQAYKQFGNSVVIDVLQYITKNMGEALNNKYNYI;locus_tag=LOCUS_00590;note=WP_010951379.1 DNA cytosine methyltransferase (Neisseria gonorrhoeae) [pid:42.8%25%2C q_cov:95.1%25%2C s_cov:95.2%25%2C Eval:3.1e-64],MGA_59
sequence1	MetaGeneAnnotator	CDS	63305	63790	.	-	0	ID=MGA_60;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLAALFLHIICEIFLPNPMFEKIHNDLSKEHMDMVINVLKKYNIDINDQNTLDLLIHEAEISKIKCAPFQKLKINLSTLGTAFIYNLPSIISIILTLKIKGEILFNIIKLIVYTVIISLITFCLVVFIIKVLFFSDHIKYDQFIEDIRQIKIFHSKKSKK;locus_tag=LOCUS_00600;note=MGA_60
sequence1	MetaGeneAnnotator	CDS	64105	64668	.	+	0	ID=MGA_61;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461583.1;translation=MEHKGTVRLETDRIILRQFTKDDYEAVFKNFESDVEITKYLRWKATDDLNVSIKIVDSWIDSYKNKDVYQWAIVPKDLNEPIGTISVVSLDEKINKVHIGYCIGSKWWNLGYTSEALSTIIPFFFEEVKANRIESQHDPNNINSGKVMLKCGMKYEGTLRQNDWNNQGIVDGAVYGLLASEYFENKG;locus_tag=LOCUS_00610;note=WP_011461583.1 GNAT family N-acetyltransferase (Desulfitobacterium hafniense) [pid:54.0%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:2.9e-58],MGA_61
sequence1	MetaGeneAnnotator	CDS	64848	65822	.	+	0	ID=MGA_62;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966906.1;translation=MNNMLKYIVKRTFTGLITLWLVITITFFLLHKLPGDPFESEKAIPPQIKASLMQKYDLDKPLSTQYFKYLKNMSKGDLGVSMKERGRTVNSIIKRSFPVSADLGIRAVLFGLIFGIPLGIAAALKRGKKLDHFSMLIAIIGISVPSFVIAGILQLYAVEIHKGILIDKIGLPLGRIFLTGWDLPSKKILPVIALGFFSLAEVARLMRSKMIEIMEQDYIKLAIAKGVSPINVVFKHALRNAILPIITVISPSIAAVLTGSFVIETMFSIGGLGKYYIDSIIDRDYTMVLGVTIFYSAFLIFMMIVMDVTYALADPKIKLGKGDN;locus_tag=LOCUS_00620;note=WP_010966906.1 ABC transporter permease (Clostridium) [pid:48.7%25%2C q_cov:97.5%25%2C s_cov:99.3%25%2C Eval:6.2e-81],MGA_62
sequence1	MetaGeneAnnotator	CDS	65822	66787	.	+	0	ID=MGA_63;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966905.1;translation=MKNLHGANYDRENYVANPEDFVYVGPDINRNEKINKPSLTYWNDSWRRFKKNKLAVFFLAILLTYVFIGMFGQLISKYSYFEQNSSDRFLSVFNGFSKGHYLGTDSLGRDIFARVSQGIRVSMELSIIVATICVVIGTVYGATAAYFGGKIDSIMVRIVEIIMSIPSIIYIILLMVVLGNSVETIIIALCATRWLNYALLVRGEVLKIKENEYVLASRALGANFWHIVRKHLIPNTLSIIIVRLTMDIPSIIFSEAFLSFIGLGVPIPQASLGNLVADGFKEINTHVYLFLIPALTISLITLSFNIIGDAMSDALNPKLRD;locus_tag=LOCUS_00630;note=WP_010966905.1 ABC transporter permease (Clostridium) [pid:42.8%25%2C q_cov:94.7%25%2C s_cov:97.4%25%2C Eval:1.7e-70],MGA_63
sequence1	MetaGeneAnnotator	CDS	66797	67912	.	+	0	ID=MGA_64;product=oligopeptide ABC transporter ATP-binding protein OppD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886477.1;translation=MSLLEIKNLSVSFNTYAGEVKALRDISFTVDRGETLAIVGESGSGKSVTVQSIMKLIPTPPGEYKSGEIIFDGVDLLKLNEKEMRKYRGGRIGMIFQDPMTSLNPVIKIGHQIMEGILIHKNVSKKEAKKMAIDMLAKVGIPKPEERFEQYPHQFSGGMRQRVVIAIALACEPDLLICDEPTTALDVTIQAQILELINKLKKELNIGVILITHDLGVVAETSDRVIVMYAGEKMEEAPVKNIFKDPKHPYTWGLLKSLPRLDMDSNEALFSIPGTPPDLLDPPTGDPFAARSDFSMKIDYEKKPPLVDLGDGHYVKSWIYVDGAPDMKFNPDGTIRIKPVDGRAYIVDTTKSKSGLKFANIVESEDMNDSN;locus_tag=LOCUS_00640;gene=oppD;note=WP_010886477.1 oligopeptide ABC transporter ATP-binding protein OppD (Bacillus subtilis) [pid:58.9%25%2C q_cov:90.6%25%2C s_cov:93.3%25%2C Eval:1.8e-111],MGA_64
sequence1	MetaGeneAnnotator	CDS	67899	68810	.	+	0	ID=MGA_65;product=oligopeptide ABC transporter ATP-binding protein OppF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245567.1;translation=MIVIRHLKKYFPLSKTEVLKAVDDVSLDIKKGEILSLVGESGSGKTTFGRTIARLYNKTYGNVYIDGKEISEYKNMEFTKKVQMIFQDPQASLNPRMTVGEIISEGMIIHKMYKNSSEIQEKIYELLELVGLSREHASRFPHEFSGGQRQRIGIARALAVEPEILICDEPISALDVSIQAQVVNLLKNLQKKKNLTMIFIAHDLSMVKYISDRVAVMFRGKIVELGQPDEVYNNPIHIYTKSLLSAVPIPDPEYVKKDKVEMDESYLKSPIGTYDEIDKIVENSGLIEYRKGHYVEKDFLEIK;locus_tag=LOCUS_00650;gene=oppF;note=WP_003245567.1 oligopeptide ABC transporter ATP-binding protein OppF (Bacillus) [pid:56.6%25%2C q_cov:97.4%25%2C s_cov:95.1%25%2C Eval:1.4e-87],MGA_65
sequence1	MetaGeneAnnotator	CDS	68823	70421	.	+	0	ID=MGA_66;product=peptide ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000823468.1;translation=MKRILFVLMTIVTLFSCGTKTSNNVNEKVLTFNAEAEGISFDPHIATDNNTLNIHGLVSEGLTYALENGEIKPALAESWEVSEDGLTWTFKLREGIKWSNGEPITADDFVYGWNRVLNPENAAEYAYILYPIKNVEKYVLGQVGFEEVGVKALDEKTLEVKLENVTPYFDSLVSFISYMPANRKFAEEKGAEYGLEADALLYSGPYKVAKWDHNTQMELVRNEYYYAPESRNIDRYVIKYIADNTAALNAFKNGEIDIVNITSEQLQEFKNDPRLVKVELGRTFYLSLNMTADMFKNQKIREAILLAIDREGLIETVFENSKSSTYSFTPKNVGIKGLKEDFVKELGETFGKFNVEKAKALFEEGKKEMGIDKFPTINLVVNEGGSNKKVVEKVQEDLRVNLGIDVNIEIVTFKERLKRMRSKEFDIVLTGWGADYQDPMTFLDLLTTKSGNNSSKYNSPEYDELIDKALKSVDRKERVQYLFEAERLLAKDIPIIPLYQETRNFLVSDTVKNMKFGSISMGFHFYDVDKVK;locus_tag=LOCUS_00660;note=WP_000823468.1 peptide ABC transporter substrate-binding protein (Bacillus) [pid:35.8%25%2C q_cov:97.6%25%2C s_cov:95.3%25%2C Eval:7.0e-89],MGA_66
sequence1	MetaGeneAnnotator	CDS	70446	72014	.	+	0	ID=MGA_67;product=thiol reductant ABC exporter subunit CydC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000073484.1;translation=MKNNFKYILNIFSKLGFKKITIYLLVVFTSYILIVFQPIFISKSIKEGSIYFIVLLFLSLIIEETLEFYNNYIIQKIRNYSKLVIWEGIINKSYFEFFELNLGEIQNLIQEGSFLIRSLYDIFLRIFKNLIMIIVYSIVLYNIYNLIGVIYLIFYLIYMYISYIFLKNDSKTISNSIDITSKISSFIVDYFINYDTIHSEDSYKYETENLKKFLNEEEKSYYSVQKNIVRSNFLLRIFLIFVSGIVIFIGFNKKIDISLILIIIYSIFNLNNFGKYILSFFECWDRIRIVLEKIKMFDSKEIEGHLNIKYIDSEDIIVLKDICYKYPDSNEIIFENKSLSIKQGTKNLLIGKNGKGKSTICKIISNMLNVSKGEIIYNSKYINNEKEIIYYSQNINLFDRSIIENIIYPKSKFDDINLLDIRKIIKELELDNIIKSDEDLLEKKIGDFSKKISGGEKQKILIARALLSNKKVIIFDEINSGIDKFNNENFYKLISKYLSDRTVIIISHREEKNDIIDNVITL;locus_tag=LOCUS_00670;gene=cydC;note=WP_000073484.1 thiol reductant ABC exporter subunit CydC (Bacillus cereus group) [pid:23.2%25%2C q_cov:94.1%25%2C s_cov:85.9%25%2C Eval:7.4e-27],MGA_67
sequence1	MetaGeneAnnotator	CDS	72011	74092	.	+	0	ID=MGA_68;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMFICDRLIESVRKNLLFKAGFSFVRVASLSAEYYVKNDSKTEFGYENAFTKKASTELNWGGIFGKNKEVFTFVGGEVNLDKDTNFGGEILLGINVKKAITKDIGLILNAAYQYNDKAMNKKAFEENIREVLKSRGEWKEEIEKDKYKLKRYYRGQGLRFKGEETLFSGVVDYNHKLFKLQSGVIYTAGYAANSNNRLESFLNLKTNKSNYDIELDIDHKFKYERPDTNKDNGTYSKGGRLNIELSARGNVGNLNTYNKGIVYLGTIIPSKKDYQITSENEVKYTINNIELSTAFNNKLAFRQVEKINPDKLKIRLQPELKLGLKYANKNIDFETNGLIKGRVDLKKEQSKKIEIEGDEYTKDNNVTNNNTDIKRAISNIYVDSRAGYKLGVFNFRLAGRYVGVVSLKEKSKDIDAYNQYAFVGPGITYESKVKELKLKHSFDIRYEIGYKDKKTFSVINFWSDNRQEYKVNDKLSLKGEVNFTSSNRFSFIDKDSDKNEILLLADTKGTVEYKLNNKTDLTSTLGLKTISLFKEHNQNGMSDNNKHGDESLHLDVKYAFKVSNENKVTYQLNNNIDIVGRIDTSFAYGLKSDKLYESLTMIKRERIGEDGIITHTEGDLKKIKEDEQAFGADNRAILLISPSAELSLKYLNDKLHVKPSLGVDVSAKVAKNQSKLEYKAVNVKARLQVEYRW;locus_tag=LOCUS_00680;note=MGA_68
sequence1	MetaGeneAnnotator	CDS	74107	74289	.	+	0	ID=MGA_69;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLNIFLLNLIALSNISLSQTTPKKRNTSTRNQTTEVKENDFFNFRNAKKIKLELNANL;locus_tag=LOCUS_00690;note=MGA_69
sequence1	MetaGeneAnnotator	CDS	74704	75504	.	+	0	ID=MGA_70;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWHSEKRLIPYYFLVGTGVDYKNSILRGKDYKGTLTSNIYASHYNARNQETNVNSGSGGSGNNNNHTVRSSEHYKGFIVEGHLGYEFEKELGDKGLISILGKINADIEKSYTNKTIERYQNDGSANSEDDDDDDNDNNKDRFDIKLIPSIKLGYKFNDNFNIEVEYAASILFNKAGYIAMGILALSSLTSFSTTIYLKNNLEGSLEYSKDNKYEYKIHDSLNLGILTGKNNEVFAYLGGKLEKGKPVDGRINKRWIKVKRLMGQEI;locus_tag=LOCUS_00700;note=MGA_70
sequence1	MetaGeneAnnotator	CDS	75446	77128	.	+	0	ID=MGA_71;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEESIKDGLKLRGLWDRRYEEDDEARKEFYHSQGLRLKDEQILASGLIDLTYDNTKSKIGLIYTTKDLDNLTGRVEGFVNVRQSVKDILDIYVNVNYKLKPDISKRLGRLKGDITLSKKIGNVDLKGKAYGYLGTVLISDRDRKVGIEGTLLYNKDKINIKSVIKHDTIFDYSKNKQTNKESKTDSTESYFHNQELLFDLGYKSNRIEVKTENKIRGKVFTKSLAIDKDKYKSSDTNKDKTVLTLYTSNKLVRSFGNLGLSLDARYRAGLDYKDSGSVTDEHISLLGLGINYKGTNTKNSIDTAFIAGYVDSKELYILNVWSDNSIDYRMNNKLRLIGKLNLTSSNRLGMLYQGQETEILGLGDISGRIEYRPTDRVEIINEVGTKAILLFNYNDRKKAQPKTSSSTTNNNSMSDKLQKLHLHTQYQYKVYSDNSVSYKINDGIRLIGKLGLSYLNGYDSERLYTALRDIKRKQIGENGILEISSKDTKKIKEEKQSYGEDNLSKILINPRIELELRFMEDKLLLKPRGEVIVSIANKENENFKYKNTTLKLGLNVDYKW;locus_tag=LOCUS_00710;note=MGA_71
sequence1	MetaGeneAnnotator	CDS	77208	77678	.	+	0	ID=MGA_72;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903737.1;translation=MKKILKFEEIDVLADKISEKILKDNKFKSIALIGDLGVGKTHISKRICKNLGVEENVKSPTFTYLLEYDLGDRTIVHFDLYRLSNIDELYEIGYDDYISDGNIFLIEWANNVPEAIPDNTLYINLEHRDETTRVVSLYKIKEGEIKYVDIDNYDFN;locus_tag=LOCUS_00720;gene=tsaE;note=WP_005903737.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE (Fusobacterium nucleatum) [pid:45.6%25%2C q_cov:99.4%25%2C s_cov:98.7%25%2C Eval:6.3e-30],MGA_72
sequence1	MetaGeneAnnotator	CDS	77647	78318	.	+	0	ID=MGA_73;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016759.1;translation=MSTLIITTSTKLASLSLYDNDNMLGNINVNVKRTHSSYIIDQISSLLSWSGIKIENIQNVIVSIGPGSFTGVRIAISVIKGMFVGRNVKIYEVNELDALGYQGNMIYMDKVIAMIDSNKEKIYYGKYENGKRIGQLLVGKLDDVISLVKNEEYKLIGDAVISYSEKLEENGIKIPIADTFLRINSGIFYAMYKDNLLKEVDLFNLVPDYLEKSQAEKEKNGNI;locus_tag=LOCUS_00730;gene=tsaB;EC_number=2.3.1.234;note=WP_011016759.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB (Fusobacterium nucleatum) [pid:35.3%25%2C q_cov:97.3%25%2C s_cov:99.1%25%2C Eval:6.7e-29],MGA_73
sequence1	MetaGeneAnnotator	CDS	78305	79198	.	+	0	ID=MGA_74;product=signal recognition particle-docking protein FtsY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016881.1;translation=MGISDLLIKPKKGFFTKLKEFFVGEAITDEVYEELEELLIQADLGMKMTLEIVENLEKNVRSKGIKSKELMYDELKLLLSEKLEKFKDNSLNIQKGRLNIILVIGVNGVGKTTSIGKIAMKLKKEGKSVIIGAADTFRAAAIEQVEMWGQRAGIEVIKQKHGSDPAAVVFDTINTAKSKNIDVAIIDTAGRLHNKVDLMKELEKIDKIIKQNVDEYESLIVVDSTTGQNGLEQARMFNNISNITGVILTKFDGTAKGGIIFSIVSELNKPVKFLGVGEGVDDLKVFDCKEFINEMFN;locus_tag=LOCUS_00740;gene=ftsY;note=WP_011016881.1 signal recognition particle-docking protein FtsY (Fusobacterium nucleatum) [pid:51.7%25%2C q_cov:100.0%25%2C s_cov:89.8%25%2C Eval:7.1e-89],MGA_74
sequence1	MetaGeneAnnotator	CDS	79274	80299	.	+	0	ID=MGA_75;product=phosphate acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627902.1;translation=MADLIQEIKEKEKEHKKTVVLPESEDERVLRAAEQITKEGFANIILVGKDYQVREHASKIGVDLSGVQIIDPMSFEKTPEFIRQFVHLRSKKGMKEEQAREIIQNDVRFFGAMLVRNCIADGMVAGSSSPTSNVLRAAIQVIGPKKGLKTISSSFIMQTKTKEFGVDGTLIFSDCGVLPNPTAQQIADIAISAVEKSRLITKFTDPKVALLTYSTKGSAEGEQVTKMREAYKILEERGVDFEFDGELQLDAAIIPSVAEQKAKDSNVAGKANILVFPDLCSGNIGYKLVQRFAKAKALGPLIQGLARPVHDLSRGCNVEDIVDVVAITCAECAVFCEILTL;locus_tag=LOCUS_00750;gene=pta;EC_number=2.3.1.8;note=WP_201627902.1 phosphate acetyltransferase (Fusobacterium canifelinum) [pid:54.6%25%2C q_cov:95.6%25%2C s_cov:97.3%25%2C Eval:7.1e-91],MGA_75
sequence1	MetaGeneAnnotator	CDS	80309	81502	.	+	0	ID=MGA_76;product=acetate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016959.1;translation=MKVLVINSGSSSLKFELINTDDNKTLIKGICERIGISNPIFTLKNLITDVKVEERSEEMPDHKAAIDLVLKELVGENGVLKTIDEVDAIGHRVVHGGEYFNDSVLVDEEVIKKLEDISELAPLHNPANVMGIKVMRELLPGKPNVAVFDTAFHQSMEKHVYTYPLPLEDYEELKVRKYGFHGTSHKYVSGVVAEMLGNKEAKIIVCHLGNGASISAVKNGKVVDTSMGLTPLAGIMMGTRCGDIDPAAVLYIMEKRGLTPKEIDTRMNKKSGFLGIFGESSDFRDIQKGVQSGNERAKLAYDMFCYRIRSYIGSYAVAMGGVDAIAFTGGIGENAGYAREGICKGLEFLGIELDYDKNMERISGNVEYSKDSSKVKIFKIETAEELMIAKDTYRLAK;locus_tag=LOCUS_00760;note=WP_011016959.1 acetate kinase (Fusobacterium nucleatum) [pid:62.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-138],MGA_76
sequence1	MetaGeneAnnotator	CDS	81532	83565	.	+	0	ID=MGA_77;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIRNKLLALIITNVFSFGAEYYVKSDDNLIYNTPVSNHEIKSILGVEWGGAFKDKEIFTFLGGKLKSGNMSHLDGSGNIGFNFKKKLSKSTGIILNLGYLYNDGYEDNIKEIVKLRGEWNSKFEKDKETLKEYYHSQGLRFKDKQSLFLSSIVNYDNNKLKGYSGLIYSSEGFHIESLRFENFIKLETKNLNHNVGVDLNYKLKKHNDSKQNTYKKGGRLKGNINVKGKIGIVETYNGIKFYAGTILPSKKDYNILSNNELNVRNGNIRYKVGINGEITLKEVESFKNLKYIYKPEIMFGIKYDKDRLLLENINKLKGRIFIDKSGLYKDGYDKSKNIDTSIGSIYSDNKLIYRFNNFDIRGISKYRISSHMNKDKYEGLEHLLSTGIGFDYNKNYENTEIKHSSDLRYLFGYADKKTFSIINFWSDNKLEHKINDKLNFGVELNLTSSNRFRVLNRDAKEDELLLLVDGNGILKYNINPRFIFKNKLEFKNIILFSNFSNINNVKPKAQEQAKNNEQSSNKFLLDSQYILNIYNESELTYKIKNNIDIKGKFFIGYNQLKSNKLYDSLKNLKREQIDENGIREFSSKDIKIINEEKKIADDYYNFLITTGIESEMRYINDKLIIKPSLEFGTSHMFSINFENDDKTNIFNNKIHNVSFIIKKIFTKIGLNLEYRW;locus_tag=LOCUS_00770;note=MGA_77
sequence1	MetaGeneAnnotator	CDS	83627	84124	.	-	0	ID=MGA_78;product=flavodoxin FldA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008765037.1;translation=MKTGIYFGTTTGTTEDIANRISNHFDDVDVIEVSEGIDTFSNYDLLILGSPTWGLGDLQDDWMACVDEIDDMDLSDKYVALFGTGDQASFADSFIDAIEILYKKALKANAKIIGFTDIDGYDFTDSLAVKNGRFICLAIDELNQPELSDERIENWCNQLKEEIEK;locus_tag=LOCUS_00780;gene=fldA;note=WP_008765037.1 flavodoxin FldA (Bacteroides) [pid:46.9%25%2C q_cov:93.9%25%2C s_cov:94.0%25%2C Eval:9.7e-35],MGA_78
sequence1	MetaGeneAnnotator	CDS	84135	86786	.	-	0	ID=MGA_79;product=single-stranded-DNA-specific exonuclease RecJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016344.1;translation=METKWILSETKSKLTNFDLPIDNNILNILASRGIVDEKDIVNFINPSLENLEDPLKLKDLGLAASYILDAIKEYKNICIYGDYDVDGITSTSLLYLAFKKIGAKNIDYYIPLRNEGYGLNKDAIQEIKNKGTDLIITVDCGISSYHDVEFINSLDMKAIITDHHDIPSDKKLPRALACINPKRLDNEYSFPNIAGVGVAFLLAYELFRRLGIKEEIYSYLDIASLGTIADIMPIIKENRIIVKYGLEKLKNSSNLGLRTILNKLNLKDKELTTGDISFKIAPVFNAAGRLADAKLGVKLLISDNQNEINILADNLISNNIYRKKIQDEIITSVLDELREKDISNKYILISHSPNYHHGIIGIVASKVLETYYKPCIIMEENLEEGIAVASCRSVEGFNITKALSYVSNLLIKFGGHANAAGFTIKLENIDIFKEKIEAYAKEQLENIKLTKNIKIDMKIPAQKISYEFIQSLNLLKPFGFGNPTPLLMSENCIIHNPKTVGSNEQHLKFDIDQKGFSVKNAIWFNGGSNLQELRKNHIFYDVVFKLETNEYKDRFYPSIMIEDMKQSKLKDDRFQYYHSMYNTSFPMKSVFYTTIDLTDIDLNKIYLKKGFNSYSVMSGQKSISKLDSNISTLLCNLSDFYGFDFDIKVESIENRDNHKIIHILIKRNYNLINYSNQDKVQFRNIKNYILGEQEYNEITKEILSKYYKENESIFISRENISYLIENEKIRIRDKFFYPLFLTVGIKYYFDKNKKMTFYTKNKYFIKNSHLRNYFEFKNRVDISDKIDNCIFDFNSIEMPIFKLKYEKAIFFCDKNYTKNKLYVIKKEIELPPNILKLQKNLLSGLNYDKIFLEYLPINNKLSLIKEAKNNQVIYTDESIIEYF;locus_tag=LOCUS_00790;gene=recJ;note=WP_011016344.1 single-stranded-DNA-specific exonuclease RecJ (Fusobacterium nucleatum) [pid:39.4%25%2C q_cov:80.7%25%2C s_cov:83.8%25%2C Eval:3.0e-146],MGA_79
sequence1	MetaGeneAnnotator	CDS	86796	87422	.	-	0	ID=MGA_80;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSIKKILIISILGLGFSTISNASFTFNGYSYGTEPLLTVTQEANEKFGILKFAAKEEKTTNRINSKIEKTVNDMIKDENTKANVFLTANNSKFMSVIVVAAKTNPKDGVVENSYKGLVFDSNTGRELKLSDIFVDQYQEILRPTLNDKIRAFGMRASKKYADWDSVSSFYLEEDSLTLIFDKGKATDDFDGVLFIPFLLPSVQQLLK;locus_tag=LOCUS_00800;note=MGA_80
sequence1	MetaGeneAnnotator	CDS	87546	88595	.	-	0	ID=MGA_81;product=extracellular solute-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901986.1;translation=MKKLVFTIFTFIMLLSCFGNNSDENVLNIYTWTYFIPDKIIEDFEKETGIKVNLSYYDNNDTMIAKLMIENGEGNYDIVSPSTDYIPVMINSGLLEKLDKSKLGKTFENMNEKLNLMEISKIYDEGLNYSIPYSFMATGITVNNEIVGNDFVKTPDIFLNEKFKGRMTMLDDGREVIGLALQYLGYPSDSKDINQLNEAKEKILSWAENLAKFDSNASGKGMASGEFAIVHGYPDVFYEVEKEEESKFTYFIPEGAMMYIDSMAIPSSSKHKDNAYKFLEFLYRPENFIEVLKVLRNPSIIKDVEEKSEFKPIISAEEIINKSKLPGALGDEAKELQDKIWTEIKSSGK;locus_tag=LOCUS_00810;note=WP_005901986.1 extracellular solute-binding protein (Fusobacterium nucleatum) [pid:37.2%25%2C q_cov:98.6%25%2C s_cov:98.8%25%2C Eval:8.2e-58],MGA_81
sequence1	MetaGeneAnnotator	CDS	88597	90027	.	-	0	ID=MGA_82;product=UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016996.1;translation=MSIQKLFKNVDYRVLTLVEEDNFKDMSYNSKEIKEGDIFVALIGNVADGHNYIPSAIENGAKMIIAERDDYPYPKDITVVLVKNLRDNLGYISSNFYNFPQNKLKIIAVTGTNGKTTTTYILESIFKNSARIGTTGYRILDVEYEAKNTTPESLDLIKLMKEAVDKNVEYFLMEVSSHALCQGRVKMLEFDSAIFTNLTQDHLDFHETLEKYFEAKASIINHLKPNARLIINKDDKYCNRLLNVSDSFSLKEVATINGEVLEYTLKGMKVRISKDDKKYIFTTKLMGEYNLQNLLGAILSAYNLGIDLDEIINSIQNINSIAGRFEIIDNDKDVMVVVDYAHTADGLENILKTLSIMKKNRLVTLFGAGGDRDKTKRAKMAQAACKYSDLIFLTSDNPRTEDPEMILNDVEKGMNSSIPYFKICDREMAIKNSIQTLQKNDILLIAGKGHEDYQIIGREKIHFDDREMAKKYLGGR;locus_tag=LOCUS_00820;EC_number=6.3.2.13;note=WP_011016996.1 UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase (Fusobacterium nucleatum) [pid:46.0%25%2C q_cov:97.9%25%2C s_cov:97.1%25%2C Eval:1.9e-111],MGA_82
sequence1	MetaGeneAnnotator	CDS	90030	90983	.	-	0	ID=MGA_83;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIFIFSTLAIVSCSSITTTLLKTTNFIYRGEKETFLKIGRTGAYYELPWKHKSDITHETILYNGNVKLELIKKTEKKNDSVIYYAHGGAFIYPLSNIYRNLAEFMLNINDNYDIIFVDYRQLPYSFYPSGHDDYDNGLEYAFENYKNVYTFGDSAGGNLIVSTLLKRRDEKRRLPDAVVLLSPFLDISNTLESRKTNVKTDLLIGSSVENYDLSKLLKDNEYFKYEKDKKHPYISPVFGDFNGFPPTYIEVNNGELLYDDSKIVKEKLDSENIENKFVTVDGLYHVYHLLRSSEATTSIKSIFDFLDEKRLGGK;locus_tag=LOCUS_00830;note=WP_005814192.1 alpha/beta hydrolase (Desulfitobacterium hafniense) [pid:30.8%25%2C q_cov:69.7%25%2C s_cov:53.2%25%2C Eval:1.6e-28%2C partial hit],MGA_83
sequence1	MetaGeneAnnotator	CDS	91141	92937	.	+	0	ID=MGA_84;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRKFLFLSLFVALSGISISETISQIQGNEMLSKFQDKDVTKVRGIVTAIRKTKYNNGFFMQSVKHDKDIRTSEGIYVENINNANVKVGDLVTVDGKVKEIYLNKPDKTQPPITSIQANSIKVMKSKQKVRPLEHTGKNIPIKVRDNNNPVLNVKTNAMDYYEALEGVLIRIKNPIVTGANQKYGDITVVPSKGMYAGLRSINGGVVYNNYETEQTQRITVNITPWNIFENGKYKDNVTPNPGDEFKGDIEGIVFYEHGEYRLYPTSPFPGIIDKNTKPEKNKYTYNDELLNVVSYNIENFSHVDTPERVDELANQVATILQNPDILGLIEVGDDDGQKESEIVSSNENMEALVKAIKEKTGIDYGFVSVDPMDGKDGGWPAMHIRNVILYRIDKLNVVGFNQGDAITDTEVIKDGDNVRLTYNPGRIGNQDKIWEEVRKPLVAQFEYNGKNIFVIANHLKSKRSDDKVYGVNHPVIRKSEDVRIPEGKYINNFVKDILSKDDKATVIVLGDMNDFEFSKTTKNINGDELVDVISLLPKNERYTYVYQGASQTLDNIMINKKYKDNVNIDVIRVNSEFLKEQGSFSDHDPIFIQFKVD;locus_tag=LOCUS_00840;note=WP_086395912.1 DUF6359 domain-containing protein (Bacillus cereus group) [pid:33.2%25%2C q_cov:95.7%25%2C s_cov:69.4%25%2C Eval:8.6e-83%2C partial hit],MGA_84
sequence1	MetaGeneAnnotator	CDS	92966	93832	.	-	0	ID=MGA_85;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYHITFYLLFIFIEKPITYEKVNSGNGGSGGNSSNEMQIKDLWKQDDVTNKIGAKGNLGVFMHKNKEIFAFIGTDLNGVKANKDEMKLGDKTPYHFGLRWDSDIVDTFNIQLTAAHRRGGDGIAWEKKKNLNEDEKKVHKHNGIKEAIEKHLTSKGKKVKIGKEQGYKLGEEHTFLLSAILNGKIYNNFELTVAGIYNSADFKDDKHELETFVKTNGKLSDNVRIANAEIRHVLKSGNYEQYGDLFGDVKVETDANEKVKLTNEAKFELKSILKKTERNTKVELLNN;locus_tag=LOCUS_00850;note=MGA_85
sequence1	MetaGeneAnnotator	CDS	94090	94599	.	+	0	ID=MGA_86;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKHGSYGLAQVYVSCKNKGYNRSFGSMCRINYPSEKVQVDIKYIPNECIKFNSKGIRYYQITAIDEYSRKRVLKVVKGKSTYETSKYIKELERAIGFKIETIQVDNGYEFVNDKDVTDREDGKILYSRKEFRSEEELIENVKRHERLYNNTAKTVLNFKSPNEVVRE;locus_tag=LOCUS_00860;note=MGA_86
sequence1	Aragorn:1.2.38	tRNA	94848	94923	.	+	.	ID=Aragorn_1;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00010;note=Aragorn_1
sequence1	Aragorn:1.2.38	tRNA	94931	95007	.	+	.	ID=Aragorn_2;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00020;note=Aragorn_2
sequence1	MetaGeneAnnotator	CDS	95161	96270	.	+	0	ID=MGA_87;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLNYKGKKTVEEIENIIEIKRLKLKSISKGSEKGIYINADNFDAMIMLLDNFENSVDLVYIDPPFNTNSDFYYNEDKTSTISSSKNDSLAYSDKMNLNEYLEFIRKRLILIKKLLSDRGTIYFHIDCKVGPYIKLILDEIFGIKNFVNDISRVKSNPKNFKRKAFGNEKDVIYIYSKKNQNNIFNNVTIALSEEEILKKFPKIDKNGRRYNTVPCHAPGETKNGETGGKWKGVFPPKGRHWRYSPKELEKLDENGLIEWSKNGVPRIKNFSDEHKGKKIQDIWSNFKDPQNPIYPTEKNLDMLSMIAQQSSNEDSIIMDCFCGSSSFLLAGINKKRYVIGIDKSDVSKEVLLKRRNINDLVIVEYIDL;locus_tag=LOCUS_00870;note=WP_012545530.1 site-specific DNA-methyltransferase (Thermodesulfovibrio yellowstonii) [pid:27.7%25%2C q_cov:79.7%25%2C s_cov:38.6%25%2C Eval:2.8e-27%2C partial hit],MGA_87
sequence1	MetaGeneAnnotator	CDS	96377	97714	.	+	0	ID=MGA_88;product=UDP-N-acetylmuramate--L-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626924.1;translation=MKKAFFSGINGIGMSGLALILKELGYMVSGSDISYKDITKKLEDNEIEVYIGQKRENVENKEIDLYVYSTAIKKDNPEYMYMLEKNIKMVRRGELLAEIMDKLPLGIAVAGTHGKTTTSSLATVAFLDKDPYVAVGGIIPEISSNSKVGSSDYFIAEADESDNSFLYMNPYYSIITNIEADHLEFHGSLENIKKSFGQFIKQTKYKVLACFDCEEIRTYSDDKLVFYSVDEKNKDKVSIYAKNIHSLNSITYFDAVKNGIELGTFKLSIPGIHNVSNALAVIYIAHEEKLDMDNVKERIEKFRGANRRYQVIYDEDFRIIDDYAHHPTEIMATINAAKMNEKKEITVIFEPHRYSRTKFFLKEFAESLALADRIFLLPIYSASEENTYDVSSEDLAKLIGNHSKVYEKEKLVEILLEEDKKGKVYIFMGAGSVSSYGHKFVEMVR;locus_tag=LOCUS_00880;gene=murC;EC_number=6.3.2.8;note=WP_201626924.1 UDP-N-acetylmuramate--L-alanine ligase (Fusobacterium canifelinum) [pid:46.7%25%2C q_cov:99.3%25%2C s_cov:98.5%25%2C Eval:1.2e-110],MGA_88
sequence1	MetaGeneAnnotator	CDS	97714	98565	.	+	0	ID=MGA_89;product=UDP-N-acetylmuramate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898186.1;translation=MRILKDVSIKEYSNMKVGGTAKELIFIHDKNELKEIYDSRDRIYLIGNGTNTLISDGYLDISFVTLNEMNDIVIEEKNEDYALVRVYSGVDFNDFIKFMKLNDLSGIENMSGIPGSFGGITNMNAGAYGTEIFDVIEEVEVFDKENGIKVLKKKKMDFRYRGTEIKDNKWVVISTLLKLTYGFDEEASEDKYNQRKTKHPLNYPNLGSTFKNPVGNFAAQLISDCGLKEFRVGDAQVSPIHPNFITNLGNAKFSDIQEIIKHVKKVVNDKTGIMLETEIITVE;locus_tag=LOCUS_00890;gene=murB;EC_number=1.3.1.98;note=WP_005898186.1 UDP-N-acetylmuramate dehydrogenase (Fusobacterium nucleatum) [pid:45.4%25%2C q_cov:99.6%25%2C s_cov:99.6%25%2C Eval:1.2e-66],MGA_89
sequence1	MetaGeneAnnotator	CDS	98568	99485	.	+	0	ID=MGA_90;product=tRNA-dihydrouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016583.1;translation=MKLKIYTAPMAGVTDYTFRKIIEDFKPDFTFTEMVSVDKLLYKEVPKILKLRENNIVQIFGKDIYLMQKAAKYIESMGVKEINLNCGCPMKKIVNSGHGSALIKDPRKIEEILTALREVLDPKTALSLKIRVGYDKPENYLEIAKIAEKLKCSNIIIHGRTREQKYSGEADWKYIKEVKDNVNIKVIGNGDIFDAKNAIEKIRETNVDGIMLARGILGNPWLISQIKELFEFGEIKTIVRDIDRINMAIRHVKEYAIDNENVFFPDIRKYIIWYIENIKGIDETKNLINQSFEYDEIIELLEKIR;locus_tag=LOCUS_00900;note=WP_011016583.1 tRNA-dihydrouridine synthase (Fusobacterium nucleatum) [pid:61.8%25%2C q_cov:98.7%25%2C s_cov:99.0%25%2C Eval:1.2e-107],MGA_90
sequence1	MetaGeneAnnotator	CDS	99600	99734	.	+	0	ID=MGA_91;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRTYQPNKRKRKMDHGFRLRMKTKSGRNVLKRRRAKGRAKLSA;locus_tag=LOCUS_00910;note=WP_010888783.1 50S ribosomal protein L34 (Deinococcus) [pid:80.6%25%2C q_cov:70.5%25%2C s_cov:66.0%25%2C Eval:3.7e-08%2C partial hit],MGA_91
sequence1	MetaGeneAnnotator	CDS	99784	100113	.	+	0	ID=MGA_92;product=ribonuclease P protein component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016064.1;translation=MEKLRKSKEFNRVYNKGKKLSGKYILIFEYNAKSQRLGFVASKKTGNSVYRSRAKRLLREAARLNIDLFRLDKEYVLVAKSIFKDKMKEIKYQDIEQDLKNIFKRKKNI;locus_tag=LOCUS_00920;gene=rnpA;EC_number=3.1.26.5;note=WP_011016064.1 ribonuclease P protein component (Fusobacterium nucleatum) [pid:42.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-17],MGA_92
sequence1	MetaGeneAnnotator	CDS	100110	100319	.	+	0	ID=MGA_93;product=membrane protein insertion efficiency factor YidD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723261.1;translation=MKKILISIINFYQKYISRHTPRVCRFYPTCSEYSKQAIIKYGALKGSFLAIKRILKCHPFHPGGNDALK;locus_tag=LOCUS_00930;gene=yidD;note=WP_003723261.1 membrane protein insertion efficiency factor YidD (Listeria monocytogenes) [pid:71.2%25%2C q_cov:95.7%25%2C s_cov:75.0%25%2C Eval:2.9e-21],MGA_93
sequence1	MetaGeneAnnotator	CDS	100331	101005	.	+	0	ID=MGA_94;product=YidC/Oxa1 family membrane protein insertase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903598.1;translation=MLGIFLAPKWLVDAAVKLLDLIYGFVGNYGIAIIVTTFLVRLLLLPLTLKQEKSMKRMREIQPMLEAIKEKYKDDKQMQNQKTMELYQQEKVNPAGGCLPLLIQLPVFVALYHAFTTNALPENATFLWFNLSKPDALFTLQGFSINILPLLTTVLTFIQQKLMQAKTQGSNDPMAGSMQTMMYTMPILMLLIFYKMPSGLNLYYFVNTLLSVLQQVYVMNRRDM;locus_tag=LOCUS_00940;note=WP_005903598.1 YidC/Oxa1 family membrane protein insertase (Fusobacterium nucleatum) [pid:45.6%25%2C q_cov:91.1%25%2C s_cov:92.2%25%2C Eval:2.5e-47],MGA_94
sequence1	MetaGeneAnnotator	CDS	101005	101742	.	+	0	ID=MGA_95;product=KH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147367405.1;translation=MSEKIFHSKSEAELRERIKELITLAEDETIVIKELKKPFKFLFFSMNGKYSVNIVKKGSEKEKIVNKPVKKEQVKKTNVKKEKPVKKQVVKAVSEKDKKADRLNIVIKEFLATANLNISIKEITVTDNIYKVELIGDEIRYIIGEKGISLVSLEYLLMSLEEFKNVKIFIDSNNYKEKRENILRELAQKTAKNVIKTQRKIKLNPMPSRERKIIHEEISKIEGLETISVGVEPKRCLIIKLKNKK;locus_tag=LOCUS_00950;note=WP_147367405.1 KH domain-containing protein (Fusobacterium canifelinum) [pid:33.9%25%2C q_cov:90.2%25%2C s_cov:89.8%25%2C Eval:1.2e-24],MGA_95
sequence1	MetaGeneAnnotator	CDS	101787	103154	.	+	0	ID=MGA_96;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016067.1;translation=MFFDTIAAISTARGESGIGIVRISGDRAFDILNEIFIPYTKNKDLGNYKLNYGYIYDEGKAVDEVLVSRMKGPRSYTTEDIVEINCHGGYYTTKKILEVVLKKGARMAEIGEFTKRAFMNGRIDLSQAEAVIDIIHGKTEKSVSLSLDQLKGSLRDQIKEFKEAFLDITAHVNVVMDYPEEGIDDPLPLELRKKLEEVYKKADTLISSYDKGKKIKEGIKTVIVGKPNVGKSTLLNTLLQEERAIVTSVPGTTRDVIEEIINIKGIPLVLVDTAGIRETDDIVENIGVKKSLEFIEMADLVLLVLDSSKEIEEEDIRVIEKILELEKQYIVLLNKIDLERKLDISKYNLNNIVEISAQNNINMDKMENEIYEFITDNEIDDSSERLILTNIRHKTALEKTKESIKNIFDTIDMGMPLDLISVDLKEGLDSLSEITGEITSEDVLDHIFAKFCVGK;locus_tag=LOCUS_00960;gene=mnmE;note=WP_011016067.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE (Fusobacterium nucleatum) [pid:62.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.0e-163],MGA_96
sequence1	MetaGeneAnnotator	CDS	103288	103941	.	+	0	ID=MGA_97;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGYIARLLLLIAFVYVVFLFIESDFFLVKNVNVEGNIYLVKEDIASKFDKLKGQSLFLLDLSQMRNKIEEDVRIDRVDISREFPDTININVIEKVPIGIINKNHKYYYIDKNLNIFAYYNEIKDDNLPIIEINEEKFDDLKELLSNILGTKLYHLISEIYSRKEMFVLTLLDGTNVYTNKDIKSKKYELAYKVYSEEIKENDLEYVDVRFKDIVVK;locus_tag=LOCUS_00970;note=MGA_97
sequence1	MetaGeneAnnotator	CDS	103961	105079	.	+	0	ID=MGA_98;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073896.1;translation=MDNNYNGYQKPNQIYINNNQHQLATPDIQGAKISIIGVGGGGGNAVDYMKEYNIEGVQYIAINTDYQDLEKKAADIKVSIGTLGAGGDPNVARDAAENMRSEIKKIIQGQDMIFITAGMGGGTGTGASPIVAEIAKELDILTIAVVTTPFDFEGPNRRANAENGINELKKNVDTLIVIPNQKLFSNKTSINKLKNMFLAPNEVLFRSVKGIAEIITKEGLINIDFADVKQVMKNAGEAVVGLGIAEQGKDVLTAVKEAIESPLLDRNIKGAKKILLNITMSPDGSFEDFQNIIEEVIAYSENPNVDVMFGIITDDDITDTRVTIVATGFEKEIKSVASTIDYDVNANKNVEENNNEENHSVEQPFVYPRFDD;locus_tag=LOCUS_00980;gene=ftsZ;note=WP_011073896.1 cell division protein FtsZ (Shewanella oneidensis) [pid:46.7%25%2C q_cov:79.0%25%2C s_cov:75.9%25%2C Eval:4.4e-65],MGA_98
sequence1	MetaGeneAnnotator	CDS	105161	106513	.	+	0	ID=MGA_99;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKILYKLEGIISYPITILWSLLLITYINLAKDVFNENSNMLGFIIIGLISTGLFYKVFENKKYKQIKVLIMSLMYSFSSYLLIGNETFNVRNQKMIIAFIGILLFLYFSKLLSEGMNFNHIVINLVIHLGLGFLSTLLYYFLVLVIVELFKLHTEPKIILSIWVLIFTVIFILYYTSRNKVENKILNNIFSMFLISFIFILYLGLFSKQQSFMMHLILWLGYIMAGINTVINKKYVPILTLPLLSYMIYIVIKQIKLYGITENRYFVLGFGLLLLAILILQLVRNIETSNYAKIFAMFIAIVFFIPYFNAFSLTERKMTYNFLSLYNLEKPTNEQKRNLNSYYEYLVSRNVNFKELDEYNKINVEDIHKNYYFIIEDEIKKIGNTTYVNIRDIKNEYIYTIKGKKVDLVQKIINKEFENKDYIIHPLNYSLIHNSHEISGHLELLIEEK;locus_tag=LOCUS_00990;note=MGA_99
sequence1	MetaGeneAnnotator	CDS	106570	107580	.	-	0	ID=MGA_100;product=HpaII family restriction endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011964363.1;translation=MVNKQLKLVNCKLEIVNDSIFTVKSIISENKKGNIIFEIKDNKVYPIIYDNKLEAIDIDDIKQFYELMYNEIYNSNNGIGSFNITSINSLLFKLGIENNFKSIANKKDDITLINLDNNKNINVKLSYSIKSQLGRPAIILNASKHTNFIYKITNISEDDVKRINSINTPSKLKDRIHELEKINANIEFVGLTSDAFEKNLKMIDYKLPDVLAEVLLNSYKNDEKFLKKLFSESSIYETNELSIKKLKDFLEAISFGIMPSKEWNGINNVNGGIIIVSNDKKIYVLDMIYFSDEVRKYLLENTKLDSPSSTRYNMLNIYKKNNEFYFTLNLQVRYIK;locus_tag=LOCUS_01000;EC_number=3.1.21.-;note=WP_011964363.1 HpaII family restriction endonuclease (Flavobacterium psychrophilum) [pid:32.0%25%2C q_cov:98.8%25%2C s_cov:94.1%25%2C Eval:5.4e-43],MGA_100
sequence1	MetaGeneAnnotator	CDS	107653	108417	.	-	0	ID=MGA_101;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLENVEGLLKHDKGKTFQVIAQTLDELDYKIVGVNIENKNGKKFYIGKSESLVRTPYNFGIPQRRARIFIMGFRKEDISQNFKFHELPKYRDLGIYRDLNDLLEQSVEPKYYLSQKYIDTLNRHRERHKSKNSGFGYIIVNDDKKQIANTIMATGGSGKERNLIRQYKKEYIGLENVSVKKGKLNDEGIRYMTPSEWGKLQGFINYGFVENGIDNFSFPNTISNAQQYKLFGNSVCIPVVESMAEYMVKVLDYI;locus_tag=LOCUS_01010;note=WP_000875883.1 DNA cytosine methyltransferase (Bacillus thuringiensis) [pid:48.1%25%2C q_cov:100.0%25%2C s_cov:69.2%25%2C Eval:5.4e-60%2C partial hit],internal stop codon at [108448:108450](-),MGA_101
sequence1	MetaGeneAnnotator	CDS	108448	108756	.	-	0	ID=MGA_102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYKTIDLFAGIGGIRRGFEKTGRFENVLSAEIDKYACQAYEYIYGENPYNDVTSKEFKDKVKNTDYDILLAGFPCQAFSIAGLKEGFEDTTRGTLFFDIA;locus_tag=LOCUS_01020;note=WP_000875883.1 DNA cytosine methyltransferase (Bacillus thuringiensis) [pid:79.0%25%2C q_cov:98.0%25%2C s_cov:26.8%25%2C Eval:2.3e-42%2C partial hit],internal stop codon at [108448:108450](-),MGA_102
sequence1	MetaGeneAnnotator	CDS	109160	110914	.	-	0	ID=MGA_103;product=peptidoglycan O-acetyltransferase OatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009932001.1;translation=MKELKGLNGLRAIAVILVIIYHFFPNTLPGGFLGVDLFFVLSGYLITSILINKDNLNIKEFYYKRFKRLFPVSFSMLLILTTVLALTNRNWLIKEKISILQSLIYNLNLHYVLSKSNYFDNFSITSPVKHLWSLAIEMKFYLLFPLIFLTNFGRKHIRTILITLSFISLICLNILYIKDSKNLSIIYYLLITRIYALCIGGTFATFIPLSKLSKKNIPILTRILGFILLGISIYTMTIIDEQSIFLYKYLGILAYSTIFGFIILFLSNSKILGLFNYIGKLSYSVYIWHYAIFALTTPYEEYLNPNLTNVMIRIAAIFLISILSFHFIEEPIRKNGFKKYFENSVMAVLVLLLSVFSVLSIAGMDLELWSYRLIDEKEVGIKSLDLNVDKINVDIKKEVKPQIEDKKINKVLMLGDSLGINIAYAWAKVLPILEVDAQTGRFLHDAIDISKKYKKYNSPDSNVVIMLGTNGPITLKEIEKIREIFNKANLFFININVPRKWTKGVNMKLKEAKDLYKDIKIIDWYSLSKDHPEYFRKDRVHVNENGAEVLIKEIMRVMDSEYNIGEDAKPKLHIVHELRSNNKK;locus_tag=LOCUS_01030;gene=oatA;note=WP_009932001.1 peptidoglycan O-acetyltransferase OatA (Listeria monocytogenes) [pid:31.9%25%2C q_cov:95.5%25%2C s_cov:98.4%25%2C Eval:1.7e-80],MGA_103
sequence1	Aragorn:1.2.38	tRNA	111097	111171	.	+	.	ID=Aragorn_3;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00030;note=Aragorn_3
sequence1	MetaGeneAnnotator	CDS	111206	111730	.	+	0	ID=MGA_104;product=TIGR00730 family Rossman fold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000705809.1;translation=MKISVYCGANVGNNENFALSANKLGKLIAKTGNILVYGAGKIGLMGLLAEAALSLDCEVIGVMPEFLTHGERVHNGLSKLTIVETMAERKKILFESDMYIALPGGVGTLEEISEAYSGVRLGLSNSRCVLLNIDGYYNEFIAYLDRMVENGFLSQKDRDILEVYNSVEQLGENL;locus_tag=LOCUS_01040;note=WP_000705809.1 TIGR00730 family Rossman fold protein (Streptococcus) [pid:47.4%25%2C q_cov:93.7%25%2C s_cov:91.0%25%2C Eval:4.0e-37],MGA_104
sequence1	MetaGeneAnnotator	CDS	111727	112086	.	+	0	ID=MGA_105;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEYLELVNNDDFIDICLYLTEDKPYEIGEKMEAIDKRAYMNGENWAVFFEYYVKTYRPELLLDLQHDFDAGIYVGFYISIPENISRAKRYMEMIKELLENENKIYRIIKEKGNEINWK;locus_tag=LOCUS_01050;note=MGA_105
sequence1	MetaGeneAnnotator	CDS	112193	112735	.	+	0	ID=MGA_106;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLVLSIVLLIGLFSFSFEITGPRYKVDLTLGAGYKPDPHNKETDFMNFTGNFVNIDMGIGFSPEWTLKINRKFGITFGPKITTNLFTTTYESYIEDDIHRQLYFSLSTGVRVDFEYTLKNNIKIYTGAEANVTVRPDIHISYSEPGEKGFRYLNLEVHSTAFGKISLGTKIKRYSIGL;locus_tag=LOCUS_01060;note=MGA_106
sequence1	MetaGeneAnnotator	CDS	112820	113689	.	+	0	ID=MGA_107;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLILSILLIIGITSLSANENRQNSASNKRNEIKRVRERRERRNRKDINLNKENIVKKENTVKKENTVKKENTVKKENTVKKENVIDKKNLNSNEKNINTPRITGPRYRLEVSISTLPVYNNRTKQVGYYAYKSFSILPEWKKQVTKDIDITFGPKFSANLIFAKDYPSAGNDVVVDKGQIIGSLSVGTEVDFNFRLKENIKLYIGVETTLGLGIKINTLNGKYISKEKGDMGQDVWHAYVDGDIYKSLKYIYRANVSFGLKINDKYNVAFFGGYGKGHFGVEFGHTF;locus_tag=LOCUS_01070;note=MGA_107
sequence1	MetaGeneAnnotator	CDS	113944	114654	.	+	0	ID=MGA_108;product=DeoR/GlpR family DNA-binding transcription regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017152.1;translation=MSKNLQKERFDLILKMVKENDYVKYTDLEKKLNISIATIRRDVIKLETQGKLNRISGGIEYRNPNLDEDYHIRSVKYSEKKRVISKKASKYVKPNTLIYLDAGTTVFEIISYLKNMNVIVVTNGVEHINELIKNEISFILLGGEVKPKTKAIIGVTAMKQLEQYNFDLAFMGTNAVNEEFGFSTPDIEEAIIKEKAISKSQKAIVLADSTKLNNISRVKFADFKDAILITEKKENK;locus_tag=LOCUS_01080;note=WP_011017152.1 DeoR/GlpR family DNA-binding transcription regulator (Fusobacterium nucleatum) [pid:40.0%25%2C q_cov:97.5%25%2C s_cov:93.5%25%2C Eval:2.4e-43],MGA_108
sequence1	MetaGeneAnnotator	CDS	114651	115559	.	+	0	ID=MGA_109;product=1-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010889784.1;translation=MIYTLTLNPALDYDIYLNKTELGNLNLSKDVNFRAGGKGINVSIMLKNLGMDSIALGYVSGFTGKFIKRSLDEMNISNNFIEIDGITRINVKINDSNGETEIAGISPRISNIDIEKLLGVIKSLKKDDILVLAGSIPENLQKDIYKVISMETQAKIILDTRGDKLNYNVYNNILIKPNIKELEDVFNVSLNSDEMIYEYAQKFIENGIENVLVSMGSKGAILVKKGRYYKGNIPSGKYINSIGAGDSMVAGFTYAYVNKYRDEDILKFAIACGSSTAYSYNIGEKELIDKLLLDIKIEEVKL;locus_tag=LOCUS_01090;gene=pfkB;EC_number=2.7.1.56;note=WP_010889784.1 1-phosphofructokinase (Borreliella burgdorferi) [pid:43.1%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:6.8e-63],MGA_109
sequence1	MetaGeneAnnotator	CDS	115556	117409	.	+	0	ID=MGA_110;product=PTS fructose transporter subunit IIABC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009897443.1;translation=MKLTELLRENQVIFNLNADNKKDAIIEMAKVFKPDVINDQEKFIEDLFARESLSHTALELGVATPHAKSRGVSKPALVIAIKKEGIDFSEGQEDKSKLFFMIAVPENEGNLHIDILTKLADVMLDNDKLNALLNSTSYDEVIDIIEKEKIMENKESEKFVVAVTACPTGIAHTFMAKDALIKAAKELGVNIKVETNGTNGRKDEITKEDLEKASGVILAINKSVNEERFNGYKVIKVGAKDGINKAKELILDTLSGKGTIANFESSGNSTFMNNGKKGMYNHLMSGVSYMLPLVISGGILIALAFLFDSLAGNSNVGGGFGSTSKLAATFMQIGGAAFGLFVPILAGYVAYSIGEKSSLAAGLVAGALASSGGSGFLGALVGGLFAGYVTKFYSKVTSNIKKQLQGINLILFTPVITVLLTGLVMLFLLNPMVSGINTGITNFLESMSASSRILLGALLGGMMAVDMGGPVNKAAYVFGTGTLAATVSTGGSSAMAAVMAGGMVPPLAIAISTTVFKNKYNKEEREAGLSNYIMGISFITEGAIPFAAANPLRVLPGAIIGAAISGALTMLFNIKIPAPHGGILVMFLSSNFFLYLLAIVIGSIVGAIILGLLKEKR;locus_tag=LOCUS_01100;note=WP_009897443.1 PTS fructose transporter subunit IIABC (Clostridioides difficile) [pid:43.4%25%2C q_cov:99.7%25%2C s_cov:99.1%25%2C Eval:1.0e-139],MGA_110
sequence1	MetaGeneAnnotator	CDS	117421	117624	.	+	0	ID=MGA_111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEFHRNAPIFNLLEFFIENPNLTSIELSELIGVTKRTIEGTLNVLQKKAVIERIGSKRDGNWIVIK;locus_tag=LOCUS_01110;note=MGA_111
sequence1	MetaGeneAnnotator	CDS	117711	119294	.	-	0	ID=MGA_112;product=potassium/proton antiporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015673.1;translation=MVHILLFFSVVLIACVFVYKYLSKFGLPMLLVFIGLGMIFGENGIFRINFDNFLLSKDICSLALVFIIFFGGFNTKLSMARPVLKKSLILSSLGVLFTAFLTAIFTHFILKLDWQTSLLTGAVLSSTDAASVFSILKSYKLNLKEHTASLLEIESGSNDPFAYVLTIAFISASDGFLNLPILLLKQIIYGVSIGFIVAKLTIFLLKKIKNLDIGFTMAFLMGTTLLSYAFSETLGGNGYISIYLFGIIVGNSKFKGKSEIISFFDGITSIMQMVIFFLLGLLVSPAIAFKYILPSIILMLAITFVIRPLVIGGLLIPLKSSREQIILVSWAGLKGAASVVFSILVVVSNKEIGYLIFNMSFIIVLLSIAFQGSLIPYVAKKLDMIDETENVLKTFNDYSDEEDVDFISFEIDKNHKWVGMSIKNIEFTPGVLLVLIIRNGENIVPDGNTKIRSGDKMVLCGSTFEDKNTRINIYEKFIDKNSSLYHKYIYELDKKMFVVMIKRNNKSMIPNGNTIIKENDTLVIVDR;locus_tag=LOCUS_01120;note=WP_011015673.1 potassium/proton antiporter (Fusobacterium nucleatum) [pid:66.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.5e-205],MGA_112
sequence1	MetaGeneAnnotator	CDS	119680	120039	.	+	0	ID=MGA_113;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKHGSYGLAQVYVSCKNKGYNRSFGSMCRINYPSEKVQVDIKYIPNECIKFNSKGIRYYQITAIDEYSRKEFRIEEELIENVKRHERLYNNRAKTVLNFKSPNEVVREYFTKVKKEA;locus_tag=LOCUS_01130;note=MGA_113
sequence1	MetaGeneAnnotator	CDS	120322	121347	.	+	0	ID=MGA_114;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963715.1;translation=MKKTIIEVAKHAGVSKTTISRYLNGKYEFMSADTRERIAKSIKELDYVPNGMARSLKNKQSKIIGCMIADIGNQFSSYIFKGISEICQKNGYRVLVTEISNNEEDEIEAIESLISYNIDGLIINTSGSNDDYLINLVKDKKIPVVLADRSIHQRNIIDTVTINNHDITCEAMRHIYANGYEEVAFFSYELSNNIRELRHSAYVESLENIFGIKEDITYIYEEKDEEKLRVKILNFFNRNNKRKAIFCMNGKVLLEVLQSIKKLGFDIEDDDIGICSFDDWGWAELVNKEGVTTISQESYKCGVKCAELMLERIKNMEKPIEYIELPARLIQRGSTKNRSKK;locus_tag=LOCUS_01140;note=WP_010963715.1 LacI family DNA-binding transcriptional regulator (Clostridium) [pid:41.2%25%2C q_cov:97.9%25%2C s_cov:96.8%25%2C Eval:6.7e-65],MGA_114
sequence1	MetaGeneAnnotator	CDS	121344	122285	.	+	0	ID=MGA_115;product=sugar kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963717.1;translation=MKKVLLVGEAMMLLMAEEGKDLSSVEKYLTGISGAELNVCVGLTRLGFYCEYLTKLGNDPFGEKIQKFLKKENIGMKYVEIDSENKTGLQLKSKVENGDPLTFYFRKGSAASKISKLDIEKIDIDEFDLIHITGIPLALSADLREAIIHLIEKAKSKGKYITFDPNLRPTIWENEETMIRVINDVSKRVDLILPGINEAEILLKKDNIDEIVEEYRNMGINNIVLKEGEKGSHYYTKDKHYFMPSFKVNEVIDTVGAGDGFAVGIISSILDNVSPEAMLERANAIGAIQVGYRSDNEGLPNREKLDEFIKNKK;locus_tag=LOCUS_01150;note=WP_010963717.1 sugar kinase (Clostridium) [pid:45.4%25%2C q_cov:98.7%25%2C s_cov:99.4%25%2C Eval:4.4e-76],MGA_115
sequence1	MetaGeneAnnotator	CDS	122296	122943	.	+	0	ID=MGA_116;product=bifunctional 4-hydroxy-2-oxoglutarate aldolase/2-dehydro-3-deoxy-phosphogluconate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002359835.1;translation=MKDEILKIVEKEKLVAVIRGKDDEDAYLISKKVIEGGIKIIELTFSTPFVENTIERLSKENIDGVIIGAGTVLDDITARIAIMKGAKFIVSPHLDIEISKICNRYNVAYLPGCMSVTEIVKAMESGVDVVKLFPGDLLGPSFIKNIKGPLPYAKMMPSGGVSIDNMDKWLEAGAYALGIGSALTRYISTKGYDSVKEETEKFYKKYNEVIDNLNN;locus_tag=LOCUS_01160;note=WP_002359835.1 bifunctional 4-hydroxy-2-oxoglutarate aldolase/2-dehydro-3-deoxy-phosphogluconate aldolase (Enterococcus) [pid:46.9%25%2C q_cov:98.1%25%2C s_cov:99.1%25%2C Eval:7.6e-51],MGA_116
sequence1	MetaGeneAnnotator	CDS	122992	124848	.	+	0	ID=MGA_117;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYELLLKRREYLIGNFKDLPLNKRKQIEEIQEKNIEKLEYLENLNIAEVKLKYNNILELAKAYNQVGNVRYRDEKIKVIILKTLKLLRITYYNLSSVEKVNWWQWEIGIPLLLNDIFILMNEKDFDFEKEENLKTSIYFQKDPRYSGNNPVATHPSKKPFRISTGGNRVDTVKVSLFRSILLNNEEELKLALNSLPEVWKCREKINRIETDTQRDGFYNDGSFIQHGSLAYNGTYGNVLLQGIGEILYVIGDSKYLKYLGDIYSLKDIILNSYKPFMYKGSFPDMLNGRAITRENSSDKTIGHMLLNSIMLISCGLNDEELKNLVASEILKYEDYSYFDKELSPFMYDLVKKNIHNRKKEEYGKIIKVSNIMNRVFIKDDKKAIAIAGHSENISNYESINGENTKGWYTGDGMIYLYTSDVTYTNYWNNSDTRYMSGTTEVYEDLNGINTSQILNVNMSSAKIVKAIEKDNKMIFFMEFENHNKSLKMYKSYVYTGKKLICLNTNIDTKEKIYTTIDNRLYKEKPKIVMEDKRILINDLIFNIITDHKFNFDIKESEFGYFVKIWIEHKYNENLYYEIIFEYDDKTSLIEDNKENIIIRNGNEKYLINTKEKEVLRFE;locus_tag=LOCUS_01170;note=WP_011263809.1 polysaccharide lyase 8 family protein (Aliivibrio fischeri) [pid:31.4%25%2C q_cov:78.0%25%2C s_cov:60.3%25%2C Eval:6.5e-65%2C partial hit],MGA_117
sequence1	MetaGeneAnnotator	CDS	124841	125611	.	+	0	ID=MGA_118;product=2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase KduD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963683.1;translation=MNKFLTEMFSLDGKVAIVTGGNTGLGLAYSKALMEAGADLLISTFDDNVSEVIEEANRLGKKVVFVKGDLTKKEIREEIVKQAIDEFGKIDILVNNAGTIRRAPLLEYSEEDWNAVMDINLNALYFLSQRVAKVMVEQGYGKIVNIASMLSFQGGKFVPPYTASKHGVMGLTRAFANELAEKNIQINAIAPGYIKTANTQPIRDDVKRNQEILNRIPAGRWGETDDLMGAVVFLSSKASDYINGHVLAVDGAWLSR;locus_tag=LOCUS_01180;gene=kduD;EC_number=1.1.1.127;note=WP_010963683.1 2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase KduD (Clostridium) [pid:65.6%25%2C q_cov:98.8%25%2C s_cov:97.3%25%2C Eval:7.8e-91],MGA_118
sequence1	MetaGeneAnnotator	CDS	125630	126466	.	+	0	ID=MGA_119;product=5-dehydro-4-deoxy-D-glucuronate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010741491.1;translation=MKLDVRYSVHPRDMKKYDSQELRENFLIEEVFVEDMVNLIYSHDDRMITGGVKPVNKEVVLGEVKALGTEFFLQRREIGLINVGGKGKVIIDGTIYEMNKKDGLYIGMGNKEIIFTSDNKENPAKYYIVSAPAHKEYPIVKIDIDKANPVKLGALETSNERTIYKYVDPSVCQSCQLLMGMTILEKGSIWNTMPVHTHDRRMETYFYFDMEENTRVFHLLGEPNETRHLVMKNEQATISPSWSIHAGAGTGSYTFIWSMAGENQNYADMDVVPMSNLK;locus_tag=LOCUS_01190;gene=kduI;EC_number=5.3.1.17;note=WP_010741491.1 5-dehydro-4-deoxy-D-glucuronate isomerase (Enterococcus malodoratus) [pid:56.2%25%2C q_cov:99.3%25%2C s_cov:98.9%25%2C Eval:1.5e-93],MGA_119
sequence1	MetaGeneAnnotator	CDS	126477	127577	.	+	0	ID=MGA_120;product=sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013098572.1;translation=MAEVILKKVEKQYPNGFKAVHGIDLEIRDGEFMVFVGPSGCAKSTTLRMIAGLEDITGGEIYIGDKLVNDVPPKDRGIAMVFQNYALYPHMSVYENMAFGLKLKKTPKEEIDRRVKEAAEKLEITELLDRKPKEMSGGQRQRVALGRAIVREPKVFLFDEPLSNLDAKLRVSMRVRITQLHKELKTTMIYVTHDQVEAMTMGDRITVLKLGRIMQVDTPLNLYHRPANKFVAGFIGSPTMNLLEGELVRREERTFIDIEGALIELHPSKAEKVKGYIGKRVIFGIRPENISTTKEESTYTQIGEVSVVEQMGNEEYIYFKLSGKQMTCRMNVDGISETSKQGKELFYFDTSKAHIFDIDTEENISL;locus_tag=LOCUS_01200;gene=ugpC;note=WP_013098572.1 sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC (Enterobacter cloacae complex) [pid:58.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-119],MGA_120
sequence1	MetaGeneAnnotator	CDS	127587	128483	.	+	0	ID=MGA_121;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010972692.1;translation=MKKFNRDQISLYLIMLPFIIWYMLFMFKPMYGLLIAFKDYSVFKGIASSPWVGLKHFKVFLTSPEFYRTLKNTLMLNVYSLLIEFPLAILIALMLNEVKNKVFRAFVQTASFIPYFIAIVIAAGITINMLSPNTGVINIILQKLGFEKIYFLIKPEYFRGIFVGLNSWKNTGFNAIIYIAALTAVDEQLYEAAKIDGASKLQQLINITIPSIMPTIIVMLILKIGSMLSVAFETVLLLYQPATYETADVISTYVYRTGVINQDFGLATAVGLFNAIIAMLLVYTANTVSKKVSNLGIW;locus_tag=LOCUS_01210;note=WP_010972692.1 sugar ABC transporter permease (Agrobacterium tumefaciens complex) [pid:50.3%25%2C q_cov:96.6%25%2C s_cov:93.2%25%2C Eval:9.9e-91],MGA_121
sequence1	MetaGeneAnnotator	CDS	128493	129371	.	+	0	ID=MGA_122;product=carbohydrate ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003517572.1;translation=MKIRISTDEKIFNVINYFLLTIFAIIFLYPIVYVFSASFSNPFLLETGQVTLFPKGFTLASFIAAFKTTGIWRAYANTIFITVVGTFVSMLFTISGAYVLSKPDLKFRKAIIMLVIVTMWFDPGMIPKYLNFRDLGMINSYSGIIVGFAINTFNVIILKSFFESVPRSLEESARIDGASQFKIMTNIYLPLSTSAITTVSLFYAISRWNGYFWTMILLRDDAKAPLQVFVKKLIVDKFSSGEAAQLITPESLTSPQSIIYAIIVISILPMLIAYPFIQRFFRKGVTLGAVKG;locus_tag=LOCUS_01220;note=WP_003517572.1 carbohydrate ABC transporter permease (Agrobacterium) [pid:46.0%25%2C q_cov:97.9%25%2C s_cov:97.3%25%2C Eval:9.4e-70],MGA_122
sequence1	MetaGeneAnnotator	CDS	129398	130915	.	+	0	ID=MGA_123;product=extracellular solute-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010972693.1;translation=MKKLLALGLLGLVLASCGKKEETTTGPKETTIFAMHLGKALDPNLPVFVKAEKDTNIKLVNVASQNQTDQIQAYNLMLTEGKLPDIVSYELSADLENLGIEGGLIPLEDLINQHAPNLKKFFEENPRYKKDAVAVDGHIYMIPNYYDYFNIKVSQGYFIRQDWLEKLGLKEPRTVDELYTTLKAFREKDPNGNGKKDEVPFFVRANNVRKVLTSLVDLFKASPIWYEENGMVKYGPAQKEFKHAIKELSKWYKEGLIDEEIFTRGLESRDYLLSNNLGGATDDWIASTSSYNRNLADKIPGFNLKLVLPYELNGNAKTRHARTTYLGGWGISKDAKDPVSLIKYFDYWYSVEGRRLWNFGIEGSEYTLVDGKPVFTDKVLKNPDGKTPLAVLREVGAQYRLGAFQDAQYELGWASESAKAGYKYYMDNDVVLDELPILKYTKEKSKEFVSIDTAMRAVVEEKAQQWILGSGDIDKEWDAYIKRLENLGLSKAEQIQNEAFKNFNK;locus_tag=LOCUS_01230;note=WP_010972693.1 extracellular solute-binding protein (Agrobacterium tumefaciens complex) [pid:42.2%25%2C q_cov:94.5%25%2C s_cov:94.9%25%2C Eval:4.2e-96],MGA_123
sequence1	MetaGeneAnnotator	CDS	130972	132756	.	+	0	ID=MGA_124;product=heparinase II/III family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_156285909.1;translation=MFNFSKNFKYILHNFDVSMYLEQAENILENRLKFIHPWDMERTSQYFDIPKDWNDYVNDDEEWIFMRSRMNYFDSLFLAYEKSKDKKYLNKIKEIIFDFINTHKTLKFELSTRTLDSGIRIINILKALIYLKELKCLSEDEENDIVNHLDKTCIYLFNSFIEKYYHSNWGYIQMAGVYTFALMYNKEYVKKAKEYMKIQLKTQIDDDGLHIEKSMTYHYQMLIYTAWVVMIEKNVGINKTLFTKYLKKMLEAAEKLHYPNFRQINFGDSDDDNVEDILSMANAILKRNARYRLKESSYMFAGDFVCGYKINKANDKRREYLLKESGYYNLIDKNYSFSTYLTNMTSGHLHVDLFHFNYFNKVEMLVDNGRYTYLDNEYRKYLKSSYAHNTLVLDNKEFLAIKDSWEYIGKYPLISPIYKIEDKGVTCIKMNVFDIETNSYIERKFILCEDNVIIINRIYSKGKHNLKMYYHFHPRLEIDGEKERLLLNKEIYFNIGEYIMGEGIYSSRYNEKEKSKFVKLEYDFNDNIQIIHKILNKNIQFEEICCENSIYSCKIISGNKEYMIFCKNEDSIEKQNVLYIQNNLLYKNFKVVVK;locus_tag=LOCUS_01240;note=WP_156285909.1 heparinase II/III family protein (Oceanivirga salmonicida) [pid:40.2%25%2C q_cov:96.3%25%2C s_cov:98.0%25%2C Eval:2.3e-120],MGA_124
sequence1	MetaGeneAnnotator	CDS	132753	134972	.	+	0	ID=MGA_125;product=polysaccharide lyase 8 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011263809.1;translation=MKKIIVFLALIVGILSFNNQSKEIEGMKLKWKEFLLNIPHDISLKEISKENKEKNIDKLNKSSKDILNKMRVYETQDYVFKDYQNMSSGNHILRSLKDIQTLIKAYLTPDTNVYKDKEVKEMINIGLEIISERGYVVGAMEKGNWWEWEIGIPKTLNEILIMGEEIIESEISSKLLKASYYFQPDPEFSGLSPAARTSTSPNKRVSKGGNRMDTALVTYGRGIIEKNASEIKRAINSVAVVGEYVEKGDGFYKDHSFIQHENVAYSGTYGQVLLNGLAQFIYLTGDTSFEINNPSIINIYDVIIKGYSYLLINGGINDSVNGRSISRDDSSDLGRAKPIINSLALISRGANSEYRSKIESIVKKAILDNNFEYMPDSVNNLVIANILNEIVKDKNIKPLDVRGTKVFSYMDRAVSIGKNGIKFAISMHSNRIANYETMNKENIRGWYTGDGMTYIYTNNSSDFVEYWPTVSLLRLPGTTESVNRREVATGERRFPKDLSPKTWVGGADNGSEAFIGMDFISWNNLTEAKKSYLLLDGVMIAVGSNIESSDGEIITVVDNRINNESAKKIVYTPLMDTKIEKSVVERTGSFKKIGGKKDTPITKEFVELIIKHGNNPKNGKYAYAVSDKEVKGVLIKRLDNVAHIIKKDNILAINSWKSDKLYFDGIEINNEISLIRKVNGTNVSLTIADPNHRLSEAKIVLDGYYTSKDLPVINKNNKTIITFKLDKNGMSKTINLIKK;locus_tag=LOCUS_01250;note=WP_011263809.1 polysaccharide lyase 8 family protein (Aliivibrio fischeri) [pid:30.7%25%2C q_cov:87.7%25%2C s_cov:86.9%25%2C Eval:3.5e-89],MGA_125
sequence1	MetaGeneAnnotator	CDS	134985	136388	.	+	0	ID=MGA_126;product=sulfatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011108982.1;translation=MNKKYNLIFLFADQWRRNAAGFVGTEDVITPNIDEFSKESLVFTNAVSTGPLCSPSRASILTGTYPATHGVWTNCKTGLYDVWLKEESITITDVLKENDYYIGYIGKWHLDNPEENVEEKPKSGARDWDAYTPPGKKRHGIDYWYSYGAYDNHLKPHYWENSHNMIEIDKWSVEHETDKAIEFLDKNKDNPFALFLSWNPPHTPLDLVPEKYIDLYKDKKLRVSDNVILNNVIDHTESMPEALNFTEDGFQDALRKYYAAISGIDEHFGRLIDYLKENNIYENSIIVLTADHGEMLCSHGLWSKHVWYEESIGVPFMIKFGDNRGITESVLSGVDIMPTLLSLLDLKIPKTVEGKDLKEVIINLEEDLENKAIIAAYPGQIKAIEKFKKENLNNLDFGWRAVKSREHTFVINKGYEPGRDIETLLYDNVKDIYQLNPKIIKNISEDKIASKLNAILQKWLKEHNDGF;locus_tag=LOCUS_01260;note=WP_011108982.1 sulfatase (Bacteroides thetaiotaomicron) [pid:36.3%25%2C q_cov:98.9%25%2C s_cov:91.4%25%2C Eval:1.7e-80],MGA_126
sequence1	MetaGeneAnnotator	CDS	136402	137586	.	+	0	ID=MGA_127;product=glycoside hydrolase family 88 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000975716.1;translation=MELFKEVIEKFEKVELKDEIIYRGLHEALTKVDQNGNVFINTFPRPSSVNNIYPGILNGGEWDDWTSGFWTGILWLSYEITLEEKYKKIADYQLKTYKERIDNNIAVDHHDLGFLYIPSVVANYKITNSDVAKATGIKAADVLMRRYREKGEFIQAWGVLDKPEDYRLIIDCNLNVPLLFWASDVTGDDKYRKVATKHLETVSKVIIRDNGTTFHTFYFDSKTGAPLKGVTAQGKSDDSTWARGQAWGVYGFALAYKYMRDEKYIEIYKKVTNTFLNKLPEDNVCYWDMDFKPEDMEERDSSSSAIAICGILEMNKYLSDDDPHKQLYYNAAKAMMKSLIEKYTTKDINSNALLKEAVYSKPHNIGVGESCIWGDYFYMEALVRLLKPEWNIYW;locus_tag=LOCUS_01270;note=WP_000975716.1 glycoside hydrolase family 88 protein (Streptococcus) [pid:49.9%25%2C q_cov:97.0%25%2C s_cov:93.7%25%2C Eval:1.4e-104],MGA_127
sequence1	MetaGeneAnnotator	CDS	137596	139674	.	+	0	ID=MGA_128;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLVFLSLLGILLHANEAKTSGFLRSDLKYTHKLKEFEYDINGVRTKNIGKPLITSTNLDLDSGMYFYENKNLFLFGGVDTQNKKEEKKKDNKYANYYFGARLDAPISENFDLILTVGHKKGYIKTKNVTEDGKLKVKKEETKKVFENAVNEHAKVRNKKSNLKEAGYSLDVDRNTIISAVLNGRVNRKFNLILGSIYTSDNMKFGTHKYEGFVITSGRISRKSFLKTENSYIIDKNNIDEFGGIKSKYSISTKLSSKRNIENILVFEAKKLAKVNDFKFVSSNEYKDNIKNVNINTKINYEALIKAYKGGDYEHKPEVKINIQYYKNNIKLISSLENKLKIKHDFSKNALVKEFKNTLISEISLVNTKHSINNRFDFKYSLITDKQKNNKYKFTHEILIGPSLWYKKNNLNSTINLRYGIKHDGKVNNDIFTTVFNEKKYDINNNEINLNLNLYNYINFETLKFKKSNKLSNIFLVSSSFKYVNTYEQLKSTLFGELQYYNLFKEKSNSKDKDMANTILSKLNLELRYLMIKDVTTVFNLNNTYGYNLLDQENFKIFSDYIKNYGSGKYKDKKYTNLDNYIKKTSTINAVHSYRMNPKFSLVIRKLEGRLQLIPYIEGVLDFRKYRYNTASYAKELENKKKELEKAKQGSNERKNKLKIHQDAIKNAEFNKKFNFRNFEGRIGLNIKYTW;locus_tag=LOCUS_01280;note=MGA_128
sequence1	MetaGeneAnnotator	CDS	139792	140289	.	+	0	ID=MGA_129;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFGFLLLLLVTISCSTVPRLSPEEVRVMTTRVYNKPMKDVFLATRNMIVDKEYNIITADLEAGFIKGYSEVQTSDEAFNVLIGAKTSKNNTIQAVFTQKEAGIEVRLLVSEQYKEEDGIGILDILSLDFRTTKKHSKLTPIYNLELYNHLFDLIQIELNKQK;locus_tag=LOCUS_01290;note=MGA_129
sequence1	MetaGeneAnnotator	CDS	140298	140666	.	+	0	ID=MGA_130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYITKGESIKGYEVSTETNGSVYNMDYKKLNPIGTSPVGLLNSALVGCIIMVIRSYFSIMGMDVKVEAISKLDGMNIEMDIKLDIEVSEAEIQRILAYVEEKCTVHKMISKEVKIIKNIRGI;locus_tag=LOCUS_01300;note=MGA_130
sequence1	MetaGeneAnnotator	CDS	140666	141361	.	+	0	ID=MGA_131;product=B3/4 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000159980.1;translation=MKFIAEESYWNLFPNSKLGIVLIEDMNNGGESSKEIKEALMASNEEAKKYFIKDNFSENPVISVWREAYQKFKTKKGVRSSIEALLKRVEKGNEVSSINPLVDIYNTISLKYGMPCGAEDSDTFKGILRLGITEGNDEFYLIGEDKNSPTLQGELCYRDDEGAVCRCFNWRDGKRTMVTDKTKNAFLIIELIDNEREKELNDALNEIAENIEKYLMAKTKIVILSKDNREI;locus_tag=LOCUS_01310;note=WP_000159980.1 B3/4 domain-containing protein (Streptococcus) [pid:63.0%25%2C q_cov:99.6%25%2C s_cov:98.3%25%2C Eval:5.2e-80],MGA_131
sequence1	MetaGeneAnnotator	CDS	141467	142483	.	+	0	ID=MGA_132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKGILFMVMSSFTIFASDMTFDLENSKPFGGEVETNFTVSSEMSKQDKSDFLLKHNLGVKAEVYELITLGGKIGYGYKNTVKQVYLDVENTELNANVNLRKYGNLGFGYKFGGNYGSELEIKYANKGRINSATIGGYMSYKRIFTPSVKIADTNFIASGMRVGDGEIYVSHDVNKNLRLTYKAGVNVNVDTQKLFMTGTLKKNAIEADMKIGGKIDVSISPKVTFSSYNELGVVVNKINLNMADISNSSTSLRFETDNKVKIITKRGVLITPKMALSADRLETKLNTNLRADYNIIGGLSVNGGVGVENKFKYVSGKTLKEYESTTPYAKGGLLYKW;locus_tag=LOCUS_01320;note=MGA_132
sequence1	MetaGeneAnnotator	CDS	142504	143433	.	-	0	ID=MGA_133;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGLIIKDIVKSNQITESTLMTIEITEALISGYNNEEVTKKEITKVMTKFSKQDLSYVVSACAWLYSNLRDVENYTEISAKLITDNVNQAKALSSAIFLARMGASKEYIKSYITETYDMSLTKEFSMFFESKSFEDTLEYDNASIVIAEAYYKVNYEKYNYLDEKLIKFLNHYRETLSKIKYEKTSMMNKILEHKPYFDKKEIVRWLPTNNRKTPEFFADYGNEVNDLIKLVNHPYFIDFKYTDTIRRLKIYSFKESIATANMLGIRAMLTSIIRRERFGVGTISRAIADGLISELLERYMQIVNDKNI;locus_tag=LOCUS_01330;note=MGA_133
sequence1	MetaGeneAnnotator	CDS	143436	144335	.	-	0	ID=MGA_134;product=GTPase Era;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016271.1;translation=MKSGFISIVGRPNTGKSTLINKLIDEKVAIVSDKAGTTRDQIRGIVNKGENQYIFIDTPGIHKPKHLLGEYMTNLAIESLNECDLILFLLDGTKEIGTGDIFVNENIRNSKTPTYVIINKIDKMSDEELNNKVEEIREKLGEFEGIITMSAAYGIGIHKIFEVCEKYLSNDIWFYPEDYYTDISVNKIVIETIREKILQKTKDEIPHSVALEIINIESGNNKRRYDINIYVERDSQKGIIIGNGGKLLKEIGIEARREIEALTDLKINLKLWVKVSKKWRKNEKMLNELGYDVKKFKRR;locus_tag=LOCUS_01340;gene=era;note=WP_011016271.1 GTPase Era (Fusobacterium nucleatum) [pid:59.4%25%2C q_cov:97.3%25%2C s_cov:99.0%25%2C Eval:5.4e-97],MGA_134
sequence1	MetaGeneAnnotator	CDS	144403	145626	.	-	0	ID=MGA_135;product=phosphoglycerate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989997.1;translation=MAKKTLKDLDVKGKKVLVRVDFNVPIKEGIIKDDNRIKAALPTLNYILDNGGKVIAFSHLGRIKTEEDKAAKSLAPVAKRLEELLGKPVKFIPATKGDKLEASVAELKEGEILMFENTRFEDVENNEVVKKESKNNAELGKYWASLGDVFVNDAFGTAHRAHASNVGISSNIADSAAGFLMQKEIEFIGGAVDEPKRPFVAILGGAKVSDKIGVIENLLDKADKVIIGGGMMFTFLKALGKNTGKSLLEEDKVELAKQLIEKAGNKLILPIDTVVAKEFNNDVEHHIVSVDEVKEDEMGLDIGPASIELFAKELAGAKTVVWNGPMGVFEMSNYSKGTIGVCEAIANLNDAITVIGGGDSAAAAIQLGYAERFSHISTGGGASLEYLEGKVLPGVDAIAEKKCSCSH;locus_tag=LOCUS_01350;note=WP_010989997.1 phosphoglycerate kinase (Listeria monocytogenes) [pid:72.1%25%2C q_cov:98.5%25%2C s_cov:100.0%25%2C Eval:1.0e-163],MGA_135
sequence1	MetaGeneAnnotator	CDS	146002	146946	.	+	0	ID=MGA_136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIIKIDNLSKSYTIKSGLFSKKENIKVDALKNISLEIYECQTVGLIGLNGAGKSTLIKIILGILVQSEGNIEVFNKNPFKNRISNLYDIGVIFGQKTQLRWDLSTMDSYKLNRALYDIPKEQFDVLLNKYSKILDLDDFINRPVRTLSLGQKMRADLLSALLHSPKLLILDEATIGVDILSKNKIIDLIKELKKNTTIIYTSHNLNEVYEISDRIVVLNKGTIILDKNKDELLNNVEYLGIKLYLKKPLKYDDLKFNEVKMIKLSEYEYTFRFIKKDILKNFLDYIYSNNSIDYFEINENNLEKILKDVDNG;locus_tag=LOCUS_01360;note=WP_011674907.1 ATP-binding cassette domain-containing protein (Lacticaseibacillus paracasei) [pid:44.1%25%2C q_cov:71.7%25%2C s_cov:71.2%25%2C Eval:2.9e-51%2C partial hit],MGA_136
sequence1	MetaGeneAnnotator	CDS	146939	147703	.	+	0	ID=MGA_137;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKYIELIKIGIKKILSYRGLITLIIIKNYIYIFLQYSLWNSIKENSIVNVNLTNILIYFIIIKGLDSTNFDLSQTISHDVKNGDIVNILAKPIEIEKYYFFDILGGTIAKVIAILFPNILISLILTRNFEILFILKIFFIIIGSYLLNFVIELIFGTLSFFTQNIWGIESLKLVFILMLSGSFFPIEYYPLWLIKIIDYTPFVYIYGKVAEFMIYKNDFVKILFFQIFFTLSLFYIYKLILKVCLKKISINGG;locus_tag=LOCUS_01370;note=MGA_137
sequence1	MetaGeneAnnotator	CDS	147705	148298	.	+	0	ID=MGA_138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYLKLFFMYGYINIKELKSYGIDFYLGSMAMFLKNIANLFIIFFIYNIVNVINGWNINEMIYLYSIITISFSIWRCFFINTLNISYYIINGKLDLLLIKPVNPLFLIFMEGFDEDAWGDLAVGIILYIYISFKLNLPILNIVLVFLIALVGGLVFAAISVLGSLFSVIFLGSSNFSDLPYIIYEFAKYPINILIL;locus_tag=LOCUS_01380;note=WP_011674905.1 ABC-2 family transporter protein (Lacticaseibacillus paracasei) [pid:40.2%25%2C q_cov:98.5%25%2C s_cov:74.9%25%2C Eval:6.7e-40%2C partial hit],frameshifted%2C insertion/deletion at around 148286,MGA_138
sequence1	MetaGeneAnnotator	CDS	148562	149536	.	+	0	ID=MGA_139;product=tagatose-bisphosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002357245.1;translation=MRKISENVYASMERLSNKEGIIGALAIDQRGSIKKMIGAYSEATTEKIEDFKSLVSSELTKYASSILLDPEFGFPASKVRAEESGLLLAYEKTGYDATKKGRLPDILEDWSVKRLKEKGADAIKFLLYYDIDDDKAINEAKHIFIERLGSECLGEDIPLYLELVSYDEAGKTGKEFAKVRPRKVIEMMKEFSKERYNVTVLKMEIPVDMNYVEGYGEEWVYTKEEAMAFYKEQSEATDLPFIFLSGGVSMDLFKKSLELAKEAGSSFNGVLCGRATWADAIKPYSLDGREAGIEWLQTQGKEKITSLDEVLNRTASDWRLKLSK;locus_tag=LOCUS_01390;gene=lacD;EC_number=4.1.2.40;note=WP_002357245.1 tagatose-bisphosphate aldolase (Enterococcus) [pid:65.3%25%2C q_cov:96.6%25%2C s_cov:95.8%25%2C Eval:4.7e-113],MGA_139
sequence1	MetaGeneAnnotator	CDS	149584	149826	.	-	0	ID=MGA_140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNRNYEGQSEGQNIRLGVLERRNKILKLIKENNHITASILKDILGVSKSTIERDISKLREDNKLIYIGSSKKGYWIIKK;locus_tag=LOCUS_01400;note=MGA_140
sequence1	MetaGeneAnnotator	CDS	149848	150000	.	-	0	ID=MGA_141;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLMIAKISKSVYYYYINKKNIDIIENYASGVRRIFEDYADFKKKPEYYI;locus_tag=LOCUS_01410;note=MGA_141
sequence1	MetaGeneAnnotator	CDS	150039	150251	.	-	0	ID=MGA_142;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFKRYNIIEKKKGRKPKSITKPKKSFKELSENEKIKQLEKENIYLKAENEYLKKLKALVQERELKEKKK;locus_tag=LOCUS_01420;note=WP_211260004.1 IS3 family transposase (Pseudostreptobacillus hongkongensis) [pid:84.6%25%2C q_cov:92.9%25%2C s_cov:14.3%25%2C Eval:1.6e-24%2C partial hit],frameshifted%2C insertion/deletion at around 150041,MGA_142
sequence1	MetaGeneAnnotator	CDS	150364	150531	.	-	0	ID=MGA_143;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKYLKILLYLMTFFLFLKLIIEGQKRVSLENLGVMLIGLFGLITLLYLYNKNEK;locus_tag=LOCUS_01430;note=MGA_143
sequence1	MetaGeneAnnotator	CDS	150540	151424	.	-	0	ID=MGA_144;product=carbohydrate ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011030593.1;translation=MKKRNMSAETLYKLFIYLALITFAISIIIPVSWVFLASLKQNSEFVGSPWKLPMSFYYQNFIDAFINAKMGDYLLNSVYVTALALILLIIVALPASYVLARFEFKGRNFWNLFMKAGLFINVNYIVIPIFLMLLDGDKFLRKKEIIKSSFLLDNMTVLAIIYMSTALPFTIYLLTNFFQSISKTYEEAAYIDGAGYFITMVKIMAPMARPSIITVILFNFLAFWNEYIIALTLLPGQQKTLPVGLMTLMAASRGAANYGRLYAGMVIVMLPTLILYIIVQQKLTEGMSAGGSKE;locus_tag=LOCUS_01440;note=WP_011030593.1 carbohydrate ABC transporter permease (Streptomyces) [pid:33.0%25%2C q_cov:96.6%25%2C s_cov:90.1%25%2C Eval:2.4e-44],MGA_144
sequence1	MetaGeneAnnotator	CDS	151436	152323	.	-	0	ID=MGA_145;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_145161548.1;translation=MRNHSKRLFIFFSLAPAMILYILFRIIPTLQVFRMSLFKTSALSKNPKFVGLNNFKILFNDPKFIKTFQNTILLIVIVTIVTLTVAVIFAAILVTEKIKGANLFRIIFYIPNILSIVVVSGIFSAIYDPGHGLIDSILIMFRIKPPQFGWLGDQSIVIYSIAFALIWQAIGYYMVMYMAAMSAIPNSLYEAADIDGAGKITKFFKITLPLIWLNIRATLAFFIISTINLSFLLVIPLTGGGPDGATEVFLSYMYSQAYTNQSYGYGMAIGVIVFLFSFALSGIINVVTNREILQY;locus_tag=LOCUS_01450;note=WP_145161548.1 sugar ABC transporter permease (Sinorhizobium medicae) [pid:32.5%25%2C q_cov:90.8%25%2C s_cov:84.6%25%2C Eval:1.9e-41],MGA_145
sequence1	MetaGeneAnnotator	CDS	152385	153713	.	-	0	ID=MGA_146;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLFKLAFIAILSFFTIASCGAKSNEKATEGERVTLKFAALETAYGDKMWSEIIEAYKKINPNVEIELNQSKDIESTLPGLFQAEDYPDVIMLALSRKAGIPENFVKEQALAELTSILDMNIPGEKVTVRSKLTDGAVGNNQTDPYLNGKTYLMPMFNSPTGLFFNKGLFEEKGWEVPTTWDEMLDLAKIAKSEGISLLTYPTTGYLDSFLPPILAAKGGPEFLNKAMSYEKGIWDSEKMNEVFKVLGEVVKNVHPTTVANANNEGFTKNQQLVIDNKALFMPNGTWIVGEMAATTPKDFKWGMTAYPAFEKGGKSYAVNFFEHIWVPAEAKNVEAAKEFIAFLYSDVAAKIFAEKGAVQPIKNYPFDMLSKENQVFYETFKNGANPLAGGFAATTPVEGVDVSGTVYGTINSVVNGTKSVEEWQADIVKMADTLREHVIK;locus_tag=LOCUS_01460;note=WP_015776381.1 N-acetylglucosamine/diacetylchitobiose ABC transporter substrate-binding protein (Brachybacterium faecium) [pid:24.5%25%2C q_cov:70.4%25%2C s_cov:64.0%25%2C Eval:2.5e-20%2C partial hit],MGA_146
sequence1	MetaGeneAnnotator	CDS	153732	155849	.	-	0	ID=MGA_147;product=1%2C3-beta-galactosyl-N-acetylhexosamine phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013389475.1;translation=MSRVTLPIEKGCEELVLELIKLWGADAIRNSDGTKLNDFFENLDAKIYSTYFPAREDQDWPRENPEEIQHQALISERYTAFNDTLEIDPMEGYYKEQLEIDEKTTDYWQVFDRTTNSLVPKENWIFDGNVVKIGNALKFHEYTVNFFAKQTWDTTHMYNHMTNNWNSDKSIPYDIVFDKTREHIYSHLKKWCDRNTNINVVRFTTFFYHFTIMYNQHAMQKFGDWFGYSASVSPKMFEKFKEDKGYEITLEDIIDKGYYNNQFRNPSKVFLDYMDFMQKFVSTLAKVCVDIVHEYGKEAIMFVGDNWVGTEPYGKYFKNIGLDGVAGSAECGVDIRMVSDMENIKIKEIRFLPYLFPDTFYEGNTPHLEWEYNWMRSRRAILTKKVDRIGFGGYLSLAAKFPLFINSVTKSTNEFREIHEKTPNEECIKPHFKIGILNSWGKIKSWQSNRTGHATGIKENVSYIGVLEALSGLPYIIEFINFDDIKNSEKLSEFKVLINVGEANTSFSGGENWLDPNILNIVREFVAKGNGFIGIGDPSAAIGNGTYFQLQDVLGVDKEIGNTLQFSRYMEETKNRSIVFEQIQGKLSIGNRNKYIYSTSHNLEILQLNKEFGVEASINKYGKGKGVYLQGLPYSIENTRFIYNIIRYITDDVNKKYISDNIYVEAYEFNEYIAVINNSDKNIKTNITALGNIELERYELKWIKK;locus_tag=LOCUS_01470;gene=gnpA;EC_number=2.4.1.211;note=WP_013389475.1 1%2C3-beta-galactosyl-N-acetylhexosamine phosphorylase (Bifidobacterium bifidum) [pid:39.3%25%2C q_cov:99.0%25%2C s_cov:98.0%25%2C Eval:3.1e-151],MGA_147
sequence1	MetaGeneAnnotator	CDS	155858	157012	.	-	0	ID=MGA_148;product=SIS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011263815.1;translation=MNYLGICEHVLRETNSYNTAKEIHTQPEIWNNVVNTFEESKEIITEFLNKVGKDTQVIFTGAGTSEYVGNILAPMLNSMQDGDFVSIATTDIVNNPLHYLKKDKKVLLVSFARSGNSPESVATIKLVNSLVKEVYHLFITCNPKGELALMSVTPEFVNNTLMLLMPEGTNDKGFAMTSSFSSMLMMATLIFYNKTNPENMREAISLVKKEIDLRLESIKALANEEQDRIIILGDGAFKGLAEELTLKVMELTAGKVVAKSDTTLGFRHGPKSVINNNTIVFLLLSNEEYSRKYALDILSEMKSENVANNIVTYSLKDCNDVKEATKVIITPNTTISLEKAIFTYLIYGQMYAFFKSQHFNLTTDNPFPSGEVNRVVKKFQIHEF;locus_tag=LOCUS_01480;note=WP_011263815.1 SIS domain-containing protein (Aliivibrio fischeri) [pid:42.9%25%2C q_cov:99.7%25%2C s_cov:98.5%25%2C Eval:5.1e-80],MGA_148
sequence1	MetaGeneAnnotator	CDS	157207	157809	.	+	0	ID=MGA_149;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLMLSIMILIGIYSFSINITGPRYRIDGTLGIGYKPDPHDRNTQWQNFKGNFLNVDMGIGFFPEWTLKINKKFSMSFGPKVTANLFTTTYETHVDDDINRKLYFSISTGARLDFNYGIRDNVKIYTGLETLTTLMTDIHISYIDYKSKTGRSVTLAIHPILLGKVSVGTKIKKYNVGLYTEFGIRKQLVGGVEVGYSF;locus_tag=LOCUS_01490;note=MGA_149
sequence1	MetaGeneAnnotator	CDS	157847	158650	.	+	0	ID=MGA_150;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLILSLLLIIGLFSFSSKIPKVNKKYEVKNTKSNSYKKTKIKEMEKNIEIENVLEVNKTINVEKVEPILKPSKKRKLNISGPRYRIDGNISTLPIYYTKIKKIGYYAYKSLSFLPEWKVQVSPLFDITFGPKISANLLYGLNGDNTVAKTESDKSIIIMSASLGTEVDFNYRLRDNLKMYAGIETQIGLGEKINTKSGTYYNGQIGKDNEIESYLPYTNSKIFTSLKTIYVAKVAIGFKVNDKYNVAFFGGYGKGNFGIEFGHTF;locus_tag=LOCUS_01500;note=MGA_150
sequence1	MetaGeneAnnotator	CDS	158948	159373	.	-	0	ID=MGA_151;product=PTS sugar transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012027178.1;translation=MIKILITGHGKISSGILSSVELIYGVSEELVAIDFTQEITPEILEDKIEKEILSSKDGVLILSDIAGGTPFKVASILSLKHENVKVIGGMNLPMVLETLSERDYSTTEKLYNFALEMGREEIKGFELKIKNKASDDFEDEI;locus_tag=LOCUS_01510;note=WP_012027178.1 PTS sugar transporter subunit IIA (Streptococcus suis) [pid:36.4%25%2C q_cov:100.0%25%2C s_cov:96.5%25%2C Eval:9.2e-18],MGA_151
sequence1	MetaGeneAnnotator	CDS	159383	160195	.	-	0	ID=MGA_152;product=PTS system mannose/fructose/sorbose family transporter subunit IID;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_167627999.1;translation=MESNKYIDQKVNKVITPSVLNKVALRSFFCQGAFNMERMQAAGWLYSLNPALKEIHTNKNDLSKSMKMHMEFLNTHPLLITFILGLVVAMEENKENTDTIRAIKVSTMGPLGGIGDSLFWLTFLSISAGLGASFALQGSIVGPIIFFVLFNLMQFSLKFGLMHYGYKTGVKSIATLKANTQKFTKSITILGLTVVGSMIAQFIGLTTKIVIPAGQASVNLQESFDKVMPKLLPVAYTFLMLYLLRKKVSPLNLVILTLLFGICGSIAGII;locus_tag=LOCUS_01520;note=WP_167627999.1 PTS system mannose/fructose/sorbose family transporter subunit IID (Listeria valentina) [pid:51.7%25%2C q_cov:97.0%25%2C s_cov:94.3%25%2C Eval:4.9e-78],MGA_152
sequence1	MetaGeneAnnotator	CDS	160185	160952	.	-	0	ID=MGA_153;product=PTS N-acetylgalactosamine transporter subunit IIC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000406214.1;translation=MLLKAILIAIWAGFAGIEQFDGLQTFHRPIFAGLVIGLILGDVKTGLMVGGSLELVWMGLVPLAGAQPPNIVVGGVFGVSLALLSGLQPQEAIGIVFPLAVIGQIIVTLMFSLYSGMMKLGDKAAENANPAGVDRLVYIQLLIRFVLFGGVTFLFVYFGSDSIKSIIESIPQYIIDGFGKAGSMMPAIGFALLLNIMLKKEYFSFLIVGFVATAYLKLDLVAVTLIAVSIALYDYYSNSSKAIEVVRNEEEENGI;locus_tag=LOCUS_01530;gene=agaW;note=WP_000406214.1 PTS N-acetylgalactosamine transporter subunit IIC (Enterobacteriaceae) [pid:45.5%25%2C q_cov:99.6%25%2C s_cov:98.5%25%2C Eval:7.6e-62],MGA_153
sequence1	MetaGeneAnnotator	CDS	160971	161444	.	-	0	ID=MGA_154;product=PTS N-acetylgalactosamine transporter subunit IIB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002387360.1;translation=MPNILAARIDNRLIHGQVGMTWANSLQANLILVANDEVSTNTVQQSLMDMVVPEGIQTRYFSIEKTAAIIHKASPSQKILLVCQTPQDVLRLTELGLKLDEWIVGNMHFSEGKTQISPTVFVDEDDKEVFKKISNYGVKLTIKGVPTDKGQELINLL;locus_tag=LOCUS_01540;gene=agaV;note=WP_002387360.1 PTS N-acetylgalactosamine transporter subunit IIB (Enterococcus) [pid:52.3%25%2C q_cov:97.5%25%2C s_cov:96.8%25%2C Eval:8.9e-40],MGA_154
sequence1	MetaGeneAnnotator	CDS	161589	165347	.	-	0	ID=MGA_155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYKHKLLLILILTGKIGVSNLARHDINWEDYEDFAMNRGKYAIGRTKVIVYKKDGKKFGVIEQPIPNFDSVVDTGNFALWGDSQILSSAYHVTPHSKLTFSKRHFRNDVELYEGYQKLTLDQKNDKFSEDIFVDHRQKIEKDYTLIRTDKVAFDAYIQEGITEEQWKKIKSDDLVARVGRGGNKVAIDYGVEHDPDKEKHFAGGLNKVDYKYDRGIGRYIQLNLYKEYEKTPIDSGTKPGDSGSPLFWWDKEQKKWFMAASHSQGAFILGYGKWSRLLSLPSAYEEFKKALTDEEINSKNTDIKFENGNLKVDGKEIKFKNKENIDIVKAKNDTKNQIFNKKDLVVKVEGTTNTHAARLEFKQDTTIEGGGTLITAGFVVHKNATLTYKLHFGEKNIIRKIGEGKLIIKSKTRNYGELNLGGGETVLENEEGVAASVIRLAQGAKLTITRANQIGDNNVVFAHRGGTLNLNGNDLEFKDIYHRDKGARIVNDKEDNENKRSKFTFKPSGGNRVFLGSFKGNLNLEYNPVKDDSKWSIRSEETDIKGDFNIEKGNVIIEGDRVIHGSDNTEKESDIFYDDEYRETKFKSKTINIKEKSTLTVGRATEVDSTISVEKGAKLELDLLGKVVNDRLKPYEEAKSEEEINKTVVKGKIEFKSNNSENYSTNITNFKAKVENNHIAVIKSELKGEIKGIKEGKGLLYLSHEDNSSLKGTLEVKEGKLKVKKASTLGNSKVSVTKNAILEVEDKNEIEHIFDKIDKASEGTLNIREDIDELNGKYKDLTKLFLVATKDLSITKVASGINTLNLDASDKSTLTLKSINNSVSKVNIGNGNNKGTISIESVSNTNTDFTINKDSTVNFLNDTQVNKVENGGNINLKDSNLKINEYNSKGGVFNIHLTKTDNKVLEIENTDKDVEAKLKLEKSVIDKVVDDGERIDIVKIKGHNLNISNLKDYESVYKLGIENKEGTFKLFSSVKGEVISNLYIFNELDLVNDMSNELRYRNVIEANYINYNKIDKDYLKIESSTEYKNKLSTNGVDINFEKASYIVSGGINFNVLVNNLTTEVKDSETVNTNFVSIGAIPKIGIKYGLFDISLGLGLNILLVNNGDKLAYLNHSLNVGLNPRFSISKDIGIRYLNRVGYRVNPLLSNLDRYTISHKRPINLYYETGIRLEHKYVDFFSKANVGYNFSSYEVSKNNKSITNTFKDDWRVNIRTGFEIKPTDSIFINLNFDVNVYQKTYARYIFGAGIGYNW;locus_tag=LOCUS_01550;note=WP_001045650.1 serine protease autotransporter toxin Pic (Enterobacteriaceae) [pid:26.7%25%2C q_cov:38.8%25%2C s_cov:34.8%25%2C Eval:1.5e-29%2C partial hit],MGA_155
sequence1	MetaGeneAnnotator	CDS	165554	166792	.	+	0	ID=MGA_156;product=dicarboxylate/amino acid:cation symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012047697.1;translation=MEKKSIWKSYRFSIILILSIIIGSLIGAIFGEKAMVLKPFGDLFINLMFTIVVPLVFATIASSISNMSNMKRLGKIIRSMLVVFVVTGLIASVIILFVVKMFPPADGVNIVVNEVAELKTISTGDQIVKTFTVTDFTELISRRNMLPLIIFTIFFGFCVNAIGESGKVISNFLSALSKTLLKMIGYIMYYAPIGLGAYFAALVGEYGKELIGSYTKAMLIYYPLCILYILIFFPIYAYISGGKEGVKSLKYVLSPAVTAIATQSSIATLPVNIEACENIGVPKDVSDIVLPIGATAHMDGTVIGTILKISFLFGVFNIPFTGISTYFTAILLSIAGGVVMSGIPGGGLIGEMLIVSIYGFPPEAFPIVATIGYLIDPPATMINAAGDTVASMLVARMVEGKNWLLKKGEKNV;locus_tag=LOCUS_01560;note=WP_012047697.1 dicarboxylate/amino acid:cation symporter (Clostridium botulinum) [pid:52.4%25%2C q_cov:99.8%25%2C s_cov:97.2%25%2C Eval:7.0e-123],MGA_156
sequence1	MetaGeneAnnotator	CDS	166785	167594	.	+	0	ID=MGA_157;product=Cof-type HAD-IIB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016356.1;translation=MYKAVVTDLDGTLLNSSHKVSEYSKKVIKKFVEKGYKFYIATGRLHASTKEIADSIGVKIPLITVNGTRILDENGNEIYNNTLSFETVKKIASLDYKSCGEDLLINGYFRNVWLVTDKKAEEYYRKERPDKPYFPNTVSEEEFMSKTFNKMHFIGNHESLLKLREKILKEIDEDLNVVFVGNTCLEIFNKDANKAKAAKFVLEKDGIKLSEAIAFGDSLNDYEMLKEVGKGFLMGNAIYLLKEMAPELEIIETNDNDGEAKKIEEIFGI;locus_tag=LOCUS_01570;note=WP_011016356.1 Cof-type HAD-IIB family hydrolase (Fusobacterium nucleatum) [pid:38.3%25%2C q_cov:99.6%25%2C s_cov:98.5%25%2C Eval:4.3e-42],MGA_157
sequence1	MetaGeneAnnotator	CDS	167607	167978	.	+	0	ID=MGA_158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIALVVDDNPYIRGNIREILEASFFEVFEAKDGIESIDMFLEINPTIVIMDINMPRLNGLEATARIMEINPNANIAICSSMLFIPYYQKLARKAGAKALISKPFTKLELISGLNELLEEMR;locus_tag=LOCUS_01580;note=WP_011016216.1 response regulator (Fusobacterium nucleatum) [pid:34.7%25%2C q_cov:95.9%25%2C s_cov:46.0%25%2C Eval:4.1e-15%2C partial hit],MGA_158
sequence1	MetaGeneAnnotator	CDS	167982	168335	.	+	0	ID=MGA_159;product=CidA/LrgA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003132486.1;translation=MKIIIELLYILFFSFIGQSLSKIINLPIPGSVIGLILFFLALQFKIVKLESVETTSKFLVDNLAILFIPAGVGIMISFKHIKDIWVSILLICLFTTILSLVVVGKLTQHLISKGDKK;locus_tag=LOCUS_01590;note=WP_003132486.1 CidA/LrgA family protein (Lactococcus) [pid:48.1%25%2C q_cov:92.3%25%2C s_cov:80.6%25%2C Eval:1.9e-25],MGA_159
sequence1	MetaGeneAnnotator	CDS	168335	169042	.	+	0	ID=MGA_160;product=LrgB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001288948.1;translation=MFFELTKDPLFGMFLTMAAFIFFRMLSVRFKSSILNPTIFSIIFIIVFLNLLEIPYENYYKGSEIFNRMIVPATVALAVPLYKNFHILKRYYKEILLGIGISTLLLLIILGLIMIILNMEEKIIASVLPKSITTAIAIGVSEKINGLPSITVVAVIICGNIGAIFGELIFKWFKIEHPIAQGISLGTTSHAIGTSKAVELGEIQGSMSGLAIIITGIFTVLLAPLVYALLILLKI;locus_tag=LOCUS_01600;note=WP_001288948.1 LrgB family protein (Streptococcus) [pid:39.3%25%2C q_cov:91.1%25%2C s_cov:92.6%25%2C Eval:1.9e-45],MGA_160
sequence1	MetaGeneAnnotator	CDS	169061	170047	.	+	0	ID=MGA_161;product=DNA cytosine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003690326.1;translation=MKIISLFSGAGGLDLGFKKAGFDIVAANEFDKTIWETYEKNHKTHLIKGDICNIHSSMFPECDGIIGGPPCQSWSEAGSLKGIEDPRGQLFYQYIRILKEKQPKFFLAENVKGMMSKRHNDAVKNIVSQFEEAGYDVYIHLLNASDYGVPQDRKRVFYIGFRKDLNIKFDKPPKQYGYKVTFKDAIYDLKDTAIPALEKNKTNGDKCKVLNHEYFIGAYSPIFMSRNRVRQWEEQAFTVQASGRQCQLHPQAPKMPKVEKNKNIFVQGKEALYRRLTVRECARIQGFPDDFKFYYTNLDNAYKMIGNAVPVNLAYEIAKAINELFNNI;locus_tag=LOCUS_01610;note=WP_003690326.1 DNA cytosine methyltransferase (Neisseria gonorrhoeae) [pid:68.6%25%2C q_cov:98.5%25%2C s_cov:95.6%25%2C Eval:3.2e-125],MGA_161
sequence1	MetaGeneAnnotator	CDS	170072	170593	.	+	0	ID=MGA_162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLKSNNQGRAYEFSYLITLFEEISKVRPVKIENNSSFLAAEREWNTLSDSEKITYKASALAAVNTIFDLEPLILDDGDDELELIIQSDAKGEEGDVRDLLIIRRGIKWEIGFSVKHNHFAVKHSRLSKNIDFGKKWYGIECSKNYWEDIKPIFDYLEEEKLKGTLWKELPNK;locus_tag=LOCUS_01620;note=MGA_162
sequence1	MetaGeneAnnotator	CDS	170627	171016	.	+	0	ID=MGA_163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNELIRQREDIPKLMVEYLLGKFDFYKVIGIDNKRITQIQSYNLRGSLNKQGKNRKRNIELKISSLPTRIVSLEYKPKSKNTLELYLDRGWQFSFRIHNASTKVETSLKFDIQIIGMPTTIISIDCRWD;locus_tag=LOCUS_01630;note=MGA_163
sequence1	MetaGeneAnnotator	CDS	171007	171216	.	+	0	ID=MGA_164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLVRYLVLDFIEVNVGITSIISLYYINIIKIDDFCHLFFIFVKFYILIYNICGIFGKTIKRRIMIFLS;locus_tag=LOCUS_01640;note=MGA_164
sequence1	MetaGeneAnnotator	CDS	171225	175265	.	+	0	ID=MGA_165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQKRVLFLLLLSSLAYTKEEQSKISGEVTFGIDSTFGVDGLENVSRLIPQVIDLFKSNKYKDYEKEKNSEQKNNGNKGNNQNNNNNNSGNGNQPPNKLDAYIPKYNPTVRDLELAAKYLSKNVELRKKLSVKLKENYVGLGLKVDIFGKKITHTKFLGNNEIEKLKLTLTSDNRYINGEINYYVKGESPEKIDIDKIDDEKTLKNKVVEYRFSVNPRPDKNLSLSLDFSGENRNINIGPTIRYRKGGTYVNASLIFNNEKRSYDLTDELDKIKHTAPGYDKIEYFKKWTLKEGYPKDNITKDDYNKEHADLGKAEVSGTKGTARILGHYSGSLYGDSPFRYVAKSFFDEIHSNKSFSSVSSIIKVFEKDEAPTSTSFLSLGLLNLSSQIQNNTEINKLITKIGKKMYRRLGIGLERKYSSINAWTQVPEEFHYLLPGFYKNFDYSKIKSEELDPDYLYNNGIKKPELPSKGNIRNKRDADNNGNGDYKLKEGWHYFDTDFDEYVRKEIFREYSLEKIQKLTNKSTLGLAFDWLLGNQINQVISELPKIQELMKNPYEMKGVDMLRGIYFHQSEKERNVMKYEDILRANFSDVNLKENSTKYSTKIKFNIGHIGRNYKLGASLLLNDNVNVNAEKYGYVRRNDNIGVNATYKEGIIEFDSKLSLDLTKNYLYRKDNKEKHVYNTVSLNTDTYLGLNIPANEKLNVLLGLRHIGVYGWINPIESLDKNGKAIEFDIAKRDESNNPIGKDNNSIITSETTEKNLVDKEYERLKQENNGKSNKLKRDIHQSDYIQTEKSKTLKSRYELYNILSPRVTMVYRPYDNIIFSSHLELPISIRNSSPAGIRGIYTGEIRYLIDDSFKDIIYTKSNPIKFKTSGDIEAGLILGNDVGYYLSYKAMADMSFLRGDIKGNDKDIDFSLSLNPLIVNLPIKPRLLIGKEGKEYVSKVGLEYSKGTEFTTILGMRKVLKTSKDILEEELKPNILEVLKSRNNNEYNIIKEKFTKESFKGELTYTFTPFIDIRKEEGNFRIRAKADSTKLIGRDVKIEIDEGKFEELPLEYFAWNYQKNGGWWNTNKTYNYFLDSKSKKVTKENKKILDLEHQIYNFEIDMDYEQEKGVNFDLNLGITYNETKINGINEITTTTETKSKVISHTTDKQDPTKILDKIKKDNVEVKVDEKNILGSLKKYLREKKEKAADEKVYEKYGTLGSYSEIKEEKLKKILYYPNRIKKEFKSEETLFLHTKRINANLDTYLGYKFKTSDRMKLSVGMKYNLTAEYISSNKIIVEEIKLFGSRKILFKNTLSPEVKMTYNLINNLNARLSAELPINFENKDFKDVKFNVRTGLEYRW;locus_tag=LOCUS_01650;note=MGA_165
sequence1	MetaGeneAnnotator	CDS	175337	175636	.	+	0	ID=MGA_166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFRRFQPFLMFIFTMSCTLVDINYENIDNVNKQSNGSNTHSKNLDSYISSGKNKENRVTPELPQSSIPKSKEIKHENLKQKLGLNESLEERSGTEKGL;locus_tag=LOCUS_01660;note=MGA_166
sequence1	MetaGeneAnnotator	CDS	175614	176432	.	+	0	ID=MGA_167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEQKKAYKDGENPVTILESYVNQGRISEIKNKYSFLIFENANDNPNYKNHAFEVIDSFMDTDGDGVVSETEKNAFNDKTVNIKLARGNNTEGIKGIINMSYAIVESNNNFRYLYKDSKYLDKIYPNYNTNSYLNSHLTSRLLNKDYVYNEKLLISSLGNENHSRINTKYFSNSILNNYQIMSPEMQALARSESIMVKNSVNRKHSLIGTYYNNINTSYIDSESGYYIDKLINQYFQAQFLLLRSFTVGEVGLLKNEQEGYYPYFFWFIIFST;locus_tag=LOCUS_01670;note=MGA_167
sequence1	MetaGeneAnnotator	CDS	176377	178041	.	+	0	ID=MGA_168;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKRVIIPIFFGSSYSAPRIARLAYDIKEKYPFLIYQQVKQVILGTANHSIDGYLDDNVGWGNANREKALKGPSDFNAGLIDEMKYFKGNYDKIFDEKGNRYFYVDIKKDKEYTFENDITSGLKGDGTTRDERIIKIDGTKNKHELNSNKYSYRIPKVLESEKLFYSNVAQAGLRKDGEGKLILTGKQEYSAPSQVLDGTLVLKNDSNSDYTVYEKGTLVIENKINDENKEIKLKNIYTDGKVDIKSNATLENLYGSDKYKIEFIGKNIKIKEFKTTGEYIVRLINGNLDEIPRLEIEKFTEEDRKSLDNLSNPFLKPVVINENKIVSIKFVGTLEDEFKKLSEITDENILKDLPSYDINKKKFFDEYKEDSRNYRSSNNIMKPMSSDIKSLLLNSSNGEVKNIFTDNYASIVGNIIKNEIDNKCNRTNIILNNLEKRNRLFFDTYARTNILNDAKFSPFVDNNVGAIIGYSRKLSNGNTVNLYGIYQYGNVEFKNNGSNKSKSINNLYNLGVNISKKYWIYLRLILIRIYGIAEVMYIMIVTMLIKKQMYYIV;locus_tag=LOCUS_01680;note=WP_201627120.1 autotransporter serine protease fusolisin (Fusobacterium canifelinum) [pid:23.3%25%2C q_cov:89.2%25%2C s_cov:45.4%25%2C Eval:9.5e-12%2C partial hit],MGA_168
sequence1	MetaGeneAnnotator	CDS	177933	178511	.	+	0	ID=MGA_169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIFAFDFDKNIWYSRSDVYNDSNDANKKTNVLHSLSINPSIKLGVELKIEAIKSILKPYVGYTFNYVVVWGKKDNNISSDSSWINRLRNIGLTGIYNNNLEAGIEIDSKINDKISIQNRLVIDYNSLEEIKLNQKLAEKMHKTLGKGLDKISANYNLGVKLRTVDGINLIFKTNVNTKLNIGLNLGVDFNF;locus_tag=LOCUS_01690;note=MGA_169
sequence1	MetaGeneAnnotator	CDS	178621	182631	.	+	0	ID=MGA_170;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQKKILFLLLLSSLAYSNDKESKISGEVTFGIDSTFGVDGLEKGFSYIPTFLKLFKASKYKEYEIKQDINNGNDNKGNEPPKKSELYIPTYTPTMRDLELATKYLSKNVELRKKISVKLKENYVGLGLKVDILGKKIKHTKFIENNEIEKLKLTVTSDNKYIRGEINYYVKGESTEKIDIDKTDDEKALKNKVIDYDFSVNPTPDSKVSLSLDFFGKNKEINIGPTLRYNNSGSYINTTVLFNNISSSYDLTDELDKIKYIAPGYDKIEYFKKWALKEKYKNPTEEISKSDYEGEHADLDKAEVSGFKGTSRILGHYSGSLYGDSPFRYVAKTLFDEIHSNSYFTNTSKIVKEFEKDEAPTKTSLAWAAFKARNILKEIENKDEFNNIAKKIALNLYRKSGIGLERKYSSIGAWTQVPDEFHYLLPGFYKNFDYSKINIDELSPDYLYNNGLITPKLPTLVNNRNALFKPQARVKNSSEKYALKEDWHYFDTYVKKYIIDEIIREYNIDNIKELSEISKGKLVLDAIFGNKIDNVIKELPRIQELIKNPYEMKGVDMLRGIYFHQSEKERNVMKYEDELKKSFKDIDLKDNKSKHSIKIKIEAGHVGKNYKLGTSLLLNDRVEVIGNKYKYIKRANHFGIDLIYSGLLEFSNKSYLTLAKNSLYKTESQEKYIYDTISLNTDTYLGLNIPANEKLNVLLGLRHIGVYGWINPIESLDKNGKAIEFDIAKRDESNNPIGKDNNSIITSETTEKNLVDKEYERLKQENNGKSNKLKRDIHQSDYIQTEKSKTLKSRYELYNILSPRVTMVYRPYDNIIFSSHLELPISIRNSSPAGIRGIYTGEIRYLIDDSFKDIIYTKSNPIKFKTSGDIEAGLILGNDVGYYLSYKAMADMSFLRGDIKGNDKDIDFILSLNPLIVNLPIKPRLLIGKEGKEYVSKVGLEYSKGTEFTTILGMRKVLKTSKDILEEELKPNILEILKGRNTKEYERVKEKLDKESFKGELTYTFTPFIDIRKEEGNFRIRAKADSTKVVGKEVKNETVVGEFIERKNVEKYFAWNYQENGWFNKKYNYFMDVKSDKITKETKTTVDLDNDVYNFEIETEYKQDKGVNFDLSLNIVYDEIKLNRMKEIKTITETKSRVIMITSNSNSPTVSETEKNDPKNKVDIDNKDRLGSLKKHIQNKKEKAYDNKVYNEHATNISGREITERELVERLSDKTKIEKKLENTLFLHTKKINANLDTYLGYKFKTSDKMGVSVGMKYNLTAEYISSNKIIVEEIKLFGSRKILFKNTISPEVKMIYNLINNLNARLSAELPINFENKEFKGVKFNVKTGLEYRW;locus_tag=LOCUS_01700;note=MGA_170
sequence1	MetaGeneAnnotator	CDS	183088	185712	.	+	0	ID=MGA_171;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYIINHKNIMCLLLLPLITYSHESNINGDIAFGITSELNSSIPLKLDLLKNMKLRKSLSFKLKEKYLGLGLEVDILGKNISYTDFLGNNDIESLKLKLISDSKYINGEINYYIKNESSDVKNKALEYKVSINPTADNKVSLSLDILGKNKDIIIGLTFRYRNMGTYIDTSVLLNNIKTAYDITDEIKQSDHVKDIDLKNNKSKHSIKIKIEAGHLGENYKLGTSLLLNDRVEVQGDKYRYIKRANHFGIYSEYKDLLEFSNKLDLSIAKNTLDKTENNQNHTYNNISLNTDTYLGLNIPANEKLNVLLGLRHIGMYSWVNTNNSGFVYDMNNILTPRINVIYKPYKNIEFSNNLELPLSIKGRSIYGIRSIYTGEIKYLIDDSFKDVLETKEFPIKFKSSGNIETGIILKKKPTHYLSYKAMADIGFLRGDIKGNNRNIDFSLSLNPLVINFPIKPRVMFIRENSDLSIKFGLEYSKSEEFSSLVGFKKAVRLGNDIIEDELKPNILKVLKYNSYDKYNEIDEKLKEITFNAKLNHIFTPFLNIRKDSDNFKVNIKAESSKITGHDEKSKIEIGDFKDRVAKEYIAWNNQENNGLNWLSFGAIRKYNYFIDVKSDKVTKETKTMVDLDNQKYDFVIFTEYGKDKGFNFNMNLGLSYNEINLKYKKEIDIKTETKSRVVNIVSDIGRLTLTDELINKGSNVELTEGKLLESLKNHVKKNNAKDEFIYSLEYEVFGLLYKQVTEEYLKNKLDYPISIKEEKKEENNVFLSKRINLNLDTYLGYNFNPIDKMIVSVGSKYSMYLRYDLIDKIKKDNKELGYKKILIGNTITPEVKMTYDLINNFSVMVGTGIPIYIENKRFKSIRFNIRTGIEYKW;locus_tag=LOCUS_01710;note=MGA_171
sequence1	MetaGeneAnnotator	CDS	185648	185809	.	+	0	ID=MGA_172;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIRGLNLLDSILEQVLNINGKRSIKERGAIPTINASFKFCNLVSLDAMKLIL;locus_tag=LOCUS_01720;note=MGA_172
sequence1	MetaGeneAnnotator	CDS	186010	186183	.	+	0	ID=MGA_173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDFELAEIYGYTTTRFNEQVKNNSEKFDDDFMFQLTKSEFENLISKKSTSSWGGWS;locus_tag=LOCUS_01730;note=WP_011203655.1 ORF6N domain-containing protein (Bacteroides fragilis) [pid:59.1%25%2C q_cov:77.2%25%2C s_cov:22.4%25%2C Eval:9.6e-09%2C partial hit],internal stop codon at [186291:186293](+),frameshifted%2C insertion/deletion at around 185986%2C186166,MGA_173
sequence1	MetaGeneAnnotator	CDS	186383	186895	.	+	0	ID=MGA_174;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATKEDLKKVMDNFIDPETYKHFLLMNGDKIEADVAHTKIYKSAKRSIYVIDNYIGLKTLELLRTARYNTQIILFSDNVKNKDMLTKNILDDFRKNYPNIDLKLKISGKKYHDRYIVIDYGTDSEAFYLCGASSKDAGNKISSITKIEESSKDLYHMMFSRMLNNKDLKI;locus_tag=LOCUS_01740;note=MGA_174
sequence1	MetaGeneAnnotator	CDS	187150	187326	.	+	0	ID=MGA_175;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHELTEEDKYKWTHRMVLSILRDPVYCGNRGRNKRPTLSFKNRKRLYVSKEKAIIKVI;locus_tag=LOCUS_01750;note=MGA_175
sequence1	MetaGeneAnnotator	CDS	187422	187685	.	+	0	ID=MGA_176;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTVLYLKIYSIMRKWYYKAEKMDKYKVDERKDKTEKLNGNKNIKLFLTQLEIIFFIFPKIYKKIRFKAYCEIFIQNLLTKYAGGGV;locus_tag=LOCUS_01760;note=MGA_176
sequence1	MetaGeneAnnotator	CDS	187772	191410	.	+	0	ID=MGA_177;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKKLVAIFAFISIISYTDMGYKLSNGIDEIKNLSKNIKLKRSRRAASNPATDGIAQGAEVTATKDSAVFGIRSKADGEKTIVVGVDSSSKSKESVVIGYKSTTEKENSVAIGSNSNVTGKNSVAVGSDTKVEGSGASAFGYKANAKGESSVAFGVDTTASGLRSVAIGKGAMATKNDDIAVGSGAKTNTRNITMKDNQESKSSLAFGINATADGVNTISIGTGTKAEQSSAIAIGGEAAGVGAVTIGYVTSAKAHSTVAIGYYAKALKSSATAIGSQAEASGQVSTAIGATAKATETYAVSIGAKSEASFKGSVAIGSGSKTDSKATKETEATVNKITYSGFAGSNPDEGYVVSVGTEIPSTDKSNSGKIIKRQIKNVAAGKISKESTDAINGSQLYMTNNVLGNLADSTKTILGGNASITTSGNDAGKLTITNIGNTNKDNIHDAIIAAKTTMTVNDKEEENKSNGNLILTSETDAKDGHKKYNVKLNDKITLGKDDNKISLDGNTGNVTIGKIEVKGTAGTINNLTNKTWDLNKYVSGQAATEDQLKMLHDTLNTTITGFGFNVMAGKHGTGQATGEQLEKVSKDNTVKYIAGDNLKITQSGKDFTYELNKELKDLISSEYKDKNGNTTKITNNGMTINSGDKSVSITKDGLNNGGNKITNVADGTDDKDGVNLSQLNKVKQDIENKISNQVKTEITANDGQEANKTTGNVVLTEKTENGKKIYDVKLNDKISLGSGDKKVELDGTKGEIKAGDVTINKENKGTINGLTNKTWDANNFTSGQAATEDQLKSLSDNIDSKISNFGFNVEAGKEGTGTVSGKSEKTKVSKDDTVKFNAGNNLDIKQNGKDFTYSLNKELKDLTSSEFKDKDENTTTITGDGMKINSKDGKSITLTKDGLNNGGNKITNIADGTENNDAVNVKQLKDSRTEIKSENGSAISVKSSYDSSKNKYTYTLDVKTDNKTIIKDKDGTLKANVGNITTEENNGKYIAKTSNTEQIAKTGDVVNAINGLGNNTFSFSGDTGSTEEQSLNKSGGLKFAIKGSEYIKTVAKGSEVSVDLTDKAKEDIEKGVIANSGVANAVAMASLPQISSLGGHRHNIAGSYGYFNGEHAFALGISGLNDVGNLVYRAGGSLNTKGHVSLGAGLGYQFDKLASRKRDMFVLQRNGNINLLDEKVYELEMEVENLKKENKELKKELLELKEMFKELMKK;locus_tag=LOCUS_01770;note=WP_052728129.1 YadA-like family protein (Escherichia fergusonii) [pid:25.2%25%2C q_cov:79.0%25%2C s_cov:51.5%25%2C Eval:4.9e-46%2C partial hit],MGA_177
sequence1	MetaGeneAnnotator	CDS	191582	192124	.	+	0	ID=MGA_178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKKIFNKYIFLTLVIIGNIVFSQSSDYYNKIISQQISVITGLKEIYSKKTNFNILANVISADEILRQIPKYEDKKINNLQLYFPDLDYLDKYIENVSKRVGNVNIYLFNFQTDDKYMKNRDYITYKSKSIDKKIEKLENVKVFKVKIIDKDLTEIFLESLTEEKIDIDHFNKYIKVED;locus_tag=LOCUS_01780;note=MGA_178
sequence1	MetaGeneAnnotator	CDS	192154	198390	.	+	0	ID=MGA_179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSKIHEIKKILKYSLKNKVSITDKTIITYFILGFGGLYTLSYGSWLAINDTNGTVGKYNSSKDDGENNTKNNIVLTYYNSQDNVSHSVIIGAGKKTYGKGLENVVIGFNAQSEKPQNVVIGANTKSDLQNSVILGNNSYVYRDKFGVTSSMSTDDGQGVSIGNAVYSTGQATSIGNNTYAIGRSSIAIGNDDISAYTQSVSKYDFNTYFKTLYNSIDGFGKTYGYGSNGGTDSTKHKYSPTLAQGHGSIAIGSRSIAYSDGSTALGTLAYALKKGSTAVGTLTRAEGEGAIALGRETNVFANNAIASGNKTLVLSEGGAAYGLSAISGGQNSVAIGTEVYSNVEYDYEDKIKLDGTDGKTIETSLFGDITKYGEVGAHETKRGLYGFDLNGVAKTIIGLGQDEPLGKVWGASKGEYLKSGDYFSNYKSYIEGIENGLTKAKDSTNKNNTNAITIKKAEKNGVKDIAKGKGKNAIVIGSMSGAFGDNGIALGRGSFSLSDNSISIGSYSYTKDKNSIALGIASRALAEGSVTFGNGAGVDVNGKNSMVYGHGSVAYAPNSIILGINSHIWGSKDQGDSIIIGNNANVSSKKDDNSKNNLVGHNGKSVLALGNKTNATLDNSVALGYFSATDYTQEDLNKAGYTARGSYSIPSSTKVGVISVGKKGHERRIVNVASGYRDSDAVNVAQLKTLEDRLDGATEEVDDKVRYFSVNTENDLSSLIKKKIDYKNYVKLKTQMLTIEARKKDGETISDSNISGLKTKLEELEKNDEVKNHATEIKALGSLDDSKYKTNNKFDINKYIDALEKAKTKDSTSEKIEKILTDEEKTKLMSNNFANEGAKGKNSIAIGYSASTEKDKAENAIAIGNGAKATAKDSIVLGSNSENTADVTKSGYDITNSNSNSGAAWKPTHGEFAIGKDSTITRRITGVAAGEKDTDAVNVAQLKQLASGLLKDKELIFVGNTGGDVKVKIGETLNIKGEGTVANGTAANNLKVTADEKTKTLTIGLAENLVGINTITTKKSANNEQTVLSQTGLKVTGKDSKETLVTSENVEVKNGTDKTTLSASGLKITDKDGKDDKQTNELTKTSITLKDKTGGKESTNTITVSSSEIKDKEGNSVKITADKIIVSNGTEKVEITKNSLMGATTVGKDADNSLIFGSGTTDNTTTKLKVGGKELTFTRTGDNIKISNVANGENDNDAVNVSQFKKYAEFLGGGAKFDNGTFTGPTYMLKAGGTTVTNHKDVGSALSALDKAIENSSKNITELTNKQISFQGNDDSPISKKLGEILKIKGEGTVNGATAKDNIKVTKNDSNDGLNIKLAEDLKNLNSIETKEVGGKKTKITTDGVEVTSNDNKANLTANKLTFGAKDNNTDKTETTIEKSGITVKNKEGKDSVTIKSGDNGGTIEVKSKDGNSSVKIDGEKKSITGLADIKPDETDGSIAVNKNYVDNQIRAIANGPFEYETSDGEKVVRGQDNKLYKESELKDYYYDEATSKYKHKTNGMNNQEPKALENKDVTVNVMPKNGTPISIGNVASILGEEATKTSDKAAEKVKELIGNSDNSKNKVATGTDVLALAMAGINFSGNEGSGEKIHRNIGEQVTIKGEGTDSKDDFTSASGNIQVKSDKDKGELTVKLSDKLTNMTSFETKELDDNGNKSKVKLDKEGLTTINKTDDNKYIMSKTGPNGTEIGKYDNDPLMNNNTSPTNSAKYTLEGTTIKDDKGSSNLTSNTLTLKDKDDKQRITLDNKGDTPTISLSNKEGEETVKIDGGNGKDKESSISFKVDNDKGLGVVKGLRDLTDNDPGHYAVNKRYVDNKLNGALGGVANAIAVASIPQINGKGHNIGASYGYYEGHSAFALGLSGINERGNVLYKANLSLNTRGNVGIGAGIGYQFGGDDVRREEVIIENNPSNDIRDRLIEQNEKLINQNKKLEEDNDRLRRENDRIGDEIKELRERIKAIEKIKMNEDDLYTLDGYRLGIHELTKSQEEMLMNIVRELNENYKNRKIYITGYTDNVSGENLNLELGLKRANVVAKKLRELGLDMSISIRKVSSSGYNNIVETNKSSNGRSSNRRVEIELR;locus_tag=LOCUS_01790;note=WP_001033293.1 YadA-like family protein (Escherichia coli) [pid:23.7%25%2C q_cov:46.7%25%2C s_cov:47.0%25%2C Eval:3.0e-30%2C partial hit],MGA_179
sequence1	MetaGeneAnnotator	CDS	198801	205076	.	+	0	ID=MGA_180;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRFEIQKLKNYLKASLKNKVSINDKIIIRYIMLGFIGLSAMSYGSWLSINDNTGAAGSDGGGSNTTHGSDNQKNNTILALYKDEYKTDHSVIIGAGGKTYGKGSENVVIGFNAKSEKQQNVVIGANTKSDLQNSVILGNKSYVYKDHFGITNYIQDSDGQGVAVGNSVFSTAQATSIGNNTYAIGRSSIAIGNDDISAYENKVTQHDYDSYFKKLYEKIDKDGTLYGYGSNNKTDASKHKWSPTLAQGHGSIAIGSRSIAYADGSTALGTLAYALKKGSTAVGTLTRAEGEGAIALGRETNVFSDNAIASGNKTLVLKEGGAAYGLSAISGGENSIAIGTDVYSNVDYDYDNSNIVLGGNQKKIETGLFGNINKYDDQGSSNDETKRGLYGFDLNGVAKTIIGLGQDNPPGNVSGAKKGDYLNSGTYFSQYKSYIDGLESGLSNAITKDNKQSTNSITIKKEEKNGVKDVAKSKGKNAIVIGSKSGAFGDNGIALGRGSFSLENNSIAIGSYSYAKSKNAIALGIVSRALGEGSIAFGNGAGVDIEGKNSMVYGHGSVAYAPNSIILGINSRVWGDKNKGDSIIIGNDASIDELKENGTVKKGHNGKSVLALGNKTNATLDNSVALGYLSATDYTQEDLDKPGYTAKGSYSIPSSAKVGVISVGKKGNERRIINVASGYRDSDAVNVAQLKTLEDRLDGATEEVDDKVRYFSVNTDNDLDVIARKRIDYRNYVKLKVQKLTIEAREKAGENINKDNVKDLTTKLNELEKKDNIKNHASKINALGSLEQDKYKTDNKFDFDKYIKELEKAKQEDSTETKVDSILSDEEKNKLKSNNFSNEGAKGKNSIAIGYKSSTEQAAENSISIGTDAVASKKDSIALGSFSKNTADISKSGYDITKDGSSTSMEPTWKPNNGEFAIGDGSNKTRRITGVAAGDKDTDVVNVAQLKKATSGLLNDKFLKFAGNDGKEAKIKLGETLNIKGEGMVVGTTAKNNIKVTTDKDSKILTVGLAENLENLNMITTKMNANGQKSVLSTEGLKVTGKDSKETSVTSENVEVKNSTDKTTLTAGELKITDKDGNDDKQTNKLTKTSITLTDKNNNKEDTNKITASLSEIKNKSGDSVKVEANKITIANGKDKVEITKDSVTGVTKIGKDDSNSLIFGNGVADNTITKLKIGGKELTFTRSGENIKISNVANGTKDNDAVNVSQLKKYSEFLGGNSKFENGTITGPKYNLKAGQENAKDYTNVGDALSALDNALTTSTTNIKKLENKAISFQGNGGNTDKVDRKLGETLKIQGEGTVAGATAKDNIKVEKNKDNDGLDVKLTEDLKGLNTIETKEEKGKKTKLDTNGVEVTSNDNKANLTADKLTFGAKDTNNGDKTSTTVEKSGITVKGKDDKTSVEIKSSDNGGIIKLSDKSGNEKIKIDGGKASITGLADIKPDETDGSIAVNKNYVDNQIRAIANGPFEYEAINGKEKVVRGQDNKLYKESDLNKHYYDEKEQKYKPKNNNNGMNGPKALENKDVTVNVMPKNGTPISIGNVASILGEEATTTSDKATEKVKELIDNTNKLYENNKNKVATGTDILALAKAGISFEGNTGSGEKIHRNLGEKVTIKGEGTDSKNDFTSASGNIQVKSDKAKSELTVKLSDKLTNMTSFETKELDDNGNKSKVKLDKEGLTTINKTDDNKYIMSKTGPNGTEIGKYDVNPLMNGNNKAQPTTSAKYTLEGTTIKDDKGSSNLTSNTLTLKDKDNKQGITLDNKAETPTISLSNKEGEETVKIDGGDGKDKEPTISFKVDKDKGLGVVKGLRDLTDNDPGHYAVNKRYVDNKLNGALGGVANAIAVASIPQINGKGHNIGASYGYYEGHSAFALGLSGINERGNVLYKANLSLNTRGNVGIGAGIGYQFGGDDVRREEVIIENNPSNDIRDRLIEQNEKLINQNKKLEEDNDILRRENDRIGDEIKELRERIKAIEKIKMNEDDLYTLDGYRLGIHELTKSQEEMLMNIVRELNENYKNRKIYITGYTDNVSGEDLNLELGLKRANVVAKKLRELGLDMSISIRKVSSSGYNNIVETNKSSNGRSSNRRVEIELR;locus_tag=LOCUS_01800;note=WP_011035898.1 ESPR-type extended signal peptide-containing protein (Xanthomonas campestris) [pid:24.7%25%2C q_cov:27.9%25%2C s_cov:23.9%25%2C Eval:8.7e-30%2C partial hit],MGA_180
sequence1	MetaGeneAnnotator	CDS	205429	205587	.	+	0	ID=MGA_181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNFKMKELKSYLKHKVSINEKTIIRYIMLGFVGLSLISYSSWNFLAINNEA;locus_tag=LOCUS_01810;note=MGA_181
sequence1	MetaGeneAnnotator	CDS	205813	206442	.	+	0	ID=MGA_182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTNGKNSIAYGDGSKATAPNSIVLGIKSYILGDKNQGDSIIIGNNAYIYSLYGSSNNKNGHNAKSVLALGNETLATLDNSVALGHSSQTDYIQSDLNKPGYTARGSYSIPSSAKVGVISVGKKGYERRIINVADGYRDSDAVNVSQLKTLEDRLDGLTDKNDDKIRYFSVKDDEELIKLAQKKIDYKNYVKLKTKMLTIEARKKLEKQ;locus_tag=LOCUS_01820;note=WP_100296084.1 YadA-like family protein (Caviibacterium pharyngocola) [pid:34.6%25%2C q_cov:68.4%25%2C s_cov:17.3%25%2C Eval:3.7e-10%2C partial hit],MGA_182
sequence1	MetaGeneAnnotator	CDS	206589	209633	.	+	0	ID=MGA_183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDLEEATQKDLAKEILTTDEKNKLENENYNNKGAKGKNSIAIGHGASTDKNDGENAIAIGKGAKATTKDSIVLGSDSKNTADMNNVGYDITKNNSNSNSNLNSDATWKPTHGEFAIGDGTNKTRRITGVAAGEKDTDAVNVAQLKKIFELDVFKSKELITFIGNDKTNEIPIKVGDKLNIVGEGSVDNGTAANNIKVTADKDNKKLTIGLAKNLTNIESITVSKNGQETKIEQGKITGVNTIGKNDNNRLVFNNGNSGTAMLKVDGKELTFTKSEEHIKISNVANGISDNDAVNVSQLKKYVDALGGNAKIDDKGNVTGPTYKLKVGATTNDATKDYNTVGDALKALDDAIGNSSKNITDLTNKQISFQGNGGDTDKVSKKLGETLKIQGEGNVSGNTAKDNIKVEKNKDSDGLDIKLAEDLKNLNSIETKEAGGKKTKITTDGIEVTSDKGKANLTADKLTFGPKDDKSTDKTSTEVGKDGITLKSKDGKDSVSIKPSNDTDGGIIEVKSKDGNSSIKIDGEKGSITGLKDISPNETDGSIAVNKNYVDNQIRAIANGPFEYEAINGKEKVVRGQDGKLYKETDLNNYYYDKDSSSYKPKNNGTNSVAQGPTPLENKDVTVNVMPKNGTPISIGNVASILGEDSITTDNKASSKVKELIENTNSLSDNSKNKVATGTDILALAKAGISFEGNTGSGEKIHRNLGEQVTIKGEGTDDNKNFTSASGNIQVKSDKAKGELTVKLSDKLTNMTSFETKELDDNGNKSKVKLDKEGLTTINKTDDNKYIMSKTGPKGTEIGKYDNDPLMNNNTSPTNSAKYGLDGISLKDDKGEVKLTPTELDFKDNKGRIKGLSDPVDQNDAVNKKYVDEKIASTSGGIANAIARANLPQISGKGHNIAGSYGYYNGEHAFALGLSGTNEVSNLVYRASGSLNTRGHVSLGAGLGYQFDNIGKRSKEMLKLDRYGNINLLDEKVYEHGIKIENLEISNEKLKKDNHELKMKVVELEKLIHELMKK;locus_tag=LOCUS_01830;note=WP_158580290.1 YadA-like family protein (Moraxella bovoculi) [pid:23.7%25%2C q_cov:81.2%25%2C s_cov:17.2%25%2C Eval:3.9e-25%2C partial hit],MGA_183
sequence1	MetaGeneAnnotator	CDS	209995	212070	.	+	0	ID=MGA_184;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNNLFKILSFISIMSYISIGNEKGSNIIGNKRAASVLTNTATGERAIALGEDAKASANRAIAIGEDSESSGQTSIAIGAYSKANSQAAVAIGEGAKASSDSSVAIGSLSKALENSSISIGKNSEVKKENSIAIGKEISVEGENAIAIGLESWIQSKDGIAIGKKAKSAGEGAVALGSEAEATMRNAIALGNGAVALGENTVSLGGDAMATSKNTIAIGINSKAEKESSIALGSGARSSKKYGISLGENSKSTGNSAISIGQKSISKNSNSIAIGTSATSNIENSVALGAESETTVAKPTSEIVKPRFFLDYKDFAGSNPYGVVSIGSKGKERQLQYVAAGQISKESTDAVNGSQLFSVISNFDAFVASMKSVIGNVAFLNRDGILHTLNIGNTGKNNIHEAMKSLKDKIDENRNRIEKIENTEIKLGGDKNTSTEGQKIGENNSNNGSNIGNQNQNKGKEIKFEIVKKENSEHIETKARGNKVEIDLTQKAKEDIKSGKEAKEIIDNKGLTFKGDKGETNIQKLGDTLSITGGSYITTKAKGNEVSVDLTDKTKKDIEKGVSANSGVANAVAMANLPQINGKGHNIAGSYGYYNGEHAFALGLSGTNEKVNLTYRASGSLNTRGNISLGAGLGYQFDNISKRNKELLTLQRNGNINLLDEKVYELDNKVKTLEKRVNELETLLREIIRK;locus_tag=LOCUS_01840;note=WP_133116924.1 YadA-like family protein (Paraburkholderia acidicola) [pid:27.0%25%2C q_cov:86.8%25%2C s_cov:38.3%25%2C Eval:2.2e-48%2C partial hit],MGA_184
sequence1	MetaGeneAnnotator	CDS	212279	215275	.	+	0	ID=MGA_185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGESKLKKWLKGRIRIDKRIIIAFLITGSILSNLSYSRETYEEDPTETQKDVDLTDGFHRGNSAKLDYDPKKVPRILDNKVPGNTLDTTKKRGTGVALGAFSHAGKGGVALGSHSSSGGAVFGVGIGFQARATKASAIAIGAGSYSNGYYSQAYGRSATALGNESIAQGVTSLAKEKGSIAIGTNATSSGENAIAIGSSARIRNALYQTDQSKRTDASGKNSVALGHMSQASIENGIAIGSESKTTVDKGIEGYNPNSSDTETLKGNVLKSTHAALAIGNGSTVTRQITGLAAGKEDTDAVNVAQLKALEKKITNLSDDTINKWKEKLTIGYKVGSETNSKTVSLSTGLHFKSSNDNLTITSGDKGEVKFELKQTDTINGTNGSSSNKLTTEKAVKSYVQEQIKDVKEGKFKDLTITSKDDSSKKSTIETDKDGDLAVKKGDNGSSSKILTEANVGEKAKLKYKANGSGEKEVELNKGLNFKDGTNTKATIGENGEVKYDLNDNLTGIKSIKGLESRTTDKDDYGTSDNEGRAATEGAVKKLKEEIESKLGDSSKDDQSTKNKNGSAGKDGLNGKSINEKINSIRRGESGSLVYTDEEGNRVVKADDGKFYKKEDVETNGKAKANATAVTNIRQSLVDKDGSTTNPTVLGNVGAATKDTDAINLKQLKDLGLDPTAQNKKPALTYDGENKEKITLGKDTSNPTTITNLKEGEVSSTSKDAVNGKQLHELGEKSLIFGAEEGTNFTRNNNQTKTVEIISTKEEIKKDGNTYVGNNLTTKISSNGNKATISVGLKEDPEFKELTIKDYFNKERIRFRTEYDKGVIDFLNNEGVIRGLADPVDENDAANKNYVDNSVTKALGGVASAIAMANLPNVSGGGHNIAGSYGYYNGEHAFALGLSGTNEKVNLTYRASGSLNTRGNISLGAGLGYQFDNISKRNKELLTLQRNGNINLLDEKVYELEKQLNKVEKLNLEYKNEVEELKVKVNKLEKMLNELIKK;locus_tag=LOCUS_01850;note=WP_234824761.1 YadA-like family protein (Sinorhizobium medicae) [pid:29.3%25%2C q_cov:29.9%25%2C s_cov:56.8%25%2C Eval:1.2e-21%2C partial hit],MGA_185
sequence1	MetaGeneAnnotator	CDS	215489	219181	.	+	0	ID=MGA_186;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKNLMAILAFISILSYGMDKKVGANVLEGEKSLFVGLNSSTNNEEKVKIGANAKADSEKSIAIGMDSTSRGKKGIAIGAGSLAGAEKHLSNEIEDTIAIGTDAKATATDAIAIGNKANARTKYGIAIGTETKTDGIASIALGYKSDANSDSIAIGKEAVGYGKGVALGENAHSRGRSVAIGHKADSKGVYSYGNVVIGNESTTNENLVYSTALGSGAKVEANYSTALGSKSIAKKRDNRLGYDMLTNKEVKLEDKLSEVDKGKYLSLKSELETMIEDNNKVVEEAKVITSKDYTQRTEEEKKKLSELNDKIGENNKKINEKYTEYSKIVKAWKATYGEVSIGDIEKGITRQITGLAAGKEDTDAVNVAQLKSLDKKLEEENKTYFHVNTGKNKDTGDKDSNLGKMGDSAGAIGDGSITAGAQAKADGDNAIAIGKKAETKQSSGIAIGHSSKSEGNHSISIGKDSKASDLDSVALGHQARSTGSRSTALGPHSEATKDNALALGVWSKATMQGAIAIGSNSTSNASSAITIGENSKVETGAENSIAIGKEAKSLKKDSIVLGTKAEAQGEGSIVLGYHSKSKENAISIGKESEALSIGSVSLGHSSKAKGERSVSIGAYATAEKSNDIAIGLSSKASGGYSIAIGLSAKAEASSSTAIGINSKADIEDSVALGSESKTTKATSVSEVKIGELKYGEFAGKNPMSVVSIGTKNKERQLQHLAAGQISKESTDAINGSQLYATNMVLGTFVDSTKSILGGNASVTTNGKLTMTNIGDTGKNTVHEAIKALDDKIAQSIKDYNFNITSGQSGTGSASGSNSEKIGKDNTLKLIAGDNLSITQNGKDFTYSLNKELKGMSKIDFEKSEVSIGKDGLNNGGKKITNVADGTESTDAVNKGQLDKLENKIDKTKKEIDKKIEDIDKKVDKKIKDVEDKVDKKIEDTKKDLTDKIEKATKTLKTEITANNGEEANKTKGPVTLTSKKSDAGHNIYDISLATTQLKSSEGGKIETPNSEDSKKVANAGEVAKAINALGNNTLSFGADKGNTEAQSLNKNGGLKFAIKGTDYIKTEAKGNEVSVDLTDKTKKDIEKGVSANSGVANAVAMANLPQINGKGHNIAGSYGYYNGEHAFALGLSGTNEKVNLTYRASGSLNTRGNISLGAGLGYQFDNISKRNKELLTLKRNGNINLLDEKVYELEKQFNEMKNKLKDEIKELKFKFSELEKLVKIMNRR;locus_tag=LOCUS_01860;note=WP_133116924.1 YadA-like family protein (Paraburkholderia acidicola) [pid:25.5%25%2C q_cov:62.1%25%2C s_cov:48.9%25%2C Eval:1.5e-55%2C partial hit],MGA_186
sequence1	MetaGeneAnnotator	CDS	219389	220606	.	+	0	ID=MGA_187;product=arginine deiminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002681549.1;translation=MVINVRSEINTLKKVLLHRPGKELLNLTPDTLERLLFDDVPFLKVAQAEHDRFAEILRENGVEVVYLEDLVAETLDSSHELKVQFLKQFIEEGGVQLEVYKEALLNFFLSYTDTKEMVLKTMEGVNMAELKVPRKDLVSYLDDPSELILDPMPNLYFTRDPFASTQNGVILNRMYSVTRNRETIYAYYVFHYHPEYKGKVTFFYDRTNPFHIEGGDVLNINDKVLAIGISQRTEAAAIDLAAKTLLFDEANSHIETILAFRIAESRAWMHLDTVFTQIDHDKFSVHPAILGPLEVFELRRDGNDVKVTPKEGKLEDILAEYMGTKVTLIPCGGGDRIAAEREQWNDGSNTLCIAPGKVIVYERNDVTNDLLRKHGINVIEMPSAELSRGRGGPRCMSMPLVREEN;locus_tag=LOCUS_01870;gene=arcA;EC_number=3.5.3.6;note=WP_002681549.1 arginine deiminase (Treponema denticola) [pid:60.9%25%2C q_cov:99.5%25%2C s_cov:99.0%25%2C Eval:5.7e-138],MGA_187
sequence1	MetaGeneAnnotator	CDS	220647	221639	.	+	0	ID=MGA_188;product=ornithine carbamoyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002682235.1;translation=MPKNLQGKHFLKLLDFSTEEVRYLIDLSKKFKELKLTRTPHRYLEGKNIVLLFEKTSTRTRCAFEVAGMDLGMGVTYLDPGSSQMGKKESIADTARVLGRMYDGIEYRGFSQQIVEDLAHYAGVPVWNGLTDMFHPTQMLADMLTIEEHFGHLKGLNFTFMGDARNNVANSLMVACAMLGLNFTACGPKELKPEAELIAKCEAIAKENGAKVRFTESVEEGCTDADVIYTDIWVSMGEPDSVWEERIKLLSPYQVNKKAMGYAKEEAIFLHCLPSFHDLKTTIGKEIHAKFGLPEIEVTDEVFESRQSKVFDEAENRMHTIKAVMFATLK;locus_tag=LOCUS_01880;gene=argF;EC_number=2.1.3.3;note=WP_002682235.1 ornithine carbamoyltransferase (Treponema denticola) [pid:75.8%25%2C q_cov:99.1%25%2C s_cov:96.7%25%2C Eval:1.6e-145],MGA_188
sequence1	MetaGeneAnnotator	CDS	221649	222581	.	+	0	ID=MGA_189;product=carbamate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001074342.1;translation=MGKRLVIALGGNALGNNPKEQLELVRGTAKAIVSMAKEGYEVIIGHGNGPQVGMINLAMDYAANGEVKTPYMPFAECGAMSQGYIGYHLQQAIREELKTQNINKEVATIVTQVLVDKEDEAFKNLTKPIGMFYSKEVAEEIRKEKGFTFVEDAGRGYRRVVASPSPVKIIELNVVKQLVEAGNIVITVGGGGIPVIETETGLKGVDAVIDKDKSSAKLAQDLNADMLVILTAVDKVCINFNKPNQQELSELTLEEAVKYIEEGHFAKGSMLPKVEACLDFVKNSKGNALITSLENAAIALQGKTGTLIKK;locus_tag=LOCUS_01890;gene=arcC;EC_number=2.7.2.2;note=WP_001074342.1 carbamate kinase (Staphylococcus) [pid:57.3%25%2C q_cov:99.0%25%2C s_cov:99.4%25%2C Eval:1.7e-96],MGA_189
sequence1	MetaGeneAnnotator	CDS	222602	224056	.	+	0	ID=MGA_190;product=YfcC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002356134.1;translation=MSEKKERKSLSAFTIIFILLILIALVTRVLPKLPADVTSEMLKENISLATGVNGASISDVFMATFNGFKDAIDVAVFVLLLGGFLGIVAKTGALDAGVGALVKKLKGRELLLIPILMTLFSIGGSTYGMAEETIAFYALISATMVAAGFDTMVAAATVLLGAGAGVLGSTVNPFAIGVALDAAKSAGTNPSNGTVVLLGVILWITTLVPAVMFVMNYAKKIKSDKGSIILSLQEQQAMKDNFGHVDFSNLEFTTKHKMTLGIFAFSFVIMILSLIAWAEYDIHVFEGWTSFLTGTPLGEWYFGELSMWFTFIGIIIGVVNGFSEKEIVDSFMFGAADILSVVLIIALSRGVSVLMSVTFLDKYILNLASQGLAGLSALIFAPASYVLYMVLSFFIPSTSGLASVSVPILAPLAKSLGFSVEVIIMIFSGACGLINLITPTSGVVMGGLAAAKVEYGTYFKWVLKLLVMIFIINIVILTAAMMFI;locus_tag=LOCUS_01900;note=WP_002356134.1 YfcC family protein (Bacilli) [pid:53.0%25%2C q_cov:99.2%25%2C s_cov:98.6%25%2C Eval:2.3e-144],MGA_190
sequence1	MetaGeneAnnotator	CDS	224120	225568	.	+	0	ID=MGA_191;product=C69 family dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010922730.1;translation=MKKTLSLGLLLFSIQALACTGFIAGRDATVDGSMIYARNEDLKGVNPKKFMIVEAKKYKSGEMFINPDTGFKWSYPKKALRHSLIPDADPSYGIFGEAGINELGVSVSATVSANANEQILKLDPYVKGGLTEPDIASLVLMQAKTARHAVEIIAEIVEKVGAGEGNVIVFADKNEMWYMEIYTGHQYTAVKVPNDVYAVIPNAFYLGSYNFKDKDVISSKDIEKLPESNGLAKTVDGKFHLALTYREIHSKYNYDRIAMGQNLFCPLLPVEHNSEIAYELFRKPDKKISVKDVMNFLRYRYTGTEYDVDTVDNKGKIRAIGTDTNLEAHIFQIRENAPTVMWLAMGTVEHSVFVPYYEYITKTHKSYTADAKEFNRDSMYWAMKGLHILAREDRIRYGLGVKTYWDKVENDFITMLKEEDKIINSKKGLDKIRYANKLGLMKAENVKKDADKMFNQLMYFKGSMTDMTIQGKNKNAKFEYKK;locus_tag=LOCUS_01910;EC_number=3.4.13.-;note=WP_010922730.1 C69 family dipeptidase (Streptococcus pyogenes) [pid:37.6%25%2C q_cov:99.0%25%2C s_cov:98.8%25%2C Eval:5.4e-85],MGA_191
sequence1	MetaGeneAnnotator	CDS	225848	232390	.	+	0	ID=MGA_192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYKHRLLLILVLTGEIGISNLARHDMNWEDYEDFAMNRGKYSIGREKVKVYKKDGTESGEISAPIPNFDGVVDTGNFALWGDSQILSGVHHVAPPKNFTFSKRHFRNDVELFEGYKKLSLDDKYTKFSESIEVAHRQKVEIDYALVRTDRIAFDAYVSEGITKDQWKKIGIGDLVARVGRGLNRVAYDNGVEKDIDKDHHFAGGLNKITGRKKTGLNQDLQTSLEKTAKTPLDSGAKKGDSGSPLFWWDETNKKWLIAGSLSRGDAVGGYGKKLYYLAHLSSYEDLKKSTTDKEITTETEGDVKFENGVLKVGNEERKFKNKETISVNGNNTTKNQIFNKKGLEVKVEGNTNTYAARLEFKEDTTLKGSGTLETAGFVVHKNKTLTYDISSNTSSTKGETKKITVRKVGEGKLVIKSTGKNIEHLNLGGGETVFENSIDNPVADNIRLAQGAKLTITKESQIKDSNVMFGHRGGTLNLNGTDLEFKDIYHMDKDAKIVNDKEGKDSKKSTFTFTPNSGKRVFLGSFKGNLDLVYKGAEDKNNDNKSEWSIRSENTDITGKFDIEKGYVKIEGDNVIHGSDDTKSENTIVYEDEYRETKFKSKTINIKSSSTLSVGRATEVESDINVEEKSTLEMNLLGKVVDRPTPYEGAKTEKQINETVIKGKIDFKGNNKSDTNTNVSNYNFKANIENNHSSIIESKITGTIKAIKKGTGLLYLKNDNNTGLSGSIDVEGGKLKVKKEETLGSTKTLLKDSSVLEVEENDKLETLLDKLDKTSTGVLSLGKSITNIDAKYKEYSNLYLGSSQNITIGEENSPIDSSISTLNLGGDNGTVTLKGLDKSKNISKINAGDGENRGTVVIDKIGKENNNLEIDAKKGINLKINNNENNNSKIINLGYGASIDSKHKSLLKDNSEGVLYLENDLEETISNDKLAIGVAKSKEVTLNEDKSGNNKYYFSGEGKLGINHKLNNKELVVDGQHFSGGVVELKQNSENYKGDVTVMGNKEGKNDGNITLKLGSDNALGKNNKVLLKDGGILDLNGKNLEAKIDENNNKHGSIINKNEKYSTLKVSVEDKDLKFNNKISGNVNIVKKGNSAIEFTNEDNKFNEDKKANIYIKEGQLNYYNSKSLKNANVHIEDNTVLNTKTEQISSEITANGGTIKVNSPTDKEKDSKATNFSKLTLKKDLVVEGTKSDDKSKVTYSEINLGGKKLTLKNQIVENADIYENGNNSGEVILENSTYYEEGARNEALYEKNVNEILYSKSVSKITLNNSDLVLKNYRSIGSYANTGQAVDIEVNGKSKITNLRQNDIVGTTNLKNTIDIKENASLTLGLNDKNDNSSFVVNSKIKGKGKLILEQTNKGSITIKNNFKDFTGSIEANENSKDKEFKFDIDSANEEDRILGYKFISGKYSNITNKSIGFKNIKEFTGEISSKGDVLLIGKDALTTKGKISLQDNKNVIFKADEDSVMDKMNIEATGSSKIVKQGSKNLTINDITTKNIKEVDIEAGTLTIKKDIFNNSDDSKYNLNNKSKLVAEFTETGEIKSSITGAGDFVQKGSKVTINSKNLNNTGNLELNSELDLKLDNDTTLKQELIGNESGKLNISSSDANKTNELEINKEISKFKGTINLSSGNLALNLQNGVVNNKITGDKVLYNKNESQLTLNNVEEFKGTVESQKGDVLFYLINKTSISKYVIGSGGDIKINNTKDIDLSDKSFENKGNKSLIKSGDSKLTLGANSLKDIKNISVDKGTLFLNNMNTNNYTEKIEASITVKKDASLEVSDKIYIKSITNSGNIAVGDKSLKIADYTSNGGEFNIKLNEDNKNLLEIEKSNKDVNAKVEISKETLDKIIKDDKKLNVAKIADHNLNITNLSKYESVYELDVKKDTDDIFKIYSMIKTNVLNKLYMFNELDLINDMSNELKYRNVIEANYVSYNKIDKDYLKLNNTDYKNKLHSNGVEINFEKANDMSEFKLSGGFNFKVLGSSLTTDVKGKDPFTKTLVNIGAVPKLGIKYKVIDVNLGLGLNTVIVNNRNSKDSLVYLNNSLNVGINPSFKINDDFNIRYLNRFGYKINALIGKSENLIENYNISHKKPISIYYETGVKLEHKYVDFFSKANLEYNWSRYEISNNGQSVNNSFKDDWRINIKTGFEFKPTDRIYMNLDFDANLYQKSYGKYIFRLGTGYNW;locus_tag=LOCUS_01920;note=WP_005693332.1 IgA-specific serine endopeptidase autotransporter IgaA1 (Haemophilus influenzae) [pid:25.2%25%2C q_cov:30.8%25%2C s_cov:43.2%25%2C Eval:2.7e-26%2C partial hit],MGA_192
sequence1	MetaGeneAnnotator	CDS	232779	233150	.	+	0	ID=MGA_193;product=30S ribosomal protein S12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004081846.1;translation=MPTINQLVRFGRSTSEKKKKSPALKGNPQKRGVCVRVYTTTPKKPNSALRKVARVKLVNGIEVTAYIPGIGHNLQEHSIVLIRGGRTKDLPGVRYKIIRGALDTAGVVNRKQARSRYGTKRPK;locus_tag=LOCUS_01930;gene=rpsL;note=WP_004081846.1 30S ribosomal protein S12 (Thermotoga) [pid:78.9%25%2C q_cov:100.0%25%2C s_cov:96.9%25%2C Eval:7.6e-54],MGA_193
sequence1	MetaGeneAnnotator	CDS	233182	233652	.	+	0	ID=MGA_194;product=30S ribosomal protein S7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005888149.1;translation=MSRRKQAKKRDVLPDSKFNDIIVTKFINGLMVDGKKSVAENIFYSAIEEIEKETNESGYEIFKRAMENVKPQVEVRSRRIGGATYQVPVEVRKERQQTLAIRWLVKYTRDRKEYGMILKLKKELIAAANNEGGSIKKKDDTYKMAEANRAFAHYKW;locus_tag=LOCUS_01940;gene=rpsG;note=WP_005888149.1 30S ribosomal protein S7 (Fusobacterium) [pid:73.5%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:9.6e-63],MGA_194
sequence1	MetaGeneAnnotator	CDS	233667	235742	.	+	0	ID=MGA_195;product=elongation factor G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015672.1;translation=MARKVALKDTRNIGIMAHIDAGKTTTTERILFYTGVNHKLGEVHDGAATMDWMEQEQERGITITSAATTCFWKGHRINIIDTPGHVDFTVEVERSLRVLDGAVAVFSAVDGVQPQSETVWRQADKYNVPRLAFFNKMDRIGANFDMCVSDIKQKLGGNGVPIQLPIGAEDAFEGVIDLIEMKEYIFTDKQGEDYQVVDVRDTLKDDAELARNHLIESIVETDDELMEKYFAGEDISVEEIKRALRIATIAGTVVPVCCGTAFKNKGIQPLLDAIVAYMPSPVDIEAVKGVDPKTELEISRKPADEEKFSALAFKIVTDPFVGRLSFFRVYSGVLEKGSYVLNSTKGKKERMGRLLQMHANKREEIDVVYAGDIAAAVGLKDTTTGDTLCAEEAPIILERMEFPEPVISVAVEPKTKADQEKMGTALSKLAEEDPTFQVKSDQETGQTIIAGMGELHLEIIVDRMKREFKVEANVGKPQVAYRETILGSSDVEEKYAKQSGGRGQYGHVKIRVEANDGKGYEFINEITGGAIPREYIPAVDKGVKEALDSGVLAGYPVQDVKVTLYDGSYHEVDSSEMAFKIAGSMAMKKALRAANPILLEPIFKLEITTPEEYMGDVIGDLNSRRGTVSGMNDRNNAKIISGGVPLSEMFGYATDLRSKTQGRATYSMEFEKYQQVPKTLAEKVIAERTGK;locus_tag=LOCUS_01950;gene=fusA;note=WP_011015672.1 elongation factor G (Fusobacterium nucleatum) [pid:78.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.7e-314],MGA_195
sequence1	MetaGeneAnnotator	CDS	235764	236948	.	+	0	ID=MGA_196;product=elongation factor Tu;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903497.1;translation=MAKQKFERLKPHVNVGTIGHVDHGKTTTTAAISKVLASKGLAQKVDFENIDQAPEERERGITINTAHIEYESEARHYAHVDCPGHADYVKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPYIVVYLNKVDMVEEEELLELVEMEVRELLSEYGFPGDDIPVVRGSSLGALNGEAKWEEQILELINQVDTYVPTPERPVDQPFLMPIEDVMTITGRGTVVTGRVERGTVKVGEEVEIVGIKDTTKSTVTGIEMFRKLLDSGEAGDNIGALLRGIKKEEVERGQVLSKPGTIKPHTKFRGEIYVLTKEEGGRHTPFFTGYKPQFYFRTTDITGEVNLPEGVEMVMPGDNISVSVELIHPIAIETGLRFSIREGGRTVASGVVADIAE;locus_tag=LOCUS_01960;gene=tuf;note=WP_005903497.1 elongation factor Tu (Fusobacterium nucleatum) [pid:79.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.7e-184],MGA_196
sequence1	MetaGeneAnnotator	CDS	236998	237306	.	+	0	ID=MGA_197;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897308.1;translation=MDNKNKRIYLQSYDNKLLDQISAKIVEVVKKNGAKIAGPMPLPTKTKKYTVLRSVHVNKDSREQFEMRIHRRFIEIKESNNDILTSLSSISLPAGVSIEIKQ;locus_tag=LOCUS_01970;gene=rpsJ;note=WP_005897308.1 30S ribosomal protein S10 (Fusobacterium) [pid:63.7%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:8.3e-32],MGA_197
sequence1	MetaGeneAnnotator	CDS	237370	237996	.	+	0	ID=MGA_198;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015720.1;translation=MILGKKIGMTQIFENEKLIPVTVIEAGPNFVVQTKTVEKEGYTSITLAYDEKREKLVNKPEMGVFKKAGITAKKFLKEFKVESVEEFALGQELKVDVLEGIEFVDIQGISKGKGTAGVMKRHNFGGNRATHGVSRNHRLGGSNAGGAASNSNVPKGKKMAGRLGNENVTVQNLKVVKFDVENNLLLVKGAVPGPKNGYLVIKKSIKKY;locus_tag=LOCUS_01980;gene=rplC;note=WP_011015720.1 50S ribosomal protein L3 (Fusobacterium nucleatum) [pid:65.0%25%2C q_cov:99.0%25%2C s_cov:97.2%25%2C Eval:1.3e-71],MGA_198
sequence1	MetaGeneAnnotator	CDS	238017	238661	.	+	0	ID=MGA_199;product=50S ribosomal protein L4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904141.1;translation=MSDFNLKVYNLNGEEKGVTTVSSEIFGLEPNKYVMHEVLTAELAASRAGTASTKTRGEVSGGGRKPFRQKGTGRARQGSTRAPHMVGGGVVHGPKPRNYDKKVNKKVRKLALKSALAVRIQNGDVIVLEDYMLDTPKTKAFVNFTEKVNMVEDKKLFIVNDYLEDADWNLYLSVRNIEKTEILDPRELSVYALLKFNKVVITKEALATIEEVLG;locus_tag=LOCUS_01990;gene=rplD;note=WP_005904141.1 50S ribosomal protein L4 (Fusobacterium nucleatum) [pid:60.3%25%2C q_cov:97.7%25%2C s_cov:98.6%25%2C Eval:1.8e-65],MGA_199
sequence1	MetaGeneAnnotator	CDS	238661	238945	.	+	0	ID=MGA_200;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015719.1;translation=MTIFDVIKKPVLNTEKSRILLNSNEYVFIVDRRANKLQIKEAVEKLFNVKVSGVNTINMKPTTARARMTVYKTPAYKKAIVKLVDGESIKAYEV;locus_tag=LOCUS_02000;gene=rplW;note=WP_011015719.1 50S ribosomal protein L23 (Fusobacterium nucleatum) [pid:54.4%25%2C q_cov:94.7%25%2C s_cov:93.7%25%2C Eval:8.9e-18],MGA_200
sequence1	MetaGeneAnnotator	CDS	239014	240396	.	+	0	ID=MGA_201;product=sodium:alanine symporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000451023.1;translation=MEKILRINEIINNIVWGWPSLIFLVGIGIMLTIRLKMIQISKIKLILSNTLLKIFTKDLTLKGEITAFQSVATALAATVGTGNISGVAIAISTGGPGSIFWMWISALFGMATKFSEVVLAIIYRERKIGGGYNGGPMYYIKNGLNLPFLAKIFAIFTVFASFGIGNMTQSNSISNVINANFSIDIKITSLIITVLVAIVLLGGVERISKVSETLVPFMAIFYIIGALIVIIPNYNEIFNAFHQIFTMAFTKQAAVGGFAGAGFKEIIRQGVARGVFTNEAGLGSAPIAHASAKADHPVLQGMWGVFEVFMDTLVMCTLTALVILVTKTWNSGLSGAELTSYAFNKGFNGGGYIVAIGLTLFAFSTILGWSFYGEKAIIFLFGEKYIKYYRIIYIPIIFVGGIGGLKEVWAITDTLNGLMAIPNLMAVFMLQSKVIKMVRHYFNNPEKILHLEDYEEIVNS;locus_tag=LOCUS_02010;note=WP_000451023.1 sodium:alanine symporter family protein (Bacillus cereus group) [pid:48.4%25%2C q_cov:94.6%25%2C s_cov:95.4%25%2C Eval:4.9e-112],MGA_201
sequence1	MetaGeneAnnotator	CDS	240539	242425	.	+	0	ID=MGA_202;product=BglG family transcription antiterminator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861602.1;translation=MENELKLIYRILFDGNFHTSTELSAHLKLSDKTCRKYIKELSEILKKHDITIISKTRFGYRLSGNILKENEIFNSDSYKIPITSEERQIYLIDRLISEEGYIKLEDIAEKIYISVKTLSNDIKKIEKIIRTYNLEFERKPYYGLKLVGEELNIRNFLIDVLEKRLNENKFFDSKDRYDINSIAKLTYTFLRDKNVKISDISLQNLVAAIYVTFYRVEANKRIKSIDIEKNELFLSKKTHILECMKYIYNELSHNVDLDSNDIEYITIHFLTSETLTYKSLKTEDINEVNDIIQELIYYVKLTFKIDLYNDEELYKNLYTHILALCIRIRFGIKIKNPLLEDIKKNMPLEYNVATYVCNLISKRFNKRSLSEAEIGFIAVILHMSKGININMSNKKNVLIVCPSGRGVSKFLIYTYSNFFSEYTNIISSCGANELVDMDLGNVDIIFSLIDLDMKIDKPVYKINYFLNDEDILRIKNILKDNNNYLKEIIPKSLFIYLDEIKNKDEIIKLVSDKLMKIPNMNNDIEALIHKREKLGMTEISNEVAIPHPIGVIEGVNVIGVCISKNPVKWINNEVNIILFLCLDNKNNKNEKIYEAFTKIVGNKEIINDILLNPTYDNFINILEHIGGK;locus_tag=LOCUS_02020;note=WP_011861602.1 BglG family transcription antiterminator (Clostridioides difficile) [pid:27.9%25%2C q_cov:99.5%25%2C s_cov:99.8%25%2C Eval:1.2e-61],MGA_202
sequence1	MetaGeneAnnotator	CDS	242428	242739	.	+	0	ID=MGA_203;product=PTS lactose/cellobiose transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005171894.1;translation=MTYDELSEYAMQIIANSGMSRSSSMQAIQFAKKGNFEKVEECMKEADKYFLEAHEIQTDLIVKETSSEEKIILNLIMVHAQDHLTMALLTKDLAKEIIELHKK;locus_tag=LOCUS_02030;note=WP_005171894.1 PTS lactose/cellobiose transporter subunit IIA (Yersinia) [pid:44.4%25%2C q_cov:96.1%25%2C s_cov:98.0%25%2C Eval:8.9e-18],MGA_203
sequence1	MetaGeneAnnotator	CDS	242746	243051	.	+	0	ID=MGA_204;product=lactose/cellobiose PTS transporter subunit IIB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010990040.1;translation=MIKMLKILLICTAGMSTSFLVEKMKKEAEVRNLEVEIMAIPEASSDEFVDKVDIVLLGPQIKYLENDIKAKFVGIPVGVINMTDYGMMKGDKVLDFALSMV;locus_tag=LOCUS_02040;EC_number=2.7.1.-;note=WP_010990040.1 lactose/cellobiose PTS transporter subunit IIB (Listeria monocytogenes) [pid:52.0%25%2C q_cov:97.0%25%2C s_cov:99.0%25%2C Eval:6.2e-24],MGA_204
sequence1	MetaGeneAnnotator	CDS	243077	244396	.	+	0	ID=MGA_205;product=PTS sugar transporter subunit IIC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012775705.1;translation=MKKFMDWMENHFVPVATKISSQKHLVAIRDSFIAILPVTMVGSIAVLLNVLFRNIPNEYGFPQVAEFMSPLININGVVWFGSLAILSLVFIIALGYNLASGYKVNPLAGALVAVASFILFLPQEARFMAEINGTMHEVSSWGFLDFNKYLGATGLFSAMVIGFFSTLIYSKLMQAKITIKLPDSVPPAVNRAFSSIIPGVIAIYASATLSYLVTTYTGQTLNDLIAKYIQAPLLGLSQGVFSVILLAFLVQLFWFFGLHGHNVLAPILDGIYQPALLANAEHIAKGGTVDTLPYLWTRGSFDAYLQMGGSGITIALIIAIFIFSKREDHRAVAKLGLPMGVFNINEPMIFGMPIVLNPLYLIPFLSVSTIGAIIAYTATKIGIVPPVFVQVPWVLPPGIYAFFATGGSIAAALVSLFNVFIAFVIWTPFVIMANRIKEN;locus_tag=LOCUS_02050;note=WP_012775705.1 PTS sugar transporter subunit IIC (Streptococcus suis) [pid:56.5%25%2C q_cov:98.6%25%2C s_cov:99.1%25%2C Eval:4.6e-144],MGA_205
sequence1	MetaGeneAnnotator	CDS	244441	244587	.	+	0	ID=MGA_206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSWPMFVITLGTIAIATYPLNNQLINLLMGLTLVVIGIIFLIRGNKK;locus_tag=LOCUS_02060;note=MGA_206
sequence1	MetaGeneAnnotator	CDS	244584	245021	.	+	0	ID=MGA_207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVKQKINVSAQEFYNFLIENLKHEMKINGKIKEGMKFNVNLKTKTNQIAKSNVEIINLVENSRYTLKYISSLGENIVDYKINELNVDNIEIDYEEIYITKSNFQRYNHIFMEFFYSFFLKRKKKKMLKAVENYLINKRMEKNND;locus_tag=LOCUS_02070;note=MGA_207
sequence1	MetaGeneAnnotator	CDS	245014	246393	.	+	0	ID=MGA_208;product=glycoside hydrolase family 1 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012027956.1;translation=MIKFPENFYWGSSISAEQSEGRFKGDGKGLTTWDKFFEIEPYKFHNGIGPEKTTSMYKYFLDDILLLKATGHNTFRTSISWARLFPKGIGEINEEAVKFYKTYFTTLKENGIDPFVNLSHFDIPLELEEKFGGFSSKEVVDAYSKYARTCFELFGDVVKTWFTFNEPIVSVECGYLKQYHYPMEVDPKKAVQVGYNLALASAKAIKEFKEVIKDGQIGIILNLTPAYPRSNHTSDLKAARIAELFANKSFLDPAVKGSYDEELVEIIRKHDLMPEYSEEELEIIRNNKVDMLGINYYQPLRVKARDSKANDEAPFMPEYYYEHFIMPGRRMNPYRGWEIYPKGLYDIALNIKENYGNIPWFVAENGMGVEGEEKYKIEDMIHDDYRIEFFKEHLQWLHKGISEGSNCKGYLVWTAIDCWSWLNSYKNRYGLIELDLNTNKRYIKKSGYWFNELSKNNGF;locus_tag=LOCUS_02080;note=WP_012027956.1 glycoside hydrolase family 1 protein (Streptococcus suis) [pid:60.8%25%2C q_cov:99.6%25%2C s_cov:97.9%25%2C Eval:2.8e-168],MGA_208
sequence1	MetaGeneAnnotator	CDS	246486	246635	.	+	0	ID=MGA_209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILFEITDNFNIKYSENLNKLKFIVDDAEYMFSHLENDIYRIRKTIYY;locus_tag=LOCUS_02090;note=MGA_209
sequence1	MetaGeneAnnotator	CDS	246915	247274	.	-	0	ID=MGA_210;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTELGYSFQSSVLNPTNYGIPQNRERIYMICFRNDVDRKIFSFPKPFKLNRFVEDFLLNDNEVDNLIVNRKDLVLNEKADINFNSTFTIRIGIVGKGGQGERIYSPKGIEDYTLENVPE;locus_tag=LOCUS_02100;note=MGA_210
sequence1	MetaGeneAnnotator	CDS	247820	250393	.	+	0	ID=MGA_211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKGKYMTCLFFLISILANAKTVDEKINEDVANINEIESKIKYDKSYQDPKDEVHVGDDEKAKFEFNKDFKISKDKIYSKENEVPNSIKVINNANISIEKGTELIKLPEDKYGLMDYSNLMYIVNNKKIESNLQDIDLRSKYVYFKNSKNAILKNSLSKDKKWYHQTYIRSDELTVLDNAGIIYGHTLLHSRIKLSAINRKTGTINNALSMLAHEGELNFKNEGKIIGEKIYTKYMTESTFVNSGMIDVKMFDYNLSESTQDGEDKGTHFLNTKSGVIKSKNMFFTVENLNFQNFGNIESSEKIDISTSSGRIDNNNRIKGNMDITHYDYLKKVLKVNLQNGVLEGDLILNKESDGKTVVTIKSMENVTGNMISNGNNDTLRLIGSGEVTSKDKFKDFEKIHLQNSDWTFSNEEYKVNDEILVENSNLSIKKGKLETKKVINRATSTISALDKSEVIVSDKFLNKGTVSFLKNKSETDIFTVKGNYVGDNGKILMRVDVENKNADIFKVEGSVTGNTGVEISSNSTLNKRMKDKLKLIETKNSTKDTFNLLNPEQGVFKYRLKLEDNKWYLHQYYNKAIIGIIANSIYKVKDDFNLTYNDHNILNNGKLWSKATKMFNKNVFTNDKDYTLNINNDTTNIFMGYDIGEKYIKYGVFGNIGFEKASKGETGVFGLGIYGTWNNKHFYADSWLNYTYLQNKINIKDSYTYGLHGLKASIETGVRGDMYIGKMKLHASLYEQFIYSYVTDPVMKKVEGIKYFGNMNLRSRLGTHLTLFTGLNNINPYMEFNWNYDVNLSGVEIEREKHYYNNSKNTFELKWGLREISFNDKLSVMANITHRFDNIKNRGNGVELGFSYNFM;locus_tag=LOCUS_02110;note=WP_022819412.1 hemagglutinin repeat-containing protein (Fusobacterium russii) [pid:22.6%25%2C q_cov:68.3%25%2C s_cov:19.3%25%2C Eval:1.6e-08%2C partial hit],MGA_211
sequence1	MetaGeneAnnotator	CDS	250526	251422	.	+	0	ID=MGA_212;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948809.1;translation=MKKIFLILALLGILLFFFLNKKERADYRIGISQIVDHPALNATRNGFKDELKANKINALFIETNANGDISTLVLNTRKLINQKVNLIYAIATPTAQVSQNSTSEIPIVISAVTDAKSAGLINKNITGVLDSVDIEKQILLLKDVMPKIKRLGIIYSSAEQNSLIQVENLRRITEKYKIELIERSVSQINEIAIATESILKEVDALYTPADNLVASTINVIADKAKEAKKITIGAEKSHVDAGILMTLGIDYYELGKEAGKIAIRVMKGEKPETIEIKGMDNLKFEYNKDTAKLLGLEF;locus_tag=LOCUS_02120;note=WP_011948809.1 ABC transporter substrate-binding protein (Clostridium botulinum) [pid:35.3%25%2C q_cov:92.6%25%2C s_cov:85.4%25%2C Eval:1.4e-52],MGA_212
sequence1	MetaGeneAnnotator	CDS	251426	252517	.	+	0	ID=MGA_213;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948810.1;translation=MDSLMIFITLLPESIKFGLIYSIMVMGVYITYKILDFPDLTVDGSFTLGGFTFAATMIAFPSHPIIGLIFAAIAGTIAGLITGILHVKYGINKLLSGIITMTALYSINARILNKPNVFLENQQSWFYIITYEKYFTIFIIISIILLFIKVLYDRRIKPDKDVLKSLMIYIVIYIFSIGYVYYSKDISMYLLLIIVFVIKLIMDYILTSKFGLILRALGDNEVLVSNLGVSVSKVKIIGLMLSNLLVASSGAFFAQYIKVVDLSSSVGTIIIGLASIIFGMGVIKRSRSINNISIVILGSIIYYIIINFALNSSSITDELFYALGFSQDLISKLSIKPTDVKIITAVFLAIILAVGKKRGKGNA;locus_tag=LOCUS_02130;note=WP_011948810.1 ABC transporter permease (Clostridium botulinum) [pid:33.9%25%2C q_cov:93.4%25%2C s_cov:87.0%25%2C Eval:1.1e-41],MGA_213
sequence1	MetaGeneAnnotator	CDS	252510	253298	.	+	0	ID=MGA_214;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901801.1;translation=MLKMINLNKKFYSELGEEKIVFDNLNFEANAGDFITVIGSNGAGKSTFLNTLSGEIELDSGEIFLEGNNIEKLKAYKRANLISKVHQNVSSGTAPSMTVLENMSMAYNKGKKFGFGFGLEISKIEEFKESLKTLGLGIENQLETNVGLLSGGQRQCLSLLMSTFNKPKLLLLDEHTAALDPETAKIILEKTSEIVKSNKNLITFMITHNMEDAIKYGNRLIMLHKGNIIFDIRDEEKNNLTVEKLLEMFKNKEITTSDNEIF;locus_tag=LOCUS_02140;note=WP_005901801.1 ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:58.1%25%2C q_cov:98.5%25%2C s_cov:99.2%25%2C Eval:7.2e-79],MGA_214
sequence1	MetaGeneAnnotator	CDS	253311	253880	.	+	0	ID=MGA_215;product=dual specificity protein phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014207608.1;translation=MKKTILLLLLALSCYIYSSETALLISKEKNMYKIDGGVYRSQQLESEDLSIINELGIKTIINLRFFNRDKDKKIFKETDLILINNPLKTWNITPKEVAQILYDIEKSKENGAVLFHCYHGSDRTGLISGMYRIIYQDYEIDEALLELVQGSYGFHKIWSNIPKMFNENTVTEIKNEIFNLKNQKLKILD;locus_tag=LOCUS_02150;note=WP_014207608.1 dual specificity protein phosphatase family protein (Acinetobacter pittii) [pid:40.8%25%2C q_cov:82.5%25%2C s_cov:89.1%25%2C Eval:7.5e-30],MGA_215
sequence1	MetaGeneAnnotator	CDS	253937	254209	.	+	0	ID=MGA_216;product=PTS ascorbate transporter subunit IIB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004109091.1;translation=MKVLAVCGSGTGTSMILKTTMKKIVDKGIKIEIDTCTIDELSKKIEGVDIVVCSDKLAPKVDAKDKKLISVKNILDDVEVLEKLNETGLI;locus_tag=LOCUS_02160;gene=ulaB;EC_number=2.7.1.194;note=WP_004109091.1 PTS ascorbate transporter subunit IIB (Enterobacteriaceae) [pid:29.5%25%2C q_cov:95.6%25%2C s_cov:87.1%25%2C Eval:1.8e-07],MGA_216
sequence1	MetaGeneAnnotator	CDS	254316	254876	.	+	0	ID=MGA_217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFLMMSFVGLISFSNNIVGPRYRIEGALGFLSSKEADRIKNRAFISNSISVLPEWKAQINKKIDITFEPKLTLNVGSSTVHQLSTIKPNLALGIEVDFNYRIKEKIKIYGGVEIGTGIGTSITYIPKGKNLTNNGPTLKLDKAILTTIGKMSVGVKINDKYNVGIYMGNIKGMLGLEAGYTFK;locus_tag=LOCUS_02170;note=MGA_217
sequence1	MetaGeneAnnotator	CDS	255058	256536	.	+	0	ID=MGA_218;product=glutamate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147373220.1;translation=MEKRIRVRIAPSPTGDPHVGTAYIGLFNYAFAHHNGGDFILRIEDTDRTRFSSDSEQQIFDAMKWLGLNYTEGPDLGGPFGPYRQSERFEIYKEYAVSLVEKGEAYYSFETPEELEIMRERQKAMGLPPMYDRRSRNLTKEQVEENLAKGLPYVIRLKMPLDGQTIVEDGLRGKIFFDNDKIDDQILLKSDGFPTYHLANIVDDHLMGVTHVIRAEEWIASTPKHIQLYKAFGWEEPKWFHMPLLRNADKTKISKRKNPVSLNYYKEEGYLKEGILNFLALMGWSLGGEKEIFTLDEMIENFSFDRISLGGPVFDLVKLAWVNNQHMKLKPVSELTDLAIPFIEKEGYDISKFSREKLERMIEITREGSHTLKELAKNLDVFFIDEIVLPEITEDMNKKDRKAVERVHEALSSEEGKKSIALFLDKLNALGEELDEELIKDILHKLPEELNEGIGKVLMPIRAALTGKSKGPDLYSIISIIGKERTIKRINS;locus_tag=LOCUS_02180;gene=gltX;EC_number=6.1.1.17;note=WP_147373220.1 glutamate--tRNA ligase (Fusobacterium nucleatum) [pid:65.1%25%2C q_cov:99.8%25%2C s_cov:97.3%25%2C Eval:5.8e-191],MGA_218
sequence1	MetaGeneAnnotator	CDS	256552	257115	.	+	0	ID=MGA_219;product=TetR/AcrR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053025875.1;translation=MRRKIKAKDLIRNAFAKTLKVKPYYRITVKELTEETGVTRQIFYYYFKNMTELLKYYFEVEIQEILKVKRKFNNFEEAYILFFKSIAERKDVLININQCESCGLLRESFEVMSKRLFELLFTDTLVNNNVKEKDKDFLLNYYKVAFASVAYEWLNNGMKEEIKYLVKNLSILIDQSLMPTLKRFEDR;locus_tag=LOCUS_02190;note=WP_053025875.1 TetR/AcrR family transcriptional regulator (Staphylococcus) [pid:30.1%25%2C q_cov:93.6%25%2C s_cov:93.2%25%2C Eval:3.5e-08],MGA_219
sequence1	MetaGeneAnnotator	CDS	257342	258115	.	+	0	ID=MGA_220;product=30S ribosomal protein S2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904120.1;translation=MAVISMKELLEVGAHFGHQAKRWNPKMKPYIYAERNGLHILDLQQTLVSTEKAYEFVREIASEGGKVLFVGTKKQAQEAMKEEAERCGGFYVNQRWLGGLLTNLETIKKRVKKLKELEEMEADGTLDEAYTKKEAAILRKEMEKLQKNVGGIKEMNTLPAALFVVDIKKEFLALEEAAKLGIPVIALIDSNVDPDLVTYRIPANDDAIRSIKLFAKVISQAVVEANGGQENEYTPAELETAEVLEENFVVEKEEIEE;locus_tag=LOCUS_02200;gene=rpsB;note=WP_005904120.1 30S ribosomal protein S2 (Fusobacterium nucleatum) [pid:62.3%25%2C q_cov:89.9%25%2C s_cov:93.5%25%2C Eval:1.9e-81],MGA_220
sequence1	MetaGeneAnnotator	CDS	258137	259015	.	+	0	ID=MGA_221;product=translation elongation factor Ts;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015713.1;translation=MASAADIKVLRERTGAGMLDCKKALEANGGDIEKAIDWLREKGIAKAAKKSGRIAAEGLVFGGELDNLGVIIEFNSETDFVAKNDDFKNFGTKLVELALKNKTATVEDLKAVEVDGSTVDNQLTELIAKIGENLNIRRLVLVEAKGFVVNYIHLGGKIGVLVEVEGENTPENHEKAKGVAMHIAAMDPSYLNREQVTASDLEKEREIARVQLLEEGKPEAIVEKILEGKMRKFYEENCLLEQKYVRDDKVSIKEFIAPSSVVGFARYKVGEGIEKVETDFAAEVAAQIANTK;locus_tag=LOCUS_02210;gene=tsf;note=WP_011015713.1 translation elongation factor Ts (Fusobacterium nucleatum) [pid:63.6%25%2C q_cov:97.9%25%2C s_cov:98.0%25%2C Eval:1.3e-95],MGA_221
sequence1	MetaGeneAnnotator	CDS	259076	259792	.	+	0	ID=MGA_222;product=UMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904124.1;translation=MLKHKRILLKLSGEALAGDKEFGFSDDILHSFAKQIKEIHDEGVELAIVIGGGNIFRGKFGEEVGMDRSTGDTMGMLATIMNGLALQNAIEKIGGVSTRVLTAINMPQVAEPFIRRRAIRHLEKGRVVIFAGGTGNPYFTTDSGGALRAIEIEANVLAKGTKVDGIYDKDPVKYDDAIKYEEITFKEALDKDLQVMDATALSLCRENNMPIIVFNALKDGNMLKLAKGEKIGTIVKNG;locus_tag=LOCUS_02220;gene=pyrH;EC_number=2.7.4.22;note=WP_005904124.1 UMP kinase (Fusobacterium nucleatum) [pid:70.7%25%2C q_cov:97.5%25%2C s_cov:96.7%25%2C Eval:3.2e-88],MGA_222
sequence1	MetaGeneAnnotator	CDS	259840	260397	.	+	0	ID=MGA_223;product=ribosome recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904126.1;translation=MVEELLLEVEEKMEKTLESTKVRFSHVRAGRANVSMVDGVLVDYYGQMSPLNQVGSVTAPEARLLVIDPWDKSLIPAIEKAILAANIGFNPSNDGRIIRLVVPELTEDRRKEYVKVVKKEAEEGKVAARNIRKDYNNKVRKMEKDSEITEDDLKHVEEKIQKLTDECIKHIDELLAKKEKELLSI;locus_tag=LOCUS_02230;gene=frr;note=WP_005904126.1 ribosome recycling factor (Fusobacterium nucleatum) [pid:64.8%25%2C q_cov:88.1%25%2C s_cov:86.8%25%2C Eval:9.9e-56],MGA_223
sequence1	MetaGeneAnnotator	CDS	260402	261439	.	+	0	ID=MGA_224;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902246.1;translation=MIFNKIINFFRIKKQISIDLGTSNVLFYDKQAKKIVLNEPSVIVKDKKTDRVVAVGREAREMLGKNPKSIEVIKPLKDGVISDIDLTRKMLSEFMRQVYGISPFKPEVIICVPIEVTKVERRALFDALDDVKRIFLIEEGRAAIMGAGINISNPNGHMVIDIGGGSTDVAILSLDEIIVSKSIKIAGNKFDEDIVKYVKEKLFLNIGDRTAEKIKKELSTAIFLPEEENKKMTIKGLDINTKKPKELVITSNQVCEAIEDSLNNLVAAVKEVIGKCPPELASDILDNGIVLTGGGALISNLYKLIENEVKVNVHVPDKPLDSVAIGGSYAFDNKNLLNTLLVKEN;locus_tag=LOCUS_02240;note=WP_005902246.1 rod shape-determining protein (Fusobacterium nucleatum) [pid:50.6%25%2C q_cov:95.9%25%2C s_cov:97.1%25%2C Eval:8.0e-90],MGA_224
sequence1	MetaGeneAnnotator	CDS	261442	261882	.	+	0	ID=MGA_225;product=IS200/IS605-like element ISEfa4 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287522.1;translation=MEIYGNNHSVFALYYQLVFVTKNRSKIFNEDITKYAIDKFNEISKNYLIELYDFSYEKDHVHIKFKAHPKSEISKFINAYKSATSRLIKKEFEYVNDILKDGGLWERTYFLITEGVPSKDMINHYIKTKIKCDIIDHDCQCHGCEK;locus_tag=LOCUS_02250;gene=tnpA;note=WP_002287522.1 IS200/IS605-like element ISEfa4 family transposase (Bacteria) [pid:48.8%25%2C q_cov:88.4%25%2C s_cov:96.3%25%2C Eval:3.1e-30],MGA_225
sequence1	MetaGeneAnnotator	CDS	262025	262594	.	+	0	ID=MGA_226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSTLVFREFRYNGNIDDFKAELKSKIDKNPKDIDSLKKLAGIYHAYLENDKAIKLYEELSKYLPNDHEVEGYLGYLYYENSNLNEAEERLKNALYLSEKEPFLLFLLGNVYSRKGMLREAFDCYELAIFLDFDMYGAHIDFGRKYEHMGRHRRALKEFRAAYDIDSRDEELLKKIEHVENRIKETENK;locus_tag=LOCUS_02260;note=MGA_226
sequence1	MetaGeneAnnotator	CDS	262713	263051	.	-	0	ID=MGA_227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSIGNINENLVAATILIISLSPFIGIIFSIGGLILEKENEFVRDYAKQGLIFSFFSFIITLFRDLKLPPSILALLFLILFVLTLITAIHAYKREEFKFDFMKKIFDYIKL;locus_tag=LOCUS_02270;note=MGA_227
sequence1	MetaGeneAnnotator	CDS	263109	263555	.	-	0	ID=MGA_228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIKLCDEKVFFENLEVSNKNELFEFIVENLVKLERIEKPQRILQKFHEKESELTTFLGSKFAIPHLKSTKVLENTIVFIRLKNPLIWNEEGDMAKYICAVLVKPRYDDLYIDILMSLSRNIIDSNKANILKHSENKEEVLMLLNKIY;locus_tag=LOCUS_02280;note=MGA_228
sequence1	MetaGeneAnnotator	CDS	263841	264761	.	+	0	ID=MGA_229;product=zinc ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005900598.1;translation=MKNLKQILLALMLTVFAFSCGSKMGDAKSDEGKIKVTTTLNYYVNLLEEIGKDKVKVTGLMGEGEDPHLYVATAGDIEKLEKADLVVYGGLHLEGKMVEIFENLKDKAVLDLGAQLDPSKLVEEEKGVYDPHVWFNTEFWAVQATAVANKLSELDPANKEFYMNNLEVYLKELDMATKYVQDKINEIPENARVLITAHDAFGYFASQFGLEVKAIQGVSTDSEIGTKEINELADFIVANKIKAIFVESSVNHKSIESLQEAVQAKGFEVKIGGELYSDSMGDAKNNTETYIKTLKFNADTIANALK;locus_tag=LOCUS_02290;note=WP_005900598.1 zinc ABC transporter substrate-binding protein (Fusobacterium) [pid:70.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-122],MGA_229
sequence1	MetaGeneAnnotator	CDS	264771	265481	.	+	0	ID=MGA_230;product=metal ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902059.1;translation=MKVIEIKDLVVTYDLEPVLENINLEIEKGDLMALVGPNGAGKSTLIKTILEFIKPVVGNIKVNGKEYRQEKKKIAYVPQRGSVDWDFPTTLFDVVMMGCYGRVGFLKKIPKEEIEKVNNAIKQVEMLEFKDRQISELSGGQQQRAFLARALVQDAEIYLMDEPFQGVDAVTEKSIIRILKELKNQGKTVIVVHHDLQTVEEYFDSVTFINKSIVTSGSVKDVYTKENIEKTYSRNV;locus_tag=LOCUS_02300;note=WP_005902059.1 metal ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:68.8%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:4.4e-90],MGA_230
sequence1	MetaGeneAnnotator	CDS	265474	266373	.	+	0	ID=MGA_231;product=metal ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902060.1;translation=MFDILLNSYTFKVVTIGCSLLGMISAIIGTFAVLKKESLLGDGVAHSSLAGICIAFLLTGRRELFILLIGALIMGLICVLLIHYIGTNSKVKFDSAIALILSTFFGLGLVLLTYLKRIPGAKKAGLSNFIFGQASTLILKDIYLITGVGLILLILVIFFWKQIKISIFDKEYAKTIGINSDRYRLLVSVMIVINVIIGLQIAGVVLMTAMMISPVVAARQWSNKLNIVVILSSIFGAISGFIGSLSSSLNSSLPTGPVIVVVLSIFVMFSMLFSNKRGLIYRYISRKKFEREIKRKWAR;locus_tag=LOCUS_02310;note=WP_005902060.1 metal ABC transporter permease (Fusobacterium nucleatum) [pid:62.5%25%2C q_cov:96.7%25%2C s_cov:95.7%25%2C Eval:3.2e-97],MGA_231
sequence1	MetaGeneAnnotator	CDS	266370	267218	.	+	0	ID=MGA_232;product=metal ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902061.1;translation=MSSSLIILTVAILTAISCSILGVFLVLKNMSMLTDAISHTILLGIVLSFFVVKSLESPLLVLGATLMGLVTVYLVELITSSKLVKEDAAIGVVLSFLFSIAVILISKYTANVHLDIDAVLLGEIAFVPFYTMDIFGITVSRAIVYGLIICIINISFVTIFFKELKISIFDKALAFSLGLYPSLIHYLLMTLVSTTSVISFESVGAMLLISFMIGPPVSAYLISKDIKSMIFISIIIDIIASTIGYYIAIYLDISIAGMIAVVIGTIFLCVFIYRKITNKYLM;locus_tag=LOCUS_02320;note=WP_005902061.1 metal ABC transporter permease (Fusobacterium nucleatum) [pid:60.9%25%2C q_cov:97.9%25%2C s_cov:98.6%25%2C Eval:6.3e-92],MGA_232
sequence1	MetaGeneAnnotator	CDS	267430	267972	.	+	0	ID=MGA_233;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKILNKSNFIWILILIIGINTFSENKDYYDKIINQRLSVITGMKELYSKKTNFDILANVISADEILRQIPKYEDKKINNLHLYFPDLDYLDKYIEDVSKRAKNISIYLFDLKTDDKYMKNRDYITYELKKINKKIDKLDNVKIFKIKVSEKDLSEIFLESLTEENVNIDYFNKYIKEKM;locus_tag=LOCUS_02330;note=MGA_233
sequence1	MetaGeneAnnotator	CDS	268000	274278	.	+	0	ID=MGA_234;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNIKIQKVEKFLKSSLKNKISVNDKTVIKYIMLGFIGLSAMSYGSWLSINDNTGAAGSDGGGSNTTHGSDNQKNNTILALYDNSYNTSSSVIIGAGGKTYGKGSENVVIGFNAKSEKQQNVVIGANTKSDLQNSVILGNKSYVYKDHFGITNYIQDSDGQGVAVGNSVFSTAQATSIGNNTYAIGRSSIAIGNDDISAYENKVTQHDYDSYFKKLYEKIDKDGTLYGYGSNNKTDASKHKWSPTLAQGHGSIAIGSRSIAYADGSTALGTLAYALKKGSTAVGTLTRAEGEGAIALGRETNVFSDNAIASGNKTLVLKEGGAAYGLSAISGGENSIAIGTDVYSNVDYDYDNSNIVLGGNQKKIETGLFGNINKYDDQGSSNDETKRGLYGFDLNGVAKTIIGLGQDNPPGNVSGAKKGDYLNSGTYFSQYKSYIDGLESGLSNAITKDNKQSTNSITIKKEEKNGVKDVAKSKGKNAIVIGSKSGAFGDNGIALGRGSFSLENNSIAIGSYSYAKSKNAIALGIVSRALGEGSIAFGNGAGVDIEGKNSMVYGHGSVAYAPNSIILGINSRVWGDKNKGDSIIIGNDASIDELKENGTVKKGHNGKSVLALGNKTNATLDNSVALGYLSATDYTQEDLNKAGYTAKGSYSIPTSAKVGVISVGKKGNERRIINVASGYRDSDAVNVAQLRTLEDRIDGATEEVDDKIRYFSVNTENDLTTLVKKKIDYKNYVKLKTQMLTIEARKENGETINDTNIRELKSKLDKLEKDSGITDKATEIKALGEIKDAKYQTGNKFDFDKYISALEKAKQEDSTNERIESVLTDDEKTKLTSNNFSNEGAKGKNSIAIGYMAKTEDAAENAIAIGHGAKATVKDSIVLGSGSKNIADITKSGYDITTKTSSTSMDSTWKPTNGEFAIGDGTNKTRRITGVAAGDKDTDVVNVAQLKKATSGLLNDKFLKFVGNDGKEAKIKLGETLNIKGEGNVTKTAGDNIRVSKADDSTLTIGLSEELKNISTITTKTNANNEQTTLSQTGLKVTGNNDKQISVTSENIEVKNSTDKTTLTAGELKITDKDGNDDKQTNKLTKTSITLTDKNNNKEDTNKITADKSEITNKAGDKTTITADEISVSNGNDKVEITKKSITGVTTIGKNDNNRLVFNNGNSGTAMLKVDGKELTFTKSGEHIKISNVANGISDNDAVNVSQLKKYVDALGGNAKIDDKGNVTGPTYKLKVGATTNGTNDATKDYNTVGDALKALDDAIGNSSKNITDLTNKQISFQGNGGDTDKVSKKLGETLKIQGEGNVSGNTAKDNIKVEKNKDSDGLDIKLAEDLKNLNSIETKEAGGKKTKITTDGVEVTSDKGKANLTADKLTFGPKDDKSTDKTSTSIGKDGITLKSKDGKDSVSIKPSNDTDGGIIEVKSKDGNSSIKIDGEKGSITGLKDISPNETDGSIAVNKNYVDNQIKAIANGPFEYETSNGEKVVRGQDNKLYKEEDLNKHYYDEKEQKYKPKNNGNGQQNGPTPLENKDVTVNVMPKNGTPISIGNVASILGEEATTTSDKAAEKVKELIDNTNKLYENNKNKVATGTDILALAKAGISFEGNTGSGDKIHRNLGEQVTIKGEGTDGKNNFTSASGNIQVKSDKDKGELTVKLSDKLTNMTSFETKELDDKIKSKVKLDKEGLTTINKTDDNKYIMSKTGPKGTEIGKYDVNPLMNGNNKAQPTTSAKYTLEGTTIKDDKGSSNLTSNTLTLKDKDDKQRITLDNKGDTPTISLSNKEGEETVKIDGGDGKDKEPTISFKVDKDKGLGVVKGLRDLTDNDPGHYAVNKRYVDNKLNVALGGVANAIAVASIPQINGKGHNIGASYGYYEGHSAFALGLSGINERGNVLYKANLSLNTRGNVGIGAGIGYQFGGDRVNTSKDNIIIDNSLGELDGINKKLEEQNNKLIAQNNKLNEKRGDLSKELKELKDKISVIEKIKMNEDDLYTLDGYRLGIHELTKSQEEMLMNIVRELNENYKNRKIYITGYTDNVSGEDLNLELGLKRANVVAKKLRELGLDMSISIRKVSSSGYNNIVETNKSSNGRSSNRRVEIELR;locus_tag=LOCUS_02340;note=WP_011035898.1 ESPR-type extended signal peptide-containing protein (Xanthomonas campestris) [pid:21.2%25%2C q_cov:61.8%25%2C s_cov:60.4%25%2C Eval:1.8e-30%2C partial hit],MGA_234
sequence1	MetaGeneAnnotator	CDS	274568	276328	.	+	0	ID=MGA_235;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSYANAGTGEKSIAIGDEANASAKYSIAIGRNSKSESEKSIAFGSEANSKGKYSIALGTEANSSGKTSIAIGRNSKSESEKSIAFGSGANSKGKYSIALGTEANSSGKSSIAIGRNSKSESEKSIAFGNGANSNRKYAIALGSSSRAMGVDAISIGQKSISKNSNSIAIGTSATSNIENSVALGAESETTVAKPTSEIVKPRFFLDYKDFAGSNPYGVVSIGSKGKERQLQYVAAGQISKESTDAVNGSQLFSVISNFDAFVASMKSVIGNVALLNRDGILHTLNIGNTGKNNIHEAMKSLKDKIDENRNRIEKIENTEIKLGGDKNTSTEGQKIGENNSNNGSNIGNQNQNKGKEIKFEIVKKENSEHIETKARGNKVEIDLTQKAKEDIKSGKKAKEIIDNKGLTFKGDKGETNIQKLGDTLSITGGSYITTKAKGNEVSVDLTDKTKKDIEKGVSANSGVANAVAMANLPQINGKGHNIAGSYGYYNGEHAFALGLSGTNEKVNLTYRASGSLNTRGNISLGAGLGYQFDNISKRNKELLTLQRNGNINLLDEKVYELDNKVKTLEKRVNELETILRELIKK;locus_tag=LOCUS_02350;note=WP_133116924.1 YadA-like family protein (Paraburkholderia acidicola) [pid:26.0%25%2C q_cov:90.3%25%2C s_cov:34.7%25%2C Eval:8.2e-38%2C partial hit],MGA_235
sequence1	MetaGeneAnnotator	CDS	276489	276680	.	+	0	ID=MGA_236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSTLYDNYYMILNGSTQVKTTEINSMPIPPLSCIENMGKELIKLKDMSEEKCDEILGGFIYV;locus_tag=LOCUS_02360;note=MGA_236
sequence1	MetaGeneAnnotator	CDS	276853	277662	.	-	0	ID=MGA_237;product=2-hydroxyacid dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016424.1;translation=MDIYKEANVKYVLTRTVGVNHIDVNYAKELGMKMAYVPFYSPNAIAELAVTLAMMLLRNTALMTSNCANKDFRVTSDMFSREIRNCTVGVIGLGKIGFTASKLFNGLGAKVLGYDVFKKDNVEDILTQVDLDTLIKESDIISLHIPFIKENGKLVNEEFISKMKDNSILINTGRGETMCTKAIIDGIKSGKLSGAGIDTLENESELFFKDFSGKNIPNELFEELVNLYPKVLLTPHLGSFTDEAVTNMIETTYENLQEFITTGDCKNKL;locus_tag=LOCUS_02370;note=WP_011016424.1 2-hydroxyacid dehydrogenase (Fusobacterium nucleatum) [pid:63.0%25%2C q_cov:100.0%25%2C s_cov:80.8%25%2C Eval:6.1e-97],frameshifted%2C insertion/deletion at around 277675,MGA_237
sequence1	MetaGeneAnnotator	CDS	277649	277846	.	-	0	ID=MGA_238;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVLCYGVRDVEEKFFHELNKKFNFEITCIPEYLNTPETAKMAQGYDAVILRGNCWANKKKFGYI;locus_tag=LOCUS_02380;note=WP_011016424.1 2-hydroxyacid dehydrogenase (Fusobacterium nucleatum) [pid:59.7%25%2C q_cov:92.3%25%2C s_cov:18.3%25%2C Eval:5.3e-15%2C partial hit],frameshifted%2C insertion/deletion at around 277675,MGA_238
sequence1	MetaGeneAnnotator	CDS	277861	278922	.	-	0	ID=MGA_239;product=AEC family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002289801.1;translation=MLLENLRVVLNEKFLSAIFSTIFIILLGYYLRKKKIVNEHASKALSSILLSAALPALAFKAFLADISEKTYTTGINVLIFGFVAYILLILIGYILYSNKKGDLKDTLVVLTAFGSTTFFGIPIINGLFGNEGTLYANVFNIAYRVFLYSFALIVMSGTKFDRKNLKQIFANPIIIATFLGLFLWVFQSSMPQTSIMIKDAKTGEMIAKSISIFRIDKTLPWLFNGINYLATLSSPLAWLAIGMTLAQILLKDAIKEKLTIVYAGYKLLLIPALFFVILITLNKVGITFTYEAIAAIVIMLATPPATVAVAYSIKFEKEAVLSSNISLVNTVFAIFAIIFWIIVLAATHAAGII;locus_tag=LOCUS_02390;note=WP_002289801.1 AEC family transporter (Enterococcus) [pid:47.5%25%2C q_cov:95.8%25%2C s_cov:94.9%25%2C Eval:5.7e-83],MGA_239
sequence1	MetaGeneAnnotator	CDS	279016	279360	.	+	0	ID=MGA_240;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKISYFELFKTLFIINSITFGGGYTIIPIIKDEFVEKNKVISDEQMLKIITLAQSIPGVMTISTSFLVGYYSLGLLGAIIATIASILPCIIVISFIAFSYSKFIANIYIQKNA;locus_tag=LOCUS_02400;note=WP_011948278.1 chromate transporter (Clostridium) [pid:40.2%25%2C q_cov:93.9%25%2C s_cov:60.1%25%2C Eval:2.3e-18%2C partial hit],frameshifted%2C insertion/deletion at around 279345,MGA_240
sequence1	MetaGeneAnnotator	CDS	279353	279565	.	+	0	ID=MGA_241;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKGISGAIVALLFYTVYKMFINQLGYKKKYFYLTINILVLVLSLIFKLELVYILMICAFLGIWKNRGEK;locus_tag=LOCUS_02410;note=MGA_241
sequence1	MetaGeneAnnotator	CDS	279565	280095	.	+	0	ID=MGA_242;product=chromate transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948277.1;translation=MLLKLYTAFFKIGMFAFGGGYVILPLIEEFIVKRYSWITSSTLVDIISISQITPGPIAINAATFIGMSNAGIIGAIIATIGVVSPQIILLMIFIKYIGLENKELVKIIDGIKPATISLILIATINIFKKSIFIDLASSYKIEYVSMMCFIVALILLRYKFKMRNIIVICALLSFVI;locus_tag=LOCUS_02420;note=WP_011948277.1 chromate transporter (Clostridium) [pid:43.2%25%2C q_cov:98.9%25%2C s_cov:94.4%25%2C Eval:1.4e-29],MGA_242
sequence1	Aragorn:1.2.38	tRNA	280231	280305	.	+	.	ID=Aragorn_4;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00040;note=Aragorn_4
sequence1	Aragorn:1.2.38	tRNA	280325	280400	.	+	.	ID=Aragorn_5;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00050;note=Aragorn_5
sequence1	Aragorn:1.2.38	tRNA	280406	280482	.	+	.	ID=Aragorn_6;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00060;note=Aragorn_6
sequence1	Aragorn:1.2.38	tRNA	280502	280577	.	+	.	ID=Aragorn_7;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00070;note=Aragorn_7
sequence1	Aragorn:1.2.38	tRNA	280582	280666	.	+	.	ID=Aragorn_8;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00080;note=Aragorn_8
sequence1	MetaGeneAnnotator	CDS	280691	281047	.	+	0	ID=MGA_243;product=YbaB/EbfC family nucleoid-associated protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008797059.1;translation=MVRKLKTAQSGINSQSDLIRKAQAMQEKMLQIQEGLKDLYVEESVAGGLVKVKANGQKNIIDIKISLDIINDASEDESADELSALVLSAINGAIKKAEELAEREMSVVTGGVSIPGLF;locus_tag=LOCUS_02430;note=WP_008797059.1 YbaB/EbfC family nucleoid-associated protein (Fusobacterium) [pid:50.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-26],MGA_243
sequence1	MetaGeneAnnotator	CDS	281153	281536	.	+	0	ID=MGA_244;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKEEFKGNKSELFKIKLILLLSFIIPFFAPYIIYFSRINLSKRAKFILSQILNKSFTMFLIYIFLMMVSKNILLKNGDVVMFKQIWFLIFFLFLTSMLLQFIKFIQWLKGKNVKYKYILKLFKEEY;locus_tag=LOCUS_02440;note=MGA_244
sequence1	MetaGeneAnnotator	CDS	281538	284177	.	+	0	ID=MGA_245;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015981.1;translation=MDKYNPLDIEQKWYKIWEENGYFKPSKDDKKPAYTIVIPPPNVTGVLHMGHVLNNTIQDVVIRYKRMKGYDTLWQTGTDHAGIATQNVVERKLAESNLRKEDLGREEFIKKVWEWKEKHGGIITKQQRRIGNSVDWERERFTMDEGLSEAVKEVFVTLYNQGLIYKGEYMVNWCPRCTTALADDEINHIDKEGNIWEIKYPLKDEEGYLIVATTRPETMLGDTGIAVNPEDERYKHLIGKMAILPLMNREIPIVADNYVDMEFGTGVVKMTPAHDPNDFEVSKRTGLEIINVFTKDAKINELGGKYQGMDRFEARKAVLKDLEEEGLLVNVKKHNHAVGHCYRCKTIVEPRISDQWFVKMQPLAKRALDVVKNGEVKLTPKRMEKRYYNWLENIRDWTISRQIWWGHRIPAYYTPNNELIVAKNIEEAKKICVEKFGEELPLREETDVLDTWFSSALWPFSTMGWPEKTRDLERYFPTDLLVTGDDIIFFWVARMIMMSLHFLDTIPFKEVYFTGIIRDEIGRKMSKSLGNAPDTLAILDKYGSDAVRFSFMYNTSQGQDILFSEKLIEMGHTFANKIWNASKFVISNLEGFKEDISILDLDFKLEDQWILSKLQLASRNINKEMEEYNIDTSAKIAYEFFRNDFCDWYLEIAKTRIYGVDENDIDRQTAQWILRHVLDNGLRLLHPFMPFVTEEIWQKIKSYGESIMLVEYPEEDKGLLNLEVIKEFDYLKEVVSSIRNIRAENNISPAKKIEIIIDSEDENEKNLLLNNLKVLEKLANVESIVILTEIPKMAGFRIVGNTKVYVSLCGLIDVSKEIEKLNKDIEKVKKELERTLSKLSNEAFIMKAPKAVIDKENSIKNELERKLEKLCKSMDLYKN;locus_tag=LOCUS_02450;EC_number=6.1.1.9;note=WP_011015981.1 valine--tRNA ligase (Fusobacterium nucleatum) [pid:58.3%25%2C q_cov:99.9%25%2C s_cov:99.5%25%2C Eval:0.0e+00],MGA_245
sequence1	MetaGeneAnnotator	CDS	284252	285727	.	+	0	ID=MGA_246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFFLILTALTALNAVAGVELQIKGGYDVFRRQSENNKFFNGQDKDLERGFVINAELFPINQHKVEIGIGAEYNFSDKTAGYTYQKHSDVTMPNNGNNDKRYHHVPVYAVIKANVIQLETGDAPLAIVGKLGYGFVREHANVTNKGTGGLYYAVGLNGEYGPFVVEALASRTHLMVVENGMQPSAAAAAQPAAQSNDLMKKSNVINKVGITAGLRLGQLSKPVVEEPKLPIEPEVKPEVKPEPKPEVIEKIVEKIVEVPVEKIVEKIVEVPVEKIVEKIVEVPVEKVVEKIVEVPVEKMVEKIVEVPVEKMVEKIVEVPVEKVVEKMVEVPVEKIVEKEKEVVKEVEVPVHIKPQIKKIELSADALFKFDKYKLEDMLEKGKMEIQELVKKLSTDYVRLDRIDIIGHTDRLGSDSYNLALGLRRAQTVRSYLQELGVTTPITVASKGKRDPKVKCPGTKATAKLKQCLLPNRRVEINLTGLEVRYLEDNK;locus_tag=LOCUS_02460;note=WP_004521783.1 OmpA family protein (Burkholderia) [pid:39.2%25%2C q_cov:26.3%25%2C s_cov:53.8%25%2C Eval:7.6e-18%2C partial hit],MGA_246
sequence1	MetaGeneAnnotator	CDS	285741	286523	.	-	0	ID=MGA_247;product=type III pantothenate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903485.1;translation=MILGFDIGNTHICPIIYDNNGKILEKFRIPSKTNLTEDTLYATLKTLCDFKKIDLSDVKDVVYSSVVPHLNNVFDYLAKKYFNCEPYVLNINNIDENLLTFNANTERNLGADRIATILAMKKYMSNKKCIIIDFGTATTFEVIKDNKYLGGAILPGIDLSINALFQNTAKLPKVTFEKPNEVLGNTTVTQINIGIYYSNIGAIKELINQYKNIYPDAYVISTGGQGKIITEDLKDFINEYKGNLCEEGIFEFYRYIKSRS;locus_tag=LOCUS_02470;EC_number=2.7.1.33;note=WP_005903485.1 type III pantothenate kinase (Fusobacterium nucleatum) [pid:42.0%25%2C q_cov:98.8%25%2C s_cov:100.0%25%2C Eval:3.1e-50],MGA_247
sequence1	MetaGeneAnnotator	CDS	286625	287020	.	+	0	ID=MGA_248;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYEMEGDMNKKKNRGFTLIEIITVIAIIGILASISVPKISKYIDRANETKIFSAVSELNNLYILMNLDGKNDVDIYKVLGEAENLGITIDSGSNNFVVGRFKGEFLIENEKIIANVTEPEVATYTISGKRK;locus_tag=LOCUS_02480;note=MGA_248
sequence1	MetaGeneAnnotator	CDS	287017	287427	.	+	0	ID=MGA_249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIYAAYLMLLYISYVDFVEGYIYDRDLVILFIFLYFSTTSGIYSSYVGMGIFSLPFFILWILESYFNFEIIGMGDIKLMLIFGMYFGIKDMHFIFTFYEIMYFSSLIYAIILRKKYVPFAPAMCFSFIIHDLGIFN;locus_tag=LOCUS_02490;note=WP_010989739.1 A24 family peptidase (Listeria monocytogenes) [pid:28.4%25%2C q_cov:94.9%25%2C s_cov:55.9%25%2C Eval:2.4e-07%2C partial hit],MGA_249
sequence1	MetaGeneAnnotator	CDS	287435	287800	.	+	0	ID=MGA_250;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKGEILIETVFSSLIFVIVLLGNIYVIRNIHVIEKRQSNRLKDMINLQNIIVEIKGYSSDKIKSLICDKCVFNNSSDFANYLGSYDYEINGEIFFDLYIDRGVAFISINNLKDFVLIEK;locus_tag=LOCUS_02500;note=MGA_250
sequence1	MetaGeneAnnotator	CDS	287808	288197	.	+	0	ID=MGA_251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLDYLLAMMFFVSLLLFINRNLLLFVKLQNTVLKNELEIYTASSSLIRKIRTRDIGYDKRNLDIYISDKIIKFGDEGQETIIRCSDRDVYANRKRIIKGGTCCFKYELGVLEIKLKKGEIEITRRVKL;locus_tag=LOCUS_02510;note=MGA_251
sequence1	MetaGeneAnnotator	CDS	288194	288406	.	+	0	ID=MGA_252;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNKGISLIYVMIFSSVTLFIVSTIMIFSVEKNNTIDLLLNEQYNKKIFEKEIMREKIRIIDDIDRSDLA;locus_tag=LOCUS_02520;note=MGA_252
sequence1	MetaGeneAnnotator	CDS	288419	289339	.	+	0	ID=MGA_253;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLVLDKIYIKLDDVEYVFSYDEIFLDILDGLEELNVSSDAEIYVILGMEIIGLEKRVDNGILRKIRNIFSDTYILKEVYTVFDIIEKNTIVLLKEFSIKISKNIEKIEFSLEDFEDGQDFSGYKLLKGNEELKDYIFSKDMNNVKKYNIIDTFFKIVPYSLLLIPLFIYVYFINVFDVKPLNSEISFLEEKIVDLKENEMKEMDFRESENTLLNFEGFKKMKKPFKKPFYMDIEFFLTSSKFGLSYTELLLFNDVWTIKGNVDNFKGLEDFEKSLKKYFGEYRVVELKDKNEGISFVYEITERKS;locus_tag=LOCUS_02530;note=MGA_253
sequence1	MetaGeneAnnotator	CDS	289314	289799	.	+	0	ID=MGA_254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLQKENLKYILILFALLLSIYLSYENVNEYHFKKDKIILLNKKLEEIEKIDEVVEKVEYKKDEEIEKILIEDNDFLKSIFYFSNYSNLKLIDSSKPIIKEEDKYFERVNVVFKLNGSLVNFYEFLQYVFYADNFIDNREIYMILNGEYFEISLGYYREKL;locus_tag=LOCUS_02540;note=MGA_254
sequence1	MetaGeneAnnotator	CDS	289796	290734	.	+	0	ID=MGA_255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLIFLTLLTFSDNKYISNENMKKIKIYNEKKVEIKNKEVKKVEEVYEILKIQNIPENEILKLDGSFGVKIRKVGDKYILSGEKKNISKLKHIIYSIDKIKKQIIIKMNVIDTSISFFDRFGLNLKLEENKNDGLVAKFLENKLSLSNLLNLGGAKLGLDIEALKQSGDMYIKSFPSIMVLDNSEGEMRITDELSFKVSEKKVQTSEAGLIFKIKPRIVTKGYKEFVELEIYSEISSFKSEKVRSKNILNTKVLLKDKTSTFISGVGRESKSINISNPSIPIFSTLFRKKSKNKEKRNIYVEVEVEILNE;locus_tag=LOCUS_02550;note=MGA_255
sequence1	MetaGeneAnnotator	CDS	290727	291731	.	+	0	ID=MGA_256;product=type II secretion system F family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010957409.1;translation=MNKAKFRKEIVSRLEILLRSEIDIIDSVNVLCNIYVGNEKEKLIKLKKDLEKGKTLRESFKNINNNKEFLSYISIVEKTGNIQQVFNILKEKYEFEDNILKEVMNIISYPAILLFISFIILIAMMLTIVPKFVEIYNDLNAELPLFTKILISISEKLIKYNILIIFIFFALLVLFKYLIKINRYIIDKFKFNIKIYRDIFLMRYIQGIYVQLKSGIDFYDAVKNLNIVENEYFIFEMDKIIKKISKGTPLKKIYVNKKIFDNEFIAIINIAEKTGDLSNSFENLYLIYSNKVRVKIKMMLRLLEPISIIVIALLIGSVLISLMLPLLNIGEMIN;locus_tag=LOCUS_02560;note=WP_010957409.1 type II secretion system F family protein (Coxiella burnetii) [pid:22.6%25%2C q_cov:97.3%25%2C s_cov:95.7%25%2C Eval:7.5e-21],MGA_256
sequence1	MetaGeneAnnotator	CDS	291804	292907	.	+	0	ID=MGA_257;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKNLSKKFIKKVVKNIISVLKAVVAVLLNVYFLVNISYSDSGIKDDETKEFEKIYEWINNMRDIDKNVDLDLSIGSVGNYNIATIPHVKKILQIKANKDASNLDNTDVIKWRKKLGIKDNESGNFNKLKFDELNNRINKANSGVASAIATASTLKNLGNGKHTLSGSIGYYGKEAAGAVSYSTHYKNFGFGANASFNSRLEVGAGLGMSYTFGKDDDKPVLNAVEPIVIKEDDGKIRELENKIEMLTMLINNMDKNRDKEIKEIYFISGFDSGKFTLKQEHKNIIDSLISGLKDKEIIVVGYTDTDGTDKYNLNLGLNRAKSVKIYLENKGVKVKETRSAGFNELIRDNKTSENKALNRRVEIMVK;locus_tag=LOCUS_02570;note=WP_005453991.1 OmpA family protein (Vibrio) [pid:32.9%25%2C q_cov:44.1%25%2C s_cov:47.6%25%2C Eval:4.7e-11%2C partial hit],MGA_257
sequence1	Barrnap:0.8	rRNA	293355	294868	.	+	.	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	294960	295036	.	+	.	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	295060	295135	.	+	.	ID=Aragorn_10;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00100;note=Aragorn_10
sequence1	Barrnap:0.8	rRNA	295263	298157	.	+	.	ID=Barrnap_2;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00020;note=Barrnap_2
sequence1	Aragorn:1.2.38	tRNA	298332	298408	.	+	.	ID=Aragorn_11;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00110;note=Aragorn_11
sequence1	MetaGeneAnnotator	CDS	298687	299577	.	+	0	ID=MGA_260;product=peptide-methionine (R)-S-oxide reductase MsrB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002901472.1;translation=MQGYFNKILGVINTTVGYANGITSNTSYRELKKTDHVETLEIEYNSNLVRLEELLLRFFKLIDPLSVNKQGGDIGRQYRTGIYYVDPTDIPIINKVYDFVEKKIGSKLVVENEPLREYILAEDYHQNYLDNNPDGYCHINLNAVKDPVFYKIYTKPELNELRQKLSQLEFDISQNSATERPFTSEYEKFDEEGIYINVVTGEPLFISHDKFDAGCGWPSFTRPILTETVNFYEDNSHGMNRIEVKSAKDLAHLGHVFTDGPKDKGSLRYCINGSILRFVPKSKLEEYGYGDYIVLF;locus_tag=LOCUS_02580;gene=msrB;EC_number=1.8.4.12;note=WP_002901472.1 peptide-methionine (R)-S-oxide reductase MsrB (Streptococcus sanguinis) [pid:54.5%25%2C q_cov:100.0%25%2C s_cov:95.2%25%2C Eval:4.7e-93],MGA_260
sequence1	MetaGeneAnnotator	CDS	299591	299905	.	+	0	ID=MGA_261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKEILEKLEEIEKIAKEKFEISQKEINSDIENLKQNLDNSFTEKVKEYKEELVNELNEEKENLKKSLEYKITDMKDKSEKLSSNFHDKINLVIEEVKNIVMKG;locus_tag=LOCUS_02590;note=MGA_261
sequence1	MetaGeneAnnotator	CDS	299909	301825	.	+	0	ID=MGA_262;product=V-type ATP synthase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986938.1;translation=MAIVKVEKFNLISFKNELNALLKQLQEFVEVDFRELDLELDNLKSNNKDELEEKIYKLESIIKKIRKYSIKKPLIKSLKEGKKDFSYQELEKYISNIDIDNIVEEINQIFYQKESKIKANEVLLNEIKEYEKWSNLDVTQNDLAKLKNVDVNIGSMSVKNFEKFKLEELILSELEIIDYGKKEVNFIIFSDKNENISEKLRLYNFNKLNLDINKLPSEIKDEKIEKLNNNKLLIENLDKKLNENGIHLEKIEIAYEYYKTILLKENVKEMFKSTDKLSAISGYIPTERKEEFEKRIEKVCDKDYYLTYEEFDENSRDIPIKLDNNEILEPFETLTATYSLPKYKEIDPTILVAPFFWLFFGMMIADFGYGIVMSVLSGISLLLFKLDKNGKLAAKFLFMLGLSTIFWGLIYGSLFGYEFDNPLHFYSPTVNYKPVMVLSIILGIVHIFIALGVKAFLLIRDKKYYDALCDVGFWIVTLISTGYFIYAKFTGIEGNVVNIAKYSMIISMLLIVATGGREVKNIGGRIGLGAYALYGISGYMGDLISYVRLMALGLSGGYIAYAVNMIASMLGNKWYMLIFVGLILLIGHGFNLFLSMLGAYVHTSRLIYVEFFSKFYEGGGKPFKDFKIKEKYINIRNN;locus_tag=LOCUS_02600;note=WP_011986938.1 V-type ATP synthase subunit I (Clostridium botulinum) [pid:35.9%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:2.2e-108],MGA_262
sequence1	MetaGeneAnnotator	CDS	301839	302312	.	+	0	ID=MGA_263;product=V-type ATP synthase subunit K;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986937.1;translation=MTLELVLVNLGPALGYLGAALAAILSGIGSAKAVGMVGEAAAGIVIEEPEKFGKSLILQLLPGSQGLYGFVIALLASGQITSATTFSQGVAILMACLPIAFVGLHSALAQAKVSVAGITILAKNEEQQVKGIVYAVMVEIYALLGLVISVILLNNIA;locus_tag=LOCUS_02610;EC_number=7.1.2.2;note=WP_011986937.1 V-type ATP synthase subunit K (Clostridium) [pid:64.7%25%2C q_cov:84.7%25%2C s_cov:84.2%25%2C Eval:3.9e-43],MGA_263
sequence1	MetaGeneAnnotator	CDS	302322	302870	.	+	0	ID=MGA_264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISNLENIISKIKIDTDEKISLITEEANKQMNVLKNEFENKLKIEKENITRKFETTKTLELERIASGVELKCKNILLQTKQSLISETIDKLRENLENISVEEMKNFLIHNLEKRTKKFDDEEILIPEKFNSLLALLPNIKVDEKVKNGFIIKYKGIEENFSFDSLIRHKREELEEVIQKYFE;locus_tag=LOCUS_02620;note=MGA_264
sequence1	MetaGeneAnnotator	CDS	302882	303805	.	+	0	ID=MGA_265;product=V-type ATP synthase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003439726.1;translation=MNRNDFILPVSIIKIQEKKLLTEQKLIRMIDTNTLKDILKTLNDTEYAFSMAGVTNDEMYEEILFNETKRVFRFVRELAKKEQGIVDLIALKYEYQNLKLRLKNDYSNSDLEKHILDTGMPKNYFDKNLLIASKEKDLQKASILLDKMYLEDVYRISSDLNEEIFIKYRKAIIDKYNMVTFLRLKKQNKNIDFVENIFVDGGSISKDDIIKIYENETHISVFKKLTIAKYWDRFEKDNNISEIEKMFDNMIINLAIEYRNVTIGPEPIFTYIIAKEYEMKALRLIMSGKLNNIDPELIKERLRGVYV;locus_tag=LOCUS_02630;EC_number=7.1.2.2;note=WP_003439726.1 V-type ATP synthase subunit C (Clostridioides difficile) [pid:28.5%25%2C q_cov:97.1%25%2C s_cov:96.9%25%2C Eval:4.0e-34],MGA_265
sequence1	MetaGeneAnnotator	CDS	303798	304127	.	+	0	ID=MGA_266;product=V-type ATP synthase subunit F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986934.1;translation=MYKIAAIGDRDTVISFKVLGIDVFSIDNFENEEMSIQKIKSTIDYLASNKYGIIFITEEYAKRAEEVLERYKTEVLPMITLIPNNSGSLNLGMSKIDENIEKAIGTNIF;locus_tag=LOCUS_02640;EC_number=7.1.2.2;note=WP_011986934.1 V-type ATP synthase subunit F (Clostridium botulinum) [pid:48.1%25%2C q_cov:99.1%25%2C s_cov:99.0%25%2C Eval:8.6e-26],MGA_266
sequence1	MetaGeneAnnotator	CDS	304145	305911	.	+	0	ID=MGA_267;product=V-type ATP synthase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_033047490.1;translation=MQGRIVKVSGPLVVAENMQHANVFDMVKVGNDKLIGEIIEMRGDRASIQVYEETTGIGTNEPVETTGMPLSVELGPGLLENMFDGIQRPLDKIKQRVGDFLLKGVEVNALDREKIWEFVATKSIGDEVSSGYVLGTVQETEVITHKIMVPIGIEGKIKEIKSGNFTVEDTIAVIETVNGDVNVNMIQRWPVRKGRKYAKKINPDEPLITGQRVIDTFFPVSKGGTACVPGPFGSGKTVVQHQFAKWGDAQVVVYVGCGERGNEMTDVLMEFPEIIDPLTGKSLMQRTVLIANTSNMPVAAREASIYTGITIAEYFRDMGYSVSIMADSTSRWAEALREMSGRLEEMPGDEGYPAYLSSRAADFYERAGKVVCLGEDERIGALTVIGAVSPPGGDISEPVSQSTLRIVKVFWGLDAQLAYRRHFPAINWLNSYSLYQTKVDEWMDKNVDEKFSANRTMAMKLLQEEAGLQEIVRLVGKDTLSFEDQLKLEAAKSIREDYLQQNAFHEQDTYTSLDKQNKMLNMVLHFYNQAQKALKKNVYVNDILELEVREKIARAKYLSEEHIYKIDEINKEVEEKINELISRQGEVM;locus_tag=LOCUS_02650;note=WP_033047490.1 V-type ATP synthase subunit A (Clostridium botulinum) [pid:70.7%25%2C q_cov:99.1%25%2C s_cov:98.8%25%2C Eval:1.2e-243],MGA_267
sequence1	MetaGeneAnnotator	CDS	305911	307290	.	+	0	ID=MGA_268;product=V-type ATP synthase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986932.1;translation=MIKEYKTINEIVGPLMTVEGVEGVSYDELVEVETQNGEIRLGKVLEVNEDKAVLQLFESPAGINMRDSKVRFLGRPLKLRVSEDMIGRVFDGLGREKDNGPKIVAEKSLDINGLALNPVARDYPSEFIQTGVSAIDGLNTLVRGQKLPIFSGSGLPHAELAAQIARQARVLGDGEKFAVVFAAVGITYEEAEFFIEDFKKTGAIDRAVLFINLANDPSVERIATPRMALTCSEYLAFEKGMNVLTIITDLTNYCEALREISAARKEVPGRRGYPGYLYTDLSTLYERAGKLKGKPGSITQIPILTMPEDDKTHPIPDLTGYITEGQIVLSRELYKKNIMPPIDVLPSLSRLKDKGIGKNKTREDHADTMNQLFSAYATGKEAKELAVILGESALSDTDKQFARFATEFEEKYVGQGFTLNRSIIDTLELGWDLLRILPKNELKRIRDEYLEKYLEKKDN;locus_tag=LOCUS_02660;note=WP_011986932.1 V-type ATP synthase subunit B (Clostridium botulinum) [pid:79.9%25%2C q_cov:99.8%25%2C s_cov:99.3%25%2C Eval:1.8e-215],MGA_268
sequence1	MetaGeneAnnotator	CDS	307293	307916	.	+	0	ID=MGA_269;product=V-type ATP synthase subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003359170.1;translation=MARLNVNPTRMELSKLKTKLVTAKKGHKLLKDKQDELMRIFIETIKQNREMRKRVEEKLTGSLRNFAISKSLISESSFEEAVAVPKISFEVNVTKKNVMSVRIPQLTLEKNGNDDDIYPYSFASTSSELDMAVEDLSNIMNELLKLSEIEKSAQLMADEIEKTRRRVNALEYMTIPTLEETIKFIRMKLDENDRGAIIRLMKAGIKN;locus_tag=LOCUS_02670;EC_number=7.1.2.2;note=WP_003359170.1 V-type ATP synthase subunit D (Clostridium botulinum) [pid:60.9%25%2C q_cov:96.6%25%2C s_cov:93.5%25%2C Eval:2.8e-63],MGA_269
sequence1	MetaGeneAnnotator	CDS	308117	309217	.	+	0	ID=MGA_270;product=sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013098572.1;translation=MAEVILKKVEKQYPNGFKAVHGIDLEIRDGEFMVFVGPSGCAKSTTLRMIAGLEDITGGEIYIGDKLVNDVPPKDRGIAMVFQNYALYPHMSVYENMAFGLKLKKTPKEEIDRRVKEAAEKLEITELLDRKPKEMSGGQRQRVALGRAIVREPKVFLFDEPLSNLDAKLRVSMRVRITQLHKELKTTMIYVTHDQVEAMTMGDRITVLKLGRIMQVDTPLNLYHRPANKFVAGFIGSPTMNLLEGELVRREERTFIDIEGALIELHPSKAEKVKGYIGKRVIFGIRPENISTTKEESTYTQIGEVSVVEQMGNEEYIYFKLSGKQMTCRMNVDGISETSKQGKELFYFDTSKAHIFDIDTEENISL;locus_tag=LOCUS_02680;gene=ugpC;note=WP_013098572.1 sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC (Enterobacter cloacae complex) [pid:58.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-119],MGA_270
sequence1	MetaGeneAnnotator	CDS	309334	309744	.	+	0	ID=MGA_271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIKEIVDEIVDTCRTNDPITIARKYNINVFYRDLGNIKGFFKTINNIKFIAINDNLSEFMEKMVLSHELGHAFLHDDDAIEFKENFINASSLLEKEANIFAAYLLFGYLNEEEDEYFMVDEEEEKIYRYLKGLLK;locus_tag=LOCUS_02690;note=WP_010708068.1 ImmA/IrrE family metallo-endopeptidase (Enterococcus faecalis) [pid:36.8%25%2C q_cov:76.5%25%2C s_cov:62.0%25%2C Eval:1.0e-10%2C partial hit],MGA_271
sequence1	MetaGeneAnnotator	CDS	309790	310056	.	-	0	ID=MGA_272;product=HPr family phosphocarrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005888910.1;translation=MSKTVTIINETGIHTRPGSVIVKKAKEFKEDGTQIMLSYNGKEAKADSLVKILSLGIKKDAEVIVSAEGPSAEKAIEEMAELLSTLVD;locus_tag=LOCUS_02700;note=WP_005888910.1 HPr family phosphocarrier protein (Fusobacterium) [pid:44.3%25%2C q_cov:98.9%25%2C s_cov:97.7%25%2C Eval:1.1e-12],MGA_272
sequence1	MetaGeneAnnotator	CDS	310130	311380	.	-	0	ID=MGA_273;product=transcription termination factor Rho;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016419.1;translation=MENITLDELGNFTLTNLRKLAKEHKIEGYSTIPKMELLNRLCYSIATAEGLIYSYGELDIINETYGFLRNTPQNIDVYVSNSQIKKFGLRQGDVIVGEVRKPLNDEKNFGLLKLIYVNGEKGELSRQRPIFDDLTPSYPIERLELGEGTVSSRIIDLIAPIGKGQRGLIVAPPKAGKTTILSDLANDILKYNKDVQVWIILIDERPEEVTDIKENVKNAEIFAATFDENTSVHLSVTEKVLEAAKREIEKGNNIVILMDSLTRLARSYNIEMPSSGKLLSGGIDPKSLYMPKKFLGAARKIRGGGSLTILATALIETGSRMDEVIFEEFKGTGNMELVLDRALQQLRLFPAVDILKSGTRKEELLYSKREFDSILKLRKFLLKLNEAEALKFLMDLIKRYSSNKDLLENIDYELKL;locus_tag=LOCUS_02710;gene=rho;EC_number=3.6.4.-;note=WP_011016419.1 transcription termination factor Rho (Fusobacterium nucleatum) [pid:51.5%25%2C q_cov:97.4%25%2C s_cov:98.5%25%2C Eval:3.9e-113],MGA_273
sequence1	MetaGeneAnnotator	CDS	311394	311996	.	-	0	ID=MGA_274;product=viroplasmin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016818.1;translation=MVYAYYIEEEKKSGLVKTWSECQSLTKGKNARFKKFDNENEAKSWLEAGALYTPKSKSTSKLHKDAIYFDSGTGRNTIVEVKVSDVYGDSLLPFIMPHEKINSYGNYFLNNNRTNNFGELTGLFIALKYALKYDVKKICGDSKLIIDFWSLGRYKEENIDIDTIKLIEKVVELRKEFENIGGEILYVSGDINPADLGFHK;locus_tag=LOCUS_02720;note=WP_011016818.1 viroplasmin family protein (Fusobacterium nucleatum) [pid:42.2%25%2C q_cov:99.0%25%2C s_cov:97.2%25%2C Eval:6.2e-41],MGA_274
sequence1	MetaGeneAnnotator	CDS	311999	312217	.	-	0	ID=MGA_275;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKILLENFNEIKQVKQISTILLGLSEIEDLEADLDNSSITLSLNNFTSNEMIKYFIKSANFNVVDIIDME;locus_tag=LOCUS_02730;note=MGA_275
sequence1	MetaGeneAnnotator	CDS	312391	312615	.	-	0	ID=MGA_276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVVRIRGIIEALVVCVGSKGIRYYKITAIDEYSRKRVLKVVKDLEGQKKPNLPQSHFTHSNTLYFTSFFKLNT;locus_tag=LOCUS_02740;note=MGA_276
sequence1	MetaGeneAnnotator	CDS	313018	314241	.	-	0	ID=MGA_277;product=IS91 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011674482.1;translation=MYNSNKIKSIFSKYILTNSINSIKPYFDKKHIEHINHSIHNFLNCGNLSKGFISYRCSSCNFQHKMKLTCKSRLCPSCGYNYSVNWTNSILKQFINIPHRHVLFTVPKEFRKFIAYDRSILSKMSKAINNIFKYQFHNIKDKVKRKIYIPKSNPNYFTNSDIINYGLITVIHTFGRDLKFNPHIHAIISLGGFNKKFQYKELKYFHVPSIANQWKFSLCKLISNANYPNDIIKIQAKKAVSNVYDNDVRFFFNVAGNDINNPKYIIKYLGRYLSRVPIAEYKIVNIDFNKNSLTFKFEDLSNNKEVTYSTLSFKDFVAKVLFHLPLKYFKMINRYGFYARRISSKVKMSLFYLKAQVNKKSLSLFRKNFKELWDFDPFMCPHCNIYLKRYELFIDNGLSPPIHKFYN;locus_tag=LOCUS_02750;note=WP_011674482.1 IS91 family transposase (Lacticaseibacillus paracasei) [pid:26.2%25%2C q_cov:87.0%25%2C s_cov:76.9%25%2C Eval:8.0e-39],MGA_277
sequence1	MetaGeneAnnotator	CDS	314430	316046	.	-	0	ID=MGA_278;product=PTS transporter subunit EIIC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011263611.1;translation=MKNNFFSVLQKIGRAFMLPIAVLPMAGILLGIGGSFTNPVLINTYNLTFLAPGTPLNYLMQLFFNIGLFVFSNLPLLFAVGVAIGMANKNKETAALSAVLGFLLFHTIINTILTFKGITPDKVTFDALIATGLSETSARGTAALYARELGIFTLQTGVFGGIITGITSAIITNKFSDKKLPDYLAFFSGNRLVPVITILIFIPIATIIQFIWPTIFLLIVKAGELFAATGAIGTFFYGSTMRLLNIFGLHHAIYPLFWYTQLGGYEEVAGVMVSGGQNIFFAQLADPTIAHFSAAATKTMTGGFLPMMFGLPAAALAMYHTAKSENKSLVKGILLSAALTSFLTGITEPIEFTFLFVAPVLYVIHALLEGLSYLLMYVLNVAVGITFSRGIIDFTFFGLLQGPAKTSYQWILILGPIYSFIYYFVFKYLIIKFNFSTPGREGGENKLYTRADYNESKEDNFMIDEIVNNLGGIENIEHIDACITRLRVTVKDPKKVSDDEKWISLKAKGVIRSGNGVQLIYGTQADIYKNKIRNKYKI;locus_tag=LOCUS_02760;note=WP_011263611.1 PTS transporter subunit EIIC (Aliivibrio fischeri) [pid:70.9%25%2C q_cov:97.2%25%2C s_cov:97.4%25%2C Eval:8.3e-215],MGA_278
sequence1	MetaGeneAnnotator	CDS	316065	316262	.	+	0	ID=MGA_279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLNILKYILRKNFSQVYNISVVVFEKSKLMVCKEIIESHISKRYDDTNVTTNTDRIVETINKKF;locus_tag=LOCUS_02770;note=MGA_279
sequence1	MetaGeneAnnotator	CDS	316316	317971	.	-	0	ID=MGA_280;product=formate--tetrahydrofolate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903107.1;translation=MTDIEIAQNSKLLPIEEIAKKIGVENDIEFYGKYKAKLNLDILERLESKANGKLILVTAVTPTPYGEGKTTVSVGLTQGFNKLGYSSIAALREPSLGPVFGLKGGATGGGYSQVLPMEDINLHFNGDFHAITSANNLIAAMIDNHLNRGNELEIDLNNIYFKRVLDMNDRSLRSITVGQGGKINGPIHDASFKITVASEIMAILCLAENIHDLKEKIGNIIIAKNIHGDFIYAKDLKAHGAATVLLKDAIKPNLVQTTENTPVIIHGGPFANIAHGCNSVLATKLALKLSDYTITEAGFAADLGAEKFFDIKCRKASITPDMVVLVATVRALKHHGNGNLEDGLENLEKHIENIKKFNLPVIVAINKFADDTDEELKIIKDFTLTKGVIAVPIEIHSKGGIGAKDLVKEIVEVLDYVEEIPSENVNSVFEYLYTLDKSIEEKIETICKEIYGAKDIEYSELALEKLKLFTEKGFDNLPICMSKTPASISDNPKLLGRPKDYVFKVTDINISAGAGFLVVMAGDILDMPGLPKVPAAEHIDIDEKGNIVGLS;locus_tag=LOCUS_02780;EC_number=6.3.4.3;note=WP_005903107.1 formate--tetrahydrofolate ligase (Fusobacterium nucleatum) [pid:59.6%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.1e-185],MGA_280
sequence1	MetaGeneAnnotator	CDS	318119	318727	.	+	0	ID=MGA_281;product=DNA repair protein RadC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016743.1;translation=MRDFELLLNLIELVENRKIAKLQASEIIKKYGGISNILREDFKVIENMNILSKKTMKILENVSLIYNHILFNECFGEEKKISCFEDLVKYLKFQYVDMEREVFKVLYFNTKNVLIKDENIFYGTIDKSVVYVREIVKNILKYNAKSIIIVHNHPSGNLEPSNDDRCLTKKIIDVLKLIDVRLSDHIIISNKGYYSFLENGQI;locus_tag=LOCUS_02790;gene=radC;note=WP_011016743.1 DNA repair protein RadC (Fusobacterium nucleatum) [pid:38.5%25%2C q_cov:92.1%25%2C s_cov:82.8%25%2C Eval:8.9e-27],MGA_281
sequence1	MetaGeneAnnotator	CDS	318741	319256	.	+	0	ID=MGA_282;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIVNIRFRKTKKVYPFYIENVGEYKKGDYVIVETIRGDQIGIVLGENRLNNVNFDSDEDDLKIRKVKRKLNDEEIKELDALDEKARQAYFICKEIVKRILPEMNLVIGEYMFGGEKLIFYFTAEGRLDFRDLVKEVNKAFNRRVEFYQIKYNDEGRILNAFGKYGREIYW;locus_tag=LOCUS_02800;note=WP_005903716.1 regulatory iron-sulfur-containing complex subunit RicT (Fusobacterium nucleatum) [pid:39.5%25%2C q_cov:97.7%25%2C s_cov:52.2%25%2C Eval:5.9e-25%2C partial hit],MGA_282
sequence1	MetaGeneAnnotator	CDS	319219	319869	.	+	0	ID=MGA_283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHLGNTVVKYTGDMTHYLESVDLRLNCGKGALNITTDALDLVDFVKENLVNIDEIGSMLDIGAGIGTITFMLYRQRNFTDFHAVEIQKDVYDILLSNILLNNMTVSAYNMDIKEFHLPFKFKYIISNPPFYKTNSGYMPQDEVMKISKFEVCLKVSELLDVVNDLLDDRGYFFLILSIERDEELRKDKRFIIKNYKKHFRGKKVFISYLLRKDKND;locus_tag=LOCUS_02810;note=WP_005903463.1 tRNA1(Val) (adenine(37)-N6)-methyltransferase (Fusobacterium nucleatum) [pid:30.5%25%2C q_cov:81.5%25%2C s_cov:70.8%25%2C Eval:1.3e-13%2C partial hit],MGA_283
sequence1	MetaGeneAnnotator	CDS	319862	320134	.	+	0	ID=MGA_284;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINEYGELVEVLMDDKIKVERITSNSNVTDFMISDLDEYVYILEGCSKLLVGEKEIFLKKDTGFFIPKNTEHKVTYTSSDCKWLCIFLKE;locus_tag=LOCUS_02820;note=MGA_284
sequence1	MetaGeneAnnotator	CDS	320136	320726	.	+	0	ID=MGA_285;product=dephospho-CoA kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438041.1;translation=MIVGLTGSIGVGKSKIFDFIKTIMKDEAEYIDADLITAKLYNIETVKKELYSMFGTCDKSEISKIVFSDSSKLTLLNNYMHKIIIRKLKDEIENCDKKYMFLDVPLIYELNLQYLFDKIIVVYAPKNIQIERIMKRNNLTYEEAISRIEKQIDIEIKKEKADYIIDNSSDIEVGYVNTLDVLMKLRKEETYGNKEC;locus_tag=LOCUS_02830;gene=coaE;EC_number=2.7.1.24;note=WP_003438041.1 dephospho-CoA kinase (Clostridioides difficile) [pid:35.2%25%2C q_cov:87.2%25%2C s_cov:89.5%25%2C Eval:1.3e-22],MGA_285
sequence1	MetaGeneAnnotator	CDS	320707	321282	.	+	0	ID=MGA_286;product=ribosome biogenesis GTP-binding protein YihA/YsxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894870.1;translation=MEIKSAEYSKSCIKLSDYPEKMNNTEIAFVGRSNVGKSSLINTIVKRNNLARTSKTPGRTQLVNFFLVNKDRYFVDLPGYGFAKVPANIKKNWGNIISEYLNSERKKVVFVLLDIRRVPSGEDIEMLEYLEHYNIEYYIIFTKCDKLSNNEKFRQLKEIKKKLEFSNEDVFFHSSLKNIGTAEILDFIDKL;locus_tag=LOCUS_02840;gene=yihA;note=WP_005894870.1 ribosome biogenesis GTP-binding protein YihA/YsxC (Fusobacterium) [pid:64.7%25%2C q_cov:99.5%25%2C s_cov:97.9%25%2C Eval:7.9e-67],MGA_286
sequence1	MetaGeneAnnotator	CDS	321296	321859	.	+	0	ID=MGA_287;product=LemA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002262127.1;translation=MMLWVILGVVILIFLWGVGVYNRYISFDIENQTAFSNIGTFLQKRLDLIPNLVETVKGYAKHENNTLQNVVEARSKMLKLDLNDINNLEEIRKIENELTKTLKSIMALSESYPDLKANVSFLELQKSLTDIENQIESARRYYNATVGELNSFVRKFPTVLLAGILKFRNAEYFKEDVEAKNAPKVSF;locus_tag=LOCUS_02850;note=WP_002262127.1 LemA family protein (Streptococcus mutans) [pid:42.8%25%2C q_cov:100.0%25%2C s_cov:97.8%25%2C Eval:2.8e-37],MGA_287
sequence1	MetaGeneAnnotator	CDS	321861	323621	.	+	0	ID=MGA_288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILFFLFISIFTFSFESISNFEMDILVNPNGVLDVTERITYITDSNRKRGIYRIIPFKYDSGSYFKFEDRIKIENFNVKYTDYNNEVGLYSKIDENVMVYRLGQKDVYLPSNKEINYEIKYKVYNSIRSKDNVNQIYFNALGNYWEMPVEKFKLNVRGIKGNIEVFTGYVGETNKDYQITELENGYEINTVRVSNTGEGLSFLLNSDSFEYSSFDLWYNRAKAYPLIIVVLLTILPIMLLNISIFKFKKRNKFNKAIMVEYLVPDISALIAKRMVRRNTYSTDFLVVLFMLMQKGIIKLREKNPEHDFDEEYVVRFGDKIKSKRKDFNDYVEKQYYVDMNVYECMQDILSKEENIFLNRTILYKNDIFKSKKTIVLVEDDLKQYFDEKYYTEYEISVLKYLNIILIMSFFVIGSIVVFIGKNVFSEIQMLLVLGAMFFITFMNAITVKRYTKIYEKNYPKVKGFEKFLQKTEVEKLKHFKTEEEVITYFKQILPFAIAFGLQNQYLKMLDNVVSRLLLDIEKIRDNLYYSHIVNIMYYNRIINKSIETEINNNNSYGGNSKFSGGFSSSGSSGGGFGGGGGRSW;locus_tag=LOCUS_02860;note=WP_014640137.1 DUF2207 domain-containing protein (Escherichia coli) [pid:27.4%25%2C q_cov:28.3%25%2C s_cov:26.7%25%2C Eval:1.8e-08%2C partial hit],MGA_288
sequence1	MetaGeneAnnotator	CDS	323732	325675	.	+	0	ID=MGA_289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKGNKLIALMTISTTLLGAEYYIKNDSKLELGYDTKFTKKGSSELNLGGIFGDNRELFTFVGAEINGKNTIDGKLTTGLSVKKRLIQEIELILNAGYQYKGGYENSIKELLKSRGEWDKKFDKDKDALKEYYHSQGLRFKDEESLFSGIVNYDHSKFKLHSGIIYTAGYLKDNTFRLESFVNIKGKKNNHELEGDINYKLKKDTYAKGGRLKLGLNTTSKLGKVELSNKGKIYLGTLIPNKRNYSITLGSELKYNVNNLEMLGSIGSELVFKEVESNKLINELKISYNPEIKLELSYDSDKVKFESKNKIIGRIESKGSKLNAEEYEKNKKDQTIALAYSGNMLKSRLKDFDIRVVGRYVVRVTMNKDSNDAKLDKTEHLLEVGTGLTIEKKNKRFDTRSSIDGRYIFGRIEDKNFSILNLWSDNKAEYMVNERLILSGELNFTSSNRLSILNHNSNDDELLLLADTKGTIDYKINKKLSLTTTIGAKTISLFSILKKNENNNKLHLSSKYTYKVYNESKLKYSVRENISLTGKLDMSYSGGIKSDKLYESLNKIKRDQIVEKGLKEISKEDLKKITEEETNFGNDTSSLLLIAPSVEGEISYLNDKLLIKPSLGVDIKAYIKLNQSKLEYKETNVKTGLKVEYRW;locus_tag=LOCUS_02870;note=MGA_289
sequence1	MetaGeneAnnotator	CDS	325689	326900	.	+	0	ID=MGA_290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGIKIFLLMLAMISNVSLSSKNQFKNVSKKINKVMEDKKETKLFDFKNSKKVKVELGSNIELNKGMESDGGVNLNGSLTLYEFLKLSGKLGFGIDSTSKELRSSETWLGLGLNFKEFGNLELKMNYDRKIALSYEYKKKINDFDIDVKGGYSSYKAEYDYANKDDNEERRESRYEIDTKLKYNFWENFTLVNNLSFWLSMFHSTKRLIPYSFLIGTGIDYKNTLLKGNDYKGTLISGIHVNHLNERRQYIVADNDHLTTSDDDEEDNMSSDLESFLRDSENYKIFEFETYLGYEFEKQLKKDSNISILGKLSATINNIHKSEMKERYKKDGTTYIEIKNNGDDVIPKTTTNIKLTPKIKLSYKFNKNISMDMEYDLDIAFNNNGSVKYNNKLRTGVKYTWEK;locus_tag=LOCUS_02880;note=MGA_290
sequence1	MetaGeneAnnotator	CDS	326888	329005	.	+	0	ID=MGA_291;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKIENKIMLGILALSSILSLSTTMYVKNNSELKLDYSYSENDGMFKFGYEPINTLNAGAFLGKSNEAFLYLGGKIKKEHIIDGIANLGVFFKKKINEHIELTLNTGYQYEGGMEDSIKEGLKLKGLWDKKYEEDETLRKEFYHSQGLRLKGNPILASGGVLDLTYGNTKSKIGAIYTIESFSELSRILQALPSSNIKQIKLYNSLIGRIETFVNVNQKLNNLGIDLNLNYKLKPDISKRLGRLKGDVTLTRKIGDIELSGKVHAYLGTILISDKKREFGGEIRLGYNKDRINIKSTLKHSTLLDYSANKGTKDDNKEEPPKSDSTDKLLHKQELTFDLGYKNNKIEFNTENKLRGKVFTDKLKIDKDKYKSDSLNKDFTVFSIYTSNSLKTKIGNVGIKADIKYRLGLDIDKDTSETYKHLALVGVGAEYNNKTKKIETSNSVNTTLLIGYNKYEIFAINAWSDNKADYIVNDKTKLFGELNLTSSNRLSFYSGIKAEILGFVDLRGNIEYKIKNNLEFINELGAKAILLFSKKDENDKNTNNINILYIPLTTQYQYKVYNDSSILYKVKDNIRIKSKLGLSYLNGYDSETLYSALRDIKRKQIDSNGIVEISRKDRFKISSEKHDYGVSLLSKIVINPSIEGELKFLGERLTVKPNGEVKFIFANKADNNVNSVRSSSNNTDNKKFKYNSTVFRVGLGLDYKW;locus_tag=LOCUS_02890;note=MGA_291
sequence1	MetaGeneAnnotator	CDS	329040	330104	.	-	0	ID=MGA_292;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011249527.1;translation=MSKPIKLNIQNLTKVFTPKGRRVVAVEDVNLEVKEGEFVSLLGPSGCGKTTTLRMIAGFETPSEGHITINDRDIAYLTPDKRGISMVFQNYALFPHMNVYDNIAYGLKIQKRPKEEIKQRVDKILKLMKMEDFAERIPSQMSGGQQQRVSLARALIMDSEVLLFDEPLSNLDAKLRLHMRDEIRKLQLEVGITSIYVTHDQAEAMALSDKIVIMKDGKIAQVGTPQEIYQKPNSEFVAKFIGRANILNAKVLENRENSTLISILDQEYLINETVNYPSGSDIKVVIRPESIKFTEPKHTLEVSKSIFMGENHEYEVKNGDNIIEIVLNNPHGKEIKKVGDKLSFVFDQNSIHIL;locus_tag=LOCUS_02900;note=WP_011249527.1 ABC transporter ATP-binding protein (Thermococcus kodakarensis) [pid:49.7%25%2C q_cov:87.6%25%2C s_cov:86.1%25%2C Eval:2.3e-84],MGA_292
sequence1	MetaGeneAnnotator	CDS	330118	331827	.	-	0	ID=MGA_293;product=iron ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_172626058.1;translation=MSDLKLKIKDGFKDFRKMLNDPILMVTIIFSIVVVAFFILVPLYNVFLESIKVDESFSITNYIDSFKNSGNLQIILNTLILGFTTGFISLIIGFIFAYLTVYIKIRGKAVFDFIALLPIISPPFIVALSTILLFGRTGLITRGLLGIEYEIYGFHGLVLVQVLSFFPIAYMMLVGLLNNIDPSVEEASRSLGANRFKVFTTITLPLMMPGLANAFLLVFIQSIADYANPFVIGGKFTTIAVKIFQEGIGNYQLGLASALSMILLTISISMFTLQRYYINSKSYITVTGKASRARELIDTKFATITSSLILITLSICVIGMYILIPISSFTKLFGIDNSLSLYNYREIFRYANRINPIITTTTLSIIATFIASIFSMIIAFLIVRKKFLGKTFIEFTVMMGLAIPGTIIGIGYALSYNKIYNIPFTNIVLVPTLTGTGFIIIMAFIIRSLPVGVRSGMAALNQIDPSIEEASTILGANTLQTFTKITLPMVREAFLSGLIYSFARAMTLVSTVIFLISAKWKLLTPTIMDNVDQGRIGIAAAYCTILIVIVSLFMILMKLFIRLLEPKNK;locus_tag=LOCUS_02910;note=WP_172626058.1 iron ABC transporter permease (Vibrio cholerae) [pid:36.6%25%2C q_cov:93.1%25%2C s_cov:75.9%25%2C Eval:2.5e-92],MGA_293
sequence1	MetaGeneAnnotator	CDS	331882	332910	.	-	0	ID=MGA_294;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011969388.1;translation=MKKLLISILLGAFLFSCGSNSENTSKSEEKLVFYAGLQEDHAALIAEKFTAETGIPTEFVRMSSGETLARLKAEKNNMVASVWYGGPVDGIIAADAEGLVEAYNSPTAEEILDQFKSGDGRWTGIYVGYLGFVGNKKILKEKGLEMPKSWQDLLDPKFKGEIVVAHPGSSGTAYTMLATLVQLMGEEQAMSYFKQLDGQIRQYTKSGTAPGRMVGSGEVALGITFLHDAIKYQKEGYSDIIISSPNEGTGYEIGAVALLKNAPNSTAAKKFIDWVLTKEVQELGKTVGSFQFLTNKNAVAPEEAEPIKNTKLINYDFEWAGKNRKNLVEKYTKETSSTIPQK;locus_tag=LOCUS_02920;note=WP_011969388.1 ABC transporter substrate-binding protein (Sinorhizobium medicae) [pid:46.2%25%2C q_cov:83.6%25%2C s_cov:85.1%25%2C Eval:2.2e-68],MGA_294
sequence1	MetaGeneAnnotator	CDS	333229	333897	.	+	0	ID=MGA_295;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKNINKKFGNFTLNVDLELEKGEIFGLIGKSGSGKSTILKIIQGLIKPDSGKVNIDDDIEMSSIFQGLNLLNNKDVYSNVSLPLILKKRKDSEKVYEVLKYVGLLEKKNEYISSLSGGQKQRVAIARALVSNPSLLLCDEVTTSLDRITKNEVISLFKKINTDYGTTILFVTHELEVAKKICDRVAVIENGEILEIFKVNKDINDEKEFSYLEYAKEVLK;locus_tag=LOCUS_02930;note=WP_009896423.1 methionine ABC transporter ATP-binding protein (Clostridioides difficile) [pid:47.0%25%2C q_cov:89.2%25%2C s_cov:67.6%25%2C Eval:1.6e-46%2C partial hit],MGA_295
sequence1	MetaGeneAnnotator	CDS	333897	334559	.	+	0	ID=MGA_296;product=ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002354825.1;translation=MDYFTLELLLSIKDTFIMVLIPTICAILFGIPLGALLYITKKGGLKENIYIYLPINIYINVVRSFPFLIFVIVLIPLTRLVFGTAFGLLPASFPICFVAVALYARFVEQSFHDVDLGIIDAALSMKATSFQIVWHFLLVESRSSLVLGLTSSIISFISYSTVMGIVGGGGIGDFAIRYGYQEYNYPLVYKVVSIMIIIVFFIQILGNKISKKLDKRRRDF;locus_tag=LOCUS_02940;note=WP_002354825.1 ABC transporter permease subunit (Bacteria) [pid:44.3%25%2C q_cov:95.5%25%2C s_cov:94.2%25%2C Eval:2.2e-45],MGA_296
sequence1	MetaGeneAnnotator	CDS	334559	335335	.	+	0	ID=MGA_297;product=MetQ/NlpA family ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000735504.1;translation=MLKKLLLFFTIIFSSLTFSNDKVIKIAAAGYPMNEIVKIAAEDLEKEGYEVEISLLTDYVTANVGLNAKEFDANFHQHEPFMNIFNERNNGTLIKVKPIYDVHIGFYSKKFKNKSKISNGARVAVPSDPTNQDRALRILEKEGFITLAKKTGLNSLADIRTNRKRLKITPIAIPALVQAYQEFDLAFNWPSHMLKIGVKVKDAVLIEKASQARFAIILAAREDNKDSQKIKDLTKAMTSEKVRKFLLENYKEEGYPVF;locus_tag=LOCUS_02950;note=WP_000735504.1 MetQ/NlpA family ABC transporter substrate-binding protein (Streptococcus) [pid:40.6%25%2C q_cov:93.0%25%2C s_cov:87.7%25%2C Eval:1.6e-46],MGA_297
sequence1	MetaGeneAnnotator	CDS	335503	335934	.	+	0	ID=MGA_298;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKMLGILLIQFFSFASIKVDGKSNVYVEKSNNGIDVINISTPSSKGISHSTFTDFNIGEKGAVINNSKNIARSRIAGLINGNKNIKEKRAKLALLDVTGVKESRLSGILEALSKDRLDVILSNPNGITLDGANFLNCYKIKI;locus_tag=LOCUS_02960;note=WP_143403532.1 filamentous hemagglutinin N-terminal domain-containing protein (Fusobacterium massiliense) [pid:37.8%25%2C q_cov:95.1%25%2C s_cov:7.8%25%2C Eval:3.1e-24%2C partial hit],MGA_298
sequence1	MetaGeneAnnotator	CDS	335974	337275	.	+	0	ID=MGA_299;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMRTKIEDFLKSKEKYKVYKDFSEIPEYIKEMIYDDNMDIGFSRDLITPLSENYGLERLFKYIKEYQPRTYEVLKDAKNLMYIVFEEHFLKYGYPISRDCLAFELNGTALILDRKYYGDNPDQPSFKKDTYKTLVALPKELYYSYYYEFMGLGFPVLNKNWSFRNLPQSIYEWNNLDGYLEEIGLKKKRRIEVIKSYTKYFSKLLNNKKANAEDMYTFMDTNIYGEVRNDNDYAFFVFAYIENGDIYVIRNGDYERPKKLINPVEAIDKYVAHVLSGKDNFNFDEYLEEMKVDIEETKVYEVVELKTKGIIKDREKVVNEVMSLMNCIEISDEIYYKTESGEYEDVSHFNFEEEEIEIMGFMKDEDDNIDFKIYYSYKKGKHLLAYSKLYETSMEKGMIVDFLKVVSNNNEIKEKVINKDSTKFYIDLWDIFS;locus_tag=LOCUS_02970;note=MGA_299
sequence1	MetaGeneAnnotator	CDS	337349	338362	.	+	0	ID=MGA_300;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQLTSRRYIGSKKKLLNWIFSEIENNVKGESFLDIFAWTGSVAERALRKYDKIIVNDILSSNKVIYEAFWGKEKIDMDILNSYKYRFNNFKNINAQNYFSINYGNKYFGMNDSKKIGYIRELIDEDYKKGIIKKREFNILLSSLIYSMDKIANTVGHYEAYRKVDIIDDRFKFELIDLCDYGDKEIEIFQKDANELSKEIYSDIVFLDPQYNSRQYSRFYHVIENLVEWEKPKLYGKSLKPKPKNMSEYCKSSAPKIFDDLISNLNCKYIVVTYNNTYNSKSSSSKNKIKLEEILQSLNKRGKTKIFESNHQFFNAGKTDFNNHKEYLFITEVDCEN;locus_tag=LOCUS_02980;note=WP_209021411.1 Dam family site-specific DNA-(adenine-N6)-methyltransferase (Helcococcus ovis) [pid:40.8%25%2C q_cov:98.2%25%2C s_cov:45.3%25%2C Eval:4.0e-62%2C partial hit],MGA_300
sequence1	MetaGeneAnnotator	CDS	338549	338812	.	+	0	ID=MGA_301;product=50S ribosomal protein L28;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898205.1;translation=MQICEVFGKKVGHGNLVSHSNRATKRIWRPNLQTMKLMLDGKEVKVRVSTKAMKTLKGKNEDQVKKILLENKDNLSSKLAKILFSAN;locus_tag=LOCUS_02990;gene=rpmB;note=WP_005898205.1 50S ribosomal protein L28 (Fusobacterium) [pid:45.8%25%2C q_cov:95.4%25%2C s_cov:97.6%25%2C Eval:3.1e-15],MGA_301
sequence1	MetaGeneAnnotator	CDS	338903	339919	.	-	0	ID=MGA_302;product=class II fructose-bisphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016951.1;translation=MKRELALEFARVTEAAALAAHKLVGRGNKEEIDKVAVEAMKIMLNRIKIKGEVVIGEGEIDEAPMLYIGEILGRDDGNYLEVDIAVDPVEGTRMTAQRQANAITVLAVGKKDSFLKAPDMYMEKLIVGPNAKGLIDLEKPLKENIEIIAKANNKKLKDLTIIVLDKPRHKKIIEDLQQLGISVYALPDGDVAASILTCMVDSDIDVIYGIGGAPEGVISAAAIRVLGGDMQARLKLRNEVKGCSLENDKISKDEKRRCEEKGLIVGEVLKLDDLAKDDEIIFSATGITNGDLLEGIKRRGNIARTQTLLIRGSSRTVRYINSIHNLDYKDDKINHLVK;locus_tag=LOCUS_03000;gene=glpX;EC_number=3.1.3.11;note=WP_011016951.1 class II fructose-bisphosphatase (Fusobacterium nucleatum) [pid:76.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-145],MGA_302
sequence1	MetaGeneAnnotator	CDS	340121	341419	.	+	0	ID=MGA_303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIVLYLLFYIITSIMILTYLFKEKKVVDYINKIVDKLLAKLGFESEKIRNDKILIFLNTLVLIILGILALNVDYTRNEILPIKNKIIIIGMIMNFSMLLGMYFKKYYYEHVAILNIVLIVFGKAMFGVDDKYFFIINIMLSIASIILIIYSNIELTNKIKKIFNSMYIIILVLIIQGYYLGNYAIPTGSMEPTIKVGDRIFANNVSYRFKSPQIGDIISFKEPLDNSLMYTKRITGTAGNTFKINEADHNIYINGEKSSLNREYSIEGILKLYNNPEIYIPKKGDKVKLLNILELDIVNGNGVIEIKREEFLAKNISKKYYKYLFGFFNSNTLDQISGVEQDLSNKRYTYVLESEGRFVLPILDFKYDEKLMTRLLNGEEIELESNYYMAMGDNTRNSNDSRFFGYVKEERIYGKLLLRWYPFNRVGLLNE;locus_tag=LOCUS_03010;note=WP_029491539.1 signal peptidase I (Fusobacterium hwasookii) [pid:40.4%25%2C q_cov:64.4%25%2C s_cov:84.5%25%2C Eval:7.3e-46%2C partial hit],MGA_303
sequence1	MetaGeneAnnotator	CDS	341412	341801	.	+	0	ID=MGA_304;product=ribosomal protein S18-alanine N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012546589.1;translation=MNEKEIEEILELHNKNFLDKKRYEEIVSMYKNPNYLIFSIYEEELVGYIIIHDSFDCYELFEIAVKEKFRNKGYAQQLLYNIPDDKNTFLEVSEKNIAAIKLYEKIGFEKISIRKKYYLDGSNALIMKK;locus_tag=LOCUS_03020;gene=rimI;EC_number=2.3.1.266;note=WP_012546589.1 ribosomal protein S18-alanine N-acetyltransferase (Thermodesulfovibrio) [pid:36.3%25%2C q_cov:99.2%25%2C s_cov:92.5%25%2C Eval:6.3e-16],MGA_304
sequence1	MetaGeneAnnotator	CDS	341814	343385	.	+	0	ID=MGA_305;product=glycoside hydrolase family 57 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011057809.1;translation=MKGYLSIVLHAHLPYVRHPEYEEFLEEDWLFEAITETYIPLLNMFENLTRDRVPFNITMTISGTLANMLNDEMLQNRYLKHMDKLVDFCTLELERLSPYPDMYAIALHNYDTYFNARKYFLDNDKNLIKRFKYFQDLGNLEIIPVTATHGMLPMMKDFPNAIRAQVRMAKLDYMHNFGREPQGIWLAECAYYKGQDIYLKDEGIRYFLVDAHGIKNSDPRPVYGVYSPVFTENGVAAFARDLESSEQVWSSEVGYPGDGAYREFHKDAGYELDYEYIKPFLHSDGVRRNIGIKYHAITDKKGTFKKAYNPEEARNTAISHAYNFVYNRSKQIDYLSSKMKYRKPIILSPYDAELYGHWWYEGPIFLEYIFRAMQESNFTSITPSKYLDIYKLNQVVDLSMSSWGANGYYDVWVDGSNDYIYRHLHKAASKMIELAKIEPANELEYRALNQAARELFLAQTSCWPFIMFTKTMVGYAEKKISDHTYRLFKIYEDIKHGSIDEEWLNEIEGRDNIFKNVDYRVYR;locus_tag=LOCUS_03030;note=WP_011057809.1 glycoside hydrolase family 57 protein (Thermosynechococcus vestitus) [pid:53.5%25%2C q_cov:99.6%25%2C s_cov:99.1%25%2C Eval:2.2e-159],MGA_305
sequence1	MetaGeneAnnotator	CDS	343431	344552	.	+	0	ID=MGA_306;product=cysteine desulfurase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009895806.1;translation=MIYFDNSATTRVDERVIEEMSKVMSEMYLNVDSAYTLAYDIKKMIKNRKNIFKKVLGLNPDNFSFTSGGGEANNLALTSVMRKEKKGHLIISKIEHPSLLNTALELKNEGYELDFVNVDEFGNIDIDNLRDLIREDTRLVSIMGVNNEIGTIMDMENISKTIKSKNSNTYFHIDFVQGLNHVDFDFSKIGVDILSISSHKIHGPKGIGAIYIKDGVKIKEQIYGSNSENKYIPRTMPNELVMGFLKAIEIGSLENKGEIKELKKYFLDKLSNIPNVYVNSPENSSDSIVNVSFIGAKSEVLQNFLSSNNIFISVGSACSSNKKDSHVLKALNISKDRIESAIRVSFSKYNSKEEIDIFFKLLTPFLQMLRSIK;locus_tag=LOCUS_03040;note=WP_009895806.1 cysteine desulfurase family protein (Clostridioides difficile) [pid:37.7%25%2C q_cov:99.5%25%2C s_cov:98.4%25%2C Eval:6.2e-67],MGA_306
sequence1	MetaGeneAnnotator	CDS	344622	346613	.	+	0	ID=MGA_307;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIYILLTLMVGLNILGQEINISTKQKVEKEIIADTALINFKLRLEGKNLEKTRSINREKLNEFFIKLNKNGIKFDNIETNLISDKKFSKLKEEKENGYETNMTFSIKSDNINDPLIINQLEKISAIGYKMNKGVITFKLSASGKTKKDTYNKINEKIKILKKNIGRDFDFVFSDSYKKVERIDETYYEVENDFSLKLRDLSKINKLIEIASKLNVEIDNDIEYSVSNLKEKYLDMYEDAYVKARQKAKLLMMKDYEIKNVKSINENRYLVDELERKINIANDVAEYAMPVSAASYKNKRLELERAEVKTDDLEISIPKVKLQNELTVEFIASDGKEDIKYVNELNLYSSFSKDIKADIVDLEISINTKSNKSMIDSNNKNAKVFDKLKKLLLAAKISYETIENISFDTKKYESYEKKLGKVIKNEQQATFDIKVGKINTSNYQKFLELINNDKITMYTNNNELFFEIKESSKTVNEAYNLANKRYNNLKVELVKLGIDINLEQYYNTALIEREERNEKITNYITNNKLRIITKDISNLSLMISILRELGIEVSYINYGLDNIEKYKKVLYDELLNDLKNKEDRFNKLENIETKGFKSIKDNENEMYKYYDRDRLMFNRNNYEYNLNISNEAIIKSAKENPYKIFVKPYKANMVLEAIINLK;locus_tag=LOCUS_03050;note=MGA_307
sequence1	MetaGeneAnnotator	CDS	346790	347533	.	+	0	ID=MGA_308;product=pyruvate formate-lyase-activating protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903514.1;translation=MEKKNAGYIYSFESFGTKDGPGIRFVLFLQGCPLRCLYCHNVDTWNLKDHKRLMTPEEVFKEIMKVRGFIKTGGVTVSGGEPLLQSDFIIELFKLCKEAGIHTCIDTSGYIFTEKSKQAIELADLVMLDIKHIDQEKYKVLTSVNLAPTLKMADYLESINKPVWLRYVLVPGYSDDPKDLDNWAKYCSKFKNVERVDILPFHQMGTPKWDKMKKEYKLRDTPTPTKEQIKIAEEIFLKYDLPLYKVK;locus_tag=LOCUS_03060;gene=pflA;EC_number=1.97.1.4;note=WP_005903514.1 pyruvate formate-lyase-activating protein (Fusobacterium nucleatum) [pid:69.5%25%2C q_cov:96.8%25%2C s_cov:97.9%25%2C Eval:4.3e-99],MGA_308
sequence1	MetaGeneAnnotator	CDS	347671	351597	.	+	0	ID=MGA_309;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQKKILFLLLLSSLTYAEEEKNKISGEINFGINSAFGADGLEDLSRLIPSLVDTFKPSKNKDYGDFNIQDYSREQRDLELAIRYLSKNVELRKKLSVKLKENYVGLGLKVDIFGKKITHTKFLGNNEIEKLKLTLTSDNRYINGEINYYVKGESPEKIDIDKIDDEKTLKNKVVEYKVSVNPTPYRNLSLSLDFSGENRNINIGPTIRYRKGGTYVNASLIFNNEKRSYDLTDELDKIKHTAPGYDKIEYFKKWTLKEGYPKDNITKDDYNKEHADLGKAEVSGTKGTARILGHYSGSLYGDSPIRYIAKNIFDELHSNKNFKNLSDLIKIFEKDSAPSATDFITPALGLGEEIKNIKEFNDIVSRFSSKMYRRLGAGLNKKYSSIGVWTQIPKEFHYLLPGFHKNFDLSKIKGEELDADYLYNGLKKEEFPSKVNTRNRRALPSSVNDRYKLKEEWHYFDLDAKKYLVDEIVREYNIDKIKSLADSNVGGIISSLFTGGITSILNDLPKIQEIFKNPYEMRGIDIIRGIYFHQSEKERNVMKYEDILRANFSDVNLKENSTKYSTKIKFNIGHIGRNYKLGASLLLNDNVNVNAEKYGYVRRNDNIGVNATYKEGIIEFDSKLSLDLTKNYLYRKDNKEKHVYNTVSLNTDTYLGLNIPANEKLNVLLGLRHIGVYGWINPIESLDKNGKAIEFDIAKRDESNNPIGKDNNSIITSETTEKNLVDKEYERLKQENNGKSNKLKRDIHQSDYIQTEKSKTLKSRYELYNILSPRVTMVYRPYDNIIFSSHLELPISIRNSSPAGIRGIYTGEIRYLIDDSFKDIIYTKSNPIKFKTSGDIEAGLILGNDVGYYLSYKAMADMSFLRGDIKGNDKDIDFILSLNPLIVNLPIKPRLLIGKEGKEYVSKVGLEYSKGTEFTTILGMRKVLKTSKDILEEELKPNILEILKGRNTKEYERVKEKLDKESFKGELTYTFTPFIDIRKEEGNFRIRAKADSTKVVGKEVKNETVVGEFIERKNVEKYFAWNYQKNGWFYDEYNYFFDVKTEIIEEEKRRIRNLDNKIYNFEIDMDYEQEKGINFDLNLGIKYNEVKLAGLSENTKTTEIKSKVIHMLSNSSSPTITDDLINKPENEVKLKEGNLLESLKEYIRNKKDKPYDEKIYDKNRGWWSYLEIKEEKLKEILDFPNKLNKESKLEENIFLHTKKINANLDTYLGYKFKTSDRMKISIGMKHNLTAEYISINKIIIDQIKLFGSRKILFKNTLSPEVKMTYNLIDNLNVRVSTELPISFENKDFKGVKFNVRTGLEYRW;locus_tag=LOCUS_03070;note=MGA_309
sequence1	MetaGeneAnnotator	CDS	351660	352040	.	-	0	ID=MGA_310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNFLILIIIVLAYIKIYLGISKFFRLKYPFNSLEPLIVPILSFEIVTIILFMINPNFMNIAPAMIHFVGNSFTILHFNFYAIIYLIINILLIVTNLGLSDDFIPIHNFILLLHFIVSSMFTIVIM;locus_tag=LOCUS_03080;note=MGA_310
sequence1	MetaGeneAnnotator	CDS	352178	355747	.	+	0	ID=MGA_311;product=pyruvate:ferredoxin (flavodoxin) oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016958.1;translation=MERKPIMKVMDGNEAAAYISYAFTEVAAIYPITPSTNMAEYTDEWASKGEKNIFGTIPKIIEMQSEAGAAGVVHGSLQTGALTTTFTASQGLLLKLPNMYKISGELLPGVIHVAARSISTHALSIFGDHQDIYAARTTGWAMLASSSVQEVMDLAGVAHLSAIKSRVPFLHFFDGFRTSHEIQKIEKIEYNELEKLIDMEALKKFRMRSLTPDAPVTRGTAQNDDIFFQAREAQNVFYNNSVEIVKEYMREISKITGRDYRPYMYYGHKEARFVIVAMGSVCETIKETVDFLNARGEKVGMIKVSLYRPFSASDFLQELPESVKKIAVLDRTKEPGSYGEPLYLDVKSVLYGKENAPKVVGGRYGLSSKDVNPSHIISVFKNLVLKEPKDHFTVGIKDDVTFTSLPIYENPDLSKDNDISCLFFGLGSDGTVGANKSSVKIIGDLTDKYVQAYFSYDSKKSGGITRSHLRFSDKPITSTYLVSNPSFISCSNQTFLKKYDVLAGLRKKGIFLLNSIYEGEKLIDSLPKKIKRELALAKARFFVINANKIAYDLGMISKTNTILQSAFFKLIDIIDFNIVKDELKKHILKNYGLKGEDIVEKNFKMIELGERYIVEVEVKEEWAALVDEEEYLTLDYGNSLDKNSFMARIAEPMTALKGNELPVSIFDGYEDGTFENGEANFEKRAIAKYIPEWRPEHCIQCNQCSYVCPHAAIRPFLIDEKELENIPNSMDLLNPLGKGLERLRYRIQVSPLDCTGCTACAEVCPARTKALVMRPIEEQLEKGEKENADYLYNHVTYKDEYFNRETVIGSQFAKPLFEFSGACAGCGETPYIKLLTQMYGDRMMIANSTGCSSIYGGYAPSTPYTTNDKGQGPTWASSLFEDTAEYGYGMLQASEKLRIRVVELIDNLSKKENIDNSLREILEKYLEIVNNPNEIQKIKEELLNALEDNKEKHEEIEKILELKYYLNQRSIWVIGGDGWAYDIGFGGLDHVLGTGDNIKILVLDTEVYSNTGGQSSSSSPIASVAKFTNNGKRRKKKDLASVMMSYGDIYVAKISMGANQNQTLKALKEAQEYNGPAIVIAYSPCIAHGIKGGLGIANEHEKLATDVGYWPLLRFDPRRAKIGKNPLQLDSRKPNWDKYMDFLMSETRFTSLMKTNPEMATELFERNMNNSKEVWNYYQRLSKMDYKEE;locus_tag=LOCUS_03090;gene=nifJ;note=WP_011016958.1 pyruvate:ferredoxin (flavodoxin) oxidoreductase (Fusobacterium nucleatum) [pid:59.0%25%2C q_cov:99.5%25%2C s_cov:99.3%25%2C Eval:0.0e+00],MGA_311
sequence1	MetaGeneAnnotator	CDS	356120	362338	.	+	0	ID=MGA_312;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIEIKKFLKSSLKNKVSIDEKTVLRYIILGFAGLSAMSYGSWLAINDSTGTVGKSGVTSEDGENNSKNNVILAKYENTNNTSSSVVIGAGGKTYGKGSENVVIGFNANSEKSQSVVIGANTKSDLQNSVILGSKSYVYKDHFNIGNGVTEDDGQGVAIGNSVFSTAQATSIGNNTYAIGRSSIAIGNDDISAYENKVTQHDYDSYFKKLYEKIDKDGTLYGYGSNNKTDASKHKWSPTLAQGHGSIAIGSRSIAYADGSTALGTLAYALKNGSTAVGTLTRAEGEGAIAIGRETNVFANNAIAAGNKTLVLEEGGASYGLSAISGGKNSVAIGTDVYANVEYDYNNTNIELGGPQKAVSTGLFGKLSEYGKQDNDEEKRGLYGFDLNGVAKTLIGLGKDNPPNNVNGAQKGDYLKSGTYFNQYKSYIDGLESGLTNAKTKDTKKSTNSITIKTQTKNGVENIAKSSGKNAIVIGSKSGAFGDNGIALGRGSFSLKENSISIGSYSYTKEKNSIALGIASRALAEGSLTFGNGAGVDISGKNSMVYGHGSVAYAPNSIILGINSRVWGTDKDGDSIIIGNDANISELKDSNGTKLEGHNGKSVLALGNKTNATLDNSVALGYLSATDYQKTDLEKPGYTARGSYSIPTSAKVGVISVGKKGYERRIINVASGYRDSDAVNVAQLKTLEDRLDGATEETDDKVRYFSVNTDNDLNDIARKEVDYRNYVKLKTQMLTIDARKENGEQIKEENIKELKDKLTELENKNGTKDKATSLKNLGSPKDTKYKTNGSFNIDKYMEALEKAKQEDLSENRIKDILTMEEKNKIEEANYSNKGAKGKNSIAIGHSASTEQNAENAIAIGMGAKATSKNSIVLGSESKETADTNNAGYDITTKTSSNLMDPTWKPTHGEFAIGNDSTVTRRITGVAAGEKDTDAVNVAQLKQVSSGLLKDKDLKFAGDDGQEATVKLGETLNIKGEGTVANGTAVNNIKVTADKDSKTLTIGLSEDLKNISTIKTKKGTDNKETELSQTGIKVKGDNSKETEITSETVKINDDKDSSKLTSKGLEIGSKDGNDEKTNKLTKDSITLTDKSNGKEITNTITATSSEIKDKENNSVKIEANKITVSKGNDKVEITKDSLMGAITVGKDTNNSLIFGNGNNTSTMLKVGGKELTFTKAGEHIKISNVANGKDDNDAVNVSQLKEYATFLGGGAEFKNGTFTGPTYSLKAGSNTTTDHKNVGDALKALDDAIGASNTNIKALENKAITFQDNDGNEVKRKLGETLKIQGEGTVNGATAKDNIKVTKNDTDDGLDVKLAENLKNLNSIETKEEKGKKTKITTDGVEATNGTNKANLTADKLTFEAKDKSTDKTSTEVGKDGITLKDKSGNESVSIKTENNAGTITVKDKDGKDTIKINGEKGSITGLKDISPNEKDGSIAVNKNYVDSRIKAIANGPFEYESNDGKKVVRGEDGKLYKKEDLDKFYYDKTSSTYKPKNTTTNPQPTLTEVTNKDVTVNVMPKNGTPISIGNVASILGEEATTTSDKAAEKVKELIGNSDNSKNKVATGTDVLALAMAGINFSGNEGSGEKIHRNIGEQVTIKGEGTDGKNNFTSASGNIQVKSDKDKGELTVKLSDKLTNMTSFETKELDDNGNKSKVKLDKEGLTTINKTDDNKYIMSKAGPNGTEIGKYDVNPLMNGNNKAQPTTSAKYTLEGTTIKDDKGSSNLTSNTLTLKDKDDKQRITLDNKGDTPTISLSNKEGEETVKIDGGDGKDKEPTISFKVDKDKGLGVVKGLRDLTDNDPGHYAVNKRYVDNKLNVALGGVANAIAVASIPQINGKGHNIGASYGYYEGHSAFALGLSGINERGNVLYKANLSLNTRGNVGIGAGIGYQFGGDRVNTSKDNIIIDNSLDELDGINKKLEEQNNKLIAQNNKLNEKRGDLSKELKELKDKISVIEKIKMNEDDLYTLDGYRLGIHELTKSQEEMLKNIVRELNENYKNRKIYITGYTDNVSGENLNLELGLKRANVVAKKLRELGLDMSISIRKVSSSGYNNIVETNKSSNGRSSNRRVEIELR;locus_tag=LOCUS_03100;note=WP_001033221.1 trimeric autotransporter adhesin EhaG (Enterobacteriaceae) [pid:24.5%25%2C q_cov:46.0%25%2C s_cov:51.1%25%2C Eval:1.7e-30%2C partial hit],MGA_312
sequence1	MetaGeneAnnotator	CDS	362574	363131	.	-	0	ID=MGA_313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNRAGYYKTNFSGEIQMKKKIMVIIAILMNIISFSQVTRARFLSKDIEIQKFSTKNEKFSYNDDLIIPEIKIKENEPPILTIRFIEIGKLHGTKKIEISNNEKTVVLFILDGEAKFAYIDGVETEVVDKTIDLKDLENLLDMAISENKIKINFIGYKNISIIKDVNEREKEILKWTILNYIALL;locus_tag=LOCUS_03110;note=MGA_313
sequence1	MetaGeneAnnotator	CDS	363575	364024	.	+	0	ID=MGA_314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNRGITLIEVIVYISLILITFFISSKSYHVILEKQRVKKEIVEITSLFRKKQKESEIYGKYMSIYFDLEKKEIFFDENSFKLSDEFTYLSKNKVEKDNFERYFTENGNLNRGFNLLILNKSGNLLAEISVDNSNSISYPIITVKGIKI;locus_tag=LOCUS_03120;note=MGA_314
sequence1	MetaGeneAnnotator	CDS	364021	365097	.	+	0	ID=MGA_315;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYLYILSIFILFIFFNLNKFNVDNISYGLIYSLDVKVVGKNINVIKINDKYINKKVFLRNYDDLKYGRYTLSYVWDNKREGRILDVKPSYFNTYRQYILNVIEKSYENFETRLISKAIILGDKSDIDKDTLKTFNYLGIIHLIAISGLHIHLISSIFKNRYISFIFISIYSILIGFSASIKRVYLMKLLDFFDLNKSDVYMISIIVLLLSDIYNIFDQGFIYTFSSVFVLIYIYPLIKANNFSFIYLSLCIQIAITPFSYYFSNTIPIFTFLVNLLMIPIFTLLIEMVFINLILNIFGISFFSILIDKYYKLTMELIYMISRFKYISIEVENFNIYLYIFLIIFSSYILLNIWKEH;locus_tag=LOCUS_03130;note=MGA_315
sequence1	MetaGeneAnnotator	CDS	365221	365760	.	+	0	ID=MGA_316;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIEYIKPQNNNKESIYILVVVIVLLITSVLLINLTKDNNEDKLLSEKEISSFESFNSEENGIYSDLYNFSTDLEFFAKDMGYSSIESLENENIYPFVKDELWKKRGKIEWSLIVKKDHYYYLGISKDENIGNFLIESFIEENEVRTIIKYYKGKVLEKDILKISQMFYEVKPLTGNDI;locus_tag=LOCUS_03140;note=MGA_316
sequence1	MetaGeneAnnotator	CDS	365771	366463	.	+	0	ID=MGA_317;product=metal ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015842.1;translation=MKKGVELSLKNVSLNLGGNQILNNINVDIKSGEIHCLIGPNGGGKSSLIKCMLSLVPFEGEIKMSYDEDKVIGYVPQNLDFDKTLPITVEDFLAMTFQNRAAFFGMNKETRLKVDELLRKIDMYYKKDRMLGSLSGGELQRVLLAQALHPQPNLLILDEPFSGIDTVCENYFLGIIQKLKKEGVTIIWIHHNLKQVIDIADKVTCIKGTVMFSGVPREEIVEERIFDIFS;locus_tag=LOCUS_03150;note=WP_011015842.1 metal ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:58.8%25%2C q_cov:98.3%25%2C s_cov:98.7%25%2C Eval:1.1e-77],MGA_317
sequence1	MetaGeneAnnotator	CDS	366474	367367	.	+	0	ID=MGA_318;product=metal ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903855.1;translation=MEFLRNFLAELANSGLLPDFFAYGFVINSIIAAILIGPMLGGIGTMVVIKKMAFFSEAIGHAAIAGISIGILLGESYNSPYIMLFSYCIIFGLIINYTRNRTKMGTDTLIGIFLSISIALGAILLIYISGKVNSHMLETVLFGSILTVSDFDLKVLLFTNIILIILIMLWYNKMLLSSFNRNIAIAKNVNVVFLEYVFILIITIITVASVKIIGSALVEALLIIPAASAKNLSKSIRGFILLSIIFSTISCILGIIVPLSLSLSLPSGPAIILVASTIFFVTVVIKNITQKYREGGM;locus_tag=LOCUS_03160;note=WP_005903855.1 metal ABC transporter permease (Fusobacterium nucleatum) [pid:57.3%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:1.5e-94],MGA_318
sequence1	MetaGeneAnnotator	CDS	367367	368260	.	+	0	ID=MGA_319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILCILLTSISIFSNGDVNKKILTSNQVSYTLASNVTRGTDLKVVSVVDAYTDMFRQKNTFKNLNNKFEIFSDAGVVVTFSKILDDDFLYEQARRYNIGVIEIDLGYSYRDNNSLVLSKKINDDGRKNNNSWLDFSNIYKMIDILSSDLIDIYPEYKEEIVNNAENLKLEFLRIFNDFTESVYSSDVDLGIIYMGDSEMDFLFDSLELYHQNIPYNASFDLIKKTMKETGINKIVSSKTLSKATRDRLKRERIKFVKLDLGNIPVDNDGDEIMDADGYLEILKMNLDKLKNLLIK;locus_tag=LOCUS_03170;note=MGA_319
sequence1	MetaGeneAnnotator	CDS	368269	368724	.	+	0	ID=MGA_320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLVLFTIFSFVTFSHVVTVNVLEGSEKGEILIRAIDDSGNREANEEIYVLSDLAYDGDLEVFEKDGSEDFHGKLILFKGTLDNMGELVLPKPGVKRYIILIAGGGDHDFVGKGLALNSEDEQNWEKVLKKHDKILGEYLKIYKTRKF;locus_tag=LOCUS_03180;note=MGA_320
sequence1	MetaGeneAnnotator	CDS	368838	369518	.	+	0	ID=MGA_321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLLLSIILFIGLISFPAKINKLKSKNIKKSNVSIELKIAEPMHSVNDFDKFKITGPRYRIEANLGYYRLGSNSLRGVYRQENKKHDGYFGISFLVEYKAKIGEFFDITFGPKIIFQNDFEPIYYSNSQIILYMLNSLNLGAEIGFDYRLKENLTIYNSIEAFIGLKKLNVIDFKSNTNYSKYFKIQENLGIKIAYGVKIKDKYNVALYTSWGKGAIGIEAGYTF;locus_tag=LOCUS_03190;note=MGA_321
sequence1	MetaGeneAnnotator	CDS	369646	370047	.	+	0	ID=MGA_322;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIWKSLFGSDDLEEYENEQEAVDIQNENSGITLFKKENKKVKKEETNMKFIAVKPRNMNEASKFVNIVRNKFIVTFNIEALNREEGQRMLDILSGATHAMSGKTVFVSEKVFISVPEGVEVDNLIENGEEIE;locus_tag=LOCUS_03200;note=MGA_322
sequence1	MetaGeneAnnotator	CDS	370048	371346	.	+	0	ID=MGA_323;product=GTPase ObgE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015918.1;translation=MFIDESIITIKSGKGGDGAATFRREKFVQFGGPDGGDGGKGGDIIFIADPNINTLVDFKTVKMFEAEDGQRGSGARCKGASGKNCIIKVPVGTMIRDYETDKLLVDLDIPNEEIVLLKGGDGGRGNIHFKSSIRKAPKIAESGREGMELKIKLELKLLADVALVGYPSVGKSSFINKVSAANSKVAEYHFTTLKPKLGVVRMSDEESFVIADIPGLIEGAHEGVGLGDRFLKHIQRCKTIVHIIDFSGIEGREPIEDFEKINNELFKFSERLSKKEQIVFANKLDMVFDDREDKIKEFKNELIKRGIREENIVFGSIITGENLKELLTLVWNLVKTTEREIIEEEPDLDLILPDLIKKQEDWIVEKLDEEVYELKGQIVDNVLRKYVLLGEDGIIQFLQIMRKLGMEKILEKHGVVEGDTIIIAGYEFTYVQ;locus_tag=LOCUS_03210;gene=obgE;note=WP_011015918.1 GTPase ObgE (Fusobacterium nucleatum) [pid:56.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.9e-133],MGA_323
sequence1	MetaGeneAnnotator	CDS	371315	372226	.	+	0	ID=MGA_324;product=tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903969.1;translation=MQDMNLLMCNRAIVIAGPTGVGKTKLSIMLAKKINAEIISSDSMQIYKEMDIGTAKITESEKEGIIHHMLDIVNPDEDYSVGEYEKAVNKILNEENKKYILVGGTGLYLKSVTDGFSKLPEKEDNLRKKLEDKSIFELLSILKELDIEMYEKIDKDNKTRVVRAVEVCMLTGEKFSEITNSNIKGNTYSFLKVFLTRNRQELYDIIDKRIDIMLENGLLDEARKIYEKYPNVKAIGYKELFLYFSGEMSLEKTVALLKQKSRNYAKRQLTWFKKDKSYITYNLSEMSIEEVLLDILKKLKRYD;locus_tag=LOCUS_03220;gene=miaA;EC_number=2.5.1.75;note=WP_005903969.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Fusobacterium nucleatum) [pid:52.9%25%2C q_cov:96.4%25%2C s_cov:97.4%25%2C Eval:6.2e-80],MGA_324
sequence1	MetaGeneAnnotator	CDS	372227	372685	.	+	0	ID=MGA_325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIVDFLTKDRIVFGLKSETKEDIIKEMAQLFLKSNDVVKEGMFDIFIEDLIERENLTSTGMQDGIAIPHAKSPAINKLALALAIVPEGKDFDSFDEETSKLFFMIAAPEDTKKEHLDLLQKISKLSYEEEILEKLISTKDVMEVIKLLGII;locus_tag=LOCUS_03230;note=WP_003549797.1 fructose-specific PTS transporter subunit EIIC (Lactobacillus acidophilus) [pid:45.3%25%2C q_cov:97.4%25%2C s_cov:21.8%25%2C Eval:2.6e-25%2C partial hit],MGA_325
sequence1	MetaGeneAnnotator	CDS	372740	373384	.	+	0	ID=MGA_326;product=uridine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003700143.1;translation=MQKPIIIGISGGTGSGKTSVANSVLEDLMKNGNDVVLLEQDSYYKKNDHLSFSERVKLNYDHPNSIDFDLLEKHILMLSRNESIDKPIYNFSEHNRTKETERIDPKPIIIVEGILILAIEKIRNILDMKIFVDTDDDIRLLRRMERDIQERGRSFDNIKEQYINTVKPMHLEFVEPSKRYADVIIPRGKDNEVGIKMVSSRLKYLIRRSGNKEY;locus_tag=LOCUS_03240;gene=udk;EC_number=2.7.1.48;note=WP_003700143.1 uridine kinase (Ligilactobacillus) [pid:45.6%25%2C q_cov:96.3%25%2C s_cov:95.8%25%2C Eval:1.9e-54],MGA_326
sequence1	MetaGeneAnnotator	CDS	373536	374702	.	+	0	ID=MGA_327;product=ROK family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584031.1;translation=MKRLNETEYEILELISKNHCVTRMDLSLKLNISPAAISKTMKKLIEENLVLEDDTLSSKGGRPRKILKINSEYKKVIGINFGPGFIYISVSKIDGSIIETRKKKFQFKVSQKLITLLTDELDLLFERYNKNEILGIGLAVNGIVNTRDGSSIFSPHLKWSNIKLREYLENKFNLPVIVDNDVRAMLKAEIYKVKKLSNVMYIYIRDGIGSSIMINNKIFEGVNFCTGEIGHFIINPTSNSRCQCGKYGCLEAEYSSKMIRNKVIWELEKQGIELENNYITYKEIFEKASFGEEPYKAIVKEASIKIGSTVGNILNVLDIGNIIIAGDILHAKNIFLKNFEKGIDLMKTHSFESMVNIYTTEFGDDVEKYGAIFLVIMNLFSGQKIFTL;locus_tag=LOCUS_03250;note=WP_012584031.1 ROK family protein (Dictyoglomus turgidum) [pid:27.0%25%2C q_cov:94.3%25%2C s_cov:92.5%25%2C Eval:1.7e-35],MGA_327
sequence1	MetaGeneAnnotator	CDS	374749	375747	.	+	0	ID=MGA_328;product=galactose/glucose ABC transporter substrate-binding protein MglB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010869062.1;translation=MKKLLTMVLLLLAFVVSCGSKKDTSKITLGVTYYKFDDNFLAGMRNDMIQIAKEKYPNIELLNNDSQNSQSILNDQIEVLINKGVNVLVINLVDPTAGQSVIDKAKAANIPIILFNKDPGVDALNSYDKAWYVGTTPKDSGILQGQVIEKAWLANPAYDLNGDGVIQYVMLFGEPGQPDAEARTKYSIEYLNEKGIKTEELHKDIANWDAAQAKDKMDAWLSGPNANKIEVVIANNDGMALGAVESIKAVKKELPVFGVDAIQEALTLIEKGEMVGTVLQDATGQARAILELANNIANGKEPTEGTEWKLIDKAVRVPYVGVDKDNYKEFQK;locus_tag=LOCUS_03260;gene=mglB;note=WP_010869062.1 galactose/glucose ABC transporter substrate-binding protein MglB (Haemophilus) [pid:58.4%25%2C q_cov:98.5%25%2C s_cov:99.1%25%2C Eval:2.3e-107],MGA_328
sequence1	MetaGeneAnnotator	CDS	375807	377303	.	+	0	ID=MGA_329;product=galactose/methyl galactoside ABC transporter ATP-binding protein MglA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903113.1;translation=MTDNTFEYVLEMDNISKEFSGVKALDGVKLKIRPNTVHALMGENGAGKSTLMKCLFGIYKKDTGTIRLEGKIVDFLNSKNALEHGVSMVHQELNQVLQRNVMDNIWLGRYPVKYGMVDEKKMYEDTLKIFKNLDINIDPRAKVNTLSVSQMQMLEIAKAVSYDSKVLILDEPTSSLTENEVLHLFRIIKKLQGSGIGVVYISHKMEEIKEICDEITILRDGKWIATESVKELTTDQIINLMVGRDLSNRFPAKTSKPKDVIMSVEGLTNKDLRDVSFDLHKGEILGIAGLVGSKRTEIVETIFGLRGNYLGDIKIHDKVVKINSSNEARENGLALITEERRATGIFSMLDIRFNSIISNVKNYTKFGLINNNKVEKDTKWVIDSMKVKTPSQFQSIGKLSGGNQQKVIIGRWLLTNPEILMMDEPTRGIDVGAKFEIYQLMIELAKKDKGIIMISSEMPELLGITDRIIVMSNGRVAGIVNTKETTQEEILKLTAMYL;locus_tag=LOCUS_03270;gene=mglA;note=WP_005903113.1 galactose/methyl galactoside ABC transporter ATP-binding protein MglA (Fusobacterium nucleatum) [pid:70.8%25%2C q_cov:98.8%25%2C s_cov:99.2%25%2C Eval:1.8e-200],MGA_329
sequence1	MetaGeneAnnotator	CDS	377316	378404	.	+	0	ID=MGA_330;product=galactose/methyl galactoside ABC transporter permease MglC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000340252.1;translation=MNNEKIEKLKEMAMNKLKNSEIFIVLLLLFILIVLQDGTFLKFRNIINILTQSSVKMIIALGVAGIIVTQGTDLSAGRQIGISGLITASLLQSITNPNRVYKFAETYSPIKDAFSSIGRTLGFADEPGFTTIAITLILVIIIGSLIGLINGILVSKFNIVPFVATMGMMIIAYGANSLYFDYTGSTPIAGFSSNYSSIVGNIVIGDFYIPKLIIYATIAVIVMWIIWNKTVFGKNLFAVGGNPEAARVSGVNVTKTLITVYIISGIMYAIGGFLEAARIGSASNNLGNLYELDAIAACVVGGVSFSGGVGKISGVVSGVIIFTMINYGLTYIGVNPYWQYIIKGMIIITAVGIDMLKYKKKN;locus_tag=LOCUS_03280;gene=mglC;note=WP_000340252.1 galactose/methyl galactoside ABC transporter permease MglC (Vibrio) [pid:53.5%25%2C q_cov:98.3%25%2C s_cov:99.7%25%2C Eval:2.2e-101],MGA_330
sequence1	MetaGeneAnnotator	CDS	378423	379583	.	+	0	ID=MGA_331;product=galactokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016043.1;translation=MLKVIEYRFNELFGKNYESRYFAPGRVNLIGEHTDYNGGNVFPCAIDRGTIALVSKREDRKCRFYSENFKEKGVIEFDIDKLVNEAEHSWVNYPKGMFKAFIDKGYDINHGFDVLIYGDIPNGAGLSSSASVEMVIGIMLKNEFKFDIETIDIVKLGKLTENEFIGVNSGIMDQFAVAMGKKDKAILLDCNTLIYEYVPVMLENEYIIIANTNKRRGLADSKYNERRAECEKALEELQTKLNIKALGELSIDEFEANKDLIKCEIRQKRAKHAVYENQRTLMAKEALTKGDLKTFGRLMNESHISLRDDYEVTGIELDSLVEVAWEEEGIVGSRMTGAGFGGCTVSIVKKVNVDKFIENVGRKYFEKTGLKADFYIANVSEGARIL;locus_tag=LOCUS_03290;EC_number=2.7.1.6;note=WP_011016043.1 galactokinase (Fusobacterium nucleatum) [pid:63.1%25%2C q_cov:99.2%25%2C s_cov:99.0%25%2C Eval:1.6e-137],MGA_331
sequence1	MetaGeneAnnotator	CDS	379580	380632	.	+	0	ID=MGA_332;product=galactose mutarotase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011120973.1;translation=MINYSKNILGKLGNKEVTEHILKNSNGFEVHILNLGGIITKILVEDKDGVFRNVVLGYDFFEKYLNDPSYAGSIIGPTSGRIENGKYSIDGIEYVLEINSGEHANHGGTNSLTSKIFDVKPVVFNEYKGIELKYFWKHLDGNHHGNMTFYIRYMISEKSELLVELHAESDRNSYINLTNHSYFNLSGDLRVNGDEQLLKISANEFCPVKENMIPTGEKLKVDNTCFDLREYVKIKDGINVSHPQFDITRAYDHAFVLDKDKEVAVSLYSEYSGIKLNVETSQNCMVVYTGNFLDDAKAFGNLKENSRYLGVALEAQNYQNGINIENFDSKLTKPTMPYFEKIKYIFETVK;locus_tag=LOCUS_03300;note=WP_011120973.1 galactose mutarotase (Rhodopirellula baltica) [pid:33.7%25%2C q_cov:91.1%25%2C s_cov:84.9%25%2C Eval:1.2e-48],MGA_332
sequence1	MetaGeneAnnotator	CDS	380706	381686	.	+	0	ID=MGA_333;product=UDP-glucose 4-epimerase GalE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164920997.1;translation=MKNVLVIGGAGYIGSHTVKLLKQSGYNAIIYDNLSKGHKEVADILDVKLIIGDLGDREKLKEVFETEKIDVVMHFAAFIEVGESVTAPGKYYENNVAKVINLLNQMVESNIKNFVFSSTAATFGNPQSEKISETHPQNPINPYGSSKRMVEIILKDFEKAYGLKSVILRYFNAAGADMDGLIGESHSPESHLIPVILEAASGKRESIKIFGTDYETEDGTCIRDYIHVYDLAKVHIMGMEKMLDKNLSLEYNLGNGKGFSVRSIIDTVKKVTKKEFKVVEADRRPGDPAVLIADPTKLMTELKWVSEYSLDDIISSAWLWEQNRKY;locus_tag=LOCUS_03310;gene=galE;EC_number=5.1.3.2;note=WP_164920997.1 UDP-glucose 4-epimerase GalE (Thermosynechococcus vestitus) [pid:53.3%25%2C q_cov:98.5%25%2C s_cov:94.2%25%2C Eval:8.4e-94],MGA_333
sequence1	MetaGeneAnnotator	CDS	381695	383248	.	+	0	ID=MGA_334;product=UDP-glucose--hexose-1-phosphate uridylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016044.1;translation=MNICKEIEKIILFGFTNQMIEPIDEILVRNRILEILDIEDYPEFSLEERKELLKEVESLEYPTQILDNITKWAGENGRLKEDILVFHDLLNSKIMGQILPRTSTITNEFWNRYSVDKNSATEYFYNLSKKSNYIRTDRISKNVSYNFESKYGNLEITINLSKPEKDPKEIALARNLSTSSYPKSLLCKENEGYMGRINYPGRQNHRILKLNLTNEDWFFQYSPYIYYNEHSIVFSGDIRSMKIDRSTFTRLIEFVEMFPHYFIGSNADLPIVGGSILSHDHFQAGRHKFAMETAKISSKVSFENYKEIEAGILNWPLSVIRLSAKKEYKEKLIDLADKILQEWIKYNDYENDISSHTNGIRHNTITPIARMKDDKIELDLVLRNNKTTEEFPLGIFHPHEQHHSIKKENIGLIEVMGLAVLPGRLKHELEELDQLFMSLRNVDEVLDVMKENTDLQKHINWVKENFTDDMLKDDYFLDGLIEKTVGKTFEKVLEDCGVFKNNEVGRKGFIYFLSKIK;locus_tag=LOCUS_03320;note=WP_011016044.1 UDP-glucose--hexose-1-phosphate uridylyltransferase (Fusobacterium nucleatum) [pid:46.9%25%2C q_cov:99.8%25%2C s_cov:99.2%25%2C Eval:2.3e-137],MGA_334
sequence1	MetaGeneAnnotator	CDS	383267	384634	.	+	0	ID=MGA_335;product=L-cystine transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001094344.1;translation=MMNVIINVIIFLIVLFILNIFAAKRYSFSIRVFIALGLGLLFGVILHNVQDMETIIKSKEYFEVVSRGYIALLRMITMPLILVSITSAIINLNNTQEASKMGSLVIGVLLTTAAISSFVAEVVTLGFGIDASGILSSGMGEKEIRAIERVNERAGAVVQSLSDKVLSFIPSNPFADLTGVRPTSTIAVVVFSMFIGIAILGMKRRKPEQANLLIDIINASHEVVIRMVKMVLRLTPYGVFALMSIFASTSNYAEISVLIKFVIASYVALSLMFIIHLIIVTLFGFSPIIYIKKAITVLIFSFTSRTSAGAIPLTTKAQEDMGIDRGIANMAATFGTSIGQNGCAAIYPTMLALMLAPTLGINPFDPLFLIRVIIIVTISSLGVVGVGGGATFAAIIVLSTLGFPLEIVGLLITVEPLIDMGRTALNVNGSIVAGLLTSKMLNKVDKEKYNKLETE;locus_tag=LOCUS_03330;note=WP_001094344.1 L-cystine transporter (Bacillus) [pid:49.8%25%2C q_cov:97.6%25%2C s_cov:95.9%25%2C Eval:6.5e-117],MGA_335
sequence1	MetaGeneAnnotator	CDS	384737	386461	.	+	0	ID=MGA_336;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015730.1;translation=MRFSKSFIKTYKEVPKEAETISHQLMLRASMIKQLTRGVYTYLPLGLKVLKKIENIVREELNKINAQEILMPVLQPADLWQESGRWFSYGAELMRLHDRNNRDFVLGPTHEEVIVDLFRNIVTSYKDLPLNVYQIQTKFRDERRPRFGLMRGREFIMKDAYSFHLTQECLDREYNKVKEAYCKIFERCGLNFRAVDADTGSIGGSESHEFMVLASSGEDDILYSDKSDYAANVEKAVSVLEFEVDNSEELTKELVATPDIKTIEDVSKFLNVNTNKTIKSVLFKEEQEDKTFAYYIALIRGDLEINDVKVKNIFGAKIDLEMMNEKDLENLGFAGGYFSPLKEIETLSKVKIVIDESVKHMKNFVGGANVEGHHYINMNLSDIHYDLVGDIRKAQKGDKALDGGTLDIARGIEVGHIFKLGKKYSAAMNTKVLNDKGVAETVIMGCYGIGVSRVAAAAIEQNFDDFGIIWPKSIAPYLVDLILVNVKDEIAKEVSEKIYSDMLLNNIDVIYDDRDEKAGFKFKDADLIGIPLKVIVGKGAVNGMVEIKHRDGSFSGEIKVEDVISYIKEFEKNK;locus_tag=LOCUS_03340;EC_number=6.1.1.15;note=WP_011015730.1 proline--tRNA ligase (Fusobacterium nucleatum) [pid:56.2%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:3.9e-178],MGA_336
sequence1	MetaGeneAnnotator	CDS	386558	387274	.	+	0	ID=MGA_337;product=AzlC family ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287482.1;translation=MDLITKFNKQEFINGIKAANGIAIAFIPFGFALGLISNTYNVNSVVSSVMTFIIYSGASQVLLYKIFATGSFDIFSAIFAAAMLNFRYVLINIPMYKALSNYDRKSKSLVGVLFTDETVAFLALKKNKSLSFALGVNLLGYLSFTLSSVFGVILGNYIPIIVINSMKFVLYGTFLSLLISSLIMDNKNLKIVLITLFLKAIFMCIYPFNMIPQSLQIVLILSLTSLIYAMISIWRDIK;locus_tag=LOCUS_03350;note=WP_002287482.1 AzlC family ABC transporter permease (Enterococcus) [pid:24.8%25%2C q_cov:87.8%25%2C s_cov:88.9%25%2C Eval:1.3e-12],MGA_337
sequence1	MetaGeneAnnotator	CDS	387271	387591	.	+	0	ID=MGA_338;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIWLVIILAAIITQLFRISGEFIPIPRTKFMDRFLEAIPISVLVILFFPDIFVSIGSKMYEIMIAVFASLLIIIMTIKNVDLGKIMIIAVVTVVILNLILSKVLI;locus_tag=LOCUS_03360;note=MGA_338
sequence1	MetaGeneAnnotator	CDS	388030	388689	.	+	0	ID=MGA_339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLYRMYDRWAMQNKFKVEVLDILAGDEAGIKSITLSIKGDYAYGYLDCEKGVHRLVRISPFDSNARRHTSFAAVNVIPEIEDDVEVNLKKEDLKIDTYRASGAGGQHVNTTDSAVRITHIPTGIVVICQNERSQNKNLNSAMKVLRAKLFEIELKNRENEINDLKGVQSKIEWGSQIRSYVFQPYKMVKDHRTNHEENNVDKVMDGDINIFIDEYLKIR;locus_tag=LOCUS_03370;note=WP_096807630.1 peptide chain release factor 2 (Listeria monocytogenes) [pid:65.3%25%2C q_cov:100.0%25%2C s_cov:59.8%25%2C Eval:5.1e-82%2C partial hit],MGA_339
sequence1	MetaGeneAnnotator	CDS	388701	389237	.	+	0	ID=MGA_340;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000683351.1;translation=MEYKIEVAITEEEIANKVDEIAKKISSDFEGQSLLLVGLLRGSAVFLADIARKINYNKVDLTLDFMNVSSYGNSMQSSREVKILKDLEEDVNNRHILIIEDIVDTGRTLSEVKKMLLMRNPKSLKICTLLDKPERREVEIDVDYIGFKISDFFVVGYGIDYAQKHRTLPFIGQVVEIK;locus_tag=LOCUS_03380;gene=hpt;EC_number=2.4.2.8;note=WP_000683351.1 hypoxanthine phosphoribosyltransferase (Vibrio) [pid:55.6%25%2C q_cov:99.4%25%2C s_cov:98.9%25%2C Eval:5.0e-54],MGA_340
sequence1	MetaGeneAnnotator	CDS	389253	390539	.	+	0	ID=MGA_341;product=adenylosuccinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015701.1;translation=MNKYNTYVVVGTQWGDEGKGKIIDVLSPDADYVVRYQGGNNAGHTVIVGEEKFILHLLPSGVINNKGKCIIGSGVVVDIDVLLDEMSKLESRGKDLSNLYVDERTHIIMPYHVSIDKAKEEALGENKIGTTQRGIGPCYNDKISRNGIRMGDLLDFDRFRDKLEWNIKEKNDILEKYGYPTFSFEELLEKYRTLAEKMKNRIIDSVFEINQAVIEGKKVLFEGAQALMLDIDYGTYPYVTTSSPTAGGACTGSGVSPNKINRVLGVMKAYTTRVGEGPFPTELNNEIGENLRTIGHEFGATTGRPRRCGWLDLVIGKYATLINGLTDIVLTKLDVLTGLEVIKVAIAYDINGKVHQTYPGNLRKSQEIEIIYKEFPGWTEDITKIKNYEELPENCKRYVEFIESYLETPISLISVGPSREQNIYRGEF;locus_tag=LOCUS_03390;EC_number=6.3.4.4;note=WP_011015701.1 adenylosuccinate synthase (Fusobacterium nucleatum) [pid:58.5%25%2C q_cov:97.7%25%2C s_cov:98.4%25%2C Eval:5.2e-145],MGA_341
sequence1	MetaGeneAnnotator	CDS	390539	391969	.	+	0	ID=MGA_342;product=adenylosuccinate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016341.1;translation=MNKYVNPLCERYASEEMQYIFSPDFKFSTWRKLWVNLAKSEQELGLNFITDDMIKEMEENVYNIDYTLAAKYEKDLRHDVMAHVHTFGDLVPNARKIIHLGATSAYVGDNTDIIQIKEGLILVRKKLVSVIERMSKFAEKYKGLPTLGFTHFQAAQLTTVGKRASLWMQSLLYDLEELEFRLDNLKFRGAKGTTGTQASFKELFNDFDKVKKLDELVTEKAGFKVKQTLSSQTYDRKQDTQILQLLSNIAQSVHKITNDFRMLQHLKEIEEPFGKKQIGSSAMAYKRNPMRSERASSLAKFVMANAHNGELVAATQWFERTLDDSADKRLSIPQSFLAIDGILILLLNIFENTVVYEKIIKRNVDKELPFMATENIIMKAVENGMDRQDVHEIIRELSMEAAKNVKLEGLDNNLIELIKKDGRLDIIKDEIDNILEAEKFIGYSKEQIEEFLSNDIKPILEKYKDEIIKISTEIDK;locus_tag=LOCUS_03400;gene=purB;EC_number=4.3.2.2;note=WP_011016341.1 adenylosuccinate lyase (Fusobacterium nucleatum) [pid:65.2%25%2C q_cov:96.8%25%2C s_cov:96.6%25%2C Eval:7.8e-169],MGA_342
sequence1	MetaGeneAnnotator	CDS	391969	396366	.	+	0	ID=MGA_343;product=PolC-type DNA polymerase III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011166548.1;translation=MKKGYTILTVNEDSLGISNIKITEIALLRSKVNEVIINYDILNIENVFDDLLKIRRVLEKVSDTLYVKFNINTCNKDKFNIDEVINFTIKLIRDTNPYLSSILSNYTYTKLQDNIKLNLETIMNIGKNTEKNISKKIEKIINETFSQNLNFEIFFDVNTDQNVVNIQKQEQEEILEYEIPISYKPKEVKKPGIVNNKKYSKSKLKLSKFSDIEDLMVGQEIALRGDIFYFDLVATKSGKLKIVIYITDYENSVACTKFVNDKEEIKFKIGDSVELSGKYEKYFDDYSIIIRDIKVVEGEENKREDNASEKRIELAAHTNMSDMLSTIEPKSGKEGSLVNRAREFGHKAVAVTDYGVVHAFPFVATGIKEDEEFKVIYGMEAYMVDDSAPLIVKAKDVFIEEEEFVVFDIETTGFSPINDKIIEIGAVKLKNGKVLDRFSEFVNPQTIIPKKIVELTGINDNMVKDSDIIDKVMPRFLEFVKGTTLVAHNAKFDVGFISKKCEDLNLETDFSYIDTLEWSKILVDDVKRFNLDTLTKRFNIKLENHHRAVDDANATAELFKKLLSLVSANGVEKLTDVSEKLEKKPKIADTENITILVKNLAGLKRLYELVSISHLKYYGEKKPRILKTDLEKDRENFLISSSPIYSGRFNKGKLVSLYVRGISREEIMQQLDFYDYVQVYPRCIYNDAIEMEEISGYEFIEQMNKDFVQMAKEKNKLVVATGNVYYLDDRDKKSKAALLLGSDRAFRTYQIDTGNYYRTTEEMLDEFSYLNEEDIKDVVIYNTHKINDQIEKIKPIPDGDYKPVMEGAEDEVRNMTYNKAYELYGNPLPEAVETRVKRELDSIIGNGFAVLYLIAQKLVKKSVDNGYLVGSRGSVGSSLVAYFMGITEVNALYPHYRCEECKYFEMKDFEGSGVDLEEKNCPKCNSKLIRDGHSIPFEVFMGFKGDKTPDIDLNFSGEYQGEIHKYTKELFGDDYVFRAGTISGLAEKNAYTTAKKYFEENIKKDFEKEIYNKYKTSLKKLDPITRSSEEKKLEERINDYCNKNKAEIYRIATKCTGARKTTGQHPGGMIVVPDYKSIYDFTPVQYPANDESSGSITTHFDYHVMDQQLVKLDILGHDDPTTLRMLQDLTNVDIYNIPLTDPKVISIFNSTEALGVSEEQIGSKMGTNGIPEFGTDFVKKMLEDTLPTTFAELVRISGLSHGTDVWLNNAQEYVREGIATLSEVITVRDDIMNRLIDKGMDKSEAFNIMEFVRKGQPSKNKEKWEQYKEIMKASNIDEWYIESCEKIKYMFPKGHAVAYVMMAVRIAYFKVFYPLEFYTAFLNRKYADFSFEKMFGSIDEVKMNLQKLKELETRDLKVLDKKQIILLEILVEMHYRGIELLNIDIYKSDSMKFTIEDGKIRLPLIAMDQLGEVVARTIAEEREIKEFTSIEDLTKRCRIPKTVLETLKCFGCIGEMPESNQLTLF;locus_tag=LOCUS_03410;EC_number=2.7.7.7;note=WP_011166548.1 PolC-type DNA polymerase III (Mycoplasma mycoides) [pid:35.8%25%2C q_cov:96.2%25%2C s_cov:96.0%25%2C Eval:2.9e-234],MGA_343
sequence1	MetaGeneAnnotator	CDS	396432	398150	.	+	0	ID=MGA_344;product=arginine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016438.1;translation=MKILINQVLDILNENIKKSYDFELTELDIQNATKKEFGDYQTNFAMQKAKMLGKNPRELANDVVENFDGKGVISKVEVAGPGFINFFINTDLLNQETEKIGKENYEYGISNEKIVAIDYSSPNIAKRMHAGHLRSTIIGDALKRIYRELGFTVYGDNHIGDWGTQFGKLIVAYNNWLDKDAYEANAIEELERIYVLFSQKAKEDPTLEEKAREELRKVQAGDPVNYALWKEFITSSLREYDKVYKRLDIEFELFNGESFYNEMMPKVLEKLKEKEIAKQDQGALVVFFPNDELPPCIVQKKDNSFLYSTSDLATIVYRKDELNVDIAIYVVDERQSDHFKQVFKIAEMLGSPYNYDKYHTKFGIMRFGDGTIFSTRGGDVIRLEDILNKAKERVQEIVDEKNPELSQEEREYIAETVGVGAIKYFDLSQNRTSGITFTWDKVLSFEGNTGPYLQYSYVRIMSMLRKAKDLGIEFENSKFLVDGSDISDRNLVVSLHKLPTAVIKSYESNRPNLIAEYIYSLTKEFNSFYNAHQVIDKDNLELTKARLALCEKTALVIKKALSLLGIRTVDKM;locus_tag=LOCUS_03420;gene=argS;EC_number=6.1.1.19;note=WP_011016438.1 arginine--tRNA ligase (Fusobacterium nucleatum) [pid:53.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-170],MGA_344
sequence1	MetaGeneAnnotator	CDS	398230	398829	.	+	0	ID=MGA_345;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626801.1;translation=MLWKFDKSFKRRIIGVDEAGRGPLAGPVVAACVCINKYSKKLEELNDSKKLTDKKRRELFNYLTTNDDIKIGVGIVDEKVIDEINILNATFLAMNNALDNMEKDEKDLVLVDGNKEIKGYLGKQEAIVKGDGKSLSIAAASIIAKVTRDNIMEEYDLIYPGYEFAKHKGYGTKMHYECIKEKGRCYIHRLSFLKNLYKK;locus_tag=LOCUS_03430;EC_number=3.1.26.4;note=WP_201626801.1 ribonuclease HII (Fusobacterium canifelinum) [pid:56.3%25%2C q_cov:98.0%25%2C s_cov:92.0%25%2C Eval:1.1e-53],MGA_345
sequence1	MetaGeneAnnotator	CDS	398839	399072	.	+	0	ID=MGA_346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQKNCIICGSEEFCIKNVYLPVKDMKNNDDLTQRIFDLISKNELFYLRICRCCGKTELYNAAIVEEKFAKNNCKCPK;locus_tag=LOCUS_03440;note=MGA_346
sequence1	MetaGeneAnnotator	CDS	399223	399441	.	+	0	ID=MGA_347;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005899265.1;translation=MAKQDVLELEGEILEALPNAMFQVRLENGHVLLGHISGKMRMNYIKILPGDKVTVEVSPYDLSRGRIVYRKK;locus_tag=LOCUS_03450;gene=infA;note=WP_005899265.1 translation initiation factor IF-1 (Fusobacterium) [pid:83.3%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:1.0e-29],MGA_347
sequence1	MetaGeneAnnotator	CDS	399710	400075	.	+	0	ID=MGA_348;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903912.1;translation=MARIAGVDIPRNKRVEVSLTYIYGIGRSISNEILVKAGINRDTKVKDLTEEEVGKIRTIVEEYKIEGELRKEIRLNIKRLTDIKCYRGLRHRMGLPVRGQKTKTNARTRKGPAKMAVAKKK;locus_tag=LOCUS_03460;gene=rpsM;note=WP_005903912.1 30S ribosomal protein S13 (Fusobacterium nucleatum) [pid:73.7%25%2C q_cov:94.2%25%2C s_cov:96.6%25%2C Eval:1.4e-44],MGA_348
sequence1	MetaGeneAnnotator	CDS	400102	400485	.	+	0	ID=MGA_349;product=30S ribosomal protein S11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903915.1;translation=MAKKQVVKKKKLKNIPSGIAYIHSTFNNTVVTITDSEGKVVIWKSGGTSGFKGTKKGTPFAAQIAAEQAAQVAIENGMKKIEIKIKGPGSGREASIRSIQATELEVTRIVDITPVPHNGARPPKKKL;locus_tag=LOCUS_03470;gene=rpsK;note=WP_005903915.1 30S ribosomal protein S11 (Fusobacterium) [pid:67.7%25%2C q_cov:99.2%25%2C s_cov:98.4%25%2C Eval:5.9e-46],MGA_349
sequence1	MetaGeneAnnotator	CDS	400514	401101	.	+	0	ID=MGA_350;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903916.1;translation=MARDRQPILKKCRTLGLDPSILGVNKKSKRNIRPNANKKLTEYGTQLREKQKARFVYGVMEKQFYKLYEEATRKEGVTGELLLQYLERRLDNVIYRLGFGSTRRQARQIVSHGHILINGKRVDIASYRVKQGDVITLKEGSTELSIIKESVGQKSVPGWLSLEEGTLTAKVLENPTRDAVDFEINEAMIIEFYSR;locus_tag=LOCUS_03480;gene=rpsD;note=WP_005903916.1 30S ribosomal protein S4 (Fusobacterium) [pid:65.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-72],MGA_350
sequence1	MetaGeneAnnotator	CDS	401156	402124	.	+	0	ID=MGA_351;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023041516.1;translation=MLNIEKIAKNIKLTEEKIDQYSAKYTLEPLYRGYGNTIGNALRRVLLSSIPGSAIKGVRIDGVLNEFSMIEGVKEAVTDIVLNIKEIVVELDEPVEKRMKLSVVGPKVITAADIVPEAGITIVNPEQVIATITTKKAIDMEFIVDSGEGFVVSDEINTSGWEADFLAVDAIYTPIRKVSYQVEDTMVGRVTNYDKLTLTVTTDGSIDIHDALSYAVELINIHTKPFANIGTAMAKFRSEEELELEVSNDSYPSLVEDTRIEELGLTIRSYNCLKKVDINTVGELIRLTKEDLKKIKNLGNKSAKEIIEKMKEYGYEMSSSEE;locus_tag=LOCUS_03490;EC_number=2.7.7.6;note=WP_023041516.1 DNA-directed RNA polymerase subunit alpha (Fusobacterium nucleatum) [pid:59.2%25%2C q_cov:99.4%25%2C s_cov:98.8%25%2C Eval:1.9e-106],MGA_351
sequence1	MetaGeneAnnotator	CDS	402161	402538	.	+	0	ID=MGA_352;product=50S ribosomal protein L17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903918.1;translation=MNHRKSYRKLGRRSDHRLAMMKNMTISLINAEQIETTVTRAKELRKFVERMITLGKKYNLANDDKAKAVHIYRQVFAFLRNEEATAKVCKEIAPRYTERNGGYTRIIKTDVRRGDSAELAIIELV;locus_tag=LOCUS_03500;gene=rplQ;note=WP_005903918.1 50S ribosomal protein L17 (Fusobacterium) [pid:72.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-43],MGA_352
sequence1	MetaGeneAnnotator	CDS	402599	403258	.	+	0	ID=MGA_353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKSFFFILIGIIINKGGLYFLIKVNNIMKKLLSSMILIWGGLISFSNNITGPRHRIEISAGFINDRQNATMGNNIFISNSISYIPEWKIQVNKKFDVTFGPKVVLNFSNFITVSNGTAKAASSSNNANPVTITPSLILGGELDFNYSVKENLKIYTGLEVGTGIGFQISTVGSNVQNPEFRTSSKIALGVKINEKYNIAIYTADIKGLLGLEAGYTF;locus_tag=LOCUS_03510;note=MGA_353
sequence1	MetaGeneAnnotator	CDS	403275	404210	.	+	0	ID=MGA_354;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLSIILLAGLISFPAKLNSSKYGTRKYTTTSTNTKNVKNKSNNIFSGENNNEDNTNKVDIEKIEIKEQDTNSVLSNNEKIEKITVSEDIEKIEIKEQDTIYVSTNNEKVKEDINIEQTKEDINIEKTDKILNKVKLTGPRYRLELALGAVGIDENVKKDEYFSTSVAFLTEWKAKVNDKIDVSFGPKLTLNVATKILKTNNNSSQMSSSSSSGKSNKDYTIIPNLILGGEGNFNYRIEEDIKVYTGLEVGLGIGPEIKPSNGSTEVGYSFVFIGKMSVGIKIKDKYNIGIYTGNVKGILGIEAGYTF;locus_tag=LOCUS_03520;note=MGA_354
sequence1	MetaGeneAnnotator	CDS	404272	404829	.	+	0	ID=MGA_355;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENSFSSNKKYHKNKMTISRSDSKNKKEETGTLNSSKITGPRYRLEGALGINTIKSPDFFQAIAILPEWKSQISQKFDITFGPKLTLFLSETKSSEKLIVRGNAVLGIESNFNFRVKENIKVYIGLEAGVGGGIKKNVNDAVEKDVSLIIKAALGSKINDKYNIAIYSAIPDKGLVGIEFGYTFK;locus_tag=LOCUS_03530;note=MGA_355
sequence1	MetaGeneAnnotator	CDS	404878	405567	.	+	0	ID=MGA_356;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILLLTVGEISFSAPESTQRTRRRNTNTLRNRNQNRRMVDANNSTNKNSSNNVQQRTTKSNVVVEREKNNNVKQVMLPSKSNLTGPRYRLEGAISAVPTNKWATFYQVISFLPEWKYQINRRVDITFGPKVSFVLTEIKEYQFIAGFVGAEADINFKVNDALKAYVALEYGVGLEWWIKYHDRSNKFSEKLRLIKGTFGFKINDKYNVGIYSSLEGKGRLGVEFGYTFK;locus_tag=LOCUS_03540;note=MGA_356
sequence1	MetaGeneAnnotator	CDS	405694	406911	.	+	0	ID=MGA_357;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYFNDNTFIQSNRHVSIVTKLVDEIGEKSIHTTHKFAFIVSGLGKIKLNEIEYKVKENSLICINPWSTTEITEVNVSMNILIFSYNNSYITRIVNQIRPEYIDIFNSIEKLSKIDLNGRAGTKIKKILLEIRNEIGDDNILESIDKFIAGAYSEIFIISKFLELFVVLSRNSKKLKNEENNYSEAQMLIKYIHAHSNEKLTINKLAVIFFISESTVRRHIEEHTGLTFNELLYKIRLAKTEELLLYTNMSLDEIANVSGFVDGSHITKIWNMKKNMTPTSYRNMYRDSFTGFNENDKRIVFEIINYINNEYMQDIKIEQLSKKYDISEIKINKLLLSYVDRNFSTYLNHIRINKACELLINTDTPIIDICFEVGYNNIKSFNNNFKKNKNMTPTCFREYKKSDI;locus_tag=LOCUS_03550;note=WP_003436119.1 response regulator (Clostridioides difficile) [pid:33.3%25%2C q_cov:27.4%25%2C s_cov:47.8%25%2C Eval:4.9e-12%2C partial hit],MGA_357
sequence1	MetaGeneAnnotator	CDS	406974	407672	.	+	0	ID=MGA_358;product=23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015648.1;translation=MEKIKGINPVIEILKSQTTIEKLEIYKGINKGHIKQLLELASKRNLKIFYTDKRDDNSQGVVAYISEYDYYIDFSAFLEKELMKDESTIVILDQIQDPRNFGAIIRSCECFGVSGIIMQDRNNVKVTETVVKSSTGAIEHVDIVQVTNIADSIEKLQKYGYFVYGAEANGEKFYYEEKYPKKKALVLGSEGKGMRKRVRESCDSILKIHLKGEINSLNVSVAAGILLSEMSK;locus_tag=LOCUS_03560;gene=rlmB;note=WP_011015648.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Fusobacterium nucleatum) [pid:56.7%25%2C q_cov:99.1%25%2C s_cov:98.7%25%2C Eval:5.1e-67],MGA_358
sequence1	MetaGeneAnnotator	CDS	407681	410278	.	+	0	ID=MGA_359;product=leucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015646.1;translation=MAKEYIAKEVEQKWQEIWEKNKVFKTENKVKGKENYYTLEMFAYPSGKLHAGHLRNYTIGDAIARYKKMKGFNVLHTFGWDSFGLPAENAAIDNGASPAIWTAQNIGNMKRQLKLMGLSYDWDRELATYKKEYYKFNQKFFIEMYKKGLVYKRKSYVNWCPDCNTVLANEQVEDGKCWRHGKTSVIQKELSQWYFKITDYAEELLTGHEELKGYWPEQVLAMQKNWIGKSSGTEIIFTLEYDGKEIEIPVFTTRVDTIYGVTYISIAPELPLVSEIVLKEKPELKSLIDEMINEDKISREAQDKEKRGVFTGLYVKHPLTNEMIPVYIANYVLMDYGTGAVMGVPAHDERDFSFAKKYGLNAKAVIKAKNPEDDFNGNKTFLGKGELINSDEFNGIHNIEAKEKIAEKLEKIGKGHKTVNYRLHDWLISRQRYWGTPIPVIYDEDGNVYLDENLPVELPTDIDFGVKGNPIETSKTFKEVILPNGKKGYRETDTMDTFVDSSWYYLRYLDPSNENLAFLKEDADNYTPVDQYIGGIEHAVMHLLYARFFHKVFRDLGYLSTNEPFKRLLTQGMVLDYSYYSNNERRYLHKEEVEIKDGKAFNIKTGEELVSKLEKMSKSKNNGVDPEKIIQEFGADAARIFTLFAAPPEKELEWNANGVVGAYRFINRIYLMVQECLDILIEDYSEIDLSKRSKEDENLQRKTHQTIKRVTDSMEDNFHFNTAIAGSMELINELTTYKQNVLDVNNKSSESNKVFKESMISLILMMSPFAPHLAEEIWQLCKMDGYIFNASWPTYIEELTHVSEITMVVQVNGKVRGEFETNINVSEEEIVKKALSNENVQRNIEGKEIIKTIVVPKKLVNIVVR;locus_tag=LOCUS_03570;gene=leuS;EC_number=6.1.1.4;note=WP_011015646.1 leucine--tRNA ligase (Fusobacterium nucleatum) [pid:58.8%25%2C q_cov:99.8%25%2C s_cov:99.7%25%2C Eval:3.7e-303],MGA_359
sequence1	MetaGeneAnnotator	CDS	410341	411213	.	+	0	ID=MGA_360;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003439388.1;translation=MKNLKSELILFVVAIIWGTGFIATKIAVDSGMETYNILFVRFLISTILLYIMLKIKKIKIEKSAYVSGFILGSILVLAYMMQTFGLYYTTPAKNSILTGLCVIFVPYISHLIYKVRVDRYTFIASILAFIGIYMLSGNFLESIEGFNKGDFYTVICAVLFAFHIVVTGYYVNKINTVALAYTQFLIATLLSLILATYYGHLKVISTFGILSSLYMGVFCTFVAYTLQIVGQKRVNSSTAAVILSLEVVFATILSIILGYDKFHIIILFGSLLIFLGIIISETKLDFIFKK;locus_tag=LOCUS_03580;note=WP_003439388.1 DMT family transporter (Clostridioides difficile) [pid:37.7%25%2C q_cov:100.0%25%2C s_cov:92.0%25%2C Eval:2.0e-48],MGA_360
sequence1	MetaGeneAnnotator	CDS	411353	412915	.	+	0	ID=MGA_361;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002681273.1;translation=MKKYIKEEKFKFISSVILMLVISIGTIYSIYIRSNITDLILKKDYYVYRYIIILLVLIVLIEKLNTLLRLNNVSLIKKWKLKLGNNISENIMKMGYDKYKEKSVGTYISWYTGELPLVSSYIFENSVAIINHITLSLVSLLIMFYINIYIGILAVILLLMLYLIGGIFGRKISEAYQGYAKINSKFNNILQDFLLGYDLLKNYNNLTFLKKNINYGQNELENQHYKIKKLSAYGNLVSQGTKKLFETIMFVMTGYLVLNDKLTIGMLVVTPTILSVFLSSTMDIFDVVLQYLGSKLMFNKLNEIIESKTYKYPILENNINLENISFKYDDLDVIKNLSLEFKKDKKYAIVGKSGSGKSTLLKLIIGRLKENEGQILIDNKKIENGDIDFSNQIAYVSQDNYMFDLSVRNNINLDNNYTDDEINEILKEVKVYDVINSKKDGLDTNINEFSGGEKQRISLARALIRKTPVIILDEATSALDKNTTIEIENILLSKKDKTIILISHNLSEDIKDKFDEVYSI;locus_tag=LOCUS_03590;note=WP_002681273.1 ABC transporter ATP-binding protein (Treponema denticola) [pid:29.9%25%2C q_cov:87.7%25%2C s_cov:87.7%25%2C Eval:4.3e-59],MGA_361
sequence1	MetaGeneAnnotator	CDS	412994	414274	.	+	0	ID=MGA_362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEERELQSLRRKAKKLKIQLERHEDFMDLFEYIRKNICILNPIILDVETTGIRKNDEILQLSIIDIMGNVVFDKYMKPKYVNDWDDAFKIHNISHEMVKNKKYISYYKKDIEKILKKHKLIIGYEVNSDIAFLRRAGIELKSNIVLDIAYLFSLLFENENLIDRKIRPSLLDAAKFYNLDFNAHDALSDCIATLHCFKSILVEKKEKLEFKYDVQVMKFLEEENKVEEKTSKLTKLARKYVKLFENVGNKIILDLETTGIRENDEIIQLSIIDIKGEKLFNEYFKPINVTEWEEAYKIHNIGKEMLEDKLTIEEYREKIQNILDSTDYMIGYGIDFDYKLLQRQGFNVEHIKKVDVSDYFKYIYRKIFNDPKLKRPKLIECSNYYGFKDRGFHNSLTDCFATLVSYKGIYKYMLEELSDRNECENN;locus_tag=LOCUS_03600;note=MGA_362
sequence1	MetaGeneAnnotator	CDS	414246	415028	.	+	0	ID=MGA_363;product=NAD(+)/NADH kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016268.1;translation=MIEMNVKIIKKDTLSSDEIKYFIEYLNEKKIEVVDDISLADVLITFGGDGTLLSTVEYLRIKNIPVFSINYGSIGYMTKISSKNAITSFEKYINGEYKIDHRKFLEVSFKNKIYYGLNELSILKFAINSELINVRVEQDEKLINVYKADGIIVSTPTGSTAYSLSAGGPILDPSLDAICITPLASQSLTARSIVINGNNTLKFSAFGRSEYVGLNIDGNLHFKLYPEDVVYAKLSDMGIDLIYVDNLNYYNILKQKLHWT;locus_tag=LOCUS_03610;note=WP_011016268.1 NAD(+)/NADH kinase (Fusobacterium) [pid:37.6%25%2C q_cov:99.6%25%2C s_cov:98.1%25%2C Eval:3.5e-46],MGA_363
sequence1	MetaGeneAnnotator	CDS	415039	416667	.	+	0	ID=MGA_364;product=DNA repair protein RecN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016269.1;translation=MLKELKIENLAIIDEIDINLEKGLTVLTGETGAGKSIILDGLSLIIGEKANKEMIGKNSEKVTVEAVFNLDEEQIEKLNDLDYEFNDELIISREFGIDNKVRVNNKRFTLSNLKEISSNVLDLVGQHDHQYLLNSNYHLYLLDKFLDKDSLKIKSNMKEYISKIDTLNEEIEIIKKEKSEVIEKRNLYEYIVDEIFKHNLEIDEDEELENEYNELFNSGIITDKLTEILDILDFSSFKKVKKDLEKLSEYSNKYDNLTERFNNVYEELNDMVDELSSSLTSVDNNPYRLEEVNDRLNIIKKLKIKYGSSIKEILEYGENIKHKLELIESSDETLYNKEKELEENIKGYTKLSKKLSILRKDKAKTLKDSVMKELKELNMPQVVFDIEFTEIDRININGNDGVKFLISTNKGEKLKDLSKIASGGEISRIMLALKIVFSKVDHISCLIFDEIDTGISGETVIKIANKLKELSNNVQIICVTHSPQIAAKANNQFLIYKESDEKNTRTKIKKLDTKERVREIARILSGDNITKASLEIAKEMMK;locus_tag=LOCUS_03620;gene=recN;note=WP_011016269.1 DNA repair protein RecN (Fusobacterium nucleatum) [pid:43.1%25%2C q_cov:99.8%25%2C s_cov:98.6%25%2C Eval:1.0e-119],MGA_364
sequence1	MetaGeneAnnotator	CDS	416682	418238	.	+	0	ID=MGA_365;product=sodium:solute symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003100479.1;translation=MTTTEIEVFFIKRYGPFPQIYKEGDEMLNFNWMLDGSIVGLYILISLIVGLLIRKYVKNVDDFLVAGRSVDLYVGMASLAATEFGIITCMAAAQLGYKYGFSGATVGLLMAIIMFTVGKTGFCIEPLRKAGVVTIPEFFEKKFGKKVRWATGVVIVLGGLLNMGVFLRTGGEFLVYVAGLNPRYLEITMTILLLIVALYTIFGGMLSVLVTDYMQFLLMSVGLTLTTFIVFYKIGWNRLFDTVIEKYGEGGLNPFLNPNLGWQYVLYTALVLSATVLTWQTMVSRVLSAKNEKVAKKMYTRTSFFYIVRSLIPVIWGVTALTLISLESVGGAPIKAMPKMLSVLLPSGVIGILVAAMLAADMSTDSSYLLGWASVIYNDILIIIHKNSWKEKKAIFVNRVLVALIGVFLLLYGLWYPLKSDLWVYMTLTATIYSVSVSTLLIAACYWEKANEWGAYAAIIIGALTPISFLVAQQVEVLKPYADKIGPYYSGIASFVFTWIAMIIGSYLKNTFSKKEVK;locus_tag=LOCUS_03630;note=WP_003100479.1 sodium:solute symporter (Pseudomonas) [pid:27.0%25%2C q_cov:89.4%25%2C s_cov:96.1%25%2C Eval:5.6e-35],MGA_365
sequence1	MetaGeneAnnotator	CDS	418239	418379	.	+	0	ID=MGA_366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKALIIFWKILIVFGLVWYINTIIIVGIKGFKNIKEMLEAVSDEKK;locus_tag=LOCUS_03640;note=MGA_366
sequence1	MetaGeneAnnotator	CDS	418366	419841	.	+	0	ID=MGA_367;product=sulfatase-like hydrolase/transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015776859.1;translation=MKKNNILFIIADDLGAWALGCYGNKDAITPNIDMLAEKGKIFENFFCVSPVCSPARASIFTGRIPSQHGIHDWLDEWENGTTTEDYLKGQSTFVDVLSKNNYICCMSGKWHMGLADVPQKGFHYWYSHQKGGGPYYMAPMYKDGKLIHEEEYITDKITEYAIDFLDDVYKEDKPFFLNVNYTAPHSPWDKKNHKEEILKLYEGCKFKSCPRDPYHPWKISETFEGNEEERIQILKGYFAALTSMDFGIGEIIKKLEEKDMLKNTLIIFTSDNGMNMGHHGIFGKGNGTSPLNMYDSSVKVPFIIYKKDETEAEKVNNLLSHYDVRSTLLEYLGLDDVKDENIDYPGNSFSEILNNKKIDDDKNVVIYDEYGPTRMIRNEKYKYVHRYPDGPHEFYNLIEDVEEKVNEINNEKYSKIIDQMRKDLEIWFLNYVNKEIDGATLPIYGAGQKKFAGKWGGYAKDTFGRYHSKFIFSSDAKLNEDEKIEIENKIQ;locus_tag=LOCUS_03650;note=WP_015776859.1 sulfatase-like hydrolase/transferase (Brachybacterium faecium) [pid:38.7%25%2C q_cov:90.4%25%2C s_cov:96.3%25%2C Eval:2.0e-87],MGA_367
sequence1	MetaGeneAnnotator	CDS	419858	420721	.	+	0	ID=MGA_368;product=site-specific tyrosine recombinase XerD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000390080.1;translation=MVEVNSFLDYLKFEKGNADKTIESYRNDLYTFFKKVNKKVVDITSDDIYQYIEKLKEKYTYNTVIRKISSIKSFFKFCYIEKIIKNDPANKIHNLKKEKRLPNALSVEEINSIIQSFNHEPVNRRNQLIVKFLVATGARISEVINLEIKDIENSDFEFAKLYGKGSKYRFVPIYLELEKEIKEYIREIRPKIKGSEKSYLLFPGIRRENFWKILNKHAQNVGIEKKIHPHLFRHSTATMMIENGADIRIVQELLGHASITTTEVYTHVEKSKLREIYKKVKIGEEDE;locus_tag=LOCUS_03660;gene=xerD;note=WP_000390080.1 site-specific tyrosine recombinase XerD (Bacillus) [pid:35.6%25%2C q_cov:96.5%25%2C s_cov:97.3%25%2C Eval:2.9e-47],MGA_368
sequence1	MetaGeneAnnotator	CDS	420714	421118	.	+	0	ID=MGA_369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEIFKKYSFEMLILTMFITTGVIFKFKLLGEKNIFLLSILTTSYILLNSCILKIVYKSSFPRLIVNIMFAVDILILFMGTINLLYIIFYHLIYLLFLLVIYKTEGIVRVKRGVIFYILYGIFKIVFVYFLLA;locus_tag=LOCUS_03670;note=MGA_369
sequence1	MetaGeneAnnotator	CDS	421156	421719	.	+	0	ID=MGA_370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILENDILKKIEKVKDKIINARIEKNKYLGEYKERVIVALTKQELEEKFIYPEVIKALRKKIASKMIVSRDVDLSKLKKYIYLAKQMKISCKMIDGISYTGEVGLVVIADDEVKNRSEDPVVLSFKERILNSGLDIVFYQAMGKKISKKYYEIIKEKLPELVDYYEPIGFFDKITGTICPITQKLEN;locus_tag=LOCUS_03680;note=WP_003723145.1 DUF1694 domain-containing protein (Listeria monocytogenes) [pid:31.1%25%2C q_cov:57.2%25%2C s_cov:83.2%25%2C Eval:4.6e-08%2C partial hit],MGA_370
sequence1	MetaGeneAnnotator	CDS	421730	422998	.	+	0	ID=MGA_371;product=UDP-N-acetylglucosamine 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015649.1;translation=MVEGFKIEGKRPLNGIIEVSGAKNAALPIIIATLIEKGEHILRNVPDLRDIRILFQLLEDFGMKVEKLDSNSYKIINDGFKRNEASYEIVKQMRASFLVMGPMVANLQESVVSLPGGCAIGSRPVDIHLKGFEALGAEITQIRGYIHVVAENLKGADIALTFPSVGATQNLLMAAVKISGTTRIINAAKEPEIVDLGNYLIKMGAKIEGLGTNTITIEGVEKLHAVEYSIMPDRIEAGTYVIASIVTDGDLKIKNANIEDLGVFKHQLEAMGVKFEKNGDILTVKGKVKDLKPTRIVTMPHPGFPTDMQAQMMLLLSLIKGHSEVEETVFENRFMHVPELNRMGADINIRHGIANVEGVENLYGTNVMASDLRAGAALVVAGLIADGDTILSRIYHIDRGYDKLEEKLNKVGAKIERIKLEV;locus_tag=LOCUS_03690;gene=murA;EC_number=2.5.1.7;note=WP_011015649.1 UDP-N-acetylglucosamine 1-carboxyvinyltransferase (Fusobacterium nucleatum) [pid:60.0%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.3e-140],MGA_371
sequence1	MetaGeneAnnotator	CDS	423328	429549	.	+	0	ID=MGA_372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDIKVQKLKSFLKNKVSINDKLVIRYFILGIAGLSAMSYGAYLAIDDSKGTIGKSGKSSEDGENNSKNNVILAKYENTNNTSSSVVIGAGGKTYGKGSENVVIGFNTKSEGKQSVVIGANTKSELERSVILGNNSYVYKDYFKINNGVNDGDGQGVAIGNSVYSTGQATSIGNNTYAIGRSSIAIGNDDITEYKQSITDHDYKEYFKQLYEKIDENGNIYGYAKNGNTSSDNKKKNIYSPTLAQGHGSIAIGSRSIAYADGSTALGTLAFALKKGSTAVGTLTRAEGEGAIAIGRETNVFANNAIASGNKTLVLEEGGAAYGLSAISGGQNSIAIGTEVYSNVEYDYEGKIKLKSNSKDVNTNLFGMLNDYGDVASKEDKRGLYGFDLNGVAKTILGLGTDTPLSNVMDAKKETYLKSGDYFIGVKSYIDGIEKAFVEAKDDKDVKTDILKIKKEIKNGVKDIAKSSGKNAIVVGSKSGAFGDNGIALGRGSFSLKENSISIGSYSFTKEKNSIALGIAARALGEGSIAFGNGSGVDIDGKNSMVYGHGSVAYAPNSIILGVNSRVWGTSKDGDSIIIGNDANISELKDSSNKKIEGHNGKSVLALGNQTNATLDNSVALGYLSATDYEKSDLDKSGYTARGSYSIPSSAKVGVISVGKKGYERRIINVASGYRDSDAVNVAQLKTLEDRLDGVTEETDDKVRYFSVNTDNDLKDIARKEVDYRNYVKLKTQMLTIDARKKSGENINDDSVKELKDKVEDLEKKEKIKEHADKIKALSIDDSKYSPNGKFDIDKYLQDLEKAKQEDSSDDKINSILKDDEKKKIEEANYSNKGAKGKNSIAIGHSASTDKTAENAIAIGNGTKATIKDSIVLGSGSESTADVNKAGYDITNSNSNSGAAWKPTHGEFAIGKDSTITRRITGVAAGEKDTDAVNVAQLKQLASGLLKDKELIFVGNTGGDVKVKIGETLNIKGEGTVANGTAANNLKVTADEKTKTLTIGLAENLVGINTITTKKSANNEQTVLSQTGLKVTGKDSKETLVTSENVEVKNGTDKTTLSASGLKITDKDGKDDKQTNELTKTSITLKDKSNNKEVTNTITADKSEITNNTGDKTTITADKITVANGTDKVEITKNSLLGATTIGKDANNSLIFGNGNGDNTSTMLKVGGKELTFTKAGEHIKISNVANGKDDNDAVNVSQLKEYAKALGGNAKFENGNLVGPIYKLKAGNDNTTDYKDVGKALESLDNALTTSNNNIKTLEGKAITFQGNGNTDKVERKLGETLKIQGEGTVTGNTAANNIKVTKNDSNDGLDVKLTENLKNLNSIETKDNNGNKTKITTEGIEATNGTDKANLAADKLTFGPKESTSADKTSTTIEKSGITVKNKEGKDSVTIKSGDNGGTIEVKSKDGNSSIKIDGEKGSITGLKDIDPNETDGSIAVNKNYVDSKIKAIANGPFEYESNGEKVVRGQDNKLYKESDLNKHYYDEKEKKYKPKNNNNGMNGPKALENKDVTVNVMPKNGTPISIGNVASILGEEATTTSDKAAEKVKELIGNSDNSKNKVATGTDILALAKAGISFEGNTGSGEKIHRNLGEQVTIKGEGTDNKDNFTSASGNIQVKSDKAKSELTVKLSDKLTNMTSFETKELDDNGNKSKVKLDKEGLTTINKTDDNKYIMSKTGPNGTEIGKYDNDPLMNNNTSPTNSAKYTLEGTTIKDDKGSSNLTSNTLTLKDKDNKQGITLDNKAETPTISLSNNKGEETVKIYGGNGKDKESSISFKVDNDKGLGVVKGLRDLTDNDPGHYAVNKRYVDNKLNGALGGVANAIAVASIPQINGKGHNIGASYGYYEGHSAFALGLSGINERGNVLYKANLSLNTRGNVGIGAGIGYQFGGDDVRREEVIIENNPSNDIRDRLIEQNEKLINQNKKLEEDNDRLRRENDRIGDEIKELRERIKAIEKIKMNEDDLYTLDGYRLGIHELTKSQEEMLMNIVRELNENYKNRKIYITGYTDNVSGENLNLELGLKRANVVAKKLRELGLDMSISIRKVSSSGYNNIVETNKSSNGRSSNRRVEIELR;locus_tag=LOCUS_03700;note=WP_011069560.1 YadA family autotransporter adhesin (Shigella flexneri) [pid:24.4%25%2C q_cov:32.5%25%2C s_cov:68.6%25%2C Eval:3.5e-23%2C partial hit],MGA_372
sequence1	MetaGeneAnnotator	CDS	429593	430285	.	-	0	ID=MGA_373;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948296.1;translation=MLKFLKYEFKRNWRFNSIILFSFIVLTIVSKILYYIDSSAYSLPKMITRLCISAAYFSTLFYYIKNFSKDLYSDTGYFTFSLPISGYTYFLGKIIIYFVFIVLLSPLYFFSLFWIEGLPIEFPVALLIEHIDTNVVLTGISSLLFIVFSIITIYLSITITHYLFKSKNMYFLWIFIFVIIMVVVTYFRFNIIFENNSVISALITDIVIQSFCVILFIKLGGYLLDQKLEL;locus_tag=LOCUS_03710;note=WP_011948296.1 ABC transporter permease (Clostridium botulinum) [pid:26.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-10],MGA_373
sequence1	MetaGeneAnnotator	CDS	430278	430988	.	-	0	ID=MGA_374;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963589.1;translation=MKNVLDIKNLNKKYLNSVVLNNLNLTLKENTIVGILGPNGSGKTTLLKIIAGLAKESSGEVLINGLKPSTKTKNMVSYLSDKNFIDNSLKVYQALNLYNDFFDFDMNKAVRLLDEMKINIKSEIASLSKGMKEKVFLILTLSRNAKIFILDEPIAGVDVITRDQILNIIIENVLENSTMLITTHLIKDIERIFDEVAFLKDGKIDKVYKVDELRENSGLTIEELYKEIFKEGDNNA;locus_tag=LOCUS_03720;note=WP_010963589.1 ABC transporter ATP-binding protein (Clostridium) [pid:51.2%25%2C q_cov:89.0%25%2C s_cov:90.2%25%2C Eval:1.9e-56],MGA_374
sequence1	MetaGeneAnnotator	CDS	430990	431343	.	-	0	ID=MGA_375;product=GntR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963588.1;translation=MEFNNKYPIYRQLFEIFLSDILSGNLKPGDKFMSIREASIKYNLNPNTVVNAFRELELQKIAVTKRGVGTFVTEDLDILKKLTTIHSESVLDEFLSKMYSLGFSNEDIIAQIKERGK;locus_tag=LOCUS_03730;note=WP_010963588.1 GntR family transcriptional regulator (Clostridium) [pid:40.0%25%2C q_cov:98.3%25%2C s_cov:95.0%25%2C Eval:1.5e-22],MGA_375
sequence1	MetaGeneAnnotator	CDS	431415	432302	.	-	0	ID=MGA_376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYFISGKSARKIYIDNILNNSDKNKMYFDENTVSEFLSELNAGSLFSEPTILILKNANKVKDINNVIKNVNLNTFNDKDVIIDYEANKENKKIKELLNNFEVHEILDDRENKNVLIKYIQERLKCNSKDSNNILEIIGQDFYSLKNEIDKICSYLNGEEFSFDNIKPILSKNTNFFIFNLTEDILNKKMIEFPIKENMALLSSLSNDFEIMYKLHILDIKNINYNNFKSQYENHKFFKNLNPYYVFKKIQFLKNFSKDRTKELISLSFETDLKIKTGLLPLEDGVEAYILEILK;locus_tag=LOCUS_03740;note=WP_003430958.1 DNA polymerase III subunit delta (Clostridioides difficile) [pid:22.7%25%2C q_cov:89.2%25%2C s_cov:70.3%25%2C Eval:8.8e-07%2C partial hit],MGA_376
sequence1	MetaGeneAnnotator	CDS	432496	432792	.	+	0	ID=MGA_377;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903491.1;translation=MVTKEEVVKLAKLSKLSFEKNELEAFQKDLNDIFKYMESLNELNLENVEPLYNILENEGKIYKHEPKIEMDKKMFLENAPKNDENFISIPVMLGDGNE;locus_tag=LOCUS_03750;gene=gatC;note=WP_005903491.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC (Fusobacterium nucleatum) [pid:43.6%25%2C q_cov:95.9%25%2C s_cov:97.9%25%2C Eval:3.1e-15],MGA_377
sequence1	MetaGeneAnnotator	CDS	432785	434224	.	+	0	ID=MGA_378;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965958.1;translation=MNKIYTLTATEIANLIKDKKISSEDATRSILNRIDEMEDKIGAFASVNKENAMEAAKKADETEITSLLHGVPIALKDNIVSLGELTTSASKILSGYYGTYDATVVKRLKEADVVLVGKANMDEFAMGSSNENSSIKVVSNPWDLERVPGGSSGGSAAAVASLEVPIALGTDTGGSVRQPAALTGTVGLKPTYGRVSRYGLMAFGSSLDQVGIIARTSEDVAKTLEIIAGEDIYDPTTSDVEVPKYSELLDKDINGLKIGIDKKFFEGLSNEIKESIENALDTLVKMGAVIVDISLDYAKYSIPTYYIISSAEASSNLSRYDGIRYGHRAEADNVEDVYIKSRTEGFGKEVKRRIMIGSYVLSSGFYDAYYKKASQVRRLIKNDYQKAFENVDVIITPTTPNVAFKKGEKSNNPIEMYLSDIYTVSVSLAGLPAISVPVGFVNKLPVGMQIISNYFREDLLLNVTHKYEMERGRIDYERV;locus_tag=LOCUS_03760;gene=gatA;note=WP_010965958.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA (Clostridium) [pid:56.1%25%2C q_cov:97.3%25%2C s_cov:97.3%25%2C Eval:8.4e-147],MGA_378
sequence1	MetaGeneAnnotator	CDS	434211	435638	.	+	0	ID=MGA_379;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016630.1;translation=MKEYDIVIGLEIHCQLKTKTKIWCDADANYDEKEPNTCISPVSTGQPGALPRLNEEVLDFAIKAALALNCDINKISYFDRKNYFYPDSPKNYQITQYFKPYAENGYLEFKRNDKDVKVEIERIQIEEDTAKSIHTKHESILNFNRASIPLIEIVTKPCISNPQDAYIYLNNLKERIKYTGVSDVSMELGSLRCDANVSIKEKGSDKLGTRTETKNLNSFKAVVRAIEYEANRQMELIEKGERVVQETRLWDDEKGITRPMRNKEEAMDYRYFPEPDLPPVVISEERISKLKEEMPEFADEKLIRFISKYNISEVDAGNLVTSISLANYFENLVEVSGDPRLSTNWMLTEVLRVLKEKYISIDEFSISSENLGKLIILLKSETISSKIAKEVFEIMLDEDKDPNIIVKEKGMLQISDEGEIENIVKQVISENPESVQDFLNGKDRAIKALMGQAMKISKGKANPKLVQDLLIKNMK;locus_tag=LOCUS_03770;gene=gatB;note=WP_011016630.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Fusobacterium nucleatum) [pid:60.0%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.7e-163],MGA_379
sequence1	MetaGeneAnnotator	CDS	435648	437660	.	+	0	ID=MGA_380;product=penicillin-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480034.1;translation=MSKLDRWFLKEKNRKKIYFTFFLLFLFLIIVRLFFLQILHKDFSFNVINPIRSYVKEIRAKRGSIITSDNLELAVDLEYQGIVVDPTLFKDREEIEKFVNIINKVIKNIKIEETVDKIFELKEKNKKYYEFKNVLINVDQKDQIDELIKEARKNDRETFNARFVYFTRKFKREYINSSVFETIVGFINKEEKGVYGVEHKYDEMLKGENGQATGTAPFSASLAEYTLPYLIDEKIVKNAKDGNDIVLTIDSLLQYSLDDILKDAHEKFEATTTMGIVMESDTGKIVAMSSYPKASNRAEIKNHNITSLFEPGSIFKPLTVAMAMNEGLINENTLIHSEGYIKVKNRIIRDHDDSTKGTLPVSKIMVNSGNVGLVKISQMMNPETFYNYLPKFGLGEKTGIDISYETVSSLINPKDFTEVRRSNVSFGQGINMTQLQMLVALNATINGGELITPQIVEKIVGSDGKIVKNFEIHNKGKVINENVSAKIRKILEEVVSSGTGRGIKLDGYRIGGKTGTAQKAGPKGYEAGKYFSSFFTFFPADKPKYSILITVDEPHGQYYGAAVALPLARDILDKIIKYKDVTPSEKVVQNISAIEIATPKENRNNKIENIKNDFSMDIMPNLIGVTKKNLLELGIDRYSVFMTGNGKVVKQYPEAGSKIKVGDKIRLELK;locus_tag=LOCUS_03780;note=WP_198480034.1 penicillin-binding protein (Fusobacterium canifelinum) [pid:32.6%25%2C q_cov:95.5%25%2C s_cov:89.3%25%2C Eval:4.4e-83],MGA_380
sequence1	MetaGeneAnnotator	CDS	437678	439609	.	+	0	ID=MGA_381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYYQIYVKKYSNTYTYESDFPLTIGSFVEIDFRNKDLLGVVIRESKKEEIGDFKIKKIKKVKDDIVEIPESILNLAIFINSYYITDFNASFKILGPYEKMFKEKLEKVEKKETVIKNNITLNEYQQKAYEDIVNSDENIFLLHGITSSGKTEIYIKLIEEALKKDKSSIFLLPEISLSSQMVKVIKKVFGSSISLIHSKMTPATKLKEWINIYSGNSKVILGARSALFAPVKNLGYIIIDEEHENSYKQEDNARYHSRNVAIKRAMQEGAKVILGSATPSFESYYLAKKNLFKLITLNKRFNNMELPEMEVVDLSNEKSMLSEKLLQNMKTVLSKGEQVILILNRKLHSLLVRCIECKEKMICPRCSVNLRYSKSKNILECSHCEYRRKMYETCPYCESKNLELLGIGIEKLEEELSDLFGSENILRMDSSTMTSQKDFDKAYKEFSENKYQIAIGTQILAKGFHFPNVTLVGIINTDQILSLSDFRVGEKTYQLVTQSAGRAGRGNKKGKVILQSYIPDSKLINSIMSGDFEGYFEYDMHIRKLLNLPPFSRMIKIIVSDKKEERALKVTKKIHKDISENFAEVSHIEKAPIFKMNDDFRYNIYIKSDKNEIAKNRKLLFAIKGSSNNTTRILVDIDPLTLY;locus_tag=LOCUS_03790;note=WP_011016948.1 primosomal protein N' (Fusobacterium nucleatum) [pid:45.1%25%2C q_cov:83.0%25%2C s_cov:69.8%25%2C Eval:9.9e-133%2C partial hit],MGA_381
sequence1	MetaGeneAnnotator	CDS	439625	440125	.	+	0	ID=MGA_382;product=peptide deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082176.1;translation=MNIYVYEAPILRKKSEEVVEFNDELRNTLDEMVKTMRLANGIGLAANQVGIGKRFFVLEIDDEITKVVNPEILSFGEEMVEFQEGCLSIPGIFKNVLRPESIVVRYQDENGNFVERELNGLKSRAFQHELDHIDGILFIDKISPMSRNLIRKKLEVMKKNSKPREF;locus_tag=LOCUS_03800;gene=def;EC_number=3.5.1.88;note=WP_004082176.1 peptide deformylase (Thermotoga) [pid:47.4%25%2C q_cov:91.6%25%2C s_cov:92.7%25%2C Eval:1.4e-36],MGA_382
sequence1	MetaGeneAnnotator	CDS	440135	441061	.	+	0	ID=MGA_383;product=methionyl-tRNA formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147373209.1;translation=MKTIFMGTPDFAIETLKYLHENTELLAVFTKVDKINARGNKVVFSPVKQYALDNNIEIVQPKSLRTEEIYEILKKYNADLIVVVAYGMIIPKNIIDLPKYGIINVHSSLLPKYRGAAPIHAAILNGDDKTGVSIMYINEKLDEGDIICTLETEILKEDNLGSLHDRLKMLGALGVKQAIEMMKNNTVKATKQDHSLATFVKPIKKEETKIDFNLDSLTIFNKIRGLNPFPEAFTTLNGKILKLYSSDVLDYSGDEKPGTVIDLTKEGIVVKTGDGAIVIKELKLEGKKKQSSLDFINGRKINKLDILK;locus_tag=LOCUS_03810;gene=fmt;EC_number=2.1.2.9;note=WP_147373209.1 methionyl-tRNA formyltransferase (Fusobacterium nucleatum) [pid:53.8%25%2C q_cov:97.1%25%2C s_cov:97.1%25%2C Eval:2.8e-88],MGA_383
sequence1	MetaGeneAnnotator	CDS	441072	441740	.	+	0	ID=MGA_384;product=redox-sensing transcriptional repressor Rex;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082798.1;translation=MTKKYSAREISGRIISRLTLYLSILKDLERIKPEVNSVELSKKMNTTAVQVRKDLSTFGEFGVRGKGYNISALIKEIESILGIDKENEVILLGYGNVGTMIARNTDVLGKGFKVTAIFDIDPNKIGQEIPNLDIKVSDANECINYIKENKVHTVILAINSEFAQTVADELIEAGIQAILNMTDYKLELNTNTAVVNADISAKLKELNFWRINPELRGGINFD;locus_tag=LOCUS_03820;note=WP_004082798.1 redox-sensing transcriptional repressor Rex (Thermotoga maritima) [pid:38.8%25%2C q_cov:90.5%25%2C s_cov:93.8%25%2C Eval:1.0e-32],MGA_384
sequence1	MetaGeneAnnotator	CDS	441733	442590	.	+	0	ID=MGA_385;product=bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013447977.1;translation=MIKSMLDGRYVSNILYEKLKIEYQILIDKIGKRAGLAFIKVGNDRASTIYLKNKAKKCDELGIYQKTIIFEENITETELISEINKLNDDKNIDGILLQLPLPSHINYISVMSTINPKKDVDGFHPENVGNLLFKDKGIYSCTPQGIMELLNYYNISIESKDIVIIGRSNIVGKPLALMLINEGATVQVCNSKTKDLFNKTKQADILISATGVSHLIKSEYIKDGAVVIDVGISEFEGKIIGDVDFEDVIQNSNVRYITPVPGGVGPMTIYSLIKNTIRAFELNNM;locus_tag=LOCUS_03830;gene=folD;note=WP_013447977.1 bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD (Mycoplasma leachii) [pid:51.2%25%2C q_cov:97.9%25%2C s_cov:96.9%25%2C Eval:7.4e-72],MGA_385
sequence1	MetaGeneAnnotator	CDS	442668	443882	.	+	0	ID=MGA_386;product=hemolysin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017189.1;translation=MIIALLITLIFFSILTAFDISFINVNYIEKIYLKEIEENNKKKVAKFLERLIRYKITSNILNLILIAMYFKIVNFNIGIFFGFSLEFFAISVLILILFQTFIKAISKIDVYKTLIYTIDFIDVLMIVLFPLVFVVEYIYKWINNIVSNGEHKEEIDLTEEDIRNIINCANNTEVEKEEKEMIHSIFNFTDTTVKEIMTPRTSIIAYDVEEILDNVWDDIIEHEFSRIPLYNESIDNICGIMYTKDLLKCKNRNIKLKNLMKEMVYVPETVTLTYMLEFFRQKQQHMAIIIDEYGGTLGLITIEDLLEEIVGEIRDEYDIEEENFKSISKNVYELLGETLVEEINEKYNLDIEISEEYDTISGYIQYKLERVAIEDDKVINNDYIIQVLKVDNKKIEKVKLIIKR;locus_tag=LOCUS_03840;note=WP_011017189.1 hemolysin family protein (Fusobacterium nucleatum) [pid:38.3%25%2C q_cov:89.6%25%2C s_cov:88.0%25%2C Eval:5.1e-62],MGA_386
sequence1	MetaGeneAnnotator	CDS	443891	444421	.	+	0	ID=MGA_387;product=adenine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012256182.1;translation=MNKLEIQKLDEMIRSIPDFPEKGIIFRDITTALKDKEGLKLIIEDFTNRYKDKGIDYVLGADARGFIFASAIAYNIGAGFVPARKAGKLPAETVRAEYSLEYGTNVLEIHKDAFEKGANVLIVDDLLATGGTAKAMVDLVEELGAKVYELAFLIELVDLKGRDSLKDKEVYSILKF;locus_tag=LOCUS_03850;EC_number=2.4.2.7;note=WP_012256182.1 adenine phosphoribosyltransferase (Chloroflexus aurantiacus) [pid:52.9%25%2C q_cov:96.6%25%2C s_cov:98.3%25%2C Eval:5.8e-47],MGA_387
sequence1	MetaGeneAnnotator	CDS	444458	444655	.	-	0	ID=MGA_388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMEALLKITNFEYLLETAVNILPFTMIINIIPLFIIELSVKPVLILTLIFILQVYLLFKLSDIFE;locus_tag=LOCUS_03860;note=MGA_388
sequence1	MetaGeneAnnotator	CDS	444805	445170	.	+	0	ID=MGA_389;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMDLGQTLKNARERKGYSLREVEGKLNEKGISYAHTNIKRIEDGENNKTSIKVLAGLCEVYSLDKINIMNLAGANIEEFVELNDIVKKATLFFNDKNVDEDDKKKLLEVMNEMFYKSKFDK;locus_tag=LOCUS_03870;note=MGA_389
sequence1	MetaGeneAnnotator	CDS	445419	447461	.	+	0	ID=MGA_390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKYKMISLLAIGVASLSAEYYVKNDSKTEFGYENAFTKKASTELNWGGIFGKNKEVFTFVGGEVNLDKDTNFGGEILLGINVKKAITKDIGLILNAAYQYNDKAMNKKAFEENIREVLKSRGEWKEEIEKDKYKLKRYYRGQGLRFKGEETLFSGVVDYNHKLFKLQSGVIYTAGYAANSNNRLESFLNLKTNKSNYDIELDIDHKFKYERPDQKTDNGTYSKGGRLNIELSARGNVGNLNTYNKGIVYLGTIIPSKKDYQITSENEVKYTINNIELSTAFNNKLAFRQVEKINPDKLKIRLQPELKLGLKYANKNIDFETNGLIKGRVDLKKEKQKKIELEMDEYTKGNNISANNTDIKRAISNIYVDSRAGYKLGVFNFRLAGRYVGVVSLKEKSKDIDAYNQYAFVGPGITYESKVKELKLRHSFDIRYEIGYKDKKTFSVINFWSDNRQEYKVNDKLSLKGEVNFTSSNRFSFIDKDSDKNEILLLADTKGTVEYKLNNKTDLTSTLGLKTISLFKEHNQNGMSDNNKHGDESLHLDVKYAFKVSNENKVTYQLNNNIDIVGRIDTSFAYGLKSDKLYESLTMIKRERIGEDGIITHTEGDLKKIKEDEQAFGADNRAILLISPSAELSLKYLNDKLHVKPSLGVDVSAKVGKDKSKLEYKAVNVKARLQVEYRW;locus_tag=LOCUS_03880;note=MGA_390
sequence1	MetaGeneAnnotator	CDS	447472	450732	.	+	0	ID=MGA_391;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGIKTLTLLSIMMVNISLSDNIETNALILSSKRRNTSISKKANEIKKVNEVKEEDDFFNFSKAKKIELLLKVNSESTILSTRNMFLKNELYGSAKIYEFLKLSGGLDFGAKTFKPQNYYGALGLDFKEFGSIELKLHSSKKLDLKYEYEKKLKDLDINLNTSYSLFNAARKLAGTDNEIRVEHLYALNANLGYNLGNNFKLITDLNLSASTWKLLNNFFMYNLSIGAGLDYKNNVLAGIYIAHYNKREQRFIDDELSTNHDLNSRYNKGFSFRGYVGYEWEKRLNESSKLGLVGKVGANLDKQIISDRSELNDDGEVEVIRDWGPITINNNSFATINPQLGLKYKVNDNLNIEAEYEASILFHKTGYIVMGNKIRTGLKYTWEKLSGKSIIDVLALNSSSSNEIFKKNIYVRDNTELRLRHEKKENKQLASNNPLIKYEVKKELNIGALIGKNKDLFVFLGGEVVGKDLKYKMDKKTNLKTIEGLDGIANIGLNFKRKLNKNIELTFNGGYQHKGGMEANVKEGLKLRGLWDKKYEEDEMARKEFYHSQGLRFKNDEVLISGVLDLDYETTKSKIGIIYSAEELVYEKSRFEGFLNLNQRLGNFNINGNFNYKLKDIHEVLDRMGRVKGDVSLSGKVGNLEIIGKTYVHIGSIIRSDKDRTFGGEGSLVYKNRNLNLKTTLKHETMYDYSENESKEIYSKPRPKKDKTNSLVQKEEFLFNLGYINKNIELKSNIKVRSKILTDIKNGIKIDTNKYKKNDTNNKNKDFTVLLAYTDNELNTKLGDITLRLSSKYRYNMDMNDIKKLTHKHLGLAGIGITYDIKTDDLMLKNSVDARYLISYSDNEDYSIINAWMDNNVDYRVNNNLRLKGELNLTSSNKVKLLEKKGMEILALGDLKGIIEANLSDKVELKNETGLNAIVLFDFKNGNNSISSSSKQQSPVLKELLLDTTHSYKVYNKNSLGYEIVDGIKLISNLEFSYLSGYKSDKLYSVLKDIKRKLMDENGIIGIGNNEKKKIEEEKSKYESKSGLSVIAIKPGIEGEFKILNDRLTVKPKVEVQVNFTNDSYTTYKYKSTNAKAILNIDYKW;locus_tag=LOCUS_03890;note=MGA_391
sequence1	MetaGeneAnnotator	CDS	451125	451553	.	+	0	ID=MGA_392;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVVRIRGIIEALVVCVGSKGIRYYQITAIDEYSRKRVLKVVKEKSTYETSKYIKELERAIGFKIETIQVDNGYEFVNDKDVTDREDGKILYSRKEFRSEEELIENVKRHERLYNNRAKTVLNFKSPNEVVREYFTKVKKEA;locus_tag=LOCUS_03900;note=MGA_392
sequence1	MetaGeneAnnotator	CDS	451815	453326	.	+	0	ID=MGA_393;product=carboxypeptidase M32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016113.1;translation=MDKITRLKEILEKNRAYQHAMTILSWDLETEAPVNAAVSISKTLGTLSELSYLTLVNDEVKDIVYGLNFDELNEIDKKLVLNLKKDIFDKMSKIPVDVYSKYSELSTISTQKWGEAKRSNNLEVYAPYLEEIIRYNKEFIKYRGYNGHPYNLLLSDYENELTVEIVDEFFKNIKDELTPFIKEVITKKREELKDIKARFLSKSYPIDKQKKLSKEISEILRFDYNSGVIKESEHPFTTNTSNKDVRITTHYYENDPLSAIYSTIHETGHALYEQQILNVYQDNFLGGGVSMGIHESQSRIFENMFCKNDSFTKSLYNLMDKYFGMDITLDEFKLLLNEVNASLIRVEADELTYPIHVMIRYELEKEIFSDLERKENAEDIAKKWADKYEEYLSVRPMTYSEGILQDVHWSQGSFGYFSSYALGSAYSAQIYNAMEKDIDISKELENNEFSNINSWLKEKLHQYGSFKDPKDLILNATGEEFSPKYYVDYLKNKFSKIYEVEVK;locus_tag=LOCUS_03910;note=WP_011016113.1 carboxypeptidase M32 (Fusobacterium nucleatum) [pid:43.0%25%2C q_cov:97.6%25%2C s_cov:98.4%25%2C Eval:8.1e-116],MGA_393
sequence1	MetaGeneAnnotator	CDS	453326	454663	.	+	0	ID=MGA_394;product=M18 family aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963927.1;translation=MNNKKLKAEFLDLEIKSFAREMIEFIDDSPSTYHVVGNCSTILLENNFERLEPTSKWELKKGGKYFIKRSNSSIVAFTIGEKLDVNKGFKIFGSHTDSPGFRIKPNPEMTVNGLIRLNTEVYGGPILSTWFDRPLSVAGRVIIKTDDIFRPKTIKVKIDEPVLIIPNLAIHQNREVNNGIKIDKQNDILPIIGLVNENFEKDGYLIDLISKKCNIKKEDILDFDLYVYATEKGSLVGVNQEFVSAPKLDNLVSVYSGLLGLVEAENANNQINVFVGFDNEEIGSATKQGADSNYLSNILERIIYSLGMDRNTFLTMLSSSFILSADGAHAAHPAYLGKSDPTNLGKINNGVQLKISANQRYTSDGFSIAVVKQIIEGTDIKIQFFVNQSNEIGGSTIGPISSTHLDIDSIDLGVPMLAMHSVRELCGVRDLFYLKELAKEFFSKN;locus_tag=LOCUS_03920;note=WP_010963927.1 M18 family aminopeptidase (Clostridium) [pid:52.9%25%2C q_cov:95.7%25%2C s_cov:98.4%25%2C Eval:9.4e-129],MGA_394
sequence1	MetaGeneAnnotator	CDS	454684	455787	.	+	0	ID=MGA_395;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015834.1;translation=MERSDIIIKNISKSFGGDKILKNVSLEIKKGEFFSILGPSGCGKTTLLRMIAGFIYPDSGEIIVNGERIDKLPPEKRNVNTVFQNYALFPTMSVYDNVAFPLKLKGYSKSEIEKEVNKYLDLVGLLEHKNKMPENLSGGQKQRVAIARALIGKPDVLLLDEPLSALDAKLRQKLLIELDSIHDEVGITFVFVTHDQEEALSVSDRIAVMNKGDILQIGTPNEIYEKPKDEFIADFIGETNFLTGEITEVYDNYAVAISDEIGEYKVELDKPVKLGDKVKLTLRPEKIKVDVKPPRENSKYKVLRGVVDEVIYSGFQSKLFIKVEGSNRIIRAFDQHREFLEEEELFEWKEKVYFYWNYEDAYLVEVY;locus_tag=LOCUS_03930;note=WP_011015834.1 ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:59.0%25%2C q_cov:99.7%25%2C s_cov:98.7%25%2C Eval:3.4e-118],MGA_395
sequence1	MetaGeneAnnotator	CDS	455787	456650	.	+	0	ID=MGA_396;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015835.1;translation=MAQKDILQEKSTLKYLYFLPITIWMSIFFAIPTAIIVYFSFLKKGAYGGISSYSTFTFKAYIDIFSSKDIFKIVLKTLNLSIVITIITILIAIPTAYFISRSKRKNIWLLLIVIPFWTNFLVRIFSIVALIGNNGILNKFLVKLFFLDKPLDLLYNRNAVIIISVYIFLPYAILPLYTAIEKFDFSLIDAARDLGASNFTAHMKIFLPGIKNGIITALVLTFVPAIGSYAVPDIVGGTDGIMLGNIIATRMFSLRDWPSASAISTIFILITSVFVWIGIKADKDGDE;locus_tag=LOCUS_03940;note=WP_011015835.1 ABC transporter permease (Fusobacterium nucleatum) [pid:50.4%25%2C q_cov:96.5%25%2C s_cov:96.5%25%2C Eval:2.2e-76],MGA_396
sequence1	MetaGeneAnnotator	CDS	456650	457432	.	+	0	ID=MGA_397;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627435.1;translation=MNEKRRFSLFFFVLVMIFFYLPIIMLIVLSFNSSKGYEFKSFSLRWYIDLFTKSPRLWQAFGRSVIIAISSSMISVAIAILGAIGIKWYNFRFKSYVKVLNYIPLVIPDLIIGVSLLLFFNMNFAKIPLGMVTIFIAHTTFNIPFSLFILMSRLSEFDFSIVEASRDLGATELQTLNKVILPTMIPGIISAFLMSLTLSLDDFVITSFVTGTNSDTLPIQIYSMLKFGVSPTINALSTILIFGTLILALSSRKLQKYMLS;locus_tag=LOCUS_03950;note=WP_201627435.1 ABC transporter permease (Fusobacterium canifelinum) [pid:57.9%25%2C q_cov:97.7%25%2C s_cov:96.6%25%2C Eval:8.3e-80],MGA_397
sequence1	MetaGeneAnnotator	CDS	457579	458307	.	+	0	ID=MGA_398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIILTILSAITLFACSSIKPMDVENQNFVLETIEYTENNILNTIGKGMTLQFKSKKLSGKSSINNFFTGYKIENNKLILDGINLTRMAGSQEDMTLESEYLNALSTNKHINKKGEKLILEAQNGMKLVYIQELNSENLENKNFKLVNDEFKENEFTIGFKENNIFGRSGINRYFSTYEIENNVLFLQNIGTTLMAGEAKLMELESKYLGMLSNVNGIKYENNILTLYTKDNQKLVFEEIK;locus_tag=LOCUS_03960;note=WP_005903724.1 META domain-containing protein (Fusobacterium nucleatum) [pid:33.3%25%2C q_cov:43.4%25%2C s_cov:69.8%25%2C Eval:9.5e-11%2C partial hit],MGA_398
sequence1	MetaGeneAnnotator	CDS	458443	461550	.	+	0	ID=MGA_399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIYLLISEGFMNIKEFRFHFVFLFILTNCSSYHADEYVVKQLKNKPVEYVPSSDVSKKNLGINESLEEVKKAEKILNENENPVIIYELLLSRETNDKTRNKYSFLNNDENINYSSLGESGIFNSHAFDVTEAFMDTDSNGVVSDAEKNAFNGKNPKIKLLRRDADVLNAVGIINMSYSIVNHNKNLSYLQSSSKYLDKIDPRDINRLEDFLTTKLIDRNYVYNQRLLISAIGNGNFNDIKTEKFSSEILNIYQVMSPEMQALARSESIFVKNSFKKDNELMKKFSKDFPISYTDIDNVQYIDRFKKDIPQVYPLLLRSATVGENGLLKADKEGEIPKFGSSFSSPRIARLAYDIKEKYPFLTYQQVKQVILGTASHANDGYLSDSVGWGNANREKALKGPSDFNAGLIDEMKYFKGNYDKIFDENGNRYFYVDIKKDKEYTFENDITSGLTGDGKSTEESIIKIKGVKNWYDYEYNATEHSYRIPKVLESEKLFYSNVAQAGLRKDGEGKLILTGKQEYSAPSQVLDGTLVLKNDSNSDYTVYEKGTLVVENIKGNEDKEIKLKNIYTDGNVKIDSSKTSIEKLHGTYMSNVEFSGKEIKIKEFKTTGEYIVRLKEEDIKNINGASIGPKLTIDNYVKEDADFLNNLSNPFLKPVVMNDDKIVSVKFVSTLDNEFKKLGQLDEDKLKDIPSYDRNKKNFFEEYGKVEAMPSQVKSMLLSSSSSEAKNLFTDNYASIVGNVIKNEIDNKYNRNNIILNNLEKDNRLFFDTYARTNILNDKKFSPFVDNNIGAILGYSRKLKNGNRLDLYGIYQYGNVIFNNSGSNKTKSINHLYNIGYNLSKRFIDIIILDMENSVGYTKSDVYNNTSNASDKTNIIHSLSINPGIKIGLELNFDKIKTIFRPYAGYNFSFVLAWGKKDNTSSNTDLINKLRNIALTKLINHNVEFGIEVDSKINKHFSIQNRLTFDYNSLDKIELNQIIAEKLHKTLGKGLDKISVGYNLAAKLRLLEGMNVIGKVNINSKLNIGLNLGFDYNF;locus_tag=LOCUS_03970;note=WP_201627120.1 autotransporter serine protease fusolisin (Fusobacterium canifelinum) [pid:21.3%25%2C q_cov:56.2%25%2C s_cov:53.6%25%2C Eval:9.9e-16%2C partial hit],MGA_399
sequence1	MetaGeneAnnotator	CDS	461619	463394	.	+	0	ID=MGA_400;product=DUF4037 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903384.1;translation=MINKFDELINERKEFQRISDNVSEVKILSEIVKMAKDIYGEMSNEYIYYLNELGGVSKYIGEYELGIKNLKKALSLIEIREGKRSIPYATSLLNLAEIYRFSGDLDNIEDIYLETLSIFDENKLEKEYVYAGLCNNIGLFYQNIGKIEKAIKYHEKSLEILLYMPDHLVELATTYNNLVMPYKEIGKIRQAYSNLDNALEIYEKTLGKEHSMYGAALNNKAILKFEEGEYRSALNISEIALEITKKSFGENSLNYKNLLSNVEYIRDIVKKSEKEISVEVTNDSKLIDKSREYTKKYILPKIKEKNEKLLSKITIALIGEGSEVIGYDDEYSKDHDYTFMPIIFLNDEDYEKYHKELEDILLSLPQEFLGIKHVNNNVVNERRGVKKIGDYLYRFIGKENANLTIEDYRKIPEHALFSLTSGEIFFAGNEELSSILSTLKYYPDVIRENKIATVCTRIAQSGQYNYLRLMKREDKIAASIAKNIFIENVIHLIYLLNFKYMPFYKWSARGLKDLPILGKEIEKRLFELIDNTTLDKHQMSNRIEEICYFLVEEIKKQGLSKEKGYFLINHAIAIQKNIDDEFLKLWTAFED;locus_tag=LOCUS_03980;note=WP_005903384.1 DUF4037 domain-containing protein (Fusobacterium nucleatum) [pid:40.4%25%2C q_cov:99.2%25%2C s_cov:99.5%25%2C Eval:6.4e-123],MGA_400
sequence1	MetaGeneAnnotator	CDS	463403	464017	.	+	0	ID=MGA_401;product=DUF4125 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903383.1;translation=MEKEELINEIILREWEMFKVLKNTGGPAECQNNKPEFEIMRKGQWEKLPINILQSYLIDLKNAEEVGRNLLEEKYIRMMKFSAPKEFEEVKHLLPELSPGIEVLINKIEKIYLMWGDEFEKKFPKFSKLCRPLRNEGDIPEKASLQTYLRGELSSYSLKTVLFYSDYIEECVKKGVNLIYETHKEVVKMKGFESIESVENALVI;locus_tag=LOCUS_03990;note=WP_005903383.1 DUF4125 family protein (Fusobacterium nucleatum) [pid:43.7%25%2C q_cov:97.5%25%2C s_cov:95.6%25%2C Eval:4.2e-40],MGA_401
sequence1	MetaGeneAnnotator	CDS	464068	465969	.	+	0	ID=MGA_402;product=threonine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626551.1;translation=MLKITLPDGALKEVENMTVIEFAKTISTSLAKKTVGAFFNGTQVDITYNLDKDGTLELITTDSKKGLEILRHSSAHVMAEAVMSLFPNTKVTIGPAIENGFYYDFDTERPFTEEDLVKIEKEMKKIIKLNEKFSREVWSREKARAYFENAGQNYKVEILDSLEEDEFTIYTQGKFVDLCRGTHVPSTGYIKAFKLLNAAGAYWRGDSNNKMLQRIYGTSFYSQDELDAYIKQVEEAEKRDHRKLGKQLNLFFIDEHGPGFPFFMPKGMRLFNRLQQLWRIEHNKQGYDEIRTPIMLDKELWEISGHWFNYRENMYVSEIDEKVYAIKPMNCPGSIIAYKNNLHSYKDLPLKYAEMGHVHRHEFSGALHGLMRVRAFTQDDAHVFCTPDQIKDSIKEIVNLYDKYYKLFGFDFHVELSTKPEKAVGDAKVWEISERALEETLKELNIDYRINAGDGAFYGPKIDFKMKDSIGRIWQTGTIQLDMNLPKRFNMSYIGKDGEKHETVMIHRAMFGSLERFIGILIEHYAGAFPVWLAPTQVKIMTISAEQVEYATKLHKKLIDLGIYSELDIRDEKIGYKIREANGEQKIPVQLVIGKNEVLENTVNVRRFGSTDSVTKNVDEFINELLDEINIKF;locus_tag=LOCUS_04000;gene=thrS;EC_number=6.1.1.3;note=WP_201626551.1 threonine--tRNA ligase (Fusobacterium canifelinum) [pid:62.8%25%2C q_cov:97.6%25%2C s_cov:97.5%25%2C Eval:1.6e-236],MGA_402
sequence1	MetaGeneAnnotator	CDS	465989	466675	.	+	0	ID=MGA_403;product=Bax inhibitor-1/YccA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966116.1;translation=MYNEKNLNENIEMGILGSYLWMGLGLLITFGIMYSSLYSVKLVNISIMIQRFSIILMIAIAVLIRYIVVNSSASVLKLVFIGYSAFLGILLIPIMYAYQMVSIITLLGSTSAMFVGMSAYGYFTRSNLQSYSKYLFGGLLGIIVMSVLNIYIFKSNTGDIMLSMAGLLIFIIYTAVDTQRIKSMILDAYYEGNKDLLDKVKIFGALMLYSDFINMFLYLLSLFGKRRD;locus_tag=LOCUS_04010;note=WP_010966116.1 Bax inhibitor-1/YccA family protein (Clostridium) [pid:34.5%25%2C q_cov:96.5%25%2C s_cov:96.1%25%2C Eval:6.8e-32],MGA_403
sequence1	MetaGeneAnnotator	CDS	466716	467753	.	+	0	ID=MGA_404;product=DNA adenine methylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_071540979.1;translation=MKSFLKYPGGKQKEIGIIRDNLPSKIYDYYEPFIGGGSVYLALDFEKKYYINDLSEDLINLYNCIKNQNELFFKELDKINYNIKLAKEISVKEAYDFYENYQNYDEFLTYFLTNAKIDDLDNLKNKLYISLNRKLKLIDRLDKRNIEKIDIFKNIKTGITSGLYVYYRELYNNLKYDSKKELKAALFYYIRDFCYSSMFRYNSFGEFNVPYGGISYDNKNLDSKIEFLKNENVVSKLKKSKITNEDFEIFFRKNKPKKEDFIFLDPPYDTEFSTYDNNPFGLEDHIRLRDFCKNTEANFMLIIKETDFILELYKNFNIKKFKKNYTVSFKDRNKKDVNHLLITNY;locus_tag=LOCUS_04020;note=WP_071540979.1 DNA adenine methylase (Moorella thermoacetica) [pid:39.3%25%2C q_cov:100.0%25%2C s_cov:98.4%25%2C Eval:8.3e-63],MGA_404
sequence1	MetaGeneAnnotator	CDS	467769	468593	.	+	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTEFNKKAIEEIVDSNIKKFAMGLEERYINELNDPNGVIHRKKNNCFISELGREFMFYSAFVRSFDSSFGKVLENIGNSIAKLNYKVKSEVSSFLLPQQSQHIDYLMLNYEKHMKPKVEDYKKYNIMIPNDVRSFAKKHKTDHYFYDEENKTHYLIELKSSGDLDNKKAKTEKIALLQEYFILKNSINLDEDIKIFLATAYNIYGEGNYWKQDRVRQFFSDDELMIGRKYWNFVCKDEKGFEIFFNQYKKSCNYIRKVLSQIKNLYFLDETEID;locus_tag=LOCUS_04030;note=MGA_405
sequence1	MetaGeneAnnotator	CDS	468651	468911	.	-	0	ID=MGA_406;product=type II toxin-antitoxin system Phd/YefM family antitoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009994775.1;translation=MINIRPVSDLRNKFPEIEEIVINSNSPVFLTKNGYGTMVLISIEQYSELTDNIEKELDKADNFTKKSSTRLSKSEIFNKVRKKQKD;locus_tag=LOCUS_04040;note=WP_009994775.1 type II toxin-antitoxin system Phd/YefM family antitoxin (Gardnerella vaginalis) [pid:72.3%25%2C q_cov:96.5%25%2C s_cov:97.6%25%2C Eval:2.6e-30],MGA_406
sequence1	MetaGeneAnnotator	CDS	469272	469982	.	+	0	ID=MGA_407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKSIPWGHNQRIMYKCKTVEEALFYVGRTLENGWSRTVLEHQIESNLYKRLGSAITNFETILPALQSDLAKQTIKDPYNFDFLTLTEDYNEKELEKELVSRITDFLLELGAGFSYVGKQVHIKVGESDFYIDLLFYHIKLHCYVVVELKTEKFKPEFVGQLNFYVTAVNRDLKGKEDNQTIGILICKDKDNVVAEYALADTSQPIGISKYEISELLEKEFKSSLPSIDEIEKEFK;locus_tag=LOCUS_04050;note=WP_014498593.1 PDDEXK nuclease domain-containing protein (Bradyrhizobium) [pid:50.2%25%2C q_cov:99.6%25%2C s_cov:52.6%25%2C Eval:1.3e-70%2C partial hit],MGA_407
sequence1	MetaGeneAnnotator	CDS	470212	472410	.	+	0	ID=MGA_408;product=polyribonucleotide nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627490.1;translation=MFDKKTYILDVAGKEVKIETGEIARQAGGSVLVTSGGTTVLVTTTRSKEVKEGQDFFPLTVDYIEKFYATGKFPGGFIKRESKPSTEEVLISRLIDRPIRPLFPEGFFNAVHVVINVVSFDGINMPEDIATIGVSFALGLSDIPFSGPVAGVTVGYVNGEYIINPDKEQRANMDIYLSVAGTKSAITMVEAGASEVSEEEMLNAIMLGHEEIKKICEQQETILNSLNITKMEFKGINYDERVTTFLNKYQGELKNAILVPGKLEKYEAIDNLCESLLSTFKLEIAKEILSKEKTEEEKLLELIGENKEKSVDELVKEFKKYYHDLEKKIVRELIIFDKYRADGRKIDEIRPLNAQIDVLKMPHGSALFTRGETQALVTATLGSKEDEQIIDGMEGEYNKKFFLHYNFPPFSVGEAGFMRAPGRRELGHGNLAERALKAVMPLIDDFPYTVRVVSEITESNGSSSQASICGGSLALMAAGVPIKGTVAGIAMGLIKEAENFTVLTDIQGLEDHLGDMDFKVAGTKKGITAIQMDIKIEGINKEIMEIALTQAHKGRMHIIEVMEATIPESRPNLPENAPKIINLKIDPSKIAGLIGPAGKIIKSIIEETGVKIDVEDDGRVSIFGVDQEKMNRAFELVTQYTLTVELDKVYKGRVTKLAKFGAFVELVPGTEGLLHISEISHKRIKQVEDVLKVDDIVDVKVIALEDNNKFSLSMKALIEKEEAKEENSNEGE;locus_tag=LOCUS_04060;gene=pnp;EC_number=2.7.7.8;note=WP_201627490.1 polyribonucleotide nucleotidyltransferase (Fusobacterium canifelinum) [pid:55.5%25%2C q_cov:97.7%25%2C s_cov:99.7%25%2C Eval:2.0e-217],MGA_408
sequence1	MetaGeneAnnotator	CDS	472415	472984	.	+	0	ID=MGA_409;product=CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011837720.1;translation=MISKFNLPNKLTLIRIILTPILILLMLFKYGFNHSILITILLHILVVLLFATIALTDFFDGYIARRDNLVTNFGKLFDPIADKVFVFSVLIVLAKYNVFSIWLVLILLAREFVVMAIRMLILENGGDVVPASPIAKLKTATQMGALLFALIFPFGNFVNSVILLPSVIFSIISMLEYYEMVKKYLMEDM;locus_tag=LOCUS_04070;gene=pgsA;EC_number=2.7.8.5;note=WP_011837720.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Streptococcus sanguinis) [pid:36.4%25%2C q_cov:98.9%25%2C s_cov:98.3%25%2C Eval:4.1e-28],MGA_409
sequence1	MetaGeneAnnotator	CDS	472986	475598	.	+	0	ID=MGA_410;product=cation-translocating P-type ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272299.1;translation=MEFKQSIEEVLEKQNVDKNLGLSEEEAIKRLEIYGENKLEETKKKSLISRFIDQLKDVLIYVLIIASILNVIAHYPDGFTEAAIILMVVLINAVVGVVQEAKAEKTLEALKKLSSPKAVVKREGKIYEIDSKYLVPGDILIIDAGRFIPADLRLIETQNLQVEESAFTGESHVVNKDAKYISEKDNIPMGDKINLAYSSTLATYGRGEGVVIKTGMNTEIGKIAKALNSDEDNTTPLQKKLDKLGKTLGYIAIVVCIIIFGLGVLQGRGAVEMMITAVSLAVAAIPEGLIAIVAIVLSTGVTRMSRNKAIVKRLPAVETLGSVNVICSDKTGTLTQNKMTVVRDYSMDNKELLISGLALCSDATETIGDPTEIALVVYANNHGLSKNELNIKNKRVNEFAFDSDRKLMSTLHENGDKYISFTKGAIDNIISLCKYVKVGNEIVEMTDEYRKNILEKSIEMSNDALRVLGLGYKESDIYLECEDLEKDLILVGIVGMIDPPREEVKDSIITAQKAGIKVVMITGDHKNTAVAIAKELNIAKDITESITGPEIDELDKEYFYENVDKYSVFARVSPEHKVNIVEALKLKGNIVSMTGDGVNDAPSLKKADIGVAMGITGTDVSKGAADMILLDDNFTTIVKAVEEGRNIYNNIKKTIMFLLSCNLGEVICIFFATLLGLPIPLVATQLLWINLVTDTLPAISLGLDPGNKLVMDEKPRLPKESFFARGAAIRALIGGTLIGLFTLLAFYIGLREEGFKTLSEIKMLNEGHSALIHARTMAFIVLTVSQLFYSYTMRVEDTTTLKVGLFTNKYLNISFVIGIVLQILLINIPFIAKIFKVQSLGIFDWDIVIILAIIPFIINELIKVFFKFKK;locus_tag=LOCUS_04080;note=WP_041272299.1 cation-translocating P-type ATPase (Desulfitobacterium hafniense) [pid:56.5%25%2C q_cov:99.9%25%2C s_cov:100.0%25%2C Eval:4.5e-272],MGA_410
sequence1	MetaGeneAnnotator	CDS	475618	476532	.	+	0	ID=MGA_411;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIYIFCLFLISCSNNVEEKVSINKLDENGIEVEIVNVDSAHFTKLLDGKNDLNEKYFTKSELNKFREKNIDANQVYRYIEEAKNGDVNAINSLSYVYYLLEDSKKLKEILELGLKNNVKEAIFNLALLELGEQNYEKVLSYFDKLPKDYKKKEIENLKSVIYLNIASIALKNNDYDKGVVNLINAYNLGFKELDYEIANIYRIKGDEGNLIKWLTISSNAQNINAKKDLSEIYYHSGQIEKSLKLFEELYILGEIEYARMLYFVNYRLLNNREALKWYRISRVLGIVERNLELEKLKGFYN;locus_tag=LOCUS_04090;note=MGA_411
sequence1	MetaGeneAnnotator	CDS	476560	476895	.	+	0	ID=MGA_412;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITILSFYYLVVLEGLKKLTFLTALILLTIITLSYFKIIELKKSLKFVDMLVNAYILFIIPIIVVTIRYNLENFDFIIDFLREYMLLEYIVFKLVIIQILRYIDETEKKEE;locus_tag=LOCUS_04100;note=MGA_412
sequence1	MetaGeneAnnotator	CDS	476929	477774	.	+	0	ID=MGA_413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLFILSAIFSFSINLSENLENEMYAILNYDHRLYKSMYIGDDENNKYYSYNETSTRPLASLTKLMTALIIFDDIQEGKYELNTEVVVSKEASKVPYGVVIKENRIYTIEELLHLLLINSSNSSAYQLALFSSFGNVDEFVDKMNKKAKSLGLRSLRFRTPHGLPPVDTNKAMDIGNARDIYLLALNALNNEKLIEISKKYSYETSDGIKIKSTNTLVQLDEVLGLKTGFHRRAGYNIVYLIDNGDKKIIQVILGANTISSREKLGLKTLELMKESDK;locus_tag=LOCUS_04110;note=WP_005895391.1 D-alanyl-D-alanine carboxypeptidase family protein (Fusobacterium nucleatum) [pid:33.5%25%2C q_cov:86.1%25%2C s_cov:57.5%25%2C Eval:3.0e-33%2C partial hit],MGA_413
sequence1	MetaGeneAnnotator	CDS	477774	478649	.	+	0	ID=MGA_414;product=prolipoprotein diacylglyceryl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016426.1;translation=MRPYLFKIGSFEIRIYSLMYIISLFLGIFVAKKDEIAKKRGIKENIIEDYAYFVIIAGLIGARIYYVLLKWGYYSQNLLEVFKVWNGGLAIHGGIIGGLIGTIIFAKMKNVDSLVLMDMAVGPLILGQGLGRIGNLANGEIHGFPTITPFSVILKGNFSIWWQEFQAMPLMKQLEFKELVPWGLKFPLDTPAGQEFPNMSLHPAMIYEMILNFIAFYIIWFILRKKEYSKGILTMIYIITYGIIRIIVSTFRAEDLLISGIRAPYIVSLIMILAGIVGIYYFKNKNNKYLG;locus_tag=LOCUS_04120;gene=lgt;EC_number=2.5.1.145;note=WP_011016426.1 prolipoprotein diacylglyceryl transferase (Fusobacterium nucleatum) [pid:48.5%25%2C q_cov:99.0%25%2C s_cov:99.3%25%2C Eval:6.7e-76],MGA_414
sequence1	MetaGeneAnnotator	CDS	478666	479640	.	+	0	ID=MGA_415;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016366.1;translation=MRSLSGIQPSGMLHLGNYFGALKQFVDLQDSYEGIYFVADYHSLTSQINPEMLRTKSMNIVMDYIAAGLDPKKSTIFLQSSIPLHTELMWILSNLTPMALLERGHAYKDKVAKGIKANVGLFNYPVLMAADILLYEPDFVPVGKDQKQHIEFTRDFAVKFNEFYGKEVFKLPEALILDNVATVIGTDGEKMSKSYGNTINIYAPEKIVKKQVMSIVTDSAGLEDSKNPDNNITKLYSLFADENEIKAMKEKFIAGNYGYGHAKKELLERILDYFKEQREKRFALENNLDYVKEVLRAGREAANKIAEAKMKEVRKTVGLISDEI;locus_tag=LOCUS_04130;gene=trpS;EC_number=6.1.1.2;note=WP_011016366.1 tryptophan--tRNA ligase (Fusobacterium nucleatum) [pid:65.7%25%2C q_cov:99.1%25%2C s_cov:98.8%25%2C Eval:2.5e-122],MGA_415
sequence1	MetaGeneAnnotator	CDS	479637	480098	.	+	0	ID=MGA_416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILVALFAGIFLLSCSSINISTSSIKNSLSKRFDGEQNFYIFKAETKVTKVFIENRKLNIEVELKLKKLEKPIVALIETELKYNLPKLYATNAYIKSVSNVEYEKIVKELFNIIAKTVLFNKEILDVREKINPDKVKDIYVGEKAIVVEFK;locus_tag=LOCUS_04140;note=MGA_416
sequence1	MetaGeneAnnotator	CDS	480136	480657	.	+	0	ID=MGA_417;product=PTS glucose transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003861316.1;translation=MGFLCRLFGKCKREETKKSNEIKIISPLDGKVIPLEEVPDPTFAQALLGNGVGIEPLTSGVIKSPVDGTIIQLFETKHAFVVETEDGVQVLTHFGLNTVKLKGEGFEIITKEGSKVKAGDPIVKFDYDFLKSNAASLITPVVILETEEYKSVIPVKGIDTAISGETVIINIEK;locus_tag=LOCUS_04150;gene=crr;EC_number=2.7.1.199;note=WP_003861316.1 PTS glucose transporter subunit IIA (Enterobacteriaceae) [pid:44.7%25%2C q_cov:96.5%25%2C s_cov:98.8%25%2C Eval:1.1e-37],MGA_417
sequence1	MetaGeneAnnotator	CDS	480829	481362	.	+	0	ID=MGA_418;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLIPIFIGLISFSVDIIGPRYRIESSLGTLSGREKYIFRSYKFFSSSISLFTEWKAEINQKLDITFGPKITGNVAVNFDNPSQPTIRPSILLGGEVDFNYKIKENIKVYTGIEVGTGIGFQVPIISGDKHIQGPEFTSISKFALGIKLKDRYNIAIYTGDINGMIGIELGYTF;locus_tag=LOCUS_04160;note=MGA_418
sequence1	MetaGeneAnnotator	CDS	481379	481945	.	+	0	ID=MGA_419;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLILSIMLSVVGMISFSTNITGGKYRVEGALGFISTKQESKFENIRYTSGSISILPEFKAQINKKIDITFGPKVTVNIDFHSYQSKSKIRPSVILGGEVDFNYKLKDNIKIYTGIEIGTGVAIHMNYIPLDKRVSNNNNSPLELKRTELATIGKMSLGVKIKDKFNVALYTGNTKGVLGIELGYTF;locus_tag=LOCUS_04170;note=MGA_419
sequence1	MetaGeneAnnotator	CDS	481962	482582	.	+	0	ID=MGA_420;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILIILFIGLGLNSFSISTKANNRKNVTKKVSTKSSDFRNKVNNSETLNKIIGPRYKIDGSLGIISSRYVQNYAENYISLSAGFSSEWKTIVNKNFDITFGPKITLNVYSDSSGASIEINHGLILGVVSDFNYRLIENFKLYTGIEFGIGGGIRILYPKLIPSGENLLSIAKISLGFKLNDKYNVGFYVGNVKGLVGIEAGYTF;locus_tag=LOCUS_04180;note=MGA_420
sequence1	MetaGeneAnnotator	CDS	482601	483119	.	+	0	ID=MGA_421;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKMLLIILFVGIGLISFSNNIIGPRYRVDLSLGFGYILSEKDNGNEFISTSIGVLPEWKYQINNKLDLTFGPKVNLIFSNYISSKTKFLNGLVLGGEGDFNYRLKENVRLYSGIEVGIGGLIKFMPNKVESYEIINVSKISLGAKIKDKFNIAFYIGYSKGLLGIETGYTF;locus_tag=LOCUS_04190;note=MGA_421
sequence1	MetaGeneAnnotator	CDS	483232	484197	.	+	0	ID=MGA_422;product=6-phosphofructokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023041561.1;translation=MKKIAILTSGGDSQGMNTAIRVVAKTAMHKGIEVYGIRRGYKGILNRDIFKMSLLDVAGLAGKGGTMLLSARLPEFKDPEVRTRAANILKEFGIEGLVVIGGDGSFHGAHYLYEEHGIKTIGIPGTIDNDIAGTDYTIGYDTALNIILESFNQIRDTAKSHDRTFFIEVMGRNCGDLALNAGIAAGANGILIPEVETSIEDIINIIQKRREAGKFYDVIIMSEGYKNKENILKELKERMPELDVKHTALSHIQRGGNPTAADRLLATRLGVRAVELLLEGKSGLMVGIESSTVVTHKLSYAWENYHKKSQEDYDIAMMLSV;locus_tag=LOCUS_04200;gene=pfkA;EC_number=2.7.1.11;note=WP_023041561.1 6-phosphofructokinase (Fusobacterium nucleatum) [pid:51.6%25%2C q_cov:99.4%25%2C s_cov:99.1%25%2C Eval:5.7e-87],MGA_422
sequence1	MetaGeneAnnotator	CDS	484228	485667	.	+	0	ID=MGA_423;product=pyruvate kinase PykF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000751457.1;translation=MKIKMTKVVCTIGPKSEKKEVLKQLILSGMNVMRLNFSHGDFEEHGNRIKTIREISKETGKHVAILLDTKGPEIRTGSHAEGDVKYELVEGQDFIVTTDYEFKGTPEKISVSYPNMTKDLKPGDTILIDDGLIGLEVKKIEGNEIFCKVKNSGALGQKKGVNLPGVSVSLPALAEKDKGDLKFGCEVGVDFIAASFIRKASDVAEVRRVLDENGGEHIKIISKIENQEGIDNFDEILELSDGIMVARGDLGVEIPVEEVPFAQKMMIKKCNAAGKPVITATQMLDSMQKNPRPTRAEAGDVANAILDGTDAVMLSGESANGKYPVEAVKTMATISAKTDEYGVPKIYYSHDVTITEAVSKGAVEAAENLGAKLIVCWTKTGRAAKMIRKYNPTMPIIALTDCEVTARQLALVRGVRAVVAKDLDNAEHFFAKALEVAASNASTTEDEAYTGFKKGDLVVLVTGISETGTTNTFKVARIG;locus_tag=LOCUS_04210;gene=pykF;EC_number=2.7.1.40;note=WP_000751457.1 pyruvate kinase PykF (Vibrio) [pid:60.4%25%2C q_cov:98.7%25%2C s_cov:99.4%25%2C Eval:2.8e-150],MGA_423
sequence1	MetaGeneAnnotator	CDS	485727	486314	.	+	0	ID=MGA_424;product=recombination mediator RecR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016369.1;translation=MKKIDELVLVLSNLKGIGKKNATRIAFDLLSKDEDDINYLLYTIKSAYENIKPCSVCHNLTDLGICDICSSTNRNKNVICVVEDTRDIYAFNKASSYNGLYHVLGGKIDPLNGIGIDELNIDSLLSRIDENINEVILALNPDLEGETTILYLTKLLSNMNVKVSRIASGIPIGGNIEYSDSATLIKSLEGRVIIK;locus_tag=LOCUS_04220;gene=recR;note=WP_011016369.1 recombination mediator RecR (Fusobacterium nucleatum) [pid:46.4%25%2C q_cov:99.0%25%2C s_cov:98.5%25%2C Eval:1.4e-50],MGA_424
sequence1	MetaGeneAnnotator	CDS	486329	487480	.	+	0	ID=MGA_425;product=methionine adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016332.1;translation=MEKIYFTSEFVSPGHPDKICDQISDAVLDACLSQDEDSRVACETFATTGFVLVGGEITTKTYVDIQKLVRDKIKEIGYIPGLGFDYDCGVVNMIHSQSPDIAQGVDVGGAGDQGIMFGGAVDETPELMPLALSLARNIIMKLTTLTRNKTLSWARPDAKAQVTLEYDKNGKIQKVESIVLSVQHDEEVTIDVIKKELKELVIKPALSEYGRDILEVENFFINPTGRFVIGGPHGDTGLTGRKIIVDTYGGYFRHGGGAFSGKDSSKVDRSAAYAARWIAKNIVASGIAKKCEVQLSYAIGVVEPTSILVDTFGTSSIEDSKISKVVKEIFDLTPRGIEKSLSLRKPTFRYQDLAAFGHMGRKDIDLPWEKLDKVEELKNRLKG;locus_tag=LOCUS_04230;gene=metK;EC_number=2.5.1.6;note=WP_011016332.1 methionine adenosyltransferase (Fusobacterium nucleatum) [pid:67.7%25%2C q_cov:98.7%25%2C s_cov:98.4%25%2C Eval:1.0e-152],MGA_425
sequence1	MetaGeneAnnotator	CDS	487488	488981	.	+	0	ID=MGA_426;product=peptide ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000823513.1;translation=MKKILNRLMWILSFFILFMSCFKAEVNTEDKVLVYNLFSTPRTLDPHKFNDNISMQISNSIYEGLLRFDDKGKITGGLAKSYIKEGNKYSFELRDNLKYSDGTEIKLEDIEASLIRALNKAFLSQYASNLFVIKNARPYYEGKVSREDLGIKIENNMLVIELEKDYNYFPYLMTLPVSAPYKEGKYNGPYKLELQTEQEIFISKNENYWRSSEVHVNKVKYVYFKDFSVLNNLIKNEDIDISRVDIELLDSKNINSYYDGRIWYLDYNLVNNEMLKNLHLRKAISLAIDRDAYMKLKNDGSKKAFNLVDELFGYKPDYLIEDFNLELAKFELELAKKELGKDNFKIELLSGNSSIEVKEIQFIQEQLKKNLGLDVEVKTVPFNDRLALIRENKYDIALNTWSAKYKDPVSILERFRYRNKKIEVFEQEKYINLLEEGRIFTENRISKIKEAEKMLLENLIVSPLYFSIENQYISDRITNIVNYPIGSVTDLSYIMWK;locus_tag=LOCUS_04240;note=WP_000823513.1 peptide ABC transporter substrate-binding protein (Bacillus) [pid:31.3%25%2C q_cov:89.1%25%2C s_cov:88.7%25%2C Eval:9.7e-53],MGA_426
sequence1	MetaGeneAnnotator	CDS	489033	489461	.	-	0	ID=MGA_427;product=Holliday junction resolvase RuvX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902478.1;translation=MKIYLGLDIGDVRIGVAKSDGLAMFASSYEVIDRNITDPFERIKEIINSEKVIALVLGLPKTKDGQNSIQVEKIERFVSELKLFIPENLPIHYIDERYTTKEAEYYLKNFSKKNGKERRKVVDMVAAQIILQNFLDKYRGKI;locus_tag=LOCUS_04250;gene=ruvX;EC_number=3.1.21.10;note=WP_005902478.1 Holliday junction resolvase RuvX (Fusobacterium) [pid:47.1%25%2C q_cov:95.8%25%2C s_cov:97.8%25%2C Eval:7.2e-26],MGA_427
sequence1	MetaGeneAnnotator	CDS	489463	492060	.	-	0	ID=MGA_428;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016588.1;translation=MTGNELRKSFIEFFKSKEHKHFESASLIPDDKTLLLTVAGMVPFKSFFLGEKKAPYNRITTYQKCIRTNDLENVGVTPRHHTFFEMLGNFSFGDYFKRESIKWSWEYITEILKLDPNRLYVSVYLTDDEAYDIWTKEVGVPEDHMVRLGDDDNWWAAGEIGSCGPCSEIYYDTQIMGENNEEINSKPGDEGNRFLEIWNLVFTEWNRLEDGSLVPLPEKNIDTGAGLERIASVVQNKSNNFETDLFIPIIENIKEVLSIKEEEISTSVKIIADHLKASTFLICDGVLPSNEGRGYILKKLIRRAYGAGAIENREIFNKSLTFLHNIVDSIIDNMKEAYIELDEKREYIKNIIKSEEDKFSRTLKSGTEILFEEIKKCKSENISKLPSDVSFKLYDTYGFPFEFTRLIVENNKMIVSEDEFNQKLEEQVKRSQDSRVKNSDMIKDEFIDKFYKENGKTLFTGYDTLNDEAKVLHIKNLENELYEVIFNRTPFYAEGGGQIADKGVIKYDNKVIAEVKDVIKKSDVFIHYISGEELKFDIEYILEVDKKRRNDIKKNHTATHLLHKVLKDVLGSAVEQAGSLVSDDGLRFDFSYYEQVSQEQVNIIENKVNELILENLPVYINYENINDAVKKGAMALFSDKYGDVVRVIDISGVSLELCGGTHVSSTGEIGLFKIKSEQGKASGIRRIEATTGYKSLEYVHNLEKDIQDISNKFKTSPVNLIPAINKYREEVKVQENTIKELQRRLVKFEINDLTNEAIDINGVKVLVKSFKDKDVNELKDLVDRAKEILKSCVILFGSNNEKAIFVSGVTKDLINKYHAGNIVKNAATIADGNGGGRPDFAQAGGKDGNKVKEALEKTLEYIKGI;locus_tag=LOCUS_04260;gene=alaS;EC_number=6.1.1.7;note=WP_011016588.1 alanine--tRNA ligase (Fusobacterium nucleatum) [pid:52.0%25%2C q_cov:99.8%25%2C s_cov:99.4%25%2C Eval:9.0e-257],MGA_428
sequence1	MetaGeneAnnotator	CDS	492295	493299	.	+	0	ID=MGA_429;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949137.1;translation=MKKITIKDVAKKANVSEATVSRVMSNSPLISDKTKRKVLKVIKELDYFPNSAAVSLTKSSSRIIGIVIEDHNDNPLQNDFFTETLSYISTYALERGYYILYIHSKDNQESHENIERLIKTNRIDGLVFLNLVENDRNINYLQKINFPYVILGTPKELSMGMWVDNDNIKATKEVTKKMIEKGYSNFAFLSGPTNLTVSNYRKEGFLIALKEAKIKSKHQISSDFDSYEAYFTTKKLLEMDENIEVIVTTDDILAIGAIRAIEELGRKVEVTGFNNSKLRKYLKLDFITVDIRYEELANKSVNILIDSIENIKREKNFVIVQSDILEGDNNGTKF;locus_tag=LOCUS_04270;note=WP_011949137.1 LacI family DNA-binding transcriptional regulator (Clostridium botulinum) [pid:39.0%25%2C q_cov:97.9%25%2C s_cov:99.1%25%2C Eval:2.2e-60],MGA_429
sequence1	MetaGeneAnnotator	CDS	493283	494779	.	+	0	ID=MGA_430;product=4-alpha-glucanotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002917858.1;translation=MEQNFDYKHINKNRKSAIIMHISSLWNEYGIGNLGKEAYEFADFLKASGQYYWQILPTGPTGYGDSPYQSFSSFAGNPYFIDFRILEEEGLLNREDYENLDYGNDPNRVDFGKIYLTRKEVLSKAFENFKNIEDEKYNIFITENSDWIHDYSLFMALKEHFGNISWEDFPQEIKDRNLEELDKYEILLKDKINYQKFIQYKFFSQYKKWKEYVNSLGIKIIGDMPIYVSPDSLEVWKDRELFLDNIVGGCPPDGFSAGGQKWGNPVYAWEKHMETGFKWWINRIEKTMKYIDVLRIDHFRGFESYWAVPKFDEDARNGKWVKAPGVELFEAIEKALGKIDIVAEDLGYTTVEVVKFREKTGFPGMKMLQFAFNPENESDFLPHQIERNWAVYTGTHDSDTVKTWFDRANPIEVEFAKKYLHLTDPKDYVKGFIRAAWSSVANLAVAQMQDFLELGDEGRMNTPSTLGNWSWRVRKEMLTKELSKEIYDLTKTYFRLND;locus_tag=LOCUS_04280;gene=malQ;EC_number=2.4.1.25;note=WP_002917858.1 4-alpha-glucanotransferase (Streptococcus sanguinis) [pid:48.8%25%2C q_cov:97.6%25%2C s_cov:98.6%25%2C Eval:5.5e-141],MGA_430
sequence1	MetaGeneAnnotator	CDS	494790	496595	.	+	0	ID=MGA_431;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITRKIDNDLRNLGLDLRYRYDGKLGIEYSKENTIFRLFAPTATKVELLINNQNLEMRKDTDKGIFELTVNGDLDKIPYMYKTFFEGEVFETTDPYAISSEANSARSVVVDLSKTLKGNRMPKFNMLDSVIYELHIRDFTLNAKNKGKYLGVVEEKQLNYLKKLGITHVQLLPIYDYSTDSVDELNPDLRYNWGYDPVNYNVPEGSYSSDPKDPYSRINELKEMIEILHKNGIRVIMDVVYNHVYDALAHSLSKCIPNYAFRKTEYFHFSNGTGCGNDVASERVMIRKYIVDSVKYWASEFNLDGFRFDLMGILDVETMNEIRKELDKIDESIIILGEGWDLATSLSDDLKANQLNANKMPNIAFFNDDIRDGLRGSTYEKLGQGFVSGGRFEKRLIPSIKGGQGLKSYIAPNQLIQYIEAHDNNTVFDHIEITNGNESLDDRIKMQSIATSLIMMSQGIPFIHAGQEFFRTKNGVENSYKSSDEINKFDFERAEKYSSFVKYLSDLINYRKDKKILKLESYEKINEIFNLIKADDNVLAYSFGNIYIIANVSKEEQNINLVNGRYKVIFDEFNKIENESINIVNEYRIKPLNILILEKDI;locus_tag=LOCUS_04290;note=WP_001167514.1 type I pullulanase (Bacillus cereus group) [pid:43.3%25%2C q_cov:97.5%25%2C s_cov:73.1%25%2C Eval:5.2e-136%2C partial hit],MGA_431
sequence1	MetaGeneAnnotator	CDS	496778	498073	.	+	0	ID=MGA_432;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLKKVVTGGILMFSLLMSCGTKESEKTENGLTGHIVVQAEKTWAPYYKEAIARVKEKNPKAKIDLKVIGSFDHIKAIEETNAENEDVADVFAVPLHKMESLYKKDVLAPFDAKALGKKLGGFGDFDSGLGGHLKFNDSYFGFPFNIETLLLGYNTKNVVANGVDLSNLDFAELSPEVGMIPVINGWWGVAITNAFGVELLAKNGDKFFSDLIKDWSELTPEMQKMFVGLHKYWKASNDKKLSLFDTTAVYGYMDDNFRTGKKGSVRIAGPWELSAWSGLVGDDFDVAALNTAKFAGKELKHWQGGWSLSINARNEEDANKLALSEAVIAEIMNPKHAADFYKYTSKVMPHVSKEDYAKLTLSELDKKAINAVIDGYEVAVSRPLFKEWEQVWETWENAILSWEAKKPSTPEAAYKEIQASFRALLTNLGQ;locus_tag=LOCUS_04300;note=MGA_432
sequence1	MetaGeneAnnotator	CDS	498224	499030	.	+	0	ID=MGA_433;product=ABC-2 family transporter protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011674906.1;translation=MKVISIYSRNSLKRSLVYKWDIWISVLSGIFNILGMLFLWSVVYKNSGKSSIGGYNFNSIVLYTLMSNLTAMIINVDIARIISNEVKSGEITNSFIRPVSYITKLVGEGIGHILFNLIMLFSPIISILIIYMNIFNIKSEITLGSILFYTVSLLFSIIINFEISILVGFCSFYVNYIWGFILLENAILTIVTGQLFPLNFYPDKVVKFLEITPFYYINFGPVSILLNKFSKYNSIRILLIQSVWCIILAIFVSIIYNKAKTRLQINGS;locus_tag=LOCUS_04310;note=WP_011674906.1 ABC-2 family transporter protein (Lacticaseibacillus paracasei) [pid:25.8%25%2C q_cov:89.6%25%2C s_cov:89.1%25%2C Eval:2.3e-19],MGA_433
sequence1	MetaGeneAnnotator	CDS	499031	499465	.	+	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIILKYLYIYLVKFKYEFKIFTNSMSNFIIGVLAFLIIQISGLLFIGILYKNTSSIDEFDVYQMLALYGFSQLTKGIDHFYSDFLWNFSSNGVTRGLYDKYLVRPLNPLFQIIIEKVQFDAFGEIITGISLYVYAIIKLKNNY;locus_tag=LOCUS_04320;note=WP_011837476.1 ABC transporter permease (Streptococcus sanguinis) [pid:36.3%25%2C q_cov:86.1%25%2C s_cov:47.5%25%2C Eval:2.5e-21%2C partial hit],frameshifted%2C insertion/deletion at around 499459%2C499110%2C499519,MGA_434
sequence1	MetaGeneAnnotator	CDS	499580	499834	.	+	0	ID=MGA_435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKNVYSISTYAKYPITIYPKFMQIILTYIFAYSLTAYYPIKYTLLEPLNIYTFIKLIIIITVLIIATKIIWKQGEKKYESSGS;locus_tag=LOCUS_04330;note=MGA_435
sequence1	MetaGeneAnnotator	CDS	499803	500834	.	+	0	ID=MGA_436;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001240806.1;translation=MKKNMKAQGHSIIKVENLTKEFTIYKRKGLFSREKKIIRVVSNLNFEINEGERLGFLGPNGSGKSTTIKMLTGILTPTSGNCYVNSLIPTKNRIENAKIIGVVFGQKSSLWWDLTLEDNLKLLKEIYDIDNKEFEERYKYLDDILNIDEIKYKQIRQLSLGQRMKADLAGALLHKPKILFLDEPTIGLDVVIKDKILKTLKKINEDENVTILLTTHDMRDVEYLCNNIIVINNGEIIYKNSLENLKKIYSKDKVCICNLINTINVSSLMNELTLDKTIKEYKLEKNNLRIIFENNIEREKELILKLFNKLEIENIKFEEISIDKIVKRIYNDNHKTKNNLETL;locus_tag=LOCUS_04340;note=WP_001240806.1 ATP-binding cassette domain-containing protein (Streptococcus pneumoniae) [pid:41.3%25%2C q_cov:93.3%25%2C s_cov:98.5%25%2C Eval:1.6e-69],MGA_436
sequence1	MetaGeneAnnotator	CDS	501223	502524	.	+	0	ID=MGA_437;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNFKKLATSVFLAFSLLISCGSKGDVKTGNGEGLTGHIVVQAEESWKPYYEAAIERVKEKNPDATIDLKVIGSFDHMKVIEETNAENEDVADVFAIPLDRIESLHGKDLLASFDAKALGNKIGGFRDFDKGLGGQLKFDGSYYGFPFNIETLLLGYNTKNVAANGIDLANLDLAELSPEVAMIPVFNAWWAVAITNGFGVELLGKDGDKFFSDLTKDWAELTPEVQTMFVGLHKYWKESNDKKLPIFDITAVYGYMDDNFKTGKKGSVRISGPWELAAWSGLVGEDLEVAGLNQAKFAGKELKHWKGGWALSINARNEENMEKLALSEAVIAEIMNPMFAADFYKITGKIMPNVSTDEYAKLELEELDKKVITSVIEGYEGAISRPLFQEWGQVWTTWENALLSWEAKKPATPEEAYKEVQASFKSLLTNLGQ;locus_tag=LOCUS_04350;note=MGA_437
sequence1	MetaGeneAnnotator	CDS	502593	503000	.	+	0	ID=MGA_438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLDRNTLNKFLLMVLFIMIFESLNGMYAVKSIDLFNEVHSKTGISLNDYITVEMIKYFSSVSIFMIFSIYTYVSYRHYKINSLYKGVWTLFITTNILFKIFVFKQDTIFYYLSIIFQFILVIYILKFKQKEREE;locus_tag=LOCUS_04360;note=MGA_438
sequence1	MetaGeneAnnotator	CDS	503003	505021	.	+	0	ID=MGA_439;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNHKVYDSLDNPHARKNLYLKDVADGITTNKNSHSYIVEMKKLLEEEKIYLSALNKLKFTEKKELLSKFDEKEAKLRIELFEAEKLNLFYAGKEEKSYDFELESKKSAIKIDRLPSIIKLYSESIKEKKELQLKLSTLSRHDEEEKIKEFESKKQDLKNIFKSEVDKLKNSHSEGLISGKALRTQISQLKMELKDKLEVLKLDIPSEGIKSRINVLNYLSTVEVKSRYKIMQQDIADLYRKIPVEIESINKTPALLSLLFPGFGQYHNKQYFKAALFFIGLLFIYFVAIPYTLGYGNYRGEGIRGLISLAKNGKKLDKSIIFMIEGIISIILILFTITISYLSFKDAKDVMVAKLKGIRPKTTFETIESLKEEGFPYIVSISSFILLIFVVILPIMTTILLSFAGMDPNNQSKFQWIGFENYKLLLTGTGIAGGPFWLILGWTLLWTIFATTLAITVGFGLALLANNERIKGKVIYRTIYLLPWAVPAFITIMFFSIMSSRTGQITKLLEFMFGGDWAIKNSTTLTRIALISLQTWLGSSYVFLLSTGVLQGISSDLYEAADIDGATSWQKLTKITVPLVLFQTAPLLIGQYTFNFNNFSIIYLFNGGGPFDPSKYGNLAGSTDLLISYIYKLTIEKQYQSIGAAITVFISIGLMFVAYLGFKNSKAFKEGK;locus_tag=LOCUS_04370;note=WP_001194988.1 maltosaccharide ABC transporter permease MalC (Bacillus) [pid:39.8%25%2C q_cov:62.5%25%2C s_cov:95.2%25%2C Eval:5.8e-75%2C partial hit],MGA_439
sequence1	MetaGeneAnnotator	CDS	505021	505914	.	+	0	ID=MGA_440;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722383.1;translation=MAKKSKNTNLYLSDKPPLNFAGKVGLAISYIILTIWALLIIVPLVFMVVASFNGEQQKYLILGSSFTFSLKHYSILFNKTLFSRWVLNTIVIATATALFTLLIVSFTGYVYSRFRFKGKKVSLMAIMLIQVIPAFAGIAAYYTMHQIIVSIFPFFTRTLMLISIYSIGGIAGNTFILKGYIDSISPELDEAARMEGSSNMQVYRLIIMPIAKPMLAIIALWSFIGPFMDFLLPRILLTNPKQYTLAAGLFTLISDDRTRLEPVFAAGGILTAIPIVLLFIVLQKQLVSGLSSGSVKG;locus_tag=LOCUS_04380;note=WP_003722383.1 sugar ABC transporter permease (Listeria) [pid:38.2%25%2C q_cov:84.5%25%2C s_cov:87.3%25%2C Eval:1.6e-51],MGA_440
sequence1	MetaGeneAnnotator	CDS	505923	507002	.	+	0	ID=MGA_441;product=sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000818931.1;translation=MKVELKNVGKKYEGNDVYTLENINLKIESKDFCVILGPSGCGKSTLLRMIAGLNSITTGELLFDDKIMNKVHSKDRNIAMVFQSYALYPHMTVYDNMAFSLVMRKMDKKMIHERVLEAAKILQIEKYLYSKPSDISGGQRQRVALGRAIVRKPAVFLMDEPLSNLDAKLREHMRIELVKIHRNLDTTTIYVTHDQTEAMTMGTRIVLMNDSKIQQVGKPEEFYNKPQNIFVAKFIGSPTMNIMEGYIKDAHFISDSEEVVIKANETDKERLREYEGKRVSLGIRSERFLSGDEHENRFAATIEVIEMLGKEKLLYCKLTDGTNLVVTMPGHYNYEIGEVHNFGFDTEALHFFDENGNRI;locus_tag=LOCUS_04390;gene=ugpC;note=WP_000818931.1 sn-glycerol-3-phosphate ABC transporter ATP-binding protein UgpC (Bacillus cereus) [pid:52.8%25%2C q_cov:98.1%25%2C s_cov:97.3%25%2C Eval:6.7e-95],MGA_441
sequence1	Barrnap:0.8	rRNA	507449	508962	.	+	.	ID=Barrnap_3;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00030;note=Barrnap_3
sequence1	Aragorn:1.2.38	tRNA	509054	509130	.	+	.	ID=Aragorn_12;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00120;note=Aragorn_12
sequence1	Aragorn:1.2.38	tRNA	509154	509229	.	+	.	ID=Aragorn_13;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00130;note=Aragorn_13
sequence1	Barrnap:0.8	rRNA	509357	512249	.	+	.	ID=Barrnap_4;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00040;note=Barrnap_4
sequence1	MetaGeneAnnotator	CDS	512562	513944	.	+	0	ID=MGA_444;product=asparagine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016098.1;translation=MELRDLQLNIEKYLNKKVKLDGWVKKIRSQKKFGFIEFNDGTYFQGIQIVFDDNLENFEEISKLSIYSSISVEGTLVKSEGKGQSFEIKVDNISVYNKADISNPLQNKRHGMEFLRTIAHLRPRTNTFNAVFRVRSLLAHAIHKFFMERNFVYVQTPIFTSTDAEGAGEMFQVTTLDLNNLPRNEENIIDYREDFFAKPSYLTVTGQLHVEAFASAFHNTYTFGPTFRAEESYTARHAAEFWMIEPEIAFANLETNMDIAESMIKYIIKYVMDNAPLEMEFFNTWIEKGIIDKLNNILNNDFGRVTYTEAIDILKNSDAEFTIPVEWGMDLKTEHERYLAENVFKKPVFVTDYPKDIKAFYMKLNEDGKTVRAMDLLAPGIGEIVGGSQREEDYDKLVNIMREKELNIDDYSWYLDLRKFGSFPHSGYGLGFERMLMYITGISNIRDVLAFPRTAKSLEY;locus_tag=LOCUS_04400;gene=asnS;EC_number=6.1.1.22;note=WP_011016098.1 asparagine--tRNA ligase (Fusobacterium nucleatum) [pid:67.5%25%2C q_cov:99.6%25%2C s_cov:99.3%25%2C Eval:1.4e-188],MGA_444
sequence1	MetaGeneAnnotator	CDS	513956	514693	.	+	0	ID=MGA_445;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFLALLVIPLFLKGDFLEELQKIDILLQKGQYKEALQKGKELTETEITEDDRSSLQNLLSVIEKKIKSESGNLADRIFNNTGEINFTTNEVAAREFSESASSGTFAFPGDVLNDAAKYQEYANFEKEVLANDNTENIYTLSTIYMKSGLYERAMNLGLRSNEIRTIYNSALAARLIGKYEIAIKQYSKVLYSDPSHLNSLLGLGLSYRGMGDKASAINYLQKYLNSGGTNPNVDKTIEYLSR;locus_tag=LOCUS_04410;note=MGA_445
sequence1	MetaGeneAnnotator	CDS	514699	515508	.	+	0	ID=MGA_446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGWINLSRILKEDICVEIMKRYDNIFHAIDDFKKYDLNKTILYKLLKAAKEDDIYYINKCREENIKIISFKDKNYPKKLIQSGFIFPYIYLKTNIDINKLENILAFSSNYDLIENTKKILDNTLDLNDNISLSLVTETDADKYIQKKFSSKKNNMIYINSRDFKYIPKYYDLDKDVLISMSPFEDFRSKNNILKSTCLLAGISDYLYIPESFLTSRAMILSKIMNSMGKEIFASTSYGNRYLGCNYILRNNIAKLVMSKDDINKEVNNG;locus_tag=LOCUS_04420;note=MGA_446
sequence1	MetaGeneAnnotator	CDS	515501	517807	.	+	0	ID=MGA_447;product=type I DNA topoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902939.1;translation=MAKNLVIVESPSKAKTIEKILGSNYEVLASVGHCIDLPKSKIGIDIQNDFKPDYKIIKGKKDILEKLKEKSKKANKVFLASDLDREGEAIAWHISKYINQDSKVKRIEFNEITKTAISNAIRNPRDIDTNLVNSQQARRLLDRIVGYKISPLLWPIVGKKASAGRVQSVSLKLICDLEEEIKNFISQKYYEIDILINKEIKLNLSEIDGEKIDKIFDEKIFKKAFSDLENSEVMVDEIKISKKSQKPPVVFKTSTLQQLASSYLGFNATKTMRVAQRLYEGLNIEGESKGLITYMRTDSIRVSEEAKFEAKKYIEKKYGKEYVGNYYISDKKNIQDAHEGIRPTDINMSPEKIEKYLTNDEYKLYKLIWDRFLVSQFANVKYDQMQIVASKDKYVFKGNINRITFDGYYKIFKSEDMIQTEDFPELKEKHEYKIDEILTKTGDTKPPARYSEATLIKKLESLGIGRPSTYASIIDAIKEKKYVDIVEKRLVPTIFGKEVKILLENNFKNIMNIKFTASMESKLDDVATGKTFWVDLLKEFYNHLLDEMDVYKQKVDELKNRVIYTDMECSNGKGKMILKSGSFGKYIVCEFDSSEKISIQGIELTEEDLNKDVVQIKDKVEKLMEIRKGLKTDMLTPNGSKYLLKIGRFGEYLESEDYENDKLRKTLTKDLKLKIKKGTLKPVDGVYLLREYFEKLDNENEKILELAGKCEKCGSEFNIKIGRFGKFLACSGYPQCENIKKIPKSDNAKKRVTKNKAKAKTTKKNKKK;locus_tag=LOCUS_04430;gene=topA;EC_number=5.6.2.1;note=WP_005902939.1 type I DNA topoisomerase (Fusobacterium nucleatum) [pid:51.8%25%2C q_cov:96.4%25%2C s_cov:98.3%25%2C Eval:4.5e-220],MGA_447
sequence1	MetaGeneAnnotator	CDS	517816	518715	.	+	0	ID=MGA_448;product=site-specific tyrosine recombinase XerD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000390088.1;translation=MDKLLEKFLYYQDVVLNKSFNTVKSYKKDLEQFIEYLKNNEGIEDFNKVEIFTFRSFIAYLNVELQVNKRSINRKLSAIRTFFKYLLENDYIIENKAVYISTPKFEKPLPNFLTKEDIDKLRSVIKLEKITGLRDRAIIELLYSSGLRSMELLDLTEYTIDLKNMEVRVIGKGNKERISFFSNNAQKYISEYIERKKEEYKNYNKDAIFVNKDGNKLDSRSLRRLITKYSIKAGINKEVTPHIFRHSFATELLNQGVDIRFVQELLGHSSIATTQFYTHISKNTLKDAYMKSHPFATKK;locus_tag=LOCUS_04440;gene=xerD;note=WP_000390088.1 site-specific tyrosine recombinase XerD (Bacillus) [pid:38.0%25%2C q_cov:99.0%25%2C s_cov:100.0%25%2C Eval:1.3e-53],MGA_448
sequence1	MetaGeneAnnotator	CDS	518724	519899	.	+	0	ID=MGA_449;product=ribosome biogenesis GTPase YqeH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016880.1;translation=MEKKCKGCGLLLQSNDPKIDGYVPHEKLISNDKIICKRCFRLKHYGENLEKEEDKLSYQIEVKKAIKEADIIIPIFDIIDFESSFTTEIIDLLEDKTILAVINKIDLLPGYIHIAEVSKWVKYYFSENNVYPEDVAFISAKNRYGVNGIFRKIQYIAKNILKKSLDSNVKIAVIGVSNVGKSNLINLLLEKNISTVSKFSGTTKKMLVNKKKTKEYMLTIIDTPGLIPEGRLSDLLNSDISYKLVPSGEISRKTYRLKEKQVFMFENLAYFEVKNIPDNKSSAIISAYASREVKFHITNMEKAKELSKNGFFKFLDEENYNKYFSNDFIKQDYIIEENEDFVIAGLGYIEVKRGPLEISAYYPKDVKALVRKSISKNSDFEEELDEDDLLW;locus_tag=LOCUS_04450;gene=yqeH;note=WP_011016880.1 ribosome biogenesis GTPase YqeH (Fusobacterium nucleatum) [pid:40.4%25%2C q_cov:95.4%25%2C s_cov:98.4%25%2C Eval:1.9e-74],MGA_449
sequence1	MetaGeneAnnotator	CDS	520006	520764	.	+	0	ID=MGA_450;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016735.1;translation=MKVAVLGSSSSGNSTFVEVGGVKLLVDIGFSLKKTIEKLESINERLEDIYAVFITHEHIDHVKSLGPLLRKTNILVYIHEDSYNMIKSKLGKYDEERIIFLNKREVYIKNACVINFDLTHDSEHCLGFSFIENNKKFVYITDAGYVTKAMELQCQNADVIAIESNYDYDLLMSGSYPWDIKSRIKSKFGHLSNQDCLKLLKNSYTEKLKKIFLMHLSEENNMPSLAMYNIRKEYKNIDVEVSDENVTSIFEI;locus_tag=LOCUS_04460;note=WP_011016735.1 MBL fold metallo-hydrolase (Fusobacterium nucleatum) [pid:43.6%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:3.2e-57],MGA_450
sequence1	MetaGeneAnnotator	CDS	520774	521340	.	+	0	ID=MGA_451;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWKELEYRIRTLSVYRNYKSNEEIMLGQGNRNSKIMLILPDIEKEALENGNILDSNNGKVIQNIFKYLGLDIDNMYITSLYKLDKNFIRYDVNTIEELLDVLITEIMYVNPKYIVTIGEEVFNILISDALGKDNKKMNVNINKCVGNIYEYFEKVLIPIYDIPYISKAKKEEKIKIVDVLKLIKEKNK;locus_tag=LOCUS_04470;note=MGA_451
sequence1	MetaGeneAnnotator	CDS	521337	522437	.	+	0	ID=MGA_452;product=redox-regulated ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017102.1;translation=MIGIGIVGLPNVGKSTLFNAITKTQNAEAANYPFATIEPNVGIVSVPDQRLNEIAKIINPKRVLGASVEFVDIAGLVKGASSGEGLGNQFLSNIRNTKAICQVVRCFEDENIIHVEGSVDPIRDIEIINSELILADIDTVEKAIVKNSKLSRTNKEAKILVDTLEKCKKILEEYKMLSSYNFTEEELNAIRTYQFLTLKPMMFGLNISEEDLVNGTENDHMKKVREYAESINAECVSFSAKVESELIEIEDEDERNEFIESLGIKEPSLNRFIRSGFKLLGLISYFTAGEQEVRAWTIEQGTFAPKAASEIHSDIERGFIRAEVVAYDKFIEYKGWAGSKEKGAMRLEGKEYLVKDGDVMFFRFNV;locus_tag=LOCUS_04480;gene=ychF;note=WP_011017102.1 redox-regulated ATPase YchF (Fusobacterium nucleatum) [pid:62.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-129],MGA_452
sequence1	MetaGeneAnnotator	CDS	522449	523801	.	+	0	ID=MGA_453;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016673.1;translation=MYDLLVIGWGKGGKTLAGILANKGKKVAIIEKDPKMYGGTCPNVGCLPTKAMVHRAKILSEMELLGVERDYEFNNIIYQNALSEKKKLVNKVNTANFNLLNNNENVTVYNGEAKFISNTEVMVNGEILTAKNIVINTGSKTRIPNIKGVESKHVLTSDDGLELEILPKKLAIIGGGFIGIEFASYFSNFGSDVTVFEGIDKFMPKEDIDISETIFNILVEQGINFNFGIKILEFNEVEDSIEIKFEKDGEIKSEIFDKILISIGREPNIEGLDLENTNITVSDRGEVVVNEYLETTVKGIYAVGDVKGGEMFTAVSLDDSRIILPQILGEKGRSLVSGRNVPKVLFIDPSYAQVGLNEKQATEKGIKYIVKKLATTAIPKSLVIGETDGFTKVLINENDEIIGAFIINYEAHEMINLLALAIDQKIKYQVLRDLIYSHPVFTEGLNDILK;locus_tag=LOCUS_04490;note=WP_011016673.1 NAD(P)/FAD-dependent oxidoreductase (Fusobacterium nucleatum) [pid:53.6%25%2C q_cov:99.8%25%2C s_cov:99.1%25%2C Eval:1.5e-134],MGA_453
sequence1	MetaGeneAnnotator	CDS	523815	524654	.	+	0	ID=MGA_454;product=mechanosensitive ion channel;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011073210.1;translation=MESVMTYLKKIFDLTFILHWLENNLFKLLMGLIILFFYKKIADFILKLLDKILFSKIKDHGLRSFLKSFLKVFIHIVLVYLIIGLFGFNLTTLFALVGALSVVLGFAFKEIIQNIFGGIILLVFKPFKVGDVIQYNSYMGTVKKIEIFYTRIINFQNETVIVPNGLLINNEIRNITAQNRRRLDLIISVSYESNLAQVKEILEKIVADCEYVLRGKNDNITIGIGELGSSSINFVTNVYVLPEHYVLAKFFILEEAKKRFDLAGISIPFNQLDIYIKNK;locus_tag=LOCUS_04500;note=WP_011073210.1 mechanosensitive ion channel (Shewanella oneidensis) [pid:36.3%25%2C q_cov:90.0%25%2C s_cov:90.5%25%2C Eval:4.5e-42],MGA_454
sequence1	MetaGeneAnnotator	CDS	524663	525289	.	+	0	ID=MGA_455;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016953.1;translation=MEVIRFENYDYTSNTYVIISDEKTYIIDPGSKNMTKVLEYIKENDLNLTAVLLTHGHFDHILGLPMILEYKNVTVYIHENEKEFLYNGNLSLLLWAQTNQSYLTPCLENANIVTLKDGDRIDKFEIIHTPGHTNGGICYYNKEEKIIFTGDTLFKNTYGRVDLPTGDSEAMWKSIAKILKLERDTIIYPGHGDSTTVAMEYSFYYSAF;locus_tag=LOCUS_04510;note=WP_011016953.1 MBL fold metallo-hydrolase (Fusobacterium nucleatum) [pid:39.5%25%2C q_cov:97.6%25%2C s_cov:96.6%25%2C Eval:6.5e-36],MGA_455
sequence1	MetaGeneAnnotator	CDS	525405	525551	.	+	0	ID=MGA_456;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNLTEKEIYEIVGGTHQFIEKPPINEIYPNVTANCTVHPSPNYVLIP;locus_tag=LOCUS_04520;note=MGA_456
sequence1	MetaGeneAnnotator	CDS	525892	527262	.	-	0	ID=MGA_457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKIFYILFTLYILCSCNIFKKDEINLVPYKVNIDYSKYTNTFNKNDELINLEYEKIIKHNYFSDDILKEMFIKPEMLSKEEAKEDIELLLYLLKTRYVEYNNIDFKNLEKEKDIILKDVDNKISLTDFKKKILNLLNKYINNSHFIFEENKISKKSSSYIYNKYIKKNNGKYFINNKEIYKINDEEDIEKFIVKTLDENFNLQYTIVDIDFIGSLSKNIKIEYTDNSYEEIEILKINGKMSNQFQLKVEKDYIYLSLPTFLNINLNGKNLEEYLFYKLKDEKVENKNLIIDLRGNSGGYISSIEYILRRYYDLPFNVINLVGNKYNNITSYLSWYYDNYKKGVEKFVKKRGKSKIFIIVNNKSASSSEVTISMLKLLDYKNVYVLGSNSSGTFITTSGDNYILKNSNLILKIPRSGSFVPKEYHGEGIGFYPDVWIKDGKDIENVVKELIKKID;locus_tag=LOCUS_04530;note=MGA_457
sequence1	MetaGeneAnnotator	CDS	527954	528169	.	+	0	ID=MGA_458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILSEEEMLKIDGGKSYSKIAKGVGKVIGGTISYVTAIDDDGSGIISDVREGAIEMIRQGIDDFKEGWNE;locus_tag=LOCUS_04540;note=MGA_458
sequence1	MetaGeneAnnotator	CDS	528162	528980	.	+	0	ID=MGA_459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKFIILLSIYFIYGIFKYINYSLIECSKLFYYIYIFRGYLLLSSVVPLYYYFKNIKIKKEAKIFEIYNYFSLLSLMIVIGYIFSNLNILLGLDYKSHYAFVGPVIIWFLFSSFFSSILEELIFRFFLIETLKKRKYKSIIVISSIFFSISHLRLDSWIISFFIGIILAKIYMDFGLRYSILAHIIYNFIYNIPKLFFRTKFYYIISFIVIIILIFSLIISILTYKKYLKKHSYNFLLTYNDIKIFLFENKLSIILIIFISLINIYLGIDLK;locus_tag=LOCUS_04550;note=MGA_459
sequence1	MetaGeneAnnotator	CDS	529175	529711	.	-	0	ID=MGA_460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKIKLNVVYYFLSFIPLYFLFTLDNTNNLGNIVNKLIAIMTFLINIRLLYLEFLKIGNKMKSKKVSYQEFFLYIFYFLAVIDFIFGVFFKDLNIIKTGFYLYLFGTVFVNQGIIYYDDKVLILGFLIINRENISNVEMKNKKVLIKYKNGIERKINFPTKLSAQYFFDFLMSLSQLL;locus_tag=LOCUS_04560;note=MGA_460
sequence1	MetaGeneAnnotator	CDS	529720	529869	.	-	0	ID=MGA_461;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIEELNLKEKTSINGGDFKDATNAFVGTLATAGAVVEGVNDLYNKINK;locus_tag=LOCUS_04570;note=MGA_461
sequence1	MetaGeneAnnotator	CDS	530407	531213	.	-	0	ID=MGA_462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKCKITLQERLKDLRVSHNLNLEELAKLTGISKSALGNYENDDYKEINHGNLVTLAQFYNVSTDYLLCLTENKNHPNTDLTNLHLSDDMIDLLLSGSINNRLLCEIATHDKFKELMADTEIFVDGVATKRFNDLNSSLETVRTEILNQNPNVSNDHTLRTLLAAQVGEEDFFCHITHKTWDSIIKDIRKNHEQDIDSIPEDDDTLSLQKIRQIMISSGNNMDKFIEIFCNSFQLKYKRLSEDEKEFLRKLFKKSPIIKNSGINFRKRK;locus_tag=LOCUS_04580;note=MGA_462
sequence1	MetaGeneAnnotator	CDS	531597	532352	.	+	0	ID=MGA_463;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKKMITKTFVATILSLTMIAPASVFAYENTDSQYSEDVVVSEDVNIEQSENVNFHQVEIRDTNDLAILSDELDRFVQENPNSSEEEQDQHLIEFIKNGGLERPTTRSIGDYLPGYGKLNTAERKLAIAHPVQAVKVYNASKTATAKTIEVYGHNGWQDNSDAFRHCLWNALMKQSIGTSAAEKWATAHEYTSSGIDKQMDLHNNAVGRGINVSGKSTSSIVDAVKSKVRNGSCKRIINDRLVATDGSGM;locus_tag=LOCUS_04590;note=WP_096456326.1 hypothetical protein (Corynebacterium suranareeae) [pid:50.8%25%2C q_cov:22.7%25%2C s_cov:21.8%25%2C Eval:5.2e-07%2C partial hit],MGA_463
sequence1	MetaGeneAnnotator	CDS	532417	533433	.	+	0	ID=MGA_464;product=endonuclease/exonuclease/phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000597995.1;translation=MKCRWKSIVFVVIVAFYMLITITHCFFSRTNFNKILSAKVIFAHFYSFTVLFGCVIGLVLVVALALTVYKHGYKNLYFCLLSLALITSVILIVFGVNPTKNIDTHEGNTIKIVEWNVENELESKSIYKIFGEFDADIVVFPELEGYYKGDPANNRLKELFKSINIDYDKYEVFTSIPTSGNIAPVTIVIKKSFSKYIDTNQSLMTQFGTIYLKSIDKDMPDIIGLHTAPPLLGLMSNWNRDLNVISSNIVESNPKAIILGDFNATLRHGALNSITTHEDVLDYLSRFRRGTWHSNFPIWMSTSIDHILIPKDTYRVKKVDVLKLRESDHRAIFVEISK;locus_tag=LOCUS_04600;note=WP_000597995.1 endonuclease/exonuclease/phosphatase family protein (Streptococcus pneumoniae) [pid:41.6%25%2C q_cov:98.2%25%2C s_cov:99.1%25%2C Eval:9.2e-75],MGA_464
sequence1	MetaGeneAnnotator	CDS	533862	534095	.	+	0	ID=MGA_465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNRIKEVRKVKNITQQKLVENISITRQYISLIELGNETPSLKVANEIAMSLDTCIYSIFDLDGTGDFKCPCCGCGN;locus_tag=LOCUS_04610;note=MGA_465
sequence1	MetaGeneAnnotator	CDS	534117	535034	.	+	0	ID=MGA_466;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004454245.1;translation=MSAVICVNDLTKEYNGTRVVDCVSFSVSKGEIYGLLGRNGAGKTTIMKMLLGLVNPTEGSIAILGKDMRRNEERDVLKKVGCIIENPGFYPNLTGTENLEIFSKLRGLEQICVQKALELVNLPYRDKKLFSKYSLGMKQRLAIANAIMHNPDILILDEPINGLDPIGISEVRVLLKKLKESGVSILISSHILSELESLADRIGIINSGKMIEEISVQEWRNKENSSIRVFVKDIDKAKMILNDRGINSECISEFNEGLLINSSNLSVAELNKIFVTNNIEIVGIVEDKITLEDYFKKVTGGHGIG;locus_tag=LOCUS_04620;note=WP_004454245.1 ABC transporter ATP-binding protein (Clostridioides difficile) [pid:52.8%25%2C q_cov:98.7%25%2C s_cov:98.4%25%2C Eval:1.8e-79],MGA_466
sequence1	MetaGeneAnnotator	CDS	535027	535761	.	+	0	ID=MGA_467;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MARLLLSEFKKNKRSKAIYLSGALVVVYLALTIFYTVSAVGLFDNFMYLYKFSLSYMNYLILPMILLSFATTAFSNEYKSDTIKYLWTVPISRIKLFFAKALYVLCIAFIFMGIVFAVIVSAGYVSRFQSSMNLHLVFRFFVLCAISSFLVTLAVLPVSIVTILTKGNSVTTNLIGSIYIISSFFLMKILQGISPLASVPHIMWYKNFEGVQNNDNVYFMIANVGLVFALYLVGTLNILKRQDL;locus_tag=LOCUS_04630;note=MGA_467
sequence1	MetaGeneAnnotator	CDS	535775	536497	.	+	0	ID=MGA_468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVSLELKKHKRKKLPVVVAIIVIVGAVIQYFMGNMTYNGVAYGKVLGWFFENGLTLNSYYLFIPVISMIGMELFALEKRNNTLKNLLVIPINRKEIILNKFCVLFIFAIVYIIATFLSMCLLELMFNLNSISSSFVLSYFAKYLIHGIICYILSAFIIGVMLYFKQNIQITVAFAFVFAFVGVFISQIKFAYIYCVNAMFYISGEVNSAIFEKIVACLVILFMVFLDVKLFSKISLREEF;locus_tag=LOCUS_04640;note=MGA_468
sequence1	MetaGeneAnnotator	CDS	536494	536805	.	+	0	ID=MGA_469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTDDEIKEDTYIEEKEDKKYIHKDSRFSPITEYLKGQDREIELDFSKVEELIGRKLCKSARTYPSYWYASEDRPMGNSIYNAGYDIVKVDVKKETIRLINYDK;locus_tag=LOCUS_04650;note=MGA_469
sequence1	MetaGeneAnnotator	CDS	536994	537182	.	+	0	ID=MGA_470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWPACILTILKEYKIEYSIARLREIAGTDKQGTNIYGILKGLEYFNLNGRAVKISDKKFIIP;locus_tag=LOCUS_04660;note=MGA_470
sequence1	MetaGeneAnnotator	CDS	537220	539088	.	+	0	ID=MGA_471;product=peptidase domain-containing ABC transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010890758.1;translation=MYHYVVIQNINKDKIVISDLAKGVLEYNLEDFYKFWTGILILIDKTMDIKKININKIDFWTFFKSIKLQKILIYNIIIISFIILFLGIFTSLYFKIVVDYVLKNKLVTTLNIIMTGVVFLLVIKSILELVRNQLILFLSQRIDDIILFGYYKHIINLPLNFFATRKIGEIISRFSDGSNIRQAISDILFTLTIDMPLSLLGGIILFYYNVRLFFVSLALLMLYFLVYSIFKNKIKIKNQDVLEKNAILTSNIIDNINGIETIKSYNLEKIIEDETDYRFIEFLKSIYNRGKLYNIINFISNNISTIGNYLIIWIGSNEVIKGKMSLGELFVFLSLLAFFLDPLKKIFNLQIQFQNSIVAANRIGEIFELELEEKKLKNKVNLNNLKEKIEIKNLKFRYGTRKLILDNININIKNKQKIAFIGESGSGKTTLAKLLMRYYDYEEGEIKIGGINIKDMNPYFLRDKISYVSQETFLFNKTIRENLFLDEKVEWKEILDLAEKLKILDFINELPNRFETLIEENGKNLSGGQRQRLSILRALLKKPDILILDEATSNLDFITEKSIKNVIDSLEITTIIIAHRLKTIKMCDKIFIFEKGKIIESGEHLELLEKRGKYFEFWEEQV;locus_tag=LOCUS_04670;note=WP_010890758.1 peptidase domain-containing ABC transporter (Clostridium) [pid:40.7%25%2C q_cov:99.8%25%2C s_cov:85.2%25%2C Eval:6.8e-139],MGA_471
sequence1	MetaGeneAnnotator	CDS	539093	540178	.	+	0	ID=MGA_472;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKKYKLSELINGRDELNNKNKKIYNFFLPLFLIIIFFLFIYIYFFEIELNIKGIGVIESNSNISIVKNIIPGKVSSNYMKDGLYVKKGQVLFELDNHLHVLKYENMIKELDENKKFLNYILLSSIDINSLILNYKLELEQLKFKIEINKIEREKIEKEIENSEEIYSIGGISKKEVLNLKKEYLKIILNEKKLFTEIAEFKFLKQKEVSNKIKKLELELEKMKNIIDNNKIFASIDGELELEKYINVGDYIGSENLGKIIPKDNRYKVKLYINSEDINKIKIGNHVKYFLKDEKGVEYDLIGKIEYISNTPVNMNNNIYYYLYSTIENEKSFKLGLNVEFSILYDKKSIFNYILELIKK;locus_tag=LOCUS_04680;note=MGA_472
sequence1	MetaGeneAnnotator	CDS	540440	541567	.	+	0	ID=MGA_473;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902269.1;translation=MKKIILSVLTLFMMFSCGNKTEVDVKGGTESIIKIGVPEPLTGDLSQYGVAIKEGIEFKVAQVNNEGGVNGKKIELVVEDTKGDLQEAINIMKKMISVDKVDAVLGEAISANSFAIAELAQKAKIPMITPAGTRFDITENKDFVFRATFTDPFQGEVLAKYIKKLGYSNIAVLTNTSSDYSVGVAKSFKEVADKINLKYDEQKYTKEDKDFKSLLTNIKNSGFDSVLIPDYYNTVGLILSQAKELGLNVKFFGADGWDGIQTDFVDVAEGAIFTTQFDINDSSVLSMEFISKFKEKYAKEPNLFTALGYDAATIIVEALKSVENPSDHISVKKALSNVNLELITGELEFDANRNPKKVVSFLTIENGKLVLKEKF;locus_tag=LOCUS_04690;note=WP_005902269.1 ABC transporter substrate-binding protein (Fusobacterium nucleatum) [pid:39.5%25%2C q_cov:97.9%25%2C s_cov:97.4%25%2C Eval:5.1e-69],MGA_473
sequence1	MetaGeneAnnotator	CDS	541608	542504	.	+	0	ID=MGA_474;product=branched-chain amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_053104449.1;translation=MFKNFIDQTINGLQTGSIYALIALGYTMVYGIVKLINFAHGDILMIGAYISFMAVNRGFNLTTALIISIIFCSILGIVMERLAYRPLRDASRMNVLITAIGLSFLLESLALIYFGASPKIIKSEFIPKYLSSSEYISIFGIRVSNLSFFVIIVTLFCMLLLHVFIKYTNLGKATRAVSQDISAAKLMGINTDFTISLTFAIGSALGSLGGLMYALTYPRIDPYMGLLPGLKAFIAAVFGGIGNIPGAMVGGYVMGLLETYVKGYISSTWANPIVFILLIIILLFKPNGLFGKNRKEKV;locus_tag=LOCUS_04700;note=WP_053104449.1 branched-chain amino acid ABC transporter permease (Moorella thermoacetica) [pid:50.7%25%2C q_cov:98.3%25%2C s_cov:98.7%25%2C Eval:3.8e-74],MGA_474
sequence1	MetaGeneAnnotator	CDS	542507	543502	.	+	0	ID=MGA_475;product=branched-chain amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124797307.1;translation=MEKKNSLKLNKTNYILGFLMILFTYLILQYSIIDDGIFSYKASIYINILIYILFALSINITTGVMGELNLGHAGFISIGAYSSSIFSKYLYSFNLNHLLHLVIVCIFGAIIASFFGMLVSMTTLRLRGDYLAIITLAFGEIVKYIIQNIDFLGGAAGLNGIPDIVNFSYIFLIVVISSILMIMILISKKGRLLLSIRENEIAAENMGVNINRAKIYGFTLSAFFAGIGGALFAHNLGSLTPDKFNFVFSIEILVMVVLGGLGSITGAVVSATFLTLLNEILRQVSEYRFLIYSIILISLMIFKKDGILGTNEFTIPSFLKWLKDIKQKVIK;locus_tag=LOCUS_04710;note=WP_124797307.1 branched-chain amino acid ABC transporter permease (Fusobacterium canifelinum) [pid:43.2%25%2C q_cov:94.9%25%2C s_cov:95.4%25%2C Eval:2.1e-68],MGA_475
sequence1	MetaGeneAnnotator	CDS	543499	544257	.	+	0	ID=MGA_476;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011837311.1;translation=MKLLETQNLTLKFGGLTAVKDVNVEINDKELIGLIGPNGAGKTSFFNLLTRVYQPSEGKIFLNGVDISYMKTYKIVALGMSRTFQNIRLFKQLTVLDNIRISLDQKKDYSTLDAMFRTKKFREYEYESIEKAKSILKIFDLDEIAEHRADSLSYGNQRKLEIARALACSPKLLLLDEPAAGMNPNETYELMKIIEKIKNEFNISILLIEHDMDLVMGICERIYVLNFGEVIASGKPSEIQNNKEVIKAYLGD;locus_tag=LOCUS_04720;note=WP_011837311.1 ABC transporter ATP-binding protein (Streptococcus sanguinis) [pid:58.6%25%2C q_cov:99.6%25%2C s_cov:98.8%25%2C Eval:1.5e-75],MGA_476
sequence1	MetaGeneAnnotator	CDS	544259	544969	.	+	0	ID=MGA_477;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005815204.1;translation=MKVLEVNNINVFYDKIHAIKDVSFYINKGEIVSFIGANGAGKSTTLNAISNLLKIKSGEIALFGENISNVKAHKLVLRGMAHVPEGRRIFTELTVLENLLMGAFTRPKSEIKESLEKMFNLFPRLRERKNQLSGTMSGGEQQMLAMARALMSKPKLLLLDEPSMGLAPLLVKEIFEIIKKINKEENVTILLVEQNAKMSLEISDRAYVIETGEIILEGNGLDLIDNPVIKKAYLGG;locus_tag=LOCUS_04730;note=WP_005815204.1 ABC transporter ATP-binding protein (Desulfitobacterium hafniense) [pid:60.7%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:8.1e-76],MGA_477
sequence1	MetaGeneAnnotator	CDS	545087	545302	.	+	0	ID=MGA_478;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILITLISLSIFSFSANITGPRYRLEGSVGAMNYKGNVFSLKTISTSISVLPEWKAEINKKVDITLDLR;locus_tag=LOCUS_04740;note=MGA_478
sequence1	MetaGeneAnnotator	CDS	545344	545610	.	+	0	ID=MGA_479;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHSHIILGGEIDLNYRLKEDIKLYTGIEAGIGIGSQVYSGNGDTHFTGPEFAHIGKLSLGVKIKEKYNVALYTGYEKGALGIEGGYTF;locus_tag=LOCUS_04750;note=MGA_479
sequence1	MetaGeneAnnotator	CDS	545612	546136	.	+	0	ID=MGA_480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRILILIMIFTGIILFPNEKKITGPRYRLEGSVGVFSSNKALNRDRKTFSSITIGLLPEWKVDLDKRFDITFGPKIGANVSYYKTTNAYIVEPKGILSIVTYINYRLKEDIKLYSGIELGIALGGKINDAEKKLVIETIQNVLLGIKIKERYNVGIYMGNGKGMLGIEAGYTF;locus_tag=LOCUS_04760;note=MGA_480
sequence1	MetaGeneAnnotator	CDS	546151	546666	.	+	0	ID=MGA_481;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSLLIFLTIMMSIISFTGYRVDGSFSYGLEELGGNDNSIKHQLILSLGFMPEYRYEKTSKLDFTFGPRISLTGGVAISELGTVGRGSLNLTLRGEANYELLNNIKVFGGAELGVGMFLEHAKGIGIKMDGNHGAIAKGIVGLKIDKYNIGLVSGYENKFVIGIETGYTF;locus_tag=LOCUS_04770;note=MGA_481
sequence1	MetaGeneAnnotator	CDS	546840	547514	.	-	0	ID=MGA_482;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKKLLQEKKQNVIVQSANLFFKKGYVNTGVQDILDVCNIPKGSFYYYFKSKDDLLLQVIDYHRENILELFEKNVDDLSIYKLKSFFSIFLNNIAIIEIEDKDLTEKNKENDLLFGINHNNTKKFYGGSPLGNLNSELSNLSDEINAKIVDAYFQIESRIYFFLETLSIVHNKYKSEFIDYYTYLLINNLEGTCLKLKRMRNKEPIEEFLKFFDILIDKMIKD;locus_tag=LOCUS_04780;note=WP_010890764.1 TetR/AcrR family transcriptional regulator (Clostridium) [pid:42.3%25%2C q_cov:31.7%25%2C s_cov:36.6%25%2C Eval:1.6e-09%2C partial hit],MGA_482
sequence1	MetaGeneAnnotator	CDS	547544	548233	.	-	0	ID=MGA_483;product=copper homeostasis protein CutC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003020318.1;translation=MNIEICAGNIEDIIITEKLNISRIELNQGLSIGGLTPSHALVKQALKISTKDIVVMIRPREGDFTYTENEYMVMKEDAKYLLKLPIKGIVFGFLNYDNSIDVKRTKKFITLAKKYNKEAIFHRAIDVSNDYINNLILLKNLGITRILTSGHEKNAELGIENIKKAIKENLPIIVGCGINANNIHKFKNLGITDIHGSFSKKILNDYTIDFGNYTILDKNIEKNIDFNSF;locus_tag=LOCUS_04790;note=WP_003020318.1 copper homeostasis protein CutC (Francisella tularensis) [pid:41.3%25%2C q_cov:89.1%25%2C s_cov:86.7%25%2C Eval:5.6e-34],MGA_483
sequence1	MetaGeneAnnotator	CDS	548343	549572	.	+	0	ID=MGA_484;product=DUF1576 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002296334.1;translation=MKEKTREYIYFFMIPLLILFYAFILNNPKEIFEGVNKILNTSDILISDYFYISNLGATFFNAGIICLFNAYLIYIYDLKLNGLLIVSVLITLSFGFMGKNIYNIIPFYIGSYIYIKFIGREFKTVIPITMMSTTLAPIVSSLGVLGIIMGIFIGFIMPIITKHTLLYHGGYNLYNTGFAGGLFGIILYSIILSFGIKFDVNRSYNNIFYTSPFIFFLLLFSLMVIIGYLNDKNIFENMKSIHRHTGRLVTDFVQEEGFYASFFNMGIMGLVCLIFPMYFKVFNGPVICAILTVVSFGGFGKHLKNILPVMIGVIIMYYLTRTRVDETILLMTIFFSTTLAPIAGKYGWHLGIIAGIFHFSVATQIGAVHGGMNLYNNGLAAGIVSSIYVPIIEEIKGVINIVRTRKNNS;locus_tag=LOCUS_04800;note=WP_002296334.1 DUF1576 domain-containing protein (Enterococcus) [pid:32.8%25%2C q_cov:96.1%25%2C s_cov:91.6%25%2C Eval:2.8e-63],MGA_484
sequence1	MetaGeneAnnotator	CDS	549544	549897	.	+	0	ID=MGA_485;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEQEKIIVKMMDELVKYFLSKNGKKIKVEIEDKDNIFQITSSCNIDVSDDDLEFINSKLASHKNMEYDFYWELMGEAFEEDELKLLFLLADNVRIYYENNELLFIIEIKKNKLSKL;locus_tag=LOCUS_04810;note=MGA_485
sequence1	MetaGeneAnnotator	CDS	549907	550401	.	+	0	ID=MGA_486;product=thiol peroxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000024529.1;translation=MKVTMAGNPITLVGNQVKVGEMAPDFKALKGDLSEFKLSDYLGKKIILTSFPSIDTGVCAIQATKFNQEISKFDDAVLITISNDLPFALNRYCGANGINNAITISDHKDVDFGMKYGMLIEELRLLSRAVFVIDKEGKLAFIEVCEEIKNEPNYEEALKVLRSI;locus_tag=LOCUS_04820;gene=tpx;EC_number=1.11.1.-;note=WP_000024529.1 thiol peroxidase (Bacillus) [pid:49.7%25%2C q_cov:98.2%25%2C s_cov:97.0%25%2C Eval:4.3e-43],MGA_486
sequence1	MetaGeneAnnotator	CDS	550464	551798	.	-	0	ID=MGA_487;product=solute carrier family 23 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902205.1;translation=MNKFFKFYTYETNFKTEVIAGITTFLTMAYILGVNVGILSTAGLPANAVFLATAVSAAAACIFMGIYSNSPIALAPGMGLNAFFTYTVVLGYGYTWQEALAMVFLSGVIFLIISLFGLRKLIIESIPASLKQSIGAGIGFFISFIGLVKMGVIVASPATLVTLGNFKNPTVLLALFGLFITIILMSLEFKSSIFIGLFITAVFGIILNKAGISGMPTTPNQIVSVQFDTSVIGAFVGGLKSIITKPQTIIVVFTMLFVDFFDTAGTLIAVTNKINNNGRKNYDMDKMFYSDAIGTIVGSAFGTSNVTSYIESTSGVAVGGRTGLTSIVVGLLFLLSTLFSPLLAVISGIEVNGVFLEPVVAPSLVVVGVLMATQLSNVDWHDFSAASSGFITIIVMILSYSIADGIAAGFIVYVLSKLFTNKNKEIGKVVWLLFTIFLLYFISR;locus_tag=LOCUS_04830;note=WP_005902205.1 solute carrier family 23 protein (Fusobacterium nucleatum) [pid:59.2%25%2C q_cov:99.3%25%2C s_cov:98.4%25%2C Eval:7.9e-152],MGA_487
sequence1	MetaGeneAnnotator	CDS	552082	552978	.	+	0	ID=MGA_488;product=LysR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903649.1;translation=MDIHHLKIFYETCNEKSFTKAAKKLFISQSAVSIQLKKFELSLSTQLIERNSKSFKLTFAGNELYKMSQDIFNKISRMENQMKKIVSNHNAKIVVGATHNIGEPLLPKIITDYSKKYKEIEFDIYIKNSASLIKHIKDGIIDIAMMEEEVVDEKELKFVQTDNYPFVVIAPPYINKLEDIKEMSMLKKDTQLASKYIENFEEIIDHTFERKISVNGSNETIKNLVMNGMGISVLPYYCVYEEIKEKKMNLVHEFDKLEDKFQLVYLKENENKIWIANFVEFFKQYNIKFEADSIIKKK;locus_tag=LOCUS_04840;note=WP_005903649.1 LysR family transcriptional regulator (Fusobacterium nucleatum) [pid:38.0%25%2C q_cov:97.7%25%2C s_cov:96.7%25%2C Eval:1.3e-58],MGA_488
sequence1	MetaGeneAnnotator	CDS	553133	553375	.	-	0	ID=MGA_489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVLYIKSNLSIIIDNIKAKRVPKKRPLKASIIVYLVCFIIKEKSLIKAFTTSIGEGSKNLGTTLNVDSNCHVIIRRNIK;locus_tag=LOCUS_04850;note=MGA_489
sequence1	MetaGeneAnnotator	CDS	553257	553850	.	+	0	ID=MGA_490;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461832.1;translation=MKHTKYTIIEAFSGLFLGTLFAFILSIIMDRFDFMYKTTMPMLIITQTIPTVAIAPLLVLWFGYGMSSKILLVIITTFFPITVALLDGYRSVDKESLILLKSMGANKLQEYVHVKLPSSLNYFFAGFRISVSYSLIGAVVAEWLGGFYGLGVYMTRVRKSYSFDKMFAVIFFISALSLFLITLVSKLEKYIVKWEEK;locus_tag=LOCUS_04860;note=WP_011461832.1 ABC transporter permease (Desulfitobacterium hafniense) [pid:60.7%25%2C q_cov:99.5%25%2C s_cov:75.4%25%2C Eval:6.7e-64],MGA_490
sequence1	MetaGeneAnnotator	CDS	553847	554809	.	+	0	ID=MGA_491;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461831.1;translation=MKKLLVVFLTFILIISCGIKGKDKKIMIVLDWTPNTNHTGLFVAKEKGYFNEYGLDVEIVQPPEGSSTQLIGVGKAQIGISFQDTLAKYFSAKEKLPVTAIATILQHNTSGLVSLKDKNITSFKDLEGKTYGTWEDPIEQAIIKKMMKDDGANFEKVNVIPYSWDVLKALQTDTDATWIFYGWDGIALKNAGLKFNFLDVKIAPELDYYTPVIIANNDFLSNNEDDVINLLKAMEKGYMYAIENTQESVDILLKAAPELDRNLVLESQKWLNTYYIDKDVKWGYIDAKRWNAFYLWLFDNGLLENPIEKDFGFTNKYLGE;locus_tag=LOCUS_04870;note=WP_011461831.1 ABC transporter substrate-binding protein (Desulfitobacterium hafniense) [pid:50.2%25%2C q_cov:92.8%25%2C s_cov:88.2%25%2C Eval:3.1e-85],MGA_491
sequence1	MetaGeneAnnotator	CDS	554821	555558	.	+	0	ID=MGA_492;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_026184185.1;translation=MIKLEVKKLSVVLDGKNIIEDINFHVNSGELVSIIGLSGSGKTTIFNAVAGIVPINTGKILLNDVDVTGKSGKMSYMLQKDLLLPFKTVIENIALPLIIKGMDTKSAFRKVMDNLEFFGLTGLENKYPKELSGGQRQRVAFLRTYMFSDDMNLLDEPFSALDLITKSNIHKWYMDIRKKLNLTTLLITHDIDEAILLSNRIYILNIEKGVGKISKEIYINLGKRDNTTIEFIEFKKKILEELDKK;locus_tag=LOCUS_04880;note=WP_026184185.1 ABC transporter ATP-binding protein (Desulfitobacterium hafniense) [pid:51.1%25%2C q_cov:89.4%25%2C s_cov:87.9%25%2C Eval:3.0e-60],MGA_492
sequence1	Aragorn:1.2.38	tRNA	555695	555771	.	+	.	ID=Aragorn_14;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00140;note=Aragorn_14
sequence1	Aragorn:1.2.38	tRNA	555779	555854	.	+	.	ID=Aragorn_15;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00150;note=Aragorn_15
sequence1	Aragorn:1.2.38	tRNA	555867	555942	.	+	.	ID=Aragorn_16;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00160;note=Aragorn_16
sequence1	Aragorn:1.2.38	tRNA	555955	556037	.	+	.	ID=Aragorn_17;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00170;note=Aragorn_17
sequence1	MetaGeneAnnotator	CDS	556200	556694	.	+	0	ID=MGA_493;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904072.1;translation=MASKANIAAVEMLTEKLKEAKAVVFVDYKGITVNEDTKLRSEARKANVEYFVAKNRLVQIALKNVGLDLELKELAEGTTSFALGFEDGVAPSKLIYDFAQQFKGEKLKIKGGIIDGQVADKNTIEALAKLPSRPELLGMIAYGLLSPVRMLAVGLSNVAEQKEA;locus_tag=LOCUS_04890;gene=rplJ;note=WP_005904072.1 50S ribosomal protein L10 (Fusobacterium nucleatum) [pid:45.8%25%2C q_cov:99.4%25%2C s_cov:97.6%25%2C Eval:3.6e-34],MGA_493
sequence1	MetaGeneAnnotator	CDS	556719	557084	.	+	0	ID=MGA_494;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005889295.1;translation=MAFNKEQFIEDLKAMTVLELKEVVEAIEETFGVSAQPVAVAGGAVAAEAVEEKTNFDVVLTGAGANKIAVIKEVRSITGLGLKEAKDLVDNGGAVKEGASKEEAEEIKGKLEAAGASVELK;locus_tag=LOCUS_04900;gene=rplL;note=WP_005889295.1 50S ribosomal protein L7/L12 (Fusobacterium) [pid:68.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-36],MGA_494
sequence1	MetaGeneAnnotator	CDS	557250	560708	.	+	0	ID=MGA_495;product=DNA-directed RNA polymerase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015993.1;translation=MNNKLIKRYSFGKIKDRGEMPNFLEFQLDSYEDFLQTKRSYDVRELKGLEAIFQETFPIESANGTLKLEYFGYEIHDSEAPLNDELECKKRGKTYSGQLKVRLRLTNNKTGEIKETLVHFGDIPLMTDKATFIINGAERVVVSQLHRSPGITFNKELNMQTGKDMFIGKIIPYKGTWLEFETDKNDVLNVKIDRKKKVLASVFLKAIKFFENNSEIMDEFFEIKTIELEPIYKKYKNIEDAKSVIRTEIEGSFVNEDIVNEKTGEIVIESESFIDEITVDKLIEYNIPEITIWEVKPEDRMIAKSIKDDHTKSSDEAVVEVFKKIKPGDIVTVESAYNLIIPMFFNPQRYDFAPVGRYKINKRLKLEGEINEQDIVLTKKDVIATINYLKVLYNGGGSTDDIDNLSNRRVRGVGELLSIQIKGGVAKMSKMVKEKMQTQDINTLTPQSLLNTKPLNALILEFFGSGQLSQFMDQSNPLAELTHKRRISALGPGGLSRDRAGFEVRDVHNSHYGRVCPIETPEGPNIGLIASLSTYGKVNKYGFIETPFVKVKDGVADFNDISYLAADEEEGLFIAQADTNIDEKGRLLDNDVTCRYGDEIVHVKKEQVDLMDVSPKQIVSVSAGLIPFLEHDDANRALMGSNMQRQAVPLLKTEAPYVGTGLERKVAIDSGAVLVSKVKGEVTYVDASKIIVTDKKGDEHLHRLLNFEKSNQSMCLHQKPIIDLGDKVNKGDILADGPSTSGGDLSLGKNILLAFMPWEGYNFEDGILISERLRKDDVFTSLHIEEFDIEARTTKLGEEEITREIPNVSEEALRNLDKDGIVRIGAYVEPDDILVGKVTPKGESEPPAEERLLRAIFGEKAKDVRDTSLRLPHGVKGTVVDVLVLSKENKDDLKAGVNKVVRVYVAEKRKIMVGDKMSGRHGNKGVISRVLPVEDMPHLEDGTPVDVCLNPLGVPSRMNIGQVLEVHLGLAIGDMNKYIATPVFDGATEEDVKNYLEEAGYPRTGKVKLIDGRTGEYFDNPVTVGRMYMLKLHHLVEDKMHARAIGPYSLVTQQPLGGKAQFGGQRLGEMEVWALEAYGASNILQEMLTVKSDDINGRTKTYESIIKGQSMPEADAPESFKVLIKEFQSLGLDVNLYNKEGEKIELDNNFEG;locus_tag=LOCUS_04910;gene=rpoB;EC_number=2.7.7.6;note=WP_011015993.1 DNA-directed RNA polymerase subunit beta (Fusobacterium nucleatum) [pid:73.7%25%2C q_cov:99.3%25%2C s_cov:96.9%25%2C Eval:0.0e+00],MGA_495
sequence1	MetaGeneAnnotator	CDS	560738	564709	.	+	0	ID=MGA_496;product=DNA-directed RNA polymerase subunit beta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904068.1;translation=MSIRDFDSIQIKLASPEKILEWSYGEVTKSETINYRTLKPELDGLFCERIFGPTKDYECTCGKHKKMKDKGTVCEKCKVTITTSKVRRERMGHIKLATPIAHIWYSKGTPNKMSLLLGISTKELEAVLYFSRYIVIDGGNTEFNKNQIIREQQYRLCMERNDRGSFRAKMGAEGILELLQELELPVLEKELETDIDKENSSQKRKKMVKRLKIVRDFISSGNKPEWLILTILPVIPADLRPLVQLDGGRFATSDLNDLYRRVINRNIRLQKLIDSNAPEIMIRNEKRMLQEAVDALIDNGRRGKPVVTQSNRELKSLSNMLKGKQGRFRQNLLGKRVDYSGRSVIVVGPNLKIHQCGLPKKMALELYKPFLMRELVKRGISSNVKTAKKMVEEENEAVWELIEEIIKNHPVLLNRAPTLHRLSIQAFEPTLIEGKAIRLHPLVCSAFNADFDGDQMAVHLVLSPEAQLEAKLLMLATNNIIAPSSGKPIAVPSQDMVMGCYYMTKERLGEIGENKYFSSIAQLTTAYQNEKVGVHALVNVRINGNIVKTTPGRILFNQLLPEEIRNYEVTFGKGELGKLIAGLYEQYGFEKTCELIDKIKEFGYHFATFAGVSVGIEDLQIPVEKKAILAKADKDVLDIENAYKAGEIINDERYRRTVQVWNKATNDVTKAMMDSLDQFNPVYMMANSGARGSIAQIRQLGGMRGMMSNTKGEIIEIPIKANFREGLNVLEFFMSSHGARKGLADTALRTADSGYLTRRLVDVSHELIVNKDDCGSKNHGIEVSDLTYEGKIIEKLEERIYGRFLAEDLVDNGKVIAKANTLITKDLLAEIVKRNISSVKMRSPLTCKLDKGVCKKCYGIDLSNHKEVLLGEAVGVIAAQSIGEPGTQLTMRTFHTGGVATGSEVQSDHRADEDGKIKYENIETFTYPDGREIVVSSIGKVILGKYRYEVPSGSVLKVKNNEKVKKGQVLIEFDPFQTPTISTVAGRIEFRDIYIKENIDVKYDVVERLAIKPIESTQVKPRVIVYDDKGKKIKEYHINYGSYLLFKEGEMIKPGDIISKLPKIGGGNKDITGGLPRVQELFEARNLKGKAILANVGGRIKFSDKTKKGMRVVEIHDIDKDTVIEEYSIPAGEHLVVSNEMIINAGDKLTEGPISPHDILRIKGAVEAQQFILESVQEVYRSQGVTVNDKHIEIIVKQMFQKIRIKESGDSLFLEDELVDKKAIERENKILISKGKKPAIFEPVIQGITKAAVNTESFISASSFQETTKVLANAAVEGKVDRLEGLKENVTIGKKIPGGTGFKNYKDLNLFLGEVDEKIIEEI;locus_tag=LOCUS_04920;gene=rpoC;EC_number=2.7.7.6;note=WP_005904068.1 DNA-directed RNA polymerase subunit beta' (Fusobacterium nucleatum) [pid:65.7%25%2C q_cov:99.9%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_496
sequence1	MetaGeneAnnotator	CDS	564756	565301	.	+	0	ID=MGA_497;product=guanylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904066.1;translation=MKGKLFIVSGPSGSGKSTVTKLVRDMLNIPLAISVTTRQIRTGEVDGKDYYFITKEEFEKKINENGLFEYANVHGNYYGTLNSEIEKHLENGQNVILEIDVQGGVIAKNKRNDSILIFFKAPSLEELEKRLRGRNTDSEKVIKKRLENALKELEYEKDYDYTIINYDIEDSCKQLINIIED;locus_tag=LOCUS_04930;gene=gmk;EC_number=2.7.4.8;note=WP_005904066.1 guanylate kinase (Fusobacterium nucleatum) [pid:64.2%25%2C q_cov:98.9%25%2C s_cov:96.8%25%2C Eval:1.7e-60],MGA_497
sequence1	MetaGeneAnnotator	CDS	565314	565499	.	+	0	ID=MGA_498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEKISVDELLKKVPNKYELAILAGKAARKEFIEGVEKFKIIDNVFEDILEEKVKIIEND;locus_tag=LOCUS_04940;note=MGA_498
sequence1	MetaGeneAnnotator	CDS	565555	567342	.	+	0	ID=MGA_499;product=DNA primase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017064.1;translation=MYKLSEDEEKIINNIDIVDLIGQYVDLNKAGVSYKGYSPFKSENTPSFSVHPVKKIFKDFSSGKGGNVISFYSYIKNISYYEALHELSKKYGINIKKSNSKYLIKDNIGHKILKDAMEFFRLNFEKSSEAKEYLINRGFNLNDLKRYDIGYATNDWNLLYNHLKEKYDVEELIKLGLVTVSSTDTNNIYDTFRKRIIFPIFNIHQQVVGFGGRYIGENVNAPKYLNSTESYVFDKSSELYGLFNKGIEIKEKKYAILMEGFLDVLSSHINTFDNAVASLGTAFTEKQAKLLKKYTDNIIIMYDKDEAGQKATKSVINILNKLEFNIKCSSLPDGVKDPDEYFKKYSKDDFFEILGKSVGALDYIFEMDLKDFDFTQTTSKREAIELMKSYFENVTNDIVYSDEIEKFSRLIDVETKYILSKYIRNKNKNFKDLDTIKEVSQDRVNEKINKQEELEKLSIVFLLLGKEVDQILYNILKSFEFQSEKYVELHKKLLSIDYKIDEVSYLVLTKDEEEFMIETTCEFKNNYTDEDYIRIIKTWLELLIKKYEASIDILPINEKIDKKIHIGKLLNKLRNVVNINNLEKCYKEIIVLKGD;locus_tag=LOCUS_04950;gene=dnaG;note=WP_011017064.1 DNA primase (Fusobacterium nucleatum) [pid:33.8%25%2C q_cov:98.5%25%2C s_cov:98.8%25%2C Eval:5.9e-92],MGA_499
sequence1	MetaGeneAnnotator	CDS	567344	568483	.	+	0	ID=MGA_500;product=RNA polymerase sigma factor RpoD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124796886.1;translation=MAAKNIDLKESLSNLIKIAKEEKIISREEINKLMKNNFSQDKIEATFFKLQELNVEIVNKIADKNKSKKEIERNKKEELEINIDEKEVEALLNEDLTTVSESSDVDEPIKMYLREIGQIPLLKSEEEFELARRIGEGDERAKQQLMESNLRLVVSIAKKHTNRGLKLLDLIQEGNIGLMKAVEKFESDKGFKFSTYATWWIRQAITRAIADQGRTIRIPVHMIETINKIKKASRIHLQETGKEPTDDYLAEIVEMPVEKVKNILEMNQDPISLETPVGSEDDSELGDFVEDDKFLNPHEATVRSVLKEKLNDVLRKELNEREEQVLRLRYGLDDGAPKTLEEVGKIFDVTRERIRQIEVKAINKLKNIKKKKGLEDFRN;locus_tag=LOCUS_04960;gene=rpoD;note=WP_124796886.1 RNA polymerase sigma factor RpoD (Fusobacterium canifelinum) [pid:57.5%25%2C q_cov:98.9%25%2C s_cov:99.3%25%2C Eval:3.0e-117],MGA_500
sequence1	MetaGeneAnnotator	CDS	568750	569070	.	+	0	ID=MGA_501;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIEVGFSPEWTLNINKNFEIVFGPKLTVVLFVSHYLNISDEPEREIFFGISSGARVDFDYIIKKNIKLYAALEAAATVRPDIHISSISNDGKNILLTVHPTKDLL;locus_tag=LOCUS_04970;note=MGA_501
sequence1	MetaGeneAnnotator	CDS	569413	569955	.	+	0	ID=MGA_502;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEISTLPIYHTKTKMFGYYAYKSFSFLPEWKIDVTRDFDVTIGPKFSANLVFGVNNRNRSDYTQFVIDKDEIIVSASVGEEVDFNYRLRDNLKAYIGLEAQVGIGERIYTKSGLYDTGKKIEGSSENAFKPYTPYIIFNNTHIMYSGKVSAGLKIRDKYNIALYGGYGKGYFGIEFGQTF;locus_tag=LOCUS_04980;note=MGA_502
sequence1	MetaGeneAnnotator	CDS	570196	570729	.	+	0	ID=MGA_503;product=translation initiation factor IF-3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901608.1;translation=MFFIKGTGKTDGSRINDEIRAKEIRLISEEGEQLGVMSFYDAYNIAQEKNLDLVEMSSSNGVSVCKIMDYGKYRYEKIKKDKENKKRQKNTVIKEIRVKPHIDTHDMETKINQIDKFLEKENKVKISLRLSGREKLHSETAIKVLDEFANVFEDKAIVEKKYGREQVQKFVMLSPKK;locus_tag=LOCUS_04990;gene=infC;note=WP_005901608.1 translation initiation factor IF-3 (Fusobacterium nucleatum) [pid:54.8%25%2C q_cov:94.9%25%2C s_cov:88.3%25%2C Eval:7.2e-45],MGA_503
sequence1	MetaGeneAnnotator	CDS	570748	570954	.	+	0	ID=MGA_504;product=50S ribosomal protein L35;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005893833.1;translation=MPKMKTHKGTKKRVKVTGTGKFVVKHSGKSHILTKKTHKRKKRLGKDQVLDGKAAKKVSRLLAGQSGR;locus_tag=LOCUS_05000;gene=rpmI;note=WP_005893833.1 50S ribosomal protein L35 (Fusobacterium) [pid:45.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-08],MGA_504
sequence1	MetaGeneAnnotator	CDS	570977	571327	.	+	0	ID=MGA_505;product=50S ribosomal protein L20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901611.1;translation=MPRVKTGIVRRKKHKKVLSEAKGYRGSTKTNYKKANEAVKKAMAYATEHRKLKKRTMRELWIIRINAATRAEGLSYSKFMNGLKKLNIELDRKVLAELALNNSVEFKALVEKVKSL;locus_tag=LOCUS_05010;gene=rplT;note=WP_005901611.1 50S ribosomal protein L20 (Fusobacterium) [pid:61.1%25%2C q_cov:97.4%25%2C s_cov:97.4%25%2C Eval:6.6e-34],MGA_505
sequence1	MetaGeneAnnotator	CDS	571406	572071	.	+	0	ID=MGA_506;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALKFEYKGIDFNLNENTVDNTLYVFSNFNDKFEIENNDKDIFTTKKYITETEFWEKIILTKKILLKEEKEVVYFFNSLDDELKKKLQINSYFDCIDIAYRYYSFMREYIEYGIDLDKITIHEWQKKIINIYLEINDIMLEKSKKEDKIPRYLLPVYSYINTDYINSFKNIVFVNKFSYNVFEKKILEDIDNLSIYLFVDKNDYDEEKNILKNITIPNFER;locus_tag=LOCUS_05020;note=MGA_506
sequence1	MetaGeneAnnotator	CDS	572061	573917	.	+	0	ID=MGA_507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDKKIKIVECSDKYSQILNIIDNIEFNIFYDMEEKKIDEIKPENVYINQNEIANTFDFSFNKTVVYNIVSKIHAAINNGINGKYLISDIYNLYTIKEFKKEFNISENDINTLFRESKYGNIYINSEKIKSLKFLDEMKGYKSKEEYLEKLTKIGNIKSSKEYMFNTSFTYFEALTEVNVLDFSFLNNFSSEYLKLFLKYLDRKSLHVGICNNNSKILDKKKLSTGIKENFALINVQGNIFSKDRNIFSKIQSSELGLPISDNLIYENLYNIYRNIVMSNNIYISYIKNEDENISEMPFLTELMFNNNLKAEKKEVTMSEKANILNQLLDKSNIRKVFNPVYLTNNDIMHKNELLNDFNKISVTKLLSLINSEIEYYLSSKIEESDIYNEDIESVEVGNITHNIMELMINKVGKNINHVKKNELLEYIKEAISNVINQKDNNILEKYKKYFYITYINDLPKTILDFFDKLKKVLIHENIVDVYSEKVVEFDVELEDRIIKVNGKTDLVVETEDKYIIIDFKTGKFKKEKMKVYANQVTIYSYMNEFKDKEKVGYISFIQTFDSLKEIDVEKAEVNKDIIKEVLNNFVTGDVFEFGKEDKYSKFKEVIKYGENENSSKS;locus_tag=LOCUS_05030;note=MGA_507
sequence1	MetaGeneAnnotator	CDS	573886	576831	.	+	0	ID=MGA_508;product=exodeoxyribonuclease V subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016941.1;translation=MVKMKTVVKASAGTGKTYRLSLEYIYFLLLGIDFRNILVMTFTKKATAEIKNRIFEFILIIISKEGNYEELMKNIENNFGYKFKDGDIEKLTDIYKDMLINKNSVRIDTIDGFTSKVFNTCIAEPILEMYDYNILTEDTDTDKTLYTDFVVNLLNNKEFDFKFSSKDIKGIIKEIKGNFLYNKNELLSIKKLEEKYSLDYVITRVKNLFFNDLKIEYNGEEAKLKADSIKILEILEKINLNNMEIEYSNLKPLLNKMYKMQNVFNTRSKKSEVVKYLFEKNYELTKKIQDFQLIRYNYESTKKTNELLKNHKIVFDEDFRLKKANKLLDFNDITYYTFKYMFDEKLGLVKDGKVTDYFYELMDGKIDALMVDEFQDTSVLQFKFIKLIMDGAKIVTCVGDEKQSIYEWRGGYKKLFEDLDKALGEETVIKTLCTCYRSEKNIISFINNIFTKLPNYRYDEVKSSKEEKKSGYVETILVEKKSKDDDDIIKKIVEKIKENKDFTNTAILLRDNNKLEKIAKYLDDENIRYSLMTKSSILNVPSVKTAHKLVKYLVTKNEVNKYEFLRSDIKKYSLDEVSDVIQGKIDEDIKYFEDNFDRHNSFNSDDFDFAKEYIERFGYSLNDDSNDILNLNFYFEKMKEFSNIYDFYENIEGNKILKKSIVEKDGITLSTIHASKGLEYKNVYIYDDSFDDVKTGLKKYVAYDDEYNIIKFRMCNYNILNKMIKEINDDDKLNDFEKDNLMNNFKEFENAYDEYMTINKSESDAYLNLNYVAYTRAKENCYIFYGMPGPLIREEKILGTRNMSNAMIKEDNVLDYLKYANYFKQSKYVEVDSEKYDVERINRQKEGSAIHYFFEVYNGDVEIAIDIVKKKYGNLLSGLSFERVLYLIDKNVERYKNILESKNTRYSEFKIFDKDDNDKMYIIDLLLIDKDKKRAYIYDFKTGHNVINNPKYIKQLEKYKKILSKTITDYEIFVEILPLDE;locus_tag=LOCUS_05040;note=WP_011016941.1 exodeoxyribonuclease V subunit beta (Fusobacterium nucleatum) [pid:28.4%25%2C q_cov:99.0%25%2C s_cov:98.8%25%2C Eval:1.4e-83],MGA_508
sequence1	MetaGeneAnnotator	CDS	576870	578048	.	-	0	ID=MGA_509;product=sodium/glutamate symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003392508.1;translation=MRYIIELDMIQTIGIAVIFLILGIKLKKKTKLLQKYCIPNPVIGGIIFSVISLILRYLKIVEFKFDTTLQNFFLIMFFTSIGFNASFKLLKKGGIKLVHFLFVAVLLIFFQNGVALIVGKFLNINPLIALMTGSTSMTGGHGTSIAISESIQIDELKTIAIAAATFGTVIGSLIGPPLGKKLIQKYDLKSNDKVDDEVKEDDTIHELDEEKFAKAFFILLLSMSTGTILNIWFKKIGLQLPVYIGPMFIAAIIRNLFDILYKEIPMKEIQILESISLSLFLSVALISLKLWQLFDLAGPLSVLLLAQIITIYVFIRYITFNIMGGNFDAAVISAGHMGFGMGATPNALANMKSINEEFGYSKLAFLVVPIVGALFIDFFNITIITFFIQYFG;locus_tag=LOCUS_05050;gene=gltS;note=WP_003392508.1 sodium/glutamate symporter (Clostridium botulinum) [pid:41.4%25%2C q_cov:94.1%25%2C s_cov:94.7%25%2C Eval:1.1e-80],MGA_509
sequence1	MetaGeneAnnotator	CDS	578262	578558	.	+	0	ID=MGA_510;product=50S ribosomal protein L21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010881063.1;translation=MFAVIKTGGKQYKVEVGSLLKVEKLAVEVGTEVSFEEVLMVGEKVGSPLVEGAKVVAEVKEHGKGKKVINFKYNKKTYYRKKGHRQHYTLVEVKDIKG;locus_tag=LOCUS_05060;gene=rplU;note=WP_010881063.1 50S ribosomal protein L21 (Aquifex aeolicus) [pid:62.9%25%2C q_cov:98.0%25%2C s_cov:98.0%25%2C Eval:6.2e-24],MGA_510
sequence1	MetaGeneAnnotator	CDS	578561	578896	.	+	0	ID=MGA_511;product=ribosomal-processing cysteine protease Prp;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003640344.1;translation=MTYIEFSEKEDKIVSYLIKGHTEAYNYGEDIVCASISATSIMTLNGLIEVLKIKKLNYEMRDGYIFCDLRNVDEEDLEKSQSLIKSLAIMLESIAKDYPKNVQFRTRRYEK;locus_tag=LOCUS_05070;note=WP_003640344.1 ribosomal-processing cysteine protease Prp (Lactiplantibacillus) [pid:27.1%25%2C q_cov:84.7%25%2C s_cov:85.6%25%2C Eval:1.9e-07],MGA_511
sequence1	MetaGeneAnnotator	CDS	578893	579174	.	+	0	ID=MGA_512;product=50S ribosomal protein L27;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902873.1;translation=MILKLNLQLFASKKGQGSTKNGRDSNPKYLGVKRYDGEAVKAGNIIVRQRGTKFHPGNNMGVGKDYTLFALIEGFVKFETFKGKKRVSIYPEK;locus_tag=LOCUS_05080;gene=rpmA;note=WP_005902873.1 50S ribosomal protein L27 (Fusobacterium) [pid:79.8%25%2C q_cov:94.6%25%2C s_cov:94.7%25%2C Eval:3.2e-36],MGA_512
sequence1	MetaGeneAnnotator	CDS	579237	579884	.	+	0	ID=MGA_513;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895383.1;translation=MTKKDRVKQVLEALRNKFKNPKIALNYNNEYQLMVAVILSAQCTDKRVNIVTEEFFKVIEKPEDMEKLSLEEVERYIKSTGFYKNKALNLKANAKILIEKYNGVLPRTMEELIKLPGVGRKTANVLLGDLWGIREGIVVDTHVRRLSNLIGFVDNDNVEIIERELMKIIPKKYWYEYSHFLILHGRDKCIARRPKCHECEIKHLCKYNEKNKEKE;locus_tag=LOCUS_05090;gene=nth;note=WP_005895383.1 endonuclease III (Fusobacterium nucleatum) [pid:59.5%25%2C q_cov:97.7%25%2C s_cov:97.2%25%2C Eval:5.6e-70],MGA_513
sequence1	MetaGeneAnnotator	CDS	579887	581014	.	+	0	ID=MGA_514;product=D-alanyl-D-alanine carboxypeptidase DacF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004398637.1;translation=MKKILILICTFSLSIYGMEIEKKERIPIIYTALTDGTEVIDINSELISPIASLTKVMNVIVAKDEISKGKFSLSDKVTFDKYTAFITGGSISAWSGDNSYTLEDLLKAQMIFSSNNAAYATAKHIGLGDIDNFIILMNKKARELGMYNTYFASPAGLPPRLNKGFGMDISTAKDLYLLAKYAIENTDILEYSNKKSITFPNSRDPLRMYYNRITMLGEYGVVGLKTGYHDEAGFNIIIISKIGDSTVISISLNSETEKQRYILQREILSKLSERLEKIIDKDKAYYLFEVKDYKNKILEGYIKEDINLINLGQKFEYDIKLNDINDNINIDDEIATLYIKVGDEVILTKPILAKNENRKLNWFEKILRYISFGLY;locus_tag=LOCUS_05100;gene=dacF;EC_number=3.4.16.4;note=WP_004398637.1 D-alanyl-D-alanine carboxypeptidase DacF (Bacillus) [pid:26.7%25%2C q_cov:98.1%25%2C s_cov:97.7%25%2C Eval:9.1e-26],MGA_514
sequence1	MetaGeneAnnotator	CDS	581025	581822	.	+	0	ID=MGA_515;product=RNase adapter RapZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003416961.1;translation=MDKNILILGLSGSGKTTVLKFLEDNGYNVSLNYPINHLLEVEDNTKSAISIYVKTKEELEILKKVINLDRFNIIFLEASNEELIRRYELFRKTHPFLKDGDLKDSINAEREFLSILKTYDINKIDTTGLTPKMLYEILENIYLLKKKILISSFGYKHGIPQDANYVFDVRFLDNPYYLEKLKYKTGNDKEVSDYVMSFDESINLFQKIHDFFEFVLPIFFKNTKNSIHIAIGCTGGRHRSVTLVNKLYDKFKNKYEVYKLHREIK;locus_tag=LOCUS_05110;gene=rapZ;note=WP_003416961.1 RNase adapter RapZ (Clostridioides difficile) [pid:38.6%25%2C q_cov:98.5%25%2C s_cov:98.2%25%2C Eval:7.4e-47],MGA_515
sequence1	MetaGeneAnnotator	CDS	581822	583588	.	+	0	ID=MGA_516;product=excinuclease ABC subunit UvrC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902903.1;translation=MFDIKNIPTNPGVYMMKDINDKVIYVGKAKNLKNRVSSYFNNPKSSMKTFELIKHIKDIEFFLCNSELEALILENNLIKKYLPKYNILLKDNKTYPYLKITTEKIPQISVVRSRKHLEESTEAYYFGPYPFNMKEMIKLLLSAFDMQYFNIDMYNKKIIGNNLRYNNLNKELYFENVEDENKYIENSKAMINFLKNKDVSIIDKLHNQMIEYSENLDYEKALIMRNRIEKLNALIKTQLIEHSQQVDEDVFVLTNIGNNIFMCILNIRDGKIIGKNNIRIDNKYEEQDIFEDLFLSYYDNKKIPKNIIIENKYKSNIDILEKYFSTEKNKLVKIHAPIIKSRRLSLLELGKKNLNYYLDEYMRTEKAISKGLIDLKNVLNLKKLPKIIECFDISNIQGKDAVSAMSVTVNGKADNKRYRHFKITVKDTPDDFMMMRETLMRRYSKLEIDELPDVILIDGGKGQLGVAVDVLKELGKFEFLDIISIAKKEELIFKAEESVPYRFDKNDEALKILIRTRDEVHRFGITYHRKLRSKRNIKSVLDEIRGIGPKRKKELILKFGSIKNILEASEKELLEILPLNVVKEIKKI;locus_tag=LOCUS_05120;gene=uvrC;note=WP_005902903.1 excinuclease ABC subunit UvrC (Fusobacterium nucleatum) [pid:48.0%25%2C q_cov:98.8%25%2C s_cov:98.3%25%2C Eval:8.3e-147],MGA_516
sequence1	MetaGeneAnnotator	CDS	583657	585177	.	+	0	ID=MGA_517;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003732280.1;translation=MSNYILEMHNIRKEFFGGKIVANDDITLKIQTGEIHAIVGENGAGKSTLMKILNGLYDPTSGKIFYKGNEVTIDTPTEAARLGIGMVYQHFMLVETLTVAENMVLGFEPTKNNVFFDLETARKKVIEVSEKYGLNIDPDAKVGDLSVGIQQRIEILKILFKGAELLIFDEPSAVLTPQEVIELYGIMRNLIKEGKTIIFITHKLQEVLDLSDNITVIRRGKDVGNLKTSEATKTVIANMMVGREVLFDIKKEKVEIGKPLVKVDDIVALNDQGAKKVKGISFEIKEGEVLGIAGVEGNGQTELIEVLAGLRKAQSGTYSIDGVELINTSPRNIRLSGLSHVPEDRHKRATIDEFTVNENLILGDMDKYVNKGIINFNKVSKSTKEMIEKYDIRPVDGTVIYGGLSGGNQQKVVIARELEKENKFIIASQPTRGVDIGAIEMIHNTILHERTKGKAILVVSAELTEVMTLSDRIAVMYSGKIVGLLDRKDATMEKLGILMAGGKLDE;locus_tag=LOCUS_05130;note=WP_003732280.1 ABC transporter ATP-binding protein (Listeria monocytogenes) [pid:50.6%25%2C q_cov:99.6%25%2C s_cov:98.1%25%2C Eval:2.9e-145],MGA_517
sequence1	MetaGeneAnnotator	CDS	585170	586261	.	+	0	ID=MGA_518;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004082660.1;translation=MSKFKKTFYSILPSLLSVMIALFVGALIMMSRGVNPIEAYVAMFKSSLYQSSPKFPFNGLAKTLVYATPLMFSAIAVMVAFKAGLFNIGVQGQLVAGGLGAVISGTFITKYLDSFGILNILICLFFAALFGFLWASLAGFLKSKYNIHEVISTIMLNYIMINLQRYLINPSNGPLKDPTTNNNITKKVFEASRLPLFFYEQTKQNLNLGFILIIIIIIASYFFFEKTRLGYEIKAVGFNPTSSENAGINPKLIAFVAMGLAGAIAGLGGAERVLGGAAEYRYTDFIMADYGFTGLAIALLGKNNPIGIFFAAIFYASLEIGGQTLQRQFNIDKEIVFIIQALIIILVAAENLFKYLLNKRKGK;locus_tag=LOCUS_05140;note=WP_004082660.1 ABC transporter permease (Thermotoga) [pid:34.4%25%2C q_cov:97.8%25%2C s_cov:98.3%25%2C Eval:4.0e-47],MGA_518
sequence1	MetaGeneAnnotator	CDS	586262	587122	.	+	0	ID=MGA_519;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583516.1;translation=MEALKIILIQTIKVAPPVLITAVGACLSELSGVTNIGLEGMMLTGAFTAAVVNYFTGNPYLAIICGMLVGSLMSLIHAVISIHLKGEQIISGVAINLFAVAVTSYLVKVIFKASGQTPSASSHPNNILVICAIYILAILSYFLVYKTVFGLRLRAVGEHPLAADTVGINVYKYRYIGVLLSGLYAGLGGAYMTTVILSSFTNNMSAGRGFMALAAMIFGRWNPLGAILASLLFAFGQAVSDFTKATGGSVPQEFLAMIPYLMTVIALVIFGRRSRPPKASGKPYKK;locus_tag=LOCUS_05150;note=WP_012583516.1 ABC transporter permease (Dictyoglomus turgidum) [pid:46.1%25%2C q_cov:97.6%25%2C s_cov:95.8%25%2C Eval:1.9e-67],MGA_519
sequence1	MetaGeneAnnotator	CDS	587223	588245	.	+	0	ID=MGA_520;product=BMP family ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012583513.1;translation=MKRLFGIFTVLLTFVLVLSCGAKTGSSTSADQPAKKIAIVYSTGGKGDKSFNDSSFRGMEKAKAELGIEYSEYEPKDPSVEAKNQLTEYAQTGEYELIIGVGYTMKESLEAVANEYPNQKFALIDDVIEGKDNVVSLMFREQEGSFLTGALAAMMTKTNVLGFVGAIEAPVIHRFATGFIQGVRHVNPELKILTAYVNGSNPFNDPVAGKQLAESLIAQNADIVMHAAGASGAGVFKAAQEKGVFSIGVDSNQDGEAPGTILTSMIKNVDVAVFETIKSVLEGKFESGVKYFGIAEDGVGISELEFTKDIIGQEIIDKLEALRMEIKEGKIKVEENGPLK;locus_tag=LOCUS_05160;note=WP_012583513.1 BMP family ABC transporter substrate-binding protein (Dictyoglomus turgidum) [pid:45.0%25%2C q_cov:95.3%25%2C s_cov:92.6%25%2C Eval:2.5e-72],MGA_520
sequence1	MetaGeneAnnotator	CDS	588478	589782	.	+	0	ID=MGA_521;product=pyrimidine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002289207.1;translation=MRIVDIIQNKRDGFELSTEEIKFLLNEYMQEKVPEYQIASFLMATYFQGMTDRELVDFTMAMRNSGDIIEFPKVDKFLVDKHSTGGVGDKVTVVLAPILASLGMATAKLSGKGLGHTGGTIDKFESIEGFNFSNTKEELSEIAMKTGIGLMGSSDKIVPLDKKIYALRDVTATVPSIPLIASSIMSKKLAIQNDVIVLDVKVGDGAFMKTIDIARELAKRMVAIGKGTNRQVKVVLSNMDEPLGHNIGNALEIIEGIEALKGNISADLKEVVYTIVSLALKAKGDIKELSEGKQIIDDIIKTGKPLDFFANFIKESGGNPEIINDYNLLPTAKNCLEVRSVSSGIVTKIKTEEIGKAAMVIGAGRETKESIIDHAVGIRILKKVGDKVEKDEVIAKIYYNDESKVNASKEMILESYVIGNEKLEVITPILDIIE;locus_tag=LOCUS_05170;EC_number=2.4.2.2;note=WP_002289207.1 pyrimidine-nucleoside phosphorylase (Enterococcus) [pid:47.3%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:6.6e-111],MGA_521
sequence1	MetaGeneAnnotator	CDS	589801	590469	.	+	0	ID=MGA_522;product=deoxyribose-phosphate aldolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010887848.1;translation=MLNIAKYIDHTVLKATTKSCEIKKLCEEAKEYGFYSVCVNGCYVKEAKQLLEGSEVKIAAVVGFPLGAMTKEAKVFEAKEAISNGANEIDMVINVGKLLEGDVKYVEDEIRAIKEAIGNNVLKVIIETCYLNDEQKVLACELSLNANADFVKTSTGFGTGGATFEDVILMKKVVGDMAEVKASGGVKSLETAEKYIEIGATRLGTSSGVEIVTGAKVDSTKY;locus_tag=LOCUS_05180;gene=deoC;EC_number=4.1.2.4;note=WP_010887848.1 deoxyribose-phosphate aldolase (Deinococcus radiodurans) [pid:54.0%25%2C q_cov:96.8%25%2C s_cov:97.7%25%2C Eval:3.5e-62],MGA_522
sequence1	MetaGeneAnnotator	CDS	590490	591200	.	+	0	ID=MGA_523;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000110707.1;translation=MATAHIEAKKGDIAETILLPGDPLRAKYIAENFLENVVQYNNVRGMLGFTGTYKGKRISVQGTGMGVPSIGIYTHELISEYGVKNLIRIGTAGSTNADVKIRDVVVALAASTDSAINKLRFNGADYAPTVSANLLFKVYEEAKNKNINLKAGNILTSDIFYSDNVNEWEKWSKFGVLCVEMETAQLYTTAAKFNVNALTLLTISDSLVTGETTTSEERQNTFNDMITLALDSAITF;locus_tag=LOCUS_05190;gene=deoD;EC_number=2.4.2.1;note=WP_000110707.1 purine-nucleoside phosphorylase (Bacillus) [pid:63.4%25%2C q_cov:98.3%25%2C s_cov:98.7%25%2C Eval:8.9e-83],MGA_523
sequence1	MetaGeneAnnotator	CDS	591209	591628	.	+	0	ID=MGA_524;product=cytidine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000358536.1;translation=MNRYSEQEIRKYIEKANNLLDRSYSPYSKYKVAAVMIDSEGNLHEGVNVENASYGLTICAERNAIASSITKGMKKIDLIVITGDVDNPISPCGMCRQVIREFSKKDTLIVLASSRSKEYILWTVEEMIPYSFGPEDLNK;locus_tag=LOCUS_05200;EC_number=3.5.4.5;note=WP_000358536.1 cytidine deaminase (Bacillus) [pid:46.1%25%2C q_cov:92.1%25%2C s_cov:96.9%25%2C Eval:5.1e-29],MGA_524
sequence1	MetaGeneAnnotator	CDS	591745	592308	.	+	0	ID=MGA_525;product=hypoxanthine phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000683333.1;translation=MKDWEAGIVRKIITEEQLKARIEELGNQITDDYKDDDAEFIVVGILKGSILFMADLIRKIRLPLKIDFMEVSSYGDSFETTKDVKIIKDLDYSVRGKNVLIVEDIIDSGLTLKKILQLIGKRGPKNVILCTLLDKVTKREVDINIQYTGFEIPNEFVLGYGLDFIQEYRNIPYIGVMDLEKYEKEKK;locus_tag=LOCUS_05210;gene=hpt;EC_number=2.4.2.8;note=WP_000683333.1 hypoxanthine phosphoribosyltransferase (Salmonella) [pid:56.9%25%2C q_cov:89.3%25%2C s_cov:93.8%25%2C Eval:3.9e-55],MGA_525
sequence1	MetaGeneAnnotator	CDS	592289	593110	.	+	0	ID=MGA_526;product=16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016282.1;translation=MKKKKNNVEHKHKKKFGQNFLDDKILLEKIKEVTNISVNDNIIEIGPGIGFLTSMILESGAKLKSFEIDNDLIPVLNKKFGNYENFELIHVDFLLYNLENIMGKGKEYRVIANIPYYITAPIINKLLEFKDNIKDIYLMVQKEVGERLNFEKNTSNKGVFTHVVGFHSKVEYLFTVEKEFFDPIPKVDSAFIRINIDKEEKYSKMISFEKYLKYVKASFASKRKSISNNLKTIGISKGITENALVFIGKNNNSRAEELSIEDFIALINIIEKG;locus_tag=LOCUS_05220;gene=rsmA;EC_number=2.1.1.182;note=WP_011016282.1 16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA (Fusobacterium nucleatum) [pid:50.6%25%2C q_cov:96.7%25%2C s_cov:99.2%25%2C Eval:6.2e-65],MGA_526
sequence1	MetaGeneAnnotator	CDS	593113	593352	.	+	0	ID=MGA_527;product=DUF4911 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016281.1;translation=MKSYEYIISTDKYNIDFINKVVEAYEGLAIIRTLDRKEGLIKLLTNTYFIDDINLLIDKFRKNGIDMKILEERVWKGEL;locus_tag=LOCUS_05230;note=WP_011016281.1 DUF4911 domain-containing protein (Fusobacterium nucleatum) [pid:43.6%25%2C q_cov:98.7%25%2C s_cov:97.5%25%2C Eval:7.6e-14],MGA_527
sequence1	MetaGeneAnnotator	CDS	593352	593603	.	+	0	ID=MGA_528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDYYLELVNFWLENLTGSREGYDITVQVKDKNYYIDIFANKSEIGKIIGKNGKIITSLRNLVGSIANKNKDNVTLKISEKEI;locus_tag=LOCUS_05240;note=MGA_528
sequence1	MetaGeneAnnotator	CDS	593704	595182	.	+	0	ID=MGA_529;product=aminoacyl-histidine dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_033065833.1;translation=MENMITKGIYPELVFEFFEKISAIPRGSGKEKKISDWLVNFAKERNLEVYQDDYYNIIIKKDATPGYEKYLPLIIQGHIDMVWEKNKNVDFDFETQGIKLKIEDGFLKADGTTLGADNGIAVAMALALLDSKDIDHPALEILLTSDEEVNMSGAENIDVSKLKAKKMLNLDTEEVGAIYVSSAGGATIRLTTEVDNFELESDDNIYSLEILGLKGGHSGAEIHLKLGNSIKMLMEALKHLELKFEYELILFDGGNKDNAIPREAIAYIATKASKEEIIELMDKFIDVKVEEYKEEESNLRYELNELTDKELRKISKRDTRKVVALYNEFPHGVRTMSKNIEGLVQTSLNCGVLKTETIGNKTMFKVNSLLRSSNIKELDELQDFLIDLGKKYETYGEKVPSFYPWEYKEDSSLRELVTKVFKNKYGKEIEIKAIHAGLECGMFTEKIKDLDVVSFGPNIFGAHTPDEKMEIESVALTWNYLLQILKEYNLVD;locus_tag=LOCUS_05250;note=WP_033065833.1 aminoacyl-histidine dipeptidase (Clostridium botulinum) [pid:42.0%25%2C q_cov:98.0%25%2C s_cov:99.0%25%2C Eval:2.0e-103],MGA_529
sequence1	MetaGeneAnnotator	CDS	595185	596300	.	+	0	ID=MGA_530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLKIDEIIVVEGKDDVTRLSQVIDATIVQLNGSTGLSKEKISYINELSKRKDILLFTDPDFTGKKIREKINKNIEGKVINIYVSREEATKNGNIGVENIDNKKIYEIFSEYLSKRLIENKDNKKYIYDIEKLLENGLVGNKLSKLKREIIGDILKIGYYNSKGLLSMLNCMNISYSDFENAILMMNKKIDKKEKIGIIFGKFIPLHMGHLNFIRYASKEVDKLHVLLCVERNRDLKLLINSSLPKILTENDRMYYLKKELEMFANVEVHVLREEGIAYYPNGWSEWTDRVIKFLKDNNIKINTVFTNEIEDKNNYEKFFVNNEVFSKELDVHFTDPERFEYNVSSTKIRNNFEKYKRYLPKSLQDFFSR;locus_tag=LOCUS_05260;note=WP_005666220.1 multifunctional transcriptional regulator/nicotinamide-nucleotide adenylyltransferase/ribosylnicotinamide kinase NadR (Haemophilus influenzae) [pid:37.5%25%2C q_cov:47.2%25%2C s_cov:41.3%25%2C Eval:9.3e-31%2C partial hit],MGA_530
sequence1	MetaGeneAnnotator	CDS	596401	596550	.	+	0	ID=MGA_531;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904076.1;translation=MRVQVILECTETKLRHYVTTKNKKTHPERIELRKYNPVLKRYSLYREVK;locus_tag=LOCUS_05270;gene=rpmG;note=WP_005904076.1 50S ribosomal protein L33 (Fusobacterium) [pid:81.6%25%2C q_cov:100.0%25%2C s_cov:98.0%25%2C Eval:1.4e-18],MGA_531
sequence1	Aragorn:1.2.38	tRNA	596562	596636	.	+	.	ID=Aragorn_18;product=tRNA-Trp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00180;note=Aragorn_18
sequence1	MetaGeneAnnotator	CDS	596660	596866	.	+	0	ID=MGA_532;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEKMNLFNQIIAEYKQVQWPSKAEVFQVTIVVLLITLFVSLMILIFDFGFTTFMDRFSSIVKSLFS;locus_tag=LOCUS_05280;note=MGA_532
sequence1	MetaGeneAnnotator	CDS	596881	597453	.	+	0	ID=MGA_533;product=transcription termination/antitermination protein NusG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904074.1;translation=MIIENKEYVKKWYIIHTYSGYEKKVKTDLEKRIMSEDLNDKVFRILVPEEKIFEEKKGKMVPVFRKIFPSYVLVEMLAFRDVTEDSVSYRVDSRAWYIIRNTNGVTGFVGVGSDPLPMDEKEVEEIFSKMSNEDFQEKLEYEVGDYVKTLDGIEGTVEHIDYIAKQIKIVIQVGSRPTTLTLGLNEVTKF;locus_tag=LOCUS_05290;gene=nusG;note=WP_005904074.1 transcription termination/antitermination protein NusG (Fusobacterium nucleatum) [pid:46.7%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:2.1e-43],MGA_533
sequence1	MetaGeneAnnotator	CDS	597517	597951	.	+	0	ID=MGA_534;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005894933.1;translation=MAKINKEVVDKVKLQLSAGKANPAPPVGSALGPKGINIPEFCKQFNAQTQDKPGFIIPVEISIYADRSFSFVLKTPPASDLLKKAAKVEKGAQNSVKDVAGKISKAQLQEIAETKMPDLNAANLEAAMNIIAGTARSMGIKIED;locus_tag=LOCUS_05300;gene=rplK;note=WP_005894933.1 50S ribosomal protein L11 (Fusobacterium) [pid:74.1%25%2C q_cov:96.5%25%2C s_cov:98.6%25%2C Eval:2.3e-54],MGA_534
sequence1	MetaGeneAnnotator	CDS	598010	598717	.	+	0	ID=MGA_535;product=50S ribosomal protein L1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015994.1;translation=MSKKGKRYNEISQKVDKLKIYTPEEALELVFDTKSAKFVETVELAIRLGVDPRHADQQVRGTVILPHGTGKTIKILAITSGENIDKALAAGADFAGDEEYINKISAGWMDFDLVIATPDMMPKLGKLGRVLGTKGLMPNPKSGTVTTNISQTVEEFKKGKVAFKVDKLGSIHLPIGKVNFEKEQIIENFKVALGQIIKLKPAASKGQYLRTVAISLTMGPGIKIDPLLAAGFSSK;locus_tag=LOCUS_05310;gene=rplA;note=WP_011015994.1 50S ribosomal protein L1 (Fusobacterium nucleatum) [pid:73.3%25%2C q_cov:95.7%25%2C s_cov:95.7%25%2C Eval:1.7e-94],MGA_535
sequence1	MetaGeneAnnotator	CDS	598896	600119	.	-	0	ID=MGA_536;product=IS91 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011674482.1;translation=MYNSNKIKSIFSKYILTNSINSIKPYFDKKHIEHINHSIHNFLNCGNLSKGFISYRCSSCNFQHKMKLTCKSRLCPSCGYNYSVNWTNSILKQFINIPHRHVLFTVPKEFRKFIAYDRSILSKMSKAINNIFKYQFHNIKDKVKRKIYIPKSNPNYFTNSDIINYGLITVIHTFGRDLKFNPHIHAIISLGGFNKKFQYKELKYFHVPSIANQWKFSLCKLISNANYPNDIIKIQAKKAVSNVYDNDVRFFFNVAGNDINNPKYIIKYLGRYLSRVPIAEYKIVNIDFNKNSLTFKFEDLSNNKEVTYSTLSFKDFVAKVLFHLPLKYFKMINRYGFYARRISSKVKMSLFYLKAQVNKKSLSLFRKNFKELWDFDPFMCPHCNIYLKRYELFIDNGLSPPIHKFYN;locus_tag=LOCUS_05320;note=WP_011674482.1 IS91 family transposase (Lacticaseibacillus paracasei) [pid:26.2%25%2C q_cov:87.0%25%2C s_cov:76.9%25%2C Eval:8.0e-39],MGA_536
sequence1	MetaGeneAnnotator	CDS	600273	600515	.	-	0	ID=MGA_537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIIFDHIIEANKLLFEYGYKLSLKDACGASCLQLKNLDGTRITTTVDPLIYSIINQHFIKYGIEIEYSESKEYLFGKSI;locus_tag=LOCUS_05330;note=MGA_537
sequence1	MetaGeneAnnotator	CDS	600515	601138	.	-	0	ID=MGA_538;product=uracil phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_032884835.1;translation=MAIFEYKHPLISHKLSILRNVETDTKLFRESLNEIASLMVYEATKDLKLKNITVKTPIQETITQVLDEPVTIVPILRAGLGMVDALLAHIPNAKVGHLGVYRNEETFEPVYYYAKMPSNVVESKVLIVDPMLATGGSIIYTIDYLKSLGVKNISILSIIAAPEGILAIKDKHDDVDLYIASIDKGLNENKYIYPGLGDAGDRIFGTK;locus_tag=LOCUS_05340;gene=upp;EC_number=2.4.2.9;note=WP_032884835.1 uracil phosphoribosyltransferase (Fusobacterium nucleatum) [pid:63.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-74],MGA_538
sequence1	MetaGeneAnnotator	CDS	601207	601446	.	-	0	ID=MGA_539;product=type B 50S ribosomal protein L31;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902388.1;translation=MKKGIHPEYRLVVFEDTSNGERFLGKSTKVTKETVEFEGQEYPVIKVAISSTSHPFYTGKFKFVDETGRVDKFKKKYNL;locus_tag=LOCUS_05350;note=WP_005902388.1 type B 50S ribosomal protein L31 (Fusobacterium) [pid:70.9%25%2C q_cov:100.0%25%2C s_cov:96.3%25%2C Eval:2.3e-26],MGA_539
sequence1	MetaGeneAnnotator	CDS	601532	601798	.	-	0	ID=MGA_540;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902954.1;translation=MAHTKSSKKRIVIGERNRLRNQAITSRVKTFVKKVLAAVDSKNIDDAKAALSVAYKELDKAVTKGVLKKNTASRTKSRLATKVKALNA;locus_tag=LOCUS_05360;gene=rpsT;note=WP_005902954.1 30S ribosomal protein S20 (Fusobacterium nucleatum) [pid:65.1%25%2C q_cov:97.7%25%2C s_cov:95.6%25%2C Eval:3.9e-26],MGA_540
sequence1	MetaGeneAnnotator	CDS	601911	603914	.	+	0	ID=MGA_541;product=ATP-dependent DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480299.1;translation=MIEKIYNRLYSDYDFEKRENQINMSKIIKKGIDNDMPVLLEAETGSGKTLGYLIPAIDFALTEMKNIVISTNTLNLQDQILNKELPLLKKLFGEKMKYTLIKGRNNYVCKRKLQDLVMKSDDEKYMDLIEAVKASLTGDRSDIKYKISNDLWNEIKSDKDSTFANKCPYYKSCYFYLSRSKNEHCNIFIVNHHILLLDHIIKQNNNVGLIPKYDLIVIDEAHNLENVVRKYYSLSFSFKEVFKIIGMLYSNNVKDIENAGLIGKIIINISENSNHFLIDELKEIFFSNINNIYYALVELRKKIVRKYTDLNQNGILTKDICDLNVNDLLEKIFSSNLILKKEVYRLINFLEERDELDKDNLRLFLSSSYNNLEEHLNTLQEIFELNYEKYIYWMNLDIDNVFPIINATPYSISKEFGENFIEKIRKVILISATLTVGNSFRYIKNSLGIIDSVEENIPSEFDYLNNMNIYLPDNLPLPNEIDFNERATKFILDYAEKNNGKCFVLFTSYKDLKFVANYLNKYSSSLNVLIQGEYEIIELIKMFKEKENSILLGTYSFWEGVDVQGEALSNVIIFKLPFQVPDDPIVSSICYRLNELNSNSAFKEFQLPYAVLKMKQGVGRLIRSKEDKGNIIILDKRIHKKSYGKIILKSLPKGNIEILSIEDILLK;locus_tag=LOCUS_05370;note=WP_198480299.1 ATP-dependent DNA helicase (Fusobacterium canifelinum) [pid:35.3%25%2C q_cov:97.6%25%2C s_cov:82.7%25%2C Eval:1.2e-112],MGA_541
sequence1	MetaGeneAnnotator	CDS	603972	606014	.	+	0	ID=MGA_542;product=HD family phosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964604.1;translation=MKISFFGKILQINIVNNKIEKGESILKKLFKQNVNRRVIMYISMVAIFFMFMAINNNSNNYAVGTIAKKDVIAHKDVSYTKDILDDELKRKIKQNTTPEYDEIKDVAKNQLDKLEQFLQNINQIDLNNDTEILKFIRTNNLRLTVNEVKTIGISKSVKYYLFLSNVLEEIYKSGVVNKTDFNKILAEKQIVLANEEKRLLLNFIEPNLEINKFKTLAKIEKNMENLKNNVVVIEKGDIVLKEGTVITDAIYDKLKNLGYVHKSDGLYRIVGEIILFIIVSGIFFNYSIRYLKEDFTSKSFYPLLLTLIFSNSIYILLYNNSNLKYFVPYLLTAIIASVLVKNWVFTISLITFNYIFVLEDLKWVFAVIFLSILITYINKSVTSRNEIVKNSIYIGMIQSLVAFSMGLISNINLIQIIPNVIISLVSGLIMGIVSLGLLPYFENTFKILTDIKLLELSNFSNPLLKNLLLTAPGTFHHSLMVGALSEAGAEAVNANPILCRVASYYHDIGKMKRPEYFVENQYGIKNPHNNLKPALSALIIISHVKDGYILGKKYNLPDEILDVILSHHGNTLVQYFYYQALENKESVIESDFRYEGPKPTTKESGIVMLADTIEAAVRANADKSSENVEKIVRHLIKSKVEDGQLSECDMTMNEIEKVTKAFLNIIRGIYHERIQYKRGN;locus_tag=LOCUS_05380;note=WP_010964604.1 HD family phosphohydrolase (Clostridium) [pid:31.1%25%2C q_cov:95.4%25%2C s_cov:96.5%25%2C Eval:2.6e-99],MGA_542
sequence1	MetaGeneAnnotator	CDS	606016	606480	.	+	0	ID=MGA_543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNLDISFKDIDNKEYINEDKILEFSEFVIKNEREDYLDKELYISLLLTDNKNIQEINREYREKDSPTDVISFAYNETENFGGVEVVGDIVISLDRVEEQSKEYNHSVIREFYYVLVHGLLHILGYDHIEEDDKKIMREKEEYYLSKFNYTREI;locus_tag=LOCUS_05390;note=WP_011016624.1 rRNA maturation RNase YbeY (Fusobacterium nucleatum) [pid:72.6%25%2C q_cov:74.7%25%2C s_cov:72.2%25%2C Eval:4.0e-45%2C partial hit],MGA_543
sequence1	MetaGeneAnnotator	CDS	606477	607208	.	+	0	ID=MGA_544;product=diacylglycerol kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003416641.1;translation=MKHKKNSQIDSFNNAINGILHAIKSEIHMKIHMFFAIMVLILSLIIDISKFEIMLVIIMITLVIFSEMLNTALEKIVDLVSPEYSEVAKIVKDVSAGAVLVSAIGSVCVGYLIFYDRLIALYFNGDNFFKLVGRIGNVTMIIITLVSLSVILIKAYLRKGTSLEGGMPSGHSSIAFAMSAIVMFLTSDARIIILVLLMALLVAQSRVKSKIHTLNEVIVGAILGFSISFLILEILYKFGTLIN;locus_tag=LOCUS_05400;note=WP_003416641.1 diacylglycerol kinase (Clostridioides difficile) [pid:44.5%25%2C q_cov:96.3%25%2C s_cov:97.9%25%2C Eval:1.8e-49],MGA_544
sequence1	MetaGeneAnnotator	CDS	607221	608138	.	+	0	ID=MGA_545;product=manganese-dependent inorganic pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000416873.1;translation=MIIFGHKNPDTDAICSAIVYSHLKEDLGIKAVAKRIGELNEETKFVLKYFGVDAPEYIDNVAGESIILVDHNERTQTADGFEEAKVLEVIDHHRVANFNVSDPLYMRVEAVGCTSTILFDMYRENNIKPCKIMAGLMLSAIISDTLLFKSPTCTPKDVIAGKELAKIAGLDLKEYGLEMLKAGTNLSSKTEMELLNMDMKIFEVEDIRMSIAQVNSVNEDEMLERKEKLLVEMKNLMEKEKVNFVMFVITNILTNDSVGLVSGNNLDVVEKAFNEKINDNMIVLRKVVSRKKQVVPPLTDAIKNR;locus_tag=LOCUS_05410;gene=ppaC;EC_number=3.6.1.1;note=WP_000416873.1 manganese-dependent inorganic pyrophosphatase (Bacillus cereus) [pid:54.1%25%2C q_cov:99.3%25%2C s_cov:98.7%25%2C Eval:1.0e-90],MGA_545
sequence1	MetaGeneAnnotator	CDS	608256	608519	.	+	0	ID=MGA_546;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005890045.1;translation=MAMKPKSQIIAEFGKDEKDTGSANVQIAILTERISHLTEHLKLHFKDVHSRAGLLKLVGKRRRLLNYVKNRNLDEYRELIERLGIRK;locus_tag=LOCUS_05420;gene=rpsO;note=WP_005890045.1 30S ribosomal protein S15 (Fusobacterium) [pid:61.2%25%2C q_cov:97.7%25%2C s_cov:100.0%25%2C Eval:2.2e-24],MGA_546
sequence1	MetaGeneAnnotator	CDS	608567	609922	.	+	0	ID=MGA_547;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861729.1;translation=MRGRLNLVEGSIGINLFRLAFPIILTSLMSILYNLTDIKFISYYLGDDAVSSATAASFYIGLSYSLLFITKNSVQIYVAQSIGANRKNSAKRYARVSLIISVVFSISYGLFTYIFAEQLIRLVGVKSPHYLYPAIDFLRISTFGFIFLFLSQNLSAIINGQGDTLGPFVFLSSGVILNIFLDYLFLGIFRFGIKGAAIATVFSQLISVILLFMYLKRKNSIFRNMKFFKLDEIKFYRKIIRLGLPSGISQGLFTLISIIIAKMIADVDESILGVQRLGIQFESFSWNIAGGFAAAVATFVGHNYGAGKYDRILKIYKVSVISISGFCLVLTGIFVFFARPLYSMFFIDTRLIEEGVKYLTIIGLAQVPQGIEIITTGAFNGVGKTKEPNIIGIVGTSLRIPIIMITLPTFGLLAIWWTIHFSMVFKGIISALIFIITWKKQLEYMKITLEI;locus_tag=LOCUS_05430;note=WP_011861729.1 MATE family efflux transporter (Clostridioides difficile) [pid:34.8%25%2C q_cov:96.5%25%2C s_cov:97.1%25%2C Eval:1.0e-69],MGA_547
sequence1	MetaGeneAnnotator	CDS	610137	611360	.	-	0	ID=MGA_548;product=IS91 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011674482.1;translation=MYNSNKIKSIFSKYILTNSINSIKPYFDKKHIEHINHSIHNFLNCGNLSKGFISYRCSSCNFQHKMKLTCKSRLCPSCGYNYSVNWTNSILKQFINIPHRHVLFTVPKEFRKFIAYDRSILSKMSKAINNIFKYQFHNIKDKVKRKIYIPKSNPNYFTNSDIINYGLITVIHTFGRDLKFNPHIHAIISLGGFNKKFQYKELKYFHVPSIANQWKFSLCKLISNANYPNDIIKIQAKKAVSNVYDNDVRFFFNVAGNDINNPKYIIKYLGRYLSRVPIAEYKIVNIDFNKNSLTFKFEDLSNNKEVTYSTLSFKDFVAKVLFHLPLKYFKMINRYGFYARRISSKVKMSLFYLKAQVNKKSLSLFRKNFKELWDFDPFMCPHCNIYLKRYELFIDNGLSPPIHKFYN;locus_tag=LOCUS_05440;note=WP_011674482.1 IS91 family transposase (Lacticaseibacillus paracasei) [pid:26.2%25%2C q_cov:87.0%25%2C s_cov:76.9%25%2C Eval:8.0e-39],MGA_548
sequence1	MetaGeneAnnotator	CDS	611565	612152	.	+	0	ID=MGA_549;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRIIFLMMFLMSLFSFPIDITGPNYRLDLNVAAGYRPDPHDRNRPLEFKGDFNNVDIEVGFSPEWTLNINKNFEIVFGPKLTVVLFVSHYLNISDEPEREIFFGISSGARVDFDYIIKKNIKLYAALEAAATVRPDIHISSISNDGKNILLTVHPTILGRFAIGTKIKRYNVGLYTEYGLNKELVGGIEVGYSF;locus_tag=LOCUS_05450;note=MGA_549
sequence1	MetaGeneAnnotator	CDS	612173	612943	.	+	0	ID=MGA_550;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIILVLLIGITSFSAPITRQRNRRVKIEEVKKIEKIEENLDKTINIEEVIDKEPKIIKRKKINKPRYRVGMEISTLPIYHTKTKMFGYYAYKSFSFLPEWKIDVNENFDITLGPKISANLVFGVNNRDQINSNEYSQQSIIDKSTIIISASIGGEIDFNYRLRDNLKAYVGLETQIGIGEKIYTKSGLYDTGEKKEGQIENTFKPYTPYQIFKNTYLTYTGKVSAGLKIREKYNIGIFFGYGKGYFGIEFGQTF;locus_tag=LOCUS_05460;note=MGA_550
sequence1	MetaGeneAnnotator	CDS	613047	614801	.	-	0	ID=MGA_551;product=NAD nucleotidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010868956.1;translation=MNKKLLAGLLAVSTLGFSANKALDLSIIHINDHHSYLEPTEQRITVDGKQFKVNIGGFSAVNQKVKELRRTRKNPLVLHAGDAITGTLYFTLFGGSADAAVMNEGGFDYFTLGNHEFDAGNEGLLKLLEPLKIPVLSANVIPDKSSILYNKWKPYAIKVINGEKIGIIGLDTVSKTVNSSSPGKDVKFYDEVITAQIMANVLKSQGINKIILLSHAGTEKNFEIAQKVNDIDIIITGDSHYLYGNDELRKLNLPVVHEYPTEFKNPNGEPVFVVEAWAYSGVVGDLGIHFTKDGIASITRKNPYVLLHTNKLQARNKEGKWEELQGKEREHIISHLKANKSISFAKEDPRTSKILAKYKAEKDVLAKQVIGSISGANMPGGSNNRIPGRKGASEHGSIATRFVAETMLNELKFVDYVIQNSGGVRADILAGDISFNDAYTYLPFGNTLYTYKISGADTLQVLEDAINFALTKSTGAFPYGAGIRYEANETPDANGKRIVKAEVFNKETGMWEEVMPEKMYVVGTNNYIASGKDGYATFGKLFKDPAAEGTDSFLPDAESFIKFMKNNPGFEAYTTSNVIFHNAK;locus_tag=LOCUS_05470;gene=nadN;note=WP_010868956.1 NAD nucleotidase (Haemophilus) [pid:72.5%25%2C q_cov:96.4%25%2C s_cov:93.5%25%2C Eval:1.4e-242],MGA_551
sequence1	MetaGeneAnnotator	CDS	614839	615609	.	-	0	ID=MGA_552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVKKMFLLSFLSFIALSNVNNFNKDNVSKNDKNNFEIVSTKYTYFHSINSKKEKKYYEDLMYKIDRNKANKFKKQVEDVEKIFSRVFKSEKNLVPKIIKYIYFEPIKTDDKNLIDEQIQKIMVAFNANNDSIIYINNTNNSAEQFLNRIYSRAKKEQVLLFENSDKEILNAINEQIKKDYPEKNNFSLIEVRVLIISASSRVKEKLALSNAIFNKELSGVEVDDFSYLDRQRYLLDTTTQETREKTFKSFINGIY;locus_tag=LOCUS_05480;note=WP_005689698.1 hypothetical protein (Haemophilus influenzae) [pid:45.3%25%2C q_cov:70.3%25%2C s_cov:70.0%25%2C Eval:3.1e-39%2C partial hit],MGA_552
sequence1	MetaGeneAnnotator	CDS	615811	616212	.	+	0	ID=MGA_553;product=class Ib ribonucleoside-diphosphate reductase assembly flavoprotein NrdI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004399478.1;translation=MNDKIIIYYESLTGNVEKFISKMKSYEDFEFIKISSETIVEKEGHLITFTTGFGQISKNTDFFLTNNENYKKIKTVCSSGNMNWGKNFAKAGELINEKYGIYFIFKFELSGTLQDVKEYTRKIKKYEKERECN;locus_tag=LOCUS_05490;gene=nrdI;note=WP_004399478.1 class Ib ribonucleoside-diphosphate reductase assembly flavoprotein NrdI (Bacillus) [pid:39.5%25%2C q_cov:93.2%25%2C s_cov:93.1%25%2C Eval:8.4e-21],MGA_553
sequence1	MetaGeneAnnotator	CDS	616212	618296	.	+	0	ID=MGA_554;product=class 1b ribonucleoside-diphosphate reductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001215839.1;translation=MKWVYLNNEIMVKDSEGKLQIEKDKEAVYSYFIDYINKNTVFFHNLKEKIDYLIEKDYYINFYDMYSFEEINEVFKFVYSKKFRFKSYMAASKFYQSYALMDDTGEKILERYEDRISIVALYLGQGNKEKALKYAKMLINQEYQPATPTFLNAGKKRSGELVSCFLDEIGDNLSGIGYAFESAMKLSSIGGGVAFNISKLRARGEAIKGVEGRASGVLPIMKILEDIFSYANQLGQRPGAGAVYLNVFHSDILEFLDTKKINVDEKIRIKSLSIGVIISDKFMELASADLPCYTFYPHSVYLEYGKYLDDLDMNEWYEKLVANPKVKKKKINVREFLVKVAQTQKESGYPYLFFKDNANREHALKEIGDVKFTNLCTEIMQLTEVSDINNYYEEDNIRRGISCNLGSVNIAKVMENKSIKEVVKNAIDSLTTVSDLTNISIVPSIKKANDELSSVGLGAMNLHGYLAKNMIQYESREALDFCNVFFMMMNYYSLERSMEIAKERSRSFLGFEKSEYANGKYFEKYITKEYMPVTDRVKELFEGIHIPGVEEWKKLKEDVMKYGVYNAYRMAIAPNQSTSYIMNATASVMPIVDKVEVREYGDSTTFYPMPYLNYDNFFYYKSAYDMDQKNILKLISVIQRHVDQGISTILFTKSNDTTRDLSKLYILAHKLGLKSLYYTRTRKSTIEECLSCSV;locus_tag=LOCUS_05500;gene=nrdE;EC_number=1.17.4.1;note=WP_001215839.1 class 1b ribonucleoside-diphosphate reductase subunit alpha (Bacillus cereus) [pid:59.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.6e-247],MGA_554
sequence1	MetaGeneAnnotator	CDS	618311	619312	.	+	0	ID=MGA_555;product=class 1b ribonucleoside-diphosphate reductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001203038.1;translation=MEKKIYKAVNWNTLDNDYVEVFWEQNLRQFWIDTEYIPSKDIDSWHSLSPEMRETYKKVLGGLTLLDTLQSHTGMPKIIDHIESLQCRSVLSYMCMMESIHAKSYSTIFTTVASTEEINEIFRWVQDNQYLQFKANKIDEYYQCLNNPNATPREIYMALVASVFLESYLFYSGFFLPLWLSGHGQMVASSDIIKKIIADESIHGVFVGKLAQEIFEEMSFVEKESVKKEIMNLFYELYENELKFTDEIYSDVGLTSEVKEYIRYNGNKALMNLGFKEEFEIKEVNAIVLNGLNVETTQHDFFSKKSTNYEKTLEVVHLNDDDWNEDFDTDLDI;locus_tag=LOCUS_05510;gene=nrdF;EC_number=1.17.4.1;note=WP_001203038.1 class 1b ribonucleoside-diphosphate reductase subunit beta (Bacillus) [pid:53.3%25%2C q_cov:96.4%25%2C s_cov:99.7%25%2C Eval:2.7e-95],MGA_555
sequence1	MetaGeneAnnotator	CDS	619322	620473	.	+	0	ID=MGA_556;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKKYTLMQILYWAMFSSVYAFANSFLSSRGFNSTLIGTVMALSALFSVLLQPLTARLIEVYKKITVKNSLIASMLLVLLNALLISYFDDKILVSIFFIILITGLLNAQTYMYTFIFQYINKGENVNFGIARGMGSAAFAISSYFYGLLGSKIGFEFIPICATILSLFVIFVIMSFKDIKKETLNNETEIKANFLEFFNKYKRFCYVLLGMIFIFFTHTVINTFMRNILESLGRGAEEVGIGFMIAAVVELPVMFYIVKLNKKFGYSKLLKISAIAFLTKITITYVTILTGNITLFYIAQITQFAGYAIYVPVSVYYTNHIMEEKDRIKGQAYMAVSATIGSILGNLIGGKIIEIYSLNSMILASLIATIIGAVILMLNLEDK;locus_tag=LOCUS_05520;note=MGA_556
sequence1	MetaGeneAnnotator	CDS	620932	621270	.	+	0	ID=MGA_557;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLNLDLVRKILLYIEENGNDERGINVEIKGYTRLEIDYHICVLSEGNYLLLYEDKTPKRWTMKGHSYIENIRCKYIWEELKKDVELKGILTTSLDIIKDYGNKFIKDKLEL;locus_tag=LOCUS_05530;note=MGA_557
sequence1	MetaGeneAnnotator	CDS	621410	621562	.	+	0	ID=MGA_558;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKEELMVLGLTEEQANKVLVEFNAKLKEVTDEKRVGGHKKKLVHTSIQF;locus_tag=LOCUS_05540;note=MGA_558
sequence1	Aragorn:1.2.38	tRNA	621570	621645	.	-	.	ID=Aragorn_19;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00190;note=Aragorn_19
sequence1	MetaGeneAnnotator	CDS	621751	622353	.	+	0	ID=MGA_559;product=DUF1361 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002386206.1;translation=MRKTYIKYSLISLGFAILSNLIYPRYYFLTWNLFLAYIPFYISNIKKKNIFVDAFLAFVALIFYPNAVYLFTDLIHISNLSFYKRGVKVVYLMNYSNWIKVSLIFLAVIISMKLSYLAINNYAKKYRMNKITKYTFYSVISFLTGLAVFVGRFIRLNSWDLFIYPHRTFYTFIKQINTENIKYILLFAFIQLFVIILEEE;locus_tag=LOCUS_05550;note=WP_002386206.1 DUF1361 domain-containing protein (Enterococcus) [pid:31.8%25%2C q_cov:87.0%25%2C s_cov:92.1%25%2C Eval:1.5e-18],MGA_559
sequence1	MetaGeneAnnotator	CDS	622355	622795	.	+	0	ID=MGA_560;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVYLAGSLFNEAEVQQRLREGKLLRERFPNIDLFNPIEQPFNEDKQTLPTPIDIYSGDANAIINSEIIILDMTNEDAGVMVELGLAIAYNKKIIAINSDIRLKSSNKYDIPSYSMNHFVLGGILKHGILVYSFDEAMRELEKYDK;locus_tag=LOCUS_05560;note=MGA_560
sequence1	MetaGeneAnnotator	CDS	622785	623396	.	+	0	ID=MGA_561;product=YoaK family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003436876.1;translation=MINNAVINKRRIAFLLTMIGGFLEIYSYLLLGKVFATTITGNLILLVFNLKRLEVSNIIKYLVPIIFFCLGVLVSEKIKSKITISFSKLVLFLEILILSFIPFMKIQLIAISLIAFISGIQIQTFRKISNNVYMSTMCTGNTRALVEALTNKREQDIKDYFVVVSGFLLGVLLGDISIVFFDKFSIYICVLMILLIIYIIKKV;locus_tag=LOCUS_05570;note=WP_003436876.1 YoaK family protein (Clostridioides difficile) [pid:35.9%25%2C q_cov:83.3%25%2C s_cov:79.3%25%2C Eval:1.0e-22],MGA_561
sequence1	MetaGeneAnnotator	CDS	623401	624606	.	+	0	ID=MGA_562;product=pyridoxal phosphate-dependent aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964319.1;translation=MKLSDKVLGMQYSPIRKFVPFADKAKKEGVKIFEFHIGQPDVKTPDSFFNGVTKYQEKIIKYTNSQGLEELLDAFVEYYSRYNLKIDKKEILITNGGSEALQFAINTICNKDDEVLVPEPYYSNYDSFLRIADAKLVPIVTKIEEGYRLPSYDKMKKLITPKTKAILFSNPSNPTGVVLNEREIEDIKRLALEFDLFIISDEVYRQFIYDVDTKFRSFLSFEDVSDRVIMIDSISKHYSACGARIGILASRNAEIIAQSLKLCQARLSVSTIEQYASANLVRGIDVYIDDVRAEYRKRRDLMYEKLSLIEGVKANKPDAAFYIFASLPVNDTEEFNKWLLCDFRHNGKTLMFASGNGFYSKEHRDLGKNELRFSFCGNNLREIEEGINLLEIALKEYNEKH;locus_tag=LOCUS_05580;note=WP_010964319.1 pyridoxal phosphate-dependent aminotransferase (Clostridium) [pid:53.4%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:5.7e-122],MGA_562
sequence1	MetaGeneAnnotator	CDS	624593	625228	.	+	0	ID=MGA_563;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNTKKGYLLEISYKGKKFDCFDEIKDKKTVKGVLKEYILSKGIKIYKGLQQAGRTDARVSAYSNYIYFVADRFNIDILDINVDISGLKIKNIIETKNDIVLPDIVEKRIYIYFYPKKFLNVDKETILKRCEEISGYRDFSEFTNHKGLKLKNHFRDVKVTYVEEKLYFEGNSFMPQQVRIMSGYILKGKKEAMDPKFLVLEKIIFKGDVL;locus_tag=LOCUS_05590;note=MGA_563
sequence1	MetaGeneAnnotator	CDS	625225	625476	.	+	0	ID=MGA_564;product=YhdT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147367085.1;translation=MKKQIDKEALITSIIYLIYFVWWYYFAYIYPPKNVEEYKYILGLPEWFFYSCIVGFIWVNIAVFAVIKIFFKNIDLDTGDINE;locus_tag=LOCUS_05600;note=WP_147367085.1 YhdT family protein (Fusobacterium canifelinum) [pid:70.1%25%2C q_cov:92.8%25%2C s_cov:79.4%25%2C Eval:6.6e-29],MGA_564
sequence1	MetaGeneAnnotator	CDS	625469	626917	.	+	0	ID=MGA_565;product=sodium/pantothenate symporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902082.1;translation=MNKFQLLWPIIIYLFITILVAYYISRKENKNNFTESYFIGNRSMGAFVLAMTVVSTYIGASSFLGGPSIAYKLGLGWVLLACIQIPLIFFTLGVLGKKIAIISRKIKAVTLIDILRKRYNNEFLIVLLSVLMLIFLFASIIAQFIGGARLIESIIDIDYKIALTIFVFTVIFYTTIGGFKAVTITDAIQGLIMMISTFVLFVVIVNKVGSMSEITSTIKSIDPNLLTPDAGGAISRPYILSFWILVGIGILGLPATTVRSMGYKDSKALHNGMIIGTFVVGFLLIGMHLVGFMGRAIEPNIDVSDKLIPILALKNLHPIIAGIFIGGPLAAIMSTVDSLLILISSSIVKDLYINYVNKNTSDSKLKKVSLIITISIGLITYILSINPPSLIVWVNLFALAGQEVLFFVPVFMGLYWKRGNDKGAIASVIVGFVVFIMLEKFKYSIFGLMSIVPALVFALISYIIVSFMSKENDKESIDLFFE;locus_tag=LOCUS_05610;gene=panF;note=WP_005902082.1 sodium/pantothenate symporter (Fusobacterium nucleatum) [pid:58.0%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.6e-166],MGA_565
sequence1	MetaGeneAnnotator	CDS	627503	628417	.	-	0	ID=MGA_566;product=pseudouridine-5'-phosphate glycosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948816.1;translation=MKKYLEINPIIKEALENNKPVVALESTIISHGMPYPQNVEVALEVEKIARENGIVPATIGIINGKLKVGLTEDEINFLGKEGVNVPKVSRRDLAYIVSNGLNGATTVSTTMIIAALAGIKIFATGGIGGVHRNAEVTMDISADLEELAQTNVAVICAGAKSILDLPLTLEYLETKGVPVLGYKTKELPAFYTIKSGYNLDYSIDNPKEFAKILKTKWNLGLNGGVVIANPIPEQYAMDFDTITNAINNALEEAEKLGIKGKDSTPFLLDKVKKITDGKSLDANIQLVYNNVRLAAEIAKEFVQL;locus_tag=LOCUS_05620;note=WP_011948816.1 pseudouridine-5'-phosphate glycosidase (Clostridium botulinum) [pid:67.4%25%2C q_cov:100.0%25%2C s_cov:99.0%25%2C Eval:1.1e-116],MGA_566
sequence1	MetaGeneAnnotator	CDS	628426	629346	.	-	0	ID=MGA_567;product=PfkB family carbohydrate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948815.1;translation=MICIIGGANIDIQGFSYNSIILNDSNPGKIEKGFGGVARNITENLAHLNLDTKFIAPIGDDEFSISLLNYMNNKKVDMSNCLVIPNESLSTYLSVLNDENEMIVAIASMSILEKLDIDYIKSKEKYINESDVLVIDTNLRQDVIEYISTFNKKIIVDLVSTTKTKKIKNILNKIHSIKPNKIEAELLTGINIKDEESMILAGQKLLEQGVKNIYITLGKEGLFYMNKEKHGLINNPEIKAVDITGAGDAFTAGIAYSVKNGYDIEKSAKISMTMSVINVTNLGTCYQGLTEDLLNNNLKKYFNIEL;locus_tag=LOCUS_05630;note=WP_011948815.1 PfkB family carbohydrate kinase (Clostridium botulinum) [pid:41.2%25%2C q_cov:97.7%25%2C s_cov:82.5%25%2C Eval:2.0e-65],MGA_567
sequence1	MetaGeneAnnotator	CDS	629482	630462	.	+	0	ID=MGA_568;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKGIIIGLMTISTTTLGAEYYVINESKVNLGHEGTFKKDISTGIKLGTVFGNNKKEVGVFTGGQVGYKDKAEGRAHFGANLKMKVREDIELIINASYQYMDKEALEWSVKELLKSRGEWDSKFEKDKGALKAYYHSQGFRFKDGENLFSGIVNYDNKNYKLHTGLIYTADYVTTGDGKNRFRFENFATISTSKGKHDIEGTINYKLKKDTYKHGGRLKLELNTLSRLDKIDIHNKGELYLGTIAPNKKNYSILLENGIKHKTNNLEINTTLNSGVVFKEIEKSTKADSLKILYKPELKVNVKYNKGSIDIESKNKLMGRVETKG;locus_tag=LOCUS_05640;note=MGA_568
sequence1	MetaGeneAnnotator	CDS	630535	631482	.	+	0	ID=MGA_569;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKYKLKEFDIRAVGKYSGIVKMKKGTSDAEYEKTEHLIELGTGVTYEKKIGRLDIRYSVDGRYIFGYGDKKTFSILNLWSDNKAEYKLNNKLTLKGELNLTTSNRLSILNHNSNEDELLLLADTKGIVEYKLNNKTDITSTIGAKTISLFSALTNNTSKKSSSNNMGGQENKLHLKLQYSYKIYTDNKVKYQLRDNIGIIGKFGMSYSTGIKSDKLYESLNKIKRNQVGEKGIEDFSKEDLDIIKKEENAFGNDIQSLLLISPEAEAELKYINNRLIIKPRFGIDVSAKIKSNENKMEYKAVNVKTGLKVEYRW;locus_tag=LOCUS_05650;note=MGA_569
sequence1	MetaGeneAnnotator	CDS	631669	632892	.	-	0	ID=MGA_570;product=IS91 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011674482.1;translation=MYNSNKIKSIFSKYILTNSINSIKPYFDKKHIEHINHSIHNFLNCGNLSKGFISYRCSSCNFQHKMKLTCKSRLCPSCGYNYSVNWTNSILKQFINIPHRHVLFTVPKEFRKFIAYDRSILSKMSKAINNIFKYQFHNIKDKVKRKIYIPKSNPNYFTNSDIINYGLITVIHTFGRDLKFNPHIHAIISLGGFNKKFQYKELKYFHVPSIANQWKFSLCKLISNANYPNDIIKIQAKKAVSNVYDNDVRLFFNVAGNDINNPKYIIKYLGRYLSRVPIAEYKIVNIDFNKNSLTFKFEDLSNNKEVTYSTLSFKDFVAKVLFHLPLKYFKMINRYGFYARRISSKVKMSLFYLKAQVNKKSLSLFRKNFKELWDFDPFMCPHCNIYLKRYELFIDNGLSPPIHKFYN;locus_tag=LOCUS_05660;note=WP_011674482.1 IS91 family transposase (Lacticaseibacillus paracasei) [pid:25.9%25%2C q_cov:87.0%25%2C s_cov:76.9%25%2C Eval:2.3e-38],MGA_570
sequence1	MetaGeneAnnotator	CDS	633098	633550	.	+	0	ID=MGA_571;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015889.1;translation=MKIAIGNDHSGVDFKNQLVDYLLSKGIEVLNVGTDSADSVDYPDIAKEVSKNVLNKNVDFGILICGTGIGISIAANRISGIRAALVTNELCARLSRQHNDANVLVLGARVTGIELAKSCIDAFLSADFEGGRHSGRFSKIECNCGSGVID;locus_tag=LOCUS_05670;gene=rpiB;EC_number=5.3.1.6;note=WP_011015889.1 ribose 5-phosphate isomerase B (Fusobacterium nucleatum) [pid:57.1%25%2C q_cov:95.3%25%2C s_cov:98.7%25%2C Eval:2.1e-40],MGA_571
sequence1	MetaGeneAnnotator	CDS	633550	633888	.	+	0	ID=MGA_572;product=histidine triad nucleotide-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902960.1;translation=MSTIFKKIIDKEIPAKIVYEDDEFLAFEDIYPAAKIHVLVIPKKEIKNLDAATEEDLMLLGKLQLTVAKVARLLGVNESGYRVVTNINSDAGQTVYHIHYHILAGEKLGVMA;locus_tag=LOCUS_05680;note=WP_005902960.1 histidine triad nucleotide-binding protein (Fusobacterium nucleatum) [pid:55.9%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:8.8e-34],MGA_572
sequence1	MetaGeneAnnotator	CDS	633888	634652	.	+	0	ID=MGA_573;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898090.1;translation=MKDVIVSTDNRYYKLIKKLNDKKYRDESGVFLAEGEKFLEEKNNFSKVIVKESKYMYYEEKYNISKYENLTILSDKLFDNISTQNNSQGILFIYSKHLSNLSELSGDLIILDAIQDPGNIGTIIRTLVAANYRTLILTKSSVDVYSPKVVRATMGGIFNVNIIYEEKENIIKFLKENGYNIISTALSKESIDYREVELKKDKNAYIFGNEGGGVSDEFLEISHQKAIIPIYGKIESLNVSIALGIFLYKMRELD;locus_tag=LOCUS_05690;note=WP_005898090.1 RNA methyltransferase (Fusobacterium nucleatum) [pid:48.0%25%2C q_cov:99.2%25%2C s_cov:98.4%25%2C Eval:1.3e-61],MGA_573
sequence1	MetaGeneAnnotator	CDS	634859	635902	.	+	0	ID=MGA_574;product=alcohol dehydrogenase AdhP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000649161.1;translation=MKAVVVNKESTGVEIVEKTLRPLKAGEALVDVEYCGVCHTDLHVAHGDFGKVSGRVLGHEGIGIVREVAEGVTSLVPGDRVSIAWFFEGCGRCEYCVTGNETLCQSVKNAGYSADGGMAEECIVTADYAVKVPEGLDPAQASSITCAGVTTYKAIKVGKPQPGQWVVIWGAGGLGNLAVQYAKKVFNTRVIAVDINDDKLALAKEVGADYVINGLKEDPVKKIMELSGIGAHISVVTAVSKVAFNQAIDSARPAGRVVAVGLPSETMDVSIVATVLKGIEIIGSLVGTREDLKEAFDFGAMGLVVPVVQTRPIEDAIDIFDEMEKGTIQGRMVIDFRKHDCGCGCKH;locus_tag=LOCUS_05700;gene=adhP;EC_number=1.1.1.1;note=WP_000649161.1 alcohol dehydrogenase AdhP (Streptococcus) [pid:79.5%25%2C q_cov:96.8%25%2C s_cov:99.4%25%2C Eval:1.1e-150],MGA_574
sequence1	MetaGeneAnnotator	CDS	635995	636696	.	+	0	ID=MGA_575;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011837230.1;translation=MSYIKIENLKKVYIIGENEIIANNDINFEINKGEFVVILGSSGAGKSTLLNILGGMDVADSGNIFIDNKNIAKYTKEELTKYRRNDVGFVFQFYNLLPNLTAKENVELASELVEKDIDIIEVLKDVGLENRMNNFPSQLSGGEQQRVSIARAIAKSPKILLCDEPTGALDFNTGKQVLNILSNLSSKKNVTVIVVTHNSEIAKIADKVIYMQDAKVKEILINKNKLNVSEIKW;locus_tag=LOCUS_05710;note=WP_011837230.1 ABC transporter ATP-binding protein (Streptococcus sanguinis) [pid:64.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-84],MGA_575
sequence1	MetaGeneAnnotator	CDS	636708	637763	.	+	0	ID=MGA_576;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILSLDGGGLKGIYTIMMLDKIQKDFNINYHEYFDIIIGTSTGSIIATLLALGVKPSEILNIYEDCYREIFKKKSNRQKPLFDSLYENYGLENAVKKYINDLGYRNLKTKLIIPSVNLSDSKINIIKSYDEIMKKESEQFTLIDAIISSSAAPGYFAPHIVKNKMYVDGSLFSNNPALIGLAESFKLGINDLKKVKLLSLGTGMEEVKFSNSDISNANIKNIFKINSFLDNMIMKFLKIDEKDSGLISMAFPLIKTTMKTSVENTEYILDKILDEKNYVRINDKSKKLKIDEIPTELIKNINDYYINNHYDKLEIFFKEELSELEIIEKKSWFKKKMYILAEKIRKFSMN;locus_tag=LOCUS_05720;note=WP_001133548.1 CBASS cGAMP-activated phospholipase (Vibrio) [pid:32.5%25%2C q_cov:61.5%25%2C s_cov:67.6%25%2C Eval:1.0e-23%2C partial hit],MGA_576
sequence1	MetaGeneAnnotator	CDS	637774	638265	.	+	0	ID=MGA_577;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNIIAILFGLFAMSLFKKNNNTTFVGILLRIVFIVLGIMFFIPIIAFLIFAIFIGYIIVKVLGIKFTTNTYTEEDFYNFYGNRNNANFYNYNQRDDEYKKACDYLGVSTTDSFDVKKKARNTMLKKYHPDFFKDENEKEKATEITNKINNAWQIIEKYEDIK;locus_tag=LOCUS_05730;note=MGA_577
sequence1	MetaGeneAnnotator	CDS	638305	638517	.	+	0	ID=MGA_578;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFTILILYLFFPIIQFIMTILVIISFIKYIFYNYFSYILITIVISTILSVIKIWFDKEYEKYKKEKDEQK;locus_tag=LOCUS_05740;note=MGA_578
sequence1	MetaGeneAnnotator	CDS	638750	638935	.	-	0	ID=MGA_579;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLNKDEKEMLDEILKNILVFIIFVIAVICLFFCHPVTTISIIFIYSVLFSINLFSKIVVF;locus_tag=LOCUS_05750;note=MGA_579
sequence1	Aragorn:1.2.38	tRNA	639171	639247	.	-	.	ID=Aragorn_20;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00200;note=Aragorn_20
sequence1	Aragorn:1.2.38	tRNA	639259	639352	.	-	.	ID=Aragorn_21;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00210;note=Aragorn_21
sequence1	MetaGeneAnnotator	CDS	639431	640201	.	+	0	ID=MGA_580;product=TatD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494599.1;translation=MKNLIDTHMHLYSELYINNREEIINDMKEKLDLAVNISCDMESTLESVKYADKYDFMYATVGYHPCDISKFNEKDFEEMLNLAINHPKVVAIGEIGLDYYWMNDSKEEQEKYFRLQIENAIKLNMAIVIHTRDSLEDTIKIIEDYPELRGIFHCYSGSYEDIEHLLDRFYVGIGGTSTFKNNKTTHDLIKKISLDRIVLETDSPYLTPVPFRGKLNNPIYVSYVAEKIAELKEIDLEEVKKKTTENALKVYNICLK;locus_tag=LOCUS_05760;note=WP_029494599.1 TatD family hydrolase (Fusobacterium hwasookii) [pid:48.4%25%2C q_cov:97.7%25%2C s_cov:98.8%25%2C Eval:1.3e-69],MGA_580
sequence1	MetaGeneAnnotator	CDS	640189	640530	.	+	0	ID=MGA_581;product=holo-ACP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861979.1;translation=MFKIGIDIVDVKRIEKAIIKSEHFLKNVFSQKEIEYCEKKINKYESYAARFAAKEAYIKAIGTGITDISLNNIEIINSELGKPFLYVNGELIDGDISLSHTESLAIANIILKK;locus_tag=LOCUS_05770;gene=acpS;EC_number=2.7.8.7;note=WP_011861979.1 holo-ACP synthase (Clostridioides difficile) [pid:40.3%25%2C q_cov:97.3%25%2C s_cov:94.4%25%2C Eval:2.1e-19],MGA_581
sequence1	MetaGeneAnnotator	CDS	640552	641307	.	-	0	ID=MGA_582;product=IclR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011391955.1;translation=MSVQSIDRAMQLLEILSQGTNFALSDLCKKSKLNKTTAFRILHSLKENGYVKQNKKGLYSLTFKMFRVGNRIIQNIDFTQPAKSYITKLAFETNQTIHLVIRDGSQILYIDKFSPENSSNNMEWSKIGRRAPMHCTSAGKAILAYCSEEDINNIWNQTEKIKYTARTIVNLDVLMDNLKLVKKNGYSVEYEEYELGLYCIGCPIFNSKSEVCGALSISIPLSEKEQTKTFFVEKIKDCSVKISKKLGYEGY;locus_tag=LOCUS_05780;note=WP_011391955.1 IclR family transcriptional regulator (Moorella thermoacetica) [pid:34.8%25%2C q_cov:98.4%25%2C s_cov:92.5%25%2C Eval:3.4e-35],MGA_582
sequence1	MetaGeneAnnotator	CDS	641434	642612	.	+	0	ID=MGA_583;product=M20 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003358751.1;translation=MNDFIKKIVDSNYDEIVAHRRYLHENPELSECEYNTSKYIEEFLKKQGIEYRKVADTGIYAYIKNGEGKTVAFRADMDALPILEESDFEIHSKNKGVMHACGHDIHTSVQLGVAKILSENLDKWKGNVKFFFQPAEETVGGAKRMLEDGVNDDFKADAIFAFHVAPEIDAGKIGVKYGKLHATSSTFTITVNGFSAHAALAYLGIDTVVVGAKVVEYLQSIVSRRIDARECAVITVGTFNAGTAQNIVADKAVLTGTIRTLTLDLKKWIVNEIKTNLPKFVESIGATVDIDFKDSYIPVINNDEKTKFLEEKAIDILGIDNVERIEKSRMDAEDVGYFLDVIEGSFYRLGVRNEKIGAIYDLHHPKFKVDENAIRVGMMVQLKSALEFLNEN;locus_tag=LOCUS_05790;note=WP_003358751.1 M20 family metallopeptidase (Clostridium) [pid:39.2%25%2C q_cov:99.0%25%2C s_cov:98.7%25%2C Eval:1.5e-79],MGA_583
sequence1	MetaGeneAnnotator	CDS	642602	644023	.	+	0	ID=MGA_584;product=23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495280.1;translation=MKINDIICVKIEKLVFGGEGIAKHGDLVIFVPMSVPGDELKVKIISIKKTYARGLITEIIKPSIDRISSDKITFEDYSGCDFAMMNYEAQIKNKSMILKDVFKRIAKEDIKEDIYVEKSENIFNYRNKVAEPFIKINGEIKTGFFKKKSHEIFVSDEVNLRANIATIVLDKLLLKLNKYRGTKKEYKVFNDITNTGFLKTCVIRNNDMNEVMLVLVVNGKSSINRLKETLIELYNENDEIKSIYISVKNKLDNVIFGEEFIKISGSSYIVENLFGINFKIYPNSFFQINKKQTEKLYLEALNFLGDYKDKNVIDAFSGTGTIAMIMSKKANKVIGLEIVPESVKSAIKTSNENNIKNVEFLVGKVEETISRVLENNNIDYIVFDPPRKGIDKSILEKVNESGINKLVYISCDPTTLARDIGVLKEYGYKLEFIKGFDMFPQTHHIETVVLLSKLKIKKHVDIELHADELDLIS;locus_tag=LOCUS_05800;gene=rlmD;EC_number=2.1.1.190;note=WP_029495280.1 23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD (Fusobacterium hwasookii) [pid:48.0%25%2C q_cov:95.8%25%2C s_cov:99.8%25%2C Eval:3.3e-119],MGA_584
sequence1	MetaGeneAnnotator	CDS	644261	645229	.	+	0	ID=MGA_585;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTNYDLRVKYWSTNDLTIGFYLKRIEEIVCDFVIDKKIDDINEIIELYNIQQFFQNGIYSIHWTKQQLNDYSEIVSEFSKVIGKFFSKINVDTIESMFDTLYSEYRNDFWKLIENYKVYDKISVDQFRNIILNKHFLLNDVLKCKNLVKKFSNEIVTYIEKNPFCAKIMLSYYLGKHDKNIETLYFPVELSNEKKILILDKYITSNSSDINYLKLIFESNSTNNLCLTDELKLKAKRKYDEDMEGLLKEGTGFKYGVQVSFSNKIDEKFSFEIDINKILSVSYSAKWIKENLDYPTLLNNFIYLNIQICNLDLFMFLVKLK;locus_tag=LOCUS_05810;note=MGA_585
sequence1	MetaGeneAnnotator	CDS	645226	646197	.	+	0	ID=MGA_586;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSALERILGIKGRKEYTTGIAFQQIQMLAQLQMIVYCNELEKYNIYLEDIIESFFCDYLEKEFNVKGFRFNKSSHTASYLEKCRNIAAEFDNILKRFKIYCKYEKIDDELIRMSTEHIFIKDIPSMLINKYIYPCGDDYKTISNLLFSDQSPIHYLPKSLNNYDSFYCLLRKENVYYDMFENHQISIIDWLIDHNIIKIDDKKRIIPYWEKIKILNELYQHGVVCFSYMRKYQSIIMELNKMGLVEFSSSLFSRPEQSYYNYLFNKSEFDNGLDLRNRYVHGTEIADENKNKCDYFIFLRIMILIVIKINEEFCLKYPKNKEC;locus_tag=LOCUS_05820;note=MGA_586
sequence1	MetaGeneAnnotator	CDS	646379	647110	.	+	0	ID=MGA_587;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012775278.1;translation=MIEYKKVSLICSKAGKILNNLNLEIQKGEFFVIIGPSGSGKTTMLKLINRLIKQTEGDIFFQNKNLKEYNLRELRLEIGYVLQQIALFPNLTVEENIALIPEMKNMDKDVIKKKTIDLLEKVGLDSEKYMKRFPRELSGGEKQRIGILRAIISNPEILLMDEPFSALDPISKTQLQDLIKMLHDEYKMTTVFVTHDMSEALKLADRICIMKNGEIIQCDNPMEMRNNPINDFVKEFFYVKECE;locus_tag=LOCUS_05830;note=WP_012775278.1 ABC transporter ATP-binding protein (Streptococcus suis) [pid:70.3%25%2C q_cov:97.1%25%2C s_cov:97.1%25%2C Eval:5.3e-94],MGA_587
sequence1	MetaGeneAnnotator	CDS	647110	648621	.	+	0	ID=MGA_588;product=ABC transporter permease/substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012775664.1;translation=MNIINVFLDKKSEWLLALFEHLQISLLSLLIAIIIAVPLGIFVINYKKTKEWLLQVTGIFQTIPSLALLGLFIPFIGIGTLPAVVTLVIYAIFPIMQSTITGLSEIDSSLEEAATAFGMTKWEKLKKYQLALSMGILMSGVRTASIMIIGTATLAALVGAGGLGSFILLGIDRNNTELIFIGAISSAILAIIFGGLIKFLQNKKPKTILMASILSIISVGISFTPLSSNSEKTLVIGGKLGAEPELIINMYKLLIEEESDINVEIKPNFGKTNFLYEALKSKSIDIYPEYTGTVITTLLKNPIENISNDSEEVYKIARDEIYKQDNLVFLKPSEFQNTYAIAVKKDYGQIHDLNKISDLSKIEKNAMAGFTLEFNDRKDGNKGLKSIYGLNLKVRTMEPSLRYSAINSGNVDIIEIYSTDSKILIYDLKILEDDKKLFPPYQVAPLLREKTLKDYPELKDILEKLSNKISSKEMIEMNYKVDVEGKSAREVAREYLKKENLIK;locus_tag=LOCUS_05840;note=WP_012775664.1 ABC transporter permease/substrate-binding protein (Streptococcus suis) [pid:64.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.3e-185],MGA_588
sequence1	MetaGeneAnnotator	CDS	648640	649242	.	+	0	ID=MGA_589;product=glycerol-3-phosphate 1-O-acyltransferase PlsY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016461.1;translation=MFEVIILTVLAYLLGSIPNALWIGKIFKNIDVREYGSGNVGSTNAARVLGWKLGLFTLLLDVLKGSIFVIVAKKLNLDDIYLVLIGMAAILGHSYSIYLGFKGGKAVATSLGVFIILVPKVILLLLIVFIVIVFITQYVSLSSITCAFLLPILVYMLYNNVVYTIFGLFIAMIIIIRHKSNIINLINKKEAKFFDKANKK;locus_tag=LOCUS_05850;gene=plsY;EC_number=2.3.1.15;note=WP_011016461.1 glycerol-3-phosphate 1-O-acyltransferase PlsY (Fusobacterium nucleatum) [pid:44.9%25%2C q_cov:92.5%25%2C s_cov:95.4%25%2C Eval:9.0e-40],MGA_589
sequence1	MetaGeneAnnotator	CDS	649251	650252	.	+	0	ID=MGA_590;product=NAD(P)H-dependent glycerol-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003230566.1;translation=MNILTIGGGSWGTALTYLLDNKGHKCFLWEYNEDYRKQIREKRENENFLKGFKLSESIEIIDDFNLVLENEDIDIILLATPTQFLRDTLNKLKDGMKKKYILVNVAKGIEISTGLTISKICEEILKDKEYEYVLLAGPTHAEEVVNNMPSVILSVSKNTQSAKIVQETFNNKSLRVYTGNDVIGSELGGAIKNCLAICAGICDGLGYGDNTKAALLTRGMNEIILIGSTLGANPLTFMGLTGLGDMIVTCTSKHSRNRYLGEQIGKGRKLEDIVSEMKMVSEGASTIKALYQIIKKNEIRTPIFTALYELLYENKDVSTLTQTFMERELRSEF;locus_tag=LOCUS_05860;gene=gpsA;EC_number=1.1.1.94;note=WP_003230566.1 NAD(P)H-dependent glycerol-3-phosphate dehydrogenase (Bacillus) [pid:46.3%25%2C q_cov:97.6%25%2C s_cov:93.9%25%2C Eval:3.9e-78],MGA_590
sequence1	MetaGeneAnnotator	CDS	650263	651105	.	+	0	ID=MGA_591;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNDKTNSSDNNINLISLYISDLQNHELLTSEEEVELFKRVREENDEQAKHLLILSNLRLVVSEAKKLLGNGMPLIDLISEGNLGLIKSIDKFDYTKGLRFSTYAVWWIKQTIKKSIVNLGRDIRIPSYKYEQLSKVNKVIESYQNEFGDIPTAEYIAEVLGMKPSKVVLLQNEFQEIISLNDAIGDNIFLEDVIGQSDNVEDDIIRNDQLSEMYNLFDKTLNPREKEILELRYGLANNKIHTLKEIGEKLSITRERVRQIEKKAITKLKKNLEEYKYMY;locus_tag=LOCUS_05870;note=WP_124796886.1 RNA polymerase sigma factor RpoD (Fusobacterium canifelinum) [pid:43.8%25%2C q_cov:93.6%25%2C s_cov:64.4%25%2C Eval:2.8e-52%2C partial hit],MGA_591
sequence1	MetaGeneAnnotator	CDS	651121	652236	.	+	0	ID=MGA_592;product=DNA polymerase III subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010895902.1;translation=MLNIRLNRKEFLKKIQIVENAIVDDKANGINSGIFIETLDDKLLLKAMGEGLYIKAEMPCEIVEKGEFIIKHKLMEEFLKQLDQEIIEIKEVNGKISIISGKSSSEFSIYEYEKRNEPYITNGLEFSFKREELLNDLERVKFAAYLNLDRLAVNCIRFEIDNLGLKFVASDAHRLIFLDKKFEEKANIETLSISIPLRSVNSLSKILKIMEDEVLTFKSEGTRILFKFKDVEILTKLVEMQYPDYKSLLNSVRNNKKALLNTRDLTSILKRVSVFVKDNNDKKDIAIFKFNDNQLEVVGSNDLAVSQEKINCIYEGDNLKIALNVRYILDYLLTISESTVLEMKMFDERTPVLLNVENSTESIYLVAPTQV;locus_tag=LOCUS_05880;gene=dnaN;EC_number=2.7.7.7;note=WP_010895902.1 DNA polymerase III subunit beta (Buchnera aphidicola) [pid:24.4%25%2C q_cov:97.3%25%2C s_cov:97.5%25%2C Eval:2.4e-18],MGA_592
sequence1	MetaGeneAnnotator	CDS	652530	652850	.	+	0	ID=MGA_593;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIEVGFSPEWTLNINKNFEIVFGPKLTVVLFVSHYLNISDEPEREIFFGISSGARVDFDYIIKKNIKLYAALEAAATVRPDIHISSISNDGKNILLTVHPTKDLL;locus_tag=LOCUS_05890;note=MGA_593
sequence1	MetaGeneAnnotator	CDS	653193	653735	.	+	0	ID=MGA_594;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEISTLPIYHTKTKMFGYYAYKSFSFLPEWKIDVTRDFDVTIGPKFSANLVFGVNNRNRSDYTQFVIDKDEIIVSASVGEEVDFNYRLRDNLKAYIGLEAQVGIGERIYTKSGLYDTGKKIEGSSENAFKPYTPYIIFNNTHIMYSGKVSAGLKIRDKYNIALYGGYGKGYFGIEFGQTF;locus_tag=LOCUS_05900;note=MGA_594
sequence1	MetaGeneAnnotator	CDS	653811	654284	.	-	0	ID=MGA_595;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIKKNLGIITSLSALLPLLKFTIKPLGFDTKYFTLGLINLGLKATILAFIIIALSLYSFYLSDNLQKKFSIVFVTLNMILVITLSLLLKTEVKKILSQNFALKLLNVTYSYSWGWLVLFLGTLSSFIVVLFEFKKFLSNKNEIPKIETENNEIEL;locus_tag=LOCUS_05910;note=MGA_595
sequence1	MetaGeneAnnotator	CDS	654300	655025	.	-	0	ID=MGA_596;product=HAD-IB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003421079.1;translation=MKKIAAFFDVDGTIFRNSLLIEHFKMLIKFEFIDEGSFFGDIRQKFKMWEERKGTYDDYLEELVDIYIECIKNVEQKDIDYVAQRVIENRAQKMYAYSRNKIKDHLEKGHLIIIISGSPSFLVDKMAKKLNATDFIATEYLLDENNKYNGENIPMWDSKSKIKAIKDFEKKYDIDLENSYAYGDTTGDFGMFEMVGNPVAINPAKKLFKKISNDKNIKDKIKIVVERKDMIYILDSNVEFM;locus_tag=LOCUS_05920;note=WP_003421079.1 HAD-IB family hydrolase (Clostridioides difficile) [pid:50.2%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:1.1e-70],MGA_596
sequence1	MetaGeneAnnotator	CDS	655153	655389	.	+	0	ID=MGA_597;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIRVHEDMNIDEVVEKYPIVSHILMRYGLGCSGCIISTAETIGEGIELHGLDADIILEEINMILEMEEEEKNKENAV;locus_tag=LOCUS_05930;note=WP_005902519.1 DUF1858 domain-containing protein (Fusobacterium) [pid:63.0%25%2C q_cov:59.0%25%2C s_cov:71.9%25%2C Eval:9.3e-12%2C partial hit],MGA_597
sequence1	MetaGeneAnnotator	CDS	655391	656014	.	+	0	ID=MGA_598;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITTGEVICKYLKIKNINQIFLAKNLGITPQYVNGIIKNKRSASKKVIDKIIKFLKISDEDIDMIKKYEIFKKTGVIKKEAVNIKIEAIYTDYGYVEEYKEGLIILEEFGDIYSDCYIIRIETENLNKFCYGDYVVIKKEKDILTEYFNKYFLVKIDDEIDFCKIEKIDDKLLLTYLNKNKGKKIIRVNKKIEIIGTIIGKYSLWKE;locus_tag=LOCUS_05940;note=MGA_598
sequence1	MetaGeneAnnotator	CDS	656016	657377	.	+	0	ID=MGA_599;product=phosphoglucosamine mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902604.1;translation=MSRKYFGTDGIRGEANKDLSIDLVTNLGLALGYYLRKDKEENEKTKVILGTDTRISGYMIRSALSAGLTAMGVNVDFVGVLPTPGVSFLTRTLNADAGIMISASHNPIKDNGIKIFSNTGFKLSDNDELQIEELMENREKLMENLVHGEKLGRFIFIEDYLRMYRKFLQTTVKNDFKGYKVVIDTANGAAYRVAAKVLQNLGAEVQVINNIPTGKNINVDCGSTNPEKLCKAVKLFNANIGIAYDGDADRLIVVDEEGEILDGDIIVSILALNLQKKDMLNSNKVVMTVLSNMGVEKYLEDHGIRMIRANVGDRYVLEKMRKLGLNLGGEQSGHVIMLDYNTTGDGVLSSIQLMQAFIESGKKLSGLRKEIKLWPQAMINVPVLKEKKKNWDKNQNLINYINEKEEEILGEGRILVRPSGTENLIRVMVEARTKETMERILNEIVEKVKEELA;locus_tag=LOCUS_05950;gene=glmM;EC_number=5.4.2.10;note=WP_005902604.1 phosphoglucosamine mutase (Fusobacterium nucleatum) [pid:55.2%25%2C q_cov:99.1%25%2C s_cov:99.3%25%2C Eval:2.4e-140],MGA_599
sequence1	MetaGeneAnnotator	CDS	657420	658082	.	+	0	ID=MGA_600;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048142.1;translation=MLIINHGLNFLKSFSKGNKLKVLDLGCGTGTIASMFSKEGHDVVAVDISSDMIEIAQSKYEDLNIKFLVGDITKEQFGNDYDLIMCNFDTVNYFDDLSSFKSFLKNVKLILKNNGIFIFDIVEEGIFDEMFENDLFIDETDEYLCIMRHEKIKKFKHLVEMTIFVKEDENLYRKYSEIHNKIIYDTDLVLDTLKVEGFKLYDSARNSEYGESRLFLVCKK;locus_tag=LOCUS_05960;note=WP_012048142.1 class I SAM-dependent methyltransferase (Clostridium botulinum) [pid:32.8%25%2C q_cov:86.4%25%2C s_cov:77.6%25%2C Eval:2.0e-22],MGA_600
sequence1	MetaGeneAnnotator	CDS	658090	658500	.	+	0	ID=MGA_601;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNIEDMKEFEFSELLSKTKFNSTTEESNSNKRIDEDGDEIREEFLEEVKVERDSKLHRYISFATGFVYTILSPLILLLGIYFAAENIFLFKRNNLVIILLILIGILTGYWTLYKDIKKITAKRERKNGNKNKEIK;locus_tag=LOCUS_05970;note=MGA_601
sequence1	MetaGeneAnnotator	CDS	658472	658909	.	+	0	ID=MGA_602;product=dUTP diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880090.1;translation=MEIKIKKLNSNAIIPTYGTEFSAGADLYSCMDEDLLIKSGETVMIKTGISLEIPEGLVGLVYARSGLAYKKGIAPSNKVGVIDSDYRGEIMVALHNHSKEDYVIERFERIAQLVITPYIKADFIETETLNDTLRDKGGFGSTGKK;locus_tag=LOCUS_05980;gene=dut;EC_number=3.6.1.23;note=WP_010880090.1 dUTP diphosphatase (Aquifex aeolicus) [pid:50.3%25%2C q_cov:98.6%25%2C s_cov:96.7%25%2C Eval:2.8e-31],MGA_602
sequence1	MetaGeneAnnotator	CDS	658957	659670	.	+	0	ID=MGA_603;product=tRNA1(Val) (adenine(37)-N6)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903463.1;translation=MEKYIVDVAGMKIEQIKGLQSFTLDSLLIADYVNINRKSKKLLEIGSGFGIISMILRKRTLAEITGVEINYDAYNISLENLKNNNIDNIFFINEDILNYRKFLSEQTYDIIVSNPPYFTHKDEKQLKKNINLRNARVESTLSIKEILNISTYLLKNNASLYLIFRTERLSEIIELLKDSCLEVKRVKPIYTKIDDDKSLICMVEIVKGAKSGFILEKPIYVYKSDGERSEYIEKLYR;locus_tag=LOCUS_05990;note=WP_005903463.1 tRNA1(Val) (adenine(37)-N6)-methyltransferase (Fusobacterium nucleatum) [pid:32.9%25%2C q_cov:95.4%25%2C s_cov:93.4%25%2C Eval:1.5e-32],MGA_603
sequence1	MetaGeneAnnotator	CDS	659651	660349	.	+	0	ID=MGA_604;product=isoprenyl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017071.1;translation=MKNYIDKFPKHIGIIMDGNGRWAKQRNLARTEGHKAGANKLEEIIECIMDLDIKYLTVYAFSTENWKRPKLEVTAIMKLFTKYLKINEEKFMKEKIRVCISGSRSNLSSSLIKQIEYIENLTKDNDKLVLNIAFNYGGRLEIIDALKKVVAKNLEINENNISNNMYNSFIPDVDLVIRTGNDFRISNFLLWQIAYSEIYVSELLWPDFTKEELHKSIFSFINRERRFGGIKC;locus_tag=LOCUS_06000;note=WP_011017071.1 isoprenyl transferase (Fusobacterium nucleatum) [pid:54.5%25%2C q_cov:96.1%25%2C s_cov:97.0%25%2C Eval:3.0e-67],MGA_604
sequence1	MetaGeneAnnotator	CDS	660343	661263	.	+	0	ID=MGA_605;product=phosphatidate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017070.1;translation=MLSRLFVIVLALPLLIYILLSGEVSFLVFNVVVIAIALHEFYTILKNKGNIVYYKTGILIGMFLPIFIYYREDISFFFRYIKILNKENIIFDVGGYIIFATLLIAIIQILSSRIKNSTNELMLTLFGIIYIPLFSSYMVSIREGLNNGRIILLYSFFSIWAADTFAYIVGKLFGGKIFKKRLSEKISPKKSIEGFFGGILGVFIVGLYFEYIYNVLVNILSYFKILTYVEKIDKVLISQNVIKLFILSILIAIFSVLGDLFESKFKREFGVKDSGRILMGHGGFLDRFDSALFVLPIVYYFIKYFI;locus_tag=LOCUS_06010;note=WP_011017070.1 phosphatidate cytidylyltransferase (Fusobacterium nucleatum) [pid:34.4%25%2C q_cov:99.3%25%2C s_cov:96.6%25%2C Eval:4.3e-36],MGA_605
sequence1	MetaGeneAnnotator	CDS	661273	662673	.	+	0	ID=MGA_606;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNFIVEIYFKDDIEIENIRYDEINDFLDKNCKIIKKDYIFYENVKIEQYNPFKLYSYIKYEVANFDKNINTQLSLFSEIKLVKSKTKLSNEEKNNINVSIEQINNIIEKIDDIYFIRKSLSKFTKYIDDKKKNDFLNELKLLSSLKYDLKRETFSLRIIDIKKEMNAIEKIIKEYISLLGLNIKFSINHNDIKIDKTMFYKIKESLIDVLHNSVLSFFETKNSNINVKEVYTLELNLKQEKYNLIIEVVEKGNSLDINYIYNNALKANILNRNETYTDKDILLSILNKKYINALDDLDEKEKIMNFIKINNVIEELDGKIEISLVDDIMRFNINIPFKILFINGFVFSEMNKTYVINTEYIVDTFEFDNKNVNSLNGYNYYKYKNNNIEYIKLPIESEEKDRLGLLIKTNNKYTVIDVNRKHDFEDIFFNKDEKSKIYMGEVLLRTVKKAKILNIESIIDMLKG;locus_tag=LOCUS_06020;note=MGA_606
sequence1	MetaGeneAnnotator	CDS	662675	663736	.	+	0	ID=MGA_607;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKYIKEILDKINQIEKILVQIQTPKEEEFAYLTKIINEVENKIYFLGNNEDIDVASTLKKVFVYIERYPYQFFIFKHLIFEILLNFESLYNLYNTNDIEKIKGLRDKLNVNIFDLKKEFEIINKNKNYYYINFTLDRNIPYFYLSRRNILSRLKEYGKPYNYIPLSLDDDRYTYFILDFKIENNIDVLSLLEEIKNDDEAILDYKINKLENHKNIYNVKLYLDKTNNETYINISEKINKEILLDIIHYENMYDIYLYAKNQLEILNIINSINNEKIYFVLSKNINNRETKGIAVNGINVNNVEKIRKLISITMLDKKILDILYRDFVDFIGKQFLEYLKENYNIENGKYIV;locus_tag=LOCUS_06030;note=MGA_607
sequence1	MetaGeneAnnotator	CDS	663803	664498	.	+	0	ID=MGA_608;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRTNNRKNNELREIKITREYIKYPEGSVLIEFGNTKVICNVTVEEKVPPFLKNLGQGWVTAEYSMLPRATNTRNKREASQGKLSGRTMEIQRLIGRSLRAALDLKKLGERTLIVDCDVIQADGGTRTASITGGYLAMEIAINKLILSGLLNENPIRAKVAAISVGKVNNELFLDLEFYEDSHADVDMNIVMNSKGEFIEIQGTGEDTTFTKQELDKFIELASLGFEKLFKL;locus_tag=LOCUS_06040;note=WP_011015875.1 ribonuclease PH (Fusobacterium nucleatum) [pid:62.3%25%2C q_cov:100.0%25%2C s_cov:53.2%25%2C Eval:3.0e-80%2C partial hit],MGA_608
sequence1	MetaGeneAnnotator	CDS	664506	665567	.	+	0	ID=MGA_609;product=23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016454.1;translation=MVKIDILDLSLDELEKMFLELGLKKFNALQVYQWLHKKLVFNFDEFSNISKETRELLKEKFEIGTLKYVTHQTSKDKETVKFLFSLPGKKLIESVLLKYKNRYSICVSSQVGCPLKCDFCATGMMKFEKNLKASEILMQFYYLQNYLKEKNDKISNVVYMGMGEPFLNYDAVNKSINILNSKEGQAFSKRNFTISTSGLINEIDKFVEDQKQVGLAISLHSVNEKRRSELMPINKINPLDKLRESLLNYQNKTKNRITFEYILIDDFNCEKEDAVALVKFMRSFNHLVNLIPYNKVAGKPYKTPSLQKQKEFYNHLLSHKINVTLRETKGEDIQAACGQLKVKKEEINNEESN;locus_tag=LOCUS_06050;gene=rlmN;EC_number=2.1.1.192;note=WP_011016454.1 23S rRNA (adenine(2503)-C(2))-methyltransferase RlmN (Fusobacterium nucleatum) [pid:47.6%25%2C q_cov:97.5%25%2C s_cov:98.0%25%2C Eval:2.4e-89],MGA_609
sequence1	MetaGeneAnnotator	CDS	665551	667548	.	+	0	ID=MGA_610;product=transglycosylase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898410.1;translation=MKKVIKYFSMLIISLFIMGFIGLSYIVYEVNKNYPPELIENYKPLIPSTIYDINGNQIDLITIERRDPISISEIPKMVQDAFISVEDKRFREHNGLDYIRLTKALILNVTKTGREGGSTITQQLIKTIFLTPDRSLKRKVVEAVLATRMERKYTKDEILELYLNTINFGRSSYGIKNAAKNYFGKLPSELTVGEAAILASIPKSPAKYSKIENALERQKIVLSLMYKNGAITREEYENAKLEDITFVNLDTKHLSDDERISKSNISPEFTTTVINEVKKILQIETEEDEKLLFNGYKIYATVDINMQKAAYKAFASNNNLRNRKNLEAALISIDPTNGFVKAMVGGKKYQKGDFNRALNAKRQPGSSFKPFVYLSALLDNYTMATTLEDSPSTFGKWTPKNYDWKFRNNLTILKALEISDNVVAVKALDLVGLKKFNSLWESFGFSKKDIPQDLTTSLGSITLSPIDMAKAYSIIANGGNKVEPQFIYKIENRFGDVIYEADTTKEKVLEPEYAALITHMMESVVKNGGSKGAQLYAKGEAVPVAGKTGTTSDYISAWFTGYTPTLVTVVYVGNDDNKSMGRGMSGASAALPIWKNYMQAVVNLGNFDIGRFEFIKDGIMSEKLVKKVIDLRSGLLDSDGFNAREALFIAGTEPVELENIIYEGY;locus_tag=LOCUS_06060;note=WP_005898410.1 transglycosylase domain-containing protein (Fusobacterium nucleatum) [pid:40.3%25%2C q_cov:98.6%25%2C s_cov:88.0%25%2C Eval:9.3e-134],MGA_610
sequence1	MetaGeneAnnotator	CDS	667881	669413	.	+	0	ID=MGA_611;product=ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003568253.1;translation=MKKRILLFILLMYSSFSISMEKLRVGMEAGYAPFNWFQSDDRNGAVKLKNGYAGGYDVEIAKIIAEKLNMELEIVQSDWDSLLGPALNSDKIDVVIAGMSPTKERRENLEFTDPYYESDLVIVIKKDSKYLNANNIQEFSNSKLTAQLNTFHYTVLDQIERLKKENASENFSNMLVALESGKIDGYISEKPGALSAKLSNPNISFVEFDKDNGFKYDRDDVNIAIALKKGNTELRDKINKALSEISVEQREEIMKKAIATQPNQGSDELPNNFLSWIKYFIVNYWKDFLYGTLTTVNLSLIGTFFGFIIGLILSLLRDERNVNKKSWLSIVIYNIFKYFVSIYVTFIRGTPMIVQAIIFYYGFSQITGINIPALTSALIIVSYNTGAYITEIVRGGIDSIEKGQYEAAQALGMNHFNIMRKVILPQAIRNVLPSVANEFIINIKDTSVLFSIGVTELFTTSKSIVGSHVRYYEVFVITCAIYFVLTYSLSKLFRYFEKKMDGNKEYEIEG;locus_tag=LOCUS_06070;note=WP_003568253.1 ABC transporter permease subunit (Lacticaseibacillus) [pid:46.4%25%2C q_cov:95.1%25%2C s_cov:89.2%25%2C Eval:8.3e-124],MGA_611
sequence1	MetaGeneAnnotator	CDS	669416	670147	.	+	0	ID=MGA_612;product=amino acid ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011459577.1;translation=MSIIKVVNLKKSYGKRNILNGINLEVNESEVVSIIGSSGSGKSTLLRCLNLLETYDEGSVLYKDIDINDKKILLNEYRSKVGMVFQQFNLFNNLNVLENCMLAQVNVLGRTNEEAKETAIRYLKKVGMDKFINARVNQLSGGQKQRVAIARALSMNPEALLFDEPTSALDPEMVGEVLKVMKELAEEGLTMIIVTHEMDFAREVSDKIVFMDKGIILEEGHPDDIFTNPKNERTKEFLSRILK;locus_tag=LOCUS_06080;note=WP_011459577.1 amino acid ABC transporter ATP-binding protein (Desulfitobacterium hafniense) [pid:60.4%25%2C q_cov:98.8%25%2C s_cov:97.2%25%2C Eval:2.0e-77],MGA_612
sequence1	MetaGeneAnnotator	CDS	670226	672031	.	+	0	ID=MGA_613;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNTRSLFNIVLFIIFLTTSSIFVKGQNIIPEGLRKRSGISYEIKSVYHGIGNQNKSSISIGTKTEHGGEYSVAIGDNSSSEGYAAITQGYEAKSDGYSSISLGYKAYAGANYAIAQGYNAKAEGGTSISIGSDSNSKRAFSVSIGNESKATSEHSVAIGSNSVTNNKVSVNTVTLGELTLKDFAGSNPHSVLSIGATGKERQLQYVSAGQISSKSTDAINGSQLYASNMIMSNIADSIKLILGGNASIKDNKITIDNIGGVGKNSIHEAMVEFLKKNEEINKELKSSKDELKKLSDNTMIISGDKGNTDTQTLSKDGGLKFSIKGSEYIKTEAKGSEVLLDFTDKVKSDISKGVAANSGVASAVAMANLPQISRIDDRKHNVAGAYGYYNGEHAFALGMSGLNEVGNVIYKVSGAFNTKGNLSLGAGLGYQFGINGKEKTNEIIVERENIINRDELDKLNDLNNKLNQRIDELERRLKAFEDIKINEDELYTLTGYKTGKFELTNSQEEILKDIVRELNENYRNRKIYITGYTDTMSNEDLNLELGLKRANVVAKKLRALGLDMSISIRKVSSSGYNNIIETNKSSSGRSSNRRVEIELR;locus_tag=LOCUS_06090;note=WP_052728129.1 YadA-like family protein (Escherichia fergusonii) [pid:26.3%25%2C q_cov:61.7%25%2C s_cov:20.8%25%2C Eval:3.1e-24%2C partial hit],MGA_613
sequence1	Aragorn:1.2.38	tRNA	672169	672251	.	+	.	ID=Aragorn_22;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00220;note=Aragorn_22
sequence1	MetaGeneAnnotator	CDS	672273	673058	.	+	0	ID=MGA_614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMELKLTKKEIELFDKNEELIRMNLVSKAIYNESLNYEFTEMDNKNIWFSEENLVLELYMRKKVEPRVMVNENSIIEVYNNNKEYFEKNKIPFNEAREIIKNDLTEESNYALFEDLVKKLMNEMDDNVVLSKEDILFTKGNENLIKSILLINVLKENAKKDNFFKENKEEIELIKKDARLNYYLNKLIEEKAVISNQTVLDEMQKFSKENFNAVKNYSQEELFKYVGDNLLNARISEVKKEVIDRVIKEYNIEKIIKEYTK;locus_tag=LOCUS_06100;note=MGA_614
sequence1	MetaGeneAnnotator	CDS	673063	673758	.	+	0	ID=MGA_615;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFRNKELWEYFFDKPKKHYNIYMYEMPKYPNHLIFDDEEILNAKGMWNETYFKNNNELHLEIGSGSANFTNNKALQNPDINFLGVELRLKRLVQAARKAEKNELKNLIFLKKRVSSLQEFIGANELSGLYINFPDPWENEEHKRIFGPKLLNDLDVVLKSGSKIYFKTDHLNYYLDILELIKNNENYEVVYNTDDLYNSEKAIDNIKTEFEHLFLSKHNMNIKYIEIVKK;locus_tag=LOCUS_06110;note=WP_011015702.1 tRNA (guanosine(46)-N7)-methyltransferase TrmB (Fusobacterium nucleatum) [pid:51.3%25%2C q_cov:99.6%25%2C s_cov:35.8%25%2C Eval:6.6e-67%2C partial hit],MGA_615
sequence1	MetaGeneAnnotator	CDS	673933	676071	.	+	0	ID=MGA_616;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEVIKQTNRALLFEKFNDEVYDILTLIGDVENISSLDDEKIQEINKHLLVSNFNEFLEKFEPKIYSYMDVENKRIGYTLTKNENIPDSMYTTIYINNENTFIRMLSTLIENRKNLDKKNVDFQFEDILELISPRKVIENIKQQRKEINYLFAKYEALSDKSPKKLDVGDLLNYKFQEASKNYNNILAMLPLAIEDIKTRLEIGENKENVNVEEIKLGYLEFSDGGEIEFIEDQLELETTKLLPNNSQKLLEIFENDYYESIEKPNNYVANLIKRTYVPITTNNLSIDFEKEANNYNQYLELYKNSQEDFIKIAKELIEKVMGVKLFFDQYSVNTKNMLPKLLITNVDNELLIQAKNREKIEKYLRTVNDKNEFENTIWFAIFPNISLKDDFKKISKNIFAGNSDTRSKKVNTIQDLSNLMEILYLHKIQTFISFERNNENTFENLAIHGISKYIEKTQTLEGSKFSEYVIPVLPNLTLIPKDRSGIKIDRKAIINENGISFNDEDNLEFFLDGIYVDGAYIAAGLVASYQCPVYLKERFKNVSNNPGVRFNIEAEDNSLIVRTVMAREISGFTVGIKEEINSKNYGFIFASEQAQIKNEKIKNITVYKARSLYKTSNNNYESIYKTLTTTYIERLLRFMSNDFKSDKLNYFFSNSPNSQKSIWLKESTTVNAILRQGDDISHIIDEQNNTCQLNLVFLGEVKNLKIEINKTN;locus_tag=LOCUS_06120;note=MGA_616
sequence1	MetaGeneAnnotator	CDS	676086	676517	.	+	0	ID=MGA_617;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGFKLNLKGSSEEFTIEQENIVSVKFLSDTNDSSNARSTDLSIGFEIEGKIIPSIGQNEIEDPTRKLLLWSLVSAEDLEAYKNVTLEVILAGNVVRKINLTNAFLIDYNEYFDEKNGNGMFLVKIKQKKEKIKEIVIEGGYQK;locus_tag=LOCUS_06130;note=MGA_617
sequence1	MetaGeneAnnotator	CDS	676527	677273	.	+	0	ID=MGA_618;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLENEYIVPKFSSRTVLRSVDLFAINQNINSASFLKYIDYEEGVILGLHPTTNGEKIFIDKGIYKFDNEVIFLTEKISIDIPDDEGEFIVYIMAEDYEEEYTKNKKIYLKISKDKEIDSTEVVRFNLRKGATLKNYDYELKKFSKEYNSLNINEVRYSKTGINPKLLKIWSKKMMALKLDESMDLWISSLCNIETINIEVLKKYIFTRLKFYKEKMSNTEILIKLYEILNILIESNKEFDFDKKVKVE;locus_tag=LOCUS_06140;note=MGA_618
sequence1	MetaGeneAnnotator	CDS	677275	677961	.	+	0	ID=MGA_619;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLFTRFKLKLFKYIMSNSKIYGKVRFQKINSYTQYMVILIILLILSIIFISIKFSYKILLIFYSLLNVYMLYFFLFYYPYERKRNIRYMNKILQEKKEEYIKELNEEKIKLNINNIKLLTLKDDFDYDIYSWDIENKYSIVIGKKSEKNSDIDIDLSNHEYSHLVSRIHGLLNKVDEKWYYEDLGSKNGSGIERKNKIKEKLVANKSYLVEAGDIIYIGVIKILVN;locus_tag=LOCUS_06150;note=MGA_619
sequence1	MetaGeneAnnotator	CDS	677973	678482	.	+	0	ID=MGA_620;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLLKCSNGHMYNTTKYSNCPYCDGNKINIEKEEEKKSIILEGDTKTSVFWIKETNVSPVVGWLVCISGSEKGKDYRLINERNFIGRSSKMHVCIENDQTIARKNHCSITYNPKQRVFVISPGESSGLVYLQGKALYESKQILNLDIIEMGENKFIFVELCGVNFDWNY;locus_tag=LOCUS_06160;note=MGA_620
sequence1	MetaGeneAnnotator	CDS	678482	680245	.	+	0	ID=MGA_621;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDDRKLNILPCSINEKDTHFVYYETEEFTIWVSIFIEGEGKIELFDSLIEELIFRFTENSIFSAKYIKKLITEILSEFDDRIVVENTENSKIYLSCMLTDYCNVIYVYMKDYFFNIKRSNEIFFKNQIIENKDLIGYTELFPLKENDLIEIYIKDKKIVEFEILKTNQISKFINNNFFIKFLLLSLIVCIFGYFILSNVYINSNFKNIENMFDRINKNKYNYPSNENILIKIEDKLRLMDNKYIYYSNKNVAKKEKLRNKISEEKKKNDIFKNVFEIKEKIKKMIKNREFLKAKNEYINIRAKLEDVSPDLLLDINKDIDDLDKLIMEQNNELFLIEEDIIKNTNILDNLIEKYKKSKFEIDIKDLEDKKNNNIKLLDDLKIKLDNRYLKIDDILEKNILEGLKEIIYLKNEYDKLKFSKEVEYLSKRELEISDKILNLENEMNELYNKHKKYYDIKEYTTAISFLEKALYYANLLHNNNKIKELEGRIRLIYKQKRKLELENKKKIENPKEKLRLENEIRQSIKLSIEKGDELLKNDEYEKAFIEYKRAIELMDKVNYSKSIKKDIDKKMEYIKKKKSKKWWELWK;locus_tag=LOCUS_06170;note=MGA_621
sequence1	MetaGeneAnnotator	CDS	680224	680913	.	+	0	ID=MGA_622;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGIMEIKYYKKIFNMNLPEQYIMFNYEINNMIFLLKNKISFIPKILKVKITKNNKEIFYERIVGKTLKEMNILNYSLKERLKIFNEIIVAVEKIHNLGLIHNDINLGNIIINENNVYIIDFSESRFINNKYDKKYFSYTKGFSCLEKYSNNEKNFIENDTYSLTSICYYLVFNKIYPNICDSNYINIIHSNKKLENFLKKGLSFTKYNRYNNTLVMKEMISDIIEELQ;locus_tag=LOCUS_06180;note=MGA_622
sequence1	MetaGeneAnnotator	CDS	680897	682945	.	+	0	ID=MGA_623;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNYNKNELIIKNNYELYEIAKKENILGKYNFDINRDKLIKNILKNNEYKYNKKIEEYLETGYYSIQDFFEKNLRVLEFEKFDIVIEDVTIYKEITSKIIININKNKNLDLNIVFLVNEYRYIYGIFSSKILDVNYDYYKCELTLIPELNRFMSEYNNERLFFSFFEDSSDLYNIYYNKYKSEVLNESIYGYIAPIIKYRVIHKVNNIENIYVKLGIDNVSSKYLKEDFCIDVSNLEDNISLNYGTEAKEILKENNYKTNRSFFTKIDDVIYNNNSLIVIKDENLNSKMISFNELFLKFMKFYINKIEYQIKSKINKVFILKNDNENINNILSYECYHNLKYFIGKDREYTYILSDFKCFKIIFVKHNVINNKISYKLKMSEQVIHENIYLTEMMFLNTIMEYILNDKKSLFNHEGNIFNFMKDNRNFEIKISNDYSIYVREEAKNLMNMYYNNECFDYKKDLDDIIVYLSFKSIYDFFENFKILDILKKFNDIKLNGRLVHTKYFIEVLKEFIPGKILEYRNTINEKEIFDIIDDYESKRDKGNLILEYKYIELKYDINLSYINYLGEKIKIISLYENKINFIDKDNNTIFIEIIIEKIYQYKNNELSKLIINFPHEYIELDENELLYTDELGIKDFEIDEVINDVVRIFLSFESKNILRLCFVKRIEDQIFCSFDSINLP;locus_tag=LOCUS_06190;note=MGA_623
sequence1	MetaGeneAnnotator	CDS	683004	683507	.	+	0	ID=MGA_624;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILTIFLLSLTFASVKDNENINSSHIENVEVKKNDIKELMSELKENEFDINMDVKEQSQPVEEEMIETEIYQTGIASYYGERWNGRKTANGEIFDTWKVSAAHKKLPFGTKVKVTNLSNGKSVIVRINDRGPYIKGRVIDLSKAAFKEIENFDKGITKVKLQIIK;locus_tag=LOCUS_06200;note=WP_010933732.1 septal ring lytic transglycosylase RlpA family protein (Chlorobaculum tepidum) [pid:59.6%25%2C q_cov:53.3%25%2C s_cov:55.6%25%2C Eval:1.9e-25%2C partial hit],MGA_624
sequence1	MetaGeneAnnotator	CDS	683941	685530	.	+	0	ID=MGA_625;product=amidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_166034979.1;translation=MIKKFNKTLIKLSSLLLLSILTILPMFSLGNNNIEARKNSVYTLTKEEYKKLSAVQMAKLVKEKKVTPKELIDLAYEVIAETDPILNNIIKHDGSSIDAKLKERAYLEAENVKNMDKPFYGVPILVKGITFELKDGVNSQALVYRKDNISKEDNALVKMFTDLGFIPIAQTTIPQLGWINVTNSDLYGVTRNPWDTTKNPGGSSGGTAAGVAIGQTAIGTANDGGGSIRIPSSFSSLIGYFPTGGVIKNNSASEGFKLENFLIAEKMEDVLAIAKALHNPEYKLNDKKLSKDKVIAYTTKTPANTPISPEAIMAVENAVKFLRDMGYTLEEVDYPIDGKAMMMAYYTNASYIGSRVGKFAETLLNRPLEMNDVELLTWALYQAGNKLNSEDINNTKEVLKGFRKTVDEFFDKYQAFITPTTSYPAPSADYNHIPEELKAKMRDMSDLTKEEAIQLIYDQWLPAWTITPFTQLSNVTDTPSISIPTHLTKNRLPLGVLISSGRFDDNIILEIAKLFEDNNRFFLYQDYEK;locus_tag=LOCUS_06210;note=WP_166034979.1 amidase family protein (Vagococcus hydrophili) [pid:38.5%25%2C q_cov:90.9%25%2C s_cov:75.0%25%2C Eval:5.9e-96],MGA_625
sequence1	MetaGeneAnnotator	CDS	685563	687530	.	-	0	ID=MGA_626;product=S9 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016921.1;translation=MSKLNIDTMNDFKYIWNLKSNKNKTALTYIVSKPNLEKNRYDSSVYMFDGNEHRKLTNEGNYEFLDNSNIYFFSKRSDEDKENENGSVIYKLNIEKPGEAEKFLEFDFPVNKIYKIHDDLYILSSEYSLDNPEFYLLSKEEKAKYIKETKDKSFRRIIDEIPFWNDASTYISKRRNAIFKYIPSENKIENISLLNGTSVSILDIDNNKILLISEYFDKKMGKYNSLMEYDVNNSEMKTIVEDGKYSFSNAKYGKNNIYAIASLMEFYGINENSKMFKINRNNLEIELYLDEDVSYGNATGTDARFGYNESFKVNYDTEEVTYICTTEYKAELHGVKDGKSYVISDSLGSVDGYATLKDELYLLGFKDSKLLEIYSSKELVQITSYNEDIMKDKYVAEPKMFEFESNGDTLKGFVLLPENFDENKSYPAILDIHGGPKTVYSTIYYHEMQVWVNRGYVVMFTNPHGSSGRGDKFSDIRGKYGTIDYEDLMKFVDEVLIKYPNIDKEKLGITGGSYGGFMTNWIITHTDRFKVAATQRSISNWISMYGISDIGYYFSDDQNYTTLPNEKGFEKIWNHSPLKYIENAKTPTLIIHSNEDYRCPVDQGYQLFTALRDRNVDTKMVLFYGESHGLSRGGKPKARIERLEEITNWIDKYTK;locus_tag=LOCUS_06220;note=WP_011016921.1 S9 family peptidase (Fusobacterium nucleatum) [pid:43.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-154],MGA_626
sequence1	MetaGeneAnnotator	CDS	687530	687991	.	-	0	ID=MGA_627;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLISEIIKEENICIDLKSKTKKEILKELISLVKTGEILDEEKLYNDLVAREDAGSTALEHGLAIPHVRSNHIKHFSIGLGISQEGVDFESLDNEKTKLFLFIATPTKYNNWHLEALAKIAKIFYSKTNVNVVSNCKSKEGIINLISKLEEVNI;locus_tag=LOCUS_06230;note=WP_011263543.1 fructose-specific PTS transporter subunit EIIC (Aliivibrio fischeri) [pid:32.7%25%2C q_cov:99.3%25%2C s_cov:24.2%25%2C Eval:1.1e-20%2C partial hit],MGA_627
sequence1	MetaGeneAnnotator	CDS	688182	689258	.	+	0	ID=MGA_628;product=peptide chain release factor 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124796873.1;translation=MFQKLDEVVEKYEEINRLLMSQEVLSDPKKLMEYNKTLSQMSEIVEKYLLYKSKKEALEQYKEEVKSEKDEEMLEMLNMEIDTIEEEIPRLEEELKILLLPKDPNDEKNVIVELRAGAGGDEAALFVSDIFRMFTRYAERNKWKTEIIDKNEIGVGGLKEITFLISGKGAYSRLKFESGVHRVQRVPDTEASGRIHTSTITVAVLPEIDDVEQVAINPSDLQIDTYRSSGAGGQHVNTTDSAVRITHKPTGIVVTSQDGRSQIKNKEAAMKVLASKLYEIEVEKQRSSVEAERRSQVGTGDRSEKIRTYNYPQGRVTDHRIKLTLHRLDAILDGALDEIIDALIAFNQAELLKNSGEN;locus_tag=LOCUS_06240;gene=prfA;note=WP_124796873.1 peptide chain release factor 1 (Fusobacterium canifelinum) [pid:67.2%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:1.9e-134],MGA_628
sequence1	MetaGeneAnnotator	CDS	689260	690339	.	+	0	ID=MGA_629;product=peptide chain release factor N(5)-glutamine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495074.1;translation=MEDTLLTLLNKSVKYLENKGVHKPRFVVEKILSEILSLDRISLYSNFERILSSDEKKMLKDKLINYDDNKKDEIILETIRDYYEKTKIYLDKKGIDESNIITNIIFSNLLNIDMSLLFTKYSNSITEDQKNRLRDILKKIVDKKIPIQYIFNEQVFYGYSFYVDKNVLIPRIDTEFVVEKALELINKINNPKVLDIGTGSGAIALVIGLENRESKILATDISENALKIAKKNSEILNVENVKFLHSDLFSEVSYKEFDLIVSNPPYISRDEIGIMGENVLLHEPQNALFAEDGGLYFYFEISKNAKNHLKNDGYLLFEIGYSQGNKVKDIMENMGYIDVSIGKDLTGNERYVFGRKKGS;locus_tag=LOCUS_06250;gene=prmC;EC_number=2.1.1.297;note=WP_029495074.1 peptide chain release factor N(5)-glutamine methyltransferase (Fusobacterium hwasookii) [pid:41.0%25%2C q_cov:98.1%25%2C s_cov:94.3%25%2C Eval:2.2e-69],MGA_629
sequence1	MetaGeneAnnotator	CDS	690339	691367	.	+	0	ID=MGA_630;product=tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627822.1;translation=MRVEDYDFELPLEFIAQHAIEPRDHSKLLVLNKNNGAIEDKKFYNIIDYLTPNDILVINRTKVIPARLFGKKENGVILECFLLKRIDLKKWEVLLKPAKKLKINDKLIFSEKLSAKLLEIKEDGNRIMEFEFEGVFEEILDELAEMPLPPYITEKLENKNRYQTVYAKSGESVAAPTAGLHFTTELLEKIEKKGITIVEVYLTVGLGTFRPVQVENVEDHIMHSEEYIVPEKTAEIINQGKKDGKRIIAVGTTSIRTLESSLDDNNNLIAQKSETSIFIHGEYKFKIVDALITNFHLPKSTLIMLVSSFANKEYVMNAYQHAIKNNYRFFSFGDAMFIQGEL;locus_tag=LOCUS_06260;gene=queA;EC_number=2.4.99.17;note=WP_201627822.1 tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA (Fusobacterium canifelinum) [pid:63.6%25%2C q_cov:98.2%25%2C s_cov:98.5%25%2C Eval:1.2e-119],MGA_630
sequence1	MetaGeneAnnotator	CDS	691364	691915	.	+	0	ID=MGA_631;product=16S rRNA (guanine(966)-N(2))-methyltransferase RsmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017073.1;translation=MRITSGYLKNRVILSRIGKETRPTLERVKEAIYSIISTKVEDAIFLDLYSGTGNMSFEAMSRGANRAVMIEMDKEALRVIIENVNNLNLDKKCRAYKNDVMRAIEILENKNEKFDIIFMDPPYKENLTEKTLKKLSNHDILDKDGIIICEHGKYEKLSDEIGNFVKFDEREYNKKIVTFYKKK;locus_tag=LOCUS_06270;gene=rsmD;EC_number=2.1.1.171;note=WP_011017073.1 16S rRNA (guanine(966)-N(2))-methyltransferase RsmD (Fusobacterium nucleatum) [pid:61.5%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:6.2e-58],MGA_631
sequence1	MetaGeneAnnotator	CDS	691924	692121	.	+	0	ID=MGA_632;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKKNFETILEEIKESIIKLESFDISLDDSITEYEKAIKLIKEAEKKLKEVEGKLEVIKINVEKE;locus_tag=LOCUS_06280;note=MGA_632
sequence1	MetaGeneAnnotator	CDS	692125	692973	.	+	0	ID=MGA_633;product=polyprenyl synthetase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017072.1;translation=MEIYLQNIRKDIDKSIRKVLKKHKSIKEIDDMLEYGVLLGGKRIRPSIMYILANVYKKDKKCIENEAVSIELIHAYSLIHDDLPCMDNDNYRRGNLTVHKKYGEANAVLVGDALLTLAFSVLAESEYSNKYSIVALSYYSGHKGMILGQYLDLLNENKADINFDELMEIHLNKTAMLLMASVEIAAISLSINTEARNALRKYILYLGLAYQIQDDILEMESSFEKIGKENTDEKNNKSTFPKILGLEKSKILKEKFTNDAIEIVKGNQKLIDFAYYLLNREY;locus_tag=LOCUS_06290;note=WP_011017072.1 polyprenyl synthetase family protein (Fusobacterium nucleatum) [pid:38.6%25%2C q_cov:99.3%25%2C s_cov:98.3%25%2C Eval:1.2e-50],MGA_633
sequence1	MetaGeneAnnotator	CDS	692973	693722	.	+	0	ID=MGA_634;product=peptidoglycan editing factor PgeF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015675.1;translation=MFKEENNLYIIDEFLKYNCIAAFTKKELGNMADYINNGNPKINREKALSLLGINDKKIVFALQRHTDKIIDISNGVDVDKLINIENIDGFVTMRKDIAIFTFYADCLPIYILDKKNGAYGCVHSGWVGTTKVIIHKLIDKMIEKYNSKKEDLLIGLGIGIHVDDYEVGIEFFENFKKIFPNHFKTCFKEINGKIFYDNTLLNKLLALDYGILESNIIIDDRGVKKANTFSHRLDKENIGRSAAIITIKE;locus_tag=LOCUS_06300;gene=pgeF;note=WP_011015675.1 peptidoglycan editing factor PgeF (Fusobacterium nucleatum) [pid:36.9%25%2C q_cov:93.2%25%2C s_cov:90.5%25%2C Eval:5.8e-35],MGA_634
sequence1	MetaGeneAnnotator	CDS	693724	694017	.	+	0	ID=MGA_635;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQQKNRLISIFMLSLLFVIMNNKTLNNSGNNIHINRIITSFLKIEKKENENINIENNIEKFFLKNIKIVRKNNIIFFWNNFFTYNKIYGRNNLKYIE;locus_tag=LOCUS_06310;note=MGA_635
sequence1	MetaGeneAnnotator	CDS	694061	696664	.	+	0	ID=MGA_636;product=preprotein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015785.1;translation=MKIIDIINKIFGSSDEKIIKKMRKQVEKINELEPYMESLSDEELKAKTQEFKNRLSQGETLDDLLVEAFAVVREAAKRLTGMRIYDVQLIGSMIIHSGKIAEMKTGEGKTLMSTLAIYLNALTGKGVHVVTVNDYLAKRDRDTMSHIYDFLGLTSGVIIANLDNETRREQYNCDITYGTNNEFGFDYLRDNMVHDPSEKVQREHNYAIVDEIDSILIDEARTPLIISGPAEETTHWYDVFANVVLRLKRSYKTEEIKDKKNTIIPDEDWEDYEVDEKAKTVTITDKGIKNVEKILQIDNLYSPQYVELTHFLSQALKAKELFKRDRDYIINEKDEVIIVDEFTGRLMDGRRYSDGLHQAIEAKEHLKVAGENQTLATITLQNYFRMYKKLSGMTGTAKTEEEEFKQIYKLGVVVVPTNKPVIRKDLPDVIYQTTKAKYRAIVNKIIELFEKGQPVLVGTASIEHSELLSSYLTKARIPHEVLNAKYHEREADIIAQAGRYKNVTIATNMAGRGTDIKLGGDPDSLAVKVAERGTPEYYEAYKTYEKECQENKEKVLKAGGLFILGTERHESRRIDNQLRGRAGRQGDTGASEFYLSLEDDLMRLFGGDRLKSMMRALNIPEDEDIRHKRISKAVENAQRRIESRNFSIRKNLIEYDDVNNKQREVIYKQRDQILYNKELRELIYDMIDNTVVSTVDDILSSNNNAEWDFENLNSKIYEIYGFDLPESVYKAKKLDEIYDILYNEVKNRYDNKVLEIGEEQFSRIERYIMLEVLDQKWRQNLKDLTELREGINLQSYGQKNPVNEYKISSTDIYNDMIDGINRETTSFLLKLKLNVPEELTTVNEEIIEADNENFEFKSRRERMEENE;locus_tag=LOCUS_06320;gene=secA;note=WP_011015785.1 preprotein translocase subunit SecA (Fusobacterium nucleatum) [pid:58.9%25%2C q_cov:97.5%25%2C s_cov:97.6%25%2C Eval:6.8e-289],MGA_636
sequence1	MetaGeneAnnotator	CDS	696691	697326	.	+	0	ID=MGA_637;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINRIIKKEDIYEVMYNELYSKNENLIFKEEKKFETLLEDDKTKLKQLAKIKFKMKKFFYDIQFKKLFDLFNSDDNFAKSHTFITNTLNRLEITKATKEVSDENMFGYKSIVIHSDILENLQNRLICDKGCPLNSSKVEDELRLKIILNNDITLNQKGEYISYILGDKIYDFNVNVVNEEKNNKVITNIKYSLDVIKHDDLIYISRIISKD;locus_tag=LOCUS_06330;note=MGA_637
sequence1	MetaGeneAnnotator	CDS	697543	698520	.	+	0	ID=MGA_638;product=methionine ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016565.1;translation=MSYLVIKNLTKKFNEKIAVDDVNLEISKGEIFGIIGLSGAGKSTLIRMINKLESPTLGTIYNENKDIFKFNDIEIREYRKKTSMIFQSFNLLSSRTVFENVALPLEISKFSKNEITEKVNELLMLVGLDKFKNEYVNNLSGGQKQRVAIARALSTNPDILLSDESTSSLDPITSNSILELLKDINRKLGITIILITHQMEVIKKICDRVAVMKDGKVIEVSTVKELFINPKTSFSRELISDLKIEVQKGKENTLSLIFDGEQADKPYVSELTRKFNLDINILGGSIDTLASGIKVGHLNISLETNNINEVINWLENVGIKVEVVK;locus_tag=LOCUS_06340;note=WP_011016565.1 methionine ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:47.0%25%2C q_cov:98.8%25%2C s_cov:98.5%25%2C Eval:1.5e-79],MGA_638
sequence1	MetaGeneAnnotator	CDS	698517	699161	.	+	0	ID=MGA_639;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016564.1;translation=MIIKSIFETIYMISVAIIIASIIGFPLGILLSITKEGSISENKTLNKILDLVIVNITRSIPFVILIVLLIPLSRLIVGKSYGTTAFIIPLSIGTAPFVARIIENSLNEVSYGLIEAAISMGATNKDIVFKVLIPEAIPSIINGLTLTLISLVGFSAIAGIIGGGGLGNLAVIEGFQRGNYKLMYLSTFILIIIVQIIQFIGTKIVKYIEKKRGR;locus_tag=LOCUS_06350;note=WP_011016564.1 ABC transporter permease (Fusobacterium nucleatum) [pid:44.9%25%2C q_cov:100.0%25%2C s_cov:91.4%25%2C Eval:4.0e-44],MGA_639
sequence1	MetaGeneAnnotator	CDS	699163	699957	.	+	0	ID=MGA_640;product=MetQ/NlpA family ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003815192.1;translation=MFKKIILAILTFVLISCAGGKGENESTKKLILGVSPIPHKEIVEFIKDDLISEGIDLEIVVFNDYVQPNISLNDGSIDANYFQHIPYMESFGIENNIDMVSAGAIHLEPLKAYSNTVKSIEEIKEGSEVLIPNDPTNRGRALLLLDASGLIKLNNRDKLDARISDIVENPKKLVITSLNSEQIAPRLSEVTLAIINTNNALASGITGDKAVIVEGKDSPYVNVIAVLRGKENDEKIQKLVKVLQSDKVKKFITEKYNGEVEAGF;locus_tag=LOCUS_06360;note=WP_003815192.1 MetQ/NlpA family ABC transporter substrate-binding protein (Bordetella bronchiseptica) [pid:44.8%25%2C q_cov:93.6%25%2C s_cov:93.5%25%2C Eval:4.1e-58],MGA_640
sequence1	MetaGeneAnnotator	CDS	700028	700246	.	-	0	ID=MGA_641;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKLNLLTKKLTGPLVIVTTMNAITNGNKYNEALKAIKAINITVIMYINGKNLFKVNSCLFSILSHSFLINI;locus_tag=LOCUS_06370;note=MGA_641
sequence1	MetaGeneAnnotator	CDS	700280	700468	.	-	0	ID=MGA_642;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFLIGIIATEGSIPSKKLYFSNNSNPIFLKALAFFINQFERLYISLYDLINNKINITGIIK;locus_tag=LOCUS_06380;note=MGA_642
sequence1	MetaGeneAnnotator	CDS	700398	701162	.	+	0	ID=MGA_643;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFEKYNFLEGILPSVAIIPIKNFITMLLGKLTNLGFLIANYVLSLTLKLPVLFVHVIITITATFLMAGDIETVHNFFEKQFPKVWLEKFRQIKVNIVEVAYQYLRAQLILVSLCFTELIIGLSIINIFVKPISYVFLTSMLIALFDALPIFGAGGILLPWAAYCFLTGNYLLGISILFLYVFIVTMRMTFEPRILSKSLSINPLLSLISLFVGFKVFGVVGFLFGPIILTIMIILFKEEINKGFFKILAGEYVE;locus_tag=LOCUS_06390;note=MGA_643
sequence1	MetaGeneAnnotator	CDS	701216	702148	.	+	0	ID=MGA_644;product=endolytic transglycosylase MltG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015952.1;translation=MKKKIIIFLIFLLPLTYSIIDLKVNKKEVKVKTFTVNKGDSIKKIYEKFNFRYNIIDRIYLKFNPNLANIKEGMYKFQSKNISKYMLLETLQKPHVENIVLTIPEGFTQKKVLARIKRLGLATEKEMIEALNSVDFPYYHEENNFDGYLYPETYLIPKGSKPIDIAKIILDEFKKQFPSRNYPDKKKFYDEIKLASIVELETGEFEHKSRVAGVFKKRLRINMLLQSDATLKYELGRKVYKKDLMKNLSLYNTYKHKGLPPTPVCSPSKETIIETINAKEDKYLFFFMDGKDTHYSETHDEHLRKRRSLK;locus_tag=LOCUS_06400;gene=mltG;note=WP_011015952.1 endolytic transglycosylase MltG (Fusobacterium nucleatum) [pid:35.1%25%2C q_cov:95.8%25%2C s_cov:95.8%25%2C Eval:2.2e-43],MGA_644
sequence1	MetaGeneAnnotator	CDS	702145	703290	.	+	0	ID=MGA_645;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLRLIWILFLIFSCSMIEKVDYKIIKDTNDLVSREKSLIDDIRVRLTNLEKKKIYFELDSNMLINEENITVLKFNLEAFDNKIDMNGKMFDEINITNKNGIIKIDKYSFYGDIYIKAVDSKLILINKLNMEKYLLGVIPYEMPASFPLEALKAQTVIARSYAYKNILRNRKDFDIYDSVSSQVYKGILNKNIENVKKAIEETNGEVIVHDNKIIDAVFHSYSGGYTASGKEVWGNDVPYLQAVEDNYSKDVNSSVLTWEYMINNDIIMDKIGFRIFDFDISYTDSNRVSKLVLYNEDKSKEISYTGNNFRKEFSLSKIKSTSFTLDITDNGINIIGSGYGHGVGFSQWSSRSMAIDYKMSYIDIIKFFYKGVEVIKKGA;locus_tag=LOCUS_06410;note=WP_012583956.1 SpoIID/LytB domain-containing protein (Dictyoglomus turgidum) [pid:39.9%25%2C q_cov:66.4%25%2C s_cov:68.0%25%2C Eval:7.9e-41%2C partial hit],MGA_645
sequence1	MetaGeneAnnotator	CDS	703292	704485	.	+	0	ID=MGA_646;product=tRNA lysidine(34) synthetase TilS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015953.1;translation=MFRNFIERNKLIEKNDKILIAFSAGPDSVFLLEKLLEIKDEYNLQLHLGYVNHNFRDDVHKDMELVKKIANKYNLEYSILDIKLEKFTEEKARELRYSALSDLKKRIKFTKIATGHNKTDNAETIIFRIIRGTGLDGLEGIRIKRDDIIRPILYISKDEILKQVYNEYVIDKTNLENNYSRNKIRNLVFPILAEINSKYIDNIVKIHKNIININDEKYEYILNKLNEKNISLNTKKIEQIYNILDKNESKIIDLGNEYIWYKSYDNNKILKKIELEKKPTNTVLTLNNEVEFNGFKVGYVASTRLEKISNKMYNILSLDTFDEHSTFIIRTRIDGDRLDNKKLKKLFIDQKIDKLERDKMPIVLYGNSVILAGDSFKTRKKGSINKYYLYIRRNYGR;locus_tag=LOCUS_06420;gene=tilS;EC_number=6.3.4.19;note=WP_011015953.1 tRNA lysidine(34) synthetase TilS (Fusobacterium nucleatum) [pid:35.5%25%2C q_cov:92.9%25%2C s_cov:92.4%25%2C Eval:6.8e-51],MGA_646
sequence1	MetaGeneAnnotator	CDS	704475	706526	.	+	0	ID=MGA_647;product=ATP-dependent zinc metalloprotease FtsH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015954.1;translation=MEDKNIKDDEILDDQNDNQEDVQNQDEEKEIKPKKPKKKVYISDDENAEEIKKRIESLKNKNNNISFRVKPPIFFFLILILMSTLFYFYGNKTALFQEKREISYTQFVTKVKQGDITEIRESQEKLTGIKKVAGKVEVFETNKLTDRLGQDTYLMEISKEKNVNIVVLGTPVSSIITRAIFSFAPLFMLLFFFYFINKKMMGSSGGVIGNPFNIGKGKGKISERPNVKFSDVAGLTEEKEELKEIVEFLKNPARFEKAGARVPKGVLLLGEPGTGKTLLAKAVAGESEAAFFPISGSEFIELYVGVGASRVRELFKDAKKEAPAIIFIDEIDAVGRRRGQNKNGGGGNEEREQTLNQLLVEMDGFDTDQRIIVMAATNRSDVLDPALLRGGRFDRRIEVSRPDVKGRIEILKVHSRNKKLASDVKLEDIAKITPGFVGADLENLLNEAAILAARKNSDEITMEDLDEAVDKVGMGLGQKSKIISKRDKDMLAYHEGGHALAATLIPGANKVHKVTIIPRGDAGGYMMPLPEETLGKTRKQILAEINVLFAGRAGEELMMDDIATGAYSDIKRATELAKLLISSVGMSELGPINYEHSDNGFMLSSDLSNETAREIDLEVRKLLKFKYEETLNLLRDNKETLEKIATLLKEKETVTGSEIRALVSGSSVNEVLELDDEQLEKYY;locus_tag=LOCUS_06430;gene=ftsH;note=WP_011015954.1 ATP-dependent zinc metalloprotease FtsH (Fusobacterium nucleatum) [pid:46.6%25%2C q_cov:83.7%25%2C s_cov:83.6%25%2C Eval:2.4e-140],MGA_647
sequence1	MetaGeneAnnotator	CDS	706640	706831	.	+	0	ID=MGA_648;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010919589.1;translation=MAVPKKRTSKAKRNMRRAHDSINAPQFVVEANGSVRRPHRLNLETGEYRGRRVLKASAEEIVE;locus_tag=LOCUS_06440;gene=rpmF;note=WP_010919589.1 50S ribosomal protein L32 (Caulobacter) [pid:47.3%25%2C q_cov:85.7%25%2C s_cov:91.7%25%2C Eval:1.2e-09],MGA_648
sequence1	MetaGeneAnnotator	CDS	707039	709378	.	+	0	ID=MGA_649;product=endonuclease MutS2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015682.1;translation=MNKKYEVLEYHKILNNLIDKSKLEATKEKFIDLEIFKEKNELDKEFSLLQDLIDFYKFDDGFDLSQLSNISRFLKLISIFGNYLEAIDLHELRKNLIVYRISKSRAKNVRDKYKQIWNIFKDLNDLKDIETFIDEIVDDNGNIKDNASLTLIDIRKQKNIIFNNIKEKFEALINNKDTQRAIQDKIITKRNERYVIAIKTDFKGLIRGIEHDRSSTGSTSFIEPLNVVSLNNKLREYEAREKEEIRKILLRLTEILRARLEDLKIAQDILERIDFLNAKVEYALETKSNIPKIVSHTKIYLEDARHPFINKDRVVPLTFDLDENYKVMLITGPNTGGKTVTLKVAGLFTLMALSGLAIPASDKSIIGMFDNVLSDIGDEQSIEQNLSSFSSHVKSISEILNEATSKSLVLLDELGSGTDPSEGSAFAMAIIDHILQRKIKALITTHYSEVKAHAYTHDNIKSASMEFNSETLSPTYRLLVGIPGESNALIIASKYGIDKEIIDNARSYISEDNREVEKMLASIKEKNDNLEAMNIEVEKLKQELANEKSNYENKIAEFEKEKNNILKDAYKKADDYIKDMQNKAKALVDKINSDNVKKEEAKTLQKNINMIRQYIEDSKKENIVEKKYTKSDLNFEINEEVLIKTLNQVGKVLRIIPEKNSLQVQAGILKITVSLEDVTKIAKKKNNRLTNVINAKVTHVKGEIDVRGKIAEEAIDEIEIYFNRAILNGFTTVAIVHGKGTMILRKKIHDYLKKSVYVSEFKDGHPSEGGLGVTIVTLK;locus_tag=LOCUS_06450;note=WP_011015682.1 endonuclease MutS2 (Fusobacterium nucleatum) [pid:48.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-206],MGA_649
sequence1	MetaGeneAnnotator	CDS	709389	710762	.	+	0	ID=MGA_650;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015680.1;translation=MKIYNSLNNKLEEFIPINDKKVGIYVCGPTVYNYIHFGNSRPVIVFDTLARHFINQGYEVSFVQNFTDIDDKIINKSIEENIPFEEISKKYINAFMEDISKLNILDIVKRPKVSEYIPDIIEMIEVLIYNGYAYERDGDVLFRVNKYLEYGKLSNQKLSDLSVGVRINKDEKKENPLDFVLWKKKKENEPYWNAPFSEGRPGWHIECSAMSRKLLGDNFDIHAGGIDLLFPHHENERAQSVCFCNEKSSFANYWMHNGFLEVNGEKMSKSLGNFITLREILNDYSGDVVRFFMLSTHYRKPINYSIENLEISKKTLNSIIDTIDRYKQIDVTNNSNNEIKKDIIEFELAINSALNDDLNTPLAISCIHDLIKKTNKYLNSSIFREITLVVEILEKYIINVLGIKMEKNKNDMLSESLIELLNKIREDARMNKNYALSDMIRDELLKLGIKTVDGKVK;locus_tag=LOCUS_06460;gene=cysS;EC_number=6.1.1.16;note=WP_011015680.1 cysteine--tRNA ligase (Fusobacterium nucleatum) [pid:49.6%25%2C q_cov:100.0%25%2C s_cov:98.7%25%2C Eval:4.8e-128],MGA_650
sequence1	MetaGeneAnnotator	CDS	710763	711806	.	+	0	ID=MGA_651;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902246.1;translation=MFKKNFIKRLIRSLRINKSISIDLGTANLLIYDKQEDKIVLNEPSVLARDRKTGKVIAVGKEAREMLGKTPDSIEAIKPLKDGVIADLDATREMLSHFMYKIYGSSIFKPEVMICVPLEVTPVERKALFDSVSGAKKIYIIEEGRAAIIGSGIDISKPAGNMVIDIGGGSTDVAILSLDEVIASKSIRIAGNKFDEDIIRYVRNKYNLLIGDRTAEKIKKELATAIYEEVPKVMSIKGRQLEVQTPVSIQIDSNEVNEAIKSSLYSIINAVKEVLEKSPPELAADILDNGIVMTGGGSMIKNFTTLVEQEVQVKVYLSEHPLDSVVLGGGKAFDNKKLLETLQMREN;locus_tag=LOCUS_06470;note=WP_005902246.1 rod shape-determining protein (Fusobacterium nucleatum) [pid:55.8%25%2C q_cov:96.3%25%2C s_cov:98.5%25%2C Eval:2.9e-103],MGA_651
sequence1	MetaGeneAnnotator	CDS	711808	712692	.	+	0	ID=MGA_652;product=DNA polymerase III subunit delta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015679.1;translation=MEIFKNEILNLKKSATFMLFADNRISLIENAKIFTSMLINEFNTDILTHPDVSYYPELKINDVREIIISSVESPYISDKKIYIIDSIETTKKEPLNALLKVIEEPSPNVFFILLTRRLEILETVKSRSIILNLNLTLNTKLIEENLEMFNFLENNMDYLNMYISKKDRVDLEVYKVESLDEIISSIKNYFDEINVFTVISYQYAIDYLVKNIRFMKEIDIIILKDELLSILLVGNDNKKSRDRIKIFMNTCINKYSKFKNFHYLDELLEYKLSINANVNLKTLMFLFINTLSKN;locus_tag=LOCUS_06480;note=WP_011015679.1 DNA polymerase III subunit delta' (Fusobacterium nucleatum) [pid:26.5%25%2C q_cov:98.6%25%2C s_cov:99.0%25%2C Eval:2.0e-19],MGA_652
sequence1	MetaGeneAnnotator	CDS	712710	713480	.	+	0	ID=MGA_653;product=glutamate racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003425992.1;translation=MSIGIFDSGMGGITVLNEIRKQYPKLDIHFFGDTARLPYGEKSKEEIIKYSTEIVEFLLTKEVELIVVACNTATSLALDEIKEKYNINIIGVIEAGVNGVINNKSKNVGLIATTATVNSKKYTQSLNFVNSQIKIIERACPLLVPTIENGNINGAYINELINEYVNHMSKEIDTLILGCTHYSILKETIKSLYSNINIIDPSVEIVKIINNNNLIKCKDENSKTFFYVSGSKLQFENNLKNIFSIESDNIIEVKGE;locus_tag=LOCUS_06490;gene=murI;EC_number=5.1.1.3;note=WP_003425992.1 glutamate racemase (Clostridioides difficile) [pid:42.1%25%2C q_cov:98.4%25%2C s_cov:96.6%25%2C Eval:3.9e-50],MGA_653
sequence1	MetaGeneAnnotator	CDS	713482	714084	.	+	0	ID=MGA_654;product=Holliday junction branch migration protein RuvA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902889.1;translation=MYEYFEGILSVKNLNYVVIDINGVGYKIYTSIKTYDKLNSIGEKERLYIHTIVKEDDISFFGFKNELERSIFLECIAINGIGAKKAIAILSNFEFEELAAIASSKNFKELAKVPGIGMKKAEKIMVDLSDKLEGLKITNSSSSQDIVELYNKKENLRLALESLGYEKVNINNIIEDKYIKELNMQELIKMALLNINKKKK;locus_tag=LOCUS_06500;gene=ruvA;EC_number=3.6.4.12;note=WP_005902889.1 Holliday junction branch migration protein RuvA (Fusobacterium nucleatum) [pid:38.1%25%2C q_cov:97.5%25%2C s_cov:97.9%25%2C Eval:1.2e-31],MGA_654
sequence1	MetaGeneAnnotator	CDS	714093	714998	.	+	0	ID=MGA_655;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015631.1;translation=MNLSWLFIILGAMMWGIDGVLLTPRYFQYGLYNVLLIVFIAHLLPFLFMLITQRGSIKEIKKMNFYDKSYFLLIALFGGTIGTLSIVKALQLSEFNPYSLVILIQKSQPIFAILSAYFILKEKITHKFKIVFVISLISLYFLTFGLNSPFEIELKSIYSAIYSLIAAISFGLSTTFSRKVAIKYNANLSTFIRFMFTAIITFILLLLNIGQSKSDIIYVVKNNHIMLLALFIAIWNLIASNLYYKGLQKTKAIYSTVSELSFPLTSVFIDMFILGNVLDPIRILAGSVLLLSIVYLNLNNE;locus_tag=LOCUS_06510;note=WP_011015631.1 DMT family transporter (Fusobacterium nucleatum) [pid:36.0%25%2C q_cov:98.0%25%2C s_cov:97.3%25%2C Eval:7.1e-44],MGA_655
sequence1	MetaGeneAnnotator	CDS	715009	717825	.	+	0	ID=MGA_656;product=excinuclease ABC subunit UvrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626200.1;translation=MEYIKIRGAREHNLKNIDIDIPKNQFVVITGVSGSGKSSLAFETIYSEGQRRYVESLSAYARQFIGQMKKPELDSIEGLSPAISIEQKSVSKNPRSTVGTMTEIYDYMRLLWGHIGEAHCPICKSLVKKQSIEEITNEVHLKCNDKDKLIFLSPIVMDKKGSFKNLFINLSRQGYLRVRVDGTILELDDTIELDKNKRHNIELITDRIVFKEENISRINEAIVNATKLSDGNLIVNINGIDYKYSENFVCSNHPDISFPEINPRLFSFNAPYGACEECNGLGSSLEVNMDAIVLNENLSINEGALSVVGGSSVTSWTWKLFQAFLKGHDIDADKPFKKLSQKEKDLIFYGSEKEYYFYIHTKEYNYDGMRTFEGLVNLVKRRHKESMSESNREEIQNRYMIETSCSKCNGKRLNDIVLAITINDKNIIDVTNMSIVNALDFFQNLSLTEKEKQIAEEILKEIRNRLSFLINVGLDYLSLDRMTKTLSGGESQRIRLATQIGSRLTGVIYVLDEPSIGLHQRDNDKLLKTLKDLKDIGNTLIVVEHDEDTMIESDYLIDIGPGAGKFGGDIIACGKPSDVINEGKSLTAKYLNKEIQIEKPKKIRKSKEYLKISNCCGNNLKNVNLKIPLGIFTAVTGVSGSGKSSLINQTLYPILHNYLNEKTMFPLKHGKVEGLEEVKKVINIDQSPIGRTPRSNTATYTKIFDDIRGIFAETNDAKIRGFDKGRFSFNVKGGRCETCSGAGINKIEMNFLPDVYVECEMCKGKRYNKETLEVKYKGKNISEVLDMSVIDAYEFFEAIPSLKRKLQTLIDVGMDYITLGQPATTLSGGEAQRIKLASELSKVTKEGTMYILDEPTTGLHFEDVRKLLIVLDRLVSKGNSVVVIEHNLDVIKCADYIIDIGLEGGDKGGYIVVEGSPDKIMKHKDSYTGKFLKKHLNK;locus_tag=LOCUS_06520;gene=uvrA;EC_number=3.1.25.-;note=WP_201626200.1 excinuclease ABC subunit UvrA (Fusobacterium canifelinum) [pid:63.0%25%2C q_cov:99.8%25%2C s_cov:99.4%25%2C Eval:0.0e+00],MGA_656
sequence1	MetaGeneAnnotator	CDS	717834	718976	.	+	0	ID=MGA_657;product=aminotransferase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000434569.1;translation=MYINEVVRNLQISIIRQISARMPEFKNGINMTIGEPGNDLPYELKKYMSDVTLNEKIGYTNTGGAIAYREAVAKYYNKLYGSNYTWKNALANAGSTEGISSFLRTVLKPGDEVILPTPTYPGYEPNILLMNAKPVYIDLKHTDFELTADILEQYITPRTKVIILTYPNNPTGTVMALEEMDKVAELLRKHNIYLLSDEIYSVLSFEKYNSFARYTDLIDKIVVINGFSKSHSMTGYRVAYTLASEDVINNMNKVGQYTMTGVNTVGQLGAIYACENIPTRDDVVEINKAKLNRMMKGLREIGFKVIEPKGAFYLFVDYSMFSNKKSLDFALDVLEKTELGVVPGICFNVEGYFRLSVTQSDDIIDEAINRLKTYVENECK;locus_tag=LOCUS_06530;note=WP_000434569.1 aminotransferase A (Bacillus thuringiensis) [pid:37.5%25%2C q_cov:99.7%25%2C s_cov:99.0%25%2C Eval:5.8e-68],MGA_657
sequence1	MetaGeneAnnotator	CDS	718973	720373	.	+	0	ID=MGA_658;product=23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964744.1;translation=MKKGDIVNLDIVGIDFPAKPYGYLKNDDRKCFANTNVVPGQKIKARIGKIKNNKIELRDIVIIENSENVAKPFCEKFNSCGGCSFQYLSYEKQAELKANLVYKLIDNSIKNKNYEKLPIVTMGNDKEYRNKMEFSFGNEYKDGPIILGLHKKNSFHDIVNVNECRLMDENFRKIVRFTNDFFSKKDISFYHRLTHIGFLRNLVIRKGEKTKELGVNIVTTSQIENYDIIDEYKEKLLCLDLSMGLKSIIHTINDNKSDSVRADKEIILYGKRDITERLFDLSFNVSPYSFFQTNSFGVEKLYQEVINNLLFITKNDEKPIVFDLFSGTGTIGQIVSKYSKEVYGIELIEEAVIKANENAIKNGITNAKFIAGDVFEKLREFDKENIKPDILILDPPRSGVGEKTILKLLEYNVNYIIYVSCNPKTLAEDLKIFEYNSYILKRVVCVDMFGYTPHVECIVLIQRVKS;locus_tag=LOCUS_06540;gene=rlmD;EC_number=2.1.1.190;note=WP_010964744.1 23S rRNA (uracil(1939)-C(5))-methyltransferase RlmD (Clostridium) [pid:44.9%25%2C q_cov:99.4%25%2C s_cov:98.7%25%2C Eval:1.6e-102],MGA_658
sequence1	MetaGeneAnnotator	CDS	720370	720528	.	+	0	ID=MGA_659;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003042651.1;translation=MKILHFKQFYKHYVFNEDGDRGRKKVLKNYIDVYVCIDMVCGDTKYELGSEE;locus_tag=LOCUS_06550;note=WP_003042651.1 hypothetical protein (Bacillota) [pid:92.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-22],MGA_659
sequence1	MetaGeneAnnotator	CDS	720532	720816	.	+	0	ID=MGA_660;product=CD1845 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011860780.1;translation=MMRWVIKIILFPISLLLSILTAFLTFILGIGTTILYFLMLMYVVAAIGSFMQKDISLGIEALVLGFLLSPYGIPMAGTAVIAFLKGINEAIKSI;locus_tag=LOCUS_06560;note=WP_011860780.1 CD1845 family protein (Clostridioides difficile) [pid:88.2%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:5.3e-39],MGA_660
sequence1	MetaGeneAnnotator	CDS	720904	721659	.	+	0	ID=MGA_661;product=replication initiator protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_045000370.1;translation=MDFDYFYNREAERFNFLKVPEILVDGEEFRDLSAEAIILYFMLLKRTGMSFKNNWIDKEGRVFIYFTVEEIMRKRNISKPTAIKTLDELDSKKGIGLIERVRLGLGKPNIIYVKDFMSVFQVKENDFQKLKNFTSEVKDVDLRSKENELQEVKNLDCNYIENNKSKYSKREYSFSENGFGTFQNVFLAAEDISDLQIIMNSQLDNYIERLSVYIKSTGKIYKDHKATILSWFYKDQGRSKEVKTSNIPTWE;locus_tag=LOCUS_06570;note=WP_045000370.1 replication initiator protein A (Shuttleworthia satelles) [pid:92.0%25%2C q_cov:100.0%25%2C s_cov:96.9%25%2C Eval:5.7e-131],MGA_661
sequence1	MetaGeneAnnotator	CDS	721680	721862	.	+	0	ID=MGA_662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKELKKVMIEDVEYAYDPEKEYIKDGHAFCKVCHERKDGKVMEFFDNKMIFKISCKCDS;locus_tag=LOCUS_06580;note=WP_011860782.1 ATP-binding protein (Clostridioides difficile) [pid:96.6%25%2C q_cov:98.3%25%2C s_cov:20.8%25%2C Eval:1.3e-29%2C partial hit],MGA_662
sequence1	MetaGeneAnnotator	CDS	721910	722329	.	+	0	ID=MGA_663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGFMNSTSSVLTTIYLSKPNVLSEINQKFSDMEGKLQSEVDHVKENYPGYDEYILNNTEYIGHNVHELLSYITSRCGEVKSVSEVESILKELFESMYDIEYREEIEIRYRTVTETYTDEDGNEYTESHEEPYEYKKPS;locus_tag=LOCUS_06590;note=WP_011860789.1 CHAP domain-containing protein (Clostridioides difficile) [pid:94.2%25%2C q_cov:98.6%25%2C s_cov:19.3%25%2C Eval:2.0e-70%2C partial hit],frameshifted%2C insertion/deletion at around 722317,MGA_663
sequence1	MetaGeneAnnotator	CDS	722347	722889	.	+	0	ID=MGA_664;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDSIIRKVFANYPDNLKHYEALFLAQGNMREAFGNSDLISANGGIGGGKEYEASTEVQKKIVNAAYITPSPGAGWCAMWVSQVYQNTGLGYIGGNACDMYRNYTFTSDRSKLKVGMLVAVESSSSGSSAGLTYGHVGIYIGDGKVIDNIGRIRVTTLDDWIATFCKHHPVGFGFPPNVKK;locus_tag=LOCUS_06600;note=WP_011860789.1 CHAP domain-containing protein (Clostridioides difficile) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:25.4%25%2C Eval:3.0e-102%2C partial hit],frameshifted%2C insertion/deletion at around 722320,MGA_664
sequence1	MetaGeneAnnotator	CDS	722901	723140	.	+	0	ID=MGA_665;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004804465.1;translation=MKKELIAVKNKIEKSNDKKALIDEELEPLFIREEELENEEIIAICRKNNITISDLMAKVNRQKAEMKKEKTNENQFEKE;locus_tag=LOCUS_06610;note=WP_004804465.1 hypothetical protein (Bacillota) [pid:81.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.1e-28],MGA_665
sequence1	MetaGeneAnnotator	CDS	723115	724671	.	+	0	ID=MGA_666;product=DUF4366 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011860790.1;translation=MKTSLKKNNKFWTVALAVIVSISCILGLWTVVYAQEQKSEAPTKKEAVQTEVEVNVRYIFEDEKVFKEEKIKAEKGQLIDSGDLTMLPDDMKFIDEFLFYEVKGDGKDEIIRKVAKAELKDEETKTEEKKPQQDKSTQTGDKKTKDKSTQTELSKEDISKMEKQAKELKGELDKLNGEIKDKDKLNDKQKEKIKALEDKIDSLKEKMKKDKGNKDLSEDMKKEIDKLTEKVKELEKKATETNKAPVTSQSVTPISPISGIKTSSGIFPQTPQTSVSSTGKGSSDSVSSGNTTKDTGKGKTEVKEKEKEVRYPNKLTAKAPANNSQDSSMGSASKSVNTNKGVASSPSKARAYVTENKDNANKEYPVHHGDSSDNKETDQYSADARQFITFQTKNGKTFHLIINHDEDSENVMLLTEVSEDDLLNMVEKKEAPKQEVVKEEPVKEEIKPEKKDEKSNLGTYIILLLVVGGALGAGYYFKVVKKKEDKELEALEEEDDDFFSESESEEEINDADEVEDEE;locus_tag=LOCUS_06620;note=WP_011860790.1 DUF4366 domain-containing protein (Clostridioides difficile) [pid:79.4%25%2C q_cov:91.9%25%2C s_cov:91.8%25%2C Eval:9.4e-208],MGA_666
sequence1	MetaGeneAnnotator	CDS	724766	726091	.	+	0	ID=MGA_667;product=DNA topoisomerase 3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011860791.1;translation=MKLVIAEKPSVAISIAKVIGANKKKDGYYEGNGYRVSWCVGHLIQMANPDAYDEKYAKWNIADLPIIPSDYKYEVAKATKKQFNILKKLMNDKEVDMVINACDAGREGESIFRLVYNQVNCKKKMKRLWISSMEDSAIKEGFDHLKDGKDYDNLFESAQARAIADWLVGMNISRLYSCLYQQNYSVGRVQTPTLAMIVKRDDEIANYQKEKYYTVELSMNGFTLSTDRIDDEVAAEQLISLVGDKIAITDVIQKEKITKPDLPFDLTMLQRECNKFFGYSAKQTLDYAQSLYEKKLITYPRTDSRCLTEDMITSTVNNILGKNDFDTERIKVVFNSKKVTDHHAIIPTISSLKEDVSELPLSEAKVYFLISDKFHASVGYPLIENTTKIVALFDGFEFTSSGKVIKDEGFSKYLKEYKSKKSEDAVLPDVSVGDVLSVENK;locus_tag=LOCUS_06630;note=WP_011860791.1 DNA topoisomerase 3 (Clostridioides difficile) [pid:93.2%25%2C q_cov:100.0%25%2C s_cov:77.6%25%2C Eval:1.1e-238],internal stop codon at [726089:726091](+),MGA_667
sequence1	MetaGeneAnnotator	CDS	726152	726472	.	+	0	ID=MGA_668;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIAGNDALEKGVEVERKGLGTPATRAGIIENLIFKGFVERDKKNLIATHKGISLVTIVADSFKSAETTAKWEMELSDIAQGKSSKKEFLDAIENEIKEAVLTYRK;locus_tag=LOCUS_06640;note=WP_011860791.1 DNA topoisomerase 3 (Clostridioides difficile) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:18.7%25%2C Eval:1.4e-52%2C partial hit],internal stop codon at [726089:726091](+),MGA_668
sequence1	MetaGeneAnnotator	CDS	726557	727360	.	+	0	ID=MGA_669;product=KilA-N domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004804477.1;translation=MSKINVEGSEISIIAIDNRDYISLTDMVRNIENGSALIEKWLRNKNTIEFLGIWEEMYNTNFNSPEFEGIKNEAGFNRFILSVKQWVEKTNSIGIVARAGRYGGTYAHKDIAFEFASWVSPYFKLYLIKEFERLKEEEQKKLGWDIKRNLAKINYRIHTDAIKNKLVPDKLSKEKINFIYASEADILNVSLFGITAKEWRDENPDLKGNIRDYADISQLVCLSNLENLNAVFINEGMSQSERLEKLNAIAIEQMKILSESESIKKLK;locus_tag=LOCUS_06650;note=WP_004804477.1 KilA-N domain-containing protein (Bacteria) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-150],MGA_669
sequence1	MetaGeneAnnotator	CDS	727443	728918	.	+	0	ID=MGA_670;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRINDFHNILELIKQDVLYNEAEYLKLLKVVGNNQRYDFRSQLSIYDKNPEATACAKFDYWRERFNRTVMRGQKGSPILEDYGTYKKVDYIFDISQTVSKNRDVNEVNLWRFDKEAHQDVLKEMIKSEGYEESESTLENIFSLSRLYGDEKIDTLMNELRVADEDRISFTKFVRDSVSYAVASRFKLDYPMDYELLRENFQRFDSISLMSLGESVSDIIGKIIDETIQKSKELELQKEVLIGKEAGYNKIKEELEEVEENVLRRDDQERNENERVLRNGEYGRDNRKNQGEYAKQLGGTEGLYKEVSESDLRSDEAELPFTERGAEPLRDAFGSIQGEEADRIPDGYSETGSRVYESREAEIDGSLEDRGREQSAVWGDDFSSQRNDHQGSSGDLKDNTDKEIREAEKASFSLPENSYGQISLTIPLTEKDIDTVLIEITMAVGFLLSQSFLKEKVMKNWENTSKIPLKVETDFTLMKEKYLPGIRIKVFI;locus_tag=LOCUS_06660;note=WP_011860792.1 DEAD/DEAH box helicase family protein (Clostridioides difficile) [pid:89.2%25%2C q_cov:89.0%25%2C s_cov:15.0%25%2C Eval:6.3e-222%2C partial hit],frameshifted%2C insertion/deletion at around 728756,MGA_670
sequence1	MetaGeneAnnotator	CDS	728819	733870	.	+	0	ID=MGA_671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGEYLKDTFKGGNGFYIDEREVSSWYSDKGIHLAYGTSAREDNTQILSWSDAASRINELLNSGEFATNVELLEAQDYERDRISESLWYLTHDLSEEGQGQGYFKILKISGGGFPEETKRLSEALKNPEYLKETIKEYSRFLAGYKENRDVLRFHYHKVDSLYQRLQELELPRKEYSTNLTEHPKVKSFITEDEVKATISRGSRIDKGKERITKFFKENHTLQEKANFLKDEYGIGGSSHAVSGAMGSDEWHDAKGLKLQKNNCNDVFLTWSSVTKHIDELFSKNLYIEETKIGSKAEIEGPQYYSKDNPENLMTDEMLERVPELYAQEDVSLADKQVHAAYIIPFRSNWTWYMTEYDRESGDAFGLVLGIEPEWGYFNLEELKELNAQRLILEDFPKTFRELKDTELIKQMDEQELQSVFNGELSFEEETELEVPEEVEERIAATPVQGTLFDYLKEREEVELNEKEESLADEFAVKTGDTVYFNHEEYTVREISKNQITRRNDLWIDPARSGNHQIPIVAFEDNEDLLKQVSLERPNFIVGDEVKYKDKNYTITRFDDMGNNLKTITVKDNTEYLGGMITGSDVIPYRFESDLDKLFENLNYTKLEKTIEEVEIKKTEAHNFKITEETLPEKLSPSERLNNNLEEISMLNRVESGERELDSSAQEVLAKYVGWGGLSEVFDESREGQWKEARSFLKENLSQSEYEAAKESTLTAFYTPKTVIDSIYSTLSGTGFKSGNILEPSMGIGNFIGNLPDEMNKSKFYGVELDSVSGRIGKLLYPESDIQIKGLEETSFSNNFFDAVIGNVPFGEYKVNDREYNKNNFLIHDYFFAKSIDKVRNGGIIAFITSSGTMDKKDESVRRYLTARAEFLGAIRLPNDTFKGVAGTEVTSDIIFLKKRDSIRERDEDWIHLAEDENGLTYNKYFVDHPEQVLGTMREVSGRFGNTLACLPKENADLKELLTKASEEISKGSTYEEIELLDDKITSIPATDDVKNFSYTVIDGEVYYRENSLFVKKEVTEKNKEKIKDYLELNTALKDVIYKQKEDFSDDEVKKAQEKLNEVYDNFSKKHGFINNLSNTRALKEDSNFPLVSSIEILDEEENFNAKGDIFSKRTITKAKIIDHVDTSLEALVLSMSEKGYVDFDYMGSLTGKDRPTLIEELRGEIYLNIREEQNFYRPLSFNLEDGDLPFACANGSNSYKYGYVTKDEYLSGNIRDKIAIVDSYLSKIRQTERELPHLGYAEDGKEKELISYEMNRLEYQKAELTKVLPKELEASEINVRLGATWIPIKDIEKFIFETLKTPGWARWDIKVKFSNLTSEWNIEGKSKDRGNDLAEMTYGTSRVNAYKLIEDALNLKETKVFDQIVNPDGSKTSVLNKKETLLAGQKQELLKEEFKNWIFNDQERRNRLAKLYNERFNSIRNREYDGSNLSFEGMNTKIELRPHQKNAIARSLYGGNTLLAHVVGSGKTFEMVAFAMESKRLGMCSKSLFVVPNHLTGQIGREFMQLYPSANIMVADKKDFEPKNRKRFIGRIATGEYDAVVIGHTQFEKIPMSKEYQEKHIQDQIDEIINYVEEYKHDRNQNFTVKELQKTRKKLEARLEKLNDDFKKDDVITFEELGVDKLIVDEAHNYKNLYLYTKMRNVAGIGQSEAFKSSDMFMKCRYMDEIRVEKVLYLPQERLYQIP;locus_tag=LOCUS_06670;note=WP_011860792.1 DEAD/DEAH box helicase family protein (Clostridioides difficile) [pid:90.6%25%2C q_cov:99.0%25%2C s_cov:57.4%25%2C Eval:0.0e+00%2C partial hit],internal stop codon at [733971:733973](+),frameshifted%2C insertion/deletion at around 733817%2C728756,MGA_671
sequence1	MetaGeneAnnotator	CDS	734059	734661	.	+	0	ID=MGA_672;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKEVADIQTADMLNLPTPEAHYEVIKTLPSEEQKEILKSLSERADDVRNRVVEPDEDNMLKITNDGKKLALDQRLINPLLPDNPDSKVNVCMKNVFAIWDKTKEDRSTQLLFSDMSTPKGDGEFNIYDDIREKLVAIGIPKEEIAFIHEANTDKQKDELFAKVRKGDVRILLGSTQKMEAGTNVQNKLIALHDLDVPWV;locus_tag=LOCUS_06680;note=WP_011860792.1 DEAD/DEAH box helicase family protein (Clostridioides difficile) [pid:94.0%25%2C q_cov:99.5%25%2C s_cov:6.8%25%2C Eval:1.6e-105%2C partial hit],internal stop codon at [733970:733972](+),frameshifted%2C insertion/deletion at around 733816,MGA_672
sequence1	MetaGeneAnnotator	CDS	735418	736902	.	+	0	ID=MGA_673;product=group II intron reverse transcriptase/maturase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011108208.1;translation=MQWTLTHSFAAKAIAVKRVTTNEGKKTAGVDKVLWSTDKAKYEAILSLKRNGYKPQPLRRVFIKKANGKLRPLGIPTMKDRAMQALYLLALEPIAEMTVDHHSYGFRKERCPQDAIQQCHTILCRGNSPKWVLEGDIKGCFDHISHEWLLNNIPMDTKILKKWLKCGVIFKGELFRTDEGTMQGGIISPTLANMTLDGLGELLATKNKRINRKYEKYSPMVNMVRYADDFIITGRTKETLEDIKPMLVEFLSERGLELSEEKTLITHIDDGFDFLGFNIRKFKGVLLTQPSKKSVKKFLDSIRYVIDSNKSCKQETLIRLLNPKITGWANYYRCGVSSRTFQKVDNQIFQKLWQWAKRRHPKKGKRWIANKYFHFYKTRRWTFLVKSIKKGKVDIFPLKFMFDTKIIRHKKIKSEANPFDIEWKSYFEERMTYKMLLSLKGRKSLLYMWNKQEHKCPLCNEKITADTQWNVREQRENGQIVRYFVHDKCYKENR;locus_tag=LOCUS_06690;gene=ltrA;EC_number=2.7.7.49;note=WP_011108208.1 group II intron reverse transcriptase/maturase (Bacteroides thetaiotaomicron) [pid:65.9%25%2C q_cov:99.6%25%2C s_cov:89.5%25%2C Eval:4.4e-191],MGA_673
sequence1	MetaGeneAnnotator	CDS	736940	737488	.	+	0	ID=MGA_674;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEPCEGKLSCTVLRGERDSNIPDLLDRPADLEQRAGRIVRQGNENKEVNIYRYITENTFDAYLWQTIENKQKFISQIMTSKTPVRVTEDVDESSLNYAEIKALATGDPKIKEKMDLDNEVTKLKMLEANYKSNRYRLEDKVAKTYPDEIAKLEKLIEAVKKDISSIEPLGDGENKFTSITH;locus_tag=LOCUS_06700;note=WP_011861367.1 DEAD/DEAH box helicase family protein (Clostridioides difficile) [pid:90.9%25%2C q_cov:84.6%25%2C s_cov:5.1%25%2C Eval:4.9e-76%2C partial hit],frameshifted%2C insertion/deletion at around 737482,MGA_674
sequence1	MetaGeneAnnotator	CDS	737592	738506	.	+	0	ID=MGA_675;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDLEVSYNFFTNEHNFSLNGASKTIGELGTSADGNITRLDNVLEKMPDKLKRLEEKFVSIKEQLENAKEELKKPFEKADELKTKVLRLAELNKLLDMGEVEEKETPNPLVEDVKRAIIDFCNREYEENHSYDEFNTLYPDLKHIGIAYTNTPDEKHKIQFELNLEDFTATQLVNGKEISHYDYVKENGNEEKALDCMKFEMENGEFSAFVSVDEEELRQALGLEIDDESNFYDPLTKDLDNDGVPDRYDNDFRDSDYFESTYDVEDNLHAKEEKPSILGQIRSFQSEQKEKEVKDTKSKEHDER;locus_tag=LOCUS_06710;note=WP_011860792.1 DEAD/DEAH box helicase family protein (Clostridioides difficile) [pid:73.9%25%2C q_cov:98.7%25%2C s_cov:10.6%25%2C Eval:1.4e-127%2C partial hit],frameshifted%2C insertion/deletion at around 737482,MGA_675
sequence1	MetaGeneAnnotator	CDS	738563	739210	.	+	0	ID=MGA_676;product=DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004802604.1;translation=MNYKEMRNTIEQMANENYEDFTKALISFEKGVNDKEALDILYDNYTNNDSLTLLNEEFDYMIDELRESGQIKENASLEKEDNDLVNIVGDVEVVERENKNGEAFKVVNFSVVSKDDEGNKHYTNCSAYGEKGDIPKDFKQGDFVKLFGQERKSIDDNGKEHTNVRILVSKLLKAKEQMKSQEEKKESVLGAIKKFKAEEKAKPTEKKEASKEAER;locus_tag=LOCUS_06720;note=WP_004802604.1 DNA-binding protein (Bacillota) [pid:69.1%25%2C q_cov:88.4%25%2C s_cov:88.6%25%2C Eval:2.1e-72],MGA_676
sequence1	MetaGeneAnnotator	CDS	739329	739547	.	+	0	ID=MGA_677;product=helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870276.1;translation=MKFSYNGLWKVLIDKNMKKKDLIDKTGISPTTISKMVRGDAVSLTIIGKICVELGTDIGDLICIDKDFKEDK;locus_tag=LOCUS_06730;note=WP_012870276.1 helix-turn-helix transcriptional regulator (Thermanaerovibrio acidaminovorans) [pid:43.1%25%2C q_cov:100.0%25%2C s_cov:98.6%25%2C Eval:1.6e-11],MGA_677
sequence1	MetaGeneAnnotator	CDS	739547	741724	.	+	0	ID=MGA_678;product=class I SAM-dependent DNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003114406.1;translation=MESTYNALEYNKLISFIWSVADDCLRDVYVRGKYRDVILPMTVIRRFDSIIEPEKANIMKVKEMAEKQGWDVTKTLDTAVGLPFYNTSNFCLKDLKHETNRQNLKKNFEEYLNGFSENVKEILQKFDFNNQVTKMTDAGILGSVIEKFTSSELNLSPYDEKNSSGDIIKKGLDNHAMGTLFEEIIRKFNEENNEEAGEHFTPRDLIELMADITMYPIMDKIKNGTYSIYDGACGTLGMGTVAEERLKAFAKENDKEVSIHLIGQEVNPETYAISKADLLIKGGDTDSNNVYYGSTLSDDRTSGQHFDFMLSNPPYGKTWKTDLAILGSGNDKDPKKNIIDRRFVRNYKEQDDFRMIPDVSDGQLLFLLNNISKMKETEMGSRIVEVHNGSALFTGDAGNGASNARRFMIEEDLIEAIIQLPENMFYNTGITTYIWILSNRKEERRKGKIQLINANGIKTALRKNMGKKNCEFSEADREFILNQYLKFEENEYSKIFLNDEFGYYKVVVERPLRQAVLCNAENLKEIEEELKKIRAFSGKIDKKILEDSFIKGTATSIKELEKSENIEAYLEVLKLMNKEEKYLDYVAFEKDFNKHLKKKNIKGASLSKFVSTGLLGNMIIRDESAVIQKDSKGNVIVDPDLRDTESIPMTFEGGIEEFIKKEVLPYHADAFVDESKTQIGYEINFTKYFYKAKELESVEDIVSRIKELERQSDGMMASILKGLYE;locus_tag=LOCUS_06740;note=WP_003114406.1 class I SAM-dependent DNA methyltransferase (Pseudomonas aeruginosa) [pid:44.0%25%2C q_cov:97.2%25%2C s_cov:97.6%25%2C Eval:4.9e-168],MGA_678
sequence1	MetaGeneAnnotator	CDS	741717	743138	.	+	0	ID=MGA_679;product=restriction endonuclease subunit S;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010918507.1;translation=MNRYEKYSNSELTWSEAIPEHWGVKRIARVFDIRKEKNSPIKTKEILSLSAKHGVSLYSDKKEKGGNKPKEDLTSYNLCYLGDILINCMNVVAGSVGISNYFGAVSPVYYPLVNMNQDENGTRYMEYVFRNYNFQRSLVGLGKGIQMSEADDGRLYTVRMRISWDILKTQLLPIPPINEQEQIANYLDWKINEIDRLIQIEKEKIKELKRLTLNIIAEFVLKGINTLNYKKSNIKWIDNIPSHWNEISIRGCVNIIRGNSSFTKDDLKNQGEYVGLQYGKVYKTEIIDSEFNFYVNDKFYKTSQVVTRNDIIIVSTSETVEDLGHTSFYDRHDIGLIGGEQILLKPLNNINSKFLFYLSKIFRTQLQLCATGIKVYRFKISDLKQLYIPLPPIEEQENIVSNIELKLKQLDERVKNNYNLIKELELLKQSLISEVVTGKIDVRNIVIPEYEKITVLDDETEEFDEMEDIEDGD;locus_tag=LOCUS_06750;note=WP_010918507.1 restriction endonuclease subunit S (Caulobacter vibrioides) [pid:25.9%25%2C q_cov:93.7%25%2C s_cov:97.6%25%2C Eval:6.4e-22],MGA_679
sequence1	MetaGeneAnnotator	CDS	743128	746037	.	+	0	ID=MGA_680;product=type I restriction endonuclease subunit R;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003114402.1;translation=MGIRDTKMEAELENNIIEYLVSNQGYVYIKSDEMKISFDRKYAFDEKRLLEFIKTSQPDEFDILRLDTDSGKEKFYKQLDTSIRQNGIVAVLKNGIKCYPSSGTIIFYHALDPKRPSSYDEFKMNIFSVTNQLTYSDKNKGLELDLAIFVNGLPIITMELKSRASSTGWTYKDAEEQYKNDRDPKETLFSFKRCIAHFAVDENFITFATKLDGKNTRFMPFNKGTTVGGSGNPINDSGTMTDYLWKVFLKKETLTNLIRDFAYISVDKVKKTETLIFPRYHQYRVVTRLVEDVQKNGVGSRYLIQHSAGSGKSNSITWLAYRLVEVDYKDQKAFDSVIVVTDRLNLDKQINDNIRKFIDEKSVVGHAGSSTDLKNMLIDGKKIIITTVQKFPYLFEKIGTDLKGKNFAIIIDEAHSSQSGRAAASLNMAVSGSLGNEDEFEIEDKLNELIEARKMPENASFFAFTATPKAKTIQMFGSVFDLYSMKQAIEEGFILDVLKNYTHYENYYKIYKTIEDNPDFDKKKAQKKIRNYVEGQEFPIREKGEVMVNHFLANTVNKINGKAKAMIITQSILRAIEYYHIVSELLKNSNTGYEALVAFSGEKEYKGKIVTETSLNGFSDKETPEKFKQDKYKFLIVADKYQTGYDEPLLHTMYMDKVLNDVKAVQTLSRLNRSAKYKIDTCVIDFANEPEHILEAFQPYYKETKLEGETDPNKLHNLLSMLDAKYVYEEDEVDRLVDLFLKNSPRSFIDSILDKSVERYTALSEEDQVEFKSGVKSFIRTYNFLASILPIGQVDWEKKVIFFEQLIHRLPTPEGDDLSAGILESVDLESYRLEKKNTIDIILEDEDGKVEGLGIGAGKKNEVELDTLENIVSTFNDIFGNIDWQDKDNVARQIKELPEMVMKNEKFKNALKNSDIENIKREYHSALKEVFRIIMVDNMELFGQWTNNSNFSKWLNDTIFDEIMKKNKR;locus_tag=LOCUS_06760;note=WP_003114402.1 type I restriction endonuclease subunit R (Pseudomonas aeruginosa) [pid:46.0%25%2C q_cov:97.3%25%2C s_cov:84.6%25%2C Eval:9.3e-234],MGA_680
sequence1	MetaGeneAnnotator	CDS	746052	747326	.	+	0	ID=MGA_681;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGNISGITRRDIIDLFKNGITEDNWLVEETIYYPYYGRFDIVDFLKRLYKLDTWESGDSRLKNAEQEIMMHTRNGDYSDNWIFDDERFHLIDGTDNVFLDFLCEVFHPEVRDENKEWKKYFEKINSLLREDGYELVASSKISGRDVFSWRTYIKKPDMYIPFSERNKFLITGKKISIKLPNAVRHQLFKVMDVYDEEFYLIDETNWNYRKYSKEYVLEDINKFYVAKHYVGSNLTEIKKFSDFQEGTSPFVIFDVIESFCRHITNYEGFENEINAILKLKKINVVLRGGEIHSSVNNSFLLDSTLKINEVGLEELIRVAEDLYGKGKYSYAVEKIWDAFERIKTYYPTLDKKNSAEKIINDISYGNEHIKKMFDNEFKALTDIGNSYRIRHHEIYKIDISKELHYKYFYKRCLALISVILENLQ;locus_tag=LOCUS_06770;note=WP_003130146.1 hypothetical protein (Lactococcus) [pid:46.7%25%2C q_cov:24.8%25%2C s_cov:93.0%25%2C Eval:1.9e-22%2C partial hit],MGA_681
sequence1	MetaGeneAnnotator	CDS	747339	748163	.	+	0	ID=MGA_682;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFDNSKYFIFDKSIPTSSGEKIQVYKLNNELLDDNSLNNWALGLRNNYIEEHLLEQAISGTGLAKKEYLEKMIFPNPRVPQGAATMSGEFGELLVYDYINYVLEYYVPRIRYFNKVNPNTPIHGSDVIGYKMESYNKRSKNDKLLVAEVKTRSSISGNKTKICTNIVTDAITDSNKDRVRVGESLNAEKLKLLNRGRIKEANIVERFQNKTDNPYTLDFFAVAVMDSDLYSDQVVLDVVNSQHENVKCTSILIIHSKELLLLLRDLYRRACSC;locus_tag=LOCUS_06780;note=MGA_682
sequence1	MetaGeneAnnotator	CDS	748157	751255	.	+	0	ID=MGA_683;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIESTSKYYLKKVRAKAKMYEYGVPENLHIEVEEQANDLILLSIGIVGDIANEIWNMKQAPIILSKEKEEELYFVSRFFDAYFQSEMSIDLNSYYILMGAVTYYFCNMNGSSKVMMSIMHNWNNFEFSASGLENVIIWLLDGNYKFDVSDIDEKYKSYIIQLINYHNRFFDGENLEKAQFEEFRNYVYHFGNDREILFTDIILAILKKKIYNSCINLMPLYSGLDKDNWISTFKNNAMMKEMWSSQILLGEKGIFKGKSGVIQMPTSSGKTTSVSLAVQSAFLSKRTSIVIVVAPFRALCKEIMFDMEKFFSFDKNITVTEFSDVPEPSEIELVTSESIVKKIIVMTPEKLAYILKHNTEIIESINMIVFDEAHLFDDETRGTDYELLLTTINSYLKPDAQKILVSAVISNAEQLNTWINKDGIVIRNNTIKTSEKTVAFNTFTSTNINNAYSNLYFVEPNKNLEEEFYVPRVVQTKKLKKIDGERKFRYFPDFKNNKQDVGIYYAIKLIANGSIAIFCSKKDTVNNILKRFIDLKERGISLEDFSTLSDETECSKIAYLIKEHLGENNLYISALNGIVGHHSGVPNGVRIAEEYALKKSLIRCVVCTSTLAQGVNLPIKYLIVSSIYQSKQVIKVRDFHNLIGRTARAGKETEGTIILTEDIYKNSKEAYKLNNYKRLLNADNSEECYSNLLKLVREVDLGNNRVISFDFLKKYIESRYSNKAEYTETKKGILEYKEQGREYGEEIFYKMNEIEHILVSLENFILGFADIEDESFEIIKSTYGYHLANEDEREELKNIYNLIRSNIESIEVGDRLLYRKSMLGILTMKTLSRFIDENLYEIANADFDTLINLVANKLKESGNCKLIPKLIDDSHVYELLKMWINGKSYIQIWDYSKSVNLLIKWGKRSRNISLEDIITLCDSDFGFASLTIIQAIVEILNTKDCGENIQEALNDIIYRIRYGLPNKESVCIYELGFADRIISQKIADEIIEFDCSTKKKTKSAIKSNREKLKELLTNYPLYFIDRLEKIR;locus_tag=LOCUS_06790;note=WP_011023138.1 ATP-dependent DNA helicase (Methanosarcina acetivorans) [pid:22.9%25%2C q_cov:42.8%25%2C s_cov:53.8%25%2C Eval:6.6e-20%2C partial hit],MGA_683
sequence1	MetaGeneAnnotator	CDS	751275	752369	.	-	0	ID=MGA_684;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESRIHRELYVRFGGEYLKTYIRNNARRWILSLLNNVNMVTGKCYQSNKRSYHQIRYQSDKLCKENSLSVIDEYYERFRKKYKTNGKSWYENEHAKNGTSWKSKLQFDIDRMIKQSKDWDEFLKKMADLGYEIKHGKHIAFKHKDKERFTRAKTIGQDYTEERLKERISENANQKTFTVKKRVGNIIGIANNEKAQSSKGYEFWATKHNLQVASDTVILMREKGFKSLSQLDDFIKKSADKRQSLQDEIKVLDEKIATLSATMEQFHTVTKYRQIYQAYRKDPTDKAFAGEHKAEILFYEKSLANLKKSYSKMPNSKQIFEELEKLNEKKNTLMQEYSSSKSEMTELYQIRKNYEKYMGKEMER;locus_tag=LOCUS_06800;note=WP_011861371.1 relaxase/mobilization nuclease domain-containing protein (Eubacteriales) [pid:71.1%25%2C q_cov:91.2%25%2C s_cov:74.9%25%2C Eval:2.6e-139%2C partial hit],MGA_684
sequence1	MetaGeneAnnotator	CDS	752370	754187	.	-	0	ID=MGA_685;product=reverse transcriptase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272172.1;translation=MRNPNNVLISLRKHSKEENYTYEKLYRNLYNIDLFLQAYQNIYANTGNMTKGVDNQTISAMSLERINKIIDSLKDESYSPTPTKRVYIPKKNGKLRPLGIPSIDDKLVQEVCRMLLNSIYDESFEDISHGFKDNRSCHTALRQIQNRFVRCKWFVEGDIKDFFDNINHNIMIDILSKRIDDKRFLRLIRKFLRAGYMEQNEYLNTYSGMPQGSIISPILSNIYLDKFDKYMQSYKESFDKGTKRKQNKEYKALYDRRKRLENKLRKTTNKIEIDNIKSEIEEINKRYSNIPCLNPMDKNFKRIQYVRYADDFIIGIIGSKADAEKVKQDISQFIKSELNLELSDEKTLVTKSTNRAKFLGFDIRVTPRSNHTKRTKVGIKARNFGGHVRLELSTSTIQNKLTELGALKIKNLNGKEVWFPKERSNLTSRTDLSILEQYNGEIRGFCNYYRLANNSSKLHKFRYIMEYSLYKTLACKYRTKVTDIITRYHIGKDFGISYTDKNGNNKIRFLWKDSLARKEIPQDDNADVIHKQKFYLKKPTLGLRLKNNKCEWCGKETNNLKVYQVKKLKDLTDEYAWHVFMKSINRKTLVICNECFEKINNSNEE;locus_tag=LOCUS_06810;note=WP_041272172.1 reverse transcriptase domain-containing protein (Desulfitobacterium hafniense) [pid:54.0%25%2C q_cov:99.3%25%2C s_cov:99.3%25%2C Eval:6.9e-181],MGA_685
sequence1	MetaGeneAnnotator	CDS	754710	755081	.	-	0	ID=MGA_686;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAITKIHPIKSTLNLAIDYITNAEKTDEKILISTNKCHTASAYTQFLRRREENNIRGSVLARHLIQSFLPGEATPEMAHKIGLELCKKILKDEYEFILSTHIDKGHIHNHIICASIRYEVNPF;locus_tag=LOCUS_06820;note=WP_011861371.1 relaxase/mobilization nuclease domain-containing protein (Eubacteriales) [pid:80.4%25%2C q_cov:91.1%25%2C s_cov:25.3%25%2C Eval:1.6e-48%2C partial hit],MGA_686
sequence1	MetaGeneAnnotator	CDS	755081	755440	.	-	0	ID=MGA_687;product=plasmid mobilization relaxosome protein MobC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003426139.1;translation=MANRTRNIQLKICLNEEEKQIFEKKMKLAKCKTMSHFLRKCVLEKEIYQVDLQPFADLQGLLYNATNNINQIAKRVNSTGIIYIGDINDMKNQIDHISKEIWQIHSLLLGRTAETGDDK;locus_tag=LOCUS_06830;gene=mobC;note=WP_003426139.1 plasmid mobilization relaxosome protein MobC (Eubacteriales) [pid:76.1%25%2C q_cov:95.0%25%2C s_cov:97.4%25%2C Eval:2.2e-45],MGA_687
sequence1	MetaGeneAnnotator	CDS	755860	756288	.	-	0	ID=MGA_688;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVVRIRGIIEALVVCVGSKGIRYYKITAIDEYSRKRVLKVVKGKSTYETSKYIKELERAIGFKIETIQVDNGYEFVNDKDVTDKEDGKILYSRKEFRSEEELIENVKRHERLYNNTAKTVLNFKSPNEVVREYFTKVKKEA;locus_tag=LOCUS_06840;note=MGA_688
sequence1	MetaGeneAnnotator	CDS	756866	757309	.	+	0	ID=MGA_689;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTPEVIWKSPITMSLLTWIGVSIFLIDIYLFYRILKDDFKSNRLYLVIFILLFLFFILILFLRNITKKEMRLPLFFNYSINGFGRKIILEKIHINNCLKCGGKIKYHIKPVEWVYYYINGEMKRKITKNSPVLECKKNQEHCYEVV;locus_tag=LOCUS_06850;note=MGA_689
sequence1	MetaGeneAnnotator	CDS	757342	758322	.	-	0	ID=MGA_690;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011860719.1;translation=MKKIRLKDIAELASVSATTASLVLNDKKTRISKEKKEEIKKIASELNYQPNIIARSLAQKKTFTIGLIIPDINNPFFSSLSKYIEETLYKEEYLLLIANSNNSTEHEKLLIQSYINHQVDGILLCPSNEMINNHNYEKYLENLPVPIIIIDRIIENSNVTQISYDNKMGGYLATKYLIENNCKNIVCVTGTFTSQSSKDRLIGYKKALKESNINNQYIFKGDFTFESGLNLAPDIIKTSPEGIFFFNDMMAYGFFYYLKKHNIPENKFLICGYDNLQLSEMFHLTSIEQNTEILSTKCCKSILDIINNQKVKKREILKPKLIVANK;locus_tag=LOCUS_06860;note=WP_011860719.1 LacI family DNA-binding transcriptional regulator (Clostridioides difficile) [pid:32.1%25%2C q_cov:98.2%25%2C s_cov:97.0%25%2C Eval:7.5e-42],MGA_690
sequence1	MetaGeneAnnotator	CDS	758449	758862	.	+	0	ID=MGA_691;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007052499.1;translation=MDNIIKFNVLNVEDYLNLHEKCGFKEYEKEDVTIAIKNHLFDAVLFFEEKVVGMIRVVGDNKIVFFIKDLMILPEYRNKGYGKLLLNSALEYISKNACKGAYIGLMSTVDYETFYEKFGFIRRPNENFGSGMVKFNE;locus_tag=LOCUS_06870;EC_number=2.3.1.-;note=WP_007052499.1 GNAT family N-acetyltransferase (Bifidobacterium longum) [pid:42.0%25%2C q_cov:95.6%25%2C s_cov:85.6%25%2C Eval:3.6e-27],MGA_691
sequence1	MetaGeneAnnotator	CDS	758855	759778	.	+	0	ID=MGA_692;product=ribokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000182746.1;translation=MNSKLYVLGSINVDLSIECDRFPKIGETIKGKGFEKNLGGKGSNQAIASSILGLDTYLIGAVGSRDNNDWIYDELCNYGVNTSLVSKIEDEETGLAFIIRAKGDNSIILHSGANLKIKKENLINGLDKAKKGDYFLAQFEVDQDLVYFGIETASKKGMTVIINPSPAMKIDNKMYSLIDYLIVNQTEAEILSNIYPETLEDCKRIFEILNKYELKNLVVTLGNKGSVLIDENNSVFSKGIKIKPIDSTGAGDAFTGMFIRSLSMDISIKEKLYYSNISGALTCLQKGARIGVKNLNEIINFKEDINE;locus_tag=LOCUS_06880;gene=rbsK;EC_number=2.7.1.15;note=WP_000182746.1 ribokinase (Staphylococcus) [pid:32.9%25%2C q_cov:97.1%25%2C s_cov:99.0%25%2C Eval:4.7e-43],MGA_692
sequence1	MetaGeneAnnotator	CDS	759771	760691	.	+	0	ID=MGA_693;product=ribonucleoside hydrolase RihC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007052500.1;translation=MNKRPIIIDTDPGIDDAVAIALALHSDKLDVKLITTVAGNVNIEKVTKNTLQLLDFYKKSVPVAKGAEKPLFRKPIDASGVHGDSGMGAYTFPESNGKNLLKINAVEAMREVLMNSNEKITLVPIGPLTNIAILLLTYPQVKDRIKEIVLMGGAIGRGNSGVYSEFNIDVDPEAAKIVFNSDIPITMATLDVGLKALIYPEDSAKIKEMHKIGDMFYTLFKTYRGGSFNTGLKMYDSCAIAYLLKPDMFVTEKVFVGIETKGEFTSGATVIDLKNKLGREANATVTVDIDADMFKKWFMNEIYNCR;locus_tag=LOCUS_06890;gene=rihC;EC_number=3.2.2.-;note=WP_007052500.1 ribonucleoside hydrolase RihC (Bifidobacterium longum) [pid:58.0%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:2.6e-94],MGA_693
sequence1	MetaGeneAnnotator	CDS	760703	762046	.	+	0	ID=MGA_694;product=C4-dicarboxylate transporter DcuC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007052501.1;translation=MFVIIIGFLSVLFVGYMLLKKHDIKITLFGVGLLLLYISQILKGEYANFLLNPIDMLIKQFGTTLSGAGLVIFVLGGYSAYMSAIGANDMTVMLLTKPLKKVKSVYILVPIVFLLGNLLSLVIPSASNLAIILIATLFPVLRKSGMSNLTAAAIIATTATIMPTPLGADNVAVAAELGVSVEEYVFGSHSLISIPTLFFMAIVHMIWQRYCDKRQVLEKEFEQTEDQIKYDKPFSLVYSLLPLLPIIILLTSFVLENITETKLSLSVLSVSIISVIFTLLIEIIKNRNVKTSLISVEQFFKGMGNSMGIVVLLVAASTYVNGLKGIGLINILQEIMTKTSASGILLPVILVIFSAIIVLLSGSGTALFFALVPLLVPLAMAANISPIAISVPLGLSGNLLRAVSPVSAVVMIVSGAVKEDPISLVKRTSVPMIAGVIFMLILSLILF;locus_tag=LOCUS_06900;gene=dcuC;note=WP_007052501.1 C4-dicarboxylate transporter DcuC (Bifidobacterium) [pid:51.8%25%2C q_cov:100.0%25%2C s_cov:98.3%25%2C Eval:3.2e-121],MGA_694
sequence1	MetaGeneAnnotator	CDS	762180	762782	.	+	0	ID=MGA_695;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSPAKRLSVDERKKEIMEAARKIIIIKGLENTTMEDIISETTLSRGGVYHYYKSVVDIFKDIMFSGIEYRNKIIKSHLNEIDNLSNNEFIAKQLVDKVIDKNPYTPLYVEFLICKKRIPELNNIMDELQERTKEKLNTIFNNDSNWIYDSDTFLFINDFINTLILASDILDVRENFKKNRHLLEKMFIYILERDENNGSL;locus_tag=LOCUS_06910;note=WP_010956720.1 TetR/AcrR family transcriptional regulator (Treponema denticola) [pid:42.6%25%2C q_cov:56.0%25%2C s_cov:54.3%25%2C Eval:5.9e-15%2C partial hit],MGA_695
sequence1	MetaGeneAnnotator	CDS	762769	764523	.	+	0	ID=MGA_696;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005399341.1;translation=MEVYKKVFRYIPNYKSLGYLSIIVSSISAFFMVYGYYYIYQFFKELIVSNNFENANYHSIRIVFYLTLSFLLYILSGIISHKLAFRLETNLRKRGIDGLTDSSFRFFDLYSSGYIRKTIDDNVVKTHVAVAHMIPDNSQAFLVPVFALVLSFSISFRVGIVIVVLSAVTSFILKKMMGNGEFMKLYQISLDKLSAETVEYIRGIQVVKIFGIKLKSFKALHESIMNYSKYAYDYSISCKEPYVLYQVIFLGLIPIITIPFSFFLTGLNEPKIIAVELIMIFFLSGVIMVSFMNIMWASMNIFNANYAMDNLENLYDKMQKDKLNYGKRETFDNYNIEFENVTFSYGENKVLENLSFSLDENKTYALVGHSGSGKSTLAKLISGFYKVDSGFIKIGGHPLEEYTKEAIINNISFVFQDTKLFKKSIYDNIILADENASREDVMKAINLAGCDEIISKFKEKENTIIGSKGVYLSGGEKQRIAIARAILKKSPIVIMDEASASIDADNEYELQKAFKNLMKDKTVIMIVHRMSSIKNVDEILVLENGKLIERGNNETLLRKEGLYSKLVNLYETANEWRVSNEELL;locus_tag=LOCUS_06920;note=WP_005399341.1 ABC transporter ATP-binding protein (Bacillota) [pid:61.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-210],MGA_696
sequence1	MetaGeneAnnotator	CDS	764507	766228	.	+	0	ID=MGA_697;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002358584.1;translation=MKNYYKKIYSLSEQGAKNLTKSTLICFITYFINLAPITILMLLLNQLILGDVISPFKYVFMSILTLVFMYLLLSTEYVNLYNATYKESANLRKEISKNLADLSISYFSKHDLSDLSQTIMSDVQVIEHAMSHSIPKVVGMWLFFPIMGVMMLIGNWKLGLAVIIPTLLSFVILPLNKRKINSGDSKYFNILRENSELFQETIELQQEISSFNQSDKVKKELYKKMEEREKIHFKIEIKLFSIVALSSLFSYASVAVVILVGIYLLINNQINLIYLIGYIISAIKVKELFDISKEGLLEMFYIEPAVIRIKEMKNEVIKEGEDVSFSNYDIEFKNVSFSYNKDNKVLKDISFVAKQGEVTALVGTSGSGKTSILRLVSRLYDYNDGHILIDGKEIKNVSTDSLFKNISIVFQDVVLFNTSILENIRLGNEKATDEEVKKAAELANCMDFIEKLPDGFDSYIGENGAELSGGERQRISIARAFLKNAPILILDEISSSLDVDNEKKIQESLNKLIKDKTVIIISHRLKSIENVNKIVVIDEGYVENIGNHEELMKSSKVYKNLVQKTKLADEFNY;locus_tag=LOCUS_06930;note=WP_002358584.1 ABC transporter ATP-binding protein (Staphylococcus epidermidis) [pid:61.6%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:2.4e-204],MGA_697
sequence1	MetaGeneAnnotator	CDS	766239	766820	.	+	0	ID=MGA_698;product=MptD family putative ECF transporter S component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000368971.1;translation=MKKNNLKIKDLVTIGVFTVIYFIVMFTVGMIGISPFLFLIYPAILGMATGTIVMLFMAKVQKPWGLFILGIISPFIMFVMGHTYVIAVHALIVMFIAEIIRRVGNYKSFKYNMLAFAVFNTWICGSLMQMLLAREKYIELSMMMGKEYVDHLERLITYPNMLLVYAGAIIGGIIGAYIGKLFLKKHFEKAGII;locus_tag=LOCUS_06940;note=WP_000368971.1 MptD family putative ECF transporter S component (Streptococcus pneumoniae) [pid:68.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-73],MGA_698
sequence1	MetaGeneAnnotator	CDS	766820	767503	.	+	0	ID=MGA_699;product=energy-coupling factor transporter transmembrane component T;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001141952.1;translation=MEFIKNNKLNPNPITKFFVVVFLGVTILHTINHYLEWIIIFVISIMYFINGFKKEAIKNFIVFGILFFAPSFNFLEKLPFIIKLIFSLLFILRMFYIPFSAGKFLIKTSDVGSIISSMDYLKIPSAISIPIAIMFRFFPSFVEEKNNIKMAMKIRGIKTKNPIKYLEYIIIPLLIISSNIADDIAKSAETRCIGNPIKKTRYVKVNVNLIDFVYAFAIIFLVLGGLL;locus_tag=LOCUS_06950;note=WP_001141952.1 energy-coupling factor transporter transmembrane component T (Streptococcus pneumoniae) [pid:52.4%25%2C q_cov:99.1%25%2C s_cov:97.4%25%2C Eval:3.7e-62],MGA_699
sequence1	MetaGeneAnnotator	CDS	767500	768891	.	+	0	ID=MGA_700;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000229353.1;translation=MIKIENLSLLYSDKSKVLNDISMNISDGECILLTGESGSGKSSIINSINGLAFEYENAQINGNVNIDGHEIKELELYKISLLISSVFQNPKTHFFNVNTTLELLFYLENIGLNREEMEVRLKNMLEIFPIEYLLGRNIFELSGGEKQILCLASCYISGYKTIVLDEPSSNLDEKYINILKGMLEILKNKGITLILAEHRIYYLMDIVDRVFIIKNGNIERKFTKDDFLLLPNSKLIEWGIRNTHKPTLSVAKINGGSDLTIKKLNFNFNDNSILKIEDISFNLGNIYGIIGKNGSGKSTFLRIMTGLEEKEKSHILFKNKPINRKERLKNSALVMQDVNHQLFTDSVEEEMKLGIKNLSNDKIDEILSDLRIISLKDRHPMSLSGGQKQRVAIASILCKNSKFIFLDEPTSGMDYMNMMRISKLVKKMRTENNIIFIVSHDIEFLNETTDHVICIDDFKTNKY;locus_tag=LOCUS_06960;note=WP_000229353.1 ABC transporter ATP-binding protein (Streptococcus pneumoniae) [pid:60.4%25%2C q_cov:97.6%25%2C s_cov:99.3%25%2C Eval:8.0e-155],MGA_700
sequence1	MetaGeneAnnotator	CDS	768937	770364	.	-	0	ID=MGA_701;product=nicotinate phosphoribosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003018116.1;translation=MENIILMTDSYKSSHFLQYPENTTYIHDYIESRGGLYGYTKFFGLQYYLKKYLSQKITMDMVNEANEVITMHGLPFNKKGWEYIVKELDGKLPLRIRAVPEGAIIKNHNVLVTVESTDDKVPWIVSWFETLLLKIWYPITVATYSYKIRQIISYYLELTSDRHDEEIDFKLHDFGYRGVSSEESAGLGGLAHLTNFKGTDTLKSIIFARKYYHCNMPGYSIPASEHSTMTSWTKNNEKEAYKNMLDKFPTGLVSIVSDSYNYYHAIENIFSKDLKDDILKRNDMVVIRPDSGDPITNILFTLKIVEENFGVTINSKGYKVLNNIRILQGDGIYEDNVWDILKAIKENGYSAENIAFGCGGSLLQGNKQSSINRDTHKFAMKCSCVKINNKLVDVYKDPITDKGKVSKKGRLDLIKKENGELQTIKISYLDENNYHQNSILNIVYENGEIIKEYTLDEIRNNTYLFYEQEKLNSRL;locus_tag=LOCUS_06970;EC_number=6.3.4.21;note=WP_003018116.1 nicotinate phosphoribosyltransferase (Francisella tularensis) [pid:53.5%25%2C q_cov:97.1%25%2C s_cov:99.2%25%2C Eval:9.5e-135],MGA_701
sequence1	MetaGeneAnnotator	CDS	770377	771993	.	-	0	ID=MGA_702;product=ClC family H(+)/Cl(-) exchange transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015793.1;translation=MKKEGIFETIKSFVDFHSRKIRLKLIFYSIITGLITGVIVSSYTLLLSKITIFRNNLIEKNINPLLPLIIILFISIAIIIQYTLNKYPLISGSGIPQVMGLIQKKVKFNWLPELITKFFSGLLAIFIGFSLGREGPSIHLGSLVGQGVNEISKRTEVEKKYLITCGASAGLAAAFNAPLSGAIFAIEELHKFFSPILLICVLIASLFANLISKFLLGTQLSFESFSFISPINFELKEIIIHLILISILCFVIILLASIFNYSIIKFKDIYSNIRLSKYTKISIVALFSLLVVYFLPEITGGGHHIIEHLLEYNSTFRLLGLILVGKFLFTMISYSTGAPGGIFLPLLVIGALVGKIYGIFLVNTFNFTEEYMTLFVLIAMTSYFTAVVRTPITGIILILEMTGNFSNLFSLVIASTITYAFTELLKHNSVYEELFENMFEKHDKEAQFIEKNEKIVTIKIPVISDSKLSNKMIKDIKWPQNLLIIGIERTGSPQFIPKGDTVLKDSDILILLTDENTSKKYMNKLSELSTENIDIYSI;locus_tag=LOCUS_06980;note=WP_011015793.1 ClC family H(+)/Cl(-) exchange transporter (Fusobacterium nucleatum) [pid:41.3%25%2C q_cov:93.3%25%2C s_cov:95.6%25%2C Eval:1.1e-102],MGA_702
sequence1	Aragorn:1.2.38	tmRNA	772014	772351	.	-	.	ID=Aragorn_23;product=transfer-messenger RNA;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_tm00010;note=Aragorn_23
sequence1	MetaGeneAnnotator	CDS	772395	773252	.	-	0	ID=MGA_703;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKEVNELITTLELIIYDQTIEKISLDLIDKSVEVDQDEIKIFIVTELIKLYDKYSLHFQKIKLLKFLSFNNIINNNFPYMVQLFFILDTYKPEMYQEDLNKIFEIIKDKNQEELFFIEISNIYFQNKSFELADLYANKIEAKKDDSIYLSALYNRIFSNYHLNKIELMNYLHEDVNKFFDMKNEIILKNEFALNIIIKNYSKAFEIVNELSEKTKNYNYQIQAYILSIILDKKKYMAKYTSIFTSVDKSKFIEDINSSISVLEFSNTEAIKIFNVIDNIPFKFN;locus_tag=LOCUS_06990;note=MGA_703
sequence1	MetaGeneAnnotator	CDS	773362	773826	.	+	0	ID=MGA_704;product=small multi-drug export protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011948482.1;translation=MLLKYIYILIISAIPFIELRGAIPASQILELPLFSSIIVSIVGNILPIPFVYFFAKKILEFGKENKYFCKIFKMILDKGHKIGEKIISKSENGFFLALLLFVAIPLPGTGAYSAMLGASFLDIDFKKSFFAIFLGIIIAGFIVAIITYFFKATI;locus_tag=LOCUS_07000;note=WP_011948482.1 small multi-drug export protein (Clostridium) [pid:47.6%25%2C q_cov:92.2%25%2C s_cov:92.9%25%2C Eval:1.3e-32],MGA_704
sequence1	MetaGeneAnnotator	CDS	773956	775083	.	+	0	ID=MGA_705;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRGIFKGNDKTLIKESVEQKNDDKFDIRNHVINKIFDEFNKRNKIFEKETLEDYNKIFALKDEINIKFLITDKKEEKFESMIKRYDLEEDIEVLSTAYLKLDKNEREEIEKRFFILKYSKDGLINELKVKFVKDERYKKEIEILKNYAYLNNLYINYLPLHIFDSMYLIKIVSIYDDIDLYDLHNDKEIELEFDFQGYNEKIKIGYEIFWNIEKINYFANKKIRPTEKNIYFEYVFNLDKNSKYLVADTEKNIYGVINTGDMLKIWTTSSEYKLWNLIKINFMEKEVSFSNNINYGYLKVLNRNCIENIIFSNTFLREGIDDFKFKNNFLGKEEIFLEIIFSNKCFARIDTINYLKQVLKELFPEKNINICQSQY;locus_tag=LOCUS_07010;note=MGA_705
sequence1	MetaGeneAnnotator	CDS	775065	775730	.	+	0	ID=MGA_706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKSILERKIPYFYNYTWFVLYDYIKTYGLYDGYVKLIKTLKTDSSTFFSTMQFVSAYMNDYDKYVASLNPDFYDFVDVNELTDNERNVVFILAASMDLRVNKPIFEQIYEYIINDMKLKGDYKEIIAKYILKFRITKNLDYVLQNMINEVFDKNIFYKNLNNHKYVIYVTDKFNVEKSKFISIIEEYFLEDGEKIQVYWGKHFTVLDNKKVSKIDQNTFF;locus_tag=LOCUS_07020;note=MGA_706
sequence1	MetaGeneAnnotator	CDS	775763	776170	.	+	0	ID=MGA_707;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIENESEKISLEKSEIFDLKYNFKSRNDSLVVGDKGLSITLGIKFLNDPNDSKIREKSKKVLESILEWVSQKHDYRKLMIEEILTEDEKIIYTFNNIYVDEMIKKYNVENIGEYTILLKQNLLEKNKIEIKKEK;locus_tag=LOCUS_07030;note=MGA_707
sequence1	MetaGeneAnnotator	CDS	776172	776738	.	+	0	ID=MGA_708;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METLTLKLDNLTLQNIFVHDFKSFSKYNEHSEDIIIFSCEKKYEEELLNILDKKEIKYDITGLETREFKGLVKEILVEDLDESTLIVRLNGIDESIKLKLNKNLVRLYQDTTLPVRKVIEDVLRDYKIEYHISKNIDMEIGRVYYQYNEDDWAFLVRILSDFDERIFINKEGIIIIGEEKLSEEEEVA;locus_tag=LOCUS_07040;note=MGA_708
sequence1	MetaGeneAnnotator	CDS	776731	777540	.	+	0	ID=MGA_709;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKVTIINRNGNKLIKFKDNKIHSLGKILKYKDEQFIVNESQIELKNNIFFCTVECSKIGEYKLKRIKNIHITGSSLRGRVIKIFSKDEKAYMNVDFSEFLKEKYGNIQSFGKNYIDIPYKTFYSQSNTGLFPTPEINDVVDVVFIDDNENNMKVSWSLENENSSRFNDGEKRNYLNKEIDFNINKDRVYINFKNKMEILATNFVLNSKDVLISAKEKLGIASQLDISIEANDDLQIFGNEVALKSKSKNLNIVSEGNLLLKGKQIHND;locus_tag=LOCUS_07050;note=MGA_709
sequence1	MetaGeneAnnotator	CDS	777557	780811	.	+	0	ID=MGA_710;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKKFEDMIITQELSNFFDKLADIFLLKKYNEIDDINFGRYKLSKLKIEEKFPNTDFDYLVYTKEGHIMQDELIIITFRDLMNELNTLIDEFDEQEIYIDKKIKYLNKYNEIEFKDIKSKNPNLSNINDYRSKNIKINLGGILSTAHVFGSKRLTDFLKNRKHIYLDENNVPITEYFAQLGLFDISTFFKKKDEDIKVVVPIENDKDNKIIKKLSEKDKKDFFGQDSKSDISSILEKLKDPSIIKGIIDLINASKNNNKDKNSEKNNNNNNNNRGINNSNKSNRSNDNTSKKIVKSNKNINDLLREKYNSDKYKKDSSKYIENTTNRNISEKDKEDINNILNMYEEQTKDENGVGDTIKQKGYDDFRDVSKKKEKLNIEDMIYLILKNNRGNELNILEKSLEGYSCRYIKESFTHKFKSISKNIFLSKVSDLINMNLRNVGINYKVDLSEYNYLNYGKKDIDDISLKGDKRILDYIKLNNLVKSSFSLDSKDVRIYPRSRRLFDNILIKYIKNRIRYKKSNFDGIDLKDLNLSRNTIIFLDELTFGLSEEEYNLIDQIGNELNITKLIIYLLKNKFRYSKKILENINSNIDKTYDEYMRDNTKESDKSAIKNIFPTKISLEKHCELKGIRGIYFFYKSFYDEENNKILNSETIATTSVLVKCNMCPTPSKFIIGSVNTFVKGDMILTDNDKLIATFPTCAIAKVCSINILGSNWQPVSDLKYGLNNALLLSSKINCSVGGIISLESTTMKNLSKSKIKTFENNEKNDSKINSPFKTKDELIDFLDKRIISFNSIYDLYDLRDNRIKFVKKLYTYINESKKILSSYLSPKYVDRKITYDLAIYDNEKIIDMSDIMDVMKQYFDSFINRGVDTKGYKIFKKYGKNINANKFLEEYLISKNSISATYDYETNQVKNEAIWIKYLLKEYNRYKFRKRNVKLNEEFKRKIVMYHKIGGGIDANSQTPWCSSFVNWILDVSGIGSFKTASSQQMINKLKRIDKPLYGSILIFTKYNKNNEATGHGHITFLMGITDDKKQYICLGGNQEREIKYSKYYLDKKMGVKGGYFKLNGIFWPPDYPDDKIEEIK;locus_tag=LOCUS_07060;note=WP_013096434.1 TIGR02594 family protein (Enterobacter cloacae) [pid:26.7%25%2C q_cov:18.2%25%2C s_cov:30.4%25%2C Eval:3.0e-07%2C partial hit],MGA_710
sequence1	MetaGeneAnnotator	CDS	780820	781872	.	+	0	ID=MGA_711;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLFFIAITFVFANNNSDVNTSEEIKKLKNEIEKLKENNKDTENMDYNGLDGNMKKEIDEYALNLSQKIDILKDKMKTRYKLGNFTSAGESFLESLEDDDNRFKFGIMNKTILNKNSYKNNTDFFFVKNINNDGNIFGVGIYGGYSNSKYKKHTAKDLHGLDIGVILEGELPEYGLKIISMNEFNKDFKINEYYSSNSIIGGVGLMYKKEFGSLFYVEPMAFMLYGSNIDTNLKFNDTNVLIKNNFMYNAGVNLKLGLENEVGKNIYNFYIESSFDKKIKKDNNLIFKFKDKERYSTVALANDINLDLGLGLDILLNKEHRLHIDGGIGLIPTEKVYKIGASYELLK;locus_tag=LOCUS_07070;note=MGA_711
sequence1	MetaGeneAnnotator	CDS	782473	784287	.	+	0	ID=MGA_712;product=translational GTPase TypA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016545.1;translation=MKIKNIAIIAHVDHGKTTLVDALLRQSGTFSQHERIQERVMDSNDIEKERGITIFSKNASINYKDYKINIVDTPGHSDFGGEVQRILKMVDSVLLLVDAFEGVMPQTKYVLKQALEHGLNPIVVINKIDRPNSDPENVVNKVFDLFVELGANDVQLDFPIIYASAKSGIAKLNLNEEADNMQVLFDMIIEKVPQPDGDLNETLQMLVTNIEYDEYVGKLATGRVYNGTISRNQEIVLIKRDGTQVKSKISRIYGYEGLKRIELESASAGEIITVAGIEGVDIGETISDKDNIKALPLIDIDEPTLSMNFIVNDSPFAGRDGKFITSRNILERLTKEVNHNVSMKLEQTDSPDVFLVKGRGELQLSILLENMRREGYEVQVSKPKVIFKDIDGMLFEPIEYTTIDVADEFVGVVIEKIGVRKGEMVNLIQGGDGYTRLEFKVPARCLIGFRNEFLTDTRGTGILNHTFYDYEKYKGDVPNFRKGALISMENGTTFAYALNNLQPRGILFVEPGVEVYEGMIVGEHTRDNDLVVNACKGKKLTNMRAAGSDDNVKLAPARVFTLEMALEYINDDELVEITPNQIRLRKKLLTENERKKARNSIERG;locus_tag=LOCUS_07080;gene=typA;note=WP_011016545.1 translational GTPase TypA (Fusobacterium nucleatum) [pid:70.6%25%2C q_cov:98.7%25%2C s_cov:98.8%25%2C Eval:1.6e-249],MGA_712
sequence1	MetaGeneAnnotator	CDS	784289	784627	.	+	0	ID=MGA_713;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNLFLLINVFLTPFLMILLGSLWTKRFPANINKLYGYRTKWSMLSQSTWTFGNKTFSRLFFIFGIISLIFTAIYDKNRFTSLVFIQILLLFIPFCITEILLRILYNDKGEKK;locus_tag=LOCUS_07090;note=MGA_713
sequence1	MetaGeneAnnotator	CDS	784642	785874	.	+	0	ID=MGA_714;product=TolC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494851.1;translation=MKKLTILLMFYSSISIANNVENLEKKIDSTYALKEKRLEKEKLKNNLMDFNKLNISSSLNYLSSNGMANNGNGKSLIQNNNISLGFINYNIGLDLMNSGAINSHSISATKTINEYFYNRLGENDVEYNISKYKLNEEKEKELFDKIDLLKKYILQSKVVELNIKEKERLEQDKNKIEKSYELGLISKYDYEVGISNLNLSELKFNIDENILEQIKISLLEKKIKLENLDFNYDLEKVNDNLIEQYVKNKYVKIEELQISKKEYEYTKDLVINKIPSITPSIGYDIKNKSFNAGVTVSKSFNIITNEYEDMREFKKEIQNKKTNLDIFEQKKYIEEKNMYNNLLFKYISLETKVNNLEKEIEIIEKKFELGSEKYIKLLEKRNELLKAKIDLEEAKIDLSINNFKFKRGVN;locus_tag=LOCUS_07100;note=WP_029494851.1 TolC family protein (Fusobacterium hwasookii) [pid:23.6%25%2C q_cov:99.0%25%2C s_cov:99.3%25%2C Eval:1.4e-11],MGA_714
sequence1	MetaGeneAnnotator	CDS	785874	786935	.	+	0	ID=MGA_715;product=MacA family efflux pump subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010951265.1;translation=MKKISKTKKIIFGITLLVLVAFGVKMYSKTSVNPNTNIAQIYEAKKQDIELNYEVTGEVNSEKEVLIFSNIQGKVKKVNFRKGDVVKKGDVLVELDASSLNEINSNINKLKITLETKKKEYNDALSLYKIGGISKNEVDRLHNALSLAQMDLNVAENNIREFSTKILSTVSGVITEAHVDENLKIDSSKYLFKIVDVENLKIHAEIPNSKLRSIKEGAKVNVTSESLEINQVVETSISEISKISRRSKQFNDAVTDIVAKIDSSSNLKPGDTVKLNIILENIKDAVVVNFLDVSFEDGKTYVYTVDKDGKVKRNEVVVGKTNNIVYEIKSGIKEGDKVLNNPGRIYKEGDKVQ;locus_tag=LOCUS_07110;note=WP_010951265.1 MacA family efflux pump subunit (Neisseria gonorrhoeae) [pid:22.2%25%2C q_cov:87.3%25%2C s_cov:88.0%25%2C Eval:7.6e-19],MGA_715
sequence1	MetaGeneAnnotator	CDS	786932	787621	.	+	0	ID=MGA_716;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003404917.1;translation=MIKIKDVTKVYQNGKLSLEVLKGLNLSVSEGEYVALMGPSGSGKSTFLNILGCLDNLTTGTYVLNGIDVSLMNETELSIVRNENIGFVFQAYNLLPKLTALENVELPAMYKGTDKKTRIEKAKKALEMVGLGDRINHRPVEMSGGQKQRVAIARALINDPKIIFADEPTGNLDSKSGEEILKIFKELNDNGVTIIMVTHEEDVAQHTKRIIRLRDGIINSDEIVKERRG;locus_tag=LOCUS_07120;note=WP_003404917.1 ABC transporter ATP-binding protein (Clostridium) [pid:59.5%25%2C q_cov:99.1%25%2C s_cov:98.3%25%2C Eval:1.6e-76],MGA_716
sequence1	MetaGeneAnnotator	CDS	787623	788828	.	+	0	ID=MGA_717;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005914987.1;translation=MDILELIKLSLKSLYGFKMRSFLTTLGIIVGIGSVVMISSIGAGFENGLLSDVAKTYSKLINVSINNQKLDKASASRNYYFTENDMLLMEKQNSNIDKVFVQNSLIGIDGNGRYYLVTALGEKAFKVLTPKISYGRSFIDDEFKSKNNLALIGRTSAISLFGSEKEALGKQISFETFNYETKENLTIIGTFVEPHENIKKTFNENSVDVITNDSYFSGIKFNSSITIKVKDEQNIKNTVEQIKNYLNKKSDNNDIYDVKQFSEDTNKLSEILNKISLFISLVASISLAVGGIGVMNIMLVSVTERISEIGLRKAIGAKNKDILIQFLIESVTLTLLGGLIGVFLGLTLAFLIGIPFSITPILKLNVLLVSLGVSMGTGLVFGIYPAKKASKLSPMEALRSE;locus_tag=LOCUS_07130;note=WP_005914987.1 ABC transporter permease (Fusobacterium hwasookii) [pid:34.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.3e-57],MGA_717
sequence1	MetaGeneAnnotator	CDS	789237	790457	.	+	0	ID=MGA_718;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISRVDFENLYEFKDIKHEENNIYYAISFEHRIFGYLTLKKEDKLILKDIYIKKDYRNSGYGSKLIEYAIYDCINLGYDQMVALKHKKINNFLEKNDFIKINGIYVRMNLKEELEESNSTIKIGKMSIIINIILVIFKMFLGYTFKINSFIADGINSFSDLINNVLVLIGASIGKSPNDEDHPFGHGKVESVFSLIIGVIIIFTSFGVLKNGVLMLVRKEYLLINNKFYTILFISVLLVFIKTLQYLYVYLVSKKYTNPLINALLLDYNVDILLSIMVMLGLLTSKFVSPNIDAVLSIMISGYLIFQGYNVVKENTLILMDSQDENLLLNIKLLTLEVKEIENIHDVYMTTVGKNIYIIADIRFRSNITLEEAHDIAVIAEKKIKFRYSNIKKVIYHMEPTYDKE;locus_tag=LOCUS_07140;note=WP_012584059.1 cation diffusion facilitator family transporter (Dictyoglomus turgidum) [pid:27.0%25%2C q_cov:72.7%25%2C s_cov:95.4%25%2C Eval:5.5e-32%2C partial hit],MGA_718
sequence1	MetaGeneAnnotator	CDS	790460	792628	.	+	0	ID=MGA_719;product=U32 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015927.1;translation=MKIVGPAGNFEKLDAAIKAGADEVFLGLKGFGARRNNDNFAMKELLDGIDYAHKKGVKVLLALNTIMRDMEIKSVYKNFKPIYEHGVDAVIVQDFGLIKFLKTNFPNLVLHGSTQMTVANYVEANYLKELGLSRVVLARELSFEEIKEIRENTDIELEVFVSGSMCISYSGNCYVSSFIGGRSGNRGMCAYTCRKKFKDEEGKLSYFLSPNDQLLEEAEIKKLKDIGINAIKVEGRKKQPEYIYETVSYYRDILNGINRKSESYKLFNRGYSKGYFYLDDKLMNHKYSSNFGYLLGKVENNEIKLLDDLILGDGIQYVNQHFEKIDGIYVNKIYKNGSKVQNAKKGDIIYLPDIPKGTKYLYKNYSKEINDRINHDIKVVKRYKNIDAKVIANLNNELYIEFSTMNNFNKKIKVEFKGEILDSIANKKITKKDIIDKLSELGDTDFNINNIEVQYDDLAFIPFSKIKQIKRMLVEKLETKLIDSYKNDELEFIEFKYSKFDKPISPIFSALCRTDEQENMCRRLGITKIYRENFDIAKQKNIFNSLLNQNTNLVSNLYQLIKGKENGIKNQAMNWNFNVFNNISIDVYSEFDNIDTIFLSPELNYKQLKLMTNTALKRGLVIYGNLKTMYIEHTIDNKKYKEIQGEHFDRYKVIKNELNNIELYLYKPMNLIPKLDLIYSLNLDELRLDFTFENEDEVEKIIKSLKTKTGKYNPYAFDMGVS;locus_tag=LOCUS_07150;note=WP_011015927.1 U32 family peptidase (Fusobacterium nucleatum) [pid:45.1%25%2C q_cov:99.9%25%2C s_cov:99.9%25%2C Eval:1.2e-179],MGA_719
sequence1	MetaGeneAnnotator	CDS	792752	793090	.	+	0	ID=MGA_720;product=ribosome assembly RNA-binding protein YhbY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016989.1;translation=MNSKERNFLRKRAHGLEPVVRVGKEGLTDMVIESIKSYIEKNELMKVKLLQNSLEDVNIELINEIETKAKCFFVGSVGKVMIFFKEKRDKNKLGEITKEFIEFKKKWREINE;locus_tag=LOCUS_07160;gene=yhbY;note=WP_011016989.1 ribosome assembly RNA-binding protein YhbY (Fusobacterium nucleatum) [pid:44.9%25%2C q_cov:79.5%25%2C s_cov:88.9%25%2C Eval:5.4e-15],MGA_720
sequence1	MetaGeneAnnotator	CDS	793083	793538	.	+	0	ID=MGA_721;product=divergent PAP2 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003428407.1;translation=MSNGLIFGNKILDVVFISAFTAQIYKCFSPVIFKRKIDFTRLFSTGGMPSSHSSSTVSLCFSVGIVKGFSTTEFAIAFIFSLVTMYDATGIRQEAGKHAKILNSIIEEKRFLYKEEIKELKEFLGHTPLEVFAGAILGIVISFLMKGYLLS;locus_tag=LOCUS_07170;note=WP_003428407.1 divergent PAP2 family protein (Clostridioides) [pid:40.0%25%2C q_cov:92.7%25%2C s_cov:95.2%25%2C Eval:2.0e-22],MGA_721
sequence1	MetaGeneAnnotator	CDS	793540	794271	.	+	0	ID=MGA_722;product=TlyA family rRNA (cytidine-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016988.1;translation=MKKRLDVLLVELGYFETREKAKREIMIGNVIINDRIETKAGTQFKEENIKDIRIKNKLKFVSRGGLKLEKAITYWNLDFKDKIILDIGASTGGFTDCALQNGAIKVFANDVGTNQLDYKLRSDERVISLEQIHVKDLELQEKVDYIVIDVSFISLTKVIPFFTKFSKEDTKVIALIKPQFEVGREKISKNGIVVDEKYHDEAIKKVISSFKDFNYEILDVIESPILGGKGNKEFLIYTKRSNL;locus_tag=LOCUS_07180;note=WP_011016988.1 TlyA family rRNA (cytidine-2'-O)-methyltransferase (Fusobacterium nucleatum) [pid:54.1%25%2C q_cov:99.2%25%2C s_cov:92.1%25%2C Eval:7.3e-59],MGA_722
sequence1	MetaGeneAnnotator	CDS	794268	795659	.	+	0	ID=MGA_723;product=S41 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494947.1;translation=MKINKKHLLTMFLIGALGYVTYSEESQIIRKKEIAAEQRANATVDIRNINKIIQTINRINEIWVGSEEVDKEKLYEAALRGMVKSLKDPYSEYLSEKETEEFNQDIDGIYIGVGMTIKKEVGDYLEVTSTFIGGPAFKSGIQIGDIITKIDDKDIIDLTATETSKRLKGDENTKVKVEIYRRGLKNPFTLTLKREKIKLGNVEYSMYDNKNKIGYISLLQFDNNVSEEIKNAVLDLKEQGMKKLIFDLRGNPGGSLQEAVKIASMFVPDDLIVSLKTKSGIDEKHTRIGEQIFKGEMVILVNKGSASASEIVTGVLKDYERATIIGETTYGKGVAQAIYPLINGKDVLKLTIAEYSTPKNNNINKNGIEPNIHIKMNPLLLDKGYSKETKEAKENRKKEIIKFLEEIEGKEKAAEIIKEGDKQFNVALKFLLGEKIESDKKDEEKLNKKTKKDKILEENNKKK;locus_tag=LOCUS_07190;note=WP_029494947.1 S41 family peptidase (Fusobacterium hwasookii) [pid:42.8%25%2C q_cov:81.0%25%2C s_cov:85.9%25%2C Eval:8.5e-72],MGA_723
sequence1	MetaGeneAnnotator	CDS	795668	796348	.	+	0	ID=MGA_724;product=16S rRNA (cytidine(1402)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903175.1;translation=MLYIVGTPIGNLEDMTFRAVRTLKEVEYIFAEDTRITKRLLNYYEIDTKVYQYHEHNKQYQIENIIKLLKQEKNVAIVTDAGMPCISDPGYELVDAALKEEIKVTAIPGPSSITTGASIAGIDTRRMAYEGFLPKKKGRQTLFLKLQKEERAIIILESPNRVVKTLKDIQTYLGDRYVVITRELTKIYEEILRGKVSELIEKLEKRNIKGEIVLFIASGEENECDN;locus_tag=LOCUS_07200;gene=rsmI;EC_number=2.1.1.198;note=WP_005903175.1 16S rRNA (cytidine(1402)-2'-O)-methyltransferase (Fusobacterium nucleatum) [pid:69.6%25%2C q_cov:98.7%25%2C s_cov:95.3%25%2C Eval:7.5e-84],MGA_724
sequence1	MetaGeneAnnotator	CDS	796332	797228	.	+	0	ID=MGA_725;product=ribosome biogenesis GTPase YlqF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016986.1;translation=MSVIINWYPGHMKKTKEMIVENLKIVDLVIEILDARIPISSKNPDIEYLAKNKLRVVILNKIDLVDEAKLKEWEKYFIENNISHHFLAISVEKNKNFNELRKIVNKIYDEKLEKMKKKGLRKTVVRAMIVGIPNVGKSKFINKFSNKNKAKVGNKPGFTRGKQWITVDDKFELLDTPGVLWPKFEDNMVSFNLAITGSIRDDILPLEDVSNRLIDIMKEQCIIDNLIYSYNLDEETLITKTNIEIFELLEKRLGIYKNEKFSYELISRRLLKDYRIGKLGKFLLEYPKDFKKEGTNEF;locus_tag=LOCUS_07210;gene=ylqF;note=WP_011016986.1 ribosome biogenesis GTPase YlqF (Fusobacterium nucleatum) [pid:49.3%25%2C q_cov:94.3%25%2C s_cov:97.6%25%2C Eval:9.3e-73],MGA_725
sequence1	MetaGeneAnnotator	CDS	797218	798849	.	+	0	ID=MGA_726;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015951.1;translation=MNFKDYNLSNEMLEALEKKRFVSPSEIQALVIPELLKEETHLIGQAQTGTGKTAAFSIPILEKIIPTKKVKALILAPTRELANQVSDEIYSLKGKKEVKILAVYGGASIENQIKNLKKGVDIVVGTPGRVIDMINKGALKLNELEYFVLDEADEMLNMGFIEDIELILEKTNEDKKMLFFSATIPKPILAIAKRFMPEHKILKVQKKELTTHLTEQIYFEVRREDKFEALCRVLDYKPDFYGIVFCRTKSEVDEVTNKLKARNYDAEAIHGDITQGLREKALDLFKNKILNILVATDVAARGIDVSNLTHVINYSIPQESDSYVHRIGRTGRAGNKGIAITFVTPQESRKLAQIKRETKSDIKKENIPNVEDIINAKEELLIASVEEIMLENDYKLYLDLANKLLKGKNTEAAVASLLRHIYDDEFIPESYSKIKNVQVQIKDNTRLFIALGEKDGLNVNKLLKLIHEKTKVPGRKIKDVKVMPNFSFITVPLDEAEIIIKIFNKNTTKNSKPMVEVANSDKSGNGSNKKSRTKLGDSKKKRR;locus_tag=LOCUS_07220;note=WP_011015951.1 DEAD/DEAH box helicase (Fusobacterium nucleatum) [pid:55.0%25%2C q_cov:95.0%25%2C s_cov:97.5%25%2C Eval:4.5e-160],MGA_726
sequence1	MetaGeneAnnotator	CDS	798851	801517	.	+	0	ID=MGA_727;product=phosphoenolpyruvate carboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000058155.1;translation=MRVEMDSVILKPDDEIKLNKEWISKEINIVKNILSEIVPDIDIDSILDNEKHFKDIEKINPDVVRVLTILPLLINIVEDVYQSKILKYNTITKNYTEGMLDNLLYKLDLNNMNKENLTEIFSNIRVVPVLTAHPTQVQRKSILDLTQNIYEILEKRELVEHNLLDENEWMNELRKNINLLWRTDILRSSKLRVGNEITNSLSYYDSTFLKAIPKINIKFKEIAKKLGIFSNSYTPILMGTWIGGDRDGNPFVTEETLLNAAYSQFETAIEYYISELKKLYREFSISSLKNEYSDELKELEKLSKDNLEHRTYEPYRLVISYIIDNLQDVKVKLLKEKLELPYDSYYNSKKLLNDLLAIRKSIKLYSDEIIAYGRLDELIESVKVFGYHLSSIDLRQDSSVYEFCVNELLNIAKITDNYSALTEEEKCEILINQIENEPRKLSSVNCKKSEILEKELSIFSTMKKLINIFGKNIIEQNIISHTVEISDMLELALLLKEFDLDGKVNISPLFESIEDLKNSEKIMKTWFELDILKKWMSNNGSLQEIMLGYSDSNKDGGYITSSWHLYKAQKELVSLAQKYGVKLNFFHGRGGTVGRGGGPSYEAILSQPSESILGKIRLTEQGEVIGAKYGNLDLGKFNLEALLSATLEKSLKDDTKDIKEYENIMEQISNISYEKYRNLVYETEGFSEYFFESTPINEVSSLNIGSRPSSRKKVLDIEGLRAIPWVFSWSQIRVMLPGWYGVGTSFNKWIKENNGLETLKLMYRNWPFFKALLSNLEMVLSKTDMNIAKEYAKLVKNENLSTKIFNMINDEWILTFNLLKEITGINYLLEDNEMLTLSLKNRLPYFNALNYLQIELIKQQRAGNNTEEINKAIHTTINGIATGLRNSG;locus_tag=LOCUS_07230;gene=ppc;EC_number=4.1.1.31;note=WP_000058155.1 phosphoenolpyruvate carboxylase (Streptococcus mitis) [pid:50.1%25%2C q_cov:93.0%25%2C s_cov:92.1%25%2C Eval:9.0e-228],MGA_727
sequence1	MetaGeneAnnotator	CDS	801526	802734	.	+	0	ID=MGA_728;product=tyrosine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011393211.1;translation=MSELEIKKEVERQFEILKRGCDEIISEEEFKKKLENSIRNNKPLKVKLGIDPTGSELHIGHAVPIRKLKQFQDLGHEVNFLIGTFTARIGDPTGKSETRKMLSFETIQENIKTYLEQVKIILDLNKIKVVYNHEWLEKLKLEEVLKLLSMFTVSQMIQREDFSKRLSNNQPVSLIEFTYPILQGYDSVALEADVELGATEQKFNLLRGRDLQKNFNQEQQICMIMPILVGLDGVEKMSKSLGNYISIQDSPNDMFGKIMSISDELMLNYYEMITDLPLDEVKEMLKTQHPMDCKKKLGYELVKEYYGEQVAIESKAWFENVFSNRNLNVELPEIKIVENELAALELLSKLNFISSNSEGRRLIDQGAMKVNDVIIKDINEIINLTEEVIVRCGKKKIVKIIK;locus_tag=LOCUS_07240;gene=tyrS;EC_number=6.1.1.1;note=WP_011393211.1 tyrosine--tRNA ligase (Moorella thermoacetica) [pid:46.4%25%2C q_cov:98.5%25%2C s_cov:97.1%25%2C Eval:2.4e-104],MGA_728
sequence1	MetaGeneAnnotator	CDS	802745	803689	.	+	0	ID=MGA_729;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKILKFDETIIYDTIIVGAGPAAVSAAIYAVRKGLKTAMIGEDIGGQILDTNEIENIIGVPLTNGFDYATELEKHMSEYEIYFYKGHRVKEIINDDKLKKIITDDNKEVLTKTIIISTGAKWRQLGIPGEKEYTGKGVHYCSTCDGPFYRNKDVIIVGGGNSGVEAAIEISNIAKSVVLVEYMDELKADKVLQDRLFTLENVKIYLSTGVTEIIGNEYAEISKLKNRHTSEEFELKMDGLFVEIGLSANSDLVKNIVETNKAGEILIDEMNMTSIPGIFAAGDCTNTKHKQIIIAMGEGAKAALSAFEYVIKN;locus_tag=LOCUS_07250;note=WP_062695883.1 alkyl hydroperoxide reductase subunit F (Bacteroides) [pid:49.3%25%2C q_cov:94.6%25%2C s_cov:57.6%25%2C Eval:4.1e-82%2C partial hit],MGA_729
sequence1	MetaGeneAnnotator	CDS	803739	804173	.	-	0	ID=MGA_730;product=SsrA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016522.1;translation=MKILANNKKAYFDYFIEDEYVAGIELKGTEVKSIKLGKVSIKESFVRIIKNEVWILGMFVSQYTFGNIYNVNETRVRKLLLNKREIKKLSEKVKEQGYTIVPLTVFNQEGLIKVKIATARGKKNYDKRESIKQRDILRDIKKNY;locus_tag=LOCUS_07260;gene=smpB;note=WP_011016522.1 SsrA-binding protein (Fusobacterium nucleatum) [pid:63.4%25%2C q_cov:98.6%25%2C s_cov:95.9%25%2C Eval:1.0e-46],MGA_730
sequence1	MetaGeneAnnotator	CDS	804173	806032	.	-	0	ID=MGA_731;product=ribonuclease R;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016521.1;translation=MNKIFESKFICKNKRIAFAYTDNNEKVLIRDINFNNAFDGDTVIVEIIDNERLIGKVNKIVKRQDSPYFGNVILCKRNKYIIRLNRSDLIVTTTTKKINIKHGDILSFNIDYTTLNKDDIKVNILNNFGNINNSDNILNSLLDASNISKGFLNEIKKEVVEIRRPNVSEELKYRVDLRHQKTITIDDISAKDLDDAIYLEKEENHYILYVSIADVSYFVKEYSKLDFEAAKRGNSIYLAEQVIPMLPKKLSNNLCSLNPDEDKLTFTVKLKYDLNGKLIESDFFKSIIKSHHRLNYTDVNKMFDNNDKSYPILWDMLELSKLLRKQKNKKGMINFNIPEIKLILDENGDIKEISKRISGLSQELIENFMVAANEAVAEYLHWQNIPAIYRVHEAPEIDTLRSLNKKLNILGYNINNVMDIHPGKIAKIIDKSSNDENSYLIHKTVLQAMKRAKYMNENKGHFGLALDNYLHFTSPIRRYSDLIVHRMLQFTLNNKKISTKYIDKKKEEYKLIAEHISKTERVAERLEKDSIKLKLLDYMKKHLNEVFEARISGIIRGKIFLQLDNLIETVFYDNISSKYIIDDALLIDNKGNKFNIGDKVKIKIIKLDYERIEIISEVL;locus_tag=LOCUS_07270;gene=rnr;note=WP_011016521.1 ribonuclease R (Fusobacterium nucleatum) [pid:39.1%25%2C q_cov:97.7%25%2C s_cov:88.3%25%2C Eval:1.4e-112],MGA_731
sequence1	MetaGeneAnnotator	CDS	806033	806602	.	-	0	ID=MGA_732;product=bis(5'-nucleosyl)-tetraphosphatase (symmetrical) YqeK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016520.1;translation=MYNLNEIHEELKKLVTEKRYNHIIRVRNKAIELAKIYNAPTDIVEVGALLHDIAKYFDDEEAYSIIEDKYKNIFEDGFKINQILHGFAAAAYAKKRFNITNELILDSLRYHTIGRKNMTLIDKIVYLADAIEDGRDYPNVELIRKESLKNLDSAILMEINFKLNHLISKNSIIHPNTILLRNELIKKGE;locus_tag=LOCUS_07280;gene=yqeK;EC_number=3.6.1.41;note=WP_011016520.1 bis(5'-nucleosyl)-tetraphosphatase (symmetrical) YqeK (Fusobacterium nucleatum) [pid:46.6%25%2C q_cov:99.5%25%2C s_cov:97.9%25%2C Eval:8.0e-40],MGA_732
sequence1	MetaGeneAnnotator	CDS	806612	807070	.	-	0	ID=MGA_733;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNKLLIVLLSLSIFSIISYLYVNYKINNPIISSESNINGETKYLDIYIYDKKSKEYKHLEIEADLNIIDEGDYVNAVIKNSSFYKLNDNYKFLAEYSLKYEGKSILIIKLNNYFSKLNNESIKDFVNSVKYTLRENFKEYHEINVEIDTN;locus_tag=LOCUS_07290;note=MGA_733
sequence1	MetaGeneAnnotator	CDS	807074	808141	.	-	0	ID=MGA_734;product=N-acetylmuramoyl-L-alanine amidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029491986.1;translation=MLSKLKKILLLLTICFSTLTFSVILEDVRYQNGEFIIKFDSKITKPIINKTKITSNNIHYNVSEINLKNTKISEEVLNQININDEFYKYIIIDEITKDLAGIYTYSQYGYSSEITYSDDEIRIKKVKVDVPKKISPLTKKQLVIVLDAGHGGHDSGARGHGKLEKEIALEITHKLARNLKRDHKVILTRSDDTFISLSERPAIGNNNFADLFVSIHLNAATNDNANGAEIFYFSKETNPYTSKLIESEEKYDEVQAKKVSIINQILGDFFVNRTKEKSANLARVILDNYSKQMNFRKRGVFGANFAVLRGSESASILIELGFISNESDNAKLASETGQMIAVNAIADAIRENFEE;locus_tag=LOCUS_07300;note=WP_029491986.1 N-acetylmuramoyl-L-alanine amidase (Fusobacterium hwasookii) [pid:34.6%25%2C q_cov:94.4%25%2C s_cov:94.7%25%2C Eval:3.0e-47],MGA_734
sequence1	MetaGeneAnnotator	CDS	808151	808411	.	-	0	ID=MGA_735;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSTTTILVIYAVIFIPLLGILYYNNNKKRKKFDEMMNSLNIGQKIMTIGGIIGNITKINDETVEIKVDQNTRLTITKRAISHIIK;locus_tag=LOCUS_07310;note=WP_004080747.1 preprotein translocase subunit YajC (Thermotoga) [pid:35.0%25%2C q_cov:93.0%25%2C s_cov:62.1%25%2C Eval:1.1e-07%2C partial hit],MGA_735
sequence1	MetaGeneAnnotator	CDS	808530	809183	.	+	0	ID=MGA_736;product=N-glycosylase/DNA lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016533.1;translation=MKINVEKQKEIELIYSSILNKIENAIEGYANTINYEEKDYFAEIAFCILTPQSKAKNAWSAIEKLKENNLLYVGEEKDIVEYLNVVRFKNNKARYLVELRNLMTRNGKLDSKNILAEIEGVKEKRDWILNNVKGMGLKEAAHVLRNLGYGRYLAILDRHVLKNLKELGVIEEIPASLTKKKYFEIEKLMEEYSKQVNISMDALDLVFWYQQAGDVFK;locus_tag=LOCUS_07320;note=WP_011016533.1 N-glycosylase/DNA lyase (Fusobacterium nucleatum) [pid:49.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-56],MGA_736
sequence1	MetaGeneAnnotator	CDS	809342	809989	.	+	0	ID=MGA_737;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDRKNRRKEKPSQIPYALILVICLVGFGFYLKEPKLVAYWIFGVSFGIILQRSRFCFTAAFRDPVLTGGTSITRSVLWAISLATVGFTAYKYVNQENAKILMTNVNAVSILTVVGAILFGIGMVIAGGCASGTLMRCGEGFQMQWLSLVFFIFGSIVGSWAMNYLEPATAAMSIKLFLPDLFGWVGALVVQFIIILSIYVIALKWQLKKIGSYE;locus_tag=LOCUS_07330;note=WP_011391987.1 YeeE/YedE family protein (Moorella thermoacetica) [pid:43.2%25%2C q_cov:87.4%25%2C s_cov:47.0%25%2C Eval:1.8e-36%2C partial hit],MGA_737
sequence1	MetaGeneAnnotator	CDS	810016	810246	.	+	0	ID=MGA_738;product=sulfurtransferase TusA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003360814.1;translation=MAKEFTLDCLGEACPVPLIRTQGKMEELEIGDVLVVSIDHSCAMKNIPEWARKVGHNVEIEEIDDGEWELIIEKLV;locus_tag=LOCUS_07340;note=WP_003360814.1 sulfurtransferase TusA family protein (Clostridium) [pid:39.7%25%2C q_cov:89.5%25%2C s_cov:93.2%25%2C Eval:1.1e-12],MGA_738
sequence1	MetaGeneAnnotator	CDS	810255	810806	.	+	0	ID=MGA_739;product=YeeE/YedE thiosulfate transporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949119.1;translation=MQAYFKKIQKNPIYKRIMKDPLSYNTGATLLAVFAIAHFIFFNSTWGVTSTFAVWGAKIIKIFGLTPENWVYFQTHASQGKSILTPLLQDGGSIRNIGIILGATLATLFASEFRIKKIKNKKQVVAGILGGFLMGFGSRLALGCNIGALFSATAALSLSGWIFALFLLVGAIIGSKLLVKVFM;locus_tag=LOCUS_07350;note=WP_011949119.1 YeeE/YedE thiosulfate transporter family protein (Clostridium botulinum) [pid:41.1%25%2C q_cov:90.7%25%2C s_cov:96.0%25%2C Eval:1.2e-32],MGA_739
sequence1	MetaGeneAnnotator	CDS	810815	811999	.	+	0	ID=MGA_740;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015943065.1;translation=MEKKRERYDVLIIGGGSSGLTAGIYCGRAKLKTLVFEKTLVGGLATYTSDIANYPGFPDGIGGTELMNLFHKQAKNFDVKFKLTDVKSVKLDTEIKEVETFRVIYEAPVVIIAGGGYPRLTGALNEDLFLYDKGISFCATCDAAANTDKTVMVVGSGDSAIEEGIFLTKFAKKVIVSVVHDEGIMDCNEIAKAEALANPKMEFIWNSMVKEYKGNEKLETVILKNTKTGEEIPVDVDTCFLFIGYLPNTSLYKEILDLSTKGYIVTNEKMETNIEGVFAAGDIREKYLKQVSTAVGDGAIAGYNAEKFISETNTFNNQILNDGKETLVYLYDSSDIKMLDFLPKVEEHSKSINHELVKVDIYKSKFISNKLNIKEFPALVYLKDKKVVKIKYEL;locus_tag=LOCUS_07360;note=WP_015943065.1 FAD-dependent oxidoreductase (Desulfitobacterium hafniense) [pid:43.4%25%2C q_cov:97.0%25%2C s_cov:95.3%25%2C Eval:7.4e-82],MGA_740
sequence1	MetaGeneAnnotator	CDS	812079	812291	.	+	0	ID=MGA_741;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEECFGEICPIPFLKFEKIFKEINTGENFTIIVDHSCAKVKIENFCKNKNIRFKIFEPINGIWEITVWK;locus_tag=LOCUS_07370;note=MGA_741
sequence1	MetaGeneAnnotator	CDS	812325	813209	.	-	0	ID=MGA_742;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDINNIKAFTKLIEYGTISKTATKLFITQSALSKIINKLEIDLGTKLLNRTNKGVGLTKEGQIAYNYFKKLIDIDNEMRKEIKDFKDNVKKLKIVAVPSVANYSLPCVLYNLSDKFKNMKFPLSLKNSSSKIVSDIADGIVDIGFVSNCQNCEFWKIKYTKAYDENIILVASNKNKLSKIQLSDLSKFRYVEYIGDDTINEAIEEVIPNYSDLNIITQLESIEAIKKSISQSNFLAFLPYSSVKTEIYRKELKCIEIKDINIIKEIFIARRFENSKKHKEVIDYIEKFILDTIC;locus_tag=LOCUS_07380;note=WP_005810482.1 LysR family transcriptional regulator (Desulfitobacterium hafniense) [pid:25.5%25%2C q_cov:81.0%25%2C s_cov:73.1%25%2C Eval:4.1e-12%2C partial hit],MGA_742
sequence1	MetaGeneAnnotator	CDS	813218	814837	.	-	0	ID=MGA_743;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902507.1;translation=MITTSNLTVQFGGRKLFEDVNIKFTEGNCYGIIGANGAGKSTFLKVLTGEVDSTNGEIIIDKNKRISFLKQDHFAFEESMVLDVVIMGHEKLYKIMQERNEIYSKTEFTDEDGIKISELEGEFADLDGWEAETNAEKLLNGLGVSPDLHYKLMKELTEPEKVKVLLAQSLFGNPDILLLDEPTNGLDLKAVNWLENFIMDLETTTVLIVSHDRHFLNKVCTHIADIDYGKIKLFVGNYNFWYESSQLMQELLRNQNKKIEQKRKELQEFIVRFSANASKSKQATSRKKQLDKLQLEDMQVSNRKYPYIDFKPEREAGNNMLKVENLSKRVDGELVLDNISFTINTNDKVAILSRNDIAKTTLFQILAGELEADSGSFEWGMTTTQSYFPKDNSEYFENINLSLIDWLRQYSKDQHEEYVRGFLGRMLFSGDEARKEAKVLSGGEKVRCMLAKMMLSGANVLLLDNPTDHLDLESITSLNKGLTRFNGTILFTTHDHEFIQTVANKIIEITPKGLIYKEMSFDEYIEDEELQEHISNLYR;locus_tag=LOCUS_07390;note=WP_005902507.1 ATP-binding cassette domain-containing protein (Fusobacterium nucleatum) [pid:72.5%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.5e-240],MGA_743
sequence1	MetaGeneAnnotator	CDS	814988	815521	.	+	0	ID=MGA_744;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIPIKDGFKFLKGAIKYHPTTKVPLEYIIKDDAVCITIFDEDLKKVLLVEQYRPGVDKSTFENVAGIIDPGESPYFAISRELKEETGYNFEDIVDVISMKNPMLVDPYMTQYIHFYAGRLKSNEIIPGETDFDEAEDIKSHWIEIDQIENYLIDMKTLLSVKYFLPILKKMSVKNE;locus_tag=LOCUS_07400;note=WP_161601245.1 tellurite resistance ADP-ribose pyrophosphatase TrgB (Cereibacter sphaeroides) [pid:31.5%25%2C q_cov:67.8%25%2C s_cov:34.3%25%2C Eval:1.1e-08%2C partial hit],MGA_744
sequence1	MetaGeneAnnotator	CDS	815514	816968	.	+	0	ID=MGA_745;product=magnesium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002934126.1;translation=MNNNLDMEKLTQEEIELLKQEIKSRLDHEEEEEYFEEDIDTEEIAEDLQNLESEKEIEEFVEEHHSVDIADSFYEIDDDTELLRVFNLFSDDVKIELFEQSDEKLQVRILNLLELDKAIDILTYLPPDDVADILGTLELRKSKEILDNMKRSDANKIRLLLGYEDDTAGGIMTTQYIAFKKNLKIKDIMEKIKIIGPKTEYIETIFVLDEEARLFGEADLRDILISSDDTTLEEITNENIIYVDPYYDQEKVAQIVSRYGLKVVPVVNRKGNMLGIITIDDVIDVINEENTEDILKMHGAGDDETLETTLKDSVLKRLPWLSINLVTAFLASFTVGLFSKTIDAVVALAVSMPIVSGMGGNAGTQSLAVTIRSIALDESDSEETWKISIKYIFLGFINGIILGIICAIAIFFFYRNIYLSLVIFLAMIGNCVIACLVGYLIPVGLKLAKIDPAMASAVVLTTITDICGFFLFLGLATLFLDKLV;locus_tag=LOCUS_07410;gene=mgtE;note=WP_002934126.1 magnesium transporter (Streptococcus sanguinis) [pid:38.8%25%2C q_cov:90.7%25%2C s_cov:98.9%25%2C Eval:9.9e-87],MGA_745
sequence1	MetaGeneAnnotator	CDS	816976	817407	.	+	0	ID=MGA_746;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRFIVIFFLMSLIINVVKKIIQNYNDRFEKIVGINNELIITKKDFFTIKNIYVDLFKVNNILINSLSFNSTIEGARIKKFKIILSVQNKVIFINNKTNVLKIIKAIKLLDESLYYKVLDKTVFAFYPIRLTLEKEMEEINIG;locus_tag=LOCUS_07420;note=MGA_746
sequence1	MetaGeneAnnotator	CDS	817400	818071	.	+	0	ID=MGA_747;product=SprT family zinc-dependent metalloprotease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003016544.1;translation=MVEKILGYEVERKRVKNINLRIRDDLTIFISAPINIDKYYIEQFILSKKNWIDKNIEKMKEYRKNIQDETLENGTKIKFLGNYFEVNVIKNIYDSVMILNDKIILNTKNDDFNYKIKLIEQFYYKEAEKVFKERIAIYLSIMNENINRLIIKKIKGKWGYCKPNERIIALNTKLIKRSLFEIDYVIIHELSHLKHPNHSINFYRHIEKYMQNYKEAEKKLKYK;locus_tag=LOCUS_07430;note=WP_003016544.1 SprT family zinc-dependent metalloprotease (Francisella tularensis) [pid:33.3%25%2C q_cov:92.8%25%2C s_cov:95.0%25%2C Eval:1.2e-33],MGA_747
sequence1	MetaGeneAnnotator	CDS	818082	818912	.	+	0	ID=MGA_748;product=prohibitin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011461868.1;translation=MEKIYNRINIKSSILIISSIIIIAITSTSFYTVNTGEVAIISTFGKVNKIEGEGLNFKIPFIQSKDMLEIREKIYDFTKENGGDLSLNVSTKDIQTVNIELNVQASISDPEKLYKAFRGYHEARFIRPRVREIVQATISKYTVEEFVSKRTDISKLIFEKLKDDFDVYGLNVSNISIVNHDFSDEYERAIEQKKIAEQAVEKARSEQEKLSVEAENRVKLAEYNLKEKELQAKANQIESNSLSKQLLQKMAIEKWNGELPKVQNDSSAILINDVLK;locus_tag=LOCUS_07440;note=WP_011461868.1 prohibitin family protein (Desulfitobacterium) [pid:32.0%25%2C q_cov:87.3%25%2C s_cov:84.9%25%2C Eval:6.9e-27],MGA_748
sequence1	MetaGeneAnnotator	CDS	818925	819428	.	+	0	ID=MGA_749;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902631.1;translation=MKIKITTNKGEIVLNLFEESAPITVASFINLVNRGFYNGLKFHRVIEDFMAQGGDPTGTGMGGPGYMFGDEFYNGYTFDKPGYLAMANAGPNTNGSQFFITTVVTEWLNNKHTIFGEVSSENDLNIVKSLVTGDVMEKIEIIETNEDYLGKVVEIMAEFNRKIEKSI;locus_tag=LOCUS_07450;note=WP_005902631.1 peptidylprolyl isomerase (Fusobacterium nucleatum) [pid:57.5%25%2C q_cov:95.8%25%2C s_cov:93.4%25%2C Eval:5.7e-46],MGA_749
sequence1	MetaGeneAnnotator	CDS	819486	820169	.	-	0	ID=MGA_750;product=deoxynucleoside kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002656023.1;translation=MHKNYYKNYFKKLKIKECTMKGIICVDGVVGVGKSSLGKILAEKYDSVLYEEPVIDNPILDKYYYDRKRWSFPLQIFFLNKRFQAIKNASRIGKCVMDRSIYGDVIFSKMLVEDGDMTQEEFDLYEELLFNMLEHVEKPALMIYLETSVDSALAKIKKRGRDYEQIVPRYYWESLDRHYREYFKNYNISEIITINVDEIDFVNNEKDKEYILKLIDEKLSELENNIR;locus_tag=LOCUS_07460;note=WP_002656023.1 deoxynucleoside kinase (Borreliella burgdorferi) [pid:42.2%25%2C q_cov:83.7%25%2C s_cov:95.0%25%2C Eval:2.3e-40],MGA_750
sequence1	MetaGeneAnnotator	CDS	820240	821100	.	-	0	ID=MGA_751;product=tRNA 2-thiocytidine(32) synthetase TtcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003416734.1;translation=MSLGQTDCPLILPDVPLQPLEVIEKSIQKKYRELLWSPFIKALKDFDLVNENDKIAVAISGGKDSLLLAKLFQELKRASKTKFELVFIAMNPGFNQRNLDNLKLNLEHLNIPCHIYDDNIFDIAGKIAKDYPCYMCAKMRRGSLYSKATELGCNKLALGHHLDDVVETTLMSMFYMGKFETMLPKLKSDNFDIELIRPLFYIEEKNIIKFVKNNGIQAMNCGCTVAAEKTSSKRRETKEFIKQLSVLNPNIKKKILSSTFNVNIEKILGFKFKKDHFFYLDEYKFK;locus_tag=LOCUS_07470;note=WP_003416734.1 tRNA 2-thiocytidine(32) synthetase TtcA (Clostridioides difficile) [pid:54.3%25%2C q_cov:96.9%25%2C s_cov:97.2%25%2C Eval:3.4e-85],MGA_751
sequence1	MetaGeneAnnotator	CDS	821142	822326	.	-	0	ID=MGA_752;product=bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861611.1;translation=MKNIVIGVTSGIACYKALDVCSKLKKNNYNIKVIMTENASKLISPLLFQTLTGNKVYINMFDENETSVSHIEIAKNSDLVCVIPATYNIIGKLSNGIADDFLSTFLSVCDPRKVMIFPAMNTNMYLNPILQGNLEKLSMNNYNIVQPATGSLACGDFGLGKLPEVDIIVDKIMFNIEKTDIFKNKKILITAGGTVENIDTVRHITNKSSGKMGYALAKQATLQGADVTLISTKPDLKTPHGISKIIYIENADEMHEAVLNNIENIDYIFMVAAVSDFKIKNYSDTKIKKNKLKDLKLELELNVDILKKLSEIKPRKFKLIGFAAEDNNLKENAKAKLINKKLDYIVLNDISNKAIGFNSDNNKVFIFDKNGNEIEIKENTKDIVAKEILFNIVN;locus_tag=LOCUS_07480;gene=coaBC;EC_number=4.1.1.36%3B 6.3.2.5;note=WP_011861611.1 bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC (Clostridioides difficile) [pid:47.6%25%2C q_cov:98.5%25%2C s_cov:96.7%25%2C Eval:1.3e-94],MGA_752
sequence1	MetaGeneAnnotator	CDS	822713	823024	.	-	0	ID=MGA_753;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDYSRKNKVTLLLKGKNTYISDGEEVYIIDTGNPYMANAGMGDVLTGMIASLNSQGYNLKKSAIIATYLHGYIADKLREKQYIINPTDIIENISKYMKEIFD;locus_tag=LOCUS_07490;note=WP_009892822.1 bifunctional ADP-dependent NAD(P)H-hydrate dehydratase/NAD(P)H-hydrate epimerase (Clostridioides difficile) [pid:46.5%25%2C q_cov:98.1%25%2C s_cov:19.2%25%2C Eval:1.7e-21%2C partial hit],internal stop codon at [823082:823084](-),MGA_753
sequence1	MetaGeneAnnotator	CDS	823082	824167	.	-	0	ID=MGA_754;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIGDALITQRIDEYIETKCEVSKDLLMENVVYKLYETLDKSYETYLIIAGFGNNGGDGYALARMLHANNKEVIVFKIKSDYYSKECERNIKRCELLGIRIIENIDKLDFYLQKTEIVVDAIFGTGLDKELPKYIKEVIYKVNKYKILSQFKVYSIDIPSGLDVKSGNTHGACIEADKTLSIMTYKQGFLNYNSKINTGEIEVITNIIIPNNELKKFSNIYLVEKSDIKNMEIKRKEEDNKTTYGKTYIVAGSKNYYGAAELATKSCVKCGSGYTYLLSDYSEIENIVKNIPEAIYEKEIDNLNKSTTIAIGPGMIFNEFIYNIIEGYKDDKDIIIDAGALNNNINFNNAEKTLLTPHTG;locus_tag=LOCUS_07500;note=WP_012048317.1 bifunctional ADP-dependent NAD(P)H-hydrate dehydratase/NAD(P)H-hydrate epimerase (Clostridium botulinum) [pid:35.7%25%2C q_cov:97.2%25%2C s_cov:73.4%25%2C Eval:7.5e-46%2C partial hit],internal stop codon at [823082:823084](-),MGA_754
sequence1	MetaGeneAnnotator	CDS	824164	825057	.	-	0	ID=MGA_755;product=UTP--glucose-1-phosphate uridylyltransferase GalU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005899251.1;translation=MKIRKAIIPAAGLGTRVLPATKAQPKEMLSIVDKPALQYLVEELIESGIQEILIITGRNKQAIENHFDYSYELEAILKEKGKEELFNEVQNISKMINMYYVRQKLPLGLGHAISCAESFVADEPFLILLGDDIIYTDKEKGEIPVSKQLIDAYEKNGCGSFIGVQKVPRRDLNKYGIIKQSKKIDDKIYEIEDFVEKPNIEDAPSEFAALGRYILEPQIFKYLKEEKTIDYEIQLTPAILKMAKDNVSKLYSYEFDGLRYDTGDKFGMFKANVEFGLRHPELKEKIKEYLKELKVEL;locus_tag=LOCUS_07510;gene=galU;EC_number=2.7.7.9;note=WP_005899251.1 UTP--glucose-1-phosphate uridylyltransferase GalU (Fusobacterium nucleatum) [pid:59.1%25%2C q_cov:93.6%25%2C s_cov:92.9%25%2C Eval:7.4e-86],MGA_755
sequence1	MetaGeneAnnotator	CDS	825059	825916	.	-	0	ID=MGA_756;product=tRNA pseudouridine(55) synthase TruB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016546.1;translation=MNDFILILNKPKDITSFSYIQKVRKEMNIKKIGHAGTLDPMAEGLMIVMANDATKFSDYLMKHSKTYYVEMELGYETNTLDLEGEVTNKINHEINICLDDVKDIVKKYICKFKQIPPMFSAIKKNGVKLYDLARKGIELELEGREVEITNIYDIAFSDNIISFRADVSSGTYIRALVRDIGRDLNTYGTMTKLIREKINNFSLNDVNKKISIEDIFDYKKLEVDNNLYKQLYNGMTKIIELKNISDNDKYLKIYFNNVFVGIVEINKKMGYTYYIKRSKYFKELK;locus_tag=LOCUS_07520;gene=truB;EC_number=5.4.99.25;note=WP_011016546.1 tRNA pseudouridine(55) synthase TruB (Fusobacterium nucleatum) [pid:40.8%25%2C q_cov:94.7%25%2C s_cov:99.0%25%2C Eval:4.2e-51],MGA_756
sequence1	MetaGeneAnnotator	CDS	825953	827479	.	-	0	ID=MGA_757;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSNNDLKKLFGIKNRITVTFSFVFIFITIFSTVILFFILNRQHNNILISQYTTKVNEINSYFSRIEDYTNKYNEKKLKLKFEPVIKDQTIVYPKPFNPGEEDFKYIVHIIAKNNLDVIALNTFDFTINNNNLPKTFSNINSNILIPKMIVLSNDTTSSTFSIVKLTRNIKGAIFEVYILKNIDQHIKTINTLKLLFLFSSLLGLILIFLTSREISERILKPIINIISTSKEISRGDLSRRIPYPSAKDELFDLTNIINEMLDKISLTFDKQSRFISDVSHELRTPISVIKGYAELINRRYIKSFTDEEKGTPKNELLIESTESIVKESENMTKLITSLLFLSRGDEKNIKMLNKVIINSTKILNQIETDYRLVSQNKKVVIEKSDTFQFVSDENLLLQSLRIIIENGLKYSPENSNVYISSIYDKKNNSGMFVVRDEGCGIKEDEVEKIFDRFYRVDESRNKETGGYGLGLSIFKRILEIQNHLFKIESKVNVGTKITIIINEVSNT;locus_tag=LOCUS_07530;note=WP_000166801.1 sensor histidine kinase ArlS (Staphylococcus) [pid:31.6%25%2C q_cov:65.9%25%2C s_cov:71.0%25%2C Eval:1.4e-38%2C partial hit],MGA_757
sequence1	MetaGeneAnnotator	CDS	827466	828140	.	-	0	ID=MGA_758;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003638551.1;translation=MKEKILIIEDDVKIARIIEVELKFEGFDIQIENDGKEGLLAAKYNHFDLILLDVMLPKMNGFEVCKRIREDSDVPIIFLTAKDQITDKVISFDYGADDYITKPFSNEELIARVKALLRRSTLKNKKKEDFIFEDLRISYTAHEVYRGGELIQLSKKEFELLDYLVLNKGIVLGRDSILEEVWGFDQIGNNNILDLYIKYLRDKIDKPYLRKFIQTKRGIGFVFK;locus_tag=LOCUS_07540;note=WP_003638551.1 response regulator transcription factor (Terrabacteria group) [pid:49.8%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:1.8e-58],MGA_758
sequence1	MetaGeneAnnotator	CDS	828158	829477	.	-	0	ID=MGA_759;product=U32 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627649.1;translation=MIKKAELLAPAGNMEKLKAAFHFGADAVYIGGRGFNLRGMSANFTDKQLTEAVEYAHSLGKKVYVTLNIFAHNQEVNYIPKFIKFLEKANVDAVIVGDLGIIQQVREHAPNLEIHVSTQANATNWMTVKAYRDMGATRVILAREMSLHEIKQIKEKVPDIELEVFIHGAMCMAVSGRCLLSNYFTSRDANRGICAQDCRWNYKVIAEGHEETGAHDIIEDEGGTFIFNAKDLCTIEFIDKILEAGVDSLKIEGRMKSIYYNSTVTKQYREAIDLYYSGNYKYDPKWLYELQTISHRLYSSGFFFGSTNEFDQNYNTSSSYSQTYQLVANVLEKIDTNKYKLQIRNRIIASEVELELIRPNRDPVKFRLDKFFNVKTEEYEQIVHPNTIAIIETDVEMGELDLIRVKLPEGVSDSDMDISHTEQSNEGFVSKQCSCGKNK;locus_tag=LOCUS_07550;note=WP_201627649.1 U32 family peptidase (Fusobacterium canifelinum) [pid:55.6%25%2C q_cov:92.5%25%2C s_cov:100.0%25%2C Eval:1.3e-125],MGA_759
sequence1	MetaGeneAnnotator	CDS	829487	830878	.	-	0	ID=MGA_760;product=replicative DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001286244.1;translation=MEKLENTLHNVHFEQSILGSILIDPNLLSEITPLLSPNDFYSITNKLVYEAMLKYVDEKDNLDLDVYVLSEILKTQNRLEKIGGLDYLLNLVESAYSSANSLIYLDIILEYSKKRKLSDLARNIHEQLYNNEDSKNILENSQLEISKLYNDAANNGVIRIDTLAYKEFDRIKALKENPLLETTIKTKYKRYDEITKGLHPSNLIILAARPSVGKTTLSLNIGLNVAESGKKVLIFSLEMGEDELLKKLISIVGNIELEKIKDLSFINNTEIMQNYSQALDKLSKMKILIDAGATPTISNIKNTCRNVQREGEDIGLIIIDYLQLIQGNSRAGSREQEISEISRGLKLLAKELNVPILALSQLSRKVDSREDKRPILSDLRESGSIEQDADQVLFIFNPEYHQARKNNIADVQKNVFPIELLLAKHRNGQTGSMVLLFEKAKQKFLNPTPEFEHEYYTKQTEEE;locus_tag=LOCUS_07560;gene=dnaB;EC_number=3.6.4.12;note=WP_001286244.1 replicative DNA helicase (Bacillus) [pid:39.4%25%2C q_cov:95.9%25%2C s_cov:96.0%25%2C Eval:6.1e-78],MGA_760
sequence1	MetaGeneAnnotator	CDS	830887	831339	.	-	0	ID=MGA_761;product=50S ribosomal protein L9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903027.1;translation=MKVKVILKENIKGVGKKDEIIEVKDGYANNFLFAQNKAVPATPENINKLENKKNKISKNIEREVKHANEIKEILEKNTITLKVKLGKDGKVFGSLGAKEIEEAVKQQLQVEIDKKKMGNDARLKSIGLHNVEIKLYADIKAILKVNVTSL;locus_tag=LOCUS_07570;gene=rplI;note=WP_005903027.1 50S ribosomal protein L9 (Fusobacterium nucleatum) [pid:43.2%25%2C q_cov:97.3%25%2C s_cov:96.6%25%2C Eval:1.1e-28],MGA_761
sequence1	MetaGeneAnnotator	CDS	831351	832718	.	-	0	ID=MGA_762;product=DNA polymerase III subunit gamma/tau;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903025.1;translation=MENITLYRKYRPQNFSELYGQEHIVRAIKNSLDNDKLSHAYLFNGPRGVGKTTIARLIAKGANCNSGITSNPCDDCENCKEITKGISVDIIEIDAASNRGIDEIRDLKESTGYLPVKCRKKVYIIDEVHMLTKEAFNALLKILEEPPKHIIFILATTEIEKIPDTVISRCQRYDFKTISETDIINMLKKVAKNENINIDTESLELIYSKSEGSARDSFSIFEQVTSNYYNEDEITIDKTEKALGVVSKIFYNNFTNLIIENKKDELISFIDKLWIEGIQIDQFLRDFCKYIKHQDIDLDLKTHIISNVLEILVKYKNEEDKRLLAYIIINKILKMSTSVNVNTVNMTNTEIEFSLEKWQIFIKHLYDLGRQRYYNLIKDTKISVQNNNITIINDRSNYYFRYLNSENTIDFLEKELEKKFGFKYNILIEGTSEEKEEFDEEIKNKIISIFNAIEK;locus_tag=LOCUS_07580;gene=dnaX;EC_number=2.7.7.7;note=WP_005903025.1 DNA polymerase III subunit gamma/tau (Fusobacterium nucleatum) [pid:42.3%25%2C q_cov:98.7%25%2C s_cov:92.4%25%2C Eval:2.1e-91],MGA_762
sequence1	MetaGeneAnnotator	CDS	832736	833452	.	-	0	ID=MGA_763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDLNIEYNKLHDFARLFNIEYEVYKNVVDAYNKDLKSAILEYIGFEDTDGEIENYETFFYYLAAELTNGYFHNYKSKNYTKGMKRLVKNYLDKLTNIDFDDFEKKEDEYEDVLINILISEINYNLRKERKAIVGFSIGLENIFYLLLDYDKIKEMKEIESELLTIIDLEYIEKQLGVIYRLKDSIPALEEYIQKGDYIMEPEENKGSYITLFDRAVRKNVAINYLTDDQKKLLKVVL;locus_tag=LOCUS_07590;note=MGA_763
sequence1	MetaGeneAnnotator	CDS	833452	834279	.	-	0	ID=MGA_764;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIAYVGNKNNFEIYKILHTRIKEVKNLNSELYHVEDKLENLDDYLKEYDAAFFEDNLKNKYDFIFKKDDLVEKIFLKKIAFKELLKYSNFKIENSNVLILETNEYFNAIYEALKENQINKIHLASIKSNNTIKLEKGEYFKNFLDIERLNNIDLIINLTDIGSMFNIDESPLKRDTNITAKFVLDLVKIPLETTLLKQFKQKGSTLINGIDLTIIEIIMLLLLLFDRKDIYYFEFIKQLHVYIYKKINPRTKDNIDEITTSKEFLKLLKGHIK;locus_tag=LOCUS_07600;note=MGA_764
sequence1	MetaGeneAnnotator	CDS	834276	834968	.	-	0	ID=MGA_765;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001217125.1;translation=MRLDKFLANSGIGTRKEVKEIIKNRKIFVNDKIVMSSDLKIDETKDIIKYENNVINYTKFRYIMLNKPKGYISATNDNKQKTVLDLITDFKTYKLFPVGRLDIDTEGLLLLTNDGDLAHNLLSPKKHVEKKYYVELSQDISSDDISNIEKGIDIGEGIITRLSKIIKVDDNKLYIIITEGKFHQVKRMFKAVNNEVKYLKRISMGSLILDEKLNLGEYRELTYEELRSLL;locus_tag=LOCUS_07610;note=WP_001217125.1 pseudouridine synthase (Staphylococcus) [pid:48.0%25%2C q_cov:99.6%25%2C s_cov:98.7%25%2C Eval:8.0e-57],MGA_765
sequence1	MetaGeneAnnotator	CDS	835010	835237	.	-	0	ID=MGA_766;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILIKLMKRELNYQQKIVNLEEKKDIVKKYIVENQSFENLPDIYDKSSNKEFQALIEYLIEKCKSSKPGYFEMKN;locus_tag=LOCUS_07620;note=MGA_766
sequence1	MetaGeneAnnotator	CDS	835125	835385	.	-	0	ID=MGA_767;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRFWLMLLMVIGITTFSNYNDGKYEASYKKNDYTLTIRVIIKNSRILSVDFDKIDEKGVKLSTKNSEFRRKKRYSKEIYSRKSKF;locus_tag=LOCUS_07630;note=MGA_767
sequence1	MetaGeneAnnotator	CDS	836202	836528	.	-	0	ID=MGA_768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIITEEMKFRHRLCEYAIKNGVTKAARRYHTNRQFVYRQLKKYNGNIKSLALGSRKPHTSPNAHTEEELILIKNRLYLGGNNEKNNYNWNVRVYRLSHYSFLFFLWL;locus_tag=LOCUS_07640;note=MGA_768
sequence1	MetaGeneAnnotator	CDS	836640	839846	.	-	0	ID=MGA_769;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003721622.1;translation=MKTNNKDIIREFFKSKTRFLAIFIINLLGISTFIGLNVLSKDMYRTIDDLYKISNVADVTVSSNIALNQGDLRILNNLEYISDIEYGYNEEIYINNTKEILNLKSLPERISKLKLIEGNFPNSVNEIIIEYQLKDKYSLNQKINEKFKIVGYYENVENRLLNSKIQTFKGYNVSSVNGYTLNKYFENKEYTFANIKLKTNFNTYEKEYNDYIFEKKIDIKNKLNKNSKIKLDEFLSEKYDEINKGKNKIENSKNEIMKNENKIIDAKNKILSAEKNLISKINEFQNANDKFYSSEVEINNQKVKLLEKQYNLKENLSKLEEGLKELEINKNKINNGLNEIEKGFNDIDENQKKIDVSKEEILKNEKYINPLKPSIFVSKKKIEDGKSKIEKAIKEIELGENRLKDELKNLENKKIELINNLSFVENKKNELEENKKKINDGLEQIKLGLDKLEEGNKKLIEEKNKFNEEYEENLSKIIKAKEEIKSRKKEIEKAAKKFEEEKNKANEIIENSLNDLEINRRKLDLLNSIYFINTRIDNPNYSSFIESIESLNIISKLFPVIFYLIVILVSTTTMTRMVDEQRNSIGTYMFLGYSKNEISKKYYIYALLSTILGISLGIYFGIYSMPKFIYTAFKAGSISMYNDLVILFDIKIVLISVVASISSSILSVYLSLRSDFNIEISELLKPKMPKQGSSIFLEKIKIFWNNLSFSNKISLRNIFRYKGKMIMNILGITGCTSLIFLGFAIKNSFSEISELQYNKIRNFHAEVNLKNYLNKNEISNIINLVNKDFNLISLESINAKFSTENRENNIKIYVLDDINVNEFFYLSNKIDDEGILISKRALTLMNKNIGDEILISDFIGNEYNLRVSNTIDNYQGNYIFLTRKFYEKNLQKEYKVNTLIVKENGKSLDYLLDFDEIQSISLNREYKEIFDKISDSLNFIVIFITLLSALLSIVVTYSLLEINVNERQRELATIKVIGFFSKEVSLYIYKEIFILTIVGIILGLFSGKWIHKIVLISMEKTNTVFVENIGYTPYIFSITLTLIFSFISFLLIHRKLKEINMIEALKME;locus_tag=LOCUS_07650;note=WP_003721622.1 ABC transporter permease (Listeria monocytogenes) [pid:26.1%25%2C q_cov:99.3%25%2C s_cov:99.1%25%2C Eval:1.3e-116],MGA_769
sequence1	MetaGeneAnnotator	CDS	839850	840371	.	-	0	ID=MGA_770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIITLLFVLTSLNSFSYTRLSSDEYLSGVFTSKATKEIMKGSFDYNKDLAVVSDRLKTLDNVKTDALLGLKGSIYDYSVTKLKVLFEETKLTGRNFDQATIKMMAEEISKEIINKEKYEIGKTVELKNSNQYLMLVKISKKDVEKITVEHFRKRLFNVIQRLNDYYHELGK;locus_tag=LOCUS_07660;note=MGA_770
sequence1	MetaGeneAnnotator	CDS	840385	841461	.	-	0	ID=MGA_771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINNQKIYMFLKNSDNVGKLEVICGSMFSGKSEELIRRLRRESFTKQNVLIFKHSIDKRYGENGIFSHNQESIEAFPVSNVLEMENIISKHPDVEVIGIDEVQFFGKEVIEFCNKYVNIGKRVVVAGLDLDFKAEPFYPMPELLTYADSITKLKAICMVCGKEAYASQRLINGNPAFKDDPIVMVGASENYEARCRRHHIVRDRNDKRAKIYFLFGTDINAGKEEVEKFISNKNPNAKTKTISIFKNEESVIDLRNSIEKSSHECDILFIRIIKSPLIPIEGDYSIIDLMSEYRKLSSVILISRNRRGMINEVLISHETIRKADLNLEDIYFTPSENPENPINIDNIEKIIKTKAIII;locus_tag=LOCUS_07670;note=WP_001829979.1 thymidine kinase (Staphylococcus) [pid:51.5%25%2C q_cov:54.2%25%2C s_cov:96.5%25%2C Eval:1.0e-50%2C partial hit],MGA_771
sequence1	MetaGeneAnnotator	CDS	841575	842096	.	+	0	ID=MGA_772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFSIFLSLLSFFLFAQNEVDARLNTILDELITISEQNIEISHEDEIVLRDKIIEFAKTNLNRPYSWGAIGPNKFDCSGFVNYVFSKNSSINLPRVSKDMAKYSPKINIDDLKIGDLLFFNTSNKGKNINHVGIYIGNNEFIHASSAQKKVTISTIAEGFYKKKFKWAISPF;locus_tag=LOCUS_07680;note=WP_009903185.1 C40 family peptidase (Clostridioides difficile) [pid:54.2%25%2C q_cov:66.5%25%2C s_cov:29.5%25%2C Eval:9.7e-31%2C partial hit],MGA_772
sequence1	MetaGeneAnnotator	CDS	842155	844197	.	+	0	ID=MGA_773;product=glutamine synthetase III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965946.1;translation=MENIMKIFGENAFTESNLKKRVPKKVFEEFKRVQKGEIELTKENAELIANAIKDWATKRNATHFCHWFQPLTELTAEKHDSFIEPNGDKDFIYRFSGSNLIKGESDASSFPNGGLRSTFEARGYTVWDTNSPPFIRENEVGATLYIPTSFISYNGEALDKKLPLLRSMYAINKSATRLLNLLGYTEVKSVIPTLGVEQEYFLIKKEHFDKRKDIMFTGHTLFGAKTPKNQESSFHYYGKIKDKVINFMANLDYELWKIGVSAKTRHNEVAPNQFEIASIFDVANLAADQNHIVMETLEKLALKHGFVALLHEKPFSYVNGSGKHNNWSMATDTGMNLFDPKSPTFIVFLSAVIEAVDRYYPILRSMISSCSNDYRLGGHEAPPSIISIFLGSHLTEKFKNAKLKLINNKIVSCEKDEKIKKKINMININQDFDDRNRTSPFAFTGNKFEFRMPGSTSSPANTSMVINAIVSTVLNEYADKLESSENIEITINDIISNTFNNHNRIIFNGDGYSKKWHEEAEKRGLKNISNTYDALKYYLDDEIISMFEGNNILNKIECQSRYLAFLNIYVNNRLTECNTLVYMIDKYILNFAYKYIPVIIFEEEQIELKTYTNYLLHYKKELVQLIKQINEIELEDKAKLLSSDALILENKIRKVIDYLEVNIPSEYWNLPTYTELLFTL;locus_tag=LOCUS_07690;note=WP_010965946.1 glutamine synthetase III (Clostridium) [pid:45.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-169],MGA_773
sequence1	MetaGeneAnnotator	CDS	844219	844851	.	-	0	ID=MGA_774;product=trimeric intracellular cation channel family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012775326.1;translation=MDFKTFIYLANLLGIISFALSGIFKGIKHDHDLFGVTLLAIITSVGGGVMRDILLNKIPTAIINPQDIYVAIIVTLFIYTPYLLFKPKFNDNVVKKARKLVLISDAVGLSLFVSVGANIAIQNNLNTMGVIIMATITSVGGGILRDILANETPFILKEDIYAILCVIGGFLYNIMIIDLKFNEIKTTIIIFSTLLIIRLIVIKKNLNLPK;locus_tag=LOCUS_07700;note=WP_012775326.1 trimeric intracellular cation channel family protein (Streptococcus suis) [pid:41.7%25%2C q_cov:99.5%25%2C s_cov:96.3%25%2C Eval:1.1e-43],MGA_774
sequence1	MetaGeneAnnotator	CDS	844853	845488	.	-	0	ID=MGA_775;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKGEEMIKKVIFFDVETNGVNPTDSVLSISAMKVTYDTITNKMVKLGEFDRFYFRNEGEEPNFDALNVNGLFDDEIERRRNLSLIKYAKTFNEDIVNFFEFCDNAEHFVAHNIRFDRQFIPFKLKYQFDTMLENIDIVKIPSNSYYSSFKWPKLMECANYYNIPVDENELHNSMYDVVIMGRVMFKMLKDNEGLKRVRRFLVDDISTNLK;locus_tag=LOCUS_07710;note=MGA_775
sequence1	MetaGeneAnnotator	CDS	845481	847280	.	-	0	ID=MGA_776;product=translation elongation factor 4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897958.1;translation=MSDIKLKRNFSIIAHIDHGKSTIADRLLEITGTVSQREMKEQLLDSMDLEREKGITIKAQAVTLNYKAKDGKEYELNLIDTPGHVDFIYEVSRSLAACDGALLVVDAAQGIEAQTLANVYLALENDLEILPVINKIDLPSADPDRVMLEIEDVIGLPTDNSILVSGKTGFGIDNLLEGIVKYIPEPKGSIEKPLKALIFDSHYDDFRGVITYIRVLDGSIKKGEKIKIMSTGREFEVLEVGVFSPKMKERDILYAGSVGYIITGIKSIKDTQIGDTITTVKNPTEFALEGYRPAQSMVFAGVYPISTDDYEDLREALEKLQLNDASLTYQPETSLALGFGFRCGFLGLLHMEIIVERLRREFGIDLISTAPSVEYHVTVEGTNNMLIIDNPAEFPEGRKHIEEPYIKGTIIVPKDYVGNVMELCQEKRGTFVNMSFLDENRSMIVYDLPLAEIVIDFYDKLKSRTKGYASFEYEMIGFRESNLVKIDILVSGQAVDAFSFIAHSDNAYYRGRSIVEKLKEVIPRQQFEIPLQAALGTKVIARETVKALRKNVLAKCYGGDITRKKKLLEKQKEGKKRMKAIGNVEIPQEAFLSVLKLND;locus_tag=LOCUS_07720;gene=lepA;EC_number=3.6.5.n1;note=WP_005897958.1 translation elongation factor 4 (Fusobacterium nucleatum) [pid:75.3%25%2C q_cov:99.3%25%2C s_cov:99.5%25%2C Eval:3.2e-263],MGA_776
sequence1	MetaGeneAnnotator	CDS	847465	847863	.	+	0	ID=MGA_777;product=large-conductance mechanosensitive channel protein MscL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000054763.1;translation=MLKEFKEFIARGNILDLAIGVIIGGAFGKIVASLVNDIIMPIIGVILGNVNFKTLQFVLKPAEGDTPALAINYGMFIQNVVDFLIIAIVIFTILKTLMKFKKEKPVEKPAPAEPVLTKDQELLIEIRDLLKK;locus_tag=LOCUS_07730;gene=mscL;note=WP_000054763.1 large-conductance mechanosensitive channel protein MscL (Vibrio) [pid:61.4%25%2C q_cov:99.2%25%2C s_cov:94.9%25%2C Eval:1.6e-35],MGA_777
sequence1	MetaGeneAnnotator	CDS	847927	848604	.	-	0	ID=MGA_778;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903844.1;translation=MKKIVKLLFVACFSLFVVSCSSAGEKFLTSFLGEKLFNLTEEEKFANKMRTYKLEAIIKTTKGNINVYLYPEAAPKLVANFVFLATNDYYDNLKFHRVSVNNIIQSGDRAGNGTGNPGYLLDDEFSFLRFDRAGMLAMANAGKNTNGSQIFITLQKAEDYNDEYSIIGNLRDRNDLSIARLIRQDDSILDIEILGYDVNDFLKNFEEEIKEWTQKLKDTGYEIKE;locus_tag=LOCUS_07740;note=WP_005903844.1 peptidylprolyl isomerase (Fusobacterium nucleatum) [pid:39.3%25%2C q_cov:96.0%25%2C s_cov:75.2%25%2C Eval:3.0e-32],MGA_778
sequence1	MetaGeneAnnotator	CDS	848609	848968	.	-	0	ID=MGA_779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIVKIKKPQRPNILFGIVLNNLESNLYNAIANKRLANEILKESLNINNRRLIQIVEVVSSNDEVLDLLVIYDLLVSENEEMKLLSSLKVEEFNFNIFNFNRKEKVDIENMVEGFNIYR;locus_tag=LOCUS_07750;note=MGA_779
sequence1	MetaGeneAnnotator	CDS	849029	849610	.	-	0	ID=MGA_780;product=Maf family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001226290.1;translation=MKIYLASSSPRRKEILSMIINNFEIHVPKFDENEFNKKTNIKDPIELTLKLAEEKAVTAFNELKGIKDKLIISADTIVYFNKKIYGKGTNKEKSLKMLYELNNNVHEVITGVCIIYDDDIIKFTCKTKVYFANNSKETIEYYINNFSPFDKAGAYGIQDAGSILIEKIEGSYHNVMGLPIREVFNELRKIYEI;locus_tag=LOCUS_07760;note=WP_001226290.1 Maf family protein (Bacillus cereus) [pid:38.8%25%2C q_cov:97.4%25%2C s_cov:94.8%25%2C Eval:4.6e-30],MGA_780
sequence1	MetaGeneAnnotator	CDS	849661	850479	.	-	0	ID=MGA_781;product=purine-nucleoside phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_018306772.1;translation=MFYNKVKESADYISSMVDTKVDIAVILGSGLGKLVDIMEDKKYISYKDIPNFPQISVVGHAGNLVFGKIGNTRVMALQGRFHYYEGYTMKETAYPVYVMKLLGIDKMIVTNACGGINPEFKPGDLMIIEDFINGVGNNPLRGSNDERFGQRFPDMSEPYSLELRERAKKVADRLGIETKKGVYTFFQGPYYESASEIRMYGRLGSDAIGMSTVPETIVANYVGIKTLGISCITNMATGLREGNHSHEEVVEIAEEASKKLCMWMEEFIKELV;locus_tag=LOCUS_07770;EC_number=2.4.2.1;note=WP_018306772.1 purine-nucleoside phosphorylase (Desulfitobacterium) [pid:50.4%25%2C q_cov:99.3%25%2C s_cov:97.5%25%2C Eval:2.1e-76],MGA_781
sequence1	MetaGeneAnnotator	CDS	850559	852046	.	-	0	ID=MGA_782;product=murein biosynthesis integral membrane protein MurJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016596.1;translation=MFKSSLIVMLINMLSRILGLIREIVIAAFFGATGHTDAYFASSRIANFFTTLLGEGSLGTAFIPIYNEIKEENNLERANSFVFNLTNLIVSFSFTISLFTALFSDFTLKYILKFKDAEMIATASILLKIMSFYLVFISVSGLISSLLNNYGKFYISTLVGVVFNLTIIIGALLTKNSLGIYGLGISFLLSGLFQVLIQLPSFLKILKTYKFTFDYKDKYVKKFFLLMIPTLVGIFGYQINELVDTAFAGSLKLGTISAINYASRLYLLPIGVFAISLSVVIFPDLSKSVLKKNNELFKTTIERGMNLLAILIIPSSLGLIYYSREIITLLFNRGKFTLESVELTSEILEIYAIGLIFFSTIHLLTRAHYANKDRKLPVISSLIAITINIFLDFLLYKKFTHRGLTFATTFSALVNYLILLISLKARYSNVSLLKYFKFIIISLLNSIICIFVIEKIINISNKNLEIIIKLFMFIILYFAILSLKYIKDKKEILDR;locus_tag=LOCUS_07780;gene=murJ;note=WP_011016596.1 murein biosynthesis integral membrane protein MurJ (Fusobacterium nucleatum) [pid:38.6%25%2C q_cov:96.4%25%2C s_cov:96.1%25%2C Eval:4.3e-93],MGA_782
sequence1	MetaGeneAnnotator	CDS	852039	852743	.	-	0	ID=MGA_783;product=segregation/condensation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723598.1;translation=MINIDLLVKTEDFEGPLDLFLHLIDNKKIDISKIYISEIIDEYLSIITKETEQNLKIKIEFLAMATELLEIKAYSILNEDKKIEKEQDLEKRILEYKVIKEIAEEFSKREIEYNIPYIVKGNKTKEQDNIYYSLEDLTLNNIFEIFNTLINKVEIKENMKINVVDTFTTTDALFEIEKEFVKNNELTFSSLMKGNFSKGRIVCFFLAILDLFKEGSIDITLSDNDFIIRKEAYV;locus_tag=LOCUS_07790;note=WP_003723598.1 segregation/condensation protein A (Listeria) [pid:26.8%25%2C q_cov:94.4%25%2C s_cov:94.0%25%2C Eval:2.2e-17],MGA_783
sequence1	MetaGeneAnnotator	CDS	852730	853749	.	-	0	ID=MGA_784;product=bifunctional riboflavin kinase/FAD synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438310.1;translation=MEVILKNINYADEFAKFSKSKILSDMVFKEKNIVVLGNFDGVHLGHHKIINEALELGKKLNQKVLIYTFREYPKKKDTLITTLSEKLYIFEKMNLDYIYLEEFFDVNELSPEDFVNNILIDKLNASEIFCGFNYSFGNRKKGDVIKLNELLKGKIKVNVINPVLFNLKTDELKIVDIKELKDYLDKDYCLISSTFIKTLIENGKMSYVKKLLGHEYIIMGKVVHGKKLARTLGFPTANLLSRNKIYPLFAVYGVRTHIEGYDRAYYGIMNIGKNPTIDNEGLHIETHIFDFDEDIYDKVIVVDLLENIRLERKMCSLEELKKQILMDKKIWKEKIYDKY;locus_tag=LOCUS_07800;EC_number=2.7.1.26%3B 2.7.7.2;note=WP_003438310.1 bifunctional riboflavin kinase/FAD synthetase (Clostridioides difficile) [pid:33.9%25%2C q_cov:94.1%25%2C s_cov:97.1%25%2C Eval:2.1e-47],MGA_784
sequence1	MetaGeneAnnotator	CDS	853764	856088	.	-	0	ID=MGA_785;product=endopeptidase La;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015983.1;translation=MNKLEILPFIPIREIVFFPQAVIPIIVGRDFSKKAIDYSVEHTEGRLVLAIQKDSLSENIDGIEDVETVGVIGKIIQIMKTSDGNLRLIIEGEERIKVTEVINENGMFKAKYENYPIEKTNKTNDDKYRMYLQTLIQDLNIINNKLIPEDLIKSIFEIKSFETLMYTLASTLDLSEENRVEILKSNNIDEIFENLTKALKIRIELEEIDRNVENKVKKNIEDNQRQYYIREKIKGLYSELDEEDSEDEINELLFNIESRELPYELADKLIKEVNRYKKMNNFSAEAGVIRTYIDTMLEIPWEKSKTEDIDIKIAEEILDKEHFGLKLVKDTVLEYLAVNQLNKENNKKMGTILCLIGPPGVGKTSLGESIAHAMNRKFERISLGGVHDESEIRGHRRTYIGAMPGRIIEALKRAKVNNPVILLDEIDKLDSNFKGDPASALLEVLDPAQNKTFKDNYVDFEYDLSDAFFICTANDYSGIPRPLLDRMEVINVDSYTIQEKLVIARNYLVKQAKNETSIKDIKFSDSVLLEIINKYTMEAGVRNLKREIVKILRKIAKLKLEDSSKKYSINLKNLSDYLGPEKYKKDKMAEKNAKLGVVKGLAWTSVGGTTLDVEAVKMDGKGKIQFTGKLGLIMKESASVAYTYARANYKNLSVINPKFYEEYDIHLHFPEGATPKDGPSAGITITTAIVSILSERKVRQNIAMTGEITITGEVLPVGGIKEKVLGAHRIGIREVILPFENKSDTVELPEEILSQIKIHYVKKYSEVEKIVFSE;locus_tag=LOCUS_07810;gene=lon;EC_number=3.4.21.53;note=WP_011015983.1 endopeptidase La (Fusobacterium nucleatum) [pid:47.1%25%2C q_cov:98.8%25%2C s_cov:99.2%25%2C Eval:8.3e-206],MGA_785
sequence1	MetaGeneAnnotator	CDS	856088	857320	.	-	0	ID=MGA_786;product=ATP-dependent Clp protease ATP-binding subunit ClpX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015984.1;translation=MKNKKEYFCSFCDRSENEVNTLFSNEDSTAFICNECIEDRDIELGYETTSNFDDFNLLKPKQIKEKLDEYIIGQEQAKKVLSVAVYNHFKRLSILDKVDNDIEMQKSNILLIGPTGSGKTLLAQTLAKILDVPLAIADATTITEAGYVGDDVENVLLKLIKAADYDIQLAQRGIIYIDEIDKIARKSENTSITRDVSGEGVQQALLKIVEGTISSVPPQGGRKHPNQEMIEIDTTNILFIVGGAFEGLESKIKRRLNKKQIGFGLNLDKNEDLDDMTIFEHVLPEDIRKFGIIPELIGRLPVITALSELNKEALVSILTKPKNAIIKQYKKYFEIEGVELIFEEDAVEEIAELALKRKIGARGLRSIIENTMLDLMYEIPSKEDIKKVVITKDMIIEKNELFIKSEKGKN;locus_tag=LOCUS_07820;gene=clpX;note=WP_011015984.1 ATP-dependent Clp protease ATP-binding subunit ClpX (Fusobacterium nucleatum) [pid:63.3%25%2C q_cov:95.9%25%2C s_cov:97.2%25%2C Eval:1.2e-138],MGA_786
sequence1	MetaGeneAnnotator	CDS	857323	857901	.	-	0	ID=MGA_787;product=ATP-dependent Clp endopeptidase proteolytic subunit ClpP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001049165.1;translation=MSLVPYIIENEGSGERTYDIYSRLLKDRIIFLSGEINTEMANAIIAQLLFLNAQDKEKDITMYINSPGGMVTAGFGIYDTMNHISCDVVTVCIGMAASMGAFLLSSGTKGKRFALPNSEVMIHQPLGGARGQATDIQIVAENILKTKHKLAEILSKNTGQSFEKIISDTERDNYLSAEEAVAYGLVDKVLEK;locus_tag=LOCUS_07830;gene=clpP;EC_number=3.4.21.92;note=WP_001049165.1 ATP-dependent Clp endopeptidase proteolytic subunit ClpP (Staphylococcus) [pid:68.4%25%2C q_cov:99.0%25%2C s_cov:97.4%25%2C Eval:3.1e-71],MGA_787
sequence1	MetaGeneAnnotator	CDS	857959	859233	.	-	0	ID=MGA_788;product=trigger factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015985.1;translation=MKLEKLAGSEVAFEILKEGQEYKTLRESILAKFKNVKVDGFRKGHVPADVIEKTFKSEIRDELINEILKTEYTTLIREEKLRPVADLQIVSLEYDENKLKMNLKVAVFPEFELPQYKGLDIKAEEVSVTDEEVENEINRMIQRAKKFEKTEREEAKLGDIAVINFEGFVDGVAFDGGKAEDHRLELGSKTFIDTFEEQIVGKKLGEEFDVNVKFPEEYHAENLKGKEAIFKVKLNSLEEAIIPELNDEFAKASGSDSVEDLKNAIKGNILSNKEEQAKNKRLKTIVENISDATTMEVPTITVEQEINAQIDRFAQTLQMQGMNLETYLQMTGQTVEKMREDLRVSAEKGVKSSFILSKIAEVEGIEVKEAEFDAELQKIASMYGMTVDQLTAELEKTDGVNRFFGQINSQLFFAKVNDYLLTNN;locus_tag=LOCUS_07840;gene=tig;EC_number=5.2.1.8;note=WP_011015985.1 trigger factor (Fusobacterium nucleatum) [pid:35.1%25%2C q_cov:99.5%25%2C s_cov:98.8%25%2C Eval:1.5e-75],MGA_788
sequence1	MetaGeneAnnotator	CDS	859246	860919	.	-	0	ID=MGA_789;product=single-stranded-DNA-specific exonuclease RecJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147367291.1;translation=MNLKWTSYDSDYLKNKMELFNKDELITTLLLNKKIYSKEEMNSFLNPSYKQLHDPFLLNNMEEVVDKILEFMDKDKKILIFGDYDIDGISGSLYLSKIFDKLNIKNEIYIPTRTMFKYSLNEEYFRNIEEKNIKLVISVDNSFGEILHMDMLKSMGVDLIITDHHFNNKNMKSILEINPKKSENYPFKELSGSGVVFKLVQAIYSKLPDRSISDIYEYCELISLATIADVMECVDENRFLIKRGLKNFSKTNILAFKMIMENFKIDPEYITINDISYRISPLINAIGKLDVPLKIIKFLTSDSEKVNIQILNEMYEYNNERKNYEIKIYNKIVKFLENKEIKKLNYIYYEINDINSGILGSITSKLALEFKVPVIIVSKVDGYCKGSCRSIDNKNIYKLISEFSDYFINFGGHNLAAGFLITLDNLTLIRDKIKQKMYNLNLTEKSKNSIVVDVKFPVSQISSKKMTEINSLGPFGLSNDEPNFYDENIKFRNILIFGVDNKHFKANIRRNGKDIQILGYNLSHKLNLKNSNKLYKIIYTPELMGKKVFRLKLKDIE;locus_tag=LOCUS_07850;gene=recJ;note=WP_147367291.1 single-stranded-DNA-specific exonuclease RecJ (Fusobacterium canifelinum) [pid:34.5%25%2C q_cov:96.1%25%2C s_cov:98.2%25%2C Eval:9.0e-95],MGA_789
sequence1	MetaGeneAnnotator	CDS	860922	861296	.	-	0	ID=MGA_790;product=30S ribosome-binding factor RbfA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903343.1;translation=MNIRRKRGLEKEISRIIGTAILLEVKNEKIRNLVTVKSVNLSPDARYADVIMSILDYKQNINKEKLLEELNKLKGFFRKKVGENLEIRYTPEIRIHLDDSVEYSVKISKILKEAIATVNIDSEE;locus_tag=LOCUS_07860;gene=rbfA;note=WP_005903343.1 30S ribosome-binding factor RbfA (Fusobacterium nucleatum) [pid:44.4%25%2C q_cov:91.1%25%2C s_cov:97.5%25%2C Eval:3.8e-21],MGA_790
sequence1	MetaGeneAnnotator	CDS	861309	863993	.	-	0	ID=MGA_791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVYEFAKKIGQSTNDLITKLKIIGYDKTSLSALSDSEIKDIENKLNPVKSTEKTSSKKEEVIGEKIIFNNKNHNKFNKNNKFRNDKFDRNERENRGERQEKNNQNFGERKPFEKRNNQNFGERKPFNRDNKDTSERNNNERKNNFRSDKPKFENKGNFNKDRDNRERNRDDNRVNKDNRNFNNNNGERKPFEKRNNQNFGDRKPFENGERRPFNKDRRNDDNKKGFKTHAKEEKEAVIEIPTMENDVKAKNSKLKSKFEKKKYENDRKTKDEERKLKELRDDFRKEDKKKKVKKKEKVVKSEVIRDEEGGVGLVVLPQEISIKELAEKLGINSSDIIKKFFMQGKMYTANAILNIEEAEEIALEYNVIVEKEEIVEISYGEKYNLEIEDKEEDKELRAPVITIMGHVDHGKTSLLDALRHTNVIDGEAGGITQRIGAYQVEWNGQKITFIDTPGHEAFTEMRVRGANITDISILIVAADDGVKPQTIEAISHAKEANVPIIVAINKIDKPGANPMKVKQELLEHGLISPEWGGNTEMVEISAKQKLNLDSLLETILLTSEIMELKANHKKRAKAIVVESRLDVQMGPVADVLIQEGELKIGDIFVSGTSYGRVRSMLDDRGNKITKAGVSQPVEITGFNEIPEAGDLLYCVNNDKQAKKIVEDFKNEKKDELNKKKHISLESLSKELEDQQLKELKCIIRADSKGSAEALKESINKLSNDKISINIIQASAGAVTEGDVMLAAASNAIIIAFSVRPTNTARTQAEKTGVEIRNYNVIYHVTEDLEKAMKGMLDPEYKEIYNGRLEVREVFKISNVGNIAGSLIIEGKITRQSKIRLLRDGIIIHEGEIASLKRYKDDVKEATVGQDCGIGIKDFNDIKAGDIIEAFVVEQVKQ;locus_tag=LOCUS_07870;note=WP_005894893.1 translation initiation factor IF-2 (Fusobacterium) [pid:53.9%25%2C q_cov:74.2%25%2C s_cov:88.9%25%2C Eval:7.2e-209%2C partial hit],MGA_791
sequence1	MetaGeneAnnotator	CDS	863994	864572	.	-	0	ID=MGA_792;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLEKKREKNKSNIIRTCVITRANDKKEDLLRFVENSKGEYIYDDAQNIQNRGKYIKDDLEIFQKFFNKFKVEMKSAEKVLKHFEKKVNKENKDEHILRILEGLKNSEYLVYGIDENLDAMKNSIVKLLIIPSDINGKYVNKLKKIAKLNNVNIIFIEKQYSLKKIFLSEVKVVGVKTKKVVRGILNKMEVE;locus_tag=LOCUS_07880;note=MGA_792
sequence1	MetaGeneAnnotator	CDS	864535	865623	.	-	0	ID=MGA_793;product=transcription termination factor NusA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903346.1;translation=MKSKDKATFLDAIEELEKEKGIQKGDLLERLKTGLLAAYKKDFNDQENLEIEIDQITGDVKMFCEKLIIDDEVKVYNETTEIPFSKAKNHRKRIKVGDYLKIELNADEFNRNAIQRAKSIIIQYIREQEKELICKQLTAIEHQIVNVIVRRIEENGSLYVGMNGLDLIIPQRELSSLDKVQVGDRLVAYIRSVDTNGRFPKVDITRIDDKLIHKLFEREVPEIASGIIVIKNIAREVGVKAKVAIYSEDPNIDLKGSCIGKDGVRINNIINELNGEKIELVEWNADQRIFVKNALYPAEIFSVEIVRNEDEIVAKVEVDPSQLTLAIGKKGVNSKLAGKLCKLRVNIEASDEVGEEEREEQE;locus_tag=LOCUS_07890;gene=nusA;note=WP_005903346.1 transcription termination factor NusA (Fusobacterium nucleatum) [pid:47.0%25%2C q_cov:95.9%25%2C s_cov:96.1%25%2C Eval:3.3e-86],MGA_793
sequence1	MetaGeneAnnotator	CDS	865613	866107	.	-	0	ID=MGA_794;product=ribosome maturation factor RimP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000359097.1;translation=MEEILLKIEKEIQPYLNENSLELADIEYVREGGYNFLRIYVESKNGNTSLDDCVMLSTKIDNIVDELIDDKFYLEVSTPGLERKLKKEKDFIRFTGKKISVKTKSNVENKKSFEGILLGFENGKILIKDDIIENVEIPLEKIKVAKLVFNLSDKIFKEDVENEI;locus_tag=LOCUS_07900;gene=rimP;note=WP_000359097.1 ribosome maturation factor RimP (Bacillus) [pid:35.9%25%2C q_cov:85.4%25%2C s_cov:92.3%25%2C Eval:4.6e-21],MGA_794
sequence1	MetaGeneAnnotator	CDS	866299	867015	.	+	0	ID=MGA_795;product=YebC/PmpR family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003437537.1;translation=MGRHGTIAGRKEAQDRKRASAFTKYVRLITVAAREGADPDYNVALKHAIEKAKSINMPNDNIQRAIKKGSGADGGAGYESLNYEGYGPGGVALIVEILTDNRNRTASSVKSSFDKNGGNLGTPGCVSYMFERKGEIIIEKTADSNEDELMMIALDSGMDDMKVYDDSFYITTPTDTFDNVLNSIKEAKYSIVEADISYVPSIEVETLSPEDLEKLNKLIDVLEDNDDVQKVHHNYTGE;locus_tag=LOCUS_07910;note=WP_003437537.1 YebC/PmpR family DNA-binding transcriptional regulator (Clostridioides difficile) [pid:52.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-67],MGA_795
sequence1	MetaGeneAnnotator	CDS	867064	868113	.	-	0	ID=MGA_796;product=DNA integrity scanning diadenylate cyclase DisA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003393302.1;translation=MINKEEKVYEQIFKIMAPGQPLRSAIEKIQEASLGGLIILGSLEDMKEYIDGGFKLETTFTPQKVYELAKMDGAILISEDLKIIHGANIQLQPDKNIETTESGTRHRTADRIAKLTGNIVITISERRKRITVSKDQFKRTLELIGDLLIKSSQAIMSLEKYAVSVNKYLVNLTISEFENTVLLEEVISGLRYFYLMFTMDKEVRQYIMELGTEGRLVELQHNEIMANQKNTLMDFIKDYSRKNRNAEKIFADLLELSKDDIRDDSKLAKLLGYDLKQDLVDENLFPKGYRILNTANKLTKKDVENLVEHFKSLSNLLNADYDEICSIKGMGKFKTERVLRLRERYRHLL;locus_tag=LOCUS_07920;gene=disA;EC_number=2.7.7.85;note=WP_003393302.1 DNA integrity scanning diadenylate cyclase DisA (Clostridium) [pid:39.4%25%2C q_cov:97.7%25%2C s_cov:97.5%25%2C Eval:3.3e-67],MGA_796
sequence1	MetaGeneAnnotator	CDS	868120	869466	.	-	0	ID=MGA_797;product=DNA repair protein RadA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016188.1;translation=MANKKVRYVCTECGNTTLKWIGKCPSCESWGTIEEELELKMSKIKSNKTVDLTSINEVKFEKEFRIKTKFTEFDRVLGGGLTQGEVVLITGNPGIGKSTFLLQLSNEYAKSNKVLYISGEESTKQIKERAMRIGVNSKSIFLLSETNLENIEVAINNSKPKVVIIDSVQTIYSETVSSLPGSVSQIRDCSLRLIDIAKTNDISFYIVGHVTKDGKLAGPKLLEHMVDAVLSFEGDENNYYRIIRSIKNRYGSTNEISIFDMKEDGIEEIKNPSEFFISERDEKNVGSIITTSIEGSRVILFEIQTLALPLKFGLPKRIIEGYDRNRIEILLAVLSKTLSIDLGNNDIYLNIPGGIQLKDQAADLAIILSFISTIKNLQISQKIAAIGEIGLRGEIRKISFIKKRIRELEKLGFKGVYLPKAHQPELESFETELKLSYINNISELVERL;locus_tag=LOCUS_07930;gene=radA;note=WP_011016188.1 DNA repair protein RadA (Fusobacterium nucleatum) [pid:52.9%25%2C q_cov:98.4%25%2C s_cov:97.8%25%2C Eval:2.6e-142],MGA_797
sequence1	MetaGeneAnnotator	CDS	869456	869962	.	-	0	ID=MGA_798;product=pantetheine-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004080981.1;translation=MNIKVIYPGSFDPITKGHLDIIKRSAKLFDELIIGVFINSSKKEWFSIDERVKLIEKVLKEENINNTKVVKCSGLLVEYIKNENIDILVRGLRAVSDYEYELQVTLTNEALTSKPFETIFLTASREYLYLSSSIVKEIALNGGKLTGFLPNAIISDINEKVNMIKNGK;locus_tag=LOCUS_07940;gene=coaD;EC_number=2.7.7.3;note=WP_004080981.1 pantetheine-phosphate adenylyltransferase (Thermotoga) [pid:51.8%25%2C q_cov:98.8%25%2C s_cov:99.4%25%2C Eval:2.4e-39],MGA_798
sequence1	MetaGeneAnnotator	CDS	869963	870664	.	-	0	ID=MGA_799;product=ribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002670498.1;translation=MKKMDLEKLMSKINYTFKNKKLLLEALTHSSYVNEHNFPNIKDNERLEFLGDSVMDLITTEYIYKNNLKSNEGELSKIKSQIISETVFSTISRDLNLGNYIFLSNGENMSGGRERNSVLGDVFEAMVGAIYLDSDYATTRDVVLKLLESKINNLDKIEWVSDYKSALQEITQLKYKVTPIYTVLSEIGPDHDKTFEIEVRVEERLYGKGVAKSKKMAEKIAAKQAIEKLNKEH;locus_tag=LOCUS_07950;gene=rnc;EC_number=3.1.26.3;note=WP_002670498.1 ribonuclease III (Treponema) [pid:42.0%25%2C q_cov:99.1%25%2C s_cov:93.5%25%2C Eval:2.9e-46],MGA_799
sequence1	MetaGeneAnnotator	CDS	870666	870896	.	-	0	ID=MGA_800;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010881114.1;translation=MFEEIKEIILDQLDIESENIRIDSKIVEDFGADSLDLIELASTIEEKYGFEVTKEEIKEIKTVNDLIKIVEEKRVK;locus_tag=LOCUS_07960;gene=acpP;note=WP_010881114.1 acyl carrier protein (Aquifex aeolicus) [pid:46.5%25%2C q_cov:93.4%25%2C s_cov:91.0%25%2C Eval:2.5e-12],MGA_800
sequence1	MetaGeneAnnotator	CDS	870944	871630	.	-	0	ID=MGA_801;product=YjjG family noncanonical pyrimidine nucleotidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012775054.1;translation=MYKILLFDLDNTLLDFNQSEENALNEFLIEEGVDNIEEFKEIYKMENKKLWEKLEKNLISSEELINTRFSLVFNRFGIKKDGKEMSEKYSKIIGKQGIEIKGASNFLEKIYKKYEIYAATNGLKEIQNNRLNNSKIKKYIKKVYISQEIGSSKPSKNFFESIEKDLGFNKKEVLMIGDSLSADILGANNYGIDSIWFNYMKKENNSNVKPTYFASNFEDILKILNDCM;locus_tag=LOCUS_07970;note=WP_012775054.1 YjjG family noncanonical pyrimidine nucleotidase (Streptococcus suis) [pid:45.8%25%2C q_cov:97.8%25%2C s_cov:99.1%25%2C Eval:1.0e-51],MGA_801
sequence1	MetaGeneAnnotator	CDS	871684	873075	.	-	0	ID=MGA_802;product=glycogen synthase GlgA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_042515450.1;translation=MKIVYVSSEVYPFFKTGGLADVLQALPKKMEKLGHNVTVIMPKYDKIPLKYLEKMDFVSTTEINGEIFNLVKYNGEEKINYYFIENRNFYERGRVYGDLDEDYQYALFCEATLIFLKNIGLQVDIIHCNDWQTGPLPYFLKNRYKHDPYYWDMRVVFTIHNLMYQGRFNDYSFDKLGYKRESSFLNFMEIGISFADIINTVSPSYAEEIKYPYFAEGLEWLTSYKQIYGILNGIDYEIYNPMTNNKITNFDVENLDKKLLNKRKIQEIFDFKQDDTLFIILISRLVEGKGLDLLSSRIEEILKHDAVQFVILGSGSKYYEDYYKYLEYKYPEKFKAYIGYSEEIADLLYAGADMFLMPSRYEPCGLSQMIAMRYGTIPLVRETGGLRDTVIAYNEYNDEGNGFSFANFNADDMLNTIRYAEHIYYDKKDVWNKLVKRNMLINNSWDRSAREYEKLYEIAKTTQ;locus_tag=LOCUS_07980;gene=glgA;note=WP_042515450.1 glycogen synthase GlgA (Bacillus cereus group) [pid:41.7%25%2C q_cov:98.7%25%2C s_cov:99.2%25%2C Eval:3.3e-100],MGA_802
sequence1	MetaGeneAnnotator	CDS	873090	874343	.	-	0	ID=MGA_803;product=glucose-1-phosphate adenylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012258382.1;translation=MEVLAMILAGGRGSRLDILSEERVKPSVPFAGKFRIIDFTLSNCSNSGIYDVALLTQYLPLSLNEHIGSGKPWDFDRRDSSITLLQPHETLKGQSWYEGTADAIRQNLAFIKNKAPKYVLILSGDHIYKMNYLWMLEEHKKNNAELTIAAINVPYEEASRFGIFEVDENRKILSFEEKPEHPKSNFASMGIYIFNTETLVKYIEESNIPDLDFGKHIIPKLIEDQRGVFVHYYDSYWMDVGTYDSYLEANLDLIKKSEEIGINLYDPNWKIYTRSEDMAPVRIGVTGSVLNSLICNGCKIEGRVENSVLGPGVTIRKGATVRNSIIFSNTYIDENTHLDTVILDKNVYIGKNSLIGHGDDYTANIEKPDLLSKGISVIGKNSKLGNSTIVERNVRIFSKVHMLNEGNYIHSGETIKK;locus_tag=LOCUS_07990;EC_number=2.7.7.27;note=WP_012258382.1 glucose-1-phosphate adenylyltransferase (Chloroflexus aurantiacus) [pid:51.5%25%2C q_cov:95.0%25%2C s_cov:95.2%25%2C Eval:1.6e-114],MGA_803
sequence1	MetaGeneAnnotator	CDS	874485	875801	.	-	0	ID=MGA_804;product=tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016418.1;translation=MKKATVITYGCQMNVNESAKIKKIFQNMGYQVVDEIDDCDAVFLNTCTVREGAATQIFGKLGELIELKKNKGTVIGITGCFAQEAGFELIKKFPMIDIVMGNQNIGRIPDAIEKILKHESEHEVYTDNEDELPPRLDADFGSDKTASISISYGCDKRCSFCIVPYVRGKERSVPMEDILSDVRHYLKKGAKEIVLLGQNVNAYGKKFKNGDTFAKLLDEICKIEGDYILRFTSPHPKDFTDDVIDVIARNEKIARCIHMPLQSGSTKILKKMIRGYTKEQFLDLAYKIKERIPEASLTTDIIVGFPGETDEDFKDTLDVVEKVGFENAYIFMYSIRRGTRAAIMDEQVSEEIKKERLQKLNNLQDRRAYKESVKYLGKVMRVLVEGPSKKNKEILTGRTSTNKVVLFSGDAKLYRGRFVNVKINECKTWTLYGEIVNN;locus_tag=LOCUS_08000;gene=miaB;EC_number=2.8.4.3;note=WP_011016418.1 tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB (Fusobacterium nucleatum) [pid:74.8%25%2C q_cov:99.5%25%2C s_cov:100.0%25%2C Eval:3.6e-197],MGA_804
sequence1	MetaGeneAnnotator	CDS	875813	876619	.	-	0	ID=MGA_805;product=formate/nitrite transporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016933.1;translation=MNKKKGEYDVNHIINTMLKTQKELMEYVVHATEKRMKKPFTKLALLSMLGGMFIAFGSVGNIITVANLIETNAGIAKFFGASVFPVGLIMIVLLGLELFTSNCMMTLGYVENKISILKMLKILSIVWIFNLIGSIIIAYISYETHTLSNAGITFLSNLSAHKVHANAYDLILKGILCNVLVCGASLLGYIAKDGISKLFGIWFPIMLFIILGYDHVVANMLYLPLALMHGLEGITILNVTYNFIFVTIGNFIGGGIVIGLTLWYCNKD;locus_tag=LOCUS_08010;note=WP_011016933.1 formate/nitrite transporter family protein (Fusobacterium nucleatum) [pid:48.2%25%2C q_cov:92.2%25%2C s_cov:95.7%25%2C Eval:1.8e-64],MGA_805
sequence1	MetaGeneAnnotator	CDS	876700	877455	.	-	0	ID=MGA_806;product=exodeoxyribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903557.1;translation=MKKYISWNVNGLRACIKKGFLDYFNEQKPNIIGLQEIKMSEGQLDLELEGYYTYYNYAEKKGYSGTAIFTDVEPISVSYGIGIEEHDKEGRVITAEFEDYYFVTVYTPNSKNELERLDYRMIWEDEFRSYLKKLEEKKPVIVCGDLNVAHKEIDLKNPKSNTRSAGFTIEERNKFTELIENGFIDTFRYFYPDKIHAYSWWSYRGNARKNNTGWRIDYFCVSSSLKDRLVDAEIHDKVEGSDHCPVVLYIN;locus_tag=LOCUS_08020;note=WP_005903557.1 exodeoxyribonuclease III (Fusobacterium nucleatum) [pid:77.0%25%2C q_cov:98.8%25%2C s_cov:98.0%25%2C Eval:1.7e-114],MGA_806
sequence1	MetaGeneAnnotator	CDS	877577	877912	.	-	0	ID=MGA_807;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRERTLRRSEGIINLRRIRKLRANLEKVAFFKLTLFMLPLIAVALVSIVTEFNLTNIARENYANIKGIERVEKEIDSIKSELMAMSNVIKIQKESKELGFIYNEDVKYIK;locus_tag=LOCUS_08030;note=MGA_807
sequence1	MetaGeneAnnotator	CDS	877912	878841	.	-	0	ID=MGA_808;product=16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015778.1;translation=MEYHLPVLYDEVLENIIDKKDLIYMDCTLGGGGHSEGILSNSTDNSKLIAIDQDENAIKYASERLKKFGNKVSIFKNNFENLDIVAYLAGFDKVDRILMDIGVSSKQLDDDKRGFSYRKEAKLDMRMDESQKLSAYEVINNYKEEEIADILYKYGEEPKSRRIAKYIVEYRKNKSIETTIELADIVIKAIGKSMKKHPAKRTFQAIRIYVNRELEVLEKALDKSIELLNPGGRLLVITFHSLEDRIVKEKFRKYENPCTCPYDLPICKCGNKSKGKVLTRKPIVSKEKELEANNRAHSAKLRVFIKGDK;locus_tag=LOCUS_08040;gene=rsmH;EC_number=2.1.1.199;note=WP_011015778.1 16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH (Fusobacterium nucleatum) [pid:59.6%25%2C q_cov:97.7%25%2C s_cov:96.2%25%2C Eval:6.3e-104],MGA_808
sequence1	MetaGeneAnnotator	CDS	878859	879284	.	-	0	ID=MGA_809;product=division/cell wall cluster transcriptional repressor MraZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001830185.1;translation=MFIGEYSCSVDTKGRLMLPAKFRELLNEENFYITKGVNGQIDLYNLENWEEIVQKLSKVRQTDEKATKFKRFIIGSAQEIELDSHGRLTVTSTLKKYAELSKKATVIGMGNKIEIWDSEKLDIYREDEDINEIMEEIDIDF;locus_tag=LOCUS_08050;gene=mraZ;note=WP_001830185.1 division/cell wall cluster transcriptional repressor MraZ (Staphylococcus) [pid:47.1%25%2C q_cov:84.4%25%2C s_cov:82.5%25%2C Eval:2.4e-26],MGA_809
sequence1	MetaGeneAnnotator	CDS	879500	881956	.	-	0	ID=MGA_810;product=glycogen/starch/alpha-glucan phosphorylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002680347.1;translation=MDKKILKDKILLSLRRQYSKTLDDAKEYEIYYAVARATMDEITEHWYNTKKTRQQDQVKQMYYLSAEFLMGRYMSNNLINLRYNEVMKEVLEELGVDINKLEDYEMDAGLGNGGLGRLAACFLDSLATLGLPGHGYGLRYKYGMFEQKIENGFQVEYPDNWQQYGTPWSVKRIDRVFEVKFGGDIEIHKDEVGKEYFKRVNTENVLAVAYDVPVIGYGNNVINTLRLWEARSPEGFDLKLFNSQNYILASEKEVRAKDISRVLYPNDTEREGKILRLKQQFFFTSASLQDIIRRHKATFGNNFAILPEKVAIQLNDTHPVVAIPELMRILLDQEKLSWDEAWEICKKVFAYTNHTILSEALEKWEIDIFRPLLPRIYQIIEEINRRFLIELSQKVNGDYEKIKRMSIIGDDKVKMAWLAIVGSHAVNGVAQLHTEILKNQELKDWYELYPEKFQNKTNGVTQRRWLLNSNPQLASLITELIGDKWIVDLKELKKLEKYLDDDNVLNKLSDIKRENKVKLAKYIKDTTGIEVDVNSIFDIQVKRLHEYKRQLLNILHIMDLYNKLKENPLLDVTPRTFIFGAKAAPGYRRAKGIIKLINTVAEIINNDTSINNKIKVVFLENYRVSLAEKIFPAADISEQISTAGKEASGTGNMKFMLNGALTLGTLDGANVEIVEEVGMENAYIFGLKADEVLRLEGYGKYDPRVDYEIVEGLKKVVEQLIDGTYDDSHTGIFREIYNSLLNGVEGNRPDVYFVLKDFADYRKAQEKISKDYKDQKTWLRKSLLNISNAGKFSSDRTILDYAENIWDIKPCLPRNYIF;locus_tag=LOCUS_08060;note=WP_002680347.1 glycogen/starch/alpha-glucan phosphorylase (Treponema denticola) [pid:57.5%25%2C q_cov:98.3%25%2C s_cov:98.4%25%2C Eval:2.9e-273],MGA_810
sequence1	MetaGeneAnnotator	CDS	882100	885657	.	-	0	ID=MGA_811;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISLISDNKYINGRVNYYVKGESSEKIDIDKIDTEKPLKNKVIDYNFSVNPIPDSKVSISFDLYGQDKNFDYGPTIRYANGNIYSDVSVLFNNSKSSYDINNELDKIKHTAPGYDKVEYFKRWTLKEYFKDTDSFIEASKYDGDSVNLSNAEVSGKKGTIRILGYHSGSLYGDSLIRYVAKSVFDEIHANPYFDEISDIIKSFENDRRPFVADFILNALRYKKVMYELENKNQINNIMKKIVKNIYRKSGIGIDRKYSSVGIWSQTPEDFRYLLPEFYDYFDYSKINFDDLNPDYLYTGIKRVQIPKAEARASIQPQFRSSALPNPQDQDYFELVEKFHTFDNDIRDYLISGLYRELELEKIKSISKLGAWDFIKDTFVGSPISLTVHGELKLIQKAIKDPYEIKSLDILRGLYLHQSEKGKNVLEYEENLKEYFSDVDLNDNIAKYTPKIRINLGYINRNNKLGISVLLNDSVNVDSKKYSYTKKSHNLTIDSMYKKGVLDLSSKIKLEFSENDLSKKDNKLKYVYDTISLNTDTYFGFNIPATKKLNLLLGLRHIGQYGWINPKSAMKDGKEITWNIAKRYEYYNPIGKDDKTIIVSETTEKNLVDKEYERIKKDNKKEKLKRDIHQSDYIKTVESKSVKALYEMYNIISPRLTVIYRTYENIIFSSHLELPVGFRNFSPAGIKGMYSGEIKYLIDDSYKDMLFTTKNPIKFKSSGYVEGGAILGNEPGYYFSYKAMADISFLRGDIKGNDKNIDFNFSLNPLMVNLPIKPRLIISKDDTDISTRFGLEYSKGTEFSTIVGFKYIFKSKKNIIEDELKPNILKILSYRNDNEYNKVKAALSDISFNDKLEYIITPFVDIKKEEGNFRLNIKADSIKIMNVVEKKEINSEVKTKNNYFAWSYQDYAWYSFNNSYNYFGDVKKEEKTVNKNETKSLEHEKYDIDIEAEYGQEKGINFNLNIALGYNETKLKDIKEEIKRVETKSKVISIESTKKFINDTDIQNGIGNEVAINEKSLLASLEAFSKYKGAKYHDIYITHKNPFATSYRKITEIELREILAIPYKIEESRIVEENIFLHARRININLDTYLGYSLNPTENINVSLGMRYKLNGRYESTNKIILKNIKLYGSRHFSFDSAIIPEIKMTYKLIHNLKARISAELPMYFKNKDFKEVKFNIKTGLEYKW;locus_tag=LOCUS_08070;note=MGA_811
sequence1	MetaGeneAnnotator	CDS	885811	886155	.	-	0	ID=MGA_812;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFDFKSVINSKKILFLFLFFSITYLMEENSKIEGEISFGIDTSFGIDGLENTVRLLPPLIDLVRPRVYTDYRKFNTGYFRSARVSNVNLANSNYIPQIHEYYRPSYRGDIRDV;locus_tag=LOCUS_08080;note=MGA_812
sequence1	MetaGeneAnnotator	CDS	886322	886603	.	-	0	ID=MGA_813;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901839.1;translation=MSKKGFVEEYAKLTGETKKRSEELVNAFLETVENLVVKGEDVQFVGWGSFKVQERKEREGINPKTQKEIKIPAKKVLKFKVGKKFAEKVSKAK;locus_tag=LOCUS_08090;note=WP_005901839.1 HU family DNA-binding protein (Fusobacterium nucleatum) [pid:56.4%25%2C q_cov:100.0%25%2C s_cov:91.2%25%2C Eval:5.6e-20],MGA_813
sequence1	MetaGeneAnnotator	CDS	886699	886899	.	-	0	ID=MGA_814;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTLLVILLVVLAIILIGVILIQPDRSRGIAKTANVLDQEKEGIEKFTEYVAFLFLFVAILYNIIR;locus_tag=LOCUS_08100;note=MGA_814
sequence1	MetaGeneAnnotator	CDS	886913	887671	.	-	0	ID=MGA_815;product=triose-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902187.1;translation=MRKIIVAGNWKMNKTRTETEKFFKELLPLVEGKNVEIVVAAPFTNLETAIRETKDSNIKIAAQNMNPKDNGAYTGEISPLMLKDLGVEYVLVGHSERREYYKECNKFINEKVLAAIHNGLKPILCFGETLEQREANITEKVVEEQLREGLKDVCDKGILNVVLAYEPVWAIGTGKTATAEQAQEVHAFIRNLLVDMYGADIANEITVQYGGSMKPENALELMKQNDIDGGLIGGAALDPISFAKLVEAGSQI;locus_tag=LOCUS_08110;gene=tpiA;EC_number=5.3.1.1;note=WP_005902187.1 triose-phosphate isomerase (Fusobacterium nucleatum) [pid:55.0%25%2C q_cov:99.2%25%2C s_cov:100.0%25%2C Eval:2.1e-77],MGA_815
sequence1	MetaGeneAnnotator	CDS	887748	888557	.	-	0	ID=MGA_816;product=Cof-type HAD-IIB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000221373.1;translation=MIKLIATDMDGTLLNSKHEIAEKNIESIIKAQENGYTFVLASGRPTFAMIDFAKELKMDKFGGYIISFNGGEIIDCKTWKKIYSLGIEKNEILEMYNYAKENNLSFLLYDEKSIFANEINEYTIVEADITNGEIKLIEDIEKMNLGNSIKCMLLSEPENLIKHEKILKESKFSERLFFARSLPIFLEVVNKNIDKGKTLHKLLEILNFDKNSAIGVGDSYNDIPLLSASAFKVVPSNAKPELKEMADYVGVSNDEGILADLIEKFILIK;locus_tag=LOCUS_08120;note=WP_000221373.1 Cof-type HAD-IIB family hydrolase (Bacillus cereus) [pid:35.8%25%2C q_cov:98.5%25%2C s_cov:96.7%25%2C Eval:1.7e-43],MGA_816
sequence1	MetaGeneAnnotator	CDS	888655	889176	.	-	0	ID=MGA_817;product=methylated-DNA--[protein]-cysteine S-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011837224.1;translation=MLLKNIYNSPMGKILILVDEKRLKGLWFEDQKYFGAKYDISNIEFGENEVIQEVRYWLKKYFSGENPKVNINILSIEGTEFRKKVSEVLLSIPYGQTISYKRVSDILFEKYGMKTSARAVGGALGHNPISILIPCHRVIATNGLLTGYAGGISKKIELLIIEGFDKKFLESKI;locus_tag=LOCUS_08130;note=WP_011837224.1 methylated-DNA--[protein]-cysteine S-methyltransferase (Streptococcus sanguinis) [pid:53.3%25%2C q_cov:95.4%25%2C s_cov:98.8%25%2C Eval:2.6e-44],MGA_817
sequence1	MetaGeneAnnotator	CDS	889196	890416	.	-	0	ID=MGA_818;product=acetate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016959.1;translation=MKILVLNSGSSSLKFSVIDTAVEQIMIKGLCERIGIENSRFSIKNFVKNNNIDKVPELFPNHKRALEFVLNVLVDNEFGVFEDVNQIQAIGHRVVHGGEDFIEPLLINDKNMISLEKISSLAPLHNPANIMGIKVMRELLPKTPNVAVFDTAFHSTMPAKSYMYPIPYEEYEKLKIRKYGFHGTSHKYVSKVAEKLLLEKGVKKPYGGYKIISCHLGNGASITAIKDGKVLDTSMGFTPLAGLMMGTRCGDIDPSIVLHIMDEYNLSVEEMSQKLNKRSGVLGIFGKSSDNRELTEAMLNGDERAKLAFDMMAYSIQKYIGSYYILLQGVDAIIFTGGIGENSSETRQKVCENLEFIGVKLDYEKNKIRQSGDVDLSRLDSETSIFKIATNEELMISIETHNLLKS;locus_tag=LOCUS_08140;note=WP_011016959.1 acetate kinase (Fusobacterium nucleatum) [pid:54.3%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:1.5e-122],MGA_818
sequence1	MetaGeneAnnotator	CDS	890428	891717	.	-	0	ID=MGA_819;product=hemolysin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963782.1;translation=MNTGSSILPQILLIVVLILINAFFSGSEMAIISINKNKLKILIDEGNEKALKLEKLMEEPANLLSTIQIGITLAGFLASASAAISLSEFLSIFLNKISFPYYQQVSVILVTLLLSYISLVFGELIPKRLALLNPEKIALTNVNIILFVYKLFIPFIKILSFSTNLFLRIFKINENDNLDIITKQEIKMIVNDSDIKDTERAMIEKIIDFEDKVAREIMIPRTSMFAIDIDSSINEIFSHEDLIRFSRIPVYREDLDNIVGILHTKNLLKKAYEIGFENVKINEILQEAYFVPETKKIQSLFLEMKTLKKHIVILIDEYGGVSGIVTLEDLLEEIVGNINDEYDLENEDIQKIAENKYMINSSISLNDFNDYFNFNIESNHYDSLNGILIEKLGFIPMDNKINDVFFDKFKIKILKVNNKRIEKVILEII;locus_tag=LOCUS_08150;note=WP_010963782.1 hemolysin family protein (Clostridium) [pid:45.6%25%2C q_cov:95.8%25%2C s_cov:94.1%25%2C Eval:1.4e-102],MGA_819
sequence1	MetaGeneAnnotator	CDS	891731	892684	.	-	0	ID=MGA_820;product=ROK family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903111.1;translation=MKYYGGIDLGGTNSKIGILDENGNIIYSTIVKTESNLGYKETIKKLSDCLKVGLDENKINYDDFISLGMGVPGPTVNKSTVIMWANFPWPENLNLANEFENQLSKPVYIDNDVNIITLGELWVGAAKGYKNVLGMAIGTGIGGAVVVNGEIISGKNGASGEIGHIPLEKKGRLCGCGKRGCFEAYASATGIERIAKDRLEVNKNNMLYNLTKDRDIEAKDVFECAKQGDKLSMDIVEETAEYLAMGIGTALSILDSDIVVMGGGVALAGEFLTDKIKKYLPDYLMTSIEKNVEIKIAELGNNAGIYGAAYLAMQSKK;locus_tag=LOCUS_08160;note=WP_005903111.1 ROK family protein (Fusobacterium nucleatum) [pid:44.7%25%2C q_cov:98.1%25%2C s_cov:99.4%25%2C Eval:2.9e-75],MGA_820
sequence1	MetaGeneAnnotator	CDS	892696	894069	.	-	0	ID=MGA_821;product=NADP-dependent glyceraldehyde-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002262986.1;translation=MKINVLSPIDGSVLGSVKKMTQEDVNQIYINSRKSFKEWKKLSTAKRAEIMYKAADILDENKERIAILMSKEISKPFKDSLAEIERTVGLIKYSAEEGMRIFGEVYEGKNYDESSKNKVAIVRREPVGIVLAISPFNYPINLAASKIIPALISGNTVVFKPASQGVLSGIELVKCFEEAGLPEGVLQIITGKGSEIGDYLNTHKEIDFINFTGSTSVGEKIGIQAKMKPILLELGGKDAAIVLEDANLDKAANDIVSGAFSYSGQRCTAIKRVLVMENVADELVDKIKNKVLNLKVGNPFENVVITPLIDEKSAIFVENLIMDAINKGAKALTEIKRESNLIYPVLLDNVNTEMDIAWEEPFGPVLPIIRVKSEKEALEIANNSEYGLQSSIFTNNIEKAFKFANELEVGTVHINNKTQRGPDNFPFLGIKNSGSGVQGIRHSILSMTKIKTIVLDM;locus_tag=LOCUS_08170;gene=gapN;EC_number=1.2.1.9;note=WP_002262986.1 NADP-dependent glyceraldehyde-3-phosphate dehydrogenase (Streptococcus mutans) [pid:60.5%25%2C q_cov:99.8%25%2C s_cov:96.0%25%2C Eval:2.5e-161],MGA_821
sequence1	MetaGeneAnnotator	CDS	894059	894949	.	-	0	ID=MGA_822;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723559.1;translation=MKIVNKEYFESFDGLKIPYTSFESGNKKKILMLHGLYEYIDRYNEFAVKLNEAGYDVYILEYRGHGDLREGNVADFGDKGITGVLNDIKLFIKHKFSNIANDDIFLIGKGLGGLLTLYLQEDMQLKNSVLISVPIEKKFSIFLGRVITKMEMKFGLKNSFINKFMLKTLNRSFVKEGKSAWLNRDKEIVKAYLNDENYLKSASSRLYNNVLSFTAFVKKNIKKISENANIFIVFGTKDALVSETKLKKYMQKINNGKNNIKFLKVKKARHDILFELNKDTIIEEIIKYMDGINNEN;locus_tag=LOCUS_08180;note=WP_003723559.1 alpha/beta hydrolase (Listeria) [pid:22.9%25%2C q_cov:89.9%25%2C s_cov:90.2%25%2C Eval:6.3e-13],MGA_822
sequence1	MetaGeneAnnotator	CDS	894946	897123	.	-	0	ID=MGA_823;product=heavy metal translocating P-type ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002263707.1;translation=MKREKFNITGMHCTNCSLNITKNIEKLEGIEKVNINLITSKMSVIYDEKIIDVEKIIEIVEKIGYGIEKINNKKNKENIEEIKKDYYIIKLVISIILTVLIMYLSMGHMLGFNKVNNSEIIQIIISISIMYLYKEYYFSGFLALKNNSSNMSSLIAVSTLASFVYSIFNVIKGENNDLYFESIAVILTLVSIGKYIERRIKKNATKSITKMINLTPKKATIIKDGNEIVIDVGDLEIDDEVLIKTGEIISCDGIILEGKAYVNESSITGESKLIEKNVNDEVIASSILEKGYLKVRVNKEANDTIIAKIIELVEEATSSKAPISKLADKISGILVPIIFVFSILTFIFWLVIGNEFSEAINRAISVLVISCPCALGIATPISIMIGNLKGSQMGILFKRAELLEIIKKANIILMDKTGTITKGEPKVIDFISISDDDRVIKYIYSAEKKSEHHLATSVVTYCENLGINTVDIDEFIQVEGRGINAKIKNNELLIGNEKMMLEYNIDLSKYIDDINRYSKQGKTVILASINGSLVAIITIADEIREDVKITIEKLKNKNIRPIMLTGDNIETARYVAKLVGIEEVYAGLLPNEKYDILINLQENNKVIMVGDGINDAPALAKADVGISIGGSTDIAMEISDIVLMKQRLIDIINAINLSKAVIINIKFSLFWAFIYNIMGITLAMGLFVKFGLTLNPMFAAFAMSLSSMCILLNAMTLKLFKGENK;locus_tag=LOCUS_08190;note=WP_002263707.1 heavy metal translocating P-type ATPase (Streptococcus mutans) [pid:40.6%25%2C q_cov:99.4%25%2C s_cov:99.9%25%2C Eval:1.9e-156],MGA_823
sequence1	MetaGeneAnnotator	CDS	897314	897442	.	-	0	ID=MGA_824;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEDKLLLKPRGEVIVSIANKENENFKYKKTTLKLGLNVDYKW;locus_tag=LOCUS_08200;note=MGA_824
sequence1	MetaGeneAnnotator	CDS	897638	898996	.	-	0	ID=MGA_825;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEESIKDGLKLRGLWDRRYEEDDEARKEFYHSQGLRLKDEQILASGLIDLTYDNTKSKIGLIYTTKDLDNLTGRVEGFANVRQSVKDILDIYVNVNYKLKPDISKRLGRLKGDITLSKKIGNFDLKGKAYGYLGTVLISDRDRKVGIEGTLLYNKDKINIKSVIKHDTIFDYSKNKQTNKESKTDSTESYFHNQELLFDLGYKSNRIEVKTENKIRGKVFTKSLAIDKDKYKSSDTNKDKTVLTLYTSNKLVRSFGNLGLSLDARYRAGLDYKDSGSVTDEHISLLGLGINYKGTNTKNSIDTAFIAGYVDSKELYILNVWSDNSIDYRMNNKLRLIGELNLTSSNRLGMLYQGQETEILGLGDISGRIEYRPTDRVEIINEVGTKAILLFNYNDRKKAQPKTSSSTTNNNSMSDKLQKLHLHTQYQYKVYSDNSVSYKINDGIRLIGKLGL;locus_tag=LOCUS_08210;note=MGA_825
sequence1	MetaGeneAnnotator	CDS	898938	899228	.	-	0	ID=MGA_826;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKISNKTIMGILALSSLTSFSTTIYLKNNLEGSLEHSKDNKYEYKIHDSLNLGILTGKNNEVFAYLGGKLEKGKPVDGRINKRWIKVKRLMGQEI;locus_tag=LOCUS_08220;note=MGA_826
sequence1	MetaGeneAnnotator	CDS	899216	899800	.	-	0	ID=MGA_827;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWHSEKRLIPYYFLVGTGVDYKNSILRGKDYKGTLTSNIYASHYNARNQETNVNSGSGGSGNNNNHTVRSSEHYKGFIVEGHLGYEFEKELGDKGLISILGKINADIEKSYTNKTIERYQNDGSANSEDDDDDDNDNNKDRFDIKLIPSIKLGYKFNDNFNIEVEYAASILFNKAGYIAMGNKIRTGVKYTWER;locus_tag=LOCUS_08230;note=MGA_827
sequence1	MetaGeneAnnotator	CDS	900215	900397	.	-	0	ID=MGA_828;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLNIFLLTLIALSNISLSQTTPKKRNTSTRNQTTEVKENDFFNFRNAKKIKLELNANL;locus_tag=LOCUS_08240;note=MGA_828
sequence1	MetaGeneAnnotator	CDS	900412	902469	.	-	0	ID=MGA_829;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKRKLIGLITISTTVLGAEYYVKNDNNIELSYGFIENTIAVALAQAQSQQSSNAGNHFSTKVTSEINWGGIFGKNKEVFTFLGVGAGGEKQFKSSGKREFNTKGYIGINLKKKLTEELELILNASYQYKDNNNHEGAIKELIKSRGEWKKEFEEDKEALKKYYHSQGLRFKEEESLFSGIVNYKHKLFKLHSGVIYTAGYLNNGDYRLENFVNIKTSKGKHDIEGEINYKIKKDTYAKGGRLKLDLNTTSRLNKVDIHNRINLYLGTIIPNKKDYKILLENGIKYSASNNLELNTTASAEVVFKQIEINTKATDLKVLYKPELKLNVKYNKDNIDVESNNKLMGRVETKGAKLDKDEYDSSSKKDQTIASVYTGNMIRYKSIRGVGKYSGIVKMKKGTNSADFERVEHLLEVGAGLTYEKKIGRLDIRHSVDGRYIFGYIEKNFSILNLWSDNKAEYRLNNKVTLKGELNLTTSNRLSIINHDSNTDEFLLLADTKGTVEYKLNNKIDITSTIGAKTISLFSTLKNAQMKNSQSNTTNNGPDLHLSSKYTYKVYNENKVKYQIRDNIGLITRLDVSYADNFTSDKLYESLNKIKRNQVGEKGLEEINKEDLNKINKETAKFGNSKSILLISPSVGTELKYLNNKLIINPNLGVDVKAHIKENGNKLEYKTTNIKAALKVEYRW;locus_tag=LOCUS_08250;note=MGA_829
sequence1	MetaGeneAnnotator	CDS	902606	903274	.	-	0	ID=MGA_830;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKYKMISLLAIGVASLSAEYYVKNDSKTEFGYENAFTKKASTELNWGGIFGKNKEVFTFVGGEVNLDKDTNFGGEILLGINVKKAITKDIGLILNAAYQYNDKAMNKKAFEENIREVLKSRGEWKEEIEKDKYKLKRYYRGQGLRFKGEETLFSGVVDYNHKLFKLQSGVIYTAGYAANSNNRLTIKPKVDIQVNFINDTYPTNDYKSTDARPILNIDCSW;locus_tag=LOCUS_08260;note=MGA_830
sequence1	MetaGeneAnnotator	CDS	903529	904752	.	+	0	ID=MGA_831;product=IS91 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011674482.1;translation=MYNSNKIKSIFSKYILTNSINSIKPYFDKKHIEHINHSIHNFLNCGNLSKGFISYRCSSCNFQHKMKLTCKSRLCPSCGYNYSVNWTNSILKQFINIPHRHVLFTVPKEFRKFIAYDRSILSKMSKAINDIFKYQFHNIKDKVKRKIYIPKSNPNYFTNSDIINYGLITVIHTFGRNLKFNPHIHAIISLGGFNKKFQYKELKYFHVPSIANQWKFSLCKLISNANYPNDIIKIQAKKAVSNVYDNDVRLFFNVAGNDINNPKYIIKYLGRYLSRVPIAEYKIVNIDFNKNSLTFKFEDLSNNKEVTYSTLSFKDFVAKVLFHLPLKYFKMINRYGFYARRISSKVKMSLFYLKAQVNKKSLSLFRKNFKELWDFDPFMCPHCNIYLKRYELFIDNGLSPPIHKFYN;locus_tag=LOCUS_08270;note=WP_011674482.1 IS91 family transposase (Lacticaseibacillus paracasei) [pid:25.9%25%2C q_cov:87.0%25%2C s_cov:76.9%25%2C Eval:1.8e-38],MGA_831
sequence1	MetaGeneAnnotator	CDS	904933	905250	.	-	0	ID=MGA_832;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003222500.1;translation=MSKVLHLGATEQLGEILKKEKVVLVDFFATWCGPCKRLGPVLDELSEEADFPIVKIDVDQFPDLAGEYGVRSIPTLFVIKDGQKVATDLGFKTKEELTSLVKNNI;locus_tag=LOCUS_08280;gene=trxA;note=WP_003222500.1 thioredoxin (Bacillus) [pid:53.5%25%2C q_cov:92.4%25%2C s_cov:95.2%25%2C Eval:2.6e-22],MGA_832
sequence1	MetaGeneAnnotator	CDS	905272	906606	.	-	0	ID=MGA_833;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002676360.1;translation=MKVVVIGANHAGTATINTILGNYPDTEVVVFDRNNNISFLGCGMALWIGDQIDGSDGLFYSNKEKLEANGAKVYMETEVYDIDFENKIVYAKSKCGKEFAEKYDKVIVSTGSLPINLPIPGKELENVQYVKLFQNAAEVIEKLKNPEIKHVTVIGAGYIGVELAEAFERKGKKVRLVDSCSDCLSTYYDKEFRTRMNEKLASHGIELSFGEMLKEIKGTDGKVSSIVTDKDEYTTDMVILCAGFRPNTDLLKEKVELFRNGAYLVDRTQKTSQEDVYAIGDCATIYDNSIDDVNYIALATNAVRSGIVAAHNVCGTKLEGIGVQGSNGISVYELNMLSTGLSEENAKRFGFEVETTTFTDNQKPEFMKTENDAVTVKIVYDKNTRRILGAQMASTLDISLGLHVFSLAIQEKVTIDKFKLLDIFFLPHFNKPYNYFTMTALGAK;locus_tag=LOCUS_08290;note=WP_002676360.1 FAD-dependent oxidoreductase (Treponema) [pid:64.3%25%2C q_cov:99.8%25%2C s_cov:99.5%25%2C Eval:4.0e-164],MGA_833
sequence1	MetaGeneAnnotator	CDS	906643	907596	.	-	0	ID=MGA_834;product=tRNA dihydrouridine(20/20a) synthase DusA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014208379.1;translation=MYKVSLAPMVDRTDIHFRNFISMINKDIELYTEMITTQAILNGDRSKILKITNVENPVVLQIATSNLKESIEAAKYIKYTNYNAVNINVGCPSDRVSGHNMGAYLMSEPELVRDIAQAVKEYSGKDVTIKNRIGIDGKGILENDRKIVRYEELLNFIDITNVSKYIVHARIAILKGLSPKENRTIPELDYEMVYRLKRDRPNLMIEINGGIKTIEDIKIHHNYVDSVMIGRAFYDNPMLANEINLLNDKSVKKHTEIVKEMFHYVKMLEENNEKPHHFLRHTLGLFYNTKYSKMWKNMISSTSATSSTVLEFLNKMG;locus_tag=LOCUS_08300;gene=dusA;EC_number=1.3.1.-%3B 1.3.1.91;note=WP_014208379.1 tRNA dihydrouridine(20/20a) synthase DusA (Acinetobacter pittii) [pid:42.3%25%2C q_cov:97.5%25%2C s_cov:90.7%25%2C Eval:5.6e-63],MGA_834
sequence1	MetaGeneAnnotator	CDS	907603	908049	.	-	0	ID=MGA_835;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003729724.1;translation=MEKILYILLTIFAGLVVTIQGPINVELGKSLGSDYWSAFTSFAVGLLFILLFIILTGQKSPSITQFTTTAWWKYLGAITGAIYVLSVITVIPALGVGLATILLMFSQLIMAMIIDHYGLFGYAVKTFSVERMIGVVLMAAGIFLINRR;locus_tag=LOCUS_08310;note=WP_003729724.1 DMT family transporter (Listeria) [pid:33.8%25%2C q_cov:97.3%25%2C s_cov:93.5%25%2C Eval:3.9e-20],MGA_835
sequence1	MetaGeneAnnotator	CDS	908050	909237	.	-	0	ID=MGA_836;product=replication-associated recombination protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016291.1;translation=MNLFNYDKEPLAYKYRPKDFDEFYGQENIRKILFRMLENNKIISSIFFGPSGTGKTTLAKIIADKLGYDYVYLNAIKASKNDITQISLKAKNSVNKTLLFFDEIHRFNKLQQDSLLEDLENGNIILIGATTENPYFSLNRALLSRVLLFEFKKLDEEDIFNILEKIAKEEQLEYKEDILKYISMISDGDARTSINFLETLINADFLNSSIEEVTELFNIKVFADRYDAISAMIKSIRGSDPDSAVYWMSKLLIGGEAPMYIARRLVISASEDIGLANVQAINVAVSCMNAVKEIGMPESRIILSECAIYLALSPKSNSAYMAINKSMLDIEENGAQSVPVHLTKIGAKKYLYPHDYENNYVNQKYMNEKKKYYIPGNNKFEKNMEETWIKIKGEK;locus_tag=LOCUS_08320;note=WP_011016291.1 replication-associated recombination protein A (Fusobacterium nucleatum) [pid:47.9%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:1.1e-96],MGA_836
sequence1	MetaGeneAnnotator	CDS	909250	910716	.	-	0	ID=MGA_837;product=4-alpha-glucanotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012259030.1;translation=MRKAGILLHPTSLSGKEGIGTLGFEAYRFIDFLKKSKQKLWQIFPLGPTGYGDSPYQCFSAFAGNPYLIDLETLVQEGYLDYSVLDTNFGDNKENIDYGMIYTNKLPILRSAFEKFNIENEDFIKFNIENDYWLDNYSLFAALKTYFNGESWSNWPNELKNRDNGAIKEYKVKLADEINYQKFLQYIFLKQWKSVKSYANQNGIEIIGDIPIFVSMDSADAWSNPEIFLFDKDRNPVKVAGVPPDYFSATGQLWGNPLFDWNKLKETGYKWWIDRVKANLSLYDIIRIDHFRGFESYWAVNYGETTAINGKWEKGPGIDLFNAIKKSLGEINIIAEDLGILTDEVVELKESAGFPGMKILQFAFDKDPENEYLPHNYEKNTVVYTGTHDNDTTNSWYFKLNDMQKGEVRDYLNVSDDSYIVYSMIRLALRSVAETAIIPMQDYLNLGEFARINTPGLASGNWQWRLNGWELNDDLASTIAHITEIYGR;locus_tag=LOCUS_08330;gene=malQ;EC_number=2.4.1.25;note=WP_012259030.1 4-alpha-glucanotransferase (Chloroflexus aurantiacus) [pid:52.4%25%2C q_cov:99.8%25%2C s_cov:99.0%25%2C Eval:2.1e-148],MGA_837
sequence1	MetaGeneAnnotator	CDS	910759	911838	.	-	0	ID=MGA_838;product=DNA recombination protein RmuC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010958086.1;translation=MVYTILILLVILILMLIYLIYLINSNRNNNEFKDMKFEILEKLMEKNERSKEDISKLIYEGKINVTSEINDFKLNMKENITKDVLNLGDKVENVLKDGFKISNEAVNTVINRLVKIDETQKNIEKLSTEVISLQKILSDKKSRGSFGETRLEQVLGYVYGDNNNLYERQYKFSNGKVADAVLFLNTKLNKVAIDSKFPLENYILYSENKNVEYRKEFIKDLKKHIDDISSKYIIIGETINQAIMFLPSESIFIDIYSEFPEILEYAYSKRVWIASQTNLMIYITTMQFSTIEYKRNENAKEILNQLDRFSKEFLRYNDRWQNLNKDFKRLEKDFNDLNITSDKIAKEFEKIKNLVDINE;locus_tag=LOCUS_08340;note=WP_010958086.1 DNA recombination protein RmuC (Coxiella burnetii) [pid:31.9%25%2C q_cov:90.3%25%2C s_cov:75.6%25%2C Eval:3.6e-48],MGA_838
sequence1	MetaGeneAnnotator	CDS	911847	913064	.	-	0	ID=MGA_839;product=YihY/virulence factor BrkB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480035.1;translation=MIYNKEKVISMVKIYFKKYFSKDLSLLASNLTYMMILTIFPFFAIILGIAKGFGLDEKLIAQVNALLPQNEQVLAYILETTNNLIENARGGILTGLGILILIFSVISMFDLLENTFNDIWNVRKNRNFTSKIISYTALVFITPIFILLILASSSVLVEFIKSFADISNLTKYILKVFNMFMRMMFISGLFILIPNKRVKILPAIIGAAISDIGLNILYVIYVYLQFSISRYNIIYGSLAFIPIFLIWIKYAWTIILIGAQITYTIQTSKELVEEDFEMSLSMKKKIGVYIMYILSDRFNKLENPLDMNALKLYTGISEKALNKSILLLQDYELINEVLDENNELEYYQININPNKLSYGLFNSIIENEGIDDKYILEDMPSERREEFEKISNELTYYNDKIINEE;locus_tag=LOCUS_08350;note=WP_198480035.1 YihY/virulence factor BrkB family protein (Fusobacterium canifelinum) [pid:27.6%25%2C q_cov:97.3%25%2C s_cov:93.5%25%2C Eval:7.7e-42],MGA_839
sequence1	MetaGeneAnnotator	CDS	913061	914245	.	-	0	ID=MGA_840;product=tRNA 4-thiouridine(8) synthase ThiI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011860948.1;translation=MNIRLSKINAIGLGYGELALKGKNRGIFEGNIKQRINNKISSFDAKLVNDLSKLYVHTNEENIESLILELKKIFGINNINFSIMVDTDEKLIKDKLKEIATDLYQDGARTFKVEVNRANKKFEKNSMDFAKELGAHILINTEFSKVSMKNPDVLISLDIREKTYIYTQKINTYGGLPLGSAGNGLSLISGGIDSPVASFLMSKRGLKLDFVTYHSFPFTSEKALVKIEELVKILSEYNGKSKFYSMNILPIQQAINEKTNKEYATILTRRVMMRLSEMLAKKNNLRALVTGESLGQVASQTLEGLNCTAASVKDLVVFRPLISIDKLEIIEKANEIGTYEKSIEPHDDSCAMFAPKHPNTKPKLDNILLEEEKIENYNELLLEIFNNRKMVVVK;locus_tag=LOCUS_08360;gene=thiI;EC_number=2.8.1.4;note=WP_011860948.1 tRNA 4-thiouridine(8) synthase ThiI (Clostridioides difficile) [pid:41.6%25%2C q_cov:93.1%25%2C s_cov:94.4%25%2C Eval:5.3e-80],MGA_840
sequence1	MetaGeneAnnotator	CDS	914245	915408	.	-	0	ID=MGA_841;product=tRNA guanosine(34) transglycosylase Tgt;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902330.1;translation=MEKPVIYNLEKKDGMARAGVIKTPHGIIHTPVFMPVGTQATVKTMTPEELEEIGAEIILGNTYHLYLRPGDELIAKFNHLHNFMNWKKPILTDSGGFQIFSLGDLRKIKEEGAHFRSHHDGSKHFISPEKSIEIQNNLGSDIMMVLDECPPGLSTREYLIPSIERTTRWAKRCIEANKNPENQGLFAIVQGGIYEDLREKSLNELLVMDDSFSGYAIGGLAVGEPREDMYRILAHTTPLLPETKPRYLMGVGEPLDMLEAIENGIDMMDCVHPSRIGRHGTVFTKYGRLIIKNKEYEYDDRPLDVSDNYVCRNYTRAYIRHLFKTNEILGQRLATYQNIWFLINMIKEARQAILEGRFKEFKEEFIKNYTQGKNSEWIRPKDIRKGE;locus_tag=LOCUS_08370;gene=tgt;EC_number=2.4.2.29;note=WP_005902330.1 tRNA guanosine(34) transglycosylase Tgt (Fusobacterium nucleatum) [pid:72.5%25%2C q_cov:96.4%25%2C s_cov:100.0%25%2C Eval:1.0e-157],MGA_841
sequence1	MetaGeneAnnotator	CDS	915420	917612	.	-	0	ID=MGA_842;product=bifunctional (p)ppGpp synthetase/guanosine-3'%2C5'-bis(diphosphate) 3'-pyrophosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902331.1;translation=MANITGREVYHRIKENIIQNHKELDIERIEEAYVLAEEAHRDQKRKSGEEYIIHPLEVAEILLSLRMDTDTIVAGILHDVVEDTFITISDIEYSFGKDVSMLIDGVTKLKNLPKKEGKQIENIRKMVVAMSEDVRVVIIKLADRLHNMRTLKYQTPEKQIEKSKETMDIYAPIAHRIGMGKIKSELEDISFYYLNKKGYQEIKFLVNTKKEERQRYIKKIIEIIEKELKNASIEAHVNGRTKHLYSIYRKMYEKNKQFKDLTDLTAIRILTKKEVECYAVLGLIHSIFTPIAGRFKDYIAVPKANGYQSIHTTVTGIDNQIIEIQIRTEEMHQIAEEGVAAHWMYKEKKSKDKNEKYYATIKKIVESSIEGASNNEPVETFAKEVTEHILKKTIFVFTPKGDVVELQAGSTVLDFAFQVHTQIGYRTIGAKVNDRIVTLDYVVENGDKIEILTSKTAKGPGNDWINIVNNHSSKSKIRKWFKDIEFEMKSKEGEVLLNEEFNKKGLKFKDYEDDDKVLLYMKKFNVTSLAHLYYKFANNELTLEHFVAKFEKKEEVDIEQAIEEETAKTTQKIRENNQGIKISGSDNTLFNFAKCCAPLPGDEILGYVTRGRGIVIHRSDCNNIQKLLENESEREIEVYWDEKLLEKSNNKFQIYFTIKTVGRTGLMLDIMRLLNEYKIDLTGVNTKIIKENGEKLAIIHLGVLVKRREDYEKLSKNLLNMREILDIIRK;locus_tag=LOCUS_08380;note=WP_005902331.1 bifunctional (p)ppGpp synthetase/guanosine-3'%2C5'-bis(diphosphate) 3'-pyrophosphohydrolase (Fusobacterium nucleatum) [pid:47.7%25%2C q_cov:97.3%25%2C s_cov:98.1%25%2C Eval:1.9e-196],MGA_842
sequence1	MetaGeneAnnotator	CDS	917706	920270	.	-	0	ID=MGA_843;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCINRSVFLFIFLSSIISNSESIDEKINEDIMKINEVEKQVKYDKIEDITEGSGNCLVFSDDNSSNMKIVNNSFLKSSNELIKKLSKGSYDLLHITNNKKIIGEDSAKLSQSKYIYFKNSENAVISNEIYNKSIHLKSEELIVLNNAGTIEGKIDIRSKYGSVINKESGIHKNADLEFREEGNYKNEGKVNGNVKLNAYLSFRFVNSGTINGNIETWTRSYSDKFNDKDIYLNNSREALFLNTSTGIINSESSIKLISGTANMNFQNFGNIETEDLIIMAAKGRIDNNKKIKGNLQIHSIGAEVAESPISDEKMQEIRENSVLNVNLQNGVLEGNLLLSRKGFKETIVTIKSMDNVTGELDSTEGDNDTLRLIGEGKITDSNKFKEFEKLHLDSSKWEFINEEYKVNNEILVENSNPSIRKAKLKTKKFTNNERSTINVLEASNIEVEDKFVNKGLISFLNSKDNTSNLSIKGNYIGENSKLLMRTYIDELKSDKLKLDGSVNGSTGVEISNPNSTLDKRMKNKLKLIETKSSTKDAFTLLNSEYGIYKYGLNLEGNDWYLNQTYNMPIIGIILNSTNNARNEFNLTFNDHNESIANKKLWTKLSKIYSNNILSGDNKFNLPIKSNTSNIFMGYDLVESNIKDRTYKYGVFGNVGFDKANNLGKTNAFGLGIYGTFKNNNWYVDSWLNYMYLKNRIAIKNELRYINHALKASLEIGTRGDMYIGKMRLHSSHYWQLIYSHIFNTGLKYDEDVKYFGNSNIKSRLGTNLTLFTHFKNINPYLEFNWIYDTRLVGVRVEKEEYLYNNNKNTFELKWGLREMNVNDRLSMWVNIVHRFNEAGYRANGVEAGMVYKMI;locus_tag=LOCUS_08390;note=WP_002211638.1 autotransporter adhesin YapH (Yersinia pestis) [pid:23.3%25%2C q_cov:44.7%25%2C s_cov:11.4%25%2C Eval:1.2e-14%2C partial hit],MGA_843
sequence1	MetaGeneAnnotator	CDS	920424	922991	.	-	0	ID=MGA_844;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKNKYMGYVFLLMSILANAETVDEKINEDIKKMNEIESKIKYDKTYKDPEGEINVGNDEKANFEFNKDFTISKSAKIYSKEKELPNSLKIVNNANISLEKNKEFVIAPGIEPGIEGYSNLIHMMNNKKIETSENERLIDLRAKNIYFKNSANAIIENKLKEDNIYRTAIELFGEELTVLDNAGTIYGYSLLHGITKLSVINRKTGIIDGYLSLLSHQCSLNLKNEGKIKGERIYTKYMSESTFVNSGTIDVKMIDYNLSEISDEDKGTNFLNDKTGIIKIENMFFTLLNLNFQNFGNIEASGKIEISSSNGKIENNNRIKGNVNISHFDDVDGKLLVNLQNGVLEGDLKLEKEGFNETIVTIKSMSNVTGNLISEGNNDTLRLIGSGEVKSKDKFKDFEKIHLQNSDWTFSDEEYKVNNEILVEASKLSIKKGDLKTKKFTNNERSTINILKDSNIEVEDKFVNKGLISFLNSKDNTSNLSIKGNYVGENSKLLMRTYIDKNESDILKLDGSASGSTGVEISNPNSTLNKRMKNKLKLIETKSSTKDAFTLLNSEYGIYRYGLNLEGNDWYLSQKYNKLVLGVIANSIYKAKNEFNLKYSDHNGNDRFWSKSSTIFSKNTFTNNNGYNLNLSSNTTNIFVGYDIGKKDQYKYGVFGNIGFEKISKGETGVFGLGLYGTWNNKHFYADSWLNYMYSQNRINTDDVFSYGLHTFKSSIEVGTKGDMYIGKNRLVCNLYEQLIFSYVSNPNIEDVNNLNNVNIKSRLGTNLTLFTHFKNINPYIEFNWSYDTRLVGVRVEKEEYLYNNNKNTFELKWGLREINVNDRLSMWANMVHRFNEAGYRANGVEAGMVYKMI;locus_tag=LOCUS_08400;note=MGA_844
sequence1	MetaGeneAnnotator	CDS	923200	924423	.	+	0	ID=MGA_845;product=IS91 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011674482.1;translation=MYNSNKIKSIFSKYILTNSINSIKPYFDKKHIEHINHSIHNFLNCGNLSKGFISYRCSSCNFQHKMKLTCKSRLCPSCGYNYSVNWTNSILKQFINIPHRHVLFTVPKEFRKFIAYDRSILSKMSKAINNIFKYQFHNIKDKVKRKIYIPKSNPNYFTNSDIINYGLITVIHTFGRDLKFNPHIHAIISLGGFNKKFQYKELKYFHVPSIANQWKFSLCKLISNANYPNDIIKIQAKKAVSNVYDNDVRLFFNVAGNDINNPKYIIKYLGRYLSRVPIAEYKIVNIDFNKNSLTFKFEDLSNNKEVTYSTLSFKDFVAKVLFHLPLKYFKMINRYGFYARRISSKVKMSLFYLKAQVNKKSLSLFRKNFKELWDFDPFMCPHCNIYLKRYELFIDNGLSPPIHKFYN;locus_tag=LOCUS_08410;note=WP_011674482.1 IS91 family transposase (Lacticaseibacillus paracasei) [pid:25.9%25%2C q_cov:87.0%25%2C s_cov:76.9%25%2C Eval:2.3e-38],MGA_845
sequence1	MetaGeneAnnotator	CDS	924598	925902	.	-	0	ID=MGA_846;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002675474.1;translation=MKIGLFSDTYLPHANGVAVCVYTLKKGLEELGHDVYVITCNDSMKLTMEDKVIKLPSILLKDFYNYSVTGPFHFSGFNEIRKLNLDIIHIHTEFGVSILGRILSKMLGIPLIYTYHTMLEDYVHYINFMNIDILNKPFVKFVEMISKMYCYPSNAVIVPSKKTYDLLMKYSIKNTDIRVLPSGIDLERFKNPNKENIEKLRKHFNLEGKKVMMYLGRVAKEKNIEIILETIKNRKDITLLVVGEGPEFKHFKEKYDLENIIFCGKKEYSEVPDYYNLADGFISASTSETQGLTFIEAMSTGRVLFCSDKVVLKDLLFENENGYFFESIEELNEKIDLFYSQDLDKRKLMMNKSIEISEKYDLKLFIKKVEYIYIDNLGKIYRIQKIKLNKDGSFRVHIRNRRYKISKELFNKLNLKVNNKIDKSTLMLIRENKL;locus_tag=LOCUS_08420;note=WP_002675474.1 glycosyltransferase family 4 protein (Treponema) [pid:37.5%25%2C q_cov:85.9%25%2C s_cov:98.4%25%2C Eval:4.8e-61],MGA_846
sequence1	MetaGeneAnnotator	CDS	925906	926043	.	-	0	ID=MGA_847;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEINKELYNILLKEYEKENELLCGCEILSFEDYIKFRITELEKKE;locus_tag=LOCUS_08430;note=MGA_847
sequence1	MetaGeneAnnotator	CDS	926033	926314	.	-	0	ID=MGA_848;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRFGKILKIIFWIIFFLGMFYTYSKIKYIKKSAYNNTDLILEDFNIRKSGFYENNIKEEQKQEKIEENEDRSEADKEVDKIIKEHLDNKNGN;locus_tag=LOCUS_08440;note=MGA_848
sequence1	MetaGeneAnnotator	CDS	926323	926991	.	-	0	ID=MGA_849;product=5'-methylthioadenosine/adenosylhomocysteine nucleosidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005900142.1;translation=MIGIIGAMHEEINVIKQEMENIEIEIVNGNTFYIGLLNNKKVILVGCGIGMVNAAIVTTLLINEFKVKKIYFSGVAGSTSNKLKIGDIVISTELQEYLFDTTEFGYEMGIIPRMETSIFKPREILEDAMNKLKGEKIHFGKIVSGDKFVSNADEKIKIGENFKALCVDMESASVAHCSYLLGVDFLIIRSISDTLSDESTMEFEKFVNLAAENSKNILTKLI;locus_tag=LOCUS_08450;EC_number=3.2.2.9;note=WP_005900142.1 5'-methylthioadenosine/adenosylhomocysteine nucleosidase (Fusobacterium) [pid:48.0%25%2C q_cov:99.5%25%2C s_cov:97.4%25%2C Eval:5.8e-49],MGA_849
sequence1	MetaGeneAnnotator	CDS	927071	927508	.	-	0	ID=MGA_850;product=Dps family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000224703.1;translation=MNKTIDALNIYLADLNVFYRKVQNYHWNVVGQGFFTVHAKLEEIYDAVNEKIDIIAERVLSIGGRPYGSMKKYLEVTTITEAKDEDITVKELLNVLIVDVENLLGQVKNLKNITDEEGDFGTSAELDNHIAEYEKLLWMFKAYIK;locus_tag=LOCUS_08460;note=WP_000224703.1 Dps family protein (Vibrio) [pid:41.3%25%2C q_cov:98.6%25%2C s_cov:91.0%25%2C Eval:1.1e-24],MGA_850
sequence1	MetaGeneAnnotator	CDS	927637	927945	.	-	0	ID=MGA_851;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIIISGKQLEMTEPIKKYVESKISKITKYLENIPETDVTLTVEPTKSEGKLYKAIATVYAPNKTIRQEETDADLYAAIDNLSSGLERQVRKYKEKMKDRSE;locus_tag=LOCUS_08470;note=WP_003434417.1 ribosome-associated translation inhibitor RaiA (Clostridioides difficile) [pid:44.0%25%2C q_cov:98.0%25%2C s_cov:52.5%25%2C Eval:2.2e-16%2C partial hit],MGA_851
sequence1	MetaGeneAnnotator	CDS	928009	928668	.	-	0	ID=MGA_852;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495145.1;translation=MLELKNVYKTYVTKAEKIDILKDINFKFENGDFFSIQGKSGSGKTTLLNILGLLDDVTEGDILIDGEKINNRDIIETRRKKIGFVFQFHYLLNEFTALENVMIPALVNDSKSRKEIENKAINLLKEVGLEHRINHKPQELSGGEKQRVAIARALINDPEIILADEPTGNLDYETSNLINELFVKINNKGQGIIIVTHSIELANLAKVKYKIENGKLKQI;locus_tag=LOCUS_08480;note=WP_029495145.1 ABC transporter ATP-binding protein (Fusobacterium hwasookii) [pid:51.6%25%2C q_cov:99.1%25%2C s_cov:98.2%25%2C Eval:2.5e-57],MGA_852
sequence1	MetaGeneAnnotator	CDS	928679	929830	.	-	0	ID=MGA_853;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016502.1;translation=MIEFFIAKRHIIERKFQSIVSILGIAIALTVFVVSLAISNGLKNNMLNSILTLSPHISVGIYQDYQQEYIDISKKIDKYNFKDVNYRIESQGLIKVNGISKSTLIIGTNLEKLNLNVVEGSIEKDNLTSVLVGNEFIKNTGTRVGDEITVLTSEMREIKAVISGVFKTGFYNYDSDLLLFPLETLQLLEERGEVASTIAILVDNPNKTDNLDLLVRDINESYGDKVYARSWNMDNQSLLSAINFEKFVLVSILSMIILIASFAISVILNMIVREKITDIGILKAMGFADKNILKIFLFEGLIIGITGMLFSLLFSPILIILLKLVFKYYITSTYYLETLPISVSLIEMLVIYFISFVLILFSTIMPSIKASKMNTVEAIKYNN;locus_tag=LOCUS_08490;note=WP_011016502.1 ABC transporter permease (Fusobacterium nucleatum) [pid:38.8%25%2C q_cov:99.5%25%2C s_cov:99.7%25%2C Eval:2.7e-73],MGA_853
sequence1	MetaGeneAnnotator	CDS	929838	930320	.	-	0	ID=MGA_854;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEIKMKIEEAIVYDPKVKTKYRLSNLYIFRSFILITIILFTIFYVGMDLFKDKMSDNYFKIFILLALIIYIIFHLNTVLKFKIYVDENEIRDKNNKVMINQIEKLSIRIMRISKNSNENCLIIKTKDKKEYIYRLNINNKYRFIKQISVLTNLDVIIEE;locus_tag=LOCUS_08500;note=MGA_854
sequence1	MetaGeneAnnotator	CDS	930322	930642	.	-	0	ID=MGA_855;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKLYTLAIILLFFAIFSALIFRTYNNVKKSREINIKLIESNKKYEKLKEEKEKLQKELEESRKGTNKEKFVRDNLNFKKDGERIYKIVDEDSKESQTQKKENGE;locus_tag=LOCUS_08510;note=MGA_855
sequence1	MetaGeneAnnotator	CDS	930644	931108	.	-	0	ID=MGA_856;product=transcriptional regulator NrdR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003723246.1;translation=MKCPYCGDKETKVVDSRSYSDGNSIKRRRECDLCNKRFNTIEKIFNLPIVVIKKNGEVEEFDRNKIYQGIIRSLVKRSYVQNKVDEMIDEIEREILTNYDGKIHSNVLGDTILEKLFLFDEVAYIRFASVYNKFENLDSFLNTIKEVKKRKRKR;locus_tag=LOCUS_08520;gene=nrdR;note=WP_003723246.1 transcriptional regulator NrdR (Bacteria) [pid:43.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.8e-36],MGA_856
sequence1	MetaGeneAnnotator	CDS	931118	931582	.	-	0	ID=MGA_857;product=PTS sugar transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005919085.1;translation=MKTNYIFEKIYVDGINLDLQAKNKNALLKEMFKGLENNENILDKEKAFEDLMEREILGTTGIGRGVAIPHAKTDAVKDIIISVGIFREGIEYEAVDEEKVNILFMFLSPVELSREYLIILAKISRFCQDNKFRQVMLEVKTKEEMIELIKNMEI;locus_tag=LOCUS_08530;note=WP_005919085.1 PTS sugar transporter subunit IIA (Fusobacterium hwasookii) [pid:42.8%25%2C q_cov:98.1%25%2C s_cov:94.3%25%2C Eval:2.3e-29],MGA_857
sequence1	MetaGeneAnnotator	CDS	931598	932245	.	-	0	ID=MGA_858;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLINDVAIILNKKEISGSSVLVTMFTKEHGKISAIIFNARNSKKKHLASIMPLSISDVELEIKSNSKIIKNSILKKSFDKSLLKIEKLQLSLYVLHSLNQVLEFDNPEEELYNKSIEILEYINELDENTFLDVNFNIFILVTFLRRLMIELGIYDISQLINQYGLIDEYKDYITYSKNANLENTNSLITMLNCFQDYINNYFNIKLDYKKILIL;locus_tag=LOCUS_08540;note=MGA_858
sequence1	MetaGeneAnnotator	CDS	932245	932748	.	-	0	ID=MGA_859;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFALTILLTSLNFSKTFDFLQQNFNAEIVEFSEINNKKKKKIYNLEYMPNTVKFEVLEPKLNKGEIITYSNGKKTLYSPKLKQTVEQKLSFDDTSLYSILEELSNMDKNSTYEIKNRKYIFENKVLVEIIADKYKIRFSEYIDKKPQKIQYISNYANFEYLIKY;locus_tag=LOCUS_08550;note=MGA_859
sequence1	MetaGeneAnnotator	CDS	932745	933599	.	-	0	ID=MGA_860;product=rod shape-determining protein MreC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124796804.1;translation=MKKKKKIVKRLIFLMFVTVVLFLNRDNLINFTGEMLSDINFKLVETKTLIYDKYTKYNEKLNYLNNVQKNIEELEKLKSEIQLLSAEKMELEKFEKENTELRSYLKLENNSNRKFITAEVILKDDLNEQDIIFINKGSKDGIEPNLPVILNSNVIGRINKVSEDYSEVHLISNPNFKMSVNVNGIFTGIIRGKGSLNFVIKNFNVEKADKISKFDIETSGISEMYPKRLPIGTFDLQDKSKLMDSKELNFSISDKVIGINTVVVYKFNASKLKLLKKIEGNEVK;locus_tag=LOCUS_08560;gene=mreC;note=WP_124796804.1 rod shape-determining protein MreC (Fusobacterium canifelinum) [pid:30.1%25%2C q_cov:98.2%25%2C s_cov:97.9%25%2C Eval:2.5e-19],MGA_860
sequence1	MetaGeneAnnotator	CDS	933608	935209	.	-	0	ID=MGA_861;product=chaperonin GroEL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016573.1;translation=MSKIIKFNEEARLSLQKGVDILADAVKITLGPRGRNVVLDRGYGSPLITNDGVTIAKEIELEDYTENLGAELMKEVAIKANDVAGDGTTTATVLAQSLIKEGFKMIQAGANPVFIRRGIEKTSKLAIEKLKERSVTIKNNNEIEQVASISAADENIGKLIASAMKTVGENGVITVEEAKSLETSMEVVEGMQFDNGYLSPYMVTDTERMSVELENPYILLTSRKINSMKEILGLLEKVVESSKPLLIIADDIEGEALSTLVLNKIRGALNVVVVKAPAFGDRRLAMLEDIAILTGAIVISEEKAMKLEEADLDDLGMARRVKVTKDKTIIVDGMGNELERKERIIQIKGQIEESKSEYDKEKLQERLAKLSGGVAVIRVGAATETEMKEKKMRIEDALNATRAAVEEGVVAGGGTALIQIFKDIKEFNIEGEEGIGVEIFKKALFAPLRQIAINSGVDAGVVIEKVLNSELNYGYDALKEEYVNMFERGILDPTKVTRSAIQNSSSIASLLLTTEVSVVTKEENKNQQMPNMY;locus_tag=LOCUS_08570;gene=groL;note=WP_011016573.1 chaperonin GroEL (Fusobacterium nucleatum) [pid:66.7%25%2C q_cov:99.2%25%2C s_cov:98.1%25%2C Eval:4.5e-197],MGA_861
sequence1	MetaGeneAnnotator	CDS	935202	935477	.	-	0	ID=MGA_862;product=co-chaperone GroES;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000917289.1;translation=MKIKPLGNRILIEKVKVEKRTRTGLILTENIEAENNYAKVLEVSEDVVGKIKRDDTVLVDLSNAMEVRVDGSVKYILDIKDVYAVIGGSNE;locus_tag=LOCUS_08580;gene=groES;note=WP_000917289.1 co-chaperone GroES (Bacteria) [pid:29.3%25%2C q_cov:92.3%25%2C s_cov:97.9%25%2C Eval:6.9e-07],MGA_862
sequence1	MetaGeneAnnotator	CDS	935593	938775	.	-	0	ID=MGA_863;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFKRFQFLGLLFLISCSIVDIDESIPNVENIGRNISSNYIINSENNESNSPKINSNVEKKEIMKDSESQNTINTVDNNEKLKQKLDRNESLIESNINTTRQLKEEDNPVTIVELFLNKSGEEKIKEKYGLTNFIGSDNSNASYNEHALRVLDGFMDTNADGIISEEEKNIFKGKNPGIKLVRRNHVGFDIMNTYGILSMSYSLVYHNINFNYLYPYSKYLDKIYNDKTYLNDYLTKRLLNKNYVYNERLLISAIGNQNLSNLETKYFSNDLSNKYQIMSPEMQALSRSESLLVKNSFRRDHNLIKKFNKYMSTIYIDSESNYYSGSFTRKDYHTQALLLRSFTVGESGLLDIEDKRYYPDSGSSYSTPRIARLAYDIKEKYPFLTYQQVKQVILGTANHDISGYLDDNVGWGNANREKALKGPSDFNAGLIDEMKYFKGNYDKIFDENGNRYFYVNIKNGKEYTFENDIVSGLKGDGNNKESKIIKIIAKKYSYDNTSREYQYRIPKVLESEKLFYSNVAQAGLRKDGEGKLILTGKQEYTAPSQVLNGTLVLKNDSKSDYTIAKKGTLVVENRTNDESEIKLKNIYTDGKLKIDSTKTSIDKLHGTHTSDVEFSGKEINIKEFRTTGEYTIRVKENEQLNLNIEKFEEEYSDFLNNLSNPFLKPVVINKDKIVSIKFVDNINEEFKKLGEITDEKILKDLPSYDVNKKKFFDEYIDNTNVSIGGTNVLMKPMSSSLRTLLLSSNSSEVKNIFTDNYASIVGNIIKNEIDNKYNRTNIILNNLEKGNRLYFDTYVRTNILNDEKFSPFVDKNYGAIIGYSRKLLNGNVLNLYGIYQYGNVEFKNSGSNKTKSINNLYNVGINISKKIFDIFAFDFDKNIGYSKSDVYNDTSDINKKTNILQSLSINPSIKLSMELKINSIKSILKPYVGYSFNYILIWGKKDNEAKENESFINRLRDIGITSAYNNNLEAGVEIDSKINDRISIQNRLVVDYNSLDEIKLNQKLAEKLHKTVGKGLNKISANYNLGVKLKVMDSLNVIGKANINSKLNVGLNLGIDFNF;locus_tag=LOCUS_08590;note=WP_201627120.1 autotransporter serine protease fusolisin (Fusobacterium canifelinum) [pid:21.1%25%2C q_cov:55.1%25%2C s_cov:53.8%25%2C Eval:8.6e-15%2C partial hit],MGA_863
sequence1	MetaGeneAnnotator	CDS	938848	939399	.	-	0	ID=MGA_864;product=DJ-1/PfpI family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005791124.1;translation=MKKIAVMIFNNIEEVEALFPVDLFRRAGIHVDLVSLYTDKKIMGSHNIEISAEKTLNEVDFMDYDCVFLPGGLGTSEYFKSEILEKKLKNYYNENNLVAAICAAPKYLAKLGLLKNKKAIVFSGLEEDLIENGAIIENSPVVKCGNLITGRSVAAAKDFGLAVVEYLLGEDEVNKLKVEIINY;locus_tag=LOCUS_08600;note=WP_005791124.1 DJ-1/PfpI family protein (Bacteroides) [pid:38.4%25%2C q_cov:96.2%25%2C s_cov:95.6%25%2C Eval:3.2e-30],MGA_864
sequence1	MetaGeneAnnotator	CDS	939409	939723	.	-	0	ID=MGA_865;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKLKIKKEETKNKIVDNQENNDLKNLPFSKLDYVLYLIFFVVSVINETPGRLVLIIFAIFGASLLFKRFSDKLSIGFVYRMFVFALLSLLAWPVNVLIKYFLG;locus_tag=LOCUS_08610;note=MGA_865
sequence1	MetaGeneAnnotator	CDS	939731	941440	.	-	0	ID=MGA_866;product=phosphoenolpyruvate--protein phosphotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029494171.1;translation=MMRLTGIGASEGVAIGKVYVFHEEEIQLPEEKLLSGETSESEIIKLEEAMKKSKTQLIAIREKVRIKMGDDKADIFDGHILLLEDEDLMDEIKNKIMEDGLKAAHALKEGIDEYSLMLSQLDDPYLRERAADFQDIGKRWLKNLLNIKISDLGNLEPNTIIITNDLTPSDTAQLDLAHCNGFVTEIGGKTAHSAIMARSLEIPAVVGTRSILSEVVDGQGIIIDGDKGEIYLNPTDELIKEYEIKREKQLKAKEELKKIKNLKPITKDGHEVEIWGNIGKPEDIDAVMEAGATGVGLYRTEFLFMNSGHMPTEEEQYKAYREVVEKMKNCPITIRTMDIGGDKELPYLDLPKEMNPFLGYRAIRISLVQKDMFKTQLKAILRASAYGTVKIMYPMITSINEVRAANVILEECKKELDEIGKKFDRNIKVGIMIETPSSAIIAYKFAKEVDFFSIGTNDLTQYFLAVDRGNEMVSDLYSAFNPAVLEAIQKVIDAAHDRGIPVSMCGEFAGNKQSTELLLGMGLDAFSMSASSVLQVKKKILESNYAEAQKYRDLILSKDTPQEVIDALR;locus_tag=LOCUS_08620;gene=ptsP;EC_number=2.7.3.9;note=WP_029494171.1 phosphoenolpyruvate--protein phosphotransferase (Fusobacterium hwasookii) [pid:52.3%25%2C q_cov:99.5%25%2C s_cov:97.9%25%2C Eval:2.8e-168],MGA_866
sequence1	MetaGeneAnnotator	CDS	941457	942149	.	-	0	ID=MGA_867;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLLLSIIMLNMNIFAEDLLISKEKLEVEEKKEKILNEFFTAIKFSNNTLAVSYISGDEERNISIYPNEAYSPGFAPIVKKGVEKVDINAENKIGETALMVAIEYNNIYILEELLKKDVNVNVRHNVLGKYPLHTAIFFENFEAVKLLVEKYPEMVNFQSDVDGWHPLEDAALKGNYEIAKFLIEKGANPLHKDFNGGNAIDLAANFGKGDIVKLLRDKIKELRNNK;locus_tag=LOCUS_08630;note=MGA_867
sequence1	MetaGeneAnnotator	CDS	942188	942925	.	-	0	ID=MGA_868;product=tRNA (guanosine(37)-N1)-methyltransferase TrmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003438222.1;translation=MKIRVLTLFTDIFKIYLSQTIMQRANDQNIKIDIENIRDYSDNKHKQVDDTPFGGGAGMVLKPEPFWKYFVNLRKSKIKKPFTIFVTPQGKKLTQEKLIELSKMEDLCIISGKYEGLDQRVIDKFVDEEISIGDYVLSSGDLPSLVIIDGIMRMKDGIIKKESYETDSFYNGLLGFPQYTRPQMIDKMEVPEVLISGNHEKINQYREMKAIFKTLKNRPDLLEEKFKDKDFLRKYDEFLKLIETL;locus_tag=LOCUS_08640;gene=trmD;EC_number=2.1.1.228;note=WP_003438222.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Clostridioides difficile) [pid:45.4%25%2C q_cov:91.4%25%2C s_cov:98.3%25%2C Eval:8.4e-55],MGA_868
sequence1	MetaGeneAnnotator	CDS	942927	943418	.	-	0	ID=MGA_869;product=ribosome maturation factor RimM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904385.1;translation=MEDLILIGTITGTHRLLGTLKVRTIFPLLDELKNLNVIIKNDFNDIKIAKVENVKGITGKRALIDIDKIKNVDEAKSLIGYKIYVRADLIPEYEEDESIIGYRVLHDLEDIGEVVDIMDTAAHPILVVIKEEKEVLIPFIDVFVKEIEYDKKLIKVELLEGMI;locus_tag=LOCUS_08650;gene=rimM;note=WP_005904385.1 ribosome maturation factor RimM (Fusobacterium nucleatum) [pid:30.1%25%2C q_cov:98.2%25%2C s_cov:95.4%25%2C Eval:3.7e-18],MGA_869
sequence1	MetaGeneAnnotator	CDS	943418	944095	.	-	0	ID=MGA_870;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSGIINFFKMYVEILKTMLKLIKKNFVFLILFFILNFLSFKYLFNGNSAYYTKILFNSLISLFNVTLVIILSISMKYNKINYKKAIIYLVIYSLLELLTIVEPLLIIQILLRPFLTFLPYLYFIENLNLKNSITLSIKLFVKLFIYIILLLSNYSFILILILSRLLINKIPVGGTTDIIKEEVYGLLHSPLFISLHLLCYILMITSIYFAFKIYTEKTNENEAK;locus_tag=LOCUS_08660;note=MGA_870
sequence1	MetaGeneAnnotator	CDS	944100	944501	.	-	0	ID=MGA_871;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKETVGIVLVCHSNSMTDAFLEFCNVLKQEDFELLNGGGSNYDTYGTTPEIVADVIRKANRGKGVLVLVDFGSSINAVKGAIKLINGEIDVEIADCPLVEGTVSAIVANDENMNLKKLKAIAEDSINFKKIK;locus_tag=LOCUS_08670;note=WP_011707688.1 dihydroxyacetone kinase phosphoryl donor subunit DhaM (Aeromonas hydrophila) [pid:32.6%25%2C q_cov:94.7%25%2C s_cov:54.2%25%2C Eval:6.7e-10%2C partial hit],MGA_871
sequence1	MetaGeneAnnotator	CDS	944510	945073	.	-	0	ID=MGA_872;product=RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904383.1;translation=MRNNVFLGLVHYPVYNKNSEVVATSVTNFDIHDISRTCRTYDINKYFIITPVDAQQELTSRILGFWQEGDGIDFNKDRNEAFENTLLSDSIEKSVEEIIKITGKKPKIITTSARLFEKTISFEKLSEKIFNDDEVYFILFGTGWGLTQEIMDLSDYILEPIRINTRYNHLSVRAAVAIILDRLFGEN;locus_tag=LOCUS_08680;note=WP_005904383.1 RNA methyltransferase (Fusobacterium nucleatum) [pid:63.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.7e-67],MGA_872
sequence1	MetaGeneAnnotator	CDS	945087	946820	.	-	0	ID=MGA_873;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYINLDERLQFILNILNEYGEGYLVGGALRDIFLGFKPTDFDMATNIPMEELLHILSEHNPIIISEKYQVISIQVDEYKIEIARFRKENGILDGRNPQKFKFVENIEEDLARRDFTVNALAYNNNKGLIDKYGSIKDIENLELNIIGEDKALRLAEDNTRIYRALYLVSKYNFKLSCETKKAISNFKNHRKLNVSISGFGRLLDKILFNKYSYKSLKIMLDNDLFKFFIPELSVDNLDNATIKNTVNTYNVYCKYNVFEDKTIGYAILFLYSGKSKLDDNKFLVNSMIIAESYLKKIGLNMTDIILVKNLIYYSNIISRAINKETVKRMLFEFRNNKNVSKLLNFISFIHHHDDNYNETMKKTLELLSRIQSIYFEGDVVFINDLDINLVDLYNIGLDTEISKESIRQDIYKHVNEGNLNNKKEDIIEYIKDKYNVKFNVVKVSSAGGIVYRINRENNIEFLLVKILGGNWGFPKGHIEDNETKVMTAIREIKEETNLETIIVDPENFQKDISYITNTGELKYVTFFLARAISHNVLIDIGEISEYKWCSYGDALKILTYSSHRKLLQEARLYIFKE;locus_tag=LOCUS_08690;note=WP_201627718.1 CCA tRNA nucleotidyltransferase (Fusobacterium canifelinum) [pid:30.3%25%2C q_cov:73.3%25%2C s_cov:96.2%25%2C Eval:2.0e-44%2C partial hit],MGA_873
sequence1	MetaGeneAnnotator	CDS	946831	948099	.	-	0	ID=MGA_874;product=16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016304.1;translation=MKIKKDLIILLDEVIENKKYSNLQLKYMFENNSYTKGEKAFLNNMLNVTLKNLIYIDYVILKLARSIKRKTKQILRLSIAQILYTSTDIAGVIYEAVELGKEENIYQANFINSTLRNFIRKKDEIFEITPENIKLSYPTWFYDKVRNQFGEDKFREVLKRYKGKSTFSVRVNHKKISVNDFKDLLKMVDSEILFNISDVYYLNNNNVLKTKAYLTGDIVIQDGSSLLVVDMLAPSNEDEVLDVAAAPGGKSLAILQKYNPKKLVATDIHEHKVNMLKEFESKYMNFKAILADGREFSEGIYDKILLDVPCSGLGVLTKKPEKVYEIDLKVIKAIKKLQKKIFDNTYKLLKNGGEMVYSTCTILENENTNNVAYFLEKYSDLEVVDFEFPQDVKIIKDEFGGNLISYENEYLDGFYMIKFRKK;locus_tag=LOCUS_08700;gene=rsmB;EC_number=2.1.1.176;note=WP_011016304.1 16S rRNA (cytosine(967)-C(5))-methyltransferase RsmB (Fusobacterium nucleatum) [pid:36.8%25%2C q_cov:99.8%25%2C s_cov:99.1%25%2C Eval:9.5e-75],MGA_874
sequence1	MetaGeneAnnotator	CDS	948089	948610	.	-	0	ID=MGA_875;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEIIFKNKYRFISIFAAIFYQIICSMPNSNLVMFMAGLIFMIAITYTNIDFLLAIKSKSKSTYIFLITTTFTAFLFEAAHSASFYLSDMIIKNYYLSMLIFFIRFIYFFSSALTIYHLFDIGKKKYIFIPLLNMFFAICLYVEVIIYLIPKAYIFGVILLIIVEFMENKNEN;locus_tag=LOCUS_08710;note=MGA_875
sequence1	MetaGeneAnnotator	CDS	948612	950399	.	-	0	ID=MGA_876;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFWNLFKKKEEYKDIEREKIKVYDDEKGEEIIVVKEDWIKKFLIPKIDQNINNREMLYNLILVGLNYQVYEELLEHTLKFREMEENSKRSTEVLTEIYFQSSVYNEIVELYEDYKDEMSPMMYYYYGLSLLYTGLDLEYVETILEGLYSYPNNDKLIGEFKEIFKNKNYDVQDKYMQTLSNLEGAYKLSIYFSEVEYINSNYNKANEYIVKALNQGNYKTEVITEVTKILFENKQYIEFENHILIRYSVESKDIEFTKLALLFYKEMFRYEDGLKLTKELYSYRKYYKSIIKLIAEYEEEYLRLKFKSESPASYDAATNCREMGEVKYFNISHPMHYYILNRDEKLLVEKNSDKNVMFLPIATLLLNKLDTKESAFINTLPIILLEKIYRSTNVKMQVTLSKDDVSIKEKMRDYDEKFFEGISNANPQLKYIITGLLDEENLGTKYLNIYRYDCEKKQIFKMISPINIKNNEVEIAKEYIESIKEYFGITVFDLQSNIEIDDIYNCSKRLNLFFDFDGNNKYRKWNLLYLLNYYISKIKNEDELLIALSIVHFMNIYKVEYDLEYKSIFYEKNLQIYDNPEIRRLINFVFENRGE;locus_tag=LOCUS_08720;note=MGA_876
sequence1	MetaGeneAnnotator	CDS	950409	951488	.	-	0	ID=MGA_877;product=tRNA 2-thiouridine(34) synthase MnmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002286726.1;translation=MKKRVVLGMSGGVDSSVAAILLKEAGYEVIGVFMKNWEEKDENGVCMSDIDYEDVISVAEQLEIPYYSVNFVKEYWDRVFEYFLSEYRLARTPNPDVMCNKEIKFKAFLDYANKLGADYIATGHYARLTTNEKGEKVLLRGVDNNKDQSYFLCGLNQKQLEKVLFPIGEYEKTEIRKIAEKYNLKTAKKKDSTGICFIGERNFNEFLSKYLPAKDGNIVDINGNILGSHHGLMYYTIGQRKGIGLGNTKEGTGEPYFVVDKNVEKNELIVAQGDDNLLYSKGLIANKFNFINEIELPFRCTVKFRYRQNDVSAVIDKIEEDRYQIIFDEKQRAVTLGQIVVLYDGEKCLGGGIIDQIIK;locus_tag=LOCUS_08730;gene=mnmA;EC_number=2.8.1.13;note=WP_002286726.1 tRNA 2-thiouridine(34) synthase MnmA (Bacteria) [pid:62.5%25%2C q_cov:98.6%25%2C s_cov:95.4%25%2C Eval:9.3e-129],MGA_877
sequence1	MetaGeneAnnotator	CDS	951635	952099	.	+	0	ID=MGA_878;product=prolyl-tRNA synthetase associated domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002289239.1;translation=MIYELLKKLNIEYVTLKHEPISSVKDHLFELEGQQIKNLLLKAKKTENIYLVLLHDEKLLNLTDLAEKLNEKRLSFASSSTMLELTGCNPGELTPFGLIFDKEKRINLIIDTAIDTNTTIGAHPFINTKTLNIQFKDFEKFFEYTGHKINFIEL;locus_tag=LOCUS_08740;note=WP_002289239.1 prolyl-tRNA synthetase associated domain-containing protein (Enterococcus) [pid:51.0%25%2C q_cov:94.2%25%2C s_cov:90.1%25%2C Eval:4.6e-33],MGA_878
sequence1	MetaGeneAnnotator	CDS	952110	952682	.	-	0	ID=MGA_879;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGYKNVNGRYTNEINIDAKYGLDAVFHKGLTATDEGIKQALSIDFGGKSRYKARENVEVILSLDNEYNLNGLNKEVYGVYVDYIKDSTGYKESIHKYAEKYDVSKQDSLRKEKGKIKDLTKGKLSSKAELEKAIHSLTVKPKISTEFSYVEGRLKVSPWIGAEFNLENKPNGASNNNNENKDFVKKEAV;locus_tag=LOCUS_08750;note=MGA_879
sequence1	MetaGeneAnnotator	CDS	952885	953226	.	+	0	ID=MGA_880;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKYLKSIVDSIFTSSISFFNDSPAPVNRAWLYSLFPLVAFRLAPSLYSANVCKSNPFVTFSFILFDVLKSLLSLLTSSLTLCSIVTLFELSDIRDSFVVGFIVAPSFTSGS;locus_tag=LOCUS_08760;note=MGA_880
sequence1	MetaGeneAnnotator	CDS	953556	954779	.	+	0	ID=MGA_881;product=IS91 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011674482.1;translation=MYNSNKIKSIFSKYILTNSINSIKPYFDKKHIEHINHSIHNFLNCGNLSKGFISYRCSSCNFQHKMKLTCKSRLCPSCGYNYSVNWTNSILKQFINIPHRHVLFTVPKEFRKFIAYDRSILSKMSKAINNIFKYQFHNIKDKVKRKIYIPKSNPNYFTNSDIINYGLITVIHTFGRDLKFNPHIHAIISLGGFNKKFQYKELKYFHVPSIANQWKFSLCKLISNANYPNDIIKIQAKKAVSNVYDNDVRLFFNVAGNDINNPKYIIKYLGRYLSRVPIAEYKIVNIDFNKNSLTFKFEDLSNNKEVTYSTLSFKDFVAKVLFHLPLKYFKMINRYGFYARRISSKVKMSLFYLKAQVNKKSLSLFRKNFKELWDFDPFMCPHCNIYLKRYELFIDNGLSPPIHKFYN;locus_tag=LOCUS_08770;note=WP_011674482.1 IS91 family transposase (Lacticaseibacillus paracasei) [pid:25.9%25%2C q_cov:87.0%25%2C s_cov:76.9%25%2C Eval:2.3e-38],MGA_881
sequence1	MetaGeneAnnotator	CDS	955020	955328	.	-	0	ID=MGA_882;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFIKNIETKYLILGVILFFSSLALANTFQNSVIGFESFISQIASFLKFFKLIVCVVFSIRIIVLIFNQQWYKLHETIVIFTIIIIAFFLINTTLGILAGK;locus_tag=LOCUS_08780;note=MGA_882
sequence1	MetaGeneAnnotator	CDS	956137	956964	.	-	0	ID=MGA_883;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIIKVDEEEFKLKGFVVKQLGFMKYEPKEYKDKLPGLNLNDEFDVEFRSVEKETTPPSKVNESELSKFLKNPFKKEKNATEEEIYKDILEGIEIGTEATRTGIIDKCIRIGYLTLDKGVFDITEYGIFFIDRLIEYNINLFKEKSVEFSKLQKKVYKNEINLEEVIEKVEYELKDIVERTKHIEMPSVERFSREIKGVVEINTKNGKCYKGLFNNEEIWLYPNMKYFDNNLKITKSIAEKLCKGNHVEFELDYKGKKYMQKLKIEKNERYINFVK;locus_tag=LOCUS_08790;note=WP_011861544.1 type IA DNA topoisomerase (Clostridioides difficile) [pid:30.3%25%2C q_cov:98.9%25%2C s_cov:37.1%25%2C Eval:3.4e-18%2C partial hit],MGA_883
sequence1	MetaGeneAnnotator	CDS	956972	957100	.	-	0	ID=MGA_884;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNMDYFYMSDVEYFDFIVVPRALVVNEHFANLSVEAKILYCI;locus_tag=LOCUS_08800;note=MGA_884
sequence1	MetaGeneAnnotator	CDS	957687	958079	.	+	0	ID=MGA_885;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKSNFNFRLKEALKIKKMSQRMLALQTNLSPATIFNYLKGRNAAKYENIVKIAKCLNIDPQWLDGYDVPISNLFINYPFTIAEKKDLDNWLNTNKLYFDSLNISSDDKETLKNIMIESFIKSLKNKDK;locus_tag=LOCUS_08810;note=MGA_885
sequence1	MetaGeneAnnotator	CDS	958097	958390	.	+	0	ID=MGA_886;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENSKKYEIIYSNFQNLEYGILIQGENKYLLILNSKLKKKIMKITINLMKYLISKKKSTTLITRQNLDKFYNFVFFCIKKHTKRKRKAHVKIKITK;locus_tag=LOCUS_08820;note=MGA_886
sequence1	MetaGeneAnnotator	CDS	958437	959426	.	+	0	ID=MGA_887;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVRISLPLENDGKQKRLILGYYKTYRDAYNALIEYNSSPLNIEDAKFFKVSVLFERFKKEKENSVSKQTYKRYINSFNDFECLFDKEIREVKYDDIQKILSKQVKAKSLSSLVVWNWIFEESIKLDIINKNISSHLKVSSKVTKTIDRTIYNVDIINNIWKLTNENNFVADILICLLYSGLRISELLEMKRENVYIENRYLIAGKKTQAGKNRVVPIHKRISPIIEKYLEKSKISSSEIVFGKYNQNGFYNKISSANFRYYFYDFMEKMNLKMNIHSTRHTFISKMKSLEVSDSKLKRIVGHKGNDITDNVYTIYSASDLINVIDLFEY;locus_tag=LOCUS_08830;note=WP_011249728.1 tyrosine recombinase XerA (Thermococcus kodakarensis) [pid:30.8%25%2C q_cov:43.2%25%2C s_cov:49.3%25%2C Eval:2.2e-09%2C partial hit],MGA_887
sequence1	MetaGeneAnnotator	CDS	959967	961958	.	-	0	ID=MGA_888;product=type IA DNA topoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861544.1;translation=MKLIIAEKGSLGRNIAQAIGIIKKNEGYIECKNDFVVTNAIGHLLELKQPKDYEENVGKKWREYTLPFIPNNFVYEVKDDVGVKKQLNVIKGLMKKADLIINCGDADREGQIIVDNLLKFNVNKAPVKRLWLPEQTEETIRKELNNLKDNSDYYNLQQEGYARAYMDYLLGHNLTIMFTNLSGKMLNAGRVLVPIVKYIYDRDKEIKNFIVEKYYSVENENIVKLISSNKFKTIEEAKIYSNKLNSKKAKVIGIDSKEVKKQSKKLFSLSTLQSELSKKYKINFANSLKIIQELYEKGYLTYPRTNTEYLSENEKGKVNDILGVLNNEDLEFKDSKKIFDDSKIESHSAITITKKIPGDLSVEQDKVYKVVYNRFLSNFVKEDCIVSETTMIIKVDEEEFKLKGSIIKQLGFMKYEPKEYKDKLPGLNLNDEFDIEFRSVEKETTPPFKVNESELSKFLKNPFKKEKNVSEEEMYKDILEGIEIGTEATRTGIIDKCVKIGYLTLDNGVFDVTELGIFFINKLIEYDINLFKEKSVEFSKLQKKVYKNEIKLEEVIERVREELRAIVERTKDIKAPKFEEKLKDGVIEINTKNGKCFKGVFNGEEVWLYPNMKYFDNQLKITKSTAEKLCKGKSVEFELEYKGKKYMQKLKIEKNERYINFVK;locus_tag=LOCUS_08840;note=WP_011861544.1 type IA DNA topoisomerase (Clostridioides difficile) [pid:33.5%25%2C q_cov:100.0%25%2C s_cov:92.9%25%2C Eval:1.5e-88],MGA_888
sequence1	MetaGeneAnnotator	CDS	961992	962357	.	-	0	ID=MGA_889;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKIISKFCGMINGIEFNDENLYRSVEFLLEQIEYKFGEVYNNEFVDELKSTIYSMYFKYDDFDYFDLENKFYYCIQKFDKFNEIQFEYFGSDCEIEKLNENLLNGKYYNRNIHSMFNIE;locus_tag=LOCUS_08850;note=MGA_889
sequence1	MetaGeneAnnotator	CDS	962425	962610	.	-	0	ID=MGA_890;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLETFPEYSYQKCIDIYDRIIENEKMKEYDKGILKKNINNKIENEISDNWNTKKDKQELER;locus_tag=LOCUS_08860;note=MGA_890
sequence1	MetaGeneAnnotator	CDS	962874	963182	.	-	0	ID=MGA_891;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKDNKYKIYNIIKQYEIHFKNNFKILTKNSSINFNFDFGGFCHLLGLQYCGRPTTAKEEGYKILKNKLDDKTIYENALKTGGKMNFKILNDRVNNIEFFLKI;locus_tag=LOCUS_08870;note=MGA_891
sequence1	MetaGeneAnnotator	CDS	963481	964416	.	-	0	ID=MGA_892;product=DUF3991 and TOPRIM domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000431475.1;translation=MEMNTDRSNINLKDLLEYLGEDIIPHGRRHFKLRKHDSLIISGNKFYWNSKGIGGNYFSLLKELYGLNNKEIWKTTQSFLDAVEYGDFIPSKTKVDKEKIEYKIYEKKNKLDDIKEYLCEKRGINPEFIDSLYYNKLLYMDYKENIIFVIKDKNEKAIGEEIIGTGNIKYRRNTSESKGFNITRRDINKNPKVNNLYVFEGTIDMLSYIQLFQKEINDKWKDENVRFLTLSGLREDIFENYIEDIKNVYVCTDNDVAGDNFFKKLEAKYQDINFYREKSIEKDWNDDLQKLKTKEKENVWVKNENKEVMER;locus_tag=LOCUS_08880;note=WP_000431475.1 DUF3991 and TOPRIM domain-containing protein (Bacillus thuringiensis) [pid:27.4%25%2C q_cov:91.3%25%2C s_cov:89.4%25%2C Eval:2.5e-23],MGA_892
sequence1	MetaGeneAnnotator	CDS	964417	964944	.	-	0	ID=MGA_893;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFIFILLTYISFSNGINFVNRNNNFKLKKSLVVKEKIEIKKKKRFEKNKKKILILKKAKELMGKKYLWGAKVGDYNNFDCSSFVKALYKEVGIDLPRVSKNQSKIGEKISLNELEIGDLIFFHTLGDYVSHVGIYIGNNEFIHASSKAKKTIVSKLSGYYREKAVFGTRLGI;locus_tag=LOCUS_08890;note=WP_009903185.1 C40 family peptidase (Clostridioides difficile) [pid:46.3%25%2C q_cov:66.9%25%2C s_cov:30.6%25%2C Eval:1.8e-21%2C partial hit],MGA_893
sequence1	MetaGeneAnnotator	CDS	965011	965835	.	-	0	ID=MGA_894;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKIENMEELLHCSINVINSNGSTVSNQFIVNVDNKKREFTIYSEKNPEYWREFKLKFDYLDIPDTSDYTMKVVKHSEKVTDKKLENYKYWQKNICRALNIDEAIIKDEETMSKAIENNPYFFEWGSEELKNDKDFMLRAIKQNLRVGEYIDDKLKNDKVFMLEAIKNDEDAIRYASYELKNDKDIVLESLKNGGSLIYAGDEIRNNKEVVKIAVMNCGSELKYASTELKNDREIVLEAVKQDKSSLLFASEELKNEIKDNWHIKKDKQELER;locus_tag=LOCUS_08900;note=MGA_894
sequence1	MetaGeneAnnotator	CDS	965901	966845	.	-	0	ID=MGA_895;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLWISTLLIISAIGYLSYSNNNTKPNTSVTVKADKDAANLETNDINEWKKKLGIVDISKFENLNKAMNNFDNLNNISKNANGGVASAIATASTMKNLGNNKHTISGSVGYYGKETAGAISYSTHYKNFGFGANASFNSRLEFGAGAGFSYTFGKGEKEVINVVSPTLAIDENESRIENLEKENKEIKEELIKLSKLIKSFDENKNKVEEIYTIYGFNSNKFILNKKQIDVIDALVPNLQNREIIVIGYTDTDGNDKYNLELGLNRANSVKVYLENKGIKVNQIRTVGFNELITNNNTLENKSLNRRVELIVK;locus_tag=LOCUS_08910;note=WP_021779468.1 OmpA family protein (Fusobacterium nucleatum) [pid:35.0%25%2C q_cov:30.6%25%2C s_cov:25.4%25%2C Eval:6.7e-08%2C partial hit],MGA_895
sequence1	MetaGeneAnnotator	CDS	966934	967431	.	-	0	ID=MGA_896;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENIKITDKNKAMELLTKGFNNEVVLNGMPQVTDFSEELLADKEVAIALIKQYHHNYEFISEDLKKDKEIGRIYLDIEPRDFQNLHPELRDDFELSKMAVDKWIINLSFVSDRLKDNDEFMRPIIEKDDFRLRYASKRLQEQISKEKEENIGWNVKKDKQQELER;locus_tag=LOCUS_08920;note=MGA_896
sequence1	MetaGeneAnnotator	CDS	967445	968038	.	-	0	ID=MGA_897;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENNKEMLVYRLEEIVKKIKTRGADYDEVNIFNDVVSAMALNSKSFDEYINGYIVDYFGSLDEYKLDEITKEEVGLRDDFDNYISNEVNKTFTNYDKAEKLRFDFEYVHGGDLYYDTVDNLKEFYIDMEDNVIFIQSLVNEGANIRLNEIFDYLDIDLNEMDLKDVVDEVKEYLNKDVLEKNETSWNKKKNEKELER;locus_tag=LOCUS_08930;note=MGA_897
sequence1	MetaGeneAnnotator	CDS	968072	968512	.	-	0	ID=MGA_898;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREVRNRNFMNASLFERADALATIRNKKVQDVKTEDFINILYAFLERLEALRDNISNNSIEHKESKKAIEEVIETLEKVIENQTQKIEKEINQELLRDSDGDGLNDYEEIRRGLDPFDRDTDRDGINDRDDVFLDDFEKEKLIEKY;locus_tag=LOCUS_08940;note=MGA_898
sequence1	MetaGeneAnnotator	CDS	968493	968804	.	-	0	ID=MGA_899;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHIEDIAFKLIKENRKNKSDIEKENKKITRKERAHKLIQLGTLFTLLEIDNENHDLLIGLLMSYYSLTEIEKEELKERGKIFRIERAKLLEEEKKKNEGSKK;locus_tag=LOCUS_08950;note=MGA_899
sequence1	MetaGeneAnnotator	CDS	968801	969265	.	-	0	ID=MGA_900;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIKRVLLIIFVSIILIFSNIRINISKSAPLGVYLVNRFSNKYEKGDYIVYRIDDEYKKYVSDELRDLDTVKEIKGTERDEVEYVDNKVLINKKEIGTIDYNIPINSNKKYIISKDEFLTIGDVENSIDGRYYGTIKRKDIKYKVYLIYRFNK;locus_tag=LOCUS_08960;note=MGA_900
sequence1	MetaGeneAnnotator	CDS	969279	970175	.	-	0	ID=MGA_901;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKRILLILLLFISVISLADSNVASDYSDTVSYDWDSFAQMLSLYMEKGLKSIEKLSIYLLSTFFVIQFVFDAYKAYATFNLIEFSKTFIRKLLTFSVYLFAIKKIIDGTVFRVVEEISYKLLEKLTGQVGVQKISNIWEIKEKITLNLWEAIAKLWGVWSILPGEFAQDFIFTLVLLVVILFLNIAFFMMMLNLFKALISFKLVLGLSAILLPFGVMEETKEYYNIGKILSLALNFSIKLISINFIATVIMNSLNNNDSILNFVANDITSVISQSFIIFLVLVGVMWHLTTKLEINF;locus_tag=LOCUS_08970;note=MGA_901
sequence1	MetaGeneAnnotator	CDS	970545	970832	.	-	0	ID=MGA_902;product=endoribonuclease VapD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000271050.1;translation=MYAIAFDLRVDDLKKYYGEPYNKAYDEIRQELELLGFEWTQGSVYMSTTTQNNLTYVYKAINKLSTIEWFKKSVRDIRAFKVEDWSDFTEIVKGY;locus_tag=LOCUS_08980;gene=vapD;note=WP_000271050.1 endoribonuclease VapD (Helicobacter pylori) [pid:79.6%25%2C q_cov:97.9%25%2C s_cov:98.9%25%2C Eval:1.5e-38],MGA_902
sequence1	MetaGeneAnnotator	CDS	970920	971201	.	-	0	ID=MGA_903;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDELDVYRIASEAANSVSIDTSKLFTMEDFHDYAGFLKEKFFEVYDRLEVLEKEVKDKKTENEELKKEINELKTEIELLKQEKNYDDYYSLDL;locus_tag=LOCUS_08990;note=MGA_903
sequence1	MetaGeneAnnotator	CDS	971287	972852	.	-	0	ID=MGA_904;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINNFTQIFSDMLSTGVLRLVSIVLFFMTMIAMIDFILAFIFEYSADMMTFLKVFFTKIFRYTIFFAIARFYVPITDELVNIIFKIGYLFFPSGKIPKGRIGLPDFDEIFSFLFDSVLKIRDDWAKLHWTQFGAQLTYLIIVLICIIGIFLIIKEIIINFVEIKVIIALGVLLLPFSVYEQTKSIGAKLWNALLNSAGKLLVSLCLTGITLQLLQKTTFNSNNNVNIGNAISWAFLLSLCAYLITNSKELGNMLINGTGSSNVNGVFGQALGVVVGGATAAMGGAVVGASAVKGGLTKGMAASRGGKNLGGILKAAKSGMKEGASVSKNSRLGKIGSKFSRGMQNAVGYATGNRSAMNMAGDLWGATFGTASDQVMHDGERLQEQKDNIAFDSPGDAKDYISSKDRVMEAMVAVRNSLSKNGPTPVSKLERYREAFREFREHMNNPENKEKAFEKASEIAKNKKDIYGTRKEYETARKYNPYKTDENGNRVKKDIWNEDIGKDILRDKKENKSNDIKKEKF;locus_tag=LOCUS_09000;note=MGA_904
sequence1	MetaGeneAnnotator	CDS	972863	973912	.	-	0	ID=MGA_905;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFIIVTLISALSFSESLTKNVEINSNTSVMNEDTENDNEKSNLEKDGIKKRKEILDQLNSPDNENVGNVGNLGKSFDFNKMFDDIDNYWEILNDGTDHAFNAVSTIGDGLTALTAVGGAFFGLGGVAVAGSHIQAVLQKILMVKNRVDQLKQYKRYIDSVKSLGKNEAKDLAGIVNTLNALSGIIRDDFEFTDRSRGFSDIIQSSDLSTREGWEKLLVENKNIQDENIKAYNKIAGEDYKKAMSIIQKTKQKLQKLDPKNEVQNLQQLNGQMNILIQVMEQLLDNQSANAAIMIQAENKKLEEEIAVKRIKAEEAERLQKAIEESDRKVKNIKLGTRFVGSVNGNR;locus_tag=LOCUS_09010;note=MGA_905
sequence1	MetaGeneAnnotator	CDS	973927	976458	.	-	0	ID=MGA_906;product=conjugal transfer protein TrbE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011090993.1;translation=MLKQILNDYKKSYKFFIHFETMIEDGIILNKNNGFQSTFKVRFYDLDYLSTDDITTINDRLNNAYKRLPDGFSIHFEVQRNKSDKYPTKDLKNKPYPTRIIDKMRENSVTKETFYSTEYFVTLTYIMQNDSNEKINLLLNKFTSIFSKNKEKENTKDELIKIFKNELKEYKDQILMFIEQVKTAAIDVEMLKGEELLAFLYTAINMEKREKVKVPKDNIMLLDEYLTVSTLTNGEYTKINDEYVKVVTINMFPDNVTQRIFNQLESLNFEYRYVTRFIMLSREETIKILKDFKVYFSAKVKSFAQWLIEIKNGQEVQNIDYTALDKVDEADLALNEAKTGALAYGYYTFSFIIKDKNLENLDKKVNDVRKILNFYDFVAGEDKYNTLDSIFGALPGNIVNNVRKSPMNTYLLSALLPMSSLYVGNKVNKHLKDIALFTTKTDKELFYFNLHNKDIGHSLVIGPTGAGKSFLLSMIAANFLKYEGKILDKEGKEKIKPSQVFFFDKDASSRVLTYTSGGKFYDLGEKEIAFQPLKNIHINSEKEWALGWIIGILEQEGIPYDATTKNIVEQSIESLTTAKIESRTLSNLRTYIASRSKTVAQALDSYCGENVYGEYFDNNFDNITDNNFITFEMGNVISNPKVVAPLLDYIFHKIEREKLDGTPTLILLDECWLFLKNEKMREKINEWLKVLRKKNTSVVFATQSLSDIADSPIFSTIIDACKTNIFLPNERAMSAWVDLYKRFNLTEKEIKEINDGTMKQDYFVKTTEGARLFQLNPSDIEIAYLGSSTSNDQNIIINLKNKIDDEILSNNEKIKKLNREWLSYKYKIGEISINNINQIKDIL;locus_tag=LOCUS_09020;gene=trbE;note=WP_011090993.1 conjugal transfer protein TrbE (Bradyrhizobium) [pid:31.9%25%2C q_cov:92.2%25%2C s_cov:92.7%25%2C Eval:3.2e-110],MGA_906
sequence1	MetaGeneAnnotator	CDS	976472	976714	.	-	0	ID=MGA_907;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKIPVYKGLMENKTAFGVPISVYTYLLGFGFILYILLKTFLIIIPLIILFISLKMVSRKDAKFLSIFFINIFYSKFYGF;locus_tag=LOCUS_09030;note=MGA_907
sequence1	MetaGeneAnnotator	CDS	976717	977562	.	-	0	ID=MGA_908;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLIYSFIFFLTLLSCSSIVTENKRILNTYSIKNMNEIENLTIKDKLDLTNGEINLYHIKELKTEGIPKIIVDINYEKGIIDSFIISKIDASKILLSLNNVGDNKTINKEIIFARLPKDSKLEFKLENEYQVIDNTIFEIKTIETDRYKWIKLVPFFLDEDTFERKAKEKIEKESNVAFYENNMIMEYEIEEKIGNRVYKKSEAKLGNGKIIKGFGEPQAEIIIYCDNFQVNIKVNENGRWESIIPEAYIGNLKIIQKNIVDNKTIFTEVNGYSVKRKGE;locus_tag=LOCUS_09040;note=MGA_908
sequence1	MetaGeneAnnotator	CDS	977565	978209	.	-	0	ID=MGA_909;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKKARDIVLKSRNIAIENIAYNINKMGFLPKVEDNFNFRSDNKMRLMAHILRNGFKTGYYVDEKFIEENGFTIKENQYALIFEYLKEIDAETGQKSYRFFKKYNIEQINETDKALEILSKEVKVRKKYNLRKEKLETFFKENNFDLLNRILFIGIIRIVTGKDINFGEKYEKAYKDELIKIAKENPEFIRNVFIETDRFVNKYLYENELVEE;locus_tag=LOCUS_09050;note=MGA_909
sequence1	MetaGeneAnnotator	CDS	978229	978861	.	-	0	ID=MGA_910;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIKRIKLFLLCILFLPTFTLANTSQIDIKQEYEKIYNWLKNVDNSYNLETQLPPLNSEYLTSQKHLKKVLQVKVNKDASNLDQDDIDKWKNILGVKNINFSNSNGGIASALATATTLKNIGNDKHTLSASLGYYNKSVGASIVYSTHFKNFGVIASASFNSNIQFGAGAGFSYTFGKTKNHKDKVEKLENKINELNELIKILEKRLDNI;locus_tag=LOCUS_09060;note=MGA_910
sequence1	MetaGeneAnnotator	CDS	978941	979684	.	-	0	ID=MGA_911;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKTYKAMKTIEYFSKFDKEDIQINSKSKQFNITFDRKGLPHLLGLQYLEKYPRQFNATKFLKEIKENKISDQEILEKVEEYHEVKQRINVENRINTFSDFMKNIEKGFIVEKTYETKMNVNYLVIQTENNDFKHLGFLSGIRGTLIEAFDELNEKDLSILKTYFIEKNDRYYKDTNIIEPIENIKIYDELFEEYTNFSFDLDKQKFLNQNVYMEYKECIDKYYQEKENNEISDSWNIKKDKQELER;locus_tag=LOCUS_09070;note=MGA_911
sequence1	MetaGeneAnnotator	CDS	980007	980516	.	-	0	ID=MGA_912;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDYLKEDGTITEFNTIKYFTDFEKYVDYNSEKLKQNIEKSSKKMNKEITNLEKLKDLSDEAKYVYDLTNNALKDKGYIDSKEILNDSKMLWNDFKQAQDELVQNKIFYLLKLENEQDKKYVLIKEDKYFAQLYEKEKSNEQINLNKEKEGNEISNNWDKKENKDVEMER;locus_tag=LOCUS_09080;note=MGA_912
sequence1	MetaGeneAnnotator	CDS	980698	981657	.	-	0	ID=MGA_913;product=P-type conjugative transfer ATPase TrbB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013533270.1;translation=MTDLELKRKLELERKENFLKENLTRIQKFLEDASISEISLNQDGKIFLDIKGKGRVDSGEILSKIEGENIIKIVAAFSEQEVTEVSPIISASLPDGSRFEGLMYQVTNYKPIFSIRRHTTEIIPLEKFVETEFITQQQKEYIEEAIKNKKNILVVGGTSTGKTTFLNACLDKLKNTEDRISVIEEVRELKCDAKNINYFTSTDSVSYRDLLRSNMRLNPDRIILGELRTGGETLELLKAWNSGHSGGFATIHANSSLSGLKKIEQYIDEVTVKSQQYLIVEAVNIVVNIIRDGTKRYVKEIAEVIKYDKENDTYILKKI;locus_tag=LOCUS_09090;gene=trbB;note=WP_013533270.1 P-type conjugative transfer ATPase TrbB (Mesorhizobium) [pid:41.3%25%2C q_cov:90.0%25%2C s_cov:88.8%25%2C Eval:3.7e-54],MGA_913
sequence1	MetaGeneAnnotator	CDS	981659	981946	.	-	0	ID=MGA_914;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKMNAKIREYEKKLKETLYKLKENLIDHFKKVIDKYPIHSFCSEKDIENLIKNIYEQRNEETIIIEMKFDNETKNTKKINNKKENEVSENIEVVE;locus_tag=LOCUS_09100;note=MGA_914
sequence1	MetaGeneAnnotator	CDS	981954	983837	.	-	0	ID=MGA_915;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSDIKKIRWKNMKRKEKIFVIGTISWIIITLILILFFYLSNYARILNYPKIFDKYILINIENIKIYRPNLFMYKSLSKVPNATKWAKYEFMIILALITVPYIIFCLPIKWIPKDISHGSARWGTFDDLGLSGFLIPNTAAKAFELNLLEESGVVLGEVDGRLIKDNGKTHILLSAPTRTGKGVSVIIPTLVDSWKDSVLVLDIKGENYQMTAGWRQKQFNNTIFKFSPLSVDSCSFNPMREVRYLTPDEIDDAKTIAQIIVIDEGASDPFWGLAGSDLATTLILYELYKGKGEANLSSVVKFITDPSGPLEDRLKKLINRPIFNPNKDKEILEKLLSIYTSKSDQEQIKKGIHPFIDRGLADALGKGEKTLQSIVATAKAKLSIFESPNVEKNTSQSDFRILDLMAADKPISLYIVVPPGQIQPLAPLLRILIIQCVQLLTPEMDYAGNSNKIKFKHRLLMLLDEFPAIGKMEILEKAIGFVAGYGMKMMLVVQSLDQLNKIYTENNMFMGNCQVQVFYTANDNKTAEYISKTIGQETIVTKNYSSDGGFFSKKSISVSKSGRDLIKPDEMRRFPLDKILLLVGGKPPIKSNKVLFFKDKRFKDKVKLPINPTVHMQKELELQEGK;locus_tag=LOCUS_09110;note=WP_013368406.1 conjugal transfer protein TraG (Ketogulonicigenium vulgare) [pid:34.2%25%2C q_cov:80.4%25%2C s_cov:70.7%25%2C Eval:1.4e-78%2C partial hit],MGA_915
sequence1	MetaGeneAnnotator	CDS	983885	985288	.	-	0	ID=MGA_916;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKNIAISVINKMNKIDKNLDLLNDLENEDEILEKKENLIIDFEELDEDISEIEDEVINLKNNEKEKEIKTDKEEIEKETIKEEKTNSNKNFKTLFAIVILILLSIFGIVIYKNLPKAFESEEEITVADPNNFRISDIKEDDEDKAFEKLEDIKDESKNNNNENIEINNKVDDNLDLEKNIKKSKFDNYEEEKNKKEYEELDRAIAELEGNSGVNEVSGRKHNGLAFFKKEKENDKEKKKERNNSKYINLLENRKEKIDEEINRKNKIAYSFNDFVVQQGSLIPAIFLTEVNTDLPGSVLAQVRENIYDSRSGEYLLIPKGTKIYGRYESNVDKGQTRVFVVWDKLSLPNGKFVELTEFQSADALGNSGVNDKTNNHTWSLIGNSILSSVLNFTDTLANGVSFSVGGVKLGLNGQSKEEKGGSPFKEVTSHLVRKEVERQPTITIRRGYKFNIIVNGDLELEKYKY;locus_tag=LOCUS_09120;note=WP_015664062.1 TrbI/VirB10 family protein (Bradyrhizobium oligotrophicum) [pid:34.6%25%2C q_cov:44.5%25%2C s_cov:50.6%25%2C Eval:8.4e-35%2C partial hit],MGA_916
sequence1	MetaGeneAnnotator	CDS	985305	986153	.	-	0	ID=MGA_917;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIFKNLTVFLLFMSLISYSNDVNKNINKLKKEVQKYEQNINKVENVDDEEIQKILKDRLAIISGKTASIYSVSTEFNYFKSSIYQVFTKPNYTTVFKLNKDEKLVYVGGGDTENWQIDETEGGNDGATFLFVKPLIKGLKTNLNIITDKRSYFIVLESTENNFNPYIQWKYPYENHMAHIKKMKEKREGNEIKLGKSEDIMFGFKYDKHHKLAPEQVFTDSEKTILILSNKLQEAPVVYVYGEDNVLSLVNYRIIENKIIIDKVVNKFQLVLGNEKLDIVR;locus_tag=LOCUS_09130;note=MGA_917
sequence1	MetaGeneAnnotator	CDS	986169	986654	.	-	0	ID=MGA_918;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEYNNYLLWKRKNILKVISKEIQIFEYSVDKKYLEIKEFLQTEKSIDEIREYEKKSEKDEKEIFYRKENGIIIEFQNFLEGIVKEVEKEYEAIKNNLKDFVNSNNKYSDLNDENSIKQIIFEEKISNIDKENIIDIYEIEVSKKGKVFHIDYNKKEIRAL;locus_tag=LOCUS_09140;note=MGA_918
sequence1	MetaGeneAnnotator	CDS	986656	987360	.	-	0	ID=MGA_919;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENRINKMRKNFIVDENKTSRNKEKLSLGIERYVAISEALNIWKRAFIGMSIMTISFACLSTFLFINKSETKSYLIKVNNNGELIGTEKLSNQITNIGNKEIEYFMKKFIKDSRTITLDRKVFDKTIREASYFLNKETQSKLSSILSNENVYSFFEIGKTREVEILSFVKIPESENTYQIRWREKEYEKNGDLSKRKNLNAIVKTKRFSPNSEQIIFNPFGIVIVDFNMQVEN;locus_tag=LOCUS_09150;note=MGA_919
sequence1	MetaGeneAnnotator	CDS	987347	987733	.	-	0	ID=MGA_920;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRKNLSLILLGIIFFSTLSLANTSQASVAGFDNFARYLSAFLRFIKFVGYAVGAIYFIVKLIEFIFNPQWDQMGKTILTFVLIMGGIFAIDTIVRAVGGTTIDKNVEKIKVVKLEKIKFLGEANERK;locus_tag=LOCUS_09160;note=MGA_920
sequence1	MetaGeneAnnotator	CDS	988538	990052	.	-	0	ID=MGA_921;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAIYRLRYKCGKKALEHLSYINGEEKYSTKREHIEYIETKNLPENFKDIQEFWKYAIIYERKNANIYREFEITLPKEFNKEKNKKILDRFLEKTFGNKYVYNYAMHNPGGEQPHAHVMFCERELDKIERKKENFFKRYNPQKIEEGGTKKNRELHNKSYLIKLRKNWEKHLNLYLEAEGIEKVSSDTLIKQREKAIEKGDIVKAELLNRDAIHVTHNLKYKDKEKNTAYDLYQRIQLEDHRKEKQLQDEVDRIYKLNFMKRKYNEKMKEFQNYTFEKVLEEKEKIEIDIFRLSKKMLDRTLESEALNILSEGKSNEYKNEKNHLFKMIKNDRLNKSKYKKRINEINKEIENFKIENKEKIIDKKLELKAKYMKPFKFKIIEKEIVDKIFMDRLKKTYGKDNDEINLYKAYIERKNLRDEKLIQLKNIEINKKEIDKYLNRKDYKSAKNIQRTNGEIYKNIKSLDRINKKFRKDIKVQEQILKHGEFILDEYKNILDNEEELERE;locus_tag=LOCUS_09170;note=WP_011241757.1 MobQ family relaxase (Ligilactobacillus salivarius) [pid:21.5%25%2C q_cov:47.6%25%2C s_cov:39.1%25%2C Eval:1.2e-10%2C partial hit],MGA_921
sequence1	MetaGeneAnnotator	CDS	990162	990569	.	-	0	ID=MGA_922;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFWKNKNIKDKKLMNDIFKQQLEKLVEICPNFKIVSAVICYDKNSPHMKVIGVPIANYDKGLSKRVAKTKVFTKESLEILQNKMRENVEEQMKSFYGKDINLKSKEKGRNKDLLTKDYIAAKRTQENQLKKLKE;locus_tag=LOCUS_09180;note=MGA_922
sequence1	MetaGeneAnnotator	CDS	990599	990898	.	-	0	ID=MGA_923;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MALSYSFHISNGKSAINNSKNLIRALKNNLRAYNSNNFDKSINDILIGANNTTGAFQDFKELYKTEFTHSINEYNKKQIREDRKIKNYFEKFLMIKKLS;locus_tag=LOCUS_09190;note=MGA_923
sequence1	MetaGeneAnnotator	CDS	990915	991595	.	-	0	ID=MGA_924;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEILDRKEILGVELVIFGSEVSPRFNANEIARIIENSNVSQMIKEVDEDEKELVLVTREDGRTHKQWYLTEDGLYEVLFASRKPIAKKFKKQVKEILKSIRQKGGYIVVKKEDNEATIKSRIENLMKETEKKLRILENKINGYEIFFDEGKEYIGISFIAQKYEMKVDELIKILTEKRFLYKKGKVLYLYRKHRYKNYGKYFKINKKNIFKFSLKGEAFISSLLNL;locus_tag=LOCUS_09200;note=MGA_924
sequence1	MetaGeneAnnotator	CDS	991597	991980	.	-	0	ID=MGA_925;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEFYLKKNNNNEILFFYRYRFKDSISKEEWIKSINENKTLNKKDSQKTFKELLLFLNIKNKIIHKLDDVEITVWKGNEYKITRIKMKNDKKSMNDMKFSISDDNYICTENIIYIINKNNNINERLL;locus_tag=LOCUS_09210;note=MGA_925
sequence1	MetaGeneAnnotator	CDS	992001	992186	.	-	0	ID=MGA_926;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYNLKSFAKAINENYNKVRYMAQNDVFPFIKIKKNKERVVYLIDQLGMKKYILERKEYKC;locus_tag=LOCUS_09220;note=MGA_926
sequence1	MetaGeneAnnotator	CDS	992176	992409	.	-	0	ID=MGA_927;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKNFKYSQLKGRILQLYDSVDNFCSVTGMKKCTIYNKMNNISNFNSSEILIMIKHLSISKNQIYDYFFMEVENEI;locus_tag=LOCUS_09230;note=MGA_927
sequence1	MetaGeneAnnotator	CDS	992463	992627	.	-	0	ID=MGA_928;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNKLKKLIYERYKTVNNFCFENNLNKSLIYKKLNGVIKFNENDIYILMKILY;locus_tag=LOCUS_09240;note=MGA_928
sequence1	MetaGeneAnnotator	CDS	992689	993039	.	-	0	ID=MGA_929;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLKFKISDISYQSFLVIPKDLIYDKQFKELSLEAKLMYGMLLDRLQISLKNNWIDKSGNIYLIYSINEIMCLFHIGKNSAIKILKELEYYQLLEKERRGLGKPNLLYLKKIDFSK;locus_tag=LOCUS_09250;note=WP_011860781.1 replication initiator protein A (Clostridioides difficile) [pid:41.0%25%2C q_cov:83.6%25%2C s_cov:38.6%25%2C Eval:2.1e-16%2C partial hit],MGA_929
sequence1	MetaGeneAnnotator	CDS	993210	993368	.	-	0	ID=MGA_930;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAKIKIIITDDEIIEKEKIIELIKKLNKNELLKLKGFLEGLNFSTKVKNSEV;locus_tag=LOCUS_09260;note=MGA_930
sequence1	MetaGeneAnnotator	CDS	993518	993865	.	+	0	ID=MGA_931;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNRVKELRKKLKLSGDKFGSKLGVKRSTISNLENQTRNLTEQMIKSICREFNVNEEWLRYGNGPMFNSLKEISLDELALDLTPLELNIIKAYFSLDKEIRQKAIAHFLDCLNKS;locus_tag=LOCUS_09270;note=MGA_931
sequence1	MetaGeneAnnotator	CDS	994423	994815	.	+	0	ID=MGA_932;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKSSNFKFRLKEALKIKNISQRMLALQTNLAPATIANYLNGRNSAKYENIEKISKVLNVDPQWLDGYDVPFSNLYANYSFTAEEKKYLDNWLNTNQLYFDSLNITSIDKENLKQAMIESFIRSLKNKDK;locus_tag=LOCUS_09280;note=MGA_932
sequence1	MetaGeneAnnotator	CDS	994833	995126	.	+	0	ID=MGA_933;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNNLKNYELIYRNFERVEYGILINADNYYILVINYNNTKKNKRLIIKLMKHYIKIKKNTTLITRQNLERFHNFVFFCIKNNTKRKGKKYGKIKITK;locus_tag=LOCUS_09290;note=MGA_933
sequence1	MetaGeneAnnotator	CDS	995101	996162	.	+	0	ID=MGA_934;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKLKLPNKFGSISKLSGNRRKRYMVRLSLPLDENGKQKRLILGYYTTYNEAYKALIEYSSTPLNIEDAKTFTINVLFERFKKEKEETVSKETFKRYTRSFIDFNYLFDKQVREIKYDDIQKTLSKQVKAKSLSSLVVWNWIFEESIKLDIINKNIATHLKASNKVTKTIERTIYSSEIINNIWKLTLENNFVADILICLLYSGLRISELLEITRENVHIKDRYLIAGKKTLAGKNRVVPIHKRIIPIIEKYLKISEETSSKILLGKYNQNGFYGKINSASFRYYFYDFMEKLNIKMNIHSTRHTFISKMKSLEVNDSKLKRIVGHKGNDITDNVYTIYSAEDLIPIIDLLEY;locus_tag=LOCUS_09300;note=WP_011249728.1 tyrosine recombinase XerA (Thermococcus kodakarensis) [pid:28.0%25%2C q_cov:42.2%25%2C s_cov:51.8%25%2C Eval:9.3e-09%2C partial hit],MGA_934
sequence1	MetaGeneAnnotator	CDS	996309	996668	.	-	0	ID=MGA_935;product=50S ribosomal protein L19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898626.1;translation=MNFLKEKLIELVEKEYLKSDLPEFKAGDTVAVHYTVKEGNKTRIQVFEGIVIRISGGSIQKSFTVRKVSSGVGVERIIPINSPLIDKIEVKKIGKVRRAKLYYLRGLSGKAARIKEIRK;locus_tag=LOCUS_09310;gene=rplS;note=WP_005898626.1 50S ribosomal protein L19 (Fusobacterium) [pid:73.2%25%2C q_cov:94.1%25%2C s_cov:96.6%25%2C Eval:5.5e-44],MGA_935
sequence1	MetaGeneAnnotator	CDS	996774	997628	.	-	0	ID=MGA_936;product=YitT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964166.1;translation=MFKKYKSMILPIILITISAMIQSYTIEVFIIPSKLLTGGFTGLSILINMVLSNFGINLSVGILLIILNFPVALLCAREISKKFVFLSLLHIVLTSIFLKHIKFEPLFTNILLNLTIGAVVHGLQMVLALKVGGSTGGTDFIALYISNKINKSIWIYIFIFNMLVILFFGYMFTWDGAGYSIVFQFVTTKVIDTFYNRYRRMTLQVITKKGELVTEMYISKYRHGMTKIVGEGAYLKERVYICYTVVSVYEVNDIVKAILEVDQKAIINTFKTDAFYGKFYIPPI;locus_tag=LOCUS_09320;note=WP_010964166.1 YitT family protein (Clostridium) [pid:28.1%25%2C q_cov:95.8%25%2C s_cov:92.1%25%2C Eval:4.8e-23],MGA_936
sequence1	MetaGeneAnnotator	CDS	997647	998354	.	-	0	ID=MGA_937;product=queuosine precursor transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015968.1;translation=MFDFFKSNEVIWLLYVLINYSVILFAYRKWGKVGLMIFAPISIILANVQVNKLVYLFGIETTLGNIAYSSIFLISDILSENYGKKAASKVVGIGFLTMIFTTVVMNIALILAPSSNDTSQVHLAAIFTPFIRFTVASLLAYVISSNVDINLYQIIKKIYPDFNNIWIRNNLSTLLSQVLDNLIFNFVAFYGVFPISLILTITFSTYFLKIITSAIDTPFVYIATYWKNKGVIEEI;locus_tag=LOCUS_09330;note=WP_011015968.1 queuosine precursor transporter (Fusobacterium nucleatum) [pid:50.4%25%2C q_cov:97.9%25%2C s_cov:99.6%25%2C Eval:1.3e-57],MGA_937
sequence1	MetaGeneAnnotator	CDS	998410	999672	.	-	0	ID=MGA_938;product=SH3 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902638.1;translation=MKKFLLLILFLGMYNINYSNDEIVAMEEVTEIEVKEEELSFEYIQKFSDLNENITFDLKFDKYFDKNLNKFAYIKSTTNIRNLPSTKGSKVVGRVIKGMRLPLFGVIKGDDGKDWLEVMYKDKKHYIYAKNSEIRGFNWQKAVEKANKVNDFIVSALKEEKDIYYVDSYISLNTDADGKEDRYGNAANQSIKAYYDKEYINLPDRSLLIISEEDDDYVYIKTLSYGDEIYKVPKNYIKRLKKFNIKDIISKFIYIDRDSQTQVTIERNIETNMFNVNAVGYITTGISEGVGFVTPYGDFLIPYTKIRMLYASDFEKEPILNSKGEKIGEKPVIIGDAKFAIRFSGGGYLHGIPSTFEPKENRELRKRITESKLGTIPLSHKCVRNADDIIEYLYKWVNGNSEIKKNGFTYPEENAIVIVD;locus_tag=LOCUS_09340;note=WP_005902638.1 SH3 domain-containing protein (Fusobacterium nucleatum) [pid:29.9%25%2C q_cov:99.3%25%2C s_cov:99.0%25%2C Eval:1.7e-36],MGA_938
sequence1	MetaGeneAnnotator	CDS	999681	1003223	.	-	0	ID=MGA_939;product=chromosome segregation protein SMC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147373219.1;translation=MYLKALEINGFKSFSIKTIIDFTQGITAIVGPNGSGKSNILDAILWVLGEQSYKNIRAAMSSDVIFSGGKNKKHANSAEVSLVIDNTDRYLDYEADEVKITRRIYRNGDGEYLINNKKSRLKDIHNLFMDTGIGKQAYSIIGQGRVERIIGSNPKEIREILEEAAGTKRAKVEKEDALKRLSNVQVELDKIIYVEKELEQRVKRLKEESEKAGLYNSIVHQINVNKYMLYEYSINKIEIEQDKLNLEKKENNKKIEDIQINLELEKKSLINTGEKKNNLIQNIEDEKNKLNNIYKELEEIKENLSTSIREKSNYEVKLSEKLAIKDKLMQDEIKYNEKLNVEIKEINALTKDYSKKNENIEILKEKIEYLTKLRNEMEEKLSLHEKAINEIEMKRYRLRGENEDLERKNKLTENNINKLEEEKNSLLLNFEKVKLEYESLKNKQSSQEEFNKDILNNQRYYTDEISILEKDRKNVAVSRQKVIFEKESKISKLNSIQKTLDDNVFLTASSKFILDTFKDDKNIVDSVSNLLEIPEKYLTAISTLVGYSLNDIVIKKASESNKYISELKNKKIGTISFLPLDIIKTSTKLNKVPDGNGVIDFARNIVKIKEIEYEKVVDHIFSNALIVENLDIANTLIKKGYNDRIITLDGDLVTSRGRISGGYKKNKVDLTLGKREELNIIKKEIELLDNKIIELENEYNNIDKKISVLDEKLNIENEKVNKFKLEYNDIKYLIDLKNNELTSLERKMDTINYEIKDSNLMIVENTNKIDKNIQEIDRSMIIIEDIYNEREELEFKLGEIEDVDKHQTKLHNMLVDFAVLNEKLTNKKNSKDELEIMYNKVKNDLEEINTFEHNKDELFSKYNKEIEEKNKLVDELTNNKDMLSESIKNNEILLKDIEKDETNHFTVINELEKETIKMINIVEKLSENIGRNSKELENLNEKLEGLQESKESIINDFNYNPLEEDKVSQVKSNIAKLENKKENIGSVNLASIDEYNFENERYLDLVSQKQDLENSSNSIKSLISNIENDMINKFTFAFNEIKNNFKYMCSEIFYGAKGDIKLTDTENILTTGLELSVKYKNKPEQTLMLLSGGEKSMLAVSFIMAIFMFKPSPFTFFDEIEAALDEANTKKIVELLRRFIDKSQFILITHNKETMKGSDRLYGVTMNKEVGESRIVSVDI;locus_tag=LOCUS_09350;gene=smc;note=WP_147373219.1 chromosome segregation protein SMC (Fusobacterium nucleatum) [pid:36.2%25%2C q_cov:99.9%25%2C s_cov:98.9%25%2C Eval:1.2e-185],MGA_939
sequence1	MetaGeneAnnotator	CDS	1003235	1003714	.	-	0	ID=MGA_940;product=cytidine/deoxycytidylate deaminase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_032889952.1;translation=MKRTTFLSWDEYFMGIAFLSANRSKDPVTQVGACIVKDSKIVGIGYNGFPIGSSDDEVPWEKDGDFLNTKYAYVVHAELNAILNSNRDLKGSTIYVTHFPCNECAKSIIQTGISKVIFFSDKHKDKDSSIASKRMLSNAGIEIVKLELEIDELIIKFKD;locus_tag=LOCUS_09360;note=WP_032889952.1 cytidine/deoxycytidylate deaminase family protein (Fusobacterium) [pid:59.6%25%2C q_cov:97.5%25%2C s_cov:96.9%25%2C Eval:4.4e-50],MGA_940
sequence1	MetaGeneAnnotator	CDS	1003723	1005051	.	-	0	ID=MGA_941;product=exodeoxyribonuclease VII large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902942.1;translation=MDKNLTVSEIVNLVDRFIKTSEMKKVSIEGEISNITYHKTGHLYFTLKDSNSQIKCTAFGYLYKNIPRDLKEGDKIKIVADISFYKPRCELTFNVEILEKMNKIGYLYEKLEELKKEYLEKGYFDSNKKKKIPMIVKRLGVITAETGAAIRDIVNTTHSRDKYVDIFLYPVKVQGIGAKEEIVEAIKYFNDNKDKYNLDALIVGRGGGSIEDLWAFNEREVIEAIYSSDIFVVSAVGHETDTLLSDYVADLRASTPTQAAEKIIKRYDDTLYFLNSFEDKASKILENKYKSLKKELENLNNSYIIRNIGDRINEKRILISELETKAEKAMNLKINKEKNNIEVFKSKLNINNLTTKVNSLNILLQSQSDKISKIIENKIEKKKLELENIKLSVSKHSNEDILKKGYTITTYKGNIIKRSIDISSGNTIKTTFYDGYIESKVK;locus_tag=LOCUS_09370;gene=xseA;EC_number=3.1.11.6;note=WP_005902942.1 exodeoxyribonuclease VII large subunit (Fusobacterium nucleatum) [pid:37.9%25%2C q_cov:100.0%25%2C s_cov:97.8%25%2C Eval:3.2e-76],MGA_941
sequence1	MetaGeneAnnotator	CDS	1005060	1005404	.	-	0	ID=MGA_942;product=arsenate reductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003222779.1;translation=MKYIHYPKCTTCQKVLKHLEKKGHVLEKRHIVEEKLTKDELKEIHEKSGLDIKKLFNTSGILYKEMKLKDKLDTMSLDEKLELLSTNGMLVKRPILICEDKVIIGYKKEDYDNI;locus_tag=LOCUS_09380;note=WP_003222779.1 arsenate reductase family protein (Bacillus) [pid:49.1%25%2C q_cov:98.2%25%2C s_cov:94.9%25%2C Eval:1.2e-27],MGA_942
sequence1	MetaGeneAnnotator	CDS	1005405	1007381	.	-	0	ID=MGA_943;product=excinuclease ABC subunit UvrB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016236.1;translation=MEFKLHSDYKPTGDQPEAIKKVVENIKNGISDQILLGVTGSGKTFTIANIIKELNRPALIMAPNKILAAQLYNEYKQFFPENAVEYFVSYYDYYQPEAYIQSTDTYIEKDSAINEEIDKLTHAATAALLNRKDVIVIASVSAIYGLGSPNSYADRSLYVDIALSGIGRKELIKSLLSLRYERNDAILERAKFRVKGDVIDVYPIYQDIVYRFEFFDEELESISELHTLTYKKIRDIKRLNLMPATHYLSEVDTNVLVDNIREEMNERIKYFEDRLQLVEAQRIKQRTEYDIEMIREIGYCKGMENYSRYLTGKKSGEAPYTLLDYFPESPIVFLDESHIMVPQIGGMSNGDRSRKEMLVNHGFRLPSALDNRPLRHEEFFNKVEQVVYVSATPSDYEINESNGEIVELLVRPTGIVEPSIEIRPTKNQVDNLMDDIKERVSRGERILVTTLTKKMAEELTEYYLDYGIKVKYMHSEISTIDRVEIVKGLRNGEFDVLVGINLLREGLDLPEVSLVAILEADKEGFLRSRRSLIQTMGRAARNVNGHVILYADKITKSMKEAIDEVERRRDVQERYNMENNIVPQNVKAHLTESLLEYTDEVEDKKENKVTFKSIKELEKEIKKVEAEMKKFAENYQYEEAIDRRNKLNELKKVLLEVM;locus_tag=LOCUS_09390;gene=uvrB;EC_number=3.1.25.-;note=WP_011016236.1 excinuclease ABC subunit UvrB (Fusobacterium nucleatum) [pid:61.3%25%2C q_cov:97.1%25%2C s_cov:96.8%25%2C Eval:1.1e-235],MGA_943
sequence1	MetaGeneAnnotator	CDS	1007390	1008703	.	-	0	ID=MGA_944;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIIASLAFLGFLISCSSVVEQTDLYKDYKPKYKLGDGQNEEIKITSKTTNKEILSNEKLTEQIFKRENRKINKNLKGVWAATVVNLDFPKTTSMEEQKREIDEMMENIKKWGLNAVFFHVRPAADALYNSEFEPWSIYLTGTQNRHPGYDPLEYAIKAAHKRGIELHAWINPYRAAMNTDLNKLSDKSIVKRKPEWIFEYDGKFYMNPGNPEVVNYVSKAIEEIVEKYDIDGLHLDDYFYPYPSATLKLGDNVDQKEFEKYGSEYNSRGDWRRDNVNNMIKNLSVSVHKIKPNLSFGVSPFGIWRNYETDARGSKTKGLQSYDSLYADSLKWMKEGWVDYIAPQIYWNIGFEKADYEELVKWWAEKSKETNTPLYVGHGVYKYIEPKPWKDSKELEKQLKLNEKYDAVKGSIFFRYGTLLENPSNILDQIEDNLK;locus_tag=LOCUS_09400;note=WP_003231519.1 glycoside hydrolase family 10 protein (Bacillus) [pid:44.8%25%2C q_cov:84.0%25%2C s_cov:72.7%25%2C Eval:4.9e-98%2C partial hit],MGA_944
sequence1	MetaGeneAnnotator	CDS	1008715	1009344	.	-	0	ID=MGA_945;product=O-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016305.1;translation=MIINFENSSNFARKLYKFNEKQEKIEKIALENKIPIITREVLRYMIFLAENINAKNILEIGTATGFSGIFLAEVCKKNNGKLTTIEIEKDRYLKANENFEEFGLSTYINSIHDDAMNVLPNIKEEFDFIFIDAAKSKYEDLYNYSYKLLRKGGIIFIDNIMFRGYVAEDEIPKRYKTLVRNLKEFINHLNDRYNFTLLPFGDGVGIVIK;locus_tag=LOCUS_09410;note=WP_011016305.1 O-methyltransferase (Fusobacterium nucleatum) [pid:50.5%25%2C q_cov:89.5%25%2C s_cov:86.5%25%2C Eval:9.2e-46],MGA_945
sequence1	MetaGeneAnnotator	CDS	1009405	1010085	.	-	0	ID=MGA_946;product=dipeptide/oligopeptide/nickel ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015722.1;translation=MNLIKLNNVNKNYENIAALKDINLEIKKGTLLAIVGESGSGKSTLGKIISKIIKISSGNLEIHGKVSMIYQEYTSSLNPKFSILDVLEEVYIIKKEKVDKDKINEILEFVSLNHIDLKKNISILSGGEKQRLVIARAILFNPDIYIFDEAVSSLDIHLQLQIIEIVRRLNEVYDKTILFITHNVELLKYITEDILVLKNGEIVERGNILKESKTAYTKKLLNIWKY;locus_tag=LOCUS_09420;note=WP_011015722.1 dipeptide/oligopeptide/nickel ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:35.0%25%2C q_cov:97.8%25%2C s_cov:93.4%25%2C Eval:1.0e-32],MGA_946
sequence1	MetaGeneAnnotator	CDS	1010072	1010782	.	-	0	ID=MGA_947;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015634.1;translation=MKMIEIKNLSISAPEKNIINNISFDINSNEILALIGSSGSGKSQIARAIKGISKLKLNGTINYGNISNIEIGYIFQDFAECLNPVLKIKEQIIEASIYHKKLSKKDAIIKAKKVLKDLNLDENVLEKYPFELSGGQKQRIVIGICLMMEPKLLICDEITTGLDNINEYEILELVSNLNISVLLITHNINAVRKFSDRIIFVNNKEIIKVKTVEDLKKYSNIEYINAMNRMLEDEFN;locus_tag=LOCUS_09430;note=WP_011015634.1 ABC transporter ATP-binding protein (Fusobacterium nucleatum) [pid:37.3%25%2C q_cov:88.1%25%2C s_cov:87.7%25%2C Eval:1.3e-36],MGA_947
sequence1	MetaGeneAnnotator	CDS	1010763	1011545	.	-	0	ID=MGA_948;product=oligopeptide ABC transporter permease OppC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005164168.1;translation=MMNRKIKSIIFIFSLMIFVIFEKLFNKFNYSDQDLNSIELPIFKNNHILGTDYLGRDLLARLSESIYISLLLAIIVCIICLISGLIIGSVMGYYDKFIDKIFMMIIELLLSIPSIIIIIFILLIFGNSLTLLIFAISFTRSLRLSLLVRNEVKKVKLNNYVEVAKNMGATPFYLIRRHIIPNILPIVFVRLTLMIPGIIFTESYLSFMGVGIRNPRPSLGNLISSGFSRLLISPKQFLLASLILVTITLFFGGIYENDRN;locus_tag=LOCUS_09440;gene=oppC;EC_number=7.4.2.-;note=WP_005164168.1 oligopeptide ABC transporter permease OppC (Yersinia enterocolitica) [pid:29.3%25%2C q_cov:94.2%25%2C s_cov:81.4%25%2C Eval:5.1e-29],MGA_948
sequence1	MetaGeneAnnotator	CDS	1011535	1012467	.	-	0	ID=MGA_949;product=oligopeptide ABC transporter permease OppB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003245554.1;translation=MLRKIFYKTFRGLIVILSVITLTFFMIHSLPNNLIDDELDETVKSQIIKIYDLDKPISEQYVKYIKKIASGDFGESIKYPNLRVVDVINNNFPTSLDLGLRVLFFSSFFALIFSLISINFKIMDKIFLKISSVLIASPGFVLAGLLQYYAVYIHKGLLGLPKLSIMGYYGRGEKILPVLTLVLFYLPIIFKLLRKKIKEEMNKNYVEFAISKGLSINYIVIKHILKNIAPSLLSSLMPYVISLITGSFIVETLFGVPGIGRYFTTSIIERDYPMIMGLTIFYTIILITLFNIMDILIIIFDKRLKVKDDE;locus_tag=LOCUS_09450;gene=oppB;note=WP_003245554.1 oligopeptide ABC transporter permease OppB (Bacillus) [pid:31.3%25%2C q_cov:98.7%25%2C s_cov:97.7%25%2C Eval:3.4e-41],MGA_949
sequence1	MetaGeneAnnotator	CDS	1012543	1012740	.	-	0	ID=MGA_950;product=cold-shock protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005900759.1;translation=MLGKVKWFNEKKGFGFISGEDGKDYFLHFSKINKGGFKTVNEGEEVEFDIEDGEKGPQATNVVSK;locus_tag=LOCUS_09460;note=WP_005900759.1 cold-shock protein (Fusobacterium) [pid:68.3%25%2C q_cov:96.9%25%2C s_cov:95.5%25%2C Eval:8.5e-21],MGA_950
sequence1	MetaGeneAnnotator	CDS	1012826	1013668	.	-	0	ID=MGA_951;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016843.1;translation=MINKYLVDKDHVNIRLDKFMRKYSKEESLSIIFSLIRKGFVKVNGKKSKENYRLLLNDEIFFPDAAKIVMDKKIEKEIIDIDLFKNMIVFEDEDVFIINKPNNMPMHKGDKHKFGLSETAKAYYNNPNVNFANRLDLETEGLVIGCKNLQILRKVNEEIRNKKIIKRYIAKVEQKKLQLDEEFFSDKKIKIFEDRVRVSKDGLEAKTYFKVIEVKDFKVLLDIELITGRKHQIRVHLSDIGHPIIGDSKYGNYQKKDRMYLKCYYIKFLNYEVKLARKFN;locus_tag=LOCUS_09470;note=WP_011016843.1 RluA family pseudouridine synthase (Fusobacterium nucleatum) [pid:40.7%25%2C q_cov:97.1%25%2C s_cov:96.5%25%2C Eval:7.0e-51],MGA_951
sequence1	MetaGeneAnnotator	CDS	1013658	1014773	.	-	0	ID=MGA_952;product=rod shape-determining protein RodA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016844.1;translation=MFSKRSYAKLRNRVHRLDKSLLLVVYLLVFVSTAFVYSATRSMYYVKSNLLWTFVGTLILIVAIFIDYRFTKKIIKPIYVFSGLLLLYTRFFGVVKLGARRWINIGITQIQPSEFVKIFLIMIYSFWFVKKFPNGINSFKHIILAFIPGIPILGLLLLQPDLGTTLILCFSFLCMLYLSNANVKPIVIIFLILGIMSVPTYMFVLKDYQKTRIEVFLNPEKDLKNKGWHVAQSKISIGSGGLSGKGYLEGSQSRLKFLPEPQTDFIFSVIGEEIGFLGSTFVLSLYFLLIYIIINISKKIIDDYGRIILYGISGIFLAHVIINVGMTLGIVPVTGKPLLLMSYGGSSFISSFLMISLIQNIKIYNGDDDDK;locus_tag=LOCUS_09480;gene=rodA;note=WP_011016844.1 rod shape-determining protein RodA (Fusobacterium nucleatum) [pid:36.9%25%2C q_cov:92.2%25%2C s_cov:94.0%25%2C Eval:9.8e-65],MGA_952
sequence1	MetaGeneAnnotator	CDS	1014766	1015983	.	-	0	ID=MGA_953;product=pitrilysin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016846.1;translation=MVKILDVLGIKTLINKIEDDASFTISVCFNTGSVNEKENEKGLSHVLEHMLFTGTNKRNNFEISEEMDFYGAKYNAYTSKEVTNYYFTSLSSKQKETTEIFFDMITDPIFPEDQIKKEKEIIFEEIRMSKDDIWSVVFEQMQENLFEGNLKYNIIGTEESVGSFTREMLIDYYKRNYTRDNLVISVSGNIDEELLINQIKTYFSKLNENKVELTFEKDELKKTDYREKKEINQVNVYILTKNNVKDRSLKDYYIDICLEMIIGDGFSSRLFQEIREKRSLAYSVNAMNFDYKNLKTFGVYIGTSVNKYKESLEVTLQILDNIKKEGITERELEKVKNSILSTRATAKENSKIVGRLLNMYKVFGKVFTDKEIADTLLCISVEDVNNKARILLNNFSTCVIGGIDV;locus_tag=LOCUS_09490;note=WP_011016846.1 pitrilysin family protein (Fusobacterium nucleatum) [pid:33.6%25%2C q_cov:97.5%25%2C s_cov:97.3%25%2C Eval:8.2e-60],MGA_953
sequence1	MetaGeneAnnotator	CDS	1015987	1016544	.	-	0	ID=MGA_954;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILDILIIILTLLFIIMGYKNGFVKSAFNLIKLVIVIYFTPMFLPMVELIANIRANNVIIRYLVYFAIFIVLYLLVSIVINMITKLIGMTPLGIVNKLLGAVFGLVKASIIIVFAIIIMLFASNKFDNVKEVLYSSILVEYISINSGAYNSLFPEFIKDKLDDFRTYNLEKNFKRKLLKEIKEGI;locus_tag=LOCUS_09500;note=MGA_954
sequence1	MetaGeneAnnotator	CDS	1016541	1017569	.	-	0	ID=MGA_955;product=alanine racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016367.1;translation=MNVYAIIDLDAFKKNLDKILEKIPASKVMAIVKANAYGHGSIKIVESAIEKGINFFGVARIEEAEEILNIFPKVDVLVLSPIMKSDIENAVSKGIHLTISSFEDIEYILENKINGNFHYALDTGMGRIGFMEDEIYRAFSMLKPIGIYSHLSSADNDNEYTNMQIEKFNRIVNDLDVKYKHILNSFGSINNYEDYDLYRLGIIMYGAEMTDIFKPVMTFKARVNHIKVLEKDTYIGYSKTYLASCGEKIATISCGYADGMLRSMSNRSKVYFNGKYYPIVGNICMDQFMIKVDDDIKVNDYVEIFGNNILVGDLAKELNTISYELLCAISHRVKRIYWMEEK;locus_tag=LOCUS_09510;gene=alr;EC_number=5.1.1.1;note=WP_011016367.1 alanine racemase (Fusobacterium nucleatum) [pid:35.3%25%2C q_cov:98.2%25%2C s_cov:99.4%25%2C Eval:3.8e-52],MGA_955
sequence1	MetaGeneAnnotator	CDS	1017547	1018188	.	-	0	ID=MGA_956;product=(d)CMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015703.1;translation=MIIAIDGPSGSGKSTVAKKIAQKLDIAHLDTGAMYRLLGYKMIKDNLNLDNISDVLKELNIDIKGNSFYLDNVDVSKEIRENNVSMMASKVSKIKKVREFMVDLQREISKNKSVILDGRDIGTVVFPNADLKIYLNASAEVRAKRRYLEDQKLEYNKILEDIIKRDYEDMNREYSPLRKSEDAIEINTDNLTFDEVLNKILKLVNKHECLCNN;locus_tag=LOCUS_09520;gene=cmk;EC_number=2.7.4.25;note=WP_011015703.1 (d)CMP kinase (Fusobacterium nucleatum) [pid:51.6%25%2C q_cov:96.7%25%2C s_cov:97.7%25%2C Eval:4.1e-57],MGA_956
sequence1	MetaGeneAnnotator	CDS	1018199	1018978	.	-	0	ID=MGA_957;product=TIGR00282 family metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904102.1;translation=MKFAIIGDVVGLSGENVLFKFLSKRGDNYDFIIVNAENIDKGFGILPNNAKSMFNYGVDVITLGNHSFDKKEIYNYLDSEHRIIRPYNFSKNSPGKGYTIIKKNDVRIAVVSLQGKVYMNAVNCPFLAIDELYEEIGDKADIIIVDFHAEVTSEKNAMGWNLAGKASLVYGTHTHIQTADERILLNKTGYITDIGMTGGHDGVIGMNRKEIIKKFKDGMPVRYTVCEENKRINGIEVEIDTKTGKTLSIDRINLSYEKI;locus_tag=LOCUS_09530;note=WP_005904102.1 TIGR00282 family metallophosphoesterase (Fusobacterium nucleatum) [pid:55.1%25%2C q_cov:98.5%25%2C s_cov:97.3%25%2C Eval:9.8e-73],MGA_957
sequence1	MetaGeneAnnotator	CDS	1019054	1020619	.	-	0	ID=MGA_958;product=ribonuclease Y;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627077.1;translation=MIIYTLIILVAVLIVLVEFNLIKSRFIKKYGEYSDLELKIFDLKRKLEITKKDVEREIESFRKEETLKVKEELLAQKKLADEEIKVMKSEFLVKEERIAKKEENLELRTNKLEEKEAKLEQRKEKIVEIENELNAMIEKEEKELERISGLTSEQAKEIILIKLEDELDYDKARLIKDYEYNLEREKDRLAKSAIAIAINKAASDYVADATISVVQLPSEEMKGRIIGKEGRNIRALEAATGVDLIIDDTPEAVVLSSFDGVRREVARLTLEKLIQDGRIHPTKIEELVEKSQSEVENSMISAAEEAILEVGIPSLPKEVLKTLGKLKFRTSFGQNVLQHSIEVAHLCSSLATQLGVNVDYAKRAGLLHDIGKAFSHEQEGSHAINGAEFLRKFSKEHPIVINAVEAHHNEVEPTSVEAIIVQAADSISAARPGARRETLSNYLKRLEQLEEIANSHQGIESSYAIQAGRELRLIVKPEEISDDQAVILSRNVVKDIEEKMQYPGQIKVTVVRETRATEYAK;locus_tag=LOCUS_09540;gene=rny;note=WP_201627077.1 ribonuclease Y (Fusobacterium canifelinum) [pid:54.7%25%2C q_cov:98.5%25%2C s_cov:97.9%25%2C Eval:3.3e-152],MGA_958
sequence1	MetaGeneAnnotator	CDS	1020643	1021032	.	-	0	ID=MGA_959;product=membrane lipoprotein lipid attachment site-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029490892.1;translation=MKRYIFLMFFLLLISCSNINRISTINNFEKNKIFKEVIKVQEEIIDLAKIDNKDEIKKRITTTLRNQIILLSLSKYDFSKFLIFFSKEIDIINTNTVKSILLLNYETETMYFDVIWKKYNDKWMIDSVE;locus_tag=LOCUS_09550;note=WP_029490892.1 membrane lipoprotein lipid attachment site-containing protein (Fusobacterium) [pid:34.1%25%2C q_cov:96.1%25%2C s_cov:93.1%25%2C Eval:9.8e-09],MGA_959
sequence1	MetaGeneAnnotator	CDS	1021184	1021777	.	+	0	ID=MGA_960;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLSILLLSTFILFSNIIDSKKSNYRIAFSLGSIYNFIEASQNSGASISFLTEWKAIINNKFDITFGPKISINTNVDNLKNIAFIYSGINLGGEVNFNYNLKENIKIYTGIEGQVGVGLHTRTYLSYIVDEKKDKKVVYNYNNTTAEYKKNTLNSLSPTGIISLFMGLKINDKYNIALYTGYGKGYIGLEAGYSF;locus_tag=LOCUS_09560;note=MGA_960
sequence1	MetaGeneAnnotator	CDS	1021854	1023911	.	-	0	ID=MGA_961;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNLKNLLAGIAVSIFITSCSALTAKQLYEKGDYIGALETTVKELNSAKSEIPLTIANEISSRIRETENRYMSIISNTSDLRTKANTYFELWQMGNIIEKNPILEKYTDFRTRHDNYRNLNLAIELIKRYAEEDLNSRINSLGEFITKLRKADVKNSQYSTIFESFARSTADIYINSAESLERIGKYKEAKEMYYKGYEAYRDFNNNYRDSQKRYTELTKIIDLADAEKYFQSAISLYSSGRFSEAKVRFEKARDIYHRYSMNRNVDQIDSYLKDIKRRIELNEANKYFDEAKRYYNSGHFDRAKSRFLEAKKIYDYYKNYTLSREIDVYLENIKYKIEIQIADKYFEEGQRNYNLQRYDSAKVAFEKARTIYISLGERSKVSQIDVYLENIRTRTGNNPANDFNMYYKQALAYLEKGNREYNTGNANYYYKLAIDNFKYALNYTNDYYKRNEINKYIQDLEWKIKNTNNEKNEYKFVEEYKKALEVIDYAKKQPTFEDENYYYKEALNILKKAIKLTNDLENRDQANELIRKIENKISENESAMRFQLKYYELYNKAKSYISIAESRINVYDRNKDYKHAINYLKEALKYTKDKSKINEVNKLIYSLESKVRMEDFNNDFIKFFTEGQEYLKMANNKIGLLETNDYYGKAMSSFEKAKRYTTDQRKINEINLMIKDIKNRIYK;locus_tag=LOCUS_09570;note=MGA_961
sequence1	MetaGeneAnnotator	CDS	1024070	1025131	.	+	0	ID=MGA_962;product=Xaa-Pro peptidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000161666.1;translation=MKKDKVIEYIVNTGLDTIIFTTPKNIEYLTGFSCDPHERALMYVINKKGDEFILCPKLEEEVAKKSTENINIIGYLDTENPYIKLHEFTNDILNLGIEKEHITVLRYEAIIDVFKVENIKDVSHLIRDLRKKKSKLELEFMREAANLADKCMEIAANNIRKGITELELKSIIENEIKKYGVSKMSFDTIVLFGEMAANPHGESSNRALKDNEYVLIDLGCYYKGYASDITRCMPFGKVSDFDKSIYDLVLKANTEAIKAVKPGVSFAYIDKIARDIITEAGYGEYFNHRLGHGLGMDCHEYPDVSQKTTDLLEVGMTFTIEPGIYIPNKVGIRIEDDIYVTENGCEVLTKYPK;locus_tag=LOCUS_09580;note=WP_000161666.1 Xaa-Pro peptidase family protein (Staphylococcus) [pid:50.9%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:7.7e-96],MGA_962
sequence1	MetaGeneAnnotator	CDS	1025159	1026085	.	-	0	ID=MGA_963;product=oligopeptide ABC transporter permease Opp2C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002365358.1;translation=MKTNKNSEKDDLMKDIDNLASEVPSGFNVIKREFQKDKVALFSLTFLSILIIVIFFSASFLLDVEDVMKVRLLDKYAAPLEGYWLGADYGGRSILGQLIIGARNSIIIGFSVTIITSFVGIVVGVIISYYGGWIENISMRIIDFISILPTTLIIIVFVTIVPKYNVITFILIMSIFYWTGTARLIRGKVLSEVRRDYINASKTMGTSDLKIIFRELLPNISSLIIVGLTLGFASNLGIETGLTFLGYGLPPQVPSLGILISYATAPEVLADKWWVWMPASMLILIIMLCINYIGEALKRASDARQRLG;locus_tag=LOCUS_09590;gene=opp2C;note=WP_002365358.1 oligopeptide ABC transporter permease Opp2C (Enterococcus) [pid:58.1%25%2C q_cov:92.5%25%2C s_cov:94.5%25%2C Eval:8.8e-90],MGA_963
sequence1	MetaGeneAnnotator	CDS	1026098	1027060	.	-	0	ID=MGA_964;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000265442.1;translation=MWKTVLRRVLAMIPQLFILSIIVFIVAKLMPGDPFTGLISPTTPPEAIEKLRREAGLYDPLYTQYVNWMSRAFNGNFGISYTYKLPVTRIIGERIYNTFFLSLLSVILMYSVALPLGILSGRYNESRLDKIVTIYNFVSYAIPTFILSLLMVFVFGYKLRIFPTGGSVDLGYVPGTLDYVINKLYHLILPAITYALLATTWTIRYLRSEIIDSKSLDYVKTAKAKGVPESVIYSKHIFRNSVLPIAAFLGYTITGLFGGSIFIETIFNYPGMGQLFISSISSRDYSVITTLILFYGFLSLMGSLLSDILLMIVDPRIRIE;locus_tag=LOCUS_09600;note=WP_000265442.1 ABC transporter permease (Bacillus) [pid:59.1%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:1.5e-108],MGA_964
sequence1	MetaGeneAnnotator	CDS	1027063	1028010	.	-	0	ID=MGA_965;product=ATP-binding cassette domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287891.1;translation=MSKLIKLEGLKVHYPIRGGFFNTIKDYVRAVDGVSMEIEKGKTYGLVGESGSGKSTIGKSIIGLEKITEGKLFYEGEEINLNRVKRKSMYRKNVQMIFQDSMSSLNPKKRVIDLLSEPLKNFENFTPEQERKRVIELLEIVGMTEDNIVKYPHEFSGGQRQRLGVARAIATNPKLIIADEPVSALDLSVQAQVLNYMKKIQKHLGLSYVFISHDLGVVKHMCDHISIMYKGRFVETGDKKIIYSDPRHIYTKRLIAAIPNVNPLIRDEKRDFRAKIDKEYKELENLYYDEKGRVFDLELLDASSEHYVALNKGGK;locus_tag=LOCUS_09610;note=WP_002287891.1 ATP-binding cassette domain-containing protein (Enterococcus) [pid:61.8%25%2C q_cov:99.7%25%2C s_cov:99.4%25%2C Eval:6.5e-112],MGA_965
sequence1	MetaGeneAnnotator	CDS	1028010	1029026	.	-	0	ID=MGA_966;product=oligopeptide ABC transporter ATP-binding protein Opp2D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002365359.1;translation=MGDKQQDEVLLEVKDLITSFRIKDTYHNAVDGVSFDLKKNEVLAIVGESGCGKSTLATSIMGLHNFIYTKVSGEIKFEGNNLVDFTEKDFNNIRGAKIGMIFQDPLSALNPLMRIGDQIEEGLKYHTTLTFEERQNRVKELITKVGINNPERVMKQFPHELSGGMRQRIIIAIALSCKPDILIADEPTTALDVTIQAQILDLLRELQSEIGAGIILITHDLGVVAEMADRVAVMYAGEIVEIATVYDLFKNPQHPYTKSLLSSIPQMDSNSEDDLHVIHGTVPSLKNLPRKGCRFRHRIPWINENEHEEVPTLHEVEKGHFVRCTCYKNFYFAKEGEK;locus_tag=LOCUS_09620;gene=opp2D;note=WP_002365359.1 oligopeptide ABC transporter ATP-binding protein Opp2D (Enterococcus) [pid:70.6%25%2C q_cov:98.5%25%2C s_cov:95.7%25%2C Eval:6.3e-132],MGA_966
sequence1	MetaGeneAnnotator	CDS	1029137	1029541	.	-	0	ID=MGA_967;product=Fur family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904077.1;translation=MQKIEKYLKERGIKPSIYRIKIFDYLNSNHIHPTADKIYKDLLPELPTISKTTVYNTLNLFVENKIANAIVIEGNEIRYDIENYPHGHFKCLKCNKMIDFKIDYYKKDLEKLGNISIDEVMFYVKGLCENCKDK;locus_tag=LOCUS_09630;note=WP_005904077.1 Fur family transcriptional regulator (Fusobacterium nucleatum) [pid:56.8%25%2C q_cov:97.8%25%2C s_cov:92.3%25%2C Eval:4.1e-36],MGA_967
sequence1	MetaGeneAnnotator	CDS	1029590	1030603	.	-	0	ID=MGA_968;product=aspartate--ammonia ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011949062.1;translation=MKLLIPEGYKTSLNIMQTEIAIKEIKDFFERGLADALNLTRISAPLFVIKSTGLNDNLNGIERPVSFDMKEAPDSPIEIIHSLAKWKRMALKRYGVKENHGIYTDMNAIRRDEDLDNTHSIYVDQWDWELVISRETRNRGIEFLKEVVTKIYKVFLATESYVNMKYHDLKQLLPNDIYFLTSQELEDMYPNLSSKERENEITKKHKAVFLMQIGKALNSGEKHDGRAPDYDDWELNGDILVWNDILKSAFELSSMGIRVDKDTLRKQLEISGDKDRENLEYHKMLLNDELPLTIGGGIGQSRICMFLLQKAHIGEVQASIWTKEIEEECLKNGINLL;locus_tag=LOCUS_09640;gene=asnA;EC_number=6.3.1.1;note=WP_011949062.1 aspartate--ammonia ligase (Clostridium botulinum) [pid:66.7%25%2C q_cov:99.7%25%2C s_cov:98.2%25%2C Eval:1.3e-129],MGA_968
sequence1	MetaGeneAnnotator	CDS	1030604	1032631	.	-	0	ID=MGA_969;product=NAD-dependent DNA ligase LigA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015784.1;translation=MLLFDLNNEEEKKKEYEKLIKDIEIYNHHYYNLDESLITDREYDALLKKIELLEKEFPELKLKNSPTEIIGGKSSDKFKKVKHKKAMLSLANTYSMDDLKAFDQRVKKEVGNNVEYVLELKLDGLSISLIYEKGKLIQAVTRGDGSVGEDVTENVIQISTIPKILKDEIDLEVRGEIVLPLKEFERINREREENGETIFANPRNVAAGTIRQLDYSIVKDRNLDCYLYYLVDSEKYGLNTQLESIEYIQKLGFKTTGIFTKCSKIEDLEKEIEYWDNNRKKLEYETDGLVIKVNEYYLHNLLGYTAKSPRWAMAYKFKAEQKETKMLDISFQVGRTGVITPVAELEPVHISGSVVRRASLHNIDEIKRLGLKIGDIVIVEKAAEIIPQVVKVLLEKRSGNEKEIEIIDKCPSCNNTIFKEEGQVALKCKNPNCVEKLKRKIEYFVSRDALNIQGFGNKLVDKFVDLGYIRSIIDIFKLKNHKEELINLDKMGTKSIEKLLDNIDKAKDIGFEKLFYSLGIEYVGKTTSKLVVSHFGSIENIINASLEELVLIEGIGEKVSLSIYNYFKDNENISLINEIKNIGFDLSFEKEQILNNNFITNKKFLATGKFVNYSREEIKKVIEKNGGIYLSSVNKNLDYLIIGEKAGSKLEKAEKLGVRIITEEEFLKLSKLKGE;locus_tag=LOCUS_09650;gene=ligA;EC_number=6.5.1.2;note=WP_011015784.1 NAD-dependent DNA ligase LigA (Fusobacterium nucleatum) [pid:51.2%25%2C q_cov:96.6%25%2C s_cov:94.7%25%2C Eval:7.9e-189],MGA_969
sequence1	MetaGeneAnnotator	CDS	1032639	1034099	.	-	0	ID=MGA_970;product=IMP dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017001.1;translation=MNKILLEGLTFDDVLLVPQSSSVIPSEVELKTKLTKKLSLNVPIISAAMDTVTEAELAIAIAREGGIGFIHKNMTIERQADEVSKVKIFESGMITNPITLNIGSDLQEANDIMRKYKISGLPVINSENELLGIITNRDLKYREDLSAKVVDVMTKENLITAKVGTTFEQAKQILLEHRIEKLPIVENGKLKGLITIKDIDNVANYPNACKDEKGRLRVGAAVGIGSDTLRRVKALVDAGVDVITVDSAHGHSKGVIEKIKEIRKEFPNLNLIGGNIVTKQAAIDLVEAGVDAVKVGVGPGSICTTRVVSGVGMPQLSAVMEVAEYCNERGIGVIADGGIKLSGDIVKAIAAGADCVMLGGLLAGTHESPGEEILYNGRAYKSYVGMGSLIAMKRGSKDRYFQLEAATDKLVPEGIESMVPLKGKLKDVLFQLCGGLRSGMGYCGTATIEDLKINGKFVRITNAGLKESHPHDVIVTKEAPNYSGIK;locus_tag=LOCUS_09660;gene=guaB;EC_number=1.1.1.205;note=WP_011017001.1 IMP dehydrogenase (Fusobacterium nucleatum) [pid:69.6%25%2C q_cov:99.0%25%2C s_cov:99.2%25%2C Eval:2.5e-194],MGA_970
sequence1	MetaGeneAnnotator	CDS	1034102	1035715	.	-	0	ID=MGA_971;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELILKDSVNFNFNISDFALDPLNHTLITTGDSLNFLSNMKKIKSIKGKMKESLSIRFIKYENQLFQSNDFYVICSNDKVYKVDGKRKKIVEEITLPLNNVENIIVSRTGKLAYISNGILYINDINLENLKAFPLTELGEGRFKIYISDENILIKHRKMHESSVNVLLFSLQHLKKIFEITSTTNHIYSKIIGLNYLSSTDDGYIEIWDILESQIKYSFKLSNYKITYIENDKNFYYFGNINGELIITDLELNIVNKIKIFQDEIKKIKIFNSKIYILSFNNRMKVFDIINNENEFDDIVNNFIHKYNIHESYKEFFNIDKVVKIKGFIDNLEADHIDYTPSSDKIFKALSQNISDIKVCIMGKDPYFQKGVATGLAFEVNSESWMDEKVNTSLKNILKLIYKTYTGNMVDISEIRNSILKKEFDILPPNMIFKNWQNQGVLLLNSSLTTVIDKAGAHHKFWESIINELVEYISSRNTNITYLLWGNDAAIMEKHILNGEIIKHNHPAICGNLKNQNDFMLGKSFEKTKKYINWLGV;locus_tag=LOCUS_09670;note=WP_011016997.1 uracil-DNA glycosylase (Fusobacterium nucleatum) [pid:28.8%25%2C q_cov:42.1%25%2C s_cov:90.3%25%2C Eval:1.1e-17%2C partial hit],MGA_971
sequence1	MetaGeneAnnotator	CDS	1035730	1037589	.	-	0	ID=MGA_972;product=ribonuclease J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005896361.1;translation=MEKNEKTFSRKKKEIGEKIKAVKQLFEEEEKKVTKEKPVIKRKTSVKNTKKVEKVKPSEENTDITTDKTYIIPLGGIEEIGKNITVIQYRDEMIVIDAGLTFPEDEHLGVDLIIPSFEYLASNVSKVKALLITHGHEDHIGAVPYFYQRLGSGIPMYGGKLSLELALAKFEKVTVKKPKCVYISNRNEVKIGKYFTVEFISVTHSIPDCYAIRVKTPTSTILHTGDFKVDLTPVNDERFDFGRLASIGEEGVDLLLSDSTNAQVPGSTPSESTVGRSIDAEVAKAKGRVILASFASHVHRIQQIILIAQKYGRKVAIDGRSMLKIFEICSKLGYLKIPKNMIITLEQAEKMAENKVMIICTGTQGEPLSVLSRIANGTHKSISLRANDRVIISGSPIPGNEKAAYKNINQLLKKEASVIFEKVMGIHVSGHGCQEEQKLMINLIKPKYFMPVHGEYVMLKKHKELAMEVGMPEENIILAENGFKLELTPNSFKTVGKVPSGAVYIYGDSVGNVREHILRERQILADNGVLAISVAQNSELKFVGDPIIFSKGFLYKKDDITSQITESMKEVVKSKLVFLEQKQEQDIEKIKTGITNTLNNFFNDNIGKVPTVIVTVVRV;locus_tag=LOCUS_09680;note=WP_005896361.1 ribonuclease J (Fusobacterium nucleatum) [pid:47.6%25%2C q_cov:97.6%25%2C s_cov:92.7%25%2C Eval:2.6e-162],MGA_972
sequence1	MetaGeneAnnotator	CDS	1037602	1039509	.	-	0	ID=MGA_973;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015790.1;translation=MDNKYDVLVIGAGHAGIEAALASARLGLKTAMFTITLDNIGVMSCNPSLGGPAKSHLVKELDALGGQMSKTIDKSFVQIRILNTKKGPAVRSLRSQADRKIYARNMKKIVENQENLDVIQDIVTELIYEKDEIKDFVVRGIKTKNGLEFLAKSVIICSGTFLNGLLYVGDKIIEGGRMGELSAKDLTSSLVDMGLDIRRFKTGTSPRIDARTINFDILEEQPGEMSKVIKFSNSTPDEVIRNTKQLSCYITRTNLDLHKIIKDNLNRSPLFNGTIKDSVGPRYCPSIEDKVVKFNDKDSHHLFLEPEGFDTNEVYISGLSTSYPADLQQKMVRQIEGLENARIMRYGYAVEYDFVNPNELEYTLETKKVKGLYLAGQINGTSGYEEAAVQGLIAGINASLAIKGEEPLLLERNNSYIATLIDDLITKEIEEPYRMFTARSEYRLILREDNADLRLSHIGYRIGLVDESTYSKVLEKLNNVEKTIKVLENTKLGVSNKKLVEILEKNNETLKSGTTLKELLRRPSFTYDDIKYIAEDIEMENICFDEETEYQIEVQIKYEGYINKANAMIEKQRKLEEKIIPSELNFLEMKGITGEAKQKLNERKPHTVGQASRIAGVTPADISVILMYLDGKIKL;locus_tag=LOCUS_09690;gene=mnmG;note=WP_011015790.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Fusobacterium nucleatum) [pid:57.8%25%2C q_cov:98.6%25%2C s_cov:98.9%25%2C Eval:8.6e-214],MGA_973
sequence1	MetaGeneAnnotator	CDS	1039518	1040171	.	-	0	ID=MGA_974;product=TrkA family potassium uptake protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904246.1;translation=MKNFLVIGLGEFGKSVAKTLYKSGNTVLALDSSEELVRQALDEEIVDEAIILDATEETTLKNVIKDDFEIAFVCIGSNIQSSILVTLHLKELGIKKIICKAVSHTQGKVLKKIGADMVVYPEESMGEKIALASLRPTVVEHFRFSEEYSVFELIMPEEFVGKTLKELDLRTKYEANVIAVKYENGSMNVTPDPNDVLKKEETLVLLLKTEMIDKIIK;locus_tag=LOCUS_09700;note=WP_005904246.1 TrkA family potassium uptake protein (Fusobacterium nucleatum) [pid:41.9%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:8.0e-48],MGA_974
sequence1	MetaGeneAnnotator	CDS	1040179	1041507	.	-	0	ID=MGA_975;product=TrkH family potassium uptake protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015791.1;translation=MEKKISPYILILISFIFIIVIGASLLTLSISLKSGVKISFFEALFTATSAVTVTGLTILDVSKTFNRFGNIIILILIQLGGLGILTFSSLIVLIVSKKIGYYTKKIVKEDLNFEDKFDIYLYMKKVAMVVFGIELLGAIFLLSDFLKEYSIGEAIFYSIFHSISAFCNAGFSLFSNNFEGFVDNVYVNIIIAFLIFTGGVGFAAIIDIYEYIQGRGKRLTINTKFSLYITVSLLFIGAILFFTFEYTNSGSIGEMSFLKKILASFFQSVSLRTAGFNTVNLNNLRIPTVLVSCILMFIGASSGSTGGGIKTNTVGIIFLGIKASIKNREEIVFSRRRISFKAFNKAVALLFIALSYLFVIFLLMSIFESDKDLVKVLFELISAMGTVGLSMGITSSLTIYSKMLIIITMFLGRVGLLTVVLALSRSGEKGKYIYPEGNILIG;locus_tag=LOCUS_09710;note=WP_011015791.1 TrkH family potassium uptake protein (Fusobacterium nucleatum) [pid:45.1%25%2C q_cov:99.1%25%2C s_cov:97.3%25%2C Eval:1.8e-100],MGA_975
sequence1	MetaGeneAnnotator	CDS	1041562	1043361	.	-	0	ID=MGA_976;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAFKKMGRPMKVITVFIAIAMLIPVFMSAYTYFSNREKKTVMLKIDGEKIYKEDFDKKYDNFSKQIESLNEQIIKAKNLDKEKYQALPEELVKGYVLAGQVYEALNKVLINELGARASKKEIEQKFKELEDQLGGSKGLITALNAQGQTVENLRETIKMFLLNDKKLEIIKQKISVTDKEIEERFNQRKFTEYEDKSFAEVKDEVKDDILNEKAKIYEKSLIENKFNNAKISISDKTIEPALNKLKEVFFEKEEYKFTYMDVLSQIVNLFFKQGNGYTEDFQNMIKGLIETDLDKKIRIRDKAIESGLTLNQDLLPKYQLEYIAEEYVSKLIGSYVATEEEMRAIFNKYQGAFDIQHTVSGEIIGMAYIPSDDDAKETENKVIELMKTITKENFADKARELSKDPGSAQNGGDLGKANINNFVPEFRTAVAKAEAGSIVGPIKTQFGYHIILVEEKDENNKDIATLKHILIKVEAGERTKEEIKNKVLEIKELITSNKLTWENITSDTTGKYNEYGIKDHFSKVKQNDKLPVVGYDKTVNSKLFSAKVGDFIEISLDDSFVIIQKTEDTPYKKVSYNEVKEKLNFIAATDYVTRHLLEI;locus_tag=LOCUS_09720;note=WP_167345969.1 peptidylprolyl isomerase (Thermus parvatiensis) [pid:34.1%25%2C q_cov:19.9%25%2C s_cov:36.6%25%2C Eval:5.5e-13%2C partial hit],MGA_976
sequence1	MetaGeneAnnotator	CDS	1043566	1045734	.	-	0	ID=MGA_977;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLGITALSSVASFGSKYEHLHGYLELNGSVSVEKPITYEKVNSGNGGSGGNSSNEMQIKDLWKQDDVTNKIGAKGNLGVFMHKNKEIFAFIGTDLNGVKANKDEMKLGDKTPYHFGLRWDSDIVDTFNIQLTAAHRRGGDGIAWEKKKNLNEDEKKVHKHNGIKEAIEKHLTSKGKKVKIGKEQGYKLGEEHTFLLSAILNGKIYNNFELTVAGIYNSADFKDDKHELETFVKTNGKLSDNVRIANAEIRHVLKSGNYEQYGDLFGDVKVETDANEKVKLTNEAKFELKSILKKTERNTKVELLNNGEYKGKTVDLRGDLNYKLKIKEDNGNTTLTHEPEVKLGATIKPTTKLSLISDNSNKVTIEHKVNEEVSKLNNDFKTSNKIKLNVTKGLDLHTLAEYKLGANLKATNGNKEYNHALLTGAGLSLKKEIEEVNIESTIDLRYLFDTKHKENQKPEDLRHQGFVWTENKVSYEINDNNKIEGKVNLYNQVHFHTDQNHKVANDKDLYDVFLANIVLGYKNVNGRYTNEINIDAKYGLDAVFHKGLTATDEGIKQALSIDFGGKSRYKARENVEVILSLDNEYNLNGLNKEVYGVYVDYIKDSTGYKESIHKYAEKYDVSKQDSLRKEKGKIKDLTKGKLSSKAELEKAIHSLTVKPKISTEFSYVEGRLKVSPWIGAEFNLENKPNGASNNNNENKDFVLRKIVGKGGLSINYTW;locus_tag=LOCUS_09730;note=MGA_977
sequence1	MetaGeneAnnotator	CDS	1045999	1046715	.	-	0	ID=MGA_978;product=peroxide stress protein YaaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000697767.1;translation=MQESEIMKILIPPAKQMKERKEVLRKGINENTEKILEEILKIEDLSKFFKIKSEQAEIERKRFLDIKNKVSKEYRAIELYDGLMYRNIKRDNLSEKEKEYLNNVYITSSFYGIINALDNISLHRLDFLNNLSVDGVSLKKFWQKQYDDTVKNEELIISLLSSEFEEVFSKEIRDRMYKIVFKESGKTHSTISKKARGQFLTALIENNIQSIEEIEKLKFCGYEMVEKRDKIIFFEKNK;locus_tag=LOCUS_09740;gene=yaaA;note=WP_000697767.1 peroxide stress protein YaaA (Streptococcus mitis) [pid:42.1%25%2C q_cov:92.4%25%2C s_cov:94.2%25%2C Eval:3.5e-42],MGA_978
sequence1	MetaGeneAnnotator	CDS	1046694	1047302	.	-	0	ID=MGA_979;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009930903.1;translation=MKHYYTNNIDLKTNRKEIEVDFLGNKYTFITDLGVFSKNKLDFGTDVMLREFINNNKKEKFKLLDIGCGYGTVTLLLSKFYKHSKYVLTDVNDRALELADINCKNNMVEDYEIYKSNSFENIHENFDIIISNPPIRAGKNIIFDIYENAYNHLDIDGDFYCVIQTKHGAKSTEKKLREVFGNCKTLGIHSGYRVYFCKKVKL;locus_tag=LOCUS_09750;note=WP_009930903.1 class I SAM-dependent methyltransferase (Listeria) [pid:44.5%25%2C q_cov:98.5%25%2C s_cov:97.5%25%2C Eval:3.1e-40],MGA_979
sequence1	MetaGeneAnnotator	CDS	1047283	1047735	.	-	0	ID=MGA_980;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVEFKLLDPIKDEGMLYSIVELEDIIFEGASIGNYNIKPMAKYGRVYALIKGKEIVSVIEVMSSFDREIAYIYGLFTNTKYQNQGMAHKILSLVLEELKKIGIKKVQLTTGVNNTKANKLYLDFNFYIKELLEDEYKDGEKRYLYETLLY;locus_tag=LOCUS_09760;note=MGA_980
sequence1	MetaGeneAnnotator	CDS	1047722	1048300	.	-	0	ID=MGA_981;product=pyridoxal 5'-phosphate synthase glutaminase subunit PdxT;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000689963.1;translation=MLIGILALQGAFIEHKEILDKLGIDSFEIRQKKDVLRNFDALILPGGESPVMGKLLRELDIYEELKNKIENGMPVFGTCAGMILLAKEIDNDDKRHLALMDITVKRNAYGRQLGSFKSFEKFGNISDFPMVFIRAPYVVNVGNDVEILSVVDEKIVASREKNMLVTAFHPELTKDTRIHEYFIEMVKENGRV;locus_tag=LOCUS_09770;gene=pdxT;EC_number=3.5.1.2%3B 4.3.3.6;note=WP_000689963.1 pyridoxal 5'-phosphate synthase glutaminase subunit PdxT (Streptococcus mitis) [pid:56.5%25%2C q_cov:97.9%25%2C s_cov:99.0%25%2C Eval:4.1e-55],MGA_981
sequence1	MetaGeneAnnotator	CDS	1048303	1049178	.	-	0	ID=MGA_982;product=pyridoxal 5'-phosphate synthase lyase subunit PdxS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005813582.1;translation=MEDNRYELNKNLAQMLKGGVIMDVSTPEQAIIAERAGACAVMALERIPADIRAVGGVARMSDPAMIKSIQEVVSIPVMAKARIGHFVEAQILEAIEIDYIDESEVLTPADDVLHINKRDFKVPFVCGAKDLGEALRRINEGASMIRTKGEPGTGDIVQAVRHMRAMQNEIRRISSLDERELYNVAKELQVPYDLLKYVYDNKKLPVVNFAAGGVATPADAALMMQLGAEGVFVGSGIFKSGDPEARARAIVKAVTNYNDPKVLAEVSSNLGEAMVGINESEIKILMAERGK;locus_tag=LOCUS_09780;gene=pdxS;note=WP_005813582.1 pyridoxal 5'-phosphate synthase lyase subunit PdxS (Desulfitobacterium hafniense) [pid:81.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-131],MGA_982
sequence1	MetaGeneAnnotator	CDS	1049338	1049841	.	-	0	ID=MGA_983;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFHKGLTATDEGIKQALSIDFGGKSRYKARENVEVILSLDNEYNLNGLNKEVYGVYVDYIKDSTGYKESIHKYAEKYDVSKQDSLRKEKGKIKDLTKGKLSSKAELEKAIHSLTVKPKISTEFSYVEGRLKVSPWIGAEFNLENKPNGASNNNNENKDLNLEIFLIE;locus_tag=LOCUS_09790;note=MGA_983
sequence1	MetaGeneAnnotator	CDS	1049847	1051598	.	-	0	ID=MGA_984;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYMKKEYIFLIVNMKKFLINLNIKICMIVVLSYISFLFILLFIITYISSKSNLYKHYFSVSVEKPITYEKVNSGNGSSGGASSSNEMQIKELWKQDDVTNKIGAKGNLGVFMHKNKEIFAFIGTDLNGVKDKNNEMKLGDKTPYHFGLRWDSDIVDTFNIQLTAAHRRGGKDIAWEEKQKINADNKDKVHKHNGIKEAIEKHLTSKGKKVELRGDLNYKLKIKEDNGNTTLTHEPEVKLGATIKPTTKLSLISDNSNKVTIEHKTSSINNLEKINNDFKTSNKIKLNVTKGLDLHTLAEYKLGANLKASNGDDKYNHALLTGAGLSLKKEIEEVNIESTIDLRYLFDTKHKENQKPEDLRHQGFVWTENKVSYEINDNNKIEGKVNLYNQVHFHTDKDHKVATNGKDLYDVFLASKPITYEKVNSGNGSSGGASSSNEMQIKELWKQDDVTNKIGAKGNLGVFMHKNKEIFAFIGTDLNGVKDKNNEMKLGDKTPYHFGLRWDADIVDTFNIQLTAAHRRGGKDIAWEEKQKINADNKDKVHKHNGIKEAIEKHLTSKGKKVKIGKEQGYKLGEEHMLMLNMD;locus_tag=LOCUS_09800;note=MGA_984
sequence1	MetaGeneAnnotator	CDS	1051498	1053273	.	+	0	ID=MGA_985;product=signal peptide peptidase SppA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029492321.1;translation=MYDKTTIIQIFMFKFIKNFFIFTIKKIYSFFIYITLLILLITIIMGGMFSKDEINEDYENILISDIFIPSDDKFTNSIKYIEGKNITFSEVYTSLNMIASDDKIQKIFIDLDTTAFTASQLEELEPVLNKIKLSNKKIYAYGSEINNTNYGIATYADEIIVPETQNANIVLTGYSNKSMYYKDLFDKYGFKMEVIHVGSHKSFGQNYTRNSISAEEKETLTRILDKRLEQFIEKNANARKIKPEIFKEKLLKGEYAYISPEKARDLDLVDQIIFYDDLAKKIDLKDDNTISLQNYSEKKIKEINTSSNKIAVIYLDGEITEKSNSTVPYISYSNFEQKFEKAEKTKGIKGIVIRINSPGGSAIEAKQIYNRIRKSEVPVYISIGNIAASGGYYISSAGNKIFINPSSLTGSIGVVSIMPKYSAALNKLGINIDGVEKGKYSNLLSPYKDLTDEERNIYQRKLESIYSEFKNDILKNNKKLTSESLEEVAQGKIWLGSEAIKLNLVNEFGGLQDTINALQEDLKLDNNYNIVNIYSEKNYEDVFSIFDRLLIKFKLKNKNILVINELEEKIQFIINQKGKAMYYSDILPFEF;locus_tag=LOCUS_09810;gene=sppA;note=WP_029492321.1 signal peptide peptidase SppA (Fusobacterium hwasookii) [pid:31.3%25%2C q_cov:92.6%25%2C s_cov:95.1%25%2C Eval:1.4e-82],MGA_985
sequence1	MetaGeneAnnotator	CDS	1053287	1055494	.	+	0	ID=MGA_986;product=UvrD-helicase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005898558.1;translation=MSILDNLNTEQRQAAKLVEGQTLILAGAGSGKTRTLTFKIAYMIKEKNINPRNILALTFTNKAAKEMKERVETLVGDNNEILISTFHSFAVRLLRTYSERIGYTNNFNIYDNNDQKSIIKKILKSQGLDKKYKESQIISKISRLKELGLNYTNLGQELDMNLPFNREFKEIFREYQEKLEKSNAMDFSDLLVNAKALLDDEYVLDKIQNRYIYILIDEYQDTNEIQYQIVKKIAKKYKNICVVGDEDQSIYAFRGANIRNILNFEKDYPNANTIKLEQNYRSTQTILDAANSVIRNNKSSKGKKLWSDNNKGEKIGIYTAINVEDEATFISDKINELKIRKDKKYKDFTILYRTNAQSRAIEESLIQNKIPYKIYGGLRFFDRKEIKDLISYLLLINNPKDDLSFERVINFPKRSIGPKTIEVLTHIATKNQTSLFDAILQVENEISSSAIKKLLSFRDLINKYIIAKEDMTTSEILKDLMDDIDYNSALDSYDNKENRIENIQELINSIATIEEETGFLSLPEYLENVALNSPSDNLVEEENFVKLMTIHASKGLEFNTVFLVGVEEGLFPNEDSNFMEDELEEERRIFYVAITRAEEELYITHSLERKTWGAMTNYFVKPSRFIGEIQKDLKMEIFNPNNREPKFNNDNEVVRFVNPNKKSIENFNPFKFINNSKMITPKVDTSFKIGEKVKHSEYGKGIIKEITPKSITVNFSIGSKKIALKFAETFLERIE;locus_tag=LOCUS_09820;note=WP_005898558.1 UvrD-helicase domain-containing protein (Fusobacterium nucleatum) [pid:46.4%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:8.4e-176],MGA_986
sequence1	MetaGeneAnnotator	CDS	1055494	1056054	.	+	0	ID=MGA_987;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLMVTMFFSFNVYSYNFDNYHWYTFKHVSKNIPKLKPFDIIVLSKGSDITQQFGHLFILNRDKKLVEIKGLEDYFSDNPIYSFSHIENRKISVLRYKKMTSELEDEIDRILPKYYNKKYNIFVGNDPDNLYAYCSNFVFNIFLEASRNLNIDEIELVKNKYPILPFNFLDSKELENIYLGEE;locus_tag=LOCUS_09830;note=MGA_987
sequence1	MetaGeneAnnotator	CDS	1056056	1056925	.	+	0	ID=MGA_988;product=DUF4300 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011837147.1;translation=MKKILVIFITLITLFSCNKSVNKDKIMYSNLSGEISQRFIKDILLKNGIKEDNVNSFLSQVNLFNKAVESKDLIDEFKEIDDPTKIEYNIEYIIDKFKEKYPNFEGCNCRITSFTLIDDIINIENTSNINGSSDFLFLDKDSLENIPLDLNIEKDKFLTLYTDIPTELTKDYNIHLKNIQNEWKNRKISFKDSNVSMISVFLHSDLDEPSMLFIGHIGILIKNEGKFIFIEKLSFQDPYQVFIFNNKIELNDYLMTHYDKSFDQPTAHTILLENDKLLETYKIKENVQK;locus_tag=LOCUS_09840;note=WP_011837147.1 DUF4300 family protein (Streptococcus sanguinis) [pid:33.6%25%2C q_cov:90.7%25%2C s_cov:89.3%25%2C Eval:1.5e-35],MGA_988
sequence1	MetaGeneAnnotator	CDS	1056964	1058262	.	-	0	ID=MGA_989;product=phosphopyruvate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015819.1;translation=MTIIENVYAREILDSRGNPTVEVEVYLEGGAMGRASVPSGASTGIHEAVELRDGDKSRYLGKGVLKAVENVNDIIAEAVIGMDALDQVAIDKLMIDLDGTPNKGKLGANAILGVSLAVAKAAANQLGLPLYRYLGGVNAKELPVPMMNILNGGSHADSAVDVQEFMVQPVGAKTYREALRMGAEIFHHLGKLLKANGDSTNVGNEGGYAPAKINGTEGALDIISEAVKAAGYELGKDITFALDAASSEFFNSETGKYVFKREGGVERTSEEMVAWYEMLCAKYPIVSIEDGLAEDDWDGFKLMTEKLGNKIQIVGDDLFVTNTKRLEEGIKKGIANSILIKLNQIGTLTETLDAIEMAKKAGYTAVISHRSGETEDDTIADVAVATNAGQIKTGSASRTDRIAKYNQLLRIEDDLAGEALYKGLDSLYTIKK;locus_tag=LOCUS_09850;gene=eno;EC_number=4.2.1.11;note=WP_011015819.1 phosphopyruvate hydratase (Fusobacterium nucleatum) [pid:77.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-190],MGA_989
sequence1	MetaGeneAnnotator	CDS	1058548	1058949	.	-	0	ID=MGA_990;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVVRIRGIIEALVVCVGSKGIRYYQITAIDEYSRKRVLKVVKGKSTYETSKYIKELERAIGFKIETIQVDNGYEFVNDKDVTDREDGKILYSRKEFRSEEELIENVKRHERLYNNRAKTVLNFKSPNEVVRE;locus_tag=LOCUS_09860;note=MGA_990
sequence1	MetaGeneAnnotator	CDS	1059273	1060289	.	-	0	ID=MGA_991;product=MupG family TIM beta-alpha barrel fold protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000580599.1;translation=MKIGFSIYLSTELEKNKHIILKAKKYGAEFVFTSLNVQEEDVDKGKQINEIIKLCLENNLKLIVDINGNSKDILKTNDNVYYRIDDGYTLDEIIEFSKNNKIVLNSSVLNEKDLEYMKLKKVDFTNILSLHNFYPKKYTGISLEFLRRQNKKYSDYGILNMAFISGDEKRGPVFEGLPTMEEHRDKRALISALELFDNGTDVVLVGDIDLKDENYRELEYLTKGIIPLRIIKKSLINKIFEDRRDSSDYVIRNMVNNRKDFEKYIFENIDRNELISGEEIEIGDILISNEKYKRYSGELEIALRKLGIDEKRDKLTKVIYEDLELLKYIKKYKKFIFL;locus_tag=LOCUS_09870;note=WP_000580599.1 MupG family TIM beta-alpha barrel fold protein (Bacillus cereus group) [pid:37.7%25%2C q_cov:95.0%25%2C s_cov:94.4%25%2C Eval:2.6e-45],MGA_991
sequence1	MetaGeneAnnotator	CDS	1060310	1061095	.	-	0	ID=MGA_992;product=alpha/beta hydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008760470.1;translation=MKKYLLIFLTFITTFTYSFKREDIKIFSKSMNKMIPVTVILPDGYSNDKKYSVIYTLHGWSGNNKNFPEKTPIGELSDKYNVIFISPDGNYDSWYVDSEVIKKSKYSTFISKELVENIDNKYSTIKEAKNRAITGLSMGGYGAFFIGINNVNIFGNIGSMSGGLIPEDFKGNWGISKVINSNWEEYNIDSLVHKLLFTKTNIIFDCGVDDFFIESNRKVHQKLLSLNINHDYIERAGAHTWAYWSNSIKYQTLFFVENFNK;locus_tag=LOCUS_09880;note=WP_008760470.1 alpha/beta hydrolase family protein (Bacteroides) [pid:39.3%25%2C q_cov:99.6%25%2C s_cov:98.9%25%2C Eval:6.1e-46],MGA_992
sequence1	MetaGeneAnnotator	CDS	1061115	1062521	.	-	0	ID=MGA_993;product=PTS transporter subunit EIIC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012775345.1;translation=MNARKISEEIFNALGGKENILSNSVCMTRLRVGIKESVDVEAIKKIEGVLGVVEAETIQIVLGPGKVNLIGEEFTKLTGISLGSFGAKDVADENKKINKSKHNGKIQQFLQKIANVFVPLLPGIISAGLILGLTNVINITTKGAFVGQWWFAAIKTIGFGMFTYLAIYVGMNTAKEFGGTPILGGIIGALFVGNAAHPLLSKVNDMPLNLPIINKSFTPSIGGLLASLFMGIIVAKIERGIRKVMPTILDTFFTPLFTLLISVFIAIFLIQPLGNYVTKEIFVILDVVYNKFGIAGGYILSAGFLPLVSVGLHQALAPIHVLLNSPEGPTQGINYLLPILMMAGGGQVGAGLAIYFKTKNKKLKTLTRDALPVGILGIGEPLMYAVTLPLGKPFITACLGAGFGGLLASLFKIGTITQGVSGLFGLLIVKPGTWHLYLIAMLGAYIGGFVLTYLFGVDEERIESIYGK;locus_tag=LOCUS_09890;note=WP_012775345.1 PTS transporter subunit EIIC (Streptococcus suis) [pid:60.8%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:7.8e-166],MGA_993
sequence1	MetaGeneAnnotator	CDS	1062538	1063383	.	-	0	ID=MGA_994;product=MurR/RpiR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963515.1;translation=MSILVKLRENNDFTSSEKDIAKFLMNNYKNIKKIDARKIAKETFTSVSAVTRTCKKIGLRGFQEFKIDLIEELANLEQQKLEFVNSDIERNNDTRMIIEKLNKLSISSLKETKLLQDPDIIDKVVKLIKKKKVIDFYGIGASHIVCLDAQYKFMRIGKVCNAFGPFDLQYIQAVNSTDDNLAIIISYSGMTEDIIKISEVLRNKGIETVSITMYGSNKVASNANHNLYVTSKESLKRSAAIYSRISMLNLIDVIYLKYSNMNFDEVSVKINETQIDKVKEK;locus_tag=LOCUS_09900;note=WP_010963515.1 MurR/RpiR family transcriptional regulator (Clostridium) [pid:33.1%25%2C q_cov:96.4%25%2C s_cov:95.4%25%2C Eval:1.8e-38],MGA_994
sequence1	MetaGeneAnnotator	CDS	1063367	1064257	.	-	0	ID=MGA_995;product=N-acetylmuramic acid 6-phosphate etherase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003431390.1;translation=MDLSTLSTEKNNENSKNIELQDSYEILKRINDEDKKVACSIEKVLPDIAKLIDAIVEKNRIIYVGAGTSGRIGVLDAVECPPTYGVDFDRVQGLIAGGREAMFEAKENSEDDTEQGSLDIKEINLTKDDVVIGIAASGRTPYVLGAINYAKEIGALTASITCSENSELSKKVDIPIEVLVGPEIITGSTRMKSATAQKMILNMISTSVMIKRGKVFSGYMVDVKTSNLKLIERAKRILMNVTSVSYEEAQMYLERSGMSVKVAIAMILLKIEKEDAENKLKEYNYNIARLIHEYIS;locus_tag=LOCUS_09910;gene=murQ;EC_number=4.2.1.126;note=WP_003431390.1 N-acetylmuramic acid 6-phosphate etherase (Clostridioides difficile) [pid:54.6%25%2C q_cov:93.9%25%2C s_cov:92.8%25%2C Eval:4.9e-82],MGA_995
sequence1	MetaGeneAnnotator	CDS	1064366	1064983	.	-	0	ID=MGA_996;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHFLEFNNVSFSYDSKLIINNYSFYVDKGEILMIKGRSGIGKSTLLRLISGLEEVSTGEIFLDGIKITNEKIEKRNIGYLFQEFALFPHLNVYDNISFGLSKLKKEEKKEKVTNLLELIELIGYEKRYPHELSGGEKQRVALARSLAITPKLLLLDEPFSSLNIELREKLRQDLKGLLKKIGITTIIVSHDLDDSIIADRLINME;locus_tag=LOCUS_09920;note=WP_011861991.1 ATP-binding cassette domain-containing protein (Clostridioides difficile) [pid:46.4%25%2C q_cov:99.5%25%2C s_cov:62.5%25%2C Eval:8.5e-49%2C partial hit],MGA_996
sequence1	MetaGeneAnnotator	CDS	1064985	1066562	.	-	0	ID=MGA_997;product=iron ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011262596.1;translation=MEIRKINVWKILTHILIGLIISPIIYIIINSFKANSELTNHIFENLLKEYVVNTVFILFPTVFLTFIIGVGLAYFETFYDFKFRNFFRYTNFLSFAIPSYLFAYIYVDFLTGPLYVFLKKNGINLYLDIANIKGAIAILSISFYPYVYITSRAYMKRISMDLIYSSKLLGMSTFQTLYKIILPVSRPAIITGLMLVIMEILNAFGVPFFFGIRVFSTGIYDSWINNYDLDGANKLSVILIVIVLAFLFIEKLSRRKIKYYTGKNTKIKREKLKGIKHVLVLIFFFTVFFFTLLFPIMYIFRWVYLSIGYVYIKDVLINTKNTLSILFYTAIFVLIVALFLTNVNRLAKRKWIINKLVSVGYSIPGSVIAVGFLSIFIGIDLFLINRGIIESITLIKSPLILIFAYTTRFLSLAYTPIEASIEKNGNSLHESSRLLGMSKLKTFFKVDIFMQKTAIISAMLLLSIEIIKEMPLAAILLTNTTLSIQMKNYASDEELVLVGTPALILISITLILIGIYNYFDMKGED;locus_tag=LOCUS_09930;note=WP_011262596.1 iron ABC transporter permease (Aliivibrio fischeri) [pid:29.7%25%2C q_cov:97.3%25%2C s_cov:96.9%25%2C Eval:5.7e-59],MGA_997
sequence1	MetaGeneAnnotator	CDS	1066553	1067563	.	-	0	ID=MGA_998;product=Fe(3+) ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011056364.1;translation=MKKIVLLITVFITNLIFASDVVNVYTSRHYDSDKSIYLEFEKETGIKVNVIQNSDVSALIKRLELEGESTDADVFITVGVGDLYTAKMKKLLQPITSRKVLSNVPANFRDKANNWVGLTYRARIFVYNPETVNVKELSTYEALADKKWNKRILTRSSGSSYNKHLIAFMIAKNGEKSASDWAMKLTENFARDPKGNDRDQAKAVLAGLGDVAIMNSYYMGRMTASKDPLEREVASKLKIFFPNQKDGGTHINLSGAAITKYSKNKQNAIKFIEFLTDQYAQMVYSHENYEYPVNSKAVLSPVVESWGKFKASKIDFDKIGQNLEKAKFVADKANWK;locus_tag=LOCUS_09940;note=WP_011056364.1 Fe(3+) ABC transporter substrate-binding protein (Thermosynechococcus vestitus) [pid:44.0%25%2C q_cov:94.0%25%2C s_cov:88.7%25%2C Eval:6.7e-78],MGA_998
sequence1	MetaGeneAnnotator	CDS	1067639	1069768	.	-	0	ID=MGA_999;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKIKMRNKLVLGILTLSSLSSLGKGFIKNLYLKNNSELRLKHEKKEVENVAMNSSESGKNEKEFTYKANNNINIGTLVGKNKDLFIFLGGQIDARDVKKDKGKITGIDGKLNVGVSYKKKVNENVEITFNSGYQYMGGMEENIKEGLKLRGLWDKKYDDDEKARKEFYHSQGLRLKNDEVLASGVLDLNYEKTKAKLGLIYSSETLVAGKGRIESFLELDQKISKLNIGINLNHKLKTDFEIVDRLGRLKGDVTLSSKLGNFEIMGKAYTNIGSIIRSYKNRTAGGEISLSYEKGGLSFKSILNHETLYDYSKNKKSYSENGEKHSQDKTEKLLYKQEFLTNLVYKDNKVEINSENKVKGKVFTNTNGTVKVDNDKYKRNGNDNNNKDFTVFSAYTKNEIEVKAGYVNLRFASRYRYNMELDDSSKLTHNHLALVGLGLTFENKTNKLNLKNSVDARYLISHSNNTNYSVISAWTDNKLDYEVNDKLRLMGELNFTSFNKVKILEKEKIEILGLGDVKGKIESKLSEKVDFVTELGLNTIILFDYKDKGKNSTQKVSSDNTQNNSNSVLTDLLLKNAYNYKGYIKNSLSYKLNKGMKITGNLGMSYISFYDSDKLYSVLKDIKRKQIDENGIVGISEDESKKINDEKKEFGEKSLEIISIQPGIEGEFKFLDDELVIKPKLGVAINLNKNINYKSTSAKATLNIDYRW;locus_tag=LOCUS_09950;note=MGA_999
sequence1	MetaGeneAnnotator	CDS	1069756	1070118	.	-	0	ID=MGA_1000;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRTTIYNKGFSFKAYLGYEWEKSLSDSSKISLMGKLGTNIEKKIYTGNTLLKVNDTVKNTTDNDDYSFISLNPQLKLKYKFNDNFDIEMEYISNIEFNTKKYQKSSNTIRAGVKYIWGR;locus_tag=LOCUS_09960;note=MGA_1000
sequence1	MetaGeneAnnotator	CDS	1070178	1070852	.	-	0	ID=MGA_1001;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVMRAKVMKLKIFLLFFTVISNISLSATLKKSHKVAKKIPKEVKESILFDFNNNKKIRLELSVDTISDFNHEKNVEMSAKNNIYISTKLFEFLKLSGGINFGQRSFKPLNYYAILGLDFKEYGNIEITLDSVKKADFKYEYDNKINDLDINIKAMYSLFSSERKVDQKEIEHYYGISTNVAYDLGYNFKLSTDLNTSLSTWFSGEKLIPYNFLLGGWNRLIKKI;locus_tag=LOCUS_09970;note=MGA_1001
sequence1	MetaGeneAnnotator	CDS	1070846	1072927	.	-	0	ID=MGA_1002;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKIRFIGLLAIGISSLGAEYYIKNNTKLNLGYDEIVESNSSKFIKNASTELNFAGIFGQKKEVFTFVGGEANFDKDVNFGGGINLGVNLKKKLSKEVELILNAAYQYNNSATTKNSFEEAIKEMLKFRGEWKKEFEKDKEVLKEYYHSQGFRFKQEETLFSGVVGYDNDKFKLNTGLMYTAGYLNNGAMRFESFVNFKTRKLNHDIEFALSHKLRDHTSTKGDKYTNGGRLKSKIKVSSKVGNLGTNNILDIYLGSIVPDGRDYKLTSENEFKYSINNLEMLTALNNELAFRQVKKDDKDLKIRLRPELRFELKYDNKKTLFESKTKVKGRVDLKKMKLDESEYEGNNQVTNNNTDISKVIGLVYTDNIFNYKLGIFDLKLSARYAGVVNMEKTKFKGYDQFVLVGPGITYANKLKNSELKHSFDIRYALGYKDNKTFSVINFWSDNKQEYKVNDKLSLKGELNFTSSNRFSFIDKATDKNEVLLLADTKVMLGYNISDKIEIISALGAKTISLFTEPNKASSQSSVQPSEEILTIQLSSDTIKYGDESLHLILQYGYKVFSENKIKYRTNKNINVIGKLDASFSYGIKSDRLYESLTRIKRNRIGENGIETHIEEDLKKIQEEEKSFGDNKAVLSITPGVELEMKYLDDKLLIKSILEVNVSARVEKSKEYKDIQYGRANIKTGLNVGYRW;locus_tag=LOCUS_09980;note=MGA_1002
sequence1	MetaGeneAnnotator	CDS	1073053	1074324	.	-	0	ID=MGA_1003;product=uracil permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002667891.1;translation=MSIRKIIQVDEKVPTKLLVPLSLQHTFAMFGASVLVPIIYGIDTGIVLLMNGIGTLLFIFLTKGKAPAYLGSSFAFLAPAGIVISNMGYEYALGGFVFVGFIGIVISIIIYKFGTFWINIILPPAAMGSVVSLIGFELAKITISGGKIGGNIMTNTSTLNDKIVFAVTLSVAILGSVLFRKFFATIPILIAIVVGYVTSIYLNMVDFSNVINVSLFTIPKFELAKFNITAMVTMLPVIFVIVSEHISHQVVTSRIIGRDLIKDPGLHKSLFADNFSTMLSGLVGGVPTTTYGENIGVMAITGVYSVKVIKGAAIISIFMAFIGPFSALIQSIPGNVIGGVTFLLYGMIGTSGLRLLVEEKVNFNKPQNLILTSIIFIAGLSGLQVKLLGITFQGMNLAAIIGIIISLLFYIFDKFNIMNEKWN;locus_tag=LOCUS_09990;gene=uraA;note=WP_002667891.1 uracil permease (Treponema denticola) [pid:65.5%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:2.1e-159],MGA_1003
sequence1	MetaGeneAnnotator	CDS	1074414	1074695	.	-	0	ID=MGA_1004;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKILAIFTLFLFISCSGVTPMSKHHIKEISNIASMKIFEEAFERVGYKDMRIYKRGFGKWFVSAYGDKGIYMLEIDEDGKILKYQKNNYTE;locus_tag=LOCUS_10000;note=MGA_1004
sequence1	MetaGeneAnnotator	CDS	1074697	1075641	.	-	0	ID=MGA_1005;product=bifunctional oligoribonuclease/PAP phosphatase NrnA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016831.1;translation=MKRLFEIKEKIDKYDNIILSAHVNPDGDAFGALFAFKFMIEKYNKNKKVDIVIQYELPRFIYKFDESKYIKNDIDENVELVIMLDTANIDRAAINKEVFNLAKETINIDHHISNSKYLNINYVEDISSTCELLYKFLDVFNIELDEKIAKFMYLGIINDTGNFRHSNVTENTFDVASKLMKVGVDNREITNILFSKSREKVKVFGKTLVEYKYYEDLKFAFFYISQNDMKNMSISEEDTDGISELLLSIEDVDIALFVREDKEAKLKGSFRSKNIDVNKLASRFNGGGHVLAAGFRFSGKLEEILEIVLKELRR;locus_tag=LOCUS_10010;note=WP_011016831.1 bifunctional oligoribonuclease/PAP phosphatase NrnA (Fusobacterium nucleatum) [pid:38.2%25%2C q_cov:93.9%25%2C s_cov:93.5%25%2C Eval:4.3e-55],MGA_1005
sequence1	MetaGeneAnnotator	CDS	1075649	1076251	.	-	0	ID=MGA_1006;product=crossover junction endodeoxyribonuclease RuvC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902123.1;translation=MRVIGIDPGTAIIGYSILDFKNSKVELIDYGCIYTDKDLPMPERLEQIFFKLETLINMYKPDHMAIEELFFFKNQKTIITVAQARGVIVAKAQISGIEIFNYTPLQVKTGITGYGRAEKKQVQEMIRVILKLDEIPKPDDAADAIAIAINHINTIRGVGVLLNNPRDRVNKVTQIIEKNRIKNKNLITIEDYKNILKKKK;locus_tag=LOCUS_10020;gene=ruvC;EC_number=3.1.21.10;note=WP_005902123.1 crossover junction endodeoxyribonuclease RuvC (Fusobacterium nucleatum) [pid:50.0%25%2C q_cov:99.0%25%2C s_cov:100.0%25%2C Eval:5.6e-50],MGA_1006
sequence1	MetaGeneAnnotator	CDS	1076528	1077457	.	+	0	ID=MGA_1007;product=L-lactate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963590.1;translation=MKKTAKVSIIGAGFVGSATTLSIVLSGLASHVVLVDVNKEKAKGEVLDIAHGAAFIKTCDIISGDYKDTKDSDIVIVTAGANQKPGETRLDLVHKNVEIFKTIIPQVTRYSHNAVLVIASNPVDVLSWVAYKLSGFPSHKVIGTGTVLDTSRLRYYLAEEFDLDARNVHAYIIGEHGDSEFPVWSSANIGPLSFDDFCAREAKNAEELKEKIHHKVRDAAYEIISRKGYTNYAIGMAIRSIVEAILRDENCILTISTYNQLEDVYYSVPNVVGRNGQHLKICPEFEEHEKEKLENTKKVLKDVIKTIKI;locus_tag=LOCUS_10030;EC_number=1.1.1.27;note=WP_010963590.1 L-lactate dehydrogenase (Clostridium) [pid:53.2%25%2C q_cov:99.4%25%2C s_cov:99.7%25%2C Eval:7.8e-94],MGA_1007
sequence1	MetaGeneAnnotator	CDS	1077487	1077951	.	-	0	ID=MGA_1008;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIILILMTFITFSCVLAENNNIKIVNNKNYENVIKKENNIIVYATSWCPHCQEELEELSKIQDKLKDVKITVIMLPFIPTEDEFSNYEKETLEFINEKKYNFDFYLDKNKEILEKLNIQSIPSIGIIKDGNMIKEINEEEISSEKILEIFEK;locus_tag=LOCUS_10040;note=MGA_1008
sequence1	MetaGeneAnnotator	CDS	1077963	1079321	.	-	0	ID=MGA_1009;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNRIIKEIFIIVLFALAILLIFQYKKLNYDSKTFDYIEDGIVSIYREENEEALKNFEKAYRGNDEDIYEVINYLGDEDILNSFYSNKIGKSSGYAEYREATSLIFANKYEQSIDKLKEASDQGNIGATSFLATYLYSLKRYSEAYEYFEKAYAQNNFTIYPTYVDMKNHLEEFKHMEELYVKFNQNKIEDSERYTLGKFLLDRDDVSVAYKILKPFIEMENVDALFAKASFLEMEGEIENAIKIYRELYIKHKYAKSALKLAEYSDLSTKSKRKKAIEILDQVVEYNKDIQFMKANLLYSNDEWSKAKQIYDSLELLEYIPVYSKLGEYYENSDETNKALEMYKKSFEKGNLNSILNYYSIVKNLEMTSGINPKMSSYIDNLKIASKLGVGAASYEISLLSDDVDTKKKYAIIALSQNELKALELLVDLANKNGDKEKIRVYTNILINNK;locus_tag=LOCUS_10050;note=WP_003434025.1 tetratricopeptide repeat protein (Clostridioides difficile) [pid:25.2%25%2C q_cov:76.3%25%2C s_cov:60.4%25%2C Eval:1.3e-08%2C partial hit],MGA_1009
sequence1	MetaGeneAnnotator	CDS	1079330	1081204	.	-	0	ID=MGA_1010;product=methionine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017027.1;translation=MNNFYITTPIYYPNAKPHIGTAYTTIICDVVARYNNLKGKNVRLITGIDEHGQKIQESAEKNNVTPQQWVDKMKEDFINLWDILNIDYSEFVRTTSDKHKFTVGDIIRKVYENGDIYSGEYIGKYSVSEETFVTESQLVDGLYMGKPVIDMKEKSFFFKLSKYEDKLLKFYEEHPNFIRPNNRKNEVISFIKQGLQDLSISRTTFNWGIPLELEKGHIVYVWFDALNSYLTAAGYNSEIFDIYWNNSEVVHMVGKDILRFHAIIWPAMLMAAGIKLPDVLAVHGWWTKDGQKMSKSLGNVVDPIDEVNKYGLDQFRYFLLREATFGQDADYSNMAVIQRINSDLANDLGNLLNRVIGMQNKYFDSIVYGINELNDLDNEIINLWSETLKNIDIYYSEYNFSEMLKCIWKFISRLNKYIDESEPWTLYKNNDMGRLKTVLYNLIDGIYKIAVLISPVMPDSSKKILNQLALEEKELSLENIKEWGMYPENNKLNKAEVLFPRIELPKSEFEENLIINNPINIEHFNEVDIRVVEIKKVERVVENNSLLRFIVDTGTELRQIVSAVARYYKNEQSLVGKKVMAVLNLKPVEIRGILSQGMLLTTAEKKKVSLVEIDPLVKVSTSIK;locus_tag=LOCUS_10060;gene=metG;EC_number=6.1.1.10;note=WP_011017027.1 methionine--tRNA ligase (Fusobacterium nucleatum) [pid:52.2%25%2C q_cov:99.5%25%2C s_cov:99.4%25%2C Eval:1.8e-195],MGA_1010
sequence1	MetaGeneAnnotator	CDS	1081197	1081667	.	-	0	ID=MGA_1011;product=dihydrofolate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003043263.1;translation=MIHIVVAVGENNEIGKDNKMLWHNSEELRFFRKLTLNHKIVMGKNTYLSIGRPLDLRENIVISTTLEENEDIYVLRNIDKILEKYVDSDEIIYVIGGENIYKQFLKYTEKIYLSKIDGKFPDADRYFPSINYDEYSTEVVNYNTFKLYIYTRRKDE;locus_tag=LOCUS_10070;note=WP_003043263.1 dihydrofolate reductase (Francisella tularensis) [pid:36.5%25%2C q_cov:93.6%25%2C s_cov:81.1%25%2C Eval:3.9e-24],MGA_1011
sequence1	MetaGeneAnnotator	CDS	1081664	1082182	.	-	0	ID=MGA_1012;product=tRNA (uridine(34)/cytosine(34)/5-carboxymethylaminomethyluridine(34)-2'-O)-methyltransferase TrmL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016664.1;translation=MNIVLYQPEMPYNTGNIGRSCVITNTTLHLIKPLGFEISDKHIKRTGLDYWKYVDLKIWESFEDFMENKGSGKIYFATTKTDRKYSDVQFEEDDYIMFGPESRGLPEEILNRYKEQNITIPMLKIGRSLNLSNSAVIILYEALRQQNFEFNMEDEKVEAIRKDLTVKGATLK;locus_tag=LOCUS_10080;gene=trmL;EC_number=2.1.1.207;note=WP_011016664.1 tRNA (uridine(34)/cytosine(34)/5-carboxymethylaminomethyluridine(34)-2'-O)-methyltransferase TrmL (Fusobacterium nucleatum) [pid:71.3%25%2C q_cov:87.2%25%2C s_cov:100.0%25%2C Eval:6.8e-61],MGA_1012
sequence1	MetaGeneAnnotator	CDS	1082179	1082976	.	-	0	ID=MGA_1013;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFIIIITLIILSLIIFLHELGHFYTAKKFNMPVSEFSIGMGPLIYSREKNGTQYSLRAIPLGGYVLIEGMVEISKDDKEFKDYSEEEIREYNNKGFISHPKFEKIIVLLAGVFMNFITALIAFMILALITGRPITFAFAAFWKSFYATFVGLKMLVTGAVKAKEMVGPVGLPLIFAHHINTYGYLVLLQLYAILSINIGIFNLLPIPALDGGRVLFVLLEYFGIKLNKKLEEKIHTIGIILLLMLMAYVVFNDVTKYISFWGQK;locus_tag=LOCUS_10090;note=WP_011017067.1 M50 family metallopeptidase (Fusobacterium nucleatum) [pid:51.2%25%2C q_cov:47.2%25%2C s_cov:32.2%25%2C Eval:3.8e-27%2C partial hit],MGA_1013
sequence1	MetaGeneAnnotator	CDS	1082982	1083617	.	-	0	ID=MGA_1014;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKELIFNQLVDIGFTDIEAKIYLYLIKHPGENPTQISKEIDVSRSSVYKSMKIMEKKGIIKLHPTNDDSKNYSVIDPSIYLNKFEKEIAETINSLKMSLDSLYSQYNMDGIYLFDRVDNLTYKIIELIKTTENILIVVGNIYDEIFRNIIKDLEEKNVLVYINEETSTDELVLIKDNKEMVLKDSNSMLYTKNILLINQISKRIKMEMEK;locus_tag=LOCUS_10100;note=MGA_1014
sequence1	MetaGeneAnnotator	CDS	1083617	1085143	.	-	0	ID=MGA_1015;product=deoxyguanosinetriphosphate triphosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003722014.1;translation=MNWKNLLSINTRRARSRIKASDIRNDFEKDYHRVISSPSFRRLQDKTQAFPLEENDFVRTRLTHSLEVSSFAKSIAQSIGKRIIEEKIDPDFGYEELNAISTILSSAALIHDIGNPPFGHFGEDTIRMWFSNYIDKTDIKDFNGEVKKIKDLLTPQMIADFENFEGNAQAIRVVSKLHFLVDENGMNLTYALLNTLIKYPVSSQDIDRESGNIKDKKMGYFLAEEDVFLDVVKSTGTYDEKENKIYRHPLTFLLEAADDIAYITADVEDGLKKKYLNYYNLENALREYGFEDGDIFYDRLIKYKEEAKKKGYESIHNYAASRWIISIQGLIIKDVVNNFISNYKEIMNGTFTKALLEDGRSSRIVKMLKYASRKYIFESKKNNQMELTANIMIQFLLEKFVDSIIYYDTKFEKDNSVHKKYRIILSENQKYVYHVYANDFENKQRAKLEAKIDEEKLEGNKKERLEQEYENKIYNYKLYLRLLLVTDYISGMTDSYIKTTYQELMGIK;locus_tag=LOCUS_10110;note=WP_003722014.1 deoxyguanosinetriphosphate triphosphohydrolase (Listeria monocytogenes) [pid:41.4%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:3.7e-100],MGA_1015
sequence1	MetaGeneAnnotator	CDS	1085156	1086505	.	-	0	ID=MGA_1016;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964165.1;translation=MLKIKDINIYKKILIVGVPVALENLVYNFINFVDNFMVGKTDPVLGLGTNAVSGLGISNQIFFVYIISLFGLFSGAGVLSSQYFGSKNYSKMNKISGFLTITSLVLSIPFIIIGLTNPEILLKFYSKDHLVLEQAMRYFKYVSFTFPLAGLGFVFSMQLRVISESKYSFYASIVGLTFNILGNLILIPRLGVKGAAIATVIARLFSLIYMIYIVKKNKFPILSSYRESIFFEFALVKDIIKISLPAFIHEFVWVMGITYRASIYSNMGAVEFSAVIISGTISSMLISVFSGVSNASSVLIGNELGANNLMQAKKIAKLCFKLMLLLAILSGILVNIISPLVLNFMKAESSLISTTRLVVFSESLILPFKGLNFLIIVGILRAGGDIYYAMMLDLVGMWIFSVPLTLLGKSLSLPINIIYFLGGSSDILVLLPAILRYNQKKWVKRIIRD;locus_tag=LOCUS_10120;note=WP_010964165.1 MATE family efflux transporter (Clostridium) [pid:30.7%25%2C q_cov:98.4%25%2C s_cov:96.5%25%2C Eval:2.7e-67],MGA_1016
sequence1	MetaGeneAnnotator	CDS	1086492	1087325	.	-	0	ID=MGA_1017;product=endonuclease/exonuclease/phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903695.1;translation=MRRIFKLFFLIFLSMNIWAEPILIASFNTLKLGENKKDWKSLAKIVSKFDIIAMQEVMNEKGINNLRNEVEKFTNEKWGYIISDMAVGTKDYKEHYGVLFRRKKVDSIKSMGIYKDGKSKDFIRDPFGVLIRSNNFDFVLISAHSIFGKNKVEREIEASRYHKVYKYFMDKSKEEDVILLGDFNLPANSKAFKYFKDTYNVKEVFNSIKNKTTMSSKGLANSYDNAFFNRNNLKEYTGRYGVYDYTKDNHEQIRKYISDHLIIFMEFENKGDLDVKD;locus_tag=LOCUS_10130;note=WP_005903695.1 endonuclease/exonuclease/phosphatase family protein (Fusobacterium nucleatum) [pid:41.4%25%2C q_cov:98.9%25%2C s_cov:97.5%25%2C Eval:3.9e-54],MGA_1017
sequence1	MetaGeneAnnotator	CDS	1087417	1087989	.	-	0	ID=MGA_1018;product=elongation factor P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897833.1;translation=MKAAMELRQGNVYVKDNTPYLILKADRHQSTSGKKARAAEMKFKIKDLISGKVQEITVLSTDMMNDIILDRAQMQYLYQMDGEYYFMNQETFEQMTLTEDDLGDAVDFLVDEMVIQVLLYEERAVGVELPNTVVREITYTEPGLKGDTIGRATKPATIETGYQLQVPLFCNIGDKIRIDTRTGEYMERAN;locus_tag=LOCUS_10140;gene=efp;note=WP_005897833.1 elongation factor P (Fusobacterium) [pid:48.9%25%2C q_cov:98.9%25%2C s_cov:98.4%25%2C Eval:8.4e-45],MGA_1018
sequence1	MetaGeneAnnotator	CDS	1088047	1089033	.	-	0	ID=MGA_1019;product=aspartate-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010881220.1;translation=MKNIAIVGATGLVGRTILKVMEEKNIAFDKMYLYASSRSAGMKIEFKGKEYEIIELKEENIKDDIDFALFSAGGSTSLEFAPKFAEKGAKVIDNSSAWRMDDEVPLIVPEANISDADNMVKGIIANPNCSTIQVIPVLKVLEDNFGIKRVIYSTYQSVSGAGIKGLDDLEKNLKGEASTNFPSQIAFNLIPHIDTFLENGYTKEEMKMVNETRKILHRPDLKVSATCVRVPVRYSHSVSINVELNSEFDVEKVKYLLSKANGVVLVDDIKNNIYPMPLMSEGKDEVFVGRVRRDETVDNGLNLWVVADNIRKGAATNAVQILELLLDK;locus_tag=LOCUS_10150;gene=asd;EC_number=1.2.1.11;note=WP_010881220.1 aspartate-semialdehyde dehydrogenase (Aquifex aeolicus) [pid:59.8%25%2C q_cov:98.5%25%2C s_cov:97.4%25%2C Eval:2.3e-107],MGA_1019
sequence1	MetaGeneAnnotator	CDS	1089033	1089815	.	-	0	ID=MGA_1020;product=diaminopimelate epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009897787.1;translation=MEFEKYSGLGNDFIITEKDLTVEEIVKYCKRRKSIGADGVIILKKKNENFYMHFYNADGSLAAMCGNGIRCYAHYLYNHNLVSKDDEILIDTLSGIKKIRIINTEKDNFLVSVDMNAAINTTEIKTIEAIDRTFKYIYTFTGTDHVVIFVDKEELNEDFVTKYGKNIEQNKEVFPKGTNVNFVYVKNREEVDVITFERGAGLTLACGTGASAVGYVSNMLGKTGNKVKVNLLGGSLEIEIKDGTIFMNGISEMIYKGSVK;locus_tag=LOCUS_10160;gene=dapF;EC_number=5.1.1.7;note=WP_009897787.1 diaminopimelate epimerase (Clostridioides difficile) [pid:38.7%25%2C q_cov:98.8%25%2C s_cov:98.6%25%2C Eval:2.6e-41],MGA_1020
sequence1	MetaGeneAnnotator	CDS	1089818	1090684	.	-	0	ID=MGA_1021;product=4-hydroxy-tetrahydrodipicolinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010880718.1;translation=MKYEKSYVALVTPFDKDLKLDVKKIRELVRFHIDNMTKGIVVCGTTGETATMSEEEYILAIKTVLDEANGKIQVIAGAGSNSTEKAIHLTKICKDLGVDAVLSVTPYYNKPTQREIINHYKKIAEVGVDVILYNVPSRTGVNIEVETTVELSKVKNIVGIKEATGNIDQMIEIINRVDKNFAVISGEDNFMLPMQAIGSCGIISVTANAFPKQVAMQFELVGEERFNLHKFMYDIHKSMFIGGNPVTIKAAMNILGLLENDGVREPLLPATDKVRDILRELFIQKGLI;locus_tag=LOCUS_10170;gene=dapA;EC_number=4.3.3.7;note=WP_010880718.1 4-hydroxy-tetrahydrodipicolinate synthase (Aquifex aeolicus) [pid:42.5%25%2C q_cov:96.9%25%2C s_cov:96.3%25%2C Eval:1.9e-59],MGA_1021
sequence1	MetaGeneAnnotator	CDS	1090681	1091604	.	-	0	ID=MGA_1022;product=endo alpha-1%2C4 polygalactosaminidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_021779459.1;translation=MKKYMLSFLFIFSFNIFSQEIYKDRMRDLIRKLRENTSKDKIFITQNGNLIYFNNGKIDKDFFKITNGTTQESLFYGYELKFNKPTSEKVKKELLDMLIPISNLGKIVLTINYGKGKNIKSNLESEAKKFNFVNELLPSFEAREIHEPIKGFNQNDIYSLKDAQNFLCLLNPEKFKDLEEYMNALKNTDFDILLIEPSINGKFFSKNQIESLKKKSSGSKRLVIAYFSIGEAENYRYYWKKSWNDKYPDWIVEENRNWSGNYIVKYWDIEWEKIVKDYQKKLDEIGVDGYLLDTVDTHYYFEERGLK;locus_tag=LOCUS_10180;note=WP_021779459.1 endo alpha-1%2C4 polygalactosaminidase (Fusobacterium nucleatum) [pid:73.1%25%2C q_cov:99.0%25%2C s_cov:95.6%25%2C Eval:1.6e-131],MGA_1022
sequence1	MetaGeneAnnotator	CDS	1091606	1092433	.	-	0	ID=MGA_1023;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRYIFIFLLIWSCSSISDKVTIDSKDYSLITKEVEHNYLYSELEKTDFYYDREFFKLLGSMQYEFDDIVVTNFAETLPNLIIKRLKISNEKIIEMYKLKNINPLVYNYLSLFEMKREDYHNAYNNAWISKSASPTYLADEIFMYISILTNEKEKVEEILVDMEKNFKDYPLNKYNRIFYNHLYNTGMIKEEDFGLARIEIRKINKKFYPELQGYKVNYLMMIDLLQAQYYFVKKDNEALIKMKEEINKTDIRYKLDLRKINEFIDERIEYLKRF;locus_tag=LOCUS_10190;note=MGA_1023
sequence1	MetaGeneAnnotator	CDS	1092441	1093643	.	-	0	ID=MGA_1024;product=aspartate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003424287.1;translation=MSRKIVVHKYGGSSVSTTEKIMNIAKHLIEVKKSGKDLVVVVSAMGKTTDNLIKLANEISKNPDKRELDRLMSTGEQQTIALLSMALIELGQKAISLTGEQAGIKTLGLHTKNTIESINNEIILKNLDEGKIVIVAGFQGINENGDITTLGRGGSDTSAVALACSLNAECKIYTDVDGIYTIDPRVYKNSKKIQYISYEEMMELAYLGAGVMEPRAVELGFKYGISIYVGKTLGKENGTIITFKEKIMEKKEIRGISINKNIVMVTIDGIPTYARNLYPIFKKASEYGIIIDMISQNDVISEKGSIAFTSPRTDEESLKKMFNDLELNYNILINSNVVKVSLVGIGLATSINTISKIFEILSENNISFHQISTSEITISIVVEEKIAENVARLLAEKFEL;locus_tag=LOCUS_10200;EC_number=2.7.2.4;note=WP_003424287.1 aspartate kinase (Clostridioides difficile) [pid:48.4%25%2C q_cov:99.0%25%2C s_cov:99.5%25%2C Eval:9.2e-96],MGA_1024
sequence1	MetaGeneAnnotator	CDS	1093786	1094526	.	+	0	ID=MGA_1025;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRVYLGLDNIPILNGEYKILRSVDYLTEIIGIENYKNGLLHGKKIIFDNTDKTIVKSLNYENGTLISENDIDDTNEYVKLAIDETKTSKRNGNYILYANDETSIFTLKNGMFEKNKWIFNDNPNFEMPNLLSIEHFINNHHVGEQVFFHEDGKIMLIEYYREHMGALPEKSTWFDYDENGNLISERNFRKNKKDGRHKYYNEKGIIYKDISYRDGKLFGPSIYLKDNGTKLIIDYDFGFKIGERIE;locus_tag=LOCUS_10210;note=MGA_1025
sequence1	MetaGeneAnnotator	CDS	1094609	1095895	.	+	0	ID=MGA_1026;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003132529.1;translation=MRIVVIGGGAAGMMFSTQYKKMNPNDEIILFEKTPYVSWAGCPSPYYIANELPLKKVIGSPSDSFINKGIDVRINTKVSEINFDEKHVIVNNEKVTYDKLVLAIGAKSTLDIKKDRYFSLSHATDAIEIKNFIENKKPKKALILGLGFIGLEMVEALLLNNINVTVVEKANDVFNILPLEYRNILKEKIKNKNVELILGNGVKEFNEENVILENNEKIDFDMLIISTGITTKTEILGDKIELLNNKIIVDNNFKTNIEDVYAIGDAILNKNIITNEYTYAPFGDVANKHGMMLAKLLSSKKSEFIGVTNTYATSFFDLKIAGTGLTEDVAISKGYNVGKVNMEVLTKNSGFKDSVPGSAEIIYDKDTNTVLGATIIGNEAVAQFIDQIAIVIRFRIKIDDLISVDFAYSPTNASVWNPLLVLYRKVIK;locus_tag=LOCUS_10220;note=WP_003132529.1 FAD-dependent oxidoreductase (Lactococcus) [pid:32.6%25%2C q_cov:97.7%25%2C s_cov:78.6%25%2C Eval:1.8e-57],MGA_1026
sequence1	Aragorn:1.2.38	tRNA	1095936	1096011	.	+	.	ID=Aragorn_24;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00230;note=Aragorn_24
sequence1	MetaGeneAnnotator	CDS	1096083	1096799	.	-	0	ID=MGA_1027;product=4-hydroxy-tetrahydrodipicolinate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012048150.1;translation=MKILVVGAGVMSEYLINSIKDKGYEFVGRVDLFGKGEFNSFSDVDKEFDILIDFSNHLLTKDILDFAIAKKKNVLIATTGHSNDEMKMIEDASKHIAILKSTNTSFGVNALNKIVEYATNILKDFDIELVEAHHNRKIDAPSGTANTLLDIIDSCFDEKRNRVYGRKDEKREENEIGIHSIRGGSIVGEHSIIYAKGDEIIELKHSALSRKIFSDGAVNVAIKLLKLEKGLYSMKDVI;locus_tag=LOCUS_10230;gene=dapB;EC_number=1.17.1.8;note=WP_012048150.1 4-hydroxy-tetrahydrodipicolinate reductase (Clostridium botulinum) [pid:42.1%25%2C q_cov:96.6%25%2C s_cov:94.4%25%2C Eval:1.5e-45],MGA_1027
sequence1	MetaGeneAnnotator	CDS	1096799	1097572	.	-	0	ID=MGA_1028;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966274.1;translation=MNNSYILITGASSGIGMEIAQNYAKKGKNLILIARRIEILEKLKQKYTNVDIHVIQKDLSLVSSSKEIYEYTKSKKIFVEVLINNAGVGLFGDFLETSLDKEISMINLNILSLISLTKLYLQDMKKYDRGQILNVSSIASFMPGPKMSVYYATKAFVTSFTNALSYELRDSNIKVSILAPGATSTEFVKSSNLENSKLFDNMRVDTAVNVANYAIDNMGKRLIIPGFLNKVVVFLVKFIPVKLLMKFVEKIQERKGK;locus_tag=LOCUS_10240;note=WP_010966274.1 SDR family oxidoreductase (Clostridium) [pid:42.6%25%2C q_cov:96.9%25%2C s_cov:93.5%25%2C Eval:6.1e-43],MGA_1028
sequence1	MetaGeneAnnotator	CDS	1097565	1098923	.	-	0	ID=MGA_1029;product=MATE family efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002673471.1;translation=MNNLLKMNLDERREMIIHGDTVKTILFLTIPTFMMAIVQVLIPFSDGLFLNKILGTDVGAGVSYVQPVYNMLIAISQGLSVVAMSMIGQLNGKGDFKGVKNVSLQVLIFGFILGIFLMPICFLGSDFLAPNDPAIRNYAITYFALSSLIIPFQFMASIFNAIKSATGEPEATFYRMIVLLILKIFFNVIYLTIFKMGLKGAIFASLTAYFFTAIWMYYDLFVRESKFKLSIREYRFDYLVVKEMVRLSIPTMLSFTSINLGFYLINSEIEIYGADVLAGLSIASQINNICFSVPTSIGTTVTTMISMNIGLGNVKKSKDIYKKGVIIGEIVALILLILILSTSKYLIALYDPSDNVALKTQEALNIYTYSVFPFALFIITQSVFNALGRNVYPLIMSFLRIWVFRYLFIIQTSSYLKYYSIFYGNLFSNFLAAAIFYVIIKKSSWRSNIKYE;locus_tag=LOCUS_10250;note=WP_002673471.1 MATE family efflux transporter (Treponema) [pid:41.0%25%2C q_cov:97.3%25%2C s_cov:97.4%25%2C Eval:1.7e-101],MGA_1029
sequence1	MetaGeneAnnotator	CDS	1099047	1100159	.	+	0	ID=MGA_1030;product=SPASM domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002390206.1;translation=MKINKLRSLNLLIKPSSCNCNLRCNYCFYFDVAENRETYTYGNMSFETLENLVKNVYDCVEYQVNFIFQGGEPTMRGINYYYKLHELIEKYNKNNVNTTFSIQTNGTLLNKRWFDLFEKYNYLIGISLDGTKDIHDIFRIDIRQKGTFDSILNNINKLRERNIDFNILCVVNSEVSKNAKKIYEFFREQKFEFLQFIPALDPLKNYDEKDYTLTAENYGKFLDEIFNLWYEDLKKGNFISIRYFENLLLILSGRNPEACDMVGHCSVNTVIEADGSVYPCDFYVVDERRLGNINTQSIPEIIFSQKATEFVRESFKIDEKCKTCKYLKICRTGCKRHKDENNVNKFCYSYKYFFGRNLDKLVDIRNRFIK;locus_tag=LOCUS_10260;note=WP_002390206.1 SPASM domain-containing protein (Enterococcus faecium) [pid:40.3%25%2C q_cov:92.7%25%2C s_cov:93.0%25%2C Eval:1.8e-79],MGA_1030
sequence1	MetaGeneAnnotator	CDS	1100185	1100712	.	-	0	ID=MGA_1031;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKSLLICLIMMSMITFTRPRYRIDSTLVYGLEFNINNNDQIDNFILLTLGFMPEYRYDYSRKLDFTFGPKISLMGGVAIKNNGAIYYLGRGSLNFTLRGETNYEIKRGLKVYGGAEIGVGVFFEHVNNINKSLDGNHVAIAKGIVGLKIDKCNIGLVSGYENKFVIGIETGYTF;locus_tag=LOCUS_10270;note=MGA_1031
sequence1	MetaGeneAnnotator	CDS	1100728	1101249	.	-	0	ID=MGA_1032;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNRRLILIMLLSLSIFSLSANITGPRYRLEGSVGVFDSNKSLDQDRKTFSSITLGLLPEWKVDLDKRFDITFGPKIGANVSYYNTTNKYVIEPKIILSMETDINYRLKEDIKLYGGIEIGLGLRLSRDNNKNKFIFETVGNVLLGIKIRDRYNVAVHVGNGKGILGIEAGYTF;locus_tag=LOCUS_10280;note=MGA_1032
sequence1	MetaGeneAnnotator	CDS	1101251	1101772	.	-	0	ID=MGA_1033;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILITLISLSIFSFSANITGPRYRLEGSVGAMNYKVEHISLRFISTSISVLPEWKAEINKKIDITFGPKATLNVTTDIQTGTTLHSNLIVGGEIDLNYRVKDDIKIYTGIEAGTGLGVQAYLSESDNHYGGIKVTHIGKLSLGVKIKERFNVALYTGYAKGALGIEGGYTF;locus_tag=LOCUS_10290;note=MGA_1033
sequence1	MetaGeneAnnotator	CDS	1101909	1103888	.	-	0	ID=MGA_1034;product=elongation factor G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009887791.1;translation=MKIYDSDNMRNVGILGHSGSGKSNMLESLEFTANLITRISSPTEQFKMSNNLTLSSVEYQNMKYNLLDIPGYSDFYGELESGLAAIAGAIITIDATTDLSVGTEIALELTEERKIPKFIFINKIDSDKADYSKILNQLREKYGKKIAPFHIPWGKGAEFKGHINVVDLFARKYNGKECETVKMPEEFEIEVGSVREMLLESVAETEEMLMDKYFSGEEFTTEEIHRGLRKGVLDGTLIPVVCGSTYKNIGLHTTFDMMREYLPSPKDNKKNIDISEFVGQVFKTVIDPFVGKISYVKVLSGEIKNDSEVYNVNKREYEKVNKIFTLVHGEMIELQKATMGDIVLLTKLNFTQNSDTLAKNEKIEAIEEIRFPKEQMLVAIQAKNKSDEDKISTALHKIREEDSSLYWRRVIETAQTVLGVQGEIHANSVIEKLKERYGVEVLTEELKVPYKETIKGSSDVQGKHKKQSGGHGQYGDVKIRFSYSEKEFEFEEEIVGGAVPKGYIPAVEKGLLESMKEGVLAKYPVTNIKAVLYDGSYHDVDSSEMAFKLAANIAFKKGMLEAKPVLLEPIMELKIVVPEENVGDIMGDITKKRGRVLGMQSVGKDKQEIFAEAPMAETFKYSNDLKSMTQGRGYFEMNVIRYEQVPEEISKKIIEKTEK;locus_tag=LOCUS_10300;note=WP_009887791.1 elongation factor G (Clostridioides difficile) [pid:51.6%25%2C q_cov:98.0%25%2C s_cov:97.8%25%2C Eval:1.0e-185],MGA_1034
sequence1	MetaGeneAnnotator	CDS	1104064	1105287	.	+	0	ID=MGA_1035;product=IS91 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011674482.1;translation=MYNSNKIKSIFSKYILTNSINSIKPYFDKKHIEHINHSIHNFLNCGNLSKGFISYRCSSCNFQHKMKLTCKSRLCPSCGYNYSVNWTNSILKQFINIPHRHVLFTVPKEFRKFIAYDRSILSKMSKAINDIFKYQFHNIKDKVKRKIYIPKSNPNYFTNSDIINYGLITVIHTFGRNLKFNPHIHAIISLGGFNKKFQYKELKYFHVPSIANQWKFSLCKLISNANYPNDIIKIQAKKAVSNVYDNDVRLFFNVAGNDINNPKYIIKYLGRYLSRVPIAEYKIVNIDFNKNSLTFKFEDLSNNKEVTYSTLSFKDFVAKVLFHLPLKYFKMINRYGFYARRISSKVKMSLFYLKAQVNKKSLSLFRKNFKELWDFDPFMCPHCNIYLKRYELFIDNGLSPPIHKFYN;locus_tag=LOCUS_10310;note=WP_011674482.1 IS91 family transposase (Lacticaseibacillus paracasei) [pid:25.9%25%2C q_cov:87.0%25%2C s_cov:76.9%25%2C Eval:1.8e-38],MGA_1035
sequence1	MetaGeneAnnotator	CDS	1105462	1106097	.	-	0	ID=MGA_1036;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLRYKKMMLVLSLALLPAMGFSANKISLKKSSTKSQRELVMQDSNSIVFDSEYIHDQSYIDKKINEIEESVMSMSGVYNSLDNIILKNKLFSAYDKWAGTKYIFGGVNHKGIDCSALTREVFRDVFGYELPRVSVDQVKKGRKIEKGEMKPGDLLYFRPENRVNHVAVYIGNSLFINASSSKGVVLSSLNNSYWGKYFKYAVRVDAAREVR;locus_tag=LOCUS_10320;note=WP_005659678.1 NlpC/P60 family protein (Haemophilus) [pid:39.4%25%2C q_cov:71.1%25%2C s_cov:82.0%25%2C Eval:1.3e-26%2C partial hit],MGA_1036
sequence1	MetaGeneAnnotator	CDS	1106097	1106549	.	-	0	ID=MGA_1037;product=D-aminoacyl-tRNA deacylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000691430.1;translation=MKMLIQRVNNAKVLFEDGTFNSIEKGLLVYLGVHNEDDLKDIQVCVRKLINLRIFEDEEGKINFSLIDKNYEVMIISNFSLYGNMKKGNRPSFTESATALKANDIYEIFLKELEKNNVKYKSGRFQTYMDVQSSNDGPMNFIFDTREEVN;locus_tag=LOCUS_10330;gene=dtd;EC_number=3.1.1.96;note=WP_000691430.1 D-aminoacyl-tRNA deacylase (Streptococcus) [pid:46.6%25%2C q_cov:98.7%25%2C s_cov:100.0%25%2C Eval:3.6e-32],MGA_1037
sequence1	Aragorn:1.2.38	tRNA	1106642	1106717	.	-	.	ID=Aragorn_25;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00240;note=Aragorn_25
sequence1	Aragorn:1.2.38	tRNA	1106721	1106796	.	-	.	ID=Aragorn_26;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00250;note=Aragorn_26
sequence1	Aragorn:1.2.38	tRNA	1106802	1106887	.	-	.	ID=Aragorn_27;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00260;note=Aragorn_27
sequence1	MetaGeneAnnotator	CDS	1106955	1107746	.	-	0	ID=MGA_1038;product=sulfite exporter TauE/SafE family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_088270774.1;translation=MYIYITYFLIIMFATGVGSLSGMGGGVIIKPSLDALSYSNLDNINFYSSLAVLTMSIVSIIKKAKQGDRIESRELIAIAFGSIIGGKLGIQIFKNSLAYFSGDDIVKLIQITVTVIVLSLAIYYNSYCNFTFKYKNYAIYFLVSMCLGIISTFLGIGGGPINVSLFILIFGTSMKSATLYSISTIFFSQFSKNFIDFFITGISGYDLYPLLVIIPAAILGGNLGTKINIISSDELIKKAYNIITLFVICLNIFNGIRIILRMF;locus_tag=LOCUS_10340;note=WP_088270774.1 sulfite exporter TauE/SafE family protein (Enterococcus wangshanyuanii) [pid:42.9%25%2C q_cov:96.6%25%2C s_cov:96.6%25%2C Eval:1.0e-53],MGA_1038
sequence1	MetaGeneAnnotator	CDS	1107747	1109345	.	-	0	ID=MGA_1039;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010905801.1;translation=MLRITNIKVDIIHNEEDIRKEMKLILKDNEINNFKITGKAIDARNKNNIKYVYTIDFDSNDEVYSNVEKYKNVSIVEEYVYPQQIIEKYNGKRPVVIGTGPAGMLAALILAKANLKPIILERGKEVKERVEDVYTFFETGKLDEESNVQYGEGGAGTFSDGKLTTNTHNVRIKKVVDELIEAGADESISYISKPHLGTDELVKIVENIRKKVISLGGEYRFRNKFVNYALKNSKLYSLKVLDLDKKEEYELETDYAILAIGHSARDTFEMLNENKIDISKKVFSVGVRIEHKQKLINEVQYGKNADLLPPAEYKLNVRASTGRGAYTFCMCPGGVVVPSSSEKNRLVINGMSYSKRDLENANSAVLVNVTPDDLGEGNLAGMYFQRELEEKAFIMGGSDYKAPVQLVQDFIKNVKSSKIGNVKPSYSIGYKLCNLNDLFPDFISLTLREAFPKFDNKIHGFAGKDAIITGIESRTSSPIRINRDDRYNSSVVGLIPCGEGAGYAGGIMSAAVDGIRCAEAIINTILEGNLED;locus_tag=LOCUS_10350;note=WP_010905801.1 NAD(P)/FAD-dependent oxidoreductase (Lactococcus lactis) [pid:48.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-138],MGA_1039
sequence1	MetaGeneAnnotator	CDS	1109354	1110568	.	-	0	ID=MGA_1040;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966853.1;translation=MKIGIIGAGASGILCAIYAAQRGYDVVIFERKDRMLKKVLVTGNGTCNFTNINAGYRNYFSIEEKIDERIFNEYSFEDVLSFFKKIGIEYKVEKFGKVYPLSYQASAIVDALRFKVESMKNIEVKYEFEVSKVRKKNLKFNVSSVSNETIVVDKLVIAAGGISYPELGSNGSGYDLAIKMGHSRTEIFPVLVQLKVDKKYAKGLEGVKQKVKLSVYNNNELLRSDENELLFTAYGVSGPCIFNLSYLTALYNLDDLYWNVDFLSMYSEDELRTLLYTRKKDLGYLEIEYYLNGLVNKKFASYLLKSVGIEKLNFKVSEIDDEIIEKLVEKLKKFVFKVYDTTGFSNAQVTAGGIRINEVDNYSLESKIVKGLYFTGEILDVFGDCGGYNLNWCFISGMHVGKNI;locus_tag=LOCUS_10360;note=WP_010966853.1 NAD(P)/FAD-dependent oxidoreductase (Clostridium) [pid:40.1%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:9.6e-77],MGA_1040
sequence1	MetaGeneAnnotator	CDS	1110918	1111916	.	+	0	ID=MGA_1041;product=Abi family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023905931.1;translation=MKNIKYDKEFKTFEEQISYLKNTYNLIIKNEDLALELLKIFPYYNLINGYKEYFMKNGKYSNTSLEDLVSIHLLDKNFLTIIFKYSTYVEDIFKHKLAYVISSQSYNHVDKDFYLKDSKLFKKNFSSNIIKTLEKILSNPNVEDPTKHYLKVHNHIPTWIFFKNVNFYEVTELFKIFNSDLKTDVIKMFYLFYKTKFKFNSPPKDYEKKAKRIEIFEKSLLTVRKFRNLISHNLKVFTYTLNKGISTSYFNDTFINNFLIYSDKKYEGDLYTCIISIILLLDAPLSTFFIKDLQLIINEHKSHSNTYFKMYRLPSNFNEILEKIYDELNHIK;locus_tag=LOCUS_10370;note=WP_023905931.1 Abi family protein (Mycoplasma mycoides) [pid:31.2%25%2C q_cov:91.3%25%2C s_cov:93.7%25%2C Eval:2.8e-28],MGA_1041
sequence1	MetaGeneAnnotator	CDS	1111972	1112766	.	-	0	ID=MGA_1042;product=epoxyqueuosine reductase QueH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023189145.1;translation=MENKELRDIYEKLKKDMKDNQSKNDKIFDIIKDNTFITENEFDDALSILSSMNKNQVINYHTILEKLIKKWKSLEKKPKILLHSCCAPCSTYTLEFLCNYADITILFANSNIHPKQEYIKRSEVQQQFIKDFNEKTGNNVKYIEDEYNPKHFLQLTKGQENEPEGGSRCVTCFQMRLDIVARYAKNLKFDYFGSAITLSPKKNSKLVNELGFEVQEIYKVKYLPSDFKKNNGYKRSIEMCNEYDVYRQCYCGCIFALKKQMLKD;locus_tag=LOCUS_10380;note=WP_023189145.1 epoxyqueuosine reductase QueH (Lactococcus) [pid:65.0%25%2C q_cov:82.6%25%2C s_cov:91.7%25%2C Eval:2.8e-83],MGA_1042
sequence1	MetaGeneAnnotator	CDS	1112853	1114031	.	-	0	ID=MGA_1043;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFIYLFFSLSFILNANIKSDLEESLKLITENKYENAKALLHAVIEKKVENNEDKKFLESAYYYLANIYHKENKIREAKIYYRKLSENLEAKTFSSIKASQNLFSMAMDEGDIEEAINQTEILNKKTNYQQLPFLSNLIYLYETNNKYEKLEKLNKSIILKLSEREKGALFNLLAMSYLENNKYDDAKRYFGMLLKSENKENVQLGYIGYSNIELKQENKVASLSYLNKALNVDKEIPIYILENIYRSYVANSEYESAYDILKAIEKKGNIDGNLIIDLIKYARLLNKTEDVEGCLKKLESKRICSFDIGIKMASENLFDYAERYLIKSKKEGNVKANYALINIYFTNRDIHKLKLLLEDMLKNNEISKEKKDSILKEFEHYQKYRNNRN;locus_tag=LOCUS_10390;note=MGA_1043
sequence1	MetaGeneAnnotator	CDS	1114047	1114739	.	-	0	ID=MGA_1044;product=2%2C3%2C4%2C5-tetrahydropyridine-2%2C6-dicarboxylate N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000783241.1;translation=MTELERTKEIISFIANSNRKTPVKLYTDEDIKGEYDVKIIGKETKIIIGNWDEVEKLIKDNDLKNYHLENDRRNSALPLLDIKNIDARIEPGAIIREKVIIGSKAVIMMGAVINIGAKIGEGTMIDMNAVLGGRATVGKSCHIGAGTVLAGVIEPPSADPVVIEDNVVIGANVVVLEGVRVGANSVVAAGAVVTENVPSGVVVAGMPAKIIKVIDEKTKSKTEIVEELRK;locus_tag=LOCUS_10400;gene=dapD;note=WP_000783241.1 2%2C3%2C4%2C5-tetrahydropyridine-2%2C6-dicarboxylate N-acetyltransferase (Bacillus) [pid:62.7%25%2C q_cov:96.5%25%2C s_cov:95.0%25%2C Eval:2.7e-73],MGA_1044
sequence1	MetaGeneAnnotator	CDS	1114858	1116555	.	-	0	ID=MGA_1045;product=M3 family oligoendopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000008577.1;translation=MVFKDFEYKRVNIEELKKTYTKIKEELENAENAQKAIELYYKLDEINKEFSTNYSLVYVRNSIDTTDEFYSKEKAFYDENIPLISEFSNDLGIAFANSKFRSELEEKFGKLAFQKIDLELKLFKNEIIEDLQEENKLVTEYVKLTSSAKILFDGEERNLSEMVPYTQDVDRNTRKEAIIAVGKFFEDNMAEYDRIYDMLVKVRDRIAKKLGYKNFVEVGYLRMGRLDYNAEDVANYRKQIKENVVPLYVELRKRQEKRIKVDKLKYYDEGMAFLTGNPTPKGDRAWMVEKAQIMYKELSPETHEFFSKMVEQELLDLDSKKGKQGGGYCTSFDSYSMPFIFANFNGTAHDVEVLTHEAGHAFQSYQAMRNVDISSYYWPTSESAEIHSMSMEFLTWPWMESFFKEDIDKFKYHHLSGAFLFIPYGALVDEFQHFVYENPNVTPEERRMKWLELEKEYLPTRDYDGIESYLKGLFWFKQGHIFEIPFYYIDYTLAQVIALQMWKLNGENSKLAWEKYMRLCTLGGSKTFLGLLEDVKLDNPFENGSIAKIITPVKEFLSTINDENL;locus_tag=LOCUS_10410;note=WP_000008577.1 M3 family oligoendopeptidase (Bacillus cereus) [pid:53.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-180],MGA_1045
sequence1	MetaGeneAnnotator	CDS	1116591	1116983	.	-	0	ID=MGA_1046;product=ATP synthase F1 subunit epsilon;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016334.1;translation=MEKKDFFTLKVVTPEKIEFLSKEIKFVKVRTIRGDIGILPNHTNFMSSLGEGLMLIKSLEEEKTYYISGGFLEVNHNYVTVMAEEAMLAESEEEFKKIKQQKLERAIAAKKKEDQDILGTKKKLQDSLLR;locus_tag=LOCUS_10420;gene=atpC;EC_number=7.1.2.2;note=WP_011016334.1 ATP synthase F1 subunit epsilon (Fusobacterium nucleatum) [pid:34.4%25%2C q_cov:95.4%25%2C s_cov:93.3%25%2C Eval:5.5e-12],MGA_1046
sequence1	MetaGeneAnnotator	CDS	1116986	1118380	.	-	0	ID=MGA_1047;product=F0F1 ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016335.1;translation=MNKGKLVQIIGPVIDARFDNTLPDIFNALEIYYEDGKKIVAEVQAHLGNNVVRAVSMTSTDGLKRGVDVIDTGGPIKVPVGKETLGRIFNVLGETVDNGDEIITEERHSIHKKAPEFEEQETHSEILETGIKVVDLLAPYLKGGKIGLFGGAGVGKTVLIQELINNIAKGHGGLSVFAGVGERTREGRDLYNEMRESGVINKTALVYGQMNEPPGARLRVALSALTMAEYFRDKEGQNVLLFIDNIFRFTQAGSEVSALLGRMPSAVGYQPNLATDMGALQERITSTKKGSITSVQAVYVPADDLTDPAPATTFSHLDATTVLSRQIASLGIYPAVDPLASTSRILEAEIVGNEHYKVARETVKVLQRYKELQDIIAILGMDELGDEDKVIVSRARKIQRFFSQPFSVAEQFTGMKGKYVTLRETIRGFKEILDGKHDELPEQAFLYVGTIDEAVAKAKDLMGE;locus_tag=LOCUS_10430;gene=atpD;EC_number=7.1.2.2;note=WP_011016335.1 F0F1 ATP synthase subunit beta (Fusobacterium nucleatum) [pid:78.1%25%2C q_cov:99.4%25%2C s_cov:99.6%25%2C Eval:2.1e-203],MGA_1047
sequence1	MetaGeneAnnotator	CDS	1118391	1119278	.	-	0	ID=MGA_1048;product=ATP synthase F1 subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016336.1;translation=MASNMKEIKARINSINNSKQITSAMNIVSSTKFKKFQVLTFKTREYEKSLEYALYNLLNHIGNRHNILFEGKKEVKNIGIVVITSDRGLCGSFNSNCLKKMDKMVKRFTKEGKNVSIIAIGRKARDYCKTRDINVDAEYIQLIPETMFSKAKIISEDIVDFYLSDQYDEVYLIYSKFVSVIHYNLVEERILPFSRPTGLKISKESEEVKDKRYIFEPNENQVLVEFLPKLLNNKLYQALLENSASEHSARMSAMKNASDSATEIINKLTLEYNRIRQSLITQELSEIVGGSQAIK;locus_tag=LOCUS_10440;gene=atpG;EC_number=7.1.2.2;note=WP_011016336.1 ATP synthase F1 subunit gamma (Fusobacterium nucleatum) [pid:46.9%25%2C q_cov:98.3%25%2C s_cov:98.9%25%2C Eval:8.7e-71],MGA_1048
sequence1	MetaGeneAnnotator	CDS	1119294	1120799	.	-	0	ID=MGA_1049;product=F0F1 ATP synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016337.1;translation=MKIKPEEISNIIRKEIENYKKRIDVSSVGSVVEVGDGIARIYGLETAMAGELLEFPNGATGMVLNLEENSVGAVILGETRGIKEGDVVKGTGRITEVPAGEALLGRVVNSLGEPIDGKGNIVASKYMQVERVASGIIDRKPVTEPLQTGIKAIDGMIPIGRGQRELIIGDRQTGKTSIAIDTIINQKDTGIYCIYVAIGQKRSTVASIQRKLEEAGAMEYTTIVAATASEPAPLQYLAPYAGVAMAEYFMEEGKHVLIIYDDLSKHAVSYREMSLLLKRPPGREAYPGDVFYLHSRLLERAAKLSDELGGGSITALPIIETQAGDISAYIPTNVISITDGQIFLETDLFNSGFRPAINAGFSVSRVGGSAQIKAMKQVASKVKMELAQYTELLAFAQFGSDLDKATRDQLNRGERIMEILKQKQYSPMSVEEQVVSFYAVTNGYLDDIDVEDVRNFEEELLQSIYSTTDILKQISTEKALTKDIEEELEDFIKTFKKDYVH;locus_tag=LOCUS_10450;gene=atpA;EC_number=7.1.2.2;note=WP_011016337.1 F0F1 ATP synthase subunit alpha (Fusobacterium nucleatum) [pid:75.4%25%2C q_cov:99.6%25%2C s_cov:99.8%25%2C Eval:1.5e-215],MGA_1049
sequence1	MetaGeneAnnotator	CDS	1120818	1121339	.	-	0	ID=MGA_1050;product=ATP synthase F1 subunit delta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016338.1;translation=MENLSIARRYAEAIYKVAEEKDEVFEVFEMLNVILEHIENDEDFKKFLTYPIIGKEEKKELINRIYRDIKNEPLDILDYLIEKDRLLHIKEINEQYSKIYYEAHKKLIVTAIFPKELSTDQKERLRKKLVKMKQKEVVIHYKVDENLIGGGIIKINDDVIDGSIKTQIKELKR;locus_tag=LOCUS_10460;gene=atpH;EC_number=7.1.2.2;note=WP_011016338.1 ATP synthase F1 subunit delta (Fusobacterium nucleatum) [pid:41.7%25%2C q_cov:97.1%25%2C s_cov:96.6%25%2C Eval:3.2e-34],MGA_1050
sequence1	MetaGeneAnnotator	CDS	1121341	1121844	.	-	0	ID=MGA_1051;product=F0F1 ATP synthase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902611.1;translation=MEQNNNLITIDILMIVQIINFLILVYVFHKYFYKKIGKVIEERKKIALKELEIVKEEREKLEEQKQNYEKLRKEAKRRANDIIIKAERQADERKEQILDNATLTRDRMIMRAESEVLKLRNNIKEQLQKEMSQMATELAEKIIKENIEKNPQIVDKSIDKFIDEVGE;locus_tag=LOCUS_10470;gene=atpF;EC_number=7.1.2.2;note=WP_005902611.1 F0F1 ATP synthase subunit B (Fusobacterium nucleatum) [pid:34.8%25%2C q_cov:96.4%25%2C s_cov:97.5%25%2C Eval:4.0e-23],MGA_1051
sequence1	MetaGeneAnnotator	CDS	1121860	1122099	.	-	0	ID=MGA_1052;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDASIVKAAALLGAGIAACGGIGAGLGQGLATAAAVEAVARQPEAKNDVMGTLFIGCAITESTGIFALIIALILALIKG;locus_tag=LOCUS_10480;note=MGA_1052
sequence1	MetaGeneAnnotator	CDS	1122113	1123030	.	-	0	ID=MGA_1053;product=F0F1 ATP synthase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_124796847.1;translation=MSKKKNLLKWIGLMVLMLVGVNLFLSIISTVFPITFQKPHDIIEPPEIFFSIPVGRYILNINQTIMNTWVVMIIIIFILIKGTRNISVENPGFFQLVLEEYYNFINNSFLEGLGKYKEKFAGFFSALFSMIAFLNVSMFLFPFAIIWKKNEHGLIFVKPFFRTATADMNTTVGLALVVFVIFLGAAIYRMGVLGFIKELSQPFVFMLPINIIGEFAKPINIAMRLFGNMFAGLVIMSLVYGLAVKDVFPSLTNNILKGSFSFAVGWPNILQIYLDFFIGILQAFVFTVLSSVYIKQMLIGEDEEE;locus_tag=LOCUS_10490;gene=atpB;EC_number=7.1.2.2;note=WP_124796847.1 F0F1 ATP synthase subunit A (Fusobacterium canifelinum) [pid:40.3%25%2C q_cov:84.6%25%2C s_cov:92.4%25%2C Eval:7.7e-46],MGA_1053
sequence1	MetaGeneAnnotator	CDS	1123037	1123432	.	-	0	ID=MGA_1054;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFSINDDVKKIVKILLIISILFFFIGIMKMNILILSLSFGIFISIISNLMLLYTVHKIVYLKGNRGTMFIDSTKRYGMYILGLYFVYRVNIKYFDTDPIYPLLICGFGFISFRLILQCLIFFKFKLKRKE;locus_tag=LOCUS_10500;note=MGA_1054
sequence1	MetaGeneAnnotator	CDS	1123764	1124210	.	+	0	ID=MGA_1055;product=DUF2147 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002121971.1;translation=MKKIITFLFLLVATLSFSDSKEAFGVWITEPSSSGNRVIVEIYEKDNKFHGRILQLTDRFDSDGNLKKDVNNPDKSKQSRTLEGIDFVSGFTYNESNSTYENGTIYDPSNGKTYDSYMQLQKDGTLKVRGYIGISLIGRTQIWKRYEK;locus_tag=LOCUS_10510;note=WP_002121971.1 DUF2147 domain-containing protein (Acinetobacter) [pid:32.7%25%2C q_cov:98.0%25%2C s_cov:98.6%25%2C Eval:1.1e-09],MGA_1055
sequence1	MetaGeneAnnotator	CDS	1124259	1125749	.	-	0	ID=MGA_1056;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005809769.1;translation=MENKENAVNETYVMKEKYRKIDELKSLGLEPYGRYFDKKDEIGSILNFDETSEKEFKTAGRIMSYRRMGKNGFAHIQDPTGKIQIYAKKDEIGEEEYETFKRLATGDFVGVVGKLFRTQTGELTIKASHLEILSKNIRPLPDKFSGLQNIEMRYRQRYIDLVMNPEVMDTMKKRFEIIRYFRTYLEKKGFLEVETPMLHPTLGGANARPFITHHNALDMDMYLRIAPELYLKRLLVGGFEKVFEINRNFRNEGVSIKHNPEFTMMELYQAYADFNDMMDITEDLISSLTYHLYGTYEIPYEDKTVNLAKPWRRVTMKEIVREHTGFVMDENTTDESAIEFAKGLGIHLDKDKTYTKFGILNLLFEEKVEHTIVNPTFVTDYPKEISPLSKNSKGESDWVDRFELFITGREYGNAYSELNDPKDQKERFEEQVRAKENGDDEASEMDLDYIRALEYGMPPAGGLGIGIDRLVMLLTNSSSIRDVIMFPTLKKETHFE;locus_tag=LOCUS_10520;gene=lysS;EC_number=6.1.1.6;note=WP_005809769.1 lysine--tRNA ligase (Desulfitobacterium) [pid:54.9%25%2C q_cov:95.0%25%2C s_cov:96.3%25%2C Eval:8.0e-148],MGA_1056
sequence1	MetaGeneAnnotator	CDS	1125739	1126113	.	-	0	ID=MGA_1057;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIEIKDNFTNDINIIENIDFKYINDELSYVYNFEKYLWKFKENEILLEKKGEIEYLQKYIKGRLTKSIIKMNDLEMELYILTKEIEKEENNIKLVYNIYNDKDIENLISSFEVKINLGGINGK;locus_tag=LOCUS_10530;note=MGA_1057
sequence1	MetaGeneAnnotator	CDS	1126121	1126522	.	-	0	ID=MGA_1058;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYTIGDEFEFDVNDSLEYFICIGEFAYSGIEYLICENEYGIKKVFFYDDEELILVEDEDEEENVLDNFQEESYKNEKEFTWYEENDYNDFEPPFNDENVLEDNYIEEDMELLNDYSDEEDINTFLDDLFDDED;locus_tag=LOCUS_10540;note=MGA_1058
sequence1	MetaGeneAnnotator	CDS	1126534	1126998	.	-	0	ID=MGA_1059;product=23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016410.1;translation=MLKINLICIGKIKEKYIIDGIEEFLKRLSKYVKINVIELKEEADNNVYFAINKESKLLIDSINKNSGYNILLDIKGNNITSEELSDKISNLKLNYSEINFIIGGSNGYNDEVRKLADFKLSFSKMTFPHQLMRLILIEQIYRSICIENNIKYHK;locus_tag=LOCUS_10550;note=WP_011016410.1 23S rRNA (pseudouridine(1915)-N(3))-methyltransferase RlmH (Fusobacterium nucleatum) [pid:56.8%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:7.5e-44],MGA_1059
sequence1	MetaGeneAnnotator	CDS	1127136	1127885	.	-	0	ID=MGA_1060;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKKLTKWEPENFELEMNTHWSFPKRGDWATHDAKWRGNWSPYIPRNLLLRYSKENDLVLDQFAGGGTTLVEAKLLNRDIIGVDINEVSLERCREKVNFEHEGSNGKVYIHKGDARNLDFISDESIDFICTHPPYANIIQYSDNIEEDLSHLKIPQFLEEMKKVAFESYRVLKNDKFCAVLMGDTRIKGYMQPMSFEVMKIFESEGFKLKEIIIKEQHNCRATGYWKTNSIKYNFLLIAHEYLFIFKK;locus_tag=LOCUS_10560;note=WP_012256874.1 DNA methyltransferase (Chloroflexus aurantiacus) [pid:28.3%25%2C q_cov:98.0%25%2C s_cov:68.8%25%2C Eval:3.6e-29%2C partial hit],MGA_1060
sequence1	MetaGeneAnnotator	CDS	1127913	1128671	.	-	0	ID=MGA_1061;product=type II restriction endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010870104.1;translation=MALNILNTLIGKEDIESRLKKLIKEYPEIVTVIPILIAVRGNVIKVADIIGDIEYSFIKKEKYSDEEIEKIVSFVNKSGFLKIIRDKNIKNLVDYTLGVEVGLDTNARKNRSGKVMENLIELYIKSTCDKYGFKYLSQATVEKIKKEFGKEVSTDKADRHFDFVVDTGNKIYIIEVNYYSNGGSKLKSVAGEFSNLFSIIKNEETGFIWITDGEGWLTSKRSLLETFNKIDYVINIEMINSGLLEEILVKRL;locus_tag=LOCUS_10570;note=WP_010870104.1 type II restriction endonuclease (Methanocaldococcus jannaschii) [pid:48.8%25%2C q_cov:98.4%25%2C s_cov:87.6%25%2C Eval:8.8e-63],MGA_1061
sequence1	MetaGeneAnnotator	CDS	1128991	1129482	.	-	0	ID=MGA_1062;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSELSSIQEHFWKLDTEERKLYYYEKRDRFNYIKLNGDEKVSIEKATLFIFLNKTCFNGLFRVNKKGFFNVPIGSYKFPLICDEENLKNISKLLQNVTIRCGKYSDCEYFIDENTFVYIDPPYRPLTSTSKFNAYYDFDFNDDEQISLARFVDKISSKGAKFI;locus_tag=LOCUS_10580;note=WP_010870102.1 DNA adenine methylase (Methanocaldococcus jannaschii) [pid:53.4%25%2C q_cov:100.0%25%2C s_cov:55.4%25%2C Eval:5.4e-46%2C partial hit],frameshifted%2C insertion/deletion at around 1128993,MGA_1062
sequence1	MetaGeneAnnotator	CDS	1129738	1131540	.	-	0	ID=MGA_1063;product=DNA mismatch repair endonuclease MutL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495553.1;translation=MALIKILDDSISNIIAAGEVVENPASMIKELLENSLDAEASSIQIEVLNGGIYVKISDNGKGMSREDVILSIERHATSKISTKEDIFNLQTYGFRGEALASIAAVSKISISSKTKDEKIGTIVNAYAGVVRKYENFTRTTGTEIEIRDLFYNTPARKKFLRKESTEYSKIKDIVLKEALANPNVAITLYIDGKATLKTTGNGMENTIFELFGKNVLKNLEKFEYGYLGNVEILRSSKEYIYTYVNGRYVKSNLLDRAVIDAYYTKLMKGKYPFVILMYDVNPKEIDVNVHPSKKMIKFSDEKIVYNDIKRSIDNFFYEFDRRTWQPTLIPKTNEVVVDNTETEYIPINIFSKDEVKEEVIPETLTFKEEKDLEVREPKLIYENPFYEEEEEIKVENKVEYLKPFFEKKEGEVKYYEVLGQIFDTYILVNRDNNLEIYDQHIIHERLLYEELMSSFEKKNIGSQILLLPELIDVSPVDKDIIFNNMDTFEKLGFEIDEISNNQIALRAVPNFNFRESIKNILENILVDLKSKNKVGDIREKIIISMSCRGAIKAGQKLNMQEMQNMVRRLHEVGKYTCPHGRPIISKISKYDLDKMFGRVK;locus_tag=LOCUS_10590;gene=mutL;note=WP_029495553.1 DNA mismatch repair endonuclease MutL (Fusobacterium hwasookii) [pid:48.3%25%2C q_cov:99.7%25%2C s_cov:99.8%25%2C Eval:4.1e-165],MGA_1063
sequence1	MetaGeneAnnotator	CDS	1131935	1132186	.	-	0	ID=MGA_1064;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIILLWLYYSKLYILGSLLVTFFLNKITDKLYLPPLIINMVAVIMLFVIPYNNRTYAMYFNYMPIVVTSVLLNFIIYLFKRCE;locus_tag=LOCUS_10600;note=MGA_1064
sequence1	MetaGeneAnnotator	CDS	1132196	1133503	.	-	0	ID=MGA_1065;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002678788.1;translation=MYKKFKILISVIFLGITVFSCGTKNSKDEVVTIKYWSFPNFNADSELKTPEEFDMALIKAFEEANPDIKVEYQKIDFTDGPAKLETSIISKSNPDVIIDAPGRVIDWAKKGYLVPFDIDTSIYSNTIVSAASHEGKLYLYPLGTAPFVMAFNKVITDKLGLTHMLPLDREGRNWTVEEFEALLMAIKEKDPSIDPIIFFNKTPDGSHGSRSFVLNLFDTWLTDKDITKYIVNNERGVKGLEWAKKAHDMGLLGDGASSEARDALEAFRSGLAAGTMIYSPGLNAISSNQQAKAEGRLDPVYVAMPNNGGQAKYELLLAGAAVFNNNDEAKIEASKKFVDFVINDPVWGQRALKATRNFSPVGKTGLYGDDEETKFIENINSNGNYGPYYNTIDGFAQMRPLWSNMVQAVLNGQISPKAGLDKFVIDATKAMEDAK;locus_tag=LOCUS_10610;note=WP_002678788.1 ABC transporter substrate-binding protein (Treponema denticola) [pid:36.9%25%2C q_cov:99.1%25%2C s_cov:99.5%25%2C Eval:2.9e-74],MGA_1065
sequence1	MetaGeneAnnotator	CDS	1133522	1134355	.	-	0	ID=MGA_1066;product=carbohydrate ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001192007.1;translation=MEVKKTTPLGVISMIILIIFALFFIFPFYWILTGSFKIQDVAISIPPQWIPVSPTLENYDKLLVSNTARWFFNSVFVSSMTTILVCVTATLAGYALAKKDFPGVNILFIVFVAAMALPKQVILIPLLKFMTELGWIDTYKALILPAVGWPFGVFLMKQFSHSVPNELLESAKIDGCGEFRTFLSIVLPIVKPGIGALAIFTFILSWNDYFSQLIFTNSELMKTLPLGVASMSQQAEFSLNYGLLMAGAALASLPMIVVFLMFQSYFTQGVTMGAVKG;locus_tag=LOCUS_10620;note=WP_001192007.1 carbohydrate ABC transporter permease (Streptococcus) [pid:58.8%25%2C q_cov:99.6%25%2C s_cov:98.6%25%2C Eval:2.4e-88],MGA_1066
sequence1	MetaGeneAnnotator	CDS	1134373	1135266	.	-	0	ID=MGA_1067;product=sugar ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_162467683.1;translation=MFNSIKKTNFKKIDYSAYLFILPVMVFFLTFVLYPMTKGIYLSLFRFRGRNTVFVGLKHYIDLFKDEIFIKSTVNTIVITMIAVPIVVAFSIFVAMNIYEKSALVRSIFRGIFYIPAISSVVSVTVVWNWIYHPKYGILNYVLNSTHITSNQIDWLGNPRTAIYAIIAILITTSVGQPIILYVAALGNVPKDLIEASKIDGATDSQCFRKIIWPSIKPTTLYIVVVTTINSFQIFALIQLLTAGGPNYSTSTIMYLVYQKAIVETRFGISSAMGVLLAIIIGIISVVQFKFLSHDVD;locus_tag=LOCUS_10630;note=WP_162467683.1 sugar ABC transporter permease (Streptococcus pseudopneumoniae) [pid:53.7%25%2C q_cov:94.6%25%2C s_cov:97.6%25%2C Eval:4.6e-88],MGA_1067
sequence1	MetaGeneAnnotator	CDS	1135324	1136631	.	-	0	ID=MGA_1068;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010921874.1;translation=MNKKIKILAATAALGLTVFACGKKAETKPEGPVTIKYWSFPNFTADSEFKTPEEFDMALIKAFEEANPQIKVEYQKIDFTDGPAKLETAIQSKSTPDVVIDAPGRIIDWAKKGYLVPFDADTSKYSKSIISASSHDGKLYLYPLGTAPFIMAFNKVITDKLGVTDMLPLNKPGRNWTVAEFEALLMAIKEKDPKIDPVLFYTKSQAGDQGPRAFVSNLFDSWITDKEVSKYTINDENGVKALEWIKKAYDKGLLGKGVSAEAKDALEAFRSGNAAGTILYSPGLKGGKADVDAIMAGKLEPVYVSYPNDSGQAKFEFLLAGAAVFDNEDPARAEAAKKFVDFIANDPVWGQRALKATRNFSPLGKTGLYGDDVETKFIEEQSANFGPYYNTIDGYAQMRPLWFNMVQSVLNGQVSAKEALDKFVENANKTIEDVK;locus_tag=LOCUS_10640;note=WP_010921874.1 ABC transporter substrate-binding protein (Streptococcus pyogenes) [pid:38.9%25%2C q_cov:97.7%25%2C s_cov:98.2%25%2C Eval:2.3e-79],MGA_1068
sequence1	MetaGeneAnnotator	CDS	1136658	1137587	.	-	0	ID=MGA_1069;product=N-acetylneuraminate lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000654136.1;translation=MSYNLEKFKGVFVAMYSTYDDNGNISTERAKELTKYYIEKGVKGLYVGGSSGEGVLQSEEERKAILEAVMEVAKDKLVIIAHIGANSTPESVRLAKHAKECGVDAVSSIPCVYYGFSPKAVKEHWTAMIDATDLPFIIYHIPQTTRFNLPISLLEEMAAMEKVIGIKCSSESTFELQQFKYIGSKVKNGEFIVFNGPDEQFIAGRMIGADGGIGGTYGVMPELFIKLNEYMENREFDMARELQNEINEVIKGLLSGPSLYGIAKYILHLRGIHTGQPRGPMLPVTQEKDIELAKELNSKIEKLIKKYCN;locus_tag=LOCUS_10650;note=WP_000654136.1 N-acetylneuraminate lyase (Streptococcus mitis) [pid:45.3%25%2C q_cov:98.4%25%2C s_cov:99.0%25%2C Eval:2.8e-67],MGA_1069
sequence1	MetaGeneAnnotator	CDS	1137584	1138435	.	-	0	ID=MGA_1070;product=ROK family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000150236.1;translation=MKIICFDIGGTNIKYAIIEDISNIEVKTIETRITKDDNYILEDVLKIIELNKDVKAVGISTAGVVNSKTGEVIFAGPTIPKYTGTKFKEIIEAKFGIETFVENDVNSAAFGEYCFGDYKGSMFMLTIGTGVGGSLILDGKVFSGASMTAGEIGYMPLNDGHFQDFSSATYLTNYVSERLNKKVDGKYIFESAKNGDKLCIEAIDKMVYNLTTGLLNIVYMINPDNIVIGGGITAQGEYLEEKILKVLDERIIGKQFKSNVKLANLKNSAGIYGIYNIVRKEMK;locus_tag=LOCUS_10660;note=WP_000150236.1 ROK family protein (Streptococcus mitis) [pid:44.0%25%2C q_cov:96.1%25%2C s_cov:94.6%25%2C Eval:1.4e-54],MGA_1070
sequence1	MetaGeneAnnotator	CDS	1138432	1139130	.	-	0	ID=MGA_1071;product=N-acetylmannosamine-6-phosphate 2-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003130140.1;translation=MSNKVLEKLKGQLIVSCQALPGEPLYMENSTIMPLMARAAIKAGAKGIRTNGVLDVKEIKKEVEVPVIGLIKKGYEGFPQYITVGMSEIDALVEAGADIIALDCTLRDRYDGKTINEFIADIKAKYPHILLMADISNLEEGINAEKAGVDIIGTTLNGYTPYTETSDKGPNYTLIEELVSVVKIPVIAEGRIHTPEAAKKMLDLGAYAVVVGGAITRPLEITNRFIEGMGLK;locus_tag=LOCUS_10670;note=WP_003130140.1 N-acetylmannosamine-6-phosphate 2-epimerase (Lactococcus lactis) [pid:57.7%25%2C q_cov:97.8%25%2C s_cov:97.4%25%2C Eval:1.3e-65],MGA_1071
sequence1	MetaGeneAnnotator	CDS	1139140	1139958	.	-	0	ID=MGA_1072;product=MurR/RpiR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002358531.1;translation=MKYITLIQSFYPSFSKQEIKVADYVIKEKDAICFMPLHEITKKINVSEATIVRFVKKIGFKGFIDFKLEVAREIATIEDERNTKEHYIENIEYNIIETIKNTKNLINKEDVENAIEAIENSKKLYVFGMGASGVAALEFQNRFMRFGKIGHSVSDGHFQVMYASTTTEKDVIVVISLSGETVDLIYPLSIAKENGCKIIAITNYILSPIAKLSDIVILTSGKETLLNGGALVSKMSQLYIIDVLATGYALRNSKKAKLVRQGMAEAIANKNK;locus_tag=LOCUS_10680;note=WP_002358531.1 MurR/RpiR family transcriptional regulator (Enterococcus) [pid:40.0%25%2C q_cov:99.3%25%2C s_cov:98.9%25%2C Eval:5.4e-53],MGA_1072
sequence1	MetaGeneAnnotator	CDS	1139955	1140890	.	-	0	ID=MGA_1073;product=cyclically-permuted mutarotase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000687303.1;translation=MKFKFLKNVGHELGLTSMLCSKIGKYILIYGGSNFPNGTPPYGMRTMYNDMYLYDVDFNLVSKQSGKISPDKAIVVNYDDKIYLISGAGNTKIYEYTLDGTKIIETEIFDLGFEIVGGFGGVYNEKIYFGKEYIYEFNLKTRKLSKLDKVMGEVREQFLNFISNGRLYLFSGASNICCLDSYVYDINKREWRKIDDTPTCLTAATSCMLDDNNFLVVGGCNKKIYDEAIQRLGEIEFKIEYFARKREDFKWNKNIYIFNTLEEKFTLLSDGDILNATCGSSMIKIDKKVYLINGEIKPGYRTPQVLIGDFT;locus_tag=LOCUS_10690;note=WP_000687303.1 cyclically-permuted mutarotase family protein (Streptococcus pneumoniae) [pid:33.9%25%2C q_cov:94.5%25%2C s_cov:94.5%25%2C Eval:2.5e-47],MGA_1073
sequence1	MetaGeneAnnotator	CDS	1141042	1143660	.	-	0	ID=MGA_1074;product=bifunctional acetaldehyde-CoA/alcohol dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861762.1;translation=MVVKDIKSLKEMMKNVREAQEKYASFTQEQVDKIFRKVAQTINDQRIILATMAVEETGMGLIEDKVIKNHFASEYIYNKYKDEKTCGILEEDKSYGIKKIATPIGVIAGVIPTTNPTSTAIFKILLALKTRNAIIISPHPRAKNSTIYAAKLALEVAKKYGAPDNIISWIDEPSMELSRELMANVDLILATGGPGMVKSAYSSGTPAIGVGAGNTPVIIDESADVKMTANYILLSKTFDNGVICASEQAVILPESRYDEIKKEFINRGAYVLKKDEIQKVRDVMFKEGALNADIVGQSAYTIATMAGLKVPESIRVLIGEVKDYSGKEAFAHEKLSPILAMYKAKGFEEQMTIAKALIELGGLGHTSCMYINEAETEKINRFGREMKTGRTLINMPASLGAIGDVFNFKLEPSLTLGCGSWGGNSVSENVGVKHLLNVKTVAERRENMLWFKVPEKIYFKYGSLPIAIEELKDENHKKAFIVTDSTLAELGYTNHITKVLERIGIDYRIFSNVGVDPTLSCTISGAEAMREYKPDVIIALGGGSAMDAAKIMWVLYEYPNIRFKDLAMRFMDIRKRIFAFPKMGIKAKFVAVATSAGTGSEVTPFSVITDDETGVKYPLADYELTPDVAINDPELMLTMPKGLTVASGIDVFTHAIESYVSILATEYTKPYSLEAMKLVMKYLPESVALGSKAVKAKEKMANASCIAGMAFANAFLGINHSLAHKLGGKFHVPHGIANALVLGEVIRFNAEEAPTKMGVFPQYRYPDAVNRYAKVADFLGLSKEGQTKEEKVEALIEGIEELKEKIGIPKTIKDWGIPEKDFLEAVDELSVDAFDDQCTPANPRYPLISELKEIYLKSYYGREEYSKMKNFK;locus_tag=LOCUS_10700;gene=adhE;EC_number=1.1.1.1%3B 1.2.1.10;note=WP_011861762.1 bifunctional acetaldehyde-CoA/alcohol dehydrogenase (Clostridioides difficile) [pid:63.0%25%2C q_cov:98.6%25%2C s_cov:99.2%25%2C Eval:0.0e+00],MGA_1074
sequence1	MetaGeneAnnotator	CDS	1143793	1144158	.	-	0	ID=MGA_1075;product=RidA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002852401.1;translation=MKKIPNAVGPYSAYYVAGDFLYISGQLGINPETNLIEGETAAEQAKQSLENLKAILEINGLTTKDVVKTMVLLDDINDFVSVNEVYAKYFEEPFPARSAFEVGKLPKGGLVEIEAIAYIKK;locus_tag=LOCUS_10710;note=WP_002852401.1 RidA family protein (Campylobacter) [pid:55.6%25%2C q_cov:96.7%25%2C s_cov:97.5%25%2C Eval:2.2e-29],MGA_1075
sequence1	MetaGeneAnnotator	CDS	1144211	1145395	.	-	0	ID=MGA_1076;product=elongation factor Tu;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903497.1;translation=MAKQKFERLKPHVNVGTIGHVDHGKTTTTAAISKVLASKGLAQKVDFENIDQAPEERERGITINTAHIEYESEARHYAHVDCPGHADYVKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPYIVVYLNKVDMVEEEELLELVEMEVRELLSEYGFPGDDIPVVRGSSLGALNGEAKWEEQILELINQVDTYVPTPERPVDQPFLMPIEDVMTITGRGTVVTGRVERGTVKVGEEVEIVGIKDTTKSTVTGIEMFRKLLDSGEAGDNIGALLRGIKKEEVERGQVLSKPGTIKPHTKFRGEIYVLTKEEGGRHTPFFTGYKPQFYFRTTDITGEVNLPEGVEMVMPGDNISVSVELIHPIAIETGLRFSIREGGRTVASGVVADIAE;locus_tag=LOCUS_10720;gene=tuf;note=WP_005903497.1 elongation factor Tu (Fusobacterium nucleatum) [pid:79.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.7e-184],MGA_1076
sequence1	MetaGeneAnnotator	CDS	1145572	1147542	.	-	0	ID=MGA_1077;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKAFLGVCALISVISFSDVTGYFKSNSEATIKSDNGGTKIEYDLSTKLDLGLYLDSKKETFIFAGGNLKGEGKAGSLKTPGYLGARFESKVTDDSNIILTGAYRIDNIDIKDIVKEHAQKAYRETGFDFIKDETILLSGIGYGKYDDIKYRLGVVYNSNNFKDKTHRLQSFVKAETKLEKADVSGELTYRLGNVKTNIYELNAIKEERKAFVEHGGTLKGEVNIKTDDRLVKDLVTEHKAYFDIGTMLPYKHNSDESQVIKTGLENKAVYKGVKNLELTGKLNYRAEIVSTYANNNGTEQKGYMQHSPEAFVGIKYDNKKVMFSTENTDRVDVKHELKAGLALKDDMLNNFFKTDNKLEIKPSELITLRAKVFDILKSEKLKNSAEHKNSFLGGLGLTLNPKSDKVKFEHKSDVVYKLENLDVKSLKNVDIDDHELFLWTTNKLTVDVNEKIKLEGNLNSYNYLLLGDEENIAIDNFTELNGKVSYKQENVDFSQMLSARYAYGDADVDDNRHYYMVESDTKLGYKVNSILEINSGLNLEFNASNLKEQNRALKMYVESQGLHEDKFKTLGQYTDDVKYDDKKLINRINDEVKSYGNDYYDIVVKPELGVTMKFLENKLTVKPNVSTRLLFTAGLQGFKFNRFNTKGTLKIEYIW;locus_tag=LOCUS_10730;note=MGA_1077
sequence1	MetaGeneAnnotator	CDS	1147848	1149029	.	-	0	ID=MGA_1078;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNKMFKGIITISTLFLISCSNIELPENVSGRSKIYSMLSYNLSPKINRDSMYALLTSVGLEIEDYVVPEEFDLRVYDEDNTRIEQYYTKNNLEKKLIIIGNGGSFLNPYKIARRDFYLNFSKKLQGFDVMIVDLHMGFQHRFPIQNKDFLNAYRLALKLGYSHNKITFIGDSSGGNIVTTSTIYLRDNNLPLPAGIFLMSPFLDATNMVESRERNRKKDVLFGNPYNFKNRLKMLENIPYFIAEKDKTNRYISPVYAKNLKGFPKTLIHVSDYEILQDDSVVFYNNLKKSGVDATLVEYPGQLHVFQMLDIREAEDSIDKATKFLNEITRDKKHIKIDKKIIEKIKFEVKTDKYREEEIKEFFKKIDINIDRLIEFEQYNYKTSNRNYLNKK;locus_tag=LOCUS_10740;note=WP_223495563.1 alpha/beta hydrolase (Mycolicibacterium smegmatis) [pid:27.9%25%2C q_cov:54.5%25%2C s_cov:67.5%25%2C Eval:8.3e-17%2C partial hit],MGA_1078
sequence1	MetaGeneAnnotator	CDS	1149019	1150227	.	-	0	ID=MGA_1079;product=peptidase T;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016614.1;translation=MLERFKKYVKFETRSDEKSTTIPSTPTQYEFAKMLVEDLKKIGLEDIYINDYCFVNATLKSNIEKEVPTIGFISHIDTADFEAKNIRPNVVKNYDGNDIVLNEKLGKILSPKDFPNLKNYIGKTLITTDGTTLLGADDKAGIVEIIEAVKYLKEHPEIKHGTVKIAFGPDEEIGKGADNFNVDEFGADFAYTVDGGEIGELQYESFNAAQITYTIKGVSVHPGTAKDKMINANIIAAELAMMFPRKEVPEHTSGYEGFYLLHNVESRIEMATLTYIIRDFDKQKFIERKLFCEEVARKINEKYGEILTYNMFDQYYNMGDIIKDNMECVHLAEQAMKNLDIKPKIIPIRGGTDGSKISYMGLPTPNIFVGGENFHGEFEFACLEDMMKARDVIIEIVRLNAK;locus_tag=LOCUS_10750;gene=pepT;EC_number=3.4.11.4;note=WP_011016614.1 peptidase T (Fusobacterium nucleatum) [pid:66.3%25%2C q_cov:99.5%25%2C s_cov:97.3%25%2C Eval:3.0e-155],MGA_1079
sequence1	MetaGeneAnnotator	CDS	1150312	1152549	.	-	0	ID=MGA_1080;product=formate C-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903513.1;translation=MEAWRGFKEGNWMKEINISEFIQLNYTEYTGDDSFLEGPTEATTELWNKLKPKLAIEREKGIYNAETKIPSQIDAYGPGYIDKDLEKIVGVQTDEPLKRAIFPNGGLRMVENSLEAFGYKLDPATKDIYSKYRKTHNDGVFSAYTDEIRKARKTGVVTGLPDAYGRGRIIGDYRRVALYGVDFLIEERTKDWNNLTPAEMTEDVIRLREEIFEQVKSLKALKRMAESYGYDISKPASTAQEAIQWTYFAYLAATKDQNGAAMSIGRTSTFLDIFIERDLREGRITEKEAQEMIDHFVMKLRIIRFLRTPEYDALFSGDPVWVTESIGGMTIDGSRSFVTKNSFRILNTLYNLGPAPEPNLTVLWAQDLPLNWKKFCARVSIDTSSLQYENDDLMKPTFGDDYGIACCVSPMTIGRQMQFFGARVNLPKALLYAINGGKDEKQKLQVTPEGMFEPIKGDYLVFDEVWEKYDKVLDWLAQTYVQALNIIHYMHDKYSYESFEMALHDKNIKRTQAFGIAGLSIVADSLAAIKNGKVRIIRDEEGDAVDYVNEGADYVPFGNNDDSTDDFAVNITKIFMNKIRKHKMYRDAIPTQSVLTITSNVVYGKKTGNTPDGRRSGAPFGPGANPMHGRDVNGAVASLASVAKIPFEHANDGISYTFAITPETLGKEDDEKRTNLVGLLDGYFAQTGQHLNVNVFGRDLLEDAMEHPEKYPQLTIRVSGYAVNFVKLTKEQQLDVINRTISTKI;locus_tag=LOCUS_10760;gene=pflB;EC_number=2.3.1.54;note=WP_005903513.1 formate C-acetyltransferase (Fusobacterium nucleatum) [pid:79.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_1080
sequence1	MetaGeneAnnotator	CDS	1152827	1153516	.	+	0	ID=MGA_1081;product=2%2C3-diphosphoglycerate-dependent phosphoglycerate mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902448.1;translation=MKLVLVRHGESEWNLQNRFTGWIDVDLTEKGVQEAKNGGQALKELGYTFDVAFTSFQKRANKTLNYILEEIDQLYLPVYKSWRLNERHYGALQGLNKAETAKQYGEEQVHIWRRSFDVAPPHVELTDEVNYPRFQERYKDIPESECPRGESLKDTIARVLPYWETNISKEIKAGKDVIVVAHGNSLRSLIKYLLNIDDVKILDLNLPTGKPLVFEINENLEIVSAPELF;locus_tag=LOCUS_10770;gene=gpmA;EC_number=5.4.2.11;note=WP_005902448.1 2%2C3-diphosphoglycerate-dependent phosphoglycerate mutase (Fusobacterium nucleatum) [pid:69.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-91],MGA_1081
sequence1	MetaGeneAnnotator	CDS	1153610	1154458	.	+	0	ID=MGA_1082;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNILMYFRDDYSNFSFDNHVFIAGGNGTGKTMMYNHMLSGFDGKEKDMFLVDGLKIKKSQFVALGISRDNTLDEEIKLSSKTYILSRLEAFREYVSEEKIRSSMFEYFDSIKELIEKEIFSIPNFNIEFDFDKISSNIFKAIEYKIDDINFSELSTSEKVNIQLEIYLNRLIGVNDNTVLLIDDFDSIYTKNKFFEKVSYILSKIKDFNTKCIFFVKNEDIVYELVSSGHKVLFIDNNKLVELPRYINFIDEVYLYSEKEIENKIEKIRKEKEFDIIKNYLK;locus_tag=LOCUS_10780;note=MGA_1082
sequence1	CRT:1.2	repeat_region	1154580	1157715	.	+	.	ID=CRT_1;inference=COORDINATES:alignment:CRT:1.2;rpt_family=CRISPR;rpt_type=direct;rpt_unit_seq=cattcacattattcaaatttaccaagaatctgtatc;note=CRT_1
sequence1	MetaGeneAnnotator	CDS	1157801	1158115	.	-	0	ID=MGA_1088;product=CRISPR-associated endonuclease Cas2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_040666777.1;translation=MRLLVYFDLPVSTKLERKQAQDFRKNLLSEGFIMMQFSCYSRFCRNDAESSKYFNRVKKLSNKLSGGEVRILKITNKQYENMLILVKEPKLSEIKLSKNPLVIF;locus_tag=LOCUS_10790;gene=cas2;note=WP_040666777.1 CRISPR-associated endonuclease Cas2 (Neisseria wadsworthii) [pid:42.3%25%2C q_cov:100.0%25%2C s_cov:94.4%25%2C Eval:2.8e-16],MGA_1088
sequence1	MetaGeneAnnotator	CDS	1158120	1159046	.	-	0	ID=MGA_1089;product=type II CRISPR-associated endonuclease Cas1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011475521.1;translation=MSFRQVLITQKSYIHFENDNLIVEKDDKKLSVPISDISIIVFESLESYISLRIISELSLRNITMIFCDYRHMPVAYSLPINQHYRIPYVHSLQGQQTSKSKEFVWEKLLKAKIRNSKKVLELENASSDLIELMQKYEDEVIGSDVQNREGTAAKVFFNYLYGTNFCRQNERDSINMALDYGYGVFRSAITRLLCTYGFATYIGVHHSSMMNAFNLTYDFIEPYRPIIDYYVFNHLYRFEKDDELKTDTRKELISLLNANIKVNEKEYTVLYSMELLIKSYLNFLEEGNEMLAIPEIIKIDFYDLFKEL;locus_tag=LOCUS_10800;gene=cas1;note=WP_011475521.1 type II CRISPR-associated endonuclease Cas1 (Ligilactobacillus salivarius) [pid:29.4%25%2C q_cov:92.9%25%2C s_cov:92.0%25%2C Eval:5.6e-36],MGA_1089
sequence1	MetaGeneAnnotator	CDS	1159048	1162827	.	-	0	ID=MGA_1090;product=type II CRISPR RNA-guided endonuclease Cas9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002864485.1;translation=MKYILGLDLGVASIGWAVTEINEKGEPVGLIDANSVIFKPLDNDKGKLYNVERRDKRGSRRILRRKKHRVERTKMLLVNSSFLTNEEIDNLYVGKLDNIYEVRLKGLKEQLSKNEIARLMIYYCKNRGFKSNRKTEDLEILKSLGEKISEKDSDEKKLKPIIAKNTELIESKGLTPIEVIYMIRENDNSILGFKNKEGNYKFGFKRNQVIDEVRKILGTQQILSKEIVDEYIDILSSQRDFSDGPGGDSKYKIDYTKLAGKCKYTGEVRAVKSAPSYEIFTMLQKLNDIRYVKFTSEDKIEKKKLSKEVIHKLYDLVVEKNKTLTYDLIEKSIDEENIKLLNIPKLSKSKYVELRKSYFKERNDNENLTEEEINAFNEKLNNERMKQELIRNNLKAYKELKSKFKKNNIDENRIKELGGIYFLDLVAELLTYSKTDEKLEYFVENVERYSLFKEQRDIVEIIKTFPNYTKNGNLSLSLVRELNKLLMEGHDYESSLSSLNYYIDTDVDWEKFPTISEIEDSLSTKITNPNVKHILVILRKLYNTLLFKYGRPEKVHLELSRDFSNDFSTRNKIQKEQLENKVRREVAAFEMYGANKDIVAGKDRLSNDDFVRIKLWEEQNKVCMYSGRTIEKYQLTSAEVQIDHILPYSKSFDNSYSNKVLVFSNENQDKKERTPYQWLKGTEKWNEFKQRVRLNLNISNKKKENLLFEDEVVNNEFLERELHATSYSSRLALNIFQRLIPVSDEDKYDEHGNEKVKYLYNRNVIAFQGKMTSMLRNLYSLNKYTHSFESDTLDIDNKAFILKEFEINKDNLKMTAYNVNTGLEITSETKVEKNKSGEFKTIKDELLKKELDKKENLIEISDYFKDKVLFDLKIVDFEEIDTVEPEIISILYKMITALKEEVYSKNRENHLHHSLDAFLLTIMNRSMQMKLIKYNQLISVLKNKEIEIFNEEKGEYIDSKEFAEELQKQKIIDIDGNERGIKFNVNGKTHRLNLVKPYENFLDDIKNKIFDKRENNKLPYHVVKSKVSGALHAETILGESKGEITKRISVFDINYKNLGKIFDKDGSQKEIYETLVKWLEAKSKDYPKLKNGNIIKKVKIVDGNKDKLIKLGNKRYVEMGRTTVKILVLKKEAEEGLKFASIGRYKYNLLKSEKDVNISIWKDAIHFCKVRYNKLKENGYRLIHELIPGETIELELNKGNISKCLVVGFSGGKIEISSVIGDALDLINDKISTRIKERYYITVSTIKSIKKINKNILGD;locus_tag=LOCUS_10810;gene=cas9;note=WP_002864485.1 type II CRISPR RNA-guided endonuclease Cas9 (Campylobacter jejuni) [pid:25.7%25%2C q_cov:75.7%25%2C s_cov:85.4%25%2C Eval:1.1e-61],MGA_1090
sequence1	MetaGeneAnnotator	CDS	1162953	1166798	.	-	0	ID=MGA_1091;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKYKLLLILILTGKIGVSNLARHDIDWENYEDFAMNRGKYAIGRTKVIVYKKDGKKFGVIEQPIPNFDSVVDTGNFALWGDSQILSSAYHVTPHSKLTFSKRHFRNDVELYEGYQKLTLDQKNDKFSEDIFVDHRQKIERDYTLIRTDKVAFDAYIQEGITEEQWKKIKSDDLVARVGRGGNKVAIDYGVEHDPDKEKHFAGGLNKVDYKYDRGIGRYIQLNLYKEYEKTPIDSGTKPGDSGSPLFWWDKEQKKWFMAASHSQGAFILGYGKWSRLLNLSYAYDNFKKALTDEEITTETEVKFKDGKLNVSGKDREFKTKESIDIVKCNNTTKNQIFNKKDLKITVEGKTNTHAARLEFKQDATIEGSGSLQTAGFVVHKDATLTYKLHFGEKNIIRKIGEGKLIIKSKTRNYGELNLGGGETVLENEEGVAASVIRLAQGAKLTITRANQIGDNNVVFAHRGGTLNLNGTNLEFKDIYHRDKDARIVNDKEDNEEEKESRSKKEESKSNKSTFTFKPRSGERVFLGSFKGNLDLVYNPDKDDSKWSIRSEDSNIKGDFNINKGHVTIEGDRVIHGSGDTFTESTDFYEDEYKEAKFKSKTINVKDKSTLTIGRATEVEATINVEKGGALKLNLLGKVVDRPTPYEGAKTEEQINKTVIKGNVEFKSNDTNSENSSTSITNFESKVENNHTAVIESELKGEIKGIKEGKGLLYLSHEDNSSLKGTLEVKEGKLKVKKASTLGNSKVNIKKDAVFEVEENKDLKDILDKLKEDSEGVLNLNGDISKIDDKYKDFSKLYLGATKDININEISNKIETLNLDPSNITMNLKGIDKATKLSKVNIGNGKNKGTVNITNEDNNKINADFTINKDSTVNFLNDIQVKKIDNSGNIVVKDSNLKIDEYKSNGGKFNIHLNEMNKKLLEIEKSDKDVDATLDIKQDLIDKIVDYREKLNIAKIKEHKLNVLNLNKYDSVYELGVEKGEDNIYRLYSTVKGDVISNFSIFNELDLINNINDESKYRNLIEASYLNYNKIDKNNLKIEDTEYSNRLHSNGVEINIETVKNIGAVKLSSRFNFNILFNKLKTDVKDKPIIEKNFVSINSIPKLGIKYGLFDINFGLGLNTIVINDEKEKNTLIYLNNSLNIGLNPNFKINDNISIRYLNRAGYNLTPMISETLSKNERNSYTIKHNKPITFFYETGVKLESKYVDFFTKANMGYNLSSYEISSKGKKKENEFKDDWRINIRSGFEFKPTENIFINLDFDANVYQKSYGKYIFKAGIGYNW;locus_tag=LOCUS_10820;note=WP_001045650.1 serine protease autotransporter toxin Pic (Enterobacteriaceae) [pid:25.7%25%2C q_cov:37.5%25%2C s_cov:34.4%25%2C Eval:1.2e-26%2C partial hit],MGA_1091
sequence1	MetaGeneAnnotator	CDS	1166920	1170783	.	-	0	ID=MGA_1092;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYKFKLLLILLFTNRIIFSNLGRHDIDWENYEDFAMNNGKYSIGQQNVIVYKKNGSMSGKIEQPIPNFDGVVDKGNFALWGDSQILSGVTHIKTPDNFTFSKRHLRNDVELYDGYKASSSDEKYRKFSEKIQTNYRLDIGKDYSLIRTDKIAFDAYVTEGITQDDWEKIKAEDIVARVGAGYNRVAIGNNLEEYVAPLWQFAGGLNKISAKWKESKDEIDQIIYISIERYAKTALDSGTKPGDSGSPLFWWDKEKRKWLIASSNSGGNGKGYGKSSHLLSNPKFYEKWIKSLTDEEITNESNVEFVYGKLKVGDKERSFVEQGSKGKKNYIGSRVNKYEDNIDTKIISVKNQVFNKKGLNIDVSGNTDTGSARLEFKKDTILKGSGSLQTAGFVVHKGATLTYSLKFGENNIIRKIGEGKLIINSQGPNYGELNLGGGETELKNSAGVAASVIRLAQGAKLTINRADQISDSNVVFGHRGGTLNLNGNNLSFSDIYHMDKDAKIVNGINDNRKNKDKNTNDVKEATFTFRPRSGKRVFLGSFKGKLNLVYNPENANSSWSIRSEYTSVEGKFDIEKGHVIIEGDNVVHGYNKLVYEDEYKETKFKSESINIKSSSTLSINRAVKIETKIHVNDSSVLEVNALGTVKNILTPYTNAKTEKDINQILIKGMINFNSSSSTNFKANIQNNNEAKIDAELKGEINAIKKGNGVLYLSKETNSSLKGKINVEEGKLKISKKETLGSSEALLKNSSILEVENNETELKGIFDKIDKSSKGVLSLNKNISSIDDKYKEYSNLYLGSSKNITIGSEDKPINSNIKTLNLGGDNGTVTLKGISDTLNKLNIGDGVNKGTVIVDNKNKKEINTEIEVKKNANAEFTDGSHLKSVTNSGVIKLVDKDLKINKYTSNEGVFDIQLNEMNKKLLEIEKTNKNINVLLKIKDEMLNKIVNNDDERLNIAKISDKNHINILNLKEYDSVHELDIEKDNDNIVKLYSMIKGEVLGSIYMFNEIDLINNISSELKYRNVIEANYLNYNKIDKNNYKMKNTEYSNKIYSNGIEINFETSNNVKSVKISGGFSFNILSNNLTTYIKNKSNNKGIIVNDFLSIATVPKIGMKYRYFDINLGFGTNIVLSNYNTKKDNLIYLNNSLNLGLNPEFKINKDISIKYLNRVGYRINALLNKTISKSLTSKYDISHNNPFNIYYESGIKLEHKYINFFTKANLEYNFSRYEISNKGKSIENSFKDDWRVSVKTGFEFKPTDNIFINLDFDANIYQKSYGRYIFKLGTGYNW;locus_tag=LOCUS_10830;note=WP_010951019.1 S6 family peptidase (Neisseria gonorrhoeae) [pid:23.3%25%2C q_cov:62.6%25%2C s_cov:46.7%25%2C Eval:2.4e-22%2C partial hit],MGA_1092
sequence1	MetaGeneAnnotator	CDS	1170791	1173814	.	-	0	ID=MGA_1093;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAASHSEGTTSGGYGKRLYLLSLPHVYDDLKKNLTDKEIKTETNVQFCDNKLKVDNEEREFRENETIDDVVKGTNKTKNQIFNKKDLEVKVNSKTNTHYARLEFKQDTTLSGDGELITAGFVVHKDATLTYKLHFGERNIVRKIGEGKLIIKSKFRNYGELNLGGGETVLENEEGVAASVIRLAQGAKLTINRIDQISDNNVVFGHRGGTLNLNGTNLEFKDIYHMDKDAKISNEKSDKKSTFTFKPKSGKRVFLGSFKGKLDLVYNPDDNNSEWSIRSEDTNIEGDFNIEKGHVKIEGDNVIHGSDDTNASKTKIYEDEYKEAKFKSITINVKKSSTLSVSRATEVESKINVEKGATLELNLLGKVVTDRPTPYEEAKKEEEINSTVIKGTVDFKNDSKDKDSGNNNFKAKIENNHEAVIEAELKGEVKGIKEGKGLLYLKNDNNKDLKGSIEVTEGKLKIKSSNTLGNAKALLKNGSVLEVDDNNYNLGSLLDKIDSKSEGTLNLNGDISKLDSRYKEFSKLYLSATKDVKINDISEDIQTLNLDANNNTVTLNGLNKKQKISSLNIGNGKNAGIVDINNSDCEINAEVNVRSKSILKFSNDAELKKIENSGEILLKDRSLKIEEYKSKNGKINIHLTEYKSKILEIEKTDKDVEASLKLEKKVIDKLFENKEKLDIAKIKERKFKVLNLEQYDSVYRIELEGSEDGTQSLTSTVKEEVINDLYIFNELDLINNINYELKYRRTIEANYINYNKIDKNYSKIENTEYKNSISTNGAELNFEKTDNFDKVIISGGFNFKVLGSKLNTEVKSKNAVNKNFVSVGFIPRLGLKYGIFDINLGLGLNFSIVNNNDKNDTLSYLNNSLNVGINPKFKISDDIDIKYLNRFGYRLNPILSKKISKDNTTGDYEISHKVPINLYYETGLRLEHKYVDFYTKGNVEYNFSSYKISNKGRSIENSFKDDWRVNINMGFEFKPTQNLYINLDFEANVYQKSYGRYIFKTGMGYNW;locus_tag=LOCUS_10840;note=MGA_1093
sequence1	MetaGeneAnnotator	CDS	1174060	1174581	.	-	0	ID=MGA_1094;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNYKYNLFIFLMINKVIFPNLARHDINWEDYEDFSMNRGKYAIGRMNVIVYKKDGSLSGKIDKPIPNFDSVVDTGNFALWGDPQILSGVYHVTPPEKFTFSKRHFRNDVELFEGYKELSLDKKYEKFSEDIKSNYRQKIEKDYTLLRTDRIAFDAHVIDGVTEDQWNKLNMEI;locus_tag=LOCUS_10850;note=MGA_1094
sequence1	MetaGeneAnnotator	CDS	1174624	1176387	.	-	0	ID=MGA_1095;product=aspartate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016293.1;translation=MYRSHKLNELRIENVNENVILAGWIDKVRDLGHFAFIDLRDRYGITQILINENSPSNLQELVKKLKNEFVIQVKGKVVERSSKNPNIETGDIEVLAGELTILSHSKQLPFELSETNVNENLRLTYRYLDIRRRKMLENIKKRNDMLFSIREFMNKEGFLDIDTPILGKATPEGARDFIVPSRVQKGEFYALPQSPQLFKQTLMVAGIDKYYQIAKCFRDEDLRADRQPEFTQLDLEMSFIHQEDILNLVERLAKKVFIDVTGEVEDKPFERISYDYAMNNYGSDKPDLRFDMKIQDISNIVNGKGFSVFDDAISNGGSVRAIVSEDKDFSRKRIKDLEDFVKVYYKAKGLAYIKKLEDGSISSPISKFFDEETINSLIQRLDLKNNEIVFILADKNKAVLDGLGALRLKLGEELGLIDKDKFKFVWVLDFPMFEYSEEEGRYQAAHHPFTSIKKDHIKYLDTKEYDKILSESYDLVLNGYEIGGGSIRIHDSSLQSKVFDELGLSKEEQLDKFGFFLETLSYGVPPHGGLAFGLDRWLMAMLKENSIKEVIPFPKTNKGQDLLTGAPADVDYNQLENDLKLKKICIE;locus_tag=LOCUS_10860;gene=aspS;EC_number=6.1.1.12;note=WP_011016293.1 aspartate--tRNA ligase (Fusobacterium nucleatum) [pid:58.4%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:2.1e-195],MGA_1095
sequence1	MetaGeneAnnotator	CDS	1176380	1177624	.	-	0	ID=MGA_1096;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016292.1;translation=MKFETLRGMKDMFSQEVEKYNFIVNTAKKIFDKYGYTNIITPILEETELFKRAVGDETDVVSKEMYTFMDKGDRSITMRPEGTAGVVRAYLNAGFHKSNPNVKWYYYGPMYRYEAPQKGRYREFHQFGVESFGIRSAFLDAELITMACEFLDNLGITDIYVELNSLGSVESRITYIKELKKYLLNNIDKLSDDSKIRAEKNPLRVFDSKDEGDQKVLENAPKLHDFFDEESKIFFEELKYNLDEFNIKYEINPSLVRGLDYYSDTVFEIKSNKLGAQSTILGGGRYDKLTEILAGIKVPAVGFAAGIERLSMIMDESLLSKKDKKVFIIYFEETKKYLFDIIKILRKNDVNVEFEYSIKGFSAQMKKANKVGANYVLILGENEINSGKITFKDFKTGNQEEITITEMIERIKHV;locus_tag=LOCUS_10870;gene=hisS;EC_number=6.1.1.21;note=WP_011016292.1 histidine--tRNA ligase (Fusobacterium nucleatum) [pid:47.3%25%2C q_cov:98.8%25%2C s_cov:99.0%25%2C Eval:1.2e-106],MGA_1096
sequence1	MetaGeneAnnotator	CDS	1177621	1178292	.	-	0	ID=MGA_1097;product=thymidylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009892113.1;translation=MGKLIIIEGTDGSGKQTQTQKLYNRLVNNGINVKKISFPNYNSDASVLVKMYLSGKFGSKPTDVNAYTASTFYGIDRYASYKLEWEIEYLSDYVIISDRYTGSNMIHHGSKIDDEIEKEKYLNWLEDLEFNKFELPRPDLTIFLNVPIEYTFNLMKNRDNKFTGDSKKDIHERDEEYLKKSYYNALNIAREKNWKIINCVVDNNMLSIDDIHELIYDEVKELL;locus_tag=LOCUS_10880;note=WP_009892113.1 thymidylate kinase (Clostridioides difficile) [pid:58.3%25%2C q_cov:96.4%25%2C s_cov:93.9%25%2C Eval:3.7e-67],MGA_1097
sequence1	MetaGeneAnnotator	CDS	1178302	1178730	.	-	0	ID=MGA_1098;product=SUF system NifU family Fe-S cluster assembly protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002668316.1;translation=MSLEKLYQLTIMEYNRRDDLRGEIENATDIERGHNPSCGDDLSIILKVEEDKIVDASFLGSGCAISTASSAMLVELVKGIKIDEAKDIVNIFFKVIKDEYVSDNEKEMLGEAKLLEITKDMPARIKCSTLAWHSLKVILEKY;locus_tag=LOCUS_10890;note=WP_002668316.1 SUF system NifU family Fe-S cluster assembly protein (Treponema denticola) [pid:50.0%25%2C q_cov:99.3%25%2C s_cov:98.6%25%2C Eval:2.9e-35],MGA_1098
sequence1	MetaGeneAnnotator	CDS	1178818	1179993	.	-	0	ID=MGA_1099;product=site-specific DNA-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_008362626.1;translation=MQINDIYNLDCLDGMRNMYDETIDLIYLDPPFFTQRKHKLKSKEGIEYEFNDIWNDIEEYKEYLRIRLVEMKRVLKNDGNIFVHCDNNASHIIRLLLEEIFGVSNFVSEIIWTYKRWSNSKKGLLDSHQNIYHFSKSKEYKFNIIYTDYSPTTNVDQILQDRIRDGNGKSIYKRDENGKVVYNRIKKGVPLGDVWEIPFLNPKAKERVGYPTQKPIQLLENILKIASNEGDIVLDPFLGSGTCAVASKLLNRRYIGFDINPNAISIAKYRLEYPIKTESALLKNGIDKYDVKTDREKRILSRYDCDIVQRNKGLDGILRVKIDDKLVGIKIQKDNETLSDSEQNLQIAMKKKNLGLGILIRTHKDLMEHNVENNIILIDDIEYHIEKTNRD;locus_tag=LOCUS_10900;note=WP_008362626.1 site-specific DNA-methyltransferase (Mycoplasma feriruminatoris) [pid:65.8%25%2C q_cov:98.7%25%2C s_cov:99.2%25%2C Eval:4.6e-153],MGA_1099
sequence1	MetaGeneAnnotator	CDS	1179980	1180627	.	-	0	ID=MGA_1100;product=ApaLI family restriction endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012859081.1;translation=MKNIEKIYNKIKELADKYSNNLKFKVDERIEEMKNDDKSHYLIYRVLGVSTKEGELIDIYKNKGRFLYKYAGSFLEEATILCFKHKYTNSKKIKVNNTLSNRPKTFEIDCLVDNKAYEIKWKDATTDGDHITKEHTRVKVIQSHGYTPIRIMFYYPNRSQAIKIQETLKTLYIGVNGQYYYSDLAWDYIKKETDIDLLGILQKIADERNNCNANK;locus_tag=LOCUS_10910;EC_number=3.1.21.-;note=WP_012859081.1 ApaLI family restriction endonuclease (Streptobacillus moniliformis) [pid:100.0%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:3.7e-122],MGA_1100
sequence1	MetaGeneAnnotator	CDS	1180806	1182599	.	-	0	ID=MGA_1101;product=LPXTG cell wall anchor domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011837330.1;translation=MKKILLSFIMMISLGYAESISEIQGRGLQSPLLDRRVSNVEGIVTYKVNDRYNKGMYIQSEKPDQDPNTSEGIYVEYKGVDKISVGDLVVVSGKVGEKQFARFDKTKLTVTTIFANKLEVIDVNLKPMITDIYGDEIPVNVSDDNVLTIDRTASAMDFYESLEGMVVRIKNPYITGHKEEYGDVFVIPKLARDKAVLTENGGVLYDKYGNEKNHVLNVSATRSKYWKNNHFIREFTPNPGDRFKGDIIGVLTNDNYNDIKILPIEELPPIENIGAKPDVLEFDYREDMINIASYNVENYAHVVSPERTVQFAKQVKDKLNTPDIITLIEVGDDDGPTTSDVVSSEKNGQALIDAIRDETNIEYGYLAVDPEYGKDGGMPSMNIRNAILYRKDRVKLIESNKSTSYDNTKVILDNNGKAKLKYNPGRIGLDSEYFVATRKPLVALFDVNGKHLYIIGVHLSSKRGDDPIYGPQQPPIRRSEVNRNKQATYINNFVKEILSKDKDASIVVMGDINDYDFSTTSKNIRGNELIDVMGELAPNKRYSYVYGGMSQVLDNMFINKEYSGKVNVDVIRINPEFTKAQGAFSDHDPVFIQFKIK;locus_tag=LOCUS_10920;note=WP_011837330.1 LPXTG cell wall anchor domain-containing protein (Streptococcus sanguinis) [pid:34.4%25%2C q_cov:96.3%25%2C s_cov:75.0%25%2C Eval:1.5e-79],MGA_1101
sequence1	MetaGeneAnnotator	CDS	1182614	1184797	.	-	0	ID=MGA_1102;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIVFGFLAIAAIASFSDTSGNLEIDESVEFGKGVDISINNKAKIGVYLDSQKNLYGFAHLEKKDKILEKNSKIKRLVGLSYQKKLGDKTDIGFYGSYKSLVMLDYKEDESFKDELLKHLSAKNKYRDDFNFFQKTDALNRLGYKSENDKNLILGFHGNTRFKRTDVYLSGSYVTKNFNSDSNRLYAYLETNTMYNLGFFNAKVIYDLNNEKQSKNKVIHKNSNDDDIQVAQNGGALNLDFKFSSSRILQDTFFYNQAKLDLKSGLKATDKGERFLEFEQKNYFKYTGIKNLTTVGKLDYEFKHSVFFEKSKDDKKKSSNSELITENSHAVKVSVSADYVTDKYRLFGEFVTGNSIAKAKRSFINHSYDLKGIFEYNVLDNFKLVTDGNFRSYITGFFDNSDATLRLGYKSSGRDGRVIYDSKSNVGYRMFGYSKNDITNSIFSLSDNKVTYLNRGFKVEANLNFASEYEMVTREEDAPDESSNGKGKAKASQVVFEVAAAKKPSKPKAAPKAPAPKAAPKTKKVIKHYENLLLFLNPGFKMSYKKGNGYIGTDVQFVYSRDVFHGETNNRYGLMSKNEFRYDIKDNVTLITGLDLDYREKKLSFDNMKHFTDYVENLGFDRYKYFKYREKEKEKNDSKKNNGNTQQTVPKTKYDYNDNKKLKVEDEPTKDREVKVKVSLGSEIKLIQNKLSVKPTTSFTYVYSKENDMKENKYIGNIGLNISYNW;locus_tag=LOCUS_10930;note=MGA_1102
sequence1	MetaGeneAnnotator	CDS	1185006	1186322	.	-	0	ID=MGA_1103;product=ribosome biogenesis GTPase Der;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016201.1;translation=MIVAIVGRPNVGKSTLFNKLIGDRLSIVKDEIGVTRDRLYRETEWSGKKFLLVDTGGLEPRSNDFMMNKIKDQARVAIDEADSIIFLVDGKAGITAIDEDIAKILRKEDKKVIVAVNKIDNYIKDKDVMYEFYGLGFEDVVPISAEHKVNLGDLLDLAVEKFPTVNKEEESGLSIAVLGRPNAGKSSFVNKILNKERSIVSDIAGTTRDSIDSSFNYDGQKYTIIDTAGIRRKSKVEDDIEYYSVLRAVKAIQRANVCVLMLDATELLTEQDKRIAGLIFEEKKPLIIAINKWDLIEKNNKTVKEFVDLVRADMPFLDYAPVVTISALTGKRTINIIDQVKMIDEEYNKKISTGLLNQILEEMIAKNPVPTRKGRAIKINYGTQIGVAPPKFVFFSNNPDLIHFSYKRYIENNLREYFGFEGSPIEIIFNKKNTGYGE;locus_tag=LOCUS_10940;gene=der;EC_number=3.6.5.-;note=WP_011016201.1 ribosome biogenesis GTPase Der (Fusobacterium nucleatum) [pid:64.2%25%2C q_cov:98.9%25%2C s_cov:99.1%25%2C Eval:1.2e-160],MGA_1103
sequence1	MetaGeneAnnotator	CDS	1186336	1186914	.	-	0	ID=MGA_1104;product=IMPACT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015911.1;translation=MNTVEKETMIEFIEKKSKFIGYIKPVSSVKEAEEYIDKISEKHFDATHNVYAYKVVENNQEYFKFNDNGEPVNTAGKPMAEIILRLDVCNLVIIATRYFGGIKLGAGGLIRNYAKTAKLAINEAGIVKYIQRKNILIDFDYSKLTEVEAKLIKNNIEILDKVYNERIIMKLKVSEEELDKIKEIQGIILIET;locus_tag=LOCUS_10950;note=WP_011015911.1 IMPACT family protein (Fusobacterium nucleatum) [pid:53.9%25%2C q_cov:99.5%25%2C s_cov:97.9%25%2C Eval:5.0e-53],MGA_1104
sequence1	MetaGeneAnnotator	CDS	1186911	1187630	.	-	0	ID=MGA_1105;product=site-2 protease family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965916.1;translation=MMGKREKLNLKIFLVLLVVYILASVYMRIDYRIGYLVGFIIVNTVRKAFKARAAFKAGDVTMVFEGKMGFNPINHIGIPDILILSALILFRSPIIFGQGKNLEIKYRLFKDFRKGMLKVGLASIFSTLLVMLITGVLFKYHFQIFSLLHIGRDSYLFFNLGTLFSSTYIVASSILLFNLLPLPGFDMFDMIYSYADDDLRTILHSINKYSFVFLILVIYVIVNTRIFTAIIYDLLRLIQ;locus_tag=LOCUS_10960;note=WP_010965916.1 site-2 protease family protein (Clostridium) [pid:26.1%25%2C q_cov:88.3%25%2C s_cov:90.3%25%2C Eval:1.3e-09],MGA_1105
sequence1	MetaGeneAnnotator	CDS	1187630	1188529	.	-	0	ID=MGA_1106;product=D-alanine--D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003429344.1;translation=MRIGVIYGGVSTEREVSINTGKEIIANLDKSKYEVVEIEISKKEDIFKVVDLNLDFAYIALHGEFGESGDVQAILETAGIKYSGSGILSSAICMDKDITKVLAKNSGVRIINGRCIKKGENIKFSDLNLGEKIILKPNRGGSSIGVYFATNDEELEYGLNEIFKLGENEVLIEEMKSGIEISVPIIAGKVFPTLLIEPLKDTFFDYTSKYENGGAKEYVYFFEESLQNEINDFTIKAYNAVKCKGFARIDYILVDNKAYFLEVNTLPGMTKNSLLPKSTLYMGYSYSETLDLLIKESIK;locus_tag=LOCUS_10970;note=WP_003429344.1 D-alanine--D-alanine ligase (Clostridioides difficile) [pid:44.0%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:9.4e-65],MGA_1106
sequence1	MetaGeneAnnotator	CDS	1188529	1189005	.	-	0	ID=MGA_1107;product=STAS domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003104052.1;translation=MDNFLYAKLNNEYVFKICGKATMKNSKIFSDFVDDKINESEGISFDMSETTYMDSTFLGLVAKYSIDVKMNKGKSLVILNPSEEAYMFLKQTGIIKFIELISKEDISNYTEHISGNDFSNMDEKSKYILEMHEILMGLNEENEKVFKPVVDAMKKVIK;locus_tag=LOCUS_10980;note=WP_003104052.1 STAS domain-containing protein (Pseudomonas) [pid:26.6%25%2C q_cov:94.9%25%2C s_cov:95.0%25%2C Eval:2.0e-07],MGA_1107
sequence1	MetaGeneAnnotator	CDS	1189019	1189942	.	-	0	ID=MGA_1108;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLRGISKSVKFVIIDSTELVKEVINRTNVDILYSKDVSKLTTMGAILAQSIKSNNTKMSLSLKSDGALKNFIAKSTINSNIAVKIDIDEEKHAKLLNAINTNDEKEVEKLYNLTGAKLQIMIDYGLKSPYSSVFLVKDNLLELSLNEYYEMSEQTKTILICSTKYDENLNVEKASGLMIQLLPDGDENVMAWLASKIERLLNVTDMLKNNFSLERIAHLIFENDEEIFANENIYKGLPYDRLPMIEDIEILSVNDIKYECDCNKEYMKRALDISLSDENKEEILKEDGFIEIECSFCGEKYRFEEI;locus_tag=LOCUS_10990;note=WP_010881315.1 Hsp33 family molecular chaperone HslO (Aquifex aeolicus) [pid:25.2%25%2C q_cov:85.3%25%2C s_cov:72.9%25%2C Eval:5.4e-15%2C partial hit],MGA_1108
sequence1	MetaGeneAnnotator	CDS	1189943	1190431	.	-	0	ID=MGA_1109;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVGNFMKDFKEFNIEKTKEYVSNPELIDSLNISFKNESQVVFFNALLENLQYEVQNRTKREDGSEVVNVKISNIDVKKTFELAYKQIFKKTFLGENDVKAKDVFIELMTSKNIPKLIIISQFLMISEGRDRKILLRKENIDDILGKYFTTLNGINLNEQQGE;locus_tag=LOCUS_11000;note=MGA_1109
sequence1	MetaGeneAnnotator	CDS	1190555	1192858	.	-	0	ID=MGA_1110;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKNKILISLLSLGTVLIAAPKINNIEISNLKNLSEKMVRDLLPVKEGTEYTNKHLSDIYLALVRTGFIQNVNVYPSGDGENVKLKIVVDEVPNADKIIQNMKEIEELKRKTEFKVGEIVVKGTNQNIQPLIDKTGLKKGEYFTPYDAKLLENLILSSGYFGSAEIRVYRTADEKVIDVEVNVLENPVIKSVSIKGSSILTEEQLKEISGLKEGDILNGRLLTLEESPIIKVYSENGFLWVGFKDITVTRDGDVTIELLEGKIKNIVYEKKGNAKENERISAKDYALKTQSYIFDRNTYVKKGEILNQKELELTLRELFRTGLFSSLSHEIIKSSENPEELILKIIVAERPTTGISANISYSTEDSLSGSLKLEDTNFLGREQTFSLTGEAGVKGNYNFAFNFKDPWIKGTDRLLVGGSIYFKKISVKAKDLEGYDSSKKNEDDTIKKHLTQPTDKQYVFGVNGQLGKGLTKDLYLSVSPRLLNVYARNKGTEAATQVYQDYTLLALGTDLIYDTRDDRNTPKKGLYADLYFEGGYIVRDNSLVAEKQNDGTIKFKEKNASSNQGSGSGSGSGSGSGSGSGSGSGTNGVASSSSSAAPSAPAPAPVPAPAPTPAPPKEYERKKPRAYFTTSLDLRAFHPVYKDKNSMAYRLLASYSHANTPDGQLITVGDGVTLRGLKAPITGNQYAVTFTAENRTYINDYIQAVIFYDAGIAQNAKNNNGKHKFMHNIGLGARINTPIGVVRLDYAWDLDRTSKSKGKFNFGFGQTF;locus_tag=LOCUS_11010;note=WP_147367282.1 outer membrane protein assembly factor (Fusobacterium canifelinum) [pid:26.5%25%2C q_cov:69.1%25%2C s_cov:75.6%25%2C Eval:1.0e-46%2C partial hit],MGA_1110
sequence1	MetaGeneAnnotator	CDS	1192920	1197905	.	-	0	ID=MGA_1111;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIVRRTLSIILPISLTIAGAKVYIGSDSFKENLKLLLNNVFELKVDYSDIKLYGLSNLEIKDLRLKTQDGKEVISVDLARAKINLFTPTRISDVELINGNILFERSLEGINLKRILPSYNSTDYRRLSSINKVRFKDISLRYIDKSYDLPIEKEFKDVNGYLIRMLQSSLDLEAYAKTDNNEKLKINIKFDTNQRKDILDVFSIKKYDEYNKEKMQFKFDFNNVILTKKLFQYVPISNMASAHSGIVNGNLEIKENNDENFEFYGNLNINNSDVWYREYKGIVKKVDANVKFNKYDIDLNGKGKIDNGDIDLGIKFNINDNRLNVKTNIGNVDYSTLRKYSLIEQLNIDGKSDKVNVDIDLGLKITDDDFDIEKFDGNVKTKYLNVFDSDITNFNLSFKLKEKNVITIKTKNTSVNKDINEDLNVKGILSANFALNIKKLSGKGKFSIDNRSDFINLNRINGDVELKDNKDILVNFDEKKIFGNVKYLNDKKQVKLTLKGRSLVNVRYMENNVDIKPNINNLTYSLSKNSLISGNADIYAKSNDGKYFDNLNAKLKVNNGRYDANIIARTSDGDISINGYTSKNMEHKYNLAANNFDIVKYMKKIGVKNLDEVEGNKESFTANISAKNMEDKIKVSLDLNDHVNFKFRDKGMGIKPKLNDLVYNFKDKSIESGDVNLGLIGDGSIFDSISAGISVNNGTFDITSIVTVQDGKLVLKGNIAKDLIHSYEISGKKIDIFEIGKLFGYIDKDINESMKVDFNTKISGDIENIKGDIHISSPYGGYVAEYENLVLDGKINNLKDFDMDLDLSVDELWIKYQRFMNVKSKVKIKKEDIYVEEFGNDKLKLKGKYNLKTRKVNLESNLNAYNIYSTFGPDIDLIVNNMTFNVYGSLDNLNGNISIDKSPVMLNKKKISDFVMEGNIVNNKINLNKMNIRDNNVSGYFNIKDKSYDVNVELKENNIEELVDINNLKLNVTSNLNIKGNFEKTDITGNLDIENLSYKEYRIPKVFLNINHKDTNIFNITKTGILNINNFEIKDSENNEVFKFSDSFDLANLNIDYNIRNKEIDLGKISLLNPETYKGKIMLDLILRHNKEETLASLNVKSDELLLNSLKVTDVYFDVQGNDKIMNISGAYLEYENNPFLLDGYVSYALNDYSFNLLANDFNLKFLEISDKIKKSSGIANLNLYLKKNLVQGKINMNNFSLETFEDIANLNKINADIDLKNKTISINDLSGNANGGSFSVLGKFELPEIADDFLKSKKIKTGAIEVDTKIDNVNLKYIGNNLKVTSDVKIENNKIFGNVILNNGNIVNVSPFLKLNNNKNSSKNKLTNVNDYFTELKNQIIKNIVNQHILDISLETEKDINVNIPSVAGLVKDIKGNAFGNARVVFDSSNLSIYSDLNVNKGEFVLNGHIFKVEESSVKFTGNLDPSIEFKASTNVGEDIIRIKITGSLNNREIELSSEQGKNVNEILGIIALNEEGGLLDVDKIKTTNIVGKALSSALNNLLFSTFTNKVSSTLGINDFKIKANFDYKNNLEFKDIINNTTTTFYINNQLFNLSNIYWNAELTVPFDLRIDRIKNELKYNLWLNYFLKKGISATTGIKSPIEVTNNRTRTATFYTGLQYDNRYGSFMEIIDDLSTLFKKKKVLKSEEKKKNKINLESN;locus_tag=LOCUS_11020;note=WP_201627076.1 UbiD family decarboxylase (Fusobacterium canifelinum) [pid:22.1%25%2C q_cov:69.1%25%2C s_cov:71.6%25%2C Eval:1.1e-27%2C partial hit],MGA_1111
sequence1	MetaGeneAnnotator	CDS	1197922	1198617	.	-	0	ID=MGA_1112;product=16S rRNA (guanine(527)-N(7))-methyltransferase RsmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015789.1;translation=MKEYFINLLKLSNIDTSEDKLDKLIIYLEMLIEKNKVMNLTAIRDGKDMIEKHFIDALLLTKIIRSEEKTLIDLGTGAGFPGLVLAVYYPDKNFLLVDSVKKKVAFLDEVIERLKLKNVKTSSERAEEIVKKYREKFDLALCRGVANLRIILEYMIPFIKTNGRFLPQKLNLNEVEESSNVLEILSSSIENIHKFNLPISNDERIILEIRKNRKTSLEYPRGVGIPSKKPL;locus_tag=LOCUS_11030;gene=rsmG;EC_number=2.1.1.170;note=WP_011015789.1 16S rRNA (guanine(527)-N(7))-methyltransferase RsmG (Fusobacterium nucleatum) [pid:53.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.0e-67],MGA_1112
sequence1	MetaGeneAnnotator	CDS	1198617	1200494	.	-	0	ID=MGA_1113;product=penicillin-binding protein 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903183.1;translation=MRILDIEDKSRRVPSFLFIVALIFLGLVLRLYNLQITNSELYQNRAARNSLRTNTIKPARGKIYDKNGELLVSNTTGYQLIHKESNNISNSELKILTNVFDKTDSEREEIFSKLGKKSREKIEEIYFDTLDMMKLTNMEYEDIINKFYKMLPSGFDKVIIIDEDLDSKSALIGVEKIANPRIDILEYDKRYYHKHEVASHVLGNVKLISEKEYEELKDKGFEKDDLVGKDGIEKTYNVELKGKSGKEFVEVDARGNVLDKLDEEKAIAGKNIYLSIEYELQKYMTEQFKGKVGTFIAIDVKTGKIITYVSYPEIDLNKLSSRISKKDWEKLLNSSKRPLLNRGISGLFPPGSTAKVVSGLAILENGISPYETMYSTGEFTYGKVTFRDSNRKGHGTTNFFKAIAESVNTYFYQNILRIDRDEYFKIAKDFGIGELTGIDLPGEVSGVLPTPEWKNKRFKTAIDRKWLPGDLINMSIGQGYMLTTPLQVLMMYQAIANNGVMLKPTFIEYFENSDGIKDRKKVEILRKLNIKDKNISHLQKALRMTVTDGTAKGLGSLPVEVSAKTGTAQNRKEAKHHSWMAGYFPSNNPEIAFVALVEEGGYGAVEAGGRVYEFISKYYELKGEN;locus_tag=LOCUS_11040;gene=mrdA;EC_number=3.4.16.4;note=WP_005903183.1 penicillin-binding protein 2 (Fusobacterium nucleatum) [pid:38.4%25%2C q_cov:98.6%25%2C s_cov:89.0%25%2C Eval:2.2e-105],MGA_1113
sequence1	MetaGeneAnnotator	CDS	1200500	1200805	.	-	0	ID=MGA_1114;product=ribosome silencing factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005167894.1;translation=MEEIVKLVVDVIEDKKGMDIKVYDLKGRSPFFDYSILCTGSSTRNVEAIVQELKKSMPLIKGIEGQEESNWVLIDGGDVIVSVFTKDARDYYKLDEFYESV;locus_tag=LOCUS_11050;gene=rsfS;note=WP_005167894.1 ribosome silencing factor (Yersinia enterocolitica) [pid:42.3%25%2C q_cov:92.1%25%2C s_cov:92.4%25%2C Eval:1.1e-15],MGA_1114
sequence1	MetaGeneAnnotator	CDS	1200814	1201788	.	-	0	ID=MGA_1115;product=LytR C-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903185.1;translation=MKKKLTLLLTLLTIVSCGNKTSAEIEGNKVVRVDNSYYLHYDDTVIKLTEDTYITKDKKVSDYFKGSLFSNEEDDFLVDLKKYFPHGFNGIEKGKAPEEFTEIPLMSLGDKKIIDAIALSLDLSSKNPELLIVKDETKDYEIKEEVKEEVSLKGKKIAILNANGIDGYAKRLGESLKTTLGIEFLSENYGKSEKLSYIVNHKLTPEELDKLINTVNIKFIKVLNNPNLKPEQDAILVTGNDANVKYNVEVLSKGGLKDVENALKGYMVTTKIENKYNNEDIKDETVIMHNPEDVFIAKKILNLLPNAILKEDKSLNSKLIITTK;locus_tag=LOCUS_11060;note=WP_005903185.1 LytR C-terminal domain-containing protein (Fusobacterium nucleatum) [pid:23.4%25%2C q_cov:91.0%25%2C s_cov:85.9%25%2C Eval:4.7e-20],MGA_1115
sequence1	MetaGeneAnnotator	CDS	1201802	1202503	.	-	0	ID=MGA_1116;product=16S rRNA (uracil(1498)-N(3))-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016991.1;translation=MLTVIADKVIGDIVEILEVTEINHIKNVFRLKENDEVRVIDFEYEYKGIVKEINKKNILISISDKKEDNYSLSFNLDVAIGLLKNEKMKLLIQKLTELGIRNIIPLKTERVVVKINEKKEKWDLVVRESMKQCRAIKKTNVEILNEIKRIKYENYDKIIYAYENSESSLNLKEIIKKEDSNILLIIGPEGGFTKDEVKYLKSIGAIEISLGKRILRAETAAIVLAGSIINIKE;locus_tag=LOCUS_11070;note=WP_011016991.1 16S rRNA (uracil(1498)-N(3))-methyltransferase (Fusobacterium nucleatum) [pid:45.9%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:6.5e-54],MGA_1116
sequence1	MetaGeneAnnotator	CDS	1202505	1203509	.	-	0	ID=MGA_1117;product=Holliday junction branch migration DNA helicase RuvB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903189.1;translation=MENRFVDLNEMLEDYEISNEINSLRPQLFKDYIGQEDLKETLSISIKAAKIRQEALDHILLFGPPGLGKTTMATVIANEMGTNIKITSGPVLEKAGDLVSILTTLEDGDVLFIDEIHRLSTNIEEILYSAMEDFKVDIMLGKGHGATSYRVELKRFTLIGATTMAGKLSKPFKDRFGIQHRMNFYTTEELMKIISRSANILGVECRENSLRDIALRSRGTPRLANRVLKRSRDYATVNGNGIINDEIMKEVIRILKVDDRGLDEMDRSLLRSIIINYSGGPVGVETLATHLGEDRKTIEEVYEPYLIQLGLLKISLRGREVTDLAYTHMGLEKR;locus_tag=LOCUS_11080;gene=ruvB;EC_number=3.6.4.12;note=WP_005903189.1 Holliday junction branch migration DNA helicase RuvB (Fusobacterium nucleatum) [pid:59.3%25%2C q_cov:96.1%25%2C s_cov:97.6%25%2C Eval:2.0e-106],MGA_1117
sequence1	MetaGeneAnnotator	CDS	1203520	1204071	.	-	0	ID=MGA_1118;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLILLVSLIGVVSSPIELKKEINIFEDEEIVKRYIEYLEDVNVEDYLPYINVTDFISEVYQPNNNVINPVSDINIIDNHFDAIQKFDFDVKNLKNIIKKELSTELSAKIDKSISELSNHTNIEALFFDGNNDLNKLNNLKKDLVDFANDKLKIFGELSKGNYINNENNAEVYNNVIELELE;locus_tag=LOCUS_11090;note=MGA_1118
sequence1	MetaGeneAnnotator	CDS	1204087	1206093	.	-	0	ID=MGA_1119;product=glycine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016119.1;translation=MRFLFEIGVEELPSRYVDKACDDLLEIFKKELIEARIEFSGEKKYNSPRRIAIYFENIAKMQKDLYEKKIGPSVQVAYKEGELTKAALGFLNSQNLTLSDLKIEKTDKGEYIYVEKNIKGIESFKVLPELMEMAIKSLDFDKTMKWSDKSFRFARPIKWIVATLDDEIIDFTFEGITASNISRGMRLFGNQEVLISDSSKYEDILLNEYVVVDTLKRREMILDSINKNCEKDGDRVIVNKYLLDEVVNLVEYPYAIKGEFNKDYLELPEDIITITMETHQRYFPVKNSEGKLTNKFVLIRNAPEYSELVKKGNEKVIEPRLADAKFFFDEDLKINLNDNVEKLKNVTFQKDMGTIFEKMERSQKIAKYLINKLNLENEEDILKTIYLSKADLVSNVINEKEFTKLQGFMGSIYAEKQGEKPEISKGIFEHYLPRFQGDILPETMEGTIASISDKLDTLVGTFSVNLIPTSSKDPYALRRATNGLLLTAFNKNLNIDYLDLINKAFEIFSEDKKILNDNAKENILDFIKQRLEAILAIDFSKNLIAYQINNVTSIMDIKNRLIKLSELEKSENFEILINLIKRLKNISKEVVENVNINLFTNEEEKELYNLSQSLSGDFNDIDMLIDKKDIINRFFEKVIINVKDEVIKNNRIALINEMLSKVNRLIQV;locus_tag=LOCUS_11100;gene=glyS;EC_number=6.1.1.14;note=WP_011016119.1 glycine--tRNA ligase subunit beta (Fusobacterium nucleatum) [pid:43.1%25%2C q_cov:99.6%25%2C s_cov:99.0%25%2C Eval:4.3e-155],MGA_1119
sequence1	MetaGeneAnnotator	CDS	1206093	1206974	.	-	0	ID=MGA_1120;product=glycine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903526.1;translation=MYFQDIILILQKYWSEQGCIISNPYDVETGAGTFNPDTFLMSLGPEPWNVAYVEPSRRPKDGRYGQNPNRVYQHHQFQVIMKPSPDNIQELYLKSLEALGIDVKNHDIRFVEDNWESPTLGAWGLGWEVWLDGMEITQFTYFQQVGGIEVDITPSEITYGLERIALYLQNKENVYDLEWAEGVKYGERRFQYEYEMSKYSFEVSDNSMNFTLFDMYEKEANNCINHKLVLPAYDYVLKCSHTFNNLDARGAISTTERMSYILRVRDLAKKCAEIFVKTREDLGHPLLKKGGNK;locus_tag=LOCUS_11110;gene=glyQ;EC_number=6.1.1.14;note=WP_005903526.1 glycine--tRNA ligase subunit alpha (Fusobacterium nucleatum) [pid:75.8%25%2C q_cov:98.6%25%2C s_cov:99.7%25%2C Eval:3.2e-134],MGA_1120
sequence1	MetaGeneAnnotator	CDS	1206996	1207457	.	-	0	ID=MGA_1121;product=signal peptidase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895436.1;translation=MQYIFLILMYVILVFIDQITKHLMYVISNAQFGYSIPVLGDFFKLTYIENHGGVFGVFQGHIIVFTIMSTFLIGYIVYTEWENFLKSNLIKKIAIMFIAAGATGNMIDRFFRGYVIDMIDFRGIWQFIFNVADVYIHIGIYILILIYLLKKEK;locus_tag=LOCUS_11120;gene=lspA;EC_number=3.4.23.36;note=WP_005895436.1 signal peptidase II (Fusobacterium) [pid:50.0%25%2C q_cov:87.6%25%2C s_cov:84.9%25%2C Eval:2.7e-30],MGA_1121
sequence1	MetaGeneAnnotator	CDS	1207459	1210245	.	-	0	ID=MGA_1122;product=isoleucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903528.1;translation=MSEENKVDYASTLNLPKTSFKMKANLSQKEPLTIRDWEKNKIYEKSLDNEKPTFFLHDGPPYANGNLHIGHAINKVLKDIILKYKRLQGFNAPYIPGWDTHGLPIEWKMIQDLGEKAKEMSPLELRNACKKYALKSVEMQKKDFIRLGILGDWNNPYITLNKEFEAEELRVFRDIYENGYVYKGLKPVYWSPTTETALAEAEIEYKDVESDSIYVKMNLTDETNEKLGVENAAVIIWTTTPWTIPANLAISLNENFVYGVYKTEKGNLILSKSLAEKAFNEMNLSFELIKEIQGKDFERLTYKHPIYDRVSMLILGDHVTEDAGTGCVHTAPGHGVDDYNVSLKYGIGILSPVDDKGHMTSEAPRYEGLFYKKANSAIMADLENSGHLLGHKKLVHSYPHDWRSKKPVIFRATEQWFIKVDGEVRENTLEKLEEVEFVPAWGRNRITSMMENRPDWTISRQRVWGVPIPIFYNAKTNEVVYESEIMSRVIDLVEKEGTDIWWKYSAKDIIGEELLIKHNLKDVELRKERSILDVWFDSGVSHRAVLRPRGYNIRPVDLYLEGSDQHRGWFQSSLLTSVASTFDSPYKKLLTHGFVMDGQGRKMSKSLGNTITPKDIIDVHGADILRLWVSSVDYREDVRISDNIIQQMTDSYRKIRNTARYLLGNINDFDRSNKVAYDDMLEIDKWAMHKLEELKEKVTKHYENYEFYSLFQEILYFCSVEMSSFYLDIIKDRLYCEYKDSLERRSAQSVLVDILDVLVRIISPVLSFTAEEIWERLDYEGKEESVHLASWIKAKPEHMNEELAKKWQILGELRKEVNKKIEKERQNGSIGLSLDARVLIKVTNDKYEFIKEYSNWDISDIFLVSQVEFTNTEELESTDLEGFEVKIVRALGKKCERCWKYSEEVGQDLEYPDVTLRDAKVLKMLKGL;locus_tag=LOCUS_11130;gene=ileS;EC_number=6.1.1.5;note=WP_005903528.1 isoleucine--tRNA ligase (Fusobacterium nucleatum) [pid:60.2%25%2C q_cov:98.7%25%2C s_cov:99.6%25%2C Eval:0.0e+00],MGA_1122
sequence1	MetaGeneAnnotator	CDS	1210254	1212542	.	-	0	ID=MGA_1123;product=Tex family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895431.1;translation=MENKIFKYVSKELNIGLKQIEETMKLYDEGATIPFISRYRKEVTGNLDEEQIRDVVEKITYYRNLEKRKEEVIRLIEEQGALTPELEKSINEATVLQRVEDLYMPYKKKKKTKADIAIENGLEPLAIFAKDEKITIDILKEEANKYINDNILSVEDALEGVHLIHAQKISEEITNREYLRNLLSQKSLVVSKLIEKNKGLDEKQVYKDYYNFQEAYSKIVTHRILAINRGENEKILKVNLEIDDNVREELVNKMYHMNFKNDNLKSFFIDIVNDSIDRLMYPSIENELRNILTEKAELEAIENFATNLEKLLLQPPLNKKTILGLDPGYRTGAKLAIIDKDGFFKESDVVYLVKEMHSEKQLETARNKILKYLSKYDVDIVAIGNGTASRETESFVAALLKEYKEKKVSYIIVNEAGASVYSASKVAADEFPELDVTVRGTISISRRLQDPLAELVKIDPKSIGVGMYQHDVNQKKLNEELEQTIEKIVNRVGVNINTASAELLSFVSGIKKNIAKNIVEYRKENGDFKNRKEILKVKGLGAKAFEQLAGFVVIPNGENPLDNTIIHPESYHIAEEILSSSSTNVNELKTDLELVREKLKLVNLQNIIEKTGLDKTTKDVYEALIKDRRDPRDEFDKPLLREDILSIEDLKVGMELEGTVRNVTKFGAFVDIGLKNDAMIHISELSNSFIDDPTKVLSIGQIIKVRVLDIDIQRGRVGLTRKDANYVKPNKKKKQNNKNNKEEIQRKKLEQQLINKGWKIKK;locus_tag=LOCUS_11140;note=WP_005895431.1 Tex family protein (Fusobacterium nucleatum) [pid:61.2%25%2C q_cov:94.2%25%2C s_cov:99.2%25%2C Eval:1.7e-248],MGA_1123
sequence1	MetaGeneAnnotator	CDS	1212578	1213615	.	-	0	ID=MGA_1124;product=HP1165 family MFS efflux transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000944753.1;translation=MVIITFILIYKFSSLYILALAWFIYGFYEATISGTLDAQIINDIKNEDETLLNKFIKTSQQIMFIGMMMGSVLGSFLYFKIGFKIYLLGALFIAFSFFIILLFFKNNQKSLNENVKIKIHLFQVINELKVNENLRIYIFLCLVSQIYFQTHFQLWQALFLTKGIKQENLYIYYILFQLIGFISYYFPIEKAKNNMRYIYFSFSVLIIIPLIILSNNKYLVIVIYLLICSIFTILDYFIIYNFSKIVSKENISSLISLKSTSSRIASLIMLILFSFILKFVSLQYLIISNFTIVFAILLISIFKFHNKLFNENMQLIFGEVKNALLLFFNFRHLNILQYLEILKKM;locus_tag=LOCUS_11150;note=WP_000944753.1 HP1165 family MFS efflux transporter (Helicobacter pylori) [pid:33.1%25%2C q_cov:87.5%25%2C s_cov:78.2%25%2C Eval:3.5e-45],frameshifted%2C insertion/deletion at around 1213718,MGA_1124
sequence1	MetaGeneAnnotator	CDS	1214408	1214731	.	+	0	ID=MGA_1125;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKQFLVLSVLLVSLTSFSNGISIGQNNDFLNERQEVWNTKDFLYETGKGAVSSAVAGAVVGGAGGSVTLPIVGTVAGASGGAILGAVGGAISNAGEYIIDEIAGKH;locus_tag=LOCUS_11160;note=MGA_1125
sequence1	MetaGeneAnnotator	CDS	1215010	1215903	.	-	0	ID=MGA_1126;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584158.1;translation=MLVEDIGSNLERIDIYLSKKLDETRSRIQELIKSNNILVNGKKTKASYKVNFGDEIFIDIPLLKEVDIIPQDIDIDIVYEDKYLAIINKYAGMVVHPSKGHEEDTLVNAIMYKIKDLSGINGDLRPGIVHRLDKNTSGLIIIAKDDKTHFKLSEMFKNKEIKKIYYAIVKGKVNKKSGRIETMIGRNPNDRKKMAVVDNGKLAITNFEVIDSNEKFSLLKVDLETGRTHQIRVHLSHFFFPILGDSVYGRKDEYDRQMLHAYMLNFIHPITLEKIDVIGNFHSDFLRALSNTKLRIK;locus_tag=LOCUS_11170;note=WP_012584158.1 RluA family pseudouridine synthase (Dictyoglomus turgidum) [pid:56.5%25%2C q_cov:87.2%25%2C s_cov:86.5%25%2C Eval:1.9e-78],MGA_1126
sequence1	MetaGeneAnnotator	CDS	1215893	1216297	.	-	0	ID=MGA_1127;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902354.1;translation=MIRKFYEYFFQKIDIEEMEKILEILSEDEKRIFLSQSKYDKLHSINVFKGVKKINLPEIYLKLALLHDNGKDNASFLLRVMHKIGIKTRLVKHMEIGSKRLYKYNKELARLILIHHDKNVDENMKKFQGVDDVS;locus_tag=LOCUS_11180;note=WP_005902354.1 HD domain-containing protein (Fusobacterium nucleatum) [pid:41.0%25%2C q_cov:97.8%25%2C s_cov:91.8%25%2C Eval:2.9e-21],MGA_1127
sequence1	MetaGeneAnnotator	CDS	1216294	1216953	.	-	0	ID=MGA_1128;product=HAD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005785068.1;translation=MKKKLVIFDLDGTLLNSIYAIANATNKALEHFGLKTYEPMEYNYFVGNGLRKLVQIIIEKEKYDKSVDEIMEVLLKIYDKEYDYNLKPYKGIEKLLDHLTLNDIKFAVVTNKDHDLAVKSCMIEELKPYNFYKIIGVDPEKIHERKPSNINVLRLRDELNLKNEDILFVGDMLVDKETAENSGIDFIYCNWGFGEVKGEKGIKEDTRVNTVDEIIEKYL;locus_tag=LOCUS_11190;note=WP_005785068.1 HAD family hydrolase (Bacteroides fragilis) [pid:35.0%25%2C q_cov:87.2%25%2C s_cov:87.9%25%2C Eval:2.8e-24],MGA_1128
sequence1	MetaGeneAnnotator	CDS	1216981	1219566	.	-	0	ID=MGA_1129;product=DNA polymerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016594.1;translation=MKKILILDTSAIMYRAYFALMNFRNSNGEPVGAMLGFIKQLELALSYFSPEYVIAAKDVKRAELKRREIYKEYKENRSGMPDELVMQLDAIDGILEGYGIPIIKIPSYEADDVIASISKKYSKDYEIIILTGDKDLAQLINPNTSIALLGKKDENEPYKIIENDEDVIEYLGVKSYQIKDLFGLIGDSSDGIPGVLGIGPKTGAKLIAEYDNIDNIYANIDNIKGALQKKIIASKDLAYISRELATVFDELDIDLNIEDAKIKEKDFDKLSEIYLKYELRKEYEKLVKDKPKMDLKINEIEYPSLNDFITKINSVNEEISIYLGEEGIAFCNKDEVHYTFDISEEIGNLFEKGVSIRDIDSNLNVCIYSGKEWKNLGINFKNYFDILLASFTLGTDKSQKLETMAFDKLGLSIEEIDKKILNKFDATSFIEYRKNRLITMTYAIFKLKEVFMDLLEKENQLDIYLEEKEFTDVLIYMEKQGIAINQNYFEKYNLELEKKIKDIENKIYIESGESFNISSPKQLGEVLFETMGIEGVKKNKRGYSTDAEVLELLRDRGIKIAELLLEYRELVKLKSTYVEPLLKLSINGRIHTTYNQTGTATGRLSSSNPNLQNIPTRTYEGTKIREGFIASKGMKLVSFDYSQIELRVLAEISKDENLINAYKHNLDLHELTARKIFMLKDDEKVSKTQRNIAKVINFSVLYGKTPFGLSKELKITVSDAKLYINTYFKEYPKVRILLDDIIEKAKKDGYVETKFGTRRYVYDINSSNINIKEQAKRMAVNTVIQGTAANIIKKVMKEIYDKLCNDNVKMLLQVHDELIFEVREDINIFEEIRDIMQNTIVFDDVVLKVNGSEGDNWAVLK;locus_tag=LOCUS_11200;gene=polA;EC_number=2.7.7.7;note=WP_011016594.1 DNA polymerase I (Fusobacterium nucleatum) [pid:45.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-195],MGA_1129
sequence1	MetaGeneAnnotator	CDS	1219578	1220033	.	-	0	ID=MGA_1130;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MATFKEYLRFTDEIKYMDNQIRLLGEVNLSEEKQEELSSVEKEIKILAFAHPKCPDCSVVIAVLEAMRKFIPNMNVDYRRRSEDKELLLQYSSEGKIPALFIIDGIKVTKIFSEYPESIREDIENNELEKEKFHKGIYNDKIYEQIFRYFR;locus_tag=LOCUS_11210;note=MGA_1130
sequence1	MetaGeneAnnotator	CDS	1220043	1221764	.	-	0	ID=MGA_1131;product=multidrug resistance ABC transporter ATP-binding protein/permease BmrD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003233292.1;translation=MENKNYLFDFFKFMKKAKKEYTIGLIVLLIGMILEIGTIKLIAIAFDKEIESIDVNKVFSFVGTIALIYVSLKILEAVFMVYRKKLLQIAANIVYTNIQILIYNHVQRLPIKYFDDIPAGSVLSKITSDVKAIRTFFSETLLSILIVLSQLGIIYSVMMYINWRLSLILLIYVPIVIILQKYNKSLTYTYSSDIRKYNSICNGRANEMCQNLEVVAAFNNQEALLKDWENSAHKRYESDRIITLLESFFSHNIFDFLTKLAQLTIIFYYIYSATFDLGLITAGDTLVFIFYISNIINGLSNFTVNLSYYYKAKGSAKNISELLNLNIEDENDLIKPEKIDGNIKFENVYFAYEDEYVLKDVNLEIKENQTVAFVGHTGSGKSTIMNLLVKFYKNQKGKIEISGLNIKDIDTYTLRDNIAIVLQDSFLFEGTIGDNISEDKEIARNALEMVGAKYILDERGLDGKVMQDGNNFSTGEKQLISFARALAKNPKILILDEATANVDSKTEQIIQNGIEILKKNRTTLIIAHRLSTIRNADKIFVLDKGKIVESGNHEKLVELNGLYNKMLKLNNSK;locus_tag=LOCUS_11220;gene=bmrD;note=WP_003233292.1 multidrug resistance ABC transporter ATP-binding protein/permease BmrD (Bacillus) [pid:36.1%25%2C q_cov:91.3%25%2C s_cov:79.9%25%2C Eval:1.8e-93],MGA_1131
sequence1	MetaGeneAnnotator	CDS	1221754	1223475	.	-	0	ID=MGA_1132;product=ABC transporter transmembrane domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000953783.1;translation=MINKLLWEKRWRLFFVAILNLIIMLFTILPLDYLGEIVDGVNNKTMSSDEIKYRVILMLIMAIAYYIIQGIYEYYVFRNYYESLYEIQKIILEKVLKQNPQIFKKISVGEILSRITGDVEDYIAVYFSWGLYCFTRGVLGVLIIFIFILFKIDLIFVVLINIPYLFATYVIISQKEKYENLYAEMTKKFDDISDKTLESIKGVRIVRSYNMLNKLSNEFKDNILKYAKLHLNYSLRSIYSHGINILAVGFSYFSLIIYGYYQYIYGNITFGTIISVSLIMFLMPWPYTVFASYFISRFDMKLGYSRIKDILDLKDDNLINENGKKLKFSDKIEFRNFSFSYDGKPTLKNIDLVINKGDTIGIVGKTGSGKTTLIKQLLRFYEGSMGIYIDNVPIQEYNLVSLRENFGYSPQEYFIFSKTIKENVLFNRDIEDKLEYALEVADLNKDIKGFKKGVDTLVGENGIALSGGQKQRLSIARAIINNPKILIFDDSLSVLDIKTEKNIIRRLNENRKGKTNIIVSHRISSVINADKILILSEGKIEKIGTHDELLLSSKWYKELYEYQNKEEVEAYGK;locus_tag=LOCUS_11230;note=WP_000953783.1 ABC transporter transmembrane domain-containing protein (Bacillus cereus) [pid:32.9%25%2C q_cov:99.0%25%2C s_cov:98.0%25%2C Eval:2.1e-83],MGA_1132
sequence1	MetaGeneAnnotator	CDS	1223472	1224347	.	-	0	ID=MGA_1133;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001829684.1;translation=MENRKRYYLGIFFILLSAIGFSTLQMIVKMLPHVSVASKLFYRNIVIIFITFILIRVKGISFKLEKSEWKLMFARSVFGILGVMINFYTLKYILLADSTTIQKLSSFIVLLLSYLFFNEKFTKVQFFALIMSFLGVILIVKPGSSSFSYGYILAILGAFCASFAYICIRGLAIRGKVKPLIIIFYFSLFSTFVLLPYVLIDRTPLDLKTITLLIGIGVFGAMGQYGITFAYNFAPAKEISVFEYSQVIFSSVLGLIFLGEFPDKYSIMGYLIITLTGIFIYRYNLKRGNKI;locus_tag=LOCUS_11240;note=WP_001829684.1 DMT family transporter (Staphylococcus) [pid:38.2%25%2C q_cov:93.5%25%2C s_cov:92.8%25%2C Eval:2.6e-51],MGA_1133
sequence1	MetaGeneAnnotator	CDS	1224357	1225439	.	-	0	ID=MGA_1134;product=radical SAM family heme chaperone HemW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016482.1;translation=MKNITGIYIHVPFCNKRCHYCDFHVFINMNDKIERYVEYVIKEIKLYPEYIYDTIYFGGGTPSLLNGEQIRKILDNLKKTDNAEITLELNPSDMDLEKLKYIKNAGINRLSIGFQSFNDDMLKFMNRDHSSKKAIETYRNARIAGFDNISLDLIFSVPNQDMEMLENDLDKFLELSPEHLSIYSLIWEEGTNFTKRLEKGELKALDEDLEADMFLKIQERLVKSGYNHYEISSFCKDGKESKHNIKYWNNTEYIGVGVNATSFYNNQRFAKVKSLARYYRLIDQNIIPIEEKTIEIVDDVELENLKYILGLRMLIKGVEYTPNEKIDKLIERGLIERFDDRIKLTSKGVLLSNEVFVEFV;locus_tag=LOCUS_11250;gene=hemW;note=WP_011016482.1 radical SAM family heme chaperone HemW (Fusobacterium nucleatum) [pid:46.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-90],MGA_1134
sequence1	MetaGeneAnnotator	CDS	1225807	1226466	.	-	0	ID=MGA_1135;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELVIQNNKMKIIVNLLKILLLFFLLNYLNLFLFKVVEFFVNKDLITLDLVFIINLIGSTILITLFSYLSKNNKEYYKLNLKSILIIIIVIIITLVLEVSLSLFLDSTEQTIIFHKRMNYYKSVNKLLLILQIIVFSPIEEELFFRKIIFTYLENRKLALIVSIILFAFAHSYFNLEIFILFLPISIIISLIYYKTNSLKVNCIFHMLFNCFAIIKYLI;locus_tag=LOCUS_11260;note=MGA_1135
sequence1	MetaGeneAnnotator	CDS	1226444	1226779	.	-	0	ID=MGA_1136;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFVILSILFLGTINFSEESNGIEFKKSTNIEFKEDNQISLKDIENTGLKEKIIEVVVSKVVDVVVDKVSNEISERFNGTESEKKETEKEIHEEKKVCPPELNGTCYTE;locus_tag=LOCUS_11270;note=MGA_1136
sequence1	MetaGeneAnnotator	CDS	1227355	1228122	.	-	0	ID=MGA_1137;product=Nif3-like dinuclear metal center hexameric protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902529.1;translation=MISLSKLIKEFEEKFPRELAEEWDNVGLLVGDIRKKINKVMLCLDITREAVDFSVKEKVDLIISHHPFIFKGQKKILSDNVIGSKIIDVIKNDIAVYSAHTNVDAAKGGLNEYILEKMNLDGQMLETEEIALRRFNLKEKKSIEYIISIIKEKLEIKNVRLSRAMDNRMVRKIAITTGSGDSFIPLIRGKVDLFITGDLKHHISLDMGEENLHLLDIDHYGSEKLVVELFEKSLREINKEIEIIKFDSKEVFEYL;locus_tag=LOCUS_11280;note=WP_005902529.1 Nif3-like dinuclear metal center hexameric protein (Fusobacterium nucleatum) [pid:38.6%25%2C q_cov:97.3%25%2C s_cov:97.7%25%2C Eval:2.2e-45],MGA_1137
sequence1	MetaGeneAnnotator	CDS	1228106	1229047	.	-	0	ID=MGA_1138;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MENKLAKIISDIEKNNKVNYNSIFIRKDISDLDVLGTIIYCLKNNVDDVNESYDLNYADIENTYFNDGEIEDYLKNYNETEEDYLDDVLNEFVKIAIHESIKNTKINFSFNDVKQEALFSIIKFKNEYYDKLSKNYDKEFLKNVLRLFVRRALISYQYNELSIYSEQEYLSLLYIKIVSEVNEGENLDDILNRVGINKEYYEKLARVYENKDFSLSYDDIKEETERVKRKYEIALNTNRLTFLEETVLSMYLGLDGEKLSISDIAKKNDTNKENIQELINLSIMKLSLIFNMDILDYLERIQTDLEGINDKLI;locus_tag=LOCUS_11290;note=MGA_1138
sequence1	MetaGeneAnnotator	CDS	1229060	1230334	.	-	0	ID=MGA_1139;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYILILFIYLSTITFSVEVKGFITYLSEDEIKKIEQQEEVNEYLEKKYPGKYYAEKLGDVIYVYPRIEYIKLVSNEYNMNSILKALPDIYIGKILRDVDFLVDSKTVELLKEQKIVNLYYRVVIDDNGSVGVAIDEVNENSDDVKLSVGFDNNESVATIEYIKGNFRENDVLNFMTNIYFRDISTDINIGYTIFDFKRNEKYIISGGLNKEDGLFIKAEAQKYALSNKIKSYEYFIKPDISLKYSYYDTHKLTASMGMNYKMKVISGLKVNLNTNIKYENRFLTNDYNIFFESKLNSSIDLSNDAKLNNELFLKFATIPLKDRNKIKVYDARIIKDKDIGGDLAFVFKTNLDSFKVFDSQLYFFNDLIVYKNFGVNAMFTNGMGVGIKSKFLPVDLNAYLGLGFNSNKKVGTLGGLNAGIKF;locus_tag=LOCUS_11300;note=MGA_1139
sequence1	MetaGeneAnnotator	CDS	1230459	1231754	.	+	0	ID=MGA_1140;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLNPKIITSIFMIVIILYLIYFLTKKYKLTKKQIIIFWILVLFWSSVSIIRAYRKAYAIDPVDIGGLGLNLIVATQITAAYGLISFMLRLPLFFISDMLNRKKIFIQLGMIFMMIASISVYLKPSYNTLYLSSLSMGACASMLAIFNVIFSETFAKEQAAVSTSILASAPLLAEFIAAPIQYIGTSNSIKNYSLLWLTSTIIAFITLLLTTFIRDIEYTKISFSMQKVKKVIINKAFIYICLIAFLQSFVKFATSGPNMIVYNKSIGMSPLLLAYNDAMFAAPQLCASVLVGTYFIKKYSIERILQFGIISTIIFYIFVITTNNPNIVFFAYIFNGFGYGLIYTSIISIALQYFDKEYINISMGIFQAFFSAGIYFGDSIHKSIHTLIPQNVINIDINKNIFIIAIFSSLFTIILCQISIFFKNKGFINIR;locus_tag=LOCUS_11310;note=MGA_1140
sequence1	MetaGeneAnnotator	CDS	1231887	1233677	.	-	0	ID=MGA_1141;product=oligopeptide ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002287894.1;translation=MKKILTASLALASLGLLVSCGIGKSKSESGEDSKISLSFPREYKNPGIVDENAEYKVALVVSSPFKGLLSSLHYTDAYDLEILAFINEEILWKNEDFETLNVEGGLATLSLDLKNKKVIFKFKEGLKWSDGHPLGADDLIYTLEVLGHKDYTGIRYDESEHSKIVGMTEYHLGKANKISGVTKVSDTEVHIQLTENNAKVVTSGGPITGIGSILPKHYLSDIPMKDLESSDKLRKNPLSNGQFVIKNIVPGEAVELVPNEYYHLGKVKVGKVTIKTIAPQLVVESMKQGEYHSYIGVPGSSYDKYSVLDNLALIGRPDLYYSYLGFNLGHRDNEKKENIMDRDTPLQDVNLRKALAYALDVDQAAQAFYNGLRTRANGQTPPIFKKFYDSTNVGYPYNPEKAKELLKKAGYEDTDGDGFVDKDGKRLKLKFASMSGSDVAEPLAQFYIQNWKEIGVDVELTNGRLLEFQLFYEKVKANDPDIDMYAAAWGVGTSLDPSQSNSRYAAFNMTRFVSEENDKLLAAISDDKGLEDPNYKAEAYKKWHKYYLDQAAEVPLMFNYKISPVNKAIKSANSYTDTARNVIFEGVVSAPIKATN;locus_tag=LOCUS_11320;note=WP_002287894.1 oligopeptide ABC transporter substrate-binding protein (Enterococcus) [pid:41.5%25%2C q_cov:91.6%25%2C s_cov:91.2%25%2C Eval:1.8e-120],MGA_1141
sequence1	MetaGeneAnnotator	CDS	1233674	1233850	.	-	0	ID=MGA_1142;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLITILIIKVGIVFLYPNHILIKYINLINNIYLLNSVKSDILTLNYKKNKNKYLGGKL;locus_tag=LOCUS_11330;note=MGA_1142
sequence1	MetaGeneAnnotator	CDS	1233864	1235642	.	-	0	ID=MGA_1143;product=oligopeptide ABC transporter substrate-binding protein Opp2A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002378964.1;translation=MKKGLSVSLILASLGLLMSCSPGNSRTEKISKVDLNFPLEYTNEAPEIEGATYTIAMVTSSPFKGIFSPLHYQDNNDGNIIQLINEEYTWKNEDFEILDVEGGIATLSLDTEKNQMVIKFKEGLKWSDGHPMGVDDLIYTFEVVAHPDYTGVRFSPIDYYKIKGLKEYNEGKASKISGLEKISDTELRINVDEISSKVITGGGPLVPNLLPKHDLENIPVKDLEYSDKIRKNPVGNGKYVIKNIVPGESIELVPNEYYHLGKPKVAKIILKTINPQLAVESLKNGDFFQYLDLPQDSYDKYKDLSNITVIGRPDLYIQYLGFNLGHFDKSKNESVTDRDTPLQDINVRKALSYALNIDEIATAYYNGLRQRANGHTPPIFKKYYDETLEGYPYNPEKARELLKKAGYEDTNGDGIVDKDGKNLELKFATMAGSDVAEPIAQAFLQYWKEIGVNVTLTTGRLLDFNLFYDKLEANEDDIDIYMAAWGVGTSLDPSASKARDAMFNFTRFTSEENDKLLEAVSSSKGLSDLEYKVKAYKDWQKYFVEQAVEVPLMFRYKVSPVNKNVKHDNLYTDTKRSNIIESVVNSLPEKAK;locus_tag=LOCUS_11340;gene=opp2A;note=WP_002378964.1 oligopeptide ABC transporter substrate-binding protein Opp2A (Enterococcus) [pid:41.1%25%2C q_cov:97.0%25%2C s_cov:97.1%25%2C Eval:3.5e-129],MGA_1143
sequence1	MetaGeneAnnotator	CDS	1235723	1237792	.	-	0	ID=MGA_1144;product=ATP-dependent DNA helicase RecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015732.1;translation=MYLRIYDTLEEFDIKTLKNDKNKSKIKALKKLGIHSLYDLVYFFPRTYENKAKHKPISELIDGENVIIEGKVLIINNAFFGKKKLIKVLFTDGEGLIELVWFNSPYILRVLEVGMELRITGKIRKSRNLQIINPSYSKINSSNRNIVLNEEDKLDSVYSLSSGIDQKNMKKIVEEVLKKYLFLFEENLPQKYIVENKLISRTEAIANIHFPRNNFMYEEAKKRILFEEALILEMKILKNRYNENIKNYNLYFLDDNKDLVKKYVSGLSFELTKDQKKIIAEIYKELNNGKIINRLIQGDVGSGKTIISLILLLYMAENNYQGVIMAPTEILATQHYLEVVKEFDKLNIRVELLTGSTRAKKKEEIYKNVENGNINISIGTHSLLEDNLKFNNLGLIIIDEQHKFGVDQRNKIRDKGIYSNLIVMTATPIPRSLALTIYGDLDVSLLTTMPLGRKPIKTKWIKNKEEENSMYEFIDKKIKEGRQVYVVSPLIVQSDKLNISSAVETYEKYCEKFPQYTVGLLHGKIKSKEKENIMNEFKEGRIDILVSTTVVEVGVNVPNSSIIVILNSERFGLSSLHQLRGRVGRGEHSSYCFLLSETQNEISQKRLQVMEETLDGFKIAEEDLKLRDTGEIFGIKQSGISELKLLDIVNDIQVILNAKKFSEEYLDKNLGLIKDKILKIDVDNLYENR;locus_tag=LOCUS_11350;gene=recG;EC_number=3.6.4.12;note=WP_011015732.1 ATP-dependent DNA helicase RecG (Fusobacterium nucleatum) [pid:48.8%25%2C q_cov:99.7%25%2C s_cov:98.7%25%2C Eval:3.0e-191],MGA_1144
sequence1	MetaGeneAnnotator	CDS	1237803	1238384	.	-	0	ID=MGA_1145;product=XTP/dITP diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012545768.1;translation=MKIVLATKNEGKLEEFRSMFKDLNIEILSEKEFNVGEIVEDGLTFEENSLIKAKAVSEISGLPAISDDSGLCIDALDGKPGVHTARWFNEFENYNDRCKKMIELVDKKNTNRDAKFISVITLYFPNGEKYIFRGETEGSISHELKGNLGHGYDPIFYSKDLKMNFAEAGTELKNTVSHRGRAFKKLREFLENM;locus_tag=LOCUS_11360;EC_number=3.6.1.66;note=WP_012545768.1 XTP/dITP diphosphatase (Thermodesulfovibrio) [pid:45.3%25%2C q_cov:98.4%25%2C s_cov:94.1%25%2C Eval:3.8e-40],MGA_1145
sequence1	MetaGeneAnnotator	CDS	1238381	1238947	.	-	0	ID=MGA_1146;product=recombination regulator RecX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011837398.1;translation=MKIIENILKNKVYVNNGEIIDINLDIKAMFKLKKGMDITGIYHDIIHESMMSKSIYIITLKDRTVFELIQKLKSKYNKENHFIINDVIEKLKKLNLLDDKEFVFRYVNINPNYSTNKLKSKLISKGISIDIINEVLSELDLNENQEELIKKFILKNSKLDKQKLFRKLINKGFEYSSILNCLNYGEDE;locus_tag=LOCUS_11370;gene=recX;note=WP_011837398.1 recombination regulator RecX (Streptococcus sanguinis) [pid:28.4%25%2C q_cov:100.0%25%2C s_cov:78.3%25%2C Eval:2.1e-08],MGA_1146
sequence1	MetaGeneAnnotator	CDS	1238951	1239997	.	-	0	ID=MGA_1147;product=recombinase RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147373114.1;translation=MAKKENATMNDDKLKGLKVALDQITKEYGEGSIMKLGENKKMDVKVISTGSINIDLALGIGGVPRGRIIEIYGAESSGKTTIALHIIAEAQKNGGLAAFIDAEHALDPVYAKALGVDVDELLISQPDTGEQALDIADTLVRSGAVDVVVVDSVAALVPKAEIEGEMSDQQMGLQARLMSKALRKLTSSISKSDTVMIFINQIREKIGGFSFTPGVQTTTSGGRALKFFSSVRMEIKKALSIKQGDDVIGTETIAKITKNKVAPPHKEAKFAILYGKGISHITEVFDLALEFDICKKSGSWFSYGTEKLGQGKVNVENLLTTNIELFSKIEEEVMTKLKDPEFVRNKKK;locus_tag=LOCUS_11380;gene=recA;note=WP_147373114.1 recombinase RecA (Fusobacterium nucleatum) [pid:62.8%25%2C q_cov:100.0%25%2C s_cov:93.1%25%2C Eval:2.7e-117],MGA_1147
sequence1	Barrnap:0.8	rRNA	1240268	1243160	.	-	.	ID=Barrnap_5;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00050;note=Barrnap_5
sequence1	Barrnap:0.8	rRNA	1243382	1244895	.	-	.	ID=Barrnap_6;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00060;note=Barrnap_6
sequence1	MetaGeneAnnotator	CDS	1245386	1247188	.	-	0	ID=MGA_1150;product=oligoendopeptidase F;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989921.1;translation=MEKILKRSEVDINKTWDLTTIFENDASWEKEFEKLYSEIESISKFEETMIDDVNTLADTLDLDDKLNQRIMLLYTYAHLKGDEDTGNSKYQEYNAKIMKMYSDYDARSTFIRIKLLELSEEKVEEYFSHERLVERKFEMEKLFKTKKHQLSQKEEELLANMAQITGVSSKAFSMLNNADITFEEIENSKGEKLSLNHARYGMYMESSDRKLRENAYNSMYKTYKGLKNTFATTLEGQVLAHTTNAKLRNYSSARNAAVSSNFIDEGVYDSLLSAVNDKISTLHKYVEFRKEQLGFEELKMYDMYTPLLKEVELNFTYEEAKEIIIEALQVLGQDYVKLIKKAFDERWIDYAENEGKRSGAYSSGTYGTNPFILISWRGTLDNLFTLIHELGHSIHSYYTRNYQPYIYGHYTIFLAEVASITNELILNDFLIKKYEDNPVIKAYIINHYLDKVKGTVFRQTQFAEFEYEIHRSVEEGQPLTAEYLSNLYENLNKKYYGEAITYDDNIRYEWARIPHFYYNFYVYQYATGMSAASAFAKKILTEGRPAVEKYINYLKSGASDYSLNILKNAGVDMNTNAPVYACLETFQEKLEELQKVLKEI;locus_tag=LOCUS_11390;gene=pepF;note=WP_010989921.1 oligoendopeptidase F (Listeria monocytogenes) [pid:50.9%25%2C q_cov:96.7%25%2C s_cov:96.5%25%2C Eval:1.5e-172],MGA_1150
sequence1	MetaGeneAnnotator	CDS	1247251	1248117	.	-	0	ID=MGA_1151;product=phosphomevalonate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003700070.1;translation=MLEKAGSKLYLAGEYAILSENSYAIVSFIPKYTYLNIEENDIWKIVSEIEDKDNIIGRVLSYLEKNFEIKKRGKLKYYSELYKNNKKYGLGSSASLIVVTIKAILKMNDYIISEKHLFDIAIDFMIENDISGSFGDIACICYESNILFKSSNRIDRKYIIEKINVKTNLKVEAIWTTCPSSSSKLISKIDMNNSEFEKFKNISNILTLGIFEDFKENKVDEILEKIDKLNENLHFLEKNNDIVIHTPLINEFLNKYKHSKISGAGGGDFILSFSKSDILEDLKVFVHC;locus_tag=LOCUS_11400;EC_number=2.7.4.2;note=WP_003700070.1 phosphomevalonate kinase (Ligilactobacillus salivarius) [pid:29.5%25%2C q_cov:96.9%25%2C s_cov:93.5%25%2C Eval:5.8e-24],MGA_1151
sequence1	MetaGeneAnnotator	CDS	1248111	1248998	.	-	0	ID=MGA_1152;product=diphosphomevalonate decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000348822.1;translation=MARGYINIAIVKYWGKKEFNPYLVPIQGSISIRSKRLYTETNISESDKDIFILNGEIQGENETKKIFSFVDKVIKKRKCICIDSKNFVPTAAGLASSASAYCTLTKALNDFFKLNLNTEEMAKISTMGSGSAGRSFYNIAAFDKNGKIYELKTELNLSMLAIVLNDKKKEISSRNAMEISKNSPIYPMWVKRANEDFEKMKSALLENDFIKIGNIMEKNTIIMHNTTFRSNPSFSFLTKETYFVIKIVKRLRMKGINIFTTMDAGPNVKILYLKEDEEKVLKELNKYFEGKILLC;locus_tag=LOCUS_11410;gene=mvaD;EC_number=4.1.1.33;note=WP_000348822.1 diphosphomevalonate decarboxylase (Streptococcus) [pid:41.4%25%2C q_cov:96.3%25%2C s_cov:92.7%25%2C Eval:9.9e-59],MGA_1152
sequence1	MetaGeneAnnotator	CDS	1248980	1249810	.	-	0	ID=MGA_1153;product=mevalonate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012774950.1;translation=MAYGKVILFGEHSVVYGKNAIALLLKSVKIEADIVYEYVFENEHVKFIKKNIIEKSNIKDRVYIKIKSTIPSSRGLGSSAALAVSIAMAFKKRYNISDEIVKTIVFEAEKWAHGNPSGIDLAVIFNNQNVLFNKKEGIKNIDFHLNAKLVISDSGIRGNTKKAVSMVAKNYNKFEKYIEDLGKITDDAIIALKNSDLKMVGNLMNLAQNNLKLMNLSNDMIDELINVSKENSLGSKITGAGLGGCIISLVENEKKALELKKLLIKKGAKKVWLEDI;locus_tag=LOCUS_11420;gene=mvk;EC_number=2.7.1.36;note=WP_012774950.1 mevalonate kinase (Streptococcus suis) [pid:34.9%25%2C q_cov:98.9%25%2C s_cov:95.8%25%2C Eval:1.2e-39],MGA_1153
sequence1	MetaGeneAnnotator	CDS	1250004	1250570	.	+	0	ID=MGA_1154;product=alkyl hydroperoxide reductase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903303.1;translation=MSLIGKRIPEFKVSAFKKGEEDFITITDKDVLGKWSVFVFYPADFTFVCPTELEDLQDNYENFKAEGAEVYSISCDTSFVHKAWNDHSPKISKVEYPMIGDPTGFLAREFGVMIEEEGLALRGSFVINPEGKIVAYEIHDNGIGREASELLRKLQAAKFVAQYGEVCPAKWKPGKETLKPSIDLVGEL;locus_tag=LOCUS_11430;gene=ahpC;EC_number=1.11.1.26;note=WP_005903303.1 alkyl hydroperoxide reductase subunit C (Fusobacterium nucleatum) [pid:83.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-93],MGA_1154
sequence1	MetaGeneAnnotator	CDS	1250599	1250799	.	-	0	ID=MGA_1155;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGIKKGSKRPWDIWKHRDESEFRNINIGIRLNKEEYERLTNAKKKINYTIADILLLGIEAIEKDRY;locus_tag=LOCUS_11440;note=MGA_1155
sequence1	MetaGeneAnnotator	CDS	1250971	1251927	.	+	0	ID=MGA_1156;product=haloacid dehalogenase-like hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016134.1;translation=MWKENIKNRLDEFIKKNKNNGHYAVFDCDNTILMNDIQFALVHYTLKFKKFKTTPKMLKDFLYRNFPNEKVILDEFLEIFENAYISESNSDAYLKFLANVEDLVEYIFSKYDSFDITSVFFIDMKEDELRKLIQKAINYHNLVEFSYENWIYENNISSYKTGLSIAKEMEELIKEFYHNNIDVYVISGSPRFQVEEVLKPLNPYIKKIYGKELEIKDDKITGEFEKGSIKTFYEGKIEVIEKYIYPKYSKAPAFIAGDSMGDYHMLTKYEETEISLIIDRNRTGKFKELLMLDNDKYLSQTVDETTGIFIDAEKSITL;locus_tag=LOCUS_11450;note=WP_011016134.1 haloacid dehalogenase-like hydrolase (Fusobacterium nucleatum) [pid:27.8%25%2C q_cov:95.6%25%2C s_cov:94.5%25%2C Eval:5.4e-21],MGA_1156
sequence1	MetaGeneAnnotator	CDS	1251940	1253799	.	+	0	ID=MGA_1157;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016068.1;translation=MQNYDIIVVGAGHAGVEASLAAARLGKKVALFTIYLDNIAMMSCNPAIGGPGKSHIVSEIGMLGGQMAVHIDKYNLQLKNLNHTKGLAAKITRAQADKYWYRIKMREIIEKEDNLDVIQNMVEDLILDDNKKVIGVIDALGLKYSAKAVILCTGTFLNGEYIIGDVKYSAGRQGEKASNSLPDNLVKYGIEMDRYQTATPPRIDKKSINLDILEKLYGETNPRYFSYMSNKTDEKPLETWLTFTTEETIKVGQELLKYSPIVTGIVSTKGPRHCPSLDRKIMNFPDKTDHQIFLEQESRESDEIYVNGFTTAMPPFAQEKLIKTIKGLENAKILRYGYAVEYDFIPARQLNFSLESKIIENLFQAGTINGTSGYEEAAAQGFIAGVNAARKIDGKEPIIISRDEGYIGVLIDDIINKETPEPYRVLPSRAEYRLTLRQDNVFIRLLEKSKEIGLLDKSKLKELEDNIQIISDEIERLKEIKIYPNKENNDIIKKIDKNTSHNNVMTAFEFLARQEITYDNLKLFIETKDLPEISKEQVEIEAKYRIFIERERNQIEKFKKLENIAIPEDFNYEIVKGLSNIAISGLSYTKPKNIGQATRISGVTYNDIAILVSILKEVK;locus_tag=LOCUS_11460;gene=mnmG;note=WP_011016068.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Fusobacterium nucleatum) [pid:58.7%25%2C q_cov:99.2%25%2C s_cov:99.0%25%2C Eval:7.8e-212],MGA_1157
sequence1	MetaGeneAnnotator	CDS	1253799	1254515	.	+	0	ID=MGA_1158;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNIITRGEYHLKFFSPEHLRPIFVLIIISIILLLIPYLFKGIEKGKYTTFIGILCLAVKLGDSLYRIHFENDVWYNTMPFNLCNVSLIFAGIYFITRKRLYFNFVYFWFSGAIIAVIIPGFSVYHSSLYIYSFIASHMFEIFAVFYAFIHLDERVTFNGLITSIIGYMGLIGLAFLWNGIYGTNFMFMADYIIGAVSFIKPFWFYQIALTGLFTLSILLMYLPFVNNQKEDLEEVII;locus_tag=LOCUS_11470;note=MGA_1158
sequence1	MetaGeneAnnotator	CDS	1254797	1255192	.	-	0	ID=MGA_1159;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYSKNKNFELWISIEVLYNPDDADFVAGLVVKNGNDIFYFGLDSEKRINIDIKREKSSIKEKVFPLKYIELGVKFYNKECNFMYKLNSKIYNLHTILFENECLEYGIGCKTYFYAKPLELKIIELINKRKN;locus_tag=LOCUS_11480;note=MGA_1159
sequence1	MetaGeneAnnotator	CDS	1255391	1256332	.	-	0	ID=MGA_1160;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDTPLIVLVFVKLYYIKCISLFLFFCYICFITLQFATCFSTYNDKLGDLYLMLDSFYNCYRIYTQTNCNIFFEKEILISKILDFNLSKISVNNNFYNIIEKFIELGFPVVIPVNLRNIYYSHYYLEEDWEHPFIIKGYDKNKKIFYILDNVQLNSENELEREFIIKYEILFDAYESYFNYIAKGIEKFILILEKNSNENIYISNEVYKNSFNFINENIKEIFSHKNFEELFNNKITKRTLNIYRYKDLFLNIYINLLKELNLISFEKYNYYIKKEKYLIKKWKKYNYSSYLHFLKNKNYPVKNSDYNMLIKY;locus_tag=LOCUS_11490;note=MGA_1160
sequence1	MetaGeneAnnotator	CDS	1256504	1257013	.	+	0	ID=MGA_1161;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLKKHGSYGLAQVYVSCKNKGYNRSFGSMCRINYPSEKVQVDIKYIPNECIKFNSKGIRYYQITAIDEYSRKRVLKVVKGKSTYETSKYIKELERAIGFKIETIQVDNGYEFVNDKDVTDREDGKILYSRKEFRSEEELIENVKRHERLYNNTAKTVLNFKSPNEVVRE;locus_tag=LOCUS_11500;note=MGA_1161
sequence1	MetaGeneAnnotator	CDS	1257184	1260288	.	-	0	ID=MGA_1162;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSLGISFCDNRKLFEEICDDFYNNGIFIVSSFDNLGSLSYPASFKNVIGVDMAVKKVPNNGYQYVENSPINIRFLSRQQYLPSLNNEYSNLLGSSFFSPYISSMIYKNFEKINNEFTVFQFLKENATEIYSEFNNYVTSYKCDLKISKAVIFPFNKEMTNILTNLELCNFKVIEVFDIKYLGQINKKISDILTFTNNDMIIKNIEKLDWTSEFDTFILGHIQEIENLTNKNYTKDIIKNCIKYNKKLYAIEDISKYLNELNIKNLNFYYPLIEENMVNNNTFGKLRCISKPILAVMGTSPKQGKYTLQLALRKVFLDKGYKVGQLGTEGTGFLFNFDEIYPTGYNSTVRINGNNSIYFINKLLSDIELKNPDIIILGTQSQTIHYNTGNLNCYTLKNIELILGSDPDGILLVINPTDTFEYIQRTIINLEVVYESKVIALVLFPINKTIKWSVLGNIYQKSDINEIKKFKKEIEKLTLKKCFIFDSEEEIEKIFNEVIVFLEKRYKIMYKNKFITYILKFKLQNIWLLFWIIVWASMTVASSVILTYVLDAIISKNINTFLIFSIVDILCWLGVSYAQATKDIIKENLIQKELNAIRQDILEPLTKVDFSEFKKNTKSEYISWLVNDMNLLRDNGFIQFYGAVESIITVILNAFAIIYFHWIILLVSIIMTVFVYYSPKIFQKKVENATKDVSEHSGRVLKKTDDYINGFEIFYHNNQTEYFKNKILLSFEKMIIPKVRLVKYSTIANSSSMFASIISQVIIFIVTGYLIIKGEITTGVIFSVANLTSTLFNYTRGAAYNIVTFRACFKLLEKYPFIYVKEPKTQISKFNDKLIINNVKVEFNDNIIKYPNIEIKKGMKIVITGASGTGKSTLLKILTGEILNYDGDILLDGINYRNIDFKCLQNIIGIVMQKPYILSETLRDNLLIGRNINEEVFQKVIKLSYVDEFVLDKLDRVYEDDLSGGQKQRIGIARELMGEKEILILDEINANIDKKCAIEIEKNILSQKDLTVIIVSHHLYDESKDYFDEIIELGS;locus_tag=LOCUS_11510;note=WP_010906017.1 ABC transporter ATP-binding protein (Lactococcus) [pid:41.8%25%2C q_cov:50.3%25%2C s_cov:99.1%25%2C Eval:1.4e-126%2C partial hit],MGA_1162
sequence1	MetaGeneAnnotator	CDS	1260446	1260592	.	-	0	ID=MGA_1163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDFIYTDIVLIDSGVEKNHDALKNFDIKGISIKKIEIVMNLIMIFLIQ;locus_tag=LOCUS_11520;note=MGA_1163
sequence1	MetaGeneAnnotator	CDS	1260786	1261022	.	-	0	ID=MGA_1164;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINLKKEEIKKIFQNNGLLIENENEILDLDSLSFLSLLVDLEEYLNIEIEEINELFELNKDEYTFNKIFNCIQEYYK;locus_tag=LOCUS_11530;note=MGA_1164
sequence1	MetaGeneAnnotator	CDS	1261036	1261881	.	-	0	ID=MGA_1165;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGFKKIIYFMEKCIEICKKNKISLVSGMTTNGYLLTLDNFKKLLKCKVFLFQITLDGPREIHNKLRPHKNKQDSFEVIIDNLRKINFEIKQYYSIVLRINLTKATVNNFTKFMNELKFLKRNNKINFNCQKMSNYGGESINKLIDEMITEEDFANIHSTLVENNFNIINQPLIKAGAGLCSSCKKNSYYIDPDGNVLKYSLAIYNFKFKEKNIIGYIKEDGEIFIKNDIENQWIKRNKLDNECKHCKFYPICYNHYCPYRRMIKNKKICYGYKNFIFNSL;locus_tag=LOCUS_11540;note=WP_011948312.1 radical SAM/SPASM domain Clo7bot peptide maturase (Clostridium botulinum) [pid:27.0%25%2C q_cov:99.3%25%2C s_cov:61.6%25%2C Eval:3.3e-16%2C partial hit],MGA_1165
sequence1	MetaGeneAnnotator	CDS	1262092	1262319	.	-	0	ID=MGA_1166;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKVSNYNIVKIKKNDEVTILNTVTGKKINCQISDEIYNKLMSKMNFTNTNDNLIKKLYLDGFLVDANENEFEKV;locus_tag=LOCUS_11550;note=MGA_1166
sequence1	MetaGeneAnnotator	CDS	1262490	1263680	.	-	0	ID=MGA_1167;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYLNSLFPRNALLDFIFVTFYITKLSITIDKYLYLDTLLFVLITAFEMPSGYISDLFGRKRILILGKVIILISMIVLLFSNNFSHGVVVIVIYSIGGALTSGNTESILFEYFFNSEELNKYKVILANVSSIGLTLGIVLSFLSGIIFKFNILYIIYLDIIIYTINILATIFFLEESKMKSKSEKIEKDNNNENNNKIKEIIDIKVILGLMIGSFIFVFFRSTYNFYQPIYTDFGIDVKYFGMFTVLFSIIGVITNQILKKYFIKKIKYNNLSIMKIYISILFTSFLIMYSKSSFILFMIFICIQQVIRYIEGNIVTIYVNKKIPENTKYRTTYLSIQHFITTGLISMTLIFSSYILKFLSMYTTFFVISLIFTLLVSMLLLILKRMELNSKKIKYN;locus_tag=LOCUS_11560;note=MGA_1167
sequence1	MetaGeneAnnotator	CDS	1264102	1265304	.	-	0	ID=MGA_1168;product=SufS family cysteine desulfurase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002679842.1;translation=MDEIKKDFPIFKKRDIAYLDNASTTQKPQEVINEIYNYYLETNGNAGRGSHELSMINQAIMESTRKKVANFVGVSDEKNIVFTKGSTEGLNIIAFGYALENLSEGDEIVLAISNHHSNIVPWQEVARIKKLKIRYLYLDKFGNLDIRELPYLFNSKTKIISISSVVNTTGVIQNFREVIEMAHRYDVKVVLDCAQSIAHFKHEFEKWDVDFAVFSGHKMFSAQGVGILYGKMELLKDTRPFIYGGDMVEYVEESGSSYKESPYKFEGGTQNVEAILSLVKAIEYIEKIGYERLQKVEEKLIMYATFAINTLDFVETYYTENVEKVGIIAFNVKGVHSHDTAFILDNKGVAVRSGQHCTAPLLSFMGINSCCRVSLGVYNDEKDIDRLIEGLFEVKKIFER;locus_tag=LOCUS_11570;EC_number=2.8.1.7;note=WP_002679842.1 SufS family cysteine desulfurase (Treponema denticola) [pid:52.2%25%2C q_cov:98.5%25%2C s_cov:98.8%25%2C Eval:2.2e-118],MGA_1168
sequence1	MetaGeneAnnotator	CDS	1265304	1266425	.	-	0	ID=MGA_1169;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKKYSARLQETIDLLKSAVAEESKKASKKEVDMSFNKPVWNRMKYTVQGVEKIENFNGLKIQNLDNINIEVSENVFTKLRISNYFKYESENYANLKKRILIKGEIKEKIYITMELSKENPHLVDVFNIELEENAKAKIYIIYKGIDNESTYHNGYINVKANKGSNLELITIQTLNVNSENFLGVDIDVKEDADVKHYSVEFGGMANVTSVSSNLLENRAKSLLLPVYLSDMERKTDYEYTLNFHGRECVADIDARGVTKDRAIKVFRGNLVFERFSSKSAGSESEFSILLDKTVNAHSIPTLFCDEDDVIGAHSASIGKIDQDKLFYLMSRGFDSKSAKKLVVESSFGPVFNAIEDEDMVGELKEILERRL;locus_tag=LOCUS_11580;note=WP_002681871.1 Fe-S cluster assembly protein SufD (Treponema denticola) [pid:37.8%25%2C q_cov:72.7%25%2C s_cov:73.3%25%2C Eval:1.5e-44%2C partial hit],MGA_1169
sequence1	MetaGeneAnnotator	CDS	1266435	1267850	.	-	0	ID=MGA_1170;product=Fe-S cluster assembly protein SufB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002669913.1;translation=METTKKTYIADIERGIYDVKDEMKHKFTTGKGLDENVVKRISEKKNEPEWMLEKRLHALKIFFEKPMPTWSTDLSDLDINEIVHYLETESENMNSSWEDVPEYIKKTFDRLGIPEAEKKSLAGVGAQYDSNVVYHSLNEELKSKGVIYTDIETAIVEHEELIKKYFMTLIKPEDHKFAALHGAVWSGGSFVYVPKGVKIEKPLQSYFRLNASESGQFEHTLIIVEEGAELHFIEGCSAPKYYRNALHAGAVELFVAKNAKLRYSTIENWSKNLYNLNTKRAIVEEHGTIEWISGSFGSRVTNLYPMSILNGVGASCEFTGVTFAAAGQFLDTGCKIVHAAPYTTSNVSSKSISKNGGGAFYRSLLKVVPGAHHCKATAECESLMLDNNGSASHTMPIIEVNTDDIDIGHEASIGRISDEAIFYLMSRGLSEDEAKLMIIRGFVEPISKELPLEYAVELNKLIELELEGTIG;locus_tag=LOCUS_11590;gene=sufB;note=WP_002669913.1 Fe-S cluster assembly protein SufB (Treponema denticola) [pid:69.6%25%2C q_cov:99.2%25%2C s_cov:95.5%25%2C Eval:2.4e-191],MGA_1170
sequence1	MetaGeneAnnotator	CDS	1267850	1268602	.	-	0	ID=MGA_1171;product=Fe-S cluster assembly ATPase SufC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002672329.1;translation=MELLKVENLHAGIEDKKIIKGLDLVINKGEVHVIMGPNGAGKSTLASILIGHPKYEVSQGKIVLEGEEIQESLVDERARKGIFLSFQYPEEIPGLTVEDFLRSAKEAVSGEKQYILRFNRLLKEKMAQLKMDESYANRYLNVGFSGGEKKKNEILQMAILEPKLAILDETDSGLDRDATKIVFEGVKTLKSTDKSMLIITHYNKVLEYLEPDFVHILMDGRIVKTGGKELVEFIETHGYEKLRKEFLGDN;locus_tag=LOCUS_11600;gene=sufC;note=WP_002672329.1 Fe-S cluster assembly ATPase SufC (Treponema denticola) [pid:65.2%25%2C q_cov:97.6%25%2C s_cov:99.2%25%2C Eval:4.1e-89],MGA_1171
sequence1	MetaGeneAnnotator	CDS	1268767	1269648	.	+	0	ID=MGA_1172;product=DMT family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000378082.1;translation=MKKLGIIMAFIAAFLWGVSGSLAEYIFSNSNFNVNTYTFLRMFLTGIILVGYGVYTKGTKGLNKILFSKKYLKKIIVYGIFGIALLQYSFAQTINNSNAAFATLMQYITPTIVLVYLSYVTKTLPSIKKSILVSVALYGMFLMITSGSLNNLNVSPISLIYGLIAAFTFAFYILYISKFKKIDNTIVIGCGMIIGSLIFIPFIDYSNFRELLKLDIFITFLSNVVLGNAIPFYLFLESTKYIHPATTSLLGAVEPIVAIIIGIIFLGTHLTLIQLIGAILLIGSITIISIFED;locus_tag=LOCUS_11610;note=WP_000378082.1 DMT family transporter (Bacillus cereus) [pid:34.0%25%2C q_cov:83.6%25%2C s_cov:78.8%25%2C Eval:8.1e-37],MGA_1172
sequence1	MetaGeneAnnotator	CDS	1269697	1270431	.	-	0	ID=MGA_1173;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYNIFLGEIKRYFLEIKTYYPDYIVSLVISLILYLILFGFETENTKYIGYIYWILASSVLSEASASISSEKQAGTIKNLIVKPYSILTIMTFRTLSWLIINFSKIVLILLILKYVFQLNLMFNILLIPILIITLISIYGFSLILMTLTIVYTKTASFESVISYILLFLSGSVYSVEKMPLIIQYITNYFPLTLGIKISNHILSGELVNLNEILILIIDSIIYLLLGYILFKKIIKNNEKYNQRY;locus_tag=LOCUS_11620;note=MGA_1173
sequence1	MetaGeneAnnotator	CDS	1270434	1271297	.	-	0	ID=MGA_1174;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010963494.1;translation=MSSIIKIEHLFKNYGNKAVLKDINLEINQGEILSILGKNGVGKTTLLSIILKMIEASSGNIKFRNVDIRDINNKKYYSDINIVLENSQNIYYYMTGLENILYFGSLYGYNKEKILTNVNNWIDLFELRDAINKKVSIYSRGMIQKLSIIIALINKPKLLLLDEPTLGLDVYSKRKMMDMIKILSEKENITIILTIHQMDIVEYLDSKLILLDKGEVVYVGRIDDLKTKYTTKQYIVKYSIDDITYEEKILKENFEEIYMYLKSKKVDEIYEIKKYEKSLEELILEME;locus_tag=LOCUS_11630;note=WP_010963494.1 ABC transporter ATP-binding protein (Clostridium) [pid:30.7%25%2C q_cov:87.1%25%2C s_cov:80.3%25%2C Eval:8.9e-33],MGA_1174
sequence1	MetaGeneAnnotator	CDS	1271474	1272433	.	-	0	ID=MGA_1175;product=transketolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013098117.1;translation=MTHVYNGEAMKETIELRKVCIDKFHEFLQKDKDVVILDADLMGSLGTASLQKEYSDRIINCGIMEAQEISCASGMKRAGLKPFVHTFTAFASRRCLDQIFMSSLYQDNPITIIASDAGIQAVHNGGTHMSFEDMGLIRGLAGTTVIEPTDSTVLKAVLDEVYNKNDKFYWIRLTRKNVFKVYEEDAKIEIGKANLIQHGKDVTIIANGMMVHNARIAAKKLEEEGINVTLLDMFTLKPIDKDAIIKYCKDTKLVVTAENHSITNGLGSAVAEVLSENCPTKLVRVGVKERYGQVGTLEFLEKEYELSADDIYRAIKDNL;locus_tag=LOCUS_11640;note=WP_013098117.1 transketolase family protein (Enterobacter) [pid:52.1%25%2C q_cov:96.9%25%2C s_cov:97.2%25%2C Eval:6.1e-89],MGA_1175
sequence1	MetaGeneAnnotator	CDS	1272433	1273248	.	-	0	ID=MGA_1176;product=transketolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001103260.1;translation=MITTKEFAREIRINVLKMLNNLGFGHYGGSLSVVETLAVLYNDIMKYDNKNPNWEERDYFVLSKGHAGPALYSALALKGFFAKEELLTLNVNGTKLPSHPDRLKTSGVDITTGSLGQGISIATGIAKALKIQKKENRVFTIIGDGEAQEGQVWEAMQFIAHHNLNNLIVFIDYNKQQLDGYLEDICKPYSFEEKVKSFGLEASTVKGDDIEAIKKAILLQGEKPLVIILDTIKGQGVKFIETFKGNHHIRANEEVKKELEKAINDLQSEVK;locus_tag=LOCUS_11650;note=WP_001103260.1 transketolase (Salmonella) [pid:61.9%25%2C q_cov:96.7%25%2C s_cov:96.0%25%2C Eval:3.9e-91],MGA_1176
sequence1	MetaGeneAnnotator	CDS	1273261	1274610	.	-	0	ID=MGA_1177;product=PTS ascorbate transporter subunit IIC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013098119.1;translation=MKSILNFIVDILKTPAILVGLIALIGLLLQKKSITDVVKGTIKTILGFLVLGAGASFLVEQLGPMTSMFEKAFAIQGVIPNNEAIISVALKDFGTTTALIMALGMLANILIARFTRLKYIFLTGHHTLYMAAMIAIMLHIAGFNGALLIVVGAVLLGLTMAIFPALAQPFMKGIIGDDSVAFGHFSTLGYILSGYIGKLVGKGSKSTEEMKLPKNLSFLRDSSISISLTMMIIYVILAIFAGKDFVTTNLSGGDNYIIYALLKGIGFAGGVYIILQGVRLILNEIIPAFKGISEKLVPNAKPALDCPIVFPYAPNAVLIGFIFSFLGGLVGLFILGIFNAVLILPGVVPHFFCGATAGVFGNSTGGRRGAMIGAFANGLLLTFLPAVLYPLLGSLGYIGTTFSDADFAILGIILGNAAKLLNPTLITIIISVVVLALIIHNIFAKENKE;locus_tag=LOCUS_11660;note=WP_013098119.1 PTS ascorbate transporter subunit IIC (Enterobacter cloacae) [pid:64.4%25%2C q_cov:98.2%25%2C s_cov:95.2%25%2C Eval:1.3e-165],MGA_1177
sequence1	MetaGeneAnnotator	CDS	1274630	1274896	.	-	0	ID=MGA_1178;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIMAVCGSGLGSSFMLEMNIKKVLDKIGFDAEVEHSDLASVTINSADLFVMGKDIAESSSLPLDKVVILDSIISISELEEKLIEKLK;locus_tag=LOCUS_11670;note=WP_013098120.1 PTS sugar transporter subunit IIB (Enterobacter) [pid:76.2%25%2C q_cov:71.6%25%2C s_cov:70.0%25%2C Eval:8.4e-21%2C partial hit],MGA_1178
sequence1	MetaGeneAnnotator	CDS	1274909	1275325	.	-	0	ID=MGA_1179;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLFNKNNVVVIERVKDWEEAIKIAALPLVESKNIKEEYIFKMIESVKKLGFYIVITDDIAMPHARPEDGVLETGVSFLKVNEAVEFGDNKLHLIFVLAAKDKNTHIDVITELLEIFQDNDKISKLKEANKLEEILKII;locus_tag=LOCUS_11680;note=WP_010922676.1 BglG family transcription antiterminator (Streptococcus pyogenes) [pid:42.5%25%2C q_cov:92.0%25%2C s_cov:19.5%25%2C Eval:3.7e-24%2C partial hit],MGA_1179
sequence1	MetaGeneAnnotator	CDS	1275339	1277267	.	-	0	ID=MGA_1180;product=BglG family transcription antiterminator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986653.1;translation=MINEREIRILERLLEENVLNLENICEYFRVSKRTIQYNLNNINYFLSKKGFSKIGIKNGNILISSKLELKEFLESIKDKEYISRDDRITLIYLYALYNKNGLNISSLSKKIDISRNTLKLDMNLLDGEKFQYIYSRGYFLDWTNNKKIEFLDEIYNKKSLQKYIKEVIDFEIMKKVENFLKTLSVSIKLNINEEIYQKLIITIYTMIKFPEKNNTSTKFSLDEEMGNIKEIFVEYFGSHSSFEKIAEMLIGLSINPNFESWLDESFLIKKMIKSVGDEIGIDLTEDKILYDFLLTHIKVSIYRLKKGIKLKNSIYQQLVLENNPIIPIIKASIVEMEEIFEIKFTEIEISLIAYHFKASIERMKTFNRKKVILVCGLGYGTSRILEYNLKEKFDIDIVDVIPAYMIDKINLNSVDYIISTIDLENFDFIKINPLLNVEDYEKLDKLGIKRRQDKVLVDDLLDEIENNDINFDRNKLKNTLLDKFSNILVDSFKSESKLIKALNKNSVIFRKNVSNWEEAIELLGNNLVSKCSITNEYIDEMKKMVKKLGPYIVIYDGIALPHAKFEHSVMKTDASLLILEEAVDFGKGKKAKVLLCFSSKDNNSHLELLGDFYKLILNEKFLEDISRIKTYEKLMSYFKEKI;locus_tag=LOCUS_11690;note=WP_011986653.1 BglG family transcription antiterminator (Clostridium botulinum) [pid:26.1%25%2C q_cov:96.7%25%2C s_cov:97.1%25%2C Eval:1.9e-51],MGA_1180
sequence1	MetaGeneAnnotator	CDS	1277385	1278494	.	-	0	ID=MGA_1181;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSLLTIIFTPLILYSTIVDKVIYNGIENSKAIFLNSDIKRGEELDISKIDTLAENFKYVKNNNIDIKIEPSDNEGMSNIVINNKKTNPFKLSISLDNHGKNIEEGKYRYTINTGLEGLILNEKLDISYTFITPKLPNKIFKKDIDELLPGEELEEIKDKRFARRNENLNINLSFPIKNNKIYLIYSNSIYLKSLFTENDNRYDVSGVSNKYEIKIDRKVNRYINLNLGYYHIDRKSYVEDVKNAHDKINNISIGFNTRIKEKHKLNLKFNNKVINKKYIPSFNMEYKYKEMIDISNIIEYGKLNTDMSLNLKYRSIYSNIGFSTDYKYFSPNIKLGVNFNISRLNIDSCLEYNQVFRALFAIKFDIIK;locus_tag=LOCUS_11700;note=MGA_1181
sequence1	MetaGeneAnnotator	CDS	1278520	1279803	.	-	0	ID=MGA_1182;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIEEFLKSREKYRICRNFSEIPEYVKKMIHSNERSIGYSRDLITPLSDDYGLERLFKYIKEYQPRTYEVLKDAKNLMYGVYDEDYLEYRAKISDDFLAFELNGKVLILDREFYGKNPGQQYFEKFRFGRDVALPKELSYSYYCEFLGIGFPYEKYDAGFRNLPKSSFEWDDLDGYLEEIGIKKKRRIEVIKSYTKYFSKLLNKNANAEYLYTFMNTNVYSEKKNDNDYAFFVFIKIKYGDIYVIRNGDYERPKRLLNPVEAIDRYVAHVLSGKDNFNFDEYLEELDISIEEIKVYELVELTMRKTIIKDKEKIRDYIIYLSDSSEDIYYKTPSGEYEDISHFEFDGDEIEVIGFIKDEDGNTDFNVYYSYKKGKHLLTYSKLYETEEEKGKLYYCLEKLSNNGEIKEKVVKKDETKFYVDLWKFM;locus_tag=LOCUS_11710;note=MGA_1182
sequence1	MetaGeneAnnotator	CDS	1279859	1280104	.	-	0	ID=MGA_1183;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFIGIVLMVSLFSFARIKGVVINNGNIREERTRLALLNVTGINESKLSGMLETLSKDKLDVILSNPNGITLNGASFLNI;locus_tag=LOCUS_11720;note=WP_236585689.1 hemagglutinin repeat-containing protein (Fusobacterium canifelinum) [pid:36.9%25%2C q_cov:79.0%25%2C s_cov:2.1%25%2C Eval:8.9e-07%2C partial hit],MGA_1183
sequence1	MetaGeneAnnotator	CDS	1280250	1280975	.	+	0	ID=MGA_1184;product=acid phosphatase AphA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000757296.1;translation=MKKLLLLTALMSITTFAAGPKVPYTHEGFYTTENVQKAVHFVSVEQIEKSLEGQGPINVSFDIDDTLLHSSGYFRYGIDYFQIPNHPRGRNSYLDNQKYWDYLAEMGDEHSIPKISAQKLIDMHLKRGDRIFFITGRTKHSKDKNYSSTKTSKTLKRFFNLPYEVYIEYAGEKQVGGYKYDKSFYIKKHNVSIHYGDSDDDILAARELNIRGIRVQRAYNSTNPQKLNGGYGEEVLINSAW;locus_tag=LOCUS_11730;gene=aphA;EC_number=3.1.3.2;note=WP_000757296.1 acid phosphatase AphA (Streptococcus) [pid:51.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-58],MGA_1184
sequence1	MetaGeneAnnotator	CDS	1281066	1281245	.	+	0	ID=MGA_1185;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGNLHSIRHTFITKMQQLQIKVSIIKNIVGHEEKNVTDGVYTHWSIKDLRDAINQLKY;locus_tag=LOCUS_11740;note=MGA_1185
sequence1	MetaGeneAnnotator	CDS	1281635	1283638	.	-	0	ID=MGA_1186;product=type IA DNA topoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861544.1;translation=MKLIIAEKGSLGRNIAQAIGIIKKNEGYIECKNDFVVTNAIGHLLELKQPKDYEENVGKKWREYTLPFIPNNFVYEVKDDVGVKKQLNVIKGLMKKADLIINCGDADREGQIIVDNLLKFNVNKAPVKRLWLPEQTEETIRKELNNLKDNSDYYNLQQEGYARAYMDYLLGHNLTIMFTNLSGKMLNAGRVLVPIVKYIYDRDKEIKNFIVEKYYSVENENIVKLISSNKFKTIEEAKIYSNKLNSKKAKVIGIDSKEVKKQSKKLFSLSTLQSELSKKYKINFANSLKIIQELYEKGYLTYPRTNTEYLSENEKGKVNDILGVLNNEDLEFKDSKKVFDDSKIESHSAITITTKIPGELSVEQDKVYKMVYNRFLSNFVKEDCIVSETTMIIKVDEEEFKLKGFVVKQLGFMKYEPKEYKDKLPGLNLNDEFDIEFRSVEKETTPPSKVNESELSKFLKNPFKKEKNATEEEIYKDILEGIEIGTEATRTGIIDKCVKIGYLTLDNGVFDVTELGIFFINKLIEYDINFFKEKSVEFSKLQKKVYKNEMKLEEVIKKVEYELKAIVERTKDVKMPNIERKIEDIKGVVEINTKNGKCYKGLFNNEEVWLYPIMKYFNNELKITKSIAEKLCKGNYVEFELDYKGKKYMQKLRIVRNGKYINFKSKN;locus_tag=LOCUS_11750;note=WP_011861544.1 type IA DNA topoisomerase (Clostridioides difficile) [pid:33.9%25%2C q_cov:99.9%25%2C s_cov:93.0%25%2C Eval:1.7e-90],MGA_1186
sequence1	MetaGeneAnnotator	CDS	1283672	1284037	.	-	0	ID=MGA_1187;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELKIISKFCGMINGIEFNDENLYRSVEFLLEQIEYKFGEVYNNEFVDELKSTIYSMYFKYDDFDYFDLENKFYYCIQKVDKFNEIQFEYFGSDCEIEKLNENLLNGKYYNRNIHSMFNIE;locus_tag=LOCUS_11760;note=MGA_1187
sequence1	MetaGeneAnnotator	CDS	1284052	1285221	.	-	0	ID=MGA_1188;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKKDIHEILKESRLEILDEIVKAIDKDPLNWSKSWNPSMVAPFNPITKNYYSGGNVLKAAITCKELESKDPRWLTFLQIKEAGLKLKKGASSIQMEYWSFPKEKLTDDKLKELSEKEIKRIENKIALRVKKGWEFEDGFGNKIATPIDRNHKDFNLVAKYVENTPLPGYFNVFNAKDIEGLEEFKYPGVEKSDLWDIADDLIASCPVKVIEAAQDKVFSSSNLVTKKIVLPPRETFKNSQDFLAALLHEMGHETGNENLKRDKGVKGSLDYAKEELVAEFTSIMVQGRLGIKLGENSKNNHTAYLQNWIKVTKDRTHEDNYKPENELFKALSEASKSANLIMERYKEKRKELGKDYVDILEINVSKEKDKEISSNWDNKKEYKNLER;locus_tag=LOCUS_11770;note=WP_004323428.1 zincin-like metallopeptidase domain-containing protein (Bacteroidales) [pid:27.4%25%2C q_cov:91.0%25%2C s_cov:59.5%25%2C Eval:6.9e-16%2C partial hit],MGA_1188
sequence1	MetaGeneAnnotator	CDS	1285321	1285566	.	-	0	ID=MGA_1189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYDITSDCYDNEYLVYTKNELILVRENSYIKYSKTQNEWKELESLNMNTELFDNLREIGEEIINNLHFEDRIHNKEKDLER;locus_tag=LOCUS_11780;note=MGA_1189
sequence1	MetaGeneAnnotator	CDS	1285763	1286683	.	-	0	ID=MGA_1190;product=DUF3991 and TOPRIM domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000431475.1;translation=MNTSRSDINLKDLLEFLGEDVIPHGRNSFKLREHDSLIITNNRFYWNSRSIGGNYFTLLKELYGLSNKNIWNVTQNFLDAVEYGDYAPSVDVKREEKNKINYKVKMKCSLDKIKDYLCNKRGIDEKFVEALYHNDFLYMTYKNNIVFSIKDDNGNYLGEEVIGTGDIKFKSNTTECNGFNLTRRDIKENPIIKNLYVFESTIDMLSYLQTFQMEINDKWKDENVRFLTLSGLREDIFKQYIENIENVYVCVDNDVAGENFYEKVKEKYEGINFYREKSLKKDWNEDLLINRNKWYENDNKNIEIER;locus_tag=LOCUS_11790;note=WP_000431475.1 DUF3991 and TOPRIM domain-containing protein (Bacillus thuringiensis) [pid:28.4%25%2C q_cov:89.9%25%2C s_cov:86.5%25%2C Eval:3.9e-21],MGA_1190
sequence1	MetaGeneAnnotator	CDS	1286680	1287195	.	-	0	ID=MGA_1191;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLIILLINFSFSISFSNALNFKNRNNNLKPKKILITKNKDKENNDKKILILKKAKKLMGKKYVWGAKVGDYDNFDCSSFVKTLYKEVEINLPRVSKDQSKIGNKIPLDELEIGDLIFFHTLGNYVSHVGIYIGNNEFIHASSKANKTIVSKLSGYYRQKAVFGTRLGI;locus_tag=LOCUS_11800;note=WP_009903185.1 C40 family peptidase (Clostridioides difficile) [pid:47.9%25%2C q_cov:66.1%25%2C s_cov:29.5%25%2C Eval:2.0e-20%2C partial hit],MGA_1191
sequence1	MetaGeneAnnotator	CDS	1287260	1288006	.	-	0	ID=MGA_1192;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTYKVQEILNKMKKLNNIEFKIKGETKEFDIDFSQKNIPHLLGLQYINEKNNEMKGRTLLRNVISNNYSDEEILNKVEKNHGEKQMQNVKNRIDTFEAFMNNLEKGFIVEKTLDTKMNVNYLIIQSKKNEYYHLGIYSDENCDFILNFDELSEKEKDIIKTYFVEDNIEYFDKSNIIEEIQSISKYRDDKGDYIPFSFDEDKNIALLEEYERNKDFNYREFLKEFENNKENIWNVNKDEKDVYFER;locus_tag=LOCUS_11810;note=MGA_1192
sequence1	MetaGeneAnnotator	CDS	1288406	1288861	.	-	0	ID=MGA_1193;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILVINLLISAIGTLSYSNSSLEPIKVVAPVIAMKKEGKIDENERRIEILENENIELNEKLEKLSMLIKNIEEKQNKKKEVYTIYGFNSNKFTLNKNQMAIIDALITNLENKEIIVVGYTDTDGNDKYNLNLGLSRANSVKAYLESKGI;locus_tag=LOCUS_11820;note=WP_011261289.1 OmpA family protein (Aliivibrio fischeri) [pid:32.5%25%2C q_cov:49.7%25%2C s_cov:35.2%25%2C Eval:8.2e-08%2C partial hit],frameshifted%2C insertion/deletion at around 1288408,MGA_1193
sequence1	MetaGeneAnnotator	CDS	1288927	1290243	.	-	0	ID=MGA_1194;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=METKVSDENKHFFNWSTEELDLEYLDEKLKDDKDFMMEAIRYKWDQPILKYASDRLKDDREFVKEAARHNSCNLYYASERLRDDRELVMDNIWKADDLLGRVSKRLKDDKEVVRKAVIKRGWNFVYASNRLKDDLEIVKIAVEKNPYLLMYASDELRNNKGFVLNLIEKDYDVLEYVEDKFRDDKEFMGVVARNYSDELFLQYASERLKDDKEFVLEVVKTLSWNLEYASERLRDDDEVVMAALEKRSNVFQFASERLKNDREFVIEAAKYCPRNLENADEKFRDDKELVLEVTKCCPWNLAFASDRLKDDKDVAMRAIEKNSRLLEYVSDRLKDDKDFVMEVTKDKTWNLSHVSERLRDDEELVMESIKNEYNAGNLYYASERLKNDREFILEAARYNYDVLIFARDEVINRVEKKENEKMESPWDRKDEKDRDFER;locus_tag=LOCUS_11830;note=MGA_1194
sequence1	MetaGeneAnnotator	CDS	1290288	1290665	.	-	0	ID=MGA_1195;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDIKIISKFKGTINDVEFNNENTFYSVEFLLHKIEDKYGTCYNDKFIEDLRDTIDVMNYKYEEFSYSELEREFYEDIENSSKFNEIAFSYYGSDWKIEELNKSIAENEYDIWEIKKENKYTEIER;locus_tag=LOCUS_11840;note=MGA_1195
sequence1	MetaGeneAnnotator	CDS	1290687	1291328	.	-	0	ID=MGA_1196;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVKMENKNARDNMIANLEGILNKLKTNNIDEYDNIQIFNDLTSTMGNISKSFDEVVNDHIIDCFNDLENVLNMEEFKETGDISYLIDRVSNSVYDDFIFYDKNEKLKFDFEYIHSGDFYYDTLENIQETYDKDILNDSNKFIPVLISNGVNSKLHEMLDELNIDVNVREDNGIEVLNQMIDYINEKNDISLDYIKEENSWDLKKDDKECEMER;locus_tag=LOCUS_11850;note=MGA_1196
sequence1	MetaGeneAnnotator	CDS	1291344	1291799	.	-	0	ID=MGA_1197;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRNRNFIDSGIFEKANAFSTINSKKMEEIKIEDFLKIFDASLERLEALRDSVKGNGFREKELKEAIGEIIDKIEKTINEQSVRLEKEIPYEKHMEIMKDHDGDGLSTREELERGLDPFSKDSDGNGIDDREELYLSEIEKQKKLEKERTIF;locus_tag=LOCUS_11860;note=MGA_1197
sequence1	MetaGeneAnnotator	CDS	1291789	1292079	.	-	0	ID=MGA_1198;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIENIILEIIKEKRKVRKHKSTSNRKERTHKLIILGTLFTLLEIENVDQDLLLGILMNYYYLNDKEKKELKEKGKIFKIEREKYLKEERIKNEE;locus_tag=LOCUS_11870;note=MGA_1198
sequence1	MetaGeneAnnotator	CDS	1292076	1292543	.	-	0	ID=MGA_1199;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMKKIERIYFIVLATILIVFSNIRVNISESSPIGIYLVNRFSKNYSKGDYVVYRIDKKYKEYVNEKLKDLDTVKQIKGVAGDEVEYIDNKIYINKENVAEIIYEIPINSRKKYIISENEFLTIGDVSYSVDGRYYGTIKKKDIKYKVHLIYRIRI;locus_tag=LOCUS_11880;note=MGA_1199
sequence1	MetaGeneAnnotator	CDS	1292553	1293551	.	-	0	ID=MGA_1200;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRKILFSILLLFSMFTFASYRLDTITFKNVNYSLNIKKDILKSKVIPSVNGNNLNNGEINYTPTVSYDFDGIATLMGQYMENGLKSLQKIGIFIVSVLFGIQLTIDLYSVYATLKLEEFFKTFIKRLMTFSLYLFAIRKIVDGTVFRVVEELSYQLLKLLTGEPGIQKLSNIWRIKNQVTYNVWQGIANLWGAGSFFPSEFVRDFILTLILLAVIVFLNIAFFMMMLNLFKALISFKLVLGLSTILIPLGIMDSTKEYYSIGKILSMGLNFSVKLISVNFIASVIMKTLTNNNSVLNLSITDVSTALSSNFIVFLLLISVMRHLITKVEINF;locus_tag=LOCUS_11890;note=MGA_1200
sequence1	MetaGeneAnnotator	CDS	1293848	1294138	.	-	0	ID=MGA_1201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIDSTDVYRMIMDAKNSIHVPDISNLVTINELDSFAESTKEQVYLLRDEDKRLQDEINGLKSLMEDIVKENKELKQEIEKLKTEKSDKDYYSLDI;locus_tag=LOCUS_11900;note=MGA_1201
sequence1	MetaGeneAnnotator	CDS	1294205	1295788	.	-	0	ID=MGA_1202;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINNFVQIFSDMLSTGVLRTVSIVLFFMSVIASIDFILAFIFEYSNDFMSFIKVFLTKIFRYSIFFAIARYYVPVTDEFVNIIFRIGYLFFPSGRVPRGRVGLPDFDEIFKFLYAGVTHIRKDWEKLSWTQVGGQLTYLIIVLIVIFAIFLIIKEIIVNFVELKIIIALGVLLLPFNVFEQTKSIGSKLFHALLNSAGKLLVSICITGVTLQILQNNTFKSNGLIGVQIGNAISWTFLLGLAAYLVTNSRELGSMLINGTGSGNANNIFGQAMSTAISGGTAAVGGAVVGASAIKGGLSKGTAAFKDGKNMKGIFNAAIKGMKEGSTIAKSGRLGKLGGKLSRGLQNTVGYASGSRSVMNAASDIWGATAGTTSEQVMHDGEAFATMKENLGYDEVGKASDYVGTFDAVKEAFKEARDSFRTDKTSDMPHSKYERYKEAFKTFREKMSNPNTKQDLYEKAVDKVNDKHKIHETRRNYMNERRYNPYTTNEQGQRVKKDIWNEDIGKEILKDNSNKRDDETNNRNQYK;locus_tag=LOCUS_11910;note=MGA_1202
sequence1	MetaGeneAnnotator	CDS	1295799	1296851	.	-	0	ID=MGA_1203;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFGIIALIGTLSFSENLTSKVEIGSSDKNLNVSTSQDNKSNPKDEKKKEEAKRKEAIKNLDAVDKNIKDTGQLSKNFDFDKMFDDIDNYWEKISDGTDNIFKNISIAGDVVTGITGIAGSFPGFGGISVIGTNIQAVLQKILAMKNRVDQLKQYKRYIDSVRSLGKSDVKNLTGVYNTLNSLSSIINEGVALTDMTKGFANDIKSADLSTGEGWELLLTGNKKVQEQNNNAYDKVAGEDYKLAIDTINRTKKKLQQINPKNEVQNLQQLNGQMNILIQVMEQLLNNQSASAATMIQAENKRLEEEIAAKEIKKAEVERLREEIKEANRLVKEIKLGTRFVGSVNGNR;locus_tag=LOCUS_11920;note=MGA_1203
sequence1	MetaGeneAnnotator	CDS	1296848	1299400	.	-	0	ID=MGA_1204;product=conjugal transfer protein TrbE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013368411.1;translation=MLKQILNNYKKSYKFFVPFESLIEDGIILNKNSGFQSTFKVRFYDLDYMGEDEVTLINDRLNNAYKRLPDGFSVHFEVQRNKSDKYPTKNLKGKPYPTQIIDKIREKSVTKDVFYSTEYYITLTYIMSNDNSEKITKLLDKLSNLFMKNKVKEDSKEELLKIYKNELKEYKDQVLMFIEQLKTAAISAELLKGEELLGFLYSAINMEKREKIRVPVDDTMLLDEYLTVSTLSNGEYTKINDEYVKVITINMFPDNVTQRIFNQLESLNFEYRYVTRFIMLSKEEALEMLKNFKIYFSAKVKTLAQWMLEVKNGTEVQNIDTVALDKVDEADFALNEAKTGVVAYGYYTFSFIIKDKDLEILDKKINEVRRILNFYDFVAGVDKYNTLDSIFGSLPGNIVNNVRKAPMNTYLLSALLPMSSLYTGNKINNHLKDVALFTTKTEKELFYLNLHNKDIGHSLIIGPTGAGKSFLLSMIAANFLKYEGKVLDEYGSSKIKPAQVFFFDKDASSRVLTYTSGGKFYDLGKKEIAFQPLKNIHIKSEREWALGWIINILEQERVSYDATTRNIVEKALDSLSIAKVESRTLSNLRTYIASSSKTIASVLDSYCGNNVYGEYFDNNFDNISNNNFITFEMGDVISKPKVISPLLDYIFHKIETEKLDGTPTVILLDECWIFLKNEKMRDKINEWLKVLRKKNTSVIFATQSLSEIADSPIFSAIVDACKTNIFLPNEKAMSTWLNLYKKFNLTEKEIQEINNAVMKQDYFVKTTEGSRLFQLNPTDIEIAYLGASTNNDQNTIISLKNKIDNEILSGRDKILNLNKEWINYKYKIGEVSLNSINQIKEILNEKEKNK;locus_tag=LOCUS_11930;gene=trbE;note=WP_013368411.1 conjugal transfer protein TrbE (Ketogulonicigenium vulgare) [pid:31.5%25%2C q_cov:92.2%25%2C s_cov:93.1%25%2C Eval:5.2e-108],MGA_1204
sequence1	MetaGeneAnnotator	CDS	1299418	1299660	.	-	0	ID=MGA_1205;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLPVYKGIMENKTSFGIPLSAFMYLGVFALLLYIFLKTFLIIIPVAILFIVLKIVSRKDSKFLNVFFINLFHGNFYGF;locus_tag=LOCUS_11940;note=MGA_1205
sequence1	MetaGeneAnnotator	CDS	1299657	1300484	.	-	0	ID=MGA_1206;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKLILTLSLTMFLSCSNITNVEKTFLNTYPIKNSNEIEKLFIKGKLDLRNDEINLYHIENLIVDNIPKILLDINYEKGIVDSFIINNTMGDKVILSFNNLGKNRTIRKEIIFARLPKESTLEFKLDNEYQVIDNTIFEIKSVIKNNYKWIKLVPYFLDEDTFEEKAKQIIEKEVSPSFYENDLIIELNNKKTINNTVYKETEAILGNGKVIRGYGEPQSEIILEFDTFKISTMVDSNGDWQLIIPDSSIGNLKIIQKTIDGKIIYTELPGDQL;locus_tag=LOCUS_11950;note=MGA_1206
sequence1	MetaGeneAnnotator	CDS	1300489	1301136	.	-	0	ID=MGA_1207;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDNKTARDVVLKTRNDAILTIAYNINKMVFLPKVEDDFNFRADNKLRLIAHILRNEFKSGHYVDEKFIEENKLTLKKEQYPMIFEYLRETDEETGSKSYRYFKKYNIEQLNEKDKVEELLKDKEEIKRKKYNLRKVNLEEFFNENKLDLLNKILFIGILRIITGKDINLGYKYEKEERELIINIAQEKPEIIRKMFIETDIFVNRYLYENELKEE;locus_tag=LOCUS_11960;note=MGA_1207
sequence1	MetaGeneAnnotator	CDS	1301179	1301910	.	-	0	ID=MGA_1208;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKKYKVQKILNKMRKLNNIDFIIKGESKEFDIRLGIENIPHLLGLHYMDENRTRPMDKIKLIMSNNISDKDILDKIYKIHGTRQMTNVKNRIDTFETFMNNLEKGFIVEKTLDTKMNVNYLIIQSKENEYYHLGIFSSDNGTLLLEFDELNKDKSFLKTYFVEDNIVYFDKSNIIEEIQSISKYSEDLEEYIPFSFDEEKNRALLEEYKINRELNYREFLKNFENSKDNTWNIKKDDKELER;locus_tag=LOCUS_11970;note=MGA_1208
sequence1	MetaGeneAnnotator	CDS	1302208	1302882	.	-	0	ID=MGA_1209;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYGIITLLSGIFLFNIGYSSTENNDKEIYDWLKNMRDIDKNADLNLDVGGLGEYKFAFIPQLKKILQVKVNKDASNLDSKDIDKWKEKLGIKNNENTYFTKSQFDKLNNSVNTANSGVASAIATASTIKNLGNKKHTISGSIGYYGKEVAGAIAYSTHYKNFGFGANASFNSRLEVGAGLGLSYTFGKDEDKRLQEEINSLRKIVEDIVTENKELRNSIKKI;locus_tag=LOCUS_11980;note=MGA_1209
sequence1	MetaGeneAnnotator	CDS	1302900	1303859	.	-	0	ID=MGA_1210;product=P-type conjugative transfer ATPase TrbB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013533270.1;translation=MTDLEISRELENEKKINFLKENLVGIEKWLNDENISEISLNQDGKIYLDIKGKGRIDSEKTLSKVDGENIIKLVAAFSGKQITEETPIISASLPDGSRFEGLMHQVTNFSPVFSIRKHTTEVIPLEKFVETNFMTNEQKEYIEQAIIDKKNILVVGGTSSGKTTFLNACLDKLKDSEDRISVIEEVRELKCEAKNINFFTSTETVSYRDILRSNMRLNPDRIILGELRTGGETIELLKAWNSGHSGGLATIHANSTLAGLKKVEQYIDEVTVKSQHYLIVEAINVVVNIVRDGTRRYIKEIAEVVAYDKENDTYILNKK;locus_tag=LOCUS_11990;gene=trbB;note=WP_013533270.1 P-type conjugative transfer ATPase TrbB (Mesorhizobium) [pid:41.0%25%2C q_cov:90.0%25%2C s_cov:88.8%25%2C Eval:6.8e-56],MGA_1210
sequence1	MetaGeneAnnotator	CDS	1303870	1304163	.	-	0	ID=MGA_1211;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRNNKIKQLQQKLAKAVEVEKEKFVDTVKKLLDKYPIYTICSTSDIEKIFKYISENKDKNPIIIELLYEETKSKKEIEDKKEENINEVIEDINNFE;locus_tag=LOCUS_12000;note=MGA_1211
sequence1	MetaGeneAnnotator	CDS	1304160	1306052	.	-	0	ID=MGA_1212;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSDIKKLKWKNMKSVEKRFVIGTISIIILTHILILFFYLSNYARILNYPEYFSKYILLEIDKIKIYYPNKFMYLALSKTPNAARWAKYEYLALQVLIFIPYIILCFPIKWIPKDTSHGSARWATFDDLGLSGFLTPRISAKAFELNLLEDSGVVLGEVDGRLIRDNGKTHILLSAPTRTGKGVSVIIPTLVDSWKDSVFVLDIKGENYQMTAGWRQKEFNNTIFKFSPLSIDSCSFNPMKEVRYLTPDEIDDAKTIAQIIVIDEGSSDPFWGLAGSDLATTLILYELYKGKGEANLSNVVKFITDPTGPLELRLKKLINKPIFDPDRDEEILEKLLEIYTAQDDQEQIKRGIHPFIDRGIADALGKGEKTLQSIVATAKSKLSIFESPNVEKNTSISDFRILDLMAADKPISLYIVVPPGQIQPLAPLLRILIIQCVQLLTPEMDYSGNSNKIKFKHRLLMLLDEFPAIGKMEILEKAIGFVAGYGMKMMLVVQSLDQLNKIYSENNMFMGNCQTQVFYTANDNKTAEYISKTIGQETVISKSVSSDGGGFFSKKNVSVSKSGRDLIRPDEMRRFPLDKILLLVGGKPPIKSNKVLFFKDKRFKDKVKLPINPTPAMQREIELQKGSEK;locus_tag=LOCUS_12010;note=WP_013368406.1 conjugal transfer protein TraG (Ketogulonicigenium vulgare) [pid:35.0%25%2C q_cov:79.8%25%2C s_cov:70.4%25%2C Eval:9.4e-80%2C partial hit],MGA_1212
sequence1	MetaGeneAnnotator	CDS	1306067	1307464	.	-	0	ID=MGA_1213;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEKNIAISVLERMNYHLDILNNQMYNVSDEEISEVKANLILDTEELVDNIKKMEEIVNKVNQNNENKTLEKENIKEEIIREEKTNSLKNLKILFGIIALILLSIVSITIYKNVPKIEEVEEIEIADPNSFRITENDTTDEDKPFEKIEDIEDTNFEKIIEDTIKDKDKKHEEVNLEKNISEAEVSNLDENRVEKDHEELDRAIAELENRSHVNEVLGKKNSVEGLTFIRKSKENDDKKKEITRNRYKLNEEVENKVENIIDRKNKIASSFNDYLVQQGSVIPAIFLTEVNTDLPGSVLAQVRENVYDSRTGNYLLIPKGSKLYGRYESNVSKGQTRVFMVWDKLSLPNGKYIELSEFHAGDNLGNSGVSDKTNNHTWSLIGNAVLSSVLNFTDTLASGVSFNLGGLKIGLNGQSKDGKDTSPFKEVTSHLVKKEVERQPTITIRRGYKFNIIVNGDMELEKYKY;locus_tag=LOCUS_12020;note=WP_015664062.1 TrbI/VirB10 family protein (Bradyrhizobium oligotrophicum) [pid:36.7%25%2C q_cov:43.9%25%2C s_cov:50.6%25%2C Eval:3.2e-34%2C partial hit],MGA_1213
sequence1	MetaGeneAnnotator	CDS	1307482	1308177	.	-	0	ID=MGA_1214;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQNMLKNQLSIISGKSAAVYNVSTEFNYFKSSIYQVYTKPNFTTVLKLNADENLVYVGGGDTENWQIDETSGGSDSSTFLFVKPLFKGLKTNLNIITDKRSYFISLESTEREFNPYIQWKYPYENNMSHFKKSGLKEKNQEITLGKSEDISFGFKYNKNNKLAPEQVFTDKEKTILILNDKLQEAPVVYVYGEDNVLNLVNYRMIGNKIIIDKVVNKFQLVLGNEKLDITR;locus_tag=LOCUS_12030;note=WP_013533263.1 P-type conjugative transfer protein TrbG (Mesorhizobium) [pid:28.1%25%2C q_cov:91.3%25%2C s_cov:63.5%25%2C Eval:1.9e-18%2C partial hit],MGA_1214
sequence1	MetaGeneAnnotator	CDS	1308359	1308844	.	-	0	ID=MGA_1215;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGYEEYCLWKRKNILKIINNEIDVFVYDVEKNIDELNKFLGDEKTIDELKDYEKRAEKDEEKIFYQEENIINKFSEFIKELKEDTKEEYKVIKKELEEFFESNPEYSDLEFNEEVIQQIIFEEKVLENKTENIVDIYQIPINYRGKIFEIDYEKKEIRKIS;locus_tag=LOCUS_12040;note=MGA_1215
sequence1	MetaGeneAnnotator	CDS	1308846	1309550	.	-	0	ID=MGA_1216;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENKISKMRKNFIVDESKTSRNREKIGIGIERYINISESLNTWKKAFIGMSILSLMLGGVSTFLFISKTETKSYLIKVNENNELVGAEKLTNQISNIGNREIEYFMKKFIKDTRTITLDKKVFDKTIKEANYFLNKETQSKLGSILGSENINSFFENKKTREVEILSFVAIPEVEKTYQIRWREKYYGTSGELEKRKNLNAIVKIRNFSPNSEQIMLNPFGIIVVDFNMQVEN;locus_tag=LOCUS_12050;note=MGA_1216
sequence1	MetaGeneAnnotator	CDS	1309537	1309830	.	-	0	ID=MGA_1217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKENKISKMRKNFIVDESKTSRNREKIGIGIERYINISESLNTWKKAFIGMSILSLMLGGVSIVKILSGTTVNENVKKIKIVELEKIKFLGEDNERK;locus_tag=LOCUS_12060;note=MGA_1217
sequence1	MetaGeneAnnotator	CDS	1309817	1310218	.	-	0	ID=MGA_1218;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKFIKKIETKYLILLGVLFLSTLALADTNKVSVVGFDKAATYFVSVFGFVKFLGYISASIYFIFKLLEFITSQQWDQLLKSFLIFAVIVGAIYGISSIVKILGGTTVNENVKKIKIVELEKIKFLGEDNERK;locus_tag=LOCUS_12070;note=MGA_1218
sequence1	MetaGeneAnnotator	CDS	1310817	1312340	.	-	0	ID=MGA_1219;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAMFRLRYKCGKKALAHLSYINGEDKYISKKEHVEFIETKNLPENFKDINEFWEAAILYERSNANIYREFEITLPKEFSKEKNKEILDRFLEKTFGDKYVYNYAMHNPNSEQPHAHVMFCDRKLDGVLREKNKFFKRYNPKNPEKGGAKKDTIVKSKEYVNDLRKNWEVHLNKYLEAEGIEKVSCDTLKKQREEAIEKGELLKAEKLNREAIHINKKIKYQKIDKENIDAYDLYERIKMNEYMKDKKIRDEIDVLYKKEFIKEKYEEKKKEFNNYTFEKILEEKEKVEYDIFKLSKKMSERSLENEAINILTRGESNKNKNEKNHLFKMIKKDRANKSKYKKRINEINKTLEEFLEKNKDAIIDKKLELKAKYMRPFKFKMIEKEIVDKIFIKTLKKNYSNEPDKINLYKAYIDRKDLRDEKLNEIKKVEENKNKMKNFVEKKDYGSAKIIQNINRVLYKNIKSLDRINKKFNRDIKVQNQILKHGEFILDEYKNILSDEEMEIERE;locus_tag=LOCUS_12080;note=WP_011241757.1 MobQ family relaxase (Ligilactobacillus salivarius) [pid:23.3%25%2C q_cov:76.3%25%2C s_cov:59.2%25%2C Eval:6.1e-18%2C partial hit],MGA_1219
sequence1	MetaGeneAnnotator	CDS	1312435	1312719	.	-	0	ID=MGA_1220;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILVAILLLLTFTISCGNKEEKKIEEIVKEGIYTKKDIVELRKYVSLEEIEKMSKIRKKEREQLEKELKEAKEILENTKLGESFVGSVNGNR;locus_tag=LOCUS_12090;note=MGA_1220
sequence1	MetaGeneAnnotator	CDS	1312789	1313154	.	-	0	ID=MGA_1221;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTFILLIYGLLIIAITNLFSIKYFGINIIYLFIFNLLFLLFFKIKIIYLLYISFTIFVLISFICLILVIFNKIRLWKSLFKKIKDIEQKKLEIMIFKLIKKVVVGIIILLVFMIFVFVYK;locus_tag=LOCUS_12100;note=MGA_1221
sequence1	MetaGeneAnnotator	CDS	1313266	1313952	.	-	0	ID=MGA_1222;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDILEKKEILGVELVIFGNEVSPMFNANEIAKIIENKNVSQMLKDVEEDEKELVIVTRGDGKTHKQWYLTEDGLYEVLFSSRKPIAKKFKKQVKEILKTIRQKSGYIVVRKEDNEITIKQRIDNLMKEACERLEKLQTKLIEYEEFFDEGKEYISLNFLANKYEKTTEELIKILTEKRFIYQRGKTIYLYREHKYKNYAKYFKIKGKNVLKFTLKGESFIDSLIKKEK;locus_tag=LOCUS_12110;note=MGA_1222
sequence1	MetaGeneAnnotator	CDS	1313954	1314325	.	-	0	ID=MGA_1223;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKEFYLKKTENNEVIFFFRNINKNSVPKKIWIEEMNKKILFYNSKTTFERLLNFLEVRNKIEHKLDDVEISIWIGKEYKIVKIKMSNQINKFENLEFSTSNYINTGEEIYIIKKNNNINERLK;locus_tag=LOCUS_12120;note=MGA_1223
sequence1	MetaGeneAnnotator	CDS	1314375	1314728	.	-	0	ID=MGA_1224;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFYKYNDIQYNNFYTIPKEFILNKKFKKISLESKLFYGLLLDRLNLSIKNNWFDKDGNYYFYFSVEETMKTFNISNKTAIKIYRELEECDLLFVKRQGVGKPNILYLKKINFKKLDR;locus_tag=LOCUS_12130;note=WP_001181101.1 replication initiator protein A (Staphylococcus aureus) [pid:45.9%25%2C q_cov:90.6%25%2C s_cov:33.3%25%2C Eval:4.9e-21%2C partial hit],MGA_1224
sequence1	MetaGeneAnnotator	CDS	1314746	1314946	.	-	0	ID=MGA_1225;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYNVGNISKILQISRKHFEILCLSGNLDFVYVIKKGENGKKRNVFVFNPLKTEEYIQNYIKKVK;locus_tag=LOCUS_12140;note=MGA_1225
sequence1	MetaGeneAnnotator	CDS	1315315	1315674	.	+	0	ID=MGA_1226;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIGEKLKIVREELNFTIKDISRLTKIPIPTLYGYENGHIKNIPNDKLVILANLYGKDLSYFLDFKKDNIILNHEMKLLDSLLTINEEIIIQLTGDEKIANEINYYMIKRIKKNLINKH;locus_tag=LOCUS_12150;note=MGA_1226
sequence1	MetaGeneAnnotator	CDS	1315733	1315969	.	+	0	ID=MGA_1227;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTLKTTRIKLNKNIFAEIFFLNDTIYFFINESISKDEYKYTCLILINQIENNYGQDFKIYRSNINNNTFNKTEKKLGV;locus_tag=LOCUS_12160;note=MGA_1227
sequence1	MetaGeneAnnotator	CDS	1315975	1317015	.	+	0	ID=MGA_1228;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRRANGTGTITKLKGIRRKPYIIRAGSYYDINGKLIRKTIGTAKTLKEATEILNKYNAKVLKRENYEITLCDLFEHWKNSEHANNLETIETYKRYISDFSTIFEPIINEKFIFLEYNDYQSLLNSFPKTKGKNALTVLKWIYIYSIKNKITKENISVFLNSSNIVVRKIKREIFDDNIVKSLWLDYENNNSNEYVAIFLILFYTGMRTRDILNLKNQNIFLNERYFITGSKTKAGRNRKIPMHHLIFPIIKQHYSKEKEYLFENITSDNLRVKFKNKIYDLSQREYNNINLHSIRHTFITKMQRLKDVKASLIKTIVGHSHSNITDDVYTHYSVKDMRDAVNKLKY;locus_tag=LOCUS_12170;note=WP_011016688.1 site-specific integrase (Fusobacterium nucleatum) [pid:24.9%25%2C q_cov:57.5%25%2C s_cov:65.2%25%2C Eval:2.0e-08%2C partial hit],MGA_1228
sequence1	Aragorn:1.2.38	tRNA	1317209	1317284	.	-	.	ID=Aragorn_28;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00270;note=Aragorn_28
sequence1	Aragorn:1.2.38	tRNA	1317289	1317375	.	-	.	ID=Aragorn_29;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00280;note=Aragorn_29
sequence1	Aragorn:1.2.38	tRNA	1317402	1317476	.	-	.	ID=Aragorn_30;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00290;note=Aragorn_30
sequence1	Aragorn:1.2.38	tRNA	1317485	1317561	.	-	.	ID=Aragorn_31;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00300;note=Aragorn_31
sequence1	Aragorn:1.2.38	tRNA	1317580	1317656	.	-	.	ID=Aragorn_32;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00310;note=Aragorn_32
sequence1	Aragorn:1.2.38	tRNA	1317683	1317758	.	-	.	ID=Aragorn_33;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00320;note=Aragorn_33
sequence1	Aragorn:1.2.38	tRNA	1317762	1317837	.	-	.	ID=Aragorn_34;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00330;note=Aragorn_34
sequence1	Aragorn:1.2.38	tRNA	1317852	1317928	.	-	.	ID=Aragorn_35;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00340;note=Aragorn_35
sequence1	Aragorn:1.2.38	tRNA	1317946	1318031	.	-	.	ID=Aragorn_36;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00350;note=Aragorn_36
sequence1	MetaGeneAnnotator	CDS	1318270	1319142	.	+	0	ID=MGA_1229;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFNKSIYNKVIKISIIILSLLIILTLGRSAFLNYFFNKRETIVPKVTALHIDDAKKLLEDFNLKYSIIEYKSSEVPEDYVFIQDPKPESKVKVNRTVNIWVNKINSVEIPDLKGKTLIEARRILEEFNIQIVRIDYMPVEDIDEEIVLSIYPKVGSKIGTNQKVSLLVSSKSLIESKVMPNLIGLDKNDAANILAQIGQSIALVTEANDPAFAQNVIITTNPLPGENIEKDTKISVVLNTGVEVDKSITEVLEQKVESKKLDSNIEEILNKTLKEVEKKEANKENRAKGE;locus_tag=LOCUS_12180;note=MGA_1229
sequence1	MetaGeneAnnotator	CDS	1319143	1320024	.	+	0	ID=MGA_1230;product=ribosome small subunit-dependent GTPase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627939.1;translation=MIIEGKVIRKIQGFYFVYTNYTFNDIDDFENKLIKCKLRGNLKIKNKKDNCIIGDNVLIDTELNIIIEILERKNFLNRPLISNIDNLAITFAAKEPNFDIIQFQKLLLNVHKNNLVPLLLITKFDLMSEVEKKEIDDILKENFPYLKYFFISHNEYSEFKEYIYNKNIIISGPSGVGKSTLINNILGQEILVTGDISQKTKKGKNTTVDTRFFPYNNGFIIDTPGFSSIEFPNFKDYLDIREYFPEINELSSECKFSNCIHIHEPNCNVKKKLNKLRYDFYKLICQNIQEGGR;locus_tag=LOCUS_12190;gene=rsgA;note=WP_201627939.1 ribosome small subunit-dependent GTPase A (Fusobacterium canifelinum) [pid:42.7%25%2C q_cov:92.8%25%2C s_cov:95.1%25%2C Eval:1.5e-54],MGA_1230
sequence1	MetaGeneAnnotator	CDS	1320026	1320661	.	+	0	ID=MGA_1231;product=ribulose-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902077.1;translation=MNKEIIIAPSLLAADFSNLKEEVIKIGETKAKWLHLDIMDGNFVPNISFGADVIKAIRPYSQLHFDAHLMVEKPEWYIETVAKAGVNSITIHAEATKHLHRALQLIKSHGVKAGVSINPATDIGFLDNIIEELDLILVMTVNPGFGGQKFIDAMCQKVKRIREKFPHIDIQVDGGINDKTCLLVKEAGANILVAGSYVFSGDYNEKVNSLL;locus_tag=LOCUS_12200;gene=rpe;EC_number=5.1.3.1;note=WP_005902077.1 ribulose-phosphate 3-epimerase (Fusobacterium nucleatum) [pid:54.3%25%2C q_cov:99.5%25%2C s_cov:97.7%25%2C Eval:9.3e-62],MGA_1231
sequence1	MetaGeneAnnotator	CDS	1320671	1321333	.	+	0	ID=MGA_1232;product=MarR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902078.1;translation=MYDKMENLIDEFYKTYYKMEEINLSLAIKCLTTTELHIIECIGLEKITIKELSTRLGITMGTTSIAINKLEEKKFINRVRSKADKRKVYVSLNKKGQIAYNYHGNFHATTLEKVTKNIPENRLDIFLETFEELLNNLKSLKLNLEPEDLTHFNIGDKVEVTELKGNNVIKLALSEMGIKLKTSIEILDIHKDYITIKINDNEKLISKDHALYIFALKKEN;locus_tag=LOCUS_12210;note=WP_005902078.1 MarR family transcriptional regulator (Fusobacterium nucleatum) [pid:38.4%25%2C q_cov:91.4%25%2C s_cov:90.2%25%2C Eval:1.0e-34],MGA_1232
sequence1	MetaGeneAnnotator	CDS	1321336	1322898	.	+	0	ID=MGA_1233;product=fibronectin-binding protein EfbA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002288890.1;translation=MIYLDTVGISFLVKELKEELLNFKINKIVQYDNHSFSLFFSKKQLFFQIKDNESIIYIKEKKEESINFSASFLLSLKKYLDHAELTNISLPNNDRIIKLEFKRVNILGNLDTTYIVFEMMGRHSNIFLLNNEENIINILNNNTNIENKRFYSINSKYECFSNDKIELDLEKIYETPDDMIKEVSGIGKIFANDTFSNILLRKEYVNNYIPYIFTSKENYYITYNKFKKFENYEENIYPTLNKALNEYFTTFINTSLIRNKKTNIEKYINNKIKKNKKTLINIKNNIEKDKNYEEYKHIGDLLTSYLYLVNPRMEQIEVYDYINNTNVNIILNPNKSSSENLNIYYNKYRKCKKSIQIANERLILINQEQEYLESVLDFTQRENDFLGLIEIEKELGIYKEKSKKNSKEKKRELLKYIVDDFEILVGRNHSENNLITFEKAKNHDIWLHARNIPGSHVIIITNKKKVPEKVLLEAAKLAAINSKGSGNKTIDYTERANVKRINKFGNVTFNNFNSLDIRKG;locus_tag=LOCUS_12220;gene=efbA;note=WP_002288890.1 fibronectin-binding protein EfbA (Enterococcus) [pid:25.4%25%2C q_cov:97.5%25%2C s_cov:96.0%25%2C Eval:3.0e-36],MGA_1233
sequence1	MetaGeneAnnotator	CDS	1322906	1323739	.	-	0	ID=MGA_1234;product=glucosamine-6-phosphate deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016935.1;translation=MRLLIVKNAKDVGKWSAYHIAQEILKFNPNKDKPFVLGLPTGSTPLETYKNLIELNKKGIISFENIITFNMDEYVGLAPNHDQSYHYFMHKNFFDHIDIKKENINILNGLAQDLQAECQRYENKIKSVGGIHLFLGGVGEDGHIAFNEPGSSLSSRTRDKELTQDTIVVNSRFFDNDINKVPKLALTVGVGTITDSKEVLIMATGHKKAYAIHKGIEEGVNHLWTISALQLHRKAIIVIDEDAALELKVKTYRYFKDIESENLDFEKMEKELLMLKG;locus_tag=LOCUS_12230;gene=nagB;EC_number=3.5.99.6;note=WP_011016935.1 glucosamine-6-phosphate deaminase (Fusobacterium nucleatum) [pid:66.2%25%2C q_cov:98.2%25%2C s_cov:98.9%25%2C Eval:2.4e-104],MGA_1234
sequence1	MetaGeneAnnotator	CDS	1323854	1324291	.	-	0	ID=MGA_1235;product=GNAT family N-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005812737.1;translation=MEIRKIRKEDKDVYLKLTKQFYSSDAVLHNVDENNFLNTFNELMNSDAYTECFIIEEDTKLVGYCLISKTYSQEVGGMVLLIEEILILENYRGKGVGKKVFNFLFEKYKGYKRYRLEVDHGNIMAKKLYEKIGFSELEYVQMVIE;locus_tag=LOCUS_12240;note=WP_005812737.1 GNAT family N-acetyltransferase (Desulfitobacterium) [pid:43.0%25%2C q_cov:97.2%25%2C s_cov:96.6%25%2C Eval:8.9e-30],MGA_1235
sequence1	MetaGeneAnnotator	CDS	1324458	1325135	.	+	0	ID=MGA_1236;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_041272297.1;translation=MNILFYSWDLNSEKKYEDMLKLLDTTVNFTTDEKFVVKSLESGEVDILIFDTTNILNYKKLFQYKVDKMDKIIYVAITSPTNSFIIEEALSFGLNDYIYDNISSEAFLAKINAILYLLTRKNLFTSNAILKVKDLTLNPYTREAKRGDVEVSLTNKEYKLLELLVKNKNKVVTRETISEKVWGKEIQENKNIGDVYITFLRRKIEYGFPTKIIKTIRNIGYIIKD;locus_tag=LOCUS_12250;note=WP_041272297.1 response regulator transcription factor (Desulfitobacterium) [pid:30.6%25%2C q_cov:82.2%25%2C s_cov:80.5%25%2C Eval:2.5e-15],MGA_1236
sequence1	MetaGeneAnnotator	CDS	1325193	1327466	.	-	0	ID=MGA_1237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKKLLLMFSIIALQLLNASTKYNDGFFDDFKSRVNLTKVKHDTQFSNNQGIIGENGNEGKWAGVGPNGEPEGTATLLYTRIPSMIITNDNKLIVMYDLRWQDPFNPENPNKTVPIGNDHGRIDQGISISEDGGNTWERTHKFDKNNNDIFVNHTPDNPVRAFLGGVGTGIVMRDGTLVMPIQTSHQGAAGKKGIAATIMYSRDNGKTWKMPKNNDSTIVAPNQQSLENMVFEMGNKLVLAGRGGGNGNNLHRWAYYTEDMGKTWNVFEPLHLFQSVSSQPSQGSTLYVTLPSGKKVILVSAPKGNRDGYKRADITLYALSGKDKNQMQEIAIIKPGSGNGLGAGYSSLAYKGGNLFVAYEDMGDISVKNLTEHIAKIEELATSWNLEDERAKDIEKVQKLDSLTPEQKDSLTEEMMKDNDRAFTEAIVLNNELKDLDQKAEKYYEDLYEIPDALPSNIENFNRSLEKLWGNERNNLLKVMQVRMLKHRIDNAASKINEKIDFEPYKEIPKKLIYIQRDIVNNDDDVFAILGKKIGVNEKDFKFGFNHSIDNRKIGAFLEINKSKDKAKNVSIGTTFKTEFINYVFRNFVRYRHQSLNSNINNNKPDAIISDKIIRHNLETYSSIETKFNANKNISIIPKAGILLTYSHDSLLDMNVRLDRRVSASADFSVKTEFKYKKLKFKIKPEILVNDNTLHISQSNLSKKKLKIDNKIFEYNMKMGMVAKLSKINIGMDLNISDISRDYTNYELNFGAGYNW;locus_tag=LOCUS_12260;note=MGA_1237
sequence1	MetaGeneAnnotator	CDS	1327721	1328155	.	-	0	ID=MGA_1238;product=GAF domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000494335.1;translation=MNYELLYKELEALLSDEEFQISKMANMSAFIMQSMPDLNWVGFYIVHENVLKVGPFQGKPACSNIPKGRGVCGYTWENEKTTVVEDVHKFSGHIACDFASNSEVVIPIFDKNGNMIAELDIDSPKFNRFSKEDVKFLEKCVKLI;locus_tag=LOCUS_12270;note=WP_000494335.1 GAF domain-containing protein (Bacillus) [pid:53.3%25%2C q_cov:95.1%25%2C s_cov:85.5%25%2C Eval:1.2e-36],MGA_1238
sequence1	MetaGeneAnnotator	CDS	1328162	1329151	.	-	0	ID=MGA_1239;product=lipoate--protein ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000873993.1;translation=MKYIINESNDTAYNIALEEYAFKKLLNEDMIFLLWINKPSIIVGRHQNTIEEINKEYVRDNNIEVVRRISGGGAVYHDYNNLNYTIISKEDENRAFDFKSFSIPVIKTLESLGVKAEFTGRNDLEIDGKKICGNAQAYINGRIMHHGCLLFDVDLSVLSKALKVSKDKIESKGVKSVRARVTNIVDELPNKITVEEFKDLLLDYMKKEYPEMTEYVFSEEEIAEINKAKEEKFGNWDWNYGKSPEYNLTRSMKFEKGKIEVFVNVIDSKIENIKIYGDFFGIEDVSAVEDVLRGAKYEQKEVLERLNSINISRYFAGISAEEVMNAIVE;locus_tag=LOCUS_12280;EC_number=6.3.1.20;note=WP_000873993.1 lipoate--protein ligase (Streptococcus pneumoniae) [pid:80.8%25%2C q_cov:99.7%25%2C s_cov:99.7%25%2C Eval:5.0e-155],MGA_1239
sequence1	MetaGeneAnnotator	CDS	1329214	1330212	.	-	0	ID=MGA_1240;product=adenosine deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002368573.1;translation=MKREVVKRLPKVELHCHLDGSIPINTLYELAKREGIEEKRMDKVFAPQKCVNLKDYLNCFDVVLEVLQNKENLTEAAYSVVKEVFKENVRYIEIRFAPLLHTRKGLSIKEVVLAVSEGIKKAQLEVDVKVNILICALRHHKTELNNKLLDEIEKLDIVAGFDFAGDEKNYSNSVIKETALKVKEKKLKLTLHSGECGCAQNVVEAIYLGATRIGHGVAIQDDVDVMKFVVDSNVLLEICPTSNVQTDAVKSIEEYPFRTLMENGVKCCVNTDNRTVSNTTLTDEYMLLHKYFGLTYKEMESLNINAINFSFADEGIKKDVLENILDGYKEFF;locus_tag=LOCUS_12290;gene=add;EC_number=3.5.4.4;note=WP_002368573.1 adenosine deaminase (Enterococcus) [pid:43.2%25%2C q_cov:98.8%25%2C s_cov:99.4%25%2C Eval:4.0e-75],MGA_1240
sequence1	MetaGeneAnnotator	CDS	1330506	1332209	.	-	0	ID=MGA_1241;product=dihydrolipoyl dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011836965.1;translation=MALEVIMPKAGIDMTEGEIVKWNKQIGEFVKQGEILLEIMTDKTNMELEAEEDGYLLAILRQPGETVAVTEIIGYLGEQGEAIPTAGGTQAAASEPVVEEKAAPVAKKENGYDVVVIGGGPAGYVAAIKASQLGGKVALVEKSELGGTCLNRGCIPTKAYLHNAEIIEGISHAAARGIMIENPKFTVDMEKVLAMKGKVVKTLVGGVGALLKSNGIEVFKGVGKITKDKNVMVDGVKELVTDKIILAGGSKVSKINVSGMDSKLVMTSDDILEMKEVPKTMAVIGGGVVGVELGQAFATFGSKVTIIEMMDRIVPSMDAEVSNALRTALEKKGITIMTSTKLQEIVETDGKLTVKLEGKQDLIVDKALLSIGRVPDLEGLGEVEFELERGKIKVDEYMETSVKGIYAPGDINGTKMLAHAAFRMGEVAAENALKGNHHVAKLDLTPAAIYTLPEVAACGLTEEQARERYDISVGKFSFTANGRAIASDENYGFVKVIADKKYGEILGVHIVGPAAAELINEASSIMEMEITVEEMLKTIHGHPTYSEVMYEAFADVLGLAVHALKKN;locus_tag=LOCUS_12300;gene=lpdA;EC_number=1.8.1.4;note=WP_011836965.1 dihydrolipoyl dehydrogenase (Streptococcus sanguinis) [pid:76.5%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:5.5e-249],MGA_1241
sequence1	MetaGeneAnnotator	CDS	1332221	1333288	.	-	0	ID=MGA_1242;product=dihydrolipoamide acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000752705.1;translation=MERKIFRATPAARKLASQLSLDLSAIPGSGAFGRIHKEDVASYKAEASIKISPVARRIAEDNSINWQELKGSGIRGKIMKSDILALLSPDKKESYVAPSKEKEYINQEKTNVEQQLDDKKDKYGEIEVIPMTAMRKVIAKRMVESYLTAPTFTLNYDVDMSEALALRKKLLEPILAQTGKKVTVTDIISLAVIKTLMKHKYLNSSLTEDGQKIIAHNYVNLAMAVGFDGGLLTPVVYNAEKMSLSELVVALKDVTSRALEMKLAPSELQGSTFTISNLGMFGVSSFGPIINQPNSAILGVSATIEKPVVINGEIKVRPIMSLGLTIDHRVVDGLAGAKFMKDLKELLENPITMLI;locus_tag=LOCUS_12310;note=WP_000752705.1 dihydrolipoamide acetyltransferase (Streptococcus pneumoniae) [pid:69.9%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:3.6e-133],MGA_1242
sequence1	MetaGeneAnnotator	CDS	1333299	1334291	.	-	0	ID=MGA_1243;product=alpha-ketoacid dehydrogenase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002900354.1;translation=METKLMSFRDTIILAMSEEMRRDPDVLLMGEDVGVFGGDFGTSVGMIEEFGPERVRDCPISEAAIAGAASGAAMTGLRPIVDVTFMDFVVIAMDAIVNQAAKTRYMFGGKGKVPVTFRCAAGNGVGSAAQHSQSLESWFTHIPGLKVVAPGTPKDMKGLLKASIRDNNPVIILEYKSEFNQKGEVPLDPEFVIPLGVGEIKKEGTDVTVVTYGKMLSRVMKAAEDLEKEGISVEVVDPRTLVPLDKEIILNSVKKTGKVVLVNDAHKTSGFIGEISAIISESDAFDYLDAPIRRCAGEDVPMPYAQNLEFAMIPTVDTIKDAIRKTVNKQ;locus_tag=LOCUS_12320;note=WP_002900354.1 alpha-ketoacid dehydrogenase subunit beta (Streptococcus) [pid:89.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-166],MGA_1243
sequence1	MetaGeneAnnotator	CDS	1334312	1335280	.	-	0	ID=MGA_1244;product=thiamine pyrophosphate-dependent dehydrogenase E1 component subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011836968.1;translation=MEKLTKEQLLDMFKKMQEARIFDLKVAQLVKKGKVPGMTHFSVGEEAASVGAIAALNDDDIITSNHRGHAQVIAKGIDLNAMMAEILGKYTGICKGKGGSMHIADVDSGNLGANGIVGGGHGISVGAALTQQMKKTGKIVVCFFGDGATNEGSFHEALNMASIWKLPVIFYSINNGYGISADIKKMTNIEHIHLRSASYGIPGMFILDGNNVLDVYEEFKKAVDYVRGGNGPVLIESVTYRWLGHSSSDPGKYRTKEEVETWKKKDPVENLRKYLIENNIATEQELLDIDASVKKAVDDAVVFAENSPLPPLESAFEDIYAD;locus_tag=LOCUS_12330;note=WP_011836968.1 thiamine pyrophosphate-dependent dehydrogenase E1 component subunit alpha (Streptococcus sanguinis) [pid:77.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.3e-143],MGA_1244
sequence1	MetaGeneAnnotator	CDS	1335522	1335683	.	-	0	ID=MGA_1245;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHDNQLLKVTDFVDNKNIQLIILILKDKFPVDKLNEENIVLRLSQKDKLFRIE;locus_tag=LOCUS_12340;note=WP_011167082.1 DUF2326 domain-containing protein (Mycoplasma mycoides) [pid:58.5%25%2C q_cov:100.0%25%2C s_cov:53.5%25%2C Eval:5.2e-10%2C partial hit],MGA_1245
sequence1	MetaGeneAnnotator	CDS	1335786	1338377	.	-	0	ID=MGA_1246;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNINKTIFLFIFLSAIISNSKTIDEKINEDINKINEVEKQIKYDKFEDAKNSIHIETGKKVSLVFNKDIDNPTSYVVFSNGKPDSVRIVNNATLSSRAEVITSLHNHDFSNLIYVINNKKLVGTADNVNAVSLIGKYIYFKNSENALLTAKNYPTSMGFRARELGILDNAGTIEKDVYMTLKNGSIINRSSGLHNDLIAHFEENGNYKNEGKVNGRIVVLSMLYFKFVNSGIINDVKYGLPFLIGTEGNFKGKYLNYGKEILFLNTSTGVIKKDKMFVDSGVGIMNFQNFGNIESNVYITAIKGSVDNNKEIIGDVYLTNYYFSKIDSWKKIRNEDTVLNVNLQNGKVEGNLILKRKGLKETIVTIKSMDNITGMLDSTEGDNDILRLIGSGEVKSKDKFKDFEKIHLQNSDWTFNDEEYKVNNEILVEASKLSIKKGDLKTKKFTNNERSTINILKDSNIEVEDKFVNKGLISFLNSKDNTSNLSIKGNYVGENSKLLMRTYIDELKSDKLKLDGSASGSTGVEISNPNFTLNKRMKNKLKLIETKSSTKDAFTLLNPEHGIYRYRLSLENNNWYLSQEYNKPFLGLILNSIDKLRNESNLTYYDHNKLNNGRNEKLWTKIKNISSKNILSDNINIDSNITNIFIGYDILEKKEYKYGVFGNLLFDRVSSGKEKKSGKTGAFGLGLYGTWHNKHFYADSWLNYMYSQNSADRLNYELHSLKASIEVGTRGDMYIGKNRLVCNLYEQLIFSYVSNPNIEDVNNLNNVNIKSRLGTNLTLFTHFKNINPYIEFNWIYDTRLVGVRVEKEEYLYNNNKNTFELKWGLREMNVNDRLSMWVNIVHRFNEAGYRANGVEAGMVYKMI;locus_tag=LOCUS_12350;note=WP_150547447.1 autotransporter outer membrane beta-barrel domain-containing protein (Pseudomonas marincola) [pid:20.9%25%2C q_cov:66.3%25%2C s_cov:53.9%25%2C Eval:2.8e-08%2C partial hit],MGA_1246
sequence1	Aragorn:1.2.38	tRNA	1338879	1338955	.	-	.	ID=Aragorn_37;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00360;note=Aragorn_37
sequence1	MetaGeneAnnotator	CDS	1339112	1340842	.	+	0	ID=MGA_1247;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005814402.1;translation=MKFKILNSIREYKKQTILGPIFMILEVFTEILIPLQMAKIIDVGIKNGDMSYILNKGAILIILAILALIFGILTGRMAAIASAGFAKNLREDIFYKIQEFSFKNIDKFSTSSLVTRMTNDISNIQMTFMLSIRVFVRTIIMLIMSLIMIYTINPKISKIFIGVIPFLTLSFYLIIRNAYPYFVKSFKEYDVLNRKVQENINGVRVVKAYVREDFEIEKFEDTSNTIFNLFSKAEGVAALNSFAMSFTVYTVIILIFIIGGKSIVFGSMKTGELTSVIIYSIQILMSLMMMSFVFVMLLISEASIKRISEILNEKPEMTNKQEAIKEVKNGTISFENVYFSYSGNDKFSLKNICFDIKSGQTFGILGSTGSAKSTLVQLIPRLYDITKGSIKVAGIDVRDYDMGVLRDNVAMVLQKNQLFSGTIEENIKWGNPNATLDDVIRVCKLAQADKFITNFTNGYQTKITQGGNNLSGGQKQRLCIARALLKNPKILILDDSTSAVDTKTEKEIKKAFIEDIPDITKIIIAQRISSVENADFVIVLEEGEINGIGSPKELLETNEIYREIYSSQVKGDDENE;locus_tag=LOCUS_12360;note=WP_005814402.1 ABC transporter ATP-binding protein (Desulfitobacterium hafniense) [pid:53.5%25%2C q_cov:99.1%25%2C s_cov:99.3%25%2C Eval:5.5e-172],MGA_1247
sequence1	MetaGeneAnnotator	CDS	1340835	1342661	.	+	0	ID=MGA_1248;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_043943600.1;translation=MNKNRRAKNPKKTLIRLLQFIFKYYKPEMIVALISIIISSLASISVSLSLRYIVDDYIIPLIGSTNPNFIPMYKMIGFMATIFLIGSIATLTYYLLMVKITQGTLKRIRDISFKHLQSLPINYFDKNNTGNIMSVFTNDTEALRNMINGSMTTIISSSIIILGSFISMLILSPLLSILSFVMVGSLVYITKIIGKNTGKYFGMQQKNIADVTGYIEESMSGQKVIKVFNHEKISKKEFDNLNEELYKASSRANIYANLMAPVIGNMGNLQFVLTAILGGLLYVNNLGGLSVGILVSYLQFTKSFTQPFIQMAMQFNSVFMAIAGAERIFKLIDENKEIDNGKIQLINTLNKHWAWVDENGNLTELKGDIRFENMTFGYDENKIILDNLTLYAKPGQKIAFIGETGAGKTTITNLINRFYEIQKGTITYDGINIKDIKKSDLRKSLGIVLQDTKLFTGTIMENIRYGKLDATDEEVYLAAKLAHADSFIQMLPNGYDTLLTTNAEELSVGQKQLIAIARAAIADPPVLILDEATSNIDTRTEKIVQNGMDNLMKGRTVFVIAHRLSTIKNSDVIIVLENGKIIERGNHDALILQQGKYYQLYTGNIELE;locus_tag=LOCUS_12370;note=WP_043943600.1 ABC transporter ATP-binding protein (Clostridium) [pid:52.8%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:1.5e-183],MGA_1248
sequence1	MetaGeneAnnotator	CDS	1342685	1342936	.	+	0	ID=MGA_1249;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNTFKSIIVALVELLILKLIKQFTVGNIDTILFSIGIVTILILYDVLSFGHSTLYKIMILLILGILNGFVLVLITKSIHANK;locus_tag=LOCUS_12380;note=MGA_1249
sequence1	MetaGeneAnnotator	CDS	1342989	1344056	.	-	0	ID=MGA_1250;product=Xaa-Pro dipeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000411056.1;translation=MCKLEIIFEKLGIDGLLLTDYYNKRYFTGFTGSTGIALVTKKNKYFISDFRYTEQATKQVERYGFTFIEDNARNYNKLVELAKEDGVTKLGIDNLALSFSEYESISAAFDFAELIKASSELLIARRIKTEEEIEKIKKAVQISEEALMETIPQIKEGMTEIEVAAILEYNQRKRGASGTSFDTIVASGYRSAMPHGVASDKKIQKEEFITIDYGCYYDGYASDITRTIYFGENIEPRMLEIYEKVRKSNELGISLLKAGKTGKEIDAAVREFMGEDAKYFGHSLGHSYGLEVHESPMLSVRDETKLEAGMTITVEPGIYVSGYAGVRIEDDLIITEDGAESFTTLDKKLIMVYNK;locus_tag=LOCUS_12390;gene=pepQ;EC_number=3.4.13.9;note=WP_000411056.1 Xaa-Pro dipeptidase (Bacillus cereus group) [pid:45.5%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:2.2e-82],MGA_1250
sequence1	MetaGeneAnnotator	CDS	1344069	1344716	.	-	0	ID=MGA_1251;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKDLDLNNKITLLILTVGSILLSLLIMIIINVIMILLKYGALNSYKILLIYNLIIFFILHFVLKKFKVKIFEKEKITITKVILVVLITTIISLTMGFLINYFSVKPENEKQLETIVNNISPMYIILSIVIVIPIVEEIIFRKILYNLFKNRYLGILVSSVLFALVHSPKSFFEFVLYFTLGIIFSGTYFLTGSFKLAILSHMVNNFIAILKHII;locus_tag=LOCUS_12400;note=WP_002369353.1 type II CAAX endopeptidase family protein (Enterococcus) [pid:40.4%25%2C q_cov:47.9%25%2C s_cov:47.9%25%2C Eval:3.7e-13%2C partial hit],MGA_1251
sequence1	MetaGeneAnnotator	CDS	1344720	1345601	.	-	0	ID=MGA_1252;product=SPFH domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015666.1;translation=MIMTIFGIIILLLSMMAISGIRIVPESDVYVIERLGKYSQTLESGLSFINPLTDRVAKKVTLKEQVVDFDPQGVITKDNATMQIDTVVYFQITDPKLFTYGVERPIAAIENLTATTLRNIIGDMTVDQTLTSRDVINSKMRMELDEATDPWGIKVNRVELKSIIPPTEIRIAMEKEMKAEREKRAKILEAQAQKESAILVAEGEKTAAILRAEAKKEVSIKEAEGRAKAILALKEAESEGIKILNSSVPSKEILVLRSLESLEKVSQGEATKIFIPSELQNLTSLLAGIREIK;locus_tag=LOCUS_12410;note=WP_011015666.1 SPFH domain-containing protein (Fusobacterium nucleatum) [pid:72.4%25%2C q_cov:96.6%25%2C s_cov:96.3%25%2C Eval:1.6e-114],MGA_1252
sequence1	MetaGeneAnnotator	CDS	1345617	1346018	.	-	0	ID=MGA_1253;product=NfeD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015665.1;translation=MENVYFWLGLFVIFIIIEIATYNLVTIWFAFSALIVSLISMLFKNTTLELFIFSALVAIFLIYTRPILNKYFIQEKFNSDFKGNKISIVDIENDEYIVKFKGSKWTAISDEKFKVGDVVTIEGFVGNKILIKK;locus_tag=LOCUS_12420;note=WP_011015665.1 NfeD family protein (Fusobacterium nucleatum) [pid:39.6%25%2C q_cov:96.2%25%2C s_cov:97.1%25%2C Eval:2.9e-21],MGA_1253
sequence1	MetaGeneAnnotator	CDS	1346030	1347013	.	-	0	ID=MGA_1254;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRRVKVFAAFIITFSLISCMNTKNEEKVVEDIKIEKKVEEEKEVQKKEEQQEKIIKTDDILRYHYKKIAKSIDPNIDFENVNVRKFRVTDTDIYFGDNEELVLNLEKFKAIFKSNVGLPSLYQGEELIPKKREVDMSKKHIVFTFDDGPRNKYHELIREVFNEYDQTASFFLLGEVIKRNSNMVIKTYLDGHEIMGHSYTHPDLTKLSPEKIWKEYQGCNDEIFKVIGLDVKNIRPPYGAVNQKVKNVVGGKNNIVLWNVDSEDWKSRNVETIISRVLPVVKDGDVVLFHDLYLESYEAIKYMVPILIEEGYQFISYEDMIKIKNR;locus_tag=LOCUS_12430;note=WP_002382901.1 polysaccharide deacetylase family protein (Bacilli) [pid:31.6%25%2C q_cov:80.4%25%2C s_cov:51.0%25%2C Eval:1.5e-34%2C partial hit],MGA_1254
sequence1	MetaGeneAnnotator	CDS	1347013	1347882	.	-	0	ID=MGA_1255;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKDLKNNEKQEMLLEIDELINHLEKKNVKFKDKERAKETLSKLGYFKLKEFSYIYRDETGKYFDNTYFENFVDNFYLDKKLRLEILSLIENIEIYLKTKLVNIFGKKGAYTYLDFPKWIDRKADPESVKRIHQKILKKNNKIVNMEYFDKKVVSLYVEKYKKEVLPIWVIMETLTLGEVKEILNVAYPKMFENIYINIYPEYDEFLSKLEIIKDVRNMAAHNNDVLTETYSVGNIVDVIEIILFFCKSIDICVDYNEIKKILLEIEEKTYWFKNISKEYIEELIDRSM;locus_tag=LOCUS_12440;note=MGA_1255
sequence1	MetaGeneAnnotator	CDS	1347860	1348606	.	-	0	ID=MGA_1256;product=nitroreductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011762640.1;translation=MNEVIKLISNRKSVRNFTGDKVNKEDLELILKTLLRMPNSRNLQKLSFVVVQDKEKIEKLAEYCGKQKQVATADAFIIIVGDYSKLIGSLKYKGEEVEENIFSTSIISDMFGDAGIAAATIDILGNSLGYGSTIIGGVFSVAPLEIAKLLNLPKHTFPIYGVTLGVPEEFVKNSPLKPRTKFENVVFFEEYDKEKAIEGVIEYNEELNKYWESINVNLPSHLEVVKSYLKGINTEFLTGFMNEQGFKK;locus_tag=LOCUS_12450;note=WP_011762640.1 nitroreductase family protein (Pyrobaculum islandicum) [pid:29.1%25%2C q_cov:76.2%25%2C s_cov:76.5%25%2C Eval:2.2e-18],MGA_1256
sequence1	MetaGeneAnnotator	CDS	1348617	1349603	.	-	0	ID=MGA_1257;product=bifunctional glucose-1-phosphatase/inositol phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001044363.1;translation=MKLKKILIYSRHGIRYPLFNLEEISKIVDPEKIKWDFEDGILTKKGEILEYEFGKYLKKYLDKLNFNISTKEFHTNSMKRTILTSKLLALAMFPFENIEIEYMFKDMKKLDLNYNITLTKDIINIEKIEKNDEKIRSSYNLIEKSLGLKKDSIYNLKSEITIDDRGIIYSNGAFKYGTDIVDMYILKYYEGFKYDEIFKGDNFRKDLKEMSKVKDSLLDLLFADKEYINYSETNAYKLMLKHAKNDVDLSVIVGHDSNIATILSALDIDSDDIGNEFEKYPIGSKLIFKIYEDDSFDLDMLYYDVDRIRYMEDRDPICKNLVNKGKFK;locus_tag=LOCUS_12460;gene=agp;EC_number=3.1.3.10%3B 3.1.3.8;note=WP_001044363.1 bifunctional glucose-1-phosphatase/inositol phosphatase (Shigella dysenteriae) [pid:27.5%25%2C q_cov:96.0%25%2C s_cov:84.3%25%2C Eval:1.9e-29],MGA_1257
sequence1	MetaGeneAnnotator	CDS	1349691	1350296	.	-	0	ID=MGA_1258;product=anaerobic ribonucleoside-triphosphate reductase activating protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010905258.1;translation=MKVAKIKPTDVSNGIGIRVSIFVSGCRHACKGCFNKEIWSFEEGECFDETILDRLYTYLDKEYIKGLTFLGGEPLEPRNQEGVYIILKKVKEKFPNKNIWLYSGFTYEYIVSEMVPYFPKLEKILELIDVLVDGKFEISLLDLKLKFRGSCNQRVIDMKKTRKKGEIIWLEEIEDSAKYIRSKHAISDRMDKLIKIDKMGL;locus_tag=LOCUS_12470;gene=nrdG;note=WP_010905258.1 anaerobic ribonucleoside-triphosphate reductase activating protein (Lactococcus) [pid:40.7%25%2C q_cov:90.5%25%2C s_cov:88.4%25%2C Eval:3.6e-36],MGA_1258
sequence1	MetaGeneAnnotator	CDS	1350293	1352407	.	-	0	ID=MGA_1259;product=anaerobic ribonucleoside-triphosphate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013095357.1;translation=MNILKRDGREEKYDSNKIRDAINKANETVELKERICNKKIEEIIQHIENEKISTVEEIQDFIEKSLVSEGLYKLAKNYIVYRYTRSLVRKANTTDESILALIQNSNKDVQEENSNKNSVVASTQRDLIAGEVSKDLTRRIILPEHISKAHDEGILHFHDADYFIQNIFNCCLVNIKDMLENGTVMNAKLVESPKSFQVACTVLTQIIAAVASGQYGGQSIDIRHLGKYLRVSRDKYMNKYREKYKNLDEKTLSSLVEDRIRDELKSGVQTIQYQINTLMTTNGQSPFVTLFLYLRDDDEYKEEVADIIEEILNQRIQGIKNDQGVYVTSAFPKLVYVLDENNALKGGKYDYLTRLAVECTSKRMYPDYISAKIMKKNYEGNVFSPMGCRSFLSPYKDNNGEYKFEGRFNQGVVSLNLVQIALVAKTEEKYFELLEDRLKLCYEALMLRHNKLKGTTSDISPIHWQYGAIARLKKGEKIDEYLMNGYSTISLGYIGIYETTKLITGKSHTTKEGTEFALKLMNKLEDATIKWKKETGIGFGLYGTPAESLCYRFARIDKEKFGIIEDITDKGYYTNSYHVDVRENISVFDKFNFESEFQKISSGGAISYAEIPNMSKNIDALEEMVKYIYDNIQYAEFNTKTDYCHVCGFDEEMVVNNENNWECPQCHNNDKTKMNVIRRTCGYLGENFWNEGKTKEISKRVLHI;locus_tag=LOCUS_12480;gene=nrdD;EC_number=1.17.4.2;note=WP_013095357.1 anaerobic ribonucleoside-triphosphate reductase (Enterobacter) [pid:38.5%25%2C q_cov:99.9%25%2C s_cov:98.7%25%2C Eval:9.0e-135],MGA_1259
sequence1	MetaGeneAnnotator	CDS	1352630	1353853	.	+	0	ID=MGA_1260;product=IS91 family transposase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011674482.1;translation=MYNSNKIKSIFSKYILTNSINSIKPYFDKKHIEHINHSIHNFLNCGNLSKGFISYRCSSCNFQHKMKLTCKSRLCPSCGYNYSVNWTNSILKQFINIPHRHVLFTVPKEFRKFIAYDRSILSKMSKAINDIFKYQFHNIKDKVKRKIYIPKSNPNYFTNSDIINYGLITVIHTFGRNLKFNPHIHAIISLGGFNKKFQYKELKYFHVPSIANQWKFSLCKLISNANYPNDIIKIQAKKAVSNVYDNDVRLFFNVAGNDINNPKYIIKYLGRYLSRVPIAEYKIVNIDFNKNSLTFKFEDLSNNKEVTYSTLSFKDFVAKVLFHLPLKYFKMINRYGFYARRISSKVKMSLFYLKAQVNKKSLSLFRKNFKELWDFDPFMCPHCNIYLKRYELFIDNGLSPPIHKFYN;locus_tag=LOCUS_12490;note=WP_011674482.1 IS91 family transposase (Lacticaseibacillus paracasei) [pid:25.9%25%2C q_cov:87.0%25%2C s_cov:76.9%25%2C Eval:1.8e-38],MGA_1260
sequence1	MetaGeneAnnotator	CDS	1354025	1354621	.	-	0	ID=MGA_1261;product=superoxide dismutase SodA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004398583.1;translation=MSIKLKDLPYAYDALEPVIDKETMHLHHDKHHNTYVTNLNNLIKGTEFENATVEEILTSLDKMPEEKRNGIKNNAGGTYNHDIFWETMIPGGSKEPVGRLKEAIDKTFGSFEEFKNLFNSKGLTQFGSGWVWLVSDKDGNLEVYSTSNQDCPLSDGKKIILCNDVWEHAYYLNYQNRRADYLKEWFNVVNWDIVSDRY;locus_tag=LOCUS_12500;gene=sodA;EC_number=1.15.1.1;note=WP_004398583.1 superoxide dismutase SodA (Bacillus) [pid:56.8%25%2C q_cov:100.0%25%2C s_cov:98.0%25%2C Eval:2.8e-62],MGA_1261
sequence1	MetaGeneAnnotator	CDS	1354787	1355941	.	-	0	ID=MGA_1262;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKLLILATLLIATINFAGTKEDFEKAYKNYETTKNVEQLEKDLLEIVKAKTDHYTISSKFDLAKIKIMQKKNDEARKYINEILADKLVSADGIKIAKTLLYSIEENYDKKMKILSELISSDPKDLSLQVEMLKELSVKKDNVKFDRLYKEYVKKIAKDDKLKTSFDINLIKDLLAQKQFSNADKIIKPYFTSKNNELKALANYYTAISKFEQKDIKSSIKYSDMASKLSKELDADIENFAYLLAIENKENDKALKKLIILKNLTKDKSVYFELISLAEVLNKKELVESTTKEFRATLDEKQNMYLNDTLSKLFLSDKMYELAEKYAKKTLTEDKNPEGHLVLAVIYANLNKKEEALKNVREAVSKKVEGAAEIEKQILENLK;locus_tag=LOCUS_12510;note=MGA_1262
sequence1	MetaGeneAnnotator	CDS	1356337	1357188	.	+	0	ID=MGA_1263;product=tRNA 2-thiocytidine(32) synthetase TtcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903362.1;translation=MVNLSCNAVIPDGPLKAVEEIEESIRTTFRKDIYIKFLGSILEYGLVEDGDKIAIAVSGGKDSLLLVKLFQELKKDKRFNFEFKALSLNPGFREEDLKHFKFNLKELNIDCDIIDTNIWKVANEMANEYPCFLCAKMRRGILYKNIEKMGYNKLALGHHFDDVIETTLINLFYGGTLKTMLPKMPSTSGNLTLIRPMVNVHEEDIIKFTKKNGIRAMNCGCVIEAGKTSSKRKEIKDMLETLEANNPGLKQKVFKSMENIHLDYVYGYKTKKEKFHIKDNKKK;locus_tag=LOCUS_12520;note=WP_005903362.1 tRNA 2-thiocytidine(32) synthetase TtcA (Fusobacterium nucleatum) [pid:60.7%25%2C q_cov:91.2%25%2C s_cov:94.6%25%2C Eval:4.9e-92],MGA_1263
sequence1	MetaGeneAnnotator	CDS	1357215	1361264	.	-	0	ID=MGA_1264;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MESKIEGEVTFGIDSSFGVDGLESVIGFIPPLVDTIRPMRYADYKKAYVNENVKYRNAALMPSSYVYESAQNLSAQPQRLRYEPSYYHTYKPKYSGTTRDLELTAKYLSKNIELRKKLSVRLKENYSGLGIKVDIFGKKITHSKFLDDNEIDKLKISVISDNKYINGEINYYVKSESTKKKDIDKIDNEKELKNKVVDYTFSVNPIPDSKVSLSLDFSGQNKEITIGPTLRYRNGGTYINTSILFNNIKSAYDLTDELDKIKHIAPGYDKIEYFKRWTLKDKYKSNPQMLDIKEYEEERADLEKAEVSGTKGTSRILGYYSGSLYGDSPIRYIAKNLFNEIYDNGKFGGLSSLIKKFEKDGYITVLDFLRWDSLRLPNITEEIKNKEEMNKIINKLGKDLYKKIGIEADREYSSVGLWTQVPSEFVNLLPGYYPYFDFRDINPDKLSPDYLYNNGIRNTIVPYEFMYNRSSVKSSSSEGDVSEKYIREERTHYFDSDFQRYVIDGVANGYKLNKFSEFPSGAWNIVKDSFAYLFQRQGKINDIINLLPDFQEAIRNPYEIKGLDMLRGFYSHKSEKQSNVDKYGDYLKESFKDIDLKNNKSKHSIKIKIDAGHLGQNYKIGTTLLLNDKIEVSSDKYEYVKKANHFSVEMMYRGLLEFSNKSELTLAKNDLLKKESQEKYIYDTISLKTDTYLGLNIPTTKRFNLLLGIRHIGNFGWIDPKSIIDKDGKEVKWTNIAKRDKDNNPIGKDGSSIITSETTEKVLVDKEYERLKNEGKNKLKRNIHQSDYIETIESNAVKSIYDSYNIFSPRITMVYRPYENVVFTNHLELPISFKKFMPAGIKSIYTGEIKYLIDDSFKEQIFTKGNLIKFRSMGKFETGLLLGKSVEKYLSYKAMADISFLRGDIKGNDKGVDFSLSLNPLIVNFPIKPRFIISKEKTENFVKFGLEYSKGTEFSSLVGFKKVIKSTRDILEKELKPDILDIIKNRGSGGDEFNNARYALTRISFNEKIDYTLTPFIEIKKEEGKFRISVKADSLKASAHIEKDKTKEEKTIEKPTSDYFAWNYQKSSDNWFWRLFMTKEYNYFKEVKTEKIIKMNQKIIDLDSKKYNLEIDTEYIQDNGINFGLHLDLKYAENKLVEMSRDDKRIENTSKIVSLTTSSHHPNFTDEIKNNPDNQVEIKDGNVLQSLKDFVKKKNAHNDVIYDSYKPWMVINHREMTDYLLKERLDYPGIIKEEVNIKESKFLHTKKINVNLSTYLGYSLNPISNLVLSFGMKHKLVTDYEAASKIVLDDVELFGSRNILFKNTISPEIKIGYNLIKSLKFSLNAAVPVHFEDKDYIGFKVEIKTGFEW;locus_tag=LOCUS_12530;note=MGA_1264
sequence1	MetaGeneAnnotator	CDS	1361409	1365455	.	-	0	ID=MGA_1265;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIFYNKNIMKRMFFLLLLSSLSYSKEIKSKVNGEITFGVDAAFGADGLESIVRLFPPMIDLYKPIKYSDYEKDENIENLELDDSATDVYIPKYNKTMRDLELAVKYLSKNAEFRKRLGVKLKEEYIGLGLKIDIVGKKIPHIQFLSNNDIDKLKVSLTSDNKYVNGEINYYIKGESLEKIDIDKIDEEKKLKNRVVDYSFTVNPRPDDKWSISLDFSGMNRNLNIGPTIRYRNGGTYANISILFNNIISSYDLTDEIDKIKHSAPGYDKIEYFKKWTLKNETLEKEIDKNKYDEKHADLMKAEVSGTKGTARILGNYSGSLYGDSPFRYFTKTLFDEIHSNSKFSSLSSILKTFEKEEKVTKSSFISLSTLTLSSELSNEKNINEAASKIATKIYRRLGIGLDRKYSSVGLWKQIPKDFEYLLAGYYENFDYSNIKSDKLDADYLYNNGVKKPIIKNAMMPASIVNTKNEKYELKERLHYFSSDVDKYLKDEIFREYEIEKFKNLINTSTTGLIFDGFLGIFSNDTKINQVLEILPKIQEVVKNPYEVKGLDMLRGLYLHQSEKERNIVKYEEIIKKSFQGIDLKNNNARFSNKIRINIGHVGKNYKLGTDILLNDNIHVDADKYGYVKRSKKIGFEAIYKKSLLELYNKIELSLDKNYLFRKDNKVKYVYDTTSLNTDTYLGLDIPVNDRFNLGLGIRHIGNYGFINPKGSTDENGNEIKHKIAKRYDNNNPIGKDGEAITTSQSTEKELVDKEYERLKKEYDEKNTQPNKKLFNKLKRDIHQSDFIETIESDAISSKYEMYNIVSPRVTMRYRAYRNLIVSSHLEVPISIRNSSPAGIRGVYTGEIKYLIDDSFADIVLRKQLPIKFKTTGNIEAGLLLGSKIERYLSYKAMVDIGFLRGDIKGNNKNFDISVSFNPLIIDFPVKPRILLAKEGKETGVKFGLEYSEDSNFSSILGFKKVIKSNKDIFKDELKPDVIRILKTRKEKEYEKVKDKIEALEFNGKITHELTPFISIKKDEGKFKIAVKADSIKTSGHSYSEIINIGEFKERKPTTYFAWNYHKYKSYLIFFSINTEYNYFIDIKSDKITDIDKRNKNLDNEVYNFEIDTEYTQDKGINFNLDLSVMYNETKLSEITEKIKKTETKSRVISIKTKKQILDENKIKEYMDKKEHKEVNINKDNILNSLKEHANSEKSEYNDIYNSETTFLLKQKIDEEKLKNILDIPSRIKEEKSIKETVFLRTKKIISNLDMYLGYNIKPTDKIKVAFGMKYNLGINYETLNKVILDDELLFGSRTILFKNTITPEVKMKYNLIHNLNTNLGLDLPINFENIEFKGVKFNIKAGFEYNW;locus_tag=LOCUS_12540;note=MGA_1265
sequence1	MetaGeneAnnotator	CDS	1365472	1366791	.	-	0	ID=MGA_1266;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLFNFELKSILKGTKRETKVELLNNGEYKGKTVDLRGDLNYKLKIKEDNGNTTLTHEPEVKLGATIKPTTKLSLISDNSNKVTIEHKVNEEVSKLNNDFKTSNKIKLNVTKGLDLHTLAEYKLGANLKATNGNKEYNHALLTGAGLSLKKEIEEVNIESTIDLRYLFDTKHKENQKPEDLRHQGFVWTENKVSYEINDNNKIEGKVNLYNQVHFHTDKDHKVATNGKDLYDVFLANIVLGYKNVNGRYTNEINIDAKYGLDANFKPSDKGIKQALSIDFGGKSRYKARENVEVILSLDNEYNLNGLNKEVYGVYVDYIKDSTGYKESIHKYAEKYDVSKQDSLRKKKGEIKDLTKGKLSTKEELEKAIHSLTVKPKISTEFSYVEGRLKVSPWIGAEFNLENKPNGASNNNNENKDFVLAKIYIIVKLIFLIYNNIYD;locus_tag=LOCUS_12550;note=MGA_1266
sequence1	MetaGeneAnnotator	CDS	1366878	1367174	.	+	0	ID=MGA_1267;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIDEIKMLIQNEEKIDVEFKESKNALNKDIFDTVCAFNNRNGGHILLGINDKKEIVGVNKDKVDKLIKKFTTAINNPQKMYPPLYLIPEVFDLEEKK;locus_tag=LOCUS_12560;note=WP_009994768.1 helix-turn-helix domain-containing protein (Gardnerella vaginalis) [pid:78.6%25%2C q_cov:100.0%25%2C s_cov:20.8%25%2C Eval:6.6e-42%2C partial hit],internal stop codon at [1367418:1367420](+),frameshifted%2C insertion/deletion at around 1367171,MGA_1267
sequence1	MetaGeneAnnotator	CDS	1367426	1368007	.	+	0	ID=MGA_1268;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSDEELLRSANLILTDPETKREGITLAAILLFGKDNSIMSVLPQHKTDAIFRVENKDRYDDRDVVITNLIDSYDRLIKFGQKHLNDLFVLDGIINVNARDRILREIVSNTLAHRDYSSGFPAKMIIDDEKITIENSNLAHGMGALDLQKFEHFPKNPSISKVFREIGLADELGSGMRNTYKYTQLYSGQNPIF;locus_tag=LOCUS_12570;note=WP_009994768.1 helix-turn-helix domain-containing protein (Gardnerella vaginalis) [pid:94.8%25%2C q_cov:100.0%25%2C s_cov:41.0%25%2C Eval:3.5e-102%2C partial hit],internal stop codon at [1367418:1367420](+)%2C[1368006:1368008](+),frameshifted%2C insertion/deletion at around 1367171,MGA_1268
sequence1	MetaGeneAnnotator	CDS	1368071	1368280	.	+	0	ID=MGA_1269;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVAQDVVQDNINLVDFIKEQIRKNHKITRKAIANKAGVSIKTIERTIKTIDNLKYVGHGNNRHWKLNE;locus_tag=LOCUS_12580;note=MGA_1269
sequence1	MetaGeneAnnotator	CDS	1368599	1372834	.	-	0	ID=MGA_1270;product=YadA-like family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_133116924.1;translation=MNKKNLVAILLFLSTISYTDSIYTEDGGSVSGENKRGNGSDNYIIGTDIKSDGTKTELSNVFENGVQKSILIGAKNKANKASASNVVAIGYKNIVGESNSVALGAWNQASGSSSIAIGMESNSIGKDSVAVGRKAGSKGENSVAFGNDVKAIGKNSSVFGLGSKSSGANSLALGNKIDAMSDDSIAIGNGGYAGGKSSVSIGNNTKSSGTNAIAIGNTSKTNANNAIALGNKIEAMAANSINIGNNGYAGGESSISIGNNSKSSGTNAIALGTTSRTNRNNAIAIGNETLSEGENSISIGNGAKSKEKDSITIGKNAIAEQSDSIAIGVSATTKTKHGIAIGKEAGSKEIHAISIGNNSKTEYVGDVAIGYMASSGSKGTKVGGGELAITGATAIGAFSKADHKKTTAIGVSSKAEEVSSTAIGADSKATIEKSVALGSESETTKQVATNKFSINGMTFGEFAGKTPISVISIGSKGKERQLQHVAAGQISKESTDAINGSQLYATNMVLGTFVDSAKSILGGNAAITTNGKLNMTNIGDTGKNTIHDAIKASKTEVIANNEEQANKTSGNIVLTSKDDKDGHRKYNVKLNDKITLGSKNLILDGNSGTITGLTNKTWDPTNITSGRAATEDQLKALSDSLNKGQATNSYDFYVISGKSGTGNNLGTSSKEKMSKGDTLKLSAGDNLSISQSGKDFTYSLNKELKDLTSSEFKDKDGNKTNITGSGMSINSDKNSGKSVSVTKDGLNNGGNKITNVAAGEKDTDAVNKSQLDKVKKELEDKLDKESKASKTTVKSSDNNIVVTQKDGANGSKEYDVKLNDKVTLGSGDKQVELNGKTGEVKAGNVITNKDGKGTINGLTNKKWDSNNITSGQVATEDQLKELDKKVNDTIKESGFNITSGKTGTGNAEGITTEKVKKDDTVKLNAGDNLSIKQKGKDFTYSLNKELKDLTSSEFKDNSGNTTNITGDGLKINSDKGDKVVSLTKDGLNNGGNKISNVGAGKADTDGVNLKQLKDSRTEVKAENDSAINVKSSYDGDKNKYTYTLDVKTDNKTILKDKDGKLKANVGTITTEVSNDKIEAKSSDNEKIAKTGDVAKAINTLGNNTLSFGADKGNTDTQSLNKNGGLKFSIKGTDYIKTEAKGNEVSVDLTDKVKSDIAKGVAANSGVANAVAMANLPQISTLDDRRHNIAGSYGYYNGEHAFALGLSGLNEVGNVVYKVSGALNTKGHVSLGAGIGYQFGSSVNIKKDKEVIIEKEVIVNNDEVNNSIVKLNELNNKLNKRIDELEKKLKEFEDIKMNEDDLYTLDGYRLGIHELTKSQEEMLKNIVRELNENYKNRKIYITGYTDNVSGENLNLELGLKRANVVAKKLRELGLDMSISIRKVSSSGYNNIVETNKSSSGRSSNRRVEIELR;locus_tag=LOCUS_12590;note=WP_133116924.1 YadA-like family protein (Paraburkholderia acidicola) [pid:23.7%25%2C q_cov:85.8%25%2C s_cov:83.2%25%2C Eval:2.3e-71],MGA_1270
sequence1	MetaGeneAnnotator	CDS	1373016	1375370	.	-	0	ID=MGA_1271;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYLICGIDCAGCASKLEEHLKNHENVKDLSINFATKSLSVDFNVESENNIDELVEYGRKKEKSFDIKIENKSEIQFLEEIEELKDQKIHMFISLALFIFAIFVDKYLYMYLRYDSELYLYYIPLYLFSYAIVAFPIIKDAIKSIKNGDCFNEKVLMMVASLLAIFIREYEEATGVMLFYTLGEYFQEYSVLKSRKGIRSLIDLNDNKVHKLDEDKNEFVDVDVNLIKPGDIFYVKPGEKILLDGKIYIGNAELDTSMITGESLPRHFEKDDEVLAGMINLTKTLAIEASKSFDESSIYKIVEMIENSGHNKSKMEKFVTKFSRYYTPIIFTLAIFITIVPPIFFRNISFMDSLYNGIVLLVIACPCALVLSIPLTFFSGIGRAAKEGILIKGADIFDNIDKIDSVFLDKTGTITEGKFKVNSVFEDLEKIDIDLKEVYEYIYKAEENSNHPIAKSIISFIDKKFGLVDNVENEERFYEYISLCGHCGCCHDYSEHYNKQDIKIAEHEPKGHYYGDECKNHIKKIKDNGKYLKKQFSKNKKILEINEIAGLGLNVKFEDRELLIGNKRILEDRNIYIPEISFIDDKNSSLVYVAIDNVFVSLFVIKDKIKEDTKEAIALMKKTKIKEVVMLTGDNLEAAKEVGNILGIDRIYSNLLPQDKLNILIKEKENKHILFVGDGINDAPVIAAADVGVAMGNMGQDITINTADIVLNTDSLTKISVLKKISSKMKAIVFQNLLFIISIKLIIITFGVFSFMSMWFAVFADVGVTILTVLNAMRMRYIKL;locus_tag=LOCUS_12600;note=WP_011860727.1 heavy metal translocating P-type ATPase (Clostridioides difficile) [pid:39.7%25%2C q_cov:60.8%25%2C s_cov:59.1%25%2C Eval:8.4e-89%2C partial hit],MGA_1271
sequence1	MetaGeneAnnotator	CDS	1375562	1376878	.	-	0	ID=MGA_1272;product=DNA cytosine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002223735.1;translation=MINYALNEYENKLNSSIKFIDLFAGLGGIRIGFEQAFNTLGISTECVFSSEIKKHAILSYTKYFGDYKIHGDIKEISVDDIPDFDFLLAGFPCQPFSSAGNRLGFNDTRGTLFFEIERILKNKKPYGFLLENVEGLINHDNGKTLETILNSLNSLGYKVNYKVLDSIEFGLAQSRKRIYIVGTKDKLISLENFDKKYSSFRDIQEKNCETLNTDFTRKLLLNYNPCDLYGKSIKDKRGGSDNIHSWDIGLKGEVTDKQKELLGALLKERRKKVWAAEIGIDWMDGMPLTLKQISTFFNDKSLKEMLNDLVQKKYLVLEYPKKLVGNKREYDITKEKGYNIVTGKLSFEFSKILNPDGVAPTLVATDVEKLGVIDNKGIRKLTIREGLRLFGFPEDYSLDFLKYRESLDLLGNTVCIPVIKSIASRIASVVKEKNINKD;locus_tag=LOCUS_12610;note=WP_002223735.1 DNA cytosine methyltransferase (Neisseria meningitidis) [pid:56.1%25%2C q_cov:93.6%25%2C s_cov:98.3%25%2C Eval:3.5e-128],MGA_1272
sequence1	MetaGeneAnnotator	CDS	1377196	1377870	.	+	0	ID=MGA_1273;product=NgoBV family restriction endonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002217109.1;translation=MILTVNKIFFKLKSIDWTKAKGIISFNLADINVTINTNDTVGLILQAWLKEYLNKNNILFREPSNTQEFPDFLLSHSNIENLLEIKSFNFSKSPTFDIANFDSYCDSIRENPYRLDADYIIFGYDMEKTGIITIKDIWLKKIWEIAGTSKKYPLKTQVKRNIIYNIRPNTAFKNYNASPFKSREQFIHAIYETLLVYKGSKFVYNWLNIFSINYKAYYNAEFKI;locus_tag=LOCUS_12620;EC_number=3.1.21.-;note=WP_002217109.1 NgoBV family restriction endonuclease (Neisseria meningitidis) [pid:40.2%25%2C q_cov:99.1%25%2C s_cov:93.4%25%2C Eval:2.5e-39],MGA_1273
sequence1	MetaGeneAnnotator	CDS	1377916	1379067	.	-	0	ID=MGA_1274;product=N-acetylglucosamine-6-phosphate deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000271133.1;translation=MIIKNARIFDGDKFIPENVVILSGNRIEKITTVSELNDELMSKHEIVDIEGKVLSPGFIDLQINGCGGVLFNDEITVKTLEIMNETNKKYGCTSFLPTLITSPDEKILKALELINEIKDTKEEIGVLGLHIEGPYISVEKKGVHRPDYIRVLDDKVIDEIAKIGYDGVKIITVAPENALVKHLKLLKESGINIALGHTNATYAQIEEKSEYFTHATHFFNAMRGFDSREPGAVGYLLDKKNVQCGIIVDGLHASFPSVRVVKEVMRSNLYLVTDAVSPMGTDMKEFIFEGHLVRHENGKCWDPKTGSLGGSALDMITGVKNLIKEVKVSEEEALRMATSYPAKAVQVDDRYGYIKEGYIADLTFYNSDYKVEGTISKGKLQRY;locus_tag=LOCUS_12630;gene=nagA;EC_number=3.5.1.25;note=WP_000271133.1 N-acetylglucosamine-6-phosphate deacetylase (Vibrio) [pid:45.4%25%2C q_cov:99.2%25%2C s_cov:98.9%25%2C Eval:1.7e-91],MGA_1274
sequence1	MetaGeneAnnotator	CDS	1379254	1380147	.	+	0	ID=MGA_1275;product=zinc ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903857.1;translation=MKKIVFKLIMFLLLVTNISLSKIKIGVSMLPYYSFASNIVGNRADIVQILPADVDVHSYQPSPDEVKKISGLDVLIINGTGIDNYMYSLVKASNNKKLVIINANKNVSLLPIAGERGNTKSVNTHTFIAIQAAIQQVNTIAKELSKIDIKNGSYYLKNARSYNKKLSNIKSKKIKEISELRKGINLTVATTHGGYDYILGELGIKVGVVIEPKNHGNPSASDLRTSIDLIKENKIDILFESDGSASPYTKALQKETGVIVEKLLHMTNGKYTKEAFEKDIEKNIDIIINALRKVKQK;locus_tag=LOCUS_12640;note=WP_005903857.1 zinc ABC transporter substrate-binding protein (Fusobacterium nucleatum) [pid:42.8%25%2C q_cov:100.0%25%2C s_cov:98.7%25%2C Eval:1.4e-63],MGA_1275
sequence1	MetaGeneAnnotator	CDS	1380144	1380533	.	+	0	ID=MGA_1276;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKTLIFTAVILALTSCSTIVNGSYQPLNVRSNSGKEIIVRDEYGNILKHGQGTLFINLKRMDNEVGVGAKYFITSGDKTVALLPKTNTLSYLIGNIFVPGGHIIDKYTGAMYDLVDVDGNRLDSIEFK;locus_tag=LOCUS_12650;note=MGA_1276
sequence1	MetaGeneAnnotator	CDS	1380548	1381108	.	+	0	ID=MGA_1277;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKYIILGLLSNIIAISNTEVTILAQGGLSGFQAHNINSNSILNAGIHVSLGKVMKLKKGKLNVILGTGLEGGINKMVIFNKNNTKMAQTSDTTTTKVDYQKEIMKFHPYISPFIFAELAGEVKENIKLYTGASIGTFHYIIGNESITKFSIKAKFGTTFKGNFTSEISVGYPQYITMGLGSKFSF;locus_tag=LOCUS_12660;note=MGA_1277
sequence1	MetaGeneAnnotator	CDS	1381169	1381453	.	-	0	ID=MGA_1278;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKYIKNGVVKLFTDMKNYKLTKVDVIALFFSYLHFDKLILKETFNNLSITGLRWYLYAIPLCFIFGVLLKFILMLLSKIDEKNKFCFYKKMIY;locus_tag=LOCUS_12670;note=MGA_1278
sequence1	MetaGeneAnnotator	CDS	1381495	1381668	.	-	0	ID=MGA_1279;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVPILGLAQEKNLETNDVIVANNIMISSSNNLNFLNEKEEKLERLENKIEKLNKKN;locus_tag=LOCUS_12680;note=MGA_1279
sequence1	MetaGeneAnnotator	CDS	1381832	1382500	.	-	0	ID=MGA_1280;product=thiamine diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903694.1;translation=MKYCVFLNGEYPEFNDYHCELIKDRKIYCADGGANFAYRHGIIPHAIVGDLDSVNLEVLDYYKSKNVEIYDYSSDKDYTDFSIALIHICKIEDVCMNNRFEKEEIDFYQDKDVLVFGATGGRIDMSIANAKLLANNKNMKYITHNNELMYYVDKEDEILGKANKRFSLIPLSDLEELNLEGFIYNLKDKDISRNISLVSNIIKDDVARVNVKKGDMLIVVEI;locus_tag=LOCUS_12690;EC_number=2.7.6.2;note=WP_005903694.1 thiamine diphosphokinase (Fusobacterium nucleatum) [pid:32.6%25%2C q_cov:97.7%25%2C s_cov:96.7%25%2C Eval:1.2e-25],MGA_1280
sequence1	MetaGeneAnnotator	CDS	1382500	1384920	.	-	0	ID=MGA_1281;product=phenylalanine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016058.1;translation=MLISLNWLREYIDLDKNIDIKELENALTMIGQEVEKIEKQGEHLTKVLTAKVLEKIPHPNSDHISICQVDNGEKVQQVLCGAPNHKVGDIVAMAQIGAELEEGFVIKKAKIRGEESNGMLCSEAELKIGKDHDGIMILPQDTKLGIPLNEYLGLDDIIFELEITPNRPDCLSHIGIARELAAYYSKKLRLPEVNVNVEDREDIDISIEEGLSNRYLARVIKGVKVEKSPEWLKNRLEAVGIRSINNIVDISNYVMLETNQPNHIFDFNKFNSKKVTITKAKDDEKFVTLDQKERILNNEDIVIGNGEKTVALAGVMGGMDVEVDENSTDILIEVAHFDNIMVRKTNRKFALSTEAAYRFERAVNTENMEYVMNRITSLIKEIAGGKVCNINDNYPVKPEIKVSTLSLPRLYRFIGKEIEKDKILDIFEKLEIKIEDKGDEILLTAPSHRQDLINQFDYFEEVIRMVGFDSIENVMPSVNLTKERLEDTTRFVTDIKKIVSNLGMREVINYSFIPKNSLEKILFEIHSDNIIEIKNPIVEEFSILRPTLMYSLIKNVRDNINRGATDIRFFEVSKRFTKESTNKVNEKSVLIDEMQVFEKETLALILSGSKIKNIWNAKPENYDFYDLKGVVEAIFEKLKFTKYQIRRSENKAYHPGRSVDVFVGKELIASYGELHPDVLENMDVEKNNILYAEIYLDLIKKYISNNVKYKGLSKYQSVPRDIALVVNENVLVGDMIKTIEKIDNLIEKVELFDIYQGLGIEKGYKSVAISIIMRDDNKTLEEKEINDIMTKIINKLNKDFGAVLRG;locus_tag=LOCUS_12700;gene=pheT;EC_number=6.1.1.20;note=WP_011016058.1 phenylalanine--tRNA ligase subunit beta (Fusobacterium nucleatum) [pid:45.2%25%2C q_cov:99.9%25%2C s_cov:99.9%25%2C Eval:3.1e-203],MGA_1281
sequence1	MetaGeneAnnotator	CDS	1384932	1385948	.	-	0	ID=MGA_1282;product=phenylalanine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895121.1;translation=MLEKLKLIKERALSDIEKLDSMQDFNDMKVRYLGKKGEFTAIMKEMGNIVAEKRKEFGAIANEIKTELQEKFDEKLLKLREEAKKIKLESEILDISLPGKSLEKSSLHPLTKTLFEIKEIVSEMGFDIVDGPEVESTYLNFDALNIPKTHPSRELTDTFYITDDVILRTQTSPVQIRYMKEHKPPFKMISIGKVYRPDYDVSHTPMFHQVEGLMIGEDVSFSNFKATLESIVQRIFGADRNVRFRPHFFPFTEPSAEMDVECGVCRGKGCRLCKNTGWLEILGSGMVNIKVLEAAGIDGEIYQGFAFGLGVERITMLKYGIDDLRAFFENDIRFLEQF;locus_tag=LOCUS_12710;gene=pheS;EC_number=6.1.1.20;note=WP_005895121.1 phenylalanine--tRNA ligase subunit alpha (Fusobacterium) [pid:57.1%25%2C q_cov:100.0%25%2C s_cov:99.7%25%2C Eval:6.3e-116],MGA_1282
sequence1	MetaGeneAnnotator	CDS	1385960	1387288	.	-	0	ID=MGA_1283;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNIVKPRKIFETVMLWLLSFCLLIKLLLMAKVGDIFYKLKGQITNQTDFVTLVKKLSVMTEDLKALEVFATIYRTFLLFLLITFACFVIFRIINKQFGKLLKESTIMIWVVITASVYYVYITKDFFYALRSITEKQYEQGLPYALYLMGRIQYILDVKYIIHTLTIIIFVSTVLAIILNVRTLVGKEDKAIWKKLNIATFVSCMLLISGLISWNIYIEYDNKIFKPFEYMVKNYTHKNDKIYLFGSVNMRKVNEKNIDPNFRSLYLNGVNYEVERGNEELKKGETRNIKVSFNAEIKEFLNLKTGEIEDKITIKTVPEIVKSIDEINVKSLFKYLSKYDERYSRYSIKDEMTGIYQGKAIDGNAEYYLIQKIKYDELSFSDISKFEENDEIYKLIYLGVLYRDGKEIVGLEGLNLKEGIKLIKDVEKLMENLKESKIEKVN;locus_tag=LOCUS_12720;note=MGA_1283
sequence1	MetaGeneAnnotator	CDS	1387285	1387737	.	-	0	ID=MGA_1284;product=metallophosphoesterase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016060.1;translation=MKILLCSDSHKDLNYFYEVIKKENPELIIFAGDHSMDAIEMSYAVDIPFYIVKGNCDYDDYSTKEILELDIESMGKVILTHGHLFNVKLNMNSIYNYGVEKNANYVIFGHTHRQHKSEYRNIFFINPGAIINHEYAIIENGVLEFKGAMI;locus_tag=LOCUS_12730;note=WP_011016060.1 metallophosphoesterase (Fusobacterium nucleatum) [pid:41.1%25%2C q_cov:95.3%25%2C s_cov:94.8%25%2C Eval:4.7e-24],MGA_1284
sequence1	MetaGeneAnnotator	CDS	1387742	1388506	.	-	0	ID=MGA_1285;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRFLFLLTNEAEINEFLKLSKSLDEKYPHIEKDVVYIKDIRKYDIFPLTIQGMGVSANTNLLIEDYLKLEDDVFDKYKEKISKGNFRKIYSLDGEIVEVAMEELKAYDLLVVCRTENGTISDNLHSLLKQHYKPMLILSITDREYSFDNVLMLNDGGFMVNRTVYDYFSTFGVQDIDVLRVNVEDRNRLTERFGSKCNIIDKTGDEVSIILSEVPKYDLILMGVLKYSIIFERLTGQVGLKVFEKTEVPIYMG;locus_tag=LOCUS_12740;note=MGA_1285
sequence1	MetaGeneAnnotator	CDS	1388520	1391132	.	-	0	ID=MGA_1286;product=DNA gyrase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903616.1;translation=MSDLFDNEEEMKEEDIDSTLDQDSQSAIEEIMKKTEMSNEELIYIEDEIKASYLDYSMSVIVSRALPDVRDGLKPVHRRILYAMDELKMNHNSPYKKSARLVGEVLGKYHPHGDSAVYNSMVRMAQDFNTRYMLVDGHGNFGSIDGDSAAAMRYTEARMSKIAEEMLIDINKDTIDWRKNFDESLDEPTVLPARLPNLLLNGTTGIAVGMATNIPPHNLGELSDGIIALIDNRDISIDELITHIKGPDFPTGGIIYGKSGIYSAYKTGRGKVRVSAKTEIITDKKGRQSIVITELPYQVNKANLIKRIGELVKDKIIVGISDLADLSNLEGIRIVIDIKKGEEAEIVLNKLLKFTDLQTTFGIIMLALVNNAPKILNLKEILEKYLEHRYDVITRKTIFDLNKAKDRAHILEGLRKALDHIDEIISIIRGSKTRALAKESLIAKFEFTEIQTDAILDMRLHRLTGLAREEIDTEYDKLMLFITDLEDILAKDERKYAIIKEEVLELKQKYGDARRTSIENDRYEINIEDLIKNEDVIVTITKRGYAKRMSLDSYKAQKRGGKGVSNTTTIEDDVLKDLFTAKTLDTLMVFSDKGKVYSIKVYEIPEVSKQARGKLIGNIIELDENEKISVIIPVDEIENDNRDLIFITRNGIAKKTKISEFKTINRNGKIAISFKDDEDEVKFVGITSGSEKDEIFISTKGGMAVRFKEEDIRSMGRTAAGVRAIKLNSNDEVVSADVIYTDNNVDEMSVLSVTSLGIGKKTLLSEYNIIKRGGKGVKNYNLERRSKEESEHHYVVYSTIIDPSDENSENMELVAISTTGTVIRIKIKDLPVVGRNSKGVKIQSLKYKEYLVSADRVAAENSEEEEIVEE;locus_tag=LOCUS_12750;gene=gyrA;EC_number=5.6.2.2;note=WP_005903616.1 DNA gyrase subunit A (Fusobacterium nucleatum) [pid:57.9%25%2C q_cov:94.4%25%2C s_cov:99.0%25%2C Eval:6.0e-269],MGA_1286
sequence1	MetaGeneAnnotator	CDS	1391143	1393125	.	-	0	ID=MGA_1287;product=DNA topoisomerase (ATP-hydrolyzing) subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005895130.1;translation=MSEKNYGGESITVLEGLDAVRVRPGMYIGTTSSRGLHHLVWEIVDNSIDEALAGVCDTITVKMLPDSEIEIIDNGRGIPTDMHKSGKSTLEVVMTVLHAGGKFDNSNYQFSGGLHGVGISVVNALSEKLEATVTRDGRVVRQIFSKGNAITEALEIGKAPAKAHGTTIKFKPDADIFETIQFDYDILQRRLKELAYLNQGIKIILIDARKPEKVKEEVFYFEGGIVDFVTELVGEDKIIEDVIYMKDRVMLTEGEVDDEGNPIPDKYSEVEIAMIYKNSQSTIEYSFVNNINTSDGGTHVSGLRTALTRTINDLAREASSKNEFKGEDVREGLVYVLSLKFPEPQFESQTKAKLGSSEATSIVSGVFGSKLKMYLEDHPKDCKTIIDKIAISKQAREAAKRARDLVTKKNEFSLGGLPGKLADCQSKNPEESEIFIVEGDSAGGSAKQGRFKEYQAILPLRGKILNVEKANEHKILENSEIKAMITAFGAGFGDRFDIEKLRYHKIIIMTDADVDGAHIRTLMLTFFYRYLRELINNGHIYIAQPPLYKVTTKSGKKEQVKYAYSDEQLKSITRVLDEKLGVDNSGKNKYNVQRYKGLGEMNPDQLKETTMDPDVRTLLKVTLEDAQYADKMFSILMGDKVEPRREFIEEHANYVRNLDI;locus_tag=LOCUS_12760;gene=gyrB;EC_number=5.6.2.2;note=WP_005895130.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Fusobacterium nucleatum) [pid:59.4%25%2C q_cov:99.4%25%2C s_cov:99.8%25%2C Eval:9.0e-214],MGA_1287
sequence1	MetaGeneAnnotator	CDS	1393287	1393835	.	+	0	ID=MGA_1288;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKLRFFLSIIILVGTILLFNRYITSKENNSIAIENVNKKIFKNMLLDNIIEDFNKKFGPTKYDVSKFVNRELDSNIYFYSQIFGYTESYFIIQYNDFGVTQLVFNFSNVKKENLEDITEIISLLIQISDGDIEEVEAKTIIVNMFKEFEKNKDTVTLVYDNKLIYTLNIFNNNSIKFSVR;locus_tag=LOCUS_12770;note=MGA_1288
sequence1	MetaGeneAnnotator	CDS	1393861	1394112	.	-	0	ID=MGA_1289;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLDKFLKITRVVKRRTIANELCDSGNVSVNGDIKKALYSVKDGDRIDIRFYNRNFVVNVLKLPPESLKKEDIEKYIKIEEIK;locus_tag=LOCUS_12780;note=WP_002356255.1 RNA-binding S4 domain-containing protein (Lactobacillales) [pid:50.8%25%2C q_cov:75.9%25%2C s_cov:72.4%25%2C Eval:4.3e-12%2C partial hit],MGA_1289
sequence1	MetaGeneAnnotator	CDS	1394112	1394723	.	-	0	ID=MGA_1290;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKYLSYIFLSFAVISCTTLDEYLKEKNLITQNDHIKYVELKEKKEEVKEEENKKIQIKIKEIETKVEEKKQEVKEVPKNSTVTPAKSEKEIKSSIIKSSSDVNTKNEVEVKKPAPAEPVESTIKFDDTDIQIVKFIAEQVVENEEQIKKKTIESIQKLESKGYKYSAREFLAKAYDNIKKTNVNSYILAAARVMNSIEREVK;locus_tag=LOCUS_12790;note=MGA_1290
sequence1	MetaGeneAnnotator	CDS	1394816	1395553	.	+	0	ID=MGA_1291;product=YlmH/Sll1252 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003358628.1;translation=MLNKEEFLKNLGNNEIAIKIFNSLSIALEYQIGVCSDIFITPNIYKKLNNKYGNIYTYMEGYDRKQICFTPYIPEFDYSVIEIKINNRFITYTHKDFLGAIMGLNIKREMIGDIFVEDNIAYVLISNKVLDFVMNNLKSIGKNDAIIQISKKSNFSYTFQDIKINICSNRLDNFISAITNLSRNKANQLIESGLVQIDYEICKEKDRKIYQNDILSIRKYGKYLISEELEYSKKGKKRWIIKKYD;locus_tag=LOCUS_12800;note=WP_003358628.1 YlmH/Sll1252 family protein (Clostridium) [pid:32.3%25%2C q_cov:90.6%25%2C s_cov:91.4%25%2C Eval:9.1e-25],MGA_1291
sequence1	MetaGeneAnnotator	CDS	1395570	1396883	.	-	0	ID=MGA_1292;product=preprotein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904128.1;translation=MTFKEAIVGRFQAIVRTRELRKRVLFTLGCFLVARIGVHIPVPGINMELFRDFTGGSTLAQFLNLFTGGAVQRASIFSLGITPYINASIVFQILGVLWPKIEEMQKEGGKEAEKVTQWTRYLTIAITLFQSTGLALILQSNNLVRDPGTTFILTSVVLITGGTAFLMWLSERISIKGIGNGTSMLIFLGIVSNLPQVVRSTISQLTTVDKGTILGYSSLILFILIIIIMVFIQLGERRIPIQYVGKSSRGVGNSQATVVGRKTYLPIKINTAGVMPIIFASMIMAVPSAIIPLIKDQSKQAYLLNLFGPKGWAYLISTAVLIVLFSFFYTAIVFDPEKIADSLKQSGGSIPLKRAGKETSDFLEYVATRITFGTAIFLAILGILPNIWFGYVLNIPVMLGGTSLLILVGVAVELIQNIDSHMATQKYKGFNNIRRRR;locus_tag=LOCUS_12810;gene=secY;note=WP_005904128.1 preprotein translocase subunit SecY (Fusobacterium) [pid:46.9%25%2C q_cov:98.4%25%2C s_cov:99.8%25%2C Eval:1.1e-105],MGA_1292
sequence1	MetaGeneAnnotator	CDS	1396938	1397474	.	-	0	ID=MGA_1293;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005899800.1;translation=MNLNELRPAEGSKRDRKRIGRGHGTGWGKTAGKGHNGQKQRSGTYVPASFEGGQMPLIRRVPKKGFSNSAFQKDMIVVNLKDIVDKFNDGEEVTLETLLERRVVKNADFITKENGERVYISLLKVIGNYELEKALKIKAHKVSKGAKEAIEKFNGTVELLEIKSFANVAGNAKEVKGE;locus_tag=LOCUS_12820;gene=rplO;note=WP_005899800.1 50S ribosomal protein L15 (Fusobacterium) [pid:49.7%25%2C q_cov:96.1%25%2C s_cov:99.4%25%2C Eval:4.6e-39],MGA_1293
sequence1	MetaGeneAnnotator	CDS	1397479	1397658	.	-	0	ID=MGA_1294;product=50S ribosomal protein L30;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005892817.1;translation=MTKVNITLVKGINGRKPNHIATIKSLGLRKIGQTVEHNLTADIEGKIKLVSYLVKVEEV;locus_tag=LOCUS_12830;gene=rpmD;note=WP_005892817.1 50S ribosomal protein L30 (Fusobacterium) [pid:62.7%25%2C q_cov:100.0%25%2C s_cov:96.7%25%2C Eval:1.6e-14],MGA_1294
sequence1	MetaGeneAnnotator	CDS	1397677	1398174	.	-	0	ID=MGA_1295;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015714.1;translation=MAREVKANEYKEKLLRISRVSKTVKGGRRISFSVLAAVGDENGKVGIGLGKANGVPEAIRKAIAGAKKSMITVSLKGGTLPHEQIGKFNATSVLLKPASKGTGVIAGSATREILELVGVTDVLTKIRGSKNKDNVARATLDGLKKLRSIEKVAKLRGKTVEEILG;locus_tag=LOCUS_12840;gene=rpsE;note=WP_011015714.1 30S ribosomal protein S5 (Fusobacterium) [pid:68.8%25%2C q_cov:95.2%25%2C s_cov:95.7%25%2C Eval:7.7e-56],MGA_1295
sequence1	MetaGeneAnnotator	CDS	1398194	1398556	.	-	0	ID=MGA_1296;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904133.1;translation=MIKKVDRNLARVRKHKSIRAKISGTPERPRLTVFRSLTNIFAQLIDDTTGRTLVSASTIEKGNKVEHGSNVEAAKLIGKRIAEKAKAAGITKVVFDRSGYIYTGRVKALADAAREAGLEF;locus_tag=LOCUS_12850;gene=rplR;note=WP_005904133.1 50S ribosomal protein L18 (Fusobacterium) [pid:70.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-39],MGA_1296
sequence1	MetaGeneAnnotator	CDS	1398569	1399102	.	-	0	ID=MGA_1297;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904134.1;translation=MSRVGKKPITIPNGVEITNEGNVYTVKGPKGTLSRELSSEIKVKIENNEITFERPNDLPNIRALHGTTRANVNNMVVGVSEGFKIKLELVGVGYRVAAAGKGITMALGYSHPVDIAPIEGITFTVEGNTKLTVEGIDKQLVGQVASDIRAKRAPEPYKGKGVKYADEKIRRKEGKKG;locus_tag=LOCUS_12860;gene=rplF;note=WP_005904134.1 50S ribosomal protein L6 (Fusobacterium nucleatum) [pid:65.3%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:7.6e-63],MGA_1297
sequence1	MetaGeneAnnotator	CDS	1399150	1399545	.	-	0	ID=MGA_1298;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904135.1;translation=MHLTDPIADMLTRIRNANIAKHDKVAIPFSKIKESIANILRNEGYISEYEIKEEGSIKDIVVTLKTVDGEQVIKGLKRISKPGRRVYSSVESLPKVLGGLGIAIVTTPKGVLTDKECRKQSVGGEVLCYIW;locus_tag=LOCUS_12870;gene=rpsH;note=WP_005904135.1 30S ribosomal protein S8 (Fusobacterium nucleatum) [pid:64.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-42],MGA_1298
sequence1	MetaGeneAnnotator	CDS	1399566	1399853	.	-	0	ID=MGA_1299;product=30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015715.1;translation=MAKKAMVQKNLKIEKTIDKYAAKRAELKARAKQGDREALIELSKLPRNASPTRHRNRCQVNGRPRGFMREFGISRVMFRQLAGEGAIPGIKKSSW;locus_tag=LOCUS_12880;gene=rpsN;note=WP_011015715.1 30S ribosomal protein S14 (Fusobacterium nucleatum) [pid:65.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-31],MGA_1299
sequence1	MetaGeneAnnotator	CDS	1399875	1400429	.	-	0	ID=MGA_1300;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005892302.1;translation=MSTKYMPRLQKAYKETMVSALMKELGLSNIMEVPKLDKIIVNMGLGEAVNNPKLIDTAIKELAQITGQKPVARKARKSEAGFKLREGQLIGAKVTLRKEKMYEFLDRLVSVTLPRVRDFEGVSSRGFDGRGNYTLGLKEQIIFPEIEIDKVDKVLGMGITFVTTAKTDEEGRALLRAFGMPFAK;locus_tag=LOCUS_12890;gene=rplE;note=WP_005892302.1 50S ribosomal protein L5 (Fusobacterium) [pid:70.7%25%2C q_cov:98.4%25%2C s_cov:98.9%25%2C Eval:4.6e-69],MGA_1300
sequence1	MetaGeneAnnotator	CDS	1400447	1400830	.	-	0	ID=MGA_1301;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897291.1;translation=MIKSKIKSVPKKLHVKTGDTVVVISGRSNNDKRSNKSSQMGDKGKIGKVLKVFPKLGKIVVEGVNLKKKHLKPNAMNTQGEIVEREVPIFSSKVMLWDESVKSATRVRYEIKDGKKVRISVKSGQEI;locus_tag=LOCUS_12900;gene=rplX;note=WP_005897291.1 50S ribosomal protein L24 (Fusobacterium) [pid:59.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.7e-33],MGA_1301
sequence1	MetaGeneAnnotator	CDS	1400847	1401215	.	-	0	ID=MGA_1302;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904136.1;translation=MVQQQSILNVADNTGAKKIMVIRVLGGSRRRFGRIGDVVVASVKEAIPNGSVKKGDVVKAVIVRTRKEVKRLDGSYIKFDDNAGVILNASMEMKGTRIFGPVARELRAKNFMKIVSLAPEVL;locus_tag=LOCUS_12910;gene=rplN;note=WP_005904136.1 50S ribosomal protein L14 (Fusobacterium) [pid:80.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-50],MGA_1302
sequence1	MetaGeneAnnotator	CDS	1401257	1401511	.	-	0	ID=MGA_1303;product=30S ribosomal protein S17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904137.1;translation=MERNERKVREGIVVSDKMDKTVVVVENTMKLHKLYKKRVKTSKRYKAHDELNECRVGDKVRIMETRPLSKDKNWRVVTILEKAK;locus_tag=LOCUS_12920;gene=rpsQ;note=WP_005904137.1 30S ribosomal protein S17 (Fusobacterium nucleatum) [pid:72.0%25%2C q_cov:97.6%25%2C s_cov:98.8%25%2C Eval:1.2e-27],MGA_1303
sequence1	MetaGeneAnnotator	CDS	1401524	1401715	.	-	0	ID=MGA_1304;product=50S ribosomal protein L29;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003156482.1;translation=MTVKEVRDLDLNQLESQVKELKHELFNLKLQKTLGQLQNTAQIRKVKRDIARMKTILTEKTGK;locus_tag=LOCUS_12930;gene=rpmC;note=WP_003156482.1 50S ribosomal protein L29 (Bacillus) [pid:53.3%25%2C q_cov:95.2%25%2C s_cov:90.9%25%2C Eval:4.3e-12],MGA_1304
sequence1	MetaGeneAnnotator	CDS	1401715	1402137	.	-	0	ID=MGA_1305;product=50S ribosomal protein L16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904138.1;translation=MLIPKRTKYRKQFRGSMGGIATKGNYVAFGDFGLAAKEFGWITSRQIEACRITINRTFKREGKIWIRIFPDKPYTKRPEGTRMGKGKGNAEGWVAVVKTGKVMFEVGGVSEEKAKEALRKAGHKLPIKVKFVRKEVGGDK;locus_tag=LOCUS_12940;gene=rplP;note=WP_005904138.1 50S ribosomal protein L16 (Fusobacterium) [pid:69.6%25%2C q_cov:96.4%25%2C s_cov:94.4%25%2C Eval:3.7e-51],MGA_1305
sequence1	MetaGeneAnnotator	CDS	1402137	1402796	.	-	0	ID=MGA_1306;product=30S ribosomal protein S3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005892367.1;translation=MGQKVDPRGMRIGIVKTWDSKWFARKGKEYLNNFHEDLKIREYIKKNYYQAGISSIAIERVSENEITIIVSTGKAAVLIGRKGAEITALRAKLENMTGKKVFVKALEIKNPNRDAQLVAESIATAIEKRVAYKRAVQQAIQRAEKAGVLGIKVMTSGRLNGAEIARSEWTLSGRVPLHTLRADVDYATATAHTTYGALGIKVWIFNGEVLPTKKEGGTK;locus_tag=LOCUS_12950;gene=rpsC;note=WP_005892367.1 30S ribosomal protein S3 (Fusobacterium) [pid:67.0%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:2.0e-78],MGA_1306
sequence1	MetaGeneAnnotator	CDS	1402819	1403151	.	-	0	ID=MGA_1307;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897300.1;translation=MPAIAKLRYQRLSPQKARLVADVIRGKDALEALNILRFTNKKAAPLIEKTLRSAIANAEHNLGLNPENLIVSKVLIDKGPVLKRMNPRAMGRADIIRKPLAHITVEVDVK;locus_tag=LOCUS_12960;gene=rplV;note=WP_005897300.1 50S ribosomal protein L22 (Fusobacterium) [pid:66.4%25%2C q_cov:97.3%25%2C s_cov:96.4%25%2C Eval:5.6e-33],MGA_1307
sequence1	MetaGeneAnnotator	CDS	1403200	1403463	.	-	0	ID=MGA_1308;product=30S ribosomal protein S19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005897301.1;translation=MARSLKKGPFADQYLFKKIEAQGSNKAVIKTWSRRSTIFPQFIGYTFAVYNGKKHIPVYVTEEMVGHKLGEFAPTRTYHGHGKDKKK;locus_tag=LOCUS_12970;gene=rpsS;note=WP_005897301.1 30S ribosomal protein S19 (Fusobacterium) [pid:81.1%25%2C q_cov:100.0%25%2C s_cov:98.9%25%2C Eval:2.9e-37],MGA_1308
sequence1	MetaGeneAnnotator	CDS	1403491	1404318	.	-	0	ID=MGA_1309;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904139.1;translation=MPIKKLKPITSGTRHMSILVNTELDKVRPEKTLVEPLNSSYGIDNYGHRTGRNRHKGHKRLYRVIDWKRNKLGIPAKVASIEYDPNRTANIALLHYVDGEKRYILAPSGLKKGDIVVSGENADIKPGNALKLKDLPVGTLIHNVELIPGKGGQLARSAGTSARLVAKEGTYCHVELPSGELRLIHKECFATVGVIGNSEHLLVSLGKAGRNRHLGRKPHVRGSVMNPVDHPHGGGEGRSPIGRKAPVTPWGKPALGKKTRGKKNSDKFIVRKRKK;locus_tag=LOCUS_12980;gene=rplB;note=WP_005904139.1 50S ribosomal protein L2 (Fusobacterium) [pid:77.8%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:7.6e-127],MGA_1309
sequence1	MetaGeneAnnotator	CDS	1404533	1407145	.	-	0	ID=MGA_1310;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYRKGIFLFIFLTSFSIISNSEQSTEKIVDEMIKKDFEKIEEIEKQIIYDEDGVEKTGDTFRVKDGKNGNIIINEDISSSEVIVNSNANANSLIFENNANISSSKEIILGGKETFQKDKVIDEVHYRKLVYVINNKEITQKGEGSALDLNAPYVHYVNSENSVLKGSLGIGAEKLAFLDNYGMIETLSFVSQNTGSIINGKHGIIKNFKMAGAGDLSLKNEGTINNGLFVDVNTAVSRIVNSGTIKGELYIQNTDLDINDDRESIFLNTKTGVIKDASAHMMSVLNMNFQNFGTIETENDFQLYALRGKIDNNGKIKGNMIIEDPSSNIDDKKEEISPLRVNLQNGVLEGNLLLSRKGFKETIVTIKSMDNVTGELDSTEGDNDTLRLIGEGKITDSNKFKEFEKLHLDSSKWEFINEEYKVNNEILVENSNPSIRKAKLKTKKFTNNERSTINVLEASNIEVEDKFVNKGLISFLNSKDNTSNLSIKGNYIGENSKLLMRTYIDELKSDKLKLDGSVNGSTGVEISNPNSTLDKRMKNKLKLIETKSSTKDAFTLLNSEYGIYKYGLNLEGNDWYLNQTYNMPIIGIILNSTNNARNEFNLTFNDHNESIANKKLWTKLSKIYSNNILSGDNKFNLPIKSNTSNIFMGYDLVESNIKDRTYKYGVFGNVGFDKANNLGKTNAFGLGIYGTFKNNNWYVDSWLNYMYLKNRIAIKNELRYINHALKASLEIGTRGDMYIGKMRLHSSHYWQLIYSHIFNTGLKYDEDVKYFGNSNIKSRLGTNLTLFTHFKNINPYLEFNWIYDTRLVGVRVEKEEYLYNNNKNTFELKWGLREMNVNDRLSMWVNIVHRFNEAGYRANGAEFGVQYKLR;locus_tag=LOCUS_12990;note=WP_002211638.1 autotransporter adhesin YapH (Yersinia pestis) [pid:22.1%25%2C q_cov:84.0%25%2C s_cov:20.7%25%2C Eval:1.4e-15%2C partial hit],MGA_1310
sequence1	MetaGeneAnnotator	CDS	1407297	1408346	.	-	0	ID=MGA_1311;product=PTS transporter subunit IIC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000200684.1;translation=MKDMTMKQFIMKVLNGTAIGIVVGLIPNAVLGGLFGYLEQFNPVFGILRQICVDIQWLVAPMIGFLVGLQFGFNPMKSAIIMSATWIASGALVRVDGVLKIGLGDLINVMLIAGIAAYVTMLLGEKLGSLTIVLQPIIVGVGVGFLGLLMLPYVKHISTTIGYGINSFTTLQPILMCILIAMSFSILIVSPISTVAIGIAIGLSGLASGSANIGVSATAAVLVIGSWAVNKAGVTIAVGMGGMKMMMPNIVKNPIMILPILTTSSISGLVVRILGITGDKVSSGFGFVGLVGPIKAMSDYAVNGITGLKALTFVIIAYFVVPFGVALISHIVYTKVLKVYKAEIYKFEN;locus_tag=LOCUS_13000;note=WP_000200684.1 PTS transporter subunit IIC (Staphylococcus) [pid:47.1%25%2C q_cov:99.4%25%2C s_cov:98.6%25%2C Eval:2.2e-87],MGA_1311
sequence1	MetaGeneAnnotator	CDS	1408349	1409284	.	-	0	ID=MGA_1312;product=2-dehydropantoate 2-reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002370935.1;translation=MKIIIAGTGAMGATYGSMLKKSGNEVIFLDLWQENVEAINKNGINFKNLGVEENIKAEAYLPSGYKESADLIVVFTKSMQLKQMLNDVKHLISEKTSVLCLLNGLGHIDTLKEFVKPEQILMGVTVLTAGMKGAGMFEVTNYGKTEIQNISEAGKENAIKVVECINNSGLPTVYSEDILFSIWRKACINGTMNACCALLDCNMLQLGKIEKSRELLGKIVEEFAAVAKKEGTTLDVEEITNLVCWFTTEEFQGVKHYPSMHQDLIQKRRLTEIDYLNGYVSKKGKEYGLDTSFCDLITILVHGRESVLIGG;locus_tag=LOCUS_13010;note=WP_002370935.1 2-dehydropantoate 2-reductase (Enterococcus faecalis) [pid:47.8%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:7.9e-78],MGA_1312
sequence1	MetaGeneAnnotator	CDS	1409411	1409788	.	-	0	ID=MGA_1313;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGKIFIALFPYFDIGSRRKGLKERPVLVIGETNDNDCIILPVSTITKKQYFNPEYDIEIDPEKYPKLNLNKLSYIRVHKQAIIYKKALHKEIGDLKVEYGLKYIEVMKKLEGFNKSLLFNNCVF;locus_tag=LOCUS_13020;note=MGA_1313
sequence1	MetaGeneAnnotator	CDS	1409778	1410287	.	-	0	ID=MGA_1314;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGGDTVEKIIEVARFIVKRYKEMYSENIDEIKLQKLIYFTQKESILYTGNLLFIEKMKAWRLGPVSIKVRNGYRNRSVNKQNYNLKTFNKYIINNVIIKYGLYSSSKLINLTHKERAWKLARKGLLENERSVNNIDVNLIFDEKERLYDTYWDMYCDEFNDHKGDENDR;locus_tag=LOCUS_13030;note=WP_011143885.1 DUF4065 domain-containing protein (Gloeobacter violaceus) [pid:35.0%25%2C q_cov:58.0%25%2C s_cov:72.5%25%2C Eval:2.2e-08%2C partial hit],MGA_1314
sequence1	MetaGeneAnnotator	CDS	1410391	1411182	.	-	0	ID=MGA_1315;product=aldo/keto reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009931159.1;translation=MNIGKLGFGVYKITDEEKMKTALQTAIDAGYRLIDTATYYKNEAFIGDFLKTCKLKNELVITTKIWPSDMSYDDTLRSFEESHKLLDGKIDILLSHWPHPEKFIESYKAMERLKNEGAVKEIGVCNFKIHHLEKLKQHCSIKPFFNQVELHPKFSQPELRSYLKKEGIQVEAWMPIAKAKYLDDEILLNIARKYNMTSSQVILNWHIQRGIYAIPKSETPSRIIENFNSQSFILNEEDLKAIDMMDEGVRFSLDPDDFPYDKK;locus_tag=LOCUS_13040;note=WP_009931159.1 aldo/keto reductase (Listeria monocytogenes) [pid:44.8%25%2C q_cov:95.1%25%2C s_cov:90.0%25%2C Eval:9.4e-63],MGA_1315
sequence1	MetaGeneAnnotator	CDS	1411194	1412501	.	-	0	ID=MGA_1316;product=aminopeptidase C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003731859.1;translation=MNLEKMEQKFNEKNFRVLQNATLRMGISDAVINNEVFAETIHVFSENIETGKVSNQKSSGRCWIFAALNTLRHKMNKEYNLENFELSQTYTFFWDKLEKSNFFLDAIIKTHKEDIDSRIVHHLLSIPQQDGGQWDMVVSLIQKYGVVPKSVMPEVYHSSNSAMLNTLLNKKLRLNAEILRNSDLDEKGLYDLKETMIEEIYAFLCVMLGVPPKTFNFEYYDKDKKFHRDLNINPQDFYNKYINMDLNEYVSIINAPTKDKPFYEMFTVEYLGNVIGGKPVRYLNLPMDEFKKLAIRQISDGETVWFGCDVGQNSQRTLGIMDLNLFEFEKSFGIKFEQSKAATLDYCESLMTHAMVLSGVNIIDGKSTRWKVENSWGEANGEKGYFVMSDEWMDKYTYQIVVNKKYLSQELQAKLNNDPIVLRPWDPMGSLALCK;locus_tag=LOCUS_13050;gene=pepC;note=WP_003731859.1 aminopeptidase C (Listeria monocytogenes) [pid:56.5%25%2C q_cov:99.1%25%2C s_cov:98.0%25%2C Eval:1.5e-142],MGA_1316
sequence1	MetaGeneAnnotator	CDS	1412518	1413738	.	-	0	ID=MGA_1317;product=hydroxymethylglutaryl-CoA reductase%2C degradative;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011074567.1;translation=MWKDSYKKSREDRIKLLKENGNISEDTFNILNDSDVLSDEMADKFIENQIGVYGIPLGLATNFLINGKEYIIPFAIEEPSVIAAACNAAKIIKKSGGFKAQITDRLIIGQIAIYDVKDFEKAKNDIYSIKDRLLKIANDSQKSIVNLGGGARDIKLEKKEDFLIIYLYVDAVDAMGANTVNTMLESIAPVIVEICLGTKLMSIISNYSTSSMVKAECFVEIEEDLGKKIEKAIEFANADIYRAVTNNKGIFNGIDAISLATGNDWRAIEAGAHAYASRDGKYKSLTSWKYKNGILHGIIELPLAIASFGGSVGVHPTSKISLEILGNLNAKELSEITACVGLAQNFAALRALVTVGIQKGHMKLQLKSFAMYLGLEDEKIKILEKEFENETHITLDKVKEKIKYID;locus_tag=LOCUS_13060;EC_number=1.1.1.88;note=WP_011074567.1 hydroxymethylglutaryl-CoA reductase%2C degradative (Streptococcus mutans) [pid:47.9%25%2C q_cov:99.0%25%2C s_cov:96.7%25%2C Eval:4.2e-104],MGA_1317
sequence1	MetaGeneAnnotator	CDS	1413725	1414876	.	-	0	ID=MGA_1318;product=hydroxymethylglutaryl-CoA synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012775288.1;translation=MKIGIDKIGVEFSDKYLDIKDLAIARNVDVDKFTKGIGQLEMSFTSKNQDIVTLAIKATRDILTEDDKKNIDLVIFATESSIDESKAASIYIKNYLGINDYCKCIEIKQACFGATAGLDYAKAHVAMNPNSKALVIAADIAKYGKNTGGEVTQGAGAIAMLVSTNPSIIEFNNDEIACSEDIMDFWRPTYSKYALVDGKFSVEKYLELLSKSYSGYKNLNNTDFSAICLHVPYTKMAYKGLNSITNDEKILKEFEASVEYNKRVGNIYTGSLYLSMLSLILNSKNIKVGDKIGMFSYGSGAVAEFFSVTLVKGYENSIDKEKIEIKLNNRKKYSVEEYENMFFEDINLDENGTAYLGAVDDDVYLKEILNHKRIYEVIDYVER;locus_tag=LOCUS_13070;EC_number=2.3.3.10;note=WP_012775288.1 hydroxymethylglutaryl-CoA synthase (Streptococcus suis) [pid:52.5%25%2C q_cov:97.9%25%2C s_cov:99.5%25%2C Eval:9.2e-106],MGA_1318
sequence1	MetaGeneAnnotator	CDS	1414879	1415943	.	-	0	ID=MGA_1319;product=acetyl-CoA C-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010921819.1;translation=MVSIIRAMRTAIAKYNGMYKDVDLVDFSADLLKTITSDIKVDEVILGNVLANNLGQNIARQIAIKGNLENEVPAFLVNMVCGSGMKAIELGYSSIVSGNNEVVLVGGMEKMTGSENMLKDGLTDAFSNTHMGITAENIVDVYGFSREALDDFAFNSQKKAQNAIENGHFKAEIYNEMIDEYPRFNLEREKLSKLKTVFKEDGKVTAANSSGINDGAAMLILADSNYAKENNMEILASIKGFATVGNDPNFMGLAPIYSTKKLLKKFNLTIEDIDLFEVNEAFSAVSLAFNKELNIPEDKINVNGGAIALGHPIGASGARIVVTLVHELIRRNLKRGIATLCVGGGQGISILIER;locus_tag=LOCUS_13080;note=WP_010921819.1 acetyl-CoA C-acetyltransferase (Streptococcus pyogenes) [pid:49.2%25%2C q_cov:99.7%25%2C s_cov:99.0%25%2C Eval:2.0e-96],MGA_1319
sequence1	MetaGeneAnnotator	CDS	1416045	1416695	.	-	0	ID=MGA_1320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKMMIIPVILLAVNGFANSNTMMNTNKMVKEEKVAMEMMHEEVRVDLLGSEDQNAMAILNGDMALLSINGEKYSLKRMKSASGEMFSNDDKTVVLGIKGKDAFVRMNDKVMGFNAMQEMVEEIVLNYHSVRGEAHSHVLVIIKGDHAFVRVDGMEHDLERIVSASGEMFANADKTVVLGIKGTEAFVEKDGKVANYFQVGKASKGYARGMEEEHK;locus_tag=LOCUS_13090;note=MGA_1320
sequence1	MetaGeneAnnotator	CDS	1416843	1417292	.	-	0	ID=MGA_1321;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLMVISAMLLTVSGFANSNAMPRTQKMMKIEKTQEHVHVMEDEIIYNFHSVKGEAHSHLLVILKGDHAFVRVDGMEYNLEKIVSASGEMFTNDDKTVVLGIKGTDSFIEINGKVANYFQVGRANKGYAKKMHEHKHEHDHDHDHDHK;locus_tag=LOCUS_13100;note=MGA_1321
sequence1	MetaGeneAnnotator	CDS	1417306	1418658	.	-	0	ID=MGA_1322;product=glucose-6-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003243401.1;translation=MKLRLETTYVEPFIAKHEYEQIRPFVELADKILMNKSGAGSDFLGWLDLPKNYDKEEFARIKKATEKIQNDSEILIVIGIGGSYLGAKSAIEFLSNTFYNNMKKEDRKTPEIYFAGTNISPVYLQHLLDLVGDRDFSINVISKSGTTTEPAIAFRVFKKKLEEKYGKEEAAKRIYATTDKAKGALKKLSISEGYETFIVPDNVGGRFSVLTAVGLLPIAVAGINIDELMQGAYDAMVDYSTKEYYENDAMIYAATRNLLYNKGKNMEILTNYEPRLHYIAEWWKQLFAESEGKDGKGIYPTSADFSTDLHSIGQSIQEARRTMFETVLLIDRPEVDIQIEKEETDLDGLNYLSGKGIDYVNKQAAKGVILAHVDGNVPNLVINIPEATAYHLGYMFYFFEKAVAIGGYMLGINPFDQPGVEEYKRNMFALLEKPGFEEETKKLLIRLTNR;locus_tag=LOCUS_13110;EC_number=5.3.1.9;note=WP_003243401.1 glucose-6-phosphate isomerase (Bacillus) [pid:62.9%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:3.0e-167],MGA_1322
sequence1	MetaGeneAnnotator	CDS	1418904	1419212	.	+	0	ID=MGA_1323;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKILKKIEKKYIISLFFLIVIGAISEPLIAYSYILLGSKIEAIDNLDFGFLYIFITILFALIIAGINYLFVDLIMNDIVTNIRKKIFLSILNKKSSEILKT;locus_tag=LOCUS_13120;note=MGA_1323
sequence1	MetaGeneAnnotator	CDS	1419237	1419866	.	+	0	ID=MGA_1324;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIDIWKFRTLKSTIDIFEKTLQIILTLSFITLVDYRVSIVVILFLIPLIINNIYFPKKMEKSYREYIEKDNEQLKKMKEYFDSILIIKNNNEENEFSLKMNDVLEEQNFLWKKTSILGNLSAFIANSGVILSQFAGIFVSILFYKNNYISLGSLIALIQLTMFINQPVINLINSIIGINSMGEINNYIENINFDVEEKNHIILISII;locus_tag=LOCUS_13130;note=MGA_1324
sequence1	MetaGeneAnnotator	CDS	1419929	1420282	.	+	0	ID=MGA_1325;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRFEQGKKYLIIGESGSGKSTFLKILMKYLEDFKGEILVDNISLKDINEETLNKNIFYIPQKIHIFSDTIKNNIDIKNRYSESEILNSMREVNLDKLIKKEDGINSIIGEEINTISG;locus_tag=LOCUS_13140;note=WP_002681273.1 ABC transporter ATP-binding protein (Treponema denticola) [pid:41.5%25%2C q_cov:100.0%25%2C s_cov:22.3%25%2C Eval:2.1e-19%2C partial hit],internal stop codon at [1420281:1420283](+),frameshifted%2C insertion/deletion at around 1419857,MGA_1325
sequence1	MetaGeneAnnotator	CDS	1420539	1421117	.	-	0	ID=MGA_1326;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVIGYVFSNLNILLGLDYRSNYEFLGPIIIWFLLSSFLAPILEELIFRFFLIETLKKEGYKSIIFITSIIFSISHSRIDSWIVSFLLGIILAKIYVEFGLKYSIFAHITYNFIYNLPKLFFKTDFYYISSVIVAVILIISFIISIFKGKKYLKMLSLNYYDIKKFLFENSIVMILIILISLINVYLEIGLK;locus_tag=LOCUS_13150;note=MGA_1326
sequence1	MetaGeneAnnotator	CDS	1421234	1421605	.	-	0	ID=MGA_1327;product=DUF956 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003699888.1;translation=MIESLSSKIDLTINASSFSGITSYGKVLVGDKSFEYYNDRNVNDYIQIPWEEVEYIAAQVFFKRWITRFVIFTKRNGKFSFSTKDNKKTLKVVSNYIDKSKMVKSKTFLEVIILGFKRLIKRR;locus_tag=LOCUS_13160;note=WP_003699888.1 DUF956 family protein (Ligilactobacillus) [pid:46.8%25%2C q_cov:100.0%25%2C s_cov:99.2%25%2C Eval:3.7e-32],MGA_1327
sequence1	MetaGeneAnnotator	CDS	1421607	1422524	.	-	0	ID=MGA_1328;product=PTS system mannose/fructose/sorbose family transporter subunit IID;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002286670.1;translation=MENKITLSKKDRFKVALRHQFLQGSWNYERMQNGGWAYSIIPAIKKLYTKKEDQIAALERHLEFYNTHPYVSAPVMGVTLALEEERANGVPVDDAAIQGVKIGMMGPLAGVGDPVFWFTARPILGALGASLALGGSVLGPLLFFFVWNIMRFAFLWYTQEFGYQVGVKITKDLSGGLLGKITQGASILGMFIIGGLVQRWVSISFKPIVSIVKQPEGAFINWETLPSGAEGIKSALEQYSSFGATGLNIDKVTTLQQNIDSLIPGISALLLTLLCCYLLKKKISPISIIVVLFAVGILARLSGLM;locus_tag=LOCUS_13170;note=WP_002286670.1 PTS system mannose/fructose/sorbose family transporter subunit IID (Enterococcus) [pid:64.8%25%2C q_cov:99.7%25%2C s_cov:99.3%25%2C Eval:2.1e-115],MGA_1328
sequence1	MetaGeneAnnotator	CDS	1422542	1423354	.	-	0	ID=MGA_1329;product=PTS mannose/fructose/sorbose transporter subunit IIC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002294546.1;translation=MSLITILLVVFVAFLAGMEGVLDQFQFHQPLVACTLIGLVTGHLTEGVILGGSLQMIALGWSNVGAAIAPDAALASVASAIIMVLGLNGGEADVTRSINSAIALAIPLSVAGLFLTMIARTISISIVHLMDDAAKKGNIRTIEALQFFALFIQGLRIAVPALLLCIIPTTAVTSILQAMPAWLSDGMAIGGGMIAAVGYAMVINMMSTKEVWPFFIIGFCLAAISQLTLIALGAIGISLALIYLGLKESAASSNNGSNLGDPLDDILNDY;locus_tag=LOCUS_13180;note=WP_002294546.1 PTS mannose/fructose/sorbose transporter subunit IIC (Enterococcus) [pid:65.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.8e-95],MGA_1329
sequence1	MetaGeneAnnotator	CDS	1423376	1423735	.	-	0	ID=MGA_1330;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITEAAPPGVKANTVPIDKMVEVDKDPRFGNTKALLLFETPQDALKAIEKGMKIDELNIGSMAHSVGKVAVTTSLAMDMEDVKTFEKLLGLGVKMDVRKVPADTPGNIEQILNKVREKF;locus_tag=LOCUS_13190;note=WP_003721722.1 mannose/fructose/sorbose PTS transporter subunit IIA (Listeria) [pid:61.9%25%2C q_cov:99.2%25%2C s_cov:36.8%25%2C Eval:2.0e-38%2C partial hit],internal stop codon at [1423958:1423960](-),MGA_1330
sequence1	MetaGeneAnnotator	CDS	1423958	1424326	.	-	0	ID=MGA_1331;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIGIIIASHGNLASGILETSKMILGDVENLAAVGIYPNEGPEDLKNKIVEAAKSFDNQNEVLVLVDIWSGSPFNQANALMAEYPNWAIVTGVNLPLLAEAIDVRDDVTTAHELASKILNEGR;locus_tag=LOCUS_13200;note=WP_010890751.1 mannose/fructose/sorbose PTS transporter subunit IIA (Clostridium) [pid:52.8%25%2C q_cov:100.0%25%2C s_cov:37.8%25%2C Eval:9.7e-33%2C partial hit],internal stop codon at [1423958:1423960](-),MGA_1331
sequence1	MetaGeneAnnotator	CDS	1424547	1425062	.	-	0	ID=MGA_1332;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKTKLKIIYYFFIFIPLYFFLILNGFNNLSSIIIAITTLIINIYLLYLEFLKIINKMQFKKISSSDSFLHSLYFLSFIVLILGVFLENLEVIRLGFAIYLFALIFVNMGTVYYDDKTIILGSDIIIRENISNIEMKNGSIFIEYDNGVKRKMKFFTKVRTQNIFNFLKEL;locus_tag=LOCUS_13210;note=MGA_1332
sequence1	MetaGeneAnnotator	CDS	1425274	1425903	.	-	0	ID=MGA_1333;product=SdpI family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002262698.1;translation=MLNKRKILISILLCLLPIVYALLVYDKLPEMIPTHWNFSGEIDGYTSKKVFVFGMPIFFAVLNIFSIFMLEADPKKIENKNNFLFKNVLWIGPIFINIVVILVILASLGYNINMLMITKIFVGIVLIVVGNYIPKTRQNYTVGIRTPWTLNNEENWNKTHRFGGKILVISGIMTILSVFIPYLYIFAFILFPLIIVYSYWIYRNSKKDS;locus_tag=LOCUS_13220;note=WP_002262698.1 SdpI family protein (Streptococcus mutans) [pid:38.9%25%2C q_cov:94.7%25%2C s_cov:95.3%25%2C Eval:3.4e-40],MGA_1333
sequence1	MetaGeneAnnotator	CDS	1425893	1426168	.	-	0	ID=MGA_1334;product=autorepressor SdpR family transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009889969.1;translation=MFKDTFKALSDPIRREILLLLKKGKMNAGDIASSFNITAPTVSYHLNLLKKADLIYETKFKNYIYYELNISVFEELILWFNNFKGDDVYVK;locus_tag=LOCUS_13230;note=WP_009889969.1 autorepressor SdpR family transcription factor (Clostridioides) [pid:65.9%25%2C q_cov:90.1%25%2C s_cov:84.5%25%2C Eval:9.2e-28],MGA_1334
sequence1	MetaGeneAnnotator	CDS	1426259	1427083	.	-	0	ID=MGA_1335;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005668002.1;translation=MLENKVVVITGAGGIICSEMAKFLSEKGCKIALLDLSFEMAKKVSDEINENGGDTLAIRCNVLDIESIKKAKEEVDRYFGGCDILINGAGGNSPKATTDNEYHELNILNGIKSFFDLEKEGIEFVFDLNILGTILPTQVFAKDMIGRKGANIINISSMNAYTPLTKIPAYSGAKAAVSNFTQWTAVHFSHVGLRCNAIAPGFLRTKQNEKLLFDDNGNPTKRTEKILNSTPMGRFVKPEELNGVLEFLADSDKSSAVTGICIPVDCGFSAYSGV;locus_tag=LOCUS_13240;note=WP_005668002.1 SDR family oxidoreductase (Haemophilus influenzae) [pid:64.5%25%2C q_cov:99.6%25%2C s_cov:97.2%25%2C Eval:3.0e-99],MGA_1335
sequence1	MetaGeneAnnotator	CDS	1427070	1428128	.	-	0	ID=MGA_1336;product=mannonate dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010964641.1;translation=MKMTFRWYGKDDTVTLENIRQIPGMSGVVTAIYSVPVGEIWPMEDLIELKEMVNSYNLDMEVIESIPVHEDIKLRRGKYKEYIENYKENIRRCANVGIKTICYNFMPVFDWTRSQLDKVLPDGSKALVYYRSQIEKLDPTKLALPGWDLSYSPSQVKELIDSYQKLGEEGLWNNLKLFLEEIIPVAIECDIDMGIHPDDPPWPIFGIPRIIKNEEDLDRFLSLYDVKNNGITLCSGSLGCNKKNDFVAMVKKYAGMGRVPFAHLRNIKILEDGSFEESGHLSSEGSLDFAEIVKAYYDAGFKGYLRPDHGREIWGEKSKPGYGLYDRALGATYINGLWEMCKKMKENESVRK;locus_tag=LOCUS_13250;gene=uxuA;EC_number=4.2.1.8;note=WP_010964641.1 mannonate dehydratase (Clostridium) [pid:58.6%25%2C q_cov:98.9%25%2C s_cov:99.7%25%2C Eval:1.3e-124],MGA_1336
sequence1	MetaGeneAnnotator	CDS	1428131	1429531	.	-	0	ID=MGA_1337;product=glucuronate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013096788.1;translation=MTFITNNFMLHNDISKKLYNIAKDKKIIDYHCHLDPKLIAEDKEFEDITEIWLLGDHYKWRAMRANGVSETNITGNVSNKEKFKAWAYTLESTLGNPLFHWSAMELKKYFDIDELLNGENWEEIWERANKVIKDKKLSPKKLIEISNVEYVCTTDGPLDDLRYHDEIKKDTNFKVRVEPGFRPDAFFNLRSEIFLMYVDKLSEITGKKINTYDEYIEAMYERITYFNDKGCNISDHGISKLEFTKYSKEEVEDIFTKVLNKESITDIEYMKYLTAFFIDLSKKYKELGWVMQLHFGAIRNNDVTLLKTIGFDAGSDSIMDQGNVAKNLNLLLSLMKENNSLPKFIIYNLDPSQNNIVACSLANFSSNLPKGYLQYGSGWWFNDTKEGMLRQLKSLADQGLLMNFVGMLTDSRSFVSYIRHDYFRRILCEFIGDLVIKGEIPNDDRLLRKLIENISYKNALEYFGLE;locus_tag=LOCUS_13260;gene=uxaC;EC_number=5.3.1.12;note=WP_013096788.1 glucuronate isomerase (Enterobacter cloacae) [pid:50.2%25%2C q_cov:99.4%25%2C s_cov:99.6%25%2C Eval:4.2e-135],MGA_1337
sequence1	MetaGeneAnnotator	CDS	1429547	1430539	.	-	0	ID=MGA_1338;product=LacI family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011860719.1;translation=MNEKITIKTIAKIADVSTKTVSKVINNQSGVKLSTRNKVLDIMKKYNYSINYNAKRLSESKSRNIALVANISKKHPLNKNYIIMQYILEKINDYEIIVYNSVNDLQENPYGGISKGYYDGIILLNPKKIEDIEYVKKSGLPFVISGIYGNYSYVGTDQFQSGIIATEHLITQNCKNILFLLDNKNSFTAIKKIQGYKEVLDINEIEYLEENVIDGFSSPESVEQYISLLHSQNKLPDAILLDSDYPVFGALRAFSKLGIKCPEDIKVITFGDTFICSALTPSITAIKQNFELIAKKLLEILIDKIENNNEIDKSFEIASELIVRESTLKK;locus_tag=LOCUS_13270;note=WP_011860719.1 LacI family DNA-binding transcriptional regulator (Clostridioides difficile) [pid:28.4%25%2C q_cov:97.6%25%2C s_cov:97.9%25%2C Eval:1.8e-22],MGA_1338
sequence1	MetaGeneAnnotator	CDS	1430623	1432068	.	-	0	ID=MGA_1339;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000416108.1;translation=MENIKYNRAKIWQIALFSLNNTATNIFFALTFYLGYFATGFMGVATVFISNILTTMRIFDGITDPLVGYLIDRTNGKFGKFRPYMIMGNIIMAITMTLIYIVTPTLPENMRFPFFLVVYVIYILGYTCQTAVTKAGQACITNDPKQRPLFSSFEGGYTLVFLSLILPTYVNGYLLPKYGNAFTLELFREFVFTFMFASAILTILSVIGIYQKDRLEFFGTGEVKSNIKFRDYVDIIKNNRAIQTLIVAASTDKIALTTAGNAAVGIMVYGIIMGDNTLQSKLALITIIPAFILLQYFAQYSRKLGIRKGMITTAWGAIITYMLLFLLFQFGDPTKISANNLFGFETLAFIALWCIGRGLIGASGGLTINAIADCSDYETYRTGKYVPGMMGTLFSFVDKIISSISTTIIGVVIAMIGYTNGFPKIGDVNTPQLFYAAMFLFLGLPILGWIASVISLKFYPLTAEKMEEIQKHISDLKNSKR;locus_tag=LOCUS_13280;note=WP_000416108.1 MFS transporter (Streptococcus) [pid:37.0%25%2C q_cov:99.0%25%2C s_cov:91.5%25%2C Eval:7.8e-92],MGA_1339
sequence1	MetaGeneAnnotator	CDS	1432094	1433860	.	-	0	ID=MGA_1340;product=beta-glucuronidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000966715.1;translation=MLYPLSTLSREIIELNGIWDFSFENDLTKYRISVPGSFNDQFSEFEKKHYVGNMTYSRNFIVSKYMLDKSIYLRFGSVSHNARVYINNIFVGEHKGGFTPFEFEITEFVNLGENKLDVLVSNILDYSSLPVGNYEEIKDENGNVVKKVVDENFDFFNYAGIHRPVKLWIKPKNHIGDITITYDVFNKDEKVDANIDIKVDVIGDLKDIRITILDEEDNIVARGNDLNISNVILWQPLISYLYKAKVELFNESGKMEDVYIEEFGIRTVEVKDNKFLINGKPFYFKGFGKHEDTYLHGRGLDEVSNVVDISRMKWIGANSFRTSHYPYSEEMMRLADREGFVVIDETTAVGLMENFGFNLTGSKEKKNTWKTLDTRKAHEQVIKELIKRDKNHACVVMWSIANEPASSEIGAYEYFEPLFKLARDLDNQNRPCTFANIMLAPAGKCLVSSLCDVICLNRYYGWYVDLSDLETAEENMRKELEYWHKLFPDKPIMFTEYGADTISGMHDIDIRTPFTEEFQVEYYKMNERVFDSLDYFIGEQTWNFSDFQTKFGIFRVKGNKKGVFTRDRMPKLVAHHLRKRWNNIPEFN;locus_tag=LOCUS_13290;gene=uidA;EC_number=3.2.1.31;note=WP_000966715.1 beta-glucuronidase (Streptococcus) [pid:51.6%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:1.0e-176],MGA_1340
sequence1	MetaGeneAnnotator	CDS	1433871	1435592	.	-	0	ID=MGA_1341;product=glycoside hydrolase family 3 N-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012775582.1;translation=MSKLVNLREKPYNLDDEQIKWVEDTLSSITDEEKIGQLFFNLFWLGDLATESKYSNEEIITKFKVGGARYQGGNKYEVMNLLNNLQKNSKIPLLIAANCDSGGNGACSDGTYIATAAMCEASGDLEVSYNAGYVSGVEEEALGINVNFDPCVDVLKNWRNTIVNTRAYGRDVDIVIKHSNAYLEGLDKSNVIKCIKHFPGDGTEERDQHLILGVNELTVEEWERSFGEVYRNHINNGVEMIMAGHIALPHYQKLINPSLEDKDILPATLSKELIEDLLKDKLKFNGLVITDASHMLGMTASMRRKDYVPLAIASGCDMFLFFNDIDEDFKYMLDGYKKGIITEERLNDAVRRILGLKAKLNLHIRQKENTLLKDEKGLDLIGCEKHIKMQKEAVDKGISLIKNTKFELPINPEKHKKVRLYILEGEKNGIYRPNEKFQEYCIKKLEEKGFEVTVNESGKREKGSIEKYRSEVDLALVFANIKGYAEANNMRIKWSGPMSNEIPWYVHEVPTVMVSFNFTNHLHDATMVKCYINAYYDNEVTIDTLIEKLMGKSEFKGKHFNENVWAGQWQAKL;locus_tag=LOCUS_13300;note=WP_012775582.1 glycoside hydrolase family 3 N-terminal domain-containing protein (Streptococcus suis) [pid:62.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.8e-214],MGA_1341
sequence1	MetaGeneAnnotator	CDS	1435606	1436403	.	-	0	ID=MGA_1342;product=HAD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012027122.1;translation=MMKKIVCVDSDGCVMDTMNYKHIECFGPIAADFWNIEEREEFLTLWNHINLYSKTRGINRFHGLNEIFKIFSEKYPKYTKLNEVDNWIKTTSELSNNSLIKEIEITDSKELKKALNWSLEVNKKIVSLEGMDKPFDMVKEVFEVMKDKVKIVIVSSANKEAILSEWERHGLLKYVDIVMGQDTGSKKDCIKKILIDNDLDVNDVLMIGDSPGDITAAKDNGIHFYPIIFDDESKSWARFKDKILDEFINNQYDDQKYIDEYNKKL;locus_tag=LOCUS_13310;note=WP_012027122.1 HAD family hydrolase (Streptococcus suis) [pid:43.5%25%2C q_cov:96.2%25%2C s_cov:93.6%25%2C Eval:2.1e-54],MGA_1342
sequence1	MetaGeneAnnotator	CDS	1436646	1437296	.	-	0	ID=MGA_1343;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLSIILFIGLTSFSVENNKVSDISDLGTIENRNEINNLNNTNYMLNKKEENKKVDEAFTKLSGPRYRVEVALGAISTKSDVKANEYISTSTSFLAEWKADINEKFYVTFGPKVNLNVATIIQSTGTKKITPNIALGGEVDFNYNLKERLKIYAGAEIGLGIGPLIENGTLKNPELITVGKMSFGLKIDDKYNVAVYTGNIKGVLGIEAGYTF;locus_tag=LOCUS_13320;note=MGA_1343
sequence1	MetaGeneAnnotator	CDS	1437312	1437851	.	-	0	ID=MGA_1344;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLSILFVGGGLISLSNNFTGPRYRVDISTGFIDDRRFALTSGYKFFSGSVSVLPEWELKFNKKFDISFGPKVSLNFENFIGSMDATTINPSIILGGEIDFNYKVIEDVKIYAGMEVGTGIGFQAFVSSSHNHFQGPELKTESKISLGVKVKDKFNLAFYTGDIKGVIGVEAGYTF;locus_tag=LOCUS_13330;note=MGA_1344
sequence1	MetaGeneAnnotator	CDS	1438173	1438727	.	-	0	ID=MGA_1345;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSRKKLLEGKEYEDFLNYVFKNKNFTICELDLVQGSRDSGINYLLTFFIPKIQFLFAFKIKNKEPQSVVKVLDWLERRIGHKYFKRLFGLLLSDQGSEFLKYKEISRSVYGSYTKRCEIFYCKPASPYQKPNIENIHTLLRRFIPKGTDIENYSQNDINYIVSNLNSLYKVKYNNKSPIKMFL;locus_tag=LOCUS_13340;note=WP_010956682.1 IS30-like element ISTde2 family transposase (Treponema denticola) [pid:28.5%25%2C q_cov:97.3%25%2C s_cov:48.9%25%2C Eval:3.2e-14%2C partial hit],MGA_1345
sequence1	MetaGeneAnnotator	CDS	1438898	1439119	.	-	0	ID=MGA_1346;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MREIKNRRILKYNDKMIGNHLENIEDNICEILKKQPIVCNKCPRYINKLCTYDYVVYDSKIAQASYDRNKRKY;locus_tag=LOCUS_13350;note=MGA_1346
sequence1	MetaGeneAnnotator	CDS	1439566	1439994	.	-	0	ID=MGA_1347;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVVRIRGIIEALVVCVGSKGIRYYQITAIDEYSRKRVLKVVKEKSTYETSKYIKELERAIGFKIETIQVDNGYEFVNDKDVTDREDGKILYSRKEFRSEEELIENVKRHERLYNNRAKTVLNFKSPNEVVREYFTKVKKEA;locus_tag=LOCUS_13360;note=MGA_1347
sequence1	MetaGeneAnnotator	CDS	1439988	1440203	.	-	0	ID=MGA_1348;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIITEEMKFRHRLCEYAIKNGVTKAARRYHTNNRFKKAPYKPKCPYRRRINTNKEYVKKTWKLWISPSIC;locus_tag=LOCUS_13370;note=MGA_1348
sequence1	MetaGeneAnnotator	CDS	1440514	1441548	.	-	0	ID=MGA_1349;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011837545.1;translation=MEIVKQRLGDLDRAYCASHLKTSEGYKIIVASEAYVNEGRPCYSYGGNDFSEIETMWENGGGCMSIVQIPGKENEIIAIKDFYLKESPSRSRIVWGVYENGTWTFKDIIKKEYMHRFTLTKVDEDVYIVIATISNKKEDKEDWRVPGSIFAGKLPKDLNEKIELQEIKTDLYRNHGFYHDTREGHNEIYFGSDQGIDKLYINGDISNWKFERLCDFPTGEIALSDLDGDGIDEIITIEAFHGDKIRIYNQSSGKLVKVYEYENKIDFAHALIATKFRGVNTFVCGVRRLDSELFYIQYIDGKYVATTIEKGVGTANLDAINLENEDIVIAANHSKNESAIYRIK;locus_tag=LOCUS_13380;note=WP_011837545.1 hypothetical protein (Streptococcus sanguinis) [pid:30.1%25%2C q_cov:97.1%25%2C s_cov:95.3%25%2C Eval:1.2e-34],MGA_1349
sequence1	MetaGeneAnnotator	CDS	1441566	1441973	.	-	0	ID=MGA_1350;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCDKFDIKTNPNLVIALGEYIRNKRTKKSIGLREMADMLNISPAYLSNLELGKHNMTNPLLLKNIARILEIDHLKLYKIIGYTDKDRRELRNEIWNEIIEDISDEKIIDIMQDLSKMTSSQLKLVKQYVRLIMKT;locus_tag=LOCUS_13390;note=MGA_1350
sequence1	MetaGeneAnnotator	CDS	1441993	1442688	.	-	0	ID=MGA_1351;product=L-ribulose-5-phosphate 4-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009897453.1;translation=MLEKLKEEVFKANIELPKRGVVIYTWGNVSGIDRETNLVVIKPSGVDYENMKASDMVVVDLDGNVVEGHLKPSSDTPTHIELYKRYKEIGAIVHTHSSHAVMWAQAGKDIPAYGTTHADYFYGNIPCTRKMFENEIKNDYEKETGSVIIETLEERNINPLDIPAVLVHSHGPFTWGKNPAEAVHNTVVLEQVAKMAIMTEVINPNVNKMQQELLDKHYLRKHGKNAYYGQK;locus_tag=LOCUS_13400;gene=araD;EC_number=5.1.3.4;note=WP_009897453.1 L-ribulose-5-phosphate 4-epimerase (Clostridioides difficile) [pid:67.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-89],MGA_1351
sequence1	MetaGeneAnnotator	CDS	1442682	1443551	.	-	0	ID=MGA_1352;product=L-ribulose-5-phosphate 3-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002262723.1;translation=MQLGIYEKALPKKHSFKEKIKLAKELGFTFIEISVDESDDRLARLDWDINTINELKCELNINNMRIPTMTFSGHRRYPMGSHDEDIRKKSMELMEKAILFADRLGIRIVQLAGYDVYYEESDEITEKYFIENLSKALKMAEEYNVCLAIEIMDHPFINSITKYMKYSKLVNSPYLKVYPDLGNLSAWQENDVSKELELGMTNKEIVAIHVKDTLAVVDNFPGKFKEVDFGAGCVDFVKCFEKLFSLNYSGPFLIEMWTENYSDIEQGKTEVKKAREFVLEAMRKGGYSC;locus_tag=LOCUS_13410;note=WP_002262723.1 L-ribulose-5-phosphate 3-epimerase (Streptococcus mutans) [pid:51.8%25%2C q_cov:98.3%25%2C s_cov:97.9%25%2C Eval:1.3e-79],MGA_1352
sequence1	MetaGeneAnnotator	CDS	1443574	1444026	.	-	0	ID=MGA_1353;product=PTS sugar transporter subunit IIA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_032909924.1;translation=MNIVDSLKDNKSIQLGKNVSNWQEAIELLFEPLLKNGSVKPEYPKAIIDRTNEIGPFYIIGPGIAMPHERGEMGAIKNAFTFLTLNDAIEFPTGEMIDILIGFSATDSETHIAEVIPQIVTLFDDEESFDRIRDKKTPEELLAYIEEIIK;locus_tag=LOCUS_13420;note=WP_032909924.1 PTS sugar transporter subunit IIA (Streptococcus sanguinis) [pid:45.6%25%2C q_cov:98.0%25%2C s_cov:91.3%25%2C Eval:1.5e-35],MGA_1353
sequence1	MetaGeneAnnotator	CDS	1444027	1444308	.	-	0	ID=MGA_1354;product=PTS sugar transporter subunit IIB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000241466.1;translation=MKVLAVCGSGMGTSMIMKMKMKKVLDKLKIAADVSSCSIGEAKSGLSNYDIVISSIHMVGELNVKAPTILIGVQNMLNEAELEEKLKLAGIGV;locus_tag=LOCUS_13430;note=WP_000241466.1 PTS sugar transporter subunit IIB (Streptococcus) [pid:36.7%25%2C q_cov:95.7%25%2C s_cov:96.8%25%2C Eval:1.7e-08],MGA_1354
sequence1	MetaGeneAnnotator	CDS	1444342	1445799	.	-	0	ID=MGA_1355;product=PTS ascorbate transporter subunit IIC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000452079.1;translation=MEILTKALIWFGSNVLTNPPFFVGLLVFVGYLLLKKPFYEAFAGFLKATVGYLILNVGAGGLVVTFRPILAGLNTKYNLSASVIDPYFGLNAVNSALETIGLTAAWVMFSLLIGFGINILLVLFRKYTKVRTLFITGHIMQQQATTATWMIFFLLPMFRNFYGAALIGIFSGVYWAVASNLSVEPTQRLTGNAGFAIGHQQMVAVWFADRISPKLGDPKKGVDEIKLPKWLSIFHDDIVATGTLMMVFFGIIMYVLGPEVLLGDKSVAYITGNKSFLIYVVETSLKFAVYLSVLKQGVRMFVSELTISFQGISNTIIPGAIPAVDCAATYGFGSQNAILFGFLFGVLGQFLAIGSLIVLRLFNPLLIPVLIVTGFVPVFFDNATIAVFANKRGGVKAVAITTFISGILQVLLGAVAVVVFGLIGFGGWHGNIDQSTVWLAQGLLIKYLGLSGYILAVVSMLAIPILQYRRCKNKEQYYEGIVEEE;locus_tag=LOCUS_13440;note=WP_000452079.1 PTS ascorbate transporter subunit IIC (Streptococcus mitis) [pid:53.8%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:2.4e-149],MGA_1355
sequence1	MetaGeneAnnotator	CDS	1445823	1446884	.	-	0	ID=MGA_1356;product=L-ascorbate 6-phosphate lactonase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010427455.1;translation=MAKVNEITRESWILQTFPEWGTWINEEIAETEVKPGTVSMWWLGNMGIWIKSEGGANLCVDLWVSTGKKTKSNKLMKAKHQHQRAVGCVALQPNLRTTPCVIDPFAIRELDALISTHSHSDHIDINVAAAVLQNCPDTKFIGPKSCTDIWRKWGVPEERMITVKPGDEIEIKDTKIKMLESFDRTMLLTVDDDVVLKDKLPPDMDEMAVNYLFKTTGGNIYHAGDSHHSNFFVKHGNENKVDVALVGYGENPRGMTDKLTASDVLRVAEGLKTQVVIPIHHDIWSNFMADPKEITLLWNYRKDRLKYKFKPYIWQPGGHFVFPDNKDDLEYMYPRGFEDAFTIEPDLPFTSIL;locus_tag=LOCUS_13450;gene=ulaG;EC_number=3.1.1.-;note=WP_010427455.1 L-ascorbate 6-phosphate lactonase (Enterobacter) [pid:64.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-142],MGA_1356
sequence1	MetaGeneAnnotator	CDS	1447108	1448526	.	-	0	ID=MGA_1357;product=carbon starvation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902130.1;translation=MYSFIFSIIALILGYTIYGKIVDKIFGSDENKLTPSKRMSDGVDYVEIGWTRAFLIQSLNIIGTGPIFGAIAGALWGPIAFIWIVFGCIFAGAVHDYLVGMMSVRQDGASVSEIVGKNLGLTAKQLMRIFSIVLLLLVGVIFIMSPAQILTDITGIRYEIWLGVIITYYLFATILPVDKVIGKIYPVFGLSLLLMAVGIAGGLLLKGFKIPEIAFVNMHPAGRSIFPYLFISIACGAISGFHGTQSPMMARCIRSEKEGRRVFYGAMIVEGMIALIWAAAAMSFFGGIEGLTHAGAPAVVVNKISIGILGKIGGVLALLGIVVCPITSGDTAFRSARLTIADAFNLKQGPIVNRFIVVTPLFILGILLCFIEFSVVWRYFSWSNQTLATISLWAAVKYLANRNRNYWVALVPAMFMTVVVTSYIIAAPEGFVRFFNGIDTRLVENIAIIIGIIFSGLCTLGFFLTNKKKNAE;locus_tag=LOCUS_13460;note=WP_005902130.1 carbon starvation protein A (Fusobacterium nucleatum) [pid:71.6%25%2C q_cov:99.2%25%2C s_cov:98.7%25%2C Eval:5.3e-202],MGA_1357
sequence1	MetaGeneAnnotator	CDS	1449010	1450428	.	-	0	ID=MGA_1358;product=carbon starvation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902130.1;translation=MYSFIFSIMALVLGYAIYGKFVDKIFGSDENRLTPAKRMSDGVDYVEIGWARAFLIQFLNIAGTGPIFGAIAGALWGPAAFIWIVFGCIFAGAVHDYLIGMMSVRQDGASVSEIVGKNLGLTAKQVMRIFSVVLLLLVGVIFIMSPAQILTDITGIRYEVWLGLIIVYYLFATILPVDKVIGKIYPVFGLSLLLMAIGIGGGILLKGFTIPEIAFVNMHPAGKSIFPYLCISIACGAISGFHATQSPMMARCIRSEKEGRRVFYGAMIAEGIIALIWAAAAMSFFGGIEGLALAGAPGVVVNKISIGILGKIGGALALLGVVVCPITSGDTAFRSARLTIADSFNLKQGPIINRFIIVIPLFILGISLCFIEFSVVWRYFSWSNQTLATITLWAAVKYLANRNKNYWVALVPAMFMTVVVTSYIIAAPEGFVRFFNGIDINLVENIAIIIGIIFSGLCTLGFFLTNKNKNVE;locus_tag=LOCUS_13470;note=WP_005902130.1 carbon starvation protein A (Fusobacterium nucleatum) [pid:71.8%25%2C q_cov:99.8%25%2C s_cov:99.4%25%2C Eval:6.9e-202],MGA_1358
sequence1	Aragorn:1.2.38	tRNA	1450854	1450930	.	-	.	ID=Aragorn_38;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00370;note=Aragorn_38
sequence1	Barrnap:0.8	rRNA	1451105	1453997	.	-	.	ID=Barrnap_7;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00070;note=Barrnap_7
sequence1	Barrnap:0.8	rRNA	1454235	1455748	.	-	.	ID=Barrnap_8;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00080;note=Barrnap_8
sequence1	MetaGeneAnnotator	CDS	1456007	1456966	.	-	0	ID=MGA_1361;product=class I mannose-6-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011963896.1;translation=MRLYPLKFEKVLIPKVWGGKNLEKELGIKLPDDRNYGESWEVSSHFNGMSIVANGYLKGKSLQELFEEYKGKLVGEKIYENHPDRFPLLIKYLDVNDRLSIQVHPSDEVALKKHNELGKYESWYIMYASDDAKLIMGMKPGYDKESFLEKTRKNDFTDMFEEISVKTGDMIDVTPGTVHASLEGSVIFAEIQENSDITYRIYDFDRLENGRLRELHLEDAAEVIDFSLKPKVLNTNFKDGEFRKNISNTPYYSIDKIKIENSFEDIDKDMMIYSILEGDGKIISDVETIDVKKGETLLIPANVKINIEGKLEILRSLAK;locus_tag=LOCUS_13480;note=WP_011963896.1 class I mannose-6-phosphate isomerase (Flavobacterium psychrophilum) [pid:39.1%25%2C q_cov:97.8%25%2C s_cov:97.2%25%2C Eval:1.3e-54],MGA_1361
sequence1	MetaGeneAnnotator	CDS	1457047	1457343	.	-	0	ID=MGA_1362;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDRAKQFMPYSPLKGFYELIHEKEIIPQERMELSEEKYDELNCKINNIKKGDVLKIKWYKEKGYIETLGKVSNIDLETGFIVIIKEKINIEDIVEIEV;locus_tag=LOCUS_13490;note=MGA_1362
sequence1	MetaGeneAnnotator	CDS	1457336	1458601	.	-	0	ID=MGA_1363;product=Y-family DNA polymerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000272568.1;translation=MDVKEEKVYACIDFKSFYASVECAERNLDPFTTNLVVADETRGNGAVTLAITPYMKKQGVKNRCRIFQIPEDIEYIKAMPRMKLYMKYSAEIYAIYLRYIAPEDIYIYSIDECFIELTPYLKLYNMRAKDIVIMIKNAIFEEMKIPSSAGIGTNLFLAKVALDVVAKKVKDEIGMLDLNRFKKYIWKHRPITDIWNIGKGIAKRLEKYGVYDLYSLSLMDEEILYNEFGENALFLIEHSHGIEPCTIAEIKAYKSKTKSISNSQILFDDYNFEDAKMIMLEMLDNLVLELVAFNYTIDNIYLGVRYSGIDKKRVSGSKKIGIRTNSFRKLSKIYTEFFNEKVDKSLKIKQITLSLNNVLEDAWIQKEIFDETHLDEKNEKAQKAILEIKEKFGKNAILKGRSINEKSTAKARNKLIGGHNG;locus_tag=LOCUS_13500;note=WP_000272568.1 Y-family DNA polymerase (Bacillus thuringiensis) [pid:32.7%25%2C q_cov:98.1%25%2C s_cov:97.4%25%2C Eval:2.8e-58],MGA_1363
sequence1	MetaGeneAnnotator	CDS	1458769	1459491	.	+	0	ID=MGA_1364;product=GntR family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003437811.1;translation=MKENEHFYYSIYEEFKENILNGKFMPGDRLESERSLSQRYGVSRNTIRSTLNLLEKDGYIFKVQGKGNFIASQKMNQNLNTFYSFYENIKSAGKEPKSEIVFHKIMKANFKLSEIFRIPLNSKIIYFERLRFMDNDPIIFEKTYLPMYRFNGFNPLELNNKSMYNIFENEYGIIFSKAIETLKPILISDKKEKNLLNLKKTSLGMNIIRTTYEKEKIIEYTVSNIKNDVFEYRITLNKGW;locus_tag=LOCUS_13510;note=WP_003437811.1 GntR family transcriptional regulator (Clostridioides difficile) [pid:36.2%25%2C q_cov:93.3%25%2C s_cov:94.6%25%2C Eval:3.0e-33],MGA_1364
sequence1	MetaGeneAnnotator	CDS	1459494	1460699	.	+	0	ID=MGA_1365;product=threonine ammonia-lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009890721.1;translation=MIKLDDIKKANENIKNSIKRTPLIECPLLNHITGANVYLKLENLQKTGSFKARGAINKIMHLTEEEKKRGVIASSAGNHAQGVALGASQAGIKATIVMPKFAPISKILATKSYGAEVILEGETFNDAYEHALKVQKENDYVFLHAFDDDEIIAGQGTIGLEIFEDLENVDVVLCPVGGGGIMGGIAVALKTLKPNVKLIGVEAANMPSMKKALENNGPLLVTGPQTIADGIAVGRVGNRTHEIFKDLIDDIVIVDEDEIAQAILFLMEKSKVVAEGAGATALAAVLANKVDVKGLNVAIVISGGNIDITNIEKIVNRAQIIQNKRAKLNILIKDMVGELSKLTKIISEEHTNILYLNQTRYSNNLKINEQLLEIVIECVDSNHLQGLLNKLTENNFKYTLV;locus_tag=LOCUS_13520;gene=ilvA;EC_number=4.3.1.19;note=WP_009890721.1 threonine ammonia-lyase (Clostridioides difficile) [pid:50.3%25%2C q_cov:98.8%25%2C s_cov:98.3%25%2C Eval:4.1e-104],MGA_1365
sequence1	MetaGeneAnnotator	CDS	1460750	1461553	.	-	0	ID=MGA_1366;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLMLSLLLVIGLFSFSAKKNRNRPKVNKRYEIKTIKSDSYKEIKIEEMKVENKKELNKAVEVEKTELVSNKSKKSKFNISGPRYRIGGTISTLPIYNTKIKKIGYHAYKSISFLPEWKVEINKEVDITFGPKISANLLYVANGDNRALTTETDKNVILMSVSLGTGVDFNYKLKDNLKIYTGIETQIGIGEKINTRTGSYYSGQGGKDNEIELWTPYSSNQIFKSLKVVYIAKLSIGFKINDKYNVGFFGGYGKGNFGVEVGYTF;locus_tag=LOCUS_13530;note=MGA_1366
sequence1	MetaGeneAnnotator	CDS	1461486	1462145	.	-	0	ID=MGA_1367;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLILTIIFLIGIYSFPIEITGPRYKIDGTLGIGYKPDPHDREREWNNFTGNLLNIDMGLGFSPEWVIKINKKFSMSFGPKVTGSIFTTTYETYIDNDINRILYLSIGTVFRMDFNYSIKDNIKIYTGLETLATIRPDIHVSYSDYSKGTGRTVTLKMHPMLLGKVSLGTNINKYNIGLYTEFGLRKESVGGIEVKHEKINVIIITSYWFIFIFSQKK;locus_tag=LOCUS_13540;note=MGA_1367
sequence1	MetaGeneAnnotator	CDS	1462315	1464012	.	-	0	ID=MGA_1368;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRNNLITILLFTSVVTHTNTNTNISVDNNKVKIGSEAKDTGDKSIAIGYKAEAEKQESIAIGSEATSKATSGISIGKGAYVGSPKNTNGTDPSNAIAIGTSSQANSKNAIAIGEKANANTTDSIAIGRNTYTDGQNAISIGAESKANSGSIALGKKAISHNRGISIGEDTHSQLNGVVIGHRAKSNGKHSENNVAIGADSKIDDNLFGATALGSNSEVKSHNSVALGSYSVAKERNNKDRFGYDALTDKNVDLKDKLTKDKYDEYLNLEKEIEDSLKKNNSNKNNDKSMNNNLSKDFEEKYRKYSKIASAWKSHYGEVSIGDIEKGITRQITGLAAGTLDTDAVNVAQLKSLHKYVDKKVDKLGNNTISISGDSGSTEAQKLNKNGGLNFSIKGSEHIKTKASGSEVSIDISDKVKEDISKGVAANSGIANAIAMSNLAQVNAKGHNLSGSYGYYNGEHAFAIGLSGSNEKLVYRAGGSINTRGHVSLGAGIGYQFDNIEKRSKELLSLQRNGNINLLDEKVYEHELKIKLFEKELKELKNENIENNKKILQLIERIVKLEKNK;locus_tag=LOCUS_13550;note=WP_001033221.1 trimeric autotransporter adhesin EhaG (Enterobacteriaceae) [pid:31.9%25%2C q_cov:37.3%25%2C s_cov:12.3%25%2C Eval:1.1e-18%2C partial hit],MGA_1368
sequence1	MetaGeneAnnotator	CDS	1464163	1465074	.	-	0	ID=MGA_1369;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPDLNLREKEVRKEIHKISKYWINEVGIDGYRIDAAPHAYGKGEYSKDVNLFEENIKWWSEFRDELVKIKKDVYIVGEVWTAPEIVSKYFTVFDSNFNFEFSEKGIINALIRESSKELSSKLTRVYNLYEKSNKEYIDATFLTNHDQSRLSEKLSDLERQKVAASILLTLPGNPYIYYGEELGMKGKKPDELIREPYIWNDEFQTRWEPVELNIETKDYYSQKMDSNSLLNHYKLWIKIRKENDELKYGKFEAVETGNNKVFVYKMKYNRSEKILMHNLSNVEQKITLDGKEIILNPYESKIK;locus_tag=LOCUS_13560;note=WP_012584022.1 alpha-amylase family glycosyl hydrolase (Dictyoglomus turgidum) [pid:40.3%25%2C q_cov:95.0%25%2C s_cov:56.9%25%2C Eval:1.3e-56%2C partial hit],MGA_1369
sequence1	MetaGeneAnnotator	CDS	1465700	1466470	.	-	0	ID=MGA_1370;product=type I methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017049.1;translation=MVKLKTLEDIKKIKKANEIIARLYEDIIPKYIKPGISTWEIDAICEDYIMSQGAIPGTKGYDIGWPYPTYPASTCISINEKVVHGIPSKTEILKEGDILSLDTVTILDGYFGDAAKTFAVGNIDDKSRKLIEVTEKAREIGIEQARAGNRIGDIGFAIQQYVEKFGFSVVRDFSGHGVGFAMHEDPYVLNYGKANTGLKIENGLVIAIEPMVNIGTFKVKILKDMWTVVTQDKKRSAHFEHSVAIVDGKPLILSQK;locus_tag=LOCUS_13570;gene=map;EC_number=3.4.11.18;note=WP_011017049.1 type I methionyl aminopeptidase (Fusobacterium nucleatum) [pid:65.1%25%2C q_cov:98.4%25%2C s_cov:98.0%25%2C Eval:8.6e-90],MGA_1370
sequence1	MetaGeneAnnotator	CDS	1466713	1466973	.	-	0	ID=MGA_1371;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDTGNLVGDDIVNGLVEERLKETDTEKGFILDGYPRTVEQAKALDKILEKQEKSIEKVIALVVEDDEILKRITGRRVSKKLVKYII;locus_tag=LOCUS_13580;note=WP_011017050.1 adenylate kinase (Fusobacterium nucleatum) [pid:68.4%25%2C q_cov:91.9%25%2C s_cov:37.4%25%2C Eval:1.2e-22%2C partial hit],frameshifted%2C insertion/deletion at around 1466975%2C1466735,MGA_1371
sequence1	MetaGeneAnnotator	CDS	1466973	1467128	.	-	0	ID=MGA_1372;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNIVLFGPPGAGKGTQAKELIKKFEIPQISTGDILRAAIANQTPLGLEAKK;locus_tag=LOCUS_13590;note=WP_011017050.1 adenylate kinase (Fusobacterium nucleatum) [pid:74.5%25%2C q_cov:100.0%25%2C s_cov:24.2%25%2C Eval:1.4e-15%2C partial hit],frameshifted%2C insertion/deletion at around 1466975%2C1466735,MGA_1372
sequence1	MetaGeneAnnotator	CDS	1467213	1467965	.	-	0	ID=MGA_1373;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000800998.1;translation=MLPNGYYENILIKEYMGMQVLHLNENGKGDVVIYLHGGSYIHEPDPNHFTFLYNLIKKSDIRVILPIYPRAPKYNFKDAYEKVISLYKEISKDKDVVLMGDSAGGGFALGLTEELKKLSIKAPKKIIAISPWVDLTMENPDILLYEKVDPWLQSSKLMAAAKFWSDGQDLKDSRLSPIFGDVSALKNLTIITGTRDILYPDIMLLVDKLRKEKVKFNLIVGENLNHDYPLFPIPEAKKSVDIIADILNEN;locus_tag=LOCUS_13600;note=WP_000800998.1 alpha/beta hydrolase (Streptococcus) [pid:39.8%25%2C q_cov:96.4%25%2C s_cov:75.5%25%2C Eval:7.1e-49],MGA_1373
sequence1	MetaGeneAnnotator	CDS	1468002	1468169	.	-	0	ID=MGA_1374;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKQMFKLIIMIAIFLILTIFLSSRFYYKRSVLATVAEIYLKVTNYEKVTQEKMEA;locus_tag=LOCUS_13610;note=MGA_1374
sequence1	MetaGeneAnnotator	CDS	1468932	1470374	.	-	0	ID=MGA_1375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKRLLLFLSTLVSLISESDTLKDFSDLNKEIHDYIFGEKLAEVKKMIESSTYKSYNDLEDSKIEEFINRFKKLEQNGLVRDDKNYENLRKVKTLALLKNRSFRNYQLIRFKTYSNYKLEPTFEDNVYFKIGSNIGASREDIQGLNVTVGGNYSIRDNAKIGGFIHYDNKLGDLFLKTHAHIFAIGANAKFKLKNNKGDIESFIAYKYNYGKYKNIINRESEVIDNNLYKGVQRIYDEYVHQHSFELYNKYSKKFNIIKNLKIYPQIENYTSITPSITYSNIYTEDNLLDTISERIPENEDDSTLYDRIITSNEINHIFKNTLSSGVLIEYGLIKNLNIYLNSKLGFNYENVGITSKLKIEKYRKREMSSESAVHDKPIIIDIDENEIITELNIDDEIFRDLGIELNGNNKFIKDKIENSKWKDYINNIGISYDFKIGLNYKVDKFNIDTYLRFDGNTNNNEKLYKDSHKISLNTKIGYNW;locus_tag=LOCUS_13620;note=MGA_1375
sequence1	MetaGeneAnnotator	CDS	1470545	1472236	.	-	0	ID=MGA_1376;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNNLVTIFLFLSVITYTNTTQNNNTESDKVKLGKEAKDTGDKSIAIGYKAEAEKKESISIGVESKAKADTSIAIGKGANTGKINSNDATNAISIGTDSEANSKSAIAIGEKANANTTDSIAIGKKTYTDGQGAIAIGGESKANSSGISLGKKALSHNKGISIGEETESQLNGVVIGNRAKSKGNHSENNVAIGSDSNVGDDLFGVTALGSNSKVEEDNSVALGSYSVAKRREDRLGYDALTNENVSLEDKLTEEDKEKYHKLEQEIKELLEKQMPEGNVVNGKQENYKKIKNSTEIYKKYQEYSKIAMAWKSHYGEVSVGDTDKGITRQITGVAAGSKDTDAVNVAQLKSLHKYVDKLGSNTISFSGDSGKTEAQALNKSGGLDFSIKGTENITTIAKDNTVTVDLSDKVKSDISKGVAANSGIANAVAMANLPQISGVGHNIAGSYGYYNGEHAFALGLSGRSEAFNLTYRASGSLNTRGNVALGAGLGYQFDSVSSRSKELLTLQRNGNINLLDEKVYEHELKIKLFEKELKELKNENIENNKKILQLIERIVKLEKNK;locus_tag=LOCUS_13630;note=WP_001033293.1 YadA-like family protein (Escherichia coli) [pid:26.8%25%2C q_cov:63.2%25%2C s_cov:21.5%25%2C Eval:3.0e-21%2C partial hit],MGA_1376
sequence1	MetaGeneAnnotator	CDS	1472509	1473990	.	-	0	ID=MGA_1377;product=alpha-amylase family glycosyl hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012584022.1;translation=MKKGILILILMFKLIFSCNKFKEHENTHDDKIAKTGIYYEIFVRSFADSNGDGIGDLNGIRAKLPELKDLGIEGLWLTPIFPSPSYHKYDVVDYYNIDPEYGSVEDFKELVKASHNLGIKVIIDLPINHTSSEHPWFKDVLVNKGSKYRKFYRIEKNNNDNIDFKAASLGGKSWHNLNDEEKYFGIFWSGMPDLNLREKEVRKEIHKISKYWIEEVGIDGYRIDAALHAYGKGEYPKDINLMEENIKWWSEFRNELIKVKKDVYIVGEVWSAPEIISKYFKVFDSNFNFEFSEKGIINALIRESSKELSSKLTRVYELYEKASKEYIDAPFLTNHDQSRISEKLPDIERQKVAASILLSLPGNPYIYYGEELGMRGKKPDELIREPYIWNDEFQTKWQAIEFNVDTKDYYTQKDDTSSLLNHYKLWIKIRKENDELKYGKFEVIDTGNNKVFVYKMKYKRSEKILMHNLSNVEQKITLDGKEIVLSAYESKIK;locus_tag=LOCUS_13640;note=WP_012584022.1 alpha-amylase family glycosyl hydrolase (Dictyoglomus turgidum) [pid:41.8%25%2C q_cov:94.7%25%2C s_cov:91.0%25%2C Eval:7.3e-101],MGA_1377
sequence1	MetaGeneAnnotator	CDS	1474047	1474817	.	-	0	ID=MGA_1378;product=type I methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017049.1;translation=MVKLKTLEDIKKIKKANEIIARLYEDIIPKYIKPGISTWEIDAICEDYIKSQGAIPGTKGYDIGWPYPPYPASTCISINEKVVHGIPSKTEILKEGDILSLDTVTILDGYFGDAAKTFAVGNIDDRSRKLLEVTEKAREIGIEQARVGNRIGDIGFAIQQYVEKFGFSVVRDFSGHGVGFAMHEDPYVLNYGKANTGLKIENGLVIAIEPMVNMGTFKVKILKDMWTVVTQDKKRSAHFEHSVAIVDGKPLILSEK;locus_tag=LOCUS_13650;gene=map;EC_number=3.4.11.18;note=WP_011017049.1 type I methionyl aminopeptidase (Fusobacterium nucleatum) [pid:66.7%25%2C q_cov:98.4%25%2C s_cov:98.0%25%2C Eval:9.2e-92],MGA_1378
sequence1	MetaGeneAnnotator	CDS	1474836	1475477	.	-	0	ID=MGA_1379;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017050.1;translation=MNIVLFGPPGAGKGTQAKELIKKFEIPQISTGDILRAAIANQTPLGLEAKKLMDAGNLVGDDIVNGLVEERLKEADTEKGFILDGYPRTVEQAKALDKILEKQERTIEKVIALVVEDDEILKRITGRRVSKKTGKIYHIIYNPPVDENPEDLEQRADDTAEVVKKRLENYKNQTAPVLEYYKNQGKVSEIQGERESKYITEEIIDILSNNCNI;locus_tag=LOCUS_13660;EC_number=2.7.4.3;note=WP_011017050.1 adenylate kinase (Fusobacterium nucleatum) [pid:69.6%25%2C q_cov:97.2%25%2C s_cov:98.1%25%2C Eval:1.1e-75],MGA_1379
sequence1	MetaGeneAnnotator	CDS	1475535	1476485	.	-	0	ID=MGA_1380;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000800998.1;translation=MKQIFKLIIMIVMFLMLGLFLLSKLYYKRSMLATVAEIYLKITEYKKISYEEAEMLLKEKKEMKEEEYRLPKGYEDIEIREYMGMKVMYLNERGKGVKLLYLHGGSYVHEPDPNHLRFLNKLIKETDISVILPVYPKAPKHNFKEAYDKVMGLYKEVSKDSDVVLMGDSAGGGFILGLAQEIKRLNMKEPKKLIAISPWVDLTMENPDILTYEKADPWLKHSKLLAAAKYWADGENLKDPRLSPIYGNLNTLENLTIFMGTRDILYPDVMLLADKMKKDNVKFNFVVKENLIHDYVLFPIPEAQEAMEMIVKIILN;locus_tag=LOCUS_13670;note=WP_000800998.1 alpha/beta hydrolase (Streptococcus) [pid:34.7%25%2C q_cov:94.0%25%2C s_cov:93.3%25%2C Eval:1.2e-49],MGA_1380
sequence1	MetaGeneAnnotator	CDS	1476583	1476780	.	-	0	ID=MGA_1381;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCKITIKDKIEIYKRRLKGETISSLSKCFNINTSTIKYLIKIIEKHGYDILRKDKNRVYSTEIKG;locus_tag=LOCUS_13680;note=WP_211260004.1 IS3 family transposase (Pseudostreptobacillus hongkongensis) [pid:68.8%25%2C q_cov:98.5%25%2C s_cov:14.1%25%2C Eval:2.1e-19%2C partial hit],MGA_1381
sequence1	MetaGeneAnnotator	CDS	1476836	1477984	.	-	0	ID=MGA_1382;product=PatB family C-S lyase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861570.1;translation=MMKNNFDTKVDSKFDLRRKWDRDLIEKKFNVKLPKEFIPLWIADMDFLLPEKLSKILKEYIAHGSLGYTSLTPDFYNSIINWQKRRHNVEVKKEWINIGYGTVSTLHLLNKVYLNKGEYILINTPSYEPFYNSTINSGNKVIFSPLKEEGNRYFLDYEDIEEKIKKYSPKLFIFCNPHNPSGRIWEKEEIEKLASLCLKYNVILVSDEVHSEITFEKKHASTLSLDEKYLQNLIFLSSPNKAFNLGGLKTSYSIIPNKNLREKLEIKMKENSITSPNILGLVSMINAYNLCEDWLDDLSKYIYQNYIFVKEKLEKKYSIFSMESSYLLWIKVENGEKLTKELAQKGILVESGTHFVANGEKFIRINLGIPRKYLEESIKKMN;locus_tag=LOCUS_13690;note=WP_011861570.1 PatB family C-S lyase (Clostridioides difficile) [pid:44.9%25%2C q_cov:99.0%25%2C s_cov:98.0%25%2C Eval:4.9e-99],MGA_1382
sequence1	MetaGeneAnnotator	CDS	1477971	1479158	.	-	0	ID=MGA_1383;product=PTS fructose transporter subunit IIC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004454776.1;translation=MEIKKRSRKVSGIQSFYRHIMTGISYMIPILIMGGLIGAFSQVLPYVLFKIDPSVNILGAINSGEFSGFNLQILKFAHLMESFGFTLFGFAIPMFAAFVANSIGGKTALAAGFIGGYIANRPISIIKLLDSGVYDKVAPVPSGFFGAIIIGIFIGYIVKWLNQNIKLSEKWLAFKTTFLIPLLSALICMIAMIFVITPIGGWLNVQIRNLLEIAGKQGEYVYALISSAATAFDLGGPINKAASFVAIGFSADKILPLTARNIAVVIPSIGLGLSTLIDRKLVGRRVYNKEFYNAGKTSIFLAFMGISEGAIPFALENPVFVIPLYVISAVIGAMSAVMLGAVQWFPESAIWAWPLVTKLPSYILGIAIGSIIIAVVNVIYRNYKIKKGELEVDEE;locus_tag=LOCUS_13700;note=WP_004454776.1 PTS fructose transporter subunit IIC (Clostridioides difficile) [pid:63.3%25%2C q_cov:95.2%25%2C s_cov:89.3%25%2C Eval:6.6e-139],MGA_1383
sequence1	MetaGeneAnnotator	CDS	1479160	1479468	.	-	0	ID=MGA_1384;product=PTS fructose transporter subunit IIB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003416512.1;translation=MKKVVAICACPMGLAHTFMAADSLKNAADELGIEIKIETQGADGIQNELTAKDIREADAIIHAIAITPQGIERFDDSDVYEVSLKEAIREAKEILQEIFKED;locus_tag=LOCUS_13710;note=WP_003416512.1 PTS fructose transporter subunit IIB (Clostridioides) [pid:64.9%25%2C q_cov:95.1%25%2C s_cov:92.4%25%2C Eval:1.1e-31],MGA_1384
sequence1	MetaGeneAnnotator	CDS	1479482	1479910	.	-	0	ID=MGA_1385;product=PTS IIA-like nitrogen regulatory protein PtsN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003400244.1;translation=MKIVEKDNIIINSNKINKENIIENMISSLNLDIEISENIKNEIMIREKIDNTVLGFGFAIPHCKSKYINESKVVYLKSLTNIIWDKEEEPVNHVFMILVPENNVGEHIDILKDISSKIIDKNFRNKLNILEDKIEIEKILNS;locus_tag=LOCUS_13720;gene=ptsN;note=WP_003400244.1 PTS IIA-like nitrogen regulatory protein PtsN (Pseudomonas) [pid:27.4%25%2C q_cov:80.3%25%2C s_cov:76.0%25%2C Eval:1.4e-08],MGA_1385
sequence1	MetaGeneAnnotator	CDS	1479913	1481925	.	-	0	ID=MGA_1386;product=BglG family transcription antiterminator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011986653.1;translation=MIGDRNFRILELLKQGKNNIFDISNELNISERMLRYDIGILNQFFIYYISYEIIGIKNANLKLLIEDYEEKLELIPFREYVFNSFERQMYITLDIFLENNKFKLQELSNKYDISKSTLRNVIKDINLEIEKYDLKIDLDSNRGYSIYGKESKIRLYLINKLRSLNNSKFNIYFLRLVSKKLFNYSKNIDLERSKELVRKFTEDIKLTDEAFDIVSLYVYISENRNFENHKLLECELDNKSFIQKTEEYKKISEYFVNENLNEFDITMLTDIYLGLYNEEDYIYSNYIETDDMINNIINNLNENFDKDFSKDKIFREELLHHIKPAIYRVKKNISLGDSISKEVMKEYEEVYNKTKKSLGFKWNSEEISYIAIMVKRALDRMDKNIRNEMIKVLVVCGLGYSSSKLIVENLEENFEVDVIEAIPYNKLKDYENIDKVDLIVTTLDILSKRNEIIKVNPIFKKEDIEKLEKYGLPRRNIKISESKLFEFIKENSGKKEDEIKENIRKVLRPYIYMDIEENKSRRIYDFLSSENIKLNASARNIDEALKIAVNLMVENQIVEKEYYNNIKQQIDKYGKYIQIGNMSILPHGKIDDRVKKTGFVLVTLKDEIDFFGAKIRIIIMLASKNKEEHLDAILDINKCLKKYNFEEELLKISNKEEISKFLKVMLRGEN;locus_tag=LOCUS_13730;note=WP_011986653.1 BglG family transcription antiterminator (Clostridium botulinum) [pid:24.2%25%2C q_cov:98.8%25%2C s_cov:99.7%25%2C Eval:9.9e-51],MGA_1386
sequence1	MetaGeneAnnotator	CDS	1482043	1483458	.	-	0	ID=MGA_1387;product=glycoside hydrolase family 1 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012027423.1;translation=MKVFPENFLWGGAVSANQVEGAYDKGGKGLSVQDVLPKGGLGEPTDEPTEDNLKLLSIDFYHRYKEDIALFSEMGFKVFRTSIAWSRIFPNGDEEFPNEEGLKFYDDLFDELLKYGIEPLVTLSHYETPLYLARKYNGWIDIKMISFFEKFSTVVLERYKDKVKYWLTFNEVNSVLELPFTSGAIATSKDKLSKQDLYQAIHHELVASSLVTKIARKINPDFKIGCMVLAMPTYPMTPNPEDVWAAYDYENLNYLFSDIHVRGYYPNYAKRYFKENVINILFEEGDEELLKNYTVDFLSFSYYMSVTQAKDTSKYSSGKGNILGGLINPYLKDSEWGWQIDPIGLRITLNRYYDRYQIPLFIVENGLGAKDELVKDEFGNLTVQDDYRIKYMKEHLLQLLEAIKDGVDIMGYTSWGCIDCVSMSTAQISKRYGLIYVDRNDDGSGSFNRYKKKSFNWYRDVIKSNGEILIK;locus_tag=LOCUS_13740;note=WP_012027423.1 glycoside hydrolase family 1 protein (Streptococcus suis) [pid:84.9%25%2C q_cov:99.6%25%2C s_cov:98.9%25%2C Eval:1.8e-242],MGA_1387
sequence1	MetaGeneAnnotator	CDS	1483471	1485312	.	-	0	ID=MGA_1388;product=beta-glucoside-specific PTS transporter subunit IIABC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012027425.1;translation=MGYKETVANILKSIGGEKNIINVTHCVTRLRFELKDENIVSDKIVKSIDNVIGILRKNGQYQIILGNDVENYYKEFIKLGKFQLSNSSNKKKESILGQIIEYIAGSMTPIIPSILGGGMLKVLVVLLPMIGIVDANSQSISFLTFFGDAPYYFIPIFLAYSASKKLNVNTTLAMSVAGILLHPSFVQMVSTGESLKLFGATVTPANYGSSVIPILIMVFLMKYIEKIVNKISTAVTKSFLQPTLVLIVSGFIAIVLVGPLGVIFGKGLSSLIEQMYGITSWVTLAILGTIMPFIVMTGMHWAFAPIFLIASPATPDVLILPAMLGSNLAQGAASMAVAFKSRNNNTKQIAFAAGFSALLSGITEPALYGVTLKYKKPLYAAMIGGGLSGLYVGLTGVKSYIFAVPSIIGLPQFIYSEVPHNIVNALIAAFISITVTFVLAYIFGIDEKISKQNLSNIKTGISNKKNIYSPLSGDILALEKVNDTTFSSKLLGDGIAIIPKDGKIYAPFNGIITSIFPTKHAITLTSDDGVELLIHIGLETVKLEGKGFKSKISDGDRVTKGDLILEVDLETILSEGYEIVTPIIVTNAQNYLDILLIPTNDEINHSDELLAII;locus_tag=LOCUS_13750;EC_number=2.7.1.-;note=WP_012027425.1 beta-glucoside-specific PTS transporter subunit IIABC (Streptococcus suis) [pid:72.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-262],MGA_1388
sequence1	MetaGeneAnnotator	CDS	1485324	1486163	.	-	0	ID=MGA_1389;product=PRD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012775252.1;translation=MIIKRILNHNAVIAQNKKDIDILLFGKGIAFGKKIGDEINPTIIEKSFLLKNSENMNRFTEMFIVVPIEIVCVCEKIINLGKITLGNHFDEIIYINLTDHINTAIERHKEGIIVANPLRWEIAKYYKEEFKLGEKALSIIKKDLNIEIPIDEAAFIALHFVNANLENNFQESYRITEIIMSIEKIIQNYYSTEFNQDSIDYYRFITHVKLFVHRLLERNSYNDEEDEDLLELMKNKYPKEYSCGICVADFIKNKYEYLLSSSELVYLIAHIRRLTKNLS;locus_tag=LOCUS_13760;note=WP_012775252.1 PRD domain-containing protein (Streptococcus) [pid:78.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-123],MGA_1389
sequence1	MetaGeneAnnotator	CDS	1486366	1486944	.	-	0	ID=MGA_1390;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLGYKNVNGRYTNEINIDAKYGLDANFKPSDKGIKQALSIDFGGKSRYKARENVEVILSLDNEYNLNGLNKEVYGVYVDYIKDSTGYKESIHKYAEKYDVSKQDSLRKKKGEIKDLTKGKLSTKEELEKAIHSLTVKPKISTEFSYVEGRLKVSPWIGAEFNLENKPDTNGAANNGTTENKDFVLRKIAGEI;locus_tag=LOCUS_13770;note=MGA_1390
sequence1	MetaGeneAnnotator	CDS	1487269	1488405	.	-	0	ID=MGA_1391;product=molecular chaperone DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016154.1;translation=MKKDYYELLGVDKNASDVEIKKAFRKSAMKYHPDRMANADEKEKKEAEEKFKELNEAYQVLSDPEKKQLYDQYGHAAFEQGAGGFGGQGFEGFDFGDIFSSFFGGGGGFDFEFGSNQRRKQGQDLLYTLDLSLEEIADGVEKEIEYSRGGKCSSCSGTGAKDGKTKQCNTCGGRGHVTKTQRTIFGMSNVRVECSSCHGVGEMAEHKCNSCHGSGSKREQVKKKIKIPAGIESGQRLVVRDGGNYDGPGSDFGDLYIQIREKRHELFQRDGYDIYCKVPISFLTATLGGELEVPTLRGKTKIKIAEGTQNATKMRIRDAGIKHGGYKGSQIIEISVEVPKNLNSKQKEKLKEFYETLGVENEEKTTSFFDKIKDFFKD;locus_tag=LOCUS_13780;gene=dnaJ;EC_number=1.8.4.-;note=WP_011016154.1 molecular chaperone DnaJ (Fusobacterium nucleatum) [pid:47.6%25%2C q_cov:96.8%25%2C s_cov:95.9%25%2C Eval:2.6e-97],MGA_1391
sequence1	MetaGeneAnnotator	CDS	1488405	1489271	.	-	0	ID=MGA_1392;product=aldose 1-epimerase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000127403.1;translation=MIVLKKDLMELKIEEFGAEVKSFNINKEEFFWNRKDYWAKTSPILFPFVGGLREGTYEYKGKKYIISTRHGFARDNIFQIVEQGESLVKLMYSSDEESLKKYPFEFELYVTYELVENGFILKYLVKNKKDEEMYFSIGAHPAFLINNNYEKDAYLEFEKEEKSLKYHLDETGFFRKEKVEFNLVDNKIINITEENFKNDAIVFKNTNSSSVYLKSRSTNKEVKLTFENFPYIAFWKMSNAPFVCIEPWFGITDIIGASKDITLKEGIQKLEPRGEFRAKLVFEFKRGN;locus_tag=LOCUS_13790;note=WP_000127403.1 aldose 1-epimerase family protein (Bacillus cereus) [pid:37.8%25%2C q_cov:95.8%25%2C s_cov:96.6%25%2C Eval:3.6e-50],MGA_1392
sequence1	MetaGeneAnnotator	CDS	1489313	1491121	.	-	0	ID=MGA_1393;product=molecular chaperone DnaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016153.1;translation=MSKIIGIDLGTTNSCVSVMEGGTFTIIPNSEGERTTPSVVSIESNGEIIVGSTAKRKAITEPKQTVISIKTHMGSDHKVDIHGKSYTPQEISAMILKKLKKDAESYLGETVKEAVITVPAYFTDAQRQATKDAGEIAGLEVKRIINEPTAAALAYGMDKEKEEKILVFDLGGGTFDVSVLEVGAGLVEVKATAGNNHLGGDDFDAAIINWLADEFKKETGIDLRNEPQAYQRLKDAAEDAKKKLSSTLETTISLPFIAMDATGPKNLEKKLTRAAFNELTKHLVEKTKEPVKQALLDAGYTVRDIEQVLLVGGSTRIPAVQEWVKEYFGKEPNRSINPDEVVSVGAAIQGGVLGGNVKDVLLLDVTPLSLGIETMGGVFTKMIERNTTIPTKKSQVYSTAADNQTAVTIHVLQGERAQASQNHTLGQFNLEGIPAAPRGIPQIEVTFDIDSNGIVHVTAKDLGTGKENQVTISGSSNLSKDDVERMKKEAEANEEADNKFRELIEARNMADHLIISTEKTIKENEDKLEGNEKENIEKAIEELKKVKDSENIEEIRKGIEGLSKASEAFAMRIYQAAQAAQQPASENAENNNDDVVEAEEVK;locus_tag=LOCUS_13800;gene=dnaK;note=WP_011016153.1 molecular chaperone DnaK (Fusobacterium nucleatum) [pid:74.6%25%2C q_cov:95.3%25%2C s_cov:94.6%25%2C Eval:1.8e-245],MGA_1393
sequence1	MetaGeneAnnotator	CDS	1491134	1491679	.	-	0	ID=MGA_1394;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSEEIKEEELKETENIEETDVIIEKLNAELEDYKKAYALKLAEFQNFSKRKEKELQEYKEYASKDIILKVLENLDNLERGIEASRSTEDYNKLVEGLEMTIKNFSEMLTNEGVTEIEALEKEYNPYEQHAVQVISNEEKANNEVLMVLQKGYKLKGKVIRPAMVVINKIEEIKNNEEENKN;locus_tag=LOCUS_13810;note=WP_011016151.1 nucleotide exchange factor GrpE (Fusobacterium nucleatum) [pid:49.7%25%2C q_cov:79.0%25%2C s_cov:71.4%25%2C Eval:4.2e-35%2C partial hit],MGA_1394
sequence1	MetaGeneAnnotator	CDS	1491688	1492719	.	-	0	ID=MGA_1395;product=heat-inducible transcriptional repressor HrcA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_198480919.1;translation=MNEREKEVFNMIINHYLNSGESVGSRTLEKKYNIGVSSATIRNVMSDLEEMGLITKTHTSSGRIPTLDGYRMYIDELLQVSEVDEETKEQIYLHYQKRINKTDIIFKETVKLLSELSRSVAIAIEPSSDEESIKKIQFIRINEKEVFVVVVMKNNIIKTSTLLMNTYVTEENVNNLNSYIFDLMNTTHKRFTLKDMERFLKNISVNDFRFEEKRIFENSKVFVDGAENLLSREDIPIEKVIGNIKMINNESEMNALFKHLISKVEYDLDSNIIFGSDIDIAGFEESVFIFKCYEFGEDKGVLGLIAQTRIDYSKTLALLDLVIDMLKKMLNQNYQNKFIGYKD;locus_tag=LOCUS_13820;gene=hrcA;note=WP_198480919.1 heat-inducible transcriptional repressor HrcA (Fusobacterium canifelinum) [pid:34.1%25%2C q_cov:98.3%25%2C s_cov:98.2%25%2C Eval:1.2e-53],MGA_1395
sequence1	MetaGeneAnnotator	CDS	1492780	1495296	.	-	0	ID=MGA_1396;product=ATP-dependent chaperone ClpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627102.1;translation=MKNFTRKAMEAIENTVKFAMNFKSSNVRLEHLMLELVSNDETTVSVLNKVGVDRNELQQNIYTKLDSMPKISGGEISYSQEFTTMLNDASNMANSGGHEYVSVVFLLKAMLKINDFGLDFKKINETLDNMMEGRKVNSDGFEESLESLEKYGRDLVKLASQGKLDPVIGRDNEIRRLIQILSRRNKNNPMIIGEPGVGKTALVEGLAQRIFSGDVPDNLKDKTVFSLDMGALIAGAKYQGEFEERLKAVVDTLEKNEGKIILFIDEIHNIVGAGGNNGAMNASNLLKPMLARGEIEVIGATTLAEYRKYIEKDAALERRFQPIQVFEPGVDDAVSILRGLKEKFEQYHGIRISDNAIVAAATMSDRYIQDRFLPDKAIDLIDEACAKVKTEINSVPVELDEINRKYAQLEIEREALKKEEDEVSIKRLKDIIKEIEELGEEKRVLTLNWNAEKENVLELKRLKQELDDAKVKLEETKRVADYAKAAEYEYGIIPEIERKLNEIRDKSEKNSLVSQIIGKEQIAEIVGKWTGIPVGKLVQSENEKILSLEEYMKKSVIGQDEAILAISDTILRSRAGLKDINRPIGSFMFLGPTGVGKTYVTKKLAQNLFDDENAIIRIDMSEYMEKHSVARLIGAPPGYVGYEEGGQLTEKVRRKPYSVILLDEIEKAHPDVFNVLLQVLDDGRLTDGKGRLVDFKNTLIIMTSNIGSHFILDGKSELVMEELKTRFKPEFLNRIDEIITFKSLGEAAIKNIVRLELEKMNDKLKDRMINIVYGEDVIDYVFKNAYDENYGARPIKRFIQKQIETDLSKLILKENINGNVDIKVDVSEDGLEFKKILT;locus_tag=LOCUS_13830;gene=clpB;note=WP_201627102.1 ATP-dependent chaperone ClpB (Fusobacterium canifelinum) [pid:54.8%25%2C q_cov:99.4%25%2C s_cov:99.3%25%2C Eval:7.3e-264],MGA_1396
sequence1	MetaGeneAnnotator	CDS	1495798	1496328	.	-	0	ID=MGA_1397;product=ClbS/DfsB family four-helix bundle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_164405696.1;translation=MRTYTGKKELINEIKKSFEKYILEFDDIPEYLKDKKVEGVDRTPAENLAYQVGWTTLILKWENDERKGIKVKTPTDKFKWNQLGELYQWFTSTYAGLSLEELKVKLNENINSIYLMIDSLSDDELFKPHMRKWADEAIKTAVWEVYKFIHVNTVAPFGTFRTKIRKWKKSSDIYNK;locus_tag=LOCUS_13840;note=WP_164405696.1 ClbS/DfsB family four-helix bundle protein (Streptococcus canis) [pid:81.7%25%2C q_cov:96.0%25%2C s_cov:98.3%25%2C Eval:2.3e-80],MGA_1397
sequence1	MetaGeneAnnotator	CDS	1496350	1497447	.	-	0	ID=MGA_1398;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MMMCILKVGFNQGIAKGDIQGLNATVGANYLVKDNIKLGGFIHYDNKLGDLTKTHAHIGVIGVNGKFKLKDNKGEIESFIAYKYNYGKYQNKIDTYGNIDDMINKNIEKYYDESVHQHSIEIFNKYSKGFKIVKNLKISPQVENYLSISSSIKYSNIFVDDNKFDEIIYRFIGEKKENKMNDESPLFDKLSTSSDINHIVKTLHRGGVLLEYNGFKNLNIYLNTKLGINYENISITSRIKMEKYRDRNKNTESNINEEALTLDENIIEELKNSLTSENGLKLELDDFNIELNGDDNYIRDKKEFKWKDYINNIGIAYDIKTGVNYNFKKFNFDAYVRFDGNSNNNETLLKDFHKFSINTKIGYNW;locus_tag=LOCUS_13850;note=MGA_1398
sequence1	MetaGeneAnnotator	CDS	1497416	1497823	.	-	0	ID=MGA_1399;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLLFLTILGGIESFAENDTLTKYFNLQKEIEKYIFGEKLEKTKEMIGKGTYKSYNYENDKKFEEFENELKKLKQDGLILDNDFNENVVAKLERLSFLKKTSFVRYQNIRFKTYSNYKIEPAFDDDVYFKSRI;locus_tag=LOCUS_13860;note=MGA_1399
sequence1	MetaGeneAnnotator	CDS	1498047	1498520	.	-	0	ID=MGA_1400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKTSNMTKIFFKIVQNKIYYDTHRHTASELIIERADANKEHMELTTWETSPNGKIVKSDVSIAKNYLTEKKLNFLERFVSLYLDYTELQAQRHIPMSMEDWSKRLDGFLEFNGTELLTDAGKISAEQVKLYAETEFEKYRIIQDRLFTSDFDRYLL;locus_tag=LOCUS_13870;note=WP_002681769.1 virulence RhuM family protein (Treponema denticola) [pid:60.5%25%2C q_cov:96.8%25%2C s_cov:44.4%25%2C Eval:3.1e-48%2C partial hit],MGA_1400
sequence1	MetaGeneAnnotator	CDS	1498633	1499319	.	-	0	ID=MGA_1401;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903490.1;translation=MRINKYIAESGFCSRRKADELIIDGRVTINKNIAVIGSEVEDGDIVRIDGEKVTVKKEYEYYILNKPKRVLCSNEDRQGRTLAVSLIKSKKRLFTYGRLDYMTEGLIIISNDGDIYNNVMHPKKKLYKSYIAKIDSDITDDHIEALKYGVVIDGVRTLPAKVKTITKREVRVAIHEGRNRQIRKMFEVLGYTVKTLRRVKVGELSLKGLEVGKYRKMTDDEIKYLKSL;locus_tag=LOCUS_13880;note=WP_005903490.1 pseudouridine synthase (Fusobacterium nucleatum) [pid:47.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-57],MGA_1401
sequence1	MetaGeneAnnotator	CDS	1499306	1499839	.	-	0	ID=MGA_1402;product=SMC-Scp complex subunit ScpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903489.1;translation=MKSDLEAILFISKESISLSELSSFFKVNEDEMKKVIEELVDEYKEKGINVCFENEEVFLRTNALKGEIIKNFFTPELKLRKLSKSSFEVLAIIAYKGPITKSEIEEIRSSGADHIIPVLLDKKLIYVSGRKKALGNPNLYEVTDDFYAYLGIENKEDLLEFDKSNWLINRKEENENK;locus_tag=LOCUS_13890;gene=scpB;note=WP_005903489.1 SMC-Scp complex subunit ScpB (Fusobacterium nucleatum) [pid:42.0%25%2C q_cov:91.5%25%2C s_cov:89.5%25%2C Eval:7.7e-31],MGA_1402
sequence1	MetaGeneAnnotator	CDS	1499848	1500906	.	-	0	ID=MGA_1403;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_147367094.1;translation=MFKNLVRMFKKNFMLNKNVKDIGIDLGTANTVLYVKGENIVINEPTYVAINTKMNDNIEFIGKKAKEIMGRTPGYMEVKRPLKNGVISDYEITEKMLSIFLSKIKKGELYNDRVIICVPSGVTQVERRAVVDAVKDAGAKEVYLIEEPIAAAVGAGIDMFEPKGHLIVDIGGGTTEIAFIVSGGAAKTHSIKTAGDQLNVDIVEYVRDNFNLNIGEKTAEDLKIVATNSENLEELCQIKGAEAVTGIPKEIKISVKEVNDAINKSVDHIIYEIDKVIEEITPEIAADIFETGIYLSGGGASIKILKDKIEEKFKLKVTVCNEPIYAVINGIANIFQEFAKYKNMLIPTTNEY;locus_tag=LOCUS_13900;note=WP_147367094.1 rod shape-determining protein (Fusobacterium canifelinum) [pid:47.8%25%2C q_cov:94.3%25%2C s_cov:96.0%25%2C Eval:3.0e-84],MGA_1403
sequence1	MetaGeneAnnotator	CDS	1500921	1503416	.	-	0	ID=MGA_1404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKYKKGKKNINKNISNNNPNIWINASVLIISIFLLGLVLMERFISTDTFIETFLGLIVANLKIIFGKTVIVFLLLVILFNFFAIRNRKKISSMPLIRKIMWILSFLFLSMSLTVFSLAKITGETMFDAGQEILANAFMYKGGGIIGAIISIPFFTVVNEPWFFFSAITMFLITSFFAMGKTIRLIYLNITNTLDYYSSEEYLNKKKIIEAKKTYEKRLQEAEDKQFEESFVNYFVNKTNKKLEDEIFKKLDEDKTLENKEVEYYSEKELNAKQKEWNEYYDRMLEIRKYEIEKAKLQQEKKVLEKIEKENYEALNRQEKQLEQEDKEEKIEIPETFDEIDEIEEEVFEIDEPIDETSESLEEIIPEPVQVIDREELKVALADVFKDKSMDPEKISEMKREIEKNIENLEEVLRNFGVDAKVVDYGTGPTITRYEIKIPKNVRVKKVTELEDDIAMYLKAERIRIEAPIPGKDAIGIETPNKIKEPVYFSNLIKSRELEQGILPVVLGKDIVGNNKIIDIAKLPHLLIAGTTGSGKSVCINTIISSLISKKSDDEVKFIMVDPKMVELMPYNGIAHLLTPVIIDPNMAAIALKWAVNEMEERYKKLASLGLRNIEAYNKKYVKEKLPYIVIIIDELADLMMVSSNNVEQSIARIAQKARAIGIHLIVATQRPSVDVVTGMIKANLPSRISFALRSNTDSRTILDQVGAEKLLGMGDMLFLDNGKAKLERVQGAYISDDEINKLTDIIKSKKVAVYNEEILVEEEQGNNNNRDPLYEKAVLIAKRPNIDRLSISLLQRELSTGFNRASKLCEELRNNGVIDEQNRYINSELD;locus_tag=LOCUS_13910;note=WP_003388321.1 DNA translocase FtsK (Clostridium) [pid:52.2%25%2C q_cov:50.7%25%2C s_cov:56.6%25%2C Eval:3.9e-116%2C partial hit],MGA_1404
sequence1	MetaGeneAnnotator	CDS	1503648	1504208	.	-	0	ID=MGA_1405;product=histidine phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002938482.1;translation=MIVYLVRHGKTKWNLEERIQGWADSPLLPDDKSPEKAAEKLKGIHFDYVCSSDLGRAVETKRRILEILGIENEENEHPEFREVGFGVLEGMPISVLKDEYADLWRRYKTYSEDFVPSDFFEGFESVKDVKTRALGKLNEIKKIYGEDSTILVIAHGSIMSILEHDGKEIDEPAVIIENGGVLKLEI;locus_tag=LOCUS_13920;note=WP_002938482.1 histidine phosphatase family protein (Streptococcus suis) [pid:34.7%25%2C q_cov:88.2%25%2C s_cov:77.9%25%2C Eval:8.6e-15],MGA_1405
sequence1	MetaGeneAnnotator	CDS	1504313	1505311	.	+	0	ID=MGA_1406;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016472.1;translation=MLILAIESSCDETSVAILKDGKNVLSNVIATQIDIHKEYGGVVPEIASRHHIENILTVYDKALKEANCKISDISYIAVTNTPGLIGSLLVGLMFAKGLSLSNNIPLIPVNHIEGHIFSTFIDYEPKLPMLTLVASGGHTSLYLIDENKDLTLLGETLDDAIGEAYDKVARILGLEYPGGPLLEKMAIMGHNSFDIPTPKVSGYDFSFSGIKTFITNYVNRKKMKGEDFNKEDLAKTFQDKIIEVLIDKLSKASRKNNIKTISVVGGVSANKAIREAIINSEYFENVDILFPKFEYCTDNAAMIASACYHKNLREENMFIDAIDTKTKKQGGL;locus_tag=LOCUS_13930;gene=tsaD;EC_number=2.3.1.234;note=WP_011016472.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Fusobacterium nucleatum) [pid:53.6%25%2C q_cov:95.2%25%2C s_cov:93.0%25%2C Eval:2.9e-97],MGA_1406
sequence1	MetaGeneAnnotator	CDS	1505312	1506274	.	+	0	ID=MGA_1407;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNIFILLVLFLLAYIYTKKKKTDYTEVISKENNISEVDSMEKVEMIDLENSELGIREILKIKKAKSGSYRNYPNQNSLKQIYRRKPKYLVNSKYTFNENNHDEDKLKVEMSKYLIFEQQEEKYFNKRPLPEQYHNNEIVLIPKNTDTLFTYWEIREDFYYTLNNDNKLVNENPVIILKSVDGEEKVKIQTHSRNGSMYINNVDSNQEYIVYLGYLDEFNNFIEIAHSTEANVPNPLPSENFNVNWGVSEVINVDGKQVISFKNIDKNNVSSYLGYQQEVLDKELLSDEEIQSLVRKEDEARLLNGSSFQGSSFTGSSKI;locus_tag=LOCUS_13940;note=MGA_1407
sequence1	MetaGeneAnnotator	CDS	1506655	1506783	.	+	0	ID=MGA_1408;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILNQKNRTYSNALIDFIIEEIKKDPENVYKNIKKAIENKKR;locus_tag=LOCUS_13950;note=MGA_1408
sequence1	MetaGeneAnnotator	CDS	1507129	1508118	.	-	0	ID=MGA_1409;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989346.1;translation=MEIRKPKIDGYKLGSLSPQVKFIEELRLKEVEKIKARTFSSDIEKMRAAACILNTDITTTNIKVEIEKVNGIRVVKYLTDPENVDKLIIFFHGGAYFGGSTDIVHNSCKYIAEQTGATVISVDYSLAPEFPYPTSINEGYTILKHFENRYESIYLSGDSAGGGLACSVCIKDIEEGSKIADGLILYYPYLLISPNDNCRDDFIWDIKEYDIDETNSDAPLIKSLITELEDIILFVKNTYIKTNEPKDNYYISQINAPDSLLKQFPKTLIFTSEYDYLRLEAEYFHRRLKENGIKSVGIRYAGEVHAFIDKIGYSDNAIDSVSEIKKFIR;locus_tag=LOCUS_13960;note=WP_010989346.1 alpha/beta hydrolase (Listeria monocytogenes) [pid:31.3%25%2C q_cov:93.0%25%2C s_cov:83.0%25%2C Eval:2.9e-33],MGA_1409
sequence1	MetaGeneAnnotator	CDS	1508145	1509125	.	-	0	ID=MGA_1410;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989346.1;translation=MDIRKPKSEEYRPGHFSPEVKYINELRIKEAEKREIKTFSTRLEKLRDEMWAPNIDITSTYIRNDIEKIDGIRVVKYSKKTENMKKLIIYFHGGAYFGGSTDLVHNSCRYIAEQTDATVISVDYSLAPEFPYPKAINEGYTILKYFENKYEDIYLCGDSAGGGLACSVCIKDIEEGSKIAKGLILYYPVLLIDLNDNCRNDFTWDIKEYDIDKNNSEALNAIMYLKDIMPFIKEMYIKTNEPKDNYYISQINAPDSLLKQFPKTLIFTSEYDYLRLEAEYFHKRLKENGIKSVGIRYAGEVHGFITKVGYNDNIVNSVNEITEFIK;locus_tag=LOCUS_13970;note=WP_010989346.1 alpha/beta hydrolase (Listeria monocytogenes) [pid:30.1%25%2C q_cov:92.6%25%2C s_cov:82.7%25%2C Eval:3.2e-32],MGA_1410
sequence1	MetaGeneAnnotator	CDS	1509200	1510684	.	-	0	ID=MGA_1411;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016590.1;translation=MNDIKELEKSYDSIPYISKSFKKCQPLHLKTMMKMLSFETTDLDKMRVLEIGCSFGGNIIPIAISNPNSEVIGLDLSKVQIDEGNDIIEKIGLKNIKLYHKNIVEYNNEFGKFDYIICHGVFSWVSDEVKEAILKVVKSSLTENGVAVISYNTYPGWKRIDVARDLMLFSIENLKDRLLNVNDQDKVEMGKSAIRFYLDNSIVDENMKDVLKNLLDKDTHYLYHEYFEKYNDPMYFYEFSKMLAKHNLIHVVDSSMSNSYPNFNQEVKTAINNECGDNRIAKEQYYDFLRNAQFRTSIITHSENSSKVNLTDEILLERLDDIYVRGVYSLEDGKWKYGETELYEQNDKLLKYLTDIYPKNIKIKKLVEKFGKDEYYKIYGLIYRENIEYDIYERGTSDESQIGPMNLNYLKYCFGANSKITFSSYKGEILELPEYLTILVDLLYESNLDSLKDKIVEKFETGELVSNAEKDFSKLADLVIKDIKRMVKVYELYR;locus_tag=LOCUS_13980;note=WP_011016590.1 class I SAM-dependent methyltransferase (Fusobacterium nucleatum) [pid:41.1%25%2C q_cov:96.0%25%2C s_cov:94.6%25%2C Eval:1.7e-105],MGA_1411
sequence1	MetaGeneAnnotator	CDS	1510692	1512419	.	-	0	ID=MGA_1412;product=phospho-sugar mutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003396540.1;translation=MNYMDKYNKWLSNENLDADLRNQLESIAGNEKEIEDRFYQELEFGTAGLRGKLGAGTNRMNEYVIARATQALANVIKKEGQEAMDRGVAFAHDCRIFSPEFALLSALVMASNGIRAYLFESLRPTPELSYAIRYYKAISGVNITASHNPKDYNGYKVYWEEGSQIKSVISDAVFEEISKLDIFGKYVTLTKEEAIEKGLLVIIGEEIDEVFYNEVMNTSLRSNDELDMSIKLVYTPLNGAGNIPVRTVLSRKGYENVYVVKEQEMPDGTFPTLVYPNPEDLAAFEYSEKLAFEKNADILIATDPDCDRLAVEVMHNGKIVALNGNQTGVLLINYIVSTMKEKNIFPKNPVIVKSIVTGEMGTAVANKYGIEMINVLTGFKNICAIANMYEESKEKNYIFGYEESIGYNIGTFLRDKDGVSSALMLTEMAAYYKKHNKTLIDALTELFEEFGYYKEKGVSVVLDGMEGAKRIKRMMIKFREIFPKTIGDAKLEEITDYKAQTVFNVETGQINPCEIEPTDAVKFLYDDGSWYTLRPSGTEPKIKLYVYVKDAVEEKSLEKLAKFEKEVLDVLYSID;locus_tag=LOCUS_13990;note=WP_003396540.1 phospho-sugar mutase (Clostridium botulinum) [pid:55.6%25%2C q_cov:99.8%25%2C s_cov:99.8%25%2C Eval:9.7e-185],MGA_1412
sequence1	MetaGeneAnnotator	CDS	1512438	1513700	.	-	0	ID=MGA_1413;product=murein hydrolase activator EnvC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029492060.1;translation=MKKKIMLFLSLLSLASFGNNIDKNKNRINQIDKQVKDNTNKINNNNSKINNAKKDEAAIKKEIQELDALISKLQREYNVIQNEYVSLLKEIGKSEKEIRSSIRKIEESSKKITEGKTDYSNKINTWNKVFNAKVFQKNSFSSESAKKTNDLIKVLEQGQNNIKKIEKYKQQEEIHKKNEEILKNKTQKEAKKVEKKKLELENKREELRKAKINKDRAVKNLQNLQDSLKDENKKIERTNSSLIAEKRRLEQQINAIIAAAKKREEDARKRAQGSNKNQSGNESTDKKEPIKAVVVPKGTGKFIMPINGTIIVAYGQEKTKGITSKGIEIRGSLGQAVKASDSGVVLYSGSLKGLGAVIMIDHGDFITVYGNLASVRVASGAKVSKGQTVGTLGRDSITKEPNLYFEVRKGVNYVNPANYL;locus_tag=LOCUS_14000;note=WP_029492060.1 murein hydrolase activator EnvC (Fusobacterium hwasookii) [pid:27.4%25%2C q_cov:99.0%25%2C s_cov:99.0%25%2C Eval:7.3e-35],MGA_1413
sequence1	MetaGeneAnnotator	CDS	1513702	1514652	.	-	0	ID=MGA_1414;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTGKLFGGVKENIRAEKGAFFSAVTTFILIFTLINIFVFGALNADLYRLKEEQANQVILYIKDLDDEGKKALQEKVLNLDGVSSLRFVSKDVALKSLEKELSVDLSLEPNPLEDTFFVHLKRDVNIDELNVKLSELTEVSSIDLRAKVVNQTVMFSAALDYFIKYAIIFLIIFSVMIIFNIVGLTVKTRKREIYESLLEGKSKEFIKTTFFLESVLAVLISGAVSYIMYVKIRCSIVGLIEKARGATAIQGFSTLGKETNFLFIVLIITIILVLVINYLFLNKYYNIRYYEKNKNEEIQEVKEEVEEDFQDLREEQ;locus_tag=LOCUS_14010;note=MGA_1414
sequence1	MetaGeneAnnotator	CDS	1514663	1515583	.	-	0	ID=MGA_1415;product=transketolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016289.1;translation=MKATRQAYGEALVKLGKVNKNVVVLEADLSKSTMTTFFNQEFPERHINLGIAEANMIGTAAGMATTGKIPFASTFAIFAAGRSYDQIRNSVAYPNLNVKICPTHAGISLGEDGGSHQSIEDIALMRVIPGMVVLQPADATETEKMIFAAAEYQGPVYVRLGRLPVADIYTDEYEFKIGKATTLTEGNDVAIIATGLLVNEALKAEKILKEKGVNARVINMSTIKPLDEETVLKAAKECKFIITSEEHSIIGGLGGAVSEYLSENHPAKVVKHGINDVFGQSADGNVMLDKYGLRAERIVELVLENI;locus_tag=LOCUS_14020;note=WP_011016289.1 transketolase family protein (Fusobacterium nucleatum) [pid:64.9%25%2C q_cov:99.7%25%2C s_cov:98.7%25%2C Eval:1.8e-111],MGA_1415
sequence1	MetaGeneAnnotator	CDS	1515593	1516402	.	-	0	ID=MGA_1416;product=transketolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003430704.1;translation=MEKNELKEISKSIRRNIVEMIYHAKSGHPGGSLSIADILTVLYFEEMNIDPKNPTMPNRDRLVLSKGHAVPALYATLMEKGYIDKSLVTELRKFGSPLQGHPDLKKLPGIDMSTGSLGQGLSAAQGMAISAKISGEDYRVYAILGDGEMQEGQIWEAFMSAAHFKLDNLVAFLDHNDLQIDGKVSEVMPITPIADKYRAFNWHVIEINGHCFDEIKKALKEAKEVKGKPTVIIAKTSKGKGVSFMEDNAGWHGKAPNLEELNKALEELK;locus_tag=LOCUS_14030;note=WP_003430704.1 transketolase (Clostridioides difficile) [pid:67.3%25%2C q_cov:93.3%25%2C s_cov:93.0%25%2C Eval:3.6e-97],MGA_1416
sequence1	MetaGeneAnnotator	CDS	1516416	1517735	.	-	0	ID=MGA_1417;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016234.1;translation=MSKRLTKATYIFYGLGVAYFMLDQVFNQWIQYFYLPSEKAIADYGISVIMPPVYLAIAFVIMRFVDAIADPVVGYMSDNSTSSLGRRSFYMLIGIIPLALSMIAFFFPFNNGPLIATLYLAFVGSIYFIAYTLVGGPYNALIPDLASNKEERLNLSTIQSVFRLIFTAIPLIFSPIILSNMIKSGMSFIKAMRLMVTGFSVLSAIIVIISVMLLKENKVRHNNNNDVKKINFKEAFSYLKNKEIILYFIGFFFFFSGFNIIRNSVLYYVTVILGQSEKAASLPTTILFAMSALFFPVTQFLSKKFDYRKVMLFDLALIILGTLGLIFLGDKSKSIFFAMFLVVGAGVSGSAFIFPPAMLSEISIKLHEKYNVSVEGMMFGIQGLFLKLALLLQIVTTTLVLSIGGKGGATRLGVMITLAIAVVFLIISFVSYYLKKSEI;locus_tag=LOCUS_14040;note=WP_011016234.1 MFS transporter (Fusobacterium nucleatum) [pid:39.0%25%2C q_cov:98.2%25%2C s_cov:97.1%25%2C Eval:4.8e-77],MGA_1417
sequence1	MetaGeneAnnotator	CDS	1518080	1518682	.	-	0	ID=MGA_1418;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010922658.1;translation=MKILLIDDHKLFALSIQMILGKYKEIERIDVITDSKQLEKKDIKDYDIYLIDINLNNISEETGLELAEKLIKKDKNICIVILTGHLKLMYEDKANKIGVRGFIDKNIDPEELIKILKLIYSGGRYFKNIKFEGISHNNLTSTEIKILELTRKGESIDEITKKAYISKRTVFNHLNNIYSKLGVTNKQEAIYKAQELGYFF;locus_tag=LOCUS_14050;note=WP_010922658.1 response regulator transcription factor (Streptococcus pyogenes) [pid:52.3%25%2C q_cov:99.5%25%2C s_cov:98.5%25%2C Eval:1.5e-50],MGA_1418
sequence1	MetaGeneAnnotator	CDS	1518663	1520210	.	-	0	ID=MGA_1419;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000761138.1;translation=MYKLIDFLKENKDKYAWMVFIIIQQICFFFYLKLYILSSENLLVNGTVLIFDLISIIYIYIATHIRKNNDIFLRKIILYVSLICWQHFFILNSNNFYYNFGIILQPFVTYIFTVGSFNLLLHEKIDFKRKIDNFIHIILLVITLSFFTNRSLFNFIYLFLFIGLHIYPFLIVVFYRKYFDSVLSKIRTECFVFSIFLLAVLLLNFIENFVNIELMYSNIGWYIVTITICFITYLRLIQEMFLIKLKNILGKITIILILFSFVLWFMLLFQNIKRIDYLILFLILTELLLFIITMYLKIYFEFNDFENNKFINLLKIEENIKGKFAEYLHDDILQNIIALKNIIQISQIESENKNLIVHELNNLVSSIRNEVDTQKPIIYSYENLKEIYHGMIKSLSQKYKTNKKINFYCTDYLNIYSPYSSIVYRIMKELVNNAIKYSSSSFIDVYLDVKFDNIYIKTNNITESTKIKIGNGLSNIGNKVEFLKGKIDIFIENGTYNLEIVIPMERRICFENIIN;locus_tag=LOCUS_14060;note=WP_000761138.1 ATP-binding protein (Bacillus cereus group) [pid:24.1%25%2C q_cov:95.9%25%2C s_cov:97.5%25%2C Eval:8.9e-33],MGA_1419
sequence1	MetaGeneAnnotator	CDS	1520215	1522149	.	-	0	ID=MGA_1420;product=FtsX-like permease family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010922659.1;translation=MEFEITKANIRAKFFLYRIYLFATTIILAIFSTFLNFVSDDIILEKISESGRVEEMSKTIYVILLVLVIFFLIYFNHFFLKNRIKDIGILDILGFSKAKLIKILCYESIIILSLSYIFSIILGSFLYLSIKVIIVNILKLNIYSKIYFDSIIIFKLLIITLVTFIINMIINTVLVMKQSLIEFVNYSKKSEKIRKVKKNISIMAFFFLITGYIICISSFWGIKGIWKLRITPIFMLVIFLIVFGTVILIKFGLIYLLDKIKKNKDKLYTPIGNIVYPKLIFRISSKNRLLIVLSLLITVTVIVIGIMTFTLVYPIKAVDRLNPSVIEYRSENMKFNEYRLKNILKSNNAQLLNVEILRVNIKPSIPITENGSKKINFLDIVKYNDYIKLMKNQGRTNEVENVKKGRYLLINYYPTEKPLHVKYVLSNNDEINISKVTTNNIFSFANSVTTLIVDDEYYENLRIKNVGFKINLTTINGNNLRDSKEFYDNFREIENIQSSYSKKYSIIRDNSSTFIFISFISILFVICTASILYFTSLIEIIETKEDYNYLRKIGYSNVEITNILKKEIGMLYKIPLVIGVLNGSFILFAFRYIFIDNLIKSKYLILNTMIMLSLFTGIYFLFYYITKKAVNKIIKYDMRYSLRW;locus_tag=LOCUS_14070;note=WP_010922659.1 FtsX-like permease family protein (Streptococcus pyogenes) [pid:41.1%25%2C q_cov:98.6%25%2C s_cov:99.8%25%2C Eval:2.7e-138],MGA_1420
sequence1	MetaGeneAnnotator	CDS	1522151	1522867	.	-	0	ID=MGA_1421;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000812013.1;translation=MNKLELKKVYKKYNDQDKYVLEDISLIINNGEFVSIMGRSGSGKTTLLNLISTIDKIDKGVILFEDKDISKLNDKQSSEFRKNDIGFVFQDYMLLDSLTIRENIAVALSLKNVNKQEIDVLIDKYAEMLGIYNQLEKYPYQLSGGQKQRVAIARAIIKKPLILFADEPTGALDLKSSKDIMEIFENINKELNITIVMVTHDAISSSYSDRVIFLKDGKIEKEIYRKNSKMFYEDILGG;locus_tag=LOCUS_14080;note=WP_000812013.1 ABC transporter ATP-binding protein (Streptococcus) [pid:63.1%25%2C q_cov:99.2%25%2C s_cov:96.3%25%2C Eval:1.2e-79],MGA_1421
sequence1	MetaGeneAnnotator	CDS	1523232	1523606	.	-	0	ID=MGA_1422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYVGSQQRVTLGNIHYYVDMVFYNKILKSYVLIELKTGKLMPEAVGQINMYLNYYKTEVNDDTDNEPIGIILCTDKDSIQAEYALGSLSNKIFASKYTLYIPDRELLEEQVERVLRNYEENKVN;locus_tag=LOCUS_14090;note=WP_011022934.1 PDDEXK nuclease domain-containing protein (Methanosarcina acetivorans) [pid:43.0%25%2C q_cov:97.6%25%2C s_cov:35.1%25%2C Eval:1.3e-24%2C partial hit],frameshifted%2C insertion/deletion at around 1523667,MGA_1422
sequence1	MetaGeneAnnotator	CDS	1523638	1524402	.	-	0	ID=MGA_1423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MADVLIVNTYVLSHYSSIEFGCSTILNALNIYGIIIKVVADKEVGYMNNEIDKIHKDVYSSIKELMDNARNSVAREVNNILIQTYWEIGRIIVEDEQGNSDKAVYGKQLVKDLSKRLTKEYGKGFSKSNLFNMRNFYLSFPIFQTVSGKLSWSHYCELLSISDERKRSFYEKETINANWSVRELKRQIKTSLFERLLLSSGDENKEKVLELALKGNEINKASDVVKDPYVFEFLGLLEEKPIMESVRKSLNSSY;locus_tag=LOCUS_14100;note=WP_011022934.1 PDDEXK nuclease domain-containing protein (Methanosarcina acetivorans) [pid:44.1%25%2C q_cov:80.3%25%2C s_cov:58.3%25%2C Eval:1.2e-46%2C partial hit],frameshifted%2C insertion/deletion at around 1523682,MGA_1423
sequence1	MetaGeneAnnotator	CDS	1524548	1524706	.	-	0	ID=MGA_1424;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKLELKKVYKKYNDQDKYVLEDISLIINNGEFVSIMGRSGSGDNVIMMIVQ;locus_tag=LOCUS_14110;note=WP_000812013.1 ABC transporter ATP-binding protein (Streptococcus) [pid:50.0%25%2C q_cov:96.2%25%2C s_cov:20.4%25%2C Eval:1.8e-07%2C partial hit],MGA_1424
sequence1	MetaGeneAnnotator	CDS	1524822	1525754	.	-	0	ID=MGA_1425;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLLDDYLLSAIEKYPKVTLEESLKYVMKSKNRLICGKYSPLSFDMEFEEIAYKSGDINLYGWYIKKEDAKKTIIINHGRKNNRIFCLKFLQLFIDMQLDEEYNIFIPDLRNSGKSDEAKTAFGYRFSVDIKNTMLMLNEKFNTKDFILYGFSQGGMGSALVPYLYEKELNEKDIIISKIILDSPVSNVKETILYHALFLGFKIPYAIMSFPLARFNFRIDGKLNELRLSKILGKVPTLILQSEKDETTPYDMVNEEYKIIKNKNVEDPSVIKPIFKAFRKGQHVRIYLQYKWEYTYTIQNFLNLSFNKD;locus_tag=LOCUS_14120;note=MGA_1425
sequence1	MetaGeneAnnotator	CDS	1525763	1526899	.	-	0	ID=MGA_1426;product=nucleotidyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902445.1;translation=MKDKVVGVVAEFNPFHNGHKYQINEISKQAPLIKIGVISGNFVQRGEVSIINKFEKTKIALEEGYDILVELPVYYSIQNADIFCEYSVKILNELGTNIQVFGIETDNFDEIYMIKDLQKEKEYNEKLRESIRRGNSYIKSHELVLNEYGFNDVYKSNNILALSYIKSIERNSFDISAYGLKRIGSGYNDMESNDNIASATMIRKHIDSDVSKFVPKSCLPYLTNRKIDVDKKIFDMFKYVFSVKTKIELMKIYDFNDSMYNRVEKCLKKSTNMEEFLSFYVSRNFSSARIKRVILNILLNIEKKDISLDKDVEYIRVLGINEKGAKYIKKLNNPKIFVNWKDIEKNIDISLIKIEKNAFILHEIITGDKENLNVYYMR;locus_tag=LOCUS_14130;note=WP_005902445.1 nucleotidyltransferase family protein (Fusobacterium nucleatum) [pid:36.0%25%2C q_cov:94.7%25%2C s_cov:92.4%25%2C Eval:3.6e-54],MGA_1426
sequence1	MetaGeneAnnotator	CDS	1526907	1527950	.	-	0	ID=MGA_1427;product=NADPH dehydrogenase NamA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010966504.1;translation=MKLLEKYVLGNLELKNRIVMPPMDVYEAEDGYVNEFHLAHYGARAIGNVGLIIQEVTSVRKDGRISEQDLGIWSDDHIEGLKKLVDTVHKLGSKIGVQIGDAGRKGLVKNADILSSSDISFSDYFPKPRKMEKEDILSLINDFKLAAKRAQVAGYDYLELHAAHGYLINQFLSSFSNNREDEYGGNLKNRAKLLGEILNEVRKEFKGVIGIRISAYEWAEGGYLPEDLAKVLIDFKHNIDIIHVSSGGTVNEGILSFYPGYQLSFAKTIKEIVGLPVIAVGQIDSFDLAEFAIRDLGIDLIAAGRALLRNPNWIIDEAFKNNIDISSRKSIKRAYYRERFVEKNLKK;locus_tag=LOCUS_14140;gene=namA;EC_number=1.6.99.1;note=WP_010966504.1 NADPH dehydrogenase NamA (Clostridium) [pid:44.0%25%2C q_cov:96.5%25%2C s_cov:99.7%25%2C Eval:4.0e-73],MGA_1427
sequence1	MetaGeneAnnotator	CDS	1528045	1531095	.	+	0	ID=MGA_1428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEYILGIYKNGKFFKEVKLNKKNDKYIYKWAKVDVASYFFTITKVDNNERENFNITYNHTSPFASEFRAYADSKSTPKSIAGIQSGIDILVEFNPQDFSFLLQKKRFIKFNIDISKFGLSNPKVFEISGDFNNWHPETEPINHIKDNMYEVILNVENGFYEYKFLIDHKWYPEKNEILVVGENGNLFPKGILGSGNFINEISKNINTGSKITAILHDAKKLIYFNKITEKEFEISIRTQKSDVERVYISVIPYTKDGKGLNRIYELERYIDYTNSFDYFKRMLTFSEDVESFEYFFILEDGGIKNYYGVNGLEEELSKPLIYSKKENEDIFYIPYWSREAIWYNIFPDRFYNGDMYNDPIFNEFGPEKFKKNSNHESKFVKDYRWNSNECALEFERNRWCSDFSERTNWEIHMESNIDYSLKYARMYGGDLKGIKEKIPYLKKLGVNAVWLNPVFYSFQNHKYGANDFRHISPDLGTIRTSGKLHDVYIDPKNRYGNKSYLDVLGKDSVNNSELELLEVNLIGENKGKNGYFETDDPSSWVWTESDLIMVDLIKELHKNGIRVIFDAVFNHSSNYNFAFNLALAEGKNSKYTNWYKFNDYSNYKEVTEDMSEEEAYNTVNLNRTNLKYNGWAGFDTLPVFDSFNEDWKDYIFNITRKWMLGPDGKEHSNWQEDDGIDGWRLDVPNNLENQMFWKEWRHVVKKCKKEAYITAELWSNAGDDINSGDKFDAVMNYEWLKAVIGYFINQGKDFNESYKLSAEQFLLELREKRTWYPLQSVQACQNLNGSHDTDRLYSRIINDKIGRNLEEGKQYEKGYNIIRPDLARNYHPNTTIDWKNYHIKPKDILKLISIFQMTYIGAPMLYYGDEVGMWGATDPYCRKPMLWDEFWYDNEKNTSYVNNGEIYSQKPDMDLFEWYRKIIKIRKEHKSLVYGRIKQVYFDNEKDIIAYERYDKEESIIIVLNNSFQDHNDIIITSFHNDKTYLDLLSGKKIKSDINGKMKFDIKAKKGYIFYLSKRE;locus_tag=LOCUS_14150;note=WP_011403141.1 glycoside hydrolase family 13 protein (Salinibacter ruber) [pid:31.6%25%2C q_cov:62.5%25%2C s_cov:88.7%25%2C Eval:9.6e-80%2C partial hit],MGA_1428
sequence1	MetaGeneAnnotator	CDS	1531611	1532171	.	-	0	ID=MGA_1429;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLLILITGLFSFGNSKNKIPTRKFTSVKISGPRYRLEGAFGILSSKENSSYMNNRFISNSISLLSEWKVQVNEKIDATFGPKVTLDFSFSIFKGLYTYKPNLNLGAEANFNYRIKEKMKVYGGVEIGTGVGISIENANIHKTILTTISKISVGVKINDKYNIGVYLGNNIKGMLGIEAGYTF;locus_tag=LOCUS_14160;note=MGA_1429
sequence1	MetaGeneAnnotator	CDS	1532231	1532725	.	-	0	ID=MGA_1430;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLLIISFLGFISFSNNVIGPRYRLEISQGAISGRENEKFRSFEFSSSSISVLPEWKIGINEKFDVTFGPKMTLNVALNHSQFFKPTIRPSLIFGVEADLNYKIRKDIKIYTGIESGIGIGFQIFYEQRGELHFEIPEFTSISKISFGFKIKDKFNIALLYR;locus_tag=LOCUS_14170;note=MGA_1430
sequence1	MetaGeneAnnotator	CDS	1533613	1535160	.	-	0	ID=MGA_1431;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012547588.1;translation=MMKIIKLCREIKVYYIWLLALIFSILEFLIARGIIKLEENFNTKNISFLLLLILLLSLIGYYLNKKIYLKEKEYKQKINTDILTSLTKKEYMKIDEGLDGEIMTLLISDSDIVSKAYISDLTKIVIGILSFIAVTVFGFLTSISLTVFSLILCPVSLLIFKYISDKIEKSWKLRQESQEDSQQILQEIFVNKIHLKILKSENFAIKLLKERYVKFLDSNYENSKLQWQLYTLSMLSGLLFDSLNLMFSFYLILNNKLTIGGFIGFSLLIRNFTWIFYELPNNLVKIKQAIVSFERINEFIHIENIDEFKVNNISSIKLENITFSYIEGEEVLKDISFEVNGEKSKISILGKSGSGKSTLLKILLGLYKPNKGNIFINDKKVDILPKNIFNYVPQKIELFPFSIKENILMGRNISEEKLNEIIEKTNLKEFIDEKGLDYEIKLNEDINLSSGQIQKIGIARALIEDKILIFDEPFANVDNETEDKISKLLYKINLPVILISHRDSKFIQHSKNILL;locus_tag=LOCUS_14180;note=WP_012547588.1 ABC transporter ATP-binding protein (Dictyoglomus thermophilum) [pid:25.2%25%2C q_cov:98.4%25%2C s_cov:89.9%25%2C Eval:3.0e-36],MGA_1431
sequence1	MetaGeneAnnotator	CDS	1535157	1536731	.	-	0	ID=MGA_1432;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003570739.1;translation=MQKNILKLIDKKIFFLLVIFRLILSLHNAVVSYLMKVILDEIFNKNVKTINIIFLIIIVITLFHAYIYYIYSISLEKMKKKLMENITFNIVNKYLRNSNDDFNLGNFTTLINEDVYNLSDYLMYGFFPILDFSIMLIVGFVYISFFSFKALFLYLFIGLIFLYYSKKNYNIAYVQNTGYYEKEDKHKAYFESLIKNIPILQVYNILKWTLSKHNLIYKEKMKEYDRVASSFSKMDNFLTSGIYFVQILTFILGIHLVSTKELTLAEMISIWNIGVGSIIYVFIDLFPIVDYMIIQKTSIERIEKHIFLKDENDIENICFSDDVEGIKGENINFSYDDKNVLENLSFNFPNKRISYILGENGSGKSTLLKLLLNELKLNSGKIYTNIHNLKFTFISQKNTLFTTSIYENICLGKKLPKEKLYYLLEKLNLLEVIDKLPNGLNSIYNEEINLSGGEIRRIAIARAILNDFDYIILDEPFSDLDKVNQDLIMEYLLELKKEKGIIIITHTTDMILESDNVLRLGDSK;locus_tag=LOCUS_14190;note=WP_003570739.1 ABC transporter ATP-binding protein (Lacticaseibacillus paracasei) [pid:25.1%25%2C q_cov:96.6%25%2C s_cov:96.1%25%2C Eval:9.0e-57],MGA_1432
sequence1	MetaGeneAnnotator	CDS	1536800	1537549	.	-	0	ID=MGA_1433;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKIYTRYSFQNIILFDIYKMIIKFRKLYFDLKFTYIKYRESKDHLRIRFYVRKEDKYKILEKIVNSINEILHIDFFEIVPFYQEKLKYNIDSYELYKEYIKIESELIVNILEKQSKEKKYILYFIIIRTTEIFNMQNEYEYVVSNLLRFKNIREKTNRDKKVIISKIKELKDNTLKGVELEKLYVDWEQSLYNYVYSLNDISYSKKYDILRNIIHIQINRFYGIDRNLEEEILEVVFILLKFIINKQGE;locus_tag=LOCUS_14200;note=MGA_1433
sequence1	MetaGeneAnnotator	CDS	1537722	1539044	.	-	0	ID=MGA_1434;product=PTS galactitol transporter subunit IIC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003731941.1;translation=MSEIVKYILGISPSILLPIIIIIMSLFMKMKLKDALMSGITLAIAFTSISLVIGFMFNTISPVAQRFVEYTSIKLDIIDVGFSPMVTISFAWKFMIIMFPLQIILNILMIHFNFTNVLNVDIFNIWTKVFTAAIVSVVSKSIIFGFIASIIQILLELKISEKIRPRVEQMTGIVATTITHVSIIQCLIMYTINNLLDKVSFIRNTKLDIGYLKNRIGVFGEDSVMGFLIGMILSIFSGYSLIEGLEISVKLASALVLLPIIANMFVKALNPVSEVAKNFMKSKYKDRDIVIGLEWTILGSIAELWIVSVLLIPITLILALLFSKLGFSSILPLAGIINPMIVVPALIISNRNLLKMLILGIIITPIYLMVSTNIAPAITELSKSISVNGGQLISYYSFESPYFRWTLIKLFEFKVYGIVSSLILILLFMYFYKNFVNKKI;locus_tag=LOCUS_14210;note=WP_003731941.1 PTS galactitol transporter subunit IIC (Listeria monocytogenes) [pid:38.2%25%2C q_cov:95.0%25%2C s_cov:92.9%25%2C Eval:8.0e-88],MGA_1434
sequence1	MetaGeneAnnotator	CDS	1539060	1539893	.	-	0	ID=MGA_1435;product=Cof-type HAD-IIB family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000593336.1;translation=MKDKIKLIAIDFDGTFLDDSHFKQDLSYVDKLREKNLNQEIVFASGRATAGIVELIKRLKMTDIVRYIIGHNGAEIFDLKENKIIYQECMEDDVVFNIIEILEKNGFNNPLSIHDWNKFYTYKNSEEYEKMIELEQRVNFVDLINIDDVKYFPENKIKLMIFTKDKAEQEGIYNLISSEFNDKVTQARSAVFLNELTKKGINKAKGLEFLCSKLDIDLNEVLAFGNAENDIDMLLKVGYGFAMKNSEEILLEKIKRVTKYTNNEFGVEREIIDFLGI;locus_tag=LOCUS_14220;note=WP_000593336.1 Cof-type HAD-IIB family hydrolase (Streptococcus) [pid:29.5%25%2C q_cov:97.5%25%2C s_cov:98.5%25%2C Eval:7.4e-21],MGA_1435
sequence1	MetaGeneAnnotator	CDS	1539883	1540851	.	-	0	ID=MGA_1436;product=prolyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011816174.1;translation=MIKEIIGLDISNPLTLQNHEYDEKGYYLENDGHEIYYEISGNEKGIPVVFVHGGPGAPMGDYAKRFFNKDKYRIIVIDQRGCGKSKPFAKIEGNNTFALIDDMEKIREKLNIEKWVVFGGSWGSTLSLVYAINHPERVLKLVLRGIFLARSEDVDWLYKEGASYIYPVEFEKFLSPLTIEERENPVKSYLKYLQMDLEIAKKYAKVWSDWEHSCVRLIRKDNLSEISQSDISMAIIECTYFNNNSFLPTDKYILENSYKIKDLEIDIVHGRYDVDCRLIGAYELYKNLNNARLYIIQDAGHSSLEKGITHKLMEIMEEYSER;locus_tag=LOCUS_14230;gene=pip;EC_number=3.4.11.5;note=WP_011816174.1 prolyl aminopeptidase (Yersinia enterocolitica) [pid:40.7%25%2C q_cov:94.4%25%2C s_cov:96.5%25%2C Eval:2.6e-71],MGA_1436
sequence1	MetaGeneAnnotator	CDS	1540848	1541837	.	-	0	ID=MGA_1437;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010989346.1;translation=MDIRRPKIEGYKIGNLSPNVKFTKELKIKENEKRGEKTFSTSLEKMRSEMWFPNIDITKTHIKNEIQKIDGIRVIKYSKDIEDKEKLIIFFHGGGYYGGSTDTIQNTCRYIVEQTGATVISVDYSLAPEFPYPTSINEGYAILKHFSNRYESIYLGGDSAGGGLACSVCIKDIEEGSKIADGLIMYYPVLLIDLKYNCREDFTWDIKEYDIDETSPDSGLMKSEATGLKYAMPYIKDMYIKTNEPKDNYYISQINAPDSLLKQFPKTLIFTSEYDYLRLEAEYFHKRLKENGIKSVGIRYAGEVHAFIDKIGFNDNVIDSVDEIKEFIK;locus_tag=LOCUS_14240;note=WP_010989346.1 alpha/beta hydrolase (Listeria monocytogenes) [pid:31.8%25%2C q_cov:86.6%25%2C s_cov:77.9%25%2C Eval:3.5e-31],MGA_1437
sequence1	MetaGeneAnnotator	CDS	1541828	1542295	.	-	0	ID=MGA_1438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNKDKENIFALLSGLKMAEINNNVVQKEFCAALLYKYQQENIDIYEFVGKNEIEESINEGVALFVKRKRKYFIKKTIFNMFTGMSAGLFAHLYLRLSIAKSLMVFLVAFLIDTFIKLKVSKIVFVSETRKEYSKFVDNKLLHIRESEDVSKLWI;locus_tag=LOCUS_14250;note=MGA_1438
sequence1	MetaGeneAnnotator	CDS	1542305	1542835	.	-	0	ID=MGA_1439;product=ComEA family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029495314.1;translation=MKKLKYILSILLFLFLFNIIKNIFGIDEIGNRPNVEINDELIFQYENEEEKKLDINTASFDDIVYSGLSSKLGYKIIEYRDFVGYIDNLENLVRIRGINKSNIDKLRKNFYVEEISDKKYMKYNINDLDESSLYTLGFSKKEIKSIIDIRNFKKIRSELDLKDKVNMEIINKHIRF;locus_tag=LOCUS_14260;note=WP_029495314.1 ComEA family DNA-binding protein (Fusobacterium hwasookii) [pid:35.8%25%2C q_cov:88.1%25%2C s_cov:83.5%25%2C Eval:5.0e-14],MGA_1439
sequence1	MetaGeneAnnotator	CDS	1542832	1544205	.	-	0	ID=MGA_1440;product=coproporphyrinogen III oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015707.1;translation=MKIISNYEINENKWKEFIYVFFKDNNDEVFIEVKDFGDSIYINAKNDSNIVEYSVLKMIDNQIEVMLKSSLLRLYNINVPWGSLVGVRPTKLVRKLLKNNSFDNILKILQEIYLVSYEKATLLLEVVKNSIDFLDDKTIGIYIGLAFCPTKCTYCSFPAYLKKGKYEKRYDEYFLTLLREIKEIGNLCSELNLEVNSIYVGGGTPSYLTHDELEILLKTINENIETKFLKEYTFEAGRIDTIDNLKLSMLKIYNVTRISINPQSFKDSTLKLVNRYHNLDKLNEVYTEAKKLSLDINMDFIIGLPLESTEDVLNTLEQFRKYNPENVTFHYLAMKKASTLTKNKYFKEDLLNHELITKKISEIMNEKGYIPYYMYRQKSSSISGENIGYCKSGKQLIYNIEMIEEYKSIISIGAGAITKLIKDDLIKRLINPKDPLMWLDEFEDRLNEKKIEIRGFM;locus_tag=LOCUS_14270;note=WP_011015707.1 coproporphyrinogen III oxidase (Fusobacterium nucleatum) [pid:43.6%25%2C q_cov:98.2%25%2C s_cov:98.1%25%2C Eval:7.2e-100],MGA_1440
sequence1	MetaGeneAnnotator	CDS	1544208	1545014	.	-	0	ID=MGA_1441;product=undecaprenyl-diphosphate phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_009905410.1;translation=MLLDILKVFILSLIEAFTEFIPVSSTGHMIIADKYINLSSNKEFVTAFQVIIQLGAILAVVVIFFKKLYPFIYKGDERKELLELWSKIIVAVLPAVILGLAFDDYIEKHFFNTSIVAIMLLIYGILLIVIENKGRKSKINDISKLTYTMAVGIGMFQCLAMIPGTSRSAATIIGAMFLGLNRIIATEFSFFLAIPTMLGATTLKLIKIGSSLSTYELFLIFLGLVFTFIMSLMIINSFLKYIKNHDFKIFGYYRIIIALIILLDIYVW;locus_tag=LOCUS_14280;EC_number=3.6.1.27;note=WP_009905410.1 undecaprenyl-diphosphate phosphatase (Clostridioides difficile) [pid:48.7%25%2C q_cov:97.4%25%2C s_cov:96.0%25%2C Eval:7.2e-74],MGA_1441
sequence1	MetaGeneAnnotator	CDS	1545122	1551358	.	-	0	ID=MGA_1442;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIEIKKFLKSSLKNKVSINEKMVLRYLLIGIAGLSAMSYGAYLAIDDTKGTVGAAKDPNGEYNDKSNVILAKYESKNNTSSSVVIGAGGKTYAKGSENVVIGFNAKSDKQQSVVIGANTKTDLQNSVILGNNSYVYKDHFNIGNGVEENDGQGVAVGNSVFATGQATSIGNNTYAIGRSSIAIGNDDISAYETKVTQHDYDSYFKKLYEKIDNKGDLYGYGTKTNADKHKYSPTLAQGHGSIAIGSRSIAYANGSTALGTLAYALKDGSTAVGTLTRAEGEGAIALGRETNVFANNAIASGNKTLVLEEGGAAYGLSAISGGKNSIAIGTDVYANVEYDYDSKIKLKNSSTSVNGKETITSLFGNIADYSSEDSKEEMRGLYGFDLNGVAKTLIGLGEADAPDKITGAKKGEYLKSGEYFLNYKNYIEGIENGLTNAYDKDNDTNKTNSIKIKTQTKNGVENIAKSSGKNAIVIGSKSGAFGDNGIALGRGSFSLKDNSISIGSYSYTKEKNSIALGIASRALAEGSVTFGNGAGVDVNGKNSMVYGHGSVAYAPNSIILGINSRVWGTKNDGDSIIIGNDANVSELKENSTVVEGHNGKSVLALGNKTNATLDNSVALGYLSATDYHKSDLDKPGYTAKGSYSIPTSSKVGVISVGKKGHERRIINVASGYRDSDAVNVAQLKTLEDRLDGATEEVDDKVRYLSINNGNDLDKIVRKRIDYKNYVKLKAQMLTIEARKENGETINDANVKGLKDKLDELEKNEEIKDKATSLNALNKNDQKYKNNGNFNIDKYMEDLEKAKQEDSSETKVDNILTDDEKKRIEEENYSNKGAKAKNSIAIGHKAKVEANAENAIAIGIGAVATKKDSIVLGSESKETANTDNSGYDITTQKSSTLMDAKWKPTHGELAIGDGVNKTRRITGVAAGYEDTDVVNVAQLKQVSSGLLKDKDLIFAGNDSKEVKVGLGEKLNIIGEGSFNEGTAKDNIKIIKTADDTLTIGLAEDLKDINKITTKTNTNGQKSILSTEGLKVTGKDSKETSVTSENIEVKNSADKTILSASGLKITDKDGKDTDKSNILTKTSITLKDKSNNKEVTNTITADKSEITNNTGDKTTITADKITVANGTDKVEITKNSLLGATTIGKDADNSLIFGSGTTDNTTTKLKVGGKELTFTKAGEHIKISNVANGKDDNDAVNVSQLKEYVKVLGGNAKFENGNLTAPTYMLKAGEAAPKSYNTVGDALNALDNAIGTSTKNIADLTNKQISFQGNDGDANKVSKKLGETLKIQGEGTVNGATAKDNIKVTKNATDDGLDIKLAENLKNLNSIETKDNNGNKTKVDTNGVEVTSNDNKANLTADKLTFGPKETTSADKTSTEVGKEGITLKGKDGNESVSIKTENNAGTITVKDKDGKDTIKINGEKGSITGLKDISPNEKDGSIAVNKNYVDSQIKAIANGPFEYETSDGEKVVRGQDNKLYKESELKDYYYDEATSKYKHKTNGMNNQEPKALENKDVTVNVMPKNGTPISIGNVASILGEEATKTSDKAAEKVKELIGNSDNSKNKVATGTDVLALAMAGINFSGNEGSGEKIHRNIGEQVTIKGEGTDSKDDFTSASGNIQVKSDKDKGELTVKLSDKLTNMTSFETKELDDNGNKSKVKLDKEGLTTINKTDDNKYIMSKTGPNGTEIGKYDVNPLEKSNNNAQPTTSAKYTLEGTTIKDDKGSSNLTSNTLTLKDKDDKQRITLDNKGDTPTISLSNKEGEETVKIDGGNGKDKESSISFKVDNDKGLGVVKGLRDLTDNDPGHYAVNKRYVDNKLNGALGGVANAIAVASIPQINGKGHNIGASYGYYEGHSAFALGLSGINERGNVLYKANLSLNTRGNVGIGAGIGYQFGGDDVRREEVIIENNPSNDIRDRLIEQNEKLINQNKKLEEDNDRLRRENDRIGDEIKELRERIKAIEKIKMNEDDLYTLDGYRLGIHELTSSQEEMLMNIVRELNENYKNRKIYITGYTDNVSGEDLNLELGLKRANVVAKKLRELGLDMSISIRKVSSSGYNNIVETNKSSSGRSSNRRVEIELR;locus_tag=LOCUS_14290;note=WP_052728129.1 YadA-like family protein (Escherichia fergusonii) [pid:22.5%25%2C q_cov:60.6%25%2C s_cov:71.4%25%2C Eval:3.4e-34%2C partial hit],MGA_1442
sequence1	MetaGeneAnnotator	CDS	1552041	1552442	.	+	0	ID=MGA_1443;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVVRIRGIIEALVVCVGSKGIRYYQITAIDEYSRKRVLKVVKEKSTYETSKYIKELERAIGFKIETIQVDNGYEFVNDKDVTDREDGKILYSRKEFRSEEELIENVKRHERLYNNTAKTVLNFKSPNEVVRE;locus_tag=LOCUS_14300;note=MGA_1443
sequence1	MetaGeneAnnotator	CDS	1552628	1552756	.	-	0	ID=MGA_1444;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRENISEVKRFEIQIYTEDFKNDYISLMDIARYKNIHEPKDS;locus_tag=LOCUS_14310;note=MGA_1444
sequence1	MetaGeneAnnotator	CDS	1553461	1555014	.	-	0	ID=MGA_1445;product=cardiolipin synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002262851.1;translation=MSKIKEKSKKSIVKLIFSRTLIVTVLLLIEIALILASIIWLGNNVYLLIGGGRLTSFVMIIYLINNRQNSNVKLVWIILILLVPFFGICLYWFIKFDFGSRMMKNRIVEIQNQTKNVLVQKQEIINNLRENKLFELRNIAKYIKKTGGYNIYQDSEIKYYSLGEYMFFDMLIALKNATKFIFLEYFIIEHGKMWDSILEILKQKVLEGVEVRVMYDGTCEYSTLDRDYPRELMIDGIKAQAFSPVKPFVSTHYNNRNHRKIMVIDGEIAFTGGVNLADEYINEVSKFGHWKDTGIRIMGDGVKPLTLMFLQSWNIFDYGSNDYSKYVNVSHDIKNDGYIIAYGDEPFDDELLGQNIYIDILNNAKEYVYIMTPYLIIDNEMLAAIKLAAIKGVDVKIILPHIADKEMPFALAHNHYSELIDSGVKVYEYTPGFVHGKMFVSDDIKAVVGTINLDYRSLYHHFENAVYMYNVDAIKDIKNDFIETFKKSQIFTNRDLKEDKLLRKLIGKLMKIFAPLI;locus_tag=LOCUS_14320;gene=cls;note=WP_002262851.1 cardiolipin synthase (Streptococcus mutans) [pid:48.2%25%2C q_cov:99.0%25%2C s_cov:99.8%25%2C Eval:1.2e-138],MGA_1445
sequence1	MetaGeneAnnotator	CDS	1555150	1555497	.	-	0	ID=MGA_1446;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLETYKGLTKIDDFFKILEIEEEHINADFLINFISLIMMRLLQNIIKEDMSSQKIQEALREFKCINVDNYCVFKKNKNDNIKIVLDVLGIENELKAQDVEILKKNMRFTLSNISR;locus_tag=LOCUS_14330;note=MGA_1446
sequence1	MetaGeneAnnotator	CDS	1556203	1556394	.	-	0	ID=MGA_1447;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLEKRKVGNNIYLMLVKNGVKKAKKDLVASLGNISNYDNGDPNFFEKLRDNFKRGIALIPEL;locus_tag=LOCUS_14340;note=MGA_1447
sequence1	MetaGeneAnnotator	CDS	1556689	1558542	.	-	0	ID=MGA_1448;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002387067.1;translation=MSSREIGKITSVGIHGVIADVNSDLGNYINTIDGILFVGEVGSYVSIYEIGRTVIAEIIGVDEKTQLINSREMIKPNSKRQVYLNLIGEIVEDKFQFGVSKMPLIFSTVYIVSQKELITMLEVGKEEIKISEESNKTRAILLTIGKSVIFPDYDVKINIDKFFGFHFAVFGNTGAGKSNTVARILQNVFVKDHYSAKGAKFVIIDSNGEYNKAFSKLNEINQDIKHSLMIADEDIDSKFEIPVWALSADDWATLLHASEKTQMPVLKRAIDIARVFYSSDETNQELRNHILASTLLGIIQSSDSSPSKSDKLKAIVTKFGTNEIKMDSVLSNSKTLRQSMNINYGSMPDEEAVISFLSNHLNQELITENITRSMVPYSLEDFSQAVEFATLYEGSISSQRIQEYTATLMTRLNTIQEGIQGRILSRTTYNTIDDYIDMLLGENQIVDLDISTLDDASAEVVTKVLAKLLLDYLKRREIKADSPINFIIEEAHRFIKNEANYGAVGYNIFERIAKEGRKFGMLLGISSQRPSELSKTVVSQCSNFIVHRVQNPDDLQYISRMVPYINQNMIERLTYLQTGNALVFGSAINLPTLTKFAQANPTTDSDNAKISEKWYIE;locus_tag=LOCUS_14350;note=WP_002387067.1 ATP-binding protein (Enterococcus) [pid:25.1%25%2C q_cov:88.0%25%2C s_cov:86.1%25%2C Eval:9.4e-32],MGA_1448
sequence1	MetaGeneAnnotator	CDS	1558535	1559674	.	-	0	ID=MGA_1449;product=SIR2 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011084727.1;translation=MEGEKNISYFKGKNETKVDLDYVKNEMAQFLQLDNLNFLLGAGCSSHVENDVEYGIPGMANLYKGFFEQHRGFDIAGSDAESIFDGNLEKMLETMEAIAVAAIVKQTDNDIEEKICSVQKYIRNKIIEGLHGKEVLSFYRNFYIKTVTHGRKHPINIFTTNYDLYNEQALDSLSFPYNNGFIGTYKRSFNPASYKYAYVEDMNLSNNIWERVPNFYNLYKIHGSISWVKNENNINEIDYKHISEDDTVMIYPTPLKDRTTLMTPYSDLFRAMETALLKKNSVLITLGYSFADDHINRIILNSLAIPTFKLVIFGQSDSISRLIEMDDSRIIVINSQDKIHYFKNFVEKAMPDVQADVKEQIDLPVVTELIKAFEGVKHE;locus_tag=LOCUS_14360;note=WP_011084727.1 SIR2 family protein (Bradyrhizobium) [pid:27.2%25%2C q_cov:79.9%25%2C s_cov:76.5%25%2C Eval:8.1e-22],MGA_1449
sequence1	MetaGeneAnnotator	CDS	1559714	1561969	.	-	0	ID=MGA_1450;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIDIKLKNFQENAVDFLFSKTTDSNSKPKIVMQSPTGSGKTIILVAYIEKYLDFHRDSVVCWFCPGKGELEEQSKEKMERFAPTLKTGNVFDILNTGFESATTYFINWETITKKDNTAIRDSERKNLFERISEAHNRNLNFIVIIDEEHQNNTSKAEDIISSINAKYEIRVSATPNKRVVGEFYEIPEIDVINEGLTTRFMYINDGLDTAHVENILHETDILLEKADEVRKKISRAYIDEKEDIRPLVLVQFPNLNDDLIEHVEEKLNLMGYSYENKLLASWFSAENKEEKNRKSKKLGKINIGTTDADSITKSNATPVFLLFKQALATGWDCPRAKILVKLRENMSETFEIQTLGRLRRMPKAKHYGREILDCSYLYTFDEKYKLEVIKAGNGFETQRVFLKEEPKKIKLVKETRNLDGSYIDEQAIRNRVYEFFKNKYHLSNTKADNIKLLENNGFIFGTALSRRYLTGKYITLMEVREEEANYNAMSIEANTHTHGIELQHNVDAIKKHVGLAYNKTSQILKTLFLKGFGNNRYKLLNLTLREYYAFIINNADFLKRDFIEFSGQRQDQLVFLENKTEEFKIPEEEHYRCVPFERYVKELESNVYKGYNTSMITDDFRSTSERLFEKYCEKNENVKYVYKNGDSGQQYLSIVYGTNFDKQRLFYPDYIVQLKDETIWLIETKGGEKQGQSKNIDVQIENKFEVFKQFANKHNYSFGFVRDKNDELYLNNTEYMDDMNDNSWVLLEEKF;locus_tag=LOCUS_14370;note=WP_011202292.1 DEAD/DEAH box helicase family protein (Bacteroides fragilis) [pid:28.7%25%2C q_cov:55.9%25%2C s_cov:55.3%25%2C Eval:4.9e-38%2C partial hit],MGA_1450
sequence1	MetaGeneAnnotator	CDS	1561966	1563552	.	-	0	ID=MGA_1451;product=site-specific DNA-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011202294.1;translation=MANLSKIRREKMLEYLEKLKGINNDDENIRAITEIENALNEKKYGLVWEEHSEKVDEMLEHNIPIFIEDETRKITANEDEAYNFLLEGDNLHSLKLLEKTHKGKIDVIYIDPPYNTGNKDFIYDDCFVDKTDGYSHSKWLSFMEKRLLIARELLSDEGVIFISIDDNEQAQLRLLCDSVFGEDNFIGEYIKQSKVGGGNDSKFIVKEHEYCKCYAKNINATRPMNIKHNAEYLKRYKEEDSDGKYFWDTFARPGLKNPIIYDIVAPDGSVINNGWIRSKERFDKEYAEGKIRLLKKKNGQWSVQFKQYLNMDGKTPRSMTMDFGGTTDGDSELKNIFGKKIFNYPKSIKYLKTLLSTINNKEVIVLDFFAGSGTTGHAVMQLNKEDGGNRKYILCTNNENNICEEVTYQRLKNIQEDLPHNLKYYKTEFIPKFSDEEDSISDKMMEHIRELIELEYAIELDGEKYIVLNDEDELDVSISKIENYGKLFVRSGIFLSRSNQRILEEKGVGIIEIPEYYFREELKEVGEL;locus_tag=LOCUS_14380;note=WP_011202294.1 site-specific DNA-methyltransferase (Bacteroides fragilis) [pid:41.8%25%2C q_cov:84.8%25%2C s_cov:76.4%25%2C Eval:4.8e-90],MGA_1451
sequence1	MetaGeneAnnotator	CDS	1563750	1564148	.	-	0	ID=MGA_1452;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSTVLKSDIAVDVSIKIMDAFMEIRNFLLSNREMFARLDRVELKQLETDKKLEEVFNYIGANTEVKQNIFFDGQIYDAFSFIVGLVKKANKEIILIDNYVDINTLNILCKKNQGVNVVIATAGKGAYQQKI;locus_tag=LOCUS_14390;note=WP_005648596.1 RhuM family protein (Bacteroidales) [pid:33.7%25%2C q_cov:74.2%25%2C s_cov:34.4%25%2C Eval:8.7e-10%2C partial hit],frameshifted%2C insertion/deletion at around 1563782,MGA_1452
sequence1	MetaGeneAnnotator	CDS	1564221	1564442	.	-	0	ID=MGA_1453;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIEDKNIVIAQNREIQNMIYTIRGKQVMVDSDLAELYQVTTGRLNEQVKRNLNRFPSRFMFQLTDDEYKSLIS;locus_tag=LOCUS_14400;note=WP_011107089.1 ORF6N domain-containing protein (Bacteroidales) [pid:61.0%25%2C q_cov:80.8%25%2C s_cov:35.1%25%2C Eval:5.0e-13%2C partial hit],internal stop codon at [1564221:1564223](-),MGA_1453
sequence1	MetaGeneAnnotator	CDS	1564497	1564706	.	-	0	ID=MGA_1454;product=helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_012870276.1;translation=MKVSYNGLWKILIDKNMNKKDLANACELSPATISKMGRGEFVSMDVLYRIGTKLGVDFGDMVSIIEQKK;locus_tag=LOCUS_14410;note=WP_012870276.1 helix-turn-helix transcriptional regulator (Thermanaerovibrio acidaminovorans) [pid:53.8%25%2C q_cov:94.2%25%2C s_cov:89.0%25%2C Eval:1.5e-14],MGA_1454
sequence1	MetaGeneAnnotator	CDS	1564818	1565033	.	-	0	ID=MGA_1455;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKILFFTEKAFSLRDLYITLFAATNKLNQIAKRVNQTGVIYENDIDDMKKSIEKFSKEQGVIHSLLLKRKK;locus_tag=LOCUS_14420;note=WP_011860794.1 plasmid mobilization relaxosome protein MobC (Bacillota) [pid:67.9%25%2C q_cov:78.9%25%2C s_cov:48.3%25%2C Eval:3.0e-13%2C partial hit],MGA_1455
sequence1	MetaGeneAnnotator	CDS	1565407	1566945	.	-	0	ID=MGA_1456;product=glutamine-hydrolyzing GMP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017155.1;translation=MLKRKKIIVIDFGSQYSQIIARRIREMEVYCEMVREFDFNNLEDVIGIIFSGGPSSVYLENSPTIDKKIFDLGIPILGICYGLQLITHLNGGKVEAAQEREFGRALLQVMEKENPLFIDVPKEVNIWMSHNDHITEIAKGFRVIAKTDSSIAAIANNNNVYGLQFHPEVSHSEFGKKMIENFIFNICKAEKNFIITNFIEEKIKQIKETVGDKKVMLGLSGGVDSSVAAVLINKAIGDNLICVFVDTGLLRYDEANRVYDYYKSNFNLNIVKVDAGDRFLSKLKGVDEPEAKRKIIGKEFVEVFNEEAAKLKGGKDVEFLAQGTIYPDVIESQAVEGVSHTIKSHHNVGGLPEEMTFKLLEPLRELFKDEVRQVGKEMGMPESIVNRHPFPGPGLGIRVIGEVTKEKVNILQEADEIFINELMKDGLYHSVSQAFVTLLPVKTVGVMGDVRTYEYVAAIRSVDTIDFMTATWSKLPYEFLEKVSNMIVNQVNGINRVVYDISSKPASTIEWE;locus_tag=LOCUS_14430;gene=guaA;EC_number=6.3.5.2;note=WP_011017155.1 glutamine-hydrolyzing GMP synthase (Fusobacterium nucleatum) [pid:64.5%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:1.9e-192],MGA_1456
sequence1	MetaGeneAnnotator	CDS	1566939	1568429	.	-	0	ID=MGA_1457;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNEFCFLGDREYEIVYFTSIEQSYEDLIKASKIKKKILFHIKDVIIDPKFLSYMLKLFRCSIKNDFEIFFIIKNKNIIEDINLFESKRYFKIFDSIEEYNELKIFAGYEVKIYDDNNNVKNLLKDELIKNGFGIKDRNSFNFLNKKHDSRSNSIYIIDFSSYQEEKIEEIKKIKKENPNSMVILITFETDIDNALNTMKYGVNRVVKRPVDIKSLVGTIKSLATAAELKKENDRLVSEVFNREKEIRKLYNEVSEELKLAGDIQKSLMPPKKIDFGEYTCEYFFEPSMNIGGDFCDFIELNDEEFAIVFADISGHGIPASLLSTMLKVLIYNNAKKVDKVTELMEILNEEIINIFPKGKFVSMFYLVINTKTNRLRYAKASQEPALMYNKEKDEVIELESEGQILGLFSKKLFPILSFEEKEIDFNVGDKILLYTDGITEEIDDNGNYYGLERLKSQVKKLDLNMIIQDLKDFVGKKPFNDDVTLLKIKRRGEETC;locus_tag=LOCUS_14440;note=WP_011203082.1 SpoIIE family protein phosphatase (Bacteroides fragilis) [pid:25.7%25%2C q_cov:71.2%25%2C s_cov:90.0%25%2C Eval:2.7e-31%2C partial hit],MGA_1457
sequence1	MetaGeneAnnotator	CDS	1568796	1569269	.	-	0	ID=MGA_1458;product=redoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005652758.1;translation=MKKILAMFLLMLSTTFSFSGSLDYISFKDQAGQVKKISDYKGKTYIKMWASWCHICLATMPHTVELSKEKNLGFNVISVVSPGRNGELKENDFKKWFKDTGWTELTTLMDDKGELIKRARLRVYPTNVFLDSRGNIAKVIIGAMSSKRIKEEMSKIN;locus_tag=LOCUS_14450;note=WP_005652758.1 redoxin family protein (Haemophilus) [pid:43.0%25%2C q_cov:95.5%25%2C s_cov:96.8%25%2C Eval:2.9e-30],MGA_1458
sequence1	MetaGeneAnnotator	CDS	1569310	1569978	.	-	0	ID=MGA_1459;product=cytochrome c biogenesis protein CcdA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005628783.1;translation=MFDLSIITIFLSGVLMFFSPCIFPLIPIYFGVLEKDNKKIRNTALFLLGISLTFVILGFGFGLLSDILFNPLIRIIAGIIIIILGLQQLGIFDLAFLEKTKTLQINRKYNNSGLESFMLGATFSLGWTPCIGPILGAVLFLSGDRETAVQGAVLLLIFVLGFSTPFLIFTMFYNKLIKKVEFIKKNLNVIKKISAVLIILMGLLLIFDKLTIIVSYFNKLSM;locus_tag=LOCUS_14460;note=WP_005628783.1 cytochrome c biogenesis protein CcdA (Haemophilus) [pid:51.2%25%2C q_cov:91.4%25%2C s_cov:95.3%25%2C Eval:2.4e-55],MGA_1459
sequence1	Aragorn:1.2.38	tRNA	1570139	1570213	.	-	.	ID=Aragorn_39;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00380;note=Aragorn_39
sequence1	MetaGeneAnnotator	CDS	1570292	1570747	.	-	0	ID=MGA_1460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKSYTVCYLIRDDKILMLYRNKKEVDINKGKWIGVGGKIELGESPHESVKREVTEETGYILNECILRGMLIFVYNGITEYIYVFTSEDFSGEIITCDEGDLKYIPKQEILDLNIWEGDKYFLKDIIDDKKEFFVYRMEYENDKLIDVKKEQ;locus_tag=LOCUS_14470;note=WP_011015830.1 NUDIX domain-containing protein (Fusobacterium nucleatum) [pid:52.8%25%2C q_cov:93.4%25%2C s_cov:56.0%25%2C Eval:6.4e-37%2C partial hit],MGA_1460
sequence1	MetaGeneAnnotator	CDS	1570878	1571150	.	+	0	ID=MGA_1461;product=HPr family phosphocarrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005904300.1;translation=MNKIKVKVLNEQGIHARPSTKICAITNKFSGNVFFRCDGENYDAKNIMTILLIGLEKGREFEIIADSGNEKEEMDLLNSLQRLIEIEQFN;locus_tag=LOCUS_14480;note=WP_005904300.1 HPr family phosphocarrier protein (Fusobacterium nucleatum) [pid:35.6%25%2C q_cov:100.0%25%2C s_cov:97.8%25%2C Eval:9.3e-12],MGA_1461
sequence1	MetaGeneAnnotator	CDS	1571162	1572706	.	+	0	ID=MGA_1462;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNNNFMEMLEEYLPTKEQNLGDKIEGTIIRKDNEFGYLNIQNKLEGRIRVSEIEGFEIGDKVKVLVVKENDEFLIVSKNILEKKEAFSNIKKGDKISGIIKEKIKGGYKVECGLIKAFLPFRSSGLNQQYIPNGELLEFDVTEKNRKEIVISRLEIIKENEKNFLNKLNLGDKITGTISNKLDYGMIIDLGTLSGLLHSSEISWNKEKTLKDFTVGEKIDVKIIELDKETKKIKLSIKQLVENPWLKIREKYHIGQNIDAPVKEVFSFGVVVDLGDREDLIHVSDLYYKKIGNVEKEYKKGDVIFCEVIDINDEKEKIILSARTVFEKIWESLDDFCLLNDIINIKVTRVKDFGFFAKTDENLEIFVPKSEYSWNKADDLNIKVGDSLDVKLIEIKKEDKNLVGSIKRLGKSPYDIASSKFDKNTEYEVEITDILENGVLVRLTDDFKGLIPKKELSKEEIKDIKEHFNVGDKIKAVVFDKNNKNSILLSIKKIEELEEKKELEELMRIYGANN;locus_tag=LOCUS_14490;note=WP_011015822.1 bifunctional 4-hydroxy-3-methylbut-2-enyl diphosphate reductase/30S ribosomal protein S1 (Fusobacterium nucleatum) [pid:29.2%25%2C q_cov:97.7%25%2C s_cov:62.8%25%2C Eval:1.3e-63%2C partial hit],MGA_1462
sequence1	MetaGeneAnnotator	CDS	1572717	1575200	.	+	0	ID=MGA_1463;product=DegV family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015924.1;translation=MGIKYIDAKRLRRILIGGAKWVKKHEDYLNELNVYPVPDGDTGSNMSMTLETMKNDIESSTVKKSSMVEVIDVIEESILMGARGNSGTILSQIITGFLKGIGDKKRLESADLAEALLNAKEVAYKAVDTPVEGTILTVIREVSEKAIEIKDDVESLDKMLEILTSTAEEAVNKTPDLLPKLKEAGVVDSGAMGLYYFFIGISKALTEINEIVSYEATEKTFDSTLRDITHDPAEIKFKYCTEFIIRNADFNIDKFKEDILKLGDSAVFAQTSKKFKIHVHTNNPGQALELAVTHGDLEKIKIENMKLQNEGLLSSEKEQTKIFVNSKPNLSRYSYVILADSLNLKEEFLTLGASVVLLGGQSQNPSVQDILNAIAKINNNKQIVILPNNKNVISTANIAAEKTEKNVLVVPTKTMMEGYYYLNSYFDTLANTKYNAEFNYSIEITKAVRDTNVDGLTINKDDFIALVNTKIAHANKSILELIKEIKEKYINEKTINITIVEGKEKYDDVKASLNIPKSKFINGEQENYNYYIYIENRPDNMPDIAIVTDTGSDLGEEDVKGLPIFITPIRLEANGEHYKDGVDISKDEFWNKLINEDTHFKSAQPSPKELMNLYTHILNRGYKKILTLNISSSMSGTYRTVKMVRANLNKENDIIQIDTQLVSFPLGILVKQAAEKSMLKHSISDIKIWAEKFISKVKTLIVVDDLKYLERGGRITKVARSIGDFLKLKPILTFSQGTLTVEKKVFGENLAISYLEKSIQEVAKKHSIYVYSGFGGSSKQLDNISKILESVKGNHKITIAEKSIQIGATVGAHAGPVYAICMIPKLL;locus_tag=LOCUS_14500;note=WP_011015924.1 DegV family protein (Fusobacterium nucleatum) [pid:42.7%25%2C q_cov:99.6%25%2C s_cov:99.4%25%2C Eval:1.0e-185],MGA_1463
sequence1	MetaGeneAnnotator	CDS	1575200	1576069	.	+	0	ID=MGA_1464;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902040.1;translation=MKKYILNEKAFRLKVSQYLREFHNYSGRSLRSIEVFLDNKQIRTTTKLPKIGILTVIEKEKGSNIVPIKMNLDIVYEDDDLLIVNKEPYLLTHPTLKKVDKTLANGIVYHFIEKYNKNLVPRFISRLDMNTSGLIMIAKNSFSQSFIQSGKANVTKKYLALAENMFEKEEIIVEEKIYKDGDELARIIDDRGQYAKTKFKLIKNYPHLDISLIECELFTGRTHQIRVHLKHLGHPIIGDSLYNPDSIFNKIAKRQMLHSYKLSFTHPSSGKRIDVEIPIYHDMLDILKI;locus_tag=LOCUS_14510;note=WP_005902040.1 RluA family pseudouridine synthase (Fusobacterium nucleatum) [pid:45.9%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:3.3e-67],MGA_1464
sequence1	MetaGeneAnnotator	CDS	1576151	1578211	.	-	0	ID=MGA_1465;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKFLILSVIFSIFSFSNKKLNIVYKAGIKNEGNFSKIETSKIEYVPLNLTVSSLNNEFKANLIIKGERKNLNYSDLVTRHETVSKEKPRINMKNGYMMYQPYYDKRTPDYGLFERALFKYDNQDTHDDHHHHHHHHDHDHDHDHNHDHNDLLGESLDIQAPQKKRNIRESNDFQSKLSLEMNKKKYGLKYIKYLTSFNEEKSRYLKNDSIFEGRITQIINDNIAITLMPRLITREFTPAILEANSYLKYRLNKDTFIGIDVYNGGQINLLDERKVHRNKVTAYFDYNTERRRVHDFWEILDHEHEKIDQFKVSLSYDRKYNAKYSPLDSAILDGYNDNEKYDFKLNLKKSDFGIKGLSLSNDFTFNTEFNQRVNSDRKYKLKHFYYLNSNSSDVGKNFNAIFDMRRNVIVNTAFQKTLDTSIHKLNNKYIIVNHYMYSPNGKNPFEYYVVTEAVSDGPNTFSNVITKKYNIDNVSKVEYVKGRNKVNAVNKIKYFNDVFSGNSKLNDDLTLSYERGLKAGYRVKFNLENKYERNDFNNKNLYETNILNSGMDFNYLYNQNGLNIKTGLTLNAALLARKADKSMLLGPNIPENIKKELSQNTGYLTQEADEANKWKLGEEFKIKQYISIKYSYNRKVDIKTNLEVEKKYDRSPFAKLYFRYNPANRKIRSYPVEYKLAMEFSYKY;locus_tag=LOCUS_14520;note=MGA_1465
sequence1	MetaGeneAnnotator	CDS	1578475	1579395	.	-	0	ID=MGA_1466;product=cation diffusion facilitator family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_001013485.1;translation=MKKIIEFNYHHAKHYKIQNKSKKTLWISLLLTAIFAMLELFGGIISGSLALVSDSFHMISDVIALIFSMLAIYYSTKKPTDRYTYGYLRVEIIAAFLNGIALVIISFGIINEAIKRIINPQEINFNLMITIAIIGLIINIVLTLVLMNSLKYEDNLNIKSALWHFLGDLLNSIGVIITGILVKYTGIILLDPIISSIISIVIMIGGIKIIRKALNILMEAVPEELDINKIRNSILDMENIENIHEFHMWSISEGLHSLSFHVILKEYNGVNDYKIIKNISNMLKEVYKIDHVTIQIEDPEVNIHKE;locus_tag=LOCUS_14530;note=WP_001013485.1 cation diffusion facilitator family transporter (Staphylococcus) [pid:52.2%25%2C q_cov:96.1%25%2C s_cov:92.2%25%2C Eval:6.1e-83],MGA_1466
sequence1	MetaGeneAnnotator	CDS	1579416	1581074	.	-	0	ID=MGA_1467;product=signal peptide peptidase SppA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_029492321.1;translation=MTLIYYTIQAIIIALILSLVIIIVGLIIKSKIKKDKNISDLKLKKIKKLIISNESLLEDVPEGGLNKKNSFFDFKEALKKINQTETVEEVILDVDKMELTAVQIDELKDLFKDMNKNKKVIALASNLDNIKYRIAMLADTIYMYNSLNSSMLLKGYSRSFIYFKKLFDKIGVKVNVLHIGDYKSAGENYHKEEMSEEQRTSITRIYDKMLENFIDEIKDRRNVDIKEKLLNGDLVLINHIKAKEYGLIDGISNLDKLEIDYSKDTEELIPFSKKVKVKNKSKNVIGVICAEGAIMPNNKSESIITYDDMLEKIESLQEIKNLKGVILRINSPGGSALESERIYKELKNLDVPIFISMSSVAASGGYYISTVAKKVFLNPSTITGSIGVVSMYPTFDEISNKVGLNIETVNSGVATEIFDLKQPLTDELREKLIQSMRDVYIEFKKHVMTARVMTDEGLEKIAQGKIWLGNEAVEIGLADKIGGFDDCLKALLDYLNIKEYKLHFTKRKISLVDSLKNNISNIPFTAEISNELNMIQANKYKPMYFMNVKIDF;locus_tag=LOCUS_14540;gene=sppA;note=WP_029492321.1 signal peptide peptidase SppA (Fusobacterium hwasookii) [pid:42.6%25%2C q_cov:90.4%25%2C s_cov:90.9%25%2C Eval:6.8e-119],MGA_1467
sequence1	MetaGeneAnnotator	CDS	1581147	1581707	.	-	0	ID=MGA_1468;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIFIGLIFILIGIFLLNRSKYSYINDDRLNSDNKYVIEKTFDSINNIDIKNFIGKIIIEKADENSIFIESDREINYLYDNGKLSLEIIEGKIKSLKVRIRYKEKEKLDVNLENFFGDIKLNAPSKGKIDLYNIVGKIEINTEKDANVITRNIVGRIFLSSINDNSELNIIIENAVGKVSVKNRL;locus_tag=LOCUS_14550;note=MGA_1468
sequence1	MetaGeneAnnotator	CDS	1581720	1581878	.	-	0	ID=MGA_1469;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKLKIELDDNEVDIDVVNKLGILKIGNGIVEDKDSVRKIKINSIFGNVEIF;locus_tag=LOCUS_14560;note=MGA_1469
sequence1	MetaGeneAnnotator	CDS	1581916	1582791	.	-	0	ID=MGA_1470;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKREFMKKLDNYLKDLSYYDKKSVFEFYEEYFSDLNIAEDDEIPNDMNPKKISRDILIDFGVNTEEKNKSKGYLTSILLFLAGIFSAPIIIFLIFLLLLFIFLGVIFVGGLVLLPFTLLWSILISSFNYIDREIYTIAGIIFLIIGGIIIFLPTIVYVIRKIFSFILNKLMRLYSYITHDKKSNYSYVKDHMSDKEYTNFEEIKFDYINKIECKDILGKLIIKKGKENKIVSSKISKEITFDEIYENGILKLSMTGEGVLGYNKLAYIVIEYNEENLDLEINNLLGNFKL;locus_tag=LOCUS_14570;note=WP_002669622.1 DUF1700 domain-containing protein (Treponema) [pid:32.6%25%2C q_cov:30.6%25%2C s_cov:52.3%25%2C Eval:7.1e-09%2C partial hit],MGA_1470
sequence1	Aragorn:1.2.38	tRNA	1583094	1583170	.	-	.	ID=Aragorn_40;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t00390;note=Aragorn_40
sequence1	Barrnap:0.8	rRNA	1583345	1586237	.	-	.	ID=Barrnap_9;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00090;note=Barrnap_9
sequence1	Barrnap:0.8	rRNA	1586459	1587972	.	-	.	ID=Barrnap_10;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r00100;note=Barrnap_10
sequence1	MetaGeneAnnotator	CDS	1588429	1589769	.	+	0	ID=MGA_1473;product=bifunctional UDP-N-acetylglucosamine diphosphorylase/glucosamine-1-phosphate N-acetyltransferase GlmU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015965.1;translation=MISIILAAGKGTRMKSNISKLMHKVNGQPMIVKLVNTLNKAGLKKNILILGYLKEQILEVLDNEYVIQEEQLGTGHAVIIAKNKILENDDDILICNGDGPLLTVETINKMKEKFEKDSLDCLILSCEVNNPFGYGRIIKENGKVTNIIEEVDATVEQKNIKEINAGVYLFKKTSLLSILDKFNNDNKKREYYLTDAVKLLNEEKLKVDSLVLEDEKEMLGVNSKSQLAEVSKILREKKNEELMKSGTILIDPNNTYIEEDVVIGEDTIIYPNVYIEKGTRIGNNCIIHSGTRIENSIIGNNVTIDNSVVELSVIEDNVSIGPFAHIRPNSLLKEKSKIGNFVEIKKSTLHKGVKCGHLTYIGDSEIGENTNIGAGTITCNYDGSKKHKTNIGKNCFIGSNSIIVSPVEIGENVLTAAGSVITKDIPNDSIAFGRAKQVNKIGMNKK;locus_tag=LOCUS_14580;gene=glmU;EC_number=2.3.1.157%3B 2.7.7.23;note=WP_011015965.1 bifunctional UDP-N-acetylglucosamine diphosphorylase/glucosamine-1-phosphate N-acetyltransferase GlmU (Fusobacterium nucleatum) [pid:56.8%25%2C q_cov:99.8%25%2C s_cov:100.0%25%2C Eval:1.8e-140],MGA_1473
sequence1	MetaGeneAnnotator	CDS	1589776	1590768	.	+	0	ID=MGA_1474;product=ribose-phosphate diphosphokinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903312.1;translation=MWDFKMYNDHEIKVYAGTSSAKLAAKIAEKLGISLGDRTIIRFADGETFAKSNETVRGCKVFVIQSTSKPVNESIMELLVFIDSLKRASATEIIAVIPYYGYARQDRKAYPREPITSKLVADLLTVAGATRVVTMDLHARQIQGFFNIPVDHMEALPLFAKYFYDKGFNSENAVVVSPDVGGVKRARALARSLNLPLAIIDKRREKANVSEVMNLIGEVKGKKAILIDDIIDTAGTICNAATALKNEGALEVYACAVHPVFSGPAIERLKDSEFNKVIVTDTIELPEDKKFDKLSIVSTASMFAETIIRIFKEEAISDLFEVPKNLDVEG;locus_tag=LOCUS_14590;EC_number=2.7.6.1;note=WP_005903312.1 ribose-phosphate diphosphokinase (Fusobacterium nucleatum) [pid:63.2%25%2C q_cov:95.5%25%2C s_cov:99.7%25%2C Eval:2.5e-109],MGA_1474
sequence1	MetaGeneAnnotator	CDS	1590770	1591321	.	+	0	ID=MGA_1475;product=L-threonylcarbamoyladenylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011015966.1;translation=MNSNVILFPTDTVYGLGSLPNKKALDKIFDIKKRDRNKKIIALVSKKETINKIIEINDLIDKIIDKFFPGPITLIAKSTPFIKELLGYEDIGVRIPNNKMALEIIEKFGGILMTTSANISGKEAPKKYSEIDEEILKLVDHKYIDDSNLSGISSSIFKIDGENITLLREGNISLIELIKLKEE;locus_tag=LOCUS_14600;EC_number=2.7.7.87;note=WP_011015966.1 L-threonylcarbamoyladenylate synthase (Fusobacterium nucleatum) [pid:37.5%25%2C q_cov:96.7%25%2C s_cov:84.8%25%2C Eval:1.5e-24],MGA_1475
sequence1	MetaGeneAnnotator	CDS	1591323	1591781	.	+	0	ID=MGA_1476;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903314.1;translation=MKGKLVNPNSISDMDVMNAKSQASMAALLQKIGKGKRKKEVTLSKNSQKYLEQMIGEMKKQMAIYEKQLPNIFSFFKYVEKSLHVGKKEKRPKEKVLALSFEEYDLIMKQMRDVIKGLTLEKSKLKWYNIVKKMVYKMMTKQTEELLKDMKK;locus_tag=LOCUS_14610;note=WP_005903314.1 hypothetical protein (Fusobacterium nucleatum) [pid:36.7%25%2C q_cov:97.4%25%2C s_cov:98.6%25%2C Eval:1.2e-19],MGA_1476
sequence1	MetaGeneAnnotator	CDS	1591796	1592836	.	+	0	ID=MGA_1477;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDNNKNIATTSNSCFLFNLENILELAILKNATDIHIREFENICKLELRIEGSIHKVDNTHKLNVREIIARIKILSKLNVAEKRLPQDGAFTHIFKDKKYDIRVATLPSNMGENVVLRILNSNLNDISLISLGFDNDSIAILKKACSQNNGLILITGPTGSGKSTTLLSLINILMKSKRKIITIEDPIENRIEDIVQIQVKEEIGLSFEKILRTVLRSDPDIIVISEIRDEVTAQIATRAALTGHLVLATLHTNDSISTVNRLIDMNITKYLILDSLLCILSQRLIFNGYKRICVSEILEINDEIKKIFNNNLDKMTIKEMLKEKGFITLKEKLEKRWDLEEYYCL;locus_tag=LOCUS_14620;note=WP_000853744.1 type II secretion system ATPase GspE (Leptospira) [pid:39.0%25%2C q_cov:94.8%25%2C s_cov:66.8%25%2C Eval:4.4e-64%2C partial hit],MGA_1477
sequence1	MetaGeneAnnotator	CDS	1592814	1593416	.	+	0	ID=MGA_1478;product=HAD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011269258.1;translation=MKNIIVYDFDKTIYGGETSTDFMRFFLKRNPKYIFKIYKVIHSLMYYRSDLKKSKEIFFEILSNIEIEYLNKEIHAFWIENKYKIFPWIYEEIKKNKNQAEELILISATPKIFLEEISKELGFDKLIATNFIKQDKYFVSKIEGKNCKHVEKVHRLKEYLQDFNILIFYSDSMSDKPLFDLAQKKYYINKGIKKEGLPNE;locus_tag=LOCUS_14630;note=WP_011269258.1 HAD family hydrolase (Pseudomonas) [pid:26.9%25%2C q_cov:88.5%25%2C s_cov:85.3%25%2C Eval:3.7e-09],MGA_1478
sequence1	MetaGeneAnnotator	CDS	1593409	1594143	.	+	0	ID=MGA_1479;product=tRNA pseudouridine(38-40) synthase TruA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201627073.1;translation=MNNIKIIYQYDGSAFYGSQRQKDKVTVQGTIEDILINSFNEKVNMISSGRTDRGVHAKMQVSNFIINKDIKLDIIKSKIEKYSNYAIKILSIEKVDIKYNSRFDCMERTYEFILSNRENITPFNRKYITSINYEIDVEKLNDILKQFIGKHNFSNFSKKENKANKNPIREIYECYSIKKDKNIHIYIKGNSFLKSMVRIIIGTTLAIYSGKISKHFIKEAFDNPNPNTKKYILDGNGLYLYHVK;locus_tag=LOCUS_14640;gene=truA;EC_number=5.4.99.12;note=WP_201627073.1 tRNA pseudouridine(38-40) synthase TruA (Fusobacterium canifelinum) [pid:39.9%25%2C q_cov:99.2%25%2C s_cov:98.0%25%2C Eval:2.4e-41],MGA_1479
sequence1	MetaGeneAnnotator	CDS	1594154	1594651	.	+	0	ID=MGA_1480;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011016514.1;translation=MKITIQQCIFLISNLTKKQNRIFLSLNSYSNIPIKVNGKDVFDKTQAKEMLALYSELEIINRDLATLKTVLNHTNSTNKINDMPISYHLEDLKNKRNLLSFLERSINSNTSSAESGVGIVNYGVLNQNILKENYRKLEKEVNSMSERIDIENSKLTIEVNLEGNY;locus_tag=LOCUS_14650;note=WP_011016514.1 hypothetical protein (Fusobacterium nucleatum) [pid:49.1%25%2C q_cov:97.6%25%2C s_cov:97.0%25%2C Eval:1.8e-36],MGA_1480
sequence1	MetaGeneAnnotator	CDS	1594821	1595618	.	-	0	ID=MGA_1481;product=sugar-phosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011861537.1;translation=MNNIKLISFDLDGTILKDSKLSKAVIEAFHKLENKGIMLVVNTGRSIDSLYEMFDLLKLSGKNNYAILTTGAVVQNIDTRKIIKHFSLSLDDYRHIRKNVDSRYNLSVYTPDKLYYVDEIFPEIVEDNEILLMEMEKFSEDKDIEISRVNIMGSKEKLDEFEKLHNKEFLNDYYFVRTIPISIEILNKNASKGNGLKAFMEELNILPSEAIAIGDGNNDISMFEVVEHSVAMGNASDLVKSHAKYVTDSIDDDGFVKMLEMFKLI;locus_tag=LOCUS_14660;gene=yidA;EC_number=3.1.3.23;note=WP_011861537.1 sugar-phosphatase (Clostridioides difficile) [pid:33.0%25%2C q_cov:98.1%25%2C s_cov:97.8%25%2C Eval:1.1e-34],MGA_1481
sequence1	MetaGeneAnnotator	CDS	1595697	1595963	.	-	0	ID=MGA_1482;product=30S ribosomal protein S16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903282.1;translation=MLKLRLTRLGRKKLPFYRIAAMEALGKRDGKAVAYVGTYNPLVSENQVNLKEEEILRFLSNGAQPTETVKSILTKAGIWEKFEATKKR;locus_tag=LOCUS_14670;gene=rpsP;note=WP_005903282.1 30S ribosomal protein S16 (Fusobacterium nucleatum) [pid:67.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.7e-26],MGA_1482
sequence1	MetaGeneAnnotator	CDS	1596045	1598534	.	-	0	ID=MGA_1483;product=AMP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626185.1;translation=MFLNKSDRLAIVDFDGKKISHTDLVNTVKYYSDYVITEKTPKAFSIIMMENRKEWFYAFYSLWDSNLTPVAVDAMSNKNELEYFLNDSGAICIYVSNNTYEVAKEAILSTGRDIKIFNVDEIKIDKEKYEKIEKDERILSHPDMEDIAVMLYTSGTTGSPKGVMLTYGNIYNQILSIRTLEITWDDEQILAVLPFHHILPLMSANIYYMYHEHQYSVVLVEKLSSQEILKALSENDVTMLVLVPRVYKLFYKSIKSTIDSKWITRLIYAIAKKINNKAFSKKIFKKVHDKFGGKLRSMVVGGAKSDIEMIEFFNTLGFDYCEGYGLTETAPIISGNTNNHGYKIGTVGKPVNNIEVKAVDQELWVKGPIVMRGYFNKPEKTSEVLTDDGWFKTGDLVEVDDEGYITIVGRKNAMIVLSNGKNVDPETLEIKFMSSVNSIIKEVGIIGHNDKLASLIVIDRNEAKKLNILNINAYIKDTVEFYNGAVHNYEKILEYKITEDELPKTRIGKVRRFMLKDIYSGKSKVENKENVNEPNTEEYRILKDFIFKMKGVYPEGNKNLEVEFGLDSLDQVELLTFIENSFGLKISEEDFKDNLTLLGLSKYIEEKSSGFTETTDQWKEVIQNAPNKELKDGWLMLLIKPILFLLFKLYFRIDIKGSENIKNEQQIFIANHESFIDGLALSLLIPNESSEKTYTLAINWYFKNAFMKFFAKHSNILLLDINKNIKSTIENVSSALKQGKNVFIFPEGTRTKDGNLGEFKKIFAILSKELNIPVTCLKIDGAFEAYSRYDKFPKPKKLSVKYLGQIKPENMSYSEIVDTAFNMYLEDDK;locus_tag=LOCUS_14680;note=WP_201626185.1 AMP-binding protein (Fusobacterium canifelinum) [pid:38.9%25%2C q_cov:95.7%25%2C s_cov:96.7%25%2C Eval:2.6e-165],MGA_1483
sequence1	MetaGeneAnnotator	CDS	1598579	1601059	.	-	0	ID=MGA_1484;product=AMP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_201626185.1;translation=MFLQKSNRLALVDPKGNKVSHSELVDKVKYFSKYVIKETEDIQQFNVIMMENRKEWLYTFYAIWDKKNVPLVIDSESSIEEIVYFLKDSNATSIYVSNKTYEKAKETINVLGREIFIENIDDVKIDENKLEEISKDERILLHPEGEELAIMLYTSGTTGDPKGVMLTFNNIEAQIESIKSLMIIEENEQVLAGLPFHHILPLMTTNLLFMHYSTQFSIVFIENLSSQDILKALNDNDVTILSMVPRVYKLFYSSIKSKIDSKVTAKNLFKLAQKAQNISFSRTIFSKIHKTFGGKLTRVISGGAKTDKEIADFFDTIGIEYFEGYGLSETSPVVACSTTKHGKKNGTVGRKVDNIEVKLVDGELWVKGPIVMKGYYNKPEETAKVITEDGWFKTGDLAEIDDEGFITIKGRKNSMIVLSNGKNIDPEKLENRLIQYSNEIIKEIGIFAKNDKLAALIVIDDKKIKEKGIINIKPYIEDTISFYNASSHGYEKVLEYKMTEAELPKTRIGKLKRFMLKDIYLGHMKDEQKEKVEEPDTLEYKVLKEYIFNMKNEYAEPNVNLEIEFGLDSLDQVELLSFIERSFGVKLTNEEFKENITLIKLSELIKNKSEKFIETKDQWKEIIKNAPVKELENGSGIRFLRPLGWLIFKIYFRLSIKGKENIDNEPQIFIANHASFLDALALNLLLPKKVAKNTYSLAIDWYFKSKFMRKLAKETNLVLLDIDGNIRETIEQIASVLKQGKNVFIFPEGTRTKDGNLSPFKKTFAIISKEMDVKVTCLKIDGTFEAYSRYDKYPKPKKITVSYLGEINPENLSYDEIVDKARNMYN;locus_tag=LOCUS_14690;note=WP_201626185.1 AMP-binding protein (Fusobacterium canifelinum) [pid:39.7%25%2C q_cov:98.7%25%2C s_cov:97.9%25%2C Eval:7.4e-168],MGA_1484
sequence1	MetaGeneAnnotator	CDS	1601097	1602428	.	-	0	ID=MGA_1485;product=signal recognition particle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903281.1;translation=MFKGLSDKLQETFKKLSGQSKITESNITEALREVRLALLEADVNYSVVKNFVKRIKEKAQGQEVIKGVNPRQQFIKIINDELIEVLGGQNTSLNKSTSKPTIIMLVGLQGAGKTTFAGKLAKFLKKEKSKAFLIGADVYRPAAKKQLMVLANQIGVPFFSIEDSNNVLEIVNNGLLEAKKEDADYVLIDTAGRLHVDEALMQELQDVKSSVNPTEILLVVDGMTGQDAVNVAKTFNDVLDITGVVVTKLDGDTRGGAALSIKEISGKPIKYISEGEKLDDIAVFHPERLASRILGMGDVVSLVEKAKEAIDEKEAREMEAKFRKNQFDFEDFLKQFKMIKRMGSLGGILKMLPGMGALGDIDLTGAEKEMKKVEAIIYSMTVEERRNPNLLKVSSRKIRIAKGSGTDVTQVNKLLKQFEQMKQMMKMFNSGNIPGFGQIGKKR;locus_tag=LOCUS_14700;gene=ffh;note=WP_005903281.1 signal recognition particle protein (Fusobacterium nucleatum) [pid:60.0%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:3.1e-148],MGA_1485
sequence1	MetaGeneAnnotator	CDS	1602428	1602760	.	-	0	ID=MGA_1486;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005903280.1;translation=MCMKEIEEYIKYSILFIYYKELFSDKQKKYLSAYLEEDNSLTEIAEAFNVSRQAVFDNIKRGCKQLDKYEKLLGVMEREENIMMNLKWLRDNFSKENLDKIIIEYEEGAN;locus_tag=LOCUS_14710;note=WP_005903280.1 hypothetical protein (Fusobacterium nucleatum) [pid:46.4%25%2C q_cov:88.2%25%2C s_cov:94.2%25%2C Eval:1.9e-17],MGA_1486
sequence1	MetaGeneAnnotator	CDS	1602846	1603376	.	+	0	ID=MGA_1487;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILLFILMSNFLSYSTYIAGPRIKVEGGVGIGKADNIILPLNVAILPEWRAEIRHDINVAFGPKFTVVSSHQFKGLKYNGAKIRALIGAETHINFKVTNKLDIFLGAESAIGGGSDVTFESAQVSQSTQANKKKAVFDWLALMSGGIKVNERYNMGVYFGYGKGNFGIQAGYTF;locus_tag=LOCUS_14720;note=MGA_1487
sequence1	MetaGeneAnnotator	CDS	1603462	1604484	.	-	0	ID=MGA_1488;product=Eco57I restriction-modification methylase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_013389840.1;translation=MNFGAIVGNPPYQVSDGGAQTSAKPIYHHFVLLGKQLSNNYTSFITPTRWFAGGKGLDSFREYMLNDSSIMELYDFLTPDDIFPNTNNRGGVCYFISDINKNKLEVKVVTNRNNKIISNVKRKLLIKGIDIFIRDSLGIKIIEKIFSKDNTKSLSLYISTRKPFGLEGNFIKDQNFRKEPNGMKKPVVCIGKGQQIGYVEHNLIEKNIHWVDSWKVFIPRANNIATELNDDNLNAFVGTTNMICTESYLSCFGDDNLTEISTKNAVKYMMTKFARYLHSLAKSSQDATSKTFRFVPMQDFTEKSDIDWSKSIKEIDEQLFDKYELTSTEREHIKSSIKEM;locus_tag=LOCUS_14730;note=WP_013389840.1 Eco57I restriction-modification methylase domain-containing protein (Bifidobacterium bifidum) [pid:32.2%25%2C q_cov:99.7%25%2C s_cov:98.5%25%2C Eval:6.9e-38],MGA_1488
sequence1	MetaGeneAnnotator	CDS	1604607	1608686	.	-	0	ID=MGA_1489;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKETKIEAIDILDRIIVGRVEPHIYAFTTNTIPNYLKIGDTYRSVTQRLNEWKNFFPDLEKQYECKAVIDNEIYFRDYSVHQFLENDLEKIRLLRSDLDDDIYYSKEFFKDTYPLDIEKAIEDIKDNYIQNTDKYEYYSSNNKLLKTFHYQRGANWNLRPNQLEVVNNFKKAIQNGRKNLLMYAVMRFGKSFTSLCCALEMDANLVLIVSAKADVKDEWKKTLESAGNFYQYVFLDVNDLISNEKIIKDKIIENKKVVLFLTLQDLQGENIKDKHRQLFEEKIDLLIVDETHFGARAESFGKILKDEGYDRSDDKNFKKLSDYSMDIEEANKKIKKINATIRLHLSGTPYRILMGSEFEKEDIISFVQFSDIVKEQEKWDKNNLNNDDVNEWDNPYYGFPQMIRFAFNPNKSSRQKMEALRKKGVSFVFSKLFEPISIKKDSKNNAHKKFQNESEIIDLLKVIDGSQDDENLLGFLDYGKMCKHMVMVLPYCASCDAMEELIIKNKDFFKNLNEYKILNISGVDSNKIYKTPNDIKNKIKEFELENKKTLTLTVNRMLTGSTVEQWDTMIYFKDTSSPQEYDQSIFRLQNQYIKTLSSEKGIIKENLKPQTLLVDFDPNRLFRMQEQKSLIYNVNIEENGNSKLKDRITEELRISPIIVMNNNKISQVEATNILETVSLYNNQRSVSDEVSDIPVDLSILEDDYVRKAIEEQGEFNSKQGLTINPNQGDGNDIDIDDYSDSTYEKENRKDKENQSYREEKTDEEIKRLERQIKTYYQRLLFFSFLTKDNVSSLDDILNVLQKEENTRLAKKLYLNKDVLVKLSSLMDPFKRSKLDYKIQNISRLASDESVNPLDRALTSLKKFNRMSESEVITPTNICEDMVNLFPEDGLREIVNNKNKLLDIASKSGEYTVAIYKRLVDDLGFSHNEVSDIIYSIPTSSIAYEFTRRFYEILNLNVDNIATKFNSYDLIKITSENNEVDYKKVSNLLKQNKKFSYIELTDEIKAGEETVNFGAIVGNPPYQVSDNNSGTGSAKPIYNKFSMISFYLKPKFATLIVPSVWFSGGKGLDEFREYMLGLKGLKQITNFITPQDIFSNVNLRGGINYFLYQDKYDSDNNGIRIINIKDKKIINNQLREKRIKNLEIFISDNIAFNIVYRMVNNGGVQLNENSENMLIKYISVRNPFGFNTKFITTDLFKNNEKEITNPVKIYASKGKIGYVEKDLIKKNFNWINKWKVITPFANNIGKDLQDDNLNTIISEPNSIVTETYLVIGGDLNLDKSSSMNIEKYLKTKFTRFLISIAKANQNGTKITYRFVPIQDFSDKSDIDWSKSIKEIDEQLFDKYELTSTEREHIRSSIKEM;locus_tag=LOCUS_14740;note=WP_066570511.1 DEAD/DEAH box helicase family protein (Corynebacterium crudilactis) [pid:23.1%25%2C q_cov:57.4%25%2C s_cov:90.0%25%2C Eval:3.0e-44%2C partial hit],MGA_1489
sequence1	MetaGeneAnnotator	CDS	1608700	1609617	.	-	0	ID=MGA_1490;product=restriction endonuclease subunit M;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011109063.1;translation=MDLKIDISEEKRSKEILEILLIDRTTNKNIIWATDDYEHFGNAYNSKHHILYHLITGENSNVIQPRVLKSKKSQVIRTKAKAEVFTPSWICNAQNNLIDNAWFGRNNIFNIEKDKSWESTFEKIEFPKEKNKSWEKYVDENRLEITCGEAPYLVSRYDTVSGNYIDINQRIGILDRKLRVVNENVENEKDWLKWSERAFQSVYGFEFQGDSLLIARENLLATYCDNMMYKLKRYPTDKELIKIAKIISWNIWQMDGLVYTIPFKKPISSNNQILLFEFEEEHNDNYCVIKDWRANKKNCIQRFVK;locus_tag=LOCUS_14750;note=WP_011109063.1 restriction endonuclease subunit M (Bacteroidales) [pid:49.1%25%2C q_cov:97.4%25%2C s_cov:95.3%25%2C Eval:5.7e-81],MGA_1490
sequence1	MetaGeneAnnotator	CDS	1610171	1610524	.	+	0	ID=MGA_1491;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNLFIFSILFLGAISFSEGLNGIEVKEYSNINLSKVELKENGNIDLNDVKNTGIVGDIVKDVAKELIKDFIKDSIDKAIDYISEKEESEEKEISKEIHIEQKICPPELNGTCLTE;locus_tag=LOCUS_14760;note=MGA_1491
sequence1	MetaGeneAnnotator	CDS	1610529	1611188	.	+	0	ID=MGA_1492;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKTIQNILMLPNIKTIINTFKILFLLFIPEVLIILLFKEVIFKGSISVNLDLIINLISHTILIILFSYLTRHNKEYYKIKLKSVFIILSAIMLTLALNIIMDFFIQSKELTTRFNERIILYKSANKLLIILYIVIFAPIEEELFFRKLIFTYLENRKFALIVSIILFAFAHSIFDLKIFIIYLPISIIISLIYYKTNSVKMTSLFHMSWNSLAVIKYLI;locus_tag=LOCUS_14770;note=MGA_1492
sequence1	MetaGeneAnnotator	CDS	1611286	1611498	.	-	0	ID=MGA_1493;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQDRFKYFNLLIYIFIPIIVNLIVVDEVIFIEDKLQRRLFKLVLTTIYMLCLKLISFLIKKLKTKQCKEK;locus_tag=LOCUS_14780;note=MGA_1493
sequence1	MetaGeneAnnotator	CDS	1611488	1611985	.	-	0	ID=MGA_1494;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKFKKVFLGLTIFLASLTSFSNGDTGILLKDNNDYLNERQEVWNNKDFLDQVLDEAIDGALNGAITGSLGGTYTLPIVGTVSGAAGGGAVGFVGGGIVGAGKYIIDEVRGKHEDDSKKNEEERQENNERQENNERQENSERQENNIGKPSKIILPGEYGEIYAR;locus_tag=LOCUS_14790;note=MGA_1494
sequence1	MetaGeneAnnotator	CDS	1612300	1612992	.	-	0	ID=MGA_1495;product=DNA alkylation repair protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002678782.1;translation=MDKVKEFLFFKQELSYREFSAKLIPTVKVENIVGVRMPDLKKFAKFLSKEDKEKYLNNLPHEYMEENHIHMYLLNEIKDINTLISMTEKFLPFIDNWATCDIGIGKVAEKYPEIIEKKVYEWLKSKHVYTVRYAVTILRTNFIKQNFNENHLKLLSKIQTDEYYINMAIAWYFCECYIKHEKEVLEYLENNKIVNDWVHNKAIQKMKESLKVDKDKKMYLNSLKRKYKGF;locus_tag=LOCUS_14800;note=WP_002678782.1 DNA alkylation repair protein (Treponema denticola) [pid:45.5%25%2C q_cov:95.2%25%2C s_cov:94.8%25%2C Eval:1.8e-53],MGA_1495
sequence1	MetaGeneAnnotator	CDS	1612980	1614287	.	-	0	ID=MGA_1496;product=branched-chain amino acid transport system II carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000771689.1;translation=MRNLTKKEFRCISIMIFGLYFGAGNLIFPPILGKESGSNAFISLIFFSITAIVFPVLGVIVVSKFNGINKLSNMVDSSFTLIFTTAMYLTIGPYLSIPRNASTSFEITIAPYITNLDNVIYYRLMYTIVFFSLVYYLSMKPKKIVTTLGRILTPILLLLILLMFLGVIFKPFNMVAPVGDYISAPAIKGFIEGYNTADALAGLNFGIIIAFAIKSLGVTNEKDVTKITIKAGIVAGIILFIVYFMLTYIGLATASHFPDTKTGADILVNVVKMNYGMLGALILGTIFIIACLSVSVGLITSISQYFNQNYPKVSHRAWVITYILISFILANFGLVNILKISIPILLSIYPVSLVLILLGLFSEYFDNSKLVFRLCVYTTLIFSIGMVLNKYIGNILDPVFINLPFYSLNLGWLVPAIIAFIFSITLQKGKKIWIK;locus_tag=LOCUS_14810;gene=brnQ;note=WP_000771689.1 branched-chain amino acid transport system II carrier protein (Bacillus cereus) [pid:41.5%25%2C q_cov:98.9%25%2C s_cov:100.0%25%2C Eval:1.5e-86],MGA_1496
sequence1	MetaGeneAnnotator	CDS	1614609	1614782	.	+	0	ID=MGA_1497;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFLVDLIATSIIVLIHINILPRYINSQSNVSRIFFLMLLSYYSIRYFIVKNFKS;locus_tag=LOCUS_14820;note=MGA_1497
sequence1	MetaGeneAnnotator	CDS	1614822	1614992	.	+	0	ID=MGA_1498;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLFLIDLIASFLIVETHISVLPRYIKTWYMQSLIVVLILASYFIIRHFIIKKFK;locus_tag=LOCUS_14830;note=MGA_1498
sequence1	MetaGeneAnnotator	CDS	1615554	1615994	.	+	0	ID=MGA_1499;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKIKRNLTILSLLIIPTLGFSQESKENYEEINKTSSIMLISNESPAVNNEDMVEVGEIGKSIGGIISAAVGGVIGASTANPAVAGAAGYAAGAIGEKIGDKVEEKIKEVIKDYKEKKQDEKESNNKKDYQIIDSPVKSDSDIVTA;locus_tag=LOCUS_14840;note=MGA_1499
sequence1	MetaGeneAnnotator	CDS	1616307	1617932	.	+	0	ID=MGA_1500;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000170507.1;translation=MKKYLSFLISGLLVLLLFACSIKKEYESTKVRTRKGRATNELVVSMGSRISEFDPKDGFGTHNETHILYSSLLKRTADLEIVGDLAKDYTISNDGLMWTFDLHDNFKFSNGEMVTAEDVKFTFEMLKNDGRNWDLSFIDKIDAPSKTKVIFTLKEPRSTFAQSQLIEVGILPKAHYNDNFKKNPIGSGPYRLVEYKPNEQAIFEVNPYWHGEEPYFKKWTWVLLDENTALAALESEDVDIIYATPEFADKKINGVSLFDIPSNDVRGLSLPYVKKGVVESSPKGYPVGNDVTSDPAIRNALNVGLDRQKVIDTVLNGHGKPAYSIVDEMPFWNPDSIIKTNDIEMAKKILDDAGWKVGADGIREKDGLKAEFELYYATKDQLRTNVAVEAANQAKDLGINIKLVGSDWEEIITKIHEISVLYGGGRLNPVPLYDSYHPNLIHKLWGNVTFYNNTKVTEYLDKAIKSPSLEEANKYWKLAQWDGETGLSIRGDLPNVWLVRINHTYLGDSRINVGKQGIHSHGHAWGLIANINEWTWEENNK;locus_tag=LOCUS_14850;note=WP_000170507.1 ABC transporter substrate-binding protein (Streptococcus) [pid:63.7%25%2C q_cov:99.6%25%2C s_cov:99.1%25%2C Eval:2.1e-205],MGA_1500
sequence1	MetaGeneAnnotator	CDS	1618003	1618977	.	+	0	ID=MGA_1501;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000680645.1;translation=MNKKNIVFIFNKLLRLIFLLFGVSVFSFILLKYSPVDPVLASVDYDMSLTNEQYEKIAEYYGLNRSIFTQYFIWLKNFITGNWGNSLIYNKPVIDIVKNRAMSSFALMGVSWVLSGVIGFILGSLSAFKLGKIFDKMIKFFSYLQASVPTFWIGLIFLLIFSAQLKWFPIGLSSPIGVISTQVSFIEKIRHLILPAFTLSILGIANVTLHTREKMIDVLNSEYVTFARARGENNFEIFKNHCIRNAITPAITLHFSYFGELFGGSVLAEQVFSYSGLGSTLTQAGLKGDSPLLLAIVIIGAVFVFLGNMMSDILNKILMPNLRR;locus_tag=LOCUS_14860;note=WP_000680645.1 ABC transporter permease (Streptococcus) [pid:70.9%25%2C q_cov:96.6%25%2C s_cov:96.3%25%2C Eval:2.3e-128],MGA_1501
sequence1	MetaGeneAnnotator	CDS	1618979	1619800	.	+	0	ID=MGA_1502;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002982520.1;translation=MKLDARIRVILSITFSIFIIGLVLILNMSLSDEGLKTNHVIKNLPPSWDFIFGTDSLGRNMFVRTIKGLNFSLLIGVLGATIGVSIAIILGVLSATSNKKIDLIIMWFVDLFIGMPHIIFMILISFSVGKGSKGIIIATAITHWPALTRVIRNEVYSIKNSEYILLSKNMGKSKWFVIKKHILPIIFPQIFIGFVLLFPHIILHEASMTFLGFGLSVQKPSIGIILSEAAKHISLGNWWLVVLPGVALILLVKCFDNIGESLRILNNPQTRYL;locus_tag=LOCUS_14870;note=WP_002982520.1 ABC transporter permease (Terrabacteria group) [pid:61.9%25%2C q_cov:98.9%25%2C s_cov:98.9%25%2C Eval:4.9e-94],MGA_1502
sequence1	MetaGeneAnnotator	CDS	1619809	1620606	.	+	0	ID=MGA_1503;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003059481.1;translation=MKDTLLKIENLSISFEQYGRGLKKFTTTPIENLNIEVKKGEILAIVGASGSGKSLLAHTVMDILPPNAIVNGKILYKDEILSKEKIKKYRGEKITFIPQSVNYLDPSMKVKDQIKIGLKNMKKEEKAKLQKEIFDKFELKENEIELYPYQLSGGMLRKVLFATSIKMNTELIIADEPTPGIHQSVLDKVLKQLRSFADSGISVILITHDIISAVKIADRITVFKDGRTIETVPSKFFSGEGENLKEEYSKKLWNALPQNKFLEVR;locus_tag=LOCUS_14880;note=WP_003059481.1 ABC transporter ATP-binding protein (Terrabacteria group) [pid:60.1%25%2C q_cov:99.2%25%2C s_cov:97.0%25%2C Eval:1.9e-87],MGA_1503
sequence1	MetaGeneAnnotator	CDS	1620606	1621229	.	+	0	ID=MGA_1504;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000171309.1;translation=MSLKVKNLGFYYEKDEWIFKDLNFELAQGEILGIFGYSGCGKSSLAKVLADFQNPICGEVIIDDKVHQKNSFREVQLIYQHPEKIMNPLWKMKDILKESYKPDKELLELFGIKKEWLDRYPIELSGGELQRFSIVRAFNKKVKYLIADEMTTMLDGVTQEFIWKNFLKIVKERNIGLIIISHEKDIINKICDKCLYMDTKKIVNIKK;locus_tag=LOCUS_14890;note=WP_000171309.1 ABC transporter ATP-binding protein (Streptococcus) [pid:56.9%25%2C q_cov:98.6%25%2C s_cov:98.1%25%2C Eval:3.8e-68],MGA_1504
sequence1	MetaGeneAnnotator	CDS	1621260	1621856	.	-	0	ID=MGA_1505;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLLMIPLLGIISLSLNISGPKYRLEMGLGGKVAVDSTFSNEGVQKATEPNGTKVTYYYGGESKGFIEFSSDWKLKINEKCDINFGPRIKLLNISHIAKNIFFFLGITAGAGFEFNYNIRENVKFYTGIDGLIGMGTFMNLNNSSSKDTESKKISVIYDFIPESNVTVGTKINDKYNVGLFVDILQGYFGLKAGYTF;locus_tag=LOCUS_14900;note=MGA_1505
sequence1	MetaGeneAnnotator	CDS	1621987	1622388	.	-	0	ID=MGA_1506;product=transcription antitermination factor NusB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010965384.1;translation=MTQREVRNEIFKILFEHEVVNSDIIARKDEVLETLKISNSKREFLENYLNNFMLNESEIIEKIKEKIKGWTFSRLATPEKVILKMAFFEILFEKVGHEIVINEAVELSKVYGDEKTKTFINGILADLIKDIDK;locus_tag=LOCUS_14910;gene=nusB;note=WP_010965384.1 transcription antitermination factor NusB (Clostridium) [pid:32.8%25%2C q_cov:100.0%25%2C s_cov:99.3%25%2C Eval:2.0e-14],MGA_1506
sequence1	MetaGeneAnnotator	CDS	1622402	1622992	.	-	0	ID=MGA_1507;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFRFLSSLIKVIVFLSLPVLGFMTISDTFFYTTYFDEVIPYVIYLRFVGFLAIGYLIIFLLSLLEKLFKKTKVVKSQGKDGKIEVDLNTINDISKIFLEQKSLIKTARVVSHSYFSKILISANVETYNIENLNDRLSVVQNELKEYINLMTGVVVKDVSLKIVKINQEKIFDTVTVEDVNLNDMTDEEIVETTPEF;locus_tag=LOCUS_14920;note=MGA_1507
sequence1	MetaGeneAnnotator	CDS	1622985	1623353	.	-	0	ID=MGA_1508;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNSFGRIEISPSVISDIVLESVSEVEGVVEISDKVSKTQGINMLKNLTKLGNVKFIDVELGETECVIDLGIVVEFGKNIVEVVKLFQSTVKLNVEKLTDIKVNEVNVNVTNIVKINKEGENV;locus_tag=LOCUS_14930;note=MGA_1508
sequence1	MetaGeneAnnotator	CDS	1623407	1626577	.	-	0	ID=MGA_1509;product=DNA polymerase III subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011017116.1;translation=MLRRIHTEYSLLEGVGSVEEYVQKARENNIKELAITDFGMFAAIKFYNSCKSNNIVPIIGIEIHLKGFLDQENIYTLTLLAKNEKGVKNIYKLSTISHERNFILLDDLLEHGKDIYILSGGVNSELVSYVLKNDYKKVKKLMEIMLEKLDIILEIPMFEMLEYQRLMFDKLVDELNVKSIEVNEIYYLEKEDKILQKIFAAIKENRTLKTVQNEKKQDGLHFIINNQDKREDILNDIDIVLDNKNVEFPLVKLPDGLSEKEYIINILEKNIGKKYPNITKEIQDRINYELNVIDKMGYIKYFLIVHDFIKYAKENDIFIGPGRGSAAGSIISYLLGITELDPIKYGLIFERFLNPERISMPDIDVDIEQEKRIDLIEYIKRTYGSRNVSQIITFSTFKPTLALKDLARVFEIPEKSIRKLLDESKEKSLDELSDSKEMVKSLIDYAKRIEGKIKNSSTHAAGVIITKEDMRENLPLIYDSYTKDYQIQFEANVLESLGYLKMDLLGLKNLNVVKNVIKKVNEDIDIYNLPEYEEAFNLLNTGNTIGIFQCESRGITQLAMNLKIHSLEDIALLLALYRPGPLESGLIPSLIVMKNNKNIKIKTVDPMIEDILLPTYGVLVYQEQVMEIAQKISGYSLAKADELRKAIGKKNVELLKQNRKDFIENAIIPKQRAEKIYDLIDNFGNYGFNKAHAISYANITYQTAYLKAKYPREFFASLLTTELKVEKKLVNSYAEMLKRNIEMYPPSINRSTAEFEIEENGIRIPLSALKEMSEKTAREVVEEREKNGNFKDIFDFITRCRFLNKSNLEGLIYSGCFDEFNIGRKKLIVNLQDIIKWIDKRNKSQTDIYSSLFLNMNMEIEEYKWMETDEMSDDEIIKLEKEYVKLSMRNTQILKSELVYNIFKSNEYVIGYIESEKSKVTKKNELMNIVNILSIEGSKEYLIFPKEYMRFSKVIQKGNIICFKSNRVENNKYNIVNAFKINDFSKYNISVKINEDFEYKEEFKKYILEHRGNDILNIYFGEKNKKNIKQINLNKEFIKKMIAFLGKENVRLQIKT;locus_tag=LOCUS_14940;gene=dnaE;EC_number=2.7.7.7;note=WP_011017116.1 DNA polymerase III subunit alpha (Fusobacterium nucleatum) [pid:34.4%25%2C q_cov:99.4%25%2C s_cov:99.2%25%2C Eval:1.1e-174],MGA_1509
sequence1	MetaGeneAnnotator	CDS	1626590	1627705	.	-	0	ID=MGA_1510;product=cysteine desulfurase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010906171.1;translation=MKVYLDNAATTKILDEFKEELLNIYTTYFANASSLHSPGKKTRYMLEKSREVIAKDLNVLTNDIFFTSGATESNNMILKGVALSKGKGHIITSSIEHLSILNVCKYLEEKGFTLSYIKPNNKGIIEAKEIEKNLREDTILVTVMAVNNETGVRMPIEEIGNMLKEKNIFFHSDMTQLILREKLDLALFNVDAISASFHKFHGAKGSGFAYISSKHSIEKYIHGGHQEKNRRAGTENVHSIIFSAKVYEYLSNNIENNIKYIKNLRDYLIQNLEKFGDKIILNNSENTIPHIINIQIKDEDIEYLLPLFDMRGIFLSGGSACQSGAMKASNVLMEQGLSEKEAKSSIRISLSIQNKKEEIDYFIKVLDDIIK;locus_tag=LOCUS_14950;note=WP_010906171.1 cysteine desulfurase family protein (Lactococcus lactis) [pid:41.6%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:7.2e-76],MGA_1510
sequence1	MetaGeneAnnotator	CDS	1627850	1628092	.	+	0	ID=MGA_1511;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFLLLTINLFAFIFFGIDKFFAINNISRISEKTLLSLSFLGPFGAIIGMNLFRHKTKKLKFKSVYLFLLLHLLIIYYLKY;locus_tag=LOCUS_14960;note=WP_221875345.1 DUF1294 domain-containing protein (Mesobacillus maritimus) [pid:47.6%25%2C q_cov:77.5%25%2C s_cov:72.4%25%2C Eval:4.0e-07%2C partial hit],MGA_1511
sequence1	MetaGeneAnnotator	CDS	1628133	1628282	.	-	0	ID=MGA_1512;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFIYTFILISIFSCSSVIQEYKEENIKDELINSSHSECGCVDGEHNH;locus_tag=LOCUS_14970;note=MGA_1512
sequence1	MetaGeneAnnotator	CDS	1628295	1630262	.	-	0	ID=MGA_1513;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKILVSFFLFFSMVMANFKGEIKIGIEENREGLFLQNSFKREFLNDVIERKISPFKINLSYSDNIGVEFAINKNKSNKIRIDTYNYNLGLNLKTPEFKKVRFGYGFKYNIGDDVYHKVRDNNILHKISLEYDNKLKTNFNIEKIENEILSKELGIEYILKDLGITLVYKHKKTEDETRHLIDMKNKQSKISSEDDGHNHGGHLNELSKLEFSIRHAESEYGGKYKFRNNSNYFSINKKLNILNNKIDFTASYRKSNLHSNLANKIVSKITGKNLVLDALLKREIIKNFDFNIGTKFTYLNLNQDIFVKENNRGRKNFELELLGSNVYKGINEIEGTLKTTLTYFYPLNKKFNLLLGMDNNFTLNARYQDVYEQAYNNRKNAYEGEKQRIKNMLENQTEDDKKKREEELKKLKENIDKKQKEIDDYKKKKDFTSEIENALEKQKSRRDDLEDRKKEIKDEIKEKTYDKIEEYFKEKLEELAKLEKENNISSKNYSSFLMVSREKTREKRKEKIKEISDKLNINDKEKFAEKYEKLLEYRGNGLYASVKSKILIDLTKLNNKKNMEERKYNEKYNEFNVDENVKKALDILDESKKLTFAFKYINRSYVALRYEMIDNLYLNTSFSTTLELNKKLKKGSKLKHHIHLNPKIELRYVF;locus_tag=LOCUS_14980;note=MGA_1513
sequence1	MetaGeneAnnotator	CDS	1630446	1630679	.	-	0	ID=MGA_1514;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005891822.1;translation=MKPVAEFKKRKRRPKVKFKIEDIDYKNVDLLKNFMNDKGKISPSRVTGLDAKIQRKIAKAIKRSRQIALLPYTKIEK;locus_tag=LOCUS_14990;gene=rpsR;note=WP_005891822.1 30S ribosomal protein S18 (Fusobacterium) [pid:59.5%25%2C q_cov:96.1%25%2C s_cov:100.0%25%2C Eval:3.0e-18],MGA_1514
sequence1	MetaGeneAnnotator	CDS	1630696	1631100	.	-	0	ID=MGA_1515;product=single-stranded DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005902513.1;translation=MNYVSLLGRLTRDPEVQYTGTGKAYLRFSIAVQRDSNREEVDFINCVAWEKRAETIGQYFKKGSRILVTGKLSVSNYETKEGEKRTSTDVVLSSFEFIDSKSDSSGGSREFTPSKSFEAPKEEILVDEEDDFPF;locus_tag=LOCUS_15000;note=WP_005902513.1 single-stranded DNA-binding protein (Fusobacterium nucleatum) [pid:43.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-24],MGA_1515
sequence1	MetaGeneAnnotator	CDS	1631131	1631412	.	-	0	ID=MGA_1516;product=30S ribosomal protein S6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_023040534.1;translation=MTNYEIMFILSTQLTEEEKKANVEKVESILTQAGATEVKTEIMGDRKLAYPIKKKENGYYVLTKFSMDGTQLTEVEKKLNISEYLMKYMIVKL;locus_tag=LOCUS_15010;gene=rpsF;note=WP_023040534.1 30S ribosomal protein S6 (Fusobacterium nucleatum) [pid:52.2%25%2C q_cov:98.9%25%2C s_cov:97.9%25%2C Eval:5.0e-21],MGA_1516
sequence1	MetaGeneAnnotator	CDS	1631515	1633302	.	-	0	ID=MGA_1517;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNNLLVGLAFISIISYADTSSSSTNPTLGNGSKANGESSLALGINSNAEGKHDVAIGTNAQTNKGGNKGSNGGAVAIGSNSKADGDNAFAIGNGAIAEKSSSMSFGGKASGTGATNIGYSGESTGDSAVSIGYSAKSKESYATAIGGQSEASKTLSTAIGSASKAKNQSSTAIGASSEASYDNAIAIGASSKTDSKATQESSAKIGDFTYSGFSGEAGTDGHQVSVGAKDSERQIKNVASGKVSKDSTDAVNGSQLFSTSKALENLANSTKKILGGNSKITKTGDNIANIDMTNIGGTGKNNIDDAIKAAITEVKSENNSSIIVKSTTGANGNKVYTLDTKIDNKTILKDGSGNLNVNVGTIIKSENNGKIEYKTDDNEKIAKTGDVVNAVNGLGNNIISFGGDVGSTEKQTLNKTGGMKFNITGSKYITTKASGSEVNVDLSEKVKEDIEKGVSAHSGVASAVAMANLPQVSPLGGHRHNIAGSYGFFNGEHAFALGISGLNEKSNLVYRASGSLNTKGHISLGAGLGYQFDKLEARKKDILTLQRNGNINMLDEKVYEHELKIRSLEASNKELRKELEYLKEIIKNLNKNI;locus_tag=LOCUS_15020;note=WP_133116924.1 YadA-like family protein (Paraburkholderia acidicola) [pid:28.3%25%2C q_cov:85.5%25%2C s_cov:32.4%25%2C Eval:1.9e-34%2C partial hit],MGA_1517
sequence1	MetaGeneAnnotator	CDS	1633582	1637583	.	-	0	ID=MGA_1518;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKNFKIEGELKKRLKRKINISKGLIIAFLITGSFLSNISYSEDYEKDPTENQQGVDGTDGFTRGNSAKIEYDPKGVPKILDNKVPGNTLDTTKKRGTGVALGAFSYAGQGGVALGSHSSSKGAVFGVGIGFQARATKASAIAIGAGSYAEGYYSQAYGRSATALGNESIAQGVTALAKEKGSIAIGTNATSSGENAIAIGSSARERNALYQTDSKKRVDASGKNSVALGHIAQASGENALSFGYKAESTMMGAIALGSESKTTVDKGVMGYVPSADKTLSGNAWQSTHAALAIGNGSTVTRQITGLAAGKEDTDAVNVAQLKALATKLEDDKKTYFHVNTGTHNGGNKSSNLGKIGEAAGAEGKYSITAGMNANAKEEASIAIGYNSKSLKKHTIAVGMHANSEGEASISIGYGAKTSNNYSISLGRYAESKGTDSLSIGSESVAEKNSAIAIGRKAKSKEDNSISIGQSSQSFKSNSITFGTSAMTNGESSIAVGTNSKSEGAHAIAIGKESRSEKLDALSIGHQAVTTAERTIALGSYSKATKDYGIAIGLWSEAAAMNAIAIGGNAMSKASGSIAIGVSSKVEEDAINGIAIGKSSKSSKEHSIAIGTNTEAKDDGAIALGDNAKAVKNAISIGKESKSSDENSIAFGYNSEAKGKHSISIGAYAVSENTNDISLGLYAKAKGGKSIAIGQSSEALKSDSIAIGRHSKVTVDESVAIGSESETKTPVASLNVTIENLKYGNFAAPNVSHVVAIGSKNKERQLQYVGAGQVSKDSTDAINGSQLFATNNILGKFANKTKSIFGGNANLAENGELTFTNIGGTNKDTIHEAIKSLDDKITKSIAEYGFNVMAGKEGTGTSSGENKTKLLKDELLTLKAGDNLSITQAGKDFTYALSKTLKDLTSAEFNGTSGGKVKITGDEISINNGSDKVKITKDGLDNGGKVLKNIGDGKNDTDAVNKKQLDEVEKKIDTSKKELENKIDESKKEIEKNKKEIENKIDETKKELEKKIEDNKKEVDKKIDETKKELEEKITKNDEKIESTKKDLTDKIDKATKTLKTDITANSGEEANKTKGPVTLTSKKSNEGHNIYDISLSTTQLKSSSGGKVEKLSDEDSKKVANAGEVSKAINALGNNSISFGGDSGETDKQSLNKDGGLNFKISGSGYIKTEAKGNEVKVDLTDKAKKDIEKGIAANSGVANAIAMANLPQMSGIGHNLSGSYGYYNGEHAFAIGLSGMNDRANLVYRASGSLNTRGHISLGAGLGYQFESVGNRNKEMLKLQRNGNINLLDEKVYELDKEFKVLEEKVKVLEENNKTLENRINELERLMQKNK;locus_tag=LOCUS_15030;note=WP_011035898.1 ESPR-type extended signal peptide-containing protein (Xanthomonas campestris) [pid:26.2%25%2C q_cov:65.0%25%2C s_cov:34.6%25%2C Eval:2.1e-61%2C partial hit],MGA_1518
sequence1	MetaGeneAnnotator	CDS	1638066	1638467	.	+	0	ID=MGA_1519;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVVRIRGIIEALVVCVGSKGIRYYQITAIDEYSRKRVLKVVKGKSTYETSKYIKELERAIGFKIETIQVDNGYEFVNDKDVTDREDGKILYSRKEFRSEEELIENVKRHERLYNNRAKTVLNFKSPNEVVRE;locus_tag=LOCUS_15040;note=MGA_1519
sequence1	MetaGeneAnnotator	CDS	1638694	1640397	.	-	0	ID=MGA_1520;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVALTLSSIISYSNPSTPSPSNPTLGDGAKATGESSIALGINANASGKHDVAIGTDAKTNTGENKGSNGGAVAIGANSKANGDNAFAIGNGATAEKNSAMSFGGKSSGTGATNIGYQGESNGDSAVSIGYSSKSKENYATAIGGQSEASKTLSTAIGSAAKAKNQSSTAIGASSEASYDNAIAIGSSSKTDSKATQEKSVIIGDYTYSGFAGEAGDDGYQVSVGAKDKERQIKNVAAGKVSKESTDSVNGSQLFATNNALSNLMKTTKTILGGNSKIIKTGDNIGNITMTDIGGTKKDNINDAIKAAITEVKAENKSAIDVKSTTGPNGNKIYTLDVKVDNKTIIKDKDGILKANVGTITTQINNGKIEFKTDDNDKIAKTGDVINVVNSLGNNTLSFGGDSGVTEKQSLNKSGGLNFNIKGSKYITTKASGSNVNIDLSDKVKDDIEKGVASHSGVASAVAMANLPQVSSLGGHRHNISGSYGYYNGEHAFAIGLSGMNNVGNLVYRASGSLNTKGHIALGAGLGYQFKSVSESDNEVKVLKENNKILETRILELEKLVKELMKK;locus_tag=LOCUS_15050;note=WP_133116924.1 YadA-like family protein (Paraburkholderia acidicola) [pid:29.2%25%2C q_cov:88.4%25%2C s_cov:31.9%25%2C Eval:4.8e-35%2C partial hit],MGA_1520
sequence1	MetaGeneAnnotator	CDS	1640689	1643886	.	-	0	ID=MGA_1521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKNNLIAFLIVISSLSYSRNNGNNLNSYTIFGSNSITTDTHNVQIGKDSKSEEDKKSIAIGSSSMSRGTNGVAIGNKAHAGAMPNLSNDVENTVAIGTDSKATALDAIAIGNKAHASTKYGIAIGTETKTDGIGAISLGYKSEANSDSIAIGKEAVGYGKGIALGENSHSRRYSVAIGYMADSKGVYSYGNVVIGSESSTDENLNFSTAIGYKAKVEESYSTAIGSSSIAKKRDDRLGYDMFTNKVVKLEDKLEKADKSKYTKLKEEIEKLKAEKGTLDKDAKDIIDKAYNSRTEDEKNKLTELNKKITSKITEINQKYGEYYKIVNVWEATYGEVSIGDAKNGITRQITGLAAGKEDTDAVNVAQLKSLYNKFESENKTYFHVNSGENKDTGDKDTNLGKIGEAAGATGYGAIAVGIKTKASGLNSIAIGKSSNSSGDNSISMGIDSKASGLTSMAIGVDAKASGITSIAIGSNANASGFGAISLGLSSSSSGMHSLAIGQLAKASEEKSVALGSESETTKAVATKDIEINGIKYGEFAGKTPFSVISIGYKDRERQLQYVAAGQISKESTDAINGSQLYWTNNVLGKFIDSTKSILGGTVYVIKSGDDAGKLTMNNIGDTGKDNIHDAIKHLKESITFNVMAGKDGTGTALGTIESIKIKKDEVLTFKAGDNLTITQNGKDFIYALNKDLKGMNSIKFGDDDSVHISKDGLNNGGKKITNVADGKDSTDAVNKGQLDKLENKISETKTEIDNKIKEIDKKLDEKIEKIDKKIGDTKKELTDKIDNVTKTLKTEITANGGETENNTKGSITLTYKKSDAGHNIYDISLSTTQLKLSSGGKVETLNDEDTKKIANAGEVAKAINTLGNNTLSFGGDSGVTEKQSLNKDGGLNFNIKGSENIKTKAKGNEVSIDISEKMKTDISKGVAANSGVANAIAMANLPQVSTIGDKRHNIAGSYGYYNGENAFALGLSGVNETGTLVYRASGALNTKGHVSLGAGLGYQFDNIGKRSKEILKLQRNGNINLLDEKVYELDKEFKALKENNKTLESRIAELEKLMKELRRN;locus_tag=LOCUS_15060;note=WP_004536696.1 ESPR-type extended signal peptide-containing protein (Burkholderia pseudomallei) [pid:22.2%25%2C q_cov:58.6%25%2C s_cov:37.8%25%2C Eval:5.6e-30%2C partial hit],MGA_1521
sequence1	MetaGeneAnnotator	CDS	1644131	1649572	.	-	0	ID=MGA_1522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKIQELRRFLKSSLKNKVSVNEKTVLRYMMLGFVGLSTISNGAWLAINETNGTVGTSTNGSSPQGENNTKNNIILSKYDSSYNTDHSVVIGAGGKTYAKRKENVVIGYNAQSEKQQSVVIGANTKSDLQNSVVLGNNSYVYKNNFNTNNGVTDDDGQGVAVGNSVYSTAQATSLGNNTYAIGRSSIAIGNDDVSSYVQPVTEYDYKNYFKNLYDKIDNKGDTYGYANGKKVQGKEENHKWSPTLAQGHGSIAIGSRSIAYADGSTALGTLAYALKNGSTAIGTLTRAEGEGAIAIGRETNVFSNNAISAGNKTLVLEEGGAAYGLQAVSGGKNSIAIGTDVYSNVDYDYDSKVILGGSQRSGEWRLFGDLANYGQVGSTEDKRGLYGFDLNGVAKTILGIAEDQPRDNIPDAKKGDYLKSGDYFSYYKNYIDGIENGLTNAKTKDTKETTNSIRIKTQEKKGVKDIAKGNGKNAIVIGSKSGAFGDNAIALGRGSFSLKENSISIGSYSYTKDKNAIAIGIASRALAEGSVTFGNGAGVDISGKNSMVYGHGSVAYAPNSIILGINSRLWDESDAGDSIIIGNNANVYGLNGKKGHKGKSVLALGNETLASLDNSVALGFKSQTDYNQEDLDKPGYTARGSYSIPSSAKVGVISVGKKGYERRIINVAAGYRDSDAVNVAQLKTLEDRLDGATEEADDKVRYFSVNTENDLSEIARKKIDYKNYVKLKVQKLTVEARKKAGDQINEENVKGLEEKLKKIEDKAGIKDKATSINALVDMNNHKYMNNGTFDIDKYMEDLEKAKESDLSETTLNSVLSDEEKTKLSSNNYDNKGAKAKDSIAIGYDASTETGAENAIAIGMGAKATSKDSIVLGSYSKNTATLTNAGYDFETKMTSNLTDSTWKPTKGELAIGDGTTNTRRITGVAAGDKDTDAVNVAQLKKVTSGLLNDKELLTFIGNDTSKEVKVKIGEKLNIVGEGTVANGTAANNIKVTADSNSKKLTIGLAKNLVDLESISVKKNGNEIKISSDKITVSKNGEKVEITKDSLMGATTVGKDKDNSIMFGSGTDDKATTKLKVAGKELTFTKSGDNIKISNVANGIEDKDAVNVSQLKKYVEALGGNAKIDDKGNVTGPKYNLKAGDENAKDYTNVGEAIKALDDAINKSSDSIKDITNKEISFYGNDGEDKKVSKKLGQSLAIKGEGTVANGTAKDNIKVEKSADSNGLDIKLAEDLKNLKSIETKKDGNKQTKITTDGVEVTNDKGKASLTGDKLTFGAKDANSADKTSTTIEKSGVTVKGKDGKDAVSIKSGENGGTIVVNGKDGKDSIKIDGDKGTITGLKDIAHNASGDTVVNKNYVDNKIKEIANGPFEYETKDKKEKVIRGQDGKLYKEEDLKKHYYDEKTSSYKPKNSGSSEQLTAVDSKDVNVNLMPKGDGKKPISIGNVEGVLGENPTDEKVKDLLSNKNGVADNSKNKVATGSDILALAKAGLNFAGNTGAGDEIHRNLGEKVTIKGEGTDSKNDFNSASGNIQVKSDKMDGSLTVKLSDKLTNMTSFETKDLDDNGTKSKVKLDKDGLTSIKKTDDNKFIQSKIGVDGINIGKYDNEPNNNSQPTESAKYTIGGTTIKDGKGESNLTSTTLSFKDNNGKIKGLADPVEENDAVNKRYVDNKIGIALNGVANAVAMANLPQVSAIGDKRHNIAGSYGYYNGENAFALGLSGVNETGTLVYRASGALNTKGHVSLGAGLGYQFDNIGKRSKEILKLQRNGNINLLDEKVYELNNEVKALKEENKAIIEKNMNLENRISELEKLIKKLIEK;locus_tag=LOCUS_15070;note=WP_001033293.1 YadA-like family protein (Escherichia coli) [pid:23.9%25%2C q_cov:72.4%25%2C s_cov:73.4%25%2C Eval:1.8e-39%2C partial hit],MGA_1522
sequence1	MetaGeneAnnotator	CDS	1649597	1650091	.	-	0	ID=MGA_1523;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MISINTFSNNIDYYDLIINQRLNVITGIKKIYSKKTKFNILANVISADEILRQISKYEDKKIKDLHLYFPNLDYVEKYIEDVSKKVSNIHIYLLNFKNDDRYMKNRDYITYEIKGINKKIEKLSNVKVSKVSVIGKDLTELFLESLTEEKVDEKYFNKYIKIDK;locus_tag=LOCUS_15080;note=MGA_1523
sequence1	MetaGeneAnnotator	CDS	1650477	1650950	.	+	0	ID=MGA_1524;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKFLFFTFLIFGFNILGNNKEVKFSKKEALTKAISHSENGIVNSVELDYVKNNPVWKIEIIHSHSKKEFKIDATNGKILSTKVDYEKIIQDTDKDILNINDIKIIVSKKTKHPVYTEIYLDKKLGKKIYEIQVLDGNNEISFTIDAHTGEILKFNK;locus_tag=LOCUS_15090;note=MGA_1524
sequence1	MetaGeneAnnotator	CDS	1651262	1651939	.	+	0	ID=MGA_1525;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901930.1;translation=MKILLVEDEIDLNNIIKKYLKTSGYIVDSVFDGEEALFNLNEASYDLVILDVMLPKLSGFEVLEKMRKKNNKAAVLMLTSKDQVEDKIKGLDLGADDYLSKPFDFEELAARIRAIIRRRYDNLSSEIKIHDLILDTMKKTVIRNNVNIDLTGKEYEILEYLMQNKERIVSRDQIKDHVYDFYYEGSSNVIDVLIKNIRKKIDLEGSKQIIFTKKGLGYVVKENEN;locus_tag=LOCUS_15100;note=WP_005901930.1 response regulator transcription factor (Fusobacterium nucleatum) [pid:64.3%25%2C q_cov:99.6%25%2C s_cov:100.0%25%2C Eval:3.8e-80],MGA_1525
sequence1	MetaGeneAnnotator	CDS	1651914	1653248	.	+	0	ID=MGA_1526;product=HAMP domain-containing sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_005901931.1;translation=MWLKKMRTKFQRHIPITLKVTLWYSSFILLLMISSIILTLILSSSLGMSVSQQQLKKSVDDVAKYPEKFESFESGIFYINYDNSGEILAGKYPLGFNLKLKLEENSIRLYEKNDYQFYYYDSKIKNSNYWIRGVYPINHLAQDRDRTMAIIFIFSPIFFLIVVLGGKEILKRGFIPVKQISKTALDITKSQDFSKRIEIEEGSDEIHKMAKTFNTMFDSIEASYIREKQFNSNVSHELKTPISVILAESSYSLEHVNNLEEAKESFEVIKRQSKKMSELISQIMMLSKIENTYNLELVDLNLSTLVDNTLIDNSIIFKERNINLNKDIQKDIIISGNKIMLERMLDNLIDNAIKFTKDNVSVNLFKNDNKVVLEIIDNGMGISEKNIDFIFNRFYQENVSRNKGKNQGSGLGLSLVKEIVKLHHAEIKVESLPKNYTKFTVSFN;locus_tag=LOCUS_15110;note=WP_005901931.1 HAMP domain-containing sensor histidine kinase (Fusobacterium nucleatum) [pid:44.6%25%2C q_cov:99.8%25%2C s_cov:99.6%25%2C Eval:3.6e-104],MGA_1526
sequence1	MetaGeneAnnotator	CDS	1653375	1653644	.	+	0	ID=MGA_1527;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKFYLVSLCVSRIKNIFNPIKIDFLNSKNYNLENNRVKGIFGKNGIGKTAIIKSVEIIQNLILNPNFLSEKENILMLNKLIIKVRNLL;locus_tag=LOCUS_15120;note=MGA_1527
sequence1	MetaGeneAnnotator	CDS	1653671	1654108	.	+	0	ID=MGA_1528;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKFNHSIKLISLDNEIKIKEESLKIQQRNKIKEIKIINGEIILNTIKKDEIFENKTFNLLDKKSIITIAINLINEVKIKDYFDFIDFYFSISVFSQTSDDYRKFINTKEGFEKFKDTVISASYKDFDDFELTIPKEDKILLEI;locus_tag=LOCUS_15130;note=MGA_1528
sequence1	MetaGeneAnnotator	CDS	1654136	1654618	.	+	0	ID=MGA_1529;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYFINDLKDIEIIKKEDISSYKLNYVLLYENYKVDLKFESMGIKNLFDLYDYIHSAYYGEIVLIDEIDLSIHDIYLNKLIEFLGKMGKGQFIFTVHNISLLDTLKKFKKSIFFINDNQEIINWVKRGNSSPRTQYKDGYIKDLPFNIDYFDYVSFFEFE;locus_tag=LOCUS_15140;note=WP_011016886.1 ATP/GTP-binding protein (Fusobacterium nucleatum) [pid:36.0%25%2C q_cov:83.8%25%2C s_cov:33.6%25%2C Eval:4.7e-15%2C partial hit],MGA_1529
sequence1	MetaGeneAnnotator	CDS	1654868	1655215	.	+	0	ID=MGA_1530;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKKLILATLLFVPFLGFSQENEVEGIKETKGIVLINEDKNEFIIPSDDIVQTGVKGAAVGGYVGAKAGAVIGAAVGGPIGAEVGSFVGGAVGGYIGDKLGDKISDKLEENNKNN;locus_tag=LOCUS_15150;note=MGA_1530
sequence1	MetaGeneAnnotator	CDS	1655225	1655383	.	+	0	ID=MGA_1531;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFFLIDIVFWIILTRIYFYFGNYKNKFIREIIFILSILIFYILKFHFLNEI;locus_tag=LOCUS_15160;note=MGA_1531
sequence1	MetaGeneAnnotator	CDS	1655647	1655814	.	+	0	ID=MGA_1532;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKKSYLPTLVMSISVGFVIYLLDKTNLSHNQQLIGIGLYSFIASIVKDKLINKH;locus_tag=LOCUS_15170;note=MGA_1532
sequence1	MetaGeneAnnotator	CDS	1655854	1657209	.	-	0	ID=MGA_1533;product=PFL family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_007053739.1;translation=MNVFEINETNKMIQKDNLDVRTITLGISLLDCVSDDIDIFCDKIYNKIYNLSKDLVKTGEEISKEFGIPIVNKRVSITPISLVASGCTKTIDDYVKIAKTLDDVAEKVGIDFLGGYSALVSKGMTPNEELFIKSIPRALKETRFICSSLNLGSSKIGLNMDAVKLVGEVIKEIAEITPNSFGCAKFVVFCNAPDDNPFMAGAFHGVSEMDATVHVGVSGPGVVASAIKEAKGKSFDELCEIIKKISFKITRVGQLVANEASRRLNIPFGIIDLSLAPTPAIGDSIGEVLEFMGFEKVGAPGTTCALALLNDSIKKGGVMASSHVGGLSGAFIPVSEDANMIEAAKIGALSLEKLEAMTCVCSVGLDMVAVPGTTSAATLSGIIADEMAIGMINQKTTAVRIIPVKDMVEGDMVEFGGLLGRAPIMKVNPYSCEEFINRGGRIPAPIHSFKN;locus_tag=LOCUS_15180;note=WP_007053739.1 PFL family protein (Bifidobacterium longum) [pid:67.8%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.4e-180],MGA_1533
sequence1	MetaGeneAnnotator	CDS	1657212	1657484	.	-	0	ID=MGA_1534;product=ACT domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_003812009.1;translation=MKRTIITVVGLDKIGIIAKICNSLAEVDINILDISQSILEGYFNMIMIVDVTKSSIEHIKLQERLDLIGKELDIQIKAQKEEIFQSMHRV;locus_tag=LOCUS_15190;note=WP_003812009.1 ACT domain-containing protein (Bifidobacterium) [pid:48.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-20],MGA_1534
sequence1	MetaGeneAnnotator	CDS	1657497	1658945	.	-	0	ID=MGA_1535;product=leucyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_002681245.1;translation=MKYNVGLENVKNGLEAVLVYENETIDNVVFNKMSKLGLFSGKEGEILIYRDLEDKEKIALIGLGKKEEITIDKVRKIFYKLAKEMQAKKEEEIKIYIPKLNGLCTRRTYGAALEGMVHAEYKFDKYKSKKVDLKEITVNFFIDAAKEEKVKKELVKITNTMEGIFFARDLVNMPAQDLYPETLANFAKEKLEKVGVKVTVLEEDEIEKIGMKAFLSVARGSENRPRFIIMEYLNNNESSEKIALVGKGITYDTGGYSIKPSDGMKTMFCDMGGAGTVIGTMFALAKNNIKTNVYGVVAACENSISGNSYKPGDIIGSLAGKSIEVDNTDAEGRLTLADAVYYSSEILKVDKIIDLATLTGACLVALSEFYTGSVTNNQELFNEVLEASKKAGEPIWQLPTSDDFRALNNSVVADIKNSGGRLGGTITAGLFIEEFVNKTPWVHLDIAGTAFLSKANGYLPLGATGVHVKTLVEMLDKHCGCK;locus_tag=LOCUS_15200;EC_number=3.4.11.1;note=WP_002681245.1 leucyl aminopeptidase (Treponema denticola) [pid:52.4%25%2C q_cov:99.0%25%2C s_cov:99.6%25%2C Eval:1.3e-134],MGA_1535
sequence1	MetaGeneAnnotator	CDS	1658961	1660580	.	-	0	ID=MGA_1536;product=Na/Pi cotransporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_000026641.1;translation=MTQVINYREMIFTFLGGLGLFLFCIKYMGEGLQLMAGEKLRYILDKYTTSPFLGVLVGVFVTGLIQSSSGTSVITIGLVGAGLLTLRQAIGIIMGANIGTTITAVIIGFNISRYALPILFVGVALLTFTNRKSINNIGRVIFGFGGLFFALSLMSKAMHPLRSLPAFVDLTVDLSKNSLLGVFIGTVLTMIVQSSSATVGILQNIYHDNLITLRAALPVLFGDNIGTTITAIIAVIGASSAAKRIALSHVLFNVIGATIFMIFLSPFTLFVEKMSKFFHLSPKLTIGFAHGTFNILNTILLFPFIGVLAYIVTKVIKDDKIDEEYTIKYLDRALIQTPSIALGQVKQEMLLMIEVALENLKKSVEFFHTHDEKLAEEIKRREEGINTLDREITKYLSDLSRENLSEKEGEELGIYLDMCRDVERIGDHADGILMDVEYEIRKSLKFSEYAHNEINNMLQISTEMIECAIEAIKHGNKEKVFEALDLHNRVYAYEKKIRKNHIKRINLQECEIHAGLSYIDLISHFTRVCDHARNLVEKV;locus_tag=LOCUS_15210;note=WP_000026641.1 Na/Pi cotransporter family protein (Streptococcus pneumoniae) [pid:51.1%25%2C q_cov:99.3%25%2C s_cov:98.7%25%2C Eval:2.9e-151],MGA_1536
sequence1	MetaGeneAnnotator	CDS	1660580	1661677	.	-	0	ID=MGA_1537;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLIVGLGNPGNEYEKNRHNIGFIYLDKYLKANNISNLKEKYKSLYTKELIKNETVFFQKPQTYMNLSGEAIKELISFFKINPKKDLLVIYDDMDLKLGEVKIKNNGRSAGHNGINSIISHIGEEFIRIKVGIGKPNNKSVISHVLGNFTEEENIILNKLDQHIFKIINAFISNNDIEKLMSKYNIKKKENSKSKFKLRKAKLEDIDQILKIKDLAIDYQKEIGLIQWTDKYPLEEDFKNDIDLKRGYVYEKDNKIYAYASLNYGIDTMYLKAYDGHINNEIDYSSIHRVMVDKNEMNKGIGKEFLEKLIRVSTKDSKFVVRLDTHKDNKSMIKLINKLNFKYIAKVHANDETERNVFEYTLGGN;locus_tag=LOCUS_15220;note=WP_011015693.1 aminoacyl-tRNA hydrolase (Fusobacterium nucleatum) [pid:50.8%25%2C q_cov:50.7%25%2C s_cov:96.3%25%2C Eval:1.3e-50%2C partial hit],MGA_1537
sequence1	MetaGeneAnnotator	CDS	1661807	1662019	.	+	0	ID=MGA_1538;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEILVKFDDKEKEQILKYAKSHSLTLEEVFKRALFEKIENEFEIYLAEKLYLDYMKKEKKNSELFKNLDV;locus_tag=LOCUS_15230;note=MGA_1538
sequence2	MetaGeneAnnotator	CDS	4	1920	.	-	0	ID=MGA_1539;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSIAKQVKIFSNFKKKSTKVSGSRQQIIDIAGEYERIGEQKNPDINLKLSGENIILKKFDLEEYDNYILNTDYSLNKDTSKFEDFYSTTPTIQATNFVNLGGINLTFLASKDEWTEFYKDVSQFIKNYMGEDYRILSEVIQFDEFTPHLQIMGIYRTEIKSSDEKDIRNDKELFEKVASNKFTRYNSSLKGQENYTDPKSKKLYKHAKEKWIEENREEIIKSYKPRNKKTDMKYCFTTTKTIAAKSNSYQDYQNKLFNFCKEHKFIKELCKKATEIRGEEVEFVKNSTEKVYDGKSKDHYEIKETIERENKNIEKKILKREPLTEIEMYRYIRKRNREKLKEEFMELDKEEWRELFNKKIETKFDFNAKIQHDYIALAKEIEYKEYLKLEEEKLKAQKEKEESIIENKKIIEDLKSQKNELQQVKDEKENIRGQITKFTNTDKWVNIQMLEKIYNEKSEHKKGMFDSTPMITTTKENYEYIFRMAKDNSSKLSSFKNSLAEKEFLIANLKEKYQRLEEIKNSELNSKNEKIKQLESTIRLRDNEITNLKQEKKKIEKELDEVKGELTWYKRTLNVIQNVMKYVPNLKKIVDKIIDKVSNLSNYYDENNATKEINVELGFEEPESAWNKIKTQGKTLER;locus_tag=LOCUS_15240;note=MGA_1539
sequence2	MetaGeneAnnotator	CDS	2336	3124	.	-	0	ID=MGA_1540;product=ABC-2 family transporter protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011674905.1;translation=MKRYLKLFFLYLYINIKELKSYGIDFYLGSIAMFLKNISNLFLIFFIYNIVNVINGWNINEMIYLYSIVTISFSIWRCFFINTLNISYYIINGKLDILLIKPLNPLFLIFMEGFDEDAWGDLAVGIIIYFYISFKLNLPILNIILVFIIALLGGLVFSGISVIGSLFSIIFLGSSNFSDLPYIIYEFSKYPINIFNPVISILFKTIIPVAWIGYIPAYINLKDGNQNLIIVFLISVFITILYFIIVVLIWNNVLKKYSSSGT;locus_tag=LOCUS_15250;note=WP_011674905.1 ABC-2 family transporter protein (Lacticaseibacillus paracasei) [pid:37.0%25%2C q_cov:98.1%25%2C s_cov:98.1%25%2C Eval:2.0e-49],MGA_1540
sequence2	MetaGeneAnnotator	CDS	3126	3890	.	-	0	ID=MGA_1541;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKYIELIKIGGKKILSYKGLITTLIIKNYIYIFLQYSLWLSIKENSSINIDIKNILVYFIIIRSVNSVNFNLSQYMSYDVKNGNIVGILTKPITVEKYYFFDILGNTIAKVLAILIPNILIALFLIGKFNIFFIFKLIIIIIGSYVLNFVIELILGTFSFFTQSIWGIESLKSIFMLILSGSFFPIEYYPEWSKKMLDYNPFVYIYGKIADFILYEKNFLKILFFQTFFVLILFCVYKSIFKLCLKKISINGG;locus_tag=LOCUS_15260;note=MGA_1541
sequence2	MetaGeneAnnotator	CDS	3883	4827	.	-	0	ID=MGA_1542;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEKIISINNLNKVYKIKKGFFSRSEIKTIQALKNINLEIYKGQTVGLIGLNGAGKSTLIKIILGILVPTEGEIKVFDKEPFENRIENLYNIGVIFGQKTQLRWDLSPLDSYKLNKALYDIPGEKFETLLNKYSEILELNSFIDRPVRTLSLGQKMRADLLSALLHSPELLILDEATIGVDILSKNKILKLIEELKKDTTIIYTSHNLNEVYEISDRIIILNKGEIVLDKNKDDILNDIEYLSIKIYLKSPLKYDSLKFREVKISKTNEYEYNFEFIRKDELKNFLDYIYLNNLIDYFEIKENNLEKILKEVSNG;locus_tag=LOCUS_15270;note=WP_002681592.1 ATP-binding cassette domain-containing protein (Treponema denticola) [pid:41.1%25%2C q_cov:74.5%25%2C s_cov:93.9%25%2C Eval:7.8e-49%2C partial hit],MGA_1542
sequence2	MetaGeneAnnotator	CDS	4828	6429	.	-	0	ID=MGA_1543;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINKFKNLIKYIEYHIIYFDKKKYIYLDETNMKLVFLSKKNNLKFSLTNAEFFYKQGQNYLYIISLNSNILLIKKINFHFKIQIKLYNLNRYYKERLEISNIFINENNELILFLEPINKYLIIGSKLRFKNKLFKKLISNKEYDFKYIDLVKRIYILKNENNNYESNLLDKLYYYIGIYNQIFIIVEKFIDYFIIKIIKLKKNIKSNKILGVISDILSFNNNIFIKYVFSGMTFCIHIDLLNLSEKLIINELKGKVNLYNFIDNKLIYKIDSLLFGEIIINKSSNYRNNIILRKYIYKDRIKIKEYYSENLKYISIFKDLNKEEEITLISCHGGPESFELLSNNYGGLYYKLLKEFPIKIIIFNYPGSISFGSEYRKLPYNDWKNVLNKSLNKLLEEDKTKKILIGGSFGGTVSLLIENSQIKNKILINPLLDLNNHIESIPTSYNKWFYKRFSNKDFRDINLNNILNLNLNKNLYFILGYNDEIINKRNILENSFQSKNFRFFWDEGTHNSNLKARSSRMFEIIKKIYKEGK;locus_tag=LOCUS_15280;note=MGA_1543
sequence2	MetaGeneAnnotator	CDS	6419	7927	.	-	0	ID=MGA_1544;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVELIVKDKILISFLGLKTIIYKLKMLEIEKNLEFKRACKILNLKFNDENLKFSLTSSAKIQNQIRFYTKNKIKREIIKIIKYIIRNYKNLSISINNYDKLDEGTKLFFNIFEELFPNNIKIIIENTDKDENIIYTDQEKEINYYLKNNFADKNVIEFLIKQTEYYLNIGDYYTALSILNFIEKKETSVKLYTLFSIAYNMKEDTIKSEYYLKKWYSYGSYEDKASCLYSLSILQARHMETYRRDYNLGLKYINEGYEILNNLRKPDNTRIEINKIFNRNGYAFFLFNDKKYDEAIELVKKLIEELEKFDINKTLLQKTVLLFNLGQCYTKANYLKEAIETYKKLILLDPYFAEYHIELSKLFLKNEQIEEALNELEIALDLDSTIPEIYSLKGFISLKNEDLKEAIFNYKEAYILDKNIEIIYDYIYILSENNEYKEALNIINNLNNYQKTDNIDIISLISEVYYNNDLREKAIELLNEGIRKFENNKILLENLEIIKYDK;locus_tag=LOCUS_15290;note=WP_020948717.1 surface-located membrane protein Lmp1 (Borreliella burgdorferi) [pid:23.6%25%2C q_cov:75.1%25%2C s_cov:34.0%25%2C Eval:5.6e-08%2C partial hit],MGA_1544
sequence2	MetaGeneAnnotator	CDS	8179	8634	.	-	0	ID=MGA_1545;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKFTYKEYMALKGIKSRNTLKKYVREGSVKEVKGEDGKLYIIDTQIDTSLIPFETQSIKSAPKIDSQNDIIKLLNFETENQNKKIKELEQEIKILNIQLENKNNFISRMEEEIKEDKLNYQRLFEQISETNKTYQLLLENKKNKKWYQIWK;locus_tag=LOCUS_15300;note=MGA_1545
sequence2	MetaGeneAnnotator	CDS	8710	10146	.	-	0	ID=MGA_1546;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSNKNVEYLTIEDKIQNFNEKNLFLEYNDIFDLDRIDLYGFYEFVFMRNNEYPFELKGKENYVEGQYNSIIVNIKKEKSFSKIITRDLEELPEFEGQDFVITSPITYIGRNRNSNNARYCYGIAFDIDGVFLSNLQDLLHQMRTKRLPIANLIVNSGNGVHLYYLFEKPIALFDNIKVLLKDFKYKLTVEIWNMYTSSISEKQVQGIFQGFRLPGTKTKFGEIVTAFKFNDIPYATIEYLNNFIYEEKKRLTMDQIAMINKSTYRHSKISLEKAKELYPDWYERRIVKGEKRGKWNIKRDLYDWWLNKIKGNEVKEGHRYFCLMSLAMYAIKCNIDYEELKKDSYSLLAPMENLTMNEDNHFTKEDIEDSLKAFRENYSTFPRKDIEKITGIIIPPNKRNGRKQKEHLLRARILQNLDFPNGEWRNKNGKPIGEGTKENIVIEYKKNNPNATMYRCQKETGLSKNTVKKYWNLIEIEV;locus_tag=LOCUS_15310;note=MGA_1546
##FASTA
>sequence1
ATTTTTTTATGCTACTATGTGGTATAAAGAAGAAAGGGATGGATTTATTCCAGAGGTACATATAGATGTTAGAACCGAGTAAATTATGGGAGGCTTTAAAAAAAACTTTAGAGGATAATCAGATTATTTTTTCTGATTATATCAGTCATAATGTTAGAGCTATAGATTTTAGTAATTCAACTTTAGTATTACAAATTGATGATTATAGGTCATATATAGAAATAGATAATATTAAATCAGAAATAGAGAAAAAGGCTAATCAAAATTATGGAGCATTGCTTGGAGAAATTTCTATAGAACTTCAAAAGAATTTTAAAGATTTTTTGAATCCTAATAATGTAAAAAAAGAAAGAATTTTCAATAATCTTAACAAGAAATTTACTTTTAATAATTATGTTATTGGAGATAATAATTTATTTGCGTATAAGTTGGGGATGGCTATACTTGATGGTAAGTTATCTAATAGTCCACTTATGATATATGGTGATTCAGGATTAGGTAAAACTCACCTAGCTCAAGCTATAGGAAATGAAATGATAGAAAAAAATCCTGAAAGTAAAGTATTCTATACTACATCTACAGAATTTTCCAATGAATTAATTAAAAGTTTTAGTGAGAGAACAACTATATCTTTTAAAGATAAATATGCAGATTTAGATATGTTAATAGTAGATGATATACAGTTTTTTGAAAATATATTTGGTAAAGGTGATGATAAGATACAAAAGGAATTTTATAACGCTTTTAATACTTTGCATATGGCAAATAAGCCAATAATATTAATATCTGATAAATATCCAGAAGAATTAACTAATGTTGAGGCAAGATTAATTTCAAGATTAGTTTCAGGAGCTTTAGTAGAACTTAAAATGCCAGATAAGACATCAAGAATTTCAATAATTAAAACTATCATTACTAAAGAAAATATACCTATGGATCAGGAATTAATGTATTTTATAGCTGATGAACTAGAAACAAATATTAGAGAATTAGAAGGATTTGTTAATACTATAGTTGCAAGAGCTAAATTAATGAATGAAGTAGTTAATAAGAAAATGATAATTGATGAATTAAATAAGAAAATAATTAGAAAGAAATGTTCTATAACTTCTGATAAGATACTTGATACAGTTTCCGTTTATTATAACATTGAGAAGTCAGAAATATTAGGTAAAAGTAGAAAAGCAGAAATAGTTAGAGCAAGAGATGCTTCAAGATATTTACTAACTAATATATTAAAAATAACTTTAGGTGAAATAGGTAAAATGTTTGGTTCAGATCATACATCAATAGTTAAAGCATTAGAGAAAATAAGATTAATGGAAACAGAAGATCCCAGTAATCAGTTATTAAAGGATATTAAGACACTCAAGTCAAATATAGAAAGTTAAGGAGATAACAGAAATGTTATCTTTTTTTAATGTAGTAAAAAATATTTGTTTTTTTATTTGAAAAATTGTATAATTAAAAGAAAAAATTTATAGGAGATTTAATGAAAATAAAAAAAGAGTACATGTATGTTAGTTTGTTGATATTTGGTATGTTTTTTGGTGCAGGTAATTTAATATTCCCACCATTTGTAGGTAAAGAAGCAGGAAGTGCGGTAGTAATTTCAATGATAGGTTTTGGTATTACATCTACAGTTACAACTATGTTAGGAGTATATTTAGGATTTAAAGAGAATATATTAGGAGAAATATATAGTAAGCTAGGAATGAAATTTACTAAATTAATTTTTTGTTTAGCTTGTTGTGCTATAGCAATAATAGCAATTCCTCGTGCAGCTTTAACTCCTTTTACTATGATGATTACAGAAGTTGTTGTTTTAGAAAGTAATGTTGAAATTTTTAAAATAATATATATCATATTATTTTTCTCTATGGTTTATTACCTATCATATAACCAAAGTAATATATTAACAGTAATAGGTAAAATATTAACTCCTTTATTACTTGCCCTAATATTTATTATTGCTATTACTACTTTTACTACTCAAAAATTAGAATTTTTATTTTCAAATGAAATGTATCAAAGTTTACCTTTATTAAAAGGATTTTTACAAGGATACAATACTATGGATAGTTTAGGTTCAATAATAGTAGGAATAACAGTAGTAAACATTATTAAAAATAACTATAACTTAAAAGAGGGTGAATTAAAAACTTATGGTAAGGTTGGTGTAACAATTGCAGGTATTTTAATGTTTTTAATTTATTTAATACTTGGAGTTATTGGAGCTGGATTATCTAAAAACTACACTTTGGCAACTAATGGAGCAATAATATTAAAAGAAATAGTAAGACTGTTATTTGGTAATTTTGGAATCTTTGTTTTAATAGCAGTGTTTTTTGTAGCATGTTTAACAGCTTGTATTTCAATACTTACTTTCTCTAGTGAATTTAATTATGAAGCATTTAGTAAGTTTAAATATACTCATTGGTTGAAATTTTTCATAGGATTATCAATACTTTTATCAATGTTAAGTTTAGATATGATATTAAAGCTTTCAATACCCATACTTCTACTTATATACCCAATAATACTATCTATATTATTATTAGAAATAACTAATGAAAAAGATAAAAGAGTGTATAAAGGAACTATGATTTTCTTAATAATTTTAAATACTGTAACTATTATTAACTCTATTGTATTTAAGTTAGATATAATTACAGGGCAATTGATGAAATTACCTTTCTATAATGATAATTTCTCATGGGCAATACCAACAGTTTTGTTTTACTTTTTATTAAAGATAGTATATGGAATAAATAAAAAATAAGATTCTTCTTTTATACAAATCTAATTCATTGACAAAATTAGTTAGAGAGAGGTATAATACTTATAGGGTATATAAAGGAGAATAATGAATGAAAAAAATATTATCAATCTTGTTAATGGTAGGTTTAACATCTTTTGCTGCTAAAGTAACAGGACCAAGATACAGAGTGGAGGGAGCTTTTAGTACAGTTTCACTTTTACTTCCTTCAAGGGATAGTTTTGTGAAAATAAATATAGATGTTTCAGCTTCAGCTTCATTTTTGCCTGAATGGAAGGCTCAAATTAATAGAAAATTTGATATTACTTTTGGACCAAAGATTGCAGCTAATCTAATAACTAAAATAACAGGTGATGGAACTGAAATCTTTCCTAATGGAACTATAGGAATAGAAACAGATTTTAATTATTTGGTAAAAGAAGATGTAAAAGTATATACTTCTATAGAAGCAGGATTAGGAGCAGGTTCGAATATAGTTATAAAAAATAACAGTACAACTCCCGAATTTAAACCAGCAATTATAGTTAAATTAGGATTAGGAGCAAAAATAAAAGATAAATACAATATTGGAGTTTATGCAGGATATGGAAAAGGATTACTTGGAATAGAAGCAGGATATACATTTTAATAATTGGACAGTACATTGTACTGTCTTTTTTAAATGTTGATGCTAAATATGGATTAGATGCAAACTTTAAACCAAGTGATAAAGGAATAAAACAAGCCCTAAGCATAGACTTTGGAGGGAAGAGTAGATATAAGGCAAGAGAGAATGTAGAAGTAATCTTATCATTAGATAATGAGTATAATTTAAATGGCTTAAATAAAGAAGTATATGGAGTATATGTAGATTATATAAAAGATTCAACAGGCTATAAGGAAAGTATACATAAATATGCAGAGAAATATGATGTAAGTAAACAAGATAGTTTAAGAAAAGCAAAAGATAAGATAAAAGACTTAACAAAAGGAAAACTAAAAACAAAAGAAGAATTAGAAAAAGCAATACATTCATTAACAGTGAAGCCAAAAATATCAACAGAATTTAGTTATGTAGAAGGAAGATTAAAAGTAAGTCCATGGATAGGAGCAGAGTTTAACTTGGAGAATAAACCAAATGGTGCTTCTAATAATGGAACTACTGAAAACAAAGACTTCGTTTTAAGAAAGATTGTTGGAAAAGGTGGGATTGAAACTAATCAATTATTAAAAATGAAATTTTTTTTCATAATTATATTGATTTTTGAAAAAAACATGTCATAATTTAGCATACTTTGAAAAGGAGTTTTATGGTTAATATGAATAGAAAAATACTGATGTTTTTTATTTTGTCAACCCAGCTTTTGAATGCGTTGGGAAGCTATAACAATGGTTTTTTTGATGGTTTTAAAGAAGAGAATCTTACTAAAGTAAAATATGACAATAGTACATATCCAACTGAGGGTCAAATTGGAAAACCAGAAAATAATGGTAAGTGGCCAGGAATAGGTCCTAATGGTGAAAAAGAGGGAACAGCTACACTTCTTTATACTAGAATCCCGTCTATAATAGTTACTAATGATAATAAGATAATTGTAATGTATGATTTAAGATGGAATAATCCTAAAGATCCAGGTAATAACACTAGAGAAAAAATAGGAGCAGATCATGGTAGGATAGATCAGGGTATTTCAATTTCAGAAGATGGTGGTAAGACTTGGAAAACTAAAACAGGAATAAAATTTGATGATATTTGGAGATATGGTAAGAGAACAGCTCCACAGAAATATAGAAGAAGATTAATGGATTCTACTTTAATATATAATCATTTAACTGATGAAATCCTTTCTTTACATGGTTCTTGGAATGAATTTACTGGGGGCAATTGGTATGCAAAAAGAGAAGATTACTATAACAAAGAAATTTGGGCAGCTTTAATGCATAAATCAATAGATGGTGGAAAGACATGGGAAAGAACTCATAAATTTGATAAAAATAATAATGGGTTGTTTAAGGAACATAGTCCAGATAATCCTGTAAAAGCCTTTCTTGGTGGAGTTGGAACAGGTATAGTTATGAGAGATGGGACTTTAGTAATGTCAGTTCAAACAGCTCATGAAAATAAAGGGATGGGTAAAAAAGCAATAGGTGCTACCTTAATGTATTCTCGTGATGGTGGAAAAACATGGCAAATGCCAAAGATAGATAATAGTAAAATATTAATGCCTAATAGCTCATCACTTGAAAATATGTTATTTGAAATGGATGGTAAATTAGTAATTACTGGTAGAGGAATTGATACTAGTAATAACAGTGGTCAAAGAAATAATAAACAGAGAAATAATATGAATAACAAACATAGATGGGCATATTATACAGAAGATATGGGTCAAACATGGAAAAAGTTTGAACCATTACATACTTTTCAAACTGTAACAAGTCAAGCTACACAAGGATCTACACTTTATGTAACACTTCCTAGTGGTAAAAAAGTTATACTTGTTTCAGCACCTAAGGGTAATGGAAATGATAGTTGGAAAAGAGGGAATTTAGCACTTTATGCACTTTCAGGAAAAGATAAAAATCATATGAAAGAAATAACATTAATTAAACCTGGTTCAGGAAATGCGTTAGGAGCTGGATATTCTTCACTTGCATATAAAGGGGGTAATCTATTTGCAGCATATGAAGATAACGGTGATATTTCGGTAAAGAATTTAACAGAATATATAGCGGAAATAGAAAAATTAGCAACAGAATGGGGATTAGAAGATGAAAGAGCTAAGGATATAAAAAAGGTTAAGGAACTTAAATCTCTAACAACTAAACAAAAAGAATTATTAGAAAAAGCTATGATGGAAGATAATGATAGAGCTTTTACTGAAGCTATGGTTTTAAATACTGAATTAGAAGAATTAGATAAAAATGTAGCAAAATATTCTAAAGAATTAGAGGATAATAAGGAAGCACTTCCATCTAGTATTAGAAGATTTAATTCAGCTATAGAAGGTTTAAAAGGAGAAAAAAGAGATAATTTAGTAAAAGTATTAAAAACTAGGATTATAAAGGCTGAAGTAGATGATACAGGAGAAAATATTAAAGATGTAATGGATTTTGACTTATATAAACCTGTAGCTGAAAAATTCTTATACAAAAGAGTAGATATAGCAGAAAATGATGATAATATATTTGCTGGTTTTGGTGTTAAAGTAGGTTCAACTGATAACTATTTTAAATTTGGATATAATCATGATATATCTAATTTTAAACTTGGTGGATTCTTTGAAATTTATGAATCAAAAATAAATGCAAGAAATATTTCTGTAGGAACTACTTTTAAGACTGTGTTTGAGAATAAGCATACATTTAAAAACTTTATTAGATATAGACATCAAAGTCTGTATAACTTAAAGATAAATAATAAAAATGATAGATATAATGATGTTATTTTGCATAATTTAGATTTTTATTCATCATATGAAACTAAATTAAATTTAAATAAGAATATAAGTATAACACCTAAAGCTGGAATTTTACTAACATATTCACATGAAGCTTTATTAGATGAAGATGCAAGACTTGATAGAAGAATAGGTGTAAGTACAGATATTTCAGTTAAGGCAGAATTAAAACATAAAAATACTAAATTTAAAATTAAACCAGAAATTTTAATAACAGATAATGCCAAATATATATCTCAAACTAATTTATCTAATAAGAGAGATAAAACAGATAATAAAATATTAGAATACAATATTCAATTTGGAATTAGTGCTAAAGTTAATGGTATAAATTTAGATTTAGACTTAGATTTGAATGATACTTCAAAAAATAGAAATAAGACTAATGTTAGATTAAACTTTATGAGTGGATATAGCTGGTAATAGCTTAGATCCTCTTATGTATTAAAGGAGGGTTTTATAACACTCAAGTGAATATATAAAGATAAGCTAATATTTGCTAGTTTTGTTACCCTTTTTTGTAAAACTTGGATTCTATCATAAAATATATATATGCAATAATATAATATTTATATATTTAATTAAATAACTTTCAATTGACTATAATCATCTATTATGATATTATGAATTAACAAAATAATAAAATGGATGATAATTATGAAGAAAATGCTTGGTATATTACTGATACAATTTTTTTCATTTGCAAGTATTAAAGTAGATGGTAAAAGTAATGTATATGTAGAAAAGAGTAATAATGGAATAGATGTAATAAATATATCGACACCATCATCTAAAGGAATATCTCATTCTACTTTTACTGACTTTAATATAGGAGAAAAAGGGGCTGTAATAAATAATTCAAAGAATATAGCAAGAAGTAGAATAGCAGGATTAATAAATGGTAATAAGAATATAAAAGAAAAGAGAGCAAAACTTGCACTGTTAGATGTAACAGGGGTAAAAGAAAGTAGATTAAGTGGAATACTTGAGGCATTAAGTAAAGATAGATTAGATGTTATACTTTCAAATCCCAATGGAATTACATTAGACGGTGCAAATTTTTTAAATATACATAATATGTCATTATCTACTTCAAAGGTAATAGTAGAAGAAGGAGATATAAAGAGTTTAAAGGAATTAAATAGTAGTGATAATTTAGAGATAGTAGCAAATAGTTTTAAATCAGAAGGAGATATAATTGGAAAAGAGATAACGATTAAAACATATGCAGGAGAGGAAGGTAAATTACTTAGTGCAGATATAATAGGTTCAGTTCATGGAGATGTAGTAAAGATAGTAGCAACGAGATCAGGTATAGGGGTTAAATCAATAGAGGCAAGGGATTTAACTTTAGAATCAAAGGTTCAGGCAGATATAGAAAAAATAAAGGTAGATAATTTAAATATTAAGGTAGAGGAAGACTTTAAGAATAAGGATAAGATATAATTGTTTATCCCTATATATTAGAACATTTAGGATCAAATTCTGAATCCAAAAATGATATAGAAACTAAAATAAAATTTAAACATAAAGGAAATGTTAAATTTCATTATGGATATATAGAAAACACTAAATATGATAAAGAAAATATTAAAAAATATGCGAATCGTACAATAGATACACACCTAAATTATTTATACCCATATATAACAAATGAATTAATATATGATAAATCAAAAGGAAATAATTTTGATAAGATTTTAGATGTTATAGAAGATAATAAAGAAAAGATTTGTAAAATATATGAGATAAATGATAAAGAAAAATGTAGAATAAGATTTAATGGATATCTAATAAAGAAAAAGTTTAGTGTAGTTAAATATGTATATTATGAAGGAATATTATATGAAATAGAAGATAGGAATATAAAATATAATGATTTAATAGAACAAGATATATTAAGAAAAATAAATCCAGAACCAATTAAAATTAAAAATATGGATTGGAATAAATATCTTAATATAAGTAATAAGAGATATACACCAAGTTTAAGCTTAGAATATGGGTATAAGGAGATGTTAAATATCTCAAATGTTATAGAAAGAGAGAAATTAAATACGGAATTATCATTAGATTTAAGGTATAAGAGTATATATTCAAATATAGGATTAAGTACAGATTATAGATATGTTAATCCACATGTTAAAATTGGTATTAATTTTGATGTATCAAGATTAAATATAGATACATCTTTAGAATATAATCAGGTGTTTAGGGCTTTATTTGCTATTAGGTTTGATGTAATAAAATAAATGTATAATTGAAATTATGAAAAAAGGGGTGTTTCTATAATTCTCCTTTTTATGATATAATGAAAAGAAAAAAAGGAGTAAAAAAATGTCTACACCTTTAATGAAACAATATAATGAAATAAAGAAAGACTATATGGAATATATACTATTTTTTAGATTGGGAGATTTTTATGAAATGTTCTTTGAAGATGCAGAAATTGCTTCAAGAGTATTGGGTTTAACCCTTACAGCTAGAAATAAGGAAAAAGGAATGAATATACCTCTTGCAGGTATACCTTATCACTCTTCTAAGCCATATATAGCTAAACTTGTTAATGCAGGATATAAGGTGGCAATATGTGAACAAACTGAAAATCCTAAAGATGCTAAAGGAATAGTTAAAAGAGAGGTAGTTCAAATAGTAACTTCAGGAACTATGCAAGATGTTGATTACTTAGATTCAAAATCTAATAATTATTTAGCTTGCATATATTATAGTAACCAAAATTATGCTATGTCATATTTAGATATAACTACAGGGGAGTTTAAAGTATTAGAATGTGATGAAGATAATTTAATTAGTGAAATATATAAGATAGAACCAAAAGAAATCTTATTAACACAAAGTTTAAAAGAAAAATTTGGAAGTATTATAGATAAGCTTGATATTAATATTTCTATAGTTACTAAGGTAAATGATGCTGAAAAATTTTTAAAAGATTACTTTAATATAGTTTCTTTAGATAGTTATGGAATATTTGGCAAAAAAGCTATGATAGATGCTTGTGCCTGTATATTAGATTATGTTTTAGCAATGCAATTTAATAATGAATTAACTATTAGAAAAATTGAGGTTATAAATAAATCTAAGTTTGTCGAAATATCTTCATCAACTTTAAGAAATTTAGAGATAGTTAAAAACCAAAGAGATAAGACAACATATGGTTCACTTTTATGGGTACTTGATAAATGTAAATCATCAACAGGATCAAGAAAATTAAAGCAACTATTACAAAGTCCTTTACTTGAATTAGATGAAATAAATAAAAGATATGATGATATAGAATACCTTTGTAAAGAAATAATAAAAAGAGAAGAAATTAGGAATTTACTTGATAATGTATATGATATAGAAAGACTTTTAGGAAAAGTAATATTTTCAAATGAAAATGGTAAGGATATTAATGCCTTAAAAAATACTATTTATTCTAGTTTTAAGATAAGAGATTTATGGCCTGAAAAATTTAAAAATATTGATTTTAATATATTACAAGAAATACATACTAAAATAGATAATATTTTACTTGAAGATGCTCCATTTTCAGTAAGAGAAGGAAATATGATTAAAAGTGGAGTTAATTCAGAATTAGATGAATTAAGAAATATTATGAATAATGGAACTGGTATTTTACTTGAAATAGAATCAAGAGAAAGAGAAAAAACAGGAATTAAGAATTTAAAAATTAAGTATAATAATATATTTGGATATTTTATTGAAGTATCTAAATCTAATATGAACATGGTTCCTGAAACATATATTAGAAAACAAACATTATCTAATGCAGAAAGATATATAACTGAAGAGATTAAAAGTTATGAAGATAAAATAATTAATTCAAAGGCTAAGATTACTGAACTTGAATACATTATTTTTAAAAATTTAAGTTCATATATTAAAGAATTTAAGAATGTATTTATTGAACTTTCTAATACTTTAGCATATATAGATATATTGATTTCATTTGCAATTACTGCACTTGAGAATAATTATGTAAGACCTAATTTTAATGAAGAATATTTTGAAATTAAAGATGCAAGACATCCTGTTGTTGAAAAATTAATAGGAGATAATACTTTCATATCTAATAATGTATATTTTGATGATAAAAATAGATTTATTATCCTTACAGGACCTAATATGTCAGGTAAATCAACCTATATGAAACAAATAGCATTAATAAGTATTATGGCTCAAATAGGCTCTTTTGTACCAGCAAGTAGTGCTAATTTAAATATGGTAGATAAAATACTTACAAGAATAGGTGCAAGTGATGATATATTATCAGGTCAATCAACATTTATGGTTGAGATGAGCGAAGTTGCAAGTATAATTAATTCAGCAACAACTAATTCATTAATAATACTTGATGAAGTAGGAAGAGGAACATCAACTTATGATGGACTTGCTATTGCAAGTTCTATATCTAAGTATATAGTTGAAAATATTAATGCAAAATCTATATTTGCTACACATTATCATGAATTAACTGAACTTGAAAATGAATATGAAACTATTAAGAATTATAGAATAGAAGTAGAAGAAAAAAATGGTAAGGTAAACTTTTTAAGAACTATAGTTAAGGGAGGAGCAGATAGATCTTATGGTATAGAAGTTGCAAAACTTGCTGGTTTACCTAAAACAATAATTAGAGAATCAACAAAACTACTTAAATCATTTGAAGTTGAAAAGAAAAATGGTCAAATATCTTTATTTGATAATTTTGAATATGAAAATTATGATAAGATAGAAAAACTTGAGGAAACTATAGATAATTTAAATGAAAAATTAGATAAACTAAGAAATGTAGATATTAATAATATGACACCAATTAATGCTTTAAATTTACTTATGCAGATAAAAGAAGAAATCTAATAGGAGGATATTATGAATAGAAAAGATGATCACTTAAAATTTGCATTAGATAGCATGAGTAAAAAAAATGGTTTTGATGAATATATGTTAGAATACATTTCTATTCCATCATTTGGATTAAATGATATAGATACTAGAACAAAAATAGGTGAAGTAGTATTTGAATATCCCTTTTTTATTAATTCTATTACAGGAGGAAGTGAAAAGGGAGATAAGATAAATAAAGACTTAGAATATGTATCTGAAAAAACTGGAATTTTTCTTTTTCCAGGTTCTTATTCACCTTTTTTAAATAAGGAGGAAGTATCATATCCTAAAAATCAAGGAGTAAATTTAGGTATAGATAAACCTGTTAATTTACACTTAGAAGCTATATCTAAAACTAATGCAAAATTTTTACAGGTTCATGTAAATCTTATACAAGAAATTGTTATGCCAGAAGGAGAGAGAAATTTTGAAACTTGGGAAAGCAATTTAAAAGATATACTTTCTACTGTGAAAATACCAGTTATTTTAAAAGAAACGGGCTTTGGTATGGGTAGAGGTAGCTTTATTAAAGCAAAAGAGTTGGGAGTTAAAATATTAGATATTAGTGGCAAGGGTGGAACTAATTTTGCTCAAATAGAAAATAGAAGAAGAAATAAAGAAAAAAAATATTATGAAGAAATAGGATATTATACTACTGAAAGCTTAGAAATAGCTAAAGAATTTAAAGATGATTTTGAAATTATTGCTAGTGGTGGAATAAGACATCCATTAGATGTTGTAAAAGCATTAGCATTAGGTGCAAAAGCTGTAGGGATTTCAAAAACTTTTTTAGAAATATTAGAAGTTAATGGAAGAGATGCTTTAATTGATACAATAAATACTTGGAAAGAAGATATAAGGAATATTATGCTTTTAACAGATTCAAAAAATATAGAAGAATTAAGAGGTAAAATAAGAAGATAAAGTCATAGAAAAAAGGAGAGTTTCAATGCAGAAATTCCCCTTTTTGTTATATTTATTCTATTTTTATTTTATCTTAAAAAAACATTTTTTTAAAATAAAAAAAATAAGAAAATATTGCTAATACAAACTTAATGTTTTGTAATTATTTTACATATTCTTTATTTTCTAAATAATCTTTAAGAGATTTATATTGTCTTTTTTCACCATTTTTTTTATAAGCTATTATGTATATAGGATTAGTTAATGAACCATAAAATAAAAGTTTATCACCATTTTTTGCATATTCTTTTACATTAAAAACTAATATATGATTTTTGTCGTATTTTGCAATTATTCTTTCTTTTCCATTTTCTGTAATTATTAAGTTCCCAACAGGTTTTTCATTAATAAAATTAGTTGTAATAAAAGTTTTATCATCTATATACTGAATCATTTTTATCATTTTACCTTTAGAATACACTAAAGTTTCTTTTTCTTTTTTGATATTTCCTTCTAATATATCATTTTTATAACTCCTAATTTCAGAAAAATTATCTGATGTATATGTGGCTATTCCTTCTCTTTTACCATTTTTAAATGTAATTTCTTTTATAATATCAGGGAAAGTAAGTCTAACAGTTCCAGTTATTTCATTATTAACATAGCTGTATTCTATTATTGCATTATCAACTTCAATTTTTACATTTCCATTTTTTAGATTATTAATTTTTTCTACTTTGTTTTCTTCTAAGTAAATGTATATATTTTCTAAAAATTTTTCTTCAGATTTAGTTATGTTTTCTATATCAAAAAGATATTCATAATATGATATTTCACCATTTCTTTTAACATATTTAACATCACCTAAAGTTATTCCTTCAAATAGAGTTAAATATATTTTATCACCATTATTTTTATTAATTATAACTTGCCCAGTTACTAGATCATTTTCTTGCTTGTATTCTATAATGGAATCAGGTGTTTTTAATTTGAAATATCCATTATTATTTACACCCATATATCCACTTCTTATTAATTCATCTATATATTCTACTTGATTACCTAAAACCTTATTTTGAAAATATGTAATTTCTCCTATATATTTGCCATTCTTATATATCTTTTCAACTCCATTTAATAAACCATTTAAGTAATTACCTTTTAATAATAGATTATTATCAGGAATTTCAAAAGTATATTCCCCACTTTTTATATCATTAACATATTTTCCTTTTTCTATAGAACCATCTTCTAATCTATCTATAAATTTACCTTGTTTAAATCCATTTACAATTTTTACCTCTTCTTTTGAAAATATTAAAAATTGTAAAAAAACAAGAATTATTAATATTTTCTTCATTAATTGTTTTCCACCTTAACTAAAATACCTTTTTCATTAACTCTTAATTCTGTATCATAAGGTAAATTTAATATTTCTCTTACATTTTTATCTAAATTACAGACTATACTTAGCTTATATACTCCAAAATTAGAAGGATCTTTTAAATAGTTCTCATCTTCATCTCCAGCAAAAAATCTCCAACCACTATCATTTTTACCAAGTTTTTCTCTTTGTCTATAACAATATCCTACATTTTCACCATCAACAGTAATACGATTTGAAATTATACAACCTTGACCTGAATTAACTTTTAAGTGTATAAACCCTATAATAGCTAGGATAATTCCTAAAAATATTAATATATATATGAATATTTTTGGAGTATTAAAAAATAGTAAGCCTAAAACTCCAACAAAAATAGAGATAGATCTATAAAACCATTTATTCATTTATTTCCTCCGTAATATAGCTGATACCTTATTATACCATAATTTTTATTAAAAGATTAGAAAATATTAATAGGTTATTATATTAAAATTCTTAATTGTCAATACATATGTTACATAATAAGAAATAAATTTAATATAAGTTAGAGTTATTTAATTGTCTAAGTGTTTAATTAAGTGTTTAGTTTAGTTAAGTGTTGTTTAATGTTTAGTGTTTAATTGATTGTTAGAGTGTGTGAAGTGAGATTGGGGTTGCCCTTTTAAGCCTCTTTCTTAACCTTAGTGAAGTATTCCCTCACAACCTCATTTGGACTCTTAAAATTAAGCACTGTCTTTGCCGTATTATTATACAGCCTTTCATGCCTTTTAACATTTTCTATTAATTCTTCCTCGCTCCTAAATTCTTTCCTACTATACAATATCTTTCCATCTTCCTTATCCGTTACATCTTTATCATTTACAAACTCATATCCATTATCTACCTGTATAGTCTCTATCTTAAAGCCTATAGCCCTTTCTAACTCCTTAATGTACTTTGATGTCTCATATGTACTCTTTTCCTTTATAACCTTTAATACCCTCTTCCTACTATACTCATCTATAGCAGTTATCTTATAATATCTAATCCCCTTTGAATTAAACTTTATACACTCATTTGGAATATATTTAATATCTACCTGTACTTTCTCACTTGGATAATTTATCCTACACATACTACCAAAGCTTCTATTATACCCCTTATTCTTACAACTAACATATACTTGGGCTAATCCATAACTTCCATGTTTTTTTAACATATTCTTTATTAGTATTAATTCTTCTTCTGTATGGGGCTTTCTTGAACCTATTGTCTATTTGTATGATAACGCCTTGCTGCTTTAGTTACTCCATTTTTTATTGCATATTCACATAATCTATGGCGAAATTTCATTTCTTCTGTTATAATACTCATGAGAGATACACCTTTGATTGTTTTAGTTTTTGTCAAACTCTATTATATCAAATGTATCTCTCTTTTTTTATTTTTTTGTTACATATGTTTTATCACATTACAATATAAATACAACTCTGAATATTTAGATAAAATATATATGAGATTTTTAAAGAATTGGTATTGTAATGTTTTTGAAAACTTAATTCAGTTTTATAGATATAATGTATATAGAAAAAAGGAGATCATTTCTGATCTCCAAGGTATATTGTATGAAATTTTCCAATTTGAAAAAACTATCTTTTTGAGAATTGAGGGCTTCTTCTTGCTTTTTTCTTCCCGTATTTTTTTCTTTCAACCATACGTGAATCTCTTGTTAAGAATCCTGCTTCTCTTAATCCAGCTTTTAATTCAGCATCATTTTCTACTAATGCTCTTGAAATACCTAATCTAATAGCTCCTGCTTGACCAGTATTTCCACCACCGTGAACTGTAACATTTACACCAAATTTATTTAATGTATTTGTTAATTCTAATGGTTGTTCAACTATTTTTGCTAAGATTTCTCTTCCTGCAAAAAATTCTCTCATGTCTTTACCGTTTATTACTACACCTGTTTGTCCTGGAATTAATCTTACTCTTGCTACTGAAGTTTTTCTTCTACCTGTTCCTAAAAATTGTTTACTCACTTAAATACCTCCCTATATTTCCATTTTTGTAGGTTTTTGAGCTTCATTTGAATGAGTTGGTCCTACATTTAATTTTAGTCTGTTAATCATTTGTCTTCCTAATTTATTTTTAGGTAACATTCTTTCAACAGCTTTTCTTAATACTTCAGTTGGTTTTTTAGCAAGCATTTCTTCTAAACTTCTAGTTTTTAATCCACCAGGGAATCCACTATGTCTGTAGTATTTTTTATCAGTTAATTTTTTACCTGTAACAGCAATTTTTTCTGCATTAATAACTACTACATAATCTCCACCATCTACATGTGGTGTGTAACTTACTTTATCTTTTCCAATTAATTTTTTAGCAATTTCTACTGCTAATTTTCCAAGCACTAATCCTTCAGCATCAACTAAATGCCAATTTCTTACTACTTCTTCTTTTTTTTGCATTTTTGTATCTTTATTCACTTCTAGCCTCCTATATTTTTGTGAATAACGGTTCCTTTGTGGGAAAGGAAATTTTACTATACTAGTATATACTAAAAATGTTGATTTTGTCAAGATATTTTTCTTTACTGAAATTAAGATTTATATGGTTTAATTATATAAAAGGATAATTTATTGATAGGAGATAAATTGTATGAATGAACTTTTATTGAAAGTTGTTGGACTAAGTATTTGGTATGATAGAAAAAATATAATAGAAAATGCTGAATTTACTATTAATAAAAATGAAATAGTGGCTTTAGTTGGTATTAATGGTTCAGGAAAAACAACACTAATAAATACATTGGTAGGTATACATTTTAAATATTCATTAGAAACTCTTATTTTTAATAATAGAAAAATTTCATTTGATGATATTAATTTTAAATTAAATAGAATTGCTGTTTTTTCGCAAGATGATAGTTTTAGATATTGGAGTTTTATGAAATATATTAAATTTGTTTTTGAAACATATAATATTAATATGGATAGTGAGTATATAGATTATTTAATTGATGGATTTAACTTTAGAGAGTATATAAATTATATGAGAAAAGATTTATCTATGGGAAATAAGAAAAAGTTTGCACTTATAGTGGCTTTTGGGTTGAGGTTACCATTTTTAATATTTGATGAACCAGTTGATGGATTAGATTTTGGATCCACTGCTTTTCTTTATAGAATAATAAAAGAATATAAATCTTTTGGAAGTATTCTTATGTCCACACATATAGCAGAAAGTATAAGTGAAGCATGTGATAAACTTATATTTCTTAATGAGGGTAAAATTACTTCTAAAATAAGTATACAAGGTAAAATTTCTACATCAGATATTTTTAATTTAGTGAAGGAGAAAAATTTGTGATTAGAATATTCTTGAAAGATATTTTTGATAAAAAATTATATTTAGATACATATCATTTTCAGTTTTCTTATTTTTTTTTGATAAATACTTTTTTAAGGGAATTTAAATATTTAGGAGAATTTTCTGTTAAAAATTCTGTAATATATATAATGGTTGGATTATTTTTTTCTATATATTTTTTTGTTAGAACATATATAAAAAATGATAGAATTATGCCATATTATGCTTTGCCAGTAAGTAGGGTAAAAATTAACGAAAGCTTTATAATCTCTGTATTTTTTGATACATTTTTTAGAAAAATATTAATCTTAATAGCATTTATGTTAAACTTTGACATTGAGAGTATTTTTTATGTAAATTTATTTTTATTATTACCAAGTATTATAATTTTAAGTTTTATAGGAAATGTTACTAATATTAGTAAAATTAATAAATTCATTACATTAAGTATAAGCATAGTATATATATTTATAATACTTATTTTATCTTTTTACACAAATTTAATTATGACATTTATTTTAGGATTGTGCATATGCTTTTTTTATTATGTATTTGTTAGGAAATATTTTATAGCACATGCATTTTTTAAAATAAATATATCAAATAAATTATCAAAATTTAGTTTGAATAATTATTTTCTAAAATTTTTTTTAGCTGAAAATGTTTATATTATAAATAGCGTAGGAATTTTGATTATGGTAGTAGTAGTTGGATTATTTTCGCCTAAAGAAATAAGTCTTCCATTATCTTGTGCAATAGGAACAATTAATACTCCATTATTAACTATATTTTCTACTGAAAAAGAACTTGAAAATATGAATAATTTTTTTCCAAATAAATTTAGGAGTTTAAATAGAGATTATGTTTTTCTAATTTTAAGTTACTTTTTTATGGTTAAAGTTATAATATTAATTATTAATTTAAAAGATATTAGTATAAGAATGTTAATACATCTTTTTCTTATTTTAATTGTAGAAGTATATTTTTCATATATGTTAGAAAAGAAAATACCTATAAAAAATAAGAAAACAACAATGCAAATATGGAAAAATCCCAGAAAATATATTTTGACATTAATTATATTATTAACATCAGCTATATTTCAATATTTTATATAATAAAAAAGGGTCAGAAAACTTTCTGACCTTTTATATATATAATTATTTAGATAAATTTACGATGTAATCTAAAGTTCTAATTAATTGAGCAGTATATGACATTTCGTTATCATACCAAGATACTGTTTTAACTATTTGTTTGTCCCCAACTGTAACAACTTTAGTTTGAGTTGCATCAAATAATGATCCAAATTTAATTCCAATTATATCAGATGATACTAATTCTTCTTCAGTATATCCAAATGATTCGTTAGCTGCTTCTTTCATAGCTGCATTAATTTCAGCCGCAGTAACTGTTTTTTCTAAAATAGAAACAAGTTCTGTTAATGATCCTGTAGGTACTGGAACTCTTTGTGCTCCACCATCTAATTTACCAGATAATTCAGGTATAACTAATCCTATTGCTTTTGCAGCTCCTGTTGAGTTAGGAACGATATTTTCTGCTGCTGCTCTAGCTCTTCTTAAATCACCTTTTCTGTGAGGTGCATCTAATGTATTTTGATCTCCTGTGTAAGCATGTATAGTTGTCATTGTTCCTGCAACTATTCCAAATTTATCATTTAATACTTTAGCCATAGGTGCTAAACAGTTAGTTGTACAAGAAGCTGCTGATACTACAGTTTCTGAACCATCTAAAATGTTGTGGTTAACATTGAATACAACTGTTTTTAAATCTCCTTGTCCAGGTGCTGAAATAACAACTTTTTTTGCTCCAGCTTCTATATGAGCTTCAGCTTTTTCTTTTTTAGTGAAGAATCCTGTACATTCTAATACTACATCTACACCTAATTCTCCCCATGGTAAGTTTTTAGGATCTGCATCTGCGAAAGATTTAACTTCTTTTCCATTTACTATGAATGCTCCTTCTTTAACTTCTACTGTCCCATCAAATCTTCCTTGAGCTGAATCATATTTAAATAAGTGTGCTAAAGTTTTAGCGTCTGATAAATCGTTTACAGCTACTACATTGAAGTTAGGATCGTTTATCATTAATCTTAATGCTAATCTTCCTATTCTTCCAAATCCATTAATTGCAACTTTTACTGCCATGTAAAGTACCTCCTAAATAATTTTAATTTACAGTTAATTATATCACATTCTTTTTTTCAATGCAAGATAAATAGAAGTTTAAAATAATTGACATATCTAGTAAAGTGAGGTATACTTTAGTGACTTATATTAGAAAAATGAAAAATTGTTATAAATATTTAGAGGTACTTTAATTTTAGGAGGATATTAATATGAAGAAATTTTTTTTATGTGCGTTAGCAACATTTGTTTTTACGAGTTGTTCTACAGTGGTTAATGGTAAAGGACAAAATTACAAGATAACATCAAGTGAAAATATACAAGTAATAAACAAATACGGTAAAGTTATAAAAGAAGGAAAAGGAGAATTAAAAGTTTACCTTGAAAAAGGAGATGGGTTCTTCACAGGAGCACATTACACAGTAAAATCAGCTGGAAAAGAATATACAATTGAACCAAAAGTAAATATAGGATCATTTATAGTAGGAAATATATTTGTTCCAGGGTTCTGGGGATTCATAGTTGATGGAGCTACAGGAGCTATGTATGACCTATATGTAGATGGAAAATATACAAACGAAATAAAATTTTAATAGATACTAAAAGGTAGTAGAATGAAAATACTACCTTTTTATTTGCCACTAATCCTTTATTATGGTATAATTTAAAAAAATTTAGATAGGAGAGATTATGTCATATTCTTCAAAATTAAAGGATGAAATTTTAGATAAAAAAAATATAGATAAAAATGATATTATGGCAGAACTTTTTGGGCTACTTCTATCTAAGAACTGTATTAAAAATAGTGGGATAGAATTTAGTACAGAAAATTTAAAATTAGCACAGAGAGTATATAATAATATACTTAAAGTAACTAACATTGCTCCACAACTTAGATATATTACAGCTAAAAGATTCTCTAAGCCAAGAGTTTATACAATAAGTATAACAAATATTATAGATATAGAGGAAAGTTACGGTTCATTTTTAAAAGAACTATTTTCTTTTAAAAAATATTCAGATAATAAGAATATAGCTGGTATATTAAGGGGATATTTTTTAAATTCAGGATATATCAAAGACCCAAGTAAAGGCTATACTCTTGATTTTTTTATAGATACTGAAGATGCATCAACTTTTCTATACATGTTATTAAAACATATTAATAAAAAAGTATTTCAAACAGAAAAAAAGAATAAAAATATTGTATATATTAGAAATTCAGAAGATATTTTAGATATTATACATATGATAGGTGGTCTTCAAGTTTTTTTTGAATATGAAGATGTTACAGTTCAAAAAGAATTGAATAATAAGATAAATAGAAATATGAATTATGAACTTGCAAATGAAACTAAAAAGATGTCAGCTTCTATTAAGCAGATAGATATGATAGAATATATTGATGAAAAGATAGGACTTGATAATTTAACTAAAGCTTTATCTGAACTATCCAAGTTAAGATTAATATATGATGAAGATTCCTTTCAGGAGTTAGCAGATAAATTAAAAATATCCAAATCTGGAATAAGAAATAGATTTAGAAGATTAGAGGAAATATATTTAGAATTAAAAGGATAAAATTATGAGAAAATTAAATGAATATAATGGGTTTGATGAATTTTTAGATGATTTTAAAAATTTTAATGAAAAATCAAAATATTTTAAAATAGATATGAATGCGAATATATTAATTAAAGAACCATCTTATATCTTAGAATACGGATACATGTATTATGTTAAGGGATTTAAGGATGTTAATAATGTATTTGATTTAAAAGATATATATTTAAGAAAAGAAAAAAAAATAAAAAGACATTCAAGTATTGAAAAAGAAAAATTAAAAGAAAGTTTTTTTAGAGCTATATTTAATAGAGATGAGATACATTCTCTAAGTCTTTCAAATGAATTAATTAGAAGAGATAGTAAAATGTTTTTTGATATTCTTTATCTTAATGCTAAATTATCAGATGATGCAAATAGACTAATTAAGGTATATCTTTTTGAAAAAATATTTGAAGATATTGGTCTTAGCATACCTTTTTTAAGGAATCTAATAGGATATATATGTAAGTCTAAGGAAGGCTATGGAAATAAAAAAGAGGTTGATAAACTTTATTCATATATACTTAAAAATAGGTTTAATGAAGAAATAGAAGTTAATGTTAATAAAATGAATGAAAATAATACAATAATACTTAGATTTTTGGAGGAAGAACAATGTTAGATATGAAATTTATAAGAGAAAATGTAGAGCTTGTAAAACAGGGATTAAAAAATAGAAAAAGTGAATATAATTTAGATGAATTACTTGAAATGGATATTAAAAGAAGAACACTATTAACTGAGGTTGAAACTCTTAAAAAAGAAAGAAATGATGTTTCTGCAATAATAGGAAAGAATGCAAGAGAAGGAATAGATTCAACTGAACTTAAAGAAAATATGGCTAAGGTTTCTAATAAAATTAAAGAATTAGATGTAGAAGTTTTAGAAATAGAAGAAAAACAAAAAATGCTACTTTTAACTATTCCTAATGTACCACATGTTTCTACTCCAGTTGGAGAAAGTGAAGATGATAATGTTGAAATTAGAAGATGGGGAAAACCAACAGAATTTAATTTTGAAGTTAAATCACATGATGAATTAGGAGTAAATTTAGATATACTTGATTTTGAAAGAGGAGCAAAACTTTCAGGTTCAAGATTTACAGTGTATAAAGGAATGGGAGCAAGACTTGAGAGAGCTTTAATTAATTTCATGTTAGATGTACATACAGAAGAACATGGATTTACAGAAATTTTAACACCCCAACTTGCTAAAAAAGATATTATGATAGGAACAGGTCAGCTTCCTAAATTTGAAGAAGATATGTATAAGATACAAGGTGAAGATCTTTACCTTATCCCTACAGCTGAGGTAACTTTAACTAATATGTATGCAGGAGAAATTCTTAAAGAAGAAGAATTACCTAAACATTTCTGTGGATTCACAGCTTGTTTCCGTCAAGAAGCTGGTAGTGGTGGAAGAGATTTAAAAGGTTTAATTAGACAACATCAATTTAATAAGGTTGAAATGGTTAAAATAGTTCATCCTGATAAATCTTATGAAGAGTTAGAACATATGACAAATTGTGGAGAAAAGATATTACAAAAATTAAATCTACCTTATAGAGTTCTTTCATTATGTACAGGAGATATGGGATTTTCAGCAGCTAAAACATATGATATAGAAGTTTGGGTTCCATCTCAAAACAAATATAGAGAAATATCAAGTTGTTCAAATACAGAAGATTTCCAAGCAAGACGTGCTATGATTAAATTTAGAGCAGAAGATAAGAAAAGCTATTTTGTTCATACATTAAATGGATCAGGGCTTGCTGTTGGAAGAACATTACTTGCAATAATAGAAAATTATCAACAAGAAGATGGAAGCATTCTAATCCCAGAAGCATTAGTGCCATACATGGGTGGTAAAACAGAAATAAGGTAAGAGAAAATATGAAAAGAACAATAAAATGGATAATTTTTCTAAGTTTATTAGGAGGATTAGCTTGGTATTTAGAATTTTCAGGATATCTTTATCATAATCATATTTTATCTATGAAATATGATATACATGGTATAGATATATCACATCATAAGGTAAGACTTAATTGGTATCAAATAGATAAGAGATATAAGTTTGTATTTATGAAAGCAACAGAAGGGAAGGATCACTTAGATAGAGATTTTTTCTATAACTGGAATAAGGCACAACTTACAGGCTTTAGAGTAGGAGCATATCATTTCTTTTCTATGTTATCTAAAGGAAAAGAACAGGCAAAATTCTATATTTCCAAAGTACCTATAGTTGAAAAGGCTTTTCCACCTATAATTGATTTAGAAATACCAACTAAATATCCAAAAGAAGTTGTTAATAAAGAACTTAAAGATTTAATAGATATTTTAGAAAAGCATTATAGGAAAAGAGCTATAATATATGTTACTAGACATACATATAAGGCGTATATAGAAAATGAATTTCTTGATAATCCTATATGGGTTAGAAATATTAAATGGTATCCAAGTCAAAAAAGATGGGATTTCTGGCAGTATTCTAATAGAGGAAGAGTTAAGGGTATATCAGGATTTACTGATAGAAATGCTTTTAAAGGTACAGATATTGATGAATTTATAACTAAAAATAAAATAGTTCAATGAAATTTCATGGAACTATTTTTCATGTAAGGGGAAATAATGAATTTAGTACAATTTAATAATGTATGGAAGCAATATAATGGGGAATATATACTAAAAGATATTAGCTTTAGTGTTGATCATATGGATAAAATTGGATTAATAGGCTTAAATGGTGTAGGAAAATCATCATTAATTAAAATACTTTTAGGTAAAGAAAATCATGATGGGAAAGAAGGAAATGTTAATGAAAAAGGTAATGTTTTTCTCAATCCTAATATTAAAGTAGGTTATCTTTCTCAAAATCACTTATTTGCTTCAGAAAAAAATACAGTTTATGAGGAATTACTGGAAGTATTTTATAGACAAAAAGAATTACTTTTTAAGATTAATATACTTAATACTTTAATGTCAGTATCTGATAATATAGAGGAGTTATTAAAAGATTATGAGAAATTACAACATGAATATGAAGCTACAGGTGGATATGAAATAGAATTTAAGATTAAACAGGTTATGCAAGGGCTTGAATTAAATAATTTTAGAGATATTAATATATCTTCACTTTCAGGTGGAGAAAAAACTAGGGTTACACTTGCTAAATTATTACTTCAAGAACCTGATTTATTAATACTTGATGAACCAACTAACCATTTAGATATCGTTTCTATAGAATGGTTGGAAGAATATTTAAAGAAATATACAAAGGCTTTCATATTAATATCTCATGATAGAATATTCTTAGATGAAGTATGTAATAAGATAATGGAGATAGAAAATAGGAAAATTTATGAATACAGTGGAAATTTTTCAGATTTTGTCATACAAAAAGAATTGTATATAAAAGGGGAGATAAAAAGGTTTGAAAAAGAAAGTGAAAAGATAAGGAAAATAGAGGAGTATATAAGTAGATATAAAGCTGGGATAAAGGCAAAACAGGCAAGAGGAAGACAGACAATACTTGATAGAATGGAAAGAATGGATAACCCTGTATTTAATATAAATAGAATGAAATTAAAGTTTGAAATGAAATCTCAATCAGCAGATAGAGTATTAAGTGTAAATAAGATATGTAAGAGTTTTGATAATAAGAAGGTTTTAAATAATGTAAGTTTTGATTTATACAAAGGAGATAAGGTAGGTATAATAGGTAAAAATGGTATAGGTAAATCAACTCTTTTGAAAATATTAATAGGTAATTTAAAACAAGATAGTGGTGATTTTAAAATAGGAGAAAGAGTTCATGTTGGATATTATGATCAAGATCATCAAAACCTTTATCCATCTAATAATATATTACAAGAAATTAATAATTCTCTTTCATATACTGAAGAATATCTAAGAAGTAAAGCTGCTGCCTTTCTGTTTACAAGTGATGATGTATTAAAGCAAATTTCATTACTATCAGGTGGAGAAAAAGTTAGGGTTTCATTACTTAAATTAATAGAAGAAAAAGCTAATTTATTAATACTTGATGAACCAACTAATCATTTAGATATATATTCTATAGAAGTTTTAGAAAATGCACTTATAGATTACATGGGAACTATGCTTTTAATTTCTCATAATAGACATTTTTTGGATTCTGTTTGTAACAAAATATATTTCTTATCTGAAAATGGTTTAGAAGAATTTAAAGGTAATTATGGAGAATATAAGGAAAGTATAAAAAATAAGAAGGAAGTAGTAGATAAAACAGAAGAAAAGCTTAGTTATGAAGAAAGAAAATCTAAACAAAAGGCTGAAATTAAAAGAAAAAAAGATTTAGAAAAGCTTGAAAAAAATATAGAAGAGATTTCTAAAAAGCTTAAAAGTTTAGATGATGAAATGGCTAAAGCAGGTAAAGTTAATGATTTAGAGAAAATGATTAGTATACAAAAAGAAATAGATGATATGAAAATAAGAGAAGATGAATTAATATTATTATGGAGTGAATTAGAGTAGTTTTTATTATTTTTTTTTGCTATAATTAAAATATAATGAGAGAAAGGGAATTTCCTTGATTAAATATGAATAAATTAAATACATTGGAAGAACTTATAGGAAAAAAAATATTTTCTTTAAAAGAAGATTTTAAAGTTAGTATAAATTCTAAAGAAGCAACCCCAAATAGTGTTTTCTTTGCAATTAATAAAGGTAATGATTATGCAAAGGAAGCAGAAAGTATGGGGGCTTTTGTCATTTATGATAAAAAAGAATTAGATATACATAATGGGCATTATGTAGAAGATAGTGTTAAATTCATGCAAGAATTTGCTAGGAGATATAGAAAAAACAATAAATTTATAGTTATTGGTATTACAGGCTCAAATGGTAAAACAACGGTTAAAGATATACTACACTCTGTTTTAAGTAATAAAGGGGTTAGAGTGTATAAGACACAGGGGAACTATAATAATCATATAGGTTTACCATTTACTATACTTTCAGCAAAGGATAGTGATGAAATACTATTACTTGAAATGGGTATGTCTAATTTAGGAGAAATTGATTTACTTGGATATATAGCTAAACCAGATTACTCTATAATTACTAATATAGGTCAATCACATTTAGAATATTTAAAAACTATGGAAAATGTCTTTAAGGCTAAAACAGAAATTATTCCTCATACATCAAAAAAAGTTGTAGTTAATGGAAAAGATGAATTTCTTTCTAAATTAGATGGGGTTATAAAAGTGGAAACTAAAGATATTAAAACTAATCTTTTAGGAGATCATAATCTATTAAATGTATCTATAGTTGATAGTTTACTTAAATATATGGGATTTGATGATCTTTGTTATGAAAATATAGAATTAACAGATGGAAGATTTCAAATAGTTAAAGGTAAATACACATATATTAATGATGCCTATAATGCTTCACCTATATCAATGAAAGCTTCTCTTGAAACATTTTCTAAGATATGTAATGAAAGTTTTAAAATAATTGCTTTAGGAGATATGTTAGAACTTGGTAGTGATGAGAAAAAATATCATGAAGATTTAAGTTATGTATTAAGAGAAACTAATTTTGATAGACTATTTCTTTACGGAAAGAGAATGAAATATCTTTATGAAAAATTATGTAACTTAGATGATATTTCTTTTAAATTTGAGTATTTTGATAATAAGGAAGATATAAAAAAAGCTATAGATAATATAGAAACAATTAAAGAAAAAGTTGTTTTATTGAAAGGGTCAAGATCCATGAAAATGGAAGATATAATGGAGGTAAATAATTAATGTTATACTATATTCAAAGTCTATTTATAGACCAATACACATATTTAAGAGTATTTAAATCTATATCAATAAGAATGGGTGTTGCTTTTGGTGTTGCACTATTTTTTATGATAATATTTGGAAATCCATTTATTAAGTGGTTAAAATATAAAAAGTTTGGAGATACTATAAGAGAAGAAGGACCTGAAAGTCATTATTCTAAACAAGGTACACCTACTATGGGGGGTCTTTTAATTATATCTTCTATTTTGTTTTCTACCTTGATTGCAGGTAATTTTACTAATAAATTTACTATTTTCCTATTTTTCATGACTATAGTATTTTCTAGTATAGGATTTTATGATGATTATTTAAAATTAACTAAAAGTAAAAAAGGACTTTCTAGTAAGAAAAAACTATTATTTCAAACAATAATGACATTAATTGTTTTTGTTTTCATATATGAGTTAGGTTTAGTAAATAAAACTATAGATTTTTCAATAATTAACCCTATATTGAAAAAATCATACATATATATAGGTCCTGTTATGTTTTTTGTTTTTATGTTTTTCATAATAGTAGGAACATCTAATGCTGTTAATTTAACTGATGGTTTAGATGGATTAGTTAGCAGTCAAATAGTTGTGGTTTCATCTATATTAATGTTAATAGCTTATGCAGTCGGTCATTATAACTGGTCGGAATATATTAATATATATTATGTGATGGGTGCAGGGGAAATAGCTGTATTTTTAGCATCAATAGTTGGAGGGTCTTTAGGATTTTTATGGTTTAATTTCTTTCCAGCTCAAGTATTTATGGGAGATGTAGGTTCTCTTACTATAGGGGGATTATTAGGAACAATATTCATATTATTAAAACAAGAATTACTTTTACCTATTATGGGAGTCATCTTTTTTGTCGAGGCTTTATCTGTAATTATACAAGTAATATCATATAGAAAATTTAAGAAAAGAGTATTTAAAATGGCACCTATACATCATCATTTTGAAAAATTAGGTATGCCAGAAACAAAGGTTACTATTAGATTTTTAATTATTACAATTATTGCTGGTTTATTAGCGTTAATTATACTTAAATTAAGATAGGAGATAAGAAGATGATCATAGTATTTGGTGCAGGTATTAGTGGAATAGGAGCAAAAGAATTATTAGAATCAAAAGGAAAAGAAGTTCTGTTAGTTGATGATAAAGTTGGTGAAATAACTGCCAGTAAGGCGTTAGAAATTATTGAAGATAAAGAAGTAGAATATATAGTTAAATCACCAGGAATATCTTTTGAAAATAGTTTTATTAAAAAAGCTATGGAGAAAAATATACCTATATATTCTGAAATAGATATAGCATATGAATATATGAATAAGGATATACAAATTATTGCCTTTACAGGAACTAATGGAAAGACAACTACTTGTACTAAAACATATGAAATGCTAAAAAAAGCAGGATTTAATGTAGAGCTTGGAGGAAATGTCGGAAGATCTTTTGCAGAAATAGTAAAAGAAAACAAAGAACTTGACTATATAGTACTTGAATTAAGTAGCTATCAGCTTGAAAATAATCCTAAAATAAAGCCATATATTTCAGGTATAATTAATTTAACACCAGATCATTTAGGAAGATACAAAGATGTTGAGGATTATTACATGACTAAATTTAATATTTTTTCAAATCAAGATAAAAAAGATAGAATGATAGTTAATGTAGATGATGCAACTTTTTTAAACCTATATAACAAGGCTAAGGAATTAGAAAATTACAGAAATCCTAAGAGAGTATATATTAGCACTAATAACAAGGGGAGTATATTTGTTAAAAATGGTCAAATATATGTTATGAAGGATTTAAGTGAAATGTATAATTCTAAATTTAGTTTAAGTCAAAGTGCAGACAAATTAATTGATGTTAAAGATATTGCATTAAAGGGAGAACATAATTTAGAAAACATGTTATTTTTAATTGCTACAGCAAAAATTTGTGGAGTGCCTAATAAGGTAATTAGAAACTTTTTAAAAGAGGTAAAAAGCATAGAACATAGAATGGAAGATTTTTTTAAAAAATCAAACACAGTATTTATTAATGATTCAAAGGGAACTAATGTAGCTTCTACTAAAAAAGCTATAGCTTCATATGAAAATGATGTAATATTAATATGTGGTGGTGAAGATAAGAAAGTCCCTTTATATGAATTAGGTAAAGAAATAGGTAAAAAGATTAAATTCACATATATATATGGAGAAAATAGATATTTAATAGAAAATGAACTTAAAAAGGTTGGATATAGTAAATATTCTATTTTTGAAACAGTTGATGAATGCATAATGGATATTAAAGATAATGTTAATTTTGAAGAAGATATTACTATACTTTATTCCCCAGCTACTTCAAGTTTTGATCAATTTAAAAATTTTGAAGAAAGAGGAAAGTACTTTAAGAATAAAGTTATAGAAATTTTAGGAGAAAATAATGTATAATTTTTTTAGAACAGACAGTAAAAAAAAATTAATAACTACTATAATCATACTGATTTTAATATTAAATATTATAGGTATACTTAATTTACTTAGTTTAGCCTCACCAGAGAGTTTAAAAAACACTTTAGGTTTAAGTCATGTATCAATAATTGGTAAACATTTGAAATATTTAATTGGAACATTTGCGAGTATGTTTATAATAACACTATTTCTAAATGTAAATAAATTAAATAAATTAACAATATTTATTATGTTTTTTATTGTATTTGGTTTAATTTATACTTTAGTTGCAGGGAAATCTGTAAATGGTGCAAGAAGATGGATAGGTTTTGGTTCTTTCACTATTCAGTTTTCAGAATTTGCTAAACTTTTTTTAATATTAGTTTTAGCATATATGATAGAAAGAGCGTATTATATTAAAAAAGAAAGATTAAATATATATATTTATACAGGATTGTATACTATGTTTTGTGCAGGTTTAATATTAATTTCAAGATCTTTTTCAGCTACTGTGCAATTTGTATTAATATTTATTTGTATGTATTGGGTAAGTGAGGTCATATCTTATAAAAAAATAATATTTACAGTAATATGTCTTGGATTTTCAGGGGTAGTTGCAATTTTTTCAAAAGGATATAGAATATCGAGATTAAATCTTGAGAATGAACATGCCTTGCTTTCTATGAAATCTATAAGCAATGGTGGATTTTTTGGTTCTGGATATGGAAATGGAATATCAAGAAACTTTTATCTTCCAGAAGTACAAACAGACTATATTTTTGCAGGATTTGTTGATGAGTGGGGATTTATAGGGGCTATAGTTTTGATAACTTTATTCATATTATTAATTTATTTCATATTTTATAGTGCCAAATTTGCTAATTCTGTATATGAAAAAATGATAATTTATGGTGTAGGATTTATGATAGCAAATCAGTTTATTCTTCATATAGGAATAAATGTAAACTTACTTCCATCAACAGGAGTTACACTACCATTTTTAAGTGCAGGAGGTTCATCAATGCTTACTGTGGGTATTGGACTTGGTTTTGTTTTAAGTATAATTTTAAGTATGAATGATAAATTAGAAGAAGGAGTTATATATGAGTAAAATTTTAATTACTACGGGTGGAACAGGAGGACATATTTATCCAGCACTGGCACTTGCAGAGAAATTAAAAGAACAAGGACATGAATTAGTATTTATGGGAACATGTCATAGAATGGAAAAAGAAATAGTTCCAGCAAGAGGGTATAAGTTTTATGGGCTTGATATACTGCCACTTAGAAGTATAATGGGAATAGTTAAATTATTTAAAGGTATTTATGATGCAAGAAAGATATTAAAAAATGAAAAAATTGACTATGTAATAGGTTTTGGAAACTATATATCTCTTCCTGCATTACTTGCAGGAAAAACATTAAAACTTGATATATTTTTACAAGAACAGAATGTAACTATGGGACAAGCAAATAAGTGGATGTATCCCTATGCTAAAAAAGTATTTATAGCATTTTCAGAAACTTTGAAAAGTGTTAAGAATAATCATAAAGAAAAATTTGTTGTTACAGGAAATCCTATTAGACCAGAATTTTATAACCTATCTAAAGAAGAAGTTAGAGAAAAAATGGGTATAGCTAAAGATGCTAAAGTAATTACTGTAATGGGAGGATCACTTGGAGCTAAAAATATTAATGATGCTTTGATTAAGAAATTTGAAGATATTAAAAATTCCAAAGTTATATTTTATTGGGCAACAGGTAAAGATTTATATAAAGATATTACAAGCAAGATAGAAGAAAATGAAAATACTATAGTAGTTCCATATTTTGAAGAAGCATATAATGTTATGGCAGCCTCAGATATACTTTTATGCCGTGCAGGAGCTTCAACTATATCTGAATTAATAGAACTTGAAAAACCAGCTATGTTAATACCATATAATTTTGTTGGGCAAAAAGAAAATGCAGAGATATTAGAAGCTATTAATTCAGCTAAGATATATAGTAATGAGGAAGTTGAAATTGCTATAGATGAAGCAATAAGGCTTGTAAATAATGAAGATAAACTTAAATATATGAAAGATAATATTTCTAAAATTAATCCAGGTAATGCAGTAGAAAATATTATTAAATATTTTGAGGTTTAAATGGATAAGATATTAATAACAGCATTTGAACCATTTGGTGGAGAAAAAATAAATTCAACAGAGAAAGTTTTAAATTTTCTTCCAGAAAAAATAGGGAATTTAGAGATAATTAAACTTTTATTGCCTGTAGTAAGAAATAAGAGTTTATGTAAAATTAAAGATAAAATAATGGAAGAGAAACCAAAATATATATTATCTTTAGGTCAAGCTGGTGGAAGTAAAAATATAGCTATTGAAAGAATAGGAATTAATGTTGATGATTATAGAATAAAGGATAATGCTGGGAATCAACCTATAGATGAAAAAATTTTTTGTGATGGGGAAAATGCACATTTTTCAACATTACCAATTAAAAAAATATATGAAAAATTAGAAAATAAAGGATATTCTGTAAAAATTTCTAATACAGCAGGAACTTTTGTATGTAATCATGTTCTATATGGAATTAGATATATGATAGAAAAAGAAAAACTTGATATTAAATCAGGATTTATACATATACCTTACATAGATGAACAAGTAAAAGATGATAATACCTTTTCTATGTCTATTAAAGATATATTAAATGCAATAATTTGTGCTATAGAAGTTATAGAAAATTATGAAAAAGATGAAAAAATAGTTGCTGGTGAAATATTTTAAAGGTAGGGGGGTATATTTTATTAATAGTAAATTAATATGAAATCAGATTATATAGTTATAGAAAATTCGAAGAATAAATATAAGGTAATTAAGTCAATTGAAAAAGTATATAATATGACATTTTCTAATGAAAATACTTTTGAATATAATTATAACGATTAATTTAGATTTTAAAGAAAATAGAATAAATATTAAAGAACTTAAATATGGTGTTAGAAAATTACATAAAATAAGAGAGTGTGAAAAAAATCTTTAAATTTCATCTTCTATGATAAAATTTATTTAATTTAGTTTTTTAAAAGTATTGGCTTCTGTAAGTAGCAGAAGTTAATCCTTTTAAAGTTTTTTTATTATATTACTCTTTATAGTTTTTCTAATGTGTTATATCTTAAATAGAAATTTTTTTTACTAATAGAGAATTATTTTTTATATTTATAATAGGAATATTTATCAATATGATAAATGATGAATTAAATATATAAAAAATTAAAATTTCTTACTAAAAAATACACCCTTCAATTCTTTTTATGATATTGGAGGGTGTATTACCACTAAAAATGTTTTTACACTTCAATTAAACCCTTTTATGTAAATAATCAGAATTAAAAATAGAGAAATCTAAAGTTTATTAGATATTTAAAATATTAATTTTTTAGAAAAATTCATAATTTTTATTTAGATTCTTCACTTACAAAAAGGCGTCCATTGTCAGTTCGTCTAAAATCATCAATTTCTTCTAATTTTTCTATTAATTTTTCTTTATCAGGAACTAAATTATTAGCAATACTAACTAGATAATCAATTTTTTCGAAATAATTTAAATTTGGATTAGGAACTAAATAATCAAGTTTTCTTCTTATAATATTTAATTTTGTTCGTCCAGTTCTACTAAATTCACTTTCCATAATACTTTCAGGTATAAGACGAGCTAATCTTTCGATTTTTTCTTCTGAATTTATACTTTTATCTGGAAGAAGATTAAATAATTTTTCACTTATTTCTTTCAACTCTATTTTTATATTTTCGAAACTTTCTTCGAAATCTTTCATATATTCTGATTTTTTAAAGTATTTTTCATTTTCATATTTTTCTTTTCTTGTTTTCATATTATTTCCCCTCCATTAAATTTTTTGAAAAAACTATAGGTATTGCTGAAAGAATAACAATAAATGCAGCAATTAAAATGCTATATTTTAAAGATATAACTGTACCTAAAACTCCTCCTATTAATGCACCTATTGGAACCAGACCTCTTCCACAAACTCTAAAAATTGAAGACACACTGGCAAGTTTTTCTGTAGGTGTAACATTTTGTCTTAATGTTACTATATTTATATTATAAACAGGTAGTGCAGCACTTATTAAAACCTGCCCTAGTATAAGAAAGTATACACTTTTAAAAAAATAAAAGGAAATATAGCCTAAAAAGTAAAATGAAATTGAAAGTAGTATTGATTTTGCTATTTTTACTTTTTTAGAAAGAAAAGAAGCAATAAAACTTCCTATAAAAAACCCTATATTACCTAATCCAATAATAAGTCCTAGACTACTTTTATCTAGTTTTAATGTTTTTAAAATGAAAAAAGTCTGTATGGAAGTAAAAATTCCTATAGAAACAACAAGAATTATATAACATATTATTATAAGTTTTAATAATAAATGTGAAAATACAAACCTATAACTTTCTAGTATTTCTTTTATGTAACTTTTCTTATTACCTTCTATTACCTTCATTTTTATTTTTAATTTCCTCTTCTTTATTTATGAATAATTGCCCTAACATTGATAATATATGTGAAAATCCATATCCTAAAGTTAGCATAGGAAGTGAAACATAGTTTATTAAGATTCCCAATAATGAAGGGAAAATAACTTGAACAAATGAGTTTATAACTTCTAATACAATATTAGCTTTTCTAAAATTTTCTTTTTCTACTAAAACTGGAATGTATGAAATATATGTTAAAGTATAAAAAACTCTAATTGTATTTGATAAGAATATTATAAAATAAAACAAAATAAAAGACCTTATTTTTAAAAATATAGATAAAATTAATACAAATATTAATATAGTTGAAATAATATTAGAAATTAATAAAATCTTTTTCTTATTATGCCTATCTACAAAGATACCTATATGATTTGAAAAAAGCAAATTAGGAATGAATGTAACAAATGTAATTAAAGAAGTTTTCATTAAATTTGCTTCATATAGATAAATCGCAATTAAAGGAAATAAAAATATAGAAAATTGTATAGCAACTTTGTCAAAAAAAGAAGAAAAAGAAAGAAAACTAAAGTTTTTGTTAATAATTTTCATGCTTTTGTTTTTCATATTTCCCCCCTTTCTTTAAAATCATATTATCATAAATAGTTAAGATGTACAAATATATAAGATATATTTAGTAATATATTTAATATATGTGAAATGCCCTGTTACAAATTTAACTTTTTATTGCTTTTTTATATTAAATTTGATAAAATTTAAATATATGAAAAAATATTATTCTAGGAGGAATAGAAATGAAGTATAATTACAAAGACTTAGGTTTAGTAAATACTAAAGAAATGTTTGCAAAAGCAAATAGAGAGGGTTATTCAGTACCAGCTTTTAATTTTAATAACTTAGAGCAATTACAAGCAATTGTAGAAGCTTGTGTTGAAATGGGCTCACCTGTAATTTTACAAGTATCTACAGGAGCAAGAAAATATATTGGAAAAGAAATGTTACCATTTTTAGCTAAGGCAGCAACAGCTTATGTTAAAGCTACAGGTTCAGATATACCAATAGCATTACACTTAGATCATGGACCAAGCTTTGAAGCATGTAAAGATTGTATAGAATATGGATTCTCATCTGTAATGATAGATGCATCTCATCATTCATTTGATGAAAATATAGAGTTATCAAAAAAAGTTGCAGAATTTGCTCATCAAAATGATGTAACTGTAGAAGCTGAACTTGGAGTACTTGCTGGAGTTGAAGATGATGTTGTTGCAGAAGAAACAATTTACACTCAACCAGATGAAGTTGAAGAATTTGTTAATAGAACAGGAGTAGATTCATTAGCAATAGCTATAGGAACTTCTCATGGAGCACACAAATTTAAACCTGGAGATGATCCTAAAATACGTTTAGACATACTTAAAGAAATTGAAAAAAGAATACCTGGTTTCCCAATAGTATTACATGGTTCATCATCAGTACCTCAACAATTTGTTAAAAAAATAATACAATATGGTGGAGCTATGAAAGATGCTATAGGTATACCTGATGAACAATTATTATTATCTTCTAAATCAGCAGTAGCTAAAATAAATGTAGATACAGATGGAAGATTAGCTTTCACTGCTGGAGTAAGAGAAGTACTTGCAAACAACCCAGGAGAATTTGATCCTAGAAAATATGCTGGAAAAGCAAAAGAATATATGAAAGAATATTACAAATCTAAAATAATAGATGTATTTGGATCACAAGATGCATATAAAAGAGGAGTAGAAGTTAAATAATTGTAAAAAGCCTTGTTTCTAAATCTATGAAATAAGGCTTTTACACATATATTAAGGAGGATATTATGTTTGGTAGAATGACAGATACAGAAATAGCTAAAATGATTTTAAAGGGACTAGGAAAAGAAGAAAACATAGATTCATTAGAAAGTTGTTTTACAAGACTTAGAGTAGGAGTTAAAAATTTAGATAAGGTTAATACGGAAGTATTAAAAGAATCTGGAGCTATTGATATAGTTATTATAGATGAAAATAATATACAAATAGTAATGGGACCAAAAGCTCCTAAAATACTTAGTATTATAAACAACTCTGGAATTGATGAAAAAGATTTAGCAAAAGATGTTAAAATTATAGAAGCTTTAGGGAAAAAAGAAAATATCGACTCATTAGAGAGCTGTTTTACTAGACTTAGAGTAGGAGTTAAAAATTTAGATAAAGTTAATACAAATGTTTTAAAAGAAATAGGAGCATTAGATATAATAGTTGTTGATGAAAATAACATACAAATAGTAATGGGTCCTAAAGCACCAAAAATTTTAGAAGATCTTAAAAAATTAATATAGGTGATTATATGAAATACTTTGTTGGAGTAGATTTAGGTGGGACCAATGTTAAAATAGGAATATTAGATTCAGAATATAATATATTAACGGAAGAAAGTATTAAAACAGAATCAAAAAGAGGACCTGAAGATACATTTACTAGAATTTGGAATAAAATACAAGAGCTATTTACAAAAATATCAGTAGATATATCAGAACTTGAGGGTATAGGATTTGGTATTCCTGGACCAGTGGTTAATAAATCTATAGTTAAAATAGCAGCTAATTTTTCATGGGGTAATGATTTTAATGCTAAGGAACTATTTGAAAGAATTTCAGGTAAAACTGTAATAGTTGAAAATGATGTAAGAGCAATAGCATTAGGAGAAAATTTATTTGGTGCAAGTAAAGGGTATAAAAATAGTATAATTTTACCTATAGGAACTGGAATTGCAGCAGGTATGATAATAAATGGAGAACTGATATCAGGAAATGATGGAGCTGCTGGAGAAATAGGACACATTTCAGTTGATTTAAATGGATATAAATGCGGTTGTGGATTAACTGGTTGTTTAGAACTATTTACATCAGCTAAAGGTATAGTAAGAGAAGGAATTAAAGTGTTAAAACAAGAGAAAAAAGGTATTCTTTATGAAACTTTTAAAGATGACTTTGAAAAGCTTGAAGCATTTCATATTTTCTTAGAAGCAAGAAAAGGAGATGAAGTTGCAGAAATTATAGTTGATAATTTTTGTAATAAATTAGCCTATGGAATAGGAGTATTAATCAATTTAGTTAATCCTGAAATAATAGTTATTGCAGGTGGATTAGCTAAATCTTCAGATTTAATTATAGCAGGAGTTAAAAAACATTTACCTAAATATGCTTTAAATATGAGTATTGATATACCTATAGTTAAAAGTGAGTTATTAGATTCAGCTGGAGTAAAAGGAGCTGCATCGTTAATTATAAATAAAAAATAAGGGAGAATTAAAATGAAAAAAATATTAATGGCACTATCTATAATATCATCTTTATTTACATTTAGTGCAGAAGCAAAATACAAATTATCAGAGGTAGAACAAGCAGTTATTCAAACAGAATTAACAAAAATAGCAGAAAAAGGAACATTAGATTTAATATATTCTGATTTTAATACTTATGTAGCAGATTTAATTAAAAAAGAAAAAAGTAAAAATTCAAAATATGATGAAACTAAATTTGAGAATAAAAAATCTCTATATACTTTAGGATTAAAACATATTTTCGCACAAATAGGATATGAATCTAATTTTTCTATTAAAGAATTACCAGGAAACAAGGCAGAATTTAAATACTATGTTGATAAAACAATAGATTCAAAAGATGCATATTACTTAGATAAAGCTGTTGTAGAAATATTAAATAATCTTTATCAAAAACCAACAGAAGTTACATTTAAACTTTATTCTGATGTTAAATTAACTAAAGAAAAAAAATAAGGAAATTTTATGAAAAAAATATTTATAGCTATAATGATACTTTTATCTTTTAATAGTTTTTCTATGATAGATATAGAAGATGGATTAGCTGAATTAAATAATATAAAAAAAGAGCTAATTATAAAATACAAAAAGGTGATGAATATAGATTTTAGTGATGTAAGTGAAAAAAGTACAAATGAACTTAGAATATTTAATGAAACACTTTATCTTAAATTTCTTTCAAAATATGTATTTGATGTTACTGATGTTAAAATGTATTCTTCTAAAAATGTAAATAATTTAGTAATATTTGCAGATACACCTATAGAAAAAGATGATTTTGATAGTATATATAGTATTATAGCTAAAAAAGAAAATGATAAAAGATTAAAATTACTACAAGTACCAAGTAGTAGTACCAAAAATATAATAATACAAGAAAAATCTTCGGAAAGGGATTAAAATAATATGATTAAGTATATATTTGTTACAGGTGGAGTAGTTTCCTCTCTAGGAAAAGGGATTACTGCCGCATCTCTAGGGAGATTATTAAAAGAAAGAGGATATAAGGTAACTATTCAAAAATTTGATCCTTATCTAAATATTGATCCTGGTACTATGAGCCCATATCAACATGGGGAAGTATTTGTTACAGCAGATGGAGCAGAAACAGATTTAGATTTAGGGCATTATGAAAGATTCATAAATGAAGAACTTACTAAGTATAATAATGTAACTAGTGGAAAAATAATGTCGACAATAATTAATAAGGAAAGAAAAGGCGACTATCTTGGTGGAACAGTTCAAGTAATACCACATGTTACTAATGAAATTAAGAAAAAAATTATGCAAGCTGGAAAAGCGTCTAATTCAGATATAGTAATAACTGAAATAGGTGGAACAATAGGAGATATAGAATCAAATCCATTTATAGAAGCAATAAGACAATTTAAAAAAGATGTTGGAAGAGAAAATGTAATATACATACATGTAACATTACTTCCATACTTAAAAGCAGCAGGAGAGTTAAAAACTAAACCTACTCAACAAAGTGTTAAGATGTTACAAGGACTTGGAGTTAATCCAGATATCATAATACTTAGAAGTGAACATCCAGTAGATAAAAATATTAAGTCTAAGGTTTCTCTATTTTGTGATGTAGATGAAAGTTCGGTAATTGAAGCACTAGATGCTAATAATTTATACGAAATTCCTATACATATGGAAGATTTAGGGCTTGCAGATGAAGTATGTAGAAAACTTAATTTAGAAAATATTAAACCAAGTCTTGAAAAATGGAAAGAAATGGTAAATAGATTCATGAATCCTAAACATGAAATTAAAGTAGCAGTGGTAGGAAAGTATGTTGAATTAAAAGATGCATACATTAGTATAAATGAATCTATAGAACACGCAGGATTTCATTATGATACTAAAGTTCAAATAGACTATTTAAAAGCAGAAGAATTTGATTTAACAGAATTAAAGGAATATGATGGTATTTTAGTTCCAGGTGGATTTGGTGGACGTGGAATTGAAGGTAAAATTAATACTGTAAGGTTTGCAAGAGAAAATAAGATACCTTTTTTTGGTATTTGTTTAGGAATGCAAATGGCAACTATAGAATTTGCAAGAAATGTATTAGGAATGCAAGGAGCAAATTCTACAGAATTTGATGAAAATACTCCATATCCTGTTATTAGTTTAATTGAACAACAGGGAGATATTGAAAATTTAGGTGGAACTATGAGGCTTGGAGCTTATCCTTGTAAATTAGATCCAAATAGTAAAGCATATGCCCTATATGGACAAATGGAAGTATTAGAAAGACATAGACATAGATATGAATTTAATAAAAAATATTTAGAAGAATTTGAAAAACATGGATTTAAGATAGTTGGAAAATCACCTGATGGAAATTATGTAGAAATAATTGAAGTAGAGGATCATCCATTCTTTATTGCTGCTCAATTTCACCCAGAATTTATGAGTAGACCAAATAAACCGCATTCTTTATTTAAAGGATGGATAAAGGCAATTTTAGATAAAAAAAATATTAAATAAAGTAATGCAGGGTAACCTGCATTCTTTTTAAAAGAGGGGAAAGTAATGGAAATAAAAATAAATACAGAATATATTAAATTAGATCAATTACTTAAGTATGCAAATTTAGTAGAAAATGGCTCAAGTGCAAAAGAAATGATACTTGAGGGAAGAGTATTAGTAGATAATGAAGTTGAAGTTAGACGTGGTAGAAAAATATATAGAGGTATGATAGTTGAATTTGAAGGAGAGAGAGTAGAAGTTAAATGATAAAAGAAATATTTTTTTCAGGCTTTAGGAATTTAATTGATAAAAGAATAAAGTTATCTCGTGGATTTAATTTGATTTATGGTGAAAATGCACAGGGTAAAACTTCTTTTATGGAGGCTATATATTTTGGAGCAACTGGGAGAAGTTTTAGGACTAAAAAGAATAATGAAATGATAAAATATGATAGTAATGATGCTAAAATTTTTGTTAAATTAGATAATACATCTAATTATTCTATTAATCTTTTTAAAAATGAAAAAAAATACTTTAAAAATGGTGAAAAGATAAAATATGTAGACTATATAGGAGATATTTTAGCAGTTTCATTTATACCAGAAGATGTAGAATTAGTAATGGGTAACCCTTCTATTAGAAGGGGGTTTTTCAATTATGAAATTTCTCAAATCAATAAAGAATATCTTCATTTGATAGTAGATTATGAAAAGATACTTAAAGTAAGAAATAAGATGCTTAAAGATAAAAAACATAAAGAAGAACTTTATTTAATATATAATGAAAAATATATAGATATATGTGCAAAAATACTTAAAATCAGAAAAGAATATGTAGATGAGTTAAATAAATATTTAGATAAGAATTACAAAGATTTATTTAATATAGAACATAATTTTAAACTAATTTATGAAAACTTTTTAAAAATAGATGATGTTTCAGATATAGAAGAAAATAAAAAAATAATAGAAAAACTATTAAAAAGTAAAGAAATATACGATATTCAAGTTGGATATTCTAATTATGGAGTTCATAAGGATGAATATATTTTTGAATTAAATGGTAAAAATGCAAGACATTATTCTTCTCAAGGTGAAAAAAAATCTATAGTATTTATATTAAAAATATCTGAAATTGAATTAATAGAAAAGAAAGAAAATAAAAAACCAATATTTCTAATGGATGATATAACTTCATTTTTTGATAATTTTAGAAAAAATCAAATTATACACTATTTCTTAGAAAAAGAAATACAATGTTTTTTAACTTCAACAGAAGATTTAAAAATAGTTGGTAAAAAATTTGATGTTGATAGGGGGATAATAAATGAAAAAGATTAGTAATATGGCATTAGAAATTAAAAAATATTTTGGATTTAATTATGATAAATTTGTTGATAATGCACTAATTAGTAAATGTAGTATATGCTCTATTAAAGATGGGTATATAAATATATATGTAAATGATCCCAATGTTAAGATTTTTATTAATCAAATTAAGTATAATATATTATTAGAAGCTAGAAAATATTGTGAAATAATTGATATTAGAATATTAGATGATAAAAAAAATATTGTTAATACCAGAAATATGAAAAGACAGATGATGAAAGAAAAAACTACATTTGATGATGGAGTTAAATATATTAAAATTAGTGATGAAGAAAAAGATAAGATACTTAGTGATATTTCTAAATTAGAAGTGAGTGAAGAAGTAAAAAATCATCTATATGATATTGCTGAAATATATTTTAAAAAAGGTATGGAAGTTAAGGTTACCTGTCCTGTTTGTAATATGGATAGAATAGATTTAATAGGAGATAAATGTTTAATATGTATACAAAAGGAATTAGAATACAGTAGAGAAGAAGCTTACTATAATCTAAAAAAAGATCCATATATATTAAATAATTCTAAAATATATATAGATGCAAGAAGAAGAATATTAGAAGAAAAAGTAGATAAAATATTTAAGTATCTTGATAGTAAAAAAGAAAAAGCAGATATTAATATAATAAATTTCCTATTTATGGACTATGCTGTATATAAAGCGGGGAGTATGGATACTGAAATACAATTTTTAGCAGCCAATGAATTAAGAAAAAAACTATTTCATTACTATAAAAATAAGAATATTAATATACCAGTATTAGGAGAAAATAATGAATAAAGAAAATATTAGATTACTTAAGGAAGAAGTTGTTAATAAACTTACAAGTATGGGTATTTTTAAAATGGTAGTGATAAGTTCAGCATCAAATAATTTAGAGTATTACTATAACATATTAAAACAAGAGGGAAGTGAATATGAAAGTAAATATGTAAATTTAAGTTCGTATTCTTTTATTGATTTAGTAGGAGTTAATATTGAAATACTCGAATTTTTAAATAAAAATACTAAGGGTATACTATTTCTTGATATTAATTTAGCACTAAAAATATTTTTTGATGAATTTAAATCAAAGGAATTTAAAGTTAATGAAGAATATTCAAGAGATGAAATATTAAAATATTTAGTTGAAAATGGATATAAGAAGGAATATACAGTACTTAATAAAGGAGAATTTGCAATTAGAGGAGATATTATTGATATATATCCATCTAATTTAGATAACCCAATAAGACTTGATTTCTTTGACACGATACTTGAAAATATTAAAATATTTTCTACATATGATCAAAGATCTATAGAAAATATTGAAGAAATAACGGTTTTTGGTAATGTATTAAGTGGTATGGAAAGAGAAATTGTAGATATGATTTCAATATTTTCTAAAGGTAATATAGAGATATTTTTAGAAAATAAGGAATTTCTTGAAGTTAAATTAGAACAAATGTTAATGTTTGATAAAGATAATGAAAAAGTCTTAAAAGAAAGATTTAATAAATTAATAGAAAAAGGAAATTTACTTGAGGTAAGTAGAAGTAAAGACAGAAATTATCAAGATGAAATTAAGAGTAAAAGAGAAAGAATAGAGAAAAAAGGGATAAAGTATAGTAATATAAATCAAATATTAGAAGGTGATTATGTAATACATGTAGAATTTGGTATAGGTATATATATGGGGGCAGTAAATATTAATGATAGAGATTACCTGTATATACAATATGCTGATAATGACAAATTATACATACCTGTTGAAAAATTAGATAGAATTAGTAAATATATGTCAACGGGGATAGCACCTAAACTTTATTCATTAGGAACTAAAGGATTTAAAAGAAGAGAAAAAAGAATAAGAGAAGATGTTGAAAAATTTGCACAAGAATTGATTAATATACAGGCGAAAAGAAAACTTGTTAGAAAATTACCTCTTATTAAAGATACTTTATGGCAAGAAGAATTTGAAGAAAAATTTTCTTTTAACTTAACATGGGATCAACAAAAGGCAGTTGAAGATATTAAACATGATTTAGAAAGTGGAAGACTAATGGATAGAATATTAGTTGGTGATGTAGGTTATGGTAAAACAGAAGTTGCTATGAGGGCAGCTTTTAAAGCTATTGAAAATGGATATCAGTGTGCTATACTTGCACCTACAACTGTACTTGCTAATCAACATTTTGAAAGATGCCATAAAAGATTTGAAGATTTTGGTATTAGTGTTAATAATCTTTCAAGACTTACTGGAAAAAATACTGATGATGTTTTAGATGGATTAAAAAATGGTAAAATTGATTTAGTAATAGGGACACATAGATTACTTGGAGATGATGTAAAATTTAAAAATTTAGGATTACTAATAATAGATGAAGAACAAAAATTTGGAGTTAATGCAAAAGAAAAAATTAAAAAAAGAAAAGAAGATATCCATCTTTTAACCTTAAGTGCAACACCTATACCTAGAACTTTAAATTTAGCTCTTTTAGGAATTAGAGATATATCTTTAATACAGAGTTCTCCTATGGATAGATTACCTATTATTACACAAAAAATACAAGAAGATGAAATAAAGAAAGTCATTTTAAAAGAACTTTCAAGAGATGGGCAAGTTTTCTATATTACAAATAATGTTAAGGGAATGGCAGAAAAACAAAAAAGTTTAAAAAAATTAATGCCTGATTTTGTTAATATTGAATATATACATGGTAAGTTAAGCCCTAGAGAAATTAAACAAAAAATAAATGATTTTGATGAAGGAAAATTTGATATATTAATAGCATCAACTATAGTAGAAAATGGTATAGATATCACTAATGCTAATAGTATAATTATAGAAAATTATACAAGTCTTGGGCTTTCTCAAATTTATCAATTAAGAGGTAGAGTAGGTCGTGGGAAAAGACAAGGTTATTGTTATCTACTTGATAGTGAGTATAAGAGTAAAAAAGGTAAAGAAAAGGATAAAAGTTTAGAAAAGATAGAGGGAGTAGAAGGTGGAGGATATTTACTTTCTTTAGAAGATTTAAATATACGTGGTGCAGGTGAAATATTAGGAGAAAAACAACATGGTGCCATAGATATGTTTGGTTATGATCTTTATCTTAAAATGCTTAAAAATGAAATAAATAAATTAAAAGGTGAAAAAGTAAGAGAATTTAAAAATACTGAAATTGATTTACTAAATAATGGATATATACCTGAAGAATATATAGAAAAAGATGAAAGAATATTGATATATAAAAGGTATGCTGAAGTTCAAAATGAAAGTGAATTAAATGAATTAACAGAAGAAATTAGAGATAGATTTGGTAAAATACCAAAACAAATGCAAAACTTTATTTATTCAATAAAGATAAAGCTATATATGATAGAAAATAATATAGATAAAATAAAAGAAAATGATAAAGAATATATTTTAACATTACAAGAGTTTGAAGTTATATTAACAAAAGAGGAATTTTCTAAAAGAATTAAGAAATGAATTTCATAATTTGAAACATTTGTAGGTTATAAAAAAATTAAGACTGTACATTTAATATAAAGTGTACAGTTTTTATTTTACATAATATCCATCTAAGAAAAATCTATGTTTTTAATAATTGATTTCTATAAATTTTGTATGTAATATTATAATTGAAAATATGATTGGAGGAATAAATGAGCATAAATGATATTATAGCAACAATTTTAATTGCAATTGTTGGTATAGCTATTGAATATTCCATTAATAAATATATTGGTAGATTAGTTCTTTTAATATCAATGTTTTTTTATCATTTACATCTTGAAAGTATAATGAATATATTTGAAATTAATGATGTAATAATAATATTTTTAATTTTAGGGATTAATTTTATTGTTGAATATCATACAAATAAATATGTTAGTCTTATCACCTATACATTAGCTGTATTTGTATACTTCCTATTTAAAATCCCTTCGAATATATATTAAAAAATGGAGAATTTCTATAACTATGGGATTTCTCCTATTACTTTGTGAAAAACATAACAAATTAAACGTGTTGAATATATTTAAAAATTATGCTAAATTGAGATATAAATAAATAATTATGGAGGGCATATGTCAGACTTAAGATTTTTTGTAGAGAAGAAAAAACACTGTAACTTTGAAAGAAGGAGGTTATTAAAACAGTTACAAGAAGAGTTGGGCGTAGTGTCTTTAAAGGACATTAGAATACTTAACTGTTACGATATTTTCGGATGTCCTAATGATATGGAAGATATAAAGAAAATGATATTATCTGAACCAGTTACAGATGATATATTTGAAAAACTAGAGTTAAATGATGAAAAATATTTTGCTATTGAGTATCTTCCTGGACAATTTGATCAAAGGGCTCATTCCGCAATGCAATGTATAGATATTTTAATATCAAATAAAAATGTAGAAATTACAACTTCTAAAATTTTCATAATATATGGTGAAGTGTCTAATGATGAACTTCAAAAAATCAAAAACTATATAATAAACCCTATAGAAACAAGGGAAAAAAATCTAAATATTCTAAAAAAAGAAAAAATAAATGTAAATACAAATATAATACAATATAATAATTTCATAAATTTAAATTCAGATGAATTGGAAAACTTAAGGAAAAATTTAGGTTTATCAATGACTTATGAAGATATTCTGCACATTCAAAATTACTATAAATCAGAAAAAAGAAATCCAACAGAAACAGAAATAAAGGTATTTGATACATATTGGTCAGATCACTGTAGACACAGTACTTTCGAAACAAAAATAAATAATGTTAAATTTCCAGATAGTGAATATGGAAAATTTTTAAATTTAGAGTTTAAAAAATATTTAGAAATAAAAGAAATAGTTTCAAAACATAAAAATATTACTTTAATGGATATGGCAACAGTAGTAGCTAAGTATTTTAAAAAAATAGGAAAATTAGATAATTTAGAAATTAGTGAAGAAAATAATGCATGTTCAATATATATAGATGTTGAAACAGAAAAATTTAATGGTGAAAAAAATATAGAAAAATGGTTATTAATGTTTAAAAATGAAACGCATAATCATCCTACAGAAATAGAACCTTTTGGTGGAGCTGCCACTTGTCTTGGAGGAGCTATAAGAGATCCACTTTCAGGGAGGGCATATGTTTATCAAGCAATAAGGGTAACAGGTTCTGCAAATCCTCTTGAAAGTATAGAAAATACTTTGAAAGGTAAATTATCTCAAAAAAAAATAACAACTGGAGCAGCCCATGGATATTCTTCTTATGGAAATCAGATAGGTATAGCAACATCTTTAGTATCTGAAATATATCATGAAGGATATAAGGCAAAAAGAATGGAAGTTGGAGCAGTAGTTGCTGCTGCACCACTTGAAAATGTAGTAAGAAAAACTCCAGAAAATGGAGATAGTATAATTTTACTTGGTGGAAAAACAGGAAGAGATGGTTGTGGTGGAGCAACAGGTTCATCTAAGGAACATACAAATAAATCTATATTTTTATGTGGTTCAGAGGTTCAAAAAGGTAATGCCCCTGAAGAAAGAAAAATACAAAGACTATTTAGAAATGGAAATGTTACAAAATTAATTAAAAAATGCAATGATTTTGGTGCAGGTGGAGTTGCTGTAGCTATAGGAGAACTTGCAGATGGAATAGATGTTAATCTTGATTTAATACCAGTTAAATATGAGGGATTAAGTGGAACAGAACTTGCTATATCAGAATCACAGGAAAGAATGGCAGTAGTTGTTGCCAAAGAATATGTAGAAGAGTTTTTAAAAGAAGCAGAAAAAGAAAATTTACTTGCAACAGTGGTTGGAAAAATTACTGATAATGAAAGATTAATATTAAGATATAGAGGAAAAGAAATAGTTAATATTTCAAGAGGATTTTTAAATACTAATGGAGCAACTCAAGAAATTGATATTAAAATAGAAAATATTGATGTAAAAGATTTCTTAAGTAGAGATTTATCATCTAATACATTTAAAGAAAAATGGTTAGAAAATATAGAAAAATTAAATGTTGCTTCAACTAAAGGTTTAAGTGAAATGTTTGATTCAAGTATAGGAGCATCTACTGTACTCATGCCTTATGGTGGGAAATATCAACTAAGTCCTATTGATGTATCTATAATGAAGATACCTATGATTTCTAAAAAAACTAATACTTCATCAGCAATAACTTGGGGATATAATCCGTATCTAACAGAAAAATCTCCATATCATGGTTCTATGTATGCTGTACTTGAATCAATTGCAAAACTAGTAGCTTCTGGAACTAGTTATGATGGAATATATTTATCTTTTCAAGAATATTTTGAAAAATTAGGAAAAGATAATGTTAAATGGTCAAAACCTATGCTTGCCTTACTTGGTGCAATGAGATGTCAATTAGACTTTGAAATAGCAGCAATAGGAGGTAAAGATTCTATGAGTGGAACTTTTGAAAATATTTCAGTTCCTCCAACACTTATCTCTTTTGCAGTTAATACTGTAAATGCTAAAGATGTAATATCAACAGAAATTAAAGAAGTAGGAAATAGGATATATTTAGTAGAAAATAAGATTAATGATGATTTAAGCTATAACTCAAAAGATATTAAAGAAAAATATTCTAAAGTATTAGATGAAATTAAAAAAGGTAAAATTTTATCTGCAAAAGTTGTAGGTATGGGTGGAATTGCAGGAACTTTATCTCAAATGTGTTTTGGTAATAAGATAGGAATTAAGTTAGATAACTTGGATTTAGACTATTTCAAATATATGCCTGGAAGTATAATTGTTGAATCAAAAGAAGAACTTGATTTTACCCTTATAGGAGAAAGCATTAAAGAATTTAATATAACTTTTAAAGATGAAGTAATAGATTTAGAAAAATTATTATATTTATGGCTAAATAAACTTGATAATGTATTTCCTTATGAATATAAGGAAGAAAAGAAAGAGTATATAAATATATCTAAACCTAAAATTATAGATTATTCATCTAGTATAAAAGTAGCAAAACCAAGAGTTTTAATAACTGCTTTCCCTGGAACTAATTGTGAATATGATATGAAAAATATTTTTGAAAGAAATGGAGCAATTACAAATATTACCTTATTTAAAAACTTAAATAGAACTCATATTGAATCATCAATAGATGAAATATGTAAAGAACTTAAAAATAGTCAAATATTTGTAATTCCTGGTGGATTTTCAGCAGGAGATGAGCCAGATGGTTCAGGTAAATTTATAGCTACAGTATTACAAAATCCTAAAATTAAAGAAGAAATAGAAAGATTTTTACAAAGAGATGGATTAATACTAGGTATATGTAATGGCTTTCAAGCCTTAGTTAAATCAGGTCTTCTTCCTTATGGAAATATAGGGGAAATAACAGAAGATAGTCCAACTTTAACATATAATAAGATAGGTAGGCATATATCTCAAATGGTAAAAACAAGAATATCAACAAATAGATCACCATGGCTTTCAAGCTTTAATGTAGGAGATGAATTTGACTTGCCAGTTTCGCATGGAGAAGGAAGATTTTTTGCAAGCGAGAAGACTTTACAAAAATTAATAGAAAATGGTCAAGTAGCAACTCAATATGTTGATTTTAATGGAAAAGCTACTAATGAATTTAAATTTAATCCTAATGGATCAGAATTTGCAATAGAAGGAATAATTTCCCCTGATGGAAAAATATTTGGTAAAATGGGGCATTCAGAAAGAACAGGAGAAAACATTCTTAAAAATGTTAGTGGAAATAAATATCAGAATATATTTAAAAATGGTATAGAATACTTTAAATAATAGGAGGAAAAATGCAAGTAGCAATAATTTTTGGAAGTAGATCAGATCTAAATGTTATGAAGGGAGCATCAAATGTTTTAAAGGAATTTGATATTAAATATGAAGCCTTTATTCTTTCAGCACATAGAGTGCCAGAACTATTAGAAGAAACTATAAAAGAAATAGAAGAGAAAGGTTGTGAGGTAATAATTGCAGGGGCAGGTCTTGCGGCACATCTTCCAGGTGTAATTGCTTCAAAAACTATTTTACCTGTAATAGGAGTACCTATTAATGCTTCTCTTGGTGGAATTGATTCACTTTATTCTATAGTACAAATGCCTAAAGGAATACCTGTTGCAACAGTTGGAATAGATAATTCATATAATGCTGGTATGTTAGCAGTTCAGATTTTATCTGTAAAACATTTAGAAATAAAAGAGATGCTTATAAGATTTAGAAAAGAAATGAAAGAAAAATTTAAACTTGATAATGAGGTAAAGGTAGAAATTTAAATATGAAATACGAGGAACTATTTTTAAAGGATTTAGAAGATTATAAAAAAATTCTAAATGGATATAATGATAAAGAAAATAAGAAAAGAATTTGTGGTGAGCAGGCTTTAAAACCCAACTTATATGAAAATATCTGTTTTGACATATATAGCCTTAATAGAAAAACTTTGGATTACTATTTTAAATTTTCAGAGGATAAAATAGTTAAAGTTTCATATGAGGAGTTAAATAAAAATGAGATTATTGTTAGAAAATATTTAAGTGAAAAAAATAAAGTAAGTATTTTGGAAACTTTGAATAAGTTTAGTAATTTGATTGAACTTTTTCCTGAAAAATATGAAAAAGATACAGAAAAGAATACAGTAAAATTAATATTAGTTTCTATAGCAATAATACTATATTATTCTAAAATATTAAAATATTTTCAACTAGAAATATCAAAACTAGACATGAATAAGCTATATAGTGAATATGATGAAGTAGAATATATGAAGGTTGAAAATTTATTAAGGGATATAACAACATTTTATGTTAAAACTTACTATAAATATCCCTTAAATGAGATGAGAGAAACATCAGAAATAACAGAATATTTAATGGAATACTATAACATAGATAAACAAATGCAAGAATTAACAAGAAACTTAACAATAATAAAAGACGCGATATTTTATCAAATACAAAAAAAAGAAGAAAAATTGATAGATAGAAGAGATTTCATAATTCAAATATTGGGAATAGTATTTACAATATTAGGATTATTAATTGGAGTTATTCAAATATATCAGGTTTTTAAATAAAAATTATAGGAGGATAATATGGAAAAAACAAACTTTTTATACGAGGGAAAGGCTAAACAACTGTATTTAACAGATGATGAAAATTTAGTAATAGTTTTGTATAAAGATGATGCAACAGCTGGAAATGGTATTAAAAAAGGAAGTATTAAAAATAAAGGGATATTAAATAATGATATAACTACATTAATTTTTAATCTTTTAGAAGATCATGGTATTAAAACTCATTTTGTAAAAAAATTAAATGAAAGAGAACAGCTTTGTCAAAAAGTTGATATTTTCCCACTGGAAGTTATAGTAAGAAATGTAATAGCAGGTTCTATGGCTGAAAGATTAGGTATAAAAGAAGGAACAAAACCAATTAATACAATATTTGAAATTTGCTATAAAAATGATAAATATGGAGATCCTTTAATTAATGATCATCATGCAGTTTCTCTAGGACTTGCAACATATGATGAATTAAGAGAAATATATAGTATAACAGATAAAATAAATAAATTATTAAAAGAAAAATTTGATGAATTAGGAATAATATTAGTTGATTTTAAAATTGAATTTGGTAAAAATTCAAAAGGAGAAATATTACTTGCAGATGAAATTACTCCTGATACTTGTAGATTCTGGGATAAAGAAACTGGCGAAAAATTAGATAAAGATAGATTTAGAAGAGATTTAGGAAATATTGAAGAAGCCTATTTAGAGATATTTAAAAGATTAGCTGGAAAAAATTAAACAAAATTTAGGAGGAAAAGTAATGAGTAACACAAAAATGGTAAAGAGAATTGAGGAAGGTGGTGTATTTGCACTTTATTCAAAAACATTAAGAGATGACTTAGTATCAATCTCTTATTACGGACTTTATGCATTACAGCATAGAGGGCAAGAAAGTGCAGGAGTAACAATTTGTGATGCATTATCTGAAGATATTAGGCACAAAACAATTAAAGGGAAGGGGCTTGTATCTGATGTATTTTCAGTTGATGATTTAAAAAGTTATGTTGGAAATATATTAGTAGCTCATGTTAAATATGGAATTGAAAGTGGAACTTCATATAGAAATTATCAACCATTAAGAGGGGACTCATTACTAGGTAAGGTATCTATTGTACATGCTGGGAATTTAATAAATACAAATAAAATTGTTTTAGAACTTTTAGAAGAAGGTTCAATGTTTCAAACTGAAACAGATACAGAAATTATACTAAAACTTATAGGTAAAAATGCAAAATATGGTTATAGAAATGCAATATTAAATACAATAAAAAGTATAGAAGGAGCATTTGCCATTGCAACTATTATAGAAGATAAATTAGTAGCAATAAGAGATCCTCATGGTATAAGACCTCTTTGTTTAGGTCAGTTTGAGGATGGAACTTATGTAGTTGCATCAGAATCTTGTGCTATTGATAGTATTGGTGCAACCTTTATTAGAGATATAGAACCTGGAGAAATGATAATAATAGATCGAAATGGAATAGAATCAATTAAATATGATGATAGAAAAGAAAGATCTTATTCATCTTTTGAATATATATATTTTGCAAGACCTGATAGTGTTATGGATGGATTAAGTGTATATAAAGCAAGACATTCTTGTGGTAGATATCTTTATGAACAAAATCCTATTCTTGCAGATTTAGTAATAGGTGTTCCTGATTCAGGAGTAGCTGCTGGTATTGGATTTTCAGAAGCAAGTGGAATACCTTATGCAACTGCATTATTGAAAAATAAGTATATAGGTAGAACCTTTATAATGCCAGGACAGGCTTCAAGAGAAATGGCAGTTAGATTAAAATTAAATGCAATGAAAACATTAATAGCTGGGAAAAGAGTTGTAGTAGTTGATGATTCACTGGTTCGTGGAACAACTTCTAAAATATTAATAAAAATACTTTATGAGGCTGGAGCAAGTGAAGTTCATTTTAGATCAGCTTCACCTGTTGTAATAAGTGAATCATATTTTGGAGCAAGCATAGCTAGTGATAAGGAATTAATAGGAAATAGTATGAATATTGATGAAATAAGGGAATATATAGGTGCAACTACATTAGAGTATTTATCAATAGAAAATTTAGTGAAAGCCTTAAATGGTTTAGATTGTAATTTAGATTGTTTTAAATAAAATATAATTGGAGGAATATTGATGTCAAATTCATATAAAGCATCTGGTGTAGATAAAGAAGAGGGATACAAGGCTGTAAAATTAATGAAAGAAAAAGTGATAAAAACCCATAATGGCTCAGTTTTAAATAATTTGGGAAGTTTTGGTGCAATGTATGAACTTGGGAAGTATAATAACCCTGTTCTTGTTTCAGGAACTGATGGAGTAGGAACTAAATTACACATAGCATTAAAACAAAAAAAGTATGATACGGTGGGAATAGATGCAGTTGCTATGTGTGTAAACGATATATTATGTCATGGTGCTAAACCTTTGTTTTTCCTTGATTATTTAGCTTGTGGGAAACTAAATGCAGAAGTTGCAGCAGAAATTGTATCTGGAATAGCACAAGGATGTCTTGAAGCTAAAGTTTCTTTGATAGGTGGGGAAACAGCAGAAATGCCAGGTTTCTATAAAATAGGGGATTATGACATAGCTGGATTTTGTGTAGGAGTTGTTGAAAAAGATAAGATAGTAAATGGCTCAAAAGTAAAGCATGGGGATATAATAATAGGGCTGGCTTCAAGTGGATTTCATAGTAATGGATATTCATTAATAAGAAAAATATTTTCAGATTATGATGAAGAGATTTTAGGTAAGAAAATTGATGAAATTTTACTTACACCTACGAGAATTTATGTTGAAAATGTACTTAAAATCTTAGATAAGTTTAATGTTAATGGTATGGCACATATTACAGGTGGTGGATTAATAGAAAATTTGCCTAGAGCTATGGGAGAAAATATGTCGCCAGTAGTATTTAAAAATAATTTGATAGTTCCAGATATATTTAAAGAATTACAAAGAAGAGGGGATATAAGTGAGGAAGAGATGTTTGGAACATTTAATATGGGAGTAGGATTTACTTTAATTGTTGATTCAAAAGATGTAGATAATATATTAGAAGAGTTAAATAATTTAGGAGAAAAAGCTTTCATAATAGGGCATGTAGAAAAAGGGGATAATACATTATGTCTAAAATAGCAGTTTTAGTTTCAGGTAGTGGGACTAATTTAAGAAAAATATTAGAAAACAATATTGATGTTGCAGTTATTATTTCTGATAGAAAATGTTTATCAGAAGATATAGCAAAAGAATATAATATACCATATTTTGAACTTGAAAGAAAAAATATATCAAATAAGATACTCGATATACTTAATGATATTGATGTTGAGTTAATAGTACTTGCTGGTTTTCTTTCTATAATCAAAGGAGATATTTTAGACAAATATGAAAATAGAATAATTAATATACACCCTTCTTTAATACCTAAATATTCTGGAGTTGGAATGTATGGAATGAGGATACATGAAAAAGTATTTGAAAATAAGGAAACAATAAGTGGGACTACTATACATTATGTTACTAAGGGTGTAGATGAGGGGAAAATAATTAGACAAGAAATAGTTGATGTTAGAGAGGCTAAAAGTCCTGAAGAAATTCAAAAATTAATACTTGAAAGAGAATGGGAAATTTATCCTAAAACTATTAAGGAAATATTAGAGGAGAGAAAATAATGAAAAGAGCTTTAATTTCAGTGTATGATAAAGAAAATATTTTAGAAATTGCTAATTTTTTAGAAAAAAGGGGAGTTGAAATAATATCTACAGGTGGTAGCTATAATTATCTTAAAGAAAATAATATTAAAGTTATAGATATTAGTGAAGTAACAAATTTTCCAGAAATGTTAGATGGTAGAGTTAAAACATTACACCCTAATATACATGGTGGAATACTTGCAATAAGAGATAAAGAAGAACATATGAAAACTATTAAAGAACATAATATAGATACTATAGATTATGTTATAGTTAATCTTTATCCTTTTTTTGAAAAAGTTAATGAAGACATAACAGAAGCTGAAAAAATAGAGTTCATAGATATAGGTGGTCCAAGTATGCTTAGATCAGCTGCTAAATCATTTGAAGATGTAGTAGTAATTAGTGATAAAGAAGACTATAACTTAGTAATAGATGAAATTAATGAAATAGGAGATGTTAGTTTAAGTACAAGGAAAAAACTTGCAGCTAAAGTATTTAATTTGACTTCTGCTTATGATGGAGCAATATTTAATTTCTTAAATGAAGAGGAATTTCCTAAATATTTAACTATATCATATACTAAAGAAAGTGAGATGAGATATGGAGAAAATTCTCATCAAATGGCAGCATATTATGTAGATAACACAAATGATGGAGCTATGAAAGGATTTAAACAATTAAATGGAAAAGAACTTTCATATAATAATATTAGAGATATGGATCTAGCATGGAAAGTAGTTTGTGAATTTGATGAAATTGCTTGTTGTGCTGTTAAGCATTCTACTCCTTGTGGTGTTGCTATAGGTAGTGATGTAAAAGATGCATATGTTAAAGCATATGAATGTGATCCTGTATCTATTTTTGGAGGTATAGTTGCAATAAATAGAGAGGTTGATCTACAAACAGCTGAACTTTTAAGTAAAATATTTTTAGAAATAGTTATAGCACCTAAATTTACAAGTGATGCATTAGAAGAACTTAAGAAGAAAAAGAACTTAAGAATAATTGAATGTTTAAAAAAACCTATTGATAAAAAAGAAATGGTTAAAGTAGATGGAGGAATGCTTTATCAAGATGTAGATAACATTCTTTATTCAAACTTAAAAGTTGTAACTGAAAAAACAGTAAATGATTCAGAGATGAAAGATTTAATATTTGGATTAAAAGTAGTTAAATATGTAAAATCTAATGGAATAGTAGTTGCAAAAGATGGGAAAACTTTAGGAATAGGAGCTGGAGAAGTTAGTAGAATTTGGGCTGCTGAAAAAGCACTTGAAAGATCTAAAAAAACAAGTGGTGCAATAATGGCATCAGATGCATTTTTCCCATTTGAAGATGTAGTAGAATTATCTGCTAAATATGGAATTTCATCAATAATACAACCTGGAGGTTCTATTAATGATGAAAAATCAATAAAAGCATGTAATATGAATAATATTGCTATGGTAATTTCTGAAATCAGACACTTTAAACATTAAGGAGTTTTATGAAAGTATTGATAATAGGCTCAGGTGGTAGAGAAGATGCCATTATGTGGAAAATTAAACAAAATTCTAATGTAGAAAAAATATATATTAAATCATCTAATGATATATTTGAAATAAAAGATTTTGCTTTAAAAGAAAAAATAGATTTAACTATAGTTGGTAGTGAAGAACTATTAGTTAAAGGTATAGTAGATGAGTTTAAAAATGCGAGGTTAAAAATATTTGGACCTGATAAAAAAGCAGCTATGCTTGAAGGATCTAAAGACTTTGCTAAAAAATTTATGAAAAAACATGGAGTTAATACTGCGAAGTATGAATCATTTACAGATAAATTAAAAGCAATAGAATATATTAAAGAAAATAGAATCTATCCTATAGTTATTAAAGCAAGTGGATTAGCAGCAGGTAAAGGAGTAATAATAGCTGAAAATGAATATGAAGCCATAAGGGCTATAAATGATATTATGGAAAATAGGATTTTTGGATCTGCTGGAGATACATTAGTAATAGAAGAATTTTTAAAGGGAGTTGAAGTTTCTATACTCTCAATAACTGATAGTAATGTAATATTGCCATTTAAGTCTGCAAAAGATCATAAAAAAATATTAGAAGGTGAAAAGGGATTAAATACAGGTGGAATGGGTGTAATATCACCTAATCCATATTACAGTGAAAAGGTAGAAAAAGAATTTATAGAAAAAATACTTAATCCTACACTTGAAGGATTAAAAAAAGAAAAAATGAATTTTTCAGGTATAATATTTTTTGGATTGATGATAACAGAAAAAGGCGTATATTTACTTGAATATAACATGAGGTTAGGAGATCCTGAAACACAATGTTTATTACCTTTAATGGAAAATGATTTGATAGAATTAATTAATGCTTCTTTAGAAAGAAAATTAGATGAAATAGAAATTAAATGGAAAGATGAACATTCTTGTTGTGTAGTAGCTGTATCTAATGGGTATCCTGAACATTATGAAAAAGGTAAAGAAATTAAAGGTATAGAAAATATAGATAAAGATTCTCAAGTATTCTTAGCTGGGGTGAAAAAAGAAAGTGATAAATATTACAGTAATGGTGGTAGAGTGTTAAATATTGTATCTCAGGCTAAAACAAGAGAAAAAGCAATAGAAAAGGCATATGAACAACTTGAAAAAATATGTTTTGAAGGTAAGTATTTTAGAAAAGATATAGGAAAAGTGTAGATTAAAGAGAGTGTAGAATATTTGCTATTTTTACACTCTCTATATTTTATTTATATTTTTTCATAAACTTTTCCATTCTTATCTCTTTTTAAATACTTAAAATCTATTAGATATCTTCTAAGTACTGCATAATCATCAAAATACTCTTTTAATATTTCATTTATTTCTTTTTCTGTATATTCCTTATTATATTCAAATTTATCATGAAAGAATTTAAATACTTCTAATTTTGCTTCATATTTTTTAGGTATTTTTATAAGCCTATCATTTTTGAAAAAATTATTAATCATATTTTGGTTCCTCCCACATAGAAACTATTAATACAGCTATAATTGATAATAATATAAATATTCTCCATGAATTTAATATTCCAAATCTTGTAGATAAGATTCCATTTAATGATAATAAAATTGTCATAATTAAACCGCTAAATGTATTTAATACAGAAACAATAGTTGCTCTACTTTCATCATTTTTTATTAAATTTGGATGAGTATATGTGCTTAAAATAATTCCTAAGATTGAAAACGCTTGCACATCGAGGTATAATATATTAATTAAGAGGAGGTATTATGGATAAAATATTAAAAAAAATAGTATTTATGTTTTTACTTTTAATGCAAATGTTTATGTTTGCTGCAAGTACTAAAGTAACTATACATTACAAACCAAGTGAAAATTTAGAATGGGATTTATGGGTATGGGGAGATAAGGCAGGAGGTAATGCATATGCCTTTGACAAAGAAGATGAATTTGGTAAGTACGCTGAAATTACTTTAGATGGTGAACATAAAAAAGTAGGATATATTGTAAGGCTTTCAGATTGGTCTAAAAAAGATGTAGCAGAGGATAGATTTATTGATATTCAAGATGGTGAAGCTGAAGTATGGGTTAAATCACAAGATCCTAAAACATATTATTCTAATCCAGATAAAGCACCATTAATTTTTAATAATGTTAATTTAGAAATTTCATATTATCCTGTAGAAAAAGATGCTAAGAAATATAGGGTGAAAGTTTGGTCAGAAGGTGGAAAAGCTAAATATATTAATTTAGTTAAAGATGGAGAAAAATTTATAGCTAAAGGAAATTATGAAGGTAAAGAAATAACTAAATTAAATTTTGAAATTACTAAAAGATGGTGGTTCTTCTTTGAAAAGAAAGTTGATGTTGCAAGAGAAATTACTAAAATAGATGAAAGTGGCAATGTAAAAATATATGTAAATCAAGAAGATAAGATGATATATAAATCAGAAAAATCAGCAACTAAACCAAAAGCTATTGAAAATGCTAGTATAGATACAATGAACTCTATAACAGTTAAAACTAATAAGAATTTTAATTTAAAAAAAGAAATAGCTAGAGGAATTACTACAAATTTTGATAATAAGATAAAGGAAATAGTTTCTTTAACTGATGATGAGTTTCAAACTAATATATTTAAAATAGTTTTTGATAATGATTTAGATTTAAAGAATAAAAATGGAGAAATAATGATATCTTCATTTGGAAAATCTAAAGTAAATTTAGGTGCTGTAGTTAGAGATAAAAGTTTTGATGATTTTTATGCATATGATGGAAAGCTAGGTTCTATATATACTAAAGATTTTACTACTATTAAAGTATGGGCTCCTACAGCTGATTTTGTAAATCTTTTAATATATGAGGGAGAAAAGATAACTAGAAAAGCTATGACTTTGGGAGAAAAAGGAGTATATAGTATAACTTTAGATGGAGATAGATTAGGGTTAGTTTATCAATTTGAGGTAGGAGTAAATGGAGAAGTAAATATTACTAATGATCCATATACTTATGGAACTACAGTAAATGGGGGAAAATCAGTAGTTGTTAATCCAATTATTTCAAATGTAGATTATCCAAAACTTGATAATGTAATAATATATGAATTACATGTAAGAGATTTATCATCACATCCATTAAGTGGAATAAAAAATAAAGGTAAATTTTTAGGATTAACAGAAAAAGGTACTAAAACATCAAGAGGTCAAATTACAGGACTTGACTATATTAAATCATTAGGAATTACACATGTTGAGCTTTTACCTATATATGATTTTAGTTCATATTCAGTAGATGAAACAAACCAATTTGCTAGATATAACTGGGGATATGATCCAGTAAATTACAATACGCCAGAAGGTTCATATTCAACTAATCCATATGATCCTAATGTTAGAATAGAAGAATTACAAAAAATGATAGATACTCTTCATAAGAATAATTTAGGTGTAATTATGGATGTTGTGTATAACCATGTATTTAGTGCAGGAGAACATGCATTTAATAAAATAGTTCCAGGTTATTATTATAGATATGATAATGAAGGAAACTTAACTAATGGTACTGGTGTAGGAAATGATATAGCTAGTGAAAGAAAAATGGTTAGAAAATTTATAATAGACAGTGCAAAATATTGGGCAAAAACATTTAAATTAGATGGATTCCGTTTTGATTTAATGGGGATACTTGATGTTGAAACTATGAAGGAATTAAGAGATGAAATGAAAAAAATTAATCCTAATTTCTTTATTTTAGGAGAAGGTTGGGACATGGGTACACTAGATCCTGAAATGAAAGCAAGTCAAAATAATGCAAATAAACTTGAAGGAATAGCTTTCTTCAATGATGATTTTAGAGATGCTGTTAAAGGATCTACATTTGGACAAATAGGGAAAGGATTTATTAGTGGTAATTTAAAACAAGAAGAAAGATTATTTGCTTCTATAAAAGGTGGAGAAGGTATAAGAACATACTCATCACCTATGCAATTAATTCAATATATTGAAGCTCATGATAATCTTACTTTATTTGATCAAATTAGTAGAACTAATAATACTGAAGATTTAGAAACTATAACTAGAAGACATAATCTTGGAACTACTATAGTTCTTTTATCTCAAGGTGTTCCATTTATTCATGCAGGACAGGAATTTTTAAGAACTAAAGGTGGAGATGAAAATTCATATAGATCAAGTGATGAAGTAAATAGACTTGATTGGGAACTTGCAAAAAAAAATAGAGCAAGTGTTGAGTTAGTTAGAGAATTAATTAAAATACGTAAAGAAAATCCTGACTTTAATTTAAAAACATTTGATGAGGTTAATAAAAATATATCACCTATTAAAGTTATAGATCAGTTAATTGCATATACCCAAGCTGATAAAATAATAGCATTTAATGCAAGTGGTAAAAATAAGGAACTTAAAATACCTAATGGTAAATATATAGTTCTTGTTAAAGGAAATAAGGCAAGTGCTAAAGGACTTGAAGAAATAGAAGTAAAAGATGGTAAAGTGATAATACCTATGCAATCTGCATTAGTACTTAAAAATAAATAGGAATAGCCTGCTTGAAAAAGCAGGTTTTTTATTCTATAGGAAATTAAAAAAATATCTAAGATAAAAAAATAAAAGAAAATAGTAAAAAAATATTGATAAAGAAAAGAAAAATTAATAGAATAAAAAATAAGAGAACAACAAAACTACCTATCATAAAAATAGGCGTAATATATTAATTATAGAACTTATGAATAGGAGGAGAAAGACCATTATCAATAAATAGTTCATAACGTTTAAGATAAATATTACAATGAGGACACATAAAAGGGTCAAAGTCCCAAAGTTCTTTAAAGTTTTTCCTAAATAAAGAAAGAGACTTTTTATTAACCTGAGCTTTAAGATAAAATAGAGACATTTTAACTTTAGAAGAAATTCTTCTAGCATAGAAACCATATCTATTAATCATTTTAAAATACTTTAAAGGTAGATGAAAAAGCACTTTAGCAACAAAATCTTTAAAAGATAAAGTAGAATAAGTAACTTCTTTATTATTACTTAAATCTTCAAATTTAAATGTAAGAGAATTTTTATTAAAATCAATATTAACAATCTTATATTCAGCAATAGGAACTCTTGATAAATACCTACCAAGATATTTAATAATGTATTTAGGATTATTAATATCATTACCAGCTACATTAAAAAAGAACCTAACATCATTATCATAAACATTAGATACAGCTTTTTTAGCTTGTATTTTAATAATATCATTAGGATAATTAGCATTACTAATTAATTTACAAAGAGAAAACTTCCATTGATTAGCAATAGAGGGGACATGAAAGTATTTAAGTTCTTTATATTGAAATTTTTTATTAAAACCTCCAAGAGAGATGATGGCATGAATATGAGGATTAAACTTAAGGTCTCTACCAAAAGTATGAATAACAGTAATAAGTCCGTAGTTAATAATATCAGAATTAGTAAAGTAATTAGGATTAGATTTAGGGATATATATTTTTCTTTTAACTTTATCTTTGATATTATGGAATTGATATTTAAAAATATCATTAATAGCTTTAGACATTTTAGAAAGAATAGATCTATCATAAGCAATAAATTTTCTAAATTCTTTAGGGACAGTAAAAAGGACATGCCTATGAGGGATGTTAATAAATTGTTTTAAGATAGAATTAGTCCAATTAACAGAATAGTTATAACCACAAGATGGACAAAGTCTAGATTTACAAGTAAGTTTCATTTTATGTTGAAAATTACAAGAGGAACAACGATAAGAGATAAAGCCTTTAGAGAGATTACCACAGTTAAGAAAATTATGAATGGAATGGTTGATATGTTCAATATGTTTTTTATCAAAATATGGCTTGATAGAATTAATAGAATTTGTTAAAATATATTTGGAGAAGATAGATTTAATTTTATTAGAATTATACATTATATTGACTCCTTTCTGTTATTTGGTTTGGCGATTAAATTATACAGAAAAAGAAGAGGTGATTCAAGAATTTTTTTTGAAATTCTTAATCACCTTTTTTTATTAGATTAAACATTATTATTTGTAATGTATTAAAATATATTTAACAAAATGAATAAAAATTATAATATAAATATAATTTTAGATACATTAGGTATAGAAGATAAATTAAAAGCATAGGATGTTGAAATCTTAAAAAAGAATATGAGATTTACACTATCTAATATATCAAGGTAACAAATGCTAAAGAGTTGATACTTTCTAGGTTTGTTACTCTTTTTTTATCGTTTTTTCTGTAAAATTTTAATCAATAAAGATTCAGTTAGTTCTATTTTAGATAATTGGCTTTTAAAATTTAAATAAAATGTGTATAATGTTATAGATAAGAAAAAATAAATTATAATTGATAATCTATTAAATATGAGAATTTAATATTTCATAGTGTTCAAGTTTATTAGCATCAACATTATTTATATAAAAATATATAAAAAATAATTTGTTTTTGATAGATTTAAGGAGGTAAAATTAATGTATTGGAAAACTTTTGAAGAATAATGTACAGCATATTTAAATGAAAAATATGGAATTAAATTTGAACAACAAGGAAAATCAGATTCAACATTAAGTGATATATTTTATCGTGGTAAAGAAAAAAGTTTCTATATAGAAGTAAAAATGCCTAATGCACAATGTGGTCAGTTTGTATTATTACCAGATTTAAAAAAAGGTGTATTTATATATTCTCTTAAAAATAAAACAAATGAAAATGAATACTCAAGAATGATTGTTAATTTTATGAATAGAAATTTTAATGAATTTTGTAATTCAGGAACAACAGGATTAGATATTAATATGCCGAAATCAGTATTTTATAATTGGATAATTAAATATTACAGAGAAAAGGGTGTAGAGTTTTTTATAACTAAAGATATGGATAAATTTTTAATAGTTCCTATAGATCAATTCTCTAAATACTTTGATGTAAAAGCAAAATATAGAGAAAAGAAGAGAGGTTCATCTAGTTTAACTAATTCTAATAAATATGATTTTGAGAATGCAATGAATAAATCTGGTATAAATTTTAATTTTAATGAATTGGATATTATGTCTGATAAATATTTAGATGGAATAAAGGTTAATGGAAATAAATATGATTATCTTATTATACAGAAAGGAAATAACTATAAGGTTAGAAAATTATCTAATACTAGAAATGCAAATGTAATATTTTCAATAAAATTAATGGACTATGATTTAGAATAACAAAAAATGGATATTCTTAAGTTTGAAAAAGAAATTAGTAAATAGAGAGTTATGTATGTTGAATATTAAAGATAAGGTAATCACAAAACTGAATACCTTATCTTGATATTTTAAATATAGTTATATTTGTTATTTAAAGCTTCGCCCATATTTTTAGTTATGTATTGTAGAACATCAATGACAACAGAATTTCCAAATTGCTTATATGCCTGACTTGATGATGGATGAATTAAATATGTGTCAGGATATCCCATAATACGAGCACATTCACGAGGATGTAATTTCCTTGTTTTACCATTTATTAAGTAACCACCAGTTTTAGAAAATATTCCACCACCATGTGCAGATAATGTAATTGCAATTCCCTTAGGACTATAAATTCTTTCTCCTTGACCACCTTTACCAACAGTACCTATTCTTATTGCCTTATTTGAATTTTCTTTAATTTCTTTATCCTTTAATACGAGATCATCTCTATTTATTATAAGGTTTGATACCTCTTCATCAGGTAATAATAAATCTTCTACAAATGTAGATAGTTTAAATGGTTTCGGGAAAATGAAATTTTTAATATTTAAATCTTTTCTAAAGCAAACCATGTATATACGTTCTCTTTTTTGAGGAATCCCAAAGTCTAATGAATTTAAAATATCATAGTAAAAATCATATCCTAGATCTATCATTGTATTTTGAACAATTTTTAATGTATTGCCATTATCATGTGATGCAAAATTTTTAACATTTTCCATGAAAACAACTTTTGGATTTTTAGCTTTTATAATCCTAGCTACATCAAAAAATAAAGTACCTCTATTATCTTCAAAACCTTTTTGTTTTCCACTTATTGAAAAAGCTTGGCAAGGAAAACCAGCACATAAAATATCGTGATCTGGAATATTGTTTTCATCAATAAGTGTAATATCACCTTCAGGCATATCTCCAAAATTCATTTGATACACTTTTTGTGCATTTTTATCCCATTCGTTTGAATAAACACATTCTGCACCAAAGGATTCTAGTGATAGTCTAAATCCGCCTAATCCAGCAAATAAATCTATAAATTTTAAACCAGCAAGACTTTTATTTTTCACTTCAATCATAAAATTCTCCTTTTGATAATACACTATATATTACCATTTTATATAAGAAGAGGTGTTATGTCAATATAGATGTTTTTTAGTATATAAAATTTAATGAAATTAATTCTTGAACATATAATAATTAAAATTATTTTTTAGATTTTTTTGAATGAAAAATTTTTATTTGTCGTATATCCTCAATAAATTGATCATATTTAATATGATCACTAAAGAATAATACTTTAATAATAAAAACTACTAAACAAAAAGTAATTAAAGAAATTATTACTGTGTATACTATAAGTTTTATTATGTTGAATAGTATTTCACCTTTTATCTTTAAAGTCAAAATTATACTAATAATACTTGGAAGATTATAAATAAATGCTGTACCTAGTGTGGATAGATTTATTTTTAATTTTTGAAATGGAGCACATTTTATTTTTGAAATTTCAGCTTCATGAATTAGTAAATCTAGTGTATTTTGATCATTTATATCAATATTATATTTTTTTAAGACATTAATTACCATATCCATATGTTCTTTAGATAAATCATTATGAATTTTTTCAAACATAGGATTTGGTAAAAATATTTCACATATAATATGAAGGAATAATGCGGCTAAGAACATGATTACTAGAAATATAAAATTTTCAGAAATAATAAAAATAGCATAAAATATAATAAGAAAAATAAGGAAGATACTAAAAAAATGTTTGTTTTTAGGGGAAATTTATTAATTTTGAAATATTCTATAGATTTTAATCCGATTTTGTAACTTATAAATAAATTATAAAATTTCATGTAAACACCTCTCTTTTATTTTTGTTATGTTAATCATATCAAATAATTAAAATTGGCACAATATAAATCAATAAAAAATGAGATTACATTAACAGAATTTATGATATAATTAGAGTATAAATATAAAATAAGGAGAGCTTAATGGAACATAAAGGAACAGTAAGATTAGAAACAGATAGAATAATTTTACGTCAATTCACAAAAGATGATTATGAGGCAGTATTTAAAAACTTTGAATCTGATGTAGAAATTACAAAGTATTTAAGATGGAAGGCAACAGATGATTTAAATGTTTCAATAAAAATTGTAGATAGCTGGATTGATAGTTATAAAAATAAAGATGTTTATCAATGGGCAATTGTTCCGAAAGATTTAAATGAACCTATTGGAACAATATCTGTTGTAAGTTTAGATGAAAAAATTAATAAGGTTCATATTGGTTATTGCATAGGTTCTAAATGGTGGAATTTGGGTTATACAAGTGAGGCTTTGTCAACAATAATTCCTTTCTTTTTTGAAGAAGTGAAAGCTAATAGAATTGAATCACAACATGACCCTAATAATATTAATTCTGGAAAAGTAATGCTAAAATGTGGAATGAAATATGAAGGAACTTTAAGACAAAATGATTGGAATAATCAAGGCATAGTTGATGGAGCTGTTTATGGACTTCTTGCTTCTGAATACTTTGAAAATAAAGGATAAAATATTTATAAGGATTGATTTTTTTAATAAAAAAATATCAGTCCTTTTATTTTTATTAAATTTAATCATATATAAAATAGATTGAACCATTAATTTTTTGTATATTTCAAAATGTTGACTTGAGATTAAAATAGTAGTATACTCCACATTAAATAAATTTGAATGTGAGGAATTAAAATATGAATAATATGTTAAAGTATATAGTTAAAAGAACATTTACAGGACTTATTACATTATGGCTTGTGATAACTATAACTTTTTTTCTTTTGCATAAATTACCTGGAGATCCTTTTGAAAGCGAAAAAGCAATTCCACCACAGATTAAGGCTAGCCTTATGCAAAAATATGATTTAGATAAACCTTTAAGTACACAGTATTTTAAATATTTAAAGAATATGTCTAAAGGAGATTTAGGTGTTTCTATGAAAGAAAGGGGAAGAACAGTTAATTCTATTATTAAAAGATCATTTCCAGTTTCAGCAGATTTAGGAATAAGAGCAGTATTATTTGGATTAATATTTGGTATACCTTTAGGAATAGCAGCAGCATTAAAAAGAGGAAAGAAATTAGATCATTTCTCTATGTTAATAGCAATTATTGGAATATCAGTACCAAGTTTTGTAATTGCAGGAATATTACAACTTTATGCAGTAGAAATTCATAAAGGAATATTAATAGATAAAATAGGTCTTCCTTTAGGTAGAATATTTTTAACAGGTTGGGATTTACCTTCTAAAAAAATATTACCAGTTATAGCACTTGGATTTTTCTCTTTAGCTGAGGTTGCAAGACTTATGAGAAGTAAAATGATAGAGATTATGGAACAAGACTATATTAAACTTGCCATAGCAAAAGGTGTTTCACCAATAAATGTAGTATTTAAACATGCATTAAGAAATGCTATATTACCAATAATAACAGTTATATCACCTTCAATTGCAGCAGTATTAACAGGATCATTTGTTATAGAAACTATGTTTTCTATAGGTGGGCTTGGTAAGTATTATATAGATTCAATAATAGATAGAGATTATACAATGGTTTTAGGAGTTACAATATTTTACTCAGCATTTTTAATATTTATGATGATAGTAATGGATGTAACTTATGCTTTAGCAGACCCAAAAATTAAATTAGGTAAGGGGGATAATTAATGAAAAATTTACACGGTGCAAATTATGATAGAGAAAATTATGTTGCAAATCCAGAAGATTTCGTTTATGTAGGTCCTGATATTAATAGAAATGAGAAGATAAATAAGCCTAGTTTAACTTATTGGAATGATTCATGGAGAAGATTTAAAAAGAATAAACTGGCAGTATTTTTCCTAGCCATCTTATTAACCTATGTATTTATAGGAATGTTTGGTCAATTAATATCAAAGTATTCATATTTTGAACAAAATAGTTCTGACAGATTTTTAAGTGTATTTAATGGCTTTTCAAAAGGTCATTACTTAGGAACAGATTCATTAGGTAGAGATATTTTTGCAAGGGTATCACAGGGAATTAGAGTATCTATGGAGCTTTCTATAATAGTTGCTACAATATGTGTTGTTATTGGAACTGTATATGGTGCTACAGCAGCATATTTTGGGGGAAAGATAGATAGTATAATGGTAAGAATAGTTGAGATAATAATGTCTATTCCATCTATCATATACATAATACTTTTAATGGTAGTTCTTGGTAATAGTGTAGAAACAATAATAATAGCACTTTGTGCAACGAGATGGTTAAATTATGCTTTACTTGTTAGAGGAGAAGTTTTAAAAATTAAAGAAAATGAATATGTACTTGCATCAAGAGCCTTGGGTGCAAATTTCTGGCACATAGTTAGAAAGCATTTAATACCAAATACTTTAAGTATAATAATAGTTAGGCTTACTATGGATATTCCATCAATAATATTTTCAGAAGCCTTTCTAAGCTTTATAGGCTTAGGAGTACCAATACCACAGGCATCACTTGGAAATTTAGTTGCAGATGGTTTTAAAGAAATAAATACACATGTTTATCTATTTTTAATACCAGCATTAACAATTTCATTAATCACATTATCATTTAATATTATTGGTGATGCTATGAGTGATGCATTAAATCCAAAACTTAGAGATTAGGAGATAGGGATGAGTTTATTAGAAATAAAAAATTTAAGTGTTTCTTTTAACACTTACGCAGGTGAAGTTAAAGCCTTAAGAGATATAAGTTTTACTGTAGATAGAGGAGAAACTCTTGCAATAGTTGGAGAATCTGGAAGTGGTAAATCTGTTACAGTACAAAGTATAATGAAATTAATACCTACACCTCCAGGTGAGTATAAAAGTGGAGAGATAATATTTGATGGTGTAGATCTTTTAAAACTTAATGAAAAAGAAATGAGAAAATATAGAGGTGGTAGAATAGGAATGATATTTCAAGATCCTATGACTTCACTTAACCCAGTAATAAAAATAGGGCATCAAATTATGGAGGGAATATTAATACATAAAAATGTTAGTAAAAAAGAAGCTAAGAAAATGGCTATAGATATGCTTGCAAAAGTTGGTATTCCTAAACCAGAAGAAAGATTTGAACAATATCCACATCAATTTTCAGGTGGAATGAGACAAAGAGTAGTAATAGCAATAGCCTTAGCTTGTGAACCAGACTTATTAATTTGTGATGAACCAACAACAGCACTTGATGTTACTATACAGGCTCAAATATTAGAATTAATTAATAAGCTAAAAAAAGAATTAAATATAGGGGTAATATTAATAACTCATGATTTAGGAGTAGTCGCAGAAACTTCAGATAGAGTTATAGTTATGTATGCAGGTGAAAAAATGGAAGAAGCACCTGTTAAAAATATATTTAAAGATCCAAAACATCCATATACTTGGGGATTATTAAAATCACTTCCAAGACTTGATATGGATTCAAATGAAGCATTGTTTTCAATACCAGGAACTCCACCAGATTTATTAGATCCACCTACAGGAGATCCTTTTGCAGCAAGATCAGATTTTTCTATGAAAATAGATTATGAGAAAAAACCACCTTTAGTTGATTTAGGTGATGGTCATTATGTTAAATCATGGATTTATGTAGATGGAGCTCCAGATATGAAATTTAATCCTGATGGAACTATAAGGATAAAACCAGTTGATGGAAGAGCATATATTGTAGATACAACAAAAAGTAAAAGTGGATTAAAATTTGCTAATATTGTAGAAAGTGAGGACATGAATGATAGTAATTAGACATTTAAAAAAATATTTTCCTCTTTCTAAAACAGAAGTATTAAAAGCAGTAGATGATGTTAGTTTGGATATTAAAAAAGGAGAAATATTATCGCTGGTTGGAGAATCTGGAAGTGGTAAAACGACTTTTGGTAGAACAATTGCAAGACTATATAACAAAACATATGGTAATGTGTATATAGATGGTAAAGAAATATCAGAATACAAGAATATGGAGTTTACTAAAAAGGTTCAAATGATATTCCAAGATCCTCAAGCCTCTCTTAATCCAAGAATGACTGTAGGAGAAATAATATCTGAGGGAATGATAATACATAAAATGTATAAAAATAGTTCAGAAATTCAAGAAAAAATTTATGAACTTTTAGAATTAGTAGGACTTTCAAGAGAACATGCAAGTAGATTTCCGCATGAATTTAGTGGAGGACAAAGGCAAAGAATAGGTATAGCAAGAGCTTTGGCTGTTGAACCTGAAATATTAATATGTGATGAACCTATTTCAGCCTTAGACGTATCTATACAAGCTCAGGTAGTTAACTTATTAAAAAATCTACAGAAAAAGAAAAATCTGACTATGATATTCATAGCTCATGATCTTTCTATGGTTAAATATATTTCAGATAGAGTAGCAGTAATGTTTAGGGGAAAGATAGTAGAACTTGGGCAACCTGATGAAGTGTATAATAATCCTATTCATATATACACCAAGTCTTTATTATCAGCAGTTCCTATTCCAGATCCTGAATATGTTAAAAAGGATAAGGTAGAAATGGATGAAAGTTATTTAAAATCACCTATAGGAACATATGATGAAATAGATAAAATTGTAGAAAATTCAGGGCTTATTGAGTACAGAAAAGGACATTATGTAGAAAAGGATTTTTTAGAAATAAAGTAAAGGAGAATTTTTATGAAGAGAATATTATTTGTGTTGATGACAATTGTTACACTTTTTAGTTGTGGAACAAAAACTTCAAATAATGTAAATGAAAAAGTATTAACATTTAATGCAGAGGCTGAAGGTATTTCATTTGACCCTCATATAGCAACAGATAATAATACTTTAAATATACATGGATTAGTTAGTGAAGGGTTAACATATGCTTTAGAAAATGGTGAAATTAAACCAGCACTTGCTGAAAGTTGGGAAGTAAGTGAAGATGGTCTTACTTGGACATTTAAATTAAGAGAAGGAATTAAATGGTCTAATGGTGAACCTATTACAGCAGATGACTTTGTATATGGATGGAATAGAGTTTTAAATCCAGAAAATGCAGCTGAATATGCATATATTCTATACCCTATTAAAAATGTAGAAAAATATGTTTTAGGGCAAGTAGGGTTTGAAGAAGTTGGAGTTAAAGCTTTAGATGAAAAAACATTAGAAGTTAAACTTGAAAATGTAACTCCGTATTTTGATTCATTAGTTTCATTTATTTCATATATGCCAGCAAATAGAAAATTTGCTGAAGAAAAAGGAGCTGAATATGGTCTTGAGGCAGACGCATTACTTTATTCAGGACCATATAAAGTGGCTAAATGGGATCATAATACTCAAATGGAACTTGTAAGAAATGAATATTATTATGCACCTGAATCAAGAAACATTGATAGATATGTAATTAAATATATAGCAGATAATACAGCAGCATTAAATGCTTTTAAAAATGGAGAAATTGATATTGTTAATATAACATCTGAACAATTACAAGAATTTAAAAATGATCCAAGACTTGTTAAAGTTGAACTTGGAAGAACATTCTATCTATCACTTAATATGACTGCTGATATGTTTAAAAATCAAAAAATTAGAGAAGCTATTTTACTTGCAATAGATAGAGAAGGATTAATAGAAACAGTATTTGAAAATTCTAAATCTTCAACTTACAGTTTCACTCCTAAAAATGTTGGTATAAAAGGATTAAAAGAAGATTTCGTTAAAGAACTTGGAGAAACTTTTGGTAAATTTAATGTAGAAAAAGCAAAAGCCTTATTTGAAGAAGGTAAAAAAGAAATGGGAATAGATAAGTTCCCAACAATTAACTTAGTTGTTAATGAAGGAGGATCAAATAAGAAAGTAGTTGAGAAAGTTCAAGAAGATCTAAGAGTTAATTTAGGAATTGATGTAAATATTGAAATAGTTACATTTAAAGAAAGATTAAAGAGAATGAGATCAAAAGAATTTGATATTGTATTAACAGGTTGGGGAGCAGATTATCAAGATCCTATGACTTTCCTTGACTTATTAACTACTAAGAGTGGAAATAATTCATCAAAATACAACTCTCCTGAATATGATGAATTAATTGATAAAGCCCTTAAATCAGTTGATAGAAAAGAAAGAGTACAATACTTATTTGAAGCTGAGAGATTACTTGCAAAAGATATTCCAATAATTCCATTATATCAAGAAACTAGAAACTTTTTAGTAAGTGATACAGTTAAAAATATGAAATTTGGTTCAATAAGTATGGGCTTCCATTTCTATGATGTAGATAAAGTAAAATAGTAAAAATATTAGAGAAGAAAGCTAATGAAAAATAATTTCAAATATATACTAAATATATTTTCTAAATTAGGATTTAAAAAAATAACAATTTATCTTTTAGTAGTTTTTACTAGTTATATATTAATTGTATTTCAACCAATTTTTATAAGTAAAAGTATAAAAGAAGGTTCAATTTATTTTATAGTTTTGTTATTTTTATCTTTAATTATAGAAGAAACATTGGAATTTTATAATAATTATATTATACAAAAAATTAGAAATTATTCTAAATTAGTAATATGGGAAGGAATAATAAATAAGAGTTATTTTGAATTTTTTGAATTAAATTTAGGAGAGATACAAAATTTAATTCAAGAGGGTTCTTTTTTAATAAGATCACTTTATGATATTTTTCTTAGAATATTTAAAAATTTAATTATGATAATAGTATATTCTATTGTATTATATAATATTTATAATCTTATTGGAGTTATATATTTAATATTTTATTTGATATATATGTACATATCATATATTTTTTTAAAAAATGATAGTAAAACTATTTCTAATTCAATTGATATAACTTCAAAAATAAGTAGTTTTATAGTTGATTATTTCATAAATTATGATACAATTCATAGTGAAGATTCATATAAATATGAAACTGAAAATTTAAAAAAATTTTTAAATGAAGAAGAGAAAAGCTATTATTCAGTTCAAAAAAATATTGTTAGATCAAATTTTTTACTTAGAATATTTTTAATATTTGTAAGTGGTATAGTTATTTTTATAGGTTTTAATAAAAAAATAGATATAAGTTTAATATTGATAATAATATATTCAATATTTAATTTAAATAATTTTGGGAAATATATTTTGAGTTTTTTTGAATGCTGGGATAGAATAAGAATAGTTTTAGAAAAAATAAAAATGTTTGATTCAAAAGAAATAGAAGGACATTTAAATATAAAATATATTGATAGTGAAGATATAATAGTATTGAAAGATATATGCTATAAATATCCAGATTCTAATGAAATTATTTTTGAAAATAAATCTTTATCAATAAAACAAGGAACTAAGAATCTATTAATAGGAAAAAATGGTAAAGGGAAATCTACTATTTGTAAAATTATTTCTAATATGTTAAATGTTTCAAAAGGCGAAATTATATATAATAGTAAGTATATAAATAATGAAAAAGAAATAATATATTATTCACAAAATATTAATTTATTTGATAGAAGTATTATAGAAAATATAATATATCCAAAAAGTAAATTTGATGATATAAATTTATTAGATATAAGAAAAATAATAAAAGAATTAGAATTAGATAACATAATAAAAAGTGATGAAGATTTATTAGAAAAGAAAATAGGAGATTTTAGTAAAAAAATTTCTGGAGGAGAAAAACAAAAAATATTAATAGCTAGAGCTTTATTAAGTAATAAAAAAGTTATTATATTTGATGAGATAAATTCAGGTATAGATAAATTTAATAATGAAAATTTTTATAAATTAATAAGTAAATATTTAAGTGATAGAACAGTTATTATAATTTCTCACAGAGAAGAAAAAAATGATATTATAGATAATGTTATTACATTATGATGTTTATTTGTGATAGACTTATAGAGAGTGTAAGAAAAAACCTGCTTTTTAAAGCAGGCTTTTCTTTTGTTAGAGTAGCATCATTAAGTGCAGAATACTACGTTAAAAACGATAGTAAAACAGAATTTGGTTATGAAAATGCCTTTACCAAAAAAGCATCAACAGAATTAAACTGGGGAGGAATATTTGGTAAAAACAAAGAAGTATTTACATTTGTAGGAGGTGAAGTAAACTTAGATAAAGATACTAACTTTGGAGGAGAAATCCTTTTAGGAATAAATGTAAAAAAAGCAATAACAAAAGATATAGGCTTAATATTAAATGCAGCCTATCAATATAATGATAAAGCAATGAATAAGAAAGCCTTTGAAGAAAATATAAGAGAAGTATTAAAAAGTAGAGGAGAATGGAAAGAAGAAATAGAAAAAGACAAATATAAACTAAAAAGATATTACCGTGGACAAGGATTAAGATTTAAAGGAGAAGAGACTTTATTTTCAGGAGTAGTAGATTATAACCATAAACTATTTAAACTACAAAGTGGAGTAATATATACAGCAGGATATGCAGCAAATTCAAATAATAGATTAGAAAGCTTTTTAAATTTAAAGACAAATAAATCAAACTATGATATAGAGTTAGACATAGATCATAAGTTTAAGTATGAAAGACCAGACACAAATAAAGACAACGGCACTTATTCAAAAGGAGGAAGATTAAACATAGAATTAAGTGCAAGAGGTAATGTAGGAAATTTAAATACATATAATAAGGGCATAGTATATTTAGGGACAATAATACCAAGTAAGAAGGATTATCAAATAACAAGTGAGAATGAAGTTAAATATACTATTAATAACATTGAGCTATCAACAGCCTTTAATAATAAGTTAGCCTTTAGACAAGTAGAAAAAATAAATCCTGATAAATTAAAGATAAGATTACAACCAGAATTAAAACTAGGATTAAAGTATGCTAATAAGAATATAGACTTTGAAACAAATGGACTAATAAAGGGTAGGGTAGATCTTAAGAAAGAGCAATCAAAAAAAATAGAAATAGAAGGTGATGAATACACTAAAGATAATAATGTAACAAATAATAACACAGATATTAAGAGAGCAATTTCTAATATATATGTTGATAGTAGAGCAGGATATAAATTAGGAGTTTTCAACTTTAGGTTAGCAGGAAGATATGTAGGGGTAGTAAGTCTTAAAGAGAAAAGTAAAGACATTGATGCATATAACCAATATGCATTTGTAGGACCAGGAATAACATATGAGAGTAAGGTAAAGGAACTTAAATTAAAACATAGTTTTGATATAAGATATGAGATAGGGTATAAGGATAAGAAGACATTTAGTGTAATAAACTTTTGGAGTGATAATAGACAAGAGTATAAGGTAAATGATAAGTTATCATTAAAGGGAGAGGTAAACTTTACAAGTTCAAATAGATTCTCATTTATAGACAAGGACTCAGATAAAAATGAAATACTATTATTAGCAGACACAAAGGGGACAGTAGAATACAAACTAAATAACAAAACAGACCTTACTTCAACATTAGGGTTAAAGACTATATCACTGTTTAAAGAACATAATCAAAATGGTATGAGTGATAATAACAAACATGGAGATGAAAGTTTACACTTAGATGTAAAATATGCATTTAAGGTTTCAAATGAAAATAAGGTAACATATCAATTAAATAATAATATAGATATAGTAGGTAGAATAGATACAAGTTTTGCATATGGATTAAAATCAGATAAGTTATATGAGAGTTTAACAATGATAAAGAGAGAAAGAATAGGAGAAGATGGGATAATAACACATACAGAGGGAGATCTTAAGAAGATAAAGGAAGATGAACAAGCATTTGGAGCTGACAATAGAGCAATTTTATTAATATCACCGAGTGCAGAATTAAGTTTAAAATACTTAAATGATAAGCTACATGTTAAGCCAAGCTTAGGGGTAGATGTAAGTGCTAAAGTAGCTAAAAACCAAAGTAAGTTAGAATACAAAGCAGTAAATGTAAAAGCAAGATTACAAGTGGAATATAGATGGTAGGGGAAGGAGGATTAATGAAAAGACTAAATATATTTTTATTAAATTTAATAGCTTTATCTAATATATCGTTATCACAAACAACACCTAAGAAAAGAAATACATCTACAAGAAATCAAACTACTGAAGTAAAAGAAAATGATTTCTTTAATTTTAGAAATGCAAAGAAGATAAAGTTAGAATTAAATGCTAACTTATAAAGTGAATTTAATAGTTCACCATTAAGATCTAATAATATATTTGATGGTTCACTAACACTATATGAATTTCTTAAACTATCAGGAGGAGTATCACTTTCAAGAGATCAAATTGGAGCAGAACTAAATGGATAAGAAACATATTTATCTTTAGGGTTAAACTTTAAAAAGTTTGGTAATATAGAATTAGATATAGATTCTAATAGGGTATTAAGACTTAGATATGAATATAAAAAAGATATTAATGACTTTAGTATAGCTATTAGAAATGGGTTTACTACATTTAATATTCAACGTTAGATAGGTAAGAATGATGTTAAAGAAGAAAGAGAAAATAGATATGAATTAGATACTAAGATAAAATATGATATAAATAAAAACTTTACATTAGTTAGTGATCTTAATTTATGGTTATCAATGTGGCATTCAGAAAAAAGATTAATACCATATTATTTTTTAGTTGGAACAGGAGTAGATTATAAAAATAGTATATTAAGAGGAAAAGACTATAAAGGAACACTAACATCAAATATATATGCTAGTCATTATAATGCAAGAAATCAAGAAACTAATGTTAATAGTGGAAGTGGAGGTAGCGGTAATAACAATAACCATACTGTAAGAAGCTCTGAACATTATAAAGGCTTTATAGTTGAGGGACATTTAGGATATGAATTTGAGAAGGAATTAGGGGATAAAGGATTAATAAGTATTCTTGGTAAGATTAATGCAGACATAGAGAAGAGTTATACTAATAAAACAATAGAAAGATATCAAAATGATGGAAGTGCAAATTCTGAAGACGACGATGATGATGACAATGACAATAATAAAGATAGATTTGATATTAAACTAATACCAAGTATAAAATTAGGATATAAATTTAATGATAACTTTAATATAGAAGTAGAATATGCAGCTAGTATACTATTTAATAAAGCTGGATATATAGCAATGGGTATATTAGCTTTAAGTTCACTAACAAGTTTTTCTACAACTATATACCTTAAAAACAACTTAGAAGGAAGCCTAGAATATTCTAAAGATAATAAATATGAATACAAAATACATGATAGCTTAAACCTAGGAATACTAACAGGAAAGAACAATGAAGTATTTGCTTATTTAGGAGGAAAACTAGAAAAAGGAAAACCAGTAGATGGAAGAATCAATAAAAGATGGATTAAAGTTAAGAGGCTTATGGGACAGGAGATATGAAGAGGATGATGAAGCAAGGAAAGAGTTTTATCATTCACAAGGATTAAGATTAAAAGATGAACAAATACTAGCATCAGGATTAATAGATCTAACATATGATAATACTAAATCAAAAATAGGATTAATATATACAACAAAAGACTTAGATAACCTAACAGGAAGGGTAGAAGGATTTGTAAATGTAAGACAGTCTGTAAAGGATATATTAGATATATATGTAAATGTAAACTATAAGTTAAAGCCAGATATATCAAAGAGGTTAGGGAGATTAAAGGGAGATATAACATTAAGTAAGAAGATAGGAAATGTTGATTTAAAAGGTAAGGCATATGGATATTTAGGGACAGTATTAATAAGTGATAGAGATAGAAAGGTAGGGATAGAGGGGACTTTATTATATAATAAGGATAAGATAAATATAAAGAGTGTAATAAAGCATGATACAATATTTGACTATAGCAAGAATAAACAAACAAATAAAGAATCTAAAACTGATTCAACAGAAAGTTACTTTCATAATCAGGAGTTATTATTTGATTTAGGATATAAGAGTAATAGGATAGAGGTAAAGACAGAGAACAAGATAAGAGGGAAGGTGTTTACTAAAAGCCTTGCAATAGACAAAGACAAGTATAAAAGTAGTGATACAAACAAAGACAAAACAGTATTAACATTATATACATCAAATAAGTTAGTTAGAAGTTTTGGTAATTTGGGATTAAGCCTAGATGCAAGATATAGAGCTGGTTTAGACTATAAGGATTCAGGAAGTGTTACAGATGAACATATATCACTTTTAGGATTAGGTATAAATTATAAAGGAACTAATACAAAAAATAGTATAGATACAGCTTTTATAGCAGGATATGTAGATAGCAAGGAGCTATATATCTTAAATGTATGGAGTGATAATAGTATAGATTATAGAATGAATAACAAATTAAGATTAATAGGAAAATTAAACTTAACGAGTTCAAATAGGTTAGGGATGCTATATCAAGGACAGGAAACGGAGATATTGGGATTAGGAGATATAAGTGGAAGGATAGAGTATAGACCAACAGATAGGGTAGAGATAATAAATGAGGTAGGTACAAAGGCAATACTTTTATTTAACTATAATGATCGTAAGAAAGCCCAACCTAAAACTTCTAGCAGTACTACTAATAATAATAGTATGTCAGATAAATTACAGAAATTACATTTACATACCCAATATCAATATAAGGTATATAGTGATAATAGTGTGTCATACAAGATAAATGATGGAATAAGATTAATAGGTAAATTAGGATTATCATATTTAAATGGATATGATAGTGAGAGGTTATATACAGCTCTAAGAGATATAAAGAGAAAACAGATAGGGGAAAATGGAATATTAGAGATAAGTAGTAAAGACACTAAAAAGATAAAAGAAGAAAAGCAATCATATGGAGAAGATAATTTATCAAAGATATTAATAAATCCTAGAATAGAGTTAGAGTTAAGGTTTATGGAAGATAAGCTATTATTAAAACCAAGAGGAGAGGTAATAGTATCAATAGCAAACAAGGAAAATGAAAACTTTAAATACAAGAACACAACATTAAAGTTAGGATTAAATGTTGACTATAAGTGGTAATATTTTTATGTGAAAATATTAGTGTAAAAGGGGTGGCAACACCTCTTTTCTTATGGTATACTATAACTACGGAGGAATAATGAAAAAAATATTAAAATTTGAAGAAATTGATGTGTTAGCTGATAAAATTAGTGAGAAAATTTTAAAAGATAATAAATTTAAATCAATAGCTTTAATAGGAGATTTAGGAGTAGGGAAAACACATATATCTAAAAGAATATGTAAGAATTTAGGTGTTGAAGAAAATGTTAAAAGCCCTACATTTACTTATCTTTTAGAATATGATTTAGGGGATAGAACTATAGTACATTTTGACCTTTATAGATTATCAAATATAGATGAACTTTATGAAATAGGATATGATGACTATATATCTGATGGAAATATTTTTTTAATAGAATGGGCTAATAATGTACCAGAAGCTATACCTGATAACACTTTATATATAAACCTAGAGCATAGAGATGAAACTACAAGAGTAGTTTCTTTATATAAAATTAAAGAGGGGGAAATTAAATATGTCGACATTGATAATTACGACTTCAACTAAACTTGCTTCTCTTTCACTTTATGATAATGATAATATGTTAGGAAATATTAATGTTAATGTGAAGAGAACACATTCAAGCTATATAATAGATCAAATTTCATCACTATTATCTTGGAGTGGAATTAAAATTGAAAATATACAAAATGTAATAGTTTCAATAGGACCAGGTTCATTTACTGGAGTTAGAATAGCTATTTCTGTAATTAAGGGAATGTTTGTAGGTAGAAATGTTAAGATATATGAAGTTAATGAATTAGATGCCTTAGGATATCAAGGTAATATGATATATATGGACAAGGTAATAGCTATGATAGATTCAAATAAAGAAAAAATATATTATGGTAAATATGAAAATGGTAAAAGAATTGGACAACTTTTAGTTGGTAAATTAGATGATGTAATATCTCTAGTTAAAAATGAAGAATATAAGTTAATTGGGGATGCTGTTATTTCATATAGTGAAAAGTTAGAAGAAAATGGAATAAAAATACCGATTGCTGATACTTTTTTAAGAATAAATTCTGGAATATTTTATGCAATGTATAAAGATAATTTATTAAAAGAGGTGGACTTATTTAATTTAGTGCCTGATTATTTAGAAAAATCACAGGCAGAAAAGGAGAAAAATGGGAATATCTGATTTATTAATTAAACCTAAAAAGGGATTTTTTACTAAATTAAAGGAATTTTTTGTAGGAGAAGCTATTACTGATGAAGTGTATGAAGAATTAGAAGAACTTTTAATACAGGCTGATTTAGGTATGAAAATGACTTTAGAAATAGTAGAAAATTTAGAAAAAAATGTAAGAAGTAAAGGCATTAAAAGTAAAGAATTAATGTATGATGAACTTAAATTATTACTTTCTGAAAAATTAGAAAAATTTAAGGATAATAGCTTAAATATACAAAAGGGTAGATTAAACATTATTTTAGTTATAGGTGTAAACGGAGTAGGAAAAACTACATCAATAGGTAAGATTGCTATGAAATTAAAAAAAGAAGGTAAGTCTGTAATAATAGGTGCAGCAGATACTTTCAGAGCAGCAGCAATAGAACAGGTTGAAATGTGGGGACAAAGAGCTGGAATAGAAGTAATTAAGCAAAAACATGGTTCAGACCCAGCAGCAGTAGTGTTTGATACTATAAATACAGCAAAATCTAAAAATATTGATGTTGCAATAATAGATACAGCAGGAAGATTACATAATAAGGTTGATTTAATGAAAGAGTTAGAAAAGATAGATAAAATTATTAAACAAAATGTTGATGAATATGAATCTTTAATAGTTGTTGATTCTACTACAGGTCAAAATGGATTAGAACAGGCAAGAATGTTTAATAATATATCTAATATTACAGGGGTTATACTTACAAAATTTGATGGTACAGCTAAGGGAGGAATAATATTTTCTATAGTTTCAGAGCTTAATAAACCAGTTAAATTTTTAGGTGTAGGAGAGGGTGTAGATGATTTAAAAGTTTTTGACTGTAAAGAATTTATTAATGAAATGTTTAACTAATAGTTTTACTTGAATTTTGGTTTATTTATTGTTAAAATATTAAGAAAGTTGTTTGAAAATGAGGAGATGAATAATATGGCAGATTTAATTCAAGAAATTAAAGAAAAGGAAAAAGAACATAAAAAAACAGTAGTTTTACCAGAATCTGAAGATGAAAGAGTATTAAGAGCTGCTGAACAAATTACTAAAGAGGGATTTGCTAATATCATATTAGTTGGTAAAGACTATCAAGTAAGAGAACATGCTTCAAAAATAGGGGTAGATTTAAGTGGAGTACAAATTATTGATCCAATGTCTTTTGAAAAAACACCAGAATTTATTAGACAATTTGTTCATTTAAGATCTAAAAAAGGAATGAAAGAAGAACAAGCTCGTGAAATCATTCAAAATGATGTAAGATTTTTTGGAGCTATGCTTGTTAGAAACTGTATAGCAGATGGTATGGTTGCTGGTTCTAGTTCACCAACATCTAATGTATTAAGAGCAGCAATACAAGTAATAGGACCTAAAAAAGGTTTAAAAACAATTTCAAGTTCATTTATTATGCAAACAAAAACTAAGGAATTTGGAGTAGATGGAACATTAATATTCTCAGATTGTGGAGTACTTCCAAATCCAACTGCTCAACAAATTGCGGATATAGCGATATCGGCTGTTGAAAAATCAAGATTAATAACTAAATTTACTGATCCGAAAGTAGCACTTTTAACTTATTCAACTAAAGGTTCTGCTGAAGGTGAACAAGTAACTAAAATGAGAGAAGCATACAAGATATTAGAAGAAAGAGGAGTAGACTTTGAATTTGATGGAGAATTACAATTAGATGCTGCGATAATTCCAAGTGTAGCTGAACAAAAAGCTAAAGATTCTAATGTTGCAGGTAAAGCAAATATTTTAGTATTCCCTGATTTATGTTCTGGAAATATAGGGTATAAGTTAGTTCAAAGATTTGCAAAAGCTAAGGCTTTAGGACCATTAATTCAAGGGCTTGCAAGACCTGTGCATGATTTATCGAGAGGATGTAATGTAGAAGATATAGTTGATGTAGTTGCAATAACTTGTGCAGAATGTGCAGTATTTTGTGAAATTTTAACATTATAAGGAGGAAAAATGAAAGTATTAGTAATAAATAGTGGAAGTTCATCTTTAAAATTTGAATTAATTAATACAGATGATAATAAAACTTTAATTAAAGGAATTTGTGAAAGAATAGGAATTTCAAATCCAATATTTACTTTAAAGAATTTAATTACCGATGTTAAAGTAGAAGAAAGATCAGAAGAAATGCCAGATCATAAGGCTGCAATAGATTTAGTATTAAAGGAATTAGTAGGAGAAAATGGAGTTTTAAAAACTATAGATGAAGTTGATGCTATAGGACATAGAGTAGTTCATGGTGGAGAATACTTTAATGATTCAGTTTTAGTAGATGAAGAAGTGATAAAAAAATTAGAAGATATTTCTGAATTAGCTCCATTACATAACCCAGCTAATGTTATGGGAATTAAAGTAATGAGAGAATTATTACCAGGTAAACCTAATGTTGCAGTATTTGATACAGCCTTCCATCAAAGCATGGAAAAACATGTATACACTTATCCATTACCACTTGAAGATTATGAAGAATTAAAAGTTAGAAAATATGGATTCCATGGAACTAGTCATAAATATGTTTCAGGTGTAGTTGCAGAAATGTTGGGTAATAAAGAAGCTAAAATTATTGTATGTCATTTAGGAAATGGAGCTTCAATATCAGCTGTTAAAAATGGTAAAGTGGTGGATACTTCTATGGGTCTTACTCCACTTGCTGGAATAATGATGGGTACTCGTTGTGGTGATATAGATCCAGCAGCAGTGTTATACATCATGGAAAAAAGAGGATTAACACCTAAGGAAATAGATACAAGAATGAATAAAAAATCAGGATTTTTAGGAATATTCGGAGAAAGTTCAGACTTTAGAGATATACAAAAAGGTGTACAATCAGGAAATGAAAGAGCAAAACTTGCATATGATATGTTCTGTTATAGAATTAGAAGTTATATAGGTTCTTATGCAGTAGCTATGGGTGGAGTTGATGCTATAGCATTTACTGGAGGAATAGGAGAAAATGCAGGATATGCAAGAGAAGGTATATGCAAAGGGCTAGAGTTTTTAGGAATAGAACTTGATTATGATAAAAATATGGAAAGAATCTCAGGGAATGTTGAATACTCTAAAGATAGTTCAAAAGTTAAAATATTTAAAATTGAAACAGCTGAAGAATTAATGATAGCAAAAGATACATATAGATTAGCTAAATAATTTATATTGAAATTTAAGGAGGATAGAAATTGAAAATAAGGAATAAATTATTAGCATTAATAATTACAAATGTTTTTTCTTTTGGAGCAGAATATTATGTAAAATCAGATGATAACTTAATATATAATACTCCTGTAAGTAATCATGAAATTAAAAGCATTTTAGGGGTAGAATGGGGAGGAGCATTTAAAGACAAGGAGATATTCACCTTTTTAGGAGGTAAATTGAAATCTGGTAATATGTCTCATTTAGATGGTTCAGGTAATATTGGATTCAATTTTAAGAAAAAATTATCAAAGAGTACTGGAATAATATTAAATTTAGGTTATCTATATAATGATGGATATGAGGATAATATAAAGGAAATAGTTAAGTTAAGAGGAGAATGGAATAGTAAATTTGAAAAAGATAAAGAGACCTTAAAAGAATATTATCATTCACAAGGATTAAGATTTAAGGATAAACAAAGTTTATTTCTTTCAAGTATAGTTAATTATGATAATAATAAATTAAAGGGATATAGTGGATTAATATATTCTTCAGAGGGATTCCATATAGAATCACTTAGATTTGAAAATTTTATAAAACTAGAAACTAAGAATCTAAATCATAATGTAGGAGTTGATTTAAATTATAAACTGAAAAAGCATAATGATAGTAAGCAGAATACATATAAAAAGGGTGGAAGATTAAAGGGTAATATAAATGTTAAAGGTAAAATTGGAATAGTAGAAACATATAATGGAATAAAATTTTATGCAGGAACAATATTACCAAGTAAAAAAGATTATAATATATTAAGTAATAATGAATTAAATGTTAGAAATGGTAATATAAGATATAAGGTTGGGATAAATGGTGAAATAACTTTAAAAGAAGTAGAATCATTTAAAAATTTGAAGTATATATATAAACCTGAAATAATGTTTGGTATTAAATATGATAAGGATAGGTTATTATTAGAAAATATCAATAAATTAAAAGGAAGAATATTTATTGATAAATCAGGATTATATAAAGATGGATATGATAAATCTAAAAATATAGACACATCAATAGGATCAATTTATAGTGATAATAAATTAATTTATAGATTTAATAATTTTGATATAAGAGGTATATCAAAATATAGGATATCATCACATATGAATAAAGATAAATACGAAGGATTAGAGCATTTACTTTCTACAGGTATAGGTTTTGATTATAATAAAAATTATGAAAATACAGAAATAAAGCATAGTTCAGATTTAAGATATCTATTTGGATATGCTGATAAAAAAACATTTTCAATAATAAATTTTTGGTCAGATAATAAATTAGAGCATAAAATAAATGATAAATTAAATTTTGGAGTTGAATTAAATCTAACTAGTTCAAATAGATTTAGAGTGTTGAATAGAGATGCTAAAGAAGATGAATTATTACTATTAGTAGATGGTAATGGAATTTTAAAATATAATATAAATCCTAGATTCATATTTAAAAATAAGTTAGAATTTAAGAATATAATATTATTTTCTAATTTTTCAAATATAAATAATGTTAAGCCAAAAGCACAAGAACAAGCTAAAAATAATGAACAAAGTTCAAATAAATTTTTATTAGATTCACAATATATACTTAATATATATAATGAAAGTGAATTAACTTATAAAATAAAGAATAATATAGATATTAAAGGTAAATTTTTTATAGGATATAATCAATTAAAATCAAATAAATTATATGATAGTTTAAAAAATTTAAAAAGAGAACAAATAGATGAAAATGGAATAAGAGAATTTAGCTCTAAGGATATAAAGATTATAAATGAGGAAAAGAAAATTGCTGATGATTACTATAATTTTTTAATAACTACAGGAATTGAATCAGAAATGAGATATATTAATGATAAATTAATAATAAAACCTAGTTTAGAATTTGGTACAAGTCATATGTTTAGTATTAATTTCGAAAATGATGATAAAACGAATATTTTTAATAATAAAATACATAATGTCAGTTTTATAATAAAAAAAATTTTTACAAAAATAGGGCTAAATTTAGAATATAGATGGTAGTATATATTAGATTACTATATTTTTTTTATTAAAAAGGAGAGTGTAAATACATGACACTCTCCTATTTTTCAATTTCTTCTTTTAATTGATTACACCAATTTTCTATTCTTTCATCACTTAATTCCGGTTGATTTAATTCATCTATTGCAAGACAAATAAATCTCCCATTTTTGACAGCTAGTGAATCTGTGAAATCATAGCCATCAATATCAGTAAATCCAATGATTTTAGCATTAGCCTTTAAAGCTTTCTTATAAAGTATCTCTATAGCATCTATAAATGAATCAGCAAATGATGCTTGATCTCCTGTACCAAATAAGGCTACATATTTATCGCTTAAATCCATATCATCTATTTCATCTACACATGCCATCCAATCATCTTGTAAATCTCCAAGACCCCAAGTTGGTGATCCTAAAATTAATAAATCATAATTACTAAATGTATCTATACCTTCTGATACTTCTATAACATCAACATCATCAAAATGATTTGAAATTCTATTAGCTATATCTTCAGTTGTACCAGTAGTAGTTCCAAAATAAATTCCTGTTTTCATTTTATCCTCCTTAAAAATATTCTATTATACTTTCATCAGTGTATATAACTTGATTGTTTTTAGCTTCTTTTATTAATGATAATTTATTATTAATAGGTAAATATTCTAAGAATATTTTATCATAATTTAGACCACTTAATAGATTTTTTTGTAATTTTAATATATTAGGCGGCAATTCAATCTCTTTTTTTATAACATACAATTTGTTTTTTGTATAGTTTTTATCACAAAAAAATATAGCTTTTTCATATTTTAATTTAAATATAGGCATTTCTATACTATTAAAATCAAAGATACAGTTATCAATTTTATCTGAAATATCTACCCTATTTTTAAATTCAAAATAATTTCTTAAATGAGAATTTTTAATAAAATACTTATTTTTAGTATAGAAAGTCATTTTTTTGTTTTTATCAAAATAGTATTTAATACCTACAGTTAAAAATAGAGGATAGAAAAATTTATCTCTTATCCTTATTTTTTCATTTTCAATTAAGTAAGATATATTTTCTCTTGAAATAAAGATAGATTCATTTTCTTTATAATACTTAGATAATATTTCTTTAGTAATCTCATTATATTCTTGTTCTCCTAGTATATAGTTTTTAATATTTCTAAATTGAACCTTATCTTGGTTAGAATAATTTATTAAGTTATAGTTTCTCTTTATTAATATGTGAATTATTTTATGATTATCTCTATTTTCAATACTTTCAACTTTAATGTCAAAATCAAATCCATAAAAATCACTTAAATTACATAGTAATGTAGATATATTTGAATCAAGCTTTGAAATAGATTTCTGACCTGACATAACAGAATATGAATTAAATCCTTTTTTAAGATATATTTTATTAAGATCTATATCAGTTAAATCTATGGTTGTATAAAATACTGATTTCATAGGAAAAGAAGTATTGTACATAGAATGATAATATTGAAATCTATCATCTTTTAATTTAGATTGTTTCATATCTTCTATCATTATACTAGGATAAAATCTATCCTTATATTCATTAGTTTCAAGTTTAAATACAACATCATAGAATATGTGATTTTTTCTTAATTCTTGTAAATTACTTCCTCCATTAAACCAAATTGCATTTTTTACAGAAAATCCTTTCTGATCTATATCAAATTTTAAATGTTGTTCATTACTTCCAACTGTCTTTGGATTATGTATAATACAGTTTTCACTCATTAAAAGTGGAGTAGGATTTCCAAATCCAAATGGTTTTAATAAATTTAGACTTTGTATAAATTCATAGCTAATTTTTTGAGCTGGAATTTTCATGTCTATTTTAATGTTTTTAGTTAATTTAATATTTTCTAATTGTTCTTTAGCATATGCCTCTATTTTTTCTTTAAAAATATCTATATTCTCAAGCTTAATTGTAAATCCAGCAGCATTAGCATGCCCACCAAATTTAATAAGTAAATTAGAAACATATGATAATGCTTTAGTTATATTAAATCCTTCTACAGATCTGCAAGATGCTACTGCTATTCCTTCTTCTAAATTTTCTTCCATAATTATACACGGCTTATAATAGGTTTCAAGAACTTTTGAAGCTACTATTCCAATTATACCGTGATGATAATTAGGTGAATGAGATATTAATATATACTTATTACTAATATCCTTTTCTCTTAATTCATCTAAAACACTAGTAATAATTTCATCTTGTATCTTTTTTCTATAAATATTATTTGATATTAGGTTGTCGGCTAAAATATTTATTTCATTTTGATTATCACTAATTAATAATTTAACGCCAAGCTTTGCATCTGCTAATCTTCCAGCAGCATTAAATACAGGAGCAATTTTAAATGATATATCTCCTGTTGTAAGCTCTTTATCTTTTAAATTCAGTTTATTTAATATAGTTCTCAAACCAAGATTAGAACTATTTTTTAGCTTTTCTAAACCATATTTTACTATAATTCTATTTTCTTTGATTATAGGCATAATATCAGCTATAGTTCCAAGTGAAGCTATATCTAAATATGAATAAATCTCTTCTTTAATACCAAGTCTTCTAAAAAGCTCATATGCTAAAAGAAAGGCAACCCCTACTCCTGCAATGTTTGGAAATGAATATTCATTATCTAATCTTTTAGGATTAATACAAGCTAAGGCTCTTGGAAGTTTTTTATCACTAGGTATATCATGATGATCTGTTATTATTGCTTTCATATCAAGCGAGTTAATAAATTCTACATCATGATAAGAACTAATACCACAATCTACTGTGATAATAAGGTCTGTTCCTTTATTTTTAATCTCCTGTATAGCATCTTTATTTAAGCCATAACCTTCATTTCTTAAAGGAATATAGTAGTCAATATTTTTTGCACCAATTTTTTTAAATGCTAAATACAAAAGAGATGTAGAAGTAATACCATCTACATCATAATCACCATATATACATATATTTTTATATTCTTTTATAGCATCTAATATATATGAAGCAGCTAATCCTAAATCTTTTAATTTTAAAGGATCTTCAAGATTTTCAAGACTAGGATTAATAAAATTAACTATATCTTTTTCATCAACTATACCTCTACTTGCCAGAATATTAAGTATATTATTATCTATAGGCAGATCAAAGTTAGTTAATTTAGACTTAGTTTCAGAAAGTATCCATTTAGTTTCCATAAATAAGTCCTATTTAAGTAATTGTTGAACTGATGGTAATAAAAATGGGATAAATAATACACCATCAAAATCATCAGTTGCTTTTCCTTTATCAAATATTAGAGTTAATGAATCTTCTTCTAAATAGAATGAACTAACAGAATCCCAATCTGCATATTTTTTACTTGCTCTCATTCCAAAAGCCCTTATTTTATCATTTAATGTTGGTCTTAATATCTCTTGATATTGATCAACAAAAATATCAGATAGTTTTAATTCTCTACCAGTATTACTATCAAATACTAGACCTTTGTATGAATTTTCTACAACTCCATCCTTAGGATTTGTTTTAGCTGCAACAACTATTACAGACATAAATTTTGAATTATTTGCCGTTAAAAATACATTAGCTTTAGTATTTTCATCTTTAATCATATCATTTACAGTTTTTTCTATTTTAGAATTGATTCTATTTGTAGTTTTTTCTTCTTTAGCAGCAAATTTTAATATTCCGAATTTTTCATTTGCTTCTTGAGTTACAGTTAATAATGGTTCAGTTCCATATGAATAACCATTAAAAGTAAAACTAGCATTAGAGATAGTTGAAAATCCCAGCCCTAATATACTAATTATCAAAATTTTCTTTATTGATTTCATCTTGACACCTCTTTATTTAATATATATTAAGTATATACTATATTATGAAAAAAATCAACAGAACTAAGTATTATAAAAGATTTGTAGATGTATAAGATGAATAAAAAAATAGCTCATTAAGAGCTATTTTCCACTTGATTTAATTTCTGTCCATATTTTATCTTGTAATTCCTTAGCTTCATCTCCTAAAGCACCAGGCAATTTAGATTTATTAATTATTTCTTCAGCAGAAATTATTGGTTTAAATTCTGATTTTTCTTCTACATCTTTAATTATACTTGGATTTCTTAATACTTTTAATACTTCTATAAAGTTTTCAGGTCTGTATAAAAATTCAAGAAATTTATATGCATTATCCTTATGTTTAGAACTTGAAGGTATAGCCATTGAATCTATATACATCATAGCACCTTCTGGAATGAAATAAGTAAATTTACTTTCTTCTTCTTTTTCTACTTCATAAAATACATCTGGATAACCATGAACTATAGCAAATTCCCCACTTGCCATTCCTTTACCTGAGGCATTAGAATCAAATTTAGCTAAGTTTTCTGCCCAAGAAAGAATTTTTTCTTTAGCTTCATTTAATTGATTAATATCTTTTGAATCAGATGGGTAACCTAAGTATTGTAAAGCAAGCCCTATTACTTCACGACCATCATCTAACATAGTCATACGACCTTTAAATTTTTCATTTAAGAATATATCAGGAGTTTTAACAAAATCATTACCAACAATTTCATTATTTACTGTTATTCCTGTTGCCATGAATGAATAAGGAATAGAATAATTTAATCCTTCATCATATATTTTAGAAATCTCCATTAAATTTAATTTTTCATTCATATTTTCAAAAGTTTTACCTAATTTAGACTTGTCTAATTTTTCTAATAATCCTGAGTTTATCATAACAGGGATATAGTCAGTTGAAGGTGAAACTATATCATAATTTCCTTCGCCATTTTCTATCATTAATTTAGCTATCATAGTGTCATTGTTATCATAGTAGCTAAGATTAACTTTAATTCCTGTTTCTTTTTCAAAATCTTCTATGATTTTATCAGGAATAAAATATGTCCAAGTATAAATGTTTAAAACATTCTCATCGCTATTATTTCCAAAACAGCTTAGTAACATAATAAAAGTGAAAATTGTAAATACTAATTTTTTCAATTTATCTACCTCCTAAATATTTTTTTGCCATTTCTCTATCATCGAAATGTATTTTTTCTCTACCTATAATTTGATAATCTTCATGCCCTTTTCCAGCAATCAGTAGTATATCATTTTTTTGTAGTGTTTGTATAGAGTTTTTAATTGCCATTTCTCTATCACAAATTTTAAAATATGGTATAGAAGAGTTCATACCTTTTTCCACATCATTTAATATCATTTCTGGATCTTCTGTCCTTGGATTATCAGAAGTTAAAAATATTAAATCACTGTATTTGCATGCAGCTTGAGCCATTTTAGCTCTTTTAGTTTTGTCTCTATCTCCACCTGCACCAAATAGGGTTACAAGCCTATTTTTTTTCATTATTGAAAGTGTTTTTAATATATTTTCTAATCCATCTGCTGTATGTGCATAATCTACTACAACCATAACATCTTTATCATTATCAATTATTTCAAATCTTCCAGCTATAGAATTAATATTTTGAATAGAATTAATTATTTCATCTAAATCTATCCCCAAATTATATGCTGATAATATAGCTCCAAGAAGATTTTGCAAATTATACTCTCCCATTAATTTTGTTGTAAAAATATATTTTTTATCATCTTTAGAGATTCTTACTTTCATTCCTTTTAATGTATATTCTAATACTTCACCATTAATTGTTGCTACCTCTTTTAATGAAAAAGAATCAGAAACATTTAATAAACGATTGCAATATTTATCATCCTTATTTATTATTAACCTAGCATTAGGTTTTAGATGATTAATTATAGAGGCTTTTGCTTCAAAATATTTTTCTAAAGTTTCATGAAAATCAAGATGATCTTGAGTTAAGTTAGTAAAAATTGCACTATCAAATTCTAACATTTTAACTCTACCTTGACATAGTGCATGAGAGCTTACTTCCATTAAAAAATATTCTACATTTTTATCTACTGCTTCTTTCATTAACTTTATTAAGTCTAAAGATTCAGGAGTAGTATTTTTTGCCTCGTATTCAACATCAAGTATCCTATAACCTGTAGTTCCTATTCTGGCAGAATTTTTGAATATAGATTCTAAGATATATGTAGTTGTTGTTTTTCCATTTGTACCTGTAACAGCTATAATTTTTAACTTATTTTGAGGGAAATTATAGAAGTTACTTGAAATATATCCGAGATTATCTCTTAAGTTTTTAACTAAAACTACAGTAATATCTTTAGGATAAGGATAATCGTCCCTTTCAGCTATTATCATTTTAGCACCATTTTCAATGGCTGAAGGGATATAGTTATGTCCATCTGCAACATTACCAATTAATGCAACGAATATATCGCCCTCTTTGATTTCCTTAGAATTATATGACATATCTTTAAAATTATCTTCTTCAACTAATGTAAGCACCCTATAATCTACATTTTTAAATAATTTTTGAATGCTCATTATTATTTTCCTCCAAGTCTTTTTTCATCAAGGAAATCAAATATTGATTTTATAGATGTTGTAGCTTCACTTGATCTTAATAAGTGATAAACGTGGTAAAGCCCATCTACAGTAACAAACTTGTTTTCTATATTTTCGCTATCAAGTTTTTCTTTAACTATTTTAGAATCATCATATAATAGTTCGCCATTATTAACTTCTATATAAGTAGGTGGGAATCCGTTGAAATCTCCAAAAACTGGTGAAATATATGGATGTTTTTTATCCTTCTCATATTTAAAGTATTCATTATCTTTAAGAAGTTTAGAAAGATCATAATTTTCAACAGAAGAACCTATTAAAAGATCTGTCTTAACATTTGTTTTTCTACTTTCTAAAGTATTTGATATATCTAAAAATGGAGATAAAAGAACTACTGCATCAGGTAATCTTCTTTTCTCATCTCTTCTTTTTAATAATGTAGAAACTATTAGGTTTCCACCAGCAGAATCTCCAAAAGTATATACATTTTTGTAATTTTCAAATGCATATTCTAAACCATTATCATAATCATCATGTCCACTAGGATAGAAACTATATGGAAGTTGTCTGTAATCAACGAAAATAATATCATAATTATCATTAATATTTAGCATAAATTCTGCAAGATTTCTATAAATATTAGATAGAGGATAAATAAATGCACCTCCATGGGCATAATAAATTACTGAATCATTTTTCTTTTCAGTTTTTTTAATCAACTCTAATTTTACATTTCCGTTATATAATATAGTTTCATGAGTTATGTCAGATTTATGTTTCCAAGGCAATTCATAATAGGCTCCAGTTCTACCTATTTTTAAAAATGTTTCTTTTTCTCCTCTATATATGAAATTGGTAGTTTTTAAAAGTGTGGTAGTTATTGATGAACAACTAACAATTGCTAAAGTAGAAAAAATAAAAATAATTTTTTTCATATTTAGTTCCTTTCTTGTTACATTTATATCATGTGTATTATACAATTTTTAGAACAAAAAATAAAGGTTTAATATATAATAGTGTGTAAAATAGTCTTGATAAATAAAAAAAATAAGATATAATATTTATAGTTAATTTAAAGGGAGATGAACATAAATGAAAAGAAAATTTTTATTTTTATCACTATTTGTAGCATTATCTGGAATTTCGATTTCAGAAACTATTTCTCAAATACAGGGAAATGAAATGCTTTCTAAATTTCAAGATAAAGATGTAACTAAAGTTAGAGGAATAGTAACAGCTATTAGAAAAACTAAATATAATAATGGATTTTTCATGCAATCAGTAAAACATGATAAAGACATTAGAACTTCTGAAGGAATTTATGTAGAAAATATTAATAATGCGAATGTTAAAGTTGGAGATTTAGTTACTGTTGATGGTAAGGTAAAAGAAATTTATTTAAATAAACCAGATAAAACTCAACCACCTATTACTTCTATACAAGCTAATTCTATAAAGGTTATGAAATCTAAACAAAAAGTTAGACCTTTAGAACATACTGGTAAAAATATACCTATTAAAGTTCGTGATAATAATAACCCAGTATTAAATGTAAAAACAAATGCTATGGACTATTATGAAGCCCTTGAAGGAGTTTTAATAAGAATTAAAAATCCAATAGTAACAGGAGCAAATCAAAAATATGGAGATATAACTGTTGTGCCAAGTAAGGGTATGTATGCAGGGTTAAGAAGTATTAATGGTGGAGTAGTGTATAATAACTATGAAACAGAACAAACTCAAAGAATAACTGTAAATATTACTCCTTGGAATATATTTGAAAATGGTAAGTATAAAGATAATGTAACTCCAAATCCTGGTGATGAATTTAAAGGAGATATAGAAGGAATAGTATTTTATGAACATGGTGAATATAGATTATACCCAACATCACCTTTCCCAGGAATTATAGATAAAAATACTAAACCTGAAAAAAATAAATATACATACAATGATGAATTATTAAATGTAGTTTCATATAACATAGAAAACTTTTCACATGTAGATACTCCTGAAAGAGTAGATGAACTTGCAAATCAAGTTGCAACTATACTTCAAAACCCAGATATTTTAGGATTAATAGAAGTTGGAGATGATGATGGACAAAAAGAAAGTGAAATAGTATCTTCAAATGAAAATATGGAAGCTCTTGTTAAAGCTATAAAAGAAAAAACAGGAATAGACTATGGATTTGTTAGTGTAGACCCTATGGATGGAAAAGATGGTGGTTGGCCTGCAATGCATATACGTAATGTAATATTATACAGAATAGACAAATTAAATGTAGTTGGATTTAATCAAGGAGATGCAATTACTGATACAGAAGTGATAAAAGATGGAGATAATGTTAGATTAACATATAACCCTGGAAGAATAGGAAATCAAGATAAAATTTGGGAAGAAGTTAGAAAACCTTTAGTAGCTCAATTTGAATATAACGGTAAAAATATATTTGTAATAGCTAATCACTTAAAATCTAAGAGATCAGATGATAAGGTATATGGAGTTAATCATCCAGTTATTAGAAAATCAGAAGATGTAAGAATACCAGAAGGTAAATATATTAACAATTTTGTTAAAGACATTTTATCTAAAGATGATAAAGCTACAGTAATAGTTTTAGGAGATATGAATGATTTTGAATTTTCTAAGACTACAAAAAATATTAATGGAGATGAATTGGTAGATGTAATATCATTATTACCTAAGAATGAAAGATATACTTATGTTTACCAAGGTGCATCTCAAACTCTTGATAATATAATGATTAATAAGAAATATAAGGATAATGTAAATATTGATGTTATTAGAGTTAATTCAGAATTTCTAAAAGAACAAGGTTCATTTAGTGATCATGACCCTATATTTATACAATTTAAAGTAGATTAAAATATTGCACCCAAAAGGGTGCAATTTTTCAATTATTTAATAACTCTACTTTTGTATTTCTCTCAGTTTTCTTTAATATGCTCTTTAACTCAAACTTTGCCTCATTTGTTAATTTTACTTTTTCATTTGCATCTGTTTCTACCTTAACATCTCCAAATAAATCTCCATATTGTTCATAGTTTCCACTTTTTAAAACATGTCTAATTTCTGCATTAGCTATTCTTACATTATCACTTAATTTTCCATTAGTTTTAACAAAAGTTTCTAGTTCATGCTTATCATCTTTAAAATCAGCAGAGTTATATATACCAGCAACAGTTAATTCAAAGTTATTATATATTTTACCATTTAATATAGCAGATAAAAGGAAAGTATGTTCTTCACCTAATTTATACCCTTGTTCTTTTCCTATTTTTACTTTCTTTCCTTTGCTTGTTAAATGTTTTTCTATTGCTTCTTTTATTCCATTATGTTTGTGGACTTTTTTCTCATCTTCATTTAGATTCTTTTTCTTTTCCCAAGCAATACCATCTCCACCTCTTCTATGAGCAGCAGTTAATTGAATGTTGAAAGTATCAACTATATCAGAATCCCATCTTAGACCAAAGTGATAAGGTGTTTTATCTCCTAACTTCATTTCATCTTTATTTGCTTTAACACCATTTAAATCAGTACCAATGAAAGCAAAGATTTCCTTATTTTTGTGCATAAAGACACCTAAATTTCCTTTAGCACCTATTTTGTTAGTAACATCATCTTGTTTCCATAGATCTTTTATTTGCATTTCATTAGATGAATTACCTCCTGAACCACCATTACCAGAATTAACCTTTTCATATGTTATTGGTTTTTCTATAAAAATAAAAAGTAAATAAAATGTAATGTGATAAAACATATGTAACAAAAAAATAAAAAAAGAGAGATACATTTGATATAATAGAGTTTGACAAAAACTAAAACAATCAAAGGAGTATCTCTCATGAGTATTATAACAGAAGAAATGAAATTTCGCCATAGATTATGTGAATATGCAATAAAAAATGGAGTAACTAAAGCAGCAAGGCGTTATCATACAAATAGACAATAGGTTCAAGAAAGCCCCATACAAGCCCAAATGCCCATACAGAAGAAGAATTAATACTAATAAAGAATATGTTAAAAAAACATGGAAGTTATGGATTAGCCCAAGTATATGTTAGTTGTAAGAATAAGGGGTATAATAGAAGCTTTGGTAGTATGTGTAGGATAAATTATCCAAGTGAGAAAGTACAGGTAGATATTAAATATATTCCAAATGAGTGTATAAAGTTTAATTCAAAGGGGATTAGATATTATCAGATAACTGCTATAGATGAGTATAGTAGGAAGAGGGTATTAAAGGTTGTAAAGGGAAAGAGTACATATGAGACATCAAAGTACATTAAGGAGTTAGAAAGGGCTATAGGCTTTAAGATAGAGACTATACAGGTAGATAATGGATATGAGTTTGTAAATGATAAAGATGTAACGGATAGGGAAGATGGAAAGATATTGTATAGTAGGAAAGAATTTAGGAGCGAGGAAGAATTAATAGAAAATGTTAAAAGGCATGAAAGGCTGTATAATAATACGGCAAAGACAGTGCTTAATTTTAAGAGTCCAAATGAGGTTGTGAGGGAATAGAGGCTTAAAAGGGCAACCCCAATCTCACTTCACACACTCTAACAATCAATTAAACACTAAACATTAAACAACACTTAACTAAACTAAACACTTAATTAAACACTTAGACAATTAACTAACTCTAACTTATATTAAATTTATTTCTTATTATGTAACATATGTATTGACAATTAAGACTATAAAAATAAAAAGTAAATAAAAATAGTTGAAATTTATTTTATTTTGTTGTATAATATTAAAATAGAAATGGTCGCATAGCTCAGTTGGGAGAGCACCTGCCTTACAAGCAGGGGGTCACTGGTTCGAGCCCAGTTGTGACCACCATTTTTATGGAGGTGTAGCTCAGTTGGTTAGAGTGCTTGCCTGTCACGCAAGATGTCGCGAGTTCGAGTCTCGTCACTTCCGCCATTATATCATTTGCTTCTTTATAGAGGCTTTTTTTATTTATCAACAAAAAATAAAATGTATAATAGTATATGTAATGATTTTACAAATGATGAAGTTATAATATCTGCTTTATTATTAAGAGATTATTTATATTCTATTTAATGAGGAAAGAGTATGTTTTTAAATTATAAAGGTAAAAAAACAGTTGAGGAAATCGAAAATATTATTGAAATAAAAAGATTAAAATTAAAAAGCATTTCTAAGGGTTCAGAAAAAGGAATATATATTAATGCTGATAATTTTGATGCTATGATTATGTTGTTAGATAATTTCGAAAATAGTGTGGATTTAGTGTATATTGATCCACCATTTAATACTAATTCTGATTTTTATTACAATGAAGATAAGACATCTACTATTAGTTCATCTAAAAATGATAGTTTAGCATATAGTGATAAAATGAATTTAAACGAATACTTAGAATTTATAAGGAAAAGATTAATTTTAATAAAAAAATTACTTAGCGATAGAGGGACTATATATTTTCATATAGATTGTAAAGTAGGACCATATATAAAGTTAATTCTCGATGAAATTTTTGGAATAAAAAATTTTGTTAATGATATAAGCAGAGTAAAATCAAATCCTAAAAATTTTAAAAGAAAAGCATTTGGAAATGAAAAAGATGTAATATACATTTACTCAAAAAAGAACCAAAATAATATATTTAATAATGTAACTATAGCTTTAAGTGAGGAAGAAATATTAAAAAAATTTCCTAAAATTGATAAAAATGGAAGAAGATATAATACTGTTCCTTGTCATGCTCCAGGTGAAACAAAAAATGGGGAAACAGGAGGAAAATGGAAAGGGGTGTTTCCACCAAAAGGAAGACATTGGAGATATAGTCCGAAAGAACTAGAAAAATTAGATGAAAATGGATTAATTGAATGGTCTAAAAATGGTGTTCCTAGAATAAAAAATTTTTCTGATGAACATAAAGGTAAAAAAATTCAAGATATTTGGTCAAATTTTAAAGATCCTCAAAATCCAATATATCCGACTGAAAAAAACCTAGATATGTTATCTATGATTGCTCAGCAGTCATCTAATGAAGATTCTATAATAATGGATTGTTTTTGTGGCTCATCAAGCTTTTTATTAGCAGGAATAAATAAAAAAAGATATGTCATTGGTATTGATAAATCTGATGTATCAAAAGAAGTATTATTAAAAAGAAGAAATATAAATGATTTAGTAATTGTTGAATATATTGATCTATGAAAAGTCTTTTTATATAATGTTACACATACCTTAAATATTAGATTTTATTGATTTTTTTTCATAAAAATTGTATAATTTAATTTTAGAAGTATGGAGGTCAAATATTATGAAAAAAGCTTTTTTTAGTGGTATTAATGGGATAGGTATGAGTGGACTAGCATTAATACTTAAAGAACTAGGATATATGGTATCTGGTTCAGATATATCATATAAGGATATAACTAAGAAATTAGAAGATAATGAAATAGAGGTATATATAGGTCAAAAAAGAGAAAATGTAGAGAATAAAGAAATAGATCTTTATGTTTATTCTACAGCTATAAAAAAAGATAATCCAGAATATATGTATATGTTGGAAAAAAATATTAAAATGGTTAGACGTGGTGAGCTTCTTGCAGAAATCATGGATAAATTACCTTTAGGTATAGCTGTAGCTGGAACTCATGGTAAAACAACTACTTCATCTCTTGCAACTGTTGCTTTTTTAGATAAAGATCCATATGTTGCTGTTGGGGGTATAATTCCAGAAATATCATCTAATTCAAAGGTTGGAAGTTCAGATTACTTTATAGCGGAAGCAGATGAAAGTGATAACTCTTTTCTGTATATGAATCCATATTATTCTATAATAACTAATATAGAAGCAGACCATTTAGAATTTCATGGTAGTTTAGAAAATATTAAAAAATCTTTTGGTCAATTTATTAAGCAAACTAAATATAAGGTGCTTGCTTGTTTTGATTGTGAAGAGATAAGAACATATAGTGATGATAAATTAGTATTTTATTCTGTTGATGAAAAAAATAAGGATAAAGTGAGTATATATGCCAAAAATATACATAGTTTAAATTCTATTACATACTTTGATGCAGTAAAAAACGGAATAGAGTTAGGAACATTTAAATTATCTATACCAGGAATACATAATGTATCTAATGCTCTTGCAGTAATATATATAGCTCATGAAGAAAAACTTGATATGGATAATGTTAAAGAAAGAATAGAAAAATTTAGGGGAGCTAATAGAAGATATCAGGTAATATATGATGAAGATTTTAGAATAATTGATGATTATGCTCATCATCCTACAGAAATTATGGCAACTATTAATGCTGCTAAAATGAATGAAAAAAAGGAAATAACAGTAATTTTTGAACCACATAGATATTCAAGAACTAAATTCTTTCTTAAAGAATTTGCAGAAAGTTTAGCTTTAGCTGATAGAATTTTCTTATTACCCATATACTCAGCTAGTGAAGAAAATACATATGATGTAAGTTCAGAAGATCTAGCTAAATTGATAGGTAATCATTCTAAAGTATATGAAAAAGAAAAGCTTGTGGAAATATTATTGGAAGAAGATAAAAAAGGAAAGGTTTACATATTTATGGGAGCAGGAAGTGTATCAAGTTATGGGCATAAATTTGTAGAGATGGTAAGATAATGAGAATATTAAAAGATGTTAGCATAAAAGAATACTCTAATATGAAAGTTGGAGGAACTGCAAAAGAATTAATATTTATACATGATAAAAATGAATTAAAAGAAATATATGATAGTAGAGATAGAATATATTTAATAGGAAATGGAACAAATACTTTAATATCTGATGGATATTTAGATATATCTTTTGTTACTTTAAATGAAATGAATGATATAGTTATAGAAGAAAAAAATGAAGATTATGCATTAGTAAGAGTGTATTCTGGAGTAGATTTTAATGATTTCATTAAATTTATGAAATTAAATGATTTATCAGGTATAGAAAACATGTCAGGTATACCAGGAAGTTTTGGTGGTATTACAAATATGAATGCAGGAGCGTATGGAACTGAAATATTTGATGTTATAGAAGAAGTTGAAGTATTTGATAAAGAAAATGGAATTAAAGTACTTAAAAAGAAGAAGATGGATTTTAGATATAGAGGGACTGAAATTAAAGATAATAAATGGGTAGTAATATCGACTTTATTAAAATTAACTTATGGATTTGATGAAGAGGCAAGTGAGGATAAGTATAATCAAAGAAAAACTAAGCATCCATTAAATTACCCTAATTTAGGATCTACATTTAAAAATCCTGTTGGAAACTTTGCAGCACAATTAATATCAGATTGTGGATTAAAAGAATTTAGAGTTGGAGATGCACAAGTTTCACCAATTCATCCTAATTTCATTACTAATTTAGGTAATGCTAAATTTAGTGATATACAAGAAATTATTAAACATGTAAAAAAAGTTGTAAATGATAAAACTGGAATAATGCTTGAAACAGAGATAATAACAGTGGAGTAAAAATGAAATTAAAAATATATACAGCTCCTATGGCAGGAGTTACAGACTATACTTTTAGGAAAATAATAGAAGATTTTAAGCCAGATTTTACTTTTACTGAAATGGTTAGTGTAGATAAGCTTTTGTATAAAGAAGTACCTAAGATATTAAAGCTTAGAGAAAATAATATTGTACAGATATTTGGGAAAGATATATATTTAATGCAAAAAGCAGCTAAATATATAGAAAGTATGGGAGTAAAGGAAATTAATTTAAATTGTGGTTGCCCTATGAAGAAGATAGTTAATTCAGGGCATGGATCAGCATTGATTAAAGATCCTAGAAAAATAGAGGAAATCTTAACAGCATTAAGAGAAGTTCTTGATCCTAAAACTGCTCTTTCTCTTAAAATTAGAGTAGGGTATGATAAACCTGAAAACTATTTAGAAATAGCTAAAATTGCAGAAAAACTTAAATGTTCCAATATTATTATTCATGGTAGAACTAGGGAACAAAAATACAGTGGAGAAGCAGATTGGAAATATATTAAAGAAGTTAAAGATAATGTAAATATTAAGGTTATTGGTAATGGAGATATATTTGATGCTAAAAATGCTATAGAAAAAATAAGGGAAACAAATGTTGATGGAATAATGCTTGCAAGAGGAATACTTGGAAATCCATGGTTAATTTCGCAAATTAAGGAATTATTTGAATTTGGAGAAATAAAAACAATAGTTAGAGATATAGATAGAATTAATATGGCAATTAGACATGTAAAAGAATATGCTATAGATAATGAAAATGTCTTTTTCCCTGATATTAGGAAATATATAATTTGGTATATTGAAAATATTAAAGGTATAGATGAAACTAAAAACTTAATTAATCAAAGTTTTGAATATGATGAAATTATAGAGCTACTTGAGAAAATAAGGTGAAAAGCCTATTAAAACAAGTTGTTTGTAAAGAAAAAAGACTTGACAACTTCCTTTATTTAGTATAAAATAGGGAATGTATCGCAACGATTGAAATAAATGAAAGGAAATAATATAATGAAAAGAACATATCAACCAAATAAAAGAAAAAGAAAAATGGATCACGGATTCAGATTAAGAATGAAAACTAAGAGTGGAAGAAACGTTCTTAAGAGAAGAAGAGCAAAAGGAAGAGCAAAATTATCAGCATAACCGGTGACATTTGATTACACCGGTTTTTTTTAAAAACATGGAGTAAGGTATGGAAAAGTTGAGAAAAAGCAAAGAATTTAATAGGGTGTATAATAAAGGTAAAAAGTTATCTGGTAAATATATCTTAATTTTTGAATATAATGCGAAAAGTCAAAGATTAGGCTTTGTTGCTAGTAAAAAAACAGGAAATTCCGTATATAGATCAAGAGCTAAAAGATTATTAAGAGAAGCAGCTAGACTGAATATAGATTTATTTAGATTAGATAAAGAATATGTACTTGTAGCAAAGAGTATTTTTAAAGATAAAATGAAGGAAATAAAATACCAAGATATAGAGCAAGATTTAAAAAATATATTTAAAAGAAAGAAAAATATATGAAGAAGATATTAATTAGTATAATTAACTTTTACCAAAAATATATTTCAAGACATACACCAAGAGTATGTAGATTTTATCCAACTTGTTCAGAGTATTCTAAACAAGCTATAATAAAATATGGAGCATTAAAAGGCTCATTTTTAGCAATTAAAAGAATACTTAAATGCCATCCTTTTCATCCAGGGGGAAATGACGCTTTAAAATAGAAAGGAATATTATGTTAGGAATTTTTTTAGCACCGAAATGGCTAGTAGATGCAGCAGTTAAATTATTAGATTTAATTTATGGATTTGTTGGTAACTATGGAATAGCAATTATTGTTACAACATTTTTAGTTAGGTTATTATTATTACCTTTAACTTTAAAACAAGAAAAATCAATGAAAAGAATGAGAGAAATTCAGCCTATGTTGGAGGCTATAAAAGAGAAATACAAAGATGATAAACAAATGCAAAATCAAAAAACTATGGAACTTTACCAACAAGAAAAAGTAAATCCAGCAGGAGGGTGTTTACCTTTACTTATACAATTACCAGTATTTGTGGCACTTTACCATGCTTTTACTACTAATGCTTTACCAGAAAATGCAACATTTTTATGGTTTAACTTAAGTAAACCAGATGCTTTATTTACTTTGCAAGGGTTTTCAATTAATATATTACCATTATTAACTACAGTACTTACATTTATTCAACAAAAATTAATGCAAGCTAAGACACAAGGATCTAATGACCCTATGGCAGGAAGTATGCAAACTATGATGTATACAATGCCTATATTAATGTTATTAATCTTCTATAAAATGCCATCAGGACTTAATCTTTATTATTTTGTAAATACTTTATTATCTGTATTACAACAGGTTTATGTTATGAATAGGAGAGATATGTAATGTCAGAAAAAATATTTCATTCAAAGAGTGAAGCAGAATTAAGAGAAAGAATTAAAGAATTAATTACTTTAGCAGAAGATGAAACTATAGTTATTAAAGAGTTAAAAAAACCGTTTAAGTTCCTATTTTTCAGTATGAATGGGAAATATTCAGTTAATATAGTTAAAAAAGGATCTGAAAAAGAAAAAATAGTAAATAAACCTGTAAAAAAAGAACAGGTTAAAAAAACTAATGTTAAAAAAGAAAAACCAGTTAAAAAACAGGTTGTGAAAGCAGTTTCTGAAAAAGATAAAAAAGCTGATAGATTAAATATAGTGATAAAGGAATTTTTAGCTACAGCTAATTTAAATATTAGTATTAAGGAGATTACTGTTACTGATAATATATATAAGGTGGAATTAATTGGTGATGAGATTAGATATATTATAGGGGAAAAAGGGATATCTTTAGTTTCATTAGAATACTTATTAATGTCTTTAGAAGAATTTAAAAATGTAAAAATATTTATTGATTCTAATAATTATAAGGAAAAAAGAGAGAATATTTTAAGAGAATTAGCACAAAAAACAGCAAAAAATGTTATAAAAACACAAAGAAAAATTAAATTAAATCCTATGCCTTCAAGAGAAAGAAAAATTATACATGAAGAAATAAGTAAGATAGAAGGATTAGAAACTATAAGTGTTGGTGTTGAACCAAAAAGATGTTTAATAATTAAGTTGAAAAATAAGAAATAGTTGAAGCCCTTTAATCGGGGCTTTTAACATATACGGGAGGAAAAATGTTTTTTGATACAATCGCAGCTATATCAACTGCAAGAGGTGAATCTGGTATAGGAATAGTTAGAATTTCTGGTGATAGGGCATTTGATATATTAAATGAGATATTCATTCCCTATACTAAAAACAAAGATTTAGGAAACTATAAATTAAATTATGGATATATATATGATGAAGGAAAAGCTGTAGATGAAGTATTAGTAAGTAGAATGAAAGGACCTCGTTCATATACTACAGAAGATATTGTTGAGATTAACTGTCATGGTGGATATTACACTACTAAAAAAATACTTGAAGTAGTATTAAAAAAAGGTGCTAGAATGGCAGAAATAGGTGAATTTACAAAAAGGGCTTTTATGAATGGTAGAATAGATTTATCTCAAGCTGAAGCAGTAATAGATATAATACATGGTAAGACTGAAAAATCTGTTTCTTTATCTTTAGATCAATTAAAGGGTAGTTTAAGAGATCAAATTAAAGAATTTAAAGAAGCATTTTTAGATATTACAGCACATGTAAATGTTGTTATGGACTATCCAGAAGAAGGAATAGATGATCCTTTGCCATTAGAATTAAGAAAAAAACTTGAAGAAGTGTATAAAAAGGCTGACACTTTAATATCTTCATATGATAAGGGTAAAAAGATAAAAGAAGGTATTAAAACAGTAATAGTAGGAAAACCTAATGTAGGTAAATCTACTTTATTAAATACTTTACTTCAAGAAGAAAGAGCTATAGTTACATCAGTTCCAGGTACAACTAGAGATGTTATAGAAGAAATAATAAATATCAAGGGTATACCTTTAGTTTTAGTTGATACAGCAGGTATTAGAGAAACTGATGATATAGTTGAAAATATTGGAGTTAAAAAAAGCTTAGAATTTATAGAAATGGCAGATTTAGTGTTATTGGTATTAGATAGTTCAAAAGAAATTGAAGAAGAAGATATTAGGGTTATAGAAAAGATATTAGAGTTAGAAAAACAATATATAGTATTATTAAATAAAATAGATTTAGAAAGAAAACTTGATATATCTAAGTATAATTTAAATAACATAGTTGAGATTTCAGCACAAAATAATATTAATATGGATAAAATGGAAAATGAAATTTATGAATTTATTACAGACAACGAAATAGATGATAGTTCAGAAAGATTAATTTTAACAAACATTAGACATAAAACAGCACTAGAGAAAACTAAAGAATCTATAAAAAATATATTTGATACTATAGATATGGGTATGCCTTTAGATTTAATATCAGTAGATTTAAAAGAGGGACTTGATTCATTATCTGAGATTACAGGAGAAATCACATCTGAAGATGTACTAGATCATATTTTTGCAAAATTCTGTGTTGGAAAATAGGGCTATTATATACAAAATCATCAAGATAATTTTATAACAAAGTACTTATAATTAAGAAAAATAGGCTAGACAAATACAACTATAATGTTGTATAATTAATTGAATAACTATACATAAATATGAAAGAGGAAAAATGAAGGGATATATTGCTAGATTACTATTATTAATAGCTTTTGTATATGTTGTTTTCTTATTTATTGAAAGTGATTTCTTTTTAGTTAAAAATGTAAATGTTGAAGGTAATATTTATTTAGTTAAAGAAGATATTGCATCTAAATTTGACAAATTAAAAGGTCAATCTTTATTCTTGTTAGATTTATCACAAATGAGAAATAAGATAGAAGAAGATGTTAGAATTGATAGAGTAGATATTTCAAGAGAATTTCCAGATACTATAAATATTAATGTAATAGAAAAAGTTCCCATAGGAATAATTAATAAAAATCATAAATATTATTATATAGATAAAAACTTGAATATTTTTGCTTATTATAATGAGATAAAAGACGATAATCTTCCCATAATAGAAATAAACGAAGAAAAATTTGATGATTTAAAAGAGTTATTATCAAACATTTTAGGCACAAAGTTATACCATTTAATTTCAGAAATATATAGTAGAAAAGAAATGTTTGTTTTAACTTTACTTGATGGAACTAATGTATATACGAATAAAGATATTAAAAGCAAAAAATATGAATTAGCATACAAAGTATATTCTGAAGAAATTAAGGAAAATGATTTAGAATATGTAGATGTAAGATTCAAAGATATAGTGGTAAAATAATCAAAACGGAGGAACAATAATGGACAATAACTATAATGGATACCAAAAACCTAATCAAATATATATTAATAACAACCAACATCAATTAGCAACTCCTGATATTCAAGGAGCAAAGATTAGTATCATAGGAGTAGGTGGTGGTGGTGGAAACGCCGTTGACTACATGAAAGAATATAATATTGAAGGTGTTCAATATATAGCAATAAATACAGATTATCAAGATTTAGAAAAAAAAGCAGCAGATATTAAAGTGTCTATAGGTACTTTAGGAGCAGGTGGAGATCCAAATGTAGCAAGAGATGCAGCAGAAAACATGAGAAGTGAAATTAAAAAAATAATTCAAGGTCAAGATATGATATTCATTACTGCTGGTATGGGTGGAGGAACAGGTACAGGTGCTTCACCAATAGTTGCTGAAATTGCTAAAGAATTAGATATATTAACTATAGCTGTAGTAACAACTCCATTTGACTTTGAAGGACCTAATAGAAGAGCTAATGCAGAAAACGGAATAAATGAACTTAAGAAAAATGTAGATACTTTAATAGTAATACCTAATCAAAAGTTATTCTCAAATAAGACATCAATTAATAAACTTAAGAATATGTTCTTAGCTCCAAATGAAGTATTATTTAGATCAGTTAAGGGTATTGCAGAAATAATAACTAAAGAAGGATTGATTAATATAGATTTTGCTGATGTTAAACAGGTTATGAAAAATGCTGGAGAAGCAGTTGTAGGACTTGGAATTGCAGAACAAGGAAAAGATGTATTAACAGCAGTTAAAGAAGCTATTGAAAGTCCATTACTTGATAGAAATATTAAAGGTGCTAAGAAAATATTATTAAATATTACTATGTCGCCAGATGGATCATTTGAAGATTTCCAAAATATAATAGAAGAAGTAATAGCTTATTCAGAAAATCCAAATGTAGATGTAATGTTTGGAATAATAACAGATGATGATATAACTGATACAAGGGTTACTATAGTTGCTACAGGATTTGAAAAAGAAATTAAATCGGTTGCATCAACAATAGATTATGATGTAAATGCTAATAAAAATGTAGAAGAAAATAATAATGAAGAAAATCATTCTGTTGAACAACCATTTGTTTACCCTAGATTTGATGATTAATTATAACAGTATATATAGAAAACTTTTAGTTAGCTAAGAGTTTTCTTTTTTACATATTATGATTTAAATGAAAGGAGTATCATGAATAAGATATTATATAAATTAGAAGGGATAATTAGTTATCCTATAACTATACTTTGGTCATTATTGTTGATAACATATATTAATTTAGCAAAAGATGTATTTAATGAAAATTCTAACATGTTAGGATTTATTATAATTGGTTTAATATCTACAGGACTATTTTATAAGGTGTTTGAAAATAAAAAATATAAGCAAATAAAAGTATTGATTATGTCATTAATGTATTCATTTTCATCTTATTTATTAATAGGAAATGAAACATTTAATGTAAGAAATCAAAAAATGATAATAGCATTTATAGGTATATTATTATTTCTTTATTTTTCAAAATTATTATCAGAAGGAATGAATTTTAATCATATAGTTATTAATTTAGTGATACATTTAGGGTTAGGATTTCTATCAACATTACTATATTATTTTTTAGTATTAGTCATAGTAGAATTATTTAAATTACATACTGAACCTAAAATTATATTATCTATATGGGTATTAATATTTACTGTAATATTTATACTTTATTATACATCAAGAAATAAGGTTGAAAATAAAATTTTAAATAACATATTTTCTATGTTTTTAATATCATTCATATTTATACTTTATTTAGGTTTATTTTCAAAACAACAAAGTTTTATGATGCATTTAATATTATGGCTTGGATATATTATGGCAGGTATTAATACTGTGATTAATAAAAAATATGTACCTATACTTACTTTACCTTTACTATCATATATGATATATATAGTTATAAAACAGATAAAATTATATGGTATTACAGAAAATAGATATTTTGTTTTAGGATTTGGACTACTTTTATTAGCTATATTAATCTTACAATTAGTTAGAAATATAGAAACATCAAATTATGCTAAAATTTTTGCTATGTTTATAGCTATAGTATTCTTTATACCATATTTTAATGCTTTTTCTTTAACTGAAAGAAAAATGACTTATAATTTTTTGTCTTTATATAATTTAGAAAAACCTACAAATGAACAAAAGAGAAATTTAAATTCATATTATGAGTATCTAGTTTCAAGAAATGTTAATTTTAAAGAACTTGATGAGTATAATAAAATTAATGTAGAAGACATACATAAAAATTACTATTTTATTATTGAAGATGAAATCAAAAAGATTGGTAATACAACATATGTTAATATAAGGGATATAAAGAATGAATACATATATACCATTAAAGGGAAAAAGGTAGATTTAGTACAAAAAATAATCAATAAAGAATTTGAAAATAAAGACTACATAATACATCCATTAAATTATAGTTTAATACATAACTCACATGAAATTAGTGGACATTTAGAACTATTAATAGAAGAAAAATAAAAATATGTAAAAAGCAGCTAGAGGTTAAATATCTCTAGCTGCTTTTAAATAAAACTTTATTTAATATATCTTACTTGTAAATTAAGTGTAAAATAAAATTCATTATTCTTTTTGTATATATTCAACATATTATATCTTGTAGAACTTGGAGAATCTAATTTTGTATTTTCTAATAGATATTTTCTAACTTCATCTGAAAAATAAATCATATCTAAAACATATATTTTTTTATCATTTGAAACAATAATTATTCCACCATTTACATTGTTGATACCATTCCATTCTTTACTAGGCATAATACCAAAACTGATTGCCTCTAAAAAATCTTTTAATTTTTTTATTGATAACTCATTTGTTTCATATATTGAAGATTCACTAAATAACTTTTTCAAAAACTTTTCGTCATTTTTATATGAATTTAATAAAACTTCAGCTAGAACATCGGGTAATTTATAATCGATCATTTTTAAATTTTTTTCAAATGCATCACTAGTTAAACCAACAAATTCAATATTAGCATTTATCTTTTCTAATTCATGTATTCTATCTTTTAGCTTGGAAGGTGTATTTATTGAATTTATACGTTTTACATCATCTTCGGATATATTTGTAATCTTATAAATAAAATTAGTGTGCTTACTAGCATTCAATATAATAGCTGGACGACCTAATTGTGATTTAATGCTATACGATAACTTAACATTTATATTTTTATTGTTATCTAAATTTATCAATGTTATATCATCTTTTTTATTGGCAATAGATTTAAAATTGTTTTCTATCCCTAATTTAAATAACAAAGAATTTATAGAAGTAATATTAAAACTTCCTATTCCATTGTTACTATTGTATATTTCGTTATACATTAATTCATAAAATTGTTTTATATCATCAATATCTATTGCTTCCAATTTATTATCGTATATTATTGGATATACTTTATTATCTTTTATTTCGAATATTATATTTCCTTTCTTATTCTCAGAAATAATACTTTTAACAGTAAAAATACTATCATTTACAATTTCTAACTTACAATTAACAAGCTTCAATTGTTTGTTTACCATCAGATATAATAGTGCATATAATTCTGACCACTACCCTTTATTAAATGCCATACTTTTCTCCTTCTTATTATATTATATATAATCTAAAACCTTTACCATATATTCAGCCATACTTTCAACAACTGGTATACATACAGAATTACCAAATAGCTTGTATTGTTGTGCATTACTTATTGTATTTGGAAAAGAGAAATTATCAATTCCATTTTCTACAAATCCATAATTAATAAATCCTTGTAATTTTCCCCACTCACTAGGTGTCATATATCTAATTCCCTCATCATTTAATTTTCCCTTTTTTACGCTAACATTTTCTAAGCCAATATACTCTTTCTTATATTGTCTTATTAAATTTCTTTCTTTTCCTGATCCACCTGTAGCCATTATAGTATTAGCAATTTGTTTTTTATCATCATTAACAATTATATAACCAAATCCTGAATTTTTAGATTTATGTCTTTCTCTATGCCTATTTAAGGTATCAATATATTTTTGTGATAAATAATATTTAGGTTCAACACTTTGTTCTAAAAGATCATTTAAATCACGATATATTCCTAAATCTCTATATTTAGGTAATTCATGGAATTTAAAATTTTGAGAAATATCCTCTTTCCTAAATCCCATTATAAATATTCTTGCTCTTCTTTGTGGTATTCCAAAATTATATGGTGTTCTAACTAAACTTTCACTTTTACCTATATAAAATTTTTTACCATTTTTATTTTCTATATTCACTCCAACAATTTTATAATCTAGTTCATCTAATGTTTGGGCAATTACTTGAAATGTTTTTCCTTTATCGTGTTTTAGTAACCCTTCGACATTTTCTAGCAAAAAAGCCTTTGGTCTAGTATTTTTTATTATTTAGGCAATATCAAAAAATAGTGTTCCTCTTGTAGTGTCTTCAAATCCTTCTTTAAGACCTGCTATTGAAAAAGCTTGACAAGGAAAACCTGCAAGTAATATATCGTAATCTGTATTTTTGACTTTATCTTTAAATTCTTTGCTCGTAACGTCGTTATATGGATTTTCTCCATAAATATATTCATAAGCTTGACAAGCATATTTATCTATTTCTGCTGATAAGACATTTTCAAAACGACCTGTTTTCTCAAAACCACGTCTTATCCCACCTATTCCTGCAAATAAATCTATAGTTTTATATTTTTTCAAATCTACTACATTCCCCTTTCATTAAAATACCTTATTATACTATAATTTTATAACAAATAAGTACCAATTTCAACTGTTTAACATAAATAATAAAAATTTATTAGATATTATATTTAAAAAGGAAAATTTCACAAAAATAGAAATTCTCCTAAAATATTTTATTTATTTTCTTTCATTATAGTATTCCAAGCTATTTTATGTTCTGCATTTATTTCTACATTATTTTGTATGTTATAAATATATCTTTATAAAAATACATATGTATTATCTAATAGTCTTAAATAATAATTTATTTTTGAAAATACTCTATTTATAATATAATGTGCTGAAACAATATGTAAAAAAAAGAGATACACGTGATATAATAGAATTTGACTAAAATATCAAAGTGCTATCTCATTATTTATTTTTTATTATTACTTCTTAATTCATGAACTATATGTAATTTAGGTTTTGCATCTTCCCCTATATTATACTCAGAATCCATAACTCTCATTATTTCTTTTATTAATACTTCAGCACCATTTTCATTAACATGAACTCTATCTTTTCTAAAATATTCAGGATGATCTTTAGATAAAGAATACCAATCAATAATTTTAATATCTTTGTATAAATCTTTTGCTTCTTTTAATTTCATATTTACACCTTTAGTCCATTTTCTAGGAACATTAATATTTATGAAAAAAAGATTGGCTTTATTGAATATTTCTCTAATTTTTTCTATTTCTTTTAATGTTATAGGTCCATTAGTTCCTAGCATAATTACAACATTTGAATCAGGGCTATTGTATTTTTTATATTTTTTTGATATATCTATAGCATCATGTAGAAATCTTCCAGTTTGTGCATCTACTTCAAGTATTGGTAAAACCTTTGCCCATGCATATGCAATATTTATTCCTAGTGAATCTCCTAACATCAACACCTTATTTATTTTCTTATCTTCTATTTGTGGTTTAACTTCTTTTTTAATATCCACATTTATTTTATCTACATTTAGATCAAGAGATTTAATTCCAACTTCTTTTTCATCAATTAACCTGTAACTCCATAGTTCTAAATCCATTCCAGCAATAGAAAGGACAGAAAATACAGATAATAAAAGAACTAATACAGCCATAACTGAATTTTCAAAATATTTTTTAAATCCATTTTTTCTTATAGGTTCTTCAATAAAATGAAAAGATAAAATAGAAATAAGAAATATAGCTGCTATTCTAATCATTACATTAGTAAGGTTAGGATTTAAGTATTCCTCATAAGGTGTTGTTAATGCAAATATAGCGTAGTGCCATATATATACACTATATGATAATTTACCTATATAATTAAAAAGTCCAAGTATTTTTGAATTTGAAAGAAATAATATGATAAATCCAAAAATAGTTGAATAAGCTAATATACCAAGATATTTGTATAAAAATATAGATTGTTCATCTATTATAGTCATAGTATATATTGATATTCCTAAAAGTATGAATCCTAAAATTCTCGTTAAAATAGGAATATTTTTTTTAGATAATTTTGATAGAGGTATAAATGTAGCAAATGTTCCACCTATACATAAAGCATAAATTCTAGTAATTAGTAAATAATATATTATTGATAAATTTTTGCTATCTTTTATATATAAAATATTTAAACATATTAGAGATATAAAAGATAGAGTTATTAGTATAGTTCTAATATGCTTTCTTCCAAAATTAGTTAAAAATATTAATGGAAATAAAAGATAAAATTTCATTTCTATTGCAAGCGACCATAAATGTTTTACAGGTGATGTAATAGAAAAATTATCAAAATAATTAGATTTACTGAGAACATAATGTAAATTTAAATTATATATTAAACTTTGTAATATGCTTATTTTTTCTTTAATTAGCCAGTTTCTATTAGTTAATGCTAATACTGTAGTTAGAATAAGTAACATAGAAAAAGAAACTGGAAATAATCTTTTAAAACGCTTATAATAAAATTCCTTTATATTTAAATTATCTTTATTTATTAATATTGATGTAATTAAGTATCCAGATAATACAAAGAATAAGTCAACACCTAAAAATCCACCAGGAAGGGTATTTGGAAAAAAATGATAAATAATAACCAAGATTACAGCAATTGCACGTAATCCATTAAGACCTTTTAATTCTTTCATTTGAAAACTCCTTATTTAATATAGATAAATATACCATAAAATAATATAGAATAGCAAGATGTTAAAATGCCTATTATTATTAAGATAGATATAATTTGATAAAAAATTATTTTGTCATATATGTATATACTGTAAAATGGCTTGACAAATACTCTTAAATTATGATATATTTACTTTAGTGTGGCGATATGGTCGAGGGGCTTAGGCAGAGGTCTGCAAAACCTTTTACATCAGTTCGAGTCTGATTATCGCCTCCATTTTTTTATACTTATATTTCTCTAGGAGGGTAATATGAAAATTTCTGTTTATTGTGGAGCAAATGTTGGTAATAATGAAAATTTTGCTTTATCAGCAAATAAATTAGGAAAATTGATAGCTAAAACAGGAAATATTTTAGTTTATGGTGCTGGAAAAATTGGACTTATGGGATTATTAGCTGAAGCTGCACTTTCTTTAGATTGTGAAGTTATAGGTGTTATGCCAGAATTTTTAACTCATGGAGAAAGAGTGCATAATGGTCTTTCTAAATTAACTATAGTAGAAACTATGGCTGAGAGAAAAAAGATATTATTTGAAAGTGATATGTATATAGCTCTTCCTGGTGGAGTAGGGACATTAGAAGAAATTAGCGAAGCTTATTCTGGTGTTAGATTAGGATTAAGTAATTCAAGATGTGTACTATTAAATATAGATGGTTACTATAACGAATTTATAGCATATTTAGATAGAATGGTAGAAAATGGATTTTTAAGTCAAAAAGATAGGGATATACTTGAAGTATATAATAGTGTTGAGCAATTGGGTGAAAATTTATGAATGAATATTTAGAATTGGTTAATAATGATGATTTTATAGATATTTGCTTATACCTAACAGAAGACAAACCTTATGAAATAGGTGAAAAAATGGAAGCTATAGATAAAAGAGCGTATATGAATGGTGAAAATTGGGCAGTTTTTTTTGAGTATTATGTAAAAACATATAGACCGGAACTTTTATTAGATCTTCAACATGATTTTGATGCTGGAATATATGTAGGCTTTTATATCTCTATACCAGAAAATATTTCAAGGGCTAAACGATATATGGAAATGATAAAAGAATTATTGGAAAATGAAAACAAAATATATAGAATAATTAAAGAAAAAGGAAATGAAATAAATTGGAAATAATAGAGTGTTATTATTAACGCTCTTTTTTAGTTATAATAAAAATTCTTGACAAATATACAGGGGGGGGGGGTATAATATCTAAGTAAAAAATAATTAGGAGTATAATATGAAGAAGTTAGTATTATCTATAGTGTTATTAATAGGATTGTTTTCGTTTTCTTTTGAAATAACAGGACCAAGGTATAAAGTAGATTTAACTTTAGGAGCAGGATATAAACCAGATCCTCATAATAAGGAAACTGATTTTATGAATTTTACTGGAAATTTTGTAAATATAGATATGGGTATAGGATTTTCTCCTGAATGGACACTTAAAATCAATAGAAAATTTGGAATAACATTTGGTCCTAAAATTACAACAAACCTATTTACAACAACTTATGAATCGTATATTGAGGATGATATACATAGACAACTATATTTTAGTCTTAGTACAGGAGTTAGAGTAGATTTTGAATATACATTAAAAAATAATATTAAAATATATACTGGAGCAGAAGCAAATGTAACTGTAAGACCAGATATACATATTTCATATTCTGAACCTGGTGAAAAAGGATTTAGGTATTTGAACTTAGAAGTTCACTCAACAGCATTTGGTAAGATTTCATTAGGGACTAAGATAAAGAGGTATAGTATAGGACTTTAAACAGAATTTGGTCTTAGAAAACAATTAGTTGGTGGAATAGAAGTAGGATATACTTTTTAAAAATAGAGAAAGGAAAGATTAAAGATGAAAAAATTAATTTTATCAATATTATTAATTATAGGAATAACTTCACTTTCTGCTAATGAAAACAGACAAAATTCTGCATCAAATAAAAGAAATGAGATTAAAAGAGTTAGAGAGAGAAGAGAAAGAAGAAATAGGAAAGACATCAATTTAAATAAAGAAAATATAGTTAAAAAAGAAAATACAGTTAAAAAAGAAAATACAGTTAAAAAAGAAAATACAGTTAAAAAAGAAAATACAGTTAAAAAAGAAAATGTTATAGATAAAAAAAATCTTAATTCAAATGAAAAAAATATAAACACTCCAAGAATAACAGGACCAAGGTATAGGTTAGAGGTAAGTATTAGTACATTACCTGTATATAATAATAGAACTAAACAAGTTGGATATTATGCATATAAATCTTTTTCAATTTTACCTGAATGGAAAAAACAGGTTACTAAAGATATAGATATAACATTTGGTCCTAAATTTTCTGCTAATCTTATCTTTGCTAAGGATTACCCTTCTGCTGGTAATGATGTTGTAGTAGATAAAGGTCAAATTATAGGGTCATTGTCAGTAGGTACAGAAGTTGATTTTAATTTTAGATTAAAAGAAAATATAAAACTGTATATTGGTGTAGAAACTACATTAGGTTTAGGTATAAAAATTAATACTTTAAATGGTAAATACATATCAAAAGAAAAAGGTGATATGGGACAAGATGTATGGCATGCTTATGTCGACGGAGATATTTATAAAAGTTTAAAATATATATATAGAGCTAATGTATCATTTGGTCTTAAGATAAATGATAAATATAATGTGGCATTTTTTGGTGGATATGGTAAGGGACATTTTGGGGTAGAATTTGGTCACACTTTTTAATAATATATTTTGTAAATATTTACATTTGTATAATGTAATTGCTTTTGATGTATAGTTATGATAATATAAATCATAATATGATGACCTCAGATATTATTTTCTAGAATTAGGAGGCTATAAGCCTGATTAAAAAACCTACTTTAAAAAAGTAGGTTTTTATTAATTTAAATGTTTTCAAAAAAAATCATTTTTTTCATTTTTGGTCATTGACAAAATCAAATATGGGGGTATAATGTATCGAGGAGGACATGATTATGAGTAAAAATTTACAAAAAGAGAGATTTGATTTAATCTTGAAAATGGTAAAAGAAAATGATTATGTTAAGTATACAGATTTAGAAAAAAAATTAAATATTTCAATAGCGACAATAAGAAGAGATGTTATAAAACTTGAAACACAGGGTAAATTAAATAGAATTTCTGGAGGTATAGAATATAGGAATCCTAATTTAGATGAGGATTATCATATTAGGAGTGTTAAATATTCTGAAAAAAAGAGAGTGATTTCAAAAAAAGCTTCTAAATATGTTAAACCTAATACTTTGATATATTTAGATGCAGGAACTACTGTTTTTGAGATTATATCTTATTTAAAAAACATGAATGTAATTGTAGTAACTAATGGTGTAGAACATATTAATGAACTTATTAAAAATGAAATTTCATTTATATTACTTGGTGGAGAGGTAAAGCCTAAGACTAAAGCCATAATAGGAGTAACTGCAATGAAACAGTTAGAACAATATAATTTTGATTTGGCATTTATGGGGACTAATGCTGTAAATGAAGAATTTGGTTTTTCTACTCCAGATATTGAAGAAGCTATAATTAAAGAAAAAGCAATTAGTAAGTCTCAAAAAGCAATAGTACTTGCTGATTCTACTAAATTAAATAATATTTCAAGAGTTAAATTTGCAGATTTTAAAGATGCTATTTTAATTACTGAAAAAAAGGAGAATAAATGATTTATACTTTAACACTAAATCCAGCATTAGATTATGATATTTATTTAAATAAGACGGAATTAGGGAATTTAAATTTATCTAAAGATGTAAATTTTAGAGCGGGTGGAAAAGGGATAAATGTTTCAATCATGCTTAAAAATTTAGGTATGGATTCTATAGCCTTAGGATATGTTTCAGGATTTACCGGAAAGTTTATTAAAAGAAGCTTAGATGAAATGAATATATCTAATAATTTTATAGAAATAGACGGTATTACAAGAATTAATGTTAAAATTAATGATAGTAATGGTGAAACTGAAATTGCAGGTATTTCACCTAGAATATCTAATATTGATATAGAAAAACTTTTAGGGGTTATAAAGAGTTTAAAAAAAGATGATATATTAGTACTTGCAGGATCTATTCCAGAAAATTTACAAAAAGACATATATAAAGTTATATCTATGGAAACTCAGGCTAAGATAATACTTGATACTAGGGGAGATAAATTAAATTATAATGTTTATAATAACATATTAATTAAACCTAATATTAAGGAACTTGAAGATGTATTTAATGTTAGTCTTAATAGTGATGAAATGATATATGAGTATGCACAGAAATTTATAGAAAATGGAATAGAAAATGTTTTAGTTTCTATGGGAAGTAAAGGAGCAATACTTGTAAAAAAAGGTAGGTATTATAAAGGGAATATACCTAGTGGGAAATATATTAATTCTATAGGAGCAGGAGATTCTATGGTTGCAGGATTTACCTATGCTTATGTAAATAAATATAGAGATGAAGATATTTTAAAATTTGCTATAGCTTGTGGCTCATCAACAGCTTATTCATATAATATAGGAGAAAAAGAATTAATAGATAAATTATTATTAGACATCAAAATAGAGGAGGTAAAATTATGAAATTAACAGAATTATTAAGAGAAAATCAGGTTATCTTCAATTTAAATGCAGATAATAAAAAAGATGCAATAATTGAAATGGCAAAGGTATTTAAACCAGATGTAATTAATGATCAAGAAAAATTCATTGAAGACTTATTTGCAAGAGAATCATTATCACATACTGCACTAGAGCTTGGAGTTGCAACTCCACATGCTAAATCTCGTGGGGTAAGTAAACCAGCATTGGTTATAGCCATAAAAAAAGAGGGTATAGATTTTAGTGAAGGTCAAGAGGATAAATCAAAGCTATTTTTTATGATAGCTGTTCCTGAAAATGAGGGTAATTTACATATAGATATATTAACTAAACTTGCAGATGTAATGTTAGATAATGATAAACTAAATGCATTATTAAATTCTACAAGCTATGATGAAGTTATAGATATTATAGAAAAGGAAAAAATTATGGAAAATAAAGAAAGTGAAAAATTTGTAGTAGCTGTAACAGCATGTCCTACAGGTATAGCTCATACATTTATGGCAAAAGATGCTTTAATTAAAGCAGCTAAAGAATTAGGAGTGAATATTAAGGTTGAAACTAATGGGACAAATGGAAGAAAAGATGAAATTACTAAAGAGGATTTAGAAAAAGCAAGTGGAGTAATACTTGCTATAAATAAGAGTGTTAATGAAGAAAGATTTAATGGATATAAGGTAATAAAGGTTGGAGCAAAAGACGGTATTAATAAAGCAAAAGAGTTAATTTTAGATACTTTATCTGGTAAGGGAACTATTGCTAATTTTGAAAGTTCTGGAAATTCTACTTTTATGAATAATGGTAAAAAAGGTATGTATAATCACTTAATGTCAGGTGTTTCATACATGTTACCATTAGTAATAAGTGGTGGAATATTAATAGCACTTGCTTTCTTATTTGATAGTTTAGCAGGAAATTCTAATGTTGGTGGAGGATTTGGATCTACTTCTAAACTTGCAGCGACATTTATGCAAATAGGTGGAGCAGCTTTCGGATTATTTGTTCCTATACTTGCAGGATATGTTGCATATAGTATAGGTGAAAAATCATCTCTTGCAGCAGGACTTGTAGCTGGAGCTCTTGCATCAAGTGGTGGTTCAGGATTTTTAGGAGCATTAGTTGGTGGATTATTTGCAGGATATGTAACTAAATTTTATTCTAAGGTTACTTCAAATATTAAAAAACAATTACAAGGAATTAATCTTATACTATTTACACCTGTTATAACAGTTTTACTTACAGGGCTTGTTATGCTATTTTTATTAAATCCTATGGTTAGTGGTATTAATACTGGAATAACTAATTTCCTTGAAAGTATGAGTGCAAGCTCAAGAATACTTTTAGGTGCATTACTTGGTGGTATGATGGCTGTAGATATGGGTGGACCAGTTAATAAAGCAGCATATGTATTTGGTACAGGAACATTAGCTGCAACAGTTTCTACTGGTGGTTCATCAGCTATGGCGGCAGTTATGGCAGGGGGTATGGTTCCTCCACTTGCAATAGCTATTTCAACTACTGTATTTAAGAATAAGTACAATAAGGAAGAAAGAGAAGCAGGACTTTCAAATTATATAATGGGGATTTCATTTATAACAGAGGGGGCAATACCATTTGCAGCTGCAAATCCTTTAAGAGTATTACCTGGAGCAATAATAGGTGCAGCAATTTCAGGAGCTTTAACTATGTTATTTAATATTAAAATACCAGCTCCTCATGGAGGAATACTTGTAATGTTCTTAAGTTCTAACTTCTTCTTATACTTACTTGCAATAGTAATAGGTTCTATAGTGGGAGCAATTATTTTAGGGCTTTTAAAAGAAAAAAGATAAAATATTTAAAAATGGGAGAATTTCACAGAAATGCTCCTATTTTTAATTTGTTAGAATTTTTTATAGAAAATCCAAATTTAACATCAATTGAACTTTCAGAATTAATAGGTGTAACAAAGAGGACTATTGAAGGAACACTTAATGTTTTACAGAAAAAGGCTGTTATAGAAAGAATAGGTTCTAAACGAGATGGTAATTGGATAGTGATTAAATAATTGTGATATAAAAAATAGCACCCTAAATCTTGTATACAAGAATTGAGGTGCTTTTTTATGTTTGAAATTACCTATATTTTAAATTTTTATCTATCAACTATAACTAAAGTATCATTTTCTTTAATAATAGTATTTCCGTTAGGTATCATAGATTTGTTATTTCTTTTTATCATAACAACAAACATTTTTTTATCCAATTCATATATATATTTATGGTAAAGTGAAGAATTTTTATCTATGAATTTTTCATAAATATTTATTCTTGTATTTTTATCTTCAAAGGTTGAACCACATAGAACCATTTTATCCCCACTCCTTATTTTAGTATTGCCATCAGGAACTATATTTTCACCATTACGTATAATTAAAACTAATAGAACACCTGGAGTAAATTCAATATTTTTTATAGACATTCCAACCCATTTGTGATTTTTGTCTATTTCAAAGCTTATAAAATCAACATCTTCTTCATCTGAGTAATCATTGAATGTTTTTAAAACATTTTCAGTTTCATCTATCATGTCTAATTTTTTAGCAACATAAGGTATTAATGAACCTTGGAATGCTATAGATAATAGTACTATTATGAAACTCATATTAAATATTAAGTACCCTATTTCTTTATTTGAAACCACAACTAAAATTGAAAATACAACAGAAGCAGCTCCTTTAAGTCCAGCCCAAGAAACAAGTATTATTTGTTCTCTACTAGATTTTAAAGGAATTAAAAGACCACCTATAACCAAAGGTCTTATTACAAAAGTTATAGCTAACATTAAAATAATTGATGGCAATATATATTTAAATGCTATTGCAGGACTTACTAGTAAACCAAGTAGGAAGAAAATTACCATTTGCATAATGCTAGTTATACCATCAAAAAATGAAATTATTTCAGATTTTCCTTTGAATTTTGAATTACCCACTATTATACCAAATAAATATATTGATATATATCCATTACCACCTAAAGTTTCAGAAAAAGCATATGATAAAAGAGTTGTTCCCATTAAAAATGCCATCGTAAACCCTATATCTAAGTTCTTTATTTTTTTTAATAAAAAAATTGTTAATTTTGCAACTATAAAACCAATAGAAACACCATAAATTATTTGTTTTAAAAGTAATATTGGTAAATTTAAAAAACCATCAGAAGCTGATATAAATGCTATAGTTAAAACATATGCAAAGGGATCATTAGATCCACTTTCTATCTCAAGTAATGAAGCTGTATGCTCTTTTAAGTTCAGTTTATATGATTTTAATATAGAAAATACTGAGGCTGCATCTGTAGAACTTAAAACTGCTCCAGTTAAAAGAGATGTTTGCCAATCTAACTTTAGAATAAAATGTGTAAATATTGCAGTTAAAAATGCAGTAAATAAAACACCTAAACTTGATAAAATTAAAGATTTTTTTAGTACTGGGCGAGCCATAGATAATTTTGTGTTGAATCCACCAAAGAATATTATAAACACTAGTGCTAAAGAACAAATATCTTTAGATAGCAGAAAATTATCAAAATTTATTCTAAAAATTCCATTTTCTCCAAATATCATACCAAGTCCAATGAAAACTAGAAGCATAGGTAGACCAAATTTACTTAGATACTTATATACAAACACACATGCAATAAGCACAACAGAGAAAAAAAGTAAAATATGAACCAATATATATCACCTCTTTCATTATTTTTCATATATCACCCTATTATATCATATTTATCAAAAAAATCTTACTCTACAACCCCACTTTTCATGCTAATACATAAGCCTAATTATGTAATGTGATAAAACATATGTAACAAAAAAATAAAAAAAGAGAGATACATTTGATATAATAGAGTTTGACAAAAACTAAAACAATCAAAGGAGTATCTCTCATGAGTATTATAACAGAAGAAATGAAATTTCGCCATAGATTATGTGAATATGCAATAAAAAATGGAGTAACTAAAGCAGCAAGGCGTTATCATACAAATAGACAATAGGTTCAAGAAAGCCCCATACAAGCCCAAATGCCCATACAGAAGAAGAATTAATACTAATAAAGAATATGTTAAAAAAACATGGAAGTTATGGATTAGCCCAAGTATATGTTAGTTGTAAGAATAAGGGGTATAATAGAAGCTTTGGTAGTATGTGTAGGATAAATTATCCAAGTGAGAAAGTACAGGTAGATATTAAATATATTCCAAATGAGTGTATAAAGTTTAATTCAAAGGGGATTAGATATTATCAGATAACTGCTATAGATGAGTATAGTAGGAAAGAATTTAGGATCGAGGAAGAATTAATAGAAAATGTTAAAAGGCATGAAAGGCTGTATAATAATAGGGCAAAGACAGTGCTTAATTTTAAGAGTCCAAATGAGGTTGTGAGGGAATACTTCACTAAGGTTAAGAAAGAGGCTTAAAAGGGCAAAAAAGCCAAATTTGCCCCAATCTCACTTCACACACTCTAACAATCAATTAAACACTAAACATTAAACAACACTTAACTAAACTAAACACTTAATTAAACACTTAGACAATTAACTAACTCTAACTTATATTAAATTTATTTCTTATTATGTAACATATGTATTGACAATTAAGAGTAAAACTTAAACATCTTTTTTTAATGCTATTGACTTTTAAAAAAATAGGGATATAATATATTGAAAAATTAGAAAACGGTTTCTAAAAGAGGTGAAATTATGAAAAAGACAATAATAGAAGTTGCCAAACATGCTGGGGTATCTAAGACAACGATTTCAAGATATTTAAATGGTAAGTATGAATTTATGTCAGCAGATACAAGAGAAAGAATTGCAAAAAGCATTAAAGAACTTGATTATGTTCCTAATGGTATGGCAAGGAGTTTGAAAAATAAGCAAAGTAAAATAATAGGTTGTATGATAGCTGATATAGGTAACCAATTTTCGAGCTATATTTTCAAAGGAATATCTGAAATATGTCAAAAAAATGGTTATAGGGTTTTGGTTACAGAAATAAGTAATAATGAGGAAGATGAAATAGAGGCAATAGAGTCTTTAATATCATATAACATAGATGGGTTAATAATTAATACATCAGGAAGTAATGATGATTATTTAATAAATTTAGTTAAAGATAAAAAAATTCCTGTAGTTTTAGCTGATAGAAGTATACATCAAAGAAATATAATAGACACAGTTACAATAAATAATCATGATATTACATGTGAGGCTATGAGGCATATATATGCTAATGGTTATGAAGAAGTTGCTTTCTTTAGTTATGAACTAAGTAATAATATACGTGAATTAAGACATAGTGCATATGTAGAATCTCTTGAAAACATTTTTGGAATAAAAGAGGATATTACATATATTTATGAAGAAAAAGATGAAGAAAAATTAAGAGTTAAGATACTTAATTTTTTTAATAGAAATAATAAAAGAAAAGCAATATTTTGTATGAATGGTAAGGTATTGTTAGAAGTATTGCAAAGTATTAAGAAATTAGGATTTGATATAGAAGATGATGATATAGGGATATGTAGTTTTGATGATTGGGGTTGGGCAGAACTGGTAAATAAGGAAGGGGTTACAACAATAAGTCAAGAATCATATAAATGTGGAGTTAAATGTGCAGAATTAATGTTAGAAAGAATAAAAAATATGGAAAAACCTATAGAATATATAGAATTACCAGCTAGGTTAATACAAAGAGGATCTACAAAGAATAGGAGTAAAAAATGAAAAAAGTATTATTAGTTGGTGAAGCTATGATGCTTCTTATGGCTGAAGAAGGAAAAGATTTATCATCTGTTGAAAAATATTTAACAGGAATATCAGGAGCAGAACTTAATGTATGTGTAGGTTTAACACGACTTGGATTTTATTGTGAGTATTTAACTAAACTAGGAAATGATCCTTTTGGAGAAAAAATACAAAAATTTCTTAAAAAAGAAAATATAGGAATGAAATATGTTGAAATAGATAGTGAGAATAAAACTGGACTACAATTAAAATCTAAGGTTGAAAATGGAGATCCCTTAACATTCTATTTTAGAAAAGGGTCTGCTGCAAGTAAAATATCTAAGTTAGATATTGAAAAAATAGATATAGATGAATTTGATTTAATACATATTACAGGAATACCCTTAGCATTATCAGCTGATTTAAGAGAAGCTATAATACACTTAATAGAAAAAGCTAAAAGTAAAGGTAAATATATTACATTTGACCCTAATTTAAGACCAACTATATGGGAAAATGAAGAAACTATGATAAGAGTAATTAATGATGTTTCTAAAAGGGTAGATTTAATACTTCCAGGTATAAATGAGGCTGAAATATTATTAAAAAAAGATAATATTGATGAAATAGTAGAAGAATATAGGAATATGGGGATAAATAATATAGTATTAAAAGAAGGAGAAAAAGGGTCTCATTATTACACTAAAGATAAACATTACTTTATGCCTAGCTTTAAGGTAAATGAAGTTATAGATACTGTAGGTGCTGGAGATGGTTTTGCAGTTGGAATAATATCAAGCATATTAGATAATGTATCACCAGAAGCTATGCTTGAGAGAGCAAATGCTATCGGAGCAATACAGGTAGGTTATAGGAGTGATAATGAGGGTCTTCCTAATAGAGAAAAATTAGATGAATTTATTAAAAATAAGAAATAGAGGAAATTTTATGAAAGATGAGATTTTAAAAATAGTAGAAAAAGAAAAACTAGTAGCAGTAATAAGAGGGAAAGATGATGAAGATGCTTACTTAATATCAAAGAAAGTAATAGAAGGTGGAATAAAGATAATAGAGCTTACTTTTTCAACACCTTTTGTAGAAAATACTATAGAGAGATTAAGTAAAGAGAATATAGATGGAGTAATAATAGGAGCAGGAACAGTACTTGATGATATAACAGCTAGAATAGCTATAATGAAGGGAGCAAAATTTATAGTATCCCCACATTTAGATATAGAGATATCAAAAATTTGTAATAGATATAATGTGGCATATTTACCAGGCTGTATGTCAGTAACAGAGATAGTAAAAGCTATGGAAAGTGGAGTAGATGTAGTAAAACTATTCCCTGGTGATTTATTAGGACCAAGCTTTATAAAAAACATAAAGGGTCCACTTCCTTATGCAAAGATGATGCCCTCAGGTGGAGTAAGTATAGATAATATGGATAAATGGTTAGAGGCAGGAGCGTATGCCTTAGGTATAGGAAGTGCATTAACAAGATATATATCTACAAAGGGATATGATAGTGTTAAAGAGGAAACAGAAAAATTCTATAAAAAATATAATGAGGTTATTGACAACTTAAATAATTAAGGTATAATTTATTAACTATAATATAAAACGGTTTCTAAAGGAAAAATAATGTATGAGTTATTATTAAAAAGAAGAGAGTATTTAATAGGAAATTTTAAGGATTTACCATTAAATAAGAGAAAACAAATAGAAGAAATACAAGAGAAAAATATAGAAAAATTAGAATATTTAGAAAATTTAAACATAGCTGAGGTAAAGTTAAAATACAATAATATATTAGAACTTGCTAAGGCATATAATCAGGTTGGAAATGTTAGATATAGGGATGAAAAAATTAAAGTCATTATACTTAAAACATTAAAATTATTAAGAATAACTTACTATAACCTATCATCAGTAGAGAAAGTAAATTGGTGGCAATGGGAAATAGGAATACCTTTATTACTAAATGATATATTTATATTAATGAATGAAAAAGATTTTGATTTTGAAAAAGAAGAAAATTTAAAAACTAGTATATATTTTCAAAAAGATCCAAGGTATTCAGGTAATAATCCTGTGGCGACACACCCAAGTAAAAAGCCTTTTAGAATATCTACGGGTGGAAATAGAGTTGATACAGTTAAAGTATCATTATTTCGATCCATATTATTAAATAATGAAGAGGAATTGAAACTTGCTCTTAATTCACTTCCAGAAGTTTGGAAATGTAGAGAAAAAATAAATAGGATAGAAACCGATACACAAAGAGATGGCTTCTATAATGACGGCTCATTTATTCAACATGGAAGTTTAGCTTACAATGGAACATATGGTAATGTCTTATTACAAGGTATAGGAGAAATACTTTATGTTATAGGGGATAGTAAATATTTAAAATATCTTGGAGATATATATAGCTTGAAAGATATAATACTTAATAGCTATAAGCCATTTATGTATAAAGGTTCATTCCCTGATATGTTAAATGGTAGAGCTATTACAAGAGAAAATTCATCTGATAAAACTATAGGGCATATGTTATTAAATTCTATAATGCTAATATCATGTGGTTTAAATGATGAAGAATTAAAAAATTTAGTTGCAAGTGAAATATTAAAATATGAGGATTATTCATATTTTGATAAAGAACTTTCACCTTTTATGTATGATTTAGTTAAAAAAAATATACATAATAGGAAAAAAGAAGAATATGGAAAGATAATAAAAGTCAGTAATATTATGAATAGGGTCTTTATTAAAGATGACAAAAAGGCTATAGCTATTGCAGGTCATAGTGAAAATATATCAAATTATGAAAGCATTAATGGTGAAAATACAAAAGGTTGGTATACAGGAGATGGGATGATATATCTCTACACTAGTGATGTAACATATACCAATTATTGGAATAATTCCGACACGCGATATATGTCAGGAACTACAGAAGTTTATGAAGATTTAAATGGTATAAATACATCACAGATTTTAAATGTGAATATGAGTAGTGCCAAGATAGTTAAAGCCATAGAAAAAGATAATAAGATGATATTTTTTATGGAATTTGAAAATCATAATAAGAGTTTAAAAATGTATAAATCATATGTATATACAGGTAAGAAACTTATTTGTTTAAACACAAATATTGATACAAAAGAAAAGATATATACAACAATTGACAATAGGCTATATAAAGAAAAACCTAAAATTGTAATGGAAGATAAAAGGATATTAATTAATGATTTAATATTTAATATAATTACAGATCATAAATTTAATTTTGATATAAAAGAAAGTGAATTTGGATATTTTGTAAAAATATGGATAGAACATAAATATAATGAAAATTTGTATTATGAAATAATATTTGAATATGATGATAAAACATCACTAATAGAGGATAATAAAGAAAATATAATAATAAGAAATGGTAATGAAAAATATTTAATAAATACAAAAGAGAAAGAGGTGTTGAGATTTGAATAAATTTTTAACTGAGATGTTTTCACTAGATGGAAAAGTAGCTATAGTTACTGGTGGAAATACAGGACTTGGATTAGCTTATTCAAAAGCTTTAATGGAAGCAGGAGCAGATTTATTAATATCTACTTTTGATGATAATGTAAGTGAAGTTATAGAAGAAGCTAATAGATTAGGAAAAAAAGTAGTATTTGTAAAAGGAGATCTAACTAAGAAAGAAATTAGAGAAGAAATAGTAAAACAAGCTATTGATGAGTTTGGCAAAATAGACATACTTGTTAATAATGCAGGAACTATAAGACGTGCTCCTCTTTTAGAATATAGTGAAGAAGATTGGAATGCAGTTATGGATATTAATTTAAATGCACTATACTTCTTATCTCAAAGAGTAGCAAAGGTTATGGTAGAACAAGGATATGGAAAAATAGTTAATATAGCCTCAATGCTTTCATTCCAAGGAGGGAAATTTGTTCCACCATATACAGCAAGTAAACATGGTGTAATGGGACTTACAAGAGCGTTTGCAAATGAACTTGCAGAAAAAAATATACAAATTAATGCAATTGCACCAGGGTATATTAAAACAGCTAATACACAACCAATAAGAGATGATGTTAAAAGAAATCAAGAAATTTTAAATAGAATACCTGCTGGTAGATGGGGAGAAACTGATGATTTAATGGGTGCTGTAGTATTTTTATCATCTAAGGCATCAGACTATATCAATGGACATGTACTAGCAGTAGATGGTGCATGGTTATCAAGATAATAAATTTAGGAGGAAAATATGAAATTAGATGTTAGATATTCAGTACATCCAAGAGATATGAAAAAATATGATAGTCAAGAATTAAGAGAAAACTTTTTAATAGAAGAAGTATTTGTTGAAGATATGGTAAATTTAATTTACTCACATGATGATAGAATGATTACAGGTGGAGTAAAGCCAGTAAATAAGGAAGTTGTTTTAGGAGAAGTTAAAGCATTAGGAACAGAATTTTTCTTGCAAAGAAGAGAAATAGGTTTAATTAATGTTGGTGGTAAAGGTAAAGTTATAATAGATGGAACTATTTATGAAATGAACAAGAAAGACGGGCTATATATAGGAATGGGGAATAAGGAAATTATATTTACCTCTGATAATAAAGAAAATCCTGCTAAATATTATATAGTTTCTGCCCCAGCCCACAAAGAATACCCTATAGTTAAAATAGATATAGATAAGGCAAATCCTGTGAAATTAGGAGCATTAGAAACTTCTAATGAAAGAACTATATATAAATATGTTGATCCTTCAGTTTGTCAGTCTTGCCAGTTATTAATGGGTATGACTATACTTGAAAAAGGAAGCATATGGAATACTATGCCAGTACATACACATGATAGAAGAATGGAAACATATTTCTATTTTGATATGGAAGAAAATACTAGAGTATTCCACCTTTTAGGTGAACCTAACGAAACTAGACATTTAGTAATGAAGAATGAACAAGCTACAATTTCGCCTTCATGGTCTATACATGCAGGAGCAGGAACAGGAAGTTACACATTTATTTGGTCTATGGCCGGAGAAAATCAAAATTATGCTGATATGGATGTAGTTCCTATGAGCAATTTAAAATAGGAGAGAATAAATGGCAGAAGTAATATTAAAGAAAGTTGAGAAACAATATCCGAATGGATTTAAGGCAGTACATGGGATAGATCTTGAGATAAGAGATGGAGAGTTCATGGTATTTGTAGGACCATCAGGATGTGCAAAATCAACGACATTAAGAATGATAGCAGGATTAGAAGATATTACAGGAGGAGAAATATATATAGGAGATAAACTAGTAAATGATGTACCACCAAAAGATAGAGGAATAGCAATGGTATTTCAAAACTATGCCCTATATCCCCATATGAGTGTATATGAGAATATGGCATTTGGATTAAAGCTAAAGAAGACTCCAAAGGAAGAAATAGATAGAAGAGTAAAAGAAGCAGCAGAGAAATTAGAGATAACAGAACTATTAGATAGAAAACCAAAAGAGATGTCAGGAGGACAAAGACAGAGGGTAGCATTAGGTAGAGCAATAGTAAGAGAACCAAAAGTATTCTTATTTGATGAACCTTTGTCAAATTTAGATGCAAAGTTAAGAGTGTCAATGCGTGTAAGGATAACACAGTTACATAAGGAGTTAAAGACTACAATGATATATGTAACACATGATCAGGTAGAGGCAATGACAATGGGAGATAGGATAACAGTATTAAAGCTTGGAAGAATAATGCAGGTAGATACACCATTAAACCTATATCATAGACCAGCAAATAAATTTGTTGCAGGATTTATAGGATCACCGACAATGAATTTATTAGAGGGAGAATTAGTAAGAAGAGAAGAAAGAACATTTATAGATATAGAAGGAGCATTAATAGAGTTACATCCAAGTAAGGCAGAAAAGGTAAAAGGGTATATAGGAAAGAGGGTAATATTTGGGATAAGACCAGAGAATATATCAACAACTAAGGAAGAGAGTACATATACACAGATAGGAGAAGTATCAGTAGTAGAACAGATGGGAAATGAGGAGTATATATACTTTAAGTTATCAGGTAAGCAGATGACATGTAGGATGAATGTAGATGGAATAAGTGAAACAAGTAAGCAAGGAAAAGAGTTATTTTACTTTGATACAAGTAAGGCACATATATTTGATATAGATACAGAAGAAAATATAAGTTTGTAGGTGAAATAAATGAAAAAATTTAATAGAGATCAAATATCACTATATTTAATAATGCTCCCTTTCATTATTTGGTATATGCTATTTATGTTTAAGCCTATGTATGGATTATTAATAGCGTTTAAAGATTATAGTGTATTTAAAGGAATAGCCAGTAGTCCTTGGGTAGGGCTAAAACATTTTAAAGTATTTTTAACATCACCAGAGTTTTATAGAACTTTAAAAAATACTCTCATGTTAAATGTATACTCATTATTAATAGAATTTCCTTTAGCAATATTAATAGCACTTATGCTAAATGAGGTTAAAAATAAAGTTTTTAGAGCTTTTGTACAAACAGCTTCATTTATACCATATTTCATAGCTATTGTTATTGCAGCAGGTATAACAATAAATATGTTATCTCCAAATACAGGAGTAATAAATATAATATTACAAAAACTTGGATTTGAAAAAATATATTTCTTAATTAAACCAGAATACTTTAGAGGAATATTTGTAGGATTAAATTCATGGAAAAATACTGGATTTAATGCAATTATATATATAGCAGCATTAACTGCTGTAGATGAACAACTTTATGAAGCAGCCAAAATTGATGGAGCATCAAAATTACAACAATTAATAAATATTACTATACCAAGCATAATGCCAACGATAATAGTAATGTTAATCTTAAAAATAGGTTCTATGTTAAGTGTAGCATTTGAAACAGTATTATTACTTTATCAACCAGCCACTTATGAAACAGCAGATGTAATAAGTACTTATGTTTATAGAACTGGAGTAATAAATCAAGATTTTGGTTTAGCAACAGCAGTAGGATTATTTAATGCAATAATAGCTATGCTTTTAGTATATACAGCAAACACTGTCAGTAAAAAAGTTTCAAATTTAGGAATATGGTAGGTGATATAGATGAAGATAAGAATAAGTACAGATGAAAAAATATTTAATGTAATAAACTATTTTTTATTAACTATTTTTGCAATTATTTTCCTATATCCAATAGTATATGTATTTTCTGCATCTTTTAGTAATCCATTTTTACTAGAAACAGGGCAGGTTACATTATTTCCTAAAGGATTTACATTAGCATCATTTATAGCAGCTTTTAAAACTACAGGAATATGGAGAGCTTACGCAAATACAATATTCATAACTGTAGTAGGAACATTTGTGAGTATGCTATTTACTATTAGTGGAGCTTATGTATTATCTAAACCTGATTTAAAGTTTAGAAAAGCTATAATCATGCTTGTAATAGTAACTATGTGGTTTGACCCAGGTATGATACCTAAATATTTAAATTTTAGAGATTTAGGTATGATAAATAGTTATTCAGGTATAATAGTAGGGTTTGCAATTAATACATTTAATGTAATAATACTTAAATCTTTTTTTGAAAGTGTACCTAGATCTTTAGAAGAATCAGCGAGGATAGATGGGGCAAGTCAATTTAAAATAATGACAAATATTTATTTACCTCTATCAACTTCAGCAATTACAACAGTTTCACTGTTTTATGCTATATCTCGTTGGAATGGATATTTCTGGACTATGATACTTTTAAGAGATGATGCTAAAGCACCTTTACAAGTATTTGTAAAAAAATTAATAGTAGATAAGTTTTCTAGTGGTGAGGCAGCACAATTAATAACTCCAGAGAGTTTAACATCACCACAATCAATAATATATGCAATAATAGTAATTTCAATATTACCAATGTTAATTGCATATCCATTTATACAAAGATTTTTTAGAAAAGGGGTAACACTAGGAGCAGTAAAAGGATAACAAATATATATAAGGAGAGGAAATTTATGAAAAAATTATTAGCATTAGGACTTTTAGGACTAGTATTAGCAAGTTGTGGTAAAAAAGAAGAAACTACAACAGGACCAAAAGAAACAACAATATTTGCAATGCATTTAGGTAAAGCATTAGATCCAAATCTACCTGTGTTTGTAAAAGCTGAGAAAGATACTAATATCAAATTAGTTAATGTTGCTTCTCAAAATCAAACAGATCAAATTCAAGCATATAATTTAATGCTTACAGAAGGTAAATTACCTGATATAGTTTCATATGAATTATCAGCTGATTTAGAAAATTTAGGTATAGAAGGTGGATTAATACCACTTGAGGATCTAATAAACCAACATGCACCAAATTTAAAGAAATTTTTTGAAGAAAATCCAAGATATAAGAAGGATGCAGTTGCAGTTGATGGTCATATATACATGATTCCTAACTACTATGATTACTTTAATATAAAAGTTTCTCAAGGATATTTTATTAGACAAGATTGGTTAGAAAAATTAGGATTAAAAGAACCAAGAACAGTAGATGAACTATACACTACATTAAAAGCATTTAGAGAAAAAGATCCAAATGGAAATGGTAAAAAAGATGAAGTTCCATTTTTTGTAAGAGCTAATAATGTTAGAAAAGTTTTAACTTCATTAGTAGATTTATTTAAAGCCTCACCTATATGGTATGAAGAAAATGGAATGGTTAAATATGGACCTGCACAAAAAGAATTTAAACATGCAATTAAAGAATTATCTAAATGGTATAAAGAAGGATTAATAGATGAAGAAATTTTCACAAGAGGATTAGAAAGTAGAGATTACTTATTATCAAATAACTTAGGTGGAGCAACAGATGACTGGATAGCTTCAACTAGTTCATATAACAGAAATTTAGCAGATAAAATTCCAGGATTTAATCTTAAATTAGTTCTTCCTTATGAATTAAATGGTAATGCTAAAACAAGACATGCTAGAACTACATATTTAGGTGGTTGGGGAATATCTAAAGATGCAAAAGATCCAGTTTCATTAATTAAATACTTTGATTACTGGTATTCAGTTGAAGGTAGAAGATTATGGAATTTTGGTATAGAAGGTTCAGAATATACATTAGTTGATGGTAAACCAGTATTTACAGATAAAGTACTTAAAAATCCTGATGGTAAAACTCCTTTAGCAGTTCTTAGAGAAGTTGGAGCACAATATAGATTAGGAGCATTCCAAGATGCACAATATGAATTAGGATGGGCTTCTGAAAGTGCGAAAGCAGGATACAAATACTACATGGATAATGATGTTGTATTAGATGAATTACCTATACTTAAATATACTAAAGAAAAATCAAAAGAATTTGTTTCTATAGATACAGCTATGAGAGCAGTTGTTGAAGAAAAAGCTCAACAATGGATTTTAGGTTCTGGAGATATAGACAAAGAATGGGATGCATATATTAAGAGATTAGAAAATTTAGGATTATCTAAAGCTGAACAAATTCAAAATGAAGCATTCAAGAATTTTAATAAATAATATTAAATAATAAAGGGAGAAGCAATTCTCCCTTTAGTTAAACAATGGAGGATAAAGTGTTTAACTTTAGTAAAAATTTTAAATATATTTTACATAATTTTGATGTAAGTATGTATCTTGAGCAAGCTGAAAACATATTAGAAAATAGACTTAAATTCATTCATCCATGGGATATGGAAAGAACTTCACAATATTTTGATATTCCAAAAGATTGGAATGATTATGTAAATGATGATGAAGAATGGATATTTATGAGAAGTAGAATGAACTATTTTGATTCCCTATTTCTTGCTTATGAAAAAAGTAAAGATAAAAAATATTTAAATAAGATAAAAGAAATAATTTTTGATTTCATTAATACTCATAAAACTTTAAAATTTGAATTAAGCACAAGAACTTTAGATAGTGGGATAAGGATAATAAATATATTAAAAGCATTAATATATTTAAAAGAATTAAAATGTCTTAGTGAAGATGAAGAAAATGATATAGTAAATCATTTAGATAAAACTTGTATATATTTATTTAATTCATTTATAGAAAAATACTATCATAGCAATTGGGGATATATACAAATGGCAGGAGTATATACTTTTGCACTTATGTATAATAAAGAATATGTTAAAAAAGCAAAAGAATATATGAAAATACAGCTTAAAACACAAATAGATGATGATGGATTACATATAGAAAAATCAATGACATATCATTATCAAATGTTAATTTATACAGCATGGGTAGTGATGATAGAAAAAAATGTTGGTATAAATAAGACCTTATTTACTAAATATTTAAAAAAGATGCTTGAAGCAGCAGAAAAATTACATTATCCAAATTTTAGACAAATTAATTTTGGTGATAGTGATGATGATAATGTAGAAGATATTTTATCAATGGCAAATGCAATTTTAAAAAGAAATGCAAGATATAGGCTAAAGGAAAGCTCATATATGTTTGCAGGAGATTTTGTTTGTGGATACAAGATAAATAAGGCAAATGATAAAAGAAGAGAATATCTATTAAAAGAAAGTGGTTACTATAATTTGATAGATAAGAATTATTCTTTTAGTACTTATTTAACTAATATGACTTCTGGGCATTTACATGTTGATTTATTTCATTTTAACTATTTTAACAAAGTAGAAATGTTGGTTGATAATGGAAGATATACATATTTAGATAATGAATATAGGAAATATTTAAAAAGTTCTTATGCTCACAATACATTAGTGTTAGATAATAAGGAGTTTTTAGCTATTAAAGATTCATGGGAATATATAGGTAAATACCCTTTAATAAGCCCTATATATAAAATTGAAGATAAAGGTGTAACTTGCATTAAAATGAATGTTTTTGACATAGAAACTAATTCATATATAGAAAGAAAATTTATACTTTGTGAAGATAATGTGATAATAATAAATAGAATATATTCTAAAGGTAAACATAATTTAAAAATGTATTATCATTTCCATCCTAGATTAGAAATAGATGGAGAAAAAGAAAGACTTTTATTAAATAAGGAAATATATTTTAATATAGGGGAATATATAATGGGGGAAGGTATATATAGTAGTAGATATAATGAGAAAGAAAAAAGTAAGTTTGTCAAACTAGAATATGATTTTAATGATAATATTCAAATAATTCATAAGATATTAAATAAAAATATACAATTTGAAGAAATATGTTGCGAAAATAGTATATATTCTTGTAAAATTATTTCAGGAAATAAAGAATATATGATTTTTTGTAAAAATGAAGATAGCATAGAAAAGCAAAATGTTCTATATATTCAAAATAATCTTTTATATAAAAATTTTAAGGTGGTTGTAAAATGAAAAAAATAATAGTATTTTTAGCTTTAATTGTAGGAATTTTAAGTTTTAATAATCAAAGTAAAGAAATAGAGGGTATGAAATTAAAATGGAAAGAATTTCTTTTAAATATACCCCATGACATTTCATTAAAAGAAATATCTAAAGAAAACAAGGAAAAAAATATAGATAAATTAAATAAAAGCTCAAAAGATATTCTAAATAAAATGAGAGTGTATGAAACGCAGGATTATGTATTTAAAGATTATCAAAATATGAGTAGTGGAAATCATATATTAAGATCTTTAAAGGATATACAAACTTTAATAAAGGCATATCTTACACCAGATACTAATGTTTATAAAGATAAAGAAGTAAAAGAAATGATAAATATTGGTCTTGAAATCATATCTGAAAGAGGATATGTAGTAGGAGCTATGGAAAAAGGTAACTGGTGGGAATGGGAAATTGGTATACCTAAGACATTAAATGAAATATTAATTATGGGAGAAGAGATAATAGAAAGTGAGATTTCATCTAAACTTTTAAAAGCTTCATATTATTTCCAACCAGATCCAGAATTTTCAGGATTATCACCAGCAGCAAGAACATCAACAAGCCCTAATAAAAGAGTTTCAAAAGGTGGAAATAGAATGGATACTGCCTTAGTAACTTATGGTAGAGGAATAATAGAAAAAAATGCTTCTGAAATTAAAAGAGCCATAAATTCAGTAGCAGTAGTTGGAGAATACGTTGAAAAAGGGGATGGGTTTTATAAAGATCATTCATTTATTCAACATGAAAATGTAGCATATAGTGGAACTTATGGACAGGTATTATTAAATGGACTTGCACAATTTATATACTTAACAGGAGATACTTCATTTGAAATAAATAATCCCAGCATTATTAATATTTATGATGTAATAATAAAAGGTTATTCATATTTATTAATAAATGGTGGTATTAATGATTCAGTTAATGGAAGATCTATAAGTAGAGATGATTCAAGTGATTTAGGAAGAGCTAAACCTATTATAAACTCACTTGCTTTAATTTCTCGTGGTGCTAATAGTGAATATAGAAGTAAAATAGAATCTATAGTTAAGAAAGCAATACTTGATAATAATTTTGAATATATGCCTGATAGTGTTAATAATTTAGTAATAGCAAATATTTTAAATGAGATAGTAAAAGATAAAAATATTAAACCTTTAGATGTTAGAGGAACTAAAGTATTTTCATATATGGATAGAGCAGTATCTATAGGTAAAAATGGTATAAAATTTGCTATATCTATGCACTCAAATAGAATAGCAAATTATGAAACTATGAATAAGGAGAATATAAGAGGTTGGTATACAGGAGATGGAATGACATATATCTATACTAATAATTCATCTGATTTTGTAGAATATTGGCCAACTGTAAGCTTACTTAGATTACCAGGTACTACAGAAAGTGTAAATAGAAGAGAAGTAGCAACAGGAGAGAGAAGATTTCCTAAGGATTTAAGCCCTAAGACATGGGTTGGTGGAGCAGATAATGGAAGCGAAGCTTTTATAGGTATGGATTTTATTTCTTGGAACAATTTAACAGAGGCTAAGAAAAGCTATTTACTATTAGATGGAGTTATGATAGCTGTTGGGTCAAATATTGAAAGTAGTGATGGAGAAATAATAACAGTTGTTGATAATAGAATTAATAATGAGAGTGCAAAGAAAATAGTTTATACACCTTTAATGGATACTAAAATAGAAAAAAGTGTAGTTGAAAGAACAGGAAGTTTTAAGAAAATAGGTGGTAAAAAAGATACTCCTATTACTAAAGAATTTGTAGAATTAATAATTAAACATGGAAATAATCCTAAAAATGGTAAATATGCTTATGCTGTTTCTGACAAAGAAGTAAAAGGAGTTTTAATAAAAAGATTAGATAATGTTGCACATATTATAAAAAAAGATAATATATTAGCAATTAATTCTTGGAAATCAGATAAATTGTATTTTGATGGAATAGAGATAAATAATGAGATATCTTTAATTAGAAAAGTAAATGGTACTAATGTTAGCTTAACTATAGCAGATCCTAATCATAGATTATCAGAAGCTAAAATAGTTTTAGATGGATATTATACAAGTAAAGATTTACCAGTTATAAATAAAAATAATAAAACTATAATAACATTTAAATTAGATAAAAATGGTATGAGTAAAACAATAAATTTAATAAAAAAATAGATAGGAATATTTATGAATAAGAAATATAACTTAATTTTTCTTTTTGCAGATCAATGGAGAAGAAATGCAGCAGGTTTTGTAGGAACAGAAGATGTAATTACACCTAATATAGATGAATTTTCTAAAGAATCATTAGTTTTTACTAATGCTGTGAGTACAGGGCCTTTATGTTCTCCGAGTAGAGCAAGTATACTTACTGGTACATATCCAGCAACTCATGGGGTATGGACTAATTGTAAAACAGGACTATATGATGTATGGTTAAAAGAAGAATCAATAACAATAACAGATGTATTAAAAGAAAATGATTACTATATAGGATATATAGGGAAATGGCATTTAGATAATCCTGAAGAAAATGTTGAAGAAAAACCAAAATCAGGTGCTAGAGATTGGGATGCCTATACTCCACCAGGTAAAAAAAGACATGGTATAGATTATTGGTATTCATATGGAGCATATGATAATCATTTAAAACCACATTATTGGGAAAATAGTCATAACATGATAGAAATAGATAAGTGGTCAGTTGAGCATGAAACAGATAAAGCTATAGAATTTTTAGACAAGAATAAGGATAATCCATTTGCACTATTTTTATCATGGAATCCACCTCATACACCACTTGATTTAGTTCCTGAAAAATACATTGACCTTTATAAGGATAAAAAATTAAGAGTAAGTGATAATGTAATATTAAATAATGTAATAGATCATACAGAATCTATGCCTGAAGCCCTTAATTTTACTGAAGATGGATTTCAAGATGCATTAAGAAAATATTATGCTGCAATAAGTGGTATAGATGAACATTTTGGAAGATTAATAGATTATTTAAAAGAAAATAATATATATGAAAATAGTATAATAGTTCTTACAGCAGATCATGGAGAAATGTTATGTTCTCATGGGCTGTGGAGTAAACATGTATGGTATGAAGAATCTATAGGTGTTCCATTTATGATTAAATTTGGTGATAATAGAGGAATTACTGAAAGTGTATTAAGTGGAGTAGATATTATGCCAACCTTATTATCATTATTAGATTTAAAAATACCAAAAACTGTTGAAGGAAAAGATTTAAAGGAAGTAATAATTAATTTAGAAGAAGATTTAGAAAATAAAGCAATAATTGCAGCATATCCTGGTCAAATAAAGGCTATAGAAAAATTCAAAAAAGAGAATTTAAATAATCTTGATTTTGGTTGGAGGGCAGTTAAAAGCAGAGAACATACTTTTGTAATTAATAAAGGGTATGAACCTGGAAGAGATATAGAAACTTTACTATATGATAATGTAAAAGATATATATCAACTTAATCCTAAAATTATTAAAAATATCAGTGAAGATAAAATTGCAAGCAAGTTAAATGCTATTTTACAGAAGTGGTTAAAAGAACATAATGATGGATTTTAAATGAGGAGATTTTATGGAATTATTTAAGGAAGTAATAGAAAAATTTGAAAAAGTAGAATTAAAAGATGAGATAATTTATAGAGGGTTACATGAAGCATTAACAAAGGTTGATCAAAATGGTAATGTATTTATAAATACTTTCCCTAGACCATCAAGTGTTAATAATATTTATCCTGGCATATTAAATGGTGGAGAATGGGATGATTGGACTAGTGGATTTTGGACAGGTATATTATGGCTTTCATATGAGATTACATTAGAAGAAAAATACAAAAAAATTGCAGATTATCAATTAAAGACATATAAGGAAAGAATAGACAATAATATAGCAGTAGATCATCATGATTTAGGATTTTTATATATTCCATCAGTTGTTGCAAATTACAAAATAACTAATTCTGATGTAGCAAAAGCAACAGGTATTAAAGCTGCTGATGTTTTAATGAGAAGATATAGAGAAAAAGGAGAATTTATTCAAGCTTGGGGAGTTTTAGATAAACCAGAAGATTATAGATTAATTATAGATTGTAATTTAAATGTACCTTTACTTTTCTGGGCAAGTGATGTTACAGGTGATGATAAATATAGAAAAGTTGCTACTAAACATTTAGAAACAGTGTCTAAGGTTATTATTAGAGATAATGGAACAACTTTCCATACTTTCTATTTTGATAGTAAAACAGGAGCTCCTTTAAAAGGTGTTACAGCTCAAGGTAAATCAGATGATTCAACTTGGGCAAGAGGACAGGCTTGGGGAGTATATGGATTTGCTTTAGCATATAAGTATATGAGAGATGAAAAGTATATAGAGATATATAAGAAAGTAACTAACACTTTCTTAAATAAATTACCTGAGGATAATGTATGTTATTGGGATATGGATTTCAAACCTGAGGATATGGAAGAAAGAGATAGTTCTTCATCAGCTATAGCTATTTGTGGTATCTTAGAAATGAATAAATATTTATCAGATGATGATCCTCATAAACAGCTTTACTATAACGCTGCAAAGGCAATGATGAAATCACTAATAGAAAAATATACAACTAAAGATATAAATTCAAATGCTTTATTAAAAGAAGCAGTTTATTCAAAACCACATAATATTGGAGTAGGAGAGAGCTGTATATGGGGAGATTATTTCTATATGGAAGCTTTAGTTAGATTATTAAAACCAGAGTGGAATATTTATTGGTAAGGAGAAAATATGAAGAAATTAGTATTTTTATCGTTATTGGGAATATTGTTACATGCAAATGAGGCTAAAACTAGTGGATTTTTAAGAAGTGATTTAAAATATACACATAAATTAAAAGAATTTGAATATGACATTAATGGTGTTAGGACTAAGAATATAGGAAAACCTTTAATAACTAGTACTAATTTAGATTTAGATAGTGGGATGTATTTTTATGAAAACAAAAATCTTTTTCTTTTTGGTGGAGTAGATACACAAAATAAAAAAGAAGAAAAGAAGAAAGATAATAAATATGCAAATTACTATTTTGGTGCAAGATTAGATGCTCCAATCAGTGAAAATTTTGATTTAATTTTAACTGTTGGGCATAAAAAAGGATATATTAAGACTAAAAATGTAACAGAAGATGGTAAGCTTAAAGTTAAAAAGGAAGAAACTAAAAAAGTATTTGAAAATGCTGTAAATGAACATGCTAAGGTTAGGAATAAGAAAAGTAATTTAAAAGAAGCTGGATATAGTTTAGATGTTGATAGAAATACAATAATTTCTGCTGTTTTAAATGGAAGAGTAAATAGAAAATTTAATTTAATTCTAGGTTCTATTTATACTAGTGATAATATGAAATTTGGAACACATAAATATGAAGGCTTTGTAATAACATCAGGTAGGATTTCAAGAAAAAGCTTTTTAAAAACAGAAAATAGCTACATTATAGATAAAAATAATATAGATGAATTTGGAGGAATAAAATCAAAGTATAGTATATCTACAAAGTTATCCTCCAAAAGAAATATTGAAAATATCTTAGTATTTGAAGCTAAAAAATTAGCTAAAGTAAATGACTTTAAATTTGTATCTTCAAATGAGTATAAGGATAATATAAAAAATGTAAATATAAATACTAAAATTAATTACGAGGCATTAATAAAGGCATATAAGGGTGGAGATTATGAACATAAACCTGAAGTAAAAATTAATATACAATATTATAAAAATAATATAAAACTTATTTCTAGTCTTGAAAATAAGTTAAAGATTAAACATGATTTTTCTAAAAATGCATTAGTTAAAGAATTTAAAAATACCCTTATATCTGAAATAAGTCTAGTTAATACAAAACATAGTATAAATAATAGATTTGATTTTAAATATAGTTTAATAACTGATAAACAGAAAAATAATAAATATAAGTTTACTCATGAAATATTAATAGGGCCTAGTTTATGGTATAAAAAAAATAATTTAAATTCTACTATAAATTTAAGATATGGGATAAAGCATGATGGAAAAGTAAATAATGATATTTTTACTACAGTTTTTAATGAAAAGAAATATGATATAAACAATAATGAGATAAATTTGAATTTAAATTTATATAACTATATTAATTTTGAAACATTAAAATTTAAAAAAAGTAATAAATTATCTAATATATTTCTTGTAAGCTCTAGTTTTAAATATGTAAATACTTATGAACAACTTAAAAGCACATTATTTGGAGAATTACAGTACTATAATTTATTTAAAGAAAAAAGTAATTCAAAAGATAAAGATATGGCAAATACTATATTATCTAAATTGAATTTAGAATTAAGATATTTGATGATAAAAGATGTTACTACTGTATTTAATTTAAATAATACTTATGGATATAATTTGTTAGATCAAGAAAATTTTAAAATTTTTTCTGACTATATAAAAAACTATGGTTCTGGTAAGTATAAGGATAAAAAATATACAAATTTAGATAACTATATTAAAAAAACAAGTACAATAAATGCGGTGCATTCCTATAGAATGAATCCTAAATTTTCATTGGTTATTAGAAAGTTAGAAGGTAGATTACAACTTATACCATATATAGAGGGTGTACTTGATTTTAGAAAATATAGATATAATACAGCTTCTTATGCAAAAGAATTAGAAAATAAGAAGAAGGAATTAGAAAAAGCAAAACAAGGTAGTAATGAAAGAAAAAATAAACTTAAAATACATCAAGATGCCATTAAGAATGCAGAGTTTAATAAGAAATTTAATTTTAGAAATTTTGAAGGAAGAATAGGATTAAATATTAAATACACATGGTAATTATTTGGGGGTAAATTTTTAAAATTTACTCTCTTTTTAAATTTATTAGTTAATTTTGTTTTAATTTAACTAAAATTGAGGTATAATATTTAAAATATGTATTATTTAGGAGGAAAAATGAAGAAAATATTCGGCTTTTTATTATTGTTATTAGTTACTATTTCATGTAGTACAGTACCGAGGCTTAGTCCAGAAGAAGTAAGGGTTATGACAACTAGGGTGTATAATAAGCCTATGAAAGATGTGTTTTTAGCAACAAGAAATATGATAGTTGATAAGGAATATAATATTATTACAGCTGATTTAGAAGCTGGATTTATTAAAGGATATTCAGAAGTTCAAACTAGCGATGAAGCATTCAATGTTCTTATAGGAGCTAAAACATCTAAGAACAATACTATTCAAGCAGTATTTACTCAAAAAGAAGCTGGAATAGAGGTAAGATTATTAGTTAGTGAACAATATAAAGAAGAAGATGGAATTGGTATATTAGATATATTATCACTTGATTTTAGAACAACAAAAAAACATTCAAAATTAACACCAATATATAATTTAGAATTGTATAATCATTTATTTGATTTAATTCAAATAGAACTTAATAAACAAAAATAGGAGGGAAAATGTATATTACAAAAGGTGAAAGTATAAAAGGGTATGAAGTTAGCACAGAAACTAATGGAAGTGTATATAATATGGATTATAAGAAATTAAATCCTATAGGAACAAGTCCAGTAGGTCTTTTAAATTCAGCATTAGTTGGTTGTATAATAATGGTAATTAGATCATATTTCTCAATTATGGGAATGGATGTTAAAGTTGAAGCTATATCAAAACTTGATGGTATGAATATTGAAATGGATATTAAATTAGATATAGAAGTAAGTGAAGCTGAAATACAAAGAATACTTGCTTATGTTGAGGAAAAATGTACTGTGCATAAAATGATTTCAAAGGAAGTTAAAATAATAAAAAATATTAGAGGGATATAATGAAATTTATTGCAGAAGAAAGTTATTGGAATCTTTTCCCTAACTCAAAATTAGGTATAGTTTTAATAGAAGATATGAATAATGGGGGAGAAAGCTCAAAAGAGATTAAAGAAGCTCTTATGGCATCAAATGAGGAAGCTAAAAAATATTTTATTAAAGATAATTTTAGTGAAAATCCAGTTATATCTGTTTGGAGAGAAGCATATCAAAAGTTTAAAACTAAAAAAGGTGTTAGGTCTTCTATAGAGGCATTACTTAAAAGAGTAGAAAAAGGAAATGAAGTTTCTAGTATTAATCCACTTGTAGATATATATAATACAATTTCATTAAAATATGGAATGCCATGTGGGGCAGAAGATAGTGATACTTTTAAAGGAATATTAAGACTTGGTATAACTGAAGGAAATGATGAGTTCTATTTAATAGGTGAGGATAAAAATAGCCCTACTTTGCAGGGAGAATTATGCTATAGAGATGATGAAGGGGCAGTATGTAGATGTTTTAACTGGAGAGATGGTAAAAGAACTATGGTTACAGATAAAACAAAAAATGCTTTTTTAATTATTGAACTTATTGATAATGAAAGAGAAAAAGAATTAAATGATGCCTTAAATGAAATTGCAGAAAATATAGAAAAATATTTAATGGCAAAAACTAAGATAGTTATATTATCTAAGGATAATAGAGAAATTTAAAGTTTTTGCTATTGGTATGATATGTGTTTGAAAACTCTTAGTTTGATTGTTTTGGTTATTTGCTCATGATATAATTAGTTATAACTTAAAAAGGAGAATTAAGGTATGAAAAAAGGTATATTATTTATGGTTATGTCATCATTTACAATCTTTGCAAGTGATATGACATTTGATTTGGAAAACTCCAAACCTTTTGGTGGAGAAGTTGAAACAAATTTTACAGTTTCTAGTGAAATGTCAAAACAAGACAAGTCAGATTTTTTATTAAAACATAATTTAGGAGTTAAAGCAGAGGTATATGAGCTTATAACTCTTGGTGGAAAAATTGGTTATGGATATAAAAATACTGTAAAACAAGTATATCTTGATGTTGAAAATACTGAATTAAATGCTAATGTAAATTTAAGAAAATATGGTAACTTAGGCTTTGGGTATAAATTTGGTGGAAATTATGGTTCAGAATTAGAAATTAAATATGCTAATAAGGGTAGAATTAATTCTGCAACTATTGGTGGATATATGTCATATAAAAGAATATTTACACCTAGTGTAAAAATAGCTGATACAAACTTTATTGCTAGTGGTATGAGAGTAGGAGATGGAGAAATATATGTATCTCATGATGTTAATAAAAATCTTAGATTAACATATAAAGCTGGGGTTAATGTTAATGTCGATACTCAAAAATTATTTATGACGGGAACTTTAAAGAAAAATGCAATAGAAGCAGATATGAAAATTGGAGGGAAGATAGATGTATCTATAAGCCCTAAGGTTACATTTAGTAGCTATAATGAACTAGGTGTTGTAGTTAATAAAATAAATTTAAATATGGCTGACATTAGTAATTCTTCAACTTCATTAAGATTTGAAACAGATAATAAGGTAAAAATAATAACAAAAAGAGGAGTTTTAATAACTCCAAAAATGGCATTAAGTGCAGATAGACTTGAAACAAAATTAAATACAAATTTAAGAGCTGACTATAATATTATTGGAGGTTTATCAGTTAATGGAGGAGTAGGAGTTGAAAATAAGTTCAAATATGTTTCAGGTAAAACTTTAAAAGAATATGAATCAACAACCCCTTATGCCAAAGGAGGTTTGTTATATAAATGGTAAAAATCCACCTAGGTGGATTTTTATATATTTTTATCATTTACTATTTGCATATATCTTTCAAGTAATTCTGAAATCAGACCATCAGCTATAGCTCTACTTATAGTTCCAACGCCAAATCTTTCACGCCTTATAATACTCGTAAGCATAGCTCTAATACCTAACATATTTGCAGTAGCTATTGATTCTTTAAATGAATATATCTTAAGTCTACGTATTGTATCTGTATATTTAAAGTCTATAAAATATGGGTGATTGACTAACTTTATTAAATCATTAACTTCATTTCCATAATCAGCAAAAAATTCAGGTGTTTTTCTATTATTAGTAGGTAACCATCTAACTATTTCTTTTTTATCAAAATATGGTTTATGTTCTAATATTTTATTCATCATAGAAGTTTTTTCATACTTGATTTTAGATAAAGTTTCACGGTAATGATTTAAAAATTTTATTAATTTTTCATCTAAATAATTATACTTTTCATAATTAACTTTGTAATATGCTTCAGCTATAACTATTGAAGCATTATCATATTCTAAAGTATCTTCAAAACTTTTACTTTCAAAAAACATTGAAAATTCTTTAGTTAAAGACATGTCATATGTTTCTGTAATATATGATTTAATATATTCTTTACTTGCTCCCATTCTAGCTAAAAAAATTGCTGAAGATAAAGCCTTGGCTTGATTAACATTATCAGTAATTAATTTTGCTGATATTTCAGTATAATTTTCTACATCTCTTAAATTACTGTATAGCCATGCACAGGCAGAAACTACATATGATAAATCTTGTTTAGAAAATTTTGTCATAACTTTAGTTATTTCTTTTTTTGTTACTTCTTCATTATTATATCCAGAAATTAAAGCTTCTGTAATTTCTATAGTCATTAAAGTAGATTCAGTAATTTGATTAGATTTAACTATATCTTTTATTATTAATCCTAACATAACTATCTCCTTTTAAATTTCTTTACATCATAGCCTAGTTCATTAAGCATTTTTTCATTTTTTCTCCATTTTTTACTTACCTTAACCCATAGCTTAAGATTAATTTTTAAATCAGTTAATGCTTCAATTTCTCTTCTAGCTTCTATTCCTATTTCTTTTAAAAGTTTACCACCATTTCCTATTATTATTCCTTTTTGGCTATCTCTTTCAACATATATATTAATATCATAACGTCTTTTATTATTACCAGATTCAATATTTATTATTTCAAGTGCAACTGAATGAGGTATCTCATCTTTAGTTTTCTGTAATATTTTTTCTCTAATAGTTTCTATAACTATCTTATTAACTGAAATGTCAGTATAGTAATCTTCAGGATAGAACCATATATCATTTGATAGATATTTTTCACAAACTTCAAATATTTTATGAATACCTATACCATAAGCTGCTGACATTGTAATTATACCCTCAAATTCCCCTAGTTTTTCCCTTATTTCTTCTACCTTATTATTTAATTCTTCATCACTCATTTTATCTATTTTATTAATTATCACATAAGTTGGAGTTTTAGAATTGCGTATATTTTCATTAACAAAAATATCTCCTGTTCCAATTTCTTTAGTACCATCAAGTAAAAATAGTATAAGATCACATTCATTTAAAGATTCTATGGCAAGATTAGTCATATATTCTCCAAGTAAATGCTTTGGTTTATGTATACCAGGTGTATCTATAAATATATATTGATTTTCCCCCTTATTAACTATTCCCCTTATTTGATCTCTTGTAGTTCCAGCCTTATCTGAAACTATAGCAACTTTTTCATCTATTAATTTATTAATTAAAGTTGATTTACCTGTATTAGGTCTACCAACTATAGAAATAAATCCTGATTTCATTTTATCCCCTCATTTTTCTAATATATAATTTTAAAAAATGCACCTAAGAGGTGCATTTATATATTTTTTAATGGCTACAAGAACATTTTTTTTCAGCTATTGCATCTACTCCTGGTAAAACTTTACCTTCTAAGTACTCAAGTGATGCTCCACCACCAGTTGAAATATGTGAAAATCTTTCAGCATATCCAAGTTGGATAGCAGCAGCAGCAGAATCTCCTCCACCTATTACTGTAATAGCATCATTTAAATTAGCTATAGCTTCACAAACTCCGATAGTTCCTTTAGAATAGTTAGACATTTCAAATACTCCCATAGGTCCGTTCCATACTACAGTTTTAGCTCCAGCTAATTCTTTAGCAAATAATTCTATTGATGCTGGTCCTATATCAAGTCCCATTTCATCTTCTTTAACTTCGTCTACACTAACTATGTGGTGTTCTACATCATTGTTAAATTCTTTAGCAACTACTGTATCTATAGGTAAAATTAATTTATTACCAGCTTTTTCTATTAATTGTTTAGCAAGTTCAACTTTATCTTCTTCTAATAATGATTTTCCTGTATTCTTTCCTAATGCTTTTAAGAATGTGAACATCATTCCTCCACCGATAATTACTTTATCAGCTTTGTCTAATAAGTTTTCAATTACACCTATTTTATCACTAACTTTAGCTCCACCTAATATAGCAACAAATGGTCTTTTCGGTTCATCTACTGCTCCACCTATAAATTCTATTTCTTTTTGCATTAAAAATCCAGCAGCAGAATCAGCTATGTTAGATGATATTCCAACATTTGATGCATGAGCTCTATGAGCAGTTCCAAATGCATCATTTACGAATACATCTCCAAGAGAAGCCCAGTATTTTCCAAGTTCAGCATTATTTTTAGATTCTTTTTTTACTACTTCATTGTTTTCAACATCTTCAAAACGAGTGTTTTCGAACATTAGGATTTCACCTTCTTTAAGTTCAGCAACAGAAGCTTCAAGTTTATCTCCTTTTGTAGCAGGAATAAATTTAACAGGTTTACCTAATAATTCTTCTAATCTTTTAGCAACAGGAGCTAAAGATTTTGCAGCTTTATCTTCCTCAGTTTTAATTCTTCCTAAATGAGAGAAAGCTATTACTTTTCCACCATTATCTAAAATGTAGTTTAATGTAGGTAAAGCAGCTTTAATTCTATTGTCATCTTTAATAATTCCTTCTTTAATAGGTACGTTGAAATCAACACGTACTAATACTTTTTTTCCTTTTACATCTAAGTCTTTTAAAGTTTTCTTTGCCATGTTCTTCTCCTTAAAAAATTGTATTTTACAAGTTAATTATAGCACTAAAGACTTTTTTTTTCAAGATTTTTGGATATTTACTTATTAATTTATATAGAATTATATGAATAATTTTAAAATATATACAATATATATTAAAGTGTTTATTATTTATATACTATAAATATTGACAATTATACATATACTATTGTAAGATTGAGGAAATAATAAGAGAAAGAAGTGATGACATATGAAAAAAATGATGAAAAATAAAATAGAATGGAAAGAATTTTTATACTGCGTATTCTTATAAAATAAGAGGAATTATTTTTTGTATGAATGTCGCAGAATATAGGAATTAAATATTAAATGAGATTCATATGAAAGGTAAAATGAATGAATAAAATTATTAAAATAGATAACTTAAGTAAGAGTTATACTATAAAAAGTGGATTATTTTCTAAAAAAGAAAATATAAAAGTAGATGCATTAAAAAATATAAGTTTAGAAATTTATGAATGTCAAACAGTTGGATTAATTGGATTAAATGGGGCAGGTAAATCTACTTTAATAAAAATTATTTTAGGTATACTTGTTCAAAGTGAAGGAAATATAGAAGTTTTTAATAAAAATCCTTTTAAAAATAGAATATCTAACTTATACGATATAGGGGTTATTTTTGGTCAAAAAACACAACTAAGATGGGATTTATCTACAATGGATTCATATAAGCTAAATAGAGCTTTATATGACATACCTAAAGAACAATTTGATGTTTTGTTAAATAAATATTCTAAAATATTAGATTTAGATGATTTTATAAATAGACCCGTTAGAACTCTTAGTTTAGGTCAAAAAATGAGAGCAGATTTATTATCTGCATTATTACACTCACCGAAATTATTAATTTTAGATGAGGCAACAATAGGAGTTGATATATTAAGTAAAAATAAGATTATAGATTTAATTAAAGAGCTTAAAAAGAATACAACAATAATTTATACATCACATAATTTAAATGAAGTTTATGAAATTTCAGATAGAATTGTAGTTTTGAATAAAGGAACAATAATTCTCGATAAAAATAAAGATGAACTTTTAAATAATGTAGAATATTTAGGAATTAAGCTTTATCTAAAAAAACCACTTAAATATGATGATTTAAAATTTAATGAAGTAAAAATGATAAAATTAAGTGAATATGAATATACTTTTAGATTTATAAAAAAAGATATTTTGAAAAATTTTTTAGACTATATTTATTCAAATAATTCAATAGATTATTTTGAAATTAATGAAAATAATTTAGAGAAAATATTAAAGGATGTTGATAATGGATAAATATATAGAATTAATCAAAATAGGAATTAAAAAAATATTATCTTATAGAGGATTAATAACATTGATTATTATAAAAAACTATATATACATATTTTTGCAATATAGTTTATGGAACTCTATAAAAGAAAATAGTATAGTAAATGTTAATTTAACTAACATTTTAATATATTTTATAATTATTAAAGGACTTGATAGTACAAACTTTGATTTATCTCAAACTATAAGTCATGATGTAAAAAATGGAGATATTGTAAATATATTAGCTAAACCTATAGAAATTGAAAAATATTATTTTTTCGATATTTTAGGTGGAACTATTGCAAAAGTAATTGCAATATTATTTCCTAATATACTAATATCATTAATTCTAACAAGAAATTTTGAAATACTTTTTATATTAAAAATATTCTTTATTATAATAGGCTCATATTTACTTAATTTCGTTATAGAATTAATTTTTGGAACTTTATCTTTTTTTACACAAAATATTTGGGGAATAGAATCTTTAAAATTGGTATTTATTTTAATGTTATCAGGTTCATTTTTTCCAATAGAATATTATCCATTATGGTTAATAAAAATAATTGATTATACACCTTTTGTTTATATATACGGAAAAGTTGCAGAATTTATGATATATAAAAATGATTTTGTTAAAATATTGTTTTTTCAAATATTTTTTACATTATCTTTGTTTTATATTTATAAATTAATTTTGAAAGTATGTTTAAAGAAAATAAGTATAAATGGAGGGTGAAATGAAAAAATATTTAAAATTATTTTTTATGTATGGATATATTAATATAAAAGAATTAAAATCTTATGGAATAGACTTTTATTTAGGTTCAATGGCAATGTTTCTAAAAAATATAGCTAATTTATTTATAATATTTTTTATATACAATATCGTAAATGTCATAAATGGTTGGAATATTAATGAAATGATATACCTATATTCTATAATTACCATTAGTTTTTCAATATGGAGATGCTTTTTTATAAACACACTAAACATTTCATATTATATAATAAACGGAAAATTAGATTTATTATTAATAAAACCTGTAAATCCTTTGTTTTTAATTTTTATGGAAGGATTTGATGAAGATGCTTGGGGAGATTTAGCTGTGGGTATTATTTTATACATCTACATATCGTTTAAGTTAAATCTACCAATATTAAACATAGTTTTAGTGTTTTTAATAGCCTTAGTAGGAGGATTAGTATTTGCTGCTATTTCAGTATTAGGTTCATTGTTTTCAGTAATATTTTTGGGTTCATCAAATTTTTCAGATTTACCATATATTATTTATGAATTTGCTAAATATCCAATAAATATTTTAATCCTGTAATATCTTTTCTATTTAAATCTATTATTCCAATTGCTTGGATAGGATATATACCAGCTTATATAAATTTAAAAGATAATGGATATAATTTATTATTACTATTTTGTATATCTATTTCTATTAGCATAATATATTTTATTATAGTATTTTTAATTTGGAATAGAGTATTAAAAGAATATTCAAGTTCAGGAACTTAAAAAAAGTGGAAAAAATTACTAAAGTATAGTATAATGATACATATAAAATTGAAAGGTGGATTTCACATTATGAGAAAAATTTCTGAAAATGTTTACGCATCTATGGAAAGACTTTCTAATAAAGAGGGAATAATAGGTGCTTTGGCTATAGACCAAAGAGGTTCTATTAAAAAAATGATAGGAGCTTATTCAGAAGCAACAACTGAAAAAATCGAAGATTTTAAAAGTTTAGTATCATCTGAATTAACTAAATATGCTTCATCTATTTTACTAGATCCAGAATTTGGATTTCCTGCATCAAAAGTAAGAGCAGAAGAATCAGGATTATTATTAGCTTATGAAAAAACTGGTTATGATGCAACTAAGAAAGGTAGATTACCAGACATATTAGAGGATTGGTCAGTAAAAAGATTAAAAGAGAAAGGTGCTGATGCAATTAAATTCTTGCTTTACTATGATATTGATGATGATAAGGCTATAAATGAAGCTAAACATATTTTCATTGAAAGATTAGGTTCTGAATGTTTAGGAGAAGATATACCATTATACTTAGAATTAGTTTCTTATGATGAAGCAGGAAAAACTGGTAAAGAATTTGCAAAAGTTAGACCTCGTAAAGTAATAGAAATGATGAAAGAATTTTCTAAAGAAAGATACAATGTAACAGTATTAAAAATGGAAATACCTGTAGATATGAACTATGTTGAAGGATATGGAGAAGAATGGGTATACACTAAAGAAGAAGCTATGGCATTTTATAAAGAACAATCAGAAGCAACTGATTTACCATTTATATTCTTATCAGGTGGAGTAAGCATGGACTTATTCAAAAAATCATTAGAATTAGCTAAAGAAGCAGGATCATCATTTAATGGAGTATTATGTGGAAGAGCTACTTGGGCAGATGCTATTAAACCTTACAGTTTAGATGGAAGAGAAGCTGGTATTGAATGGCTACAAACTCAAGGTAAAGAAAAAATTACATCACTTGATGAAGTATTAAATAGAACAGCTAGTGATTGGAGATTAAAATTAAGTAAATAAATAACTAATTAAAAAGGTAGGAGAATTTCACAAAAATTGAAATCCTCCTATTTTTTAATTATCCAATAACCTTTTTTTGAACTTCCAATATATATTAACTTATTATCTTCTCTTAATTTAGAGATATCTCTTTCTATTGTTGATTTTGATACACCTAATATATCTTTAAGAATACTTGCTGTAATATGATTATTCTCTTTAATTAATTTTAAGATTTTATTTCTTCTTTCTAATACACCTAATCTTATATTTTGACCCTCACTTTGACCTTCATAGTTACGATTAAACAATGTAACTATTATTCCGTTGTTTTAAATATAATATTCTGGTTTCTTTTTAAAATCAGCATAATCTTCAAAAATTCTTCTAACTCCTGAAGCATAGTTTTCAATAATATCTATATTTTTTTTGTTAATGTAATAATAGTATACAGACTTTGAAATTTTAGCAATCATTAATAACAATTGAAAAGGATATTTAGCTCTAAGCTCTGCTATTACTTTTACTTTTTCTTCTCTTTTAGCTCCCTTTCTTGAACTAGAGCCTTCAATTTTTTTAAATATTCATTCTCTGCTTTCAGATATATATTTTCTTTTTCTAATTGTTTAATTTTTTCATTTTCAGATAACTCTTTAAAACTCTTTTTAGGTTTAGTTATAGATTTAGGTTTCCTTCCTTTTTTCTTCTCTATAATATTATACCTTTTAAAAGTCAATTATTCAAAATAAAACTAATAGAAATTTATTACATATAATTTTATATGCAAAAAAAGCACCTCCATTTCTTGTGTCCAAGATTTGGGGTGCAGAATAAATTTTTCTATCATTCTATTTTTCATTTTTATTATACAGATATAAAAGAGTTATTAAACCAAATAATCCAATAAGCATAACGCCTAAATTTTCTAAACTAACCCTTTTTTGACCTTCTATTATTAATTTTAAAAAAAGAAAAAACGTCATTAAATAAAGTAATATTTTTAAATATTTATTCATATATTCTCCTATTCTTTACTTCCACCTGCACTCATACCTTCAGTAAGTTTTTGTTGAACTATAATATACAGTATTAATGTTGGCAACATTACTATAACCATACCTGCATAAAGTCTACCGTAATTTGCAGCACCTCTACTTGCAGCCATTAATGTCATTAGACCCACAGGTAATGTTTTTTGCTGACCTGGCAGTAATGTTAATGCGATAATATATTCATTCCAGAATGCTAGGAAATTAAATAATATTACTGTAATAATACTTGGTCTTGCCATAGGAGCCATTATTTTAACCATAGTTATAAAATAACCTGCACCATCAATATATGCAGCTTCTTCATAAGTTTTAGAAATTGATTGAAAGAAGTTAGTTAATAAATATATTGTAAATGGTAGTGCAGTAGACATATATATTATTGCAAGCACAGTCATATTATCTAATAGAAATGAACTTTTAATAATTTCTTTTTTTCTTAAAAATTTATCTCCATCAAGTAACATTAAAAATATAGGTATAACTATATAGTTGACATTAATAAATAGACCTGCTTTCATGAAAAGATTCCAGAAATTTCTTCCTTTAAATTCAAATCTTGCAAGAACATATGAAGCTGGAAGTGCAACTATTATTAATAATATTAATGCAAGAGCAGTTACATAAACAGAATTTAGTAAATAATCGCCCATTTTTGCATTTATAAAGGCATCAATAAAGTTTTGATAATAGAAACTCATAGGTAATTTCCATGGAGAACCTACAAATTCAGAATTTTGTTTTAGAGAGGCTAAAAATACCCATGAAACAGGAATTATTATTGATATAGCAAAGGTAATTAATGCTAGATATATAAATAATTTGTAAAGAGTTTCAGCACTCATATTCCTTTTTTTCATATATTGCCTCCTTAATATTGTAATATTTCTCTATTAGTAACTACATTTATTATACCTGATAGTGCAAATGAGAATAAGAATACAATTACTCCTATAGCCATACCATATCCATAGCTTTGATTTGTATATGCTTGAGAATACATATAGCTTAGGAATACTTCTGTTGCTCCATCAGGACCACCACCAGTTAATGGTATAACTAGTAGAAAGCTTAAATTTATAGTACTAATTATGAAAAATGCTAAAGTAGCTCGTATATTCAACCAAATCAAAGGTAAAGTAATTTTAAAAAATTTAGTTATTTTTCCAGCACCATCAATATCAGCTGCTTCATATAAGCTATTTGGTATAGCAGACATAGCTGCCATGTACATTACCATGTAATATCCTATAGCTTGCCATATAAGGGCAAAAGCAATAGAATAAATAACTATACTTTGATCTCCAAGCCAACCAAATTGAGGAGGTTTAATTCTAAACATTATTAATATGCTATCTATTAAACCATGACCTGGGTCATATATAGCTGAAAAAATTCCTGAAACTACTACTATAGATAATATATTTGGTATGTAGAAAATTATTCTAAATAAATTAGCTCCTTTAATCTTTTCTGTTACAAGTATTGCTGCAAAAATTACAGCTACAGTAAGTGTAACAATAGTAACTATAACGATTAAAAGTATAGTATTTTGGAAAGTTTTAATAAACTTTGGATCATTAAATAATATTTTAAAATTGTTTAATCCAACAAATTTTGGATTTTTAGATAGTGCACTAGTTTTAAATAAAGACATTCTAAATACTTGTAATGTAGGAATAATTCTAAATAGTATATATAAGATCATAGCAGGAGCTAATGAAAAGAATATAAATAACCTTTTTGAATGATTTCTCATTAATTTCTCCTTTTTAATAAAACATTACAGAGAGTTATTCTCCCTGTAATGTTTACTAACTTTATTTAATTACATGTTCTCTTAAAGTGTCAGCCATTTTAACTATATCAGCTTGCCATTCTTCAACAGATTTAGTACCATTTACTACTGAGTTTATAGTTCCATAAACTGTTCCACTAACATCTACACCTTCTACTGGAGTAGTAGCTGCAAATCCACCTGCTAGAGGGTTTGCACCATTTTTAAATGTTTCATAGAATACTTGATTTTCTTTACTTAACATATCAAATGGATAATTTTTAATAGGTTGAACTGCACCTTTTTCAGCAAATATTTTAGCTGCTACATCAGAGTATAGGAAAGCTATAAATTCTTTAGCTGCTTCAACATTTTTAGCTTCTGCTGGAACCCAAATATGTTCAAAGAAGTTAACTGCATATGATTTTCCACCTTTTTCGAATGCTGGATAAGCAGTCATTCCCCATTTGAAATCTTTAGGAGTAGTAGCTGCCATTTCTCCAACTATCCAAGTACCATTAGGCATAAATAATGCTTTATTATCAATAACTAATTGTTGATTTTTAGTAAATCCTTCATTGTTTGCATTTGCAACTGTAGTTGGATGTACATTTTTAACTACTTCACCTAAAACTTTAAATACTTCATTCATTTTTTCAGAATCCCATATACCTTTTTCATAGCTCATAGCCTTATTTAAAAATTCAGGTCCACCTTTAGCTGCTAAAATTGGAGGTAAGAAAGAATCTAAATATCCTGTTGTAGGATAAGTTAATAATGAAATTCCTTCTGATTTTGCAATTTTTGCAAGATCTAACATTTCATCCCATGTTGTAGGAACTTCCCAACCTTTTTCTTCAAATAATCCTTTATTAAAGAATAATCCTGTAGGTGAATTAAACATAGGCATTAAATATGTTTTACCATTTAAGTAAGGGTCAGTTTGATTATTTCCTACTGCACCATCAGTTAATTTAGATCTAACAGTAACTTTTTCTCCTGGTATATTCATATCTAAAATAGAAGTTAGTTCTGCTAATGCTTGTTCTTTAACAAAATTTTCAGGAATACCTGCTTTTCTACTTAAAGCTAACATAATTACATCTGGATAATCTTCTGCTTGGAATAATCCAGGTAGTGTAGATTCAATGTCTTTTGATTGATTTAATTCAATCTCAACATTAGGATTTATCTTCTTATATGCTTCTATAATTTCTGACCACATTTTATCACCGTATGCAGTTTCAAGAGCAGCAAATTTTAAAGTAACCCTTTCACCTTCTGTAGCTTTCTCATTAGATTTAGCTCCACACGAAGCTATTGTAAAAAAAGATAAAATAGCAATAAATGCTAATTTGAATAATCTTTTCATTTCATACCTCCTAAATATTTATTTCTTAATCCATTTAAGTTCATACCTTTCTAACTCTATATTTCCTAGAGCAGTTATATTAGTTTTAATATTTTTATCACTGTTATTAATTACGGCTATATATTCATTAAATTCATATGCTTCAACATATATGTTATCACTAATATATTTCTTATTAACATCATCAGTTATATATCTAATAATATTGTATATAAAACGAGTATTTTCAATACTATAAGGAAGTCCTTGTAAATACACGCCTTTACCTTTTCCATATTTATTTATACTTGCCTCAACACCAAATTCTTTGTTTAACTGAAGTATTTCTAAATTATGACTAGTAGAATATATGTATTTATTTCTATTACCTATAGATAGTTTACCTTGAATTTGCTCAAATACAATAGATCTATTTTTTGTTTCTTCCATGTATCTTGAAAATTGTAAGGTATTTCCAATTTCTTTATCAACACCTAATACATCTTGTAATTGGAAGTATGTTCCATTTCCTATTGCTGCACTTGGATCACCTATACCTATAAATCCATTTCCTTTTGCAACAAATTCTCTAACTATATTAAGTATATTAGGATCTAGCCAATTTTCTCCACCTGAAAATGAAGTATTTGCTTCTCCAACATTAATTAATACTTTAAATTCAGATAATTTTTCAGAATTTTTAATATCATCAAAATTAATAAACTCTATAATATATGGTAATCCTGATAATGCTTCAAGAACCCCTATATATGAAACATTTTCTTTAATACCTGTTGCATGACCAGTTCTGTTTGATTGCCATGATTTTATTTTTCCCCAAGAATTTAATATTCCAATTTTGAAATGAGGTTTTATACATTCTTCATTTGGAGTTTTTTCATGTATTTCTCTAAATTCATTAGTTGATTTTGTAACACTATTTATAAATAGTGGGAATTTAGCTGCTAAAGATAAATATCCACCAAATCCTATTCTATCAACTTTCTTAGTAAGTATAGCCCTTCTTGATCTCATCCAGTTATACTCCCATTCTAAATGTGGAGTATTTCCTTCATAGAAGGTATCTGGGAATAGGTAAGGAAGGAATCTGATTTCCTTTATTTTAATATTTTCCATATCAGAAACCATTCTAATATCTACACCACATTCAGCAGAACCAGCAACACCATCAAGACCAATATTTTTAAAATATTTTCCATAAGGTTCAGTTCCAACCCAATTATCACCTACAAACATTATTGCTTCTTTACCATATTCGTGAACTATATCTACACAAACTTTTGCAAGTGTTGAAACAAATTTTTGCATAAAATCCATATAATCTAAGAATACTTTACTAGGATTTCTAAATTGATTATTGTAATAACCTTTGTCAATAATGTCTTCTAATGTTATTTCATATCCTTTATCTTCTTTAAATTTTTCAAACATTTTAGGAGAAACAGATGCTGAATAACCAAACCAATCTCCAAATTTTTGCATTGCATGTTGATTATACATAATAGTAAAATGATAAAAGAAAGTTGTGAATCTAACAACATTAATGTTAGTATTTCTATCACACCATTTTTTTAAATGAGAATATATATGCTCTCTTGTTTTATCAAACACAATATCATATGGTATTGATTTATCACTATTCCAATTATTAGTCATATGATTATACATATGAGTTGTATCCCAAGTTTGTTTAGCAAAGAAGTTTACTGTATATTCATGAAACTTTAAAGCATTTCCTATTTTTACAACATTACCATCAAAAATCCAGTTTTCTTTAGGAACTAAACTATTAGTAGTTCTATCAAAAACCTGCCAATAATCAGTAGTTTTTTCATCTATTTCTAGTTGTTCTTTGTAATATCCTTCCATTGGATCAATTTCTAAAGTATCATTAAAAGCAGTATATCTTTCAGATATCAATGCTTGATGTTGTATTTCTTCTGGATTTTCTCTAGGCCAGTCTTGATCTTCTCTTGCTGGGAAATATGTAGAATAAATTTTAGCATCAAGATTTTCAAAAAAATCATTTAATTTTGTACCATCGCTATTTCTAATAGCATCAGCACCCCATAGTTTTATTAATTCTAAAACTAGTTCTTCACACCCTTTTTCTATAGGTAATGTAACTCTACTCATTTGTTCTCCTAAAATTCATGTATTTGGAATTTTTTAACAACTCTATTTACTTCTCCACTAGGGAAAGGATTATCGGTAGTTAAATTAAAATGTTGTGATTTAAAGAAGGCATACATTTGTCCATAGATTAGATAAGTAAATATTGCCTTTTCTAAGCTAATAGTAGTATTAGGTGTTATTATTACTTTAGTTGCTTCTTTAACATCATTACAGTCTTTTAATGAATATGTAACTATATTATTTGCAACATTTTCTGATTTCATTTCAGATAATATATCTAGTGCATATTTTCTTGAATATTCTTCATTAGATAATAGTAAAAATACTATAGTATTGTTATTAATAACTGATTTAGGTCCATGTCTAAATCCTAAAGTAGTATCACTTTTAGCAACAACTTTACCAGCTGTAAGTTCCATTACTTTAAGAGTTAATTCTTCTGCAAGACCTTTAAATGCACCATCACCTAAGATTATGATTCTATCTTGCTCTTCATTTGCAAGAGCTTTTATACTTTCAAGTCTTAAATCTATTTCTTTTTTAACTAAAGATATTGCTTCCCTCATATTTTCAGGATTTGTTTTGTTATAGAAAATAAGGGTAGCCATCATTAACATACTTGAAAAACTTGAAGTCATAGCAAAACCTTTATCGTTAGTTCCTTCAGGCATTAAAAGCATTAATGTATTATTTACAAACTCTGGAGTAACAGACATTAAAGCTAATTCACCTTTAGGATTACATGTGATAAATAAATGATATACTTCTTTTACTAAGCTATTTACAAGTTTTATAGTTGCCACAGATTCCGGTGAATTTCCAGATCTTGCAAAAGAAACTAATAATACTTTTTTATCTTTTTTTAAGTAGTGAAGTGGATTATTAACTATATCTGTAGTAGCTATAGATACAAAATCCCCATCTTGCATACTATTTAACATAGGAGCTAATATATTTCCAACATATTCTGATGTTCCTGCTCCTGTAAAAATCACTTGCGTGTCTTTACCGACCTTATTTAAAAATTCAGTAATTATTTCCTTACTTTCTTCAAAAGTATTAACAACATTATTCCATATTTCAGGTTGAGTATGGATTTCTTTTGCTGTGTTATACGAATTTGTTTCTCTTAAAACATGTTCGCAAATTCCTAAATAATTCATCTAATTCACCTCTTCATATTAACTGGTACTAACCAATGTGTTATATACATATTATACTTTGAAAAATATAAAAGTCAATATATAAAAAATGGTTGCTATAAAATATATGAATAAAATAAGAAAATATATTGACAAGAACACGGGGGGGGGGGGTGTATACTATCCTAGTAAAAAACATTAAATAGGAGAATAATATGAAAAAATTGATGTTATCAATAATGATATTAATAGGAATATATTCATTTTCAATAAATATAACAGGACCAAGATATAGGATAGATGGAACATTGGGTATAGGTTATAAGCCTGACCCTCATGATAGAAACACTCAATGGCAGAATTTTAAAGGAAACTTTTTAAATGTGGATATGGGAATAGGATTTTTCCCAGAATGGACACTTAAAATTAATAAAAAGTTTTCAATGTCATTTGGTCCTAAAGTTACAGCAAATTTATTTACGACAACTTATGAAACACATGTTGATGATGATATAAATAGAAAACTATATTTTAGTATTAGTACTGGTGCTAGATTAGATTTTAATTATGGCATAAGAGATAATGTTAAAATATATACAGGCTTAGAAACTTTAACAACTCTGATGACAGATATACACATATCATATATAGATTATAAGTCTAAAACTGGTAGATCTGTAACCTTAGCGATACATCCAATACTTCTTGGAAAAGTTTCAGTGGGTACAAAGATAAAAAAATACAATGTTGGACTTTATACAGAATTTGGTATTAGAAAACAATTAGTTGGTGGAGTAGAAGTAGGATATTCTTTTTAACTATAGATTAGAATAAAAAAAGAAAGGAAATTAAAATATGAAAAAATTAATTTTATCATTATTATTGATTATAGGCTTATTTTCATTTTCATCTAAAATACCTAAAGTTAATAAAAAATATGAAGTTAAAAATACAAAATCTAATTCATATAAAAAAACTAAAATAAAAGAAATGGAAAAAAATATAGAAATAGAAAATGTTTTAGAAGTAAATAAAACTATAAATGTTGAAAAAGTAGAACCTATTTTAAAGCCATCTAAAAAAAGGAAATTAAATATAAGTGGACCAAGATATAGGATAGATGGAAATATAAGTACATTGCCTATATATTATACAAAGATAAAAAAGATTGGATATTATGCATATAAGTCATTATCATTCTTACCTGAATGGAAAGTACAAGTTAGTCCTTTATTTGACATAACATTTGGGCCAAAGATATCAGCTAATCTCTTATATGGATTGAATGGAGATAATACAGTTGCTAAGACAGAAAGTGATAAAAGTATAATTATAATGTCAGCCTCATTAGGAACAGAAGTAGATTTTAATTATAGATTAAGAGATAATTTAAAAATGTATGCAGGAATAGAAACACAGATAGGGTTGGGAGAAAAGATTAATACTAAATCTGGAACATATTATAATGGTCAGATAGGTAAAGATAATGAAATTGAATCGTATCTTCCATATACAAATAGTAAAATATTTACGAGCTTAAAGACTATATATGTAGCTAAAGTGGCAATTGGTTTTAAGGTAAATGATAAATATAATGTAGCATTTTTTGGGGGATATGGTAAAGGAAATTTTGGAATAGAGTTTGGACATACTTTTTAAATTAATAAAAATTGATTTGAATAAAAAATATGAAATAAGAAACCTAATTGTATAATAGGATACATAATTGAAAATTATTTGTTATTTAATAAAAGAGAGAATTTCCATAATTTTAGAAATTCTCTTTATTTTTTGAGCTATTTCAGAATAGACCATTTTTTATGCTTAATTTAAATAATAATGAAATCAATATCTTTTAAATAAAATATATAAAACTGTAGAACATAAATTGATACTGTATTTAAAATAAACATTATAAATACCCTTATTTAATACTTTGTTCTAGTTTTTTTAACATTAAATTTCATCTTCAAAATCATCAGATGCTTTATTCTTTATTTTAAGTTCAAACCCTTTTATTTCTTCTCTACCCATCTCTAATGCGAAATTATATAATTTTTCAGTTGTAGAATAATCTCTTTCAGATAATGTTTCAAGAACCATAGGTAAATTCATACCACCTATTACTTTAACATTTTCATGTTTTAAACTAAGAATAGAGGCTACCTTAAATGGAGTTCCTCCAGCTATATCTGATAGAATTAAAACTCCATCTTTTGATGAAAGTATTTCTTTTTCAATTTTATCTTCTAAAATTTCTGGAGTTATTTCTTGAGTAAAATCTATTGCAACTAGTTCTTCAGAAACACCATATATTAGTTCTACTGATGAAAGTATACCTGAAGAAATTTTCCCATGTCCTGTTATTAATATTTTAATCATTAATACTCCTTATATTATTCCAGCTATGCTTCCACATATACCAAATAGTAAAGTTAAAATAACTAAATTAAGTGGAGAAACTTTTTTTCTTAATAAGTATAGCATTAAGAAAGTGTAAGCAACTGGCAATAACTTAGGCATAACTTTATCAAAGCTTTCTTGTAAATTAACACTTGCTTGTCCAGCAGGGATAACAATTTTAGTTGTTAATCCTATAAATTGAGCTATCATAGAACCTACTACAGTTAATCCTAAGATAGTTATTGATTTAGTGAATTTTTGAGTGTTAGCCTTTAATGTAGCAATTGATTTAACACCAGTTTTGTATCCATAATGCATTAATCCAAATTTTAAAGAAAATTGCATAAGGTTAAATAAAACAAAGAATATTATTGGTCCAACTATAGAACCTTGTAGAGCAAATGATGCACCAAGTCCAGCTGAAATAGATAAGAATGTTAACCAGAATAATGAATCTCCTATTCCACCTAAAGGACCCATTGTAGAAACCTTAATTGCTCTAATAGTATCTGTGTTTTCTTTATTTTCTTCCATTGCAACTACTAATCCTAAAATGAATGTAATTAATAATGGGTGAGTGTTAAGAAATTCCATGTGCATTTTCATTGATTTAGATAAATCATTTTTGTTAGTATGAATTTCTTTTAATGCAGGGTTTAATGAATATAGCCAACCTGCTGCTTGCATTCTTTCCATATTAAATGCACCTTGGCAGAAGAAAGAACGAAGAGCTACTTTATTTAATACACTAGGTGTTATAACTTTATTAACTTTTTGATCGATATATTTATTAGATTCCATTTTCTTCCTCCTCATTTCTTACAACTTCTATTGCTTTAGAAGAATTTGAATAATAATCATATAAAGCGATTGATACTGCTATTAATGTAACAGCTACTAAATCTAATTTTAAATAAGCAGTAGCCACAAATCCAACAATTAAGAAACTGAAGTATTCTTTCTTTAACATTATATTTAATAATAATGCAAATCCTATTGCAGGCATCATAGAACCAGCTTTACCAAATCCGTCTATTATATATTGAGGTATGCTTTCTATAATAGATTTTATTGAATCTGAACCAAAATAAACGAATAAGAAAGTAACTCCACCAAATAGAACAAATCTGATTAATAATTGAATGTATACTAATCTATCAACACCAGCAGGATTAGCATTTTCAGCAGCTTTGTCCCCAAGTTTCATCATTCCTGAATATAAAGAGAACATTAATGTTACTATAATTTGTCCAATAACTGCAAGTGGGAATACTATTCCTATTGCTTCTTGAGGTTGTAATCCTGATAGTAATGCTAATGAAACTCCGAAAACTCCTCCAACAACTATGTTAGGTGGTTGAGCTCCTGCTAGTGGAACTAGTCCCATCCAAACAAGCTCTAAGCTTCCTCCTACCATTAATCCTGTTTTAACATCGCCTAAGATTAATCCTATGACTAATCCTGCAAATATTGGTCTGTGGAAAGTTTGTAATCCATCAAATTGCTCAATTCCAGCAAAACCAGCCCAAATAGCGATTAAAATTGCTTTTAATAACATAAAGATTCCTCTCCTTTACTATAATAAATTAATTAATTCCTGTCCTTTGTCTGTAGGCACTCCTTTAATAGTAAGTTTTACCCCATAATTTGAAATTTTCTTAAAAACTTCTTTATCATCTTCATCAACAAATACTGTAGGTGAAATTTGAGTTTTTCCTTCTGAAAAATGCATGTTTCCAACTATCCATTCATCAAGCTTTAAACCAAGTTCAGTAAGTCTTAATACATCTTGAGGTGTTTGACAAACTAATAATATCTTTTGGCTTGGTGAAGCCTTATGTATTATTGCAGCAGTTTTTTCTATTGAAAAATACCTCGTTTGTATTCCTTCAGGAACAACCATATCCATTAAAGATTGTTGTACAGTATTTGTAGAAACTTCATCGTTTGCAACTAAAATTAAATTTGCTTGTAAGCTATTAGCCCAAGTCATACCAACCTGCCCATGAATAAGTCTATTATCTATTCTGGCAGCTAAAATATTAGGCATATTATTCCTCCTTTTTTAAATATATAAGGTGCAGACCACTCCTACTAAATTATAACCTGTTTTTTTATTCTGTCAATATTATGAAAATGAGTTTTTGAACAAAAAATGGAGAAACTCTATAAACATAGAATATCTCCAATATTTTTACCAATTATATCCAATCCCAGCCCCAAATATATACCTAGCATATGTCTTCTGATAAACATTTACATCAAAGTTTAAATTAATAAATATACTATCTGTTGGCTTTATTTCAAACCCTGTCCTTATATTAACCCTCCAATCATCCTTAAATGTATTTGTTATACTCTTATTATTCTTAGAAACCTCATAACTAGAAAAGTTATACCCAACATTAGCCTTACTAAAGAAATCTACATACTTATGTTCTAATCTAATACCTGTTTCATAATACAAATTTATTGGTCTTTTATGTGATATAGTATATCTATCAAGATTACTTAATAAAGGATTTACCCTATAACCTACTCTATTTAAATACCTTATACCAATATCTTTACTTATACTAAATCTAGGATTTAATCCAACATTTAATGAATGATTTAAATAAGCTAATTTATCTCCATTATTAACTAATAAGATATTTAATCCTAATCCTAAACTAATATCAAATAATCCATATTTTATTCCTATCTTAGGTATTGCTCCTATAGATACAAAATTAGTATTAACTGTTTCACTATCTTTAACTTCAGTAGTTAGATTATTTACTAATACATTAAAGTTAATTCCTCCTGAAACTATATAACTAGCTTTCTCAAAGTTTATATCTACTCCATTAGTAGAAAGTTTATTCTTGTATTCAGTACTACTTTCTATCTTTAGATAATCTTTATCTATCTTATTGTAGTTTATGTAATTAGCTTCAATAACATTTCTATATCTTAATTCATTACTCATATCATTAACTAGGTCTAGTTCATTAAATATATATAGGTTACTTATTACTTCTCCTTTAACTGAAGAAAATAGTTTAAAAGTTCCTTCCTTATTTTCTATTCCTAGTTTATATACACTTTCATAATCTTTAAGGTTTGAAATATTAAGGTTATGTCCTTTAATCTTTACTATGTCTATTCTTTCTCCATCATCAACTACTTTATCTATTACAGACTTTTCAAGTTTAAGTTTTGCCTCTACATCTTTATCTGTATTTTCTATTTCAAGTACTTTATTATCCGTTTTAGTTAAGTGTATATTAAACACTCCACCTTTTGAATTATATTCATTTATCTTTAGATTACTATCTTTTAGATTAATATTCCCACCATTTTCAACCTTATTTACTTGTGTGTCATTTAAGAAGTTTACTGTTGAATCTTTATTAATAGTAAAGTCTGTATTTGTATTAGATACACTTTCTATAGAAATAGTTCCTTTATTATTTCCATTACCTATGTTTACTTTAGATACACTATTATTAATACTTTTTAAAGTAAGAGTACTTTTATCACTTGCATCTAAATTTAAAGTATTAATACCACTAGCTACCTTAGTTATACTAAGATCTTTAGTTGCAACTAAGAATAGTTTAGTAAGGTCTTTATACTTACCATTAAGTTCATCAATATCTTCTCTTATATTTAAAGTTCCTTCTGAAGCTTTATCTATTTTATCAAATATATGCTCTATTTCATTTTTATCTTCTACTTCAAGAATAGCATTCTTTGTTACACTCACTTTAGAATTACCTAGAGTTGATGCTTTCTTAACCTTTAGTTTACCTTCTTTAACTTCAAGAGTTCCTTTTAAGCTTGAATTATCTTCATGACTTAAATAAAGTAAACCTTTTCCTTCTTTTATCCCCTTAATTTCTCCTTTAAGTTCTGATTTTATTACAGCTATATGATTATTCTCAACCTTTGCTTTAAAATTAGTAATATTAGTAGAATAATTTTCAGAATTATTTGATTTAAATTCAATTTTACCTTTAACTACAGTCTTATTAATCTCTTCCTCTGATTTAGCTTCTTCATATGGCTTTAATCTATCATTTACTACTTTCCCTAACAAATCAAGCTCTAACTTAGCACCTTTTTCAACACTAATAGTTGAATCAACTTCTGTCGCTCTTCCTACAGTTAATGTTGATTTTTCCTTAATATTAATAGTTTTTGATTTAAATTTAGTTTCTCTATACTCATCATCATAAAATATATCACTTTCTTTTTCAGTATTATCAGATCCATGAATAACCCTATCTCCTTCAATTATAACATTACCTTTTTCAATATTAAAATCTCCTTTAATATCCGTTTCTTCACTTCTTATAGACCATTTACTATCATCTTTAACAGGATTATACTCTAAATTTAAATTACCTTTAAAACTACCTAAAAATACTCTATTACCACCACTAGGTTTAAATGTAAATTTTGATCTTTTATTTTCATTATCTTCTTTATCATTAACTATTCTTGCACCTTTATCCCTATGATAAATATCTTTAAATTCTAAATCATTTCCATTTAAATTTAAAGTTCCACCTCTATGAGCAAATACTACATTATTATCACCAATTTGATTTGCTCTAGTTATTGTAAGTTTAGCTCCTTGGGCAAGTCTAATTACTGAGGCAGCGACTCCTTCTTCATTTTCAAGTACTGTTTCTCCACCACCTAGATTTAATTCACCATAGTTTCTAGTTTTAGATTTAATAATTAATTTTCCTTCACCTATTTTTCTAATAATATTCTTTTCACCAAAATGTAATTTGTATGTTAAAGTAGCATTCTTATGAACTACAAAACCAGCAGTAATTAGTGTACCACCGCCTTCTATAGTTGTATCTTGTTTAAATTCTAATCTTGCTGCATGTGTATTTGTAGTTCCTTCTACCTTAACTACTAAATCTTTTTTATTAAATATTTGATTTTTAGTATCATTCTTAGCCTTGACTATATCTATATTTTCTTTATTCTTAAATTTTATTTCTTTACCATCAACTTTTAAATTACCATTTTCAAATTTAATATCTGTATTTTTTGAATTAATCTCTTCATCGGTTAATGCTTTTTTAAATTCTTCATATGCAGATGGCAAACTTAAAAGACGTGACCATTTACCATATCCTAATATAAAAGCTCCTTGACTATGACTGGCTGCCATAAACCATTTTTTTTGCTCTTTATCCCACCAAAAAAGTGGTGAACCACTATCTCCAGGTTTAGTTCCTGAATCAATAGGAGTTTTTTCATATTCTTTATATAAATTTAATTGTATATATCTACCAATTCCACGATCATATTTATAGTCAACTTTATTTAGTCCTCCAGCAAAATGCTTTTCTTTATCTGGATCATGCTCTACTCCATAATCAATAGCTACTTTATTTCCACCTCTACCAACCCTTGCAACTAAATCATCAGATTTAATTTTTTTCCACTGTTCTTCTGTTATTCCTTCTTGTATATATGCATCAAAAGCTACCTTATCAGTTCTTATTAATGTATAATCTTTTTCAATTTTCTGTCTATGATCTACAAAAATATCTTCAGAAAATTTGTCATTTTTTTGATCTAAAGTTAATTTCTGATATCCTTCATAAAGCTCTACATCATTTCTAAAATGTCTTTTTGAAAAGGTTAATTTGCTATGAGGAGTAACATGATATGCTGATGATAAAATTTGAGAATCTCCCCAAAGGGCAAAATTACCTGTATCAACTACGCTATCAAAATTGGGAATTGGTTGTTCTATTACACCAAATTTTTTTCCATCTTTTTTATACACTATTACTTTTGTTCTACCTATAGCATATTTACCTCTATTCATGGCAAAATCTTCATAATCTTCCCAATTTATATCATGTCTAGCTAAGTTTGAAACTCCAATTTTTCCTGTAAGTATAAGGATTAATAATAATTTATGTTTATATTCCATAATTATATCCTTTCAAATACATCAATAAAATATTATTTTCATACTAATTATACATTTATACTTTATAAAAAGCAATACATCTGTAAAATACATACAGAATTTTGCAGTTGTTAATATATTTTTAATAAAAAGAATAAAATATCAATTGATTTTTCTATTTTAAAAGATGTATAATTAATATAAAAGATTTTATTTAGGAGGAAGGAATGGAGAAAAAAAGTATTTGGAAATCGTATAGATTTTCTATTATTTTAATTTTATCTATAATAATTGGTTCATTAATTGGAGCTATATTTGGAGAAAAAGCTATGGTTTTAAAACCTTTTGGGGATTTATTTATCAACCTAATGTTTACTATAGTAGTACCATTAGTTTTTGCAACTATAGCATCATCAATATCAAATATGAGTAATATGAAAAGATTGGGGAAAATTATTAGATCTATGTTAGTTGTCTTTGTAGTTACAGGATTAATAGCCTCAGTTATAATATTATTTGTAGTTAAAATGTTCCCTCCAGCAGATGGTGTTAATATAGTTGTAAATGAAGTTGCAGAACTTAAAACTATATCTACTGGAGATCAAATAGTAAAAACATTTACAGTTACAGATTTCACAGAATTAATTTCAAGAAGAAATATGCTACCACTAATAATATTTACAATATTTTTTGGATTTTGTGTTAATGCAATTGGAGAAAGTGGTAAAGTTATATCAAATTTCTTAAGTGCTTTATCTAAGACATTACTTAAAATGATAGGATATATAATGTATTATGCTCCTATAGGACTTGGTGCATATTTTGCAGCATTAGTTGGAGAATATGGTAAAGAATTAATAGGTTCATATACTAAAGCTATGTTAATATATTACCCTCTATGTATACTATATATTTTAATCTTTTTCCCTATATATGCATATATATCAGGTGGAAAAGAAGGAGTTAAATCTTTAAAATATGTCTTATCACCAGCAGTAACTGCTATAGCTACGCAAAGTTCTATAGCAACATTACCTGTAAATATAGAGGCATGTGAGAATATTGGAGTACCTAAAGATGTATCTGATATTGTTTTACCAATAGGAGCAACAGCTCATATGGATGGGACAGTAATAGGAACTATATTAAAGATTTCATTCCTATTTGGAGTATTTAATATACCATTTACAGGAATTAGTACATATTTCACAGCCATACTATTATCTATAGCTGGTGGAGTTGTAATGTCAGGAATACCTGGTGGTGGTCTAATAGGAGAAATGCTTATAGTATCAATTTATGGTTTTCCACCTGAGGCTTTCCCTATAGTAGCAACTATAGGATATTTAATAGATCCACCTGCAACTATGATAAATGCAGCTGGAGATACAGTTGCTTCAATGCTAGTTGCAAGAATGGTAGAAGGTAAAAATTGGTTGTTAAAAAAAGGAGAAAAGAATGTATAAGGCAGTAGTAACTGATCTTGATGGCACGTTATTAAATAGTAGTCATAAGGTAAGTGAGTATAGTAAAAAAGTAATAAAAAAATTTGTTGAAAAAGGGTATAAGTTCTATATTGCAACAGGAAGATTACATGCTTCTACTAAAGAGATAGCAGATTCTATAGGAGTTAAAATACCTTTAATTACTGTAAATGGGACAAGAATATTAGATGAAAATGGAAATGAGATATATAATAATACATTAAGTTTTGAAACAGTAAAAAAGATAGCTAGCTTGGATTACAAATCATGTGGAGAAGATTTATTAATAAATGGATATTTTAGAAATGTATGGCTTGTAACTGATAAAAAGGCTGAAGAGTATTATAGAAAAGAAAGACCAGATAAACCATATTTTCCAAATACTGTATCAGAAGAAGAGTTTATGTCTAAAACTTTTAATAAAATGCACTTTATAGGTAATCATGAGAGTTTACTTAAATTAAGAGAAAAGATATTAAAAGAAATAGATGAAGATTTAAATGTGGTTTTTGTGGGTAATACCTGTCTTGAAATATTTAATAAAGATGCAAATAAGGCAAAGGCTGCTAAATTTGTATTAGAAAAAGATGGAATAAAATTATCAGAAGCTATTGCTTTTGGAGATTCTTTAAATGATTATGAAATGTTAAAAGAAGTAGGAAAAGGATTTTTAATGGGTAATGCCATTTATTTATTAAAAGAAATGGCACCAGAACTTGAAATTATAGAAACAAATGATAATGATGGAGAAGCAAAGAAAATAGAAGAAATATTTGGAATATAGAGGTGATGCGTTTTGAAGAAAATAGCTTTAGTAGTAGATGATAATCCATACATTAGAGGTAATATTAGAGAGATACTTGAAGCATCTTTTTTTGAGGTATTTGAAGCAAAAGATGGTATAGAAAGTATAGATATGTTTTTAGAAATTAATCCAACTATAGTAATTATGGATATAAATATGCCAAGATTAAATGGACTTGAGGCAACAGCTAGAATTATGGAAATAAATCCCAATGCAAACATTGCTATTTGTTCATCTATGTTATTTATTCCATATTATCAAAAATTAGCTAGAAAAGCAGGAGCTAAAGCTTTAATATCAAAACCATTTACAAAACTTGAATTAATTTCAGGACTTAACGAATTATTAGAAGAGATGAGGTAGAATATGAAAATAATAATTGAATTGCTATATATATTATTTTTCTCATTTATTGGTCAAAGTTTAAGTAAGATAATAAACTTACCTATACCAGGATCAGTAATTGGATTAATTCTTTTTTTCTTAGCTTTACAATTTAAAATAGTTAAACTTGAAAGTGTTGAAACAACTTCAAAATTTTTAGTTGATAATTTAGCAATACTATTTATACCGGCAGGTGTAGGAATAATGATTAGTTTTAAACATATAAAAGATATATGGGTAAGTATATTATTAATATGCTTATTTACTACAATACTTTCATTAGTAGTTGTTGGGAAACTTACACAACATTTGATATCAAAGGGGGACAAGAAATAATGTTTTTTGAATTAACAAAAGATCCTTTATTTGGTATGTTTCTAACTATGGCTGCCTTTATCTTCTTTAGAATGCTTTCAGTTAGATTTAAATCATCTATTTTAAATCCAACTATTTTTTCAATAATTTTTATTATTGTTTTTCTAAATTTATTAGAAATACCATATGAAAATTACTATAAAGGAAGTGAGATTTTTAATAGAATGATAGTACCAGCAACTGTTGCATTAGCAGTTCCTTTGTACAAGAATTTTCATATACTAAAGAGATACTATAAAGAAATATTACTTGGTATAGGAATAAGTACTTTACTTTTATTAATTATACTTGGATTAATAATGATAATATTAAATATGGAAGAAAAGATAATAGCATCAGTACTTCCAAAATCAATTACAACTGCAATTGCAATAGGAGTTAGTGAAAAAATAAATGGATTACCTTCAATTACTGTAGTAGCAGTAATAATATGTGGGAATATAGGGGCAATATTTGGGGAACTTATTTTTAAATGGTTTAAAATAGAACATCCCATTGCTCAGGGGATCTCACTTGGAACAACATCACATGCAATAGGAACAAGTAAGGCAGTTGAATTAGGAGAAATACAAGGCTCTATGTCAGGACTTGCAATAATAATTACAGGGATCTTTACAGTACTTTTAGCACCATTAGTTTATGCCTTATTAATATTATTAAAAATATGAGGTATTGGAGGATAATATATGAAAATTATTTCACTTTTTAGTGGAGCAGGAGGTCTTGATTTAGGATTTAAAAAAGCGGGATTTGATATTGTAGCAGCTAATGAATTTGATAAAACTATATGGGAAACATATGAAAAAAATCATAAGACACATTTAATTAAGGGAGATATATGTAATATACACTCATCAATGTTTCCTGAATGTGATGGAATAATTGGAGGTCCACCTTGTCAGTCTTGGAGTGAAGCAGGTTCTCTTAAGGGAATTGAAGATCCAAGAGGACAACTTTTTTATCAATATATTCGTATATTAAAAGAAAAACAACCAAAGTTTTTCTTAGCTGAAAATGTTAAAGGAATGATGTCAAAAAGACATAATGATGCTGTTAAAAATATTGTTTCACAATTTGAGGAAGCTGGTTATGATGTATATATTCATTTATTAAATGCAAGTGATTATGGAGTTCCTCAAGATAGAAAAAGAGTATTTTATATTGGGTTTAGAAAAGATTTAAATATTAAGTTTGATAAGCCACCTAAACAATATGGATATAAGGTAACATTTAAAGATGCTATTTATGATTTAAAAGATACGGCTATCCCAGCTTTAGAAAAAAATAAGACTAATGGGGATAAATGTAAAGTTCTAAATCATGAATATTTTATTGGAGCATATTCACCAATTTTTATGAGTAGAAATAGAGTTAGACAATGGGAGGAACAAGCGTTTACAGTGCAAGCTTCTGGAAGACAGTGTCAATTACATCCACAAGCACCTAAAATGCCAAAGGTTGAAAAAAATAAGAATATTTTTGTGCAAGGTAAAGAAGCTCTATATAGGAGATTAACTGTTAGAGAATGTGCAAGAATACAAGGCTTTCCTGATGATTTTAAGTTTTATTATACAAATTTAGATAATGCATACAAAATGATAGGGAATGCAGTTCCTGTAAATCTTGCTTATGAAATTGCAAAGGCTATAAATGAGCTGTTTAATAATATTTAGTTAAATGATTAGGGGGATATATTAATGAGTTTAAAAAGCAATAATCAAGGAAGAGCATATGAATTTTCATATTTAATTACACTATTTGAAGAAATATCTAAAGTAAGACCTGTTAAAATAGAAAATAACAGTAGTTTTTTAGCGGCTGAAAGAGAATGGAATACATTAAGTGATTCAGAAAAAATAACATATAAAGCAAGTGCTTTAGCAGCAGTAAATACAATATTTGATCTTGAACCACTTATTTTAGATGATGGTGATGATGAGTTGGAATTGATAATTCAATCAGATGCCAAAGGAGAAGAAGGAGATGTTAGAGATCTTCTTATAATTAGAAGAGGAATTAAATGGGAGATTGGTTTTAGTGTAAAACACAATCATTTTGCAGTTAAACATAGTAGACTTTCTAAAAATATTGATTTTGGTAAAAAATGGTATGGAATAGAATGTTCTAAAAATTATTGGGAAGATATAAAACCAATTTTTGACTATTTGGAAGAGGAGAAGTTGAAAGGAACTTTATGGAAAGAATTACCAAATAAATAAGATGATGTATATGTTCCATTATTAAATGCTTTTATGAATGAATTGATTAGACAAAGAGAAGATATACCTAAACTTATGGTAGAATATCTTCTTGGAAAATTTGATTTTTATAAGGTTATTGGAATTGATAATAAAAGAATAACTCAAATACAAAGCTATAATTTGAGAGGTAGTCTAAATAAGCAAGGTAAAAATCGTAAGAGAAATATAGAATTGAAAATATCATCATTACCTACAAGGATTGTTAGTTTAGAATATAAACCCAAAAGTAAAAATACTTTAGAATTATATCTTGATAGAGGATGGCAATTTAGTTTTAGAATACATAATGCCTCCACAAAAGTTGAAACAAGTTTGAAGTTTGATATACAAATAATTGGAATGCCAACAACTATAATTTCTATAGATTGTAGATGGGATTAGTTAGATATTTAGTTCTGGATTTTATAGAAGTTAATGTCGGTATTACGAGTATTATTAGTTTATACTATATTAATATTATTAAAATAGATGATTTTTGTCATCTATTTTTTATATTTGTAAAATTTTATATTTTAATATATAATATTTGTGGTATATTTGGTAAAACAATAAAAAGGAGGATTATGATATTTTTATCATAAATTATGGTATGAAACAAAAAAGGGTATTATTTTTACTACTCTTGTCTTCTCTTGCGTACACAAAAGAAGAACAAAGCAAGATAAGTGGAGAAGTAACTTTTGGTATAGATTCAACATTTGGTGTTGATGGGTTAGAAAATGTTAGCAGATTAATTCCTCAAGTAATTGATTTATTTAAAAGTAACAAATATAAGGATTATGAGAAAGAAAAAAATTCTGAACAGAAAAATAATGGTAATAAAGGTAATAATCAAAATAATAACAATAATAATAGTGGGAATGGTAATCAACCACCCAATAAACTGGATGCATATATTCCAAAATATAATCCTACGGTTAGGGATTTAGAATTAGCAGCCAAATATTTATCAAAGAACGTGGAATTAAGGAAGAAATTAAGTGTTAAATTAAAAGAAAATTATGTAGGCTTAGGGTTAAAAGTAGACATATTTGGAAAAAAGATAACACATACAAAATTTTTAGGAAATAATGAAATAGAAAAATTAAAACTAACATTAACATCAGATAATAGGTATATTAATGGAGAGATTAATTACTATGTGAAAGGAGAAAGTCCTGAAAAAATAGACATAGACAAAATAGATGATGAGAAAACTTTAAAAAATAAGGTTGTGGAATATAGATTTAGTGTAAATCCTAGACCAGATAAAAACTTATCTTTATCATTAGACTTTTCAGGAGAAAATAGGAATATAAATATAGGTCCTACAATTAGATATAGGAAAGGTGGGACATATGTTAATGCCTCATTAATATTTAATAATGAGAAGAGATCATATGATTTAACAGATGAATTAGATAAGATAAAACATACTGCACCAGGGTATGATAAGATAGAATATTTTAAGAAATGGACATTAAAGGAAGGCTATCCAAAAGATAATATAACTAAAGATGACTATAATAAAGAGCATGCAGACTTAGGCAAAGCAGAAGTTTCTGGAACTAAGGGAACGGCTAGAATACTTGGACATTATTCTGGTTCACTTTATGGTGATTCTCCATTTAGATATGTTGCTAAGAGTTTTTTTGATGAAATACATTCAAATAAGAGCTTTAGTAGTGTTTCTTCAATAATAAAAGTATTTGAAAAAGATGAAGCTCCTACAAGTACATCTTTTCTTTCATTAGGGTTATTAAATTTAAGTAGTCAAATTCAAAATAATACTGAGATAAATAAGTTAATTACTAAAATAGGTAAAAAAATGTATAGAAGACTAGGTATAGGACTTGAAAGAAAATATTCAAGTATAAATGCTTGGACACAAGTTCCAGAAGAATTTCATTATCTTTTACCTGGATTTTATAAAAACTTTGATTATTCAAAGATTAAATCTGAAGAATTAGATCCAGATTATCTATATAATAATGGGATTAAAAAACCAGAATTACCTTCTAAAGGAAATATTAGAAATAAAAGAGATGCAGATAATAACGGAAATGGTGATTATAAATTAAAAGAAGGTTGGCACTATTTTGATACTGATTTTGATGAATATGTAAGAAAAGAAATATTTAGAGAGTATAGTTTGGAAAAAATACAAAAACTTACTAATAAGAGTACTTTAGGACTAGCCTTTGATTGGCTATTAGGTAATCAAATAAATCAGGTTATAAGTGAATTACCAAAAATCCAAGAATTAATGAAGAACCCTTATGAAATGAAGGGTGTTGACATGCTTAGAGGAATATATTTCCACCAAAGCGAAAAAGAGAGAAATGTGATGAAGTATGAAGACATATTAAGAGCAAATTTTTCAGATGTAAACTTAAAAGAAAACAGTACAAAATACTCAACTAAAATAAAATTCAATATAGGTCATATAGGAAGGAACTATAAACTAGGAGCAAGCCTATTATTAAATGATAATGTAAATGTAAATGCAGAAAAATATGGATATGTTAGAAGAAATGATAATATAGGAGTTAATGCAACATATAAAGAAGGAATAATAGAATTTGATAGTAAACTATCATTAGATCTAACTAAGAACTATTTATATAGAAAAGATAATAAGGAAAAACATGTATATAATACAGTAAGTCTAAACACAGACACATACTTAGGCTTAAATATACCAGCAAATGAAAAACTTAATGTATTACTAGGACTAAGACATATAGGAGTATATGGTTGGATAAATCCAATAGAGAGTTTAGATAAAAATGGTAAAGCAATAGAATTTGATATAGCAAAAAGAGATGAAAGTAATAATCCAATAGGAAAAGACAATAACTCTATAATAACATCTGAAACAACAGAAAAGAACTTAGTAGATAAAGAATATGAAAGACTAAAACAAGAGAATAATGGTAAAAGTAATAAACTAAAAAGAGATATACATCAATCAGACTACATACAGACAGAGAAAAGTAAAACATTAAAATCAAGATATGAACTATATAACATATTATCACCAAGAGTAACAATGGTATATAGACCATATGATAATATAATATTCTCAAGTCATTTGGAATTACCAATAAGTATAAGGAACTCATCACCAGCAGGAATAAGAGGGATATATACAGGAGAGATAAGATATTTAATAGATGATAGCTTTAAGGATATAATATATACAAAGAGTAATCCAATAAAGTTTAAGACATCAGGAGATATAGAGGCAGGATTAATATTAGGGAATGATGTAGGTTATTATTTATCATATAAGGCAATGGCAGATATGAGTTTTCTAAGGGGAGATATAAAGGGTAATGATAAGGATATAGACTTTAGTTTATCATTAAATCCACTTATAGTAAACTTACCTATTAAGCCAAGATTACTTATAGGTAAGGAAGGTAAGGAGTATGTAAGTAAGGTAGGGTTAGAGTATTCTAAGGGTACAGAGTTTACAACAATACTTGGAATGAGGAAGGTATTAAAGACAAGTAAGGATATATTAGAGGAAGAATTAAAGCCAAATATATTAGAGGTTTTAAAGAGTAGAAATAATAATGAATACAACATAATAAAAGAAAAGTTCACAAAAGAAAGTTTTAAAGGGGAACTAACATATACATTTACACCATTTATAGATATTAGGAAGGAAGAGGGCAACTTTAGGATAAGGGCTAAGGCTGATTCTACCAAATTAATAGGAAGAGATGTAAAAATAGAAATTGATGAAGGTAAATTTGAAGAATTACCTCTTGAATATTTTGCATGGAATTATCAAAAAAATGGTGGTTGGTGGAATACTAATAAAACTTACAACTATTTTCTTGATTCAAAATCAAAGAAAGTAACTAAAGAGAATAAGAAGATTTTAGATTTAGAACATCAAATATACAACTTTGAAATTGATATGGATTATGAGCAAGAAAAAGGTGTTAACTTTGACTTAAATCTAGGAATTACATATAATGAAACAAAAATAAATGGAATAAATGAAATAACTACTACAACTGAAACAAAATCAAAAGTTATTAGTCATACTACTGATAAACAAGATCCAACTAAAATTTTAGATAAAATAAAAAAAGATAATGTAGAAGTTAAGGTAGATGAAAAAAATATATTAGGATCACTTAAAAAATATCTTAGAGAAAAAAAAGAAAAGGCAGCTGATGAAAAAGTCTATGAAAAATATGGTACATTAGGATCATATTCTGAAATTAAGGAAGAAAAATTGAAAAAAATATTGTATTATCCAAATAGAATAAAGAAAGAATTTAAATCAGAAGAAACGCTTTTCTTACATACTAAGAGGATAAATGCAAACTTGGATACATATTTAGGATATAAATTTAAAACTAGTGATAGAATGAAATTATCTGTTGGAATGAAGTATAATCTAACTGCTGAATATATTTCAAGTAATAAGATAATAGTAGAAGAAATAAAACTATTTGGAAGTAGGAAAATACTATTTAAAAACACTTTAAGTCCAGAAGTTAAAATGACATATAACCTAATTAATAATTTAAATGCAAGACTCAGTGCAGAATTACCAATAAATTTTGAAAATAAAGACTTTAAAGATGTCAAATTTAATGTTAGAACAGGTTTGGAGTATAGATGGTAAGTAAAAATATAAGTTACATTTTTTCACAAAACGATGTATAATATATATAACTAATAATAAGTGAGGATTTTATGAAATTTAGAAGATTTCAACCTTTTTTGATGTTCATTTTTACTATGAGTTGTACTCTAGTTGATATAAATTATGAAAATATAGATAATGTTAATAAACAGAGTAATGGATCTAATACTCATAGTAAGAATTTGGATTCATATATTTCTAGTGGTAAAAATAAGGAAAATAGAGTTACTCCAGAACTTCCACAATCTTCTATACCTAAGTCAAAGGAAATTAAACATGAAAATCTTAAACAAAAATTAGGATTAAATGAAAGTTTAGAGGAAAGAAGTGGAACAGAAAAAGGCTTATAAAGATGGAGAAAATCCTGTAACTATACTTGAATCATATGTTAATCAAGGAAGAATAAGTGAAATTAAAAATAAGTATAGTTTTTTAATATTTGAAAATGCAAACGATAATCCTAATTATAAAAATCATGCATTTGAAGTTATTGATTCATTTATGGACACAGATGGAGATGGTGTTGTAAGTGAAACTGAAAAAAATGCTTTTAATGATAAAACCGTTAATATAAAATTAGCTAGAGGAAATAACACTGAAGGTATTAAGGGCATAATAAACATGTCTTATGCAATAGTAGAAAGTAATAATAATTTTAGATACCTATATAAAGATTCAAAATACTTAGACAAAATATATCCTAACTATAATACAAATAGTTATTTAAATAGTCATTTAACAAGTAGATTATTAAATAAGGATTATGTATATAATGAAAAATTATTAATAAGTTCTTTAGGAAATGAAAATCATAGTAGAATAAATACAAAATATTTTTCAAATAGTATATTAAATAATTATCAGATAATGTCTCCTGAAATGCAAGCACTTGCTAGAAGTGAGAGTATAATGGTTAAAAATTCTGTTAATAGGAAGCACAGTTTAATAGGAACTTATTATAATAACATAAATACATCATATATAGATAGTGAAAGTGGTTACTATATAGATAAGTTAATTAATCAATATTTTCAGGCTCAATTTCTTCTATTAAGAAGTTTTACTGTAGGAGAAGTGGGACTTTTAAAAAATGAACAAGAGGGTTATTATCCCTATTTTTTTTGGTTCATCATATTCAGCACCTAGGATAGCAAGACTTGCTTATGATATTAAAGAAAAATATCCATTTTTAATATATCAACAAGTAAAGCAAGTAATACTTGGGACAGCAAATCACTCTATTGATGGTTATTTAGATGATAATGTAGGTTGGGGTAATGCAAATAGAGAAAAAGCATTAAAAGGACCATCAGATTTTAATGCAGGATTAATAGATGAGATGAAATACTTTAAAGGTAATTATGATAAGATATTTGATGAAAAAGGTAACAGATATTTTTATGTGGATATAAAAAAAGATAAAGAATACACATTTGAAAATGATATAACTAGTGGGTTAAAAGGAGATGGAACTACTAGAGATGAAAGAATAATAAAAATAGATGGAACAAAAAATAAACATGAATTAAATTCAAATAAATATTCATATAGAATACCAAAAGTATTAGAAAGTGAGAAACTATTTTATTCAAATGTAGCACAAGCAGGACTAAGAAAAGATGGAGAAGGTAAATTAATCTTAACAGGAAAGCAAGAATACAGTGCTCCATCACAAGTATTAGATGGAACTCTTGTTTTAAAAAATGATAGTAATTCAGATTATACTGTATATGAAAAAGGAACGTTGGTTATAGAAAATAAAATAAATGATGAAAATAAAGAAATAAAATTAAAGAACATATATACAGATGGAAAGGTTGATATAAAAAGCAATGCTACATTAGAAAATCTTTATGGTAGTGATAAATATAAGATAGAATTTATTGGTAAAAATATAAAAATAAAAGAGTTTAAAACAACGGGAGAATATATAGTAAGATTAATTAATGGTAATCTCGATGAAATACCTAGGTTGGAAATAGAAAAATTTACAGAAGAAGATAGAAAATCTTTAGATAATCTATCAAATCCATTTTTAAAACCAGTAGTAATAAATGAAAATAAGATAGTTAGTATAAAGTTTGTAGGTACATTAGAAGATGAATTTAAAAAATTAAGTGAAATAACGGATGAGAATATATTAAAAGATTTACCTAGTTATGATATAAATAAGAAGAAATTTTTTGATGAATATAAAGAAGATAGTAGAAATTATAGAAGTAGTAATAATATTATGAAACCTATGTCTTCTGATATAAAAAGCTTATTATTAAATTCAAGTAATGGAGAAGTTAAGAATATATTTACAGATAATTATGCAAGTATAGTGGGAAATATCATTAAAAATGAGATAGATAATAAGTGTAATAGGACTAATATAATATTAAATAATCTTGAAAAAAGAAATAGATTATTCTTTGATACTTATGCAAGAACTAATATATTAAATGATGCTAAATTTAGCCCATTTGTAGATAATAATGTTGGAGCTATAATAGGATATTCAAGAAAATTATCAAATGGTAATACTGTAAACCTATATGGAATATATCAATATGGAAATGTAGAATTTAAAAATAATGGAAGTAATAAATCAAAAAGTATAAATAACTTATATAATCTAGGTGTAAATATTAGTAAAAAATATTGGATATATTTGCGTTTGATTTTGATAAGAATATATGGTATAGCAGAAGTGATGTATATAATGATAGTAACGATGCTAATAAAAAAACAAATGTATTACATAGTTTAAGTATAAATCCCAGTATAAAATTAGGCGTGGAATTAAAGATAGAGGCTATTAAAAGTATATTGAAACCATATGTAGGATATACATTTAATTATGTAGTAGTATGGGGTAAGAAAGATAATAATATATCTTCTGATTCTAGTTGGATAAATAGATTAAGAAATATAGGACTAACAGGAATATACAATAATAATTTAGAAGCAGGAATAGAAATAGATAGTAAAATAAATGATAAAATAAGTATACAAAATAGATTAGTTATTGACTATAACAGTCTTGAAGAAATAAAATTAAATCAGAAGTTAGCTGAAAAAATGCATAAGACATTAGGAAAAGGATTAGATAAGATAAGTGCAAACTATAACTTAGGAGTAAAACTAAGAACAGTTGATGGAATAAATTTAATATTTAAAACAAATGTGAACACTAAATTAAATATAGGATTAAACTTAGGAGTAGATTTCAATTTTTAAAAAACATGTTTGTAATAATATATGTCTCTAATCTTTTTTATGAGATTGGAGACTTATTTTATTGTTAAATTAAAAGGAGGATTATGATATTTTTATCATAAATTATGGTATGAAACAGAAAAAGATATTATTTTTACTACTTTTATCTTCTCTTGCATATTCAAATGATAAAGAAAGTAAGATAAGTGGTGAAGTAACTTTTGGTATTGATTCAACTTTTGGAGTTGATGGATTAGAAAAAGGATTTAGCTATATTCCAACATTTTTAAAATTATTTAAAGCTAGTAAATATAAAGAGTATGAAATAAAACAGGATATAAATAATGGTAATGATAATAAAGGGAATGAACCCCCTAAAAAGTCAGAACTATATATACCGACATATACTCCAACTATGAGAGATTTAGAATTAGCTACGAAATATTTATCAAAAAATGTTGAATTAAGAAAGAAAATAAGTGTTAAATTAAAAGAAAATTATGTAGGCTTAGGATTAAAAGTAGACATACTTGGTAAAAAGATAAAACATACAAAATTTATAGAGAATAATGAAATAGAAAAATTAAAATTAACAGTAACATCTGATAATAAATATATTAGAGGAGAAATTAATTATTATGTTAAAGGAGAAAGTACTGAAAAAATAGATATAGACAAAACAGATGATGAGAAAGCTTTAAAAAATAAGGTGATTGATTATGATTTTAGTGTAAATCCTACACCAGATAGTAAGGTATCTTTATCATTAGATTTCTTTGGAAAAAATAAAGAGATAAATATAGGACCAACTTTGAGATATAATAATAGTGGGAGCTATATAAATACTACAGTATTATTTAATAATATTAGTTCATCATATGATTTAACAGATGAATTAGATAAAATTAAATATATAGCTCCAGGATATGATAAAATAGAATATTTTAAGAAATGGGCATTAAAGGAAAAGTATAAAAATCCAACTGAAGAAATTAGTAAAAGTGATTATGAAGGTGAACATGCAGACTTGGATAAGGCAGAAGTATCTGGATTTAAAGGAACATCTAGGATACTTGGGCATTATTCTGGTTCTCTTTATGGTGATTCACCTTTTAGATATGTTGCCAAGACTTTATTTGATGAAATACATTCAAATTCCTATTTTACAAATACATCTAAAATAGTAAAAGAGTTTGAAAAAGATGAAGCACCAACTAAAACTTCTTTAGCTTGGGCAGCATTTAAGGCAAGAAATATATTAAAAGAAATTGAAAATAAGGATGAATTTAATAATATAGCTAAAAAAATAGCTTTAAACTTATACAGAAAATCAGGTATAGGACTTGAAAGAAAATATTCAAGTATAGGTGCTTGGACACAAGTTCCAGATGAGTTTCATTATCTTTTACCAGGTTTTTATAAAAACTTTGATTATTCAAAAATTAATATTGATGAATTAAGCCCTGATTATTTATATAATAATGGTTTAATTACTCCTAAATTACCTACATTAGTAAATAATAGGAATGCATTATTTAAACCTCAAGCTAGAGTTAAAAATAGTTCAGAAAAATATGCATTAAAAGAAGATTGGCACTATTTTGATACTTATGTTAAAAAATATATAATTGATGAAATAATTAGAGAATATAATATAGATAATATTAAAGAACTTTCTGAAATTAGTAAAGGTAAATTAGTACTTGATGCTATTTTTGGAAATAAAATAGATAATGTTATAAAAGAATTACCAAGAATACAAGAGTTAATAAAGAACCCTTATGAGATGAAGGGTGTTGATATGCTTAGAGGAATATATTTCCACCAGAGTGAAAAAGAAAGAAATGTGATGAAGTATGAAGATGAATTAAAAAAATCTTTTAAAGATATAGACTTAAAAGATAATAAATCAAAGCATTCAATTAAAATAAAAATAGAAGCAGGTCATGTAGGAAAAAACTATAAACTAGGAACATCTCTATTATTAAATGATAGAGTAGAAGTTATTGGAAATAAGTATAAATATATTAAAAGAGCAAATCATTTTGGAATTGATCTTATATATAGTGGCTTATTAGAATTTAGTAATAAGTCATATCTAACTTTAGCTAAAAATAGCTTATATAAAACAGAAAGTCAAGAAAAATATATATACGACACTATTAGTCTAAACACAGACACATACTTAGGCTTAAATATACCAGCAAATGAAAAACTTAATGTATTACTAGGACTAAGACATATAGGAGTATATGGTTGGATAAATCCAATAGAGAGTTTAGATAAAAATGGTAAAGCAATAGAATTTGATATAGCAAAAAGAGATGAAAGTAATAATCCAATAGGAAAAGACAATAACTCTATAATAACATCTGAAACAACAGAAAAGAACTTAGTAGATAAAGAATATGAAAGACTAAAACAAGAGAATAATGGTAAAAGTAATAAACTAAAAAGAGATATACATCAATCAGACTACATACAGACAGAGAAAAGTAAAACATTAAAATCAAGATATGAACTATATAACATATTATCACCAAGAGTAACAATGGTATATAGACCATATGATAATATAATATTCTCAAGTCATTTGGAATTACCAATAAGTATAAGGAACTCATCACCAGCAGGAATAAGAGGGATATATACAGGAGAGATAAGATATTTAATAGATGATAGCTTTAAGGATATAATATATACAAAGAGTAATCCAATAAAGTTTAAGACATCAGGAGATATAGAGGCAGGATTAATATTAGGGAATGATGTAGGTTATTATTTATCATATAAGGCAATGGCAGATATGAGTTTTCTAAGGGGAGATATAAAGGGTAATGATAAGGATATAGACTTTATTTTATCATTAAATCCACTTATAGTAAACCTTCCTATTAAGCCAAGATTACTTATAGGTAAGGAAGGTAAGGAGTATGTAAGTAAGGTAGGGTTAGAGTATTCTAAGGGTACAGAGTTTACAACAATACTTGGAATGAGGAAGGTATTAAAGACAAGTAAGGATATATTAGAGGAAGAATTAAAGCCAAATATATTAGAGATATTAAAGGGTAGAAATACTAAGGAATATGAAAGGGTAAAAGAAAAGCTTGATAAGGAGAGCTTTAAAGGGGAACTAACATATACATTTACACCATTTATAGACATTAGGAAGGAAGAGGGCAACTTTAGGATAAGGGCTAAGGCAGATTCTACTAAGGTTGTTGGTAAAGAAGTAAAAAATGAAACAGTAGTTGGTGAATTTATAGAAAGAAAAAATGTAGAGAAGTATTTTGCTTGGAATTATCAAGAAAATGGTTGGTTTAATAAAAAATATAATTACTTTATGGATGTTAAATCAGATAAGATAACTAAAGAAACTAAAACTACTGTAGATTTAGATAATGATGTGTATAATTTTGAAATTGAAACTGAGTATAAACAGGATAAGGGAGTTAATTTTGATTTAAGTTTAAATATAGTATATGATGAAATAAAGTTAAATAGAATGAAAGAAATTAAAACAATAACTGAAACAAAATCAAGAGTAATAATGATTACATCAAATAGTAATAGCCCTACTGTTAGTGAAACAGAAAAAAATGATCCTAAAAACAAAGTTGATATAGATAATAAAGATAGATTGGGATCATTAAAGAAACATATTCAAAATAAAAAAGAGAAAGCATATGATAATAAAGTGTATAATGAACATGCTACAAATATATCTGGAAGAGAAATAACAGAAAGAGAATTAGTGGAAAGACTTTCAGATAAGACTAAAATAGAGAAAAAATTAGAAAATACACTTTTCTTACACACAAAGAAAATAAATGCAAATTTAGATACATACTTAGGTTATAAATTTAAGACTAGTGATAAAATGGGAGTGTCTGTTGGAATGAAGTATAATCTAACTGCTGAATATATTTCAAGTAATAAGATAATAGTAGAAGAAATAAAACTATTTGGAAGTAGAAAGATACTATTTAAAAACACAATAAGTCCAGAAGTTAAAATGATATATAACCTAATTAATAATTTAAATGCAAGACTCAGTGCAGAATTACCAATAAATTTTGAAAACAAAGAATTTAAAGGTGTTAAATTTAATGTAAAAACAGGTCTTGAGTATAGATGGTAAAATAAATAAGGGGTTGCACCAAAAATCTTTAGCAAGGATTATTGGTGCTTTTTATTTTACCATGCTCCATAACAAGAGATATAACAAATGTGTTTATATAAAATAGTTGAGGAAATATTATTACATTCATTATTCATCTTTATATAACTCATTATAGCTTACAATACATTAAATTTCAAAAGTTATTTTTTTATTTTAAAACCAGAGATAAACCGTATTTTGCTTGACAAATGCATAAATAAATGATTTCTTGCAAATTAATAGTTAATATTAAAATTTTAAGTGTAAAAATAAATATATAAAGTATTTCTCAATATGAAATGTAAGGGGTAATAAATTCGGTTTATAAGGCTATAACATAGTAAAAATATATATTTCTAATGTGTAATATAAAGCTAGTAAAAAAATTTATGATATAATTTAAATATAAAAATATATATTATAAAAAGGAGGATTATGAAGTATATTATTAATCATAAAAATATAATGTGTTTATTACTATTACCCCTTATTACTTACTCTCATGAAAGTAATATAAATGGAGATATAGCTTTTGGTATTACTTCAGAACTAAATAGTTCAATTCCTCTTAAATTAGATTTATTAAAAAATATGAAATTAAGAAAGAGTTTATCTTTTAAATTAAAAGAAAAGTATTTAGGTCTTGGACTAGAAGTTGATATCTTAGGTAAAAATATCTCATATACTGATTTTTTAGGAAATAATGATATAGAAAGCTTAAAATTAAAGTTAATTTCTGATAGCAAGTATATTAATGGAGAAATTAACTACTATATCAAAAATGAAAGTAGTGATGTAAAAAATAAAGCTTTGGAATATAAAGTGAGTATCAATCCTACAGCAGATAATAAAGTATCTTTGTCATTAGATATTTTAGGGAAAAATAAGGATATAATTATAGGTCTAACCTTTAGATATAGGAATATGGGGACATATATAGATACATCTGTCTTACTTAATAATATAAAAACAGCATATGATATAACTGATGAAATTAAACAATCTGATCATGTTAAGGATATAGATTTAAAAAACAATAAATCAAAACATTCAATTAAGATAAAAATAGAAGCAGGTCATTTAGGTGAAAATTACAAACTAGGAACATCTTTACTTTTAAATGATAGAGTAGAAGTTCAAGGTGATAAATATAGATATATTAAAAGAGCAAATCATTTTGGTATTTATTCAGAGTATAAGGATTTATTAGAATTTAGTAATAAATTAGATTTAAGTATAGCTAAGAATACTTTAGATAAAACCGAAAATAATCAAAATCATACATATAACAATATTAGTCTAAACACAGATACATACTTAGGTTTAAATATACCAGCAAATGAAAAACTTAATGTATTATTAGGATTAAGACATATAGGAATGTATAGTTGGGTTAATACAAATAATAGCGGATTTGTATATGACATGAATAATATATTAACACCAAGAATTAATGTTATATATAAACCATATAAAAATATAGAGTTTTCAAATAATTTAGAATTGCCATTAAGTATAAAAGGAAGATCTATTTATGGAATAAGAAGTATATATACAGGTGAAATAAAATATCTAATAGATGATAGCTTTAAAGATGTATTAGAAACTAAAGAATTTCCTATTAAATTTAAGAGTTCAGGAAATATTGAAACAGGAATTATACTTAAAAAGAAACCAACCCACTATTTATCATATAAGGCAATGGCAGATATAGGGTTTCTAAGGGGAGATATAAAGGGAAATAATAGGAATATAGACTTTAGCTTATCATTAAATCCATTAGTAATTAATTTTCCTATTAAACCAAGAGTAATGTTTATAAGAGAAAATTCAGATCTTTCTATAAAATTTGGACTTGAATATTCAAAGTCAGAAGAATTTTCAAGCTTAGTAGGATTTAAAAAAGCTGTTAGATTAGGAAATGACATAATTGAAGATGAATTAAAGCCTAATATTTTAAAGGTACTGAAATATAATAGTTATGATAAATATAATGAAATAGATGAAAAACTAAAAGAGATAACATTTAATGCTAAATTAAATCATATATTTACACCTTTTTTAAATATTAGAAAAGATAGTGATAACTTTAAAGTAAATATTAAGGCAGAATCTAGTAAAATAACAGGTCATGATGAAAAAAGTAAAATTGAAATAGGGGATTTTAAGGATAGAGTAGCTAAAGAATATATAGCATGGAATAATCAAGAAAATAATGGTTTGAATTGGCTTTCTTTTGGTGCAATTAGAAAATACAACTATTTCATAGATGTTAAGTCAGATAAGGTAACTAAAGAAACTAAAACTATGGTAGATTTAGATAACCAAAAATATGATTTTGTCATTTTTACAGAATATGGTAAAGATAAAGGATTTAATTTTAACATGAATTTAGGTTTATCATATAACGAGATAAATTTAAAATATAAAAAGGAGATAGATATAAAAACTGAAACAAAATCAAGAGTGGTAAATATTGTTTCAGATATTGGTAGACTTACACTTACTGATGAGTTAATAAATAAGGGGAGTAATGTAGAACTAACAGAAGGAAAATTATTAGAATCATTAAAAAATCATGTGAAAAAAAATAATGCAAAAGATGAGTTCATATATTCTTTAGAATATGAAGTTTTTGGACTGCTATATAAGCAAGTTACTGAAGAATATTTAAAGAATAAACTAGATTATCCTATAAGTATAAAAGAAGAAAAAAAGGAAGAAAATAATGTTTTTTTAAGTAAAAGGATTAATCTAAATTTAGATACGTATTTAGGATATAACTTTAATCCCATTGATAAAATGATAGTTTCAGTTGGAAGTAAGTATTCTATGTATTTAAGATATGACTTAATTGATAAAATTAAAAAAGACAATAAAGAGTTAGGATATAAAAAGATTTTAATTGGAAATACCATAACACCAGAAGTTAAAATGACATATGATTTGATTAATAACTTTAGTGTAATGGTAGGAACAGGGATTCCAATATATATTGAAAATAAGAGGTTTAAATCTATTAGATTCAATATTAGAACAGGTATTGAATATAAATGGTAAGAGAAGTATAAAAGAGAGGGGGGCTATTCCAACAATAAATGCTTCATTTAAGTTTTGTAATCTAGTTAGTTTAGATGCTATGAAATTAATATTATAATTACAGTTTCTAATTATTTTTCTAAGTTCTAGTTTATAATATAAATATGAAAGAAGAATTATTTTAAACATAACATCTAATGAATTTTATTTTTTTAAGAATACTATATCCATATTTTCTAATTATTTCAATTAAATATATAAATTAAATTTTGAAAATATGATGAAGAATAAGATTTCTATATAAGAAATCAAAAGGTTATGCTTGATTTTGAACTTGCTGAAATTTATGGGTATACAACGACAAGATTTAATGAACAAGTAAAAAATAATTCGGAGAAATTTGATGATGATTTTATGTTCCAGTTGACGAAATCAGAGTTTGAAAACTTGATATCGAAAAAATCGACATCAAGTTGGGGGGGGTGGTCGTAGAAAACTACCTTATGCTTTTACAGAGCAGGGGATATATATGCTTATGACTGTATTAAGGGGAGAGCTTGCTGTTAAACAAAGTAAGGATTTAATACGAATGTTTAAGTAGATGAAGGATTTTATTGGTTCAAAGGAATTAGTACAAATTGTTATTCAAACCAACCAAAACACAAACGATATTGCATAAATAAAATCTCAAATGGCTACAAAAGAAGATTTGAAAAAGGTTATGGATAATTTTATAGATCCAGAAACATATAAACATTTTCTTTTGATGAATGGAGATAAGATAGAAGCTGATGTTGCCCATACGAAAATATATAAGTCTGCAAAGAGAAGTATTTATGTAATAGATAATTATATAGGGCTTAAAACATTAGAACTTTTAAGGACTGCAAGATATAATACTCAAATCATATTATTTAGCGATAATGTTAAAAATAAAGATATGCTTACAAAAAATATCTTAGATGATTTTAGAAAAAATTATCCTAATATAGACTTGAAGTTGAAGATATCTGGTAAAAAATACCACGATAGATATATTGTAATAGATTATGGAACAGATAGTGAAGCTTTTTATCTTTGTGGAGCATCTTCAAAGGATGCAGGAAATAAAATATCAAGCATTACTAAGATAGAAGAATCATCTAAAGATTTATATCATATGATGTTTAGTAGAATGTTAAATAATAAAGACTTAAAAATTTAATATGTGGTTATGAAAAATATGTAAGGCGGTAGAAATAAAATTTATCGTCTTTTTTATTGTAACAAATGTGAAGGAGAAGAAAGAATGAAAAAACAAATAAGAAGAAAAACAGGAAAATAAATTTTGAAGTTAAGTGAGTTTATATAGGAAAAAATCCATTGATGAACTATTTTAGGGAGTAATTGAGCAGATATTTGATAAAAATTTAAAAGAAAATACCAAGACCAAGTTCATTTTTATAAAATGCAGATAAGTTGCATGAATTGACAGAAGAAGATAAGTACAAATGGACACATAGAATGGTTCTTAGTATTTTAAGAGATCCTGTCTATTGTGGAAATAGGGGAAGAAACAAAAGACCTACTCTTTCATTCAAAAATAGAAAAAGGTTATATGTTTCAAAAGAAAAAGCAATAATAAAAGTGATATAACCTATTATAATATCTTCGAAGATTTAGTTAAATGCTCCACTTGTCATTATGAACTGACACCAAAGACAGATTACAAGCTGAATAAAAAAGAAACGATGAATACTGTATTGTACTTGAAGATATACAGTATCATGAGGAAATGGTACTATAAAGCAGAGAAGATGGATAAATATAAGGTTGATGAAAGAAAGGACAAAACAGAAAAGTTAAATGGTAATAAAAATATAAAATTATTTCTAACACAATTAGAGATAATTTTTTTTATTTTCCCCAAAATATATAAAAAAATTAGATTCAAAGCATATTGTGAAATTTTTATACAAAATCTATTGACAAAATACGCTGGGGGGGGGGTATAATAATGTGAAAAATAAGAACAAGAGAAAAATTAAATGGTAGGCTTTAAAAAGGAAAAGGTTGGTTAAACGCTGAATAAAGGAGGCACATGAAGAAAAAGAAATTGGTAGCTATTTTTGCTTTCATCTCTATCATATCTTATACTGATATGGGATATAAATTATCAAATGGTATAGATGAAATTAAAAATCTCAGTAAAAACATTAAACTTAAAAGAAGTAGAAGAGCAGCTTCAAATCCAGCAACTGATGGAATAGCTCAAGGCGCAGAAGTAACAGCTACAAAAGATAGTGCAGTTTTTGGTATTAGATCAAAAGCTGATGGAGAAAAAACTATAGTTGTAGGAGTAGATTCAAGTAGTAAATCTAAAGAATCTGTAGTTATAGGATATAAATCTACAACAGAAAAAGAAAACAGTGTAGCAATAGGTTCAAATTCAAATGTAACAGGTAAAAATAGTGTAGCTGTTGGATCTGATACAAAAGTAGAAGGTAGTGGGGCAAGTGCATTTGGATATAAGGCGAATGCTAAGGGAGAAAGTAGTGTAGCATTTGGTGTTGATACTACTGCTTCAGGACTTCGTTCAGTCGCTATAGGGAAAGGTGCTATGGCAACTAAAAATGATGATATTGCAGTTGGTAGTGGAGCAAAAACAAATACTAGAAATATAACTATGAAAGATAATCAAGAAAGTAAAAGTAGTCTTGCATTTGGTATTAATGCAACAGCAGATGGAGTTAATACAATTAGTATAGGAACTGGAACAAAGGCAGAACAATCATCAGCTATAGCAATAGGAGGAGAGGCTGCTGGAGTTGGAGCAGTTACTATAGGTTATGTAACTAGTGCTAAAGCACATTCAACAGTTGCTATAGGATATTATGCAAAGGCTTTAAAATCAAGTGCAACTGCAATTGGTTCACAAGCTGAGGCTTCAGGTCAAGTTTCTACAGCTATAGGAGCTACAGCTAAAGCAACTGAAACTTATGCAGTTTCAATAGGAGCAAAATCAGAGGCATCATTTAAAGGCTCAGTTGCTATAGGATCAGGTTCTAAAACAGACAGTAAGGCTACAAAGGAAACTGAAGCAACAGTTAATAAAATTACTTATTCAGGATTTGCAGGTAGTAATCCTGATGAGGGATATGTTGTTTCTGTAGGTACAGAAATACCTTCTACTGATAAATCAAATTCAGGTAAAATAATTAAACGTCAAATTAAAAATGTTGCAGCAGGTAAGATATCTAAAGAATCAACAGATGCTATTAATGGTTCTCAACTATACATGACTAACAATGTTTTAGGAAATTTAGCAGATAGTACTAAAACAATTTTAGGAGGAAATGCAAGTATTACTACAAGTGGTAATGATGCAGGAAAACTTACAATTACAAATATTGGTAATACAAATAAAGATAATATACACGATGCTATAATAGCAGCTAAGACAACAATGACTGTAAATGATAAAGAAGAAGAAAATAAATCTAATGGTAACCTTATACTAACATCAGAAACAGATGCTAAAGATGGACATAAAAAATACAATGTTAAATTAAATGATAAGATAACTTTAGGAAAAGATGATAATAAAATATCATTAGATGGAAATACAGGGAATGTTACTATAGGAAAGATAGAAGTAAAAGGAACTGCTGGAACAATAAATAATTTAACAAATAAGACATGGGATTTAAATAAATATGTAAGTGGACAAGCTGCAACAGAAGATCAATTAAAGATGTTACATGATACTTTAAATACTACGATAACAGGTTTTGGATTTAATGTTATGGCTGGTAAACATGGAACAGGACAAGCAACAGGAGAACAATTAGAAAAGGTATCAAAAGATAATACAGTAAAATATATTGCTGGAGATAATTTAAAGATTACTCAGAGTGGAAAAGATTTTACTTATGAACTTAATAAGGAACTTAAAGATTTAATTAGTTCAGAATATAAGGATAAGAATGGAAACACAACCAAAATTACAAATAATGGTATGACAATAAATTCTGGAGATAAATCTGTTTCAATAACTAAAGATGGTTTAAATAATGGTGGAAATAAGATAACTAATGTTGCAGATGGGACAGATGATAAAGACGGTGTTAATTTATCTCAATTAAATAAAGTTAAACAGGATATAGAAAATAAGATTTCAAATCAAGTTAAAACTGAAATAACAGCAAATGATGGACAAGAAGCTAATAAGACTACTGGAAATGTTGTTTTAACAGAAAAAACTGAAAATGGTAAAAAGATTTATGATGTTAAATTAAATGATAAAATATCTCTAGGAAGTGGAGATAAAAAAGTAGAATTAGATGGAACAAAGGGAGAAATTAAAGCTGGAGATGTTACAATTAATAAAGAAAATAAAGGAACAATTAATGGCTTAACAAATAAGACATGGGATGCTAATAATTTTACGAGTGGTCAAGCAGCAACTGAAGATCAATTAAAATCATTAAGTGATAATATTGATAGCAAAATATCAAATTTTGGATTTAATGTTGAAGCAGGAAAAGAGGGAACAGGTACAGTTTCAGGTAAATCAGAAAAAACTAAAGTTTCAAAAGATGATACTGTTAAATTTAATGCTGGAAATAATTTAGACATTAAACAAAATGGTAAAGATTTTACTTATTCATTAAATAAGGAACTTAAAGATTTAACTAGTTCAGAATTTAAAGATAAAGATGAGAACACTACTACTATTACAGGCGATGGAATGAAAATTAATTCTAAGGATGGTAAATCAATAACACTAACTAAAGATGGATTAAATAATGGTGGTAACAAAATTACTAATATTGCAGATGGAACAGAAAATAATGATGCTGTAAATGTGAAACAATTAAAAGATAGTAGAACAGAAATTAAGTCAGAAAATGGGTCAGCAATAAGTGTAAAATCAAGTTATGATAGTAGTAAAAATAAATATACATATACATTAGATGTTAAAACAGATAATAAAACTATAATAAAAGATAAAGATGGAACATTAAAGGCTAATGTAGGAAATATAACTACAGAAGAAAATAATGGAAAATACATAGCTAAGACATCTAATACTGAACAAATAGCCAAAACAGGAGATGTAGTAAATGCAATAAATGGATTAGGAAATAATACATTCTCATTTAGTGGAGATACTGGAAGTACAGAAGAGCAATCTTTAAATAAATCTGGAGGACTTAAATTTGCTATTAAAGGTTCAGAATATATTAAAACAGTAGCAAAAGGAAGTGAAGTATCAGTAGATCTTACAGATAAGGCAAAAGAAGATATAGAAAAAGGGGTAATAGCAAATAGTGGAGTAGCAAATGCTGTAGCTATGGCAAGTTTACCACAAATAAGTTCACTTGGAGGACATAGACATAATATTGCAGGTTCATATGGATATTTTAATGGAGAACATGCATTTGCATTAGGAATTTCTGGATTAAATGATGTAGGTAATTTAGTATATAGAGCAGGAGGGTCATTAAATACTAAAGGACACGTATCATTAGGAGCAGGACTTGGTTATCAGTTTGATAAATTAGCCTCAAGAAAGAGAGATATGTTTGTATTACAAAGAAATGGTAATATTAACTTACTTGATGAAAAAGTTTATGAACTTGAAATGGAAGTTGAAAATCTTAAAAAAGAAAATAAGGAATTAAAGAAAGAATTATTAGAATTAAAAGAGATGTTTAAAGAATTGATGAAAAAATAGAAATATTATATAATAAATAGGATGCTATAATACACAGCATTCTATTTTTATTTTACATAAAGAATATTTTGTGAAAAAAACATTAGTTTCTTTAATGTTGACAAAAAAGGTGGGGGGGGGTATAATATACCCAAAACTCAAAAATTTATTAATATAGGGAGATTGGTTATTATGAAAATAAAAAAAATATTTAATAAGTATATATTTTTAACCCTAGTTATAATAGGAAATATAGTATTTTCTCAAAGTTCAGATTACTATAATAAAATAATAAGTCAACAAATTAGTGTTATAACAGGATTAAAAGAAATATATTCTAAAAAAACAAATTTCAATATATTAGCAAATGTAATATCTGCTGATGAAATTTTAAGACAAATTCCTAAATATGAAGATAAAAAGATAAATAATCTACAACTGTATTTTCCAGATTTAGATTATTTAGACAAATATATAGAAAATGTTTCAAAAAGAGTTGGAAATGTAAACATATATTTATTTAACTTTCAAACAGATGATAAATATATGAAAAATAGGGACTATATAACATATAAATCAAAAAGTATTGATAAAAAAATAGAAAAATTAGAAAATGTAAAAGTATTTAAGGTTAAAATAATAGATAAAGATTTAACTGAAATATTTTTAGAAAGTTTAACTGAAGAAAAAATAGATATAGATCACTTTAATAAATATATTAAAGTGGAAGATTAAAAGTAGTAAAAAGGAATAAAGAAAAGTTTATGAAAAAAAGTAAAATACATGAGATAAAGAAAATTTTAAAGTACAGTTTAAAAAATAAGGTGAGCATAACTGATAAGACAATAATAACTTACTTTATACTTGGATTTGGTGGGTTATACACATTATCTTATGGATCTTGGTTAGCCATAAATGATACGAATGGAACGGTAGGTAAATATAATAGTTCTAAAGATGATGGAGAGAATAATACTAAGAATAATATAGTATTGACATATTATAATAGTCAAGATAATGTTTCCCATTCAGTAATAATAGGGGCTGGTAAAAAAACTTATGGTAAAGGATTAGAAAATGTAGTAATAGGATTTAATGCTCAATCAGAAAAACCGCAAAATGTAGTAATAGGAGCTAATACTAAATCAGATTTACAAAATTCTGTAATTCTTGGTAATAATTCTTATGTTTATAGAGATAAATTTGGTGTTACAAGTAGTATGTCAACAGATGATGGACAAGGAGTTTCTATAGGGAATGCAGTTTATTCAACAGGGCAAGCAACATCTATAGGGAATAATACTTATGCTATAGGGAGATCATCTATTGCTATAGGAAATGATGATATATCTGCATATACTCAATCTGTTAGTAAATATGATTTCAACACTTATTTTAAGACACTTTATAATTCAATAGATGGTTTTGGAAAAACATATGGTTATGGTAGTAATGGAGGAACTGATTCAACTAAACATAAATATTCACCAACACTTGCACAAGGACATGGATCAATAGCCATAGGTTCTCGTTCTATAGCTTACTCTGATGGGTCAACAGCATTAGGGACACTTGCTTATGCATTAAAGAAAGGTTCAACGGCAGTTGGTACTCTAACAAGAGCAGAAGGAGAAGGGGCAATAGCATTAGGAAGAGAAACTAATGTATTTGCTAATAATGCGATTGCCTCAGGGAATAAGACATTGGTTTTATCAGAAGGTGGAGCTGCTTATGGTTTGTCAGCTATTTCAGGTGGACAAAACTCTGTAGCTATAGGGACAGAAGTTTATTCTAATGTTGAATATGATTATGAGGATAAAATAAAATTAGATGGAACTGATGGCAAAACTATAGAAACAAGTCTATTTGGTGATATAACTAAATATGGAGAAGTAGGAGCACATGAAACAAAAAGAGGTTTATATGGTTTTGATTTAAATGGTGTTGCTAAAACAATTATAGGGCTTGGGCAAGATGAGCCATTAGGAAAAGTTTGGGGAGCTTCAAAAGGAGAATATCTAAAGAGTGGAGATTATTTCTCAAATTACAAAAGCTATATAGAAGGTATAGAAAATGGATTAACTAAAGCTAAAGATTCTACAAATAAAAATAATACAAATGCAATAACTATAAAAAAGGCAGAAAAAAATGGAGTAAAAGATATAGCTAAAGGTAAGGGTAAAAATGCTATAGTTATAGGAAGTATGTCAGGAGCATTTGGAGATAATGGTATAGCTTTAGGTAGAGGTTCATTTTCACTATCAGATAATTCTATTTCAATAGGGTCATATTCATATACAAAAGATAAAAACTCTATAGCACTTGGGATAGCTTCAAGAGCATTAGCAGAGGGTTCTGTTACATTTGGTAATGGAGCTGGAGTAGATGTAAATGGTAAAAACTCTATGGTTTATGGTCATGGTTCAGTTGCATATGCTCCTAATTCAATAATACTAGGAATAAACTCACATATTTGGGGAAGTAAGGATCAAGGAGATTCTATTATCATAGGTAATAATGCTAATGTGAGTAGTAAAAAAGATGATAATAGCAAAAACAATTTAGTTGGACATAATGGAAAATCAGTACTTGCTTTAGGAAATAAGACTAATGCAACACTAGATAACTCAGTAGCATTAGGATATTTTTCAGCAACAGATTATACACAAGAGGATTTAAATAAGGCTGGATATACAGCTAGAGGTTCATATTCTATACCGAGTTCGACTAAAGTTGGAGTAATATCAGTAGGTAAGAAGGGACATGAAAGAAGAATAGTAAATGTTGCATCAGGATATAGAGATTCTGATGCTGTTAATGTTGCCCAACTAAAAACACTAGAAGATAGATTAGATGGAGCAACAGAAGAAGTAGATGATAAAGTTAGATATTTCTCTGTAAACACAGAAAATGACTTATCTAGTTTAATTAAGAAAAAAATAGACTATAAGAACTATGTTAAATTAAAAACACAAATGCTAACTATAGAGGCTAGAAAAAAAGATGGAGAAACAATAAGTGATTCTAACATTAGTGGATTGAAAACTAAATTAGAAGAATTAGAAAAGAATGATGAAGTAAAGAACCATGCAACTGAAATTAAGGCTTTAGGGAGTTTAGATGATAGTAAGTATAAGACTAATAATAAGTTTGATATAAATAAATATATTGATGCCTTAGAAAAAGCTAAAACAAAAGATTCAACTAGTGAGAAAATAGAAAAGATATTAACAGATGAAGAAAAAACTAAATTAATGTCAAATAATTTTGCTAATGAGGGAGCAAAAGGTAAGAACTCTATAGCTATAGGATATAGTGCAAGTACAGAAAAAGATAAAGCTGAAAATGCGATAGCTATAGGTAATGGAGCAAAAGCAACTGCTAAAGATAGTATAGTTTTAGGAAGTAATTCTGAAAATACAGCAGATGTAACAAAGTCTGGATATGATATTACTAATTCAAATTCTAATTCAGGTGCAGCTTGGAAACCAACTCATGGAGAATTTGCTATAGGTAAAGATTCAACAATTACTAGAAGAATAACAGGAGTAGCAGCAGGAGAAAAAGATACAGACGCTGTAAATGTGGCTCAACTTAAACAACTTGCCTCAGGATTACTAAAAGATAAAGAACTAATATTTGTAGGTAATACTGGTGGAGATGTAAAAGTTAAAATAGGTGAAACACTTAATATTAAAGGTGAAGGAACAGTTGCTAATGGAACAGCTGCAAACAATTTAAAAGTAACAGCAGATGAAAAGACTAAAACTTTAACTATAGGACTTGCAGAGAATTTAGTAGGAATAAATACTATAACAACTAAGAAGAGTGCAAACAATGAACAAACAGTATTATCTCAAACTGGTCTTAAAGTTACAGGAAAAGATAGTAAAGAAACATTAGTTACATCTGAAAATGTAGAAGTAAAAAATGGTACAGATAAGACAACATTATCAGCAAGTGGATTAAAAATCACAGATAAAGATGGAAAAGATGACAAACAAACAAATGAACTTACTAAAACTTCTATAACATTAAAAGATAAAACTGGTGGCAAAGAATCTACTAATACTATAACAGTATCTTCAAGTGAGATAAAAGATAAAGAGGGTAATAGTGTTAAAATAACAGCAGATAAAATAATTGTATCAAATGGAACTGAAAAAGTAGAAATAACTAAAAATTCCTTAATGGGAGCAACAACTGTTGGAAAAGATGCTGATAATAGCCTAATATTTGGAAGTGGAACAACAGATAATACTACTACAAAATTAAAGGTCGGTGGAAAAGAATTAACATTTACTAGAACAGGAGATAACATAAAGATATCTAATGTTGCAAATGGAGAAAATGATAATGATGCTGTAAATGTATCTCAATTTAAAAAGTACGCTGAATTTTTAGGTGGGGGAGCTAAGTTTGATAATGGAACATTTACAGGACCAACATATATGTTAAAAGCAGGAGGTACTACAGTAACTAATCATAAAGATGTTGGTTCAGCTTTAAGTGCATTAGATAAAGCTATAGAAAATTCATCTAAAAATATAACAGAACTTACTAATAAGCAGATATCATTCCAAGGAAACGATGATAGTCCTATAAGTAAAAAATTAGGAGAAATTTTAAAGATAAAAGGTGAGGGAACAGTTAATGGAGCTACGGCTAAAGATAACATTAAAGTTACAAAGAATGATTCTAATGATGGATTAAATATTAAACTAGCTGAAGATTTAAAGAATTTAAATAGTATAGAAACTAAAGAAGTAGGTGGAAAGAAAACAAAAATCACAACAGATGGTGTTGAGGTTACAAGTAATGATAATAAAGCTAATCTAACAGCAAATAAGTTAACATTTGGGGCAAAAGATAATAATACCGATAAAACAGAGACAACTATTGAAAAATCAGGGATAACTGTAAAAAATAAAGAAGGAAAAGATTCAGTAACAATAAAATCTGGAGATAATGGTGGAACAATAGAAGTTAAATCTAAAGATGGAAACTCAAGTGTTAAAATAGATGGAGAAAAGAAATCTATTACAGGACTTGCAGATATAAAACCAGATGAAACAGATGGAAGTATAGCAGTTAACAAAAATTATGTAGATAATCAAATAAGAGCAATAGCTAATGGACCATTTGAGTATGAAACATCAGATGGTGAAAAAGTTGTAAGAGGACAAGATAATAAATTGTATAAGGAATCTGAATTAAAGGATTACTACTATGATGAAGCTACATCTAAATACAAACATAAAACTAATGGTATGAATAATCAAGAACCAAAAGCATTAGAAAATAAAGATGTAACAGTAAATGTAATGCCTAAGAATGGAACACCAATATCAATAGGAAATGTAGCAAGTATTCTAGGAGAAGAAGCAACTAAAACATCAGATAAAGCTGCTGAAAAAGTTAAAGAACTAATTGGAAATTCTGATAATAGCAAAAACAAAGTAGCAACAGGAACAGATGTATTAGCATTAGCTATGGCTGGAATAAATTTTTCAGGTAATGAAGGTTCAGGAGAAAAAATCCATAGAAACATAGGAGAACAAGTAACTATTAAAGGTGAAGGAACAGATAGTAAAGATGACTTTACTAGTGCAAGTGGAAACATACAAGTTAAATCAGATAAAGATAAAGGAGAATTAACAGTAAAACTATCAGATAAGCTAACTAACATGACTTCATTTGAAACAAAAGAATTAGATGATAATGGAAATAAATCTAAAGTTAAACTAGATAAAGAAGGACTAACTACAATTAATAAGACAGATGATAATAAATACATAATGTCTAAAACAGGACCAAATGGAACTGAAATAGGTAAATATGATAATGATCCATTAATGAATAACAATACTTCACCAACAAATAGTGCAAAATATACATTAGAAGGAACAACAATAAAAGATGATAAAGGAAGTTCTAACCTAACATCAAATACATTAACTTTAAAAGATAAAGATGATAAACAAAGAATAACATTAGATAATAAAGGTGATACTCCAACTATTTCTTTATCAAATAAAGAAGGAGAAGAAACAGTTAAAATAGATGGAGGAAATGGAAAAGATAAAGAATCATCAATATCATTTAAGGTAGATAATGATAAAGGATTAGGAGTAGTAAAAGGTTTAAGAGATCTAACAGATAATGATCCAGGACATTATGCAGTAAATAAGAGATATGTAGATAATAAATTAAATGGAGCTTTAGGAGGGGTAGCAAATGCAATAGCAGTAGCAAGTATACCACAGATAAATGGAAAGGGACATAATATAGGAGCATCATATGGATATTATGAAGGACATTCAGCCTTTGCATTAGGGTTAAGTGGAATAAATGAAAGAGGAAATGTATTATATAAGGCAAACTTATCATTAAATACAAGAGGAAATGTAGGTATAGGAGCAGGGATAGGATATCAGTTTGGAGGAGATGATGTAAGAAGAGAAGAAGTAATAATAGAAAATAATCCTTCAAATGATATAAGAGATAGATTGATTGAACAAAATGAAAAGTTAATTAATCAGAATAAGAAGTTAGAAGAAGATAATGATAGATTAAGAAGAGAAAATGATAGGATAGGAGATGAGATAAAAGAGTTAAGAGAAAGAATAAAAGCAATAGAAAAAATTAAGATGAATGAAGATGACTTATACACACTAGATGGATATAGATTAGGTATACATGAGTTAACAAAGAGCCAAGAAGAGATGTTAATGAATATAGTAAGAGAGTTAAATGAGAACTATAAGAATAGGAAGATATATATAACAGGATATACAGATAATGTATCGGGAGAGAATTTAAATCTTGAGTTAGGTTTAAAGAGAGCAAATGTAGTAGCAAAGAAACTAAGAGAGTTAGGCTTAGATATGAGTATATCAATAAGGAAGGTAAGTTCATCAGGATATAATAACATAGTAGAAACAAATAAGAGTTCAAATGGAAGGTCTTCTAATAGAAGGGTGGAGATTGAATTAAGGTAAATAAATTTTTAGACTGTACTGAAAAATACTAAATAAAGATTTGAGGTACAGTTTTTATTTTAATATTGACAAAAAACCATGGGGGGGGGGTATAATATTTAGAAAGAATTAAAATATTAAATAAAGGTGATATATAGATTAATTTAATAGTTAAAAATACTCTCAAATAAATTAGTTTAAATATAAGGGTTAATACTAGTAAATAAAGGATATTGATTACTGTAATATTTAGTATAATTATTTCTATAAAATAGATTTATGTTAAAAATTACTTGTGATAGATTTAAATAATATAGTTTCACATTATGAAATCATTAAACAAGTTCTAAAAATATAGAAATAAAAATAAATGATGTATATCTACACTTTATGTTGATATATTAGAAAATTAAAAAGGATTGAAGAAAAAAATGAAAAGATTTGAAATACAGAAATTGAAAAATTATTTAAAGGCTTCGTTAAAAAATAAGGTCAGTATAAATGATAAAATAATAATAAGATACATTATGCTTGGATTTATAGGATTATCAGCAATGTCTTATGGTTCTTGGTTATCAATAAATGATAATACTGGAGCAGCTGGTTCAGATGGTGGTGGAAGTAACACGACTCATGGTTCGGATAATCAAAAAAATAATACAATATTAGCTTTATATAAAGATGAATATAAAACAGATCATTCAGTAATAATAGGAGCAGGTGGAAAAACTTATGGTAAGGGTTCAGAAAATGTAGTAATAGGATTTAATGCAAAATCTGAAAAACAACAAAATGTGGTAATAGGTGCTAATACTAAATCGGATTTACAAAATTCTGTAATTCTTGGAAATAAGTCTTATGTTTATAAAGATCATTTTGGTATAACAAACTATATACAAGATAGTGATGGTCAAGGAGTTGCTGTAGGTAACTCTGTATTTTCAACTGCACAAGCAACATCTATAGGGAATAATACATATGCTATAGGAAGATCATCTATAGCTATAGGTAATGATGATATATCAGCATATGAAAATAAAGTTACTCAACATGATTATGATAGTTATTTCAAAAAACTTTATGAAAAGATAGATAAAGATGGAACTCTATATGGTTACGGAAGTAATAATAAAACAGATGCAAGTAAACATAAATGGTCGCCAACACTAGCACAAGGACATGGATCAATAGCCATAGGTTCTCGTTCTATAGCCTATGCTGATGGTTCAACAGCACTAGGGACACTTGCTTATGCACTTAAAAAAGGATCTACAGCAGTTGGAACATTAACAAGAGCAGAAGGAGAAGGAGCTATAGCATTAGGAAGAGAAACTAATGTATTTTCAGATAATGCTATAGCATCAGGTAATAAGACATTAGTTCTAAAAGAAGGTGGAGCTGCTTATGGATTATCAGCTATTTCAGGTGGTGAAAATTCAATAGCAATAGGAACAGATGTTTATTCTAATGTTGATTATGATTATGATAATAGTAATATAGTATTAGGTGGAAATCAAAAAAAAATAGAAACAGGTTTATTTGGAAATATAAATAAATATGATGATCAAGGTTCAAGTAATGATGAAACAAAAAGAGGTTTATATGGATTTGATTTAAATGGAGTTGCTAAAACTATAATAGGTCTTGGACAAGATAATCCACCTGGTAATGTAAGTGGAGCTAAAAAAGGAGATTATTTAAACAGTGGAACATACTTTAGTCAATACAAAAGCTATATAGATGGATTAGAAAGTGGATTAAGTAATGCAATAACTAAAGACAATAAACAATCAACAAATTCAATTACTATAAAAAAAGAAGAAAAAAATGGAGTAAAGGATGTAGCTAAAAGCAAAGGTAAAAATGCAATAGTTATAGGGAGTAAATCAGGAGCATTTGGGGATAATGGGATAGCCTTAGGAAGAGGGTCATTTTCACTTGAAAATAACTCTATTGCAATAGGTTCATATTCTTATGCAAAATCAAAGAATGCTATTGCACTTGGTATAGTCTCAAGAGCTTTAGGTGAAGGTTCTATTGCTTTTGGTAATGGTGCTGGAGTAGATATAGAAGGTAAGAACTCTATGGTCTATGGTCATGGTTCAGTAGCATATGCTCCTAATTCAATAATACTTGGAATAAATTCTCGTGTTTGGGGAGATAAGAATAAAGGAGATTCCATTATAATAGGTAATGATGCTAGTATAGATGAATTAAAAGAAAATGGAACTGTAAAAAAAGGTCATAATGGAAAATCAGTATTAGCATTAGGAAATAAAACTAATGCAACACTTGATAACTCAGTAGCACTTGGATATCTTTCAGCAACAGATTATACACAAGAGGATTTAGATAAACCTGGATATACAGCAAAGGGATCATATTCTATACCAAGTTCAGCTAAAGTAGGAGTAATATCAGTAGGTAAAAAAGGAAATGAAAGAAGAATAATTAATGTTGCTTCAGGATATAGAGATTCTGATGCTGTTAATGTTGCTCAACTTAAAACATTAGAAGATAGATTAGATGGTGCAACAGAAGAAGTAGATGATAAGGTTAGATACTTTTCTGTAAATACTGATAATGATCTTGATGTTATAGCAAGAAAAAGAATAGACTACAGAAATTATGTTAAATTAAAAGTACAAAAATTAACGATAGAGGCTAGAGAAAAAGCTGGAGAAAATATAAATAAAGACAATGTTAAGGATCTGACTACTAAATTAAATGAGTTAGAAAAGAAAGATAATATAAAGAATCATGCAAGTAAAATTAATGCTCTAGGTAGTTTGGAACAAGATAAGTATAAAACAGATAATAAATTTGATTTTGATAAATATATAAAAGAATTAGAAAAAGCTAAACAAGAAGATTCAACTGAAACTAAAGTTGATAGCATATTAAGTGATGAAGAAAAGAATAAATTAAAATCAAATAATTTTTCTAATGAGGGAGCAAAGGGTAAAAATTCTATAGCTATAGGGTATAAGTCTAGTACAGAACAAGCTGCTGAAAATTCAATATCTATAGGAACTGATGCAGTTGCTAGTAAAAAAGATAGTATAGCATTAGGAAGTTTTTCTAAAAATACAGCAGATATATCAAAGTCAGGATATGACATTACTAAAGATGGAAGTTCTACTTCAATGGAACCAACATGGAAACCAAATAATGGTGAATTTGCTATAGGTGATGGAAGTAATAAAACTAGAAGAATAACAGGAGTTGCAGCAGGAGATAAAGACACTGATGTTGTAAATGTGGCTCAACTTAAAAAAGCAACTTCAGGATTATTAAATGATAAATTTTTGAAATTTGCTGGAAATGATGGTAAAGAGGCTAAAATTAAATTAGGAGAAACACTTAATATTAAAGGTGAAGGAATGGTTGTTGGCACAACAGCTAAGAATAATATAAAAGTAACAACTGATAAAGATAGTAAAATATTAACTGTAGGACTAGCAGAAAATTTAGAAAATTTAAATATGATAACAACTAAAATGAATGCAAATGGTCAAAAGTCAGTTTTATCAACAGAAGGACTTAAAGTTACTGGAAAAGATAGTAAAGAAACATCAGTTACATCTGAAAATGTAGAAGTAAAAAATAGTACAGATAAGACAACATTAACAGCAGGTGAATTAAAAATCACAGATAAAGATGGAAATGATGATAAACAAACAAATAAGCTGACTAAAACTTCTATAACTTTAACAGATAAGAATAACAATAAAGAAGATACAAATAAAATAACAGCATCTTTAAGTGAAATAAAGAATAAATCTGGTGATAGTGTTAAAGTAGAAGCTAATAAGATAACTATAGCAAATGGAAAAGATAAGGTAGAAATAACTAAAGATTCTGTAACTGGAGTAACTAAGATTGGTAAAGATGATAGTAATAGTTTAATATTTGGTAATGGAGTAGCAGACAATACTATTACAAAATTAAAGATTGGTGGAAAAGAGTTAACATTTACTAGATCAGGAGAAAACATAAAGATATCAAATGTTGCAAATGGGACAAAAGATAATGATGCTGTAAATGTATCACAACTTAAAAAGTATTCAGAATTTTTAGGTGGAAATTCTAAGTTTGAAAATGGAACAATCACAGGTCCAAAGTATAATCTAAAAGCAGGACAAGAGAATGCTAAAGATTACACTAATGTAGGAGATGCTTTAAGTGCGTTAGATAATGCTTTAACTACTTCAACAACAAACATAAAAAAATTAGAAAACAAAGCTATATCATTCCAAGGTAATGGTGGAAATACAGATAAAGTAGATAGAAAACTAGGAGAAACCTTAAAAATACAAGGTGAAGGAACAGTTGCAGGAGCTACAGCCAAAGATAACATCAAGGTTGAAAAAAATAAAGATAATGATGGTTTAGATGTTAAACTTACTGAAGATTTAAAAGGTTTAAACACAATAGAAACTAAAGAAGAAAAAGGAAAGAAAACAAAACTTGATACTAATGGTGTTGAGGTTACAAGTAATGATAATAAGGCTAATCTAACAGCAGATAAGTTAACATTTGGAGCAAAAGATACTAATAATGGTGATAAAACAAGTACAACTGTTGAAAAATCAGGAATAACTGTAAAAGGTAAAGATGATAAAACAAGTGTAGAAATTAAATCATCAGATAATGGTGGAATAATAAAATTATCAGATAAGTCTGGAAATGAAAAAATTAAGATAGATGGTGGTAAAGCATCAATAACAGGACTTGCAGACATAAAACCAGATGAAACAGATGGAAGTATAGCAGTTAACAAAAATTATGTAGATAATCAAATAAGAGCAATAGCTAATGGACCATTTGAATATGAAGCAATAAATGGAAAAGAAAAGGTTGTAAGAGGACAAGATAATAAACTGTATAAAGAATCTGATTTAAATAAACATTACTATGATGAAAAAGAGCAAAAATATAAACCTAAAAATAATAATAATGGAATGAATGGACCAAAAGCATTAGAAAATAAAGATGTAACAGTAAATGTAATGCCTAAGAATGGAACACCAATATCAATAGGAAATGTGGCAAGTATATTAGGAGAAGAAGCAACTACAACATCAGATAAAGCTACTGAAAAAGTAAAAGAACTAATTGATAATACAAATAAATTATATGAAAATAATAAAAACAAAGTAGCAACAGGAACAGATATATTAGCCTTAGCAAAAGCAGGAATAAGCTTTGAAGGTAATACAGGTTCAGGAGAAAAAATACATAGAAACCTAGGAGAGAAAGTAACTATTAAAGGTGAAGGAACAGATAGTAAGAATGACTTTACTAGTGCAAGTGGAAACATACAAGTTAAATCAGATAAAGCTAAAAGTGAATTAACAGTAAAACTATCAGATAAGCTAACTAACATGACTTCATTTGAAACAAAAGAATTAGATGATAATGGAAATAAATCTAAAGTTAAACTAGATAAAGAAGGACTAACTACAATTAATAAGACAGATGATAATAAATACATAATGTCTAAAACAGGACCAAATGGAACTGAAATAGGTAAATATGATGTTAATCCATTAATGAATGGTAATAATAAAGCTCAACCAACTACAAGTGCCAAATATACATTAGAAGGAACAACAATAAAAGATGATAAAGGAAGTTCTAACCTAACATCAAATACATTAACTTTAAAAGATAAAGATAATAAACAAGGAATAACATTAGATAATAAAGCTGAAACTCCAACTATTTCTTTATCAAATAAAGAAGGAGAAGAAACAGTTAAAATAGATGGAGGAGATGGAAAAGATAAAGAACCAACAATATCATTTAAAGTAGATAAAGATAAAGGATTAGGAGTAGTAAAAGGTTTAAGAGATCTAACAGATAATGATCCAGGACATTATGCAGTAAATAAGAGATATGTAGATAATAAATTAAATGGAGCTTTAGGAGGGGTAGCAAATGCAATAGCAGTAGCAAGTATACCACAGATAAATGGAAAGGGACATAATATAGGAGCATCATATGGATATTATGAAGGACATTCAGCCTTTGCATTAGGGTTAAGTGGAATAAATGAAAGAGGAAATGTATTATATAAGGCAAACTTATCATTAAATACAAGAGGAAATGTAGGGATAGGAGCAGGGATAGGATATCAGTTTGGAGGAGATGATGTAAGAAGAGAAGAAGTAATAATAGAAAATAATCCTTCAAATGATATAAGAGATAGATTGATTGAACAAAATGAAAAGTTAATTAATCAGAATAAGAAGTTAGAAGAAGATAATGATATATTAAGAAGAGAAAATGATAGGATAGGAGATGAGATAAAGGAATTAAGAGAAAGAATAAAAGCAATAGAAAAAATTAAGATGAATGAAGATGACTTATACACACTAGATGGATATAGATTAGGTATACATGAGCTAACAAAGAGCCAAGAAGAGATGTTAATGAATATAGTAAGAGAATTAAATGAGAACTATAAGAATAGGAAGATATATATAACAGGATATACAGATAATGTATCAGGAGAGGATTTAAATCTTGAGTTAGGTTTAAAAAGAGCAAATGTAGTAGCAAAGAAACTAAGAGAGTTAGGCTTAGATATGAGTATATCAATAAGGAAGGTAAGTTCATCAGGATATAATAATATAGTGGAAACAAATAAGAGTTCAAATGGAAGGTCTTCTAATAGAAGGGTAGAAATTGAATTAAGATAGTATAGTAGAAGGATTGATTTCTTTAAAAATGAGAAATTAATCCTTTTTTATATACAATAAAATATTTGTATTGTATAACTTTCTGAAAATTTACATGTATAAGATATTGACAAAATATAGTCGGGGGGGGGGTATACTTTTGTTGGAATCATAAAAACCTAAAATCATAAGTTGTATAAATAAATATTTTTTTTTAAAAAACTAGTTTAACAATAAAGTTAAAAATATAAGGTTATATAATTTATTTGCTCTAATATTAGGTTATTAAATTGATTCATATAAGGTTAAAAATTGAAAAAAATTGGGAGATAAAAAGGAGATAAAAAGGAGATGAAAAGGAGATGAAAAGGTAATGAAAAATTTTAAGATGAAAGAATTAAAGAGCTATTTAAAGCATAAAGTAAGTATAAATGAAAAAACAATAATAAGATATATTATGCTTGGATTTGTTGGATTATCATTAATCTCGTATAGTTCTTGGAATTTTTTAGCAATAAATAATGAAGCTTGAACAGTTGGAATATCCAAAAATAGCAGCAATCCTCAGGGAGAAAATGAAAATTCAAATAATAATTCAGTAATAATAGGAGCTGATACTGAATCAAATTTAGAAGATAGCAAGGGTAAAGGAATCACAGTAGGAAATTATGTTTTTCCAACAACATCTCCAACTTCTATAGGTAAATCATCTATATTATTAAGAGAAGGAGCTGTTACAGTTGCTAATGTGCGAGGAATGAATACTAATGGGAAAAATTCCATAGCATATGGAGATGGCTCAAAAGCGACTGCTCCTAATTCAATAGTACTAGGAATAAAGTCATATATTTTGGGAGATAAGAATCAAGGAGATTCTATTATCATAGGAAACAATGCGTATATATATTCTTTATATGGATCAAGTAATAATAAAAATGGTCATAATGCGAAATCAGTATTAGCGTTAGGAAATGAAACATTAGCAACACTTGATAACTCAGTTGCATTAGGACATAGTTCACAAACAGATTATATACAATCTGATTTAAATAAACCTGGATATACTGCAAGAGGATCATATTCTATACCAAGTTCAGCAAAAGTTGGAGTAATATCAGTAGGGAAAAAGGGTTATGAAAGAAGAATAATCAATGTCGCAGATGGATACAGAGATTCTGATGCTGTAAATGTATCTCAACTTAAAACATTAGAAGATAGATTAGATGGTTTAACAGATAAAAATGATGATAAGATTAGATACTTTTCAGTAAAAGATGATGAAGAATTAATAAAACTAGCTCAAAAGAAGATAGATTATAAAAATTATGTTAAATTAAAGACAAAAATGTTAACTATAGAGGCTAGAAAAAAGCTGGAGAAACAATAGATGATTCTAACATTAGTGAATTAAAAACCAAATTAGAAGAATTAAAAAAGAAAAATAAGATAGTTAGTAAAGCGACAGAAATTGAAAAAATAAGTACAGATGGTGTTGACTATAACAATAATAATACTTTTGATATGTAAAAATATATGGAAGATTTAGAAGAAGCAACACAAAAAGATTTAGCTAAAGAAATACTAACAACTGATGAAAAAAATAAATTAGAAAATGAAAACTATAATAATAAAGGGGCAAAAGGTAAAAACTCTATAGCAATAGGACATGGTGCTAGTACAGATAAAAATGACGGTGAAAATGCAATAGCTATAGGTAAAGGAGCAAAAGCAACTACTAAAGATAGTATAGTTTTAGGAAGTGATTCTAAAAATACAGCAGATATGAATAATGTAGGATATGATATTACAAAAAATAATAGTAATTCAAATTCAAACCTTAATTCTGATGCAACTTGGAAACCAACTCATGGAGAATTTGCTATAGGAGATGGAACTAATAAAACTAGAAGAATAACAGGTGTTGCAGCAGGAGAAAAAGACACAGATGCTGTAAATGTGGCTCAACTTAAGAAAATTTTTGAATTAGATGTATTTAAAAGCAAGGAACTTATTACATTTATTGGTAATGATAAAACTAATGAAATACCAATTAAAGTTGGAGATAAACTTAATATTGTAGGTGAAGGATCAGTTGATAATGGAACAGCAGCAAATAATATAAAAGTAACAGCAGATAAAGACAATAAAAAACTAACAATAGGACTTGCAAAAAATCTAACAAATATAGAGAGTATAACAGTTAGTAAAAATGGACAAGAAACAAAAATAGAACAAGGGAAGATAACTGGTGTAAATACTATTGGAAAAAATGATAATAATAGGCTAGTATTTAATAATGGTAATTCAGGAACTGCAATGTTAAAAGTTGATGGTAAAGAACTAACATTTACTAAATCAGAAGAACATATAAAGATATCAAATGTTGCAAATGGAATATCTGATAATGATGCTGTAAATGTATCACAACTTAAAAAGTATGTAGATGCCTTAGGTGGAAATGCTAAAATAGATGATAAAGGTAATGTTACAGGACCTACATATAAATTAAAAGTAGGAGCTACAACAAATGATGCTACAAAAGATTATAATACTGTAGGAGATGCTTTAAAAGCTTTAGATGATGCTATAGGTAACTCATCAAAAAATATAACAGATCTTACTAACAAACAAATATCATTCCAAGGTAATGGTGGAGATACAGATAAAGTAAGTAAAAAGCTAGGAGAAACTTTAAAAATACAAGGTGAAGGAAATGTTAGTGGAAATACAGCCAAAGATAATATTAAAGTTGAGAAAAATAAAGATAGTGATGGCTTAGACATTAAACTAGCTGAAGATTTAAAGAATTTAAATAGTATAGAAACTAAAGAAGCAGGTGGAAAGAAAACAAAAATCACAACAGATGGTATTGAGGTTACAAGTGATAAAGGTAAAGCTAACCTAACAGCAGATAAGCTAACATTTGGACCAAAAGATGATAAATCAACTGATAAAACAAGTACAGAAGTTGGAAAAGATGGAATAACATTAAAAAGCAAAGATGGAAAAGATTCAGTATCAATAAAACCAAGCAATGATACTGATGGTGGAATAATAGAAGTTAAATCTAAAGATGGAAATTCAAGTATTAAAATAGATGGAGAAAAAGGTTCTATTACTGGACTTAAAGACATATCACCTAATGAAACAGATGGAAGTATAGCAGTTAACAAAAATTATGTAGATAATCAAATAAGAGCAATAGCTAATGGACCATTTGAATATGAAGCAATAAATGGAAAAGAAAAGGTTGTAAGAGGACAAGATGGTAAGCTATATAAAGAAACAGATTTAAATAACTACTATTATGATAAAGATTCATCTTCATACAAACCTAAAAATAATGGAACTAATAGTGTTGCCCAAGGACCAACTCCATTAGAAAACAAAGATGTAACAGTAAATGTAATGCCTAAGAATGGAACACCAATATCAATAGGAAATGTGGCAAGTATTCTAGGAGAAGATTCAATTACAACAGATAATAAAGCTTCATCTAAAGTTAAAGAACTAATCGAGAATACTAATAGCTTATCTGATAATAGCAAAAACAAAGTAGCAACAGGAACAGATATATTAGCCTTAGCAAAAGCAGGAATAAGCTTTGAAGGTAATACAGGTTCAGGAGAAAAAATACATAGAAACCTAGGAGAACAAGTAACTATTAAAGGTGAAGGAACAGATGACAATAAAAACTTTACTAGTGCAAGTGGAAACATACAAGTTAAATCAGATAAAGCTAAAGGTGAATTAACAGTAAAACTATCAGATAAGCTAACTAACATGACTTCATTTGAAACAAAAGAATTAGATGATAATGGAAATAAATCTAAAGTTAAACTAGATAAAGAAGGACTAACTACAATTAATAAGACAGATGATAATAAATACATAATGTCTAAAACAGGACCAAAAGGAACTGAAATAGGTAAATATGATAATGATCCATTAATGAATAACAATACTTCACCAACAAATAGTGCAAAATATGGATTAGATGGAATAAGCTTAAAGGATGATAAAGGAGAAGTAAAATTAACACCAACAGAATTAGACTTTAAAGATAATAAGGGAAGAATAAAAGGCTTATCAGATCCAGTAGATCAAAATGATGCAGTAAATAAGAAGTATGTAGATGAAAAGATAGCAAGTACAAGTGGAGGTATAGCAAATGCAATAGCGAGGGCAAACTTACCACAGATAAGTGGAAAAGGACATAACATAGCAGGATCATATGGTTACTATAATGGAGAACATGCATTTGCATTAGGACTGTCAGGAACAAATGAAGTATCTAATTTAGTATATAGAGCAAGTGGGTCATTAAATACGAGAGGACATGTATCATTAGGAGCAGGACTAGGTTATCAATTTGATAATATAGGGAAGAGAAGTAAGGAGATGTTAAAGTTAGATAGATATGGAAATATTAATTTACTTGATGAGAAGGTTTATGAACATGGAATAAAAATAGAAAATCTTGAAATTTCAAATGAAAAATTAAAGAAAGATAATCATGAATTAAAAATGAAGGTTGTAGAATTAGAGAAATTAATACATGAATTAATGAAAAAATAGAAATTTTGGCGAACTTATTCTCGCCACCCCTTATTTTTCACAGCCAAATACATTAAAATGGCTATGAAAAGAAGAGATTCTTTTTAATAAATTTAATTATTTGAAATTTATGAATATAAATAAAGACAATAAATATATGTTAATAATATATATAATGAAATGTACCAATAAACGAGATAAAAGTTTTGAGGTACATTTTTTATTGTGATTTTTTTATACAAAGTATATTGACAAAATACACTGGGGGGGGGTATACTATGTATTAATGTTTTGTGAATAAAATATCTTGATATGAAAAGTATGTTTTATCAAATTTAAAAAGGAGGTTTCTTAATAGTTATTTCAACTATGAGAGAATAAAATGAAAAAAAATAATTTGTTTAAAATATTATCCTTTATCTCTATAATGTCATATATAAGTATAGGTAATGAAAAAGGATCAAATATTATTGGAAATAAGAGGGCAGCTTCTGTATTAACAAATACAGCAACAGGAGAAAGAGCTATAGCTTTAGGAGAAGATGCTAAAGCTTCAGCAAATAGAGCAATAGCTATAGGAGAAGATTCAGAATCAAGTGGACAAACTTCCATAGCAATTGGAGCATATTCTAAAGCAAATTCACAAGCTGCTGTTGCTATTGGAGAAGGAGCTAAGGCTAGTAGTGATTCTTCTGTAGCAATAGGCTCACTATCTAAGGCTTTAGAAAATTCATCAATATCTATAGGAAAAAATAGTGAAGTAAAAAAAGAAAACTCTATAGCAATAGGAAAAGAAATCTCTGTAGAAGGTGAAAATGCTATTGCAATAGGTTTAGAATCATGGATTCAAAGTAAAGATGGAATTGCAATTGGAAAAAAAGCTAAATCAGCAGGTGAAGGTGCAGTTGCATTAGGTAGTGAAGCTGAAGCTACAATGAGAAATGCTATAGCGTTAGGGAATGGAGCAGTTGCTCTTGGAGAGAATACAGTATCATTAGGTGGAGATGCTATGGCAACAAGTAAAAATACAATTGCTATAGGAATTAATTCAAAGGCAGAAAAAGAAAGTTCAATAGCACTTGGAAGTGGAGCTAGATCTTCTAAAAAATATGGTATATCACTAGGAGAAAATTCAAAATCAACAGGAAATTCTGCAATATCTATAGGACAGAAGAGTATTTCTAAAAACTCTAATTCAATAGCTATAGGAACATCTGCTACTTCAAATATAGAAAATTCTGTAGCATTAGGAGCAGAAAGTGAAACAACAGTAGCTAAACCTACAAGTGAAATAGTTAAACCTAGATTTTTCTTAGATTATAAAGATTTTGCAGGAAGTAATCCTTATGGTGTAGTATCTATAGGATCTAAAGGAAAAGAAAGACAATTACAATATGTAGCAGCAGGTCAAATAAGTAAGGAATCAACAGATGCAGTAAATGGTTCACAACTATTTTCAGTAATTTCAAACTTTGATGCTTTTGTAGCGTCTATGAAATCTGTTATAGGAAATGTTGCTTTTCTTAATAGAGATGGTATTCTTCATACATTAAATATAGGTAATACTGGAAAAAACAACATACATGAAGCAATGAAAAGCCTAAAAGATAAGATAGATGAGAATAGAAACAGAATAGAAAAGATAGAAAATACTGAAATAAAATTAGGAGGAGATAAAAATACAAGTACAGAAGGACAAAAGATAGGAGAAAATAATTCAAATAATGGATCTAACATAGGGAATCAGAATCAAAACAAAGGAAAAGAAATTAAATTTGAAATAGTAAAAAAAGAAAATAGTGAACATATAGAAACAAAAGCAAGAGGAAATAAGGTAGAAATAGATTTAACACAAAAAGCAAAAGAAGATATTAAATCAGGAAAAGAAGCAAAAGAAATAATAGATAATAAAGGCTTAACATTTAAAGGAGATAAAGGAGAAACAAATATTCAAAAACTAGGAGATACACTATCTATAACAGGAGGAAGCTATATAACAACAAAGGCAAAAGGAAATGAAGTTAGTGTAGATCTAACAGATAAGACTAAAAAAGATATAGAAAAGGGAGTATCAGCAAATAGTGGAGTAGCAAATGCTGTAGCAATGGCAAACTTACCACAAATAAATGGAAAAGGACATAATATAGCAGGATCATATGGTTACTATAACGGAGAACATGCATTTGCATTAGGACTATCAGGAACAAATGAGAAAGTAAATCTAACATATAGAGCAAGTGGATCATTAAATACAAGAGGTAACATATCATTAGGAGCAGGATTAGGTTATCAATTTGATAATATAAGCAAAAGAAATAAAGAACTACTAACACTACAAAGAAATGGAAACATTAACTTGCTTGATGAGAAAGTATATGAATTAGATAATAAGGTTAAAACTTTAGAAAAGAGAGTTAATGAACTAGAAACTCTTTTAAGAGAAATAATTAGAAAATAAGGGAAATATATTAAAGGAACTATGTCTATGTAATTAGATGTAGTTTTTTTTATATAAAAAAATAATAATCAAAAGATATGATAAATACTAATTTAAGATGTTTCTTACATTTTTTTAACAAAAAATAAAGATTGACAAAATATGCTGGGGGGGGGGGTATACTTTTAGAGAAAAGTTGTGAAAAAAATATTTAAAAAGGAGAAAAAAAGTGAAGGGTGAAAGTAAATTAAAAAAATGGTTAAAAGGCAGAATAAGAATAGACAAGAGAATAATAATAGCCTTTTTAATAACAGGAAGTATTTTAAGTAATCTATCTTATTCAAGAGAAACATATGAGGAAGATCCAACAGAAACTCAAAAAGATGTAGATTTAACAGATGGATTTCATCGTGGAAATTCTGCAAAATTAGATTATGATCCTAAAAAAGTACCTAGAATATTAGATAATAAGGTTCCAGGAAATACACTTGATACTACGAAAAAAAGAGGAACAGGAGTAGCCTTAGGTGCATTTTCTCATGCAGGAAAAGGAGGAGTAGCTTTAGGAAGCCACTCATCAAGTGGGGGTGCAGTATTTGGAGTAGGTATAGGATTTCAAGCGAGGGCAACAAAGGCATCAGCAATAGCAATAGGAGCAGGAAGTTATAGTAATGGATATTATTCACAAGCATATGGAAGAAGTGCTACAGCTCTTGGAAATGAATCAATAGCACAAGGAGTTACATCATTAGCAAAAGAAAAAGGTTCAATAGCAATAGGAACAAATGCAACATCAAGTGGTGAAAATGCTATAGCTATAGGATCATCAGCAAGAATAAGAAATGCCCTATATCAAACAGATCAAAGTAAAAGAACAGATGCTTCAGGAAAAAATTCAGTAGCTTTAGGTCATATGTCTCAAGCTTCTATAGAAAATGGTATTGCTATAGGTAGTGAATCTAAAACAACTGTAGATAAAGGAATAGAAGGATACAATCCAAATTCTAGTGATACTGAAACATTAAAAGGAAATGTATTAAAATCTACACATGCTGCTTTAGCAATAGGAAATGGTTCTACTGTAACAAGACAAATAACAGGACTTGCAGCAGGAAAAGAAGATACAGATGCAGTAAATGTAGCTCAATTAAAAGCTTTAGAGAAAAAAATTACTAATTTAAGTGATGACACTATAAACAAATGGAAAGAGAAACTAACAATAGGATATAAGGTTGGGAGTGAAACAAATTCTAAGACAGTATCTTTATCAACAGGACTACACTTTAAAAGTAGTAATGATAACCTAACTATAACAAGTGGAGATAAAGGAGAAGTTAAATTTGAATTAAAGCAAACAGACACAATAAATGGAACTAATGGCAGTAGTAGCAATAAACTAACAACTGAAAAAGCAGTTAAAAGTTATGTACAAGAGCAAATAAAAGATGTAAAAGAAGGTAAATTTAAAGACCTTACTATTACTTCTAAAGATGATAGTAGTAAAAAATCAACAATTGAAACAGATAAAGATGGAGATCTAGCAGTAAAAAAAGGAGATAATGGTTCATCATCTAAGATATTAACAGAAGCTAATGTTGGAGAAAAAGCTAAACTAAAATATAAAGCAAATGGTAGTGGAGAAAAAGAAGTTGAATTAAATAAAGGATTAAATTTTAAAGATGGAACCAATACTAAAGCTACTATAGGAGAAAATGGAGAAGTTAAATATGATTTAAATGATAATCTAACAGGAATAAAATCTATTAAAGGACTTGAAAGTAGAACTACAGATAAAGATGATTATGGAACAAGTGATAATGAAGGAAGAGCAGCAACAGAGGGAGCAGTTAAGAAACTAAAAGAAGAGATAGAAAGTAAACTAGGAGATAGTTCAAAAGATGATCAAAGTACTAAGAATAAAAATGGTTCAGCAGGAAAAGATGGATTAAATGGAAAAAGTATAAATGAAAAAATAAATTCAATAAGAAGAGGAGAATCAGGTTCATTAGTTTATACAGATGAAGAAGGAAACAGAGTAGTTAAAGCAGATGATGGAAAGTTCTATAAAAAAGAAGATGTAGAAACAAATGGAAAAGCTAAAGCTAATGCAACTGCTGTAACTAATATTAGACAAAGCCTAGTAGATAAAGATGGAAGTACTACAAACCCAACAGTATTAGGGAATGTTGGAGCAGCAACAAAAGATACTGATGCAATTAATTTAAAACAATTAAAAGATTTAGGATTAGATCCAACAGCACAAAATAAGAAACCAGCCCTAACTTATGATGGAGAAAATAAAGAAAAGATAACTTTAGGAAAAGATACAAGTAATCCAACAACTATAACTAACCTAAAAGAAGGAGAAGTATCATCTACATCAAAAGATGCAGTTAATGGAAAACAACTACATGAATTAGGAGAAAAATCATTAATATTTGGAGCAGAAGAAGGAACAAACTTTACAAGAAATAATAATCAAACTAAAACAGTTGAAATAATATCAACAAAAGAAGAGATAAAAAAAGATGGAAATACTTATGTAGGAAATAATCTAACAACAAAGATATCAAGTAATGGAAATAAGGCGACTATTTCAGTGGGATTAAAAGAAGATCCAGAGTTTAAAGAACTAACAATAAAAGACTATTTTAATAAAGAAAGAATAAGATTTAGAACAGAATATGATAAAGGAGTAATAGACTTTTTAAATAATGAAGGAGTAATAAGAGGTTTAGCAGATCCAGTAGATGAAAATGATGCAGCCAATAAGAATTATGTAGATAATAGTGTAACAAAAGCTTTAGGAGGAGTAGCAAGTGCAATAGCGATGGCAAATCTACCAAATGTAAGTGGAGGAGGACATAATATAGCAGGATCATATGGTTACTATAACGGAGAACATGCATTTGCATTAGGACTATCAGGAACAAATGAAAAAGTAAATCTAACATATAGAGCAAGTGGATCATTAAATACAAGAGGGAACATATCATTAGGAGCAGGATTAGGTTATCAATTTGATAATATAAGCAAAAGAAATAAAGAACTACTAACACTACAAAGAAATGGAAACATTAACTTGCTTGATGAAAAAGTTTATGAACTAGAAAAACAATTAAATAAAGTGGAAAAATTAAATCTTGAGTATAAAAATGAAGTAGAAGAATTGAAAGTTAAAGTTAATAAATTAGAAAAAATGCTTAATGAATTAATTAAAAAATAAATTGAATATATTAAAGGTCTATGTCTATATAATTAGACATAGTTCTTTTTGCATATAATATTTAAAAATTTACATATTGACAAAATATGCTGGGGGGGGGTATACTTTTATTAAATATTTTGTGAAAAAAATATTTTTACTTAGAAAGGGAAAATAAGTATGAAAAAAAGGAGGTGAACTACATAGTTAAATAATTAATTATGTAGGGAGCATATGAAGAAAAAGAATTTAATGGCAATTTTAGCGTTCATTTCTATTTTATCTTATGGTATGGATAAAAAAGTAGGAGCTAATGTATTAGAAGGAGAAAAATCATTGTTTGTTGGTTTAAACTCTTCCACCAATAATGAAGAGAAGGTAAAAATAGGAGCTAATGCAAAGGCTGATAGTGAAAAATCAATAGCAATAGGAATGGATTCAACTTCAAGAGGTAAAAAGGGAATAGCTATAGGAGCAGGATCTCTTGCTGGAGCTGAGAAACATCTTAGTAATGAAATAGAAGATACTATAGCTATAGGAACAGATGCTAAGGCAACAGCAACAGATGCAATAGCAATAGGGAATAAGGCTAATGCAAGAACAAAATATGGTATAGCAATAGGTACAGAAACTAAAACAGATGGAATAGCATCAATAGCTTTAGGTTATAAAAGTGATGCTAATTCAGATTCAATAGCTATAGGTAAAGAAGCAGTAGGTTATGGAAAGGGAGTAGCACTTGGAGAAAATGCACATTCAAGAGGACGTAGTGTTGCAATAGGGCATAAGGCAGATTCAAAAGGAGTATATTCATATGGAAATGTTGTTATAGGGAATGAAAGCACTACAAATGAGAATTTAGTTTATTCAACAGCATTAGGAAGTGGAGCTAAAGTAGAAGCAAATTATTCAACAGCACTTGGTTCAAAATCTATAGCTAAAAAAAGAGATAATAGACTTGGATATGATATGTTAACTAATAAGGAAGTTAAATTAGAAGATAAATTATCAGAAGTGGATAAAGGGAAATATCTAAGTTTAAAATCAGAACTAGAAACTATGATAGAAGATAATAATAAGGTTGTAGAAGAAGCTAAGGTTATTACTTCAAAAGATTACACACAAAGAACTGAAGAAGAAAAGAAAAAATTATCAGAATTAAATGATAAAATAGGAGAAAATAATAAAAAAATTAATGAAAAATATACAGAATATTCAAAGATAGTTAAGGCATGGAAGGCAACATATGGAGAAGTGTCAATAGGAGATATAGAAAAAGGAATAACTAGACAAATAACAGGACTTGCTGCTGGTAAAGAAGATACAGATGCAGTAAATGTTGCTCAATTAAAATCATTAGATAAGAAATTAGAGGAAGAAAATAAGACATATTTCCATGTAAATACAGGTAAAAACAAAGATACAGGAGATAAAGACAGTAATTTAGGTAAAATGGGAGATTCAGCAGGAGCAATTGGAGATGGATCTATAACAGCAGGAGCGCAAGCTAAAGCTGATGGAGATAATGCTATAGCTATAGGAAAGAAAGCTGAAACAAAACAATCTTCTGGGATAGCAATAGGGCATTCTTCTAAATCAGAAGGAAATCATTCCATATCTATAGGTAAAGATAGTAAGGCATCTGATTTAGATTCAGTAGCATTAGGACACCAAGCTAGATCAACTGGAAGCCGTTCTACTGCATTAGGACCACATTCAGAGGCAACAAAAGATAATGCTTTAGCACTTGGAGTATGGTCTAAAGCAACAATGCAGGGTGCAATAGCTATAGGGAGCAATTCTACATCTAATGCTTCTAGTGCTATAACAATTGGAGAAAATTCAAAAGTAGAAACAGGAGCAGAAAATAGTATAGCAATTGGAAAAGAAGCTAAAAGCTTAAAGAAAGATAGCATAGTTCTTGGAACAAAGGCTGAAGCACAGGGTGAAGGATCAATAGTTTTAGGATATCATTCTAAATCAAAAGAAAATGCAATATCTATAGGTAAAGAAAGTGAAGCATTAAGCATAGGTTCTGTATCTTTAGGGCATAGTTCAAAAGCAAAAGGTGAAAGATCAGTATCTATAGGAGCTTATGCAACTGCTGAAAAATCTAATGATATAGCGATAGGATTATCATCAAAAGCTTCAGGAGGATATTCTATAGCAATAGGATTATCAGCTAAAGCAGAGGCTAGTAGTTCTACAGCTATAGGAATTAATTCAAAAGCAGATATAGAAGATTCAGTAGCACTTGGTTCAGAAAGTAAAACAACAAAGGCAACATCAGTAAGTGAAGTTAAAATAGGTGAATTAAAATATGGTGAATTTGCAGGTAAAAACCCTATGTCAGTAGTTTCTATAGGAACTAAAAATAAAGAAAGACAACTACAACATTTGGCAGCAGGTCAAATAAGTAAGGAATCAACAGATGCAATAAATGGTTCACAACTTTATGCAACTAATATGGTTTTAGGAACATTTGTAGATTCAACTAAAAGTATTTTAGGTGGAAATGCAAGTGTAACTACAAATGGAAAACTTACTATGACTAATATTGGTGATACTGGTAAAAATACTGTTCATGAAGCAATAAAAGCTTTAGATGATAAAATAGCTCAGTCAATAAAAGACTATAATTTTAATATAACATCAGGGCAAAGTGGAACAGGAAGTGCTAGTGGATCAAATTCAGAAAAAATAGGAAAAGATAATACATTGAAACTTATTGCAGGAGATAATTTAAGTATTACTCAGAATGGAAAAGATTTTACTTATTCATTAAATAAGGAATTAAAAGGAATGAGTAAAATTGATTTTGAAAAAAGTGAAGTATCAATAGGTAAAGATGGATTAAATAATGGTGGTAAGAAGATAACTAATGTAGCAGATGGAACAGAAAGTACTGATGCTGTTAATAAAGGTCAATTAGATAAGTTAGAAAATAAGATAGATAAAACAAAGAAAGAAATAGATAAAAAGATAGAAGATATAGACAAAAAAGTTGATAAGAAGATAAAAGATGTAGAAGATAAAGTGGACAAAAAAATAGAAGATACTAAAAAAGATTTAACAGATAAGATAGAAAAAGCAACTAAAACATTAAAAACAGAAATAACTGCAAATAATGGAGAAGAAGCAAATAAAACTAAAGGTCCAGTAACATTAACATCTAAAAAATCAGATGCAGGGCATAATATTTATGATATAAGCTTAGCTACAACACAATTAAAATCTAGTGAAGGTGGAAAGATAGAAACACCTAATTCAGAAGATTCTAAAAAGGTAGCAAATGCAGGAGAAGTAGCTAAAGCAATAAATGCTTTAGGAAATAATACATTATCATTTGGTGCAGACAAAGGCAATACAGAAGCACAAAGCTTAAACAAAAATGGAGGACTTAAGTTTGCAATTAAAGGAACAGATTACATTAAGACAGAAGCAAAAGGAAATGAAGTTAGTGTAGATCTAACAGATAAGACTAAAAAAGATATAGAAAAGGGAGTATCAGCAAATAGTGGAGTAGCAAATGCTGTAGCAATGGCAAACCTACCACAAATAAATGGAAAAGGACATAACATAGCAGGATCATATGGTTACTATAACGGAGAACATGCATTTGCATTAGGACTATCAGGAACAAATGAAAAAGTAAATCTAACATATAGAGCAAGTGGATCATTAAATACAAGAGGGAACATATCATTAGGAGCAGGATTAGGTTATCAATTTGATAATATAAGCAAAAGAAATAAAGAACTACTAACACTAAAAAGAAATGGAAACATTAACTTGCTTGATGAGAAGGTATATGAGTTAGAAAAACAATTTAATGAAATGAAAAATAAGTTAAAAGATGAAATAAAGGAATTGAAATTTAAATTCTCTGAATTAGAAAAACTAGTTAAAATAATGAATAGAAGATAAGTGTAAGGTCAGTGCAAAATCTGACCTTTTTTCTATTCAAGATATAGATTATTTGATATAATAGTGATTAATAGAGCTTTACTGTTTTTAAATTATCAAAATAAAAGTTGAACATATTTTACAAAAAAACATATAAAAATTTTCCATATGAAAATAAAAATTGAGGATATACTTTAGTAGAATATAAAACATATAGGAGGAAGATGTATGGTTATTAATGTAAGAAGTGAAATCAACACTTTAAAAAAAGTATTGTTACACAGACCTGGTAAAGAATTATTAAATTTAACACCAGATACGTTAGAAAGATTATTATTTGATGATGTACCTTTCTTGAAAGTTGCACAAGCAGAGCATGACAGATTTGCTGAGATTTTAAGAGAAAACGGAGTTGAAGTTGTATACTTAGAAGACTTAGTAGCTGAAACTTTAGATAGTTCTCATGAATTGAAAGTTCAATTTTTAAAACAATTCATCGAAGAAGGTGGAGTACAACTAGAAGTGTATAAAGAAGCTTTATTAAACTTTTTCTTAAGCTATACAGACACTAAAGAAATGGTTCTTAAAACTATGGAAGGTGTAAATATGGCAGAACTTAAAGTTCCTAGAAAAGATCTAGTTAGTTATTTAGATGATCCATCTGAATTAATTTTAGATCCTATGCCTAATTTATACTTTACAAGAGATCCGTTTGCATCAACACAAAATGGAGTAATCTTAAATAGAATGTATTCAGTAACTAGAAATAGAGAAACTATTTATGCTTACTATGTGTTCCATTATCATCCAGAATATAAAGGAAAAGTTACTTTCTTCTATGACAGAACTAATCCTTTCCATATTGAAGGTGGAGATGTGTTAAACATTAACGATAAGGTATTAGCTATAGGAATTTCTCAAAGAACTGAAGCAGCAGCTATAGATTTAGCAGCTAAGACTTTATTATTTGATGAAGCAAATTCTCATATAGAAACAATACTTGCATTTAGAATTGCAGAAAGTAGAGCATGGATGCATTTAGATACAGTATTTACTCAAATAGATCATGACAAATTCAGTGTACATCCTGCAATTTTAGGACCATTAGAGGTATTTGAATTAAGAAGAGATGGTAATGATGTTAAAGTTACTCCTAAAGAAGGTAAACTTGAAGATATCTTAGCAGAATACATGGGAACTAAAGTTACATTGATACCTTGTGGTGGTGGAGATAGAATAGCTGCTGAAAGAGAACAATGGAATGATGGATCAAATACTTTATGTATAGCTCCAGGTAAAGTTATAGTTTATGAAAGAAATGATGTAACTAATGATTTATTAAGAAAACATGGTATTAATGTTATTGAAATGCCAAGTGCCGAATTATCAAGAGGACGTGGAGGTCCTAGATGTATGTCTATGCCTTTAGTAAGAGAAGAAAATTAATATAAATAGATAATGTATAAAGAAAGAGAAGGAGATTTATATGCCAAAGAATTTACAAGGGAAACACTTTTTAAAATTATTAGATTTTAGTACAGAAGAAGTTAGATATTTAATAGATTTATCTAAAAAATTTAAAGAATTAAAATTAACTCGTACACCACATAGATATTTAGAAGGGAAAAACATAGTATTATTATTTGAAAAAACTTCTACAAGAACTAGATGTGCATTTGAAGTTGCAGGAATGGATTTAGGAATGGGAGTTACTTATCTTGATCCAGGATCTTCTCAAATGGGTAAAAAAGAAAGTATAGCAGATACAGCAAGAGTATTAGGAAGAATGTATGATGGTATTGAATATAGAGGATTTTCTCAACAAATAGTTGAAGATTTAGCTCATTATGCAGGAGTTCCTGTATGGAATGGTTTAACTGATATGTTCCATCCAACTCAAATGTTAGCAGATATGTTGACTATTGAAGAACACTTTGGACATTTAAAAGGATTAAATTTCACATTTATGGGAGATGCTAGAAACAATGTTGCAAACTCATTAATGGTAGCTTGTGCTATGCTTGGATTAAATTTCACAGCATGTGGACCAAAAGAATTAAAACCTGAAGCAGAATTAATTGCTAAATGTGAAGCTATAGCTAAAGAAAATGGAGCTAAAGTAAGATTTACAGAATCTGTTGAAGAAGGATGTACAGATGCTGATGTAATTTATACAGATATATGGGTATCTATGGGAGAACCAGATTCAGTTTGGGAAGAAAGAATAAAATTATTAAGCCCATACCAAGTTAATAAAAAAGCTATGGGATATGCTAAAGAAGAAGCTATATTCTTACACTGCTTACCTTCATTCCATGATTTAAAAACTACTATAGGTAAAGAAATTCATGCTAAATTTGGATTACCTGAAATTGAAGTTACAGATGAAGTATTTGAAAGCAGACAATCTAAAGTATTTGATGAAGCAGAAAACAGAATGCATACAATTAAAGCAGTAATGTTTGCTACATTAAAATAGGGGTGGAGTATGGGTAAAAGATTAGTAATAGCACTAGGTGGAAATGCTTTAGGAAATAATCCTAAAGAACAATTAGAGTTAGTTAGAGGAACAGCAAAAGCTATAGTATCAATGGCAAAAGAAGGATATGAAGTAATAATAGGACATGGAAATGGTCCACAAGTTGGAATGATTAATCTAGCTATGGATTATGCAGCTAATGGTGAAGTAAAAACTCCATATATGCCATTTGCAGAATGTGGAGCAATGAGCCAAGGTTATATAGGTTATCATCTACAACAAGCAATAAGAGAAGAACTAAAAACTCAAAATATAAATAAAGAAGTAGCTACAATAGTTACACAAGTTTTAGTTGATAAAGAAGATGAAGCGTTTAAAAATTTAACTAAACCAATAGGAATGTTCTATAGTAAAGAAGTGGCAGAAGAAATAAGAAAAGAAAAAGGATTTACTTTTGTTGAAGATGCTGGACGTGGTTATAGAAGAGTAGTTGCATCACCAAGTCCTGTTAAAATTATAGAATTAAATGTAGTTAAACAATTAGTTGAAGCTGGAAATATTGTAATCACTGTTGGTGGTGGAGGTATACCAGTAATAGAAACTGAAACAGGATTAAAAGGTGTAGATGCTGTTATAGATAAGGATAAATCAAGTGCTAAACTTGCACAAGATCTTAATGCTGATATGTTAGTTATATTAACAGCAGTTGATAAGGTATGTATTAACTTTAACAAACCAAATCAACAAGAACTATCTGAATTAACTTTAGAAGAAGCTGTAAAATACATAGAAGAAGGGCATTTTGCTAAAGGATCTATGTTACCAAAAGTTGAGGCATGTTTAGATTTCGTTAAAAATTCAAAAGGAAATGCCTTAATCACTTCACTTGAAAATGCAGCAATTGCATTACAGGGTAAAACAGGAACATTAATTAAAAAATAATAAGAAAAGAGGAAATGGATATGAGTGAAAAAAAGGAACGTAAGTCATTATCAGCTTTTACAATAATATTCATACTATTAATATTAATAGCTCTTGTTACAAGAGTATTGCCTAAATTACCTGCTGATGTTACATCTGAAATGTTAAAAGAAAATATATCACTTGCAACAGGAGTAAATGGTGCATCAATATCTGATGTATTTATGGCTACTTTTAATGGATTTAAAGATGCAATAGATGTTGCAGTATTTGTACTACTTCTTGGAGGATTTTTAGGTATAGTTGCTAAAACAGGAGCATTAGATGCTGGAGTTGGAGCATTAGTTAAGAAATTAAAGGGTAGAGAATTATTGTTAATTCCGATTTTAATGACACTATTTTCTATAGGTGGATCTACTTATGGTATGGCAGAAGAAACTATAGCTTTCTATGCTTTAATATCAGCAACTATGGTTGCAGCTGGATTTGACACTATGGTAGCGGCAGCAACTGTATTACTTGGGGCTGGAGCTGGAGTTTTAGGATCTACAGTTAACCCATTTGCAATAGGAGTTGCATTAGATGCAGCTAAAAGTGCAGGAACAAATCCATCTAATGGAACAGTAGTATTATTAGGAGTTATATTATGGATTACAACATTAGTACCTGCTGTAATGTTCGTTATGAATTATGCTAAAAAAATTAAATCAGATAAGGGATCTATAATACTTTCTTTACAAGAACAACAAGCAATGAAAGATAATTTTGGACATGTAGATTTCTCAAACTTAGAATTTACAACTAAACATAAAATGACATTAGGAATATTCGCCTTCTCTTTCGTTATAATGATACTTTCATTAATAGCTTGGGCAGAATATGATATACATGTATTTGAGGGGTGGACTTCATTTTTAACAGGAACACCACTTGGGGAATGGTATTTTGGTGAGTTATCTATGTGGTTTACTTTTATAGGAATAATCATAGGTGTAGTAAATGGATTTAGTGAAAAAGAAATAGTTGATTCATTCATGTTTGGAGCAGCAGATATATTATCAGTAGTTTTAATTATAGCTTTATCAAGAGGAGTTTCTGTATTGATGTCAGTAACTTTCTTAGATAAATATATATTAAACTTAGCTTCACAAGGACTTGCTGGATTATCAGCATTGATATTTGCACCAGCATCATATGTGTTATACATGGTACTATCATTCTTTATTCCATCTACATCAGGACTTGCTTCAGTGTCAGTTCCTATACTTGCACCACTTGCTAAGAGTTTAGGATTTAGTGTTGAAGTAATAATAATGATATTCTCAGGTGCTTGTGGATTAATTAATTTAATTACACCAACATCTGGAGTAGTTATGGGAGGACTAGCAGCAGCAAAAGTTGAATACGGAACATACTTTAAATGGGTATTAAAATTATTAGTAATGATATTTATTATTAATATAGTAATATTAACGGCTGCAATGATGTTTATATAAATCTCAGTTTCTTATTTATACATTTGAGCCCGAAAGGGCTCTTTATATTAGGAGGAAAATACTATGAAAAAAACATTAAGTTTAGGATTATTACTTTTTTCTATACAAGCATTAGCTTGTACAGGGTTTATTGCAGGTCGTGATGCAACTGTTGATGGATCTATGATTTATGCTAGAAATGAAGATCTTAAAGGAGTTAATCCTAAAAAATTTATGATAGTTGAAGCCAAAAAATATAAGTCAGGGGAAATGTTCATAAATCCAGATACAGGATTTAAATGGTCTTACCCTAAAAAAGCATTAAGACATAGCTTAATTCCTGATGCTGATCCGAGTTATGGAATATTTGGAGAAGCTGGGATTAATGAACTAGGAGTAAGTGTTTCTGCAACAGTTTCAGCAAATGCTAATGAACAAATTCTTAAATTAGATCCATATGTAAAAGGTGGATTAACAGAACCAGATATAGCTTCACTTGTATTAATGCAGGCTAAAACTGCAAGACATGCAGTAGAAATTATTGCAGAAATAGTTGAAAAAGTTGGGGCTGGAGAAGGTAATGTTATAGTATTTGCAGATAAAAATGAAATGTGGTATATGGAAATTTATACTGGACATCAATATACAGCAGTTAAAGTACCTAATGATGTCTATGCAGTAATTCCAAATGCTTTCTATTTAGGAAGTTATAATTTTAAAGATAAAGATGTAATTTCTTCTAAAGATATAGAAAAATTACCTGAAAGTAATGGACTAGCAAAGACAGTTGATGGTAAATTCCATTTAGCTTTAACATATAGGGAAATACATTCTAAATATAACTATGATAGAATAGCTATGGGACAAAATCTTTTCTGTCCATTATTACCAGTAGAACATAATAGTGAAATAGCTTATGAACTTTTTAGAAAACCAGATAAGAAAATATCTGTTAAAGATGTAATGAATTTTTTAAGATACAGATATACAGGGACAGAATATGATGTAGATACTGTTGATAATAAAGGGAAAATAAGAGCTATAGGAACAGATACTAATTTAGAAGCACATATATTCCAAATTAGAGAAAATGCTCCTACAGTTATGTGGTTAGCTATGGGAACAGTAGAACATTCAGTATTTGTTCCATATTATGAATATATAACTAAGACACATAAGAGCTACACAGCAGATGCAAAAGAATTTAATAGAGATTCTATGTATTGGGCAATGAAAGGACTTCATATACTTGCAAGAGAAGATAGAATCAGATATGGTTTAGGTGTAAAAACTTATTGGGATAAAGTGGAAAATGATTTTATTACAATGTTAAAAGAAGAAGATAAGATTATAAATTCTAAAAAAGGATTAGATAAAATTAGATATGCAAACAAACTTGGATTGATGAAAGCAGAAAATGTTAAAAAAGATGCTGATAAAATGTTTAATCAATTGATGTATTTTAAAGGCAGTATGACAGATATGACAATTCAAGGTAAAAATAAGAATGCCAAATTCGAGTATAAAAAATAAAGTGTAGTAATTAGTTTAAAGGAATTATCTTTAATTTAGGTAATTCCTTTTAATTTTAATTGTATTTATCTGATAAAAAAATTATGGCTTTTATTGGATAGGAATAAAAGATTTAATGAATAGAGTGTAGTATTAAAAATATATACTAAATTCCAAAATCATTGCTTTTTTTAAAATATGAATGTATAATTATTGTGGGAAAATAAGAGGGTATTAGTTATAGTTTAAAATTAGATAATAAATATGATATTAAGTATTATTGTGGTTGAAGGGATAGTTATGGACTATAAACACAGATTATTATTAATCCTTGTACTAACTGGTGAAATTGGGATTTCAAATTTAGCCAGACATGATATGAATTGGGAAGATTATGAAGATTTTGCAATGAATAGAGGTAAATATTCTATTGGTAGAGAAAAAGTTAAAGTCTATAAAAAAGATGGGACAGAATCAGGAGAAATATCAGCACCTATTCCCAATTTTGATGGTGTAGTTGATACAGGAAACTTTGCTTTATGGGGAGATTCTCAAATCTTATCAGGAGTACATCATGTTGCTCCACCCAAAAACTTTACTTTTTCAAAAAGACATTTTAGAAATGATGTAGAACTTTTTGAGGGATATAAAAAATTAAGCTTAGATGATAAATATACAAAATTTTCTGAAAGTATTGAGGTAGCTCATAGACAAAAAGTTGAGATAGATTATGCACTAGTAAGAACAGACAGAATAGCTTTTGATGCTTATGTTTCAGAGGGAATAACTAAAGACCAATGGAAGAAAATAGGGATAGGAGATTTAGTTGCAAGAGTAGGTAGAGGATTAAATAGAGTAGCATATGATAATGGAGTAGAAAAAGATATAGATAAAGACCATCATTTTGCTGGTGGATTAAATAAGATAACAGGTAGAAAAAAAACGGGATTAAATCAAGATTTACAAACATCTTTAGAAAAAACTGCTAAAACTCCTCTTGATTCAGGAGCAAAAAAAGGAGACAGTGGTTCTCCACTTTTTTGGTGGGATGAGACAAATAAAAAATGGCTTATAGCAGGAAGTCTTAGTAGAGGGGATGCAGTAGGAGGATATGGTAAAAAGCTATACTATTTAGCTCATCTTTCTTCATATGAAGATTTAAAAAAGAGTACAACAGATAAAGAAATTACTACAGAAACAGAAGGGGATGTAAAATTTGAAAATGGAGTTTTAAAAGTTGGCAATGAGGAAAGAAAATTTAAGAATAAAGAAACTATAAGTGTTAATGGAAATAATACTACTAAAAATCAAATATTTAATAAAAAAGGTTTAGAGGTTAAAGTAGAGGGAAATACAAATACTTATGCAGCAAGACTTGAATTTAAAGAAGATACAACTTTGAAAGGCAGTGGAACATTAGAAACTGCTGGTTTTGTCGTGCATAAAAATAAGACTTTAACATACGATATATCATCTAATACTTCATCTACTAAAGGAGAAACTAAAAAGATAACTGTTAGAAAAGTAGGTGAGGGGAAATTAGTTATTAAAAGTACAGGTAAGAATATAGAACATTTAAATTTAGGTGGAGGAGAGACAGTATTTGAAAACTCCATTGATAATCCTGTTGCTGATAATATTAGATTAGCACAAGGTGCAAAACTTACAATAACTAAAGAAAGTCAAATAAAAGATAGTAATGTAATGTTTGGTCATAGAGGTGGAACTTTAAATTTAAATGGAACAGATTTAGAGTTTAAAGATATTTATCATATGGACAAAGATGCTAAGATAGTAAATGATAAAGAAGGAAAAGATTCTAAAAAATCAACATTTACATTTACCCCTAATAGTGGTAAAAGAGTATTTTTAGGAAGCTTTAAAGGTAATTTAGATTTAGTGTATAAGGGTGCTGAAGATAAAAATAATGATAATAAAAGTGAATGGTCAATAAGAAGTGAAAATACAGATATTACTGGTAAATTTGATATTGAAAAAGGTTATGTGAAAATTGAGGGAGATAATGTTATACATGGCTCTGATGATACAAAATCTGAAAACACAATAGTTTATGAAGATGAATATAGAGAAACTAAATTTAAATCAAAAACTATTAATATTAAAAGTTCATCAACATTATCAGTTGGTAGAGCAACTGAAGTTGAGTCAGATATTAATGTTGAAGAAAAATCTACATTAGAAATGAATCTATTAGGAAAGGTTGTAGATAGACCTACTCCATATGAGGGAGCTAAGACAGAAAAACAAATTAATGAAACTGTAATTAAGGGAAAGATAGATTTTAAAGGTAATAACAAAAGTGATACTAACACTAATGTTTCTAATTACAACTTTAAGGCAAATATTGAGAATAACCATTCATCTATAATAGAATCAAAAATTACTGGTACTATTAAGGCGATAAAAAAAGGAACAGGACTACTTTATTTAAAAAATGACAATAATACAGGTTTAAGTGGTAGTATTGATGTTGAGGGTGGAAAATTAAAAGTTAAAAAAGAAGAAACTTTAGGAAGTACTAAAACCTTATTAAAAGATAGTTCTGTACTTGAAGTAGAAGAAAACGATAAATTAGAAACTTTACTTGATAAGCTTGATAAAACTTCAACAGGAGTTCTAAGCTTAGGAAAAAGTATTACAAATATTGATGCCAAGTATAAAGAATATTCTAATCTGTATTTAGGAAGTAGTCAAAATATTACTATAGGAGAAGAAAATAGTCCTATAGATTCAAGTATTAGCACTTTAAATTTAGGTGGAGATAATGGAACAGTAACCTTAAAAGGACTTGATAAATCAAAGAATATATCTAAAATAAATGCAGGAGATGGAGAAAATAGAGGAACTGTAGTAATAGATAAAATAGGAAAAGAGAATAATAACTTAGAAATAGATGCAAAAAAAGGAATAAACTTAAAAATTAATAATAATGAAAATAATAATAGTAAAATTATTAATTTAGGTTATGGTGCTAGTATAGATAGTAAACATAAATCTCTTTTAAAAGATAATTCAGAGGGAGTATTGTATTTAGAAAATGATTTAGAAGAAACTATTAGTAATGATAAACTAGCTATAGGAGTAGCTAAAAGTAAAGAAGTAACTTTAAATGAAGATAAATCTGGTAATAATAAATATTATTTTTCTGGAGAGGGAAAACTAGGAATTAATCATAAACTTAATAATAAAGAACTAGTTGTAGACGGTCAACATTTTTCAGGTGGAGTAGTTGAACTTAAACAAAATTCAGAAAACTATAAAGGTGATGTTACTGTTATGGGAAATAAAGAGGGTAAAAATGATGGTAATATTACTTTAAAACTAGGTAGTGATAATGCTTTAGGGAAAAACAATAAAGTATTGCTTAAAGATGGTGGAATATTAGATTTAAATGGTAAAAATTTAGAAGCTAAGATAGATGAGAATAATAACAAGCATGGAAGCATAATAAATAAAAATGAAAAATACTCTACTTTAAAAGTAAGTGTTGAAGATAAAGATTTAAAATTTAATAATAAAATATCAGGTAATGTTAATATAGTTAAAAAAGGAAACTCAGCTATAGAATTTACTAATGAAGATAATAAATTTAATGAGGATAAAAAAGCTAATATATATATTAAAGAGGGACAATTAAACTACTATAACTCAAAATCTTTAAAAAATGCTAATGTTCATATAGAAGATAATACAGTATTAAATACTAAAACAGAACAAATTAGTTCTGAAATTACTGCAAATGGTGGAACTATAAAGGTTAATTCACCAACAGATAAAGAAAAAGATAGTAAAGCTACTAATTTCTCTAAATTAACATTAAAAAAGGACTTAGTTGTTGAGGGAACTAAGAGTGATGATAAAAGTAAGGTTACATATAGTGAAATTAATTTAGGTGGAAAAAAACTTACATTAAAAAATCAAATTGTAGAAAATGCAGATATATATGAAAATGGTAATAATAGTGGAGAGGTAATACTTGAAAACTCAACTTATTATGAAGAGGGAGCAAGAAATGAAGCTCTGTATGAAAAAAATGTTAATGAGATTTTATACAGTAAAAGTGTTTCTAAAATTACATTAAATAATTCAGATTTAGTATTAAAAAATTATAGAAGTATAGGAAGTTATGCAAATACTGGTCAAGCAGTTGACATTGAGGTAAATGGAAAATCTAAAATAACCAATCTCAGACAAAATGATATTGTTGGAACAACAAATTTAAAGAATACAATAGATATTAAAGAAAATGCTTCTTTAACTTTAGGACTAAATGATAAAAATGATAATTCTTCTTTTGTTGTAAATTCTAAGATTAAAGGAAAAGGAAAATTAATACTTGAGCAAACTAATAAAGGTAGTATAACTATAAAGAATAACTTTAAAGATTTTACTGGAAGTATAGAAGCAAATGAAAATTCTAAAGATAAAGAATTTAAATTTGACATTGATTCGGCAAATGAAGAAGATAGAATACTAGGGTATAAGTTTATTAGTGGTAAATACTCTAATATTACTAATAAATCAATAGGATTTAAAAACATTAAAGAGTTTACAGGAGAGATTAGTAGTAAGGGAGATGTATTATTAATAGGTAAAGATGCACTTACAACTAAGGGTAAAATATCATTACAGGATAATAAGAATGTAATTTTTAAAGCTGATGAAGATTCAGTAATGGATAAGATGAATATAGAGGCTACTGGTAGTTCTAAAATAGTTAAACAAGGTTCAAAAAATCTTACTATTAATGATATAACTACAAAAAATATTAAAGAAGTTGATATTGAGGCTGGAACTTTAACTATTAAAAAAGACATATTTAATAATTCAGATGATAGTAAATATAACTTAAATAATAAAAGTAAATTAGTTGCTGAATTTACAGAAACTGGTGAAATTAAATCAAGCATAACAGGAGCAGGAGATTTTGTACAAAAAGGGTCTAAAGTTACAATTAATTCTAAAAATTTAAATAATACTGGTAATTTAGAATTAAATAGTGAACTTGATTTAAAATTAGATAATGATACAACTTTAAAACAAGAACTAATTGGAAATGAGAGTGGAAAATTAAATATATCTAGTTCAGATGCTAATAAAACTAATGAATTAGAGATAAATAAAGAAATATCTAAATTTAAAGGAACTATTAATTTAAGTAGTGGAAATTTAGCATTAAATCTTCAAAATGGTGTGGTTAATAATAAGATAACAGGAGATAAAGTACTATATAATAAAAATGAAAGTCAACTAACTTTAAATAATGTAGAAGAGTTTAAAGGTACAGTTGAATCACAAAAAGGTGATGTTTTGTTTTACTTAATAAATAAGACTAGTATTTCTAAATATGTTATAGGATCTGGTGGTGATATTAAGATTAATAACACTAAAGATATTGATTTAAGTGATAAATCATTTGAAAATAAAGGAAATAAATCATTAATTAAATCAGGAGATTCTAAATTAACTTTAGGTGCAAATAGTTTAAAGGATATCAAAAACATATCTGTAGATAAAGGTACTTTATTTTTAAATAATATGAATACTAATAATTATACTGAAAAGATAGAGGCAAGTATAACGGTTAAGAAAGATGCTAGTTTAGAAGTTTCAGATAAGATATATATTAAATCAATTACAAATTCAGGAAATATTGCAGTTGGAGATAAAAGCTTAAAAATAGCTGATTATACTTCAAATGGTGGAGAGTTTAACATTAAGTTAAATGAAGATAATAAAAATTTACTTGAGATTGAAAAATCAAATAAAGATGTAAATGCTAAAGTTGAAATTAGCAAAGAAACACTAGATAAAATAATTAAAGATGATAAAAAGCTAAATGTTGCAAAAATTGCAGATCATAATTTAAATATTACAAATCTTTCAAAATATGAGAGTGTCTATGAACTTGATGTAAAAAAAGACACTGATGATATTTTTAAAATATATTCTATGATTAAAACTAATGTGTTAAATAAGCTATACATGTTTAATGAATTAGATTTAATTAATGATATGAGTAATGAATTAAAATATAGAAATGTTATTGAAGCAAATTATGTAAGTTATAATAAAATAGATAAAGATTATTTAAAACTTAATAATACAGATTACAAGAATAAATTACATTCTAATGGTGTAGAAATTAACTTTGAGAAAGCTAATGATATGAGTGAGTTTAAGCTTTCAGGTGGATTTAATTTCAAAGTATTAGGAAGTAGTTTAACTACTGATGTTAAAGGAAAAGATCCATTTACTAAAACACTTGTTAATATAGGGGCAGTACCTAAGTTAGGAATAAAATATAAGGTTATTGATGTTAATTTAGGATTAGGATTAAATACAGTAATAGTAAATAACAGAAATAGTAAGGATAGTTTAGTATATTTAAATAATTCATTAAATGTAGGAATAAATCCTAGCTTTAAGATAAACGATGATTTTAATATAAGGTATTTAAATAGATTTGGATATAAGATAAATGCTTTAATTGGAAAAAGTGAGAATCTAATAGAAAATTATAACATATCACATAAAAAGCCTATTAGTATATATTATGAAACAGGAGTTAAATTAGAACATAAATATGTAGATTTCTTTAGTAAGGCTAATTTGGAATATAATTGGTCAAGATATGAAATTTCTAATAATGGACAAAGTGTAAACAATAGTTTTAAAGATGATTGGAGAATTAATATAAAGACGGGGTTTGAGTTTAAACCAACTGATAGAATATATATGAATTTAGATTTTGATGCAAATTTATACCAAAAATCATACGGTAAATATATATTTAGATTAGGAACGGGATATAATTGGTAATACTTTTATGTCAAATAAAACTTAAACAAGATTTAAAAGATATTCGTAAATTTCATAAGATGTTAAAGAATTGAAAATTTTCAATAAATTTAACATCTTTTTTTCTTGATTTATTTATAGACCTATTTTTAGGAATAAATTTTATTGACAAATACATCTAAATACTGTATACTTGTTTAGTACAACATACTTATGTTGTGGTTGGATATATGTTTAAATTATTGTAATTTCTACTTTAAATGATGACATTTAGGGTAGTTTTCTTGTGTTTTTATTGTTAGAACGTCAATGGAACCACGAGGGAATATAGACTTAAAAGTGGGTAGGAATATTATCACGATGATTTAACTATATATGAATAATTAAAATAAGTTTGGGAGGAGGAAATATGCCTACAATTAATCAATTAGTAAGATTTGGTAGAAGCACATCTGAAAAGAAAAAGAAATCACCTGCGTTAAAAGGGAATCCACAAAAAAGGGGTGTTTGTGTAAGAGTATATACAACTACACCTAAAAAACCTAACTCAGCGTTAAGAAAAGTTGCAAGGGTTAAACTAGTTAATGGTATAGAGGTTACTGCATACATTCCAGGAATTGGACATAACCTACAAGAACACTCTATCGTATTAATAAGAGGAGGAAGAACTAAGGATTTACCAGGGGTTAGATATAAGATAATAAGAGGAGCACTTGATACTGCGGGAGTTGTTAATAGAAAACAAGCAAGATCAAGATATGGAACTAAAAGACCTAAATAAATATAAATCATGAAAATGAAGGAGGCAAATCGTGTCAAGAAGAAAACAAGCTAAGAAAAGAGATGTTTTACCTGATTCAAAATTTAATGATATCATCGTAACTAAATTCATTAACGGATTAATGGTTGATGGTAAGAAATCAGTTGCAGAAAACATTTTTTATTCAGCAATAGAAGAAATTGAAAAAGAAACGAATGAATCAGGATATGAAATATTCAAGAGAGCTATGGAAAATGTAAAACCACAAGTAGAAGTTAGATCAAGAAGAATCGGAGGAGCTACTTATCAAGTTCCAGTAGAGGTTAGAAAAGAAAGACAACAAACTTTAGCTATTAGATGGTTAGTAAAATACACTAGAGATAGAAAAGAATATGGAATGATACTTAAACTTAAAAAAGAATTAATTGCTGCTGCAAATAATGAAGGTGGATCAATTAAGAAAAAAGATGACACTTACAAAATGGCAGAAGCTAATAGGGCATTTGCTCATTACAAATGGTAATATAGGAGGAAATAATGGCTAGAAAGGTTGCTTTAAAAGATACTAGAAATATAGGTATCATGGCACATATAGATGCTGGTAAAACAACTACGACAGAAAGAATCTTATTCTATACAGGAGTTAACCATAAATTAGGAGAAGTTCATGATGGAGCTGCTACTATGGACTGGATGGAACAAGAGCAAGAAAGAGGAATTACAATTACATCAGCAGCAACTACATGTTTCTGGAAAGGGCATAGAATTAACATTATAGATACTCCGGGGCACGTTGACTTTACTGTTGAGGTTGAAAGATCTTTAAGAGTATTAGATGGAGCAGTTGCAGTATTTTCAGCAGTTGATGGTGTACAACCTCAATCAGAAACAGTTTGGAGACAAGCTGATAAATATAATGTACCAAGACTTGCATTCTTTAACAAAATGGATAGAATTGGTGCAAACTTTGATATGTGCGTAAGCGATATTAAACAAAAATTAGGTGGAAATGGTGTACCTATACAATTACCTATAGGAGCAGAAGATGCTTTTGAAGGAGTAATTGATTTAATAGAAATGAAAGAATACATATTCACTGACAAACAAGGTGAAGATTATCAAGTTGTTGATGTTAGAGATACTTTAAAAGATGATGCAGAACTTGCAAGAAATCATTTAATTGAATCAATAGTTGAAACAGATGATGAATTAATGGAAAAATATTTTGCTGGAGAAGATATTTCAGTTGAAGAAATAAAAAGAGCATTAAGAATAGCTACAATAGCAGGAACTGTTGTTCCAGTATGTTGTGGAACTGCATTTAAAAATAAAGGTATCCAACCCCTATTAGATGCTATAGTAGCATATATGCCTTCACCAGTTGATATTGAAGCTGTTAAAGGAGTAGATCCTAAAACAGAATTAGAAATCTCAAGAAAACCTGCTGATGAAGAAAAATTCTCAGCATTAGCATTTAAGATAGTTACAGATCCATTCGTAGGAAGATTATCATTCTTTAGAGTTTATTCAGGAGTATTAGAAAAAGGTTCTTATGTATTAAACTCAACTAAAGGTAAAAAAGAAAGAATGGGAAGATTACTTCAAATGCATGCTAACAAAAGAGAAGAAATTGATGTAGTTTATGCAGGAGATATAGCAGCAGCAGTTGGATTAAAAGATACAACTACTGGAGATACATTGTGTGCTGAAGAAGCTCCAATCATATTAGAAAGAATGGAATTTCCAGAACCAGTTATCTCAGTTGCAGTAGAACCAAAAACTAAAGCTGACCAAGAAAAAATGGGAACAGCATTATCTAAACTTGCAGAAGAAGATCCAACTTTCCAAGTTAAATCTGATCAAGAAACAGGGCAAACTATCATAGCAGGTATGGGAGAATTACACTTAGAAATAATCGTAGACCGTATGAAAAGAGAATTTAAAGTAGAAGCTAATGTAGGTAAACCACAAGTTGCTTACAGAGAAACTATACTTGGTTCTTCTGATGTTGAAGAAAAATATGCTAAACAATCTGGAGGACGTGGACAATACGGACATGTTAAAATTAGAGTTGAAGCAAATGATGGAAAAGGTTATGAATTTATTAACGAAATTACAGGGGGAGCAATTCCTAGAGAATATATTCCAGCTGTAGATAAGGGAGTAAAAGAAGCACTTGATTCAGGAGTTTTAGCTGGATATCCAGTACAAGATGTTAAAGTTACACTATATGATGGTTCATACCATGAAGTGGATTCATCAGAAATGGCATTTAAGATTGCAGGATCTATGGCAATGAAAAAAGCTTTAAGAGCTGCAAATCCTATCTTACTTGAACCTATATTCAAGTTAGAAATCACAACACCTGAAGAATATATGGGAGATGTTATAGGAGATTTAAACTCAAGACGTGGAACTGTATCAGGAATGAATGATAGAAATAATGCAAAAATTATTTCAGGAGGAGTACCTCTATCAGAAATGTTTGGATATGCAACTGACTTAAGATCAAAAACTCAAGGAAGAGCAACATATTCAATGGAATTTGAAAAATACCAACAAGTTCCTAAGACTTTAGCAGAAAAAGTAATAGCAGAAAGAACAGGAAAATAATTAACTAAAGGAGAAAATAAAATGGCAAAACAAAAATTTGAGAGATTAAAACCACATGTAAATGTAGGGACAATAGGACACGTAGATCACGGTAAGACAACAACAACAGCAGCGATATCAAAAGTACTAGCATCAAAAGGATTAGCACAAAAGGTAGACTTTGAGAACATAGATCAAGCACCAGAAGAAAGAGAAAGAGGAATTACAATAAACACAGCTCATATAGAATATGAATCAGAAGCAAGACACTACGCACACGTAGACTGTCCAGGGCATGCTGACTATGTAAAGAACATGATAACAGGGGCAGCACAAATGGATGGAGCAATCTTAGTAGTATCAGCAGCAGATGGACCAATGCCACAAACAAGAGAACATATATTACTAGCAAGACAAGTAGGAGTACCATACATAGTAGTATACTTAAATAAAGTAGATATGGTAGAAGAAGAAGAGTTATTAGAATTAGTAGAAATGGAAGTAAGAGAATTACTATCAGAATATGGATTCCCAGGAGATGATATACCAGTAGTAAGAGGATCATCATTAGGAGCATTAAATGGAGAAGCAAAATGGGAAGAACAAATACTAGAATTAATTAACCAAGTAGATACATATGTACCAACACCAGAAAGACCAGTAGATCAACCATTCCTAATGCCGATAGAAGATGTTATGACAATAACAGGAAGAGGAACAGTAGTAACAGGAAGAGTAGAAAGAGGGACAGTTAAGGTAGGAGAAGAAGTAGAGATAGTTGGAATAAAAGATACAACAAAATCTACAGTAACAGGAATAGAAATGTTTAGAAAATTATTAGATTCAGGAGAAGCTGGAGATAATATAGGAGCATTATTAAGAGGAATAAAGAAAGAAGAAGTAGAAAGAGGACAAGTATTATCAAAACCTGGTACAATTAAACCTCATACTAAGTTTAGAGGAGAGATATATGTGTTAACTAAAGAAGAAGGAGGAAGACACACACCATTTTTCACAGGATATAAGCCACAATTCTACTTTAGAACTACAGATATAACAGGAGAAGTAAACTTACCAGAGGGAGTAGAGATGGTAATGCCTGGAGATAATATATCAGTATCAGTAGAATTAATACACCCAATAGCAATAGAAACAGGATTAAGATTCTCAATAAGAGAAGGTGGAAGAACAGTAGCATCAGGAGTAGTTGCTGATATTGCTGAATAATAAATTTAACTTAACTGTAAAATAATAAATAAATTGAGGAGGAATTATTTTGGATAATAAAAATAAAAGAATTTATCTTCAATCTTACGATAACAAGTTATTAGATCAAATTTCTGCTAAAATAGTAGAAGTGGTAAAGAAAAATGGAGCAAAAATTGCAGGACCAATGCCTTTACCAACTAAAACTAAAAAATATACAGTTTTAAGATCTGTGCATGTTAATAAAGATTCAAGAGAACAATTTGAAATGAGAATACATAGAAGATTTATTGAAATTAAAGAATCAAACAATGATATTTTAACATCTTTAAGCTCAATAAGTTTACCAGCAGGTGTTTCAATAGAAATAAAGCAATAGTGCTTTGATACAAGTTGGTAGAGCCTTTGAGCTCTATCAACCAATATATTAAGGAGGAAAGAAATGATATTAGGTAAAAAAATTGGAATGACACAAATTTTTGAAAACGAAAAATTAATACCAGTTACTGTAATTGAAGCTGGACCAAATTTCGTAGTTCAAACTAAAACAGTAGAAAAAGAAGGTTACACTTCAATAACTTTAGCTTATGATGAAAAAAGAGAAAAATTAGTAAATAAACCAGAAATGGGTGTTTTCAAAAAGGCCGGAATCACAGCTAAGAAATTCTTAAAAGAATTTAAAGTAGAATCAGTTGAAGAATTTGCTTTAGGTCAAGAATTAAAAGTTGATGTATTAGAAGGTATTGAATTTGTTGATATTCAAGGAATCTCAAAAGGTAAAGGAACTGCTGGGGTTATGAAAAGACATAACTTTGGTGGAAACAGAGCTACACACGGGGTTTCAAGAAACCACAGACTTGGAGGATCAAATGCAGGAGGAGCTGCATCAAACTCAAATGTACCAAAAGGGAAGAAAATGGCTGGAAGATTAGGAAATGAAAATGTAACAGTTCAAAATCTAAAAGTTGTTAAATTCGATGTAGAAAATAACTTATTATTAGTTAAAGGTGCAGTACCAGGTCCTAAAAATGGTTATTTAGTTATCAAGAAATCAATAAAAAAATACTAATATAGAGAGAGGAGGCAAAGATGTCAGATTTTAATTTAAAAGTATATAATTTAAATGGTGAAGAAAAAGGAGTAACTACTGTAAGTAGTGAAATCTTTGGATTAGAACCTAATAAATATGTAATGCATGAAGTATTAACAGCAGAACTAGCTGCATCACGTGCAGGAACTGCTTCAACAAAAACAAGAGGAGAAGTATCTGGAGGAGGAAGAAAACCTTTCAGACAAAAAGGAACAGGTCGTGCTAGACAAGGATCAACAAGAGCACCTCATATGGTAGGTGGAGGAGTTGTTCACGGACCAAAACCAAGAAATTATGATAAAAAAGTTAATAAAAAAGTTAGAAAATTAGCTTTAAAATCAGCATTAGCTGTTAGAATCCAAAATGGAGATGTAATTGTATTAGAAGACTACATGTTAGATACTCCTAAAACAAAAGCATTTGTTAATTTTACAGAAAAAGTTAATATGGTAGAAGATAAAAAATTATTTATAGTTAACGATTATTTAGAAGATGCTGATTGGAACTTATACTTATCAGTAAGAAATATCGAAAAAACTGAAATATTAGACCCAAGAGAATTATCAGTATATGCTTTATTAAAATTCAATAAAGTAGTAATTACTAAAGAAGCTCTTGCAACTATCGAGGAGGTGCTTGGATAATGACAATTTTTGACGTAATCAAAAAACCTGTATTAAATACAGAAAAATCAAGAATTTTATTAAATTCAAATGAATATGTATTTATAGTAGATAGAAGAGCTAATAAATTACAAATAAAAGAAGCAGTAGAAAAATTATTCAATGTTAAAGTTTCAGGTGTAAATACTATTAACATGAAACCAACTACAGCTAGAGCAAGAATGACAGTTTACAAAACACCAGCTTATAAAAAAGCTATTGTTAAATTAGTAGATGGTGAATCAATTAAAGCTTATGAAGTATAAAAATATGAGAAGAGATTAGATTTCTAATCTTTTCTTTTTTAATTAGAATATATTGAAAAGGGTAATTAATGGAAAAGATTTTAAGAATTAATGAAATAATAAATAATATAGTGTGGGGTTGGCCAAGCTTAATATTTTTAGTAGGAATTGGTATTATGCTTACAATTAGATTAAAAATGATACAGATTTCTAAAATAAAGTTAATATTATCAAATACATTACTAAAAATATTTACTAAAGATTTAACATTAAAAGGTGAAATTACAGCCTTTCAATCTGTTGCAACCGCTCTTGCTGCAACTGTTGGGACAGGAAATATTTCAGGAGTTGCTATAGCAATTTCAACAGGTGGACCTGGTTCTATATTTTGGATGTGGATATCAGCCTTATTTGGTATGGCAACAAAGTTTTCGGAAGTAGTACTTGCTATAATATATAGAGAAAGAAAGATAGGTGGGGGATATAACGGTGGACCTATGTATTATATAAAAAATGGGTTAAACTTACCATTTCTTGCTAAAATATTTGCAATATTTACAGTATTTGCTTCATTTGGTATAGGAAATATGACACAATCAAATTCTATATCTAATGTAATAAATGCAAATTTTAGTATAGATATTAAAATTACAAGTTTAATAATTACAGTACTTGTAGCTATAGTCTTATTAGGTGGAGTTGAAAGAATATCAAAAGTAAGTGAAACTTTAGTTCCATTTATGGCCATTTTCTATATCATAGGTGCATTAATAGTAATAATACCTAACTATAATGAAATATTTAATGCTTTTCATCAAATATTTACTATGGCTTTTACTAAACAAGCAGCAGTAGGTGGATTTGCTGGAGCAGGATTTAAAGAAATAATTAGACAAGGTGTTGCAAGAGGAGTATTTACAAATGAAGCAGGATTAGGATCAGCTCCTATAGCACATGCTTCAGCTAAAGCAGATCACCCAGTACTTCAAGGTATGTGGGGAGTTTTTGAAGTATTTATGGATACACTTGTAATGTGTACATTAACTGCCCTAGTTATACTTGTTACTAAAACTTGGAATAGTGGTCTTAGTGGTGCAGAACTTACATCATATGCCTTTAATAAAGGATTTAATGGTGGAGGATATATAGTTGCTATAGGACTTACACTTTTTGCTTTTTCAACTATATTAGGTTGGTCATTTTATGGAGAAAAAGCAATAATATTCTTGTTTGGAGAAAAATATATTAAATATTATAGGATAATATATATACCAATAATCTTTGTTGGAGGAATAGGTGGATTAAAAGAAGTTTGGGCTATAACAGATACTTTAAATGGTCTAATGGCAATACCAAACTTAATGGCAGTATTTATGTTACAATCTAAGGTTATAAAAATGGTAAGACACTATTTTAATAATCCAGAAAAAATATTACATTTAGAGGATTATGAAGAAATAGTGAATAGTTAAAATAATAATAAGGATTAATTTCTGGAATAAACAGAAACTAATCCTTTTATTTTACTAGAAAAATAGTTCCGTAATTAAAGTGGAAAAAGTTGTAATTGAAAAAAGATAAAGTTGAGGTATATTAATATTGAAAGGAAAAATTATGGAAAATGAATTGAAATTAATTTATAGGATATTATTTGATGGTAATTTTCATACATCAACAGAATTATCAGCTCATTTAAAGTTATCAGATAAGACATGTAGAAAATATATAAAAGAATTATCTGAAATTTTAAAAAAACATGATATTACTATTATTTCAAAAACTAGATTTGGATATAGGTTAAGTGGAAACATTTTAAAAGAAAATGAAATTTTTAATTCAGATAGTTATAAAATCCCTATAACTTCAGAAGAAAGACAAATATATCTAATAGATAGATTAATTTCAGAAGAGGGGTATATAAAGTTAGAAGATATTGCAGAAAAGATATATATAAGTGTGAAAACCTTATCAAATGATATAAAGAAGATAGAAAAGATTATTAGAACATATAATTTGGAGTTTGAAAGAAAACCATATTATGGTTTGAAGCTAGTAGGTGAGGAATTAAATATTAGAAATTTTCTAATAGATGTTTTAGAAAAAAGACTTAATGAAAATAAGTTTTTTGACAGTAAAGATAGATATGATATAAATTCTATTGCAAAGCTAACATATACATTTCTAAGAGATAAAAATGTAAAAATATCTGATATTTCTTTACAAAATCTAGTAGCTGCAATATATGTAACTTTCTATAGAGTAGAAGCAAATAAAAGAATAAAATCAATAGATATTGAAAAAAATGAATTATTCTTAAGTAAAAAAACACATATTTTAGAATGTATGAAATATATATATAATGAACTTTCACATAATGTAGATTTAGATAGTAATGATATAGAATATATTACCATACATTTTTTAACGAGTGAAACATTAACATATAAGTCATTAAAAACAGAAGATATTAATGAAGTAAATGATATTATACAAGAATTAATATATTATGTAAAACTCACTTTTAAGATAGATCTATATAATGATGAAGAGCTATATAAAAATTTATATACACACATACTTGCTCTTTGTATAAGGATAAGATTTGGAATTAAAATTAAAAATCCTTTACTTGAAGATATTAAGAAAAATATGCCACTTGAATACAATGTGGCAACATATGTTTGTAATTTAATTTCTAAAAGATTTAATAAAAGAAGTTTATCCGAGGCAGAAATTGGATTTATTGCAGTAATTTTACATATGAGTAAAGGAATTAATATAAATATGTCAAATAAGAAAAATGTATTAATTGTTTGCCCAAGTGGAAGAGGAGTATCAAAATTTTTAATTTATACTTACAGTAATTTTTTTTCTGAATATACTAATATTATTTCATCATGTGGAGCAAATGAATTAGTAGATATGGATTTAGGGAATGTAGATATAATATTTTCATTAATTGATTTAGATATGAAGATAGATAAACCTGTATACAAGATAAACTATTTTTTAAATGATGAAGATATCTTAAGGATAAAAAATATTTTAAAAGATAATAATAACTACTTAAAAGAAATTATACCTAAATCACTTTTCATATATTTAGATGAAATAAAAAATAAGGATGAGATTATAAAACTAGTATCTGATAAACTCATGAAAATTCCTAATATGAATAATGATATTGAAGCTTTAATACATAAAAGAGAAAAACTAGGTATGACAGAAATTTCAAATGAGGTTGCAATACCACATCCTATTGGAGTAATAGAAGGAGTTAATGTAATAGGAGTATGTATAAGTAAAAATCCAGTAAAATGGATAAATAATGAAGTAAATATTATTTTGTTTTTATGTTTAGATAATAAGAATAATAAAAATGAGAAAATATATGAAGCATTTACAAAAATAGTTGGAAATAAAGAAATAATAAATGATATTTTACTTAATCCAACTTATGATAATTTTATAAATATTTTAGAACATATAGGAGGGAAATAGAAATGACCTATGATGAATTAAGTGAGTATGCAATGCAGATAATTGCAAATTCAGGAATGTCAAGATCAAGCTCTATGCAAGCAATACAATTTGCTAAGAAAGGTAACTTTGAAAAAGTTGAAGAATGCATGAAAGAGGCAGATAAATATTTTTTAGAAGCACATGAAATTCAAACAGATTTAATAGTTAAAGAAACTTCAAGTGAAGAGAAAATTATTTTAAATTTAATTATGGTACATGCACAAGATCATTTAACTATGGCTTTATTAACCAAAGACTTAGCAAAAGAAATTATTGAATTACATAAAAAATAGAGAGGAATGATTAAAATGCTAAAAATTTTATTAATTTGTACAGCAGGAATGTCTACAAGTTTTTTAGTAGAAAAAATGAAAAAAGAAGCTGAAGTTAGGAATTTAGAAGTTGAAATTATGGCTATACCTGAAGCAAGTTCTGATGAATTTGTAGATAAGGTTGATATTGTTTTACTTGGACCACAAATAAAGTATTTAGAAAATGATATTAAAGCTAAATTTGTAGGAATACCTGTAGGAGTTATTAATATGACAGATTACGGTATGATGAAGGGAGATAAGGTTTTAGATTTCGCATTATCAATGGTATAAAAATTAAATATATAAGGAGAAAAACATGAAAAAATTTATGGATTGGATGGAAAATCACTTTGTGCCTGTGGCAACAAAGATTTCTTCCCAAAAGCATTTAGTTGCTATAAGGGATTCATTTATTGCAATTTTACCAGTTACTATGGTTGGTTCTATTGCAGTATTACTTAACGTATTATTTAGAAATATTCCTAATGAATATGGATTTCCACAAGTTGCTGAATTTATGTCACCACTTATTAATATTAACGGTGTTGTATGGTTCGGTTCACTTGCTATTCTTTCATTAGTATTTATTATTGCCTTAGGGTATAATTTGGCTTCAGGATATAAGGTAAATCCACTTGCAGGAGCTTTAGTTGCTGTTGCATCATTTATACTATTTTTACCACAAGAAGCAAGATTTATGGCAGAAATAAATGGAACTATGCATGAAGTTTCATCTTGGGGATTTTTAGATTTTAATAAATATCTAGGTGCTACAGGACTATTTTCTGCTATGGTTATAGGATTTTTCTCAACATTAATTTATAGTAAATTAATGCAAGCAAAAATAACTATTAAATTACCAGATTCAGTACCTCCAGCAGTTAATAGAGCATTTTCATCTATTATTCCAGGTGTTATTGCAATATATGCTTCAGCGACTTTATCATATCTTGTAACTACTTATACTGGGCAAACATTAAATGATTTAATAGCTAAATATATTCAAGCACCTTTATTAGGTCTTTCTCAAGGTGTATTTTCAGTAATATTATTAGCCTTCCTTGTTCAATTATTCTGGTTCTTTGGATTACATGGACATAATGTACTTGCTCCTATACTTGATGGAATTTATCAACCTGCACTACTTGCAAATGCAGAACATATAGCTAAAGGTGGAACAGTTGATACTTTACCATATTTATGGACAAGAGGATCATTTGATGCTTATCTTCAAATGGGTGGTTCTGGAATTACTATAGCATTAATAATTGCAATATTCATATTTTCAAAAAGAGAAGATCATAGAGCAGTTGCAAAACTTGGATTACCAATGGGAGTATTTAATATTAATGAACCAATGATATTTGGAATGCCAATAGTATTAAATCCATTATACTTAATTCCATTTTTATCAGTTTCAACTATAGGTGCAATTATTGCATATACTGCAACAAAAATAGGAATAGTTCCTCCAGTATTTGTTCAAGTTCCTTGGGTATTACCTCCAGGAATATATGCTTTCTTTGCAACAGGTGGAAGTATAGCAGCAGCATTAGTTTCATTATTTAATGTATTTATAGCATTTGTAATATGGACACCATTTGTAATTATGGCAAATAGAATAAAAGAAAATTAATACAAGGGGTGGGCAAACCACCCCTTTAAATAAAGGAGAAAAAAATGAAATCATGGCCTATGTTTGTAATTACTTTAGGTACTATAGCCATAGCAACATATCCTTTAAATAATCAATTAATTAATCTTTTAATGGGTTTAACATTGGTGGTTATTGGAATAATATTTTTAATTAGAGGTAATAAAAAATGAAGGTAAAACAAAAAATTAATGTATCTGCACAAGAGTTCTATAATTTTTTAATTGAAAACTTAAAACATGAAATGAAAATTAATGGAAAAATAAAAGAAGGAATGAAGTTTAATGTAAATCTTAAAACTAAAACTAATCAAATAGCTAAAAGTAATGTAGAGATAATAAACTTAGTAGAAAATTCAAGATACACATTAAAATATATTTCTTCTTTAGGAGAAAATATAGTAGATTACAAAATTAATGAATTAAATGTAGATAATATAGAAATAGATTATGAGGAAATATATATTACTAAGTCTAATTTTCAAAGATATAATCATATATTTATGGAATTTTTTTATTCTTTTTTCTTAAAAAGAAAGAAAAAAAAGATGTTAAAAGCAGTAGAAAATTATTTAATAAATAAAAGAATGGAGAAAAATAATGATTAAATTTCCAGAAAATTTTTATTGGGGTAGCTCAATAAGTGCTGAACAAAGTGAGGGTAGATTTAAAGGAGATGGAAAAGGGCTTACTACTTGGGATAAATTTTTTGAAATAGAGCCATATAAGTTTCATAATGGTATAGGACCTGAAAAAACTACGAGTATGTACAAATATTTTTTAGATGATATTCTATTATTAAAAGCTACAGGTCATAATACTTTTAGAACTTCAATTTCTTGGGCTAGATTATTTCCGAAAGGAATTGGAGAAATTAATGAAGAAGCAGTTAAATTTTACAAAACATATTTTACTACTTTGAAAGAAAATGGTATAGATCCATTTGTAAACTTATCTCATTTTGATATACCACTTGAACTAGAAGAAAAATTTGGTGGTTTTTCAAGTAAAGAAGTAGTTGATGCCTATAGTAAATATGCGAGAACTTGTTTTGAATTGTTTGGAGATGTAGTTAAAACTTGGTTTACTTTTAATGAACCTATAGTATCTGTAGAATGTGGATATTTAAAGCAATACCATTATCCTATGGAAGTTGATCCTAAAAAAGCAGTTCAGGTTGGATATAATTTGGCACTTGCTTCAGCTAAGGCAATTAAAGAATTTAAAGAAGTAATAAAAGATGGTCAAATAGGAATAATATTAAATTTAACACCAGCTTATCCAAGAAGTAATCATACAAGTGATTTAAAAGCAGCAAGGATAGCTGAATTATTTGCAAATAAAAGTTTTCTTGATCCTGCTGTTAAAGGTAGTTATGATGAAGAATTAGTAGAGATTATAAGGAAACATGATTTAATGCCAGAATATAGTGAGGAAGAACTAGAAATTATTAGAAATAATAAAGTTGACATGTTAGGTATTAACTATTATCAACCATTAAGAGTTAAAGCTAGAGATTCTAAAGCAAATGATGAAGCACCATTTATGCCAGAATATTATTATGAACATTTTATAATGCCTGGTAGAAGAATGAATCCTTATAGAGGTTGGGAAATCTATCCTAAAGGTTTGTATGATATAGCGTTAAATATAAAAGAAAATTATGGTAATATACCTTGGTTTGTAGCAGAAAATGGTATGGGCGTTGAAGGTGAAGAAAAGTATAAAATAGAAGATATGATACATGATGATTACAGAATAGAATTTTTTAAAGAACATTTACAGTGGCTACATAAAGGTATATCTGAAGGTTCAAATTGTAAGGGATATTTAGTGTGGACAGCAATTGATTGTTGGTCATGGTTAAATTCATATAAGAATAGATATGGTCTAATAGAACTTGATTTAAATACAAATAAGAGATATATAAAAAAATCAGGATACTGGTTTAATGAATTAAGTAAAAATAATGGATTTTGATATGGAAAATATTTCTATATAACAACTAAATATAGAATAAAAAAAGCGGTTCTAGTAAAGTACATAAAAGTAGATATAATAAACTAAATTTTATGAATATACTTTTTGAGATAACAGATAATTTTAATATAAAATATAGTGAGAATCTTAATAAATTAAAATTTATTGTTGATGATGCAGAATATATGTTTAGTCATCTTGAAAATGATATATATAGGATTAGAAAAACTATCTACTACTAGAAATGCTAATGTTATTTTTAGTATTAAATTGATTAAAGAACAGGAAGATAAAGATTTAAAAATTTTTATAGATGCTTTATAAATAAAAGTACCTAGATTTATGATTCTAGGTACTTTGTTATATAATAGATACTCTATTAACCTTATTGTATTCATGATTTAGAGTATAACCTATTTGTTTTAATATAAGCTGTATTACATCAACTACAACTGAGTTTACTAATTGTTTATACGCCTGATTATTATTAGGATTTAATTTGAAATTATCAGGAAAGCCCGTTATTCTGGCACATTCTCTAGGGTGTAATCTTCTATTCCCTTTGGAGAATAAATTCTTTCTCCTTGTCCACCTTTACCAACAATTCCTATTCTTATTGTAAATGTAGAGTTAAAATTAATATCAGCTTTTTCGTTAAGTACTAAATCTTTACGATTAACAATTAGGTTGTCAACTTCGTTATCATTAAGTAGAAAATCTTCAACAAATCTATTTAACTTAAATGGTTTTGGAAATGAGAATATTTTTCTATCAACATCATTTCTAAAACATATCATATATATACGTTCACGGTTTTGAGGAATGCCGTAATTAGTTGGATTAAGAACACTAGATTGAAAACTATAACCCAGTTCAGTCATTGTTTTCTTTACAATATTAGTTTTTTTCCCTCCATCATACTTAGCAAGATTTTTAACATTTTCAAGAAATACTACTATAGGTTTCTTTTCCTTAATAATTCTTGCTACATCAAAAAATAATGTTCCTCTACTATCCTAAAATCCTTTTTGTTTCATTAATTTGAGTAATATCTTCATCAGGAATATCTCCAAAATTCATTCTATAAATTTCTTATGCATACTTATCCCACTCGTTTGAATAAACACACTCTGCACCAAATGATTCTAAATCCATCAATTCTAGCAAATAAGGATATAAATTTATATCCTTTTAATAATTTATCATCAACTTTAATCATATAAACCTCCACAGAATAGTATATTATTCTTATTATAGTATAGATACTAAATTTTAATCGTAAATAGTTTTGTTAAAATAAGAAAATAGTGATATAAATAACATGAGAAAATTGTTTTGTAAATAAATTTCACATTTAATTATTGACAAAATATTTTTTGTGGATATACTATAATCATATGCTTTAAAAAGTAAAAAGGAGATTAAAATGGTTAAAGGGAAGTATATGACCTGTTTATTTTTTTTAATATCTATTTTAGCAAATGCTAAAACAGTAGATGAAAAAATAAACGAAGATGTAGCAAATATAAATGAAATTGAATCTAAAATTAAATATGATAAGTCTTATCAAGATCCTAAAGATGAAGTGCATGTGGGAGATGATGAAAAAGCAAAGTTTGAATTTAATAAAGATTTTAAAATTTCTAAAGATAAAATATATTCAAAGGAGAATGAGGTCCCTAATAGTATAAAAGTTATAAATAATGCAAATATTTCAATTGAAAAAGGAACAGAACTTATTAAATTACCCGAAGATAAATACGGTTTAATGGATTATTCAAATTTAATGTATATTGTAAATAATAAAAAAATTGAAAGTAATTTACAAGATATAGATTTAAGATCAAAATATGTATATTTTAAAAATTCAAAAAATGCAATATTAAAAAATTCGTTGTCAAAAGATAAAAAATGGTATCACCAAACTTATATTCGGAGTGATGAATTAACAGTTTTAGATAATGCTGGGATAATTTATGGACATACTTTGTTACACAGTAGGATAAAGTTAAGTGCAATAAATAGAAAGACAGGAACAATAAATAATGCTTTATCTATGTTAGCACATGAAGGTGAATTAAATTTTAAAAATGAAGGAAAAATTATAGGTGAAAAAATTTATACAAAATATATGACAGAATCTACATTTGTAAATTCTGGTATGATAGATGTTAAGATGTTTGACTACAATCTTTCAGAATCTACTCAAGACGGTGAAGATAAAGGAACTCATTTTTTAAATACAAAAAGTGGTGTAATTAAATCAAAAAATATGTTTTTTACTGTAGAAAATTTAAATTTTCAAAATTTTGGTAATATAGAATCTAGTGAAAAGATTGACATTAGTACTTCATCTGGAAGAATAGATAATAATAATAGGATTAAAGGTAACATGGATATTACTCATTATGATTATTTAAAAAAAGTTTTAAAAGTTAATTTACAAAATGGGGTATTAGAAGGTGATTTAATCTTAAATAAAGAAAGCGATGGAAAAACAGTAGTTACAATAAAATCAATGGAAAATGTAACAGGAAATATGATAAGTAATGGAAATAATGATACTTTAAGGTTAATAGGAAGTGGAGAAGTAACTAGTAAAGATAAGTTTAAAGACTTTGAAAAGATACATTTACAAAACTCAGATTGGACATTTTCAAATGAGGAGTATAAGGTAAATGATGAAATATTAGTAGAAAATAGTAATTTATCTATTAAAAAAGGAAAATTAGAAACAAAGAAAGTTATAAACCGTGCTACATCAACTATTAGTGCATTAGATAAATCAGAAGTAATAGTATCAGATAAATTTTTAAATAAGGGTACAGTAAGCTTTTTAAAGAATAAATCAGAAACAGATATATTTACTGTTAAAGGAAATTATGTTGGAGATAATGGTAAAATATTAATGCGTGTAGATGTAGAGAATAAGAATGCAGATATATTTAAAGTAGAAGGAAGTGTAACTGGTAATACAGGAGTAGAAATATCAAGTAATTCAACATTAAATAAGAGGATGAAAGATAAACTAAAATTAATAGAAACTAAAAATTCAACAAAAGATACATTTAATTTATTAAACCCAGAACAGGGAGTATTTAAGTATAGATTAAAATTAGAAGACAATAAATGGTATTTACATCAATATTATAATAAAGCAATTATAGGGATAATAGCAAATTCAATTTATAAGGTAAAAGATGATTTTAATTTAACATACAATGATCATAATATATTAAATAATGGAAAATTATGGTCTAAAGCAACAAAGATGTTTAATAAAAACGTATTTACAAATGATAAGGACTATACTTTAAATATAAATAATGACACTACTAATATATTTATGGGATATGATATAGGAGAGAAATATATTAAGTATGGGGTTTTTGGCAATATAGGATTTGAGAAAGCCTCTAAAGGAGAAACAGGAGTATTTGGATTAGGTATATATGGAACATGGAATAATAAACATTTCTATGCAGATAGTTGGCTAAATTACACATATTTACAAAATAAGATAAATATAAAAGATTCTTATACATATGGATTACATGGGTTAAAGGCTTCAATAGAAACTGGAGTAAGGGGAGATATGTATATAGGTAAGATGAAATTACATGCAAGTCTTTATGAACAATTTATATATAGTTATGTTACAGATCCAGTTATGAAAAAGGTAGAGGGGATAAAATATTTTGGTAATATGAATTTAAGATCTAGATTAGGTACACATTTAACATTATTTACAGGACTTAATAATATAAATCCATATATGGAATTTAATTGGAATTATGATGTAAACTTATCAGGAGTTGAAATAGAAAGAGAAAAACATTACTATAATAATAGTAAGAATACATTTGAATTAAAATGGGGATTAAGAGAGATAAGTTTTAATGATAAGTTGAGTGTGATGGCAAATATAACTCATAGATTTGATAATATAAAAAATAGAGGTAATGGGGTAGAATTAGGATTTTCGTATAACTTTATGTAAAAATAAGTGAATTTTTTATCTAAAATAAGATGATTCAAATTTGAATCATCTTTTTGAGTTTAAAATATGCTTTACAAATAAGGTATGCCGTGTTAAAATTATTAAAATTACAATAACCCAAGGAGGATGAAAATGAAAAAAATATTTTTAATATTAGCTCTTTTAGGTATTTTACTATTTTTCTTTTTAAATAAGAAAGAAAGAGCAGATTATAGAATAGGTATAAGTCAAATAGTAGACCATCCAGCATTAAATGCTACAAGAAATGGGTTCAAAGATGAATTAAAAGCTAATAAAATTAACGCCTTATTTATAGAAACAAATGCAAATGGGGATATTTCAACACTAGTATTAAATACTAGAAAGCTAATAAATCAAAAAGTTAATTTAATATATGCTATTGCTACACCAACTGCACAGGTTTCACAAAATAGTACAAGTGAAATACCTATAGTTATTTCGGCTGTTACAGATGCTAAATCTGCAGGGTTGATAAATAAAAATATTACAGGAGTTTTAGATTCTGTTGATATAGAAAAACAAATATTACTTTTAAAAGATGTAATGCCTAAAATTAAAAGATTGGGAATAATATATAGTTCTGCTGAACAAAATTCTTTAATTCAAGTAGAAAATTTAAGAAGAATAACAGAAAAATATAAAATTGAATTAATTGAAAGATCAGTGAGTCAAATTAATGAAATAGCAATTGCTACTGAATCTATATTAAAAGAAGTAGATGCTTTATATACACCAGCAGATAATTTAGTAGCTTCAACTATAAATGTTATAGCAGATAAGGCAAAAGAGGCTAAAAAAATAACAATAGGTGCTGAAAAATCACATGTTGATGCAGGAATATTAATGACTTTAGGAATAGATTATTATGAATTAGGAAAAGAAGCTGGTAAGATAGCTATAAGAGTTATGAAAGGTGAAAAACCTGAAACTATAGAAATAAAGGGTATGGATAATTTGAAATTTGAGTATAATAAGGACACTGCTAAATTACTAGGATTGGAGTTTTAGAATATGGATTCTTTGATGATTTTTATAACCTTACTTCCTGAATCCATTAAGTTTGGACTAATTTACTCTATTATGGTAATGGGAGTGTATATAACATACAAAATATTAGATTTCCCAGATTTAACAGTAGATGGTTCATTTACTTTGGGAGGGTTTACTTTTGCGGCAACTATGATAGCATTTCCTAGCCATCCTATAATAGGTTTAATATTTGCAGCCATAGCAGGAACTATAGCTGGCCTTATAACAGGTATTTTACATGTAAAATATGGAATAAATAAATTACTTTCAGGTATAATAACAATGACAGCCTTGTATAGTATAAATGCAAGAATACTTAATAAACCTAATGTATTTTTAGAAAATCAACAAAGTTGGTTCTATATTATAACTTACGAAAAATACTTCACTATATTCATAATAATTTCAATAATACTACTATTTATCAAGGTTTTATACGATAGAAGAATAAAACCAGATAAAGATGTATTAAAAAGTTTAATGATATACATAGTAATATACATATTTTCAATAGGCTATGTATATTATAGTAAAGACATTTCAATGTATTTATTATTAATAATAGTCTTTGTTATAAAGTTAATAATGGATTACATTTTAACATCTAAGTTCGGATTAATACTTAGAGCTTTAGGGGATAATGAAGTACTTGTTTCTAATTTAGGAGTAAGTGTAAGTAAGGTTAAGATTATAGGGTTAATGTTATCTAATTTACTTGTAGCAAGTTCTGGAGCATTTTTTGCTCAATATATTAAAGTGGTAGATCTTTCTTCATCTGTAGGGACAATAATTATAGGTCTTGCCTCAATAATATTTGGTATGGGTGTAATTAAAAGAAGTAGATCTATAAATAATATATCAATAGTAATTCTTGGTTCAATTATTTACTATATTATCATTAACTTTGCACTTAATTCATCATCAATTACAGATGAATTATTCTACGCATTAGGATTTAGTCAAGATTTAATATCTAAATTATCAATAAAACCAACTGATGTTAAAATAATTACAGCAGTATTTCTTGCTATTATACTTGCAGTAGGAAAGAAAAGAGGTAAAGGTAATGCTTAAAATGATAAATTTAAATAAAAAATTCTATAGTGAATTAGGAGAAGAAAAAATAGTATTTGATAATTTAAATTTTGAAGCAAATGCTGGAGATTTTATTACTGTTATAGGGTCTAATGGTGCAGGAAAATCTACATTTTTAAATACATTAAGTGGTGAGATAGAATTAGATAGTGGAGAGATATTCCTTGAAGGGAATAATATAGAAAAACTTAAAGCATATAAGAGGGCGAATTTAATTTCTAAAGTTCACCAAAATGTTTCAAGTGGAACAGCACCTTCTATGACAGTGTTAGAAAATATGTCTATGGCATATAATAAGGGGAAGAAATTTGGATTTGGTTTTGGACTTGAAATATCTAAAATAGAAGAATTTAAAGAAAGTCTTAAAACACTAGGTTTAGGAATAGAAAATCAACTTGAAACAAATGTTGGATTACTTTCTGGTGGACAAAGACAATGTTTATCACTTTTAATGTCAACTTTTAATAAACCGAAATTATTATTACTTGATGAACATACAGCTGCACTTGATCCAGAAACTGCAAAAATTATACTTGAAAAAACAAGTGAAATAGTTAAATCTAATAAAAATTTAATAACATTTATGATTACACATAATATGGAAGATGCAATAAAATATGGAAATAGATTAATAATGTTACATAAAGGGAATATAATATTTGATATAAGGGATGAAGAAAAAAATAATTTAACTGTAGAAAAATTACTAGAAATGTTTAAAAATAAGGAAATTACTACGAGTGATAACGAAATATTTTAAAAAAGAGGTATTATGAAAAAAACTATATTATTACTTTTACTTGCCCTATCTTGCTATATATATTCAAGTGAAACTGCTTTATTAATCAGCAAAGAAAAGAATATGTATAAAATAGATGGTGGAGTATATAGAAGTCAACAATTAGAATCAGAAGATTTATCAATTATTAATGAACTTGGGATAAAAACTATAATAAACTTGAGATTTTTTAATAGAGATAAGGATAAGAAAATATTTAAAGAAACTGATCTAATATTAATAAATAATCCTTTAAAAACATGGAATATAACACCTAAAGAAGTAGCCCAAATTCTATATGACATAGAAAAGTCAAAAGAAAATGGAGCAGTACTATTTCATTGTTATCATGGTTCAGATAGAACAGGTCTAATTTCAGGTATGTATAGAATAATATATCAAGATTATGAAATAGATGAAGCTTTACTAGAGTTAGTACAAGGGTCTTATGGATTTCATAAAATATGGTCAAATATACCTAAAATGTTTAATGAAAACACAGTTACAGAGATAAAAAATGAAATATTTAATTTAAAAAATCAAAAATTAAAAATACTTGATTAGAAATATGGTTTATGATAAAATGTAATTGTGAAATACATAACTTAAGGAGAGAAAGAATGAAAGTATTAGCTGTATGTGGAAGTGGAACTGGAACAAGCATGATTTTAAAAACTACAATGAAAAAAATTGTAGATAAGGGAATAAAAATTGAAATTGATACTTGTACTATAGATGAATTATCAAAAAAAATAGAAGGAGTAGATATAGTAGTTTGTTCAGATAAATTAGCACCTAAAGTTGATGCTAAAGATAAAAAACTAATTTCAGTTAAAAATATTTTAGATGATGTTGAAGTTTTAGAAAAATTAAATGAAACAGGATTGATATAATAAATGGTGGCTTTTGCCACCTTTTTTACTATGTAGAGATATTGACAAAATATATGGGGGGGGGGTATATATATATAAATATAAGTAAAAAATAGGAGAATGATGAATGAAAAAGTTATTTTTAATGATGTCGTTTGTAGGATTGATTTCATTTTCAAATAATATTGTTGGACCAAGATATAGGATAGAGGGAGCTTTAGGTTTTTTAAGTAGTAAAGAAGCTGATAGAATTAAGAATCGTGCATTTATTTCAAATTCTATTTCTGTATTACCAGAATGGAAGGCACAAATTAATAAAAAAATAGATATTACATTTGAACCCAAACTTACTTTAAATGTTGGATCTAGTACTGTTCATCAACTTTCTACAATTAAACCTAATTTAGCCTTAGGTATTGAAGTTGATTTTAATTATAGAATAAAAGAAAAAATTAAGATATATGGTGGAGTAGAAATTGGAACAGGTATAGGTACTTCTATAACATATATACCTAAAGGAAAGAATCTTACTAATAATGGACCTACTTTAAAATTAGATAAAGCTATACTTACAACTATAGGTAAAATGTCAGTAGGTGTTAAAATAAATGATAAATATAATGTAGGGATATATATGGGTAATATTAAAGGTATGCTAGGACTTGAGGCAGGTTATACATTTAAGTAATATTATTGAAAGATGTTGAATAATTAATTTGTTTAACATCTTTTTTAATACATATATTTATTAAGTTAAATATTGAACTATAATGAAGGATATAAAAGAGTTGGCACATAAAAAACTAGACAAACACCTATAAAAGTGGTATATTTAACATAAGATATGACAAAATATGAGAGGATTAATAATGGAAAAAAGAATTAGAGTTAGAATAGCACCATCACCAACGGGGGATCCACATGTGGGTACGGCATATATAGGATTATTTAATTATGCTTTTGCACATCATAATGGAGGAGATTTTATACTTAGAATAGAAGATACTGATAGAACAAGATTTTCTTCTGATTCAGAACAACAAATATTTGATGCTATGAAATGGTTAGGGCTTAATTATACTGAAGGTCCAGATTTAGGTGGTCCTTTTGGTCCATATAGACAATCTGAAAGATTTGAAATATATAAAGAATATGCGGTTTCACTTGTAGAAAAAGGAGAAGCTTATTATTCATTTGAAACACCAGAAGAATTAGAAATAATGAGAGAAAGACAAAAAGCAATGGGACTTCCACCTATGTATGATAGAAGATCAAGAAATTTAACTAAAGAACAAGTGGAAGAAAATTTAGCTAAAGGATTACCTTATGTAATAAGATTAAAAATGCCACTTGATGGGCAAACAATAGTTGAAGATGGATTAAGAGGGAAAATCTTCTTTGATAATGATAAAATAGATGATCAAATATTACTAAAATCAGATGGATTTCCAACTTATCATTTAGCTAATATAGTTGATGATCATTTAATGGGAGTAACACATGTAATACGTGCTGAAGAATGGATAGCTTCAACACCTAAACATATACAGTTATACAAAGCTTTTGGTTGGGAAGAACCAAAATGGTTTCACATGCCTTTATTAAGAAATGCTGATAAAACTAAAATTTCTAAAAGAAAGAATCCAGTTTCACTTAATTACTATAAAGAAGAAGGATATTTAAAAGAAGGAATATTAAATTTCCTTGCACTAATGGGTTGGAGTTTAGGTGGAGAAAAAGAAATATTCACACTTGATGAAATGATTGAAAACTTTAGTTTTGATAGAATATCTTTAGGAGGACCAGTTTTTGATTTAGTTAAATTAGCTTGGGTTAATAATCAACATATGAAATTAAAACCTGTATCTGAATTAACAGATCTAGCTATTCCTTTTATTGAAAAAGAAGGTTATGATATTTCTAAATTTAGTAGAGAAAAATTAGAAAGAATGATAGAAATTACAAGAGAAGGCTCACATACATTAAAAGAGCTTGCTAAAAATTTAGATGTATTTTTCATAGATGAAATTGTTTTACCAGAAATTACTGAAGATATGAATAAAAAAGATAGAAAAGCTGTAGAAAGAGTACATGAGGCACTATCTTCTGAAGAAGGTAAAAAATCAATAGCCTTATTTTTAGATAAATTAAATGCTTTAGGTGAAGAATTAGATGAAGAATTGATTAAAGATATACTTCATAAATTACCAGAAGAATTAAATGAAGGAATAGGTAAAGTATTAATGCCTATAAGAGCTGCTTTAACTGGTAAATCTAAAGGACCAGACCTTTATTCTATAATATCTATAATAGGAAAAGAAAGAACAATAAAGAGAATTAATAGCTAAAAGGAGAAATATATAATGAGAAGAAAAATAAAGGCTAAGGATTTAATTAGAAATGCTTTTGCCAAGACACTTAAAGTAAAACCTTATTATAGAATAACTGTAAAAGAATTAACAGAAGAAACAGGTGTTACTAGACAAATTTTTTATTATTATTTTAAAAATATGACTGAATTATTAAAATATTACTTTGAAGTAGAAATACAAGAAATATTAAAAGTTAAAAGAAAATTTAATAATTTTGAAGAAGCATATATCTTATTCTTTAAATCTATAGCAGAAAGAAAAGATGTACTTATTAATATTAACCAATGTGAATCATGTGGATTATTAAGAGAATCATTTGAAGTTATGAGTAAAAGACTTTTTGAATTACTATTTACAGATACTTTAGTTAATAATAATGTTAAAGAAAAAGATAAAGATTTTTTACTAAATTATTATAAAGTTGCATTTGCTTCAGTTGCATATGAGTGGCTCAATAATGGCATGAAAGAAGAAATAAAATATTTAGTAAAGAATTTATCAATATTAATAGATCAATCACTTATGCCAACTTTAAAAAGATTCGAAGATAGATAAAAATAATAATTGTAAAAATAATCACATATCACTTTAAGATATGTGATTTTTACTATTAAGATATAGGAAATAAAGAGCTTAAATGGCTTGACACTATTAATTAATGATGATATAATAGCAAAGGACAAACACACTCTGTTTTTTTCGTTTGTATGGTGCCAATATATTTGGGTTTGCAAATGGACAAGAGTGGATGAAAAAACCAAAAATCAAGGAGGAAAATGAAATGGCAGTAATTTCAATGAAAGAATTATTAGAAGTGGGAGCACATTTTGGGCATCAAGCAAAAAGATGGAATCCTAAAATGAAACCATACATCTATGCAGAAAGAAATGGTTTACACATTTTAGACTTACAACAAACATTAGTATCAACAGAAAAAGCTTATGAATTTGTTAGAGAAATAGCAAGTGAAGGTGGAAAAGTATTATTCGTAGGTACTAAAAAACAAGCTCAAGAAGCTATGAAAGAAGAAGCTGAAAGATGTGGAGGTTTCTATGTTAACCAAAGATGGTTAGGGGGATTATTAACTAACTTAGAAACTATTAAAAAAAGAGTTAAAAAATTAAAAGAATTAGAAGAAATGGAAGCAGATGGAACTTTAGATGAAGCTTACACTAAAAAAGAAGCAGCTATTTTAAGAAAAGAAATGGAAAAATTACAAAAAAATGTTGGTGGAATTAAAGAAATGAACACTTTACCAGCAGCATTATTCGTTGTAGATATTAAAAAAGAATTTTTAGCTTTAGAAGAAGCAGCTAAACTTGGAATACCTGTAATAGCTTTAATAGATTCAAATGTAGATCCAGATTTAGTAACTTATAGAATACCTGCAAATGATGATGCAATTAGATCAATAAAATTATTTGCAAAAGTAATTTCACAAGCAGTTGTTGAAGCTAATGGTGGGCAAGAAAATGAATACACTCCAGCAGAACTTGAAACAGCAGAAGTTTTAGAAGAAAATTTCGTAGTTGAAAAAGAAGAAATAGAAGAATAATAAGTTAAGGGAGGAAACATTATGGCAAGTGCAGCAGATATAAAAGTATTAAGAGAAAGAACAGGAGCTGGAATGCTTGATTGTAAAAAAGCATTAGAAGCTAATGGTGGAGATATAGAAAAAGCAATAGACTGGTTAAGAGAAAAAGGAATAGCTAAAGCAGCTAAAAAATCAGGAAGAATAGCAGCAGAAGGATTAGTATTTGGTGGAGAATTAGATAACTTAGGTGTTATTATCGAATTTAATTCAGAAACAGATTTTGTTGCTAAAAATGATGATTTCAAAAATTTTGGAACTAAATTAGTAGAACTTGCATTAAAAAACAAAACAGCAACAGTTGAAGACTTAAAAGCAGTTGAAGTTGATGGATCAACAGTTGATAACCAATTAACAGAATTAATTGCTAAAATTGGTGAAAACTTAAATATTAGAAGATTAGTATTAGTTGAAGCTAAAGGATTTGTAGTAAACTACATTCACTTAGGTGGAAAAATAGGAGTTTTAGTTGAAGTTGAAGGAGAAAATACTCCTGAAAATCATGAAAAAGCAAAAGGAGTAGCAATGCATATTGCAGCTATGGATCCTTCTTACTTAAATAGAGAGCAAGTTACAGCTTCTGATTTAGAAAAAGAAAGAGAAATAGCAAGAGTTCAATTATTAGAAGAAGGTAAACCAGAAGCTATAGTTGAAAAAATATTAGAAGGTAAAATGAGAAAGTTCTATGAAGAAAATTGCTTATTAGAACAAAAATATGTAAGAGATGATAAAGTGTCAATTAAAGAATTTATTGCTCCTTCATCAGTTGTAGGATTTGCAAGATACAAAGTTGGAGAAGGAATAGAAAAAGTTGAAACTGACTTCGCAGCTGAAGTTGCAGCACAAATAGCAAATACAAAATAATAATATATAAGGGAGAGTTTAAGCGATTAAACTCTTTTTTATAAAACGGAGGTAAATTTAATGCTAAAACATAAAAGAATATTGTTAAAATTAAGTGGAGAAGCTTTAGCTGGAGATAAGGAATTTGGTTTTTCTGATGATATTTTACATAGTTTTGCTAAACAAATTAAGGAAATACATGATGAAGGTGTAGAACTTGCAATAGTAATTGGTGGAGGAAATATATTTAGAGGAAAATTTGGAGAAGAAGTTGGTATGGATAGATCAACTGGAGATACTATGGGTATGCTTGCAACAATAATGAATGGCTTAGCTCTGCAAAATGCCATAGAAAAAATTGGAGGAGTATCTACTAGAGTTCTTACTGCAATAAATATGCCTCAAGTAGCTGAACCATTTATAAGAAGAAGAGCAATTAGACATTTAGAAAAAGGAAGAGTAGTCATATTTGCAGGTGGTACAGGAAATCCATATTTTACTACAGATTCAGGTGGAGCATTAAGAGCAATAGAAATTGAAGCCAATGTTTTAGCTAAGGGTACAAAAGTTGATGGTATTTATGATAAAGATCCTGTTAAATATGATGATGCTATTAAATATGAAGAAATTACTTTTAAAGAAGCATTAGATAAGGATTTACAAGTAATGGATGCGACTGCTTTATCGCTATGTAGAGAAAATAATATGCCTATAATAGTATTTAATGCATTAAAAGATGGAAATATGTTAAAACTTGCAAAAGGAGAAAAAATAGGTACTATAGTAAAAAATGGTTAATTATATGATATAATATTAATAGAAATAAAAAATGGAAGGAAGATAATATGGTAGAAGAACTATTATTAGAAGTCGAAGAAAAAATGGAAAAAACATTAGAAAGCACAAAAGTTCGTTTTTCTCATGTTAGAGCAGGACGTGCAAATGTTTCTATGGTTGATGGGGTTTTAGTTGATTATTATGGTCAAATGTCGCCTTTAAATCAAGTTGGTTCAGTTACTGCACCAGAAGCAAGATTATTAGTTATAGATCCTTGGGATAAATCATTAATACCAGCTATAGAAAAAGCAATACTTGCAGCAAATATTGGATTTAATCCTTCAAATGATGGTAGAATAATTAGACTTGTAGTACCTGAATTAACTGAAGATAGAAGAAAAGAGTATGTAAAGGTTGTTAAAAAAGAAGCAGAAGAAGGTAAAGTTGCAGCCAGAAATATTAGAAAAGACTATAATAATAAAGTTAGAAAAATGGAAAAAGATTCTGAAATTACAGAAGATGACTTAAAACATGTAGAAGAAAAAATTCAAAAATTAACAGATGAATGTATTAAACATATAGATGAATTATTAGCTAAAAAAGAAAAAGAATTATTAAGTATTTAGTGATATGATATTTAATAAAATAATTAATTTTTTTAGAATTAAAAAACAAATATCTATAGATTTGGGTACATCAAATGTTCTTTTTTATGATAAACAAGCAAAAAAAATTGTTTTAAACGAACCTTCTGTTATAGTTAAAGATAAAAAAACTGATAGAGTTGTTGCTGTAGGGAGAGAAGCAAGAGAAATGTTAGGTAAAAATCCCAAAAGCATAGAAGTAATTAAACCACTTAAAGATGGAGTTATATCTGATATAGATTTAACAAGAAAAATGCTTTCAGAATTTATGAGGCAGGTTTATGGTATTTCACCATTTAAACCAGAGGTAATAATTTGCGTTCCTATAGAAGTTACTAAAGTAGAAAGAAGAGCTCTTTTTGATGCTTTAGATGATGTTAAAAGAATATTTTTAATAGAAGAAGGAAGAGCTGCTATTATGGGTGCAGGAATTAATATTTCAAATCCTAATGGTCATATGGTTATAGATATAGGTGGAGGATCTACTGATGTAGCTATATTATCACTTGATGAAATAATAGTTTCTAAATCAATAAAAATAGCAGGCAATAAGTTTGATGAAGATATAGTAAAATATGTTAAAGAAAAACTATTTTTAAACATCGGAGATAGAACAGCAGAAAAGATAAAAAAGGAATTGTCTACTGCCATATTCCTTCCAGAAGAAGAGAATAAGAAAATGACAATTAAAGGATTAGACATTAATACAAAGAAACCAAAAGAACTTGTTATTACATCTAATCAAGTTTGTGAAGCGATTGAAGATTCATTAAATAATCTAGTAGCAGCAGTAAAAGAAGTAATAGGTAAATGTCCACCTGAACTTGCATCTGATATATTAGATAATGGAATAGTATTAACAGGTGGAGGAGCTTTAATTTCTAATTTATATAAATTAATAGAAAATGAAGTTAAAGTAAATGTACATGTACCAGATAAACCTCTTGATTCAGTTGCAATAGGTGGAAGTTATGCATTTGATAATAAGAATCTTCTAAACACGCTTTTAGTAAAGGAAAATTAAAAATGGAAATATATGGAAATAATCATTCTGTTTTTGCATTGTATTATCAATTAGTATTTGTTACTAAAAATAGAAGTAAAATATTTAATGAAGATATTACAAAATATGCAATAGATAAGTTTAATGAAATCTCAAAAAACTATTTAATAGAACTATATGATTTTAGCTATGAAAAAGATCATGTACATATTAAATTTAAAGCACATCCAAAAAGTGAAATTTCTAAATTTATTAATGCTTATAAAAGTGCAACATCAAGACTTATAAAAAAAGAATTTGAGTATGTGAATGATATACTAAAAGATGGTGGGTTATGGGAGAGAACATACTTCTTGATTACAGAAGGAGTACCAAGTAAAGATATGATAAATCATTATATCAAAACAAAAATTAAGTGTGATATAATTGACCATGATTGCCAGTGTCATGGTTGTGAAAAATAATTTAAATATAACTTAGAATGCTTTGTAACATTCTAAGTTTTTTTAATTACTAAAAAGCAGTAAAGATACATTAAGTTAATTGATTTTTATTAGCAAATATGATAATATATAGATATAAAAGTTATTGAAAGGAAAGATATTTATGTTATCGACATTAGTTTTTAGAGAATTTAGATATAATGGGAATATAGATGATTTTAAGGCAGAATTAAAATCAAAAATTGATAAAAACCCAAAAGATATAGATTCATTAAAAAAACTTGCAGGGATATATCATGCATATTTAGAAAATGATAAGGCAATTAAGTTGTATGAAGAGTTATCAAAATATCTTCCAAATGATCATGAAGTTGAAGGTTATTTAGGTTATTTATATTATGAAAATTCAAATTTAAATGAAGCTGAAGAAAGATTAAAAAATGCTCTTTATTTAAGTGAAAAAGAACCTTTTTTATTGTTTCTTTTAGGAAATGTATATTCAAGAAAAGGTATGCTTAGAGAAGCATTTGATTGTTATGAACTTGCAATATTTTTAGACTTTGATATGTATGGAGCACATATAGATTTTGGAAGAAAATATGAACATATGGGAAGACATAGAAGAGCCTTAAAAGAATTTAGAGCAGCATACGATATAGATTCAAGAGATGAAGAATTGTTAAAGAAAATAGAACATGTAGAAAATAGGATAAAAGAAACAGAAAATAAATGAATGTAAGAAAAGCCTGCTAAAGCAGGTTTTTCTTTTGTTAAACCGCCTTAATATATTCTATAAAAATGAAAAAGGAGAATTTCAATTTTTTAGAAATTCTCCTGTATATATTTTAATATTATAATTTTATATAATCAAATATTTTCTTCATGAAATCAAATTTAAACTCTTCTCTCTTATAAGCATGTATTGCTGTTATTAGTGTTAGAACAAATAATATTAAGAATAATAAAGCTAGAATTGAAGGAGGAAGTTTAAGATCTCTAAATAAAGTAATTATGAAAGAAAAGAATGAAAAAATTAATCCTTGTTTTGCATAATCTCTAACAAATTCATTTTCTTTTTCTAAAATTAATCCACCAATACTAAATATTATTCCTATAAACGGAGATAACGATATAATTAAAATAGTAGCTGCAACTAAATTTTCATTTATATTTCCTATAGATTTTTTCAAAATTATCAACCTCACTTTCATATCCATTATATCAGAAATATTGATAATAGTCTAATATTAATATATTTTATTTAACAACATTAAAACTTCTTCTTTATTTTCAGAATGTTTTAATATATTTGCTTTATTAGAGTCGATAATATTTCTTGATAAACTCATTAAAATGTCTATATATAGGTCATCATATCTTGGTTTAACTAGTACTGCACAAATATATTTAGCCATATCCCCTTCTTCATTCCAAATTAAAGGATTTTTTAAACGTATGAATACAATTGTATTTTCTAATACCTTTGTACTTTTTAGATGAGGAATTGCAAATTTAGAACCAAGAAAAGTAGTTAGTTCACTTTCTTTTTCATGAAATTTTTGTAAAATTCTTTGAGGTTTTTCTATTCTCTCTAATTTCACTAAATTTTCTACTATAAATTCAAATAATTCGTTTTTGTTTGAAACTTCTAAATTTTCAAAAAATACTTTTTCATCACATAATTTTATAGACATAGTTATCAACTCCTATTTTTTCTTAATATATTATAGTATACCTTGAAAATATATAAGGTCAAATAGATAAAATTGTTTTTTAAGAAAAATGCAATGTGAGATCTGGGAAAGTCTACTTTTTACTAAACAATAGTTTGATTGTGTAAAAATAAATAAATATCAAAGTAATAAATATATGCTCGTATTTATAGGAATATCTTAATTTTTAATGGTAATAATTTGATTGACAAAACATTTAAAATATTGTAATATTAATTTGATAAAAATTATGAAAGAGGTATCAAAATGAAAAATTTAAAACAAATTTTATTAGCATTAATGCTAACTGTATTTGCGTTTTCATGTGGTAGTAAAATGGGAGATGCTAAATCGGATGAAGGTAAAATTAAAGTAACAACTACTTTAAACTATTATGTAAATTTACTTGAAGAAATAGGTAAAGATAAAGTTAAAGTAACAGGATTAATGGGTGAAGGAGAAGACCCACACCTATATGTTGCTACAGCTGGAGATATTGAAAAATTAGAAAAAGCTGACTTAGTTGTATACGGTGGATTACACTTAGAAGGTAAAATGGTTGAAATATTTGAAAACTTAAAAGATAAAGCAGTATTAGATTTAGGTGCTCAACTTGATCCTTCAAAATTAGTTGAAGAAGAAAAAGGAGTATATGACCCTCACGTATGGTTTAATACAGAATTTTGGGCAGTTCAAGCTACAGCAGTTGCTAACAAATTATCAGAGCTTGATCCAGCTAATAAAGAATTTTACATGAACAATTTAGAAGTATACTTAAAAGAATTAGATATGGCAACTAAATATGTACAAGATAAAATAAATGAAATACCTGAAAATGCAAGAGTATTAATTACAGCTCATGATGCATTCGGATATTTTGCTAGTCAATTCGGATTAGAAGTTAAAGCTATACAAGGTGTTTCAACTGATTCAGAAATAGGAACAAAAGAAATAAATGAATTAGCTGATTTCATTGTTGCTAATAAAATAAAAGCAATATTTGTTGAAAGTTCAGTAAATCATAAGAGTATAGAATCACTTCAAGAAGCAGTTCAAGCAAAAGGATTTGAAGTAAAAATAGGTGGAGAATTATACTCAGATTCTATGGGAGATGCAAAAAACAATACTGAAACATATATTAAAACTTTAAAATTCAATGCAGATACTATAGCAAATGCATTAAAATAGGATGATAAAATGAAGGTTATAGAAATTAAGGATTTAGTAGTTACTTATGATTTAGAACCTGTACTTGAAAATATTAATCTTGAAATAGAAAAAGGAGATTTAATGGCTCTAGTAGGACCAAATGGTGCAGGTAAATCAACACTAATTAAAACCATATTAGAGTTTATTAAACCAGTAGTTGGAAATATAAAGGTAAATGGTAAAGAATATAGGCAAGAAAAGAAAAAAATAGCATATGTTCCACAAAGGGGAAGTGTAGATTGGGACTTCCCTACTACTCTTTTTGATGTAGTTATGATGGGATGTTATGGTAGAGTTGGATTTTTGAAAAAAATACCAAAAGAAGAAATAGAAAAAGTTAACAATGCAATAAAACAAGTTGAAATGTTGGAATTTAAAGATAGACAAATATCAGAACTTTCTGGAGGACAGCAGCAAAGAGCATTTCTTGCAAGAGCTTTAGTTCAAGATGCAGAAATATACTTAATGGATGAACCTTTTCAAGGGGTTGATGCTGTTACAGAAAAATCAATAATTAGAATACTTAAGGAATTGAAAAACCAAGGTAAAACTGTAATAGTAGTGCATCATGATTTGCAAACTGTAGAAGAATACTTTGATAGTGTTACATTTATAAATAAAAGTATAGTAACTAGTGGTAGTGTAAAAGATGTATATACTAAAGAAAATATAGAAAAAACATATAGTAGAAATGTTTGATATATTATTAAATAGCTACACATTTAAGGTAGTTACTATAGGATGTAGTTTACTTGGAATGATTAGCGCTATTATAGGAACATTTGCTGTTTTAAAAAAAGAAAGTTTACTAGGAGATGGAGTTGCACATTCTTCTCTTGCTGGTATTTGTATTGCATTTTTGTTAACGGGTAGAAGAGAATTGTTTATACTTTTAATTGGAGCCTTAATAATGGGACTTATTTGTGTTTTACTTATACATTATATAGGAACTAATTCTAAGGTTAAATTTGATAGTGCAATAGCTTTGATACTTTCTACTTTTTTTGGATTGGGGCTTGTACTATTAACATATTTAAAAAGGATTCCTGGTGCTAAAAAAGCAGGATTAAGTAATTTCATATTTGGACAGGCTTCGACATTAATATTAAAAGATATATATTTAATAACTGGTGTTGGATTAATATTACTGATACTAGTAATATTTTTTTGGAAACAAATTAAAATAAGTATTTTCGATAAAGAATATGCTAAAACTATAGGAATTAATAGTGATAGATATAGATTATTAGTTTCTGTAATGATAGTAATTAATGTAATTATTGGACTTCAAATAGCAGGGGTTGTACTAATGACTGCTATGATGATATCTCCTGTAGTTGCAGCAAGACAATGGAGTAATAAATTAAATATTGTAGTTATTCTTTCATCTATTTTCGGAGCTATTTCTGGATTTATTGGAAGTTTAAGTTCTAGTTTAAATTCTTCATTGCCAACAGGTCCAGTTATAGTGGTTGTATTATCTATATTTGTAATGTTTAGTATGCTCTTTTCTAATAAAAGAGGGTTAATATATAGATATATTAGTAGAAAAAAATTTGAAAGAGAAATAAAAAGGAAGTGGGCAAGATGAGTTCAAGTTTAATAATACTTACTGTTGCTATATTAACAGCGATTTCTTGCTCTATATTAGGTGTATTTTTAGTACTTAAAAACATGAGTATGTTAACAGATGCCATCAGTCATACTATATTACTTGGTATAGTACTTTCCTTTTTCGTTGTAAAAAGTTTAGAATCACCATTACTTGTGTTAGGTGCAACTTTAATGGGACTTGTTACAGTCTATTTAGTTGAACTAATTACTAGTTCTAAATTAGTAAAAGAAGATGCTGCTATAGGAGTAGTATTATCTTTTCTATTTTCAATAGCAGTAATTTTAATATCTAAATATACTGCGAATGTACATTTAGATATAGATGCTGTATTATTAGGTGAAATAGCATTTGTGCCATTTTATACTATGGATATTTTTGGAATAACTGTTTCAAGAGCCATAGTCTATGGTCTAATTATATGTATAATAAATATATCATTTGTTACAATATTTTTTAAGGAATTGAAGATATCTATTTTTGATAAAGCATTAGCATTTTCATTGGGGCTTTATCCTAGTTTGATACATTATCTTTTAATGACATTAGTATCTACAACTTCAGTTATATCATTTGAATCTGTTGGTGCTATGTTATTAATATCATTTATGATAGGTCCACCAGTTAGTGCGTATTTAATTTCTAAGGATATAAAGAGCATGATATTTATCAGTATAATTATAGATATAATTGCCTCAACTATAGGTTATTATATAGCTATATACTTAGATATTTCTATAGCAGGTATGATAGCAGTAGTTATAGGTACAATATTCTTATGTGTATTTATTTATAGAAAAATTACAAATAAATATTTGATGTAAATCCTCTCTAATAAAGAGGATTTTTCTTGATGTTTCTCTGAATTTTACAGAGATCATCTTTTTTTTTGAAAAAATTTTACACACTCAAATACTTGACTATTGACAAAAGGCGGGGGGGGGGGTTATAATTATATAACAATTTTAAAATTATAAATAAAACAGAAAGGAAGGGGGCATAAATATAGAATTTAACCTATATTTTATATGATTTATGAGAAAAATATTAAACAAATCTAATTTTATATGGATCTTAATATTGATTATAGGAATTAATACATTTTCTGAAAATAAAGATTATTATGATAAGATAATAAATCAGAGATTAAGTGTCATAACTGGTATGAAAGAATTGTATTCTAAAAAAACAAATTTTGATATTTTAGCAAATGTAATATCAGCAGATGAAATTTTAAGACAAATTCCTAAATATGAAGATAAAAAAATAAATAATCTACATTTATACTTTCCAGATTTAGATTATTTAGACAAATATATAGAAGATGTTTCAAAAAGAGCTAAGAATATAAGTATATATTTATTTGATTTAAAGACTGATGATAAATATATGAAAAATAGGGATTATATAACTTATGAATTGAAAAAAATTAATAAAAAAATAGATAAATTAGATAATGTAAAGATTTTTAAAATTAAAGTATCAGAAAAAGATTTATCTGAAATATTTTTGGAAAGTTTAACAGAAGAAAATGTAAATATAGATTATTTTAATAAATACATTAAGGAAAAAATGTAACAAAAGAAAAAGGAATGAAGAAAAGGAATGAGAAATATTAAGATACAAAAGGTTGAAAAGTTTTTAAAAAGTTCTTTAAAGAATAAGATAAGTGTAAATGATAAGACAGTTATAAAATACATTATGCTTGGATTTATAGGACTATCAGCAATGTCTTATGGTTCTTGGTTATCAATAAATGATAATACTGGAGCAGCTGGATCAGATGGTGGTGGAAGTAACACGACTCATGGTTCGGATAATCAAAAAAATAATACAATATTAGCATTATATGATAATTCGTATAATACTTCAAGTTCAGTAATAATAGGAGCAGGTGGAAAAACTTATGGTAAGGGTTCAGAAAATGTAGTAATAGGATTTAATGCAAAATCTGAAAAACAACAAAATGTGGTAATAGGTGCTAATACTAAATCGGATTTACAAAATTCTGTAATTCTTGGAAATAAGTCTTATGTTTATAAAGATCATTTTGGTATAACAAACTATATACAAGATAGTGATGGTCAAGGAGTTGCTGTAGGTAACTCTGTATTTTCAACTGCACAAGCAACATCTATAGGGAATAATACATATGCTATAGGAAGATCATCTATAGCTATAGGTAATGATGATATATCAGCATATGAAAATAAAGTTACTCAACATGATTATGATAGTTATTTCAAAAAACTTTATGAAAAGATAGATAAAGATGGAACTCTATATGGTTACGGAAGTAATAATAAAACAGATGCAAGTAAACATAAATGGTCGCCAACACTAGCACAAGGACATGGATCAATAGCCATAGGTTCTCGTTCTATAGCCTATGCTGATGGTTCAACAGCACTAGGGACACTTGCTTATGCACTTAAAAAAGGATCTACAGCAGTTGGAACATTAACAAGAGCAGAAGGAGAAGGAGCTATAGCATTAGGAAGAGAAACTAATGTATTTTCAGATAATGCTATAGCATCAGGTAATAAGACATTAGTTCTAAAAGAAGGTGGAGCTGCTTATGGATTATCAGCTATTTCAGGTGGTGAAAATTCAATAGCAATAGGAACAGATGTTTATTCTAATGTTGATTATGATTATGATAATAGTAATATAGTATTAGGTGGAAATCAAAAAAAAATAGAAACAGGTTTATTTGGAAATATAAATAAATATGATGATCAAGGTTCAAGTAATGATGAAACAAAAAGAGGTTTATATGGATTTGATTTAAATGGAGTTGCTAAAACTATAATAGGTCTTGGACAAGATAATCCACCTGGTAATGTAAGTGGAGCTAAAAAAGGAGATTATTTAAACAGTGGAACATACTTTAGTCAATACAAAAGCTATATAGATGGATTAGAAAGTGGATTAAGTAATGCAATAACTAAAGACAATAAACAATCAACAAATTCAATTACTATAAAAAAAGAAGAAAAAAATGGAGTAAAGGATGTAGCTAAAAGCAAAGGTAAAAATGCAATAGTTATAGGGAGTAAATCAGGAGCATTTGGGGATAATGGGATAGCCTTAGGAAGAGGGTCATTTTCACTTGAAAATAACTCTATTGCAATAGGTTCATATTCTTATGCAAAATCAAAGAATGCTATTGCACTTGGTATAGTCTCAAGAGCTTTAGGTGAAGGTTCTATTGCTTTTGGTAATGGTGCTGGAGTAGATATAGAAGGTAAGAACTCTATGGTCTATGGTCATGGTTCAGTAGCATATGCTCCTAATTCAATAATACTTGGAATAAATTCTCGTGTTTGGGGAGATAAGAATAAAGGAGATTCCATTATAATAGGTAATGATGCTAGTATAGATGAATTAAAAGAAAATGGAACTGTAAAAAAAGGTCATAATGGAAAATCAGTATTAGCATTAGGAAATAAAACTAATGCAACACTTGATAACTCAGTAGCACTTGGATATCTTTCAGCAACAGATTATACACAAGAGGATTTAAATAAAGCAGGATATACTGCAAAAGGATCATACTCTATACCAACATCAGCAAAGGTTGGAGTAATATCAGTAGGTAAAAAAGGTAATGAAAGAAGAATAATTAATGTTGCTTCAGGATATAGGGATTCTGATGCAGTTAATGTTGCCCAACTTAGGACACTTGAAGATAGAATAGATGGGGCAACAGAAGAAGTAGATGATAAGATTAGATATTTCTCTGTAAATACAGAAAATGATTTAACGACTTTAGTTAAGAAGAAAATAGACTATAAGAACTATGTTAAATTAAAAACACAAATGTTAACAATAGAAGCCAGAAAAGAAAATGGTGAAACAATAAATGATACAAACATTAGGGAATTAAAAAGTAAGTTAGATAAATTAGAAAAAGATAGTGGTATAACAGATAAAGCTACTGAAATTAAAGCATTAGGAGAAATTAAAGACGCGAAATATCAAACTGGTAATAAGTTTGACTTTGATAAATACATAAGTGCATTAGAGAAGGCAAAACAAGAGGATTCAACTAATGAAAGAATTGAAAGTGTATTAACAGATGATGAAAAGACCAAATTAACATCAAATAATTTCTCTAATGAGGGAGCAAAAGGTAAAAATTCTATAGCTATAGGATATATGGCAAAAACAGAAGATGCTGCAGAAAATGCTATAGCAATAGGACATGGTGCAAAAGCAACAGTTAAGGATAGTATAGTATTAGGAAGTGGTTCTAAAAATATAGCAGATATAACAAAATCAGGGTATGATATTACTACAAAAACAAGTTCTACTTCAATGGATTCAACATGGAAACCAACTAATGGAGAATTTGCTATAGGAGATGGAACTAATAAAACTAGAAGAATAACAGGAGTAGCTGCAGGGGATAAAGACACTGATGTTGTAAATGTGGCTCAACTTAAAAAAGCAACTTCAGGATTATTAAATGATAAATTTTTAAAGTTTGTTGGAAATGATGGTAAAGAGGCTAAAATTAAATTAGGAGAAACACTTAATATTAAAGGTGAAGGTAATGTAACTAAAACAGCAGGAGATAATATAAGGGTAAGTAAGGCAGATGATAGTACATTAACTATAGGGTTATCAGAAGAATTGAAGAATATAAGCACGATAACAACTAAAACTAATGCAAATAACGAACAAACAACATTATCTCAAACAGGTCTTAAAGTTACTGGAAATAATGATAAACAAATATCAGTTACATCTGAAAATATAGAAGTAAAAAATAGTACAGATAAGACAACATTAACAGCAGGTGAATTAAAAATCACAGATAAAGATGGAAATGATGATAAACAAACAAATAAGCTGACTAAAACTTCTATAACTTTAACAGATAAGAATAACAATAAAGAAGATACAAATAAAATAACAGCAGATAAAAGTGAAATAACTAATAAAGCTGGAGATAAAACAACTATTACAGCTGATGAAATATCAGTATCAAATGGAAATGATAAAGTAGAAATTACTAAAAAATCCATAACTGGAGTAACTACTATTGGAAAAAATGATAATAATAGGCTAGTATTTAATAATGGTAATTCAGGAACTGCAATGTTAAAAGTTGATGGTAAAGAACTAACATTTACTAAATCAGGAGAACATATAAAGATATCAAATGTTGCAAATGGAATATCTGATAATGATGCTGTAAATGTATCACAACTTAAAAAGTATGTAGATGCCTTAGGTGGAAATGCTAAAATAGATGATAAAGGTAATGTTACAGGACCTACATATAAATTAAAAGTAGGAGCTACAACAAATGGAACAAATGATGCTACAAAAGATTATAATACTGTAGGAGATGCTTTAAAAGCTTTAGATGATGCTATAGGTAACTCATCAAAAAATATAACAGATCTTACTAACAAACAAATATCATTCCAAGGTAATGGTGGAGATACAGATAAAGTAAGTAAAAAGCTAGGAGAAACTTTAAAAATACAAGGTGAAGGAAATGTTAGTGGAAATACAGCCAAAGATAATATTAAAGTTGAGAAAAATAAAGATAGTGATGGCTTAGACATTAAACTAGCTGAAGATTTAAAGAATTTAAATAGTATAGAAACTAAAGAAGCAGGTGGAAAGAAAACAAAAATCACAACAGATGGTGTTGAGGTTACAAGTGATAAAGGTAAAGCTAACCTAACAGCAGATAAGCTAACATTTGGACCAAAAGATGATAAATCAACTGATAAAACAAGTACATCAATAGGAAAAGATGGAATAACATTAAAAAGCAAAGATGGAAAAGATTCAGTATCAATAAAACCAAGCAATGATACTGATGGTGGAATAATAGAAGTTAAATCTAAAGATGGAAATTCAAGTATTAAAATAGATGGAGAAAAAGGTTCTATTACTGGACTTAAAGACATATCACCTAATGAAACAGATGGAAGTATAGCAGTTAACAAAAATTATGTAGATAACCAAATAAAGGCAATAGCTAATGGACCATTTGAGTATGAAACATCAAATGGAGAAAAAGTAGTAAGAGGACAAGATAATAAACTGTATAAAGAGGAAGACTTAAACAAACATTACTATGATGAAAAAGAGCAAAAATATAAACCTAAAAACAATGGAAATGGGCAACAGAATGGACCAACTCCATTAGAAAACAAAGATGTAACAGTAAATGTAATGCCTAAGAATGGAACACCAATATCAATAGGAAATGTGGCAAGTATTCTAGGAGAAGAAGCAACTACAACATCAGATAAAGCTGCTGAAAAAGTTAAAGAACTAATTGATAATACAAATAAATTATATGAAAATAATAAAAACAAAGTAGCAACAGGAACAGACATATTAGCCTTAGCCAAAGCAGGAATAAGCTTTGAAGGAAATACAGGTTCAGGAGATAAAATTCATAGAAACCTAGGAGAACAAGTAACTATTAAAGGTGAAGGAACAGATGGTAAGAATAACTTTACTAGTGCAAGTGGAAACATACAAGTTAAATCAGATAAAGATAAAGGAGAATTAACAGTAAAACTATCAGATAAGCTAACTAACATGACTTCATTTGAAACAAAAGAATTAGATGATAAGATTAAATCTAAAGTTAAACTAGATAAAGAAGGACTAACTACAATTAATAAGACAGATGATAATAAATACATAATGTCTAAAACAGGACCAAAAGGAACTGAAATAGGTAAATATGATGTTAATCCATTAATGAATGGTAATAATAAAGCTCAACCAACTACAAGTGCCAAATATACATTAGAAGGAACAACAATAAAAGATGATAAAGGAAGTTCTAACCTAACATCAAATACATTAACTTTAAAAGATAAAGATGATAAACAAAGAATAACATTAGATAATAAAGGTGATACTCCAACTATTTCTTTATCAAATAAAGAAGGAGAAGAAACAGTTAAAATAGATGGAGGAGATGGAAAAGATAAAGAACCAACAATATCATTTAAAGTAGATAAAGATAAAGGATTAGGAGTAGTAAAAGGTTTAAGAGATCTAACAGATAATGATCCAGGACATTATGCAGTAAATAAGAGATATGTGGATAATAAATTAAATGTAGCCTTAGGAGGGGTAGCAAATGCAATAGCAGTAGCAAGTATACCACAGATAAATGGAAAGGGACATAATATAGGAGCATCATATGGATATTATGAAGGACATTCAGCCTTTGCATTAGGGTTAAGTGGAATAAATGAAAGAGGAAATGTATTATATAAGGCAAACTTATCATTAAATACAAGAGGAAATGTAGGTATAGGAGCAGGGATAGGATATCAGTTTGGAGGAGATAGAGTTAATACAAGTAAAGATAATATAATAATAGATAATTCATTAGGTGAATTAGATGGAATAAATAAGAAGTTAGAAGAACAGAATAATAAACTAATTGCACAAAATAATAAGTTAAATGAGAAAAGAGGAGATTTAAGTAAGGAATTAAAAGAACTTAAAGATAAGATAAGTGTAATAGAAAAAATTAAGATGAATGAAGATGACTTATACACACTAGATGGATATAGATTAGGTATACATGAGCTAACAAAGAGCCAAGAAGAGATGTTAATGAATATAGTAAGAGAGTTAAATGAGAACTATAAGAATAGGAAGATATATATAACAGGATATACAGATAATGTATCAGGAGAGGATTTAAATCTTGAGTTAGGTTTAAAGAGAGCAAATGTAGTAGCAAAGAAACTAAGAGAGTTAGGCTTAGATATGAGTATATCAATAAGGAAGGTAAGTTCATCAGGATATAATAACATAGTGGAAACAAACAAGAGTTCAAATGGAAGGTCTTCTAATAGAAGGGTAGAAATTGAATTAAGATAGTATAGTAGAAGGATTGATTTCTTTAAAAATGAGAAATTAATCCTTTTTTATATACAATAAAATATTTGTATTGTATAACTTTCTGAAAATTTACATGTATAAGATATTGACAAAATATCGTGGGGGGGGGGGGTATAATGTTTAAAAATACTTTGTGAACAAAATATCTTTATTAATTAAAATATATTTTGTTACTTATAAAAAGGAGGTTTATGCATAGTTATATTTTTAACTATGTTTGAAGAAAATGAAGAAAAATAATCTAATTAAAATCTTATCTTTTATTTCTATGCTATCTTATGCAAATGCAGGAACGGGAGAAAAATCAATAGCTATTGGTGATGAGGCAAACGCAAGTGCTAAATATTCCATAGCAATAGGAAGAAACTCTAAATCAGAATCAGAAAAATCTATAGCCTTTGGTAGTGAGGCAAATTCAAAAGGAAAATATTCTATAGCACTTGGAACTGAAGCAAACTCAAGTGGTAAGACTTCCATAGCAATAGGAAGAAACTCTAAATCAGAATCAGAAAAATCTATAGCTTTTGGTAGTGGGGCAAATTCAAAAGGAAAATATTCTATAGCACTTGGAACTGAAGCAAACTCAAGTGGTAAATCTTCTATAGCAATAGGAAGAAACTCTAAATCAGAATCAGAAAAATCTATAGCCTTTGGTAATGGAGCAAATTCAAATCGTAAATATGCCATAGCACTAGGTTCTAGTTCAAGAGCAATGGGAGTTGATGCAATATCTATAGGACAGAAGAGTATTTCTAAAAACTCTAATTCAATAGCTATAGGAACATCTGCTACTTCAAATATAGAAAATTCTGTAGCATTAGGAGCAGAAAGTGAAACAACAGTAGCTAAACCTACAAGTGAAATAGTTAAACCTAGATTTTTCTTAGATTATAAAGATTTTGCAGGAAGTAATCCTTATGGTGTAGTATCTATAGGATCTAAAGGAAAAGAAAGACAATTACAATATGTAGCAGCAGGTCAAATAAGTAAGGAATCAACAGATGCAGTAAATGGTTCACAACTATTTTCAGTAATTTCAAACTTTGATGCTTTTGTAGCGTCTATGAAATCTGTTATAGGAAATGTTGCTCTTCTTAATAGAGATGGTATTCTTCATACATTAAATATAGGTAATACTGGCAAAAACAACATACATGAAGCAATGAAAAGCCTAAAAGATAAGATAGATGAGAATAGAAACAGAATAGAAAAGATAGAAAATACTGAAATAAAATTAGGAGGAGATAAAAATACAAGTACAGAAGGACAAAAGATAGGAGAAAATAATTCAAATAATGGATCTAACATAGGGAATCAGAATCAAAACAAAGGAAAAGAAATTAAATTTGAAATAGTAAAAAAAGAAAATAGTGAACATATAGAAACAAAAGCAAGAGGAAATAAGGTAGAAATAGATTTAACACAAAAAGCAAAAGAAGATATTAAATCAGGGAAAAAAGCAAAAGAAATAATAGATAATAAAGGCTTAACATTTAAAGGAGATAAAGGAGAAACAAATATTCAAAAACTAGGAGATACACTATCTATAACAGGAGGAAGCTATATAACAACAAAGGCAAAAGGAAATGAAGTTAGTGTAGATCTAACAGATAAGACTAAAAAAGATATAGAAAAGGGAGTATCAGCAAATAGTGGAGTAGCAAATGCTGTAGCAATGGCAAACTTACCACAAATAAATGGAAAAGGACATAACATAGCAGGATCATATGGTTACTATAACGGAGAACATGCATTTGCATTAGGACTATCAGGAACAAATGAGAAAGTAAATCTAACATATAGAGCAAGTGGATCATTAAATACAAGAGGGAACATATCATTAGGAGCAGGATTAGGTTATCAATTTGATAATATAAGCAAAAGAAATAAAGAACTACTAACACTACAAAGAAATGGAAACATTAACTTGCTTGATGAGAAAGTATATGAATTAGATAATAAGGTTAAAACTTTAGAAAAGAGAGTTAATGAATTAGAAACTATTTTAAGAGAATTAATTAAAAAATAAGGGAAATATATTAAAGGAACTATGTCTATGTAATTAGATGTAGTTCTTTTTATATAAAAAATATTCAACATACAAAGCGATTAGTACGCAGAATAAAGTAAATTTTATTACAGGATCACAAGAATTATCAGATTGTTTAGTTTATGGTTTGTATGTTTTAATGAACTCAACTCTTTATGATAATTACTACATGATTTTAAATGGCTCAACTCAAGTTAAGACTACTGAAATTAACTCGATGCCAATACCACCACTGAGTTGTATTGAGAATATGGGAAAAGAACTAATTAAATTAAAGGATATGTCTGAAGAAAAATGTGATGAAATATTAGGGGGATTTATATATGTCTAAATTAGAAGAAGATTCATTTGAATGGTGATAAATTCTTAGGACCAAGGAGATAAGTGAAGGTTTGAAGATAAAAAAATCAAATATTTTAAGTATATGAGAAACTAAATTAAATAAATTGTATAATAGAATAGGAGAATTTCCATTTTTGCAGAAATTCCCCTATATTTTTAAGTTATAGTTTATTTTTACAATCCCCTGTTGTAATAAATTCTTGTAAATTTTCATAAGTTGTTTCTATCATATTAGTTACAGCCTCATCTGTAAATGATCCAAGATGTGGTGTTAGTAATACTTTAGGATATAGATTTACTAATTCTTCAAATAATTCATTAGGAATATTTTTTCCTGAAAAATCTTTGAAAAATAATTCTGATTCATTTTCTAAAGTATCTATTCCAGCTCCAGAAAGTTTTCCAGATTTTATTCCATCTATTATTGCCTTAGTACACATAGTTTCTCCACGACCTGTATTAATTAAGATAGAATTGTCTTTCATTTTTGAAATAAATTCTTCATTAACAAGTTTTCCATTTTCTTTAATAAATGGAATATGTAAAGAAATAATATCACTTTCTTTTATTAAAGTATCTAAATCTACTTGAGTTAAAATATCTTCTACATTATCTTTTTTAAACACATCATATCCTAATACTTTTGCACCTAATCCGTTAAATAATTTAGAAGCAGTAAATCCTATTTTACCTAATCCTATTACCCCTACTGTACAATTTCTAATTTCTCTTGAAAACATATCAGAAGTTACTCTAAAGTCTTTGTTAGCACAATTTGAAGTCATTAAGGCTGTATTTCTTAATAACATCATTGCAAGAGTTACTGCAAGTTCTGCTATTGCATTAGGTGAATAAAATGGAACATAAGCCATTTTCATACCTAATTCTTTAGCATAATTAACATCTATATGATTTACACCAACAGTTCTTGTAAGTACATATTTAACATTAGCCTCTTTATATATATCCAAATTTTTTTTTGTTAGCCCAGCAATTACCTCTTAGTATTACTGCATCATAACCTTGTGCCATTTTTGCAGTTTCTGGAGTATTTAAATATTCTGGTATACAAGTAATTTCAAAATTAAATTTTTTATTTAGTTCATGAAAAAATTTTTCTTCAACATCTCTTACACCATAACATAAAACTTTCATTTAATTACCTCTTTCTATATTATTCCTGCTGCATGTGTAGCTGCTAGAACTATTATCCAAAAAATTATAGCAAAAATTGCAAATACAGTATTAACTAATGAAATATTTGAAGAAAGAACAGCTTCTTTTTCAAATTTAATTGAATATGCAACTGCAACTGTTGCAGGTGGAGTAGCAAGCATTATTACTATTGCTGCTATAGCTTCATAAGTGAAAGTTATACCTACTTTATTTAAAGTTATTAAAATAACGAAGAATAACGCAGGGATTAATAATAACTTGTATCCTGCATAAACTATAGTAAGTTTTTCTTTAATAGCATCTTTTAATAATATTTGAGCTAAAGTCATACCTATAGCAAGCCATGCAAGAGGAGATGATAAAGTTGCTAAGTAATTAATACCATTAAATAACCATGGTAAAGTTTTATCTATTCTGAATATAGAGATACTTTTAGCTATCATTTCTCCAGTTTTTGCATCTTTAATCATAATGCTTGTTTGTGGCATTGATGATTGGAATACCCATAAGAATAATCCTAAAAATGTTGCTATGATTATAGGGTTAGCAAAAATTTGTTTTAAATTTTTTCTATCAAATTTTGTACCACTCATAACTATTAATGCAAAAGAATACAAGAAAACTCTATAAGCTATATTAAATACATTTGCATAAAGAGTACCTTCATTTCCAAATAAACCATTTATTATTGGTATACCAAAGAAAGTGGTTGAACCAAAAGCAGTTAATACAACTAATGTATCCTTTAGATCACCTTTTTTATTTGAATATAGGATATAACCTATTAAAATTAATAAGATATATGCAACAAATCCAAATATCAATACATTTATTCCTGTAGTATAAGTTTTTTCACTTATATCAGCTAAAAAAGCTTTGAAAGCTAAAGCTGGTAAAGCAGCACTTAATAAAATTGAACTTAATGCTTTAGAAGCATGTTCATTAACTATTTTCTTTTTTCTTAAATAATATCCTAATAGGATAATAAATATTGTTGAAAAGATAGCTGATAAAAATTTTTCATTTAAAACTACCCTTAAATTTTCTAATAACATTTTATTCCTCCAATTTTAATTTAACGGTTAATTTTATCATGTTAAATTGTAAAAATCAAGTATAGATGATATAATAAAAAGGGTGATTATAAAATGAAGAAAATAAGTTATTTTGAGCTATTTAAAACCTTGTTTATTATAAATTCTATTACATTTGGAGGAGGTTATACAATAATTCCTATAATTAAAGATGAATTTGTTGAAAAAAATAAGGTTATATCAGATGAGCAAATGTTGAAAATAATAACTTTAGCACAATCTATACCTGGTGTTATGACTATTTCGACATCATTTTTAGTTGGTTATTATTCTTTAGGATTATTAGGAGCTATAATAGCAACTATTGCATCAATATTACCTTGTATCATAGTTATATCATTCATAGCATTTAGTTATAGTAAATTTATAGCTAATATATATATACAAAAAAATGCTTAAAGGAATAAGTGGGGCAATAGTAGCCTTGCTATTTTATACAGTATATAAGATGTTTATAAATCAATTGGGTTATAAGAAAAAATATTTTTATTTAACTATAAATATATTAGTTCTTGTACTTTCACTAATTTTTAAACTAGAACTAGTATATATTTTAATGATATGTGCTTTTTTAGGAATATGGAAAAATAGGGGTGAAAAATAATGTTATTAAAATTATATACAGCTTTTTTTAAAATTGGTATGTTTGCCTTTGGTGGTGGTTATGTAATATTGCCATTAATAGAAGAATTTATAGTTAAAAGATATTCGTGGATTACAAGTTCTACATTGGTTGATATAATATCTATTTCTCAAATAACTCCAGGACCTATAGCTATAAATGCAGCAACATTTATAGGTATGAGCAATGCTGGTATAATAGGTGCTATAATTGCAACTATAGGTGTTGTTAGCCCACAAATTATATTGCTTATGATATTTATAAAATATATAGGTTTAGAAAATAAAGAATTAGTAAAAATTATTGATGGAATAAAGCCGGCAACTATTTCACTTATTTTAATAGCTACAATAAATATATTTAAAAAAAGCATATTTATAGATCTAGCATCTTCTTATAAAATAGAATATGTATCTATGATGTGTTTTATTGTAGCTTTAATATTGCTAAGATATAAGTTTAAAATGCGTAATATTATTGTTATATGTGCATTACTTTCTTTTGTTATTTAGTGTTATTAAAGCCAGTAAATTCGCATGTTTTATAAAATTTGAAAAAATTTTTCAAAAAAAATACTTGACTTTATTCAAAGTGTATGATATTATAATCCTTGTCAGTAGATGACAAAGAACAAACTAAAATAATTTGGGCCCTTCGTCTAGTGGTCAGGACATTAGGTTTTCATCCTAAAAACAGGAGTTCGATTCTCCTAGGGCCTACCAAATTAAATTAGTTTTAAATGGTCGCATAGCTCAGTTGGGAGAGCACCTGCCTTACAAGCAGGGGGTCACTGGTTCGAGCCCAGTTGTGACCACCATTTATGGAGGTGTAGCTCAGTTGGTTAGAGTGCTTGCCTGTCACGCAAGATGTCGCGAGTTCGAGTCTCGTCACTTCCGCCATTTTTTAAAAATATTTTTTGCCGCTTTAGCTCATTAGGTAGAGCAGCTGACTTGTAATCAGCAGGTGATTGGTTCGAATCCGATAAGCGGCACCATCGTGGCGAGATACCCGAGTGGCCAAAGGGAGCAGACTGTAAATCTGCCGGCTCAGCCTTCGAAGGTTCGAATCCTTCTCTCGCCACCATTTTTTTATATCTCAGGAGGAAAGATGGTTAGAAAATTAAAGACTGCACAATCAGGTATAAACAGTCAATCAGATTTAATTAGAAAAGCTCAAGCAATGCAAGAGAAAATGCTTCAAATCCAAGAAGGATTAAAAGACTTATATGTAGAAGAATCTGTTGCTGGTGGATTAGTTAAAGTAAAGGCAAATGGTCAAAAAAATATAATTGATATAAAAATATCTTTAGATATTATAAATGATGCATCTGAGGATGAAAGTGCAGATGAATTATCAGCATTAGTTTTATCAGCTATTAATGGAGCAATAAAGAAAGCTGAGGAATTAGCCGAAAGAGAAATGAGTGTTGTTACTGGTGGAGTAAGCATTCCAGGATTATTTTAAATAATATAAATATAATATATTTGACTCGAGATTTCTCGGGTCTTTTTTATTGTAAAGAATTATTAATTATGGTATAATATATAATTAGAGGAGGCTTGAAATTCTGTGAGAAAAGAAGAATTTAAAGGAAATAAAAGTGAATTATTTAAAATAAAATTAATATTATTACTATCTTTCATAATACCTTTTTTTGCTCCATATATTATATATTTTAGTAGAATTAATCTTTCTAAAAGAGCAAAATTTATACTTTCACAGATTTTAAATAAATCTTTTACAATGTTTTTAATTTATATATTTTTAATGATGGTATCAAAAAATATATTATTAAAAAATGGTGATGTTGTAATGTTTAAACAAATATGGTTTTTAATATTTTTTCTATTTTTAACTTCAATGTTGTTACAATTTATTAAATTTATACAATGGTTAAAAGGGAAGAATGTTAAATATAAATATATATTGAAGTTATTTAAGGAGGAATATTAATATGGATAAATACAATCCACTTGATATAGAACAGAAATGGTATAAAATATGGGAAGAAAATGGATATTTTAAACCATCAAAAGATGACAAAAAACCAGCATATACTATAGTTATCCCACCTCCAAATGTAACAGGAGTTTTACATATGGGACACGTTTTAAATAATACTATACAAGATGTTGTGATAAGATATAAGAGGATGAAAGGTTATGATACTTTATGGCAAACAGGTACAGATCATGCTGGTATTGCAACTCAAAATGTAGTGGAAAGAAAACTTGCTGAATCTAATTTAAGAAAAGAAGATCTAGGGAGAGAAGAATTTATTAAAAAAGTTTGGGAATGGAAAGAAAAACATGGAGGAATCATCACTAAACAACAAAGAAGAATAGGAAATTCTGTTGATTGGGAAAGAGAAAGATTCACTATGGATGAAGGTCTTTCAGAAGCAGTTAAGGAAGTGTTTGTAACCCTATATAACCAAGGGCTTATATATAAAGGGGAGTATATGGTTAACTGGTGCCCTAGATGCACTACAGCACTTGCAGATGATGAGATAAATCATATAGATAAAGAAGGTAATATATGGGAAATTAAATATCCTTTAAAAGATGAAGAAGGATATTTAATAGTTGCTACTACAAGACCAGAAACTATGTTGGGAGATACAGGTATAGCTGTAAATCCAGAAGATGAAAGATATAAGCATTTAATAGGTAAAATGGCTATATTACCATTAATGAATAGAGAAATACCTATAGTTGCAGATAATTATGTTGATATGGAATTTGGGACAGGAGTAGTTAAAATGACACCAGCTCATGACCCTAATGATTTTGAAGTGTCAAAAAGAACGGGTCTTGAAATTATTAATGTATTTACAAAAGATGCTAAAATTAATGAACTTGGTGGTAAATATCAAGGAATGGATAGATTTGAAGCTAGAAAAGCAGTTTTAAAAGATTTAGAAGAAGAAGGGCTTTTAGTAAATGTAAAAAAACATAATCATGCAGTAGGACATTGTTATCGTTGCAAAACTATAGTAGAACCTAGAATATCAGATCAATGGTTTGTAAAAATGCAACCATTAGCTAAAAGAGCACTAGATGTTGTTAAAAATGGAGAAGTTAAATTAACTCCTAAGAGAATGGAGAAAAGATACTATAACTGGCTAGAAAATATTAGAGATTGGACTATAAGTCGTCAAATTTGGTGGGGTCATAGAATACCTGCTTATTACACACCTAATAATGAATTAATAGTAGCTAAAAACATTGAAGAGGCTAAGAAAATATGTGTTGAAAAATTTGGTGAAGAATTACCGTTAAGAGAAGAAACAGATGTATTAGATACATGGTTTTCATCGGCACTTTGGCCATTTTCTACTATGGGTTGGCCTGAAAAAACAAGAGATTTAGAAAGATATTTTCCAACAGATCTGTTAGTTACAGGAGATGACATAATATTTTTCTGGGTAGCACGTATGATAATGATGAGTTTACATTTCTTAGATACTATTCCGTTTAAAGAAGTATATTTCACAGGAATAATAAGGGATGAAATAGGAAGAAAAATGTCTAAATCTTTAGGTAATGCACCTGATACTTTAGCTATATTAGATAAGTATGGTTCAGATGCTGTTAGATTTAGTTTTATGTATAATACAAGTCAAGGACAGGACATACTATTTTCTGAAAAATTAATTGAAATGGGTCATACTTTTGCAAATAAGATATGGAATGCATCTAAGTTTGTAATTTCAAATTTAGAAGGATTTAAAGAAGATATTTCAATACTTGATTTAGACTTTAAATTAGAAGATCAATGGATATTATCTAAACTACAACTGGCTTCAAGAAATATCAATAAAGAAATGGAAGAATATAATATAGATACATCAGCTAAAATAGCCTATGAATTTTTTAGAAATGATTTTTGTGATTGGTATTTAGAAATAGCTAAAACAAGAATTTATGGTGTAGATGAAAATGATATTGATAGACAAACGGCTCAATGGATATTAAGACATGTACTTGATAATGGACTTAGATTATTACACCCATTTATGCCTTTTGTAACAGAAGAAATATGGCAAAAAATAAAATCATATGGTGAAAGTATAATGTTGGTTGAATATCCTGAGGAAGATAAGGGATTATTAAACTTAGAAGTTATCAAAGAGTTTGATTACTTAAAAGAAGTTGTATCTTCAATAAGAAATATTAGAGCTGAAAATAATATATCTCCAGCTAAGAAAATAGAGATAATTATTGATAGTGAAGATGAAAATGAAAAAAATCTATTATTAAATAACCTTAAAGTACTAGAAAAACTTGCTAATGTTGAAAGTATAGTTATACTAACTGAAATACCTAAAATGGCAGGATTTAGAATTGTGGGAAATACTAAAGTTTATGTTTCTTTATGTGGACTTATAGATGTATCTAAAGAAATAGAAAAATTAAATAAAGATATAGAAAAAGTTAAAAAAGAACTTGAAAGAACATTGAGTAAATTATCTAATGAAGCCTTTATTATGAAAGCTCCTAAGGCAGTAATCGACAAAGAAAATTCTATAAAAAATGAGCTTGAAAGAAAACTTGAAAAACTTTGCAAAAGCATGGATTTGTATAAAAATTAGTGGACTTTTCGCCTAAAATGTAGTATAATGTTGATGAGAATATATAAAAAGGAAAAGAAATTAGGAGGATAGTGATGAAGAAGTTTTTTTTAATTTTAACTGCATTAACGGCTTTAAACGCTGTTGCTGGAGTTGAATTACAAATAAAAGGTGGTTACGATGTTTTCAGAAGACAATCGGAAAATAACAAATTCTTCAATGGTCAAGATAAGGACTTAGAAAGAGGATTTGTAATAAATGCTGAATTATTCCCAATTAATCAACATAAGGTTGAAATAGGAATAGGAGCAGAATACAATTTTTCTGATAAAACTGCTGGATACACTTATCAAAAACATTCTGATGTAACAATGCCTAACAATGGTAATAATGATAAAAGATATCATCATGTACCAGTATATGCTGTAATTAAGGCAAATGTTATACAATTAGAAACAGGAGATGCTCCTCTTGCTATAGTTGGTAAATTAGGGTATGGATTTGTGAGAGAGCATGCGAATGTTACTAATAAAGGAACAGGAGGATTATACTACGCTGTAGGGTTGAACGGTGAATATGGTCCATTTGTTGTTGAGGCTTTAGCTTCAAGAACTCATTTAATGGTAGTTGAAAATGGTATGCAACCTTCCGCTGCCGCTGCAGCTCAACCTGCTGCACAAAGTAATGATTTAATGAAAAAATCAAATGTAATAAATAAAGTAGGTATAACAGCAGGATTAAGATTAGGGCAATTATCTAAACCAGTTGTTGAAGAACCTAAATTACCAATTGAACCTGAAGTTAAACCAGAGGTTAAACCTGAACCAAAACCAGAAGTAATAGAAAAGATAGTTGAAAAGATAGTGGAAGTTCCAGTAGAGAAGATAGTTGAAAAAATAGTGGAAGTTCCAGTAGAAAAAATAGTTGAGAAAATAGTAGAAGTTCCAGTGGAAAAAGTAGTTGAGAAAATAGTAGAAGTTCCAGTGGAAAAAATGGTTGAAAAAATAGTAGAAGTTCCAGTGGAAAAAATGGTTGAAAAAATAGTGGAAGTGCCAGTAGAAAAAGTGGTTGAAAAAATGGTAGAAGTTCCAGTAGAAAAGATAGTTGAAAAAGAAAAAGAAGTAGTAAAGGAAGTTGAAGTACCAGTTCACATAAAACCTCAAATTAAGAAGATTGAACTAAGTGCTGATGCATTATTTAAGTTTGATAAATATAAACTAGAGGATATGTTAGAAAAAGGTAAGATGGAAATACAAGAACTAGTTAAAAAATTATCAACTGACTATGTAAGATTAGATAGAATAGACATAATAGGGCATACTGATAGATTAGGAAGCGACAGTTATAACTTAGCTTTAGGATTAAGACGTGCTCAAACTGTTAGATCTTACTTACAAGAATTAGGAGTAACTACTCCAATTACTGTTGCAAGTAAAGGTAAGAGAGATCCTAAGGTTAAATGTCCAGGAACTAAGGCTACAGCTAAATTAAAACAATGTCTATTACCAAACAGACGTGTTGAAATTAACTTAACTGGATTAGAAGTTAGATACTTAGAAGATAATAAATAAACTAAAAGCAGGATTAACTCCTGCTTTTTATATATCTATAAAATTCAAATATTCCTTCTTCACACAGATTCCCTTTATATTCATTAATGAAATCTTTAAGATCTTCTGTAATTATCTTTCCTTGACCACCAGTTGAAATTACATATGCATCAGGATATATATTTTTATATTGATTAATTAATTCTTTAATAGCACCTATATTAGAATAATATATCCCTATATTAATTTGTGTAACTGTTGTATTACCAAGTACTTCATTTGGTTTTTCAAAAGTAACTTTAGGTAATTTTGCAGTATTTTGAAATAGAGCATTTATTGATAAATCTATACCTGGAAGTATTGCACCACCAAGATATTTATTATCCTTTATAACCTCAAAAGTAGTTGCAGTTCCAAAGTCAATTATTATACATTTTTTATTGCTCATATATTTCTTCATAGCAAGTATAGTTGCAATCCTATCTGCCCCTAAGTTTCTTTCAGTATTAGCATTAAATGTAAGTAAATTTTCATCTATGTTATTTATATTTAATACATATGGTTCACAGTTAAAATATTTTTTTGCTAAATAATCAAAAACATTATTTAAATGTGGAACAACTGATGAATATACAACATCTTTTACATCGCTTAAATCTATTTTTTTAAAATCACATAAGGTTTTTAATGTAGCATATAGTGTGTCTTCAGTTAAATTTGTTTTACTAGGTATTCTAAATTTTTCTAGTATTTTACCATTATTATCATATATTATTGGACAAATATGAGTATTTCCAATATCAAAACCAAGTATCATTTCATCACCTCTAACATATTCTAGCAAATCAAAGATTAAAAGTAAAATAATTAAATAAAAATTAAAAAATAATTGACAAATTAAAATTTAAGGAGTAAAATATGTATGAAATGGAGGGGGATATGAATAAGAAGAAAAATAGGGGTTTTACTTTAATAGAAATTATTACGGTTATAGCTATTATCGGAATACTTGCAAGTATTTCAGTTCCAAAAATTAGTAAGTATATAGACAGGGCTAATGAAACTAAAATATTTTCTGCTGTGTCTGAACTAAATAATCTATATATACTTATGAATTTAGATGGTAAAAATGATGTTGATATTTATAAGGTGCTGGGAGAAGCAGAAAATTTAGGAATAACTATTGATAGTGGGAGTAATAATTTTGTAGTAGGCAGGTTTAAAGGGGAATTTTTAATTGAAAATGAAAAAATTATTGCAAATGTAACAGAGCCAGAAGTCGCCACATATACTATTAGTGGTAAAAGAAAATGATATATGCAGCTTATTTAATGTTGCTATATATTTCATATGTAGATTTTGTTGAAGGATATATATATGATAGAGATCTTGTTATATTATTCATCTTCTTATATTTTTCTACTACTAGTGGGATTTATAGTAGTTATGTAGGCATGGGAATTTTTTCTTTACCTTTTTTTATACTATGGATATTAGAATCATATTTTAATTTTGAAATTATAGGTATGGGTGATATTAAATTAATGTTAATATTTGGAATGTATTTTGGAATAAAAGATATGCACTTTATTTTTACTTTTTATGAAATAATGTATTTCAGTTCTTTAATTTATGCCATAATTTTAAGAAAGAAATATGTGCCATTTGCTCCAGCTATGTGTTTTTCTTTTATTATACATGATTTAGGTATATTTAATTAGGAGGTATATGAAAAATAAGGGAGAGATTTTAATAGAAACAGTTTTTTCAAGTTTAATCTTTGTTATAGTTTTATTGGGAAATATTTATGTAATTAGAAATATACATGTTATAGAAAAAAGACAGAGCAATAGATTAAAGGATATGATAAATTTACAAAACATTATAGTAGAAATAAAAGGATATAGTAGTGATAAAATTAAGAGTTTAATTTGTGATAAATGTGTATTTAATAATTCATCTGATTTCGCTAATTATTTAGGAAGTTATGATTATGAAATTAATGGTGAAATATTTTTTGATCTATATATTGATAGAGGAGTTGCATTTATTAGTATAAATAACTTAAAGGATTTTGTTTTAATTGAAAAATAGAGGACATATGCTTTTAGATTACTTATTAGCTATGATGTTTTTTGTGTCTTTACTTTTATTTATAAACAGGAATTTATTGTTATTTGTAAAACTTCAAAATACTGTTTTAAAAAATGAATTAGAAATATATACTGCAAGTAGTAGCTTGATAAGAAAGATTAGAACTAGGGATATAGGGTATGATAAAAGAAATTTAGATATATATATTAGTGATAAAATCATTAAATTTGGCGATGAAGGACAAGAGACAATAATTAGATGTAGCGACAGGGATGTTTATGCAAATAGGAAGAGAATAATAAAAGGAGGGACTTGTTGTTTTAAATATGAACTAGGGGTATTAGAAATTAAATTAAAAAAAGGTGAAATTGAGATTACTAGGAGGGTTAAATTATGAGAAATAAGGGGATAAGTTTAATTTATGTTATGATATTTTCAAGTGTTACTTTATTTATAGTTTCAACTATTATGATATTTAGTGTTGAAAAAAATAATACTATAGATTTATTGCTAAATGAGCAATATAACAAGAAGATATTTGAAAAAGAAATTATGAGAGAAAAAATTAGAATAATTGATGATATTGATAGAAGTGATTTAGCTTGAAAAAAATATATTATGCTTTTAGTGCTTGATAAGATATATATAAAGCTTGATGATGTAGAATATGTTTTTAGTTATGATGAAATATTTTTAGATATATTAGATGGATTAGAAGAGTTAAATGTTTCAAGTGATGCTGAGATTTATGTAATACTTGGTATGGAAATAATTGGCTTAGAAAAAAGAGTTGACAATGGAATTTTAAGGAAGATAAGAAATATATTTAGTGATACATATATACTTAAAGAGGTATATACTGTTTTTGATATTATAGAAAAAAATACAATAGTATTATTAAAAGAATTTTCTATTAAAATCTCTAAAAATATCGAAAAAATTGAATTTAGTTTAGAAGATTTTGAAGATGGTCAAGATTTTTCTGGGTATAAGTTATTAAAAGGGAATGAAGAGCTTAAAGATTATATATTCTCAAAAGATATGAATAATGTTAAAAAGTATAATATTATTGATACTTTTTTTAAAATTGTGCCGTATTCATTATTATTAATACCACTTTTTATTTATGTATATTTCATTAATGTGTTTGATGTTAAACCACTTAATAGTGAAATTTCTTTTTTGGAAGAAAAAATAGTAGATTTAAAAGAGAATGAAATGAAAGAAATGGATTTTAGAGAAAGTGAAAATACTTTATTAAATTTTGAAGGATTTAAAAAAATGAAAAAACCATTTAAAAAACCTTTTTATATGGACATAGAATTTTTTTTAACTAGTAGTAAGTTTGGATTAAGTTATACAGAACTTTTACTTTTTAATGATGTTTGGACAATAAAGGGGAATGTAGATAATTTTAAAGGTTTAGAAGATTTTGAAAAATCCTTAAAAAAATATTTTGGGGAATATAGGGTTGTAGAACTTAAAGATAAAAATGAAGGAATATCTTTTGTATATGAAATTACAGAAAGAAAATCTTAAATACATTTTAATATTATTTGCTTTATTATTATCGATATATTTGAGTTATGAAAATGTCAATGAATATCATTTTAAAAAAGATAAAATTATACTGTTAAATAAAAAGTTAGAAGAAATAGAAAAAATAGATGAGGTAGTTGAAAAGGTTGAATACAAGAAAGATGAAGAAATAGAGAAGATATTAATTGAAGATAATGATTTTCTAAAATCTATTTTTTATTTCTCGAATTATTCTAATTTAAAATTAATTGATAGCTCTAAACCTATAATTAAAGAAGAAGACAAATACTTTGAAAGAGTTAATGTTGTTTTTAAATTGAATGGAAGTTTAGTGAATTTTTATGAGTTTTTACAATATGTATTCTATGCTGATAATTTTATTGATAATAGAGAAATTTATATGATATTAAATGGTGAATATTTTGAAATATCTTTAGGATATTATAGGGAGAAATTATGAAAAAGTTACTTATATTTCTTACATTATTAACTTTTTCAGATAATAAATATATTAGTAATGAAAATATGAAAAAGATTAAAATATATAATGAAAAGAAAGTTGAAATAAAAAATAAGGAAGTAAAAAAGGTAGAGGAAGTATACGAAATATTAAAGATTCAAAATATACCTGAAAATGAGATCTTAAAACTTGATGGGAGTTTTGGTGTTAAAATAAGAAAAGTTGGAGATAAATATATATTGTCTGGAGAAAAAAAGAATATTTCTAAACTTAAACATATAATTTACAGTATAGATAAGATTAAAAAACAAATAATAATTAAAATGAATGTTATAGATACATCTATTTCATTTTTTGATAGATTCGGTTTGAATTTAAAACTTGAGGAAAATAAAAATGATGGTTTAGTAGCTAAATTTTTAGAAAATAAATTATCTCTTAGTAATTTGCTTAATTTAGGTGGAGCTAAGTTAGGCTTAGATATAGAAGCTTTAAAACAAAGTGGAGATATGTATATTAAAAGTTTTCCAAGTATAATGGTTTTAGATAATAGCGAAGGAGAAATGAGAATAACAGATGAATTATCTTTTAAGGTATCAGAGAAAAAAGTTCAAACTAGTGAAGCAGGGCTAATATTTAAAATAAAGCCAAGAATAGTTACTAAGGGATATAAGGAGTTTGTTGAACTTGAAATATATTCTGAGATATCTAGTTTTAAAAGTGAGAAGGTTAGAAGTAAAAATATTTTAAACACTAAGGTATTACTTAAAGATAAGACTAGCACCTTTATTTCTGGAGTAGGTAGAGAAAGTAAAAGTATTAATATTTCTAATCCAAGTATACCTATTTTTTCAACACTATTTAGAAAAAAGAGTAAAAATAAGGAAAAGAGAAATATTTATGTTGAAGTAGAGGTAGAAATACTAAATGAATAAGGCAAAATTTAGAAAAGAAATAGTTAGTAGATTAGAAATATTATTAAGAAGTGAGATAGATATTATTGATAGTGTTAATGTATTATGCAATATATATGTAGGAAATGAAAAAGAAAAGTTAATTAAGTTAAAGAAGGATTTAGAAAAAGGTAAAACTTTAAGGGAGAGTTTTAAAAATATTAATAATAATAAGGAATTTTTGAGCTATATTTCTATAGTAGAAAAAACTGGTAATATACAACAGGTATTTAATATTTTAAAAGAAAAATATGAATTTGAGGATAATATATTAAAAGAAGTAATGAATATTATTAGTTATCCAGCTATCTTATTATTCATTTCTTTTATTATACTAATAGCTATGATGTTGACAATAGTTCCGAAATTTGTGGAAATTTATAATGATTTAAATGCAGAATTACCTTTATTTACAAAGATATTGATATCTATTTCAGAAAAGTTAATAAAGTATAATATTTTAATTATTTTCATATTTTTCGCACTGCTTGTATTATTCAAATATTTAATAAAGATAAATAGATACATTATAGATAAATTTAAGTTTAATATTAAAATTTATAGAGATATTTTTCTTATGAGATATATACAGGGGATTTATGTACAATTAAAATCAGGTATAGATTTTTATGATGCAGTAAAAAATTTGAATATAGTAGAAAATGAATACTTTATATTCGAGATGGATAAGATAATAAAGAAAATATCTAAGGGAACGCCTTTAAAGAAGATATATGTTAATAAAAAAATATTTGATAATGAATTTATAGCTATAATAAATATTGCAGAAAAAACGGGTGATCTGTCAAATAGTTTTGAAAACCTGTATTTAATATATAGTAATAAGGTTAGGGTTAAAATAAAAATGATGTTAAGATTATTAGAACCTATAAGTATAATAGTTATAGCCTTATTAATAGGAAGTGTACTAATATCTTTGATGTTACCGTTATTAAATATAGGAGAAATGATAAATTGATATTATATAAGTATGTTTAAAATTAATGAAGAATGATTTTTGTTTTAGTTGAGGGATAAAAGGGGAGAGTAAATGGTTAAAAATTTGAGTAAAAAATTTATTAAAAAAGTAGTAAAAAATATAATTAGTGTATTAAAGGCTGTTGTAGCTGTATTATTAAATGTGTATTTTTTGGTAAACATTTCATATTCTGATTCAGGAATAAAAGATGATGAAACTAAAGAATTTGAAAAAATATATGAATGGATAAATAATATGAGAGATATAGATAAAAATGTTGATCTTGATTTAAGCATAGGAAGTGTAGGAAACTATAATATTGCTACAATTCCACATGTGAAGAAAATATTACAAATTAAAGCAAATAAAGATGCATCTAATCTTGATAATACAGATGTTATTAAATGGAGAAAAAAGTTAGGAATTAAGGATAATGAAAGTGGAAATTTTAATAAGCTAAAATTTGATGAGTTAAATAATAGGATAAATAAAGCTAATTCAGGAGTGGCAAGTGCAATAGCAACAGCATCAACCTTAAAAAATTTAGGGAATGGGAAACATACTTTATCAGGTTCTATTGGATATTATGGAAAAGAAGCTGCTGGAGCTGTTTCATATTCTACACATTATAAGAATTTTGGATTTGGGGCTAATGCTTCATTTAATAGTAGATTAGAAGTTGGTGCAGGTCTTGGTATGTCATATACATTTGGAAAAGATGATGATAAACCTGTATTAAATGCTGTAGAACCAATTGTTATTAAAGAAGATGATGGAAAAATTCGAGAATTAGAAAACAAAATTGAAATGTTGACAATGTTAATTAATAATATGGATAAAAATAGAGATAAAGAAATTAAAGAAATATACTTTATTTCAGGATTTGATTCAGGTAAATTTACTTTAAAGCAAGAACATAAAAATATTATTGATAGTTTAATTTCTGGATTAAAAGATAAGGAAATTATAGTTGTTGGATATACAGATACTGATGGGACTGATAAATATAATTTAAATTTAGGATTAAATAGAGCAAAGAGTGTTAAGATTTATTTAGAAAATAAAGGAGTTAAAGTTAAGGAAACTAGAAGTGCAGGATTTAATGAACTTATTAGAGATAATAAGACTTCAGAAAATAAGGCGTTAAATAGAAGGGTAGAGATTATGGTTAAATAACTTTATACCGTTATTTCCTTATTATATATTAAATATTGAGAGATGTTAAATATTATATAATAATTACGATTTTTTGATAAATTAATAGTTGGATAGGATAATAAATTGAAAAATTTTTGATAATTCTTTTAGGTTAGAGGGCCTATAAAAATTAAAGGTGATTGTGGAGGCTAGTATAATCTAGTCTTCACTTAATTTGGAGAAAAATTTTCTACAAAATTAATGAAAAAAAAGAAAAAAGTCCTTGACAAAAAAGAGGGGGTTATGATAAGATAATAGATGTCCGAAAGCGATATAAGCGATAGGACAAAGGACAATGGAAAGAGAAGGAATAAATAAAGCAAACAAGTAAAGACAAGTCAATTTTATTTAGAGTAAAATAGCTTTAGTAAGTTAAGAATAAGAGACAAAAGGTGAAGAACAAGAAATATTTAAAATAAATATTGAATGAAGAGTTTGATCCTGGCTCAGGATGAACGCTGACAGAATGCTTAACACATGCAAATCTATGTATGAAATGTAAGCTTGCTTACATAGACTACATGGTGGACTGGTGAGTAACGTGTAAAGAACTTACCTCTTAGACTGGGATAACCATTAGAAATGATGGATAATACTAGATATTATTAGTAGTAGGCATCTACTATTAATGAAAGGAGAGATTGCTAAGAGAGAGCTTTGCATCCTATTAGCTAGTTGGTGGGGTAAAGGCCTACCAAGGCTATGATAGGTAGCCGGCCCGAGAGGGTGAACGGCCACAAGGGGACTGAGATACGGCCCTTACTCCTACGGGAGGCAGCAGTGGGGAATATTGGACAATGGAGGAAACTCTGATCCAGCAATTCTGTGTGCACGAAGAAGGTTTTCGGATTGTAAAGTGCTTTCAGTAGGGAAGAAGAAGATGACGGTACCTACAGAAGAAGCGACGGCTAAATACGTGCCAGCAGCCGCGGTAATACGTATGTCGCAAGCGTTATCCGGAATTATTGGGCTTAAAGGGCATCTAGGCGGTCTAACAAGTTGAAGGTGAAAAGCTGTGGCTCAACCATAGTCTTGCCTACAAAACTGTCAGACTAGAGTACTGGAAAGGTGGGTGGAACTACACGAGTAGAGGTGAAATTCGTAGATATGTGTAGGAATGCCGATGATGAAGATAACTCACTGGACAGAAACTGACGCTGAAGTGCGAAAGCTAGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCTAGCTGTAAACGATGATCACTGGGTGTGGGGGTGTGAAGCCTCTGTGCCGAAGCAAAAGCGATAAGTGATCCGCCTGGGGAGTACGTACGCAAGTATGAAACTCAAAGGAATTGACGGGGACCCGCACAAGTGGTGGAGCATGTGGTTTAATTCGACGCAACGCGAGGAACCTTACCAGGTCTTGACATACTCGGAATAAGATGGAAGCATCTTAGTGCCTTTGGGAACCGAGATACAGGTGGTGCATGGCTGTCGACAGCTCGTGTCGTGAGATGTTGGGTTAAGTCCCGCAACGAGCGAAACCCCTATCATTAGTTGCCATCATTAAGTTGGGGACTCTAATGAAACTGCCCGCGACGAGCGGGAGGAAGGTGGGGATGACGTCAAGTCATCATGCCCCTTATGATCTGGGCTACACACGTGCTACAATGGGTAGTACAAAGAGGAGCTAAGCAGTGATGTGGAGCAAATCTTCAAAGCTACTCTCAGTTCGGATTGAAGTCTGCAACTCGACTTCATGAAGTTGGAATCACTAGTAATCGCAAATCAGCAATGTTGCGGTGAATACGTTCTCGGGTCTTGTACACACCGCCCGTCACACCACGAGAGTTAGTTGCACCTGAAGTTACTGGCCTAACCGTAAGGAGGGAAGTACCTAAGGTGTGATTAGTGATTGGGGTGAAGTCGTAACAAGGTATCCGTACCGGAAGGTGCGGATGGATCACCTCCTTTCTAAGGAGAATATATATACATAAACACACTTATACTTACTTTTACTCTTTTGTTTGCTTTATTTATTCCTTTTTAATAAGTCTTTTATGAGGGCGTATAGCTCAGGTGGTTAGAGCACTGTGCTGATAACGCAGGGGTCGCTGGTTCGAGTCCAGCTATGCCCACCAGAATGAAGACACTATTGTTTTATGGGGATATAGCTCAGCTGGGAGAGCGCCGCACTTGCACTGCGGAGGTCAGCGGTTCGAACCCGCTTATCTCCACCAAGTAAAATTATAGGACAATGAGAAATGAATAGTAGAGAGTAAAGAATTACAACTTTAAACAGAGACGAAAGAAAAGATAGAGTAGTTAAACTGTAAGAGAAAATATATAGAGATGATATAAAAAGCTAATTAAGGGCACATGGAGGATGCCTAGGTAGTAAAAGCCGAAGAAGGACGTGATAAGCTGCGAAAAGCTTAGGGGAGTTGCATATGAGCGTAGATCCTAAGATATCCGAATGGGGAAACCTACTTGTTGGAAGGACAAGTGAGAGATAGGTAAGCTAGCGAACTGAAACATCTAAGTAGCTAGAGGAAAAGAAAGTAAAAACGATTCCCTTAGTAGCGGCGAGCGAAGGGGGAAGAGCCTAAAACATGGTGGTGTTAAACTTGGCGAGGTTGCCATCATGTGGTAGAGGGAGATATTTGTTGAGATAGCCATAATCAAGATATGTATAGTTAGGTAAATAAAACAAGGTTGGAAAGCCTGGCCATAGAGAGTGATAGCCTCGTATGTGTAAACTAACATATGTATAATATTAATCCCAAGTAGCATCAAGCACGAGGAATTTGGTGTGAATCAGTGTGGACCATATCACATAAGGCTAAATACTTTTACTAACCGATAGAGAAGAGTACCGTGAGGGAAAGGTGAAAAGAACCCTGAGTAAGGGAGTGAAATAGAATTTGAAACCATGTGCTTACAAACGGTAGGAGGCGATAAGCTGACTGCGTGGATTTTGGTTAATCATCCTGCGAGTTATGATATGTGGCGAGGTTAAGAGAGTGGAGCCGAAGGGAAACCGAGTCTTAAGAGGGCGAAAGTCGCATGTTATAGACGCGAAACCTAGTGATCTAGGCCTGTCCAGGTTGAAGCTGCAGTAAGATGCAGTGGAGGACCGAACTCACCGCCGTTGAAATGTTGGGAGATGAGATAGGTTTAGGGGTGAAAAGCCAATCGAACTAGGAGATAGCTCGTTCTCTCCGAAATGCATTTAGGTGCAGCCTTAAGTTTAAAGATATGTGGGGGTAGAGCACTGTATAACCTAGGGGGCGTATAGCTTACTGAAGTTAAGCAAACTGCGAATACCATATATTAATACTTAGGAGTGAGTCTATGGATGACAAGGTCCATGGACGAGAGGGGAACAACCCAGAACATCAGCTAAGGTCCCAAATTATGTCTAAGTGGGAAAGGAGGTGGATATTCACAAACAACCAGGAGGTTGGCTTAGAAGCAGCCATACCTTTAAAGAGTGCGTAATAGCTCACTGGTCGAGAGTATCTGCGCCGAAGATTTAACGGGGCTAAGACATAAACCGAAGCTATGTAACAACAATGTTGTTGGTAGGAGAGCGTTCTGTAGGCTGTAGAAGGAGAGCTGAAAGGTGATCTGGAGGTATCAGAAGTGAGAATGCAGGAATGAGTAGCGAGAAAGAGGGTGAGAATCCCTCTGGCCGGAAGTCCAAGGTTTCCAGGGCAATGTTTGTCAACCCTGGGTGAGTCGGGACCTAAGCGAAGACTAGAAAGTCGTGGCGAATGGAAAATAGGTTAATATTCCTATACCACTTTAATCTGTTAACTGATGGAGTGACGCAGGAAGGTATGTGAGATGTCTGACGGAATAGGCATTCTAAGGGAGAGGCATGATAATATAGGCAAATCCGTATTATTAAATGTTAGACCTTATGGGTAAGGGCATTAGTGCTTAAGTTACAAATCCTACACTGCCGAGAAAAACTTCTAAAGAGGAAAGAAGTGCCCGTACTGTAAACCGACACAGGTGGACTGGGTGAGAAACCCGAGGCCGACAGGATAACTCTAGCTAAGGAACTCTGCAAAATAGCCCCGTAACTTAGGGAGAAGGGGTACCTATGGTAGGTAAGTGAGAGCATCATGAGCCCAAGTAGGTCGCAGTGAAGAGTCCCAAGCAACTGTTTATCAAAAACACAGGTCTATGCTAAGCTGAAAGGCGACGTATATGGGCTGACACCTGCCCAGTGCTGGAAGGTTAAGAGGAGGATTGAGAGATTCAAATTGAAGCCCCAGTGAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGTGAAATGATTTGGGAGCTGTCTTGGCTGGAGACCTGGTGAAGTTGTAATGTCGGTGAAGATACCGACTACCTGTAGTAGGACGGAAAGACCCCGTGGAGCTTTACTGTAGTTTGGCATTGGGTTTTGGTAATGTGTGTATAGAATAGTTGGGAGACTGAGATATTAAGACGCTAGTTTTAAAGGAGTCAACTGTGGAATACCAACCATATATTATTGAAATTCTAATCAAGAAATTGAGACAGTGCTAGATGGGCAGTTTGACTGGGGGCGGTCGCCTCCTAAAGAGTAACGGAGGCGTTCAAAGGTTCCCTCAGGGTTGGATGGAAATCAACCAGAGAGTGTAAAGGTATAAGGGAGCTTGACTGCGAGATTGACAGATCGAGCAGGTGCGAAAGCAGGACTTAGTGATCCGGCGGTGCTGTATGGAAAGGCCGTCGCTTAACGGATAAAAGCTACCCCGGGGATAACAGGCTGATACTTCCCAAGAGTCCATATCGACGGAAGTGTTTGGCACCTCGATGTCGGCTCGTCTCATCCTGGGGCTGGAGAAGGTCCCAAGGGTTGGGCTGTTCGCCCATTAAAGAGGCACGCGAGCTGGGTTCAGAACGTCGTGAGACAGTTCGGTCCCTATCCACTACAGGCGTTAGAATATTGAAAAGATCTGTCCCTAGTACGAGAGGACCAGGATGGACAAACCTCTGATGTATCAGTTGTTACGCCAGTAGCATGGCTGAGTAGTTACGTTTGGAAGGGATAATCGCTGAAAGCATCTAAGTGAGAAACCCACTTTGAGATAAGTATTCTTTTTAAGTATCCACTGAGACTAAGTGGTTGATAGGTTGGGGGTGTAAGTGTAGTAATACATTTAGCTGACCAATACTAATAATACGTAGGCTTTGTATTTTTATTCTTTACTTTACTATTCATTTTTGATTGTCTTATATTTCTTGCTTTTTGTTTGGTGATGTTAGCCACAGGGATACACCTAGTTACTTTTCGAACCTAGTAGTTAAGTCTGTGTACGCTGAAGATACTTAGTAATAGGGAAAATAGGTAGTTGCCAAACTCTTTTTGACTTTGTAGCTCAGTTGGTTAGAGCATCTGACTGTTAATCAGAGGGTCGAAGGTTCAAATCCTTCCAAGGTCGCCAATTGATTGTTATTTAAGTTATATACATAAAGGGCTTGTTGCCCTTTTTTATTTTTTTATAATCTTATGAAAGATTTATTAATAAAATCATCATTTCCGCCTTATTTCAAATTCATTTCTTAAGGTGAAACATATCTATTAATAATCAAAAATGAATAGTCTATTTTTTAATTAGTTTTCTTTTTTTTCTTAGTAAATTATGGTATAATTGTAATGGCAAATAAAAAAGAGGTGATTTTTTTGAGAAAAATATATTTAGCTGGAGGATGTTTTTGGGGCATGCAAGGTTACTTTAATAAAATACTTGGTGTTATTAATACAACAGTAGGATATGCTAATGGTATTACATCTAATACAAGTTATAGAGAGTTAAAGAAAACAGATCATGTTGAAACATTAGAGATTGAATATAATTCAAATTTAGTTAGACTTGAGGAATTATTACTTAGATTTTTTAAATTGATAGATCCACTATCAGTAAATAAGCAAGGTGGAGATATTGGTAGACAATATAGAACAGGAATATATTATGTTGATCCAACTGATATTCCAATAATAAATAAGGTATATGATTTTGTTGAAAAGAAAATAGGTTCTAAACTTGTTGTTGAAAATGAACCTTTAAGAGAATATATCTTAGCTGAAGATTATCATCAAAATTATCTTGATAATAATCCTGATGGTTATTGTCATATAAATTTAAATGCAGTAAAAGATCCAGTTTTTTATAAAATATATACAAAGCCTGAATTAAATGAGTTAAGACAAAAATTATCACAATTAGAATTTGATATATCACAAAATAGTGCAACAGAAAGACCATTTACATCAGAATATGAAAAATTTGATGAGGAAGGAATATATATTAATGTAGTTACAGGAGAACCACTTTTTATATCACATGATAAATTTGATGCAGGTTGTGGTTGGCCAAGCTTTACAAGACCTATATTAACAGAAACAGTTAATTTTTATGAAGATAATTCACATGGAATGAATAGAATAGAAGTAAAAAGTGCGAAAGATTTAGCTCATCTTGGACATGTATTTACTGATGGACCGAAAGATAAAGGTTCATTACGTTATTGTATTAATGGTTCTATACTTAGATTTGTTCCAAAGAGTAAGTTAGAAGAATATGGTTATGGTGATTATATAGTCTTATTTTAATTAAGGAGGGAAAATGGCAAAGGAAATTTTAGAAAAATTAGAAGAAATAGAGAAAATTGCTAAAGAAAAGTTTGAAATTTCTCAAAAAGAGATTAATTCAGACATAGAAAATTTGAAACAAAATTTAGATAATTCTTTTACAGAAAAAGTTAAAGAATATAAAGAGGAATTAGTTAATGAATTAAATGAAGAGAAGGAAAATTTAAAAAAATCATTAGAGTATAAAATTACAGATATGAAAGATAAATCTGAAAAATTATCAAGTAACTTTCATGATAAAATCAATTTAGTAATAGAAGAAGTTAAAAATATAGTAATGAAAGGATAAAATATGGCAATAGTAAAGGTTGAAAAGTTTAATTTGATAAGCTTTAAAAATGAGCTAAATGCCTTATTAAAACAACTACAAGAATTTGTTGAGGTAGACTTTAGAGAACTTGATTTAGAGTTAGATAATTTGAAATCAAATAATAAAGATGAATTAGAAGAGAAAATATATAAATTAGAGTCTATTATTAAAAAGATTAGAAAGTATTCTATCAAAAAACCTTTAATCAAATCTTTAAAAGAAGGAAAAAAAGACTTTAGTTATCAAGAACTTGAAAAATATATCAGTAATATTGATATAGATAACATAGTAGAAGAAATTAATCAGATTTTCTATCAAAAAGAAAGTAAGATTAAAGCAAATGAAGTATTGTTAAATGAAATTAAAGAATATGAAAAATGGTCTAATCTTGATGTTACTCAAAATGATTTAGCAAAACTTAAAAATGTAGATGTTAATATAGGGAGTATGTCAGTAAAAAATTTTGAAAAATTTAAGTTAGAAGAATTAATTTTATCTGAACTAGAAATAATAGATTATGGGAAAAAAGAAGTTAATTTTATTATTTTTTCTGATAAAAATGAAAATATTTCAGAAAAACTTAGATTGTATAACTTTAATAAATTAAACTTAGATATTAATAAACTTCCTAGTGAAATAAAGGATGAAAAGATTGAAAAACTTAATAATAATAAATTGTTGATTGAAAATCTTGATAAAAAATTAAATGAAAACGGAATACATTTAGAAAAAATAGAAATAGCTTATGAATATTATAAGACAATATTATTAAAAGAAAATGTTAAAGAGATGTTTAAATCTACAGATAAATTAAGTGCTATAAGTGGATATATTCCTACAGAAAGAAAAGAAGAATTTGAAAAAAGAATAGAAAAAGTATGTGATAAAGATTATTATTTAACATATGAAGAGTTTGATGAAAATTCGAGAGATATCCCTATAAAACTTGATAATAATGAGATTTTAGAACCATTTGAAACATTAACTGCAACTTATTCATTACCTAAATACAAGGAAATAGATCCTACTATACTTGTAGCTCCATTTTTCTGGTTATTCTTTGGAATGATGATAGCAGATTTTGGTTATGGTATAGTTATGAGTGTTTTATCAGGAATTTCATTACTATTATTTAAATTAGATAAAAACGGTAAATTAGCAGCTAAATTCTTATTTATGCTAGGTTTATCAACTATATTTTGGGGATTAATATATGGTTCATTATTTGGTTATGAATTTGATAATCCGTTACATTTTTATTCACCAACAGTTAATTATAAGCCAGTAATGGTTCTTTCAATAATACTTGGTATAGTACACATATTTATAGCTTTAGGAGTTAAAGCGTTCTTGTTAATAAGAGATAAAAAGTACTATGATGCATTATGTGATGTAGGATTTTGGATAGTAACATTAATCTCTACAGGTTACTTTATTTATGCTAAATTTACAGGAATTGAAGGAAATGTAGTAAATATTGCAAAATATTCTATGATAATATCTATGTTATTAATAGTAGCTACAGGTGGTAGAGAAGTTAAAAATATTGGTGGTAGAATAGGACTGGGAGCTTACGCTTTATATGGAATTTCAGGTTATATGGGTGATTTAATATCATATGTAAGACTTATGGCACTTGGATTATCTGGAGGATATATAGCTTATGCTGTAAATATGATAGCATCAATGCTGGGAAATAAATGGTACATGTTAATATTTGTAGGATTGATATTATTAATAGGACATGGTTTCAACTTATTTTTATCAATGTTAGGAGCTTATGTACATACATCAAGATTAATATATGTTGAATTTTTCTCTAAATTCTATGAAGGTGGAGGAAAACCATTTAAAGATTTTAAAATAAAGGAAAAATATATAAATATCAGAAATAATTAGGAGGAAAATAAAAATGACTTTAGAATTAGTATTAGTAAATTTAGGACCAGCTTTAGGATATTTAGGAGCAGCACTTGCGGCAATATTATCAGGAATAGGTTCAGCAAAAGCAGTTGGAATGGTAGGAGAGGCAGCAGCAGGAATAGTTATAGAAGAACCTGAAAAATTCGGTAAATCATTAATTTTACAATTATTACCAGGATCACAAGGATTATATGGTTTCGTTATAGCATTATTAGCTTCAGGGCAAATTACTTCAGCTACAACATTTTCACAAGGTGTTGCAATATTAATGGCTTGTTTACCTATAGCATTTGTTGGATTACATTCAGCATTAGCACAAGCAAAAGTATCAGTTGCTGGTATAACAATACTTGCTAAAAATGAAGAACAACAAGTTAAAGGTATAGTATATGCTGTAATGGTTGAGATTTATGCACTACTTGGATTAGTAATATCTGTAATCTTATTAAACAATATAGCATAGGAGAAGATAATGATATCAAATTTAGAAAATATTATTTCAAAGATAAAGATTGATACTGATGAAAAGATATCTTTGATAACAGAAGAAGCAAATAAGCAAATGAATGTTTTAAAAAATGAATTTGAAAATAAATTAAAAATAGAAAAAGAAAATATTACTAGAAAATTTGAAACAACTAAAACATTAGAACTTGAAAGAATTGCTTCAGGAGTTGAACTAAAATGTAAAAATATTTTGCTTCAAACTAAACAATCTTTAATATCAGAAACAATAGATAAATTAAGAGAAAATTTAGAAAATATTTCAGTTGAAGAAATGAAAAATTTTTTAATTCATAATCTTGAAAAGAGAACTAAAAAATTTGATGATGAAGAAATATTAATTCCTGAAAAATTTAATTCTTTATTAGCTCTATTACCTAATATTAAAGTTGATGAAAAAGTTAAAAATGGCTTTATTATTAAATATAAAGGGATTGAAGAAAACTTTAGTTTTGATAGTTTAATTAGACATAAAAGAGAAGAATTAGAAGAAGTAATACAAAAATATTTTGAATAAGGAGAATGAATATGAATAGAAATGATTTCATTTTGCCTGTTTCTATAATAAAAATTCAAGAAAAAAAATTATTAACAGAACAAAAGTTAATAAGAATGATTGATACAAATACTTTAAAAGATATTCTTAAAACATTAAATGATACAGAATATGCATTTTCTATGGCAGGGGTAACAAATGATGAAATGTATGAAGAAATCTTGTTTAATGAAACTAAAAGAGTATTTAGATTTGTAAGGGAGCTTGCAAAAAAAGAACAGGGAATAGTAGATTTGATAGCTTTAAAGTATGAATATCAAAATCTTAAGTTGAGATTAAAAAATGATTATTCAAATTCTGATCTTGAAAAGCATATCCTAGATACAGGTATGCCAAAAAATTATTTTGATAAAAATCTTTTAATTGCTTCAAAAGAGAAAGATTTACAAAAAGCGTCAATATTACTTGATAAAATGTATTTGGAAGATGTATATAGAATTTCTAGTGATTTAAATGAAGAAATATTTATTAAGTATAGAAAAGCTATAATAGATAAATATAATATGGTTACTTTCTTAAGATTAAAAAAACAAAATAAAAATATTGATTTTGTAGAAAATATTTTTGTTGATGGTGGAAGTATTTCAAAAGATGATATAATAAAAATTTATGAAAATGAAACACATATATCTGTATTTAAGAAATTAACTATAGCTAAGTATTGGGATAGATTTGAAAAAGATAATAATATTTCAGAAATTGAAAAAATGTTTGATAATATGATAATTAACTTAGCAATAGAATATAGGAATGTTACTATAGGACCAGAACCAATATTTACATATATAATTGCTAAAGAATATGAGATGAAAGCACTTAGACTAATTATGTCTGGTAAATTAAATAATATAGATCCAGAATTGATTAAAGAAAGATTGAGAGGTGTTTATGTATAAAATAGCTGCTATTGGAGATAGAGATACCGTGATTTCTTTTAAAGTGCTAGGAATTGATGTATTTAGTATAGACAATTTTGAAAATGAAGAAATGAGTATACAGAAAATAAAATCAACTATAGATTATTTAGCAAGTAATAAATATGGAATAATATTTATTACAGAAGAATATGCAAAAAGAGCAGAAGAAGTTTTAGAAAGATATAAAACAGAAGTTCTTCCTATGATTACATTAATACCTAATAATAGTGGTAGCTTAAATCTAGGAATGTCAAAAATAGATGAAAATATAGAAAAGGCAATAGGAACGAATATCTTTTAACGAAGGGAGAAAATACTTTGCAAGGTAGAATAGTAAAAGTATCAGGACCACTTGTAGTTGCAGAAAATATGCAACATGCTAATGTATTTGATATGGTAAAAGTTGGTAATGATAAGCTTATAGGTGAAATAATAGAAATGAGAGGGGATAGAGCCTCTATACAAGTATATGAAGAAACTACTGGAATAGGAACAAATGAACCTGTAGAAACTACAGGTATGCCGTTATCAGTTGAATTGGGACCAGGACTATTAGAAAATATGTTTGATGGTATACAAAGACCACTTGATAAAATTAAACAAAGAGTTGGAGATTTCTTATTAAAAGGTGTAGAAGTTAATGCCTTAGATAGAGAAAAAATTTGGGAATTTGTTGCTACTAAATCAATAGGTGATGAAGTAAGTTCAGGATATGTATTAGGTACAGTACAAGAAACAGAAGTTATAACTCATAAAATAATGGTTCCAATTGGAATAGAAGGTAAAATAAAAGAAATAAAAAGTGGTAATTTTACAGTAGAAGATACTATAGCTGTTATAGAAACAGTAAATGGTGATGTTAATGTAAATATGATACAAAGATGGCCTGTAAGAAAAGGTAGAAAATATGCTAAAAAAATAAATCCTGATGAACCATTAATTACAGGGCAAAGAGTAATTGATACATTCTTTCCTGTATCTAAAGGAGGAACAGCATGTGTTCCAGGTCCATTTGGATCAGGTAAAACTGTAGTACAACACCAATTTGCTAAATGGGGAGATGCACAAGTAGTTGTTTATGTTGGTTGTGGAGAACGTGGAAATGAAATGACAGATGTTTTAATGGAATTTCCAGAAATTATAGATCCATTAACAGGGAAATCACTTATGCAAAGAACAGTATTAATTGCTAATACTTCAAATATGCCTGTTGCTGCAAGAGAGGCATCAATATATACAGGAATAACTATAGCTGAATATTTTAGAGATATGGGTTATTCAGTTTCAATAATGGCAGATTCTACTTCACGTTGGGCAGAAGCATTAAGAGAAATGTCTGGACGTTTAGAAGAAATGCCTGGAGACGAAGGATATCCAGCATATCTATCATCAAGAGCTGCTGACTTTTATGAAAGAGCAGGTAAGGTTGTTTGCTTAGGTGAAGATGAAAGAATAGGAGCATTAACAGTTATAGGGGCAGTATCACCTCCAGGTGGAGATATTTCAGAACCAGTTTCTCAATCTACATTGCGTATAGTTAAAGTGTTTTGGGGATTAGATGCACAACTTGCATATAGAAGACATTTCCCAGCAATTAATTGGTTAAATTCTTATTCGCTATATCAAACTAAAGTTGATGAATGGATGGATAAAAATGTAGATGAAAAATTCTCAGCTAATAGAACTATGGCTATGAAATTATTACAAGAAGAAGCAGGATTACAAGAAATAGTAAGATTAGTAGGGAAAGATACTTTATCATTTGAAGATCAATTAAAACTTGAAGCAGCAAAAAGCATAAGAGAAGATTACCTACAACAAAATGCTTTCCATGAACAAGATACTTATACTTCTCTTGATAAGCAAAACAAAATGTTAAATATGGTTTTACATTTCTATAATCAAGCTCAAAAAGCATTGAAAAAAAATGTATATGTAAATGACATATTAGAATTAGAAGTTAGAGAAAAAATTGCAAGAGCAAAATATCTATCTGAAGAACATATATATAAAATAGATGAAATCAATAAAGAAGTTGAAGAAAAAATTAATGAACTTATCTCAAGACAAGGGGAGGTAATGTAGTGATTAAGGAATACAAAACAATTAATGAAATAGTTGGACCACTTATGACTGTTGAAGGTGTTGAGGGTGTAAGCTATGATGAATTAGTAGAAGTAGAAACACAAAATGGTGAAATAAGGCTTGGAAAAGTTTTAGAAGTAAATGAAGATAAAGCAGTACTTCAATTATTTGAATCACCAGCAGGAATAAATATGAGAGATTCTAAAGTTAGATTTTTAGGTAGACCTTTAAAATTAAGAGTTTCTGAGGATATGATAGGAAGAGTTTTTGATGGATTAGGTAGAGAAAAAGATAATGGACCTAAAATAGTTGCTGAAAAATCTTTAGATATTAATGGACTTGCATTAAATCCAGTAGCTAGAGATTATCCATCTGAATTTATACAAACTGGTGTTTCTGCAATAGATGGACTAAATACATTAGTAAGAGGACAAAAATTACCAATATTTTCTGGATCAGGTCTTCCTCATGCAGAACTTGCAGCCCAAATTGCAAGACAAGCTAGAGTATTAGGAGATGGAGAAAAATTTGCTGTAGTTTTTGCTGCTGTTGGAATAACATATGAAGAGGCAGAATTTTTTATTGAAGATTTCAAAAAAACTGGAGCTATAGATAGAGCAGTTCTATTTATTAACTTAGCAAACGATCCTTCAGTAGAAAGAATTGCAACACCAAGAATGGCTTTAACTTGTTCAGAATATTTAGCATTTGAAAAAGGAATGAATGTTTTAACAATAATTACAGATTTAACAAACTACTGTGAAGCATTAAGAGAAATTTCTGCTGCAAGAAAAGAAGTTCCAGGTAGACGTGGATATCCAGGTTACCTATATACAGATTTATCAACTCTATATGAAAGAGCAGGTAAATTAAAAGGTAAACCAGGTTCTATTACTCAAATACCTATACTTACTATGCCAGAAGATGATAAAACACATCCAATTCCAGATTTAACTGGATATATTACTGAGGGGCAAATAGTTCTTTCAAGAGAATTATACAAAAAGAATATAATGCCACCTATTGATGTTTTACCTTCACTTTCAAGATTAAAAGATAAAGGTATAGGGAAGAATAAAACAAGAGAAGATCACGCTGATACTATGAACCAATTATTCTCAGCATATGCTACAGGTAAAGAAGCAAAAGAACTAGCAGTAATATTAGGAGAATCTGCATTATCTGATACTGATAAACAATTTGCTAGATTTGCAACTGAATTTGAAGAAAAATATGTTGGTCAAGGATTTACTCTAAATAGAAGTATAATAGATACTCTTGAACTTGGTTGGGATTTATTAAGAATATTACCTAAGAATGAACTTAAGAGAATTAGAGATGAATATTTAGAAAAATATCTTGAAAAAAAGGATAATTAATTATGGCTAGATTAAATGTAAATCCAACAAGAATGGAGTTAAGTAAACTTAAAACAAAGTTGGTTACAGCAAAAAAAGGTCATAAATTACTTAAAGACAAACAAGATGAATTAATGAGAATATTTATAGAAACAATAAAACAAAATAGAGAAATGAGAAAAAGAGTAGAAGAAAAACTAACTGGCTCACTTAGAAATTTTGCTATATCGAAATCATTAATTTCTGAATCTTCTTTTGAAGAAGCTGTTGCAGTTCCTAAGATTAGTTTTGAAGTAAATGTAACAAAGAAAAATGTTATGAGTGTTAGAATACCTCAACTTACTTTAGAAAAAAATGGTAATGATGATGATATTTATCCTTATTCATTTGCTTCTACGAGTTCAGAATTAGATATGGCTGTGGAAGATTTAAGTAATATTATGAATGAGTTATTAAAGCTTTCTGAAATTGAAAAATCTGCACAATTAATGGCAGATGAAATAGAGAAAACAAGAAGAAGAGTTAATGCCTTAGAATATATGACTATACCAACTTTAGAAGAAACAATAAAGTTTATTAGAATGAAACTTGATGAAAATGATAGAGGAGCTATCATTAGATTAATGAAAGCTGGAATAAAAAATTAAAAATATACTAGGAGAATTTCAAATAATGAAAATTCTCCTTTTTTACTTTAATATTCTATATTGAAGAAATATTAATTTTTGAATTAAAATTTCAAAAAAATCAAAAAATTTGTAAAAAAATTTCATGCTAACAATTGACATTATAGAAAGTTAAGGTATAATATCATTGTAGAAATATATATATTATTAGGAGAGAATAAATGGCAGAAGTAATATTAAAGAAAGTTGAGAAACAATATCCGAATGGATTTAAGGCAGTACATGGGATAGATCTTGAGATAAGAGATGGAGAGTTCATGGTATTTGTAGGACCATCAGGATGTGCAAAATCAACGACATTAAGAATGATAGCAGGATTAGAAGATATTACAGGAGGAGAAATATATATAGGAGATAAACTAGTAAATGATGTACCACCAAAAGATAGAGGAATAGCAATGGTATTTCAAAACTATGCCCTATATCCCCATATGAGTGTATATGAGAATATGGCATTTGGATTAAAGCTAAAGAAGACTCCAAAGGAAGAAATAGATAGAAGAGTAAAAGAAGCAGCAGAGAAATTAGAGATAACAGAACTATTAGATAGAAAACCAAAAGAGATGTCAGGAGGACAAAGACAGAGGGTAGCATTAGGTAGAGCAATAGTAAGAGAACCAAAAGTATTCTTATTTGATGAACCTTTGTCAAATTTAGATGCAAAGTTAAGAGTGTCAATGCGTGTAAGGATAACACAGTTACATAAGGAGTTAAAGACTACAATGATATATGTAACACATGATCAGGTAGAGGCAATGACAATGGGAGATAGGATAACAGTATTAAAGCTTGGAAGAATAATGCAGGTAGATACACCATTAAACCTATATCATAGACCAGCAAATAAATTTGTTGCAGGATTTATAGGATCACCGACAATGAATTTATTAGAGGGAGAATTAGTAAGAAGAGAAGAAAGAACATTTATAGATATAGAAGGAGCATTAATAGAGTTACATCCAAGTAAGGCAGAAAAGGTAAAAGGGTATATAGGAAAGAGGGTAATATTTGGGATAAGACCAGAGAATATATCAACAACTAAGGAAGAGAGTACATATACACAGATAGGAGAAGTATCAGTAGTAGAACAGATGGGAAATGAGGAGTATATATACTTTAAGTTATCAGGTAAGCAGATGACATGTAGGATGAATGTAGATGGAATAAGTGAAACAAGTAAGCAAGGAAAAGAGTTATTTTACTTTGATACAAGTAAGGCACATATATTTGATATAGATACAGAAGAAAATATAAGTTTATAAAATGTGAGAACCTTCTTTCTTTAATTTATATTAATCCCCCTAAAAGGGGGATTTTTCATTGACAAAAGTATATTTAAAAAGTATTATATTTATATATTAAATAAATGGAGTAAATAATGAATATCAAGGAAATAGTAGATGAAATAGTAGATACATGTAGAACTAATGATCCTATTACCATAGCAAGAAAATATAATATAAATGTATTTTATAGAGATCTGGGTAATATTAAAGGATTTTTTAAAACAATAAATAATATTAAATTTATCGCAATAAATGATAATTTATCTGAATTTATGGAAAAAATGGTACTTTCACATGAATTAGGTCATGCTTTTCTTCACGATGATGATGCAATTGAATTTAAAGAAAACTTTATAAATGCTTCATCTTTATTAGAAAAAGAAGCTAATATTTTTGCAGCATATTTACTTTTTGGATATTTAAATGAAGAAGAAGATGAATATTTTATGGTAGATGAGGAAGAAGAAAAAATATACAGATATTTAAAAGGTTTATTAAAGTAAAAATGCGTCTAAAAATATATATTTAAACGCATTTTTTATTATTTATTAATCTACTAAAGTTGATAATAATTCAGCCATTTCTTCTATTGCTTTTTCTGCACTTGGACCTTCTGCTGACACTATTACCTCAGCATCTTTTTTAATACCTAGAGATAAAATTTTAACTAAAGAATCAGCCTTAGCTTCTTTACCGTTGTAAGATAACATGATTTGAGTTCCATCCTCTTTAAATTCCTTAGCTTTCTTAACTATAACTGAACCTGGTCTTGTATGTATTCCAGTTTCGTTAATAATCGTTACTGTTTTTGACATTTTTTCTTCCTCCTAGAACTTATATATGATAAATTTTACACTAGTTTTAAATGTTTGTCAACCTTTTAAATTGTTATAGTTTTAATTCATAATCTATATTTTCAAGAAGGTCTTTATTGCTAGAATATCTTTTAATTAAATCCATTAAAAATTTAAGAGCTTCAGCTTCATTTAGCTTTAATAAGAATTTTCTCAATTTAAGAATTGAATCAAATTCTCTTTTTGAATATAGTAATTCTTCTTTTCTAGTTCCACTTTTCAATATATCTACTGCTGGGAAAAGCCTTAATTGTTGAAGAGCTCTATCTAAAACTAATTCCATGTTGCCAGTTCCTTTAAATTCTTCGAAAATAACTTCATCCATACGACTACCAGTTTCTATTAAAGCTGTTGCAAGTATAGTTAAACTTCCACCACCTCTAATTTTTCTAGCAGCTCCTAAAAACTTTTTAGGCATATATAAAGATTTAGGATCTATACCACCTGATAATAGTTTACCACTTGATGGCATTTCTATATTATATGATCTTGCAAGTCTTGTTAAACTGTCCATTAAAATGACGATATTATTACCTTTTTCTATTTCTCTTTTAGCAGCCTCTAATACTTTTTCAGTTACACTTAAATGAACAGAAGTATTTTCATCAAATGTAGCGGCAAATATTTCTGCATTTTTTACATTTTCTTTAATGTCTGTAACTTCTTCTGGTCTTTCATCTATTAGAATTATCCAAACTTGCACATCTTTATTATATTTTAATATATCATTTGCAAGATCTGAAAGTATAGTAGTTTTACCTGCTTTAGGAGGAGCAACTATTAAACCTCTTTGCCCTTTTCCAATAGGTGCAATTAAATCTATTATTCTTGAAGAAACTGTACCTTCACCTAATTCTAATCTTTCTATAGGATATGATGGAGTTAAATCATCAAAAATAGGTCTTTGGCGACTTAATTCACCTTTTTCACCATTGACATATATTAATTTTAATAATCCAAAATTTTTCTCATCATTTAAAGGTTTCCTAACTTCACCTACTATAACATCGCCTTGTCTTAAACCAAATTTTTTAATTTGAGAATTAGATACATATACATCAATATTTTGGGGAGTATTTCTTAAAAAACCATATGTTTCATTAATTATATCTAGCTCTCCATATGAGTATATTAGACCTTCTGCTGTAGCAATGCTGTAGCATAGTCTATTTAAAAGTTCCATTTTAGGTATAGTAGAATATCCTTCTATTTTATGTTCTTTTGCAAGTTTTCTTAGATTTGTAAGAGTAAAATTACCTAATTCATCTAAAGTAATATTTTCCATTATTATTCCTTTCTTATTTGTGGAATCCAAGATCAGCTGGATTAATATCGCCAGAAACATATAATATTTCTCCACCAATATTTTCAAATTCTTTTCTCAATTCAACTACTTTCTCAATTAATTTTATCGTATCTATATCAATATTTTCTTCTTTATACCTTCCTAATGACCAAAAATCTATAATTAATTTTGAATCACCACAGATTTTTTTTACATCATATTTTAGTGCATATTTTAATGCAATGAATAGTCCTGTTAATTCTCCGAAATTATTTGTTCTGTTATTGTTTAAAAAGTAATTTCCATATGAATTTATTTTTTCATGTGGCATTATGAAAGGTAGAAGTGAATCACCATAAACATCAGATACTTTTACTTCAACTATAGTATTTCTACCAGTACCAGAGTCAAAGTATATAGCATCCTTATGTAACTTAGATGTTGATTTTGATTTGGGAGTGTATAAAGCACCAGCTTCAAGCCAGCTTTTAGCTTCATTTTCATTGTCAAACTTTTTAAATCTAGCATTTTTACCTTTTGTTAAACTTTGACATTCACTCCATGTCTTTACTAAACCAGATTTTTTTTCTTCTTCTATATAATATGCATAAACCATATTTATTCCATATCTATAATATCAACTACATTAAAGTTAGCTGATTTTATAAAGTATTTAATCATTTCATTTGATGTAAAATTATTTAAAGAAAGTGTTATAGAGCTATTATCTAAATCTGCTTCTAAATCTTCAATTTCTGAAAGACCTAAAAGTATAGTAGAAATTTGCTTTACTTGTTTGATTTCATTAAAGTTTTCTAAAAGTATTTTCTTTTTCATAGTTATATGCCTTTCTTTTATTATTTATACATTAATTATATCAAAAACACTATTTAAAGTAAAGAAAAGAGGGAATAAAAATATGAAAACTGTCTTAATTGTCAATACATATGTTACATAATAAGAAATAAATTTAATATAAGTTAGAGTTAGTTAATTGTCTAAGTGTTTAATTAAGTGTTTAGTTTAAAGAAAGAAGTGAAGTATAAAGTGTTAGAGTGTGTGAAGTGAGATTGGGGCAAATTTGGCTTTTTTTGCCCTTCTAAGTCCTTTACAACCTTTAATACCCTCTTCCTACTATACTCATCTATAGCAGTTATCTTATAATATCTAATCCCCTTTGATCCTACACATACTACCAAAGCTTCTATTATACCCCTTATTCTTACAACTAACATATACTTGGGCTAATCCATAACTTCCATGTTTTTTTAACATATTCTTTATTAGTATTAATTCTTCTTCTGTATGGGCATTTGGGCTTGTATGGGGCTTTCTTGAACCTATTGTCTATTTGTATGATAACGCCTTGCTGCTTTAGTTACTCCATTTTTTATTGCATATTCACATAATCTATGGCGAAATTTCATTTCTTCTGTTATAATACTCATGAGAGATACTCCTTTGATTGTTTTAGTTTTTGTCAAACTCTATTATATTTCTATAGGAAATTAAAAAAATATCTAAGATAAAAAAATAAAAGAAAATAGTAAAAAAATATTGATAAAGAAAAGAAAAATTAATAGAATAAAAAATAAGAGAACAACAAAACTACCTATCATAAAAATAGGCATAATATATTAATTATAGAACTTATGAATAGGAGGAGAAAGACCATTATCAATAAATAGTTCATAACGTTTAAGATAAATATTACAATGAGGACACATAAAAGGGTCAAAGTCCCAAAGTTCTTTAAAGTTTTTCCTAAATAAAGAAAGAGACTTTTTATTAACCTGAGCTTTAAGATAAAATAGAGACATTTTAACTTTAGAAGAAATTCTTCTAGCATAGAAACCATATCTATTAATCATTTTAAAATACTTTAAAGGTAGATGAAAAAGCACTTTAGCAACAAAATCTTTAAAAGATAAAGTAGAATAAGTAACTTCTTTATTATTACTTAAATCTTCAAATTTAAATGTAAGAGAATTTTTATTAAAATCAATATTAACAATCTTATATTCAGCAATAGGAACTCTTGATAAATATCTACCAAGATATTTAATAATGTATTTAGGATTATTAATATCATTACCAGCTACATTAAAAAAGAACCTAACATCATTATCATAAACATTAGATACAGCTTTTTTAGCTTGTATTTTAATAATATCATTAGGATAATTAGCATTACTAATTAATTTACAAAGAGAAAACTTCCATTGATTAGCAATAGAGGGGACATGAAAGTATTTAAGTTCTTTATATTGAAATTTTTTATTAAAACCTCCAAGAGAGATGATGGCATGAATATGAGGATTAAACTTAAGGTCTCTACCAAAAGTATGAATAACAGTAATAAGTCCGTAGTTAATAATATCAGAATTAGTAAAGTAATTAGGATTAGATTTAGGGATATATATTTTTCTTTTAACTTTATCTTTGATATTATGGAATTGATATTTAAAAATATTATTAATAGCTTTAGACATTTTAGAAAGAATAGATCTATCATAAGCAATAAATTTTCTAAATTCTTTAGGGACAGTAAAAAGGACATGCCTATGAGGGATGTTAATAAATTGTTTTAAGATAGAATTAGTCCAATTAACAGAATAGTTATAACCACAAGATGGACAAAGTCTAGATTTACAAGTAAGTTTCATTTTATGTTGAAAATTACAAGAGGAACAACGATAAGAGATAAAGCCTTTAGAGAGATTACCACAGTTAAGAAAATTATGAATGGAATGGTTGATATGTTCAATATGTTTTTTATCAAAATATGGCTTGATAGAATTAATAGAATTTGTTAAAATATATTTGGAGAAGATAGATTTAATTTTATTAGAATTATACATTATATTGACTCCTTTCTGTTATTTGGTTTGGCGATTAAATTATACAGAAAAAGAAGAGGTGATTCAAGAATTTTTTTTGAAATTCTTAATCACCTTTTTTTATTTTTTTGTTACATATGTTTTATCACATTACAAATAATGAAAACTTATGTTTTAAACGATTTAATATTTTTAGAATCTTCTATTAACTATATCTTATATTTATTTCTAATCTTATTCTTATAAATATCTGCTTGAGTACCATATATTAACTGTACACCATTTCCAGATCTAATTACTCCTTTAGCCTTTAATGATATCCACTTTTCATCATCACTAACTTTTTTAGGATCTTTTACTGTAACTCTAAGTCTAGTGATACAAGCATCTATGTGTTCTATATTTTCAATACCACCAAGATTATTAACTATTTCATCAATCATAAAATTATCTTCTTTTGATTCATTGTAATCAGCTCTTGTGTATAGCTTATTTTCTCCACCTTCTCTACCTGGAGTAGAAAAGTTAAATTTAATTATTAAATATTTAAATACAAAATAGTAAATAAAAGAATAAATAGGTCCTAAAATTAATATCCATTGATAAGATGTTTTAGCTGGACCTTGCAATAATCCAAAGAATGTGAAATCTATAATTCCACGAGAGAATGTAATACCAACTGCTACATTTAAAACATACATTAATAAATATGATAAACCTTCAAGTAAAGCATGTATTACATAAAGCACGGGTGCAACAAATAGGAAGGTAAATTCAATAGGTTCAGTAATACCAGTTAAAAATGATGTTAATGCTGCTGATAATAATATACCTTTAACCAGTGATTTATTTTCACTTTTTGCAGTGTGATACATAGCTAAAGCCGCAGCTGGTAATCCAAACATCATAGGTAAGAATCCACCTGTCATAGTTTTAGTTGCAGCAGCACTAAAATGTGCTATAGTTGGATCAGCAAGTTGTGCAAAGAATATATTTTGTCCTCCTGAAACCATAACGCCTGCAACTTCTTCATATCCTCCAAGTTGTGTATACCAGAATAAAGGATAAATTGCATGGTGTAATCCAAAAATATTTAGTAATCTCATAGTAGAACCATAGAAGAAAGTTCCTATTGCACCTGTAGCAGCAAATAATTCTCCAGCCTTAACTATTAAAAGGAAAATAGTTGGCCAAATAAATTGAATAATTGTAGCTATAGGTATGAATATTAGTATAGTTATAACTGGAACTAATCTATTTCCACTGAAGAATGCTAAATAGTCTGGTAATTTTTTATCAGAAAATTTATTGGTAATTATAGCAGAAGTAATTCCTGTTATTATACCACCAAAAACACCAGTTTGTAGAGTGAATATACCAAGTTCTCTAGCATATAGAGCAGCAGTACCTCTTGCAGATGTTTCTGATAAACCTGTAGCAATTAATGCATCAAAAGTAACTTTATCAGGAGTAATACCTTTAAAAGTTAAAATAGTGTTTATTATAGTATGGAATAATAGAAAACCAAGTACAGCAGATAATGCAGCAGTTTCTTTATTCTTATTAGCCATACCTATTGCAACTCCTACAGCAAATAGAAGTGGTAAATTAGAAAATACAAATAACCCTATATTAAAGAATAGTTGCATTAAATAATTTAATGGAGTACCTGGAGCAAGGAAAGTTAAGTTATATGTGTTTATTAATACTGGATTAGTAAATGATCCACCAATACCTAATAATATCCCTGCCATTGGTAATACAGCTATAGGCAACATAAATGCTCTACCTATTTTTTGTAAAACTGAAAAAAAGTTATTTTTCATTTTATACCGTCCTTTCATTTGTTATTAAATATATTAAAGTATATATTGAGAAAAAACTTTAGTCAAGTATATAACATAAGTGTTGTGGTATTTGAAAAATCAAAATTAATGGTTTGTAAAGAAATAATAGAAAGTCATATTTCAAAACGTTATGATGATACTAATGTTACAACTAATACAGATCGTATTGTAGAAACAATTAATAAAAAATTTTAAGTAAATTAAAATTGCTGTAAGTGTCTAACATCAAACAGCAATTTTTTATTTATTTATGATAATCCCACTATATTACCTTTTTCATCTATATCTATATGTTCAGCAGCTGGAACTTTAGGAAGTCCAGGCATATCTAAAATATCTCCAGCCATTACTACTAAGAAACCTGCACCTGCTGATATATTTATATCTGTAACTTTAAATACATAATCTTTTGGTCTACCTAATAATTTTGGATTATCAGATATTGAAGCAGGTGTTTTAGACATACAAATAGGTAAATTATCAAAGCCTTTTTCTGTAAATAATTTTAATTTTTCTAAGGCAAGTTCTGAATATTCTATATCTTTTGCACCATAGATTTCTTTACAAATAGTTTCTATTTTTTCTTCTATACTCTTATCTAAAGTATAAAGGTATTCAAATACTGAATTTACATTTTCAGAAGGAATTTCTTCAACATAGTCTAATACTTCAACTATTTCTTTTACTAGATCTTTTGCACCTATTCCACCTTTTGAATGTATTTCTATAGGAACTGCGATAACACCTTTAGTTAAAGTAAAATCTTTTATTATTTTTAATTCTTCATCTGTATCATCAGCAAATTTATTAATAGCAACTATTACAGGTAAATTGAATTTTTTAATATTTTCTATATGTTTTTCTAAGTTTTCTAATCCATCTTCAAGATTTCCATTTCCATGATGTTTTAAAGCTCTTACTGTTGCAACTAATACAACCATATCAGGAGTTATAGAAGCTTTTCTACATTTAATATCAAAGAATTTCTCAGCTCCTAAATCAGCAGCAAATCCAGCTTCAGTTATAGTATAATCTGAAAGTTTTAAAGCTAGTTTTGTTGCAAGTACAGAATTGCAACCATGAGCAATATTTGCAAATGGTCCACCATGTATTATTACTGGTGTATTTTCTGTAGTTTGAACTAAATTTGGTTTAATTGCATCTTTTAACAATACAGTAGCTGCACCATGTGCCTTTAAATCTTTAGCATATATAAAATCACCATGTATGTTTTTAGCTATAATTATATTCCCTATTTTTTCTTTTAAATCATGTATATTTTCAGCAAGACATAATATAGCCATAATTTCACTAGCAACTGTTATTTTAAAAGAGGCATCATGAATAGGACCGTTAATTTTACCACCTTGTCCTACAGTAATACTTCTAAGAGATCTATCATTCATATCAAGTACTCTTTTAAAATATATGTTATTTAAATCTATTTCCAACTCATTTCCTCTATTTAAATGATTATCTATCATTGCTGCTATTAAATTATTTGCAGATGTAATTGCATGGAAATCACCATTAAAGTGTAGGTTTATATCTTCCATAGGCAGGACTTGTGAATAACCTCCACCAGTAGCTCCACCTTTAAGTCCAAATACTGGACCAAGAGAAGGCTCTCTTAATGCGGCAATTGAGGAATAACCTAATTTATTAAACCCTTGTGTTAAACCAACAGAAACGGTAGTTTTTCCCTCACCATATGGAGTAGGTGTTACAGCAGTAACTAATATTAATTTACCGTTGGCTTTTGATTCTAATCTTTCTAAGATGTCTAAATTCAACTTAGCCTTATATTTCCCGTAAAACTCTATATCATTTTCTACACCTATTTTTTTTGCGATTTCTTCAATAGGTAATAATTTTGAATTTTGTGCAATTTCTATATCTGTCATTTGAACACCACCTTCTTTAATTTTCTTAATTCTATCATACTTATTTGAAAAAGTCTATTTACTAAATTAAGGTATTAAAAATCTTTTTCTCGTTTGATTTTATATACTGTTTGTGTTAAAATGTATGTGGCAGCACAAGGGGGAAAAGTGAGAGATTTTGAGTTACTTTTAAATTTAATAGAGCTAGTGGAAAATAGAAAAATAGCAAAATTACAAGCTAGTGAAATTATTAAAAAATATGGAGGAATTTCTAATATCTTAAGAGAAGATTTTAAGGTAATTGAAAATATGAATATTTTATCTAAAAAAACTATGAAAATTCTTGAAAATGTTAGTCTAATATACAATCATATATTATTTAATGAATGTTTTGGAGAAGAAAAAAAGATTAGTTGTTTTGAAGATTTAGTAAAATATCTAAAATTTCAATATGTAGATATGGAAAGAGAAGTATTTAAAGTGCTGTATTTTAATACTAAAAATGTTTTAATTAAAGATGAAAATATTTTTTATGGAACTATAGATAAAAGTGTAGTATATGTTAGAGAAATAGTTAAAAATATATTGAAGTATAATGCAAAGTCAATTATTATCGTACATAATCATCCTAGTGGGAACTTAGAACCATCTAATGATGATAGATGTTTAACAAAAAAGATAATTGATGTTTTAAAATTAATAGATGTAAGATTATCTGATCACATTATTATCTCTAATAAGGGATATTATAGTTTTTTAGAAAATGGTCAGATTTAAGAAAGAGGTTAAAATGAATATTGTTAATATTAGATTTAGAAAAACAAAAAAAGTTTACCCTTTTTATATTGAAAATGTTGGTGAATATAAGAAGGGGGATTATGTAATAGTTGAAACTATTAGAGGAGATCAAATAGGTATAGTATTAGGTGAAAATAGACTAAATAATGTTAATTTTGATTCAGATGAAGATGATTTGAAGATAAGAAAAGTTAAGAGAAAATTAAACGATGAAGAAATTAAAGAATTAGATGCTTTAGATGAAAAAGCTAGACAAGCCTATTTTATTTGTAAAGAAATAGTTAAAAGGATATTACCTGAAATGAATTTAGTTATAGGTGAATACATGTTTGGTGGTGAAAAATTAATATTTTATTTCACTGCTGAAGGAAGATTAGATTTTAGAGATCTAGTTAAAGAAGTAAATAAAGCATTTAATAGAAGAGTAGAATTTTATCAAATAAAGTATAATGATGAGGGTAGAATCCTTAATGCATTTGGGAAATACGGTCGTGAAATATACTGGTGATATGACACATTATTTAGAAAGTGTAGATTTAAGATTAAATTGTGGTAAAGGAGCTTTAAATATTACCACTGATGCTTTAGATTTAGTAGATTTTGTTAAAGAAAATCTGGTTAATATAGATGAAATTGGAAGTATGCTTGATATAGGTGCTGGAATAGGGACTATTACATTTATGCTATATAGGCAAAGAAATTTTACAGATTTTCATGCAGTAGAAATACAAAAAGATGTATATGATATATTATTATCCAATATTTTATTAAATAATATGACGGTTAGTGCATATAATATGGATATAAAGGAGTTTCATTTACCATTTAAATTTAAATATATAATATCAAATCCACCATTTTATAAAACTAATAGTGGATATATGCCTCAAGATGAAGTTATGAAAATTTCAAAATTTGAAGTTTGTTTAAAAGTTTCAGAATTACTTGATGTTGTAAATGATTTATTAGATGATAGAGGGTACTTTTTTTTAATATTATCCATTGAAAGAGATGAGGAATTAAGAAAAGATAAGAGATTTATTATTAAAAATTATAAAAAACATTTTAGAGGTAAAAAAGTTTTCATAAGTTATCTTTTGAGAAAGGATAAAAATGATTAATGAATATGGTGAATTAGTAGAAGTATTAATGGATGATAAGATTAAAGTTGAAAGAATAACTTCTAACTCTAATGTAACAGATTTTATGATTTCTGATTTAGATGAATATGTATATATTCTTGAAGGATGTTCTAAATTACTGGTTGGAGAAAAAGAAATATTTTTAAAGAAAGATACAGGATTTTTTATACCAAAAAATACAGAACATAAGGTTACATATACTAGTAGTGATTGTAAATGGTTATGTATTTTTTTAAAGGAGTAGTATGATAGTAGGATTAACAGGTTCTATAGGAGTAGGGAAAAGTAAGATATTTGATTTCATTAAAACTATTATGAAAGATGAGGCTGAATATATAGATGCAGATTTAATAACTGCTAAGCTATATAACATTGAAACTGTTAAAAAAGAACTTTACTCTATGTTTGGAACATGTGATAAAAGTGAAATATCTAAAATAGTATTTTCAGATTCATCAAAACTTACTCTTCTTAATAATTATATGCATAAAATAATTATTAGAAAGTTAAAAGATGAAATTGAAAATTGTGATAAAAAATATATGTTTTTAGATGTTCCTTTAATATATGAATTAAATCTTCAGTATCTATTTGATAAAATAATAGTAGTATATGCTCCTAAAAATATACAAATTGAAAGAATAATGAAAAGAAATAATTTGACATATGAAGAAGCTATTTCTCGTATAGAAAAACAAATAGATATAGAAATAAAGAAAGAAAAAGCAGATTACATTATAGATAATTCTTCAGACATAGAAGTAGGTTATGTAAATACTTTAGATGTTTTGATGAAATTAAGAAAAGAGGAAACATATGGAAATAAAGAGTGCTGAATATTCAAAAAGTTGTATTAAACTTTCAGATTACCCTGAAAAAATGAATAATACAGAGATTGCATTTGTAGGAAGATCTAATGTAGGTAAATCATCTTTAATAAATACTATAGTAAAAAGAAATAATTTAGCTAGAACAAGTAAAACACCTGGTAGAACTCAACTAGTAAATTTTTTCTTAGTAAATAAGGATAGATATTTTGTTGATCTTCCAGGATATGGATTTGCTAAAGTACCAGCAAATATTAAGAAAAATTGGGGTAATATCATATCAGAATACTTAAACTCTGAAAGGAAAAAAGTGGTTTTTGTTTTGCTAGATATTAGACGTGTTCCAAGTGGTGAGGATATAGAAATGCTTGAATATTTAGAGCATTATAACATAGAATACTATATAATATTTACAAAGTGTGATAAATTATCAAATAATGAAAAATTTAGACAGTTAAAGGAAATTAAGAAAAAATTAGAGTTTAGTAATGAAGATGTATTTTTTCATTCATCATTAAAAAATATTGGTACAGCAGAAATACTAGATTTCATTGATAAACTATAAAGGAGTGATGAAGATGATGTTATGGGTAATTTTAGGAGTGGTAATCCTAATATTTTTATGGGGAGTAGGAGTGTATAATAGATACATTAGTTTTGACATAGAAAATCAGACAGCTTTTAGCAATATAGGGACTTTTTTACAAAAGAGATTAGATTTAATTCCTAATTTAGTTGAAACAGTTAAAGGCTATGCTAAACATGAAAATAATACATTACAAAATGTAGTAGAAGCAAGAAGTAAAATGCTTAAACTTGATTTAAATGATATCAATAATTTAGAGGAAATAAGAAAAATAGAAAATGAATTAACAAAGACCTTAAAATCTATTATGGCTTTAAGTGAATCATATCCTGATTTAAAAGCAAATGTTAGTTTCTTAGAATTACAAAAATCATTAACTGATATTGAAAATCAAATAGAGAGTGCAAGAAGATACTATAATGCTACTGTAGGTGAATTAAATAGTTTTGTTAGAAAATTTCCAACAGTTTTACTTGCAGGAATACTTAAATTTAGAAATGCCGAATACTTTAAAGAAGATGTAGAGGCTAAGAATGCACCAAAAGTGAGCTTTTAATATGAAAAAAATATTATTTTTTCTTTTTATTTCGATTTTTACTTTTTCTTTTGAAAGTATATCTAATTTTGAAATGGATATATTAGTTAATCCAAATGGAGTTTTAGATGTTACAGAAAGAATAACATATATTACAGATAGTAATAGAAAAAGAGGTATTTATAGGATAATACCTTTTAAATATGATAGTGGTTCATATTTTAAATTTGAAGATAGAATTAAAATAGAAAATTTTAATGTTAAATATACAGACTATAATAATGAAGTGGGCCTATATAGTAAAATAGATGAAAATGTAATGGTGTATAGACTAGGGCAAAAAGATGTTTATTTACCTAGTAATAAGGAAATTAATTATGAGATTAAATATAAGGTATATAATAGTATAAGAAGTAAAGATAATGTTAATCAAATATATTTCAATGCATTAGGAAATTATTGGGAAATGCCTGTTGAGAAATTTAAATTAAATGTTAGAGGAATTAAAGGAAATATCGAAGTATTTACAGGGTATGTTGGTGAGACTAATAAAGATTATCAAATAACTGAATTAGAAAATGGATATGAAATTAATACTGTTCGTGTAAGTAATACAGGAGAAGGACTATCATTTTTACTAAATTCAGATAGTTTTGAATACTCAAGTTTTGATTTATGGTATAATAGAGCTAAGGCTTACCCTTTAATAATAGTCGTATTATTAACTATTTTACCTATTATGCTACTTAATATTTCTATATTTAAATTTAAAAAAAGAAATAAATTTAATAAAGCAATAATGGTAGAATATCTTGTTCCTGATATTTCGGCTTTAATAGCTAAAAGAATGGTAAGAAGAAATACATATTCTACTGACTTTTTAGTAGTATTATTCATGTTAATGCAAAAAGGAATAATTAAATTAAGAGAAAAAAATCCTGAACATGATTTTGATGAGGAATATGTAGTTAGATTTGGAGATAAGATTAAATCTAAAAGAAAAGATTTTAATGATTACGTTGAAAAACAATATTATGTTGACATGAATGTATATGAGTGTATGCAAGATATTTTGTCTAAAGAAGAAAATATATTTTTAAATAGGACTATACTTTATAAAAATGATATATTTAAATCAAAAAAAACTATAGTATTGGTTGAAGATGATTTAAAACAATATTTTGATGAGAAATACTATACTGAATATGAAATATCAGTATTAAAATATTTAAATATTATATTAATTATGTCTTTTTTTGTAATAGGAAGTATAGTAGTATTTATTGGAAAGAATGTTTTTTCAGAAATACAAATGTTATTAGTATTAGGAGCAATGTTTTTTATTACATTTATGAATGCTATAACAGTTAAAAGATATACTAAAATTTATGAAAAAAATTATCCAAAAGTAAAAGGATTTGAGAAATTTTTACAAAAAACAGAAGTAGAAAAACTTAAACATTTTAAAACAGAAGAAGAGGTAATAACATATTTTAAACAAATTCTTCCATTTGCTATAGCATTTGGATTACAGAATCAATATTTAAAAATGTTAGATAATGTAGTTTCTAGACTATTATTAGATATTGAAAAAATACGTGATAACTTATATTATTCTCATATTGTTAATATTATGTACTATAATAGAATAATAAATAAAAGTATAGAAACAGAAATTAATAACAACAATAGTTATGGTGGAAATTCAAAATTTTCAGGAGGATTTTCTTCTTCAGGTTCATCAGGTGGTGGATTTGGAGGAGGAGGGGGAAGAAGTTGGTAATAAAATTGGAGGCATTTAGAAATATTTGCCTCCTTTTTATAATCTAAGTAATGTTGACAAAATATACGGGGGAGGATATAATAAAGTGAAAAATAATTAAGGAGGAAAAGATGTTAAAAGGAAATAAATTAATAGCCTTAATGACAATAAGCACAACATTATTAGGGGCAGAGTACTACATAAAGAATGACAGTAAGTTAGAATTAGGTTATGATACTAAATTTACAAAAAAAGGTTCAAGTGAATTAAACTTAGGAGGAATCTTTGGAGATAATAGAGAGTTATTTACATTTGTAGGAGCAGAAATAAATGGTAAAAACACAATAGATGGAAAACTTACAACAGGATTAAGTGTAAAAAAGAGATTAATACAAGAAATAGAATTAATATTAAATGCAGGATATCAATATAAGGGAGGTTATGAAAACTCAATAAAAGAGCTATTAAAGAGTAGAGGAGAATGGGACAAAAAATTTGATAAAGATAAAGATGCTTTAAAAGAATATTATCATTCACAAGGATTAAGATTTAAAGATGAAGAATCTTTATTCTCAGGAATAGTAAACTATGATCATAGTAAATTTAAATTACATAGTGGAATAATATATACAGCAGGCTATTTAAAAGATAATACATTTAGATTAGAAAGTTTTGTAAATATAAAGGGTAAGAAGAATAACCATGAACTAGAAGGAGACATAAACTATAAGCTAAAGAAAGACACTTATGCAAAGGGAGGAAGATTAAAGTTAGGATTAAATACAACAAGTAAACTAGGGAAAGTAGAATTATCTAATAAAGGAAAGATATATTTAGGTACACTAATACCAAATAAGAGAAATTATTCAATAACATTAGGAAGTGAACTAAAATATAATGTAAATAATTTAGAAATGTTAGGATCAATAGGTTCAGAGTTAGTGTTTAAGGAAGTAGAATCAAACAAACTAATAAATGAATTAAAAATATCATATAATCCAGAAATAAAATTAGAATTAAGCTATGATAGTGATAAAGTAAAATTTGAATCAAAGAATAAGATAATAGGAAGAATAGAGAGTAAAGGCTCAAAACTAAACGCAGAAGAATACGAGAAGAATAAAAAAGATCAAACAATAGCATTAGCATATAGTGGAAATATGTTAAAGTCTAGATTAAAAGACTTTGATATTAGGGTAGTAGGAAGATATGTAGTTAGAGTAACTATGAATAAAGATAGTAATGATGCAAAGCTTGATAAGACAGAACATTTATTAGAAGTAGGGACTGGATTAACAATAGAGAAGAAGAATAAGAGATTTGATACAAGAAGTAGTATAGATGGAAGATATATATTTGGTAGAATAGAAGATAAGAACTTTAGTATATTAAACTTATGGAGTGATAATAAAGCAGAGTATATGGTTAATGAAAGATTAATATTAAGTGGAGAATTAAACTTTACAAGTTCAAATAGGCTATCAATATTAAATCATAACTCAAATGATGATGAACTATTACTATTAGCAGACACAAAAGGGACAATAGATTACAAGATAAATAAAAAGCTAAGCTTAACAACGACAATAGGTGCAAAGACTATATCATTGTTTAGCATATTGAAAAAAAATGAGAATAATAACAAATTACATTTAAGTTCAAAGTATACATATAAGGTGTATAATGAAAGTAAGTTAAAGTATAGTGTAAGAGAAAATATAAGTTTAACAGGTAAATTAGATATGAGTTATTCAGGAGGTATAAAATCAGATAAGTTATATGAGAGTTTAAATAAGATAAAGAGAGATCAGATAGTTGAAAAGGGACTAAAAGAGATTAGTAAAGAGGATTTAAAGAAGATAACAGAAGAAGAAACTAACTTTGGTAATGATACAAGCTCATTATTATTAATAGCACCAAGTGTAGAGGGAGAGATAAGCTATTTAAATGATAAGTTGTTAATTAAGCCTAGTTTAGGAGTAGACATAAAAGCATATATAAAATTAAATCAATCTAAACTTGAGTATAAGGAAACAAATGTAAAGACAGGATTGAAGGTAGAATATAGATGGTAGTGAAAGGAGAATAATGAGAGGAATAAAAATTTTTTTATTGATGCTTGCTATGATTTCTAATGTATCATTATCATCTAAAAACCAGTTTAAGAATGTATCGAAGAAAATAAATAAAGTTATGGAAGATAAGAAAGAGACTAAGTTATTTGATTTTAAGAATTCTAAGAAAGTAAAGGTTGAATTAGGTTCTAATATAGAATTAAATAAAGGTATGGAATCAGATGGAGGAGTAAATCTTAATGGTTCACTAACATTGTATGAATTTTTAAAATTATCAGGTAAATTAGGATTTGGAATTGATTCTACTAGTAAAGAATTAAGATCATCGGAAACATGGTTAGGATTGGGGTTAAATTTTAAAGAATTTGGTAATTTGGAATTAAAAATGAATTACGATAGAAAAATAGCACTTAGTTATGAATATAAGAAAAAAATTAATGATTTTGATATAGATGTTAAAGGTGGATATAGTTCATATAAGGCAGAATATGACTATGCTAATAAAGATGATAATGAAGAAAGAAGAGAAAGTAGATATGAGATAGATACTAAATTGAAGTATAATTTTTGGGAAAATTTTACATTAGTTAATAATCTAAGTTTTTGGCTATCTATGTTTCATTCAACTAAAAGATTAATTCCATATTCTTTTTTAATAGGAACAGGAATAGATTATAAGAATACTTTATTAAAAGGTAATGATTATAAGGGAACATTAATATCGGGTATACATGTTAATCATTTAAATGAAAGACGTCAATATATTGTTGCTGATAATGATCATCTGACAACTAGCGATGATGACGAAGAAGATAATATGTCTAGTGATTTAGAAAGTTTTTTAAGAGACTCTGAAAATTATAAAATATTTGAATTTGAAACATATTTAGGTTATGAATTTGAGAAACAGTTAAAAAAAGATAGTAATATAAGTATTTTAGGTAAATTATCTGCTACTATAAATAATATACATAAAAGTGAAATGAAAGAGAGATATAAAAAAGATGGAACGACTTATATTGAAATAAAGAATAATGGAGATGATGTTATTCCAAAAACAACAACTAATATTAAATTAACACCAAAAATAAAATTAAGTTATAAATTTAATAAAAATATTAGTATGGATATGGAGTATGATCTTGATATTGCTTTTAACAATAATGGATCAGTTAAATATAATAATAAATTAAGAACAGGAGTTAAATATACATGGGAAAAATAGAAAATAAAATAATGTTAGGTATATTAGCTTTAAGTTCAATATTAAGTTTATCAACAACTATGTATGTTAAAAATAACTCAGAATTAAAATTAGATTACTCTTATAGTGAAAATGATGGGATGTTTAAATTTGGATATGAACCAATTAATACTTTAAATGCAGGAGCTTTTTTAGGAAAAAGTAATGAAGCATTCTTATACCTAGGTGGAAAAATAAAGAAAGAACATATTATAGATGGTATAGCAAATTTAGGAGTATTTTTTAAGAAAAAAATTAATGAACATATAGAATTAACATTAAATACAGGATATCAATATGAAGGTGGAATGGAAGATTCTATAAAAGAGGGATTAAAGTTAAAAGGATTATGGGATAAAAAATATGAAGAAGATGAGACATTAAGGAAAGAGTTTTACCATTCACAAGGGTTAAGATTAAAGGGGAATCCAATATTAGCATCAGGAGGGGTATTAGATTTAACTTATGGTAATACTAAATCAAAGATAGGGGCTATATATACAATAGAAAGTTTTAGTGAACTTTCTAGAATACTACAAGCACTTCCGTCAAGTAATATAAAACAAATAAAACTATATAATAGTCTTATAGGAAGAATTGAAACATTTGTTAATGTAAATCAAAAGTTGAATAATTTAGGTATAGATTTAAATTTAAACTATAAATTAAAGCCAGATATATCAAAGAGGTTAGGAAGATTAAAGGGAGATGTAACATTAACAAGAAAGATAGGAGATATAGAACTTTCAGGTAAGGTACATGCATATTTAGGAACAATATTAATAAGTGATAAGAAAAGAGAATTTGGTGGAGAAATTAGATTAGGCTATAATAAGGATAGAATAAATATAAAGAGTACATTAAAGCATAGTACATTATTGGATTATAGTGCTAATAAGGGAACTAAAGATGATAATAAGGAAGAGCCACCTAAAAGTGATTCTACAGATAAACTATTACATAAACAAGAGCTGACATTTGATTTGGGATATAAGAATAATAAGATAGAGTTTAATACAGAGAATAAGCTAAGAGGGAAAGTATTTACAGATAAATTAAAAATAGATAAGGATAAGTATAAGTCAGATAGCTTAAATAAAGACTTCACAGTATTTTCAATATATACATCAAATAGTTTAAAGACAAAAATTGGGAATGTTGGAATAAAGGCAGATATTAAATATAGACTTGGTTTAGATATTGATAAAGATACATCAGAAACTTATAAACATTTAGCTTTAGTTGGGGTTGGAGCAGAATATAATAATAAGACTAAGAAGATAGAAACAAGTAATAGTGTAAATACAACACTTTTAATAGGTTATAATAAATATGAAATTTTTGCGATAAATGCATGGAGTGATAATAAGGCAGATTATATTGTTAATGATAAAACAAAGTTATTTGGAGAATTAAATCTAACTAGTTCAAATAGACTATCCTTTTATTCAGGAATAAAAGCAGAGATATTAGGATTTGTGGATTTAAGAGGAAATATAGAGTATAAGATAAAAAATAATCTGGAGTTTATAAATGAGCTAGGAGCTAAGGCTATATTATTATTTAGTAAAAAAGATGAAAATGATAAAAATACTAATAATATAAATATTTTATATATACCATTAACTACACAATATCAGTATAAGGTATATAATGATAGTAGTATTTTATATAAGGTTAAGGATAATATAAGGATTAAGAGTAAGTTAGGACTATCATATTTAAATGGATATGATTCAGAGACATTATATAGTGCATTAAGGGATATCAAGAGAAAACAGATAGATTCAAATGGTATAGTAGAGATAAGTAGAAAAGATCGTTTTAAAATTAGTAGTGAAAAACATGATTATGGAGTTAGTCTTTTATCAAAGATAGTAATAAATCCTTCAATAGAAGGGGAGTTAAAATTTTTAGGAGAGAGATTGACAGTTAAACCAAATGGAGAGGTTAAGTTTATTTTTGCAAATAAGGCAGATAATAATGTAAATAGTGTAAGAAGTAGTAGTAATAATACAGATAATAAAAAGTTTAAATATAATTCAACAGTCTTTAGGGTTGGGTTAGGTTTAGATTATAAATGGTAATTTTAAAGGGACTATTACAAAATAGCCCCTTTTACTATAATATATGTATTGAATTTTGATCGAATACAAAACTTAATTTATCTCCAACTTTTTTAATTTCTTTTCCATGAGGGTTATTTAAAACAATCTCTATAATATTATCCCCATTTTTAACTTCATATTCATGATTTTCGCCCATAAATATACTCTTAGAAACTTCTAAAGTATGTTTTGGTTCAGTAAATTTAATAGATTCTGGTCTAATAACTACTTTAATATCACTTCCTGAAGGATAATTTACAGTTTCATTTATTAAATATTCTTGATCTAAAATAGAAATTAGAGTACTATTTTCTCTGTTTTCTAAAACTTTAGCATTTAATATATTTGCCCTACCTATGAATTTTGCAACAAATTCTGAATTAGGTTTTTGGTATATTTCTTGTGGAGTACCAACTTGTGCAATTTTACCATCTTTCATTATTACTATCTTATCTGAAAGTGCCATTGCTTCAGCTTGATCATGTGTTACATATATTGAAGTTATACCTACTTCTAATTGTAATTTTCTAATCTCATCTCTCATATGTAATCTTAATTTAGCATCTAAGTTTGATAAAGGTTCATCAAATAATAGAACTTCTGAATCCATTATTAAAGCTCTTGCAAGAGAAACTCTTTGTTGTTGACCACCAGACATTTGAGATGGAATACGTTCTGCAAAATCTTCCATTTTCATTAATTTTAAAATTTTATCTACTCTTTGTTTAATTTCTTCCTTAGGTCTTTTTTGTATTTTTAATCCATAAGCTATGTTATCATAAACATTCATATGTGGGAATAAGGCATAGTTTTGAAAAACCATAGATATTCCTCTTTTATCTGGAGTTAAATAAGCTATATCTCTATCATTTATTGTAATATGACCTTCACTTGGTGTTTCAAATCCAGCTATCATTCTAAGAGTAGTAGTTTTACCACAACCTGAAGGACCTAATAGAGATACAAACTCTCCTTCTTTTACTTCTAAATTTACATCTTCTACAGCAACTACTCTTCTACCTTTAGGTGTAAAAACTTTAGTTAAATTTTGTATATTTAATTTAATTGGTTTACTCATTTCTTTCTCCCTGTTATTTATTTTTAGGTTCTAATAATCTTATAAACAGCTTCATTAATATCATGAATAATGAAACAATAACTATTAATATAGTACAATATGCAGCAGCTATTCCTATTCTACCTTGATCAACATTATCCATTATAGTAGGAGTTAATAATTTCCATTTAGCAGAAATTAAAAATATTACTGTTGAAACTAAAGTCATAGCTCTTGCAAATGAATATATTAGTCCTGATAAAAAAGCTTCTCTTACCATAGGTAAAGTAATTTTTGTAAATGTTTGTAATGTGTTTGCCCCTAATATAGTTGAAGCTTCTTCTATACTTGGATCTATTTGATTTAGGGCAGCCATACCAGATCTTACTCCAACTGGAAGTGATCTAATAATAAATGCCATGATTATTATAAATCCTGTACCAGTTAATGTAGGGACTAATACTATATTAGTAAACGGTATGTTATATATCTTGTTATAGCTTAGTGCATAACCTATACCAATAATAGTTCCAGGTATTGCAAGTCCCATCATTACAGTAAATTCTATGAAAGTTTTTCCTAAGAATTTTTTTCTTACTATTAAAAACGCTATTATCATAGAGAAAATAGAAGCAATAAATGTCGCTATTATAGATAGAGTTGTAGTAGTAATAATAGGATTTATTCTATTTGCATATCTAAATATTTCTCTGTAGTTGTATAAACTTAGACTATTATCTATACCAAATAATTTTGTAAATGAACTAATAGGTATTAATATGTACATCCCTATAACACATATAGAAAGTGTTATTAATATTAAACTAGATGTAATAGTTGCAAATTTTGTATCTATTAATTCTCTTGCACGAGAAGCTTTACCTGTTACAGTTATATACGATTTTGAATTTATATAGTATCTTTGTAGAGTAAACATAGAAATAGATATTGTTAATAATATCATTGATAGTGCTGATGCAAGACCTAATTGATAATTTCCTATACCCTCCTGAAAAATTTTAACTGCTATAGTAGTAAACTTACCACCTATAACAAATGGATTAGCGTAATCTGCTATAGATTGTATAAATACTAATAGAAAAGCGTTTGCAAGACCAGGCATCATTAAAGGTAAAGTTATAGTTGTAAATACTTTAAATCTATTTGCACCTAGAGATCTTGAAGCTTCTTCAACAGAAGGATCTATGTTATTTAACAATCCAACTAACATCATATATGCTATAGGAAAGAAACTTAATACTTGTACTAATACTAATCCATGGAATCCATAAATTTCATATTCAATTCCTAATAATCCTCTAGTAATCAAACCTGTTCTACCAAATAATAGTATAGTTGATAGAGCGACTATAAATGGTGGAGAGATTATTGGTAATAAAGCTATAAAATCAAATACAGCCTTACCTCTGATTTTAATATATACAGTTAAATATGCAAATATGAATCCAATAATTAATGATATAAATCCAGTAGTAAATCCTAATATCAAAGTGTTAAGTATAATTTGTAGATTACCTGAATTTTTAAATGAATCTATATAGTTTGTTATTGAAAAACTTTCATCTACTTTAATACTTTCTAAAAACACATTGTATAAAGGAACTAAAATAAAGAAAGCTACGACAACTATTGAAAATATTATAGTTACCATAAGTATAGGATCATTTAACATTTTCCTAAAATCTTTAAAGCCATCTTTTATTTTTAATTTTAAATCTGACATAAATAATCCTTTCAATAAAATACAAGGGTTTAATTCCCTTGTATTTCAATTTATCTATTTTTGAGGTATTGTTGAACTAGTTTCTTTAGTATATTTTTCAACTAAATTTTTTCTGTTTTTTCCAGCCCATTCAAAGTCATAATTTATTAATTTAGTATTTTTAATTGGTTCTGCTTCTTCAGGAGCTACAGCATTTTTGTTAGTTAAGAATTGGAATGAACCAACAGTTTTTCCTAATTCTTGAACTTCTTTAGTTAATACCCAATCAATAAATTTCTTAGCTGCTGTGCTATTAGGAGCATTTTTTAATAATGCTACTGCACCTATTTCATATCCTGTACCTTCATTTGGAGAAGATATTATAATATCTGAATAACCTTCTTTTTGGTATTTAATAGCATCATGTAGGAAAGTTATACCTAGAGCAACTTCTCCACTTCCAACCATTCTTCCAGGAGCAGTTCCAGATTTTGTATATTGTCTTATTTGTCCATCTAATTGTTTGAAATAAGACATAGCTTGTTCTTCTCCCATTAATTGAACTAAAGTTGCAAGCATAGTATAAGCAGTTCCAGATGAACCTGGGTGAGCTACTACGATTTCTCCTTTAAACTTTGGATCTAATAGATCTTGCCAAGATTTAGGCATTTCTAAACCTTTTTCTTTTAATATTTTTTTATTTCCAACAAATCCTAAATAACCAACATAAATTCCTGTCCATCTTCCATCACCAGATTTAAATTGATCTAAAATTTCTTCAGCTGTTGGTGAATTGTATGCTTCTACTAATCCTTCAGCATCTGCTGCAATAATTCCATCAACTGGACCTCCATACCAAACTGAAGCAACCATATTATTTTTTTCAGCTTTTAATCTAGCTAAAGTTTCACCACTACTCATTCTTACAAATTCAGTAGGTATACCAGTTTCAGCTGTAAATTTTTCAGCTATTAAAGCTGCATGATCTTCTTGTAATCCTGCATAGAAAACTAATTTTTCTTCAGATTTAGAAGTATTTTCTGAATTACTACCGCAAGAAAATAGAAAAGCACCTAAAAGTATGCTTATTAATAATTTTTTCATTTTTCCTCCATAAATATTTTTCATTAATATTTTGATGCACCTATATTATACTATATTATTTTATAAATATCTAGTTATTAATACTTTATTTAAAGGATTAACTTTAAGTTTGACTTTTTTTATTATAAAAATATATTATTCACAAAGTCAGATTTAATAATGTATAAATAGTGTTCTATTTTTCACAGCATTTCATATTGTGGAATTAAAATAGTTAAAAATTAAATAAATATATATTTTTTGATAGTTTTTTGATGTAATTTTAAAAAAATTTAGACATTAATAAAAAATGTGTGTTAAAATTACTTAGGTGGTAGAATGAATTTGAAAAATATTAACAAGAAATTTGGAAATTTTACACTAAATGTAGATTTAGAACTAGAAAAAGGTGAAATTTTTGGACTTATAGGAAAATCTGGAAGTGGAAAATCTACTATTTTAAAGATTATCCAAGGTTTAATTAAACCTGATAGTGGTAAAGTAAATATAGATGATGATATTGAAATGTCATCGATATTTCAAGGACTTAACCTTTTAAATAATAAGGATGTGTATTCAAATGTATCCTTACCTTTAATATTAAAGAAACGAAAAGATAGTGAAAAAGTTTATGAAGTATTAAAGTATGTAGGATTACTTGAAAAGAAAAATGAATATATTTCATCTTTAAGTGGAGGTCAAAAACAAAGAGTTGCTATTGCAAGAGCCTTAGTTTCAAACCCTAGTTTATTACTTTGTGATGAGGTAACAACCTCTCTTGATAGAATTACTAAAAATGAAGTAATATCTTTATTTAAGAAAATAAATACTGATTATGGCACAACCATATTATTTGTTACACATGAATTAGAAGTTGCAAAAAAAATATGTGATAGAGTAGCCGTGATAGAAAATGGAGAAATCTTAGAAATATTTAAAGTAAATAAAGATATTAATGATGAAAAAGAATTTAGTTATTTAGAATATGCAAAAGAGGTGTTGAAATAATGGATTATTTTACTTTAGAATTACTTTTATCCATAAAGGATACATTTATTATGGTATTAATTCCAACAATCTGTGCAATATTATTTGGAATACCTTTAGGAGCATTATTATACATCACTAAAAAAGGAGGATTAAAAGAGAATATATACATATATCTACCTATTAATATATATATTAATGTGGTAAGAAGTTTTCCCTTTTTAATCTTTGTTATTGTTTTAATACCACTTACAAGATTAGTTTTTGGAACAGCTTTTGGATTATTACCTGCAAGCTTTCCTATATGTTTTGTGGCAGTGGCACTTTATGCAAGATTTGTTGAACAATCATTTCATGATGTTGATTTAGGTATAATAGATGCAGCGTTATCAATGAAGGCAACAAGCTTTCAAATAGTTTGGCATTTTCTTTTAGTAGAATCAAGAAGTTCTTTAGTTTTAGGATTAACTTCTAGTATAATTAGCTTCATATCTTACTCTACTGTTATGGGTATAGTAGGTGGTGGAGGAATAGGAGATTTTGCCATTAGATATGGTTATCAAGAATACAATTATCCCTTAGTTTATAAGGTGGTATCTATAATGATAATTATAGTATTTTTCATACAAATTTTAGGTAATAAGATTTCAAAAAAATTAGATAAAAGAAGGAGAGATTTTTAATGTTAAAAAAATTATTACTATTTTTCACTATCATATTTTCTAGCTTAACTTTTTCAAATGATAAAGTTATTAAAATTGCAGCAGCAGGATATCCAATGAATGAAATAGTTAAAATTGCAGCAGAAGATTTAGAAAAAGAAGGGTATGAAGTAGAAATTTCATTATTAACTGATTATGTAACAGCAAATGTAGGTTTAAATGCAAAAGAATTTGATGCTAATTTCCATCAACATGAACCATTTATGAACATTTTCAATGAAAGAAATAATGGGACATTAATTAAAGTTAAACCTATATATGATGTACATATTGGATTTTATTCAAAAAAATTCAAGAATAAATCTAAAATATCAAATGGTGCAAGAGTAGCCGTGCCAAGTGATCCAACTAACCAAGATAGAGCTTTAAGAATACTTGAAAAAGAAGGGTTTATAACTCTTGCTAAAAAAACAGGATTAAATAGTTTAGCAGATATTAGAACAAATAGAAAAAGATTAAAAATTACACCTATTGCAATACCTGCTTTAGTACAAGCTTATCAAGAATTTGATTTAGCATTTAACTGGCCATCACATATGTTAAAAATTGGAGTAAAAGTTAAAGATGCAGTTTTAATAGAAAAAGCATCTCAAGCTAGATTTGCAATAATACTTGCTGCAAGAGAGGATAATAAGGATAGTCAAAAAATTAAAGATTTAACAAAGGCTATGACTTCAGAAAAAGTAAGAAAATTCTTACTTGAAAATTATAAAGAAGAAGGTTATCCAGTATTTTAAATTATAGCTAAAGATTCCTAATAATAAATAAATTTATTCACAAGCCCGAATTTTCGGGCTTTTAATATTTCTAAAATATTTTTGACAAAAAATTCACTTAATATATCGACTACAACATTGTATATATGATAATATTGGTTAATAAAATAAAGAAAAGGATGATAATTATGAAGAAAATGCTTGGTATATTACTGATACAATTTTTTTCATTTGCAAGTATTAAAGTAGATGGTAAAAGTAATGTATATGTAGAAAAGAGTAATAATGGAATAGATGTAATAAATATATCGACACCATCATCTAAAGGAATATCTCATTCTACTTTTACTGACTTTAATATAGGAGAAAAAGGGGCTGTAATAAATAATTCAAAGAATATAGCAAGAAGTAGAATAGCAGGATTAATAAATGGTAATAAGAATATAAAAGAAAAGAGAGCAAAACTTGCACTGTTAGATGTAACAGGGGTAAAAGAAAGTAGATTAAGTGGAATACTTGAGGCATTAAGTAAAGATAGATTAGATGTTATACTTTCAAATCCCAATGGAATTACATTAGACGGTGCAAATTTTTTAAATTGTTATAAAATTAAGATATAAAAAGAAAGGAAATTTTAACTATAAAGTTAAGTACGATAAATGATGAGAACGAAAATAGAAGATTTTTTAAAAAGTAAAGAAAAATATAAAGTATATAAAGATTTTTCAGAAATACCTGAATATATAAAAGAAATGATTTATGATGATAATATGGATATAGGATTTTCAAGAGATTTAATAACGCCACTATCTGAAAATTATGGATTAGAAAGATTATTTAAATATATTAAAGAATACCAACCGAGAACATACGAAGTTCTAAAAGATGCAAAAAACTTAATGTATATAGTTTTTGAAGAGCATTTTTTGAAATATGGGTATCCAATAAGTAGAGATTGTTTGGCTTTTGAATTAAATGGGACAGCATTAATTTTAGATAGAAAATATTATGGTGATAATCCTGACCAGCCTTCTTTTAAAAAAGATACATATAAAACTCTTGTGGCTTTACCTAAAGAATTATACTATTCATATTATTATGAATTTATGGGATTAGGATTTCCAGTTTTAAACAAAAATTGGAGTTTCAGAAACTTACCACAATCTATATATGAATGGAATAATTTAGATGGATATTTAGAAGAGATAGGACTTAAGAAAAAGAGAAGAATAGAAGTAATTAAATCATATACTAAATATTTTTCAAAACTTTTAAATAATAAAAAGGCAAATGCAGAAGACATGTATACTTTTATGGATACAAATATATATGGAGAAGTAAGAAATGATAATGATTATGCATTCTTTGTATTTGCATATATAGAAAATGGAGATATATATGTAATAAGAAACGGAGATTATGAAAGACCTAAAAAGTTAATTAATCCAGTAGAAGCAATAGATAAATATGTAGCTCATGTATTAAGTGGAAAAGATAACTTTAACTTTGATGAATATTTAGAAGAAATGAAAGTGGATATAGAAGAAACAAAAGTATATGAAGTAGTAGAACTTAAAACTAAAGGAATTATTAAAGATAGAGAAAAAGTTGTAAATGAGGTAATGTCTTTAATGAATTGTATAGAAATATCAGATGAGATTTATTACAAAACAGAATCTGGAGAATATGAAGATGTATCACATTTCAACTTTGAAGAGGAAGAAATAGAAATCATGGGATTTATGAAAGATGAAGATGATAATATAGATTTCAAGATATATTATTCATATAAAAAGGGAAAACATCTTTTAGCATATTCAAAACTATATGAAACTAGCATGGAAAAAGGAATGATAGTAGATTTTCTAAAGGTTGTATCAAATAATAATGAAATAAAAGAAAAAGTTATTAATAAGGATAGTACAAAATTTTACATTGACTTATGGGATATATTTTCTTGATTGACTGTTATAAATTTATTTATTGTGATATTATTAAATAATACAATATTTTTGGAAAGAGATTTATTTTAGTATGCAGTTAACAAGTAGAAGATATATAGGAAGTAAGAAAAAATTACTAAATTGGATTTTTTCAGAAATAGAGAATAATGTCAAAGGTGAATCTTTTCTTGATATTTTTGCTTGGACTGGAAGTGTTGCTGAAAGAGCATTGAGAAAGTATGATAAAATAATAGTAAATGATATTTTAAGCTCTAATAAGGTTATTTATGAAGCTTTTTGGGGTAAAGAAAAAATTGATATGGATATATTAAATTCATATAAATATAGATTTAATAACTTTAAAAATATTAATGCTCAAAATTATTTTTCTATAAATTATGGAAATAAATATTTTGGAATGAATGATTCTAAAAAAATAGGGTATATTAGAGAATTGATTGATGAAGATTATAAAAAAGGGATTATTAAAAAAAGAGAATTTAATATACTTTTATCTTCTCTTATTTATTCTATGGATAAAATTGCAAATACAGTAGGTCATTATGAGGCTTATAGAAAAGTTGATATAATAGATGATAGGTTTAAATTTGAATTAATAGATCTATGTGATTATGGAGATAAAGAAATTGAAATTTTTCAAAAAGATGCAAATGAACTATCAAAAGAGATATATAGTGATATAGTCTTTTTAGATCCTCAATATAATTCAAGACAATATTCAAGATTTTATCATGTTATTGAAAATCTTGTTGAATGGGAAAAACCCAAGCTTTATGGTAAATCTTTAAAGCCTAAACCTAAAAATATGAGTGAATATTGTAAAAGTTCTGCACCAAAGATATTTGATGATTTAATTAGTAATTTAAATTGTAAATATATAGTTGTAACATATAATAATACATATAATTCTAAAAGTTCATCATCAAAAAATAAGATTAAGTTAGAGGAGATATTACAATCTTTAAATAAAAGAGGTAAAACTAAAATTTTTGAATCAAATCATCAGTTTTTTAATGCTGGTAAGACTGATTTTAATAATCACAAAGAATATCTTTTTATAACGGAGGTAGATTGTGAAAACTAAAAATAGTGAGTATAATAAAAAATGAAATATGAGCTTTAGTCAATTTTTTTATATAAAATTTGCAATTTATCTCATTTTATTGTATAATAGTTTGTAAATTGTAAAATACTTGAGATTATTTCTTGAATAATCTTATTATTTATGTTATAATTAAAATCTAGTAAAAAGCAATTAGGAGGTGTAGATATGCAAATTTGTGAAGTATTTGGGAAAAAGGTAGGTCATGGTAACTTAGTAAGCCACTCAAATAGAGCAACTAAAAGAATCTGGAGACCTAATCTTCAAACTATGAAATTAATGCTTGATGGTAAAGAAGTTAAAGTTAGAGTAAGTACAAAAGCAATGAAAACATTAAAAGGTAAAAATGAGGATCAAGTGAAGAAAATATTACTTGAAAATAAAGATAACTTAAGCTCTAAACTTGCAAAAATCTTATTTTCAGCAAATTAATAAGTGAAATCACCTTTTTTTAGGGGATTCACATAGAAAAAGGTGTCATAATGCACCCTTTTTTTTTGAAAAAAAATAGATGCTAAGCACCTATTTAACTAAATGATTTATTTTATCATCCTTATAATCTAAATTATGAATAGAGTTTATATATCTTACAGTTCTTGAACTTCCTCTAATTAATAATGTTTGTGTTCTAGCTATATTTCCACGTCTTTTTATACCCTCAAGTAGATCACCATTTGTAATACCTGTAGCAGAAAATATAATTTCATCATCTTTTGCTAGATCATCTAATTTAAGAACTTCCCCTACTATTAGTCCTTTTTCTTCACATCTACGTTTTTCATCTTTTGATATTTTATCATTTTCTAAAGAACATCCTTTGACTTCATTACGTAATTTTAATCTTGCTTGCATATCTCCACCTAGAACTCTTATAGCAGCTGCTGATATTACACCTTCTGGAGCACCACCTATTCCATAAATAACATCTATATCACTATCAACCATACATGTTAGTATAGAAGCTGCAACATCACCATCAGGTAAAGCATAGACACTAATACCTAATTGTTGTAAATCTTCAATTATTTTTTTATGTCTAGGTTTATCTAAAACTATAATAGTTAAATCCTTTAATTTTTTATTATTTGCCTTTGCTATAATCTCTATATTTTCTTTTAATGGTTTTTCTAAATCAATTAAACCTTTTGCATTAGGACCTACTATTAATTTTTCCATATACATATCAGGAGCTTTTAGAAATGAATCTTTTTTACCAACTGCAAGTACAGTTATTGCATTTGCTTGTCTTTGTGCAGTCATACGAGTACCTTCTACAGGATCTACAGCTATATCAACTTCAAGATAATTTCCATCATCTCTACCAAGTATTTCTCCAATGTATAACATTGGGGCCTCATCTATTTCACCTTCACCAATTACAACTTCACCTTTTATTTTTATCCTATTTAACATTATTTTCATCGCTTCAACAGCAACTTTGTCAATTTCTTCCTTATTACCTCTACCTACTAGTTTATGTGCTGCTAGTGCTGCTGCTTCAGTAACTCTTGCAAATTCTAATGCTAATTCTCTTTTCATTTTTGCTCCTTTCAAGATTATACTAATATGAATTATATCATAAAAAAAGGAAGGATTGTAGATATAAAATGTTTGTTTACCCTTATTTACTCTATTGACTTTTTATATATTCAAGGTAATATATATGTGAAAGTGTGTAGTTTTATTTTTAATTTTTTTATGTTATAATGTAAACAATATTCATTTAAGTAGGAGGCGTATATGAAAATAGTCTTATATCTACTTTTTTACATTATTACATCAATAATGATATTAACTTATTTATTTAAAGAAAAAAAAGTAGTAGATTATATAAATAAAATAGTAGATAAACTTTTAGCAAAGTTAGGATTTGAAAGTGAAAAAATTAGAAATGACAAAATATTAATATTTCTTAATACATTAGTATTGATAATTTTAGGAATTTTAGCATTAAATGTAGATTATACAAGAAATGAGATATTACCTATTAAGAATAAGATAATAATAATAGGAATGATTATGAATTTTTCTATGCTTTTAGGAATGTATTTTAAAAAATACTATTATGAACATGTAGCTATATTAAATATAGTATTAATAGTATTTGGTAAAGCTATGTTTGGTGTAGATGATAAATACTTCTTTATAATAAACATAATGCTAAGTATAGCCTCAATTATCCTTATTATTTATTCTAATATTGAATTAACTAATAAAATAAAGAAAATATTTAATTCTATGTACATTATTATTCTTGTATTAATTATACAAGGTTATTATTTAGGTAACTATGCTATACCTACAGGTTCTATGGAACCAACTATAAAAGTTGGTGATAGAATATTTGCAAATAATGTATCATATAGATTTAAAAGTCCTCAAATAGGAGATATTATATCATTTAAAGAACCACTTGATAATAGTTTAATGTATACAAAGAGAATTACTGGAACTGCTGGAAATACATTTAAAATTAATGAAGCAGATCATAACATATATATTAATGGAGAAAAATCAAGTTTAAATAGAGAATATTCTATAGAGGGTATTTTGAAACTATATAATAATCCAGAAATATATATACCTAAAAAGGGAGATAAAGTTAAACTTTTAAATATATTAGAACTTGATATAGTTAATGGAAATGGAGTAATAGAAATAAAGAGAGAAGAATTTTTAGCTAAAAATATTTCTAAAAAATACTATAAATATTTATTTGGTTTCTTTAACTCAAATACACTAGATCAAATAAGTGGTGTAGAACAGGATCTAAGTAATAAAAGATACACTTATGTTTTAGAAAGTGAAGGTAGATTTGTACTCCCTATATTAGACTTTAAATATGATGAAAAACTTATGACTAGATTATTAAATGGAGAAGAAATAGAACTAGAAAGTAACTACTATATGGCTATGGGAGATAATACAAGAAATAGTAATGATTCAAGATTTTTCGGATATGTTAAAGAAGAAAGAATATATGGTAAATTATTACTAAGATGGTATCCATTTAATAGAGTAGGACTTTTGAATGAATGAAAAAGAAATAGAAGAAATTTTAGAATTACATAATAAGAATTTTTTAGATAAAAAAAGATATGAAGAAATTGTTAGTATGTATAAAAATCCAAATTATTTAATATTTTCTATTTATGAAGAAGAATTAGTTGGATATATTATAATACATGATAGTTTTGATTGTTATGAATTATTTGAAATTGCAGTGAAAGAAAAATTTAGAAATAAGGGATATGCACAACAACTTTTATATAATATTCCAGATGATAAGAATACTTTTTTGGAGGTTTCTGAAAAAAATATAGCAGCAATAAAACTTTATGAAAAAATTGGATTTGAAAAAATATCAATTAGGAAAAAATATTATTTAGATGGAAGTAATGCATTGATAATGAAAAAATAGGGAGTGATTATGATGAAGGGTTATTTAAGTATAGTTTTACATGCACATTTACCATATGTAAGACATCCAGAATATGAAGAGTTTTTAGAAGAAGATTGGTTATTTGAAGCAATTACAGAAACATATATTCCACTTTTGAATATGTTTGAGAATTTGACTAGAGATAGAGTACCTTTTAATATCACTATGACAATTTCAGGAACTTTAGCTAATATGTTAAATGATGAAATGTTGCAAAATAGATACTTAAAACATATGGATAAATTAGTTGATTTCTGTACTTTAGAATTAGAGAGATTATCTCCATACCCTGATATGTATGCTATAGCTTTACATAATTATGATACATATTTCAATGCAAGAAAATACTTTTTAGATAATGATAAAAATTTAATTAAGAGATTTAAATATTTCCAAGATTTAGGTAACCTAGAAATTATACCAGTTACTGCAACACATGGAATGTTACCTATGATGAAAGATTTCCCTAATGCTATTAGAGCACAAGTTAGAATGGCAAAACTTGACTATATGCATAATTTTGGTAGAGAGCCTCAAGGTATATGGCTTGCAGAATGTGCTTACTACAAAGGGCAAGATATATATCTAAAAGATGAGGGTATTAGATATTTCTTAGTTGATGCACATGGTATAAAAAATTCTGATCCAAGACCTGTTTATGGAGTTTATTCACCTGTATTTACTGAAAATGGAGTAGCAGCATTTGCTAGAGATTTAGAATCATCAGAACAAGTTTGGTCATCTGAGGTTGGATATCCTGGTGATGGTGCATATAGGGAGTTTCATAAAGATGCTGGTTATGAACTTGATTATGAATATATTAAACCATTTTTACATAGCGATGGAGTAAGACGTAATATAGGGATAAAATATCATGCAATCACAGATAAAAAAGGAACATTTAAAAAAGCATATAATCCAGAGGAAGCAAGAAATACAGCTATATCTCATGCATATAACTTTGTATATAATCGTAGTAAACAAATTGATTATTTATCAAGTAAAATGAAATATAGAAAACCAATAATACTATCTCCATATGATGCAGAGCTATATGGACATTGGTGGTATGAAGGACCAATATTCTTAGAATATATATTTAGAGCAATGCAAGAATCTAACTTTACAAGTATTACCCCTTCAAAATATTTAGATATATATAAATTAAATCAAGTTGTTGATTTAAGTATGTCAAGTTGGGGAGCTAATGGATATTATGATGTTTGGGTAGATGGATCTAATGACTATATTTATAGACATTTACATAAAGCTGCTTCTAAAATGATAGAACTAGCTAAAATAGAACCAGCAAATGAATTAGAATACAGAGCTTTAAATCAGGCAGCTAGAGAATTATTCTTAGCTCAAACTTCTTGTTGGCCATTTATTATGTTTACAAAAACTATGGTTGGATATGCAGAAAAGAAAATATCAGATCATACTTATAGATTATTTAAAATATATGAAGACATTAAACATGGAAGCATAGATGAAGAATGGCTAAATGAAATAGAAGGTAGAGATAATATATTTAAAAATGTAGATTATAGAGTATATAGATAAGAGGGGTAACCCTCTTTTCTAAATTTTAAGAAAAGTAGGTAAATTATGATATATTTTGATAATTCAGCAACAACTCGTGTAGATGAAAGAGTAATAGAGGAAATGTCTAAAGTTATGAGTGAAATGTATTTAAATGTTGATTCAGCTTATACTTTAGCCTATGATATAAAGAAGATGATAAAAAATAGAAAAAATATATTTAAGAAGGTATTAGGATTAAATCCTGATAATTTTTCTTTTACATCTGGTGGTGGTGAAGCTAATAATTTGGCATTAACCAGTGTTATGAGAAAAGAAAAAAAAGGACATCTTATAATCTCTAAAATTGAGCATCCTTCACTTTTAAATACAGCTTTGGAATTAAAAAATGAAGGATATGAATTAGATTTTGTAAATGTTGATGAGTTTGGAAATATAGATATAGATAATTTAAGAGATTTAATTAGAGAAGATACTAGACTTGTTTCAATTATGGGTGTTAATAATGAAATAGGGACAATAATGGATATGGAAAATATATCTAAGACTATTAAGAGTAAAAATAGTAATACATATTTTCATATAGACTTTGTTCAAGGATTAAATCATGTTGATTTTGATTTTTCTAAAATTGGAGTTGATATTTTATCTATAAGTTCACATAAAATACATGGACCTAAGGGTATAGGAGCTATATATATTAAAGATGGGGTTAAGATTAAAGAACAAATATACGGAAGTAATAGTGAGAATAAATATATTCCACGGACCATGCCTAATGAATTAGTTATGGGATTTTTAAAAGCTATAGAAATAGGGAGTTTAGAAAATAAAGGGGAAATTAAGGAATTAAAAAAATATTTTTTAGATAAATTATCAAATATTCCTAATGTATATGTTAATAGCCCTGAAAATTCTAGTGATAGTATAGTTAATGTATCTTTTATTGGAGCTAAATCTGAGGTATTACAAAATTTCCTTTCAAGTAATAATATATTTATTTCTGTTGGTTCAGCATGTTCTTCAAATAAGAAAGATTCACATGTTTTAAAAGCTTTAAATATATCAAAAGATAGAATAGAAAGTGCTATTAGAGTAAGTTTTTCTAAGTATAATAGTAAGGAAGAAATAGATATCTTTTTTAAATTATTAACACCTTTTTTACAAATGCTAAGAAGTATAAAATAAGAAAGGTATAAGAAAAATATAATGAAAGTGGTATAAAATAAAGAATATAAAATCTTAAAAGGAGTTAGCATGAAAAAAATTTATATATTACTTACCTTAATGGTAGGATTAAATATACTTGGTCAGGAAATTAATATATCAACTAAACAAAAAGTAGAAAAAGAGATTATTGCAGATACTGCATTAATAAATTTTAAATTAAGATTAGAAGGTAAAAATTTAGAAAAAACAAGAAGTATTAATAGAGAGAAACTTAATGAATTTTTTATTAAACTAAATAAAAATGGGATTAAATTTGATAATATAGAAACAAATCTTATTAGTGATAAAAAATTTTCTAAACTGAAAGAAGAAAAAGAAAATGGATATGAAACAAATATGACTTTTTCTATAAAATCTGATAACATTAATGATCCACTTATTATAAATCAACTAGAAAAGATTTCTGCTATAGGATACAAGATGAATAAGGGAGTTATTACTTTCAAGTTATCTGCTAGTGGTAAGACCAAAAAGGATACATATAATAAAATAAATGAAAAAATTAAAATACTTAAGAAGAATATAGGAAGAGATTTTGATTTTGTGTTTTCAGATTCATATAAAAAAGTAGAAAGAATAGATGAAACATATTATGAAGTAGAAAATGATTTTTCATTAAAATTAAGAGATTTAAGTAAAATTAATAAATTAATTGAAATAGCATCTAAATTAAATGTAGAAATTGATAATGATATAGAGTATTCAGTATCTAATTTGAAAGAAAAATATTTAGATATGTATGAAGATGCCTATGTTAAAGCTAGACAAAAAGCTAAATTATTGATGATGAAAGATTATGAGATTAAGAATGTAAAATCAATTAATGAAAATAGATATTTAGTAGATGAACTTGAAAGAAAAATTAATATTGCAAATGATGTAGCTGAATATGCAATGCCTGTATCAGCTGCTAGTTATAAAAATAAAAGACTTGAATTAGAGAGAGCTGAAGTTAAAACTGATGATTTAGAAATATCTATTCCAAAGGTTAAACTTCAAAATGAATTAACTGTAGAATTTATAGCCTCTGATGGGAAAGAAGATATAAAGTATGTTAATGAGTTAAATCTTTATTCTAGTTTTAGTAAAGACATTAAAGCAGATATAGTAGATTTAGAAATATCTATAAATACTAAATCAAATAAAAGTATGATTGATTCAAATAATAAGAATGCAAAAGTGTTTGATAAGTTAAAAAAACTTTTATTGGCTGCTAAAATATCTTATGAAACTATAGAAAATATATCATTTGATACAAAAAAATATGAAAGTTATGAAAAAAAATTAGGTAAAGTAATTAAGAATGAACAACAAGCAACTTTTGATATAAAAGTAGGTAAAATTAATACATCAAATTATCAAAAATTTTTAGAATTAATAAATAATGATAAGATAACAATGTATACGAATAATAATGAACTATTTTTCGAAATAAAAGAAAGTTCAAAAACTGTTAATGAAGCATACAATTTGGCTAATAAAAGATATAATAATTTAAAAGTTGAGCTTGTTAAATTAGGTATAGATATTAATCTTGAGCAATACTACAACACAGCTTTAATCGAAAGAGAAGAAAGAAATGAAAAGATTACAAACTATATTACTAATAATAAGCTTAGAATTATTACAAAAGATATATCTAATCTATCACTTATGATATCTATATTAAGAGAATTAGGTATAGAAGTTAGCTATATTAACTATGGTTTAGATAATATTGAAAAATATAAAAAGGTACTTTATGATGAATTACTTAATGATTTAAAAAATAAAGAAGATAGATTTAATAAGTTAGAAAATATTGAAACTAAAGGGTTTAAGTCTATAAAAGATAATGAAAATGAAATGTATAAATACTATGATAGAGATAGATTGATGTTTAATAGAAACAATTATGAGTATAACTTAAATATTTCAAATGAGGCAATAATAAAAAGTGCAAAGGAAAATCCATATAAGATATTTGTTAAACCATATAAAGCTAATATGGTATTAGAGGCTATTATTAATCTAAAATAAATAAATTTTTGTTTCATATTAAGAAACGGATTATAAAATAATATAATAAATATTCTAGTAAATATTATTGTTATATCAATTACGATAAGCACTTTGTTATAAAATTATCTATCTTTATTGCATTTAAATTTTTTTCATTATATAATTATAATATAACTTATTAGGGAGTGTTGTATATGGAAAAGAAAAATGCAGGATATATATATTCATTTGAATCATTTGGTACTAAAGATGGTCCTGGAATAAGATTTGTACTTTTTTTACAAGGCTGTCCATTAAGATGTCTTTATTGTCATAATGTAGATACTTGGAATCTAAAAGATCATAAAAGATTAATGACACCAGAGGAAGTATTTAAAGAAATTATGAAAGTAAGAGGATTTATTAAAACAGGTGGAGTTACAGTATCAGGTGGTGAACCATTACTTCAATCAGATTTCATAATAGAGTTATTTAAATTATGTAAAGAAGCAGGTATACATACTTGCATTGATACTTCAGGATATATTTTCACTGAAAAATCTAAACAAGCTATAGAATTAGCAGATCTTGTAATGCTTGATATTAAACATATAGATCAGGAAAAGTATAAGGTATTAACATCTGTTAATCTAGCACCAACTTTAAAGATGGCGGATTATTTAGAAAGTATTAATAAACCAGTATGGTTAAGATATGTTTTAGTTCCAGGATATTCTGATGATCCTAAAGATTTAGATAATTGGGCTAAATATTGCTCTAAATTTAAAAATGTAGAAAGAGTAGATATATTACCTTTCCATCAAATGGGAACACCAAAATGGGACAAAATGAAAAAAGAATATAAATTAAGAGACACTCCAACACCAACAAAAGAACAAATAAAAATAGCTGAAGAAATATTTTTAAAATATGACTTACCTTTATATAAAGTTAAATAAAATATATATTTTAAGTAGTCTGCTTTATTTCAATAATAGCAGACTACTTTTATTGTAAAATTAATGTTTTTGAGATATAATACTAGGGGTTGTACAATAAAAAGGAGGATTATGATATTTTTATCATAAATTAAGTTATGAAGCAAAAAAAGATATTGTTTTTACTACTCTTATCTTCTCTTACATATGCAGAAGAAGAAAAAAATAAGATAAGTGGAGAAATAAATTTTGGTATAAATTCAGCATTTGGTGCAGATGGATTAGAAGATTTAAGTAGATTAATACCCTCATTAGTAGATACATTTAAACCCAGTAAAAATAAGGATTATGGAGATTTTAATATTCAAGATTATAGTAGGGAACAAAGAGATTTAGAGTTAGCTATTAGATATTTATCAAAAAATGTTGAATTAAGGAAGAAATTAAGTGTTAAATTAAAAGAAAATTATGTAGGCTTAGGGTTAAAAGTAGACATATTTGGAAAAAAGATAACACATACAAAATTTTTAGGAAATAATGAAATAGAAAAATTAAAACTAACATTAACATCAGATAATAGGTATATTAATGGAGAGATTAATTACTATGTGAAAGGAGAAAGTCCTGAAAAAATAGACATAGACAAAATAGATGATGAGAAAACTTTAAAAAATAAGGTTGTGGAATATAAGGTGAGTGTAAATCCAACACCATATAGAAACTTATCTTTATCATTAGACTTTTCAGGAGAAAATAGAAATATAAATATAGGTCCTACAATTAGGTATAGAAAAGGTGGGACATATGTTAATGCCTCATTAATATTTAATAATGAGAAGAGATCATATGATTTAACAGATGAATTAGATAAGATAAAACATACTGCACCAGGGTATGATAAGATAGAATATTTTAAGAAATGGACATTAAAGGAAGGCTATCCAAAAGATAATATAACTAAAGATGACTATAATAAAGAGCATGCAGACTTAGGCAAAGCAGAAGTTTCTGGAACTAAGGGAACGGCTAGAATACTTGGACATTATTCTGGTTCACTTTATGGTGATTCTCCAATTAGGTATATTGCTAAAAATATATTTGATGAATTACATTCAAATAAGAATTTTAAAAATCTTTCAGATTTGATAAAAATATTTGAAAAAGATTCAGCTCCATCAGCGACAGATTTTATTACACCAGCATTAGGGTTAGGTGAAGAAATTAAAAATATTAAGGAATTTAATGATATAGTTAGTAGATTTTCCAGTAAAATGTATAGAAGGTTAGGAGCTGGGCTTAATAAAAAATATTCTAGTATAGGAGTTTGGACTCAAATACCAAAAGAATTTCATTATCTTTTACCTGGATTTCATAAAAATTTTGATTTATCAAAAATCAAAGGTGAAGAATTAGATGCAGATTATCTATATAATGGACTTAAAAAAGAAGAATTTCCTTCAAAAGTAAATACTAGAAATAGAAGAGCTTTGCCAAGTTCTGTAAATGATAGATACAAATTAAAGGAAGAATGGCATTATTTTGATTTAGATGCGAAGAAATACTTAGTTGATGAAATAGTAAGAGAATATAATATAGATAAGATTAAATCACTTGCAGATTCAAATGTTGGTGGAATAATAAGTTCTCTATTTACAGGTGGAATTACTAGTATACTAAATGATTTACCTAAAATACAGGAGATATTTAAGAATCCCTATGAAATGAGAGGGATTGATATAATTAGAGGAATATATTTCCACCAAAGCGAAAAAGAGAGAAATGTGATGAAGTATGAAGACATATTAAGAGCAAATTTTTCAGATGTAAACTTAAAAGAAAACAGTACAAAATACTCAACTAAAATAAAATTCAATATAGGTCATATAGGAAGGAACTATAAACTAGGAGCAAGCCTATTATTAAATGATAATGTAAATGTAAATGCAGAAAAATATGGATATGTTAGAAGAAATGATAATATAGGAGTTAATGCAACATATAAAGAAGGAATAATAGAATTTGATAGTAAACTATCATTAGATCTAACTAAGAACTATTTATATAGAAAAGATAATAAGGAAAAACATGTATATAATACAGTAAGTCTAAACACAGACACATACTTAGGCTTAAATATACCAGCAAATGAAAAACTTAATGTATTACTAGGACTAAGACATATAGGAGTATATGGTTGGATAAATCCAATAGAGAGTTTAGATAAAAATGGTAAAGCAATAGAATTTGATATAGCAAAAAGAGATGAAAGTAATAATCCAATAGGAAAAGACAATAACTCTATAATAACATCTGAAACAACAGAAAAGAACTTAGTAGATAAAGAATATGAAAGACTAAAACAAGAGAATAATGGTAAAAGTAATAAACTAAAAAGAGATATACATCAATCAGACTACATACAGACAGAGAAAAGTAAAACATTAAAATCAAGATATGAACTATATAACATATTATCACCAAGAGTAACAATGGTATATAGACCATATGATAATATAATATTCTCAAGTCATTTGGAATTACCAATAAGTATAAGGAACTCATCACCAGCAGGAATAAGAGGGATATATACAGGAGAGATAAGATATTTAATAGATGATAGCTTTAAGGATATAATATATACAAAGAGTAATCCAATAAAGTTTAAGACATCAGGAGATATAGAGGCAGGATTAATATTAGGGAATGATGTAGGTTATTATTTATCATATAAGGCAATGGCAGATATGAGTTTTCTAAGGGGAGATATAAAGGGTAATGATAAGGATATAGACTTTATTTTATCATTAAATCCACTTATAGTAAACCTTCCTATTAAGCCAAGATTACTTATAGGTAAGGAAGGTAAGGAGTATGTAAGTAAGGTAGGGTTAGAGTATTCTAAGGGTACAGAGTTTACAACAATACTTGGAATGAGGAAGGTATTAAAGACAAGTAAGGATATATTAGAGGAAGAATTAAAGCCAAATATATTAGAGATATTAAAGGGTAGAAATACTAAGGAATATGAAAGGGTAAAAGAAAAGCTTGATAAGGAGAGCTTTAAAGGGGAACTAACATATACATTTACACCATTTATAGACATTAGGAAGGAAGAGGGCAACTTTAGGATAAGGGCTAAGGCAGATTCTACTAAGGTTGTTGGTAAAGAAGTAAAAAATGAAACAGTAGTTGGTGAATTTATAGAAAGAAAAAATGTAGAGAAGTATTTTGCTTGGAATTATCAGAAAAATGGATGGTTTTATGATGAATATAATTATTTTTTTGATGTTAAAACAGAAATAATAGAAGAAGAGAAAAGAAGAATTAGAAATTTAGATAATAAAATATATAACTTTGAAATTGATATGGATTATGAGCAAGAAAAAGGTATTAATTTTGATTTAAATTTAGGTATAAAATATAATGAAGTTAAATTAGCTGGATTAAGTGAAAATACTAAAACTACTGAAATAAAATCAAAGGTTATACATATGTTATCTAATAGTTCATCACCTACTATTACTGATGATTTAATAAATAAACCTGAAAATGAAGTTAAATTGAAAGAAGGAAATTTATTAGAATCACTTAAGGAATATATTAGAAATAAAAAAGATAAACCATATGATGAAAAAATATACGATAAAAATCGTGGATGGTGGAGCTATCTTGAAATTAAAGAAGAAAAATTAAAAGAAATATTAGATTTTCCAAATAAATTAAATAAAGAATCTAAACTAGAAGAAAATATTTTCCTACATACTAAGAAGATAAATGCAAATTTAGATACATATTTAGGATACAAATTTAAAACTAGTGATAGAATGAAAATATCTATTGGAATGAAACATAATTTAACTGCAGAGTACATCTCTATTAATAAAATCATAATAGATCAAATTAAACTATTTGGAAGTAGAAAGATACTATTTAAAAATACATTAAGTCCAGAAGTTAAAATGACATATAACCTAATTGATAATTTAAATGTAAGAGTAAGTACAGAATTACCAATAAGTTTTGAGAATAAAGATTTTAAGGGTGTTAAATTTAATGTAAGAACAGGATTAGAATACAGATGGTAATAAAAAAGGAGAATTTCCTATATAATTATAGGGATTCTCCTTTATTTCATAATAAAACTCCTTTACATAATCACTATAGTAAACATTGAGCTAACAATGAAATGAAGTAATAAAATAAAATTATGTATAGGAATAAAATCATCACTTAATCCTAAATTAGTAACTATAAGTAATATATTAATAATAAGATATATTATCGCATAAAAGTTAAAATGTAAAATAGTAAAACTATTACCAACAAAATGTATCATTGCTGGAGCTATATTCATAAAATTTGGATTAATCATAAATAAGATTATAGTAACTATCTCAAATGATAATATAGGAACTATTAATGGCTCTAAGCTATTAAAAGGATATTTTAATCTGAAAAATTTACTTATTCCCAGATATATTTTAATGTATGCAAGTACTATAATAATTAATATTAAAAAATTAAACATTTTCTTCCCCTCGTTTTAATATATTAAAAGTATATCATAAATTAAAAGGCTTTACAATAATACATAGTTATTGTATACTATTATTGTTAAATAAACTACTGCAATGGAAGAAATTGCCTAGTTAAACGGAGGGAAACATGGAAAGAAAACCTATAATGAAAGTAATGGACGGAAATGAAGCCGCAGCCTATATTTCTTATGCCTTTACAGAAGTTGCAGCAATTTATCCAATAACTCCATCTACCAATATGGCAGAATACACAGATGAATGGGCTTCAAAAGGAGAAAAAAATATTTTTGGTACTATTCCTAAAATAATTGAAATGCAATCAGAAGCAGGGGCAGCAGGTGTAGTTCATGGCTCATTGCAGACAGGTGCTTTAACAACTACTTTCACAGCATCACAAGGACTATTATTAAAACTTCCCAATATGTATAAAATATCTGGGGAACTTTTACCAGGAGTAATACATGTTGCAGCGAGATCAATATCAACACATGCACTTTCTATTTTTGGAGATCATCAAGATATATATGCAGCAAGAACTACAGGTTGGGCTATGCTTGCTTCATCATCTGTACAAGAAGTTATGGACTTAGCTGGAGTAGCACATTTATCAGCTATTAAATCTAGGGTGCCATTTTTGCATTTTTTTGATGGTTTCAGAACATCACATGAAATACAAAAAATTGAAAAAATAGAATATAATGAATTAGAAAAATTAATAGATATGGAAGCTTTAAAGAAATTTAGAATGAGATCTTTAACCCCTGATGCACCAGTAACTAGGGGAACAGCTCAAAATGATGATATTTTCTTTCAAGCAAGAGAAGCACAAAATGTTTTCTATAACAACTCAGTAGAAATAGTAAAAGAATATATGAGAGAAATATCTAAAATTACAGGTAGAGATTATAGACCATATATGTATTATGGGCATAAAGAAGCAAGATTTGTAATAGTTGCTATGGGTTCTGTATGTGAAACTATTAAAGAAACTGTAGATTTTTTAAATGCACGTGGAGAAAAGGTTGGTATGATTAAAGTAAGTCTTTATAGACCATTTTCTGCTAGTGATTTTTTACAAGAATTACCAGAAAGTGTAAAAAAAATTGCAGTACTTGATAGAACTAAAGAACCAGGATCTTATGGTGAACCACTTTATTTAGATGTTAAATCTGTACTTTATGGTAAAGAAAATGCTCCTAAAGTAGTTGGTGGGAGATATGGACTTTCATCTAAAGATGTAAATCCATCTCATATTATATCTGTATTTAAGAATTTAGTTTTAAAAGAACCTAAGGATCATTTTACTGTAGGAATAAAAGATGATGTAACATTTACTTCACTTCCTATATATGAAAATCCAGATTTATCAAAAGATAATGATATTTCATGCTTGTTTTTTGGATTAGGATCAGATGGAACTGTAGGAGCTAATAAAAGTAGTGTAAAAATAATTGGAGATTTAACTGATAAATATGTACAAGCATATTTTTCTTATGATTCTAAAAAATCTGGAGGTATTACTAGATCACATTTAAGATTTAGTGATAAACCAATAACTTCAACATATTTAGTTAGTAATCCTAGCTTTATATCATGTTCCAATCAAACTTTCCTAAAGAAATATGATGTACTTGCAGGTTTAAGAAAAAAAGGAATATTTTTACTAAATAGTATATATGAGGGAGAAAAGTTAATTGATAGTTTACCAAAGAAAATAAAGAGAGAACTTGCTTTAGCCAAAGCAAGATTTTTTGTAATTAATGCAAATAAAATAGCTTATGATTTAGGAATGATAAGTAAGACCAATACTATATTACAGTCAGCTTTTTTTAAACTTATTGACATAATAGACTTTAATATTGTAAAAGATGAACTTAAAAAACATATTCTTAAAAACTATGGATTAAAAGGTGAGGACATAGTAGAAAAGAATTTTAAGATGATAGAATTAGGAGAAAGATATATAGTTGAAGTAGAAGTAAAAGAAGAATGGGCAGCTTTAGTAGATGAAGAAGAATATCTAACTTTAGATTATGGAAATAGTTTAGATAAAAATTCTTTTATGGCTAGAATTGCCGAGCCTATGACAGCATTAAAAGGAAATGAATTACCAGTTTCAATATTTGATGGTTATGAAGATGGTACTTTTGAAAATGGAGAGGCAAACTTTGAAAAAAGAGCTATAGCTAAATATATACCTGAATGGAGACCAGAACATTGTATACAATGTAATCAATGTTCTTATGTTTGTCCTCATGCGGCAATTAGACCTTTCCTAATTGATGAAAAAGAATTAGAAAATATACCAAATAGTATGGATTTATTAAATCCACTAGGAAAAGGACTTGAAAGATTAAGATATAGGATACAGGTTTCACCTCTTGATTGTACGGGTTGTACGGCTTGTGCAGAAGTATGTCCTGCAAGAACCAAGGCTTTAGTAATGAGACCTATAGAAGAACAACTTGAAAAAGGTGAAAAAGAAAATGCTGATTATTTATACAACCATGTTACATACAAAGATGAATATTTCAATAGAGAAACTGTAATAGGTTCACAATTTGCTAAACCTTTATTTGAATTTTCAGGTGCTTGTGCAGGTTGTGGAGAAACTCCATATATTAAACTTTTAACTCAGATGTATGGAGATAGAATGATGATAGCAAATTCAACTGGATGTTCATCTATTTATGGTGGTTATGCACCGTCAACACCATATACAACTAATGATAAAGGTCAAGGTCCAACATGGGCATCTTCTCTATTTGAAGATACAGCTGAATATGGTTATGGTATGCTTCAAGCTAGTGAAAAGTTAAGAATTAGAGTAGTAGAATTAATAGATAATTTAAGTAAAAAAGAAAATATAGATAATTCTTTAAGAGAAATATTAGAAAAATATTTAGAAATAGTGAATAATCCAAATGAAATACAGAAGATTAAAGAAGAATTATTAAATGCCTTAGAGGATAATAAGGAAAAGCATGAAGAAATTGAGAAAATCTTAGAACTTAAATATTATTTAAATCAAAGATCTATTTGGGTTATAGGTGGAGATGGTTGGGCTTATGATATAGGGTTTGGTGGACTTGATCATGTTTTAGGAACTGGAGATAATATTAAAATACTAGTTCTTGATACGGAAGTTTATTCAAATACTGGTGGTCAATCTTCATCTTCATCACCTATAGCATCAGTTGCTAAGTTTACTAATAATGGTAAGAGAAGAAAGAAAAAAGATTTAGCTTCAGTTATGATGAGTTATGGAGATATATATGTAGCTAAAATTTCTATGGGGGCTAATCAAAATCAAACTTTAAAAGCTTTAAAAGAAGCTCAAGAATATAATGGTCCTGCTATAGTTATAGCTTATTCTCCTTGTATAGCTCATGGTATTAAGGGTGGACTTGGAATAGCTAATGAGCATGAAAAACTTGCAACAGATGTAGGTTATTGGCCCTTACTAAGATTTGATCCAAGAAGAGCTAAAATTGGTAAAAATCCATTACAACTTGATAGTAGAAAACCAAATTGGGATAAATATATGGACTTTTTAATGAGTGAAACAAGATTTACATCACTTATGAAAACTAATCCAGAAATGGCAACAGAATTGTTTGAAAGAAATATGAATAATTCTAAAGAAGTATGGAATTATTATCAAAGATTATCTAAAATGGATTATAAAGAAGAATAAATGAGTTATAGTAGAAAATAAGAGGATTTCTAAAAAAATGGAAATGCTCTTATTTTTATACTACAAATTTATCTAATTTCCACCCTGTTTATAATCTATTCTTTAAATAGTTCTATTTACAACTCCTATTAAAGTATAGATACTTTTATTAGATTTAATAAATGAATGTATTATATATATTTAATATAATATTATTGACAAAAAAGCTTGGGGGGGGGGTATAATATGTGTAATTAAATAAGAGAGATATATAGAAAGTATATTTAATAAAAAATATATTAAATAGACTTATATATATTTTTTTGTAGTTATAAAAGGAATTTAATGTAATAAAGAGTTGTGAAAATTTTAAAAAAGGAATAAATGAAGAAAATGAAAAAGATTGAAATAAAAAAGTTTTTAAAAAGTTCTCTAAAGAATAAGGTAAGTATAGATGAAAAAACAGTATTACGATATATAATACTTGGTTTTGCAGGATTATCAGCAATGTCTTATGGTTCTTGGTTAGCTATAAATGATAGTACTGGAACTGTTGGTAAATCTGGAGTAACTTCAGAAGATGGAGAAAACAATAGTAAAAATAATGTGATATTAGCTAAATACGAAAATACAAATAATACTTCTAGTTCAGTAGTAATAGGAGCAGGTGGAAAAACTTATGGTAAGGGTTCAGAAAATGTAGTAATAGGATTTAATGCAAATTCAGAAAAATCTCAGAGTGTAGTAATAGGAGCTAACACTAAATCAGATTTACAAAATTCTGTAATTCTTGGTAGTAAATCTTATGTGTATAAAGATCATTTTAACATAGGTAATGGTGTAACAGAAGATGATGGACAAGGAGTTGCAATAGGTAACTCTGTATTTTCAACTGCACAAGCAACTTCTATAGGAAATAATACATATGCTATAGGAAGATCATCTATAGCTATAGGTAATGATGATATATCAGCATATGAAAATAAAGTTACTCAACATGATTATGATAGTTATTTCAAAAAACTTTATGAAAAGATAGATAAAGATGGAACTCTATATGGTTACGGAAGTAATAATAAAACAGATGCAAGTAAACATAAATGGTCGCCAACACTAGCACAAGGACATGGATCAATAGCCATAGGTTCTCGTTCTATAGCCTATGCTGATGGTTCAACAGCACTAGGAACTCTTGCTTATGCCCTTAAGAATGGATCTACAGCAGTAGGAACATTAACAAGGGCAGAAGGAGAAGGAGCTATAGCAATAGGAAGAGAAACTAATGTATTTGCTAATAATGCCATAGCTGCTGGTAATAAAACATTAGTATTAGAAGAAGGAGGAGCTTCATATGGTTTGTCAGCTATTTCAGGAGGTAAAAACTCTGTAGCAATAGGAACAGATGTTTATGCTAATGTTGAGTATGATTATAATAATACTAATATAGAATTAGGTGGACCTCAAAAAGCCGTATCAACAGGATTATTTGGTAAATTATCTGAATATGGTAAACAAGATAATGATGAAGAAAAAAGAGGGCTATACGGATTTGACTTAAATGGAGTTGCTAAAACCTTAATAGGTCTTGGAAAAGATAATCCACCTAATAATGTAAATGGAGCTCAAAAAGGAGATTATTTAAAAAGTGGAACATACTTTAATCAATATAAAAGCTATATTGATGGATTAGAGAGTGGACTAACTAATGCGAAGACTAAAGATACAAAAAAATCAACAAACTCAATAACAATTAAAACACAAACAAAAAATGGAGTAGAAAATATAGCTAAATCTAGTGGAAAGAATGCAATAGTTATAGGAAGCAAATCAGGAGCATTTGGGGATAATGGAATAGCCTTAGGTAGAGGTTCATTTTCACTTAAGGAAAATTCAATATCAATTGGATCTTATTCATATACAAAAGAGAAGAACTCAATAGCACTTGGTATAGCATCAAGAGCTTTAGCAGAAGGTTCATTAACATTTGGTAATGGTGCTGGAGTAGATATTAGTGGAAAAAACTCTATGGTATATGGACATGGATCAGTAGCTTATGCTCCTAATTCAATAATACTTGGGATAAACTCTCGTGTATGGGGAACTGATAAAGATGGAGATTCTATCATAATAGGTAATGATGCCAATATAAGTGAATTAAAAGATAGTAATGGTACAAAATTAGAAGGACACAATGGTAAATCAGTACTAGCATTAGGGAATAAGACTAATGCAACACTTGATAATTCAGTGGCATTAGGTTATCTTTCAGCTACAGATTATCAAAAAACAGATTTAGAGAAACCAGGGTATACGGCAAGAGGATCATATTCTATACCAACTTCAGCAAAGGTTGGAGTAATATCAGTAGGTAAAAAGGGATATGAAAGAAGAATAATTAATGTTGCATCAGGATATAGGGATTCAGATGCAGTAAATGTTGCTCAACTTAAAACATTAGAAGATAGATTAGATGGAGCAACAGAAGAAACAGATGATAAAGTTAGATATTTTTCAGTTAATACTGATAATGATCTAAACGATATAGCAAGAAAAGAAGTGGATTACAGAAACTATGTAAAATTAAAAACGCAGATGTTAACGATAGATGCTAGAAAAGAAAATGGGGAACAAATAAAAGAAGAGAATATTAAAGAATTAAAAGATAAGTTAACTGAATTAGAGAATAAAAATGGAACAAAAGATAAAGCTACTTCTCTTAAAAACCTAGGAAGTCCTAAAGATACCAAATATAAAACTAATGGTTCTTTTAATATAGATAAATATATGGAGGCTTTAGAAAAAGCTAAACAAGAAGATTTATCTGAAAATAGAATAAAAGATATCTTAACTATGGAAGAAAAAAATAAAATAGAGGAAGCAAACTATTCTAATAAGGGAGCAAAAGGTAAAAATTCTATAGCAATAGGACATAGTGCTAGTACAGAACAAAATGCAGAAAATGCTATAGCGATAGGAATGGGAGCAAAAGCCACATCTAAAAATAGTATAGTTTTAGGAAGTGAATCTAAGGAAACTGCCGATACAAATAATGCAGGATATGATATTACTACAAAAACAAGCTCTAATTTAATGGATCCAACATGGAAACCAACTCATGGAGAATTTGCTATAGGTAATGATTCAACAGTTACTAGAAGAATAACAGGAGTAGCAGCAGGAGAAAAAGATACAGACGCTGTAAATGTGGCTCAACTTAAACAAGTTTCATCAGGGTTATTGAAAGATAAAGATTTAAAGTTTGCTGGAGATGATGGTCAAGAAGCTACAGTTAAATTGGGAGAGACACTTAATATTAAAGGAGAAGGAACAGTTGCTAATGGAACAGCTGTAAATAACATAAAAGTAACAGCAGATAAAGATAGTAAAACATTAACGATAGGATTATCAGAAGATTTAAAAAATATAAGTACAATAAAAACTAAAAAGGGTACAGATAATAAAGAAACAGAATTATCTCAAACTGGTATTAAAGTAAAAGGAGATAATAGTAAAGAAACAGAAATTACGTCAGAAACTGTAAAAATTAATGATGATAAAGATAGTTCAAAACTTACTTCAAAAGGATTAGAAATTGGAAGTAAAGATGGAAATGATGAAAAAACTAATAAACTAACTAAAGATTCTATAACATTAACAGATAAAAGTAATGGAAAAGAGATTACAAACACTATAACGGCAACTTCAAGTGAAATAAAAGATAAAGAAAATAATAGCGTTAAGATAGAAGCTAATAAAATAACAGTGTCAAAAGGAAATGATAAGGTAGAAATTACTAAAGATTCTCTAATGGGAGCAATTACTGTTGGTAAAGATACTAATAATAGTTTAATATTTGGTAATGGTAATAATACATCTACAATGTTAAAAGTTGGTGGAAAAGAATTAACATTCACTAAAGCAGGAGAACATATAAAGATATCAAATGTAGCAAATGGAAAAGATGATAACGATGCTGTAAATGTATCACAACTTAAAGAATATGCAACATTCCTAGGTGGTGGAGCAGAGTTTAAGAATGGAACATTTACAGGACCAACATATTCATTAAAAGCTGGAAGTAATACAACAACTGATCATAAAAATGTTGGAGATGCCTTAAAAGCTTTAGATGATGCTATAGGAGCTTCAAATACTAATATAAAGGCTTTAGAAAACAAAGCAATAACATTCCAAGATAATGATGGAAATGAGGTAAAAAGAAAATTAGGAGAAACTTTAAAAATACAAGGTGAAGGAACAGTTAATGGGGCTACAGCCAAAGATAATATTAAAGTTACAAAGAATGATACTGATGATGGATTAGATGTTAAACTTGCTGAAAATTTAAAGAATCTAAATAGTATAGAAACTAAGGAAGAAAAAGGAAAGAAAACAAAAATCACAACAGATGGAGTAGAAGCTACTAATGGAACTAATAAAGCTAACTTAACAGCAGACAAGTTAACATTTGAAGCTAAAGATAAATCAACTGATAAAACAAGTACAGAAGTTGGAAAAGATGGAATAACATTAAAAGATAAATCAGGCAATGAATCTGTGTCTATAAAAACTGAAAATAATGCAGGAACAATAACTGTAAAAGACAAAGATGGAAAAGATACTATAAAAATAAATGGTGAAAAAGGTTCTATCACTGGTCTTAAAGACATATCTCCTAACGAAAAAGATGGAAGCATAGCAGTTAATAAAAATTATGTTGATAGTAGAATAAAAGCAATAGCTAATGGTCCGTTTGAATATGAATCAAATGATGGTAAAAAAGTTGTAAGAGGAGAAGATGGTAAGTTATATAAGAAAGAAGATTTAGATAAATTTTACTATGATAAAACTTCATCTACATATAAACCCAAAAATACTACTACAAACCCACAACCAACATTAACAGAAGTAACTAACAAAGATGTAACAGTAAATGTAATGCCTAAGAATGGAACACCAATATCAATAGGAAATGTGGCAAGTATATTAGGAGAAGAAGCAACTACAACATCAGATAAAGCTGCTGAAAAAGTTAAAGAACTAATTGGAAATTCTGATAATAGCAAAAACAAAGTAGCAACAGGAACAGATGTATTAGCATTAGCTATGGCTGGAATAAATTTTTCAGGTAATGAAGGTTCAGGAGAAAAAATCCATAGAAACATAGGAGAACAAGTAACCATTAAAGGTGAAGGAACAGATGGTAAGAATAACTTTACTAGTGCAAGTGGAAACATACAAGTTAAATCAGATAAAGATAAAGGAGAATTAACAGTAAAACTATCAGATAAGCTAACTAACATGACTTCATTTGAAACAAAAGAATTAGATGATAATGGAAATAAATCTAAAGTTAAACTAGATAAAGAAGGACTAACTACAATTAATAAGACAGATGATAATAAATACATAATGTCTAAAGCAGGACCAAATGGAACTGAAATAGGTAAATATGATGTTAATCCATTAATGAATGGTAATAATAAAGCTCAACCAACTACAAGTGCAAAATATACATTAGAAGGAACAACAATAAAAGATGATAAAGGAAGTTCTAACCTAACATCAAATACATTAACTTTAAAAGATAAAGATGATAAACAAAGAATAACATTAGATAATAAAGGTGATACTCCAACTATTTCTTTATCAAATAAAGAAGGAGAAGAAACAGTTAAAATAGATGGAGGAGATGGAAAAGATAAAGAACCAACAATATCATTTAAAGTAGATAAAGATAAAGGATTAGGAGTAGTAAAAGGTTTAAGAGATCTAACAGATAATGATCCAGGACATTATGCAGTAAATAAGAGATATGTAGATAATAAATTAAATGTAGCCTTAGGAGGGGTAGCAAATGCAATAGCAGTAGCAAGTATACCACAGATAAATGGAAAGGGACATAATATAGGAGCATCATATGGATATTATGAAGGACATTCAGCCTTTGCATTAGGGTTAAGTGGAATAAATGAAAGAGGAAATGTATTATATAAGGCAAACTTATCATTAAATACAAGAGGAAATGTAGGTATAGGAGCAGGGATAGGATATCAGTTTGGAGGAGATAGAGTTAATACAAGTAAAGATAATATAATAATAGATAATTCATTAGATGAATTAGATGGAATAAATAAGAAGTTAGAAGAACAGAATAATAAACTAATTGCACAAAATAATAAGTTAAATGAGAAAAGAGGAGATCTAAGTAAGGAATTAAAAGAACTTAAAGATAAGATAAGTGTAATAGAAAAAATTAAGATGAATGAAGATGACTTATACACACTAGATGGATATAGATTAGGTATACATGAGCTAACAAAGAGCCAAGAAGAGATGTTAAAGAATATAGTAAGAGAGTTAAATGAGAACTATAAGAATAGGAAGATATATATAACAGGGTATACAGATAATGTATCAGGAGAGAATTTAAATCTTGAGTTAGGTTTAAAGAGAGCAAATGTAGTAGCAAAGAAACTAAGAGAGTTAGGCTTAGATATGAGTATATCAATAAGGAAGGTAAGTTCATCAGGATATAATAATATAGTGGAAACAAATAAGAGTTCAAATGGAAGGTCTTCTAATAGAAGGGTGGAGATTGAATTAAGGTAATTAAAAAGGGGCTGTTTATGTACTGCACCCCAATTCTTGGACACAAGATTGGAGGTGCAGTTTTATGAGTAAATTAACAAGAGAAGATTAAAAAAAGATAAGGCACATAAAGTATCTTATCTTGACAACCTTCAAATATTATATTAACATATAAAAAATTAAGTTAAATAAATTTTATCATAGAAGATGAAATTTACAGACTTTTTTTCACACACTCGATTTTTTTTCAAACATTCTATAATAAAGCTATATAATTTAAAATTGTCCATTTTAATATTTCTTTTTCTCTTTCATTTACATCTTTTATTATGGAAATATTTTTATAACCTATGAAATTTATCTTAATTTTATTTTCGCTTATAGCCATATCTAACAAATTTTCTAAATCTTTTAAATCAATTGTTTTATCAACAACTTCTGTTTCTACACCATCTATATAAGCAAATTTTGCTTCTCCATCTAATATAAATAATACGACTGTTTTTTCATTATTACTTATTTCAATTTTTTTAGTTCCATGTAATTTTCCTATTTCTATAAACCTTATAGTTAATATTGGGGGTTCATTTTCTTTAATTTTTATTTCTGGGATTATAAGATCATCATTATATGAAAATTTTTCATTTTTAGTTGAAAATTTTTGAATTTCAATATCTTTAGATAAAAATCTTGCCCTTGTTACTTGGCTAAAACTTATTATATTCATTAAAATTGCAATTATTACCATTATTTTCTTTTTCATTTGTATTTCTCCTGAAAAATTTGTTTTATAATAACCAGCACGGTTTTTCATATAGATTAACTCCTTTTATATATCTTGAAATATTATTTATATCGTATCCTTTTTATTTCAAGTTGTCAATCAAACTTGAAATAATACCAAAATTTTTATATCTTTATTTCAAGTTATTTTATTTTTATATAGTTGATGTTTACAATAGTTTAATTTCACATAAAAATATTTTATATGTATTATCTTAAAATAGATGTCTACTATTAACAATATAAATTGTTCTTTTAAACTAATATATGATTTATGATATATTGTAAATAGAATAAATTGAATCATTTTTTATAAAAATTACCTACTCTTTTAAACATATCAATTACTTTTGAAATCTTTTTTTTATTTGAAATTAGTTTTATATTATGAATAATACTATTGAATTATAATTAAGTATTTTTTATTTACTTCTATTAAAAATTAATATATAATTAAAAAAAGGGGAGGTAATAATGAAAAATAGGGGGATAACATTAATAGAGGTGATAGTTTACATATCATTAATTTTAATTACATTTTTTATATCATCAAAATCTTATCATGTTATTTTAGAAAAACAAAGGGTTAAAAAGGAAATAGTAGAAATTACTAGTTTATTTAGAAAAAAACAAAAAGAATCAGAAATATATGGTAAATATATGTCTATATACTTTGATTTAGAGAAAAAAGAAATATTTTTTGATGAAAATAGTTTTAAATTATCTGATGAATTTACATATTTAAGTAAAAATAAGGTTGAAAAGGATAATTTTGAAAGATATTTTACTGAAAATGGTAATCTAAATAGAGGGTTTAATTTACTAATATTAAATAAATCAGGAAATCTACTTGCTGAAATATCAGTTGATAATAGTAATAGTATTTCATACCCTATAATAACAGTAAAAGGTATAAAAATATGAAAAAATATTTATACATTTTATCTATTTTTATTCTTTTTATATTTTTTAATTTAAATAAATTTAATGTTGATAATATATCTTATGGACTAATATATAGCTTAGATGTTAAAGTCGTTGGTAAAAATATTAATGTTATTAAAATTAATGATAAATACATAAACAAAAAAGTATTTTTAAGAAATTATGATGATTTAAAATATGGGAGATACACTCTTTCTTATGTTTGGGATAATAAAAGGGAGGGAAGAATTTTAGATGTAAAACCAAGTTATTTTAATACTTATAGACAATATATTTTAAATGTTATAGAAAAATCTTATGAAAATTTTGAAACACGCTTAATAAGTAAAGCTATAATACTTGGTGATAAAAGTGATATTGATAAAGATACTTTAAAAACATTTAATTATTTAGGAATTATACATTTAATTGCCATTTCTGGATTACATATTCATTTAATTTCATCTATTTTTAAAAACAGGTATATATCTTTCATTTTTATTAGTATATATTCTATTTTAATTGGTTTTTCAGCATCTATAAAAAGAGTATATTTGATGAAATTATTAGATTTTTTTGACTTAAATAAAAGTGATGTATACATGATAAGTATTATAGTCTTACTATTAAGTGATATTTATAATATATTTGATCAGGGCTTTATATATACTTTTTCATCAGTATTTGTCCTTATATACATTTATCCTTTAATTAAAGCTAATAATTTTAGTTTTATTTATTTAAGTCTATGTATTCAAATAGCAATTACACCTTTTTCCTATTATTTTTCTAACACCATTCCAATATTTACCTTTTTAGTAAATCTATTAATGATACCTATATTTACTTTACTTATAGAGATGGTGTTTATAAATTTAATTTTAAATATTTTTGGTATTTCATTTTTTTCAATATTAATAGATAAATATTATAAGCTAACTATGGAATTAATATATATGATTTCAAGATTTAAATATATTAGTATAGAAGTAGAAAATTTTAACATATATCTTTATATATTTTTAATTATTTTTAGTTCATATATTCTATTAAATATATGGAAAGAACACTAAAAAAAATCATGAGCTATTTTTTGTGAAAATAAAGGGCAAAACTACATTAATACTGAATTTTAAAGCTTGAAGAAGGAGGGTAAAAATGATATAATCGTTTTAAACCTTGGAGGTGTTTCAAATATGAAAATAGAATATATTAAACCTCAGAATAATAATAAAGAAAGCATATATATATTAGTAGTAGTAATAGTTTTATTAATAACTTCAGTTTTATTAATAAATCTTACAAAAGATAATAATGAAGATAAATTGTTATCAGAAAAGGAAATAAGTAGTTTTGAAAGTTTTAATTCTGAAGAAAATGGAATATATTCAGATCTATATAATTTTAGTACAGATTTAGAATTTTTTGCTAAAGATATGGGATATAGTAGTATAGAAAGTCTTGAAAATGAAAATATATATCCTTTTGTAAAAGATGAATTATGGAAAAAAAGGGGAAAAATTGAGTGGAGTTTAATTGTTAAAAAAGATCATTATTACTATTTGGGGATAAGCAAAGATGAAAATATAGGGAATTTTTTAATTGAATCATTTATAGAAGAAAATGAAGTTAGAACTATTATTAAATATTATAAAGGAAAAGTATTAGAAAAAGATATTTTAAAAATTTCCCAAATGTTTTATGAAGTAAAACCCTTAACTGGTAATGATATATAAAGGGGATTAGATGAAAAAAGGAGTAGAATTAAGTTTAAAGAATGTTTCGCTTAATTTAGGTGGAAATCAAATACTTAATAATATTAATGTAGATATTAAAAGTGGAGAAATTCATTGTCTTATAGGTCCAAATGGTGGTGGGAAATCAAGTTTAATAAAGTGTATGTTATCTTTAGTTCCATTTGAAGGTGAAATAAAGATGAGTTATGATGAAGATAAAGTAATAGGGTATGTTCCACAAAATTTAGATTTTGATAAAACACTGCCTATTACTGTAGAAGATTTCCTAGCCATGACTTTTCAAAATAGGGCAGCCTTTTTCGGTATGAATAAGGAAACTAGATTAAAGGTAGATGAATTATTAAGAAAAATAGACATGTATTATAAAAAGGATAGAATGTTAGGTTCTTTATCAGGAGGAGAATTACAAAGGGTACTTCTTGCTCAAGCCTTACATCCACAACCTAATTTACTTATTTTAGATGAACCATTTTCAGGAATAGATACAGTATGTGAAAACTATTTTTTAGGAATAATACAAAAACTTAAAAAAGAAGGTGTAACCATAATTTGGATACATCATAATTTAAAACAAGTTATAGATATTGCAGATAAGGTAACTTGTATTAAAGGAACAGTAATGTTTAGTGGTGTTCCTAGAGAAGAAATAGTAGAAGAAAGAATATTTGATATTTTTTCATAGGGGAGATAAAATGGAATTTTTAAGAAACTTTTTAGCAGAACTTGCAAATAGTGGATTATTGCCTGATTTCTTTGCATATGGTTTTGTCATAAATTCTATAATAGCAGCAATATTAATAGGACCTATGCTGGGTGGTATTGGAACTATGGTAGTAATTAAGAAAATGGCTTTTTTTTCAGAAGCTATAGGACATGCAGCTATTGCAGGTATTTCCATAGGAATACTTTTAGGGGAATCATATAATTCACCGTATATTATGTTGTTTAGTTATTGTATAATATTTGGTTTAATAATAAATTATACTAGAAATAGAACTAAAATGGGTACTGATACATTAATAGGTATATTTCTATCTATATCTATAGCACTTGGTGCAATTTTACTTATATACATATCTGGTAAAGTTAATTCACATATGTTAGAAACAGTACTTTTTGGATCTATACTTACAGTATCAGACTTTGATTTAAAGGTTCTTCTATTTACTAATATTATTCTAATTATTTTAATAATGTTATGGTATAATAAAATGTTACTTTCAAGTTTTAATAGAAATATAGCTATAGCTAAAAATGTAAATGTAGTATTTTTAGAGTATGTATTTATACTAATAATTACTATTATTACTGTAGCTTCTGTTAAAATAATTGGGTCAGCTTTAGTTGAAGCTTTGTTAATAATACCAGCAGCTTCAGCAAAGAATTTATCTAAGTCTATTAGAGGCTTTATACTGCTAAGTATAATATTTTCAACCATTAGTTGTATCTTAGGGATTATAGTGCCATTATCATTATCACTATCATTACCTTCAGGACCAGCAATAATATTGGTTGCTTCAACAATATTTTTTGTAACTGTAGTTATAAAAAATATTACACAGAAATATAGAGAAGGAGGAATGTAATGAAAAAAATATTATGTATATTATTAACAAGCATAAGTATTTTTAGTAATGGTGATGTAAATAAAAAGATATTGACATCTAATCAAGTTTCATATACTTTAGCAAGTAATGTAACTAGGGGAACAGATCTTAAAGTAGTTTCTGTAGTAGATGCATATACTGATATGTTTAGACAAAAGAATACTTTTAAAAATTTAAATAATAAATTTGAAATATTTTCAGATGCAGGAGTAGTAGTAACTTTTTCTAAAATTTTAGATGATGATTTTCTGTATGAACAGGCTAGAAGATATAATATAGGGGTAATAGAAATAGATTTAGGATATAGTTATAGAGATAATAATTCATTAGTTTTAAGTAAAAAAATTAATGATGATGGTAGAAAAAATAATAATTCTTGGTTAGATTTTAGTAATATATATAAAATGATAGATATATTATCAAGTGATTTAATAGATATTTATCCTGAATATAAGGAAGAAATAGTAAATAATGCTGAAAATTTAAAGTTAGAATTTTTAAGAATATTTAATGACTTTACTGAAAGTGTATATAGTAGTGATGTAGATTTAGGAATAATATATATGGGTGATTCAGAAATGGATTTTCTATTTGATAGTTTAGAGCTTTATCATCAAAATATCCCATATAATGCAAGTTTTGATTTAATTAAGAAAACTATGAAAGAAACAGGTATTAATAAGATAGTTTCTAGTAAAACTTTAAGTAAGGCAACTAGAGATAGATTGAAAAGAGAAAGAATAAAATTTGTTAAATTAGATTTAGGAAATATACCAGTGGATAATGATGGAGATGAAATCATGGATGCTGATGGATATTTAGAGATTTTAAAAATGAATTTAGATAAATTAAAAAACTTATTAATTAAATAGGAGGAAAAATGAAAAAATTATTATTAGTATTATTTACTATATTTTCTTTTGTTACATTTTCACATGTTGTAACAGTAAATGTTTTAGAAGGATCAGAAAAAGGTGAAATTTTAATTAGAGCCATAGATGATAGTGGTAATAGAGAAGCTAATGAAGAAATATATGTATTAAGTGATTTAGCTTATGATGGAGATTTAGAAGTATTTGAAAAAGATGGTTCTGAAGATTTTCATGGTAAATTAATTCTTTTTAAAGGCACTTTAGATAATATGGGTGAATTAGTTTTACCAAAACCTGGTGTTAAAAGATATATAATATTAATAGCTGGTGGTGGAGATCACGACTTTGTTGGAAAAGGATTAGCTCTAAATTCTGAAGATGAACAAAATTGGGAAAAAGTTTTGAAAAAACATGATAAAATATTAGGTGAATATTTAAAGATTTACAAGACTAGAAAATTTTAATATATATTGCACTCTATCCTTTTAATACAAGGTAAAGAGTGTATTTTTTATTGTTGACAAAAATGCAGGGGGGGGGGGTATAATTAATAAAAATATAGATAGGAGAGTAATTGATGAGAAAATTATTGCTGTCAATAATATTATTTATTGGATTAATTTCATTTCCAGCTAAAATAAATAAGTTGAAGTCTAAAAATATTAAAAAATCTAATGTTTCAATTGAATTAAAAATAGCAGAACCAATGCATAGTGTTAATGATTTTGATAAATTTAAAATAACAGGACCGAGGTATAGAATAGAGGCTAATTTAGGATATTATAGACTAGGTAGTAACTCTCTTAGAGGAGTTTATAGACAAGAAAATAAAAAACATGATGGATATTTTGGTATTTCATTTTTAGTTGAATATAAGGCTAAGATAGGAGAATTTTTTGATATAACTTTTGGACCTAAAATTATATTTCAAAATGATTTTGAACCGATATATTATAGCAATTCTCAGATAATACTATATATGTTAAATTCTCTTAATTTAGGTGCTGAAATAGGTTTTGATTACAGATTAAAAGAAAATTTAACTATATATAATAGTATAGAAGCTTTTATTGGATTAAAAAAATTAAATGTTATTGATTTTAAGTCTAATACTAACTATAGTAAGTATTTTAAAATACAAGAAAATCTAGGAATTAAAATTGCATATGGGGTTAAAATAAAGGATAAATATAATGTTGCACTTTATACATCATGGGGTAAAGGAGCTATTGGAATAGAAGCAGGATATACATTTTAATATAAAAAATTTAACTTTATATCAGAGACAAATAATATGTAAATGTCTCTGGTTTTTTAGTTCTTTACAAATGCCATAAATAGTAGTATAATTAAGCATAGGTATAAATAATATTATGGAGGTAGTTATGAGTATCTGGAAAAGCTTATTTGGTAGCGATGATTTAGAAGAATATGAAAACGAACAAGAAGCAGTAGATATACAAAATGAAAATAGTGGTATTACATTATTTAAAAAAGAAAATAAGAAAGTAAAAAAAGAGGAAACAAATATGAAATTTATAGCAGTTAAACCTAGAAATATGAATGAAGCTTCAAAATTTGTTAATATAGTTAGAAATAAATTTATTGTAACTTTTAACATAGAAGCTTTAAATAGAGAAGAAGGGCAAAGAATGTTAGATATACTAAGTGGAGCAACACATGCTATGTCTGGTAAAACAGTTTTTGTTTCTGAAAAAGTATTTATTTCAGTGCCAGAGGGTGTAGAAGTAGATAATTTAATTGAGAATGGAGAAGAAATAGAATAAATGTTTATAGATGAAAGTATAATAACAATAAAATCTGGTAAGGGTGGAGATGGTGCTGCCACTTTTCGTCGTGAAAAATTTGTCCAATTTGGAGGACCTGATGGAGGAGATGGTGGAAAAGGAGGAGATATAATATTTATTGCTGATCCAAATATCAATACCTTAGTAGATTTTAAAACTGTTAAAATGTTTGAAGCAGAAGATGGTCAAAGAGGATCAGGAGCTAGATGTAAAGGAGCTTCTGGTAAAAATTGTATTATTAAAGTTCCTGTTGGAACTATGATAAGAGATTATGAAACAGATAAGTTATTAGTAGATTTAGATATCCCAAATGAAGAAATAGTATTACTAAAAGGTGGAGATGGTGGACGTGGAAATATTCACTTTAAATCATCTATAAGAAAAGCACCTAAGATAGCTGAATCTGGGAGAGAGGGAATGGAACTTAAGATTAAGTTAGAATTAAAACTTTTAGCTGATGTTGCATTAGTAGGATATCCAAGTGTAGGTAAGTCAAGTTTCATAAATAAGGTTTCTGCTGCAAACTCAAAAGTTGCAGAATATCATTTTACTACTTTAAAACCAAAACTTGGTGTTGTAAGAATGAGTGATGAGGAAAGCTTCGTTATAGCTGATATACCAGGTTTAATTGAAGGAGCTCATGAAGGTGTTGGATTAGGGGATAGGTTTTTAAAACACATACAAAGATGTAAAACTATAGTCCATATTATTGATTTTTCAGGTATAGAGGGTAGAGAACCTATAGAAGATTTTGAAAAGATTAATAATGAATTATTTAAATTTTCAGAAAGATTATCTAAAAAAGAACAAATAGTTTTTGCTAATAAATTAGATATGGTTTTTGATGATAGAGAAGATAAAATAAAAGAGTTTAAAAATGAATTGATTAAAAGGGGTATTAGAGAAGAAAATATAGTTTTTGGTTCAATTATTACAGGAGAAAATTTAAAAGAATTACTAACTCTTGTTTGGAATTTAGTGAAAACAACGGAACGTGAAATAATAGAAGAAGAACCTGATTTAGATTTAATATTACCAGATTTAATTAAAAAACAAGAAGATTGGATAGTTGAAAAACTAGATGAAGAAGTTTATGAACTTAAAGGTCAAATTGTTGATAATGTATTAAGAAAATATGTATTATTAGGAGAAGATGGAATAATACAATTCTTACAAATTATGAGAAAATTAGGTATGGAAAAAATACTTGAAAAGCATGGTGTAGTTGAAGGAGATACAATTATTATTGCAGGATATGAATTTACTTATGTGCAATAGAGCTATTGTTATTGCAGGGCCTACTGGAGTAGGTAAAACAAAACTTTCTATTATGCTTGCAAAAAAAATAAATGCCGAAATTATATCATCTGATTCCATGCAGATTTATAAAGAGATGGACATAGGTACTGCTAAAATTACAGAAAGTGAAAAAGAGGGGATAATACATCATATGTTAGATATTGTAAATCCTGATGAAGATTATTCTGTAGGCGAGTATGAAAAAGCAGTAAATAAGATATTAAATGAAGAAAATAAAAAATATATTTTAGTTGGGGGTACAGGACTATATTTAAAATCTGTAACTGATGGTTTTTCAAAATTACCTGAAAAAGAAGATAATTTAAGAAAAAAATTAGAAGATAAAAGTATATTTGAGCTATTATCAATTTTAAAAGAACTTGATATAGAGATGTATGAAAAGATAGATAAAGATAATAAAACAAGAGTAGTTAGAGCTGTTGAAGTTTGTATGCTTACAGGTGAAAAATTTAGTGAAATTACAAATAGTAATATAAAGGGGAATACATATAGTTTTTTAAAAGTTTTTTTAACAAGAAATAGACAAGAGCTATATGACATTATTGATAAAAGAATTGATATTATGTTAGAAAATGGCTTACTTGATGAAGCTAGGAAAATATATGAAAAATATCCAAATGTTAAAGCTATAGGGTATAAGGAACTTTTTTTATACTTTTCTGGAGAAATGAGTTTAGAAAAAACTGTAGCGTTATTAAAACAAAAAAGTAGAAACTATGCCAAAAGACAGTTAACTTGGTTTAAGAAAGATAAAAGTTATATTACATATAATTTAAGTGAAATGAGCATAGAAGAAGTATTATTAGATATATTAAAAAAATTAAAGAGGTATGATTAAATGAGAATAGTTGATTTTTTAACTAAGGATAGAATAGTTTTTGGATTAAAATCTGAAACAAAAGAAGATATAATAAAGGAAATGGCACAGCTGTTTTTAAAGTCTAATGATGTTGTTAAAGAAGGAATGTTTGATATTTTTATTGAAGATTTGATTGAAAGAGAAAATTTAACTTCTACTGGTATGCAAGATGGTATTGCAATTCCACATGCGAAATCTCCTGCAATAAATAAGTTAGCATTAGCACTTGCTATTGTTCCTGAAGGAAAAGATTTTGACTCTTTTGATGAAGAAACATCTAAATTGTTTTTTATGATAGCTGCACCAGAGGATACAAAAAAAGAACATTTAGATTTATTACAAAAGATTTCTAAACTTTCATATGAAGAAGAAATTTTAGAAAAATTAATATCAACTAAAGATGTTATGGAAGTTATTAAATTATTAGGTATAATATAGAAATAAAATTAAAAAGCTTGAGGTTATCAAGTTTTTTTATTGTAAGGAGGAAATATGCAAAAACCGATAATTATAGGGATATCAGGTGGTACAGGAAGTGGTAAGACATCAGTTGCTAATTCAGTTTTAGAAGATTTGATGAAAAATGGTAATGATGTTGTTTTGTTAGAACAGGATTCATATTATAAGAAAAATGATCATTTATCTTTTTCAGAAAGAGTTAAATTAAATTATGATCATCCAAATTCTATTGATTTTGATTTATTAGAAAAACATATTTTAATGTTAAGTAGAAATGAAAGTATAGATAAGCCTATATATAATTTTTCAGAACATAATAGAACTAAAGAAACAGAAAGAATAGACCCTAAACCTATAATCATAGTAGAGGGTATATTGATTTTAGCTATAGAAAAGATTAGAAATATTTTAGACATGAAAATTTTTGTTGATACTGATGATGACATTAGATTATTAAGAAGAATGGAAAGAGATATACAAGAAAGAGGAAGAAGTTTCGATAATATAAAAGAACAATACATTAATACAGTAAAACCTATGCATCTTGAATTTGTAGAACCATCAAAAAGATATGCAGATGTAATTATTCCACGTGGTAAGGATAATGAGGTAGGTATAAAGATGGTATCTAGTAGATTAAAGTATCTAATAAGACGTAGTGGTAATAAAGAATATTAAAAATAGTAAAAAAAGTTTTTTTATTAAAAAAAGTGTATTTACTTGATTTATACCTTAGTATATTTAATGTAGTTAAAAAAGCGTGTGTTAATTTTTAAAAAAATGAAAGCAAACAAAAAAAAACACATTATAATATTGTAAAGGGGAAATGATGAAAAGATTAAATGAAACAGAATATGAAATTTTAGAACTAATATCTAAGAATCATTGTGTAACAAGAATGGATTTATCCCTTAAATTAAATATATCTCCTGCTGCTATTTCTAAAACTATGAAAAAATTAATTGAAGAAAATCTAGTTTTAGAAGATGATACTTTATCATCTAAGGGTGGAAGACCAAGAAAAATTTTAAAAATCAATTCAGAATATAAAAAAGTTATTGGTATAAATTTTGGTCCAGGATTTATATATATTTCTGTAAGTAAAATAGATGGAAGTATAATAGAAACTAGAAAGAAGAAATTTCAATTTAAAGTTTCCCAAAAACTAATAACATTATTAACAGATGAACTTGATTTATTATTTGAAAGATATAATAAAAATGAAATTTTAGGTATAGGTCTTGCTGTAAATGGTATAGTAAATACTAGAGATGGTTCTTCAATTTTTTCACCACATCTTAAGTGGAGTAATATAAAATTAAGAGAATATTTAGAAAATAAGTTTAATTTACCAGTTATAGTTGATAATGATGTTAGAGCTATGTTGAAAGCAGAGATATATAAAGTTAAAAAACTTTCAAATGTTATGTATATATACATTAGAGATGGAATAGGATCATCAATAATGATAAATAATAAAATATTTGAAGGTGTGAATTTTTGTACAGGAGAAATAGGGCATTTTATTATAAATCCTACATCTAATAGTAGATGTCAATGTGGAAAATATGGCTGTCTTGAAGCGGAATATTCTTCAAAAATGATAAGAAATAAAGTAATTTGGGAATTAGAAAAACAAGGCATTGAACTTGAAAATAACTATATTACATATAAAGAAATATTTGAAAAAGCATCATTTGGAGAAGAACCATATAAAGCTATAGTAAAGGAAGCTAGTATTAAAATTGGAAGTACAGTAGGAAATATTTTAAATGTTTTAGACATAGGCAATATAATTATAGCTGGAGATATTCTTCATGCTAAAAATATATTTTTAAAAAACTTTGAAAAAGGGATAGATTTAATGAAAACACATAGTTTTGAAAGTATGGTTAATATTTATACAACAGAATTTGGTGATGATGTTGAAAAATACGGAGCTATTTTTCTAGTAATAATGAACCTATTTTCAGGGCAGAAAATATTTACACTTTAGGCTATTAACATAGTGATTAATAAAAAAAATTTAGAGGTGAGAAAAGATGAAAAAATTACTGACAATGGTTTTACTACTATTAGCTTTTGTAGTTTCTTGTGGTAGTAAAAAAGATACATCAAAAATTACTTTAGGAGTTACTTACTACAAGTTTGATGACAACTTTTTAGCAGGTATGAGAAATGATATGATTCAAATAGCAAAAGAAAAATATCCAAATATTGAATTATTAAACAATGATTCACAAAACTCTCAATCTATTTTAAATGATCAAATAGAAGTATTAATAAATAAAGGGGTAAATGTTTTAGTAATTAACTTAGTTGATCCAACTGCTGGACAATCAGTTATAGACAAAGCTAAAGCAGCAAATATACCAATAATATTATTTAATAAAGATCCTGGTGTAGATGCTTTAAATTCTTATGATAAAGCTTGGTATGTAGGAACTACACCTAAAGATTCTGGAATTTTACAAGGACAAGTTATTGAAAAAGCTTGGCTTGCTAATCCAGCATATGATTTGAATGGAGATGGGGTAATTCAATATGTTATGCTATTTGGAGAACCAGGGCAGCCTGATGCTGAAGCAAGAACTAAATACTCTATAGAATATTTAAATGAAAAAGGTATAAAAACTGAAGAATTACATAAAGATATAGCTAACTGGGATGCAGCTCAAGCTAAAGATAAAATGGATGCTTGGCTATCTGGACCAAATGCTAATAAAATAGAAGTTGTTATAGCTAATAATGATGGAATGGCTTTAGGAGCAGTTGAATCAATAAAAGCAGTTAAAAAAGAATTACCAGTATTTGGAGTTGACGCTATTCAAGAAGCATTAACATTAATAGAAAAAGGTGAAATGGTTGGAACAGTACTTCAAGATGCAACTGGACAAGCAAGAGCTATATTAGAACTTGCAAACAATATTGCAAATGGTAAAGAACCAACTGAAGGAACTGAATGGAAATTAATAGATAAAGCAGTTAGAGTACCTTATGTTGGTGTAGATAAAGATAACTATAAAGAATTTCAAAAATAAATAGTTAGATGAAAAAGCCACTTATGTAGTGGCTTTTTTTAAAAGAGGAGAGAAAATAAATGACAGATAATACATTTGAATATGTTTTGGAAATGGATAATATATCAAAAGAATTTTCAGGTGTCAAAGCATTAGATGGTGTAAAGTTAAAAATAAGGCCTAATACTGTACATGCTTTAATGGGAGAAAATGGTGCAGGAAAATCAACTTTAATGAAATGTCTATTTGGTATATATAAAAAGGATACAGGAACTATAAGACTAGAGGGAAAGATTGTTGATTTTTTAAATTCGAAAAATGCTTTGGAACATGGTGTTTCAATGGTTCATCAAGAATTAAATCAAGTATTACAAAGAAATGTTATGGATAATATATGGCTAGGAAGATATCCAGTTAAATATGGTATGGTTGATGAGAAAAAAATGTATGAGGATACACTAAAAATATTTAAAAATTTAGATATTAATATAGATCCTAGAGCAAAAGTTAATACTTTAAGCGTTTCGCAAATGCAAATGCTTGAAATTGCTAAAGCAGTTTCATATGATTCTAAAGTTTTAATTTTGGATGAACCAACTTCTTCATTAACTGAAAATGAAGTACTTCATCTTTTCCGTATAATAAAGAAATTACAAGGAAGTGGAATAGGAGTAGTATATATTTCACATAAAATGGAAGAGATCAAAGAAATATGTGATGAAATAACAATATTAAGAGATGGTAAATGGATTGCAACTGAAAGTGTTAAAGAATTAACTACAGATCAGATTATAAACCTAATGGTAGGAAGAGATCTAAGTAATAGATTCCCAGCTAAAACAAGTAAACCTAAAGATGTAATTATGTCTGTTGAAGGCTTAACTAATAAGGATTTAAGAGATGTAAGTTTTGACTTACATAAAGGAGAAATCTTAGGAATAGCAGGTCTTGTTGGTTCTAAGAGAACTGAAATAGTTGAAACAATATTTGGACTGCGTGGAAATTATTTAGGTGATATTAAAATTCATGATAAGGTAGTTAAAATTAATTCATCAAATGAGGCAAGAGAAAATGGATTAGCTTTAATAACAGAAGAAAGACGTGCAACAGGAATATTTTCAATGTTAGATATTAGATTTAATTCAATAATATCTAATGTTAAAAATTATACTAAATTTGGATTAATAAATAATAATAAGGTTGAAAAAGATACTAAGTGGGTAATTGATTCAATGAAAGTTAAAACACCTTCTCAATTTCAAAGTATAGGTAAATTATCAGGTGGAAATCAACAAAAAGTAATTATAGGAAGATGGTTATTAACTAATCCAGAAATACTTATGATGGATGAACCTACAAGAGGAATTGATGTAGGAGCTAAATTTGAAATATATCAATTAATGATAGAGCTTGCAAAAAAAGATAAGGGTATAATAATGATATCATCTGAAATGCCAGAATTACTTGGAATTACAGATAGAATTATAGTAATGAGCAATGGTAGAGTTGCAGGTATAGTAAATACTAAAGAAACAACACAAGAAGAAATTCTAAAACTTACAGCTATGTATTTATAGGAGGAATAAAGAGTGAACAACGAAAAAATTGAAAAATTAAAAGAAATGGCAATGAATAAATTAAAAAATAGTGAAATATTTATTGTGTTATTACTATTATTCATATTAATAGTTCTTCAAGATGGAACATTTTTAAAATTTAGAAATATTATTAATATTTTAACTCAATCTTCAGTTAAAATGATTATAGCATTAGGAGTTGCAGGAATAATAGTTACACAAGGAACTGATCTTTCAGCTGGTAGACAAATAGGTATATCAGGTCTTATAACTGCCTCACTTTTACAATCAATAACTAATCCAAATAGGGTATATAAGTTTGCAGAAACTTACTCACCTATTAAAGATGCTTTTTCATCTATAGGAAGAACATTAGGTTTTGCAGATGAACCTGGATTTACTACTATAGCTATAACCCTAATTTTAGTTATTATTATTGGTTCTTTAATTGGCCTTATAAACGGTATTTTAGTATCTAAATTTAATATAGTACCATTTGTTGCAACTATGGGTATGATGATTATAGCCTATGGTGCAAATTCATTATACTTTGATTATACAGGATCAACACCAATTGCAGGATTTAGTAGTAATTATTCAAGTATAGTAGGAAATATAGTAATAGGTGATTTCTATATTCCAAAATTAATAATTTATGCAACAATTGCAGTAATTGTGATGTGGATAATATGGAATAAGACAGTATTTGGAAAAAATCTTTTTGCAGTAGGTGGAAATCCAGAAGCAGCGAGAGTATCTGGAGTAAATGTTACTAAAACTTTAATAACAGTATATATAATATCAGGGATAATGTATGCTATAGGTGGATTTTTAGAAGCAGCTCGTATAGGGTCTGCATCAAATAACTTAGGAAACCTTTATGAATTAGATGCTATAGCAGCCTGTGTTGTTGGAGGAGTATCATTTTCAGGAGGGGTTGGAAAAATCTCTGGAGTAGTATCAGGGGTTATTATCTTTACAATGATTAATTATGGACTAACATATATAGGAGTAAACCCTTATTGGCAATATATTATTAAAGGAATGATAATAATAACAGCAGTAGGTATAGATATGCTTAAATATAAGAAGAAGAATTAATTTTTGTGGAGGATATTTATGTTAAAAGTTATAGAATACAGATTTAATGAATTATTTGGTAAAAACTATGAAAGTAGATATTTTGCACCAGGTAGAGTAAATTTAATTGGTGAACATACAGACTATAACGGTGGAAATGTATTTCCTTGTGCTATAGATAGAGGAACTATAGCTTTAGTGTCTAAAAGAGAAGATAGAAAATGTAGATTTTATTCTGAAAATTTCAAAGAAAAAGGTGTAATAGAATTTGATATAGATAAATTAGTTAATGAAGCAGAACATAGTTGGGTAAATTATCCTAAAGGTATGTTTAAAGCATTTATAGATAAAGGATATGATATTAATCATGGTTTTGATGTATTAATCTATGGTGATATACCTAATGGAGCTGGACTTTCTTCATCAGCTTCTGTTGAAATGGTTATAGGGATAATGTTGAAAAATGAATTTAAATTTGATATAGAAACTATAGACATAGTTAAATTAGGTAAGTTAACAGAAAACGAATTTATAGGTGTAAATTCAGGAATTATGGATCAATTTGCAGTAGCTATGGGTAAAAAGGATAAGGCTATTTTACTTGATTGTAATACTTTGATTTATGAATATGTTCCTGTAATGCTTGAAAATGAATATATAATAATAGCAAATACTAATAAAAGACGTGGACTTGCTGATTCAAAATACAATGAAAGACGTGCAGAATGTGAAAAAGCTTTAGAAGAATTACAGACTAAATTAAATATTAAAGCTTTAGGAGAATTATCTATAGATGAATTTGAAGCAAATAAAGATTTAATTAAATGTGAAATAAGACAAAAAAGAGCAAAACATGCTGTATATGAAAATCAAAGAACATTAATGGCAAAAGAAGCTTTAACTAAAGGAGATCTAAAAACTTTTGGTAGATTAATGAATGAATCACATATTTCTTTAAGAGATGATTATGAAGTTACAGGAATAGAACTTGATTCATTAGTTGAGGTTGCTTGGGAAGAAGAAGGAATAGTAGGTTCAAGAATGACAGGTGCAGGATTTGGGGGATGCACAGTAAGTATAGTAAAAAAAGTTAATGTTGATAAGTTTATAGAAAATGTTGGTAGAAAATATTTTGAAAAAACAGGTCTTAAAGCAGATTTCTATATAGCAAATGTAAGTGAGGGTGCAAGAATTTTATGATAAATTATTCTAAAAACATATTAGGTAAACTAGGAAATAAAGAAGTAACTGAACATATACTTAAAAACTCTAATGGATTTGAAGTTCATATTTTAAATCTTGGGGGAATTATTACTAAGATACTTGTAGAAGATAAAGATGGAGTATTTAGAAATGTAGTTTTAGGTTATGATTTTTTTGAAAAATATTTAAATGATCCTAGTTATGCTGGCTCTATAATAGGACCAACATCAGGAAGAATAGAAAATGGTAAATATAGTATAGATGGCATAGAATATGTATTAGAAATAAATAGTGGAGAACATGCAAATCATGGAGGAACGAACTCTTTAACATCTAAAATTTTTGATGTTAAACCTGTAGTTTTTAATGAGTATAAAGGTATAGAACTTAAATATTTTTGGAAACATCTTGATGGAAATCATCATGGTAATATGACTTTCTATATTAGATATATGATAAGTGAAAAATCAGAGCTATTAGTTGAATTGCATGCCGAAAGTGATAGAAATTCATATATTAATTTAACGAATCATTCATATTTTAATCTTTCAGGAGATCTAAGAGTTAATGGAGATGAGCAATTATTAAAAATAAGTGCAAATGAATTTTGCCCAGTTAAAGAAAATATGATTCCTACTGGAGAAAAATTAAAAGTAGATAATACTTGTTTTGATCTAAGAGAATATGTGAAAATTAAAGATGGAATTAATGTTTCACATCCACAATTTGATATAACTCGTGCATATGATCATGCTTTTGTATTAGACAAAGATAAAGAAGTGGCAGTATCACTTTATTCTGAATATTCAGGTATAAAATTAAATGTAGAAACTAGTCAAAATTGTATGGTAGTATATACAGGGAACTTTTTAGATGATGCTAAAGCTTTTGGAAATTTAAAAGAAAATTCAAGATATTTAGGTGTTGCCTTAGAAGCTCAAAATTATCAAAATGGAATTAATATTGAAAATTTTGATTCTAAATTAACGAAACCAACTATGCCATATTTTGAAAAAATTAAATATATATTTGAAACTGTAAAATAGTTATTTTAAGAAACAGAGAAAATTTATTTTTCTCTTGTTTTTTATACTAAATATAATTTAGGAGGAGATTTTAATGAAAAATGTATTAGTTATAGGTGGAGCAGGTTATATTGGTTCACATACAGTAAAATTACTTAAGCAATCTGGATATAATGCGATAATTTACGATAATTTATCTAAGGGTCATAAAGAAGTTGCAGATATTTTAGATGTTAAATTAATTATTGGAGATTTAGGAGATAGAGAAAAATTAAAAGAAGTTTTTGAAACTGAAAAAATTGATGTAGTTATGCATTTTGCAGCATTTATAGAGGTAGGAGAATCAGTAACAGCTCCTGGTAAATATTATGAAAATAATGTAGCTAAAGTAATAAATCTTTTAAATCAAATGGTAGAATCTAATATTAAAAACTTTGTGTTTAGTTCTACAGCAGCTACATTTGGAAATCCTCAATCTGAGAAAATAAGTGAAACACATCCACAAAACCCTATAAACCCTTATGGAAGTTCTAAAAGAATGGTAGAAATTATACTTAAGGATTTTGAAAAAGCATATGGATTAAAATCAGTTATTTTAAGATATTTTAATGCTGCTGGAGCAGATATGGATGGTTTAATTGGAGAATCACATTCACCAGAAAGTCATTTAATACCTGTAATCTTAGAAGCAGCTTCAGGTAAGAGAGAAAGTATAAAAATATTTGGTACGGATTATGAAACAGAAGATGGAACTTGTATCAGAGATTATATACATGTATACGATTTAGCTAAGGTTCACATAATGGGAATGGAAAAAATGCTTGATAAAAATCTCTCTTTAGAATATAATCTAGGAAATGGAAAAGGATTTTCAGTTAGATCTATAATAGATACAGTAAAAAAAGTTACCAAAAAAGAATTTAAAGTAGTTGAAGCTGATAGACGTCCAGGAGATCCTGCCGTTTTAATTGCAGATCCAACTAAACTAATGACAGAATTAAAATGGGTTTCTGAATATAGTTTAGATGATATTATAAGCTCTGCATGGCTTTGGGAACAAAATAGAAAATACTAGGAGAAGATATGAATATATGTAAAGAGATTGAGAAAATTATTCTTTTTGGATTTACAAATCAAATGATAGAACCAATAGATGAAATTCTGGTTAGAAATAGAATACTTGAAATATTAGATATTGAAGATTATCCAGAATTTAGTTTAGAAGAAAGAAAAGAACTATTAAAAGAGGTAGAAAGTTTAGAATATCCAACACAAATACTAGATAATATTACTAAGTGGGCTGGAGAAAATGGAAGATTAAAGGAAGACATTTTAGTTTTTCATGATCTTTTAAATTCTAAAATTATGGGGCAAATATTACCTAGAACATCTACTATTACTAATGAATTTTGGAATAGATATAGCGTAGATAAAAATTCTGCTACAGAATATTTCTATAACTTATCTAAAAAAAGTAACTATATCAGAACAGATAGAATATCTAAGAATGTAAGCTATAATTTTGAAAGTAAATATGGAAATTTAGAAATTACTATTAATTTATCTAAACCTGAAAAAGACCCAAAAGAAATAGCACTTGCAAGAAATTTATCAACTTCTTCATACCCTAAGTCTTTATTATGTAAGGAAAATGAAGGATATATGGGAAGAATTAATTATCCTGGAAGACAAAATCATAGGATATTAAAACTTAATTTGACTAATGAAGATTGGTTTTTCCAATATTCACCATATATATATTACAATGAACATTCAATAGTGTTTTCAGGGGATATAAGATCTATGAAAATAGATAGGTCTACATTTACTAGACTTATAGAATTTGTAGAGATGTTCCCACACTATTTTATAGGTTCTAATGCAGATTTACCTATAGTAGGAGGATCTATACTTTCTCATGATCATTTTCAAGCTGGAAGACATAAATTTGCAATGGAAACAGCTAAGATATCAAGTAAAGTAAGCTTTGAAAACTATAAAGAAATAGAAGCTGGTATACTTAATTGGCCTCTTTCTGTAATTAGATTAAGTGCTAAAAAAGAATATAAAGAAAAGTTAATTGATTTAGCAGATAAGATATTACAAGAATGGATTAAGTATAATGATTATGAAAATGATATAAGTTCACATACAAATGGGATAAGACATAATACTATAACCCCTATTGCTAGAATGAAAGATGATAAAATAGAATTAGATTTAGTTTTAAGAAATAATAAGACTACTGAAGAATTTCCTTTAGGAATATTTCATCCACATGAACAACATCATTCAATAAAGAAAGAAAATATAGGGTTAATTGAAGTTATGGGTCTTGCAGTACTACCTGGAAGATTAAAACATGAACTAGAAGAATTAGATCAATTATTTATGAGTTTAAGAAATGTAGATGAAGTATTAGATGTTATGAAAGAAAATACAGATTTACAAAAACATATTAATTGGGTAAAAGAAAACTTTACAGATGATATGCTAAAAGATGATTATTTCCTAGATGGATTAATAGAAAAAACTGTAGGAAAAACATTTGAAAAGGTGTTAGAAGATTGTGGAGTATTTAAAAATAATGAAGTTGGAAGAAAGGGATTCATATACTTCTTGAGTAAAATTAAGTAGATATGAATAAGGTATAAAATGATGAATGTAATAATAAATGTTATAATATTTTTAATAGTATTATTCATTTTAAACATATTTGCAGCTAAAAGATATTCTTTTTCTATAAGAGTATTTATAGCTTTAGGATTAGGATTATTATTTGGTGTTATCTTACATAATGTGCAAGATATGGAAACAATAATAAAATCTAAAGAATATTTTGAAGTAGTTAGTAGAGGGTATATAGCTTTATTAAGAATGATTACTATGCCATTAATTTTAGTTTCTATAACATCTGCTATTATAAATCTTAATAATACACAAGAAGCATCAAAAATGGGTAGTTTAGTTATAGGAGTTCTTTTAACTACAGCAGCTATATCATCTTTTGTAGCAGAAGTTGTAACTTTAGGATTTGGTATAGATGCATCAGGTATATTAAGTTCAGGTATGGGTGAAAAAGAAATTAGAGCTATAGAAAGAGTAAATGAAAGAGCAGGTGCAGTGGTTCAATCTTTATCTGATAAAGTATTATCATTTATTCCTTCAAATCCATTTGCTGATTTAACAGGAGTAAGACCAACTTCAACAATAGCAGTGGTAGTATTTTCAATGTTTATAGGTATAGCTATTTTAGGTATGAAAAGAAGAAAACCAGAACAAGCTAATTTATTAATAGATATTATTAATGCAAGTCATGAAGTAGTTATTAGAATGGTTAAAATGGTATTAAGATTAACACCTTATGGTGTATTTGCATTAATGAGTATATTTGCATCAACTAGTAATTATGCTGAAATATCAGTACTTATTAAATTTGTAATAGCTTCATATGTGGCCCTGTCATTAATGTTTATTATTCATTTAATAATAGTAACATTATTTGGGTTCTCACCTATAATTTACATTAAAAAAGCAATTACGGTATTAATATTTTCATTTACATCGAGAACAAGTGCAGGAGCAATACCTTTAACAACTAAAGCTCAAGAAGATATGGGAATAGATAGAGGTATAGCAAACATGGCAGCAACATTTGGAACATCTATAGGGCAAAATGGATGTGCAGCAATTTATCCAACTATGCTTGCTTTAATGTTAGCACCAACTTTAGGAATTAATCCATTTGATCCACTATTTTTAATCAGAGTTATAATCATAGTTACAATAAGTTCATTAGGTGTTGTAGGAGTTGGAGGAGGAGCAACATTTGCTGCTATTATAGTACTTTCAACTTTAGGTTTCCCTTTAGAAATAGTTGGATTATTAATAACTGTAGAACCTTTAATAGATATGGGTAGAACAGCATTAAATGTTAATGGATCTATAGTTGCAGGGCTTCTAACTTCTAAAATGTTAAATAAGGTAGATAAAGAAAAATACAATAAATTAGAAACTGAATAAGAATAAGGAGATCTCTAAATTTTTAGAGATTTTCTTTTTTTAATTGATTAAAAACATTAAAAATAGTATAATACATATAAAAATTGAAAGAGAGGCTAGGTTATGAGATTTTCAAAATCTTTTATAAAAACATATAAAGAAGTGCCTAAAGAGGCAGAAACAATATCACATCAATTAATGCTTAGAGCATCTATGATTAAACAATTAACTAGAGGAGTTTATACATATTTACCACTTGGATTAAAAGTTTTAAAAAAGATAGAAAACATAGTTAGAGAAGAATTAAATAAAATAAATGCACAAGAAATATTAATGCCTGTGCTTCAACCAGCAGATTTATGGCAAGAATCTGGAAGATGGTTTTCATATGGTGCTGAACTTATGAGATTACATGATAGAAATAATAGAGATTTTGTTTTAGGACCAACACATGAGGAAGTTATAGTTGATTTATTTAGAAACATTGTAACATCATATAAAGATTTACCATTAAATGTTTATCAAATACAAACAAAGTTTAGAGATGAGAGAAGACCTAGATTTGGGTTAATGCGTGGAAGAGAATTTATAATGAAAGATGCATATAGTTTCCATTTAACACAAGAATGTTTAGATAGAGAGTATAATAAGGTTAAGGAAGCATATTGCAAAATATTTGAGCGTTGTGGTCTTAACTTTAGAGCAGTAGATGCTGATACTGGAAGTATAGGTGGTTCTGAAAGTCATGAATTTATGGTTCTTGCTTCAAGTGGAGAAGATGATATACTTTATTCAGATAAATCAGATTATGCAGCTAATGTTGAAAAGGCAGTTTCAGTATTAGAATTTGAAGTTGATAATTCTGAAGAACTTACTAAAGAATTAGTAGCCACTCCAGATATTAAAACTATAGAAGATGTTTCAAAATTTCTTAATGTAAATACTAATAAAACTATAAAATCAGTACTATTTAAAGAAGAGCAAGAAGATAAAACTTTTGCCTACTATATAGCTTTAATAAGAGGAGATTTAGAAATAAATGATGTAAAAGTAAAGAATATATTTGGTGCAAAAATAGATCTTGAAATGATGAATGAAAAAGATTTAGAAAATCTAGGCTTTGCTGGAGGATATTTCTCGCCATTAAAAGAAATAGAAACACTTTCAAAAGTTAAAATAGTTATAGATGAATCAGTAAAACATATGAAAAACTTTGTAGGTGGAGCAAATGTTGAAGGACATCACTATATTAATATGAATTTATCAGATATACATTATGATTTAGTTGGAGATATACGAAAAGCACAAAAAGGGGATAAGGCATTAGATGGTGGAACTTTAGATATTGCTAGAGGAATAGAAGTAGGGCATATATTTAAATTAGGTAAAAAGTATAGCGCGGCTATGAATACTAAAGTATTAAATGATAAAGGTGTAGCAGAAACTGTTATTATGGGTTGTTATGGTATAGGAGTTTCAAGAGTTGCAGCAGCAGCAATTGAACAAAATTTTGATGATTTTGGTATAATATGGCCTAAGTCTATAGCCCCTTATTTAGTAGATTTAATTTTAGTTAATGTAAAAGATGAAATAGCAAAAGAAGTTTCAGAAAAAATATATTCTGATATGTTATTAAATAATATTGATGTGATTTATGATGATAGAGATGAAAAAGCAGGATTTAAGTTTAAGGATGCTGACCTTATAGGTATACCTTTAAAAGTTATAGTAGGAAAAGGTGCTGTAAATGGTATGGTAGAAATTAAACATAGAGATGGTTCTTTTTCTGGAGAAATTAAAGTAGAAGATGTAATATCATATATTAAAGAATTTGAAAAAAATAAGTAGAGATGTCAAATTGATATCTCTTTTTATTTACTCCTTTTAATTTCATGTAATTTTTGATATAATGAGAATGAAAATGTATGTTTTTTGGAGAAAAAAATGGATTTAATTACTAAATTTAATAAACAAGAATTTATAAATGGAATTAAAGCTGCAAATGGAATTGCAATAGCTTTTATACCTTTCGGGTTTGCACTTGGACTTATTTCTAATACATATAATGTTAATTCTGTAGTATCATCTGTAATGACTTTCATTATTTATTCAGGTGCATCACAAGTTTTGTTATATAAAATATTTGCAACTGGAAGTTTTGATATATTTTCTGCGATTTTTGCCGCAGCCATGTTAAATTTTAGGTATGTTTTAATAAATATTCCTATGTATAAGGCATTAAGTAATTATGATAGAAAATCAAAATCTTTAGTGGGTGTCTTATTTACTGATGAAACTGTAGCATTTTTAGCACTTAAGAAGAATAAGAGTTTATCATTTGCATTAGGTGTTAATTTATTAGGATATTTAAGTTTTACTTTAAGTTCTGTATTTGGAGTAATACTTGGAAACTATATACCTATTATTGTTATAAATTCCATGAAATTTGTTCTTTATGGTACATTTTTATCACTTTTGATATCAAGTTTAATTATGGATAATAAGAATTTAAAAATAGTATTAATAACTTTATTTTTAAAAGCAATATTTATGTGTATATATCCATTTAACATGATTCCACAAAGTTTACAGATAGTATTAATACTATCATTAACTAGTTTGATATATGCAATGATATCGATATGGAGGGATATTAAATGAAAATATGGTTAGTTATAATACTTGCTGCTATAATTACTCAACTTTTCAGAATTTCTGGAGAATTTATACCTATACCTAGAACGAAATTTATGGATAGATTTTTAGAAGCTATTCCTATTTCGGTATTAGTTATATTATTTTTTCCAGATATTTTTGTTTCTATAGGAAGTAAAATGTATGAAATAATGATAGCTGTTTTTGCTTCCCTACTTATAATAATAATGACTATAAAAAATGTTGATTTAGGAAAGATAATGATAATTGCAGTTGTAACTGTAGTTATACTTAACTTGATATTATCAAAAGTATTAATTTAGGAGAATTTATGGAAGAATATGAATTAAGAAAAGTTATAGATGAAAAAAATATTGATTTTAATGATATAAAGGAGCATCTTTGACTTAGATAAATTAAAAAAAGAATTAGAAGAAAAAGAAAAGCTAACTTTAGAAGATGGTTTTTATAAAGATCAAAATAAATCACAGAATGTATTAAAAGAAATTTCACTTTTAAAGGAAAGAATAAAAGATATTTCTAAACTATTAACATTAAATGAAAATATTCAAATATTATTAGAGTTCTATAAACAAGAAGAAATAAGTTTAGAGGAATTAGAAACTGAAACACTTGAATTTATAAAAGAATTAGATAAATTTAAAATAAAGTTATTATTAAATGGTAAATATGATAAAAATTCAGCAATACTTACTATAAATGCAGGAGCAGGTGGAACTGAAAGTTGTGATTGGGTATCTATGCTATATAGAATGTATGATAGATGGGCTATGCAAAATAAGTTTAAAGTAGAAGTTCTTGATATTTTAGCAGGAGATGAGGCTGGGATTAAGAGTATAACTTTATCTATTAAAGGTGATTATGCTTATGGATATTTAGATTGTGAAAAAGGTGTTCATAGATTAGTTAGAATATCACCGTTTGATTCTAATGCAAGAAGACATACTTCATTTGCAGCAGTAAATGTAATTCCTGAAATAGAAGATGATGTTGAAGTTAATTTAAAAAAAGAGGATTTAAAGATAGATACATATAGAGCAAGTGGAGCTGGAGGGCAACATGTTAATACAACAGATTCAGCTGTAAGAATTACACATATACCTACAGGTATAGTGGTGATTTGCCAAAATGAAAGATCTCAGAATAAAAATTTAAATTCTGCAATGAAGGTTTTAAGAGCTAAACTGTTTGAAATAGAATTGAAAAATAGAGAAAATGAAATAAATGATCTTAAAGGAGTACAATCAAAAATAGAATGGGGTTCACAAATTAGATCATATGTGTTCCAACCATATAAGATGGTAAAAGATCATAGAACTAACCATGAAGAAAACAATGTAGATAAGGTTATGGATGGAGATATAAATATATTTATAGATGAATATTTAAAGATAAGGTAGGTTGTTATATTATGGAATACAAAATTGAAGTTGCAATAACTGAGGAAGAAATTGCAAATAAAGTTGATGAAATTGCAAAAAAAATTAGTAGTGATTTTGAAGGTCAAAGTTTACTTTTAGTAGGTCTTTTAAGAGGTTCAGCAGTATTTTTAGCTGATATAGCAAGAAAAATAAACTATAACAAAGTGGATTTAACTTTAGATTTCATGAATGTTTCTAGCTATGGTAATTCTATGCAAAGTTCAAGAGAAGTAAAAATATTAAAAGATCTTGAAGAAGATGTTAATAATAGACATATTTTAATAATTGAAGATATAGTGGATACTGGAAGAACATTAAGTGAAGTTAAAAAGATGCTACTTATGAGAAATCCTAAATCTTTAAAGATATGCACATTACTTGATAAACCTGAAAGAAGAGAAGTAGAAATAGATGTAGATTATATAGGATTTAAAATATCTGATTTCTTTGTTGTAGGTTATGGTATAGATTATGCACAAAAACATAGAACACTTCCATTTATTGGACAAGTTGTAGAAATTAAATAGGAAAGAGGTAGGGATATGAATAAATATAATACATATGTTGTGGTAGGAACTCAGTGGGGAGATGAAGGTAAAGGTAAAATTATAGATGTATTATCGCCAGATGCTGATTATGTAGTCAGATATCAAGGTGGAAATAATGCTGGGCATACAGTTATAGTTGGAGAAGAAAAATTTATACTGCATTTACTTCCATCAGGAGTGATTAATAATAAAGGTAAGTGTATTATAGGTTCAGGAGTAGTTGTAGATATAGATGTATTACTTGATGAAATGTCAAAACTTGAAAGTAGAGGAAAAGATCTAAGCAACCTATATGTTGATGAAAGAACACATATTATTATGCCTTACCATGTTTCTATAGATAAAGCAAAAGAAGAAGCATTGGGAGAAAATAAGATAGGAACTACTCAAAGAGGAATAGGACCATGCTATAATGATAAAATTTCAAGAAATGGTATCAGAATGGGGGATTTACTTGATTTTGATAGATTTAGAGATAAACTTGAATGGAATATTAAAGAAAAAAATGATATTTTAGAAAAATATGGTTATCCAACTTTTTCTTTTGAAGAATTATTAGAAAAATATAGAACTCTTGCAGAAAAAATGAAAAATAGAATAATAGATTCAGTTTTTGAAATTAACCAAGCAGTAATAGAAGGTAAAAAAGTACTGTTTGAAGGAGCTCAAGCATTGATGTTAGATATAGATTATGGAACATATCCATATGTAACTACATCATCACCAACAGCAGGTGGAGCATGCACTGGTAGTGGAGTTTCTCCAAATAAGATAAATAGAGTATTAGGTGTTATGAAAGCATATACAACTCGTGTTGGAGAAGGACCTTTCCCTACAGAATTAAATAATGAAATAGGAGAAAATTTAAGAACTATAGGACATGAGTTTGGAGCAACTACTGGAAGACCAAGAAGATGTGGTTGGTTAGACCTTGTTATAGGTAAATATGCTACATTAATAAATGGATTAACAGATATAGTTTTAACTAAACTTGATGTATTAACTGGACTTGAAGTAATTAAAGTTGCTATAGCTTATGATATTAATGGAAAAGTACATCAAACATATCCTGGAAATTTAAGAAAATCTCAAGAAATAGAAATAATATATAAAGAATTTCCTGGTTGGACAGAAGATATTACAAAAATTAAAAATTATGAAGAATTACCAGAAAATTGTAAAAGATATGTTGAATTTATAGAAAGTTATTTAGAAACACCAATAAGTTTAATATCTGTTGGACCAAGTAGAGAGCAAAATATTTATAGAGGAGAATTTTAATGAATAAATATGTGAATCCATTGTGTGAAAGATATGCTAGTGAAGAAATGCAGTATATTTTTTCCCCTGATTTTAAATTTTCAACTTGGAGGAAATTGTGGGTAAATCTTGCAAAATCTGAACAAGAATTGGGGCTTAATTTCATAACAGATGATATGATAAAAGAAATGGAAGAAAATGTATATAATATTGATTATACATTAGCTGCAAAATATGAAAAAGACTTAAGACATGATGTTATGGCTCATGTACATACTTTTGGAGATTTAGTTCCTAATGCAAGAAAAATAATACATTTAGGTGCAACTAGTGCCTATGTTGGGGATAATACTGATATTATACAAATAAAAGAAGGATTAATTCTTGTTAGAAAAAAACTTGTATCTGTCATAGAAAGAATGTCTAAATTTGCAGAAAAATATAAAGGATTACCAACTTTAGGATTCACACATTTCCAAGCTGCACAACTTACAACAGTAGGTAAGAGAGCATCTCTTTGGATGCAATCATTACTTTATGATTTAGAGGAATTAGAATTTAGATTAGATAATTTAAAATTTAGAGGAGCTAAGGGAACTACAGGAACTCAAGCTAGTTTTAAAGAACTATTTAATGATTTTGATAAGGTAAAAAAATTAGATGAATTAGTTACAGAAAAAGCTGGATTTAAAGTTAAGCAAACTTTATCTTCACAAACATATGATAGAAAACAAGATACGCAAATCTTACAGTTACTATCAAATATTGCACAAAGTGTTCATAAAATTACTAATGATTTTAGAATGCTTCAACATTTAAAAGAAATAGAAGAACCTTTTGGTAAAAAGCAAATAGGATCATCAGCTATGGCATATAAGAGAAATCCTATGAGAAGTGAAAGGGCTTCATCTCTTGCTAAATTTGTTATGGCTAATGCTCATAATGGAGAACTTGTTGCTGCAACACAATGGTTTGAAAGAACTTTAGATGATTCAGCAGATAAAAGATTATCTATTCCTCAAAGTTTTTTAGCTATAGACGGAATATTAATATTACTTTTAAATATTTTTGAAAATACTGTTGTGTACGAAAAAATAATAAAAAGAAATGTAGATAAAGAATTACCATTTATGGCAACAGAGAATATAATAATGAAGGCTGTTGAAAATGGAATGGATAGACAAGATGTTCATGAAATTATAAGAGAGTTATCTATGGAAGCTGCCAAAAATGTTAAATTAGAAGGTCTTGATAATAATTTAATAGAATTAATAAAAAAAGATGGAAGATTAGATATTATTAAAGATGAAATAGATAATATATTAGAAGCAGAAAAATTTATTGGATATTCAAAGGAACAGATTGAAGAATTTTTAAGTAATGATATTAAGCCTATATTAGAAAAATATAAGGATGAAATTATAAAAATAAGTACGGAGATAGATAAATAATGAAAAAAGGATATACTATACTTACAGTTAATGAAGACAGCTTGGGTATTAGTAATATTAAAATAACAGAAATAGCATTACTTAGATCAAAGGTAAATGAAGTAATAATAAATTATGATATTTTAAATATAGAAAATGTATTTGATGACTTGTTAAAAATAAGAAGAGTATTGGAAAAAGTTTCCGATACTCTTTATGTTAAATTTAATATAAATACATGTAATAAAGATAAATTTAACATAGATGAAGTTATTAATTTTACAATTAAACTTATTAGAGATACTAACCCATATTTATCATCAATTTTATCAAATTATACTTATACTAAACTGCAAGACAATATTAAATTAAATTTAGAAACTATAATGAATATAGGTAAAAATACTGAAAAAAATATATCTAAAAAAATAGAAAAAATAATAAATGAAACATTTTCTCAAAATTTAAACTTTGAGATATTTTTTGATGTAAATACAGATCAAAATGTAGTTAATATACAAAAACAAGAACAAGAAGAAATATTAGAATATGAAATACCAATTTCATACAAGCCTAAAGAAGTAAAAAAACCTGGTATAGTTAATAATAAGAAGTATAGTAAATCTAAACTTAAGTTAAGTAAATTTAGTGATATTGAAGATTTAATGGTTGGTCAAGAAATAGCTTTAAGAGGAGATATATTCTATTTTGATTTAGTGGCAACTAAAAGTGGCAAATTAAAAATAGTAATATATATAACAGATTATGAAAATTCGGTAGCTTGCACTAAGTTTGTAAATGATAAGGAAGAAATTAAATTTAAAATTGGAGATAGTGTTGAACTTTCAGGTAAATACGAAAAATATTTTGATGATTATTCAATAATAATAAGGGATATAAAGGTTGTTGAAGGAGAAGAAAATAAAAGAGAAGATAATGCAAGTGAAAAAAGAATAGAGCTTGCAGCTCATACTAATATGAGTGATATGTTATCTACTATAGAACCTAAATCAGGAAAAGAAGGCTCTTTAGTTAATAGAGCAAGAGAATTTGGACATAAAGCCGTAGCTGTTACAGACTATGGTGTAGTACATGCCTTCCCATTTGTTGCTACAGGAATTAAAGAAGATGAAGAATTTAAGGTAATATATGGAATGGAAGCATATATGGTAGATGATAGTGCTCCTTTAATAGTTAAGGCTAAAGATGTATTTATTGAAGAGGAAGAATTTGTAGTATTTGATATAGAAACTACAGGATTTTCACCTATTAATGATAAAATAATAGAAATAGGTGCAGTTAAGTTAAAAAATGGTAAGGTATTAGATAGATTTTCTGAATTTGTAAATCCTCAGACTATAATTCCTAAAAAGATTGTAGAACTTACTGGTATTAATGATAATATGGTTAAAGATAGTGATATTATTGATAAAGTAATGCCAAGATTTTTAGAATTTGTTAAAGGGACTACATTAGTAGCCCATAATGCAAAATTTGACGTAGGCTTTATTTCTAAAAAATGTGAAGACTTAAATTTAGAAACAGATTTTTCATATATAGATACTTTAGAATGGTCTAAAATATTAGTAGATGATGTAAAAAGATTTAATTTAGATACACTTACTAAAAGATTTAATATTAAATTAGAAAATCACCATAGAGCAGTAGATGATGCTAATGCAACAGCAGAATTATTTAAAAAGTTATTATCATTAGTATCTGCAAATGGTGTAGAAAAGCTAACTGATGTTAGTGAGAAATTAGAGAAAAAACCTAAAATTGCTGATACAGAAAATATTACAATACTTGTAAAAAATCTTGCAGGATTAAAAAGATTATATGAATTAGTATCTATTTCACATCTAAAATATTATGGAGAGAAAAAACCTAGAATACTTAAAACAGATCTTGAAAAAGATAGAGAAAATTTCTTGATTTCTTCAAGCCCAATATATTCAGGAAGATTTAATAAGGGTAAACTTGTCAGCCTATATGTTAGAGGTATTTCAAGAGAAGAAATTATGCAACAGTTAGATTTCTATGATTATGTACAAGTATATCCAAGATGTATATATAACGATGCGATAGAAATGGAAGAAATTTCTGGTTATGAATTTATAGAACAGATGAATAAAGATTTTGTTCAAATGGCTAAAGAAAAAAATAAGTTGGTTGTAGCTACTGGAAATGTATATTATTTAGATGATAGGGATAAAAAATCTAAAGCAGCTCTACTTTTAGGTTCTGATAGAGCATTTAGAACATATCAAATAGATACAGGTAATTATTATAGAACTACAGAGGAAATGCTTGATGAATTTAGCTATTTAAATGAAGAAGATATTAAAGATGTTGTAATATACAATACACATAAAATTAATGATCAAATTGAAAAAATTAAACCTATACCTGATGGTGACTATAAACCAGTAATGGAAGGTGCTGAAGATGAAGTTAGAAATATGACATATAATAAGGCGTATGAACTTTATGGAAATCCACTTCCTGAAGCAGTAGAAACAAGGGTTAAAAGAGAACTTGATTCTATAATAGGTAATGGATTTGCTGTGCTTTATCTAATTGCACAAAAACTAGTTAAAAAATCAGTTGATAATGGTTATTTAGTTGGTTCAAGAGGATCTGTAGGTTCATCACTTGTAGCATATTTTATGGGAATAACAGAGGTTAATGCCCTATATCCACATTATAGGTGTGAAGAATGTAAATATTTTGAAATGAAAGACTTTGAAGGTTCGGGAGTTGATTTAGAAGAAAAAAATTGCCCTAAATGTAATTCTAAATTAATAAGAGATGGGCATTCTATACCGTTTGAAGTATTTATGGGATTTAAGGGAGATAAAACTCCTGATATAGATCTTAATTTTTCTGGAGAATATCAAGGTGAAATACATAAATATACTAAAGAACTATTTGGGGATGATTATGTATTTAGAGCAGGAACTATATCAGGTCTTGCTGAAAAGAATGCATATACTACAGCAAAGAAATATTTTGAAGAAAATATAAAAAAAGATTTTGAAAAAGAGATATATAATAAATATAAGACATCTTTAAAAAAATTAGATCCTATTACTAGATCTAGTGAGGAAAAGAAATTAGAAGAAAGAATAAATGATTATTGTAATAAGAATAAAGCTGAAATATATAGGATAGCTACTAAATGTACAGGAGCTAGAAAAACTACTGGTCAGCATCCAGGTGGAATGATAGTAGTTCCAGATTATAAATCAATATATGATTTTACTCCAGTTCAATATCCAGCTAATGATGAAAGTTCTGGCTCTATAACTACACATTTTGATTACCATGTTATGGATCAACAATTAGTTAAACTTGATATACTAGGGCATGATGATCCTACAACTTTAAGAATGTTACAGGATTTAACTAATGTTGATATATATAATATACCTTTAACAGATCCTAAGGTAATTAGTATATTTAATTCAACAGAAGCTTTAGGAGTTAGTGAAGAACAAATAGGTTCTAAAATGGGAACTAATGGTATACCTGAATTTGGTACAGACTTTGTTAAAAAGATGTTAGAAGATACATTGCCTACAACTTTTGCAGAACTTGTAAGAATATCAGGGCTTTCACATGGAACAGATGTTTGGTTAAATAATGCTCAAGAATATGTAAGAGAGGGTATAGCCACATTAAGTGAAGTTATTACAGTAAGAGATGACATTATGAATAGATTAATAGATAAAGGTATGGATAAATCAGAAGCATTTAATATTATGGAATTTGTTCGTAAAGGTCAACCATCTAAAAACAAGGAAAAATGGGAACAGTATAAGGAAATTATGAAGGCAAGTAATATAGATGAGTGGTATATAGAATCATGTGAAAAGATAAAATATATGTTCCCTAAAGGTCATGCTGTTGCATATGTTATGATGGCTGTTAGAATAGCATACTTTAAAGTGTTTTATCCACTTGAGTTTTATACTGCATTTTTAAATAGAAAATATGCTGATTTCTCTTTTGAAAAAATGTTTGGAAGTATAGATGAAGTTAAAATGAATTTACAGAAATTAAAAGAATTAGAAACAAGAGATTTAAAGGTTTTAGATAAAAAGCAAATAATACTTTTAGAAATATTAGTAGAGATGCACTATAGAGGTATAGAATTATTAAATATAGATATATATAAATCAGATTCTATGAAATTTACTATAGAAGATGGTAAGATTAGATTGCCTTTAATAGCTATGGATCAACTTGGAGAAGTTGTAGCAAGAACAATAGCAGAAGAAAGAGAAATAAAAGAATTTACCTCTATAGAAGATTTGACTAAGAGATGTAGAATACCTAAAACAGTTCTTGAAACTTTAAAATGTTTTGGATGTATAGGTGAGATGCCAGAGTCAAATCAATTAACTCTTTTTTAATCGTTGACAATATATGTAAATAAGGGTATAATAATACAAAAAACAAGGAAATAAAGGAGGAAGGAATGAAAATACTTATTAATCAAGTTTTAGATATTTTAAATGAAAATATTAAAAAATCTTATGATTTTGAATTAACTGAATTAGATATCCAAAATGCGACTAAAAAAGAATTTGGAGATTATCAGACAAATTTTGCAATGCAGAAAGCTAAAATGTTAGGTAAAAATCCAAGGGAACTAGCAAATGATGTAGTGGAAAATTTTGATGGAAAAGGTGTAATCTCAAAAGTAGAAGTAGCTGGACCTGGATTTATTAATTTCTTCATTAATACTGATCTGTTAAATCAAGAAACAGAAAAAATAGGTAAAGAAAATTATGAATATGGAATTTCAAATGAAAAAATAGTTGCCATAGATTATTCATCACCAAATATTGCAAAAAGAATGCATGCTGGACATCTTAGAAGTACAATAATAGGAGATGCGTTAAAGAGAATATATAGAGAATTAGGATTTACTGTATATGGGGATAACCATATAGGAGATTGGGGTACTCAATTTGGTAAATTAATAGTTGCATATAATAATTGGTTAGATAAGGATGCTTATGAGGCTAATGCTATTGAAGAATTAGAAAGAATATATGTACTATTTTCTCAAAAAGCTAAAGAAGATCCAACTCTTGAGGAAAAAGCAAGAGAAGAATTAAGAAAAGTTCAAGCGGGAGATCCAGTAAATTATGCATTATGGAAAGAATTTATTACTTCATCATTAAGAGAATATGATAAAGTATATAAAAGACTTGATATTGAATTTGAATTATTTAATGGTGAATCTTTCTATAATGAAATGATGCCAAAAGTTTTAGAAAAACTTAAAGAAAAAGAAATAGCTAAACAAGATCAAGGTGCATTAGTAGTATTTTTCCCTAATGATGAATTACCTCCTTGTATAGTTCAAAAGAAAGATAATTCATTCCTTTACTCAACATCAGATCTAGCAACTATAGTTTATAGAAAAGATGAATTAAATGTTGATATAGCTATATATGTAGTTGATGAAAGACAATCTGATCACTTTAAACAAGTATTTAAAATAGCAGAAATGTTAGGTTCACCATATAATTATGATAAATATCATACTAAATTTGGTATTATGAGATTTGGAGATGGGACAATATTCTCAACTCGTGGTGGAGATGTAATTAGACTTGAAGATATTTTAAATAAAGCTAAAGAAAGAGTTCAAGAAATAGTTGATGAAAAAAATCCAGAACTATCTCAAGAAGAAAGAGAATATATTGCTGAAACAGTAGGAGTAGGTGCTATAAAATACTTTGATTTAAGTCAAAATAGAACATCAGGAATTACATTTACTTGGGATAAGGTATTAAGCTTTGAAGGAAATACTGGACCTTATTTACAATATTCATATGTAAGAATTATGTCTATGTTAAGAAAAGCTAAAGATTTAGGTATAGAATTTGAAAATAGTAAATTCTTAGTAGATGGAAGTGATATTTCAGATAGAAACTTAGTAGTTTCATTACATAAACTTCCTACAGCAGTAATTAAATCATATGAATCAAATAGACCAAATTTAATTGCTGAATATATTTATTCATTAACTAAAGAATTTAACTCATTCTATAATGCACATCAAGTTATAGATAAAGATAATTTAGAGCTAACTAAAGCAAGACTTGCATTATGTGAAAAGACAGCATTAGTTATTAAGAAAGCATTAAGTTTATTAGGAATTAGAACAGTAGATAAAATGTAGTGATATTGGCACCACCTCGGTGCCTTTTTTATTTACTTTTACAATATGTTGGAGTATAATGTAAACAGGAGATGATTAAATGCTTTGGAAATTTGATAAAAGTTTTAAAAGAAGGATTATAGGAGTTGATGAGGCAGGGCGTGGACCACTTGCAGGGCCTGTAGTTGCAGCTTGTGTATGTATTAATAAATATAGTAAAAAACTAGAAGAATTAAATGATTCTAAAAAATTAACAGATAAAAAAAGAAGAGAATTATTTAATTATTTAACTACAAATGATGATATAAAAATAGGTGTAGGTATAGTAGATGAAAAAGTTATAGATGAAATTAATATATTAAATGCAACTTTTTTAGCTATGAATAATGCATTAGATAATATGGAAAAAGATGAAAAAGATTTAGTGTTAGTTGATGGAAATAAGGAAATAAAAGGATATTTAGGTAAACAGGAGGCTATAGTAAAAGGTGATGGTAAATCTCTTTCTATAGCAGCAGCCTCTATTATAGCTAAAGTAACAAGAGATAATATTATGGAAGAATATGACTTGATATATCCAGGTTATGAGTTTGCAAAACATAAAGGTTATGGTACTAAAATGCATTATGAATGTATAAAGGAAAAGGGAAGGTGTTATATACACAGACTTAGTTTTTTGAAAAATTTATATAAAAAATAGGAGAAAATCATGCAAAAGAATTGTATAATTTGTGGGAGTGAAGAATTTTGTATAAAAAATGTTTATTTACCTGTAAAAGATATGAAGAATAATGATGATTTAACACAAAGAATTTTTGATTTAATTTCAAAAAACGAACTTTTTTATTTAAGAATATGTAGATGTTGTGGGAAAACTGAACTATATAATGCAGCTATAGTTGAAGAAAAATTTGCGAAAAATAACTGTAAATGCCCTAAATAGATAATATTTTTTGAAATTCATAAAAAAAATATTGAAAAAAACATTCACTTATGATATACTTATTCAGTATAAACGGTTTTTATTTGATGAGGAATTGAATTACTCATCAAGTTTTATTGTTTAATTTTTAGAAAGATTCGAGGTGAAAATATGGCAAAACAAGATGTTCTTGAACTAGAAGGAGAAATATTAGAAGCATTACCAAATGCAATGTTTCAAGTTCGTTTAGAAAATGGACATGTTTTACTGGGTCATATCTCTGGAAAAATGAGAATGAACTATATTAAAATTTTACCAGGAGATAAGGTTACAGTTGAAGTATCACCATATGACCTTTCTAGGGGTAGAATCGTTTATAGAAAAAAATAATATAGGAGGGTTTTTATAATGAAAGTAAAAGCATCTGTTAAACGTATCTGTGATAAATGTAAAATTATCAAAAGACACGGTAAAGTAAGAGTAATATGCGAAAACCCTAAACACAAACAAGTACAAGGATAAACATCTAAAATTTTTATATATATTTACTTAAATTATGTAAAAATTGTAAAAATATGTTTAGCTGTAGAGCTTGTACTTTATGTTTGGGTAAAGGCATATTGATGAAGGTAAAAAAATTATTTAAGGAGGAAAGGAATTGGCTAGAATAGCAGGAGTTGACATACCAAGAAACAAAAGAGTTGAAGTTTCACTAACTTATATCTACGGGATAGGAAGAAGTATTTCAAATGAAATTTTAGTAAAAGCTGGTATTAACAGAGATACTAAGGTTAAAGATTTAACTGAAGAAGAAGTAGGAAAAATCAGAACTATCGTTGAAGAATATAAGATAGAAGGGGAATTAAGAAAAGAAATCAGACTTAATATTAAGAGATTAACTGATATCAAATGTTACAGAGGTTTAAGACACAGAATGGGATTACCAGTAAGAGGTCAAAAAACTAAGACAAATGCAAGAACTAGAAAAGGTCCAGCAAAAATGGCTGTGGCTAAGAAGAAGTAAAAATTTTAGATAGGAGGACCATATAAGTGGCTAAAAAACAAGTAGTTAAAAAGAAAAAATTAAAAAATATACCAAGTGGTATAGCTTACATACATTCTACTTTTAACAACACAGTTGTTACTATCACTGATAGTGAAGGTAAAGTAGTTATATGGAAATCAGGTGGAACATCTGGTTTCAAAGGTACTAAAAAAGGAACTCCATTTGCTGCACAAATTGCTGCTGAACAAGCTGCTCAAGTAGCTATTGAAAATGGAATGAAAAAAATAGAAATCAAAATTAAAGGGCCTGGATCAGGAAGAGAAGCTTCAATAAGATCAATCCAAGCAACAGAGTTAGAGGTAACTAGAATAGTGGATATAACTCCAGTACCTCATAACGGGGCTAGACCGCCTAAGAAAAAATTATAATTAACAAGGCAAAGGAGGAAATTGAAAGATGGCAAGAGATAGACAGCCTATTTTAAAGAAATGTAGAACTCTTGGATTAGATCCAAGCATTTTAGGTGTAAATAAAAAATCAAAAAGAAATATAAGACCAAATGCAAATAAAAAATTAACTGAGTATGGAACTCAATTAAGAGAAAAACAAAAAGCAAGATTTGTATATGGTGTAATGGAAAAACAATTCTATAAATTATACGAAGAAGCAACAAGAAAAGAAGGAGTAACAGGTGAACTTTTACTTCAATATTTAGAAAGAAGATTAGATAACGTAATATATAGATTAGGATTTGGATCAACTAGAAGACAAGCTAGACAAATAGTAAGTCATGGACATATCTTAATCAATGGTAAAAGAGTAGATATAGCTTCTTACAGAGTAAAACAAGGAGATGTTATTACTCTTAAAGAAGGATCAACAGAACTTTCAATAATTAAAGAATCAGTAGGACAAAAATCAGTTCCAGGTTGGTTATCATTAGAAGAAGGAACTTTAACAGCAAAAGTTTTAGAAAATCCTACAAGAGATGCAGTTGACTTTGAAATCAACGAAGCAATGATAATCGAGTTCTATTCAAGATAATAATTGAGATTATTAGATTATTGATAAAATTCTATATAAGGGAGTTGGTTTATCTTGTTAAATATTGAGAAGATAGCAAAAAACATTAAGCTTACAGAAGAGAAAATTGACCAATACAGTGCTAAATACACATTAGAGCCACTATATAGAGGTTATGGAAATACTATAGGTAATGCTTTAAGAAGAGTACTTTTATCATCAATACCAGGTTCTGCGATTAAAGGTGTTAGAATAGATGGTGTTTTAAATGAATTTTCTATGATAGAAGGAGTTAAAGAAGCTGTAACTGATATAGTATTAAATATAAAAGAAATAGTAGTAGAACTAGATGAACCTGTTGAAAAAAGAATGAAATTATCAGTTGTTGGACCAAAGGTTATAACAGCAGCTGATATAGTTCCAGAAGCAGGAATAACTATAGTAAATCCTGAACAAGTAATTGCAACAATTACAACAAAAAAAGCTATAGATATGGAATTTATAGTAGATTCTGGTGAAGGATTTGTAGTATCTGATGAAATTAACACTTCAGGTTGGGAAGCAGATTTCCTTGCTGTTGATGCGATATATACACCTATTAGAAAGGTAAGTTATCAAGTAGAAGATACTATGGTAGGACGTGTTACAAACTATGATAAATTAACTTTAACTGTTACTACAGATGGAAGTATAGACATTCATGATGCTCTGTCTTATGCAGTAGAGTTAATAAATATTCATACTAAACCATTTGCTAATATAGGAACAGCAATGGCTAAGTTTAGATCAGAAGAAGAGTTGGAACTTGAAGTTTCAAATGATAGTTACCCATCTCTTGTTGAAGATACTAGAATAGAAGAATTAGGATTAACAATACGTTCATATAATTGTCTTAAAAAAGTAGACATTAATACTGTAGGAGAATTAATAAGACTTACTAAAGAAGATCTTAAAAAGATTAAAAATTTAGGTAATAAATCTGCAAAAGAAATAATTGAAAAAATGAAAGAATATGGTTATGAAATGTCTTCATCAGAAGAATAGAATACCGAATTTTTAAGATAGGAGGACAAATTTTTTATGAATCACAGAAAATCATATAGAAAATTGGGAAGAAGAAGTGATCATAGATTAGCAATGATGAAGAATATGACAATATCTTTAATTAACGCTGAACAAATAGAAACAACTGTAACTCGTGCTAAAGAGTTAAGAAAGTTTGTTGAAAGAATGATTACTTTAGGTAAAAAATATAACTTAGCTAATGACGACAAGGCAAAGGCAGTACATATATATAGACAAGTGTTTGCTTTCTTAAGAAATGAAGAAGCAACAGCTAAAGTTTGTAAGGAGATCGCTCCAAGATATACAGAAAGAAATGGTGGGTACACAAGAATCATCAAAACTGATGTAAGAAGAGGAGATTCGGCTGAACTTGCGATTATAGAATTAGTTTAATAAATTTAAAAAATCGCTTTTGCGATTTTTTTAAATTTATAATAAAATATTATGGGAGTTGTGAAATTAAAAAGTTTTTTCTTTATTTTAATTGGTATTATTATAAATAAAGGAGGTTTATACTTTTTAATTAAAGTAAATAACATTATGAAAAAATTATTATCATCAATGATATTAATATGGGGGGGATTAATTTCCTTTTCAAATAATATTACTGGACCAAGACACAGAATTGAGATTTCTGCTGGATTCATTAATGATAGACAAAATGCTACAATGGGAAATAATATATTTATTTCTAATTCCATTTCATATATACCTGAATGGAAAATTCAAGTAAATAAAAAATTTGATGTCACATTTGGACCTAAAGTAGTTCTGAATTTTTCAAATTTTATAACAGTTTCTAATGGTACTGCTAAAGCGGCAAGTAGCTCTAACAATGCTAATCCAGTAACAATTACTCCTAGTTTAATTTTAGGAGGAGAATTAGATTTTAATTATAGTGTAAAAGAAAATCTTAAAATATATACAGGTTTGGAAGTTGGAACTGGAATAGGATTTCAAATATCGACTGTTGGTTCTAATGTTCAAAATCCTGAATTTAGAACTTCAAGTAAAATTGCGTTAGGTGTTAAAATAAATGAAAAATATAATATAGCGATATATACAGCAGATATTAAAGGATTATTAGGTTTAGAAGCTGGGTATACTTTTTAATGGGAGGAAATGATATATGAAAAAATTACTATTGTCAATAATATTATTGGCTGGATTAATTTCATTTCCAGCTAAATTAAACAGTTCTAAATATGGAACTAGAAAATATACAACTACAAGTACTAATACAAAAAATGTTAAAAATAAATCTAATAATATTTTTTCTGGAGAAAATAATAATGAAGATAATACAAATAAGGTAGACATAGAAAAAATTGAAATTAAAGAACAAGATACAAATTCTGTATTAAGTAATAATGAAAAAATAGAAAAAATTACAGTTAGTGAAGATATAGAAAAAATAGAAATTAAAGAACAAGATACAATATATGTATCAACTAATAATGAAAAAGTAAAAGAAGATATAAATATAGAACAAACTAAAGAAGATATTAATATTGAAAAAACAGATAAAATTTTAAATAAAGTTAAATTAACAGGACCTAGATATAGATTAGAATTAGCCTTAGGTGCTGTTGGTATTGATGAAAATGTAAAAAAAGATGAATATTTTTCTACATCAGTTGCTTTTTTAACTGAATGGAAAGCTAAGGTTAATGACAAAATTGATGTTAGTTTTGGTCCAAAGCTTACATTGAATGTTGCAACTAAAATATTAAAAACTAATAACAATTCTAGTCAAATGAGCTCTTCTAGTAGTTCAGGTAAAAGCAATAAGGATTATACAATAATACCTAATTTAATTTTAGGTGGTGAGGGTAATTTTAATTATAGAATAGAAGAAGATATAAAAGTTTATACTGGATTAGAAGTTGGATTAGGTATAGGTCCTGAAATAAAACCAAGTAATGGTTCAACTGAAGTAGGATATTCATTTGTATTTATAGGTAAGATGTCAGTGGGGATTAAAATAAAAGATAAATACAATATAGGAATATATACAGGAAATGTTAAAGGAATACTTGGAATAGAAGCAGGTTATACTTTTTAGGAGAAAGGAAATTATAAATGAAAAAGATATTATTATCAATGTTATTGTTAATCTGGGGGGGGTGGAAAATTCTTTTTCATCTAATAAGAAATATCATAAAAATAAAATGACTATTTCACGTTCTGATTCTAAAAATAAGAAAGAAGAAACGGGTACTTTAAATTCATCTAAAATAACAGGACCAAGATATAGATTAGAGGGTGCTTTAGGTATAAATACTATTAAGAGTCCAGATTTTTTTCAGGCTATAGCAATCTTGCCTGAATGGAAATCACAAATTTCTCAAAAATTTGATATTACATTTGGACCTAAATTAACATTATTTTTATCAGAAACTAAATCATCAGAAAAATTAATTGTAAGAGGTAATGCAGTTTTGGGAATAGAATCTAATTTTAACTTTAGAGTAAAAGAGAATATTAAAGTATATATAGGATTAGAAGCGGGTGTAGGTGGTGGAATTAAGAAAAATGTTAATGATGCTGTAGAAAAAGATGTTAGTTTAATTATCAAAGCAGCCTTAGGTAGTAAGATAAATGATAAATATAATATTGCTATTTATTCTGCTATTCCTGATAAAGGACTTGTGGGAATAGAATTTGGATATACATTTAAATAATTGATTTTTAAAGAAAGGAAGTAATGAATAAAGAAAATATTATTATCAATGATTTTATTATTAACTGTTGGTGAAATTTCTTTTTCAGCTCCAGAAAGTACTCAAAGAACTAGAAGAAGAAATACTAATACTTTAAGAAATAGAAATCAAAATAGAAGAATGGTAGATGCTAATAATTCTACTAATAAAAATAGTTCGAATAATGTACAACAAAGAACAACTAAATCTAATGTTGTTGTTGAAAGAGAAAAGAATAATAATGTAAAACAAGTAATGCTTCCTAGTAAAAGTAATTTAACGGGACCAAGATATAGATTAGAGGGGGCTATTAGTGCAGTTCCTACAAATAAGTGGGCTACATTTTATCAAGTTATTTCATTTTTACCTGAATGGAAATATCAGATTAATAGAAGAGTTGATATTACATTTGGACCTAAAGTTTCATTTGTGTTAACTGAAATTAAAGAATATCAGTTTATAGCTGGATTTGTAGGTGCTGAAGCAGATATTAATTTTAAAGTAAATGATGCTCTTAAAGCTTATGTAGCTTTAGAATATGGGGTAGGGTTAGAATGGTGGATAAAATATCATGATAGAAGTAATAAATTTTCTGAAAAACTTAGATTAATTAAAGGAACCTTTGGTTTCAAAATTAATGATAAGTATAATGTTGGAATTTATAGTAGTTTAGAAGGAAAAGGTCGTCTTGGGGTAGAGTTTGGGTATACTTTTAAATAAGTTTAATATTAATAGTATAAAAGGTAGTTAGCAACTACCTTTTTTAAATTTATGATTGAAAATGTAAAAAAGTAAAGGTATAATATAGAAAAATGTTTAGTTAAAATGGAAAGTTGTAGGTATAAAATGAAATATTTTAATGATAATACATTCATTCAATCAAATAGACATGTTAGTATAGTTACTAAACTAGTAGATGAAATAGGTGAAAAATCTATACATACAACTCATAAGTTTGCTTTTATAGTTTCTGGCTTAGGAAAAATTAAACTAAATGAAATTGAGTATAAAGTAAAGGAAAATAGTTTAATTTGCATTAATCCATGGAGTACTACAGAAATAACAGAAGTAAATGTATCTATGAATATATTGATTTTTTCGTATAATAATTCATACATAACTAGGATAGTAAATCAAATTAGACCTGAATATATTGATATATTTAATAGTATTGAAAAATTAAGTAAAATAGATTTAAATGGTAGAGCTGGAACTAAAATTAAAAAGATATTACTTGAGATAAGAAATGAAATAGGTGATGATAATATTTTAGAATCCATAGATAAATTTATTGCAGGAGCTTATTCTGAAATATTTATTATTTCTAAATTTTTAGAACTATTTGTAGTATTATCCCGTAATAGTAAAAAACTTAAAAATGAGGAAAATAATTATTCTGAGGCACAGATGTTAATTAAATATATACATGCACATTCTAATGAAAAGCTTACTATTAATAAGCTTGCTGTAATCTTTTTTATAAGCGAATCAACTGTTAGAAGACATATAGAAGAACATACTGGTTTAACTTTTAATGAACTATTATACAAGATAAGACTAGCTAAAACAGAAGAATTATTACTTTATACAAATATGAGTTTAGATGAAATAGCCAATGTATCAGGATTTGTAGATGGTTCACATATTACAAAAATTTGGAATATGAAAAAGAATATGACTCCTACATCATATAGGAATATGTATAGAGATTCATTTACTGGATTTAATGAAAATGATAAGAGAATAGTTTTTGAAATAATTAACTATATCAATAATGAATATATGCAAGATATTAAAATAGAACAATTATCTAAGAAATATGATATATCAGAAATAAAGATAAATAAGTTATTACTATCATATGTCGATAGAAACTTTAGTACATATTTAAATCATATTAGGATAAATAAGGCATGTGAATTATTAATTAATACAGATACTCCAATAATAGATATATGCTTTGAAGTAGGTTACAATAATATTAAGTCGTTTAATAATAATTTTAAGAAAAATAAGAATATGACTCCTACATGTTTTAGAGAATACAAAAAAAGTGATATCTAATAATTGACATTGATATGTAACTAAAGTATAATAAAAAAGAGTTTTTATTTAGGAGAAAAATAATGGAAAAGATTAAAGGGATTAACCCAGTAATAGAAATTTTAAAAAGTCAAACAACTATTGAAAAATTAGAGATATATAAAGGAATAAATAAGGGGCATATTAAGCAGTTATTAGAACTTGCAAGTAAAAGAAATTTAAAAATATTTTACACAGATAAAAGAGATGATAATTCTCAAGGTGTTGTAGCATATATATCAGAATATGATTACTATATTGATTTTTCAGCTTTTTTAGAAAAAGAGTTAATGAAAGATGAATCAACTATAGTAATACTTGATCAAATACAAGATCCAAGAAATTTCGGGGCTATAATTAGATCATGTGAATGCTTTGGAGTAAGTGGGATAATAATGCAGGATAGAAATAATGTGAAAGTTACAGAAACTGTTGTTAAATCATCAACAGGAGCTATAGAACATGTAGATATAGTTCAGGTAACTAATATAGCTGATAGTATAGAAAAATTACAAAAATATGGATATTTTGTCTATGGTGCTGAAGCTAATGGAGAAAAATTCTATTATGAAGAAAAGTACCCTAAGAAAAAAGCCTTAGTTTTAGGAAGTGAAGGTAAGGGTATGAGAAAGAGAGTTAGAGAAAGTTGTGATAGTATATTAAAAATACATTTAAAGGGAGAAATAAATTCATTAAATGTTTCTGTTGCAGCAGGTATACTGTTATCTGAGATGAGTAAATAGGAGGAAATATGGCTAAAGAATATATTGCTAAGGAAGTAGAACAAAAATGGCAAGAAATATGGGAGAAAAATAAAGTATTTAAAACTGAAAATAAGGTTAAAGGAAAAGAAAATTACTATACTTTAGAAATGTTTGCTTATCCTTCTGGTAAATTACATGCTGGGCATTTAAGAAACTATACTATAGGAGATGCTATAGCAAGGTATAAGAAGATGAAAGGGTTTAATGTTTTACACACATTTGGTTGGGATTCATTTGGATTACCAGCAGAAAATGCAGCTATAGATAATGGAGCTAGCCCTGCAATATGGACAGCACAGAATATAGGAAATATGAAAAGACAATTAAAATTAATGGGACTTTCATATGATTGGGATAGAGAACTTGCAACATATAAGAAAGAGTACTATAAATTTAATCAAAAGTTTTTTATAGAAATGTATAAAAAAGGATTGGTATATAAGAGAAAATCTTATGTAAACTGGTGTCCTGATTGTAATACTGTACTTGCAAATGAACAAGTTGAGGATGGAAAATGTTGGAGACATGGTAAAACATCAGTAATACAAAAAGAATTATCTCAATGGTATTTTAAAATAACAGATTATGCAGAAGAATTACTTACAGGTCATGAAGAATTAAAAGGTTATTGGCCAGAACAAGTACTTGCAATGCAAAAAAACTGGATAGGTAAATCTAGTGGAACTGAGATAATATTTACTTTAGAATATGATGGGAAGGAAATAGAAATACCAGTATTTACTACTAGAGTAGATACTATTTATGGTGTAACATATATTTCTATAGCACCTGAATTACCATTAGTATCTGAAATAGTATTAAAAGAAAAACCTGAATTAAAATCATTAATTGATGAAATGATTAATGAAGATAAAATTTCAAGAGAAGCTCAAGATAAAGAAAAAAGAGGAGTATTTACAGGGCTATATGTAAAGCATCCATTAACTAATGAAATGATACCTGTGTATATAGCAAATTATGTATTAATGGATTATGGAACAGGAGCTGTTATGGGTGTTCCTGCACATGATGAAAGAGATTTTTCTTTTGCTAAGAAATATGGTTTAAATGCAAAAGCAGTAATTAAGGCTAAAAATCCAGAAGATGATTTTAATGGAAATAAGACTTTCTTAGGAAAGGGAGAATTAATTAATTCAGATGAATTTAATGGAATACATAATATAGAAGCTAAAGAAAAAATAGCAGAAAAATTAGAGAAAATTGGAAAAGGTCATAAAACAGTAAATTATAGATTACATGATTGGCTAATAAGTAGACAAAGATACTGGGGAACTCCTATTCCAGTTATATATGATGAAGATGGAAATGTGTATTTAGATGAAAACTTACCAGTAGAATTACCTACTGATATAGATTTTGGAGTTAAAGGTAATCCTATAGAAACTTCAAAGACTTTTAAAGAAGTGATATTACCTAATGGTAAAAAAGGTTATAGAGAAACAGATACTATGGATACCTTTGTTGATTCTTCATGGTATTATCTAAGATATTTAGATCCAAGTAATGAAAACTTAGCTTTCTTAAAAGAAGATGCAGATAACTATACTCCTGTAGACCAATATATAGGTGGGATAGAACATGCTGTAATGCACTTGCTTTATGCAAGATTTTTCCATAAGGTATTTAGAGATTTAGGATATTTATCAACTAATGAACCATTTAAGAGATTACTTACTCAAGGTATGGTTCTTGATTATTCATATTATTCTAATAATGAAAGAAGATATTTACATAAAGAAGAAGTTGAAATTAAAGATGGAAAAGCATTTAATATTAAAACAGGTGAAGAGTTAGTTTCTAAACTTGAAAAAATGTCTAAATCAAAGAATAATGGAGTAGATCCAGAAAAAATAATTCAAGAATTTGGGGCAGATGCTGCAAGAATTTTCACATTGTTTGCTGCACCACCTGAAAAAGAATTAGAGTGGAATGCAAATGGAGTTGTAGGAGCTTACAGATTTATTAATAGAATATATTTAATGGTACAAGAATGTTTAGATATATTAATAGAGGATTATTCAGAAATAGATTTAAGTAAAAGAAGTAAAGAAGATGAAAATCTTCAAAGAAAAACTCATCAAACTATAAAAAGAGTTACAGATAGTATGGAGGATAATTTCCACTTTAATACTGCTATAGCTGGGAGTATGGAACTTATTAATGAACTAACTACATATAAGCAAAATGTATTAGATGTAAATAATAAATCTAGTGAATCAAACAAAGTGTTTAAAGAATCAATGATATCATTAATATTAATGATGTCGCCTTTTGCACCACATTTAGCAGAAGAAATTTGGCAATTATGTAAGATGGATGGATATATATTTAATGCATCTTGGCCTACATATATTGAAGAATTAACACATGTTTCAGAAATAACTATGGTAGTTCAAGTTAATGGAAAAGTTAGAGGAGAATTTGAAACTAATATTAATGTAAGTGAAGAAGAAATTGTCAAAAAAGCTCTTTCAAACGAGAATGTACAAAGAAATATTGAAGGAAAAGAGATTATAAAAACTATAGTAGTTCCTAAGAAATTAGTAAATATAGTTGTAAGATAAGTAGAGTTTTTAACTCTACTTATTCATTTAATAATGAATTTGAAGTGGAGTTGAAAATATATATGAAAAATTTAAAATCAGAATTAATACTATTTGTAGTTGCAATAATCTGGGGAACTGGATTTATAGCTACAAAAATTGCTGTCGATAGTGGTATGGAAACATATAACATACTATTTGTAAGATTTTTAATTTCTACTATTTTACTGTATATTATGCTTAAAATAAAGAAAATTAAAATAGAAAAATCTGCATATGTTTCAGGATTTATACTGGGAAGTATACTTGTATTAGCATATATGATGCAAACTTTTGGACTATATTATACTACTCCTGCCAAAAATTCTATACTAACAGGACTTTGTGTAATATTTGTTCCATATATATCTCATTTGATATATAAGGTGAGGGTAGATAGATATACTTTTATTGCATCTATACTTGCATTTATTGGTATATATATGTTATCAGGTAATTTTTTAGAATCTATAGAAGGATTTAATAAAGGAGATTTCTATACAGTAATATGTGCTGTTCTTTTTGCATTTCACATAGTAGTTACAGGATATTATGTAAATAAAATAAATACAGTAGCACTTGCCTATACTCAATTTTTAATTGCAACCTTATTATCACTAATACTTGCAACATATTATGGGCATTTAAAGGTTATATCAACATTTGGAATATTATCTTCATTATATATGGGAGTATTTTGTACATTTGTTGCATATACTTTACAAATAGTTGGGCAAAAAAGAGTTAATTCATCAACAGCAGCAGTAATATTGTCTTTAGAAGTAGTATTTGCTACTATTTTATCGATAATTTTAGGATATGATAAATTCCATATTATAATATTATTTGGTTCATTATTAATATTTTTAGGAATAATAATTTCAGAAACAAAGTTAGATTTCATATTCAAAAAATAATGATTATTAAATTAATAATATATTTAATATATCAAATTATTTAAAACTTATATATTTGATTTATTGACAATTCTTATTTATTTTTGCTAGAATTTAAACAGAATAAAAATAGTTTATTATAATGAGAGGAGAAATAGTTTTGAAAAAATATATTAAAGAGGAAAAATTTAAGTTTATATCTAGTGTAATACTTATGTTAGTAATTTCAATTGGAACAATTTACTCAATATATATAAGATCAAATATTACTGATTTAATTCTTAAAAAGGATTATTATGTATATAGATATATAATAATATTATTAGTATTAATAGTTTTAATTGAAAAATTAAATACATTATTAAGGTTAAATAATGTAAGCCTTATAAAAAAATGGAAATTAAAATTAGGTAATAATATAAGTGAAAATATAATGAAGATGGGATATGATAAATATAAAGAAAAATCAGTAGGTACATATATATCTTGGTATACTGGAGAACTTCCTTTAGTTAGTTCATATATATTTGAAAATAGTGTAGCTATAATAAATCATATTACATTATCTTTAGTTTCTCTTCTTATAATGTTCTATATTAACATATACATAGGAATATTAGCTGTAATATTACTATTAATGCTATATCTTATTGGAGGAATATTTGGTAGAAAAATAAGTGAAGCTTATCAAGGATATGCAAAGATAAATAGTAAATTTAATAATATATTACAAGACTTCTTATTAGGATATGATTTACTTAAAAACTATAACAATTTAACTTTTTTAAAGAAGAATATAAATTATGGGCAAAATGAATTAGAAAATCAGCATTATAAAATAAAAAAATTATCAGCATATGGTAATTTAGTATCTCAAGGAACTAAAAAATTATTTGAAACTATAATGTTTGTAATGACTGGATATCTAGTATTAAATGATAAATTAACAATAGGAATGTTAGTGGTTACACCAACTATATTATCTGTATTTTTATCATCAACTATGGATATATTTGATGTAGTTTTACAATATTTAGGTTCTAAATTAATGTTTAATAAGCTAAATGAAATTATAGAATCTAAAACATATAAATACCCTATTTTAGAAAATAATATTAATTTAGAAAATATTTCATTTAAATATGATGACTTAGATGTAATTAAGAATTTAAGTTTAGAATTTAAAAAAGATAAGAAATATGCTATTGTTGGTAAAAGTGGGTCTGGAAAATCTACTTTATTAAAACTAATAATAGGTAGATTAAAAGAAAATGAAGGTCAAATATTAATTGATAATAAAAAAATAGAAAATGGAGATATAGATTTTTCAAATCAAATTGCTTATGTAAGTCAAGATAACTATATGTTTGATTTAAGTGTAAGAAATAATATAAATCTTGATAATAATTATACAGATGATGAAATTAATGAGATATTAAAAGAAGTAAAAGTCTATGATGTAATAAATTCTAAAAAAGATGGCTTAGATACTAATATAAATGAATTTTCAGGTGGAGAAAAACAAAGAATATCACTTGCTAGAGCTTTAATTAGAAAAACCCCAGTTATAATATTAGATGAGGCAACATCAGCTTTAGATAAAAATACAACTATAGAAATTGAAAACATCTTATTATCTAAAAAAGATAAAACTATAATATTAATATCACATAATTTAAGTGAAGACATTAAAGATAAATTTGATGAGGTATATAGCATTTAAAATAAAATAGGAACTTAATGTTCCTTTTTTTTTGTATATATTGTATAATATAAATATAATAAATAGTAAGGAAGAGTAATGGAAGAAAGAGAATTACAAAGTCTTAGAAGAAAAGCTAAAAAATTAAAAATTCAGCTAGAAAGACATGAAGATTTTATGGATTTATTTGAATATATTAGAAAAAATATATGTATTTTAAATCCAATAATATTAGATGTAGAAACTACTGGAATTAGAAAAAATGATGAAATATTACAGCTTAGTATAATAGATATTATGGGGAATGTAGTCTTTGATAAGTATATGAAACCAAAATATGTTAATGATTGGGATGATGCTTTTAAAATACATAATATTTCTCATGAAATGGTAAAGAATAAAAAATATATTTCTTATTATAAAAAAGATATAGAAAAAATATTGAAAAAACATAAACTAATAATAGGGTATGAAGTTAATTCTGATATTGCTTTTTTAAGAAGAGCTGGAATAGAACTTAAATCTAATATAGTGTTAGATATAGCCTATCTTTTTTCATTATTATTTGAAAATGAAAATCTAATAGATAGAAAGATTAGACCTAGCTTATTAGATGCAGCTAAATTCTATAACTTAGATTTTAATGCTCATGATGCATTAAGTGATTGTATAGCTACACTGCATTGTTTTAAAAGTATATTAGTTGAAAAAAAAGAAAAATTAGAATTTAAATATGATGTTCAGGTAATGAAATTCTTAGAAGAAGAAAATAAGGTGGAAGAAAAAACTAGTAAATTAACTAAGCTTGCAAGAAAATATGTTAAATTATTTGAGAATGTAGGAAATAAGATAATACTTGATTTAGAAACTACAGGTATTAGAGAAAATGATGAGATAATACAACTTAGTATTATAGACATAAAAGGTGAAAAATTATTTAATGAATATTTTAAACCTATAAATGTTACAGAATGGGAAGAAGCATATAAGATACATAATATAGGTAAGGAAATGCTTGAAGATAAATTAACTATTGAAGAATATAGAGAAAAGATACAAAACATACTTGATTCTACAGACTATATGATAGGATATGGTATAGACTTTGACTATAAATTACTTCAAAGACAAGGATTTAATGTAGAACATATTAAAAAAGTAGATGTATCAGATTACTTTAAATATATATATAGAAAGATATTTAATGATCCAAAATTAAAAAGACCAAAATTAATAGAATGTTCAAATTATTACGGATTTAAAGATAGAGGTTTCCATAATAGTTTAACAGATTGTTTTGCAACACTTGTATCATATAAGGGAATATATAAATATATGCTAGAAGAATTGAGTGATAGAAATGAATGTGAAAATAATTAAAAAAGATACATTAAGTAGTGATGAAATTAAGTATTTCATAGAATATTTAAATGAGAAGAAAATTGAAGTGGTTGATGATATATCATTAGCAGATGTTTTAATTACATTTGGTGGAGATGGGACATTACTTTCTACAGTAGAATATTTAAGAATAAAAAATATACCTGTTTTTTCAATCAATTATGGAAGCATAGGATATATGACTAAGATAAGTAGTAAAAATGCCATAACTTCATTTGAAAAATATATTAATGGAGAGTATAAAATAGATCATAGAAAATTTTTAGAAGTTAGTTTTAAGAATAAGATCTATTATGGTTTAAATGAACTAAGTATATTAAAATTTGCTATAAATTCAGAATTAATTAATGTAAGAGTTGAACAAGATGAAAAATTAATAAATGTGTATAAGGCAGATGGAATAATAGTTTCAACTCCTACAGGTTCTACAGCTTATTCACTTTCAGCAGGTGGACCTATACTTGATCCAAGTTTAGATGCTATTTGCATTACTCCACTTGCATCTCAAAGTCTTACAGCAAGATCTATTGTAATTAATGGGAATAATACACTTAAATTCTCAGCTTTTGGAAGAAGTGAGTATGTTGGTTTAAATATAGATGGCAATCTTCATTTTAAATTGTATCCAGAAGATGTTGTTTATGCAAAACTTTCAGATATGGGAATAGATTTGATATATGTAGATAATTTAAATTATTATAACATTTTAAAACAAAAATTACATTGGACTTAGGGGGTCATAAATGTTAAAAGAATTAAAAATTGAAAATTTAGCAATCATTGATGAAATAGACATTAATTTAGAAAAAGGTCTTACTGTACTTACAGGAGAAACAGGTGCAGGTAAATCTATAATACTTGATGGTCTGTCTTTAATTATTGGTGAAAAAGCAAATAAGGAAATGATAGGTAAAAATAGTGAAAAGGTAACTGTTGAGGCAGTCTTTAATTTAGATGAAGAACAGATAGAAAAATTAAATGATTTAGATTATGAATTTAATGATGAATTGATAATTTCAAGAGAATTTGGAATAGATAATAAGGTGAGGGTGAATAATAAGAGGTTTACTCTATCAAATTTAAAAGAAATTAGTAGCAATGTTTTAGATTTAGTAGGTCAACATGATCATCAATATTTACTTAATTCTAATTATCACCTATATTTACTTGATAAATTTTTAGATAAAGATAGTTTAAAAATTAAATCTAATATGAAAGAATATATATCAAAAATAGATACTTTAAATGAAGAAATTGAGATTATAAAAAAAGAAAAAAGTGAAGTTATAGAAAAAAGAAATCTATATGAATATATAGTAGATGAAATATTTAAACATAATTTAGAAATTGATGAAGATGAAGAACTTGAAAATGAATATAACGAATTATTTAATTCAGGAATAATTACAGATAAATTAACTGAAATACTTGATATATTAGATTTTAGTAGTTTTAAAAAGGTGAAAAAAGATTTAGAAAAATTAAGTGAGTATTCAAATAAATATGATAATTTGACTGAAAGATTTAATAATGTTTATGAAGAATTAAATGATATGGTAGATGAATTATCTTCATCACTTACTAGTGTAGATAATAATCCATATAGATTAGAAGAAGTAAATGATAGACTTAATATAATAAAGAAGCTTAAAATTAAGTATGGAAGTAGTATTAAGGAAATACTTGAATATGGAGAAAATATTAAACATAAACTTGAATTAATAGAAAGCTCTGATGAAACTTTATACAATAAAGAAAAAGAATTAGAAGAGAATATAAAAGGGTATACAAAACTTAGTAAAAAGCTATCTATACTTAGAAAAGATAAGGCTAAGACACTAAAAGATAGTGTTATGAAGGAATTAAAAGAATTAAATATGCCACAAGTAGTATTTGATATAGAGTTTACAGAAATTGATAGAATAAATATTAATGGTAATGATGGTGTTAAATTTTTAATTTCTACTAATAAGGGAGAGAAATTAAAAGATTTATCAAAAATAGCATCGGGTGGAGAAATATCAAGAATAATGCTAGCACTTAAAATAGTATTTTCAAAAGTTGATCATATTTCTTGTTTAATATTTGATGAAATAGATACAGGAATTTCAGGAGAAACTGTAATTAAAATAGCAAATAAGCTTAAAGAATTATCAAATAATGTTCAAATAATATGTGTAACTCATTCACCACAGATAGCAGCAAAGGCTAATAATCAATTTTTAATATATAAAGAAAGTGATGAGAAAAATACTAGAACTAAGATAAAGAAGTTAGACACTAAAGAAAGAGTAAGAGAAATTGCAAGAATATTATCAGGAGATAATATAACTAAGGCGAGTTTAGAGATAGCTAAAGAAATGATGAAGTAGATAAAATAGTTATATTGACAACAACAGAAATCGAGGTATTCTTTATTAAGAGGTATGGACCATTTCCTCAAATATATAAAGAAGGTGATGAAATGTTGAATTTTAACTGGATGTTAGATGGAAGTATTGTAGGACTATATATCCTAATAAGTCTTATTGTGGGACTGCTAATAAGAAAATATGTTAAAAATGTTGATGATTTTTTAGTTGCAGGTAGAAGTGTTGATCTTTATGTTGGAATGGCTTCTCTTGCAGCAACTGAATTTGGAATTATAACATGTATGGCTGCTGCTCAGTTAGGGTACAAATACGGATTTTCAGGTGCAACAGTAGGTCTTCTTATGGCAATAATTATGTTTACTGTTGGTAAGACAGGATTTTGTATAGAACCTTTGAGAAAAGCTGGAGTAGTAACTATACCTGAATTTTTTGAAAAAAAATTTGGTAAGAAAGTTAGATGGGCAACAGGAGTAGTAATAGTTTTAGGAGGACTTTTAAATATGGGAGTTTTTCTTAGAACTGGAGGAGAATTTTTAGTATATGTTGCTGGATTAAATCCACGTTATTTAGAAATTACAATGACTATACTTTTATTAATAGTTGCACTATATACCATATTTGGTGGAATGCTTTCAGTATTAGTTACAGATTATATGCAATTTCTTCTTATGAGTGTAGGATTAACTTTAACTACATTTATAGTCTTTTATAAAATAGGTTGGAATAGACTATTTGATACAGTTATAGAAAAATATGGAGAAGGTGGATTAAATCCTTTCTTAAATCCTAATTTAGGTTGGCAATATGTTTTGTATACTGCTTTAGTTTTAAGTGCGACAGTTTTAACATGGCAAACTATGGTATCACGTGTATTATCGGCTAAGAACGAAAAAGTTGCAAAAAAAATGTATACAAGAACAAGTTTTTTCTATATAGTTAGATCATTAATTCCTGTTATTTGGGGAGTTACAGCACTAACCCTTATATCTCTTGAATCTGTAGGAGGAGCTCCTATAAAAGCTATGCCTAAAATGTTATCAGTACTTCTTCCAAGTGGAGTTATAGGAATACTTGTAGCAGCTATGCTTGCAGCAGATATGTCAACAGATTCATCATATTTATTAGGTTGGGCTAGTGTAATATATAATGATATATTAATAATAATTCATAAAAATTCTTGGAAAGAGAAAAAAGCAATTTTTGTAAATAGAGTATTAGTAGCATTAATAGGAGTATTCTTACTTCTATATGGATTATGGTATCCTTTAAAATCAGATTTATGGGTATATATGACATTAACGGCTACAATTTATTCTGTAAGTGTTTCAACTTTATTAATAGCTGCCTGTTATTGGGAAAAAGCTAATGAATGGGGTGCTTATGCTGCAATAATTATTGGAGCTTTAACACCTATTAGTTTTCTAGTTGCACAGCAAGTAGAAGTTTTAAAACCATATGCAGATAAAATAGGTCCATATTATTCAGGAATAGCATCATTTGTATTTACATGGATAGCTATGATAATAGGTTCTTATTTAAAAAATACATTTTCTAAAAAGGAAGTGAAATAAATGAAAGCATTAATAATATTTTGGAAAATTTTAATAGTTTTTGGTCTAGTGTGGTATATAAATACGATAATAATAGTTGGGATAAAAGGGTTTAAAAACATAAAGGAAATGCTGGAGGCTGTAAGTGATGAAAAAAAATAATATTTTATTTATTATTGCAGATGATTTAGGAGCATGGGCATTAGGTTGTTATGGAAATAAAGATGCTATAACTCCTAATATTGATATGTTAGCAGAAAAAGGTAAAATATTTGAAAATTTCTTTTGTGTTTCCCCTGTTTGTTCTCCTGCAAGAGCTTCAATTTTTACAGGAAGAATACCATCACAACATGGTATACATGATTGGCTTGATGAATGGGAAAATGGAACAACAACTGAAGATTATTTAAAAGGACAGTCTACATTTGTAGATGTTTTATCAAAAAATAACTATATTTGTTGTATGAGTGGTAAATGGCATATGGGACTTGCAGATGTTCCTCAAAAAGGGTTTCATTATTGGTATTCACATCAAAAAGGCGGTGGACCATATTACATGGCACCTATGTATAAAGATGGGAAACTAATACATGAAGAAGAATATATAACTGATAAAATAACTGAATATGCTATAGATTTTTTAGATGATGTTTATAAAGAAGATAAACCTTTCTTTTTAAATGTTAATTATACTGCTCCTCATTCACCATGGGATAAAAAAAATCACAAAGAAGAAATTTTAAAACTTTATGAGGGTTGTAAATTCAAATCTTGTCCAAGAGATCCATATCATCCTTGGAAAATATCAGAAACATTTGAAGGAAATGAAGAAGAAAGAATACAAATACTTAAAGGATATTTTGCAGCCCTAACTTCTATGGATTTTGGTATAGGAGAAATAATTAAAAAACTTGAAGAAAAAGATATGCTTAAAAACACCCTTATAATATTTACAAGTGATAATGGTATGAATATGGGGCATCATGGTATTTTTGGTAAAGGAAATGGAACAAGTCCTTTAAATATGTATGATAGTTCTGTTAAAGTCCCTTTTATAATATATAAAAAAGATGAAACAGAAGCAGAAAAAGTAAATAATCTATTAAGTCATTATGATGTTAGATCTACATTACTTGAATATTTAGGATTAGATGATGTAAAAGATGAAAACATTGATTATCCTGGTAATAGTTTTTCAGAGATACTTAATAATAAGAAAATAGATGATGATAAAAATGTTGTAATATATGATGAATATGGTCCAACTAGAATGATTAGAAATGAAAAATATAAATATGTTCATAGATATCCTGATGGACCTCATGAATTTTACAATTTAATAGAAGATGTAGAAGAAAAAGTAAATGAAATTAATAATGAGAAATATAGTAAAATTATAGATCAAATGAGAAAAGACCTTGAAATATGGTTTTTAAATTATGTTAATAAAGAAATTGATGGAGCTACACTGCCTATTTACGGTGCAGGTCAGAAAAAGTTTGCAGGTAAATGGGGAGGTTATGCAAAAGATACTTTTGGAAGATATCATTCAAAATTCATATTTTCATCTGATGCTAAGTTAAATGAAGATGAAAAAATAGAAATAGAAAATAAAATACAATAAAGAATTAGAGGGTAAAATGGTAGAAGTAAACTCATTTTTAGATTATCTTAAATTTGAAAAAGGTAATGCAGATAAAACTATAGAAAGTTATAGAAATGACTTATATACTTTCTTTAAAAAAGTAAATAAGAAAGTAGTAGATATAACTAGTGATGATATTTATCAGTATATAGAAAAACTAAAAGAAAAATATACGTATAATACCGTTATTAGAAAAATAAGTAGCATAAAATCATTTTTTAAGTTTTGCTATATTGAAAAAATAATAAAAAATGATCCAGCAAATAAAATACATAATTTAAAAAAAGAGAAAAGACTACCAAATGCATTAAGTGTTGAAGAAATTAATTCAATAATACAAAGTTTCAACCATGAACCAGTAAATAGAAGAAATCAATTAATAGTTAAATTTTTAGTGGCAACAGGGGCTAGAATTTCAGAAGTAATTAATTTAGAAATAAAAGATATAGAAAATTCTGATTTTGAATTTGCTAAACTTTATGGTAAGGGAAGTAAATATAGATTTGTCCCCATATATTTAGAACTTGAAAAAGAAATTAAGGAATATATAAGGGAGATAAGACCTAAGATCAAGGGAAGTGAAAAAAGTTATTTACTTTTCCCTGGAATTAGAAGAGAAAATTTTTGGAAGATATTAAATAAACATGCACAAAATGTAGGGATAGAAAAGAAGATACATCCACATTTATTTAGACATTCTACAGCAACCATGATGATAGAAAATGGTGCAGATATTAGAATAGTTCAAGAATTATTAGGTCATGCAAGTATTACTACAACAGAAGTATATACTCATGTTGAAAAATCTAAACTTAGAGAAATATATAAGAAAGTGAAAATTGGAGAAGAAGATGAATAAAGAAATATTTAAAAAGTATAGTTTTGAGATGTTAATTTTAACTATGTTTATAACAACAGGTGTAATATTTAAATTTAAATTATTAGGAGAAAAAAATATATTTTTACTGTCAATTTTAACGACTAGCTATATTTTATTAAACTCTTGTATATTAAAAATTGTATATAAGTCATCATTTCCTAGATTAATAGTAAATATTATGTTTGCTGTGGATATATTAATACTTTTTATGGGAACTATCAATCTACTTTACATTATTTTTTATCATTTAATATATTTACTATTCCTATTAGTTATATATAAGACAGAAGGTATAGTAAGGGTAAAGAGAGGAGTAATTTTTTACATATTATACGGAATATTCAAGATAGTATTTGTTTACTTTTTATTAGCTTAACATTGAATAGATTGTGTATTTATGTTAAAATCAGTTTATGATACTTGAAAATGATATATTAAAAAAAATAGAAAAAGTTAAAGATAAAATAATTAATGCTAGAATTGAAAAAAATAAATATTTGGGAGAATATAAGGAAAGGGTTATAGTAGCACTAACAAAACAGGAATTGGAAGAAAAATTTATATATCCTGAAGTTATTAAGGCATTAAGAAAAAAAATAGCGTCTAAAATGATAGTTTCAAGAGATGTGGATTTATCAAAATTAAAGAAATATATATATCTTGCAAAACAGATGAAAATATCTTGTAAAATGATAGATGGAATTAGTTATACTGGAGAAGTTGGATTAGTTGTAATAGCCGATGATGAAGTTAAAAATAGATCTGAAGATCCTGTAGTATTAAGTTTTAAAGAAAGAATATTAAATTCAGGACTTGACATAGTTTTTTATCAGGCTATGGGAAAGAAAATATCCAAAAAATATTATGAAATTATTAAAGAAAAATTACCTGAGCTTGTAGATTATTATGAACCTATAGGATTTTTTGACAAGATAACAGGTACTATTTGCCCTATAACACAAAAATTAGAGAATTAATGGAGGAAACATGGTTGAAGGATTTAAAATAGAAGGTAAAAGACCTCTAAATGGTATAATAGAAGTAAGTGGAGCAAAGAATGCTGCTCTTCCAATAATAATAGCAACACTTATAGAAAAAGGGGAACATATATTAAGAAATGTACCTGATTTAAGAGATATTAGAATACTATTTCAACTACTAGAAGATTTTGGAATGAAAGTTGAAAAATTAGATAGTAATAGTTATAAAATAATTAATGATGGCTTTAAGAGAAATGAAGCAAGTTATGAAATAGTTAAACAAATGAGAGCTTCATTTTTAGTTATGGGGCCTATGGTTGCTAATTTACAAGAATCTGTAGTTTCTCTTCCAGGAGGTTGTGCTATAGGAAGTAGACCTGTTGATATACACTTAAAAGGATTTGAAGCATTAGGAGCAGAAATTACTCAAATAAGAGGATATATTCATGTTGTTGCTGAAAATCTTAAAGGAGCAGATATAGCTTTAACTTTCCCATCAGTTGGGGCAACACAAAATTTACTAATGGCAGCAGTTAAAATTTCAGGTACTACTAGAATAATTAATGCTGCAAAAGAACCAGAAATAGTAGATTTAGGAAATTATTTAATAAAAATGGGTGCAAAAATTGAAGGACTTGGAACTAACACTATAACTATTGAAGGTGTAGAGAAATTACATGCAGTTGAATATTCAATTATGCCTGATAGAATAGAAGCAGGAACATATGTTATTGCATCTATAGTTACAGATGGAGATCTTAAAATTAAAAATGCAAATATTGAAGATTTAGGTGTATTTAAACATCAACTTGAAGCTATGGGAGTTAAGTTTGAAAAAAATGGAGATATATTAACTGTTAAAGGGAAAGTTAAAGATTTAAAGCCTACTAGAATAGTTACTATGCCACATCCAGGTTTCCCAACAGATATGCAAGCTCAAATGATGTTATTGCTTTCATTAATTAAAGGACATAGTGAAGTAGAAGAAACTGTGTTTGAAAATAGATTTATGCATGTACCTGAATTAAATAGAATGGGTGCAGATATTAATATAAGACATGGGATAGCAAATGTTGAAGGTGTAGAAAACCTTTATGGAACTAATGTAATGGCATCTGATTTAAGGGCAGGAGCTGCATTAGTTGTAGCTGGTCTTATAGCAGATGGAGATACAATTTTAAGTAGAATTTATCATATAGATAGAGGATATGATAAATTAGAAGAGAAATTAAATAAAGTTGGAGCTAAGATAGAAAGAATAAAACTTGAAGTTTAATAAAAAAGTATTGCACCTAAAGATAATATTAGAGGTGCAATTTTTATTTAAAAATTGACAAAAAATGGGGGGGGGGTATAATATTTATATTAAAAAATATTTATATTTTATTTTAAAAAAAATATATCGTTTAGAAATATAAAAGATACCAAATAAATTCATTTATATAGTAAAGAATCTAATTATACTTCATAATATAATATGAATATTTACAGATAAATAAATATATATTTTTATATAGCAGTGTTTCAAGATGTGAAACATTACTATTAATATGAAAATAAATATTTTGATAAAAATAAAGTTTAAAAGGAAATAAAAAAACAAAAATGAAAGATATCAAAGTACAAAAATTAAAAAGTTTTTTAAAAAATAAGGTAAGTATTAATGATAAACTAGTAATTAGATACTTTATTTTAGGAATTGCAGGTTTATCAGCAATGTCATATGGAGCATATTTAGCAATAGATGATAGTAAAGGTACTATAGGAAAATCTGGTAAAAGTTCAGAAGATGGAGAAAACAATAGTAAAAATAATGTGATATTAGCTAAATACGAAAATACAAATAATACTTCTAGTTCAGTAGTAATAGGAGCAGGTGGAAAAACTTATGGTAAGGGTTCAGAAAATGTAGTAATAGGATTTAATACAAAATCAGAAGGTAAACAAAGTGTAGTAATAGGAGCTAATACTAAATCAGAATTAGAAAGATCTGTAATTCTTGGTAATAATTCTTATGTATATAAGGATTATTTTAAAATTAATAATGGAGTAAATGATGGTGATGGACAAGGAGTTGCAATAGGTAACTCAGTTTATTCAACAGGACAAGCAACATCTATAGGAAATAATACATATGCTATAGGTAGATCTTCTATAGCTATAGGTAATGATGATATAACTGAGTATAAGCAATCTATCACAGATCATGACTATAAAGAATATTTTAAACAACTTTATGAAAAAATAGATGAAAATGGAAATATTTATGGATATGCTAAAAATGGAAATACCAGTAGTGATAATAAGAAAAAAAATATATATTCACCAACATTAGCACAAGGACATGGATCAATTGCAATAGGTTCTCGTTCTATAGCCTATGCTGATGGTTCAACTGCATTAGGAACACTTGCTTTTGCTCTTAAGAAAGGGTCAACAGCAGTTGGTACACTAACAAGGGCAGAAGGTGAAGGAGCTATAGCAATAGGAAGAGAAACTAATGTATTTGCTAATAATGCGATAGCATCAGGTAATAAAACTCTGGTATTAGAAGAAGGTGGAGCAGCTTATGGTTTGTCAGCTATTTCAGGTGGACAAAACTCTATAGCAATAGGAACAGAAGTTTACTCTAATGTTGAGTATGATTATGAGGGGAAAATAAAGTTAAAATCTAATTCAAAAGATGTAAATACAAACCTATTTGGAATGTTAAATGATTATGGAGATGTAGCTTCAAAAGAAGATAAAAGAGGGCTTTATGGTTTTGACTTAAATGGTGTTGCTAAAACTATACTAGGTCTTGGAACAGATACTCCTTTAAGTAATGTAATGGATGCTAAAAAAGAAACATATTTAAAAAGTGGAGATTATTTTATAGGGGTTAAAAGCTATATAGATGGAATAGAAAAAGCTTTTGTAGAGGCAAAAGATGATAAGGATGTTAAAACAGATATACTTAAGATAAAAAAAGAAATAAAAAATGGAGTAAAAGATATAGCTAAATCTAGTGGAAAAAATGCCATAGTTGTAGGAAGTAAATCAGGAGCTTTTGGAGATAATGGTATAGCCTTAGGTAGAGGTTCGTTCTCACTTAAAGAAAACTCAATATCAATTGGATCATATTCATTTACAAAAGAAAAAAATTCAATAGCATTAGGGATAGCTGCAAGAGCTTTAGGAGAGGGTTCTATTGCCTTTGGTAATGGTTCTGGAGTAGACATAGATGGTAAAAATTCTATGGTTTATGGTCATGGATCAGTTGCCTATGCACCTAATTCAATAATATTAGGAGTTAATTCTCGTGTTTGGGGAACTTCAAAAGATGGAGATTCTATCATAATAGGTAATGATGCCAACATAAGTGAGTTAAAAGATAGTAGTAATAAAAAAATAGAAGGACATAATGGTAAATCAGTACTAGCATTAGGGAATCAGACTAATGCAACCTTAGATAACTCAGTTGCCTTAGGATATCTTTCAGCAACTGATTATGAAAAATCAGACTTAGATAAATCAGGATACACAGCAAGAGGTTCATATTCTATACCAAGTTCGGCTAAAGTTGGAGTAATATCTGTAGGTAAAAAGGGTTATGAAAGAAGAATAATTAATGTTGCATCAGGGTATAGAGATTCTGATGCTGTTAATGTTGCCCAACTAAAAACACTTGAAGATAGATTAGATGGAGTTACAGAAGAAACAGATGACAAAGTCAGATATTTTTCAGTTAACACTGATAATGATCTAAAAGATATAGCAAGAAAAGAAGTAGATTATAGAAATTATGTAAAACTAAAAACACAAATGCTAACCATAGACGCAAGAAAAAAATCAGGTGAAAACATAAATGATGATAGTGTTAAAGAATTAAAAGATAAGGTAGAGGATTTAGAGAAAAAAGAAAAGATAAAGGAACATGCTGATAAAATTAAAGCTTTGAGTATAGATGATAGTAAATACAGTCCTAATGGTAAATTTGATATAGATAAATATTTACAAGATTTAGAAAAAGCTAAACAAGAAGATTCATCTGATGATAAAATAAATAGTATTTTAAAAGATGATGAAAAAAAGAAGATAGAAGAAGCAAACTATTCTAATAAGGGAGCAAAAGGTAAAAATTCTATAGCAATAGGACATAGTGCCAGTACAGATAAAACGGCAGAAAATGCAATAGCTATAGGTAATGGAACAAAAGCAACTATTAAAGATAGTATAGTTTTAGGAAGTGGTTCTGAAAGCACAGCAGATGTAAATAAAGCTGGATATGATATTACTAATTCAAATTCTAATTCAGGTGCAGCTTGGAAACCAACTCATGGAGAATTTGCTATAGGTAAAGATTCAACAATTACTAGAAGAATAACAGGAGTAGCAGCAGGAGAAAAAGATACAGACGCTGTAAATGTGGCTCAACTTAAACAACTTGCCTCAGGATTACTAAAAGATAAAGAACTAATATTTGTAGGTAATACTGGTGGAGATGTAAAAGTTAAAATAGGTGAAACACTTAATATTAAAGGTGAAGGAACAGTTGCTAATGGAACAGCTGCAAACAATTTAAAAGTAACAGCAGATGAAAAGACTAAAACTTTAACTATAGGACTTGCAGAGAATTTAGTAGGAATAAATACTATAACAACTAAGAAGAGTGCAAACAATGAACAAACAGTATTATCTCAAACTGGTCTTAAAGTTACAGGAAAAGATAGTAAAGAAACATTAGTTACATCTGAAAATGTAGAAGTAAAAAATGGTACAGATAAGACAACATTATCAGCAAGTGGATTAAAAATCACAGATAAAGATGGAAAAGATGACAAACAAACAAATGAACTTACTAAAACTTCTATAACATTAAAAGATAAGAGTAATAATAAAGAAGTTACGAACACTATAACAGCAGATAAAAGTGAAATAACTAATAATACTGGAGATAAAACAACTATTACAGCAGATAAAATAACTGTAGCAAATGGAACTGATAAGGTAGAAATTACTAAAAATTCTTTACTAGGTGCAACTACTATTGGTAAAGATGCTAATAATAGTTTAATATTTGGTAATGGTAATGGTGATAATACATCTACAATGTTAAAAGTTGGTGGAAAAGAATTAACATTCACTAAAGCAGGAGAACATATAAAGATATCAAATGTAGCAAATGGAAAAGATGATAACGATGCTGTAAATGTATCACAACTTAAAGAATATGCAAAAGCTTTAGGTGGAAATGCTAAGTTTGAAAATGGTAATCTTGTAGGACCTATATATAAATTAAAAGCTGGTAATGATAATACAACAGACTATAAGGATGTAGGAAAGGCATTAGAGTCATTAGATAATGCTTTAACTACTTCAAATAATAATATAAAAACTTTAGAAGGCAAAGCAATAACATTCCAAGGAAATGGAAATACAGATAAGGTAGAAAGAAAATTAGGAGAAACTTTAAAGATACAAGGTGAAGGAACAGTTACAGGAAATACAGCTGCTAACAATATTAAAGTTACAAAGAATGATTCTAATGATGGATTAGATGTTAAACTTACTGAAAATTTAAAGAACCTAAATAGTATAGAAACAAAAGACAATAATGGAAATAAAACAAAAATTACAACAGAAGGTATAGAAGCTACTAATGGAACTGATAAAGCTAATTTAGCAGCAGATAAATTAACATTCGGACCGAAAGAATCTACTTCAGCAGATAAAACAAGTACAACTATTGAAAAATCAGGAATAACTGTAAAAAATAAAGAAGGAAAAGATTCAGTAACAATAAAATCTGGAGATAATGGTGGAACAATAGAAGTTAAATCTAAAGATGGAAATTCAAGTATTAAAATAGATGGAGAAAAAGGTTCTATTACTGGACTTAAAGATATAGATCCTAATGAAACAGATGGAAGTATAGCAGTTAATAAAAATTATGTTGATAGTAAAATAAAAGCAATAGCTAATGGACCATTTGAATATGAATCAAATGGAGAAAAAGTAGTAAGAGGACAAGATAATAAACTGTATAAAGAATCTGATTTAAATAAACATTACTATGATGAAAAAGAAAAAAAATATAAACCTAAAAATAATAATAATGGAATGAATGGACCAAAAGCATTAGAAAATAAAGATGTAACAGTAAATGTAATGCCTAAGAATGGAACACCAATATCAATAGGAAATGTGGCAAGTATTCTAGGAGAAGAAGCAACTACAACATCAGATAAAGCTGCTGAAAAAGTTAAAGAACTAATTGGAAATTCTGATAATAGCAAAAACAAAGTAGCAACAGGAACAGACATATTAGCCTTAGCAAAAGCAGGAATAAGCTTTGAAGGTAATACAGGTTCAGGAGAAAAAATACATAGAAACCTAGGAGAACAAGTAACCATTAAAGGTGAAGGAACAGACAATAAAGATAACTTTACTAGTGCAAGTGGAAACATACAAGTTAAATCAGATAAAGCTAAAAGTGAATTAACAGTAAAACTATCAGATAAGTTAACTAACATGACTTCATTTGAAACAAAAGAATTAGATGATAATGGAAATAAATCTAAAGTTAAACTAGATAAAGAAGGACTAACTACAATTAATAAGACAGATGATAATAAATACATAATGTCTAAAACAGGACCAAATGGAACTGAAATAGGTAAATATGATAATGATCCATTAATGAATAACAATACTTCACCAACAAATAGTGCAAAATATACATTAGAAGGAACAACAATAAAAGATGATAAAGGAAGTTCTAACCTAACATCAAATACATTAACTTTAAAAGATAAAGATAATAAACAAGGAATAACATTAGATAATAAAGCTGAAACTCCAACTATTTCTTTATCAAATAATAAAGGAGAAGAAACAGTTAAAATATATGGAGGAAATGGAAAAGATAAAGAATCATCAATATCATTTAAGGTAGATAATGATAAAGGATTAGGAGTAGTAAAAGGTTTAAGAGATCTAACAGATAATGATCCAGGACATTATGCAGTAAATAAGAGATATGTAGATAATAAATTAAATGGAGCTTTAGGAGGGGTAGCAAATGCAATAGCAGTAGCAAGTATACCACAGATAAATGGAAAGGGACATAATATAGGAGCATCATATGGATATTATGAAGGACATTCAGCCTTTGCATTAGGGTTAAGTGGAATAAATGAAAGAGGAAATGTATTATATAAGGCAAACTTATCATTAAATACAAGAGGAAATGTAGGTATAGGAGCAGGGATAGGATATCAGTTTGGAGGAGATGATGTAAGAAGAGAAGAAGTAATAATAGAAAATAATCCTTCAAATGATATAAGAGATAGATTGATTGAACAAAATGAAAAGTTAATTAATCAGAATAAGAAGTTAGAAGAAGATAATGATAGATTAAGAAGAGAAAATGATAGGATAGGAGATGAGATAAAAGAGTTAAGAGAAAGAATAAAAGCAATAGAAAAAATTAAGATGAATGAAGATGACTTATACACACTAGATGGATATAGATTAGGTATACATGAGTTAACAAAGAGCCAAGAAGAGATGTTAATGAATATAGTAAGAGAGTTAAATGAGAACTATAAGAATAGGAAGATATATATAACAGGATATACAGATAATGTATCGGGAGAGAATTTAAATCTTGAGTTAGGTTTAAAGAGAGCAAATGTAGTAGCAAAGAAACTAAGAGAGTTAGGCTTAGATATGAGTATATCAATAAGGAAGGTAAGTTCATCAGGATATAATAACATAGTAGAAACAAATAAGAGTTCAAATGGAAGGTCTTCTAATAGAAGGGTGGAGATTGAATTAAGGTAATTAAAAAGATCCTCTTTATGTGATGTAAGAGGATCATTTTTTATTACAATTCTAATTTTTGGTCTAATAAATAGCCACCTAATTTGATAAATAATATTACACAAAATGATTGTATTACAATATCTGTTATTAATGCCGATATTACACTATTATTTTCAAAAATGATGTTAAATCTAAAATATGTAACTACCACCATTATAATTACGAATATGAATATCCATAAGAAATACATATTTTTTGACTTAAATAAATAGTGTGTTATAGTTATACTTAAATAAATTGTAATAATTGAAAATACAATAAATAAAAGTGATGATATACCAGTTAAGACAACATTTGTATCAATATGCTCTATTAGTAGTGCTACTGGAAATTCAATAGGCAATCCTTCTATCCAAAAAAGTGAAAAAAAGTATAACGGTGATAAAAGAACAATAAATACAAAGTAAATTATTATTTTACCCAAAAAATATGTATAACCAGATATAGGTAATGAAAAAGTGAAATATCCTGTATCTGAATAAAGATCTTTAGAAAAGTTCTTTATATAATAGAAAAGCGTTGAAAAATATGCAGCTGAAATACATAATCTTGTTATCATTTTAGGTAAAGAATAAGCACTAGAGTCTATATAATATAATATTTTTGATACAATTGTTAATACTATAAATGAGAACAATATTATTGAATTAAATCTCCAGTTTCTTTTAAACTCATATTTTAAAAATTTAAGCATTATTATCACCTTCTTTAAATATCTCTTTATATAATTCTTCTATAGTTAATCCACTATTTTCTCTTAATTCATCTACCTTATATACTTTATCTATCTTTCCATCTTTTAGGAAAGCAACTTCATCAAATATTCTTTCTATATCTTTTATTAAATGAGTAGTAATAAGCATTGTAGAATTTTCTAATACATTTTCTATTATAATATTTAATATTTGATCTCTTGTAATAACATCTACACCTGCTATAGGCTCATCTAGTATAAATATTTTAGCATTTCTTGATAAAGTTAATATTAAGAAAACTTTTTCTTTCATACCCTTAGATAAAGAAGCTATTTCTGATTTGATATTTATTTTCATCTCATCTAAAAGTCTTACTGCCTTATTCATATCAAAATCAAAAAAGTCATTATATAAATTTAATGCTTGATATACTTTAAGTGAATTATCTATGAAGTTTTTATCTGATAGATAACTAACCATGTTTTTAGTTTTAGTTGATGGTTTTAATCCATTTATTAATACTTCACCACTACTTTCTTTTGCTAGTCCTGCAATTATTTTTAATAAAGTAGTTTTTCCACTACCGTTAGGACCTAATATTCCAACTATAGTATTTTCTTTTAATGTTAAATTTAAATTATTTAGAACTACACTATTTAAATATTTTTTATTCAAATTTTTTATGTCTAATACATTTTTCATTTTACTTACCCCTTTCTTTAATTTGAGCTATAATATCCTCGTTAGAAAAACCTAAAGAATACATCTTAGATAAAAATTCATCTAATACACTTTCTGAATGTATTGTAGTTAATTTTTTTAAAATGTCCAAGTCTTCAGTAACAAAAGTTCCAACCCCTCTTTTAGTTACGGCTATTTTTTGAAGTTCAAGTTCTCTAAATGCATTTACTACTGTATTAGGATTTAGATTATATTTAATCGAAGCTTCTCTAATAGACATAAATTTATCTCCTGGTTTTAAGTTACCACTTAGAATATCTGATAAAAATATTTCAAACAGCTGTCTATATATAGGATATTTATTATTAAATTCCATAATTACACCTCCATACTATTATAGTTAAATAATACACGAATTATGAAAAAATGTCAATATTAAAATAAGCTCTATTTTAATATTTCTAATATGTATGCTTCCACCCCATCTTCTAATGGTAGCAATCCTGTTTTAATTTTTAAATCTGTTTCAAAGGAAAGAGATATTAATTCTTTTGTTCTATCCTTGCTAAAGTTTTTTAGAAATTGTATTTTCTTGAATACATAATATGGATTAAGATTTTTAAAAAATTTATGATTTTCATATTGAGATTTAAAATTATTGTAATTAATATTTTTAATATCTAATATATGTAGTTTATACATAATTTCAAAATCATTACTTAAGGAAGAAAGTAAAGCCATATTTTCTTTTATAGGAAATTCTATCATTTTTTTATTAAGTATATCTTCTGTTAGATTGAAAATAAAAAAATTGGTATTCTTAGATAAAATGGGTTTAATATTATCAAATGAAAATTCTTCGCCATTTAAATACGAACATATTTTATCTATTTCATTTTTTAATGAATAAAAATCTTGCCCTATAATCTCTAATATATTATTGCTATCCTTACTATTACACTTTAATCTTTCTTGTATGTATTTTATTAAAACATTCTTATTTTCTCTATCATCTAAAATTTCGTGTACTTCAAAATTATTTAAAAGTTCTTTTATCTTCTTATTTTCCTTGTTTGCCTCATAGTCTATAATTACATCTTTATCATTAAAAGTATTTAAGTTAACATTTTTTATCACATTATTTATATCTTTCACTTTATTTGCATTTTTAAGTATTAAAATAGTCGGTTCACTAAAAAGTGATCCTGCATTTAATTCACTTAAAAATTCAGATACTGTATTTTCATCAAAATACATCTTATTTTTATCGCTATTATTTAATATATTATCTATATAAATTTTTCTTGCACTTTTTCCTGAAATAAAATAGTTCATTTTTACCTCCTAGCAGCCTAATTATATCATAAAATATTATTTAAAGTAAAATTATATGATTTAGGATAAATAAGTTTAAAACTTTTGTATTTATGTTCTTTTAAACGCTTTAAAAATGATTGAAAAATCTACTTAAATGTGCTATTATCTAAAGTAGACGAATTTAATATGTTGGTAAGAAAGTAGGTAGAAAATGGTTACTAAAGAAGAAGTAGTTAAATTAGCAAAACTATCTAAATTATCATTTGAAAAAAATGAATTAGAAGCTTTTCAAAAAGACTTAAATGATATATTTAAATATATGGAAAGTTTAAATGAACTTAATTTAGAAAATGTAGAACCTTTATATAATATATTAGAAAATGAAGGAAAGATATATAAGCACGAACCAAAAATAGAAATGGATAAAAAGATGTTTTTAGAAAATGCTCCTAAAAATGATGAAAACTTTATTTCTATACCAGTAATGTTAGGTGATGGAAATGAATAAAATATATACTTTAACAGCAACTGAGATAGCTAACTTAATAAAAGATAAAAAAATAAGCTCAGAAGATGCAACAAGATCAATTTTAAATAGAATAGATGAAATGGAAGATAAAATAGGAGCATTTGCTTCAGTTAATAAAGAAAATGCGATGGAAGCAGCAAAAAAGGCAGATGAAACAGAAATAACTAGTCTGTTACATGGAGTTCCTATAGCTCTTAAAGATAATATAGTTTCTTTAGGAGAGCTAACTACATCAGCATCTAAAATATTATCAGGATATTATGGAACATATGATGCAACTGTAGTAAAAAGATTAAAAGAGGCTGATGTAGTTTTAGTTGGTAAAGCTAATATGGATGAATTTGCTATGGGTTCATCAAATGAAAATTCAAGCATTAAAGTAGTATCAAATCCTTGGGATTTAGAAAGAGTTCCAGGAGGATCAAGTGGTGGTTCAGCAGCAGCAGTTGCCTCTTTAGAAGTTCCTATAGCGTTAGGTACAGATACAGGAGGTTCAGTTAGACAACCAGCAGCTCTAACAGGGACCGTTGGATTAAAGCCTACTTATGGTAGGGTTTCAAGATATGGACTTATGGCATTTGGTTCAAGTCTTGATCAAGTAGGAATAATTGCAAGAACATCTGAAGATGTTGCGAAAACTTTAGAGATAATAGCAGGTGAAGATATTTATGATCCTACTACATCTGATGTAGAAGTTCCTAAATACTCTGAATTACTAGATAAAGATATTAATGGTTTAAAAATAGGTATAGATAAGAAATTTTTTGAAGGACTATCTAATGAAATTAAAGAAAGTATAGAAAATGCATTAGATACTTTAGTTAAAATGGGTGCAGTTATAGTTGATATTAGCCTTGATTATGCTAAATATTCTATCCCAACTTATTATATAATCTCATCTGCTGAGGCTTCATCTAATCTTTCAAGATATGATGGGATTCGTTATGGTCATAGAGCAGAAGCTGATAATGTAGAAGATGTATACATTAAATCAAGAACAGAAGGATTTGGTAAAGAGGTTAAAAGAAGAATAATGATAGGTTCTTATGTACTTAGTTCAGGATTTTATGATGCTTATTACAAAAAAGCTTCTCAAGTAAGAAGATTAATCAAAAATGATTATCAGAAAGCATTTGAAAATGTAGATGTAATAATTACACCTACTACACCTAATGTAGCATTTAAAAAAGGTGAAAAATCAAATAATCCTATAGAAATGTATCTATCTGATATATATACAGTTTCAGTATCACTTGCAGGGTTACCAGCAATTTCCGTACCAGTAGGATTTGTAAATAAATTACCAGTAGGAATGCAGATAATTTCTAACTACTTTAGAGAAGACTTATTATTAAATGTTACGCATAAATATGAAATGGAAAGAGGAAGAATTGATTATGAAAGAGTATGATATAGTAATAGGTTTAGAGATTCACTGCCAATTAAAAACTAAAACTAAAATATGGTGTGATGCTGATGCAAATTATGATGAAAAAGAGCCTAATACTTGTATTTCACCAGTATCAACAGGTCAGCCAGGAGCTCTTCCTAGATTAAATGAAGAAGTTTTAGATTTTGCTATTAAAGCAGCACTTGCTTTAAATTGTGATATTAATAAAATAAGCTATTTTGATAGAAAAAACTATTTTTATCCAGATTCACCTAAAAATTATCAAATTACACAATATTTTAAACCTTATGCAGAAAATGGATATTTAGAATTTAAAAGAAATGATAAAGATGTTAAAGTTGAGATAGAAAGAATACAAATAGAAGAAGATACAGCTAAAAGTATACATACAAAACATGAATCTATATTAAACTTTAATAGAGCAAGCATACCTTTAATAGAAATAGTTACTAAACCATGCATTTCTAATCCTCAAGATGCTTACATATATTTAAATAATTTAAAAGAAAGAATTAAATATACTGGGGTAAGTGATGTGAGTATGGAACTTGGTTCACTTAGATGTGATGCTAATGTATCTATAAAAGAGAAAGGTTCAGATAAGCTTGGAACTAGAACTGAAACTAAAAATTTAAATTCATTTAAAGCAGTAGTTAGAGCTATAGAATATGAAGCTAATAGACAAATGGAATTAATAGAAAAAGGTGAGAGAGTAGTTCAAGAAACAAGACTTTGGGATGATGAAAAAGGTATTACAAGACCTATGAGAAATAAAGAAGAAGCTATGGATTATAGATATTTCCCAGAACCAGATTTACCTCCAGTAGTAATTAGTGAGGAAAGAATTTCTAAATTAAAAGAAGAAATGCCTGAATTTGCTGATGAAAAATTAATTAGATTTATAAGTAAATATAATATTTCTGAAGTTGATGCTGGAAATTTAGTTACATCTATAAGTCTTGCAAACTATTTTGAAAATTTAGTTGAAGTTTCAGGAGATCCAAGACTTTCAACTAATTGGATGTTAACAGAAGTGTTAAGAGTACTTAAAGAAAAATATATTAGTATAGATGAATTTAGTATTAGTAGTGAAAATTTAGGTAAATTAATTATTTTACTAAAATCTGAAACAATAAGTTCAAAAATAGCTAAGGAAGTATTTGAAATAATGCTTGATGAGGATAAAGACCCTAATATTATAGTTAAAGAAAAGGGTATGTTACAAATATCTGATGAGGGAGAAATAGAAAATATTGTTAAACAAGTAATTTCTGAAAATCCTGAATCTGTACAAGATTTTCTAAATGGTAAAGATAGAGCTATTAAGGCTTTAATGGGTCAGGCTATGAAAATATCTAAGGGTAAAGCAAATCCTAAGCTTGTACAAGATTTATTAATAAAAAACATGAAATAAGGTAAATATATGAGTAAATTAGATAGATGGTTTTTAAAAGAAAAAAATAGAAAAAAAATATATTTTACTTTTTTTCTTTTATTCCTATTTTTAATAATAGTAAGATTATTCTTTTTACAGATATTACATAAGGATTTTTCATTTAATGTGATTAATCCTATAAGATCGTATGTAAAGGAAATAAGGGCTAAGCGTGGTTCTATAATAACTAGTGATAATTTAGAATTAGCTGTTGATTTAGAATATCAAGGAATAGTTGTAGATCCTACATTATTTAAAGATAGAGAAGAAATAGAAAAATTTGTAAACATTATTAATAAAGTAATCAAAAATATTAAAATAGAAGAAACTGTTGATAAGATTTTTGAATTAAAAGAAAAAAATAAGAAGTATTATGAATTTAAAAATGTATTAATTAATGTTGATCAAAAAGATCAAATTGATGAGTTAATCAAAGAAGCAAGAAAAAATGATAGGGAAACTTTTAATGCAAGATTTGTATACTTTACTAGAAAATTTAAGAGAGAATATATAAATAGCTCTGTATTTGAAACTATAGTTGGATTTATTAATAAAGAAGAAAAAGGTGTCTATGGAGTAGAACACAAATATGATGAAATGCTTAAAGGAGAGAATGGACAAGCAACAGGTACAGCTCCATTTTCAGCATCTTTAGCAGAATATACACTTCCATATTTAATAGATGAGAAGATAGTTAAAAATGCAAAAGATGGGAATGATATTGTTTTAACTATAGATTCTTTACTGCAATATTCGCTTGATGATATTCTTAAGGATGCACATGAAAAATTTGAAGCAACAACTACTATGGGTATAGTAATGGAAAGTGATACAGGAAAAATAGTAGCTATGAGTTCATACCCAAAAGCATCAAATAGGGCAGAGATAAAAAATCATAACATTACTTCTTTATTTGAGCCAGGCTCTATATTCAAACCTTTGACTGTAGCTATGGCTATGAATGAGGGTCTAATTAATGAAAATACATTAATACATTCTGAAGGATATATTAAAGTAAAAAATAGGATAATAAGGGATCATGATGATAGTACTAAAGGTACACTACCTGTATCAAAAATAATGGTAAATTCAGGAAATGTAGGTTTAGTTAAGATTTCACAAATGATGAATCCAGAAACTTTCTATAACTATTTACCTAAATTTGGATTAGGTGAAAAAACTGGTATAGATATTTCATATGAAACTGTAAGTTCTTTAATCAATCCAAAAGATTTTACAGAAGTTAGAAGATCTAATGTATCTTTTGGACAAGGTATAAATATGACACAACTTCAAATGTTAGTTGCCTTAAATGCAACTATTAATGGTGGAGAATTAATAACTCCTCAAATAGTTGAAAAAATAGTAGGAAGCGATGGAAAAATTGTTAAAAATTTTGAAATACATAATAAAGGAAAAGTAATTAATGAAAATGTAAGTGCTAAGATAAGAAAAATACTTGAAGAAGTAGTTTCAAGTGGTACTGGTCGTGGAATAAAACTTGATGGTTATAGAATAGGTGGAAAAACAGGTACAGCTCAAAAAGCAGGACCTAAGGGATATGAAGCAGGAAAATATTTCTCATCATTTTTCACATTTTTCCCAGCAGATAAACCTAAATACAGTATATTAATTACAGTAGATGAGCCACATGGACAGTATTATGGAGCTGCTGTTGCTCTTCCACTAGCAAGAGATATTTTAGATAAGATAATAAAATATAAAGATGTAACTCCAAGTGAAAAAGTAGTTCAAAATATTTCTGCAATAGAAATAGCAACGCCTAAAGAGAATAGAAATAATAAAATAGAAAATATAAAAAATGATTTTTCTATGGATATCATGCCTAATTTAATAGGTGTAACTAAGAAAAATTTATTAGAATTAGGTATAGATAGATATTCAGTTTTTATGACTGGAAATGGAAAAGTAGTTAAACAGTATCCAGAAGCTGGATCTAAAATTAAGGTTGGCGATAAAATAAGGTTAGAACTAAAATAATAGAAAGGGGAAATAAGATGTATTATCAAATATATGTAAAAAAATATTCTAACACATATACTTATGAATCTGATTTCCCTTTGACTATTGGAAGTTTTGTTGAAATTGATTTTAGAAATAAGGATTTATTAGGTGTAGTCATTAGAGAAAGTAAAAAAGAAGAAATAGGTGATTTTAAAATAAAAAAAATAAAAAAGGTTAAAGATGATATAGTAGAAATACCAGAAAGTATATTAAATTTAGCTATATTCATTAATTCCTATTACATCACTGATTTTAATGCTAGTTTTAAAATACTAGGTCCTTATGAGAAAATGTTTAAAGAAAAATTAGAAAAAGTAGAAAAAAAAGAAACAGTTATTAAAAATAATATAACATTAAATGAATATCAACAAAAAGCATATGAAGATATAGTAAATTCTGATGAAAATATTTTTCTATTACATGGTATAACAAGTAGTGGAAAGACAGAAATATATATTAAATTAATAGAAGAGGCATTAAAAAAAGATAAATCAAGTATTTTCTTATTACCTGAGATTTCTTTAAGTTCACAAATGGTTAAGGTTATAAAAAAAGTATTTGGTAGTTCTATTTCATTAATTCATAGTAAAATGACACCAGCTACTAAACTTAAAGAATGGATTAATATCTATTCTGGTAATTCAAAAGTAATATTAGGTGCAAGATCTGCACTATTTGCTCCTGTTAAAAATTTAGGGTATATAATAATAGATGAAGAACATGAAAATTCATATAAACAGGAAGATAATGCTAGATATCATAGTAGAAATGTAGCAATAAAAAGAGCTATGCAAGAGGGTGCAAAAGTAATATTAGGTAGTGCAACCCCTTCATTTGAAAGCTATTATCTTGCTAAAAAGAATCTATTTAAATTAATTACTTTAAATAAAAGATTTAATAATATGGAACTGCCAGAAATGGAAGTAGTGGACTTATCTAATGAAAAATCAATGTTATCTGAAAAATTACTTCAAAATATGAAAACAGTGTTATCAAAAGGAGAACAGGTAATATTAATATTAAATAGAAAATTGCATTCTTTGTTAGTTAGATGCATAGAGTGTAAAGAAAAGATGATTTGTCCAAGATGCAGTGTTAATTTAAGGTATTCAAAATCTAAAAATATTTTAGAATGCTCACATTGTGAGTATAGAAGAAAAATGTATGAGACTTGCCCTTATTGTGAAAGTAAAAATTTAGAATTATTAGGTATTGGAATAGAAAAATTAGAAGAAGAGTTATCAGATTTATTTGGAAGTGAAAATATACTTAGAATGGATTCAAGTACTATGACTAGTCAAAAAGATTTTGATAAGGCATATAAAGAATTTAGTGAAAATAAGTATCAAATAGCTATTGGAACTCAAATACTTGCTAAGGGATTTCATTTTCCTAATGTAACCTTAGTTGGAATAATTAATACAGATCAGATTTTATCTCTAAGTGATTTTAGAGTAGGAGAAAAAACTTACCAACTTGTAACACAGTCAGCAGGTAGAGCAGGTAGAGGAAATAAAAAAGGAAAAGTAATACTTCAAAGCTATATCCCTGATTCAAAATTAATTAATTCAATAATGTCTGGAGATTTTGAAGGATATTTTGAATATGATATGCATATTAGAAAATTACTTAATCTACCACCTTTTAGTAGAATGATTAAAATAATAGTTTCTGACAAAAAGGAAGAAAGAGCATTAAAAGTAACAAAAAAAATACATAAAGATATTAGCGAAAATTTTGCAGAAGTTTCTCATATTGAAAAAGCCCCCATATTTAAAATGAATGATGACTTTAGATATAATATATATATCAAAAGTGATAAAAATGAAATAGCAAAAAATAGAAAATTACTTTTTGCTATAAAAGGATCAAGTAATAATACAACAAGAATTTTAGTTGATATTGATCCTTTAACTTTATATTAGAAAGTAGTGATAAAATTGAATATTTATGTTTACGAAGCTCCAATTTTAAGAAAGAAATCAGAAGAAGTTGTTGAATTTAATGATGAATTAAGAAACACATTAGATGAAATGGTTAAAACTATGAGGCTTGCAAATGGTATAGGGCTTGCGGCTAATCAGGTTGGTATAGGTAAAAGATTTTTTGTTTTAGAAATTGATGATGAAATAACTAAGGTAGTAAATCCAGAGATATTAAGTTTTGGAGAGGAAATGGTAGAATTTCAAGAGGGATGTTTAAGTATACCTGGTATATTTAAAAATGTATTAAGACCAGAAAGCATAGTAGTAAGATATCAAGATGAAAATGGTAATTTTGTAGAAAGAGAATTAAATGGTCTTAAATCTCGTGCTTTTCAGCATGAATTAGATCATATAGATGGGATATTATTCATAGATAAAATAAGCCCTATGAGTAGAAATCTTATCAGAAAAAAATTAGAAGTTATGAAAAAGAATAGTAAACCAAGAGAATTTTAGGGGATAGAAATGAAAACAATATTTATGGGAACACCAGACTTTGCAATAGAAACTTTAAAATATTTACATGAAAATACTGAATTATTAGCTGTATTTACAAAAGTTGATAAAATTAATGCTCGTGGAAACAAGGTAGTTTTTTCTCCAGTTAAACAATATGCACTTGATAATAATATAGAAATAGTGCAACCTAAGAGTTTAAGAACTGAAGAAATATATGAGATATTAAAAAAATATAATGCTGATTTGATAGTTGTAGTAGCCTATGGAATGATAATACCTAAAAATATTATAGATCTTCCAAAATATGGTATAATAAATGTACACTCATCACTACTACCTAAGTATAGAGGTGCAGCTCCTATACATGCAGCAATATTAAATGGTGATGATAAAACAGGTGTATCTATAATGTATATAAATGAAAAACTTGATGAAGGGGATATAATTTGTACACTTGAAACTGAAATATTAAAAGAAGATAATTTAGGTAGCCTACACGATAGATTAAAAATGTTAGGAGCATTAGGTGTAAAGCAAGCTATAGAAATGATGAAAAATAATACGGTTAAAGCTACTAAACAAGATCATAGTTTAGCAACTTTTGTAAAACCCATTAAAAAAGAAGAAACTAAAATAGATTTTAATTTAGATAGCTTAACTATATTTAATAAAATTAGAGGATTAAATCCTTTTCCTGAAGCCTTTACCACTTTAAATGGTAAAATCTTAAAATTATATAGTTCAGATGTTTTAGATTATAGTGGCGATGAAAAACCAGGTACTGTAATAGATCTAACAAAAGAAGGAATAGTAGTTAAAACAGGAGATGGTGCTATAGTAATTAAAGAATTAAAATTAGAAGGTAAAAAGAAACAAAGCTCTTTAGATTTTATTAATGGAAGAAAAATAAATAAATTAGATATATTAAAATGAGGAGGTAAAAATGACTAAAAAATATAGTGCAAGGGAAATATCGGGAAGGATAATTTCCAGACTAACTCTATATTTAAGTATTCTAAAAGATTTAGAGAGAATAAAACCAGAGGTTAATTCTGTAGAATTATCTAAAAAGATGAATACTACAGCTGTACAAGTACGTAAAGATTTATCTACATTTGGAGAATTTGGTGTAAGGGGGAAAGGATATAATATTAGTGCCTTAATTAAAGAGATAGAATCTATATTAGGAATAGATAAAGAAAATGAAGTAATTCTTTTAGGATATGGTAATGTAGGTACTATGATAGCACGCAACACTGATGTTTTAGGTAAAGGATTTAAGGTTACAGCAATATTTGATATAGATCCTAATAAAATTGGGCAAGAAATACCAAATTTAGATATTAAAGTATCAGATGCTAATGAATGTATAAACTATATTAAAGAAAATAAGGTACATACTGTAATACTTGCTATAAATAGTGAATTTGCTCAAACTGTGGCAGATGAATTAATAGAGGCAGGAATACAAGCAATACTTAATATGACAGATTACAAGTTAGAATTAAATACTAATACAGCAGTTGTAAATGCTGATATCTCAGCTAAATTAAAAGAATTAAACTTTTGGAGAATAAATCCTGAATTAAGAGGAGGAATTAATTTTGATTAAAAGTATGTTAGATGGTCGTTATGTATCAAATATACTATATGAAAAATTAAAAATAGAATATCAAATTTTAATAGATAAAATAGGAAAAAGAGCAGGACTTGCATTTATTAAAGTAGGTAATGATAGAGCCTCAACTATATACTTGAAAAATAAGGCGAAAAAATGTGATGAATTAGGAATATATCAAAAAACTATAATATTTGAAGAAAATATAACTGAAACAGAATTAATATCTGAAATAAATAAATTAAATGATGATAAAAATATTGATGGAATATTATTACAACTTCCATTACCTTCACATATTAACTATATTTCAGTTATGTCAACAATAAATCCTAAAAAAGATGTAGATGGATTTCATCCTGAAAATGTTGGCAATCTATTATTTAAAGATAAAGGAATATATTCTTGTACTCCACAAGGTATAATGGAATTACTTAATTACTATAACATTAGCATAGAATCTAAAGATATAGTGATTATAGGAAGATCTAATATAGTTGGAAAACCACTCGCACTTATGCTTATTAATGAAGGTGCTACAGTACAGGTATGTAATAGTAAAACTAAAGATTTATTTAATAAAACAAAACAGGCAGATATATTAATTAGTGCAACAGGTGTATCACATTTAATTAAAAGTGAATATATCAAAGATGGAGCTGTAGTTATAGATGTAGGTATATCAGAATTTGAAGGTAAAATTATAGGTGATGTTGATTTTGAAGATGTTATTCAAAATTCTAATGTTAGATATATTACTCCTGTACCAGGTGGTGTAGGACCTATGACTATCTATTCTTTAATTAAAAATACTATTAGAGCATTTGAACTTAATAATATGTAATTGAAAAAAAATTTATGATATGATAAAATTAGTTGAAATATTCTTTAAAAAGGAGATGTATTAAGATAAGTATTAATATGATAATAGCTCTTTTAATAACTTTAATATTCTTTTCTATATTAACTGCATTTGATATAAGTTTCATTAATGTTAATTATATAGAAAAAATTTATTTAAAAGAAATTGAAGAGAATAATAAAAAAAAGGTAGCAAAATTTTTAGAAAGATTAATAAGATATAAGATAACATCTAATATTTTGAATTTAATATTAATAGCTATGTATTTTAAAATTGTAAATTTTAATATAGGAATATTTTTTGGTTTTAGTTTAGAATTTTTTGCTATATCTGTATTAATCTTAATATTATTTCAGACTTTTATAAAAGCTATATCTAAAATAGATGTATATAAAACGCTGATATATACTATAGATTTTATTGATGTATTAATGATAGTTCTATTTCCATTGGTATTTGTTGTAGAATACATATATAAGTGGATTAATAATATAGTTAGTAATGGTGAACATAAGGAAGAAATAGATCTTACTGAAGAAGATATTAGAAATATTATTAATTGTGCTAACAATACTGAAGTGGAAAAAGAAGAAAAAGAAATGATACATAGTATATTTAATTTTACTGATACTACAGTTAAAGAAATTATGACACCAAGAACCTCTATAATTGCATATGATGTTGAAGAGATTTTAGATAATGTATGGGATGATATAATAGAACATGAATTTTCACGTATACCACTATATAACGAAAGTATAGATAATATTTGTGGTATTATGTATACTAAAGATTTACTAAAATGTAAAAATAGAAATATTAAATTGAAAAATTTAATGAAAGAAATGGTCTATGTTCCAGAAACAGTAACACTTACATACATGTTAGAATTTTTCAGACAAAAACAACAACATATGGCTATAATTATAGATGAATATGGTGGGACATTAGGGCTAATAACTATAGAAGATTTGCTTGAAGAAATAGTAGGTGAAATAAGAGATGAGTATGATATAGAAGAAGAAAATTTTAAATCTATATCAAAAAATGTATACGAGTTATTAGGAGAAACTTTAGTTGAAGAGATTAATGAGAAATATAATTTAGATATAGAAATATCTGAGGAATATGATACTATTTCAGGGTATATACAATATAAGCTTGAAAGAGTAGCAATAGAAGATGATAAGGTCATAAATAATGATTATATAATACAAGTTTTAAAAGTTGATAATAAGAAAATAGAAAAAGTAAAACTTATTATCAAAAGATAGGAGTGAAAATGAATAAATTAGAAATTCAAAAATTAGATGAAATGATTAGAAGTATCCCTGATTTTCCAGAAAAAGGTATAATATTTAGAGATATTACTACTGCATTAAAAGATAAAGAAGGATTAAAGCTAATAATTGAAGATTTCACTAATAGATACAAAGACAAGGGTATAGATTATGTATTAGGTGCTGATGCTAGAGGCTTTATTTTTGCATCTGCTATAGCATATAATATAGGTGCAGGATTTGTTCCAGCAAGAAAAGCAGGTAAATTACCAGCTGAAACTGTAAGAGCTGAATATTCATTAGAATATGGAACTAATGTTTTAGAAATTCATAAGGATGCATTTGAAAAAGGTGCTAATGTTTTAATAGTTGATGATTTATTGGCTACAGGTGGAACTGCAAAAGCTATGGTAGATTTAGTAGAAGAATTAGGAGCAAAAGTATATGAGTTAGCTTTCTTAATAGAACTTGTAGACTTAAAAGGTAGAGATTCATTAAAAGATAAGGAAGTATATTCAATATTAAAATTTTAAATAACATAAAAAATACTCACAGAATGAGTATTTTTTTTATTCAAATATATCTGAAAGTTTAAATAATAAATAAACTTGTAATATAAATATTAAGGTAAGTATTAACACAGGTTTTACAGAAAGTTCTATTATAAATAAAGGTATAATATTAATTATCATTGTAAATGGTAATATATTAACAGCTGTTTCTAATAAGTATTCAAAATTTGTTATTTTTAATAATGCTTCCATCATTTTATCACTCCATCGTTTTATTTTTATAACACTAATATACCATATTTGCTTTAAAAACGCAACAATAAATTTAAAAAAATAAAAAAATGTTGCTTTTTTCTAACTCTAATGATATAATATGTTATATTATTAAAGCTGGAGGGAAGTTTATGATGGATCTAGGACAAACTTTAAAGAATGCCAGAGAAAGAAAAGGATATTCATTAAGGGAAGTTGAAGGTAAATTAAATGAAAAAGGAATAAGTTATGCACATACTAATATAAAGAGAATAGAAGATGGTGAAAATAATAAGACATCTATAAAAGTTTTGGCAGGACTTTGTGAAGTTTATTCTTTAGATAAAATAAATATCATGAATTTAGCTGGTGCTAACATAGAAGAATTTGTAGAGTTAAATGATATAGTAAAAAAAGCGACTTTATTCTTTAATGATAAAAATGTAGATGAAGATGATAAAAAGAAACTTTTAGAAGTTATGAATGAAATGTTCTATAAATCTAAATTTGATAAATAACTTAATGTCTTAAAACTAGTTTAGAAAGGTTTTAAGACATTTTTTATTTGAAATCTATTAAATTTTAAATAAAAATATAGTTTCAGTTTTTTAATTAAAGTTGTAATAATATGATTAGAGAATTTATTCACAAAGCTAGATTTTATGAAGTTTATGATACTTTATTAATCATTGACAAAAAGGTCAGGGGGGGGGGTATAATTAACTGAAAACAATGAAAGATATTAATAATAAATATAGGAGGAAAGATGTCAAAGTATAAGATGATAAGCTTATTAGCTATAGGAGTAGCATCATTAAGTGCAGAATACTACGTTAAAAACGATAGTAAAACAGAATTTGGTTATGAAAATGCCTTTACCAAAAAAGCATCAACAGAATTAAACTGGGGAGGAATATTTGGTAAAAACAAAGAAGTATTTACATTTGTAGGAGGTGAAGTAAACTTAGATAAAGATACTAACTTTGGAGGAGAAATCCTTTTAGGAATAAATGTAAAAAAAGCAATAACAAAAGATATAGGCTTAATATTAAATGCAGCCTATCAATATAATGATAAAGCAATGAATAAGAAAGCCTTTGAAGAAAATATAAGAGAAGTATTAAAAAGTAGAGGAGAATGGAAAGAAGAAATAGAAAAAGACAAATATAAACTAAAAAGATATTACCGTGGACAAGGATTAAGATTTAAAGGAGAAGAGACTTTATTTTCAGGAGTAGTAGATTATAACCATAAACTATTTAAACTACAAAGTGGAGTAATATATACAGCAGGATATGCAGCAAATTCAAATAATAGATTAGAAAGCTTTTTAAATTTAAAGACAAATAAATCAAACTATGATATAGAGTTAGACATAGATCATAAGTTTAAGTATGAAAGACCAGATCAAAAAACAGATAACGGCACTTATTCAAAAGGAGGAAGATTAAACATAGAATTAAGTGCAAGAGGTAATGTAGGAAATTTAAATACATATAATAAGGGCATAGTATATTTAGGGACAATAATACCAAGTAAGAAGGATTATCAAATAACAAGTGAGAATGAAGTTAAATATACTATTAATAACATTGAGCTATCAACAGCCTTTAATAATAAGTTAGCCTTTAGACAAGTAGAAAAAATAAATCCTGATAAATTAAAGATAAGATTACAACCAGAATTAAAACTAGGATTAAAGTATGCTAATAAGAATATAGACTTTGAAACAAATGGACTAATAAAGGGTAGGGTAGATCTTAAGAAAGAAAAACAGAAAAAAATAGAATTAGAAATGGATGAATACACTAAAGGAAATAATATATCAGCTAATAACACAGATATTAAGAGAGCAATTTCTAATATATATGTTGATAGTAGAGCAGGATATAAATTAGGAGTTTTCAACTTTAGGTTAGCAGGAAGATATGTAGGGGTAGTAAGTCTTAAAGAGAAAAGTAAAGACATTGATGCATATAACCAATATGCATTTGTAGGACCAGGAATAACATATGAGAGTAAGGTAAAGGAACTTAAATTAAGACATAGTTTTGATATAAGATATGAGATAGGGTATAAGGATAAGAAGACATTTAGTGTAATAAACTTTTGGAGTGATAATAGACAAGAGTATAAGGTAAATGATAAGTTATCATTAAAGGGAGAGGTAAACTTTACAAGTTCAAATAGATTCTCATTTATAGACAAGGACTCAGATAAAAATGAAATACTATTATTAGCAGACACAAAGGGGACAGTAGAATACAAACTAAATAACAAAACAGACCTTACTTCAACACTAGGGTTAAAGACTATATCACTGTTTAAAGAACATAATCAAAATGGTATGAGCGATAATAACAAACATGGAGATGAAAGTTTACACTTAGATGTAAAATATGCATTTAAGGTTTCAAATGAAAATAAGGTAACATATCAATTAAATAATAATATAGATATAGTAGGTAGAATAGATACAAGTTTTGCATATGGATTAAAATCAGATAAGTTATATGAGAGTTTAACAATGATAAAGAGAGAAAGAATAGGAGAAGATGGGATAATAACACATACAGAGGGAGATCTTAAGAAGATAAAGGAAGATGAACAAGCATTTGGAGCTGACAATAGAGCAATTTTATTAATATCACCGAGTGCAGAATTAAGTTTAAAATACTTAAATGATAAGCTACATGTTAAGCCAAGCTTAGGGGTAGATGTAAGTGCTAAGGTAGGTAAGGATAAGAGTAAGTTAGAATACAAAGCAGTAAATGTAAAAGCAAGATTACAAGTGGAATATAGATGGTAGGGGCTAGATAATGAAGGGAATAAAGACTTTAACATTATTATCTATAATGATGGTTAATATATCATTATCAGATAATATAGAAACTAATGCATTAATATTATCATCTAAGAGAAGAAACACATCTATATCAAAGAAAGCAAATGAAATAAAGAAAGTAAATGAAGTAAAAGAGGAGGATGACTTTTTTAACTTTAGTAAGGCAAAGAAGATAGAGTTGTTATTAAAGGTTAATAGTGAGAGTACTATTTTAAGTACAAGGAATATGTTTTTAAAGAATGAACTTTATGGTTCTGCTAAAATATATGAATTTTTAAAATTATCTGGTGGATTGGATTTCGGAGCTAAAACATTTAAACCTCAAAATTACTATGGAGCATTAGGATTAGACTTTAAAGAATTTGGTAGTATAGAGTTAAAATTACATTCTAGTAAGAAATTAGATTTAAAGTATGAGTATGAGAAGAAATTAAAGGATTTAGATATTAATTTAAACACATCATATTCTCTTTTTAATGCAGCTCGTAAATTAGCTGGCACAGATAATGAAATAAGGGTAGAACATCTTTATGCATTAAATGCTAATTTGGGATATAACCTAGGGAATAATTTTAAATTAATAACAGATTTAAATTTAAGTGCATCTACTTGGAAATTACTTAATAATTTTTTTATGTATAATCTTTCAATAGGAGCAGGATTAGATTACAAGAATAATGTATTAGCTGGAATATATATAGCTCATTATAATAAAAGAGAACAACGATTTATAGATGATGAACTTAGTACAAATCATGATCTTAATTCAAGATATAATAAAGGCTTTAGCTTTAGGGGATATGTGGGATATGAATGGGAGAAGAGGTTAAATGAAAGTAGTAAGTTAGGACTTGTTGGTAAAGTGGGGGCTAATTTAGATAAACAAATCATTAGTGATAGGAGTGAACTTAATGATGATGGTGAGGTGGAGGTTATTAGAGATTGGGGACCAATTACTATAAATAATAACTCCTTTGCAACAATAAATCCACAATTAGGATTAAAATACAAGGTTAATGATAACCTTAATATAGAAGCAGAATATGAAGCTAGTATACTATTTCATAAAACTGGATATATAGTAATGGGTAATAAGATAAGAACAGGATTGAAATATACATGGGAGAAATTAAGTGGTAAATCAATAATAGATGTATTAGCTTTAAATTCAAGTTCATCAAATGAGATATTTAAAAAGAATATATATGTAAGAGATAATACAGAATTAAGATTAAGACATGAAAAAAAAGAGAATAAACAATTAGCTAGTAATAATCCTTTAATTAAATATGAAGTGAAAAAAGAACTTAATATAGGAGCTTTAATAGGAAAGAATAAAGACCTATTTGTATTCCTTGGTGGAGAAGTAGTAGGAAAAGATTTAAAATACAAAATGGATAAAAAAACTAATTTAAAAACAATTGAAGGACTAGATGGGATAGCTAACATTGGATTAAACTTTAAAAGGAAGTTAAATAAGAATATAGAGCTTACATTTAATGGAGGATACCAACATAAAGGTGGAATGGAGGCAAATGTAAAAGAGGGGTTAAAGTTAAGAGGATTATGGGATAAGAAATATGAAGAAGATGAAATGGCAAGAAAAGAGTTTTATCATTCACAGGGATTAAGATTTAAAAATGATGAGGTATTAATATCAGGAGTATTAGATTTAGATTATGAGACAACTAAATCAAAGATAGGTATAATATATTCTGCTGAAGAACTAGTATATGAGAAAAGTAGGTTTGAAGGGTTCTTAAATCTAAATCAAAGATTAGGTAATTTTAACATAAATGGAAATTTTAATTACAAACTAAAAGACATACATGAAGTATTAGATAGAATGGGTAGAGTAAAGGGAGATGTATCTTTATCAGGAAAAGTAGGAAATTTAGAAATAATAGGGAAAACATATGTACACATAGGTTCTATAATAAGGAGTGATAAGGATAGAACATTTGGAGGAGAAGGAAGTTTAGTATATAAAAACAGAAATCTTAATTTAAAGACAACTTTAAAACATGAAACTATGTATGATTATAGTGAGAATGAAAGTAAAGAGATATATAGTAAACCAAGACCTAAAAAAGACAAGACTAATAGCTTGGTTCAAAAAGAAGAGTTTTTATTTAATTTAGGATACATCAATAAGAATATTGAACTTAAATCAAATATTAAAGTAAGAAGTAAAATATTAACAGATATTAAAAATGGAATTAAAATAGATACTAATAAATATAAGAAAAATGATACAAACAATAAGAACAAAGATTTTACAGTCTTATTAGCTTACACAGATAATGAGTTAAATACAAAGCTAGGAGATATTACTTTAAGACTTTCATCAAAATATAGATACAATATGGATATGAATGATATTAAAAAATTAACACATAAACATTTAGGATTAGCAGGGATTGGTATAACATATGATATTAAAACTGATGATCTAATGTTAAAAAATAGTGTTGATGCAAGATATTTAATATCATATTCTGATAATGAGGATTATTCTATAATAAATGCATGGATGGATAATAATGTAGACTATAGAGTAAACAATAATTTAAGATTAAAAGGAGAACTAAACTTAACTAGTTCAAATAAGGTTAAATTATTAGAGAAAAAAGGAATGGAAATATTAGCTTTAGGAGATTTAAAAGGTATAATAGAAGCTAATTTAAGTGATAAAGTTGAGCTTAAGAATGAAACAGGATTAAATGCAATAGTATTATTTGACTTTAAAAATGGAAATAATTCTATATCAAGTTCTTCAAAACAACAAAGTCCAGTATTAAAAGAATTGTTATTAGACACTACTCATAGTTATAAGGTGTATAATAAAAATAGTTTAGGTTATGAAATAGTAGATGGAATAAAGTTAATAAGTAATTTAGAATTTTCATATTTAAGTGGGTATAAATCAGATAAGTTATACAGTGTATTAAAAGATATAAAAAGAAAATTAATGGATGAAAATGGAATAATAGGAATAGGGAATAATGAAAAGAAAAAAATAGAAGAAGAAAAGTCTAAATATGAATCTAAAAGTGGCTTATCAGTAATAGCAATAAAACCTGGTATAGAGGGAGAATTTAAAATTTTAAATGATAGATTAACTGTAAAACCAAAAGTAGAAGTTCAAGTAAACTTTACTAATGATTCATATACAACATACAAGTATAAATCAACAAATGCAAAAGCAATATTAAATATTGACTATAAGTGGTAATATTAAAGGTGTTTAGGGTAAAACTTAAACATCTTTTTAATAAAATTAATACATGTATCAACAATCAAGAAAATTTACAATAAATAGTTTTTAATTTGTAATGTGATAAAACATATGTAACAAAAAATAAAAAAAGAGAGATACATTTGATATAATAGAGTTTGACAAAAACTAAAACAATCAAAGGAGTATCTCTCATGAGTATTATAACAGAAGAAATGAAATTTCGCCATAGATTATGTGAATATGCAATAAAAAATGGAGTAACTAAAGCAGCAAGGCGTTATCATACAAATAGACAATAGGTTCAAGAAAGCCCCATACAGAAGAAGAATTAATACTAATAAAGAATATGTTAAAAAAACATGGAAGTTATGGATTAGCCCAAGTATATGTTAGTTGTAAGAATAAGGGGTATAATAGAAGCTTTGGTAGTATGTGTAGGATCAAAGGGGATTAGATATTATCAGATAACTGCTATAGATGAGTATAGTAGGAAGAGGGTATTAAAGGTTGTAAAGGAAAAGAGTACATATGAGACATCAAAGTACATTAAGGAGTTAGAAAGGGCTATAGGCTTTAAGATAGAGACTATACAGGTAGATAATGGATATGAGTTTGTAAATGATAAAGATGTAACGGATAGGGAAGATGGAAAGATATTGTATAGTAGGAAAGAATTTAGGAGCGAGGAAGAATTAATAGAAAATGTTAAAAGGCATGAAAGGCTGTATAATAATAGGGCAAAGACAGTGCTTAATTTTAAGAGTCCAAATGAGGTTGTGAGGGAATACTTCACTAAGGTTAAGAAAGAGGCTTAAAAGGGCAACCCCAATCTCACTTCACACACTCTAACAATCAATTAAACACTAAACATTAAACAACACTTAACTAAACTAAACACTTAATTAAACACTTAGACAATTAACTAACTCTAACTTATATTAAATTTATTTCTTATTATGTAACATATGTATTGACAATTAAGAATTTACAATAAATAGTTTTTAATTTTAATTGAAAAAATATATAAAAGAATGTATAATTAAGATAAAAATAAAAAAATAGAAAAGGTGATTTAAATGGATAAAATAACTAGATTAAAAGAGATACTTGAAAAAAATAGAGCATATCAACATGCAATGACAATTTTATCTTGGGATTTAGAAACTGAAGCACCAGTAAATGCTGCTGTAAGTATATCTAAAACGTTAGGAACTTTAAGCGAACTTTCTTATTTAACATTAGTAAATGATGAAGTAAAAGATATAGTGTACGGTTTAAATTTTGATGAACTTAATGAAATAGATAAGAAATTAGTATTAAATCTAAAAAAAGATATTTTTGATAAAATGAGTAAGATACCTGTAGATGTGTATTCTAAATATTCTGAACTTTCTACTATATCTACTCAAAAATGGGGAGAAGCTAAAAGAAGTAATAATTTAGAAGTATATGCTCCATATTTAGAAGAAATAATAAGATATAATAAGGAGTTTATAAAATATAGAGGATATAATGGGCATCCATATAATCTTTTATTAAGTGATTATGAAAATGAATTGACAGTAGAAATAGTTGATGAATTTTTCAAAAATATTAAAGATGAATTAACACCATTTATTAAGGAAGTAATTACTAAAAAAAGAGAAGAATTAAAAGATATTAAAGCTAGATTTTTATCAAAATCTTACCCTATAGATAAACAAAAGAAATTATCTAAGGAAATATCAGAAATCTTAAGATTTGACTATAACTCAGGTGTTATTAAAGAAAGTGAGCATCCATTTACAACTAATACAAGCAATAAGGATGTTAGAATTACTACTCACTATTATGAAAATGATCCTCTTTCAGCAATATATTCAACTATACATGAAACAGGACATGCACTATATGAACAACAAATATTAAATGTATACCAAGATAATTTCCTAGGTGGTGGAGTATCTATGGGTATACATGAATCACAATCAAGAATATTTGAAAATATGTTCTGTAAAAATGATAGCTTTACTAAATCTTTATATAACTTAATGGATAAATACTTTGGTATGGACATTACATTAGATGAATTTAAATTATTATTAAATGAAGTAAATGCATCACTTATTAGAGTTGAAGCAGATGAGCTAACTTATCCTATACATGTAATGATAAGATATGAATTAGAAAAAGAAATATTTTCTGATTTAGAAAGAAAAGAAAATGCAGAAGATATAGCTAAAAAATGGGCAGATAAATATGAGGAATATTTAAGTGTTAGACCTATGACTTATTCTGAAGGAATTTTACAAGATGTGCATTGGTCTCAAGGTTCATTTGGATACTTTTCATCATATGCATTAGGATCAGCTTATTCAGCACAGATATATAATGCTATGGAAAAAGATATAGACATATCTAAAGAATTAGAAAATAATGAATTTAGTAATATTAATAGTTGGCTTAAGGAAAAATTACATCAATATGGTTCATTTAAAGATCCTAAAGATCTAATATTAAATGCAACAGGAGAGGAATTTTCTCCTAAATACTATGTAGATTACTTAAAAAATAAATTTTCTAAAATATATGAAGTAGAGGTGAAATAATGAATAATAAGAAACTTAAGGCAGAATTTCTTGATTTAGAAATTAAAAGCTTTGCCAGAGAAATGATAGAATTTATTGATGATTCACCTAGTACTTATCATGTGGTTGGAAATTGTTCAACAATATTACTTGAAAATAATTTTGAAAGATTAGAACCAACATCAAAATGGGAATTAAAAAAAGGTGGAAAATATTTTATTAAAAGATCTAATTCATCAATTGTTGCATTTACTATAGGTGAGAAATTAGATGTAAATAAAGGATTTAAAATATTTGGTTCTCATACAGATTCTCCTGGATTTAGAATTAAACCTAATCCTGAGATGACTGTAAATGGATTAATAAGATTAAATACAGAAGTTTATGGTGGACCTATATTAAGCACTTGGTTTGATAGACCTTTATCTGTAGCAGGTAGGGTTATAATAAAAACTGATGATATATTTAGACCAAAAACTATAAAAGTTAAGATAGATGAACCTGTATTAATTATACCTAATTTAGCTATACATCAAAATAGAGAAGTTAATAATGGTATTAAAATAGATAAACAAAATGATATATTACCAATAATAGGATTAGTAAATGAAAATTTTGAAAAAGATGGATATTTAATAGACTTAATTTCAAAGAAATGTAATATTAAAAAAGAAGATATACTTGATTTTGACCTATATGTATATGCAACTGAAAAAGGTTCTTTAGTAGGTGTAAATCAAGAATTTGTATCTGCTCCAAAGCTTGATAATTTAGTTTCAGTTTATTCTGGATTATTAGGATTAGTAGAGGCGGAAAATGCAAATAATCAAATTAATGTATTTGTAGGATTTGATAATGAAGAAATAGGTTCTGCTACAAAACAAGGAGCAGATTCTAATTATTTATCTAATATATTAGAAAGAATAATATATTCACTTGGTATGGATAGAAATACTTTCCTTACTATGCTTTCTTCTTCATTTATTTTATCTGCTGATGGAGCACATGCTGCTCACCCTGCATACCTAGGTAAAAGTGATCCAACTAACCTTGGAAAAATAAATAATGGAGTTCAGCTTAAAATAAGTGCAAATCAAAGATATACATCAGATGGTTTCTCTATAGCAGTGGTAAAACAAATCATAGAAGGAACTGATATTAAAATACAATTTTTTGTAAACCAATCAAATGAGATTGGAGGTTCAACTATAGGACCTATATCATCAACACATTTAGATATAGATTCAATAGATTTAGGAGTTCCTATGTTAGCAATGCATTCAGTTAGAGAATTATGTGGAGTAAGAGATTTATTCTATTTAAAAGAGTTAGCAAAGGAGTTTTTCAGTAAAAATTAAAGCATAAAGGAGATCGATAATTGGAAAGAAGTGATATAATAATTAAAAATATTTCAAAAAGTTTTGGGGGAGATAAAATACTTAAAAATGTAAGTTTAGAAATAAAAAAGGGAGAGTTTTTTTCTATACTTGGACCTAGTGGATGTGGAAAAACTACACTTTTAAGAATGATAGCAGGATTTATTTATCCTGATAGTGGTGAGATTATAGTTAATGGTGAAAGAATAGATAAATTACCACCTGAGAAAAGAAATGTTAATACAGTTTTTCAAAACTATGCACTATTTCCAACTATGTCTGTATATGATAATGTTGCATTTCCATTGAAACTTAAGGGTTATTCCAAAAGTGAAATAGAAAAAGAAGTAAATAAATATTTAGATTTAGTTGGATTATTAGAACATAAAAATAAGATGCCTGAAAATTTATCTGGTGGTCAAAAACAAAGGGTTGCTATTGCAAGAGCCCTAATAGGTAAACCAGATGTATTATTACTTGATGAACCATTATCAGCACTTGATGCTAAATTACGTCAAAAATTATTAATAGAACTTGATAGTATACATGATGAAGTAGGTATTACTTTCGTATTTGTAACTCATGATCAAGAAGAAGCTCTTTCAGTATCTGATAGAATAGCTGTAATGAATAAAGGTGATATTTTACAAATTGGAACACCTAATGAAATCTATGAAAAACCTAAAGATGAGTTTATAGCAGATTTTATAGGTGAAACTAATTTTTTAACTGGAGAAATTACAGAAGTTTATGATAATTATGCAGTTGCAATTTCAGATGAAATTGGAGAATATAAGGTTGAACTTGATAAACCTGTTAAATTAGGAGATAAGGTTAAACTAACTCTAAGACCAGAAAAAATTAAAGTTGATGTAAAACCACCACGTGAAAATTCTAAATATAAGGTTCTAAGAGGAGTAGTTGACGAGGTTATTTATTCTGGATTCCAATCAAAACTATTTATTAAAGTTGAGGGATCAAATAGAATAATTAGAGCCTTTGATCAACATAGAGAATTTTTAGAAGAAGAAGAATTATTTGAATGGAAAGAAAAGGTGTATTTCTACTGGAATTATGAAGATGCTTATCTAGTGGAGGTGTACTAATGGCACAAAAAGATATATTACAAGAAAAATCAACACTAAAATATCTATATTTTTTGCCCATTACTATATGGATGAGTATATTTTTTGCAATACCTACAGCTATAATAGTATATTTTAGTTTTTTGAAAAAAGGTGCTTATGGAGGTATATCAAGTTATAGTACTTTTACTTTTAAGGCGTATATTGATATATTTTCATCAAAAGATATATTTAAAATAGTTTTGAAAACATTAAATTTATCTATAGTTATAACTATAATCACTATATTAATAGCAATACCTACAGCCTACTTTATTTCTCGTTCAAAGAGAAAAAATATATGGCTGTTATTAATAGTAATACCTTTTTGGACTAATTTTTTAGTTAGAATTTTTTCCATAGTTGCATTAATAGGAAATAATGGGATATTAAATAAATTTTTGGTTAAACTATTTTTCTTAGATAAACCACTAGATTTATTGTACAATAGAAATGCAGTAATAATAATATCTGTATATATATTTCTACCTTATGCTATACTTCCTTTATACACTGCAATAGAAAAATTCGATTTTTCATTAATAGATGCAGCAAGAGATTTAGGTGCTAGTAATTTTACAGCACATATGAAAATATTTTTACCAGGAATAAAAAATGGTATAATTACAGCATTAGTATTAACATTTGTTCCAGCTATAGGTTCATATGCTGTTCCAGATATTGTTGGAGGAACTGATGGAATAATGCTTGGAAATATTATTGCAACAAGAATGTTTAGTTTAAGAGATTGGCCATCAGCATCGGCTATTTCTACTATATTTATACTTATTACTTCCGTATTTGTATGGATAGGAATTAAAGCAGATAAGGATGGTGATGAATAATGAATGAAAAAAGAAGATTTTCTTTATTCTTTTTTGTATTAGTTATGATATTTTTTTACTTACCAATAATAATGTTGATTGTCTTATCATTTAATTCTAGTAAAGGCTATGAATTTAAATCATTTTCTTTAAGATGGTACATAGATCTATTTACTAAATCACCAAGACTTTGGCAGGCTTTTGGAAGAAGCGTAATTATAGCTATATCTTCTTCTATGATTTCTGTGGCTATAGCTATATTAGGTGCAATAGGAATTAAATGGTATAACTTTAGATTTAAATCATATGTCAAAGTATTAAACTATATTCCTTTGGTTATACCAGATTTAATAATAGGGGTATCTTTATTACTGTTTTTTAATATGAATTTTGCTAAAATACCTTTAGGAATGGTTACAATATTTATTGCACATACAACATTTAATATACCTTTTTCATTGTTTATACTGATGTCAAGACTTTCAGAATTTGATTTTTCTATAGTGGAAGCCTCAAGAGATTTAGGTGCAACAGAACTGCAAACATTAAATAAGGTAATACTTCCAACTATGATACCAGGAATAATATCAGCATTTTTAATGTCTTTAACATTATCACTTGATGATTTTGTAATAACAAGTTTTGTTACAGGAACTAATTCTGATACTTTACCTATACAGATATATTCAATGTTAAAATTTGGTGTAAGTCCAACTATTAATGCACTTTCAACTATATTAATATTTGGTACTTTAATACTAGCTTTATCTAGTAGAAAATTACAAAAATATATGCTAAGTTAGAAAATAAATATCTTTAAAATAAGGAGAATCTATATAAATTATGGAAATTCTCCTTTTATTTTTCTTAGAATATCCATAACCATATTGTAATACCAAAGTATATTTAGTATAATGAATATATATATAAGGTGTGGAAAGGAAATATTATGAAAAAGATTATTTTGACAATATTATCAGCTATAACATTGTTTGCTTGTAGTAGTATTAAACCAATGGATGTTGAAAATCAAAATTTTGTTCTTGAAACTATAGAATATACAGAAAATAATATTTTAAATACTATAGGAAAGGGAATGACTTTACAATTTAAATCAAAAAAATTATCAGGTAAGAGTTCAATAAATAATTTTTTTACTGGATATAAAATAGAAAATAACAAATTAATATTAGATGGTATAAATTTAACTAGAATGGCTGGAAGTCAAGAAGATATGACTTTAGAAAGCGAATATTTAAATGCTTTATCAACTAATAAACATATTAACAAAAAGGGTGAAAAGTTAATACTTGAAGCTCAAAATGGAATGAAGCTTGTATATATACAAGAACTAAACAGTGAAAACTTAGAAAATAAGAACTTTAAATTAGTTAATGATGAATTTAAAGAAAATGAATTTACTATAGGATTTAAAGAAAATAATATTTTTGGTAGAAGTGGAATAAATAGATACTTCAGTACTTATGAAATTGAAAACAATGTATTATTCTTACAAAATATAGGAACAACTTTAATGGCAGGAGAAGCCAAACTTATGGAACTTGAATCAAAATATTTAGGAATGTTAAGTAATGTAAATGGAATAAAATATGAAAACAACATATTAACTCTTTATACTAAAGATAATCAAAAGTTAGTATTTGAAGAAATAAAATAATAAACCGATTAAACCAATTAAACCTATTTAATTTAACCGAAACAATAAAAAGATTAATTTCTACTACGGTAGAGTTAATCTTTTTTATTTACATAATTTGCTTGTCGTTGACAAATATTTGTCGTGAGGTGTATAATGTCTATATATTTATTAATAAGTGAGGGTTTTATGAATATTAAGGAATTTCGTTTTCATTTTGTATTTTTATTTATACTAACAAATTGTTCATCGTATCATGCTGATGAATATGTAGTTAAACAACTAAAAAATAAACCAGTAGAATATGTTCCATCAAGTGATGTTTCAAAAAAGAATTTAGGTATAAATGAATCATTAGAAGAAGTAAAAAAAGCCGAAAAAATATTAAATGAAAATGAAAACCCCGTTATAATATACGAACTATTATTAAGTAGAGAAACAAATGATAAGACAAGAAATAAATATAGTTTTTTAAATAATGATGAAAATATAAATTACAGTAGCTTAGGAGAATCTGGTATTTTTAATAGTCATGCATTTGATGTAACTGAAGCATTTATGGATACAGATAGTAATGGTGTTGTAAGTGATGCTGAAAAAAATGCTTTTAATGGAAAAAATCCAAAAATAAAGCTACTTAGAAGAGATGCTGATGTTCTTAATGCTGTAGGAATAATAAATATGTCATATAGTATAGTTAATCATAATAAAAATCTTTCATATTTACAGAGTAGTAGTAAATATTTAGATAAAATAGATCCTAGAGATATAAATCGTTTAGAAGATTTTTTAACTACAAAATTAATAGATAGAAATTATGTATATAATCAAAGATTATTAATAAGTGCTATAGGTAATGGAAATTTTAATGATATAAAAACAGAAAAATTTTCTAGTGAAATATTAAATATATATCAAGTTATGTCGCCTGAAATGCAAGCCCTTGCAAGAAGTGAAAGTATTTTTGTAAAAAATTCATTTAAAAAAGATAATGAACTTATGAAAAAATTTAGTAAGGATTTTCCAATATCGTATACAGATATTGATAATGTTCAGTACATAGATAGATTTAAAAAAGATATACCTCAAGTTTACCCCTTATTACTAAGAAGTGCTACTGTTGGAGAAAATGGTCTTTTAAAGGCAGATAAAGAAGGAGAAATACCTAAGTTTGGTTCATCATTTTCATCACCAAGAATAGCAAGACTAGCCTATGATATTAAAGAGAAATATCCATTTTTAACATATCAACAAGTAAAACAGGTAATACTTGGAACAGCAAGTCATGCAAATGATGGTTATTTAAGTGATAGTGTAGGTTGGGGTAATGCAAATAGAGAAAAGGCATTAAAAGGACCATCAGATTTTAATGCAGGATTAATAGATGAGATGAAATACTTTAAAGGTAATTATGATAAAATATTTGATGAAAATGGTAACAGATATTTTTATGTAGATATAAAAAAAGATAAAGAATACACTTTTGAAAATGATATAACTAGTGGATTAACAGGGGATGGTAAGAGTACTGAAGAAAGCATCATAAAAATAAAAGGTGTAAAAAACTGGTATGATTATGAATATAACGCTACAGAACATTCTTATAGAATCCCAAAGGTATTAGAAAGTGAGAAACTATTTTATTCAAATGTAGCCCAAGCAGGACTAAGAAAAGATGGGGAAGGTAAGTTAATCTTAACAGGAAAGCAAGAATACAGTGCTCCATCACAAGTATTAGATGGAACTCTTGTTTTAAAAAATGATAGTAATTCAGATTATACTGTATATGAAAAAGGAACATTAGTTGTAGAAAATATTAAAGGAAATGAAGACAAAGAAATCAAATTAAAGAACATATACACAGATGGAAATGTAAAGATAGATAGTAGTAAAACTAGCATAGAAAAATTACATGGAACATATATGTCCAATGTTGAATTTAGTGGAAAAGAAATAAAGATAAAAGAGTTTAAGACAACAGGTGAATATATAGTAAGATTAAAAGAAGAAGATATTAAAAATATTAATGGAGCATCTATAGGTCCTAAACTAACTATTGATAATTATGTGAAAGAAGATGCAGATTTTTTAAATAATCTATCAAACCCATTTTTAAAACCAGTAGTAATGAATGATGATAAGATAGTTAGTGTAAAATTTGTTAGCACATTAGATAATGAATTTAAGAAATTAGGGCAATTAGATGAAGATAAATTAAAAGATATACCAAGCTATGATAGAAATAAGAAAAACTTCTTTGAAGAATATGGTAAAGTTGAAGCAATGCCTAGTCAAGTAAAATCTATGTTATTAAGTTCAAGCAGTAGTGAAGCAAAGAACCTATTTACAGATAATTATGCAAGTATAGTAGGAAATGTTATTAAAAATGAGATAGATAATAAGTATAATAGGAATAATATAATATTAAATAATCTTGAAAAGGATAATAGATTATTCTTTGACACTTATGCAAGAACTAATATATTAAATGATAAGAAATTTAGTCCATTTGTTGATAATAATATAGGGGCAATATTAGGATATTCAAGAAAATTAAAAAATGGTAATAGACTAGACCTATATGGAATATATCAATATGGTAATGTTATATTTAATAATAGTGGAAGTAATAAAACTAAAAGTATAAACCATTTATATAACATAGGATACAATTTAAGTAAAAGATTTATTGATATAATCATATTAGACATGGAAAATAGTGTAGGATATACTAAAAGTGATGTATATAATAATACTTCAAATGCAAGTGATAAAACAAATATAATTCATAGTTTAAGTATAAATCCTGGTATAAAGATAGGGCTTGAATTAAATTTTGATAAAATAAAGACAATATTTAGACCTTATGCAGGATATAATTTTAGTTTTGTGTTAGCTTGGGGAAAGAAAGATAATACGTCTAGTAATACTGATTTAATAAATAAATTAAGAAATATAGCATTAACAAAATTAATAAATCATAATGTAGAATTTGGAATAGAAGTAGATAGTAAGATAAATAAACATTTTAGCATTCAAAATAGATTAACTTTTGACTATAATAGTCTTGATAAGATAGAGTTAAATCAAATTATAGCTGAAAAATTACATAAAACATTAGGAAAAGGACTAGATAAGATAAGTGTAGGATATAATTTGGCGGCTAAGTTAAGACTTTTAGAAGGTATGAATGTTATAGGGAAAGTTAATATAAATAGTAAGTTAAATATAGGATTAAATTTAGGTTTTGACTATAATTTTTAAAAATGGGGATTTTTAAAATTCTCATTTTTTTAACTTTTATGATATAATTTAAATAAAAAGGTGTAAATATGATAAATAAATTTGATGAACTTATTAATGAAAGAAAAGAATTTCAAAGAATATCAGATAATGTATCTGAAGTAAAAATATTGTCCGAAATAGTAAAAATGGCTAAAGACATTTATGGTGAAATGTCTAATGAGTATATCTATTATCTAAATGAGCTTGGAGGAGTTTCTAAATATATAGGAGAATATGAATTAGGAATTAAAAACTTAAAAAAAGCTCTATCTTTAATAGAAATTAGAGAGGGTAAAAGATCAATTCCTTATGCTACATCTTTGTTAAATCTTGCAGAAATATATAGATTTAGTGGTGATTTAGATAATATAGAGGATATATATTTAGAAACTTTATCTATTTTTGATGAAAATAAGTTAGAAAAAGAATATGTTTATGCAGGTTTATGTAATAATATAGGGCTTTTTTATCAAAATATTGGAAAAATAGAAAAAGCTATTAAATATCATGAAAAAAGTTTAGAAATATTATTATATATGCCAGATCATTTAGTTGAACTTGCAACTACATATAATAATCTAGTTATGCCATATAAGGAAATAGGTAAAATAAGACAGGCATATTCTAATTTAGATAATGCTTTAGAAATATATGAAAAAACTTTAGGTAAGGAACATTCAATGTATGGTGCTGCACTTAATAATAAGGCTATACTTAAATTTGAAGAAGGAGAGTATAGGAGTGCTTTAAATATATCTGAAATAGCATTAGAAATCACCAAAAAATCCTTTGGAGAAAATAGTTTAAATTACAAAAATCTATTATCTAATGTAGAATATATTAGAGATATAGTTAAAAAAAGTGAGAAAGAAATAAGTGTAGAAGTTACAAATGATTCAAAACTTATAGATAAATCAAGGGAATATACTAAAAAATATATTTTACCAAAGATTAAAGAAAAAAATGAAAAACTTTTATCTAAAATTACTATAGCTCTGATAGGAGAAGGTTCAGAAGTAATAGGATATGATGATGAATATTCAAAAGATCATGATTATACATTTATGCCTATAATTTTCTTAAATGATGAGGACTATGAAAAATATCATAAAGAACTTGAAGATATTTTACTATCTTTACCTCAAGAGTTTTTAGGTATAAAGCATGTAAATAATAATGTGGTAAATGAAAGACGTGGAGTTAAAAAAATAGGAGATTATCTATATAGATTTATAGGAAAAGAAAATGCAAATTTAACTATAGAAGATTATAGGAAAATACCTGAACATGCTCTATTTTCATTAACAAGTGGAGAAATATTTTTTGCAGGTAATGAAGAATTAAGCTCTATATTATCAACATTAAAATATTATCCTGATGTTATTAGAGAAAATAAGATAGCTACAGTATGTACTCGTATTGCTCAAAGTGGACAATATAATTATTTAAGATTAATGAAAAGAGAAGATAAAATTGCTGCAAGTATAGCAAAAAATATATTTATAGAAAATGTAATACATTTAATATATTTACTAAACTTTAAATATATGCCTTTCTATAAATGGTCAGCAAGAGGATTAAAAGATTTACCTATATTAGGTAAGGAAATAGAAAAAAGATTATTTGAATTAATAGATAATACTACACTTGATAAACATCAAATGTCTAATAGAATTGAAGAAATATGCTATTTTCTTGTAGAAGAAATTAAAAAACAGGGATTAAGTAAAGAAAAAGGATATTTTTTAATAAATCATGCAATAGCAATACAAAAAAATATAGATGATGAATTTTTAAAATTATGGACAGCATTTGAAGATTAGGAGATAATATGGAAAAAGAAGAATTAATAAATGAAATAATATTAAGGGAATGGGAAATGTTTAAGGTTTTAAAAAATACAGGAGGGCCTGCTGAATGTCAGAATAATAAGCCTGAATTTGAAATTATGAGAAAAGGTCAATGGGAAAAATTACCTATTAATATATTACAAAGCTATCTTATAGACCTAAAAAATGCAGAAGAAGTAGGAAGAAATTTATTGGAAGAGAAATATATTAGAATGATGAAATTTTCAGCTCCAAAAGAATTTGAAGAAGTTAAACATCTACTTCCTGAACTATCACCAGGTATAGAGGTATTGATTAATAAAATAGAAAAAATATATCTTATGTGGGGAGATGAATTTGAAAAAAAGTTTCCTAAATTTTCAAAATTATGTAGACCTTTAAGAAATGAAGGAGATATACCAGAAAAAGCATCATTACAAACATATTTAAGAGGAGAATTATCTAGTTATTCTTTAAAAACAGTTCTATTTTATTCAGACTATATAGAAGAATGTGTTAAAAAAGGAGTTAATTTAATTTATGAAACACATAAAGAAGTTGTAAAAATGAAAGGCTTTGAATCTATAGAATCAGTAGAAAATGCACTTGTAATATAGTAGTGAAATGTGGTAAAATTATGAATAGAAAACAAAATTTAGGAGGAAAAATGTTAAAGATTACTTTGCCAGATGGAGCACTGAAAGAAGTAGAGAATATGACTGTCATAGAATTTGCTAAAACTATCTCTACTAGTTTAGCCAAAAAAACTGTTGGAGCTTTCTTTAATGGGACCCAAGTAGATATTACATATAATTTAGATAAAGATGGAACTTTAGAATTAATAACAACTGATAGTAAAAAAGGATTAGAAATTTTAAGACATAGTTCAGCTCATGTTATGGCTGAAGCTGTGATGAGTTTATTCCCTAATACTAAAGTAACAATAGGACCTGCTATAGAAAATGGGTTCTATTATGATTTTGATACAGAAAGACCATTTACTGAAGAAGATTTAGTTAAAATAGAAAAAGAAATGAAAAAAATAATTAAATTAAATGAAAAGTTTTCAAGAGAAGTTTGGAGTAGAGAAAAAGCTAGAGCTTATTTTGAAAATGCAGGTCAAAATTATAAGGTGGAAATACTTGATTCTCTTGAAGAAGATGAATTTACTATATATACTCAAGGGAAATTTGTTGATCTTTGTAGAGGAACACATGTTCCATCTACTGGATATATCAAAGCATTTAAATTATTAAATGCTGCTGGGGCTTATTGGAGAGGAGATTCTAATAATAAGATGCTTCAAAGAATATATGGTACATCTTTTTACAGTCAAGATGAATTAGATGCATATATAAAGCAAGTTGAAGAAGCAGAAAAAAGAGATCATAGAAAATTAGGTAAACAACTTAATTTATTCTTTATAGATGAGCATGGACCAGGTTTCCCATTCTTTATGCCTAAAGGAATGAGATTATTTAATAGATTACAACAATTATGGAGAATAGAACATAATAAACAAGGATATGATGAAATTAGAACCCCTATAATGCTTGATAAAGAATTATGGGAAATTTCAGGGCATTGGTTTAATTATAGAGAAAATATGTATGTATCTGAAATAGATGAAAAAGTTTATGCTATTAAGCCTATGAACTGCCCAGGTTCTATAATTGCATATAAGAATAATTTACATTCATATAAAGATTTACCTTTAAAATATGCTGAAATGGGACATGTTCATAGACATGAATTTTCTGGAGCTTTACATGGATTAATGAGAGTTAGAGCATTTACTCAAGATGATGCACATGTATTCTGTACTCCTGATCAAATTAAAGATAGTATTAAAGAAATTGTAAATCTTTATGATAAATACTATAAATTATTTGGATTTGATTTCCATGTAGAATTATCAACTAAGCCTGAAAAAGCTGTTGGAGATGCTAAAGTTTGGGAAATTTCTGAAAGAGCTTTAGAGGAAACTTTAAAAGAATTAAATATAGATTATAGAATTAATGCTGGAGATGGAGCATTTTATGGACCTAAGATAGACTTCAAAATGAAAGATTCTATAGGAAGAATTTGGCAAACTGGAACTATACAGCTTGATATGAATTTACCAAAGAGATTTAATATGAGCTATATAGGTAAAGATGGAGAAAAACATGAAACTGTAATGATACATAGAGCTATGTTTGGATCGCTTGAAAGATTTATTGGAATATTAATAGAACATTATGCAGGAGCATTCCCAGTTTGGCTTGCACCAACTCAAGTAAAAATAATGACTATATCTGCTGAACAAGTAGAATATGCAACTAAATTACATAAGAAATTGATTGATTTAGGAATATATTCAGAACTTGATATTAGAGATGAAAAAATTGGATATAAGATAAGAGAAGCAAATGGAGAACAAAAAATACCAGTTCAACTTGTAATTGGTAAAAATGAAGTATTAGAAAATACTGTAAATGTCAGAAGATTTGGTTCAACTGATAGTGTAACTAAGAATGTTGATGAGTTTATAAATGAATTACTTGATGAAATTAACATAAAATTTTAGTTAATAAAAGGAGAATGAAATGTATAATGAAAAAAATTTAAATGAAAATATAGAAATGGGGATATTAGGTTCATATCTATGGATGGGTTTAGGGCTTTTAATTACTTTTGGAATAATGTATTCTTCACTTTATTCTGTAAAACTTGTAAATATATCTATTATGATACAAAGATTTTCTATAATATTAATGATAGCTATAGCAGTACTTATTAGATATATAGTTGTAAATTCTAGTGCCTCTGTTTTAAAGTTAGTATTTATAGGATATTCTGCATTTTTAGGAATATTACTTATACCTATAATGTATGCTTATCAAATGGTATCTATAATTACTTTACTTGGTTCAACATCTGCAATGTTTGTAGGTATGAGTGCTTATGGATACTTTACAAGAAGTAATTTACAAAGTTATTCTAAATATTTATTTGGTGGTTTATTAGGGATAATAGTAATGTCTGTTTTAAATATCTATATATTTAAAAGTAATACTGGAGATATTATGCTTTCTATGGCAGGACTATTAATATTTATAATATATACAGCAGTAGATACTCAAAGAATTAAAAGTATGATTTTAGATGCATACTATGAAGGAAATAAGGATTTATTAGACAAAGTTAAAATTTTTGGAGCTTTAATGCTTTATTCTGATTTTATTAATATGTTCCTTTATCTGTTATCATTATTTGGTAAAAGAAGAGATTAAGATTTATTTATAATGAAATGAGAAAGGTAATGTAAATATAATGAAATCATTTTTGAAATATCCTGGTGGAAAACAAAAAGAGATAGGAATTATAAGAGATAATTTACCTAGTAAAATATATGATTATTATGAACCTTTTATAGGTGGTGGATCAGTTTATTTAGCTCTTGATTTTGAAAAGAAATATTATATAAATGATTTATCAGAAGATTTAATAAATCTTTACAATTGCATTAAAAATCAAAATGAACTATTTTTTAAAGAATTAGATAAAATAAACTATAATATAAAATTAGCTAAGGAAATATCAGTTAAGGAAGCATATGATTTCTATGAAAATTATCAAAATTATGATGAATTTTTAACCTACTTTTTAACTAATGCTAAAATAGATGATTTAGATAATTTGAAAAATAAATTATACATCTCTTTAAATAGAAAGTTAAAGTTAATAGATAGACTAGATAAAAGAAATATAGAAAAAATAGATATATTTAAAAACATAAAGACAGGAATAACTTCTGGTCTTTATGTTTATTATAGAGAGTTATACAATAATTTAAAATATGACAGTAAAAAAGAACTTAAAGCAGCTCTGTTTTACTATATAAGAGATTTTTGTTATTCATCTATGTTTAGATATAACAGTTTTGGTGAGTTTAATGTTCCTTATGGTGGGATAAGTTATGATAATAAAAATTTAGATTCAAAAATAGAATTTTTAAAAAATGAAAATGTAGTTTCAAAATTAAAGAAATCGAAAATCACAAATGAAGATTTTGAAATATTTTTTAGGAAAAATAAACCTAAAAAAGAGGATTTCATATTTTTAGATCCACCTTATGATACTGAATTTTCTACTTATGATAATAATCCTTTTGGATTAGAAGATCATATAAGATTAAGAGATTTTTGTAAAAATACAGAAGCAAATTTTATGCTAATAATAAAAGAAACAGACTTTATTTTAGAACTATATAAGAATTTTAATATAAAGAAATTTAAAAAAAACTATACAGTAAGCTTTAAAGATAGAAACAAAAAAGATGTAAATCATCTTTTAATTACAAATTATTAAGGGTGTGAGGGTTATATGACAGAATTTAATAAGAAGGCAATAGAGGAAATAGTTGATTCTAATATAAAAAAATTTGCTATGGGATTAGAAGAAAGATATATTAATGAATTAAATGATCCTAATGGAGTAATACATAGAAAGAAAAATAACTGTTTTATTTCAGAATTAGGTAGAGAATTTATGTTTTATAGTGCATTTGTTAGAAGTTTTGATAGTTCATTTGGAAAAGTTTTAGAAAATATAGGAAATTCAATAGCTAAATTAAACTATAAAGTTAAATCAGAAGTTTCATCTTTTTTACTTCCACAACAAAGTCAACATATAGATTATTTAATGTTAAATTATGAAAAGCATATGAAACCAAAAGTGGAAGATTATAAAAAATATAATATAATGATACCTAATGATGTAAGAAGTTTTGCAAAAAAACATAAAACGGATCATTATTTTTATGATGAAGAAAATAAAACACATTATTTGATAGAATTAAAATCAAGTGGAGATTTAGATAATAAAAAAGCTAAAACTGAAAAAATAGCATTGTTACAAGAATACTTCATTTTGAAAAATAGTATAAATTTAGATGAAGATATAAAAATATTTTTGGCTACAGCATATAATATATATGGTGAAGGAAATTATTGGAAACAAGATAGAGTAAGACAGTTTTTTTCTGATGATGAATTAATGATAGGAAGAAAATACTGGAATTTTGTTTGTAAAGATGAAAAAGGTTTTGAAATTTTTTTTAATCAATATAAAAAAAGTTGTAATTATATAAGAAAAGTTTTATCTCAAATAAAAAATCTATATTTTTTAGATGAAACAGAAATAGATTAAGAAAACTATTTATATATTTTCAAGCAAGGACTAATTCCTGTAAAATGCAGTACAAGATTAGTCCTTTTGTTTTTTTCTTACTTTATTGAAAATTTCAGATTTAGAAAGACGAGTAGAAGATTTTTTTGTAAAATTATCTGCCTTATCAAGTTCTTTTTCAATATTATCAGTAAGTTCAGAATATTGTTCTATACTAATTAACACCATAGTTCCATAACCATTTTTAGTTAGAAATACTGGTGAATTTGAATTAATAACAATTTCTTCTATCTCAGGAAACTTATTTCTTAAATCAGATACTGGACGAATATTAATCATAATGACCTACCTCCTTTTATATCAATATAATATCATAATTTTATCTTAACTTGCAATAAAAAAATAGGTCGTGATATATTTAATTAATTGTCAATACATATGTTACATAATAAGAAATAAATCATAGGAGGCTATTTTTTCAATTTATAAACTTTTTTACACTCTCTTCTTTTATTTAAAAAGGAAAACTCTCACTTTTGTAGAAATTCCCCTATATTTTTATTTTAGTTCGGAACAACCACAATTGTGGGATAAGGTTTTTCTAAAGAAAATTTAAAGCATATTAGGTATTGGTATCAATTTTATTCTAATGGTTTAATTGGGTTACAGCCTGTAACCCAATTGAAAAAGATAGAACAAATGATAAAAAGTATCCCTTGGGGACATAATCAAAGAATTATGTATAAGTGTAAAACAGTAGAAGAAGCTTTGTTTTATGTAGGAAGAACACTTGAGAATGGTTGGAGTAGAACAGTCCTTGAACATCAAATTGAAAGCAACTTATACAAAAGATTAGGAAGTGCAATTACAAATTTTGAAACAATCTTACCTGCACTTCAATCAGATTTAGCTAAACAGACAATTAAAGATCCTTATAATTTTGATTTTTTAACATTAACAGAAGATTATAATGAGAAAGAGCTAGAAAAAGAATTAGTTTCTCGAATAACGGATTTTTTATTAGAACTTGGTGCAGGTTTTTCTTATGTTGGAAAGCAGGTACATATAAAAGTTGGAGAAAGTGATTTTTATATTGACTTATTATTTTATCATATCAAATTGCACTGTTATGTTGTTGTTGAATTAAAAACAGAAAAATTCAAGCCTGAATTTGTAGGACAGCTTAATTTTTATGTAACAGCAGTAAATAGAGATTTAAAAGGTAAAGAAGATAATCAAACAATTGGTATATTAATTTGTAAAGACAAAGATAATGTAGTAGCAGAGTATGCACTAGCAGATACATCTCAGCCAATAGGGATAAGTAAATATGAAATTAGTGAGTTATTAGAAAAAGAATTTAAAAGCAGTTTACCAAGTATTGATGAGATAGAGAAAGAATTTAAATAATATAAAATCAAAGATGATAGACATGTGGTGTAATTTTAGGGGTTACACCTATTTATTTTTTAAAAAGTTAAATAATTATGACAAATATCACTAGAATTGAAAAAGTAATAAAAATATGTTAAAATATAAAGAAATAAAAAGAGTGGAGTAAGTAATTTTAAAGGACTTTTGATGAGAGTTTTTTAATGTTATTTGCTCACTCTTATAAAACATAAAATAGGAGGATAGAATGTTTGACAAAAAAACATACATTTTAGATGTAGCAGGAAAAGAAGTTAAAATTGAAACAGGTGAAATTGCAAGACAAGCAGGAGGATCTGTTTTAGTAACTAGTGGAGGAACAACAGTACTTGTTACAACAACAAGAAGTAAAGAAGTTAAAGAAGGGCAAGATTTCTTTCCATTAACTGTAGATTATATAGAAAAATTTTATGCTACAGGTAAATTCCCGGGTGGATTTATTAAAAGAGAATCTAAGCCATCAACAGAGGAAGTTTTAATTTCAAGATTAATTGATAGACCAATAAGACCCTTATTTCCAGAAGGATTTTTTAATGCAGTACATGTAGTAATTAATGTAGTTAGTTTTGATGGTATAAATATGCCAGAAGATATTGCTACTATAGGGGTATCATTTGCATTAGGTTTATCAGATATTCCATTTAGTGGACCAGTTGCAGGAGTTACTGTAGGATATGTAAATGGTGAATATATTATTAATCCAGATAAAGAACAAAGAGCTAATATGGATATTTACTTATCTGTTGCAGGGACTAAAAGTGCAATAACTATGGTTGAAGCTGGAGCAAGTGAAGTAAGTGAAGAAGAAATGTTAAATGCAATAATGTTGGGACATGAAGAAATTAAAAAAATATGTGAACAACAAGAAACTATTTTAAATAGTTTAAATATTACAAAAATGGAATTTAAAGGCATAAATTATGATGAAAGAGTAACAACTTTTTTAAATAAATATCAAGGTGAATTAAAAAATGCAATTTTAGTACCTGGAAAATTAGAAAAATATGAAGCTATAGATAATTTATGTGAAAGTTTACTTTCAACATTTAAATTAGAAATAGCAAAAGAAATTTTATCAAAAGAAAAAACTGAAGAAGAGAAATTATTAGAATTAATTGGAGAAAATAAGGAAAAATCTGTTGATGAATTAGTTAAAGAATTTAAAAAATATTATCATGATTTAGAAAAGAAAATAGTAAGAGAATTAATAATATTTGATAAATATAGAGCAGATGGAAGAAAAATTGATGAAATCAGACCATTAAATGCACAAATTGATGTACTTAAAATGCCACATGGTTCAGCCTTATTTACTCGTGGAGAAACTCAAGCTTTAGTTACTGCAACTTTAGGTTCTAAAGAAGATGAACAAATTATAGATGGTATGGAAGGTGAATATAATAAGAAGTTTTTCCTGCACTATAATTTCCCACCATTTTCAGTTGGAGAAGCAGGATTTATGAGAGCACCTGGTAGAAGAGAGTTAGGGCATGGTAATTTAGCAGAAAGAGCACTTAAGGCTGTAATGCCATTAATAGATGATTTCCCATATACAGTTAGAGTTGTATCAGAAATAACTGAATCTAATGGTTCATCATCTCAAGCCTCTATATGTGGTGGTTCTCTTGCATTAATGGCAGCAGGAGTTCCTATAAAAGGAACTGTAGCAGGTATAGCTATGGGATTAATTAAAGAAGCAGAGAATTTCACAGTACTTACAGATATTCAAGGATTAGAAGATCATCTAGGAGATATGGACTTTAAAGTAGCAGGTACTAAAAAAGGAATTACAGCTATACAAATGGATATTAAAATAGAAGGTATTAATAAAGAAATAATGGAAATAGCATTAACTCAAGCACATAAGGGAAGAATGCATATAATAGAAGTTATGGAAGCTACTATACCAGAATCAAGACCAAATTTACCTGAAAATGCACCTAAGATAATTAATCTAAAAATAGATCCAAGTAAAATAGCAGGATTAATAGGACCAGCAGGTAAGATAATTAAATCTATCATTGAAGAAACAGGAGTTAAAATTGATGTTGAAGATGATGGAAGAGTATCAATATTTGGTGTAGATCAAGAAAAAATGAATAGAGCATTTGAACTTGTAACACAATATACACTTACAGTTGAATTAGATAAGGTATATAAAGGAAGAGTTACTAAACTTGCAAAATTTGGTGCTTTTGTTGAACTTGTACCTGGTACAGAAGGATTATTACATATATCTGAAATATCACATAAGAGAATTAAACAAGTTGAAGATGTCTTAAAAGTTGATGACATAGTTGATGTTAAAGTTATAGCTTTAGAAGATAATAATAAATTCAGTTTAAGTATGAAAGCATTAATAGAAAAGGAAGAAGCTAAAGAAGAAAATTCAAATGAAGGAGAATAATACTATGATAAGTAAATTTAATTTACCTAATAAATTAACTTTAATAAGAATAATATTAACACCTATATTAATTTTATTGATGTTATTTAAGTACGGATTTAATCATTCTATTTTGATTACAATATTATTACATATTTTAGTTGTTTTACTTTTTGCAACAATAGCATTAACAGATTTTTTTGATGGGTATATAGCTAGAAGAGATAATTTAGTTACTAATTTTGGTAAATTATTTGATCCTATAGCAGATAAAGTATTTGTATTTTCAGTATTAATTGTACTTGCAAAATACAATGTGTTTTCAATTTGGTTAGTATTAATATTACTTGCTAGAGAGTTTGTTGTCATGGCTATTAGAATGTTAATTTTAGAAAATGGAGGAGATGTTGTTCCTGCAAGTCCTATAGCTAAATTAAAAACAGCAACTCAAATGGGAGCATTATTATTTGCCCTTATTTTTCCTTTTGGTAATTTTGTAAATTCTGTAATTTTATTGCCTTCAGTAATATTTTCTATAATTTCAATGTTAGAATATTATGAAATGGTAAAAAAATATTTAATGGAGGATATGTAACTTGGAATTTAAACAAAGTATAGAAGAAGTATTAGAAAAACAAAATGTAGATAAAAATTTAGGTCTTAGTGAAGAAGAAGCAATAAAAAGACTTGAAATATATGGAGAAAATAAATTAGAAGAAACTAAGAAGAAAAGTTTAATTTCAAGATTTATAGATCAATTAAAAGATGTATTAATATATGTTTTAATTATTGCCTCTATATTAAATGTCATTGCACATTATCCTGATGGCTTTACAGAAGCAGCAATAATATTGATGGTTGTATTAATTAATGCTGTAGTAGGAGTTGTACAGGAAGCTAAGGCTGAAAAAACACTTGAAGCATTAAAAAAATTATCATCTCCTAAAGCTGTAGTTAAAAGAGAAGGTAAAATATATGAAATAGATTCTAAATATCTAGTTCCTGGTGATATATTGATAATAGATGCAGGTAGATTTATTCCAGCAGATTTAAGGTTAATAGAAACTCAGAATTTACAGGTTGAAGAATCAGCATTTACAGGTGAATCACATGTAGTAAATAAAGATGCGAAATATATATCAGAAAAAGATAATATACCTATGGGAGATAAAATTAATTTAGCTTATTCTTCAACTCTTGCAACTTATGGAAGAGGAGAAGGTGTTGTTATTAAAACTGGTATGAATACAGAAATAGGTAAAATAGCTAAGGCATTAAATTCTGATGAAGATAATACAACACCATTACAAAAAAAGCTTGATAAATTAGGTAAAACATTAGGATATATAGCTATAGTTGTATGTATAATTATCTTTGGTTTAGGTGTGCTTCAAGGTAGAGGTGCAGTTGAGATGATGATAACAGCTGTTTCACTTGCAGTAGCAGCTATACCTGAAGGACTTATAGCAATAGTTGCAATAGTACTTTCAACAGGTGTTACTAGAATGAGTAGAAATAAGGCTATAGTTAAAAGATTACCAGCTGTTGAAACCCTAGGTTCTGTTAATGTTATTTGTTCAGATAAAACTGGAACATTAACTCAAAATAAGATGACAGTAGTTAGAGATTACTCTATGGATAATAAGGAGCTTTTAATTTCAGGGCTTGCTCTTTGTTCAGATGCTACTGAAACTATAGGAGATCCTACAGAAATAGCCTTAGTAGTTTACGCAAATAATCATGGATTAAGTAAAAATGAGTTAAATATTAAAAACAAGCGTGTAAATGAATTTGCATTTGATTCAGATAGAAAATTAATGTCAACTCTGCATGAAAATGGAGATAAATATATTTCATTTACTAAGGGTGCTATAGATAATATTATTTCATTATGTAAATATGTTAAAGTAGGTAATGAAATAGTAGAAATGACAGATGAATATAGAAAAAATATATTGGAAAAAAGTATAGAAATGTCAAATGATGCTCTAAGAGTTTTAGGGCTTGGTTATAAGGAAAGTGATATATACTTAGAATGTGAAGATTTAGAAAAAGATTTAATATTAGTTGGTATAGTTGGTATGATAGATCCTCCAAGAGAGGAAGTTAAAGATTCTATAATAACAGCTCAAAAAGCAGGTATTAAAGTAGTTATGATAACAGGAGATCATAAAAATACAGCTGTTGCTATAGCTAAAGAATTAAATATAGCTAAAGATATTACAGAAAGTATAACTGGACCTGAAATAGATGAATTAGATAAAGAATACTTTTATGAAAATGTAGATAAATATTCTGTATTTGCAAGAGTATCACCTGAGCATAAGGTTAATATAGTAGAAGCATTAAAATTAAAAGGAAATATAGTATCTATGACAGGTGATGGAGTTAATGATGCCCCATCTCTTAAAAAAGCTGATATAGGTGTAGCTATGGGTATTACTGGAACTGATGTTTCTAAAGGTGCTGCTGATATGATATTATTAGATGATAATTTTACTACTATAGTTAAAGCTGTAGAAGAAGGTAGAAATATATATAATAATATTAAAAAGACTATAATGTTCTTACTTTCATGTAATTTAGGGGAAGTAATATGTATATTCTTTGCAACATTACTTGGTCTTCCTATACCTTTAGTTGCAACACAATTATTATGGATTAATCTTGTTACTGATACACTTCCAGCTATTTCATTAGGGCTTGATCCTGGAAATAAATTGGTTATGGATGAAAAACCTCGTTTACCTAAAGAAAGTTTCTTTGCAAGAGGTGCAGCAATTCGTGCATTAATAGGTGGAACATTAATAGGATTATTTACTTTACTTGCTTTTTATATAGGGTTAAGAGAAGAAGGATTTAAAACTTTATCTGAAATTAAAATGCTTAATGAAGGTCATAGTGCTTTAATTCATGCAAGAACTATGGCATTTATAGTACTTACAGTATCACAATTATTCTATTCATATACTATGAGGGTAGAAGATACAACTACATTAAAAGTTGGATTATTTACTAATAAGTATTTAAATATTTCTTTTGTTATAGGAATAGTTTTACAAATACTATTAATAAATATACCATTCATAGCAAAGATATTTAAAGTACAATCATTAGGAATTTTTGACTGGGATATAGTTATAATATTAGCAATTATTCCATTTATAATAAATGAATTAATAAAAGTATTTTTTAAATTTAAAAAATAGGTAGGAAGGAGCTGAATTTATGAAAAAATTAATCTATATATTCTGTTTATTTTTAATTTCATGTTCTAATAATGTAGAAGAAAAAGTTAGTATAAATAAATTAGATGAAAATGGAATAGAAGTAGAGATTGTTAATGTAGATTCAGCTCATTTTACTAAATTATTAGATGGTAAAAATGATTTAAATGAAAAATATTTTACTAAAAGTGAACTTAATAAATTTAGAGAAAAGAATATAGATGCAAATCAGGTATATAGATATATAGAAGAAGCTAAAAATGGAGATGTTAATGCTATTAATTCTCTTTCATATGTATATTATCTTTTAGAAGATAGTAAGAAATTAAAGGAAATATTAGAATTAGGTCTTAAAAATAATGTGAAGGAAGCAATATTTAATTTAGCTTTATTAGAATTAGGTGAACAAAATTATGAAAAGGTTTTATCATATTTTGATAAATTACCTAAGGATTATAAGAAAAAGGAAATAGAAAATTTAAAATCAGTAATATATTTAAATATTGCTTCAATTGCATTAAAAAACAATGACTATGACAAAGGAGTTGTAAACTTAATTAATGCATATAATTTAGGATTTAAAGAATTAGATTATGAGATTGCAAATATATATAGAATAAAGGGAGATGAAGGAAACTTAATTAAGTGGCTAACTATATCATCTAATGCCCAAAATATTAATGCAAAAAAAGATTTATCTGAAATATATTATCATAGTGGTCAAATCGAAAAATCACTTAAATTATTTGAAGAATTATATATTTTAGGTGAAATAGAATATGCAAGAATGCTATATTTTGTTAATTATAGATTGTTAAATAACAGGGAAGCACTTAAATGGTATAGAATATCTAGGGTTTTAGGTATAGTTGAGAGAAATTTAGAGTTAGAGAAACTAAAAGGTTTCTATAATTAATATAAAGAGAAAGAAGAGGAAAAATAAATGATAACAATTTTAAGTTTTTACTATCTTGTAGTTTTAGAAGGTTTAAAAAAACTTACTTTTTTAACGGCTTTAATATTATTAACAATTATTACATTATCATATTTTAAAATAATAGAACTAAAAAAATCTTTAAAATTTGTTGATATGTTAGTTAATGCATATATTTTATTTATAATCCCAATTATTGTGGTTACTATAAGGTATAACTTAGAAAATTTTGATTTTATTATTGATTTTTTAAGAGAATATATGCTATTAGAATATATAGTCTTTAAACTTGTGATTATACAAATTCTAAGATATATTGATGAAACTGAAAAAAAAGAAGAATAAAAAGTAGAAAATGAACAAAATTAAGAGGTTAAAATGAAAAAAATTCTGTTATTTATTTTATCTGCTATTTTTTCATTTTCTATAAACTTATCTGAAAATTTAGAAAATGAAATGTATGCCATATTAAATTATGATCATAGACTATATAAAAGTATGTATATAGGAGATGATGAGAATAATAAATATTATTCATATAATGAAACAAGTACAAGACCTTTAGCATCACTTACTAAACTTATGACAGCATTAATAATATTTGATGATATACAAGAAGGCAAATATGAACTTAATACAGAAGTTGTAGTTAGCAAAGAAGCTTCTAAAGTTCCATATGGAGTAGTAATTAAAGAAAATAGGATATATACTATAGAAGAATTATTACATTTATTATTGATAAATTCATCTAATTCTTCTGCATATCAATTAGCACTATTTTCTAGCTTTGGTAATGTAGATGAATTTGTTGATAAAATGAATAAAAAAGCTAAATCTTTAGGTCTTAGATCTTTAAGATTTAGAACACCTCATGGATTGCCACCAGTAGATACAAATAAGGCTATGGATATTGGTAATGCAAGAGATATATATTTATTAGCACTTAATGCTTTAAATAATGAAAAACTAATTGAGATATCTAAAAAATATTCTTATGAAACATCTGATGGAATTAAGATTAAATCGACTAATACTTTAGTTCAACTTGATGAAGTTTTAGGGCTTAAAACAGGTTTTCATAGAAGAGCAGGATATAATATAGTATATTTGATTGATAATGGAGATAAGAAAATTATACAGGTTATTTTAGGAGCTAATACTATTAGTAGTAGAGAAAAACTTGGATTAAAAACTTTAGAATTGATGAAAGAGAGTGATAAATAATGAGGCCATATTTATTTAAAATAGGAAGTTTTGAAATTAGAATTTATTCATTAATGTATATTATATCTCTATTTTTAGGAATATTTGTTGCCAAAAAAGATGAAATTGCAAAAAAAAGAGGAATAAAAGAAAATATTATTGAAGATTATGCATACTTTGTAATTATTGCAGGATTAATTGGAGCAAGAATATATTATGTATTACTTAAATGGGGATATTATAGTCAAAATCTGTTAGAAGTATTTAAAGTTTGGAATGGTGGACTTGCTATACATGGTGGAATTATAGGTGGGTTAATAGGGACTATAATTTTTGCTAAAATGAAAAATGTAGATTCATTGGTACTAATGGATATGGCAGTAGGGCCTTTGATTTTAGGGCAAGGATTAGGAAGAATAGGAAATTTAGCAAATGGAGAAATACATGGATTTCCTACTATTACACCATTTTCAGTGATATTAAAAGGTAATTTTTCGATTTGGTGGCAAGAATTTCAAGCCATGCCTTTAATGAAACAACTTGAATTTAAAGAATTAGTACCTTGGGGACTTAAGTTTCCATTAGATACACCAGCTGGACAAGAATTTCCAAACATGAGTTTACATCCAGCCATGATATATGAAATGATACTTAATTTTATAGCCTTTTATATAATATGGTTTATATTAAGAAAAAAAGAATATTCAAAAGGTATACTTACTATGATATATATTATTACATATGGTATTATTAGAATAATTGTTTCAACATTTAGAGCAGAAGATCTGTTAATATCAGGTATAAGAGCACCATATATAGTGAGTTTAATAATGATATTAGCTGGAATAGTAGGTATTTATTATTTTAAAAATAAGAATAATAAATATTTAGGGTAGTTTGAAAGGAGATATTATGAGAAGTTTATCAGGAATACAACCTAGTGGAATGCTTCATTTAGGTAATTATTTTGGAGCTTTAAAACAATTTGTTGATTTACAAGATAGTTATGAAGGAATTTATTTTGTAGCAGATTATCATTCGCTTACAAGTCAAATAAATCCTGAAATGTTAAGAACAAAAAGTATGAATATAGTTATGGACTATATAGCAGCAGGCTTAGATCCTAAAAAATCTACAATATTTTTACAATCATCTATACCTTTGCATACAGAACTTATGTGGATATTATCTAATCTTACTCCTATGGCATTACTTGAAAGAGGGCATGCATATAAGGATAAGGTGGCAAAGGGTATAAAAGCAAATGTTGGATTATTTAATTATCCTGTATTAATGGCAGCAGATATTTTACTTTATGAACCTGATTTTGTTCCAGTAGGAAAAGATCAAAAACAACATATTGAATTTACTAGAGATTTTGCTGTTAAATTTAATGAATTTTATGGTAAGGAAGTATTTAAATTACCTGAAGCTTTAATTCTTGATAATGTTGCAACTGTTATAGGTACAGATGGTGAGAAAATGTCTAAATCGTATGGGAATACAATAAACATATATGCACCTGAAAAAATAGTGAAAAAACAAGTTATGAGTATAGTTACAGATTCAGCAGGGCTTGAAGATTCAAAAAATCCAGATAATAATATTACTAAACTTTATTCTTTATTTGCTGATGAAAATGAAATAAAAGCAATGAAAGAAAAATTCATTGCGGGGAACTATGGATATGGTCATGCTAAAAAAGAATTACTAGAAAGAATTTTAGACTATTTTAAAGAACAAAGAGAAAAAAGGTTTGCATTAGAAAATAATTTAGATTATGTAAAAGAAGTGTTAAGAGCTGGAAGAGAAGCTGCAAATAAAATAGCAGAAGCTAAAATGAAAGAAGTTAGAAAAACTGTTGGTCTTATAAGTGATGAGATATGAAAAAAATACTAGTAGCATTATTTGCTGGAATATTTTTATTATCTTGCTCGAGTATAAATATATCAACATCTTCAATTAAAAATTCTCTTTCTAAAAGATTTGATGGTGAGCAAAATTTCTATATCTTTAAAGCTGAAACTAAAGTAACCAAGGTTTTTATTGAAAATAGAAAATTAAATATAGAAGTAGAACTTAAATTAAAAAAATTAGAAAAACCTATAGTTGCTTTAATTGAAACTGAATTAAAATATAATTTACCTAAACTATATGCTACAAATGCATATATTAAAAGTGTATCTAATGTTGAATATGAAAAAATTGTAAAAGAATTATTTAATATAATAGCTAAGACCGTATTATTTAATAAGGAAATATTAGATGTTAGAGAAAAAATAAATCCAGATAAGGTTAAAGATATATATGTAGGAGAAAAAGCAATAGTTGTTGAATTTAAATAAAAAAATATGATATAATGAATGAAATTAGGAGGAAAATATGGGATTTTTATGTCGTTTATTCGGTAAATGCAAAAGGGAAGAAACAAAAAAAAGTAATGAGATTAAAATCATATCACCATTAGATGGAAAGGTAATTCCATTAGAAGAAGTTCCAGATCCAACATTTGCACAAGCATTACTTGGTAATGGTGTGGGTATAGAGCCTTTAACAAGTGGAGTTATTAAATCACCAGTAGATGGAACTATTATACAATTATTTGAAACTAAGCATGCTTTTGTTGTTGAAACTGAAGATGGTGTTCAAGTATTAACACATTTTGGTTTAAATACAGTTAAATTAAAAGGAGAAGGTTTTGAAATAATTACTAAAGAAGGAAGTAAGGTTAAGGCAGGAGATCCTATAGTTAAATTTGATTATGATTTCTTAAAATCTAATGCAGCTTCTTTAATAACACCTGTTGTTATACTTGAAACTGAGGAATATAAATCAGTTATACCAGTAAAAGGAATTGATACAGCAATTTCAGGAGAAACAGTAATAATTAATATAGAAAAGTAATTATGTAAAATGAATATATTTAATATATATTCATTTTTTTAATTATACATATATTCGTATTTAATTTCTTATACTATATGAAAATATAATTAAATTATTTTTAAAATATTGACAAAATATGTGGGGGGGGGGGTATAATTAAATATATAAGAAAGAATAGGAGAATAGTTAATGAAAAAGTTGTTATTAATACCAATATTTATAGGATTAATTTCATTTTCAGTTGATATTATTGGGCCAAGATATAGAATAGAAAGTTCTTTAGGAACTTTAAGTGGTAGAGAAAAATATATTTTTAGAAGTTATAAATTTTTTTCAAGTTCTATTTCATTATTTACGGAATGGAAAGCAGAGATTAATCAAAAATTAGATATAACATTTGGGCCTAAAATTACAGGAAATGTTGCAGTTAACTTTGATAATCCCAGTCAACCAACAATAAGACCTAGTATACTTTTAGGAGGAGAAGTAGATTTTAATTATAAAATAAAAGAAAATATTAAAGTGTATACAGGTATAGAAGTAGGAACAGGAATAGGATTTCAGGTTCCAATTATTTCAGGAGATAAACATATCCAAGGTCCAGAATTTACATCTATAAGTAAATTTGCATTAGGTATAAAATTAAAAGATAGATATAACATTGCTATTTATACAGGGGATATAAATGGAATGATTGGAATAGAGTTAGGATATACTTTTTAAAAGAAAGGAATAATATATGAAAAAATTAATATTATCAATAATGCTATCTGTTGTAGGAATGATTTCATTTTCAACGAATATTACTGGTGGAAAATATAGGGTTGAAGGAGCATTAGGTTTTATTAGTACTAAACAAGAAAGTAAATTTGAAAATATTAGATATACTTCAGGATCTATTTCAATATTGCCTGAATTTAAAGCTCAAATTAATAAAAAGATAGATATAACATTTGGGCCTAAAGTTACAGTAAATATTGACTTTCATAGTTATCAAAGTAAATCAAAAATTAGACCTAGTGTAATTTTAGGAGGAGAAGTAGATTTTAACTATAAATTAAAAGATAATATTAAAATATATACTGGTATAGAAATTGGAACAGGAGTTGCAATACACATGAATTATATACCTTTAGATAAAAGAGTTAGCAACAATAATAATTCTCCTTTAGAATTAAAGAGGACAGAATTAGCTACTATAGGTAAAATGTCATTAGGAGTTAAAATAAAAGATAAATTTAATGTAGCTCTTTATACAGGAAATACTAAAGGAGTGTTAGGAATAGAATTAGGCTATACTTTTTAGAAGAAGGGAATAATATATGAAAAAGATATTAATAATATTGTTTATTGGATTAGGATTAAATTCTTTTTCAATTTCAACGAAAGCAAATAATAGAAAAAATGTAACTAAAAAAGTTTCAACTAAATCTTCAGACTTTAGAAATAAAGTTAATAATAGTGAGACTTTAAATAAAATAATAGGACCAAGATATAAGATTGATGGATCATTAGGTATAATAAGTAGTAGATATGTTCAGAATTATGCTGAAAATTATATTTCTCTTTCTGCTGGATTTTCATCTGAATGGAAAACTATAGTCAATAAAAATTTTGATATAACATTTGGACCAAAGATAACTTTAAATGTCTATAGTGATTCATCAGGAGCTTCTATTGAAATTAATCATGGTTTAATTTTAGGTGTAGTATCTGATTTTAATTATAGATTAATTGAAAATTTTAAATTATACACAGGAATAGAGTTTGGAATAGGAGGAGGTATTAGGATTTTGTATCCAAAATTAATTCCAAGTGGAGAAAATTTATTATCTATAGCTAAAATTTCTTTAGGATTTAAATTAAATGATAAGTATAATGTAGGATTTTATGTAGGAAATGTTAAAGGATTAGTTGGAATAGAAGCAGGGTATACTTTTTAGAAGAAAGGAATAAAATATATGAAAAAAATGTTATTAATAATATTATTTGTTGGAATAGGGTTAATTTCATTTTCAAATAATATTATTGGACCAAGATATAGAGTAGATTTGTCTTTAGGATTTGGTTATATTCTAAGTGAAAAAGACAATGGTAATGAGTTTATTTCTACATCTATAGGGGTTTTGCCTGAATGGAAATATCAGATTAATAATAAGTTAGATTTAACTTTTGGTCCAAAAGTTAATTTAATTTTTTCAAATTATATTTCTTCAAAAACTAAATTTTTAAATGGGTTAGTTTTGGGAGGAGAAGGAGACTTTAATTATAGATTAAAAGAAAATGTTAGATTATATTCTGGTATAGAAGTTGGTATAGGTGGATTAATTAAATTTATGCCTAATAAAGTTGAAAGTTATGAAATTATAAATGTAAGTAAAATTTCATTAGGAGCTAAAATAAAAGATAAGTTTAATATTGCTTTTTATATAGGATATAGTAAAGGATTGCTTGGAATAGAAACAGGATATACATTTTAAAACAGTAGTTAATACTACTGTTTTTTTAAATAATGATATATATTGATTTTTTTGCTAAAAAATGATAGAATATTTAAGTAATTAATAAAGTTAGAATGAAACGGAGGACATAATGAAAAAGATAGCAATCTTAACTAGTGGTGGAGATTCACAAGGAATGAATACCGCTATAAGAGTAGTTGCTAAAACTGCTATGCATAAGGGTATAGAAGTTTATGGAATTAGAAGAGGGTATAAAGGAATTTTGAATAGAGATATATTTAAAATGTCATTACTTGATGTAGCTGGTCTTGCAGGAAAAGGTGGTACTATGTTATTATCAGCAAGATTACCAGAATTTAAGGACCCAGAAGTAAGAACTAGAGCAGCTAATATTTTAAAAGAATTTGGTATTGAAGGATTAGTAGTAATAGGTGGAGATGGTTCTTTCCACGGTGCTCATTATTTATATGAAGAGCATGGAATAAAAACTATAGGAATACCTGGAACTATAGATAATGATATTGCAGGAACAGATTATACTATAGGTTATGATACAGCATTAAATATAATACTTGAATCATTTAACCAAATTAGAGATACTGCTAAATCTCATGATAGAACTTTCTTTATAGAAGTTATGGGAAGAAATTGTGGAGATCTAGCTTTAAATGCTGGAATTGCAGCAGGAGCAAATGGTATATTAATTCCAGAGGTTGAAACTTCTATTGAGGATATAATAAATATTATACAAAAAAGAAGAGAAGCTGGAAAATTCTATGATGTAATAATAATGTCAGAAGGATATAAAAACAAAGAGAATATACTTAAGGAATTAAAAGAAAGAATGCCTGAGTTAGATGTTAAACATACTGCATTATCACATATTCAAAGAGGTGGAAATCCTACAGCAGCAGATAGATTACTTGCTACAAGATTAGGAGTTAGAGCAGTAGAATTATTATTAGAAGGAAAATCAGGTTTAATGGTTGGAATTGAAAGCTCAACTGTAGTAACTCACAAATTATCATATGCATGGGAAAATTATCATAAAAAATCTCAAGAAGATTATGATATTGCAATGATGTTATCAGTTTAAACTTTAAAATAAATATTTAGGAGGATTTAGATGAAAATTAAAATGACTAAGGTTGTATGTACTATAGGGCCAAAAAGTGAAAAGAAAGAAGTTTTAAAACAATTAATTTTAAGTGGAATGAATGTTATGAGATTAAACTTCTCACACGGAGATTTTGAAGAACATGGAAATAGAATTAAAACTATAAGAGAAATATCAAAAGAAACAGGAAAGCATGTTGCAATTTTATTAGACACTAAAGGACCAGAAATTAGAACAGGTTCTCATGCTGAAGGTGACGTTAAATATGAATTAGTTGAAGGACAAGATTTCATAGTTACTACAGATTATGAATTTAAAGGAACACCTGAAAAAATTTCAGTTTCTTACCCTAACATGACTAAAGACTTAAAACCAGGAGATACTATATTAATAGATGATGGATTAATAGGTTTAGAAGTTAAGAAAATAGAAGGAAATGAAATTTTCTGTAAAGTTAAAAACTCTGGAGCATTAGGGCAAAAGAAAGGTGTTAACTTACCAGGAGTATCAGTTTCATTACCAGCTTTAGCTGAAAAAGATAAAGGAGATTTAAAATTCGGTTGTGAAGTTGGAGTTGACTTTATAGCTGCTTCATTTATAAGAAAGGCATCAGACGTTGCTGAAGTTAGAAGAGTTTTAGATGAAAATGGTGGAGAACATATTAAAATAATTTCTAAGATAGAAAATCAAGAAGGTATAGATAACTTTGATGAAATATTAGAATTATCTGATGGAATCATGGTTGCAAGAGGAGATTTAGGAGTAGAAATTCCAGTAGAAGAAGTTCCATTTGCACAAAAAATGATGATCAAAAAATGTAATGCAGCTGGTAAACCAGTAATTACAGCAACACAAATGTTAGATTCTATGCAAAAAAATCCAAGACCTACAAGAGCAGAAGCAGGAGATGTTGCTAATGCGATTTTAGATGGAACAGATGCAGTTATGTTATCTGGGGAATCTGCAAACGGTAAATATCCAGTAGAAGCTGTTAAAACTATGGCTACAATTTCTGCTAAAACAGATGAATATGGAGTACCAAAAATTTACTACAGTCATGATGTAACAATTACTGAAGCTGTATCAAAAGGTGCAGTAGAAGCTGCTGAAAATTTAGGAGCTAAATTAATAGTTTGTTGGACAAAGACTGGAAGAGCTGCTAAAATGATTAGAAAATACAACCCAACTATGCCAATTATTGCTTTAACTGATTGTGAAGTTACTGCAAGACAATTAGCATTAGTAAGAGGAGTTAGAGCAGTTGTTGCTAAAGATTTAGATAATGCTGAGCATTTCTTCGCAAAAGCATTAGAAGTAGCTGCATCAAATGCATCAACTACTGAAGATGAAGCATACACAGGATTTAAAAAAGGTGATTTAGTTGTATTAGTAACAGGAATTTCTGAAACAGGAACAACTAATACATTTAAAGTTGCAAGAATAGGATAATAAAATATAAAATAGAAAAAGAACTGTTTATTCAGTTCTTTTTCTATGAAAGGTAATGTATGAAAAAAATTGATGAATTAGTGCTAGTATTATCTAATTTAAAGGGTATAGGTAAAAAAAATGCAACTAGAATTGCTTTTGATTTACTTTCAAAAGATGAAGATGATATAAACTATCTGTTATATACCATTAAGAGTGCATATGAAAATATAAAGCCATGCAGTGTATGCCATAATTTAACTGATTTAGGCATATGTGATATATGTAGTTCTACTAATAGAAATAAAAATGTAATTTGTGTAGTAGAAGACACAAGGGATATTTATGCTTTCAATAAGGCAAGTTCATATAATGGACTATATCATGTATTAGGTGGTAAAATAGATCCATTAAATGGTATAGGTATAGATGAATTAAATATAGATAGTCTTTTATCGAGAATAGATGAAAATATAAATGAGGTAATTCTCGCACTAAATCCTGATTTAGAAGGAGAAACAACTATACTTTATCTGACAAAATTATTAAGTAATATGAATGTTAAAGTTAGTAGAATAGCAAGTGGAATACCTATAGGTGGAAATATAGAGTATTCTGATAGTGCTACTTTAATTAAATCATTAGAAGGTAGAGTAATAATAAAATAAGGAGATTAAAAATAATGGAAAAAATATATTTTACTTCAGAATTTGTATCACCAGGTCATCCAGATAAAATTTGTGATCAAATTTCTGATGCAGTACTTGATGCGTGTTTATCACAAGATGAAGATTCAAGAGTTGCATGTGAAACATTCGCTACAACTGGATTTGTATTAGTGGGAGGAGAAATAACAACTAAAACCTATGTTGACATACAAAAGTTAGTTAGGGATAAAATTAAAGAAATAGGATATATTCCAGGTCTTGGCTTTGATTATGATTGTGGAGTTGTAAATATGATACATTCACAATCACCTGATATTGCACAAGGTGTAGATGTAGGAGGGGCAGGAGATCAAGGAATAATGTTTGGTGGAGCTGTAGATGAAACTCCAGAACTTATGCCTCTTGCTTTAAGTTTAGCTAGAAATATAATAATGAAATTAACTACATTAACTAGAAATAAAACTTTATCTTGGGCAAGACCAGATGCAAAGGCTCAAGTTACATTGGAATATGACAAAAATGGGAAAATACAAAAAGTTGAATCTATAGTTTTATCGGTACAACATGATGAAGAGGTAACTATTGATGTTATAAAAAAAGAATTAAAAGAATTAGTAATAAAACCAGCTCTTTCTGAATATGGTAGAGATATTTTAGAAGTTGAAAACTTCTTTATTAATCCTACAGGTCGTTTTGTAATAGGAGGACCTCATGGAGATACAGGGCTTACGGGTAGAAAAATAATAGTTGATACATATGGTGGATACTTTAGACATGGTGGAGGAGCATTTTCAGGAAAAGATAGTTCTAAAGTAGATAGATCAGCTGCCTATGCTGCAAGATGGATAGCTAAAAATATAGTAGCATCAGGGATAGCAAAAAAATGTGAAGTTCAATTATCATATGCTATAGGTGTAGTAGAACCAACATCAATATTAGTAGATACATTCGGTACTTCAAGTATTGAAGATAGCAAAATATCTAAGGTAGTTAAAGAAATATTTGATTTAACTCCACGTGGAATAGAGAAATCTTTATCTTTAAGAAAACCAACTTTTAGATATCAAGATTTAGCAGCGTTTGGTCATATGGGTAGAAAAGATATAGATCTACCTTGGGAAAAATTAGATAAAGTAGAGGAATTAAAAAATAGATTGAAAGGATAAAGAAAATATGAAAAAAATTTTAAACAGATTGATGTGGATATTAAGCTTTTTCATTTTATTTATGTCTTGTTTTAAAGCAGAGGTAAATACAGAAGATAAAGTATTGGTATACAACTTATTTTCAACACCGAGAACTTTAGATCCGCATAAATTTAATGATAATATTTCTATGCAAATATCTAATTCTATTTATGAAGGGTTATTAAGATTTGATGATAAAGGTAAGATTACAGGTGGACTTGCTAAAAGCTATATCAAGGAAGGTAATAAGTATTCATTTGAATTAAGAGATAATCTTAAATATTCAGATGGGACAGAAATTAAACTTGAAGATATAGAGGCTTCTTTAATAAGAGCACTTAACAAAGCTTTTCTTTCTCAATATGCCTCAAATTTATTTGTAATAAAAAATGCAAGACCTTATTATGAAGGTAAGGTATCAAGAGAAGATTTAGGTATTAAGATTGAAAATAATATGTTAGTTATTGAACTTGAAAAAGATTATAACTATTTCCCTTATTTAATGACATTACCTGTTAGTGCACCATATAAAGAGGGGAAATATAACGGTCCATATAAGTTAGAATTACAAACAGAGCAGGAAATATTTATCAGCAAAAATGAAAATTATTGGAGAAGTTCAGAAGTACATGTTAATAAGGTTAAATATGTTTATTTTAAAGATTTTTCAGTATTAAATAATTTAATAAAAAATGAAGATATAGATATTTCAAGAGTAGATATTGAATTATTAGATTCTAAAAACATTAATTCATATTATGATGGAAGAATTTGGTACTTAGACTATAACTTAGTAAACAATGAAATGTTAAAAAACTTACATTTAAGAAAAGCTATATCTCTTGCTATAGATAGAGATGCATATATGAAATTAAAAAATGATGGTTCTAAAAAAGCATTTAATTTAGTAGATGAATTATTTGGTTATAAGCCAGATTATTTAATTGAAGATTTTAATTTAGAACTTGCTAAATTTGAATTAGAGCTTGCCAAAAAAGAATTAGGAAAAGATAATTTCAAAATAGAATTATTATCAGGAAATAGTTCTATAGAAGTTAAAGAAATACAATTTATACAAGAGCAATTAAAGAAAAATTTAGGATTGGATGTAGAAGTTAAGACTGTACCATTTAATGATAGATTAGCTTTAATTAGAGAAAATAAATATGATATTGCATTAAATACTTGGTCAGCTAAATACAAAGATCCAGTATCTATATTAGAGAGATTTAGATATAGAAATAAGAAAATAGAAGTTTTTGAACAAGAAAAATACATAAATTTACTTGAAGAAGGTAGAATATTTACAGAAAATAGAATTAGTAAAATAAAAGAGGCAGAAAAGATGTTATTAGAAAATCTAATAGTATCACCACTTTATTTCTCTATAGAAAATCAATATATTAGTGATAGAATTACTAATATAGTGAATTATCCTATAGGAAGTGTTACTGATTTATCATATATTATGTGGAAATAAAAAAGTGCACCAAAAATCTTGAAATCAAGATTGGAGGTGCTTTTTTAATATCTATATTTTTCCTCTATATTTATCTAAAAAATTTTGTAATATTATTTGAGCTGCAACCATATCTACAACTTTTCTTCTTTCTTTACCATTTTTTTTTGAAAAGTTTTTCAAATAATATTCTGCCTCTTTAGTTGTGTATCTTTCATCTATATAATGTATTGGAAGATTTTCAGGTATAAATAGTTTTAATTCAGAAACAAATCTTTCTATTTTTTCAACTTGTATTGAATTTTGCCCATCTTTTGTTTTAGGTAAACCTAATACAAGAGCTATTACTTTTTCACTATTTATTATCTCTTTTATTCTTTCAAATGGATCTGTTATATTTCTATCTATTACTTCATAACTTGAAGCAAACATTGCAAGTCCATCAGATTTAGCAACACCTATTCTTACATCTCCAATATCTAAACCTAGATATATTTTCATATTATATACCTTTTATGTATTCTAAAGTTTTCTCTAATGCTTCTTTTACTTTATTTCCATCTTTTCCACCAGCTTGTGCAAAATCTGGTCTTCCTCCACCATTACCATCAGCAATGGTAGCAGCATTTTTAACTATATTTCCTGCATGATATTTATTAATTAAATCTTTAGTAACACCTGAAACAAATATTGCTTTTTCATTATTAGAACCAAATAAGATAACACATGATTTAAGGATTTCCTTAGCTCTATCTACTAAATCTTTTAATTCATTTACATCTTTATCTTTAAATGATTTAACTAATACTTTTACGCCATTAATATCTATAGCTTCATTAGTTAAATCATTAATTTCAAATTTAACTAATCTTCTTTGTAATTCTTTAATAGTATTTTCTTGAACCTTTACTTCTTCCCTATATTTATTTATAGCAGGAATTAGATTAACAGGAGAAGTTTTAAATTTATTTGAAATATCTTGTATATCTTTTTCTAAGTTATGAACATATTCTAAACTCTTATATCCTGTTGTAGCTTCTATTCTTCTTATACCAGAAGCTTTTCCTTGTTCAGACTTTATTTTAAATAATCCAATTTCACCAGTAGAAGATACATGAGTTCCTCCGCAAAGTTCTAAGGACACACCTGAAATGTCAATAACTCTTACAACATCGCCATATTTATCACTGAATAATGCCATAGCACCTTTTTTAACTGCATCATTAATGTTTTCATAATTAATGTATACAGGTAGATTTTCTAAAATTAATTCATTTACTTTATTTTCAATTATATTAACTTGTTCTTGACTTACTTGCTCATAATATGAAAAGTCAAACCTTAAGCCATCATCACTAACAAGTGAACCAGCTTGTTCTACAGCACTTCCTAGTACATCTTTTAATACTTTATGTAAAAGATGTGTTGCAGTATGATTCTTTTTGATGTCATTTCTTCTTTTTTTATCAACTTCTAAAATGTATTCTATATCAAATTTAAGTTCTTCACCTGAGATATAGTGTATAAATACATCAGATTTTTTAATTACATCTTTAACTTCTGCTATGACCTTATTATCATATTTAATTACACCTTTATCGGCTATTTGTCCTCCACCTTCAGCATAAAATGGAGTTCTATTAAATATTACTTCATATAATTCATTTTCTAAATTTTTAATATGTAATACTTTTGCCTCATCATTTAAAGTGTCATATCCTGTAAATAGAGTTTTACCATTTTCTTTATAGAATTTATCAATAAATTCATCTTTAATCATATCAGAATTTTTTACTCTTGAATCTTGAGATCTTTTAACTTGTTCTTCTAATTTTTGATTAAATTCATCTTCTGAAACTATCATTTTGTTGTTCTCAACTATTAATCTTGTAAATTCAAATGGGAATCCATAAGTATCATAAAGTTTAAATGATACATCACTTGGTAATTTACTTATATTTTCTGATTTACATTTTTTTATTTCTTCAAATAATATTTCAGTTCCAGATTTTAATGTTCTTGAGAACTTATCTTCTTCTGATTTTATAATATTTTTAATATATTCTCTTTTTTCATCAAGTTCTATATATGCTTCTTTCATATTATCTATGATAGAGTCAACTATATTATGTAAGAAAGTAAGAGATTTATTGAAAATTTCTCTATTTTCAATAGCTCCAGCACCATAAGCTCTTCTAATTAATTTTTTAAGTATGTATCCACGTCCTTCATTAGAAGGTAATACTCCATCACAAATTAAGAAAGTTGAAGCTTTTAGATGATCAGCAATTATTTTAACTGAAGTTGAAATTTCTTCTTCCTTTATACTTAAAACCTCTTTAATATTTTCAATAATTGGAATGAATAAATCAGTTTCAAAATTATTACTCTTATTTTGCACAACTGAAGCTATTCTTTCAAGACCTGCTCCTGTATCAATATTTTTTTCTGGAAGTGGGACAAGCGATCCATCTTCAAGTCTATTCCATTCAGTAAATACTAGATTCCAAATTTCTAAGAATCTATTACCCTCATCACCAGGTTTAGAATTTATTTCCTCATTATTTTCTCCCATAATTTGAGTATCATAATATATTTCAGAACAAGGACCACAAGAACCTATTTCTCCTGCTGCCCACCAGTTATCATCATCACCTAGTCTTACCATGTGATCTTCTGGCACTCCAACTTCTTTAGTCCATATATCATATGCTTCATCATCTGTTAAATAAACAGATACATATAATCTGTTTGGATCTAATTTTAATATTTCAGTTATGTATTCCCAAGACCATTTAATTGATTCTCTTTTAAAATAATCTCCAAAAGAAAAATTACCTAACATTTCAAAGAAAGTATGGTGTCTTGGTGTAACTCCAACATTTTCTAAGTCGTTAGTTCTTATACATTTTTGATATGTAGTTATTCTATTATATGGTGCTTTTTTTTCACCTAAGAAAAATGATTTAAAAGGTACCATACCAGCAACTGTTAATAATAATGTTTTATCATCTGGTATTAGGGATGCACTTTCAAAATGTTTGTGCTCTTTAGATTTAAAAAACTCAATAAAGCTTTTTCTTAATTCATTTCCAGTCATTTTTTATCACCTTTATATTTAATTTATACTTTAAAAGTATATCACAAAAAGTGAACTATTTCAATAAAATTGAAGGCTGTGAAATAAATAAAATGAAGATAATATCAATGTTTTTAGATATAATGTATGAATTAGAGAAAAACTATGCAATTTTTTTTGCATAAATGCTATTGAAAAAACGAATAAATGATAGTATACTTTCTAATGAAAATGCTTGCACAAAAAGGAGTAAATATGAAAAAAATTACGATTAAGGATGTTGCAAAGAAAGCAAATGTGAGTGAGGCTACAGTATCAAGGGTAATGTCTAATAGTCCTTTAATTAGTGATAAGACTAAAAGAAAAGTTCTTAAGGTTATAAAAGAGCTTGACTATTTTCCAAATTCTGCTGCTGTTTCACTAACTAAAAGTAGTAGTAGAATTATAGGGATAGTTATAGAGGATCATAATGATAATCCTTTACAAAATGATTTCTTTACAGAAACTTTATCATATATTAGTACTTATGCACTTGAAAGAGGTTACTATATACTATACATACATTCAAAAGATAATCAAGAATCACATGAAAACATTGAAAGATTGATAAAAACAAATAGAATAGATGGGCTTGTATTCTTGAATTTAGTTGAAAATGATAGAAATATTAACTATTTACAGAAAATAAATTTTCCTTATGTAATATTAGGAACTCCTAAAGAACTTAGCATGGGAATGTGGGTGGATAATGACAATATTAAAGCTACAAAAGAAGTAACTAAAAAAATGATAGAGAAAGGATACAGTAACTTTGCATTTCTTTCTGGACCTACTAATTTAACTGTTTCAAATTATAGGAAAGAGGGATTTTTAATAGCATTAAAAGAGGCTAAAATTAAAAGTAAACATCAAATTTCTTCTGATTTTGATTCATATGAGGCATATTTTACGACTAAAAAATTACTTGAAATGGATGAGAATATAGAAGTAATAGTAACTACAGATGATATTTTAGCTATAGGAGCTATTAGAGCAATAGAGGAATTAGGTAGAAAAGTTGAGGTTACTGGGTTTAATAACTCTAAATTAAGAAAATATCTTAAATTAGATTTTATTACTGTAGATATACGTTATGAGGAACTTGCAAATAAATCAGTTAATATACTTATAGACAGTATAGAAAATATTAAAAGAGAAAAGAACTTTGTAATAGTTCAATCAGATATTTTAGAGGGAGATAATAATGGAACAAAATTTTGATTACAAACATATTAATAAGAATAGGAAAAGTGCAATAATTATGCACATTTCTTCATTATGGAATGAATACGGAATAGGTAATTTAGGAAAAGAAGCTTATGAATTTGCTGATTTTCTTAAAGCATCTGGTCAATATTATTGGCAAATATTACCTACAGGTCCTACAGGTTATGGAGATTCACCTTATCAATCTTTTTCATCATTTGCAGGTAATCCATATTTCATAGATTTTAGAATACTTGAAGAAGAAGGATTACTTAACAGAGAAGATTATGAAAATTTAGATTATGGAAATGACCCTAATAGAGTAGATTTTGGTAAAATTTATTTAACAAGAAAAGAAGTACTTTCAAAAGCTTTTGAAAACTTTAAAAATATAGAAGATGAAAAATATAATATATTTATAACTGAAAATTCTGATTGGATTCATGACTATTCTTTATTTATGGCATTAAAGGAACATTTTGGTAATATTTCTTGGGAAGATTTTCCACAAGAAATTAAAGATAGAAATTTAGAAGAATTAGATAAGTATGAAATATTATTAAAAGATAAGATAAATTATCAAAAATTTATACAGTATAAATTCTTTTCTCAGTATAAAAAATGGAAAGAATATGTTAATTCTTTAGGTATTAAAATTATAGGTGATATGCCTATTTATGTTTCGCCTGATAGTTTAGAGGTTTGGAAGGATAGAGAATTATTCTTAGATAATATAGTAGGAGGTTGCCCACCAGATGGATTTAGTGCAGGAGGGCAAAAATGGGGAAATCCTGTATATGCTTGGGAAAAACATATGGAAACTGGATTTAAATGGTGGATAAATAGAATAGAAAAAACAATGAAATATATTGATGTATTAAGAATAGATCATTTTAGAGGATTTGAATCATATTGGGCAGTTCCTAAATTTGATGAAGATGCAAGAAATGGTAAATGGGTAAAAGCACCTGGAGTAGAATTATTTGAAGCTATAGAAAAAGCTTTAGGTAAAATAGATATAGTTGCTGAAGATTTAGGATATACAACTGTAGAAGTAGTTAAATTTAGAGAAAAAACAGGATTTCCAGGTATGAAAATGTTACAGTTTGCATTTAATCCTGAAAATGAAAGTGATTTCCTGCCACATCAAATAGAAAGAAATTGGGCAGTATATACAGGAACTCATGATAGTGATACTGTTAAAACATGGTTTGATAGAGCAAATCCTATAGAGGTAGAATTTGCTAAAAAATATCTACATTTAACAGATCCTAAAGATTATGTTAAAGGATTTATTAGAGCTGCATGGTCATCTGTAGCTAATTTAGCAGTAGCACAAATGCAAGACTTTTTAGAACTTGGTGATGAAGGTAGAATGAATACGCCTTCAACTTTAGGAAATTGGTCTTGGAGAGTTAGAAAAGAAATGTTGACTAAAGAATTAAGTAAAGAAATTTATGATTTAACAAAAACATATTTCAGATTAAATGATTAAGGATGTAATAATGATAACAAGAAAAATAGATAATGATTTAAGAAATTTAGGATTAGATTTAAGATATAGATATGACGGTAAATTAGGAATAGAATATTCTAAAGAAAATACAATTTTTAGATTATTTGCACCTACTGCAACTAAAGTTGAATTATTAATTAATAATCAAAATTTAGAAATGAGAAAAGATACTGATAAAGGTATTTTTGAGTTAACTGTAAATGGTGATTTAGATAAAATTCCATATATGTATAAAACATTTTTTGAAGGAGAAGTTTTTGAAACTACTGATCCATATGCTATTTCTAGTGAAGCAAATTCTGCTAGATCAGTTGTAGTGGATTTATCTAAAACTTTAAAAGGTAATAGAATGCCTAAATTTAATATGTTAGATTCAGTAATATATGAATTACATATTAGAGATTTTACATTAAATGCCAAAAATAAAGGGAAATATTTAGGTGTTGTTGAAGAAAAGCAATTAAATTATTTGAAAAAATTAGGTATTACTCATGTACAACTTTTACCAATATATGATTATTCAACTGATTCAGTAGATGAATTAAATCCAGACCTAAGATATAACTGGGGGTATGATCCAGTAAATTATAATGTGCCTGAGGGTTCATATTCAAGTGATCCTAAAGATCCTTATTCAAGAATAAATGAATTAAAGGAAATGATAGAAATCTTACATAAAAATGGTATAAGAGTAATTATGGATGTAGTGTATAATCATGTATATGATGCTTTAGCCCATTCTTTATCTAAATGTATACCAAATTATGCTTTTAGAAAAACAGAATATTTTCATTTTAGTAATGGTACTGGTTGTGGAAATGATGTTGCAAGTGAAAGAGTAATGATAAGAAAATATATAGTTGATAGTGTTAAATATTGGGCTAGTGAATTTAATCTTGATGGATTTAGATTTGACTTAATGGGAATATTAGATGTTGAAACTATGAACGAGATTAGAAAAGAATTAGATAAAATAGATGAAAGTATAATAATACTTGGTGAAGGTTGGGATCTTGCTACATCATTAAGTGATGATTTAAAAGCTAATCAGTTAAATGCAAATAAAATGCCTAATATAGCATTTTTTAATGATGATATTAGAGATGGATTAAGAGGTTCTACATATGAAAAACTTGGGCAAGGTTTTGTAAGTGGCGGAAGATTTGAAAAAAGACTTATACCTAGTATTAAAGGTGGTCAAGGTTTAAAATCATATATTGCACCAAATCAATTAATACAATATATTGAAGCACATGATAATAATACAGTTTTTGATCATATTGAAATAACTAATGGAAATGAAAGCTTAGATGATAGAATTAAAATGCAATCTATTGCAACTAGCTTAATTATGATGTCTCAAGGGATTCCATTTATACATGCTGGTCAAGAATTTTTTAGAACTAAAAATGGTGTAGAAAATTCATATAAATCAAGTGATGAAATAAATAAATTTGATTTTGAAAGAGCGGAAAAATATAGTAGTTTTGTAAAATATTTATCTGATTTAATAAATTATAGAAAAGATAAAAAAATACTTAAATTAGAAAGCTATGAAAAAATAAATGAAATATTTAACCTTATTAAAGCAGATGATAATGTATTAGCATATTCATTTGGAAATATATATATTATAGCTAATGTAAGTAAAGAAGAGCAAAATATTAATTTGGTTAATGGAAGATATAAGGTAATTTTTGATGAATTTAATAAGATTGAAAATGAAAGTATAAATATAGTAAATGAATATAGAATTAAACCACTAAATATTTTAATATTAGAAAAAGATATTTAAATATTTTTGTAAACTAAACTAATATAGAAAATATAAGGAGTTTAATAGTAAATATACACCTTAATTTAAGAAAAATAATAAAAAAAATAAATACACATATTGACAATATAGATTATCGTAATATAATGTTAATGTGAATTGCAAACGATTGCATAAATAAATTAAATTAGGAGTGAAGATTTATGAATTTAAAAAAAGTTGTTACAGGTGGAATCTTAATGTTTTCTTTATTAATGTCGTGTGGAACTAAAGAAAGTGAAAAAACAGAAAATGGTTTAACTGGACATATAGTAGTACAAGCCGAAAAAACTTGGGCACCTTATTATAAGGAAGCAATAGCTAGAGTTAAAGAAAAAAATCCTAAAGCTAAAATAGATTTAAAAGTTATAGGTTCTTTTGATCATATTAAAGCTATTGAAGAAACTAATGCTGAAAATGAAGATGTGGCTGATGTGTTTGCTGTACCATTACATAAAATGGAATCATTATATAAAAAGGATGTATTAGCTCCATTTGATGCAAAAGCTTTAGGAAAGAAACTTGGAGGATTTGGGGACTTTGACAGTGGGCTTGGCGGACATTTAAAATTCAATGATTCATATTTTGGATTCCCATTTAATATAGAAACATTATTATTAGGATATAATACAAAAAATGTTGTAGCAAATGGAGTAGATTTATCTAATTTAGATTTTGCTGAACTTTCTCCAGAAGTTGGAATGATACCAGTAATTAATGGTTGGTGGGGAGTTGCTATAACTAATGCATTTGGAGTAGAACTATTAGCTAAAAATGGAGATAAATTTTTCTCAGATTTAATAAAAGATTGGTCAGAATTAACTCCAGAAATGCAAAAAATGTTTGTTGGATTACATAAATATTGGAAGGCTTCAAATGATAAAAAACTTTCTTTATTTGACACAACAGCAGTTTATGGATATATGGATGATAATTTTAGAACTGGTAAAAAGGGTTCAGTTAGAATTGCTGGACCATGGGAATTATCTGCTTGGTCAGGATTAGTTGGAGATGATTTTGATGTTGCAGCATTAAACACAGCAAAATTTGCAGGTAAAGAATTAAAACACTGGCAAGGTGGATGGTCTTTATCAATAAATGCTAGAAATGAAGAAGATGCTAATAAACTAGCTTTATCTGAAGCTGTAATAGCTGAAATTATGAATCCTAAACATGCTGCTGATTTCTATAAATACACAAGTAAAGTTATGCCACATGTTTCTAAGGAAGATTATGCTAAGCTAACTTTATCTGAATTAGATAAAAAGGCTATAAATGCTGTTATAGACGGATATGAAGTGGCTGTATCAAGACCATTATTTAAAGAATGGGAACAAGTATGGGAAACATGGGAAAATGCTATTCTTTCATGGGAAGCTAAAAAACCTTCAACTCCAGAAGCAGCATATAAGGAAATACAAGCAAGCTTTAGAGCATTATTAACAAATTTAGGTCAATAGTAAATTAATAATTAAATTATGAAAAAATGGTCTTCTATGATAAAATATATGAACATAGAAGACTATTTTAATGGTAATTAGTTATGAAATGTTGTATAAATTTTAGAAAGGTAGACAAATAATTAATAATATTATTGTCGTAAAAATAAAATGAAAGTAATCAGCATTTATTCAAGAAACAGTTTGAAAAGAAGTTTGGTATATAAATGGGATATTTGGATTTCAGTTTTATCAGGAATATTTAATATTTTAGGAATGTTATTTTTATGGTCTGTAGTTTATAAGAATTCGGGTAAATCATCAATAGGAGGATATAACTTTAATTCAATTGTATTATATACCCTTATGTCTAATTTGACAGCCATGATAATAAATGTAGATATAGCAAGAATAATTTCTAACGAAGTTAAAAGTGGAGAAATAACAAACAGTTTTATAAGACCAGTATCTTATATAACAAAATTGGTAGGAGAGGGAATAGGACATATTTTATTTAATTTAATAATGTTATTTTCACCAATCATATCAATTTTAATAATATACATGAATATCTTTAATATAAAATCTGAGATAACTCTAGGAAGTATTTTATTTTATACTGTTTCATTATTATTTAGTATTATTATAAATTTTGAAATAAGTATATTAGTTGGATTTTGTTCTTTTTATGTTAACTACATTTGGGGATTTATATTATTAGAAAATGCTATATTAACAATAGTTACAGGTCAACTATTTCCATTAAATTTTTATCCTGATAAGGTCGTTAAATTTTTAGAAATTACCCCTTTTTACTATATTAATTTTGGACCAGTTTCTATATTATTAAATAAATTCTCAAAATATAATTCTATTAGAATTTTATTAATTCAATCAGTATGGTGCATAATATTAGCTATATTTGTTAGTATAATTTATAATAAAGCAAAAACTAGATTACAAATAAATGGAAGTTAGATGAAGATAATTTTAAAATATTTATATATATATTTAGTTAAATTTAAGTATGAATTCAAGATATTCACAAATTCAATGTCTAATTTTATAATAGGGGTTCTTGCATTTTTAATTATACAAATAAGTGGATTATTATTTATTGGAATACTATATAAGAATACATCTAGTATAGATGAATTTGATGTTTATCAAATGTTAGCCTTATATGGTTTTTCACAATTAACAAAAGGTATAGACCATTTTTATTCAGATTTCTTATGGAATTTTTCTAGCAATGGAGTTACTAGAGGATTATATGATAAATACTTAGTAAGACCATTAAATCCATTATTTCAAATAATAATAGAAAAAGTGCAATTTGATGCTTTTGGAGAAATAATCACAGGAATAAGTTTATATGTATATGCTATAATAAAATTGAAAAATAACTATTAATTTTTATTTTAATTTTAAAAACTCTATTTTTTATTATAATAGGAGTAATAGTTTTATACTTGTCTTAAAGTAATTGCAACATCATCAGTTTTTTACATCAAAAAAGGTTTTAGTGTGTTAAAAAATGTTTATTCAATATCTACTTACGCTAAATATCCTATAACTATATATCCAAAATTTATGCAAATTATTTTAACATATATATTTGCTTATTCTTTAACGGCATATTATCCTATAAAATATACATTATTAGAACCATTAAACATATATACATTTATAAAATTAATTATTATAATTACAGTTTTAATTATAGCTACAAAAATAATTTGGAAGCAGGGTGAAAAAAAATATGAAAGCTCAGGGTCATAGTATCATAAAAGTTGAAAATTTAACGAAAGAATTTACAATATATAAAAGAAAAGGTTTGTTTAGTAGAGAAAAGAAAATAATTCGAGTTGTATCTAATCTTAATTTTGAAATTAATGAAGGGGAAAGGTTAGGATTTTTAGGACCTAATGGAAGTGGAAAATCAACTACTATTAAAATGTTAACAGGAATATTAACTCCAACATCTGGTAATTGCTATGTTAACTCTTTAATCCCCACTAAAAATAGAATAGAAAATGCTAAAATAATAGGAGTAGTATTTGGTCAAAAGTCAAGTCTGTGGTGGGATTTAACATTAGAGGACAATCTAAAACTTTTAAAAGAAATATATGATATAGACAATAAAGAGTTTGAAGAAAGATATAAATATTTAGATGATATCTTAAATATTGATGAAATAAAGTACAAACAGATAAGACAACTATCTTTAGGTCAAAGAATGAAAGCTGATTTAGCAGGAGCATTATTACATAAACCAAAAATTCTTTTTTTAGATGAGCCTACTATTGGTTTAGATGTAGTTATTAAAGATAAAATCTTAAAAACCTTAAAGAAAATTAATGAAGATGAAAATGTTACTATATTACTTACAACACATGATATGAGAGATGTAGAATATTTGTGTAATAATATTATAGTAATTAACAATGGAGAAATTATATATAAGAATAGTTTAGAAAATTTGAAAAAAATATATTCAAAAGACAAAGTTTGTATATGTAATTTAATTAATACTATTAATGTATCTAGCTTAATGAATGAATTGACTTTAGATAAAACAATAAAAGAATATAAATTAGAAAAAAATAATTTAAGAATTATATTTGAAAATAATATAGAAAGAGAAAAAGAATTAATATTGAAATTATTTAATAAACTTGAAATAGAAAATATTAAATTTGAAGAAATAAGCATAGATAAAATAGTTAAAAGAATATACAATGATAATCATAAAACTAAAAATAATTTAGAAACTTTATAATTGTTAATGTATATATAATACAATTAAATTTTAATATTTATAAAAGATGAGATAGTTTTAATATTTTCATCCTTTTTTGTTTATGGAACTAAAAATAAAGTTAAAAAATAAAAATATTAACAGAACTAATTTTATAAAAAATTGAATTTTTTGGTGTCATCTCAATTCAAAAATTTTCTGAAATTATTGTTATTTTTTTATATATTATATCTAATTTCTTAGATATCTGTTCTTTATTTTATGATTTTAATTTTTAAAACTTTATAATTTATATTAAGAAAATAAAAACTATATTGACTTTAGTAATTAATGAGGTATAATATTAGTGAAAATTGCAAACGATTGCATAAAAACATATAAAAATTAAAGAAGTAGGAGTGGAAGAATTATGAATTTTAAGAAACTTGCAACAAGTGTATTTTTAGCGTTTTCTTTATTAATATCTTGTGGTTCTAAAGGAGATGTTAAAACTGGAAATGGAGAAGGTTTAACAGGACATATAGTTGTACAAGCTGAAGAATCTTGGAAACCTTATTATGAGGCAGCAATAGAAAGAGTTAAGGAAAAAAATCCTGATGCTACAATAGATTTAAAAGTTATTGGTTCATTTGATCATATGAAAGTTATTGAAGAAACTAATGCTGAAAATGAAGATGTAGCTGACGTTTTTGCTATACCATTAGATAGAATAGAATCATTACACGGAAAAGACTTATTAGCTTCATTTGATGCTAAAGCTTTAGGTAATAAAATTGGTGGATTTAGAGATTTTGATAAAGGACTTGGTGGACAATTAAAATTTGATGGTTCATACTATGGATTCCCTTTCAATATTGAAACATTATTATTAGGATACAATACTAAAAACGTTGCAGCAAACGGAATAGATTTAGCTAATTTAGATTTAGCTGAACTTTCTCCTGAAGTTGCTATGATACCTGTATTTAACGCATGGTGGGCTGTTGCTATAACTAATGGATTTGGTGTAGAATTATTAGGTAAAGATGGAGATAAATTCTTTTCTGACTTAACAAAAGATTGGGCAGAATTAACTCCAGAAGTACAAACTATGTTTGTTGGATTACATAAATATTGGAAAGAATCAAATGATAAAAAACTTCCTATTTTTGATATAACAGCAGTTTATGGATACATGGATGATAATTTCAAAACTGGTAAAAAAGGTTCAGTTAGAATTTCTGGTCCATGGGAATTAGCAGCTTGGTCAGGATTAGTTGGAGAAGACTTAGAAGTTGCTGGATTAAATCAAGCTAAATTTGCTGGTAAAGAATTAAAACACTGGAAAGGTGGATGGGCTTTATCAATTAATGCTAGAAATGAAGAAAACATGGAAAAATTAGCTTTATCTGAAGCAGTAATAGCTGAAATTATGAATCCAATGTTTGCAGCAGATTTCTATAAAATAACAGGTAAAATCATGCCTAACGTTTCTACAGATGAATATGCTAAACTTGAATTAGAAGAATTAGATAAAAAAGTTATAACTTCAGTTATAGAAGGATATGAAGGAGCTATTTCAAGACCATTATTCCAAGAATGGGGACAAGTATGGACAACATGGGAAAATGCTTTACTTTCATGGGAAGCTAAAAAACCTGCAACTCCAGAAGAGGCATATAAAGAAGTACAAGCAAGCTTTAAATCATTATTAACAAATTTAGGACAATAGATTAAATGGAGTAGGTGTTAAAGAACATGTTCTAAAAGCACTTACTCCTTTTTTAAAGAAGAGGATTTATGAAATTAGATAGAAATACATTAAATAAGTTTTTACTTATGGTTTTGTTTATAATGATATTTGAAAGTTTAAATGGTATGTATGCAGTTAAAAGTATAGACTTATTTAATGAAGTACATTCCAAAACTGGTATATCTTTGAATGATTATATTACTGTGGAAATGATAAAATATTTTAGTTCAGTTTCTATATTTATGATTTTTTCAATATATACATATGTGTCTTATAGACATTATAAAATAAATAGTTTATATAAAGGGGTATGGACTTTATTTATAACTACTAATATACTATTTAAAATATTTGTATTTAAACAAGATACAATTTTTTATTATTTAAGTATAATTTTTCAATTTATCTTGGTTATTTATATATTAAAATTTAAACAAAAAGAAAGAGAGGAATAATCATGAATCATAAAGTTTATGATAGTTTAGATAATCCTCATGCAAGGAAAAATCTTTATTTAAAAGATGTGGCTGATGGCATTACAACAAATAAAAATTCACATTCATATATTGTGGAAATGAAAAAATTACTTGAAGAAGAAAAAATATATCTTTCTGCATTAAATAAACTTAAGTTTACTGAAAAGAAAGAATTATTATCAAAATTTGATGAAAAAGAAGCAAAGTTAAGAATTGAATTATTTGAAGCAGAAAAATTGAATTTATTTTATGCAGGTAAAGAAGAAAAAAGCTATGATTTTGAATTGGAATCTAAAAAGAGTGCTATAAAAATTGATAGATTACCAAGTATAATAAAATTATATAGTGAATCAATTAAGGAAAAGAAAGAATTACAACTTAAATTATCAACTCTTTCAAGACATGATGAAGAAGAAAAAATTAAAGAATTTGAATCTAAAAAACAAGATTTAAAAAATATTTTCAAATCAGAAGTAGATAAATTAAAAAATAGTCATAGTGAGGGATTAATTTCAGGAAAAGCATTAAGAACTCAAATTAGTCAATTAAAAATGGAATTAAAAGATAAATTGGAAGTATTAAAACTTGATATTCCAAGTGAGGGTATTAAGAGTAGAATAAATGTTTTAAATTATTTATCTACTGTTGAAGTTAAATCAAGATATAAGATAATGCAACAAGATATAGCTGATTTATATAGAAAAATACCTGTAGAAATTGAATCAATAAATAAAACACCAGCATTATTATCATTATTATTCCCAGGATTTGGACAATATCATAATAAACAATACTTTAAGGCAGCATTATTTTTTATAGGTTTATTATTTATTTATTTTGTAGCAATCCCTTATACTTTAGGTTATGGAAACTATAGAGGAGAGGGTATAAGAGGATTAATTTCTCTTGCAAAGAATGGTAAAAAATTAGATAAATCTATAATATTTATGATAGAAGGAATAATTTCTATTATATTAATATTATTTACAATTACAATTTCATATTTATCATTTAAAGATGCTAAAGATGTTATGGTTGCAAAATTAAAAGGTATTAGACCTAAAACTACTTTTGAAACTATAGAATCATTAAAAGAAGAGGGGTTCCCTTATATAGTTTCTATAAGTTCATTTATTTTATTAATATTTGTAGTAATTTTACCAATAATGACAACAATATTATTATCATTTGCAGGTATGGATCCTAATAATCAATCTAAGTTCCAATGGATAGGTTTTGAAAATTATAAGTTATTACTTACTGGAACAGGGATTGCAGGAGGACCATTCTGGTTAATTCTAGGTTGGACATTATTATGGACAATATTTGCAACAACACTTGCAATTACAGTTGGATTTGGACTTGCATTACTTGCAAATAATGAAAGAATTAAAGGTAAAGTTATATATAGAACTATATATTTATTACCATGGGCAGTGCCAGCATTTATTACAATAATGTTCTTTAGTATTATGTCATCAAGAACAGGGCAAATTACTAAATTATTAGAATTTATGTTTGGTGGAGATTGGGCTATAAAAAATAGTACAACTTTAACAAGAATTGCATTAATTTCATTGCAAACATGGTTAGGGAGCTCATATGTATTCTTATTATCAACAGGAGTTCTTCAAGGAATTTCATCAGATTTATATGAAGCAGCAGATATAGATGGTGCAACTTCTTGGCAAAAATTAACTAAAATTACTGTACCTTTAGTATTGTTCCAAACAGCACCATTACTAATAGGTCAATATACATTTAACTTTAATAATTTCTCTATAATTTACCTATTTAATGGTGGAGGACCATTTGATCCTTCTAAATATGGAAATTTAGCAGGAAGTACAGATTTATTGATTTCGTATATATATAAGTTGACTATAGAAAAGCAATATCAATCTATAGGAGCTGCAATAACAGTATTTATCTCAATAGGATTGATGTTTGTAGCATATCTAGGATTTAAAAATTCTAAAGCGTTCAAGGAGGGGAAATAATGGCTAAGAAAAGTAAAAATACTAATTTATATTTATCAGATAAACCACCTTTGAATTTTGCTGGAAAAGTTGGCTTAGCAATTAGCTATATTATTTTAACTATTTGGGCCTTATTGATAATTGTACCATTGGTATTTATGGTTGTTGCATCATTTAATGGAGAGCAACAAAAATATTTAATATTAGGTTCAAGTTTCACTTTTTCATTAAAGCATTATAGTATTTTATTTAATAAAACCTTATTTTCAAGATGGGTATTAAATACAATAGTAATAGCTACTGCTACAGCTTTATTTACATTATTAATAGTGTCTTTCACAGGATATGTATATTCAAGATTTAGATTTAAAGGTAAAAAAGTATCTCTGATGGCAATAATGTTAATTCAAGTTATTCCAGCATTTGCAGGAATAGCAGCTTATTACACTATGCATCAGATCATAGTATCTATTTTTCCTTTCTTTACAAGAACATTGATGTTAATATCTATTTATTCAATAGGTGGTATAGCAGGTAATACTTTTATACTTAAAGGTTATATAGATTCTATATCTCCAGAACTTGATGAAGCAGCTAGAATGGAAGGTTCTTCTAATATGCAAGTTTATAGATTGATAATTATGCCTATAGCAAAACCTATGTTAGCTATAATAGCACTTTGGTCATTCATAGGTCCATTTATGGATTTCTTATTACCAAGAATATTACTTACAAATCCTAAACAATATACACTTGCAGCTGGTTTATTTACATTAATTTCTGATGATAGAACAAGACTAGAACCAGTATTTGCTGCTGGAGGAATTTTAACAGCAATACCTATAGTATTATTATTTATAGTACTACAAAAACAATTAGTATCTGGATTAAGTAGTGGATCAGTGAAAGGATAGGAGAATATATGAAAGTAGAATTAAAAAATGTAGGAAAAAAATATGAAGGAAATGATGTTTATACTTTAGAAAATATAAATTTAAAAATAGAAAGTAAAGATTTTTGTGTTATACTAGGTCCATCTGGATGTGGTAAATCAACATTATTAAGAATGATAGCTGGATTAAACTCAATTACAACTGGAGAATTATTATTTGATGATAAAATAATGAATAAAGTACATTCAAAAGATAGAAATATAGCTATGGTTTTCCAAAGTTATGCCCTATATCCACATATGACAGTTTACGATAACATGGCATTTTCTCTTGTTATGAGAAAAATGGATAAAAAAATGATACATGAAAGAGTTTTAGAAGCAGCTAAAATTTTACAAATTGAAAAATATCTTTATTCTAAACCATCTGATATTTCAGGAGGACAAAGACAAAGGGTTGCTCTTGGACGTGCTATAGTTAGAAAACCAGCAGTATTTTTAATGGATGAACCATTGTCTAATTTGGATGCTAAATTAAGAGAGCATATGAGAATAGAGTTAGTAAAAATACATAGAAATTTAGATACAACTACTATATATGTTACTCATGATCAAACAGAAGCTATGACTATGGGAACAAGAATAGTATTAATGAATGATAGTAAAATACAACAAGTTGGTAAACCAGAAGAATTTTATAACAAACCTCAAAATATATTTGTAGCTAAGTTTATTGGTTCACCTACTATGAATATTATGGAAGGATACATTAAAGATGCTCATTTTATATCTGATTCTGAAGAAGTAGTAATTAAAGCTAATGAAACAGATAAAGAAAGATTAAGAGAATATGAAGGTAAAAGAGTATCTTTAGGTATTAGATCTGAAAGATTTTTAAGTGGAGATGAACACGAAAATAGATTTGCTGCAACTATAGAAGTTATAGAAATGCTAGGTAAAGAAAAATTACTTTACTGTAAATTAACTGATGGAACTAATTTGGTTGTTACAATGCCAGGACATTATAACTATGAAATTGGTGAAGTTCATAATTTTGGATTTGATACAGAAGCTTTACATTTCTTTGATGAAAACGGAAATAGAATATAAGGGATGTAATAAAATTAAAAGGGGATATATTTATATATAGTTTTAAAATAGAAAGGCTTGTTTTTGATATCAATTCATTTTCAAGTCTTTTCTATTTTTTAAAATTTTGGTTTATAAGACTTTATGAATAATAAAAAACGAAAATTGAAAATTTTTTTATGGAGAAAATATAGATAAAAAGAGGGTTTGAAATAAGGTTATAAAAATTTTCTACAAAATTAATGAAAAAAAAGAAAAAAGTCCTTGACAAAAAAGAGGGGGTTATGATAAGATAATAGATGTCCGAAAGCGATATAAGCGATAGGACAAAGGACAATGGAAAGAGAAGGAATAAATAAAGCAAACAAGTAAAGACAAGTCAATTTTATTTAGAGTAAAATAGCTTTAGTAAGTTAAGAATAAGAGACAAAAGGTGAAGAACAAGAAATATTTAAAATAAATATTGAATGAAGAGTTTGATCCTGGCTCAGGATGAACGCTGACAGAATGCTTAACACATGCAAATCTATGTATGAAATGTAAGCTTGCTTACATAGACTACATGGTGGACTGGTGAGTAACGTGTAAAGAACTTACCTCTTAGACTGGGATAACCATTAGAAATGATGGATAATACTAGATATTATTAGTAGTAGGCATCTACTATTAATGAAAGGAGAGATTGCTAAGAGAGAGCTTTGCATCCTATTAGCTAGTTGGTGGGGTAAAGGCCTACCAAGGCTATGATAGGTAGCCGGCCCGAGAGGGTGAACGGCCACAAGGGGACTGAGATACGGCCCTTACTCCTACGGGAGGCAGCAGTGGGGAATATTGGACAATGGAGGAAACTCTGATCCAGCAATTCTGTGTGCACGAAGAAGGTTTTCGGATTGTAAAGTGCTTTCAGTAGGGAAGAAGAAGATGACGGTACCTACAGAAGAAGCGACGGCTAAATACGTGCCAGCAGCCGCGGTAATACGTATGTCGCAAGCGTTATCCGGAATTATTGGGCTTAAAGGGCATCTAGGCGGTCTAACAAGTTGAAGGTGAAAAGCTGTGGCTCAACCATAGTCTTGCCTACAAAACTGTCAGACTAGAGTACTGGAAAGGTGGGTGGAACTACACGAGTAGAGGTGAAATTCGTAGATATGTGTAGGAATGCCGATGATGAAGATAACTCACTGGACAGAAACTGACGCTGAAGTGCGAAAGCTAGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCTAGCTGTAAACGATGATCACTGGGTGTGGGGGTGTGAAGCCTCTGTGCCGAAGCAAAAGCGATAAGTGATCCGCCTGGGGAGTACGTACGCAAGTATGAAACTCAAAGGAATTGACGGGGACCCGCACAAGTGGTGGAGCATGTGGTTTAATTCGACGCAACGCGAGGAACCTTACCAGGTCTTGACATACTCGGAATAAGATGGAAGCATCTTAGTGCCTTTGGGAACCGAGATACAGGTGGTGCATGGCTGTCGACAGCTCGTGTCGTGAGATGTTGGGTTAAGTCCCGCAACGAGCGAAACCCCTATCATTAGTTGCCATCATTAAGTTGGGGACTCTAATGAAACTGCCCGCGACGAGCGGGAGGAAGGTGGGGATGACGTCAAGTCATCATGCCCCTTATGATCTGGGCTACACACGTGCTACAATGGGTAGTACAAAGAGGAGCTAAGCAGTGATGTGGAGCAAATCTTCAAAGCTACTCTCAGTTCGGATTGAAGTCTGCAACTCGACTTCATGAAGTTGGAATCACTAGTAATCGCAAATCAGCAATGTTGCGGTGAATACGTTCTCGGGTCTTGTACACACCGCCCGTCACACCACGAGAGTTAGTTGCACCTGAAGTTACTGGCCTAACCGTAAGGAGGGAAGTACCTAAGGTGTGATTAGTGATTGGGGTGAAGTCGTAACAAGGTATCCGTACCGGAAGGTGCGGATGGATCACCTCCTTTCTAAGGAGAATATATATACATAAACACACTTATACTTACTTTTACTCTTTTGTTTGCTTTATTTATTCCTTTTTAATAAGTCTTTTATGAGGGCGTATAGCTCAGGTGGTTAGAGCACTGTGCTGATAACGCAGGGGTCGCTGGTTCGAGTCCAGCTATGCCCACCAGAATGAAGACACTATTGTTTTATGGGGATATAGCTCAGCTGGGAGAGCGCCGCACTTGCACTGCGGAGGTCAGCGGTTCGAACCCGCTTATCTCCACCAAGTAAAATTATAGGACAATGAGAAATGAATAGTAGAGAGTAAAGAATTACAACTTTAAACAGAGACGAAAGAAAAGATAGAGTAGTTAAACTGTAAGAGAAAATATATAGAGATGATATAAAAAGCTAATTAAGGGCACATGGAGGATGCCTAGGTAGTAAAAGCCGAAGAAGGACGTGATAAGCTGCGAAAAGCTTAGGGGAGTTGCATATGAGCGTAGATCCTAAGATATCCGAATGGGGAAACCTACTTGTTGGAAGGACAAGTGAGAGATAGGTAAGCTAGCGAACTGAAACATCTAAGTAGCTAGAGGAAAAGAAAGTAAAAACGATTCCCTTAGTAGCGGCGAGCGAAGGGGGAAGAGCCTAAAACATGGTGGTGTTAAACTTGGCGAGGTTGCCATCATGTGGTAGAGGGAGATATTTGTTGAGATAGCCATAATCAAGATATGTATAGTTAGGTAAATAAAACAAGGTTGGAAAGCCTGGCCATAGAGAGTGATAGCCTCGTATGTGTAAACTAACATATGTATAATATTAATCCCAAGTAGCATCAAGCACGAGGAATTTGGTGTGAATCAGTGTGGACCATATCACATAAGGCTAAATACTTTTACTAACCGATAGAGAAGAGTACCGTGAGGGAAAGGTGAAAAGAACCCTGAGTAAGGGAGTGAAATAGAATTTGAAACCATGTGCTTACAAACGGTAGGAGGCGATAAGCTGACTGCGTGGATTTTGGTTAATCATCCTGCGAGTTATGATATGTGGCGAGGTTAAGAGAGTGGAGCCGAAGGGAAACCGAGTCTTAAGAGGGCGAAAGTCGCATGTTATAGACGCGAAACCTAGTGATCTAGGCCTGTCCAGGTTGAAGCTGCAGTAAGATGCAGTGGAGGACCGAACTCACCGCCGTTGAAATGTTGGGAGATGAGATAGGTTTAGGGGTGAAAAGCCAATCGAACTAGGAGATAGCTCGTTCTCTCCGAAATGCATTTAGGTGCAGCCTTAAGTTTAAAGATATGTGGGGGTAGAGCACTGTATAACCTAGGGGGCGTATAGCTTACTGAAGTTAAGCAAACTGCGAATACCATATATTAATACTTAGGAGTGAGTCTATGGATGACAAGGTCCATGGACGAGAGGGGAACAACCCAGAACATCAGCTAAGGTCCCAAATTATGTCTAAGTGGGAAAGGAGGTGGATATTCACAAACAACCAGGAGGTTGGCTTAGAAGCAGCCATACCTTTAAAGAGTGCGTAATAGCTCACTGGTCGAGAGTATCTGCGCCGAAGATTTAACGGGGCTAAGACATAAACCGAAGCTATGTAACAACAATGTTGTTGGTAGGAGAGCGTTCTGTAGGCTGTAGAAGGAGAGCTGAAAGGTGATCTGGAGGTATCAGAAGTGAGAATGCAGGAATGAGTAGCGAGAAAGAGGGTGAGAATCCCTCTGGCCGGAAGTCCAAGGTTTCCAGGGCAATGTTTGTCAACCCTGGGTGAGTCGGGACCTAAGCGAAGACTAGAAAGTCGTGGCGAATGGAAAATAGGTTAATATTCCTATACCACTTTAATCTGTTAACTGATGGAGTGACGCAGGAAGGTATGTGAGATGTCTGACGGAATAGGCATTCTAAGGGAGAGGCATGATAATATAGGCAAATCCGTATTATTAAATGTTAGACCTTATGGGTAAGGGCATTAGTGCTTAAGTTACAAATCCTACACTGCCGAGAAAAACTTCTAAAGAGGAAAGAAGTGCCCGTACTGTAAACCGACACAGGTGGACTGGGTGAGAAACCCGAGGCCGACAGGATAACTCTAGCTAAGGAACTCTGCAAAATAGCCCCGTAACTTAGGGAGAAGGGGTACCTATGGTAGGTAAGTGAGAGCATCATGAGCCCAAGTAGGTCGCAGTGAAGAGTCCCAAGCAACTGTTTATCAAAAACACAGGTCTATGCTAAGCTGAAAGGCGACGTATATGGGCTGACACCTGCCCAGTGCTGGAAGGTTAAGAGGAGGATTGAGAGATTCAAATTGAAGCCCCAGTGAACGGCGGCCGTAACTATAACGGTCCTAAGGTAGCGAAATTCCTTGTCGGGTAAGTTCCGACCTGCACGAATGGTGAAATGATTTGGGAGCTGTCTTGGCTGGAGACCTGGTGAAGTTGTAATGTCGGTGAAGATACCGACTACCTGTAGTAGGACGGAAAGACCCCGTGGAGCTTTACTGTAGTTTGGCATTGGGTTTTGGTAATGTGTGTATAGAATAGTTGGGAGACTGAGATATTAAGACGCTAGTTTTAAAGGAGTCAACTGTGGAATACCAACCATATATTATTGAAATTCTAATCAAGAAATTGAGACAGTGCTAGATGGGCAGTTTGACTGGGGCGGTCGCCTCCTAAAGAGTAACGGAGGCGTTCAAAGGTTCCCTCAGGTTGGATGGAAATCAACCAGAGAGTGTAAAGGTATAAGGGAGCTTGACTGCGAGATTGACAGATCGAGCAGGTGCGAAAGCAGGACTTAGTGATCCGGCGGTGCTGTATGGAAAGGCCGTCGCTTAACGGATAAAAGCTACCCCGGGGATAACAGGCTGATACTTCCCAAGAGTCCATATCGACGGAAGTGTTTGGCACCTCGATGTCGGCTCGTCTCATCCTGGGGCTGGAGAAGGTCCCAAGGGTTGGGCTGTTCGCCCATTAAAGAGGCACGCGAGCTGGGTTCAGAACGTCGTGAGACAGTTCGGTCCCTATCCACTACAGGCGTTAGAATATTGAAAAGATCTGTCCCTAGTACGAGAGGACCAGGATGGACAAACCTCTGATGTATCAGTTGTTACGCCAGTAGCATGGCTGAGTAGTTACGTTTGGAAGGGATAATCGCTGAAAGCATCTAAGTGAGAAACCCACTTTGAGATAAGTATTCTTTTTAAGTATCCACTGAGACTAAGTGGTTGATAGGTTGGGGGTGTAAGTGTAGTAATACATTTAGCTGACCAATACTAATAATACGTAGGCTTTGTATTTTTATTCTTTACTTTACTATTCATTTTTGATTGTCTTATATTTCTTGCTTTTTGTTTGGTGATGTTAGCCACAGGGATACACCTAGTTACTTTTCGAACCTAGTAGTTAAGTCTGTGTACGCTGAAGATACTTAGTAATAGGGAAAATAGGTAGTTGCCAAACTTTTTTTTATTCTTACTGTAATAAAAATGCAACAAGGATATTGTTTATAAAAAGAGGATTAACCCTCTTTTTTTATTATATTTATTGAAAATACTTGATAAATAATGTATAATTATATAATAAAATAAAAAGTGGAGGATTCTTAATGGAGTTAAGAGATTTACAATTAAATATAGAAAAATATTTAAATAAAAAAGTAAAATTAGATGGTTGGGTAAAGAAAATAAGATCACAAAAAAAGTTTGGATTTATAGAGTTTAATGATGGAACATATTTTCAAGGAATACAAATTGTATTTGATGATAATTTAGAAAATTTTGAAGAAATTTCAAAATTATCAATATATTCTTCAATTTCAGTTGAAGGGACTTTAGTTAAATCAGAAGGAAAAGGTCAAAGCTTTGAAATTAAGGTTGATAATATTTCTGTATATAATAAGGCAGATATTTCAAATCCTTTACAAAACAAAAGACATGGTATGGAATTTTTAAGAACTATAGCACATTTAAGACCTAGAACTAATACTTTTAATGCAGTATTTAGAGTTAGATCATTACTTGCACATGCTATACATAAATTTTTTATGGAAAGAAATTTCGTTTATGTACAAACACCAATATTTACTAGCACAGATGCTGAAGGTGCTGGAGAAATGTTTCAAGTTACAACACTTGATTTAAATAATTTGCCTAGAAATGAAGAAAATATTATAGATTATAGAGAAGATTTTTTTGCAAAACCTTCATATTTAACTGTTACAGGTCAATTACATGTTGAAGCTTTTGCATCAGCTTTTCATAATACATATACTTTTGGACCTACTTTTAGAGCAGAAGAATCATATACTGCAAGACATGCAGCAGAATTTTGGATGATAGAACCTGAAATTGCTTTTGCTAACTTAGAAACTAATATGGATATTGCAGAATCTATGATTAAATATATTATTAAATATGTTATGGACAATGCACCACTTGAAATGGAATTTTTCAATACATGGATAGAAAAAGGAATAATAGATAAATTAAATAATATATTAAATAATGACTTTGGGCGTGTTACATATACTGAAGCAATTGATATACTTAAAAATTCAGATGCAGAATTTACTATTCCTGTTGAATGGGGAATGGATTTGAAAACAGAGCATGAAAGATATCTAGCAGAGAATGTATTTAAAAAACCAGTATTTGTTACAGATTATCCAAAAGATATTAAAGCTTTCTATATGAAACTTAATGAAGATGGTAAAACTGTAAGAGCTATGGACTTATTAGCACCAGGTATAGGTGAGATAGTTGGTGGAAGTCAAAGAGAAGAAGATTATGATAAATTAGTTAATATAATGAGGGAAAAAGAACTTAATATAGATGATTATTCATGGTATTTAGACCTAAGAAAATTTGGTTCATTCCCACATTCAGGTTATGGACTAGGATTTGAAAGAATGTTAATGTATATTACAGGTATTTCAAATATAAGGGATGTATTAGCATTCCCAAGAACTGCAAAAAGTTTAGAGTATTAAAAGGAGAATATATGAAAAAAATATTTCTTGCCTTACTTGTTATCCCTTTATTTCTTAAAGGAGATTTCTTAGAAGAACTTCAAAAAATTGATATTCTTTTACAAAAGGGGCAATATAAAGAGGCATTACAAAAAGGAAAAGAATTAACTGAAACTGAAATTACAGAAGATGATAGAAGCTCTCTTCAAAACTTATTATCAGTTATAGAGAAGAAAATAAAATCTGAATCTGGGAATTTAGCAGATAGAATATTTAATAATACAGGAGAAATTAATTTTACAACTAATGAAGTTGCGGCTAGAGAATTTTCTGAAAGTGCTTCAAGTGGAACATTTGCTTTTCCTGGAGATGTATTAAATGATGCAGCTAAATATCAGGAATATGCTAATTTTGAAAAAGAAGTTTTAGCAAATGATAATACTGAAAATATATATACTTTATCAACTATATATATGAAAAGTGGATTATATGAAAGAGCTATGAATTTAGGGCTTAGATCTAATGAAATCAGAACTATATATAATTCTGCATTAGCAGCAAGATTAATTGGTAAATATGAAATAGCAATTAAGCAATATAGTAAAGTACTTTATTCAGATCCTTCTCATTTAAATTCTTTATTAGGATTGGGATTATCATATAGAGGTATGGGAGATAAAGCAAGTGCCATAAATTACCTACAAAAATATTTAAATTCTGGTGGAACTAATCCAAATGTTGATAAAACAATAGAGTATTTAAGTAGGTAAGCATTATGGGGTGGATTAATTTGAGTAGAATTTTAAAAGAAGATATATGTGTGGAAATTATGAAAAGATATGATAATATTTTTCATGCTATAGATGATTTTAAGAAATATGATTTAAATAAAACAATTTTATATAAATTGTTAAAAGCAGCAAAAGAAGATGATATATATTATATAAATAAATGTAGGGAAGAAAATATTAAGATAATATCATTTAAAGATAAAAATTATCCTAAAAAATTGATACAATCTGGATTTATCTTTCCATATATTTATTTAAAAACAAATATAGATATTAATAAGTTAGAAAATATATTAGCTTTTAGTTCTAATTATGATTTGATAGAAAATACTAAAAAAATATTAGATAATACTTTAGATTTAAATGATAATATATCATTAAGTTTAGTTACTGAAACAGATGCAGATAAATATATTCAAAAAAAGTTTTCATCTAAAAAGAATAATATGATATATATTAATTCAAGAGATTTTAAATATATACCTAAATATTATGATTTAGATAAAGATGTTTTAATTTCAATGTCTCCTTTTGAAGACTTTAGGAGTAAAAATAATATTTTAAAATCTACATGCCTACTTGCAGGTATTAGTGATTACCTATATATTCCAGAAAGTTTTTTAACTTCAAGAGCCATGATACTCTCAAAAATAATGAATAGTATGGGAAAAGAAATATTTGCTAGTACATCATATGGAAATAGATATTTAGGCTGTAACTATATATTAAGAAATAATATTGCAAAGCTTGTTATGAGTAAAGATGATATAAATAAAGAGGTGAATAATGGCTAAAAATTTAGTAATAGTGGAATCTCCATCAAAAGCAAAAACAATAGAAAAAATATTAGGTTCAAATTATGAAGTTCTTGCATCAGTTGGACATTGTATAGATTTACCAAAAAGTAAAATAGGAATAGATATACAAAATGATTTTAAACCAGATTATAAGATAATTAAGGGTAAAAAAGATATTCTTGAAAAATTAAAAGAAAAATCTAAAAAAGCTAATAAAGTTTTCCTTGCATCTGATTTGGATAGAGAAGGGGAGGCTATAGCATGGCATATCTCAAAATATATCAATCAAGATTCTAAAGTAAAAAGAATAGAGTTTAATGAAATTACAAAAACAGCAATATCAAATGCAATAAGAAATCCGAGAGATATAGATACAAATTTAGTTAATTCACAACAAGCAAGAAGATTATTAGATAGAATAGTGGGGTACAAGATATCCCCTTTATTATGGCCAATAGTTGGTAAAAAAGCATCAGCAGGAAGGGTTCAGTCAGTATCGCTTAAATTAATTTGTGATTTAGAAGAAGAAATTAAAAACTTCATATCGCAAAAATACTATGAAATAGATATATTAATTAATAAAGAGATTAAATTAAATCTTAGTGAAATTGATGGAGAAAAAATAGATAAAATTTTTGATGAAAAAATATTTAAAAAAGCATTTTCAGATTTAGAAAATAGTGAAGTTATGGTAGATGAGATAAAAATTTCAAAAAAATCTCAAAAACCACCAGTTGTTTTTAAAACTAGTACTTTACAACAACTTGCATCATCATATTTAGGATTTAATGCCACTAAAACTATGAGGGTAGCTCAAAGACTTTATGAGGGATTAAACATTGAAGGTGAAAGTAAAGGTTTAATTACATATATGAGAACAGATTCTATAAGAGTTTCTGAAGAAGCAAAATTTGAAGCTAAAAAATATATAGAAAAAAAATATGGTAAAGAATATGTAGGAAATTACTATATATCTGATAAAAAAAATATACAAGATGCACATGAAGGTATAAGACCTACAGATATTAATATGAGTCCTGAAAAAATAGAAAAATATTTAACTAATGATGAATATAAGTTATACAAATTAATTTGGGATAGATTTTTAGTATCTCAGTTTGCTAATGTAAAATATGATCAAATGCAAATTGTAGCATCAAAAGATAAATATGTATTTAAAGGGAATATAAATAGAATCACATTTGATGGATATTATAAGATATTTAAAAGTGAAGATATGATACAAACTGAAGATTTTCCTGAGTTAAAAGAAAAACATGAATATAAGATTGATGAAATTTTAACTAAAACTGGAGATACAAAACCACCTGCAAGATATTCAGAAGCAACATTGATAAAAAAACTAGAAAGTTTAGGTATAGGAAGACCTTCTACTTATGCAAGTATTATTGATGCAATTAAAGAAAAAAAATATGTTGATATAGTTGAAAAGAGATTAGTACCTACAATTTTCGGTAAGGAAGTAAAAATATTACTTGAAAATAATTTTAAAAATATCATGAATATTAAATTTACTGCAAGTATGGAAAGTAAGCTTGATGATGTTGCTACAGGAAAAACTTTTTGGGTTGATCTACTTAAAGAGTTCTATAATCATCTTTTAGATGAAATGGATGTATATAAGCAAAAAGTTGATGAACTTAAAAATAGAGTTATATATACAGATATGGAATGTAGTAATGGTAAAGGAAAAATGATATTAAAAAGTGGAAGTTTTGGTAAATATATAGTTTGTGAATTTGACAGCAGTGAAAAAATATCTATACAAGGAATAGAATTAACTGAAGAAGATCTTAATAAAGATGTAGTTCAGATAAAAGATAAAGTAGAAAAACTAATGGAAATAAGAAAAGGTCTTAAAACAGATATGTTAACTCCTAATGGAAGTAAATATTTATTAAAAATTGGAAGATTTGGAGAATATCTTGAAAGTGAAGATTATGAAAATGATAAGTTAAGAAAGACTTTAACTAAAGATTTAAAACTTAAAATTAAAAAAGGGACTTTAAAACCAGTAGATGGGGTGTATTTACTAAGAGAATATTTTGAAAAATTAGATAATGAAAATGAAAAAATTCTTGAACTTGCAGGAAAATGCGAAAAATGTGGTAGTGAATTTAATATTAAAATTGGAAGATTTGGTAAATTTCTAGCATGTAGTGGTTATCCACAATGTGAGAATATAAAGAAAATTCCTAAATCTGATAATGCTAAAAAAAGAGTTACTAAAAATAAGGCTAAAGCGAAAACAACTAAAAAAAATAAAAAGAAATAGAGGGCTTTATGGATAAATTGTTAGAAAAATTTTTGTATTATCAAGATGTGGTTTTAAATAAAAGCTTTAATACAGTTAAGTCATATAAAAAAGATTTGGAGCAGTTCATAGAATATTTAAAAAATAATGAGGGTATAGAAGATTTTAATAAAGTAGAAATATTTACTTTTAGATCTTTTATAGCATATCTAAATGTGGAACTTCAAGTTAATAAAAGAAGTATTAATAGAAAATTATCTGCAATTAGAACTTTTTTTAAATATTTGCTTGAAAATGACTATATTATTGAAAATAAAGCAGTGTATATATCAACACCTAAATTTGAAAAACCATTACCTAATTTTTTAACTAAAGAAGATATAGATAAATTAAGAAGTGTTATTAAACTAGAAAAAATAACAGGTTTAAGAGATAGAGCAATAATAGAACTTCTTTATTCAAGTGGTCTGCGTTCAATGGAATTACTTGATTTAACTGAATATACTATAGATTTAAAAAATATGGAAGTAAGAGTTATAGGTAAAGGTAATAAAGAAAGAATATCTTTTTTTAGTAATAATGCTCAAAAATATATATCAGAATATATAGAAAGAAAGAAAGAGGAATATAAAAACTATAATAAAGATGCTATCTTTGTTAATAAAGATGGGAATAAATTAGATTCAAGATCTTTAAGAAGATTGATAACAAAGTACTCTATTAAAGCTGGAATAAATAAAGAGGTAACACCTCATATATTTAGACATAGTTTTGCAACTGAGTTATTAAATCAAGGTGTAGATATTAGATTTGTCCAAGAATTACTTGGACATAGTAGTATAGCAACTACTCAATTTTATACTCATATAAGTAAGAATACATTAAAGGATGCATATATGAAATCACATCCTTTTGCTACTAAGAAATAGGAGAAAAAATGGAAAAAAAATGTAAAGGTTGTGGACTTTTACTACAATCAAATGATCCAAAAATTGATGGATATGTACCACATGAAAAATTGATTTCAAATGATAAAATAATTTGTAAGAGATGTTTTAGATTAAAACATTATGGTGAAAATTTAGAAAAAGAGGAAGATAAATTAAGCTATCAAATAGAGGTAAAAAAAGCTATTAAAGAAGCAGATATAATAATACCTATATTTGATATTATTGATTTTGAATCTTCATTTACTACTGAAATTATAGATTTACTTGAAGATAAAACTATACTTGCAGTGATAAATAAGATAGATTTATTACCTGGATATATACATATAGCAGAGGTATCTAAATGGGTTAAATACTATTTTTCAGAAAATAATGTATATCCCGAAGATGTTGCTTTTATTTCTGCTAAGAATAGATATGGAGTTAATGGTATATTTAGAAAAATACAATACATTGCTAAAAATATCCTTAAAAAGAGTTTAGATAGTAATGTTAAAATTGCTGTAATAGGAGTATCAAATGTAGGTAAATCAAATTTGATAAATTTATTGCTTGAAAAAAATATTAGTACAGTATCTAAATTTTCTGGAACCACTAAAAAAATGTTGGTAAATAAGAAAAAAACTAAAGAATATATGCTAACTATAATAGATACTCCAGGATTAATTCCTGAAGGAAGATTATCAGATTTATTAAATTCAGATATTTCATATAAATTAGTACCAAGTGGGGAAATATCAAGAAAAACATATAGACTTAAGGAAAAACAAGTATTTATGTTTGAAAATTTAGCGTATTTTGAGGTTAAGAATATACCTGATAATAAAAGCAGTGCTATAATTTCTGCATATGCTTCAAGAGAAGTTAAATTTCATATTACTAATATGGAAAAAGCTAAAGAATTATCAAAAAATGGATTTTTTAAATTCTTAGATGAAGAAAATTATAATAAATATTTTTCAAATGATTTCATAAAACAAGATTACATAATAGAAGAAAATGAAGATTTTGTAATAGCTGGACTTGGATATATTGAAGTTAAAAGAGGTCCACTAGAAATCTCTGCATATTATCCAAAAGATGTAAAAGCATTGGTAAGAAAGAGTATATCAAAAAACTCTGATTTTGAAGAAGAATTAGATGAGGATGATTTATTGTGGTAAAAATTTTAAGAAAAATAATAGTAGTTTTAATATTATTAACAATATCTTATTGTTATGCTACTAATAGAATATATGATTCAAGTAATAAAGAAATGGTAAATAAATAATGAAAGTTGCTGTATTAGGAAGTAGCAGTAGTGGTAATTCAACTTTTGTAGAGGTTGGTGGAGTAAAGTTATTAGTAGATATAGGATTTAGTTTAAAAAAAACAATTGAAAAACTTGAAAGCATAAATGAAAGATTAGAAGATATTTATGCAGTTTTTATTACACATGAACACATAGATCATGTTAAATCATTAGGACCATTACTTAGAAAAACTAATATATTGGTATATATACATGAAGATTCATATAATATGATAAAATCAAAATTAGGTAAATATGATGAAGAAAGAATAATATTTTTAAATAAAAGAGAAGTATATATTAAAAATGCTTGTGTAATAAATTTTGATTTAACTCATGATTCAGAACATTGTTTAGGATTTTCATTTATAGAAAACAATAAAAAGTTTGTATATATAACTGATGCAGGCTATGTTACTAAAGCTATGGAACTTCAGTGTCAAAATGCAGATGTTATAGCAATAGAAAGTAATTATGATTATGATTTATTAATGTCAGGTTCTTATCCTTGGGATATAAAGAGTAGAATTAAAAGTAAATTTGGTCATTTAAGTAATCAAGATTGCTTGAAGTTATTAAAGAACAGTTATACAGAAAAATTAAAGAAAATATTTTTAATGCATTTAAGTGAAGAAAATAATATGCCATCACTTGCAATGTATAATATAAGGAAAGAGTATAAGAATATTGATGTAGAAGTTTCAGATGAAAATGTTACTAGTATTTTTGAAATTTAGGGGGAAAATATGTGGAAAGAATTGGAATATAGAATTAGAACATTAAGTGTTTATAGGAACTATAAAAGTAATGAAGAAATTATGCTAGGTCAAGGAAATAGAAATTCTAAAATAATGTTAATATTACCTGATATAGAAAAAGAAGCTTTGGAAAATGGAAATATACTTGATAGTAATAATGGTAAGGTTATACAAAATATTTTTAAATATTTAGGTTTAGATATTGATAATATGTACATTACTTCATTATATAAATTAGATAAAAATTTTATTAGATATGATGTAAATACTATAGAAGAATTATTAGATGTCCTTATAACAGAAATTATGTATGTTAATCCTAAATACATAGTAACTATAGGTGAAGAAGTATTTAACATACTGATATCAGATGCTTTAGGAAAAGATAATAAAAAAATGAATGTAAATATTAATAAATGTGTAGGAAATATTTATGAATATTTTGAAAAAGTCCTAATCCCTATATATGATATACCATATATATCTAAGGCAAAAAAGGAAGAAAAGATTAAGATAGTAGATGTATTAAAATTAATTAAGGAGAAAAATAAATGATAGGAATTGGAATAGTAGGATTACCTAATGTAGGTAAATCAACATTGTTTAATGCTATAACAAAAACACAGAATGCAGAAGCTGCTAATTATCCATTTGCAACTATAGAACCAAATGTAGGTATAGTTTCTGTACCAGATCAAAGATTAAATGAAATTGCAAAAATAATTAATCCTAAAAGAGTTTTAGGAGCTTCAGTAGAATTTGTTGATATAGCAGGACTTGTAAAGGGTGCATCTAGTGGTGAAGGATTAGGTAACCAATTTCTAAGTAATATTAGAAATACTAAAGCCATATGTCAGGTTGTAAGATGTTTTGAAGATGAAAATATTATACATGTTGAAGGTAGTGTAGATCCAATTAGAGATATAGAGATAATTAATAGTGAATTAATATTAGCTGATATAGATACTGTAGAAAAAGCTATAGTTAAAAATTCAAAACTTTCTAGGACAAATAAAGAAGCAAAAATACTAGTTGATACTTTAGAAAAATGTAAAAAAATATTAGAAGAATACAAGATGTTGTCAAGCTATAATTTTACAGAAGAGGAATTAAATGCAATAAGAACATATCAATTTCTAACTTTAAAACCTATGATGTTTGGATTAAATATATCTGAGGAAGATTTAGTAAATGGAACTGAAAACGATCATATGAAAAAAGTTAGAGAATATGCTGAAAGTATAAATGCAGAATGTGTCTCTTTTTCAGCTAAAGTTGAATCAGAATTAATAGAAATAGAAGATGAAGATGAAAGAAATGAATTTATTGAAAGTTTAGGAATAAAAGAACCTAGTTTAAATAGATTTATAAGATCAGGATTTAAATTACTTGGTTTAATTTCATATTTTACTGCTGGTGAGCAAGAAGTTAGAGCATGGACTATAGAACAAGGAACATTTGCTCCTAAAGCAGCAAGTGAAATACATTCTGATATAGAAAGAGGATTTATTAGAGCTGAAGTGGTAGCATATGATAAGTTTATTGAATATAAGGGATGGGCAGGTAGTAAAGAAAAAGGTGCTATGAGATTAGAAGGTAAAGAATATTTAGTTAAAGATGGGGACGTAATGTTTTTTAGATTTAATGTATAAAGGAGAAAAATATGTATGATTTATTAGTTATTGGTTGGGGAAAAGGTGGAAAAACTTTAGCAGGAATTTTAGCCAATAAAGGTAAAAAAGTTGCAATAATAGAAAAAGATCCTAAAATGTATGGAGGAACATGTCCTAATGTAGGTTGCCTTCCTACAAAAGCTATGGTACATAGGGCTAAAATATTATCTGAAATGGAATTATTAGGTGTTGAAAGAGATTATGAATTTAATAATATAATATATCAAAATGCATTATCAGAAAAGAAAAAACTTGTTAATAAGGTTAATACAGCTAACTTTAACTTACTTAATAATAATGAAAATGTTACTGTATATAATGGTGAAGCTAAATTTATATCAAATACTGAAGTTATGGTAAATGGTGAAATTTTAACAGCAAAAAATATAGTTATTAATACAGGTTCTAAAACAAGAATACCTAATATAAAAGGTGTAGAAAGTAAACATGTACTAACTAGTGATGATGGTTTAGAACTTGAGATATTACCTAAAAAATTAGCCATAATAGGGGGAGGATTTATAGGGATTGAATTTGCAAGTTACTTTAGTAATTTTGGATCTGATGTTACAGTATTTGAAGGTATAGATAAGTTTATGCCAAAAGAAGATATTGATATATCTGAAACTATATTTAATATATTAGTTGAACAAGGCATTAATTTTAATTTTGGAATTAAAATATTAGAATTTAATGAAGTTGAAGATAGTATAGAAATTAAATTTGAAAAAGATGGAGAAATAAAATCTGAAATATTTGATAAGATTTTAATTTCTATTGGAAGAGAACCTAATATTGAAGGACTTGATTTAGAAAATACTAATATTACTGTTTCTGATAGAGGAGAAGTAGTTGTAAATGAATATTTGGAAACTACAGTTAAAGGAATATATGCAGTAGGTGATGTTAAAGGTGGAGAAATGTTTACTGCTGTATCTTTAGATGATAGTAGAATAATATTGCCTCAAATATTAGGTGAAAAAGGAAGAAGCCTTGTATCAGGCAGAAATGTACCTAAAGTATTATTTATTGATCCAAGTTATGCACAAGTAGGGCTTAATGAAAAACAAGCTACTGAAAAAGGTATTAAATATATAGTAAAAAAATTAGCTACAACAGCTATACCTAAATCTTTAGTTATAGGAGAAACTGATGGATTTACTAAGGTACTAATTAATGAAAATGATGAAATAATTGGAGCCTTTATAATTAATTATGAAGCACATGAAATGATTAATTTATTAGCACTTGCTATAGATCAAAAAATTAAATATCAAGTTTTAAGGGATTTAATTTATTCTCATCCAGTATTTACAGAAGGACTAAATGATATTTTAAAATAAATTAGGAGGGTAAATGGAATCTGTAATGACATATTTAAAGAAAATATTTGATTTAACTTTTATTTTACATTGGTTAGAAAATAATTTATTTAAATTATTAATGGGATTAATTATATTATTTTTCTATAAAAAAATAGCTGATTTTATTTTAAAATTATTAGATAAGATACTATTTTCAAAAATTAAAGATCATGGATTAAGAAGTTTTTTAAAATCATTTTTAAAAGTGTTTATACATATAGTGTTAGTGTATTTAATTATAGGATTATTTGGATTTAACTTAACTACATTATTTGCTTTAGTTGGAGCACTTTCAGTAGTATTAGGGTTTGCTTTTAAAGAAATTATTCAAAATATTTTTGGAGGTATAATATTACTAGTATTTAAACCATTTAAAGTGGGAGATGTTATACAATATAATAGTTATATGGGGACTGTAAAAAAAATAGAAATTTTTTATACAAGAATTATTAATTTTCAGAATGAAACAGTAATTGTTCCTAATGGATTATTAATTAATAATGAAATAAGAAATATAACTGCACAAAATAGAAGAAGATTAGATCTTATAATATCTGTATCATATGAATCTAATTTAGCTCAAGTTAAAGAAATATTAGAGAAAATTGTAGCAGATTGTGAATATGTACTTAGAGGTAAAAATGATAATATAACTATAGGTATAGGTGAACTAGGTTCATCTTCAATTAACTTTGTAACTAATGTATATGTATTGCCAGAACATTATGTATTAGCTAAATTTTTCATTCTTGAAGAAGCTAAAAAAAGATTTGATCTTGCAGGTATATCAATACCATTTAATCAACTTGACATATACATTAAAAATAAATAGGGGGTTTTATGGAAGTAATTAGATTTGAAAATTACGATTATACAAGTAATACCTATGTTATAATAAGTGATGAAAAAACATATATAATTGATCCAGGTTCTAAAAATATGACTAAAGTATTAGAATATATTAAAGAAAATGATTTAAATTTAACGGCAGTACTTTTAACTCACGGTCATTTTGATCATATCTTAGGATTACCTATGATACTTGAATATAAAAATGTAACGGTGTATATACATGAAAATGAAAAAGAATTTTTATATAATGGGAACTTATCGTTACTTTTATGGGCACAAACTAATCAAAGTTATTTAACACCATGTTTAGAAAATGCTAATATAGTTACATTAAAAGATGGAGACAGGATAGATAAATTTGAGATAATACATACACCTGGTCATACTAATGGTGGTATATGTTACTATAATAAAGAAGAAAAAATAATATTTACTGGAGATACCTTATTTAAAAATACTTATGGTAGAGTTGATCTGCCTACTGGTGATTCAGAAGCTATGTGGAAATCTATAGCTAAGATATTAAAACTAGAAAGGGATACAATTATATATCCTGGACATGGAGATAGTACTACTGTTGCTATGGAATATTCTTTTTATTATTCAGCATTTTAGATTGTTTCTTTGAATTAAAATATTTATAATATAAATATATTAATATAATATATATATTTTATATATTGATAATATTCTGATACAATTTTAATATAAAATATTAAGGAGGAAATTTATGAGAAATTTAACTGAAAAAGAAATTTATGAAATTGTTGGAGGGACTCATCAGTTTATAGAGAAACCACCGATTAACGAAATATATCCTAATGTAACAGCGAACTGTACAGTGCATCCATCTCCGAATTATGTTTTGATTCCTTAATGTTATTAATATTATTCTTAAATTTTTAGCTAATAAAGAGGAATAATATAAAATTTTATGCTATACCTTATTATATTAGATTTGAGGTATAGCTTTTATATTTCATAGGTTTATATAAAATAGAATATATAAACATAGTGCTATTATATTTCATCTAAAAATTGAAATAAATTTTAAATTATTTATTATATTTTTTTAATTTTGAATTGATAGAACGATATTTTAATAATTTATAATTCCTTTTTATTAATTTTAAATTAAATATAGAAAAATAAATATTTATACATAAAAAAATGACTCTAAATTTTAAATAAAATTTTTGAATCATCTTTTCTCTATATTAATCTATTTTCTTTATTAATTCTTTAACCACATTTTCTATATCTTTACCATCTTTAATCCAAACATCAGGATAAAATCCTATTCCCTCTCCATGATATTCTTTAGGTACAAAACTTCCACTTCTTGGGATTTTTAATATTAAATTAGAATTTTTTAGAATATAGTTATCGCCAGAAGTAGTTATAAAAGTACCACTAGAATTTGAACCTAAAACATATACATTTTTATAATCAAGTAGCTTTAACATAGATATTGTAACTTCACTAGAAGAGGCACTCTTATTATTAACTATAATAAAAATTTTAGATTTTCCTCTTTTTTTCACGAATTTTTCTACACCTTTTTTATAATTATCATAATACCATGACAAATAACTAGTGATATTATTATATTTATTACCAACTAAATTTATAACATTAAATGGTAAATCATAATATCTTCTTAAAATATATTCTATAGAAGATATATATCCACCTGAATTTCCTCTTAAGTCTATTATTAAATTTTTATTTTCAACTTTTTCATCTTTTAGTTTATAAAATAAATATTCTTCTAAATTTTTACCATTTAAGTTAATGTTTAAAAAAGTTGGTAAGCTTAAGTAAATATAATCTTTTTCAACTTTTAATTGGAATTGATTTGACATTTTTCCATTAATTTTTAAAATTTCTATTTCTTCATAACTATTATCAGTATATTCTATTTTAATATTCTTGCTTAAACTTCCTATAAAATCTATATCTACAATAGTGTATTGCAGATTAAAATTTTCATCTAAAGTCTTGACTATAAATTTTTCAATATCTTCTTCATCATTTATCTTATATATTTCTTTATTATTTATAAAATATTTTCCGTTATTTTTCTTTATGTATTTATTATAGATATATGAACTTGATTTTTTAGAAATCTTATTTTCTTCAAAAATAAAATGACTATTATTAATATATTTATTTAGTAAATTTAAAATTTTTTTCTTAAAATCTGTAAGTGATATTTTATTATCTACATCTTTTAAAATTATATCTTTTTCTTTTTCTAAATTTTTAAAATCAATATTATTATATTCAACATATCTTGTTTTTAATAAATAAAGTAAAAGCTCTATATCTTCTTTAGCTTCTTCCTTACTTAACATTTCAGGTTTAATAAACATTTCTTTTAATATATCATCAGAAAAATAATTATGTTTAATTATTTTTTCATATTCTAAATTAATTAATTCATCATTTTTATTAAATGTATTAGTATATTTTGAATAATCTATATTAACCTTATATGGAACTAAGTTGATTTCATCTTTTTTAAATATATTACAACTGCATAATATATATAGTGTAAATAAGATATAAAATATTTTTTTTAACATTTTGAACTCCAAACTTTATTATATGATATAGATAGCTTATAACTTAAGACAGTTATTTTTTCATAAACAGCTCCCCTTAATATTCTTATTAGTATTTTATCATAATATTAATAAATATGTAAAATATATATATTTAATTAATATTATTAATAATTTAAATACTTCCATATAAACTCATTACTAAACAATAGAAATATTTATTTTGTAATTTAATAACTAATGGTAATTTAGATAATATTAAAAATAAAGCTATAAAAGTTGTTTCTAATATATATAAATGATATTAATAGTTCTAAATATGTTTTATTATTACTCATGGATATACGGTTACTTTCAATAAATTTAGTTGTTTGTTATTGTACTGTATATCCTATTTTTTTTGACACTTATTTTTTGAATTTACAATTTTTTCATTTATTTATAAATATATCTTTTTTTAATTTTAATATTGCCTTATAATTATACCACCATAGTATTTTCTAAACAATAAACTCTTATTTTATATACCATTATCATTAAATATAAAATTAAAAAATATTTTCATAATATGAAACCAATAAAAGGATTATATATTCTTTCACTATATCGAACCATATTTTTTATTATTAATAAAATTATTATCAATTATTTTATTGACAATAATTTTGAAAACATAATATAATTAAAATAAATATATTAAAGGAAAATTATTATGAAAATTTTATCAGAAGAAGAAATGCTAAAAATTGATGGAGGTAAATCATATAGTAAAATAGCAAAAGGAGTAGGAAAAGTTATCGGTGGAACTATTTCATATGTAACAGCTATAGATGATGATGGTTCTGGAATTATTTCAGATGTTAGAGAGGGTGCTATAGAAATGATAAGACAAGGAATAGATGATTTTAAAGAAGGATGGAATGAATAAATTTATAATATTATTATCAATCTATTTTATTTACGGAATTTTCAAATATATTAATTATAGTTTAATTGAGTGCAGTAAATTATTTTATTATATTTATATATTTAGAGGATATTTATTATTATCTTCTGTAGTTCCATTATATTATTATTTTAAAAACATAAAAATAAAAAAAGAAGCAAAAATTTTTGAAATATATAATTATTTTAGTTTACTATCATTAATGATTGTAATAGGGTATATATTTTCAAATTTAAATATATTATTAGGGTTAGATTATAAATCACATTATGCTTTTGTAGGTCCAGTGATTATTTGGTTTTTATTTAGTAGTTTTTTTTCGTCTATTTTAGAAGAATTAATTTTTAGATTTTTTTTAATAGAAACATTAAAAAAAAGAAAATATAAAAGTATTATTGTTATAAGTTCAATATTTTTTTCAATATCACATTTAAGATTAGATTCTTGGATTATATCATTTTTTATAGGTATAATTTTAGCAAAAATATATATGGACTTTGGTTTAAGATATTCAATATTAGCTCATATTATATATAATTTCATATATAATATTCCTAAGTTATTTTTTAGAACTAAATTTTATTATATAATATCTTTTATAGTTATTATCATATTAATATTTTCTTTAATTATAAGTATTTTAACATATAAAAAATATTTAAAGAAACATTCATATAATTTCTTATTAACTTATAATGATATAAAAATTTTTTTATTTGAAAATAAACTATCAATTATATTAATTATATTTATCTCTTTAATTAACATTTATTTAGGAATAGACTTAAAATAGAATATATAATAATATAAACTATAATAATTTGTAATAAAAAAATTACTTTTTCATTTAAAAATTATTTTAAAGGACTTTGGGTCTGTTCCAAAATAGAAAACCTAGATAATAGAAAGGGACTATTTTGGAACAGTTACTTGATAGTATTCAACTTTTTGTGTCAAGTATATCCACAAAAAGATTAAAGATATATTTTAAAGTAATTGACTTAAACTCATTAAAAAATCAAAAAAATATTGAGCACTTAATTTAGTTGGAAAATTTATTTTTCTCTCTATTCCATTTTTATATTTAATTAAGACTTTTTTATTTTTCATTTCTACATTTGATATATTTTCTCTGTTTATTATTAAAAACCCTAAAATTAAAACTTTGTCATCATAATAAATTATTCCTTGATTAACAAAAACAGTTCCAAATAAATATAAATAAAATCCTGTTTTAATAATATTTAAATCTTTAAAGAATACACCAAAAATAAAATCAATAACCGCTAAAAAATAAAATATATAAAGAAAAAATTCTTGATAGCTAACTTTTTTTGATTTCATTTTATTTCCTATTTTAAGAAATTCTAAATAAAGTAGTCGTATATTAATTAGAAATGTCATTATAGCTATTAATTTATTGACTATATTCCCCAAGTTATTTGTATTATCTAAAGTAAATAGAAAATATAAAGGTATAAAACTTAAAAAATAATATACAACATTTAATTTTATTTTGTACATAACTCCTCCTATTTATTTATTTTATTATATAAATCATTAACTCCTTCTACAACTGCTCCTGCTGTTGCAAGAGTTCCTACAAATGCATTAGTTGCATCTTTAAAATCCCCTCCATTTATAGAAGTTTTTTCTTTTAAATTAAGTTCTTCAATAATCATGATTTTCACATACTTTCTAATTTAATTTTATATTAGTGTATTTATATAGTCAATATAATTTTTTTATTATTCAATATTTATTGGATAATATAAAATCGTATATAGACAATAAAATATAATAATTAAACATAAAAATTAAAATACAAGCTTTCTTAAATAATATATTAACTATTAATACATTTCATATTATGAAAAAAATAATTTTTCTATTTTCTATAATTACGATATATCTTATAAATTTATTTGCTTATTATTTTAACTTCTAATATCCTCTTGTATAATAAATAGTTTATTAAAGTACTTGGAGCATCAATTATTAGTATTAAAAGGTCTACTAATTTATGAACTTTACAATATATATAATTTAATTTGTACATCTTATATTTTGATGATATAATAAAATAAAATTAATTAGAAGGTGTTGTATTCTATAAGAGAAGTTATTCCAATACAGAATAACCTCAAATATAAAATACAAAATATCAAGCCTATTTACGATTATTAAAACTGAATGGATTAAAGAGTTTTTGTAAACTATTATTTTCTCTTTCTAAAGTTAATACCAGAGTTTTTAATGATAGGAGATTTTTTAAATAATTTCCTTAAAAATTCCTTTTCATCTTCAGATAACCTTTTATACTTTAGTTGAAAGGAATTACAGAAAATCTCAATGAATTTGTCCATGTTATTTCCGGAAGAAATCATAATCTGACGAATTTTCTGTAATGATAAGGTATCATCATCTTCAGGAATACTGTCAATGTCTTGTTCATGATTTTTACGAATATCTTTTATAATACTATCCCATGTTTTATGGGTAATATGACAAAAGAAATCTTCTTCGCCTACTTGAGCAGCTAATAGAGTTCTTAAAGTATGGTCATTAGATACATTGGGATTTTGATTTAGGATTTCAGTCCTTACAGTTTCAAGAGAAGAATTTAAGTCATTAAATCGCTTAGTAGCAACACCATCAACAAAAATCTCCGTATCAGCCATAAGCTCCTTAAACTTATCATGTGTAGCAATTTCACAAAGTAAACGGTTATTGATAGAGCCACTTAGCAATAAATCAATCATATCATCACTCAAGTGTAGATTAGTTAAATCTGTATTTGGGTGATTTTTGTTTTCTGTAAGACAAAGTAAGTAATCAGTAGATACATTGTAAAATTGTGCAAGTGTAACTAAATTACCATGATTTATTTCTTTGTAATCATCATTTTCATAGTTACCTAAAGCAGACTTTGAAATACCTGTTAGTTTAGCCAATTCCTCTAAATTTAGATTATGAGAAACTCTTAGATCCTTTAAGCGTTCTTGTAAGGTTATTTTACACTTCATAATAGATAACCTCCTTGATACAAAATATTCTTAACTTATATTATATCATACTATTTCCACAATCGTAGAAATCTGAAAAACATTACACGATTAGCAATATATACTTGCGAAAAATTATTGTTAAGTGTATAATATAAATAAAGTTAGAATATATTAACTGAATGAAATTAGAGTTAGGATAAAAGCACATTACATAGAAAAAGTTTATTGAAAATATCATTATTACAAGTTTAACTGTAATCAGTAATCACTGATTAATTGAAATAGATAAAGGAGGTGCAATTTTATGAATTACAGAAATCCTCAGAGGTATAAGAACGGCGATTGACTTAATCTTGAGTAGCAGTATTTAGAAAAAATAATTATGGAAAGTGAGGATAAGAATGTTAAATAAGAAAATGATTACTAAGACCTTTGTTGCAACAATATTGTCATTGACAATGATCGCACCTGCAAGTGTATTCGCTTATGAGAATACAGATTCACAGTATTCGGAAGATGTAGTAGTAAGTGAAGATGTTAATATTGAACAATCCGAAAATGTTAATTTTCATCAAGTTGAAATAAGAGATACTAACGATCTAGCTATATTGTCAGATGAATTAGATAGGTTCGTTCAAGAAAATCCTAACAGTTCAGAAGAAGAGCAAGACCAACATCTTATAGAATTTATAAAGAATGGTGGGCTAGAGAGACCTACTACAAGGAGTATAGGGGATTATTTACCCGGATATGGAAAGTTAAATACTGCTGAAAGAAAATTAGCTATTGCACATCCTGTTCAGGCTGTAAAAGTTTACAATGCAAGTAAAACTGCTACAGCGAAAACAATAGAGGTGTACGGACATAATGGTTGGCAAGACAACTCAGATGCGTTTAGACATTGCTTATGGAATGCTCTAATGAAGCAATCTATAGGAACTTCAGCGGCAGAGAAGTGGGCAACAGCTCATGAGTACACATCCAGTGGAATAGATAAACAAATGGATCTTCATAATAATGCAGTGGGTAGAGGTATAAATGTATCCGGAAAGTCAACTTCAAGTATTGTGGATGCGGTAAAGTCAAAAGTTAGAAATGGTAGTTGTAAGCGTATTATAAATGATAGGTTAGTTGCCACAGACGGTTCAGGTATGTAGATTTGTATTTTATTTGGAGCGATTTTGACAATCGCTCCAAATTTTTTAAAGGAGTTAGAATGTGATGAAATGTAGATGGAAAAGCATTGTTTTTGTAGTAATAGTAGCATTCTATATGCTTATAACTATTACACATTGCTTTTTTTCAAGAACTAATTTTAATAAGATTTTATCTGCTAAGGTGATATTTGCACACTTTTATTCGTTTACAGTATTATTTGGATGTGTAATAGGTCTTGTTTTGGTAGTTGCATTAGCATTGACAGTTTACAAGCATGGCTATAAAAATTTATATTTTTGCCTGTTGAGCTTAGCTTTGATTACATCTGTGATACTAATTGTATTTGGAGTAAATCCAACTAAAAATATAGATACGCATGAGGGTAATACTATAAAAATAGTTGAATGGAATGTTGAAAATGAACTTGAAAGCAAAAGTATTTATAAAATATTTGGTGAATTTGATGCTGATATTGTGGTATTTCCAGAGTTAGAAGGATATTATAAAGGAGATCCGGCTAACAATAGATTAAAAGAATTATTTAAATCAATTAATATTGATTATGATAAATATGAAGTATTTACTTCTATCCCCACAAGTGGAAATATTGCTCCGGTTACTATTGTTATCAAAAAAAGTTTTTCAAAATATATTGATACTAATCAAAGTTTAATGACTCAATTTGGAACTATATATTTAAAATCAATAGATAAAGATATGCCAGATATTATAGGATTACACACAGCTCCGCCGTTATTGGGTTTAATGAGTAATTGGAATAGAGATTTAAATGTAATTTCCTCAAATATTGTAGAGAGTAATCCTAAGGCAATAATTCTAGGTGATTTCAATGCAACACTAAGGCATGGAGCATTGAATAGTATAACGACACATGAAGATGTACTTGATTATTTGTCAAGATTTAGACGGGGAACATGGCATTCTAATTTTCCTATATGGATGTCAACCTCAATTGATCATATTCTAATACCAAAAGACACTTATCGTGTAAAAAAGGTAGATGTATTAAAGTTAAGGGAGTCGGATCATAGAGCAATTTTTGTTGAAATATCAAAATAAATATTTAAAGGCAACTCTAAAAAGGCTATTTATCCAAAAGGATATTTAGTCTTTTTATTATGTGAAAAGAATAATTTTATAATTATTCCACAATCGTGGAAAAACGAAAAAATAAGCCATATTTCCAACTTTGAGGACATACGGGAAGAATAGCAAAAATACAATATCATACAGACATAAAGAAAATTGTTCTTTGACAATTGAATGAGCGGTCTGTAAGGATATGTATCTACGGGGAAGTAGGCGAAGATTTTCTAAATATTGGAAAAGAGCCTGCCAAGTAGAACAAAACATCGCTGTGAGATTCAGGGGTAGGAACTATATCAGGTGTAACCGACAATAAATATAAATATTTAGCGATATATACTTGCTAAAATTTTTGAAATAGTGTATACTGTAAATAAACAAAGTTAGAGAGGACTAATAGTGTGAAAAACAGAATTAAAGAAGTTAGAAAGGTTAAGAATATTACACAGCAAAAGCTTGTGGAAAATATTAGTATCACAAGACAGTATATAAGTTTAATAGAATTGGGTAATGAAACACCATCGCTAAAAGTTGCAAATGAAATAGCGATGTCATTGGATACTTGTATCTATTCTATTTTTGATTTGGACGGTACAGGAGATTTCAAGTGTCCATGTTGTGGATGTGGCAATTAGTAATGGAGGATGAAAATTAAAATGTCAGCAGTTATATGTGTAAATGATTTAACTAAGGAATATAATGGCACAAGGGTAGTTGATTGCGTGAGTTTTTCTGTTAGTAAAGGTGAAATATATGGATTGCTAGGACGAAACGGAGCAGGAAAGACTACAATAATGAAAATGCTTTTGGGATTAGTGAATCCAACGGAAGGAAGTATTGCAATCTTAGGGAAAGATATGCGTAGAAATGAAGAAAGAGATGTGCTAAAGAAAGTTGGATGTATAATAGAAAATCCGGGATTTTATCCTAATTTGACGGGGACAGAAAATTTAGAGATTTTTTCTAAATTGAGAGGATTAGAACAGATTTGTGTACAAAAAGCCTTAGAATTGGTGAATTTACCGTATAGAGATAAGAAATTATTTTCAAAATATTCATTAGGGATGAAACAAAGATTAGCTATTGCAAATGCAATTATGCACAATCCGGATATTTTAATTTTGGATGAACCTATAAATGGATTAGATCCAATTGGTATTTCTGAAGTAAGAGTGCTTTTGAAAAAACTGAAGGAATCTGGAGTAAGTATATTGATATCAAGCCATATCCTATCTGAATTAGAAAGCTTAGCTGATCGTATAGGAATTATTAACTCTGGGAAGATGATTGAAGAAATCAGTGTACAGGAGTGGAGAAACAAAGAAAATAGTAGTATTAGAGTTTTCGTGAAAGACATTGATAAGGCTAAAATGATACTGAATGATAGAGGTATAAATTCAGAATGTATTTCAGAATTTAATGAGGGGCTTTTAATAAATAGTAGTAATTTAAGTGTTGCAGAACTCAATAAGATTTTTGTAACAAATAATATAGAGATAGTTGGCATAGTAGAAGATAAAATTACTCTTGAAGATTATTTTAAAAAAGTTACTGGAGGACATGGAATTGGCTAGGTTATTGTTGTCTGAATTTAAAAAGAATAAAAGATCTAAAGCAATATACTTATCTGGGGCGTTGGTTGTTGTATATTTAGCACTTACTATATTTTATACAGTAAGTGCTGTGGGATTATTTGATAATTTTATGTATCTATATAAATTTTCACTAAGTTATATGAATTATTTGATACTACCTATGATATTGTTATCGTTTGCGACCACAGCTTTTTCTAATGAATATAAGAGTGATACGATAAAATATTTGTGGACTGTTCCAATATCAAGGATAAAGTTATTTTTTGCAAAGGCATTATATGTTTTATGTATTGCATTTATATTTATGGGTATTGTTTTTGCAGTAATAGTTTCAGCAGGTTATGTTAGTAGATTTCAATCAAGTATGAATCTACATTTAGTTTTTAGATTCTTTGTATTGTGTGCAATTAGTTCTTTTCTTGTAACATTAGCTGTGTTACCTGTATCGATAGTTACAATTTTAACTAAAGGGAATAGTGTTACTACAAATTTAATAGGAAGTATATATATAATATCATCATTTTTCCTAATGAAGATACTGCAAGGAATTAGTCCACTAGCTAGTGTACCACACATTATGTGGTATAAAAATTTTGAAGGTGTTCAGAATAATGATAATGTGTACTTTATGATTGCCAATGTAGGATTAGTATTTGCATTATATTTGGTGGGAACACTAAATATTCTTAAGAGACAAGATTTGTAAACAGGGTGAAGTTATGGTGTCTTTAGAGCTAAAAAAACATAAAAGAAAAAAACTACCAGTAGTAGTTGCAATTATAGTTATTGTTGGTGCTGTGATTCAGTATTTTATGGGAAACATGACTTACAATGGCGTTGCTTACGGAAAAGTTTTAGGATGGTTTTTTGAAAATGGTTTGACTTTAAATAGTTATTATTTATTTATACCGGTAATTTCTATGATTGGGATGGAATTATTTGCATTGGAAAAACGCAATAATACTCTCAAAAATTTACTGGTAATACCGATAAATAGAAAAGAGATAATACTTAATAAATTTTGTGTACTGTTTATATTTGCGATAGTTTATATAATAGCCACATTTTTGTCTATGTGCTTATTGGAATTAATGTTTAATTTGAACAGTATAAGTAGCTCATTTGTTTTATCATATTTTGCAAAATATTTGATTCATGGAATAATATGCTATATATTGTCGGCATTTATAATTGGGGTTATGTTGTATTTTAAACAAAATATACAGATAACGGTTGCATTTGCTTTTGTATTTGCTTTTGTTGGGGTTTTCATATCACAAATAAAATTTGCATATATTTACTGTGTAAATGCAATGTTTTATATTTCCGGCGAAGTAAACTCGGCTATATTTGAAAAAATAGTTGCGTGCTTAGTTATACTGTTTATGGTATTCCTTGATGTAAAGTTGTTTTCAAAAATTTCGCTTAGGGAGGAATTTTGACTGATGATGAAATAAAGGAAGATACCTATATAGAGGAAAAAGAAGATAAAAAGTATATTCACAAAGACAGCAGATTTTCACCGATAACAGAATATCTGAAAGGGCAAGACAGAGAAATAGAGCTTGATTTTTCAAAGGTGGAAGAACTTATAGGCAGAAAACTTTGCAAATCAGCAAGAACCTATCCAAGCTATTGGTATGCAAGTGAAGATAGACCTATGGGAAATTCTATTTATAATGCAGGATATGATATTGTAAAGGTAGATGTAAAAAAAGAAACAATAAGGCTTATAAACTACGACAAGTAAAATATAGATGAGATTAGAGGTAACTACTAAAAATGGTGGTTACCTCTTTTTTTATTTGTAAATATTTGAAAAACTTTGTTGACAAATATCAACCGAAGATGTATAATTATAGTTTTAAACTATAACATACAACAAAAAATGTTTTTTAGAAAAAAATTCTATTGTGTTTTACAACAAGATGAAAAAGATTGTGGCCAGCATGTATATTAACAATTTTGAAAGAATATAAAATTGAGTACTCTATAGCTAGATTAAGAGAAATTGCTGGAACTGACAAACAAGGAACGAACATTTATGGTATTTTAAAAGGATTGGAATACTTTAATTTAAACGGAAGAGCAGTAAAAATAAGTGATAAAAAATTTATAATACCTTAAAACTTCCAGCAATAGCACATATTATAAATGATAAAATATGTATCATTATGTAGTTATTCAAAATATAAATAAAGATAAAATTGTTATTTCTGACCTTGCAAAAGGTGTTTTAGAATATAATTTAGAAGATTTTTATAAATTTTGGACAGGTATTCTTATTTTAATTGATAAAACAATGGATATAAAAAAAATTAATATAAATAAAATAGATTTTTGGACATTTTTTAAGAGTATAAAATTACAAAAAATCTTAATTTATAATATTATAATAATATCTTTTATTATTTTATTTTTAGGAATATTTACATCACTTTATTTTAAAATAGTAGTAGATTATGTTTTGAAAAATAAGTTAGTAACTACTTTAAATATTATAATGACTGGGGTTGTTTTTTTATTAGTAATAAAATCTATTTTAGAACTTGTAAGAAACCAATTAATATTATTTTTAAGTCAAAGGATAGATGACATAATATTATTTGGATATTATAAGCATATAATAAATTTACCATTAAATTTTTTTGCAACAAGGAAGATAGGAGAGATAATTTCTCGGTTTTCAGATGGTTCTAATATAAGACAGGCAATATCTGATATATTATTTACTTTAACAATAGATATGCCTTTATCTTTACTTGGAGGAATAATCTTATTTTATTACAATGTTAGATTGTTTTTTGTTTCTTTAGCATTATTAATGTTATATTTTTTAGTTTATAGTATTTTTAAAAATAAGATAAAAATAAAAAATCAAGATGTATTAGAAAAAAATGCAATATTAACATCAAATATTATAGACAATATAAATGGGATAGAAACTATAAAATCATATAATTTAGAAAAAATTATAGAAGATGAAACAGATTATAGATTTATAGAATTTTTAAAATCAATTTATAATAGAGGGAAATTATATAATATAATAAATTTTATTTCTAACAATATATCTACAATTGGAAATTACTTAATTATTTGGATTGGTTCTAATGAAGTTATAAAAGGTAAAATGTCATTAGGAGAATTATTTGTTTTTTTATCATTGTTAGCATTCTTTTTAGACCCTCTGAAAAAAATATTTAATTTACAAATTCAATTTCAAAATTCAATTGTTGCTGCAAATAGAATTGGAGAAATATTTGAATTAGAATTAGAAGAAAAAAAATTAAAGAATAAAGTTAATTTAAATAATTTGAAAGAAAAAATAGAAATTAAGAATTTAAAGTTTAGATATGGTACTAGAAAATTAATATTAGATAATATAAATATTAATATAAAAAACAAACAAAAAATAGCTTTTATTGGAGAATCTGGAAGTGGAAAAACTACTTTGGCAAAATTATTAATGAGATATTATGATTATGAAGAGGGAGAAATAAAGATAGGTGGTATTAATATAAAAGATATGAATCCATATTTTTTAAGAGATAAAATTAGCTATGTATCTCAGGAAACATTTTTATTTAACAAAACTATTCGAGAAAATTTATTTTTAGATGAAAAAGTAGAATGGAAAGAAATTTTAGATTTAGCAGAAAAATTAAAAATATTAGATTTTATAAATGAACTTCCTAATAGATTTGAAACATTAATAGAAGAAAATGGTAAAAATTTATCTGGAGGGCAAAGGCAAAGATTATCCATTTTAAGAGCTTTATTAAAAAAACCAGATATTTTAATATTAGATGAAGCTACAAGTAACTTAGATTTTATAACAGAAAAATCTATAAAAAATGTGATTGATAGCTTAGAAATAACTACAATAATAATAGCTCACAGATTAAAAACTATAAAAATGTGTGATAAAATCTTTATATTTGAAAAAGGAAAAATAATTGAAAGTGGAGAACATTTAGAGTTATTAGAAAAACGTGGTAAATATTTTGAATTTTGGGAAGAACAGGTATAATTAAATGAAAATAAAAAAATATAAATTAAGTGAATTGATAAATGGAAGAGATGAATTAAACAACAAAAATAAGAAAATTTATAATTTTTTTTTACCATTATTTCTAATAATAATTTTCTTTCTTTTTATTTATATTTATTTTTTTGAAATAGAATTAAATATAAAAGGTATAGGTGTAATTGAAAGTAATTCAAATATTAGTATAGTAAAAAATATTATTCCTGGGAAAGTAAGCTCTAATTATATGAAAGATGGATTATATGTTAAAAAAGGACAAGTTTTATTTGAATTAGATAATCATTTACATGTTTTAAAATATGAAAATATGATAAAAGAACTAGATGAAAATAAAAAGTTTTTAAATTATATTTTATTAAGTAGTATTGATATAAATTCACTTATATTGAATTATAAATTAGAACTAGAACAACTAAAATTTAAAATTGAAATAAATAAAATTGAAAGAGAAAAAATAGAAAAAGAAATAGAAAATTCAGAAGAAATTTATTCTATTGGAGGAATTTCTAAAAAAGAAGTTTTAAATTTAAAAAAAGAATATTTAAAAATTATATTGAATGAAAAGAAATTATTTACTGAAATTGCAGAATTTAAATTTCTTAAGCAAAAAGAAGTATCAAATAAGATTAAAAAATTAGAGTTAGAATTAGAAAAAATGAAAAATATTATAGATAATAATAAAATATTTGCTTCAATTGATGGAGAATTAGAATTAGAAAAATATATTAATGTAGGAGATTATATTGGAAGTGAAAATTTAGGAAAAATTATACCTAAAGATAATAGATACAAAGTTAAATTGTATATAAATTCAGAAGATATAAACAAAATAAAAATTGGAAATCATGTTAAATATTTTTTAAAAGATGAAAAAGGAGTAGAATACGATTTAATTGGAAAAATTGAATATATATCAAATACACCAGTAAATATGAATAATAACATATACTATTATTTATATAGCACTATAGAAAATGAAAAAAGCTTTAAATTGGGATTAAATGTAGAATTTTCTATATTATATGATAAAAAAAGCATTTTTAATTATATTTTAGAACTTATAAAAAAATAAAATTGATTTCATGGAGAAGGAATAGGATTTTATCCCTATGTTTGGCTTAAAGATAATAATAAGGATATATAAGAGATTGTTATATAATTAATAAAAAAAAATAAATTAATATGAAAAGATGATTCAAAGATTTTATTTAAAATTTAGAGTCATTTTTTTATGTATATATAATATTAATAGTAACTATTTAGTATATATATTTTGTATATTTGATTTATTATGATATAATCATATTATCAAAAAATAAAGGAGGAATCAGTAATGAAAAAAATAATATTATCAGTTTTAACACTTTTTATGATGTTTAGCTGTGGTAATAAAACAGAAGTTGATGTAAAAGGAGGAACTGAGTCTATTATTAAAATTGGTGTTCCTGAACCTTTAACTGGAGATTTATCTCAATATGGAGTTGCAATAAAAGAAGGTATAGAATTTAAAGTTGCTCAAGTAAATAATGAGGGTGGAGTTAATGGTAAAAAAATAGAATTAGTGGTTGAAGATACTAAGGGAGATTTACAAGAAGCAATAAATATAATGAAAAAGATGATATCAGTTGATAAAGTTGATGCGGTATTAGGAGAAGCAATTTCAGCAAATTCATTTGCTATTGCCGAACTTGCTCAAAAGGCTAAAATTCCTATGATAACACCAGCAGGTACAAGATTTGATATTACAGAAAATAAAGATTTTGTTTTTAGGGCTACATTTACAGATCCATTTCAAGGAGAAGTGTTAGCTAAATATATTAAGAAGTTAGGATACTCAAATATAGCTGTTTTAACAAATACATCAAGTGATTATTCAGTAGGAGTTGCTAAGAGCTTTAAAGAAGTTGCAGATAAGATTAACTTAAAATATGATGAACAAAAGTATACTAAAGAAGATAAAGATTTTAAATCATTATTAACAAATATAAAGAATTCTGGATTTGATTCAGTTTTAATCCCAGATTATTATAACACAGTAGGTTTAATTTTATCTCAAGCAAAAGAGCTAGGGCTTAATGTTAAATTTTTTGGTGCAGATGGATGGGATGGAATACAAACAGATTTCGTTGATGTAGCTGAAGGAGCAATATTTACAACTCAATTTGATATAAATGATAGTTCAGTATTAAGTATGGAATTTATTTCTAAATTTAAAGAAAAATATGCTAAAGAACCTAATCTATTTACAGCTCTTGGATATGATGCGGCTACTATTATTGTAGAGGCTTTAAAATCTGTTGAAAATCCATCAGATCATATTTCAGTTAAGAAAGCATTAAGCAATGTTAATTTAGAATTAATTACAGGAGAATTAGAATTTGATGCAAATAGAAATCCTAAAAAAGTTGTTTCTTTCTTAACAATAGAAAATGGAAAATTAGTATTAAAAGAAAAATTCTAAAGTTGTGCTCTTAATGAGCACAACTTTTTAAGGAGAGAAGATGTTTAAAAATTTTATAGATCAAACAATAAATGGTCTTCAAACAGGTAGCATATATGCATTGATAGCTTTAGGATATACCATGGTTTATGGTATAGTTAAATTAATTAACTTTGCTCATGGAGATATATTAATGATAGGGGCATATATTAGTTTTATGGCTGTAAACAGAGGATTTAATTTAACTACAGCTTTAATAATATCTATAATATTTTGTTCTATTTTAGGTATAGTTATGGAAAGATTAGCGTATAGACCATTAAGAGATGCATCACGTATGAATGTACTAATTACGGCTATAGGATTAAGTTTTTTACTTGAAAGTTTAGCTTTAATATATTTTGGAGCTTCTCCAAAAATTATTAAATCTGAATTTATACCTAAATACTTATCAAGTTCAGAATATATTAGTATTTTTGGTATTAGAGTTAGCAATTTAAGTTTTTTTGTAATTATAGTTACCCTATTTTGTATGCTTTTATTACATGTATTTATTAAGTATACTAATTTAGGTAAGGCAACAAGAGCTGTATCTCAGGATATATCAGCAGCAAAACTTATGGGAATAAATACAGATTTTACTATATCTTTAACTTTTGCAATAGGTTCAGCATTAGGATCTTTAGGTGGATTAATGTATGCATTAACTTATCCTAGAATAGATCCATATATGGGATTATTGCCAGGTCTTAAAGCATTTATTGCTGCTGTTTTTGGAGGAATAGGTAATATACCAGGAGCAATGGTAGGTGGATATGTAATGGGATTACTTGAAACATATGTTAAAGGATATATTTCATCTACTTGGGCTAATCCTATAGTATTTATTCTATTGATAATTATATTATTATTTAAACCTAATGGATTATTTGGTAAAAATAGAAAGGAAAAGGTTTAAATATGGAAAAGAAAAATAGTTTAAAATTAAATAAAACTAACTATATTTTAGGATTTTTAATGATATTGTTTACATATCTAATATTACAATATTCTATAATAGATGATGGTATTTTTAGCTATAAGGCGAGTATTTATATAAATATATTGATATATATTTTATTTGCTTTAAGTATAAATATTACGACAGGAGTTATGGGTGAACTTAATTTAGGACATGCTGGATTTATATCTATAGGAGCATATTCATCATCTATTTTTTCTAAATATTTGTATAGTTTTAATTTAAATCATTTATTACATTTAGTGATAGTTTGTATATTTGGAGCAATAATAGCCTCATTTTTTGGAATGTTAGTTTCTATGACAACTCTTAGATTAAGAGGAGATTATTTAGCTATAATAACACTTGCATTCGGGGAAATAGTAAAATATATTATACAAAATATAGATTTTTTAGGTGGAGCAGCAGGTTTAAATGGAATACCTGATATAGTTAATTTTAGCTATATATTTTTAATAGTTGTTATTTCTTCAATATTAATGATAATGATATTAATATCGAAAAAAGGAAGATTACTATTATCTATAAGAGAAAATGAAATAGCTGCTGAGAATATGGGAGTTAATATTAATAGGGCTAAAATTTATGGATTTACTCTATCTGCTTTCTTTGCAGGAATAGGTGGAGCTTTATTTGCACATAATCTTGGAAGTTTAACTCCAGATAAATTTAATTTTGTATTTTCTATTGAAATATTAGTAATGGTAGTTTTAGGTGGACTTGGAAGTATAACAGGAGCGGTTGTTTCTGCTACTTTTTTAACACTTTTAAATGAAATATTAAGACAAGTATCAGAATATAGATTTTTAATTTATTCAATTATACTAATTAGTTTAATGATATTTAAAAAGGACGGTATCTTAGGAACTAATGAATTTACTATACCTTCTTTCTTAAAGTGGTTAAAAGATATTAAACAGAAGGTGATAAAATGAAATTATTAGAAACTCAAAATTTAACTTTGAAATTTGGTGGATTAACTGCGGTTAAAGATGTGAATGTAGAAATTAATGATAAAGAATTGATTGGATTAATAGGACCTAATGGTGCAGGAAAAACTTCATTTTTCAATTTATTAACAAGAGTATATCAACCAAGTGAAGGTAAAATATTTTTAAATGGTGTAGATATATCTTACATGAAAACATATAAAATAGTTGCACTTGGAATGTCTAGGACTTTTCAAAATATTAGATTATTTAAACAATTAACAGTACTTGATAATATTAGAATTTCTTTAGATCAAAAGAAAGATTATTCAACATTAGATGCTATGTTTAGAACTAAAAAATTTAGAGAATATGAATATGAAAGTATAGAAAAGGCTAAATCAATTTTAAAAATATTTGATTTAGATGAAATAGCAGAACATAGAGCAGATTCACTATCTTATGGTAATCAAAGAAAACTTGAGATAGCAAGGGCCCTTGCTTGTTCTCCTAAATTATTATTACTTGATGAACCAGCAGCAGGAATGAATCCTAATGAAACTTATGAATTAATGAAAATAATAGAAAAGATAAAAAATGAATTTAATATTTCTATATTATTAATTGAACATGATATGGATTTAGTAATGGGTATTTGTGAGAGAATATATGTACTAAATTTTGGAGAAGTAATTGCAAGTGGTAAACCAAGTGAAATACAGAATAATAAAGAAGTTATTAAAGCATATTTAGGAGATTAAAATGAAAGTATTAGAAGTGAATAATATTAATGTATTTTATGATAAAATACATGCAATTAAAGATGTTTCTTTTTATATAAATAAAGGGGAGATAGTATCTTTTATTGGTGCTAATGGTGCAGGTAAAAGTACAACTTTAAATGCAATTTCTAACCTTTTAAAAATTAAATCAGGAGAAATAGCGTTATTTGGAGAAAATATATCAAATGTTAAGGCTCATAAATTAGTTTTAAGAGGAATGGCACATGTACCAGAAGGAAGAAGAATTTTTACTGAATTAACAGTATTAGAGAATTTACTTATGGGTGCTTTTACAAGACCTAAATCAGAAATAAAGGAGAGTTTAGAAAAGATGTTTAATCTTTTTCCAAGACTTAGAGAAAGAAAAAATCAATTATCTGGAACTATGAGTGGAGGAGAACAACAAATGCTGGCAATGGCAAGAGCATTAATGTCTAAACCTAAATTACTTTTATTAGATGAGCCTTCTATGGGACTTGCACCACTATTAGTTAAAGAAATATTTGAAATAATTAAAAAGATTAACAAAGAAGAAAATGTAACTATATTACTTGTTGAACAAAATGCTAAGATGTCGCTTGAGATATCTGATAGAGCATATGTTATTGAAACAGGGGAGATAATACTTGAAGGAAATGGATTAGATTTAATAGATAATCCTGTTATTAAAAAAGCTTATTTAGGGGGATAAATAAGAATGGAGAATTTCTAATAATGGAAATTCTCCTTTTTACTATATATAGATATTGACAAAACAATGGGGGGGGGTGTATAATTATGATGATCAAAAAAATAGGGAGAATAATGGATGAAAAAGATATTAATAACATTAATTAGTTTAAGCATATTTTCGTTTTCAGCTAATATTACAGGACCAAGATACAGACTAGAAGGCTCTGTAGGAGCAATGAATTATAAGGGAAATGTTTTTTCTCTTAAGACTATTTCAACATCTATATCAGTACTACCAGAATGGAAGGCAGAAATAAATAAAAAAGTAGATATTACATTGGACCTAAGGTAACATTAAATGTTACAACAGGTATAGACACTAGTGGAACAACAGTGCATTCTCATATAATTTTAGGTGGAGAAATAGATCTTAATTATAGATTAAAAGAAGACATCAAGCTATATACAGGAATAGAGGCAGGAATAGGTATAGGATCTCAAGTTTATTCAGGTAATGGTGATACTCATTTTACTGGACCAGAATTTGCCCATATAGGTAAATTATCTTTAGGAGTGAAAATAAAAGAAAAATATAATGTAGCACTTTATACAGGATATGAAAAAGGAGCATTAGGGATAGAAGGAGGTTATACTTTTTAATATGAAAAGAATACTAATATTAATAATGATATTTACTGGAATAATTTTATTTCCTAATGAGAAAAAGATAACAGGACCAAGATATAGACTTGAAGGTTCTGTAGGAGTATTTAGTAGCAATAAAGCTTTAAATAGAGATAGAAAAACATTTTCATCAATAACTATAGGATTATTACCAGAATGGAAAGTGGATTTAGATAAGAGATTTGATATAACATTTGGACCAAAGATAGGAGCAAATGTTTCTTACTATAAGACAACTAATGCATATATTGTAGAACCTAAAGGTATTTTATCTATAGTAACATACATAAATTATAGATTAAAAGAAGACATAAAGCTATATAGTGGTATAGAACTTGGAATTGCATTAGGTGGAAAAATAAATGATGCTGAAAAAAAACTAGTAATAGAAACAATTCAAAATGTATTATTAGGAATTAAGATAAAAGAAAGATATAATGTAGGTATTTATATGGGTAACGGAAAAGGAATGCTTGGAATAGAAGCAGGATACACATTTTAGGGAAAGGAGTAGAGATGAAAAAAAGTTTATTAATATTTTTAACGATAATGATGAGTATAATATCCTTTACAGGATATAGAGTTGATGGCTCTTTTTCTTATGGATTAGAGGAACTAGGGGGAAATGATAATAGTATAAAGCATCAATTAATTTTATCATTAGGATTTATGCCAGAATATAGATATGAGAAAACAAGTAAGTTAGACTTTACTTTTGGACCTAGAATATCGCTAACAGGAGGAGTGGCTATAAGTGAACTTGGAACAGTAGGTAGAGGTTCACTAAATTTAACACTAAGAGGAGAAGCTAACTATGAGCTTTTAAATAATATTAAGGTATTTGGAGGAGCAGAGTTAGGAGTAGGTATGTTTCTTGAACATGCTAAGGGTATTGGTATAAAAATGGATGGAAACCATGGAGCAATAGCAAAGGGAATAGTTGGATTAAAGATAGATAAATATAATATAGGTTTAGTTAGTGGATATGAAAATAAGTTTGTTATAGGTATAGAAACAGGATATACATTTTAAAGGGTTACAATTTGTACTGCACCCCAATTCTTGAATACAAGAAATGGAGGTGCATTTTTTAATGTTTAAAAATGTATAGAATGTAATAAAAACGAGTTTTAGAAAGTAAACATGAACGATAAAAAAAGGTACTCACACTCGAATACCCTTTAAAGTTACATTCTTTATAATTATTAATCTTTAATCATTTTATCTATCAATATATCAAAGAATTTTAAAAATTCTTCTATAGGTTCTTTATTCCTCATTCTTTTTAATTTAAGACAAGTTCCTTCAAGATTATTTATTAATAAGTAAGTATAGTAATCTATAAATTCTGATTTGTATTTATTATGGACTATGCTTAATGTTTCTAAGAAAAAATATATTCTACTTTCTATTTGAAAATATGCATCAACTATTTTTGCATTAATTTCATCACTTAAGTTAGAAAGTTCTGAATTTAAATTTCCTAAAGGTGAACCACCATAAAATTTCTTAGTATTGTTATGATTTATACCGAATAATAAGTCATTTTCTTTATTTTTTTCTGTAAGGTCTTTATCTTCTATTTCTATGATTGCAATATTATTTAGAAAAATAGAAAAGAAAGATTTAAGTTTGTATATAGATAAATCATCTACATTTTTTTCAAATAATTCTAAAATATTTTCTCTATGATAATCTATTACTTGTAATAGTAAATCATCTTTACTTTTAAAGTAATAATAAAAAGAACCTTTTGGAATATTACATACATCTAATATATCTTGAACACCGGTATTAACATATCCTTTTTTAAAAAAAAGATTTGCACTTTGAACTATTACATTTTGTTTTTTTTCTTGTAATAATTTCTTTTTTTCCATGTATTTCACCTCTTAAATACAGTTTAATACTAAAAAGAATTAAAGTCAATGTTTTTTTCTATATTCTTATCTAAGATAGTATAATTTCCAAAATCTATAGTATAATCATTTAATATTTTCTTTGAAAATGAACCATGTATATCTGTTATACCTAAGTTTTTGAATTTATGAATATTATTAGCATTTATTCCACAACCAACTATAATTGGTAAATTTTCTTTTATAGCCTTTTTAATATTTTCTATACCAAGTTCTGCATTTTTTTCATGCCCTGATGTAAGTATTCTAGTTATACCTAAATTCTTTAATAATATTAAGTTATTAATATAGTCATTACTTACATCTATTGCTCTGTGAAATATTGCTTCCTTGTTATATTTTTTAGCAAGAGTTATAAACTTCTTGGTTCTTTTTACATCTATGCTATTATCATAATTTAAAAAACCAAAAACTATACCTTTTATAGGTAATTTTAATAGATATTTTGCATCTTCTTTCATTACCATATATTCATTTTCTGTATATGTAAAATCACCTTCTCTAGGTCTTATCATAACTACTATATCTTTAGTTGAAATTTTTAATGCCTGCTTAACTAAAGCATGTGATGGAGTTAATCCACCTATACTTAACCCTTGATTAAGTTCTATTCTTGAAATATTTAATTTTTCAGTTATTATTATATCTTCTATATTACCTGCACAAATTTCTATATTCATTTTATACCTCCACTAATATTATATACTAAATTGCTTGATAAAAAAATAATTAAGTTGCAATATTTATGCATTAAGGGTATAATTTAAAATATATATTGGGAGGTAAAATTTGAAAGAAAAAACGAGAGAATACATTTATTTTTTTATGATACCTTTGTTAATATTATTTTACGCTTTTATATTAAATAACCCTAAAGAAATATTTGAAGGTGTAAATAAGATATTAAATACTAGTGATATATTAATATCAGATTATTTTTATATTTCAAATTTAGGAGCTACCTTTTTTAATGCAGGAATAATTTGTTTATTTAATGCCTATTTAATATATATCTATGATTTAAAATTAAATGGATTATTAATTGTTTCAGTATTAATTACCCTATCATTTGGTTTTATGGGTAAAAATATATATAATATTATACCGTTTTATATAGGTTCATATATTTATATTAAGTTCATTGGTAGAGAATTTAAAACGGTAATTCCTATTACTATGATGAGTACAACTCTTGCACCCATAGTATCTTCTTTAGGTGTTTTAGGAATAATAATGGGTATTTTCATAGGCTTTATTATGCCTATAATTACTAAGCATACCCTTTTATATCATGGAGGTTATAACTTATATAATACAGGGTTTGCTGGAGGGTTATTTGGCATTATTCTATATTCAATTATTTTATCATTTGGAATTAAATTTGATGTAAATAGAAGCTATAATAATATTTTTTATACTTCTCCTTTTATATTTTTCTTATTACTATTTTCTTTAATGGTAATAATAGGTTATTTAAATGATAAAAATATATTTGAAAATATGAAAAGTATACATAGGCATACAGGGAGGTTAGTAACAGATTTTGTTCAAGAAGAAGGATTTTATGCTTCATTTTTTAATATGGGCATAATGGGACTTGTATGTTTAATATTTCCGATGTATTTTAAGGTGTTTAATGGACCTGTGATTTGTGCAATACTTACTGTAGTTTCTTTTGGTGGATTTGGTAAACATTTAAAAAATATTTTACCTGTAATGATAGGTGTTATTATTATGTATTATCTTACAAGAACTAGAGTAGATGAAACTATATTATTAATGACAATATTTTTTTCAACAACTCTTGCCCCTATAGCAGGTAAGTATGGTTGGCATTTAGGGATAATTGCTGGAATATTTCATTTTTCTGTAGCTACACAAATAGGAGCTGTACATGGAGGAATGAATTTGTATAATAATGGGCTTGCAGCAGGAATAGTATCATCTATTTATGTCCCTATAATAGAGGAAATTAAAGGAGTGATAAATATTGTTAGAACAAGAAAAAATAATAGTTAAAATGATGGATGAACTTGTTAAATATTTTTTATCTAAAAATGGTAAAAAAATTAAAGTAGAAATAGAAGATAAAGATAATATCTTTCAAATAACATCTAGTTGTAATATAGATGTGTCAGATGATGATTTAGAATTTATAAATTCAAAACTTGCAAGTCATAAAAATATGGAATATGATTTTTATTGGGAATTAATGGGAGAGGCTTTTGAAGAAGATGAATTAAAATTATTGTTTTTACTTGCAGATAATGTAAGAATATATTATGAGAATAATGAATTATTATTTATTATAGAAATTAAAAAGAATAAGTTATCAAAATTATAGGAGGAAAATATGAAAGTAACAATGGCAGGAAATCCAATTACTTTAGTTGGAAATCAAGTGAAAGTAGGTGAAATGGCTCCAGATTTTAAAGCGTTAAAAGGAGATTTGAGTGAATTTAAGTTAAGCGATTATCTAGGTAAGAAAATAATATTAACTTCTTTCCCATCTATAGATACAGGTGTATGTGCTATACAAGCAACTAAATTTAATCAAGAAATAAGTAAATTTGATGATGCAGTTCTTATAACTATTTCAAATGATTTACCTTTTGCATTAAATAGATACTGTGGTGCTAATGGAATTAATAATGCTATTACTATTTCAGATCATAAAGATGTTGATTTTGGAATGAAATATGGAATGTTAATTGAAGAATTAAGATTACTTTCAAGAGCTGTATTTGTAATTGACAAAGAAGGTAAATTAGCATTTATTGAAGTGTGTGAAGAAATTAAAAATGAACCAAATTATGAAGAAGCTTTAAAAGTATTAAGAAGTATATAAAAGGAAAAGAGAATTTCACAAGTTGGAAATTCTCTTTTTTATATAAGTTCTGGAAAGTTTAACTATCTTGATATGAAATATAGTAAGAATATTGTAAATAATAACCAAACTACTTTTCCAATTTCTTTATTTTTATTTGTAAATAATTTACTTAATACATATACTATAAATCCAGCTGCAATACCATCTGCTATAGAATATGATAATATCATAACTATTATTGTTATAAATCCAGATGATGCTGCTGAGAAATCATGCCAATCAACATTAGAAAGTTGTGTTGCCATTAAAACACCGACTACTACAAGTGATGGTGCAACTACAGGTTCTAAGAAAACACCATTAACTTCTATACCAGATATTACTGCAAGTAATGGTGAAAATAGAGTAGATAATAGGAATAATAAACCTACTACTATTGAAGTTAATCCAGTTCTTCCACCAACAGCAACTCCACTAGTAGATTCGATATAACTTGTAACATTTGAAGTACCAAAAGCAGATCCTACTATAGTACCTATGGCATCTGAATAAAACATTTTATCCATATCATAATTTTTTCTACCATTATTATTTATTTTATTTGTAACAGCAATTAATGTACCAGCAGTATCAAAGAAATCAACAAATAGCATTGTAAATACAACTATTATTGTTTGAGGTTTAGTTATTATTGACTTTAATCCACCAACAAATGCACCTATTACTGAAGTGTCAAATTGAACACTTACTATTTGATTTGGAGTTGTAGGCATTCCACTAATTCCAGCCTTATTTAAAATAATACCAAATACTGCTGTAATAAATAATCCTATAAATATAGATGATTTAAATTCTAAACTCATTAAAATAATTGTAATAAATAATCCGAATAATGCAAGTAATACAGTAGGATTTTTAAAGTTTCCTAATGTAACTAATGTTGCAGGACTAGCCACTATTACTCCCATTTTAACAAGACCAATAAATGATATAAAAAATCCTATTCCAGCACCTATAGATTGTTTTAAACTTGCAGGTATAGATTCTATAATAAGTTTTCTTAAACCAAACAATGATATTATTAAAAATATTACTCCTGATAAAAATACCATTGCTAAAGCTTCTTGCCAAGTATAACCGTATCCAAGTACAACAGTATATGTAAAGAATGCATTAAGTCCCATACCAGGGGCTAAAGCTATAGGTGAATTAGAATAAATACCCATAAATATACATGCTGCGGCAGCAGATACGGCAGTTGCTAAGAAAACTGCATTTGCAGGTAATCCTGCTGTAGATAATATACCTACATTAACTCCTAAGATGTATGCCATAGTTAGAAATGTTGTAATTCCAGCTATTACCTCTGTTTTAAAATTAGTTTCATAAGTGTAAAATTTAAAAAATTTATTCACAAAAAAACTCCCTTCTGTATTTTTAAATCGTTCCCGTTAAAAATAAAAAAGAAAGTCCAATACTAAAATATATAATTTTCGTAGTCCTAGATTAAGGCTCTAGGGTAGAAACTTCCTTGCCATTTATAAGGAGATATACGATTTTTCATAACCATGTTATCATAAAATATAAAAAAAGTAAATAGCTTGTAAAATTTCTTGAAAATTTAAAATGAATAATATATAATATGTTATATATATTAGTACATATATTTTACTAATATTAGGAAAGGAATGGTAAGTTTTGGATATACATCATTTAAAAATTTTTTACGAAACTTGTAATGAAAAAAGTTTTACAAAGGCTGCTAAAAAATTATTTATAAGCCAATCAGCTGTTTCAATACAATTGAAAAAATTTGAACTTTCGCTATCTACACAATTAATAGAAAGAAATTCTAAGAGTTTTAAACTTACATTCGCTGGTAATGAATTATATAAAATGTCTCAAGATATCTTTAATAAGATATCCCGTATGGAAAATCAGATGAAAAAAATAGTTTCAAATCACAATGCTAAAATTGTGGTTGGAGCAACACATAATATAGGAGAGCCACTTTTACCTAAAATAATTACTGATTATAGTAAAAAGTATAAAGAGATTGAATTTGATATATATATTAAAAATAGTGCTTCTCTTATTAAACATATAAAAGATGGTATAATAGATATAGCTATGATGGAAGAAGAAGTTGTAGATGAAAAAGAACTTAAGTTTGTACAAACTGATAATTATCCATTTGTAGTTATTGCACCACCATATATTAATAAACTAGAGGATATAAAAGAGATGAGTATGTTAAAAAAAGATACTCAACTTGCATCTAAATATATAGAGAATTTTGAAGAAATAATAGATCATACTTTTGAAAGAAAAATAAGTGTTAATGGTAGTAATGAAACCATTAAAAATCTTGTTATGAATGGTATGGGAATTAGTGTCCTACCTTATTATTGTGTATATGAAGAAATTAAAGAAAAGAAAATGAATTTAGTTCATGAATTTGATAAACTTGAGGATAAATTCCAATTAGTTTATTTAAAAGAAAATGAGAATAAAATATGGATAGCAAATTTTGTTGAATTTTTTAAACAATATAATATAAAATTTGAAGCAGATAGTATAATTAAAAAGAAATAAAAATCTTGGGGTGCTTTAAAAAGCTGAGATTATACCCATAAACCTGATACAGATAATGCTGGCGTAGGGAAGTATTTTTTTTGTTTGAGCATTTACTTCCTTTACAGAAAGGAAGTTTTTTTATGAAAAAAATTATAGATATATTAATTAGATACTATTTAATATTTCTTCTAATTATAACATGGCAGTTACTATCTACATTTAATGTAGTACCTAAATTTTTACTACCTTCACCTATTGATGTAGTAAATGCTTTTATTAAAGATTTTTCTTTGATAATGAAACATACTAAATATACTATTATTGAAGCTTTTAGTGGTCTTTTTTTAGGGACTCTTTTTGCTTTTATATTATCTATAATTATGGATAGGTTTGACTTTATGTATAAAACTACCATGCCTATGCTTATTATTACTCAAACTATACCTACTGTGGCTATAGCTCCTTTACTTGTTTTATGGTTTGGGTATGGAATGAGTTCTAAAATACTCTTAGTTATAATTACAACCTTTTTTCCAATAACTGTTGCTCTTCTTGATGGGTATAGGTCTGTAGATAAAGAAAGTCTGATACTTTTAAAATCCATGGGGGCTAATAAATTGCAAGAATATGTACATGTTAAATTACCTAGTTCCTTAAACTATTTTTTTGCAGGATTTAGAATATCTGTATCATATTCATTAATAGGTGCAGTAGTAGCAGAATGGCTTGGAGGATTTTATGGATTAGGAGTGTATATGACAAGGGTTAGAAAATCGTACTCATTTGATAAAATGTTTGCGGTTATCTTCTTTATATCAGCACTTAGCCTATTTTTAATAACACTTGTTTCTAAATTAGAAAAATATATAGTTAAATGGGAGGAAAAATGAAAAAATTATTAGTTGTATTTTTAACGTTTATTTTAATAATAAGTTGTGGAATTAAGGGAAAAGATAAAAAAATAATGATAGTTCTTGATTGGACACCTAATACTAATCATACAGGGCTTTTTGTTGCAAAAGAAAAAGGATACTTTAATGAATATGGATTAGATGTAGAGATAGTTCAACCACCAGAAGGAAGTTCTACTCAATTAATAGGTGTAGGTAAGGCACAAATAGGAATAAGTTTTCAAGATACATTAGCTAAATATTTTTCAGCAAAAGAAAAATTACCTGTTACTGCTATTGCAACTATACTTCAACATAATACTTCTGGACTTGTATCATTAAAAGATAAAAATATTACTTCTTTTAAGGATTTAGAGGGTAAAACTTATGGGACATGGGAAGATCCTATAGAACAGGCTATAATTAAAAAAATGATGAAAGATGATGGGGCAAACTTTGAAAAAGTTAATGTAATACCTTATTCATGGGATGTTTTAAAGGCACTGCAAACAGATACAGATGCAACATGGATATTTTATGGTTGGGATGGAATTGCTTTGAAAAATGCAGGGCTTAAGTTTAATTTCTTAGATGTTAAGATTGCACCAGAACTAGATTATTATACCCCTGTTATAATAGCGAATAATGATTTTTTATCAAATAATGAAGATGATGTTATAAATCTATTAAAAGCTATGGAAAAAGGATATATGTATGCTATAGAAAATACTCAAGAATCTGTTGATATTTTATTAAAAGCAGCACCAGAACTTGATAGAAATTTAGTATTAGAATCTCAAAAATGGTTAAATACTTATTATATAGATAAAGATGTTAAATGGGGATATATAGATGCAAAAAGATGGAATGCATTCTATTTGTGGTTGTTTGATAATGGATTACTTGAAAATCCTATAGAAAAAGATTTTGGTTTTACAAATAAATATTTAGGAGAATAATATATATTTTTATGATAAAATTAGAAGTAAAAAAATTAAGTGTAGTTTTAGATGGAAAAAATATAATAGAAGATATTAATTTTCATGTTAATAGTGGAGAACTAGTAAGTATTATAGGTCTATCTGGTAGTGGAAAGACTACAATTTTTAATGCAGTTGCAGGGATTGTACCTATAAATACAGGTAAGATTTTACTAAATGATGTAGATGTTACAGGTAAAAGTGGTAAAATGAGCTATATGTTACAAAAAGATTTATTGCTTCCATTTAAAACTGTAATAGAAAATATTGCACTTCCTCTAATAATTAAAGGTATGGACACAAAAAGTGCATTTAGAAAAGTAATGGATAATCTTGAATTTTTTGGGCTTACAGGACTTGAAAATAAGTATCCTAAAGAATTATCAGGTGGTCAAAGACAAAGGGTAGCTTTTTTAAGAACATATATGTTTTCTGATGACATGAATTTACTTGATGAACCATTTTCTGCACTTGATTTAATAACTAAATCAAATATACATAAATGGTATATGGATATTAGAAAAAAATTAAATCTTACAACCTTATTAATAACCCATGATATAGATGAAGCAATACTTTTATCTAATAGAATATATATATTAAATATAGAAAAGGGAGTAGGTAAGATTTCTAAAGAGATATATATTAATTTAGGAAAAAGAGATAATACTACAATTGAATTTATAGAATTTAAGAAAAAAATATTAGAAGAATTAGATAAAAAATAGCATAATAAGTGTGGAGATAAATGCTCTACACTTATTAAAAATCTAGTGTTTAGAAAAAACTTTAAAAAAAGACACAAAAAGTGTTGACAAAGCATTTTAAATATGGTAATATAATTCTTGTCAATAGGACAAATGACGGTGTATAGCGCAGCTCGGTAGCGCACTTGCCTTGGGAGCAAGGGGTCACAGGTTCAAATCCTGTTACACCGACCATTATTATGCGGGAGTAACTCAGTTGGTAGAGTGTCAGCCTTCCAAGCTGAATGTCGCGAGTTCGACCCTCGTCTCCCGCTCCATTTTTATTTATGGTGGCCGTAGTTCAGTTGGTAGAGCGCCAGTTTGTGGCACTGGTTGTCGCGGGTTCAAGTCCCGTCGGTCACCCCATAATATTTACATGCGCGAGTGGTGAAATTGGCATACACGCTAGACTTAGGATCTAGTGCTTCGGCGTGTGGGTTCGAGTCCCACCTTGCGCACCATTTTGTTAGAATGAATAATCATTTGAACAAACTAAAGACAGTAGGTATAAAGTAAATCCTACCGAGGTGAGTTCTGAGTATAATACATATACACAAGGTATATACTTTTAACCTCGCCCACTAATATAGTGGTTTTTTTATTTACTAAGGAGGTGAAACAATATGGCATCAAAAGCTAATATTGCAGCAGTAGAAATGTTAACTGAAAAATTAAAAGAAGCAAAAGCAGTAGTTTTCGTTGATTATAAAGGAATTACAGTTAATGAAGATACAAAATTAAGAAGTGAAGCAAGAAAAGCTAATGTAGAATATTTTGTTGCTAAAAATAGATTAGTACAAATAGCTTTAAAAAATGTTGGTTTAGATCTTGAGTTAAAAGAATTAGCTGAAGGAACAACATCTTTTGCTTTAGGTTTTGAAGATGGAGTTGCACCATCAAAATTAATCTATGATTTCGCACAACAATTTAAAGGTGAAAAATTAAAAATTAAAGGTGGAATCATTGATGGACAAGTAGCTGATAAAAATACAATAGAAGCATTAGCTAAGTTACCATCAAGACCAGAATTACTAGGTATGATAGCATACGGATTATTATCACCAGTAAGAATGTTAGCAGTTGGATTATCTAACGTAGCAGAACAAAAAGAAGCTTAATAATATATTATAGGAGGAATTAAAATGGCATTTAATAAAGAACAATTTATTGAAGATTTAAAAGCAATGACAGTATTAGAATTAAAAGAAGTAGTAGAAGCTATAGAAGAAACTTTTGGAGTATCTGCACAACCAGTTGCAGTTGCAGGTGGAGCAGTAGCTGCTGAAGCAGTTGAAGAAAAAACAAACTTCGATGTAGTATTAACAGGAGCAGGAGCTAACAAAATAGCAGTTATTAAAGAAGTAAGATCTATTACAGGATTAGGATTAAAAGAAGCTAAAGACTTAGTAGATAACGGTGGAGCAGTTAAAGAAGGAGCTTCAAAAGAAGAAGCAGAAGAAATTAAAGGTAAATTAGAAGCTGCTGGAGCATCTGTAGAATTAAAATAATAACATATATAAAAACAGGTAATAGACATCCGAAATACGTGATGTCTTTTTCCTCGTTTATAACACCATTCAAATTTCAAATCTTTTTACTTTGATCATTTTTATATTTAACACATTATTTTCGGTGTATCAAGGTATATTTTTCATAGGAGGAAACTTAAAAAAATGAATAACAAACTAATTAAAAGATATAGTTTTGGGAAAATTAAAGATAGGGGAGAAATGCCCAATTTTTTAGAATTTCAGCTAGATTCTTATGAAGATTTTTTACAAACAAAAAGATCTTATGATGTAAGAGAATTAAAAGGACTTGAGGCAATATTCCAAGAAACATTCCCAATAGAATCTGCTAATGGTACTTTAAAATTAGAATATTTTGGGTATGAAATACATGATAGTGAGGCACCATTAAATGACGAGTTAGAATGTAAAAAAAGAGGAAAAACATATTCAGGTCAATTAAAAGTTAGATTAAGATTAACTAATAATAAAACTGGAGAAATTAAGGAAACATTGGTACATTTTGGAGATATACCTTTGATGACTGATAAAGCTACTTTCATAATAAATGGAGCAGAAAGGGTAGTTGTTTCTCAATTACATAGATCACCAGGTATTACCTTTAATAAGGAATTAAATATGCAAACTGGTAAAGATATGTTTATTGGTAAAATTATTCCATATAAAGGAACTTGGCTTGAATTTGAAACAGATAAAAATGATGTTTTAAATGTGAAAATTGATAGAAAGAAAAAAGTATTAGCATCTGTATTTTTAAAAGCAATTAAATTTTTTGAAAATAATTCTGAAATAATGGATGAATTTTTTGAAATTAAAACTATAGAGCTTGAACCTATATATAAGAAATATAAGAATATAGAAGATGCTAAAAGCGTTATTAGAACAGAAATAGAAGGTTCATTTGTTAATGAAGATATAGTAAATGAAAAAACAGGAGAAATAGTAATAGAATCAGAAAGTTTCATAGATGAGATTACTGTAGATAAGTTAATTGAATATAACATTCCTGAAATTACTATATGGGAAGTAAAACCAGAAGATAGAATGATAGCTAAATCAATTAAAGATGATCATACTAAATCATCTGATGAAGCTGTAGTAGAAGTATTTAAAAAAATAAAACCAGGGGATATAGTTACAGTAGAGAGTGCATATAATTTAATTATACCTATGTTCTTTAATCCTCAAAGATATGATTTTGCACCAGTTGGAAGATATAAGATCAATAAGAGATTAAAACTTGAAGGTGAAATCAATGAGCAAGATATAGTATTAACAAAAAAAGATGTAATAGCAACTATAAATTACTTGAAAGTTCTATATAACGGTGGGGGAAGCACTGATGATATAGATAATTTATCAAATAGAAGGGTAAGAGGAGTAGGAGAGCTACTATCTATACAAATTAAAGGTGGAGTAGCTAAAATGTCTAAAATGGTTAAAGAAAAAATGCAAACTCAAGACATTAATACTTTAACACCTCAAAGCCTATTAAATACTAAACCATTAAATGCATTAATATTAGAATTTTTTGGTAGTGGACAATTATCTCAATTTATGGATCAATCAAATCCACTTGCTGAACTTACTCATAAAAGAAGAATATCTGCTTTAGGACCTGGAGGATTATCAAGGGATAGAGCAGGATTTGAGGTTAGAGACGTTCATAATTCTCATTATGGAAGAGTTTGTCCAATAGAAACTCCAGAAGGACCAAATATAGGGTTAATAGCTTCACTTTCAACTTATGGTAAAGTAAATAAATATGGATTTATTGAAACTCCTTTCGTTAAAGTTAAAGATGGAGTAGCTGATTTTAATGATATTAGTTATCTTGCAGCTGATGAAGAAGAAGGATTATTTATAGCCCAAGCAGATACTAATATAGATGAAAAAGGAAGATTACTTGATAATGATGTTACATGTAGATATGGTGATGAAATAGTTCATGTTAAAAAAGAACAAGTTGATTTAATGGATGTTTCACCTAAACAAATAGTTTCAGTATCAGCAGGATTAATTCCATTTTTAGAACATGATGATGCTAACCGGGCATTAATGGGTTCAAATATGCAAAGACAAGCAGTACCATTACTTAAAACAGAAGCTCCTTATGTAGGAACAGGTCTTGAAAGAAAAGTTGCTATAGATTCTGGAGCTGTACTTGTATCAAAAGTAAAAGGAGAGGTTACTTATGTTGATGCAAGTAAGATTATAGTTACAGATAAAAAAGGAGATGAACATTTACATAGATTATTAAATTTTGAAAAATCTAACCAAAGTATGTGTTTACATCAAAAACCAATAATAGATTTAGGAGATAAAGTAAATAAAGGGGACATATTAGCAGATGGACCATCTACTTCAGGTGGAGATTTATCTTTAGGTAAAAATATATTACTTGCATTCATGCCTTGGGAAGGATATAACTTTGAGGATGGAATATTAATATCAGAAAGATTAAGAAAAGATGATGTATTCACATCACTTCACATAGAAGAATTTGATATTGAAGCAAGAACTACAAAACTTGGAGAAGAAGAAATTACAAGAGAAATACCTAATGTATCTGAAGAAGCTTTACGTAATTTAGATAAAGACGGTATTGTAAGAATAGGTGCTTATGTTGAACCAGATGATATCTTAGTTGGTAAGGTAACTCCTAAAGGAGAAAGTGAACCACCTGCTGAAGAAAGATTATTAAGAGCAATCTTTGGAGAAAAAGCTAAAGATGTAAGAGATACATCATTAAGATTACCACATGGAGTTAAAGGTACAGTAGTAGATGTATTGGTATTATCTAAAGAAAACAAAGATGATTTAAAAGCAGGAGTAAATAAAGTAGTAAGAGTTTATGTTGCAGAAAAAAGAAAAATAATGGTTGGAGATAAAATGTCAGGAAGACATGGTAATAAGGGGGTTATATCTCGTGTATTACCAGTTGAAGACATGCCACATTTAGAAGATGGTACTCCAGTTGATGTTTGTTTAAATCCATTAGGGGTTCCATCTCGTATGAATATAGGGCAAGTATTAGAAGTTCACTTGGGACTTGCTATAGGAGATATGAACAAATATATTGCAACACCAGTATTTGATGGTGCAACTGAAGAAGATGTTAAAAATTATTTAGAAGAAGCTGGATATCCTAGAACTGGAAAAGTTAAGCTAATTGATGGTAGAACTGGAGAATATTTTGACAATCCAGTAACAGTAGGAAGAATGTACATGTTAAAATTACATCATTTAGTTGAAGATAAAATGCATGCTAGAGCAATAGGACCATATTCACTAGTTACTCAACAACCACTTGGAGGTAAAGCTCAATTTGGTGGACAAAGATTAGGGGAAATGGAAGTTTGGGCTCTTGAAGCATATGGAGCTTCAAATATCCTTCAAGAAATGTTGACTGTTAAATCAGATGACATTAATGGTAGAACTAAAACTTATGAATCAATAATTAAAGGACAATCAATGCCAGAAGCAGATGCTCCTGAATCATTTAAAGTATTGATTAAAGAGTTCCAATCTTTAGGACTGGATGTAAATCTATATAATAAAGAGGGAGAAAAAATAGAATTAGACAATAACTTTGAAGGATAAAAAAACTAGAATAAGGAGGCTCATATTCGATGAGTATAAGAGATTTTGATAGTATTCAAATTAAACTTGCTTCACCTGAGAAAATATTAGAATGGTCTTATGGAGAAGTAACTAAATCAGAAACTATAAACTATAGAACATTAAAACCAGAACTAGATGGTCTTTTTTGTGAAAGAATATTTGGACCAACAAAAGATTATGAATGTACTTGTGGTAAACATAAGAAAATGAAAGATAAAGGAACTGTATGTGAAAAATGTAAGGTTACTATTACAACTTCTAAAGTTAGAAGAGAGAGAATGGGACATATTAAACTTGCAACTCCTATAGCTCATATTTGGTATTCTAAAGGAACTCCAAATAAAATGAGTTTACTTTTAGGTATAAGTACTAAAGAATTAGAAGCAGTCTTATATTTCTCAAGATATATAGTTATAGATGGTGGAAATACTGAGTTTAATAAAAATCAAATTATTAGAGAACAACAGTACAGATTATGTATGGAAAGAAATGATCGTGGATCATTCCGTGCTAAAATGGGAGCTGAAGGTATTTTAGAATTATTACAAGAATTAGAATTACCAGTTTTAGAAAAAGAATTAGAAACAGATATAGATAAAGAAAATTCAAGTCAAAAAAGAAAGAAAATGGTAAAAAGATTAAAAATAGTTAGAGATTTTATTAGTTCTGGGAATAAGCCTGAATGGTTAATTTTAACTATATTACCTGTTATACCAGCAGATCTAAGACCATTAGTACAACTTGATGGTGGAAGATTTGCAACTAGTGATTTAAATGATCTATATAGAAGAGTAATAAATAGAAATATTAGATTACAGAAACTAATTGATTCTAATGCTCCAGAAATCATGATAAGAAATGAAAAAAGAATGCTTCAAGAAGCAGTAGATGCTTTAATAGATAATGGTAGACGTGGTAAACCAGTTGTTACTCAATCTAATAGAGAACTTAAATCATTATCAAATATGTTAAAAGGTAAACAAGGAAGATTTAGACAAAACCTACTTGGAAAACGTGTGGATTATTCAGGACGTTCAGTTATAGTTGTAGGTCCAAATTTAAAAATTCATCAATGTGGATTACCTAAAAAAATGGCATTAGAACTATATAAACCATTTTTAATGAGAGAATTAGTTAAAAGAGGAATATCTAGCAATGTTAAAACTGCTAAGAAAATGGTAGAAGAGGAAAATGAAGCAGTTTGGGAATTAATAGAAGAAATCATTAAAAATCATCCAGTATTGCTTAACCGTGCCCCAACTCTACATAGATTATCAATACAAGCTTTTGAACCAACATTAATTGAAGGAAAAGCTATTAGACTTCATCCATTAGTATGTTCAGCATTTAATGCCGATTTTGATGGGGATCAAATGGCAGTTCATTTAGTTCTATCACCAGAGGCACAGCTTGAAGCTAAGTTATTGATGCTTGCAACTAATAATATTATTGCTCCATCAAGTGGTAAACCTATAGCAGTTCCATCTCAAGATATGGTTATGGGATGCTATTATATGACTAAGGAAAGATTAGGAGAAATAGGAGAAAATAAATATTTTTCTAGCATAGCTCAATTAACTACAGCATACCAAAATGAAAAAGTTGGAGTTCATGCATTAGTTAATGTAAGAATAAATGGAAATATTGTTAAAACTACACCTGGTAGAATATTATTTAACCAATTATTACCAGAAGAAATTAGAAATTATGAAGTTACTTTTGGTAAAGGTGAATTAGGTAAATTAATAGCAGGACTATATGAACAATATGGATTTGAAAAAACTTGTGAATTAATAGATAAAATTAAAGAATTTGGATATCACTTTGCTACATTTGCTGGGGTAAGTGTTGGTATAGAAGATTTACAAATTCCAGTTGAGAAAAAAGCTATACTTGCTAAAGCAGATAAGGATGTATTAGATATTGAAAATGCATATAAAGCAGGTGAAATTATTAATGATGAAAGATATAGAAGAACAGTACAAGTATGGAATAAAGCTACTAATGATGTAACTAAAGCCATGATGGATAGTTTAGATCAATTTAATCCAGTATATATGATGGCAAATTCTGGAGCCAGAGGATCTATTGCACAAATTCGTCAATTAGGTGGAATGCGTGGAATGATGTCAAATACTAAAGGGGAAATTATAGAAATACCAATTAAAGCTAACTTTAGAGAAGGATTAAACGTATTAGAGTTCTTTATGTCATCACATGGTGCTAGAAAAGGATTAGCAGATACAGCCTTAAGAACAGCTGATTCAGGATACTTAACAAGAAGACTTGTAGATGTTTCACATGAATTAATAGTTAATAAGGATGACTGTGGTTCTAAAAATCATGGAATAGAAGTAAGTGATTTAACTTATGAAGGTAAAATTATAGAAAAATTAGAAGAAAGAATATATGGAAGATTCTTAGCTGAAGATTTAGTAGATAATGGAAAAGTAATAGCTAAAGCTAATACTTTAATTACTAAAGATTTATTAGCTGAAATAGTTAAGAGAAACATAAGTAGTGTTAAGATGAGATCACCATTAACATGTAAACTTGATAAAGGTGTATGTAAAAAATGTTATGGAATAGATTTATCTAACCACAAAGAAGTATTACTTGGAGAAGCAGTAGGAGTTATTGCAGCTCAATCAATAGGAGAACCTGGAACACAGCTTACAATGCGTACTTTCCATACAGGAGGGGTAGCTACAGGTTCTGAAGTTCAATCTGATCATAGAGCAGATGAAGACGGAAAAATTAAATATGAAAATATTGAAACATTTACTTATCCAGATGGAAGAGAAATAGTTGTTTCATCAATAGGTAAAGTAATTTTAGGTAAATATCGTTATGAAGTACCTTCAGGTTCAGTATTAAAAGTTAAAAATAATGAAAAAGTTAAAAAAGGACAAGTATTAATAGAATTTGATCCTTTCCAAACTCCAACTATTTCAACAGTAGCAGGTCGTATTGAATTTAGAGATATATATATTAAAGAAAATATAGATGTTAAATATGATGTTGTTGAAAGACTGGCGATTAAACCTATAGAAAGTACTCAAGTTAAACCAAGAGTTATAGTATATGATGATAAAGGTAAGAAAATAAAGGAATATCATATTAATTATGGGTCTTATTTATTATTTAAAGAAGGAGAAATGATTAAACCAGGAGATATAATTTCTAAATTACCTAAAATTGGTGGAGGAAATAAAGATATTACTGGAGGTCTTCCAAGAGTTCAAGAGTTATTTGAAGCAAGAAACTTAAAAGGTAAGGCTATACTTGCTAATGTTGGAGGAAGAATTAAATTCTCTGATAAAACTAAAAAAGGTATGAGAGTAGTTGAAATTCATGATATAGATAAAGATACTGTGATAGAAGAATATTCAATACCTGCTGGAGAACATTTAGTAGTTTCAAATGAAATGATAATAAATGCTGGAGATAAATTAACTGAAGGGCCTATATCACCTCATGATATATTAAGAATAAAAGGAGCTGTTGAAGCACAACAATTTATACTTGAATCAGTACAAGAAGTATATAGAAGCCAAGGTGTTACTGTTAATGATAAGCATATAGAAATAATAGTTAAACAAATGTTCCAAAAAATTAGAATTAAAGAATCAGGAGATTCATTATTCTTAGAAGATGAATTAGTTGATAAAAAAGCAATAGAAAGAGAAAATAAGATTTTAATTTCTAAAGGTAAGAAACCTGCAATTTTTGAACCAGTTATTCAAGGTATAACAAAAGCAGCTGTAAATACAGAAAGCTTTATATCAGCATCCTCATTCCAAGAAACAACTAAAGTATTAGCAAATGCAGCAGTTGAAGGAAAAGTTGATAGACTTGAAGGACTTAAAGAAAATGTAACTATAGGTAAGAAAATACCTGGAGGAACAGGATTTAAAAATTATAAGGACTTAAATTTATTCTTAGGTGAAGTTGACGAGAAAATAATAGAAGAAATATAATATATGAGGGGAGTTATCCCCTTGTATATTAATTAGGAGTGTAAAAATGAAAGGGAAGTTATTCATAGTTTCAGGACCATCAGGTTCTGGAAAATCAACTGTTACAAAACTAGTAAGAGATATGTTAAATATACCTTTAGCAATTTCTGTGACTACTCGTCAAATTAGAACTGGAGAAGTTGATGGTAAAGATTATTACTTTATAACTAAAGAAGAATTTGAAAAGAAAATTAATGAAAATGGATTATTTGAATATGCAAATGTTCATGGTAATTATTATGGTACTTTAAATTCTGAGATTGAAAAACATTTAGAAAATGGTCAAAATGTTATTCTTGAAATAGATGTACAAGGTGGAGTTATAGCTAAAAATAAAAGAAATGACTCTATTTTAATATTCTTTAAAGCTCCTAGTCTTGAAGAATTAGAAAAAAGATTAAGAGGAAGAAATACAGATAGTGAAAAAGTAATAAAGAAAAGATTAGAAAATGCTCTTAAAGAACTTGAATATGAAAAAGATTATGATTATACAATAATTAATTATGATATTGAAGATTCTTGTAAGCAGCTTATTAACATCATAGAGGACTAAAGGAGAAAAACTATGAAAAAGGAAAAAATTTCAGTAGATGAACTACTGAAAAAAGTACCTAATAAATATGAATTAGCCATCTTAGCTGGTAAAGCAGCTAGAAAAGAATTTATAGAGGGTGTAGAAAAATTTAAAATTATAGATAATGTATTTGAAGATATATTAGAAGAAAAAGTTAAAATTATTGAAAATGACTAATATATTATCTTGACAATTTTAAATATCACACTATACTTATATTATGGAGGAGTATATGTATAAACTGTCTGAAGATGAAGAAAAAATAATTAATAATATTGACATAGTTGATTTAATAGGACAATATGTTGATTTGAACAAGGCAGGAGTAAGTTATAAGGGATATTCTCCTTTTAAAAGTGAAAATACACCATCATTTTCTGTACATCCAGTAAAAAAGATTTTTAAGGATTTTAGTTCTGGAAAAGGTGGAAATGTAATAAGTTTTTATTCATATATAAAAAATATTTCTTATTATGAAGCATTACATGAACTTTCTAAAAAATATGGTATTAACATAAAAAAAAGTAATTCAAAATATCTTATTAAAGATAATATTGGACATAAAATATTAAAAGATGCAATGGAATTTTTTAGATTAAATTTTGAAAAATCATCAGAAGCCAAAGAATATTTAATTAATAGGGGATTTAATTTAAATGACTTAAAAAGATATGATATAGGTTATGCTACTAATGATTGGAATTTGTTATACAATCATCTAAAAGAAAAATATGATGTTGAAGAATTAATTAAATTAGGTTTAGTTACTGTAAGTAGTACAGATACTAATAATATTTATGATACATTTAGAAAGAGAATAATATTTCCAATATTTAACATTCATCAACAAGTGGTTGGTTTTGGTGGAAGATATATAGGTGAAAATGTTAATGCACCTAAATATTTAAATTCTACTGAAAGTTATGTTTTTGATAAAAGTAGTGAACTATATGGATTATTTAATAAAGGTATAGAGATAAAAGAAAAAAAATATGCTATATTAATGGAAGGTTTTTTAGATGTATTAAGTTCACATATTAATACTTTTGATAATGCAGTTGCATCATTAGGAACAGCATTTACTGAAAAACAAGCCAAATTGTTAAAAAAATATACAGATAATATAATAATAATGTATGATAAAGATGAAGCTGGTCAAAAAGCTACTAAATCAGTAATAAATATATTAAATAAATTAGAATTTAATATTAAATGTTCTAGTTTACCTGATGGAGTAAAAGATCCTGATGAATATTTTAAAAAATATAGTAAAGATGATTTTTTTGAAATATTAGGTAAATCAGTAGGAGCATTAGATTATATATTTGAAATGGATTTAAAAGATTTTGATTTCACTCAAACAACTTCAAAAAGAGAAGCTATAGAATTAATGAAATCATATTTTGAAAATGTAACTAATGATATAGTATATAGTGATGAAATAGAAAAATTTTCAAGATTAATAGATGTAGAAACTAAATATATTTTATCAAAATATATAAGGAATAAGAATAAAAATTTTAAAGATTTAGATACTATTAAAGAAGTTAGTCAAGACAGAGTTAACGAAAAAATAAATAAACAAGAGGAGTTAGAAAAATTAAGTATAGTTTTTTTATTACTTGGAAAAGAAGTAGATCAAATATTATATAACATACTTAAATCTTTTGAATTTCAAAGTGAAAAATATGTTGAACTGCATAAAAAACTTTTATCTATTGATTATAAGATAGATGAAGTTTCTTATCTTGTTTTGACAAAAGATGAAGAAGAATTTATGATAGAAACAACATGTGAATTTAAAAATAACTATACAGATGAAGACTATATTAGAATAATTAAAACTTGGTTAGAATTATTGATAAAAAAATATGAAGCTTCAATTGATATATTACCTATTAATGAAAAAATTGATAAAAAAATACATATAGGTAAGTTATTAAATAAGCTTAGAAATGTTGTAAATATCAATAATTTGGAAAAATGTTATAAAGAAATAATAGTTTTAAAGGGAGATTGAAATGGCGGCTAAAAATATAGATTTAAAGGAAAGTTTATCTAATTTAATTAAAATAGCGAAAGAAGAGAAAATTATTAGTAGAGAAGAAATTAATAAATTGATGAAAAATAATTTTTCTCAAGATAAAATAGAAGCTACATTTTTTAAGTTGCAAGAATTAAATGTAGAAATTGTAAATAAAATAGCCGACAAAAATAAATCTAAAAAAGAAATAGAAAGAAACAAAAAAGAAGAATTAGAAATAAATATTGATGAAAAAGAAGTAGAAGCCCTATTAAACGAAGATTTAACAACTGTTAGTGAATCATCAGATGTTGATGAACCAATTAAAATGTATTTAAGAGAAATAGGACAAATACCTTTACTTAAAAGTGAAGAAGAATTTGAACTAGCAAGACGTATAGGCGAAGGTGATGAAAGAGCCAAACAACAATTAATGGAATCTAATTTAAGATTAGTTGTAAGTATTGCTAAAAAACATACAAATAGAGGGTTAAAATTACTTGATTTAATTCAAGAAGGTAACATAGGATTAATGAAGGCAGTTGAGAAATTTGAATCAGATAAAGGATTTAAGTTTTCAACATATGCTACATGGTGGATAAGACAGGCTATAACAAGAGCTATAGCTGATCAAGGTAGAACTATAAGAATACCTGTGCATATGATAGAAACTATAAATAAGATAAAAAAAGCATCAAGGATTCATTTACAAGAAACAGGGAAAGAACCTACTGATGATTATTTAGCTGAAATAGTTGAAATGCCAGTAGAAAAAGTTAAAAATATTTTAGAGATGAATCAAGACCCAATATCATTAGAAACTCCAGTAGGAAGTGAAGATGATTCAGAATTAGGAGATTTTGTTGAAGATGATAAGTTCTTAAATCCTCACGAAGCCACAGTTAGATCCGTATTAAAAGAAAAATTAAATGATGTACTTAGAAAAGAACTTAATGAAAGAGAAGAGCAAGTACTAAGATTAAGATACGGACTTGATGATGGTGCTCCTAAAACTTTAGAAGAAGTTGGGAAAATATTTGATGTAACAAGAGAAAGAATACGTCAAATAGAAGTTAAGGCTATAAATAAATTGAAAAATATTAAAAAGAAAAAAGGTTTAGAAGATTTTAGAAACTAGAGCGATTTAATCGCTCTTTTTTTTTCAACAATAAATAAATTGTTGACAAAATAAGTCGGGGGGGGGATAATCTTATAGTAAAAAAATATTAGGGAGAAAAACATGAAAAAATAATATTATTAATAATCCTATACATAGGAATACTATCATTTCCAATAGAACTAACAGGACCAAGATATAAGATAGATCTAAACATAGTAGCAGGATACAGACCTGATCCACATGATAGGAATAGACCATTGGAATTTAAAGGAGACTTCAATAATGTGGATATAGAAGTGGGCTTTTCACCAGAATGGACACTTAATATTAATAAAAACTTTGAAATAGTATTTGGACCAAAACTTACAGTAGTCCTATTTGTTTCTCATTATTTAAATATTAGTGATGAGCCTGAAAGAGAGATATTTTTTGGAATAAGCTCAGGAGCAAGAGTAGACTTTGATTATATAATAAAGAAGAATATTAAGCTATATGCAGCATTAGAAGCAGCAGCAACAGTTAGACCAGATATACATATTTCAAGTATTTCTAATGATGGAAAAAATATTCTATTAACTGTTCATCCAACAAAAGATTTGCTATAGGAACAAAAATAAAGAGATATAATGTAGGGTTATATACAGGATATGGATTTCATAAGGAATTAGTAGGTGGAATAGAAGTAGGGTATTCTTTTTAGTGTAGGAAGGGAGAAATAAGATGAAGAAAATAATATTAGTTCTATTAATAGGTATAACATCATTTAGTGCACCTATAACTAGACAGATAAATAGAAGAGTAAATGAAGTAAGAAAAGTAGAGAGAGTAAAAAAGTAGAAAAAGTAAAGAAAATAAATAAAATAGAAGAAATTAGGGAAGTAAAAAAAGAAAAAGAAGTAAAAACTAGAAAGCCATCTAAGATAAAGAAACCAAGATATAGGGTAGGAATGGAGATAAGTACATTACCAATATATCATACAAAAACAAAAATGTTTGGATATTATGCCTATAAATCTTTTTCATTTTTACCAGAGTGGAAGATAGATGTTACCAGAGATTTTGATGTAACAATAGGACCAAAGTTTTCAGCAAATTTAGTATTTGGGGTAAATAACAGAAATAGATCAGATTATACACAATTCGTAATAGACAAAGATGAAATAATAGTATCAGCATCAGTAGGAGAAGAAGTAGATTTTAATTATAGACTAAGAGATAATTTAAAGGCATATATAGGCTTAGAAGCACAAGTAGGAATAGGTGAGAGAATATATACTAAGTCAGGACTATATGATACAGGAAAGAAAATTGAGGGAAGCTCAGAAAATGCTTTTAAACCATATACACCTTATATAATATTTAACAACACTCATATTATGTATAGTGGAAAAGTGTCAGCTGGACTTAAGATAAGGGATAAGTATAATATTGCCTTATATGGTGGATATGGTAAGGGTTATTTTGGGATTGAGTTTGGACAGACATTTTAAATAAGTATTTGACAAATATTACTAAATATGTTACTATTTCATAGTAAAAGAAAATATTAGTATTTTAATATTAAAAAAAGTAGAATTTTGATTCTCACCTTTCCATAGCGTTTAGTATGCATAGGCTTAATATGAGTTGGGTTATTAATAATTTATTTGTATTAGAAATAGTCTAATAGATTTTTATTGATGATTGAGAACAAGATTTTATCTTGTTTTTTTATTACAAAAATATAGGAGGTGTTCTTTATTAAGGGAACTGGAAAAACTGATGGATCTAGAATCAATGATGAAATTAGAGCTAAAGAAATAAGATTAATTTCAGAAGAAGGTGAACAATTAGGTGTAATGTCTTTTTATGATGCTTATAACATAGCTCAAGAAAAAAATCTTGATTTAGTAGAAATGTCATCGAGTAATGGTGTATCAGTATGTAAAATAATGGATTATGGAAAATATCGTTATGAAAAAATAAAAAAAGATAAAGAAAATAAGAAAAGACAAAAAAATACTGTAATTAAAGAGATAAGAGTTAAACCTCATATCGACACACATGACATGGAAACTAAAATTAATCAAATTGATAAATTTTTAGAAAAAGAAAATAAAGTAAAAATCAGTTTAAGATTATCAGGAAGAGAAAAATTGCATTCAGAAACGGCTATAAAAGTTCTTGATGAATTTGCAAATGTCTTTGAAGATAAGGCTATAGTTGAGAAAAAATATGGTAGAGAGCAAGTACAAAAATTTGTTATGCTTTCACCTAAAAAATAGACAAGAGGAGGAAAATTTATGCCAAAGATGAAAACACACAAAGGAACAAAGAAAAGAGTTAAAGTAACAGGAACAGGTAAATTCGTAGTTAAACATTCAGGAAAAAGCCATATATTAACTAAGAAAACTCATAAGAGAAAGAAAAGATTAGGTAAAGACCAAGTATTAGATGGTAAGGCAGCTAAAAAAGTATCAAGATTATTAGCAGGACAATCAGGAAGATAATAACTTATAAGGAGGAAAGAAAATGCCAAGAGTAAAAACAGGAATAGTAAGAAGAAAAAAACATAAAAAAGTATTAAGTGAAGCAAAAGGATATAGAGGATCTACAAAAACTAATTATAAAAAGGCTAATGAAGCTGTTAAAAAAGCTATGGCTTATGCAACAGAACATAGAAAATTAAAGAAAAGAACAATGAGAGAATTATGGATAATAAGAATTAATGCAGCAACTCGTGCAGAAGGATTATCATATTCTAAGTTCATGAATGGATTAAAGAAATTAAACATTGAATTAGATAGAAAAGTTTTAGCAGAACTTGCTTTAAACAACTCTGTAGAATTTAAAGCTTTAGTAGAAAAAGTAAAATCTTTATAATAAACTTAAACTGAATTATATATATAATTCAGTTTTTTTATTAAAAATGGTATAATATATGAAAAAAGGTGGTGTATAATGGCTTTGAAATTTGAATATAAAGGAATAGATTTTAACCTAAATGAAAACACTGTAGATAATACCTTATATGTTTTTTCAAATTTTAATGATAAATTTGAAATAGAAAATAATGATAAAGATATATTTACAACTAAAAAATATATAACTGAAACTGAATTTTGGGAAAAAATTATTCTTACTAAAAAAATATTGCTTAAGGAAGAAAAAGAAGTAGTATATTTTTTTAATAGTTTAGATGATGAACTTAAAAAGAAATTGCAAATAAATAGCTATTTTGATTGTATTGATATTGCATATAGATATTATTCTTTTATGAGAGAATATATAGAATATGGTATAGATTTAGATAAAATAACTATACATGAATGGCAAAAAAAAATTATTAACATATATTTAGAGATTAATGATATTATGTTAGAAAAATCAAAAAAAGAAGATAAGATACCTAGATACCTATTACCAGTATATTCATATATTAATACCGACTATATTAATTCATTTAAGAATATAGTTTTTGTTAATAAGTTTTCATATAATGTTTTTGAAAAGAAAATACTTGAAGATATAGATAATTTATCTATATATCTTTTTGTTGATAAAAATGATTATGATGAGGAAAAGAATATATTAAAAAATATAACTATTCCTAATTTTGAAAGATAAGAAAATTAAAATAGTAGAATGTAGTGATAAATATAGTCAAATATTAAATATTATTGATAATATAGAGTTTAATATTTTCTATGATATGGAAGAAAAGAAGATAGATGAAATTAAACCCGAGAATGTATATATAAATCAGAATGAAATTGCAAATACCTTTGATTTTTCATTTAATAAGACAGTAGTGTATAATATAGTATCAAAAATACATGCGGCTATTAATAATGGAATTAATGGAAAATATTTAATATCAGATATATATAATCTTTATACTATAAAGGAATTTAAAAAAGAATTTAATATATCAGAAAATGATATAAATACTCTATTTAGAGAATCAAAGTATGGTAATATATATATTAATAGTGAAAAAATAAAAAGTCTAAAATTTTTAGATGAAATGAAAGGATATAAGAGTAAGGAAGAATATTTAGAAAAATTAACAAAAATAGGAAATATTAAATCTAGTAAAGAATATATGTTTAATACAAGTTTTACATATTTTGAAGCATTAACTGAGGTTAATGTATTAGATTTTTCTTTTTTGAATAATTTTTCAAGTGAATATCTTAAGCTATTTTTAAAATATTTAGATAGAAAGAGTTTACATGTAGGTATATGTAATAATAATAGTAAAATATTAGATAAAAAAAAATTAAGTACAGGAATTAAAGAAAATTTTGCGTTAATTAATGTACAAGGAAATATTTTTTCTAAAGATAGAAATATATTTTCTAAGATACAAAGTAGTGAATTAGGGCTACCTATATCTGATAATTTAATATATGAAAATTTATATAATATCTATAGAAATATAGTTATGTCAAATAATATATATATAAGCTATATTAAAAATGAAGATGAAAATATTTCTGAAATGCCATTTTTAACAGAATTAATGTTTAATAACAATTTAAAAGCTGAAAAAAAAGAAGTTACTATGAGTGAAAAAGCTAATATATTAAATCAATTATTAGATAAAAGTAATATAAGGAAAGTATTTAATCCTGTGTATTTAACTAATAATGACATTATGCATAAAAATGAACTGCTTAATGATTTTAATAAAATATCAGTTACTAAATTACTTAGTCTTATTAATTCAGAAATAGAATATTATCTTTCATCTAAAATAGAAGAAAGTGATATATATAATGAGGATATAGAAAGTGTTGAAGTAGGAAATATTACACATAATATTATGGAATTAATGATAAATAAAGTGGGTAAAAATATTAATCATGTTAAAAAGAATGAATTGCTTGAATATATAAAAGAAGCTATAAGTAATGTGATTAATCAAAAAGATAATAATATATTAGAAAAATATAAGAAATATTTTTATATCACATATATAAATGATTTACCTAAAACTATATTAGATTTCTTTGATAAATTAAAAAAGGTTTTAATTCATGAGAATATAGTAGATGTATATAGTGAAAAAGTTGTGGAATTTGATGTAGAGTTAGAAGATAGAATAATTAAAGTTAATGGTAAAACAGATCTAGTAGTAGAAACAGAAGATAAATATATAATAATTGATTTTAAAACAGGTAAATTTAAAAAAGAAAAAATGAAAGTTTATGCAAATCAAGTAACTATTTATTCATATATGAATGAATTTAAAGATAAAGAAAAAGTGGGATATATTAGTTTTATTCAAACATTTGATAGTTTAAAGGAAATTGATGTTGAAAAGGCAGAAGTAAATAAGGATATAATAAAAGAGGTTTTAAATAATTTTGTAACAGGAGATGTTTTTGAATTTGGTAAGGAAGATAAATATTCTAAATTTAAGGAGGTAATTAAATATGGTGAAAATGAAAACAGTAGTAAAAGCTAGTGCTGGTACTGGTAAAACATATAGATTATCTTTAGAATATATATATTTTCTTTTACTTGGTATAGATTTTAGAAATATTTTAGTAATGACTTTTACTAAAAAAGCTACAGCAGAAATAAAAAATAGAATTTTTGAATTTATTTTAATAATAATTTCTAAAGAAGGAAATTATGAAGAGTTAATGAAAAATATAGAAAATAATTTTGGATATAAATTTAAAGATGGAGATATAGAAAAATTAACAGATATATATAAGGATATGCTTATTAATAAAAATAGTGTTAGAATAGATACTATAGATGGATTTACTTCTAAGGTGTTTAATACTTGTATTGCTGAACCTATATTAGAAATGTATGACTATAATATACTAACAGAAGATACAGATACTGATAAGACACTATATACTGATTTTGTGGTTAATTTATTAAATAATAAAGAATTTGACTTTAAGTTTAGTAGTAAAGATATAAAGGGTATAATAAAGGAAATTAAGGGTAATTTTCTATATAATAAAAATGAATTGTTGAGTATAAAAAAACTTGAAGAAAAATATAGTTTAGATTATGTTATAACTAGAGTTAAAAATCTATTCTTTAATGATTTAAAAATAGAATATAATGGAGAGGAAGCTAAGTTAAAGGCTGATAGTATAAAAATATTAGAAATTTTAGAAAAAATTAATTTAAATAACATGGAGATAGAATATAGTAATTTAAAACCATTATTAAATAAAATGTATAAAATGCAAAATGTATTTAATACTAGATCTAAAAAGAGTGAAGTAGTAAAATATTTGTTTGAAAAAAATTATGAATTAACTAAAAAAATACAAGATTTTCAATTAATTAGATATAATTATGAAAGCACTAAAAAAACAAATGAATTGTTAAAGAATCATAAAATAGTATTTGATGAAGACTTTAGATTAAAAAAAGCAAATAAATTACTTGATTTTAATGATATAACATATTACACATTTAAATATATGTTTGATGAAAAATTAGGATTGGTTAAAGATGGAAAAGTTACAGATTATTTCTATGAATTAATGGATGGTAAAATAGATGCTTTAATGGTAGATGAGTTTCAGGATACAAGTGTTCTTCAATTTAAATTCATTAAATTAATAATGGATGGAGCAAAGATTGTTACTTGTGTAGGAGATGAAAAACAAAGTATATATGAATGGCGTGGAGGATATAAGAAATTATTTGAAGATTTAGATAAAGCTTTAGGAGAAGAAACTGTAATAAAAACTTTATGTACTTGCTATAGATCTGAAAAAAATATAATTTCTTTTATAAATAATATATTTACTAAGCTTCCAAATTATAGATACGATGAAGTTAAATCAAGTAAAGAAGAAAAAAAATCAGGATATGTTGAAACTATTTTAGTTGAGAAAAAAAGTAAAGATGATGATGATATAATAAAGAAAATAGTTGAAAAAATTAAAGAAAATAAAGATTTTACAAATACAGCTATATTATTAAGAGATAATAATAAATTAGAAAAAATTGCTAAATATTTAGATGATGAAAATATTAGGTATTCTTTAATGACTAAATCAAGTATATTAAATGTTCCCTCTGTAAAAACAGCTCATAAATTAGTTAAATATTTAGTTACTAAAAATGAAGTAAATAAATATGAATTTTTAAGAAGTGATATTAAAAAATATAGTTTAGATGAAGTAAGTGATGTGATTCAAGGTAAAATAGATGAAGACATTAAATATTTCGAAGATAATTTTGATAGACATAATTCATTTAATTCAGATGATTTTGATTTTGCTAAGGAATATATAGAAAGATTTGGTTATAGTTTAAATGATGATTCTAATGATATATTAAACTTAAATTTCTATTTTGAGAAAATGAAAGAATTTTCAAATATATATGATTTTTATGAAAATATTGAAGGAAATAAAATATTAAAAAAATCTATTGTTGAAAAAGATGGAATAACATTAAGTACTATTCATGCATCTAAAGGATTAGAGTATAAAAATGTGTATATTTATGATGATAGTTTTGATGATGTAAAAACAGGTTTAAAAAAATATGTTGCATATGATGATGAGTATAATATAATTAAATTTAGGATGTGTAATTATAATATTTTAAATAAAATGATTAAAGAAATAAATGATGATGATAAATTAAATGATTTTGAAAAAGATAATTTGATGAATAATTTTAAAGAATTTGAGAATGCATATGATGAATATATGACTATTAATAAGAGTGAATCAGATGCTTACTTAAATCTTAATTATGTAGCATATACTAGAGCAAAAGAAAATTGCTATATTTTCTATGGAATGCCAGGGCCTTTAATTAGAGAAGAAAAAATTCTTGGAACTAGAAATATGTCTAATGCTATGATAAAAGAAGATAATGTTTTAGATTACCTTAAGTATGCTAATTATTTCAAACAGAGTAAATATGTTGAAGTTGATAGTGAAAAATATGATGTAGAAAGAATTAATAGGCAAAAAGAAGGAAGTGCAATACATTATTTCTTTGAGGTATATAATGGTGATGTAGAAATTGCTATAGATATAGTTAAAAAGAAATATGGTAATTTATTATCTGGTTTAAGTTTTGAAAGAGTACTTTATTTAATAGATAAAAATGTAGAAAGATATAAAAATATATTGGAAAGTAAAAATACAAGATATTCAGAATTTAAAATTTTTGATAAAGATGATAATGATAAAATGTATATTATAGATTTATTATTAATAGATAAGGATAAAAAGAGAGCATATATTTATGATTTTAAAACAGGTCATAATGTTATTAATAATCCTAAATATATTAAACAATTAGAGAAGTACAAGAAAATTTTATCAAAAACAATCACAGATTATGAAATATTTGTAGAAATACTTCCACTTGATGAATGAAAAAATGGGCAGTTTTAAAGTATGCCCATTTTTTAATATTAACCGAAGTATTGTATGAAAAATGTAATAATAGTAATATTGAAAAAGTCTATAAACAATGCTCCTACTATAGGAACAACTAAAAATGCAAGTTTTGAATAACCAAATTCTTCATTTATAGATTTCATATTAGCTAAAGCATTAGGTGTAGCACCCATACCAAATCCCATATGTCCTGCTGAAATAACTGCTGCATCAAAGTTTCCACCCATAATGTTAAATGTAATGTATCTTATAAACACATATATGGTAATAATTTGAGCTAATAGAAGTACAGATAATGGTCCAGCAAGATCAAATAACTGCCATAATTTTAATGAAATTAGTGCCACAGAAAGAAATAAACTAAGTGAAATGCTTTCTAGTATTTGTATTTCCTTCATAGGGATTTCTTTATATAATATATCAAATAAATTTCTAATGATAGCAGCTATAAACATAGGTCCTATATAAACAGGTAATTGAAGACCTATTTTTTTAAACCAAATATTTAATATTGTACCAGTACTCATAGATAAAAGTAGGATGAAAAATGCTTTTGCAAATTTTTCTTCATCAAGTTCATGTATTGTATCATCTTCTTTTACTTCATCATCTACCTTATCATTAGATTTAAGATCATATTTTTGTATTAATTTTTTTCCAAGAGGAGGTCCTATTAATGAACCTATAACAGTACCAAAGGTTGCAGCTGCAATTGCTATAGTTTTTAATTCATCTATTTGTATGCTTTCAGATATAGCTATAGAAGTTCCGTGTCCTCCTGTCATAGAAGTTGAACCAGTCATTAATGCTATTAAGGGATTAATATTTAAAAATTTTCCAACAATTAATGCTACTCCATTTTGAAAAAATATTAGTAAGACTGCAACAAATAAGAAGTGTACAAGCTTAATTCCACCTTTTTTAAGTAATTTGAAACTAGCATTAAATCCTATACTGGTAAAGAACATTATTAAAAAGAAGTTTTGTAATGTAGTGTCAAATTTAAATTCGACAATCTTTAAATATCTTAATATTAATGATATTACAGAAAATATTATCCCACCAATAACTGGATTAGGTATACAATATTTTTGTAATAATTTTGTTTTCTTTTTTAATTTTATACCTAGAATTAAAAATATTACAGCAATACCTATAGTTTGTATCATATCAAGTTCAATTATATATCTCATAAATACCTCCAAATAAATAATATAATACAATATTAATAGAAAAAAATCAATTATATTATATTAATATAAGGATTTATAGAATATATTTAGCCTCTATTCATATGTATAAATATTTGATTGACAGCTATGATTAAATGTGATATTATACTATGTACGCATATGTTAGGTGGCTAATACCTAAAGTAGCGATTTTATAATTTCGGAGGTGAACAGATGTTTGCAGTAATTAAAACTGGAGGAAAACAATACAAAGTTGAAGTAGGTTCATTATTAAAAGTTGAAAAATTAGCCGTAGAAGTTGGAACTGAAGTTTCGTTTGAAGAAGTATTAATGGTAGGAGAAAAAGTTGGATCACCATTAGTTGAAGGAGCTAAAGTAGTAGCTGAAGTTAAAGAGCATGGTAAAGGTAAAAAAGTTATCAACTTTAAATATAATAAAAAAACATACTACAGAAAAAAAGGTCATAGACAACATTATACTTTAGTTGAAGTTAAAGATATTAAAGGATAATTATGACATATATTGAATTTTCTGAAAAAGAAGATAAAATTGTATCCTATTTAATTAAAGGGCATACAGAAGCATATAACTATGGAGAAGATATAGTTTGTGCATCAATTTCTGCTACATCTATTATGACATTAAATGGTTTAATAGAAGTATTAAAAATAAAGAAATTGAATTATGAAATGAGAGATGGATATATTTTTTGTGATTTGAGAAATGTTGATGAAGAGGATTTAGAAAAATCTCAAAGTTTAATAAAGTCATTAGCTATAATGCTTGAAAGTATTGCAAAAGATTATCCTAAAAATGTACAATTTAGAACTAGGAGGTATGAAAAATGATATTAAAGTTGAATTTACAATTATTCGCCTCAAAAAAAGGACAAGGATCTACTAAAAATGGTAGAGATTCTAATCCTAAATATTTAGGAGTAAAAAGATATGATGGTGAAGCTGTAAAAGCTGGAAATATAATTGTTAGACAAAGAGGAACTAAATTCCACCCAGGTAATAACATGGGAGTTGGAAAAGATTATACTTTATTTGCTTTAATTGAAGGTTTTGTTAAGTTTGAAACATTCAAAGGTAAAAAAAGAGTAAGTATTTATCCAGAAAAATAAATTAAATAATAAATAAGAAAAGCCTTTTTAATTAAAAGGCTTTTTTTTCAAGGTGAATATATATGACTAAAAAAGATAGAGTAAAGCAAGTTCTTGAAGCACTTAGAAATAAGTTCAAAAATCCCAAAATAGCTTTAAATTATAATAATGAATATCAGTTAATGGTTGCAGTAATTTTATCTGCTCAATGTACTGATAAAAGAGTAAATATTGTTACAGAAGAATTTTTTAAAGTTATAGAAAAGCCAGAAGATATGGAAAAATTATCTTTAGAAGAAGTTGAAAGATATATTAAATCTACAGGATTTTATAAGAATAAGGCTTTAAACTTAAAGGCTAATGCAAAAATTCTAATAGAAAAGTATAATGGTGTATTACCAAGAACCATGGAAGAATTAATTAAACTTCCAGGAGTAGGTAGAAAAACTGCTAATGTACTTTTAGGAGATCTTTGGGGTATAAGAGAAGGAATAGTTGTAGATACACATGTCAGAAGATTATCTAATTTAATTGGTTTTGTTGATAATGATAATGTAGAAATTATTGAAAGAGAATTAATGAAGATAATTCCTAAAAAATATTGGTATGAATATTCACATTTTTTAATTTTACATGGTAGAGATAAATGTATTGCTAGACGTCCTAAATGCCATGAATGTGAAATAAAACATTTATGCAAATATAATGAAAAAAATAAAGAAAAGGAATAGACATGAAAAAAATATTAATATTAATTTGTACATTCAGTTTAAGTATTTATGGTATGGAAATAGAAAAAAAAGAAAGAATACCAATAATATATACAGCTTTAACTGATGGAACAGAAGTTATAGATATTAATTCTGAACTTATATCACCTATAGCCTCTTTAACAAAGGTTATGAATGTAATAGTAGCAAAAGATGAAATATCTAAAGGTAAATTTTCTTTAAGTGATAAAGTTACATTTGATAAATATACTGCTTTTATAACTGGAGGTTCTATATCAGCATGGAGTGGAGATAATAGTTATACTTTAGAAGATTTATTAAAGGCACAAATGATATTTTCTTCTAATAATGCTGCTTATGCTACTGCTAAACATATAGGGCTGGGAGATATTGATAATTTTATTATCTTAATGAATAAGAAAGCAAGAGAGCTTGGAATGTATAATACATATTTTGCATCTCCAGCAGGACTTCCACCAAGACTTAATAAGGGATTTGGAATGGATATTTCAACAGCTAAGGACCTATATTTATTAGCTAAATATGCAATTGAAAATACTGATATTTTAGAATATAGTAATAAGAAATCTATTACTTTTCCTAATAGTAGAGATCCATTAAGAATGTATTATAATAGAATTACTATGTTAGGGGAATATGGAGTAGTTGGATTAAAAACAGGTTATCATGATGAAGCTGGATTTAATATTATAATTATTTCTAAAATAGGAGATTCAACAGTTATTTCAATTTCACTTAATTCTGAAACAGAAAAACAAAGATATATTTTACAAAGAGAAATACTTTCAAAATTAAGTGAAAGATTAGAAAAGATTATTGATAAAGATAAAGCGTATTATTTATTTGAAGTAAAAGACTATAAAAATAAGATATTAGAGGGATATATAAAAGAAGATATAAATCTTATTAATCTAGGTCAAAAATTTGAATATGATATAAAATTAAATGATATAAATGATAATATAAATATTGATGATGAAATTGCTACTTTATACATTAAGGTTGGTGATGAAGTTATTTTAACTAAACCTATACTTGCTAAAAATGAAAATAGAAAGTTAAATTGGTTTGAAAAAATTCTTAGATATATTAGTTTTGGACTATATTAAGGGAGTATTTATGGATAAAAATATTTTAATACTTGGACTTAGTGGTTCAGGTAAAACAACAGTATTGAAATTTTTGGAAGATAATGGATATAATGTTAGTTTAAATTATCCAATTAATCATTTATTAGAAGTAGAAGATAATACTAAAAGTGCTATAAGCATATATGTAAAAACTAAAGAAGAACTTGAAATATTAAAAAAAGTAATTAATTTAGATAGATTTAATATAATATTTTTGGAAGCTAGTAATGAAGAATTAATCAGAAGATATGAGTTATTTAGAAAAACACATCCATTTTTAAAAGATGGTGATTTAAAAGACTCTATAAATGCAGAGAGAGAATTTTTATCTATATTAAAAACTTATGATATTAATAAAATAGATACTACAGGATTAACTCCAAAAATGCTATATGAAATATTAGAAAATATATATTTATTAAAGAAAAAAATATTAATTTCTTCTTTTGGGTATAAACATGGTATACCTCAAGATGCTAATTATGTTTTTGATGTTAGATTTTTAGATAATCCATATTATTTAGAAAAATTAAAATATAAAACAGGTAATGATAAAGAAGTATCAGATTATGTTATGTCTTTTGATGAAAGTATAAATTTATTTCAAAAAATACATGATTTTTTTGAATTTGTATTACCTATATTCTTTAAGAATACAAAAAATAGTATACATATTGCTATAGGTTGTACTGGAGGAAGACATAGATCAGTTACTTTGGTTAATAAGCTATATGATAAATTTAAAAATAAATATGAAGTATATAAATTACATAGGGAGATAAAATAATGTTTGATATTAAAAACATTCCAACTAATCCTGGTGTATATATGATGAAGGATATAAATGATAAGGTAATATATGTAGGTAAAGCTAAAAATCTAAAAAATAGAGTTAGTTCATATTTTAATAATCCGAAATCATCTATGAAGACTTTTGAACTTATTAAACATATTAAAGATATAGAGTTTTTCTTGTGTAATAGTGAGTTAGAAGCTTTGATTTTAGAAAATAATTTGATAAAAAAATATTTACCTAAGTATAATATTTTATTAAAAGATAATAAAACTTATCCATATTTAAAGATAACAACTGAAAAGATTCCACAAATAAGTGTGGTTAGAAGTAGAAAACATTTAGAAGAGAGTACAGAAGCTTATTATTTCGGACCATATCCATTTAATATGAAGGAAATGATAAAGTTATTGTTATCTGCATTTGATATGCAATATTTTAATATAGATATGTATAATAAAAAAATTATTGGAAATAACTTAAGGTATAATAATCTAAATAAAGAGTTGTATTTTGAAAATGTTGAAGATGAGAATAAGTATATTGAAAATTCAAAAGCTATGATAAATTTTCTTAAAAATAAAGATGTTAGTATTATAGATAAATTACATAATCAAATGATAGAATATTCTGAAAATTTAGATTATGAAAAAGCACTTATTATGAGAAATAGGATAGAAAAATTAAATGCATTAATAAAAACACAGTTGATAGAACATAGTCAACAAGTTGATGAAGATGTATTTGTTTTAACTAACATAGGTAATAATATATTTATGTGTATACTAAATATTAGAGATGGTAAAATTATTGGAAAGAATAATATTAGAATTGATAATAAGTATGAAGAACAGGATATATTTGAGGACCTATTTTTATCATATTATGATAATAAGAAAATACCTAAAAATATTATTATAGAAAATAAATATAAGAGTAATATTGATATACTTGAAAAATACTTTTCTACTGAAAAAAATAAGCTTGTGAAAATACATGCCCCTATAATAAAAAGTAGAAGATTAAGTTTACTTGAATTAGGTAAGAAAAACTTAAATTATTATCTTGATGAATATATGAGAACAGAAAAAGCTATATCTAAAGGTTTAATTGACTTAAAAAATGTTTTAAATCTTAAAAAATTACCTAAGATTATAGAATGCTTTGATATATCAAATATACAAGGAAAAGATGCTGTTTCAGCAATGAGTGTTACAGTTAATGGTAAGGCAGATAATAAAAGATACAGACATTTTAAGATTACTGTAAAAGACACTCCTGATGATTTTATGATGATGAGAGAAACTCTTATGAGAAGATATTCAAAGCTTGAAATTGATGAATTACCTGATGTTATTTTAATTGATGGAGGTAAAGGTCAATTAGGAGTTGCAGTAGATGTGTTAAAAGAATTAGGAAAATTTGAATTTTTAGATATAATTAGTATTGCAAAAAAGGAAGAATTAATTTTTAAAGCAGAAGAGAGTGTTCCATATAGATTTGATAAAAATGATGAAGCATTAAAAATATTAATTAGAACTAGAGATGAAGTTCATAGATTTGGTATAACTTATCATAGAAAATTAAGATCAAAAAGAAATATAAAGTCAGTTTTAGATGAAATAAGAGGAATAGGACCTAAGAGAAAAAAGGAATTAATATTAAAATTTGGAAGTATTAAAAACATTTTAGAAGCAAGTGAAAAAGAGCTTTTGGAAATACTCCCATTAAATGTAGTAAAGGAAATAAAAAAAATTTAGAAATTTTGCATTTTGACACTTTATGTTGTATAATATAATAGTTCGGAAAAAATAAATAGGAGGAAGCAATGAGTAATTATATTTTGGAAATGCATAATATAAGAAAAGAATTCTTCGGTGGTAAAATCGTTGCAAATGACGATATTACTCTTAAAATACAAACTGGGGAAATTCATGCTATCGTCGGTGAAAATGGGGCTGGAAAATCAACATTAATGAAAATTTTAAATGGATTATATGATCCAACATCAGGTAAAATTTTTTATAAAGGAAATGAAGTTACTATAGATACACCAACTGAAGCAGCAAGACTTGGAATAGGGATGGTTTATCAGCATTTTATGTTAGTTGAAACATTAACTGTTGCTGAAAATATGGTTTTAGGGTTTGAACCAACAAAAAATAATGTATTCTTTGATTTAGAAACAGCAAGAAAAAAAGTTATAGAAGTTTCTGAGAAATATGGATTAAATATAGATCCAGATGCAAAAGTTGGAGATTTATCTGTTGGTATACAACAAAGAATTGAAATTTTAAAAATATTATTTAAAGGTGCAGAATTATTAATTTTTGATGAACCGAGTGCTGTTTTAACTCCACAAGAAGTTATAGAATTATATGGAATTATGCGTAATCTTATTAAAGAAGGAAAAACAATAATATTTATTACACATAAGTTACAAGAAGTATTAGATTTATCAGATAATATTACAGTTATACGTCGTGGAAAAGATGTAGGTAACTTAAAAACAAGTGAAGCAACAAAAACAGTAATAGCAAATATGATGGTTGGAAGAGAAGTTTTATTTGATATTAAAAAAGAAAAAGTTGAAATAGGAAAACCTTTAGTTAAAGTAGATGACATAGTTGCTTTAAATGATCAAGGTGCTAAAAAAGTAAAAGGTATATCTTTTGAAATTAAAGAAGGTGAAGTTCTTGGTATAGCAGGAGTTGAAGGTAATGGTCAAACAGAACTTATTGAAGTACTTGCTGGACTTAGAAAAGCTCAATCTGGAACATATAGTATAGATGGGGTAGAATTAATTAATACTAGCCCTAGAAATATTAGATTATCTGGACTTTCACATGTACCTGAAGATAGACATAAAAGAGCTACTATAGATGAGTTTACAGTAAATGAAAACTTAATCTTAGGAGATATGGATAAATATGTAAATAAAGGTATAATTAACTTTAATAAAGTTTCAAAAAGTACTAAAGAAATGATAGAAAAATATGATATAAGACCTGTTGATGGAACTGTAATATATGGTGGATTATCTGGAGGAAATCAACAAAAAGTTGTTATAGCTAGAGAATTAGAAAAAGAAAATAAATTTATTATAGCATCTCAACCAACAAGAGGGGTTGATATAGGGGCTATAGAAATGATACACAATACTATATTACATGAAAGAACTAAAGGAAAAGCTATACTTGTAGTATCAGCAGAACTTACAGAAGTTATGACTTTAAGTGATAGAATAGCTGTTATGTATTCTGGGAAAATAGTTGGTTTATTAGATAGAAAAGATGCAACTATGGAAAAATTAGGAATATTAATGGCAGGAGGTAAATTAGATGAGTAAATTTAAAAAGACATTTTATAGTATTTTACCATCATTATTATCTGTAATGATAGCATTATTTGTTGGGGCATTAATAATGATGTCAAGAGGAGTTAATCCTATTGAAGCCTACGTGGCAATGTTTAAAAGTTCACTATATCAATCATCACCTAAATTCCCATTTAATGGTCTTGCAAAAACATTAGTTTATGCTACACCGTTAATGTTTTCAGCTATTGCTGTAATGGTAGCTTTTAAAGCAGGATTATTTAATATAGGGGTACAAGGTCAATTAGTAGCTGGAGGATTAGGAGCAGTAATTTCAGGTACATTTATTACTAAATATTTAGATAGTTTTGGTATTTTAAATATATTAATATGTTTATTTTTTGCTGCCTTATTCGGATTTTTATGGGCATCACTTGCAGGGTTCTTAAAATCAAAATATAATATACATGAAGTAATTAGTACTATAATGTTAAATTATATTATGATTAATTTACAAAGATATTTAATTAACCCATCAAATGGACCTTTAAAAGATCCAACTACAAATAATAATATTACTAAAAAAGTATTTGAAGCATCAAGATTACCTTTATTTTTCTATGAACAAACAAAACAAAATTTAAATCTTGGGTTTATATTAATAATAATTATTATTATAGCTTCTTATTTCTTCTTTGAAAAAACAAGACTTGGTTATGAAATTAAAGCAGTAGGATTTAATCCAACTTCTTCTGAAAATGCAGGTATTAACCCTAAATTAATAGCATTTGTGGCTATGGGACTTGCAGGAGCTATAGCAGGTCTTGGTGGAGCTGAAAGAGTTTTAGGAGGTGCAGCTGAATATAGATACACTGATTTTATTATGGCTGATTATGGATTTACAGGTCTTGCGATAGCATTATTAGGTAAAAATAACCCTATAGGAATATTCTTTGCAGCTATATTTTACGCTTCTCTTGAAATAGGAGGACAAACTTTACAAAGACAATTTAATATAGATAAAGAAATAGTATTTATTATTCAAGCCTTGATAATTATACTAGTTGCCGCAGAAAACTTGTTTAAGTATCTTTTAAATAAGAGAAAGGGGAAATAGATGGAAGCACTAAAAATAATATTAATACAAACAATTAAGGTTGCTCCACCAGTTTTAATTACTGCGGTTGGAGCGTGTTTATCAGAGTTATCTGGAGTTACTAACATTGGACTTGAAGGTATGATGTTAACAGGTGCATTTACAGCAGCAGTAGTAAATTATTTCACAGGAAATCCTTATTTAGCAATAATATGTGGTATGCTTGTTGGTTCTTTAATGTCATTAATTCATGCAGTTATAAGTATACATTTAAAGGGTGAACAAATTATAAGTGGGGTTGCAATTAACTTATTTGCAGTTGCAGTTACATCTTATTTAGTTAAGGTAATATTTAAAGCTTCTGGTCAAACACCATCAGCTTCTAGTCATCCTAATAATATTTTAGTAATATGTGCGATATATATATTAGCTATACTTTCATATTTCTTGGTGTATAAGACTGTATTTGGATTAAGATTAAGAGCTGTGGGTGAACATCCATTAGCTGCTGATACTGTAGGTATAAATGTATATAAATATAGATATATAGGAGTTTTACTATCAGGATTATATGCTGGTTTAGGAGGAGCATATATGACTACAGTAATACTTTCAAGTTTTACGAATAATATGTCAGCTGGACGTGGATTTATGGCATTAGCTGCTATGATATTTGGTAGATGGAATCCATTAGGTGCTATACTTGCAAGTTTATTATTTGCATTTGGTCAAGCAGTTTCTGACTTTACAAAAGCAACTGGTGGAAGTGTACCACAAGAATTTTTAGCTATGATACCATATCTTATGACAGTTATTGCTTTAGTAATATTTGGACGTAGATCAAGACCACCTAAAGCAAGTGGAAAACCTTATAAGAAATAATTAAATTAAAAATATTATAAATATATTTAAAACTAGGTATTGCTTTTTAAATAAAAAAGAGGTATAATTAAATGCAACAAATATTTAGGAGGAATTTTAAATGAAAAGATTATTTGGAATTTTTACAGTTTTATTAACTTTCGTTCTTGTTTTATCATGTGGAGCGAAAACTGGTAGTTCAACATCTGCTGATCAACCAGCTAAAAAAATCGCCATCGTATATTCAACAGGTGGTAAAGGAGATAAATCATTCAATGATTCATCTTTCAGAGGTATGGAAAAAGCTAAAGCAGAATTAGGAATAGAGTATTCAGAATACGAACCAAAAGATCCATCAGTAGAAGCTAAAAACCAATTAACTGAATATGCTCAAACTGGAGAATATGAATTAATAATTGGTGTTGGATATACTATGAAAGAATCTTTAGAAGCAGTAGCAAATGAATATCCAAATCAAAAATTTGCTTTAATTGATGATGTTATTGAAGGAAAAGATAATGTTGTTTCATTAATGTTTAGAGAACAAGAAGGATCATTCTTAACAGGAGCATTAGCAGCTATGATGACTAAAACTAATGTTTTAGGATTTGTTGGAGCTATAGAAGCACCAGTTATTCATAGATTCGCTACAGGATTTATACAAGGTGTAAGACATGTTAATCCTGAATTAAAAATTTTAACTGCTTATGTAAATGGTTCTAATCCATTCAATGATCCAGTTGCAGGTAAACAATTAGCTGAAAGTTTAATAGCTCAAAATGCTGATATAGTTATGCACGCTGCGGGAGCAAGTGGAGCAGGAGTATTTAAAGCTGCACAAGAAAAAGGAGTATTCTCTATAGGTGTTGACTCAAATCAAGATGGTGAAGCTCCAGGAACAATTTTAACTTCAATGATTAAAAATGTTGACGTAGCAGTATTTGAAACTATTAAATCTGTTCTTGAAGGAAAATTTGAATCAGGTGTTAAATACTTTGGTATCGCAGAAGATGGTGTTGGAATATCTGAATTAGAATTTACTAAAGATATAATTGGACAAGAAATTATAGATAAATTAGAAGCTTTAAGAATGGAAATTAAAGAAGGTAAAATTAAAGTTGAAGAAAATGGTCCTTTAAAATAGGATGATAGATAAAATCAGGACATAAGTCCTGATTTTTTTTCACATTAGGCATATTGACAAATTAATAAAATAAAGGTAAAATTATATAGAACTAATAAAAATAAATGGTATTAATATACTTAGTTGCAATAAATTCAACCTAAGTTTAAAAAAACAGGAATTATTTTTCCTGTTTTTTTATCTGAAAATTGACAAATAGGTAAATTAATACTAATATATGAAAGGAAATGTTATGAGAATTGTTGATATTATTCAAAATAAAAGAGATGGTTTTGAATTAAGTACTGAAGAAATAAAATTCTTATTAAATGAGTACATGCAAGAAAAAGTTCCTGAATATCAAATTGCTTCATTTTTGATGGCAACATATTTTCAAGGAATGACTGATAGAGAATTAGTTGATTTTACAATGGCTATGAGAAATTCTGGAGATATTATAGAATTTCCTAAAGTAGACAAATTCTTAGTTGACAAACATAGTACTGGTGGAGTAGGAGATAAAGTTACAGTAGTACTTGCTCCAATACTTGCATCCCTTGGAATGGCAACAGCTAAATTATCTGGTAAAGGTTTAGGGCATACAGGAGGTACTATAGATAAATTTGAATCTATAGAAGGATTTAATTTCTCAAACACTAAAGAAGAATTATCTGAAATTGCTATGAAAACAGGAATAGGATTAATGGGTTCTAGTGATAAAATAGTTCCGCTTGATAAAAAGATTTATGCATTAAGAGATGTTACAGCTACCGTTCCATCAATACCATTAATTGCAAGTAGTATAATGAGTAAAAAATTAGCTATTCAAAATGATGTTATTGTCCTTGATGTTAAAGTTGGTGATGGAGCATTTATGAAAACTATTGACATAGCAAGAGAACTTGCTAAAAGAATGGTTGCAATAGGAAAAGGAACTAACAGACAAGTTAAGGTTGTTTTATCTAATATGGATGAACCTTTAGGTCATAATATAGGGAATGCTTTAGAAATAATAGAAGGAATAGAAGCATTAAAAGGGAATATATCAGCAGATTTAAAAGAAGTGGTGTATACAATAGTTTCACTTGCTTTAAAAGCTAAAGGAGATATAAAAGAATTATCAGAAGGAAAACAAATTATAGATGATATTATTAAAACTGGTAAACCATTAGATTTTTTTGCAAACTTCATTAAAGAAAGTGGAGGAAATCCAGAAATAATAAATGACTATAATTTACTTCCTACAGCTAAAAATTGTTTAGAAGTTAGATCAGTATCTTCTGGAATAGTAACTAAGATAAAGACAGAAGAAATAGGTAAGGCTGCTATGGTTATAGGTGCTGGAAGAGAAACTAAGGAATCTATTATAGATCATGCAGTTGGAATTAGAATACTAAAAAAAGTAGGAGATAAAGTAGAAAAAGATGAAGTAATTGCAAAAATTTACTATAATGATGAAAGTAAAGTAAATGCTTCAAAAGAGATGATACTTGAATCATATGTTATTGGAAATGAAAAATTAGAAGTAATAACACCAATATTAGATATTATAGAATAAAAAATAGGAGGAATAATTATGTTAAATATTGCTAAATATATTGATCATACAGTATTAAAAGCAACAACTAAATCATGTGAAATTAAAAAACTTTGTGAGGAAGCAAAAGAATATGGATTTTATTCTGTTTGTGTAAATGGTTGTTATGTTAAAGAAGCGAAGCAATTATTAGAAGGAAGTGAAGTTAAAATTGCAGCAGTAGTTGGTTTTCCATTAGGAGCTATGACTAAAGAAGCTAAGGTTTTTGAAGCAAAAGAAGCTATTTCAAATGGAGCAAATGAAATAGATATGGTTATCAATGTTGGTAAGTTATTAGAAGGCGATGTTAAATATGTAGAAGATGAAATTCGTGCTATTAAAGAAGCTATAGGTAATAATGTGTTAAAAGTAATAATAGAAACTTGTTATTTAAATGATGAACAAAAAGTATTAGCTTGTGAGTTATCATTAAATGCTAATGCTGATTTTGTAAAGACATCTACTGGATTTGGTACAGGTGGAGCTACATTTGAAGATGTTATTTTAATGAAAAAAGTTGTAGGAGATATGGCTGAAGTTAAAGCAAGTGGAGGAGTTAAGAGTCTTGAAACTGCTGAAAAATATATTGAAATAGGAGCTACTCGTTTAGGTACAAGTTCAGGAGTTGAAATAGTAACAGGAGCTAAAGTGGATTCAACAAAATATTAATTATAAAGGAGTGAGTAACCATGGCAACTGCACACATAGAAGCAAAAAAAGGAGATATAGCTGAGACTATATTATTACCTGGAGATCCATTAAGAGCAAAATATATTGCAGAAAACTTTTTAGAAAATGTGGTTCAATACAATAATGTAAGAGGTATGTTAGGATTTACAGGTACTTACAAAGGGAAAAGAATATCTGTACAAGGAACTGGTATGGGTGTACCTTCAATAGGTATATATACACATGAATTAATAAGTGAATATGGGGTAAAAAATTTAATAAGAATTGGAACTGCTGGTTCAACTAATGCTGATGTTAAAATTAGAGATGTAGTTGTAGCTTTAGCAGCTTCTACAGATTCAGCAATTAATAAATTAAGATTTAATGGAGCGGACTATGCACCCACAGTAAGTGCAAATCTATTATTTAAAGTATATGAAGAAGCTAAAAATAAGAATATAAATTTAAAAGCTGGAAATATTCTAACTAGTGATATTTTTTATTCTGATAATGTAAATGAATGGGAAAAATGGTCTAAATTTGGAGTGTTGTGTGTTGAAATGGAAACTGCTCAATTATATACAACAGCAGCTAAATTTAATGTAAATGCTTTGACATTGTTAACTATAAGTGATTCATTAGTTACAGGTGAAACTACTACATCTGAAGAAAGACAAAATACTTTTAATGATATGATTACTTTAGCATTAGATTCTGCAATAACATTTTAAGGAGTAATATGAATAGATATAGTGAACAAGAAATTAGAAAATATATTGAAAAAGCTAATAATTTATTAGACAGATCTTATAGCCCTTATTCTAAGTATAAGGTTGCAGCCGTTATGATAGATAGTGAAGGTAATTTACACGAGGGTGTAAATGTTGAAAATGCATCTTATGGTTTAACCATATGTGCTGAAAGAAATGCCATAGCATCATCAATTACTAAAGGAATGAAAAAAATTGATTTAATAGTTATTACTGGTGATGTAGACAATCCAATTAGTCCATGTGGAATGTGTAGACAAGTTATTAGAGAATTTTCTAAAAAAGATACATTAATTGTACTTGCTTCATCTAGGTCAAAAGAATATATTTTATGGACTGTTGAAGAAATGATACCTTATTCTTTTGGTCCTGAAGATTTAAATAAATAAAATGCCTTAGGGCATTTTTTTATACATTGATTTTAACATATATATTTAATTAGTACTTGATTTTATTAGGTTTGTTATGTTAAAATAATAGAAATAAATAAAGAGAGGTAAAGAAAGTGAAAGATTGGGAAGCAGGAATAGTAAGAAAGATTATCACAGAAGAACAATTAAAAGCAAGAATAGAAGAATTAGGAAATCAAATTACTGATGATTATAAAGATGATGATGCAGAATTTATTGTTGTGGGTATATTAAAAGGTTCAATACTATTTATGGCAGATTTAATTAGAAAAATAAGATTACCTTTAAAAATAGATTTCATGGAAGTTTCGAGCTATGGAGATAGTTTTGAAACTACTAAAGATGTTAAAATTATAAAAGACTTAGATTATTCAGTAAGAGGAAAAAATGTATTAATTGTTGAAGATATAATAGATTCTGGATTAACTTTAAAGAAAATTTTACAACTTATTGGTAAAAGAGGACCTAAAAATGTGATTTTATGTACTTTACTTGATAAGGTAACAAAAAGAGAAGTTGATATTAATATACAATATACTGGATTTGAAATTCCTAATGAATTTGTTTTAGGATATGGTTTAGATTTTATACAAGAATATAGAAATATTCCATATATTGGAGTAATGGATTTAGAAAAGTATGAAAAAGAAAAAAAATAATGTTGAACATAAACATAAGAAAAAATTTGGACAAAACTTTTTAGATGATAAAATATTATTAGAAAAAATAAAAGAAGTAACCAATATTAGTGTTAATGATAATATTATTGAAATAGGTCCAGGTATAGGTTTTTTAACATCTATGATATTAGAAAGTGGAGCTAAATTAAAGTCTTTTGAAATTGATAATGATTTGATACCAGTTTTAAATAAAAAGTTTGGAAATTATGAAAATTTTGAATTAATACATGTTGATTTTCTTTTATATAACCTTGAAAATATTATGGGAAAAGGTAAGGAATATAGAGTTATAGCTAATATTCCATATTACATTACTGCACCAATTATAAATAAGCTTTTAGAATTTAAAGATAATATTAAAGATATATATCTAATGGTTCAAAAAGAAGTTGGAGAAAGGCTTAATTTTGAAAAAAATACTAGTAATAAAGGAGTATTTACTCATGTTGTAGGATTTCATTCTAAAGTAGAATATTTATTTACTGTAGAAAAAGAGTTTTTTGATCCAATTCCTAAAGTTGATTCAGCTTTTATTAGAATTAATATAGATAAGGAAGAAAAATATTCTAAAATGATTTCTTTTGAGAAATATTTGAAATATGTTAAGGCAAGTTTTGCCTCTAAGAGAAAAAGTATTTCTAATAACCTTAAAACTATAGGAATATCAAAAGGTATTACAGAGAATGCATTAGTATTTATAGGGAAGAATAATAATAGTAGAGCTGAAGAATTGTCTATAGAAGATTTTATAGCTTTAATTAATATTATAGAAAAGGGATAAATATGAAAAGTTATGAATATATTATTAGTACAGATAAATATAATATTGATTTTATAAATAAAGTTGTGGAAGCTTATGAAGGTTTAGCTATAATAAGAACTCTTGATAGAAAAGAGGGATTAATAAAGCTATTAACTAACACTTATTTTATAGATGATATTAATTTATTAATTGATAAATTTAGAAAAAATGGTATAGATATGAAAATACTTGAAGAAAGAGTATGGAAAGGAGAACTATGATGCAAGATTATTATTTAGAATTAGTTAATTTTTGGTTAGAAAATTTAACAGGTTCAAGAGAAGGTTATGATATTACTGTTCAAGTTAAAGATAAAAATTACTATATTGATATATTTGCAAATAAGAGTGAAATAGGTAAAATTATAGGAAAAAATGGTAAAATTATAACTAGTTTAAGAAACCTTGTAGGTTCAATTGCAAATAAGAATAAAGATAATGTAACTTTAAAAATAAGTGAAAAAGAGATATAGTTAAAAAGTCTAGTAAAATAGACTTTTTTTAATTTGTAAAACAGTATAAACTGTGGTATAATTTTTTATATAAAACACAATATGTAAAGGAGATTTTATTATGGAAAATATGATTACAAAGGGAATATATCCAGAGTTAGTATTTGAATTTTTTGAAAAAATTTCTGCAATACCAAGAGGTTCGGGTAAAGAGAAAAAAATTAGTGATTGGTTAGTTAATTTTGCAAAAGAAAGAAATCTTGAAGTATATCAAGATGATTACTATAATATAATAATAAAAAAAGATGCGACACCAGGTTATGAAAAATACCTTCCTTTAATTATACAAGGGCATATAGATATGGTTTGGGAGAAAAATAAAAATGTTGATTTTGATTTTGAAACACAAGGTATTAAATTAAAGATAGAAGATGGATTTTTAAAAGCAGATGGAACAACTCTTGGTGCAGATAATGGTATAGCTGTAGCTATGGCACTTGCATTATTAGACTCTAAAGATATAGATCATCCAGCATTGGAAATACTTTTAACTTCAGATGAAGAAGTTAATATGAGTGGAGCTGAAAATATTGATGTAAGTAAATTAAAGGCTAAGAAGATGCTTAATCTTGATACAGAAGAAGTTGGAGCAATTTATGTAAGTAGTGCTGGAGGAGCAACTATTAGATTAACAACTGAAGTTGATAATTTTGAATTAGAATCAGATGATAATATATATTCATTAGAAATTTTAGGATTAAAGGGTGGTCATTCTGGAGCAGAAATACATTTAAAATTAGGTAATTCAATTAAAATGTTAATGGAAGCTTTAAAACATCTTGAATTAAAATTTGAATATGAATTAATCTTATTTGATGGTGGAAATAAAGATAATGCTATACCTAGAGAAGCTATCGCATATATTGCAACTAAGGCTTCAAAAGAAGAAATTATCGAGTTAATGGATAAATTCATTGATGTTAAAGTTGAGGAATATAAGGAAGAGGAAAGTAATTTAAGATATGAATTAAATGAGCTAACAGATAAAGAATTAAGAAAAATATCTAAAAGAGATACTAGAAAAGTAGTAGCTTTATACAATGAATTTCCTCATGGTGTAAGAACTATGAGTAAAAACATAGAAGGTTTAGTACAAACTTCATTAAATTGTGGAGTATTAAAAACTGAAACAATAGGTAATAAGACAATGTTTAAAGTTAATTCATTACTAAGAAGTTCAAATATAAAAGAATTAGATGAACTGCAAGATTTCTTAATAGATTTAGGTAAAAAATATGAAACTTATGGTGAAAAAGTTCCTTCATTTTATCCTTGGGAATACAAAGAAGATTCAAGCTTAAGAGAATTAGTTACTAAAGTATTTAAAAATAAATATGGAAAAGAAATTGAAATTAAGGCAATACATGCAGGGCTTGAATGTGGAATGTTTACAGAAAAAATAAAAGATTTAGATGTAGTTTCATTTGGACCTAATATATTTGGAGCACATACTCCTGATGAAAAAATGGAAATAGAAAGTGTAGCCCTAACTTGGAATTATTTATTACAAATTTTAAAAGAATATAATTTAGTTGATTAATTATGAAAAAATTAAAAATTGATGAAATTATTGTTGTAGAAGGTAAAGATGATGTAACTAGACTATCTCAGGTAATAGATGCAACTATAGTACAACTAAATGGTAGTACTGGACTTAGCAAAGAAAAAATATCATATATTAATGAATTATCAAAAAGAAAAGATATTTTACTTTTTACAGATCCAGATTTTACTGGGAAAAAAATAAGAGAAAAAATAAATAAAAATATTGAAGGTAAGGTTATAAATATATATGTTTCCAGAGAAGAAGCAACTAAAAATGGAAATATAGGTGTTGAAAATATTGATAATAAAAAAATATATGAAATATTTAGTGAATATTTATCTAAGAGATTAATAGAAAATAAGGATAATAAAAAATATATATATGATATAGAGAAGTTACTTGAAAATGGTTTAGTGGGAAATAAATTATCTAAATTAAAAAGAGAAATTATAGGAGATATATTAAAAATAGGTTATTATAACTCTAAGGGATTATTATCTATGTTAAATTGCATGAATATATCATATTCTGATTTTGAAAATGCAATATTAATGATGAATAAGAAAATAGATAAAAAAGAAAAAATAGGAATTATTTTTGGTAAATTTATTCCATTACATATGGGACATCTTAATTTTATTAGATATGCTTCAAAAGAGGTAGATAAATTACATGTACTTTTATGTGTTGAAAGGAATAGAGATTTAAAGTTATTGATTAATTCAAGTTTACCTAAGATATTAACTGAAAATGATAGAATGTATTATTTAAAAAAAGAATTAGAAATGTTTGCAAATGTTGAAGTACATGTATTAAGAGAAGAAGGTATAGCCTATTATCCTAATGGTTGGAGCGAATGGACAGATAGAGTAATTAAGTTTCTTAAAGACAATAATATTAAAATTAATACAGTATTTACTAATGAAATAGAAGATAAGAATAATTATGAGAAGTTTTTTGTAAATAATGAAGTATTTTCAAAAGAATTAGATGTGCATTTTACAGATCCAGAAAGATTTGAGTATAATGTTTCATCAACGAAAATACGAAATAATTTTGAAAAATATAAAAGATATTTACCAAAGTCATTACAAGATTTTTTTAGTAGATAAAAAAGTTGACAAATGCAATAACTTATGATAGAATTAAAAAGCTGATATAAAATCAGTATCTGTATTACCAATACAAATTTTTATATTGGGAGGAATGAAAATGAGAGTACAAGTTATTTTAGAATGCACTGAAACAAAGTTAAGACATTATGTTACAACTAAGAACAAAAAAACTCATCCTGAAAGAATTGAGTTAAGAAAATACAACCCAGTGTTAAAAAGATATTCTCTATATAGAGAAGTAAAATAATTATTTAAAATAGGCCAGTAGTTCAATGGTAGAGCGTCGGTCTCCAAAACCGAATGTTGTAGGTTCGAGTCCTATCTGGCCTGCCATTTTAAGAATATGGAGTTAATATATGAAAAAAGAGAAAATGAATTTATTTAATCAAATAATAGCTGAGTATAAACAAGTACAATGGCCAAGTAAGGCTGAGGTCTTTCAAGTTACTATAGTAGTATTATTAATAACTTTATTTGTTTCTTTGATGATATTAATATTTGATTTTGGCTTTACAACATTTATGGATAGATTTTCAAGCATTGTAAAATCGCTATTTAGTTAGGGGGCTGAAGACTAATGATAATTGAAAATAAAGAATATGTTAAAAAATGGTATATAATTCATACTTATTCAGGATACGAAAAAAAAGTAAAAACTGATTTAGAAAAAAGAATTATGTCAGAAGATTTAAATGATAAAGTTTTTAGAATATTAGTACCTGAAGAAAAGATATTTGAAGAGAAAAAAGGTAAAATGGTACCAGTGTTCAGAAAGATATTTCCTAGTTATGTACTAGTTGAAATGTTAGCTTTTAGAGATGTTACAGAAGACTCAGTAAGTTATAGAGTGGATAGTAGAGCATGGTATATAATACGTAATACTAATGGTGTTACTGGTTTTGTTGGTGTTGGCTCTGATCCATTACCAATGGATGAAAAAGAAGTTGAAGAAATATTTAGTAAAATGAGCAATGAAGATTTCCAAGAAAAATTAGAATATGAAGTTGGAGATTATGTTAAAACTTTAGATGGTATAGAAGGAACAGTTGAACATATAGATTACATTGCTAAACAAATTAAGATAGTAATTCAAGTAGGAAGTAGACCTACCACATTAACTTTAGGATTAAACGAAGTTACTAAATTTTAGAATTTATAGTAATAAAAGTGGGAGATTTAATATTCAATTACCACAAAGGAGGAAAATAGAAAAATGGCTAAAATCAATAAAGAAGTCGTGGATAAAGTAAAATTACAATTAAGTGCTGGTAAAGCAAATCCTGCACCACCAGTTGGGTCAGCATTAGGACCAAAAGGGATCAATATTCCTGAGTTTTGTAAACAATTTAATGCACAAACACAAGATAAACCTGGATTTATAATTCCAGTAGAAATTTCAATCTATGCAGATAGAAGTTTTAGTTTCGTTTTAAAAACACCACCTGCATCAGATTTATTAAAAAAAGCTGCAAAAGTTGAAAAAGGAGCACAAAACTCTGTTAAAGATGTAGCTGGAAAAATTTCAAAAGCTCAATTACAAGAAATTGCTGAAACTAAAATGCCAGATTTAAATGCTGCAAATTTAGAAGCAGCTATGAACATTATTGCTGGAACAGCAAGAAGTATGGGAATTAAAATAGAAGACTAATAATATGAAATTAAGTGGGAGATAAAAATTTCAATTACCACAGAGGAGGAAAAAAATAATGTCAAAAAAAGGGAAAAGATATAATGAAATTTCTCAAAAAGTAGATAAATTAAAAATCTACACACCAGAAGAAGCTTTAGAATTAGTATTTGACACAAAAAGTGCAAAATTTGTAGAAACAGTTGAATTAGCTATTAGATTAGGAGTAGATCCAAGACATGCTGATCAACAAGTTAGAGGTACAGTTATTTTACCTCATGGAACTGGGAAAACAATTAAAATTTTAGCAATAACTTCAGGAGAAAATATTGATAAGGCATTAGCTGCTGGAGCAGATTTTGCTGGTGATGAAGAATATATCAACAAAATTTCTGCTGGATGGATGGATTTTGATTTAGTTATAGCTACTCCAGACATGATGCCTAAATTAGGTAAATTAGGAAGAGTTTTAGGAACTAAAGGATTAATGCCTAACCCTAAATCAGGAACTGTTACAACTAATATTTCTCAAACAGTTGAAGAATTTAAAAAAGGTAAAGTTGCATTTAAAGTTGATAAATTAGGTTCAATTCATTTACCAATAGGAAAAGTTAATTTTGAAAAAGAACAAATAATTGAAAACTTTAAAGTTGCTTTAGGGCAAATAATTAAATTAAAACCTGCGGCTTCAAAAGGACAATATTTAAGAACAGTTGCTATCTCATTAACTATGGGACCTGGAATTAAAATTGATCCATTATTAGCAGCTGGATTTTCAAGCAAATAAATAATATAAAGAAGACATAATGTCTTCTTTTTTATTTTTCTATAGGAAATTAAAAAAATATCCAAGATAAAAAAATAAAAGAAAATAGTAAAAAAATATTGATAAAGAAAAGAAAAATTAATAGAATAAAAAATAAGAGAACAACAAAACTACCTATCATAAAAATAGGCATAATATATTAATTATAGAACTTATGAATAGGAGGAGAAAGACCATTATCAATAAATAGTTCATAACGTTTAAGATAAATATTACAATGAGGACACATAAAAGGGTCAAAGTCCCAAAGTTCTTTAAAGTTTTTCCTAAATAAAGAAAGAGACTTTTTATTAACCTGAGCTTTAAGATAAAATAGAGACATTTTAACTTTAGAAGAAATTCTTCTAGCATAGAAACCATATCTATTAATCATTTTAAAATACTTTAAAGGTAGATGAAAAAGCACTTTAGCAACAAAATCTTTAAAAGATAAAGTAGAATAAGTAACTTCTTTATTATTACTTAAATCTTCAAATTTAAATGTAAGAGAATTTTTATTAAAATCAATATTAACAATCTTATATTCAGCAATAGGAACTCTTGATAAATATCTACCAAGATATTTAATAATGTATTTAGGATTATTAATATCATTACCAGCTACATTAAAAAAGAACCTAACATCATTATCATAAACATTAGATACAGCTTTTTTAGCTTGTATTTTAATAATATCATTAGGATAATTAGCATTACTAATTAATTTACAAAGAGAAAACTTCCATTGATTAGCAATAGAGGGGACATGAAAGTATTTAAGTTCTTTATATTGAAATTTTTTATTAAAACCTCCAAGAGAGATGATGGCATGAATATGAGGATTAAACTTAAGGTCTCTACCAAAAGTATGAATAACAGTAATAAGTCCGTAGTTAATAATATCAGAATTAGTAAAGTAATTAGGATTAGATTTAGGGATATATATTTTTCTTTTAACTTTATCTTTGATATTATGGAATTGATATTTAAAAATATTATTAATAGCTTTAGACATTTTAGAAAGAATAGATCTATCATAAGCAATAAATTTTCTAAATTCTTTAGGGACAGTAAAAAGGACATGCCTATGAGGGATGTTAATAAATTGTTTTAAGATAGAATTAGTCCAATTAACAGAATAGTTATAACCACAAGATGGACAAAGTCTAGATTTACAAGTAAGTTTCATTTTATGTTGAAAATTACAAGAGGAACAACGATAAGAGATAAAGCCTTTAGAGAGATTACCACAGTTAAGAAAATTATGAATGGAATGGTTGATATGTTCAATATGTTTTTTATCAAAATATGGCTTGATAGAATTAATAGAATTTGTTAAAATATATTTGGAGAAGATAGATTTAATTTTATTAGAATTATACATTATATTGACTCCTTTCTGTTATTTGGTTTGGCGATTAAATTATACAGAAAAAGAAGAGGTGATTCAAGAATTTTTTTTGAAATTCTTAATCACCTTTTTTTAAATAAAAAAAGAATTATTACTAAAATTATTAGAATAATTCTTTTTACCATTTTATATACTTTTTCCGAATAAATATTCTTTACTTTCACTATATTCTATTTCTATTCCATATTTAATAAAATGTTGATTTATTATTGAATATATTAATGGATCAACTGTAGTTGTAATTCTAGTTCCATCTAAATTCTTTAACTGAAGACAACTAGCACCACAAGCATCTTTTAATGATAATTTATATCCATATTCAAATAATAGTTTATTAGCTTCAATTATATGATCAAATATTATTGCCATTATTTTGTACCGAAGATTCTATCTCCAGCATCTCCTAATCCTGGATAGATATATTTATTTTCATTTAATCCCTTATCGATTGAAGCGATATATAAATCAACATCATCATGTTTATCTTTTATAGCAAGTATACCCTCTGGTGCAGCTATAATTGATAGTATAGAAATATTTTTAACACCTAAAGATTTTAAATAATCTATAGTATAAATTATTGAACCACCTGTTGCAAGCATTGGATCAACTATTAATACTTTACTCTCAACAACATTAGAAGGCATTTTAGCATAATAATATACAGGTTCAAATGTTTCTTCGTTTCTATAAACTCCTAAATGACCGACTTTTGCATTAGGTATATGTGCAAGTAAGGCGTCAACCATACCTAATCCAGCTCTTAATATAGGAACTATAGTTACTGGTTCATCTAATACTTGAGTAATTGTTTCTTGTATAGGTGTTTTGACTGTAATATTTTTTAATTTTAAATCTTTTGTAGCTTCATAAACCATTAATGATGCAATTTCATTTAGACTTTCTCTAAATAATTTTGTATCTGTTTCTACATTTCTTAAAATTGATAATTTGTGGCTTATTAGTGGATGTTTGTATTCAAAAATTGCCATAATATTCCTCCTATATTTATTGTAATTTTAAAAAAACAGAATTACTGAAAACGTAATTCTGTAATATATTATAAATTGTATTTTTTCTTAAATTTATCAACTCTTCCAGTTTCGTCAACAAATTTGAACTTCCCTGTATAAAATGGATGAGAAGTTGAACTTATTGCAACTTTAATTACTGGATATTCTTGTCCTTCAAACTCAACAGTTTCTTTAGTTACTTTAGTAGATTTTCCTAAGAATCTTTCACCATTACTTGTATCTTCAAAAACAACTAATCTGTATTCTGGATGTATACCTTTTTTCATGTTATGGACTCCTTTCATAAAATTTATATAATTTATGAATATATTATAACACTTATATTTGTGTATAAATATACAAATGAGTAGCTTATGCGTTTAAAGCTTTTACTTTAGTAGCAAGTCTTGATTTAGTTCTTGAAGCAGTATTTTTTTTCAATACACCTTTTGTAACTGCTTTATCAAGCTCTTTATAAGCTACAGATAATGCTGCCTTAGCATCATCAATATTTTTAGAATCTACTGCTGCTAATACTTTTTTAACAAAAGTTTTAACTCTACTTGTAATTGCTTGGTTTCTTAATCTATTTCTTTCACCAATAACGATTCTTTTTTTAGATGATTTAGTATGTGCCATTCTGTTTTCCTCCTTTATACACAATTTAACAAGTTATTTTAACATTTTTATAAGTTAAAATCAAGTCTTTTTTTATTTATATATATTTGATATAATTTTATTAGGTGAAAATATGATAGAGAAAATATATAATAGACTGTATTCTGATTATGATTTTGAAAAAAGAGAAAATCAGATTAATATGTCTAAGATAATAAAAAAAGGAATAGATAATGATATGCCTGTATTACTAGAAGCTGAAACAGGTTCTGGTAAAACTTTAGGATATTTAATACCTGCAATAGATTTTGCATTAACTGAGATGAAAAACATTGTAATTTCTACTAACACTTTAAATCTTCAAGATCAAATCTTAAATAAAGAATTACCACTTTTGAAAAAATTATTTGGTGAAAAAATGAAATATACTTTAATTAAAGGAAGAAATAATTATGTTTGTAAAAGGAAATTACAAGATTTAGTTATGAAATCTGATGATGAAAAGTATATGGATTTAATAGAAGCAGTTAAAGCTTCTTTAACTGGTGATAGAAGCGATATTAAATATAAGATAAGTAATGATTTATGGAATGAGATAAAATCTGATAAGGATAGTACATTTGCTAACAAATGCCCTTATTATAAATCATGTTATTTCTATCTTTCAAGAAGTAAAAATGAACACTGCAATATTTTTATAGTTAATCATCATATCTTATTATTAGATCATATTATTAAACAAAATAATAATGTAGGATTAATACCTAAATATGATTTAATAGTTATTGATGAAGCTCATAATCTTGAAAATGTTGTTAGAAAATATTATTCATTATCTTTTAGTTTTAAAGAGGTTTTTAAAATTATAGGTATGCTTTATTCTAATAATGTTAAAGATATAGAAAACGCAGGATTAATTGGCAAAATCATAATTAATATTTCTGAAAATTCTAATCATTTCTTAATTGATGAATTAAAGGAAATATTTTTTTCAAATATTAATAATATTTATTATGCTTTAGTTGAATTAAGAAAAAAAATAGTTAGAAAATATACTGATTTAAATCAAAATGGAATATTAACTAAAGATATATGTGATTTAAATGTTAATGACTTGTTAGAAAAAATATTTAGTAGTAACTTAATTTTAAAGAAGGAAGTCTATAGATTAATTAATTTTTTAGAAGAAAGAGATGAATTAGATAAAGATAATTTAAGACTATTTTTATCTAGTAGTTATAATAATCTTGAAGAACATTTAAATACATTACAAGAAATATTTGAATTAAATTATGAAAAATACATATATTGGATGAATTTAGATATAGATAATGTATTTCCTATTATTAATGCTACTCCATATAGTATTTCTAAGGAGTTTGGTGAAAATTTTATAGAAAAAATAAGGAAGGTAATATTAATTTCAGCTACATTAACTGTAGGAAATAGTTTTAGGTATATAAAAAATAGTTTAGGAATAATAGATTCAGTAGAAGAAAATATACCCTCAGAATTTGATTATTTAAATAATATGAATATATATTTACCTGATAATTTACCTTTGCCTAATGAAATTGATTTTAATGAGAGGGCTACAAAATTTATTCTTGATTATGCTGAGAAGAATAATGGTAAGTGTTTTGTCTTATTTACATCGTATAAGGATTTAAAATTTGTAGCTAATTATTTAAATAAATATAGTTCTAGTTTAAATGTATTAATTCAAGGTGAATATGAAATAATAGAACTTATAAAGATGTTTAAAGAAAAAGAAAATTCAATTTTACTTGGAACTTATAGTTTTTGGGAAGGTGTAGATGTTCAAGGAGAGGCACTTAGTAATGTAATAATATTTAAATTACCATTTCAAGTACCAGATGATCCTATTGTTAGTAGTATTTGCTATAGGCTAAATGAGCTTAATTCAAATAGTGCTTTTAAAGAATTTCAGCTTCCTTATGCAGTACTTAAAATGAAACAGGGAGTAGGAAGATTAATAAGATCAAAGGAAGATAAGGGTAATATCATTATTTTAGATAAAAGGATACATAAGAAGAGTTATGGTAAAATTATTTTGAAATCTCTACCTAAAGGAAATATAGAAATACTAAGTATAGAAGATATACTCTTAAAATAGATTTTAAATAAAATTTATGGTATAATGTATTAATATAATAAGAGTTGAGGGATATAAATGAAAATTAGTTTTTTTGGAAAAATATTACAAATAAATATAGTTAATAATAAAATAGAAAAAGGCGAATCTATTTTAAAAAAACTTTTTAAACAAAATGTTAATAGAAGAGTAATAATGTACATTTCTATGGTTGCAATATTTTTTATGTTTATGGCTATAAATAATAATTCAAATAATTATGCTGTAGGAACAATAGCTAAAAAAGATGTTATTGCACATAAAGATGTAAGTTATACAAAAGATATACTTGATGATGAATTAAAAAGAAAAATAAAACAAAATACAACACCTGAATACGATGAGATAAAGGATGTAGCTAAAAATCAGCTAGATAAATTAGAACAATTTTTACAGAATATAAATCAGATTGATTTAAATAATGATACTGAAATTTTGAAATTCATTAGAACAAATAATTTGAGATTAACTGTAAATGAAGTAAAAACTATAGGAATTAGTAAAAGTGTAAAATATTATTTATTTTTATCTAATGTTTTAGAAGAAATATATAAAAGTGGGGTTGTAAATAAAACAGATTTCAATAAAATCCTTGCAGAAAAACAGATAGTTTTAGCTAATGAAGAAAAAAGATTATTATTAAATTTCATAGAACCAAATTTAGAAATTAACAAATTTAAAACATTAGCTAAAATAGAAAAAAATATGGAAAACTTAAAAAACAATGTTGTTGTAATTGAAAAAGGAGATATTGTATTAAAAGAAGGTACAGTAATTACTGATGCAATTTATGATAAATTGAAAAATTTAGGTTATGTTCATAAAAGTGATGGATTATATAGAATAGTAGGAGAGATTATATTATTTATAATAGTATCAGGTATATTCTTTAATTATTCAATTAGATATTTAAAAGAAGATTTTACATCAAAATCATTTTACCCATTACTATTAACATTAATTTTTAGTAATAGTATTTATATACTGCTTTATAATAATAGTAATCTCAAATATTTTGTACCTTATCTTTTAACTGCTATTATAGCAAGTGTTCTTGTTAAAAATTGGGTATTTACAATATCACTAATAACATTTAATTATATATTTGTTTTAGAAGATTTAAAATGGGTATTTGCAGTCATTTTTTTAAGTATATTAATAACATATATTAATAAGTCTGTAACAAGTAGAAATGAAATAGTTAAAAATAGTATATATATAGGAATGATACAAAGTTTAGTTGCATTTTCTATGGGATTAATATCAAATATTAATCTTATACAGATTATTCCTAATGTTATAATATCATTGGTTTCTGGATTGATTATGGGGATAGTTTCCTTAGGGTTATTACCGTATTTTGAAAATACATTTAAAATACTTACTGATATTAAGTTATTAGAATTATCAAATTTTTCTAATCCTTTACTTAAGAATTTATTACTTACAGCACCTGGAACATTTCACCATAGTTTAATGGTAGGAGCATTATCTGAAGCTGGGGCAGAGGCAGTTAATGCAAATCCAATATTATGTAGGGTAGCCTCATATTATCATGATATAGGTAAAATGAAAAGACCAGAATATTTTGTTGAAAATCAATATGGTATAAAAAATCCACATAATAATTTAAAACCTGCACTTAGTGCTTTAATTATTATATCACATGTTAAAGATGGATATATATTAGGTAAGAAATATAATTTGCCAGATGAAATATTAGATGTAATTCTATCTCATCATGGTAATACTTTAGTGCAGTATTTCTATTATCAAGCACTTGAAAATAAAGAATCAGTTATTGAAAGTGATTTTAGATATGAAGGACCAAAACCTACTACTAAAGAATCAGGTATAGTAATGTTAGCAGATACAATAGAAGCTGCTGTAAGAGCAAATGCTGATAAGAGTTCAGAAAATGTTGAAAAAATAGTAAGACATTTAATTAAATCTAAGGTTGAAGATGGTCAACTTTCAGAATGTGATATGACTATGAATGAAATTGAAAAAGTAACAAAGGCATTTTTAAATATTATTCGTGGAATATATCATGAGAGAATACAATATAAGAGAGGAAATTAATATGTTGAATTTAGATATCAGTTTTAAAGATATAGATAATAAAGAATATATTAATGAAGATAAGATATTAGAATTTTCAGAATTTGTAATAAAGAATGAAAGAGAAGATTATTTAGATAAAGAATTATATATTTCTCTATTATTAACTGATAATAAGAATATACAAGAAATAAATAGAGAATATAGAGAAAAAGATTCACCAACAGATGTTATTTCTTTTGCATATAATGAAACTGAAAACTTTGGAGGAGTAGAAGTAGTTGGTGATATTGTAATTTCTCTTGATAGAGTTGAAGAACAATCTAAAGAATATAACCATAGTGTAATTAGGGAATTTTATTATGTTTTAGTACATGGATTACTACATATACTAGGTTATGATCATATTGAAGAAGATGATAAAAAGATAATGAGAGAAAAAGAAGAATACTATTTATCTAAATTCAATTATACGAGGGAAATATGAAACATAAAAAAAATTCACAAATTGATAGCTTCAATAATGCAATTAATGGTATATTACATGCTATTAAAAGCGAAATTCACATGAAAATACATATGTTTTTTGCGATTATGGTATTAATATTAAGTTTAATAATTGATATTAGTAAATTTGAAATTATGTTAGTTATAATTATGATAACATTAGTAATTTTTTCAGAGATGTTAAATACAGCTTTAGAAAAAATTGTAGACTTAGTTTCTCCAGAATATAGTGAAGTGGCAAAAATTGTAAAAGATGTATCAGCAGGAGCTGTATTGGTAAGTGCTATAGGCTCTGTATGTGTAGGATATTTAATTTTTTATGATAGATTAATAGCACTTTATTTTAACGGTGATAATTTTTTTAAATTAGTTGGTAGAATAGGTAATGTTACTATGATAATTATAACCTTAGTTTCATTATCTGTAATATTAATAAAGGCTTATTTGAGGAAGGGGACATCATTAGAAGGTGGAATGCCTAGTGGTCATTCTTCTATAGCTTTTGCTATGTCTGCAATTGTAATGTTTTTAACTAGTGATGCAAGGATTATTATATTAGTTTTATTAATGGCATTATTGGTTGCACAAAGTAGAGTAAAATCTAAAATACATACATTAAATGAAGTTATAGTAGGAGCAATTTTAGGTTTTAGTATTAGTTTTTTAATTTTAGAAATATTATATAAATTTGGAACTTTAATAAATTAAAGGAGAGTAAAAATGATTATTTTTGGACATAAAAATCCTGATACAGATGCTATCTGTTCAGCTATAGTTTATTCACATTTAAAAGAAGATTTAGGAATTAAAGCAGTTGCTAAAAGAATAGGAGAATTAAACGAAGAAACAAAATTTGTATTAAAGTATTTTGGTGTTGATGCACCTGAATATATTGATAATGTAGCAGGTGAATCCATTATACTTGTTGATCATAATGAAAGAACACAAACAGCAGATGGATTTGAAGAAGCTAAAGTTTTAGAAGTAATAGATCATCATAGAGTAGCTAATTTTAATGTATCTGACCCGCTATATATGAGGGTTGAGGCTGTTGGATGTACTTCAACTATTTTATTTGATATGTATAGAGAAAATAATATTAAACCATGTAAAATAATGGCAGGATTAATGCTAAGTGCAATAATTTCAGATACTTTATTATTTAAATCACCGACTTGTACTCCAAAAGATGTAATAGCTGGTAAAGAACTTGCTAAAATAGCAGGGCTTGATTTAAAAGAATATGGTTTAGAAATGTTAAAGGCAGGAACAAATTTATCTTCAAAAACAGAAATGGAATTATTAAATATGGATATGAAAATATTTGAAGTAGAAGATATAAGAATGTCTATAGCACAAGTAAATTCAGTAAATGAAGATGAAATGCTTGAAAGAAAAGAAAAATTATTAGTTGAAATGAAAAATTTAATGGAAAAAGAAAAAGTAAATTTTGTGATGTTCGTTATTACAAATATTTTAACTAATGATTCAGTTGGTTTAGTTTCTGGTAATAATTTAGATGTAGTTGAAAAAGCATTTAATGAAAAAATAAATGATAATATGATAGTTTTAAGAAAAGTTGTTTCAAGAAAAAAACAAGTAGTTCCACCATTAACAGATGCTATTAAAAATAGATAAAATCTAACTTGAAAATTTTATTTTATTATGATATAATTACTTTGAATTTATACTAAGGATGTATTTTTGCCGAATATATGCTTGGTTTAAATAATATATATTTAGGAGGAAATAACAATGGCAATGAAACCAAAATCACAAATTATTGCAGAATTTGGAAAAGATGAAAAAGATACAGGATCAGCTAATGTTCAAATAGCTATTTTAACAGAAAGAATTTCTCATTTAACAGAGCATTTAAAACTACATTTTAAAGATGTTCATTCAAGAGCAGGATTATTGAAATTAGTTGGGAAAAGAAGAAGATTATTAAACTATGTTAAAAATAGAAATTTAGATGAATATAGAGAATTAATTGAAAGATTAGGAATTAGAAAATAATAAAAAGGAACGTAAGTTCCTTTTTAAATTTGATATATGGAGCAACAATGAGAGGAAGATTGAATTTAGTAGAAGGAAGTATAGGTATTAATTTATTTAGATTGGCTTTTCCAATTATTTTAACTTCATTAATGTCTATATTATATAATCTTACAGATATAAAGTTTATAAGTTATTATCTTGGAGATGATGCAGTAAGTTCTGCAACAGCTGCAAGTTTTTATATTGGTTTAAGTTATTCTTTATTATTTATAACTAAAAATAGTGTACAGATATATGTAGCACAATCTATAGGAGCTAATAGAAAAAATTCAGCTAAGAGATATGCAAGAGTATCATTAATCATATCAGTTGTTTTTTCTATATCATATGGATTATTCACATATATATTTGCAGAACAATTAATAAGATTAGTTGGAGTTAAAAGCCCACATTATTTATATCCAGCAATTGATTTTTTGAGAATATCTACATTCGGGTTTATATTCTTATTTTTATCACAAAATTTATCAGCTATTATTAATGGACAAGGAGATACTTTAGGTCCTTTTGTATTCCTTTCATCAGGAGTAATATTAAATATTTTTCTTGATTATTTATTCCTTGGAATATTTCGTTTTGGTATAAAAGGAGCTGCAATAGCAACAGTATTTTCTCAATTGATATCCGTAATTTTGTTATTTATGTATTTAAAGAGAAAAAATTCTATATTTAGGAATATGAAATTCTTTAAATTAGATGAAATTAAATTTTATAGAAAGATAATAAGACTTGGATTACCAAGCGGTATAAGTCAAGGACTATTTACTCTTATTTCTATTATTATTGCTAAAATGATAGCAGATGTAGATGAAAGTATTTTAGGAGTACAAAGATTAGGAATACAGTTTGAATCATTTTCATGGAATATAGCAGGAGGATTTGCAGCAGCAGTTGCAACATTTGTAGGGCATAATTATGGTGCTGGTAAATATGACAGAATTTTGAAGATATATAAGGTGTCTGTTATAAGTATTTCAGGATTTTGTCTTGTATTAACAGGAATATTTGTATTTTTTGCAAGACCTTTATATTCTATGTTTTTTATAGATACTAGACTTATTGAAGAAGGAGTTAAATATCTTACAATTATTGGTTTAGCTCAAGTCCCACAGGGTATAGAAATTATTACAACAGGAGCATTTAACGGAGTGGGTAAAACTAAAGAACCAAATATTATAGGTATAGTTGGAACTAGTTTGAGAATACCTATAATTATGATAACATTACCTACATTTGGATTGCTTGCAATCTGGTGGACTATACACTTTTCAATGGTATTTAAAGGAATTATTTCAGCTTTAATATTTATCATTACATGGAAAAAACAACTGGAATATATGAAAATTACTTTAGAGATATAAATAACAGGGATTGTCCCTAAATAAAATAAAAATTAAGAGAAATTTCTACAAAATGGAAATTTCTTTTTTTTTATTCTATAGGAAATTAAAAAAATATCCAAGATAAAAAAATAAAAGAAAATAGTAAAAAAATATTGATAAAGAAAAGAAAAATTAATAGAATAAAAAATAAGAGAACAACAAAACTACCTATCATAAAAATAGGCATAATATATTAATTATAGAACTTATGAATAGGAGGAGAAAGACCATTATCAATAAATAGTTCATAACGTTTAAGATAAATATTACAATGAGGACACATAAAAGGGTCAAAGTCCCAAAGTTCTTTAAAGTTTTTCCTAAATAAAGAAAGAGACTTTTTATTAACCTGAGCTTTAAGATAAAATAGAGACATTTTAACTTTAGAAGAAATTCTTCTAGCATAGAAACCATATCTATTAATCATTTTAAAATACTTTAAAGGTAGATGAAAAAGCACTTTAGCAACAAAATCTTTAAAAGATAAAGTAGAATAAGTAACTTCTTTATTATTACTTAAATCTTCAAATTTAAATGTAAGAGAATTTTTATTAAAATCAATATTAACAATCTTATATTCAGCAATAGGAACTCTTGATAAATATCTACCAAGATATTTAATAATGTATTTAGGATTATTAATATCATTACCAGCTACATTAAAAAAGAACCTAACATCATTATCATAAACATTAGATACAGCTTTTTTAGCTTGTATTTTAATAATATCATTAGGATAATTAGCATTACTAATTAATTTACAAAGAGAAAACTTCCATTGATTAGCAATAGAGGGGACATGAAAGTATTTAAGTTCTTTATATTGAAATTTTTTATTAAAACCTCCAAGAGAGATGATGGCATGAATATGAGGATTAAACTTAAGGTCTCTACCAAAAGTATGAATAACAGTAATAAGTCCGTAGTTAATAATATCAGAATTAGTAAAGTAATTAGGATTAGATTTAGGGATATATATTTTTCTTTTAACTTTATCTTTGATATTATGGAATTGATATTTAAAAATATTATTAATAGCTTTAGACATTTTAGAAAGAATAGATCTATCATAAGCAATAAATTTTCTAAATTCTTTAGGGACAGTAAAAAGGACATGCCTATGAGGGATGTTAATAAATTGTTTTAAGATAGAATTAGTCCAATTAACAGAATAGTTATAACCACAAGATGGACAAAGTCTAGATTTACAAGTAAGTTTCATTTTATGTTGAAAATTACAAGAGGAACAACGATAAGAGATAAAGCCTTTAGAGAGATTACCACAGTTAAGAAAATTATGAATGGAATGGTTGATATGTTCAATATGTTTTTTATCAAAATATGGCTTGATAGAATTAATAGAATTTGTTAAAATATATTTGGAGAAGATAGATTTAATTTTATTAGAATTATACATTATATTGACTCCTTTCTGTTATTTGGTTTGGCGATTAAATTATACAGAAAAAGAAGAGGTGATTCAAGAATTTTTTTTGAAATTCTTAATCACCTTTTTTTAAATAAAATAACATCTTCTAATTAACCAACAAAAACATTGACAAAATATAACGGTGGTGGTGGGGGGTATAATCTTATAGTAAAATAAGATTAGGAGAAGAAGATGAATAGAATAATATTTTTAATGATGTTTCTAATGAGCCTGTTTTCATTTCCAATAGATATAACAGGACCAAATTACAGACTAGATTTAAATGTAGCAGCAGGATACAGACCTGATCCACATGATAGGAATAGACCATTGGAATTTAAAGGAGACTTCAATAATGTGGATATAGAAGTGGGCTTTTCACCAGAATGGACACTTAATATTAATAAAAACTTTGAAATAGTATTTGGACCAAAACTTACAGTAGTCCTATTTGTTTCTCATTATTTAAATATTAGTGATGAGCCTGAAAGAGAGATATTTTTTGGAATAAGCTCAGGAGCAAGAGTAGACTTTGATTATATAATAAAGAAGAATATTAAGCTATATGCAGCATTAGAAGCAGCAGCAACAGTTAGACCAGATATACATATTTCAAGTATTTCTAATGATGGAAAAAATATTCTATTAACTGTTCATCCAACAATATTAGGAAGATTTGCTATAGGAACAAAAATAAAGAGATATAATGTAGGGTTATATACAGAATACGGACTTAACAAAGAATTAGTAGGTGGAATAGAAGTAGGGTATTCTTTTTAGTGTAGGAAGGGAGAAATAAGATGAAGAAAATAATATTAGTTCTATTAATAGGTATAACATCATTTAGTGCACCTATAACTAGACAGAGAAATAGAAGAGTAAAAATAGAAGAAGTAAAGAAAATAGAAAAGATAGAAGAAAATTTAGATAAAACAATAAATATAGAAGAAGTTATAGATAAAGAACCTAAGATAATTAAAAGAAAGAAGATAAATAAACCAAGATACAGAGTAGGAATGGAGATAAGTACATTACCAATATATCATACAAAAACAAAAATGTTTGGATATTATGCATATAAGTCATTTTCTTTTTTACCAGAATGGAAGATAGATGTTAATGAAAACTTTGACATAACATTAGGACCAAAGATTTCAGCAAATCTAGTATTTGGAGTAAATAATAGAGATCAAATAAATAGTAATGAATATTCACAACAATCTATAATAGATAAAAGTACAATAATAATATCAGCCTCAATAGGAGGAGAGATAGACTTTAATTATAGACTAAGAGATAATTTAAAAGCGTATGTAGGACTAGAAACACAAATAGGAATAGGGGAGAAAATTTATACTAAGTCAGGGTTATATGATACAGGAGAGAAAAAAGAAGGACAAATAGAGAATACTTTTAAACCTTACACACCATATCAAATATTCAAAAATACATATTTAACATATACTGGAAAGGTATCGGCAGGACTTAAGATAAGAGAGAAGTATAACATAGGAATATTTTTTGGATATGGTAAGGGCTATTTTGGGATAGAGTTTGGACAAACATTTTAAGCTACATTGCACTCCAAAGCTTGGATACAAGAATGGAGGTGCTTTTTTATATTTAAAAAAGAGGAAAATTCCTATTTTCATAGAAATTTCCCTATATTTTTATTTATTTTGCGTTATGGAATATAACATTTGATGTTGTGTATGCTTCAAATCCAGGATTATTTTTCATAAATTTAATGAAGCTTTCAGCATCTGGTAAGAATGAATCTGTACCTTCAGCAGCTGGATCTTTGAATAATTTTCCAAATGTAGCATAACCATCTTTACCACTTGCTATATAGTTGTTAGTTCCAACTACATACATTTTTTCTGGCATTACTTCTTCCCACATTCCAGTTTCTTTATTAAATACTTCAGCTTTTACTATTCTCTTACCATTAGCATCAGGAGTTTCATTTGCTTCATATCTTATTCCTGCACCATATGGGAAAGCACCTGTTGATTTAGTTAAAGCAAAGTTTATTGCATCTTCTAATACTTGTAAAGTATCTGCTCCAGAAATCTTATATGTGTATAAAGTATTTCCGAATGGTAGGTAAGTATATGCATCATTAAATGATATATCTCCAGCAAGTATATCTGCTCTTACTCCACCTGAATTTTGTATTACATAATCAACGAATTTTAATTCATTTAACATAGTTTCAGCAACAAATCTTGTAGCTATTGAACCATGTTCAGAAGCACCTTTTCTTCCAGGTATTCTATTATTTGAACCACCAGGCATATTAGCTCCTGAGATTGAACCTATTACTTGTTTTGCTAATACATCTTTTTCAGCCTTATATTTAGCTAATATTTTAGAAGTTCTTGGATCTTCTTTAGCAAATGAAATTGACTTATTAGCTTTTAAGTGAGAAATAATATGTTCTCTTTCTTTACCTTGTAATTCTTCCCATTTTCCTTCTTTATTTCTTGCTTGTAATTTATTAGTATGTAATAATACATAAGGATTTTTTCTAGTTATAGATGCAATACCATCTTTAGTGAAGTGTATTCCTAAATCTCCAACTACACCTGAATAAGCCCAAGCTTCAACTACGAATACTGGTTCACCATTAGGATTTTTAAATTCTGTTGGATATTCATGTACTACAGGTAAATTTAATTTTCTTAATTCATCATTACCATATAAGTAATGAGAATCTCCAGTTATTATTATATCTATATCATTAACTTTTTGAGCTATCTCGAAGTTTTTCTCAGTACCAGCATGTGATAATAAGATGATTTTGTTAATTCCTTGTGATTTTAAAACATTTGCCATTATTTGAGCAGTAATAACTTCATCATAGAATTTAACATCTTTACCTGGACTAGATGAATTTACAGTTTTACTTACTGTATCTAATCCTATTATTCCTATTTTTTCTCCATTAATAACTTTTATTGCATAAGGTTTCCATTTGTTATATAATATAGAACTTTTATCAGGTATAACATTTGCTGATAATACAGGTATTTTTAATGGTTCTAATAATTTTAATAATCCTTCATTACCTGCATCAAATTCATGATTTCCTAAAGTGAAGTAATCAAATCCACCTTCATTCATTACGGCAGCATCAGCTGAACCACCAAATAATGTGAAATATAGTGTACCTGTTATAGCATCTCCAGCATGTAGAACTAATGGATTTTTACGAGTTCTTCTTAATTCTTTTACTTTTTGGTTAACTGCTGAGAATCCACCTATATTAACCTTAAATTGTTTACCATCAACTGTAATTCTTTGCTCAGTTGGTTCTAAGTAAGAATGGTGATCATTAATGTGAATTATGCTTAAATCAAGAGCTTTATTTGCTGAAAATCCAAGCGTTGACACAGCTAATAATCCTGCTAATAGTTTTTTGTTCATCTTTATCCTCCTAAATTTTATTGCTTATATATTCTTTTTAATATATACCATTAATAAATGATTTGAATGTTTTTTCTCTTGTTTCTTGAGTAGTTGTATCTAAAAGATATCTCTGTCTATCAAGATATGAGAAATCATCAACTTCAACACCGCTTAATTCTTTGTTAAATATAGCATTTGATAATGCAAGTTTTTCTTTAACACGAGATGAAGCAGAAATTATTAATACTCTAACTTCTATTAATGAAAAATTATTCTTTTCAGGATAATCTTTTTTTATTTGTTCATTAATTGCATTAAGTATCTCTTTATCACTATTTTCAAATAACAAGACCTGTTCTTTTTTTGCCCTAGAATATATTCTATTTAAAAATTGTTCGGCACTGTTATTAGTATTGTTGATATAAATTATTGAATCGTTATTAGCATTAAATGCTACCATAATTTTTTGTATTTGCTCATCAATAAGATTTTTATCATCTGTTTTAATAGGTTCAAAATATATGTACTTTATAATCTTAGGTACTAAATTTTTCTCACTTTTAAATACACGAGAAAAAATTTTTTCTACATCTTCAACCTGTTTTTTAAATTTATTTGCTTTATTACGGTCTATTTTATACATTAAATCTTCATAATATTTCTTTTCTTTTTTTGAATTTATTGAATGAAAATATGTATATTTTGTACTCACTATTTCAAAATTATTTTTATCGTTTTTTGATACATTATCTTTATTAAAATTATTAACATTAGATAATGCAATAAAAGATAAAAACGATAATAAAAACATTTTTTTCACTAACATCATCTCCCTAACATCTTATTTTAATTATACATTCAAAATTGACAAAAAGCAATACACTATTTTGTTTTATGCAAGATAAAAAAATATCTTTACATAAGCTATTGCAAAAGAATCTTAAAAAGGTTATTATATAAACAATTACATCATAAGGTAATTTTTATAAGTAATAACCACAATATATTGTGTTTTGAAAGGTAGAGTATGAATGATAAAATTATAATATATTATGAAAGTTTGACAGGTAATGTTGAAAAATTTATTTCTAAAATGAAGAGTTATGAAGATTTTGAGTTTATAAAAATTTCATCTGAAACTATAGTTGAAAAAGAAGGGCATTTAATAACTTTTACAACTGGTTTTGGGCAAATTTCAAAAAATACAGATTTTTTTCTGACTAATAATGAAAATTATAAAAAGATTAAGACAGTTTGTTCTAGTGGGAATATGAACTGGGGTAAAAATTTTGCAAAAGCAGGAGAGCTTATTAATGAGAAATATGGTATTTATTTCATTTTTAAATTTGAACTTTCTGGAACATTGCAAGATGTTAAAGAATATACTAGAAAAATAAAAAAATATGAAAAAGAAAGAGAGTGTAATTAATGAAGTGGGTTTATTTAAATAATGAAATAATGGTAAAAGATAGTGAAGGTAAATTACAAATTGAGAAAGATAAGGAAGCAGTTTATTCATATTTTATTGATTATATCAATAAAAATACAGTATTTTTTCATAATTTAAAAGAAAAAATAGATTACTTAATTGAAAAAGATTATTATATAAATTTCTATGATATGTATTCATTTGAAGAAATTAATGAAGTTTTTAAATTTGTATACTCTAAGAAATTTAGATTTAAATCATATATGGCAGCTTCAAAATTTTATCAAAGCTATGCATTAATGGATGATACAGGAGAAAAAATATTAGAAAGGTATGAAGATAGAATATCTATAGTAGCCCTTTACTTAGGTCAAGGAAATAAAGAAAAAGCACTGAAATATGCAAAAATGTTAATAAATCAAGAATATCAACCAGCAACACCGACATTTTTAAATGCAGGTAAGAAAAGATCAGGAGAGCTTGTATCTTGTTTTTTAGATGAAATAGGTGATAATTTATCAGGAATAGGCTATGCTTTTGAATCTGCTATGAAATTATCTTCAATAGGAGGCGGAGTTGCTTTTAATATCTCTAAATTAAGAGCAAGAGGTGAAGCAATTAAAGGTGTTGAAGGTAGGGCAAGTGGAGTACTACCTATAATGAAAATACTTGAAGATATATTCTCATATGCTAATCAATTAGGGCAAAGACCAGGAGCTGGAGCTGTATACTTAAATGTATTTCATTCAGATATATTAGAATTTTTAGATACTAAAAAAATTAATGTTGATGAAAAAATTAGAATTAAATCATTATCTATAGGTGTAATAATTTCAGATAAATTTATGGAACTTGCAAGTGCTGATTTACCATGTTATACATTCTATCCACATTCTGTATATCTTGAATATGGGAAGTATCTTGATGATTTAGATATGAATGAGTGGTATGAAAAACTTGTTGCAAATCCTAAAGTTAAGAAGAAAAAAATTAATGTAAGAGAATTTTTAGTTAAGGTTGCACAAACACAAAAAGAAAGTGGATATCCATATCTATTTTTCAAAGATAATGCAAATAGGGAACATGCATTAAAAGAAATAGGTGATGTTAAATTTACTAATCTATGTACAGAAATTATGCAATTAACTGAAGTTTCAGATATAAATAACTATTATGAAGAAGATAATATTAGACGTGGAATTTCATGTAATTTAGGATCTGTAAATATTGCTAAAGTTATGGAAAATAAATCTATAAAAGAGGTAGTTAAAAATGCTATAGATTCATTAACTACAGTTTCAGATCTAACTAATATATCAATAGTTCCAAGTATTAAAAAGGCAAATGATGAATTAAGCTCAGTTGGACTAGGTGCAATGAATTTACATGGATATTTAGCTAAAAATATGATACAATATGAATCACGTGAAGCACTTGATTTTTGTAATGTATTTTTTATGATGATGAATTATTATTCATTAGAAAGAAGTATGGAAATAGCTAAAGAAAGAAGTAGAAGTTTTTTAGGATTTGAAAAATCTGAATATGCAAATGGTAAATATTTTGAAAAATATATAACTAAAGAATACATGCCAGTAACAGATAGGGTTAAGGAATTATTTGAAGGGATACATATACCTGGGGTAGAAGAATGGAAAAAATTAAAAGAAGATGTAATGAAGTATGGAGTGTATAATGCATATAGAATGGCTATTGCTCCTAATCAATCAACTTCATATATTATGAATGCTACTGCATCTGTTATGCCTATAGTTGATAAAGTTGAAGTAAGAGAATATGGTGATTCTACTACTTTTTATCCTATGCCATATTTAAATTATGATAATTTCTTTTACTATAAATCTGCATATGATATGGATCAAAAAAATATACTTAAATTGATATCTGTAATTCAAAGACATGTAGATCAAGGTATTTCGACTATCCTATTTACTAAAAGTAATGATACTACAAGAGATTTATCAAAACTATATATTTTAGCTCATAAATTAGGGTTAAAATCACTATACTATACAAGAACTAGAAAATCAACAATTGAAGAGTGTTTAAGCTGCTCAGTATAATGAAAGGAATTAAAATGGAAAAAAAGATATATAAAGCTGTTAATTGGAATACATTAGATAATGATTATGTTGAAGTATTTTGGGAACAAAATTTAAGACAATTTTGGATAGATACAGAATATATACCTTCAAAGGATATAGATTCATGGCATTCTTTATCTCCTGAAATGAGAGAAACTTACAAAAAAGTATTAGGAGGTTTAACTTTACTTGATACATTACAATCTCATACAGGTATGCCTAAAATTATAGATCATATTGAATCATTACAATGTAGATCAGTTCTGTCATATATGTGTATGATGGAATCTATACATGCTAAATCATATTCAACAATATTTACTACAGTTGCATCAACTGAGGAAATAAATGAAATATTTAGATGGGTACAAGATAATCAATATTTACAATTTAAAGCTAATAAAATTGATGAATATTATCAATGTTTAAATAATCCTAATGCAACTCCAAGAGAAATATACATGGCATTAGTAGCTTCTGTTTTCTTAGAATCATATTTATTTTATAGTGGATTCTTTTTACCACTTTGGTTGTCAGGACATGGTCAAATGGTTGCAAGTTCAGATATTATTAAAAAAATTATTGCTGATGAATCTATACATGGAGTTTTTGTTGGAAAATTAGCTCAAGAAATATTTGAAGAAATGTCATTCGTTGAAAAAGAAAGTGTTAAAAAAGAAATAATGAATTTATTCTATGAGTTATATGAAAATGAATTGAAATTTACAGATGAAATATATTCAGATGTAGGACTTACATCAGAAGTTAAGGAATATATTAGATATAATGGGAATAAGGCTTTAATGAATTTAGGTTTTAAAGAAGAATTTGAAATTAAGGAAGTTAATGCTATAGTATTAAATGGATTAAATGTTGAAACTACACAACATGATTTCTTTTCTAAAAAATCTACAAATTATGAAAAAACATTGGAAGTAGTACATCTAAATGATGATGATTGGAATGAAGATTTCGACACAGATTTAGATATTTAGGAGGTAAAAATGACTAAAAAATATACATTAATGCAAATACTATACTGGGCTATGTTTAGCTCAGTATATGCTTTTGCAAATAGCTTTTTAAGCTCGAGAGGATTTAATTCAACATTAATAGGAACTGTTATGGCATTATCTGCCCTTTTTTCAGTTTTATTGCAACCTTTAACAGCAAGGTTAATTGAGGTTTATAAAAAAATAACAGTTAAAAATTCACTTATAGCCTCAATGCTATTAGTTTTATTAAATGCCTTATTAATTAGCTATTTTGATGATAAGATACTTGTTTCAATTTTTTTTATAATCTTAATTACAGGATTGCTTAATGCCCAAACATATATGTATACCTTCATATTTCAATATATTAATAAGGGTGAGAATGTAAATTTTGGTATAGCAAGAGGTATGGGATCAGCAGCATTTGCAATATCATCATATTTTTATGGGTTGTTAGGTTCTAAAATAGGCTTTGAATTTATACCTATATGTGCAACGATATTATCATTATTTGTTATATTTGTTATTATGAGTTTTAAAGATATAAAGAAAGAAACATTAAATAATGAAACAGAAATTAAAGCAAATTTTTTAGAATTTTTTAATAAGTATAAAAGATTTTGTTATGTACTTTTAGGTATGATATTTATATTTTTTACACATACTGTTATTAATACATTTATGAGAAATATTTTAGAAAGTTTAGGTAGAGGAGCTGAAGAAGTAGGTATAGGATTTATGATAGCAGCTGTTGTTGAATTGCCAGTTATGTTTTATATAGTGAAATTGAATAAAAAATTTGGTTATTCAAAATTATTAAAAATATCAGCTATTGCCTTTTTAACAAAGATAACAATAACATATGTTACTATTTTAACAGGAAATATTACATTGTTTTATATAGCACAAATTACACAATTTGCAGGATATGCAATATATGTACCTGTTTCAGTTTATTATACGAATCATATTATGGAAGAAAAAGACAGAATAAAAGGACAAGCTTATATGGCTGTTTCAGCAACTATAGGTTCTATATTAGGTAATTTAATAGGAGGTAAAATCATTGAAATATATTCATTAAATTCTATGATATTAGCTTCTTTAATTGCAACCATTATAGGGGCTGTAATATTAATGTTAAATTTAGAAGACAAATAATAAATATGACATGTATCTTAATGATACATGTTTTTTTATTAAATGGTTGAAATAAATAAAAAATAGGGCTACAATTTATATTATATTAAGGAGATGAATAATGGAAGACTTAGAGTTATTTGAAGCAATAGGAAAAATTAGATTTTGGAAAAAAAATAGAAATACGAATATTTTTAAAAGGTAGTAATAAATATAGATATTTTGATGCATTATTAGAAGCATACAATAGTGCTTCTGATAATGAGTTATACCCAGAAGAAAAGGAGGCATACCCATATCTTTTAGATGGTGCTAGTATATATATAAAGCCGTTTAGTGAATATGACAACGACGAGTATTTTGCTTCTGAAATAGAAAAAACAGAAATATTAAGGGAATATGATTGAAAAAAGAAATTATAAAATATTCAAACTAAAAAGCGACCGTGTGGTTGTTTTTTTGTTTAGAAAGGATTTAGAATGAAATTAAACCTAGATTTAGTAAGAAAAATTCTACTGTATATAGAAGAAAATGGGAATGATGAAAGGGGCATAAATGTTGAAATAAAAGGCTATACTAGGCTAGAAATAGATTATCATATTTGTGTTTTATCTGAAGGTAATTATCTGTTATTATATGAAGATAAAACACCTAAAAGATGGACTATGAAGGGTCATTCTTACATAGAGAACATAAGATGTAAATATATTTGGGAGGAGCTAAAAAAAGATGTTGAACTAAAGGGGATACTGACAACATCTTTAGATATAATAAAGGATTATGGTAACAAATTTATTAAAGACAAATTAGAGCTATAAAAAATTATATTTTATAAAAAAATATTTTTAAAATAGCTAAATTTTAAGATTTTAGGAATAAAACTAGCTAAAAACTCGCCTTTTTGTGGTAGGCGTTAAAGAACCACTTTTTTTATTTACAAAAAAATGAGGTGTAAACATGAACAAAGAGGAATTAATGGTTTTAGGGCTTACAGAAGAGCAAGCTAACAAGGTTTTAGTTGAATTTAACGCAAAATTGAAAGAGGTTACTGATGAGAAGAGGGTGGGTGGGCATAAAAAAAAGCTAGTCCATACTAGCATTCAATTTTAATATATAATGGTGAGCCAGCAGGGGGTCGAACCCTGGACACACGGATTAAGAGTCCGTTGCTCTGCCAACTGAGCTACTGGCTCATATACATAAAGAGTATACAACAATTTTGATTAAAAATCAATAGAAAAAAATAAGAAAATGTGATAAAATATTTTTAATATAGATTTTATTTTTAAGGAGTAAAAATGAGAAAAACATATATAAAATATAGTTTGATTTCATTGGGGTTTGCGATACTTTCAAATTTAATTTATCCTAGATATTATTTTCTAACATGGAATTTGTTTTTGGCATATATTCCATTTTATATTAGTAATATAAAGAAAAAAAATATTTTTGTGGATGCTTTTTTAGCTTTCGTTGCATTAATATTTTATCCTAATGCAGTTTATCTATTTACAGATTTAATACATATTAGTAATTTAAGCTTTTATAAAAGAGGTGTAAAAGTTGTTTATTTAATGAATTATTCAAATTGGATAAAAGTTTCCCTTATATTTCTTGCTGTTATTATTTCTATGAAGTTAAGTTATTTAGCAATAAATAATTATGCAAAGAAATATAGAATGAATAAAATTACAAAGTATACTTTTTATTCGGTAATTTCTTTTCTGACAGGTCTTGCTGTATTTGTAGGAAGATTTATTAGATTAAATTCATGGGACTTATTTATTTATCCACATAGAACTTTTTACACTTTTATTAAACAAATAAATACAGAAAACATTAAATATATATTATTGTTTGCATTTATACAATTATTTGTAATAATTTTAGAGGAGGAATAAAATGAAAGTCTATTTAGCTGGTTCATTATTTAATGAAGCTGAAGTTCAACAAAGATTAAGAGAAGGTAAATTATTAAGAGAAAGATTTCCGAATATTGATTTATTTAATCCAATTGAGCAACCATTTAATGAGGATAAACAAACTTTACCTACACCTATAGATATATATAGTGGGGATGCAAATGCGATTATTAATTCAGAAATTATTATTCTTGATATGACTAATGAAGATGCAGGAGTAATGGTTGAATTAGGACTTGCTATTGCATATAATAAGAAGATTATTGCTATAAATTCAGATATTAGACTTAAATCATCAAATAAATATGATATACCAAGTTATTCAATGAATCATTTTGTACTTGGTGGAATACTTAAACATGGAATTTTAGTATATTCATTTGATGAGGCAATGAGGGAATTAGAAAAATATGATAAATAATGCAGTTATAAATAAGAGAAGAATTGCTTTTCTTCTTACAATGATAGGTGGTTTTTTAGAAATCTATTCATATTTATTATTAGGAAAAGTATTTGCAACAACTATTACAGGAAATTTAATATTATTAGTATTTAATTTAAAAAGATTAGAAGTAAGTAATATAATTAAATATTTAGTACCAATAATATTTTTTTGTTTAGGTGTTTTAGTATCAGAAAAAATTAAATCAAAAATTACTATTAGTTTTTCTAAATTAGTGCTGTTTTTAGAAATATTAATTTTATCATTTATACCTTTTATGAAAATACAATTAATTGCTATTTCTTTGATAGCTTTCATATCTGGTATACAAATACAAACATTTAGAAAAATTTCAAATAATGTATATATGTCTACTATGTGTACAGGGAATACTAGAGCATTAGTTGAAGCTTTGACTAATAAAAGAGAACAAGATATTAAAGATTATTTTGTTGTAGTAAGTGGTTTCCTATTGGGTGTTTTATTAGGAGATATAAGTATAGTGTTTTTTGATAAATTTTCTATATATATTTGTGTTTTAATGATATTATTAATAATTTATATTATAAAGAAGGTATGAGAAAATGAAGTTATCAGATAAAGTATTAGGAATGCAATATTCACCTATAAGAAAATTTGTTCCTTTTGCAGATAAAGCTAAAAAAGAAGGAGTAAAAATATTTGAATTTCATATAGGTCAACCAGATGTTAAAACTCCTGATTCTTTTTTTAATGGTGTTACCAAATATCAAGAAAAAATAATTAAATATACAAATTCACAAGGATTAGAAGAATTACTTGATGCTTTTGTTGAATATTATTCAAGATATAATCTTAAAATTGATAAAAAAGAAATTTTAATAACTAATGGAGGAAGCGAGGCATTACAGTTTGCAATTAATACTATATGTAATAAAGATGATGAAGTTTTAGTTCCAGAACCATATTATTCAAATTATGATTCATTTTTAAGAATAGCAGATGCTAAATTAGTTCCTATAGTTACAAAAATAGAAGAGGGGTACAGATTACCGAGTTATGATAAAATGAAGAAATTAATAACTCCTAAAACTAAGGCTATATTATTTTCTAATCCATCTAATCCAACTGGAGTTGTTTTAAATGAAAGAGAGATAGAAGATATAAAGAGGTTAGCATTAGAGTTTGATTTATTTATCATTTCAGATGAGGTATATAGACAATTTATATACGATGTTGATACAAAATTTAGATCATTTTTAAGTTTTGAAGATGTATCAGATAGAGTAATAATGATAGATAGTATTTCTAAACATTATAGTGCATGTGGAGCTAGAATAGGAATACTTGCATCAAGAAATGCTGAAATCATTGCTCAATCTTTAAAACTTTGTCAGGCAAGATTATCTGTTTCGACTATAGAGCAATATGCTAGTGCAAATCTTGTAAGAGGTATTGATGTATATATAGATGATGTTAGAGCTGAATATAGAAAAAGAAGAGATTTAATGTATGAAAAATTAAGTTTAATAGAGGGTGTTAAAGCCAATAAACCAGATGCAGCTTTCTATATTTTTGCTTCTCTTCCAGTTAATGATACTGAAGAATTTAATAAATGGTTATTATGTGATTTTAGGCATAATGGTAAAACCTTGATGTTTGCTTCGGGTAATGGATTTTATTCTAAGGAACATAGAGATTTAGGTAAAAATGAATTAAGATTTTCTTTTTGTGGGAATAATCTTAGAGAAATTGAAGAAGGTATAAATTTACTAGAAATAGCATTAAAGGAATATAATGAAAAACACTAAAAAAGGATATTTATTAGAAATATCATATAAAGGAAAGAAATTCGATTGTTTTGATGAAATTAAAGATAAAAAAACAGTAAAAGGTGTTTTAAAAGAATATATTTTATCAAAGGGAATAAAAATATATAAAGGATTACAACAAGCAGGTAGAACAGATGCAAGAGTATCAGCGTATTCAAATTATATTTATTTTGTTGCAGATAGATTTAATATAGATATACTTGATATTAATGTAGATATTTCTGGTTTAAAAATTAAAAATATCATAGAAACAAAAAATGATATAGTTTTACCTGATATTGTTGAAAAAAGAATATATATTTATTTTTATCCTAAAAAATTTTTAAATGTAGATAAAGAAACTATATTAAAAAGATGTGAAGAAATAAGTGGATATAGAGATTTTTCTGAATTTACAAATCATAAAGGATTAAAACTTAAAAATCATTTTAGAGATGTTAAAGTAACTTATGTTGAAGAAAAACTCTATTTTGAAGGAAATTCTTTTATGCCACAACAGGTTAGAATAATGAGTGGATACATTTTAAAAGGTAAAAAAGAAGCTATGGATCCAAAATTTTTAGTTTTAGAAAAAATTATATTTAAAGGTGATGTTTTATGAAAAAGCAAATTGATAAGGAGGCTTTAATAACAAGTATAATATATTTAATTTATTTTGTGTGGTGGTATTATTTTGCATATATTTATCCACCTAAAAATGTTGAAGAGTATAAATACATTTTAGGACTTCCTGAATGGTTTTTCTATTCTTGTATAGTGGGATTTATTTGGGTAAATATAGCAGTATTTGCTGTAATAAAGATTTTCTTTAAAAATATTGATTTAGATACAGGTGATATAAATGAATAAATTTCAACTATTATGGCCTATAATAATATACTTATTTATCACTATATTAGTAGCATATTATATAAGTAGAAAAGAAAATAAAAATAATTTTACAGAATCATATTTTATTGGAAATAGAAGCATGGGAGCTTTTGTTTTAGCTATGACTGTAGTTTCAACATATATTGGAGCATCATCATTTTTAGGTGGTCCCTCAATAGCATATAAGTTGGGGCTAGGATGGGTACTGTTAGCTTGTATACAAATTCCATTAATATTTTTTACTTTAGGAGTATTAGGTAAGAAAATAGCCATAATTTCAAGAAAAATAAAAGCTGTAACATTAATAGATATTTTAAGAAAAAGATATAATAATGAGTTTTTAATAGTTTTACTTTCAGTATTGATGTTAATATTCTTGTTTGCTTCAATAATTGCTCAATTTATTGGAGGAGCAAGACTTATAGAAAGTATTATAGATATAGATTATAAAATAGCATTAACAATTTTTGTATTTACAGTTATTTTTTATACAACTATTGGTGGATTTAAAGCTGTTACAATAACTGATGCAATACAAGGATTAATTATGATGATATCTACATTTGTTTTATTTGTTGTAATAGTAAATAAAGTTGGTTCTATGTCAGAGATAACTTCCACTATTAAAAGTATAGATCCAAACTTATTAACTCCTGATGCTGGTGGTGCAATATCAAGACCATATATATTATCTTTTTGGATTTTAGTTGGTATTGGAATATTAGGTTTACCTGCAACAACTGTAAGAAGCATGGGATATAAAGATTCTAAGGCACTTCATAATGGGATGATAATAGGAACATTTGTTGTTGGTTTCTTATTAATAGGAATGCATTTAGTTGGATTTATGGGTAGAGCAATTGAACCAAATATTGATGTGAGTGATAAACTTATACCTATATTAGCATTAAAGAATTTACATCCTATAATTGCAGGAATATTTATAGGAGGACCACTTGCTGCAATTATGTCAACAGTAGATTCATTATTAATACTAATTTCATCATCTATAGTTAAAGATTTATATATAAATTATGTAAATAAAAATACAAGTGATTCTAAATTAAAGAAGGTTTCTTTAATAATTACTATTAGTATAGGGTTAATTACATATATATTATCAATTAATCCTCCAAGTTTAATTGTATGGGTTAATTTGTTTGCACTTGCAGGTCAGGAAGTTTTATTCTTTGTTCCAGTATTCATGGGCTTATATTGGAAAAGAGGTAATGATAAAGGTGCTATAGCATCTGTAATTGTAGGATTTGTTGTTTTCATAATGCTTGAAAAATTTAAATATTCAATATTTGGACTTATGAGTATAGTTCCTGCATTAGTATTTGCATTAATTTCATATATTATAGTTTCATTTATGAGTAAAGAAAATGATAAAGAGAGTATAGATTTATTTTTTGAATAAAGGAGCAAATTAATATGACTCATAAAGAAAGAATGGAAAAAGGACTATAGTATGATGCTAACTTTGATTTAGAATTATTAACTTTAAGAGAAAATGCAGAAGAGTTATGTTTTAATTTTAATAATACTAATCCTAAAGATATAGAAAAAAAGAAAGATATTTTATCAAAACTTATTCCAAAATATGGAGAAAATATTGTAATTCTTGCCCCTATTTTTGTTGATTATGGTTTAAAGACAACTATAGGAGATAATACATTTGTTAATTATAATGCATATTTTATGAATGGTGAAACAATTATTATAGGAAATAATTGTTTTATCGGATCTAATTGTGGTACGTATACAGCTAAATATCCTTTAATTCCAGAAGAAAGAAATAAGGGGTTAGAATAGGTAGAGGAAGTGTTATTGGTGGGAAAAGCTATGTTGTAAAAGATATTCCTTCTGGAGTTATAGCAGTTGGAAATCCATGCAAGGTTATGAGAGCTATAACAGAAGATGATAGTATTGATTTTATATAGAATTTAACTAAAATGAACTGACATCCATAAATTATTTAGAAAGCCAGTTCATTTTTTTATTACTATAATTGTACAAATTCTTTTGCTATTTCTGCTGCAAGTCTTACATTATTATAAACTAATTGAATATTAGCATCTAATGATTTTCCATCAGTGATTTTCTTTACTTTATCAAGTAAAAATGGAGTAGAATCCTTACCTTTAATTCCTAATTTTTCAGCTTCTTCTAAAGCGTTATTAATAGCATTAGTTATAGTGTCAAAATCCATAGCATATTGTTCTGGAATAGGATTTGCTATAACAACTCCACCATTTAATCCTAAATTCCATTTAGTTTTTAATATCTTAGCAAATTCTTTAGGATTATCAATTGAATAATCTAAATTGTATCCACTCTTTATTGTGTAGAAAGCAGGTAATTCTTTTGTTTTGTATCCAAGTACTGGAACACCTTTTGTTTCTAAATATTCTAATGTTAGAGGTAAATCAAGTATTGATTTTGCCCCTGCACAAATTACAGCTACATTAGTTTGTGCTAATTCTTCTAAATCAGCTGAAATATCCATAGTAACTTCTGCATTTCTATGAACACCACCTATTCCACCTGTTGCAAATATTTTAATTCCTGCAAGTGCTGCAATTATCATAGTAGTTGAAACTGTAGTTGCACCATTTAATCCATTACTTACAATATATGCTAAATCACGTCTACTTACTTTTGGAACATTAACTCCTTCTTTACCTAAAAAATTAATTTCATCTTCAGTTAATCCTACTTTTAGTTTTCCGTTTATTATTCCAATTGTTGCAGGAACTATACCATTTTCTCTTGCTATTTTTTCAACTTCTAATGCTACTTCAACATTTTGTGGATATGGCATACCATGAGATATTATTGTAGATTCTAAAGCAACCACTGGTTTATTATTTTCTAAAGCCTCTTTTATTATTGGATTAATTTCTAAATATTTTTTCATTTTTCCTCCTATAATTCTATATTAAAATATTTTTTTAAATTATTGTTTAACAAGTCTTCTGTTAAGCCTTGATAACATGTACCAAGATTAGTAACATTGATTACTGACATAGTCATTGAAATTTTAGCACTCTTTTCTATGTCATAACCATTTTTAACAGAATATGCTATACCAGCTGTAAATGCATCTCCAGCTCCTGTAATATCAACAGCTTTAATTTCAGGATTATTAATTAGTCCATGTTTTTCTTTATTCATATAAAACAGACCCTCTTTACCTAGAGTAATATAGATATTTTTTACACCTTGTTCTAAAAGTTTTTGACCTGCTAATATCATACTTTCTTCATCTTTTATATTGATTCCTGTTAAAAGTTCTGCTTCTATTTTATTAGGTTTAATAGAATGAATTTTATTAAGAATATTTTTTATTTTTTTTGTTTTTGTAGTTGATACTAGATCAACTATTATTTTCTTATTAAATGTAGAAATATATTCAATAACATCTTGACGTAGGTTTGTGTCTATAACTAAAACATCAGATTCATTAATATATTTTTCTTTACTTTTTATATAATCTATATCTAGTTTTTCTAGTATAGACATACTTGCAATTGCTACTATCATCTCATTTTCATCATTTAATACAGATAAATAAGTTGATAAAGATTCATTAGGTATAACCAAACAATTAGACATATCAACTTTCTTATTATTCATATAATTTAACAATGAAATAGAAAATTCATCATCACCTATTGGTGCTATAAATTTAGTATCTAAATTTAAATGAGCCAGATTTTCTGTAATATTTCTTGCTACACCACCAAATCCTTTTTCTATTTTACCAGGATTTGAATCATTTAGTATAATAGAATTATATGAAAATCCTTGTATATCGATGTTAGCACCACCTATAATACAAATCATAATACACCTCTTTTAATTTATATATACTAAGTCTAACATATTGCCTTTATATAGTCAATTGATAAAAGAGTTCATTTTATTGACAAAAATATATGGGGGGGGGTATAACATGATAAAGAGATGATAGGAGGAAGTATGATAAATAAGGGAATCATTATAGGACTTATGACAATAAGCACAACAACATTAGGAGCAGAATACTATGTTATTAATGAAAGTAAAGTTAACTTAGGTCATGAAGGAACATTTAAAAAAGATATATCAACTGGAATAAAACTAGGTACGGTATTTGGAAATAACAAAAAAGAAGTAGGAGTATTTACAGGAGGACAAGTAGGCTATAAAGATAAAGCAGAAGGAAGAGCACATTTTGGAGCAAATTTAAAAATGAAAGTAAGAGAGGATATAGAACTAATAATAAATGCCTCATATCAATATATGGATAAAGAAGCTCTTGAATGGTCTGTAAAAGAATTATTAAAGAGTAGAGGAGAGTGGGATAGTAAATTTGAGAAAGATAAAGGAGCATTAAAAGCATATTATCATAGTCAAGGATTTAGATTTAAAGATGGAGAAAACCTATTTTCAGGTATAGTAAATTATGATAATAAGAATTATAAACTACATACAGGATTAATATATACAGCAGATTATGTAACGACTGGAGATGGAAAAAATAGATTTAGATTTGAAAACTTTGCAACAATAAGTACAAGTAAAGGAAAACATGATATAGAGGGTACTATTAACTATAAGTTAAAGAAGGATACATATAAGCATGGGGGAAGATTAAAGTTAGAGTTAAATACATTAAGTAGATTAGATAAGATAGATATACATAATAAGGGAGAGCTTTACTTAGGGACAATAGCACCAAATAAGAAGAATTATTCAATATTATTAGAAAATGGGATTAAACATAAGACAAATAATTTAGAGATAAATACGACATTAAATTCAGGAGTAGTATTTAAGGAGATAGAGAAAAGTACAAAAGCAGACAGTTTAAAAATATTATACAAACCAGAATTAAAAGTTAATGTAAAATATAATAAGGGTAGTATAGATATAGAATCAAAGAATAAGTTAATGGGAAGAGTAGAGACAAAGGGGTAAAAACTAAACCAAGATGAATATGATACTAGTAAGAATAAAGACCAAACAATAGGATTAGCCTATAGTGGGAATATGTTAAAGTATAAGTTAAAAGAGTTTGATATTAGGGCTGTAGGAAAGTATTCGGGGATAGTTAAGATGAAAAAAGGAACTAGTGATGCAGAATATGAGAAAACAGAACATTTAATAGAATTAGGGACAGGTGTAACATATGAGAAGAAGATAGGAAGATTAGATATAAGATATAGTGTAGATGGGAGATATATATTTGGATATGGAGATAAAAAGACATTTAGTATATTAAATCTATGGAGTGATAATAAGGCAGAATATAAATTAAATAATAAATTAACATTAAAAGGAGAACTAAATCTAACTACTTCAAATAGGTTATCAATATTAAATCACAATTCAAATGAAGATGAGCTATTACTATTAGCAGACACAAAGGGGATAGTAGAATACAAACTAAATAACAAAACAGACATTACTTCAACAATAGGAGCAAAGACTATATCACTGTTTAGTGCATTAACTAATAATACCTCTAAAAAGTCTAGCTCTAATAATATGGGTGGACAAGAGAATAAATTACACTTGAAACTACAATATTCATATAAAATATATACTGATAATAAGGTAAAATATCAGTTAAGAGATAATATAGGGATAATAGGAAAATTTGGAATGAGTTATTCAACAGGAATAAAATCAGACAAGCTATATGAAAGCTTAAATAAGATAAAGAGAAACCAAGTAGGAGAAAAGGGGATAGAGGATTTTAGTAAGGAAGATCTTGATATAATAAAGAAAGAAGAAAATGCTTTTGGAAATGATATACAATCATTATTATTAATATCTCCAGAAGCAGAGGCAGAATTAAAGTATATAAATAATAGATTAATAATCAAGCCAAGGTTTGGTATAGATGTAAGTGCAAAGATAAAAAGCAATGAAAACAAGATGGAATACAAAGCAGTAAATGTAAAGACAGGATTAAAAGTAGAATATAGATGGTAGAAAAGAAAGATGTTAGATGGTTTAGGCTATTTAACATCTTTTTTATTCTATAGGAAATTAAAAAAATATCTAAGATAAAAAAATAAAAGAAAATAGTAAAAAAATATTGATAAAGAAAAGAAAAATTAATAGAATAAAAAATAAGAGAACAACAAAACTACCTATCATAAAAATAGGCATAATATATTAATTATAGAACTTATGAATAGGAGGAGAAAGACCATTATCAATAAATAGTTCATAACGTTTAAGATAAATATTACAATGAGGACACATAAAAGGGTCAAAGTCCCAAAGTTCTTTAAAGTTTTTCCTAAATAAAGAAAGAGACTTTTTATTAACCTGAGCTTTAAGATAAAATAGAGACATTTTAACTTTAGAAGAAATTCTTCTAGCATAGAAACCATATCTATTAATCATTTTAAAATACTTTAAAGGTAGATGAAAAAGCACTTTAGCAACAAAATCTTTAAAAGATAAAGTAGAATAAGTAACTTCTTTATTATTACTTAAATCTTCAAATTTAAATGTAAGAGAATTTTTATTAAAATCAATATTAACAATCTTATATTCAGCAATAGGAACTCTTGATAAATATCTACCAAGATATTTAATAATGTATTTAGGATTATTAATATCATTACCAGCTACATTAAAAAATAACCTAACATCATTATCATAAACATTAGATACAGCTTTTTTAGCTTGTATTTTAATAATATCATTAGGATAATTAGCATTACTAATTAATTTACAAAGAGAAAACTTCCATTGATTAGCAATAGAGGGGACATGAAAGTATTTAAGTTCTTTATATTGAAATTTTTTATTAAAACCTCCAAGAGAGATGATGGCATGAATATGAGGATTAAACTTAAGGTCTCTACCAAAAGTATGAATAACAGTAATAAGTCCGTAGTTAATAATATCAGAATTAGTAAAGTAATTAGGATTAGATTTAGGGATATATATTTTTCTTTTAACTTTATCTTTGATATTATGGAATTGATATTTAAAAATATTATTAATAGCTTTAGACATTTTAGAAAGAATAGATCTATCATAAGCAATAAATTTTCTAAATTCTTTAGGGACAGTAAAAAGGACATGCCTATGAGGGATGTTAATAAATTGTTTTAAGATAGAATTAGTCCAATTAACAGAATAGTTATAACCACAAGATGGACAAAGTCTAGATTTACAAGTAAGTTTCATTTTATGTTGAAAATTACAAGAGGAACAACGATAAGAGATAAAGCCTTTAGAGAGATTACCACAGTTAAGAAAATTATGAATGGAATGGTTGATATGTTCAATATGTTTTTTATCAAAATATGGCTTGATAGAATTAATAGAATTTGTTAAAATATATTTGGAGAAGATAGATTTAATTTTATTAGAATTATACATTATATTGACTCCTTTCTGTTATTTGGTTTGGCGATTAAATTATACAGAAAAAGAAGAGGTGATTCAAGAATTTTTTTTGAAATTCTTAATCACCTTTTTTTATTTTTTTATGGTTATATAATTGTAAAAAATGTTATTATTTCTTTAAAATTAAATGTATATATGTTAGAATTAATATAGATTAATTATATGAAAGGTGATTAAGATGAAAATTGCAATAGGGAATGATCATTCTGGTGTTGATTTTAAAAATCAATTAGTAGATTATTTATTATCAAAAGGAATTGAAGTTTTAAATGTAGGAACTGATAGTGCAGATTCTGTAGATTATCCAGATATAGCTAAAGAAGTTTCAAAGAATGTATTGAATAAAAATGTAGATTTTGGAATATTAATATGTGGTACAGGTATAGGAATATCAATAGCTGCAAATAGAATATCTGGAATTAGAGCAGCTTTAGTTACTAATGAATTATGTGCAAGATTATCAAGACAACATAATGATGCAAATGTTTTAGTATTAGGTGCAAGAGTTACAGGAATTGAACTTGCAAAATCATGTATAGATGCTTTTTTAAGTGCTGATTTTGAAGGTGGAAGACATAGTGGAAGATTTTCAAAAATAGAATGTAATTGTGGAAGTGGAGTGATAGATTAATGTCAACAATATTTAAAAAGATAATAGATAAAGAAATTCCAGCTAAAATAGTATATGAAGATGATGAATTTTTAGCTTTTGAAGATATTTACCCAGCAGCTAAAATTCATGTTTTAGTAATACCTAAAAAAGAAATTAAAAATTTAGATGCTGCTACTGAAGAAGATCTAATGTTATTAGGTAAATTACAATTAACAGTGGCTAAGGTTGCAAGATTACTTGGTGTAAATGAAAGTGGATATAGAGTTGTAACTAATATTAATTCTGATGCAGGTCAAACAGTATATCATATTCATTATCATATATTGGCTGGAGAAAAATTAGGAGTAATGGCTTAATGAAAGATGTAATAGTAAGTACAGATAATAGATATTACAAACTGATTAAGAAATTAAATGATAAAAAATATAGGGATGAATCTGGAGTATTTTTAGCTGAAGGAGAAAAGTTTTTAGAAGAAAAAAATAATTTTTCTAAGGTTATAGTAAAAGAAAGTAAATATATGTATTATGAAGAAAAGTATAATATATCTAAATATGAGAATTTAACAATACTTTCTGATAAATTATTTGATAATATTAGTACTCAGAATAATAGTCAAGGAATATTATTTATATATTCTAAACATTTATCTAATTTATCTGAATTATCTGGTGATTTGATAATTTTGGATGCTATACAAGATCCAGGTAATATAGGGACTATTATTAGAACATTAGTGGCTGCTAATTACAGGACACTTATATTAACTAAATCATCAGTTGATGTTTATTCACCTAAGGTTGTTAGGGCTACTATGGGTGGAATATTTAATGTAAATATTATATATGAAGAAAAAGAAAATATTATTAAATTTTTGAAAGAAAATGGATATAATATTATTTCTACAGCACTAAGTAAAGAAAGTATAGATTATAGGGAAGTTGAATTGAAAAAAGACAAAAATGCATATATTTTTGGAAATGAAGGTGGAGGAGTTTCTGATGAATTTTTAGAAATTTCACATCAAAAAGCTATAATACCTATATATGGTAAAATTGAATCTTTAAATGTATCTATAGCACTCGGTATTTTCCTTTATAAAATGAGAGAACTTGATTAAGACTGATTTTAAAACCTTAATAAGTTAAATAAAGAACTTGATATAAAATACAAGTATTTACTTGTATTTTATTTATATCCTACAATTAATAATATTTATGGTTAAATAATTAATACTGAATTTAGATATTAACTATTTGAATATTCAGTGTTAATGTGGTATATTATTAGTGAAAATATTATTTTGTTTGAAAGGATGATACAAATATGAAGGCAGTAGTAGTTAATAAAGAATCAACTGGTGTAGAAATTGTTGAAAAAACATTAAGACCATTAAAAGCTGGTGAAGCTTTAGTAGATGTTGAATATTGTGGAGTTTGTCATACAGATTTACACGTTGCACATGGAGATTTTGGTAAAGTATCTGGAAGAGTATTAGGACATGAAGGAATAGGAATAGTAAGAGAAGTTGCTGAAGGAGTTACTTCATTAGTTCCAGGAGATAGAGTTTCTATTGCATGGTTCTTTGAAGGATGTGGAAGATGTGAATATTGTGTTACAGGAAATGAAACATTATGTCAATCTGTTAAAAATGCAGGATATTCAGCAGATGGTGGAATGGCTGAAGAATGTATAGTTACTGCTGATTATGCAGTTAAAGTTCCAGAAGGATTAGATCCAGCTCAAGCAAGTTCAATTACATGTGCAGGAGTTACTACATATAAGGCGATTAAAGTAGGAAAACCTCAACCTGGACAATGGGTAGTAATTTGGGGAGCAGGAGGACTTGGAAACTTAGCTGTTCAATATGCAAAGAAAGTATTTAATACTCGTGTAATTGCTGTAGATATTAATGATGATAAATTAGCTTTAGCTAAAGAAGTTGGTGCTGATTATGTAATTAATGGATTAAAAGAAGATCCAGTTAAGAAAATTATGGAATTATCAGGAATTGGAGCACATATATCAGTTGTTACTGCTGTATCTAAAGTTGCTTTCAACCAAGCAATAGATTCTGCAAGACCAGCAGGAAGAGTAGTTGCAGTAGGATTACCTTCTGAAACTATGGATGTTTCAATTGTTGCAACAGTATTAAAAGGAATAGAAATTATTGGTTCATTAGTTGGAACAAGAGAAGATCTTAAAGAAGCATTTGATTTCGGAGCTATGGGATTAGTAGTACCAGTAGTTCAAACTAGACCAATTGAAGATGCAATAGATATATTTGATGAAATGGAAAAAGGAACTATTCAAGGACGTATGGTTATCGATTTCAGAAAACATGATTGTGGTTGTGGATGTAAACATTAAGGTTAAGGGGCTAGATTTTTCTAGCCTTTTTTTATTGAATTATATCTTTAAATAATGGTATAATTAAATATATTATCTGAAAGGAGTATTTCATGAGCTATATTAAAATTGAAAATCTAAAAAAAGTATATATAATTGGAGAAAATGAAATAATAGCAAATAATGATATAAATTTTGAGATAAATAAAGGTGAATTTGTTGTGATACTTGGTTCTTCAGGTGCTGGAAAATCAACTTTATTAAATATTTTAGGTGGAATGGATGTAGCCGATTCAGGAAATATATTTATAGATAATAAAAATATTGCTAAATATACTAAAGAAGAATTAACGAAATATAGAAGAAATGATGTAGGATTTGTATTTCAGTTCTATAATTTATTACCTAATTTAACAGCTAAAGAAAATGTTGAATTAGCTTCTGAATTGGTAGAAAAAGATATAGATATTATAGAAGTTCTTAAAGATGTTGGACTTGAAAATAGAATGAATAATTTTCCTTCACAATTATCAGGTGGTGAACAACAGAGGGTATCTATTGCAAGAGCTATTGCTAAAAGCCCTAAAATCTTATTATGTGATGAACCAACAGGAGCATTAGATTTTAATACAGGAAAACAAGTTCTTAATATATTATCAAATTTAAGTTCAAAAAAGAATGTTACAGTAATTGTGGTTACACATAATTCTGAAATTGCAAAAATTGCTGATAAAGTAATATATATGCAAGATGCTAAAGTAAAAGAAATATTAATAAATAAAAATAAATTAAATGTTTCTGAAATAAAATGGTGAGGATGAAATAAATGAAAATATTAAGTTTAGATGGTGGAGGATTAAAAGGAATATATACAATAATGATGTTAGATAAGATTCAAAAGGATTTTAACATTAATTATCATGAATATTTTGATATTATTATAGGGACAAGTACAGGCTCTATTATTGCAACATTATTAGCTTTAGGTGTAAAACCTTCTGAGATATTAAATATTTATGAAGATTGTTATAGAGAAATTTTCAAGAAAAAATCTAATAGACAAAAACCTTTATTTGATTCTTTATATGAAAACTATGGTTTAGAAAATGCAGTAAAAAAATATATTAATGATTTGGGATATAGGAATTTAAAAACTAAGTTAATTATACCAAGTGTTAATTTAAGTGATTCAAAAATTAATATTATTAAAAGTTATGATGAAATAATGAAAAAAGAAAGTGAACAATTTACTTTAATAGATGCAATAATTTCATCATCTGCTGCACCAGGATATTTTGCACCTCATATAGTTAAAAATAAGATGTATGTTGATGGTTCTTTATTTTCAAATAACCCAGCTTTAATAGGTTTAGCAGAATCGTTTAAATTAGGAATAAATGATTTGAAAAAAGTTAAATTACTTTCACTTGGAACAGGTATGGAAGAAGTAAAATTCAGTAATTCAGATATTTCTAATGCTAATATAAAGAATATATTTAAAATTAATTCATTTTTAGATAATATGATAATGAAATTTTTGAAAATAGATGAAAAAGATTCTGGATTAATTTCAATGGCTTTTCCATTGATAAAAACAACAATGAAAACATCAGTAGAAAATACAGAGTACATTTTAGATAAAATTTTAGATGAAAAAAATTATGTAAGAATTAATGACAAGTCTAAAAAATTAAAAATAGATGAAATCCCAACTGAATTGATAAAAAATATAAATGATTACTATATTAATAATCATTATGATAAATTAGAAATATTTTTTAAAGAAGAATTATCTGAATTAGAAATTATTGAGAAAAAAAGTTGGTTTAAGAAAAAAATGTATATCTTAGCAGAAAAAATAAGAAAATTTTCAATGAATTGAGAGGGATATAATGAGAAATATTATAGCAATATTATTTGGATTATTTGCTATGTCGTTGTTTAAGAAAAATAATAATACAACTTTTGTTGGTATATTGTTAAGAATTGTATTTATTGTATTAGGAATAATGTTTTTTATTCCGATAATAGCTTTTTTAATATTTGCAATTTTTATAGGATATATAATTGTTAAGGTTTTAGGTATAAAATTTACGACTAATACATATACAGAAGAGGATTTTTATAACTTCTATGGTAATAGAAATAATGCTAATTTTTATAATTATAATCAAAGAGATGATGAATATAAAAAGGCATGTGATTATTTAGGGGTTAGTACAACTGATTCTTTTGATGTTAAGAAAAAAGCTAGAAATACTATGCTTAAAAAATATCATCCAGATTTTTTTAAAGATGAGAATGAAAAAGAAAAAGCAACTGAAATTACAAATAAGATAAATAATGCGTGGCAAATAATAGAAAAATATGAAGATATAAAATAAGATTTATAAAATTATGCAAATTGAAAGAAGCGATATATAATGTTTACAATTTTAATTTTATATTTATTTTTTCCGATAATACAGTTTATTATGACAATTTTAGTAATTATATCATTTATAAAATACATTTTTTATAATTATTTTAGCTATATCTTAATAACAATTGTAATATCAACTATTTTATCAGTTATAAAGATTTGGTTTGATAAAGAATATGAGAAATATAAAAAGGAAAAAGATGAACAAAAGTAGTTTTAGATATTATCTGAATAGAACTATTTAAAGATGTAATTCAAGTTATGAATAGCTTTAGAGAAGGAATATAAAATAAGGAATATATAATTAGAGGATGGCTGGGCTTTGACTGTTGCTTCAAATTAAAAAAAGCAACTTTCAATTTATATTGTTTCGTCGCTTTGATCATAATCATAAAATAATAAAAGGTATGCAAATCTATGAAGAAAAACATAGGCTGATATTAAAATTAAAAAACTACTATTTTACTGAATAAATTTATTGAAAATAAAACAGAATAAATGAATATAATTGAAATCGTTGTTACAGGATGACAAAAGAAAAGACAAATTACAGCGATTACAAAAATAATAAATACTAATATGTTTTTTAATATTTCATCTAACATTTCCTTTTCATCTTTATTAAGATACATACAATCATCTCCTTTTATTTATTATATCATTTAAGTTATAAGCTTTCAAGAAAGGAGTATATAATATTTATAGAAACTTTTGAAAAATAAATTGATAAATATCTATAGACATAGTATAATAAACAAGTAAATAATAAATATGATATTGAGTTTTGTATTATGGGGGAATTTAGGGGGAATTGAAAAAACAAAAAGGGCTTTAAGCCCTCTATATATGAGTTTTTGAATATCACTGTGGCGTACCTAGTAGGAGTCGAACCCGCAACCTTTTGATCCGTAGTCAAACGCTCTATCCAATTGAGCTATAGGTACATATAAAAAAATGGCGGACAAGGTGGGATTTGAACCCACGATCCAGGTTTATGCCCGGATGCTTCCTTAGCAGGGAAGTGTATTCGGCCTCTCTACCACTTATCCACACTCAATAAGTATACTATAATTTTTTTTTGTTGTCAATAAAAAAATTAATTTATATATAAAAAGAAAGTAGGTTTTATGAAAAATTTAATTGATACTCACATGCATTTATATAGTGAACTATATATAAATAATAGAGAGGAAATAATAAATGATATGAAAGAAAAATTAGATTTAGCTGTTAATATATCATGTGATATGGAAAGTACACTTGAATCTGTTAAATATGCTGATAAATATGATTTTATGTATGCAACAGTTGGATATCATCCATGTGATATATCTAAATTTAATGAAAAAGATTTTGAGGAAATGTTAAATTTAGCAATTAATCACCCTAAGGTTGTTGCAATAGGAGAAATAGGTTTAGATTATTATTGGATGAATGATTCAAAAGAAGAGCAAGAAAAGTATTTTAGACTACAAATAGAAAATGCAATAAAATTAAATATGGCTATAGTAATTCACACTAGAGATTCATTAGAAGATACTATTAAAATAATAGAAGATTATCCAGAATTAAGAGGTATATTTCATTGTTATTCAGGTAGTTATGAAGATATAGAACATTTATTAGATAGATTCTATGTGGGTATAGGTGGAACATCAACATTTAAGAATAATAAGACAACTCATGATTTAATAAAAAAAATAAGTTTGGATAGAATAGTTCTTGAAACAGATTCCCCTTATTTAACACCTGTACCTTTTAGAGGAAAATTAAATAATCCTATTTATGTTTCTTATGTTGCAGAAAAAATTGCTGAATTAAAAGAAATTGATTTAGAAGAAGTTAAAAAGAAAACTACTGAAAATGCATTGAAGGTGTATAATATATGTTTAAAATAGGAATAGATATAGTTGATGTAAAAAGGATAGAAAAAGCTATAATTAAAAGTGAACATTTTTTAAAAAATGTTTTTAGTCAAAAAGAAATAGAATATTGTGAAAAAAAAATAAATAAATATGAATCATATGCTGCAAGATTTGCTGCAAAAGAAGCTTATATAAAAGCTATAGGAACAGGAATAACTGACATAAGTTTAAATAATATTGAAATAATTAATTCTGAATTAGGTAAGCCATTTTTATATGTAAATGGAGAATTAATAGATGGAGATATTTCTTTAAGTCATACTGAATCATTAGCTATTGCAAATATTATATTAAAAAAGTAGCATTTTTATATAATGCTACTTTTAATATCCTTCATAACCTAATTTTTTTGATATTTTTACAGAACAGTCCTTTATTTTTTCAACAAAGAAAGTTTTAGTTTGTTCTTTTTCTGAAAGAGGAATAGAAATACTTAATGCACCACATACTTCAGATTTTGAATTAAATATAGGGCAACCTATACAATATAATCCGAGTTCATATTCTTCATATTCCACTGAATATCCATTTTTCTTTACTAATTTAAGATTATCCATTAATACATCAAGATTAACTATAGTTCTAGCAGTGTATTTTATTTTTTCAGTTTGATTCCATATATTATTTATATCTTCCTCACTGCAATATGCAAGTATGGCTTTACCTGCTGATGTACAATGCATAGGAGCACGTCTACCAATTTTAGACCATTCCATATTATTTGAACTATTTTCAGGTGAAAACTTATCTATATACAATATTTGACTTCCATCTCTAATTACTAAATGTATAGTTTGATTTGTTTCAAAAGCAAGCTTTGTGATATAGCTTTTTGCAGGTTGAGTAAAATCAATATTTTGAATTATTCTATTTCCAACTCTAAACATTTTAAATGTTAAAGAATATAGTCCTTTTTTGTTTTGTTTAACATATCCATTTTCTTTTAATGAATGTAGTATACGGAAAGCAGTGGTTTTATTTAATTTACTTTTTTTACATAAGTCAGATAATGCAAAATTTGTTCCTTGAGATAATATCTCGAGTAATTGCATAGCTCGGTCAATTGATTGTACAGACATATTTGGTATATTCTCCTTTCTTTTTTATTATATCTTATAACTATTCTAAAATCAAGTGTTTATGCATATTTAGTTGATAAACATCTTTAATTGTGTTAAAATATAAAGAAAATGGAGTGAAAAATAATGAATGATTTTATAAAAAAAATAGTGGATAGTAATTATGATGAAATAGTTGCTCATAGAAGATATTTACATGAAAATCCAGAGTTAAGTGAATGTGAATACAATACTTCAAAATATATAGAAGAATTTTTAAAAAAACAAGGTATAGAATATAGGAAAGTAGCAGATACTGGAATATATGCATATATAAAAAATGGTGAAGGTAAAACTGTTGCATTTAGAGCGGATATGGATGCTTTACCAATACTAGAAGAAAGTGATTTTGAGATTCATTCAAAAAATAAGGGTGTTATGCATGCCTGTGGTCATGATATACATACTAGTGTGCAATTAGGTGTAGCTAAAATTTTATCTGAAAATTTAGATAAATGGAAGGGAAATGTCAAATTTTTCTTTCAACCTGCTGAAGAAACTGTGGGAGGAGCTAAAAGAATGCTTGAAGATGGAGTTAATGATGATTTTAAGGCAGATGCTATTTTTGCATTTCATGTTGCCCCAGAAATAGATGCAGGTAAAATAGGAGTTAAATATGGTAAATTACATGCTACTTCATCAACATTTACAATAACTGTAAATGGATTTTCAGCACATGCAGCACTAGCATATTTAGGAATAGATACTGTAGTTGTAGGAGCAAAGGTTGTAGAATACTTACAATCTATAGTTAGCAGAAGAATAGATGCAAGAGAATGTGCTGTAATAACAGTTGGAACATTTAATGCTGGAACTGCTCAAAATATTGTTGCAGATAAAGCAGTATTAACAGGAACTATTAGAACATTGACACTTGATTTAAAAAAATGGATAGTAAATGAAATAAAAACTAATTTACCTAAATTTGTTGAAAGTATTGGAGCAACAGTAGATATTGATTTTAAAGATAGCTATATCCCTGTTATAAATAATGATGAAAAAACAAAATTTTTAGAAGAAAAGGCTATAGACATTTTAGGAATAGATAATGTTGAAAGAATAGAAAAATCTAGGATGGATGCAGAAGATGTTGGATATTTTCTTGATGTAATAGAAGGTTCATTTTATAGATTAGGTGTAAGAAATGAAAAAATAGGTGCTATATATGATCTACATCATCCTAAATTTAAAGTTGATGAAAATGCAATAAGAGTTGGTATGATGGTTCAATTAAAAAGTGCATTGGAGTTTTTGAATGAAAATTAATGATATAATATGTGTTAAAATAGAAAAATTAGTATTTGGTGGAGAAGGTATTGCAAAACATGGAGATTTAGTAATTTTTGTACCTATGTCTGTACCAGGAGATGAATTAAAAGTAAAGATAATATCAATAAAGAAAACATATGCAAGAGGACTTATAACTGAAATTATTAAACCTTCTATAGATAGAATATCTTCTGATAAAATTACTTTTGAAGATTATTCAGGTTGTGATTTTGCAATGATGAATTATGAAGCACAAATAAAAAATAAATCAATGATTTTAAAAGATGTATTTAAGAGAATAGCAAAAGAGGATATAAAAGAAGATATTTATGTTGAAAAATCAGAAAATATATTTAATTATAGAAATAAAGTTGCAGAACCATTTATTAAGATAAATGGTGAGATAAAGACAGGATTTTTTAAAAAGAAATCACATGAAATATTTGTTAGTGATGAAGTAAATTTAAGAGCAAATATTGCAACAATAGTTTTAGATAAATTATTATTAAAATTAAATAAATATAGAGGAACTAAGAAAGAATATAAGGTGTTTAATGATATAACTAATACTGGATTTTTAAAGACTTGTGTAATTAGAAATAATGATATGAATGAAGTTATGTTAGTCTTAGTTGTTAATGGTAAATCTTCTATTAATCGTTTAAAAGAAACTTTAATTGAATTATATAATGAAAATGATGAAATTAAATCTATATACATTTCAGTGAAAAATAAGCTAGATAATGTGATTTTTGGAGAAGAATTTATTAAAATTTCAGGTTCATCATATATTGTTGAAAATTTATTTGGAATTAATTTTAAGATTTATCCTAATTCTTTCTTCCAAATTAATAAAAAACAAACTGAGAAACTATACTTAGAAGCACTTAATTTTCTAGGAGATTATAAGGATAAAAATGTTATAGATGCTTTTTCAGGAACAGGAACTATTGCAATGATAATGTCTAAAAAAGCGAATAAGGTTATAGGGCTTGAAATAGTTCCAGAATCAGTTAAATCAGCTATTAAAACTAGTAATGAAAATAATATAAAAAATGTTGAATTTTTAGTGGGTAAAGTTGAAGAAACTATATCAAGGGTTTTAGAAAATAATAACATTGATTATATAGTTTTTGATCCACCTAGAAAAGGTATAGATAAGTCTATTTTAGAAAAAGTAAATGAAAGTGGAATAAATAAATTAGTATATATTTCTTGTGATCCAACAACACTTGCTCGTGATATTGGAGTTTTAAAAGAATATGGATATAAGTTAGAATTTATAAAAGGATTTGATATGTTTCCACAAACACATCATATTGAAACTGTTGTGTTGCTTTCCAAACTTAAGATTAAAAAACATGTCGATATTGAATTACATGCTGATGAATTAGATTTAATTTCTTAAGAGTGTAAAGTTACTTATAACAATATAAAACAATATGTTTTTGATAAGTATGGATTTAAAGTTTCAAATCTATATATAGCACAAGTAAAAGAAAAATATGGAATTAAAGAAATAGAAAATTATAATAAACCTAAAAATAATGATTCGAAGCATGCAATTTGTCCAATAGAAAAAGAAAAAGCGATAAAAGATGCATTTAGGTATTTTCAGATTATTTGAGAAAGGTTTGATATAGTTATGGATACAAATTATGATTTAAGAGTAAAATACTGGTCTACAAATGATTTAACCATTGGATTTTATTTGAAAAGAATAGAAGAGATTGTTTGTGATTTTGTTATTGATAAAAAAATAGATGATATTAACGAAATTATTGAATTATATAATATACAACAGTTTTTTCAAAATGGAATCTATTCTATACATTGGACAAAACAACAGTTGAACGATTATAGTGAGATTGTAAGTGAATTTTCAAAAGTAATAGGTAAATTTTTTTCGAAAATTAATGTAGATACAATAGAAAGTATGTTTGATACGCTCTATTCTGAATATAGAAATGACTTTTGGAAACTTATAGAAAATTATAAGGTTTATGATAAAATTTCAGTAGATCAATTTAGAAATATAATTTTGAATAAACACTTTCTATTAAATGATGTTTTAAAATGTAAAAATCTAGTTAAAAAGTTTTCAAATGAAATAGTTACATACATTGAAAAAAATCCATTTTGTGCTAAAATTATGTTGAGTTATTACTTGGGAAAACATGACAAAAATATAGAAACCTTATATTTTCCAGTTGAATTATCAAATGAAAAGAAAATATTAATATTAGACAAGTACATAACAAGTAACTCATCTGATATCAATTATTTAAAACTAATTTTTGAATCAAATAGTACAAATAATCTGTGCTTGACAGATGAATTAAAGTTAAAAGCAAAACGAAAATATGATGAGGATATGGAGGGTTTATTAAAAGAAGGAACTGGCTTTAAATATGGAGTACAGGTTTCTTTTTCTAATAAGATAGATGAAAAATTTTCATTTGAAATAGATATTAATAAAATTCTATCGGTTTCGTACAGTGCAAAATGGATAAAAGAAAATTTGGATTATCCAACATTATTAAATAATTTTATTTATTTAAATATACAGATCTGCAATTTAGATCTCTTCATGTTTCTAGTGAAACTCAAATGAGTGCTTTAGAGAGAATCTTAGGAATTAAAGGTAGAAAAGAATATACTACTGGAATTGCATTTCAACAAATTCAAATGTTAGCACAACTTCAAATGATTGTATATTGTAATGAATTAGAAAAGTATAATATATATTTAGAAGACATTATCGAAAGCTTCTTTTGTGATTATTTAGAAAAAGAATTTAATGTAAAAGGATTTAGATTTAATAAATCTTCACATACTGCGTCATATCTTGAAAAATGTAGAAATATTGCTGCTGAATTTGATAATATTTTAAAGAGATTTAAAATTTATTGCAAATACGAAAAAATTGATGATGAATTAATACGTATGTCAACAGAGCATATATTTATTAAAGATATACCAAGTATGCTAATCAATAAGTATATTTATCCATGTGGAGATGATTATAAAACGATAAGTAATTTATTATTTTCAGATCAATCTCCAATTCATTACCTACCTAAATCATTAAATAATTATGATTCATTTTACTGTTTATTAAGAAAAGAAAATGTATATTATGATATGTTTGAAAATCATCAAATATCTATCATTGATTGGTTAATTGATCATAATATTATAAAAATTGATGACAAAAAAAGAATAATACCATATTGGGAAAAGATAAAGATACTAAATGAGTTGTACCAACACGGTGTAGTATGTTTTAGTTATATGAGAAAGTATCAATCTATTATTATGGAATTAAATAAAATGGGGTTGGTAGAGTTTTCATCATCATTATTTTCGAGACCAGAACAGTCTTATTATAATTATTTATTTAATAAGTCAGAATTTGACAATGGATTAGATCTTCGTAATAGATATGTACATGGTACAGAAATAGCAGATGAAAATAAAAATAAATGCGATTATTTTATTTTTCTTCGAATTATGATTCTTATAGTTATAAAGATAAATGAAGAATTTTGTTTAAAGTATCCTAAAAATAAAGAATGCTAATTAAATTGAGTTTTAACATATTTTATTTATTAGTATAGGATGCTTTTGGATATATTGAATGTGTAGCATTACTTTGTAAATAAGATGTAAATTGAGGATTTTAATTTAAATTTACCTTTTAATAATAGTATAAAAGTTTATAATAATCTTGTAATACAAGGATATTATGGAAGGAGTATTTATGATTGAATATAAAAAAGTATCTCTAATATGTTCAAAAGCTGGAAAAATTTTGAATAATCTTAATTTAGAAATTCAAAAGGGAGAATTTTTTGTAATAATCGGACCAAGTGGAAGTGGAAAGACTACAATGTTAAAATTGATTAATAGACTTATTAAGCAAACGGAGGGAGATATATTTTTTCAAAATAAGAATTTAAAAGAATATAATCTAAGAGAACTTCGTTTAGAAATAGGTTATGTGTTACAGCAGATAGCACTTTTTCCTAATTTAACAGTAGAAGAAAACATAGCATTAATTCCAGAAATGAAAAATATGGATAAAGATGTTATAAAAAAGAAAACAATAGACTTATTAGAAAAAGTTGGTCTTGATTCTGAAAAATATATGAAAAGATTTCCAAGAGAGTTATCAGGAGGAGAAAAACAAAGAATTGGTATTTTAAGAGCAATTATTTCTAATCCTGAAATTTTACTTATGGATGAACCTTTTTCAGCATTAGACCCTATAAGTAAGACACAATTACAAGATTTAATTAAAATGTTACATGATGAATATAAAATGACAACAGTTTTTGTAACACATGATATGAGTGAAGCTTTAAAGTTAGCTGATAGAATTTGTATAATGAAAAATGGAGAAATTATTCAATGTGATAATCCTATGGAAATGAGAAATAATCCTATAAATGATTTTGTAAAAGAATTTTTCTATGTAAAGGAGTGTGAATAATGAATATAATCAATGTTTTTTTAGATAAAAAATCAGAATGGTTGTTAGCTTTATTTGAGCATTTACAAATTTCTTTACTATCATTACTTATTGCTATTATTATTGCAGTTCCATTAGGTATATTTGTTATAAATTATAAGAAAACAAAAGAATGGTTATTGCAAGTTACAGGGATATTTCAAACTATTCCATCTCTTGCTTTATTAGGTCTTTTTATACCATTTATAGGTATAGGAACACTTCCAGCTGTTGTAACACTTGTAATATATGCAATATTTCCAATAATGCAAAGTACAATTACAGGATTATCTGAAATAGATTCATCATTAGAAGAAGCTGCTACGGCTTTTGGAATGACAAAGTGGGAAAAATTAAAAAAATATCAATTGGCATTATCAATGGGAATATTAATGTCAGGTGTAAGAACAGCAAGTATTATGATTATTGGTACAGCAACACTTGCAGCTTTAGTAGGTGCAGGAGGACTTGGTTCATTTATATTACTTGGAATTGATAGAAATAATACAGAACTTATTTTTATTGGAGCTATTTCTTCAGCTATTCTTGCGATAATTTTTGGGGGATTAATTAAATTTTTACAAAATAAGAAACCAAAAACTATATTAATGGCATCAATTCTATCTATTATTTCAGTTGGTATAAGTTTTACTCCTTTATCAAGTAATTCAGAAAAAACATTAGTAATTGGTGGAAAGCTTGGAGCAGAACCAGAACTTATTATAAACATGTATAAGTTACTTATTGAAGAAGAAAGTGATATAAATGTTGAAATAAAACCTAATTTTGGAAAAACTAACTTCCTATATGAAGCTTTAAAGTCAAAAAGTATTGATATATATCCAGAATATACAGGTACAGTTATAACGACACTTTTAAAAAATCCAATAGAGAATATATCTAATGATTCAGAAGAAGTATATAAAATAGCAAGGGATGAAATATATAAGCAAGATAATTTGGTATTTTTAAAACCAAGTGAATTTCAAAATACTTATGCTATAGCAGTAAAAAAGGATTATGGACAAATACATGATTTAAATAAAATATCTGATTTAAGTAAAATAGAAAAGAATGCTATGGCTGGATTTACTTTAGAATTTAATGATAGAAAAGATGGAAATAAAGGGTTAAAAAGTATTTATGGTTTAAACTTAAAAGTAAGAACAATGGAACCATCTCTACGTTATAGTGCTATAAATAGTGGAAATGTTGATATTATTGAAATTTATTCTACAGATAGTAAAATTTTAATATATGATTTAAAGATATTAGAAGATGATAAAAAGTTATTTCCTCCTTATCAAGTAGCACCACTTTTAAGAGAAAAAACATTAAAAGATTATCCTGAATTAAAGGATATTCTTGAAAAATTATCAAATAAAATTAGTTCTAAAGAAATGATAGAAATGAATTATAAGGTAGATGTTGAAGGCAAAAGTGCAAGAGAAGTGGCTAGAGAATATTTAAAAAAAGAAAATTTAATAAAATAAGAATAGAAAAGGAGTAATATGTTTGAGGTAATAATTTTAACTGTTTTAGCCTATTTATTAGGTTCTATACCTAATGCATTATGGATAGGTAAAATATTTAAAAATATTGATGTTAGGGAATATGGAAGTGGTAATGTTGGTTCAACTAATGCAGCAAGAGTTTTAGGTTGGAAATTGGGGCTATTTACATTATTATTAGATGTCTTAAAGGGTTCGATTTTTGTAATTGTTGCAAAAAAATTAAATTTAGATGACATTTATTTAGTGTTGATAGGTATGGCAGCAATTTTAGGGCATAGTTATAGTATATATCTTGGATTTAAAGGTGGAAAGGCTGTGGCTACTTCATTAGGTGTTTTCATTATTTTAGTACCTAAGGTTATTTTATTACTATTAATAGTGTTTATTGTTATAGTTTTTATTACACAATATGTTTCTTTATCTTCTATAACTTGTGCTTTTTTGCTTCCAATTTTAGTATATATGTTGTATAATAATGTAGTGTATACTATTTTTGGTTTATTTATTGCTATGATAATTATAATAAGACATAAGTCAAATATTATTAATTTAATAAATAAAAAAGAAGCAAAATTCTTTGATAAAGCTAATAAAAAGTGAGGATTCAAATGAATATATTAACAATTGGTGGAGGAAGCTGGGGAACAGCTTTAACCTATTTATTAGATAATAAGGGGCATAAATGTTTTTTATGGGAATATAATGAAGATTATAGGAAACAAATAAGGGAAAAAAGAGAAAATGAAAACTTTTTAAAAGGATTTAAATTAAGTGAGAGTATTGAAATAATAGATGACTTTAATCTAGTTTTAGAAAATGAAGATATAGATATTATTTTACTTGCAACTCCTACACAATTTTTAAGAGATACATTAAATAAATTAAAAGATGGCATGAAAAAGAAATATATTTTAGTAAATGTTGCAAAAGGTATTGAGATTTCAACTGGATTGACAATTTCTAAAATTTGTGAAGAAATACTTAAAGATAAAGAATATGAATATGTATTACTTGCAGGTCCAACACATGCAGAAGAAGTTGTTAATAATATGCCTTCAGTAATACTTTCGGTATCTAAAAATACTCAATCAGCCAAGATAGTACAAGAAACTTTTAACAATAAATCACTTAGAGTTTATACAGGTAATGATGTTATAGGTTCAGAATTAGGTGGAGCAATTAAAAATTGCCTAGCTATATGTGCAGGTATTTGTGATGGTTTAGGATATGGCGATAATACTAAAGCTGCATTATTAACACGTGGAATGAATGAAATAATATTAATTGGTTCTACACTTGGAGCTAATCCTTTAACTTTCATGGGACTTACAGGTTTAGGAGATATGATAGTTACTTGTACAAGTAAACATAGTAGGAATAGGTATTTAGGAGAACAAATAGGTAAAGGTAGAAAATTAGAAGATATAGTTAGTGAAATGAAAATGGTATCTGAAGGAGCATCAACAATTAAAGCTCTTTATCAAATTATTAAAAAAAATGAAATAAGAACTCCGATTTTTACAGCCTTATATGAATTATTATATGAGAATAAAGATGTAAGTACACTTACTCAAACATTTATGGAAAGAGAATTAAGATCGGAATTTTAATGAGGTGGAGATGAAAAACGATAAAACAAATAGTTCTGATAATAATATAAACCTTATCTCTTTATATATTTCAGATTTACAAAATCATGAATTATTAACATCAGAAGAAGAGGTTGAATTATTTAAAAGAGTTAGAGAAGAAAATGATGAACAAGCCAAACATTTATTAATCTTATCAAATTTAAGGTTAGTTGTATCTGAAGCTAAAAAACTTTTGGGTAATGGTATGCCTTTGATTGATTTAATTAGTGAAGGAAATTTAGGATTAATAAAATCTATAGATAAATTTGATTATACTAAAGGATTAAGATTTAGTACTTATGCAGTATGGTGGATTAAACAAACAATAAAGAAATCTATAGTTAATTTAGGTAGAGATATTAGAATACCTTCATATAAGTATGAACAATTATCTAAGGTAAATAAAGTTATTGAAAGTTACCAAAATGAATTTGGAGATATTCCAACTGCTGAATATATTGCTGAGGTCTTAGGTATGAAACCTTCTAAAGTTGTATTATTACAAAATGAATTTCAAGAAATAATATCATTAAATGATGCTATAGGAGATAATATTTTTTTAGAAGATGTTATAGGACAAAGTGATAATGTAGAAGATGACATTATTAGAAATGATCAATTATCTGAAATGTATAACTTATTTGATAAAACATTAAATCCAAGAGAAAAAGAAATATTAGAGTTAAGATATGGTTTGGCAAATAATAAGATACATACACTAAAAGAAATAGGTGAAAAATTAAGTATAACTAGAGAAAGAGTAAGACAAATAGAGAAAAAAGCAATAACAAAATTAAAGAAAAATTTAGAAGAATATAAATATATGTACTAAGAAGGGGAGTAGTTTATGTTAAATATTAGACTTAACAGAAAAGAATTTCTAAAAAAAATCCAAATTGTAGAAAATGCAATTGTTGATGATAAAGCTAATGGAATAAACTCGGGTATTTTTATAGAAACTCTTGATGATAAATTACTTTTAAAAGCAATGGGAGAGGGCTTATATATCAAAGCTGAAATGCCTTGTGAGATTGTAGAAAAAGGTGAATTTATAATAAAACATAAATTGATGGAAGAATTTTTAAAACAATTAGATCAAGAAATAATTGAAATAAAAGAAGTTAATGGTAAGATTTCTATAATTTCTGGTAAAAGTAGTTCAGAGTTTTCTATTTATGAATATGAGAAAAGAAATGAACCATACATTACAAATGGTTTAGAATTTTCATTTAAAAGAGAAGAATTACTTAATGATTTAGAAAGAGTTAAATTTGCAGCATATTTAAATTTAGATAGATTAGCAGTTAATTGTATTAGATTTGAAATAGATAACCTAGGGTTAAAATTTGTTGCATCTGATGCACATAGATTAATATTTTTAGATAAAAAATTTGAAGAAAAAGCTAATATTGAAACTTTAAGTATAAGCATACCTTTAAGATCTGTTAATAGTTTAAGTAAAATATTAAAAATTATGGAAGATGAAGTATTAACATTTAAATCTGAAGGAACAAGAATATTATTTAAATTTAAAGATGTTGAAATATTAACAAAATTAGTTGAAATGCAATATCCAGATTATAAATCATTATTAAATTCTGTAAGAAATAATAAAAAAGCATTATTAAATACTAGAGATCTAACAAGTATTTTAAAAAGAGTTTCTGTATTTGTTAAAGATAATAATGATAAAAAAGATATTGCTATATTTAAATTTAACGATAATCAATTAGAAGTAGTAGGAAGTAATGATTTAGCAGTTTCACAAGAAAAAATAAATTGTATCTATGAAGGAGATAATTTAAAAATTGCTTTAAATGTAAGATATATACTTGATTATTTACTAACTATATCTGAATCTACAGTACTTGAAATGAAAATGTTTGATGAAAGAACACCAGTATTATTAAATGTTGAAAATAGTACTGAAAGTATATATTTAGTAGCACCTACACAAGTATAATGGTAATAGGGTATTCATTTTATGAATACCTTTTTTATTGATTAAAATTTTTAATAATAAATAAATTATTGACAAAATAAGTCGGGGGTGGGGATAATCTTATAGTAAAAAAATATTAGGGAGAAAAACATGAAAAAATAATATTATTAATAATCCTATACATAGGAATATTATCATTCCCAATAGAATTAACAGGACCAAACTATAGACTAGATCTAAATGTAGCAGCAGGATATAGACCTGATCCACATGATAGGAATAGACCATTGGAATTTAAAGGAGACTTCAATAATGTGGATATAGAAGTGGGCTTTTCACCAGAATGGACACTTAATATTAATAAAAACTTTGAAATAGTATTTGGACCAAAACTTACAGTAGTCCTATTTGTTTCTCATTATTTAAATATTAGTGATGAGCCTGAAAGAGAGATATTTTTTGGAATAAGCTCAGGAGCAAGAGTAGACTTTGATTATATAATAAAGAAGAATATTAAGCTATATGCAGCATTAGAAGCAGCAGCAACAGTTAGACCAGATATACATATTTCAAGTATTTCTAATGATGGAAAAAATATTCTATTAACTGTTCATCCAACAAAAGATTTGCTATAGGAACAAAAATAAAGAGATATAATGTAGGGTTATATACAGGATATGGATTTCATAAGGAATTAGTAGGTGGAATAGAAGTAGGGTATTCTTTTTAGTGTAGGAAGGGAGAAATAAGATGAAGAAAATAATATTAGTTCTATTAATAGGTATAACATCATTTAGTGCACCTATAACTAGACAGATAAATAGAAGAGTAAATGAAGTAAGAAAAGTAGAGAGAGTAAAAAAGTAGAAAAAGTAAAGAAAATAAATAAAATAGAAGAAATTAGGGAAGTAAAAAAAGAAAAAGAAGTAAAAACTAGAAAGCCATCTAAGATAAAGAAACCAAGATATAGGGTAGGAATGGAGATAAGTACATTACCAATATATCATACAAAAACAAAAATGTTTGGATATTATGCCTATAAATCTTTTTCATTTTTACCAGAGTGGAAGATAGATGTTACCAGAGATTTTGATGTAACAATAGGACCAAAGTTTTCAGCAAATTTAGTATTTGGGGTAAATAACAGAAATAGATCAGATTATACACAATTCGTAATAGACAAAGATGAAATAATAGTATCAGCATCAGTAGGAGAAGAAGTAGATTTTAATTATAGACTAAGAGATAATTTAAAGGCATATATAGGCTTAGAAGCACAAGTAGGAATAGGTGAGAGAATATATACTAAGTCAGGACTATATGATACAGGAAAGAAAATTGAGGGAAGCTCAGAAAATGCTTTTAAACCATATACACCTTATATAATATTTAACAACACTCATATTATGTATAGTGGAAAAGTGTCAGCTGGACTTAAGATAAGGGATAAGTATAATATTGCCTTATATGGTGGATATGGTAAGGGTTATTTTGGGATTGAGTTTGGCCAGACATTTTAATATTAAGGATTGTTCTTAAATGGGCAAGCCTTTATTTTTTATATATAAAAAAGTCCCAGAATTTGGGACTTACTACTATAATTCTATTTCATTGTTTTCAGTTTCTATTTTAGGAATTTCATTTTTATTAGATAGGAATTTTTTAAATTCAAATAAAACTACTATAAAAGAAGATAAAGTTCCTAAGAATAATACTAACCATCCCCAAGAATATGAATAAGTTACATTAAGTAATTTTAGTGCAAAATTTTGAGATAATATTTTTTTTACTTCTGTTTTAAGTAGTAAAGAAAGAGTTATTACTAAAATCATATTTAATGTTACAAAAACAATAGAGAATTTTTTTTGTAAATTATCTGATAAATAAAAAGAATAAAGTGATAAAGCTATAATAATAAAAGCTAAAATAGTTGCTTTAAGCCCTAAATTTATAAGTCCTAATGTAAAATATTTAGTATCAAATCCAAGTGGTTTTATTGTAAATTTTAGTAATGGTAACAATGCACTAAGTGATGTAATAATTCCTAAATTTTTTTTAATATTTTTCATAATACTCCTTTCAAATTACATAAACTCAACATTAGAATCTAAAATATAAATCATGTCTTTTCTTTCAACGACTATTTTTATTTTATCTTTAATGTTTTTATCATTTGATATTTTTTTGAATAATTTTTTTGCTGGATTTATTGCAACAGGGTTACCGACCATCTCAAACATTCCAAAATCGCCTGTTGTATCCCCATATGCATAAGAATTTTCCAAATCTATATCATATTTCTTTTCAAAATCTTTTATTGCTTTTATTTTACTTTTACTATCCCACATTGGTATATTTTCACCATTATATTTATTATTTTCATCAAGTAGATATTCAGTTGCTATAAAATCAGTTGCATTTAATTTTTTAGCCATTTTATCAACTAAAAATGATGGTGAACCAGAAATTATTATTATTAGATGACCTTTTTCTAAATGATCTTTTATTTTATTTCTTGAGTAGGCATACATTTTCTGAGCCCTATTTTCTATAACTCTTTGAGCTACATAATCTATATCTTTTTGCTCAACATTTTTTATACATTCTATATATATATCAACCAATTCTTCAAGATAGTCATCATAAGTTCCCTTTCTCTCTTCCCACATTTTAAACTTTTGCCTTATATCTCCGAAAAAACTTCCTTCATCAATAAATTCAAACTTAATTAACATTTTAAAATGTTCTATTAGTAGAGAATTTCTAAAAATTGTACCATCAACATCAAAAAAAGCTGCAATTTTTTTCATATATATCACCTTTAATGTTTTTTAAAAGTATAACATATGTTTATATTAAAAGCAAATTATATTATAAATAAACAAAAATTGAAAAAAATAGCAATTTATAGTATAATTTGAATGTGAGGTGATTATTTTGAAAATTAGAGTTCATGAAGATATGAATATTGATGAAGTAGTTGAAAAATATCCTATAGTTTCACATATTTTGATGCGTTATGGCTTAGGATGTTCAGGTTGTATAATCTCTACTGCTGAAACTATTGGAGAAGGTATAGAATTACATGGTTTAGATGCAGATATAATACTTGAAGAGATAAATATGATACTTGAAATGGAAGAAGAAGAAAAGAATAAGGAAAATGCGGTCTAATATGATAACTACAGGTGAAGTGATTTGTAAATATCTAAAAATTAAAAATATTAATCAAATATTTTTAGCAAAGAATTTAGGAATAACACCACAATATGTAAATGGGATTATTAAGAATAAAAGAAGTGCTTCTAAGAAAGTAATAGATAAAATTATTAAATTTTTGAAAATTTCAGATGAGGATATTGATATGATTAAGAAATATGAAATTTTTAAAAAAACAGGAGTTATAAAAAAAGAAGCAGTAAATATAAAAATTGAAGCTATATACACAGATTATGGTTATGTAGAAGAATATAAAGAAGGTTTAATTATCTTAGAAGAATTTGGCGATATATATTCAGATTGCTATATAATAAGAATTGAAACAGAAAATCTTAATAAGTTTTGTTATGGTGATTATGTTGTTATAAAAAAAGAAAAAGATATATTAACAGAATATTTTAATAAATATTTTTTAGTTAAAATTGATGATGAAATTGATTTTTGTAAGATAGAAAAAATTGATGATAAATTATTATTAACTTATTTAAATAAGAATAAAGGTAAAAAGATAATAAGAGTTAATAAAAAAATAGAGATTATTGGGACTATTATTGGTAAGTATAGTCTATGGAAGGAATAAAATGAGTAGAAAATATTTTGGAACTGATGGAATAAGAGGAGAAGCAAATAAGGATTTAAGTATTGATTTGGTTACAAACTTAGGATTAGCATTAGGATATTATTTAAGAAAAGATAAAGAAGAAAATGAAAAAACTAAAGTAATACTTGGTACAGATACAAGAATTTCTGGATATATGATAAGATCAGCACTTTCAGCAGGATTAACAGCTATGGGAGTTAATGTAGATTTTGTTGGAGTTTTACCTACTCCAGGGGTTAGTTTTTTAACTAGAACTTTAAATGCTGATGCAGGTATTATGATTTCAGCTTCTCATAATCCAATTAAAGATAATGGAATAAAAATATTTTCAAATACTGGATTTAAATTAAGTGATAATGATGAATTACAAATAGAAGAATTAATGGAAAATAGAGAAAAATTAATGGAAAATCTAGTTCATGGTGAAAAACTAGGTAGATTTATCTTTATAGAAGATTATTTAAGAATGTATAGAAAATTTTTACAAACTACTGTTAAAAATGATTTTAAGGGATATAAGGTAGTTATAGATACTGCAAATGGTGCAGCATATAGAGTAGCTGCTAAGGTTTTACAGAATTTAGGAGCAGAAGTTCAGGTTATTAATAATATACCTACAGGTAAAAACATTAATGTTGATTGTGGTTCTACAAATCCTGAAAAACTATGTAAAGCTGTAAAATTATTTAATGCTAATATAGGAATAGCATATGATGGAGATGCAGATAGGTTAATAGTTGTAGATGAAGAGGGAGAAATATTAGATGGAGATATAATAGTTTCTATACTTGCTCTTAATTTACAAAAAAAAGACATGCTTAATTCTAATAAAGTTGTGATGACAGTTTTATCAAATATGGGTGTTGAAAAATATCTTGAAGATCATGGTATTAGAATGATAAGAGCAAATGTTGGAGATAGATATGTTTTAGAAAAAATGAGAAAATTAGGATTAAATCTAGGTGGAGAACAATCGGGACATGTAATAATGTTAGATTATAACACAACTGGGGATGGGGTATTAAGTAGCATTCAATTAATGCAAGCATTTATTGAATCTGGTAAAAAATTAAGTGGACTTAGAAAAGAAATTAAATTATGGCCACAGGCTATGATAAATGTACCAGTTTTAAAAGAAAAAAAGAAAAATTGGGATAAAAATCAAAATTTAATTAATTATATAAATGAAAAAGAAGAAGAAATATTAGGAGAAGGTAGAATTTTAGTTAGACCTTCTGGAACAGAGAATTTAATAAGGGTAATGGTTGAAGCAAGAACTAAAGAAACTATGGAAAGAATATTAAATGAAATAGTAGAAAAAGTTAAGGAAGAATTAGCATGAAACATAAGAAATTCGCACAGATATATGATGAATTTATGAACTTTGTTGATTATAAATCATGGTTTAAATTTTTTAAAATCATTTTCAAAAGGAAATAAGTTAAAAGTGCTAGATTTAGGTTGTGGTACAGGAACTATAGCATCAATGTTTTCTAAAGAAGGTCATGATGTAGTTGCAGTTGATATTTCAAGTGATATGATAGAAATTGCACAGTCTAAATACGAAGATTTAAATATAAAGTTTTTAGTTGGAGATATTACTAAAGAGCAATTTGGAAATGACTATGATTTAATTATGTGTAATTTTGACACTGTAAATTATTTTGATGATTTGAGTTCTTTTAAGTCTTTTTTGAAAAATGTAAAATTAATTTTAAAAAATAACGGTATTTTTATATTTGACATAGTAGAAGAGGGAATATTTGATGAAATGTTTGAAAATGATTTATTTATTGATGAAACTGATGAATACTTATGTATAATGAGGCATGAAAAAATCAAAAAATTTAAACATTTAGTTGAAATGACAATATTTGTAAAAGAAGATGAAAATTTATATAGAAAATATTCGGAAATACATAATAAAATAATATATGATACTGATTTAGTGTTGGACACTTTAAAAGTAGAAGGATTTAAATTATATGATAGTGCAAGAAATTCTGAATATGGTGAATCAAGACTATTTTTAGTATGTAAGAAGTAGGTGTATTATGAAAAATATAGAAGACATGAAAGAATTTGAATTTAGTGAATTATTATCTAAAACTAAATTTAATTCTACTACTGAAGAATCAAATAGTAATAAAAGAATAGATGAAGATGGAGATGAGATTAGAGAAGAATTTCTTGAAGAGGTTAAAGTAGAAAGAGATTCAAAATTACATAGATATATATCTTTTGCTACAGGGTTTGTATACACTATTTTATCCCCACTTATTTTACTTTTGGGTATATATTTTGCAGCTGAAAATATCTTTTTGTTTAAAAGGAACAACTTAGTTATTATTTTACTTATATTAATTGGAATTTTAACTGGGTATTGGACTTTGTATAAAGATATTAAAAAGATTACAGCTAAAAGGGAGAGAAAAAATGGAAATAAAAATAAAGAAATTAAATAGTAATGCAATTATTCCAACATATGGAACTGAATTTTCAGCAGGTGCAGATTTATACTCATGTATGGATGAAGATTTATTAATTAAAAGTGGAGAAACAGTTATGATTAAAACTGGGATTTCACTTGAAATACCAGAAGGATTAGTAGGATTAGTATATGCTCGTAGTGGACTGGCATATAAAAAGGGGATTGCTCCTTCAAATAAAGTTGGCGTAATAGATAGTGATTATAGGGGAGAGATAATGGTTGCCCTGCATAATCATAGTAAAGAAGATTATGTGATTGAAAGATTCGAAAGAATAGCTCAACTTGTAATTACTCCATATATTAAGGCTGATTTTATAGAAACAGAAACATTAAATGACACTTTAAGAGATAAAGGTGGGTTTGGAAGTACAGGTAAAAAGTAAATAAACTATACTTAGGTATAGTTTTTTGCATATGTAAGGAGTAAATTATGGAAAAATATATTGTCGATGTTGCTGGTATGAAAATTGAGCAAATAAAAGGATTACAGTCTTTTACACTTGATTCTCTGTTGATTGCTGATTATGTTAATATAAATAGGAAATCTAAAAAACTTCTTGAAATAGGTTCAGGATTTGGAATAATTTCCATGATACTTAGAAAAAGAACATTAGCTGAAATTACAGGTGTAGAAATTAATTATGATGCATATAATATATCTTTAGAAAATTTGAAGAATAATAATATAGATAATATTTTTTTTATAAACGAAGATATATTAAATTATAGGAAATTTTTATCAGAGCAAACATATGATATTATAGTATCTAATCCACCATATTTTACTCATAAAGATGAAAAACAATTAAAGAAAAATATTAATTTAAGAAATGCAAGAGTTGAAAGTACTTTAAGCATAAAAGAGATATTAAATATATCAACATATTTGTTAAAAAATAATGCAAGTCTTTATCTAATTTTTAGAACAGAAAGGCTTTCAGAAATAATAGAGTTATTAAAAGATAGTTGTCTTGAAGTTAAAAGAGTTAAACCTATATATACTAAAATTGATGATGATAAATCATTAATATGTATGGTAGAAATAGTTAAAGGTGCAAAAAGTGGTTTTATATTAGAAAAACCAATATATGTTTATAAAAGTGATGGTGAAAGAAGTGAATATATTGAAAAATTATATAGATAAATTTCCTAAACATATTGGAATAATAATGGATGGAAATGGTAGGTGGGCTAAACAAAGAAATTTGGCAAGAACAGAGGGGCATAAGGCTGGTGCAAATAAATTAGAAGAAATAATAGAATGTATTATGGATTTAGATATAAAATATTTAACAGTTTATGCTTTTTCTACTGAAAACTGGAAAAGACCAAAACTTGAAGTAACAGCTATTATGAAACTATTTACAAAATACCTTAAGATTAATGAAGAAAAATTTATGAAAGAAAAAATTAGAGTATGTATTAGTGGTAGTAGATCTAATTTATCTTCATCACTTATAAAACAAATTGAATATATTGAAAATTTAACAAAAGACAATGATAAATTGGTGCTAAATATAGCATTTAATTATGGAGGTAGATTAGAAATTATAGATGCTTTAAAAAAAGTTGTAGCTAAGAATTTAGAGATAAATGAAAATAATATTTCAAATAATATGTATAACAGTTTTATACCTGATGTTGATTTAGTTATTAGAACAGGTAATGACTTTAGAATAAGTAATTTTTTACTTTGGCAAATAGCTTATTCAGAAATATATGTAAGTGAATTACTATGGCCTGATTTCACTAAAGAAGAACTACATAAATCAATATTTTCATTTATAAATAGAGAAAGAAGATTTGGAGGGATAAAATGTTAAGCAGATTATTTGTTATAGTACTAGCACTACCTTTATTAATATATATTTTACTTTCTGGTGAAGTATCATTTTTAGTATTTAATGTAGTTGTAATAGCAATAGCATTGCATGAATTTTATACTATACTTAAAAATAAAGGAAATATTGTATATTATAAAACGGGAATATTAATAGGAATGTTTTTACCTATTTTCATATATTATAGAGAAGACATTAGTTTTTTCTTTAGATATATAAAAATATTAAATAAAGAAAATATTATATTTGATGTTGGAGGATATATCATTTTTGCTACATTACTTATAGCGATTATACAAATATTATCATCAAGAATTAAAAACTCTACTAATGAACTGATGTTGACATTATTCGGTATAATTTATATACCTTTATTTAGTTCATATATGGTATCTATTAGAGAAGGTCTTAATAATGGTAGAATTATATTACTATATTCATTTTTTAGTATATGGGCAGCAGATACATTTGCATATATAGTTGGTAAGTTATTTGGAGGTAAAATATTCAAGAAAAGATTATCTGAAAAAATAAGCCCTAAAAAATCTATAGAGGGTTTTTTTGGAGGGATTTTAGGAGTGTTTATTGTAGGTCTTTATTTTGAATATATATATAACGTTTTAGTGAATATATTATCATATTTTAAAATATTAACTTATGTTGAAAAAATTGATAAAGTACTTATTTCTCAAAATGTAATTAAGTTATTTATTTTATCTATATTAATAGCTATATTTTCAGTGTTAGGGGATTTATTTGAATCTAAATTTAAAAGAGAATTTGGAGTTAAAGATAGTGGTAGAATATTAATGGGACATGGAGGTTTTTTAGATAGATTTGATAGTGCCTTATTTGTACTACCTATAGTTTATTATTTTATTAAGTATTTTATTTAGGAGTAAATGATGAGCAAAAATTTTATAGTAGAAATATATTTTAAAGATGATATAGAAATTGAAAATATTAGATATGATGAAATTAATGATTTCCTAGATAAAAACTGTAAAATTATAAAAAAGGATTATATTTTTTATGAAAATGTTAAAATAGAACAGTATAATCCATTTAAACTATATTCATATATCAAATATGAAGTTGCAAACTTTGATAAGAATATAAATACGCAACTTAGCTTATTTTCTGAAATAAAATTAGTAAAATCTAAAACTAAATTAAGTAATGAGGAAAAAAATAATATTAATGTTTCTATAGAACAAATAAATAATATAATAGAAAAGATTGATGATATTTATTTTATAAGAAAAAGTTTAAGTAAATTTACTAAATATATAGATGATAAGAAGAAAAATGATTTTTTAAATGAATTAAAATTGTTATCTAGTTTAAAATACGATTTAAAACGTGAAACATTTTCTTTAAGAATAATAGATATTAAAAAAGAAATGAATGCAATAGAAAAAATAATAAAAGAATACATTTCTTTATTAGGGCTAAATATAAAGTTTAGTATTAATCATAATGATATTAAAATAGATAAAACTATGTTTTATAAAATCAAAGAATCTTTAATTGATGTGTTACATAATTCTGTTTTATCTTTTTTTGAAACTAAAAATTCAAATATTAATGTTAAAGAAGTATACACTTTAGAATTAAACTTAAAGCAAGAAAAATATAATTTAATTATTGAAGTTGTTGAAAAAGGTAATAGTTTAGATATTAATTATATATATAACAATGCACTTAAGGCAAATATATTAAATAGAAATGAAACATATACTGATAAAGATATATTATTAAGTATATTAAATAAAAAATATATTAATGCCTTAGATGATTTAGATGAAAAAGAAAAAATAATGAATTTTATTAAGATAAATAATGTTATAGAAGAATTAGATGGAAAAATAGAAATATCACTTGTTGATGATATTATGAGATTTAACATTAATATACCATTTAAAATATTGTTTATTAATGGTTTTGTTTTTAGTGAAATGAATAAAACTTATGTTATAAATACTGAATATATAGTTGATACTTTTGAATTTGATAATAAAAACGTAAATAGTTTAAATGGGTATAATTATTATAAATACAAAAATAATAATATAGAATATATTAAATTACCTATAGAAAGCGAAGAAAAAGATAGATTGGGATTATTAATAAAAACAAATAATAAATATACAGTAATAGATGTAAATAGAAAACATGATTTTGAAGATATTTTCTTTAATAAAGATGAAAAATCAAAAATATATATGGGAGAAGTTCTTTTAAGAACTGTTAAAAAAGCAAAAATATTAAATATAGAAAGCATAATTGATATGTTGAAAGGTTAATATGAAAATTAAATATATAAAAGAAATTTTAGATAAAATTAATCAAATAGAAAAAATATTAGTACAAATTCAAACTCCAAAAGAAGAAGAATTTGCATATTTAACTAAAATTATTAATGAAGTTGAAAATAAGATATATTTTTTAGGTAATAATGAAGATATTGATGTAGCTTCTACATTAAAAAAAGTATTTGTATATATTGAAAGATATCCTTATCAGTTTTTTATATTTAAGCATTTAATTTTTGAAATATTATTAAATTTTGAATCACTTTATAATTTATATAACACTAATGATATAGAAAAAATAAAAGGTTTAAGAGATAAATTAAATGTTAATATATTTGATTTAAAAAAAGAATTTGAAATAATAAATAAGAATAAAAATTATTATTATATTAATTTTACTTTAGATAGAAACATACCTTATTTTTATCTTTCAAGACGTAATATTTTATCAAGATTAAAAGAATATGGTAAGCCATATAACTATATTCCATTATCACTTGATGATGATAGATATACATACTTTATACTTGATTTTAAAATAGAAAATAATATAGATGTTTTATCATTACTTGAAGAAATTAAAAATGATGATGAAGCTATACTTGATTATAAGATAAATAAACTTGAAAATCATAAAAATATATATAATGTTAAACTTTATTTAGATAAAACAAATAATGAAACATATATAAATATTTCAGAAAAAATTAATAAAGAAATTTTACTTGATATTATACATTATGAAAATATGTATGATATTTATTTATATGCTAAAAATCAATTAGAAATACTTAATATTATCAATTCTATTAATAATGAAAAAATATATTTTGTGTTATCTAAAAATATTAACAATAGAGAAACAAAAGGTATAGCAGTAAATGGTATTAATGTAAATAATGTGGAAAAAATTAGAAAATTAATTTCTATAACTATGCTTGATAAAAAAATTTTAGATATACTATACCGTGATTTTGTAGATTTTATTGGTAAACAATTTTTAGAATATTTGAAAGAAAATTATAATATAGAAAATGGGAAATACATAGTTTAAACAGTGCAATTAAATTGTATTTAACATATATTTATGGTATAATAATAAGAAAAAAAGAGGTAATTAATGAGAACTAATAATAGAAAAAATAATGAGTTAAGAGAGATAAAAATTACTAGAGAATATATAAAATACCCAGAAGGTTCAGTATTAATAGAATTTGGAAATACTAAGGTAATTTGTAATGTTACTGTAGAAGAAAAAGTACCACCTTTTCTTAAAAATTTAGGGCAAGGTTGGGTAACTGCTGAATATTCAATGTTGCCAAGAGCAACTAATACAAGAAATAAAAGGGAAGCAAGTCAAGGTAAATTAAGTGGTAGAACTATGGAGATACAAAGACTTATAGGAAGATCATTAAGGGCTGCACTTGATTTAAAAAAACTTGGAGAAAGAACACTAATAGTAGATTGTGATGTAATTCAAGCTGATGGAGGAACAAGAACAGCTTCAATAACAGGAGGATATTTAGCTATGGAAATAGCTATTAATAAGTTAATATTATCAGGTTTATTAAATGAAAATCCTATCAGGGCAAAAGTTGCAGCTATAAGTGTAGGAAAGGTTAATAATGAATTATTTCTTGATTTAGAGTTTTATGAAGATTCACATGCTGATGTTGATATGAATATAGTTATGAATAGTAAGGGAGAATTTATAGAAATACAGGGAACAGGTGAAGATACTACATTTACAAAACAAGAATTAGATAAATTTATTGAACTTGCAAGTTTAGGTTTTGAAAAATTATTTAAATTATAGGAGAAAAATGGTTAAAATTGATATTCTGGATTTATCTTTAGATGAACTAGAAAAGATGTTTTTAGAGTTAGGTCTAAAAAAATTTAATGCCTTACAGGTTTATCAATGGTTACATAAAAAATTGGTATTTAACTTTGATGAATTTTCAAATATTTCCAAAGAAACTAGAGAATTACTTAAGGAAAAATTTGAAATAGGAACATTAAAATATGTTACACATCAGACATCAAAAGATAAAGAAACAGTAAAATTTCTATTTTCATTGCCTGGTAAAAAATTGATTGAATCAGTTTTACTAAAGTATAAAAATAGATATAGTATATGTGTTTCATCTCAAGTTGGTTGTCCTTTAAAGTGTGATTTTTGTGCAACAGGTATGATGAAGTTTGAGAAAAATTTAAAAGCTTCAGAAATATTAATGCAGTTTTATTATTTACAAAATTATTTGAAAGAAAAAAATGATAAAATATCTAATGTTGTATACATGGGTATGGGAGAACCATTTTTGAATTATGATGCAGTTAATAAATCTATAAATATACTTAATTCAAAAGAAGGACAAGCTTTTTCTAAAAGAAATTTCACTATTTCAACTTCTGGATTAATTAATGAAATAGATAAATTTGTTGAAGATCAAAAACAAGTGGGACTTGCTATTTCATTACATAGTGTTAATGAAAAAAGAAGAAGTGAATTAATGCCTATTAATAAGATTAATCCACTAGATAAATTAAGGGAATCATTATTAAATTATCAAAATAAAACAAAGAATAGAATTACATTTGAATATATATTAATTGATGATTTTAACTGTGAAAAAGAAGATGCTGTGGCATTAGTTAAATTTATGAGATCATTTAATCATTTAGTAAATTTAATTCCATATAATAAAGTAGCTGGGAAACCATATAAAACTCCAAGCTTACAAAAACAAAAAGAATTTTATAATCACCTATTATCACATAAGATAAATGTTACTCTTAGAGAAACTAAAGGTGAAGATATTCAAGCTGCCTGTGGACAGCTTAAAGTGAAAAAAGAGGAGATTAATAATGAAGAAAGTAATTAAATATTTTTCAATGCTTATAATAAGTTTATTTATTATGGGATTTATAGGTTTATCTTATATAGTTTATGAAGTTAATAAAAATTACCCACCTGAATTAATAGAAAATTATAAACCATTAATACCATCAACAATTTATGATATTAATGGTAATCAGATTGATTTGATAACTATTGAAAGAAGAGATCCTATAAGTATAAGTGAAATTCCTAAGATGGTTCAAGATGCTTTTATTTCTGTTGAAGATAAAAGATTTAGAGAACATAATGGACTTGATTATATTAGGCTTACTAAAGCATTAATATTAAATGTTACAAAAACAGGTCGTGAAGGTGGTTCAACTATAACACAACAATTAATTAAAACTATATTTTTAACACCAGATAGATCTTTAAAAAGAAAAGTAGTAGAAGCAGTTTTAGCAACTAGAATGGAAAGAAAATATACAAAAGATGAAATACTTGAACTATATTTAAATACTATAAACTTTGGAAGAAGTTCTTATGGTATTAAAAATGCAGCTAAAAATTATTTTGGTAAATTACCTTCAGAATTAACTGTTGGAGAAGCAGCAATACTTGCTTCAATACCAAAATCACCTGCTAAATATTCAAAAATAGAAAATGCATTAGAAAGACAAAAAATTGTATTAAGTTTAATGTATAAAAATGGTGCAATAACTAGAGAAGAATATGAAAATGCAAAATTAGAAGATATAACTTTTGTTAATTTAGATACTAAACATTTATCAGATGATGAAAGAATATCTAAATCTAATATTTCACCAGAATTTACAACTACAGTAATTAATGAAGTTAAGAAAATTCTTCAAATTGAAACTGAAGAAGATGAGAAGTTATTATTTAATGGATATAAGATTTATGCTACAGTTGATATTAATATGCAAAAAGCAGCATATAAAGCATTTGCAAGTAATAATAATTTAAGAAATAGAAAAAACTTAGAAGCTGCTTTAATTTCGATTGATCCAACTAATGGTTTTGTTAAAGCTATGGTTGGGGGTAAAAAATATCAAAAAGGTGATTTTAATAGAGCATTAAATGCTAAAAGACAACCAGGATCATCTTTTAAACCCTTTGTATATTTATCTGCTCTTTTAGATAATTATACTATGGCAACTACACTTGAGGATTCACCAAGTACATTTGGTAAATGGACACCTAAAAACTATGATTGGAAATTTAGAAATAATTTGACTATTCTTAAAGCATTAGAAATATCTGATAATGTTGTTGCAGTTAAAGCTTTAGATTTAGTAGGTCTTAAAAAGTTTAATTCACTTTGGGAAAGTTTTGGATTTTCTAAAAAAGATATACCACAAGATTTAACTACATCTTTAGGATCAATAACACTTTCACCTATAGATATGGCAAAAGCTTATTCTATAATAGCAAATGGTGGAAATAAGGTTGAACCTCAATTTATTTATAAGATTGAGAATAGATTTGGAGATGTAATATATGAAGCAGATACAACTAAAGAAAAAGTTTTAGAACCAGAATATGCAGCATTAATAACACATATGATGGAATCAGTTGTTAAAAATGGTGGAAGTAAAGGTGCACAATTATATGCAAAAGGTGAAGCTGTGCCTGTAGCAGGAAAAACAGGAACAACAAGTGATTATATCTCAGCATGGTTTACTGGATATACACCTACTTTAGTAACTGTAGTATATGTTGGAAATGATGATAATAAATCTATGGGACGTGGAATGAGTGGAGCAAGTGCTGCACTGCCTATATGGAAAAACTATATGCAAGCTGTTGTTAATTTAGGAAACTTTGATATAGGAAGATTTGAATTTATCAAAGATGGAATTATGTCAGAAAAACTAGTAAAAAAAGTTATAGATTTAAGATCTGGTTTACTTGATAGCGATGGATTTAATGCTAGAGAAGCCTTATTTATTGCTGGAACAGAACCAGTTGAATTAGAAAATATTATATATGAAGGATATTAAAATAGAATATCATTAATGCAAATTTTGTGTTAATGATATTTTTTTGTTTAAAGGTCTTTACATTTTAATCATAATATGTTAGTATATGTAAAATAACGAGATAGAGGTGCAAAATTCAAAAGTAAAATTTATGAGCTCGTCAAGGCTGTGATTAAATTTAAAAGGGAAGATTGCCGAATTTATGTAATTGACAATTACATAGGTGGGATTACAAATAATATTTGTAATACTGTCATTATGAAACATAATGTTGTGCTATTGGTTAGTATATTTAATTTTTTTATACTTACTGATAGAAAACTATCAGTTTTTTTATTTAGAAAGGAAAAAATATGAAAAAAAGAATTTTATTATTTATTTTATTAATGTATTCTAGTTTTTCTATAAGTATGGAAAAATTAAGAGTTGGAATGGAAGCTGGATATGCACCATTTAATTGGTTTCAAAGTGATGATAGAAACGGTGCAGTAAAATTAAAAAATGGATATGCTGGTGGATATGATGTAGAAATAGCAAAGATTATTGCAGAAAAACTTAATATGGAATTAGAAATAGTTCAAAGTGATTGGGATTCATTATTAGGTCCTGCATTAAATTCTGATAAAATAGATGTTGTAATTGCAGGAATGTCGCCAACTAAAGAAAGAAGAGAAAATTTAGAGTTTACAGATCCATATTATGAATCGGATTTAGTAATAGTTATAAAAAAAGATTCCAAATATTTAAATGCAAATAATATACAGGAATTTTCTAATAGTAAATTAACAGCACAATTAAATACATTCCATTATACTGTATTAGATCAAATAGAGAGATTAAAAAAGGAAAATGCAAGTGAAAATTTTTCAAATATGTTAGTAGCATTAGAATCAGGTAAAATAGATGGATATATTTCTGAAAAACCTGGAGCTTTATCAGCTAAATTATCTAATCCTAATATATCATTTGTTGAATTTGATAAAGATAATGGATTTAAATACGATAGAGATGATGTAAATATTGCAATAGCTTTAAAAAAAGGTAATACAGAACTTAGAGATAAGATTAATAAGGCATTATCTGAAATTTCTGTAGAACAAAGAGAAGAAATAATGAAAAAGGCTATAGCAACACAACCTAATCAAGGTTCAGATGAACTACCAAATAATTTTCTTTCATGGATAAAATATTTCATAGTTAATTATTGGAAAGATTTCTTATACGGTACATTAACAACTGTTAATTTATCTTTAATAGGTACTTTTTTCGGATTCATAATAGGATTAATATTATCTTTATTAAGAGATGAAAGAAATGTTAATAAAAAATCATGGTTATCAATAGTAATATATAATATTTTTAAATATTTTGTATCAATATATGTAACATTTATTAGGGGAACTCCTATGATAGTTCAGGCTATAATATTCTATTATGGATTTTCACAAATAACTGGAATAAATATTCCGGCATTAACTTCAGCATTAATAATAGTTTCATATAATACTGGAGCATATATTACAGAAATAGTTAGAGGTGGAATAGATTCCATTGAAAAAGGTCAATATGAAGCAGCACAAGCACTAGGTATGAATCATTTTAATATTATGAGAAAAGTAATACTTCCTCAAGCTATTAGAAATGTATTACCATCTGTTGCAAATGAATTTATTATTAATATTAAAGATACTTCGGTTCTATTTTCTATAGGAGTTACAGAATTATTTACTACTTCAAAATCTATAGTAGGATCACATGTAAGATATTATGAAGTGTTTGTTATTACATGTGCAATATATTTTGTTTTAACTTATTCATTATCTAAGTTATTTAGATATTTTGAAAAGAAAATGGATGGAAATAAAGAATATGAGATTGAGGGATAAATATGAGTATAATTAAAGTCGTGAATTTAAAAAAGAGTTATGGTAAAAGAAATATATTAAATGGTATAAATCTTGAGGTAAATGAAAGTGAAGTAGTTTCAATTATTGGATCTTCTGGCTCGGGGAAATCCACTTTATTAAGATGTTTGAATCTACTTGAAACATATGATGAAGGTAGTGTTCTATATAAAGATATAGATATAAATGATAAAAAAATACTACTAAATGAATACAGAAGTAAAGTTGGTATGGTATTTCAACAATTCAATTTATTTAATAATTTAAATGTACTTGAAAACTGTATGTTAGCACAGGTTAATGTCTTAGGCAGAACAAATGAGGAAGCAAAAGAAACTGCAATAAGATATTTAAAAAAAGTTGGTATGGATAAATTTATTAATGCAAGAGTTAATCAATTATCTGGTGGACAAAAACAGAGAGTAGCAATAGCAAGAGCACTTTCTATGAATCCAGAAGCTTTATTATTTGATGAACCTACATCTGCATTAGATCCTGAAATGGTCGGTGAAGTTTTAAAGGTCATGAAAGAATTAGCAGAAGAAGGTTTAACAATGATAATAGTAACACATGAAATGGATTTTGCAAGAGAGGTTTCTGATAAAATAGTATTTATGGATAAAGGAATCATTCTTGAAGAAGGACATCCAGATGATATATTTACAAATCCTAAAAATGAAAGGACAAAAGAATTTTTATCGAGAATATTAAAATAAATATTTGAAAATTTTATAAGAATATCTTGTATAATTTGGTAGTTTAAAAAATATAGTTAAAAAAGAAATGAGGTTAATATGAAAAACACTAGATCATTATTTAACATTGTATTATTTATTATATTTTTAACAACATCAAGTATCTTTGTTAAAGGGCAAAATATAATTCCAGAAGGTTTAAGGAAACGAAGTGGTATAAGCTATGAAATAAAATCTGTATATCATGGAATAGGAAATCAAAATAAAAGTAGTATTAGTATAGGAACTAAAACAGAACATGGTGGAGAATATTCAGTAGCAATTGGAGATAATAGTTCAAGTGAAGGATATGCTGCGATAACACAAGGATATGAAGCAAAATCTGATGGATATTCTTCAATTTCATTAGGATATAAAGCATATGCTGGAGCAAATTATGCGATAGCACAGGGATATAATGCGAAAGCTGAAGGAGGAACCTCAATATCAATAGGAAGTGATTCAAATTCTAAAAGAGCTTTTTCAGTATCAATAGGAAATGAATCAAAAGCAACTTCAGAACATTCGGTAGCAATTGGTTCAAATAGTGTTACGAATAATAAAGTATCTGTAAATACAGTTACATTAGGAGAATTAACACTTAAAGATTTTGCAGGTTCAAATCCCCATTCAGTATTATCTATAGGAGCTACAGGAAAAGAAAGGCAATTGCAATATGTATCAGCAGGGCAAATAAGTAGTAAATCAACAGATGCTATAAATGGTTCACAACTATATGCAAGTAATATGATTATGTCTAATATAGCAGATTCAATTAAACTTATTCTTGGAGGAAATGCAAGTATAAAGGATAATAAAATTACTATAGATAATATAGGTGGAGTAGGAAAAAATAGTATACATGAGGCAATGGTAGAATTTTTAAAAAAGAATGAAGAAATAAATAAGGAATTAAAATCATCAAAAGATGAGTTAAAAAAATTATCAGATAATACAATGATAATAAGTGGAGATAAAGGAAATACAGATACACAAACTTTAAGTAAAGATGGAGGTCTTAAATTTTCTATTAAGGGTTCTGAATATATTAAAACAGAAGCAAAAGGAAGTGAAGTATTATTAGATTTTACAGATAAAGTAAAAAGTGATATATCAAAAGGAGTAGCAGCAAATAGTGGAGTTGCTAGTGCAGTAGCAATGGCAAACTTACCACAAATAAGTAGAATAGATGATAGGAAACATAATGTAGCAGGAGCATACGGATACTATAATGGAGAACATGCCTTTGCATTAGGTATGTCAGGCTTAAATGAAGTAGGAAATGTAATATATAAGGTAAGTGGTGCATTTAATACTAAAGGAAATTTATCATTAGGAGCAGGACTAGGTTATCAATTTGGAATTAATGGTAAGGAAAAAACAAATGAAATTATAGTAGAAAGAGAAAATATAATAAATAGGGATGAGTTAGATAAATTAAATGATTTAAATAATAAATTAAATCAAAGAATAGATGAACTTGAAAGAAGATTAAAAGCATTTGAAGATATTAAGATAAATGAAGATGAACTATATACATTAACTGGATATAAAACAGGTAAATTTGAATTAACAAATTCACAAGAAGAGATATTAAAAGATATAGTAAGAGAATTAAATGAGAACTATAGAAATAGGAAGATATATATAACAGGATATACAGATACGATGTCAAATGAGGATTTAAATCTTGAGTTAGGATTAAAGAGGGCAAATGTTGTAGCTAAGAAACTAAGGGCGTTAGGATTAGACATGAGTATAAGTATAAGGAAGGTAAGTTCATCAGGATATAATAACATAATAGAAACAAATAAGAGTTCAAGTGGAAGATCTTCTAATAGAAGGGTAGAGATTGAATTAAGATGATTTTTGAAAATACAGATATTGACAATATATTGCACCCAAATTCTTGGAAATAAGATATGAGGGTGCAATATTTAATTTATTGATAGATATCTTTCTTTCTTGTTTTTTTAAAAAAATTATGTTAAACTATTATAAATGGCTGGGTGGCGAAATCGGTAGACGCAGCAGACTCAAAATCTGCCGAGAAATCATAAGGGTTCGAGTCCCTTCCTAGTCACCATTTTTTTTTTGAAAGGATGATATGATGGAATTAAAGTTGACTAAAAAAGAAATAGAACTATTTGATAAAAATGAAGAATTAATAAGAATGAATTTAGTTTCAAAAGCTATATATAATGAGAGCTTAAATTATGAGTTTACTGAAATGGATAATAAAAATATATGGTTCAGTGAAGAAAATTTGGTTTTAGAATTATATATGAGAAAAAAAGTTGAACCAAGAGTTATGGTAAATGAAAATTCTATTATAGAAGTATATAATAATAACAAAGAATATTTTGAAAAAAATAAAATACCTTTTAATGAAGCAAGAGAGATTATAAAAAATGATTTAACTGAAGAATCAAATTATGCTTTATTTGAAGATTTAGTAAAAAAATTAATGAATGAAATGGATGATAATGTTGTTTTATCAAAAGAAGATATTCTATTTACTAAAGGAAATGAAAATCTAATTAAATCTATATTATTAATAAATGTATTGAAAGAAAATGCTAAAAAAGATAATTTCTTTAAGGAAAATAAAGAAGAAATAGAATTAATAAAAAAAGATGCTAGACTAAATTATTATTTAAATAAATTAATCGAAGAAAAAGCTGTAATATCTAATCAAACTGTATTAGATGAGATGCAAAAGTTCTCAAAAGAAAATTTTAATGCAGTTAAAAATTATTCTCAAGAAGAATTATTTAAATATGTTGGAGATAATTTATTAAATGCAAGAATCTCAGAAGTGAAAAAAGAAGTAATCGATAGAGTAATTAAAGAATATAATATAGAAAAAATTATAAAGGAATATACAAAATAGATATATGAAATTTAGAAATAAAGAACTTTGGGAATATTTTTTTGATAAACCTAAAAAACATTATAACATATATATGTATGAAATGCCTAAATATCCTAATCATTTAATATTTGATGATGAAGAAATTTTGAACGCAAAAGGTATGTGGAATGAAACTTATTTTAAGAATAATAATGAATTACATTTAGAAATTGGAAGTGGGAGTGCTAATTTTACAAATAATAAGGCTCTGCAAAATCCTGATATTAACTTTTTAGGTGTTGAATTAAGATTAAAAAGATTAGTTCAAGCTGCAAGAAAAGCAGAAAAAAATGAACTAAAAAATTTAATATTTCTAAAAAAGAGAGTAAGTTCTCTTCAAGAATTTATAGGAGCTAATGAACTTTCTGGATTGTATATAAATTTTCCAGATCCTTGGGAAAATGAAGAACATAAAAGAATTTTTGGTCCTAAACTTTTAAATGATTTAGATGTAGTATTAAAATCAGGTTCAAAGATATATTTTAAAACTGATCATTTAAATTATTACTTAGATATTTTAGAATTAATAAAAAATAATGAAAATTATGAAGTTGTTTATAACACTGATGATTTATATAATTCTGAAAAAGCTATTGATAATATTAAAACAGAATTTGAACATTTATTTTTATCTAAACATAATATGAATATTAAATATATAGAAATAGTAAAAAAATAATGTAGTAAAGATGTACCTAATAAGGTACATTTTTTATTTTTCAGAAAATAAATTAAAATAAAATTAAAAATTACTTGACAATAAATTTAAAAAAATATATAATAAGTTATCAATTAATGGAAGGAGGTTAGTTGAGAATTTTAGGAGTTAATTGAGAAATAAGGGGGAGAGTTATTGGAGGTTATAAAGCAGACAAATCGTGCATTACTGTTTGAAAAGTTTAATGATGAAGTTTATGATATATTAACTTTAATAGGTGATGTTGAAAATATTAGTAGTTTAGATGATGAAAAAATTCAAGAAATAAACAAACATTTATTAGTATCAAATTTTAATGAATTTTTAGAAAAATTTGAACCAAAAATTTATTCGTATATGGATGTTGAAAATAAAAGAATAGGATATACTCTTACAAAAAATGAAAATATTCCTGATTCAATGTATACAACCATATATATAAATAATGAAAATACTTTCATTAGAATGTTATCAACATTAATTGAAAATAGAAAAAACTTAGATAAGAAAAATGTAGATTTTCAATTTGAAGATATTTTAGAATTAATATCACCAAGAAAAGTAATAGAAAATATAAAACAACAAAGAAAAGAAATTAATTATTTATTTGCTAAATATGAAGCTTTAAGTGATAAAAGTCCTAAAAAACTTGATGTTGGTGATTTATTGAATTATAAATTTCAAGAAGCATCAAAAAACTATAATAATATATTAGCAATGTTACCACTGGCTATAGAAGATATAAAAACAAGACTTGAAATCGGAGAAAATAAGGAAAATGTAAATGTTGAAGAAATTAAACTTGGTTATTTAGAGTTCTCAGATGGTGGAGAAATAGAGTTTATAGAAGATCAATTAGAATTAGAAACAACAAAACTTTTACCAAATAATAGTCAAAAATTATTAGAAATATTTGAAAATGATTATTATGAAAGTATTGAAAAACCAAATAATTATGTAGCTAATTTAATTAAGAGAACATATGTTCCTATAACAACAAATAATCTTAGTATTGATTTTGAAAAAGAGGCAAATAACTATAATCAATATTTAGAACTATATAAAAATTCACAAGAAGATTTTATTAAAATAGCTAAAGAATTAATAGAAAAGGTTATGGGGGTTAAATTATTCTTTGATCAATATTCAGTAAATACTAAAAATATGCTGCCAAAATTACTGATTACTAATGTTGACAATGAATTATTAATTCAGGCTAAAAACAGAGAAAAAATTGAAAAATATTTGAGAACTGTTAATGATAAAAATGAATTTGAAAATACTATATGGTTTGCTATTTTTCCTAATATATCTTTAAAAGATGATTTCAAAAAAATTAGTAAAAATATATTTGCTGGTAATAGTGATACTAGATCTAAAAAAGTAAATACTATACAAGATTTATCGAATTTAATGGAGATACTATATCTACATAAAATTCAAACCTTTATTAGTTTTGAGAGAAATAATGAAAATACTTTTGAAAATCTTGCAATACATGGAATTAGTAAATATATTGAGAAAACACAAACTTTAGAAGGTAGTAAATTTTCAGAATATGTTATACCAGTTTTACCTAATCTAACTTTAATACCTAAGGATAGATCGGGTATTAAAATTGATAGAAAAGCTATAATAAATGAAAATGGAATATCTTTTAATGATGAAGATAATTTAGAATTTTTCTTAGATGGAATTTATGTAGATGGAGCATACATAGCTGCTGGATTAGTGGCATCTTATCAATGTCCTGTATATTTAAAAGAAAGATTTAAAAATGTATCAAATAATCCAGGTGTTAGATTTAATATAGAAGCAGAAGATAATTCATTGATCGTAAGAACAGTAATGGCACGTGAAATTAGTGGATTTACAGTTGGCATAAAAGAAGAAATAAATAGTAAAAATTATGGATTTATTTTTGCATCAGAACAGGCACAAATAAAAAATGAAAAAATAAAGAATATAACAGTATATAAGGCAAGAAGCTTATATAAAACAAGTAATAATAATTATGAAAGTATATATAAGACACTAACAACTACATATATAGAAAGATTATTAAGATTTATGAGTAATGATTTTAAATCTGATAAATTAAATTATTTTTTCAGTAATAGTCCAAATAGCCAAAAAAGTATTTGGTTAAAAGAATCTACAACTGTTAATGCTATATTAAGACAAGGTGATGATATATCACATATAATAGATGAACAAAACAATACTTGTCAATTGAATTTAGTATTCCTTGGAGAAGTTAAAAATCTTAAAATTGAAATAAATAAAACTAATTAAAACTGGAGGAGTTAATGGGATTTAAATTAAATTTAAAAGGAAGTAGTGAAGAATTTACTATAGAACAAGAAAATATTGTAAGTGTTAAATTTTTATCAGATACAAATGATAGCTCTAATGCAAGATCTACAGATTTAAGTATTGGTTTTGAAATAGAAGGTAAGATAATACCAAGTATAGGTCAAAATGAAATAGAAGATCCAACAAGAAAGCTCTTACTTTGGTCCTTAGTTAGTGCAGAAGATTTAGAAGCATATAAAAATGTAACTCTTGAAGTAATTTTAGCTGGAAATGTAGTTAGAAAAATAAATTTAACAAATGCATTTTTAATCGATTATAATGAATACTTTGATGAAAAAAATGGTAATGGAATGTTCTTAGTTAAAATTAAACAGAAGAAGGAAAAAATAAAAGAAATAGTTATTGAAGGTGGATATCAGAAATAAGGGGGTTAAATGTTAGAAAATGAATATATAGTACCAAAATTTTCTAGTAGAACTGTATTAAGAAGTGTAGATTTATTTGCTATAAATCAAAATATAAATAGTGCTAGCTTTTTAAAATATATTGATTATGAAGAAGGGGTAATCTTAGGTTTACACCCAACAACTAATGGAGAAAAAATATTTATAGATAAAGGGATATATAAATTTGATAATGAAGTAATATTTTTAACTGAAAAAATTTCTATTGATATACCTGATGATGAAGGTGAATTTATAGTATATATAATGGCAGAAGATTATGAAGAAGAATATACTAAAAATAAGAAAATTTATTTAAAAATAAGTAAGGATAAAGAAATTGATTCTACAGAAGTTGTTAGATTTAATTTGAGAAAAGGTGCAACTTTAAAAAATTATGATTATGAGTTAAAAAAATTTTCAAAAGAATATAATTCCTTGAATATAAATGAAGTTAGATACTCTAAAACAGGTATTAATCCGAAATTACTTAAAATATGGTCTAAAAAAATGATGGCTCTTAAACTTGATGAAAGTATGGATTTATGGATATCATCTCTATGTAATATAGAAACAATTAATATTGAAGTATTGAAAAAATATATTTTTACAAGACTTAAATTTTATAAAGAAAAAATGAGCAATACAGAAATATTAATTAAACTATATGAAATACTAAATATATTGATAGAATCTAATAAAGAATTTGACTTCGATAAAAAAGTAAAAGTAGAATAATATGATAAAATTGTTTACTAGATTTAAATTAAAGCTATTTAAATATATTATGTCAAATTCAAAAATTTATGGTAAAGTTAGATTCCAAAAGATTAATTCTTATACACAATATATGGTAATTTTGATTATTTTATTAATACTCTCTATTATATTTATATCAATTAAATTTTCATATAAGATTTTACTTATTTTTTATTCCTTACTTAATGTATATATGCTATATTTCTTTCTTTTTTATTATCCCTATGAAAGAAAAAGAAATATTAGATATATGAATAAGATTTTACAAGAAAAAAAAGAAGAATATATAAAAGAATTGAATGAAGAAAAAATAAAATTAAATATAAATAATATAAAATTACTCACACTTAAAGATGATTTTGATTATGATATATATTCTTGGGATATTGAGAATAAATATTCAATAGTAATAGGGAAGAAATCTGAAAAAAATTCTGATATAGATATAGATTTATCTAATCATGAATATTCACATTTAGTAAGTAGGATACATGGTTTATTAAATAAGGTTGATGAAAAATGGTATTACGAGGATTTAGGCTCTAAAAACGGAAGTGGAATAGAGAGAAAAAATAAGATAAAAGAAAAATTAGTAGCTAATAAATCATATTTAGTTGAGGCAGGAGATATCATATATATTGGTGTTATAAAGATATTGGTTAATTAAGGTGTGATTTAATGAAATTATTGAAATGTAGTAATGGACATATGTATAATACAACTAAGTATTCAAATTGTCCATATTGCGATGGAAATAAAATAAATATTGAAAAAGAAGAAGAGAAAAAATCAATAATATTGGAAGGCGATACTAAAACATCAGTTTTTTGGATTAAAGAAACTAATGTATCACCAGTAGTAGGATGGTTAGTATGTATTTCTGGTTCTGAAAAAGGAAAAGACTATAGATTAATAAATGAGAGAAACTTTATAGGAAGATCTTCAAAAATGCATGTATGTATTGAAAATGATCAAACAATAGCAAGAAAGAATCATTGTTCTATAACATATAATCCTAAACAAAGAGTTTTTGTAATATCTCCAGGTGAAAGTAGTGGATTAGTATATTTACAAGGAAAAGCTTTATATGAAAGTAAACAAATTTTAAATTTAGATATCATAGAAATGGGGGAGAACAAATTCATATTCGTAGAGCTTTGTGGTGTGAATTTTGACTGGAATTATTAATGGATGATAGAAAGTTAAATATTTTACCCTGTTCTATAAATGAAAAAGATACTCATTTTGTATATTATGAAACTGAAGAATTTACAATATGGGTATCTATTTTTATTGAAGGTGAAGGTAAAATAGAATTATTTGATAGTTTAATTGAGGAATTAATTTTTAGATTTACAGAAAATAGTATATTTAGTGCAAAATATATAAAAAAATTAATTACAGAAATACTTTCAGAATTTGATGATAGAATAGTAGTAGAAAATACTGAAAACTCTAAAATATATTTATCATGTATGTTAACAGATTATTGTAATGTAATTTATGTTTATATGAAAGATTATTTTTTTAACATTAAAAGATCTAATGAAATATTTTTTAAAAATCAAATAATTGAAAATAAAGATTTAATTGGATATACAGAATTATTTCCATTAAAAGAAAATGATTTAATAGAAATATATATAAAAGATAAAAAAATTGTAGAATTTGAAATATTGAAAACTAATCAAATATCAAAGTTCATAAATAACAATTTTTTTATTAAATTTTTATTATTATCTCTAATTGTTTGTATATTTGGATATTTCATATTATCTAATGTATATATAAATAGTAATTTTAAGAATATTGAAAATATGTTTGATAGAATAAATAAAAATAAATATAATTATCCCTCTAATGAGAATATATTAATTAAAATTGAAGATAAATTGAGGTTAATGGATAATAAATATATTTATTATTCTAATAAAAATGTGGCTAAAAAAGAAAAGCTTAGAAATAAAATAAGTGAAGAAAAGAAAAAGAATGATATTTTTAAAAATGTTTTTGAAATTAAAGAAAAAATCAAAAAAATGATAAAAAATAGAGAGTTTTTAAAGGCTAAAAATGAATATATAAATATAAGAGCTAAGTTAGAAGATGTTTCACCTGATTTATTATTAGATATAAATAAAGATATAGATGATTTAGATAAATTAATAATGGAACAAAATAATGAACTATTCTTAATTGAAGAAGATATTATTAAAAATACTAATATTTTGGATAATTTAATTGAAAAATATAAAAAATCAAAATTTGAGATAGATATTAAAGATTTAGAAGATAAAAAAAATAATAATATAAAATTATTAGATGATTTAAAAATAAAATTAGATAATAGATATTTGAAAATTGATGATATATTAGAAAAAAATATTTTAGAAGGATTAAAAGAAATAATATATTTAAAAAATGAATATGATAAATTAAAATTTAGTAAAGAAGTTGAGTATTTGAGTAAAAGAGAACTTGAAATATCGGATAAAATATTAAATTTAGAAAATGAAATGAATGAATTATATAATAAGCATAAAAAATATTATGATATCAAAGAATATACAACAGCTATATCATTTCTTGAAAAGGCACTTTATTATGCTAATTTATTACATAATAATAACAAGATTAAAGAGTTAGAAGGTAGAATCAGATTAATTTATAAGCAAAAGAGAAAATTGGAATTAGAAAATAAAAAGAAAATTGAAAATCCAAAAGAGAAATTAAGGTTAGAAAATGAAATAAGACAGAGTATTAAGCTTTCTATTGAAAAAGGTGATGAATTATTAAAAAATGATGAATATGAAAAAGCGTTTATAGAATATAAGAGAGCTATAGAATTAATGGATAAAGTAAATTATTCGAAAAGTATAAAAAAAGATATAGATAAAAAAATGGAGTATATTAAGAAAAAAAAGAGTAAAAAATGGTGGGAATTATGGAAATAAAATATTATAAAAAAATATTTAATATGAATTTACCAGAACAATATATTATGTTTAATTATGAAATAAATAATATGATATTTTTGTTAAAAAATAAAATTTCTTTTATACCTAAAATATTAAAAGTTAAAATAACCAAAAATAATAAAGAAATTTTTTATGAAAGAATAGTTGGTAAAACTCTTAAAGAGATGAATATATTAAATTATTCATTGAAAGAAAGATTGAAGATATTTAATGAAATTATTGTTGCAGTAGAAAAGATTCATAATTTGGGTTTGATACATAATGATATTAATTTAGGAAATATAATTATTAATGAAAATAATGTATATATTATAGATTTTTCTGAATCAAGATTTATAAATAACAAATATGATAAAAAATATTTTTCATATACTAAAGGTTTTTCTTGTTTGGAAAAATATTCAAATAATGAAAAAAATTTTATTGAAAATGATACATATTCTTTAACTTCCATATGTTACTATTTGGTTTTTAATAAGATTTATCCTAATATTTGTGATTCAAATTATATTAATATTATTCATTCAAATAAAAAGCTGGAAAATTTTTTAAAAAAAGGATTATCTTTTACAAAGTATAATAGATATAATAATACTCTTGTTATGAAAGAAATGATAAGTGATATAATTGAAGAATTACAATAAAAATGAATTGATAATAAAAAACAATTATGAATTATATGAAATAGCAAAGAAAGAAAATATTTTAGGTAAATATAATTTTGACATAAATAGAGATAAACTTATAAAAAATATATTAAAAAATAATGAGTATAAGTATAATAAAAAAATAGAAGAATATTTAGAAACAGGTTATTATTCAATACAAGATTTTTTTGAAAAGAATTTAAGAGTATTAGAATTTGAGAAATTTGACATAGTTATAGAAGATGTAACTATTTATAAGGAAATAACTAGTAAAATTATTATAAATATAAATAAAAATAAGAATTTAGATTTAAATATAGTTTTTTTAGTTAATGAATATAGATATATCTATGGTATTTTTAGCAGTAAAATTTTAGATGTAAATTATGATTACTATAAATGTGAATTAACATTAATACCTGAATTAAATAGATTTATGTCTGAATACAATAATGAAAGACTTTTCTTTTCATTTTTTGAAGATAGCTCAGATTTATATAATATTTACTATAATAAATATAAAAGTGAAGTATTAAATGAAAGTATTTATGGATATATAGCTCCTATTATTAAATATAGAGTTATACATAAAGTTAATAATATTGAAAATATCTATGTTAAATTAGGTATAGATAATGTTAGTTCTAAATATTTAAAAGAAGATTTTTGTATTGATGTTTCAAATTTAGAAGATAATATTTCTTTAAATTATGGAACTGAAGCTAAGGAGATTTTAAAAGAGAATAATTATAAAACAAATAGAAGCTTTTTTACTAAAATAGATGATGTTATTTATAATAATAACAGTTTAATAGTTATAAAAGATGAAAATTTAAATAGTAAAATGATAAGTTTTAATGAATTATTTTTAAAATTTATGAAATTTTATATAAATAAAATAGAATATCAGATAAAAAGTAAAATAAATAAGGTGTTCATATTAAAAAATGATAATGAAAATATAAATAATATTTTGAGTTATGAATGTTATCATAATTTAAAATATTTTATTGGGAAAGATAGAGAATACACATATATATTATCGGACTTTAAATGTTTTAAAATAATTTTTGTTAAACATAATGTTATAAACAATAAAATTTCATATAAATTAAAAATGAGTGAACAAGTAATACACGAGAATATATATTTAACAGAAATGATGTTTTTAAATACTATAATGGAATATATTTTAAATGATAAAAAATCTTTATTTAATCATGAAGGTAATATATTTAATTTTATGAAGGATAATAGAAATTTTGAAATAAAAATATCTAATGATTATTCAATTTATGTAAGAGAAGAAGCCAAAAATCTAATGAATATGTACTATAATAATGAATGTTTTGATTATAAAAAAGATTTAGATGACATAATTGTTTATCTTTCATTTAAATCTATTTACGATTTTTTTGAGAATTTTAAAATACTAGATATACTTAAAAAATTTAATGATATAAAATTAAATGGTAGATTAGTACATACTAAATATTTTATTGAGGTTTTAAAAGAATTTATCCCAGGTAAAATATTAGAGTATAGAAATACAATAAATGAAAAAGAAATATTTGATATAATAGATGATTATGAAAGTAAAAGAGATAAAGGAAACCTTATATTAGAATACAAATACATAGAGCTTAAATATGATATTAATCTCTCATATATTAATTATTTAGGAGAGAAGATAAAAATAATATCACTTTATGAAAATAAAATTAATTTTATAGATAAGGATAATAATACTATATTTATCGAGATTATTATAGAAAAAATTTATCAATATAAAAATAATGAATTATCTAAATTAATTATTAATTTTCCACATGAGTATATTGAACTTGATGAAAATGAATTATTATATACAGATGAATTAGGAATAAAAGATTTTGAAATAGATGAAGTAATTAATGATGTAGTAAGAATATTTTTATCATTTGAAAGTAAAAATATCCTTAGATTATGTTTTGTAAAACGTATAGAAGACCAGATTTTCTGTTCTTTTGACAGTATTAATCTACCCTAAAAATTGACAAATATAAAATATGTGTGTTATACTGAATTAATTCAGAAACGGAGGTACTATGAAAAAAATACTAACAATATTTTTATTGAGTTTAACTTTTGCTTCAGTTAAAGATAATGAAAATATTAATAGTAGTCATATTGAAAATGTTGAAGTCAAAAAAAATGATATTAAAGAATTAATGTCTGAGTTAAAGGAAAATGAATTTGACATTAACATGGATGTAAAAGAACAAAGTCAACCAGTAGAAGAAGAAATGATAGAAACTGAAATTTATCAAACTGGGATAGCATCATATTATGGTGAAAGATGGAATGGAAGAAAAACTGCAAATGGAGAAATATTTGATACATGGAAAGTTTCAGCAGCACACAAAAAATTACCTTTTGGTACAAAAGTTAAAGTTACAAACTTGAGTAATGGTAAATCAGTAATAGTTAGAATTAATGATAGAGGTCCATATATTAAGGGTAGAGTTATTGACTTAAGTAAGGCAGCATTTAAAGAAATTGAAAATTTTGATAAGGGTATTACTAAAGTTAAACTTCAAATAATAAAATAAGAGTTTGTAGACTTTGTTTAAAATGACTATAAAATAAATTCGAGATATAAGAGTCCAGGTTATCTGGACTTTTTTGATAAAATTTTAACTTGATTTTAAAACTTCGATTTTATTGAAAATAATATATATAAAATGTTAAAATTTATATAGAAGAAAATATTAATAAAATACATATAATAATATTTTTAAATGTGATTACTCTTATGCCTTAAAATATATGCTATATAAAGCGTTGTTTTATGAAAAAATAAATTAATTAAATTGACATAGATATTTATTTCACTGGATTAATTGGATATAAAAAATATTTTATTTGTTTTACTATATGAAACAGCATTATTTTTAAAGTAATGTTCTTGTAATTTTATGTAATATTTTTGAAAAACAATAAAGGAGGTTTTTAAGATAAAAATTATTTTTATCTTTAATAATTATGATTAAAAAATTTAATAAAACATTAATCAAATTAAGTAGTTTGCTACTGTTATCAATTTTAACAATTTTACCTATGTTTAGTTTAGGTAATAATAATATAGAAGCAAGAAAAAATAGCGTCTATACTTTAACTAAAGAGGAATATAAGAAATTATCAGCAGTTCAAATGGCTAAATTAGTTAAAGAAAAAAAGGTAACTCCTAAAGAGTTGATAGATTTAGCTTATGAAGTAATAGCTGAAACAGATCCTATTTTGAATAATATAATCAAACATGATGGAAGTTCAATAGATGCTAAATTAAAAGAAAGAGCATATTTAGAGGCTGAAAATGTTAAAAATATGGATAAACCTTTCTATGGAGTTCCAATATTAGTAAAAGGTATAACTTTTGAATTAAAAGATGGAGTTAATTCTCAGGCTTTAGTATATAGAAAAGACAATATATCTAAAGAAGATAATGCTTTGGTTAAAATGTTTACTGATTTAGGATTTATACCTATAGCACAAACTACTATACCTCAATTAGGTTGGATAAATGTAACTAACTCTGATTTATATGGTGTTACTAGAAATCCTTGGGACACTACTAAAAATCCTGGAGGTTCATCAGGTGGTACAGCAGCAGGGGTAGCAATAGGTCAAACTGCAATAGGTACTGCAAATGATGGAGGAGGATCTATTAGAATACCATCATCATTTTCAAGCTTAATAGGATATTTCCCTACAGGAGGGGTTATTAAAAACAATTCTGCTTCTGAAGGATTTAAATTAGAAAATTTCCTTATAGCTGAAAAAATGGAAGATGTTCTAGCTATAGCTAAAGCTCTTCATAATCCAGAATATAAATTAAATGATAAAAAATTAAGTAAAGATAAAGTTATAGCTTATACTACAAAAACTCCAGCTAATACTCCTATAAGCCCTGAAGCAATAATGGCAGTTGAAAATGCAGTTAAGTTTTTAAGGGATATGGGTTATACATTAGAAGAAGTTGATTACCCTATAGATGGAAAAGCTATGATGATGGCATATTATACAAACGCTTCATATATAGGAAGTAGAGTAGGTAAATTTGCAGAAACTTTATTAAATAGACCTTTAGAAATGAATGATGTTGAATTATTAACTTGGGCTTTATATCAAGCTGGTAATAAGTTAAATAGTGAAGATATAAATAATACAAAAGAGGTACTTAAAGGATTTAGAAAAACAGTAGATGAATTTTTTGATAAATATCAAGCATTCATAACACCTACAACTTCTTATCCAGCTCCTTCAGCAGATTATAATCATATACCAGAAGAATTAAAAGCTAAAATGAGAGATATGTCTGATTTAACAAAAGAAGAAGCCATACAACTAATTTATGATCAATGGTTACCTGCTTGGACTATTACACCATTTACTCAATTATCAAATGTAACTGATACACCAAGTATTAGTATACCAACTCATTTAACTAAAAATAGATTACCACTAGGAGTATTGATTTCAAGTGGAAGATTTGATGATAATATAATATTAGAAATAGCTAAGTTATTTGAAGATAATAATAGATTTTTCTTATATCAAGATTACGAAAAATAGAAAAATAGGGACAGCACTTAGTCCCTATTTTATTATTTAGTATATTTATCTATCCAATTTGTGATTTCTTCTAATCTCTCAATTCTAGCTTTAGGTTTACCACCTCTTGAAAGTCCATGAGATTCTCCGTAAAATAATACCATTTTAGTATCTACATTTCTATCTCTTAGAGCAGTAAATAATTGATATCCTTGATCTACAGGACATCTATAATCTTCATTTGAATGTATTATTAAAGTTGGAGTTTTTGCATTTTCAATATATTTTAATGGTGAATGATTCCAAATTTTTTCAAATCCTTTTTCATTAGGTAATGTAGTATAGTTTTGATCATCTGAGAAATAATAACCAATATCACTAATACCATACATAGAAATCCAGTTAGATATAGATCTTTGAGTAGCAGCTACTTTAAATCTATCAGTATGTGTAATTATCCAGTTAGTCATGAATCCACCATAAGATCCACCAGTTATACCTAATTTTTCTTTATCTATGTTAGGATATTTGATTAATACTTCATCTACAAATTTCATTAAATCTTCATAATCTATAGTTCCATACTTACCTCTAATATCGCTGAATTTATCTCCTCTACCACTAGAACCATGAGGGTTTGTAAACATTACGACATATCCTCTATTTACCCAAACTTGCATTTCATGATAATAGATAGTTGAGTAAACAGTTTTAGGACCACCATGAATATCTAATATAGCTGGATATGATTTATTTTCATCAAAATTTTCAGGTAATAGAACAAAACCTTTTAATGTATCTCCATTAGATTCAAATTCAAACATTTTAGGTTCTGCTACATATTTATCCTTCATAATATCTTCATTATATGAAGTAATTTGAACTAGTTCTTTAGAACTATATATTTCTAATAATTTAGAATCTTTAAATCCTAATAAATATAGTTCATCTTTTAAAGTTGCATATCCATCAACTGAACCTAATGAATCAGAAATAACATAAGATTTACCATCTTTTACACCATGTAATTCAGCCTTGTATTCAGTAGTACATATATATGTTACTTCTTCTGTGTCATAATTTACTTTAAAGCTTTCATTATATCCAAATCTAGCATCTGTACCAGTTGCATTTCCATAACTAACATCTTCATCTAAATAAAGTTCTATTTCTAAATTATTTCTATTTATTTTAAACATTTTACTATTTTCGTTTATACCATAAAATTCCATTAAACTTGCTATTGCATATATGTTATTTTTACCGTATTTAGCATTAGAGAAACTATATTTTCCATCTTCAACTATAGTTTTCATTTCTGAATTATTTACATCATATTCCATTAAAGAATTATATTTACCCATTTTCTTATCAAAATATTCAGAAATTAAAAGTATTTTATTATTATCTATATCTAAAATACTTACACTAGTTCCGTTAAGTAAGCTAATATTTTCAATTTTGTTTTCAGAAGGTATGTATTTAAAAATAGCATTTCTTCTTTTAGAAATATATGTAGAAGCATCATTCCAAAATGGAATTTCATCTATAATTCTTCTAAAACTTTTATCCTTTGTTTCTTTAATATATTTAGCTTTTTCTTCTTTAGATAATAGATAAAATTCAGGATTATCTAAAGAATATTCAGAAGATAAAATATATAAATCATCATGTATTTTATATATTTTATTTACAGGGAAATCAAATTCTAAAAATTTTTCAGCTTCACCTGGTTTTTCTATGTTTAGTTTGTAAATTACACTACCATTTTCATTTTCTTTATCTTCATCACTTCTTTTAGAAAAAAAGTATATATTAGAGTTATCTAAAAACTCATAATTTCCTTCATTTGTTAACTTTCTATGTTCATTACCATCAAACATATATACAGAACTATCATATCTGTTTTTTTCTAAATTTGGTTTTGAAACTATATATGTTAGGGCAGTTTTATTTTTATTTGATTTTAAATTCCAAATATATTTAAAATCATTCATTGTATCTATGTTTAATTTAGACATTATATATTTACCTCTTCTAATTTACTGATTAAATTTATTATTCCTTCCTTAGATTTACAGTTAGAAACAACATTTACATTAGTTTTACTGTAAAAAATCTTAGCTATTTTAGCTAAGGCTTCTAAATGCCAGTTATTGTATTTTGTAGGAGTAGCTATGAATAAGAAAAGTTTAGTTTTTTCATTATCTAAAGATTCAAAATCTACACCTTCTTGACTTATTCCTAAACCAATAGAAAAATGCTTTATATGATTACTTCTAACATGTGGTATAGCTAGTCCATGTTCTAGTGCTGTTGAACCAGCATCTTCTCTAGCAACTAAATCATTATATAGTTTTTCTTCATCTAAAATTTCTCCAGTTTTAACTAAAGATATAAGTTCTTTTAAAATTTCTTTTTTTGTTTTTGATTTTAAATCAATACAAATATTTTCTTCTTTTATAATTTCACTTATTAACATATAAGTACCTCCATTCTTTTATTATTATAACACTATAAAATAAAAAGTCAATATAATGAAAACAATAGTTTAGTGATATTTTTGATAGCAAATAAAGCTTGATTATATAAACTTTTTTACCGATTGATAAAAGAGTACATTTATGCTATAATAAATAGTAAAAATATAATGAAAATGAAAGGGGAAAATAATGTTTCAAAAATTGGACGAAGTTGTTGAAAAATATGAAGAGATAAATAGGTTACTTATGAGCCAAGAAGTTTTATCTGATCCTAAGAAATTAATGGAATATAATAAAACATTAAGTCAAATGTCAGAAATTGTTGAAAAATATCTATTATATAAGTCAAAAAAAGAGGCATTAGAACAATATAAGGAAGAAGTAAAAAGCGAAAAAGATGAAGAAATGTTAGAAATGCTAAATATGGAAATTGATACAATAGAAGAAGAAATTCCTAGATTAGAAGAAGAGTTAAAGATATTACTTTTACCTAAAGATCCAAATGATGAAAAAAATGTAATAGTTGAATTAAGAGCAGGAGCAGGTGGAGATGAAGCAGCCTTATTTGTTTCTGATATATTTCGTATGTTTACAAGATATGCTGAAAGAAATAAATGGAAAACAGAAATAATAGATAAAAATGAAATAGGTGTTGGTGGATTAAAAGAAATAACTTTCTTAATATCTGGAAAAGGAGCTTATTCAAGACTAAAATTTGAAAGTGGAGTACATAGAGTACAAAGAGTTCCTGATACTGAAGCTTCTGGAAGAATACATACATCTACAATTACTGTTGCAGTATTACCTGAAATAGATGATGTAGAACAAGTAGCTATAAATCCATCTGATTTACAAATAGATACATATAGATCTAGTGGTGCGGGAGGACAGCATGTAAATACAACAGATTCAGCAGTTAGAATTACACATAAGCCTACTGGTATAGTTGTAACATCACAAGATGGAAGATCCCAAATTAAAAATAAGGAAGCTGCTATGAAGGTTTTAGCTTCTAAGTTATATGAAATTGAAGTAGAAAAACAAAGAAGTTCAGTAGAAGCTGAAAGAAGAAGTCAGGTTGGTACTGGGGATAGATCTGAAAAAATTAGAACATATAATTATCCTCAAGGTAGAGTTACTGACCATAGAATTAAATTAACTTTACATAGACTAGATGCAATACTAGATGGAGCATTAGATGAAATTATAGATGCATTAATAGCATTTAATCAGGCAGAATTATTAAAAAATTCAGGTGAAAATTAGTATGGAAGACACTTTATTGACATTACTGAATAAATCTGTAAAGTATTTAGAAAATAAAGGTGTCCATAAACCTAGGTTTGTTGTTGAAAAGATACTTTCTGAAATTTTATCACTTGATAGGATTTCTCTTTATTCAAATTTTGAAAGAATACTTTCAAGTGATGAAAAGAAAATGTTAAAAGATAAATTGATAAATTATGATGATAATAAAAAAGATGAAATAATACTTGAAACTATTAGAGATTATTATGAAAAAACAAAAATATATTTAGATAAAAAAGGTATAGATGAAAGTAATATTATTACAAATATTATTTTTTCTAATTTATTAAATATTGATATGAGCTTATTATTTACTAAATATAGTAATAGTATTACTGAAGATCAAAAAAATAGATTAAGAGATATATTAAAAAAAATAGTTGATAAAAAAATACCTATACAATATATATTTAATGAACAGGTTTTTTATGGTTATTCTTTTTATGTAGATAAAAATGTATTAATACCTAGAATAGATACAGAATTTGTAGTAGAAAAAGCATTAGAATTAATTAATAAGATAAATAATCCTAAAGTTTTAGATATAGGAACAGGTAGTGGTGCTATAGCTTTAGTTATAGGTCTTGAAAATAGAGAAAGTAAAATTTTAGCTACAGATATATCAGAAAATGCTTTGAAAATAGCTAAAAAAAATTCAGAGATTTTAAATGTAGAAAATGTAAAATTTTTACACTCTGACCTATTTTCAGAAGTTAGCTATAAAGAATTTGATTTGATTGTATCTAACCCCCCTTATATCTCTCGTGATGAAATAGGAATTATGGGTGAAAATGTTCTGTTACATGAACCTCAAAATGCTTTATTTGCAGAAGATGGAGGGCTATATTTCTATTTTGAGATATCAAAAAATGCTAAAAATCATTTAAAAAATGATGGATATTTACTTTTTGAAATAGGTTATTCTCAAGGAAATAAAGTTAAAGATATTATGGAAAATATGGGATATATTGATGTATCAATAGGTAAAGATCTAACTGGAAATGAAAGATATGTTTTTGGTAGAAAGAAAGGAAGTTAATGAGAGTTGAAGATTATGATTTCGAGCTACCTTTAGAATTTATAGCACAACATGCAATAGAGCCAAGAGATCATTCAAAATTATTAGTTTTAAATAAAAATAATGGAGCTATAGAAGATAAAAAATTTTACAACATAATTGATTATCTTACTCCTAATGATATTTTAGTTATTAATAGAACTAAAGTTATTCCAGCCAGATTATTTGGTAAAAAAGAAAATGGAGTAATTTTAGAATGTTTTTTATTAAAAAGAATTGATTTAAAAAAATGGGAAGTTTTATTAAAACCTGCTAAAAAATTGAAAATAAATGATAAGTTAATATTTTCAGAGAAATTATCTGCAAAATTACTAGAAATTAAAGAAGATGGTAATAGAATAATGGAATTTGAATTTGAAGGAGTATTTGAAGAAATACTTGATGAACTTGCTGAAATGCCATTACCACCATATATTACCGAAAAATTAGAGAATAAAAACAGATATCAAACAGTTTATGCTAAATCAGGGGAATCTGTTGCTGCTCCTACAGCAGGACTACATTTTACAACAGAATTACTTGAAAAAATTGAAAAAAAAGGGATAACAATAGTAGAAGTTTATTTAACTGTTGGTCTTGGTACATTTAGACCTGTTCAGGTGGAAAATGTAGAAGATCATATAATGCATAGTGAAGAATATATAGTTCCTGAAAAAACTGCTGAAATAATAAATCAAGGTAAAAAAGATGGTAAAAGAATTATAGCAGTTGGAACAACATCAATTAGAACACTTGAATCATCACTTGATGATAATAATAATTTGATTGCTCAAAAATCTGAAACAAGTATATTTATACATGGTGAATATAAATTTAAAATAGTTGATGCATTAATTACTAATTTTCATTTGCCTAAATCAACTTTAATAATGTTGGTTTCATCTTTTGCAAATAAAGAATATGTTATGAATGCATATCAACATGCAATAAAAAACAATTATAGATTTTTTAGTTTTGGTGATGCAATGTTTATACAAGGAGAATTATGAGAATTACATCTGGATATTTAAAAAATAGAGTTATTTTAAGTAGAATTGGAAAAGAAACTAGACCTACTCTTGAAAGAGTGAAAGAAGCAATTTATAGTATTATTTCAACTAAGGTTGAAGACGCTATCTTTTTAGATCTTTATTCAGGTACTGGGAATATGTCTTTTGAAGCTATGAGCCGTGGTGCAAATAGAGCTGTAATGATTGAAATGGATAAAGAGGCATTAAGGGTAATTATTGAAAATGTTAATAATTTAAATCTTGATAAAAAGTGTAGAGCATATAAAAATGATGTTATGCGTGCTATTGAAATATTAGAAAATAAGAATGAAAAGTTTGATATAATTTTTATGGACCCTCCATATAAAGAAAATCTTACAGAAAAAACATTAAAAAAACTTTCTAATCATGATATTTTAGATAAAGATGGTATAATAATTTGTGAACATGGTAAATATGAAAAATTATCAGATGAAATTGGAAATTTTGTTAAATTTGATGAGAGAGAATATAATAAAAAAATAGTAACTTTTTATAAGAAAAAATAGGAGTGAATATGGCTAAAAAAAATTTTGAAACAATTTTAGAAGAGATTAAAGAAAGTATAATTAAATTAGAAAGTTTTGATATCTCTTTAGATGATTCCATAACTGAATATGAAAAAGCTATTAAATTAATAAAAGAAGCTGAAAAGAAATTGAAAGAAGTTGAAGGTAAATTAGAAGTAATAAAAATAAATGTTGAGAAAGAATAGTTTATGGAAATTTATTTACAAAATATTAGAAAAGATATAGATAAAAGTATAAGAAAAGTACTAAAAAAACATAAATCAATAAAAGAAATTGATGATATGTTAGAATACGGTGTACTTTTAGGTGGCAAAAGAATAAGACCATCTATTATGTATATACTTGCCAATGTATATAAGAAAGATAAAAAATGTATAGAAAATGAAGCAGTTTCTATAGAATTAATACATGCATATTCTTTAATACATGATGATCTTCCATGTATGGATAATGATAATTATAGAAGAGGGAATTTAACTGTTCATAAAAAGTATGGAGAAGCAAATGCAGTTCTTGTGGGAGATGCTTTATTAACACTTGCTTTTTCAGTACTGGCAGAATCTGAATACTCTAATAAGTATAGCATAGTTGCTCTTTCATATTATTCAGGGCATAAGGGAATGATATTAGGGCAATATTTAGATTTGTTAAATGAAAATAAGGCTGATATTAATTTTGATGAGTTAATGGAAATACATTTAAATAAAACTGCTATGCTTTTAATGGCTTCAGTTGAAATTGCAGCAATTAGTTTATCTATAAATACAGAGGCTAGAAATGCTCTTAGAAAATATATATTGTATCTTGGACTTGCTTACCAAATACAAGATGATATTTTAGAAATGGAATCTAGTTTTGAGAAAATTGGAAAAGAAAATACTGATGAAAAAAATAATAAATCTACTTTTCCTAAAATATTAGGATTAGAAAAATCTAAAATATTAAAAGAAAAATTTACAAATGATGCAATAGAAATAGTGAAAGGCAATCAAAAATTAATTGATTTTGCATATTATTTGTTAAATAGGGAGTATTAATGTTTAAAGAAGAAAATAACTTATATATCATAGATGAATTTTTAAAATATAACTGTATTGCTGCTTTTACAAAAAAAGAATTAGGAAATATGGCAGACTATATTAATAATGGTAATCCTAAAATCAATAGAGAAAAAGCACTTTCTTTATTGGGAATTAATGATAAAAAAATTGTCTTTGCATTACAAAGGCATACAGATAAAATTATTGATATATCTAATGGTGTTGATGTTGATAAATTAATAAATATTGAAAATATTGATGGTTTTGTAACTATGAGAAAAGATATAGCTATATTTACTTTTTATGCAGATTGTTTACCTATTTATATACTTGATAAAAAAAATGGAGCATATGGATGTGTACATTCTGGTTGGGTAGGTACAACAAAAGTTATAATACATAAATTGATTGATAAGATGATAGAAAAGTATAATAGTAAAAAAGAAGATCTATTAATAGGTCTTGGTATAGGAATACATGTTGATGATTATGAGGTAGGTATTGAATTTTTTGAAAATTTTAAAAAGATATTTCCAAATCATTTTAAGACATGTTTTAAAGAAATTAATGGTAAAATATTTTACGATAACACATTATTAAATAAATTATTGGCACTAGATTATGGAATATTAGAATCTAATATAATTATAGATGATAGAGGAGTGAAAAAAGCTAATACCTTTTCACATAGATTAGATAAAGAAAATATTGGACGTTCTGCTGCAATAATAACAATAAAGGAGTAAAATGCAACAAAAAAATAGGTTAATTTCTATTTTTATGCTTTCACTTTTATTTGTTATAATGAATAATAAAACTTTGAATAATTCAGGTAATAATATTCATATTAATAGAATAATAACAAGCTTTTTAAAAATAGAAAAAAAAGAGAATGAAAATATAAATATAGAAAATAATATAGAAAAGTTTTTTCTTAAAAATATAAAAATAGTGAGAAAAAATAATATAATATTTTTTTGGAATAATTTTTTTACTTATAATAAAATTTATGGTAGAAATAATTTGAAATATATAGAATAGAAATTTACTTTTTTAAAATATATAAAATAATAAAGGAGTAAAAATGAAAATAATAGATATAATTAATAAAATATTTGGTTCATCAGATGAAAAAATAATTAAAAAGATGAGAAAACAAGTAGAAAAAATTAATGAATTAGAGCCGTATATGGAATCTTTAAGTGATGAAGAATTAAAGGCAAAAACACAAGAATTTAAAAATAGATTATCACAAGGTGAAACATTAGATGATTTATTAGTTGAAGCTTTTGCTGTAGTTAGAGAAGCTGCAAAAAGATTAACAGGCATGAGAATATATGATGTTCAGTTAATAGGATCAATGATAATACATAGTGGTAAAATTGCAGAGATGAAAACAGGAGAAGGAAAAACTCTTATGTCAACTTTAGCAATATATTTAAATGCTTTAACTGGTAAAGGAGTACATGTAGTTACAGTAAATGATTATCTAGCTAAAAGAGATAGAGATACTATGTCGCATATTTATGACTTTTTAGGTTTAACTTCAGGGGTAATAATAGCTAACTTAGATAATGAAACTAGAAGAGAACAATATAATTGTGATATAACTTATGGTACAAATAATGAATTTGGATTTGATTATTTAAGAGATAATATGGTTCATGATCCAAGTGAAAAAGTTCAAAGAGAACATAATTATGCTATAGTTGATGAAATAGATTCAATTTTAATAGATGAGGCTAGAACTCCATTAATAATATCTGGTCCAGCAGAAGAAACAACACATTGGTATGATGTATTTGCTAATGTAGTTTTAAGATTAAAAAGAAGCTATAAAACAGAAGAGATCAAAGATAAGAAAAATACTATTATTCCAGATGAAGATTGGGAAGACTATGAAGTTGATGAAAAGGCTAAAACTGTTACAATAACTGATAAAGGTATAAAAAATGTTGAAAAAATATTACAAATTGATAATCTTTATTCGCCACAATATGTTGAATTAACTCACTTTTTATCACAGGCTTTAAAGGCTAAAGAATTATTTAAAAGAGATAGAGATTATATAATTAATGAAAAAGATGAAGTTATTATAGTTGATGAGTTTACAGGTAGATTAATGGATGGTAGAAGATATTCTGATGGACTACATCAAGCTATAGAAGCTAAGGAACATTTAAAAGTTGCTGGAGAAAATCAAACACTTGCAACAATTACATTACAAAATTATTTCAGAATGTATAAAAAATTATCGGGTATGACAGGTACTGCAAAAACTGAAGAAGAAGAATTTAAACAAATATATAAACTTGGAGTTGTAGTTGTTCCTACTAATAAGCCTGTAATAAGAAAAGATTTACCTGATGTAATATATCAAACAACTAAGGCTAAATATAGAGCTATAGTTAATAAAATTATTGAATTATTTGAAAAAGGTCAACCAGTTTTAGTTGGAACTGCATCTATAGAGCATTCAGAATTACTTTCATCATATTTAACTAAGGCTAGAATACCTCATGAGGTTTTAAATGCTAAATACCATGAAAGAGAAGCAGATATTATTGCACAGGCAGGTAGATATAAAAATGTTACTATTGCAACTAATATGGCGGGACGTGGAACAGATATTAAATTAGGTGGAGATCCAGATTCATTAGCAGTTAAAGTTGCAGAACGTGGAACACCAGAATATTATGAAGCATATAAAACATATGAAAAGGAATGTCAAGAAAACAAAGAAAAAGTTCTTAAAGCAGGAGGATTATTTATTCTAGGAACAGAAAGACATGAAAGTCGTAGAATTGATAATCAGTTAAGAGGAAGGGCTGGACGTCAAGGAGATACAGGAGCTTCAGAATTTTATTTATCATTAGAAGATGATTTAATGAGATTATTTGGTGGAGATAGACTTAAATCAATGATGAGAGCTTTAAATATACCTGAAGATGAAGATATTAGACATAAAAGAATATCTAAAGCTGTTGAAAATGCACAAAGAAGAATTGAAAGTAGAAATTTCTCTATAAGAAAAAATCTTATTGAATATGATGATGTAAATAATAAACAAAGAGAAGTTATATATAAACAAAGAGATCAAATATTATACAACAAGGAACTTAGAGAACTAATATATGATATGATTGATAATACAGTTGTTTCTACTGTAGATGATATATTATCATCTAATAATAATGCAGAATGGGATTTTGAAAATCTTAATTCAAAAATTTATGAAATATATGGTTTTGATTTACCTGAATCTGTGTATAAGGCTAAAAAATTAGATGAAATATATGATATATTATATAATGAAGTTAAAAATAGATATGATAATAAAGTATTAGAAATAGGTGAAGAACAATTTTCAAGAATTGAAAGATATATTATGCTTGAAGTATTAGATCAAAAATGGAGACAAAATTTAAAAGATCTAACAGAGTTAAGAGAAGGAATAAATTTACAATCTTATGGGCAAAAAAATCCTGTTAATGAATATAAGATATCAAGTACAGATATATATAATGATATGATAGATGGTATTAATAGAGAAACAACATCATTCTTATTGAAATTAAAATTAAATGTGCCTGAAGAATTAACTACAGTAAATGAAGAAATTATTGAAGCAGATAATGAAAATTTTGAATTTAAAAGTAGAAGAGAAAGAATGGAAGAAAATGAATAAATCTTTTATTTTAAGGAAGTTAAATCATGATTAATAGGATTATAAAAAAAGAAGACATATATGAAGTTATGTATAATGAACTTTATTCTAAAAATGAAAATTTGATTTTTAAAGAAGAAAAAAAATTTGAAACTTTATTAGAAGATGATAAAACAAAATTAAAGCAACTAGCTAAAATTAAATTTAAAATGAAAAAATTTTTTTATGATATTCAATTTAAAAAACTTTTTGATTTATTTAATAGTGATGACAATTTTGCTAAATCACATACATTCATAACTAACACTTTAAATAGACTTGAAATAACAAAGGCAACAAAAGAAGTAAGTGATGAAAATATGTTTGGTTATAAAAGTATTGTTATTCATTCAGATATATTAGAAAATCTACAAAATAGATTAATATGCGATAAAGGTTGCCCTCTTAATTCTTCTAAAGTAGAAGATGAATTAAGATTAAAAATTATACTTAATAATGATATAACATTAAATCAAAAAGGAGAATATATATCATATATCTTAGGTGATAAAATTTATGATTTTAATGTTAATGTTGTTAATGAAGAAAAAAATAATAAAGTTATTACAAATATTAAATATAGCCTTGATGTTATAAAACATGATGATTTAATATATATTAGTAGAATAATTAGCAAAGATTAGATATACACTTGTAATTTATTTAAATATGTGATATTATACCTTTGTAATAATTTTGGAGGATAAAAATATGATAAATAAAGTAGTTACATTTAAAATGAATATGATGCACATGTAGAAATGCTTGTATCTTTTGGTACAAGCCATTTGTGTTTGTGCCTTGAATGTAGCTATATAAGTCAGGCACTAAAGCCTGACTTTTTATTTTAAGGAGGAATAATGTCATACTTAGTGATAAAAAATTTAACCAAAAAATTTAATGAAAAAATAGCTGTAGATGATGTAAACTTAGAAATATCAAAGGGAGAAATATTCGGTATAATTGGTTTATCTGGTGCTGGAAAATCAACTTTAATTAGAATGATAAATAAGTTGGAAAGCCCTACATTAGGAACAATTTATAATGAAAATAAAGATATATTTAAATTTAATGATATAGAAATTAGGGAATATAGAAAAAAAACATCAATGATATTTCAAAGCTTTAATTTATTATCATCTAGGACAGTATTTGAAAATGTAGCCCTGCCATTAGAGATATCAAAATTTTCAAAAAATGAAATTACTGAAAAAGTGAATGAACTTCTTATGTTAGTGGGACTGGATAAATTTAAAAATGAATATGTAAATAATTTAAGTGGAGGTCAGAAACAAAGAGTGGCTATTGCAAGAGCACTTTCTACTAATCCAGATATATTATTATCAGATGAATCTACTTCAAGTTTAGATCCTATAACTTCTAATTCAATATTGGAATTACTAAAAGATATAAATAGAAAATTAGGAATTACTATAATACTTATAACTCATCAAATGGAAGTTATAAAAAAAATATGTGATAGAGTTGCTGTTATGAAAGATGGTAAAGTAATAGAAGTATCAACAGTTAAAGAATTATTTATTAATCCTAAAACTAGTTTTTCAAGAGAGTTAATAAGTGATTTAAAAATAGAAGTTCAAAAAGGAAAAGAAAATACATTAAGTTTAATATTTGATGGTGAACAAGCTGATAAACCATATGTTTCAGAATTAACTAGAAAGTTTAACTTAGATATTAATATATTAGGTGGATCAATTGATACGTTAGCAAGTGGGATTAAAGTAGGTCATTTAAATATAAGTTTAGAAACAAATAATATTAATGAAGTAATAAATTGGTTAGAAAATGTTGGAATTAAGGTAGAGGTGGTAAAATGATTATTAAATCTATATTTGAAACTATATATATGATATCTGTGGCAATAATTATTGCAAGTATAATTGGATTTCCACTAGGTATTTTACTTTCAATTACAAAAGAGGGTTCTATTTCAGAGAATAAGACTTTAAATAAAATTCTTGATTTAGTAATAGTTAATATAACAAGATCTATACCTTTTGTAATTTTGATTGTACTTTTAATTCCTTTATCGAGATTAATAGTTGGTAAATCATATGGTACAACTGCATTTATTATTCCATTATCTATAGGAACTGCACCATTTGTTGCTAGAATTATAGAAAATTCATTAAATGAGGTTAGTTATGGATTAATAGAGGCAGCTATTTCAATGGGTGCAACTAATAAAGATATAGTTTTTAAAGTTTTAATACCTGAGGCAATACCTTCAATAATTAATGGATTAACTTTAACTTTAATTTCACTTGTAGGTTTTTCTGCTATTGCTGGAATAATAGGTGGAGGGGGATTAGGAAATTTGGCCGTTATAGAAGGTTTTCAAAGAGGAAATTATAAATTGATGTATTTATCAACATTTATATTAATAATAATAGTTCAAATAATACAGTTTATAGGAACTAAGATAGTAAAATATATTGAAAAGAAAAGAGGAAGATAAAATGTTTAAAAAAATAATATTAGCAATATTAACATTCGTTTTAATATCATGTGCAGGTGGTAAAGGTGAAAATGAGAGTACAAAAAAATTAATTTTAGGAGTTTCTCCAATACCACATAAAGAAATAGTAGAATTTATTAAAGATGATTTAATTTCTGAAGGAATAGATCTTGAAATAGTAGTGTTTAATGATTATGTTCAACCTAATATATCATTAAATGATGGAAGTATAGATGCTAACTATTTCCAACATATACCATATATGGAATCATTTGGAATAGAAAATAATATAGATATGGTTAGTGCTGGTGCAATACATTTAGAACCTTTAAAAGCTTATTCAAATACAGTTAAAAGTATAGAAGAAATAAAAGAAGGATCAGAAGTTTTGATACCAAATGATCCTACAAATAGAGGAAGAGCTTTATTATTATTAGATGCTTCAGGATTAATTAAATTAAATAATAGAGATAAATTAGATGCACGTATTTCTGATATTGTAGAAAATCCTAAAAAATTAGTAATTACAAGTTTAAATTCTGAGCAAATTGCACCAAGATTATCTGAGGTTACATTAGCTATTATTAATACAAATAATGCTCTTGCATCAGGTATAACAGGAGATAAGGCAGTAATAGTTGAAGGAAAAGATTCACCTTATGTTAATGTAATAGCAGTTTTAAGAGGTAAAGAAAATGATGAAAAAATACAAAAATTAGTTAAAGTATTACAAAGTGATAAGGTGAAGAAATTCATAACTGAAAAGTATAATGGAGAAGTAGAAGCTGGATTTTAATTTGAGTAAATATAATATATTAGACTAAGTTAAATTAAATTGACTTAGTCTTTTTTGTTTAGTATAATTGTTATATATTAATAAGAAATGAGTGTGATAAAATGGAAAACAAACAAGAATTTACCTTGAAAAGATTTTTACCGTTAATATACATGATAACAGTTATATTAATAGCCTTGATTGCTTTTAAAGCTTCATTATATTTATTACCGTTTGTTATTGCATTCATTGTAGTAACGATAACTAGAGGTCCTGTTAACTTCTTAGTTAATAAATTTAATTTTAGCAATAGAATGTCAAATATAATAGTAATATTACTATTTTATTTAATAATACCAGTAATATTGATTTTATTGTTAATAAGATCATATAATGAAATATATAATCTTTCAAATTGGTTAATAAAAAATGCCAATGCTTTTAAAAATATTGGATTTGAATTGTTTGAAAAATATAATTTTTTAGAAGGTATACTTCCTTCAGTTGCAATAATACCAATTAAAAATTTCATAACAATGCTACTTGGAAAATTAACTAATTTAGGTTTTTTAATTGCTAATTATGTACTATCTTTAACATTAAAATTACCAGTATTATTTGTTCATGTTATAATAACTATTACAGCAACTTTCTTAATGGCTGGAGATATAGAAACAGTTCATAATTTTTTTGAAAAACAATTTCCAAAGGTATGGTTAGAAAAATTTAGACAAATTAAGGTAAATATAGTTGAAGTGGCTTATCAATATTTAAGAGCTCAATTAATTTTAGTGTCATTATGTTTTACAGAATTAATAATAGGATTAAGTATAATAAATATATTTGTTAAACCTATAAGTTATGTGTTTTTGACATCTATGCTTATAGCATTATTTGATGCTTTACCTATATTTGGGGCTGGAGGAATATTACTGCCATGGGCAGCTTATTGCTTTTTAACTGGTAATTATTTATTAGGTATATCAATCTTATTTTTATATGTATTTATTGTTACTATGCGTATGACATTTGAACCTCGTATTTTAAGTAAAAGTTTAAGTATAAATCCACTTTTATCATTAATTTCATTATTTGTTGGATTCAAAGTTTTTGGAGTAGTTGGATTTTTATTTGGTCCGATAATTTTAACTATTATGATAATATTATTTAAAGAAGAAATTAATAAAGGATTTTTTAAGATACTTGCTGGAGAATATGTTGAATAATTATATCTAAGTATACATATCAAATGATATGTATATTTTAATAAAGGAGAAAAATGAAAAAAAAAATAATAATATTTTTAATATTTTTATTACCATTAACTTATTCTATTATAGATTTAAAAGTTAATAAAAAAGAAGTTAAAGTAAAAACATTTACTGTAAATAAAGGAGACAGTATAAAAAAAATATATGAAAAATTTAATTTTAGATATAATATAATTGATAGAATTTACTTAAAGTTTAATCCAAATTTAGCTAATATTAAAGAAGGAATGTATAAATTTCAGAGTAAAAATATATCAAAATATATGCTGTTAGAAACATTACAAAAACCTCATGTAGAAAATATTGTTTTAACTATACCTGAAGGATTTACTCAAAAAAAAGTACTTGCTAGAATTAAAAGATTAGGTCTTGCTACAGAAAAAGAGATGATAGAGGCTTTAAATTCTGTAGATTTTCCATACTATCATGAAGAAAATAATTTTGATGGATATCTTTATCCAGAAACATATTTAATTCCTAAAGGTTCAAAGCCAATAGATATTGCCAAAATTATATTAGATGAATTTAAAAAGCAATTTCCATCAAGAAATTATCCTGATAAAAAGAAATTTTATGATGAGATTAAATTAGCTTCTATAGTGGAATTAGAAACAGGGGAATTTGAACATAAATCTAGGGTAGCAGGTGTTTTTAAAAAGAGATTAAGAATAAATATGTTACTTCAATCTGATGCAACTTTAAAATATGAATTAGGTAGAAAGGTATATAAGAAGGATTTAATGAAAAATCTATCTTTATATAACACATATAAGCATAAGGGATTACCACCTACACCAGTATGTAGCCCTTCAAAAGAAACCATAATAGAAACTATTAATGCAAAAGAAGATAAATATCTATTTTTCTTTATGGATGGGAAAGATACTCATTATTCAGAAACTCATGATGAACACTTAAGAAAGAGAAGATCGTTAAAATGAAAAAATTGAGATTAATATGGATACTTTTCCTAATATTTTCATGTTCAATGATAGAAAAAGTAGATTATAAAATAATAAAAGATACTAATGACTTAGTTAGCAGAGAAAAAAGTTTAATTGATGATATAAGAGTAAGATTAACTAATTTAGAAAAGAAAAAAATATATTTTGAACTAGATAGTAATATGTTAATAAATGAAGAAAATATAACAGTTCTAAAATTTAACTTAGAAGCCTTTGATAATAAAATAGACATGAATGGAAAAATGTTTGATGAAATTAATATTACTAATAAAAATGGAATAATAAAAATAGATAAATATTCTTTTTATGGTGATATATATATTAAGGCTGTTGATTCTAAATTAATATTAATCAATAAATTAAATATGGAAAAATATTTATTAGGTGTAATTCCATATGAAATGCCAGCTTCTTTTCCTTTAGAAGCACTTAAAGCTCAAACTGTAATTGCAAGAAGTTATGCATATAAAAATATTTTAAGAAATAGAAAAGATTTTGATATATATGATAGTGTTTCATCACAAGTTTATAAGGGAATATTAAATAAAAATATTGAAAATGTTAAAAAAGCAATTGAAGAAACTAATGGAGAAGTAATAGTTCATGATAATAAAATAATAGATGCCGTTTTTCATTCATATAGTGGAGGATATACTGCAAGTGGTAAGGAAGTATGGGGAAATGATGTACCTTATTTACAAGCTGTTGAAGATAATTATTCTAAAGATGTAAATTCTTCTGTACTTACATGGGAATATATGATAAATAATGATATTATTATGGATAAAATAGGATTTAGAATTTTTGATTTTGATATTTCATATACTGATAGTAATAGGGTTTCAAAATTAGTCCTATATAACGAAGATAAAAGTAAAGAAATTTCATACACAGGTAATAATTTTAGAAAGGAATTTTCTCTTTCTAAGATAAAATCTACTTCATTTACCTTAGATATTACTGATAATGGAATAAATATTATTGGTTCAGGATATGGACATGGAGTTGGATTTTCACAATGGAGTTCAAGATCTATGGCTATAGATTATAAAATGTCATATATAGATATTATAAAGTTTTTCTATAAAGGAGTAGAGGTAATTAAGAAGGGAGCATAAAATGTTTAGAAATTTTATTGAAAGAAATAAGTTAATTGAAAAAAATGATAAGATTTTGATAGCTTTTTCTGCTGGACCAGATTCAGTATTCCTTTTAGAAAAATTATTAGAAATAAAAGATGAATATAATTTGCAGTTGCATTTAGGATATGTAAATCATAATTTTAGAGATGATGTGCATAAAGATATGGAACTAGTAAAAAAAATAGCTAATAAATATAATTTAGAATATAGTATATTAGATATTAAATTGGAAAAATTTACCGAAGAAAAAGCAAGAGAGTTAAGATATAGTGCTTTAAGTGATTTAAAGAAAAGAATAAAATTTACAAAAATTGCTACAGGTCATAATAAAACTGACAATGCTGAAACTATTATTTTTAGGATAATAAGAGGAACAGGACTAGATGGTTTAGAGGGTATAAGAATTAAAAGAGATGATATTATCAGACCTATATTATATATTTCAAAAGATGAAATACTTAAGCAAGTATATAATGAATATGTAATTGATAAAACAAATCTTGAAAATAATTATAGTAGAAATAAGATTAGAAATTTAGTTTTTCCAATATTAGCAGAAATTAACTCTAAATATATAGATAACATAGTTAAAATTCATAAAAATATTATAAATATAAACGATGAGAAATATGAATATATTTTAAATAAATTAAATGAAAAAAATATAAGTTTAAATACTAAAAAAATTGAACAAATATATAATATTTTAGATAAAAATGAAAGTAAAATTATAGATTTAGGAAATGAATATATTTGGTATAAATCATATGATAATAATAAAATATTAAAAAAAATTGAATTAGAAAAAAAACCAACAAATACTGTACTTACTTTGAATAATGAAGTTGAATTTAATGGTTTTAAAGTAGGATATGTGGCTTCAACTAGGCTTGAAAAAATATCAAATAAAATGTATAATATACTCAGTTTAGATACTTTTGATGAACATTCTACATTTATTATTAGAACAAGAATAGATGGTGATAGATTGGATAATAAAAAGTTGAAAAAATTATTTATAGATCAAAAAATTGACAAATTAGAAAGAGATAAGATGCCTATAGTTTTATATGGAAATTCAGTAATTTTGGCAGGAGATTCTTTTAAAACAAGAAAAAAAGGATCTATAAATAAATATTACTTATATATTAGGAGAAATTATGGAAGATAAAAATATTAAGGATGATGAAATCTTAGATGATCAAAATGATAATCAAGAAGATGTTCAAAATCAAGATGAAGAAAAGGAAATAAAACCGAAAAAACCTAAAAAAAAGGTATATATTTCCGATGATGAAAATGCAGAAGAGATTAAAAAAAGAATAGAAAGCCTAAAGAATAAAAATAATAATATTTCTTTTAGAGTAAAACCACCTATTTTCTTTTTTTTAATACTTATATTAATGTCAACACTTTTTTATTTCTATGGAAATAAGACAGCTTTATTCCAAGAAAAACGTGAAATTAGTTATACACAGTTTGTAACTAAAGTTAAACAGGGTGATATTACTGAAATTAGAGAAAGTCAAGAAAAATTAACAGGTATAAAAAAAGTTGCTGGAAAAGTAGAAGTATTTGAAACTAATAAATTAACTGATAGATTAGGGCAAGATACTTATCTTATGGAGATATCAAAAGAAAAAAATGTAAATATTGTTGTATTAGGTACACCAGTATCTTCAATAATAACACGTGCGATTTTTAGTTTTGCTCCATTATTTATGCTATTATTCTTTTTCTATTTCATTAATAAGAAAATGATGGGTTCTTCTGGTGGAGTAATAGGAAATCCATTTAACATTGGAAAAGGAAAAGGTAAAATAAGTGAAAGACCAAATGTTAAATTTTCTGATGTTGCAGGTTTAACTGAAGAAAAAGAAGAATTAAAAGAAATAGTAGAATTTTTAAAGAATCCAGCAAGATTTGAAAAAGCAGGGGCAAGAGTTCCTAAAGGTGTCTTATTATTAGGTGAACCTGGTACAGGTAAGACATTACTTGCAAAAGCTGTTGCTGGTGAATCTGAAGCAGCATTTTTCCCAATTTCAGGTTCTGAATTTATAGAACTTTATGTTGGAGTTGGGGCTTCTCGTGTTAGAGAATTATTTAAAGATGCTAAAAAAGAAGCACCTGCTATTATATTCATAGATGAAATAGATGCTGTTGGTAGAAGAAGAGGACAAAATAAAAATGGTGGTGGGGGTAATGAAGAAAGAGAACAAACTCTAAACCAATTATTAGTTGAAATGGATGGATTTGATACAGATCAAAGAATTATTGTAATGGCAGCTACAAATAGATCAGATGTTTTAGACCCAGCTTTATTAAGAGGTGGAAGATTTGATAGAAGAATTGAGGTTTCAAGACCTGATGTTAAAGGAAGAATTGAAATACTTAAAGTTCATAGTAGAAATAAGAAGTTAGCTTCTGATGTAAAATTAGAAGACATAGCTAAAATTACTCCAGGATTTGTAGGAGCAGATTTAGAAAACTTACTAAACGAAGCTGCTATACTTGCTGCAAGAAAAAATAGCGATGAAATTACTATGGAAGATTTAGATGAAGCAGTAGATAAAGTAGGAATGGGACTTGGACAAAAAAGTAAAATAATTTCAAAAAGAGATAAAGACATGCTAGCTTATCATGAAGGTGGACATGCTTTAGCTGCTACATTAATACCAGGTGCTAATAAGGTTCATAAAGTTACAATAATACCTCGTGGAGATGCAGGAGGATATATGATGCCTTTACCTGAGGAAACTTTAGGTAAAACAAGAAAACAAATACTTGCTGAAATTAATGTATTGTTTGCTGGAAGAGCTGGTGAAGAATTAATGATGGATGATATTGCAACTGGAGCATATTCAGACATAAAAAGGGCAACTGAACTTGCAAAATTATTAATTTCTAGTGTTGGTATGAGTGAGCTTGGACCGATAAATTATGAACATTCAGATAATGGATTTATGTTAAGTTCTGATTTAAGTAATGAAACAGCAAGAGAAATTGATTTAGAGGTTAGAAAATTATTGAAATTTAAATATGAAGAAACTTTAAATCTACTTAGAGATAATAAAGAAACATTAGAAAAAATAGCTACATTGTTAAAAGAAAAAGAAACAGTTACTGGATCTGAAATAAGAGCATTAGTTTCAGGCTCATCTGTAAATGAAGTATTAGAACTTGATGATGAACAGTTGGAAAAATATTATTAAATGTAAAGCTATACCTTGACAAAATTATAAAAATTTTGTAAAATGGATTGTATTAATACGAAATTACATGTAATCACATAATTACAATTAAATTATGTAGAAAGGAGCTCAAAATGGCAGTACCTAAGAAAAGAACATCAAAAGCTAAAAGAAATATGAGAAGAGCACATGATTCAATAAATGCTCCACAATTTGTTGTTGAAGCAAATGGTAGTGTAAGAAGACCTCACAGATTAAATCTTGAAACAGGTGAATATAGAGGAAGAAGAGTACTAAAAGCATCAGCAGAAGAAATAGTTGAATAGATAAAAATAAATAAAAAAGTTATTTGTAAACTATATAAGAACAACAGTCTAATTTTAAAAAGACTGTTTTTTTATTTATAAAAAATGAAATTTAAAATATATCAATTTTCGTTGTATTTTCAAATCTTTTAGCCATCCTATATATATTCACAAAACATGTGAAATATGATATAATTTAAAAGCATAAACCATAATGAGGGGTAATATATGAATAAAAAATATGAAGTATTGGAATACCATAAAATACTTAATAATTTAATAGATAAATCAAAACTTGAAGCAACTAAAGAAAAATTTATAGATTTGGAAATTTTTAAAGAAAAAAATGAATTAGATAAGGAATTTTCTCTATTACAAGATTTGATTGATTTTTATAAATTTGATGATGGTTTCGATTTAAGTCAACTATCTAATATAAGTAGATTTTTAAAATTAATTTCTATCTTTGGTAATTACTTAGAAGCTATTGATTTACATGAATTAAGAAAGAATCTAATAGTTTATAGAATATCTAAATCAAGAGCTAAAAATGTAAGAGATAAATATAAACAAATATGGAATATATTTAAAGATTTAAATGATTTAAAAGATATTGAAACTTTTATAGATGAAATCGTTGATGATAATGGTAATATAAAAGATAATGCTAGTTTAACTTTAATTGATATTAGAAAACAAAAAAATATTATTTTTAATAATATAAAAGAAAAATTTGAGGCATTAATAAATAATAAAGATACACAAAGAGCAATACAAGATAAAATTATTACTAAAAGAAATGAAAGATATGTTATTGCAATAAAAACAGATTTTAAAGGATTAATAAGAGGTATAGAACATGATAGATCATCAACAGGTTCTACTTCATTTATTGAACCTTTAAATGTTGTATCGTTAAATAATAAATTAAGAGAATACGAAGCTAGGGAAAAAGAAGAAATAAGAAAAATATTATTAAGATTAACAGAAATTTTGAGAGCTAGACTAGAAGATTTAAAAATTGCTCAAGATATATTAGAAAGAATTGATTTTTTAAATGCTAAAGTTGAATATGCTTTAGAAACAAAATCTAATATTCCTAAAATAGTTAGTCATACTAAAATATACTTAGAAGATGCAAGACATCCTTTTATAAATAAAGATAGGGTAGTACCTTTAACTTTTGATTTAGATGAAAATTATAAAGTTATGTTAATTACTGGTCCAAATACAGGAGGAAAAACAGTAACATTAAAGGTTGCAGGATTATTTACTTTAATGGCATTATCAGGACTAGCAATACCTGCAAGTGATAAATCTATAATAGGTATGTTTGATAATGTTTTATCAGATATAGGTGATGAACAAAGCATAGAACAAAATTTATCATCTTTTTCTTCTCATGTTAAATCAATTTCAGAAATACTAAATGAAGCAACTTCAAAATCATTAGTATTATTAGATGAATTAGGTTCTGGAACTGATCCTAGTGAGGGTTCTGCATTTGCAATGGCAATAATTGATCATATACTTCAAAGAAAAATAAAGGCACTTATAACAACTCATTATAGTGAAGTTAAAGCCCATGCATATACACATGATAATATAAAATCAGCATCTATGGAATTTAATTCTGAAACTCTATCTCCAACATATAGATTATTAGTTGGTATACCAGGGGAATCAAATGCTTTAATTATAGCTTCAAAATATGGTATAGATAAAGAAATTATTGATAATGCTAGATCATATATTAGTGAAGATAATAGAGAAGTTGAAAAGATGTTAGCATCAATAAAAGAAAAAAATGATAATTTAGAAGCTATGAATATTGAAGTTGAAAAACTTAAACAAGAACTTGCTAATGAAAAATCTAATTATGAAAATAAAATAGCTGAATTTGAAAAAGAAAAAAATAATATTTTAAAGGATGCATATAAAAAGGCTGATGACTATATTAAAGATATGCAAAATAAGGCAAAAGCTTTAGTTGATAAAATTAATTCAGATAATGTTAAAAAAGAGGAAGCAAAAACATTACAAAAAAATATAAATATGATAAGACAATATATAGAAGATAGTAAAAAAGAAAATATTGTTGAAAAAAAATATACTAAATCTGATTTAAATTTTGAAATAAATGAAGAAGTATTGATAAAAACACTAAATCAAGTTGGTAAAGTTCTTAGAATTATTCCAGAAAAAAATTCTTTACAAGTTCAAGCAGGAATTTTAAAAATTACTGTTTCACTTGAAGATGTTACTAAGATAGCTAAGAAAAAAAATAATCGTTTAACCAATGTAATTAATGCGAAAGTTACTCATGTTAAAGGTGAAATAGATGTTAGAGGGAAAATAGCAGAAGAAGCTATAGATGAAATAGAAATATATTTTAATAGAGCTATTTTAAATGGGTTTACTACTGTTGCAATTGTACATGGAAAAGGTACAATGATTCTTAGAAAAAAAATACACGATTATCTTAAAAAGTCTGTTTATGTTTCAGAATTTAAAGATGGTCATCCTAGTGAAGGTGGGCTGGGTGTTACTATAGTTACATTGAAGTAGAGGAGAAAAAATGAAAATATATAATAGTTTAAATAATAAGTTAGAAGAATTTATACCTATTAATGATAAAAAAGTTGGAATATATGTATGTGGACCTACTGTATATAATTATATACATTTTGGTAATTCAAGACCTGTTATAGTTTTTGACACTCTTGCAAGACATTTTATAAATCAAGGTTATGAAGTTTCATTTGTACAAAATTTTACAGATATTGACGATAAAATTATTAATAAAAGTATTGAAGAAAATATTCCGTTTGAAGAAATTTCTAAAAAATATATAAATGCTTTTATGGAAGATATATCTAAATTAAATATACTTGATATTGTAAAAAGACCAAAAGTTAGTGAATATATACCTGATATTATAGAAATGATAGAAGTACTTATTTATAATGGTTATGCATATGAAAGAGATGGAGATGTCTTATTTAGAGTTAATAAATATTTAGAATATGGTAAATTATCTAATCAAAAACTTAGTGATCTATCTGTTGGTGTAAGAATTAATAAAGATGAAAAAAAAGAAAATCCTCTTGACTTTGTATTATGGAAAAAAAAGAAAGAAAATGAACCTTATTGGAATGCTCCTTTTTCTGAGGGAAGACCAGGTTGGCATATTGAATGTTCAGCAATGAGTAGAAAACTTTTAGGTGATAATTTTGATATACATGCGGGAGGTATAGATTTACTATTTCCACATCATGAAAATGAAAGAGCTCAAAGTGTTTGTTTTTGTAATGAAAAATCTTCTTTTGCAAACTACTGGATGCATAATGGATTTTTAGAAGTAAATGGTGAAAAAATGAGTAAATCTTTAGGTAATTTTATTACATTAAGAGAAATTTTAAATGATTATTCTGGAGATGTAGTTAGATTTTTTATGTTATCAACTCATTATAGGAAACCTATAAATTATTCTATAGAAAATTTAGAAATATCTAAAAAGACTTTAAACTCTATAATAGATACTATTGATAGATATAAGCAAATAGATGTTACTAATAATTCGAATAATGAAATAAAAAAAGATATAATTGAATTTGAATTAGCAATTAATTCGGCATTAAATGATGATTTAAATACTCCTTTAGCAATATCTTGCATACATGATTTAATTAAAAAGACTAATAAATATTTAAATTCATCAATATTTAGAGAAATTACATTAGTAGTTGAAATTTTAGAAAAATATATAATTAATGTTTTGGGGATAAAAATGGAAAAAAATAAAAATGATATGTTAAGTGAAAGTTTAATAGAATTGTTAAATAAAATCAGAGAAGATGCTAGAATGAATAAAAATTATGCATTATCTGATATGATACGTGATGAACTGTTAAAATTAGGAATTAAAACAGTCGATGGGAAGGTGAAATAAATGTTTAAAAAGAATTTCATAAAAAGATTAATAAGATCTCTTAGAATAAATAAGAGTATATCTATAGATTTAGGAACTGCAAATTTACTTATTTATGATAAGCAAGAAGATAAAATAGTATTAAATGAACCATCAGTTTTAGCAAGAGATAGAAAAACTGGAAAAGTTATTGCAGTTGGTAAAGAAGCAAGGGAAATGTTAGGGAAAACTCCTGATAGTATAGAGGCTATTAAACCACTTAAAGATGGAGTAATTGCTGATTTAGATGCAACTCGTGAGATGCTTTCTCATTTTATGTATAAAATATATGGAAGTTCAATATTTAAACCAGAAGTAATGATATGTGTTCCATTAGAAGTTACACCTGTAGAGAGAAAAGCTTTATTTGATTCTGTTAGTGGTGCAAAAAAAATATATATAATAGAAGAGGGAAGAGCTGCTATTATTGGTTCAGGAATTGATATATCTAAGCCAGCAGGTAATATGGTTATAGATATTGGTGGAGGATCAACAGATGTTGCTATACTATCATTAGATGAAGTTATAGCTTCAAAATCAATAAGAATAGCAGGTAATAAATTTGATGAAGATATAATAAGATATGTAAGAAATAAATATAATTTATTAATAGGAGATAGAACTGCTGAGAAAATAAAAAAAGAATTGGCTACTGCAATTTATGAAGAAGTACCTAAAGTTATGAGTATTAAAGGTAGACAATTAGAAGTTCAAACTCCTGTTTCTATACAAATTGATTCTAATGAAGTAAATGAAGCTATAAAATCATCACTTTATTCAATAATTAATGCAGTTAAAGAGGTGCTTGAGAAATCACCACCTGAATTAGCTGCTGATATCTTAGATAATGGAATTGTAATGACAGGTGGAGGTTCTATGATTAAGAATTTTACAACTTTAGTAGAACAAGAAGTTCAAGTTAAAGTATACTTATCAGAACATCCATTAGATTCAGTTGTTCTTGGTGGAGGAAAAGCGTTTGATAATAAAAAATTATTAGAAACATTACAAATGAGAGAGAATTAATATGGAAATATTTAAAAATGAAATATTAAATCTAAAAAAAAGTGCTACTTTTATGCTTTTTGCAGATAATAGAATTTCTTTAATAGAAAATGCTAAAATATTTACATCTATGTTAATTAATGAATTTAATACTGATATATTAACTCATCCAGATGTTAGTTATTATCCTGAATTAAAAATTAATGATGTAAGAGAAATAATAATTAGTTCTGTTGAAAGCCCATATATTTCTGATAAAAAAATATATATTATTGATTCTATTGAAACTACAAAAAAAGAACCTTTAAATGCATTGTTAAAGGTAATAGAAGAACCATCGCCAAATGTTTTTTTTATACTTCTTACAAGAAGATTAGAAATACTTGAAACTGTTAAATCTAGGTCAATAATATTAAATTTAAACTTAACTTTAAATACTAAGCTTATAGAAGAAAACTTAGAGATGTTTAATTTTTTAGAAAATAATATGGATTATTTAAATATGTATATTAGTAAGAAAGATAGAGTTGATTTAGAAGTATATAAAGTAGAGAGTTTAGATGAAATCATATCATCTATTAAAAATTATTTTGATGAAATAAATGTATTTACAGTTATATCATATCAATATGCAATAGATTATTTAGTAAAAAACATTAGATTTATGAAGGAAATTGATATAATAATTTTAAAAGATGAACTATTATCTATATTATTAGTAGGTAATGATAATAAAAAGAGTAGAGATAGAATAAAAATATTCATGAATACTTGTATAAATAAATATTCTAAATTTAAAAATTTTCATTATCTTGATGAATTATTAGAATATAAATTATCAATAAATGCTAATGTAAATTTAAAAACATTAATGTTTTTATTTATCAACACATTATCAAAAAATTAAAGAAAATGGAGACAAATATGTCTATAGGAATTTTTGATTCAGGTATGGGGGGAATAACTGTATTAAATGAAATTAGAAAGCAATATCCAAAGCTTGATATTCATTTTTTTGGAGATACAGCTAGATTACCATATGGTGAAAAAAGTAAGGAAGAAATTATTAAATATTCAACTGAGATAGTTGAGTTTTTACTTACAAAAGAAGTTGAATTAATTGTTGTTGCCTGTAATACTGCTACATCACTTGCACTTGATGAAATAAAAGAAAAGTATAATATTAATATTATTGGTGTAATTGAAGCAGGAGTAAATGGTGTTATTAATAATAAAAGTAAAAATGTAGGTTTGATAGCAACAACAGCAACAGTAAATTCTAAAAAATATACACAAAGTTTAAATTTTGTTAATTCACAAATAAAAATAATAGAAAGAGCTTGCCCTTTATTAGTACCAACAATAGAAAATGGCAATATTAATGGTGCTTATATTAATGAATTAATAAATGAATATGTTAATCATATGAGTAAAGAAATTGACACCCTTATATTAGGTTGTACACATTATTCTATTTTAAAGGAAACAATAAAATCTCTTTATTCTAATATTAATATAATTGATCCTTCGGTTGAAATTGTAAAAATTATAAATAACAATAATTTAATAAAATGTAAAGATGAAAATTCTAAAACATTTTTCTATGTTTCAGGAAGTAAATTACAATTTGAAAATAATTTAAAAAATATTTTTTCAATTGAGTCCGATAATATTATCGAAGTAAAAGGAGAATAAAATGTACGAATATTTTGAGGGAATACTAAGTGTAAAAAATCTTAATTATGTTGTTATTGATATAAATGGAGTGGGGTATAAGATATATACTTCAATAAAAACATATGATAAACTTAATTCAATTGGAGAAAAAGAAAGACTATATATACATACTATAGTAAAAGAAGATGATATTTCATTTTTTGGATTTAAAAATGAACTTGAAAGAAGTATTTTTCTTGAATGTATTGCAATAAATGGTATAGGTGCAAAAAAAGCTATTGCGATATTATCTAATTTTGAATTTGAAGAATTAGCAGCAATAGCATCTTCAAAGAATTTCAAAGAATTAGCAAAAGTTCCTGGAATAGGAATGAAAAAAGCAGAAAAAATAATGGTAGATCTTTCTGATAAACTTGAAGGATTAAAGATAACAAATAGTAGTTCTAGTCAAGATATAGTTGAATTATATAATAAAAAAGAGAATTTAAGATTAGCCTTAGAATCATTAGGTTATGAAAAAGTTAATATAAATAATATTATAGAAGATAAATATATAAAAGAATTAAATATGCAAGAATTAATTAAAATGGCACTTCTAAATATAAACAAAAAGAAGAAGTAGGTGAAATAATGAATTTATCATGGTTGTTTATTATACTAGGGGCAATGATGTGGGGAATAGATGGAGTGTTATTAACACCTCGTTATTTTCAATATGGATTATATAATGTGTTATTAATAGTATTTATAGCTCATTTATTACCATTTTTATTCATGCTTATAACACAAAGAGGTTCTATAAAAGAAATAAAAAAAATGAATTTTTATGATAAATCATATTTTTTATTAATAGCTTTATTTGGTGGAACTATAGGAACATTATCTATTGTAAAAGCGTTACAATTAAGTGAGTTTAATCCATATAGTTTGGTAATATTAATACAGAAATCACAGCCTATATTTGCTATATTATCAGCTTATTTCATATTGAAAGAAAAGATTACACATAAATTTAAAATTGTATTTGTTATCTCGCTTATTTCACTATATTTTCTAACTTTTGGACTGAACAGTCCATTTGAAATAGAACTTAAATCTATATATTCTGCAATTTATTCTTTAATTGCTGCTATATCTTTTGGTTTATCAACAACATTTAGTAGAAAAGTTGCAATAAAATATAATGCGAATTTATCTACATTTATAAGATTTATGTTTACAGCTATAATTACTTTTATATTACTATTATTAAATATTGGTCAAAGTAAATCAGATATTATATATGTAGTTAAAAATAATCATATAATGTTACTTGCATTATTTATAGCAATATGGAATCTTATTGCAAGTAATTTGTATTATAAAGGGTTACAGAAGACGAAAGCTATATATTCTACTGTTTCTGAATTATCTTTTCCTTTAACATCAGTTTTTATAGACATGTTTATTTTAGGAAATGTTTTAGATCCGATAAGAATATTGGCTGGTTCAGTATTATTATTAAGTATAGTTTATTTAAATTTAAATAACGAATAAGGGAGAAAAAATGGAGTATATCAAAATACGGGGAGCTAGAGAACATAATCTTAAAAATATAGATATAGATATACCTAAGAATCAATTTGTTGTAATTACAGGAGTTAGTGGTAGTGGAAAATCATCTCTTGCATTTGAAACAATATATTCTGAAGGTCAGAGAAGATATGTTGAAAGTTTATCAGCATATGCAAGACAATTTATAGGTCAAATGAAAAAACCAGAACTTGATAGTATAGAAGGATTATCTCCAGCAATATCCATAGAGCAAAAATCTGTTTCAAAGAACCCTAGATCAACAGTAGGTACTATGACTGAAATATATGACTATATGAGACTTTTATGGGGTCATATTGGTGAGGCACATTGCCCTATTTGTAAATCTTTAGTAAAAAAACAAAGTATTGAAGAAATTACTAATGAAGTACATCTAAAATGTAATGATAAAGATAAATTAATATTTTTATCTCCTATAGTAATGGATAAAAAAGGAAGCTTTAAAAATCTATTTATAAATTTATCAAGACAGGGATATTTAAGAGTAAGAGTGGATGGAACTATACTTGAACTTGATGATACTATTGAATTAGATAAAAATAAAAGACATAATATTGAATTAATTACAGATAGAATAGTATTTAAAGAAGAAAATATTTCAAGAATTAATGAAGCTATAGTTAATGCAACAAAACTATCTGATGGTAATTTGATTGTTAATATAAATGGAATAGACTATAAATACAGTGAAAATTTTGTATGTAGTAATCATCCAGATATATCATTTCCAGAGATTAATCCAAGACTATTTTCATTTAATGCACCTTATGGAGCTTGTGAGGAATGTAATGGATTAGGTTCATCTTTAGAAGTTAATATGGATGCAATAGTATTAAATGAAAATTTATCTATTAATGAGGGTGCATTATCTGTAGTAGGAGGTAGCTCTGTAACATCATGGACTTGGAAATTATTTCAAGCATTTTTAAAAGGTCATGATATTGACGCAGATAAGCCTTTTAAGAAATTATCACAAAAGGAAAAAGATTTAATATTTTATGGTAGTGAAAAAGAATACTATTTCTATATTCACACTAAAGAATATAATTATGATGGAATGAGAACTTTTGAAGGACTTGTAAATCTTGTTAAAAGAAGACATAAGGAATCAATGAGTGAATCTAATAGAGAAGAGATTCAAAATAGATATATGATAGAAACTAGTTGTTCTAAATGTAATGGAAAAAGATTAAATGATATAGTTCTTGCAATAACTATTAATGATAAAAATATTATAGATGTTACAAATATGAGTATAGTTAATGCCTTAGATTTCTTTCAAAATTTAAGTTTAACTGAAAAAGAAAAACAAATTGCCGAAGAAATATTAAAGGAAATAAGAAATAGATTATCATTTTTAATTAATGTAGGTTTAGATTATTTATCGTTAGATAGAATGACTAAAACACTTTCTGGAGGAGAATCACAACGTATAAGACTTGCAACTCAAATAGGTTCAAGATTAACAGGAGTTATATATGTTTTAGATGAACCAAGTATAGGTCTTCATCAAAGAGATAATGATAAGTTACTTAAGACTTTAAAAGATTTAAAAGATATTGGGAACACATTAATAGTAGTAGAACATGATGAAGATACTATGATAGAATCTGATTATCTAATTGATATAGGACCTGGTGCAGGTAAATTTGGTGGAGATATAATAGCATGTGGGAAACCATCTGATGTTATAAATGAAGGTAAATCACTTACAGCTAAATATTTGAATAAAGAAATTCAAATAGAAAAACCTAAAAAAATTAGAAAATCAAAAGAATATTTAAAAATTAGCAATTGTTGTGGTAATAATTTGAAAAATGTTAATTTAAAAATTCCTTTAGGTATATTTACTGCTGTAACTGGAGTAAGTGGTAGTGGAAAATCTAGTTTAATTAATCAAACACTTTATCCAATATTACATAATTATCTAAATGAGAAAACTATGTTTCCATTAAAGCATGGAAAGGTAGAAGGCTTAGAAGAAGTAAAAAAAGTTATTAATATAGATCAAAGCCCTATAGGTAGAACACCTAGATCAAATACTGCAACTTATACTAAAATATTTGATGATATAAGAGGGATATTTGCAGAAACTAATGATGCTAAAATTAGAGGATTTGATAAAGGAAGATTCTCATTTAATGTAAAAGGTGGAAGATGTGAAACATGTTCTGGTGCTGGAATTAATAAAATAGAAATGAATTTTTTGCCAGATGTTTATGTAGAATGTGAAATGTGTAAAGGTAAGAGATATAACAAGGAAACACTAGAAGTTAAATATAAGGGGAAAAATATTTCAGAAGTATTAGATATGAGTGTTATAGATGCATATGAATTTTTTGAAGCGATACCATCTTTAAAAAGAAAGCTTCAAACATTAATTGATGTAGGTATGGACTATATTACATTAGGGCAACCTGCTACAACACTTTCTGGTGGTGAGGCACAAAGAATAAAACTTGCTTCTGAATTATCAAAAGTAACAAAAGAAGGAACTATGTATATTTTAGATGAACCTACAACAGGATTACATTTTGAAGATGTTAGAAAGCTTTTAATAGTTTTAGATAGATTGGTTTCAAAAGGTAATAGTGTTGTTGTTATTGAGCATAATCTTGATGTTATAAAATGTGCAGACTATATTATTGATATAGGTCTTGAAGGTGGAGATAAAGGTGGATATATTGTAGTTGAAGGTTCACCAGATAAAATTATGAAACATAAAGATTCATATACAGGTAAATTTTTAAAAAAACATTTAAATAAATAGGAGGATAAATGTATATTAACGAAGTAGTAAGAAATTTGCAAATTTCAATTATTAGACAAATTTCAGCAAGAATGCCAGAATTTAAAAATGGAATTAACATGACTATAGGTGAACCAGGTAATGATTTGCCATATGAATTAAAAAAATATATGTCAGATGTTACTCTAAATGAAAAAATTGGATATACAAATACTGGAGGAGCAATAGCATATAGAGAAGCAGTAGCTAAATATTATAACAAACTTTATGGTTCAAATTATACTTGGAAAAATGCATTGGCAAATGCTGGATCTACTGAAGGTATATCTTCTTTTTTAAGAACTGTATTAAAGCCAGGTGATGAAGTAATTTTACCAACTCCTACATATCCTGGATATGAGCCTAATATATTACTTATGAATGCAAAACCTGTATATATAGATTTAAAACATACTGATTTTGAATTGACAGCTGATATTTTAGAACAATATATAACACCAAGAACTAAAGTAATAATACTTACTTACCCTAATAATCCAACAGGAACTGTTATGGCTTTAGAAGAAATGGATAAAGTTGCTGAATTATTAAGAAAACATAATATATATTTATTAAGTGATGAAATTTATTCAGTTCTCTCTTTTGAAAAATATAATTCTTTTGCTAGATATACAGATTTAATAGATAAGATTGTAGTAATAAATGGATTTTCTAAATCTCATTCTATGACAGGATATAGAGTTGCCTATACTTTAGCTTCAGAAGATGTAATAAATAATATGAATAAAGTTGGACAATACACTATGACTGGAGTAAATACAGTCGGTCAATTAGGAGCTATTTATGCTTGTGAAAATATACCTACAAGAGATGATGTAGTAGAAATAAATAAAGCTAAATTAAACCGTATGATGAAAGGTTTAAGAGAAATAGGATTTAAGGTTATTGAACCAAAAGGAGCATTTTATCTTTTTGTTGATTACAGTATGTTTTCTAACAAAAAGTCATTAGATTTTGCATTAGATGTGTTAGAAAAAACAGAATTAGGTGTAGTTCCAGGTATTTGTTTTAATGTAGAAGGATATTTTAGATTATCTGTTACTCAAAGTGATGATATAATAGATGAAGCAATAAATAGATTGAAAACTTATGTTGAGAATGAGTGTAAATGAAAAAAGGAGATATAGTAAATCTTGATATTGTTGGTATAGATTTTCCAGCAAAACCATATGGGTATTTAAAAAATGATGATAGAAAATGTTTTGCAAATACAAATGTAGTACCTGGTCAAAAAATTAAGGCAAGAATAGGAAAAATAAAAAATAATAAGATAGAATTAAGAGATATAGTAATAATAGAAAATTCTGAAAATGTTGCTAAACCTTTTTGTGAAAAATTTAATAGTTGTGGTGGATGTTCATTTCAATATCTTAGCTATGAAAAACAAGCTGAACTTAAAGCTAATTTGGTATATAAATTGATTGATAATTCTATAAAAAATAAAAATTATGAAAAATTACCTATAGTTACTATGGGTAATGATAAAGAATATAGAAATAAAATGGAATTTAGTTTTGGAAATGAATATAAGGATGGTCCGATAATTTTAGGATTACATAAAAAAAATTCATTTCATGATATAGTAAATGTAAATGAATGTAGATTGATGGATGAAAATTTTAGAAAAATAGTGAGATTTACAAATGATTTTTTTTCTAAAAAAGATATTAGTTTTTACCATAGATTAACACATATAGGATTTTTACGTAATTTAGTTATTAGAAAAGGTGAAAAAACAAAAGAACTTGGAGTAAACATAGTTACTACATCACAAATAGAAAATTATGACATTATTGATGAATATAAGGAAAAATTACTTTGTTTAGATCTTAGTATGGGATTAAAATCAATTATTCATACTATTAATGATAATAAATCTGATAGTGTAAGGGCTGATAAGGAAATAATATTATATGGAAAAAGAGATATTACAGAGAGATTATTTGATTTAAGTTTTAATGTAAGCCCTTATTCATTTTTTCAAACTAATTCATTTGGTGTTGAAAAACTATATCAAGAAGTAATAAATAATCTTCTATTTATAACTAAAAATGATGAAAAACCTATAGTATTTGATTTATTTAGTGGTACAGGAACTATTGGTCAAATAGTATCTAAATATTCAAAAGAAGTATATGGTATAGAATTAATAGAAGAAGCGGTTATTAAAGCTAATGAGAATGCTATAAAAAATGGAATAACAAATGCTAAATTTATAGCTGGAGATGTATTTGAAAAATTGAGAGAATTTGACAAAGAAAATATAAAACCAGATATATTGATATTAGATCCACCTAGAAGTGGAGTTGGAGAAAAAACAATACTTAAATTATTAGAATATAATGTTAATTATATTATTTATGTTTCATGTAATCCAAAAACTCTTGCTGAAGATTTAAAAATTTTTGAATATAATTCATATATATTGAAAAGAGTAGTTTGTGTAGACATGTTTGGTTATACTCCACATGTGGAGTGCATAGTGTTGATACAAAGAGTGAAATCGTGAAAATCCTGCATTTTAAGCAGTTTTACAAGCATTATGTCTTTAATGAAGATGGCGATAGAGGAAGAAAAAAAGTCCTAAAAAATTATATTGATGTTTATGTTTGCATTGATATGGTGTGTGGAGATACAAAGTATGAATTGGGAAGTGAGGAATAAGAAATGATGAGATGGGTAATAAAAATAATCTTGTTTCCAATCAGCTTGCTGCTGAGTATCCTCACAGCATTTCTGACATTTATTCTTGGCATAGGAACAACTATTCTGTATTTCTTAATGCTGATGTATGTAGTTGCTGCAATAGGATCATTTATGCAAAAAGATATATCACTTGGCATTGAGGCGTTGGTATTAGGATTTTTGTTAAGTCCTTATGGAATACCGATGGCCGGAACAGCTGTTATAGCGTTCCTTAAGGGAATCAATGAAGCAATAAAATCAATCTAAAAAATTTCATACAAATGGTTACCAAAGGCGATAGATAAAAAACTATCGTCTTTTTCTTTGCCAATTTTTAAGGAGGGAGGTGAAGCGATGGACTTTGATTATTTCTATAACAGAGAGGCGGAAAGATTTAATTTTTTAAAAGTACCGGAGATATTGGTTGATGGAGAAGAATTTCGAGACTTATCAGCAGAAGCAATTATTCTCTATTTCATGCTTCTTAAACGGACAGGAATGTCATTTAAGAATAACTGGATAGACAAGGAAGGCAGAGTATTTATCTATTTTACAGTCGAAGAAATTATGAGAAAAAGAAATATCTCAAAGCCAACTGCCATAAAAACATTAGATGAGTTAGATAGTAAGAAAGGCATCGGACTGATTGAAAGAGTAAGGCTTGGACTTGGTAAGCCGAACATCATTTATGTCAAAGACTTTATGAGTGTATTTCAGGTAAAAGAAAATGACTTTCAGAAGTTAAAAAATTTTACTTCAGAAGTAAAAGATGTTGACCTCAGGAGTAAAGAAAATGAACTTCAGGAAGTTAAAAATCTTGACTGTAACTATATAGAGAATAATAAGAGTAAGTATAGTAAGAGAGAATATAGTTTTAGTGAAAACGGGTTTGGAACATTTCAAAATGTGTTTTTAGCTGCTGAAGATATATCAGACTTACAAATTATAATGAACTCACAGCTTGATAATTACATTGAGAGATTATCAGTATATATCAAAAGCACCGGAAAGATCTATAAAGACCATAAGGCAACAATCCTTTCTTGGTTTTATAAAGATCAGGGAAGAAGCAAAGAAGTGAAAACATCAAATATCCCAACATGGGAATAATATGATAAAGGAGAACACCTATGATAAAAGAATTAAAAAAAGTAATGATAGAGGATGTAGAGTATGCCTATGATCCTGAAAAAGAATACATCAAGGACGGACACGCCTTTTGTAAAGTTTGTCATGAAAGAAAAGACGGAAAAGTGATGGAGTTCTTTGATAACAAGATGATATTTAAGATTTCTTGCAAATGTGATTCATAGGTATCATTATCTTAGGGACTTTTGTGATTAACTTTGCAGGAACGGGAATGACAGGCTTTATGAACTCTACAAGCTCTGTGCTTACAACAATCTATTTATCAAAGCCAAATGTCCTAAGTGAAATCAATCAGAAATTTTCAGATATGGAGGGTAAGCTTCAAAGTGAAGTTGACCATGTGAAAGAAAATTATCCCGGATATGATGAATATATCTTAAATAATACAGAATACATCGGTCATAATGTCCATGAGCTTTTATCCTACATTACATCAAGGTGCGGAGAGGTAAAAAGTGTATCGGAAGTAGAATCCATATTAAAAGAATTATTTGAGTCCATGTATGACATTGAGTATAGGGAAGAAATTGAAATCAGATACAGGACGGTTACGGAAACCTATACCGATGAAGATGGCAATGAATATACCGAAAGCCACGAAGAACCTTATGAGTATAAAAAACCATCGTAACGCTTCATAAAAAAGAGATGGACAGTATTATCCGAAAGGTCTTTGCAAACTATCCCGATAATCTAAAGCACTATGAAGCCTTGTTTCTTGCACAAGGCAATATGAGAGAAGCCTTTGGTAATTCTGACCTTATCAGTGCAAATGGAGGTATCGGCGGTGGAAAAGAGTATGAGGCATCTACGGAAGTACAAAAGAAGATTGTTAATGCTGCATACATTACGCCATCTCCGGGTGCAGGCTGGTGTGCCATGTGGGTATCACAGGTCTATCAAAATACAGGACTTGGATATATAGGTGGGAATGCCTGTGATATGTACCGAAACTATACCTTTACATCAGACAGGTCAAAGCTAAAAGTGGGAATGCTTGTGGCAGTTGAAAGCAGCAGTAGCGGAAGCAGTGCAGGGCTTACCTATGGTCATGTAGGTATTTACATTGGAGATGGAAAAGTGATTGATAACATCGGTCGAATAAGAGTAACTACCTTAGATGATTGGATAGCAACATTTTGTAAGCACCATCCCGTAGGATTCGGTTTTCCGCCAAATGTAAAGAAATAGGAGGTAACAATTTGAAAAAGGAACTGATAGCAGTAAAAAACAAAATAGAGAAGTCAAATGATAAAAAGGCTCTGATTGATGAAGAATTGGAGCCTTTATTCATTCGTGAAGAAGAGCTTGAAAATGAAGAAATCATTGCCATTTGCAGAAAGAATAACATCACAATCAGCGATTTGATGGCAAAGGTAAACAGACAAAAAGCAGAAATGAAAAAGGAGAAAACAAATGAAAACCAGTTTGAAAAAGAATAATAAGTTTTGGACGGTAGCACTTGCGGTAATTGTAAGTATTAGTTGTATTTTAGGTCTTTGGACGGTTGTTTATGCACAGGAGCAAAAATCTGAAGCTCCAACAAAAAAAGAAGCTGTTCAAACGGAAGTTGAAGTAAATGTAAGGTATATCTTTGAAGATGAAAAGGTCTTTAAGGAAGAAAAGATAAAGGCTGAGAAAGGACAACTTATTGATAGCGGAGATCTTACAATGCTCCCAGATGATATGAAATTCATTGATGAATTTCTGTTTTATGAGGTAAAGGGAGATGGAAAAGATGAGATTATCCGTAAGGTAGCAAAGGCTGAACTTAAGGATGAAGAAACTAAGACGGAAGAAAAAAAGCCACAGCAGGACAAAAGCACTCAGACGGGAGACAAAAAGACGAAAGATAAGTCAACGCAGACAGAGCTTTCCAAAGAGGATATTTCCAAGATGGAAAAGCAGGCAAAAGAACTTAAAGGGGAGCTTGATAAGCTAAATGGTGAGATTAAGGATAAAGATAAGTTAAACGATAAGCAGAAGGAAAAAATCAAAGCTCTTGAAGATAAAATTGATAGCCTGAAAGAAAAAATGAAGAAAGATAAGGGAAATAAGGACTTATCAGAAGATATGAAAAAGGAAATAGATAAGCTGACGGAAAAGGTGAAAGAGCTTGAGAAAAAGGCAACTGAAACAAATAAAGCTCCTGTAACATCACAATCAGTTACACCGATTAGTCCTATTTCCGGAATTAAGACAAGTTCAGGTATTTTTCCTCAAACACCACAGACTTCTGTAAGTAGTACTGGTAAAGGCTCATCGGATTCGGTAAGCTCAGGTAATACTACAAAGGATACCGGTAAAGGCAAAACGGAAGTAAAGGAGAAAGAAAAGGAAGTTCGCTATCCCAATAAGTTAACGGCAAAAGCTCCTGCGAATAACAGTCAGGATTCATCAATGGGGTCTGCAAGTAAGAGCGTAAACACCAACAAGGGAGTAGCTTCATCTCCGTCAAAGGCGAGAGCATACGTTACGGAGAATAAAGATAATGCAAATAAGGAGTATCCGGTTCATCATGGAGATAGCAGCGATAACAAAGAAACGGATCAGTATTCGGCAGATGCAAGGCAGTTTATTACCTTTCAAACGAAAAACGGTAAGACTTTTCATCTTATCATCAACCACGATGAAGATAGTGAGAATGTAATGCTTCTCACGGAAGTATCTGAAGATGATTTGCTTAACATGGTGGAGAAAAAAGAAGCACCAAAGCAGGAAGTAGTAAAAGAAGAACCTGTTAAGGAAGAAATAAAGCCTGAGAAGAAGGACGAAAAGAGTAATTTAGGAACCTATATTATTTTACTTCTTGTAGTAGGTGGTGCATTAGGAGCAGGCTATTATTTTAAGGTTGTGAAAAAGAAAGAAGATAAAGAACTTGAAGCCTTAGAGGAAGAAGATGATGATTTCTTTTCTGAATCTGAAAGCGAGGAAGAAATAAATGATGCAGATGAAGTAGAAGATGAAGAATAAACGCACCTAAAAACATATTATTTTGGGTGCAAAGTTAGGGCGGGAGAGTAACATCTTTCGCCCTATTTTGATTTATAACAGGAGGAAAACACAGATGAAGTTAGTTATTGCAGAAAAACCGAGTGTTGCAATCTCCATTGCAAAGGTTATTGGAGCAAATAAAAAGAAAGACGGATATTATGAAGGAAACGGATATAGGGTGAGCTGGTGCGTTGGACACCTAATTCAAATGGCAAATCCGGATGCTTATGATGAAAAGTACGCCAAGTGGAATATTGCTGATTTACCGATTATTCCGAGCGACTACAAGTATGAAGTAGCAAAGGCAACCAAGAAGCAGTTTAACATCCTTAAAAAGCTGATGAATGATAAGGAGGTTGATATGGTTATCAATGCCTGCGATGCAGGGCGTGAGGGAGAAAGTATTTTTAGACTTGTATATAATCAAGTGAATTGTAAAAAGAAGATGAAACGCCTTTGGATTTCTTCAATGGAAGATAGTGCCATTAAAGAGGGTTTTGATCATCTAAAAGACGGAAAGGACTATGATAATCTCTTTGAATCGGCACAGGCAAGAGCTATTGCGGATTGGTTAGTCGGAATGAATATTAGTAGGCTCTACTCTTGTCTGTATCAGCAAAATTACAGTGTTGGCAGAGTGCAGACACCTACCCTTGCCATGATTGTAAAAAGAGATGATGAGATAGCAAATTATCAGAAAGAAAAATATTACACAGTAGAGCTTTCTATGAATGGATTTACACTATCCACAGACAGAATTGATGATGAAGTTGCTGCTGAACAGCTTATAAGTTTAGTAGGCGATAAGATTGCAATTACTGATGTTATTCAAAAAGAAAAAATTACAAAGCCTGATTTACCTTTTGACCTAACTATGCTGCAAAGAGAGTGCAATAAGTTCTTTGGGTATTCAGCAAAGCAAACACTTGACTATGCTCAAAGCCTTTATGAAAAGAAACTAATTACTTATCCAAGAACAGACAGTAGATGCTTAACCGAAGATATGATTACGAGCACAGTGAACAATATTTTAGGTAAAAATGACTTTGACACAGAGCGTATCAAGGTAGTATTTAACTCAAAAAAGGTTACGGATCACCATGCAATTATTCCGACAATCAGTTCATTAAAGGAAGATGTTTCTGAATTACCTTTAAGTGAAGCAAAAGTTTACTTCCTTATATCTGATAAATTCCATGCAAGTGTAGGCTATCCACTCATTGAAAACACAACAAAGATAGTAGCTTTATTTGACGGTTTTGAATTTACAAGTTCAGGTAAGGTAATTAAGGATGAAGGCTTTAGCAAATACCTTAAAGAATACAAATCAAAAAAGAGTGAAGATGCTGTATTGCCCGATGTAAGTGTTGGTGATGTTTTGAGCGTTGAAAATAAATAGATAAAAGAAAAATTCACCCAACCTCCGAAACACTTTACTGAAGATACGCTTCTAAAGTCTATGGAGATTGCAGGAAATGATGCCTTAGAAAAGGGTGTAGAGGTGGAAAGAAAAGGTCTTGGCACTCCTGCAACAAGGGCAGGAATTATTGAAAATTTAATCTTTAAGGGATTTGTCGAAAGAGATAAGAAGAATCTAATTGCAACGCATAAAGGAATCAGCCTTGTAACGATTGTAGCGGATAGCTTTAAGTCGGCAGAAACGACAGCGAAGTGGGAAATGGAATTATCGGATATTGCTCAGGGAAAATCCTCTAAGAAAGAATTTTTAGATGCGATTGAAAATGAGATAAAAGAAGCGGTTTTGACATATCGTAAGTAAGACAACACTAATTTCAGCGTGGAAAAAATGCTCTAAAAATGCTATAATGCAAAGTAATCAATTTAATGATTGAGAGGTGATTATATGTCTAAAATAAATGTTGAAGGTTCAGAGATCAGCATTATTGCCATAGACAATAGAGATTATATTTCTTTAACGGATATGGTTAGAAATATTGAGAACGGTTCTGCTTTGATTGAAAAGTGGCTCAGAAACAAGAATACAATAGAGTTTTTAGGTATTTGGGAAGAAATGTATAACACGAATTTTAATTCCCCCGAATTCGAGGGAATTAAAAATGAAGCAGGATTTAACCGTTTTATATTATCGGTCAAGCAATGGGTGGAAAAAACTAATTCTATCGGTATCGTTGCGAGAGCAGGAAGATATGGTGGAACTTATGCTCATAAAGATATAGCGTTTGAGTTTGCTTCTTGGGTATCGCCATACTTTAAATTATATTTAATCAAGGAATTTGAACGCCTAAAGGAAGAAGAACAAAAGAAGTTAGGATGGGATATTAAGAGAAATTTGGCAAAAATCAATTATAGAATTCACACAGATGCCATTAAAAATAAACTTGTACCGGATAAACTTTCAAAAGAAAAAATCAATTTTATTTATGCAAGTGAAGCGGATATTCTTAATGTTTCTCTATTTGGAATAACAGCTAAGGAGTGGCGTGATGAAAATCCGGATTTAAAAGGCAATATTAGAGATTATGCGGATATATCACAGCTTGTCTGCCTTTCTAATCTTGAGAATCTTAATGCGGTATTTATAAATGAAGGCATGAGCCAATCTGAAAGATTGGAAAAATTAAATGCAATAGCTATTGAACAAATGAAGATACTATCTGAAAGTGAATCAATTAAAAAATTGAAATAGAGTAATAATATTTGGTATATAGCGAAGGTGATTAGAGTAAAATCTAACCGCCTTTTTTGTTTGAAAAAAGAAGGAGGTAAAAATGCGAATAAATGATTTTCATAACATTTTGGAGCTAATAAAACAAGATGTTTTGTATAATGAAGCAGAATATCTGAAGCTCCTAAAAGTTGTCGGAAACAATCAAAGGTATGATTTTAGAAGTCAATTAAGTATATATGATAAAAATCCTGAAGCGACAGCCTGTGCCAAGTTCGACTACTGGAGGGAACGCTTTAACCGAACGGTTATGCGAGGGCAGAAAGGTAGCCCTATTTTAGAGGACTATGGCACATACAAGAAAGTGGACTACATATTTGATATAAGCCAGACAGTTTCAAAAAACAGGGATGTCAACGAGGTCAATCTTTGGAGATTTGATAAAGAAGCGCATCAAGATGTCTTAAAGGAAATGATAAAAAGCGAGGGCTATGAGGAAAGTGAAAGCACACTTGAAAACATCTTTTCTTTAAGCAGACTATACGGTGATGAAAAAATAGATACCTTAATGAATGAACTTAGAGTAGCGGATGAGGATAGAATATCATTTACCAAGTTTGTAAGGGACTCGGTAAGCTATGCGGTAGCTTCAAGATTTAAGTTAGATTATCCGATGGATTATGAGCTTTTAAGAGAAAATTTTCAAAGATTTGACAGCATATCCTTAATGAGCCTTGGTGAAAGTGTATCGGATATTATCGGAAAGATTATTGATGAAACCATTCAAAAAAGCAAAGAGCTTGAGCTTCAAAAAGAAGTTTTAATAGGAAAAGAAGCGGGATATAATAAAATTAAAGAAGAATTAGAGGAGGTAGAAGAAAATGTACTTCGACGAGATGATCAGGAAAGAAATGAAAACGAGCGAGTTCTCCGAAATGGAGAGTACGGACGAGATAATAGAAAAAATCAGGGAGAATACGCTAAACAGCTTGGAGGAACAGAGGGACTTTATAAGGAAGTATCCGAATCCGACCTACGCAGTGATGAGGCTGAATTACCTTTCACAGAGCGAGGAGCAGAGCCACTTCGAGATGCTTTTGGATCTATACAAGGAGAAGAAGCTGACAGGATACCTGATGGATATTCAGAAACAGGCAGTAGAGTTTATGAGAGCAGAGAAGCCGAAATTGATGGCAGCTTGGAAGATAGAGGACGAGAACAATCCGCAGTATGGGGCGATGATTTCAGCTCTCAAAGAAATGACCATCAAGGAAGTAGTGGAGATTTAAAAGACAATACGGATAAAGAGATTAGAGAAGCTGAAAAGGCTTCTTTTTCTTTACCCGAAAATTCTTATGGACAGATAAGCCTTACTATTCCGCTAACTGAGAAGGATATAGATACCGTCCTTATTGAAATCACGATGGCAGTAGGCTTCCTGTTATCGCAGAGTTTTCTAAAGGAAAAAGTAATGAAGAATTGGGAGAATACCTCAAAGATACCTTTAAAGGTGGAAACGGATTTTACATTGATGAAAGAGAAGTATCTTCCTGGTATTCGGATAAAGGTATTCATTTAGCTTATGGAACATCGGCAAGAGAGGATAATACGCAAATTTTAAGTTGGAGTGATGCAGCAAGTAGGATAAATGAACTTCTTAACAGTGGTGAGTTTGCTACAAATGTAGAACTTTTAGAGGCACAGGACTATGAAAGGGATAGAATTTCAGAATCCTTATGGTATCTAACGCACGATTTAAGCGAAGAAGGTCAAGGACAGGGATATTTTAAAATCTTAAAAATAAGCGGAGGAGGCTTTCCGGAAGAAACGAAAAGACTATCTGAGGCATTAAAAAATCCTGAATATCTAAAGGAAACAATCAAAGAATACAGCAGGTTTTTAGCAGGATATAAAGAAAATAGAGATGTACTAAGATTTCACTATCACAAGGTAGATAGCCTTTATCAGAGATTACAGGAACTTGAGCTGCCACGAAAGGAATATAGTACCAATCTGACAGAGCATCCTAAAGTAAAATCCTTTATTACAGAAGATGAAGTCAAAGCTACTATTTCAAGAGGAAGCAGAATAGATAAGGGAAAAGAGCGAATCACAAAATTTTTCAAAGAAAACCATACGCTTCAAGAAAAAGCTAACTTCTTAAAAGATGAGTATGGCATCGGGGGAAGCTCTCATGCTGTTTCAGGGGCAATGGGAAGCGATGAATGGCACGATGCGAAGGGACTTAAATTACAGAAGAATAATTGTAATGATGTGTTTCTTACTTGGTCAAGTGTAACAAAGCATATCGATGAGCTGTTTTCTAAAAATCTCTATATTGAAGAAACAAAAATAGGAAGTAAGGCAGAGATAGAAGGACCGCAATATTATTCCAAAGACAATCCTGAAAACTTAATGACGGATGAAATGCTTGAAAGAGTGCCTGAGCTTTATGCACAGGAAGATGTATCTTTAGCAGATAAGCAAGTTCATGCTGCATATATCATTCCGTTTAGAAGCAATTGGACTTGGTATATGACAGAATACGATAGGGAAAGTGGAGATGCCTTTGGACTTGTACTTGGTATTGAACCTGAATGGGGATATTTCAATCTTGAAGAATTGAAAGAATTAAATGCCCAAAGGCTTATTTTAGAAGATTTTCCAAAGACCTTTAGAGAACTTAAAGATACGGAACTTATTAAGCAGATGGATGAGCAGGAGCTTCAGTCAGTCTTTAACGGAGAACTTAGTTTTGAAGAAGAAACAGAGCTTGAAGTACCTGAAGAAGTAGAAGAAAGAATAGCTGCAACACCTGTTCAGGGAACACTATTTGATTACCTCAAAGAAAGAGAAGAAGTAGAGCTTAATGAAAAAGAGGAAAGCCTTGCAGATGAATTTGCAGTTAAAACAGGCGATACCGTATATTTCAACCATGAAGAATACACTGTAAGGGAGATTTCTAAAAACCAAATCACAAGAAGAAATGATTTATGGATTGATCCGGCAAGAAGTGGAAATCATCAAATCCCCATTGTAGCCTTTGAAGATAATGAGGACTTATTAAAGCAGGTAAGTCTTGAAAGACCTAACTTTATTGTTGGAGATGAAGTTAAATATAAGGATAAAAACTATACCATCACACGCTTTGATGATATGGGAAATAACCTAAAGACAATAACAGTCAAGGACAATACCGAATATCTTGGCGGTATGATAACAGGCTCCGATGTAATTCCTTATCGTTTTGAAAGCGACCTTGATAAGCTATTTGAAAATCTAAACTATACGAAACTTGAAAAAACTATTGAGGAAGTAGAAATAAAGAAAACGGAAGCACATAACTTTAAAATTACAGAAGAAACCTTACCCGAAAAGCTATCTCCAAGCGAAAGGTTAAATAATAACCTTGAGGAAATTTCTATGCTTAATCGTGTAGAGAGTGGAGAAAGGGAACTTGACAGTTCAGCTCAGGAAGTTTTAGCGAAGTATGTAGGCTGGGGTGGACTATCTGAAGTCTTTGATGAAAGCAGAGAAGGTCAGTGGAAAGAGGCAAGGAGCTTCTTAAAAGAAAACTTATCACAATCTGAATATGAAGCTGCTAAGGAATCGACCTTAACGGCTTTTTATACGCCTAAAACAGTCATTGACAGTATTTATTCTACCCTGTCAGGTACGGGATTTAAGAGTGGAAATATCCTTGAGCCAAGTATGGGCATTGGAAACTTTATCGGAAATCTTCCTGATGAAATGAACAAGTCAAAGTTTTATGGTGTTGAGCTTGACTCTGTAAGTGGTCGCATAGGAAAACTTCTATACCCTGAAAGTGATATACAGATTAAGGGGCTGGAAGAAACTTCCTTTTCCAATAACTTCTTTGATGCGGTTATCGGTAATGTTCCATTTGGAGAATATAAGGTAAATGACAGGGAGTATAACAAAAATAACTTCCTTATCCATGATTATTTCTTTGCCAAGTCCATTGATAAAGTCAGAAACGGCGGCATTATCGCCTTTATCACATCAAGTGGAACAATGGATAAAAAGGACGAAAGTGTAAGACGCTATCTTACAGCAAGAGCAGAGTTTTTAGGGGCAATCAGACTTCCAAATGATACCTTTAAGGGAGTTGCCGGAACGGAAGTAACATCGGACATTATTTTCCTAAAGAAAAGAGATAGTATCAGAGAAAGGGATGAGGACTGGATACACCTTGCTGAAGATGAAAATGGTCTTACCTATAACAAATATTTTGTAGATCATCCTGAACAGGTACTCGGCACAATGCGTGAAGTTTCAGGAAGATTTGGAAACACACTTGCGTGCCTGCCGAAAGAAAATGCCGACTTAAAAGAGCTTCTGACAAAAGCAAGTGAAGAAATATCCAAAGGATCAACTTATGAAGAAATAGAGCTTTTAGATGATAAAATCACTTCAATTCCTGCAACGGATGATGTCAAGAACTTTTCCTATACCGTTATTGATGGTGAAGTCTATTACAGAGAAAACTCACTTTTCGTAAAGAAAGAAGTAACGGAGAAAAATAAGGAAAAGATTAAGGACTATCTTGAACTGAATACTGCCCTTAAAGATGTTATCTATAAGCAGAAAGAGGATTTTTCTGATGATGAGGTAAAGAAAGCTCAAGAAAAGCTCAATGAAGTCTATGACAACTTTTCAAAGAAGCATGGCTTTATAAATAATTTAAGCAATACCAGAGCCTTAAAAGAGGATAGCAATTTCCCACTTGTTTCCTCCATAGAAATCCTTGATGAAGAAGAAAATTTTAATGCAAAGGGCGATATTTTCAGTAAGAGAACCATCACAAAGGCAAAGATAATCGACCATGTAGATACTTCTCTTGAAGCTCTTGTGCTATCTATGTCTGAAAAAGGTTATGTGGACTTTGACTATATGGGAAGTCTTACAGGAAAAGACAGACCAACGTTGATAGAAGAATTAAGGGGAGAAATCTACTTAAATATTAGAGAAGAACAAAACTTTTATAGACCGTTATCCTTTAACCTCGAAGATGGGGATTTACCTTTTGCCTGTGCAAATGGCAGCAATTCATATAAATATGGTTATGTAACAAAAGACGAGTACCTATCAGGAAATATCAGAGATAAGATTGCGATTGTTGACAGTTATCTATCAAAAATTAGACAAACAGAAAGAGAACTACCTCATCTTGGATATGCGGAAGATGGCAAAGAAAAAGAACTGATAAGCTATGAGATGAACCGATTGGAATACCAAAAGGCAGAGCTTACCAAAGTTTTACCAAAGGAGCTTGAAGCAAGTGAGATAAATGTTCGTCTTGGAGCAACTTGGATACCGATAAAAGATATTGAAAAGTTTATCTTTGAAACACTGAAAACTCCGGGCTGGGCAAGATGGGATATTAAGGTTAAATTTTCAAATCTCACAAGCGAATGGAATATTGAGGGGAAAAGCAAGGACAGAGGAAATGACCTTGCTGAAATGACCTACGGCACCTCAAGGGTAAATGCCTATAAGCTGATTGAAGATGCCTTGAATCTTAAAGAAACAAAGGTATTTGATCAGATTGTAAATCCTGATGGCTCCAAAACTTCTGTGCTAAATAAAAAAGAAACGCTTCTTGCAGGGCAGAAACAGGAGCTTCTAAAGGAAGAATTTAAGAACTGGATATTTAACGATCAGGAAAGAAGAAATAGGCTTGCAAAGCTATATAACGAGCGTTTTAATTCAATCCGTAACAGAGAATATGATGGAAGCAACCTGTCTTTTGAGGGAATGAATACGAAAATAGAGCTTAGACCTCATCAGAAAAATGCTATTGCAAGAAGTTTGTATGGAGGAAATACCCTGCTTGCCCATGTGGTGGGAAGCGGCAAGACTTTTGAAATGGTAGCTTTTGCAATGGAATCTAAAAGGCTTGGGATGTGTTCCAAGTCTTTATTTGTTGTACCGAATCACTTAACAGGTCAAATTGGCAGAGAGTTTATGCAGTTATATCCGTCAGCTAACATTATGGTGGCAGATAAAAAAGACTTTGAGCCGAAAAACAGAAAAAGGTTCATAGGAAGAATTGCTACTGGTGAATATGATGCGGTTGTAATTGGGCATACGCAATTTGAAAAAATTCCGATGAGTAAGGAATATCAGGAAAAGCATATTCAGGATCAGATTGATGAAATCATAAACTATGTTGAGGAATATAAGCATGATAGAAATCAGAATTTTACAGTTAAAGAGTTGCAAAAAACAAGAAAAAAATTAGAAGCAAGGCTTGAAAAACTAAATGATGATTTCAAAAAAGATGATGTCATTACCTTTGAAGAGCTTGGCGTGGATAAACTTATTGTCGATGAAGCTCACAACTACAAGAATCTTTATCTTTATACGAAGATGAGGAATGTAGCAGGCATTGGGCAGTCGGAAGCATTTAAGTCCTCCGATATGTTTATGAAGTGTAGATATATGGATGAAATACGGGTGGAAAAGGTATTGTATTTGCCACAGGAACGCCTGTATCAAATTCCATGACAGAGCTTTATACCATGCAGCGTTATCTTCAGTATGAAAGCCTAAAGAAAAACGGATTGAAGCATTTCGATTCATTGGCTTCTACCTTTGGAGAAACATAGTCAGCTTTTGAACTTTCTCCTGAGGGAACCGGATATAGAGTGAAGACAAGATTTTCCAAGTTCTATAATCTTCCGGAGCTTATGAGTATGTTTAAGGAAGTAGCGGATATTCAGACAGCGGATATGCTTAATCTTCCAACACCTGAAGCACACTATGAGGTTATTAAGACTTTGCCAAGTGAGGAGCAAAAGGAAATCCTAAAGAGCTTATCCGAAAGAGCTGATGATGTCAGAAACAGGGTGGTAGAACCTGATGAAGATAATATGCTGAAAATAACCAATGACGGTAAGAAACTTGCTTTAGATCAGCGTTTAATCAATCCTCTGCTACCCGATAATCCTGACAGTAAGGTCAATGTCTGCATGAAAAATGTGTTTGCCATTTGGGATAAGACAAAAGAAGATAGGTCAACACAGCTTCTATTTTCCGATATGTCTACACCAAAAGGCGATGGGGAGTTTAATATCTATGATGATATTAGAGAAAAACTTGTAGCAATTGGTATACCGAAAGAAGAAATCGCCTTTATCCATGAAGCCAATACTGATAAGCAAAAAGATGAACTCTTTGCAAAGGTAAGAAAAGGAGATGTGAGGATTTTGCTTGGTTCTACTCAGAAGATGGAAGCCGGAACGAATGTGCAAAACAAGCTGATTGCACTTCATGACCTCGATGTCCCTTGGGTGTGACTTGAAAGTCGCATAGATAATTGTTTAACTAAATAAAGATTAAACCCTCTATTCCGTTAGAGGTAGCCTAATACCACCTGCTTTATCAGCAATGATAATGTTTGGAAGCTGGTATGATAATGTAGCCCTCCACGAAAGTGGTAAAGTCGAAGCCGTGAGGCTAAGGTGAATCTGCTAGCAGCAATGCGGTTAGGGAGCTAGGCTTGAGTAGTATGGCTAACATAAGTGAACTGTCATTTAAACGTCGTAATGTCCAACGAGCCAAAGTTGCTGATAGGCTCCAGCCCAAAACGGGAAGCGGTCAGTTAATTCTCTCCATGGTAGAATTACACGGATATAAGTACCGTCGGCGAATGAGACAGAGCCTAACCTACTCTTGTTATCTATGTGGAACAAGGTAAGCCTGTATCTCTCCTAAGAAATTAGGAAAGTACTTCGTAAGAAATACCGATAGAGGTGCAGGTATAGGATTGTAGAAAAAGCGAATGTCATTTTGTAATGAAATGAATAGGGGTTCAAGATTTGCCCTAACCCGAAAGGGTGCAGACTTCTACGTAAGGTAATTCTTTACAAGAAACTTATAGAATTTTTGAAAGGAGTAAAGCAAATGAACGTTAATAAAAAGACGTGTGCAACTACTGACCGTGAGTTTGCATGTAAATCCATTGACTGGAAAAAATGCGAAGCACAGGTTAAAAACTACAAGAACGTATTGTAAAGGCTAGAAAAGAAGGTAGACACGGCAAGGTAAAATCCTTGCAATGGACACTGACACACTCTTTTGCTGCAAAAGCAATCGCAGTAAAAAGAGTGACAACTAACGAAGGTAAGAAAACAGCAGGAGTAGACAAAGTATTATGGTCTACGGACAAAGCAAAGTATGAAGCAATTTTAAGTTTAAAAAGAAATGGATACAAACCACAGCCATTACGCAGAGTATTTATTAAAAAAGCGAATGGGAAATTACGCCCGCTTGGAATACCTACAATGAAAGATAGAGCAATGCAAGCACTATATCTATTAGCACTTGAGCCAATTGCAGAAATGACGGTAGACCATCATTCTTATGGATTTAGGAAAGAAAGATGCCCACAAGATGCAATACAACAATGTCATACAATCTTATGTCGTGGGAACTCTCCCAAATGGGTATTAGAGGGTGATATAAAAGGTTGTTTTGACCACATTAGTCATGAATGGTTACTTAATAATATTCCTATGGATACCAAAATATTAAAGAAATGGTTGAAATGTGGAGTTATCTTTAAAGGGGAACTATTCAGAACTGATGAGGGAACAATGCAAGGCGGAATTATTTCACCAACACTTGCTAACATGACATTAGATGGACTTGGTGAATTATTAGCTACTAAAAACAAGAGAATAAATCGAAAATATGAGAAATACTCTCCAATGGTTAATATGGTGCGTTATGCTGATGATTTCATAATCACAGGTAGAACAAAAGAGACATTGGAAGACATTAAACCAATGTTAGTCGAGTTCTTAAGTGAGCGAGGATTAGAATTATCGGAAGAAAAGACTTTAATTACACATATTGATGATGGATTTGATTTTCTTGGATTTAATATTAGGAAATTTAAAGGTGTATTACTTACACAACCATCTAAAAAGAGTGTAAAGAAGTTCTTAGATAGTATTAGATATGTAATAGATAGCAATAAGTCTTGTAAACAAGAGACTCTAATAAGGCTGTTAAACCCTAAAATAACCGGTTGGGCAAACTACTATAGATGTGGAGTTTCATCAAGGACATTTCAAAAAGTGGACAACCAAATTTTCCAAAAGCTGTGGCAATGGGCGAAAAGACGACATCCTAAAAAAGGGAAACGTTGGATTGCTAATAAGTATTTTCATTTCTATAAGACTAGACGTTGGACATTCTTAGTAAAGTCCATAAAGAAAGGGAAAGTAGATATATTTCCACTAAAATTTATGTTTGATACAAAAATCATCAGACACAAGAAAATAAAAAGTGAAGCGAATCCATTTGATATAGAATGGAAATCATACTTTGAAGAACGAATGACCTATAAAATGCTCTTGTCACTTAAAGGAAGAAAATCACTCTTGTATATGTGGAACAAGCAAGAACATAAATGTCCACTTTGCAATGAAAAGATAACTGCTGACACTCAATGGAATGTACGAGAACAAAGAGAAAACGGGCAAATAGTACGTTATTTTGTGCATGATAAATGCTACAAAGAAAATCGTTAGTTGACTAGCCGACATCTGTATTGGCAGATGTTTTGAATTGCTTGAGCCGTGTGAGGGGAAACTCTCATGCACGGTTCTTAGAGGGGAAAGGGATAGTAATATCCCTGACCTACTCGACCGTCCTGCCGACTTGGAGCAGCGTGCGGGCAGAATTGTTCGTCAGGGAAATGAAAACAAAGAAGTAAATATCTATCGCTATATTACTGAGAACACCTTTGATGCCTACCTGTGGCAGACCATAGAGAATAAGCAAAAGTTCATTTCTCAGATAATGACAAGCAAGACTCCTGTCAGAGTGACGGAAGATGTGGACGAAAGTAGCCTTAACTATGCGGAGATTAAGGCACTGGCAACAGGTGATCCGAAAATCAAAGAGAAAATGGATTTGGATAATGAGGTTACAAAGCTGAAAATGCTGGAAGCCAATTACAAGTCAAATCGCTATCGTTTGGAAGACAAGGTTGCAAAAACCTACCCTGATGAAATTGCAAAGCTTGAAAAACTTATCGAAGCCGTTAAAAAGGATATATCAAGCATAGAGCCATTAGGAGATGGCGAAAACAAGTTTACTTCCATAACCCATTAACGGAGTAAAGATAACGGATAAAAAAGAAGCGGGCGAAAAGCTGCTTGAAGCTATAAAGACCGTAAAAGTAAATGAGAGCAAGGTCATCGGTAAATATCGAAATATGGATCTGGAAGTAAGCTACAACTTTTTTACCAATGAGCATAACTTCAGCTTAAACGGTGCTTCTAAAACGATAGGAGAGCTTGGAACAAGTGCAGACGGTAATATTACAAGACTTGATAATGTCCTTGAGAAAATGCCTGACAAACTAAAAAGGCTTGAAGAAAAATTCGTCAGCATCAAAGAGCAGCTTGAAAATGCCAAAGAGGAATTAAAAAAGCCTTTTGAAAAGGCGGATGAGCTGAAAACTAAGGTATTAAGACTTGCGGAGTTAAATAAGCTCCTTGATATGGGAGAGGTGGAAGAAAAAGAAACCCCCAATCCATTAGTGGAAGATGTAAAAAGAGCTATTATTGACTTTTGTAACAGAGAGTATGAAGAAAATCATAGCTATGATGAATTCAATACGCTGTACCCTGATTTAAAGCATATAGGGATTGCCTATACGAATACACCTGATGAAAAGCACAAGATACAGTTTGAACTTAATCTTGAAGACTTTACGGCTACGCAGCTTGTAAACGGCAAGGAGATAAGCCATTACGATTATGTCAAAGAAAACGGAAACGAAGAAAAGGCTCTTGATTGCATGAAGTTTGAAATGGAAAACGGCGAATTTAGTGCATTTGTTTCTGTTGATGAGGAAGAATTAAGACAGGCGTTAGGTCTTGAAATTGATGATGAAAGTAATTTCTATGATCCGCTTACAAAGGACTTGGATAATGACGGCGTGCCTGACAGGTATGATAATGATTTTAGAGATAGCGACTACTTTGAGTCTACCTATGATGTGGAAGACAATCTCCACGCAAAGGAAGAAAAGCCGTCTATCTTAGGGCAGATTAGGTCATTTCAGTCGGAGCAGAAAGAGAAAGAAGTAAAAGATACAAAATCAAAAGAACATGATGAACGATAAGGGGCTTGATTTAAGTCCCTTATTCACTTTTAACAACAAATATGGAGGTATGAATAATGAATTACAAGGAAATGAGAAATACCATCGAGCAGATGGCAAACGAGAACTACGAGGACTTTACAAAGGCTCTAATCAGTTTTGAAAAGGGCGTGAATGACAAGGAAGCACTCGATATATTGTATGACAACTACACAAACAACGACTCACTAACACTGCTTAACGAGGAATTTGACTATATGATTGATGAGCTTCGTGAAAGCGGTCAGATTAAGGAGAATGCAAGTCTTGAGAAAGAAGATAACGACCTGGTCAATATTGTCGGTGATGTCGAGGTAGTAGAACGAGAAAACAAGAATGGAGAAGCCTTTAAGGTAGTCAATTTCTCCGTTGTATCAAAAGACGATGAGGGCAATAAGCACTATACGAATTGCTCTGCTTATGGAGAAAAGGGCGATATTCCAAAGGACTTTAAGCAGGGAGATTTTGTAAAGCTCTTCGGTCAGGAGAGAAAATCTATTGACGATAATGGCAAAGAGCATACGAATGTAAGGATACTTGTTTCTAAGCTCTTAAAAGCCAAGGAGCAAATGAAGAGCCAGGAAGAAAAGAAAGAGTCCGTCCTTGGAGCAATCAAGAAATTTAAGGCGGAAGAAAAAGCAAAGCCTACTGAGAAGAAAGAAGCTTCCAAAGAAGCGGAAAGATAATGAATTGTCGGTGTGGTCTTCGGACTGCACCGATTATTTTTTTGTGGAATAAAATATAGATTTATGCTATAATATTATGAATGAAAAATCCATAATTATGGAATAAGGAGCGATAAATATGAAGTTTAGCTACAATGGATTATGGAAAGTGTTAATAGATAAAAATATGAAAAAGAAAGATTTAATAGATAAAACAGGTATTTCCCCAACTACAATATCAAAAATGGTTAGAGGAGATGCTGTGTCTCTTACGATTATCGGAAAAATTTGCGTAGAACTTGGAACAGATATTGGGGATTTAATTTGTATAGATAAGGATTTTAAGGAGGATAAGTAATGGAAAGTACATACAATGCACTTGAATATAATAAATTAATTAGTTTTATTTGGTCTGTCGCGGATGATTGCCTAAGAGACGTTTATGTAAGAGGAAAATATAGAGATGTAATTCTTCCTATGACCGTAATCAGAAGATTTGATTCTATTATAGAACCAGAAAAAGCTAACATAATGAAAGTTAAAGAAATGGCAGAAAAACAGGGCTGGGATGTTACGAAAACATTGGATACAGCCGTTGGGCTACCATTTTATAATACTTCTAATTTTTGCCTAAAAGACTTAAAACATGAAACTAATAGACAAAACTTAAAGAAAAACTTTGAAGAATATTTAAATGGCTTTTCGGAAAATGTAAAAGAAATTCTTCAAAAATTCGATTTTAATAACCAGGTAACAAAAATGACTGATGCTGGTATTTTAGGTTCTGTTATCGAAAAATTTACTTCAAGTGAACTTAATTTGAGTCCGTATGATGAGAAAAACTCTAGTGGAGATATTATCAAAAAAGGCTTAGATAATCATGCCATGGGAACTTTGTTTGAAGAAATAATTAGAAAATTCAATGAAGAAAATAATGAAGAAGCAGGGGAACACTTTACACCTCGTGATCTAATTGAGCTAATGGCTGATATTACTATGTATCCAATTATGGATAAAATAAAAAATGGTACTTATTCAATCTATGATGGAGCCTGCGGTACTCTTGGCATGGGAACTGTTGCAGAAGAAAGACTAAAAGCATTCGCAAAAGAAAATGATAAGGAAGTATCTATTCATTTGATTGGACAAGAAGTAAATCCAGAAACATATGCAATTTCTAAAGCGGATTTGCTTATCAAAGGCGGGGACACAGACTCTAATAATGTTTACTATGGCTCTACCCTTTCTGATGATAGAACTTCAGGGCAACATTTTGATTTCATGTTATCTAATCCTCCATATGGTAAAACGTGGAAAACAGATTTGGCTATTTTAGGAAGTGGAAATGATAAAGATCCAAAGAAAAACATAATAGATAGACGTTTTGTCAGAAATTATAAAGAACAAGATGATTTTAGAATGATACCTGATGTAAGTGATGGACAATTACTTTTCTTACTTAATAATATTTCCAAGATGAAAGAAACTGAAATGGGATCTCGGATTGTTGAGGTTCATAATGGTTCAGCTCTATTTACAGGTGATGCAGGAAATGGAGCAAGTAATGCAAGAAGGTTTATGATTGAGGAAGATTTGATTGAAGCTATTATTCAATTACCTGAAAATATGTTTTATAACACTGGAATAACAACATATATTTGGATTCTATCAAATAGAAAAGAAGAAAGAAGAAAAGGAAAAATTCAGCTTATTAATGCTAATGGCATCAAGACGGCACTTCGAAAGAATATGGGTAAGAAAAATTGCGAGTTTTCAGAAGCTGACAGAGAATTTATATTAAATCAATATCTGAAGTTTGAAGAAAATGAGTACTCAAAAATCTTTTTAAACGATGAGTTTGGATACTATAAGGTCGTAGTAGAAAGACCTTTAAGACAAGCTGTATTATGCAATGCTGAAAATTTAAAAGAAATAGAGGAAGAGCTAAAGAAGATAAGAGCTTTTTCGGGAAAGATAGATAAGAAAATACTTGAGGATAGTTTTATCAAAGGAACAGCCACATCTATCAAAGAACTTGAAAAGAGTGAAAATATTGAAGCATATTTGGAAGTCTTGAAATTAATGAATAAGGAAGAAAAATATCTGGATTATGTAGCTTTTGAAAAAGACTTTAACAAGCATTTAAAAAAGAAAAATATAAAAGGTGCAAGTTTAAGTAAGTTTGTTTCAACAGGATTGCTTGGCAATATGATAATTCGAGACGAGAGTGCTGTTATCCAAAAGGACTCAAAAGGAAATGTGATTGTAGATCCAGATCTTAGAGATACAGAAAGCATTCCTATGACATTTGAAGGTGGAATAGAAGAGTTTATTAAAAAGGAAGTCTTGCCGTACCATGCGGATGCTTTTGTAGATGAGAGTAAAACACAAATTGGCTACGAAATAAATTTCACTAAATATTTCTATAAGGCTAAAGAACTTGAAAGTGTAGAAGATATTGTAAGTCGTATTAAAGAATTAGAAAGACAATCTGATGGTATGATGGCTTCTATATTGAAGGGGCTTTATGAATAGATATGAGAAATATAGTAATTCAGAGCTTACTTGGTCAGAGGCTATACCAGAACATTGGGGTGTAAAAAGAATAGCTAGAGTGTTTGATATAAGAAAAGAAAAAAATTCCCCTATAAAAACAAAAGAAATTCTATCTTTAAGTGCAAAGCATGGTGTTTCTTTATACTCTGACAAAAAGGAAAAAGGGGGAAATAAGCCAAAAGAGGATTTAACATCATATAACCTTTGTTATCTAGGAGATATTCTTATAAATTGCATGAATGTTGTCGCAGGATCTGTTGGAATTTCTAATTATTTTGGTGCGGTAAGTCCAGTGTACTATCCGTTGGTTAATATGAACCAAGATGAAAATGGTACTAGATATATGGAATATGTATTTAGAAATTATAATTTTCAAAGGAGCTTAGTGGGTCTTGGAAAAGGAATTCAAATGTCTGAAGCCGATGATGGAAGACTGTACACAGTAAGAATGAGAATATCTTGGGATATATTGAAAACACAGCTTTTACCAATACCACCAATAAATGAACAAGAACAAATTGCAAATTATCTTGATTGGAAAATCAATGAGATAGATAGATTAATTCAAATAGAAAAAGAAAAGATAAAAGAGTTAAAAAGATTAACGCTTAATATTATTGCTGAATTTGTATTAAAAGGTATTAATACGCTGAATTATAAAAAAAGCAATATAAAATGGATTGATAATATTCCAAGCCATTGGAATGAGATATCGATTAGAGGATGTGTAAATATTATTCGTGGTAATTCAAGTTTTACAAAAGACGATTTGAAAAATCAAGGGGAATATGTGGGATTACAATATGGGAAAGTCTATAAAACTGAGATAATAGATTCAGAGTTTAATTTTTATGTTAACGATAAATTTTATAAAACTTCTCAAGTTGTAACTAGAAATGATATTATCATCGTTTCTACTTCTGAGACAGTGGAAGATTTAGGACATACATCATTTTACGACAGACATGATATTGGGCTTATTGGAGGGGAACAAATATTATTAAAGCCATTAAATAATATCAATTCCAAATTTCTATTCTATTTATCTAAAATTTTTCGTACACAGTTGCAACTGTGTGCTACAGGAATAAAGGTTTATAGATTCAAAATTAGTGATTTAAAACAACTATATATACCTTTACCGCCAATAGAAGAACAGGAAAACATAGTTTCAAATATAGAATTAAAATTGAAGCAATTAGATGAAAGAGTAAAGAATAATTACAATCTAATTAAAGAATTAGAGTTATTAAAACAATCATTAATTTCAGAAGTAGTAACAGGAAAAATTGATGTAAGAAATATTGTTATACCAGAATATGAAAAAATAACTGTTTTAGATGATGAAACAGAAGAATTTGATGAAATGGAGGATATAGAAGATGGGGATTAGAGATACAAAGATGGAAGCAGAACTTGAAAATAATATCATTGAGTATCTTGTTTCGAATCAGGGTTATGTATATATAAAATCAGACGAGATGAAGATTTCTTTTGATAGGAAATATGCTTTTGATGAAAAGAGGCTTTTGGAATTTATTAAGACATCTCAGCCTGATGAATTTGATATCTTAAGGCTTGATACAGACAGTGGAAAAGAAAAGTTCTATAAGCAGCTGGATACTTCAATTAGGCAAAATGGGATTGTTGCTGTTTTAAAGAATGGTATTAAGTGCTATCCATCCTCAGGGACTATCATTTTTTATCATGCCTTAGATCCTAAAAGACCAAGTTCTTATGATGAATTTAAAATGAATATTTTTTCAGTTACTAATCAGTTGACATATTCTGATAAAAATAAAGGCTTAGAACTTGATTTGGCTATTTTTGTAAATGGGCTTCCAATTATAACAATGGAACTTAAGAGCAGAGCCTCTAGCACAGGCTGGACATATAAAGATGCCGAAGAGCAATATAAAAATGACAGAGATCCAAAAGAAACCTTATTTAGTTTTAAAAGGTGCATTGCACATTTTGCAGTTGATGAAAACTTTATTACTTTTGCAACAAAATTAGATGGGAAAAACACAAGATTTATGCCATTTAATAAAGGTACTACCGTTGGCGGATCGGGAAATCCTATAAATGATAGTGGCACAATGACAGATTATTTATGGAAAGTTTTTTTGAAAAAGGAAACATTGACAAACCTAATAAGAGACTTTGCATATATTTCTGTAGATAAAGTCAAAAAAACAGAAACGTTGATTTTCCCTAGATATCATCAATATAGAGTGGTTACAAGACTTGTAGAAGATGTTCAGAAAAATGGTGTCGGAAGCAGATATTTAATCCAACACAGTGCAGGTAGTGGTAAGAGTAATTCTATAACGTGGCTCGCTTATCGTTTGGTTGAAGTTGATTATAAAGACCAAAAAGCTTTCGATTCGGTAATAGTTGTTACCGATAGATTGAACTTGGATAAGCAAATTAACGATAATATTAGGAAATTTATAGATGAAAAGAGTGTTGTTGGACATGCTGGTTCTTCAACAGATTTAAAGAATATGTTGATTGATGGTAAAAAGATTATCATTACAACCGTTCAGAAATTCCCATATTTATTTGAGAAAATTGGAACTGATTTAAAGGGTAAGAATTTTGCAATTATAATTGATGAAGCTCATTCATCACAAAGCGGTAGGGCAGCAGCTTCATTAAATATGGCTGTATCAGGTAGCTTAGGTAATGAGGATGAATTTGAAATAGAAGATAAACTAAATGAGCTGATTGAGGCAAGAAAGATGCCTGAAAATGCAAGTTTCTTTGCTTTCACTGCTACTCCTAAAGCAAAAACTATCCAAATGTTTGGAAGTGTATTTGATCTATACTCCATGAAACAAGCTATTGAAGAAGGATTTATTCTTGATGTTTTAAAAAATTATACACATTATGAAAACTATTATAAGATTTACAAAACAATAGAAGACAACCCTGATTTCGATAAAAAGAAAGCTCAAAAGAAAATTAGAAATTATGTGGAAGGTCAAGAATTTCCAATAAGAGAAAAAGGCGAAGTTATGGTGAATCATTTCCTTGCAAATACAGTGAATAAGATTAATGGAAAAGCAAAGGCAATGATTATAACACAAAGTATTTTAAGAGCGATTGAGTACTATCACATAGTTAGTGAGCTACTAAAAAATTCTAACACTGGTTATGAAGCTTTGGTTGCATTTTCTGGCGAAAAAGAATACAAAGGCAAGATTGTAACAGAAACAAGTTTGAATGGTTTTTCTGATAAAGAGACACCAGAAAAATTTAAGCAAGATAAATATAAGTTTTTGATTGTTGCTGATAAATATCAGACCGGATATGATGAGCCTCTTTTACATACAATGTATATGGATAAGGTTTTGAATGATGTTAAGGCAGTACAAACTCTATCAAGACTTAATAGGAGTGCTAAATATAAGATAGATACTTGCGTGATTGATTTTGCAAATGAACCGGAACATATATTAGAAGCTTTTCAACCATACTATAAGGAAACAAAGTTAGAAGGAGAAACAGACCCTAACAAACTTCATAATTTATTATCTATGCTTGATGCAAAGTATGTTTATGAAGAAGATGAAGTTGATAGATTAGTTGATCTATTTCTAAAAAACAGCCCAAGAAGTTTTATTGATAGCATTTTAGATAAGTCTGTGGAAAGATATACAGCTCTAAGCGAAGAAGATCAGGTTGAATTTAAGAGTGGTGTAAAATCTTTTATAAGAACCTATAATTTCTTGGCATCTATTCTGCCGATTGGTCAAGTAGATTGGGAAAAGAAAGTGATTTTCTTTGAACAATTGATTCATAGATTGCCGACACCAGAAGGAGATGATTTGTCTGCAGGAATTTTGGAGTCAGTTGATTTAGAAAGTTATAGGCTAGAAAAGAAAAATACAATTGATATTATTTTGGAAGATGAGGATGGTAAGGTTGAAGGCTTGGGTATAGGAGCTGGAAAAAAGAATGAAGTTGAGCTGGATACATTAGAAAATATTGTATCTACATTTAATGACATTTTTGGGAATATAGACTGGCAAGACAAAGATAATGTTGCAAGGCAAATAAAAGAATTACCTGAGATGGTAATGAAAAATGAGAAATTCAAAAATGCTCTAAAAAACTCAGATATTGAAAATATCAAAAGAGAGTATCATTCAGCGTTAAAAGAAGTTTTCAGAATTATAATGGTAGATAACATGGAACTATTTGGACAATGGACAAATAATTCTAACTTTAGTAAATGGTTAAACGATACAATTTTTGATGAGATTATGAAGAAAAATAAACGGTAAAGGTGGCGATTAATTTGGGTAATATATCAGGCATTACTAGAAGAGATATAATTGATTTGTTTAAAAATGGCATAACCGAAGATAATTGGCTAGTAGAAGAAACCATATATTACCCTTATTATGGTCGCTTTGATATCGTGGATTTTCTTAAAAGATTGTATAAGCTAGACACTTGGGAAAGTGGAGATTCTAGGCTGAAAAATGCAGAGCAAGAAATTATGATGCATACACGTAACGGAGATTATTCAGATAATTGGATTTTTGATGATGAAAGATTTCACTTGATAGATGGAACGGATAATGTTTTTTTAGATTTTTTATGTGAAGTTTTTCATCCGGAAGTAAGAGATGAGAATAAAGAATGGAAAAAGTACTTTGAAAAAATAAATAGCCTATTGCGAGAAGATGGATATGAGCTTGTTGCGTCAAGTAAGATATCAGGAAGGGATGTGTTTAGCTGGAGAACATATATTAAGAAACCAGATATGTATATCCCTTTTTCAGAAAGAAACAAGTTCTTAATAACTGGCAAAAAAATCAGTATTAAACTTCCTAATGCAGTGAGACATCAACTTTTTAAAGTGATGGATGTGTATGATGAAGAATTTTACCTAATTGATGAAACCAATTGGAATTATAGGAAATATAGTAAAGAATATGTTCTAGAAGATATTAATAAATTTTATGTAGCAAAGCATTATGTTGGCAGTAATCTTACCGAAATAAAAAAGTTTAGTGATTTTCAGGAAGGTACTTCTCCATTTGTAATTTTTGATGTTATTGAAAGTTTCTGTAGGCATATTACAAATTACGAAGGATTTGAAAATGAAATTAATGCTATTTTAAAATTAAAAAAAATCAATGTAGTGCTTAGAGGTGGAGAGATACACTCTTCTGTTAATAATTCGTTTTTATTGGATTCTACTTTGAAAATTAATGAAGTAGGACTAGAAGAGTTAATTAGAGTTGCAGAAGATTTATATGGAAAAGGTAAATATTCGTATGCTGTTGAAAAAATCTGGGATGCGTTTGAAAGAATTAAGACTTATTATCCTACTTTGGATAAGAAAAACTCAGCAGAAAAAATCATTAATGATATAAGTTATGGGAATGAGCATATCAAAAAAATGTTTGATAATGAATTTAAAGCATTGACGGATATAGGGAATTCATATCGAATAAGACATCATGAAATTTATAAAATAGATATTAGCAAGGAATTGCATTATAAGTATTTCTATAAAAGATGTTTAGCATTAATTTCTGTAATATTAGAAAATTTACAGTAAGGGGGGATGAATTTGTTTTTTGATAATAGCAAATATTTTATATTTGATAAATCAATACCTACCTCAAGTGGAGAAAAAATTCAGGTATATAAACTTAATAATGAATTGTTAGATGATAATAGTTTGAATAATTGGGCTTTGGGATTGAGAAATAATTATATTGAAGAACATCTGTTGGAACAAGCAATTTCAGGAACTGGATTAGCGAAAAAAGAATATTTAGAAAAAATGATTTTTCCAAATCCAAGAGTTCCTCAAGGTGCAGCAACTATGTCAGGGGAATTTGGTGAACTGTTAGTGTATGACTATATAAATTATGTTTTAGAATACTATGTTCCGAGAATCAGATATTTTAATAAAGTTAATCCTAATACACCTATCCATGGTAGTGATGTTATTGGATATAAAATGGAAAGTTATAATAAAAGAAGTAAAAATGATAAATTATTAGTTGCAGAGGTTAAAACTCGCTCATCTATATCTGGAAATAAAACCAAGATTTGCACAAACATTGTTACTGATGCAATTACGGATTCTAATAAAGATAGAGTTAGAGTCGGAGAATCTTTAAATGCTGAAAAATTAAAATTGTTAAATAGAGGTAGGATTAAAGAAGCCAATATTGTGGAGCGATTTCAAAACAAAACAGATAATCCATATACCTTAGATTTTTTTGCAGTTGCTGTGATGGATAGTGATTTGTATTCAGACCAGGTGGTTTTGGATGTGGTTAATAGTCAGCATGAAAATGTAAAATGCACGAGTATATTGATAATTCATTCCAAAGAATTGCTGCTCTTATTAAGAGATTTATATAGGAGGGCTTGCTCATGTTGATAGAAAGTACTTCAAAATATTATTTGAAAAAAGTTCGAGCAAAAGCAAAAATGTATGAGTATGGCGTGCCAGAAAATCTTCATATAGAAGTTGAAGAACAAGCAAATGATCTTATATTACTTAGCATTGGGATAGTTGGAGACATCGCTAATGAAATATGGAACATGAAACAAGCTCCTATAATTCTTTCGAAAGAAAAGGAAGAAGAATTGTATTTTGTATCAAGGTTTTTTGATGCTTATTTTCAGTCTGAAATGAGTATTGACTTGAATTCATATTATATATTGATGGGAGCGGTTACTTATTATTTTTGCAATATGAATGGCAGCTCAAAAGTAATGATGAGTATTATGCATAATTGGAATAATTTTGAATTTTCTGCTTCTGGATTAGAAAATGTAATAATATGGCTGTTAGATGGCAACTATAAATTTGATGTTTCCGATATAGATGAAAAATACAAAAGCTATATTATCCAACTAATTAATTATCACAATAGGTTTTTTGATGGTGAGAATCTAGAGAAAGCTCAATTTGAAGAATTTAGAAACTATGTTTATCACTTTGGGAATGATAGAGAAATATTATTTACAGATATTATTTTGGCAATTTTGAAGAAAAAAATTTACAATTCATGTATTAATCTAATGCCACTGTATTCAGGACTTGATAAGGACAATTGGATTTCAACATTTAAGAATAATGCGATGATGAAAGAAATGTGGTCATCTCAGATTTTGTTGGGAGAAAAAGGAATTTTCAAAGGGAAATCGGGTGTTATTCAAATGCCGACAAGTTCAGGAAAAACTACATCAGTCTCTCTTGCCGTACAATCTGCATTTTTATCTAAAAGAACATCTATTGTAATTGTTGTAGCTCCATTTAGGGCATTATGTAAAGAAATAATGTTTGATATGGAGAAATTTTTTTCGTTTGATAAAAATATAACCGTAACTGAGTTTTCTGATGTTCCCGAGCCCAGTGAAATAGAATTAGTCACATCTGAGTCGATTGTCAAAAAAATAATTGTTATGACTCCAGAAAAGTTGGCTTATATTTTAAAACACAATACGGAAATAATTGAAAGTATTAACATGATTGTTTTTGATGAGGCTCATTTGTTTGATGATGAAACAAGAGGGACGGATTATGAACTTTTATTAACAACTATTAATAGTTATCTTAAACCAGATGCACAGAAAATATTAGTTTCAGCAGTAATTTCGAATGCTGAACAGCTAAACACATGGATTAACAAAGATGGTATTGTAATAAGGAATAATACTATTAAGACATCAGAAAAAACGGTAGCATTTAATACATTTACTTCCACTAATATCAATAATGCTTATAGTAATCTTTATTTTGTGGAACCTAATAAAAATTTAGAGGAAGAATTTTATGTACCTAGAGTAGTTCAAACAAAAAAACTAAAGAAGATAGATGGAGAGAGAAAGTTCAGATATTTTCCCGATTTTAAGAATAATAAGCAAGATGTAGGTATTTACTATGCAATTAAATTGATTGCAAATGGGAGTATAGCTATTTTTTGTTCAAAAAAAGATACTGTAAATAATATTCTAAAGAGATTTATTGATTTGAAAGAAAGAGGCATCTCGTTAGAGGATTTTTCCACCTTATCAGATGAAACTGAATGTTCAAAAATTGCATATCTAATAAAAGAACATCTTGGTGAAAACAATTTATATATATCAGCATTAAATGGTATTGTAGGGCATCATTCGGGTGTGCCTAACGGGGTAAGAATTGCTGAAGAATATGCATTGAAAAAATCCTTAATTCGTTGTGTGGTATGCACTTCTACGCTGGCACAGGGTGTAAATTTACCTATTAAATATTTAATTGTATCTAGTATTTATCAATCAAAGCAGGTAATTAAGGTTAGGGATTTTCATAATTTGATTGGAAGAACTGCAAGAGCAGGAAAAGAAACAGAAGGGACAATCATTTTAACAGAAGATATTTATAAAAATAGTAAAGAGGCTTATAAATTAAATAATTATAAACGATTACTTAATGCTGATAATTCTGAGGAGTGTTATAGTAATCTTTTGAAATTGGTCAGAGAAGTTGATTTGGGAAATAATAGAGTAATTTCTTTTGACTTTTTGAAAAAATATATCGAGTCCAGATATTCTAATAAGGCAGAATATACAGAAACAAAAAAAGGAATTCTTGAATATAAAGAGCAAGGAAGAGAATATGGTGAAGAAATTTTCTATAAAATGAATGAAATAGAACATATTTTAGTGTCATTGGAAAATTTTATACTCGGATTTGCAGATATAGAAGATGAGAGTTTTGAAATTATAAAATCCACATACGGTTATCACTTGGCAAATGAAGATGAAAGGGAAGAACTGAAAAATATTTATAATCTCATTAGAAGTAATATTGAAAGTATTGAAGTTGGTGACAGGTTGCTTTATAGAAAAAGTATGTTAGGTATACTGACAATGAAAACATTATCTAGATTTATAGATGAGAATTTATATGAAATAGCAAATGCAGATTTTGATACATTAATTAACCTGGTTGCTAATAAATTGAAAGAATCGGGAAATTGTAAGCTTATACCTAAGTTGATTGATGATAGCCATGTTTATGAGCTATTAAAAATGTGGATTAATGGTAAAAGCTATATTCAAATTTGGGACTACTCAAAGTCAGTGAATTTGCTAATTAAATGGGGGAAAAGGAGCAGGAATATCTCTTTGGAAGATATAATAACATTATGCGATTCAGACTTTGGATTTGCCTCATTAACGATAATACAGGCTATTGTAGAGATATTAAATACTAAAGACTGCGGTGAAAACATACAGGAAGCTTTAAATGATATAATTTATAGAATAAGATATGGATTACCTAATAAAGAGTCGGTATGTATATATGAACTTGGGTTTGCGGATAGAATTATTTCACAAAAAATTGCTGATGAAATAATTGAATTTGATTGTAGTACAAAAAAGAAAACAAAATCTGCAATAAAGAGTAATAGAGAAAAATTAAAGGAGTTATTGACAAATTATCCATTATATTTCATAGATAGGTTAGAAAAGATACGCTAACATTGGAAAGAGATAAAGATTACCTCTCCATCTCTTTCCCCATATATTTCTCGTAGTTTTTCCTGATTTGATACAATTCGGTCATCTCAGATTTTGATGAAGAATACTCTTGCATAAGGGTATTCTTTTTTTCGTTCAGTTTTTCAAGCTCTTCAAAAATCTGTTTGGAATTTGGCATTTTAGAGTACGATTTTTTAAGGTTGGCAAGGGATTTTTCGTAGAAGAGAATTTCCGCTTTATGCTCACCGGCAAAGGCTTTATCAGTAGGGTCTTTCCTATATGCCTGATAAATTTGGCGGTATTTCGTAACAGTATGGAATTGCTCCATAGTAGCGGAAAGGGTAGCTATTTTCTCGTCAAGCACCTTAATTTCATCCTGTAAGCTTTGCCTTTTATCTGCACTTTTTTTGATAAAATCATCAAGTTGAGAAAGAGACTTAAAGCCTTTTTCACGCATTAAAATAACAGTATCTGAAGCTACTTGCAGGTTGTGTTTGGTAGCCCAGAATTCATATCCCTTGCTTGATTGTGCCTTCTCATTGTTAGCAATGCCGATAATATTTCCGACACGCTTTTTAACGGTGAATGTCTTTTGATTGGCATTTTCTGAAATTCTTTCTTTGAGCCTTTCTTCCGTATAATCTTGTCCAATAGTCTTTGCTCTTGTAAATCTTTCCTTGTCTTTATGCTTAAAAGCGATGTGCTTACCGTGCTTGATTTCATAGCCGAGATCCGCCATCTTTTTTAAGAATTCGTCCCAGTCCTTTGACTGTTTTATCATTCTGTCAATGTCAAACTGAAGCTTGCTTTTCCAAGAAGTGCCATTCTTAGCGTGTTCATTTTCATACCAGGATTTGCCGTTAGTCTTATACTTTTTCCTAAATCTTTCGTAATATTCGTCTATGACTGACAGGCTATTTTCTTTGCAGAGCTTATCGCTTTGATAACGGATTTGATGATAGCTTCTTTTGTTGGACTGGTAGCATTTCCCCGTTACCATATTTACATTATTAAGTAGGCTAAGTATCCAACGCCTTGCATTATTTCTAATGTAGGTTTTTAGATACTCGCCCCCAAACCGTACGTACAACTCTCGATGTATACGGCTTTCCATTTATTCTTCATTTGAGTTATTAATTTTTTCAAAACATTCATTACAAATTACTAGCGTTTTTCTATTAATGCTTTTCATAAAAACATGCCAAGCATATTCATCAGTTAAGTCTTTAAGCTTTTTTACTTGATACACTTTTAGATTATTAGTTTCTTTCCCGCACCATTCACACTTATTATTTTTTAATCTTAAACCTAGCGTTGGTTTCTTAAGATAGAATTTTTGCTTATGAATCACATCAGCATTATCATCTTGGGGAATTTCTTTTCTAGCCAAGCTGTCTTTCCAAAGAAAACGAATTTTGTTGTTACCATTTTTATCTGTGTAACTTATACCAAAATCTTTGCCAATGTGGTACCTAGTAATGATATCCGTTACTTTCGTTCTATATTTGCAAGCTAATGTTTTATACAGACTGTATTCCATAATATATCTAAATTTATGGAGCTTTGAAGAATTATTTGCGAGTCTGTAGTAGTTACAGAATCCTCTAATTTCTCCGTTATATTGTTCTAATATACTTAAGTCTGTTCTTGAAGTTAGATTGCTTCTTTCTTTAGGAAACCATACTTCTTTTCCGTTTAGATTTTTAATTTTTAATGCTCCAAGTTCTGTTAGTTTATTTTGTATTGTTGAAGTTGATAATTCAAGTCTTACATGACCACCAAAATTTCTTGCTTTTATACCTACTTTTGTCCTCTTTGTATGATTACTTCTAGGTGTTACTCTAATATCAAAACCTAAGAATTTTGCTCTATTTGTTGATTTTGTTACTAGCGTTTTTTCATCAGATAATTCAAGGTTTAATTCTGATTTAATAAATTGACTAATGTCTTGTTTTACCTTTTCAGCATCTGCCTTAGAACCGATAATGCCGATAATGAAATCATCAGCATATCTAACATATTGTATTCTCTTGAAGTTTTTATCCATAGGATTTAAGCAAGGTATATTTGAATACCTTTTGTTAATTTCTTCAATTTCTGATTTAATATTATCTATTTCAATCTTATTGGTTGTCTTTCTTAACTTGTTTTCAAGCCTTTTTCTTCTATCATAAAGAGCTTTATATTCCTTGTTTTGCTTTCTTTTTGTACCTTTATCAAAGCTTTCCTTGTAACTTTGCATATACTTGTCAAACTTATCTAAGTAAATATTTGAAAGTATGGGACTTATTATTGACCCTTGTGGCATTCCACTGTAAGTGTTGAGATATTCGTTTTGTTCCATGTATCCGGCTCTAAGAAACTTTCTTATTAATCTTAGAAATCTTTTATCGTCAATACGCTTGGATAGAATGTCTATCATAATGTTATGGTTTATATTGTCAAAGAAATCTTTAATGTCTCCTTCAACGAACCATTTACATCTTACAAATCTATTTTGAATTTGTCTTAAAGCGGTATGACAACTTCTATTATCTTTAAAGCCATGAGATATGTCCTCAAAGCTTTCATCATAGATAGAATTTAATAACATTCTACATACTTCCTGCACTAATTTATCATCAATACTTGGTATGCCTAATGGTCTTAATTTTCCATTTTTCTTTGGAATATACACTCTTTTTGTTGGTGTGGGCGAGTAACTTTCATCTTTTAGTGAATCAATGATTTTGTTAATTCTTTCTAGACTCATTGCACTTATTGTTTGATTATCTACACCTTTAGTCATATTCCCTGTGTTAGCATAAATATTTTGGTATGCTTGTAAAAACAGGTCTATATTGTAAAGGTTACGATACAATTTTTCGTAAGTGTAGTTTTCTTCTTTTGAATGTTTTCTCAAACTAATCAATACATTGTTGGGATTTCTCATAGTGCCTCTCGCACCTTCCTTTCCTCTGAATTGAATGAATAAACTGCCTTCCTTCACCATGTGAGAGTCATTATCTCTCTCGGATTACTACGAAGGCTCCGTTACCATATCAGATATTCAGGTTCTTAAAAACCATAGCATTTTCTCGCTTTCTGACTTAGGTAATCTCCATTTAGTATTGAAGTAAAAAGCAATGTTGATTGTCGGATATGCTTTTCGTCCTTTCATGCTTATACAAGCGGATTGAGTGCAAAGTTTTGCCTAATGCATTCATTTTCACTACATAGGTACACTCAACATAACGTATATAGATATCTTTCGTTATGACCACCACAAATGCTCCTCGGACTGGCATTCAATCAGTTTAGACTTTATCCTCGTATCAACTTTAGGTCTCGCCATTCAGTCGTGGAATGATATCTATCCAACTTATGACATTAATAACGTGCTATTGTCCTCTTTGGATTTCTCCTCTAAGTTAGTTATTGACCTTAGATATTAAACTACTATTCTACCATTTTGCTAAAATGGATTTACTTCGTACCTTATGGACGCACAGATGATATGGTTGTGTATATGCCCTTTGTCTATGTGAGTAGAGAGGATAAATTCATACTCATCTTTAAGTATTTTTTTGCAAAGTTCCAATCCTATTTTGTGAGCCATTTCAGGCGTGGCTTCGCCCGGCAAGAACGACTGAATAAGATGTCTTGCAAGTACAGAACCTCTTATATTATTTTCTTCTCTTCGCCTTAAAAATTGTGTATAAGCGGAAGCCGTATGGCATTTATTGGTGCTGATTAGGATTTTTTCATCCGTCTTTTCGGCATTGGTTATATAGTCAATTGCCAAGTTAAGCGTAGATTTTATAGGGTGAATTTTCGTTATTGCCATTACTTATCATCTCCAGTTTCGGCGGTTCTTCCAAGTAGTAGGGAGTGAATTTGCCATATCTCTTTTGAAATGTGGTCTATCTGGTTTTTCATATCATTGATGTCACCAATATAGATAATTCCTGTAGAATTCACTCGTTTTGCAATCTGATTGATATTGTTTGTAGCGTTATAAAGAAGTCCTTGTAAATCTGCAAAGGGCTGTAAATCAACCTGATAAATCTCTTTTTCAAGAACACATTTCCTTAGAAAATGGCTCATTGTTTTACACTTAGCAAGCTTCATTTTCTTTTCAAAAATTTGTTTTTCTTCTTCGTTTAAGCATATCTTGAGCTGAATATTTCTTGTTCTGTTTGCCATAATTTTGTCTCCTTTCGGTGTATTTCGGGGTCTTAGGGTTCTCCCTAACAAGTTAAAAATTGATAAAAAAGAAGCAGCACCATATAGGTCTGCTTCATCGATTTTTCCGTAAGTGTGTACACACTTACTGTGCTTGCTACATAAGAATAATTTAGATAGCAAGCGTTAAGCAAGTTTTGAATTTATTATTAAATTATACCATAAGGACGCCATAATTTCCACATGTAACTTGACAAATATTGAATTATAATTCTTAATTGTCAATACATATGTTACATAATAAGAAATAAATTTAATATAAGTTAGAGTTATTTAATTGTCTAAGTGTTTAATTAAGTGTTTAGTTTAGTTAAGTGTTGTTTAATGTTTAGTGTTTAATTGATTGTTAGAGTGTGTGAAGTGAGATTGGGGTTGCCCTTTTAAGCCTCTTTCTTAACCTTAGTGAAGTATTCCCTCACAACCTCATTTGGACTCTTAAAATTAAGCACTGTCTTTGCCGTATTATTATACAGCCTTTCATGCCTTTTAACATTTTCTATTAATTCTTCCTCGCTCCTAAATTCTTTCCTACTATACAATATCTTTCCATCTTCCTTATCCGTTACATCTTTATCATTTACAAACTCATATCCATTATCTACCTGTATAGTCTCTATCTTAAAGCCTATAGCCCTTTCTAACTCCTTAATGTACTTTGATGTCTCATATGTACTCTTTCCCTTTACAACCTTTAATACCCTCTTCCTACTATACTCATCTATAGCAGTTATCTTATAATATCTAATCCCCTTTGATCCTACACATACTACCAAAGCTTCTATTATACCCCTTATTCTTACAACTAACATATACTTGGGCTAATCCATAACTTCCATGTTTTTTTAACATATTCTTTATTAGTATTAATTCTTCTTCTGTATGGGCATTTGGGCTTGTATGGGGCTTTCTTGAACCTATTGTCTATTTGTATGATAACGCCTTGCTGCTTTAGTTACTCCATTTTTTATTGCATATTCACATAATCTATGGCGAAATTTCATTTCTTCTGTTATAATACTCATGAGAGATACTCCTTTGATTGTTTTAGTTTTTGTCAAACTCTATTATATCAAATGTATCTCTCTTTTTTTATTTTTTTGTTACATATGTTTTATCACATTACAAAATTAATATTTATTTTTGATACAATTATATTATTATTTAATTATAAGTAATTTCAATATTTAATAAATGTTTTATAAATTTAAATATTACGATATATTTTAGAATAGAAACATCAAAAATTAGATATAAATTATAAAAATGATTTAATTAAAAATATTAGGTTATATAGGAGATAGATGTATGAAAAATAAATTTGAAGAATCTAACATCATTTTTAAAAATGTTTAACAGTTAGAAAAAATTGAAAAGAGTGAAAGACATTTGTATACACCAGAAGTAATTTGGAAAAGTCCAATTACAATGTCTTTACTTACATGGATAGGAGTTTCTATTTTTTTGATAGATATTTACCTTTTTTATAGAATACTAAAAGATGATTTTAAATCTAACAGACTTTATTTAGTGATTTTTATTCTTTTATTCTTATTTTTCATACTTATATTATTCTTAAGAAATATTACCAAAAAAGAAATGAGATTACCTTTATTTTTTAATTATTCTATAAATGGATTTGGAAGAAAAATTATATTAGAAAAAATTCATATTAATAATTGTCTAAAATGTGGTGGAAAAATTAAATATCACATTAAACCAGTAGAGTGGGTTTATTATTATATAAACGGTGAGATGAAAAGAAAAATCACTAAAAATTCACCAGTATTAGAGTGTAAGAAAAATCAAGAACATTGTTATGAAGTTGTATAATAAAAATAGGAGAATTTTTATAATTCTCCATTTTATTTATTTGCTACAATTAGTTTAGGTTTTAGAATTTCTCTTTTTTTAACTTTTTGGTTATTAATAATATCTAAAATTGATTTGCAACATTTTGTAGATAATATTTCAGTATTTTGTTCTATAGATGTTAGATGAAACATTTCTGAAAGTTGTAAATTATCATAACCACATATCAAAAACTTATTTTCAGGTATATTGTGTTTTTTTAAGTAATAAAAAAATCCATATGCCATCATATCATTAAAGAAAAAAATTCCCTCTGGTGAAGTTTTTATAATATCAGGTGCTAAATTTAGTCCTGATTCAAAAGTAAAATCACCTTTAAATATATATTGATTATTTATGTTACTTTCTTTTAATGCTTTTTTATAACCAATTAATCTATCTTTGGAACTTTGTGATGTAAATGTACCAGTTACACAAACTATATTTTTACAATTATTTTCTATTAAATATTTAGTCGCTAAATATCCACCCATTTTATTATCATAAGAAATTTGAGTTACATTTGAATTTTCAATAATTCTATCAATAATTATAATTGGAACAGGTAAATTTTCTAAATATTTTTCATAATTATGATTGTTAATCATTTCATTAGAGGGACATAAAAGGATACCATCAACTTGATGATTTATATATGATTGAATTAATAATTTCTCATGTTCTGTAGAATTATTACTATTTGCAATTAACAAAAGATATTCTTCTTTATAAAGAGTTTCTTCTATATATTTAGATAAAGAAGAGAAAAATGGATTATTTATATCAGGTATTATTAACCCTATTGTAAAAGTTTTTTTTTGAGCCAAAGAACGAGCTATTATATTTGGTTGATAATTTAATTCACTAGCAATTTTTTTTATTTCTTCTTTTTTTTCTTTTGAAATACGTGTTTTTTTATCATTAAGTACAAGTGATGCTGTTGTTGCTGAAACAGAAGCTAATTCTGCTATATCTTTTAATCTAATTTTTTTCAAAACATAACCTCCTAAGTATGGTTAAATATTTTTTTAATTATATTATTTTTAATATTAAAAGTCAAACACTTGACTTTAGTTAAAATCGAGGTATATTATATTTGATTGGAGGTAAAACGCTTTATCATGGACAATATAATTAAATTTAATGTATTAAATGTAGAAGATTATTTAAATTTACATGAAAAATGTGGATTTAAAGAATATGAAAAAGAAGATGTTACTATTGCTATTAAAAATCATTTATTTGATGCAGTATTATTTTTTGAAGAAAAAGTTGTAGGAATGATTAGAGTGGTAGGTGATAATAAAATTGTTTTTTTTATAAAAGATCTAATGATATTACCAGAATATAGGAATAAAGGATATGGTAAGTTATTGCTTAATTCTGCACTTGAATATATATCAAAAAATGCATGTAAAGGTGCATATATTGGATTAATGTCGACAGTTGATTATGAAACATTTTATGAAAAATTCGGATTTATTAGACGTCCTAATGAAAATTTTGGTAGTGGGATGGTGAAATTTAATGAATAGTAAGCTTTATGTATTAGGAAGTATAAATGTAGACTTATCTATTGAATGTGATAGGTTTCCTAAAATAGGAGAAACTATTAAAGGTAAAGGTTTTGAAAAAAATCTAGGTGGGAAAGGAAGTAATCAAGCTATAGCTTCATCTATTTTAGGTTTAGATACTTATTTAATTGGTGCTGTTGGTAGTAGAGATAATAATGATTGGATTTATGATGAGTTATGTAATTATGGTGTCAATACATCTTTAGTTAGTAAAATAGAAGATGAGGAAACTGGATTAGCATTTATTATAAGGGCTAAGGGAGATAATTCAATTATTTTACATTCTGGTGCAAATTTAAAAATAAAGAAAGAAAATCTAATAAATGGATTAGATAAAGCAAAAAAAGGTGATTATTTTCTTGCACAATTTGAAGTAGATCAAGATTTAGTTTATTTTGGAATAGAAACTGCTTCAAAAAAAGGTATGACAGTAATAATTAATCCATCACCTGCTATGAAGATAGATAATAAAATGTATTCTTTAATTGATTATTTAATAGTTAATCAAACAGAAGCAGAAATTTTATCTAATATTTATCCTGAAACTTTAGAAGATTGTAAAAGAATTTTTGAAATTTTAAATAAATATGAATTAAAAAATTTAGTTGTTACACTTGGAAATAAAGGAAGTGTTTTAATTGATGAAAATAATAGTGTTTTTTCAAAAGGTATTAAAATTAAACCAATAGATAGTACAGGGGCAGGAGATGCCTTTACAGGAATGTTTATTAGAAGTTTATCTATGGATATATCTATTAAAGAAAAATTATATTATTCAAACATTTCAGGAGCATTAACTTGTTTACAAAAAGGTGCTAGAATTGGAGTTAAAAATTTAAATGAGATTATAAATTTTAAGGAGGATATAAATGAATAAAAGACCTATAATTATTGACACAGATCCTGGAATAGATGATGCTGTTGCTATAGCTTTAGCATTACATTCAGATAAATTAGATGTTAAATTAATAACTACGGTTGCTGGTAATGTAAATATTGAAAAAGTTACTAAAAATACATTACAATTATTAGATTTCTACAAGAAATCGGTTCCTGTTGCAAAAGGAGCAGAAAAACCATTGTTTAGAAAACCTATTGATGCTTCTGGAGTTCATGGAGATAGTGGTATGGGAGCTTATACTTTCCCTGAAAGTAATGGTAAAAATTTACTAAAAATTAATGCTGTAGAGGCTATGAGAGAAGTTTTAATGAACTCTAATGAAAAGATAACATTAGTACCTATAGGACCTTTAACAAATATAGCGATATTACTTCTTACATACCCACAAGTTAAAGATAGAATTAAGGAAATTGTTCTTATGGGTGGAGCTATAGGTCGTGGTAATTCAGGAGTTTATTCTGAATTTAATATAGATGTAGATCCAGAAGCAGCTAAAATTGTTTTTAATTCAGATATTCCTATTACTATGGCTACATTAGATGTTGGATTAAAAGCATTAATATATCCTGAAGATTCAGCAAAAATAAAAGAAATGCATAAAATAGGAGATATGTTTTACACTTTATTTAAAACTTACAGAGGAGGAAGTTTTAATACTGGATTAAAAATGTATGATAGTTGTGCAATAGCATATTTATTAAAACCTGATATGTTTGTAACTGAAAAAGTATTTGTAGGGATAGAAACGAAAGGTGAATTTACATCTGGTGCAACTGTTATTGACCTAAAAAATAAATTAGGTAGAGAAGCTAATGCGACTGTTACAGTTGATATTGATGCAGATATGTTTAAAAAATGGTTTATGAATGAAATTTATAATTGTAGATAAGGAGTTTTATTATGTTCGTAATTATTATAGGATTTTTATCAGTCTTATTTGTTGGATATATGTTATTAAAAAAACATGATATTAAGATAACTTTATTTGGTGTAGGATTATTATTACTATACATTTCACAAATTTTAAAAGGAGAGTATGCTAATTTTTTATTAAATCCTATTGATATGCTTATTAAGCAATTTGGTACTACCCTTAGTGGAGCAGGATTAGTAATCTTTGTTTTAGGTGGATATTCAGCATATATGAGTGCAATCGGTGCAAATGATATGACAGTTATGTTATTAACTAAACCACTTAAAAAAGTTAAATCTGTATATATTTTAGTACCTATTGTTTTCTTATTAGGAAATTTATTATCATTAGTTATTCCAAGTGCATCTAATTTAGCGATTATTTTAATTGCAACATTGTTTCCTGTTTTAAGAAAATCAGGAATGAGTAATTTAACAGCAGCAGCAATTATTGCAACTACAGCAACAATTATGCCGACTCCATTAGGAGCAGATAATGTGGCTGTGGCAGCAGAATTAGGTGTATCTGTTGAAGAATATGTTTTTGGTTCACATTCCCTTATATCTATACCAACACTATTTTTCATGGCTATTGTACATATGATATGGCAAAGATACTGTGATAAAAGACAAGTTTTAGAAAAAGAATTTGAACAAACTGAAGATCAAATAAAATATGATAAACCTTTTAGTTTAGTTTATTCATTATTACCTCTATTACCGATAATAATATTATTAACTAGTTTTGTTTTAGAAAATATTACAGAAACAAAATTATCTTTAAGTGTTTTATCTGTATCTATTATTTCAGTTATTTTTACTTTATTAATAGAAATTATTAAAAATAGAAATGTTAAGACTTCTTTAATTTCTGTAGAACAATTTTTCAAAGGTATGGGAAATTCTATGGGAATAGTTGTTCTATTAGTAGCAGCTTCTACTTATGTTAATGGATTAAAGGGTATTGGTTTAATAAATATATTACAAGAAATCATGACTAAAACTAGTGCTTCTGGAATTTTACTTCCTGTTATTTTAGTAATATTCTCAGCTATAATAGTTTTATTAAGTGGTAGTGGTACAGCATTATTTTTCGCATTAGTACCACTTTTAGTACCTTTAGCAATGGCAGCGAATATTTCACCTATAGCTATTTCTGTGCCTTTAGGTTTATCAGGTAATTTATTACGTGCTGTTTCTCCAGTTTCAGCTGTTGTTATGATAGTTTCTGGAGCAGTTAAGGAAGATCCTATTAGTTTAGTTAAAAGAACTTCTGTTCCTATGATAGCAGGAGTAATATTCATGCTTATTTTATCACTTATATTATTTTAAATAATAGCATATTTTAGTGCATCTCATATTTGAGGTGCATTTTTTAATACTTAAAATAAAATACTTGTTAATATAATAAAAATGAGATATAATAGGATATCGACACATGTGTCGGTAAGATGGAGGTATAAATATGAGTCCAGCTAAAAGACTTAGTGTAGATGAAAGAAAAAAAGAAATTATGGAAGCAGCTAGAAAAATAATTATAATTAAAGGATTAGAAAATACTACTATGGAAGATATTATTTCTGAAACAACCTTATCTAGGGGAGGAGTTTATCATTATTATAAAAGTGTTGTAGATATTTTCAAAGACATTATGTTTTCTGGAATTGAATATAGGAACAAAATAATAAAAAGTCATTTAAATGAAATTGATAATTTATCAAATAATGAGTTTATAGCAAAACAACTTGTTGATAAAGTTATAGATAAAAATCCATATACACCTCTTTATGTTGAATTTTTGATTTGTAAAAAGAGAATACCAGAATTAAATAATATTATGGATGAATTACAGGAAAGAACAAAGGAAAAATTAAATACAATATTTAATAATGATTCTAATTGGATATATGATTCAGATACTTTTTTATTTATTAATGATTTTATTAATACATTAATACTTGCATCTGATATTTTAGATGTAAGAGAAAATTTTAAGAAAAATAGACATCTTTTAGAGAAAATGTTTATTTATATATTAGAAAGGGATGAAAATAATGGAAGTTTATAAGAAAGTATTTCGGTATATACCAAATTATAAGTCATTGGGATATTTAAGTATTATTGTATCGAGTATTTCAGCTTTCTTTATGGTATATGGATATTATTACATATATCAATTTTTTAAAGAACTTATTGTGAGTAATAATTTTGAAAATGCAAATTATCATTCGATAAGAATTGTATTTTATTTAACATTAAGCTTTTTGCTGTATATTTTATCAGGAATTATTTCTCACAAATTAGCATTTAGATTGGAAACAAATTTAAGAAAGAGAGGAATTGATGGATTAACGGATTCAAGCTTTAGGTTTTTTGATTTATATTCATCAGGATATATTAGAAAAACTATAGATGATAATGTAGTTAAAACACATGTTGCAGTAGCACATATGATTCCAGATAATTCACAAGCATTTTTAGTGCCTGTTTTTGCTCTGGTTCTATCATTTTCTATTAGTTTTCGTGTTGGTATAGTTATAGTTGTTTTATCAGCTGTAACATCATTTATATTAAAAAAAATGATGGGTAATGGGGAATTTATGAAACTATATCAAATTTCTCTTGATAAATTGAGTGCAGAAACTGTGGAATATATTAGAGGTATTCAGGTAGTTAAAATTTTTGGTATAAAACTTAAATCTTTTAAAGCACTTCATGAATCAATTATGAATTATTCAAAATATGCTTATGATTATTCTATTTCATGTAAAGAACCTTATGTCTTATATCAAGTAATATTTCTAGGATTAATTCCTATCATTACTATACCGTTTAGTTTTTTCTTAACAGGATTAAATGAACCTAAAATAATAGCAGTAGAACTTATTATGATCTTTTTTTTATCTGGAGTAATTATGGTTTCATTTATGAATATAATGTGGGCAAGTATGAATATTTTTAATGCAAATTATGCCATGGATAATTTAGAAAATTTGTACGATAAAATGCAAAAAGATAAATTAAATTATGGAAAAAGAGAAACTTTTGATAACTATAATATTGAATTTGAAAATGTTACTTTTTCATATGGAGAAAATAAGGTATTGGAAAATTTATCTTTTAGTTTAGATGAAAATAAGACTTATGCTTTAGTAGGACATTCTGGTTCAGGTAAATCAACTCTTGCTAAGCTTATATCAGGATTTTACAAGGTAGATAGTGGTTTCATTAAAATTGGTGGACATCCACTTGAAGAATATACAAAAGAGGCTATTATAAATAACATATCATTTGTATTTCAAGACACTAAATTATTTAAAAAATCTATATATGATAATATTATTTTAGCTGATGAGAATGCAAGTAGAGAAGATGTTATGAAAGCAATTAATCTTGCTGGATGTGATGAAATTATTTCTAAATTTAAGGAAAAAGAAAATACTATTATAGGTTCAAAAGGAGTTTATCTTTCTGGTGGAGAAAAGCAAAGAATTGCTATCGCAAGAGCAATTTTAAAGAAATCACCTATAGTTATTATGGATGAGGCTAGTGCTTCTATTGATGCTGATAATGAATATGAATTACAAAAAGCATTTAAAAATTTAATGAAAGATAAAACTGTAATTATGATTGTACATAGAATGAGTAGTATAAAAAATGTTGATGAAATACTTGTATTAGAAAATGGAAAATTAATTGAAAGAGGTAATAATGAAACCTTATTAAGAAAAGAAGGTTTATATAGTAAATTAGTTAATTTATATGAAACTGCAAATGAGTGGAGGGTGTCAAATGAAGAATTATTATAAAAAAATTTATTCCTTATCTGAACAAGGTGCAAAGAATTTAACTAAATCAACATTGATTTGTTTTATAACATACTTCATTAATTTAGCTCCAATAACTATTTTAATGTTATTACTTAATCAATTAATTTTAGGAGATGTAATTAGCCCATTTAAATATGTATTTATGAGTATATTAACTTTAGTATTTATGTATTTATTATTATCGACTGAATATGTTAATTTATATAATGCAACTTACAAGGAATCGGCAAATTTAAGAAAAGAAATTTCTAAAAATTTAGCTGACCTTTCTATTTCTTATTTCTCTAAGCATGATTTATCAGATTTATCTCAAACTATTATGTCAGATGTACAAGTTATTGAACATGCTATGAGCCACTCTATACCAAAAGTGGTTGGTATGTGGTTATTTTTCCCAATTATGGGAGTTATGATGTTAATTGGTAACTGGAAATTAGGTCTTGCTGTTATTATTCCAACTCTTTTAAGTTTTGTAATATTACCATTAAACAAGAGAAAAATAAATTCAGGAGATAGTAAATATTTTAATATACTTAGGGAAAATTCAGAATTATTTCAAGAAACAATAGAGTTACAACAAGAAATAAGCAGTTTTAATCAATCTGATAAAGTAAAAAAAGAATTATATAAAAAAATGGAAGAAAGAGAAAAAATTCATTTTAAAATTGAAATAAAGTTATTTTCAATTGTTGCTTTATCTTCACTTTTTTCTTATGCTAGTGTAGCAGTAGTAATATTAGTTGGAATATATCTTTTAATTAATAATCAAATAAACCTTATATATTTAATTGGATATATAATATCAGCTATAAAAGTAAAAGAATTATTTGATATTTCTAAAGAAGGATTATTAGAAATGTTTTATATAGAACCTGCTGTTATAAGAATTAAAGAAATGAAAAATGAGGTTATTAAAGAGGGAGAAGATGTAAGTTTTTCTAATTATGATATAGAATTTAAAAATGTATCATTTTCTTATAACAAAGACAATAAAGTATTAAAGGATATAAGTTTTGTAGCTAAACAAGGAGAAGTTACTGCGCTTGTAGGTACTTCTGGTTCTGGTAAAACATCAATTCTAAGACTTGTATCAAGACTTTATGATTATAATGATGGGCATATATTAATTGATGGTAAAGAGATTAAAAATGTATCAACTGACTCATTATTTAAAAACATTTCTATAGTTTTCCAAGATGTAGTTTTATTTAATACAAGTATTTTAGAAAATATTCGTTTAGGTAATGAAAAAGCTACTGATGAAGAAGTTAAAAAAGCAGCAGAACTTGCAAATTGTATGGATTTTATAGAAAAACTTCCAGATGGTTTTGATAGCTATATTGGTGAAAACGGAGCAGAGTTATCAGGTGGAGAAAGACAAAGAATTTCTATTGCTAGAGCTTTTTTAAAGAATGCACCAATATTAATATTAGATGAAATATCATCGAGCCTTGATGTAGATAATGAAAAGAAAATACAGGAAAGTTTAAATAAATTAATAAAAGATAAAACTGTAATAATTATTTCACATAGATTAAAATCAATTGAAAATGTAAATAAAATAGTTGTTATAGATGAAGGTTACGTTGAAAATATAGGGAATCATGAAGAGCTTATGAAATCTTCAAAAGTATATAAAAATTTAGTTCAAAAAACAAAATTAGCAGATGAATTTAATTATTAGGAGCAATTATATGAAAAAAAACAATTTAAAAATCAAAGATTTAGTTACAATAGGTGTATTTACTGTTATTTATTTTATTGTTATGTTTACAGTAGGTATGATAGGAATTAGCCCATTTTTATTTTTAATTTACCCAGCTATACTTGGTATGGCTACAGGTACAATAGTTATGTTATTTATGGCTAAAGTTCAAAAACCTTGGGGATTATTCATATTAGGAATAATTTCACCATTTATTATGTTTGTTATGGGGCATACTTATGTAATTGCAGTTCATGCACTTATAGTAATGTTTATTGCTGAAATTATAAGAAGAGTAGGTAATTATAAATCATTTAAGTACAATATGTTAGCATTTGCTGTTTTTAACACATGGATTTGTGGTTCACTTATGCAAATGCTTTTAGCAAGAGAAAAGTATATTGAGCTTTCTATGATGATGGGTAAAGAATATGTTGATCATTTAGAAAGATTAATTACATATCCAAACATGCTATTAGTTTATGCAGGGGCTATTATTGGTGGAATAATTGGAGCATATATTGGAAAGTTATTTCTTAAAAAACATTTTGAAAAAGCAGGTATTATTTAATGGAATTTATAAAAAATAATAAATTAAATCCTAATCCTATAACGAAATTTTTCGTTGTGGTTTTTTTAGGAGTTACTATATTACATACAATAAATCACTATTTAGAATGGATAATAATATTTGTTATTTCTATTATGTACTTTATAAATGGTTTCAAAAAAGAAGCAATAAAAAATTTTATTGTTTTTGGTATTTTATTTTTTGCACCAAGCTTTAATTTTTTAGAAAAATTACCATTTATAATAAAGCTTATATTTTCATTATTATTTATACTTAGGATGTTCTATATTCCATTTTCTGCTGGAAAGTTTCTAATTAAAACATCAGATGTAGGAAGCATAATTTCTTCTATGGATTATTTAAAGATACCAAGTGCTATATCCATACCCATAGCTATTATGTTTAGATTTTTTCCATCTTTTGTTGAAGAGAAAAATAATATAAAAATGGCTATGAAAATTAGAGGAATAAAAACTAAAAATCCTATTAAATATTTAGAATATATTATTATTCCCTTACTTATTATTTCATCAAATATTGCAGATGATATAGCAAAATCTGCTGAAACAAGATGTATAGGAAACCCTATTAAGAAAACAAGATATGTTAAAGTAAATGTAAATTTAATTGATTTTGTATATGCATTTGCAATAATATTTCTAGTGCTTGGAGGATTATTATGATTAAAATAGAAAATTTATCTTTATTGTATTCTGATAAAAGTAAAGTATTAAATGATATTTCAATGAATATATCTGATGGTGAATGTATTTTATTAACTGGAGAGAGTGGAAGTGGAAAATCATCTATTATAAATTCTATTAATGGTTTAGCTTTTGAATATGAAAATGCTCAAATTAATGGTAATGTAAATATAGATGGTCATGAAATAAAAGAGTTAGAACTTTATAAAATTTCATTACTAATATCTAGTGTTTTTCAAAATCCTAAAACACATTTTTTCAATGTTAATACAACTTTAGAATTATTATTTTATCTTGAAAATATAGGTCTTAATAGAGAAGAAATGGAAGTTAGACTTAAAAATATGTTAGAAATTTTTCCTATAGAATATTTATTAGGTCGTAATATTTTTGAATTATCTGGCGGTGAAAAACAAATTTTATGCCTTGCTTCTTGCTATATTTCAGGTTATAAAACAATAGTTCTTGATGAGCCATCATCTAATTTAGATGAAAAATATATTAATATTTTAAAAGGAATGTTAGAGATATTAAAAAATAAAGGCATAACTCTTATTCTTGCAGAACATAGAATTTATTATTTAATGGATATAGTAGATAGAGTATTTATTATTAAAAATGGAAATATAGAAAGAAAGTTTACTAAAGATGATTTTTTATTATTACCAAACAGTAAGTTAATAGAGTGGGGTATTAGGAATACACATAAACCAACTTTAAGTGTAGCTAAAATTAATGGTGGAAGTGATTTAACAATTAAGAAACTTAACTTTAATTTTAATGATAATAGTATATTGAAAATAGAGGATATTTCATTTAATCTAGGTAATATTTATGGTATTATAGGTAAAAATGGTTCTGGTAAATCTACATTTTTACGTATTATGACTGGACTTGAAGAAAAAGAAAAAAGTCATATCTTATTTAAGAATAAACCAATAAATAGAAAAGAAAGATTAAAAAATTCAGCTCTTGTTATGCAAGATGTTAATCATCAACTTTTTACAGATTCAGTTGAAGAAGAGATGAAGTTAGGTATTAAAAATTTGAGTAATGATAAAATTGATGAAATTTTATCAGATCTTAGAATTATATCTTTAAAAGATAGACACCCTATGAGTTTATCTGGTGGTCAAAAGCAAAGAGTAGCAATTGCCTCTATTTTATGTAAAAATTCTAAATTTATATTTCTTGATGAACCTACAAGTGGTATGGATTATATGAATATGATGAGGATTTCAAAATTGGTAAAGAAGATGAGAACAGAAAATAATATTATATTTATTGTTTCTCATGATATAGAATTTTTAAATGAAACAACAGATCATGTTATATGTATAGATGATTTTAAAACTAATAAATATTGAAATTAAAAAATGGTATTTTCCCTGTAATGATAGGGAAGATACCATTTATAACCTAGAATTTAATTTTTCTTGTTCATAAAATAAATATGTATTATTTCTAATCTCATCTAATGTGTATTCTTTTATTATTTCACCGTTTTCATATACTATATTTAATATAGAATTTTGATGATAGTTATTTTCATCTAAATATGAAATTTTTATAGTCTGTAATTCACCATTTTCTTTTTTTATTAAATCCAATCTACCTTTTTTACTTACTTTTCCTTTATCAGTAATAGGATCTTTATAAACATCTACCAACTTATTATTTATCTTTACACAACTACATTTCATTGCAAATTTATGAGTATCTCTATTTATACTTGATTGTTTATTACCTTGAAGTAGAGAACCACCACAACCAAAGGCTATATTTTCAGCAGAGTATCCATTTTCTTTTATAGCTTTTAATATGTCCCAAACATTGTCCTCATATATACCATCACCTTGTAATATTCTAATATTATTTAATACTTTATATCCTTTTGAATTAATTGTAACACCAAAGTTTTCTTCAACAATTTTTAAGGTGAATAGAATATTTGTAATAGGATCACCACTATCAGGTCTTATAACTACCATATCATTTCTTTTAAGTATATCATCTTTTAAATCTTTAGAAAAAATATTTTCTATAGCATGATAATAGTTATAGCTATCACTTACAATTGAAACAAGCCCTGTAGGAAATTTATCTAACATATTTTTATATGCTTCTTTTTCATTATTTTTTGTCCAAGATGTCATAGTGCTATGTTCTGAAGCTGGAATAGAGTAGCCAGGCATATTACAATGATAGTATTTTCTAGCAAAAATAATTGATTTAAGCGTATCAGTACCTTTAAAATTAGTAAGATGAGCCAATCCTCCAAGACCAGCACTTTCTTCGCTAGAAACGCCCCTATATCCAAAATCATGTAATTTAAAATCAATTTCCTCATCATGTCTATCAGAGGTTAATTCTAAATAATATGAAATTATTTGTCTAATCTTATATGAATAAGTAGCGACAGTAATTGGATACCATATTTTAAGGAGTAGAGTTTCAAACCAACTTACTATCCAAGGAACTTTATCATCAGTTGATTCAACAGTTACTAAAACATTATGATTTTTAATTATTGCCCCTTCAGGTACAGCTCTAATTCTTAGAGGTAATTTACCATCTAATTCTTTTACAATATATTCCCAACCTTTTTTGTTAAAAGGTAATCCATGCATTGTAATTACTTCATTAGCTTCATTTACCATATCCATTGTAATTTTTTGACTTAAATATTTTTTTAGATAATATTGTAGACCAAAAAATTTTGTATAACCATATAATCCACCACGACTTTCTATATAATCATGGATATATGTTGTGTTTTCTGGATATTGCAAAAAATGTGATGACTTATATGAATCAGTCATTAATATAATATTTTCCATTATTTTCTCCTTTTAAATACTGTAAATATCAATATTTTCAGTAGATAATTCAGATAGTTTATTCATATATTTTTTTGAAGTATTTTCATCTGTTAGTAGAATAAGTATATCTGAATCTTTAAGTACAGTATCACCTTTTGGAATAAATTGAGGACTACCTGTTCTTTCAATTCCAATAATTAATAAGTTTTGTGGCCATTTAATATCTTTAATCATTTTGTTTGAAAGTTTAGAATCAGAAATAACTGGTATTTTTATTGTAACAATTTTTTCATTTTTCTCAATAAATTGAGCTTCTTTATCATGTTTTTCAAACATATTTTCAAATAGTTCTTCATATACTGAATTATGTTTAAGTAATTCAGTAAATGCATATGTAATAGTAGAAGCAATAACTAAAGAAAATAGATTAGAAAAGTTTCCAGTCATTTCAAGTATTAATATTATTCCTGTTATAGGAGTTCTTACAACTGCTGTAAAATATGATGTCATAGCAATTAATACAAACAGTGTCATATATTCTTCTGTGAAATTAAATGTATTTACTAGAAATATACCGTAAATTTTACCAACTAATGCTCCAATTACAAGTAGAGGTAAAAATATTCCTCCAGGAGCTCCAGTAGAATATGATATCATAGTAAATAAGAACTTACCCACCAAAATAAGACCAAGAAGTCTAAATGTTGAATTATATTCCAATAAATGCTCTATTATATGATGTCCACCACCAGTAATTTCTGGTAAAAAATATACTACTAATAGTGAAAATAAAGCTACTATAGATATTTTTGTATATTTACTTAATCGTATATTTGAATAAATATCTTTAAATTTAATAATAGAATAATTAAATATAGAAGCAAGTAATATTATTACAAAACATAAAATAGAAATTAGTATTAAATGTATTATTATTTCTTTTAATTCAAAATTTATGGGTGATATGAAACTAAAAGATTCAAATGATAATTGAGTACCTAATAAAAATTTTGAAATTAAATTTGCGAATAATGATGCTATTAAAACACATATTAATAATATCGGTGAAAAAAACTTATGTAATTCTTCTATAGCAAAGATAGCACCTGAAAGAGGAGCATTAAACGCTGCTGCTAAACCTGCACTAGCACCACAAGTGATTAAATATTTTTTTTCAACCTCAGTTCTTTTACTTATCTCATTAACACCTTGCCCCACTAGAGAACCTAGATGTATAGATGGACCTTCTCTTCCAAGTGAAAATCCTATGAATATTGCTAATAATCCAGAAAAAAACTTTGTAATTAATTCTGGTAGCCAGTTAAATTTAACTTTTTTTTGTATTAATCCCATAACCTGAGGAATACCACTTCCAGAAATTAATGGATATTTGTTTAATGTATATTGAATAATTATTGCAATTGATATAAATAAAATAATTATTAAAGGTAGTAATGGATTAATATTTTTCTCTATTAAATTATTTCTAAATATTGTGATCTTACTAAGTAAAAGAGTATATGAAGATACAATTACACCAGTAATTAGACCAGTTATTATTGAATAAAATATTAATTTTAATCGTATTTTCCTAGAATGAAAATCAACAAATGATTTAATGGTTTCAAATATTCCTTCTTTTTTCATAAAATACCTCTCTAAAAAAATGGTGGAAGTGACGAGAATCGAACTCGTGTCCAAAATAAAAGTTAAACATAAAATTCTACAAGTTTATTTCATTTATTTTTTTAACAAATAAATACTAAATGAACAAAATTTTATTTGCGAGATTATATAATTTCCTAATTAAACATAATCATATTAATTAGTAAGCCATTAAAAATGACGTTATTAATTGCATAATGGCACTACAAATAATAACGTTAGCTGAACTAAGCAGCTAAAGCAAAATTGTTTTTTCCAATTATTTTAAATGGTGTTTTAAGAGTACCATCTCTACTTGCTAATTATGCCCTTTTTATCCTGTCAAAACCAAAACACTCCCATAATATTTAATTATATCACATTTTTTTATTTTTTTTCAATTATTAATTAAATTTAAATGGAATATTATCTATTACATTAAATATTTTTATTGCTTCAGTATTAGAAAATTCTAAAACAGATATTGAAGAATTTATATCTTCAATAAATTTACTTTTATCAACACTTGTGAAAATAGAGGTATATTTTGCCATATATTTCTTTTTATCTAGTATAATTGATAATATATAAGCTTGTATTTGATAGTTATAATTCTTTGTCTTTTCAGATAATTCATTAACTATTTCAAAAGCTTTTGAATAATTTTTAATAATAATATTTAAAGCAAATTCATTTTTTAATATTATTTCATTTTTCATGTCAAAAAACTTATTAACATCTTCATGTAAATAATTCATTAGTTCTATTTTATTTAAGTGATAATTAGAAAAAATTCTATTATATAGTGCACTTAAGTATATCGAATCATCTTTCTTAGCTTCTATTTTATTTGCATATAAATCGGCAAGTTCAAATGATTTATTTTGAAAATATATATTAGAAATTTCAATAAAGAATAGTTCTTCTTGATTTTTATCCTTAATAATTTCAAATATTTTATTTAAATCTTCTTGATACATCTCAGGTTTATAAGTATCTAAAATAAAGAAAAGTTGAACCATATATGGAAAATTATTATTAATAATATTATTAAATGACAAAAATTTTAATAATTTAATTTTCTGAAAATGTAAACTATATTTATCATATAGCTTTATTAATTCTGTTACGATAAATATTTTAATTTCATCTTGATCAACTTCTACGCTTTTGTCTATTAAATCCAAAGAAATTTTTTCTATAGTTTGATCATAAATAATTAACTCTAAAGTAGTTATAAGTTCGTTGACTTCTTTTTTCATATATACACCTCAATAAAAGTATACATAGAAGAGTTGATATTGTCAATACATAGAAAAAAAAGAAATATTATGATAAAATAGTTATAGAACTACAATATAAAGGAGAATTATGTTACTAAAATATATTTATATTTTAATTATTTCTGCAATTCCCTTCATTGAATTAAGAGGAGCAATTCCTGCATCACAAATATTGGAGTTACCTTTATTTTCTTCTATAATTGTATCTATAGTAGGAAATATTTTACCAATTCCTTTTGTGTATTTTTTCGCAAAAAAAATACTTGAATTTGGAAAAGAAAATAAATATTTTTGCAAAATATTTAAAATGATTTTAGATAAGGGTCATAAAATAGGGGAGAAAATAATCTCTAAAAGTGAAAATGGATTTTTTTTAGCACTACTTTTATTCGTTGCAATTCCTTTACCTGGAACTGGAGCCTATAGTGCTATGCTTGGAGCTTCATTTCTTGATATAGATTTCAAAAAAAGTTTTTTTGCAATTTTTTTAGGAATAATTATTGCAGGATTTATAGTAGCAATAATAACATATTTTTTTAAGGCTACAATATAGTAAATACTCGATTAAATCATAGATTTAGTTGAGTATTTTTTTTGTGAAAATAAAAATAAAAAAAATTAATTCAACACTTGACATATTTATAAAATGGAGGTATATTAGTTTTAAAGAAGAGAGGTGAAGATGAGGGGGATATTCAAAGGAAATGATAAAACACTAATTAAGGAGAGTGTTGAACAAAAAAACGATGATAAATTTGATATAAGAAATCATGTAATAAATAAGATTTTTGATGAATTTAATAAGAGAAATAAAATTTTTGAAAAGGAAACTTTAGAAGACTATAATAAAATTTTTGCTTTAAAAGATGAAATAAATATAAAATTTTTAATAACAGATAAAAAAGAAGAAAAATTTGAATCTATGATAAAAAGATATGATTTAGAAGAAGATATTGAAGTTCTTTCAACAGCATATTTAAAACTAGATAAAAATGAAAGGGAAGAGATTGAAAAAAGATTTTTTATTCTTAAATATTCTAAAGATGGATTGATAAATGAGTTAAAAGTAAAATTTGTTAAGGATGAAAGGTATAAAAAAGAAATTGAAATACTTAAAAATTATGCTTATCTAAATAATTTATATATAAATTATTTACCATTACATATTTTTGATAGCATGTACCTTATAAAAATAGTTTCAATTTATGATGATATTGATTTATATGATTTACATAATGATAAAGAAATAGAATTAGAATTTGATTTCCAAGGATATAATGAAAAGATAAAAATAGGTTATGAAATTTTTTGGAATATAGAAAAAATAAATTATTTTGCTAATAAAAAAATAAGACCAACTGAAAAAAACATATATTTTGAATATGTATTTAATTTAGATAAAAATTCAAAATACTTGGTTGCAGATACTGAAAAAAATATATATGGAGTTATTAACACTGGTGATATGTTAAAAATTTGGACAACTAGTTCTGAATATAAATTATGGAATTTGATTAAAATAAATTTCATGGAAAAGGAGGTATCGTTTTCAAATAATATTAATTATGGCTATTTAAAGGTGCTTAATAGAAACTGTATTGAAAATATCATTTTTTCAAATACATTTCTTAGAGAAGGTATTGATGATTTTAAATTTAAAAATAATTTTTTAGGAAAGGAGGAAATTTTTTTGGAAATAATATTTAGCAATAAATGCTTTGCAAGAATAGATACAATTAATTATTTAAAACAAGTACTTAAGGAGTTATTTCCAGAGAAAAATATTAATATATGTCAAAGTCAATACTAGAAAGAAAAATACCATACTTCTATAATTACACATGGTTTGTTCTTTATGATTATATCAAAACATACGGCTTATATGATGGTTATGTTAAGCTTATAAAAACTTTAAAAACAGATAGTAGTACATTTTTTTCTACAATGCAATTTGTTTCAGCTTATATGAATGATTACGATAAGTATGTTGCAAGTTTAAATCCAGATTTTTATGATTTTGTAGATGTAAATGAATTAACGGATAATGAAAGGAATGTTGTATTTATTTTAGCTGCTTCTATGGATTTAAGGGTTAATAAACCAATATTTGAGCAAATATATGAATATATCATTAATGATATGAAATTAAAGGGCGATTATAAAGAAATAATTGCAAAATACATTTTAAAATTTAGAATAACAAAGAATTTAGATTATGTATTACAAAATATGATAAATGAAGTTTTCGATAAAAATATTTTTTATAAAAATCTTAATAATCATAAATATGTAATATATGTAACTGATAAATTTAATGTTGAAAAAAGTAAATTTATTTCTATTATAGAAGAATATTTTTTAGAAGATGGTGAAAAGATACAAGTGTACTGGGGTAAACACTTTACAGTACTTGATAATAAAAAAGTTTCAAAAATAGATCAAAATACATTTTTTTAATAAGGGGAGGGGATATTATTTTTAATTTTAATGTGATAATAGAAAATGAAAGTGAAAAGATATCTCTTGAAAAGTCTGAAATATTTGATTTAAAGTACAATTTTAAATCACGTAATGACAGTCTTGTTGTGGGAGATAAAGGATTATCAATAACTCTTGGAATAAAGTTTTTAAATGATCCAAATGATAGTAAAATTAGAGAAAAAAGTAAAAAAGTTTTAGAAAGTATTTTAGAATGGGTATCTCAAAAACATGATTATAGGAAGTTAATGATAGAAGAAATTTTAACTGAAGATGAAAAAATTATTTACACTTTTAATAATATTTATGTTGATGAAATGATAAAAAAATATAATGTAGAAAATATAGGAGAATATACAATATTATTAAAACAGAATTTATTAGAAAAAAATAAAATCGAAATAAAAAAGGAGAAATAATATGGAAACTTTAACTTTAAAATTAGACAATTTAACATTACAAAATATATTCGTGCATGATTTTAAATCATTTAGTAAATATAATGAACATAGTGAAGATATAATAATATTTTCTTGTGAAAAAAAATATGAAGAAGAGTTATTAAATATTTTGGATAAAAAAGAAATTAAATATGATATTACTGGTCTTGAAACTAGAGAATTTAAAGGTTTAGTTAAGGAAATTTTAGTTGAAGATTTAGATGAATCAACTTTAATTGTAAGATTAAATGGAATAGATGAAAGTATAAAGCTTAAATTGAATAAAAATTTAGTTAGACTTTATCAAGATACAACATTACCAGTAAGAAAAGTTATTGAAGATGTATTGAGGGATTATAAAATAGAATATCATATATCCAAAAATATAGATATGGAAATTGGAAGAGTATATTATCAATATAATGAGGATGATTGGGCATTTTTAGTAAGAATTTTATCAGATTTTGATGAAAGAATTTTCATTAATAAAGAAGGGATAATTATAATAGGGGAAGAAAAATTATCGGAGGAAGAAGAGGTTGCGTAAAGTTACTATAATAAACAGAAATGGAAATAAATTGATAAAATTTAAAGATAATAAAATTCATTCATTAGGAAAGATTTTAAAATATAAAGATGAACAATTTATAGTAAATGAATCTCAAATAGAATTAAAAAATAATATATTTTTTTGCACAGTAGAATGTTCAAAAATAGGAGAATATAAATTAAAAAGAATTAAGAATATACATATAACAGGTAGTTCATTAAGGGGAAGGGTCATTAAGATATTTTCAAAAGATGAAAAGGCATATATGAATGTTGATTTCAGTGAATTTTTAAAGGAAAAGTATGGTAATATTCAAAGTTTTGGAAAAAACTATATAGATATACCATATAAAACTTTTTATTCGCAATCAAATACAGGACTATTTCCTACACCAGAAATAAATGATGTAGTTGATGTTGTATTTATTGATGATAATGAAAATAACATGAAAGTTTCATGGAGCTTAGAAAATGAAAATAGTTCAAGATTTAATGATGGAGAAAAAAGGAACTATTTAAATAAAGAAATAGATTTTAATATTAATAAAGACAGAGTGTATATTAATTTTAAAAATAAAATGGAAATACTAGCTACAAATTTTGTTTTAAATTCAAAAGATGTATTGATTTCAGCTAAAGAAAAATTAGGAATTGCTTCACAATTAGATATTTCAATTGAAGCAAATGATGATTTACAAATTTTTGGAAATGAAGTAGCTCTAAAGAGTAAATCTAAAAATTTAAATATAGTAAGTGAAGGAAATCTACTTTTGAAAGGTAAACAAATTCATAATGATTAGGTTAAAAGGGGGATAAATGGAATTAAAAAAATTTGAAGATATGATTATTACTCAAGAACTTTCAAATTTTTTTGATAAATTAGCAGATATATTTTTATTAAAGAAATATAATGAAATTGATGATATAAATTTTGGAAGGTATAAACTAAGTAAATTAAAGATAGAAGAAAAATTTCCTAACACAGACTTTGATTACTTAGTTTATACTAAAGAAGGTCATATTATGCAAGATGAGTTAATCATAATCACCTTCAGAGATTTAATGAATGAATTAAATACTTTAATAGATGAATTTGATGAACAAGAAATATATATAGATAAAAAAATAAAGTATTTAAATAAATATAATGAGATTGAATTTAAGGATATTAAATCTAAAAATCCAAATTTATCAAATATAAATGATTATAGATCTAAAAATATAAAAATTAATTTAGGGGGTATATTATCTACAGCTCATGTTTTTGGAAGTAAGAGGTTGACTGACTTTTTAAAAAATAGAAAACACATATATCTTGATGAAAATAATGTTCCAATTACAGAATATTTTGCTCAATTAGGATTATTTGATATATCGACCTTTTTTAAGAAAAAAGATGAGGATATAAAAGTTGTTGTACCAATAGAAAATGATAAAGATAATAAAATTATTAAAAAGTTATCAGAAAAAGACAAAAAAGATTTTTTTGGACAAGATAGCAAATCAGACATATCATCTATATTAGAAAAATTAAAAGATCCTAGTATTATTAAAGGTATAATAGATCTTATAAACGCAAGTAAAAATAATAATAAAGATAAAAATTCTGAAAAAAACAATAACAATAACAACAATAATAGAGGTATTAATAATTCTAATAAATCAAATAGATCAAATGATAACACTTCTAAAAAAATTGTTAAAAGTAATAAAAATATAAATGATTTACTTAGAGAAAAATATAATTCTGATAAATATAAAAAGGATTCAAGTAAATATATTGAAAATACAACAAATAGAAATATTTCTGAAAAAGATAAAGAAGACATAAATAATATATTAAATATGTATGAGGAACAAACTAAGGATGAAAATGGTGTTGGGGATACAATAAAACAAAAAGGATATGATGATTTTAGAGATGTATCTAAGAAAAAAGAAAAATTAAATATTGAAGATATGATATATTTGATTCTTAAAAATAATAGGGGGAATGAATTAAATATATTAGAAAAAAGTTTAGAAGGTTATAGCTGTAGATATATTAAGGAAAGTTTTACACATAAATTTAAATCTATTTCAAAAAATATATTCTTATCAAAAGTAAGTGATTTAATTAATATGAATTTAAGAAATGTTGGTATTAACTATAAAGTTGATTTATCAGAGTACAATTATTTAAATTATGGTAAAAAAGACATTGATGATATTTCCTTAAAAGGTGATAAGAGAATACTAGATTATATTAAATTAAACAATTTAGTAAAATCTAGTTTTTCTCTTGATTCTAAGGATGTAAGAATATATCCAAGAAGTAGACGATTATTTGATAATATATTAATAAAATATATTAAAAATAGAATAAGATATAAAAAAAGTAATTTTGATGGTATAGACTTAAAAGATTTAAATCTTTCAAGGAATACTATTATTTTTTTGGATGAATTAACCTTTGGATTATCTGAAGAAGAATATAATTTGATTGATCAGATAGGAAATGAACTAAATATTACAAAACTTATTATCTACCTTCTTAAAAATAAATTTAGATATAGTAAAAAAATACTTGAAAATATAAATTCAAATATTGATAAAACTTATGATGAATATATGAGAGATAATACTAAAGAATCAGATAAAAGTGCTATTAAAAATATTTTTCCTACTAAAATAAGTTTAGAAAAACATTGTGAATTAAAAGGAATAAGAGGAATATATTTTTTCTATAAGTCATTTTACGATGAAGAAAATAATAAAATTTTAAATTCAGAAACAATTGCTACAACAAGTGTACTGGTGAAATGTAATATGTGTCCTACACCAAGTAAATTTATAATAGGTTCTGTTAATACCTTTGTTAAGGGTGATATGATATTAACAGATAATGATAAATTAATAGCCACATTTCCAACTTGTGCTATTGCAAAAGTTTGTAGCATTAATATATTGGGGAGTAATTGGCAGCCTGTTTCAGATTTAAAATATGGATTAAATAATGCCCTATTATTAAGTTCTAAAATTAATTGTAGTGTTGGTGGAATTATTAGCCTTGAATCAACAACTATGAAAAATCTATCAAAATCAAAAATAAAGACATTTGAAAATAATGAGAAAAATGATTCTAAAATTAATTCACCTTTTAAAACAAAAGATGAACTTATTGATTTTTTAGATAAGAGAATAATTTCTTTTAATTCTATATATGACTTATATGATTTAAGAGATAATAGAATTAAATTCGTTAAAAAACTATATACCTATATTAATGAAAGTAAAAAAATATTATCATCGTATTTATCACCTAAATATGTTGATAGAAAAATAACATATGATTTAGCAATTTATGATAATGAAAAAATTATTGACATGTCAGATATTATGGATGTTATGAAACAATATTTTGATTCATTTATTAATAGAGGTGTAGATACTAAGGGATATAAGATTTTTAAAAAATATGGGAAAAATATAAACGCTAATAAATTTTTAGAGGAGTATTTAATTTCTAAAAATAGTATAAGTGCAACATATGATTATGAAACTAATCAAGTTAAAAATGAAGCAATTTGGATAAAATATTTATTAAAAGAATATAATAGATATAAGTTTAGAAAAAGAAATGTAAAATTAAATGAAGAATTTAAAAGAAAAATTGTGATGTATCATAAAATAGGTGGAGGTATAGATGCAAATAGTCAAACTCCTTGGTGTTCTTCTTTTGTAAATTGGATTTTAGATGTTTCTGGAATAGGAAGCTTTAAAACAGCATCATCACAACAGATGATAAACAAACTTAAAAGAATAGATAAACCTTTATATGGATCTATATTGATTTTCACAAAATACAATAAAAATAATGAAGCGACAGGACATGGGCATATTACATTTCTAATGGGAATTACAGATGATAAAAAACAATATATTTGTTTAGGAGGAAATCAAGAAAGAGAGATAAAATATAGTAAATATTATTTGGATAAGAAAATGGGAGTTAAGGGTGGATATTTTAAATTAAATGGAATATTTTGGCCACCTGATTATCCAGATGATAAAATTGAGGAAATAAAATAGGGGGAAAAATGAAAAAAATATTACTATTTTTTATTGCTATAACATTTGTATTTGCAAATAATAATTCAGATGTTAATACAAGTGAGGAAATAAAAAAGTTAAAAAATGAAATTGAAAAATTGAAAGAAAATAATAAAGATACAGAAAACATGGACTATAATGGTTTAGATGGAAACATGAAAAAAGAAATAGATGAGTATGCATTAAATTTATCACAAAAAATAGATATTTTGAAAGATAAGATGAAAACAAGATATAAACTAGGGAATTTTACAAGTGCTGGTGAAAGTTTTTTAGAAAGTCTTGAAGATGATGACAATAGATTTAAATTTGGAATCATGAATAAAACTATTTTAAACAAAAATTCATATAAAAACAATACTGATTTCTTTTTTGTTAAAAATATTAATAATGATGGAAATATTTTTGGTGTTGGAATATATGGAGGATATAGTAATAGTAAATACAAAAAACATACTGCTAAAGATTTACATGGATTAGATATAGGTGTTATTTTAGAAGGAGAATTACCAGAATATGGACTAAAAATTATATCTATGAATGAATTTAATAAAGATTTTAAAATTAATGAATATTATTCATCTAATTCAATTATAGGTGGAGTAGGGCTTATGTATAAAAAAGAGTTTGGTTCACTTTTCTATGTAGAGCCAATGGCATTTATGCTATATGGAAGTAATATAGATACAAATTTAAAATTTAATGATACTAATGTTTTGATAAAAAATAATTTTATGTATAATGCAGGTGTTAATTTAAAATTAGGTTTAGAAAATGAGGTAGGTAAAAATATATATAATTTCTATATAGAAAGTTCTTTTGATAAAAAAATAAAAAAGGATAATAATTTAATTTTTAAATTTAAAGATAAAGAAAGATATTCTACTGTAGCCTTAGCAAATGATATTAATCTTGATTTAGGATTGGGATTAGATATTTTATTAAATAAAGAACATAGACTTCATATAGATGGAGGAATTGGATTAATACCAACTGAGAAAGTATATAAGATAGGTGCAAGCTATGAATTATTAAAATAAAAAAAGAACTTTTGACTTTTGTATATTATAAAGGTATGCTTGTGATAGAAAGAATGGGTATACACATTCTCAAAAATAGAAAGTAGGATGTTCCTTATGAAATATTTAGTTGATTTAATATTTTGGTTTGTCTTAATTAGAACATATTTTTATTTTAAAGATTATGAAAATAATTTCATAAGAGAGATAATATACATACTAATTATCGTTGCATATTATTGTATCAAACAAATAATAATATATAAATTTTTATAAAAATTGCTCTTTTTAAATTTATTGTATAATAAAAGTGCAATATATATTGTTTAATAACGAAAAAAATATCTTATTGACATAAAAATGGGCTATTCCGAAATAGAGAGCCCTAACAAAAGAAAAGCCTGCTTGAAAAAGCAGGTTTTTTCTGTATATAAAAATATGTAATTATTGAAGTTTGAAATATAATACTGAAATCATACTTTTTTCAAAAACATATTGACATTAATATAAAGTTGGTGTACTATATGAATATAACTATGATATAATTAAGATAATTATATATACAAAAATACCAAAAAATGCTATAATAATCATTAAAAATAAGGAAGGTAATATTAAAAAATGAAAATAAAAAATATAGCTATTATAGCACATGTAGATCATGGTAAAACAACATTAGTTGATGCGTTATTAAGGCAATCTGGAACTTTTTCACAACATGAAAGAATACAAGAAAGAGTAATGGATAGTAATGACATAGAAAAAGAAAGAGGAATAACAATATTTTCAAAAAATGCTTCTATTAATTATAAAGATTATAAAATTAATATAGTTGATACACCAGGACATTCTGATTTTGGTGGAGAAGTACAAAGAATTTTAAAAATGGTAGATTCTGTTTTACTTTTAGTTGATGCTTTTGAAGGTGTTATGCCTCAAACTAAATATGTTTTAAAACAAGCACTAGAGCATGGATTAAATCCTATAGTAGTAATTAATAAGATAGATAGACCAAATTCTGATCCTGAAAATGTTGTAAATAAAGTATTTGACCTATTTGTTGAATTAGGAGCAAATGATGTTCAACTTGATTTTCCAATTATTTATGCATCAGCAAAATCAGGAATTGCAAAATTGAATTTAAATGAAGAAGCAGACAATATGCAGGTATTATTTGATATGATTATTGAAAAAGTACCACAGCCTGATGGAGATTTAAATGAAACATTGCAAATGCTTGTTACTAATATAGAATATGATGAATATGTTGGTAAACTTGCAACTGGAAGAGTATATAATGGAACAATTTCAAGAAATCAAGAGATAGTATTGATAAAAAGAGATGGAACACAAGTTAAATCTAAGATTAGTAGAATTTATGGATATGAGGGTTTGAAAAGAATAGAATTAGAAAGTGCTAGTGCAGGAGAAATAATAACAGTTGCTGGTATAGAAGGAGTAGATATAGGTGAAACTATATCAGATAAAGATAATATAAAAGCACTTCCTTTAATTGATATAGATGAACCAACACTATCAATGAATTTCATAGTAAATGATTCTCCATTTGCTGGAAGAGATGGTAAGTTTATTACTTCAAGAAATATATTAGAAAGATTAACAAAAGAAGTAAATCATAATGTAAGTATGAAACTAGAGCAAACTGATTCTCCTGATGTATTTTTAGTAAAAGGTCGTGGAGAACTTCAACTTTCTATATTACTAGAAAATATGAGAAGAGAAGGATATGAAGTTCAAGTATCTAAACCTAAGGTAATATTTAAAGATATAGATGGAATGTTATTTGAACCTATTGAATATACAACTATAGATGTAGCAGATGAATTTGTAGGAGTTGTTATTGAAAAAATAGGTGTCAGAAAAGGAGAAATGGTAAATCTTATACAAGGTGGAGATGGATATACAAGACTTGAGTTTAAAGTCCCAGCTAGATGTTTAATAGGATTTAGAAATGAATTTTTAACAGATACAAGAGGAACAGGTATACTTAATCATACTTTCTATGATTATGAAAAATATAAAGGTGATGTACCAAACTTTAGAAAAGGTGCATTAATATCTATGGAAAATGGTACTACATTTGCTTATGCTTTAAATAATTTACAACCTAGAGGTATCCTATTTGTTGAACCAGGTGTAGAAGTTTATGAAGGAATGATAGTAGGAGAACATACAAGAGATAATGATTTAGTTGTAAATGCATGTAAAGGTAAGAAATTAACTAACATGAGAGCAGCAGGTTCAGATGATAATGTTAAATTAGCTCCTGCAAGAGTATTTACATTAGAGATGGCTCTTGAATATATTAATGATGATGAATTAGTTGAAATCACTCCAAATCAGATAAGATTAAGAAAAAAATTATTAACTGAAAATGAAAGAAAAAAGGCTAGAAATAGTATAGAAAGGGGATAAAATGAACTTATTTTTATTAATAAATGTATTTTTAACACCTTTTCTGATGATACTTTTAGGAAGCTTATGGACAAAAAGATTTCCAGCAAATATAAATAAGTTATATGGATATAGGACTAAGTGGTCTATGTTATCTCAAAGCACATGGACTTTCGGGAATAAAACATTTTCAAGGTTGTTCTTTATTTTTGGAATAATATCATTAATATTTACAGCCATATATGATAAAAATAGATTTACATCTTTAGTATTTATTCAAATATTATTATTATTCATACCATTTTGTATAACAGAAATTCTTTTAAGAATATTATATAATGATAAAGGTGAAAAAAAGTAAAAAGGAGAGATTATATGAAGAAATTAACGATATTACTTATGTTTTACTCTAGTATTTCTATTGCAAATAATGTTGAAAATTTAGAAAAAAAAATAGATTCAACTTATGCATTAAAAGAAAAAAGATTAGAAAAAGAGAAACTAAAGAATAATTTAATGGATTTTAATAAGTTGAATATAAGTTCGAGTTTAAATTATTTATCGAGTAATGGAATGGCTAATAATGGTAATGGCAAGAGCTTAATACAAAATAATAATATAAGTCTTGGATTTATTAATTATAATATAGGCTTAGATTTAATGAATTCAGGAGCAATTAACAGTCATAGTATTAGTGCAACTAAAACTATTAATGAGTATTTCTATAATAGATTAGGTGAAAACGATGTTGAATATAATATATCAAAATATAAATTAAATGAAGAGAAAGAAAAAGAATTATTTGATAAAATTGATTTATTAAAGAAATACATATTACAAAGTAAAGTAGTTGAATTAAATATTAAAGAAAAAGAGAGATTAGAGCAAGATAAAAATAAAATAGAGAAAAGCTATGAACTTGGATTAATTTCTAAATACGATTATGAAGTAGGAATAAGTAATTTAAATCTTTCTGAATTAAAATTTAATATAGATGAAAATATATTAGAACAAATTAAAATAAGTTTATTAGAAAAGAAAATTAAATTAGAAAATTTAGACTTTAATTATGATTTAGAAAAAGTAAATGATAATTTAATTGAACAATATGTTAAGAATAAATATGTAAAAATAGAAGAATTACAAATTTCTAAAAAAGAATATGAATACACTAAAGATTTAGTAATTAATAAAATACCTTCAATTACTCCATCTATAGGATATGATATAAAAAATAAGTCATTTAATGCAGGTGTTACTGTTTCTAAAAGTTTTAACATCATAACGAATGAATATGAAGATATGAGGGAATTTAAAAAGGAAATTCAAAATAAAAAAACTAATTTAGATATTTTTGAACAAAAAAAATATATAGAAGAAAAAAATATGTATAATAATCTATTATTTAAGTATATTAGCCTTGAAACAAAAGTTAATAATTTAGAAAAAGAAATAGAAATTATTGAAAAGAAATTTGAACTTGGTTCTGAAAAATACATTAAACTTTTGGAAAAAAGAAATGAATTACTGAAAGCAAAAATAGATTTAGAAGAAGCAAAAATAGATTTAAGTATAAATAATTTTAAATTCAAAAGAGGTGTTAATTAATGAAGAAAATAAGTAAAACTAAAAAAATCATATTTGGAATCACTTTATTAGTTTTAGTTGCTTTTGGTGTGAAAATGTATTCAAAAACATCAGTAAATCCAAATACAAATATAGCTCAAATATATGAGGCAAAAAAACAAGATATAGAATTGAATTACGAAGTTACAGGTGAAGTTAATAGTGAAAAAGAAGTATTAATATTTTCTAATATACAAGGTAAAGTAAAAAAAGTTAATTTTAGAAAAGGGGATGTAGTAAAAAAAGGAGATGTATTAGTTGAATTAGATGCATCAAGTTTAAATGAAATTAACTCTAATATTAATAAGTTAAAAATAACTTTAGAAACAAAGAAAAAAGAATATAATGATGCCCTTTCTTTATATAAAATAGGGGGAATATCTAAAAATGAAGTTGATAGATTACATAATGCATTAAGTCTTGCTCAAATGGATTTAAATGTTGCAGAAAATAATATTAGAGAATTTTCAACTAAAATTTTATCAACTGTTTCAGGTGTAATTACTGAAGCTCATGTAGATGAAAATTTAAAAATAGATTCTAGTAAATATTTATTTAAGATAGTTGATGTTGAAAATTTAAAAATACATGCAGAAATACCAAATTCTAAATTAAGAAGCATTAAAGAAGGTGCTAAGGTTAATGTAACTTCTGAATCTTTGGAAATCAATCAAGTTGTTGAAACTTCAATAAGTGAAATTTCAAAAATTTCAAGAAGAAGTAAACAATTTAATGATGCTGTTACAGATATTGTAGCAAAAATTGATTCAAGTTCTAATTTAAAACCTGGAGATACAGTTAAATTAAATATAATACTTGAAAATATTAAAGATGCTGTAGTTGTTAACTTTTTAGATGTATCTTTTGAAGATGGTAAAACTTATGTATATACAGTGGATAAAGACGGTAAAGTTAAAAGAAATGAAGTAGTTGTTGGTAAAACTAATAATATAGTTTATGAAATTAAATCTGGAATTAAAGAAGGAGATAAAGTATTAAACAATCCAGGTAGAATATATAAAGAAGGAGATAAAGTACAATGATAAAAATTAAGGATGTTACTAAAGTATATCAAAATGGTAAACTTTCCTTAGAAGTACTTAAAGGCTTAAATTTATCTGTTAGTGAGGGAGAATATGTGGCATTAATGGGACCTTCTGGTAGTGGAAAGTCAACTTTTTTAAATATTTTAGGATGTTTAGATAATTTAACAACAGGAACATATGTTTTAAATGGTATAGATGTATCTTTGATGAATGAAACTGAGCTTTCAATAGTAAGGAATGAAAATATTGGATTTGTATTTCAAGCATATAATCTTTTACCTAAATTAACAGCTTTAGAAAATGTAGAATTGCCAGCTATGTATAAAGGGACTGACAAAAAAACTAGAATTGAAAAAGCCAAAAAAGCTTTAGAAATGGTTGGACTAGGAGATAGAATAAATCATAGACCAGTTGAAATGTCAGGGGGTCAAAAGCAAAGAGTTGCTATAGCAAGAGCTTTGATTAATGACCCTAAAATAATATTTGCTGATGAGCCTACTGGTAATTTAGATAGTAAATCTGGAGAAGAAATTCTTAAAATTTTTAAAGAGTTAAATGATAATGGAGTTACAATAATAATGGTTACACATGAAGAAGATGTTGCACAACATACTAAAAGAATAATAAGACTTAGAGATGGAATAATAAATTCAGATGAAATCGTAAAAGAAAGAAGGGGATAATATGGATATATTAGAATTAATAAAGTTATCTCTTAAAAGTTTATATGGTTTTAAGATGAGATCATTTTTAACAACTCTAGGAATAATAGTTGGTATAGGATCAGTTGTAATGATATCTTCAATTGGAGCAGGTTTTGAAAATGGTTTATTAAGTGATGTAGCTAAAACTTACTCTAAATTAATAAATGTATCAATAAATAATCAAAAATTAGATAAAGCTTCTGCAAGTAGAAATTATTATTTCACTGAAAATGATATGTTACTTATGGAAAAACAAAATAGTAATATAGATAAGGTGTTTGTACAAAATAGTTTAATCGGTATAGATGGAAATGGAAGATACTATCTTGTAACTGCTTTAGGAGAAAAAGCATTTAAAGTTTTAACACCTAAAATTTCATATGGTAGATCTTTTATAGATGATGAATTTAAATCTAAAAATAATTTAGCATTAATTGGAAGAACAAGTGCTATTTCGTTGTTTGGAAGTGAAAAAGAAGCTCTGGGTAAACAGATATCATTTGAAACATTTAATTATGAAACTAAAGAGAATTTAACTATAATAGGAACTTTTGTAGAACCACATGAAAATATAAAAAAGACATTTAATGAAAATTCCGTTGATGTAATTACAAATGATAGTTATTTTTCTGGAATAAAATTTAATTCTTCTATAACTATTAAAGTAAAAGATGAACAAAATATTAAAAATACTGTGGAACAAATAAAAAATTATCTAAATAAAAAATCAGATAATAATGATATATATGATGTTAAACAGTTTTCAGAGGATACTAATAAATTATCAGAAATACTAAATAAAATTTCATTATTTATATCCTTAGTTGCAAGTATTTCACTTGCAGTTGGAGGTATAGGAGTTATGAACATTATGTTAGTATCAGTTACAGAAAGAATATCTGAAATTGGACTTAGAAAAGCTATAGGTGCTAAAAATAAAGATATATTAATACAATTTTTAATAGAATCTGTTACACTTACATTATTAGGTGGATTAATAGGAGTATTTTTGGGACTAACATTAGCATTTTTAATAGGAATACCATTTAGTATTACTCCAATATTAAAATTAAATGTTTTATTAGTTTCATTAGGAGTCTCTATGGGAACTGGATTAGTCTTTGGAATTTATCCAGCGAAAAAAGCATCTAAATTATCACCTATGGAAGCATTAAGAAGTGAATAAAAAATAAAGAAAAAGCCTACTTTAATGAGTATATCTCAAAAAGTAAGCTTTTTTTAATTGTTTTATATTGATAAAATATATAAAAGATGATATAATAAACATACCATACAAGTCGGGGATGTAGCGGGTCCTTGTACCTGAAATCCGCTTTAGCAGGGATGATACCAATTTTGAGGGTAATTCTGGTGTTCACGCCATGCTGTATTGATGTTGAGAAAGTAGTCCTATATTGTAGAAATTCAGCGAAACATGTCAGGCTGGGAACGGAGCAGCATTAAGTTGAGATTTCTAGGTTTATGGGGTAGCTATTTTTGAGTTAATATAGTATGAAACCAATGTTGGAGTTATTCGATTAATTGGTGTATGGTATATAGCTAGTTATCTAGCTTTTTTTATTAGGAGATTTTTATGAAGATAAGTAGAGTTGATTTTGAAAATTTATATGAATTTAAAGATATTAAACATGAAGAAAATAACATATATTATGCTATTTCATTTGAACATAGAATATTTGGATATTTGACTTTAAAAAAAGAAGATAAATTAATTTTAAAAGATATATATATTAAGAAGGATTATAGAAATAGTGGTTATGGTTCTAAATTAATAGAATATGCAATTTACGATTGCATAAATTTAGGTTATGACCAAATGGTCGCACTGAAACATAAGAAAATAAATAATTTTTTAGAGAAAAATGATTTTATAAAAATAAATGGTATTTATGTTAGAATGAATTTAAAGGAAGAGTTAGAAGAATCTAATTCAACAATTAAAATAGGAAAAATGTCAATAATAATAAACATCATACTTGTGATTTTTAAAATGTTTTTAGGATATACTTTTAAAATAAATTCATTTATTGCTGATGGAATAAATTCATTTTCTGATTTAATTAATAATGTGTTAGTATTAATTGGTGCTAGTATTGGTAAGAGTCCCAATGATGAAGATCACCCATTTGGTCATGGTAAGGTTGAATCTGTATTTAGTTTAATAATAGGTGTAATAATTATTTTCACATCATTTGGTGTGTTAAAAAATGGAGTTTTAATGTTGGTTAGAAAAGAGTATTTACTAATAAATAATAAATTTTATACAATATTATTTATATCTGTATTATTGGTATTTATTAAAACATTACAATACTTATATGTTTATCTTGTATCAAAGAAATACACAAATCCTTTAATAAATGCTTTGTTGCTTGACTACAATGTAGATATACTTCTTTCTATTATGGTCATGTTAGGTTTATTGACATCTAAATTTGTTTCACCAAATATAGATGCAGTCCTTTCTATTATGATTTCAGGATATTTAATTTTTCAAGGATATAATGTTGTTAAAGAAAATACATTAATATTAATGGACTCTCAAGATGAGAATTTATTATTAAATATAAAATTACTAACTTTGGAAGTTAAAGAAATTGAAAATATACATGATGTATATATGACTACAGTAGGTAAAAATATATATATTATTGCAGATATTAGATTTAGATCTAATATTACATTAGAAGAGGCTCATGATATAGCAGTTATAGCAGAGAAAAAAATTAAATTTAGATATTCTAATATAAAAAAAGTAATATATCATATGGAACCAACATATGACAAGGAGTAGATATGAAAATAGTTGGACCTGCGGGTAATTTTGAAAAACTAGATGCAGCAATTAAAGCAGGAGCAGATGAAGTCTTTTTAGGATTAAAAGGTTTTGGTGCAAGAAGAAATAATGATAATTTTGCAATGAAAGAGTTATTAGATGGAATAGATTATGCTCATAAAAAAGGTGTTAAGGTTCTACTTGCTCTTAATACAATAATGAGAGATATGGAAATTAAGTCCGTTTATAAGAATTTCAAACCAATATATGAACATGGAGTTGATGCTGTAATAGTTCAAGATTTTGGTTTAATTAAATTTCTAAAAACAAATTTCCCTAATCTAGTTTTACATGGCAGTACTCAAATGACAGTAGCGAATTATGTAGAAGCTAATTATTTAAAAGAATTAGGACTTTCAAGAGTTGTACTTGCAAGAGAATTATCATTTGAGGAAATAAAGGAAATTAGAGAAAATACAGATATTGAACTTGAGGTATTTGTTTCAGGTTCTATGTGTATTTCTTATTCTGGAAATTGCTATGTATCAAGTTTTATAGGAGGAAGAAGTGGAAACAGAGGTATGTGTGCTTATACATGTAGAAAAAAATTTAAAGATGAAGAAGGAAAATTATCATATTTTCTATCACCTAATGATCAATTACTAGAGGAAGCTGAAATAAAAAAATTAAAAGATATAGGTATAAATGCTATTAAAGTGGAAGGTAGAAAAAAGCAACCAGAATATATATATGAAACTGTTTCATATTATAGAGATATATTAAATGGGATTAACAGAAAAAGTGAAAGTTATAAACTATTTAATAGAGGATATTCTAAAGGTTATTTCTATTTAGACGATAAATTAATGAATCATAAATATTCATCAAATTTCGGTTATCTTTTAGGTAAAGTTGAAAATAATGAAATTAAGCTACTTGATGATTTAATTTTAGGAGATGGAATACAATATGTAAATCAGCATTTTGAAAAAATAGATGGTATTTATGTAAATAAGATATATAAGAATGGTTCAAAAGTTCAAAATGCTAAAAAAGGAGACATCATATATCTACCAGATATACCTAAAGGAACAAAGTATTTGTATAAGAATTATTCAAAGGAAATAAATGATAGAATTAATCATGATATTAAAGTGGTAAAGAGATATAAAAATATAGATGCAAAAGTAATAGCAAATTTAAATAATGAATTATATATTGAATTTTCAACTATGAATAATTTCAATAAAAAAATTAAAGTAGAATTTAAAGGTGAAATTTTAGATTCTATTGCAAATAAGAAGATTACAAAAAAGGATATAATAGATAAATTATCGGAACTAGGAGATACAGATTTTAATATAAATAATATAGAGGTTCAATATGATGATCTTGCATTTATACCTTTTAGTAAAATTAAACAAATAAAAAGAATGTTGGTTGAAAAATTAGAAACTAAACTAATAGATTCATATAAAAATGATGAGCTAGAATTTATAGAATTTAAATATTCTAAATTTGATAAACCGATTAGTCCAATTTTTTCAGCATTATGTAGAACAGATGAACAAGAAAATATGTGTAGAAGATTAGGTATTACAAAAATATATAGAGAAAATTTTGATATAGCTAAACAAAAGAATATTTTTAATTCATTGCTTAATCAAAATACAAATCTTGTTTCAAATTTATATCAATTAATAAAAGGTAAAGAAAATGGAATTAAAAATCAAGCGATGAATTGGAATTTTAATGTTTTTAATAATATTAGCATTGATGTTTATTCAGAATTTGATAATATAGATACAATATTTCTTTCACCAGAATTAAACTATAAGCAACTTAAATTAATGACTAATACAGCTCTTAAAAGAGGATTAGTCATATATGGAAACTTAAAAACAATGTATATAGAACATACCATAGATAATAAGAAGTATAAGGAAATACAAGGTGAACATTTTGATAGATATAAGGTTATAAAAAATGAGTTAAATAATATAGAACTTTATTTGTATAAGCCTATGAATTTAATTCCTAAATTAGATTTAATTTATTCATTAAATCTTGATGAATTAAGACTTGACTTTACTTTTGAAAATGAAGATGAAGTTGAAAAAATTATTAAATCCTTGAAAACAAAAACAGGTAAATATAATCCATATGCTTTCGATATGGGGGTAAGTTAATAAAATTTGTCCAAAAGATATTTTTTTGGACTTTTTATTTTAAAAAGAATGTATATAGTGTTTGGTAAATACTATAAAATATGATATAATAAGTATAAAAATAAAGAAATTTGGAGATAAGAAATGAATAGTAAGGAAAGAAATTTTTTAAGAAAAAGAGCACATGGATTAGAGCCTGTAGTTAGAGTAGGAAAAGAGGGTTTAACTGACATGGTAATTGAAAGCATTAAATCATATATTGAAAAAAATGAATTGATGAAAGTTAAGTTATTACAAAATAGTTTAGAAGATGTTAATATTGAATTAATAAATGAAATTGAAACAAAAGCAAAATGTTTTTTTGTTGGTTCAGTTGGAAAAGTAATGATATTTTTCAAAGAAAAAAGAGATAAAAATAAGTTAGGTGAAATAACAAAAGAATTTATTGAATTTAAGAAAAAGTGGCGTGAAATTAATGAGTAATGGCCTTATTTTTGGTAATAAAATACTTGATGTTGTATTTATTTCTGCATTTACTGCACAGATATACAAATGTTTTTCGCCTGTTATTTTTAAAAGAAAAATAGATTTTACAAGATTATTTTCTACTGGAGGAATGCCAAGTTCACATTCATCTTCTACAGTATCATTATGTTTTTCTGTTGGAATAGTAAAAGGTTTTTCAACTACAGAATTTGCTATTGCCTTTATATTTTCACTAGTAACAATGTATGATGCAACTGGAATAAGACAGGAAGCTGGCAAACATGCAAAAATATTAAATTCAATTATTGAAGAAAAAAGATTTCTGTATAAAGAAGAGATAAAGGAATTAAAAGAATTTTTAGGGCATACACCTTTAGAAGTATTTGCTGGAGCTATACTTGGTATAGTAATATCATTTTTAATGAAAGGATACTTGTTATCATAATATGAAGAAAAGATTAGATGTACTTTTAGTAGAACTAGGATATTTTGAAACTAGAGAAAAAGCAAAAAGAGAAATTATGATAGGAAATGTTATTATAAATGATAGAATAGAAACTAAAGCTGGCACGCAATTTAAAGAAGAAAACATTAAAGATATTAGAATAAAAAATAAATTGAAATTTGTTAGTAGGGGTGGTTTGAAGCTTGAAAAAGCTATAACATATTGGAATTTAGATTTTAAGGATAAAATTATTTTAGATATAGGAGCATCTACAGGAGGATTTACAGATTGTGCATTACAAAATGGTGCAATTAAAGTATTTGCAAATGATGTAGGTACAAATCAGCTAGATTATAAATTAAGAAGTGATGAAAGAGTTATTTCACTTGAACAAATTCATGTTAAAGATCTTGAACTCCAAGAAAAAGTTGACTATATAGTCATAGATGTTTCATTTATTTCTTTAACTAAAGTTATTCCTTTTTTCACTAAATTTTCAAAGGAAGATACTAAAGTAATTGCATTAATTAAACCTCAATTTGAAGTTGGAAGAGAAAAGATATCAAAAAATGGAATAGTTGTTGATGAAAAATATCATGATGAAGCAATTAAAAAAGTAATATCTTCTTTTAAAGATTTTAATTATGAGATATTAGATGTAATTGAATCTCCAATACTTGGAGGTAAAGGTAATAAAGAATTTTTAATTTATACAAAAAGGAGCAATTTATGAAAATAAATAAAAAACATTTATTAACAATGTTTTTAATAGGTGCGTTAGGCTATGTAACATATTCTGAAGAAAGTCAAATTATAAGAAAAAAAGAAATAGCCGCAGAGCAGAGAGCAAATGCTACAGTTGATATAAGAAACATAAATAAAATTATTCAAACAATAAATCGTATTAATGAAATATGGGTTGGATCAGAAGAAGTTGATAAAGAAAAATTATATGAAGCAGCACTTCGTGGTATGGTTAAAAGTTTAAAAGATCCATATTCAGAATATTTAAGTGAAAAAGAAACTGAAGAATTTAATCAAGATATTGACGGTATTTATATCGGTGTTGGTATGACAATAAAAAAAGAAGTAGGAGATTATTTAGAAGTTACATCAACTTTCATTGGTGGACCTGCTTTTAAATCTGGAATACAAATAGGAGATATTATTACTAAAATAGATGATAAAGATATAATTGATCTTACAGCTACAGAAACTAGTAAAAGATTAAAAGGAGATGAAAATACTAAAGTTAAGGTTGAAATTTATAGACGTGGTTTAAAAAATCCTTTTACTCTTACATTAAAAAGAGAAAAAATTAAACTTGGTAATGTAGAATATAGCATGTATGATAATAAAAATAAAATAGGCTATATCTCATTATTACAATTTGATAATAATGTTTCTGAAGAAATTAAAAATGCAGTATTAGATTTAAAAGAACAAGGAATGAAGAAATTAATTTTTGATTTAAGAGGAAATCCAGGTGGATCACTTCAAGAAGCAGTTAAAATAGCTTCAATGTTTGTTCCAGATGATTTAATAGTATCTTTAAAAACTAAATCTGGTATAGATGAAAAACATACAAGAATAGGGGAACAAATATTTAAGGGTGAAATGGTAATATTAGTTAATAAAGGATCTGCTTCAGCTTCTGAGATTGTTACAGGAGTATTAAAAGATTATGAAAGAGCTACAATAATAGGTGAAACTACATATGGAAAAGGAGTAGCACAGGCTATATATCCCCTTATAAACGGAAAAGATGTTTTAAAATTAACTATAGCTGAATATTCTACACCAAAAAATAATAATATTAATAAAAATGGAATAGAACCAAATATACATATTAAAATGAATCCTTTATTATTAGATAAGGGATATTCAAAAGAAACAAAGGAAGCTAAAGAAAATAGAAAAAAAGAAATTATTAAATTTTTAGAAGAAATAGAAGGTAAGGAAAAAGCTGCTGAAATAATAAAAGAGGGGGATAAACAATTTAATGTAGCATTAAAATTCCTATTAGGAGAAAAGATTGAATCTGATAAAAAAGATGAAGAAAAATTAAATAAAAAAACTAAAAAAGATAAAATATTAGAAGAAAATAATAAAAAGAAATAGAGGATTTTATGTTATATATAGTAGGAACTCCTATAGGTAATTTAGAAGACATGACATTTAGAGCAGTAAGAACTTTAAAAGAAGTTGAATATATTTTCGCAGAAGATACAAGAATAACTAAAAGGTTATTAAATTATTATGAGATAGATACTAAGGTGTATCAATATCATGAGCATAATAAGCAATATCAGATTGAAAATATTATAAAACTTTTAAAACAAGAAAAAAATGTAGCCATAGTTACAGATGCTGGAATGCCATGTATATCAGATCCAGGATATGAGCTTGTAGATGCTGCATTAAAAGAAGAAATTAAAGTAACTGCAATTCCTGGACCTTCATCTATTACTACAGGTGCATCAATAGCAGGTATAGATACAAGACGTATGGCATATGAAGGTTTTTTACCTAAAAAGAAAGGAAGACAAACCCTATTTTTAAAACTTCAAAAAGAAGAAAGAGCTATTATTATTCTTGAATCACCAAATAGAGTTGTTAAAACTTTAAAGGATATACAAACATATTTGGGAGATAGATATGTTGTAATAACTCGTGAATTAACAAAGATTTATGAAGAAATTTTAAGAGGTAAAGTCAGTGAATTAATTGAAAAATTAGAAAAAAGAAATATAAAAGGTGAAATAGTACTTTTTATAGCAAGTGGAGAAGAAAATGAGTGTGATAATTAACTGGTATCCAGGTCATATGAAAAAAACTAAGGAAATGATAGTTGAAAATTTAAAAATAGTTGACTTAGTTATTGAGATATTAGATGCTAGAATACCAATTTCAAGTAAAAATCCTGATATAGAATATTTGGCTAAAAATAAGTTAAGAGTTGTTATTTTGAATAAAATAGATCTAGTAGATGAAGCAAAATTAAAAGAATGGGAAAAATATTTTATTGAAAATAATATATCTCACCATTTTTTAGCAATAAGTGTTGAAAAAAATAAGAACTTTAATGAACTTAGAAAAATAGTTAATAAGATATATGATGAAAAACTTGAAAAAATGAAGAAAAAAGGACTAAGAAAAACTGTTGTCAGGGCTATGATAGTAGGTATTCCTAATGTTGGAAAATCTAAATTTATAAATAAATTTTCAAATAAAAATAAAGCAAAAGTTGGAAATAAGCCAGGATTTACGAGAGGAAAACAATGGATAACAGTTGATGATAAATTTGAATTATTAGATACACCAGGAGTTTTATGGCCAAAATTTGAAGATAATATGGTATCATTTAATTTAGCCATAACAGGTTCTATTAGAGATGACATTCTTCCATTAGAAGATGTATCAAATAGATTGATAGATATTATGAAAGAGCAATGTATAATAGATAATTTAATATATTCATATAATTTAGATGAAGAAACTTTAATTACTAAGACAAATATAGAAATATTTGAGTTATTAGAAAAAAGGTTAGGTATATATAAAAATGAAAAATTTAGTTATGAGTTAATCTCAAGGAGATTACTCAAGGATTATAGGATAGGTAAGTTAGGTAAATTTCTACTAGAATATCCTAAAGATTTTAAGAAAGAAGGTACAAATGAATTTTAAAGATTACAATTTAAGTAATGAAATGTTAGAAGCATTAGAAAAAAAGAGGTTTGTTTCACCAAGTGAAATACAAGCATTAGTTATTCCTGAATTATTGAAAGAGGAAACTCATTTAATAGGTCAGGCTCAAACAGGTACAGGTAAAACTGCGGCTTTTTCAATACCTATATTGGAAAAAATAATTCCTACAAAAAAGGTTAAAGCATTAATACTTGCTCCTACAAGGGAGCTGGCAAATCAAGTTAGTGATGAGATATATTCTTTAAAGGGTAAAAAAGAAGTTAAAATATTAGCTGTATATGGTGGTGCTTCAATTGAAAATCAAATTAAAAACTTAAAAAAGGGTGTTGATATAGTTGTAGGAACACCAGGGCGTGTTATTGACATGATTAACAAAGGAGCATTAAAATTAAATGAATTAGAGTATTTTGTCTTAGATGAAGCAGATGAAATGTTAAATATGGGATTTATTGAAGATATAGAACTAATATTAGAGAAAACAAATGAAGATAAAAAAATGCTATTTTTCTCTGCAACTATACCTAAACCAATACTTGCTATTGCAAAAAGATTTATGCCTGAACATAAGATATTAAAGGTTCAGAAAAAAGAATTAACAACACATTTAACTGAGCAAATATACTTTGAAGTTAGAAGAGAAGATAAATTTGAAGCTTTATGTAGAGTTTTAGACTATAAGCCAGATTTTTATGGTATAGTATTTTGTAGAACTAAATCAGAAGTTGATGAAGTTACAAATAAGTTAAAGGCTAGAAACTATGATGCTGAAGCAATACATGGGGATATAACTCAAGGATTAAGAGAAAAAGCATTAGATTTATTTAAAAATAAGATATTAAATATATTAGTTGCGACAGATGTTGCTGCTCGTGGAATAGACGTAAGTAATTTAACACATGTTATTAATTACTCTATACCACAAGAATCAGATTCTTATGTTCATAGAATAGGTAGAACAGGTAGAGCTGGAAATAAAGGTATTGCTATTACATTTGTAACACCTCAAGAATCAAGAAAATTAGCACAAATAAAAAGAGAAACTAAATCTGATATAAAGAAAGAAAATATACCAAATGTTGAAGACATTATTAATGCAAAAGAAGAATTATTAATTGCATCTGTAGAAGAAATAATGTTAGAAAATGATTATAAACTATATTTAGATTTAGCTAATAAACTATTAAAAGGTAAAAATACTGAAGCAGCTGTAGCTTCTTTATTAAGACATATATATGATGATGAATTTATTCCTGAAAGTTATAGTAAAATAAAGAATGTACAAGTTCAAATTAAAGATAATACAAGATTATTTATAGCTTTAGGTGAAAAAGATGGATTAAATGTAAATAAATTATTGAAACTTATACATGAAAAAACAAAGGTACCAGGGAGAAAAATTAAAGATGTAAAAGTAATGCCTAATTTCTCATTCATTACAGTACCTTTAGATGAGGCTGAAATAATAATTAAGATATTTAACAAAAACACTACAAAAAATAGCAAACCTATGGTTGAAGTTGCTAATTCTGATAAGTCTGGAAATGGATCAAATAAAAAAAGTAGAACAAAGCTAGGAGATAGCAAGAAAAAAAGAAGATAATGTGAGGGTTGAAATGGATTCAGTTATATTAAAACCAGATGATGAAATAAAGTTAAATAAAGAATGGATAAGTAAAGAAATTAATATTGTAAAAAATATTTTATCAGAAATAGTACCAGATATAGATATTGATTCTATTTTAGATAATGAAAAACATTTTAAAGATATTGAGAAAATAAATCCAGATGTTGTAAGAGTTTTAACTATATTACCACTTTTAATAAATATAGTTGAGGATGTTTATCAGTCAAAAATATTAAAATATAATACAATAACTAAAAATTATACAGAGGGGATGTTAGATAATTTATTATATAAACTTGATTTAAATAATATGAATAAAGAAAATTTAACAGAAATATTTTCAAATATTAGGGTTGTGCCAGTTCTAACTGCACATCCAACTCAAGTTCAGAGAAAATCAATTTTAGATTTAACTCAAAATATATATGAAATATTAGAAAAAAGAGAATTAGTTGAACATAATTTATTAGATGAAAATGAATGGATGAATGAATTAAGAAAAAATATTAATTTATTATGGAGAACAGATATATTAAGAAGTTCTAAGTTAAGAGTAGGTAATGAAATAACAAATTCATTAAGTTATTACGATTCAACATTTTTAAAAGCTATTCCTAAAATTAATATTAAATTTAAAGAAATAGCTAAAAAATTAGGAATATTTTCTAATTCATACACTCCAATACTTATGGGTACATGGATAGGCGGAGATAGAGATGGAAATCCATTTGTTACTGAAGAAACACTTTTAAATGCTGCTTATTCACAGTTTGAAACAGCCATAGAGTACTATATTTCAGAATTAAAAAAATTATATAGAGAATTTTCTATTTCAAGTTTAAAAAATGAATATAGTGATGAATTAAAAGAACTTGAAAAACTTTCAAAAGATAATTTGGAACATAGGACATATGAACCATATAGATTAGTAATTTCATATATTATAGATAATTTACAAGATGTAAAAGTTAAATTATTAAAAGAAAAACTTGAGCTGCCGTATGATTCATATTATAATTCAAAAAAATTATTAAATGACTTATTAGCTATAAGAAAATCAATAAAGCTATATAGTGATGAAATAATTGCATATGGTAGACTTGATGAGTTAATTGAATCAGTGAAGGTATTTGGATATCATTTATCATCTATAGATTTAAGACAGGATTCAAGTGTGTATGAATTTTGTGTTAATGAATTATTAAATATCGCAAAGATAACAGATAATTATTCAGCATTAACAGAAGAAGAAAAATGTGAGATATTAATAAATCAAATAGAAAATGAACCTAGAAAATTAAGTTCTGTAAATTGTAAAAAATCTGAAATTTTAGAAAAAGAATTAAGTATATTTAGTACTATGAAAAAATTAATAAATATTTTTGGAAAAAATATAATTGAACAGAATATTATTTCTCATACAGTTGAAATTTCTGATATGTTAGAACTAGCACTTCTATTAAAAGAATTTGATTTAGATGGAAAAGTTAATATATCTCCTTTATTTGAAAGTATTGAAGATTTAAAAAATTCTGAAAAAATAATGAAAACTTGGTTTGAACTTGATATTTTAAAAAAATGGATGTCTAATAATGGAAGTCTCCAAGAAATAATGTTAGGTTATTCTGATAGTAATAAAGATGGAGGATATATTACATCAAGTTGGCATTTATATAAAGCACAAAAAGAATTAGTTAGCTTAGCTCAAAAATATGGAGTTAAACTTAATTTCTTCCATGGACGTGGTGGAACAGTAGGTCGTGGAGGCGGACCAAGTTATGAGGCTATACTTTCACAACCAAGTGAATCTATTCTTGGTAAAATAAGGCTTACAGAACAAGGTGAAGTAATAGGAGCAAAATATGGTAATCTTGATTTAGGTAAATTTAACTTAGAAGCTTTATTATCTGCTACTTTAGAAAAATCATTAAAAGATGATACAAAAGATATAAAAGAATATGAAAATATAATGGAACAAATATCAAATATAAGTTATGAAAAATATAGAAATTTAGTATATGAAACCGAAGGTTTTTCTGAATATTTCTTTGAATCTACTCCAATAAATGAAGTTTCTTCACTTAATATTGGTTCAAGACCTTCATCAAGAAAAAAAGTTTTAGATATAGAAGGATTAAGAGCTATTCCATGGGTATTTTCATGGTCTCAAATAAGGGTGATGCTTCCAGGTTGGTATGGAGTAGGAACATCTTTTAATAAATGGATTAAAGAAAATAATGGACTAGAAACTTTAAAATTAATGTATAGAAATTGGCCATTTTTTAAAGCTTTATTATCTAATTTAGAAATGGTACTTTCTAAAACAGATATGAATATAGCAAAAGAATATGCAAAACTTGTAAAAAATGAAAATTTATCAACTAAAATATTTAATATGATTAATGATGAATGGATACTAACTTTTAACTTATTAAAAGAAATTACAGGAATTAATTATTTATTAGAAGATAATGAGATGCTTACATTAAGTTTAAAAAATAGATTACCTTACTTTAATGCATTAAATTATTTACAAATTGAATTAATAAAACAACAAAGAGCTGGAAATAACACAGAAGAGATAAATAAGGCAATACACACTACTATTAATGGTATTGCAACTGGACTTAGAAACAGTGGATAGGAGGATTTATGTCGGAATTAGAAATTAAAAAAGAAGTAGAAAGACAATTTGAAATACTTAAAAGAGGTTGTGATGAAATAATAAGTGAAGAAGAGTTTAAGAAAAAACTTGAAAATTCAATTAGAAATAATAAACCTTTAAAAGTTAAACTTGGAATAGATCCAACTGGTTCAGAATTACACATAGGTCATGCTGTTCCTATTAGAAAATTAAAACAATTTCAAGATTTAGGGCATGAAGTAAACTTTCTAATTGGAACATTTACAGCTAGAATTGGGGATCCAACAGGTAAATCTGAAACTAGAAAAATGTTAAGTTTTGAAACTATACAAGAAAATATTAAAACATACTTAGAACAAGTTAAAATAATATTAGATCTTAATAAAATAAAAGTTGTATATAATCATGAGTGGTTAGAAAAATTGAAATTAGAAGAAGTACTAAAACTTTTATCAATGTTCACAGTTTCTCAAATGATACAAAGAGAGGATTTTTCTAAGAGATTATCAAATAATCAACCTGTATCTTTAATTGAATTTACTTATCCAATATTACAAGGATATGATTCAGTTGCTTTGGAAGCAGATGTTGAATTAGGTGCAACAGAACAAAAGTTTAATTTATTAAGAGGTAGAGATTTACAAAAAAATTTTAATCAAGAACAACAAATTTGTATGATAATGCCAATACTTGTAGGACTTGATGGAGTAGAGAAGATGTCTAAATCATTAGGAAATTATATATCTATACAAGATAGTCCAAATGATATGTTTGGTAAAATTATGTCAATATCTGATGAATTAATGTTAAATTACTATGAAATGATTACAGATTTACCATTAGATGAAGTAAAAGAAATGCTTAAAACACAACATCCTATGGATTGTAAAAAGAAATTAGGATATGAATTAGTAAAAGAATATTATGGAGAACAAGTAGCTATTGAATCTAAAGCTTGGTTTGAAAATGTATTTAGTAATAGAAATTTAAATGTTGAATTACCTGAAATTAAAATAGTTGAAAATGAATTAGCTGCATTAGAGTTATTATCAAAGCTTAATTTCATTAGTTCAAATAGTGAGGGTAGAAGACTTATAGATCAGGGAGCAATGAAAGTTAATGATGTTATAATCAAGGATATTAATGAAATAATTAATTTAACAGAAGAAGTAATAGTTCGTTGTGGAAAGAAAAAAATAGTTAAAATTATAAAATAAAGGAGGAAAAATGAGTAAAATTTTAAAATTTGATGAAACAATTATTTATGATACTATTATAGTAGGAGCAGGGCCAGCAGCAGTTTCTGCTGCAATATATGCAGTAAGAAAAGGATTAAAAACTGCTATGATAGGTGAAGACATAGGAGGACAAATTTTAGATACAAATGAAATAGAAAATATTATAGGTGTTCCTTTAACAAATGGTTTTGATTATGCAACAGAATTGGAAAAGCATATGTCTGAATATGAAATCTATTTCTATAAGGGACATAGAGTAAAAGAGATTATTAATGATGATAAATTGAAAAAAATAATTACAGATGATAATAAAGAGGTATTAACTAAAACTATCATAATTTCAACAGGAGCTAAATGGAGACAACTTGGTATCCCAGGTGAGAAAGAATATACAGGAAAAGGAGTACATTACTGCTCAACTTGTGATGGACCTTTTTATAGAAATAAGGATGTAATTATTGTAGGTGGAGGAAATTCTGGAGTAGAAGCAGCTATAGAGATTTCTAATATTGCTAAAAGTGTTGTATTAGTAGAGTATATGGATGAATTAAAGGCTGATAAAGTATTACAGGATAGATTATTTACTTTAGAAAATGTAAAAATATATCTATCAACTGGTGTTACAGAAATTATTGGAAATGAATATGCTGAAATTTCAAAATTAAAAAATAGACATACTTCAGAAGAATTTGAATTAAAAATGGATGGACTTTTTGTAGAAATAGGATTAAGTGCAAATTCAGATTTAGTAAAAAATATTGTTGAAACTAACAAAGCAGGTGAGATATTAATTGATGAAATGAATATGACATCAATTCCAGGTATTTTTGCTGCTGGAGATTGTACTAACACAAAACATAAACAAATAATAATTGCTATGGGAGAAGGGGCTAAAGCTGCTTTAAGTGCATTTGAATATGTAATTAAAAACTAAAAATAAAGGAATTGTAGAAGAGGATTACTCATAATACAATTCCTTTTTATTAATAATTTTTTTTTATATCTCTTAATATATCACGCTGTTTAATGCTTTCGCGTTTATCATAATTTTTCTTACCACGAGCAGTAGCTATTTTAACTTTAATTAGACCTTCTTGATTAAATACGGTTAAAGGAACTATAGTATATCCTTGTTCTTTAACTTTTTCTGATAGTTTTTTTATTTCTCTTTTATTTAATAATAACTTTCTTACCCTAGTTTCATTTACATTATATATATTACCAAAAGTATATTGAGAAACAAACATTCCAAGTATCCACACTTCATTTTTTATTATTCTAACAAAACTTTCCTTTATACTAACTTTACCAAGTTTAATAGATTTAACTTCAGTTCCTTTTAATTCAATTCCTGCAACATATTCATCCTCAATAAAGTAATCAAAATATGCTTTTTTATTATTAGCTAAAATTTTCATTATAGTACCTCCGAAATAATTTCTATTCTTTCATAATCTAATTTTATGATTTTTATTTTTACCTTATCACCAATATTAAATTTATTTCCTTTATTATCAATTAATAAAGCATCATCTATAATATATTTAGAACTAATATTATCATAAAAAACGGTTTCAATTAAATTATCTAATTGAAGAAATATTTTACCTCTAATAATACCAGATATTCTTGCTTCAAATACTTCATTTAAATGTTTTTTCATATAGTCTAATAATTTTAATTTTATAGAGTCTTTTTCAAGTCTTTCAGCAACTCTTTCTGTTTTAGATATATGCTCTGCTATTAATTTATATTCCTCTTTTTTCTTATCAATATATTTAGTGGAGATTTTTTTATTATTTAATGTAAATTGAAGCATTCTATGAACAATTAAATCAGAATATCTTCTTATTGGTGATGTAAAGTGGAGATAATTATCTAATGCTAAACCAAAATGCCCCTTATTTTCATTCATATATTTAGCTCTTTTCATAGCTTGTAATACAGTTTTATGAATTAAATATGAATTTTCATCATTAGAGCTTTTATCTATTATTTTAGCTATTTTACCTGGATGTATATCCATTACATTATTTATGTTATATCCCAATATATTAAGTTTTTTATTTAAACTTCTTAATGTATCAATTTCAGGAGCTTCATGCACCCTATAAATAGCAGGAATATTTTGCCAATGTAGATATTCAGCAACAGCCTCATTAGCAGCAACCATGAAATTTTCAATTAATTCTTGAGATAATCCTGATATTCTTTTTGATATTTCCTTTATATCGCCATTTTCATCAAGTATTAATTTTATTTCAGGAATATTGAAATTAATCATACCTTTTTTATTTTTTTGTTTTCTTAATAATTTAGAAAGTTCTAACATATCCCATAAAATAGGGTAGCTCTTATCATTGTTATCAAACATTTTATTAACATCAGTATAATTTAATCTATGATGTGATTTAATAATAGATTTAAAGAAATCACTTTCAATCAATTTACCATTTAGATCATATTTAAGTTTTACTGTAAAAGTTAATTTATCTTCATCTGGATTTAAAGAGCATAAGTTATTAGAAAGCTTTTTAGGCAACATGGGTATAACCTGCTCAGCCAAATAAATACTATTACCTCTTTTAGCAGCTTCAAAATCAAGTTTAGAGTATTCTTTAACGAAATATGAAACATCTGCTATACTTACATATAATATGTAGTGATTTTCTTCTTTTTCAAGGTAAATAGCGTCATCTAAATCTTTTGCACTTATATCATCAATTGTAATTGTTTTTTGATGACGTAAATCAACCCTATATTTTAATTCTTCAGATACATTAGGTCTTCTAATTTCTACAACCTCTTTTTTTATTTCATTTAAAAATCCCTTAGATATATTTGAAGCATCTAATAAAGAGTTTAATATATTGTCAGAATTATTTATATTACCAAAATTATTAAGAATATTAACTTTAATGTCATCTTTATTTAATGTTGTATAATCAATGTTAAAACTTAATATATCTCCGTGTTTAATATTGATTTTTTTTGTAGTAGTAGTAACTATTAAATCACTTCGATTTAATCTAATAATGTATTTATTTCTTTTACATAGTATAACATTTCCAAAATATGGGCTATCTTGCCTTTTAACTATTTTGTTGACTTTACCTATAAGTCTTTCATTATCTATTATTTCAACTATTACAGTATCTCCATCGAAAGCATTATTAAAATTTATATCTCTAATTAATACTTTCTCATTATTATCAGTATATGCAAAAGCAATTCTTTTGTTTTTACATATAAATTTACTTTCAAAAATTTTATTCATTTATTCACCTTTTTTTATTAATTCGTTTCTTAATAAAATAGTATTGGGATGTATAATTGAATTTTTACTAATTAAATGGTTTAATTTAAAATTAATTTCCATAAGTATAGCAGAGTCTAAGTTTTTAAGTGATTCTTTTCTAATAAGCTCAACATTTGGATAATCTCTACCATCTTCAATTGCATCAGCAAGATATACTATTTTATCTATTAAAGTCATGTTTTTTCTACCTATAGTATGATACCTTAAAGAATCAAGTATTAACTCATTTGTAATATTAAATCTTTTTTTTGCATAAGCAGCAGCAGCAAAACCATGTAATATTTGATTAATTTTAAATCCATCTTCAAATATATTTTTATATTTATCTTCAATAATAGAGTATGCCTCTTCATCATCAAAATATTTAGCTATATCATGCAATAAAGCACCAACTTCAACAATGTCAGTTGGTGCATTATATATTTTTGCAAGTTCTATAGCTTTATTTCTAACTCTAATAATATGATTATATCTTTTTTCAGTTACTAATTTTTTTAATTCTTCATGAATTTCATTTAAATTATACATAAGTTCTCCTTAATTTGTATCTATTTCAACATTTATTTCATGATATTCTTTAAAATTTTCTCTTAATGTATATTTAACAGAATTAACAAAGTCTTTTATTGATTCATTATTTAATTTACTAAAGTAGTTGTTTAACTTTATTATTAATATACTTTTACCTTCATACTTAAGTGAATATTCTGCTAAAAATTTATAATTATCATTTAATTTATAGAAACTAGAATTTTTAATAACTGCATTAACATAATCACCTTCATCAATAATATTTAAATCAGCTTCAATCTCTAAATGTTTGTATTCTTTAGATTTTTTATCATAAATATATATATCTAAGTATTTTGTTTCTCCATTTATATTACTTTCACTAGATATAATAGGGTTGTTTATTTTATAATTTACATATAAATATGAGATAATGCTAAATATTGATAGACTTAATAGTACAATTAATAATTTATTTTTTTTCATATATTACTCCTCAAAATTTTCTCTTATTGCATCAGCTATAGCATTTACAGCTATCATTTGTCCAGTTTCACTAGCTAATTTTGCATTATCTGATTCATTAGAAATAAATCCTAATTCTATTAAAATAGAAGCTGATTCACTTCCACGTAAAACTGCAAAGTTAGCTCCGAATACTCCTCTTTTTCTAAAATTCATTTGTTTAGAGTAGTTATCAAGTATAACTCTAGCTAAATTAGCACTTTTTTCTTTAGTTCTATTAACAAAAAAATCACCTAAAATTTGATTTATTATACTTACTTTCTTAGCCTGTACTTCATCATATTTTTCTTCTGATTCAATTAATTTTGAAGTATATGGATTAGTTTCTTTTGAAAAATAGAATATTTCAGCACCATTAGCATTATCATTAGTAGCAGCATTTAAATGTATACTTACAAATAAATCAGCGAAGTTGTTATTTCCTATTGCAGGTCTTTCACTAAGACTAATAAAAGTATCATCACTTCTTGTTAAAATAACTTTATGATCTCTTTTTAAATTTCTAGCAAGTTTATGAGTAATTTCTAAAGCTATTTCTTTTTCTAATTTTCCATGACCTCTAGCTCCAGAATCGTGCCCCCCATGTCCAGCATCTAAAACTATAACCAATTGTTTTTTTGTTAAAGGACTAATTTTTTTAGGAACATCAACTTTTACTTTTTTAATTCTTATTTCATCATCAGAATATGTGATTTCTGAACTATATCCATATTGAGAATATGTATAAATACCTGCTAGATCTTTAGTAATTTCATCTATTATTATATATTTATAGAACTCATCATTGATATTAATTTGATTTAAAACTTCTTCTGATATTTTTGTATTTTTTAAATTAATTTCAGAAACATTATAATGGATATTATTAGATGTAATTTTAGTTTTATTGATAATGGGTTTTGTAATTTTAGAATCAAATTTAATAATAAATTCACCATTTTGATATCTTACATCTTCTAATATTACAGAAAATGTTAAAGTAGAGAAACATATAGTTAAAAGAAGTAGTATTTTTTTTAATTTACTCAACATAAAAACTCCTTATTTTATTATATGTGAAATAGCTCTTTTTGTAATAGTAAGTCTAGTATTTTGATCTACTTTTATTTCAACAGTTTCATCATTAATTTTAGTTATATTACCAATAATACCTCCAATTGTCATAATTTTTTGACCTATATTTAAACTATTCATCATTTCATCAAATTTTTTTCTTTTTTTATTATTATTGTAATATAATATTCCTAAAAGAGGTATAAATATTACAGCATAAATTACTAATATTGTAGTTGTAGAATACATTATTTTCTCCCTTCAAATTCATAATTTAATTATATCATATAAAAATTTAAAAATCTATAAAGAAATAACTAGACAAATATTAGAATTTCCTTTATTATATGGTGAAGGAAGGTGTATCATGAAAATAAATGTTGAAAAACAAAAAGAGATTGAATTAATTTATAGTTCTATATTAAATAAAATAGAAAATGCTATTGAAGGTTATGCAAATACTATAAATTATGAAGAAAAAGATTATTTTGCAGAAATTGCATTTTGTATTTTAACTCCACAAAGTAAAGCTAAAAATGCTTGGTCAGCAATAGAAAAATTAAAAGAAAACAACTTATTATATGTTGGTGAAGAAAAAGATATTGTTGAATACTTAAATGTTGTAAGATTTAAAAATAATAAGGCTAGATATCTTGTAGAACTTAGAAATCTTATGACTAGAAATGGAAAATTAGATAGTAAAAACATATTAGCTGAAATTGAAGGGGTAAAAGAAAAAAGAGATTGGATATTAAATAATGTAAAGGGTATGGGATTAAAAGAAGCTGCACATGTTTTAAGAAATTTAGGATATGGAAGATATCTAGCAATATTAGACAGACATGTTTTAAAAAATTTGAAAGAACTTGGAGTAATAGAAGAAATTCCTGCTAGCCTTACAAAGAAAAAATATTTTGAGATTGAAAAATTAATGGAAGAATATTCAAAACAAGTAAACATTTCAATGGATGCTTTAGATTTAGTTTTTTGGTATCAACAAGCAGGAGATGTATTTAAATAAAGTATTAAAACGGCATGATCGCCGTTTTTTTATTTATTCATATTAAGATTACATAGTCCATTTTGGAATAGCTATTCTAAAATCGAGCTTGTTAAAAAATTATTTTGAGAGTATATTATTTTTGTAACATAAATATATACAAGTGAGAGGAGGATAAAATGGAAGATAGAAAAAATAGAAGAAAAGAAAAACCATCACAAATTCCATATGCATTAATTTTAGTTATATGTTTAGTAGGATTTGGTTTTTATTTAAAAGAACCAAAATTAGTAGCATATTGGATATTTGGTGTATCTTTTGGAATAATACTTCAAAGATCAAGATTCTGTTTTACAGCTGCATTTAGAGATCCTGTATTAACAGGAGGAACATCTATAACTAGATCAGTATTATGGGCAATTTCATTAGCTACAGTTGGATTTACAGCTTATAAATATGTAAATCAAGAAAATGCTAAAATATTAATGACTAATGTTAATGCTGTTTCTATTTTAACTGTTGTTGGAGCTATTTTATTTGGAATTGGAATGGTAATAGCAGGAGGATGTGCTTCAGGAACATTAATGAGATGTGGGGAAGGCTTCCAAATGCAATGGTTATCTTTAGTATTTTTCATATTTGGATCAATAGTAGGTTCTTGGGCTATGAACTATTTAGAACCAGCAACAGCAGCTATGTCTATTAAGTTATTCTTGCCAGATTTATTTGGTTGGGTAGGAGCTTTAGTAGTTCAGTTTATAATAATATTAAGTATTTATGTAATCGCCTTAAAATGGCAACTTAAAAAAATTGGAAGTTATGAATAAAAAACAATAGAAAGAGGGAATTTAATATGGCAAAAGAATTTACATTAGATTGTTTAGGTGAGGCTTGTCCTGTACCTTTAATTAGAACTCAAGGGAAAATGGAAGAATTAGAAATAGGAGATGTATTAGTAGTTAGTATAGATCATTCTTGTGCAATGAAAAACATTCCAGAATGGGCAAGAAAAGTAGGACATAATGTTGAGATAGAAGAAATTGATGATGGGGAATGGGAATTAATTATTGAAAAATTAGTATAGGAGGAAATATGCAAGCATACTTTAAAAAAATACAAAAAAATCCTATATATAAAAGAATAATGAAAGATCCTTTATCATATAATACAGGGGCAACTTTACTTGCAGTATTTGCTATAGCTCACTTTATATTTTTTAATAGTACATGGGGAGTTACATCAACATTTGCAGTATGGGGAGCAAAAATTATTAAAATTTTTGGACTAACTCCAGAAAATTGGGTATATTTTCAAACACATGCTTCTCAAGGTAAATCAATTTTAACTCCACTTTTACAAGATGGTGGATCAATACGTAATATAGGAATAATACTTGGAGCAACACTTGCTACTTTATTTGCTTCAGAATTTAGAATTAAAAAAATTAAAAACAAGAAACAAGTTGTAGCAGGAATATTAGGTGGTTTCTTAATGGGATTTGGTTCAAGATTAGCATTAGGATGTAATATAGGGGCTTTATTTTCAGCTACAGCAGCATTATCACTTTCAGGATGGATATTTGCACTGTTCTTATTAGTTGGTGCAATTATAGGAAGTAAACTATTAGTGAAAGTATTTATGTAGGTATTATTATGGAAAAAAAGAGAGAAAGATATGATGTATTAATAATAGGTGGGGGAAGTTCTGGTTTAACTGCTGGTATTTATTGTGGAAGAGCAAAATTAAAAACATTAGTATTTGAAAAAACTTTAGTTGGAGGGTTAGCAACATATACAAGTGATATAGCTAACTATCCAGGATTTCCTGATGGAATAGGTGGAACTGAATTAATGAATTTATTTCATAAGCAAGCTAAAAACTTTGATGTTAAATTTAAATTAACTGATGTTAAATCAGTAAAATTAGATACTGAAATTAAAGAAGTTGAAACATTTAGAGTTATTTATGAAGCACCTGTAGTTATTATTGCTGGTGGTGGTTATCCTAGATTAACTGGAGCACTTAATGAAGATTTATTCTTATACGATAAAGGAATTTCGTTTTGTGCAACATGTGATGCTGCTGCAAACACTGATAAAACTGTAATGGTAGTTGGTTCAGGAGATTCTGCCATAGAAGAGGGGATATTCTTAACTAAATTTGCTAAAAAAGTAATAGTTTCAGTTGTTCACGATGAAGGAATAATGGATTGTAACGAAATTGCAAAAGCAGAAGCTTTAGCTAATCCAAAAATGGAATTTATATGGAATAGTATGGTTAAGGAGTATAAAGGTAATGAAAAATTAGAAACAGTTATTTTAAAAAATACAAAAACTGGAGAAGAGATTCCAGTAGATGTTGATACATGTTTCTTATTTATTGGATATTTACCAAATACTTCTTTATACAAGGAAATATTAGATTTATCTACAAAAGGATATATAGTTACTAATGAAAAAATGGAAACTAATATTGAAGGTGTATTTGCTGCTGGAGATATAAGAGAAAAATATTTAAAACAAGTATCAACAGCTGTAGGAGATGGAGCAATAGCTGGATATAATGCAGAAAAATTCATTAGTGAAACTAATACATTTAATAATCAAATTTTAAATGATGGTAAAGAAACACTAGTATATCTATATGATTCAAGTGATATAAAAATGTTGGACTTTTTACCAAAAGTAGAGGAACATTCAAAATCTATTAATCATGAATTAGTAAAAGTAGATATATATAAGAGTAAATTTATATCTAATAAATTAAATATAAAAGAATTTCCTGCTTTAGTATATCTAAAAGATAAGAAAGTCGTAAAAATAAAATATGAATTATAATAAAAAACTGAGTTAGTTCTCAGTTTTTTTTATTGAAGATAAAAATCTTTTTTGATATAATTTATTTAGGAGGATAAATATGATAGAAGAATGTTTTGGTGAAATTTGCCCAATTCCTTTTTTGAAATTTGAAAAAATTTTTAAAGAAATAAATACTGGTGAAAATTTTACTATTATTGTTGATCATAGTTGTGCTAAAGTAAAAATTGAAAATTTTTGTAAAAATAAAAATATAAGGTTTAAAATTTTTGAGCCAATAAATGGTATATGGGAAATAACAGTTTGGAAGTAAAAAGATAGTCATCTATTAAAAATGACTATCTTTTTAACATATTGTATCGAGAATAAATTTTTCAATATAATCTATAACTTCTTTATGTTTTTTACTGTTTTCAAATCTACGTGCAATAAATATCTCTTTTATTATATTAATATCTTTTATTTCAATACATTTCAATTCTTTTCTATAAATTTCAGTTTTAACTGAAGAATAAGGTAAAAAAGCTAAGAAATTAGATTGACTAATAGACTTTTTTATAGCTTCTATAGATTCAAGTTGAGTTATAATATTTAAATCTGAATAATTTGGTATAACTTCTTCAATGGCTTCATTAATTGTATCATCACCTATATATTCAACATATCTAAATTTAGATAAATCTGATAACTGAATTTTAGATAGCTTATTTTTATTAGAAGCAACTAATATAATATTTTCGTCATATGCTTTTGTATATTTTATCTTCCAAAATTCACAATTTTGGCAATTTGAAACAAAACCTATATCAACAATACCATCTGCAATATCAGAAACAATTTTAGATGAACTGTTTTTCAATGATAATGGGAATTTCATATTTTTAAATTTATCACTCAAATTATATAAAACACACGGAAGAGAGTAGTTGGCTACAGAAGGTACAGCAACTATTTTTAATTTCTTCACATTATCTTTAAAGTCTTTAATTTCTTTTCTCATTTCATTATCAATATCAATTAACTTTTTAAAATAATTATAAGCGATTTGACCTTCTTTTGTTAATCCAACACCTTTATTTGTTCTATTTAATAATTTTGTGCCAAGATCTATTTCTAATTTATTTATTATTTTTGAAAGAGCTGATTGAGTGATAAAAAGCTTAGTAGCCGTTTTAGAAATGGTCCCATATTCAATTAATTTGGTAAAAGCCTTTATATTATTTATATCCATATTATAACCTATCTATATAAATTGCTTATATGTTCCTGCAATTCTTCATCTTCAATATATTCATCAAAACTCATTTCTTTGTAAATTAAACCTTTAGGAGTAATTTCTATTATTTTATTTGCAACTGTTTGAATAAATTCATGATCATGTGTTGTAAATAAAATAGTACCATTAAATCTTGTCAATCCTTTATTTAATGATGTTATTGATTCAAGATCTAAATGATCTGTAGGATTATCTAATAATAAGACATTTGCTCCTGATAACATCATTTTTGCTAGCATACATCTAACTTTTTCTCCACCTGATAAAACCTTAGCTTCTTTTCTAGCTTCATCACCAGAAAATAGCATACGACCTAAAAATCCTCTAACATATTCTTCGTGTTGATCTTTAGAATATTGTCTTAACCAATCAATTAATGATAAATTAATATTTTCAAAATATTCTGAATTATCTTTAGGGAAATAGCTTTGAGTTGTTGTCATTCCCCATTCAAAACTTCCACTATCAGCCTCTAATTCACCAGCTAATATTTGGAATAGAGTAGTTTTGGCTATATCATTTCTTGAAAGAATAGCGACTTTATCATTAGTATTTATAGTAAAGCTTATATTATCTAAAACTAATTCACCATCAACCCTTTTAGATAGATTTTCAACTTTAAGCATATTATTTCCAGCTTCTCTTTCAGGTTTAAAGTCAATATATGGATATTTTCTATTCGAAACTTGCATATCTTCTAGTTGTAATTTATCTAATTGTTTTTTTCTGCTTGTAGCTTGTTTAGATTTAGAAGCATTTGCCGAGAATCTTACTATAAATTCTTGTAATTCTTTTCTTTTTTGCTCAATCTTTTTATTTTGATTTCTTAATAATTCTTGCATTAATTGAGAAGATTCATACCAGAAGTTATAGTTCCCAACGAATAATTTGATTTTTCCATAATCTATATCAGCTATATGAGTACATACTTTATTTAAAAAATGTCTATCATGTGAAACTATTAATACAGTAGTAGTTTCAAGATCCATAATAAAGTTTTCAAGCCAATTTACAGCTTTTAAATCAAGACCATTTGTAGGTTCATCAAGTAGTAGTATATCTGGATTTCCAAATAAACTTTGAGCAAGTAAAACCTTAACTTTTTCTGGTTCTGTAAGTTCTTTCATAAGCTTATAATGTAAATCAGGAGAAACTCCCAATCCATTTAAAAGTTTTTCTGCATTAGTTTCAGCTTCCCAACCATCTAAATCAGCAAATTCACCTTCAAGTTCAGAAATTTTAATTCCATCTTCATCAGTAAATTCTGTTTTTGAATATATTTCATTTCTTTCTTGCATAATTTTATAAAGTTTTTCATGTCCCATAATTACAACATCTAATACCATACTTTCTTCAAAAGCAAAGTGATCTTGTTTTAGAAATGAAATTCTTTTATTTTTATCTATAATTATTTCTCCATTTGTTGAGTCAACTTCACCAGTTAAAACTTTCAAAAAAGTAGATTTTCCTGCACCATTAGCTCCAATTATTCCATAACAATTACCCTCAGTAAATTTTATATTTACATCTTCGAATAATTTTCTTCCTCCAAATTGGACTGTTAAATTACTTGTAGTTATCATATTATGTCCTTTCAAATATCTATTTAATTACTTTAATTATATCAAAAAACATGTTTTTTTTCAAATTTTAAATATATGTAAAAAGGTTGCTTTTATTTATTTAATTATAGTATAATAATATTACATATTAAGTAAAAAGAGGTGATTAAAATGGGAATACCAATAAAAGATGGTTTTAAATTTTTAAAGGGAGCTATAAAGTATCATCCTACAACCAAAGTGCCACTTGAATATATTATTAAAGATGATGCGGTGTGCATAACGATATTTGATGAAGACTTAAAAAAAGTATTATTAGTAGAACAATATCGTCCAGGTGTAGATAAGTCCACATTTGAAAATGTTGCAGGTATAATTGATCCAGGAGAATCGCCTTATTTTGCGATAAGTAGAGAATTAAAAGAAGAAACAGGATATAATTTTGAAGATATTGTTGATGTAATCTCAATGAAAAATCCTATGTTAGTTGATCCATATATGACACAATATATACATTTTTATGCTGGTAGATTAAAATCTAATGAGATTATTCCAGGAGAAACAGATTTTGATGAAGCAGAGGATATTAAATCGCATTGGATAGAAATTGATCAAATAGAAAATTATTTAATTGATATGAAAACATTGTTATCAGTTAAATATTTTTTACCAATTTTAAAGAAAATGAGTGTGAAAAATGAATAATAATTTAGATATGGAAAAATTAACACAAGAAGAAATAGAATTACTTAAACAAGAAATAAAGAGTAGATTAGATCATGAAGAGGAAGAAGAATATTTTGAAGAGGATATAGATACTGAAGAAATAGCAGAGGATTTACAAAATTTAGAATCTGAAAAGGAAATAGAAGAATTTGTTGAAGAACATCATAGTGTTGATATAGCAGATTCATTTTATGAAATTGATGATGATACAGAATTATTAAGAGTATTTAATTTATTCAGTGATGATGTAAAAATAGAGTTATTTGAACAATCTGATGAAAAATTACAAGTTAGAATTTTAAATTTACTTGAATTAGATAAAGCTATAGATATTTTAACATATTTACCTCCAGATGATGTTGCAGATATATTAGGAACATTAGAATTAAGAAAAAGTAAAGAAATTTTAGATAATATGAAACGTTCTGATGCAAATAAAATAAGATTACTTTTAGGTTATGAAGATGATACAGCTGGTGGTATAATGACCACACAATATATAGCGTTTAAAAAGAATTTAAAAATTAAAGATATTATGGAAAAGATAAAAATTATCGGACCAAAAACAGAATATATAGAAACTATTTTTGTATTAGATGAAGAGGCTAGATTATTTGGAGAAGCAGATTTAAGAGATATATTAATATCTTCTGATGATACAACACTTGAAGAAATTACAAACGAAAATATTATTTATGTTGATCCATATTATGACCAAGAGAAAGTTGCACAAATTGTTTCAAGATATGGTTTAAAAGTAGTGCCTGTCGTAAATAGAAAAGGTAATATGCTTGGAATAATTACGATAGATGACGTTATTGATGTAATTAATGAAGAAAATACTGAAGATATCTTAAAAATGCATGGAGCAGGGGATGATGAAACTCTTGAGACAACTTTAAAGGATAGTGTTTTAAAAAGATTGCCATGGCTATCTATAAATTTAGTTACAGCATTTTTAGCTTCATTTACTGTGGGTCTGTTTTCTAAAACAATAGACGCTGTAGTCGCACTTGCCGTTTCTATGCCTATAGTATCTGGTATGGGTGGAAATGCAGGAACTCAAAGTTTGGCTGTTACAATAAGATCTATAGCACTAGATGAAAGTGATAGTGAGGAAACTTGGAAAATTTCAATCAAATATATATTTTTAGGATTTATAAATGGTATTATATTAGGTATAATATGTGCAATAGCAATATTTTTCTTTTATAGAAATATTTATCTAAGTCTTGTAATATTTTTAGCTATGATAGGAAACTGTGTTATAGCTTGCTTAGTAGGATATCTTATACCAGTCGGTCTAAAACTAGCTAAAATTGATCCAGCTATGGCATCAGCAGTAGTTTTAACAACAATAACAGATATATGTGGGTTCTTCTTATTTTTAGGACTTGCAACTTTATTTTTAGATAAATTAGTGTAGGTGAATAATGGTTAGATTTATAGTAATATTTTTTTTAATGAGTTTAATTATCAATGTAGTTAAAAAGATAATTCAAAACTACAATGATAGGTTTGAAAAAATAGTTGGTATTAATAATGAATTAATTATAACCAAGAAAGATTTTTTTACAATAAAAAATATATATGTTGATTTATTTAAGGTAAATAATATTTTAATTAATTCACTTTCTTTTAACTCTACAATAGAGGGAGCTAGAATAAAAAAGTTTAAAATAATATTAAGTGTTCAAAATAAGGTTATATTTATTAATAATAAAACTAATGTTTTAAAGATTATTAAAGCTATAAAATTATTAGATGAGAGCTTATATTACAAAGTGCTTGACAAAACTGTATTTGCTTTTTATCCTATTAGACTAACTCTTGAAAAAGAGATGGAGGAGATTAATATTGGTTGAAAAAATTCTAGGATATGAAGTAGAAAGAAAAAGAGTAAAAAATATAAATTTAAGAATAAGAGATGATTTAACTATATTTATTTCAGCACCTATTAATATAGATAAATACTATATTGAACAATTTATTTTATCTAAGAAAAATTGGATAGATAAAAATATAGAAAAGATGAAAGAATATAGGAAAAATATTCAAGATGAAACATTAGAAAATGGAACAAAAATTAAATTTTTAGGTAATTATTTTGAAGTTAATGTTATTAAAAATATATATGATAGTGTAATGATTTTGAATGATAAAATTATATTAAATACTAAAAACGATGATTTTAATTACAAGATAAAATTAATAGAACAATTTTATTATAAAGAAGCAGAAAAAGTATTTAAAGAGAGAATAGCTATATATTTATCAATAATGAATGAAAATATCAATAGACTTATAATAAAGAAAATTAAAGGTAAATGGGGCTATTGTAAACCAAACGAAAGAATTATAGCTCTGAATACTAAATTAATCAAAAGATCTTTATTTGAAATAGATTATGTAATAATACATGAATTATCTCATTTAAAACATCCTAATCATAGTATAAATTTTTATAGACATATAGAGAAATATATGCAAAATTATAAAGAGGCTGAAAAAAAATTAAAATATAAGTGAGGTGGTATTTATGGAAAAAATATACAATAGAATTAATATTAAAAGTAGTATTTTAATAATCTCTTCAATAATTATTATTGCAATTACTTCTACGAGTTTTTATACTGTTAATACAGGAGAGGTAGCAATAATTTCAACATTTGGAAAAGTTAATAAAATTGAAGGAGAAGGTTTAAATTTTAAAATACCTTTTATTCAATCTAAAGATATGTTGGAAATTAGAGAGAAAATATATGATTTCACAAAAGAAAATGGTGGAGATCTATCGTTAAATGTTTCTACAAAGGATATTCAAACAGTAAATATTGAATTAAATGTACAGGCAAGTATATCTGATCCAGAAAAATTGTATAAAGCTTTTCGTGGATATCATGAAGCAAGATTTATTAGACCGAGAGTAAGAGAGATAGTTCAAGCAACTATTTCAAAATACACTGTCGAAGAATTTGTTTCAAAAAGAACAGATATCTCTAAGTTAATATTTGAAAAATTAAAAGATGATTTTGATGTATATGGACTAAATGTTTCAAATATTTCAATAGTAAACCATGATTTTTCAGATGAATATGAAAGAGCTATAGAACAGAAAAAAATTGCTGAACAAGCAGTCGAAAAAGCAAGATCTGAACAAGAAAAATTATCTGTAGAGGCAGAAAATAGAGTTAAATTAGCAGAATACAATTTAAAAGAAAAAGAATTACAAGCAAAAGCAAACCAAATTGAAAGTAATTCATTATCTAAACAATTATTACAAAAAATGGCTATAGAGAAATGGAATGGTGAACTTCCAAAAGTTCAAAATGATTCTTCAGCAATATTAATTAACGATGTATTAAAATAGAAGGAGATAAATATGAAAATAAAAATTACTACAAATAAAGGTGAGATAGTATTAAACTTGTTTGAGGAATCAGCTCCAATTACAGTTGCTAGCTTTATCAATTTAGTTAATAGAGGTTTTTACAACGGGTTAAAGTTTCATAGAGTAATAGAAGATTTTATGGCTCAAGGTGGAGATCCTACTGGAACAGGTATGGGTGGACCTGGATATATGTTTGGTGATGAATTTTACAACGGATATACTTTTGATAAACCTGGATATCTAGCAATGGCAAATGCAGGACCAAATACTAATGGATCACAATTTTTCATTACTACTGTAGTTACAGAGTGGCTAAATAATAAGCACACTATATTTGGTGAAGTTAGTTCTGAAAATGATTTAAATATTGTTAAGTCATTAGTTACTGGAGATGTTATGGAAAAAATTGAGATAATAGAAACTAATGAGGATTATTTAGGAAAAGTTGTAGAAATAATGGCAGAGTTTAATAGAAAGATAGAGAAATCTATATAGACCGTTTAGTCTAAATAGTTATTGTATAAAAGAAAAGCTATTCATTTGAATAGCTTTTTATCTTATATTATTTTCAAGTTCAGATAATTTTTCATCTATTAATTTTAATATGTATTCTTTATCCTTTTCGTTATTAACAAAATCAATTTCATCTACATTAATAGTAATTATTTCAGATATATTATAGTTTTTAAAATATTCTCTATAATGTCTATCTAAGCTTTCCCAATAATATCTAGGAACTATTTGTTCATAATCTCTTCCTCTTTTTTTGATTTTAGCAAGTGCTGAATCAACAGAAGTTTCTAAATATATCATTAAAGCAGGTTTTTCAACATGTTCTAACATATTAAAAAGTAATTCTTCATATAAATCAAATTCTTCTTGTGTCATATCCCCATCTTCAACTAACATTTTAGAAAATATAACATCCCCATAAATAGATCTATCCATAACACATTTACCAATTCTTGATGCATTTTTTATAGCCTGAAATCTTTTATTTAAGAAAAAAATCTGTAAAGGAAAAGACCATCTTTTTCTATCATAATAATATTTATCAAGAATAGGATTATCGATAACAGGTTCCTCATATAATACAGAATCATATTTCTCTGCCAAAATCTTTCCTAAAGATGATTTACCTACACCAACAACACCATCAACACAAATTATTCCTTTCATTGTACACTCCTTAATTTTTAATTTTTTAAAATAGTTTTTATAATAATTCTTATGCATTTTTTTAACTCCTACACATATATTTAAATAAATTATACCATAATAATGTAATATAAAACAAACTTATTTTTTATTTAAATTTATATTCATCTAAATAAAAAAAGTGGTCTTTTTTGAATTTAAATCCTAGTATTTTTTCAATATTTACATTGAAAGTAGAAGAGAGTATTTTCTTTTTGATATTAGGATTTAGAACAGATAATTGTTTAATAAATTCCTTAGTTTCACGTCTTTTACTTGAAGTTTTTTCAGCTGCAACTGTACAGCCACAATTCATTGCTTGAATACCATTATTTTTTACAAATTTAATGATATTTTTTTCTTCAATATAAAATAGTGGTCTAATAAGTTCTATATCAAAATTATCGGACTTTAATTTTGGTAACATAGTTTCAAATTTGCCCATATAAAACATTGACATTAGAGTAGTTTCGACTACATCATCTAAATGATGCCCTAACGCTAATTTATTACAGCCCAGCTCTGTAGCCTTTGAATATAGTGAACCACGACGCATTTTAGCACACATATAACAAGGATAGTCTTTGGCTATTTTACCTGCGATATCAAAAATATTATCATCATATATGTGGCAGGGTATATTTAAATGCTCTAAATTTAACTTTAAGTTATCGAGATTACGTTGATTAAATCCTGGATTCATTGCAATGAATACAAGCTCAAATTTTGTTTTAGAAGCTCTTTTTAATTCTTGAAATAATTTTGCAAGTAACAATGAATCCTTACCACCAGATATAGCTACAGCAATTTTATCATTTTCATTTACTAAATCAAAATCTTTTAAAGCCTTGATAAAAGGAGACCATAAAAGTTCCCTATATTTCTTTTGTATACTTTTTTCAATTACTTCAAGAGGTTGAAGAGGAACATCTGGAAGTATTAAAGGGCAATCAGTTTGACCTAAAGACATATTATTACCTTTCTGAATATACATAAGATATATTATCGGACTTAATTTACAATATTAAATAAGATTTCTTTAGCAACTATATCTTTTGTATTTTCTTTGATTTCAATTTCATTTCCGTTTTTATCAAAAATAAAAACTTTATTATTATCAGAATTAAAACCTATAGCTTTATTTGATATATCATTTAAAACTATGTAGTCTAATTTTTTGTTAATTAATTTTGCTTTTGCATTTTCTTTTAAATTATTATCTTCAGCAGCAAAACCAATTAGTTTAAATTTTCTTGGTTTAATTTCAGATAATTTTTTTAATATATCGACATTTAATTCTAATTCTAGTTTTAAATCTTTTAACTTATTTTTCTTTATCTTAGTATCTGAATAATTTTTTATTTTGAAATCAGACACAGCTGCAACCATGAAAATATAATCTATGTTTTCTATATTATTTAATACTGCTTCATGCATTTCATCTGCATTTTCTATATAAATTATTTTTGAGATACCATGAGGTGTTTTTAAATCAGGCTTAGTACTTATTAATGTAACATCTGCACCTTGTAATGTTGCTTGTTTAGCTAATGCATAACCCATTTTACCGCTTGATTTATTTGTGATATGTCTAACAGTATCTATATTTTCTACAGTTCCTCCAGCTGTAATAAGAATTTTTTTATTCTTAAAAATATCAGTTTTTTCTATATTAAACATTATTTTATCAACTATAATATCAACTTCAGGTAATTTGCCTAATCCAAAATCACCACAGGCAAGTGACCCTGTTGCAGGTTGAACAATGTTATAGTTATTCATTGAAAGTTTCTCTAAATTTCCTTGTAATATTGGATTTAAATACATATTTGTATTCATAGCTGGAAAAATCATAACTTTTCTAGGATCGCATACAGATAAAAATGTAGATAGAAAATCATCTGCAATTCCATTTGAAAGCTTTCCAATAATATTATATGTTGCTGGAATAACACAAACTAAATCTGAATTTTTAGCTATTTCTATATGTGAAACAGATGTTTCATTTTCATCAAACATATTTATATAAACCTTATTTCCTGTTAGTGTTTGAAATAATAATGGTGAAATAAGTTTTGAAGCATTTTCCGTCATTATAACTTTAATGTTATAGTTATTTTTCTTTAATTTAGAACAAACATCCAACGCTTTATAGCAAGCTATTCCTGATGTAACTCCTATTACAATATTTTTCATATTATCACCTCTTATTTAATAATTATACAATATTAACTTTTTAAATTCAAGTAAGTTTATTTCTTAAAACTTATGTTATTCAAAATAAATCACACTTATAAAAAATTCACGAGCTAAAATCAATTGTTTTTGAAATAAACAAGTATTTACTATGTTTTCATAAAAAATACATAATTTAAACTTTTCACACATCGACTAGTTATTCACATTATACAAAACAGTTTAATTTATCTCTGTTACTTTCATGCAACAACTCAATTATCTTGTTTTATTTTTGAAACAAATATTAATAAAGTCTTGATTTTGCAAGGATTATAATATGTTATGTTTTTGTAACTAGACGATTATGAATTTTTAAACATAAAAAAACGCCCTGTATCAAGGCGTTAATCAAAAATTTCTTTCATGTATTTACTTATATTCTCTATAATATCTGTAGGATTAATTATATATTGTTTTTCTCTCAATTTATCAGCTATGTATCCATGTAAATATGTTGCTATTATAGCTGATTTTTTTAAATTGTAGCCTTGTGAGTTTAAAGAGGCTATCATCCCTGTTAATACATCTCCCATTCCAGCATTAGCCATATATGGGTTTCCTGTATCAATTATATAAACTTCTTCACCATCACTAATATATGTATTTTTACCCTTAAGTAATAAAGTTACTTTATTTTTTCTTGAATAATCTAGCACAACTTCAATCGGATTTTTTAAAATATGTTCTAAATCTATATTACTAATTTTAGAAAATTATCCTGTATGAGGTGTTAAAAGTGTTTTTTCAGCATTATTAAAATTTATATTGTTATTTAAAGCTCCTGCATCTATTATTATATCTTTATCATCCTTATACCCTTCAATTATATTGTATATAAATTCATTGAAAATCATTCCTGGTCCAATAGCTATTGTTGTTGATTTATTTAAATTATCAATTTCTTTTTCATATATAGCTTCAGGTATATTTTTAACAATATTTTCTATTTCAGAATAGTCCGATAATAAATAAGTGTATCCACTTCCACATTTTACACATGATTTAGTTGCTAATTCAGCAGCTCCATAATAGTTTTTTGAACCTGCAACAATGTAAGTTTTACCATATGTTGTTTTATTATCTTCCTCTTTTCTCTTTATTTCCATATTTTTTATATCAGATTTTTCTACCAAATATATATTTGAGAATTTTTTAAGTTCATTATTAGGTATAATAATATTTGTTATTACTTCTATTTCTCCAGTATTAATTTTACTATTATAGTTTAAAAATCCTTGCTTATATGTCATAATACTTAACGTTTTATCAGCTTCTATACAAGCTCCATGAGTATTTCCAGATTTTACATCAAGACCAGAAGGTATATCTATACTATAGACCTTAAATTGAGATAATATTTTATATTTATTTACCTTATAAATCACCTCTTTTATATACTTAGGCAATTCTTTATCAAGTCCTGTACCAAAAATAGCATCAACAACTATTTCTGTCTTTTGTAAATAAAAATCTAATTTATCGATGTTTTCAATTATTCTTATTCCTAGCAACTCACATCTTTTTATATTTCTTTCGCATTCTTTACTGTAATAATCACTCTTTATTTTAAAAACTATTACTTCCTTATTATTTGCATGCAACATTCTTGCTAAAGCATAGCCATCTCCACCATTATTACCAAAACCTGCAATAATCAAATATGTTTCATAACTTTTATCTAAAGTTTCATATAGCTTATACACTACATTTTCCATTAATAAATCTTTACTAACTTCACACTTAGTTTCTATATATTCATCTATTCTTTGAGTAATTAAAGCATCTCCAATTATTTTCATAATTCTACCTTTAACTCTTTTAAATACTCTTTTATTTTTTCTTTTAATTCAGGATGTCTTAATCCAAATTCAACATTAGCCTTAAACATACCAAATTTATCTCCTGTATCGTATCTTAATCCATCAAATTCATATGAATAAAGTTTAGATACATTATCTTTTGCCATTTTTAATATTGCAGGTGTTAATTGAATTTCATAATCAATAGTTTTTTCTTCTTTTAAATATTTAAATATTTGAGGTTCTAAAATATATCTACCTAATGCAGCAAATTCACTTGGTGCATCTTCAATATTTGGTTTTTCAACAAAATCTTCTATTTCATATATTTTATCATCTATTTTCTTACTTTGCTTAATGATTCCATATTTGTTTAAATCTCTTCTAGGTACTTTTTGAACACCTATGAAACTTCCACAACCATTTTTTTCATATGCATCTATAAGTTGTTTAGATACAGGTATTTCTCCTTTTTCCTTATCTGTATATATTATGTCATCCCCTAATAAAATTAAGAAAGGTTCATCTGCAACAAAAGATTCTGCACATGATATTGCATGCCCAAGTCCTAAAGGTAATTTTTGTCTTACATAGTACATATTAATCATTTTAGAAATATTTTGTACTTCATTAAACAATTCTTCTTTACCTTTTTCTTTCAATATAGCTTCTAACTCATAAGAATAATCAAAATGATTTTCTATAGCTTGTTTATTTCTTCCAGTAATTATTAAAATTTCTTGTATCCCACTTTCTATAAGTTCCTCTACTAAATACTGTAATGCTGGTTTATCAACAATACTTAACATTTCTTTAGGTTGTGCTTTAGTAGCAGGTAAAACTCTAGTACCAAGACCAGCAGCAGGTATAATTGCTTTACGAATTTTCATATCATTTCAACTCCTTAAAGTATTTACTTCTTTTTATATAATAAGTATAGCCCATCTTTTTATTAATTTCTACTATACCTACAAAAACATTATTAAAATATATCTTTAAATATTTGTCATTATCACTTATATTTTTAAGTTCAATAATCTTTGTCATCCCATTATATAATTGTTTGTATAAATTATTATCTACTTCAAGTTTTTTATAATCAAATATATCCTCTATTGAAATTTTCTTATTTACATCATTAAGTGAAAAATTATTTATTTTTTCTCTAATTAATTTAGTCATAGTCCCATATGTATTTAAATCTCTACCTATATCTCTAACTAAAGCTCTAATATATGTCCCACTACTTACATCAGCTCTAAATGAAATAATATTATCAGAAAATGCTATATCATAAATATTTGTTATTTCCACTTCTCTACCTTCTAATTCAAGTTCAATGCCTTTTCTAGCTAAATCATATAGTTTCACACCATTTTTTTTAATCGCAGAAAACATAGGTGGAATTTGCTTAAATTTACATATATATTTTTTTACAATATCTTTAACATCATCTAAACATATATTAATTTCATGATTAATTTTATTAGTTACTTCACCCTCCAGATCAAGTGTATTAGTTTCATAACCAAGTTCCATTTCTACATAATAGGTTTTAGAATGTTTCATTAAATAATCTGAAAATTTTGTAGCATCATTTGCCATAACTATCATTAAACCCTCTGCCATAGGATCAAGTGTTCCAGCATGCCCAATCTTTTTTATATTCATTTCTTTTCTAACTTTTTGTATATATGAAAAAGATGTTATGTCTTTAGGTTTATTTAAAATTAATATAAAATCGTTCATTTTTCTCCTTTTAAAAAATAGGCAATTATATATTGCCTAAGTATTTGAAACCTCGTTTATAATTATAGTTATTTTTGTTCCAACATTAACTTTTGATTCTATCTTAAAAAGATGATTTTGAATCTCAAGGATTCTTTTAAAAATAGATAATCCTAGTCCATAACCTCCAGTTTCTTTGTTACGTGATTCATCTACTCTATAAAATCTATCAAATATTTTCTCTACTTCATCTTCTTTAATTCCACATCCTTCATCTCTAACGACAAACATTCCAGAATTATTTTTTTTATCATATATACTTGAAATGTACACATTAGAATTTTCTGGTGAATATTTTAATCCATTTTCTATTATTATTCTAAGTGATTGTAATAATAGATTTTCATCAGAAACAAATTGGAAAGTATCACTTTTTTCTATAACAACTTTCTTGTTTTGACTGACTAGTCTATAATCTGTTTCTATCTGATTTAAAATCTTTGTCGAGTTAATAATAACCTTATTCAACATTTTAATATTTTTCTCATCACCACGAGATAAAAATAGTAAAGATGTGATTAACTTAGTCATATTTTCACTTTCCTTGACTATAGATTCTGTAGATTCAATCAATAATTCATTTTTAGGTGTTCCTTTTTCCTCATCAGTAAATGATTTAATATATCTTCTATTAATAAGTTCAGCATATCCTTTAATTACCGAAATAGGTGTTCTAAGTTCATGCGAAACATCAGATATAAATCTTGATTGTTTATCAAAGGTAAGACTTATTTTATCTAACATTTCATTTATTATATTAGTAAGATCAAATAATTCATCTTTAGCACTAGGATAAGGTATTCTACGAGATAAATCACCACGTGAAATCTCTTTGGATGTACTAATGATATTTATTATAGGCTTTAAAATTCTTTCACTAATTTCCCTTGAAGTTAAAAATATTAAAATTAATCCTAATAATGAACTAAATAAAAATAATAATTTTAAGGTATTAATAGTTTTAATATGTTGATCAATATTTTTTAATATATATACTTCAAATATTGCTCCCTTAATATTTCTAGTAAGTTTAACTATAGAAAAAGTTGATGATGTTGTATCATTACTTAATACAATCATTTTAGGAATAAGTATATTAGAATTAATATTACTAAATGTTTTTGGTAAATTATTATTATTAATTGTAAAATCAAATGTATTTAATGCTATTACATCTAAATTATTTTTAGCAATAATATGTACAATATATTTAAAATCTTCTTCTCCTGGATTAAAAGGTTTTGGATATACTATTGTTTGATCTTTAATAACAGGTTCAAATTTTAATTTCAATTTTTTTTCATTATACTTATTAGTATAATCTTCAATTCTTGAAAAATATGAATTTATCTCATTCACTTTAGTAGTGTATTGTGAAATTAAAATATTATTATGTTGCCTATTTAATATGAAAAACAAGATTACAGTTGAAAATATAGTAATAAAAATAAAGACAAAACTAAAAGTAACTGTAATTCTATTCTTTATTCCAAATAGTTTTTTTAAATCATTATTTGAATACAAATCCTATACCTCTTTTTGTTTGAATGAATTTTCTTAAGTAAGGTTTATCAATTTTATCTCTTAGATATTTAATGTATAAATCTAATATATTATTATTACCAATTTGATCAAAGCCCCACACTTCTTCTAATATACTATCTCTACCTAGAACTATACCTTTATTTAAGACAAGGTAGTCTAATAATTCAAATTCTTTTTTAGATAATTGAATTAATTCTCCTCCTCTATATACTTCATGTGCTGTATATGATATTCTTAAATCTTCAAATATAAAATCTTCTTTTTTCTTATTTTTCAGAGTAGAACGTCTTAAAAGTGCTTTTACTCTAGCTATTAATTCTTCATTCGAAAAAGGTTTTGTAATGTAGTCATCTGCACCATAATCAAATGATATAACTTTATCAGTTATTTGATCTTTTGCTGTTAAAAATATTATCGGTACATCAGAATCTTCTCTAATTCTTTTACAAACTTCAAATCCATTCATTTTTGGTAACATTACATCTAATAATATTAAATCAAAATGATTATATTTTGCTGCTAATAAACCTTCTTTACCATCATTTTCAATTTGTATATCAAATCCTTCAAATTTTAATTCTACCTCTATGATTCTAGCTATTTTTACATCATCTTCTATAATTAAAATCTTTTCCTTCATATTAAACTACCCTTTCATTATTTATTTTTACCACAAGAGCATTGCTTAGATACAAAACCTTCATTTGATTGTTCAGTATGAGAAATATCCATATCTGAATCTGATACACCCTCTGGTAATTTTACTCTAATTAAATCAAGTTCTCCCATTTCAACATCAGTTTCAATTATCGCAATAGTATTTGGATGAACTATTTGTTCGTATTCTTCTGTTTTTACATTAAAGAATTTATCTAATCTAAATTTAACAGGATCTCTATTAGGTCTTATTAATTCAAGCTCTACTTCAGATGCTATAATTCTATTTCTAATTTGAAGTTTATATTTATTAGTATCAATTTTTTCTAATACATTTGCAACTAATTGATAAGTTTGTGAATAAGATGAACTCGTATTGTAGTTTTGATCAAATTCATTTGTAGAACCAAAGAAAAATCCTGATGAATATAATCTATGACTTATTGTTTGCAGTTCATATAACCATTTTGGGTCATATTTATAATTTCCTGAATAATATAAATCTATAGCTTCTCTATATTGTTTAGTAACTGTTGAGTTATAATAAATAGATTTCATTCTTCCCTCAATTTTTAAGGAATCTACTCCAGCTTCTAAAATCTTATCTATAAATTCTATAGTACATAAGTCTTTTGCATTGAATATAAAAGTTCCACCTTCATCTTCTATTATATCATGTGCTCCTGTTTCTTCATGCCCTTCAGCAATTACCTTATAATTCCATCTACAATCTTGAGCACATATACCTCTATTTGCATCTCTTGATGTAAAGTAGTTACTTAATAAACAACGACCAGATACAGCCATACACATAGCTCCGTGAATAAATACCTCAAGTTCAATATCAGGAACTTTTTCTTTTATTTGTTTAATTTCGTGTAAAGACATTTCTCTTGCAAGAATTACTCTAGTAGCCCCCATATCTCTATAAGCTTTAACTGTCATCCAGTTTGTTGCATTAGCCTGTGTACTTACATGTATTTCTAAATTTGGTGCATGTTCTCTTACTTGTTGTATTATTCCTAAATCTCCAACAATTACGGCATCTACATTTGCTTTTTCTAAGAATTTAATAAATTTAGGTATATAATTAACTTCTTGGTTATGTGCAAAAATATTTAATGTTACATAAACTTTTTTACCTAAAGAATGAGCATATTCAACTGCCTCAGTTAATTGCTTATCTGTAAAGTTTGCACTCATTCCTCTTAAATTAAATCCTCTACCACCTATATATACTGCATCAGCTCCAAAATGAAAAGCTGCTTTTAATTTTTCCATGTTACCAGCAGGTGCAAGTAGCTCTGCTTTTTTTATCATTATTCCTCCTTATTCCTCTTCAGTTTGTTTTGTATAATATTCATGTTCAAATTCAGGAGTAGGATTTAAAAATTTTTGTTTAGCTTTTTCAAATAATAAAACCATACTTCCAGTCTGTCCATTTCTATGTTTTGCAAGTAATAATTCAATAGGAAATACATTTTTTTGTACATCAGCTATATTATTTTTTCTTGCTTGATGATATTCTGGATTAAAAATAAATAAAACTTGATCGGCATCTTGTTCAATAGATCCAGATTCTCTTAAATCAGATAAAATTGGTCTTTTATCCTCACGTGAATCAACTTTTCTTGATAATTGAGATAATGCAAGTATAGGAACATTTAATTCTTTAGCAAGTAATTTTAATCCTCTTGATATCTCAGATATTTCTTGTTCTCTACTACCAGCCCTTGAATTTCCTTGTATTAATTGAAGATAGTCAATAATTATTAATCCTATGTCCTCACCTTCTCTTTGTACATTTCTACAAGTATTTTTTATATTAGAAATAGTAGGAGTTGCTCCTGCATCAATTAATATTTTCATTTTTGATAATTTATCTAATGCTTGGCTATAATTTTGCATAATTTCAGTATTATTTATAAAACTAAGATCCTTAATTTTTTCTAGTTCTATATTTCCTACAATGGAAATTAATTTTTTTAATAACTCATCTTCTCCCATTTCTAAACTGAAAATCAAGACTTTTTTACCACTTTCAGCAACATTTAAACCAATATTTAGTGATAAAGTTGTTTTACCAACAGATGGTCTTGCTGCAAGAATAATTAAGTTGCTCGGATGTAATCCTTTTGTTATTTCATCATATCTTTTGTATTTTGTTTTAATTGTTGTTTCAAGTAATGGATTTTCCTTTAAGGCTTTTATTCTATCAAATTCCTTATATGCAAGTGTATCTATTCTAATAACACCATTATTAGCTGCATCATTATACAATTTACTTATCTCAAGTTGAGAATTTTCTAATATATTTTTAGAATCTTCATTATTATATAATTGTTCATGAATATTTCTAGCTAAATCTGATAATTTTCTTTTTTTAGAATACTCAAGTATAATATCCAAATAAATCAAAGAATTAGCAGAAGAATATGCAGATTCAACTAAATTAAGTAAATAATCTAAACCTCCAATTTTTTCAAGTCTATTCTGTGTTTTAAGTATCTCGCTTAAAACATATACATCTAAATCTAAATTATCTTTTTCATCAACATATTTTAACATTGCTTCATAAACTAATTTATTCGTTATTGAATAAAAATCATTTGGACTTAATAATGGTGTAATTTCACTTAATAAATTAGGATCAATTAAAATAGATCCTAAAATCGATTGTTCAAAATGAACATTATGCAATGTATTTTCTAATTTTTCCATAAAATCTCCTATAGACTTGTAACATTAACTTTTAATATTGCTTTTATATCTGCATAAAGTTTAATTTCAACATTATGTAAACCTATTGATTTTAATCTAGCATCATTTCCCATTTTCTTTTTATCTATTTCTACTTGAAGTTGTTGTTTAACAGCTTCTTCTATTTCTTTAGCTCCTAAAGACCCAAAAACTTTACCATCTTTTCCAAGCTTAACCTTTAATGTTATAGTATTTTTTTCTAAAATTTCTTTTATTTCATTAGCATGCTTTACTTCTCTTTCTATATTTTTAGAAATTTTATTCTTTTTATTTTCTAATTTATTTATATTTTCAGGCGTTGCAGGAACAGCTTTATTTTGTGCAAATAAAAAATTATTTGCATATCCATCTTTTACTTCTATTATTTCATCTTTTTTTCCTACACCTTTTATATTTTCTTTTAAAATAACCTTTACTTTCATCTCTAATCTCCTTATTTTTCTATAGCATTAAATATAGAAATTATTTTATTTTTTATTTCTTCATCAAATTCTTCTTTTTCTTCACTTGTACCCTCGATTAATATGTTATATTTAAAACCAAATTTTTTCTCAAGTTCTTTTTCAAGAAAATCTATAGTATTTTCTGAATTTAAATATCTAAAATAGTAATTAGATCTATCATTTATTATTGTAATATTATTATTTTGCACAGAAATTTTAGTATCTTTTATTAAATTATAGTATCTTTGTCTACCAAGATCATATAAGTGCTTGATAAAAATCTGCCATTTTTCTAAGCTAAATTCAATTTCTGTATTTGTCATATTAACTGTATTAACATTCACACTAGTACTCATTTTCAGAATTTTATTTATTATTATATATGCTAATAATCTTTTATCTTCTTCATTCTTGTATTTAACCAATATTTCTAAAACATTTGAAATAATATGTGTTTTTAAATCTAAATCAATATCTTGATGTTTAATATATTTACAGAAATCTCTTAAAAATTGATCAATTTGAATCCCTTCAATCCATAATTTATCTATAAATGATATTAATTCATCTTTCTTATTTTCTATGATAAGGTTTGTGAAATTATTATAAAATATTTTAGAAACAACCCCTAATGCTTTCTCAGTTTTGTCTATAGTTATTTCATCTTCGTTATAATAATTTGAAGTAACCTGTTCAAAAATAGAAAAAGAATCCCTTGCAGATCCTTCTGATTTAGAATAAATTAACTCTAAACTTTCAGTATCAATATTAATATTTTCATTTTTAGCAACCTTTTTTAACATATTAATTATGTCAGTTTCACTAATAGTTTTAAAATCATACCTTTGACAACGAGAAATAACAGTGTCAGGTATTTTCTCAATCTCAGTTGTAGCTAAGATGAATATAATATGTTTAGGAGGTTCTTCTAATATTTTTAATAATGCATTAAAAGCCTCTTTTGTTAACATATGCACTTCATCTATTATATAGACCTTTTTTCTACATTTAACTGGAAGATAACCTGTACTTTCTTTTAAATCTCTAATTTCATCTATACCCCTATTTGATGCTGCATCTATTTCAATTATATCTACAGATATACCCTTAGTAATTTCTTTACAATTTTCACAATCATCACAAGGATTAGATGTAATTCCAGAATTACAATTTGCTCCTTTTGCAATTAACCTAGCAATAGTAGTTTTACCAACTCCACGTGGTCCATTAAATAGATAGGCATGTGATAATTTATCATTATCTAAACTATTTTTTATTGCTCTTACTATATGCTCTTGTCCATATAACTCAGAAAAATTTTGTGGTCTATATTTCCTGTATAATGTTATGTTTTCCATTTTTACTCCTCTATATATTATAGAACAACTTTTAATAATTTTTTTTGATCATCAGTTAAATAATTAATAGCAACATTTTTTCTAACTGCTCTATCAAAAAGAGTAATATAACTACCTTTATTTTCTTCAGGCTCCATTATATAATCTCCTTTTTGTATATATTCTTCTAAAGCTGGTATGCTATCTTTTAATCTATAAATTACACCTAATTGTTTTTCTATATATTCTAAATCTATTATGGTTAATAATTCAGATTCTATTTCTTTCATTTCCTTTATTTTGTCATAATCTAATAATAAATAGAAAATATTTTCAAGACCTATTGAAAATCCAACTATAGCTTTTCTTTCTTTTCTTAAATTATAATTAATTTCAGAAATTAAAATATTTATTAAAACATCTTCATATTCATCTTCTTTTTTTTCAAAATCATCAAAATCAATGTTAGTTAATTTATCTAAGTAATTTTTAACTAGTCTTTTCATTCCCTTTGTATAATTTTTTGATTTATAATTATGGAAATATCCATTAGTTAATTCAGCTGCTAAATAATAGAAAAAAGTTTCATAATTTTCTATTTCTCCATCAGTATCCTCAAATCCAATATATTCTAAAATAGCTGACTTCAAATCTTTATTATATGCATCAACTACATTTTTATAAACTTCATATTCTATGTTAAATAATCTAGCAAAATCATGTAATTTATTATACTCTATATTTAAATCTTCCATTATTTAATATGTCCTTTCAATAATTTTAAAAATTCCTTAGATGTTGTTATTTCATCTATATTATCCTTAGTTCTAGGATTAATTTTCTTATAAATATAAACATGTAATTGTTTTATAAATTCAAAATAATAGATATCTTTTCTATCAAATAATAAAAGCAATAACATTATTATCTCTATTATAGTTAAATCAATACCATTAATTAAAGTAGATCCCTTTTGCTTAAATTGTTTAAGCAAGGTAGTTTCTAAAGGTATTTTAACTAAATCTAAAACAAATTTAGCAGTTATATTAGTATCTCTTTTTAATGGACTTTCATCAATATTAAACATACTACCTATATCTGTCAAATTTATTATTAAATCTATATTATTTAATCTTTCTATATCAAGGAAATTTTTAAAATATTCTCCTTTTTCAAGTTTTATTGTATTATTTGATTTTATAGATGCTAAATGTATTTTATTAATTTGATTTTCTTTAAGAGCCTCATATATTGCATTAAAATATTCATTAGTTTCAAGTATCAATACATTTGAATTTTCAATTTTAAAATTTGAATATTTAAGTAATTCTTTGAATGCTATTTTTTTTAAAAATATTTTTTCAACTAAATCATCTTTTTTAAAAATAAAGTCATATTTATTTTTTAAATTATCTTCAAAAAAAGCAGCATCATATTCTTTTAAATAATCATCTAAATTCTCTAATTTATCTTCAACATGATATAATTCAGAATTTAAATTTTTAACCTCTTTAATTCTAGTATGCAGTATTTTATAAATTTCAAAATTATTTTTATTACCCACATAAGCTATTTTTTTCATAATAAGCTCCTCAATTCTTCATATGTAAGTTCCCTATATTCTCCTAAATTTAATTTTTCATCTAATATTAATGAACCCATAGATATTCTTTTAAGATATTTAACTTCATTATTAACAGCTTTAAACATACGCTTAACTTGATGAAATTTGCCTTCAGTTATAATTATATATAATTTATTATCATCAACTTTAATTATTTTAGATAGTCTTGTAATTATTCCTTCTCCTATATCTATTCCCTTTTCAATATTACTTATATCATCAGATGAAATATCTTGACTTAATTCAACATAATATTTCTTTTCAACATGTTTCTTAGGTGAAAGTAAATTATGTGCTAAATCTCCATCATTTGTTAAAAGTAATAATCCTTCTGTATCAATATCCAATCTACCTACAGGAAATAATTTATATGTTTTAAAATCTGTAATTAAATCTAAAACTGTTTTTTGTTTATTATCATTAGTTGCACTAATATATCCCTTTGGTTTATTTAACATAATATATCTAAATTTTGTATAATTAATTACATTATTTTCATATTTAATTATATCTTTTGTTTCATCAATTTTCAAATCAGAGGACATTACAATTTTATCATTTACAAATATTTTCCTGTTTTTAATAATTTCTTTAACTTCTTTTCTAGTTCCTATCCCACTATTAGCTAAAAATTTATCTAATCTCATATATTTCCCTTTATATAAAAGGGATGCAATAAATGCATCCCCTAGTTTTTCATTTCAAAATACCCTGGCTTTGATGACTTACATTTTTCAATTAAATATTCTATTAAAGCTTGAAATTCCTTGTTAGAACTCTTATCGTAAATATCTGGTAAATTCTCAAAACTTTGATTTTCTACTATATATTTCTTTACTATATCTTTTTTTTCTTCTAAATTCACTATTTTTTGTTGATAATTTAACTCCCTTTTCATCAATTTTATCAAAATCAACAGAAAGAATCCTAGAGTTTTTTATGATAACTCTTATTGTTAATGTATAATCATTTTTTTTATATGATGCTTCATACTTACCGTCATTATAGTTTGAAAAAGTTGTAATACCTATAACCATTAGAAGCATTAACCAAAATCTTTTCATGAATATCATCCTCCTATTCTGTTATATTTTATCATATTTTTATCATTTTTTCAAATAAAAATGGGTCTGTTCCGAAATAGAACAAAAATATAGGGGAATTTCTACAAAAGTGGAAAATTTCCTATTTTTAAATAAAAAATGAAGCTCCTATTTCAAACTTCAATAATTACATATTTTTATACAAAACAAAATTGAGAGATTTTATTCTCCCTAGATAACAGACCTTTAATATTACATCTTTTCTTTAAGTTTATATAACCTTTCTTTTTTAAAAGATTAACAAATTGGTAATGTAGGTCTATTATATCTTCTCTATATTTAATGATGAAGTTTTGTAATCTAGTTAGTTTAGGTGCTTCTTCTCCATTAAGTATATATATGAAGTTAATATTATCATTACAGTTTCTAATTATTTTTCTAAGTTCTAATTCAGAATAGAAAGAAGAATTATTTTAAACATAACATCTAATGAATTTTTAGCTTTTCTACCTTAGCTAGTTCATTAAGAATACTCACTCAAAAGAAATATTTTTGTAATTACTTGTTTCAAAAAGTTGCAATTGATGTTTATTTGTGATGAACTTATATTGTATTTTTAGCATAAGAAAAAACCTGCTTTTTCAAGCAGGCTTTTCTTTTGCTAGGGCTTTCTATTTCGGAACAGCCCTTTTTTCGAATCGTTTGATTTAATTTTTATTTAATACTTTCAAAAATTCTATACTCTTTCATTTTGTCTTTTTATCATTTAAATATTTTCTTATGAATATGACATACAATGCCGATCCAATTTACGAAAATACCGTTAAAAGTTTTTTATCATAACCAAAGAAAAAATAAAAAACTATAATGAGATAAGCGATAAACACGAACGTTCCAATTGTAATTATTTTTTTCATTATTACCTCCTAAATATAACCGATTCTTTATTAGTATTAATTCTTCTTCTGTATGGGCATTTGGGCTTGTATGGGGCTTTCTTGAACCTAGGGCTAGGCTTTTTATGTTTCCATTATATTTTTTTAATTGTCTGTATACAAATTGTCTATTTGTATGATAACGCCTTGCTGCTTTAGTTACTCCATTTTTTATTGCATATTCACATAATCTATGGCGAAATTTCATTTCTTCTGTTATAATACTCATGAGAGATACACCTTTGATTGTTTTAGTTTTTGTCAAACTCTATTATATCAAATGTATCTCTCTTTTTTTATTTTTTTGTAAAACTTGGGTTATATCATATTTTCATCATTATTATTCCATTTTAAGTGCTTCTATCATATTAATTTCTTTTAACTTTCTATGTATTAATAAAAATGAAATAAAAGAAAAAATTAAAGTTAATGTTATTGAAAATATATATGGAGTATATCCTATATTTTCAACAAAAACTGTGTTAGTTTTCTCCATTGATATTAATACTATTTTATGTATCCATTTACCACTAAATAGCCCTAAAATAATTCCTACAATAGTTAAAATAAATATTTCTTTATAAATATATAACGAAACTTCTTTTGAAAAAAATCCAATTACTTTTATAGTAGCTAATTCTCTTTGTCTTTCATTTACATTTATTTCTAATAAACTATAAGTAACTACAATAGATAAAAGTGCTGAAAGCAAAGTTATGAATATAACTATGAAATTAAGACTATCACTAATCTTATCGAAAATTTCTTTGTATTCACGATTTAATGATATAGATTGAATTTCATCAAAATCTAATAGATAATCTAATGATTTTCCATTTTCTTTAACTATTAAAGTATTTACCTTATATTCTTTTTGTAAATTTTTTTCATAAAATTTTCTTGTAAGAAAAATGTAATTACCTTGATAATTATCTATAGTATTTGAAACTCTTAAATTATATTCATTTCCTATGAAATCACTAATTAAAATTTCATCACCTATATTTTTATTCATAAGAGTTAATGCTCTTTTTGAAATAAGAATACCTTCATCATCAATTTTATTTGATAAATAAAAAAACTCATTTACATTAATATCATCTAAAACATATATTTTAATATTATTTTCACGATTTTCAGTTGAAAATTTAGCATTTATACTTTCTAAAGAAATTAAATTAAAATCTTTATTAACTAAATTAATTATATTACTAATTTCATTTTTATTTAAATAATTTTTCAAATTAACTTCAGCATGAAAATTCCTTATTTTATTATACTGAAGTTCAGAAATTTCTGAAAATGAATTTTTAATTGCAAATCCAAGAAATATTAAAGAAGTACATCCTGTAATCCCTAAAATATTCATAATCATTTTACCTTTATATCTAAAAATATTTCTTAAACTTATTTTATTTGAAAAAGATAAATTATTCCAAAATATCTTTATTTTTTCAAGAAAAATACTACTTCCTTGCTTAGGCATTTTAGGTTTAAGTAATTCTGAAATTTCAATATTAAAATCACTTCTTAAAGATAGATATACTGATAAAATAGAAGATGAAATTGATGCAACAACACTTATTAAGACTATTTTTATGTCAAATAGAATTACAAGATCATTATACATTGAAATAGAACCTGCTTTAAATGCTGTATAAATAAACTTAGGCATAGAATATATTCCAAAATAAATACCTAAAGAAATTCCTAAAATAGTTGAAAGTAAAGCATAAATATAGTATTTTTTTGAAATTTCATTTTTAGAATAACCTAAAAACATATATGTTCCTATAGAATTTCTTTGTTCATCAACCATTCTTGTCATAGTAGTAGTTGAAACAAGTATTACTATTAAATAAAAAATTACAGGAAATAATTTTGAAATAATATTTAAACTTTCTATACTTTCAATAAATGATGAATAATTTGGATTATCAATTCTTGTATTTATAAAATATATTGAGTTTAATAAGTCTAGTTTACGTCTATTTATTTCTAAATCATTTAACGAATTTTCTATAATTTCATTAGCTTTATTCTTTTCTTCTTCAAACTTTTTTGCAGCTTTCTCTATTTCTTTTTTTCTACTTTTAATCTCTTCTTTAGCCTTAATTATTTTACTTAAGTTTTCTTCATATTCTTCATTAAATTTATTTTTTTCTTCTATTAATTTTTTATTACCTTCTTCAAGTTTATCTAGTCCTAATTTAATTTGTTCTAATCCATCATTAATTTTTTTCTTATTTTCTTCTAGTTCATTTTTTTTGTTTTCAACAAAAGATAAATTGTTAATTAATTCTATTTTTTTATTTTCTAAATTTTTAAGTTCATCTTTTAATCTATTTTCACCTAACTCTATTTCTTTTATTGCTTTTTCTATCTTACTTTTACCATCTTCTATCTTTTTTTTAGATACAAAAATGCTAGGTTTTAATGGATTTATATATTTTTCATTTTTTAAAATTTCTTCTTTTGAAACATCTATTTTTTTCTGATTTTCATCTATATCATTAAATCCTTTTTCTATTTCATTTAAACCATTATTTATTTTATTTTTATTTATCTCTAATTCTTTTAAGCCTTCTTCAAGTTTTGATAAATTTTCTTTTAAATTATATTGTTTTTCTAATAATTTAACTTTCTGATTATTAATTTCTACTTCACTACTATAGAATTTATCATTTGCATTTTGAAACTCATTAATTTTTGAAATAAGGTTTTTCTCAGCTGATAATATCTTATTTTTAGCATCAATAATCTTATTTTCATTTTTCATTATTTCATTTTTAGAATTTTCAATTTTATTTTTACCTTTATTAATTTCATCATACTTTTCAGATAAAAATTCATCTAACTTTATTTTAGAATTTTTATTTAGTTTATTTTTAATATCAATTTTCTTTTCAAAAATATAGTCATTATACTCTTTTTCATATGTATTAAAATTTGTTTTAAGTTTAATATTTGCAAAAGTATATTCCTTATTTTCAAAATATTTGTTTAAAGTATATCCATTAACACTTGAAACATTATATCCTTTAAATGTCTGAATTTTTGAATTAAGTAATCTATTTTCGACATTCTCATAATATCCAACAATTTTAAATTTTTCATTTATTTTTTGATTTAAACTATATTTATCTTTAAGTTGATATTCTATTATTATTTCATTAACTGAATTTGGAAAATTTCCTTCAATTAATTTAAGTTTAGAAATTCTTTCAGGTAAACTCTTTAAATTCAATATTTCTTTAGTATTATTTATATATATTTCTTCATTGTATCCATATTCAATATCTGATATATATTCTAAATTATTTAAAATCCTTAAATCACCTTGATTTAATGCAATATTTGAACTCACTGTAACATCAGCAACATTACTTATTTTATATAAATCATCTATTGTTCTATACATATCTTTACTTAATACATTTAAACCTATAAATGTTGAAATACCAAGTAAATTAATAATAAATATTGCCAAAAATCTTGTTTTAGATTTAAAAAATTCACGAATAATATCCTTATTATTCGTTTTCATATTCTATTTTCCTAATTCATGATAATAATCATTTAATCTCTGAATAACATTAAATAATCTTTTTCTAAAATGTTCTACTGTTATCTTTTCTACATCCTTTTTTGATATTTTAACTAACATCAAATATTGGTTACTGTTTTTTAATTCTACAGTTTTACCAATTTCATATTTTTCTTTATTTATTATTTCTTTAGATATTTCTTCAGCCATCATTTTAATAGTAGCTTGATCAAAATTTCTACCTGTTAGTTTAGTTTCTTCAAATAATACTTTTAATTTAGTAACTGAATAATCATAAATTGAACCTTTTAATCCCAATAATGCATCAGTTTTAACATTATCTAAAGTTTTTAATCTATCTGAAACAACAGCTAAATCCTTATTATAGTCAAAAGATCCTTTCATTATTTCTTTTGTTGCTTTGCTTGTAAATACTCCACTCAAATATTCATCTGATGAAAGTCTTGTATATGAAAAACTATTTAACGAAGTAAGTACAAATAGTAAGGTTATAATTTTTTTCATGATTTTTGCCTCCTTAAATTATTATTGCTTTTGTTTTTATTATTTTTTCTATATTATCTATATTTATTGGATTTTCTGGATTTTCAGATGGAGTAAAGTATATATCTTCTAAATTCAAATCAGCTTTTCTAATTGTTTCATGTGATATTAATACTTCATTTATCATTCCACGTCTATTTCTTGAAATTAAAATTACAGATGATAATTTTCTATACTCTGACATTAAATCAATAATACTATAATCACCTTCTATAGGTATTAAAGGACTTTTAATTATTCTGATAAATAATATATCACACTCATGTGATGATTTTTCAATACTATTTCTTAAATCAATTACACTTTCTTCATTTTTAAATATACTAATTGTTTTAGTTTTGGCATTAGGATTTTTATTTGATATAAATTTTTCAACTTCTTCTTTACCCGCATTAATATCTGTACCAAATAAGAAATATATTTTTGCTCTTTTATCATTTCTATCTCTAACAATATGATGTCTTCTACATCTTGCTTCATAATTTTCACTTGCTCCAACCATTACTATTGGATCATCTTTAAATGCTGGATTTCCATTTATAAGTCTTTGGCTTGCATATGCCTCTTTTCCACAAACCATACATATAGCTTTTAATTTAGTAATAGAATCAGCATAAGTTAATAACTCAGGCATAGGATAAAATGGTTCTGCTTTAAAATCTAAATCAAGTCCAGCAACAACAACTCTTTTACCAATATTAACATACTTATTACAAAATTCTATAACTTCTTTTCCAAAAAACTGTACTTCATCTATTCCAATAACTTCAACATCTGGATGCTTGGAAATAATATTTTCCATTTCCAATACATTTGAAACAGGAAAGGCTTCTATACTTTCTTGGTTATGAGAAAAAATACCATTTTCTCCATATCTTTTATCTATTGAATGTTTAAAAATTAAAACATTTTGTTTTGTAAACGATTCTCTTCTTAATCTTCTAATTAATTCTTCACTTTTACCAGAAAACATACTTCCACAAATTACTTCAAGTTTTCCTACATTATCACTATTTTTTAAAAACATATATATCTTTTGATTATTAATCAAACTCCTTTCCTTATTTTTTATTATTATATCATAAAAATATAAATAAGTAATCCAAATTATTTTTATTTGACATATTGATTATAATAATATATAATTTTTACAAGGAGGTAAATATGAAAAAATTTTCTATATTTTTATCTTTACTTTCATTTTTTTTATTTGCTCAAAATGAAGTTGATGCTAGATTAAATACTATCTTAGATGAACTTATTACTATATCTGAGCAAAATATTGAAATATCACATGAAGATGAAATAGTTTTAAGAGATAAAATTATTGAATTTGCAAAAACTAATTTAAATAGACCATATTCTTGGGGTGCTATTGGACCAAATAAATTTGATTGTTCTGGATTTGTAAATTATGTATTTTCAAAAAACAGTTCAATTAATTTGCCCCGTGTTTCAAAAGATATGGCTAAATATTCACCAAAAATAAATATTGATGATCTTAAAATAGGGGATCTGCTATTTTTTAATACCTCAAATAAAGGAAAAAATATAAATCATGTAGGAATATATATAGGAAACAATGAGTTTATTCATGCATCTTCTGCACAAAAGAAGGTTACAATTTCAACAATTGCAGAAGGATTTTATAAGAAAAAGTTTAAATGGGCTATTTCGCCCTTCTAAATTAACTGCTTAATTGCAGTTTTTTTAAATTATAAATATTGGAAAGGTTTGGTAACAAATGGAAAACATTATGAAAATTTTTGGCGAAAATGCTTTCACTGAGAGTAATTTGAAGAAACGTGTGCCTAAAAAAGTATTTGAAGAATTTAAAAGGGTTCAAAAAGGAGAAATTGAACTAACTAAAGAGAATGCAGAATTAATTGCTAACGCTATTAAGGATTGGGCAACAAAAAGAAATGCTACTCATTTTTGTCATTGGTTTCAACCATTAACTGAATTAACTGCTGAAAAACACGATTCATTTATAGAACCTAATGGTGATAAAGATTTCATTTACAGATTTTCAGGTTCAAATTTAATTAAAGGTGAATCAGATGCTTCATCATTTCCTAATGGTGGATTAAGATCAACATTCGAGGCAAGAGGTTATACAGTTTGGGATACAAATTCACCACCTTTTATTAGAGAAAACGAAGTCGGAGCTACTCTATATATACCTACATCTTTTATATCATATAACGGTGAAGCTTTAGATAAAAAATTACCTCTATTAAGATCAATGTATGCTATTAATAAATCAGCTACAAGATTATTGAACTTACTTGGATATACTGAAGTAAAAAGTGTTATACCTACTCTAGGTGTAGAACAAGAATATTTTTTAATTAAAAAAGAGCATTTTGACAAAAGAAAAGATATAATGTTTACAGGTCATACCTTATTTGGAGCTAAAACACCTAAAAATCAAGAAAGTTCTTTCCATTATTATGGTAAAATTAAAGATAAAGTCATTAATTTCATGGCTAATCTTGACTATGAATTATGGAAAATAGGTGTTTCTGCTAAAACAAGACATAATGAGGTCGCACCCAATCAATTTGAAATAGCTTCAATATTTGATGTTGCAAACCTTGCAGCAGATCAAAATCATATTGTAATGGAAACACTTGAAAAACTAGCCTTAAAACATGGTTTCGTTGCCCTATTACATGAAAAACCATTTTCTTATGTAAATGGTTCAGGAAAACATAATAATTGGAGTATGGCTACAGATACTGGAATGAATCTTTTTGATCCAAAATCACCTACTTTCATAGTATTTCTTTCTGCCGTTATTGAAGCTGTTGATAGATATTACCCTATATTAAGAAGTATGATTTCAAGTTGTTCTAACGATTATAGACTGGGTGGTCATGAAGCTCCTCCAAGTATTATTTCAATATTTTTAGGTTCTCATTTAACTGAAAAATTTAAAAACGCTAAATTAAAACTTATTAATAATAAAATTGTATCTTGTGAAAAAGATGAAAAAATTAAAAAGAAAATTAATATGATAAATATAAATCAGGATTTTGATGATAGAAACAGAACTTCTCCTTTTGCATTTACAGGTAATAAATTTGAATTTAGAATGCCTGGATCTACTTCATCTCCTGCTAATACATCTATGGTTATTAATGCTATAGTGTCAACTGTATTAAATGAATATGCAGATAAATTAGAAAGTTCAGAGAATATTGAAATAACTATAAATGATATAATTAGTAATACATTTAATAATCATAATAGAATAATATTTAATGGTGATGGTTATAGTAAAAAATGGCATGAAGAAGCAGAAAAAAGAGGCTTAAAAAATATTTCTAATACATATGATGCCCTAAAATATTATTTAGATGATGAAATTATTTCTATGTTTGAAGGAAATAATATATTAAATAAAATTGAATGTCAATCAAGATATTTAGCATTTTTAAATATATATGTAAATAATAGACTTACTGAATGTAATACTTTAGTATATATGATAGATAAATATATTTTAAATTTTGCATATAAATACATCCCTGTAATAATATTTGAAGAGGAACAAATTGAATTAAAAACATATACAAATTACTTATTACATTATAAAAAGGAATTAGTTCAATTAATTAAACAAATTAATGAAATAGAGCTAGAAGACAAGGCAAAATTATTAAGTAGTGATGCTTTAATATTAGAAAATAAGATAAGAAAAGTTATAGATTATTTAGAGGTAAATATTCCTTCAGAATATTGGAATTTACCAACATATACTGAATTATTATTTACATTATAAAAGTGGACGTAATGTCCACTTTTATTTAGGTAAATTCAAATTCTTTTTAATCACTATTAATCTTATAATTAATAATGTAGAAAATATTATTATAGTTGTTTTTATTTCATTAAACTTTAGATCTATTATCATAATATTATATAAAAATCCACCAATTACACAAAGTATTGCATATATATCCTCTTTTAAAATAAAAGGAGTTTCATTTGCTAAAATATCTCTTAATATTCCTCCACCAACTGATGTTATTGTTGCCATAATTATAACACCCATAGTGTTTAAATTATTTTGTATAGCAATATTAGCTCCCACAGAAACGAATAATGATAATCCTACAGCATCAGATATTAAAACTAATTTTCTTGCTTTTTTAACTACATTATCATTAAATTTAGGTTTAAATAGTAAATAAGGTGTATATATAAATAAGGTAACTATTATTGCAACATATATGTCTTGTGGATTTATTATTGCTGTCGGTATTTTATTTAATAAAATATCTCTCATTACTCCTCCACCTACAGAGGTGATTATTGCAAGTAATGTTACACCAAATAAATCATGATCATGTTTTATACCTTTAAAAATTCCTGATAATGCAAATGAAATTATTCCTAATAAATTTGCTAAGTAAATAAAAGTTTTAAAATCCATATTATTTTAAATTAGTTGAAATATCATCAACTAAAAATCTCCTTACTCTCTTTAGTCCTTCATTATCTTTAAGCATTTTAAACATAACTCTACCCATAATAACAACATCATACATACTATTATGTAATTCATTTTCATCAACTGGTATATTATAATAATTAGCACATTCCATTAGTTTTGGCCATTTAAACGATGAATAATAACTGTTACTTGGAATTTTAACAATGTCTATATTTTCTAACATTGTATCAAATTGATACTTAAGTTTAAAAGGAATAAATTGTCTATCAAATCTGATGTTATGAGCAACAAAATGTTCGGCATTATCACAAAATTCAAAAAAATTAACTATATCTTCATTAAATGTTTTAGCATATTTAATTAAAGATAAATTTCTTCTTCTTTCTATTTCATCATCAAATAATCCATTAACATTTAATGCATCAAAATTTGGTTCTTCCCCTTCATTTCTAAAATAAAATCTATCAAATTCACCAAGTTTTACCATTTTATTTGTAATAGTGTCATATGTAACCTTCATCGCTGAAATTGATAGAACTGAATCAGTTGGATTTACACCATTAGTTTCAACGTCAAAAAATATAACTTTTTTTATCATCTCTTCACCCTTAATCATTTAATTTAAGAACTGATAGGAATGCTTCTTGTGGAATTTCTACATTTCCTATAGCCTTCATACGTTTTTTACCTTCTTTTTGTTTTTCTAGTAATTTTTTCTTACGAGTAATATCTCCTCCATAACATTTAGCTAATACATTCTTTCTTAATGCCTTTACTGTTTCTCTTGCTATTACCTTAGTTCCTAATGCAGCTTGTAATGGAATTTCAAATTGTTGTCTTGGTATAACTTCTTTTAATTTTTCAACTATAGATCTCCCCCTATAATATGCATTATCACTATGAGCTATAAATGAGAATGCATCCACTGCTTGACCACTTACTAAAATATCAATTTTAACTAAATTAGATTCTCTAAATCCTATCATTTCATATTCAAAAGAAGCATACCCCTTAGTTCTTGATTTTAATTTATCATAAAAATCTATAACTATTTCAGCTAGAGGTAAATCATATACTATCATAGATCTATTTTCATCTAAGAAACTCATATTAACAAAAGTTCCACGCTTTTCTTGACATAATTCCATAACATTACCTACATAATCTTTAGGTACTATAATAGTTCCTTTAATATATGGTTCTTCTATATGTTTTCTTCCTTCAGGAAATTCAGCAGGATTATCAATAATTAACATATTATTTGTACCTTCTACAGTAACATGGTATTCAACAGATGGTGCTGTTGAAATTAAATCAATTCCAAATTCTCTTCTTAATCTTTCTACTATAATCTCCATATGTAATAAACCAAGGAATCCACAACGGAAACCAAAACCTAATGCTAAAGAAGTTTCAGGTTGATATGTTAATGAAGCATCATTTAATTGTAATTTTTCTAAAGCTTCTCTTAAATCTTCATAATCATCTGTAGAAATAGGATAAACTCCAGCAAAAACCATGCTTTGTGCTGGTCTATATCCCTCTAAGGCAAATTCTGTAGGATTTTTAACTGTAGTTATAGTATCTCCAATTTGTGTATCTTTAATAGATTTAATACCTGTAATTATATATCCTACTGAACCAGCGTATAGGATATCTCTTTCTTTCATTTTAGGTGAAAATACTCCTACTTCTAATACTTCAAATTCTCTACCTGTTGACATAATTTTTATTTTTTCACCTTTTTTAATGCTTCCATCTAATACTCTAATATATGTAATTACTCCTCTAAAATCATCATAATGAGAATCAAAAATTAAAGCTTTTAGAGGTTTTTCAATACTTCCTTTAGGCTCAGGTATATATTTTACAATACCTTCTAATAAATTATCTATCCCAAATCCAGTTTTACCTGAAACCAATATAGAATTATCAGTCGGTAGTCCTATTACATCTTCAATTTCTAACATAACCCTATCAGGATCTGCTGATGGTAAATCTATTTTATTTATAACTGGAAGAATCTCTAAATCATTTTCTAATGCTAAATATACATTAGCAAGTGTTTGAGCCTCTATTCCTTGTGCAGCATCTACAACAAGTAATGCTCCATCACATGCTGCAAGAGATCTTGAAACTTCATATATGAAATCAACATGCCCTGGGGTATCTATTAAGTTTAATTCATATTCTTTTCCATCTTTTGCCTTATAATTTAAAGTAACTGCCTGTGCTTTAATTGTAATTCCTTTTTCTCTTTCAAGATCCATACTATCTAATAATTGTTCTTTCATTTCTCTTTGACTTACAGTACCTGTAATCTCTAATAATCTATCTGCAATAGTAGATTTTCCATGATCTATATGTGCGATAATAGAGAAATTTCTTTTTAATTTTATATCTGACATTTTAACCTCTCCATAACAGTATTCATTTTTATATTTTATCACAAATGTATATAAAAATAAAGTACATTAATATAATGTGATATGGAAGATAAGGTAATATTTATCATTTTTTCTTATATGTTGAAATCTATTTATTTTTACGGTATAATGTATTTGTAATATAAATTAAGATCAGGAGGAAATCATGTTAAAAGAATTTAAAGAATTTATTGCTAGAGGAAATATTTTAGATTTAGCTATAGGGGTTATTATTGGAGGTGCTTTTGGTAAAATAGTTGCTTCATTAGTAAATGATATAATAATGCCAATCATTGGAGTTATATTAGGTAATGTTAATTTTAAAACATTACAATTTGTATTAAAACCTGCTGAAGGTGATACACCTGCTTTAGCTATTAATTATGGGATGTTTATACAAAATGTTGTTGACTTTTTAATTATTGCCATAGTAATTTTCACTATATTAAAAACATTGATGAAATTTAAAAAGGAAAAACCAGTTGAAAAACCTGCTCCAGCTGAACCTGTTTTAACTAAAGATCAAGAATTATTAATTGAAATAAGAGATTTATTAAAAAAATAAATAATCTATAATATACAAAAAGGAGAACTTTACGAAATGTACATTCTCCTTTTTTATATATTCTTATTCTTTTATTTCATATCCTGTATCTTTTAGTTTTTGTGTCCATTCTTTTATTTCTTCTTCAAAGTTTTTTAAGAAATCATTTACATCATATCCTAAAATTTCAATATCTAATATAGAATCATCTTGTCTAATTAATCTCGCAATTGATAAATCATTTCTATCTCTTAAATTTCCAATAATAGAATACTCATCATTGTAGTCTTCAGCTTTTTGTAATGTTATAAATATTTGTGAACCATTAGTATTTTTTCCAGCATTTGCCATAGCAAGCATTCCAGCTCTATCAAATCTTAAGAAACTAAATTCATCATCTAATAAATATCCTGGATTTCCTGTACCATTTCCAGCTCTATCTCCAGATTGTATAATATTATTTACACTAACTCTATGAAATTTTAAATTATCATAGTAATCATTAGTCGCTAAAAATACAAAGTTAGCAACTAATTTTGGTGCAGCTTCAGGATATAAATAAACATTTATATTACCTTTAGTTGTTTTTATTATTGCTTCAAGTTTATATGTTCTCATTTTATTAGCAAATTTTTCTTCTTCTGTTAAATTAAATAATTTTTCTCCTAAAAAGCTTGTTAAAAATTTTTCACCAGCACTACTACAACTTACCACGAAAAGGGAAAAACAAGCAACAAATAGTAATTTTACAATTTTCTTCATTTTTTCACCTATAAATATTGAAACCTTCTACCATATTTTCAATATCTACTTTTTCCTTTCTATTAAAATTAAATATATTAAAATTAAATTCTTCTACTTTAAGTGAACTTAATAATTTCATTTCCTCATTTTCTGAAACTAATAAATCATAAATAACTAATAAGTCTAATACTTCATCGTTTGAACTAACAACCTCCACAATTTGTATAAGTCTTCTATTATTAATATTTAAACTTTCTTTCAGTATTTCATTTGCAAGTCTTTTATTAGCTATTGCATTATATAAGTTAGATTCTAAATTATTTAAAACTATACCAAATAGTATATTGGGTCTTTGAGGTTTTTTAATTTTTACTATTGCCATTAAATCTCCTTCCTTTAAGTGTAATTTTATCATATTAAGATTAGTATTTCAATCAATATTCTATATTTCATAAATTTTTCTTAATTCATTAAATACTTCTCTTATAGGAAGACCCATTACATTATGATATGAACCTTCAATTTTTTCTATTAAAATTGAACCTGCATCCTGTATTCCATATGCTCCAGCTTTATCAAATGGAGAGAAATTGTTAATATAATATTCTATTGTTTCCTTAGAATTATTTGCAAAATATACTTTAGTTTTACATGTAAATTTTATAATATCATCATCATAAATAATACATACACCAGTAATAACTTCATGTACATTATTATTTAATTCATATAACATTTTTAAAGATTTTTCCTTATTAGTTCCTTTTCCATATATTTTTTTATTAAAATACACTATTGTATCAGCTGAAATAATAAGTTTATCTTTAATTCCTTTAAGTTCATTAAATGCTGTAACAGCTTTTTCTTCAGCTAATTTTAAAGTTAATTCTATAGGATCTTTTATATTTGTTTTTTTATTAAATTCATTTTCATCAAATTTTGGTACATGTATTTCAAAATTATTAATTATCATAGAAAGTATTTCTTTTCTTCTAGGTGATGAACTAGCTAAATATATTTTCATTTTAACTCCTTTATGCAAGAAATACCGATTAAATATAATCGGTATCTAATTTATACTAACTCTTTAATAAATTCTTCCATCCACATACATAATTTCTTACTTGCCTCTTCTGCTATCTCTACTACCTCTTCATGTGAATGATTCCCTTCCCTTAATCCTGTAGCCATATTTGTTATACATGATATACCTAATGTCTTTATACCTACATAATTTGCAACTATTGTTTCTGGTACTGTAGACATTCCTATAGCATCACTTCCTAATCTTCCATACATTCTTATTTCTGATGCACTTTCATAATATGGTCCTTGGAAAAATGTATATACTCCTTTTTTTGTTTCTATACCTAATCTATCTGCTACTTTTTTTGCTCTCTCTCTTAACTCCAAACTATATGGCTCTGACATGTCTGGAAAACGCTGACCAAATCTCTCATCATTTGAACCTCTTAATGGATTATTTCCTACTCCATTAATAAAGTCTTCTATTATCATTAAATCTCCTGGTTTAAATTCTGGATTTATCCCTCCACATGCATTAGTTACTATCATTTTATCTATACCTAATAACTTCATTACATATACTGGATAAGCTGTTTCTTTCATTGTATATCCTTCATAATAATGAAATCTTCCTTGCAATGCCATTACTCTTGTATTTCCTATTTTTCCAAAAACTAAATTCCCTGCATGTCCTACTACTGATATTTGTGGAAAGTTTGGTATATCTTTATATGATATATATTTCTTATCTTCCATTATATCTACTAATTTACCTAATCCACTTCCTAAAATTACTGCTATGTCTACTTTTGTATCAACCATTGATGATATGTAATCTGCACTCTCTTTTACTTTGTTGTAAAACATCTATTCTCCCTCTCTTTATTTTTAATTTGATATTATTATAACCATATTGTTTTTTTATGTCAATATTTATGATAATAATTTATCTATCTAATATTTCTTTTTTATCTTTTATATACTTTAAAGATAAAATAGCAAAATATAATATTATGAACATAAATAATTTTATAATTATTTCTAAATTTTTATTTGATATATTTATAATTTTCTCAATTACAAATATACAAATTATTGAATTTAGTAAAGAAATAATAATAAATTTAAAATATTTAAGTAAACTTACATTTGAATATCTAGCCTTTAATGAAATTAATAAAATTAGATAATTTACTAATGCTGAAAATGTAGTTGCAAATGTAAGTCCTCTATGAGTAAATTTTTTGTATAATAAAAAGTCTAAAAATATATTTATAGTAATTGCAATTAAAGATGAAATTACAGGTAATTTTCTATCTTTATTAGCATAATGAGCTCTAGTTAATAAATGTATGGTTGAAAAAAATATTAATCCTATAGCATATATTTCTAATATTTCAGAAGTTAATTCAACACTTTCTAAAGTAAATTTACCTCTATTAAAAAGCAAAGTAATAATTTCCCTAGAATAATATATTAAACCTAAACTAGAAGGTATAATTAAAATTGCTAGTAAATTCATTCCTCTTTCTATAGTAGTTTTAAATAGTTCATTATTCTTTTTTAAAACAGATTTTGATAAATCAGGAAAAATAACTACTGATAGAGATATAGCAAAAACACCTATAGGTAATAAATAAAGTCTTGAAGCATAATTTATAGCACTTATTGTACCAAGTTTTAAACTTCCAGCAAATGCAGTATCTACTAATTCATTTATTTGATATCCAAATATTCCTACTAATGTTGGAATCATTAATAAAAAGAACTTTTTAACATACTTATCTTTATAATCAAATGTAAATTTATATGTTTTTAATATTTTTAAAAATGATGGTAACTGTATTAAAACTTGAAATAGTCCCGATAATAAAAATGAAATACCTAATCCATATATTCCTAAACTATTTTTAGTTAATAATGCACCTATTATTATTGTCAAATTAAATACTACTCCAACTAAAGTTGAAATATAGAATTTTCCATAATTATTAAGTAATGATGAAATTAAACCTGAAACAGAAATAAATACTAAATAAAATGACATTATCTTAAGTAAAATTGATGCTGTTGCAATCATTTCTGCATCTTTAAATTTAAGTATATATTTTAATGTAAAATCTGAAAATAAAGCTGTAAATAATGAAATAGTAAAAGAAAATGAAACTATTAAATTAGTTAGATTAAATACAAAGCTATTAGCTCTTTCTAAATTATTTTCCTCTTTAATTTCGTTATAAATAGGTATAAAAGCTGTTCCAAGAGAACCTTCGCCTAATAATGTAGTAAAGAAATTTGCAATTCTTGATGAAGCAAAATATGCATCCGTATGACCAGTTGCCCCAAAAAAGGCAGCAATAACTATTTCTCTTATTAATCCTAAGATTCTACTTAACATATTAATTAACATTACTATTAAACTTGATTTAAACATATGCTTCCTTTCTAATAATAAAGTCATTATCAGATAAAGTTATATCTATACTACCTTCTTTAAATAAATCTAATATTGCTAAGAAAAAGCAAACAATTCTTCCTTTTGAAAAATTTCCTTTCATTAATGAAGAAAATGTTAACTCATTATTTTTAACAAATTCTTTTTCAATTTCAAATAATGCATCTGTTGTAGTAAATGTATCTACAACATTTATTTTCATATTTTCTTTAATTTCTACTTTATTAATCAAAGTATTAAATATTTCAAATATATTATTTAGTGTTAAGTCTTCTAAAGAATAATATATATTATCTTGTTCTTTAGTTTTATTTCCTTTTACTATATAAGGTATATTATATTCAATTTCTCTTTTAGAAAATTCCTCTGCAATTTCCTTAATAACCTTATATTCAAGTATTCTTTTTTCTAAATCCTGTTCTTTTTCTATTTTTTTATCTTCATTTAATATTGAATAAGCTTTAATTTCTAGTAGTTCTGTTGCCATAGCTAAAAATTCTATCTTAATTTTTAAATTTTGTTCTGTTTCTTTAGTTATAATACTAAGATATTCATCAATAATTTCTGATATATATATTTTTGAAATATCAATTTTTTTATTGTCAATTAAATGTAAAAATAAATCTAAAGGACCTTCAAAATCTTCAGTTTTAACTAATAAATCAATATTTATCATATATTTTCTCTTTCCATATTTTCTTGTCCATTAAAATTTGTTTTTTCAACTCTTCTAATGAACACATTTTTCTCTCTAATCTAATATTTTCAAGTAAATCTACAACTATTACTTTATCATAAATATCTTCATCAAAATCAAAAATATGCGTTTCTATATGTAATCCTTCATTATCTATTGTAGGATTTTTGCCTATATTCATAATGCCATAATACGCCCTATCATAGCCTTCTATATGTGTCCTAACTCCATAAACCGCAAACAAAGGATAAATCTTATTTCTTGACAAAAGATTAGCTGTTGGAAACCCTAAAGTCCTAGCAAGTTTTTTGCCATGAACTACTTTCCCCATAATAATATATTCATGACCTAATAATTTTTTCACATATGACATTTTACCATTTTCAATTAATGTTTTAATAAATGTACTTGAAATTAAACAATAATCTTTATCTAAATAATCTTTTAATTCTTTTATATCTACTATTTTTAATTCATCAGTTTTCAAATTAAATAAAACAGGATTGATAACATTAACTTTAATTTTACCTTTTAATAATTCATTTAATTTAATAACATCACCTTTTTTTCTATTTCCAAAACTATAATTAAATCCACAAAAAATTTCTGAGGCATTTAATTTATCAATTAATATATTATTTACAAAATCTTCTGGTGATAATTCATTAACATCAAAAAATTCTTCTAAATATATATAATCTAAATTCATTTTTTCAAAAATATATAATTTCTCAGATAATGTCGTAATTAAAGTATCCTTTTTTTTAGGATATTCTCTAAAAGTATATATCAATACTTTTTGATTTAATTTTTTCCCTAATTCTAGTGCTTCATTGATAATTTTATGGTGTCCTAAATGGACACCATCAAAATTACCTAAAACTACTATATTTTTTTCTTTAAAAACCATATCACTAAGAATCTTACTCTTACTAAATTTTGCAAATTCATCTGCATAATTTATATTTTTTAAGATTACTTCCATTTTATACCTTTCGACTATTCAGAAAATACTATTTTTTCTACTTCTGAATATTTTTTTACATAATGTATTTTAATTTGAGATAATATTTCTTCTGGTAGTTCTACTGTATCACTTTTATTTTCGAAAGGAAGTATTACTTCCCTAATCCCAATTCTATGTGCTCCTAATACCTTTTCTTTTATACCTCCAACTGGAAGTACTTCACCAGTAATAGTAATTTCTCCTGTCATTGCAATATTTTGCCTTACTTTTCTTTCAGATAAAATTGAAACTATAGCTGTTGTAATTGTAATACCTGCTGATGGACCATCTTTAGGAGTTGCTCCTTCTGGAAAATGTAAATGTATATCATATTCTTCATAAAATTTAGGATTAATAACTGATAGATTTTTGTAATTTGCTCTAGCATAAGTATAAGCAACACTTGCAGATTCTTTCATTATTAAACCTAATTTACCTGTAAATTGTATTTTACCTTTACCATCCATTTTAACTGCCTCTACATCTAAAGTTGTTCCTCCAACTGAAGTCCATGCAAGTCCTTTAACTACTCCTAATTTAGCATTTTTTTCTGCCATTTTATCTTTTTTATATTTTTCTGGTCCTAAATAATCTGATAGATTCTTTAAGTTAATACTGTATTTTTTAGATGAATCCTCTAATTTTAATTTAGCAATTTTTCTAAGTATTTTTACTATTTCTCTCTTTAAATTACGAACTCCAGCTTCCATAGTATATTTATTAATAATTTCAAGCAAAACACTATCTGAAAATTTAATATCTTTTATACTAGTTTCATTTTTTGCTTGTTTAACTAGATAATTTCTTGCAATAACTAATTTTTCTTGTATAGTATATGAATCTACATTTATTACTTCCATTCTATCAAGTAATGGTCTAGGTATACCAGAATAATCATTAGCTGTACAAATAAAGAAAGCATCTGATAAATCATATTCAAAATCAACATAATTATCTTTAAATGTCTTATTTTGTGCAGGATCTAATACTTCTAATAACGCTGAAGCTGGATCTCCTTTAAAATTAGAATCTAATTTATCTATTTCATCTAATAATATTACAGGATTATTAACCTTTGCTCTTTTTAAGGCTTCTATAATTCTTCCAGGCATTGCACCTATATATGTTCTTCTATGCCCCCTTATTTCAGATTCATCATGAACACCACCTAATGAAATTCTTTCAAATTTTCTATTCATGGCATGAGCTATAGATTCACCTAATGAAGTTTTACCAACTCCTGGTGGTCCAATAAGACAAAGTATAGTTCCCATTTTTTTATTATTCTCTTTATTTAGTTGATTAACAGCAAGATATTCTAAAACTGTATCTTTAACTAATTTTAATCCAAAATGTTCTTTATCTAATATCTCTTCTGCTATTTTTATATCAATATCTTCTGTTTTACTCTTTTCCCAAGGTATTTCAAGCATTGTATCTATATATGTTCTAATAACCCCAGCTTCAGCAGAAAAATTATTCATCTTTTTATATCTATTTACTTCTTTAATTAATTTATCTGCTAATTCATAAGGTAATTCCCTAGATTCTATATTAAAAAGTAATTCATTTATTTCATCTTCACTATCTTCTTCATCTAATTCAGAATAAAGACCTTTAATTTTCTCTCTAATATAGTATTGTCTTTGATTATCTTCTATATTTTTCTTAACTTTATTTTCTACATTTCTATCTATTTCTTCTAATTCTATTCTAATTTTTAATGCTTTAGTTAAGTTTTCAAAAATTTCATCTATATTATTAGACTTTAAAATTTCTACTCTATTTTCTTCACTTAAATCTAAAGTTGATGCTAAAGTATACATTAAAGTTTCAAAAGATTTAATTTCAAAAATACTCTTTATTAAATCTTCAGGAATTAATTTATTATTTATAATATTTAGATCTTGAATTAAAGTTTGTAAATACATTCTGTATTTATCATCATTAGTTTTATTAGTTTTTTCTATAGGATAATTTTCATACTTTGCTTTAAACATCCCATTTTCATTAATAACCTCTGTTACCTTTATTCTTTCTTCCCCTTCAATTATTAGCCTTAAATTACCATCTGATGTTTTCATTATTTGAATAATTTTACCAATCACACCTACAGTTTCAACATCTTCAATTCCATCTATATTTTCACTTAATGAATCCTTTTGAATTGCTAAAACTAATCTACCCTCTGTATGTTCTACAGAATAATCTATGGCTTTTTTACTAAAATCTCTTCCTACTATTATAGGTATAACAGCTTGTGGAAAAAATACTATCTCTCTAATAGGAATAAAAGGTAATATTTCCAATTTATTCATCAATTCTTTCCTTTCTCACTTTTTATAAATAATTCATTTTTTTCAATTATCATATCTTTAGTAATAACTACTTTTTTAATATCTTCTTTTGAAGGTATTTCATACATTAAATCAAGCATAGTATTTTCAATAATACTTCTTAGACCTCTTGCACCTATTTTTCTTTTTAATGCAAGTTCTGCAATTTCTTCTACAGCATCTTCTTCAAAAATTAATTCTACTCCTTCAATTTCAAAATATTTTTTGTATTGCTTAATAATTGCATTTTTGGGTTTTGTTAAAATAGAAACTAAGGCTTCTTTATTTAATTCTGATAAAGCCGTTATTACTGGTAATCTTCCAATAAGTTCTGGAATTATCCCAAATTTTCTAATATCTTCTGGTAAAACATGTTCAAAAATAGTCATGTCATCTAAATCTTCATTTTTATCTAAATTTAAACCAAAACCAATTTGTTTTTTATTTAATCTTCTCTTTATTTTTGATTCAAGTCCCTCAAAAGCCCCACCAACTATAAATAAGATATTGGTTGTGTCAATTTCTATCATTTCCTGATTAGGATGTTTTCTTCCACCTTGAGGTGGTACAGAAGATATTGTTCCTTCAACAATTTTTAATAATGCTTGTTGAACTCCTTCTCCAGATACATCACGAGTTATAGAAGTATTTTCAGACTTTCTAGCTATTTTATCAATTTCATCAATATATATAATTCCTCTTTGAGCTAACTGTATATCATAGTCTGCTGCTTTTATTAATTTTAATAATACATTCTCAACATCATCACCAACATAACCTGCTTCAGTAATAGTAGTTGCATCTGCTATTGCCAAAGGAACATCAAGTATTTTAGCAAGTGTTTGAGCAAGTAAAGTTTTTCCTGAACCAGTCGGTCCAATTAATAAGATGTTAGACTTTTGCATCTCTATATCATTATCTACCTTATCAAGTATTGAAAGTCTTTTAAAATGATTATATACTGCAACAGATAATACTTTTTTAGCTTGTTCTTGACCAATAATATATTCATCAAGTTTTTCTTTTATTTGTTTAGGTTTCAATAAATTAAAATCATCAAAATTAGATGTAGTTTCATATCCTAATTCAATATCTCTATCCTCAATACATTCATTACAGATAAATGCAGTAGAATCTTCATTTGAAAATAATGTATTTACTTCATTTTCGCTTCTATCACAAAACGAACAAAAATATTCTTTTTTATTTTTCATTTTTATTTCTCCAATACTTTATCTACTAATCCATAAGCAACTGCTTCTTCTGCTGATAAATAATTATCTCTTTCAGTATCTGATATAATTTTTTCAAAACTTTGTCCAGTATTTTTTGAAAGTATTTCAGCTAACTTATGTTTTGTTTTTAATATATTTTCTGCAACTATTTGAATATCTGTTGCCTGTCCTCTTGCTCCACCTAAAGGTTGATGTATCATTACTTCTGAATTTGGTAATGCAAATCTTTTCCCTTTAGTTCCTGAAGATAAAAGAAATGCCCCCATACTTGCAGCCATACCTATACATACAGTTACTACATCACAAGATATATGATTCATAGTATCATAAATCCCAAATCCAGCAGTAACCATTCCTCCAGGTGAATTTATATACATAGTTATATCTTTTTCTTTATCTTGTGCATTTAAAAATAGTAACTGAGCTATTATTGCATTTGCCATTTCAGTATTAATTTCACCACTTAGGAAAATTATTCTATCCTTTAATAATCTTGAATATATATCGTAAGTTCTTTCTCCACTACCCTCATTTTCAATTATATATGGCACTAAACTCATTTTTCTCCCCTTTCTATATATTGGAAAACTAGACCTAAGCCTAGTTCCCTCAAATTATTAGTTATTTGTTAATAAATAATCATTTACTTTTGCAAAGAATAATTGTGAATTAATTTGTCCAAAGAATCTATTAACTCCATCTGTTTTTTCTAATTCAGCAGTTAATTGATCTACTGTCATTCCATACATACTTGCAATTTTTTGTAATTCTGCATCAAATTCAGCTTCTTTAACCTCTATTCCTTCTACTTCAGCTATTTTTGATAAAATGAAGCTTGATTTAACACCTTTTTCAGCACTAACTCTTAAATCTTCTCTCATTTTTTCAACTGTTTGACCTGTCATTTGTAAGTATGTTTCTAAATTCATACCTTGCATTTGTAATGTTTGTGCAAATCTATCAATTTGAGCATTGATTTCTTGTTCTACAGTTATTGTTGGAACTTCCATTGTTGTTGCATCTGATATATTTTCAACAATTGTTTTTAATCTCTTATTTTTTGCTTGTTCTTCTTTATTTGATAATATATTTCCTTTAATTGCATTTTTTAAATCTTCAACAGAATCTGAACCAGATGCTTTTGCAAATTCATCATTTAATTCAGGAATTATTGCTTCTTCTAAACTATTTAATTTAACTTTAAATATAGCTTCTTTACCTTTTAAATTTTCAGCATGATATTCTTCTGGGAATTTAACATTTACATCAAATTCTTCTCCAAGTTTTTTACCAACTATTTGTTCTTCAAAAGTATCTATAAATGTTTTAGAACCTAATTCTAATCTATGATCTTCAGCCTTACCTCCATCAAAAGCTACACCATCTACAAATCCTTCAAAGTTAATAACAGCTATATCTCCTAATTTAGCTTCTTCTCTTTCTGTTTTTTCAAATTTTTTAGCTCTTTGTATCATTCTATTTATTTCATTTTCTACTTCTTCATCAGTAACTGATACTTCTTCTGCTTTTATATCTAATCCTTTATATTGAGGTAATTCAAATTCAGGGAATACTGCAACTTTTAAATTCATTTTTAATTTGTTTTCATCATATTCTAATGAAACTATTTGTAAATCTGCTACAGGTCTTAATTTTTCTTCTCTAATTAAAGTAGTATACTCTGTTTTTAATATTTCATTTATTAATTCATCTCTTATTTCACTTTTAAATGTTTTTTCAATAACATCTGCTGGTACATGACCTTTTCTAAATCCATCAACTTTAACATTTTTAAATTTTGCTAAAATAGATTCTCTTAATGTCTTATATTCTTGTCCTTCTTTTAATATTTCAAAAGCTACCTCTGAACCTGCTAATTTTTCTAATTTCATTTTTCCTCCTAATTATTCTATATCCTTTAATTTTAATCTAAATACTTTCTTTCCCATTAATTCAGGTGTATATATTATTTTATACAATTTATTTGAATTTTTCAAGTTTAATTTATGACTCAAATTATATCCTAATATTTGTATATCTTTTCCATTTCTGCGTATATTGGCTTTGAAATGTTTATTATCAACACCAAATATTAAAATATTTCTAAATTTAATATTTTCATCATAAAAATTAGGCTCATCATTTGAAAGACCAAATGGTCCTAAACTATTTATTTCTGTCATTTTTTTTGAAGATATCTGGCTAACTGGAAATTTAACATCAACAACTATACTATTTTTTGATTTTTCAGTAAGATTTAAATTATACATTTTCTGCTTAATTTTATCTCTTATCAAAGTTAAATTATCTAGTGTAATTAAAAATCCAGCTGCAAGATTATGTCCACCAAAATTAATAAAATAATCTGAAAATTCTGATATCAATTTATATATATTTTTATTATCTATGCTTCTACATGAGCCTTTACAATAGCCATCAACTTTAGAAACTATAATTACTGGGACTTTAAATTCTAATGCTAGTTTTGATGTAATAGAACCTAAAATGCCTGAATTTATATCATTTATTTCATAATATATATAGTTTAATTTTTTAATTTCTTTATTTTCAAGAAATTTTACTATTTTGTTATATATCTTAATTTCATAATTTTTTCTTTCGTTATTATATTCATACATTTCATTTAATATCTGAATATTAACTTTTTCAGAATCAGATGTTAAAAATTTTATAATTTTTAATGGAACATCTAACTTACCTATCGCATTAATTAATGGTGATATCCTATAGCTTATATCATTAATTGTAATATATTCTGGATCAATTTTAAAATTTTCCATTATCATTTTAAATGCAAGTATATTAGTTTTAGAGAAATTTTTTAATCCTCTTTTTATTAAAAATCTATTTTCATCAACACATTCCATAACATCTGCAATAGTAGCAAGTGATATTAATTCACAGTATTCATATATGTCTGAAATTGATCTGTCAGGTAATTTTGAATAAATTGCTTGAACTAATTTAAATACTACTCCTGAACCTGATAATTCCTTAAATGGATAGTTTTCTGATTTTTTAGGGTTAATCTCTAATATAGATTTCATATTCTTATTATTAAAATGATGATCTGTTATTATTAAATCAACACCCATAGATTTTAACATATCCATATGTAATATCTCGCCAAATGAATTATCTACAGAAATTACAAGCTTAATATTCTTTTCTTCTATATTTCTGAAATATTCCTCATTTAGGCTATATTTAAACATTGTTCTTGTAGGAATATATATTTCATTTTTTATATTTAATTTGTCAAAAATTTTAGAAAGATATAGTGAACCTGATATTCCATCAATATCATAATCTCCAAAAATCAATATTTTCTTATCTTTATCCATAAATTCTAAAATTTTATCCACAACTTCTTCCATATTATTTAATAAAAATGGGTCGTGTAATTGCTTATAACTTGGGTTCAAAAAAGAATTCATTTCTTCTTTAGAGTATATTTTTTTATTTAATAGTAAAGTTGTAATTAATTCATCTTTATTAAAAAGTTCCATTTTGTTTTTTAAATAATCACTATCATAGGATGTCCATTTTAAATTCATGATTATTCCTCGCTATCTATATTAACAGTAGCTATTGCTTCTTTTAATATTTTAGATATTTTCACACTATATTCTACACTATCATCTAAATGTATTCTAATTTCTGGAGTATATCTAATTTCTAAATTTTCACCAACTTTTTTTCTAAAAAATCCCTTTAACTTATTTAATTCTTCTAAAAGTTTTTCTTTATTTATATTTTGTTTATAATCTAAAATAGACATAATTACATCTGCATAACGAGCATCTGGCGATAAATTAACTGACTTAACTGTAACCAAGTTTCTAATCTTTTCATTTTTTACTTCTAATAATATAGCTGTACCAATGATTCTTGAAATTTCTTTTTCTAAACCTCTTTTTCTTCTAATATTCATAAATACCCCTATCTATTGTTTTACTTGTTCTACAACAAATGCTTCTATTATATCTCCTGCTTTTATATCGTTGAAATCTTTAATTCCTATACCACAATCTTGTCCAACAGTTGCTTCTTTAACATCATCTTTATATCTCTTAAGTGATGCAATTTCACCTTCATGAATAATAATACCATCACGAAGTAATCTAATCTTAGATTGACGAGTAATTTTACCTTCAATTATTAATGAACCTGCAATATTTCCTACATTTGAAATCTTAAATACTTCTCTTACTTCTAATCTTCCATTATATATTTCCTTATATTCTGGATCTAACATACCTTTCATAGCTTTTTCAAGGTCTTCTGTAACATGATATATTACATTATAGTTTCTAATTTCTACTCCTGTTTTTTCTGCTTGAGTTCTTGCTGTATTAGTTGGTCTAACACTAAATGCAATAATTATTGCATTTGATGCAGCAGCAAGCATAACATCTCCTTCAGTAACTGCTCCAGCACTTGCTTGAATAATATTTATACTTATCTTATCATTTGATAATTTATTAATTGATTCTTTAAGTGCTTCAGCTGATCCCTTAGAATCTGCTCTAATTATACATTTTAATTCTTTTAATTGTTGATCTTCTAATTCCTTAGATAAACTTTCAAGCGAAATATGTTTTTTCTTATTAAGTTCATCTTTTTTCTCATTTTTGAAGTCCTCAACTATTTTTTTTGCCTGTTTATCATTATTTACACAATATAGCAGATCTCCAGCTTCAGGTATTTCATTAAATCCTGTAATTTCAACAGGTTGTGAAACTCCTGCTTTAGTAATCTTATTACCTCTATCATCTAACATAGATCTTACTCTACCATATGATGTTCCAGAAACAAATATATCTCCTATTTTTAATTCTCCTTCTTGAATTAACACATCAGCAACTGGTCCCATTTGAACATCTAATCTTGATTCAACTACTATAGCCTTAGCTCTCTTTTTATGATTTGCTTTAAGCTCCATTATTTCTGAAGTTAGTAGTATTGTTTCAAGCAATGAATCTAAATTTAATTTTTGTTTTGCTGATATTTCTACCATTTCAGTATTACCTCCCCATTCTGGAGAAATTAAACCATGTTCAAGTAATTCTTGTTTAACCTTCATTGGATTTGCACCTGGTTTATCTATCTTATTAATAGCAACTATAATAGGTACATTTGCTTCTTTAGCATGTGAAATAGCTTCAATAGTTTGTGGTTTAACACCATCATCTGCTGCAACTATTAATATAGATATATCAGTTATATTAGCTCCTCTTACTCTCATTTCAGTGAAAGCCTCATGTCCAGGAGTGTCTATAAATGTAATTTTTTGTCCATTCCATTCAACTTGATATGCACCAATTCTTTGTGTAATACCTCCAGCTTCACCATCAATTACATTTGTATGTCTTAATGCATCTAATAATGAAGTTTTTCCATGGTCTACATGTCCCATAATAGTAATTACTGGGGCTCTTAATTCCTTATCTTCTTCTTTATCTTCTATTTCAAGATTATATTTTTCACCATAAGATATTTCTACTATTTCTTCTTTTTCAACTATAACATTGTATTCAAGTGCTATTTCTTCTGCTTCTTCAATGTTTAATATAGCATTTGCTGTATACATTTTACCTTGCATGAAGAATTTTTTGATTATATCTGATGAATTAATTCCTAATTTTTCAGCAAGTTCTTTAATTGAAATTTCTTGAGGTAAAACAACTAATCCAACTCCACCTTCTTCATCTCTTATTACTTCTGATTTTACAACTTTTTCTTTTTTCTTAACTTTTTTCTTTTTATCTTCTTTTCTAAAATCATCACGTAATTCTTTTAATTTTCTTTCTTCATCTTTTGTTTTTCTATCATTTTCATATTTCTTTTTCTCAAATTTAGATTTTAATTTAGAGTTTTTAGCTTTAACATCATTTTCCATTGTTGGAATTTCTATTACTGCCTCTTTTTCTTCTTTAGCATGTGTTTTAAACCCTTTTTTATTATCATCATTTCTTCTATCTTTATTAAATGGTCTTCTTTCTCCATTTTCAAAAGGTTTTCTATCTCCAAAATTTTGATTATTTCTTTTTTCAAAAGGTTTTCTTTCACCGTTATTATTATTAAAATTTCTATTATCTTTATTTACTCTATTATCATCTCTATTTCTTTCTCTATTATCCCTATCTTTATTAAAGTTTCCTTTATTTTCAAATTTAGGTTTATCACTTCTAAAATTATTTTTTCTTTCATTATTATTTCTTTCAGAAGTATCTTTATTATCTCTATTAAAAGGCTTTCTTTCTCCAAAATTTTGATTGTTTCTTTTTTCAAAAGGTTTTCTCTCACCAAAGTTTTGATTATTTTTTTCCTGTCTTTCGCCTCTATTTTCTCTTTCATTTCTATCAAATTTATCATTTCTAAATTTATTGTTTTTATTAAATTTATTATGATTCTTATTGTTGAATATAATTTTTTCTCCTATTACTTCCTCTTTCTTGGAAGAAGTTTTCTCAGTTGATTTTACTGGATTTAACTTATTTTCAATATCTTTTATTTCACTATCACTTAAAGCTGATAAACTTGTTTTATCATATCCAATTATTTTTAATTTTGTAATAAGATCATTAGTTGATTGTCCAATTTTCTTAGCAAACTCATAAACTCTCACTTATTCCACCTCCATTTTATTTAGTATTCCTCTTACAACCTTTTTAGTTTTTACCCCTACTACCTTAACTTCACTTAAAAAGATTTTTTTTAAAGAATATTGTTTTTCAATAAATATTATATTTACATTATTTAACTTCGCTATTTTTTTTAATTTATTAACATATTTCCCATTAATATCAGAAGGTATAATTAAAAGTTTCACTATAGAATTTTTCATTGCATCTAAATTTTCATCTATACCGTATACTAGATATTCAGAATTTTTTAATCCCTCTAATATTCTTAAAATATGTTCATCCTTATTTTCTTTATTTACTTTTTTTTCAAAATGTTTAAGAACTTTTTCTGCACTTTTCATTTCAACCTTAAATTTATTGAAGAATTTTTGAAAAATTTCTAAATCATCCTTTATATATTTTCCTCTATTTTGAATATTTTGAGCATCATCATAAATATATTCACCTTTTGAGTTTTCAACAAATCTAAGTAAATCTTCTTTTTTATCATTAGCCCTTGTAATTACACAAGTTCTTATTATATTACTCTTGTTCTTCTCTCTCTTCTTCTCCAACTTCATCACTCGCCTCTATATTTACTCTTAATTTACATAGTTTACCAGCAAGTTTAGAGTTAACTCCTTTTTTACCTATAGCAAGTGTTAATTGACTTGGATCAACTTCAACTTTAGCAACTATTTCATCTTCATTTCTAACTATTTCTACTGAAAAGATTTCAGCAGGATATAGTGCATTTTTAACGAAAATTCTTTGATCAGCATTCCATTCTACTAATTCAATTTTTTCTCCGTTTAATTCATTAATAATATTATTTATTCTAACTCCATCCTTACCTATGCAAGATCCTTTTAAATCTATATTTGGATCTTCTGAATAAATAGCTACTTTAGCCTTAACTCCTACTTCTCTAGCAATATTTTTAATAACTATAATACCTGAAGCAATTTCTGGAACTTCTCTTTCAAATAATTTATGTATTAATTTGTCATCTATTCTTGTAATATCAACTTTAGGGAATCTTCCATTAGTATCAACACTTCTAATATATGCTACCAATCTATCTCCAACTTGTACCTTATCAAGTGATGATAATTCTCTTTGAGGTATTATTAAATCTAAACCATTCATACCTACATAAAGACTTCCATTTTCTTCAATTCTTCTTACAATAACATTTACTATTTGATGTTCTATAGCAGTTAATTGCTTACAAATTAATTCTTTTTCTTGCTCTCTTATATATTGAATGATTATTGATTTTGCTCTTTGAATTGCATTTCTATTAAATTCATCAGCATTTAATTCTATTTTTAAATAATCTCCAACTTTTATTCTTTTTCTATGATTTTTAGCTTTACTAAATGGTATTTCAGTTGTTTCATTATATACTTTAACTTCATCATCTATAATTAACTTTTCACAGAACATTTTAACATCCCCTGTTATTTGGTCAATCTCAATTTCTAAGTTTTCTTGATCATTAAAATCTTTTTTATATGCAGCTAACAATCCTGTTTTTAGTCTTTCTAATAAATCCCCTTTTTGTATTCCTTTTTCTTTTTCTAATTCTTCAATTGCATCTAAAAATGTAGCTTTATCTTTAGATTTCATTTTCAACATCCTCCTTAAATATTTTATCAGATAAATTAAATACTAGTTTTGCAACTTTAATTTTTTCTAAAGGAATTTCTACATTTTCAATAATATCATCCTTAATTAAAATTTTACCATTTTCAAATCCTAACAATATTCCTTCAAAACTTTTTTTATTTTCAACATTACTTTTAGTTTTTACACTTATTTTTTTACCTGTAAATCTAATAAAATCTTTTTCTTTTTTTAATTTTCTTTCAAGACCAGGAGTTGAAACTTCTAAATAGAATTTATCATCAATTAATTCATCAACAATATTATCTATTTTTGTACTTAGCATAACACAGTCATCTAAACTTGTATTTCCATTTTTAGATTCAACATATATTCTTAGAAAATTATATCCTCCTTCTCTAACATACTCAATGTCTGCTAATTCCAAAGAATTTTCATTTAGATATGGCTGGATTTCTTTTTCAATTTTCAATAAAATTTCTTCCAATCTATATTCCTCCTTCATTTTAATATTAAAGAGTGGGTCGCCCCACTCTTCTTTCAAAGATTATATTTATATAACAATAATAGCATATTTTTATTTAAAAAGCAAGAATTTTAGTAATATACTCACATTTTTATTTAATTTTTAAAAAAATTATGATATAATCAAGAATATATTGTATAACGGAGGAAAAAATGGGAAGACACGGTACTATAGCAGGTCGTAAAGAAGCTCAAGATAGAAAAAGAGCATCTGCATTTACAAAATATGTCAGATTAATAACAGTTGCAGCTAGAGAAGGTGCAGATCCAGATTATAATGTGGCACTAAAACATGCAATCGAAAAAGCTAAAAGCATTAATATGCCTAATGATAATATACAAAGAGCTATAAAAAAAGGTTCTGGTGCTGATGGAGGTGCTGGTTATGAAAGCTTAAATTATGAAGGATATGGACCTGGTGGGGTTGCCTTAATAGTTGAAATACTTACAGATAACAGAAATAGAACAGCCTCAAGTGTTAAATCTTCTTTTGACAAAAATGGTGGAAATCTTGGAACTCCTGGATGTGTATCATATATGTTTGAAAGAAAAGGAGAAATTATCATAGAAAAAACAGCTGACTCAAATGAAGATGAACTTATGATGATAGCTTTAGATTCTGGAATGGATGATATGAAAGTTTACGATGATAGCTTCTATATTACTACTCCTACAGATACTTTTGATAATGTTTTAAATAGTATTAAAGAAGCAAAATATTCTATAGTTGAAGCTGACATTTCTTATGTACCTTCTATAGAAGTTGAAACTTTATCGCCTGAAGATTTAGAAAAATTAAATAAATTAATAGATGTATTAGAAGATAATGATGATGTACAAAAGGTTCATCATAATTATACTGGAGAATAAGAAAATGCACCCCAATTCTTGAACACAAGAAATGGCGGTGCATTATTTTTATAATAAATGTCTATATCTTTCTCTTAATCTTAAAACTCTTTCTGTTTTAAATTTACCCATACCTTTTATACTACATATTTCATCATAATCTGCATTTAGTAAATTACTTAAACTTTTAAAATGCTCTACAAGATTTTCTACATCTTTTTTAGTTAATTTATTTGCAGTATTAAGTATTCTATATCCTTTAGGAAATAGGTTTTCATCAACAAGATCTTGTTTTAAATCATATCCTAAAAGTTTAGCAAGCTTAGAATCATCTCTAATATCATCTTTAGATAATTCTAATAAATCAGCAAATATTTTTTCTGCATTTCTATTTTTTCTACTGTAATCTTTAATGAAATCCATTAAGGTATTTTTTTGATTTGCCATTATTTCATTATGTTGTAATTCAACTAAACGACCTTCTGTTCCAAGCTCCATTATATATTGTCTAACTTCTTTATCCATAGTAAACATCAAATAAAAATATCTTAATCCAGAAATAACTTCTTCAAGTAATACTGTATTTTCAAATTCAGATATAGTTAAATTCACTAAATACTTATTAACAGAAACAGCATATTTTTCAAGGGACATTATAGCCTGTGATGATTTAATCAATAAATCTCCTATTAACTCTAATGTACGCTTAAACTGATCTTTTGATACAGTAATTCTTTTTCTTCTCTCAGAAATAGTTATAACAATATTTCCAGTAAGTTTTGCAATTCTATCAGCCGTTCTATGTCTTGTTCCACTTTCAGTAGTTTCTATATTTTTATCAGGTTGTAATTGTATATTAGCTCCATGAATTATTTTTAAATCTTCAGAAATTAATATTGCACCATCCATTTTAGCAAGTTCATATACTTTTTGAGGAGTAAAGGTTGTTTCTAGTTTAAATCCTCCATCTATGTATTCTTTCATATCTTCAAGTGAACCTAATATTATCAAGCCACCTAATGAAGCTTCTTGTATTTTTTCAATAGCAGATCTTAGAGGTTGACCTGGTGCCATTATTTTAAATATTTGTTCATATACTTTTTCTTCTTTATTTATCATAGATTATCACAACCTTTCTACCAATTCACTAATATTATTAATATAGCTTAATTTTAATTCAGTTTCAAAACTTTCAAGCTCTGGTTGATGAGCTTTAGGAAGATATACTCCTTTAAAGCCTAATTTTTCTAATTCCCTTATTCTTTTTTTAATAAAAGAAATTTTCCTTATTTCACCTCTTAATCCTATTTCACCTATAGCAGCAATTTTTTGACTAATTTGTAAATTTTTTATAGTCGAAATAAAAGATAAAATAATAGCTAGATCTGCTGCTTGATCTTTAAGTTGTATTCCTCCAGGTATATTTAAATAAATATCATTGTTACCTAAATCTATAGATAAGGTTTTAGATAATACTGCAAGTAATATTTCTATTCTATTTCTATCATAACCTTCTATAATTCTTTTAGGTAATCCAAATTTAAGAGGAAGTGCCAAGGTCTGTATTTCAAATAATATAACTCTTGACCCCTCTATTGATGTTGTGATAATACTTCCAACATTTTTTTCATCTCTTTCAGATATGAAAAATTCAGAAGGATTTTTTATTTCTTCAATACCATCTTCTTTCATATCAAAAATTGATATTTCATTAGTAGAACCATATCTATTTTTTATACTTCTTATTATTCTATAATAATTATTTTCATCTCCTTCAAAAGAAAGAACTGCATCTACCATATGTTCTAATAATTTTGGTCCTGCTAATTTCCCATCTTTAGTTACATGTCCAACTATATAAAAAGAGATATCATTAGTTTTAGCTATATCTATTAATCTTAAAGAACAATCTCTTATTTGAGATACTGAACCTGGCAGTGAAGATACTGTTTCTGAGTATATAGTTTGAACAGAATCTATTATTACAACCTTAGGTTTTGAATTATTAATTGCAACTTCAATATTTTCTAAATTAGTTTCACTTAATAGGAAGATTGATTTAGAATTAACTCCTATTCTCATAGCTCTTTCTTTAATTTGTTTAGTTGATTCTTCTCCTGATATATACAAGACTTTATTACTTTTAGCATATTCATTAGATAATTGTAATAAAAAAGTAGATTTCCCTATTCCTGGATTACCTGTAATTAATACAACTTCTCCTTGTGTTAATCCTCCACCAAGAACTCTATCAAATTCTGTAAATTTAGTCTTTATTCTAAATTCTTTTTCAAATTTAACTTCATTTATACTTGTCAAATCAACAGTTTTATTTGATTTTATTTTAGACATTTTTAATTCTAATTCTTCTTCTATAGTTCCCCAACTCTCACAAGATGGACATTTTCCAATCCATTTTAAAGTTGTATTACCACATTCAGTACAAACATATCTTACTTTTTTATTTGCCATTTTTTATCATATTTACCTTTTCATTAATATCTGAAATAATAGCATTTGGTAAAAATCCAGTTAATTTTCCACCATTTAATGCAATTTCTTTTACTATACTAGAACTTAAATAAAGATATTCCCTAGAAGCCGTTAAAAATATTGTTTCAAAAGGTTTAGATGTAAGAGCTTCATTTGTTAATGTAACTTGAAGTTCATATTCATAATCTGAAACTGCCCTTAGACCTCTAACCAAAATATCAATATTTTCATTTTTTATATATTCAACTAAGAGTCCAGAACATTTAACAACCTTAGTATTATTAATATTTTCTTCCTTTAAAACTTTTTCTATTAATTTTACTCTTTCATCTATACTAAACCATTCTTTTTTAGATGAATTTATAAATACACCTATTATTAATTCATCAAATAATTTAGCACTTCTTTTTATAATATCTAAATGACCTTTAGTAATAGGATCAAAACTTCCTGGATAAATAACCTTAATATTCATCTAATGCTCCTTATTTAATTTCTCTATAGCCTGTTTTGCTGCAATTTTTTCTGCCATTTTCTTACTTTTTGCTACACCTTTACCATATAATCTTTCTTCAACTCTTACTTCTATTTCAAAAGTTTTATCATGATCTGGTCCTATCTCACTTAATACAGTATAAATAGGTGTTACCTTATATTTTAATTGTGTAATTTCTTGCAATGCTGACTTATAATCTGAAACCCATTCTATCTTATCTAAATTATTGATTTTAGATTCTAGTAATTTAAGTACAACATCTCTTGTTGTAGCATAATCTGAATCAAGATATATAGCTCCTACCATAGCTTCAAATACATCACCTAACACTGAATTTCTTTCTCTTCCACCTGACATATTTTCACCATTACTCAAAAAAATATAATTTCCTAAATTTAAATCTCTTGAAATAGTTGAAAATACTGTTTCACTAATAATTTGACTTTTTATTTTAGATAATTCTCCTTCATTACTTTTTAAATTATTTTTGTATATATACTCTGTTGTAATTAAATCCATAACAGAATCACCTAAAAATTCTAATCTTTCATTATCCTTAATATTAGGAAAATTATGTTCATTTACATATGAACTATGAGTTAAGGCTTCTAAAAGTAGCTTTTTGTTTTTAAAAGTATAATTTATTTTGGACATTAATTTTTCTAAATCCATTTTTTTCATATTATTTTACTCTTTTCTCCTCAACAATTTTAATTAAATCATTTACTGTTTTTATTTCTTTTATTTCTTCTTTTGTAACTTCAAATCCATATTTTTCTTCTATAGTCGAGGCTAATTCAATTAAATCTAATGAATCTGCACCGAAATCTTCAACTATTTTAGAATCAATCCTTATATTTTCACTTTCTATATCTAATTGATCTAATATTATTTCTTTAATTTCTTCAAACATACCTTTTTCCTTTCAAGTTTAATACTTTATTATATCATATTTTTACACTACATACAATCATTTAAAATTTTTAAGATATCTTCAAAATTACTTGCAAAATATGTAGGTTTAACATTAGAATTATTTTCTTTTTTCATATAATTAAACCATATAGAATCAATACCATAATTATTTGCACCCAAAATATCTGCACTTAAACTATCACCTATCATTAAGACTTCTTTTTTATTAAATCCTAAATCCTTTTCTATACTTTCAAAAAAATTTTTAGAAGGTTTACTACTTCCTATTTCTTGAGAAATATATACTTTTTTAATATATTTTTTAATTTTTGAGTTATTTAACCTATTATTTTGTATTTCTTTTAAACCATTTGTTGCAGCATATATTTCATATTTTTTATATATTTTTTCTAAAAAATTACTTGCTCCTTTAATTTCTATGCCTTGTTTTCCAATTATTTTAGAATATTTTTCAGACATTTCTTTTCCATCTTTTTTTATTCCAAAACGATTAAAAACTAGAGAAAATCTAGTGTTAATTAATTCTTCACTACTAATTAAATTTTTTTCTAATTTTTCCCATAATTTCTTATTCTCCATTTTATATATTTCTTTAAATTCCTCTATATTATCCACTCCCTCTTCAATCAAAAATTCATTTAATGCATTTTCTTCAGATTGATTAAAATCTAATAATGTATTATCTAAATCAAATAATAGTATTTTATACATTTTTCTCCTTTACTTTAAAAACACTCTCAATCGAAATTAAGAGTGTCATTTTATTATTGTGTTGTTTTTGCAATTTCATATAATTTTTCATATTCTCTTGCAGATCTGTCCCAAGAGTTATTAATCAACATATTTCTTTTTACAAGTTTATTCCAAACATCTTTTTTATCATAATATATATGTTCTGCATATCTTATTGTATTTAACATATCATCTGCATTGAAATTTGCAAACGAAAATCCATTACCTTCATCATTATATTCATTATATGCTATAACTGTATCTCTAAGTCCTCCTGTTTCTCTAACTAGAGGTATAGTTCCATATCTCATAGCTATCATTTGCGATAGACCACATGGTTCATATCTTGAAGGCATTAGGAACATATCAGCTCCAGCGTATAATAAATCAGCTATTTCTTCAGAATATCCTATATATGCTTTAAATTTTTCAGGATATTTATATTCAAGATATTTATAATAGTCTTCATAATATTTTGAACCTGAACCAAGTATTACAAATTGAACTGCATCATGTTTTAATATCTCTTCTATTCTTGAAGATAATAAATCTAATCCTTTTCCTTCAACTAACCTTGAAATCAATATGATAAATAAAGTGTCATCTTGTTTAAAATCAAATATTTCTTGAATTTTTCTTTTATTTAATAGTTTTTTATCTAGGTTTTCAACATCAAAATTAGTAATTTTATTATTAGTCATAGGATTATATATTTCATAATCTATTCCATTTAAAATTCCATATATTTGTTTATATGATGTTAACCATTCTAATCCTTCAGCAAAATACGGGTATTTTATTTCTTCAGCATAGCTAGGACTTACAGTATTAATAATATCTGCAAAAGATATTCCTATTTCCATGAAATTTAAAAAACTACTTTCTCTCTTATATCCCAATTTATCAAATGAATAGTCATTAAATCTTCCTTGATACATTAAATTATGTATAGTAAAGACTACTCTCATATCCCAATAATATGGATCATGTTTATATCTATTCTTTAAAAAATATGGTAAAGGTCCAGTCTGCCAATCATTACAATGTATAATGTCTACTTGTAATCCTATATTTTTTAAAAAAATTAATGTAGCTTCACAAAAAAGTGCGTATTGATAATCTTCATCTAAATCACCATATACTCTTCCTCTTTCATAAAAATTTCTATTTTCTATAAAATAATAGTTAATCTTCTCTTCCCCATTATATTTAACTAAATTAAATATTTCTCCATTTATCTCAGTAGTACTTACAAAATCCATTTTTTCTAAATATTTTAAAGGAATTTTATCATATTTAGGCATAATAACTGTAACATTATGTCCCAATTTTTCCATTTTTTTAGGCAATGCTTGTAATACATCTGCAAGACCACCTGTTTTAAAAAAAGGATATACTTCTGATGATACATATACGATTTTCATATAACTCCTATTCTTTATTTCTTAATAGTTTCTCCACTATGTATATAATTACCTTCATTTAACATATGAACTTTCGAAAAAATTCTAACATTTCTTTCAACTATTGTACTATTTCCTAATTTAGAATTTTTTCCTATTACACTAATTCCCTTAGATAATAAATCTGGTTTTTCAATATTTGCAGTATAATCATCACCATGTCCTATTAATGAATTTTTACCTATATAAACATTTTTATCTAATATAACTGTGTCTAAATGTGTATTTTCATCTATGTATGTATTAGAAAATATGATACTATTTCTAACTGTAGCTCCCTTTCTAATAGTAACTCCTGGTCCTAAAACTGAATTTTCAACTCTACCTTCAATTTTACATCCATTACAAATAAGTGAATTTAATACACTTCCTGTAACACCTATTCTTACAGGTGCCATATCCTCACTTCTTGTATAAATCTTCCAATTAGGATCATATAGATTTATACCTATTTCTTCAGATTTTTTAATTAAATCTAAATTTGCTTCTAAATATGAATCGTATGTTCCTACATCCATCCAATAAGAATCATAGTAATGTACGAATACTCCTCTTTGATCTTCTATTAGTTTAGGTATTATATGTTTACCGAAATCTAAATCAGGTATATTACTTTCTTCAATATATTTAACTAAAGTTTCAGTATTAAATATATAAATACCCATTGAAGCAAAATTACTCTTAGGATGCTCTGGTTTTTCTTCAAAACTTAATATTTTACGATTTTCATCTACTTCAAAGATACCAAATCTTGAAGCTTCTTCATAAGGGACATTAATTGCAGCTATAGTTAATTCTGCATTATTTTTTTTGTGTTCTTCTAACATCCATAAATAATTCATCTTATATATGTGATCTCCTGATAAAATTAAAACATATTTAGGTGCTTTATTTTTAATAAATGCTAAATTTTGTCTTATTGCATCAGCAGTTCCCTCATACCACGATTGACCCTTTAAAGTTTCATGTGGTTGTAATAATGTAATGCTAGAATCTCTCCTATCAAAATCCCATGGTTTACCTGAACCTATATGCTCATTTAATGATAAAGGTAAATATTGTGTTAACAAAGCAACATCATATATGCCCGAATTAGAACAATTACTTAGTGTAAAATCTATTATTCTAAATTTACCAGCAAATGGAACACTTGGTTTAACTCTTTCTTCTGAAAGAATATCCAGCCTAGATCCACGTCCACCAGCTAAAATCATTGCCAATACTTCCATAACTTTCACATCCTTTATTTATATATATTAAATTATAGCTTAAATTAACGAAAAGTCAAATTATATTATATTTATTTTAAAAATTTAGAAATATAAAAAGGGTATTTTACACAACAATTTGTGTTTTTACCCTTTTAAATACTAATTATTTACTATTTCACCATATAAGGTCCAAGTTTTACATTCATTTATTTTTACATTAACAAAACGACCTCTGTATAATTTAGCATCACCGCTAAATAATACTACCTTATTAGTTGAAGTTCTACCTGTAAGAATTTCTTTATTCTTTTTACTAGGTCCTTCAACTAAAACTCTCATTACTTTTCCAAGATATTTTACACTTTCTTTATATGCACGTCTATCTTGTAAATTATTTAATTTTTGTAATCTTTCTTTTTTTATTTCTTCTGAAACTTGTTCATCCATAATAGCTGCTCTAGTTCCTCTTCTAATTGAATACATAAAAATATATGCATTTTCAAATCCTACTTTTTCTACTACATCTAATGTATCTTTAAAATCTTCATCAGTTTCTCCAGGGAATCCTACTATAATATCTGTAGTTAAAGAAGCTTCTGGTATTCTTTCTTTTATTTTATAAGCTAGGTCTAAAAATTGTTCTTTAGTATATCCTCTTATCATTTTTTTAAGTATTTTAGTTGAACCTGATTGTAAAGGCATATGTATACATCTTGCTATTTTTTCGTTTCTTGCTATTACATCTATAACATCATCTGTAAAGTCTTTCGGATGAGGTGATGTAAATCTTAATATGTAATCTCCTTCTATTTTACAGATTTCATCAAGTAATTTTGCAAAAGTATCTCCATTTTTAAATTTCTTGCCATATGCATTAACATTTTGTCCAAGTAATACTATTTCTTTAGCACCTTTTTTTAAATAATGTCTAACATCAGATAAAATATCTTCCATAGGAACTGATCTTTCTTTACCTCTTACATAAGGAACTATACAAAAACTACAACGCTTATCACAACCATAGCTTATTGATATTGAAGCAGTTTTATCACTTCCAAAATCAGCATCTAATCTTGGTGGTAATTCATCTTCATTGTCTGTATATACTTCATGTTCACTTTCATGTTTTAAAATTTTTTCAATGGCATCAGGTATACGACCTATATTTTGATTTCCCATTACTATGTCTATCATAGGGAATTTTTTTATAAGCTCAAATCCTGCCTCTTGAGCAAAACATCCTGTAATTCCTATTACTGTCCCTTTATTTTTCTTTAATTCTATCAATTCACCAAGTTTACCAAATATTTGTGTAGCTGCACCTTCTCTTACTGTACATGTATTTAAAAATACTGCATCACAATCATCAATTTCATCTACTACTTGATATCCCATGTTTTGAAATATTTTTTTAATTTTGGCACTTTCATTTACATTCATCTGACAACCATATGTAATCACCGTTGCTTTTTTCATAAAATCAACTCCTAATCTTTATTGCAATACCATAATGTTAGTCCTATAACTATTCCACCACCAATAAAATTACCTATAGTAACAAATATGAAATTATATGTTACATTTAAAATTGTAATCCCTTCTAAACCATGCATTAAAGCTAAGGGTAAATAAAGCATATTTGCTACAACGTGATCATAACCTAAAATTATAAATAACATTATTGGAAACCAAATACCAAATAATTTTGATATTCCATCTTTTGCAATATATCCAAGTAAACTAGCTCCACAAACTAATACATTACACAAAATACCTTTTAATATTAAATCATATGCATTTGCATGTACTTTATGTGCAGATAAATTAGATAAAAAGGTAATACCTGCATTACTTAAAGTATGTGTTTCATATGAAATATATGCTATTATTATTGAACCTATTAGATTGAAAATCCAAACTATAGATAATATTTTAAGCATTTTTAATATACTTATCTTATTTTCTACATAACCTAAAGTCATCATACAATTACTTGTGAATAATTCTAAGCCAAGAAGTACTATCATAATTAATCCTACAGGGAATACAGATGCTCCAAAAAATTTTGCAATACCAGCATTTGTTTCAATTAAATTTGCCACTGTAATTATATTACCAACTGATCCAAATGCAATAAACATTCCTCCTAACATTGACAATAAAGCAAGTTTAGTAAATGGCTTTTTCATTCTCTTTTCTGTAGCATGTACAACATATTCCATTAATTCTTTTTGTGTCTTTAACATAGTATTGATAATATGATTTACATCATATTCTCCTTTCTTTTTATTCAAAATAAATATATCACAAAAGAAAATAAAATTCAACAATATATATCATATTGTAAAAAACATCAATAAAAATATTGATGCTTTTAATTAATATATAATACGACAGGGCAATGATCTGAGCCTTCAACTTTATCATGAATCTCTGCATCAACTAATCTGTCTTTTAATGAACTTGAAACACAGAAATAATCTATTCTCCACCCTGTGTTATTTTTTCTTGCATTACCTCTATAAGACCACCAAGAATATGCATGTATTTTATCTGGATAAAAATATCTGAAAGTGTCTATAAATCCATTTTCAATAAGTTCTGTAAACTTATTTCTTTCCTCTATTGTAAATCCTGCACTTCTAGTATTACTTTTAGGATTTTTTAAATCTATTTCTTTATGTGCTACATTTAAATCTCCACAAACTATAACTGGTTTTTTTTCTTCTAATTTTTTTAAATAACTTCTAAATTCATCTTCCCATATCATACGATAATCTAATCTTTCTAGCTCATTTTTAGAATTTGGAGTATAAACTGTAACAAAATAGTAATCTTCAAATTCTGCTGTAATAACTCTACCTTCTTTATCATGTTCTTCAATTCCTATACCATAACTAACAGATATAGGTTCTACATCAGTAAATATCGCAGTTCCAGAATATCCTTTTTTTTCAGCATAGTTATAATATGTATAATAACCTTCTAATTCTAAATCTAATTGACCTTCACTCATTTTTATTTCTTGTAAACCAATTATATTTGGCTTTTGTTCGTTAAAATAGTCTAAAAATCCTTTTTTTATACAAGCCCTTAAACCATTAACATTCCATGAAATATATTTTTTCATTTTTCACCTCTTTAAATTATATGTATAATTATACTTTATTTATAGAAATATATCAAATAAAAATAAAAGGACTAACTCCTGCATTATATAGAAATCAATCCTCAGATATAATTTAAATTAATTATTTTATATATTTTACATCTTCATTATATATAAATCCTAATTCTTTACTTTCTTTTTGAATTTTTATTACATTTGACATCGCCATTAATTCTGATTTAATAGAATCTATTTCTTTTTCTACTCTTTCTATTCCTTTTATATTTGCATAATTTTCACGAGCTATATTAGTTAAATTAAATTCTGTAACTATACTGACTAAAGCTACAGCTATTAATGGTAACATAAATAAAGTTAGCTTAAAAAATGCTACCTTTTCTAAATTAGCTCTTAATTTTCTTATTCTTCTTAAATTTATTATACCTTCACTTCTTCTTAAAGTTCTTTCTCTTCTCATTATTTATCTCCTTTAATAAACACTCTTAATTTTGCCGAATGAGCCCTGTTATTTGCTTCTAATTCTTTTTCTTTTGAAACTATAGGCTTTCTTGTTAATACTTTACCCTTTGATTTATTTCCACATTTACATATAGGTAAATCATATGGACATGTACAAGGATTTTCATATTTTCTAAATTTTTCTTTTACAATTCTATCTTCTAAAGAATGAAATGTAATTACTAATAATCTCCCACCTGGATTTAATAATTCAATAGATTTATCCAATGCTTTTTCAAGCACTTCTAATTCTCTATTTACATATATTCTTATTGCTTGAAATGTTCTTTTTGCAGGATGTTTTTTCATACTTTTACCTATTGCTTTTATAACTATATCGGCAAGTTCTATTGTTGTTTCTATACTTTTATTTTTTCTATATTCTACTATATATTTAGCTATTCTTCTTGATTTTGGTTCTTCTCCATATTTATATAATATATCAGCTATTTCTTCTTCTTTATAATTATTTATTACTTCATATGCACTAAGCTTTTGACTTTCATCCATACGCATATCAAGTTTTGCTTCTTTTCTATAAGAAAATCCTCTTTTATCATCATCTAATTGTTTTGAAGACACTCCTATATCCATTAATATTCTATCAACCTTATCAAAGCCTGCTAAATAAGCTACTATATCAAGATTTTCAAAGTTATTCTTAAATATACTGACCTTATTTCCAAATTTTTTTAATCTTTCACTTGCATATTTAATTGCATTCTCATCTTGGTCTATAGCGATAAGTTTTGAATTATCAGTAGAATTTGATAAAATACCTTCACTATGTCCTCCTCCACCAAGTGTGCAATCCATATATATTAAATCTTTCTTATCTATGATATTTTCTAAAACTTCATCGTATAGTACTGGCAAATGATATTCCATTTTATACCGTTCCTTTCTTAGAAGTCTATATCTATTTCTTCCATTATTTCGTTTATATCTTCATCTTCTCTATAAATATCTAATTTTTCGCTATCCCATATTTCTATTTTATTTCCCATACCTATTACTGTGGCTTTTTTTGATAATTCGGCATATTTTTTTAAAGTTGATGTAACTGTAAGTCTTCCATGGCTATCTAGTTCTATTTCTTGTGCAGATCCTATAATAAATCTTTTAAACTTAGTCGCTTTTTCATCTGTTTGTCTAACTTTAGATAATTTTTGTACAATCTCTTCCCAATTTTCAAGATTATATAAATCAATTTGTCCATTTACACCTTTAGTGATATAAAAATTTTCTTCATTTAATAATTCTCTAAATTTAGCAGGCAACATTAAACGACCTTTAGTATCAACACTACAACTATATTCACCAATAAACATACCTTACACCTCCTTTTTCAAAAAGTTACCACTTTCAACCACTTTTTACCACCTTTTACTAGTTTATACCACAAAAAACACTTAAAGTCAATATTTTTACTACTTCTTTTGTGTTTTTAAGAAAAAAATGTAAAATTTATATAATAATTTTTTTATTTGTATTAAAAAAAGCCCTATAAATCTAATGTTTATAGGACTTTTATGTCTTAAATATTTTAAAAAATGTAATTTCTTGGTAAACAAGGTTTAATATCCCATATATTTTCTGCATAATCTAATATAGTTCTATCTGAACTAAATTTACCAGCATTTGATATATTTAATAATGATTTTCTTAACCAAGTTTTTTGATCTTTATAATCTTTACTTATTTTTTCTTGTGCTTTTCTATAATCTGCAAAATCTTTTAACACAAAATACACATCTGGTCTATTACCTTCTACACCATTTAACAATGAATTGTATATTTCTCTAAATATTCCTGTATGAGAATCATCATATGTCCCATCAATTAATTGTTCTACTACTTTCTTAAGACCTTCTACTATCTCATAATCAACTCTTGGATCATATTTACCATAACCTTCAAGTCTTAATACTTCATCTGCTTTTAATCCAAATATATATGCATTTTCCATTCCAACTTCTTCAACTATTTCCACATTAGCACCATCTAATGTTCCTAAAGTTAATGCACCATTTAACATAAATTTCATATTACCTGTACCAGAAGCTTCTTTACCTGCTGTTGATATTTGTTCTGAAATATCAGCTGCTGGGAATATTTTTTCAGCAAGTGATACTCTATAATTTTCTAAGAATACAACTTTAATTTTATTATTAATACTTGTATCATTATTAATTATTTCAGCAACAGTATTAATTAATTTAATAATCCCCTTAGCTCTTCTATATCCAGGTGCTGCTTTTGCTCCGAATATGAATGTACGAGGTGTTACATCTAATAATGGATTTTCTTTTAATTTATTGTATAGATCCATAATATGTAAAATATTTAATAATTGACGCTTATATTCATGTAATCTCTTAACTTGTATATCAAAGATTGAATTAACATCTACTTCTATACCTGTTGTATCTTTAATATATTTAGCTAATTTAACCTTATTTTCTCTCTTAATATCAGATAATTTATTTAATACATTATCATCATCTAAATATTTTTCTAATTTTTTTAACTCTTTTAAATCAACTATCCATTTATCTCCAATTAATTCAGTAATTAATGAAGCAAGTTGTGGATTTGAATTTAATAACCATCTTCTTTGCGTAACTCCATTTGTCTTATTTTGGAATTTTTCTGGATAAAGTTCATACCAATCTTTTAATTCTTGATTTTTTAATATTTCTGTATGTAACTGAGCAACACCGTTTACAGCATGAGAACCAACTATTGCAAGCCATGCCATTTTAACTTTGTCATCTCCTATTATACTCATTCTCTTAATTTTTTCATAATCTCCATTAACTTTTTGAGAAAGTTCTATTAAAAATCTTCTATTAATTTCTTCAATTATTTGATAAATTCTTGGTAATAATGGTCTAAATATATCTATTTCCCATTTTTCTAAAGCTTCTGATAAAATTGTATGATTAGTATATGCAAATACTTTCTTACAAATTTCCCATGCCTCATCCCAACTTAATTTTTCTTGATCAAGTAATATTCTCATTAATTCTGGAATAGCTACAACTGGATGAGTATCATTTAATTGTATCGCAACCTTTTCTGGTAATATTGCAAAATTATTTCCAAATGTAGCTTTATGTCTTCTTATAATATCTTGTAATGAAGCAGAAGTAAAGAAGAATTGTTGTTTAAGTCTTAAAATTTTACCTTCTCTTTCTGTATCATTTGGATATAGTACTCTTGAAATATCTTTAGCTCTAACTTCTTTTTCAGAGGCTAAGATATAGTTTTGAGAATTAAATAATTTTAAATCAAATCCTTCAGGTGATCTTGCTTCCCATAATCTTAAAGTATTAATTACATTATTTCCATAACCTATTACTGGAACATCATATGCAACAGCTAGTACATTTTCTGTATTTACTCTCTTAAAGTATTCTTTTCCTACTTCATCTTTATGAATTTCTATATCTCCACCAAATTTAACTTCAAATACTCTATCTATTCTTTTTACAGACCAAGGTGTTCCATATTGTTGCCAATTATCTGGATATTCAACTTGAAATCCATTTTCTATTTTTTGTTCAAACATACCATATTTATATCTTAATCCATATCCATGACCTGGTAACCCTAAAGTAGCAAGTGAATCTAAAAAGCAAGCTGCAAGTCTTCCTAATCCACCATTTCCAAGCCCAGCATCCATTTCATAATCTTCTAATTTATTAATATCAACACCTAATTCTTCTAATACTTCTTTCATAACCTCATTATATCTTAAGTTAATCAAGTTATTACTCATATATCTTCCCATTAAAAATTCTGCTGATAAATAATACATTTGTTTAACTTGATCTTGTTGTCTAGTTTTTTTAGTATTATACCAATGTTCTGTTATTTCATCCATAGTTGCTCTAGCAACTGCATAATATATCTCATATTCTTTTGCATCATCTAAAGTTTTACTATACTGTCTTCTTAAAGATAAAAGAATTTTATCTTTCAATATCTTTTTATCCATGATTTCCTCCACTAATAATATATTTCCATTTTATAATATTTGCCTTGATTTGTCAACCATTAAACCGTTTGCATAAAGTTTCGAAAAACATATAGAAAGTATACACTTTGACTTATGTGTAAAACTTAATGATAATGCTTTTACTACCATTTATATTCAAGTCCTGTCTTTATATTAAATTTAACTTCTTTAAAATCCTTATTTTTAAAATACATAGGTAATTCAGCACTTATTCTTGCTTTTAAATTATGAATTAACTTATATGTCATTTTAATTTCTGGAATTATTGCACTATCAAATGAGAAATGTCTACTTCCATATAACTTAATGTTTTTTAATATTATTTTATTTGTAGACTCATATCTCCCATTTAACTTATATCTCATTCCAAGTGATACATTTATATTTTCAGTTGGATTAAGGCTATATCCTAAATATGTATCAAGATTTATATTAATTCTTCTTGCATGTAAAAAGATATTTTCCTCTACAATTCTACTTTCTTCTATTTTATATGGTATAGCAAGAATTTCTCTTAATTCAATTTCTGTTATTTTTCTATATGATGTTGCAAAAGGATTCTTATGTGTAATATATATATCATGATATTTTGCTCCTTTATACTTAGAAAATGCTTCTAAGGAAGCTAAAAGCGATTTTTCATTAATTGCTACTTCATTTCCAATACCATTTTGAATATCAGTATCATTTATAAATTTTTTTGTACTCTCAATAGATATTACCTTTGATTTTGTTTCCACTCTTTTTATTTCTTCTTTTATATCCTTTAGTTTTGTTTCATTATATCCTAATGCTATATTTAAATTAAAATTAATACCTTTTTCTTGTCCATATTCTGCTTCTATATCAATATCATATTTTTCATGTTCTAAGCTTTTGGTTTCATTTTTATTTACTGTTTTTTCTTCTTTTTTAACATCACCAAAGTAATTGTATGAATTATTAAAACTATACCAAGCATAATCTTGATAACTCCATGCAAAATAGTTATTTTTAGTTTTAACTTCACTATTAATTTCTTTCTTTTCAACAACATTCATTATTTTAATACTATCTGCTTTGATATTTAATCTAAAATTACCTTCTTCTTTCTTAATATCAACAAATGGTGTAATTATATATTCTAATTTATCATTAAATGATATATCAGATAAAGCAGCTTTAACCTTATTATATTCATTATCATTTCTATAACTAAGTATTTTTAAAATATTAGGCTTTAATTCATCTTCAATAATATTTTTTTTAGATTTAAATATGTATTTAAAACCAACTATAGTTGAAAATTCAGTTCCTTTTGAATACTCTAGTCCAAATCTTGTAGATATGTCAGTGTCATCTTTAGATATTATAAGTCTTGGTTTAATAGGTAAATTAACCATTAATGGATTTAATGAAAAATTAAAATCAATATTTTTATCATTCCCCTTTATATCCCCTCTTAAGAAAGAAATATCTGCCATAGCTTTATATGAAAAATAATAGCCTGGTTCATTACCTAAAATAGCTCCACCTTCTACATATCCAGAACTTTTAAATTTAATAGGATTTTTAGTAGTAAATAACATGTCTTTATAGCTATCATCTATTAAATATTTAATTTCTCCTGAATACATTCCTTTTATTCCTGCTGGTGAGAAATTTCTAAATCCTACTGGCAATTCTAAATGACTAGAAAATATTATATTCTCATATGTTCTATAAATAACAGTTAATCTTGGTGATATGATATTATACATTTCATACAAGGCTTTTACTGATTTACTTTCAACCGTTTTTATATAATCTGATTGATGTATATCTCTTTTTAACTTCTCTTTTTTATTATCTTTTTTAATTCTTTCATATTCTTTATCAACTAGATTTTTCTCTGTAGTTTCAGAAACTATTATAGTTTTATCATCTTTACCTATAGGATTATAGTATTCATATCTTTTAGCAATATTCCATGTTATTTCTTTACCATCTTTCATAGCAGATTTAGGATTAATCCAACCATATTGTCCAATATGTCTTAACCCTAATAGTAAATTAAGTTTTTTTGTTGCTGGTATATTAAATCCAAAATATGTATCTGTATTTAAACTAATAGTATCATAAACATATTTTAATTTATTATCCTTTTTAGATAAATCATTTTCTGAAAATTCTAATTTTATTTTACTACTAAGATCTAAAACTCCTTTTTTATACATTGAATCTATAGTTAAATTATGAGATTTTTTAGTATAAGAATATTTTTTAGAATCAACATTAACACTGTCATTTAATAATACAGATATGCCTAGTTTATTATTTCTATTAATATATCCTAAATTTATTCTAATTTTTGGTGTATATTTTGCAATATTATCATTTAAATCAACATCAGAGAAATATTCTTTTAAATTTTCTTCATATTCTAATACATTTTTCCCTTTTTCACTCTGATGTAGGTATAATCCCCTTAATATATCTAAACTCTTAATCTCATAAGGATCTTTGATTGCCTTTTGTATTAATTTTAATTCACCATGTACAGTTAAACTAATTGGCGAACCAACAAATGTATCTTTTATAAAATCCCAAGCACCAAGTTTTGAAATAGATTTAATTTTTTCAAGTTCAAGTTCTCTATATAATCCTGATATCAAATAATCTCTAATATCATTATCAAAAGTATGAAATTTTTCTACTAATTCAAAATAATCTTGATCTTGAGGATTAGGTAGAGCTGAACTTCTAAATTGAGGTTGAATGCTAGCTCTAGCTTCAGCTTTAGGAATTTGAACTCTTTTTATACCTGTATATAGATAATCTGGATTTAAATCATCAAAATTTATTTTAGAATAATCAAAATAATCATAAAATTCTGGCAAAAGATATCTAAAATCTTCTGGAGTTTGACTCCAAATACCTACACTTGAATATTTTCTATCAATCCCTATTCCTGATTTCCTATATATATTCTTAACTATTTTTTTCATTATATTATTTATCTGATTTTTATTTTCTAATTCATACATTACTTTTTTATACCTTAATGCATTTAAAATAAAATCGGCTACAAATGGTCTTCTATCATTTTCAAAAGATTTTATTATATCAGAAATTTCATCAAAATATGGATTAGCATGTATTTCATCAAATACACTTTTAGCAACATATCTAATTAATGAATCTCCATAAAGAGAACCTGAATGATATCCAAGTATTCTTATTGTACCCTTCTTACCTGATACTTCAGCATTTGATAAATTTACACTATCACCATCATATTTACTTGCCTCAATAAAAGAATCAGTATCTTTAAAATATTCTTTTAATGTCCATCTTTTAAAATATTCTACTTTATCATAACCAGGTGCAGTATGCTTTATTTTATCTAATTCATTATTTATATCATATGATGATTTACTATTATTAAATAAAACAGAAACATCAGAGTAAATATTTCCGTTTGCATATCTAATAGTAGGACCATAATCAAAGTTTTTATCTTGACCATAAAGATCAAATGAAATAGAAACTTTACTATCAGGAATGGGATTAACACTAAAATTATAATCTATCACCTTATTTTTTAAAGGTTTTTCCGTATCAATCTTATCTATATCTATTTTTTCAGAACTTTCACCTTTAACATAGTAATTTACTCTCCCATTAATATATTTATTGTCAGAAATTAATGATATTTTCAATTTTTCTATATCATTATTACCTAAAAATTTATCATATGATATATTCTTACCAATTATATCAATATTTAATCCTAAACCTAAATAATTTTCTTTTAATTTAACACCAACCCTTTTTCTAAGTTTTATGTTTTTAGATAGATATTTTATAGCTAGTTATACATCCCTAATATCCCCACGATAACTAGGTCTATAATATTCATGTATTTGTGGAATATAATTACTGTTTGCTAAATTTACATTACTAACTCTTGCACTTCTAAAATAACCTGTATTAAACTTCCTATAATCAGTATATACTCTAGGTCTAACTAGATCTATTAATGGAGGCAATAATCTCACAGTATTTTCTAAACCATCTATTCCAAATGATGTATCTATACCAAAACTAATTTCTCCTTCTATTTTACTATTTTCTTCCATTAAATATGTAATAGAGAAAAACAGAAATAAAAATAATATTTTTTTACTATTTATAACACTTTTAAAATCAAATAGCACATTATACCCTTTCGTTATATTTTAATTTATACAGATACATTATAGATTAAACAAAGTAAATTTTCAATAAAGTTAAAATATTAACAAAGTTAGATTAAATGGTCTTTTCAGACAATAAAAAAAACTACACGCCCTGATGTAGTTTTATATGTTATCATCTTTATTATTATTTTGCTTTTGAAACTTTTTCAGCGAATTTTTTACCAACTTTGAATTTTAAAACTTTTTTAGCAGGTATTTTAATTTCTTTTTGAGTTTTAGGATTAATTCCTTCTCTTTCTTTTCTTTCTTGAACTTTGAATGATCCCCAACCAACGAATTGAACATCTTCACCTTTAACTACTAAGTTTTCAACTGTTTCTAAAAAAGCATTAACTAACTCTTCTGATCTTTTTTTAGTTTCTCCTGTTAATTTAGCATATTCTTCAACAAATCCTTTTTTTGACATAAACATTTCCTCCTTATTTTATAATCAATATTATTATACACTTTTTTTTTTCTTTGTCAAGTTTAAACAAGCATAAATCTCTGATTTTATCATATTTATCTGATAATGTTGTATAAAATTGCAACAAATAAGAATAAGAAAGCGACATATTCTGTAAACTTTTCTATTCCTTCTTTTTCTTGATCTAATACATTTGCAGTTTTAGCAATACCACGACTTCTATCAGGTTGAATTAAAATTACACCTATTAAAATAATTGCTAATACTACTAATAAGATTACTAATAATGTTTTCATTATTTAATCCTCCTTATATTTGAGAACCAGCTTCTACAAGTTTAGCAAAACTTATAGGATCTAATGCTGCTCCACCAATTAATCCTCCATCAATATCATTTTGTTTCATTAATTCTAATGCATTTTCAGGTTTCATAGATCCACCATATTGTACAGTTATTTCATTTGCAATATCAGCACCATACATATCTACTAATAAGTTTCTAATAAATGCATGAACTTCTTGTGCTTGTTCAGCAGTAGCAGTTTTACCAGTTCCAATTGCCCATACTGGTTCATAAGCTAATACTACATTAAGTATCCCTTTATCACAAACATCTTTTAAACCTTCTCTTAATTGTTCTTCAACAACTTTTTCAGTTATATTAGCTTCTCTTTGTTCAAGAGTTTCACCAAAACATAAAATTGGTTTTAATCCATTATGAATAGCTGCAAGAACTTTTTCATTAATAAATTTATTACATTCTTTATAGTATTCTCTTCTTTCAGAATGCCCTACTAATACATATTCAACTCCTAAGTCTTTTAACATTAAAGGAGAAATTTCTCCAGTATATGCTCCATTATCTTTTGGGTTCATATTTTGAGCTGCTATTTTAATATTAGAATCTTTTGTTTCTCTAATAGCTGTTTCTAGGTTTGTAAATGGTGCAGCTACAACTATTTCCACATTTTTACCTTCTACTAATGGTAATAATTCTTTAAAGAATTTTTCTGTTTCAGTTCTAGTTTTATTCATTTTCCAGTTTCCTGCAACAATAATTTTTCTCATTTTTTTCCTCCAATTTTAATTCTATATGTAATAATACCACATTTTAATTAGCTTGTAAATAGCTGAAGCCCCATATTTACTTAATTAATATAAATTTCTCAATTAAATCTGCAAGTATTCCTTCATCATTACTTACCCCTACATAATCAGCCATTTCTTTTAACTCAGGTTTAGCATTACTAGGTACAACTTTAAACGCACTAGCTGAAAGTAAAGGTATATCATTATAGCTATCTCCTACACCTATTGCACTATTTTTATCAAAATTTAATATTTCTAATAATTTATGCAATGTCTTACCTTTATCTATATTTTTATTAACTACTTCTAAAAATATAGGTAATGATCTAGCAAAAAATAGTCTTTCAGAAAATTTACTTTCTTTTAGAATTTTTTCATGTTTAATTAAATTTTCTGGTTCAGAAAGTAACATACATTTAATAGAATTTCCTAAATTCATTTTTTCTATATCTTCTATTAATTTTATTTCTCCATTTGTAATATCGGCTTCAACTATTGTATATTCATTAATTTCATTTGCGAATATACTTTTTTCATCATATAGTAAGAAAGATAAATTATTTTCTTTTGCATAATTATACATCTCTAAAATTTCATTTTTTTCTATACCTAAGCTATATATTTTCTTCCAAGTTTTACAATCTATTATTTCTCCACCATTAAATGATATTATATATCCACCAAATTTATCCATCTTAAGCTCTTTAGCAAAATCAATCATAGCAAAAGTTGGTCTACCACTTGCTAAAACGAATGTATAACCATTTTCTTGTGCTTTTATAATAGATTCTATATTTTTTTCTGCAATTTCATGTTTACTATTTAAAAGTGTACCATCCATATCAGTTGCAATTAATTTTATCATATGATTTCTCCTTTTTTAATTATCTTTATATATTATATCAAAAAAATAAATATAATACTATTAAAAAAGGGATAGCCCTTACAACAATCCCTAGATTTTAAATTTTACTTTCTAAAAACTTTTTATCAAATCCTTCTATAATTAATAATTCTATTTTTTTAGATATTCCTCCAGCATAACCTGTAAGTAAACCATTAGTTGCAATTACTCTATGGCAAGGTATTAAAATAGAAATTGGATTATGCCCCAAAGCCCCTCCAACAGCCCGTGCAGAAGTCTTCATTCCATACTTTTCAAACAATATATCAGAAACTCTTTTATAGCTTATAGTTTGACCATAAGGTATAGATAACAATACTTCAGATACTTTTTTTCTAAATTCTGTACCCTCTATTGATAAAATATTAATATTAACTTTAGGATTTTCTCCTGAAAAATATTTTTTTAACCAATACCTAACTTCTTGAATAACTTCATTTTCACCAAATTCTATATTTGAAATATCATATTTTGCTCCAAAATATTTTTGATCTTCAAACCAAAGTCCCTTTAATCTTTTTTCATCTACAAGAATTAAAATTTTCCCCATAGGTGAATTATATATATTTTTTAATAACATCAATTTATCTCCTTAAAGATTAACTTTTCAATAAGTTGTGTGTTTCAATAGATATCATTAATTCTTCATTAGTTGCTATTTTAAATATACTTGTTTCTGAATCAAGTCTACTTAAATCTACATCCCCAGACTGTCTAATCTTATTTTTTTCATAATCAAGTTTCACACCTATAAACTCTAAATTTTCACATACTTTCTGTCTTGTTTCACTTGAATTTTCTCCTATACCTCCAGTAAATATTATTGCATCAACTCCTTGTAGAAGTATATAATATGAACCAATGTATTTTTGTATACTATATGCCATCATATCAAAAGCTAATTTAGCTCTTTCATCACCATTTAACATAGCTTCTGTTAATTCTCTATTATCAGAACTTTTACCAAATATTCCTAAAACTCCTGATCTCTTATTTAATTTTTGACTCATTTCTTCAACCGATAAATTATATTCATCCATAATATGTAAAACAATAGATGGATCAATATCTCCACAACGAGTTCCCATCATAAGACCTGCAAGTGGTGTAAATCCCATAGATGTATCTAAAACTTTACCATCTTTAATTGCTGTAATTGAAGCCCCATTACCTAAATGACAACTTATTATCTTATATCCCCCATAAGGTTTTTTAACACCTTTTTCAAGTAATAATTTTTCAGCAACCTTAGATACATATTTATGACTAGTACCATGAAATCCATATTTTCTAATTTTTAATTTTTCATATTCTTCATAAGGAATTGGATACATATATGATTTTGCTGGCATAGTAGAATGAAAAGCCGTATCAAATACAGCAACATTCGGTGTTTTTGGTAATAATTCTCTCATAACCTTAATTCCCATAATATTTGCTGGATTATGTAAAGGTGCAAGAGATGAAATCTTTTCTAATGAAATCATATTCTTATCATTTATTAATAATGGTTCTATGAAATCTTCTCCACCATGTACAACTCTATGACCAATAGCTTGTATTTGATTTACATCTTCAAATACTCCAAATTCATTATCTACTAATACATTTAAAACAAATTCTAAAGCTCTCTTATGATTAGGAAAAAGTTCTGGAACTTTGTCTATATTATTATTTTTAACAAAGTTTTTAATACTAAATCTTGAATTTTCTATACCTATTCTTTCACATAAACCTTTAATCATTATTTGCTCAACAGCAGTATCAATTACAGAAAACTTTAAAGATGAACTACCACTATTTAATACTAATATTTTCATAACTTCACCTCTTATATAATTTCTAAAATTACCTTCTCTATTCTTTTGTTATTTACCTTAAGTATTTTTATTTTAAATTTATCAAAAAATACATCATTTATCTTATTATCCATAGGTATAAAGCCTAATTTTTCTATCAATATTCCATTTAATGAATCATAATGATTAGATTCAATGTTAAAATTAAAATAATCATTAAAATCATTTAGACTAATAGATGAATTAATCATATATTTATTTTCAGCTATTTTCTGAATATCTTCATTTTCTAAATCATATTCATCATTAATATTTCCAACTATTTCTTCAAGTAAATCTTCCAATGTAACTATACCTGATACACCACCATATTCATCTATTAATATTACTATATGTTTTTTTAAAGTCTTCATCTCTAAAAATAGGGATTGTATTTTTTTAGTTTCAGGTACAAAATATGCCTCTTGAAGAATTTCATTAATTTTAACATTTTCAAAGCCGATTTCATATGCCTTTTTTAATAAATTCTTTGTATGTAAAATACCAACTATATTATCCAAATCTTCCCTATAAACTGGTATTCTGGAAAATCTAATTAAATCTTCGTGTGAAAATATTTCATTAATGCTTGAATCAATATCAATTGCAAACATTGAAGTTCTAGGTATCATTATTTCTCTTGCCACCTTATCTTCAAAATCTATTATTTTTTCTATCATTGCTCTTTCTGTATCTTTAATATCACTATCATTTACTATCATCTTTATTTCTTGTTTAGTTATAATATCCAAATTATCATTTTCATTAATTTTAAATATTCTTAAAAACAAATTGGTAGAAAAAGATAATATTTTAATAAAAGGTATAAATAATTTATATACAAATAATATTATATTTACATTAGTAAGAGCAATCTTTTCAGGATTTAACAATGCTAATCTTTTAGGTATCAATTCCCCAAATACTAAAGATATATATGATAATAGCAATGTTACAAGTATAACAGATACTTGCTGATAATATGGAAAAGAAATTTTATTTAAAAATATAGATAAAAATTCTGATAATGAAATTGCAGCCGAAGCCGATGCTAAAAATCCTGCTAAAGTTATCCCTATTTGTATAGTAGATAATAGATTAGCTGGTTCTTCCATAAGTTTTTCTAATTTTAATGCTTTTTCATTTCCTTCATCAATTAATATTTTAAGTTTATTTTTATTAATAGAAATTATTGCCATTTCACTTCCAGAGAAAAAAGCATTAATCAATATCAGTACTACAATCAGTAATATCTGGGGTAATATGGACGACCCTGTATTCATTTACTTCACACTCCTATTTTTTTGACTGCATAGCTAGATATGCAGCTCCATAAATTCCTGCATTATTACCAAGTTCAGCAATTTTTATTTCAACATTTTTTTCAATAGATGTCATCAAATAATCAGGCAAATATTTCTTTATTTTATCTGTTAAAAATTCTCCAGCAAGTGCAACTCCACCACCCATAACTACTATGTCAGAATCAAGTATAGATAGAGCTGTACCTATTCCCATAGCAAGATATTCCGCTGTTTCTTCAACTATATCCATTGATAATTTATCTCCTTGTTTTGCACATTCAAACACATCTTTTGCTTCTATATCTCTATCTTTTGTTAAGTTATATAGCATATTATTTTTATTAACTTCTAATCTATCCTTAGCTATTCTTTCAATACCAGTTGCTGATGCATAGGCTTCAAAACACCCTCTTTTACCACAACCACATAATCTTCCTTTTTTCTCTAAAGGTATATGTCCGATTTCTCCAGAAGCACCGTTTTTACCTGAAATAATTTCACCATTTACTACTACTGCTCCACCTATTCCAGTTCCTATTGCCATTCCTAGTACATTTTTATATCCTTTTGCAGCACCAACCCATAATTCCCCAAGTGTAATAATATTAACATCATTATCTATATATACTGGTTTTGATAATTGATTTTCAAATTCATTTGCTAGATTCAAATTTTCAGGCCATGGAAAATTTGCCCACATTATTACTGTTGATTTATTTACAGTAGGTCCTGGAACTCCCATCCCTAAAGAAATGAAATCATCATAATTTATCTTATTTTCATCTAATCCAACCTTTAAACAGTCCGATAATTTTTTAATTGTTTCTTTGTATCCTAAATTAGATTCAGTTTTAACTATTGTTGAATAAATAATATTTCCATTTTCATCTAAAATACCTATTTTTGAATTAGTCCCTCCTAAATCAATTCCACCATAATATTTCATCTTTACCTCCATTACATGTCTAATACTATTGTTTTTATTTTTGTCATTGAAAGAATGCTATGTCTAATACCTTGTACACCAGATCCAGAATTTTTAATTCCTAAAAAAGGAAAATTATCTGGACCACGTTGTGTCTTATTATTAATATGTACTGTTCCAACCTCTAACTCATTTGCAAATTTAAATGCTTTTTCAATGTTATTTGTGAAAATAGAACTTTGTAATCCATATTCTGAATTATTTGCTATTTCTAACGCTTCTTTTTCACTCTTTACTCTAATAATTGGTAAAACAGGACCAAATGGCTCTTCCCATGCTATATCCATTTCTGTATTTACATTATCAAGTAATACTGGGTATATTAAGTTAGATTCTCTTTTAATTTCAGTTAAAGCTTTTGCTCCTTTATTTATTGCATCCATAATTAAATTTTCAACAAAAATTGCACTCTTTTCATCAATTAATGGTGTAATAACAACATTTTCGAAAGGATTTCCAACTTTTAAATTTAACACCTTATTTTTAATTTTATCTACTAATTCATCAGCAACATTTTCCATTACTAAAACTCTTTTTATAGCGGTACATCTTTGACCTGAATATGAGAATGCCCCTGAAACAATATCGTTTGCAGCTTTATCTAAATTAGCATCTTCTAGTACTATAGCTGCATCTTTTCCACCAAGTTCTAATAATATTGGTTTCATTTTTGCTTGTATTCCTATTTTTTCTCCCACAGATGTACTTCCTGTAAAATTAATGAAATCTATTTCTTTATGAGTATTTAAATAATCTCCTATTTCTGAACCTTTACCTGTTATAATTTGCAGTACTCCTTCTGGCAAGCCTGCTTCTTCAAAACATTTTACTAATTCTATGCCTGAAAGCACTCCTTGACTTGCAGGTTTAAATACAACAGTATTACCAGATATCAATGCAGGTATAATCTTAGATGCAGCTAAATTAATAGGGTAATTAAATGGTGATATTGCTAAAACTATTCCTACAGGTTCTCTTCTAACTATAGCAACCTTATTTTTTGAGCTTTCATCATAGTTTTTACCTTCATAAACTTCTCCAAAAATTCTCATTCCCTCTTCTGCTGAATATTTAATTAAACCTACAGTTCTTTCAATTTCAGCTAAAGAATCTTTAAATGGTTTAGAAATTTCTTTACTCATTAAAATTGCAATTCTTTCTTTATTTTCATCTAAAATATCAGCTGCTTTATACATTATTTCAGCTCTTTTAGCAGTAGATAATTTTTTCCATTCTTTAAATGATTTACGCGAATTAATATATATTTGATTTACATCTTCTTGTGTCATCTTTTTTACACTGCCTAACACACTTCCATCTATTGGAGATAATACATTAATTTTCATTATTTATACCATCCATATATTTTATTATTTCTTCTATTATTGTATCCTTATTTAATTCAAATAAGATATCATGTCTTGCTTTTTTGACTTTTAAAAATTTAATATTATTTTTTCCATTATTTATCTTTTGCATATATTTTTTTAATTTTGTTTCAGAAACTAAAGCATCTTTAGTACCAAATACTATAAATATATTTGCATTTTCACTAATTTTCTTAATATTTTTCTTTACAAATGCAGTAAATGATAACACATTATTATATAGTCTTGAAGAAGCACTCTTTAAATAGTTTTCATCATTTAAATAAGCTTTTACAATTTCTTTATCTCTATTTAACCAAGCTGATTTACCTTCTTTAACAAATGATCTATTAAGTGTCTTTAACATGAATTTATTAATAAAACTATTTTTTAAACCAAATTTCATTTCCATTTTAGTTATCACTCTACCTAGAAAAATTGAAAATTTCTTTTCTATAGGCACTGAAATTAACACAGAGTTTTTTAATTGCATATCTTCTTGTAAATATAGGGTTAGTAATCCTCCTAATCCTTTACCTATTAAGAATATATCATCATTAGCAATATTACTAAATTTATGTTTTATAAATAACTTTATATCATTTAAAACACCTGTAATACCTTTATCACCAAAATCTGCAACATTTCCTTCTCTAAGATCTCCATGTCCTCTATATTCTAAAATATATACATCATAACCTGCTTCATTAAGCTTAACTGCAAATTCATTATATCTGTCTATATATTCATATAATCCGTGTAACATTAATATTTTCTTTTTATTACCACTTTCAAATGAAGTATACGGAATCTTTAGACCATCAAAACTTTCAAAATATTCTTTATTCACTATCTTCATTTATTTTCTCCTTTAAATAATTTTAATGTCATTGCATTTAATAAAATACACATAGAACTTAAACTCATAGCAAATGCTGCAAACATTGGATTTAATGTTAAACCAAATTTAACAAATAAGCCCATTGCTAAAGTAATACCCATAATATTATATATAAAAGCCCAGAAAAGACTAAACTTTATATTTATTATTACTGCTTTACTTAAATTAATTGCATTAATTATATCTATAAGTCTTTGTTTCATTAACACTATATCTGAAATCTCCATAGCTATATCTGTAGATCCACCTATACTTATACCAACATCTGCTTTAGCTAATGCTGGAGCATCATTAATTCCATCACCTACCATTATAACTTTATTATTTTCTTGTAAATTAATTAATATATCATATTTTTCATTAGGTAATAAGCCTGCATAAACTTCTTCTATACCAACAAGCTTAGCAACATATCTTGCAGTTTCTATATTATCTCCTGTTAGCATGATTGGTCTAATATTTTTGTTTTTTAATTTTTCTATAGTTATCTTCACGTCTTCTCTAATTTCATCAGCAATAGTTATTATGGCAACTAAACTTCCATTAATTGAAGCTAAAATAACAGTTTTACCCTGTTTAGAATATCTGTTAATATCATCAATATATTTAGATAAATCTATATTATATTCTAACATCATTTTTTCATTACCTATTAATAACTCATTATTTTTTATTTTTGCGTTAATACCTCTTCCTTCAACTTGAATAAATTCATCAATGTCTACTGTATTTATACCTAAATTTTCACAATAAGTTACTACAGATGTCGCAAGATGATGTTCAGATTTTTTTTCTGCTGAATATATATATTTAATTACTCTATCATCATCTGAAATAGAGATAAAATCAATTACTTTAGGCTCTCCTTTAGTAATTGTTCCTGTTTTATCCATTAATATTATATTCGCTTTTTTAATAATTTCAAGTAACTCTGCTCTTTTAAATAATATACCCATTTGAGAACCTTTTAAATTTCCTATCATTATAGATATAGGGGTTGCAATCCCTAATGCACATGGGCATGAAATCACAAGTACAGAAATTGCTCTATTAATTGCTTCTGAAAATTCATTTCCTATTACTAACCAAAATATGAAAGTTAATATAGAAAAAACAAATATTATCGGAACTAAAATTCCACTTATCTTATCTGCTAATTTAGAAATAGGAGCTTTACTTGAAGTAGCTTCTTCAACAAGTTCTATAATTTTAGCAATTATTGTATCATTAGCTTCTTTATTAACCCTTACTTTTAAATATCCTTTTTCAAGAATACTTGATGCTATTACTTCATCATTAACATTTTTTTCTATAAGTTTACTCTCACCAGTTATAGATGATTCATTTACATAAGCTTTTCCTTCTAATATTATACCATCACAACTAATAATTTCACCTGTTTTAATTAAAACTTCATCATCTATTTCTAAATCTCCTACATCTATTACTATTTCGTTTCCATCTTTAATTATTGTAGCTTTTTTAGGAGTTAAATTAATCATTTTAGTAATGCTTTTAGTAGCATTTTTCTTTATTCTTCTTTCTATATACTTTCCTATACTTACAAGTGTTAATATTACTGCTATAGATTCAAAATATAGATCATTGTTTTCTCCTTTGATTACATTAAAAATACTATATACAAAAGATGCAAGTGTGCTAACAGCTATTAAACTTGACATATTAGAGCTATTATTCTTTAATGCTAGAAATCCTGAAAAATAGTATTCCTTGTACAAATACATTATAGATATTGAAATTATAATCTGTATTATTTCTGAATTATTTACCTTATTAAATCCTAACATATGCCCCATAGATAAATACATTATTAAAACTGTTAATATTATTGATATTACTAGTTTTATTATATAATAATCTTTTTTTATTTCTTCTATATTTTCTTTATTTTTTTTATTATTTATTTTCTCTATTCCATATCCTATTTTTTCTACTATTTCAATTATTTTTTCTACATCAATAATCTTTTCATCATATATTACTGACATTTTAGAAGTAATAAGATTAATATTTACTTTTTCTATCCCTTCTAATTTTTCAATATTTTTGGTAATATTTAAAGAACAATTTGTACAATGCATACCTGTTATATTAAATTTTTCTCTTTTCATCTTTCTCCTTAATATTATCAATTTTCTATATTATATCACAAAAAAAAATAATAGTACATATTATTAGGTATATAAAAGATATGAATTTTCTTGATTGTGAACATGTAAAAAAATCTGTAAATTTTATTTTATCATTTGTGTTATAAATAAAAAGATGTTAAATAGCCTAAACTATCTAACATCTCCAATGTTACCACTTATAGTCAACATTTAATCCTAACTTTAATGTTGTCTTCTTGTATTTAAAGTTTTCATTTTCCTTGTTTGCTATTGATACTATTACCTCTCCTCTTGGTTTTAATAATAGCTTATCTTCCATAAACCTTAACTCTAACTCTATTCTAGGATTTATTAATATCTTTGATAAATTATCTTCTCCATATGATTGCTTTTTTTCTTTTATCTTTTTAGTGTCTTTACTACTTATCTCTAATATTCCATTTTCTCCTATCTGTTTTCTCTTTATATCTCTTAGAGCTGTATATAACCTCTCACTATCATATCCATTTAAATATTATAATCCTAATTTACCTATTAATCTTATTCCATCATTTATCTTATATGACACACTATTATCACTATATACCTTATATTGATATTGGGTATGTAAATGTAATTTCTGTAATTTATCTGACATACTATTATTATTAGTAGTACTGCTAGAAGTTTTAGGTTGGGCTTTCTTACGATCATTATAGTTAAATAAAAGTATTGCCTTTGTACCTACCTCATTTATTATCTCTACCCTATCTGTTGGTCTATACTCTATCCTTCCACTTATATCTCCTAATCCCAATATCTCCGTTTCCTGTCCTTGATATAGCATCCCTAACCTATTTGAACTCGTTAAGTTTAATTCTCCTATTAATCTTAATTTGTTATTCATTCTATAATCTATACTATTATCACTCCATACATTTAAGATATATAGCTCCTTACTATCTACATATCCTGCTATAAAAGCTGTATCTATACTATTTTTTGTATTAGTTCCTTTATAATTTATACCTAATCCTAAAAGTGATATATGTTCATCTGTAACACTTCCTGAATCCTTATAGTCTAAACCAGCTCTATATCTTGCATCTAGGCTTAATCCCAAATTACCAAAACTTCTAACTAACTTATTTGATGTATATAATGTTAATACTGTTTTGTCTTTGTTTGTATCACTACTTTTATACTTGTCTTTGTCTATTGCAAGGCTTTTAGTAAACACCTTCCCTCTTATCTTGTTCTCTGTCTTTACCTCTATCCTATTACTCTTATATCCTAAATCAAATAATAACTCCTGATTATGAAAGTAACTTTCTGTTGAATCAGTTTTAGATTCTTTATTTGTTTGTTTATTCTTGCTATAGTCAAATATTGTATCATGCTTTATTACACTCTTTATATTTATCTTATCCTTATTATATAATAAAGTCCCCTCTATCCCTACCTTTCTATCTCTATCACTTATTAATACTGTCCCTAAATATCCATATGCCTTACCTTTTAAATCAAAATTTCCTATCTTCTTACTTAATGTTATATCTCCCTTTAATCTCCCTAACCTCTTTGATATATCTGGCTTTAACTTATAGTTTACATTTACATATATATCTAATATATCCTTTACAGACTGTCTTACATTTGCAAATCCTTCTACCCTTCCTGTTAGGTTATCTAAGTCTTTTGTTGTATATATTAATCCTATTTTTGATTTAGTATTATCATATGTTAGATCTATTAATCCTGATGCTAGTATTTGTTCATCTTTTAATCTTAATCCTTGTGAATGATAAAACTCTTTCCTTGCTTCATCATCCTCTTCATATCTCCTGTCCCATAAGCCTCTTAACTTTAATCCATCTTTTATTGATTCTTCCATCTACTGGTTTTCCTTTTTCTAGTTTTCCTCCTAAATAAGCAAATACTTCATTGTTCTTTCCTGTTAGTATTCCTAGGTTTAAGCTATCATGTATTTTGTATTCATATTTATTATCTTTAGAATGTTCTAGGCTTCCTTCTAAGTTGTTTTTAAGGTATATAGTTGTAGAAAAACTTGTTAGTGAACTTAAAGCTAATATACCCATTATTGTTTTATTACTTATCTTTCCCATGTATATTTCACCCCTGTTCTTATCTTATTACCCATTGCTATATATCCAGCTTTATTAAATAGTATACTAGCTGCATATTCTACTTCTATATTAAAGTTATCATTAAATTTATATCCTAATTTTATACTTGGTATTAGTTTAATATCAAATCTATCTTTATTATTGTCATTGTCATCATCATCGTCGTCTTCAGAATTTGCACTTCCATCATTTTGATATCTTTCTATTGTTTTATTAGTATAACTCTTCTCTATGTCTGCATTAATCTTACCAAGAATACTTATTAATCCTTTATCCCCTAATTCCTTCTCAAATTCATATCCTAAATGTCCCTCAACTATAAAGCCTTTATAATGTTCAGAGCTTCTTACAGTATGGTTATTGTTATTACCGCTACCTCCACTTCCACTATTAACATTAGTTTCTTGATTTCTTGCATTATAATGACTAGCATATATATTTGATGTTAGTGTTCCTTTATAGTCTTTTCCTCTTAATATACTATTTTTATAATCTACTCCTGTTCCAACTAGAAAATAATATGGTATTAATCTTTTTTCTGAATGCCACATTGATAACCATAAATTAAGATCACTAACTAATGTAAAGTTTTTATTTATATCATATTTTATCTTAGTATCTAATTCATATCTATTTTCTCTTTTTTCTTTAGCATCATTCTTACCTATCTAACGTTGAATATTAAATGTAGTAAACCCATTTCTAATAGCTATACTAAAGTCATTAATATCTTTTTTATATTCATATCTAAGTCTTAATACCCTATTAGAATCTATATCTAATTCTATATTACCAAACTTTTTAAAGTTTAACCCTAAAGATAAATATGTTTCTTCTCCATTTAGTTCTGCTCCAATTTGATCTCTTGAAAGTGATACTCCTCCTGATAGTTTAAGAAATTCATATAGTGTTAGTGAACCATCAAATATATTATTAGATCTTAATGGTGAACTATTAAATTCACTTTATAAGTTAGCATTTAATTCTAACTTTATCTTCTTTGCATTTCTAAAATTAAAGAAATCATTTTCTTTTACTTCAGTAGTTTGATTTCTTGTAGATGTATTTCTTTTCTTAGGTGTTGTCTGTGATAATGATATATTAGATAAAGCTATTAAAGTTAATAAAAATATATTTAGTCTTTTCATTAATCCTCCTTCCCCTACCATCTATATTCCACTTTTAAAGCAGCTTTTATATTTGTTGTCTTATATTCAAGTTTATTTCCATTTTCTTTTATGTGTGCCTTTACATCTACTCCTAAGTTAGGATTGATTATTAACTTGTTATTTAAATACTTTAGTTCTGTTCCTACACTTGGACTTATTAATAATATTGATTTACTATTTCCAAATTTTGCTGTTTCTTTGTTTATCTTGTTAAGATCTTCCTTATTTATCTCTTCTAATCCCTTTTCTCCTACTTGATTTCTCTTTATCTTATTTAAACTCTCATATAGTTTATCTGAAGTAAAATTATCTGCATAACTTACATCTAGTCTTGTTATTAATCCTATATTATCTCTTATCTGATATTTAACTTTATTCTCATTATATACCTTATATGTATATTTAGAGCTTAAATGTAAGTCTGGTCCATTGTTAGTTGTATTAGATTGTGAATTCTTCATTTGTGCATTCTTTAATGTACTAAACAGTGATATTGTCTTTGCTCCTATTGTTGAAGTAATGTCTATTTTGTTATTTAGTTTGTATTCCACTGTTCCTTTTGTGTCTGCTAATAATAAGAACTCATCTGTGTTTGAATCATGGTTTATTATTGATAACCTATTTGATGTAGTTAAGTTTAATTCTCCTTTTAATGTTACCTTGTTATTTAATCTATATTCTGCCTTATTATCACTCCATAGGTTTAATATACTAAAGTTCTTTTCTATATATCCAAATATATATCTTCCATCTACACTATGTCTTATATCTAATCTTCCTATCTTCTTCTCATATGTTAATCCTGCTCCTACCTCTAGTAAGTGTTCTACTCTTTCAAAGTCAGCAGAGTTAGTTCCTTTCTTCATCTTAACTATCCCTGAATACTTCCCTACTCCCCTTATACTCTTGTATCTTATCATGTTTCCAGTATATACTGAGGCTATTGTTTGGTCTTTCTTACTACTGCTATCATATTCATCTTTGTCTAGTTTTGCTCCCTTTGTTTCTACTCTTCCCATTAACTTGTTATTTGATTCTACATCTATATTATCCTTATTGTATTTTACATTAAGTTTTAACTCTGGTTTGTATAATACTTTTAAATCTGTTGCTTTTGTGTTTATTTCTATTTGTTTAAATACTACCTCTGCACTTGCTGTTGTGTTTAACTCTAAGTTATTACTTGCACTATACTTAATTCCATTTTCTAATAATATCTTATAATCCTTCTTATTTGGTATTATTGTCCCTAAATAAAGATTTATTCTATTATGTATATCTACCTTATTTAATCTACTTGTTGTATTTAAATCTAACTTTAATCTTCCTCCTTTTGCATATGTATCTTTCTTTATCTTGTAATTTATTTCTCCCTCTATATCATGTTTACCTTTACTTGTCTTTATATTTACAAAGTTTTCTAATCTATAATCTCCATTATTTAAATATCCTGCTGTATATATTACTCCACTATGTAATTTAAATAGTTTATGTTTATAGTTTACTATTCCTGAAAATAGACTCTCTTCTTCCTTAAATCTTAATCCTTGACTATGATAGTATTTCTTTAAGGCTTCTTTATCTTCTTCAAACTCTTTTTTCCATTCTCCTCTACTCTTTATTAGTTCCTTTATTGCTCCTTCATGATTATTATTATCTTTATATTGATATGAAGCATTTAATATTAGTTCTAGTTCTTCTGTTAGTTTCTTCTTTAGGTTTATTCCTATATATCCTTTTGTATTAAATTCTCTTTTTCCACTACTTTTAAATTGTTTCTCTCCTCCTGCTCCTACTCCTAGGAAGGTAAATACTTCTTTGTTTTTACCAAATATTCCTCCCCAGTTTATTTCACTTGTTACTTTTGTTGAAAAGTGGTTTCCAGCATTTGATGATTGTTGTGATTGAGCTTGAGCTAATGCTACTGCTATTGTATTTTCAATAAATCCATAGCTAAGTTCTATGTTATTATCATTTTTTACATAGTATTCTGCTCCTAATACTGTTGTGCTTATTGTTATAAGTCCTATTAGTTTTCTTTTATTCAACATTATTTTTCCTTTCTTATTTTTCTGTTTTTTTACATTAGTATTATACCCCCCCCCATATATTTTTGTCAATAAAGTGAGATAATGCTTTTTTACTAATAAAAAAGATGTTTAATTTTTACACTAAACACCTCTACTATTACCAACTACAATCAATATTTAATATAGGTCTTGCATCTGTTGATTTATAATCATTTGTTGGGTATGTATCATTAATAAAGTTTACTTGAATATCTACTTTTGGTTTTATAGTTAATCTATTATTTGAATTTGCTGCATATCCCGCTGTATATATTACTCCACTTTGTAGTTTAAATAGTTTATGGTTATAATCTACTACTCCTGAAAATAAAGTCTCTTCTCCTTTAAATCTTAATCCTTGTCCACGGTAATATCTTTTTAGTTTATATTTGTCTTTTTCTATTTCTTCTTTCCATTCTCCTCTACTTTTTAATACTTCTCTTATATTTTCTTCAAAGGCTTTCTTATTCATTGCTTTATCATTATATTGATAGGCTGCATTTAATATTAAGCCTATATCTTTTGTTATTGCTTTTTTTACATTTATTCCTAAAAGGATTTCTCCTCCAAAGTTAGTATCTTTATCTAAGTTTACTTCACCTCCTACAAATGTAAATACTTCTTTGTTTTTACCAAATATTCCTCCCCAGTTTAATTCTGTTGATGCTTTTTTGGTAAAGGCATTTTCATAACCAAATTCTGTTTTACTATCGTTTTTAACGTAGTATTCTGCACTTAATGATGCTACTCCTATAGCTAATAAGCTTATCATCTTATACTTTGACATCTTTCCTCCTATATTTATTATCAGGATTATCATTATGATTTTTACTTTATAAACTTAAAATAGCCTCCTATGTTTTTTTATCATAGGAGACTATCTACATGTTTTTAATCTATTAAATTTTTTATAACAGAAAAAGTTAATGCTAATATGAATAAAAAAAGGTGATTAAGAATTTCAAAAAAAATTCTTGAATCACCTCTTCTTTTTCTGTATAATTTAATCGCCAAACCAAATAACAGAAAGGAGTCAATATAATGTATAATTCTAATAAAATTAAATCTATCTTCTCCAAATATATTTTAACAAATTCTATTAATTCTATCAAACCATATTTTGATAAAAAACATATTGAACATATCAACCATTCCATTCATAATTTTCTTAACTGTGGTAATCTCTCTAAAGGCTTTATCTCTTATCGTTGTTCCTCTTGTAATTTTCAACATAAAATGAAACTTACTTGTAAATCTAGACTTTGTCCATCTTGTGGTTATAACTATTCTGTTAATTGGACTAATTCTATCTTAAAACAATTTATTAACATCCCTCATAGGCATGTCCTTTTTACTGTCCCTAAAGAATTTAGAAAATTTATTGCTTATGATAGATCTATTCTTTCTAAAATGTCTAAAGCTATTAATGATATTTTTAAATATCAATTCCATAATATCAAAGATAAAGTTAAAAGAAAAATATATATCCCTAAATCTAATCCTAATTACTTTACTAATTCTGATATTATTAACTACGGACTTATTACTGTTATTCATACTTTTGGTAGAAACCTTAAGTTTAATCCTCATATTCATGCCATCATCTCTCTTGGAGGTTTTAATAAAAAATTTCAATATAAAGAACTTAAATACTTTCATGTCCCCTCTATTGCTAATCAATGGAAGTTTTCTCTTTGTAAATTAATTAGTAATGCTAATTATCCTAATGATATTATTAAAATACAAGCTAAAAAAGCTGTATCTAATGTTTATGATAATGATGTTAGGTTATTTTTTAATGTAGCTGGTAATGATATTAATAATCCTAAATACATTATTAAATATCTTGGTAGATATTTATCAAGAGTTCCTATTGCTGAATATAAGATTGTTAATATTGATTTTAATAAAAATTCTCTTACATTTAAATTTGAAGATTTAAGTAATAATAAAGAAGTTACTTATTCTACTTTATCTTTTAAAGATTTTGTTGCTAAAGTGCTTTTTCATCTACCTTTAAAGTATTTTAAAATGATTAATAGATATGGTTTCTATGCTAGAAGAATTTCTTCTAAAGTTAAAATGTCTCTATTTTATCTTAAAGCTCAGGTTAATAAAAAGTCTCTTTCTTTATTTAGGAAAAACTTTAAAGAACTTTGGGACTTTGACCCTTTTATGTGTCCTCATTGTAATATTTATCTTAAACGTTATGAACTATTTATTGATAATGGTCTTTCTCCTCCTATTCATAAGTTCTATAATTAATATATTATGCCTATTTTTATGATAGGTAGTTTTGTTGTTCTCTTATTTTTTATTCTATTAATTTTTCTTTTCTTTATCAATATTTTTTTACTATTTTCTTTTATTTTTTTATCTTGGATATTTTTTTAATTTCCTATAGAATTAAAAAGATGTGAACATAGTCCACATCTTAAAATAGAATTATATATTATTTTTTACTAAAGAAGTTAATTCTTCTTTTGTTTTAAATCCTAAATCTGTTGCTACTTTTTGTCCATCTTTAATTACAAATAATGTAGGTATACTTCTTACTCCATATTCACCAGCTAAATCAGGAAATTGATCTACATCTATTTTAACTATTGGAAAATCAGCTTCTTCACTTAATTCATCTAAAACTGGTCCAAGTCTTTTACATGGTCCACACCAAGTTGCAAAAAAGTCTACTAAAACAACTTTTTCTTTTTTTAAAATTTCTCCTAATTGCTCTGTAGCACCTAAATGTAATACTTTACTCATTGTATCTCCTCCTAAAATAATTTATTTTGCTCCTAAAGCAGTCATTGTGAAATAGTTATATGGTTTGTTAAAATGTGGTAAGAAGAATATATCAAGTAATTTAAATTTATCTATAGTTACTTTTTCTTGAATTGCAAGTGAGAATACATGTAATCCAAGTGAGATATCTAATGTAGAAGCCATTTGTGCTCCTAAAATTCTTCTTGTATTTTTATCATAAACTATTTTAACAGTTACTGCATCATTTTCAGTTTTCATAAATTCAGGTTTTTGATTATCTGTAAATGTAGTAGTTTCAACTTCAAATCCAAATCTCTTAGCATTTTCTTCAGATAATCCTGTAGATAACATGTTTAATTCATAAACAGATATTCCATTTGAACCTTGAACTCCTATTCCTTCTAATTTAGTTCCACATACATTATGGGCTGCTACTATACCACTTCTTACAGCGTTTGTAGCAAGTGCAATATAGTTAACATCATCTATAGAGTTATCATAAATAGTTGCACAATCTCCTATAGCATAAACATCTTCTTGAGAAGTTTTTTGAGTTCTATCAACTAAATATGCTCCATTTCTGAATAATTCAACTTTTTCTTTTAATAAATCTGTGTTAGGTCTAAATCCAGCACATAATATTACCATATCTGTTGTATATTCATCTTTATCAGTTACTATAGATGAGACCTTACCATCTGTTCCTTTAATTTCTTTTAACATTTCACCGAATGATAATTCAATACCGTGGCTTGCTAATTTTTCATTCATTCTTGTTCTAAATTCTTTATCATAGTATGTTGATAAACAATCGCTACAAGAATCTACTAATCTAACTTTTTTTCCTTTTCTTTCAAATGCTTCAGCTAATTCTACTCCTATATATCCAGCACCAATTACAGTAACATGTTTAATTTCTGGATTTTTTAATTTTTCAATAACTTCAGCTGCATTTTGGAATAATTTCACATATTGTACATTTTCTAATTCTTTACCTGGAATTGGTAAATTTATTGGTAAAGACCCTGTAGAAACTATTACTTTGTCATATTTTTCTGCAAATTCTTTTCCACATTTACTTTTTGCATACACTATCTTATTTTCAAAGTCTATATCATATACTTCAGTTTCCATATAAACTTTTGCACCATTAGCTTCTAATTTTTCTTTGTTTGAATAAAATAGACCATCTGAACCATCGATTTGATCTCCTATCCATAATGCCATTCCACAACCTAAGAAACTAATGTTATTATTTCTATCAAACACTACTACTTCAGTGTCTGGATAATTTCCTAAAATTGTATTTATTGTTGCTGTACCAGCATGGTTTGCACCTATAACTACTACTTTCATCTAGTCCTCCTAATAAATTTGTTTATTCAATTTATTCTAACCCATTTTATTTAAAAATTCAAGAACAGTGCTACTTGTTGCACTTGTAGAAGAAATCATATTTTTCCACATTTTACTATATTTCGTATTATAAAACAAACCTAACGTATGTCTAAGAAAATGATGTGGTTTTTCATTATTCTCTTCTAACATTTTCACATAGTGAAACATTTCTTTAACTATTTCTGTATGTTTTTTTACACTTTTATCATTAAGTAAATTTATTTCATTTGCTAACATTGGATTATCATAAAATGCTCTACCTATCATTACTGAATCAACATAATTATGATGAATTTTAATGTCTTCAATTGTTTTAATTCCACCATTAATTTCTATCATTAAATTAGGTCTATCCCTTTTAAGTCTATAAACCATTTCATAATCTAGTTCTGGTATAGTCCTATTTTCTTTTGGACTTAAACCTTTTAAAATTGCAATTCTAGCATGAACAATATATTTACTTACATTAGTAATATCAATAAAATTTAATAATTCCTCATATCTTACTATTTTTCTATCATTTTCTAAAATACCTTTACCATCTATACCTATCCTATTTTTTATAGTAACATCTTTACCTGAATATTCTTTAACGGCTTGAGCTATATCTCTTACCAGCTCTGGTTCACTCATAAGATAAGCTCCCATATTATGACCTGAAACTCTATCTGATGGACAACCAACATTAATATTAACTGCATTATAGTTTGTATATTTAATATATTTTGCAGCTTCTATACTCTCTTTTAAGTTAGATGTTGCTATTTGTAAAACTACAGGATTTTCAACATTTGTGATTTTTAATATTTTAGATCTATCTCCATTTAAAATTGCTTGAGTAGTTATCATCTCTGTATATAGCTCTATATCTTTATTTATCATACTAATAAAATTTCTAAAATGTATATCAGTTCTATCTACCATTGGTGCTAAAGATACTTTATACATAAATATTTACCTTCTATTTATTAAAAATATTCCAGCAGCCATTAATACTACACCTATCATTCTTTCTACAGAAAAAGTTTTAACTGCATATCCAAAAAGTCCATAATGGTCTATTATCATAGCCATAATTAATTGTGAAAACATTAATAATATAGTTGCAAGACCTACTCCTAAAGCTGGTATAACAGTAATTACTGATAATACATAAATTGCTCCTGTAATAGCTCCTAAATATTTCCACCAAGCAGTTGTTGTAAACTGAGTGATTGAAGGTGATTTTTGACCTGTTAGAATGATAAATAATAATATAAATAATAATCCTACAGCAAAAGATGTAAATGCCGACCAATAATCACTTCCTAAAGATTTTCCAAGTTCAACATTTATAGGACCTTGAATTGTAACAACTAATCCTGCAAATATCGTTAATAATATATATAGTATTTTTTCCATTTATTTTTCTCCTTTTATTTTAATCCAAGTTTCTTCCATATTTTTTTCAAACTTATTATTTCCTGGAATATAATATTTTTTCTTTTCATTCATATATTTTTGATTAACATAATTATTCTCATAATCATGAGGATATAGATATTTTTTAGCACCTATTTTAGTTAAATGCACTGGAACACTTTGTGCTCCATTTTCTTCTATATCTAACATAGACTTATTTATTGCCATATATGCACTATTACTTTTAGGTGAAAGTGCTAAATATATAGCACATTCTGATAAAATTATTCTTGATTCAGGCATTCCAATTTCTTTTACTGCATTCATACAAGAAACGGCAACATTAATTGCTTGAACATTTGCAAGACCTATATCCTCACTTGCAGAAATAACTAATCTTCTAGCAATATACATAGGGGCTTCTCCACCAATTAATAACTTACTCATCCAATAAACAGCAGAATCTGGGTCAGAACCTCTTATTGATTTAATCATTGCAGAAATTGCATCATATCTATCTGCAAATACCTTAATATTAAATAATTCTGTAACTTCTTCAATACTAGAATTTAAAAAATCTGCATTTATTAAAGTTTCTAAAAAGTTGATAGAAGTTCTTGCATCTCCATCTGATATCATAGAAATGTATTTTAATATATCTTCCTTATACTCAAGTTGCTCTTCTTTAGCAATTTTTTCTAATATATTAAATATATCTTCTTCATCTAATTTTTTAAATTCAAATAAAAGTACCCTAGATAATAAAGCTCTATTAAGTGAAAAATAAGGATTTTCTGTTGTAGCCCCTATTAAAATAATATTACCATTTTCTAAATCTTCTAATAAAGAATCTTGTTGCAATTTATTAAATCTATGTATCTCATCAAAAAACAATAGTGTCTTATTGACACTATTCTTAGCTTTTAAAGATATCTGAGTTATATCATTTTTTGATGCCTTAATTGCATTTAAATAAACATAGTCATATCCAAGTTTATCTGCAATTATTTTAGCTAAAGTTGTTTTACCAGTACCACTTGGTCCAAAAAATATTGAGCTTATGATTTTATTGTTTTCAAGCATTCTAAATAATATTTTCCTTATATTTTCTTGCCCGTAAAACTCATCAAAATCCTTAGGTCTATATTTATATGCTAAAGGTTCTTTATCATAATTAAATAAATTCATAAGCCCTCCTTTTTATCTACCATATATTTCAGTTATGTGTGCAATTGTTGATGCTAAATCATCGTTTAATTCCCAACCATTTAATCTCCATTGCCAGTTTCCACTTGCAAGTCCTGGAGTATTAATACGTGCAAATTCTCCTAAATTTAAATAATCTTGCATTGGTATTATTGCAGTTTCAGCAACAGATCTTAAAGCAAGTCTAATCATTGAATAAACTATATATGAATCATCACTTACATTTAAGTAATCTCTTACCTCTCCTTTTTGCATATCATTAAGTTTAAAATACCATGAATTTGTTGTATCATTATCATGTGTTCCTGTATAAACTACAGTATTTTTTTCATAATTATGTGGTAAATATTCATTTTCAGGATCTTTATCAAATGCAAATTGTAAAATTTTCATTCCTGGAAATCCTGCACTTTCTTTTAATTCTACAACTTCATCTGTAAGTATACCTAAATCTTCTGCAATAATATTAATCTCTCCTAAAGATTTTTTTATAGCATTAAATAAATCAATTCCTGGTCCTTTTTCCCATTTACCATTAATAGCTGTAGTTTCTCCATAATTAACAGCCCAATATGATTCAAATCCTCTAAAATGATCTATTCTTATTATATCATATAGAGAAAGGTTAGCTTTAACTCTATCTATCCACCATTTATATCCTGTTTCTTTTAATTTATTCCAATCAAATAATGGATTCCCCCATAATTGCCCAGTTGCTGAGAAATAATCAGGTGGAACTCCTGCAACCTTAACTGGATTTCTATCTTTATCAAATAAGAATATTTCTGGATTTGACCACGCATCTGCTGAATCCATAGATACAAATATTGGTATATCTCCAATAATTTCAATCCCATTTTGATTAGCATATGATTTAACAGATTTCCATTGTTTAAGAAATATATATTGTAAAAATTTTTGATAGTTAATTTCATCAGCTAATTTAACTTTATATTCTTTTATTGCTCCATTATCTCTATTTTTTAATTCATTTGGCCAATTTGACCATGATTCTCCATTAAAATATGTTTTTAATGCAGCAAATAGAGAATAATTATCTAACCAATAATCATTTTCTATATTAAATTTAATAAAATCCTCATTTTCTATATTAAACTTCTCAAAAGCACTTCTTAATATAGGTAATTTATTTGTATAAATCATTCCATAATCAATATTTTCTTTATTATCTCCAAAATTCGTATCAAGTACTGAATAATCTAAATATCCCTCTTGAACTAAAGTTTCTAAGTCTATTAAATATGGATTACCTGCAAATGCAGAAAAACATTGATACGGAGAATCTCCATAACCTGTAGGTCCTAATGGAAATATTTGCCATAGTTTTTGTTTAGATTTTTTTAAAAAATCAATAAATCTATATGCTTCAAATCCCAAAGTACCTATTCCTTCTTTTCCAGAAAGAGATGTAGGATGAAGTAAAATCCCTGCTTTTCTCATAATATTTATCTCCTTAATATTTTATCATTATATTATATCACATTATTCATTGATATCAACTAAATTTTTTATTTTCTCAAATTCCTTAGCTATTTTATCACTAGTAATATTTAGATCATTAAAATCTTTTTCTAAACGCTTAAAATCTTTATTTAAATTCTGCCATCTATCATTATATCTTAAAAATTCTTTAGAAAATCTATCAAGTTGATTTAAAATTTCTTTTGCATTTTCATTTCTCTTATACTCTATAGTAGAAAACTGCATAGTAGTTATATATATCATTAAATTTGTTTGTGATGCTATCCAAACTCTTTTAGAATATGCATATTCTAATATTTCTGGAAATTCAGAATATATATCTATAAATATTGATTCACTAGGTAAAAACATTATCGCTTGATTAATAGTTTCCCCTATTATTATATACTTACTTGAAATATCATCTATATGTTTTTTTAAATCCTTAATAAATTCTTTTCTATATTCTACATTCTTATTTTCTGAATACAGGATATAGTTTTCAAGTGGAAATTTTGAATCAATAGCAACTTTATTTAATTTTGTATTTAAAAATAGTACTGCATCTGCTACTTTACCATTTGAAAATTTATATTGTCTTTCATACAGATTATTGTTATCTCCATATACATAGCCCAAAACCTGTTCTAATCTAGTTTCTCCGAAACTTCCTCTTGATTTTTTATCAGATAAAATTTTTTGTAGTGAAATAACTTCTGTTGATAATTTTTCAATATTCTTTTGAGTTTCATCTATTTTAACTAATCTATTTATAACTGTATTAACAGCTTCATTAGATATTTTAAATCCATCTTTTAATACATTTTCTACTTTATCACCAAGATTTAAAACATCTTTAGTAATATTTTCTTTCATATTTAATTTAAAATCATTAATTTCACTTGTAACATTTATTTTTCCTTCATAAATTAACTTTGAAATATCTTCTTTTGATCTTTCATTTTTCTCCATTAATTTTTCTAATATCTCAAATTTCATATCTTTAAATTCATTATTATTTCTATTAGAATTAATAAGATAAATTAAATATATCAACATCAATATTAAAATTACAAGCAATATTAATATAGTATAAACCATTTAATCACCTACTCTTCATTTATTATTTTATCATTATAGTAAGTTAGCTCATTTGAAATTTTTTCAAATTCTTCTCTTCTTTCAGAAGGCATATCCTCTAAAATATATTTATCATCTATTCCTTCATTTTCAATAATACTATTAAATAATCCATAGCTTAACTTATTAGGATTTATATTTATTTGATAATATTCTAATTCATTATTTTCATCTAATACTTCATTAATCAATTCATAATCTTGTAATAATAAGATTGATTTATTAAGTGCTTTTTCAGAAATTCCAGTATATAGTTTTAAGGCATTCATATCTAATGGATTTTCTAATTTATTAAATCTGTCCGATAATATATACATAATATATACACCTATTTTCTTTTTCATTGATAATGACATTTCAAAATCTTCTTCTACCAATTCTTTAGATGTTTGTATAGTATATGTTATTTGTGCACCTATAAGTATTATTGTCCAAGCATATTTTATCCAAATTAGAAATATAGGTATAAATGCAAGCGACCCATATATTATATTGTATCTACTAATTGAAAACTGAAGATAAACATATATTACATAAAGTATGTTTAATCCTATATCAGAAATAGCAGCTCCTATTATCGCTGGTAATATTTTAACTCTCTTATTAGGAATTAAAATAAATAATCCTGATATAAACATCATTCTCATAAACATATTAAATACTTTTAGTATGTACTTAGTTAAATTTGATATATCTGCAAAAGATTTAATAAATTCAACTAAAACCGAACTGCTTGCAAGTATAAGTAAAATAAATATAGGTGTTATGAAAACAAGGGCGGTATAACTAATAATCTTAGAAGTGAAATTTCTATTTTTTCTTACATTCCAAATATCATTAAATGTATTTTCAAGTAAATCAAACATACTAATTACTGAAAAAATTAATATTAAAATTCCTAATCCAGTAAGTATTCCACCTCTTGCATTTTCTATTAGATTATTAGTAGTTTCTAATATATATGCTAAAACTTGTTCATTTTGAGGTAATAAAGCATTAACCTGAGCAATTAATTTTTCATCCAAACCAAAACCTTTTGCAATTCCAAGTATAATGGCAAAAAAAGGGAATATTGTTAGTATCATCATGTATGTTAGATTTGATGCAAGCAATGACAAATCTTTAGAAAAATACTTTTTAAAATATATTTTTACCATTGATATTACTTTTTCTTTATTATATATCATTTAACTACAACCATTTTTCTATTATTAAAAATTTCAAGTAATAATTCATTATAGTTTTCAATTTTTTCTTCTTCAAGTAATATATTATCAAGTTTTGGTTTAGTATTTGGATGTTTAGGTGCAAACATTGCACATGAATCATCATGTGGTTCTATTGATTTTTCATATGTCCCTATTTCATTTGCTTTTTCAATTATTTCAAGTTTATCTATACTTATTAATGGTCTAAATACAACTAAATCTTTTACAGAAGCTGCTGTACAATTTAATCCCTCTAGTGTTTGAGAAGCAACTTGCCCTAAACTTTCTCCTGTAACTAAAGCTCTTAAATTATTCTTCTTAGCAAGCATTTCAGAAAGCCTCATCATCACACGTCTTGTAAGAATAGTTGCATACTCCTTATTTGTTTTTTCATTAATAGCCTGTTGTATAGGTAAAATATTCATAGAATAAAACTTAGACTTACCATTATATTCACTTAATATTTTTACTAATTCTTCAATTTTAACTAATGCCTTTTCTGAAGTAAAAGGGAAAGAATGATAAGTAACAAAATCAAGTTTTAATCCCCTCTTAGACATTAAAAATGAAGCAACTGGAGAATCTATTCCACCAGAAATTAAAGATAGACCATTTCCAGCAGATCCTAAAGGCAGTCCACCATAAGTATTAATTTTTTGTGTATAAATATATGTTTTCTCTCTAATATCTAAAGATATTAAAACATCAGGATTTTTCATAGAAACTTTACTAAATTCAGTATTTATTAAGATATGTGCTCCAAGTTCTTTAGCAAAATCCATAGAATTTTTTTCAAATTTTTTATTAGCTCTATTTACCTCTACTTTAAAAGTTCTTGCACCATCTTGATATAAGTCGGTTGCAATTTCTTTTAACTTATCTTTTATTAATTTTTCATCTGTATCTACCATTATAGAAAAATTGATATTATTTATACCAAAAATCTTTTTTAATTCTAATATTAAACTTTCAATATTTTCTTCATTAGTGTGAACATAAAGTTTAGATAAATCATTTACTAATTTTGCATCAAATGATGATATCTTATTATTTATTCTTTGTTTAATATTTCCCTCAAAAATACCTCTGTTTTTACCCTTTAATGCAAGTTCCCCATAACCTAATCCTATAGCATTAATTTTACTTAACCTAATATTCATTACTCCCCCTTTCTAATATCTTTAGGTCTTATCCATTCAGAATTTTTACCTTGTGTATAATTTTTTATAAATTCTTCTTTAAATTCCTTAAATCTTCCTTCTAATATAGCCTGTCTTGCTTCTTTTATCATATTTATTAAAAACCAAATATTTTGATAAGTTGCAAGCCTTTGCCCTAAAATTTCATTAGTTTTAAATAAATGTCTAATATATGCTCTTGTATAATTTCTACAAACATAATTATCACTAACATCTAATGGTCTATCATCATATTCATATTCCTTATTTTTAATAATAAGTCTACCATATTTTGTAAATACAGTTCCATGTCTACCGATTCTTGAGGGATGTACACAATCCATCATATCTATACCATTTTCAATTGCTTCTAACATATCTAATGGTTCTCCTACACCCATAAGATATCTAGGTTTAGTTTCAGGTAATAAAGGGGTTGTATGTGCAAGTATTCTATACATATCCTCCCTTGGTTCTCCAACAGCAAGTCCTCCTATTGCATAACCTGAAAAACTATCATCCATTACTAATAATTCATTTAATGATTTTTCTCTTAAATCCTCATAAATTCCACCTTGTACTATAGCAAAAAGACCTTGATTTTCAGGATTTTTGTTAGCCTCTATACATCTTTTAGCCCATCTAGTAGTTCTTTCTATAGATGGAATAAGATATTCTCTTGTAGATAACCCTGGTGGGCATTCATCTAAAACCATCATAATATCTGATCCTAAATTATTTTGTATTTCAATAGATTTTTCTGGCGAAATAAAGTGCTTTGAACCATCATGATGAGATCTAAAATGAGCTCCTTCTTCCTTTATTTTTCTTAAATCACCTAATGAAAATATTTGAAATCCTCCACTATCAGTAAGTATAGGTTTTTTCCAATTCATAAAATTATGTAAATGATTGAATTTTGCTATTAACTCATCTCCTGGTCTTAAATAAAGATGATATGTATTACCAAGTATTATTTCAGCACCTATTTCTTCTAATTCCTCAGGTGTCATAGTCTTAACTGTTGCTTGTGTACCAACAGGCATAAATACAGGTGTATGTATAATTCCATGAGGTGTTTTAATTACTCCAGCTCTTGCCATGCCATCTTTTTTTTCTAAATTATATATAACTGGTTTTTCCATTATTTACCTTCCTATTTACGTATTATATCTAATATTTCTCTCATATTTAATAAATTCTTGCTTAATTTTTCATAATCTTCTCTTCTCTTAACTAAAACTCCTAAATGAATTATTGCTAATTTTTCTCCATTTTCCTTAATTATTTTAGTATTAACTCCTGTTAAATCTATCTTATATTCATTAAGCAATCTCATAATATCAAGCATTAATCCTGTTCTTCCTACTGTTTTAATTGTAAAATAAATTTGAAATTTGTTATTAGATTTTTCTAGTAATTTCTCATCCCAATACACTTCTATTTCTCTTTCAGATTCATTTTCCAATAATTTTTGAATATTATTACAATCTGATCTGTGTATAACTATTCCTCTACCTCTTGTAACATATCCTAAAATTTCATCTCCAGGCAGTGGTGCACAACATTTTGCAAAATTAAACAGAGTATTATCAGAACCACTAATTTTTATTCCTTGATTATTTTCTCTTATTTTCTGTGTAGTTTTAGCTGTTTCTTCTTCTATAGCTTGTTCTATATCAACTTCTTCTTTTTTTTCAAATTTTGCTACAAAATGCTCTAATGTTAATTCATTATTTGCAAATTTATAATAAAGATGTGCTAAAGAAGTTACATTAAATTTTTTCATATATAATAAGACTTTATCATCGTCTTCATAATCTTTGAATTTTAAGCCTTTTTTATTAAATTCTTCATTTAAAAGAACTTCACCTTCTTTAGACTTCATTTCAAATTCTATATCTTTAAACCATTTTCTAATCTTAGATTTAGAACTATGATTATTAACTATATTTATCCAGTCATTACCTGGACCTTTTGCTGTTTTAGATGTTAATATTTCAATTTTATCTCCATTTTCTACAACATAATCAAGAGTTACTATTCTATCATTTACTTTTGCTCCTATAGTCCTATATCCTATTTGAGTATGTACTTGGAATGCAAAATCTAGTACTGTTGATCCTGCTTGAAGTTCAACTACATCACCTTTAGGTGTAAATACAAATATTGTTTTCTTTAATATATGTTCTGTAACTTCTTTTGCAAATGTTTCAACAGGTTCATTATTAGATGCTCCCTCAATACTTGATTCAACAATTTTCTTTATAGTAGCATAATATTTTTCATTTTTATCCTTTGATTTTTTTTCTTTATACATCCAATGTGCAGCAACCCCTTCTTCTGCAATTTGATGCATTTCTTCTGTTCTTATTTGTATTTCTATAATTTGATTATCTATCCCTGTAACTGTTGTATGTATAGATTGATAACCATTAGCCTTAGGAACAGCTATATAATCCTTAAATCTACCTGCTATAGGAGTAAATATGGAATGTATAAGACCTAATACTGCATAACATTCTACTTCTTTTTTAGTTAATATTCTTATTGCAGTGAGATCTGTGAGATCTTTAAATTGCTTATTTTTTTCATACATTTTCCTATATATACTATATAAATGTTTAGTTCTTCCATTTACATGTGCTTCTATAGAAGCATTTTTTAGCTCTTTTTCAATAATTTCTATTATCTTTTTTATATATCTTTGTCTTTCTTCTTTTTTAGTATTAACTAGAAATTTAATTTCTTGATATCCTTTTTTATTTAAATAATAAAAAGAAATATCTTCTAATTCAGATTTTATCTTTCCCATACCAATTCTATGTGCTATAGGAGCATAAATATCCATAGTTTCCTTAGATTTTTCTATTTGTTTTTCAGGAGTTTGATATTTTAAAGTTCTCATATTATGCAATCTATCTGCAAGCTTAATAATTACAACTCTAACGTCTTCAGACATAGCAACTACCATTTTACGAATGTTTTCTATTTGCTTTCCCTCTTTTTTAGGTAAATTTTTTAATTTTGTAACGCCATCTATAAGCATAGAAACATCTTTTCCAAAACTATATTCTATATCTGAAATAGTTATAAATGTGTCTTCAACAACATCATGTAATATACCAGCTACTATAGTATCTGTATCCATTCTTAAAGAAAGTAATATTTCAGCAACTTCAAGTGGGTGAATTATATATTCTTCACCACTTTTTCTTTTTTGATCTCTATGAGCTTCTTCTGCTAAAACATACGCTTCTTCTATTCTTTCTATATCCAGTTCTTTATGATTTTGTATAATATTTTCCTTAATTCTATGATAAACTTCTCTTCCTGTAATATTTGCCATAAAAAGCACCCCTAAACTACTATTTTAATACTAAATTTTACCATTTTTTTTTAGCTATTGCAAATTAAAAAAGATGATCAAAACTTTAACCATCTAAATCATCTTATACACCATTCCTGCCTCTACCCCATTTGCCCTATAACCAGCCTCATTAAATCTATGAACTATATTTACCCACATACTTAATCTATCATTAACATTCATCTCTCTTAATCCCCACTTTAATTCAAATGTATTCTTGTTATTATTATATAAATACTCTTCCTTTTCTACTCTAACTCCTACCAACCTTGTATCATAAATCCAATTAAACTCTAAATATGGATTTATGTTTTTAAAATGAGTAAATAATGTAAGATTAGTCCCCAGTCTTGATTTAATATTTGAATTACCAAAATATTTTACATCTTCATCATATTTAAGTCCTGTATTAAATATATGAGAATATATTAACTGCCAATAATGACTAGAATGTAATCTCATCTTACCTATATACATATCTCCTCTTGTCCCTATTTCTAAAGACGCTTTTAATGCATGATTTATATATCTTAACTCATTTTTTATAGCTATCCTATTTTTTAAATACATATAGTTTAACCAACTATCTACATACCAATTATTATTCTTAAATGTTCCATATATACCAAGTCCAAATGCATTAGTTTTACCTAAATTATTTGCTTTATCGAAACCAACATTTCCAAATACACCATATTTATATGTTCTATCTTTAATATTACTTTCTACTAAATCATAACCCATAAAGATATTACTCGTATTACTTTTTATAGGTAAATTAAATTTATTATCACCTGATAATATATTATTAGAATATATCTTAGATAGTTTAGTCCATAGTTTTTTATTAGCTATACTTTCATTATGATCATTAAATGTTAAATTAAATTCATTTCTTGCATTATTAGTAGAATTTAATATTATTCCTATTATAGGCATATTATATGTCTGATTTAAATACCAATCATTACCTTCTAAATTTAACCCATATTTATATATACCGTATTCTGAATTTAATAAGGTAAAAGCATCTTTTGTTGAACTTTTAGTTTCTATTAATTTTAACTTATTTTTCATTCTCTTATCTAATGTGGAGTTAGGATTTGAAATCTCTACTCCTGTACTTCCATTTACTGAGCCATCTAGTTTAAGCTTATCTGATTTTAGTTCATCTATATATGTTCTCATTAGTAGTTTAGAGTTTTCTCCTATATAGTTTCCTTTAATACTAAGATTACTCGTATTATCTTTACTATTTAAAAAGCTAATCAAACCTTTATTTACAAATTTATCTTCTACTTCTATATTTGAAGCTTCTAATACATTAATAGTTGATCTTTCATTATTAGTGAACTTTTTAGTTTTTAACTTAGCTTTTCTAATAGATGGATTACTATTTTCAACTAATATTTCATTGTTCACTTTGTATTCTTCATTAATAAACTCCCATTTAGAACTATCTAAATGTAATTTCTCAAATTCTTTAAATTTATTACTATCTGTTATTTTACCCTCACCTATTAATCTTAAAGTATCATTATCTCCTTCAGTACTATCTAATTCTCCTGTTACATTATCCATTGATTTTATAGTAACTATAGTTTCCTTAAATCCTTTTCTTGATAAAAGTAAATTACCCTCTAATACTCCATTTTGTAAATTAACATTTAAAACAGAATTTTCCCTTATTTCTTGCATTTTTTCATCACTAATAGGACTTTCTGCTACCTCAGCTCCAATTGAATGTATTTGTAAATTACCTTTAATTTTTTTATTATTATCTATCCTACCCTTTGCTGCCATTATGATAAGATCTTCTGTTTCTATATTACCAAAATTTTGAAAATTCATATTTGCTGTTCCTGAAATTAGTTTAATTGAACTTTCAGAATTAATTATTCCAGTAGATGTATTTAAAAATAAGGCTTCTCTACTATTATTTAAATATATATCTTTATCATTAAACTTATCACTATAACTTCTAGTCCATGTTTCTATATTTCCATTTATTGTACCAGAATTTACAAATCTAAATGATAAATATGCATTAAGTTTTACATTCCCATTTACTTTACCTTCATTTTTATAATTACCCTCTTCTCTAAATTCAAGATCAGCATTCTTATGAATACCACTTTCTTTATTTATTACACTACCATATTTAGAACGTATATCAATTTTTCCCTCTATTGTTCCAGCATTGTTTAAAACTATTAGTTCTTCAGATTTTAAATGTATTGATTTATTATAAATTTCATTTGAAATTACGGCATTTTCAGAATTTTTAAAGTATATGTACTTACTTTGTGATAATTTAGCAGAATCTTCACCTATTATCTTCTTATTATTAGTTATATGAAGTAAATCATATGAACCTTTAGATAATTTTTTAATTAATTCATTACTACTTTTTAAAAAACTATTATTAACTATTTTCATATTACTAGAATTATCATCTGAAAATACTAGACAATTTCCTGAACCTTCAGTAATATCTTCAATTTTATCATATTTAACTTGCTTTTCAACTTCATTTATCTTCATTATATCCTCATTTATTTTTTCATCTATAGATTCAGAATTAGAGATAATGGAACTTAAAAAAATAAATAAGAATACAGATCTATTAATACACATTTTTCTCCTTTTAAACCATTAGTTATTTTTTTATCAATATTTCAAATAATTATACCCCCCCCCCAGATTAATTTGTCAATTTCAAAAATTGAAATCTATTTTCACTAAATTGTATTTTTCAATCAAAAAAAAGATGATCAAAACTTTAACCATCTAAATCATCTTATACACCATTCCTGCCTCTACCCCATTTGCCCTATAGCCTGCCTCATTAAATCTATGAACCATATTTGCCCACATACTTAATCTATCATTAACATTTATCTCTCTTAATCCCCACTTTAATTCAAATGTATTCTTGTTATTATTATATAAATACTCTTCCTTTTCTACTCTAACTCCTACCAACCTTGTATCATAACTCCAATTAAACTCTATATATGGATTTATGTTTTTAAAATGAGTAAATAATGTAAGATTAGTTCCTAGTCTTGATTTAATATTTACATTATTTAAATTATTTACATCTTCTATATTAGGATTACTAACATAACTAAATATTAGTTGTTCATATAGATTACACACTAATCTATTTTTTCCTATATACATATCTCCTTTTGTTCCAACTTCAATAGATGATTTAAAAGTATGTAATCCATAACTAAATACATCATCAGTATTTATTCTATTTTGTGAATACATATAGTTTAACCAGCTATCTGCATAAAAGTGTTTATTATTCCATGTTCCATACAAACCTAGTCCAAATACTCCTGTTTCTCCTTTAGATATTTTTTCAAAACCTATATTTCCAAACACTCCATACTTATATTGATCTTTTTTACCTATATCATATCCAACAAATATATTAGTAGTGTTACTACTAAGATTTAGATTATATCCATTATTATTTGTAAATGTATTTTTGCTAAATATTGTTGATGATTTACTCCAAAATCTATCATTTCCATTATGATCACTATATTTTAGATTAAATTCATTTTTAGCCTTATATATAGAATTTGCTATTACTCCTAATACTAATTTATTATATTTTTGAGATAAATACCAATCATTACCTTCTAAATTTAACCCATATCTATATATACCGTATTCTGAATTTAATAAGGTAAAAGCATCTTTTGTTGAGCTTTTAGTTTCTATTAATTTTAACTTGTTTTTCATTCTCTTATTTAATGTAGAATTAGGATTTGAAATCTCTACTCCTGTACTTCCACTCGCTGAACCATCTAGTTTAAGTATGTCTGATTCATTTTTATCTATATAGGTTCTCATTAGTAGTTTAGAGTTTTCTCCTACATAGTTTCCTTTAATACTGAGATTACTCGTATTATCTTTACTATTTAAAAAACTAATTAAACCTTTATTCACAAATTTATCTTCTACTTCTATATTTGAATCTTTTAATATATTAATAGTTGATCTTTCATTATTAGTGAACTTTTTAGTCTTTAAATCACCTTTTTTAATAGATAATTTACTGGCTTCAACTAGTATTTCATTATTTACTTTATATTCTTCATCACTAAATGTCCAATCAGAATTTTGTAGATGTATCTTTTCAAAGTCTTTAAATTTATCTTTGCTTTTTACTTCTCCACTTCCTATTAATCTTAAAGTGTCATTATTTCCTTCACTTATTAAATTTCCTGTTACATTACTCATAGATTTTATTGTAACTATAGTTTCATTAAATCCCTCTTTTTCTAATTTTAAATCACCTTCTAAAACTCCATTTTGCAAATTTACTAATAATTTCCCATCTACATCATCAAAATGAGAAATATTAACATTACCCTTAATTCTATTATTATTCTCTATTTTACCATTAGAACTAGAGATCTCTATTTTTCCACTTGCTTCTATATTACCAAAATTTTGAAAATTTAAATTTAGAAGAGTAAAAAACATATTTTCTATTTTAATTATACCAGTTTTATCATTTAAAAAATTAGTCCCCTTATCTTCATCTGAAATCTCTGAAAGATTATAGTCTATCATCTTAACATCTATAGTTCCAGAATTTACAAATGTAGATTCTGACATATATTTTGTATAAATTCTTTCTCCTTTAATTTTTCCTTCATTTTTTAAATTTAAACTACACTGATGAGAAAGCAAACTTAAATAACCATCTATTATTCCTGTTTTTCTATTTATTACACTTAATTTTGTAATACCATGCAATAAACTATATCCATATATTGTTCCAGCATTATCTAAAACTGTTAATTCTTCACCAAAAAGTTCAATAGCTGTACGATATATATTATCTTCTTTTAATTTATTTTCTATTATTGCATTTGCTGAATTTTTAAAATATATATTTTTTGCTCTTAAATCAATTAATCTCTCATTTTCAGAAGTTTCAATTTTTTTATTATTCATCATATGTATTAAATTTGAATAACCTTCTATACCAGGTTCAATTCCAGGTGCTATAACAAATTCTTTATTTTTTTCAAGTGAAATATTTGCATTGTTTACTATTTTTAAACTATTTGGTAATTCTTTTTCCTTTGAATATATTTTAGCAGACTTAGATATTGTAAAATCTTTATTAAATTCAAAATTTGCTTTTTCATCATTTCCAACATTAATTTCACCTTCAGGATCTTTATATGTTTTATCATATTTAATTTTAGATTCAATTTCATTCATCTTTTTTATATCTTCATTTATTTTTTCATCCACTGTTTCAGCATTAGCTAAAATGGACATGAGTAAAAATACATATCCCATATACTTATTTTTAACCATTTTAATCTCCTTTTTTACTTTTTAAACTATATGTAAAGAGTATACCCCCCCCCAGCTTTTGTCAAGAACTAAATGTGAAATTTTTATACAAATAAGGTGGGAATAATAAAAAAAGGTGATTAAGAATTTCAAAAAAAATTCTTGAATCACCTCTTCTTTTTCTGTATAATTTAATCGCCAAACCAAATAACAGAAAGGAGTCAATATAATGTATAATTCTAATAAAATTAAATCTATCTTCTCCAAATATATTTTAACAAATTCTATTAATTCTATCAAGCCATATTTTGATAAAAAACATATTGAACATATCAACCATTCCATTCATAATTTTCTTAACTGTGGTAATCTCTCTAAAGGCTTTATCTCTTATCGTTGTTCCTCTTGTAATTTTCAACATAAAATGAAACTTACTTGTAAATCTAGACTTTGTCCATCTTGTGGTTATAACTATTCTGTTAATTGGACTAATTCTATCTTAAAACAATTTATTAACATCCCTCATAGGCATGTCCTTTTTACTGTCCCTAAAGAATTTAGAAAATTTATTGCTTATGATAGATCTATTCTTTCTAAAATGTCTAAAGCTATTAATAATATTTTTAAATATCAATTCCATAATATCAAAGATAAAGTTAAAAGAAAAATATATATCCCTAAATCTAATCCTAATTACTTTACTAATTCTGATATTATTAACTACGGACTTATTACTGTTATTCATACTTTTGGTAGAGACCTTAAGTTTAATCCTCATATTCATGCCATCATCTCTCTTGGAGGTTTTAATAAAAAATTTCAATATAAAGAACTTAAATACTTTCATGTCCCCTCTATTGCTAATCAATGGAAGTTTTCTCTTTGTAAATTAATTAGTAATGCTAATTATCCTAATGATATTATTAAAATACAAGCTAAAAAAGCTGTATCTAATGTTTATGATAATGATGTTAGGTTATTTTTTAATGTAGCTGGTAATGATATTAATAATCCTAAATACATTATTAAATATCTTGGTAGATATTTATCAAGAGTTCCTATTGCTGAATATAAGATTGTTAATATTGATTTTAATAAAAATTCTCTTACATTTAAATTTGAAGATTTAAGTAATAATAAAGAAGTTACTTATTCTACTTTATCTTTTAAAGATTTTGTTGCTAAAGTGCTTTTTCATCTACCTTTAAAGTATTTTAAAATGATTAATAGATATGGTTTCTATGCTAGAAGAATTTCTTCTAAAGTTAAAATGTCTCTATTTTATCTTAAAGCTCAGGTTAATAAAAAGTCTCTTTCTTTATTTAGGAAAAACTTTAAAGAACTTTGGGACTTTGACCCTTTTATGTGTCCTCATTGTAATATTTATCTTAAACGTTATGAACTATTTATTGATAATGGTCTTTCTCCTCCTATTCATAAGTTCTATAATTAATATATTATGCCTATTTTTATGATAGGTAGTTTTGTTGTTCTCTTATTTTTTATTCTATTAATTTTTCTTTTCTTTATCAATATTTTTTTACTATTTTCTTTTATTTTTTTATCTTAGATATTTTTTTAATTTCCTATAGAATAAAAAACGCCTCAAATTTTGAGGCGTAATATTTTATAATTTGTTTTCTCTAATAAGCATTAAAGTAGATTTATCAATCTTATTATTTACTTTTAAGTTTAACTTATTAAAGAGTTCTTTACTAATCTTATATCTTCTATTTCTTATATGAACTCTAAAACTTCCATCCTTATTCAACTTAATTTTTTGTATTCTATATATTTTTCCTAAATTATCAATATATATATATTCTACTTTTTTTATGAATAATTTTAAATCATATTTTTCTGATATTTCTATAGATTTATTCATCATTAATTTTCTTTTATCTAAATCTTGTGAGTAGAATAAATCTATTTTTTCATTTAATTCTTCTATGCTTTCAAAGAAATATCCATTTTCATTTTCAAATAGTAAGTCTTTAAGAACAACTTTATCACTACAAAACAGTACTCTACCTGTAGACATAGCTTCTATAAAAGTAAGTCCTTGAGTTTCTGAAGTACTTGCAGAAATAAATCCATCAGCTAAGTTATAGTAATCTGGAACTTCAGAATATTCTTTTTTACCACAGAATATGATATTTTCTAAATCATATTTTTCTTTAAAGTGTTTAAATTCTGGTCCTTCTCCTACTACAAGTAATGTAATATCTTTTCTATTTTTTATTGTTTCTAATATTATTTCAATATTTTTTTCTTTAGCTACCCTACCTAAATACATCATAACTTTTTTACCTTCTAAGTTAAAATGTTTTCTTAATTTCTCAATATTTTCTTTATTAGGATTTTTAAATCTTTCAAGATCAATTCCAGATGGCAATACCCTTATATCTGTATTTTTTATAGAATATTTCATTAATAAGTCATATGTTTTCTTAGAAGGAACTATAACTGCATTTGAAGGATAACAATACATTTTAGATATCATTTCAACAAATTTAACAAAAGGTTTATTTAATATATCAATATTCATAAAGTTAATATAGTGTACATAATCTTCTAACATTGTATGATATGTATATATTAATGGTATACCTAGCATTTTAGAAAGTATTCTACCTAAAATAGACACTCCAAATTCTGTATGTATATGTATTATATCTAAATTTAATTTTCTAATTTCATTAAAACCCGAAAAATGAAAAGGTCCTGTAACTGAATAATTATAGAAATCCTTTAATAAGATAGACGGTAATTTTATCACCTTATCCTCCATTGTTAATTTCATACTATCATTGCATGTAATTACATAAACATCATGACCCAATTCTTCTAATCCTTTTTTCAATGTATATACACAAACTGCAACCCCATTTGCATGAGGTAAATATGTATCTGAAAATAAACCAATTTTCATATTTTACTCCTTTTTTTCTAATTCTGTAATTCTAAATTTAATATAGTCTTCAAATGACAAAATTTCACAACCACAAAGTAATTCATTTTCTTTCTCATATTCTTTTAGTAATATATTATAAAGTTCTTTATTAATTTCCATTTTTATTATCCAAATGTTCTTTTATTATCTTATCTACTTCTTTATCTGCTTCACTTCTATCTTCATTTTCTTCAATTTTTTCTTGTTTTTGTTCCTCTTTAATATTATTTTCATAAAAACCACTTTTTCTAATATTAAAATCTTCTAAAATTAAATCTGTATTATTATATGCAGATTTTTTAATATATTTTATTTTAGAATATGTATAAAACATTCCTAAAAAAAATATTATCCAAAATATTATTTTTAAAATTTTTCCAAATCTTCTCATTTTTCCACCTATATTAATTTAGTAAGTATATTTTTTGAATTTTCAGCTGCTAAATTAACAAATTTCTCAAATTCCATAGTTGATTCATCTGATAATGTATCTGATATAGATCTAATTATTAAAAAATCCACTCCTAATAAATATGAACAATGGGCAACTGAAGCAGATTCCATATCCACACACAAAGCTTTAAAATTTTCACCAATTTTAATCTTTTCATCAGCATTTGAAACAAATTTATCTCCAGATACTATTTTACCAAAATGTATTTTTTCACCTTTTAGTTTATTCATAGCATCTTCAAGTATTTCTCTAGGCTTAAAAATAGATGTTTCCATTCTAGGAATTATACCCATTTCATATCCAAATTCTGTTGTATCAAATAAGTATTCTTGAAGCTCTGTTGATATTACTATATCCCCTATTTTTAATTTATTTGAAGTAGATCCTGCAACTCCTGAAAAATATATTTTTTTAACTTTAAATTCATTAATTAATAAAGTTGTAACAATAGCTGCATTAACCATACCAATTCCACAGCCAACTAAAATTACTTTTTTATTATTTAATAAACCTATATAAAAAGTATTTCCATTAACTATTTCGATTTCTATATTTTCCATTTCTTGCTTAATTACATTTATTTCTTCATGCATAGCACCTATTATTCCTATCATATATACTCCCATTTATTTTAATATACATATTTTAACATTTTAAAAAATAAAAAGCTAGTAAAAACTAGCTTTTATCCATTTATTTAATATATGCTTTAAACATCCAAAGAAGTTTTTCATACTCAGCAATATGATTATCAAGTTCAGCACTTGTACCGAAATCTCCTTCTTCATCTGTTATATTTTTTAAATTTTTTACTTGTCCAAGTAAATTTTCTACATCTACTATTAATACATTTAATAACTCTTTAACTGTAATATCTTCATCCTTAGCTTCAGTTATTGTAGTAACTTCTAAATATTTTTTCATACTTCCATAAGGTCTTCCACCTATAGATAATACTCTTTCAGCTATTATATCAATTTTTTCATTAACTGCATCATATATTTCTTCTAATTTGGCATGTACTGTAAAGAAACCTTGTCCAACAACATTCCAGTGATAGTTTTGAACCTTTCTATAAAATACATTTAAATCTGCTAAATATATGTTTAAAGCATCTATTGTTTTGTTCATTTTAAATCCTCCTGTTTTAATTATAAATTTGTAATTATTACAATATACACTTATATTATCATTAATATTAATTTATGTCAAGATATTTTGAGTTAAAAGAAATGAGAGCATTAGCCCTCAATTTCTTATTATTCACTTCTATCTTTCATTTTTTCTTTATATTTTCTTACTTGTCTTTCTAATCCTGATGATAGATTATCAATTGCTGCATATAGATCTGCATCAGTTTCTTCTTGTCTTATAGTTTTATTCGGAGCATAAACTGTAGCTATCGCTTTATACAATTTACCTTCTGACTTAGTTGGTTCAACTGTTAAAGTTACATCAGTTTCTGGAATATTTTCTAAATATTTAGTGATCTTAGATATCTTACTTTCCACATATTTTTTAATAGGTTCTGTCATTTCTAATTGTTTTCCACTAATAATTATTTTCATAATTAGCACTTCCCTTCATTGCTTCCTTACTATATTATACCCTCAATTTCTTTTTTTTCAAGTTTAAATCTGTTTTAATTTCCCATTTTCTATCTTATATTTTACTTTGGCTAAGTTTGCAAGTTCAATACTATGTGTTACAATTATTATTCCCTGACCCTTATTATTTATTTTAACAAATAATTCGTTAATTAAATTACTTGTTTCATAATCTAAATTTCCAGTAGGTTCATCTGCAAGTATTATTTCTGGATCATTAATTAATGCCCTTGCTATAGCAACTCTTTGTTTTTCTCCTCCTGATAATTCTTGAGGTTTGTGATTTATTCTATGTTCTAATCCTACTTCTTTTAATAAGTTTATAGCCTTATTTTCTATTTCTTTTCTTGATTTACTATCATTTACTAAAGCTGGTATCATAACATTTTCAAGTGCTGTAAATTCATTTAATAAATAATGAAATTGAAATACAAATCCAATTTTTTTTCTTCTAGTTTCTATAATATCTCTATTATTTATCTTTTCTCCATCAATAAGTATATCACCTTCTGTTACATCATCAAGTAATCCAAGTATATTTAATAATGTTGTTTTTCCACTACCTGATTTACCTTGTATTGAGAAGAAATCACCATTTTCAAATTTAAAATTGATATCTTTTAATATATCTATTTTCTCAGCTTTAGTAACATATGTTTTATATACATTCTTTAATTCTAGCATATATATCTCCCTAATTGTTATATTTTATAGCTTCTACTGTATTCATCTTTGACGCCTTAATTGAAGGCATTATTGTAGAAAATAAAATTAATACAAAAGAGATAAAATAGATAACTAACATTTCTATTAAACTAACACTTATTGGAAGTGTTTCTAAATAATAAGTAGAAGTAATGTAATATTTAAATACTAATTTTAAAAGTATAATAAGAATAGGGGAAAATAATAGTGAGAATAGCATTCCTGTTATTCCAATAATTAATCCCTCAAATAAGAATATTTTTAATATATTTTTATCTGCAAATCCCATTGCCTTTAATATACCTATATCTGTTATTTTTTCTCTAACTATCATATTTAATATTACTGATATGGCAAATGATGCAATAAGTATTATCATACTTAAAATTGATACTAAAACAAATTTTTCAAAATTTATTGCACTTAATAAACTCTGATTGTCCATATTCCAACTTCTTGCATAAACTTTATCTCCATAACTTTCATTTATATCTCTAACTAATAGATCTAAATTATCAGTTTTATTTGGATTATCAACTAAAATGGCAATTGTTGAAGCAACTTCTCCTCTTTCTTCTAACAGTTGTAATGTTTCAAGAGGAAAAAGTAATAAATCAGAATCATAGTTATAAAATCCTGTCTTAAAAACTCCTGAAATAACTGCTTTAATTTCTCTCATTTCAGAGGTAAGCACAGTTATTTCATCTCCTACCCTAGTTCCTGTATTTTTAATAAATTCATTTCCAACTAAAACTGAAGTTAAATTATCTTTTTCTATACTTCCTTCAACAACATTTAAATTAAGTTTTTCTAAATTAGTCCCAATAATTAATGTGGATTTAGAAATTCCGTTTACTTTAATTAAACCTTGTGATTCAATTCTATAATTTACATCTTTAAAATTATATTTATCAATTTTTTTACTAATATCTATATATTCTTGTTGATAATCTTGATAAATTCCAACACTAATATGTGGAGATAATGTTAATATTGAATTTAACATATTATTTTTCAAACCATTAGATATTGCAAGTGATACAACAAAAACTGTAAGGGCAATTGCAATTCCTAAAATAGAAACTATAGATTGAAATTTTCTTTCTATTATATGTCTTTTTGCTATAAAAAATTCTATCATTTATCCTCTATTCCTCTATAATTACATCAAGATTTGTAAGAACAGATATTTGTTTTATAAATCTGTATTTATTATTAATATTTAATCTATATATATATTCTTTTTTATCTTTTGTTTTTATTATTAAACAATTTTCATTTGAATTTTTAGAAATTCTCATTATTCTTATACTTAATTTTTCTATTTGATTTATCATCACTTTATTATTCTTATCTCTTATTTCATTCTCATCTACATATATTTTAAATTTTAATACAGTATTTAAATGAAATATTATATATATAATTAAAGCTAAAAGAATAAATATTTTAAAATAATTATCGGACATTTTATCTTTAAATAGATCCATACCAACATAAAATATAGTAAATAAAATAATAGTTATTAAAATAAACGATCTAAAAATATATAAATTTGAAAGTCTATATTTAGTTTTCACTTTAGGATCATAAACTATGGCTTCTTCTATTTTCATTTTAATTTCATTCATATTATTCTCCATTTTCTTTTTTCTGTGTTTGAGATTCTTTACTGTCTTCATCCACAATTTTATATATTCTTTCACCATCTTTTTTAAAATTTAAGTTATCCCTTACAAATTTTTCCTTATTAGTCCCTTTTCTTGATTCCTCTAATTCTTTTTGTAATTTTTCTTTCTCTTCTTTTAATTTTTCATACTTTTTATTACTTTCAATTAATTTTATATTTATTTCTCTACTTTTCTTGACATTATTGTATGTCCTAAAAATTAATGCCGAAAATATAGCGAAAAACAAAAGTATAATTGCCAAAGTATATAGCTTTTTTTTCATTTTATCTCTTCCTTTTTCTCTTTTTAACTTCTTTAATAGTATTTAAAAAACTATCTAAATTTTCAAATTTATTATAAACAGAGGCAAATCTAATATATGCTACTTCATCAAATAAAAATAATTTTTCAAGTATAGTATCCCCTAATACATTACTATGTATCTTCCCATCATAATTAGTTAATATTTCTCTTTCTATCTCATCTATCATTTCATCAACTTTATTTTGTACATAGCTTCTTTTAACTAAAGATCTTATTATTCCCTGATATATTTTATTTCTATCAAATTCTTCAACTTCTCCATTTTTCTTAATTACTACTATTGGCAAATTAAATATTTTTTCTATTGTATTAAATCTCTTATTACATAAATCACATTCACGTCTTCTTTTTATTGAATTTCCATCACTATATGAACGACTATCAACTACTTTTGTCTCTTTATCACCACAATAAGGACATTTCATAATAACTCCTTATATTTCCATATTTTTAATCAATTCTATCATTTCTTCTTTTGTTTTAACTTCTAACATAACTTGTCTAAATTTATTATCTTGACAGAATCTTGAAATTTTTGCAAGTATAATTAAATATTCTCTACTTAATTCAACTGGAGATAAGAACATAAATAAGATATTTACTTTTTCTTCATCTACAGCTTCATATTCTATACCTTCTCTAAATATACCTACACTTATTATAATATCCTTAACAGCATCTGTTTTTGCATGAGGTATAGCAACTCCTCTTCCTATACCAGTAGTACCCAATATTTCTCTTTCCATTAAATCTTCAAATGCTTTTTCTTTATCTAATATATTTTCATTATTTTCTAATCCCTTAAACATTTCTTTTAGTAAAGCATTCTTATTTTTTGCCTGTAAATCTAAATTTATTCCATCTACATATATTTTTTCAAAGATATAATTGGTTTTCATTAGTTTTCTCCTTTATTAAAGTATCAATATTTTTTTATAATCCAATTTAATATTAAAATAATTATTTATGTAATCTTGAAAACAATTTAGCATAGTAATAAGACTATTAGTATTTTCAAGATTAGCATTTTTAGAATATGTAATATAGTCCTTATATTCATCAATAAGTCCATATTGATTAATTAATTGACTTATATCATATATTCCAAGCTCTATCATTAGTCTTCTTAAAAAAGTAACTAAAATAAATATATTAAAATTAACATCTAAAAATGTATTTTCATCTAATTCATTTATGTATTCTAATATTTCTATACTTTTATTATATAGCTCTTCTTCTGGATTATCAAATTCTAATACTTGATTTAATGAATGAAGTACATAAAGTGATAATTGAAGTTTTTCTATTTTTAATAATGATTTATCAAAACTTTTTTTTAATATACTATTTTTTATTATTTTAGAATTAGATTTTATTTCTAATTCTACATCACTAATGCTTAATGGCATTATAGAAGCTAAATGTTTTTTCTTTGAATTTCTAGCATTAAAAATTATTGCAGAAATTTTACCATGTTCTTTTGTAAACATTGTAACTAATACACTACTACCTGAAATCTCTTTTTTATTTAAAATAATAGCAACATCATTTATTAACTTCATTAGTATTTTATCAAGTATTCAAAATTTGCATAATTAGAAATATATTGTATTTTTTGAGGTTTTTTATCAATATATTCACTAAATCTTATTTTGTACTTATCTGCTATTATTTCCACTAAAACCTTATTTTCAAATATATATTTTCTATTCTTAATCTCATATGTACTATTTTTATCCATATTAGATAACTCTTCTAATATAGAGTAAAGTGAAGTGTCATCAAAACTTAATTTTTGCTCTACTGTTTGCTTCAATTTAGGAGAATAAAGTGTTTTTTTTCCATTTGAATATGTAATTATTTCACCTTTATTTAACTTAGGTTCTAAAACTTCAAATTTCACTGTATTTGGCATATATTCTAAATTATATATTTTCTTTTTCTTCTTATTATTTATTTCAGAAAATTCAACAATTTCAGCATTAAAATTTTGTTGTAAAAAATCAAAAGTTTTAGAAAAATTCAAACTAGTTAATAGAATAGTTAATGCAAAAATCTTTTTCATTTTACTTCATTCCCCTCTATTTTTTTTAATAATTTAAGTTTAGAAGCATTAAACTTATATACCACTACTGTATTTATTCCTATTACTTTATCACTAATACTGAAATTTAATTCCTTACTATCCATTAATTTTGATTTATCTTGTAAATCAAATGTTCCTATAGGTAATCTTTTTGGATACATTTCGCTAATTCCTGATGTTTCTATATCAAACTTACTTATTTTATCAGCTTTTTCCACATTAAAATTCTTAATAACAAAGTTTAATGATCCTTTACCACGTATTATTCCTGTAAATATTCCATTTACATTAACTGACATTTTAAAATTAGGATTTGATATTAAATGAACTTCTGAATAGTCCTCTGATACTTTATTTATCCTTCCTATAACATTAGAATTTAATATTACTGGTAAATTTGGTTCTATACCATCCTTACTTCCTTTATTAATAAATATTATATCTTGTTCATTTAAATCATCTTTTAATATTACTTCTGCTGTTATAAATTTTCTATTAGAATTATTTTCAAGTTTAAGATATGATCTTAATTCTGTATTTTCTTTTTCAAATTTTTCTAATTCCATTTTTTCAGCACTTAATAACTGTATTTCTGATTTTAATTTTTCTAATTCTTCAATATTTTTTTGTACATTATTTAAATAATTTAGTTTTTCATTATACTTTGTATATTTATCATATATTAATGTTTTAGTTTCAACTAATTTAAAATTAATATCAGATAACATTTCTCCAGTAAAATTAATTAAATTATCTCTATTTAGAAAAAGTACAACTGTTACAAACATTAGAAAAATTAATCTTTTAACGATCTTTTTTTTCTTTTTCATTTTTTCTCCTAATACATATTTGGCATTTGTTGATTTTTATTTTCTTCTTTTGTAACAACACTAACTTCTGTAGTTAATAAAAGCGAGGCTATTGAACTAGAATTTTGTATAGCTGAACGAGTAACTTTAGTAGGATCTAATATTCCACGCTCAAACATATTTACATATTCTTCTTTCAATGCATCATAACCATAATTTAATTCCGAATTAAGTACTTTTTCTATCACAACTCCAGCATCTACACCTGAATTAATTGCTATTTGTCTTAAAGGTGCAAATAATGCTTTTTTAAATATTTCTACACCTATACCTTCTTCCCCTTCAATGTTAAATTCTTTTATATCCTTAAAAATTTGAATTAAAGCAGTTCCTCCCCCTGCAACTACTCCCTCTTCAACTGCTGCACGAGTTGCATTTAGAGCATCTTCTATTCTCATTTTCTTTTCTTTCATTTCTGTTTCAGTTGCTGCTCCTACTCTTATTACAGCTACTCCACCTGATAATTTAGCTAATCTTTCTTGAAGTTTTTCTTTATCATATTCTGATTTACTTTCTTCTATTTGACCCTTTATTTGAATTATTCTTTCTTTTCTTTCTAATTCATTTCCCATTCCATCTACAATTATTGTTTTATCTTTTGTTACTTTAACCCTTCTTGCCATACCCAGATCATCTAAATCTGCTTCTTCTAATTTCATTGCTTTTTCTTCTGAAATTACTATAGCTCCTGTTAATATTGCAATATCTTCAAGCATAGCAAGTCTTCTATCTCCAAATGCTGGTGCTTTAACTACTACAACATTTAATGCCCCTCTAATCTTATTTAACACTAATGTAGAAAGAGCTTCCCCTTCTATATCATCTGCAATTATTAATAATGGTTTAGAACTTTCCACTACCTTTTCAAGTAATCCTAAAATTTCTTTCATAGAATTAATTTTTCTACTAGTTAAAAGTATATATGGATTTTCAAGTTCTACACTCATTCTTTCTGTATCTGTAACCATATATGGTGATAAATATCCATTATCAAATTGCATACCTTCTACAACTTCCATTGAAGTTTCTAATGATTTTGCTTCTTCTACTGTTATTACTCCATTTTCTCCTACTGTTTTCATAGCACTTGCTATTAATTTTCCTATATTTTCATCAGCAGCTGAAATAGATGCCACTTGCTCTATTTCATTATTATTTTTAATTGTAACTGATCTTTCCTTTAATTTTTCTATTGCTAACTTAGAAGTTTTTTCTATACCTCTTCTTATAAATACAGGATTTGCTCCTGCTTGTATCATTTTAAATCCTTCTTTAATTAAACTTTGAGCAAGAACTGTAGCAGTAGTTGTTCCATCTCCTGCAACATCATTTGCTTTAATGGCAACTTCTTTCATAAGTTCTGCCCCTAAATTTTCAGTATAATCTTCTAATTCTATTTCTTTTGCTATTGTTACACCATCATTAGTAATTAATGGAGATCCATAACCTCTATCTAATACAACATTTCTACCACGAGGTCCTAATGTAATCTTAACTGCATCAGCTAAAATATCTACACCTTTTTGTAAAGAAAGTCTTGCTTCTTCATTAAATTTTATTATCTTACTCATTGCTTCCTCCAATTACTGCATATACATCTTTAATATCCAAAATATATTTTACACTTCCATCTACCCTAACTTCCATAGCATTAGATAAATCTACTAATACCGTGTCATCTCTCTTTATTTTTCCAACAACATCTTCTGACACTTCTAAAACTTTTGCATAGTTATTTTCAGCTTCTATATTTTCCGTTAATATTAACCCTGTTCTAGTTCTTTTTTCAACTTTAACTTTTTCGATTAATATTCTATTACCTAATGGTTTAATCTTCATTTAAATTCCTTCTCTCTAGTCAAATTTTTCTTTAAATTATACCATATATTGTGATCATTTTCAATATAACGTGGTTTTATCTTCCAATTTAAAATCCCTAGTCAAAACTAGGGATCTAAAAATTGAAATCTATACCTAAATTTAATCCAACATTTAATTTACTATTTATATTTGCCTTACCTATTACATTTAAACTATCCATAACCTTTAATTTTACACCTAAATTATAGTTTGCACTTATCTTATTTAATCCTTTACCTACAGTTTTGTGTAATTTTTCAGCTAACTTTTGATTTAATTTTATTTCATCAAGGCTATTATAATCAACAACCAATCTATTTTGTATACTTATTCTATCATTTATCTTACTATCTATCTCTACTCCTGCTTCTAAATTATTATTATATGCACTTGTTATTCCTATGTCTCTTAATCTATTTATAAAACTCTCATTTTCTTTAGCTTCATTATCTTTTTTACCCCAGATTAATATATAATTAAATGAATAGCCAACATATGGTTTTAATATACTTTTTATAGAATTTATTTTTAATTCCATACTTAATTTTATACTAGGATTTATACTTAAACTTTGTAATATATTTGTTTTTTTATTAATATCACTTGTATCATTATACACATCACTTTTACTATACCCTATATTCTTATCAAAATCAAATGCAAAGATATCAAATATTTTCTTACTAATATTTATACCAACATTATATAAATTATTTATACTTTTAGTTTTATTACTTCCACTATTTTTAAATTCAACATTTCCATATTGATATATTCCATATAAATTTAAAACATTTCCATTTAATAATTTTCTTGAATATCCTATTATTGCACCATAATTCTTATCTACAAATGGACTAAATTTTTCATCATTTAATATATTAGTTCTCACATAAGTATCAAAGTATAGTCTATTTCCTTTTTCTAAGTTATTTAATATTATATTTGTCCTATTATACTTATTATCTATCTCATTTTTTATTATATTCCCCACTATACTTGCATAATTATCTGTAAATATATTTTTAACTTCTGAACTATTTGAGCTTAATAATAAGGTCCTTAAACTGCTTGACATTGGTTTCATTAAAACATTAGTGCCACCGATAGAAACATTTGTGTTATCTATATACTCATCAAAAAATTTCTTCTTATTTACATCATAACTAGGTAAATCTTTTAATATCTTCTCATCTGTTATTTCTCCTAATTTCTTAAACTCTTCATTTATATTATCTACAAACTTTATACTTACTATCTTGTCCTTATTTATTACAACTGGTTTTAAAAAGGGGTTTGATAAGTTATTTAAAAAATCACTGTACTCTTCTTCAAATTTTTCTATATTTAAATTAAGTTGTTCATTTTCTTTTACTCTTATTGTATACTCCCCTGTTGTCCTAAACTCTTTTATATTTATTTCTTTTCCACTAAACTCTACATCAGATGTATGAGTTCCATGTAGTTTATCTATACTTGTTTTAGTACTATCTATCTTTAATTTTCCATCTGTATATATATTTTTTAGTTTTATTTCACTTTCATCATTTGTTCTATTTTCTACAACTAATGTTCCTTTTTTAGCTATAGTGTAATCTGATTTACTATCATTTTTTAAAACTAGTGTTCCATTTAATACTTGTGAAGGAGCAGTATATTCTTGTTTTCCTGTTAATATAAGCTTTCCTTCTCCATCTTTTCTAAGTCCTGCTTGGGCTACATTAGAGTAAAATAGTTTTTCACTTTCTAATACTTTTGGTATTCTATATTGATACTCTCTACTAGTATTATCATAACTATATTTCTTAGCAATTATTTTTATAATTTTACTTTCCTTATTATTACCATCACCCTTTAATCCACTAACTATATCATTTTCAAAAGTATACTCTTTTCCATTCTTTATATTTACATAAAAGTATCTATTTCCATTCTCATCAAATATCTTATCATAGTTACCCTTAAAGTATTTCATCTCATCTATTAGACCAGCATTGAAATCAGATGGTCCTTTTAATGCCTTTTCTCTATTTGCATTACCCCAACCTACATTATCATCTAAGTATCCACTAATATCATGATTTGCAGTTCCAAGTATTACCTGTTTTACCTGTTGGTATGTTAAGAAAGGATATTTTTCTTTAATATCATAAGCTAGTCTTGCTATCCTTGGTGTTGAATATGATGATCCAGAATCTGGATAATATCTTTTATCCTCAATATCTAAAAGACCAGATTCTCCAACAGTAAAACTTCTTAAAAGTAAGGCTTGTGTGTGATAATCTTTTCTTGTAAAGCTACCTGAATAATAATTACTCTCACTATCTATATATATCGTTGACATATATTTATTAAATTTTTTTATCAAATTATGATCTCTTCTAAATGAATTTTTTACAAGTAAACTTTCACTTCTAGAAAGAGCCTGCATTTCTGGAGACATTATTTGATATTTATTTGATAAATCATTAGAAAAATATTTTGTTTCTAAATTACTTAAATTCTGATTACCTATGGCACTTATCAACAATCTTTCATTATATACATAATTTTTATTTAAAAGTCTTTTAGTTAAATAATCATTTAAATATGTTTTATCATTATATATCTTATCTAAATATTTACTATAAGGGTATAAATAGTTAAAATTGATATTATGATAAACTAAACTATATGACATACTTAATATCCCATATGTATTCATGATATCAAAGCCAACATGATTACGTCTAACTAATTTTATACCTGGATTTTTACCTTTAAAAATATTCTTTTCTTCCTCGCTTATAATACCATCGGCATTTGTATCCATAAATCCATCTAATACTCTTAAAGCATGTTCATTATAGCTTGCATTACTATTATCAGAACCAATAAAATTTGTAAGTCCATACTTTTCTTTTATTTTTTCTTCTCCACTTTTATTTAAAAATAATTCAACTATTGTTACTGGATTATCTTCTTCTTTCAATTGTCTCGTTGTATTAATATTTGATTCAATTAAACTTTCATTTCTATCTAATTTTTGTTTTAACTTTTCATTATTATCAACAGTATTAATAGTATTTTGAGATTCTGAATCTTTCATTATTTCTTTTTTTTCAACATTACTATTAATTTTAGGGGAATTTGATTCATTATTTTCTGAATTAATAATATAATTACTTGATATATTTCTACCTATATTTTCAACATTTGGTATACTTTCATCAATATCAACTATGCTACAGCTAATTAAAAATAGCAGCCCCAAAAATTGAAATCTCTTAAATTTCATAAATCCTCACTTTTATTATATATATATTAATATTATACATTATTTTGTGAAAAATAGAAATATTTACTCATATTAATAGTTTATAATTTCAACTTTTAATTTATTAACTTCATCTTCACCTAATAAATATTCAACAACTGCTAAACCAAAGTCTTTAGCTGCTGCTACTGATCTACCTGTAATAAGATTTCCACATTTAACCACAGGTGAATTTTCTATTATAGCTCCATTTTCAATTAAATCTTCTTCAAGGCCACTAAACACTATAGCTTTCTTGTTCTTCAAAAGTCCAAGCTTTGCTAAATACTTAGGTGCTGCACAAATAGCTGCAACTAAATTATTTTCATTGTAGTAATTCTTTAGTTTTTTTTCAAGAATTTCTGATTTAAAATATTCAGAAGTTCCTAAACCACCTGGTAAAAATACACAATCATAGTCCATAAAATCTACTTCATTTAATGTTTTTTCAGCAGATATTTCAATATTATGTGAACCCATAATCTTTTTATCAGTATAAAGACTTACTAAATCTACATGTATTCCTGCTCTTCTAAATAAATCAACTGGGAACAATGCTTCAACTTCTTCTATGTTATTAAATATCATAACTGCTATTTTTTTCATATTAAATTCCTATCCTAAAAAATATTTTATCAATACATTTACTGGCCACGCTAGTAAAGATAATAGTGCAAATACAAACATTCTATAAACAAAACCAATAGAAAGTTTGTCTGAAAATCTTTTAAATAACAATGAAGCTCCAAATATTGCAAATATTATTAACACTAATCTTCCAGGTGTTTCATTAATTACTGATACAACAAAAAATATTAAGTATAACACATAGTCTAATTTTGAAAAAGGTAAATTTTTTAAATCATTATTTTCTTGATTATCAACTATTTTATTTTTAGTTTCTTCTTTTTTTATTTTTAGTTTTCTCATATCATTCCTATCTTAATGCATCTATCACTTCTTGTGGAGTATCTTTACTTAAAATTAGATCTCTGTATTTTTGTGCTTCTGCATAATTTGATTCTAATATTTTCTTTTTAACTTGCAATACTGATGATGCTGACATACTAAATGCATCTAGTCCCATTCCAAGTAATAATTCTGTTGATTGTTTATTTCCTGCAAATTCTCCACACATACTTACAGGTATTCCTCTATCATGTGCAGCATCTATAACTTTTTGTATAGCTTCAAGTACAGCAGGGTTAAATGCAGAATAAAGATCTGAAACCATTTCATTTCCTCTATCTACTGCTAAGAAATATTGTGTTAAATCATTAGTACCTATAGAGAAGAAATCAACTTCTTTTGCAAATTTATATGCAATTATAGCTGAAGATGGTGTTTCTATCATTATACCAACTTTAATATTTCTATCAAATTTCTTACCAATTTCATCTAATTCTTTTTTACATTCTTCAAGAATAACATTTGCTGCTCTTACTTCATTTATTGAAGTTATCATTGGATACATAATTTTAACTGTTCCATATGCAGACGCTCTTAATATAGCTTTTAATTGAGTTTTAAACATATCTTTTTGTACTAAAGAAATTCTAATTGCTCTATATCCTAAAAATGGATTCATTTCTTTTGGTAAATCTAAATAAGGTAATTCCTTATCTCCACCTATATCCATAGTTCTAATAGTTATAGGGCAATTTTTCATTTTTTCAACAACTTCTCTATATGCCTTATATTGTTCTTCCTCTGTTGGCATATGACCAGAATTCATGAATAAGAACTCTGTTCTGTATAATCCTACCCCAGTTGCTCCCGCTTCCATAACAGCATCTATATCTTCTGGTTTACCTATATTACCCCAGATTTCTACTTCATGTCCATCTTTAGTAATAGGTTTTAAGTTTTTGATTTTCTTTAATTCCTCTTTAGCTTTTAATTGTTTTTCTCTTTTTATTTCATATTCTTTGATTAATTCATCAGTTGGATTTAAATAAATTTCCCCTTTATCTCCATCTATAATTATTCCTTGACCATCTACAACTTCAGAAAGTATAGATCTAGTTCCTACTACTGCTGGAATTTCAAGTGATCTTGCCATAATAGCAGAATGTGCTGTTTTACCACCTATTTCAGTTACAAACCCATTACAATGTGCTAAATCTAGTTGTGCTGTATCAGAAGGTGTTAAATCATTAGTAATAATAATTGTATTAGGTTCTAAGTTTCCTAAATCACTTATTTTAATATTCAGTAAGTTTTTTAGCCATCTTTTACCTATATCTTGGAAATCTGCTGCTCTTTCTCTTAAATAAGGGTCATCTAATTGAGAAAGCATTAATGAATATTCATCTATACCTTCTTTTAAGGCATGAGCTGCTTTTAATCCATCTTCCATTATCTTATTTTTGATTTCATCCATTAAATCTTCATCTTCTAATAATAGAATATGTCCATCAAAAATATCTGCCTTATCATCACCCATCTTAATTCTTACTTTTTCTCTAATAGCAATAAGTTGAGTTTTAGATTTTTTCATAGCCTCTTCTAATTTAATAATTTCAGATTCAGATGTTTCACCTGAAAGAAGTTTTTCTTCAGGAAGTTGTATTTCCTCTTCATGAAATACATAAACCTTACCTATAGCAACTCCTTCAGAAGCTCCAATACCCGTTAATCTCATCATAGTAATTTCCTCCAATTTATTTATTATTTCTTAATTCTTTTATCTTATCTCTTAATAATTTAACTATATCACCTTTACCAAAATTTGCAGCTAAATCAATTGCATTACCACCATTAAAATCTTTATGTAATGGATTTGCACCTTTTTCAATTAAAAATTTTGCAATTTCATAATTTCCTTTAAGTGCTGCATCTTCAAGTGGATGCCAACCATCTACATCACTTTGAAAATTTACCATTTCTGGATATTTTTCAACCAATAACTTAACTGCTTCAAAGTTTTCAAAAAAAATTGCAGTATGTAAAGGATATTTACCTAGTACATTATGTCTAACATTTACATTAACATCTTTTTTTAATAACTCTTCTAATATATATATATTATTATATTCTATAGCAACCATTAATGCTGTTTCTCCAATTTTATTTTCTGCATTAATATCTACCTTTTCTACTCCTTTTTTTACTATTGGAGCAAAACCAGGAGAATATGCTTCATTTGGATAAATACTAATATTTCTTTCTTCATCTCCAGATATATATGAAACTGCTAAAGTATTATTTGAAAATTTAATTGCAGTAAAAAATTCATTTAAAATTTTTTCTTTTTTTTCTTCTACTTCTAATTTTTCTTTTGAAATCAATAAATCCTCAGCAAAAATATTCATATTAAGCATAATAATAGATAGTAATAATAATATTTTTTTCATACATTCACCACTTTTACATTTTGTTTAATTATATCATATTACAATGTTTCTATCAACTTTAAAAATTCATCGTATTTTCTCAAAAAATCTTTATCTTTAAATTTTTCTTCTAATAAATCTGGTCTATTTTTTAAAGTTTTAAATATTGCTTTCATTTCTCTATACTGATTAATTTTTTCATGATTACCCGATATTAAAACTTCTGGAACTTCCATTTTATCTATCATTTGCGGTCTAGTATATTGAGGGAAACCTAATAATCCATTGTAGAAAGAATCTGTTTCATATGATTCTTTTTTTATTATTCCATCTTTCATACGCATAATTCCATCTATTATAACTAGAGAAGGTAAATCTCCACTACTTAATACATAATCTCCTATAGAAATTTCTTCATCTACAAACTTATCTATTACTCTTTGATCAAGACCTTCATATTTACCTGATATTATACATAAATCTTCCATTTTAGATAATTCTATTAATTTTTCTTGTGTTAATTTTTTACCTTGAGGTGTAACAAAAATAGTAAAAGGTTTCTTAATTTTTGATTTTCTTAAATTAACAAAATATTTCCAAAAAGGTTCCGGTTTAAGTACCATTCCTGCTCCACCACCAAAAGGTGTATCATCTACTTGTTTATGTTTATTATCACTATAATCTCTAATATTTTCTATATCTATCTTAATATTTTGATCATTTGCTCTCTGCATAATAGTTTGTGATAAATATATTTTAAATATATCAGTAAATAAAGTTAAAACCCTTATTTTCACACTATATCATTCCTTCTAATAATTCTACTTTTATTAGTTTTTTATCATATTCTATTTCTTTTACGAAAACATCTATAAATGGAATTAAAACCTCTTTTTCTTCTTTTATAACTACTAAAATTGGATGTGCTGCTGTATCCATTATATCAACTACTTCACCAATATCTTCTAAATCATGTAATACCCTATATCCAATAATTGATTCATCTTCTTCATATTCTGGTATTAAATCTGCTCTAACATATATCTTATACCCTATTAAAGATTTAGCTTCATCTACATTTTTTATCTTATCTATATCTATCAAAGCTCTTTTACCAGTAATACCTTTAACATTTTCAACTTTAGCAATTTTAATATCATTAAAATCATTTTTTATAATAACATTTAAATTTTTAAGTTCATCTAAAAGTGGAAAAATGGTCCTAACTTTTAATGTACCTAAAAGTCTATGTGTTCCTGTAATAGTTCCTATTAATATTAAATCTTCCATTATTTAGCCTCATTTTCATTTGTTTTTTCTGTATATATCTTAAAAGCAAAATATATACTAGTTATCATTAGTATATAGCATAATAAATGTAGGGATATAAATAGGGGGCTATGAAGCAATCCATATACCTCTTCTTTTATTATATCTGTAGTCCCGCCAACTGGTATTTTATTTATTAACAATCTTGATAATATTAATATTAAAATAAAAGAGTAGTTAGATAACAATAATATTATGTATATAAATAACTTAACAAAAAGTTTAATTGATAAAGTAATTGAATTTTTCAAATTTAAATTTTCAATAAAATATAGGTATGGTAAAAATGTTAAAAATGGTCTTAACAAAATTTGTATAATTAATAATGGCTCTACAATAGTTAATAATTCAAGTAATGAATATATTACAAGGTAGATGATAGCTTTCTTATAGTTTATTTTATTATATTTCATACTTATTGATAAAATTATTACTAATGTTACATTAAATAATGATATTAATGAATTAAACAATATTTTTGTGTAATATGCACTATTTCCATTAAACAGATATTTAAAACTAAGAAAATTTAAAATAAAAAATAGTATCAAAAATACGAAATTTTTCTTTATAAGTTTTAACATAGTTTTTAAAATTTCAACATACATTTTAAAAAAGTTTATAATCCCTGAATACATTTTATCACTTTATTTTCTTAAAATTAATGCTATCTTCAGCAATAGCTTTTAATTTTTTTAAATTCATATTTTCATCATTAGCAACTATTGCAGATACTGTTCCTTCAACTAAAGGGCAATCTGCTATTTCAACATCTATTTCACCATTTATTAATTTTATTGCACCCTTTACTGCATTAATTGAACTTCCAAAGTCTACAAGTACTAATACTCCTTTTCCTCTATTTGCCTTTCTTATTACATCTGCAACTATTTCAGGTGTAGTTCCATAAGTATCATAATTACTTCCACCACCATTTAATAATTCAAAATCTTCTTGTTTTAATACATTACAAAATTCTAAAAATGCATCTGTCATTGAGTTACTATGACAAACTAATACTATTCCTACAGTTTCTTTTTTCATCGTTCCTCCTAATTTTCTCCAAATAATCTATCTAAAATAATTGCTACTGCTGCCCTTACTGAAAGATGATTGTATCTTGTATTTATTCTTATTGGTTCTAAGATATAATCTGAAAGATCCATAATTTCTTGAGTTAATCCCCAACCTGTTCCAAATAAGATAAAATAAACTTCATCATCATTAAATATTTTTTCAGATAATTTTTCAAATGAAATTGTCTTTTCAAATAATCTTGCTGATGTTGTAATAATTTTAGGTTTTTTACCTGTAATTTTTATTATTTCTTCTACACTTTTTTCTATACTATCTGATAAAAGTGTATTTTCAAATGCTTCATTTCTATCTTTATTAAAATCTATTCCATCTCCTTCTTGCCAAAAACCTAGTATTCTTGATGTTAGTTCTTGTTGAGCATCTACTGGAGTAATAATAAAATATTTATTTATATCATAAGTTCTACAAGTTCTTGATATGTCGTGTATATCAAAATTTGTAACAGAAGTTGCAACAACTTCACTATTTTTATTATATACTGGATAATGTACTAATCCTAAAAAAACATTATTTCTCATCAATTTTCCTCTCTCATTCTTTAAAAATGTATAATCTTGCTTCTTGTAATAATTTTCTATGTGATGAATATGTTAATATCTTTAATGCATCTCCATAACTACACCATTTATACTCACTAATTTCCCCTATATCAATCAATACATTATGACTAATAGCTCTAGCTAAGAAAAATGTAACATATTTTAATTCTCCTGTATTTGTAATATATGAAATATCTTTTTGAAAATTTTCAGGATCTACTATTATGGTTTCTAAATTTGTTTCTTCTTTAATTTCTCTTATTGCAGTCATAACTTTTGTTTCATTATCTTCTATATGACCTTTAGGAAATCCCCAATTACCACCTAATATTTTTACTAACAAAAATTCAATATTATTTTCTCTATTTATTCTATATACAATACCACCTGCTGAAGATACTTTAACTACATTAAATTTCACATTATATTTATCTTTAATATATTCAATAATATCTTCTTTTTTATTATTTAAATTTCCTTCATTAACATGTTTGTATATATCTTGTCTTATAGATTCTTTACTTATTTCCGTATCTAAGCCTATGTTGTATAAATCAACTAAATTTATATCTAAATCATTAATAAATACTACATCTCCCTCAAAGTATATAGATTGTATTCTACTTAGTAATTCTAAAGTTTTCTTCATTGTTTCGTTATAATTATCATCATGATGATGAATAAATGATATAAAGTTTAGTAATTTAGAAACATTTTTATTATTTCTAAATTCAAATAACATTCTTTTAACAGTTTCCTTATTTATTGCCCTACTTATTATATTACTATAATAAATGAGATTTTTAACTAGAATAATATCTGTCATATTTAAACCAATTTTTTTTAAATATGATTCTGCAATTATCATACTATTTACTAAAAATTTATTATCATCTAGTTTACTTTTTCCTGAATATAGGAAAAGTATGGCATATCCTATAGTTTTATCTTCAAATACATTGTATTTACAATATACATTATATGTATTTACAGTATTTTTAATAGTAGCATTATCTAAATTATCTACAGACAATTCTGGAATAAAAAACTTAAATAAATCATTATCTAACATTATTTTTAAAGATTTATATGAATATTTATTGAATAATATTTTATCTAGCAATCTACCAAATCCACTTATACTGACATTAAGTTTTCTATGATTTTTAAAATTAGATATTGCCTTCTTTGTTTCACATGATAACTTAAAATTATATTTTGAAACTAGGTACAACGCCCTATATATTCTAGTATTATCTTCTGCAAGTCTAAGTGCCTTATCTTCTCCAATGATATTTAATTCAAGATTTTCAATATCTTTAATTGAACCATACTTATCTATTAAACCTTTATTATTGTTGTAGGCTAATGCATTTACAGTAAAATCTCTTCTAGCTAAATCTTCTTCAATATTTTCTACAAATTTAAATTTTTGTGGATTTCTACCATCTAATATTCCATTTTCTTTTCTAAATCTTGCAATTTCTATCTTATATTCATCAACTTGTATTGAAATAACTTGATATTTTTCAGAAATTATTATAGGGTTATGTTCACTTAAAATATGTAATAATTCTTCCATGGGAATATTAGTAGCCATATCAAAGTCAGTAGGTTTAAATCCTAAAAATATATCTCTTAATGCTCCACCTACCAAGTAACCTTCTCCATACTCATTTAAAATATTTAATATAAATTGTAATCTTTCATCTAAATTTATGTACATTATTATATTCCTACTTTTTTCTAAATTTTATCATATAAAAGCCATCTAAATATTCATTTTCATATGAAATTAAGTTCCCACCAAACTCATCTTTTATTATTTTTACATCTTGAGGAAATTCAAAATCTACAACTTCAAGATCACTATATTTTTCAAGAAAATATGCAACATTATTTGTATTTTCATTTTCAAGTATAGTACAAGTACTATATACCATTTCTCCACCGTTTTTCAATAATTTATATGTATTATCAAATATTTTCTTTTGTAATTTTTTTATTGCTTTAATAACTTTTAAATCTATTTCATAAACTTTTTCAGGTTTTTTAGTTAAAACTCCCAAACCAGAACAAGGAACATCAAGTAATATTTTATCATATATCCCTTCTGAAAACTCTCTTCCATCAGCTAATATTGCCTTAAAATTCATATATTTACTTTCAAATTCTTTAAGCATATTAACCTTATGTTCATGTATATCTGTAGCCACCAATTTTTTAGGGTTATACTTTTGTAATATTGCAAGTGATTTACCACCTGGTGCAGCAGCCACGTCTAATACTTCATCTTCATTACTTGGAGCTAACATATCTACAACTAATAAAGAAGAGCCATCTTGAATCACTATATCTCCTGTTAAATATGCCTTTGTTTTAAGTACATTATTATTATTTAAATAATATACATCTGAAATGTTAAATAAGATTTCTGAATCTACCATTTTTAATAAATCCTTAAAATCATTTACAGATATTTTCTTGTGATTAACTCTTACAGAGAAAGTACTTTTCCCCTTATATCTTTTTAAAACTTCTCGAAATTTATCTTCTCCAAATTGATTTCTAACCTTATCATAAAACCATGTTGGATAAGATAACTTAATATTTTCTGGGGTAATTTCAAATATCTCATCTTTTTTTCTAATAAAGTTTCTTAATGTTGAATTAATAAAATTTGCTTGATATATATTTTCTTCTTTACCAAGTTCAACAGCCTCATATATAACTCCAGCTATGTCAGTACTTGTATACAGTATTTGTGCTATACTTAATCTTAATATTTGCTTCGTTTTTCTTTTAATACTTCTAGCTAGTTTTAAAATAACATAGTCTATGTAAATTAAATTCTTAAGAGTAACATTTAACATATTATTTAAAAAAGCTTTTTCACCTTTAGTATACGAATTATTTTCAAACATATATTTTAATTGCAAATTACTATATTTCTTATTTTCTATTACTTCATCAAGTAATATTATCAAATCTTTTTTAATTTTCATTTTTATTCTCCATAAATTCAACTATTATTAGTAATATAACCCCAAAAATATATGCTTTAGGTATTAAATATATTATTACTTCTACATATAGGCATATAGCAAAAAACATATTTAATAATGGAATAAATATATATTTTTTCTTTCCTATATCAAATAAATGATATATTGTTAATGCACTTGAAAAAAAGTAAATAAATCTAATAAAAAATATTAACATTGATAAATAGTAATTTTTAATTATCATATCACTTAAATAAAATGATGCTGAATGTGCTGCTTCAAAAAGAAAAGCAGTAAAAGTTGTAGTTATAAGAAAGATGTATGTAGATTTACTTTTACTTTTTATAGCCAACAAAAAATCAATATTTGTATATGTTATTGCTATCATAAAAATTAATCCTGCCATAAACATAACTAAATTTGAATTTGGCATGCTACATATTATTTGATAGAAAATAGCTGCAAAAATAGAAATAAATCTATACTTATTTTTAAATATTATTTCTTTCAAACTACTCACCTCTATTTTCAAAAACAAAATTAATTAATCTTCTAATTTCTGGATTATCATATATTTGAAGATTTTTTTCATAAAAAATACTCTTATACTCTAAATCATATTCTACTTTATATATATTCATAAAATGAACTATAGATAACGCAATTAATAATTCATCTTCATTCTTAATTTTTGAGATATAGTAATTTAATAAATATAGCAAGTTCCATTTTCTATATTTATTATTACCATCAAAATCAAAGAATAAATTTAATCTCTTAGAACAATTATATATATCATCTATTTCAATATTAGATTGTAAATCAAAAACTGTTATACCAAAATATTCTTTTATACTTTCTATATATTCTTTTGCTATTTCAACCTCATTATTCTTTATATTAATTGGTGATATCATTTTAAATATTTGTTTTTTCTCACAATCATATCTATATATATTTAAATATTTAGTTCCTAAATTTTCTTCATCTAGTAAACCTGTTATTATATATTTTAATTGTGGATTAGCATTACTAATTCCTTCGAAAAATTTTTCATCATAATCTCTCATTTTTTCTTTAATTGATACATCATCTTTACTTAAAGTAACTTGCATTTTAACATTTGTAGATCTATATATTTTTTCTAATAAGATTATAGGTAAGGTATTTATAAATGCAGATTCCTTAGTATCTAATTTATTAAGTAATAAAGTTGCTATAGGTAAAAACATTACATTTTTATCAGAATTTTTTTCTACCAATAATTTTTCATCTCTATTTAAGATATAGTAGTGCATAGGATGAGATATGTTAAAGTATTTCACTTCTCCCATTTCTCTACAGTTTGTTGCTGCATCATAACTTGCAGGTGATTCTGATTTAAATTTCAATCTTAAATATTCTTCTTCATATTCAGCTATTAATTTAATAATTGATTTATAGTATTTTCTATAGCTATATAGCTCTTTTGTAAGTTTTAATCCATCTTCATATCTAAACATTTCTTTATAGAAAAGAAGGGCAAGTTTCGTAAATTCTATATCTTTACTCTCTACAGAATATCTTATTAATATATGATTTTCAAATTCTATATATTGTTTATTTTCAAATAATATCTTTGTAACTTCAGTTATTACTTCTGTTTTATAATTACCTTGATTTAAAGCTTTAACTATATACTCATTTGCCTTATTATAATTTGAATTAATATATTCAACTTCAGAAAAATATATAGAAAGTTTATATGCCCCCTCTAAATTTGATAAAGTTTGCATATATTTATCTTGTACATCATAATTTTTGTTTTTAAATATTTCTTTAAATTCACCTATCAATTTATCATTATTAGGATATGAATAAAGACCTTCTAAAATAGTTTCAACATATTCTAAATCTAAACCTGTATAAAGTAAAGAAAGACCATAATAATAATACATCATTGGGCTCATCTCATCTTTATAATCTTCATATAATTCAACAATTTCATTATAAACTGATGATTGAAAATATATTTCAGTTAATACTTCTGTAGATCTTTTAGAATTTTCTTCCATTTCTCTAAATTTTAAAGTATGTTCTAGCAATTCTTCATATACCTGATAATTTAATCCAACTAATATTAAATTATATAGCATTTCTCTGTTATTTATATTTTGATCAATCTTTGGTATTAAGAATTTTTTTATCCAATCTTCTTTAACAACTATTATTTCTTCTCCTTTTTCATCATCATATACTTTTATCTTTTCTCTTTCAATATCCTTATACTCTTCTTTTTTCTTGAACAAATTCCAGAACATTTTTTCCTCCTACTTTATTATTTGATCAATTATTCCTCCACCTAAACATTTTTCTCCATCATATAAGACTACTATTTGACCTAAAGTTACAGCTCTTTGTTTTTCATCAAAAATTATTTGATATCTATCCTCTTCAATTTTATCTATAACTGCTGAAACATCATTTTGTCTATATCTAAATTTAACAGTGCATCTAAATGGTAATTCTATTTCATTAATAAAATTAAACTTATTTGCTATTAATCCCTTTGAATAAAGTAAATTATCATCCCCTTGTGCAACTATTAATTCATTTTTTTCAACATTTTTATCTACCACAAAATATGGTTCTCCTGTACCCTCTTTAGTGTTACCAAGACCTATTCCTTTTCTTTGCCCTATAGTATAGTACATAAGCCCATGATGACTACCTAAAATATTTCCGTTAATGTCAACTATATTTCCATCTTTAGCTGGTAAATATTTAGATAAAAATTCATTAAAATTTCTTTCACCTATGAAACATATACCTGTACTATCTTTTTTCTTAGCTGTTTTCAAATTATATTTTTCTGCAATTTTACGTATTTCTGTTTTTTCATATTCCCCTATTGGAAATAGTACTTTTTCTAATTGTTTTTGATTTAATCCACACAGAAAATAGCTCTGATCTTTATTATTATCAACTCCTCTTAAAAGTACTTTTTCTCCTTTTTCATTAGTTGTTAATCTTGCATAATGTCCTGTAGCTATATAGTCTGCACCTAACTTATTTGCATAATCTAAAAATGCCTTAAACTTTATTTCCTTATTACACATTACATCTGGATTTGGAGTTCTTGCAAGCCTATATTCAGATAAAAAATATTCAAAAACTCTGTCCCAATATTCCTTTACAAAGTTTACTGAATAATATGGTATTTCTAATTGTTCAGCTACTGATATTACATCTTCATAATCAATATCTGACATACAAACTCCATTTTCATCTTTTTCTTCCCAATTTTTCATAAATACACCTATTACTTCATAACCAGCCTCTTTAAGTAAAATTGCAGCAACAGAAGAATCAACACCTCCTGACATTCCTAAAACAACTCTTTTTTTCATATTTATTCCTACTTTCGGTATTTTTTTAAATTAATTTTATTATACTATATTTTACCATACATTTACAACAACAAAGCCTTTTAAAATTATTTTTTTTGTGTTATAATCAAAACATATTTAGGAGGTTTTTTATGGGTAATTAAGAAATGATATACGAACTTTTAAAAAAGCTTAATATTGAATATGTAACACTAAAACATGAACCAATATCTTCTGTTAAAGATCATTTATTTGAATTAGAAGGTCAACAAATTAAAAATCTTTTATTAAAAGCTAAGAAAACAGAAAATATTTATTTAGTTCTATTGCATGATGAAAAATTATTAAATCTTACAGATTTAGCTGAAAAATTAAATGAAAAAAGACTTTCATTTGCAAGTAGTTCTACTATGCTAGAATTAACAGGTTGTAATCCAGGTGAACTTACTCCATTTGGATTAATATTTGATAAAGAAAAAAGAATAAATCTAATCATAGATACAGCGATAGATACTAATACAACAATAGGTGCTCACCCATTTATTAACACAAAAACACTAAATATACAATTTAAAGATTTTGAAAAATTCTTTGAATATACTGGACATAAGATAAATTTTATAGAATTATAGGACAGGGGGGCTAAACAGCCTCTTTTTTTACGAAGTCTTTGTTTTCATTGTTATTATTAGAAGCACCATTTGGTTTATTCTCCAAGTTAAACTCTGCTCCTATCCATGGACTTACTTTTAATCTTCCTTCTACATAACTAAATTCTGTTGATATTTTTGGCTTCACTGTTAATGAATGTATTGCTTTTTCTAATTCTGCCTTTGATGATAGTTTTCCTTTTGTTAAGTCTTTTATCTTTCCTTTTTCTTTTCTTAAACTATCTTGTTTACTTACATCGTATTTCTCTGCATATTTATGTATACTTTCCTTATAGCCTGTTGAATCTTTTATATAATCTACATATACTCCATATACTTCTTTATTTAAGCCATTTAAATTATACTCATTATCTAATGATAAGATTACTTCTACATTCTCTCTTGCCTTATATCTACTCTTCCCTCCAAAGTCTATGCTTAGGGCTTGTTTTATTCCTTCATCTGTAGCTGTAAGACCTTTATGAAACACCGCATCTAATCCATATTTAGCATCAATATTTATTTCATTTGTGTATCTTCCATTTACATTCTTATACCCTAACACTATATTTGCTAAGAATACATCGTATAAGTCTTTATCATTAGCTACTTTATGATTTTGGTCTGTATGGAAATGTACTTGGTTGTATAAGTTTACTTTTCCTTCTATCTTGTTATTATCATTTATTTCATAGCTTACCTTATTTTCTGTCCATACAAATCCTTGATGTCTTAGATCTTCTGGTTTTTGGTTTTCTTTATGTTTTGTGTCAAATAAGTATCTTAAATCTATTGTTGATTCTATATTTACTTCTTCTATCTCTTTTTTTAATGATAGTCCTGCTCCTGTTAATAGGGCATGGTTGTATTCTTTATTTCCATTAGTAGCTTTTAGATTAGCTCCTAGCTTGTATTCTGCTAATGTGTGTAAGTCTAATCCCTTTGTTACATTTAGCTTTATCTTATTTGATGTCTTAAAGTCATTATTAAGTTTACTTACTTCTTCATTAACTTTATGCTCTATTGTAACCTTATTTGAATTATCTGATATTAGAGATAGTTTTGTTGTTGGTTTTATTGTTGCTCCTAGCTTTACTTCTGGTTCATGAGTTAATGTTGTATTACCATTATCTTCTTTAATCTTTAATTTGTAATTAAGATCTCCTCTTAGATCAACTGTTTTTCCTTTATATTCTCCATTATTTAATAACTCTACTTTTGTTTCTCTTTTAGTTCCCTTTAATATGCTCTTTAACTCAAACTTTGCCTCATTTGTTAATTTTACTTTTTCATTTGCATCTGTTTCTACCTTAACATCTCCACATTAGTTTTGAAATAAAAAAAGGTGATTAAGAATTTCAAAAAAAATTCTTGAATCACCTCTTCTTTTTCTGTATAATTTAATCGCCAAACCAAATAACAGAAAGGAGTCAATATAATGTATAATTCTAATAAAATTAAATCTATCTTCTCCAAATATATTTTAACAAATTCTATTAATTCTATCAAGCCATATTTTGATAAAAAACATATTGAACATATCAACCATTCCATTCATAATTTTCTTAACTGTGGTAATCTCTCTAAAGGCTTTATCTCTTATCGTTGTTCCTCTTGTAATTTTCAACATAAAATGAAACTTACTTGTAAATCTAGACTTTGTCCATCTTGTGGTTATAACTATTCTGTTAATTGGACTAATTCTATCTTAAAACAATTTATTAACATCCCTCATAGGCATGTCCTTTTTACTGTCCCTAAAGAATTTAGAAAATTTATTGCTTATGATAGATCTATTCTTTCTAAAATGTCTAAAGCTATTAATAATATTTTTAAATATCAATTCCATAATATCAAAGATAAAGTTAAAAGAAAAATATATATCCCTAAATCTAATCCTAATTACTTTACTAATTCTGATATTATTAACTACGGACTTATTACTGTTATTCATACTTTTGGTAGAGACCTTAAGTTTAATCCTCATATTCATGCCATCATCTCTCTTGGAGGTTTTAATAAAAAATTTCAATATAAAGAACTTAAATACTTTCATGTCCCCTCTATTGCTAATCAATGGAAGTTTTCTCTTTGTAAATTAATTAGTAATGCTAATTATCCTAATGATATTATTAAAATACAAGCTAAAAAAGCTGTATCTAATGTTTATGATAATGATGTTAGGTTATTTTTTAATGTAGCTGGTAATGATATTAATAATCCTAAATACATTATTAAATATCTTGGTAGATATTTATCAAGAGTTCCTATTGCTGAATATAAGATTGTTAATATTGATTTTAATAAAAATTCTCTTACATTTAAATTTGAAGATTTAAGTAATAATAAAGAAGTTACTTATTCTACTTTATCTTTTAAAGATTTTGTTGCTAAAGTGCTTTTTCATCTACCTTTAAAGTATTTTAAAATGATTAATAGATATGGTTTCTATGCTAGAAGAATTTCTTCTAAAGTTAAAATGTCTCTATTTTATCTTAAAGCTCAGGTTAATAAAAAGTCTCTTTCTTTATTTAGGAAAAACTTTAAAGAACTTTGGGACTTTGACCCTTTTATGTGTCCTCATTGTAATATTTATCTTAAACGTTATGAACTATTTATTGATAATGGTCTTTCTCCTCCTATTCATAAGTTCTATAATTAATATATTATGCCTATTTTTATGATAGGTAGTTTTGTTGTTCTCTTATTTTTTATTCTATTAATTTTTCTTTTCTTTATCAATATTTTTTTACTATTTTCTTTTATTTTTTTATCTTGGATATTTTTTTAATTTCCTATAGAATAAAAAACTGCTTTTTCAAGCAGAATTTTTTATTTTATTAACCTAAAAATTTAATTTTTTCACATCTATAACTCTAACTATTTTATATTTTTCATTTATTTATTTTCCAGCTAAAATTCCTAAAGTCGTATTTATTAAAAAAAATGCTATAATAATTATAGTAAAGATTACTATTGTTTCATGTAATTTATACCATTGTTGATTGAAAATAAGCACAATTATTCTAATTGAAAATACAACACAAACAATCAATTTGAAAAATTTTAAGAAACTAGCTATTTGACTAATAAAACTTTCAAACCCTATTACTGAATTTTGAAATGTATTAGCTAAAGCTAATGATGAAAAAAATAAAATTACTCCTAAAATTAAATATTTTGTTTCAATGTTTTTAATAAATTTTTTCATAAATTTTCCTTTCTTATTTTTATATTTTTTTGTTTTTGTTAAATTTTAAATATCACATTTTTATCACCCCTTATTTTTTGATTATTAATCCTAAAAAAAGAAAAAGATCCCCATGCTAGTTCGCTGACTAGCATAAGTACCTTAGATAATTTAACACGTCGATTAAATCAGTAATTTATTAATAAGATAAAACAACTTTTTTATCTTTATATTCATATTGTTTTGATTTTTTAATATAATTTCACACATCAATTAAATTTGTATAGAAATATGATATAACATAATTTTATATATTGCAACAATTTATTTTAAACATTACAAAAATATTTAAAATAAGATTTATAAATAAAAAACCTAGCTTTCGCTAGGTCATATAAATTATTTTCTAATTTCTTTAATTCTAAAAGTTTTTTTACAGTAACATAATAATTAGTATACTATTTATAAAATTGTCAACTTGTTACCAACATAACCATATCTTATTTTAAACTTAATTCAATTTTATTTCTAAAAGTTTGCATTTTTTTTAAATTTGATGTATAATACAAATGTAATTTAAAAATACTTGAATGACATATAAAAGAGAGGTTGCCGCCTCTCTTTTTTTTGTGATATAATATACAAGTCCATGCCCTGAAAGGAGGTGAGGATATGTCATTCAGGTATAAGTTCATTATATTTTTAATACTGCTTTACTTATTATTTCCAGTAATAGCATATTAAATTTATAATTAACAAGGGACTACGGCAATAGTCCCTTGTTTTTCTCTCACTCTATATTAAACATAGAGTGAAATAAAGCTAGTTTTTACTTTACAAAATTAATATATCTCTCATTTTTTTCTATTTTTAATTTCTGCATATATTTTTTACCCTTGTAATCTAACTCAAACTCTACATGATTTCCTTTACATAATTTTTCTGCAATACTTTTTGTTATTTTTAGATTGTTATCAAAATATTTCATATTAGGATATAACCATATTTCTTCATTATTAAATAACCCTTTATAACATTTACCATTTTTAGTATTAATTTCAACTACTCCTTTAATTTCTCTACTAAATCTTTCTACACTAGGCATTTCTATATGTTTAGTTCTTTCAACTATATCTTTTAACTCATATTCTACTTTTTCTATCACTTCTTCAAGATTAATTTCATTTTTATACACTTTCTTCTGTAACTTTGAAAATTCAACTGATTTTTCTTTAAATAAATTAATGTTATACTCAATTAATCTATCAATAAAAAATATTCCATATTCAGTTATATCAAATACCCCCTTATCCAATGTTAAATAACCTATTCTAATACATTTATCAATAATACCAGTTCTTGTTGCTTCTGTTCCTATTTCTATACCCTCTAATATATCTTTGTATATTTCTTCTTCAGTAGCATTCTTTTCCTTTTTAAATGGATTTTTTAAGAATTTAGATAGCTCACTTTCATTTACTTTAGATGGTGGTGTTGTTTCTTTTTCTACACTTCTAAATTCAACATCAAATTCATCATTTAAATTTAAACCAGGTAATTTATCTTTATACTCTTTAGGTTCATATTTCATAAATCCAAGTTGTTTAACAACAAAACCTTTTAATTTAAATTCTTCTTCATCAACTTTAATAATCATTGTAGTTTCAGATACAATACAATATTTTAGCTTCTACACTTAAATTAGCAAAATGTTCATTTACAACTAAAGCTCTTGGAACAACTATAAAATCAAAATATTCTACATCTGACATATAAAAGTAATCCATATTCATATTCTTTTCTCCTTTTTAAACCATTTAATTTAATCTATTAATCTATTAATTCTATTATTTTTATTATTTCTATTATATATATTTGTTATGTTATTATTACAATTCCATCTACTATATATACTATAACTATATAATTTCTTTTTTACTAATATTAACTATAATTATTTTAACTATATATTATTATAACTATTATATATATTGTGAAATTCACAATTTGCATATTATGAAAATCACAATATGGTTTAATTTACAATTTAAAGCTCATACAAAAACATTTTGTGTTTAAGAGATGAATTGTCAAAAAACACATTTTTAAAGCTTGCAGATGTATAATTTAGCATATTTTTGAGCCATCTCATAAATATTTTGTATAAATTAAAAATAATATTTTTAATTCTCTATTTCCTTACAAATTTTATTAGTCTATAATTTTAGTATTTAATTCGATTTTATAAGCATAATGTTGTTTTTTTGGATTATTTTTTATAATTATATAAAAAATAATCAAAATGCAACACTTTTTTCTAAAAAAATAGATTTTTATTCTATGAATATAGTAAAATTTATCAAAGGAGAGATAAATATTATGAAAAAAAAATCAAATTTTAACTTCCGTTTAAAAGAAGCACTTAAAATAAAAAAAATGAGTCAAAGAATGTTAGCACTCCAAACTAATCTTTCACCAGCAACAATTTTTAATTATTTAAAGGGTAGAAATGCTGCCAAATATGAAAATATAGTAAAAATTGCTAAATGTCTTAATATTGACCCTCAGTGGTTAGATGGATATGATGTACCCATTTCAAATTTATTCATAAATTACCCTTTTACCATAGCTGAAAAAAAAGATTTAGATAATTGGCTTAATACAAATAAACTTTATTTTGATTCATTAAATATTAGTTCAGATGATAAAGAAACATTAAAGAATATTATGATAGAAAGTTTTATTAAATCTTTAAAAAATAAAGATAAATAAAATTTTTAGGAGGAATAATGAAAGAAAATTCAAAAAAATATGAAATCATTTATTCTAATTTTCAAAATTTAGAATATGGTATTTTAATACAAGGAGAAAATAAATATCTTTTAATTCTTAATTCTAAATTGAAAAAGAAAATTATGAAAATTACAATCAATCTAATGAAATACTTAATTTCAAAGAAAAAATCAACAACATTAATTACAAGACAAAATTTAGATAAATTCTATAATTTTGTCTTTTTTTGTATAAAAAAGCATACAAAAAGAAAAAGAAAAGCACATGTCAAAATTAAAATTACCAAATAGTTTTGGGTCTATAAGCAAATTAAACGGAAACAGAAGAAGAAAATACATGGTCAGAATTTCATTGCCATTAGAAAATGATGGAAAACAAAAAAGATTAATTTTAGGATATTATAAAACATATAGAGATGCCTATAATGCTTTAATTGAATATAATTCATCTCCTTTAAATATTGAAGATGCCAAATTCTTTAAAGTTAGTGTATTATTTGAAAGATTCAAAAAAGAAAAAGAAAATTCAGTTTCTAAACAAACATACAAAAGATACATTAATTCCTTTAATGATTTTGAATGTTTATTTGATAAGGAAATTAGAGAAGTTAAATATGATGATATACAAAAAATATTATCAAAACAAGTTAAAGCTAAAAGTTTAAGTTCTTTGGTGGTTTGGAATTGGATATTTGAAGAATCAATAAAATTAGATATTATCAACAAAAATATATCTTCACATTTAAAAGTATCAAGTAAAGTTACTAAAACAATTGATAGAACCATTTATAATGTTGACATAATAAATAATATTTGGAAATTAACTAATGAAAATAATTTTGTAGCGGACATCCTTATTTGCCTTTTATATTCTGGATTAAGAATTTCAGAATTACTTGAAATGAAAAGAGAAAATGTATATATAGAAAATAGGTATCTAATAGCTGGTAAAAAAACTCAAGCCGGTAAAAATAGAGTTGTACCTATTCATAAAAGAATAAGTCCTATTATAGAGAAATATTTGGAAAAATCAAAAATATCTTCTTCAGAAATTGTTTTTGGCAAGTATAATCAAAATGGGTTTTATAATAAAATAAGTTCTGCTAATTTTAGATATTATTTTTATGATTTTATGGAAAAAATGAATTTAAAGATGAATATACATTCAACAAGACATACATTTATTTCAAAAATGAAATCCCTAGAAGTTAGTGACTCAAAATTAAAAAGAATTGTAGGTCATAAAGGAAATGATATTACTGATAATGTATACACTATATACAGTGCTTCTGATTTAATTAATGTAATTGACTTATTTGAATATTAATAAGTGTTGCCAACATAGGCTATTTTTAATCATATTATAACCATATCTTATTTTTTAAAGATGTTAATAGATATAGAAAAACCTAGCTTTCGCTAGGTTCATATAATTATTTTCTTATTTCTTTAATTCTAAAAGTTTTTTTACAGTAACATAATAATTAGTATACTATTTATAAAATTTGTTGCCAACTTGTTACCAACATAACCGTATCTTATTTTAAACTTAATTCAATTTTATTTCTAAAAGTTTGCATTTTTTTTAAATTTGATGTATAATACAAATGTAATTTAAAAATACTTGAATGACATATAAAAGAGAGGTTGCCGCCTCTCTTTTTTTTGTGATATAATATACAAGTCCATGCCCTGAAAGGAGGTGAGGATATGTCATTCAGGTATAAGTTCATTATATTTTTAATACTGCTTTACTTATTATTTCCAGTAATAGCATATTAAATTTATAATTAACAAGGGACTACGGCAATAGTCCCTTGTTTTTCTCTCACTCTATATTAAACATAGAGTGAAATAAAGCTAGTTTTTACTTTACAAAATTAATATATCTCTCATTTTTTTCTATTTTTAATTTCTGCATATATTTTTTACCCTTATATTCTAACTCAAATTCAACAGATTTTCCTTTACAAAGCTTTTCTGCCGTACTTTTTGTTATCTTAAGCTGATTATCAAAATATTTCATATTTGGATATAGCCAAACTTCTTCTCCATTAAATACACCTTTAAAACATTTACCATTTTTAGTGTTGATTTCAATTACTCCATCTTTTAACTTTTCTTCAAATTTAGGTGCTTTTATATCCTTAGTTCTTTCAACTATAGCTCTTAATTCCTCTCTTACTCTTTCTATTACTTCTTCAAGCTTAATCTCATTTTTATATACTTTCTTCTGTAACTTTGAAAATTCAACTGATTTCTCCTTAAAAAGATTAATGTCGTATTCAATTAATTTATTAATAAAGAATATTCCTAACTCAGTTACATCAAATACACCATTATCTAATGTTAAATAACCTATCTTAACACATTTATCAATAATACCTGTTCTAGTTGCTTCTGTACCTATCTCTATTCCTTCAAGTATATCTTTATACATTTCTTCTTCAGATACATTTTTTTCTTTTTTAAATGGGTTTTTTAAGAATTTAGATAATTCACTTTCATTTACTTTAAATGGTGGTGTTGTTTCTTTTTCTACAGATCTAAATTCAATATCAAATTCATCATTTAAATTTAAACCAGGTAATTTATCTTTATACTCTTTAGGCTCATATTTCATGAAACCTAATTGCTTAATAATAGAACCTTTTAATTTAAATTCTTCTTCATCTACTTTAATAATCATTGTAGTTTCAGATACAATACAATCTTCTTTAACAAAATTAGATAAAAATCTATTATATACCACTTTATATACTTTATCTTGTTCTACAGATAAATCTCCTGGTATTTTTTTAGTTATAGTTATTGCACTATGAGATTCAATTTTTGAATCGTCAAATATCTTTTTACTATCTTTAAACTCTAAATCTTCATTATTTAATACACCTAGAATATCATTTACTTTCCCTTTTTCATTTTCTGATAGATATTCTGTATTAGTTCTAGGGTATGTCAAATATCCCTTTTCATATAGTTCTTGTATTATCTTTAAACTATTTGCAAAATTTATCTTATATTTCTTACTTAATTCACTTTGCAGAGTTGATAAAGAAAATAGTTTTTTAGATTGTTTTTTAACTTCTTTACTATCAATACCTATTACTTTAGCCTTTTTACTATTTAATTTATTAGAATAAATTTTTGCTTCTTCAATAGTTTTAAATTTATTGCTTGAAATAAGCTTTACTATGTTTTCATTTTCTACACTATAATATTTTTCAACAATAAAATTTTTAATTTCTTTATCCCTATCATAAATATATTTAACGATAGGAACTAAAACTCTACCAGCATTTAACATTTTACCAGATAAATTAGTAAACATTATTGTTAAATTATGTCCTAAAAGATAGTCCATATATGCTCTAGCATATCCCTCTTGTTGTAAGTTATAGTAATCACTATTATCTTTTAAGTTATTTAATTCTTTTCTAATTGTTTCTTCTGTTTGTTCTGGTAGCCATAATCTTTTAACTGGTGCTTTATTAACATTAAATTTTAATAAATTATCTACTATTATTTGACCCTCTCTATCAGCATCTCCACAATTAATTATTAAATCAGCCTTTTTCATTAGTCCTTTTATTACATTTAATTGTTTCTTTACTCCTACATCATCTTTAACTTCATATACAAAATTATTTGGTATAAAAGGCAATGTATATTCTCTCCATTTTTTACCAACATTTTCCTCATAGTCCTTTGGTTGTTTTAGTTCTAGTAAATGTCCTATAGCATTTGTTACTACAAAATCATTCTTACATTCAATATATCCCTCATTTTTCTTTATTATCCCTATAGCTTGAGCAATGTTTCTGCCCAAGCTTCCTTTTTCTGCAATTATTAACTTCATTATCCTCTCCTCATAGTATTTCCTAGCTTTCATTCACTCTATATTAAACATAGAGTGAATATTTCTATTATAATACTTTCCATTTAATAAATTTTCATTTAATTTTTCTATTTCACAATCACTACCAAAATATTCAAATTGAATTTCATTAAATTTATCAAATTTTTGAATACAATAATAAAATTTATTTTCTAAATCAAAATAATCAAAATCATCATACTTAAAATACATTGAATATATTGTTGATTTTAATTCATCTACAAATTCATTATTATACACTTCTCCAAATTTATATTCAATTTGTTCTAATAAAAACTCAACACTTCTATATAAATTTTCATCATTAAATTCAATACCATTAATCATTCCACAAAATTTACTTATTATCTTTGATTCCATAATAATCACTCCTATATATAATATTTACTATGTTTTTTTCACTATATACAATGTATAGAGTGAAAATTTATCTTTCTAATTCTTGTTTATCTTTTTTAGTATTCCAATTATCAGAAATTTCATTTTCTATTTTATTATTTATATTCTTTTTTAAAATACCTTTATCATATTCCTTCATTTTTTCATTTTCTATAATTCTATCGTAAATATCAATACATTTTTGATATGAATATTCTGGAAAAGTTTCAAGCATTTTATTTTTCTTTTCATCAAATGAATATCTTTTAAATTCAAGTTCTGAATTTTCTTTTAAAATTTCAATAATACTATCTCTATAAGAATAATCAACATTATTATCATTATTTCTAACTAAAAAAGTTTCAAAATAATATTCATCATCAAATTTATTAACTAAACCTAACTCTAAAAATTTATTATTATTTAAATTTAAAATAAAGTTTTTTGATTTTATATCACTTTTATCACTAAAATTAGTTTTTACAATTTCTCCTTTTTCTAAATTTTCAAAAAAAATTCTATATTATTTACTCTATCATTTAAAATTTTAAAATTCATTTTTCCACCAGTTTTAAGAGCATTTTCATATATAGTTTTATCATCTAATTTATTTTTTAAAATCTTATATCCTTCTTCTTTTGCTGTAGTTGGTCTGCCACAATATTGCAATCCCAATAAATGACAAAATCCACCAAAATCAAAATTGAAATTAATACTAGAATTTTTTGTTAATATTTTAAAATTATTTTTAAAGTGAATTTCATATTGTTTAATTATATTATATATTTTATATTTATTATCTTTCATTACAATTTTCTCCTTAAAAAAAATAGGCTAGAATAAATCTAGCCCTTATCAATTTTTTTGAATATATCCCAATTCTTCTATCAAAAAATTTAAAATCTAGGTATACTGGAAAAATTCCAATGGCATATTTCAGACCCGTACCTCGGCACCTTAGTATACATAAGGCGAAGCTCATATCCTTCATTTAATATATTTTAACACATTATTTCTAAATTTTCAAATTTTCGATCTAATTTATGACTAAATTTCTTGTATTTACTACATTTCTTTCACTCTATGTTAAACATAGAGTGAAAACTTATCTTTCCATTACTTCTTTATTTTCATTTTTTACCCAAACATTTTCCTTTTCTTTTGTCTTTAATTTTTGTAAATCATCATTCCAATCTTTTTCTATAGATTTCTCTCTATAAAAATTTATATCCTGGTATTTTGCTTCTAATTTTTTAAAAAAATTATCTCCAGCTACATCATTATCTGTACAAACATATACATTTTTAATATCTTCGATATAATTTTCAAAAATATCTTCTCTTAAACCAGACAAAGTTAGAAATCTAACATTCTCATCTTTCCACTTATCATTAATTTCTTTTTGAAATAACTGTATGTATGATAACATATCAATAGTTCCCTCAAATACATACAGATTATTAACTTTAGGATTTTTATTTATATCTCTTCTAGTTATATTAAATCCTTTTGATTCTGATGTATTTCTTCTGTATTTTATGTTACCTGTCCCAATTATTTCTTCACCTATAGCTTTTTCATTTTTATCTTTAATAACAAATATTATATTTTCTTTATAATCCATATATAGTAATTTATTATAATATAATGAATCTATAAATTCAGGATTTATTCCTCTTTTTTCACACAAATATTCTTTTATATCATCTAATTTATTTTTCTTTTCATATATCTTATATTCAATTTTCTCTTTATCAACCTTAGTCTTACTTGGAATAAAGTCTCCATATTCAACTGCATCTAAAAAAGATTGTGTTGTCTTCCATATTTCTTTATTATTAAGTCCATAAAGTTCCTTTAATAAAGAAAAATAATTTCCACCAATTCCTTTAGAGTTCCAATAAAATTTATTGCCTGAAATTATTAATGAATCGTGTTTTCTTAATTTAAAATGTCTTCTACCGTGAGGTATTATATCTTCACCTAAATATTCTAATAGATCTTTTAAATTGATATTACTTCTATCAGTATTCATTTCCATTTATATCCCCAACCTTGTACCAAATACAGCCTTTTCTCTATAATATCCACTTAATTTACTTACTATAGTTTTTTTAGCTTTACTTGATGCATGTATGAATTCATTATTTCCTATATATATTCCAACATGACTTACATAATCTCCTAATGTATGAAAAAATATTAAATCTCCAATCTCAAGTTCGTTTAAAGATATTTTTTCACCAATTTTTGATTGATTTTTACTAACTCTAGGCAAATCAATACCTACTTCTTTATATAAAGCTTTAACAAAAGATGAACAATCAAAATTATTATAATCTCCAACTTTTGCACCCCACAGATATTTTTTACCCATTAATTCTTTAGCTTTCTTTAGAATTAGTATTTTCTTTTTATTTTTTTCAAATCTTTTTTTCTTTTTTATTTCTATCTTTTCTTTAACTACTAAACTTTTTTTAAGTTTAAAATTATTATTTCTATTTACAAAATTAATTCCATTAGAAAATGATATATATGTTAGTAAAATAAATATAAATATTTTTTTCATAAAAACTCCTTAATATATCGTATTTACTATATTTCTTTCACTCTATACTTTATATAGAGTGAAAATTTATCTTTCTAATTCTTGTTTATCTTTTTTAATATGCCAATTATCCTTAATTTCATTTTTTAATTCCTCACTTGCAAATAGTAAAGAGCTTTTATCTTGTTTTACAGCTTCTAGTACAATCTCTCTGTCATTTTTCAACTCTGTACTTGCATATTTCAATTCGCTTCCACAATTCATTACAGCTATCTTTACAACTTCCTTATTATTTCTTATCTCATCTCCAGCATATATTAAAGAACCACCATTTTTTAATGATTCTAATACTATATCCTTATCATTTTTCAATTCATAACTTGCATACCTAATTGCATCTTCATCATTTTTTATTGCTTCTAACATAAACACTTTATCATTTTTTAATTTATCATCAATATATTCACCAACTCTTAAATTTTGTTTTATAGCTCTTAACATAAAATCTTTATCATTTTTTAATTCTTCACTACCCCATTCAAAAAAATATGGGTTATTTTCTATTGCTTTTGACATAGTTTCTTCATCTTTTATTATTGCTTCATCTATATTTAATGCTCTACATATATTTTTTTGCCAATATTTATAATTTTCTAATTTTTTATCTGTTACTTTTTCACTATGTTTTACAACCTTCATTGTATAATCACTTGTATCAGGTATATCAAGATAATCAAACTTTAACTTAAACTCTCTCCAGTATTCTGGATTTTTTTCACTATATATTGTAAATTCTCTTTTTTTATTATCAACATTTACAATAAATTGATTAGATACAGTAGACCCATTACTATTTATAACATTAATACTACAATGTAAAAGTTCTTCCATATTTTCTATTTTCTTTTTCATAAAATCCCTTCTATATATGATATTTACTAAATTTATTTCACTCTATACATTGTATAGAGTGAAAATTATTTAACTATCAATTCAACTCTTCTATTTAATGATTTATTTTCTAAAGTGTTATTATTTGTAATAAGTTCATTAAATCCTACCGTTCTAATTTGATTGACTTTAATTCCTTTATTTTCTAAATATACCTTTACTGAATTAGCTCTATTTAATCCTAATTCTAAATTATATTTATCATTTCCATCAGTATCTGTATAACCTATAACTATAATCTCTCTATTTTGTAAATTAGGAACTAAAGCATCAATAACATCTATTTGTTTTTTATTTAAAATAAATTTATTTGAATTAAATCCATAAATAGTATATATCTCTTCAACTTTATTTTTATTTTCATCAAATGATTTAATTAGTTTAGATAATTTAATTAATTCTTCCTTAATCTCTTTATTCTCTTTTTCTAAATTTTCAATTCTACTTTCATTTTCATCAATAGCAAGAGTTGGTGAAACAACATTAATTACTTCTTTTTCTCCTTTACCAAATGTATATGAAAACCCTGCTCCAGCTCCAAATTCTAATCTACTATTAAATGATGCATTAGCACCAAATCCAAAATTTTTATAATGTGTTGAATAAGAAATAGCACCTGCAGTTTCTTTGCCATAATATCCAACAGAACCAGAAATAGTATGTTTATTATTCCCTAAATTTTTCATAGTAGAAGCTGTCGCTATTGCTGAAGCTACACCACCATTAGCATTTTTAGATATATTATTTAAGTTATCAAAATTATTCATTGCTTTATTTAAATTTTCAAATTTTGAAATATCAACTATACCTAATTTCTTTTTCCATTCATTAATATCATTAGTTTCTAAATTAGCTGCATCTTTATCAGCTTTAACAGTAACACTTGTATTAGGTTTAGTATTATTATTTGAATAGGATAAATATCCAATTGCACTTATTATTAATAGAGTGCTAATCCATAATTTTTTCATTTCATAACTCCTTTTTACTTTACAAATTTTATATATTACACTGTATTTACTAGCTTTATTTCACTCTATAGAATCTATAGAGTGAAAATTATCTTTCCAATTCTTGTTGTTTATCCTTTTTTACATTCCACCCAATATTCTCTTCTTTTTCTTTTGATATTTGCTCTTGCAATCTTTTGCTTGCATATCTTAATCTGAAATCATCTTTTTCAATAATAGGTCTCATAAATTCATCATTATCTTTCAATCTATCACTAACAAAACTTAGGTTGATAATCCATTTATCTACTGCCATTTTACTTAATTCGAAATCATCTCTTAACTCTGGATGTAAATTTTGAAAGTCTCTAGGCTCAATATCTAAATATATTCTCCCAATTTCTTTATCTTTCTTTAAATCCTCACTAATAAATTCATAATTGTGATGATATTGTTTAATTAGTGCTATCGCAACTTCTTTGTCAGCAAGTAACTCTTCAGAGAAATCTGTAACTTGTGGCATTCCATTCAATACCACTTCATTATTAAATCCTTTTGTTAATAATTCCATTGCTTTATTTTTGTCTGTTATTTTTATATTTTCCATAATTATCTCCTTATTATCTTTCCAATTCTTTTTCATTTTTTTTCTTATTCCAACTTGTTTCATTTTTTTCTAATACATCTTTATTCAAATACTCTTTAACTTCATCTACAACATCTTTTAAATCCATTTCATTTAAATCAATATCTAAATAATCAAATATTTCATTTAATCTTATATTTGCACCTTCATTAACTAAAGATTGTATAAATATAACATTATCTTCCATATCAATATAGAATTCTTTTAAATTATCTACTGTGTCATAATATAAGTCTCCACCGTGTACATATTCAAAATCAAATCTTAGTTTTTCAGCTTTATCATAGTTTGTAAATGTTTTATTAACTTCATTACTTATATAGTTATCAAAATCGTCGCGTAATCCCACTTCTTCTTTAGTAATTTCATCTAATTTATATTCATCTAATGATCCAAAGTAATCTACAATATATCCGTTTATATATTCATCAAAACTTTTAGAATTGAGTGCCATAGCAGAAACTACATCATTAAATATATTTACTTCATCATAATCAGCACCTCTAGTTTTTATTTTTTTAACAATTTCTTCCAATCTGTAAACTAACATTTCTTTATTATTTTCCATAATTATCTTTCCTCTTTTTATATTATTTAATTTTTAATATTTTTCTATTAATTTTTCTTTTTCAAAATCATCTAAAAATACATCATCTCTATCATTTATTCCATCTCTATCTGTATCTCTATCAAATGGATCTAATCCTCTTCTAATTTCTTCATAATCATTTAATCCATCTCCATCACTATCTCTTAGTAATTCTTGATTAATTTCTTTTTCAATTTTTTGTGTTTGATTTTCTATAACTTTTTCTAATGTCTCAATAACTTCTTCAATAGCTTTTTTACTCTCTTTATGTTCTATAGAATTATTACTAATATTATCTCTTAAAGCCTCTAATCTCTCTAAAAAAGCATATAATATATTTATAAAGTCTTCTGTTTTTACATCTTGTACTTTCTTATTCCTTATAGTTGCTAATGCATCTGCTCTTTCAAATAAACTAGCATTCATAAAATTTCTATTTCTTACTTCCCTCATTTTTCTTTTTCTCCTCTTCTAATAATTTTGCTCTCTCTATTCTAAATATTTTTCCCCTCTCTTTTAGTTCTTCTTTTTCTATTTCTGTTAGCGAATAATAACTCATAAGTAATCCTATTAATAAATCGTGATTTTCATTATCTATTTCAAGTAAAGTAAATAAAGTTCCTAATTGTATTAGTTTATGTGCTCTTTCTTTTCTTGTAATTTTTTTATTTTCTTTTTCTATATCACTTTTATTTTTTCTATTTTCTTTTATTAATTTGAATGCTATATCTTCTATATGTTTCATTTATTAAACCTATAAATTAAATAAACTTTATATTTAATATCCTTTCTCTTTATTGTTCCGTAATACCTTCCATCTATAGAATTCTCAACATCTCCTATAGTTAAAAATTCATCTTTAGAAATAATATATTTTTTATTAGAATTAATCGGTATGTTATAGTCTATTGTTCCTATCTCTTTTTTATTAATTAATACTTTATTATCTACATACTCTACTTCATCTCTTTCCGTTCCTTTTATTTCTTTAACTGTATCTAAATCTCTTAATTCATCACTTACATATTTCTTATACTCATCATCAATTCTATATACTATATAATCTCCTTTTTCATATTTATTAGAAAATCTATTTACAAGATACACTCCTAATGGTGCAGACTTACTAATATTTATCCTTATATTTGAAAATATTAAGATTATACTTACAAAAATTATTAATAATACTCTTTTTATTTTTTTCATCTATCATCTATCCTTAAAAATTAATTTCTAATTTAGTTGTTAAGTGCCACATAACACCTACTAATACTAAAAAGATAATAAAGCTTTGAGATATAACACTTGTAATATCATTTGCAACAAAATTTAAAATTGAATCATTATTATTGAGTGAATTCATAATAACTGTCGCTATAAAGTTTATAGATATTAATTTAATTGAAAAATTAAGTGCTAATGATAATATTTTCCCTATGTTATAGTACTCTTTTGTTTCTTCCATTACTCCAAATGGTAATAAAATAGCTGACAATCCTAAAACTAGTTTAAAGCTAATTAAAGCTTTAAATAAATTAAGCATCATCATAAAAAATGCTATATTTAAAAATAGAATTACAACTAATAAAACTAGAGTAAATATGAAATCTTGTGCAAATTCTCCTGGTAAAATTGACCATACTCCCCAAAGCTTAGCAATAGCTTCCCAAAGATTTAATGTTATTTTCTCTTTAATTTCCCAAATATTGGATATTTTTTGTACTCCAACTTGACCAGTTAATTTTTCTAGTAATTTATATGATATTTCTTCAACAACTCTAAATACTGTTCCATCTATTATCTTTTTTATTGCAAATAAATATACTGAAAATGTAAGTAATTTTCTAATAAATGTTTTAGAAAATTCAATTAGATTAAAAGTTGCATAAGCTTTATATGCATCAAATACAAACTGTATTACAAAAAATGTTGATAATAAATAAATACTTAGCTTTTCAATAGACTTTAATCCTTTTTCCATATAAAGTGATAACATCTGTGCAAAGCTATCCCAATCATAACTTACAGTATCTGAATAATCAGAAGCTACATTACTATCTGCAAGAGAAATAACACTGATAAATAATAGTAGAATAAGCAATATCCTTTTCCTCATCTTTCTCCTTTCTTTCACTCTATGTTGAATATAGAGTGAAAATATATTTTTATAATTTTTGTCCTAAAAAAAAGAAAAAGGTCCCCATGCTAGATCGCCGACTAGCATGAGAACCTTAACGATTTAACTCGCCGATTAAATCAGTATCTCATATTTTCATAATTATTTAAATTTTTAATATATGAATAAAAAAGTTTCAGTGTCCTTAATTTAAAAACACATAGCTAGCTCGCCGACTAGCATAAGTACTTTAATGATTTAATTAGCCAATTAAATCGGTAACTTATATTTTTTACTATTCATATTTTTATTTTAATTTTTTTTCTTATTTCAAAAATTATATCTCATCTTTCTGATATACTTAAACACCTAATATCCTTTTACAATTTCAGTGAAATCTGACCAATCTTCAACTTTAAATGCTCTAATATCTCTTACTGATTTTTTAAACCATTCTATAGTTGATAATTTATTTATTGCTTTATAAACATAAGTTAAGTTATTTTGTGTGGTTGTACTCATATAAACACTACCTTGTGTCCATTCAAAACCTAATAACTCTAACTCTTGTCTAATTTCATCATAAGCTTTATTATATGGTTCACCATAATATTTTTTTAAATCATCAACTCTTAAATCAAATGCTATTGCATACATTTTTATTCTCCTTTCTAGGATATGTAAATATTATACATCATTTTTTAAAAACGAGCAATTTAGTATAATATTATCAAGTTTAACTATTTATAAATCTAAACTATAGTAATCATCATAATTTTTTTCTTGTTTCAGTAATTCTATTTCAGTTTTTAATTCATTAATTTCTTTTTTCAATTCTTCATTTTCTGTTTTTTTATCTTTAACTTCTTTTTCTAATACTTCTAATCTATCATATACTTCAAAAAATTTTTCCTTAAGAAATCCTGCATAGTCATGAAAATCTTCCATTGTGAATAATTTACTTGTATCTATCGAAACACTATTTGCTGCTTCACTTGCAATTCTATAAACATCTAATTCATCCATAATCTACACCTCATAAACACATTTTTTATATATTAAAATTATATCATAAAAAATGCATTTTTACAAGGATTTATTATGGTTTCAATTAAAATTTTTCCTTTTTAATATCGTTTGATTTATTTTCTTTTTTATCCCTCAATATATCCTTCCCAATATCCTCATTCCAAATATCCTTTTTAACTCTATTACCATTTTCATCAGTCTTATAAGGATTATACTTCCTTGCAGTTTCATACTCTTTTCTAGTACCATATATATCCTTCTTATTTTTCGCAATTTCACTTGCTTTTTCAAATGCCTTTTCTTTGTTTTCTGGATTATTCATATGTTCTCTAAATTCTCTAAATGCCTCTCTATATCTTTCTAATTTAGAAACTGGAGTAGGACCATTCTTACTTAATGAATTTCTAACTGCAACCATAGCTTCCATAACCCTATCTTTTGAACTTATATAATCTTTAGCATCTCCTGGAGAATCAAATGCAATATTATCTTTTTGTTCTTGCAATCTTTCGCCATCATGCATTACTTGATCTGAAGCTGTACCAAAAGTAGCTCCCCATAAATCTCCAGCCATATTCATAGCACTTCTATTTCCAGTTGCATATCCCACGGCATTTTGCATTCCCCTTGAAAATTTAGATCCAATTTTTCCAAGTCTACTATTTTTAGAAACACTTGCACCTTCTTTCATTCCACTTTTAGCAGCCTTTAATATTCCACCAAGATTTTTACCACCTCTACTTGCTGCCATTCCTTTAGTAAGTCCACCTTTAACAGCAGAAGCTCCAACCACAGCACCACCCATAGCTGCTGTTGCTCCACCTACAACAACTCCTAAAGCTTGACCAAATACACCATTTACATTGCTTGATCCTGTACCATTAATTAACATATTACCTAATTCTTTTGAATTAGTTATAAGATAAGCACATAAACTTAAAAGAAAAGCCCACGAAATAGCATTCCCTATATTAACATTATTATTTGAATTAAATGTAGTTTTTTGTAATAACTGTAAAGTAATTCCAGTTAAACATAAAGATACAAGTAATTTACCAGCAGAATTTAATAAAGCATTCCATAATTTAGCTCCTATACTTTTAGTTTGCTCATATACAGAAAATGGTAGTAAAAGAACACCTAATGCAATAATAACCTTAATTTCAACAAAATTAATAATAATTTCCTTTATTATTAAAAATATTCCAATAATACAAATTAATACTATAATTAAATATGTTAATTGAGCTCCAAATTGTGTCCAATGTAACTTAGCCCAATCATCTCTAATTTTAAGTACACTATCAAATAAAAATGAAAATATTTCATCAAAATCAGGTAGTCCTATTCTTCCTTTTGGAATTTTTCCAGAAGGGAAGAATAAGTAACCAATCTTAAAGATAATGTTGACTAATTCATCTGTTATAGGTACATAAAATCTAGCAATAGCAAAAAATATAGTATATCTAAATATCTTAGTAAAAAATACTTTTAAAAAAGTCATCATATCAGCAGAATATTCAAATATAAATGCTAAGATAAAATCTATCATAGCAATCATAGTCATAAAAAATAAAACTATGCTAACAAGTCTTAAAACTCCAGTAGATAACATATCAGAAAAAATTTGAGTAAAATTATTAATCATAACTTATCATCTACCTATTCCCATTTACAGACCCAACAAATCTAGTCCCTAACTTAATATTTTTAACTTTTCTATCAGATTCTTCTATAGCTTTTTGTAATCTTTCTGCTTCCTCTGCTTTTATCCTTTTTACTGCTATCTCTTCTTCTAATTTTTTATTCTCTGCTTGAATCATTATAGCAGCATTAGCTGATTGATTATCTAATAACTGTTCCATTACCTGGATTAAAATATTCATTTGTCCGTTTAATTGTTGTAAATTTTGTACTTCATTTTTAGGATCAAGTTTTTGTAGTTTTTGTTTTGTTTTCTGTATTATTGACATCGCCTTTTTATAATCTTCTCCAGCAATTTTGTTATATGCTTTAATATTTTCATCTTGAATATTTTTATTCTCAACTAATAGTTTTTCCCAACCTTCTCTTGTAGATAAATCAGAACTTTGAATAATATCTGAAAATCCTCTACTTCTATCAGTAAATTCAAAATCATCTCTAATAATACCTGATAATGCATTTAAAGTATTTACTATTCCAGCTAAATCTTTAGCCTCATTTTTACCTAAAGATTTTACTGAATCTATGTATCTTTTATATTGCTTAAGTTGATCTACCCTATTTTTAACCATTAATATTTTTTGTAACACTGCTTGTATATGTGATCCAGCTACTGCTACACCACCAAGTCCAAAGAAAGCTCCACCTACTGCTGTTAAAGCTGTCAGTCCATCTCCGATTGTAGAAACAGCATTAAAAGCATGATCTGTTCCATCATTTAATATCTCCCAATAATTATCAATATCATCAAACATCTTATTAAAATCAAAGCTTTTACCTAAATTTCCAACATTTCCAACATTCTCATTATCTGGTGAATTTAATTGGTCTAGTATTTCTTTTCTTTTTTTTATCCCATCTTTTTCTAAATTACTTTTTTCATTATCATTTTCTGTATCTTCATTCATAACACTAGTATTAGAGTTTATTTCAACATTTTTAGTTAAACTTTCACTAAAAGATAATGCAGAAATTAAAGTAACAATTATAAATATTTTTTTCATTTGTTTATCTCCTTTTATAAAATATCTTTTATTTGATTTATATTATTTATACTTATCTCTCCTATTTTGTATTTATAACTTAACCATTCTCTATTTAATTTTTTAATTTTTTCATTATTAGATAATATTTCATCATCAATCTTATTTTTTAAATTAATTATAATATTTTGATCATTACTTGTTGAAGAACCCAAATAAGCTATTTCAATATCTGAAGGATTTAACTGAAATAATCTTGCACCTTCTGTAGTCTTAACAAAGTAATCTTGTTTCATTGTCCCATCATTTATCTCTTTTATCTCTTTTTCTGTTAAGTTAAATCTCTTATATAAATCTACCCAAGCACTCATAGCTCTTTCATTAGGTAAGAAAATATTTGTTTTACAAGCATCAATTATAGTTGAGAATATAGGAGAATCAGCAATGTCTGATAAAGATTGTGTCGCAAATACAACTGATGTATTTTTCTTTCTTAATACTTTAAGCCATTCATTAATTTTTTCTCTCATTTTTTCATTTTTTAAGAAAAGCCAACATTCATCAAGTAAGATAAGTGTAGGTGTTCCATCTAATTTTTCTCTTTCTATTTTATGAAATATATAATCTAATAATGGTGCTACAACTTTTGGATTAGAAATTACATTACCCATTTCAAATGTAATAAAATTATTATCAGTAATATTATCAAAATTATTATCAAAATATTCTCCATAAACATTTTCTCCACAATATGAATCTAGTGCTTGTGCTACAGTTTTTGAACGAGATGCAATATATGTTCTTAAATTTGATAATGTTCTACTTTCAATTTTTGCAGTTGTAAGTGATTCTATAGATTGTTCCACTATATTTTTAGTAGTAGCATCATAAGGGATTCCTTCTTGCTCAAGTATTCCAATAATCCAACCTAAAGCCCACTCCTTCTCACTATTTATATGTATATTCTTTAATGGTTGAAAAGCTATTTCTTTTTCTCCTAAATCATAGAATTTTCCACCAGATGTATATGTAAGTACTCTACTTGAAGCATCTTTATCAAAGAAAAATACTTGAGATGGTTTTATTTTTTCTTTTCCTTCTTTATCTAATATTTTTCCTTCATATTTTAAGAAATTAGCTGCTATCATACTAAGTAAGAATGATTTACCAGCACCAGTAGGTCCTATAACCAAACTATGTCCAATATCTTTATTGTGAAGGTTAAAATAAAATAGTTCCTTATCAGTTTTAGTAGTAAATAAGGCAATATCTTTTAAGTGTTTATTTACCTTATTTCCTACATATAAAGAGGACATAGGTAATAATGCTGACAATAAATAAGTATTCATAGGCGATTTTCTAACATTATTTACAATATTACCAGGTAAAGCTCCAAAAATAGAATCTAGTGTATTGTATTTATCTTCTCCAGCTACAAAATCATAGAAATTAAGTATTTTTCTAACATCATTAACTTTTTTATCTAAATTTTCTAAATTTTTATCTTTAATAATAAATGAAAATGTATAATATCCGTAAGCTAATGCTCCAGTTTTAGCTTCATTTAATGCTAAATCTGCCTCGTCAACCTTATCAAGTGCTGTATAATCTATATTTTGAACTTCTTGCCCATTTTTAATTTCTATTAACCACTGTGCAAAAGATTTTACTTTAGCAGAAAAATATACTTTAAAATCTTTTAAAATTTTAATTGTTTCTTCTCTACTTAACATAATAAATCTAGTTACATATCTATATTCAAAATTTAAACTCTCAAGTTGATTAAATATTCTTTGAGTTACATTATCTGGAAACATATTAATTGTAACTACTTTAACATATTCATCATTTATTTTAGTATATTCTCCATTTGTTAAAGTTGATACAGTTAAGTATTCATCAAGCAACATAATATTATCTTTGGGAACTTTTACTTTTTCTCTTTTTTCCATATTTATTGCAGTGTATAGAAAAGCTAATAGCTCTTCTCCTTTTAACATTTCAACATCAATTGCAGCAGTTTTAACTTGTTCAATAAACATTAATATTTGATCTTTGTATTCTTTTAGTTCATTTTTAAATATCTTAATTAATTCATCTTTAGTATTTTCTTTTTCTTTATTTTTTGAAAATATACTTGTAAATTTATTTAATAATAAATTTATTTTTTCATTACTATCATTTTGCATTATATATGTAAGAGTAACAAAGTATTCTGTTGAATAAAATGTTTCTTTAGTTACAGAATTTTCTCTCATTTTATCTATTATCCTTGTAGGGTAAGGCTTATTTTTTAAATCTTTAGTTGGATATTTATCACTTTTATTTCTCTGTACTTCAAAATGTATTGAAAATCCATCTGGTAATCTTTTATAAGCATTATTTAATCTATCATTTATTGTTGTTATATCATCTGTACTTAAATAATCTAAATCATAAAATCTTACTTTAAATGTAGATTGAAAACCATTATTTTTATTTAATATTATTCCATCTTCAATCATAGTTTCAAAATGAATAAAAAATTTATATGATTTTTTATAGTCATTTAATATCTGTTTTAACATTTCTATCTCCTCTCTAAAATCCATAAAATTTACTGTAAAATATATTAATAAAAAATATGGATAAAAATTTTGCATCTTTTCTTGATACCATTTTTAATGAAATAAATAATATTATTAATGGTATTATTATTAAAAATGTTTTTAATAGAATATATAAAATAAATCCAAACCCTAGTAAATATGTGTAAACTGAAATAGGTACCCCAAAAGCTGTTTTATTCTCCATAAGACCCTTGTATACTGGTATTTTTGTCATTATTATTCTCCTTTTCTTTTTACTGAATATCCATTTACTTCAGTAAAAATAGTCTTATTATCTACTATATTTTTTTGTATAATTTTTAAATTTCCAATATATGCTTCAGGAATAATACTTTCCCATCTCCCATTTTCATTAACTTTAATATTTACTTGAAAATTATCACAATATATTATTATTTCAGCTTGTGGTTCACCAAATCCTTTAATAATTTTACCATTACCAAGTTTTGCTTCACTCTTTTTATATACTCTATTTCCAATTTTTTCTTCTATTTCATATTCCATTATCATATTGTTTTCATAAAAAGCAACATTACTTTCTTTTTCTATTTTTTCTTTAGCTTTTCTTTCAAATGTATCTTCATCTAAGAAAAATGGCACAAGTTTAATCCATTTATATCTGTCTGTTTCTATAGTTTTAATTTCAAATATTGTATTATCAATTACCTGGTATTCATTTTCTAATTTAAATTCTAATTTAGAATCTTTAGGTAATCTTGCAAATATTATTTCTTTATTAATTGTTTTATTATCTCCTACATTATTTAATGATAGTAAAATTTTACTAGCATCTATTTTAGATATTATAAAAGAATCTATAATTCCTTTTTCATAATTAATATCAACTATTATTTTAGGTATACCTTCAGTTTTTAATTCTTTAATATGATATAAATTAATTTCTCCATTTGTTAAATCAAGTTTATCTTTAATAGTTAGATTTTCTATTTCATTCATATTTTTAATAGAATAAGTATTTAGTATTCTTTTATTTTCAGTAACTATAGATGAGCAAGATAATAAAGTTAAGAAAAATATAAAGCTATAAATCAATTTTTTCATAATTACTCCTCTACTAATTCATTTTCATATAAATACTTATTTACAAATCTATCTGTTTCTATGAATACATTTCTAATAAATTCCGGATTTTCTTTAGCTATCTTGATTAATTCATCTTTATAAGCTTTTTCATATTTTTCTCCAAAATTTATGTCTTTACCAGTAACAATTCTAATGATTCCAATAAATAATATTCTATTTAATAAATCAAAATTATTCTCTTTAAAAAATGTTTCTAATTTTTCTTTTCTTAAATTATATTTCTTTCTCACTTTAACTTCTTTAGATAAAATCTCTAAAGCTTTATCTGTTTCATTTATTTGTTCTATATTATATTTTTTAAAAAATCTATATGATTTTTGTCCAGTTTCAGCATCTATTTCTTTTAAATATTCAAATATTAAAGCATATTGATTTTCTTTTATTGTAAAACCATTTTCTTCAATAAATTTTTCATCAACATAATATCCTGTTTTAAATCCATTTCTTAATATATGAGCCATTAATCTCATTTTATTATCAGATCTAAAATTAAAATTATCTTCAACTTTAGGTAAAAATCCCATTTTATTAATATTGTATGCTATATTTTCTATAGCTATATTTCTACTTTTTAAGACTATATCTCTAGCCTTTTTATTTTCCATAATAATAACTCCTTTTATTTTATATATTATCCAACCTTTTCTCTAATATTTTAATTAATTCATTTAATTCATTAATTTTATTTTCTAATTTTTCTACTTTATCTTTATGATTTTTAGTTTTACCAAATGTATATGAAAAGCCTGCTCCAGCTCCAAATTGAATATTACTATTAAAAGATGCACTAGCAATAACACCAAAATTTTTAAAATGAGTAGAATATACTATAGAAGCACCCACAGATTTATTATAGTAACCAAGTGAAGCAGATAAAGTATGTTTATCATTTCCAATATTTTTTAAAGTTGTTGCCGTAGCAAGTGCAGAAGCAATACCACCATTACTATTACTAAAATTAATATTTTTAACACCTAATATATTTTTCCATTTATCAATATCATCTTGATCTAAGTTACTTGCATCTTTATTTACTTTAACTTGAAGTACTTTTTTTAAATGTTTTTGAGATGTTAAATATTCAGAATTAAGTGGTGGTAACTGAGTTTCAAGATTATAGCTATTATCTACATTTTTTAACCAATTATATATTTTTTCATATTCTTGCTTTATATCAATTTGTGATGTATTAGCTAAAGTAAAAGTTGGTAAAAACAAAATACATAATAAAAATAATTTTATTCTTTTTATTTTCATTTTATATCCTTTCTTTTTACTCTGTAAAACTTGTATTTCCTATATTTATTTCACTCTATAGAATCTATAGAGTGAAAATTTATCTTTCCAATTCTTGTTTATCTTTTTTAATATTCCAACTATCAGAAATTTCATTATTTTCTTTTTCTTGATAATATTTATCAATACATTCTTTATACTCCATATATACATTTTGATTAAGAAATTTCTGCTTATCTAAATCAAAAGAAAAATTAGTATATTCTTCAAATAACTCATCATATATCTTTATATTTTCAATAGGCTCTATTATATTTGTATCTTTATAATATCTGTCATTTTTTTCAATAAAATATGTTTTTAAAATAGATAAATCTTTTTCATTTAATTCATCAAAAGCTTCAATTAAAGTTCCTCTTATTCCTGATAAAAATCCTAAATGTTTAAAATCATTATTTTCAGTCTGTATTACCAAATAGTTTACATTCATTTTAGTTTCATATGTTTTTTCAACAATAAATCCTTTTTCTATATTCTTCATAAAATCAGAAAAAGTATTAATTCTATTTTCAACATTAATCCTCTGTTTTACTTCGTGATATTCTTCCACTTTTTCTAAAATTTCTTGATCCGATATTTTATTTTCTTTTATTTCCTTAAGAAATTTTGTAGCATTAAATTGTCTAGGATATTTTTCCAAATACTGTAATCCTAATAAATGAGGTAATCCTTTTCTATCAAAAGTAATATTAAATTGTTTGCTTTTTGAGTTTATCTGTATATCTTCTTTATCAAATTTACTAAAATATTCAATTGTTTTCATTGCTTTATATGTTTTTTCCATAAATTCTCCTTAAAAAATAAAAAGACTAGAATAAATCTAGTCTTTTGTATACTTCATGCATATTTAATCAATTAAATGATTTAGCCCTTGCATTCTATAAGGGAACCGTAGTATAAGACGGTTATGATTTTGCCTGGGTTGTCTATATTTCTAACGCGTAGCAACACGCACAAGGATAACCACGAACCTCTGAGCTTATTTCTCAATATTATTATACCACGATTTTCTTTTCTTGACTAGATTATTTGATTTTTATTTAATATATCATTGTCCTTGCATTTACTAGATTTGTTTCACTCTATAGAATCTATAGAGTGAAAAATTATCTTTCCATTTCAACATCTTTATTTTCTTTTTTATCCCAATTATTAGAAATTTCATTTCCTTCTTTTTCTTTATTTAGATTTATTTGTTCGTTTGATTTTTCTTTTTCATATAATTGTGCAAAATATTTATCCTCTTTAATTAATACATATTTTTTATCTTGTTCATTTTCTAATTTTAATAAATAGAATATTTTATTTTGTACTAATTCATCTTGTGCTTGTTTAAAGTCATTCCAAAGCATTTTAGAATCATTTAATATTTCTTTACTATCTATATATCCTTTATCTTTTAATGCATTATTTGTTAAATCATAAACATATTTAGCTTCATCTGATAAATCTTTTAGTTTTTCTAAATTAGTTATTTCTTTATTCATTTTTTTACTTGATTTTTCAATATTTTGTTTTAATTTTTCACTATTGTAATCTACATATTTTTCAAAATCAGTAAAATATTTTATTGTATTAAATTCTGTAATAGTTCCATCTTCTTTTAAGTAATCCATATTTTCTTTAGTAAAAAATATTTTTTTATTTTTTTATAAGTTCTGATAAATCTTTATTTAAATCTTCCATTTTGTATATAATAAGTTTTCCATAATTTTATTTTTTGTTAATGTTACATATCCTTTATCATTAACACTTTCTTTCATAAATTCTAATAATGTACTCATTTTCATCTCTCCTTTAAATTTTTTTTAAAATATATGTATCATTTTCTTTATCATATTTAATTACTTCAGCAATTTCTTTAACATATCTTTTTGTTCCATCTCTAATAATATTTACTACTATATTTACTGCTTCTACTATTAAATATTGTTGAGATTTAACTGTTACTTCATCTATATATTGTTCTATTTTTTTTAGTCCTGAAAGTGAACTATTAGCATGTATTGTTGCAAAACCACCAGAATGTCCACTATTCCAAGCTTTTAATAATTCAAGTGTTTCTCCACCAGTTCTAAGCTCTCCTAATATTATTCTGTCTGGATTTAATCTCATATTACTTCTTAATAAATCTCTATAACTAACACTATCTGTTGATGTAAAGTAGTTTATATTCTTAGCATCACATTTTAATTCTCTAACCTCTTCTATAACACTAATTCTATCTTCAGTATTTTTTAATTTATCTAAACAAGCATTTAAAAATGTTGTCTTACCAGTAGATGTTCCACCAACAACTAGAATATTTTTCTTATTTTTTATAGCTTCTTCTATATATTCTTTTTGTTGTTGTGTTATAAATTCTGTTTCTACAAACTTTTCAAGTGGTATTATTTCAGTTGTATGTCTTCTTATGGAAAAAATAGGTTTATAATTAGTTACTTGATACATTAATCCTTCAAATCTTGATCCATCTGGCAAAGAAGCTGAAATAATAGGCGAAACTTCAGTTACTTCTTGCTCACTAAAAGCAGCAACTATCTTAATAATATTTTCTCCTTCAATTTTAGATAAAATTTCTCCACTATCTACTCTACCTTTTCCTTTAATATCTAAAAATATTTTTCCATCCTGGTTTAAAGAAATTTCACTAATAGATGCATCTTCTAAAAACTTCTGTATCCTAGTTAAGTTTTCTTTTAAGAAATTCTCTTTTCTCTCTAATTCTAATTTTCTTTTTAATTCTAAATCCGTCATATTATTCAACTACTTCTATATTTTCACTTACTTCATTCTCTTTTTTATTATTTATTTTTTTTGTATTTTTTGTTTCATTATCAAATTTCATCTCTATAATTATTGTTTCTTCATTTCTTTGCTCATATATATTTTTTATTAAATTTTCTATATCTTTTTCTGAACAAAATGAATGTATTGGATATTTATCAATAACTTTTTTAAAATGATCTATTAAATTCTCTTTCAATTTATATAATGTTTCTTTTAATTTTTTTTCATATTCTCTAATTTTTGCATTCATTTTCATTTCTTATTTATTTCCCTTCTTGCAATTCAAGTTCTTTTTGCATATGTACTGTTGGATTAATTGGCAATTTCACTTTATCTTTAAATCTTTTATCCTTAAAGAATAGTACTTTATTTGATTTTATTGGTGGCTTACCACCTACAAGTAATAAAATTTTATCAAGTGGAAATCTTCTCATTTCATCTGGCTTGATTAAATCTCTTCCAGATTTAGATACTGAAATGCTCTTTTTACTAAAAAATCCACCATCACTTGAATAATTTTTTGTAACTATTGTTTCTTGACCAATCGTTTTTGAAATATATTCAGCAGTCTTATTATCATTTGCAGTATAGAATACTTGAACTTGGCAATTTCCCATAAACATATTATTTTCTGTATATATCTTATTTAATTGGTCTAGCGATTGCACAACTAACATCATCTTCATTCCATAACCAGCCACAAATCCTATAGCCTTTTCTAATATCTCCATTTTTCCTATAGCTGGAAACTCATCAAGTAACATCAATAATCTATGTTTAAATTTAATCTTATTTGAATTACCAGCATAATCCATTTCTGGTGTTAAAAGTTGTACACATTGTATAATTAGTATTCTTAAAAGTGGTGCTAAAGGTTGTATTTGTCCAGGTGGGACTACGATGTATAAAGAAATCGGCTTATCTGCTGCCATTAAATCTAATATTCTAAAATCACTCTGTGAAGTATTTTTTTCAACATTAGGTGATTCAAATATAGATAATTTAGCTTTAGCTGTAGCAACTATTGATTGTAAAGTTTTCTCTCCTTTTCCTAGTGCATCAGCAAGTCCTCTATCTATAAAGGGATGTATTCCTTTTTTTATTTGTTCTTGATCAGATTTAGATGTATATATACTTAATAATTTTTCTAATATTTCTTTGTCTTTATTAGGATTGAATATCGGTCTATTTATTAATTTTTTTAATCTATCTTCTAGTGGACCACTAGGATCTGTAATAAATTTAACTACACTTGATAGATTCGCTTCTCCTTTTCCTTTGTATAACTCATAAAGAATTAAAGTAGTTGCTAAATCAGAACCAGCAAGACCCCAAAATGGATCAGAAGCTCCCTCATCAATTACTATAATCTGTGCAATAGTTTTAGCATCATCTATTTCATCTGGTGTTAAATATCTGACTTCTCTCATAGGATTAAACGAACAAGAATCAACTGACAAAGGTGAAAATTTAAATATCGTATTATTAAATTGTTTTTGTCTCCAACCAGCTGTCATTTGATAATTTTCTCCTTTAATGTCAAGTACTAATACAGAATCTTTCCAACTATCGACTAATGTAGGAATAATTACAGAAACACCTTTACCAGTTCTTGTGGGAGCTGATAATAGAATATGTGTTTTACCATTATCTTTTATTAGTCTCCCATCTACTTCTCCTAATACTACTCCACTTTCTTCAAGTAAATTTAATTCAAATGCTTTAGCAGCTGTGTTAGGAATTAAAAATCCACTTAATCCTAGGTCATCAAATGTTCCCCATCTAGCAGAACCGTGCGATATATCTTTAGGTATCCATTTAATAGGTAAACAAAATATTATATATGGAACAGTTATTAGTGCTAGTATTATCATAAATTCATATTTAGCCCATTTAGTAGCATTAGGTACTTTAGATAATGATTTATACATAAACAAATTAGGTCTATATATTTTTATATTCTCAATATTTATTAATATATATTTATCAAATATTTTTGGATAGTTTAATATTCTTGCATAATTTGATAGATAGAAAAATAGAATTAATATTAAAGTAATTATTATCCAAGAAATTGTTCCTATAACAAATATTTTTTCTTTCCTTTTCATATTTTTCCATCTAATTTTCTTTATATCACTTAACACTTGTATTTACTCACTTTCTTTCACTCTATATATTGTATAGAGTGAAATTAATATTTGTATTTTTCAAGTTCTAAATCGCCATTTACAATAATATTAAACTTATACCCTCTCCTAATAGTTATAGTAGGTTGTCTTTCAACTTCTTTTCTAACTAAATGAGATGTAACTTCTTTAAATGGAGATCCACCTTTTTCTTCTTTAGATTGACCATTTAAGCCTAATTTTACTCCACCTACACTAAAGCTAACACCATTTGCTAATGTATCTGTAAAATTTAATACACTTGACAAAATAGAATTTCCAATTAAAGACCAAGTATGATTATTAGTTTTATCATTTACCCCACTATTACCTAAAGCATCAGCAGACTGAAATTCTGTTAATTCAACAAATTTACCATTAGGTAAAGATAATTTATCCCAAACAACAAATACTCTAGTTTGACCTTTATCTACATTACTTTCATATCTTCCATAAATTTTTGTTCCTTTCGGAATTAATAAATATTCTCCACTTCTACTATCATATATATTTTCTCTAACTTGTGCTAAAACTGAACCAGGTAAATCTGTATTAACTTCAGTTAAAAATATAGCTGGAATTAATGATCCTTGTTGAACAACAAAATCATTAAATGAATAAGCTATTTTATTTTTTCTATTAATTTCTTCATCAATTTTTTCTTTTCTGTTTTCTAAAAGATTTATATATTTTGAATTATTTCTTTCTTTTTTCTTTTCTTTATCATTTTCTTTTTCCTTTTTAAAAAATGCTAATCCATTGTGTTTTCTTCCTGATACTTCATTAACACCAGAATTTCCTTCAAGTTCTGCAATAGCTCTATCAAGTTCTTCATATTCCTTTTTATTTTTTTCTTCTTCATAATTATCAAATTTAGATTTTTTAATATTTTTTTCTAAATCTAAGTTATCATCTACTTTATTATTTATTTCTATATTTTCATTATTATTATTTTTACTTTCATCTTTTATATCTTCTAATTTCTCAAATGCTTTATCTTCATCATCTTCTTTAATATCACTAATCCTAAAGTTGTTAGGATCTGCAACTGTAATTTCTTCTTCACTTTCAAAAGCCTTAGGTAAATTTTTATAAATTACTATCCCAAAAATAGATAATAATATTAATATGACAATAGCAAATAATGTTTTAAAATTTTTATTTGAATTAGTTTTTTCTTCTTTTATTGTTTCTTTTTCTATTTCTTCTTTATCTGTTTTAATTTCTTTTTCTTTTTCATTATTTTTTAGATTTATTACTTCATCTTCTATTTCAGAAATATCTTCATCTAATTCTTCAAAATCTATTATTAAATTTTCTTTTTTTTCTAATATTTCATCTTCATTTTCTAAATCATTTAATAAATCTAAATTTTTATCTATTTTATTCATTTTATTGATAACAGAAATAGCAATATTTTTTTTATTCATATTAAATCCCCTTCCATTATCTAACTATATCTAATTTTTCATTACCTAAAACGAGTTGAAATTTATTTACTACTTTATCTATTATTATCTTATTTTCTATTATTCTATAATTTACTAAAGATAGTACATTATCCTCTCCATACACATAAACAACTGGTGCTTCTTGCAATTTATTAGATAGTATTAAAATAGTTTTTTCAGAATCAGTAAATACTTGTTCTGGTGCTAATTTATGGTGTTTATCATATTTAAATCCAAACATTATATCTTCACTTTTACCTAATTTAATTTCATTACCTTCTCTTTTTTCTTTCATTTTTTTAATATGTGCCATATGATTTTCATATGGATATTTCCATTGAATGTATGGATTGAAATTATTTTCTGTTGATTCTAAGACTATAAAATATGATCTCTTATCTGTGATAATATTTAAATTAGTTTTAAGTCCTTTAATTAATGGTTTAACAAATAAAAATGTTGCACCATCATTCCCACCTTCAGTTTCATCTATTTGCCAATTCTCTGTATCTCCACCACCGACATATACCAATTTTTCATCTTTATTTAATTTAAAAACTGTTGTATAGTTAGGTTTTGTAAAGACTTGATAAATCGATGATTTAAAATAGTTAAATTCTGTAGAAACTGAATATATTGAAGCTGTTTTTCCAGATATAATTGCAAGTCTATCTTTTAATATCTTTTGTATTTCTTCATCATCTACATTTTCTACTTTATTAATATTTTGCTCATATTTTTGTACTTCTTTTTTTAATTTATTAATATTTTTATTTACATCATTTGAATAAGAAATTAAACTCATAAATAATAAAAATACCGTTAAATTTTTAAAAATTTTCATTTTCATAATCTCCTTTTATAAAGCTCGTATTTCTTTTTTGTTATAATCAATATGAAATACTTTACCTTTCTTACTAACTTCTATTTCATATATATCAATTATATTTTCTTTATCTATATTTGATATTTTTTCTTCAAATATGATTTGTTTTATACTATTTTCATCATTTAAATCTGAATATTTATTATTACTATTAACAAAATCTTTTAAATTATTTTTTATAGCTTCATATTCTTTTTCAACTTCTTTTACTATTCCCTCAAGAAAATTTTGAAATTCTATAATAATTCCATTTTCTTTTCTATAAAAAATTTCTTTTTCATCTTTTTCTGATTTTTTTTCATATTCTCTAATTTCATCTATTGATTTTTCTGTTTGTAAAAATTCTTTTATTTCTAAATATTTTTTATCTACACTATATTCAAAAATTTGTATTTCTTTACTTATAACTTTTAAAATGTTTTTTCTTTTCCATAATAAATAATTATTATACTCTTCCATATTAATTTTCCACCTGCATATTAAAATCTACTATAACTATCCCAAAAGGATTAAATATTATTTGTTCTGAATTAGGAGAAAATCTTTTAGTTTTAACTATAGCATTTAAATTTTTTCTTTTTGATAAATCTCCATTTTTTTCATATTCTTTTTCTCTCCATCTTATCTGATAAGTGTTTTCTGATTCAGGAATCTTTACAAAAGATAATATTTCTACCTCTCTTGTTTTCCCTATTTCAAAAAAAGAATAAACATTTTCATTACTTAAAATTGAACTTAATTTTGATTGTGTTTCTTTATTTAAAAAATAACTTGCCTCTCTAATTGTTTTATCAAAAACTTTTCTATCAAGTGTTATAGTTCTACTATCTTTTATGAATTTTTTCATAAAATATTCTATTTCTTTATTACCTATATTTGTAATTTGATTTGATAATTTTTCTGTACCAATAAGTTCTCCGTTATTATTTACTTTAATTAAATAGCTTTTAGTTTCTGATTTATTAATAAATAGAAAAGTTGATAAACAAGCAAATGAAATAGTCATTATGCTCATACCTATAAAAGCTCTCTTCCATATATTTAATGCTTCAGATATAGCAACATATCTTTCAATACCTAAACTTAGTTTTTCTTTATTTCTTGATGTTTTATTTTCATCTACAATAAAATTTTTTCTCATTTTATTTATTCTATTTTCTTTCATTTGCTTCACCTAAAAATTTTATTTTCTCTAGTTTTACAACTTTTATTTTCTCAACATTTTTATCTATTGTTGTTCCACCTACGGCTCTAACTATTGTATCTATAGCAAATATTCCACCCATAATTAAAACAAAAGTTAATATAGTTTTCCCCATTTGATCCCATTGAGGGTTGAATATAAATTCAATTAGTTTAACTATAAAATATATTGCACCTACAGCATATCCAACAAACTTTATAAATCTTAAAAATGCTGATAAGTATCTTGCAAAATTATCAAAACCTGCAACACTTGCTTGAGATGTATTTGCTAAAGATAAAGTTGAGAAAAATATGATTCCTAATAAAATTAAACTTAAATTTTTTCTTCTCATTTATTTTTCCTTTCTCATTTTTTTCATTTTAATTAAATAAAAATCTTTTCACATTTTTATCACTCCTTTGATTTTTTCTGAAAAAAAAGAAAAAAGGTCCCCATGCTAGCTCGCCGACTAGCATGAGAACCTTAAGATTTAACTCGCCGATTAAATCAGTATCTCATATTTTCATAATTATTTAAATTTTTAATATATGAATAAAAAAGTTTCCGTGTTCTTATTTAAAAACACATAGCTAGCTCGCCGACTAGCATAAGTACTTTAATGATTTAATTAGCCAATTAAATCGGTAACTTATATTTTTATTATTCATATTCTACATTCACATTATAATATATTTTTTCTATTTTTTCAATACTTTTTTGTTAAAAAAATACTATTTTAAATTTTAATTTTTTGAATATTTTTAAATTTAAAATTTTGTATTTTTCTCCTTCAAGCCTTTAGGCAAATGTTTATTTTTTAAAATAAACCACGACGAGTGTTTCTCAATTTTTCGCAAAAAAATAGAGAAACGCCTAAGCGTGCATAGTAAAATTTGTTTTACTATGATTTTAGTAAAAATAAGAAGTTTTTACATTTTCTTTTTGTGATTTTTATATAAAAATGTTTTTTAGTTTTGCTCAAAAAAATAAAAATTTAATTTTAAAAATTAATACAAAAAAATTTTTTAATTCAATTTTTTTATGAAATTTTTTTAAACAAAAAGAGAGATTGCAGTCCCTCTTTGTATTTCGTGTATAGAATTAATTTACATCTCAATTATATATTACTTTTTAAAAAAATAAAAATATATTTTCATCACTCTCTTTCTAATTCTTCCTCATTATCTAAAATATTTTTATATTCATCTAATATAAATTCTCCGTGTTTAAGTATCTGTTCTTGTACTTTAATATCTTTCCTAAATTTTTTATTTATTCTATCTAATGATTTTATATTTTTATATATTTCTCCATTCGTTCTTTGAATATTTTTTGCTGATTTATAATCTTTCCTATTTAAATATTTATCAATTTCCTTTTTATTTATTTCTATATTTTTTAATTGAATTAGTTTTTCATCTCTTAAATTTTTTCTTTCAATATATGCTTTATATAAATTAATTTCATCATTATCTTTACCATATGTTTTTTTTAATCTATCCATAAAAATTTTATCTACAATTTCTTTTTCAATTATTTTAAATTTAAATGGTTTCATATATTTTGCTTTAAGTTCTAATTTTTTATCTATTATTTTTTCTTTATTTTCTATTTTAAAATTTTCTATTTCTTTATTTATTTCATTTATTCTTTTTTTATATTTTGATTTATTAAGTCTATCATTTTTTATCATTTTAAATAAATGATTTTTTTCATTCTTATATTCATTACTCTTACCTTCACTTAAAATATTTAATGCTTCTGATTCAAGTGTTCTATCTAACATTTTTTTAGATAATCTAAAAATATCTATTTCTATTTTTTCTTTTTCTTCTAATACTTTTTCAAATGTATAGTTTTGAAATTCTTTCATTTTTTCATTATATTTTCTCTTCATAAAATTAAGTTTATATATTCTATCTACTTCATCTTGTAATTGTTTTTCTTTTCTATGATCTTCCAATTGTATTCTTTGATATAAATCATATGCTGTATTTTTTTCTTTATCTTTATACTTTAAATTATGTGTAACATGAATTGCATCTCTATTTAATAATTCTGCTTTGACTATATCTCCTTTTTCTATTGCTTTTTCTCTTTGTTTTATTAAAGTATCACTTGAAACTTTCTCTATTCCTTCTGCTTCTAAGTATAAATTTAAATGTTTTTCCCAATTTTTTCTTAATTTAATCAAATAACTTTTATTATGCAATTCTCTATTTTTTTTAGTTCCACCTTCTTCAATTTTTTGTGGATTATATCTTTTAAAAAAGTTTTCTTTTTTTCTTTCTATTTTATCCAATTCTCTTTCACAAAACATCACATGTGCATGTGGTTGCTCTCCACCTGGATTATGCATAGCATAATTATATACATATTTATTTCCAAAAGTTTTTTCTAAAAATCTATCTAATATTTTTTTATTTTTTTCTTTGTTAAATTCTTTGGGTAATGTTATTTCAAATTCTCTATAAATGTTTGCATTTTTTCTTTCATATATTATTGCATATTTCCAAAATTCTTGAATATCTTTAAAATTTTCTGGTAAATTTTTTGTTTCTATGTATTCAATGTGTTCTCTTTTTGTTGAATATTTTTCTTCTCCATTTATATAACTTAAATGCTCTAAAGCTTTTTTACCACATTTGTATCTTAACCTATATATTGCCATATTTATCCTTTCTTTTAAATTTTCTATTATAAAAAAAGATACAAATATTAGTTAGATAACTAATAAAAGTATCCTAAGTAATCAACTAATTTATATTAGTTTATTAATTTTATTCCTTTAGCTTTTTTAATTGATTTTCTTGAGTTCGTTTTGCAGCTATATAATCTTTTGTTAATAGATCTTTATTTCTTCCCTTTTCCTTAGATTTTAAATTAATATCTTTACCATAAAATGATTTCATTTGTTCTTCTACATTTTCTCTCATTTTATTCTGTAATATTTCCAAACTTTCTTTTGTGAATACTTTTGTCTTTGCAACTCTTTTACTCAATCCTTTATCATAATTTGCGATAGGAACTCCTATTACTTTCATATGAGGACTATTTTTATCATAACATATTACTGCACTGACAATTTTAAAATTCGGACATATTTCAACCAATTTTTCTAGTTGCTGTTTAAATATATCATTCATTAATTTTTTATCCTTGATATTTTTATTTTTCCAAAAGTCCATATCTCCAACCTGGATAATAATTTCTGTTGCTAACTCAGTTTTTTTATCATCAGAAATTTTTCAAAATAATTTTTTATTTTTCTATCTTCTCTGATTTGTTTTTTATTGTATTCGTTTATAGAATGAGTAAATTCAGTTTTATATAATTCTTTAAAATCTTGAAAAGCTCCAGTTGTATTATTAGCTCCAATCAAAATATCATTAATTGATTTGTCAAAATTATTAGAATTATATGCTCTTAAATTATTTTTTAATGCTCTGATTAAGTTTTTAGAATTATTAATTGCACTCTTACCATTTGAAATATGAAAACTATAAGATAAAGCCATTTTAATCACCTCAATATTATAAATTCAATAAACTTGAAATAAATGCTTCTCCTTTTAGACTGAATTTAAATATATTTTTCTTATTTATTTTAAAATATTTACCATAATTTTTATATCTATGTTTTCTATATAAATAAAGTACTTTTCCTTTTTTATATAAAAATCTTTTTTCTGTAAGAATTTTAATTAATTCATCTACTTTCATTTCATATTTTTGTGCAATAAAACTAATACCAATATATTCTTTCCCTTCATCAAAAAATATTTCATATCCATTTATTTTATTTTCTAAAATTCTTAATTTTTTCTCTGTTTCTTTCATTAAATTTTCTATTCTTGATTTTATTGTAGCTTCATTGTCTTCTTTTTTAACTACGATGTATCCACCTTTTTGTCTTATCGATTTAAGTATTTCTTTAACTTGCTTTTTAAATTTCTTTGCTATAGGCTTTCTACTTGCAAATAAGACTTCATATAGACCATCCTCGGTCAAATACCATTGTTTATGAGTTCTACCATCTTCACGAGTTACTAATACTAATTCTTTTTCATCTTCATCAACTTCTTTAATCATTTGAGATACATTTGAATTTTCAATTATTCTTGCTATTTCATTAGCATTAAATCTTGGAGATACTTCAGAACCAAATATTACCAATTCTACTCCCAGAATCTCTTTTCTATCTAAAATTTCCATATTATAGTAACCTTTCATTTATATTATTATTTTTATTTATGATATATATTATATTTTCCGTGCAAATATAGTTGTCATCTGATATAGAAAATTTCATATCATTCATTGACTTCTTATCATTTTTCATTTTTATTCTTGTGATCTTATATTCATTACCTTTCCATACAGTAATTTCTACATCATCAAGTTTATGTATTATTTTATTTTTAATATTCAAAAATAATAATAATTCTTTAAAAGTTTTTTGAGAATCTTTTTTATTAAGTGTTTTATTTTCATTAATACTTTTAATCCATTCTTCTTTAGAGATAGAATCTTTAAATCTATATCTATAAAAAAATAAAATTTCATTATTATTATTTTTTTTCAAATAAAATTCCTTCATTCTGATTTCCTTTCACTTTACTAACATTTATATTCTTTTCTTTCTAAAATATATTTTTTCATTCCTAATTGGTCTATTAAATAAACTACTCTTTCTTTATTTTTTTTAATTTTTATAAATGGAAATACATCATTTTGTGCCATATATCTAACTTTATTATAATTTTCATTTATAGCCTTAGCAAAACTTTTTAAATTATATTTCATTTTCTACCTCCATAAAAAAATAATCATAAATTTGATTTTTAGAAATTGATAAATGTTTAATCATAATTAATATTTCAGATGAATTAAAATTTGAAATATTATTCATTTTATTGTAGATAGTACATTTTTTCATTCCTGTTACACTACAAAAATTATCTACACTATCATAAAGTTGTAGTATTCTCCCTTTTAACTGCGAGTATTTAAAATTCTTTTTTTTCATTTTTAACTACTTCCTTTCTCTCTTCTATAAAATATTCAAATATATCTTTTTTATCAATATAATATTTTCATTAAAATATAAATGTCATTTTCATTAAATTTAATTACACCATTTAATTTCTTATAAATTAACGATTTATTTAGATTATTTTCAAAACAAAAATTATTCACTGTTTTATATCTTTCATATATCAATTTTTTAAGTTTATTCTTAATCATTTTTTCTCTTTTCTTGTTACAAAATAATTTTTATATTTTTCAATATTTTTTAGTTTATTTTTTATTTAGAAAAATCTATTTTTTTTAAATAAAGTAAATTAGGTTTTCCTAATCCTCTCCTTTCTTTTTCAAGTAGCTGATAATATTCTAACTCTTTTAAAATTTTAATTGCACTATTTTTACCAATATGAAACAAACACATTATTTCATTTATTGAATAAATTAAATAAATATTTCCACTTTTATCTATCCAATTATTCTTTAGTGATATTTGTAATCTATCTAACAACATTCCATACATTAATTTTGCTTCTAAACTTAATTCTTTAAATTGTTTATCATAAATTAAATCTTTTGGAATAACTAAGAAACTTTGATAACTAATATCTGAAATTTTAAATTTTAAACTCATTTTTTCTCCTCTAATTTATCTTTACTTCTTTTATAATTAATTTTTTTTAATTTTTTATATAAATATAGATCTATTATTATAATATTTATATTTTTTACTAATATTCATATTAATATTATTCTTATTAGTATTATTAGGGTTTATTTTTTAAACCTTTTGAAGTTTATTTTTTAAACCTCTGAATTTTTAACTTTAGTACTAAAATTCAATCCTTCCAAAAAACCTTTTAATTTTAACAATTCATTCTTATTCAATTTCTTTATTAATTCAATAATTTTCTCTTTTTCTATTATTTCATCATCAGTTATAATTATTTTTATTTTTGCCATTTTTAAATTCCTTTCATTTTTCAAGTTTTCTTTGTGTACATTATATTTTATTTTGTGAATTATGTCAACCTTTTTTTACACTTTGTGAACTTTTGTGTTGACTTTTTTTTAATACCTCTGTATAATTTAATTAAAAAGGAGATCAACTGATGAATAATAGGGTAAAAGAATTAAGAAAAAAATTAAAATTATCTGGAGATAAATTTGGTTCTAAATTAGGTGTTAAACGATCAACTATATCTAATCTAGAAAATCAAACACGAAATTTAACAGAACAAATGATTAAATCTATCTGCCGAGAATTTAATGTCAATGAAGAATGGCTAAGATACGGTAATGGTCCTATGTTTAATTCATTAAAAGAAATTTCACTTGATGAATTAGCTTTGGACTTAACACCCTTAGAACTTAACATCATAAAAGCATATTTTTCACTTGATAAAGAAATAAGACAAAAAGCTATTGCTCATTTTCTTGATTGTTTAAATAAATCTTAGTCGCTAAAAATCATACAAAATATCCTTTATCATTTTTATCTAGTAGTGTAATTAATTCATCTACTAGTTTTTTATTTTTCAAATAATTGCTCTAAATTTATTTCAAAAAATTTTATCAACAGACAATTAAAGTATTTTTTCTAATTTTTTTATTTATTTCACAATCAATTCTTATTTATATGATTTTCACATTTCGTCTTAATTTCCTTTATTTTTAATTTTAAGGGCTTTTTTATATTTCAACTATAATTTTAGCTTTTTTATATTTTCGAGCCTTCTAGGGGTATAATTTCGCAAATTTAAGCTATGCATTTAAAATTTGCTTTATCATTTTTTGAAATATAATTTATTTTTCATTTTCAGATATTTTTAAAATTTATAATTCCAATCTAACATTACCCAAAAATTATTAGCATTTTGCTAATATTTTTATTAAAAAATATATATTTTTAACTGTATTATACATTAAATATTAGCAAAAAGCAACGATTTTTTTATAAAATAATAGATTTTTAATATGTAAATATAGTAAAATTTTAGATAAGGAGTGTGATAAAATGAAGAAAAGTTCAAATTTTAAATTTCGTTTAAAAGAAGCACTTAAAATTAAAAATATTAGCCAAAGAATGCTAGCACTTCAGACTAATCTTGCACCAGCAACAATTGCTAATTATCTTAACGGAAGAAATTCTGCTAAATATGAAAATATAGAAAAAATATCAAAAGTCCTTAATGTAGATCCTCAATGGTTAGACGGATACGATGTCCCTTTTTCAAATCTATATGCTAATTACTCGTTTACAGCAGAAGAAAAAAAATATTTAGATAATTGGTTAAATACTAATCAACTTTATTTTGATTCATTAAATATTACTTCAATAGATAAAGAAAATTTAAAACAAGCTATGATTGAAAGTTTTATTAGGTCTTTAAAAAATAAAGATAAATAAAATTTTTAGGAGGGACAATGAAAAATAATTTAAAAAATTATGAATTAATTTATCGTAATTTTGAACGAGTCGAGTATGGCATTTTAATTAATGCAGATAATTACTATATTTTAGTTATTAATTATAATAACACTAAGAAAAACAAAAGACTTATAATTAAGTTAATGAAACATTACATTAAAATCAAAAAAAATACGACATTAATCACTAGACAAAATTTGGAGAGATTTCATAATTTTGTCTTTTTTTGTATAAAAAATAATACAAAAAGAAAAGGAAAGAAATATGGGAAAATTAAAATTACCAAATAAATTTGGTTCCATTAGTAAATTAAGTGGAAATAGAAGAAAAAGATATATGGTCAGATTATCATTACCTTTAGATGAAAATGGTAAACAAAAAAGATTAATATTAGGTTACTATACAACATATAACGAGGCATATAAAGCACTTATTGAATACAGTTCAACCCCACTAAATATAGAAGATGCAAAAACATTTACAATAAATGTATTATTTGAAAGATTTAAAAAAGAAAAAGAAGAAACTGTTTCTAAAGAAACATTTAAAAGATATACTAGATCATTTATTGATTTCAATTATTTGTTTGATAAACAAGTTAGAGAAATAAAATATGACGATATTCAAAAAACACTATCTAAACAAGTTAAAGCTAAAAGCTTAAGCTCTTTAGTAGTTTGGAATTGGATATTTGAAGAATCAATAAAACTTGATATTATTAACAAAAATATAGCAACTCATTTAAAAGCTTCAAATAAAGTTACAAAAACTATCGAAAGAACAATTTATAGTTCAGAAATTATAAATAATATTTGGAAATTAACTTTAGAAAATAATTTTGTTGCAGATATACTTATTTGCCTTTTATATTCAGGATTAAGAATTTCTGAATTACTTGAAATAACTAGAGAAAATGTTCATATAAAAGATAGATATTTAATAGCTGGAAAAAAGACTTTAGCTGGTAAAAATAGAGTCGTTCCTATTCATAAAAGAATAATACCAATTATAGAAAAATACCTAAAAATTTCTGAAGAAACATCTTCAAAAATACTTTTAGGGAAATATAATCAAAACGGATTTTATGGTAAAATAAATTCTGCAAGTTTTAGATATTATTTCTATGATTTTATGGAAAAATTAAATATAAAAATGAATATCCACTCTACTAGACATACATTTATTTCAAAAATGAAATCCCTAGAAGTCAATGATTCAAAACTAAAAAGAATTGTTGGTCATAAGGGAAATGATATAACTGATAATGTTTATACAATATATAGTGCCGAGGACTTAATTCCAATTATAGATTTACTAGAATATTAACCATTTTAATTTGTTGCCAACTTGTTGCCAACTTGTTGCCAACCTGTTGCCAACATAACAGTTTTTTAACCATATTATAAATATATCTTATTTTTTAAAGAATTTTATAAACATAGAAAAAACCTAGCTTTCGCTAGGTTATATAATTATTTTCTAATTTCTTTAATTCTTGCTGCTTTACCACTTAATCCTCTTAAGTAATATAATTTAGCTCTTCTTACTTTACCTATCTTCTTAACTTCGATTTTATCGATTAATGGAGAGTTAATTGGTATTATTCTTTCTACTCCAACTCCTGAAGATACTTTTCTTACTGTAAAGCTTTTTTGAATACTTCCTCCAGAAATTCTGATTACTATACCTTCAAAAACCTGTATTCTAGTTTTGTTTCCTTCTTTTACTGTATAGTGTACAGCTACTGTGTCCCCAGCTTTAAATTCTGGTAAATCTGATTTTAAGTATTCTTTTTCTACTAATTCTATTAATTTCTCTTTCAAGAAATTCACATCCTTCCTCTAAAACATTCGTATTTTCATCATTGAAAACAGCGGAATATTCGCTTAATTTACTTATAGATAATATCATATTTAAAAATATTTTTCAAGTATTTTTTAAATTGGTGGTATATAGAACTTTCCATAAAAAGCATCAGTTTTAAATGTATTGATAATAGCTTTTTGATCTACTTCTAAAATTGCCTTAACAATATCATTAACTTCATAAACAGATACTACTGTATAACAAATATATACTCTTTCTTTTAAATATGCACCTTCACCAACTATTTTAGTCATTCCATGTCTATATTTACTTATATACATTTCTGTTACAAGTTCACCTTTTTTAGTAATAACTTGTAAAGTCATGCGTCTATATCTATTATAGAAAGTATCTATAACTTTAGTTGTAACAAACTGAAATACTATTGAATATCCTGCACCATCCCATGTAAACATATATCCAAAAAATAATATTACTAACATATTAAATATGAATATATATATCCAAATAGATTTATTAATTTTATTAGAAATATATAGAGCAATGAAGTCTGTTCCACCTGTAGAACCTCCTACTTTTAATGCAAGTACCATTTGTAATCCATGTACTACTGCTCCTATAGTTAAATTTAGTAAAATATTTGTGAATAATGGTTCAAATTTAATATGCTTCAAAAAAATTGAAGTTAGAACTATATGTAACAAAGACAAAAACACAAATTTTTTACTAATTTCTCTAGCACATAATAATGCTACTGGAAAATTAAGAATTATTAGTAAAATTCCTACAGATAAATTTATACCAAAATTTGATAATACCATATTTATCAATATAGATAATCCTGTAAAACCACCAGTTAATAATTTTGATGGTATTATGAATACCTCTATAGTATATGATTGTATCATAGCTGATATTGTTATTAAAATTATTGGTAAAATCATTGATTTATATTTCTTAAACATTTTCTTCTCCCAATGTATCTAAATTTCTTCTATTACACCTTTATTTTTCCAATATGTTGCTATATACACAAATGGTGTATCTATAGCTGATGTAATAATTTTTAAAAAATAAGTTGAAAATGTAATTGTTAATATTAATGAAATCGGAAATACTCCATAAAATGCCACAAAGTTAAATATTAAATTATCTAGTACCTGACTTAATAATGTGCTTAAATTATTTCTTATCCAAATATTATTAAAGTCTGGATATATCTTCTTAATTATTTGATATAGATTAATATCAACATTAGATGAAATAACATAAGCAAGTAATGACGCTACTGTAAATCTAATAAATGGTGTAAATATTGCTGCTAAATGAACCTGACTAGTATCGTTACTAGATGGAGCTAATATTAAAGCAATATTCATTACAACCGTTGTGAAAATCATAGTTAAAAATCCTATACCAACAACTTTAGAAGCTGCTTTTTTACCATAATTTTCAGATAAAATATCAGAAATCAAAAATATAGAACTATATGCTATATTTCCCAAAGTAGTTTCAATTCCAAATAAATAAACTAATTTATTAACCTGTACATTTGCAAGTATAATAGAAATAGGTGCAAATATCATAAGACCAACTTTCCCCCATTTTCTATAAGCAAATAAGATTACAGAATAATTGATTAAAACATATAGAAGCCAGATAACTTCGTTACTTTTAAAAAAATCAAACATTTTTCCTCCTAATTTTTGTTCAACACTGCCACCTATGAACATCTATATTATATTTTTAGTCAACAATTACTATAGCATTTTCTTCTGGATATGTAAAGCCATTTTTTTTAATTTCACTATTACCATTTACCCATTTGTATAAGTATTCTATTATATCATCAGCATTTCTTACACACTTATGAGATAAAGGTATAGTTCCAAGCTTTGATTCAGTTATTCTTTTTCTAAGTTCCCTATTTTCTTTAGGTTCAAAAGTAGACGGTATACCATGTAAATATCCTCCACCAGAAAATCTAATTGCGAATTTAGCATCTCCTATTATTACTGGTTTTTCTCCTATTTTTTCACCCTTAGAATTTAATATTGGTTCTTTTTCAAAATCTGATGCATAAAGCATTCTAATTTTAGTATAAGGAATTAAAAAATCTCCATATGGTGTTACAAATCCAACTCCTTCACTTATTCCTGTAGTTATATATCCTACAGCATTTACATTAAACATATTAGTTTCTATATTTCTTTCAATAGTAACCTGTGTTTGACTATCTCTATCTATGTATATGAACTTACTTATTATATCCTTTATATTAAATTTTTTAAGTCTTTTAATGTAATTTTTAGGTACTTTATATATCTCATCACCATAAGAAAGTGTTTTAATATATACATAATCATCATCTTCTTCAGATATTATTAATAATGATCTATCAGGTAAATTAATATATTCTTTATCATAATATGCCTTAATACTTTGATTAGCTGCATTTCCATATCTATCTTCTTTACCATCAGCATCAGTATTTAAAGAAATATAGCTATCTACATAATAAATATCTTTTTCTTCTTTAAGTGCCGAAACAATAAAATCATTTACTTTATTTGCTTTTTCAACTGCTTTTTGCCAATTAAAGCCTCTTATTTCAGAATTTTTAGCATAGATATAGTGTTTTTTATCTTTATACATTACCTCTAACCAATCTTTACCATCATCACCCTTAATAACTCCAAATAAAGGTAATCTCATTCCTTTTATAACTCTTCCAACAACTTTACTACCTTTTGTAGAAGGTAGATTTCTAATGTTAGTTGTAGATTTTATATATGCAAATTTGTTTAAATTTTTATCAAAATATTTATCAAATTTTAAATCAAATGTAATATTTTCATTTAAATCACTAAATTTCTGAATATATTCAAACGATAATTCTTCCTCTTTAACTTCAATCTCAGTAACTTCTTCCATTGCTACTATTTCATCATTACTGTAATTAATATTATACATACCAAGAAATAATATTAATAATAAAAACTTTTTCATTTTACCTCCTATATATCAACCGAAACGATTCTTGATTCTCCTACTTCTTTATTCATAGTAACACCATATAATCTATCAGAACCTTTCATAGTTTCTTTATTATGTGTAATTAATATAAACTGTGATTTATCAATAAATCTCCTTAATAATTCTACTATCTTTTTGGTATTAGCTTCATCAAGAGCTGCCTCTATTTCATCAAAAAATGTAAATGGCGATGGTTTAAACATAAATATTGCCATTATAAATGAAACTGCTAACATTGATTTTTCACCACCAGATAATAGCATTAAAGTTTGTTCAGGTTTATTTTTATATTTCACACTAAGTTCTAATCCAGTCGTTAATATATTTTCAGTATCTGTTAATTTAATATCTCCTTTTGCACCATAGAAAATTTCTGAACACATGTATTTAAAATTATTTTTAATCTCATTAAAAGCAAAAGTAAATTTATTAATCATATCATTTTCTATATTAGATATTAATGATTTTATAGAATTTGAACTATTTTCTAAATCTTGCTTTTGTGAAACTAAATCTAAATATCTTTCATTTTCAAAATTGTATTCATCTATAGATGCTAAATTTACACTACCTATATTTTCTTTTTTATTTTCAAGCTTTGCAATATTTGATTTAACTTGACTAACCTTATCCTCTTCAAGAGGATTGTAATTAAAATCGTTTATTATACTTTCTTTACTTTCTTGTAAACCTTCTAATTTTTCATTTAAATTTTCAAGTTCTTTAGAATTTCTACCTATATTTTCAGATAATTTTTCAACTATATTTATCATTTTAATAGTTTCTTTTTCTAATTCATTTATTACAGTAAAATGATTAGTTTCATCTTTTTCAATATCTTTTAATAGAATTTCATTATTTTTTATACTTTCAGAAAGCATATCCTTATTATTAGTTAATTCATCTACTAATTTATTTTTTTCTTCAATTTCCTTATTATATTTACTAAATAATTCATCTTTATTATGTTCGAATGTATTTATTTCCTCAAGATCATTTTTAACCTTGTTATACATAATTTCAAGTTCATCTTTAGAATTTTTCTTGTTAGTTAATTTTTCATTTAATACAGCAAAATCAACTAACATATTATGTAATTTTGTTTGATGTTTATCTACATCTTCAATTTCTCCTAATTTAAATTCTAATTCTTCTCTTTCATTATATATATCTTCAATAATAATCATAGATCTATCTATTTCTTGTATATTTTTATCAATTTTATTAGTATTTTCAACTATCATTAAATTACTATCTTTAATTTCATAATTTATAGTATCCATTTTTCTTTCAAGACTAGTTAATTCATTATTTTTCAAATCAATCAGATATTTAATATCATTATATTCTAACTTAAACTTATTAACTTTTTCATTTTCAATATTTAACTTTTCATCTAAAACACTAATTTTTTTATCTATATTATTGTATTCATTTTCAAGTTCTATAATCTTATTATCAAGTAACTCTATTTCTTTTTTAATGATATTTAATTCTTCTCTTTTACCTAAAGTTAAATCAACCTTATTTTTCTTATATCCACCAGATATTCTCCCTCTTGAAGTTACAAGATCTCCATCTAAAGTAATTATTCTATCATTGTATCCTTTTTTAATTAAAGTATTTGCAATATCTAAATTTTCAACAATTAAAGCATTTGAAAATATGTGATCAACTACTTTTTCATATTCTATTTCCTTTATTTTAACTATATTTCTTGCAAAGTCTATAACTCCATTACCATCAGGAACTTTATTTAATTTAGTAGATGTTTTAATAATATCTAAAGGTAAAAATGAAATAGTTCCTATTTTCTTATTTTTTAATTCACTAATATATTTATTACTCTCACTAGCTTTTTTTATAACTATATCATTTAAACTATATCCAACTAAAGTTGATATAGCTGTTAAATATTTTTCTGGTATTTCTAATAAATTAGAAACACTATCAACTATATTTTTATCATCTTTAAATGTATCGAGAATAAATTTACTCGAAGCTGTTAAAAATACATTATCATCTAAAGTTTTTTGTATAGAATTTAATTTTGAAATTTTAGATTCTTTTTCAAATATTACTTTCTGTCTACTGACAGCAACGTTTTTTCTATCTTTTTCTAATATTGAAATTTCATCTGTATAATATCTTTGATTATTTAAAATATCTTTATTAAATTCTTCTTGTGATGATTGCTTATTTTTTAAAGATTCATATTCTAATTTAACTTTCTCAAAATTTAATAATAATGAATTTTTTTCTTCTTCTAATTTGTTAATATTATTTTCTGTTAGTTTATTTTTTCTTTCTAAATCCTCATTTTCTCCTCTAAGTCTATATCTTTTCATCTCAATTTCATTTATTGCTTTTTCATGTAATGATAATTTTTCTTCCATTTCATTACGTAACTTAGTTAAATACTCTATTTTTTCTTTTAATATTTCTATATTTTCATTCTTCTTAGAATAATCCTTAGTTAATGCATTTATTTCTTTAATTTCAACATTTAACTTCTCATTATATTTTATTTCATCTTGCATTAACTTATCTTTTATAGCTAATTTTTCTGAAAGTTTTACCTCATAATTAGATTTTTCTCTAATAGATGTACTCAAATTTTCTTTTATTTCTTCTAATTCCTTATATATATTATTTAACTTATTTTTTTCATCTTCAATATTTTGTATTAGATTATTCTTCTTTTCTCCTGTATTTATTAAAGATTTTTTTTCTAATTCAAGATTAATTTGTATATCTTCTATTTTTTTATTATTTTCTTTTTTTTCTAAATTTAATTTATCTTGTTCTATTTCTATTTTATTAATACTGTATTCATAAAGCATGTATTTATTAACGTTAATTTGATGAACTATACTATTATATAGTCCAGCTTTTTCAGATTCTTCTTTTAATCTTTTAACCCTTTGTTCAAGTTCTTTTTCAACATATATTATTTTATCTAATTCAACTTGTACATTTGATAATCTTTTTAAAGCGTCTTCTTTTTCAACTTTAGCCCTTTTAGTACCAGCAGCCTCTTCTAAGATCTCTCTTATTTCTTTAGGATTAGAACCTATAATTCTTTCAACCCTACCTTGACCTATTATAGAGTAAGCTTGTTTTCCAATACCTGTATCCATAAAAAGATTATGTATATCTTTTAATCTTGATTTTTTATTATTTATTAAATACTCACCATCACCATTTCTATATATTCTTCTAGTAATTTTAACCTCATCTGCTTCATAATCTAAATATCTATCAGTATTATCAATTACTAGACTTACCTCTGCACTATTTGCATGTTTCTTATTTTTTCCACCAGAAAAAATTACATCACTACTCATAGCAGCACGTATATTTTTATAGCTCTGTTCTCCAAGTACCCATAATATTGCATCTAAGATGTTACTTTTACCACTACCATTAGGACCAACAATAGCTGTAATCCCTTGAGTGAAATCAATAATAGTCTTAATTGAAAAAGACTTAAATCCATTTATTTCTAACGCTTTTAAATACATTCTTATTCCTCTTAATCCTTAAATTTAATTATTAACTCATCTATTTCTAATTCCAATTTAACTATCTCTATTCCAGCATTACTTAGCATTCTTTTTGAAGCAATAGAACTATCTTTATCTTTGTGTTTATCTGAAAAAAATATAACTTTTGAGATTCCTGTTTGTATTATACTTTTTGCACATTCATTACATGGAAAATGTGTTACATATATAGTAGAACCTTTTAAATCTCTATTACTATTTAAAATAGCATTTAATTCTGCATGTACTACATATGCATATTTTGTATTTAAAAAATCTCCATCTTTTTCCCAAGGAACTTCATCATCACTAGAACCTATAGGAAAACCATTGTATCCAATTCCAACAATTTTACTATCCTTTACTATACAAGCTCCTACTTGTGTAACTGGATCTTTACTTCTATTTGCAGATAAGAATGCTATTCCCATAAAATATTCATCCCAAGATAGAAATGTTGTTCTTTTCATTTTACCTCCTATTTGACTTTACTTTCTATATATCCATCATAGAAAGTTGTTTTTATAGTATTACCACTACTAATATCTATGCTTCTTTTTATTATATTACCCTTATATGTAGTAATAGTGTATCCTTTTTTTAAAATATCTTCATTTGAATGTTTAGAAACAGATAATTTAATATTTTCTAATTCAAGTTTTTTCTTTTCAATCTTATTTTCTATTATTTTTGATATTTTATCACTTTGAGATTGCAATAATATATTAAGACTATTAACTTTTGTAGTTAAATTATTAATATTTAATTTAGATTTAAATACTTCTATATTATTTTTTTCTTTATTTATTTTTAAATTCATTGCTTTTTCTGCTTTTGTTTCTAATTCAGATATTAATATTCTTTTTTCATTAATTCTATCTCCAATGTTTCTTATAATATATGAATTATTTAGATTTTCTAATTCTTTTTTCAAACTTTTATACTTATTTTCTAAAATTTTACTAGCCTTATCTTCAAAAGAATTTAAGAAATATAAAGTGTCATCATATCTTTTTATAATCTTTTCAGCAGCTTGTGTAGGTGTTGATGCCCTTAAATCCGCAACATAATCTGAAAGTAATGTATCTGTTTCATGTCCAACTGCTGATACTACAAAAATATCAGAAGAATATATTGCCTCTATTACTTCTCTTTCATTAAAAGCCCATAAGTCCTCTATACTTCCTCCACCACGACCCACTATTAATGCATCTAAATTATATTTATCTTTATTATCATTAAAATATTTTATTGCTTCAACTATTTCTTCTTTTGCACCAATTCCTTGAACCTTAACAGGATAAAGAAAAATATCTACATATTTATCTCTACTATGTGTAGTATTAACTATATCTCTAATAGCTGCTCCAGTTTCTGCTGTTATTACTCCAAGTCTTTTAACTATCATAGGAATTTTTTTCTTCTTATTACTATCAAAATATCCTTTTTCAAGATATTCTTTTTTTAATTCTTCAAGTTTTTCATATAGATATCCTATTTTATTCATTTTTTCTAAAATTTCTACATTAAAAGTTAATTCACAACGTGGCTTGTAAAAAGAGATATCTGCAACTATTTTTATTTTATCTCCTTCTTTTAAATCTCTTGGTATATTTTTATATAGATATCCAAAAGCAGTACATTTAATTTGTGAATTACTATCTTTAAGAGTAAAGTAAAGATGCCCTGTTTTATGATAAGTAATATTAGAGATTTCTCCTTCTATAGAAACCTTTTTCATTTCACTGGTTTTAATAAATCTATCAACTAAATTTACAATTTCAGAAACAGTTAAATTTTTATCCATATTTACTCCTAAATATTATCGTAATCTTCTTTTTTATACCCAATTATTACCTTATCTTCACAAATTAGTATAGGTCTTTTAACTAACATACCATTAGTTGATAATAGTTCTAATTTCTCATCTAAACTCATAGTATCTAATTTATCTTTTAATTTCATTTCTTTGTATAATATACCACTTGTATTAAATAACTTTTTTATATCTAATCCTGATTTTTCATGAATTTCTTTTAATTCATCCTTAGTTAATTTTTCTTCAACTATATGCCTTTTTTCTAAAACATGTCCTTTTTTTTCTAAATGTTTAAGTACTTTTTGACAAGTTGTACATTTAGGATAATGTATATATTTCATTTACATAACCTCCAATAATACTTTCTTTAATTCATTAAGTTTATTTCTTCTATCTATAGCTTCTTCATATTGATAGTTTTCAGCAAATTTTTTCATTTCTGCTTCAACTTTCTTTATTTCTTTTTCTAATTCTTTTATAGATTTAAATGTTACTTTATTTTCTTTTTTATCTTCTACTTCATCAGTATATTCAAGCAATGATTCAGTTAAATGTGCCTTAACATTTTGTGGAACTATATTATTTTCCATATTATATCTTTCCTGAACATCACGTCTTCTTTCAACCTCATCTATTGCTTCTTTCATAGATTTAGTTATTTTATCTGCATACAATATTACATGTCCATTTACATTTCTTGCAGCTCTACCCATAGTTTGTATTAAGGATCTTCTTGATCTTAAAAATCCTTCTTTATCTGCCTCAAGTATTGCCACTAATGAAACTTCTGGTAAATCAAGTCCTTCTCTTAATAAATTAATTCCAACAAGAACATCAAATTCACCATTTCTTAGACCTTTAACTATTTCTACTCTATCTATAGTAGATATTTCAGAGTGCATATATTTAACTTTAATTCCATAATCTAGGTAATATTCTGTTAATTCTTCTGCCATTTTTTTAGTAAGTGTTGTAACTAAAATTCTCTCTCCCCTTGACACCCTTTCTTTGATATCATCCATTAAATTATCTACTTGATTTTTAGTAGGTCTTATTTCTATACTTGGCTCTACTATACCTGTAGGTCTAACTAGTAATTCTACTATTTCTCCATTTGATTCATTTATTTCATAATCACTTGGAGTTGCTGATACATATACAACCTGTTCTACCTTATTAAAAAATTCCTCATGTCTAAGAGGTCTATTATCTAAGGCACTTGGTAATCTAAATCCATGATTAACTAACATTTCTTTTCTACTTCTATCACCATTAGACATTCCACCTATTTGTGGAACCATAATATGTGATTCATCTAAAAATACTATAGGAGATTCTGGGAAATAGTCAAGTAAAGTATAAGGAGCTTCACCTGATTTTTTCCCTGTAAGATATCTTGAATAATTTTCCATACCTTTACAATATCCTATTTCCCTTATCATTTCTATATCATATTCTGTTCTTTGTTTTATTCTCTGGGCTTCAACCAACTGCAATCTATCTTCAAAATATTTTATTCTTTCATTCATCTCTTCTCTTATATTATCAACCAAAACATTAGTATCTACTTCAGATAAATAATGAGTAGCAGGCATAAGATTTAATCTTTTAATATCCCTTATCTTCTTATATGTTAAAGTATGTAATTCAGAAATACTTTCTAATTCTTCATCAAAAAATTCAAATCTATATACTATATCTTGATATATAGGGTATACATCAATTACATCACCTTTTACTCTAAATTTAGCTCTTTCAAGAATAGCGTCATTTCTTTCATATCTAAGTGATAATAAGGATTTAATTAATTCTTTTCTTCCTATGCCACTTAATGCTATATCTACATACAAGCTCCTATCTGCATATGAATTTGGTGATCCTAATCCATAAATAGCTGAAACAGAAGCAATAACAATAACATCTTTTCTATTTAACAATGCTGCCGTTGCAGCATGTGTTAATTTATCTATTTCTTCATTAATCGCAGAATCTTTTTCTATATATGTATCTGTAGATTGTATATATGCTTCAGGTTGATAATAATCATAATATGAAACAAAATATTCTACAGCATTTTCAGGAAAAAATTGCTTATACTCATTATATAGCTGAGCTGCTAATATTTTATTAGGTGCCATTATTAATGCTGGTCTATTAAGTTCCTTAATTATATTAGCAATAGTAAATGTTTTACCACTACCTGTAACACCTAATAAAATTTGATCACTAATTCCATTTTTAATATTTTCAACTACTTTTTTAATTGCTTCTGGTTGATCCCCTGTAGGCTTATAATCTGAATGTAATTTAAATTCCATATTTTCCCTTATTTTAAATTATCCTCTATTTGATCTAAAATATTTGAAGGATTTTCAAGTAAAGTTCCATATCTAAAGAATATAGATCCTTTAACTGCATCATATTTTTCATTTAATTTAAGTTGTTTTTCAAGCTCCTTTGAATCTTTCCATGGTTTTGGTTCTATATATTTGTATACTCCATGTCCAACATATAAAGGGGTGTTTGTTTCTTTTGATTTTTCTGCCCACCATTTAACTAATTCTTCATAATCTGCTTTTTCAAATCCAATATTCCAGTATATTTGAGGTGCTATATAATCTACCCATCCTTCTTTCATCCATTTTAAACTATCTGCATATAATGAATCATAACTTTGTAATCCCTTAGTTTTAGATCCTCTAGCATCTGTTTCATAATTTCTCCATATTCCAAATGGACTTACACCAAATGATAAATTAGGTTTAATCTTATGTACTGAAACTGATAAGTTTTTAATCATATTATTAACATTATCACGTCTCCAATCGCCTCTACTATTGTATTCTGAACCATATTTTTCAAATTCTTTTTGATCTACATTATCACCAAGTTTTAATGTTGCTGATGGATATGGATAGAAGTAATCATCTAAATGAAGACCATCTATATCATATTTTTCAACTATTTCTTCTATAGCTTTTGAAACATAATTAACAACTTCTGGATTACCTGGATTCATATAGAATTTACCATCATATTCAAATATCCATTCTGGTTTTCTCTTAACTATACTTTTATCTGATAATTTATTTAAATCAGTATTCATAGCTGCTCTGTATGGATTTATCCATGCATGTAATTCTATACCTCTTTTATGTGCTGCTTTTATTGCATATTCTAATGGATCATATCCTGGATGTCTATTTTGAGTTCCAGTTAGATAAATAGACCAAGGTTCAAATTCAGAATTATATAGAGCATCTGCTGCTGGTCTTACATGGAAAAATACTGCATTTAATCCCCATTTTTTAATATTTTCCATCATTTCATCTATTTCTCTTTTTTGTTCTTCCATAGATGTAGTTTTTGGGAAATCAAGATTAACTACAGTTGCTGCCCAAACACCTTTAAGATTTTTATTAATTTTTCTATTTTCTCTTTTGAAAATTTGCTCTGTTAATTTTTCATTACTTAAAATCTCTTTATTTGTAGTTTTAGAAGTTATTTTTATTTCTTCATTTTGACCATCACCTAATTTATATTTAGGTTTATAATCCTTATATAAATCTGTTTGTTCTACCACCGATGAACAAGATATTAAAAATCCTAAAAAAGCTAAACTAGCTATTATTTTTTTCATTTCTACCTCCATTATTTTATAACTATACCAACACCATCACCAAAAGGCAATAATGTAAAATTATATCTATCATTTAAATGATTAATAAACTCTTTTAAATTTCTTACCAATGTCTTATATCTCTTAGGAATCTCATCTTCTGCAACATATCCTCTAAACATAATATTATCAATAAAGATAATTCCACCTTTTCTTAATAATTTATATGAATAGTTATACAAATCTTCATATTTACTTTTTGCAGCATCTATGAATATGAAATCAAATTCCTCCTTAATATTAGGTAATACATTCATAGCATCATCATGTATACTATTTATATAGGTAGATAATCCAAATTCTTCAAAATTTTCATTTGCTTTTAAATACCTATCTTTTTCTATTTCTATAGTTGTTAATTTACCATTATTTTTTTTACATACTTCTGCCAAAAAAATACCTGAAAAACCAGTTGCAGTTCCAATCTCCAAAATATTTTTAGCATTAATATTTTCTGCTAAAAATATCATGTATCTTAAAACCTCTCTAGTAATTATTGGTATCTTATTTTCTAGTGCTATTTTTTCAATTTTTTCTTGTTTTTCATTAAATTTATATAATTTTCTAGCAAAATTACTAGAATTTTCAAAATTTATTATCATAAAAATCCTTTCACACTTTTACTAAATTATATCATAAAACATAGAAAAAAGCTATTTTTTCTAATATTTCCATATATTTAATAATTTTTTAGTGTAGGCTGTTTTACTTTCTTTTAATATATTACCTCTTTCTACAATTTCCCCATTTTTTAAAACTAAAATGTCTTCTGTAATATATTTTAATAATTCTACATTATGAGTTATAAATAATATGGTTTTATCATAGACTTCATTTAATCTTCTTACTATTTCTATAATCTGTAATTGTAAGTGTATATCAAGAGATGATACAGCCTCATCAAATATATATATATCAGGATTAAATAAAATAGCTCTTGCAATAACAAGTCTTTGTTTTTCTCCTCCTGATAATATACTGATATTTTTTTTTAAATCAATATGATTTAAAGATACAAATTCAAGTATTTCATTTATTTTATCTTTATCTACTTTTTCCTTCTTTATTATATACACTTCTTCAAGTACATCTAAAATAGAAAACTTGGGATTAAGTGATGATGTGTATTCTTGATATATCATAGATACTTTACCATGTATTTCTAAATTACCACTACTTATTTTAATAATTTTAGATATTATCTTACCTAAAGTACTCTTACCACTCCCACTTTCTCCAACTATAGCTAAAAGTGTTCCCTTTTTTATTTCTAAATTAATATCCTTTAGTGCAGCAATATTTTCATAATTTTTATTTACATTATTAAGTTTAATTAAATTCATCTTCTAACATCCTATTCATTGCATTAATATATTCTATATTTGAATATTTTTTCAAATCTTCAACTGTTTTTACTTTAATAATTTCTTTATTATTTACAAATATTATTCTATCACTAAATTTTCTTACTGCATTAATATTATGTGTAATCAAAAGAACAGATATATTTAAATTAGATACTAACTCTAATATTTCATATTCATTAATATTATCAAGTCCTGTAGTTATTTCATCACATATTAAAAGCTTAGGTTCCATCATTAAACATATTCCTATAACTATTCTTTGTTTCTGACCACCACTTAATTCAAAAGGATATTTTTCTAATACATTTTCATCTAAATTTAAATCTTTTAGTACTTTTTTAGCCTTTATTATCGCATCTTTTTTACTTAATTTTTTATGGTAAATAGAAGCTTCTATTATTTGTTCTTTAATTTTTAATACAGGATTTAAACATTCTGCAAAATCTTGAAAAATATATCCTATTTCTATATTACTAATATTCCCATAATTGATTGTTCCATTTAATTTTAATTTAGATATACCCTTAATAGCTCTAGCAATCTGACTTTTTCCACTTCCAGAACTACCAATTAACGCTAATATCTCATTACTATTTATATCAAAACTAATATTATTAATAATATTTTTTTCAGGTGCTGATATACTTAGATTTTTAATTTCTATCATTTTCATATATACCTCCGAAAAATAGAGTGATAGTAACTAAAATTAAACTTGCCAAAAGAAATTGCTTAGGGCTTATTAATAATCTTGAAAATCCAGATGATATTAAATTACCAAGTGATGGTCTAGGATTTCTTATTCCTACTCCCATGAAAGATAAATAACTTTCAGTAAAAATTATACCTGGTATCATTAATGTCAATCTTACAAAAACTATAGGTAAAATATTAGGTATTATATGTCTTCTTATTAGATAAAAAGGAGTTGCTCCCATATTTTTAGCTACCTCAACATAATTATTTAATTTTACTTTCTTTACCTCATTTCTAACAAGTAGACTAAGTCTTAAACTTCTAGTAAAACTTATAGCGAAAATCAATAAAGTTAAACTATTACCAAATATTAATAGTATAAATATTATTATAATAATACTTGGTATTGAAAGTAAAAGTTCTATTATCATCATAAAGATTTTATCAATAAATTTATCATAATATCCCATTACACTTCCTATAATTAACCCAGATATTAAACATATTATACATACTATAATTGCAAGTAACAAAGATATATATATACTTTCAGATAATCTTGCAAGTAAATCTCTTCCAAGATAATCTGTTCCTAAAATATGATTATTTTTAAAAATAGGTAATTCTATAGAATTTAAATCTTGATCACTATAATTAAATTTATTAAAAAGTTTTTCAAAAATAACAAATATCATTAATGAAAATATAAAAATTATAGACTTAATTTTTCTATTCATCATCTTTCACCTTCAATCTTTTATCAAAAATTATTATTAATATATCCATTATGTTAAATAGAGTAATAAGAATTATAGTATAAAATATAGTTAGCCCCATTATCATAGGATAATCTCTTTCTATTATAGATGTAGTAAAATACCTACCAATACCTGGAACACCAAATAGAGTTTCAACTATAAATGAACCTGTTATTAGAGAAATAACATAGGGCATTAAACTAGATAATAGTGAAGGTGCAATATTTTTAAGTATATGTTTAATTACAATATAGTTTATGCTAAGTCCCTTACTTATTGCAAATTCTACATAATTTTTATTCATTTCTTCTTTTATTTTCTTTCTTAACAATTTAAATATTATAGGAAGGTAAAATAGAACTAAGGTTAATACAGGCAATATCTTTTCTCCTCTTCCATAATAACCCATAATACTTAATTTAGGTAAACCCAATAATCCCTTATGTATATAAACAGCATAATATTGTAATAATCCTGCTAATACAAATCCTGGACTCGCTATTAACACACTAGATATTTTCAAAAATATTTTATCCATAATTTTAAAATTTATGGATATAAGTGAAAATATTAAAGCGAAAAAACTAGAGAAAAATAAGACACGTAATCCTAAATCAAGGGATGTTGGAAAATTATTATTAATAACATCTACTACTCTTAAATTAGGATATTTAATAGATTCACCAAAATCTCCACTAGCAATCTTTTTAATGTATTTTACATATTGTTCACTTATAGGTTTATCTAAATCATATATTTTTATTATTTGACTTTTAACAGTTTCATCTAACTCATCATCTATAAGATTGTTAGGAAGAGAATGTATCATGAAAAAAGTTAAAGTTATAACAGATAATATTACTATTAATCCCCTGAATGTTTTATAAAAAATTTTTCTTAACATATATCTCCATTTCTAATATAAAAAAACTACCTCTTATATAAAGAGATAGCCAAACTAATATCCTATTTATTATAATTATTTAGAAACTACGTTTGTTGCTTGTGGTCCTTTTTCTCCATCTTCGATATCGAATTCTACTTCTTCTCCTTCGTTAACTGTTTTGAAACCACCTTTATTTATTTTTGAAAAATGTAAGAAATAATCTTTACCATCTTCACCAGAAATAAACCCGAATCCTTTTTTTTCGTTAAACCATTTAACTTTACCTAACAAAATATTTCCTCCTATTCATAATGGCACATGCCAATTTCTAACAAATTATACCATGTTTTCAAGAAAAGTCAATAGAATTATTCTGTCAATTAAATTTTCTAGCTAATTTCACCTCATAATTCAGGAATTTAATATAGTAACATTTAAGATACATTCTATCTTTTTTTTGATAATTTCCATATTTACTATCTCCTATTATTGGATGCCCTATATCACTTAAATGTACTCTAATTTGGTGTTTTCTACCCGTAATTAACTCTATATCAAGTAATACTTTAAAATCTTTAACTTCTATTACCTTAAAATATGTTTTAGCCTCTAAACCATCTTTTGATACTCTTACTCTATCTTCAAATATTTTTATTTTTTTATCTGAAAAGAATTCTTCATCTAGTTGTAGTTTTTTTTGTTCCACTTTAGCAATATATCTCTTTATTATTTTTTTATTCCTTATTTCTTCATTAACTTTTCTAAGTATCTGAAGATTTTTACATCCTATAACTAATCCTTCTGTTTCCAAATCTAATCTATTTGCAAAATTTACATTAGGGTTATTATAATATGCCTTTGCAGTTTCAGATAATCCAAATTTATGTTTATCACCCTTATGCATAGGCATATTATTGGGTTTATTTATTATAAATACATCCTCATCTTCAAATACTATCATATTTTTAAATAAATCTATATCTATTATTTCTTTTTCGATTTTTTTATCCATCACTATTTTAGCAGCATCTGGAAAAAAAATTTCATCATTTAATAAAAGTCTATAGTTTTCTTTACTTTTTTTACCATTTACTTTTACAAAGCCTTTTCTTATTAATGAAAAGATTATTGAAAGACTTTCTTCTTTAGAATATTTCCTCATAAATTTATCAAGTCTAATATTTACATGGTCTTTATCTACCAAATACTTATTTATCATCGTCATCTCCATTATATATCTTAATATTTTGTATTAAAGATATCATTAAAAATGAGGATATAAATGAAGAACCTCCATAACTCATTAGAAGCAATGGTTTTCCTGTAACAGGAACTATACCTAAAGTCATTCCAACATTTATTATAACATGAGCTAAAAATATTCCTGATATTCCATAAAGTATTATTCTACCGTAATCATCAATAATTTTTTTAGAAATATTTATAATTATATATATTAAAAGGAAATATAAGGATAGTACAAATGTCGAGCCTAAAAATCCTATTTCTTCACCTATAACTGAAAATATGAAATCTGTTTGTGGTTCAGGTAAGAATTTAAGTCTACTTTGGCTACCTTCTAAATAACCTTTACCTGACAGACCTCCAGATCCTATAGATATTTTAGATTGAGCAACATGCCAACCTTTATTCTTTAAATCCTTTTCTGGGTTAAGGAAAACTTCTATTCTTGTCTTTTGATAATCTTTTAAGACAAACATATATGTTGGTACACTCATAATACCAAGTATTAAAAATATTATTACTATAGGTTTAACATTAGCATTAGATAAATATAGCATGCATAAAAAAGAAAAACATAATATTAATGTCGTACCTAAATCTGGTTGTAATAATAATAATCCTAATATAGGTATACCTGGAATAAATGCTAGAATAATATGTTTAAATGAATTAATACCATTTGGAAACTTCTTTACAAACCAAAATGAATATATCATTATCAAAAATATTTTTACAAATTCTGATGGTTGAATTTGTGTAATTCCAATATTAATCCATCTTCTTGCTCCAAGTTTAACTACTCCAAAAAATCTTGTATATAATAAAAGTAAACCAGAAAATACATATATAGGTTTTATTATTTTTTTAGTGAACCTATAATCTATAAATATAGCTACTATTAATATTAAAGTTCCTACAAATGTCCATAATAAATTACTTTTTACATAATACATAGATCTTGTTGCACTATATACAAAAGCTGTACTTACAAATACAAGTAAATAAACTACAAGTAATAATGATTTATCTAATCTATGTACACGATTTCTTAATTTTGCATAACTTCTTTTACTAAACATCTATACCTCCTATTACACAAGTACTAAAATTATTTAATAAAATTCTTGCTTTATTATTTACATCTTCTACACTAATACATAATAGCGTATCTGCAATCTCTTTATCAGTAAATACTTTTCCAAATACTTTATACATATTTAATAATCTTCCAACAATTTTACTATTTTCTTTAGCTGTTGCTCTAGTTGAAAGAATAGAATTTTTTACTTTTTCTAATTCTCTTTCAGTAATTCCTTCTTTCTTTATATTATCTAATATTTGTAAAGTAACTTCAAGAGATTCTTTATATTTATTAACAGATGTACCTATATATACACCAAAAGTCTTTAAATTCTTATAATCAAAATTCATAGCATTTACAGAATAGGCTAAACTTCTTTTCTCTCTAATTTCTTGAAATAGTCTTGAACTAAATCCATCCCCTATAATCATCTCTAAACATATATCTATGTAATAATCTTTTAAACTTCTATCCTTTACATTATTTTTAGTAAGTATATATACATTTACTTGATTTATTTCTTTTTTTTCTCTATAATCTGTTTTCTTTAATTCATCTTTTTCAAAAGTAAGTTCAACTTTATTTTCATTTAATTTTGAAAAATATGTTTTTATCTGATTAATTAACAATTCTTCATCAATATTACCAGAAACTGATATAACTAAATTATCTCTTGTATAATTTCTTTTATAATAATCTATAAGCATTTCTCTTGTAAAACTACCTACACTCTCTTCAGTTCCGATAATATTATATTTCAAATTACCCTCAAATAAATTTTCTTGCATTTGCTCAAATACTACAGACCAAATATCATCTTTAGACATTCTTATTTCTTCAAATATTATCTCTTTTTCTTTTTTTATTTGATCTTCTGGAAATATTGGGTCTGTAATCATATCAAAAAATATTTCTGTTGTTTCTTTTTGTTTACTTGATAAAGAAGTGAAATAATAATTAGTAACTTCTTTTGAAGTATACGCATTATATTTAGCACCATAAAAATCCATTTCCTCTGAAATTTCAAAATTATTTCTCTTATTAGTCCCTGTAAATAACATATGCTCTAATACATGTGAAAGACCTTTTTCATTTTCTTTCTCATTAACAGAACCTGTATTAAAACATACAGAAATTGTAAATGAGGCATCATCTTCTATTTTATTTATCAATGTTTTTATTCCTAATACATCTAATATCTTTACCATAAATTATATTCCTTCTTTTATTTCTTTTAAAAGTTTTCTCTTAAAATTTTTTTCAAGATTATATGTTCTAAAATCATCTAATTTATCTTTTATAAATTCTGGAAATAATGAATTGTATGCTCCAGAATTAATAGAAATATATTCTACTAATATAGAACTATATAATACTTCTTTAACATTATCAAATTTATTTGATGCAAATAACATTATTATAATAGCAAATACTATAATAATACTTGCTTTTACTAAACCAAATACTGCACCAAGTAATTTATTTACAATACCTAGTGGTGTCATTCCTATTAATTTTGTTATCATATTAATAACTATAGATACTAATAAGTATAAAACTATGAATATAGCAAAATATACTAGGTATCTAATTATTACATTATTTGCTCTAATATTAGCTATTAATTCAACCATAGGTAAAAACATAGGTGTAAAGTAAATTACTATTACCAATTTAATTAAATTAAAAGCTGATTTTACAAAACCATTTTTATAACCCATAATTATAAATAATAATGTTAATATAATTATCAAAATATCTAATATCATTTTTCCTCCATCCAATATATTCTTTTAACTCTATGTGAAATAGCACATAATAATTCATAACTAATTGTATTTAACTCTTTTGCTAAATCACCAACTAAAATGTTATTACCAAATATTTCTACATAATCATTTACCTTAATATCATCATCTACTTTTATCATAAATTGATCCATACATATATTACCTACAATAGGATAATATTTGCCATTAAAATAAACTTTTGATCTATTAGACATAGATCTTAACATCCCATCTGCATAACCACAGGATATGGTTGCAATTTTTTCTCCACAACTTGCTAAATATGTTTTAGAATATCCAATATATGTGTCTTTTTCTAAAACCTTAATATGATTTACTCTAGCCTTAAAAGTCATAACAGGTTTAAAAATATCTGTCATTTCTGCACCATACATTATTATACCTAATCTATATAAATCATAATCTTCATAATTATTGATACTACCAAAACTATTTAATATATGCTTATATTTAACATCTAAATCATTAACAATTCTATTAAATTTTTCTATCTGCATATTTGTATATTCATTATCATTATCAGCAGATGATAAATGTGAATATATACCTATTGGTTTAAGCATACTAAATGCTCTATATATCTCATCTTCCATAAATCCTATTCTACCCATACCAGTATCTAGGGCATAATGAAAATTTCCATTTATCTTATTTTCTAATATATATTCTATATCTTCAAAACTAGAAATAGTTAAATGTATTCCCTTTGAAACTGCATTTTCAATATCAGATTTCATAATTGGTGATAGTACTAAAACATCAACTTTTGGAAATATATTTAATATTTCTTCAGCTTCTTCTATCCTTGCAACACCAAAAAAGTTTATTCCTTTTTCTATAGCACTTTCAACAATTTTTATAGAACCATGTCCATAAGCATTTGCCTTAACTATTGCCATTACTTTACTTGCAGGAATTTTTTCTAAAATTTTATCTAAATTTTTCTTGAAAGCATCTAAATCAATTATTGCATAAACATTCATGTTTATTCACCAGCTTTAATATCTTATTTAAAACCTCATCAAAAGTTAAATTATCTGTATTAATCTCAATAGCATCTTCTGATTTTCTTAAAGGGGAATATTCTCTATTCATATCTTCATAATCCCTTTTAATTATATCCTCAAGTATTTTATTATATTCTAATTTTTGATCTTCTAAATATCTTCTTTTTGCCCTTACTTCAGCAGAAGCATTTAAATATATTTTAAGATCTGCATTTGGAAATACTACTGTTCCTATATCTCTACCATCTAATATTACTGATTTATTTTTTGATATCTCTCTTTGTAAATCAACCATAAATTCTCTTACTTTCTTAATTTTAGATACCTTTGATGCCATCATAGAAACATTATTTTCTCTAATTTCCTTACTGACATCTACATTATCTAAATAAAAAGAATTACCTTTGATATCTATATTTAATTCTTTTAATACATCGCTAATGTTATCTAAATTTAAATTATCTTTTATCATCTTATATCCTAATAATCTATACATAGCACCTGTATCTAAATGAGCTATATCAAGTTTTTGAGCTATTTTTTTTGCAACAGTACTTTTCCCACTACCTGAAGGACCATCTATAGCTATAATCATAATTTCACCTCTATATTTTTTCGTAAGATAAATTTATTCTATCAATACTTAATGTTTTACCTGTTTTAGTATCTATTTCAACTTCAATTCCATTAATTCTTTTATTTTCTTCACAAACGGTATATCTAACAGGCATTCCATCTTTAAATTTTTTTATAATCTCTTTTCTATTCATACCAATTACACCATCATGACCACCAGTCATACCTATATCAGTAATATATCCTGTTTTATTTAATAATATTCTTTCGTCTGCCGTTTGTATATGTGTATGAGTTCCATATACAAGAGAAGCTTTACCTGCTAAATTCCAACCCATAGCATTTTTTTCTGAAGTTACCTCTGCATGAAAATCAACTATAATTATATCTGCTTTATCCCCTATTTCTTCATATAATTCATCAATTGCCAAAAAGGGACAATTTACTGCATTCATATATACTTTTCCTTGCAAACTTACTACTGCTATTCTAACATCATTTTTTTTAATTATAGTATATCCTTTCCCTGGACTATTCTTAGAAAAATTATATGGTCTAATTATTCTATGTTCGCTATCTAAATAATTATATATTTCTTTTTTATCAAAGCTATGATTCCCAAGAGTAATTACATCTACACCATAATTAAACATACTTTTAGCATTATTTGGAAGTATTCCAAATCCCTTATCTATATTTTCAGCATTAACGATAATAAAATCGTAATTATCTCCTCTTTTAGATAAAAATTTAAACAATACATTTTCTCCTGATAATCCAACTACATCTCCTATAATTGCAAATTTCATATTTTCCCCATTCTAAAAATTTAAGCAGCCAATTAAATTATGACTGCTTAATATTCAAATTAATCAACTTAAAAACTATTTTGCATATTCAGTTGCTCTTGTTTCCCTAACTACAGTAACTTTAATCTGCCCTGGATATTGCATTTTTTCTTCAATATCTTTAACAACATTTCTTGATAATATTACTGCTTGGTCATCACTTATTTCTTCTGGTTTAACAATCAATCTTAATTCTCTTCCAGCTTGTATAGCATATGAACTTTCTATACCTTGATGTGAATTTGCTATCTCTTCTAATTGTTCTAAACGTTTTAAATAATTTGATAATGTTTCACGTCTTGCCCCTGGTCTTGCAGCACTTATAGAATCAGCTGCCTGAACTATTATAGCTTCAACAGAAGTTGGTTCAACTTCATTATGATGTGCTTCAACAGCATTAATAACTATAGGATGCTCTTTTGAAAATTTTCTTAAAAATTCTGCTCCATTAATTGCATGTGAACCCTCTTGTTCATGTGAAAATGCTTTTCCTATATCATGTAATAATCCAGCTCTTTTTGCATAATCAACATTAACTCCTAATTGTGTTGCTAGGCTAGAACATAAATGTGCAACTTCAATTGAATGTTGAAGAACATTTTGTCCAAAAGATGTTCTAAATTTAAGTTTACCTAAAGTTTTTAAAACTTCCTTAGGTAATGAAGGTATTCCTACTTCTAAAATTGCTTCCTCAGCTGCACTAATCATAGAATTTTCTACTTCTGATTGTGATTTTTCTACTAATTCTTCTATCTTAGTAGGATGTATTCTACCATCTTGTATTAATTTTTCAAGTGTTAATCTTGCAACTTCTCTTCTTACACCATCAAATGATGAAAGTACTACAGCCTCTGGTGTGTCATCTATTATTAAATCTACTCCAGTTGCAGCTTCTAATGCCCTTATATTTCTTCCTTCTTTTCCAATTATTCTACCTTTCATTTCTTCACTAGGTAATTGAACAACTGAAATAGTTGCATCTGCAACATAATCTGAAGCAGCCTTATTAATTGCTATTGCTATAGCAGATTTTGCCAGTCTATCCTTTTCTCTTTCTAAGTTATATTCATAATCTTTAATTAAACGAGCTTTGTCATAATCTAATTCATCTTCTAATTTAATTAATATTATTTCTTTTGCTTGTTCAGAAGTTAAACCTGAAATTCTTTCTAATTCTTTTTCCTCTTTTTCTATCATTGCATTTAATTCATTTTCAATTTCAACGATTTTTTCTTTTCTTTGTTCAAGTTTTGCTTCTTTTTCCTCTAATTTATTTGTTCTTAACTCTAAATTTTCTTCTTTTTTAGCAATTCTTTCTTCTTTTACTAAAAATTCAGATTTCATTACTTTAATTTCTTCATCAGCTAATTTTTTTTGTGCCAGTAATTCTTCTTTAACTTTTAAAGTTTCTTCTTTTCTAAATGATTCTATTTCTCTTTCTACATCTTTTTTCGTAATTTCTAGTTTTCTTTTAAGGTCAAATATTTTTAATTCTAAATCACTATATTCGCCATATTTTTTAATAAATCTACTTTTAATAAGATTAAATTCAACTAAAACTATTAATACTGCAACTAAGATGATCAATGTATAAATAATCATTTTTTCTCCTTTCTTTTTTATTATCATTCAACACTATCAATCATCCATTTGTCATTATATTTTTTCCAGATTACATCAAAATACATTGTTTCTGTTTCATAATTTAATAATAATATAGATTTTACGGTATTTGTATTTATTATATCTATCTCTTTTGAAAAAAATATTAAAAATTTTGAAAAATCATATTTTGATAAACTTAATAATATTATTTGGTTCCTTAGTGTTGTAGTTATCCTTTTTTTTATTTCGTCTTTATTATCTATTTTTGCTAAGTCAATAATCTCCTCTTGTACTTTAATTACTTCTTTAAAAATCTTATTTTTTTCAAAATTATTTATTGTACTGATTCTATTTATATTTGAGCAACTTATTAATAGTAAAAAAAACATTAGAAATATATATCTTTTCATATTCCTCCCATAATATTCAGTCTATCATATTTTCTATTTTTTTTCAATTATTTTTAACTCTTATTTCATTAGATTTTGAGCTATTTTGAATTTGACAGAAAATAAGTAAATAAAGTATAATGGGAATATTATGAAAAATAGGAGTTTTAGAATGAAAAAATTATTATCAATCCTTTTATTATCGACATTCATTTTATTTTCAAATATAATAGATAGTAAAAAATCAAACTATAGGATAGCATTTTCTCTAGGAAGTATATATAACTTTATAGAAGCAAGCCAAAATTCAGGTGCTAGCATATCATTTTTGACTGAGTGGAAGGCTATTATTAATAATAAATTTGATATTACATTTGGACCAAAAATTTCTATAAATACTAACGTAGACAATCTAAAAAATATAGCATTTATTTATTCTGGAATTAATTTAGGTGGAGAAGTTAACTTTAATTATAACTTAAAGGAAAACATTAAAATATACACTGGAATAGAAGGGCAAGTAGGAGTTGGACTACATACACGTACCTATTTATCTTATATAGTAGATGAAAAAAAAGATAAAAAAGTTGTTTACAATTATAATAATACAACTGCTGAATACAAGAAAAATACATTAAATTCACTTTCTCCAACAGGTATTATTTCACTTTTTATGGGACTTAAAATAAATGATAAATACAATATTGCACTTTATACAGGATATGGTAAGGGATATATAGGATTAGAAGCTGGATATTCATTTTAGTTTCATAATACAAAACTAACCTCTTAAAATTGAATGTACATATATTCAATTTCTTGAGGTTAGTTTTTAGTTTTCTTTATTTATATATTCTGTTTTTTATATCTTTAATCATTAAATTAATTTCATTTATTTTTCTTTGATCTGTAGTATATCTTTTAGCTTTTTCAAATGAGCTCATTGCTTTCCCATAATAATCATTTGTTTCTAAAAGACCTATTTTATTATTAGCCATTTTTAAATACTCTTGACCTTCTGTGAAAAATTTAATGAAATCATTATTAAAATCTTCCATTCTAACTTTACTTTCCAAAGAGTAAATTAATTTATTAACTTCATTTATTTTAGATTTATCCTTAGTATATTTTAGAGCCTCTTTTAAATAATTTATCGCATGTTTATAATCTTTATTTCTATCATAAACATTAATTCTGCTCTCAGCTATACTTATATAACTTTTAGCTTTGTTATATAATTCATAATATTTTAATTGAAATCTCATAGCTGATTCATTTTCGCTAATTTTATTTTCAATTTTTCTTATTAATTCATTAGCTTGATCTCTATTTTCTAAATCATTAGTTAATTTAATTGCTTTTTTTAGAATATTTAAAGCTTCTTTGTAGTAATAATTTTCATCTTCAAAAGTAGGTTGTTTTTTTGCATAATCTATAACTTCTAAAGCTTTCTTATATTCTTCTACAAATTTATATTCATTTTTTTCATTATTAGTATTTTTTATTTTCCATTCTAAATCTTGGATATATTTATTTATTTCATTACGTTTATAGTAATCATTTGTATAATTTAAAGCATATTTAAAATTATCTATTGCTAATTTATAGTAATAATTTGCATTACCTGTATTATATTCTCTATTTCCTTTTTCTAAATATGCTAGTGCTTGTTTATAATACATATTAAAATCATTAGCGGGATTATTTCCTGTTCTTGTTCTAATATTTTCTAAATATACATCTATTTGACTTACTTTACTTCTTTCACCAAGTGAAATATATATTGTTCTTGCTTTTTCAAAAGCTACCTTTGCTGAATCATATCTTTGTAAATTATAATTCCTCTGACCTTCTTCAAAATATTTATCAGCAATTTGAATTTCTATCTTATATTTAATATTTTCTAAATATACATCTATTTCTCTTGATAAAGTATAGTTCTTATAATAATCATATATCTTCTTAGCTTCTAAAAATCTTGATTTAGCTCTATCAAAATGACCACTATTGTAATATCTTTTAGCTTCATCAAAATATTTGTTAGCTTCATTTAATTCTATTCTACGTTTAATATCTTTTAGATAAGAATCAATTTGGTCTACATTTCTATTCATAGAGTATCTATGATAAATATCTCTTGCTTTTTCAAATCTAACTTTTGCTTCTGAAAATCTTCCAGAAGAATATAGGCTAATTGCTGATTGGAAATATTTTTCTGCATCTGCTAAATCTATAATTTTTGTTAATTCTGTATATCTTTTTTGTGAATCTCTATAATTATTATTAAAATCTCTATATGCTTCATATCCTTTATAGTACATTTCTTTAGCTTCTTTATATTTACCAATTCTTTCTAAGCTTTCTGCACTATTAATATATATATCAGCAGTAGATCTTGCAAATGATTCAAATATAGTAGAGTATTGACTATTTTTTACATCTGCTTTTCTTAATTTAGTAATAAATTCTCCTAATGAATTTATTCTACTATTTAAGTCTTCTTCTGCATATCTCTTTATTAATTCAATTGCTAAGTTTAAATTTCTATAATTATCATGTCTTGTTCTAAAGTCTGTATATTTTTCTAAAATAGGATTTTTCTCAATAATATTTCCCATTTGCCATAATTCAAAATAAGTATTTGCTTTAGTTCTAAGATCACTTGTATTACTAATTATAGACATATATCTATTTTCTGTTTCTCTTATTCTTGAAGATATTTCATTAGCAATTGTTAATGGTATTTCTGATTTAGCACTATTTAATTCTTTTACAGTAGTTTCAAGTGCTCCTATGTAATCTCCTTTTTCATACAATTGCTTTGCCGTTAATGCTGAACACGAAGTAATAAATATACTTACCGCTATTCCAGCTAATAAATTTTTTAAATTCTTTTTCATATTTCTTCACCTCTCCTTTGTTATACTTATATAATACAACGATTATGTTTAAAAGTCAACAAAACTAATAGAGTTATAAGTTTTTTATCAGAATACACTATAATATTTATTGCAATATTTAAATTTAATGAGTATAATAATGAAAAAGAGGTGAAAATATGAAAAAAGATAAAGTCATTGAATATATCGTAAATACAGGACTTGATACTATTATATTCACTACACCAAAGAATATTGAATATCTTACAGGTTTTTCTTGTGATCCACATGAAAGAGCTTTGATGTATGTGATAAATAAAAAAGGTGATGAATTTATTCTATGTCCAAAACTAGAGGAAGAAGTTGCAAAAAAATCTACAGAAAACATTAATATAATAGGATATTTAGATACTGAAAATCCATATATTAAATTACATGAATTTACTAATGATATATTAAATCTTGGTATAGAAAAAGAACATATTACTGTATTAAGATATGAGGCAATAATTGATGTGTTTAAGGTAGAGAATATAAAAGATGTTTCTCATTTAATTCGTGATCTTAGAAAGAAAAAATCTAAGCTAGAATTAGAGTTTATGAGAGAAGCTGCAAATCTTGCTGATAAATGTATGGAAATTGCTGCAAATAATATTAGAAAAGGAATAACAGAATTAGAATTAAAATCAATAATAGAAAATGAAATAAAAAAATATGGTGTTTCTAAAATGAGTTTTGATACTATAGTTCTATTTGGAGAAATGGCTGCAAATCCACATGGTGAAAGTAGCAATAGAGCTTTAAAAGATAATGAATATGTCTTAATAGACTTAGGTTGCTATTACAAAGGATATGCTAGTGATATTACTAGATGTATGCCATTTGGTAAAGTAAGTGATTTTGATAAATCTATATACGATTTAGTTCTTAAAGCAAATACAGAGGCAATTAAAGCCGTAAAACCTGGTGTTAGTTTTGCATACATTGATAAGATTGCAAGAGATATAATAACTGAAGCTGGATATGGGGAATATTTTAATCATAGATTAGGGCATGGACTTGGTATGGATTGTCATGAATATCCTGATGTTTCACAAAAAACAACAGATTTATTAGAAGTAGGAATGACATTTACTATAGAACCAGGAATATATATACCAAATAAGGTAGGAATAAGAATAGAAGATGATATATACGTTACAGAAAATGGTTGTGAAGTTTTAACAAAATATCCAAAATAAAGTATAAGGGGCAATAGCCCCTTATTTCTATCCTAATCTTTGTCTAGCATCGCTAGCTCTCTTTAATGCTTCTCCTATATAGTTAATACATAACATTATTATTAATATTAACATTGATGCTGGCATCCATACCCACCATTTATCAGCAAGTACTTCTGGTGCTGTTGCATAACTTATTAAAATTCCTAAAGATGGAACTTGTGGTGGTAATCCATAACCTAGGAATGTTAATCCAGTTTCTATACCTAAATTACTTGCAAATCCTAAAGTTAATCCAACTATAATTAATGATGAAATATTAGGAAGTAATTCTCTAAATATTATTTTAAGATCACTAGTCCCCATAGTTTTTGATGCATTAATATAATCTCTTCTTACTTCTGATAATACCTTACCACGAATTAATCTAGCAGTTCCTGTCCAATAGAAAATAGACATTATTAATATAAAAGTTATTACATTGTATTTTGGTACTATAGTAACAAACACTATAATTATTAATGTAGTTGGTAATATACTTATAAAATCTATAATTCTCATTGAAATATTTTCTATCCAACCACCATAATATGAAATAATTACTCCAACAACTATACCCACAAATGATGTAATAATAGTAACTGAAAATCCTATTATTATAGAATTTCTAGCTCCAATAATTAATTGCCCTAAAATACTACGTCCTCCATAGTCAGCTCCTAGCCAATATCCCTCAAGTGGTGCTGCATACTTATCTAATAATCTAACTTTCATTACATCTTCTACATCTAGTAAAAAAGATGCTGAGAAAAATATTACTATAATTAATATTGATAAAAAAGTTAGAGAAAATAAAGCAACTTTATCTTTTTGAAATTCTCTTTTTATGACATTAAACCCTGAAGGTACTTCACTAGCCAAGTTATCAATATCTTTCATCAAATCATCTTTTTCCGAATTTTTATTTGTCTTCATTTTTCTCCTCCTTTACTCTATTCTTATTCTTGGATCTACTATCATTAATAAAATATCAGATAGTAATGAACCCATTAAACTTAAAAATCCATAAAATAATATTAATGTTGTAATAACTGAATAATCTCTTGATGATATTGAAGAAATAAATAATTGACCCATACCAGGATAATTAAATATTGTTTCTATAAATATAGATCCTCCAAATAATCCTGTAATTGTATAACCTAAAAAGGCTGCAATAGGTAAAACAGAATTTCTAAAAATATGTTTTGAATAAATTACAGATTCTGGTACACCTTTTGCCTTTGCAGTTTTAACATAATCCAAAGATTTAGAATCTATTATTTCACTTCTTAAATATCTTATAGTCCATGTTGTAGCAAGCAGTGCATATGTTATTGCTGGTAATATTAAATGATATAATTTATTAATTACATAATCTAAAGTTCCTGGCACATAACCTAAATCAACTGATCCACCAGTTGGGAATATTCTTAACTTATACCCAAACACAAATACCATTAATAATGATAGTATAAATGTAGGTATTGCATAACTTACAAAATTATAAATAGTTACTATCTTATCTAATCTTGACTCATTATATCTTCCACTTAATATACCTAATGGTAATGCTACAGAATACATTAATATAACAGATAATAATGATAAAAAGAATGTATTATATATTCTTTCCCCTATAATTCTTGTAACTGGTAACTTATATGTATAACTTATACCAAAGTTTCCATTAAATGCTCTACTCATCCAATTTACATATTGAGTATATAAAGGATCATATAATCCTGCTTCTCTTCTTAATTTTTCTATAGCTTCAGGTGGTGTTGTTGGTGAAATTAATCCTGTAAATGGATCTCCTGGCATTAATTTAGCAACAATAAATACTATTATACTTAAGATAAATAGTTGAGGTATCATCGCTAAAACTCTTCTTAAGACTGTTTTCCACATACTTATTTACCTCCTTTATTTAAAGCTACATAATGTTCAGAAGAAGCATCTAATAATTCCAGATCAAATACTCTTCCTTTTTCATCATAATATAGATTTTCTAATTCTTTATATTCTTTATCAATCTTTGCTCTAAAATCTCTTTTTTCATCTCTAATAAGAGGATTAACATTAGGTATAGCCGCTATTAATCTCTTAGTATAAATATGTCTTGGATCAGAATAAATTATTTTCTTATCCCCTGTTTCAACAAATCTTCCTTTATACATTATAGATATATGATCACACATATGTTTTACTACACCTAAATCATGTGATATGAAAACATAACTTAAACCTAAATGTTTTTGTATTTTTTTCATATAATTTAAAACTTGTGCTTGAACAGATAAATCTAATGCTGACACTGGCTCATCTGCAATTATTAATTTAGGATTAGTTGCTATTGCTCTTGCAACCCCTAATCTTTGTCTTTGTCCTCCACTAAATTCATGTGGATATTTAACTATATTATCTTCTGTCATTCCCACTATTTCTAATAATTCAATTACTCTTTTCCTTTCTTGTTCGGGAGTAAAGTTTTCAAAATTTTTAAGTGGTTCTGATAGTAAATCAATAACTCTTTTCTTAGGATTTAATGATGACATAGAATCTTGGAATATCATTTGTACATTTTTTCTATACATAGATTTTCTTTTAACTCTATTTAAATTTATTTCTTCACCCTCATAAAATAATTTACCCTCAGTAATTTTTTCTAAACCAATAATTGATTTCCCTATAGTTGACTTTCCAGAACCTGATTCACCTACTAATCCATAAGTTTTTCCTTTTTCTATTTCCATGCTAACACCATCAACGGCTCTAACATAGTCTTTAATAGTATTGAAAAAACCTCCTCTGATTGGATAATGAACTTTAAGTCCTTCTAATTTAATTAATTTGCTCACTACTTCTCACCTTCTTTTGCAAAATAGAAGTTTTTATAACAAGTACATCTTACAAAATGACCTTTTTCAACTTCATGTAAAGTTGGAACTTCTTCATGCTCATTTTCATTGATCCAAGGTATTCTATGTCTAAATCTACAACCTTTTCTTGGTAAATTCTTTAAAGATGGAACTGTTCCATGTATTACATGTAAGTCATCTTCTGAATTTGAATCCATTTGTGGTATAGAACTAAGCAATGATTTAGTATATGGATGTTGAGGATTTTTAAATAAATCATAAACTGTAGCTATTTCAACTATTTCTCCAGCATACATTACAGCTACTCTATCAGCCATTTCAGCAACAACTCCTAAATCATGTGTTATTAATATAATACCTGCACCAATTTCAGATTGTAATTCACGAAGTAAATCTAAAATTTGTGCTTGTATAGTAACATCAAGTGCTGTAGTTGGTTCATCAGCAATCAAAATGTCAGGTTTACATGAAAGTGCTATAGCAATTATTATTCTTTGTCTCATACCTCCTGATAACTCATGAGGAAATTGTTTCATAACTCTTTCAGGATTATTTATTCCAACTTTTGTAATTAATTCTTTAACTCTATTTTGTCTTTCTTCAAATGTTAAAGTTGTGTGATATTTTAACCCTTCTTCTATCTGATCTCCTATTCTCATTAATGGATTTAATGCAGATAAAGGATCTTGGAATATCATTCCAATTTTTGCTCCTCTTATATTATTAAAATCTTTTTCTGTAAAATCAACTAAATTGTTTCCTTCAAATTTAATTTCTCCCGAAACCTTTGTATATATAAAGTTATGTAATCCCATTATTGATGTTGCAAGTGTAGATTTACCACATCCTGATTCACCAACTATGGCTAAAACTTCATTTTTTTTCAAGTCAAAACTAACGCCATCAACTGCGTTATGATATGTATCTTTTATACGAAAACTCGTAATTAAGTCTTTTACTTCTAATAGTACTTCATCTTGTTGTTTATCTCCCATATCTATCTACTCCTTTCACTGTTATATTATTAACTTAATTTATATTTTACTACATTTTTAAAATTTTTTCTATATATTAACTATATAAATTATATATAGTAGTATATATTTTATTTATCTTTGCAGTTTTCACATAAACCTTTAACATAAAACATTACTTCATCTATAGAAATATTGCCTAATTTCTCTAAATCTTTTTTGTAATAATCTATTTTAAAATCAATCATTTTATTACATTTTAAACATTTAAAATGTCCATGTGGATAATTTTCTATATCATATCTTATTTCATTTCCTTCTATTACAATAGCATTAGCAATCTTATTTTCTACAAAAAGATTTAAAGTATTGTATACTGTTGTTTTTGAAATTGTTGGTAATTCTGGCAATAAATCTTTATATATTTTATCCGCAGTTGGATGTATATGATTTGAGTTAAGATAATCAAATATTTTAATTCTATATATCGAGGGTTTTATTCCTCTTTCTTTCAAATATTTTTCTATTTTTTGCATTTCTACCGCCTTATTCTATTATTACCTAAAACTTTTTGATTTATTTTATTATAGTAAATTTATTCCATTTTTTAAACATTCTTCTTCTATTTCTTTAGTCCATATAGATGCTTGTACTTCTCCTATATGTGCTTTTTGTAATAAAAACATACAAATTCTTGATTGACCTATTCCTCCACCTATTGTTAAAGGAAGCTCATCATTTAATAACATTTTATGATATTCTAAATTTTCTCTATCTTTATCACCTGAAATTTCTAATTGTTTTCTTAAAGTGTCTTTATCTACTCTAATACCCATAGATGATAATTCAAAAGCAGATTTTAAAATATCATTCCATACTAATATATCTCCATTTAATTCCCAATCATCATAATCTGGAGCTCTTCCATCATGCTTTTCTCCACTATTTAAAGCTTTTCCTATTTGCATTAAAAAGACTGCCTTATGTTTTTTAGTTATTTCATTTTCTCTTTCTTTTGAACTTAAATTTGGATACATATCTTCAAGTTCTTGAGAAGTTAAAAAATAAATATCATTAGGAAGTAGTTGTTTTAAATCATGATATTTCATATTAACATATGATTCAGTAGCTAAAAACACCTTATATATCTTAGTTACTACTTCTTTTAAAAATTCTATTCCTCTATTTCTAGTTTCTCTTGAAATAACTAATTCCCAATCCCATTGATCTACATATATAGAATGAGTGTTATCTAAATCTTCATCACGTCTAATAGCATTCATGTCTGTATATATACCATGATTTTCCTTTACTCCATATCTTTTTAATGCCATTCTTTTCCATTTTGCAAGTGAATGTATAATTTCTATAGGACTATCTGGAGCTTCTTTCATATCAAATGATACAGGTCTTTCAATTCCATTTAAATTATCATTTAATCCTGTAGATTTAATAACAAATAATGGGGCTGAAATTCTTGTTAGATTTAATGCATCAGCTAAGCCTCTTTCAAAAAAATCTTTTATCTCTTTAATTGCAATTTCTGTTTGCATAATATTTAAACTTGTTTTGTATCCTTCTGGTATTAACAACTTCATTTACTCACCTTTCAATTTACTTAATTTTAAAAATTCTTCCTCAGTTATAATCCTAACCCCTAATTTCTCTGCTTTTTCTAATTTAGAACCTGCTTTTTCACCAATTATTAAATAATCTAGGTTTTTATTTACACTTGATAAATATATTCCACCATTTTTTTCTATAACTTTTTTAATTTCTTCACGACTGTAATTTACAAATTTTCCTGTAGCTAAAAACTTTTTATTAGTTATAAAATTATTATTTAATATTTGTTCTTTTTCAAAACTTAAATCAAATCCTATATTTTTAATTTCATTTATTAAAGAAATGTTTTCATTATCTTTAAAATAATTATATATAGATAAACTTACTTTTTCACCTATACCTTCTATTAATACAAGTTCTTCTAAGCTAGCATTAATAATATTTTCTATACTTCCAAAATGTGATACAACTAATTTTGAAGTAGTTTTACCAACATATTCTATACCTAAAGAATAAAATAGTTTTTCAAAGCCTATATCTTTTGCTTTATCTATATTATCTAATAATTTTTCAATACTTTTAGTACCCATTTTGTCTAAGTTTATTAATTCTTCTTTATGGTTTTTAAGTTTAAATATATCTATAATAGATCTAATATACCCTAAATCTACAAATTTATCAACTAATTTATTTCCAAAGCCTTGTATATTTAATGCATCTCTACTTACAAAATATTCAATTTTTCTCTTTAATTTTTCTACACAATTAGGATTTTTACATTTAAGTGCTACCTGTCCTTCTTCTTTAAATATAGTATTATTACAACTAGGGCATTTATCTATAATTTCTATTTCTTTTTCATTACCACTTCTTTTTTCTAATAATACCTTTACTACCTGTGGAATAATTTCAGCTGCTTTTTCAACTATTACAATATCTCCAATTTTTAATCCTAATCTTTTAATTTCATCAATATTATGTAATGAAGCACGTCTTACTACTGAACCAGATATATGGACTGGTTCTAATTCAGCAACTGGTGTTATAACACCAGTTCTACCTACTTGAAAACTTATATCTAACATTTTAGTTTCTTTTTGTTCAGCCTTAAACTTATATGCCATAGCCCATCTTGGAGATTTTGCAGTATAGCCTAATAAATTATGTAGATAATATTCATTTACTTTTATAACTAGTCCATCTGTTTCATATTCCAATTTTTTTCTATTATTATCCCAATATTCAATTTCCTTTTCTAAATCTTCAATTTTACTACATTTAGTAAATATTCCTGTAGTTTTAAAACCAAGTTTTTGAATATATTCTATAGATTCTAATTGTGTATTTAAGCCATATTTTTCAGAATCAACTAAATAATATAGATAACAGTCAAGATTTCTATCTTTAACTATAGAGTAATCAAGTTGTCTAATTGTTCCTGCTGCTACATTTCTTGGGTTTGCAAAAATTGTTTCCCCATTTTCTTCTCTTTCTCTGTTAATTCTTTCAAATTCTTTAAGAGGCAATACTATTTCTCCCCTTACTTCTAAATCTATTTCATCTTTTAATATTTTGGGAATAGTTGATATCTGTATTACATTTTCAGTAACATCTTCTCCTACACTACCATCTCCACGAGTAACTGCTTGTATTAATTTTCCTTTTTCATAAATTAAACTAATACTTAATCCATCTAATTTGAGTTCTAAAACATATTCTACATTATTGCCAACTTCTTTTTTTACCCTCTGATCAAATGCTTTTAAATCATCCATAGAGTAAGTATTAGCAAGACTTAACATAGCTTTTTTATGTTTTACTTTTTTGAATTTATCACTAGATTTTCCACCTATAATTTCTGTTGGAGAATTTTTTAATTTTAATTCAGGAAATTCCTTTTCTAATAATTCTATTTTTTTTAATAAAGCATCATATTCTCTATCTGTAATCAAACTTTCATCTAAATTATAGTAATGATGATTGTATATTTCTATATCCTTTATTAATTTTTCATATTCCTTCTTTTTTTCTTCTTCATTATTGAGATCAAAAAGTAACATATTTCTCCTATTTAATTCCACTATAATTTGGTGCTTCTTTTGTTACTATAACATCATGTGGGTGAGATTCTTTTAATCCTGCATTAGTAATTCTAACAAATTTTCCATTAATCTTTAAATCTTCTATAGTAGCTGTTCCACAATATCCCATTCCTGAACGTAAACCACCACATAATTGGAATAGGACATCTTTTAATTTCCCTTTTAAAGGAACCATAGATTCTATTCCTTCTGGTACTAATTTATCAGTAGCAGCCTCAAGTTGGAAATATCTATCTTTACTTCCTCTTTTCATAGCTATTAATGATCCCATACCAACATAACTCTTATATGCTCTTCCATTATATAGTATTTCTTCTCCTGGTGATTCATGTGTTCCTGCAAGTAATCCACCTAACATTACACAATCTGCTCCTGCTGCTATGGCTTTAACTATATCTCCTGAAAGTTTTATTCCTCCATCTGCAATTACTCCTATTCCTCTTTCATTACAGTATTCTGCAACTTCCATTACAGCTGATAATTGAGGCATACCAACACCTGATACAACACGAGTTGTACAAATAGATCCTGGTCCTACTCCAACTTTTACAGCATCTACTCCTGCTTCTACTAAATCAATAGCTGCTTGTTTTGTAACAATATTTCCACCTATTAAATTTAAATTTGGAAATTCTTTTCTAATTTCTTTTATTTTTTCAATTACACCTTTTGAATGCCCATGAGCAGAATCAACAGTAATTACATCTACTCCTGCATCTACTAAAGCCTTAACTCTTCTTAATGTATCAGAACCTATTCCTACAGCTGCACCAACTCTTAATCTTCCCTTTTCATCTTTACATGCATTAGGATAATTTGCAACATTATCTATATCTTTAATAGTAATTAATCCTTTTAATTTACCATTTTCAACTATAGGTAATTTTTCTATTCTATGTTCTAATAATATTTGTTTAGCTTGTTCAAAAGTAGTTCCAACTTTAGCTGTAATTAAATTTTCTTTAGTCATAACATCTACAACTTTAGCACTTAAGTCTTCTCTATACTTTAAATCTCTATTTGTTATTATTCCTAATAATTCATTTTCGCTATTTATAACAGGAAGCCCAGATATCTTGTATTTTCTCATTATATCATTAGCTTCTTGTAAATCAGAACCAATATTTAAAGTAATAGGATTTGTTATCATTCCACTTTCAAATATTTTAACTTTACTTACTTCATCAGCTTGTCTTTCTATAGTCATATTTTTATGAATAAATCCTATTCCACCTTCTCTTGCTATAGCTATTGCAAGTTCTGCCTCAGTAACTGTATCCATCGCTGCACTAATAATTGGTACATTTAATGATAATTTTTTAGTTAATTTAGTTTTTAATTCTACCTCACTTGGTATTACACTTGAACTTTGAGGAACTAATAAGACATCATCAAAAGTTAATCCTTCTAATAAAATTTTATTCATTTTTACACTCCCAACCAATTTATATATTTTTTTGTTTTTTCAAAAGATTTACCTAACATAAAGTCATTCTGATTTTTTAAATTCCCACAAATAGCGGGATGATTATGTTTAATTATTTCTCCATTTAAAATATGTTTTTCCATAATTGCAGCATCATTTCCCCATAAAAGATAGGTAATATTAGTATTTCTACTACTAATATATTCAACTAATTCATTAATAATACTTTCCCAGAATTTATGATGAGCACCTGCTTTATCAATAACTGTAGTTAATGATGAATTTAATAGTAGTACACCTTGATTTTGCCAATTTTTAAATATCATATTAGGTGGCAGTATATCAAATTCTTTTTTTAATATGCTATTTCTTATCTCTGATATATCAACCATATTACCTGTATATGTTTTATAAATTAACTTCAAAATATTTTTAAGTGATGTATTTACTTTTTCATCCATCCAACTTTCACTATTTACCTCAAATGCAAGTCCAGTTGCAACACCTTTCTGAAAATATGGATCTTTACCCATAATACATACCTTAATATCAGAAATATTCTGACTAAGTGCCTTAAATATTTTATCAGAACTAGGTGTGTAATCTATATGATCTGCTTCTAAATTATCTATAAATCCTTTAATCTTAACTACCTTGTCAATATTAAAAAATTCTTTGTAACTCTCATGTATGTTATATTTATGTATAAAGTTATTTACTATATCATCAAATTCATTTTCATTATTTATAATATCAAATACTTTCATTCTATTATTAAATGATAATATATATATCTTTGAATTAAAGATTTTTATCTTCTTTATCTCATCTTGAAAAATCTTAATTTTGTTGACTATATTTAATTCTAAATCCGTAATTATTAACTCACCATTAATATTACCAAAATAATAGAAATTTTTATCATTTTCTATATATGTTATCTTGTAATTTGACAACTTAAATGAATATTTAATTTGTGATTCTAATATATCCCATATTTCAATATATCCATCATCAGTTGAAGATAGATAATTAAGTCCAATAATTTTAGAATAAATATGGTTTGTAGTTGAAGTAATTTCAAATATTTTCTTTAAATGTTGAAGGGAAAATAATAAAACATTTACACTACTTTCATGCATTTTTCTGTGTTTTATTAATATATTTTCATCACTTATGTATATCTTAAATCTTCCTTCTCCTAATTCAGTTAAAGGAAATGCTTTAAGATTTTCTAAATTTATATCATTTATATACAAAATACCATTTGAAATGTATGCTAACTTACCTGTTCTACTTACTATTATATTTTCAACATTATTTAAAGGTAAAGTTATTTCTTCTACTATTTTTTTTCTTTTTCCATCCACTTTATATACCTTATCATTAGAACATATAACATAAAAATCATTACTTTGAAAAAGTTGATTTTCATATTTAATAAATCTAATACTTAAAGATTCTTTCATTTTTCCTTTTATACTCTTTATTTTCTTCATATTACTTAAAAAATTTAAAGAATCTCCAGTTGTAATCAATGTATGATTTAATGGATCTAATGCAAAATCTGATATATTAAAATTAAAATTAACACTGTCTTTTAATATAAGTTCCATGATTATTACCTCTTCTATACTCTAACTACCGTAACTATAACTGTTGGTACTTTACCTATATTATCATTAAAGAAATTATTTAAAGTATTCGTTATTCCCGTCTTTATTTTTTCTATATCCTGTTCTTGTTTTTGCTCTAAAAATACAAGTTTTGATTTAACAACTTCTTTCATACTTTCAGTAATCTGTGATGTAATATCATCTTTTTTATATAAAAAGCCTTTACTAAATATTATTGGATCTCCTACAAATTTTAATTCAGAATTTTGAGCTACAGATATAGCTAAAACTCCATTGTCAGCTAAAATTTGTCTTTCTCTTAGTATATGTTCTCTTACATTGCCTACGCTATCTCCATAAATATATACTGCTCCACTTGGTACTTTGCCTACAGTTTTAAAACTATTAGGTGTTAATTCTAATTTAAATCCATTTTCTGCAAGTATAATGTTTTCTTCTGGCATTCCAACTTCCATAGCAAGTTCTTTGTGTTTTTTAAGCATTACATATTCTCCATGAACAGGCATAAAATATTTAGGTTTAATTAAGTTTATCATAAGTTTTTGTTCTTCTTGACAACCATGCCCTGAAACATGTATTCCCATAACTTTTTCAAATATTACAGAAGCTTCTTTTTTAAGAAGTTGATTAATATTCTTATATGCTGCTTTTTCATTTCCTGGTATAGGTGAACCTGAAATAATAACTCTATCATTTGCTCTAAGTGATATTGATTTATGAGTACCATTGGCTATTCTTGAAAGAACTGATAAAGGTTCTCCTTGAGTCCCTGTACAAATTATCATTACCTTATTTTCTGCCATTTTTTCAGCTTGTTCTAAAGTAATTATCATATTTTTAGGTATTTTTAAATATCCAAGTTTTGAACATATTTCAAATATTTTAAGCATACTTCTACCATCTATAGCTACTTTTCTTCCATATTTTTGTGCTATTAGAATAATTTGTTGTATTCTATGTACATGTGAAGCAAATGATGCTAGTATTACTCTTCCTTTAGCTTTTGCAACCTCTGCATCTATACTTCTACCTACAGTTGATTCAGATGGAGTAGAACCTGGAACCTGAGCATTAGTACTATCAGATAATAGTAAATCTACTCCTTCTTCTCCTATACTTGCAAGTCTTCCAAAATCAAATCTTTCATCATTAACTGGTGTTAAATCAACTTTGAAATCTCCCGTATGTAATATAGTGCTTGTTGGTGTTTTAACTCTAATTGCATAGCAATCTGGAATTGAGTGTGTAACACTTATAAATTCAACGGTAAAATATTTACCAATTTTAACTTCATTTCTATTAGATATATATACACATTTAGGTTTCTTTACAGTAACTTTTTCAAATTTAGCTAATGCTAATTCTAAACTTAATTTCCCCCCATACATAGGTATACCTGAACCTAATCTTTGATAAAAATATGGTACAGCTCCTATATGATCTTCATGTCCATGAGTAATAAGTAATGCCTTAACTTTAGATACATTTGATGCTAAATATTCAAAACTAGGTATAATTAAATCAACTCCTAGATGTTCATCTTCTGGAAAAGTTAATCCTGCATCAATAACTATCATTTCATCTCTATACTGAATTACAGTAATATTTTTACCAATTTCTTCTATTCCTCCTAGTGGAATTATATATGTTTTATCAGTAGTAATATCAGTATTTTCTTCAGAAGGCTTTACCTTCTCTACCTTTTTTGTATTCTTTACTGATGTTTTTCTTTTAATTACAGGTTTTTCTTTAGTTACTTTTTTTTCTTCCTCTTCAAATAATTGTTTAACTGCCTTTATTTTCTCCCCTATTTCTTTTTTCTTTCTCGAAAAAGTTTTTTCATTTTTCTCCATTTATTCCCCTTTCTATAGTTTAATTTTTCCATCCAAATACATTAATATAACAGAAATATCAGCAGGTGTTACCCCTGCAATACGTGATGCTTGACCAACTGTATGAGGTTTTCTTTCATTTAATTTTTGTTTAGCTTCTCCAGTTATACCTTTCATTTCTAAAAAGTTTAATTCAGATGGTATTATTTTTTCTTCTAATTTTCTTTGTTTTTCTATCATTGCATTAGCTTTATTAATATATCCTTCATATTTAATTTGTACTTCAATTTGATATTCAGTTTCTTCATCAAAGCATATATTTTCCATTTCTATATCTTCTGCTATATATTTAATATCATCATATGTAAAGCTAGGTCTACGCAATAATTCTTTTAATGTTGTTCCACTTTTTAAAGTTTCATTATTTTTTTCTAAAATTTCAACCAATTTTTTATTACTTACTCCAAGTTTAGTATTTTCAAGTACTTTTATAGTTTTTTCTACATTATTAAGTTTTTCTAAAACTTTAGAATATGTACTCTCATCAACTAAACCTATCCTATATCCTATATGTGATAATCTTAAATCAGCATTATCTTCTCTAAGTATTAATCTGTATTCAGATCTTGCTGTAAACATTCTATATGGTTCTTCAATTTCTTTAGTAATTAAATCATCTATTAGAGTTGCTATATATGAATTATTTCTTTCAAGCAATAAAGGTTCTTCTCCCTTAATTGCTAAACTTGCATTAATTCCTGCAATTAAACCTTGTACTGCTGCTTCTTCATATCCACTAGTCCCATTTATTTGACCAGCTAGATACAAACCTTTAACCTTTTTTGTTTCAAGAGTATATTCAAGTTCATTAGGATTTACAAAATCATATTCTACTGCATATCCATATCTCATAATTCTTGCATTTTCAAGACCTTCAATTTGTCTTACCATTTTTTGTTGTAAGTCAGCTGGATATGATGTAGACAATCCTGAAATATATACCTCATTTGTATCAAATCCTTCTGGTTCTAAAAATAAGTGGTGAGAATCTTTATCATTAAATTTAACTACTTTATCTTCAATAGATGGACAATATCTTGGACCAACTGAATCTTTTATAGTTCCATTAAATAAAGGAGATCTATTTAAATTATCTTTAATTATCTTATGTAAATCTAAATTTGTTCTTGTAATATAACATGAAAGTTGCTTAGTATTTCTAATAACTTCATCAGGTGTAGAATTTGAAAACTTAATAACCTTAGACATCTCACCTGGTTGTTCTTCTAATATATCAAAATTTATTGTTCTAGCATCTATTCTAGGTGAAGTACCTGTCTTAAACCTTCTTATATCTAATCCCATATCAACCAAAGAACTTGTTAAATCTTTAGCTGATAATTCTCCCATTCTTCCACCTTCAATTATTTTATCACCTACATAAAGTAATCCATTTAAAAAAGTTCCAGAACAAATTATTACACTTTTTGCTAAAAATTCTAATCCATTTTTAGTTTTTATTCCTCTTACTACAAAATCTTTAATTTCATCTTTTTCATATATTAACTCTGTAACTATATCTTGTATTACATCAAGATTTTCTTGATTTTCAACTATTTTTTTCATGTTTCTAGCATAAATTTTTCTATCAGCTTGTGATCTTAAAGATCTTACTGCTGGTCCTTTTTTAGTATTTAATATTCTAATTTGGACAAAAGATTTATCTATAGTCTTTGACATTTGACCACCTAAAGCATCTAGTTCTTTAACTAAATGAGATTTAGCTGGACCACCTAAAGAAGGATTACAAGACATAACTCCTATATTATCTAAAGTAATTGTAAACATAGCTGTTTTTAGTCCAAGTCTAGCACTTGCTAGTGCAGCTTCTATACCTGCATGTCCTGCACCTATAACTAATACATCATATTTATTATCCATATTCTCCCCTATTTTATTATTTTATCTATCATCTCTGTTTTAAGCAATAATACTAGTGTTTCTTCTTTTTTTAACACATCATTTGGATCTGGTGTAACATTCATAGATCCATTTTCATATTTAACTGCTATAACATTGGCTTCATATTTAGTTCTTAAATCAAGTTCTTTTAAAGTTTTACCAACAAATTCTTCTGGCATTATTAATTCAAATACAGAATATTCCTCAGAAAATCTAAAATGCTCTACTACTGTAGGTCTAAGAGATGCAAGAGCGATCTTTTCTCCCATAGATTCTTCTGGATATACAACCATATCTGCCCCTATTTTCTTAAGAACCTTACCTTGAGTATGAGAAACAGCCTTGCATATTATTTTCTTTATACCAAGTTCTTTTAAATGTAAAGTAACTAATATACTTGATTGTATATTACTTCCTATACAAACGAATGCTATTTCAAAATCATCTTTTATTACATTTTTTAAAGTAGTTTCTTCAGTTGCATCTAAAATTATTGCCTCATCTACTATTTCTTCATCTAATGCCTGTCTAACCAATTCTTCTGATGAATCAAGAGCTAACACTGTATTTCCACTCTTATACAATGTTTTTGCAACAGATTTACCAAATTCTCCTAATCCTATTACTAAAAAATTTTTCATAACTCTCCTAACCAATTAATATATTTCCTTCAGGATATATATATTTTCCTTTTTCTCCACTTCTTGATAATGCTAATACTACTGTTAATAATCCAACTCTTCCTAAAAACATAGTAATTATTATTAACATCTTAGAATATATTGTTAATGATGAAGTAATTCCCATACTTAACCCAACTGTTCCCATTGCAGAAATTAATTCAAATAACACCTTAACTAAATCTTTATCACTTTCAAAAATACTCATCAACAAGAAAATTACAAATAAATATGATAATGCTATAAATAATAAGGCTACTGCTTTATTAAATGCTTTAAATGAAATTCTTCTTCTTGAAAATACAATTTCTTCTCTATTTTTAATAGAAGCCTTTATACCTAAAAATATTATACCTACTGTGTTTGTTTTTATTCCACCACCAGTTGATCCAGAAGATGCTCCTATAAACATTAATATACATGAAACTAATACTGTAGGTATTCTTAAATTATTTAAATTTACCGTATTAAACCCAGCTGTTCTTAAACTAACAGATTGGAAAAAACTAGCTAATATTTTCTTTAAAAAAGACATTTCTCCTATACTTCCTGAATTAGTATACTCAAAAGTAAAAAATAAAATAGCTCCTATGAATAATAGAGAAACAGTAATGTATAAAGAGAATTTAGTATTAATAGTTAATCTTTTCCCTCTGCCTTGAATATATTCATATATATCTATTATAGCTGCAAAACCTACTCCACCTGTAAATATTAAAAAAGCGATAATAATATTTACATAAACATTATCAACAAAACCTTCAAAATTATTTGAAAACAATGAAAAACCTGCATTACAAAATGCAGAAATAGAATGAAAAATCGAATAAAAAATAGCTTCACCAATACTATATTCTTTTAAAAAATCAGACAAAAGAAAAATCGCACCTAATAGTTCTATCCCAAATACAACCATAGCTACTTTCTTCATGTATAAATAAATATCAAATTTATCTTCAAAATTCAAATCTTCTTTTACAATTTTTTTAGTATAATATCCAATTTTTTTTGATACTATTAATACTATTAAAGATGAAAAAGTTAATATACCTAATCCTCCTAATTGTATTAATATAAGTATTATAATATTACCAAATCTGTTAAATGTTTTACTTACATCTAATATTGTTAATCCAGTTACTGTTACAGCTGATGTTGCAGTAAATAATGCCTCAAAAAATGAAATCTTAACTCCACTTTTTAAGCTTATACTTAATGTTAATAAACTTGCTCCAATAACTATTATAAATATAAATGAAATCAATATCAAAATATATGGTGATATTTTTTTTTCCATTTTACACTCCATTTTTTAATAAGGACAATCTAAAGAAGATTGTCCTTATTCATATTATATTTCTAATAAATGTCTTGTTACATAGTCAGTTGCTGCAATGAAGTTTAATTTTTCTTTTACCTCATTATAGCTAACTTTCTTATACGGTGTATCTTCTGTTTTTTGAATAATTACAAATGAATCATCTAATGAAATTTCTATAAAATCTCCTACCTTTGCAGAGAATAATTTAGAATTAACAGTTTTATCATATCCAACTACTGGTAATTTATCATTTTGTTTAACTTTAGAAAAATGATCTTTAATACCATATTCATTATACTTTCCTGTAGTATCACTTGTGATATTTTCCCAAGTTAATTTGTTACTTGTTATTAATTCTTTAATTTCTAATACCTTATTTTTAATTTCTTCTTTAGTTCTCTCTCCAGCTTCAACCTTTATTAAGATATGTTTTAAAGTTGCAATATCTTTATTGTTTTCATCTTTTTCTTCAACTAAAATAATGTGGTATCCAAATTGTGTTTTAATTGGACCAACTATACTTCCTGCCTCTGCTTTTGCAACTGCTGTTCTAAATTCAGGAACAAAATTATTAATATTTGCTTTTCCTAAATCTCCACCATTTTGAGCACTACCAGGATCTTTTGATAATTCTCTAGCCTTATCAGCAAAATTTTCCTTAGTTATAGTTTTCATTAATTCTATAACCTTATTTTCTGTTTCTTTTGCATCATCATCACTAGGTATATATGCCATACCAATTATTTCACCACTTACTGTATGTTGTATGTCAAATGCTCCTTGATATTTATTAAATATAGCTCTCATTTCTTCTTCAGTTGCAACATATGAACCTATTAATTTTGAAACATATTCTTCTGCAATATATTCTAATTGATATTTAGGTAATAAATCTTGATTTAATGTTAATCCTGATTCAATAGCCTTATCTCTAATTCTAATTTTCTTATCTAAATCTGTTTCAATTAATCCCTTTATCATATTTTGAAAATCTTCTGTATATCCATTACCTTGTTTGAAAAACAAATTAACAATTTGAGATAATACATCCATGTATGTAAATTTGTATTCTTCTTTTTCAAAAAATACTTCTTTTAATTTGTTTAAAGCTGGTTCTATAGTTTTATCACTTATAGAAATTTTAGCATTGTTAAACTTATTTTCTATTAATGATTTTTCATATATTTTTGCTTTTTCATTTAAAATATCATCTTTAACTTCATCTTTTACTTCAGCAAATGATTTATCTTCATATTCTGTAAATTTTCTTTGATTAAATCTTTCTTCTATTTCTTTATCAGTAACAGATATCTTTTGTTTAATAATCTCTAATTTTTTATCATTTAATAAGAACATCTTAATTGTTTCTCTTAAATTTTCTACAGTTTGTCCTTGTGCATTTAACGCAGTAATTAGACCTTTACTACCACCTAATTGATCCTCTAATTCTTTAAATTTTTGTTCAATTTCTTTTTTTGATGCTCTAGCACCTAATTCATTAATTAAAACTTTATTTAAAGCTTCATAAACTTGCCCAGCTAATACATAACCTTTAACTAATTCTTCAGGTAAAGCTTGATATTTTTCTTTATCTAAATTTTTTGCTTTAATTATTTGTTCATTTAAGCTTTCTATTTGTTTTGAAAAATTATCATATTTTTTATCAAAATCTTCTTTATATATCTTTTCTCCATCTATTTTTAACATAACAGTTTTTTTCTCTCTATTAGAAAAATATGTGTAAGCAGACATAAATACTGGTATTAGCATCGCAATTGCTATAAAGACCGTAATAACCTTCATTGGTCTTCCCATTTTTTTAAATGCCATCTGTGTTCCTCCTATTTAATTATATTATATGTAATTATACCATACTTTACCTATTAAATTCAAGCATTCTAAGTAAAAACCTATGATTTTTAAGTTTTTACATAGGGGGGAGGGGTATAGCATAAAAGATAGATATTTTTTTCACAATGCTTGTTGGAAATATATAAAAAAAGACTACAACGTTGTTGTAGTCTTTATATAGAATTACCAAGTATAATTAATTGAAAGTCCACCTTTTCCAACAATCTTTCTTAAAACGAAGTCTTTGTTTTCATTGTTATTATTAGAAGCACCATTTGGTTTATTCTCCAAGTTAAACTCTGCTCCTATCCATGGACTTACTTTTAATCTTCCTTCTACATAACTAAATTCTGTTGATATTTTTGGCTTCACTGTTAATGAATGTATTGCTTTTTCTAATTCTGCCTTTGATGATAGTTTTCCTTTTGTTAAGTCTTTTATCTTTCCTTTTTCTTTTCTTAAACTATCTTGTTTACTTACATCGTATTTCTCTGCATATTTATGTATACTTTCCTTATAGCCTGTTGAATCTTTTATATAATCTACATATACTCCATATACTTCTTTATTTAAGCCATTTAAATTATACTCATTATCTAATGATAAGATTACTTCTACATTCTCTCTTGCCTTATATCTACTCTTCCCTCCAAAGTCTATGCTTAGGGCTTGTTTTATTCCTTCATCTGTAGCTGTAAGACCTTTATGAAACACCGCATCTAATCCATATTTAGCATCAATATTTATTTCATTTGTGTATCTTCCATTTACATTCTTATACCCTAACACTATATTTGCTAAGAATACATCGTATAAGTCTTTATCATTAGCTACTTTATGATTTTGGTCTGTATGGAAATGTACTTGGTTGTATAAGTTTACTTTTCCTTCTATCTTGTTATTATCATTTATTTCATAGCTTACCTTATTTTCTGTCCATACAAATCCTTGATGTCTTAGATCTTCTGGTTTTTGGTTTTCTTTATGTTTTGTGTCAAATAAGTATCTTAAATCTATTGTTGATTCTATATTTACTTCTTCTATCTCTTTTTTTAATGATAGTCCTGCTCCTGTTAATAGGGCATGGTTGTATTCTTTATTTCCATTAGTAGCTTTTAGATTAGCTCCTAGCTTGTATTCTGCTAATGTGTGTAAGTCTAATCCCTTTGTTACATTTAGCTTTATCTTATTTGATGTCTTAAAGTCATTATTAAGTTTACTTACTTCTTCATTAACTTTATGCTCTATTGTAACCTTATTTGAATTATCTGATATTAGAGATAGTTTTGTTGTTGGTTTTATTGTTGCTCCTAGCTTTACTTCTGGTTCATGAGTTAATGTTGTATTACCATTATCTTCTTTAATCTTTAATTTGTAATTAAGATCTCCTCTTAGATCAACTGTTTTTCCTTTATATTCTCCATTATTTAATAACTCTACTTTTGTATTTCTCTCAGTTTTCTTTAATATGCTCTTTAACTCAAACTTTGCCTCATTTGTTAATTTTACTTTTTCATTTGCATCTGTTTCTACCTTAACATCTCCAAATAAATCTCCATATTGTTCATAGTTTCCACTTTTTAAAACATGTCTAATTTCTGCATTAGCTATTCTTACATTATCACTTAATTTTCCATTAGTTTTAACAAAAGTTTCTAGTTCATGCTTATCATCTTTAAAATCAGCAGAGTTATATATACCAGCAACAGTTAATTCAAAGTTATTATATATTTTACCATTTAATATAGCAGATAAAAGGAAAGTATGTTCTTCACCTAATTTATACCCTTGTTCTTTTCCTATTTTTACTTTCTTTCCTTTGCTTGTTAAATGTTTTTCTATTGCTTCTTTTATTCCATTATGTTTGTGGACTTTTTTCTCATCTTCATTTAGATTCTTTTTCTTTTCCCAAGCAATACCATCTCCACCTCTTCTATGAGCAGCAGTTAATTGAATGTTGAAAGTATCAACTATATCAGAATCCCATCTTAGACCAAAGTGATAAGGTGTTTTATCTCCTAACTTCATTTCATCTTTATTTGCTTTAACACCATTTAAATCAGTACCAATGAAAGCAAAGATTTCCTTATTTTTGTGCATAAAGACACCTAAATTTCCTTTAGCACCTATTTTGTTAGTAACATCATCTTGTTTCCATAGATCTTTTATTTGCATTTCATTAGATGAATTACCTCCTGAACCACCATTACCAGAATTAACCTTTTCATATGTTATTGGTTTTTCTACAGAAACACTGCCATTTAACTCCAAATAGCCGTGTAAATGTTCATATTTACTACCAAAAGATGCAACCGAACTTAAAGCTGTAATTCCTAATAAGATTTTCTTCATTACATATTCCTCCTAGTTTTCTTTACCTTGTATATTCATGATATATTATATCTTATTTATACTTTTTTGTCAATATAGCCAAATTGCAAATTTTATTGCTATAACTAGTCGTATTTATACTATTTAGACATACTTTAAGAGAATAAAAATGAGCCGCCCTGCCGGGCGGCTCAAAGGGGGGGTTAATTGAGGTTGACTAACGCTATGTTAGTCAAATTTATTATACCCTATTTTTTATTTAATTGCAAGTCTTTTTTATTTTTTTTATTTATTTTTTTCAAAAAATATGATTTTATCTCTTTTTTCAACCATTTCATAACCACAAAATTTTAGTTTTTCTATCTCTTCTATGCTCTGAATATTATTTTCTATTAAAGCTGTTAAAAATTGTCCTCTCGCTTTCTTAGATATAGTAGAGTGTGTCTTTCCTGATTCCTTAAATACTATTTTATACATTCTATCCCTTATCTCTTTACTAAAAACTTCTTCAAATTCACTTGATAGTAAAGAAATAATTAATTCTTCATTTTTGACCGTATCATCATATTGTTTTTGCCAAAACTTTTTTAAACTTACCCCATCAACAGAAAGATTATTCAAAAAATCCAATCTATGTAAAGAAATGTTATCTAAAGCATTTATTATTCCATAGAAAGATGATGTAATATATACATTATTTAGATATTCTTTTTCCTTTTCACTTAAATTATCTCTTTTAATATTTCTATACATCAAACCATCATATAGCTCTATGGCTCTATATTCCTTAGATACCTTATTTTTTATATCAAGAAATCTTTTTCTCTCTATCTCTGCTTGTTCACTTTTTATTTTAAAAAACTTAGATAAATCCTCTATTTTAAGTATTTCTTCTAATATTTTTTCAGTATTTTCATTTATGCCTTTTCTTAAAACTTCTTTTCTTTCTTTCATTTGTTTTGCTGGAGGTATCAATATTTTCATAATTTCACTTTCTTGCAAAAATACACCCTATAACCTGAATGTATACCTAGAGTTTTACAATTCCCAAATACTTCACGTAATTTCTTTTCTGTACTTTTTGCTCCATGTTTAGTTTGAATTACACAATAAAAATCTCCATCTATATCCAAATGATTATATGCATTTTCATATATATCAAATATTATATTTTTCCCTGCTCTTATAGGGGGATTTGATATTATTATATCAAAATTTTCATGAATATTTTCAAATGAATTAGATTTATATATCTCATAATCTTCAACCATATTATTCTTACAATTTATATCAGCTAATTCTAAAGCCCTATCATTTACATCAGTTAATACATATTTACTATGTTTATAGAATTTAGATAAAAGTAATGTTACTGTTCCATAACCACAGCCTATATCAAGTAATTTAAATTTTTCTTTTTTGTTATTATTAATAAATTCCCTCAACATTACATCTGTTCCAAAATCTAACTTATTTTTAGAAAATACTCCTAAATCTGTAATAAAAGTATATTTATTACCTAAAAAATCTACCTCTATTTCTTTTCTATTTGTTTTTAAGTCAATGTTATTAGTATAATAATGTTTCATAAAGATATCTTTTTTCTCCGTCCTTATACTCATCTTCAAGTAATTCTTTGATATAGAAATTAAAATCTAAGTATAATTTATTTGCTTTTGTATTATTAACACCTGTAGTTAATTGCACTTTTTTTATTCCTATTTTTTTAAGTTCTTCCAATACTAATGATAAAATTTTATGAGCCATACCTTGATTTTGATATTTAGTGTTAGTAAATAAGCCATAAATATATGCAATTTCTCTATCAAACGATGACATAACTTCTATTACTGAAACTATTTCTTTACCTTTTATTAAAGCATATACTCTACCGTATTTAGCCATAGGTTTAATGTTATAGTTACCTATAGATGCCCCTTCAAATATTATATCCTCTAACTCTACAATAGAATAAAGCATACCTTCATCTTTTATTGGATCTAATAATTTAAACTCTACCATTTTCTTTTACCATTTCTATAAAATATTCATGTATTCTAGTATCTTTTGTTAATTCTGGATGAAATGCTGTAACTAACATATTCTTTTCTCTTGAAGCAACTATTTTTTCATCTACTACAGATAATATTTCAACATCATTTCCAACATTTACTACATAAGGTGCTCTAATAAATACCATAGGAAAATCTGAAATATTTCCAAATTTTTCAAATGATTTAAATGAACCTAATTGTCTTCCATAAGCATTTCTTTTAACAGTAATATCCATAAGTGCTAAATGTCTTTTATCATCATTATCTATTTCTTTAGCTAGTAATATCATTCCAGCACAAGTTCCAAATACAGGCATACCATTTTCTATTTTATTTTTCAATTCTTCATATATATCAAGTTCTCTTAATAATTTTCCCATTACAGGACTTTCTCCACCTGGTAAAATTAAGGCATCAAAATTTCTTAAAACATCTTTTTTTTGTCTTATTTCAAAACTATCTATACCAAGCTTATCTAAAATTTCTTTATGTTCTATGAAAGCTCCTTGTAATGCTAAAATACCAATTAACATTACTATTTCCCTCTTTCTGCCATTAATATCTTAATTTCAGATTCATTTATACCTACCATAGCTTCTCCTAAATTAGAAGAAACTTCTGCAAGTACCTTAGGATCATTATAGTTAGTTACAGCTTTAACTATAGCTCTTGCTCTTGCTTCTGGATCACCTGATTTAAATATTCCTGAACCAACAAATACTCCCTCAGCTCCAAGTTGCATCATTAATGCTGCATCTGCTGGAGTTGCAACTCCACCAGCAGCAAAATTAACTACTGGTAATTTCTTATTATCATATACATATTTTAATAAGTCATATGGAACTTGAAGTTCTTTTGCAACATTATATAGCTCTCTTTCATCTAATGATGAAATTCTTCTAATTTCATTTTGCATAGCTCTCATATGTCTAACTGCCTGAACTATATCACCAGTTCCTGGTTCTCCTTTAGTTCTTATCATAGAAGCTCCCTCATTAATTCTTCTTAAAGCTTCCCCTAAATCTTTAGCTCCACATACAAATGGAACTTTAAAATCTCTTTTATTAATATGTAATACATCATCAGCTGGCGTTAAAACTTCTGATTCATCAATATAGTCTATTTCTATAGCTTCTAATATTTGTGCCTCAACAAAATGACCTATTCTTGCCTTTGCCATTACAGGTATACTTACAACCTCTTGAATACTTTTAATCATAGCAGGATCACTCATTCTAGCTACTCCACCAACTGCTCTAATGTCAGCAGGTATTCTTTCAAGTGCCATAACTGCACATGCACCAGCTCTTTCAGCTATTATAGCTTGTTCTGGTGTAGAAACATCCATTATTACTCCACCTTTTAACATTTGTGCTAAGTTCTTATTTAATTCATATCTATTATCTTCCATAATTATTTCTCCCTTTAAAATATTTTTTCTAATTATATCATAATTATATATATTTTAACAACTCAAAGTTTTACGAAAAAAACAAGAAAAAATACTAACAAAAGCATAAAATACAAACATTACAGCATTCATTCACTTGATATATTAAATAGTGTAAATTTATTCTATCAAAAAAATCTCTAAATTCAAGTCTTTGTTTTCATTGTTATTATTAGAAGCACCATTTGGTTTATTCTCCAAGTTAAACTCTGCTCCTATCCATGGACTTACTTTTAATCTTCCTTCTACATAACTAAATTCTGTTGATATTTTTGGCTTCACTGTTAATGAATGTATTGCTTTTTCTAATTCTGCCTTTGATGATAGTTTTCCTTTTGTTAAGTCTTTTATCTTTCCTTTTTCTTTTCTTAAACTATCTTGTTTACTTACATCGTATTTCTCTGCATATTTATGTATACTTTCCTTATAGCCTGTTGAATCTTTTATATAATCTACATATACTCCATATACTTCTTTATTTAAGCCATTTAAATTATACTCATTATCTAATGATAAGATTACTTCTACATTCTCTCTTGCCTTATATCTACTCTTCCCTCCAAAGTCTATGCTTAGGGCTTGTTTTATTCCTTCATCTGTAGCTGTAAGACCTTTATGAAACACCGCATCTAATCCATATTTAGCATCAACATATGTTCTTCACCTAATTTATACCCTTGTTCTTTTCCTATTTTTACTTTCTTTCCTTTGCTTGTTAAATGTTTTTCTATTGCTTCTTTTATTCCATTATGTTTGTGGACTTTATCTTTATTATCTGCATTTATTTTTTGTTTTTCTTCCCAAGCAATATCTTTACCACCTCTTCTATGAGCAGCAGTTAATTGAATGTTGAAAGTATCAACTATATCAGCATCCCATCTTAGACCAAAGTGATAAGGTGTTTTATCTCCTAACTTCATTTCATTATTCTTATCTTTAACACCATTTAAATCAGTACCAATGAAAGCAAAGATTTCCTTATTTTTGTGCATAAAGACACCTAAATTTCCTTTAGCACCTATTTTGTTAGTAACATCATCTTGTTTCCATAGCTCTTTTATTTGCATTTCATTAGATGAACTAGCTCCTCCTGAACTACCATTACCAGAATTAACCTTTTCATATGTTATTGGTTTACTTGCTAAGAATACATCGTATAAGTCTTTACCATTAGTAGCTACTTTATGGTCTTTGTCTGTATGGAAATGTACTTGGTTGTATAAGTTTACTTTTCCTTCTATCTTGTTATTATCATTTATTTCATAGCTTACCTTATTTTCTGTCCATACAAATCCTTGATGTCTTAGATCTTCTGGTTTTTGGTTTTCTTTATGTTTTGTGTCAAATAAGTATCTTAAATCTATTGTTGATTCTATATTTACTTCTTCTATCTCTTTTTTTAATGATAGTCCTGCTCCTGTTAATAGGGCATGGTTGTATTTATCATCTCCATTAGAAGCTTTTAGATTAGCTCCTAGCTTGTATTCTGCTAATGTGTGTAAGTCTAATCCCTTTGTTACATTTAGCTTTATCTTATTTGATGTCTTAAAGTCATTATTAATCTTTTCTAAATTGTTTATACTGCTAGTTTTATGCTCTATTGTAACCTTATTTGAATTATCTGATATTAGAGATAGTTTTGTTGTTGGTTTTATTGTTGCTCCTAGCTTTACTTCTGGTTCATGAGTTAATGTTGTATTACCATTATCTTCTTTAATCTTTAATTTGTAATTAAGATCTCCTCTTAGTTCAACTTTTTTTCCTTTGCTTGTTAAATGTTTTTCTATTGCTTCTTTTATTCCATTATGTTTGTGGACTTTATCTTTATTATCTGCATTTATTTTTTGTTTTTCTTCCCAAGCAATATCTTTACCACCTCTTCTATGAGCAGCAGTTAATTGAATGTTGAAAGTATCAACTATATCAGAATCCCATCTTAGACCAAAGTGATAAGGTGTTTTATCTCCTAACTTCATTTCATTATTCTTATCTTTAACACCATTTAAATCAGTACCAATGAAAGCAAAGATTTCCTTATTTTTGTGCATAAAGACACCTAAATTTCCTTTAGCACCTATTTTGTTAGTAACATCATCTTGTTTCCATAGCTCTTTTATTTGCATTTCATTAGATGAACTAGCTCCTCCTGAACTACCATTACCAGAATTAACCTTTTCATATGTTATTGGTTTTTCTACAGAAACACTAAAATAGTGTTTATATAAATTGCTTTTAGATGATATATATGTTATTATAAATAATAAAATAAAGAGAAAGGAGATGTATGATAAAACTACTATCATACAAATTTTTATGTTTAAATTTATTAAAAACTTTTTCATATTTACTATTAAAAAGATATATTCTTTTTTCATATACATTACTTTACTTATACTATTAATAACTATAATAATGGGTGGAATGTTTTCTAAAGATGAGATAAATGAAGACTATGAAAATATATTAATATCAGATATATTCATACCAAGTGATGACAAATTCACAAATTCTATAAAATATATAGAAGGAAAAAACATTACTTTTTCAGAAGTATATACCTCACTTAACATGATTGCAAGTGATGATAAAATTCAAAAAATATTTATTGATTTAGATACTACAGCTTTCACTGCTTCACAATTAGAAGAATTAGAGCCTGTGTTAAATAAAATTAAATTATCTAACAAGAAAATATATGCATATGGTAGTGAAATCAACAATACAAACTATGGTATTGCAACTTATGCTGATGAAATTATAGTTCCAGAAACACAAAATGCAAACATTGTTTTAACTGGATATTCAAATAAAAGTATGTACTACAAAGATCTATTTGATAAATATGGTTTTAAAATGGAAGTAATACATGTTGGAAGTCATAAAAGTTTCGGTCAAAATTATACAAGAAATAGCATAAGTGCTGAAGAAAAAGAAACACTTACTAGAATACTTGATAAAAGATTAGAACAATTTATAGAAAAAAATGCTAATGCTAGAAAGATTAAACCAGAAATATTTAAAGAAAAACTATTAAAAGGTGAATATGCATATATTAGCCCTGAAAAAGCTAGAGATTTAGATTTAGTAGATCAAATAATATTTTATGATGATTTAGCAAAAAAAATTGATTTAAAAGATGACAATACTATTTCTTTACAAAACTATTCTGAAAAGAAAATAAAAGAAATTAATACTAGTTCTAATAAAATAGCAGTAATTTATCTTGATGGAGAAATTACTGAAAAAAGTAATTCAACAGTACCATATATTTCATATAGTAATTTCGAACAAAAATTTGAAAAAGCAGAAAAAACTAAAGGAATAAAAGGTATAGTTATTAGAATTAATTCACCTGGTGGTTCTGCTATAGAAGCTAAACAGATATATAATAGGATAAGAAAATCAGAAGTTCCTGTATATATCTCTATAGGAAATATTGCTGCAAGTGGTGGTTATTACATTTCTAGTGCTGGTAATAAAATATTTATTAATCCTTCATCTTTAACTGGGTCTATAGGTGTTGTTTCAATAATGCCTAAATACTCTGCTGCTTTAAATAAATTAGGTATAAATATAGATGGTGTGGAAAAAGGTAAATATAGCAACTTATTAAGCCCTTATAAGGATTTAACAGATGAAGAAAGAAATATTTATCAAAGAAAACTTGAAAGTATTTATTCTGAATTTAAAAATGATATATTGAAAAATAATAAAAAATTAACTTCAGAATCTTTAGAAGAAGTTGCACAAGGAAAAATTTGGTTAGGTAGTGAAGCAATCAAGTTAAATTTAGTTAATGAATTTGGTGGATTACAAGATACAATAAATGCACTTCAAGAAGATTTAAAACTTGATAACAACTACAATATAGTTAATATATATTCAGAAAAAAATTATGAAGATGTGTTTTCTATATTCGATAGATTATTAATAAAATTTAAATTAAAAAACAAAAATATTCTAGTTATAAATGAGCTAGAAGAAAAAATACAGTTTATAATAAATCAAAAAGGTAAGGCTATGTATTATTCTGATATTTTACCTTTTGAATTTTAAAGGGAGATGAGTAATGAGTATATTAGATAACTTAAATACAGAGCAAAGGCAAGCTGCAAAGTTAGTAGAAGGTCAAACTTTAATATTAGCTGGTGCAGGAAGTGGAAAAACAAGAACATTAACATTTAAAATTGCATATATGATAAAAGAAAAAAATATTAATCCTAGAAATATCCTAGCATTAACATTTACCAATAAGGCTGCAAAAGAAATGAAAGAAAGAGTTGAAACATTAGTTGGTGATAATAATGAGATATTAATCTCCACTTTTCACTCTTTTGCAGTAAGATTATTAAGAACATATTCAGAAAGAATAGGATATACAAATAATTTTAATATATATGATAATAACGATCAAAAATCTATAATAAAAAAGATTTTAAAAAGCCAAGGACTTGATAAGAAATATAAGGAAAGTCAAATTATTTCAAAAATTAGTAGACTTAAAGAATTAGGATTAAACTACACTAATCTTGGTCAAGAATTAGATATGAACCTACCTTTTAACAGAGAATTTAAGGAAATATTTAGAGAATATCAAGAAAAACTTGAAAAAAGCAATGCAATGGATTTTTCTGATTTATTAGTTAATGCAAAAGCATTACTTGATGATGAATATGTTTTAGATAAAATACAAAATAGATATATATATATATTGATAGATGAGTATCAAGATACTAATGAAATACAATATCAAATTGTAAAGAAAATTGCTAAAAAGTATAAGAATATCTGTGTAGTTGGAGATGAAGATCAAAGTATTTATGCATTTAGAGGAGCTAATATCCGTAATATATTGAACTTTGAAAAAGATTATCCAAATGCAAACACTATTAAACTTGAACAAAACTATAGATCAACTCAAACTATCTTAGATGCTGCTAATTCTGTAATAAGAAATAATAAGTCGTCTAAAGGGAAAAAATTATGGTCAGATAATAATAAAGGTGAAAAAATTGGTATTTATACTGCTATAAATGTTGAAGATGAAGCAACCTTTATATCTGATAAAATAAATGAATTAAAAATTAGAAAAGATAAAAAATACAAAGATTTTACTATACTATATAGAACAAATGCTCAATCAAGAGCAATAGAAGAAAGTCTTATACAAAATAAGATACCATATAAGATATATGGAGGATTAAGATTCTTTGATAGAAAAGAAATTAAAGATTTAATTTCATACTTACTATTAATAAACAATCCTAAAGATGATTTAAGTTTTGAAAGAGTAATAAACTTCCCTAAAAGATCTATAGGACCTAAAACTATTGAAGTTTTAACCCATATTGCAACAAAAAATCAAACATCTCTTTTTGATGCAATATTACAAGTTGAAAATGAAATTTCAAGTAGTGCCATTAAAAAACTTTTATCTTTTAGAGATTTAATAAATAAATATATTATTGCAAAAGAAGATATGACAACCTCTGAAATATTAAAAGACTTAATGGATGATATAGACTATAACTCAGCTCTTGATAGTTATGATAACAAAGAAAACAGAATAGAAAATATACAAGAATTAATAAACTCAATAGCAACCATAGAAGAAGAAACAGGATTTTTATCACTTCCAGAATATTTAGAAAATGTAGCTCTAAATTCTCCTTCAGATAATTTAGTTGAAGAAGAAAATTTCGTTAAATTAATGACTATACACGCTTCAAAAGGTCTTGAATTTAATACCGTATTTTTAGTAGGTGTTGAAGAAGGATTATTCCCTAATGAAGATAGTAATTTTATGGAAGATGAACTTGAAGAAGAAAGAAGAATCTTCTATGTTGCCATAACTCGTGCTGAAGAAGAACTATACATTACACATTCGCTTGAAAGAAAAACATGGGGAGCTATGACTAATTACTTTGTTAAACCTTCAAGATTTATAGGTGAAATACAAAAAGATCTTAAAATGGAAATATTTAATCCAAATAATCGAGAACCTAAATTTAATAATGATAATGAAGTGGTAAGATTTGTTAATCCTAATAAAAAATCTATAGAAAACTTTAACCCATTTAAGTTTATTAATAATTCTAAAATGATAACTCCAAAAGTAGATACATCATTTAAAATAGGTGAAAAAGTTAAACATAGCGAATATGGAAAAGGTATAATTAAAGAAATTACACCTAAATCAATAACTGTTAATTTCTCTATAGGTTCAAAAAAAATAGCTCTTAAATTTGCAGAAACATTTTTAGAAAGGATAGAATAATGAAAAAAATATTATTAATGGTTACAATGTTTTTCTCATTTAATGTTTATTCATATAATTTTGATAACTATCATTGGTATACATTTAAACATGTTAGTAAAAATATACCAAAATTAAAACCATTTGATATTATTGTATTAAGTAAAGGAAGCGATATTACTCAACAATTTGGACACTTATTTATACTTAATAGAGATAAAAAATTAGTAGAAATTAAAGGTTTAGAAGACTATTTTTCAGATAATCCTATATATTCATTTTCACATATAGAAAATAGAAAAATATCTGTTTTAAGATACAAGAAAATGACTAGTGAACTTGAAGATGAAATAGATAGAATACTTCCTAAATACTATAACAAAAAATATAATATATTTGTAGGTAATGATCCTGATAACCTATATGCATATTGTTCAAATTTTGTATTTAATATATTTCTTGAAGCAAGCAGAAATTTAAATATAGATGAAATTGAATTAGTAAAGAATAAATATCCTATACTACCTTTCAATTTCCTTGATAGCAAAGAATTAGAAAATATATATTTAGGAGAAGAATAAAATGAAAAAAATATTAGTTATTTTTATTACACTTATTACCCTATTTTCTTGTAATAAGTCGGTAAATAAAGATAAAATCATGTATAGTAATTTATCTGGAGAAATATCTCAAAGATTTATAAAAGATATATTACTTAAAAATGGTATAAAAGAAGATAATGTTAATTCTTTTTTAAGCCAAGTTAATTTATTTAATAAGGCAGTTGAAAGTAAAGATTTAATTGATGAGTTTAAGGAAATAGATGATCCTACAAAAATTGAATACAATATTGAGTATATAATAGATAAGTTTAAAGAAAAATATCCAAATTTTGAAGGTTGTAATTGTAGAATTACATCATTTACATTAATAGATGATATAATAAACATCGAAAATACTTCAAATATAAATGGAAGTTCAGATTTTCTTTTCCTTGATAAAGATAGTTTAGAAAATATACCTTTAGATTTAAATATAGAAAAAGATAAATTTTTAACACTTTATACTGATATACCTACTGAATTAACTAAGGATTATAATATACATCTAAAAAATATACAAAATGAATGGAAAAATAGGAAAATATCATTTAAAGATTCAAATGTTAGTATGATTTCTGTATTTTTACATAGTGATTTAGATGAACCAAGCATGTTATTTATTGGTCATATAGGTATACTTATAAAAAATGAGGGTAAATTCATATTCATAGAAAAATTATCATTCCAAGACCCATATCAAGTATTTATATTTAATAACAAAATTGAGCTTAATGATTATTTAATGACACATTATGATAAATCATTTGATCAACCTACAGCTCATACAATATTACTTGAAAATGATAAGTTATTAGAAACTTATAAAATAAAAGAAAATGTTCAAAAATAGAAAAACCTGCTTTGTTTTAAAGCAGGCTTTTATTTTATTTATTTTTTAATTGTATATAATGAATCTAACCCTTTATATAAAGCTTCTCCAGCTAAGTCATCTTCTATTCTTAATAATTGATTATATTTAGCAATTCTATCAGTTCTTGAAGCTGATCCAGTTTTAATTTGCCCAGCATTTGTAGCTACTGCAACATCTGCTATTGTATCATCTTCAGTTTCTCCTGATCTATGTGAAATAACTGCTGTATATCCAGCTTTTTTAGCCATTTCAATTGCATCTAATGTTTCTGTTAATGTTCCAATTTGATTTAATTTAATTAAGATAGAGTTAGCAATTCCTTTTTTAATTCCTTCTTCTAATCTCTTAGTGTTAGTAACAAATAAGTCATCTCCTACTATTTGTATTTTATTTCCTAATTTTTCAGTCATTAATTTAAATCCATCCCAATCATCTTCAGCTAATCCATCTTCGATTGAAACTATTGGATATTTAGCACATAACATTTCATACCATGCTACCATTTCTTCTGAAGTTCTTTCAACTCCACCTTCTCTTTTGAATACATATTTTCCAGTTTCTGAATTAAAGAATTCTGATGAAGCAGCATCTAAAGCGAAAGTAATATCTTTACCTAATTCATAACCAGCAGCTTTAACAGCTTCTGAAATTATATCTAATGCACCTTCAGTTCCATTAATTTTAGCTGGAGCATATCCACCTTCGTTTCCTACATTAGTAGAATCTCCATTAGCTTTTAATAATTTTCCTAAATGGTGGAAGATTTCAGCACCCATCCTTAATGCTTCTCTATAAGTTTTAGCACCAACTGGTTGTACCATAAATTCTTGAACGTCAACTGCTGAATCAGCATGTGAGCCTCCATTTAAGATGTTCATCATAGGAACAGGTAATTCTTTAGCATTAACTCCTCCTAAATATCTATATAAAGGTAACCCTAATTGATTTGCCGCTGCTTTAGCTACTGCTAAAGATACTCCAAGTATTGCATTTGCTCCTAATTTTCCTTTATTTGGTGTTCCATCTAAATCTATCATTAATTTATCTATAGCAACTTGATCTAAAGCATCCATACCAATTACAGCTTCTGCAATGATATCATTTACATTTTCAACTGCTTTTAAAACACCTTTTCCTAAGTATCTTGATTTATCCCCATCTCTTAATTCTACAGCTTCGTGTATACCTGTAGATGCACCTGATGGTACAGAAGCTCTACCCATAGCTCCACCTTCTAAGTAAACTTCTACTTCAACTGTAGGATTTCCTCTTGAGTCAAGGATTTCTCTTGCATAAACATTTTCAATTATTGTCATTTTAAAACCTCCATTTTTTGTTTTTTCACATTGTTAATTATATCACAGTCAAGATAAAAAAACAAGTAAATAATACATATATAGAAAGATAAACTCTTAATTGTCAATACATATGTTACATAATAAGAAATAAATTTAATATAAGTTAGAGTTATTTAATTGTCTAAGTGTTTAATTAAGTGTTTAGTTTAGTTAAGTGTTGTTTAATGTTTAGTGTTTAATTGATTGTTAGAGTGTGTGAAGTGAGATTGGGGCAAATTTGGCTTTTTTTGCCCTTTTAAGCCTCTATTCCCTCACAACCTCATTTGGACTCTTAAAATTAAGCACTGTCTTTGCCCTATTATTATACAGCCTTTCATGCCTTTTAACATTTTCTATTAATTCTTCCTCGCTCCTAAATTCTTTCCTACTATACAATATCTTTCCATCTTCCCTATCCGTTACATCTTTATCATTTACAAACTCATATCCATTATCTACCTGTATAGTCTCTATCTTAAAGCCTATAGCCCTTTCTAACTCCTTAATGTACTTTGATGTCTCATATGTACTCTTTCCCTTTACAACCTTTAATACCCTCTTCCTACTATACTCATCTATAGCAGTTATCTGATAATATCTAATCCCCTTTGATCCTACACATACTACCAAAGCTTCTATTATACCCCTTATTCTTACAACTAACATATACTTGGGCTAATCCATAACTTCCATGTTTTTTTAACATATTCTTTATTAGTATTAATTCTTCTTCTGTATGGGCATTTGGGCTTGTATGGGGCTTTCTTGAACCTATTGTCTATTTGTATGATAACGCCTTGCTGCTTTAGTTACTCCATTTTTTATTGCATATTCACATAATCTATGGCGAAATTTCATTTCTTCTGTTATAATACTCATGAGAGATACTCCTTTGATTGTTTTAGTTTTTGTCAAACTCTATTATATCAAATGTATCTCTCTTTTTTTATTTTTTGTTACATATGTTTTATCACATTACAATAATACATCTATAGAAAGATAAACTTTTTGTACTTCTTAATATATTTTAAAAGCTCTAAATCTTCATAAATAACTTTAGTAAGTTTATCTCTTTTTTCATCAATTCCTAATTTCCTTAAAGCTATTTCTAATTCACCAGAATATCTTTTATACTTTTCATTACTAATTAATATATCTCCAATTTCTATTTCTTCTCCACTAATTAATTCATTTCTATCTATATTTTCAAAGATATATTTTTCAAAATCTTTTCTATTATTAACCATATTTCTAATTACATAATCTGATGAATCTCTTCTATCTTCAAAAATCTTATTAATCAAACTTTTCTTTATAATCCTAAGTGGAATTATTCCTTTTGTTAAATATTCTAATTCCCTATAATTTTCATCTTTTAAATCAATATCTCCAACCAAGACAACATCTGTCCCATTATCAAATAATTCTAATGCTGAAATTAATGCTCTTTTATCTCTATGTTCTTCCATAGTTGGCAATCCTTCAAAAACTGGACCTCTTTTCTCATCTCCAGAAATAAAAGCCATATTTAATATTCCATAATCAGAATATTTCTTATTTTGTCTTCTTAAAAATTCTAAAGATATTCCAGTATATTTTTTAGGATAAAAATTATGTAAGCTTAAAATATTAGTAAAATCAACTTTTTTTAATTTCATATATTCTAAATCTTTTTCATTTAAAACACTAGAATTTAAAACAATCTTATTATTTTTACTAAATTCTATAATTTCATCTAATGTATATCCATCATCTATTCTATAATAAACATTATCATTTGTTTTAAGTATATCTTTACTATTTCCATTAATATCTACTATTAACTTCAAATTATTTTCTAAACATAATTTAATAATTTCATTTATTTGTTTTCCCTTATCTACATCTTCTTCCTGAACATTTAAAGATGTAAAAACAAATTCTGCTCCATATTTTTTAGCTTTTAAGATAATATGTTTATTCTTTTCAAGTTCTGTAGAAAGATATATTGAAAATCCTATTTTCATATATTTATTTCCATTTCTTTTTATTTATTAAAATTTTCTACAAAAAATAAGGTCTGATATTTAATTGAATTTGACCAATATGCCCAAGTATGTGCACCAGCTCTTTCTATATAATCATGATTAATATTTAAAGATAATAATTTTTGATGTACCTTTCTATTACTTTCAATAAAGAAATCATCTACACCACAATCAAATATTATATTAGTTTTTGTAAATAATAATTTATGTACTAATGAATCTATATTGTATTCTTCCCAATTAGAATTAATAACTTTAGAAATTCCCCAATTACCTTTAAAATCTTCAGGAATTAATCCACCACTCATACTCCCTATATTTCCAAATATATTAACATTATTAATTCCTATAAAAAAAGCTCCATAACCACCCATACTTAATCCAGTTATAGCTCTATTTTTAGCCTCTTTAATAGTTGAATATTTATTATCTATATTTTCTACTAATTCTTTTGAAATAAAAGTTGAATATTTTGATTTTTTAATAACTTCTGAATCAACATACCAACTATCATAATTCCCATCTGGTGATATGAATATAACATTATATTTATCTGAAAGTTCACCTATAGGTGTTTTTTCAGGAAAATTTTTATTATTCCCTGACCAACCATGTAAAGTGTAAATTACGGAATATTTCTTATCATTACTATATCCATCGGGTAATATTACTGTAACTGGTATCATTTTATTCATTGATTTTGAAAAAATTTTAATATCTTCCCTTTTAAATGAATATGTAAATGTTGTAATAAATGTCAAAAATATTAATAAGTATTTTTTCATATTACTTCTCCTAAATATACTATTTGCCATAAATGCTCTCTATTCTTTCTTCATCTACCCCAAATAAATATGTTAATACAAATCCACCTATATATGCTCCTAACATAGCTATTAAATATAGGTGCCATGTACCTGGTTTAACTATTAATAATCCGAATAATCCAGATACACCTTGAGTTATTGTACCAATTTTAAATAATGATGCAAGTAATCCACCAAATCCAGCTCCTAAACATGCTGTTATAAATGGTTTTCCTAAAGGTAAAGTAACTGCATACATTAACGGTTCTCCTATACCTAAAATTCCAACTGGAAGTGCATCTCTTGTAAGAGTTTTAAGTTTCTTATTTTTAGTTTTAAAGTAAATTGCAAGCCCCGCTCCAACTTGTCCTCCTCCTGCCATCATTAATATAGGTAATAAGTAATTAATTCCTTGAGTAGGACCTTCAGGGCTATTTAATAATACATGTATAGGTGCTAATGCTTGATGAAGACCAACAGAAACTAAAGGTAAAAATCCAGCTGATAAAATATATCCACCTGCTATACCAAATTTATTATATACTACATCAAGTATTACAAATATTTCTTTAGTAACATAATTTCCTAATGGTTGTATTAAAAATATTGCAATAAACACACTTATAAGTAAAGTGAATAAAGGTGTAAAGAATGTATCAAGAATTGTTGGCATAACTTTTCTAATACCTCTTTCAATTTTAGCAACTATAATACCCATAAATAATGAAGCAAGTAATCCTCCTATACTAGGTGTAAAAGATTTATTAATTATAGGTAGATTTAAAGGCATATCATTAACTTTTGAAAGTAATGGATGAGCTGCATTTCCAACAAATAAAGCTCCAATAATTCCACCTAAAATAGGTGTCCCACCAAATTCTTTAGCTGTATTCATACCTACATAAATAGCTAAATAAGTGAACATACCAAAACCTATTGTTTTAATTGCTGCAAACCACCACTGTCCAACAAATGCTCCCTTAGTAGTTATATTTATAACATTAGTTAATCCTAAAATTAATCCAGCTGATATTATACCTGGCAATAAAGGTACAAAAACATTAGCAATTTTTTGTAAAAATTGTTGTATTTTACCATTATGTTTAGATTTATTAATTTTTTTATTCTCATCTGCAACATCTTTAGCTCCAAAAGATCCCAAAGATATTCCTGTTAATTTAGTAAATTCTTCTCCTATCAAATTAACTTTTCCAGGTCCTAAAACAATTTGAATAGTTTCAGCTTCAACAACACCTAAAACTCCTTCAATTTTTTTAATAGCTTCAACATCAACTGATTCTTTAATTCCTACTCTTAACCTAGTCATACATACTGAATTACTTAAAATATTTTCTTTTCCTCCAAGAGCATTAAAAATTTCCTCTGAAATCTTCCTTGCATTCATAAACCTCACTCCAATCTTATTTTTCTTTTACTTTATCTATCTGCGTTTCATTAATTTTAACACTCACCTCATCAAAATTCATATTTGAATATTTTAAATATATTACATCAATTAGATTTAACATAGAAATTCTTGAATAAATAGCTGCACTTCTTTTTAATGATTCTTTTGAAGTTACATATAGGTTGTGATTTGCATTTGAAGCAACTTTATTACTACCATACATAGTTATAGAAACAGTTTCTATTCCTTTATTTCTAAGTACTTCACTTATTTTTATGATATCTTCTGTCATTCCAGAATATGAAATAATAATAGCAAGATTATCATCAGTACTATTTACAGCTTGTATATATTGTAAATCAAATGGTCCAAAAGCATTACAAACTTTTCCAATTCTCATAAACTTGTATTGTGCATCTAAACATACTATATGTGATGCCCCAATTCCATAAAAATCTATTACTTTTTTCTTTTTAATCAATTTTACTACTTTATCTATAATATCAGGATCTTGTAATAATTTTGTTTCTTTTAAAGAACTAATACTAAGCTTATTTAATTTTTCAATTATCATTCTTGTATCATTGTTTCTTTCTATATCAGAATTTACAAATTCTAATTTTTGTTGTTCTAAATTAGCTAATTCTTCAATTAAATCTATTTTAAATTCTTGGAATCCACGTAATCCTATTTTTTTACAAGTTCTAGTAACAGCTGAAACACTAGTAAATGTTTCTTTTGCAATTTTTCTAGCATCTATCTTTTTTATATTCTTATAATTATTCATCAAAAATTTCGCTATATCTTTCTCACTTGATGTAAAATCATTATTCTCTCTAAGTTTAACTAATATACTCATGTATTAACCTCGCTATATTATAATTATATTCTTTAAGTTTATTTTCTGCATCTTCTTTTTCTATTTTAAGTAATATCATTGCTATTGCTACTTTAACACTCATACCCGATCTTTCAAGATACATTTGTGCCTCTTCATAGCTAACACTAGTAACATTCATTAAAATTCTTTTAGCTCTCTCAATTAATTTTAAATTAGAAGTTTTAACATCAACCATATACCCTGAAAATACCTTACCTCTTTTAATCATAACAGATGTAGATATCATATTTAATATCATTTTTTGTGCTGTAGCTGATTTCATTCTAGTAGAACCTGTTATAATTTCAGGACCAACTAAAACTTCTATAGGAATATCTACTTTTTTTGATAATTCTGAATTTTCAGAACAAGTTATACTTGCTGTTAAAGCCCCTATTTCCTTTGCATAATTAATTGCTCCTAAGACATAAGGAGTTCTTCCTGAAGCAGCTATACCTATAACAACATCATCTTTTGTTAAATTAATTTCTTTAATATCTAAGCTTCCTTGTTCAGTATCATCTTCAGAATTTTCCTTAGCTTCAAACATAGCTTCTCTTCCACCAGCAATTAAACCTTGAACTCTATCAAAATCAACACCATAAGTTGGAGGACATTCTACTGCATCAAGCACTCCAATTCTTCCAGAAGTTCCTGCTCCAACATATATTATCCTATTTTTTTCCACAATAGCATCTATCAATTTAGCTATATCAGGCAATACTTTTTCAATACTGCAAGCAACTTTTTTATCTTCATCATTTATTCTTTTAAGTATTTCATAGCTATCTTGTAATTCTATATTTTTGCTATTTTCATTATTCTTTTCTGTTGATAATGTAGATAAATCCATAAATGCATTCACCACCTTTATATTAATTAATATAGTATATCCTGATTTTTAAATAAATCAATTTTTATTAAAATTTATTTCCAAAAAAATAAGTAGAAGATAACTCTTCTACTCCATATTTATTAATCTGTCTGCAATTATACTATCATCTAAATCATGACTTACAATTATAGTTGTAATTCCTATTTTTTTCAAAAGACCTTTTAGATCCTGTCTTAATTTTTCCCTCAACTCTATATTAAGTGATGAAAATGGTTCATCTAATAATAGAAGTTTAGGCGTTATTGCAAGTGATCTTGCTAAAGCCACCCTTTGTTTTTCTCCACCTGATAATTCATGAGGATATCTTTTTTCATAACCTATAAGTTCTATTAATTCTAATAAGTTAGTAACTTTCTCTTTCTTTTCTTCTTTTTTTAATTTGGAAAGTCCAAACGAAATATTATCATATACATTTAAGTGAGGAAACAAGGCAAATTCTTGAAATAAATATCCTATATTTCTTTTTTCTATCTTCTCATTTGTAATTTTTATTCCATCTAAAAATATTTCTCCAGTACTAACTTCTTCTAATCCTGAAATTAACCTTAATAAAGTTGATTTACCTATACCTGATCTTCCTTTTATCATAAGTATTTCACCTTTATCAACATAAAAAGAATAATTATTAATAATTAATTTACTATCATATGAAAAACTTACATTATTAAATTCTAAAAAATGCATATTAATCTTCCCCTTTCATGTCAAAATAGTTATATATACCTATAAGTATTAAGGTAATACTTATTAATATCAATGCAGGAGTTCCTACTAATACCAATTCTTCATCACTAGCATAATTTTTCATTTGTATAGATAATGTTGTATTAGTTAAAAGTATCGCAGCAAGGGGCATTTCCTTTATTATTTCTATGGATAATAACAACATAGCCGATATTATTGCCGTTTTTTGCATGAATATATCTACTTTAAAGAATGTTTTTAATTTACTCATACCTAATAATCTTGAACTTTCATGTAAACTATTACCATTTTTTTCAATACTTGCTTCTATAGGTGTATAAGCAAGAGATAAAAATCTTGTAGTATATGCAAATATCAATATCAACGGACTTTTAATAAGTGTTATACTTTCAATTATACCTCTGTTTATAAGGAAGAGATCTATACCAATAAATATAGATAAAAAACCTACTGCAATTACCGAACCTGGTATAGAATATCCAACTGAAACCAACTTATTTATTATCCATTTTCTTTTAGCAAGTCTATTAACATTGGTTAAAAATAGTGCAACTATCAATACAAATATTGCTGTGTAAAATAGGATGGATAAAGTATTTTTAGTGTTTATCAAAACATCTTTTATATAGACATAACCTATTGAAAGATATACCCATCTAAAAATATACATTATTGGAAATAATAGAGTAAAGAAAAAGACTGTAAAGAAAAAGATTAATACTAAAACATGTTTAATCCCTTTTAATTTCTCTCTTTTTATCTTAGTATTCTTTCCTGTATAATACTTAATTTTTCTTCTACTTAATTTTTCTATAAATAAAAAAGCTAATACAATAACTATTAATATTACTGATAATTTATTAGCTCCATCTAAATCATAATTATTAATCCAACTATCATATATACCTGTACTAAAAACTCTAATACCAAAAAAGAATGGAACTCCAAAAGCATTTAAGATTTCCATAATTACTAACATTAATCCAGTTATTATTGCTGGTCTTGATACAGGTAATATTATTTTATATAAAGTCTGAAAAGTACTCATTCCCAGTAGTTTAGATGAATATATTAAATCCATAGAAATTCTTTTCATATATGCTCTCGATGTAATATATACATATGGATAAAAAGAAATAGATAATATAGCTATTGCCCCTTTTATATTCGCAATATCTAAATAAAGATTAATTCCATTCTTTTTAAGGAAAACATATAAAGGTCCTGTTAAAAAATCTACATAAATATATGCAAATAAATAACTAGGTATTGCAAAAGATAAAAAATTAGTATATCTAAAAAAATTTCTAAATTTAAAATCATAAAAAGTTTCAAAATAGGCTAACCCTACTCCTATAATAAAAGTTAAAAAAACTGTTGGAAATAGTATAAAAACAGTATTTACAACATATTCCTTTAATAGATTTTCAAAAATATGATTTGTTAATTCACTATTAGCCTTAAAACTATTTATTATTATATAGATTATAGGGCTAATAATTAGCCCTATTAATATATGTGTGAGTATTTTCCAAACATTTATTTTTCTTATTTCCAATTTGCTTTATCCGCAACAAATTTAGCTTTTTCTAAATTTTGACCTATCTTATCAAAGTCAATTTTAGAAGCTTTAAATTTACCCCATGATTCAACTACTGGACTTAATACTGCTTTTGAATTTACTGGGTATTCATAATTTTCATGTGAATATACCATTTGTGCATATTGATCTGTTAAAAATTCTATAAATTTAATAGCATTTTGTTTATTTTTACTGTATTTAGTAATTGCTGCCCCTGAAAGATTAATGTGTGTTCCACCATCTTTTTGATTAGGGAAGAATATTTTTAATTTTGAAGCAACTTCTCTTTCAAGAGGATCTTTAGAAGCTGTCATTCTACCCATATAGTAGCTATTCATTATTGCAACATCTCCTAAACCTGCAAGAACTGCTTTAGCTTGATCTCTATCATTACCTTTAGGATCTCTTGCAAAGTTTTCAGTAAGTTTCATAGCCCAATCAGAAGCTGATTTTTCACCATTTTTAGCTATCATAAATGCTATTAAATGTTTATTATATGAACTTCCAGAACTTCTTGTTAAAATTCTCTTATTCCATTTTTTATCAGCTAATGCTTCATATGTTGAAAGTTCTTTTACATTAACTGTTTCAGGATTGTATACAAATATACGTGCTCTATATGTTAACCCTACCCAGTTATTAGCTTTATCTCTAAAGTTTGCTGGAACATTACTTAAAACTTTTCTTGATGTTATTGGTTGTAATAATTTTTTCATTTTTGCTGTATATAAATCCCCAACACCAACAGTTATAAATACATCTGCATCTGTTGATTCTCCTTCTAACTCTAATCTCTTAATTAAAGCTGAAACATCTGAGTTTTGAATTACATTTACTTTTATTCCAGTTTCTTTTTCAAATTCAAGATAAATTGACTTATCTGAATCATAATGTCTTGATGTATATACGTTAACTACATCACTTGCAAATATTAAATTTGTAATAAAAACAGTAATTAATAATACTATTTTTTTCATTAATTTGACCTCCAAATAGTTTGATTCCAAAATCATTATATCACAATTTATATTTAGTGTAAACAAAAAATATCTCTACCATCTATAATCAATATTTAATGTAGCTTTAGCACTTGTAGATTTATAATTAATATTTTTATTAAGATTTATAGCTACTCCTAATTTTGGTTTTATAACTAATTCATCATCTAAAAACTTAAATTCACCCTCTATACCTGGCTGTATTGATATTATTTCTAAAGATTTTTCTCCAAATTCTTTTTTCTCATCATTTATTTTTTTACTTTCATCTTCACTTATACCAACTATTCCATTTTCATCTATTTGTTTTCTTTTTATATCCTTTAATACACTGTATAATTTATCAGAATCATAAAAACTTATATATGACATACCTAAATTACCTGTAATTTTCATCCCCTTATTTAGTTTATATGATAGACTATTTTTAATATATCCCTTGTAATTATATGCATTTTTTAATAATAAATCTGTTAATACTGAATTTGAATTATTTTGAGTATTATCAGAACTTACTTTTTGAGTAGAATTTTTTCCCTTATCCTTATAATCAAATAATATTATTGTATTTAAACCTAGCTCAGTTACAAAATCTACTTTTTCACTTAATTTAGATTCTATTTTTCCTTTTACATCTCCCAATCCCAATATCTCTATTTTTTCTTTTTCTAATATTTTAACTTTATTAAAACTTGTAAAATTTAATTCCCCCATTAATCTTAATTTATCATTAACTTCATAATCTAATTTATTATCTGTCCAAGCACTTATTACAGAATAGTTAGTATTATTAGAATGTGATATTAAATATCTTGCATCAACACTATTTTTTAAATTTAATTTATTTGTTTTATTCTCAAAAGTCAAACCAAGACCTACTAAAGCTAAGTGATTATGTGTTAATTTACTACTATCATCAAGCTCCATATTATATCTATACCTAGATGCAAATCTTAAATTAACATATCCTGCCTTAACTTCTATTTCATTTTTAGTATATGCTGAAAATACTGTAAAGTCTTTATTGTTATTATCATTACCATTTCTCTTATACTTATCATTATCTACTTTAACAGTTCCATTTGTATTTGTAAATACTTTACCTTTTACCTTATTTTCTGAATTAATTTCTACCTTATTATCCTTATATACTAAATTAGTTAAAAACTCTTGTTTGTATAATAACTTTTCCGTCTTATCTTGACTATGTTTTTCACCATTTTCAGAATAACTTTTTTTATTTTTACTATAATCATATAAAGTTTCATGATTTAATATACTTTTAAAGCTTAATCCACCTTTTTCATAAGATAAGGAAATTTCTCCTCCAGCAGTCCTATTTTTATAACTTCTTATTATAGAGCCTATATTAGTATATGCTTTACCCATTATCTCAAAATTTCCTAGTTTACTTGATAATGTTACATCTCCTTTTAATCTACCTAATCTATCTACTATTTCAAAATCAGTTTTTAATTTATGATTTAAATTTATCCCTATATTAAGCTTAGATATTTTTTGATCTAATTCTAAAAAACTTTCAATTCTACCTTTTCCAGCTACTAAAGTTTCACTTGAATATATTAAACCTAGCTTTGCTTTAGTTTTTTCATAATTTAGATCTAAAACTCCTGAAGCTAAAACTTCATCATTTTTTAATCTTAATCCTTGACTATGATAAAATTCTTTTCTTGCCTTTTCATCATCATCATATTTCTTATCCCATAAACCTCTTAATTTTAATCCCTCTTTTATATTTTCTTCCATACCACCCATATATTGGTAGCCACTATTAAATGTTATTTCTACATTTTCATTTACTTTCTTTTTATATGATACACCTACATTTAATTTTCCATCTATACCAGTAATTTTACCTTTATCTTTTTTTACATCTCTAGCATCTATTTGCCCACCTAAGAATATAAATAGGTCCTTGTTTTTACCAACTAAAGTCCCTATATTTATATTATTATTAGCCTTATATGTAAACTCTTTTTCATTTTTTCCACTTTCAGAACTATTCATAGCTACATTTTCAACTTCTTTTTTTTCATGCTTTAACCTTAATTCACTATTATTTTTAAGATATAAATTTTTTATGAAACCTTTACCTAAACTTGATAAAGAACTTAAAGTTAATATACCTAAAACCAATTTATTTCTCATTTTTATCTTCCCCATATATATTTAACTCCTGCTCTTATTGTATTTGAACTTTTTTGATATTTTTTAGTATTAAATTCTATATTAGAAATATATTCCATTTCAATATCAAAATTATCATTAAATTTATATTTTAACTTTAATTGTGGATTTAAGGATATGAAAGAATAATCATCATTATCTGTTGTATTTTTTACAGTATCATTAACTTTAAGAAGTGTATTACCTGTATAAATCTTTTTTTCTATATTAGTTCCTAATTTACCCATTAAACTTATCTTACTACTATCACTTAAACTTTTTTCCCACTCATATCCTAAATACGCTTTAAAACTAAATCCTTTATTATATATTGTAGTTCTTAACATATCATTTCTATCTAATTTAGCTTTTCTTAAGTTATAGTGGGCTACATAAGCTCCTGCTATTATATTTTTTTTATTAATCTATTCCAACCCCCTAATAAAAAGTTATATGGAATTAATTTTTCTCCTGAAAACCATGTTGATAAGGATGTATTTAAATCAGTTGACAATTTAAAATTATATCCTAAATCATAAGCTACATTAGTACTTATTCCATAATAATGTTCTATTTCTTTTTGATCAACTTTACGTTCTGAACTAAATAAACTATACATAGCTTTTATATTAATATCTAAATCATTAATTTTATTATCATACTCATATTTAAAATCTGCTTTTTTAACAGAATCTAAAGTTATTTCTATATTTCCATATTCTTTAAAATCTAATCCTAGAATAGCATAATAATTTAATGGCTTAAAACTTCTTTGCCCAAAATTAATCCCACCTGATAATTTTAAAAATTCAAATAATTTTGTAGAAATATATATATTATTTTTAGCACTCATTTCTACATTTTTTTCATGATTAAAATCACTAATAGTATCTACACTTAATTCTAGTCTTATTTTTTTATTATTATTAAAATCAAATAATATACTTTCTTTTACTTCTTTTGGTATCTTTTTAGCTACTTTATGTGATTTCTTAAGTGTAGCTGATAAAGATATGTTAGAAATCACTGTAAAAAATAGTAGAAAAATTTTTAATTTCATTACTTTAGCTCTCATTACCATCTATACCCCACATTTAACCCTGTTTTAATATTAGCTCTTCCGTATTGTATATCCTTATATTCCTTACTTTTTTCTACTCTCGCACTTACATTAACTTCTAAAATTGATTTAATTAATAACTTATCGTCTAAATATTTCATCTCTAATTCTACACCTGGTGTTATAGATAATACAGCCTTGTTATCTCCAAAACTTTTTTCTTCTTCCTGTATTTTCTTTAAATCCTCTTCAATATGAGTTTCTATACCATTTTCCCCTATTCTATTTCTCTTTATCCTTGTTAAACTTTCATATAGTCTATCTGATTTTATACCATATGAAAAACTTGCATCTAACTTACCAATTACATTTATATTTTTATTTGTTCTATATTTTATCTTATTTTCACTAAATACCTTATATCCATATTGAAGTATTAAATGTAGACTTTCATCACCATATTTAATAGTGTCAGAACTGAGTTGAATTGTAAGAATTTCTTCACTAGGTTGCACTGAAGATTGAGAACTAGCTTTATTTGGTTCAGTAAACAATGAAATAGTCTTTGCACCTAATGCTGAAATAATTTCTATCTTATCACTTATGTTATATCCTAACATAACTTTTGTATCTGCTAATAACAGAACTTCATTTTTATCTGTAGCTTTATCTATGAAAGAAAATCTATTTGAACTTGTAAAATTTAATTCACCTTTTAATGATAACTTATCATTTACTTTATACTCTTGTTTATTATCACTCCAGAAATTTATTACACTAAATGTCTTATTATCTTTATATCCTAAAGCATATCTAATATCAAAACTATGCTTTAATTCACTATTTTTTAACTTATTAGCATATGTTATACCTGGTCCTACTAATACAAATTGATCATATCCTTTAAATTTTGTTTTTTCCATATTTACAACACCAGCATATCTAGCTGATAATTTTAAATCAAAGATACCTAATTTGTAATTAAATATATTATCAGTATATACTAATCCTATTACCTTACTTATATCTGTATTATTATTTGTTACTTGATTATTTCCCTCATATTCACTTTCATCAAGTTTCATTTTTTTAAGATCAACCCTACCTTTTACCTTAGTTTTTGATTCAAATAATGTCTTTTTATTATCATACTTTAATTCAAATCTTAATTCTGGTCTTAATCTTATTTTTAAATCCTTATCATCTTTTTTTACTTGTCTAAAAGCTAACTCATTATTTAATGCTGTTAGCATCTCTAAATTATTTATACTATATTTAAATTCATTTTCACTTGTTAGTTTATAATCTCTTCCATCTGGAACTATACTTCCTAAATATATATCTAAAATATTATTAGTTCCTAAATTACCTACTTTAGAACTAACTTTTATTTTACTTTTTAATCTACCTCCATTAGTATATTTATCACCTTTAGTAGATGTATGATCTCTAAGTTTATGACTTAGAGCAAATTCTATATCATGATTTAATTTTCTAGTTTTGAAATTAACAAAACTTTCAAATCTCATAGCACCATTATTTAAATACCCTGCTGTATACATAAGCCCCGTATTTAATTTAAATTTATCATTATCGTAACCTACAACACCTGAAAACAAGGTTTCCTCTTGTTTAAATCTAAATCCTTGACTATGATAATATTCTTTTAAAACCTCTTTATCTTTTTCAAATTCTTTCTTCCATTCACCCCTAAACTTTAGCATTTCTTTTATGGCTTCTTCAAAAGAATTTTTAGTAGTAGCACTATTATTATATTGATAAGCAGCATTTAATATTAGTTCTACTTCTTTACTTAATTTCTTTTTTAGGTTTACCCCTAAATTTATTCCTCCACCAAAATTAACATCTTTATCAAAATTAGCTTCTCCACCAACAAATGTAAATACTTCTTTTTTCTGACCAAAGATACCCGCAAAATTTAATTCAGTCGAGGCATTTTTAATAAACTTTGATGAATTTGATTCAACAATTTCATCATAACCTAAATTTAATTTAGTATTATTTTTGATATAATACTCTGCTCCTAAAGATGAAATACCTATGGCTAATAGACCAATAAATCTAATTTTTAACACTTTGCCTCCCTAAATATTTGTTACTTATTATAACCCACCCCCAGTGTTTTGTCAATAATTAAGTCAATATATTTTTTATTGCATGTTTGCACAAAATCTTTCAAAATTAGATTATATTATTTTTATTAATTCCATTTCTCGTTCATTATATTAAATTTATCAAATATATAGAATAAAAGACTAATAATTATTCCTATTATTGCTGCAAGATTCATTCCTTGGAAAGTAATACCTAGTAGTTTTACTTGTAATCCTGATAATCCTGCTATAAATATTATAGATGTTAATATTAAATTCTGTGGTTTATTAAAGTTTACTTTTTCTTCTACTAATAATCTTAATCCAGATGTTCCTATCATTCCATATAGTAAGAAAGTTACACCACCTATTACATTGCCTGGTATAGATTGTATTAGTGCTGAAAATGGTCCAATAAATGCCATAAATATAGAAATTATTGCAGCTCCTTTAATAACCTTGACACTATATACTCCTGTTATTGCCATTACCCCTATATTTTCACCATAAGTTGTAGTTGGTACACCACCTACTAATCCAGAAAGCATAGTTGAAAAATTATCAGCAAATAAGCTTTTATGTAAGCCTGGATCTTTTATTAAATCTCTTCCTATTATCCTACTTGTTACAACTTGATGAGATATGTGCTCTGAAACAATTACAAATATTACAGGCAACATCGTTACCATTGCTGTAATATTAAATTTAGCTAATTCAAATTTTGGTATAGTAAATAACGAAACATTAATGACATTTGAAAAATCTACCATATTTAAATATATAGAAGTTACATATCCTACAACAATAGCTATTAATATAGGTATAGTTGCAAAAAATTTTCTAAATAAAACTGAACCTAATATTGCAACAGATAATGTAACAGCAAACACTATTTTATCATTTAATGTAGATGTATTTGTCATTATATTCCCACCAATTTTTCCACCACTTATAGTTATTTTTGCCAGTTCAAATCCTATTAAAGATACTACAGAACCCATAGCAGCTGGCGGAAGTATAATATTAATCCAAAATGTTCCAAATTTGTAGATTATTATAGAAATAACAATACCTATAAATCCTACAAAAACAAATCCACCTAAGGCATATTCATAACCCATATTAGATATGACAATACCTGCTGGTGCTAAGAAAGCAAAACTTGACCCTAGATAAGCTGGTGCCTTCCCTTTAGTCAGAAAAATAAAAAGCAATGTACCAATACCATTCATAAGTAGCACTATACCTGTATCAATTCCATAAATAATAGGTACTAGCACTGAGGCACCGAACATTGCAAAAGTGTGTTGTAAGCTTAGTGGCACTAATAATTTAGTGGGCACTTTTTCATCAACTTGAATAATCTTTCTAATTGACATAATTTCCTCCTTAATTAATTACAGTCTTACTTAGGATTCACTGTAATTTTTAAGATTTTAACAAAAATAGTCATTTATGTCAATACTTTTTATTCTGTATAATTATTTTTTTGATATTTTAAAATTTTTCCATCCTCATCAATTTCAAGCATATATATTCCTTTATCCCCATATGCACTAACAAACCATTTCCCAAAACCCCTTTTATATATTCTCATATCCTTATAACCAACTCTTTCAAAAGCTTCTTCAAATATCTTCATACTTGCAATATTTGAAATTTCTTTAATATGATGTTTAGACATAGGTGTAACACCTGAACATGAAATAAATAAAAATAAGGTGAATATAGCTAATATTTTTTTATTCATATTACCTCCTTAATTCTTTTAATACTATTTCAAGTATCTCTTCTAATTTTCCAGAAAATCTAAATCCAGCAGCTAATACATGTCCTCCACCATTAAATCTTGAAGCCAGTTTATTTACATCTATATTTTTAGATCTAAAACTACCCTTAAGTTTAGCTTCTTTATCTTCTCTAACAAAAAGTGCAATATCTACATCTTCAATACTTAATAATAGCTCTGATATACCATCTGTATCTTCTTCAGATATAGACATGTTTTTCATATCATTTTGCGAAATATAGAAAAAGGCAAACTTTAAATCTTCATAATATTTGTATTCTACTAATGTTTTCCCAAATACTTTCACTTTTTCTCTACTTTTTGAAAAAAGTATATTAGTGATCTCTCTATTATCAACTCCAACTTTCATAAGCTTAGATGCAACATCAAAAGTATTTTCAGTTACATTAGAATGTCTAAAATTACCTGTATCATTAATTATCCCTAAATACATAAACTTTGCAATTTTTTCATCAAGTTCTATATTAAAAACATCTAAAAACTTATATAACAATTCACATGTAGAAGAAATATCTTCTACATAATTAATATTAAGATATTTACTATTACTAATATGATGATCAATATTAATAGTTTCCTTAGCTAAATTAAAAACTTCTTTGTTTATAGCTGCTCTATCAATATTTGCAGTATCAAGCATAATAACTAATTCTACATTTTCATCAATATCATTTTTTATATACTTACTTTCATCAAATTTGTATATAAATCTAGGAAGTTCATATTGTATTACTATATCAACCTTCTTATTTTTATTATACTTTTCTATCATAAATTTAAAAGCAAATAAAGCTCCAAAGGCATCTCCATCTGGATTTACATGTGCCGATAGAATTATATTATCATACTTATCAATTTTTTCTTTAATTTCAAATAATCGTTTCATTATTACCTCACTTTTTCTTTTTCAAAATATTCTTATAGTCTTCTATGGTTATAAGGTTTTTATTCTTAATTCTATTTTTTTCAATTATTTGTGTAACCTTATTAACCCTATCCCTAGGATTATTAAGTAAAACTCCAACTCCTCTTATAGTATTAATATGATTAATAGCAATAGCAATGGCATCTGCTGCATCATCTGGTTTAGGAATTTCATCTAATTTAAGTATTACTCTTATCATTTCTTGAACTTGTTTTTTCTCTGCTCTACCATAACCAGTAATACCAGTTTTAACCTGTAATGGAGTATAGTTAAATATTTCAATTCCTGAAATTTGTGCCTTAGCAACTATAACTCCCCTTGCTTGAGCAACTGTAATTATAGTTTTTTGATTTTTAAAAAAGAATAATTCTTCAATAGCCATATGATCTGGTTTATACATATTAATTAAAGTTTCTAATTTAAAAAAAATTTGTTCAAGTCTTTCTGGCATAGGTAAATCTTTATCAGTATATATGCATCCATAATCAATTAATTCAACTTTACTATTTTTAAAATCTAATATAGAATAACCAATTATAGCAGTACCTGGATCTATTCCTATTACTCTCATATTACACCTCTTTTCTGAGTAAATTATATCATATTTATAATTAGATATACAACTTGATAAAAAGTGGTGAAGGTATAAATAACGTTTCAAAATATGAAACTATGAAATATTTTGCATTTCAAGAAGTATAGGAAATCCTAGATTTTCAAATATACAATATATTTAATTTTAAAAAAATGTTGAAAAAATAAAATACATCTGATACTCTAAAAATATATTAGGGAATATGTTAACAAAAACTTAAAATAGATAATAAATAAATTAGGAGGATAAAATATGAAAAAAACTGCAAAAGTATCAATTATAGGTGCAGGGTTTGTTGGTTCAGCTACAACTTTATCAATAGTTCTTTCAGGACTAGCTTCACATGTTGTATTAGTTGACGTAAATAAGGAAAAGGCAAAGGGGGAAGTTCTGGATATAGCTCATGGTGCTGCATTTATTAAAACTTGTGATATTATTTCAGGTGATTACAAAGATACTAAAGATTCTGATATAGTTATTGTAACAGCAGGTGCAAATCAAAAACCTGGGGAAACAAGACTTGATTTAGTACATAAAAATGTAGAAATATTCAAAACTATTATTCCACAAGTAACTCGTTATTCACATAATGCTGTATTAGTAATAGCATCTAATCCAGTAGATGTTCTAAGTTGGGTTGCATACAAATTATCTGGTTTCCCTTCTCATAAAGTAATAGGGACTGGTACTGTACTTGATACTTCAAGATTAAGATATTATCTAGCTGAAGAATTTGATTTAGATGCAAGAAATGTACATGCATATATTATAGGGGAGCATGGAGATTCAGAATTTCCAGTTTGGTCATCAGCTAATATAGGACCATTAAGTTTTGATGATTTTTGTGCAAGAGAAGCTAAAAATGCAGAGGAATTAAAAGAAAAAATTCATCACAAGGTTAGAGATGCTGCTTATGAAATTATTTCAAGAAAAGGTTATACTAACTATGCAATAGGTATGGCTATAAGAAGTATAGTAGAGGCTATTTTAAGAGATGAAAATTGTATTTTAACAATATCAACATACAATCAACTTGAAGATGTTTATTATTCTGTTCCTAATGTAGTTGGTAGAAATGGTCAACATTTAAAAATATGCCCTGAATTTGAAGAACACGAAAAAGAAAAACTAGAAAACACAAAAAAAGTACTTAAAGATGTTATTAAAACTATTAAGATATAAGAAAAGTTGCAGAAAAATCTGCAACCTTTTTATTTTTCAAAAATTTCTAATATTTTCTCACTAGAAATTTCTTCTTCATTTATTTCTTTAATCATATTTCCATCTTTAATAATTCCTATAGATGGTATAGATTGTATGTTAAGTTTTTCTAATATTTCTTTATTCTTATCTAGGTAAAAGTCAAAATTATACTTCTTTTCATTAATAAATTCTAAAGTTTCTTTTTCATAATTAGAAAATTCATCTTCTGTAGGAATAAAAGGAAGCATTATAACAGTAATTTTTACATCTTTTAATTTATCTTGTATTTTACTTAACTCTTCTAATTCTTCTTGACAATGAGGACACCAACTAGTAGCATAAACTATTATATTGTTCTCTTTTTTAATTACATTTTCATAATTTTTATTATTAACAATTTTAATATTATTATTTTCAGCTAAAACACATGAAAATGTTATAAATGTCATTAAAATCAATATTATTTTTTTCATCTTAAACTCCCTTATTTATTATTTATCAATATATTAGTATATACTCTTATTTTTTCTTTATCACCATTTTTATTAGCTAGATCCACTAGTAGCTCTAAAGCTTTAAGTTCATTTTGAGAAAGTGCTATAATAGCATATTTTTTCTTAGTATCTACATCATCACTTAATAATGAAATTTCATAACTTGCAGCTCCAACTCCAAGTTTAGATGCTATCTTTAAATTATCAATATAGCTAGACATCTTAGGATTTATTCCTGATGTCATCTCTAAATTTTTTACTATAGAATAATAATTAAGAATTGAATTTAAGTTTCCTTTTTCAAAACTCTTCTTATACATTTCTAATGCTTTATTTGTTTCATCTGAATTTTCATAATATTCACCTAATTTACTATATACAGGAATATATTCTAATAATTCTAAACTATCATAAATTTGTTTTGCTTTACTCCATTCATCATTACTATATAGTAAATTGGCTTTCATAAATTGAATATCCTTATTATATTCAACAACTTGATCAAGTATTTCTATAGCTTTTTTTCTCTTACTTTTAGTAGATAAATCTGAATACTCAGCAAGTTTTAATGCTGATTTTGCATATTTATGCTTAATATATAGCTCTCTATATATTTTTATAGCATTTTCAATTTCACCTTCCATTTCTAAAAAGCTAGCTTTAGCAAATAAAGCATCAACATTTTCCATTTCTATAAAAGGCTTAAGTATCTTATATGCCACCGATACATCATCTCTATCTAAAAGAAATTTACCTAAAGTATATCTTTCTGAATCTTCTATTTTATTTTGATTAAATTTAACATATAGTTCTTCCATATGTTTAAATTCTTCTAAATGATTTTTCATATCAACATATGTTGGATATATAGTAAAATTATTTTGAGCATATGCTTTTTCAAAATACTCATAAGCTTCACTATATCTTTTTAATGAATATAGGTAAGTTGCTAAAAATGATGTTGCTCCTATATTACCTTGATCAGAAGCTTCTTTTAATTTATCTATAGACTGTTCATATTTATTAGCAAATATTAATGAAGTTGCTTCTCTATACTCTGCATAACCAGAAGATTTACCTATTTTATTTGAATAAAATGAATTTAAGATATCTTCATCTCCTAAATAATTTATTACTTCATAAATATCTTCATCATTACCTCTATAAGCTTTTTCAAAATTCTTTAAAGCCTCCTCATTTTCTTCCCTATATATACTAACTATTCCATCTTCAATATAGTCAAAGGTTTTGCTATCATAATTTAATTTCTTATATTGAAATATTAATAATATAGCTAATGCGAAAAGAACTATAATAAAAATTTCTTTTATTATTCTATTTTTCTTCATTTATACTCCTATTTTATACTTGTTGAAACCTTAACCAAAGGATCTATTTCAACTAATGAAACTTTCTTTTTCTCTGCTGTAGTAAGTAACATACCTTGAGAAAGTATACCTCTAATTTCCACAGGTTTTAAGTTTAAAACTGCCATTACTTTTTTACCTACTAAACTTTGTTCATTTTTATAATATCTTGCAACAGCAGAAACTATTTGTCTAAGCTCTGTTCCAGTATCTACTATAAATCTTAGTAAAGAATTATTTTCAACAACTCTTTCTACTTTTTTTATTTCCACAACCCTTATATCTACTTCATTAAAATGCTCTATATTAATAGGATTATTTATTATTAAATTTTCTTCAAATTCAGACTTAGGTAATTCTATTCTTGGAAATAGAACTTCAGCTTTATTTAATTTATTATTTTCTGGATACATTCCCCATTCTTTAATATTCTCAAGTGATAATTCTTTTTCTTCTAAAGCTAATTGATTTAGTATTTTTTTAGATGAATCTGGCATTACAGGAGAAATTAATACAGCTATTTTATATATTCCATCAATTAGGTTATATAGCACTGTTTTAAGTCTACCCATATCATTATTTTTATATAAAGTCCATGGTTCTGATTCATCTATATATTTATTTAATCTCGATATAAATTTCCATATACATTTAAGCATTTCAGAAAAATTATATTCCGAATAATAAATATCAATATTTTTTAATGTTTCAGACCATAAATTTATTATTTCATTATCAAGATCATTTAATTCATTTATTCCATAAACTATAGAATCAAAATACTTATTTTGCATTCCAATTACTCTATTTAATAAGTTACCTAAATCATTTGCAAGATCTGAATTTATTCTTTGAATAACTGCCATGTTAGAATAGTCAGCATCCTGACCAAATGTTGCCTCTCTTAATAAGAAATATCTAAACTGATCTAAACCATATTTATTTACCTCATCTATAGGATCTACAACATTACCTAAAGATTTAGACATTTTTTGACCATCTTTTGTCCACCAACCATGTACTGCTAATACATCAGGTAATTTTATACCTGCTGCCATAAGCATAGCTGGCCATATTATTGCATGAAATCTTAATATATCCTTACCTACCATATGAACTACTTCTGAATTATTCCAATATATGTCAAAAATTTCACTATTATATCCAGCAGCAGTTAAATATGAATTTAGTGCATCAAACCATACATAAACTATGTGTCCTTTTTCAAGTTCTAATGGTATCCCCCAATTAAATGTAGTTCTTGAAATAGATAAATCTTGCAGTCCTTGTTTTATAAATGAAATAACTTCATTTTTTCTGTTATTTGGTCTAATAAAATTAGGATGTTCTTCATAAAACTTTAGTAACTTATCTTCATATTTTGATAACTTAAAGAAAAAAGACTTCTCTTTCATATCAATTACAGGTTTACCCATGTATAAGCCATCTACTAATTGTGATTCTGTAACAAAAGTTTCTTCACTTACTGAATATTTACCTATATATTCTCCACTATATATATCTCCATTTTCATAAACTTTTCTAATTATATCTCCTACTGTAAATTTATGTTTATCACTAGTAGTTCTTACAAATTCAGAATAATCTATATTAAGTATATCCCATAAATTAATAAAATCTTCTTTCATTTTGTCTACCCATTGTTGAGGTGTTACATTATTTTTTTCAGCAGATTCTTGTATTTTTTGACCATGTTCATCAATTCCAGTAATTAATCTAACATTTTTACCTTTTAGGTTATTATATCTTGCAACAACATCACAAATTATTGTTGTATAAGCTGTACCTATATGTGGTTTAGCATTAGGATAATAAATTGGTGTTGTAATATAGAAATTATTCATCTTTCCTCCTTGTGTATATATATAGCTTAAATGTATTATAGTTTACAACTTCAGTAGAATATTCATCATAATTTATACTAGGAAAATATCTATCAGCATCTGGAAATTTTCCATCTATTTTAGAAAGATATATTTTTTCTGTATATTTTAAAAATTGTTTATATATATTTTCTCCACCAATAACATATATTATTTCATCACTATCTACATATTTTTCTAATATTTTATCTATATTTCTTAATACATAAATATCCTCATTTTCTTCTAAAGTAGTACTTATTACTATATTTTCTCTTAAATCTAAGGGTCTACCTATAGATAAATATGTGTTTTTACCCATAACTATTTTATGATTTAAAGTAAGTTTTCTAAAAAATCTTAATTCCTCAGAATTATGCCAAAGCATTTTATTATCCTTACCTATTTCATTATTTTCACCTACTGCAACTACAATATGTATCATTTAAGTGTTGCTCCTTTAACTGTTAAATCTTTTCTAATTGCTTCTACTTTTTCATCTTCCATATTAAATTCAAAGTTTTGCTGTCTTAATGCCTCATAAAGTATTATTACAGCTGAATTTGATAGATTAAGTGATCTACCAATTTTTAGCATAGGTATAGTAATATTTTGTTCTTTATATCTATTTAAAATTTCTTCTGGTAATCCACGAGATTCTGGTCCAAACATTATATAGTCATCTTCTTCAAATTGTACATCACTGTATTTTCTATCAGTTTTAGTTGTAGCAAAATATATTTTTCCACTACCTTTATTTTCCATAAAGTCTTCAAATGATTCCCATATTTTTAAATCAACATATTTCCAGTAATCTAATCCTGTTCTTTTTATATGCTTATCACTAATTTCAAAACCTAATGGTTTGATTAAATGAAGAGTTGTATTAGTTATCACACAACTTCTTCCAATATTACCCGTATTATACGGCATTTCTGGTTGATATAAGACTATATTCACTTTTGCCCCCAAAATGATATATATTTTGTAACATCATTAAATACTACATATGCCATAAGCATTAATAATAAGATAATTCCTATAGTATGTATTTTTTCTTCTAATTTCTTATTTAATTTAATTCCAAAATACTCAAGTAAAACAAATAGTACACGACCACCATCTAAAGCAGGTATAGGTAGTAAATTAAATATCCCTATATTTATAGATAAAATAGCATATAGCTGTAATAATACTAAATAACCATAAGTATTAATGTGATGTGCAAATATTAAAGGTAGTCCTACAGGTCCAACCATTTCTTTTGCTTTAACTGCTCCTGTAACTAACATTTTTAATCCTACAAATGTTGCATAAAATGATTTCCAAAATGCTGCAAAAGCAAAAGTTATAGGTCTTCCTGTTATTAAAGCAAGTATCATAAATGCTATTAAAGCTGTAATAAAGTTCATAAAAACACCAGCTAATAATACTATTATTTTTTCAAACTTAGGGTGTGATATAAAGCCTTTATTATTATACTCTCTTATTTCTTCCTCACTATAATCTTTAAATTCTTTATCATCTTTACTAATTTCAACCATACCTTCTATTAATACATATCCACCAAGAGGTATAGCTCTTAAACTATACTGTGTTCCATTTTTTTCTCTGCTATAAATTAAAGGCCCCATTCCTATAGAAAATTCCGATACTGGCATATTGAATTTTTTTGCAGTATAAAAATGCCCTAATTCATGTAAAAATATTATTAAACTTAATATTATTAATGTAATTATTATAATAAAAAACATTATCTTCATTTCTCCATTTCCATTTTAATTCTTTTACTAATTTGATTTATCAGTAAAATATTCTTTGTATACAACATAGAATTACTATCTTTTAAAACCATTTCTTTATTGTCTTTAATTAAAACAAGTTCATCTGTAGATGTTTCCTCATTAATATATACTAAAACATTTTTTTCTTCTAAATCTTTTATTATATTTCTAAATATTTCATCATATATATTACCTACTACTATTAAAATATTTTCTGTAGTTTTTATTAACTCAATTATCTTATATGTTAAATTATCAACTCTATCAAATAAATATATTCCATCCATATTATACTGAGAATACAAACTATCTAAACTCATCTTTAAACTATTAATAGTTTCTGCAATCTCCTTTTCAAATTTATTAAGATATATACTTGGATCTATAACACTATAGTTTTTAGAATCATCATTTGTTGGATGTAATTTAATTATACCCTTTTTTTCCATAATTTTCATAGACTTATACACAGAACTTCTTGAAACATCTATTTCTTTTGAAATTTGAGTTGGATTTTCCCCAGGATGCTTAATTAAATATAGGTAAATCTTTGCTTCTATATCTGTAAACCCTATATCTACAAGTTGATTAAAAATTAATTCTTTATCCATTATTTTATCCCCATTAATTCTTGATAAGTTGTTTTAATATATGAATCAGTCATTCCAGAAATATAGTCTGTAACTAGTAATAATCTTAAGTATAACTTGTAATTATATATCTTATTTTCATATTCTTGTTCAAGTCTTTCTTTTTTATTTCCCTCAAGTTTTTCTTCATCTATTTTAGCTTCAAGTTTAGCTCTTTGCTTATTTTCAAAATCATTTGCATATACATGATATACATATTTTTGATTTTCACTTAATATTATCCTATATTTCTTATGCACAGAATTATCTTTTTCAAACTTAGTATCATAATATATTATAGAATCAACAAATTTTTCTAATAAAAATTGTATCATAATATTTGCAGTAAGTTCCATTTGATTATTCTTTTTAGATTCAAATATATATTTTCTTGATGCATATTTTAACATTTTAACTATTCTTGATGATCTACCATCTTCAAGTAAAGCCTTAGTAAATGTCCCATTCATTATTTCTTTATAATTACTAATAAAATTATTAACTACATCTTTAATAATAAGTCCTTGTATAGAGATAATCCATCTACTTGCAGCATAATTATGTATGCTTTCATAACCTTTTTTCTTTGCCTCTTCCTTATACTTAATAAGTCTATCATAAAATATATCGCCATCTTCAAAACCATATTCTCTTAAGGCATTTTCTAAATTATAGTAATTTAAATATTTTTTCTTTAATCCATCTTCAACATCTGCTGTTATATATGCTATATCATCAGCAGCCTCTAAAAGAAAAGTTAAAGGATGTCTATATATCTTATTTTCTTTTTCATCATATGTACCAGTTGATTTTACTACATCTAAAAATACATCTTCTTCTGCAAGAAAATATCCCATTTTTTTATCCTTAATATTTCCACTTTCTCTATCTATATCTTGTGAAGACACAGGATATTTAATCAATGTATTAAGTAGAGCATAAGTTAGATTCATACCATTTTCATCAACTAAAAAATGTAATTTAGATACAACCCTTATAGCTTGTGCATTACCTTCAAAATTTTCAAAATCAGCTATCATTTGAGGTGTTAATAAATCTTTTATTTTTTTTACTTCACCATTAAAATCTTTAATATCTGTTTTATCTATATAATTAGAAAACCACATTCTAATAGTATCTTCTCCAAAATGACCAAAAGGTGGATTCCCTATATCATGTATTAAAGCTGCTGATGATAATATAGTTGAAATAGCATTTAACTCTTCATATCCAAAATCAGGATCTATTTTCTCTTCTATTATTCTTTTACCTATAGACTGTGCAATAGATTTAGCAAAAGATGAAACCTCAAGTGAATGAGTTAATCTAGTTCTTACAAAATCATTTTCTTCTAAAGGAAAGGCTTGTGTCTTATCTTGAAGCCTTCTAAAAGAAGGGGAAGATATTACTCTATGATAATCTTTTTCAAAATCATTCCTTATATCACTTGCTTTTATTCTACTTCTAGCACGCCTTGTATTTATTGATAATAAATTTTTCCAATTCATATATCATCTCCTCTAATCTCTTATTATTCTTTTAACCCATTTTTTCTGATTATATCTAAGTATTGCTGGAAGTAAAACTAAAATATCTGAACTTCCACCTAAAAAATATATAATATTAATAGGAAGAGATAAACTCTTACCAAGTAATGTAAGTGGAACAGAGAATATCCACATTCCAACTAAATCTAACATCATAGCATAATATATATCTCCACCTGCTCTTAATATACCAACAATAATAAGGAAGTTTAATCCCTTAAATGGTAATATTAAACTCTCACTAAACACTACAAGTCTTGTTGTACTAATTAAACTAGACTCTGCCTTCATAAAGTTTAATACTAAAGGTGAAATTATATTAACCAAAATTCCAGATAATATGGCTAGAAGTAACATTAATTTAAAACATAATTTAGCAATCTTTTTAGCCTGCATTAAATTATTCGCCCCTAATTCATTGCCAATAAGAACTGATGAAGCATTAGATACTCCACTAAATACACTAATTAGCATAGAAGATATCGTTCCTGATATAATAACGGCTGAAAACTCTACAGCTCCCATATTACTATATATTGATGCTCTATAAGTAATCCCCATTACCCATACAAACTCATGAATAAATGCAGGAAGTGATATTTTAATAATATCCTTAACTAAAGCAAACTCAAAAAAAATAGATTCCCTATAACTTGAAAGTATAGGAAATTTGTTTTTCTTTACTATGTATATCATATATATTAAAGAGAATAATCTAGCAATAACAGTTGCAATCGCAGCTCCTTTAACACCTAATCTAGGTATTAATATTAAATTCCCTAAAATATTAAATGTAAGTCCCACTATTGAAGCATAAAAAGAATATTTAGATTCACTAATTACTCTAAGCTGCATAGAAAAAACAAAACCTAATCCTGCAAGTGGGAATGTAAAACTCACATATTTAAAATATCTCATTGCCTGTTCTAAAACTAAATGGTCTTTACTATAAAATTTTAGTAATATTTCTGGATTAGTTAGCCCTATTATAATAAAAGGGATAGATAAAACAAGTGAAGTAATAGTTAAAAATCCTGAAATTTTATTCATCTTAGAATAATTTTTACTCCCAAAATACTGTGATGATAATACTCCTGCACCACTAAATAAGCCAAACAATGAAATAATATATACAAAAAATATTTGATTGGAAATACCTAAACCTGAAACAGCGTTAGTCCCTAATCCTAAAACAGGATCTGTCTTCCCTACCATAAAATTATCTACAAAATTAATAAAATTATATACCAGATTCTCTAAAGCAACTGGCACACCAACTATGAGTATTTTTTTATAAATATTTATATCTTTAATCTTTAACATCCAAATCTCCTTTATTTTCAAATTCCATAAATATTATTAGATGATCTGAAATATATTTTCTAATTTGTTCATGATTATCTTTTGTATAATCATAAACTCCATACCTGCCTGTATATTCTTTTAAATTATTTCTATTAAAGAAGGCATTATCATATGAATTTGCAAGTCCTTTACTTGACATAGTAGTTTTATTCTTAATAGAATTAAAAACTTCCTTAACATTATATGTATCTTTAAAATATTTAAAAGCCTTAGAATTTGCAGGCAAATTAAAATCTCCTAATAAAATTACATCTTCTTCTTTAGATTTATCCATAAAATATTTATATACCTTATGATATCTACTAGCTTCAATTTCTCTTTCCACCTTATTTTTACCAAAAATAGAATGAGCTGATATTAAAACAAAATCAAAATTATTAGACCTTATTAATACTCCAAATGGATCTCTAATAAAATCTTTTGATTTCCCATCTTTATATATACCCATAGATTTTATACTATCTACTTTTTTTCTTCTAAAAAGCACTCCATAATGTTCCTTATAGTCCTTAGTTCCAACAGCCATATCAGAAATTATATATCCCCATTTTTCATTAGTAAATTTTTCTACTTCATTTCTTAAATTATTTATACCTTTTTCATTCATTACTTCTTGCATGGCAATAATATCAAATTTAGAAACTATTTTAGCAAGAGATTTCCAATCTTTTTTATTTTCTCCTAATTTTAAAGTATTAAAGCTCGCTATTAATATAGGTTCTGCCCAAATATTCATAGATAGAAAAATTAAAAAAAATAGTTTAAAAATTCTTCTCAAAATATCTCCTCTTTTCCTATAAATTACACCCCTAATTATACATCATTTTATAACTTTATTCAAATAAAAAAGACTAGATCCATCTAGTCTATTAGTTTGCTCTTTCCATATATTCACCAGTACGAGTATCTATTCTAATCTTATCCCCTATATTGCAAAATAAAGGTACTTGTAATTGATATCCTGTTTCTATAGTTGCAGGTTTAGTTGCTCTACCTATAGTATCCCCTTTTAATCCTGGTTCAGTATAAGTTATTTCTCTAACTACTGTATTAGGTAATTCAACACCAACTGCTCTTTCTTCATACAATAGAACTTGTATAACCATTTCATCTACTAAAAAGTCTACTGCATCTCCTAAGTCATCTTCTGTTAATGTCATTTGTTCAAATGTTTCTTGGTTCATGAAGTAATATTCCCCATCCATTTGATATAAATATTGCATTTGTGCTCTATCTAAAATAATGTCATTCATCATATCAGTTGATAAAACTGTTATTTCTTGTACTTTTCCACTAATTAAATCTTTAATTTTAAATTTCATTTCAGCTGCTCTTGCCTTCTTACCAGAAGTTGATTGATGTCTATCTGCCTTTAAAATTAAATAAGGTGTATTATCTTTAACATATACATTACCTTGTCTTAATTCCATTGCTGCTTTCATACTTTTCCTCCTTAAAATTTTCCTTAATATTATACACTACTTTTAACTGTATGTAAATTATTTATCTAATAATAGCTCTAAAATTTGAACTGCATTTGTTGCTGCACCTTTTCTAATATTATCTGCAACAACCCATAAGTTTAATCCATTATCTACAGTTTCATCACGTCTTACTCTTCCAACAAAAACTTCATCTTTACCCTCACTCATTAATGGCATAGGATAAATATTATTCTTTATATCATCTACTAAAACAACACCATTTGCCTTAGATAATAAGTATTTTACTTTTTCAACATCAAATTCAGAATTTAATTCAACATTAATAGAAACTGAATGTGAATATCTAACAGGAACTCTTACACATGTTGCACTTACTTTTAGATCTGGTCTATGTAATATTTTTCTAGTTTCATTTACCATTTTCATTTCTTCTTTAGTATATCCATTTTCAAGAAAAGTATCTATGTGAGGTATAAGGTTAAATGCTATTTGTGAAGGAAAATTAGTTGAAGCTTCCCCTTTTAAATTCTTTTCTAGATCATCTAAACCTTTTATTCCAGCCCCTGATACTGATTGGTATGTAGAATATATTACTCTTTTAATTCCAAAATTATCTTCAAGTACTTTTAATACTGGTATTACCTGTATAGTAGAACAATTAGGATTAGCAATTATTCCTTTTACCATATTATCAGCATCTGAAATATTAGCCTCTGGTACTATCAATGGTACTTCATCATCCATACGCCATGCACTTGAATTATCTATTACTTTTGCTCCTTTTTCTGCAAATTTAGGTGCAAACTCTAATGAAGTTGAACCTCCTGCTGAAAATAGGGCAAAGTCTATATCATCTTTAATATTTTCTTCTTTAAGTTCAATGATTTCATATTCTTTACCTTTAAATTCTATTTTCATGCCAGCACTTCTACTTGAAGCATATAGATACATCTTATCAAAAGCTATATTCTTCTCTTCCATAACTTTTAAAATTGTTCTACCAACTAATCCAGTTGCTCCAACTATAGCTATATTTTTCATTATTTAACACTCCCTTTATATATCATTTCACTTATTCCATTCATAAATATAGTCCCATCTTTTATTTCTATTTCTAAACTTCCTCCTAAAAGATTAACCTTAACCTTATTTCCTGTCTTTCCTAACATGTTTGAAACATATCCTACTGCACTTGCACCTGTTCCACATGCTAAAGTTAGTCCAGCACCTCTTTCAAAAGTTATAACATCTACTTCTTCTCTATTTTTAACATAAACAAAATTCACATTAGTTCCTTTAGGAAAAACTTCTTTATTTTGTTCTATATTTTTACCATATTTAGTTACAAAATCTTCATTTAGTTCTTCTTTATCAACAAATATTACAACATGATCTGTCCCAGTAAAAGTATAGATATACTTAAATGTTCTATCAATTGCTTCTATAGTTTTAATTTCAGTTGTATTAATCGCAGCATTCATATCTACAGAAACTAAGAAATTATCTTTTTCTGTATTAATTATCCTTATTTTTTTAATACCTGATAATGTATCTATTAAAATCTCATCATCTTTTGATACTAAATTATGATTATATAAATAATGTGCATAACATCTAATTCCATTACCACACATAGCTGCTAAAGAACCATCGGCGTTATAGAAATGCATATAAAAGTTTTCATTTTTCTTTTTAAGAATAATTACCCCATCAGCACCTATAGATTTTCTTCTCTTGCAATATTTAACTATTTCTTCAACAGTTAAATCTTTTTCTGTTATTATGAAATCATTACCAAGTCCACTGTATTTCTCAAATTCCATAATTATATCAATCCTTTTTGAATAAATAGCTCTCTTAAAATATCTCTAACTTTGTCTGTTGCAGGTAATAAAGGTTCTCTAACACCATCATTTTCAAGTAATCCTAATATATTCATAGCAGCCTTAATTGTAACAGGATTTCCTCCTATAAACATAGATTTATGTATATCATACATAAACTTATGTAAATTAAATCTTTCTTCACCAACTAATTCAAATTGCATTGCTACTTGTTTTGGAAAAGCATTAGCAGTTACAGAAATTATCCCACATGAACCTATAGCTTGCATAGGTAACATAAAATTATCTTCACCTGAAATTACTGCAAAATTTTTATCAACCCTATTTATTATTTCTATCATTTGATCAATATTTCCTGTAGCTTCTTTTATTCCAACTATATTTTTAACCTTAGATAACTCAACAGTAGTTTCAACTTCTATATTAACTCCTGTTCTTGATGGCACGTTATAAAGTATTACATCTACTCCAACCTCTGCTATTTTTTTATAATGGTTTATTATTTCTCTTTGTGTAGGTTTATTGTAATATGGAGTTACAGAAAGCACTGCATCTACACCTAAATCCTTACATATTTTAGTTAAATGTATTGCCTTTTCAGTTGAATTTGAACCTGCACCTGCAATTACTTGTATTTTACCATTTGCTTCATCTAAAACTGTTTTTATAGCTAAAATATATTCTTCTTCACTCATAGTTGCAGTTTCTCCTGTAGTTCCACAAACAACTATTCCCTTAGTCATATTATCTATATGAAATCTAACAAGTTCTCTAATTTTTTTTACATCTAATTTTAAATCTTTATCAAAAGGTGTTACTAAAGCTACATAACTTTTTTCATATTTCATTTTAAACCTCTTTCCTCGAAATAATAATGTGTATCAACTGTATCTAATAAATATCCATCCACACCTATTTCATCTAATTTTTTTTGATAATCTTTAACAATTTTTTCCCATTCAATATCCCAATATTTTACTATGTAGTTTCCACTCCAATTTCTATTTTCTTCTACTATCCAATCAGGATATTTATCATTCCAACTCTTTTTCCAATAATACCTATAATTTTCTGCCTCTCCTATACTAAAATATGCTATAACCAATCTTTTAGAACCTGAACTTTTTTTCTTTAAACTTTCAATTTGATTTTTTGAGAAAAACTTTCCATTTATAGATGGTTCTATCAACAAAATATCAAAATCTGTATTTTTTAAAGCATTCATATATTCTTCTAAGTCTTTAAATTTCTCTGGATTTAATAAACACAAAAAGTTTTGAGCATCTTTTAAAGAATAAATATCATTTTGATTAAATCCTTTAATAGGTTCGTGTATTTCCCTTGCTTCAAAAGAAGGAAGTAATTCATTTACAAAATTAAATTTCTTAGCTTCACTTTCTAAATTACTTTTTATGTTTTTACCTTTACCATAATTAATGGTTAAAACTATTTTGCCTAAATTACTAATTGGAATTAACATATCTAATAGTTCTTTTTTTACTTTTTCTGATGTAGGTTTATTAAATTTTAATTCATATCCATAAAAAAGTGATTCCTGTGTTGTTCCATTTGTTATTTTAAAAAAATCTTTATCTATCTTACCATTATTAAAATATATCAAGTTACCATTTTGAGTTATGAAAATCTTATCTTTACTTGTATTTTCTCTTAACTTTCTTATTAAATCTCTCATTCTATCTTTATATATTTCTTGTGAAAAGATATTAAAAGAAAAAATAAAAAGAAAAGATAACATATATTTTTTCATATTAGAACCTCTTTAAATATTCTATTCTCTCATCAATAAATTCATTAATTTTTCTTAAATCTAATTTATACCTTATATCAGTTTTATTTATTTCTTCTTTCATTTTAATTAAAGCTTCATTATCCTTTTTAACGAAATAATACTGTGCTTGAAGCAGATCTATCATCATTAAATAATTAACCTTATACCCTTGAAGTTCTGGATAAAATTTCTTATTTATCTTTCTAATTTCTATTCTAGCTAAACCAAAATCTTCTTCTTTAATCATACCTGTATTATATAAATGATTATAGAAAATTCTATTGTATTTATTTAAAGGGTAATCCTTAAAATTCTTTTCCATATCAACTAAAATTTCTTCAACTTTTTCTTTTTCATTTGTAAGAATTGAGATATACATAAATATCTCATCAGCTAAATAAGTTGGCGATGCACTCTTAGATATCCATGCATTGTTATATGCATTATGATAATCTTCTCTTTTCATCTCAAATAATGATAAATAATTGTATACTAAAGGATTTATATTCTTTAACTTATACATTTCTATTATCTTTTCATTTGAAATTTTCAATCTTTTAATAATTAAATTAGGTAAGGTTTCAGCAAAATTTGTTACAACAATATCATCAAATTCATATTGCATACTCCCTAATAATTTAAAAAATTCTCTGTCATAATAAAAGTCTGTTTTTTCAAGTTCTGAATAAAGATAATTATGTTCAACCTCTTTTGTTATAAGGCTATAGTCTTTACTATCTATAGTTACCTTATCTGAAATTGAAGAACAAGACCAAATTAAAAGAAAAATAAATATATATCTTTTCATATTACTCCTATAATTCAAATTTTTCTGCAAGTAATCTTGCGACATTTTCAGCTATTTTTTCTTCAACTACTATAGAAATAGTTATTTCTGATGTAGAAATTTGATGAAAACTTATATTATTCTCAGATAATATTTCAAAAATTTTAGAAATAGTATTTATTGAAGTTGCAAGACCTATACCTACAAGAGATACTTTTACAACATTACTATTTATTAATATATTGTAATTAAGCTCTAAATCATTAAACATTTTTTTTAATGATTCTTCATCTGTTCTAGGTGAAGTAAATGCAATACTTCCTTTTTCTGATATTACATCATTTTGACTTATCATGTCTATTATAATACCATACTCAGATGCTTTTTTAAAAATAGGATAAAGATTTCTAGCATAAGTTGGTATTCCATCTATAGTAACCATAACTATATTCTTATTAATAGAAATTCCTCTAATTTCTTTCTTTTCCATTATTTTCTCCTTAAATGTAATTATTGTTCCATTTTCTTTTCCTAGTGTTTTTCCTACATATATACTAATACCATATTTAAAACCTAGTTCTACTGCCCTTGGTTCCATTACTCCAGCACCAAGATATGCAAGTTCCATCATTTCTTCATATGATATATATTGTATTTTTTTAGAATTTTTATATACTCTTGGATCTATAGTATAAATTCCATCAACATCTGTATATATTTTACATTCTGCATTTAATGAACATGCAAGTGCTACTGCTGATGTATCTGAACCGCCTCTACCTAACGTAGTTATATCTCCATTTTCATTAATCCCTTGAAATCCAGCAACAATTACTATCTTACCTTCATCTAAATTTTTTAAGATTATTTCATTATTTATACTTTCAATAGTATTTTTAGTATGTAATCCTAATGTTTTTATTCCAGCTTGTTCTCCAGTTAAAGATATAGCTTTTTGACCAAGTTCTATTAATGCCATAGAAAGTAAAGCAATAGTTTGTTGCTCTCCTGTAGACATTAATCTGTCAAGTTCTCTTTTATCTGGATTTTTAGAAATTTCATTAGCAAGTTTTATTAAATTATCTGTAGTTTTACCCATAGCTGATACTACAACTACTAAGTCTTTTCCTGATTTTTTTACTTCAATTAGATGTTTAGCAATATTCATTATTTTTTCTGTTGTTGAAACAGAACTACCACCATATTTATGTACTACAATTTTTCTACTCATAATTTCTCCTAATATTATGCTTTTATACAATATTTTACCACATTTAATATAGGATTGCATAGTAAAAATATTCTAACTTTATCTTCCTTTTTAAGATTTTCAAGATATAATATATTATAGTAAATATTTATGGAGGTTCTTTATGAGAGTTTATTTAGGTTTAGACAACATCCCCATTTTAAATGGCGAATACAAAATATTAAGATCAGTTGATTATTTAACCGAAATTATAGGGATAGAAAATTATAAAAATGGGCTTTTACATGGAAAGAAAATAATTTTTGATAATACAGATAAAACTATAGTTAAATCATTAAATTATGAAAATGGTACATTGATATCTGAAAATGATATTGACGATACTAATGAATATGTTAAACTTGCTATAGATGAAACTAAAACTTCAAAAAGAAATGGAAACTATATTCTTTATGCAAATGATGAAACATCTATTTTTACTCTAAAAAATGGTATGTTTGAAAAAAATAAATGGATATTTAATGATAACCCTAACTTTGAAATGCCCAACTTATTATCAATAGAACATTTTATAAACAATCACCATGTAGGAGAACAAGTATTTTTTCATGAAGATGGGAAAATAATGTTAATTGAATATTATAGGGAACACATGGGAGCTTTACCTGAAAAATCAACTTGGTTTGACTATGATGAAAATGGAAATCTAATATCAGAAAGAAACTTCAGAAAAAATAAAAAAGATGGTAGACATAAATACTATAACGAAAAGGGGATAATATATAAGGACATATCATATAGAGATGGTAAATTATTTGGACCTTCAATTTATCTAAAAGATAATGGTACAAAACTAATAATAGATTATGACTTTGGTTTTAAAATAGGTGAAAGAATAGAATAATGGGATAAATTCCCATTTTTTATTGAAAATCTTGATTAAATAATATAGAATATATTATACATAATATATAGGAAGGTGTAAGATGAGAATAGTTGTAATAGGTGGGGGAGCAGCAGGAATGATGTTTTCTACACAATATAAGAAAATGAATCCAAATGATGAGATAATTTTATTTGAAAAAACTCCATATGTTTCATGGGCTGGTTGTCCATCTCCATATTATATAGCAAATGAGTTACCACTTAAAAAAGTAATAGGTTCTCCATCTGATTCATTTATAAACAAAGGAATAGATGTAAGAATAAATACTAAAGTAAGTGAAATAAACTTTGATGAAAAACATGTTATAGTTAATAATGAGAAAGTTACATATGATAAATTAGTATTAGCTATTGGGGCTAAATCTACTTTAGATATCAAAAAAGATAGATACTTTAGTTTATCTCATGCAACTGATGCAATAGAAATTAAAAATTTCATAGAAAATAAGAAACCTAAAAAAGCATTAATTTTAGGATTAGGATTTATAGGCTTAGAAATGGTTGAAGCATTACTATTAAATAATATTAATGTAACTGTTGTTGAAAAGGCTAATGATGTATTTAATATTTTGCCATTAGAATATAGAAATATATTAAAAGAAAAAATAAAAAATAAGAATGTAGAACTAATTTTAGGTAATGGTGTTAAAGAATTTAATGAAGAAAATGTAATACTTGAAAACAATGAAAAAATAGATTTTGATATGTTGATAATATCTACAGGTATAACTACTAAAACTGAAATATTAGGAGATAAAATTGAATTATTAAATAACAAAATAATTGTTGATAATAACTTTAAAACTAATATAGAAGATGTTTATGCTATAGGTGATGCAATATTAAATAAAAATATAATAACTAATGAATATACTTATGCTCCTTTTGGAGATGTGGCTAATAAACATGGAATGATGCTTGCTAAATTACTTTCTTCTAAAAAATCTGAATTTATAGGTGTTACAAATACTTATGCAACTTCATTCTTTGATTTAAAAATAGCTGGAACAGGATTAACAGAAGATGTGGCTATAAGTAAAGGATATAATGTTGGAAAAGTAAACATGGAAGTATTAACTAAAAATTCAGGATTTAAGGATTCCGTTCCTGGTAGTGCTGAAATAATTTATGATAAAGATACTAACACTGTGCTTGGAGCAACTATAATAGGAAATGAAGCAGTAGCCCAGTTTATAGATCAAATAGCTATAGTAATTAGATTTAGAATAAAAATAGATGATTTAATTTCTGTAGATTTTGCATATTCACCAACTAATGCTAGTGTGTGGAATCCATTATTAGTGCTTTATAGAAAAGTAATAAAATAGTTATTGACAATAAAAATAAAGTTATGTATAATTATGATATGCCGCTTTAGCTCATTAGGTAGAGCAGCTGACTTGTAATCAGCAGGTGATTGGTTCGAATCCGATAAGCGGCACCATTAAATTTGGGTTTTTCATAATAATACAAACTTTCTAAAATAACAAAATGGGAGAGCATAGCTCTCCTCTTTTATATTACATCTTTCATACTATATAATCCTTTTTCAAGTTTTAATAATTTAATAGCTACATTTACTGCACCATCTGAAAATATTTTTCTTGATAATGCACTATGTTTTAATTCTATTATTTCATCACCCTTAGCATATATTATAGAATGCTCTCCAACTATAGAACCACCTCTAATAGAATGAATACCTATTTCATTTTCTTCTCTTTTTTCATCTTTTCTTCCATATACTCTATTTCTTTTTTCATCAAAACAAGAATCAATAATATCAAGTAAAGTATTGGCAGTTCCACTAGGTGCATCTATCTTTCTATTATGATGTGCTTCTACTAACTCTATATCAAAATCTTTAAGTATATTAGTTGCATATTCAACTATCTTATTTAAAGCATTAACTCCAAAAGATGTATTAGTAGATTTAAGTATAGCTATATGCTTACTTGCATCCTCTATCATTTTCATTTCATCATTACTATGCCCTGTAGTAGCAATTAAAACATTTTTCTTTTTAGCTATTGCAAAATCTAAAATATCTTTAGTAAGTAAATGGTTTGAAAAATCAATTAATATATCAAATTCTTTATCTACATCAGAAAAAGAATTAAATTCACCTTTACCAAATAGATCTACTCTACCTACAAATTCATAACCTTTATCTTTAATAGAATTTATTAAATATTCAGACATTACTCCAGCACCAACTACTAATATCTTCATCATTTACCCTTTCTTTCCTGTATTTTTTCAACAAATTTCATTAATAATTTAACAGGAATAAACTTAACTAAAAATACTACCACCTTATTTAAAAAACCAGGTATTATTAATCTTTTACCCATATTATCTATAGCATAATTTGCAACATTTACAGCTGTATCAACACGCATATTATCAAATAATTTAGAATTTTCCAAATTAGAACTTTTAACAAATTCTGTACTTGTTGCACCTGGTGCCAAAATAGAAACCTTAATATTACTATCTCTTAATTCATAAGATAGTGCATTAGTAAATGATGTAACAAATGCTTTTGTAGCATAATATACACTCATTTTAGGTCCAGGCATAAAACTTGCAATTGATGATACATTTAATATCTGTCCTCTATCATATTTTTTCATATCTTGAAGATATAGTTTAGTTAATGATATTAAAGATAATATATTTAAGTTTATCATAGATATTTCTTTATCAAGAGATGTTTCTAAAAAATCACCAAATAATCCAACTCCTGCATTATTAATAAGAACTTCTACAAATATTTTTTTACTTTTTGTATATTCATATATTTCTTTAGAACTAGATACTAAACTCAAATCTTTTTGTATTACATGTATATCTACATTAGTATATTTTTGTTTTAATTTTTCTAAAATCTCTATTCTTCTTGCAATCAAAATTAAATTTTTACCTTTTTTTGCATAATTTTGTGCAATTTCCATCCCTATACCAGAACTTGCTCCAGTGATTAAAATATAGCTATTATTCATATTTAATATTACTCCTCCAACTACTTTTCTTAATTATTACATAAAATATAGCCGCAGCTAAAAAATTTGAAAATAAATTACCATAAAATATAGAATAATATTTTAAATATGAGCTAGTTTGAATAATAAATAAATATCTAAATACCCATATTCTTAAAAATGACATTATAAGGGGGTAAACATTTCTTCCTAAAGCATTAAATACAGATTGAGTAATAATAAATAAAGCAAAAGGAAATACTGAATATGTATAAATATTCAATGCTTCCTGTGTTTTTAGTGCAACATTATCACTAGGATCATATAAGGCGATTAAATATTTAGATGTTGAAAGAATTAAAATTAAAAGTATTAATGCCACGATTTCTCCTATTATTACCCCCTTCTTATATATATCCTTAGATTTTTTTACATTACCTAATCCAATATTCATACTTATCATAGTAGTTACAGTAGTTCCTATAGATGTTGGAACTGAAAAACATATATTATTTATCTGTGATGCAATTGAAAGTCCTGCAAGAACATCTGCTCCATAAATTTCTATTTCAGAATTAATTAAATAAAAACCTAAATTTATTGAAGTAAATGATAACATAGTCGGTATAGATAGTCTTACCATTTCCTTAACTACTAAATAATCAAACCTATATTCTCTAATACTAAGTTTAAATTTTGACTCCCTTACAAATAAATCATAATACATCCAAATAGCTGTAAAAAAATATGCTGTAAGTGAAGCAAATATTGCACCTTTAAGACCCATTTTAAATATTGTTAGATATATCACATTAAAAAATATTTTTAATATTAATAATACTATCATTCTATAAAATGTTGCCTCTGGTTCACCAGTTGCACTTTTAATAGCATTAAATATAGAAGCCATAAACTGAAATGGTATTATTAATGAACTTAAAGCGAAATATGTTATTGCATAATTCCTAATAGCAGGATCATTAGGTGCTAAAAAATCAGACCCTAAAAAACATATGGGCATTAAAAATATTCCTAATATGAATCCAAAAATTAATACCTGTAAAGATACATTCTTTACACCTTTAAAATCTCCCTTACCATTTAATTGCCCTATCATAGACATAGCTACTACACTTAATCCTTGAGATATAGCTATTAACATGTTATACACTGGTTGTACATATGAAACTCCTGCTCCTACATCTGTCCCCAGTATCTTATTTAAAAACAATCCATCTGAAAATGGTATAAGTACCTGAACTATAGCCATCATAAATGTTGGTATAGTTAAAAAAAGTATTGTTTTTACAGTATCTCCATGTATTATCATTTCACGTCTTTCATCTAAATTCATTTTTAATAAATTATTCATATATACCCTCTTATTATTCTCATATAACTAAATGATACTTTATACTGAATATTAAGTCAAGGTATTTTAATATATTGTCTTATTTTAATCTGTGGGGTATAATTTAAAAATAAGAGGTGTTTTATGAAAATCAATAAATTAAGGAGTTTAAACTTATTAATCAAACCATCATCTTGCAATTGTAATCTAAGATGTAATTATTGTTTTTACTTCGATGTTGCAGAAAATAGAGAAACATACACTTATGGAAATATGTCATTTGAAACACTAGAAAATTTAGTTAAAAATGTTTACGATTGTGTAGAATATCAAGTAAACTTCATATTCCAAGGTGGCGAACCTACAATGAGAGGAATAAATTATTATTACAAATTACATGAACTAATAGAAAAATATAATAAAAATAATGTAAATACTACATTCTCTATACAAACAAATGGAACATTATTAAATAAAAGATGGTTTGATTTATTTGAAAAATATAATTATCTAATTGGTATATCTCTTGATGGAACTAAGGATATACATGATATCTTCAGAATAGATATACGACAAAAAGGTACATTTGATTCTATACTTAATAATATAAATAAATTAAGGGAAAGAAATATTGATTTCAATATTTTATGTGTTGTAAATTCAGAAGTTTCAAAAAATGCTAAAAAAATATATGAATTTTTTAGAGAGCAAAAATTTGAATTTTTACAATTTATTCCTGCCTTAGATCCTTTAAAAAATTATGATGAAAAGGATTATACTTTAACTGCTGAAAATTATGGAAAATTTTTAGATGAAATATTTAATCTGTGGTATGAAGATTTAAAAAAGGGAAATTTCATAAGTATAAGATATTTTGAAAATCTTTTATTAATATTATCAGGTAGAAATCCAGAAGCATGTGATATGGTTGGACATTGTTCAGTTAATACAGTTATAGAAGCAGATGGTTCTGTATACCCTTGTGATTTTTATGTAGTTGATGAAAGAAGATTAGGAAATATTAATACTCAAAGTATACCTGAAATAATATTTTCTCAAAAAGCAACCGAATTTGTAAGAGAATCCTTTAAAATAGATGAAAAATGTAAAACTTGCAAATATCTGAAAATATGTAGAACTGGATGTAAAAGACATAAAGATGAAAATAATGTAAATAAATTCTGTTATAGCTACAAATATTTTTTTGGTAGAAACTTAGATAAACTTGTAGATATACGAAATAGATTTATTAAATAAAAAGGGTTACATTGCACTGTAGCCCTTAAAATGTATATCCTGTTTCTATACCTATAACAAACTTATTTTCATATCCACTAACTAAACCTATGTTACATTTATCTATCTTTAATCCAACTATTCCCTTTGCTATTGCTACATGGTTTCCATCTAAACTTTTATTTATATTATTAACATGTTCAAAAAATACTCCTACCCCTATCTCTGCTCCTCCATATACCTTTAAACCTCTCTTAATCTCATAGTTAGTTTCTCCCCTTAATGTGAAATTAAGTGATCCTCTACCTAAATAATAAATAGCTCCATTATTCTTTATAGCTACTCCTCCCATTAAAGATATCTTAGGTCCAAAAGTAAAATCTAATTTCCTTGAATAATCATATCTATATTCTGGCATAAAACCTAATGTTAAAAGTATAAAATTGTCAATTTGATCATTATTATTTATATTAAATTCTAATCCATAAACTAATGTACTATCTATCCTATATCTTGGTCTAGTAAAAGTTATCATACTCATCATAATTAAACATATTAATAAACTTTTTCTCATCTCTTCTCCTTTCATCTAAAATGTATATCCTGCCTCTATACCTAATATTCCTTTTCCATTTCCTACATGAACTGCTACATTATATCTATCTCTTATTTTAATTCCTAATAATACATTCCCAACTGTTTCAAATATGAATTTATTTTTATTATTATCCCTTGATAACCTTAATCCCAATCCAATCTCTATTCCTCCATATAGCTTTATGTCTTCTTTTAGTCTATAATTTATATCTGTTTCCATAGATAAAATAATTTTAGGTTCTATAACATATTTATTTGTTGTATTATAATAAGAAACATTTGCTCCTATCTTTGGTCCAAATGTTATATCAAATCTCTTATCTAAATCCACTTTCCATTCTGGCAGTAAACCTAAAGTTATTGATGAAAATGTTTTTCTATCTTGATCTAAGCTTTTATTACTATCAAATACTCCTACAGAACCTTCTAGTCTATATCTTGGTCCTGTAATATTAGCTGAAAGTGAAAATATACTTAAACTAAGTAACATTATTAATATTAATCTTCTATTCATATTAAAAAGTATAACCTCCTTCTATACCTAATGCTCCCTTTGCATATCCTGTATAAAGTGCTACATTAAATCTTTCTTTTATTTTTACTCCTAAAGATAATTTACCTATATGGGTTACTTTTATTCCACCATAATGATTATCACTCTCACTTAAATATGCTTGAACTCCTAATCCCGTTCCTGCTTCTATACCTGTATATATTTTAATATCATCTTTTACTCTATAGTTAAGATCTATTTCTCCACCTACAATTAAATTAGAATGTAATGTCGTTCCAGTTTGTATATCTGTAGTAACATTTAATGTCGCCTTAGGTCCAAATGTTATATCTATCTTTTTATTTATTTCTGCCTTCCATTCTGGTAATACTGAGATAGAAGTTGAAATAAATCTAAGTGAAATATGTTCTACCTTATAATTCATTGCTCCTACAGAGCCTTCTAGTCTGTATCTTGGTCCTGTAATATTAGCTGAAAACGAAAATATGCTTAAACTAATTAATGTTATTAATATCTTTTTCATCCATTATTCTCCCTATTTTTTTGATCATCATAATTATACACCCCCCCCCCCATTGTTTTGTCAATATTTATATATAGTAAAAAGGATTAATTCCTAAATTAAATAGAAATTAATCCTTTTGTATCAATACTTCTTTTTATTTTTCAGTTTTTTCAATAATTTTTTTAGATATCTCTTCTGGAACTTGTTCATATCTAATAACATTCATTTCAAAATATCCTCTTCCTTGTGTCATAGATTTTAAATCATTAGAATATTTAAATGTTTCAGCCATAGGTGCTTCTGCAAATATTTCTTGTTTATCTTTTCCAACAGATTGCATTCCTAATACTCTACCACGTTTTTTAGTAATATCTCCCATTATATCCCCAACATTTTCTTCTGGAACAACTATTTTTAGTTCCATAATTGGTTCAAGTAAAACAGGTTTAGCCTCAAGCATACCTTTTTTAAATGCAATATTAGCTGCAAGTTTAAATGCCATTTCAGATGAATCTACATCATGATATGAACCATCATAAAGAACTGCTTTAATATTAGTAACTGGATACTTAGCTAATACACCTTCTTTCATAGATTCTAATAAACCTTTTTCAACTGCTGGAATATATCCTTTAGGAACTGCTCCTCCAACTATTTCTTCTTCAAATTCAAATTCTTTTTCAGAATAAGAAAATCTTATCTTAACATCTCCATATTGTCCATGTCCACCAGATTGTTTTTTATGTTTACCTTGAACATCAGAACTACCTTTTATAGTTTCCTTATATGGAACTTTAAGTTCTTCTGTTAATACTTCAACACCATATCTCTCTTTTAATTTTTCAATTACAGAGTTTGCATGTATTTCTCCTTGTACCCCTAAAACTGTCTGTGCTGTTTCAATAACCCGTCTCCAATATAGTGAAGAATCTTCTTCCCTTATTTTATGTAATGCTGTAGATATTTTATCTTCATCTGATTTATTTTTAGCTTGTATAGCTACTAACATTTGCTCTTTAGGGAATCTAATTTCCTCAATAGCTTCTATTTTTTCATTTTTAGCTAAAGTATCAGAATTTTGTGTAAAGTTTAATTTAGTTAATAATACTATATCACCCATAGTTGCTTTTTGTAACTCTATCATTTCACCATGAACCAATGTAAATATCTTATTAACTTTTTCATATTCCCTCTTATTTACATTATATACTTCTGAATCATTTTTTATTTCTCCAGAAAGCACTTTAACATATGAAATTTTACCTACAAATGGATCTATAACTGTTTTAAATACTTGACCTACAAATTCTGAAATATCAATATTTTTCTTATTATCTTTAGGAGATGGTAAATATTCTCTCATCATATCAAATGTAGTATGTAATCCAATATTTTTATAAGTCGATCCACAAACTACAGGTATTAATGTTCCATCAAGTACACCTTTTCTTAGTCCTCTATGTATCTCTTCTGTTGTAAATTCTTCTCCAGAGAAATATTTATCCATTAACATCTCTTCTGTTTCTGCTACAGATTCTAATAACATTTCTCTAACTGATCCTACCTCAATTTCAAATTCTTCTGGCATTTTAACTGTTTCACATTCTTTACCATTATATTTTCTTGCAAATAAGTCTACAACATTTATATGACCTTTAAATTCTGCTCCCTTACCCCAAGGTATATGGAAAGGTGCTATTTTCTTACCATATTTTTCTCTTAATTGATTAAGAATTTTAGAATAATCTGCTTTATCAGAATCTATTTTGTTAATGAATATAAATTTAGGGATTTTTCTTTCTTCAGTTAATTCTAAGGCTATTTCAGTTCCTACACTTAAATCTGTAGTAGCATCTATAGTTATTATAGCACCTGCTATTGCTGCAAGACCTGATTCTAATTCACCATAAAAATCTGAATATCCAGGAATATCTAATAAATTATACTTCATATTTTGATATTCTACTGATGATAATGTTAAATTATTAGACATTTTAAACTGTTCTGTTGGAGATGAAATTCTAGTAATTAAATTAGCTGTAAATTCCAAAGACTCCAACATATTACTTTTTCCCGAACCACTATGCCCTAATATTCCTACATTCCTCATATTATCACTGTCATAAATTTTCATACCTTGCCTCCTAAAAATATTGATTATTACTATATTAACATTATATCTTGAAAATTAAAAAAAACAAGAAGTATAAAAAAAGGTGATTAAGAATTTCAAAAAAAATTCTTGAATCACCTCTTCTTTTTCTGTATAATTTAATCGCCAAACCAAATAACAGAAAGGAGTCAATATAATGTATAATTCTAATAAAATTAAATCTATCTTCTCCAAATATATTTTAACAAATTCTATTAATTCTATCAAGCCATATTTTGATAAAAAACATATTGAACATATCAACCATTCCATTCATAATTTTCTTAACTGTGGTAATCTCTCTAAAGGCTTTATCTCTTATCGTTGTTCCTCTTGTAATTTTCAACATAAAATGAAACTTACTTGTAAATCTAGACTTTGTCCATCTTGTGGTTATAACTATTCTGTTAATTGGACTAATTCTATCTTAAAACAATTTATTAACATCCCTCATAGGCATGTCCTTTTTACTGTCCCTAAAGAATTTAGAAAATTTATTGCTTATGATAGATCTATTCTTTCTAAAATGTCTAAAGCTATTAATGATATTTTTAAATATCAATTCCATAATATCAAAGATAAAGTTAAAAGAAAAATATATATCCCTAAATCTAATCCTAATTACTTTACTAATTCTGATATTATTAACTACGGACTTATTACTGTTATTCATACTTTTGGTAGAAACCTTAAGTTTAATCCTCATATTCATGCCATCATCTCTCTTGGAGGTTTTAATAAAAAATTTCAATATAAAGAACTTAAATACTTTCATGTCCCCTCTATTGCTAATCAATGGAAGTTTTCTCTTTGTAAATTAATTAGTAATGCTAATTATCCTAATGATATTATTAAAATACAAGCTAAAAAAGCTGTATCTAATGTTTATGATAATGATGTTAGGTTATTTTTTAATGTAGCTGGTAATGATATTAATAATCCTAAATACATTATTAAATATCTTGGTAGATATTTATCAAGAGTTCCTATTGCTGAATATAAGATTGTTAATATTGATTTTAATAAAAATTCTCTTACATTTAAATTTGAAGATTTAAGTAATAATAAAGAAGTTACTTATTCTACTTTATCTTTTAAAGATTTTGTTGCTAAAGTGCTTTTTCATCTACCTTTAAAGTATTTTAAAATGATTAATAGATATGGTTTCTATGCTAGAAGAATTTCTTCTAAAGTTAAAATGTCTCTATTTTATCTTAAAGCTCAGGTTAATAAAAAGTCTCTTTCTTTATTTAGGAAAAACTTTAAAGAACTTTGGGACTTTGACCCTTTTATGTGTCCTCATTGTAATATTTATCTTAAACGTTATGAACTATTTATTGATAATGGTCTTTCTCCTCCTATTCATAAGTTCTATAATTAATATATTATGCCTATTTTTATGATAGGTAGTTTTGTTGTTCTCTTATTTTTTATTCTATTAATTTTTCTTTTCTTTATCAATATTTTTTTACTATTTTCTTTTATTTTTTTATCTTGGATATTTTTTTAATTTCCTATAGAACAAAAAAAAGTGCTTAAAAGCACTTTATATTTATTATCTCACTTCTCTTGCTGCATCAACTCTTACTGCATATTTAAAATATTTACCCCAGTATGAATTATTTAAACTTGATAGTACTACACCTTTTGAAGATGAAGCATTGATAAATAATGAGTTACCTATATAAACAGCAACATGATTTACCCTATTTTCTGGTCTAAAGTATAGTAAATCTCCTGGTTTCATTTCTCCCTTTTCAATTTTTCTACCTTTTTTTACTTGGTCAACACTTACTCTAGGTAGTTCATAACCAAATACATCTCTAAATACTTCTCTTGTTAAGGCTGAACAATCTATACCCTTATGATTTACTCCGCCAAAAATATACTTTGTTCCTGCCCATTTATCATAAGCACTAAACAATTTATTTTTTAATATTATATTATCCAGACTGTTATAAACCCCAGACATAGACATTACTGATTCTTCAATTTCATTTATCTTCTTATCAATATATGATTGATCATGTATGTATTCTGAATCAAACACTATTGAGTTAGAATCTTGCATTACTAATTCTCTTTGAGATTTTGTAGAAGATTTTTTTAGGCTTATTTTGTTTGCACTAAATCCCATTGCTGGTAAAAGTGCAAGAGATAATACTAACATCATTTTCTTGTATCTCAACATTAATTTACTTCCTCTCTTGTATCAAAAATAAAGTTCATTGGACCATCATTACTAGATTGCACATCCATATATGTTTGAAATCTTCCCGACTTATATTTAACATTATTTTTTTCTAGTTCCTTAAGAAAAATTTCATATATATCATTTGCTTTTAAAGCAGTTGCAGATTCTGTAAACGAAGGTCTATTCCCTTTTTTCATATTACCATAAAGTGAAAAATTACTAATAATCATTACTTCATAATTTTTATCTATCAGAGAAAAATTAATTTTACCTTCCTCATCTTCAAATATTCTAAGGTTAATTAATTTTCTAACACAGACTTGTATATCTTTTAGGTCATCTTCATTATGAACACCTAAATAAACTAAAAGTCCTTTTTCTATTGAATTAAATGTTCCATCTTCAAATAGAACCTTAGCATTATTTACTCTTTGTATTAACATCTTCATAATTTGGAAACACCTCTCGATGTATTATAACATAAAAAATAAAAAAAAGGAAGAAAAAACTTCCTATAAATAACATATTGTGTTTACATTAATGGTGAGTCATACTGGAATCGAACCAGTGACACCTTGATTAAAAGTCAAGTGCTCTACCGACTGAGCTAATGACTCACATGGAGCGGGAGACGAGGGTCGAACTCGCGACATTCAGCTTGGAAGGCTGACACTCTACCAACTGAGTTACTCCCGCATACATGGTGCCTCGGGCCGGACTCGAACCGGCACGGGATTACTCCCACAGGATTTTAAGTCCTGTGTGTCTACCATTTCACCACCAAGGCATTTTTTATCGACAAAAGTTATTATATATTATTTAAAAATTTTTGTCAATAAAATTTTATAATTTCATCAAAACATTCTCAAAATTATTCTTATTCCATTAAATATATTTAAACATATTACAAATAATGTAATGATATTATATGCTTTTTTTATAAGCTCATCACTAGATATAATATTTATTTTAGTTCCTAAATTTCCACCTAATATGGCAGCAGGTATAATTACTAATAAAGGATATAAGTCGTATCCTGATATACCCGTTATGAAAAAATCTATAAAATTTTTAGAAAACTGTGAGAAAAATATAGTTGAAATAGAATATAGTGTGGCACTTTTCATACTTGTTCCAAAAATTAATATAAATAATGATACATTTATAGGCCCTCCACCTATTCCTAAAAATGTAGAAATTATCCCAAGACACATACTTACTAAAAAATATATAGCATAATTTTTATACTTAAAAGTAAAATTACAGTAACTATTATAGTAAATAGCTAATGACAATACAATTACTGTAACTGTAATTTGTATTAATTTAACTATATCATCTCCAGAAAAATATGCTAAAGAATTTTTAAAAATTTGTATTCCTAATTTCCCACCTATAATAGATCCAAAAGCAATTGCAATAAGCTCTCTACTTTCAATTCTATCTCCTTGTTTTGCTTTCTTTATTATAGAAACTATTGACATAGTTAATACAGCAAGAGATGAATAAAAATTAATATTATCTAAATTAGAATAAGAAAGTGCATCAAGGCTTGGCTTTATTATTACACCTCCACCCATTCCAGATAATGAACCTACTCCTGTTGCAAACATTATTATTAAAAAATATGTAATATAAATATACATTTAATCCTCCAAATTCCCTTCAAGTATAGTATTTATAATTGCTTCAGCACAACGAATCCCATCTACTGCTGCACTCATTATTCCACCAGCATATCCTGCACCTTCTCCACATGGTATTAAACCTACAACACTAGAATTATATCTATCATCTCTATTTATTCTAATAGGTGATGAAGTTCTACTTTCTATACCAGTAATTATAGCATCCTTACCAGCAAATCCATGTATTTTATTATCAAATTTTGGAAATGCCTCCCTTAATGTAAGTGAAATGAAATCTGGAAATAAGTCATTTAAATTACATAGCTTATATCCTATAGAATAACTTGGCTTAACATTACCTATTTTACTACTTTTAACATTTTTAATAAAATCTTGTACTAATTGTACAGGTGCTTTATAATCTGAACCACCCATGATAAAAGCTTTTTCTTCTAATTCTCTTTGAAAATACATCCCAGCTAAATTACCTTCTCCTAAATCATCTGGAGTTACATTAACTAACACTGCTGAATTTGCATTTTCTAAATCTCTTTTACTATAACTCATCCCATTTATTACTAACCTATTTTTTTCACTAGATGATGGAACTACAACTCCGCCAGGACACATACAAAATGTATATGCTCCTCTTCCAGTTGAAGCCCTAACATTTAACTTATATTCAGCTGGTGGTAATAAATCTGCATTTTTACCATATTGAACCTCGTTTATAAGTTTTTGTTTATGTTCTATTCTAACACCTACAGAAAATACTTTTTTACTTATATCTATTTTGTTTTCATTTAACATTTCAAATGTATCCCTTGCACTATGACCTATAGCAAGTATAGCATAATCTGTTTCTAATTCGTATTCTTCTTTTTTATCTAAATCAAGTACTTTTAATGAATATAATTTTGAATTTTTTAAAGCATAATTTACAAACTTATTTCTAAACCTATATTCACCACCAAGACTTATTACTTTTTTTCTAATATTTTCAACTATTTTAACAAGCTCATCTGTCCCTAAATGAGGTTTAGAAATATATGATATACTTTCATCTGCACCAGCTTCTATTAATTCATCTACAACTTTTTTTATTCTAACATTATGAGTATTAGTTGTTAATTTACCATCAGAGAATGTTCCAGCTCCACCTTCACCATATTGAACATTAGATTCTTCATCTAATTTCCCAGTTTCAAAAAATGTATAAACATCTTCTACTCTTTCTTTAACTTCCTTACCTCTCTCAAGTATAATAGGTTTTAAATTAGCTTTAGCTAATATTAAAGCAGCAAGCATTCCTGCTGGTCCTGTCCCTATAACAACAGGTCTTTTACCATTATATTTTTCTATTATTTGTTGTGGATAAACATATTCTTCAACTATAGATACATTCTTATATTTTTCTACATTACTATAAACTTCATCATTACTATCAAAATCTATAGTATATACATATTTAATATTATTCTTATTTCTAGCATCAATAGCTTTTCCAGTTATTTTAAAATTATTTATCTCATTATCTTTTAAAATTAATTTCATTTCTTTTCTTATATCTTCTTCATTATGTATAATATCTACTTTAATATTAGTAATTCTTAACATTTTTTCTCCTAAATATTTTTTCCTACATGCATACCTGATATGAAGCACCAATTCAAATTATATCCTCCACAATCTCCAAATACATCTAATATTTCTCCTGTGAAATATAGTCCTTTAACTATTTTAGATTCTAAACTATAATTATCAACTTCATTAATTCTAATTCCACCTGCTGTAACTTGAGCATTTGAAAAACCAGTAGTATCATATACTTTAAATACAAACTTCTTAAGTTTTTCTACTAACTTTTCTATAATTTCATCATCAATTTCACTAACTTTAAAATTAAGTTTTTCTATACCAACACTTTTTAATAAATAGCTAGCAAATTTTTTATTAACTAAACCATTTAAATAATATTCTATTTCTAAATATCCTAAATCTTTTTTTCTAGTATATAATAAAGTTCTTAATTCATCTTCACTATACATAGATAGAAAATCTACATTCCAATAAAGATCATCAAGGTTATATAAAGCTGTAAGATAAGATAAATTAAAAATACACGGACCTGAAACACCATAGGCTGTAAATAGTAATTCATTTTCATCACTTCTTAATAATTCATTATTATTATACACACTTAATTTTACCTTTTGTTTAACTCCTTCTAAGCCTTTAGCATACTTTTTATCTACCTTTAATTGAACTAATACTGGAAATATTTCTGTTCTACTATGACCCATTTTTATTGCTAAGTCATATCCACTTCCATTACTACCAAGTTCTGGATACGATATTCCTCCAGCTGCAATAACTAATTTATCTACAACTATAGTTTCATTACTCACACTACTAACATTAAATTTCAAATTCTTTTTCCTAACTTTACTGACTTCAAATTCATATTTAACTTCAATATTTTTCATGCTCTCAACCTTAAATCTTAAGGCATCTACTATAGCTGAAGCTTGATATGATAATGGATAAACCTTACCAAATTTTTCTACCTTGTATTCTATACCTATTTTTTTAAAAAAAGATAATACATCTTCAAAACTATATTCATTAAATATTCTTTCATCTATTTTTTCTTCTATAGAAAAATAGTTCCTATATCCTGCATTAATATTTGTAAAATTACATGTTCCATTACCTGTAACCAATACTTTTTTAAGCATTCTATCTTTTCTTTCAAATATTACAACATCATATCCTCTTTGTGCAGCATAAATTGCACATAATATTCCTGAAGCTCCAGCTCCAATTATTCCTATTTTCATATATCTAACCTCTTTATTGCAATTTAAGTCTGCATATTTTTAATTATACCACATCTTAGAAAAAATAAAAGTCTTGTTATCATCTTAATTTTATTTATATTTGTAAAATAAAATTGCTTTATTCAATAAAATAATGATATAATTAACAATAAAATACATGAGGATAATATTGTTATACTATATTAAAACACCTTGACAATTCTCTCTAAACATGGTAATATATCTTATCGATGTAGCAACCGTTTTTGAATTTTTTCAAATAAAGCTTAAGGTTGATGGTACTTAAGTAGTGGTTAGTAAAAAAGGTATGATATATTCATATCTTTTTTTTTGCGAAAGGAATTTTGAAATGAAAAATATAAAATATGACAAAGAATTTAAAACTTTTGAAGAACAGATTTCATATTTAAAGAATACATACAATTTAATAATCAAAAATGAAGATTTAGCTTTAGAGCTTTTAAAAATTTTCCCTTATTATAACCTTATAAACGGATATAAAGAATATTTTATGAAAAATGGCAAATACAGTAATACATCACTTGAAGATCTAGTATCTATTCATTTATTAGATAAAAACTTTTTAACAATAATTTTTAAATACAGTACATATGTAGAAGATATATTTAAACATAAACTTGCATATGTCATTAGTAGTCAAAGTTACAATCATGTAGATAAAGACTTCTATTTAAAAGATTCTAAATTATTCAAAAAGAATTTTTCATCTAATATAATAAAAACATTAGAAAAGATTTTAAGTAATCCTAATGTTGAAGATCCTACAAAACATTATCTAAAAGTGCATAATCATATTCCAACTTGGATATTTTTTAAAAATGTTAATTTTTATGAAGTTACAGAACTATTTAAAATATTTAATAGTGATTTGAAAACAGATGTAATTAAAATGTTCTACTTATTTTACAAAACTAAGTTCAAATTTAATAGTCCTCCTAAAGATTATGAAAAAAAGGCAAAAAGAATAGAAATATTTGAAAAATCATTATTAACTGTAAGAAAATTCAGAAATTTAATAAGTCATAATCTAAAAGTTTTCACTTATACTTTAAATAAAGGAATATCTACATCATATTTTAACGATACTTTCATAAATAACTTTTTAATTTACTCTGATAAAAAATATGAAGGAGATTTATATACATGTATTATATCTATAATTCTATTATTAGATGCTCCACTATCAACATTTTTTATTAAAGATCTACAATTAATAATTAATGAACATAAATCACATTCAAATACATATTTTAAAATGTATAGACTACCTTCAAATTTCAATGAAATATTAGAAAAAATATATGATGAACTAAATCATATCAAGTAATAAAAAATGCATCATCAAATCTATTAAAGATTTGAGATGCTTTCTTACAAAATATTTAATCTTTAAGCATTTGTTTTTTCAATGCAAATATACAACCACAATAACATTGTCTATACACATCATATTCATTACACATTTCTATACTTCTTTTATATCCATTATTTTTCTTAAAATCAGAAGGTAAGTATTTAACCTTATATATCTCTTGAACTTCAAAACCTAATTCATTTACTAATTTAGAATTTTTTTTAGGTGATAATGTTATAGCTGAACCAAAATAATCAAATTTTAAATTTTTAGCATATCTTGCAACTATATCTAACCTCATTTGAAAACAAGTTACACATCTACTTCCACCTTCTGGTTCATTTTCCTGACCCTTTGTTAATTGTAAAAAATGTTTAGGATTATATTCATCTTCTATATATTTAACATTATTTCCTGTTTTTTCATTAAAATCTTTAATAAATTGTTGTTGCACTTCACTTCTTTTAATATATTCTTGTTTAGGATGTATATTTGAATTTGCAAATAAGATAGTTATATCTGCATAATTACATAAAAATTCTAAAGTATATGTAGAACAAGGAGCACAACAACTATGTAATAAAATCTTAGGTTTCTTTTCAAGACTTTTCCATTTTTTTATTAATTTTTCAAGTATTGTATGATAATTTATTACCTGATTTTTATTCATTGAAGATAAAATAGATAATGCATCATCAAATTCATTTTCAGTTATGAAAGTATTATCTTTAATAATATCAAAAATTTTATCATTTTTACTTTGATTATCTTTCATATCCTTTTTTAATTTTTCATATATATCTCTTAGTTCCTTATTTTCCATAAATAAATTATCTATTACCTTTCAATATATTTAACATATTATACAATAAATATATCTTTTTTAAAAGAAAAATAGGCCCTAGCCTATTAATTTCTATTATTTCTATATTTTTGATAATGTTCAAATTCTTTTAATATACTATCTTTCTTTTCTTTGCTAATTTCATTATTTTTCAACATATCTTCTAATAATAACTTTAATTTATGTATATCCCTATTAGTAAAATATATATTAATTAAAGCATAATTTGCCTTTACATTACCTTCTTTTTTAGACTTTATTAGATATCTTTCAGCATAGTCAAATAAATTTTCAGAAGCCATCTTAATTCCAATATCAAAACTACATATTCTCTTAGATTCTAATTTCTTCAAACAACCTTCTACATCTTCAGTTTTATTTAATAACCTAGCATATTTTATTAAGTCTATTATTAAATTTCCATCAATGTTTCCTTTTTTTTCTATAGCTTTTAAAATATCATATGCACTTTCATACTCTGAATTTGCGACATAGCTTCTATATATATTTTCTAAAATATATATAGGTATTTCTTTATCTACATTTAAGGCCTTATTTAAATAACTTAATGATGCCACCTTATTTTCTTGCTTAAGCTCAATATTTGAATATCCAATATATCCTAATTGAACATTTTCTTTATTTTCACTCTTTAATAGCATACCAAAATATCTTTTAGCATCATCATATTTATTATTTTCTAAATATGACATAGCCAGTAGATTAAACAAAGCTCCTTTTTCTCTTTCTGAAAGTTTAAGTATTATACTTTTATTAAGCTTTTCTAACTTTTCATACTTATTATTTGTTTCATATAAATAAATTAAGTTTGATAAAAAAGGTAATTGTTGATAATTAGTTTTTTTATTCAATATCTCAGTTTGATTTATAGCTTCTTCAATATCTCCTTCATCCATAGCCATAGAAAATAGGTTTTGACTAGCCTTTATAGAAGAAAATGTTTTAGCTTCTAAATTTTCTGATAACTTTCTATAATAAATTTTAGCTTCCCTTATTTTATTCTCTTTATGATAAATATTCGCAAGATAATAATATGCAGATTCTAAAAATTTTTTATCTTCGTTATTTTCTACTTTTTTTTCAATTACTGCATGTAATAATGCTTTTGCATTTTCATATTTATTTTCTGTAATTAGTTTTAAAGATTCTTCTAAATCTGATTTAATATTTGCATTTAATATGAATGAAAGAGAAAAAAACAAATAAATAAATAGTTTTTTCATAAATATCTACCTTACTTATTTTCTTAATTCTTCTACTATTTCAGTTTTTGATTTTGTCTTCTCATCTATTACTTTAATTATTTTTGCTGGCATACCTGCAACTACTACACCACTTGGTACATTTTCAGTTACAACAGCTCCTGCTGCAACAACAGAATTTGCTCCTACTCTTACTCCCTCAAGAACAACTACATTAGCTCCTATTACTACATTATCTTCTATTACAACTGGATCTGCTGAAGGTGGTTCTATAACTCCTGCTAAAACTGTTCCAGCACCTATATGACAACTTTTACCTACAGTAGCTCTTCCTCCAAGTACAGCATTCATATCTATCATAGTACCTTCTCCAATTTTTGCACCTATGTTTATAACTGCACCCATCATAATTACAGCTTTAGATCCTATAATAACCTTTTCTCTAATAATAGCTCCTGGTTCAATTCTAGCGTCAATATTTTTAATATCAAGTAATGGTAATGCTGAATTACGTCTATCATTTTCTAAATGATAATTTTTTAAATCATTATCTTTAATTAATTTTTCAACTTCGTCCCAGTTACCTATTATAATTTTTGTTTCCTTACCTATAATTTTAACATCATATTCACCTTTTATATCTTCATCTGTATAAAGTTTAACAGGTGTTTTTCTATTTGAATTTGCAATAAAACTTATAATTTCTTTTGTTCTTTCTAATTCTGTCATATATTACTCCTTTAATAATATTAACTAAATATTATCATATATTAAGACAAAATACCATTAGTTTTTTCTTATAATAAAAAAAGGATTTCTTAAAATCCAAGAAATCCTAATATTTATTTTATAAATTTTCATCATTAATTGTTGATAAAAACTCTTTTACTGGTGTAATAATTTTTGCTATACTTCCATTTTCAAATGGATTGTCTAATTTAACATCTTCTAATAATCCAAGGAAAGTTTTAGATCCTCCAAGAGTACATAATCTCATATATTTTTCCCATGCTAATTTACTATTTTCTCCATTTAACTTCCACATTTGTAATGCAATTACTTGTGCTAAAGTATAATCTATATAATAAAATGGTATTTCAAATATATGACCTTGTTTAAACCAGAATAATCCTTTTAGATATGATTCTATTCCATCATAATCTCTTGTAGGTAAATATTCTTTTTCAAGTTCTAACCATTTCATTCTTCTTTCTTCTGGTGTTACATTAGGGTTTTCATACACAAAATGTTGAAACTCATCAACTAAAGCTCCATAAGGTATAAATAAGAATGCACCACTTAAATGATGATATTTGAACTTATCTATATCTTCCTTAAAGAATGATTCCATCCATGGCCAAGTTAAAAATTCCATACTCATAGAATGAATTTCTGCTGATTCTGATGTAGGCCAATAATATGAAGATATATCAACATTTCTCATAGCTTGATATGATTGAAATGCATGTCCTGCCTCATGTGTTAAAACTTCAACATCATGTGCTGTACCATTAAAGTTTGCAAATATAAATGGCATGCTATATGAATCAAAAGATGTACAATATCCTCCACCTTGTTTTCCTTTTTTACTATCTAAATCAAGTAATTCTTGTTCAACCATTTTTGAGAAAAATTCATGTGTTTCAGGAGATAATTCTTTATACATAATTTGTGCTTTTTCAACCATCCATGCTCTATCACCTTTAGGAGTTGGATTACCTGTTAAAAATGCCATTCCTTCATCATAATATTTTAATTTATCAACCTTTATTCTCTTTTCTTGTCTTTTTCTCAATTCAACATATAGTGGAACTACGTTTTCTTTTATTTGTTTTCTATAATTTGCAACATCTTCTGCATTGTAATCTAGTCTTCCCATTCTTAAATATCCAACTTCAACAAAGTTCTTATATCCAAGTTTTTTAGCTATTCTATCTCTTACTTTAACTAACATGTCATATATTCTATCATATTCTGCCATATTATCTTCAAAGAATTTTCCTACAGCTATTATAGCTTCTTTTCTTGTATTTCTATCTACATCTTGAGTATATGGAACCATTTCTGAAAGATTTCTTTCTTCTCCATCAAATAATATTTTAGCACTTGATGTTAATTTTACATACTCTGTTACTAACTTATTTTCTTCTTGTAAGTCTTCAATAATTTCATTTTTGAATAATTTTAATTCTAAATCTATTTTTTGAAATGCAAGTTTACCAAATTTTTCTTCTAATTCAGATCTAAACTTAGAATTAGCAAAAGCTATTCCTAAATCATTACTAAATTCTGATATTAATGGTATATTTTCATCATAAAAAGCCTTTTCTTTAGAATAAAATTCATCTGTAGTATCTATACTATTTCTAACATAAACTAATGAATAATTAGTTGAAAATTCTTTATTAATCTCATCAAGCTTATAATAAAGTTCTATTGCTTTTTGTGCATTTTCAGCATTTTCAAGCTCTTCTTTAATTTTTGTATATGTTTTTTTTAACTCTTCAATATTAACTCTTTTGTATTCAAAGTCTTTAAAAACCACTTCATACCTCCTATTTTCTATTTAGACAAATACTTTTATCTAAGTAAACTGTCTTGTAATTTTTTCTTAGTTCCAAGTATATCTTGGTCTTCTTTCTTTTTAGCAGCAATAGCTCTTTCAAGTTTTTGCTGTTTAATTTTTTTAAATTCTTCTTCACTTTCAGCAAGCATTGCCTCTTCTGCCATAACAGTAACATAATTATGATTAACTTCTAAAAATCCACCACTAATATAGTAAGTTTTTTCTTCTTCTAAACTTTTAATAAGCATTAATCCTTCACCAAGAGAACTCATAAAATTAGTATGATTAGGAAGTATTCCTATATCCCCTCTTATAGTTCTAACTTTAACAAATTTTATCTCTTTAGATAAAAATTCTATTTTTTCAGGTGTTACTACTTTCAAAGTAAAAAAATCTTTTTTTTCCATAATTATTCACCCATTAAATCTTTTGCTTTTGCTACTGCTTCATCTATAGTTCCCACATAAAGGAAAGCTTGTTCTGGTAGTTCATCATGTTTACCATCTAATATTTCCTTAAATCCTCTTATAGTTTCACGAAGTGTTACATATTTACCTTTCATTCCTGTAAATTGTTCAGCAACTGAGAATGGTTGTGAGAAAAATCTTTGAATTTTTCTTGCTCTACTTACTATAACTTTATCTTCATCACCTAATTCATCCATACCAAGTATTGCAATAATATCTTGCAGCTCCTTATATCTTTGAAGAACCTTAACAGTTTCTCTTGCAACCTTATAGTGTTCATTTCCAACAATTTCAGCCTCAAGTATTCTTGAAGTTGATGCTAATGGATCTACTGCTGGATAAATACCTAATGATGCAATCTGTCTTGATAGTACTGTTGTTGCATCAAGATGTGAAAATGTTGTAGCTGGTGCTGGGTCAGTTAAATCATCTGCTGGAACATATACTGCTTGTACTGAAGTAATAGAACCTTTTTTAGTTGAAGTTATTCTTTCTTGTAATGCTCCCATATCCGTTGCAAGGTTAGGTTGATAACCAACAGCAGATGGCATTCTTCCAAGAAGAGCTGAAACTTCTGAACCAGCTTGTGTAAATCTAAATATATTATCTATGAATAATAATACATTTTGACCTTCCTTATCTCTAAAATATTCTGCCATAGTTAATGCTGAAAGTGCTACTCTAAGTCTTGCACCAGGTGGTTCATTCATTTGCCCATAAACTAAAGCTGTCTTGTTAATAACTCCACTTTCTCTCATTTCGTTATATAGATCTCTACCTTCTCTAGTTCTTTCTCCAACTCCAGCAAATACAGATAATCCTCCATGACCTTTTGCAATATTATTAATTAATTCTTGAATTAATACAGTTTTACCTACTCCTGCTCCTCCAAAAAGACCTATTTTTCCTCCTTTTAGATATGGTGCTAATAAATCTACTACCTTAATTCCTGTTTCTAATATCTCAGAGTGAGTTTCTTGCTCTTCAAATTCAGGTGCTTTTTTATGAATAGAATGTCTTTCTTCTGTAATAATTTCATCACCATTATCAACAGTTTCACCTAAAACATTAAAAATTCTTCCTAAAGTTTCTTTCCCTACTGGTACTTTAATAGGTCCTCCTGTATCTATAACATCTACACCTCTTTTTAATCCATCTGTAGATGTCATAGAAACTGCTCTTACAACATTATTACCTAAATGTGCTTGAACCTCTGCAACTATTTTTTTCCCATCTTCATAATATATTTCTAAGGCATTAAAGATATCTGGTAAGGTATTATCAAATCTTGCATCTATAACTGGTCCTATAATTTGAACCAATTTACCTTTGTTCATCTTATTCCTCCTATTTAATTGCTTGAGAACCACCAACTATTTCTGATAGTTCTTGTGTTATTAGACTTTGTCTAATTCTATTGTATTCTAATGTTAACTTATTTATTATTTCTGTTGCACTATCACTTGCATTTTTCATAGCAGACATTCTTGCAGAATGTTCACTGGCTGAATTTTCAAGTAAAGCTTGATATAGCTTATTATTCAAAAGTTTAGGTAAAAATTCAACTAAAACTTGATTTTCATTAGGTTCAAAAATATATCTTTTATCTTTTACTTCTTCACTTTCTTTAGATATTTTTAATCCTGTAGGTCTTGAAAAAGGAAGTATTCTTTCTTCCACTAAGTTATAGTGAATTACTGAAACAAATTTTGAATATATTAAATATACTTCATCATATTGATCTGAAAGATAAAAATCTACTATATCCTCACTTATAATTTTAGCTTTAGAAAACATAGTTTCAGGTATTAATTGTATGTATTCAGCATCTACATTAATATCTCTAGTTTTACAATAATCTCTTGCCTTTCTACCTATAGCGATTATAGAAACATTTTTACCTTCTTTAGTAAATCTTTTTACCATTTTATCCATTTTTTTCAAACAGTTAGAATTAAATGAACCACAAAGACCTCTATCTGATGTTATAACTACTATACCAATATTTTTAACTTCTTTTTTACCTTCAAATAATATATTATGTCTATTACCTATATGATTTAGTAAATTATATAAAGCATATTCTAGTGATTTTTCATATTCTCTAGTTTTAAAGGTAAGCACTTGAAATTTTTTAAATTTAGTTGAAGAAACAATATTCATAGCACTAGTTATTTGTTTTGAATTATTAATGCTATTTATTCTAGCTTTAATTTCTTTCATATTAGATGCCATATGTTTCTCCTTTCATTAATGTACATAATCTTTTTTAAATGTTTTTATAAAGTCTTCTAATTCTTCTTCTATATCCTTAGTCAAGGCTTTTTCAGTTGAAATCTGTTTTAAAATATCCGTTGTAGAATATATGCTTTGTAATAATTCTTCTTCAAAGTTTCTAACATCTTCTACATCAATATCATCTAAATAACCATTAGTTACAGCATAAAATGAAACAACTTGTTCTTCTACAGACATAGGAGAGTATTGTTTTTGTTTTAATATCTCCATTATTCTTTCTCCACGATTTAATTGATCACGCGTAGCCTTATCAAGATCAGAACCAAATTGTGCAAATGCTAATAATTCAGTATACTGTGCAAGTTCCATTTTAACCTTACTTGCTACCTGTTTCATAGCCTTAATTTGAGCTGAACCTCCAACCCTTGAAACTGAAAATCCTGCATTAATAGCTGGTCTAAATCCAGAGTTAAATAAATCTGTTTCTAAAAATATTTGACCATCTGTTATTGAAATAACATTAGTTGGAATATATGCTGATATATCTCCAGCTTGAGTTTCAATTATTGGAAGAGCTGTAATAGATCCTCCACCTAATTCATCAGATAATTTAGCTGCTCTTTCAAGTAATCTTGAATGCAAGTAGAAAACATCTCCTGGGTATGCTTCACGCCCTGGTGGTCTTTTTAATAATAAAGACATTTCTCTATATGAAACAGCATGCTTAGATAAATCATCATAAATTATTAATACATGTTTACCTTCTTCCATAAAATATTCTGCCATAGCCACACCAGCATAAGGTGCTAAATATTGAAGTGGTGCAGGTTCACTTGCAGTAGCAGCTACTATAGTTGTATATTCCATAGCCCCTGCTTCTTCTAATTTTCTTTGAATTGAAGCCACTGTAGATCTTTTTTGACCTATAGCAACATATATACAATATATTCCTGTATCTTTTTGATTAATAATAGTATCTATAGCTATAGATGTTTTTCCTGTTTGTCTATCCCCTATTATTAATTCTCTTTGACCTCTTCCTATAGGAATCATTCCATCTATTGCTTTAATTCCAGTTTGTAGTGGTTCTGTAACTGGTTTTCTATCTATTATACCTGAAGCCACTCTTTCAACCTGCATGTATTTAGATGCTACAATATTTCCCTTACCATCTATAGGTTCTCCTAATGAATTTACTACTCTTCCAAGTAATGCTTCTCCAGCAGGAACTTCAGTAATTCTACCTGTACCTTTAACCACATCTCCCTCTTTAATACCCCTAGTTTCTCCAAGAATAACAGCTCCAACAGAATTTTCCTCAAGATTTAAAACCATTCCTGTTGCTCCATTTGGAAATTCTAATAGTTCTCCAGCCATAGCAGTTTCTAAACCATAAATTCTAGCTATACCATCTCCTACTTCTACTACTGATCCAACACTAGAAACATCTATTCTTTTTTTATAATTTTCTATTTCTTTTCTAATTATATTACTAATTTCTTCTGGTTTGATTTTCAAAAAAAACACCTCCTCAATTTAACGTTTCAATTCTTTAATTTGAGTCTTAATCGAACCATCAATTACATCATCATTTATTTTAATTATTCCTCCACCTATTAAGTTTTCATCAACTTTATAGTGTATAACAACTTCTTTTTGTTTCATCTTAACTAATTTTTTTCTTAGTCTTTCTTTTTGATCAGTTGATAACTCTTTAGGAAAAATAGCTGTTACTATTAACTTTTTATGAGCTTCATAATATATTTTACTATACTGTTCATTAATTTCTTTGATATGTAATAGTCTATCTTTTTCAATTAAATAATCTAAAATATCTAAAGGTTCATTTTTAATATCCCTATATATTCTATTTATTAACTCTTTTTTTTCTTCTTTTCCAATAATAGGATATGTTAAAAACTTTTTGAAATCTTCATCATTTTCTATATGTTCTAAAATAACATTTAACATTTCAAAAACTTCAAATACTTCATCTTTTTCTTCGGCTACTTTATAGATAGCTTCTGCATATCTTCTAGCTATAGAAAGATTTTCCACATTATTCACCTACTTCATCAATAAATTTATCAATACTTTTATCAACTATTTGAGGATTTTTTTCTATGTTTTCTTTAATTATCTTTTCTGCAAGCTCTGTAGCCATTTGACTCATTTCTTTTTGTAACTGTTCTTTAATATTGTTTCTTAATTTTAAAACTTCTGATTCTGCACGCATTATCATTCTATCACGAGTAAGAGTTGCATTATCTAAAATTTGTTCTTTTCTTTCATCAGCTTGTCTTTCTGCTTTAATAATAATATCATTTGCACGTCTTTTAGCTTCTTTTCTTAATTTTTCATAATTTTGTTTTTGTTCTTCTAATTTTTCTCTTTCTTCTTTAACTATTTCAAGTTCCTTTAAAGCAATTTTTTTTCTTTCTTCTATAACTTTTCCAATTTTTTTATAGAAGTATTTATGGAAAACATATACTAAAATAAGAAAGTTTATTATCTGAACTATCATCAAAATATCAATGGTAATTAAATTATTATTTTGTTCCATAAGTTTCCACCTTCATTATCCTTTTATTAAAGCTAAGATTAATGCTATAATTAACGCAAAAATCCCTGTTGATTCTGTTATTGCACAACCAATAAATAGTGTACCCATAACATCATTTTTAGCTTCAGGTTGTCTTGCTACAGCCTCTACTGCTGCCGCAGTTGCTAACCCTTGCCCAAGTCCTGCTCCTATTCCTCCACATGCTGCTATTCCAGCTCCTAATAATGCTGCTGCTTTAACTATTGATGCATCCATTTTTTTCCTCCTTCTATTCCTCTTCATCTTCTCCTATTAACATCTGCTTAATATATACAGATGATAAAACTGTAAATACAAATGCCTGTAAAATTCCAATAAAGAAATCTAAATATATTTGTAATATATTTGGCCAACCAACTGCAAAACTAAAACTTCCCTTTAATATATTATTTGTTAAACTTGGGAAAACATCTTTAACAGCTAGTCCATAAACTAATGACATAATTACAAGTCCTGCAAACATATTACCAAATAATCTCATAGCTATATTTATTGGTTTTGCAAATTCTCCAATTATATTTATAGGAAGCATAAATACAAATGGTTGTGATAATTCTTTTATAAAGCCTAATACACCCATCCTATAAATTGCTGCTCCTAAAAAAATCACAAAAACTACCAAGGCTAATCCAACTGTTGTATTCATATCAGCCGTTGCAGTTCTAAAGAAAGGTTTAACAAAAATTAAACCATGTTCATTTTTCTTCCATATTATGGCAAAAGGAAATAGGAACATAGACACATTTAAAAACGCTATCATTGAAAATAAGGCTGAAAAGAATCCAGCAAACTTTTCCTTATATTTTCCTAATCCTTCTAAGAATGAATTATTAATGAAATTATAGTATTCTTCTAATACTAATTGAAAAAAACCAGGATTTTCTACACTAATATTTCTAGTTCCTTTAATTAATATGAAAATAATAATTATCATTACTACCCATGTATTCATTATTGTTTGATTAATATTTAATATATATCTACCTACAGGTATACTAAAAAATATTTCAGGTGGTTCAATAATATCATGTGGTTTTTGAAATGTTATTGGAAAAACTGTTGATATTATGGATAAAAATAAGTTTACTCCAACAAGCATTAAGACCATTAATCCTATCCATTTTAGCAAATTTTTCTTCTTTGACAAATGCATTCACTCCTTTCTCTTTAATTTAAACTTAAAGAAAATAAGGCATTGCAGTATTAATCTAAATGAAATAAATCCAAATCCACATATAAGTAGAGGATATATAGGATCTGTATCAAAATATTTAATATTTACCCTATATACAAAATAAAGACCCAATATATACATTCCATACCTTTTGGTAGAATCTATAAACATTGTGCCCCTATTTCCTTTTAAATATACTATTTTATGTACTGTATAAAGTAACATTAAATTTGAAATTATAGATATAAAAATTCCAAAAGATAAAGATAATATTAATATATTCATCTTCATAATTCCAATGAAAAAAAATAAAATTGAAATTATTAATAATATCTTTACTATTTTTTTTACATCATCATTAATACTAAAAAACATTATACTTCTCCTCAAGTTTCTTCATATATTCATAGTACCACTTTGAAAAAGACAAGTCAACATTTTTTTATTTTACATACAACTATCACAAGATATGAATTTTACTCTTAAAATATGATACAAGAAAAGTTATTTTTTTAACACCTGATTAAAACTTTAAACAAAAAATACTAAATATTCAATATTTCTATTCATTTTTAGATATAAGTTTTTTTACATATAGCCCTTTTTATACAATTGACAATTTTTTTCAAATTTAATATAATAGTCATAGTTCTTATGAAAGGAGATGTATGTTTATAGTTTTTAAACTATATAATACAATAAATTTATGAAAAAAATAATTACATTCTTATTTTTATTAGTAGCTACTCTTTCTTTTTCTGACAGCAAAGAAGCATTTGGTGTTTGGATAACTGAACCTAGTTCAAGTGGAAATAGAGTTATTGTTGAGATTTATGAAAAAGATAATAAATTCCATGGTAGAATATTACAATTAACAGATAGATTTGATAGTGATGGAAATTTAAAAAAGGATGTTAACAATCCAGATAAATCAAAACAAAGTAGAACACTAGAAGGTATAGACTTTGTTAGTGGATTTACATATAACGAATCAAATAGTACTTATGAAAATGGAACTATTTATGATCCATCTAATGGAAAAACTTATGATAGCTACATGCAATTACAAAAGGATGGAACTTTAAAAGTTAGAGGATATATTGGTATTTCATTAATAGGTAGAACACAAATTTGGAAAAGATACGAAAAATAAAGTAAAAGGGATTGCCTAAGTTTAGGAACAATCCCTTTTCGTTTAATTTTATTCAAAATGTGTTTCTTTTTTTAAAGTAGGGAACATAATTACATCTCTTATAGATGATGAATTTGTAAGTAACATTACAAGTCTATCTATCCCTATTCCAAGTCCTCCAGCAGGTGGCATTCCATATTCTAAAGCTCTGATATAGTCTAAATCCATTTCAGATGCTTCATCATCTCCATTTTCTTTTGCTCTAACTTGCTCTTCAAATCTTTCTTTTTGATCTTTAGGATCATTTAACTCAGAATAAGCATTACCATATTCTCTACCTGTAATGAATAATTCAAATCTATCTACCCAATCACTTTCACCTTTAGAGTTTTTAGATAAAGGTGATATTTCTTTTGGATAATCTGTAACAAATGTTGGATTAACTATAGTATGTTCTACTTTTTCTTCAAATAATAGATTTAAAATACCAAATTTAGTATAAGTCTTATCTTTATCTAAATGTATTCCTAAACCTTTAGCAAATTCTATAGCAGATTCATCTGTAGTATTTTCATCCATAACAAATCCTGTATGTTCTCTAACTATTTCTTTCATAGTTACTCTTCTCCAAGGTTTTGCAAGATTTACAGTTTTATCTTCATAAGGTATTTCATAAGTTCCATATAAATGATAAGTAAGTGATGAAATTAAATCCTCAGTAATATCCATCATATCATTAAAGTCAGCATAAGCTTGGTAAAGTTCCATCATAGTAAATTCTGGATTATGTTTAATAGATACCCCTTCATTTCTAAAGTTTCTATTTATTTCAAAGACTTTTTCAAATCCTCCAACTAATAATCTTTTTAAATAAAGTTCTGGTGCTATTCTTAAGTACATATCCATATCTAAGGCATTATGATGAGTAATAAATGGTCTTGCATTAGCTCCACCTAAAGTTGGGTGTAACATAGGTGTTTCAACTTCTAAAAATCCCTTTTTCTCTAAATATGTTCTAAAATATCTAATTATTTCAAATCTTTTTTTCATAGTATCCATAACTTCAGGATTCATTACTAAATCAATATATCTTTGTCTATAACGCATTTCAATATTTTGAAGTCCAGAAAACTTATCAGGTAAAGGTCTTATATTCTTAGATAATATCTCTAAATGTGATGCTTTAATTGTTAATTCACCTGTTTGTGTACGAAATAATTTACCTACTACTCCAACGAAATCTCCAGTAGCTAGTCTTTTAAATGTTTCGTATTCTTCTTCACCTATTTCATCTTTTTTAGCATAAATTTGAATTTTTCCTGTAGGATCTTGAATGTGTGCAAACCCATTTTTCCCCATTCTTCTATATGACATTATTCTTCCAGCAGTTTTAAATTCTTTTTCTGAAGTTTCATCAAAATTTAAAATACTTCCTATTTCATCTTTTTTATCAAAATATCTTCCATATGGTTCTAATCCTAAAGATTTTAATTCATCAATTTTTCTATATTTTTCTTTCATCACATAGGTTTCATTAACTGCATTTTCTTTATTTTCCATTTATTCCTCCTAAGTTAATTTTAACTTCAAAACTTGAAATTAAATTTTCGATATCCTTATCATTATATATATTATACACTAATTTAATATTATTTTCTTCTTTTTCTATTTCTTTTGTTAATATATACAGTTCCATTTCTAAATCATTCATTTTTATTATTGATTTAGTTAATCTACCTTTTATATATTTTTGTAAGTATTCTATTTCCCCTTTTTTTTCTAGCAATATTTCATTTTCTTTAAATTTCCATAAATATTTTTCAAAGTTATATACATAACTAAGTTCATCATTAATATATTTAAAATCTATATTTTCAATTATATTAATATCATTTGTAAAATTATCTTTTATTTCAATTTTCATATTTTTCCTAGTCTTCATCATCAAATAAATCATCAAGGAAAGTATTTATATCTTCTTCATCTGAATAATCATTTAATAATTCCATATCTTCTTCTATATAATTATCTTCTAAAACATTTTCATCATTAAATGGTGGTTCAAAATCATTGTAATCATTTTCTTCATACCAAGTAAATTCTTTTTCATTTTTATATGATTCTTCTTGAAAGTTATCTAATACATTTTCTTCTTCATCTTCATCTTCTACTAAAATTAGTTCTTCATCATCATAAAAAAATACTTTTTTAATACCGTATTCATTTTCACATATCAGATATTCTATACCTGAATATGCAAATTCACCAATACATATAAAATACTCTAAGCTATCATTTACATCAAATTCAAATTCATCCCCTATTGTATACATCAAAACTCCTCCTATTTATGATATTTAATATTATTTTCTATACATATACTTCTGTAAATTTGCTCTATAAGAATAAGCCTCATTAATTGATGTGGAAAAGTCATTTTAGAAAAACTTAATTTAAAGTCTGCTAATTTTCTAACTTCATCGTTATACCCATTAGAGCCACCTATAATGAAATTTATTTCGCTATAGTTTAATTTTAAATTAGATATTTTATCAGATAATTCTTCACTTGTAATATTATTACCTTTAATATCTAATAATATATTATACCCAGAATTTTTATTTATACTATCTATTAATAATTTTGATTCTTTATTAATTGCAAAATAAACATTATTATCTGCTTCTTCTTTTAATTCTATGACATTAATTTTAACATATTTAGATAATCTTTTTAAAAATTCTTCAATACCATCAATTATATATTTTTCCTTTATTTTTCCAATACAAATCAAATTAATTTTTAACATTAAAATTCCTCTCAACAAATTTATATATCATATATACAAGGAAAAGTCAAGACATATAAAATATTTTAATATAATATTTATATTATTACTAAGAATAATTGAATAAAACTAGTATTTTTAATTATTTTATATAAATTTTATTTTTTAAATATAAATAAGTATTCATGTGCTATCAATAAAAAATTATATTTAATACTATTAGTTTTCCAATAACCTGTTGCTCTACAATTATGTTGTTCTTTAATTATTATTTCTTTTAATTTAAATCCCTCTGATTCAAATATTTTCATAACTTCAAAGCTCATTGGCTGCATGTAACCTTTAATTCTTGTATCTCCCATAAGAACAGCACAAAATTTATCATTTTTTAAAACTCTGTAACTTTCAAAAGCAACTTTTTTCATTTCTTCTAAAAACTGTGGAATTTTTAAATGTGATAAATCCTCTTCTATATTATCGCTATACTGTATAATGTTAGCATATGGTGGGTGGGTACAAATAAAATCAATACTTTCATCAGAAATAAAATCAAGATTTCTTGCATCTCCTTTATGTATATAAACTTTACCGTTTGAACCTTCATGTTCAAAATTAACTTTTTCTCTACATCTCTCTAATGAAACTTCATTAATATCTACGCCTATAATATCTCTATTTAATAGCTTTGCTTCTACAAGAGTTGTTCCTCCACCAGCAAACTGATCAAGTACTAAGTCATTTTCTTTAGAATATCTTAACAATAAATTTCTTGGTATATACGGCGACCAATTCCCTCTCCATTTAGCATCATGAGTTGCCCAATCTCCACGCTTTGGAAAACTCCAGTGGGTATTCATTTCCAATTCAAAATTTTCTGGTTCCCATTTTGTTAATTTTTTATTTATCATAGCATACCCCTATATATTATTTTTTCTTTATAATCTCTTAACCAATATTTCTTCAAGTAATCCAGAATTAATCATTTCTATATTTATGACATAATCAATCTTATTAAAAGTTTCTAAAAGAGATCTTTTCGAAGTTAACCATCCCTCACCATCAGTGATCCATATAAATCCAGTTTCTTCATTTTTAATAATTGAAAACAAATTACTAAACTCACCAGCAACTGATTTTAACTTAGAACCACCATTACTATAATAATTAACTTCAATAATATAAATTTTATTACCTGTATCAACAACAAAATCAAAATGTCTATCTGCTTTATCTGTTGATACTTCTTTTCCAAATTCTTTTTTTATCTTTTCTACAGTTGCTTGTGATAAATATTTAAACCCGTATTTATCACAAGTAGATTTAATATATAATTCTATTAAATTTTCCATAACTTTTCCACTACGATTTTTACGAGCATTTGTATCAAGTCCAACTTCAACACCTAAAGTATAATCAACTAAATTCTTAATATTTTTATCTCTTATAATTTTCAAAAATCCACTTTTATTAACAAATGATACAATTTTTTCAATTTCTTCATCACTATACTTTTCTTTTTTAATAAAAGAATATTCTATATCACCAATAATATCAGCTACTTTAATAACATTTCCTCTAACTGCAATTAAAATTGGAATAACTGTAACTATTTCAGGATATTCCTTAATTAATTTTTTAAGTCTACTTTCAATATCTTCCTTACCAATAAGCGTATTTAAAATATTAAGTGCCACTTCAATTTCTGATACATTTTTAAGTACTTTCTCTCAAGCAACAAAAAAATCATGTGTACGAATAGTATATTTTAAATTAGATATTAAATATTTAAAAACATCATCTTCAGAAATAAGATCCATTGTTTTATATTTCTCTATGTAATTCATAACTATTTATTCTCCTTATAATTCGATATTAAAAGCTCATTAATAATTCCACGACTATTTCCATTACAATTAATCATTCTTTTTGCATTGATTCTTTCAATATTGTATTCTTTATATATCTTGTCAAAAAAATTATCATTTTCATCTACATTTTTAGGATCAGAATTACTTAAATAAATTTTGCACCCTTACTTGAAATTTTATCAACAAACCTAGCTAATGAAATTTGTTCATCATCATTAAAATCAAAATCATAATAAGCATTAAATTTTGATGTGCTTGTTAAAGGTCTATAAGGTGGGTCTATATATACAAAAGTATTTTCATCAATAAAATATTCACAATCACTATATTTACCACATCTAATAGTTACATTTTGAAGTAATTTACTAATATTTTTAAGATTTTCTTCATCACAAATAAGAGGAAACTTATATGATCCAATAGGAACATTAAAAAAGCCTTTTTTATTAACTCTAAAAAGTCCATTAAAACAAGTTTTATTAAGGAAAATAAATAAAGTTGCTTTTTCTATACTTACTTTCTCATCTCCATTAAGCTTTATATAGTTAAATCTATCTCTCTTTTCATAATAATACAATTTTCTTTCTTCTGTATCTAACTTCCAAAAATGCTCTTGAATACTAGAAAGTTCAGACAAAAGAAGATCTAAGTTATTTTTTATTTGATTATATGTATTAATAAGCTCTGCATTTATATCGTTTATAAGGACTTCTTTTAACTTATATTTTAATAAAATATCAAATAATACTGCTCCACCGCCAATAAATGGTTCACAATATTTATTGATTATTTTACCAAGATCATGTGGATATCTACTCTTTATTTCTGATAAAATCTGAGTTTTACCTCCAGCCCATTTTACAAAGGGTTTTTACTTTCACAACCATCCTCCTTATTTCACACGACCAAACATTTTATCTAAATCATACTTAGATATTTTTGATATAATAGGTCTTCCATGAGGGCAAGTATACTTACCTACTTCATGTAATCTTCTTACCATATTTTGCATTTCCTGCATATTTAATTTTTGCCCCGCTTTAATAGCTCCTCTACATGACATAGATATTATTATTTTTTCTCTAATATCTCCAACCTTATTTTTACTCTTTAAATCAACTAATATATTCTCTAAAATATTTTTTATACTTTCTCTAAAGTTAAAATTAGGTACTGCTCTTAAAGCTATTTGATTATTTGAAATTTCATCAATTTCAAAACCAAGTTTTTCAAATGTGTCCATATTATTAAATATGATATCTTTATCAACTGGACTAACATCTATTAATTCAGGTAAAAGAAGTATTTGAGAACCAATATTCTTTTTCTCAAAACTAGACATAAGTTCTTCATAAAGCAGTCTTTCATGTATAATATGTTGATCATATATTTCTAAATTATTATCTCTATTAACTAATATATATGTATCAAATATTTGACCTAATACTTCATAATATTTTACTTCCCCTTCTTTTTTCTCAAAAAATGGTTTTAAGTATTCCACCTTATTTTCTACTTTAATTTCTTCCTCTTCTTCATAAAAAGGATTTTCATATATTAATTTAGGTTCTCTTACTTCTAAATCTTTTTCTTCTTTAAAAGTTAAAGTTTCAGGAATAACTTCTTCTTTTACCTCATCTTTTGAAAAAATATTTATAGGTATGTATTCTGTTTCTGTATTATCTACAACTACTTCATTAGTTTTTGGTATTAATGTAGGTTGCCAAGTTCTTCTATCAAATTCATAAAAGAAATTATCAATAGATCTTTTAATATCATTATACACTATCTTTTCATCAGAAAATTTTATCATTTTCTTACTTGGATGTACATTAACATCTATTTCTTTAGGATTTACATCATACATTAATATTACAAAAGGATATTTACCTTTCATTAATTTAGTATAATATGCATCTATAACTGCTCTATCTAGTAAATTGGATTTAACATATCTACCATTAACATAAGTATATATGTATTCCTTTGATGACCTTAAAATTTCAACATTTCCTAAATATCCATATTCAAATTTTTCTAAATTCTTAAGAACATTTTTACCGAAAAGTTCAAAAATTGTATTTTCCATACCATTACCAGTGGTTTTTAAAGTAGCTTTTCCATCTATATATAGGGTTATGGCTACATTTGGATTAGCAAGAGCCTCTTTAAGAACTATGTCTTTAATCTTACTATATTCTGTGCTTTCTTTTCTTAAAAACTTTTTTCTAGCTGGTGTGTTATAGAATAAATCCCTTATTTCTATCTCTGTTCCTGTAGTTCTAGTAAAATTTTCATACTTTCTAACTACTCCAGCATATGCATTAACTATTGTTCCAATTTTTTCATCTTTTGTTTTACTGCTAATTGAAATTTTTGAAACAGCTGCAATTGAAGCTAGAGCTTCTCCTCTAAATCCATATGTTTGTAAATTAAATATATCTTCTTTAGTCGATATCTTAGAAGTAGCATGCCTTTCTATACTTAAAATAACATCTTCTCTACTCATACCTTTTCCATTATCTGATATTTTTACATATATTCCACCATTTAATACTTCTATTTGTATAGAGCTTGCCTCTGCATCTAATGAATTTTCAAGAAGTTCTTTTATCATACTCGCTGGATTTTCTACTACTTCTCCAGCTGCAATAATATTTGAAATACTATCATCCAATATTTTTATAAGAGCCATATTTATCACTTCTTTCATTAATTAATATTTAATAAAATAATAACACAAATACAGGAAATAATAAAGATAAAATTAGAACAATATTTTAAATAAAATAATTGAAAAATTATACAAATATTGCTATAATTAACTTGCGAGAATATTCGGAATAGTGATAACATTTTTTTGGGCTTTACTTCTTGGAAAAGGGGCTGTCTCTGTTAGTATATGCTTAAGGAAATCACGAACTGACATAGAGCTTTTACGGATCTTATAATATTTAATATATGGCTACCACGTTTTATTTTTAAGGCGACCAAACCTCATCACTCCGATATTTTGGCTTTAAATAAAAAGTCTGAAATTTTTAGTAAATACTAAGATTTCAGACTTTTTTATATATATAACAAAGGGATTATTCGCATCTTTTAAATAAATATATTATAAAATTTAATAATACACTTGTAACCACTATAGGCATATAATTAAAATACATTGCATAAGTTCTATTATTATATGGAATAACAAATAACATAATAACAGCTACCATATTAATTATTAATGGTGGTAAATATAGTTTATCTGTAATCTTATTTAGAAAAAATGTAACTAATAATGAACCTAATATGTATAATTTACTGTAATAAAGCCATAATAAAATTATCATATATACCCTTTATTTAGCATCTTCCATTGCTTTAGTTGCATCTATAACAAATTTATCTAATCCAGCTTTTGGACTTATTTGACCATTTAATACAGCTTGAACCATATTTGACCATAATGGTCTCATTTGAGCAAAACCATCTATAGTGTTGTAATAAGGACCATAATTTCCATTACTGTTTATATTTTCTATAAACTTAGTTTCCTCATCATCTCCATATAATCCTGTTTTTCCAACTGGTGAGAAGTTTCTTGTTGCTTTAAGAGCTCTTTGTCCCCACACTGGATCATTTATTACAAAATCTACAAATTTTTTAGAAGCTTCTATCTTTGCCTCATCATTATTATTAAATACAGCAGCTCCTGCTAATAATAATTCATATTTAGCCTGCCCTCCATTATTTGGCATAGCAACATAAACTGGATCTAATCTACCTTCTGCCTTAGCTTGTTGGTTAGAACTTATAGCATTTAAACCTGGTGAATAAATCATAGTTCCTGCTGCAAGACCACTTCTAAATGCTTCCAATGCATCTCTTGCTTCTGAAGAAGCACCATCACCTAAAAGTCCCATATCATGTGCTTTTTTAGCCCATTCTAAACCTTTAACTCCTCTTTCATTATTAACAATATATTTAGTTATATCTTTATCTGTAAGCCAAGTATCAAATAAGTTTAAAACAAAAGATCTTGATCCATGACTACCATCTGGTGTTTTATTGAAAAATATTATTGGATCTATACTTGGATCTTTTTCTTTAATAGCCATTAACAGAGCTTCAAATTCTTCAACAGTCCAATTTCTTCCTTCTCTATCTAATGGCAACATGTGAGTAAGACCTAATTTATCTGTAATTACCTTATTAAATGCCATAACAAATGGTGCAGTTCCTAAAGGATATAGATACAATTTTCCTTCATGACTTGCAGCTGAAACTATTGTGTTAGAATAAATAGATGTATCTATATCAAAAGGAACTAAATATCCTTTTTTAGCCCAATCTATTACTCTACCTGGTGCATCTATAATAACATCAGGATTAGATTTTGAAATAATAGATGTTTCAAGTTTTGCTGGTCCATCTGTAAAATCTATTTTTTGATATTCAACTTTAATATCTGGATTAGCTTCTTCAAAAGCTTTTATTAAAGCCATGTCAAATTCTTCTGGTGTTTTTAATTCAGAATCTGCATTAAAGTTAGGGAAAGACCAATATTTAATTGTAACTACTTCATCTTTACTATTTTTAGTCCCACAAGAAAATACAGTAATACCTAAAAAAATTACAGATATTAATATTTTAAATTTTTTATACATAATAACCTCCTAATATATTTATCCTTTTACAGCCCCCATAGTAACACCTTGTGTAAAGTAGCTTTGAAACATTAAAAATACTACTATCATAGGTAAAGATGCAAGTGCTGCCCCTGCCATTAATAATCCATAATTTAATGAAAATTCTGCTTGTTGCGACATTGAAGCTACCCCTAATGGAAGTGTCTTCATTAATTCACTATTAGTAAATATTAATTGGGAGAAATAATCGTTCCAACTTAAAATAAATGTAAATATTGCTAAAGCACCTATCCCAGGTTTAACTATAGGTAAAACTATAGATAAAAAAGTTCTAAATTCTCCACAACCATCAATTTTAGCTGATTCAAGTAATTCATTTGGTACTGAATGTGAAAATTGTTTCATCAAAAATACACCAAAGGGCCATCCTACTGCTGGTAAAATCAACGCCTTATATGTATCTATCCAACCTAATTCTGTCATAAATTTCAATAAAGGTATTAAAATTACTTGTTTAGGTAATGCCATTGCTGCAACAAATACTATAAACAATATATTTACCCCTGGAAAATCTTTTTTAGCTAAAGCATAACCAGCAAGAGTTGCAGTAACACAAACTAATATTGTTGTCATACTAGAAACAAATACTGAATTAAAGAACCATCTTGCAGTATTACTTACTAATAATTTATCATAGTTTTCAAGTGTAGGCGAAACTGGTATCCATTGTGGTGGTATACTTATTGCTACATCTTGTATTTTAAATGATCCTGTTAATATCCAATAAAATGGAAATATGAAGAAAAGGGCAAATATAATTAATATTATCATTGATATCACACCTAAAGGTGTTGTTTTTTTTACTTCCATACTTTCTCCTAACCTAATTAATCTACATCATGTGATAAGAATTTAAATTGCACTACTGAAATTATACCAATTATAATCGCAAGTAATACACCCATTGCCGATGAAATACCGAATCTAGTTTCTACTATTGCCTTTTGATAAACTAAATACATTATTGTTGATGTTGAATAATTTGGACCACCTGCTGTTAATAATTGTATTAAAGCAAATATCTGAAAACTATTAATTGTTGTAACCACAACTATATATAATGTTGTTGGTTTAATACTTGGCCATATAATTTTTCTAAAACATTGTGAATCTGTAGCCCCATCAATTTTTGATGCTTCTATTAAATCTTTAGGAACATTTCCTAAAGCTGCTACATATAAAATTATAGGTTGACCAACACTAGTAGTAATCAGTATCGCTATAATGGCATATATAGCCGTTCTAGGATTACCAAGCCAATCTATTTGGTTACTTGTAATATGTGTACTATTTAAAACATAATTTAAGATCCCATATTTTGGATGATAAATCCAATTCCATACAACAGTAACTGAAACTACTGATGATATAGCTGGTATATAAAATATACCTCTAAAAATTGATCTTACTAATGCACTTTTTTCATAAATATTCATTGCAACAAATATTGAAAATGCAACTACTATAGGTACTGCTATCATAGTTATTACTATAGTATTTACTGTTGATTTTATGAATATTTCATCTTTAAATAAATCTATATAATGTTTTAATCCAACAAATACAGTATTACGACCTCTAAATCTAAATAAAGATAAATAAATTCCTTTAGTCATTGGATATAAAACAAATGTTAAAAAGAACACCATTACTGGTAAAATAAATAAATATGCACTATAATCTATTTTTTTAAAGTTTGTTTTTTTAATAGAATTAAACATCTATTGCACCTCTCCTTATATAAAAGGGGTAGAGTTCTACCCCTTTTATTAATATTACTATTTTACATCTTCAATTGTTTTATTAGCATTTTCTACGAATTTATCTAATGCTTCTTTAGCACTAACTTGTCCATTTAACACTGATTGAACCATGTTAAACCATAATGGTCTCATTTGAGCATAACCATCTATAGTATTGTAATAAGGTCCAAAGTTTGCACTTTGTTCTTCTATAAATTTAGTTTCTACATCATCACCATATAATCCTGTTTTACCAAGTGGTGAGAAGTTTCTTGTTGCTTTAAGAGCCCTTTGCCCCCATACTGGATCATTAGCTATGAAGTCAACAAATTTCTTAGCTGCTTCAGCTCTTGCTGGATCTTCATTATCAAATACAGCTGCTCCTGCTAATAAGAACTCAAATTTAGCTTGTCCACTATCATTAGGATAAGAAACATATACTGGTTCTAATTTACCTGCCATAATAGCATCAACATCAGCTTTTCCACCTTTTAATCCTGGTGAGTAAAGAATAGTTCCTGCTGCATTTCCACTTCTAAATGCTTCTAATGCATCTTTTGCTTCTGCTGAAACTCCTTTTCCTAATAATCCTTTATCATAAGCTTTTTTAATCCATTCTAAAGCTTTAACTCCATTTTCATCATTAATAGTATATTTACTTACTTCTTTATCTGTTATCCATGAATCAAATAAGTTAGAAACAAATGCTCTTGGTCCTTGATCTCCAGCTTGTGATTTAGTGTAAAATAGCACTGGATCTATTTTTGGATCTTTTTCTTTAATAGCCATTAATAGAGCTTCAAATTCAGCCACTGTCCAGTTTCTACCTGGTTTATTTAATGGCAACATATCAGTAACACCTAATTTATCAGTAATTACTTTATTAAATGCCATGATAAATGGTGCTGTTCCTAATGGATATAGATATAATTTACCATCATGACTTGAAGCTGATATAATAGATTTAGAATACTTAGATGTGTCTGCATCAAATGGAACTAAATATCCTTTTTTTGCCCAATCTATTATTCTTCCTGGAGCATCTATAACAACATCAGGAGTTGATTTAGATTGAATAGCTGTTTCAAGTTTTGCTGGTCCATCTGTGAAATCAATTTTTTGATATTCAACTTTAATTTGTGGATTAGCTTCCTCAAATGCTTTTATTAAAGCCATGTCAAATTCTTCAGGTGTTTTAAATTCAGAATCTGCCGTAAAATTAGGGAAAGACCAATATTTAATAGTTACAGGTCCTTCTGGTTTTGTTTCTGCTTTTTTACCACAAGCAAATACTGTAAGTCCTAATGCAGCTGTAGCTGCTAATATTTTAATTTTTTTGTTCATAATCTCCTCCAATATATAATGTTTTATTAATTGCAATACTTTTTAATCAACTTTTCAATTTTACTATTTAATTCTTTAGCAAGTTCTATATCTTTTTCTTGAGTTACAGGTAACATTGGTCCTCTTGGTTGACCTGTATGTATTCCTCTTAAATGTAGAATATATTTTGCTATACCATATAATGATGGTCCACTTAATAAGCCTTTTATTACTTCATTTATTTCATTTTGTAATTCTCTTGCCATGTCAAATTCTCTATTTTCCATATATTCATTTAATTTTATGAATAATTCAGGCATAACTCCATAAGTTCCACCTATTCCACCATCTGCTCCTATCATACGACCTGCAATAAATTGTTCATCTGGACCATTAAATACAATAAATTCTCCATTTTTTACTTTAGAACCTATATATTTAAATTGTTGTAATTCAAATGTAGATTCAGAAGAACATTTAATTCCTATAACTTTTTCCATAGCTGCCATTTCTTCAAGTAAAGAAATAGGTAAATTAAATCTTGTAGTTTGTGGTATATGATAAATAATAAATGGTAAATCTGTAGCATCTATCATAGCAGTCCAATGTTCTTTTACTGCCTTAGGCGAAAATCCATAATACACACATGGAATTGATGATACTGCATCAACACCACATTCTTTAGCATGTTTAGCTAGTCTTACAGATTCAGGTGTAGAATTTGCACCAATATGAGCTATTATAACCAGTTTATCCTTAGCCACTTCCATAACAGCTTCAAGTATAGCTTTTCTTTCTTCTTCGCTTTGAAGTACTCCCTCTCCTGAAGATCCTCCAACATAAAGTCCTTTTACTCCTTTTTCGATGTAATATTTCGTTAATTCTTTTGCTCTTTCTGTTGAAATGTTTCCATTATCATCATAAGTAGAATACATAGCAACGAATACGCCTTTAAATTTTTCTAAATTGTAACTCATTTCATTTCCTTTCTCACTATATTATATATTCCATATATTCCTGCTGAATTTTTTAAATTAGCTAATTTAACATTACTTTTAAATTGCTTACCTATTATTCTTTCATCTAATACTTTCAAGATTTTTTCCTCTAAATATTCTCCTTGAGCAGTAATTCCACCACCTATTACAATATTATCAGGATTAATCATATATACTATATTTAATAGCCCCGTAGTTAAATTATACACCATTTTATCTATAGCTTCTATACATAACTTATCACCATTTTTAGCACTTTCAAATATATATTTACCATCAACTTTTTTATTTAATCTTTCACTTACATAATTAGTTAAATATGTAGCTGATGAGAAATCTTGAAAATGACCATCATTTAATGGCATATATCCTATTTCACCAGCAGTCATAGAAGCTCCACTAAATACCTTACCATCTAATATTAATGAACCTCCTACTCCTGTTCCTATAGTTAGCATAAACATAGACCCTTTATAATCACCAAAACAATATTCCCCAAATGCTGCTGAATTAACATCGTTTTCTACAAATGTTTCTATACCAAATTTTGCTTCTATTATTTCCTTAAACTTAGTTCCTGTATATTTAGGTATAGTAGGTCCAGCAAATATTACTTCACCAGTTTTAGAATTTACTACTCCAGCTGTTGAAATACCTACTGCCTTAACATCCTTATTTAACTCTATAATTTTTAATACATCTTCTAAAATATAGTTATCATCCTTAGTAATTCTAGTTTCTATAGTCTTCACTTCTATATTACTAATATCTTCTATTATAGCATATTTAATATTAGTTCCACCTATGTCAAAACAAATTATTTTCATTTTAATCCCATGCCTTCAATAAATCTATTTGTTATTTCTAAAGGTCTTGTAATTGCTCCGCCAACTACTACAGCATATGCTCCAAGATCTAACATTTTTTTAGCCGCCTCAGGAGTATGTATTCTTCCTTCTGCAATAACTGGTATCTTAACTACAGACACTAATTCTTCTATCAAAGTATAATTTGGTCCTTTATCTGATGTTTCAGTATAAGGAGTATATCCATTAAGTGTTGTCCCTATAATATCTACTCCAGCTTTTTCTGCATTTATCCCTTCTTCTAAATTTGAAATATCTGCCATTAATAAGATATGTGGATATTTTGCTTTAATATCTGCAATAAATTCATTAATAGTTTTTCCATCATATCTATCTCTTAAAGTACAATCAAGAGCTATAATATCTGCACCAGCTTCAACTAAGGCATCTATTTCAGACATACCTACAGTAATATATTGAGGAAATCCTTCATACCCTTTTTTAATTAATCCTATTACAGGTACTTCTACTTCTTTTTTTATCTCCTTAACATCTAACACTCCATTTGTTCTTATACCTTTTGCCCCTGCCTTTATAGCTGCCCTTGCCATAAGTGGCATGATTGTAGAATTTTCCATGTACAATGGTTCACCTGGAAGTGCTTGACAAGAAACTATTAACTGTCCCTTTAATTTTTCTAATACTTTGTTACTCACAATTTCCTCCTATTTATTCTTGTTGGCTATAGCCTCTGCCATACCCTGTCTTACTAATTTTGCTTTTTTACTATTTCTAAGAGCATATCCTGTAGCTAAAACATCTATAATATATAGCTGCGACATTTTAGATACTAATGCTCCACCATTAAGTAGTGTTTCTTTACCTGAGGTAAGTATGACAATATCTGATAATTTAGCAATTGGAGATAATATATAGTTTGTGATAGCAATTATCTTACAACCATTTTCCTTAGCTATTGATAGCGGATAAATTAAATCCACAGTTTCACCAGATAAACTTATTACAACTATCACATCTTTTTCTGTAGTTGTTGAAGCATACATTACCTGAAAATGTCCATCACTTACACTATGTCCAATCTTGCCAAATCTCATAAATCTATTTTGAAATTCAAGTGCAGCAACTCCTGATGCTCCCATTCCAAATACATATAGTTTTTTGGAATTTTCTATTGCTTCTATAGCATTTTCTACATCTTCTTTATTAATTAAATTTTTTGTATTTTTTATAGTTTCTATTATGTTATATTCAATATTTTCTATATAATGTTCTTTAGTATTTCTTTCATCTTCTATTGTAGCTATTTCTCTTGCCACTTCAAGTTTAAAATCAATAAAACCTTTAAATCCAATTTTTTTAACAAATCTAACTATTGTTGCTTCTGATACATTTATTTTCTTAGTAATTTCATGAAGAGGCATAAAACAAATTGCATCTTTTTCTTTAATTACATAATCTGCAACTTTTATTTCCTGTTTACTAAAAGATGGGTAAAACGACTGTATCAGAGTAATGTATTTCATGTGAAATCACCTATTAAAACTTGAGGTGTTCTATAGCCAGGTTTTATTTCTCCATTAATTAAATAAACTTTTTTATCAATTTTTATCATAGATGAACCACAGGTTGCATTTAATATATCTCCATCAGATAATAGAGTAAATTTTTCTTCTAATGTGTTAAATATATAAATGTTTTTATTCCATTTAAAATCTTCTCTTTTTCTAGCAAAATATTCTATTTTAAATTCTATTTCACCTAATCTTTGTATAGCCTCATCATAAATCTTCTTATTGCAACCTCCCACAACTAAAAAATTATTATCATCTAGCATACAAGAGGTTGCAGCAGTAAGGCATGTAGGAGTGTCATCTATTTTACGCCACTCTCTTTTATTTATATCATATACATATGAATCTAGGCAACAAATATTTGAGGCACCACTAAATAAGTATAACCTGCCGTTAGATATGAAGTTTAAAAATTGCTCTCTAACTTCACCCATAACTTTATCAAGTTTACTTAATTTTCGTGTTTTCAAATTAAATTCATATATATACTCTTTTCCAAAATAAATCTTCTCGTTATATACACCACCAAATCCACCAACAATTTCAAAACCTAAATCAAAGATCTCTGTTTCAATAATCTTAGTTCCATCTAGTGTGTATTCATATATTTTCGTATTTCCTGCTCCTGAAATTAAATATATCTTATCATCATAATTTACTACTATTGCTTTATCAGGGCTAATTTTACCACTCTGTTTAGAAACTAAATTAAAATCTACATCATATAAATACATATCATTATACATTGTCCTCATTCCATATGGTGGTGTACCATTTGGAAAATTAGATCCTCCATATATTAATATATATTTACCTATTTTTGAGCATAACATAGATGTTAGCCCTAATTCATGTCCTACATTTTTTAAAAATTTAAATTTCACCTTTATCACCTAAGATATTATACCTCGATTTTTTCAAAAATGCAAAAAAAAATGAAAAAAAATTTCATTTATTTTTTTCATATAATACTAGGCTTCCGTTGTATATAGGGATAAAAAAATGCCCGTTTTTTCACGAGCATTTTATTTAATTTTATTTAAAATTTTTCATTTTTGAATATTCTTCTCTACCGTAATAAGATTTTAGATATATTTCTTTTAATTCTGAAATTAATGGGTATCTTGGATTTGCAGGAGTACATTGATCATCAAATGCATCAACTGATAACTCATCTACAGCTTCTAAGAAATCTTTTTCAGGTATTCCCCAATCTTTAATAGTTTTTGGTATTCCAATTTTTTCTTTTAATTCTTCTATACCTTCAATTAAAGCTTCAACTTTTTCTTCTTTAGTTTGACCTTCTTTAGATAATCCTAAGAAATCAGCAACTTTGGCATAACGATTTACTGCATCTGGATATCTATATTGAGGGAATACTCCCATCTTAGTTGGTGCTTCCTCAGCATTAAATCTAATAACTTCACCTAATACTAAAGCATTTGCTATACCATGTGGTACATGGAATTTTCCACCTAATTTATGTGCTAATGAGTGATTAATTCCTAAGAAGGCATTAGCAAAAGCCATACCTGCTATACATGAAGCATTTGCCATTTTTTCTTTAGCTTTAACTGCTTTTGAACCTAAAGCTACTGATTCAGGTAGATATTTCATAACTAACTTCATAGCTTCTAATGAATAAGGTTTAGTATATTCTGTTGCTAAAATTGAAACATATGATTCAATAGCATGCGTAAATACATCTATTCCTGATGCTACAGTTAATCCTTTAGGCATAGTCAACATTAATTCTGGATCATTAATAGCTACATCTGGTGTTAATTCATAGTCAGCTAATGGATATTTTACTCCTGTTTCATCATCAGTAATTACTGAAAATGGTGTAACTTCTGAACCAGTTCCTGCTGAAGTTGCAACAGCTACAAATTTAGCTTTAATACCCATTTTAGGGAATGCAAATATTCTCTTACGTATATCCATAAATCTCATTGCTAAATCTTTAAATCTAATATTAGGATATTCATATAGTACCCACATAATCTTGGCAGCATCCATAGCAGATCCTCCACCAAGTGCAATGATTACATCTGGCTTATACTCTCTCATAGCTTCTGCTCCTGAAATAGTACAACTTAATGTAGGATCTACTCCAACATTAGAAAATATTCTGTAATCTATACCTATTCTTTCAAGAACTTTAGTAATGTGGTTAGTATAACCTAATTCTGCTAAAGTACTATCTGTTACTATAAAGGCTTTTTTATGATTTTCATCTTTTAATTCTTCTATAGCTATAGGTAATGAACCATATTTAAAGTAGATTTTTTCTGGAACTTTGAACCATAACATGTTTTCCCTTCTTTCTGCTACTGTTTTAACATTTAATAGATGCTTAACTCCAACATTTTCTGAAACAGAGTTTCCTCCCCATGAACCACAACCAAGTGTTAATGATGGTTCTAATTTAAAGTTAAATACATCTCCTATTGCTCCAAGTGATGCAGGCATGTTTATAAGGGTTCTTCCTGTTTTCATTTCTCTACCAAATCTATTGATTTTTTCTGTTTCTGCTTCATTAATATACATACAAGAAGTATGTCCAAGTCCACCAAGTTCAATTAATGCCTTAGCTATAGTCATTTGTTCTTCAAATCCCTTAGCCTTATACATAGCTAAGATTGGAGATAATTTTTCATGAGCAAAAGCTTCTTTTCCAGAATAATCTTTTACTTCCCCTATTAATACTCTAATGCTTTCAGGTACTTTTAATCCAGCCATAGTAGCTATAGTGTATGCACTTTGACCAACTATATCTGCATTTAAAGCTCCTTCTTTAAACATTACATCTCTAACTTTTTGAATTTCATCTTTTTTAAGAACATATGCTCCTCTATTTATAAATTCTTTTTTAATTTCATCATATCTTGATTCAGGTAGTATAACAGCTTGTTCTGATGCACAAATAACACCATTATCAAATGTTTTAGATAATAGGATATAATTTGCTGTCATCTTAACATCAGCACTTTCATCTATAATTACTGGAGTATTTCCTGCTCCAACCCCTATAGCAGGTGTTCCTGAAGAGTAAGCACTCTTAACCATTCCAGGTCCTCCTGTAGCGAGTATTAAATCAACATTTGCCATTAATTCTCTCGATAATTCCATACTTGGTTCATCTATCCAAGATATGATATTATCAGGAGCACCATATTTTTTAGCAACTTCTAATGCAAGTTTTGCTGCATATATAGTTGAATTTTTTGCTCTTGGGTGTGGAGATATAATAATCGCATTTCTTGTTTTTAATGCAAGCAATATTTTAAATATAGCTGTAGAAGTAGGGTTTGTTGTAGGTATAACCCCTGCAATGACACCTATAGGAGTGGCTATTTTTTTAATACCATAAGATTTATCTTCTTCTAAAATACCACAAGTTTTTTCATCTTTATACTTGTTATAAATATATTCTGATGCAAAGTGATTTTTAATAACCTTATCCTCTATTAATCCCATACCTGTTTCTTCAACAGCCATAGTTGCAAGAATAATTCTTTGATCATTAATTGTTTGAGCAACTTTTCTAAAAATTTTGTCTACTTGCTCTTGTGTAAATGAAGCATATTTTTCTTGTGCTTCTCTAACATTTTTCATCATCTCTTTTAAACTTTTGATGTCTTTAACTACCATTTTTACCTCCAGTAATTTTTAATTTTAACCTGCTTAGTTAAATATTTATCATTATACCTCAAAAAAGGCAAAAAATCAAGATATTTTTTTCACTTTATATAAAAATAGTCTAGGTTAATCCTAGACCAAACTCTATTTTTTAATGTATGCTATAGCTTCTATTTCAACTAAACCACCTTTAGGTAATTTTCCAACTTCAAAAGCTGATCTTGCTGGAAATGGTTCTTCAAAATATTTTGCATATACTTCATTTACAGAAACAAAATCATTAATATCATCTAATAAAACCATAGTTTTAACTACATCTTTAGTAGTTAATCCATTAATTTCTAAAATTGCTTTTAAATTTTCTAATGATTGCTTTGCTTGCTCAGCAGCCGTTTCGCCTTCTATAAGGTTAGTTTCAGGGTTTATTCCTAATTGCCCTGAGATATATAAGAAATCTCCTGCAACATAGTATGCAGAATATGGTCCTACTGCATTAGGTATCTTTTTCATAACTTTTCTCCTTTAGTTTAAAAATAGCTTACCAAAGTAAGCTATTTATATATTATTCAGCAATATCAGCAACTACTCCTGATGCTACTGTTCTTCCACCTTCTCTTATTGAGAATCTTAATCCTGTTTCTATTGCTATTGGGTGTATTAATTCTACTGATACTGATATATTATCTCCAGGCATTACCATCTCTACTCCCTCTGGTAAGTTTACTTCTCCTGTTATATCTGTAGTTCTAAAGTAGAATTGTGGCTTATATCCTGTGAAAAATGGTGTGTGTCTTCCTCCTTCTTCTTTAGTTAACACATATATCTCTCCTCTAAACTTAGTATGAGGTTTAATTGTACCAGGTTTTGATAATACTTGTCCTCTTTCTACTTCTTCTTTCTTTATTCCTCTTAATAATGCTCCTATATTATCTCCAGCTTCTCCTGAATCTAATAATTTTCTAAACATTTCTATTCCTGTTACTGTAGATTTTGTTGTATCTTTTATTCCAACTATCTCTACTTCTTCTCCTACCTTAACTGTCCCTCTTTCTACTCTTCCTGTTACTACTGTTCCTCTTCCTGTTATTGTCATAACATCTTCTATCGGCATTAGGAATGGTTGATCTACTGGTCTTTCTGGTGTTGGTACATATGTATCTACTTGGTTAATTAATTCTAGTATTTGTTCTTCCCATTTTGCTTCTCCATTTAATGCTCCTAATGATGATCCTCTTACTACTGGTATATCATCTCCTGGGAATCCATATTCTGATAGTAATTCTCTTACTTCCATTTCTACTAATTCTAATAACTCTTCTTCTTCTACCATATCTACTTTATTTAAGTATACTACTATGTATGGTACTCCTACTTGTCTTGCTAGTAATATATGTTCTCTTGTTTGTGGCATTGGTCCATCTGCTGCTGATACTACTAAGATTGCTCCATCCATTTGTGCTGCCCCTGTTATCATGTTCTTTACATAGTCAGCATGCCCTGGACAGTCTACGTGTGCGTAGTGTCTTGCTTCTGATTCATATTCTATATGAGCTGTGTTTATTGTGATTCCTCTTTCTCTTTCTTCTGGTGCTTGATCTATGTTCTCAAAGTCTACCTTTTGTGCTAATCCTTTTGATGCTAGTACTTTTGATATCGCTGCTGTCGTTGTTGTCTTACCGTGATCTACGTGTCCTATTGTCCCTACATTTACATGTGGTTTTAATCTCTCAAATTTTTGTTTTGCCATTTTTCCTCCATTTTTTTATTATTTATTTTATATTATTTATCGCCATTATTATATCACTTAAAAAGTATAAAGTCAAATATTTGCAAGGTTTTGTAAATTAAAAATGTACCAGCAAACTTTTCAGTTTGAAAGTACATTTCTAATATTTATAATTATACAATCACAACAAAACTAAATTACCAAATATATTCTATTTTTAAAGTACCTTTAGTATTGAATCTATTAAATTTAAAGCCTTGTAATCCAGCAGTAAATAAAAGTCTAGTTGAAACATTTGGTTTAACTGTCAATTTATTTTCTAAGAATTTCATTGTTACACCTAACTCAGGTTTTACTACTATATCGTAGTAATCATTACCATACGATTTTACTTCATCATTAATTCTATTTATCAACTTTTTGTCATCATACTTAACATCATCAGTATATTGCCCAAGTGTTTTAAATTTGTCTTCATGTAATCCTTGAGATTCAACATACATTTTTAAAGCTCTATTTTGTTCTTTTAAGTTACTTGCATTAAATTCTAAATTTAATCCTGAATTAATTTCAAGTATAGAATTAACTTTATATCCTAATTTAGTATCTGATTCTACCATGTAATAATGCCTATTATCATCAACATCTGCATCACCATACGCATATCTTGCACTTAACATTTGTGAGAAATCAACATTTTCCTGTTTATAACTAACTTTTCCATTTAATTCTGTAAAGTTGTCTATAGCTATATTTTCTTCATCTCCTAATAAAAGATAGTTATATGAATTTAAATTTCCTTCTAATTTAATCTTTTCATTTACATCAACTGTTAATTTATTAGTAGTCCATAAAAACAACTCATGATCATCAATATCTACATTTTTAAGGGATTTAACATCAAGATTTTCTAATTTATAAACTACATCTGATTTATGTTCAAATTTAACCTTATCAGATTTAGGGTTTAGAGTTAGTCCTAACCCCCCCAAGAATGAATTTTTATGCTCAGCAGAATTTTTTAATTTTTCAGATTTTAAAATATCAAATACCTTAGCTCTTAAAGTAATTAATTCAGATGGTTTAATTTCTAATTTATTATCTGTTTTAAAGAAATTATTAAGCATATCATCTTTTAAAGCAAGACCTGCTTTAAGTTCATGTTTAACATCTACTCTATCTGTATTTTCTGTACTAAACATAACCTTTTTATTATCGTATTTAATACCAACAAAAGCTTCTGGGCTATGTTGCATATATCCTTTTTGTTCAGTACCATTATTATTTGCATATGTAGATACAATTTCTGCTCTATAGTTTAATTTACCAGTTAATTCTAGGTTTTTTACGCCTTTATATACTGCTTTATTTTCTAATCCAGTTTTTATTACTTGTGATTCATCACTATTATGTTTATATGGTAACATAGTTCCTATATCAAAATAAGCTTTATGTTCTGTAACTAAATCTTTAACTAATCTATCATCAGTTTTAATGTTAACTTCACCTTTTAATGTTCCACCATGTTCTACAAATGCTTTTCTTTCCTCTTTTATTGCATTTAATTCATATATATTTGTCTTAACATTTCCTAATCTATATGTTAATTCTCCTGAAACATCTGCCTTTTCTAACTTAGTTTCTGCTTTAACAAATGATTGTAATCTATGTGTTTTATCTTTAAAGTTATTACTGTTATATACTACTCCTAATCTATATTTAATATCATCATATTTACCATATCCAATACCTGATAATAGAATAGTTTCATCTTTTATGAAATCAAATCCTGTTTCTCTATATGCTTTTTGTGCATGTTCTTTAACTATATCTTTAATATCTATATTATCAATTCTGTAAGCCCCTGTTAAGATTATATTTGAATCATCTGTTACTTTTGATTCAAATCTTGCTCCTAAGTACCCTGGCGTTTTAAGAGAACCTGCTTTTCCTTCTCCTTTTAAATTTCCCCCTGCAAATATAAATGTTTCTTTTTTAGAATCTAAATATAATCCTAAATCTAGTTTAGTTGATAAGTCATATTCAATTTTTGTTCCACCATTATCTGACTTAATTGTCGCTTCTGAATTTGATTTAAAATATCCCGTAACATCAGAAAACGATATTACCGAAATTAAAGCACAAACTCCTAAAAATGCTTTCTTCATTTTGTTCCTCCTAAACATTCTTGTTATTTTTATACCTAACTAATTTTATCTTTAAAACATAATTTTGTCAAGTTTAATCTTAATTTCAAGAATATTTTTTTATAATTTCCATTATTTTTACTTAGAATTTACTTATAGTGTTGTAATGCTGGTATTTACTAGTGTTGCAGCTATTTTTATTAATTAAAATCAAAAATTTTATCATATCAGAGTTAAAGTAAAACATTGATTTTTAGTATATTTTTGTAAAATTAATTACAAAAATTTCCATAAAAGTATCTCTTTTTATTTTTATATCTCAAAAATTATTTCTTATTTAAATAATTTCTATTACTTGTCTTGTAATTATATTGCTCAAATTCTATAAGTCTATCTATATTAATATCTATTTTTTTGAAAAATTCTTTTATTTCTTCTTCCCTATATTTATCTGTTTTAACTTCGAATTTTATCTTTTCTATGATTTTCTTATCAATCTTTATATGTTTTTTATCTCTTGTTATTTCATTTAAAAATTTTGTTGCCTTATCTATAGAATCCTCTGCTTCCCTTATATCCAACATTTGAAAAACATGTAATTGCCCTGGATATTCAACTAAAGTTGCATCAACTCCACTCTTTTTTAAATTATTATAGAAAACTACTGAATCATCTTGTAAAATTTCATAGTCAGATACATGTATTAATGTTTTAGGAAATCCTTTTAGATTCTTTGCATATACTGGTGATATATATCTATTTGTTTTATCCTTTTCTGCAATAAAATATGGAATGTTTTCAAGCATTTTAAGTCTATTTTTAAAGTTATATGGATTACCAAATAATACATCTTTTTTCCTATTTCTTTCTCTACTTTCAACCATGTTTGTTGCATCTAAAAATGGCGACATTAAAAATATTCCAGCAGGTAAAGGAAGATTATTATCTCTTAGATATATAGTTGAAGTCGTAACTATATTCCCACCTGAACTATCTCCAATAAATGTTATCTTATTATGAGAATATCCTAATTTAAGTGCTAATCTATAGGCATTTAAAAAGTCTTTATTCTGTATAGGAAATCTATGTTGAAATCCCATATGAAGATCTACTATCATAACATCAAAACCTTGAAGTTTTTTAGAAAAATTTAAATAAAAATCTCTTCTAGCTATTTTATATGGATTTAAAAAAGAACCACCATTACCAATTATTATTAATTTTTTTTCTAAATTATTTTTAGTATAATACTGTTCAATTCTTGTATTATCTTCATCATATACTCTAAGATCAAATTCTTCTGGAACTACATAATCTTCTATTTCAAGTCCTACAGATGTAAGTAAGGCATACATAGAATCTCTATTTATTTTCGGAGATAAATTATACGATAACATAGAATATATTTTAGATCTACCTGAAACATTTTCAGGTAATTCAATATTAGAGCATGAAATTAAAAATAGGGTAGATATAGTTATAATACCTTTAAACATCTTATTTAGCATTTAATCTCACTATCTCTATTATGACATCTCTTGCTTTCATCATATCTTCTAAACAAGCAAACTCAAATTCACCATGGAAATTTTCTCCACCAACAAATATATTAGGTGTAGGAAGTCCCATGTATGATATTTTAGACCCATCAGTTCCTCCACGAATAGGTATTATTTTAGGTTTAATATCTAAATTTTTCATAGCTTGTTCTGCAAGATGTACACATTCCATATTATCTTTAATAATATCTCCCATGTTATAGTATTGGTCAAACATATTATATGTTAAAATTTCTCCATATTTTTCATTAATTTTTCTTGCTACTTCTTCACAGAAAAGTTTTCTTTCAATAAATTTTTGTTTATCAAAATCTCTAATAATATATGTTAAAGTTGCCATTTCAATTCTTGATTCAACATTATGTAAAAGATAGAATCCCTCATATCCAGAAGTATGTTCAGGTACTTCTTTTCTAGGAAACATCATAGCAAGTTCTGCTGCTATTATGTTAGCATTAATCATTTTATCTTTAGCCGTACCTGGATGAACACTAACCCCTTTTATAGTATATGTAATTTGAGCTGCATTAAAACTTTCATATTGAAGTTCACCAATTTCTCCACCATCTACTGTATATGCAAAGTCAGCTCCAAATTCATCTACATTAAAATTATCTGCACCCTTTCCTATTTCTTCATCTGGTCCAAATGCAATTTTAACTGTTCCATGTTTTATTTCAGGATGTTCCTTTAAATACTTAACTGCCTCAATAATTTCTACTATACCCGCTTTATCATCAGCTCCAAGTAATGTTGTTCCATCTGTTGTAATTAATGTTTTCCCTATATAGTTTTTTAAATTAGGAAAATCTTTAGGTGATAAAATTTTTCCTAATTTTTCATTTAAGACTATATCATTACCATCATAGTTTTTTACTACATTTGGTCTAATATTTTTAGCTTCAAAATCAGCAGTGTCTATATGAGATATAAAGCCGATAGTTGGTACTTCTTTTTCTATATTTGACTTTAATGTAGCATTAACAAAACAATAATCATTAATATATATATCTTCTAAACCTATCTTTTTTAAATCCTCAACCAACATTTTTGCAAACTCATATTGAGTTGGTGTAGAAGGTATAGTTGTTGATTTTTCATCAGATCTAGTTTCAAATTTAACATATTTTTTAAATCTTTCTAACATACCGTATCTCCCTTCTTTTATTGACTAATTTTAACATAAATTATATATTTAAACAAGAAAAAAAGAGCCGTAGCTCTTTTTTAATTATATCTTAGTAGATATTGTTCTGTTTATAACATCTAATTGTTGTTCTTTAGTTAATTTAACAAAGTTAACTGCATATCCTGATACTCTTATTGTTAATTGAGGATATTTTTCTGGATGTTCCATAGCATCTTCTAATAAATCTCTTCCAAATACATTAACATTTAAATGTTGCCCTGTTTGTGCAAAATATCCATCTAATAATCCAACTAAGTTAGTTCTCTTTTCATCATCTTCTTTACCTAAAGTTTCAGGTGTTATAGCGAATGTATAAGAAATTCCATCATTTGCATGTTCAAATGGTATTTTAGCAACTGATGCAAGTGAAGCTACTGCTCCATTAACATCTCTTCCGTGCATAGGGTTTGCTCCTGGACCAAATGGTGCTCCTGATCTTCTTCCATCAGGTGTATTTCCTGTTTTCTTACCGTATACAACATTTGATGTAATTGTTAATACTGATTGTGTAGGTATGGCATCTCTATACATTTTGTGTTTTCTAATTTTGTTCATGAAGATCTTAGTTATATTTACAGCGAAATCATCTGTTGAATCATCATTGTTACCAAATGGAACATAGTCTGCTCCTTCGTTAACATAATCAACTGCATCTCCTTCTTCATCTCTTATTATTCTTACTTTACCATTTTTAATAGCTGCTAATGAATCTGCTACTATAGATAATCCAGCTATACCAAATGCTTGAGTTCTTTTAATATTTTTATCATGTAATGCCATTTCAAATGATTCATAAGAATATTTATCATGCATATAGTGAATAATATTTAATGCTTGTACATAAGTTTGAGCTAACCAATCTAATACTTTATCATATTTTTCCCAAACTTCATCAAATACTAAATAATCACCTTTAATTGGTTCAAACATTCCTTCAGGAGTTACTTGTAATTTTTGTTTTTCATCTTTACCACCATTAATTGCATAAAGTAATGCTTTAGGTAAGTTTACTCTAGCTCCGAAAAATTGCATTTGTCTTCCTATAGTCATAGGAGAAACACAACATGCTATACCATAGTCATCTCCAAATGTTGGTTTCATTAAATCATCATTTTCATATTGCAGAGAAGATGTATCTATAGATACTCTAGCACAGAATTTCTTCCAGTTTAATGGTAAATCTTGAGCCCATAATACTGTTAAGTTTGGTTCTGGTGCTGGTCCTAAGTTATATAATGTGTTTAAAATTCTAAATGAGTTTTTAGTTACAAATGATCTTGAACCATCAATTGTCATACCACCTATTGATTCAGTTACCCATACTGGATCTCCAGAAAATAGTGCATCGTATTCAGGTGTTCTTAAGAATCTAATTATTCTTAATTTCATAACAAAATGATCTATCATTTCTTGTGCTTCTTTTTCAGTAATTCTTCCTTCTCTTAAATCTCTTTCAATAAAGATATCTAAGAAAGTAGAAGTTCTTCCTATACTCATAGCAGCTCCATTTTGATCTTTAGTTGCTGCAAGGTAAGCAAAATATGTCCATTGAATAGCTTCTTGTGCTGTTGATGCTGGTTTAGAAATATCATAACCATAGCTTTCAGCCATTCTCTTTAATGCTTTAAGTGATTTTACTTGTTCAAAAATCTCTTCTCTAAGTCTTATAACATCTTCTGTCATTTCAGCAGGTGTTAGATTGTTCCAATCTTTAGTTCTTTCCTCAATTAAGAAGTCTACTCCATATAAAGCTACTCTTCTATAATCTCCTATTATACGTCCTCTTCCATAAGCATCAGGTAATCCTGTAACTACTCCTGTTTTTCTTGCTTTTCTTATTTCATCTGTATATGCAGAGAAAACTCCATCATTATGAGTTTTTCTATATTTAGAATAAATATCTTTAGTCGCAGGATCCAATTTATATCCAAAAGCTTCTAATGAATTTTCAACCATTCTTAATCCTCCATTAGGGAAGATAGCTCTCTTTAATGGTTCATCTGTTTGAACTCCAACAATTTTTTCTAAATCTTTGTCAATATATCCAGGACCATAAGCATCTATTTGAGATGGTATTTTAGTTTCTGCATTGTAAATACCTTTTTCTCTTTCAATTGCTAATTTTGGCTTTAATTTGTTCCATAATTCTGTTGTTGCCTCAGTTGGTCCTTCTAAGAAACTGTCATCTCCAGTATACTCAGTGTAATTTAATTGGATGAACTCACTGATGTTGATTTCTTTCATCCAGTTACCTTCTTTAAATCCTCTCCAAGCTTCCATAATCTCATTCCTTTCAAATAGTTTTATCTATATTCCACATTTTAATTGTAATACTAAAATTGATTTATTTCAATATATAAAGTGTTTTTTTTATCATACTTTTATATTTAGACTATATGCAAATATTGTAAAATTGTTATTTTTATCACAATCTCATAATAATAGCCTCAATTTATTATTTCAACGAGTTTCATAATATGAAACAAAAATAATAAAAATTGATTTTTTTTTTGCAATATTGTATAATTATCATATATTTAATTTAGGAGGAAATTTAATGAAATTAGTATTAGTACGTCATGGAGAAAGTGAATGGAATTTACAAAATAGATTTACAGGTTGGATAGATGTAGATTTAACTGAAAAAGGGGTTCAAGAAGCTAAAAACGGAGGACAAGCTTTAAAAGAATTAGGATATACTTTTGATGTTGCTTTCACTTCTTTTCAAAAAAGAGCTAACAAAACTCTTAACTATATTTTAGAAGAAATAGATCAACTATATTTACCAGTATATAAATCTTGGAGATTAAATGAAAGACATTATGGTGCTTTACAAGGTTTAAATAAAGCAGAAACTGCTAAACAATACGGTGAAGAACAAGTACATATATGGAGAAGAAGTTTTGATGTAGCACCTCCTCATGTTGAATTAACAGATGAAGTAAACTACCCAAGATTCCAAGAAAGATATAAGGATATACCTGAAAGTGAATGCCCAAGAGGGGAAAGCTTAAAAGATACTATAGCAAGAGTTTTACCATATTGGGAAACAAACATTTCAAAAGAAATTAAAGCAGGTAAAGATGTAATAGTTGTTGCACACGGAAACAGCTTAAGATCATTAATCAAATATTTATTAAACATAGACGATGTTAAAATACTTGATTTAAACCTACCTACTGGAAAACCATTAGTATTTGAAATAAACGAGAATTTAGAAATAGTTTCAGCACCTGAATTATTCTAATATGCATACATAAAAGGATTAGCTTCTTTAACAATTGAGGTTAATCCTTTATAATTTAAAAAGCATTTTATACTAATATTATGGGAGTTATTTATGAATATTTTGATGTACTTTAGGGATGATTACTCTAATTTTTCTTTTGATAATCATGTATTTATAGCTGGTGGTAATGGTACTGGTAAAACCATGATGTATAATCATATGTTATCTGGTTTTGATGGTAAGGAAAAAGATATGTTTTTAGTTGATGGTTTAAAGATTAAAAAAAGTCAGTTTGTTGCACTAGGTATATCAAGAGATAATACACTAGATGAAGAAATAAAATTAAGTTCTAAAACATATATCCTTTCAAGACTTGAAGCTTTTAGAGAATATGTTAGTGAAGAAAAAATTAGAAGTTCTATGTTTGAATATTTTGATTCAATAAAGGAGTTAATTGAAAAAGAAATTTTCTCTATACCTAATTTTAATATTGAATTTGATTTTGATAAAATTAGTTCAAATATTTTTAAGGCTATTGAGTATAAAATAGATGATATTAATTTTTCTGAATTATCAACTAGTGAAAAAGTAAATATACAACTTGAAATATATTTAAATAGATTAATTGGTGTAAATGATAACACTGTATTATTGATTGATGATTTTGATAGTATTTATACTAAGAATAAATTTTTTGAAAAAGTATCATATATATTATCTAAAATAAAGGATTTCAATACAAAATGTATATTTTTTGTGAAAAATGAAGATATAGTATATGAATTAGTTTCTAGTGGACACAAAGTATTATTTATTGATAATAACAAACTAGTTGAGTTACCTAGATATATTAATTTTATTGATGAAGTATACCTTTATTCAGAAAAAGAAATAGAAAATAAAATAGAGAAAATCCGAAAAGAAAAAGAATTTGACATAATTAAGAATTATTTAAAATAAAAAAAGCTGCTTAAGGCAGCCAGTCTTACGATTTTGTATCTTAATACAGAATCTGTAGTAAACTTGAATAATGTGAATCTTATCTACACAATTATTATAGCATAATATTTAAAAAAGTCAACACAAAAATCATTTAAATTTAGTAAGAATCTGTATCTCAGATTTTTAAGCCTTTTTTTAAAAAACATTCACATTATTCAAATTTACCAAGAATCTGTATCCACTGTCACCTTCATAAAAGGTTGTTAGTACATTCACATTATTCAAATTTACCAAGAATCTGTATCTAGTCCAGATATATTTGTCAAATGCAGAATCATTCACATTATTCAAATTTACCAAGAATCTGTATCTAGTCCAGATATATTTGTCAAATGCAGAATCATTCACATTATTCAAATTTACCAAGAATCTGTATCTAGTCCAGATATATTTGTCAAATGCAGAATCATTCACATTATTCAAATTTACCAAGAATCTGTATCTCTTATCTCTTAAAATATTTTCAGACACTACATTCACATTATTCAAATTTACCAAGAATCTGTATCATTGTTTAATTCTTTCCATGTTATTTTGTACATTCACATTATTCAAATTTACCAAGAATCTGTATCAATAACTTAAACGAATATGACAGAAAAGCGCATTCACATTATTCAAATTTACCAAGAATCTGTATCCGTTCGGTGAAACTCCAAATCTCATTTTTACATTCACATTATTCAAATTTACCAAGAATCTGTATCTCACAAAACAAATGGATTTTCAAAATTTAACATTCACATTATTCAAATTTACCAAGAATCTTTATCCTGAGTTGCATTATTCTAGCCGTATTAAAACATTCACATTATTCAAATTTACCAAGAATCTGTATCTTACCAATAAACCTGTTTCTTTTCCAAATTCATTCACATTATTCAAATTTACCAAGAATCTGTATCGTTTAGAAAATGCTAAAATTTTAAGATATGCATTCACATTATTCAAATTTACCAAGAATCTGTATCATGTGTCATGTTCACTTTTGCTTTCACTTTCATTCACATTATTCAAATTTACCAAGAATCTGTATCTAGGGGCTGTTTGTGTTATCGGCGTTGTATCATTCACATTATTCAAATTTACCAAGAATCTGTATCTTAATTTTAAATTTTTAAGTTTATTTAGTGCATTCACATTATTCAAATTTACCAAGAATCTGTATCCTTTCTAACAATAAAATCTTCATTTTTTGACATTCACATTATTCAAATTTACCAAGAATCTGTATCATATGATTGGAAAGGTATTCTATGGAGTTGCATTCACATTATTCAAATTTACCAAGAATCTGTATCTTTTTATCATTTTATTATTTAAGATGTTTGCATTCACATTATTCAAATTTACCAAGAATCTGTATCCTTCTAACAATACTAATTCTTTATTATCCCCATTCACATTATTCAAATTTACCAAGAATCTGTATCTTCTTCTGTATCCCAGTTTATACTTTTTGACATTCACATTATTCAAATTTACCAAGAATCTGTATCCCTTCTTTAGTTCATTGCCTTCTTTATCAACATTCACATTATTCAAATTTACCAAGAATCTGTATCATCTTAAAGACCCACCATATCTTTTAACTGCATTCACATTATTCAAATTTACCAAGAATCTGTATCATTAAAAAGAAACAAGAAGCATTAGAAAAACATTCACATTATTCAAATTTACCAAGAATCTGTATCATTGTTTAATTCTTTCCATGTTATTTTGTACATTCACATTATTCAAATTTACCAAGAATCTGTATCTTTTCCTTTTCATAATTCAGTTCATAAACACATTCACATTATTCAAATTTACCAAGAATCTGTATCTCAACTCAAGTTTTTTTATATTATCATTATCATTCACATTATTCAAATTTACCAAGAATCTGTATCTAAAACTAGGATTTAATTATTATTTTTAAACATTCACATTATTCAAATTTACCAAGAATCTGTATCCTTTTTTTAATCCATTTCCCTCTTTATCAACATTCACATTATTCAAATTTACCAAGAATCTGTATCTTCTTCCGTGTCCCAATTTATGCTTTTTGACATTCACATTATTCAAATTTACCAAGAATCTGTATCCTTTCTTTAAGATGTTTCCCTCTTTATCAACATTCACATTATTCAAATTTACCAAGAATCTGTATCTTAAAGTCGTGCAACAAATTGTTTATAAATCATTCACATTATTCAAATTTACCAAGAATCTGTATCTCGTAAAAAGATATTAATAAATTCTTCTTTCATTCACATTATTCAAATTTACCAAGAATCTGTATCGTCTCGCGGGGGCGACGGCGCAACAAGGAACATTCACATTATTCAAATTTACCAAGAATCTGTATCAATTTAACTCATATTTATAAATTGGTACATCATTCACATTATTCAAATTTACCAAGAATCTGTATCATGAATTAACATGAATTAAATCTTTTGATACATTCACATTATTCAAATTTACCAAGAATCTGTATCAATCGATCAATCCTTTTCCCCAAATTTCTGCATTCACATTATTCAAATTTACCAAGAATCTGTATCATTCGGTTTCATACAAATCCCGCTCTTTTTCATTCACATTATTCAAATTTACCAAGAATCTGTATCAAGTAGTGTCGTGTTTATCTCTTTCCTTTTCATTCACATTATTCAAATTTACCAAGAATCTGTATCCGTTATGAAACTTTCGTTTAATTGAACATTCATTCACATTATTCAAATTTACCAAGAATCTGTATCAATTAAAAAAATATGAGTTCGAAAAAAAATCATTCACATTATTCAAATTTACCAAGAATCTGTATCTTTGTGTCATAGTCCCGTTTATTGTCATCTCATTCACATTATTCAAATTTACCAAGAATCTGTATCTCAGCTCATGCTCCAGCCTCAAAGACCATTCATTCACATTATTCAAATTTACCAAGAATCTGTATCGTTTAGGCGGCGCGACAGCGCAACCAGGTACATTCACATTATTCAAATTTACCAAGAATCTGTATCTTAATTTTTATTGTTTTTCCTTCGATTTTTCATTCACATTATTCAAATTTACCAAGAATCTGTATCTATATGTTAACGTCACAAACATACCTTTACCATTCACATTATTCAAATTTACCAAGAATCTGTATCTCTGCGTCATAGTCCCGTTTATTGTCATCTCATTCACATTATTCAAATTTACCAAGAATCTGTATCCTCTAGCAATGAAATTAATATAATTTTATTGCTAGAAAATACAGTTTGAAATTTAAATAATCAATCCATTAGCACAAAATTCACACTAAAAAATAACCAATGGATTTTTTGAAAGCTTTATTTCAGATAATTTAGGTTCTTTTACTAATATTAACATATTTTCATATTGTTTGTTAGTAATTTTTAAAATTCTTACTTCTCCACCACTTAATTTATTACTCAATTTTTTTACTCTATTAAAATATTTTGAAGATTCAGCATCATTTCTGCAAAATCTTGAATAGCAAGAAAATTGCATCATAATAAATCCTTCAGATAACAAATTTTTTCTAAAATCCTGAGCTTGTTTTCTTTCTAATTTAGTTGATACTGGCAAATCAAAGTAAACAAGTAATCTCATTTCTCTATAACTCTTTAAAAAGGTCATAAAAATCTATTTTTATTATTTCAGGTATAGCCAGCATTTCATTACCTTCTTCTAAAAAGTTTAGATAACTTTTTATTAATAATTCCATAGAATACAATACTGTATATTCTTTTTCATTAACTTTAATATTTGCATTTAAAAGAGAAATTAACTCTTTTCTTGTATCTGTTTTTAATTCATCATCTTTTTCAAAACGATAAAGATGATTAAATACATAATAATCTATTATTGGTCTATATGGTTCTATGAAATCATATGTTAGATTAAAGGCATTCATCATAGAACTATGATGAACACCTATATATGTTGCAAATCCATAAGTGCATAACAATCTAGTAATTGCACTTCTAAACACTCCATATCCATAATCTAATGCCATATTTATAGAATCTCTTTCATTTTGTCTACAAAAATTTGTACCATATAGATAATTAAAAAATACTTTAGCAGCTGTTCCTTCTCTATTTTGAACATCACTCCCTATAACTTCATCTTCATATTTTTGCATTAATTCTATCAAATCACTTGAAGCATTTTCAAGTTCTAAAACCTTTTTTGAATTTCTAATTTTAGCTTTTAATAATTTCTCCCAAACAAATTCTTTAGATTTAGATGTTTGTTGCCCTTGCAAACTATGGACATACGGTATTCTGTAATGTTGATTTATAGGAAGACTATATGCCACAGGCATATGTCTATAATCACAAAATATCATCGTTATATTCCTTAAAGATAATTCAGATATTATTCTTAAGCTTATATAACTTTCTAAAGATTCAAATACTATTATCGAAATATCACTTATGGGTACAGATAATTTTTTATCATCTTTTTCTACAATCAAATTATCATTTTCAAAATGAATATATGATTTCTGAGTTATCAAAACTTGCCTAAATGACATATCAATCTCCTAAAATATTTTTGTTAATTTTCTTAATTGATTTTATAGTTGATACTGTTATATAGTATCTTTCTTTAATTCTAGTAGAAATTTTATCATTAATTAAATCAAGAGCATCTCCTATTACACTTGATATTTCAATTTTACCACCACTAAATCCCACAACTAAACATTTAGAAATATTTCCTTTATTTAATTCAAGTTCTATAGTTTCTCCAGGAATTAATTCATGTATTAATCTATATCCATTTTCTTTCAATTTATTGTATCTAACTTTGCAAAAATGTATTGCATCTTTCCAAATAGATATATTTACATCTTTTTCACTTTTTAATAAATTATATTTATACCTACCTATACTTGCAAATTTAAGACCTTCTTCTGCTTCTTTTTTTAAAACCAATATTTTAACAGTTGTTCGTCCCATCTCAACATATCTTTTATTACCTAATTTTATCAACTTATCTTTATTCCCATCAACTATTTTAACCTTTTTAATTATATTACCATTTTTAAGTTTAGGGTAATCTTTACTTTTTGCTTCAAGCCATTTAACTAGTGTTTCATATATTTCCTTTTGACTTCCATCTTTATCAAATATTTTTCCTAAATTTTTATAATTTATATCAAACACTGATATTCTTTTTGTTATTTCACCTTTACTCTCACCAAGTATAGTTTCAGCATGTAAAGCTCCACTAACTTTTGATTTCACAACATGATAAGGTAATTTGTTATTTTCTCTCTTATCAAAAATTTTATTTTTAATATCATCAAGGAAATTTTCATAAGGTTTAACTAAATTAAGTCTATGTGTCTTACCGTTAACATTAAACTTAATTCCTCTCTCATTACCATCTATATCTATTATTTTTTGTTTTTGTAACTCTTCAGCAAATTCTTTTGAATCAATATATTCTCCTTTTTCTTCATTGAATATTTCTATTTCTTTATTCTTCAACACAGAAATAAGTTGATTATATTTTATTAACTTCATTTGCATAGATCTATTCATAATTGTTAGTAAGAAGGCATCTAAAGAATGATGTAAATGATTTTCTCTATTTTTGCTATATACTTCTTCTTTTAGAGCTGTTATCATTTTATATAGAATTGAAATAATTTCAGGCTCAACAGTATCAATTTCCTCAAAATCAACTATTTTTAAATCAAATAATACTTTATCTTTAAAATAATCAGAAATTTCAATTAAATTCTCTTTTTTATCCAATTCTTTCTTTAACAATTCATCCTTAATAGTTTTAAATTCTCCACTTTTATTTTTCTCAACTTTAGTTTCTGAAGTAATTTCTAAGCCAGTATTTACATTATATGCAGTCATTTTTAAGTTATCTTTATTTATTTCAAATTCTTTTAAAATAAAAGCCTTATTATCTATATCAAGAGTATCAGATTCAAAGCTATGTGTATATTTATTTAAACTGTATAAATTTCTTAACATAGAAGTCATCTTACCTTGAAATGCTATTACATTTCTATTATATAAATATTTTACTTTTTCATTACCATGTTCATCATATTTATCTTCATCACTTACTGGTATTAATCTTTGGAATATATTTAAAGCTAATCTTGAAGAATAACTTGTAGCATGTAGTTCACGTTCTAAAAATTCATTATTAACAACTTCATCTTCAAATAATAAATTTTCTTTTTTCTTATTACTGATATTTAAATTTAATCTAACTCTTTGTTTAAATTCATTCCATTTTTCAGTGCCTTTTAACCACTGATAAGGTGTCCTTTCTTTTTTGTCTTGATTTTCATTACTAAAAACTAAGACTTTATTAGAATATGAATTATCAAATGATTTTGAATACGGAAGAATATGGTCTATTTGTACCTCTGCACTAGTTAATTGATATTTTTCAATAGTTCTTCCTGAATACATACACACCTTATTTTGTTCTTCCCACAATTTTATTCTAACGAAATCATCATTAGATAATCTATCTTTACCTGCAACTATGTCTTTATTAGCTCCATACATTTCAAAGGCTGCAACTTCTCTTCTAACCTTATTTTCTAACTGTTCTTTTTGAATCTTATTTCTAGTACTAAAATCATTAGAAAAATCTCTTGATAATTCTAAATGTACTTTTTCTGGTCTACCATATTTAAATAATAATGTGTTATATAACTTTCTTAGAATTACTAAAATATGCTTAACATTAGGGTTAGTAATTTTAGTGCTTAGACTATCCTCTATTTCAGAAATAGTTGGGAATTTTTCCCAATCAACATCAGTATCTATATAGTAATTTAAACTTGAAAGAGAAGATTCATAATCGTGTCCTTCCATTAATAATTTATTTAGTTCTCTAACCAAGCTTAAAGATAAATTCCCATTTTTAGTATAATTTGGGAAAGTTTTAATGATCTCAACAATATCTCTTTGCTCTTTAAACAAACTATATCTTTCAACATTTTCAACAAAATATTCTAATTTTTCATCTGTTTTAGAATAAGTTAGTAGCTCAGCAACTAAATCAAGAAAATATATTCCACCTAATTCTTTTATTCTGTTTTCATCTATATTATTTTTCTTAAATTTAGATTTTAATTCTTTATACGCTTTAAGATTATTTCTAATTAATTCCTGTTTCATTCTTTCGTTATTTAATTTTTCATTAAATGCATTTATTTCTTCTTCTGTTAAATTTTCATTATCATTTCTTTCTTTAAAATACGATTTTCTTAATTCTACATATTTTGATTTTGAAAGTTTTGGAATATTTAATAATTTAATGTTTTCTTCATCAATACTTTTTTCAATCAAATCATATGTTAAAGTTTTATTTTTTTCGACAACTAAATCATACAACTTATGAATAACTTCTTTACTTAATTTTTTCTTCTCTATTTTATCTTCAGAAGTAAATTTAACATATCTAATATCATTTAATTTTTGTAACATAGTAAATATTTCATATGAAGGGGCTGATTTTACAGCTCTAACTTCACCTGTATATTTACATTTACCTGCCAACTTAGTATAATCTATTTTATATTTACTATCTCCACCTGGTCCATCTGAAAAATCTCTTTGTGATGACAGTATATCAATATATTCATCTACAATTTCTTTAGAAAGAATTTGTTGTGTTCCTAAAATTTTTCTTACCTCATCAATGACTTGATTTCTTTTAAATCCAAACTTATAATTACCTTCTTTGTTTTTAAACCCTAAGATGCTATTATCATTTTCTCTAATCATATAGATTACTTCAATTGGAGTTAATCCTTTACTTTCAATTAATTCTGTATTTTTAGCAATGATAGGTTTCAATTTCTTTTCATCAGAATCTTTTTCACTAATTTTTTCTCCTAAACTTTTCAGTATTTCCAGATCTTCAGTTTTTCTATTAGATTTAAATCCTCTATTTTTACAATAATATATCATTAATCTTGCAATTTCATTTTTGCTTAATTGTTCTTTTAGTCCTTTTAATCTTACTTCATAAATATTATCTAATTTACCAACATAAAGGTTATCGATTTCTTCATTAGTTAAAAATGAAGAATTAACTAAAAGCATTTTAGTTCTTTCTACCCTATGTTTTTTTCTTCTCAATATTCTTCTACTTCCCCTTTTATCTCTTCTCTCAACATTATATAATTTCCCTTTATCATTATCTAAAGGTTTAAATATAACGGAATTTGCATCTATAAGACCTACTGGTTCTCCTTTTTCATTTATTTCAGTAACAGCCCAACCAATTGATGCAACTCCCAAGTCAAGACCCAGAATATACTTCATAATCTCTACCTCCTATTTTTCATAACAAAATTATACCTTCCAAATATCAAAAAATCAAGAATTATGAAATAAAATTTTCAAACTAAAAACATTTAAAAACTTTATATCCAAACCTTTTATTTCTCTTACCAATTATACCCAATCCCTGCTTTAAATATGTACTTACCATATGATTTTTGATACACATTTGCATCGAAATCTAAATTAATAAATATATTTTCAGTTGGCTTAAATTCAAATCCTGACCTTATATTAATTCTCCAATCATCTTTAAACTCATTTTCTTTCTTTTTCCCCTTACTAGAAATTTCATAACTCGATAAATTATATCCCATATTAGCTTTAGTGAAGAAATCAACATATTTACTTTCTAACTTAACACCTGTTTCATAAAAAAAAGTAATAGGTTTATTATGTTTAATAGTATATGAATTTCTTTCATTTTTAGAAAGAGTTTCACTTATCATAGGAGTTAAATTATATCCAGCCCTATTTAAGTATCTTATACTAATATTGTCATTAATTTTAAAATTAGGATTTAGCCCTATATTTAATGAATTATTTAAATATATCAATGTGTTTTTTTCTTTTTCATCATTTATTACTATTGTATTTAAGCCTAAACCAAAATTAATATCAAATAATCCATATTTTATACCTAATTTAGGTATAGAATTTATTGATACAAAATTCTTTTCTATAATTGGTTTATCCTTAACATCTGTTTTTAATTTATTAAACAATATATTAAAATTAAATCTACTTGATAATTTTACTGCTCCAATATTCTTAACTGTTTCAATATTAATTTCTACACCATTAGAATGTAATCTATTACTGTATTCTGTATCTTCTATTTTTAAATTATTCTTATCTATTTTATTATAATTTAAATAACTAGCCTCAATAAGATTTCTATATTTAGATTCATCATTAATATTATTAATTAAATCTAACTCATTAAATATAGAAAAATTACTTATTACATCACCTTTAACTGTAGAATAAAGTCTATAAATATTATCTTCACCTTTTTCTACTCCAAGTTCATAAACACTATCATATTTATTAAGATTTAAAACATTAAGTTTATGTTCTTTGATTTTAGCTATATTTAATTTTTCTCTATAATCAACTATCTTATCTATTAAATCTTGTTTAATATCAAGAGTTGCATCTACATCTTTATCTGATTTTTCTATTTCAAGAAGTTTTTTATTCATTTCATTTAAATGAATATTAAATTTTCCTCCATTTGACTTATATTCATCTATTTTTAAATTACTATCTTTTACTACAATATTACCAGAGTTATCAATTTTTTTCACTTGAATATCATTTAAAAAATTTACAGTTGAGTCTTTATTAATAGTAAAATCTGCATTTATTTTATTATTATCTTCATTAGTAATATTAACAGTTCCTTTATTTTTACCATTACCTATATTTACTTTAGATAGCTTTGTAGCCTTATCAATACCCTTCAAATTCATAGTTATATTACTAGGATCTAAATTTAAAGTTTCAATTTTATTAGAGATCTCATTTATATTTATGTCTTTAGTAGCACCTAAGTATAGTTTAGAAAAATCCTTATACTTATCATCAATCTTTGAAATATCTCCATTTAAATTTAAAACTCCCTCTGAATCTTCTTTTAATTTATCAAGTATATCCTTCAAATCTTTATTTTCTTCTACTTCAAATACAGCATCCTTTTTTATATTCACTTTAGAATTACCTAAAGTTGATGCTTTCTTAACCTTTAGTTTACCTTCTTTAACTTCAAGAGTTCCTTTTAAGCTTGAATTATCTTCATGACTTAAATAAAGTAAACCTTTTCCTTCTTTTATCCCCTTAATTTCTCCTTTAAGTTCTGATTCTATTACAGCTGTATGATTATTCTCAACCTTTGATTCAAAATTAGTAATACTAGTAGAAGAGTTTTCAGAATTAGTATCATTAGATTTAAATTCAACATTACCCTTAATTACAGTCTTATTAATCTGTTCTTCTGTCTTAGCCCCCTCATATGGAGTAGGTCTATCTACAACTTTTCCTAATAAATTAAGTTTTAATGCCCCACCTTTTTCAACATTAATAGTTGCTTCAACTTCTGTAGCCCTTCCTATTGTTAATGTTGATTTATCTTTAACATTAATAGTTTTTGATTTAAATTTAGCTTCCTTATACTCATCTTCATAAAAATCTGTACTTTCAGTAAATGTATCTCCAGAACCATGTATAACCCTATCTCCTTCTATAGTAACATGACCTTTATTAATATTAAAATCTCCTTTAATATTACTATCTTCACTTCTTATTGACCATTTACTATCATCCTTATCTGGGTTATATACTAAATCCAAATTACCTTTAAAACTTCCTAGAAACACTCTTTCACCACTACGAGGTTTAAATGTAAATGTTGATTTATTACTTTTTGATTCTTCTTTTTTACTTCTACTCTCTTTTTCTTCTTCATTATCTTCTTTATCGTTAACTATTCTTGCATCCTTATCCCTATGATAAATATCTTTAAATTCCAAATTAGTTCCATTTAAATTTAAAGTTCCTCCTCTATGAGCAAATACTACATTATTATCACCAATTTGATTTGCTCTAGTTATTGTAAGTTTAGCTCCTTGGGCAAGTCTAATTACTGAGGCAGCGACTCCTTCTTCATTTTCAAGTACTGTTTCTCCACCACCTAGATTTAATTCACCATAGTTTCTAGTCTTAGATTTAATAATTAATTTTCCTTCACCTATTTTTCTAATAATATTCTTTTCACCAAAATGTAATTTGTATGTTAAAGTAGCATCTTTATGTACAACAAAACCAGCAGTTTGTAAACTCCCACTGCCTTCTATAGTTGCATCTTGTTTAAATTCTAATCTTGCTGCATGTGTATTTGTTTTGCCTTCTACAGTAATTTTTAAATCTTTTTTATTAAATATCTGATTTTTAGTAGTATTATTACATTTAACTATGTCTATGGATTCTTTAGTTTTAAATTCTCTATCTTTTCCACTAACATTTAATTTTCCATCTTTAAATTTAACTTCTGTTTCTGTAGTAATTTCTTCATCTGTTAAAGCTTTTTTAAAATTATCATATGCATATGAAAGATTTAAAAGACGTGACCATTTACCATATCCTAATATAAAAGCTCCTTGACTATGACTGGCTGCCATAAACCATTTTTTTTGCTCTTTATCCCACCAAAAAAGTGGTGAACCACTATCTCCAGGTTTAGTTCCTGAATCAATAGGAGTTTTTTCATATTCTTTATATAAATTTAATTGTATATATCTACCAATTCCACGATCATATTTATAGTCAACTTTATTTAGTCCTCCAGCAAAATGCTTTTCTTTATCTGGATCATGCTCTACTCCATAATCAATAGCTACTTTATTTCCACCTCTACCAACCCTTGCAACTAAATCATCAGATTTAATTTTTTTCCACTGTTCTTCTGTTATTCCTTCTTGTATATATGCATCAAAAGCTACCTTATCAGTTCTTATTAATGTATAATCTCTTTCAATTTTCTGTCTATGATCTACAAAAATATCTTCAGAAAATTTGTCATTTTTTTGATCTAAAGTTAATTTCTGATATCCTTCATAAAGCTCTACATCATTTCTAAAATGTCTTTTTGAAAAGGTTAATTTGCTATGAGGAGTAACATGATATGCTGATGATAAAATTTGAGAATCTCCCCAAAGGGCAAAATTACCTGTATCAACTACGCTATCAAAATTGGGAATTGGTTGTTCTATTACACCAAATTTTTTTCCATCTTTTTTATACACTATTACTTTTGTTCTACCTATAGCATATTTACCTCTATTCATTGCAAAATCTTCGTAATTTTCCCAATCTATATCATGTCTAGCTAAGTTTGAAACTCCAATTTTTCCTGTAAGTATAAGGATTAATAATAATTTATACTTGTAATTCATAATTATCACTTCAACTTCCACAATTAAATATTTATAGAGTGTATCTTTTATCAGTCAAATCTTTAAAATTTATCATAATAATTATACATTCAGATCTTGAAAAAATCAATATATTTGTTTATTACCAATTATACCCTGTCCCTAATTTAAATATATATCTTCCATATGATTTTTGATATATGTTTGCATCAAAATCTAAGTTTATGAATATATTATCTGTTGGTTTAAACTCAAATCCCGTTTTTACACTTACTCTCCAATCATCTTTAAAGCTATTTTCTATACTCTTACCCTTATTAGATATCTCATACCTAGAAAAGTTATACTCTAAATTAGCTTTAGTAAAGAAATTTATATATTTATGTTCTAATTTAATTCCTGATTCATAATAAATATTAAATGGATTATTATGAGATATATCATATTTACTTGTTAAACTCTTAGAAATAGTTTTATTTAGCAAAGCATTTATTCTATATCCAACTCTATTTAAATATTTTATAGATATATCTTTATTAATTTTAAATTCAGGATTTAATCCTAAATTTAATGAATTATTTAAATATATCAAATTATCTTTTTTGGTATTGTAATTTGATAATACTATGTTTGTTCCAAATCCTAAATTTATATCAAAATATCTATATTTCATACCTATTTTAGGTACTGTTGCTATTGATAAGAAATCATTTACTATTATGCCTTTATTATTGCTTTTATTCTTGATATATGTAGTTAAATTATTACTTAAGATATTAAAACTAAATCCTCCTGAAATCTTGACAGATTTAACATTATTAGATGTCTCAAAATTAATTTCTATTCCATTAGAATATATTTTATTACTATATTCTGTATTTTTCATTTTATAATTATTTTTATCTATTTTATTGTAATTTAAGTAATTAGCTTCAATAACATTTCTATACTTTAATTCACTACTAATATTGTTAATTAAATCTATTTCATTAAACATATATATACTACCTAAAACTTCTCCTTTAATCATAGAATAAAGTTTAACAATATTATCATTATCTTTTTCTATATCAAGTTCATGAACACTATCATATTCTTTTAAATTTAAAATATTAATATGATTTTTATCTGATATTTTAGCAATATTTAATCTTTCATCATCATTATTAACTATTTTATTTAACATTTCATCTTTAATCTTAAGTAGAACATTTATATTTTTATTAGTTTTTTCAATTTCAAGTAATTTTTTATTCATTTCATTTAATTGAATATCAAAAACACCTTCATTTGATGTATATTTATTTATTTTTAAATCTTTATCAACAAGTTTAATAACTCCCGAATTTGTAACTGATTTTAAATGGCTACCATCTGTAAATTCTGCATTTGCATTCTTTTTAACTTCGATTTCTGTATTTATTTCTTTTTTATTCTTATTATCTACTATTACAGTTCCTTTATTTACCCCATCTCCTATGTTTAACTTATTCAAAGTATCTGAGATTCCTTTTAAGGTTACAGTTCCATTATCTCCACCTAAATTTAAAGTTTTAATATTTGAATTTATAGGCTTATCTTCACTTCCTATAGTAATATTTTTACTACTCCCCAAATACAAATTACTATATTCCTTATACTTATCATCTATACTTGAAATATTTTTATTTAAACTTAAAACTCCTTTTGAACTTTTATCTATTTTATCAAATATACCTTTTAACTCAGTTTCATTATTTTCTACCTCAAGTATAGAGCTATTTTTAAGTAAAGCCTCAGAAGAACCTAAGGTTTCTTTTTTACTAATCTTTAATTTACCTTCTTCAACATTAATTTTACCTTTTAAACTCGAATTAGTTTCTTTACTTAAATAAAGTACTCCATTACCTTTTTTTATAGCGTTAATCTCTCCTTTAAGTTCTGCATCTATTTTAGCTTCATTATTATTTTGAATATTTGCTTTAAAATTAGTTGAAGAACTCGAATTAAAATTAATCATACCCTTAATTAATATCTGATTAATATCCTTTTCTGTTTTTGCATTAGTATATGGAGTTAATATATTTTTAACAGTTCCTAAAGCATTAACTTCTAAAACTGAACTATCATTAACATGAATCTTAGTTTCTATTTTTACTGCTCTGTTAATAGATAATGTTGAAGATGATTTAATATTAATACTTTCAGATTTAAATTTAGTCTCCTTGTATTCATCTTCATAAACCAATTTGTTATATCCATGTACTACATTATCTCCCTCAATAATTACATGACCTTTTTCTATATCAAATTTACCTTCAACACTTGTATATTCACTTCTTATAGACCATGAACTATTAGCATTTTCAGGATTATACACTAAATTTAACTTACCCTTAAAACTACCTAAAAATACTCTTTTACCACTCCTAGGTCTAAATGTAAATGTTGCTTCTTTTACATCATTTGTATTCTTATCTTTATTTTTTCTATTATCATTAATTCCATTTACTATCTTAGCATCCTTATCCATATGATAAATATCAGAAAATGATAAATTATTTCCATTTAAATTTAAAGTTCCTCCTCTATGTCCAAATACTACATTACTATCACTAATTTGATCTGCTCTATTTATAGTTAGTTTTGCTCCTTGGGCAAGTCTAATTACTGAGGCAGCAACACCAGCGCTATTTTTAAGTTCTGTTTCTCCTCCACCTAAATTAAGTTCTCCATAATTTGGTCCTTGAGAATTAATAATTAGCTTACCTTCTCCTATTTTTCTAATTATGTTATTTTCTCCAAATTTTAAACTATATGTTAAAGTAGCACCTTTATGTACAACAAAACCGGCAGTTTGTAAACTCCCACTGCCTTTTAAAATTGTATCCTTTTTAAATTCTAGTCTTGCTGAACCTGTATCTGTATTACCACTTACATCAATATTCAATCCTTTCTTATTAAATACTTGATTTTTAACACTAATAATTTTAGTATCTATATTATCTTCATACTTATTTACTCTACTACCTATATAGTTTTTCTTTCCTTTACTTCCCTGTTCAACAAAACTTCTTTCTTTATCTCCAACTTTTAATTTACCATAAACAAATTCAACATTTGATTCATTTGTAATTTCCTCATCTGTTAATGATTTTATCCATTTTTCATAAAATTTTGGATTACTTAAAAGATGTGAACTTTTTCCATATCCTTTACCATTTCCACCACTATTACTTGAAGCAATTAACCACTTCCTTTTTTCCTTGTCCCACCAAAAAAGTGGTGAACCACTATCACCAGGTTTAGTCCCTGAATCAAGAGCAGTTTTAGCATATCTTTCTATACTAATATATATTATCTGATCAATTTCATCTTTACTTTCTTTCCATTTAGCACTAATCTTATTAAGTCCTCCAGCAAATTGCCAAAGTGGTGCTACATACTCTTCCAAATTATTACCAATCGCTACACGGTTATATCCTGCACCAACCCTTGCAACTATATCTTCAGCCTTAATTTTCTCCCAATCATCTTGTGTTATACCCTCTGTAACATAGGCATCAAAAGCTATTTTATCAGTTCTAATCAATGAATAATCTTTACCTATATCTAATCTATAGTTTGTTTGAATTTTCTCAGAAAACTTTCTGTATTTTTCATCAGAACTTGAAGCTTTATATCCATCATAAAGTTCTACATCATTTCTTAAATGCCTTTTAGAAAAAGTAAAGTTATCTGGTGTTTTAATATGTGTAACTCCTGATAATATCTGTGAATCACCCCATAAAGCGAAATTACCTTTATCAACTACTCCATCAAAATTAGGTATAGGTTGTTCTATTTTTCCTGACATTGATCCATTCTTTTTATACACAATAACATTTTGTTGTCCTATAGAATACTTACCATTATTCATTGCAAAATCTTCATAATTTTCCCAATCTATATCGTGTCTACCTAGATTTGAAAAGATAATTCTATTAGTAAATAAAAGTATTAATAATAGCTTAAACTTATATTCCATAATTATCCTACCAATTATATCCCATACCTGTTTTAAATATATATCTACCATATGATTTTTGATATACGTTTGCTTCAAAATCTAAATTAATATATAAGTTTTGTGTTGGTTTAAATTCAAATCCCATATTTATATTAACTCTCCAATCATCTTTAAAACTATTTTCTATACTTCTTCCTTTATTAGATATCTTATAACTAGAAAAGTTATACTCTACATTACCTTTTGTATAGAAATCTACATATTTATGTTCTAATCTAAGTCCTGTCTCATAATATAAATTAATTGGGACTTTATGTGATATTTCATAATCTCCTGTTGTATTGTCTTTAGAAATTTTTTTACTTAAGATAGGATTTAATCTATATCCAAATCTATTTAAATATTTAATATCAATATCATCACTTATCTTAAACTTAGGATTTATTCCTACATTTAAGGAATTATTTAAATAAGATAATGTATCATTCTTATCATTATTATTAACTATTGAGAAATTTAACCCAAGTCCTAAATTAATATCAAAAATTCCATATTTTAATCCTAATCTAGGTATAAATCCAACGGATACAAAGTTCTTATTAACTGCATTTTTAGATTTAACCTCAGTATTTAATTTACTTCCTAATACTTTAAAATTAAATCCACCTGAAATTATAACCTTATCAAAGTTATCAGTTTTTTCAAAATTAAGTTCTGCTCCATTAGTAGAAATACTATTCTTATACTCTGTATTTTCTATTTTAGAATAATTTTTATCTATTTTATTATAGTTAATATAGTTAGCTTCAATAGTTCTTCTATATTTTAGTTCATAATTAATATTATTAATTAAATCTAATTCATTAAATATGTATAAATCATTTATTACTTCTTCTTTAACTGTAGAAGTTAAAGATTGAGTTCCATCTTCACTTCCTTCTAATTCAATTCTATAAACACTATCATATTGTTCAAGATTTAAAACTTTAAATTTACGTTCTTTAATCTTAGCTATATCTAATTTTTCTTTATTCTCAAATAATTTATCTATTACTTTCTTTTCAAGTTTAAGCGATGCTTCAACATCCTTATCTGTCTTTTCTATTTCAAGAATCTTACTTTTATATTCAGTTAAATGAATATTAATCTTACCATTTTTTGATTTATACTCTTCTATCTTTAAACTTCTATCTTTTAATAAGATCTCACCAGAGTTTTCTATCTTTTTTAGCTCTGCATCATTTGAAAATTTTAAAATCGATTTTGATCTAACATTAACTTCAGCATTTATTTCACAATCTGAATTATTTATATCAACAATTCCAGCATTTTTTCCATTACCTATATTTAAACTAGATATTTTTTGCTTTTTATTAAGACCATTTAAGGTTACAGTATTATTATTAGCATCTAAATTTAAGGTTTGAATATCTTCAGATATATCATTTATCTTAACATCTTTAGTAGCACTTAGATATAGTTTTGAAAATTCTTTATATCTACTATCAAGTTTTGAAATATCTCCATTTAAATTTAAAGTACCCTCTGATTTACTATCTATTTTATCAAGTAAAGAACCTAAATTATAATTATTATCATCTACTTCAAGTACAGAACCATTTTTCAATAATGCCTTAGCATTACCTAAAGTATTTGAGCTCTTAATCTTTAATTTACCCTCTGTAACTTCAATGCTCCCCTTTAAATCTTTATTATTGTCATTCTTTAAGTAAAGTAATCCTTTGCCTTCTTTTATTCCCTTAACTTCTCCTTTAAGTTCTGCTTCTATAACAGCCTCATGATTATTTTCTATCTTTGCCTTAAAATTATTATTTCCACTATCTTTATCTTTTGAATCATTTTTAAAATCAACTGTTCCTTTAATCACAGTACTATTAATTTCTTCTTCTTTCTTAGCTTCTTCATATGGAGTAGGTCTATCTGTAACAACTTTTCCTAATAAGTTTAGTTCTAAGGTAGCACCTTTTTCAACATTAATTTTTGATTCAACTTCTGTTGCTCTACTTACTGATAATGTTGATGATTTTTTAACATTGATAGTAATCGACTTAAACTTAGCTTCTTTGTATTCATCTTCATAAATTTTAGTTTTTGAAGCATTTGTATCATCAGAACCATGTATAACATTATCTCCCTCAATTTTTACATGTCCCTTTTCAATGTTAAAATCACCTTCAATATTTGTATCCTCACTTCTTATTGACCATTCACTATTATTATCATCAGGATTATACACTAAATCTAACTTTCCTTTAAAGCTCCCTAAAAATACTCTTTTACCACTCTTGGGCTTAAAGGTAAATGTTGATTTTTTGTCACTTTTTTCATTTGATATTTTTGCATCCTTATCCATATGATAAATATCTTTAAATTCTAAATTAGTTCCATTTAAGTTTAAAGTTCCACCTCTATGACCAAATACTACGTTATTATCACTTATCTGATCTATTCTATTTATAGTTAGCTTAGCACCTTGGGCTAATCTAATTACTGAGGCTGCAACACCTTCCTCATTTTCAAGTACTGTTTCTCCTCCACCTAGGTTTAATTCTCCATAATTTCTAAATTTAGATTTAATAATTAGTTTACCTTCCCCTATTTTTCTAACTATATTTCTTTCTCCAAAATGCAATTTATATGTTAAAGTTGCATCTTTATGTACAACAAAACCGGCAGTAATTAATTCTCCATCTCCACTTAAGGTAGTGTCTTGTTTAAATTCTAATCTTGCATAATGTGTATTTGTTTTACTATTTACTTTAACTTCCAAATCCTTTTTGTTAAATATTTGATTTTTTGTCTTATTTGTTCCTTTAACAACATCATCAATAGTTTCATTTTCTCTAAATTCTCTTTCCTCATTATCAACTTTTAATTTATTATCACAAAATTGAACATTTGTTTCTGTTTTTATTTCTTTATCTGTAAGATTTTTCTTTAAATCATCATATACATGAGGAAGACTTAAAAGATATAGACGCTTACCATATCCACCACTTGTAGTACCTTCACTATGACTTGCTGCCATAAACCATTTTTTCTTTTCTTCATCCCACCAGAAAAGTGGAGAACCACTATCCCCTCTTTTAGCTCCTGTATCAAGAGGAGTTTTAGGATCTTGTGATAAAACTAATTGTATATTTCTCCAACGATAAGTTTTTTTATCTGCAACTTTATTTAAACCACCAGCAAAATGATGGAATCTTTCTGTAAAATTATATTCTACTCCATAATTAACAGCTACTGCATTTAACCCTCTACCAACTCTTGCAACTAAATCTCCATATTTAATTTATTCCATTGATCCTCTGTTACTCCATCTATCACATGAGCATCAAAAGCTATTCTATCAGTTCTTAATAAAGTATAATCTTTCTCAATTTTTTGTCTATAATTTGATTTAATATCTTCAGAAAATTTTTCATATTTTTTATCTAATGACAATTCTTTATATCCTTCAAAAAGTTCCACATCATTTCTAAAATGTCTTTTTGAAAAAGTAAATTTCTCTGGTGGAGTAACATGATACACTCCTGATAAAATTTGAGGATCTCCCCACAACGCAAAATTTCCTGTATCGACTACACTATCAAAATTAGGAATAGGTTTATCTATTTTTCCAGAAAGAGAACCATCTTTTTTATAGACTATTACATTCATTCTACCAATAGCATATTTACCTCTATTCATTGAAAAATCTTCATAATCTTCCCAATTAATATCATGTCTAGCTAGATTAGGAAAAATAACTTTGTTAATCATTAGAAAGATAAATAAATTATACTTGTAATTCATAATTACCCTTTCAACATTTATAAAACTGGCTATTAACCAGTTTTATTCTATACATATCTTTTTAAGCTTTAAATCATTTTCAAGTTGATTATAATCTACATCTGCAGGGGCTCCAGTTAATAAGTCTTGACCTTTATTAGTCTTAGGAAAAGGTATTACTTCCTTTATAGAATTTTCTTTTAACATTGCCATTAACCATCTATCAAGTCCAAAAGCAAGTCCACCATGTGGTGGTACTCCATAACTTAATGTTTCTAAGAAAAATCCAAACTTATCTAATTGTTCTTCTTTAGAAAGTCCTAATTCATCAAATACCTTAGATTGTAAACTAGAATCATGTATTCTAATAGATCCTCCCCCAATTTCATATCCATTTAATACTAAATCATATGATTCTGATAATATTTTATCATATTCTTTAGTATCTAAATATTTAATATGATCTTTTTTAATTGAAGTAAAAGGATGATGTGCTGCTTGATATCTTCCTTCCTCTTCTGAATATTCAAACATAGGGAAATCTAATACCCAAACAAATTTAAATTTATCTTTATCTATTAATCCTAACTCTTCTCCAAGTTTTAGTCTTAAAGCCCCAAGTCCGTCTAATACTGCCTTATTTTTATCTGCAAGTATAAATACTATCTCATTATTTTTTAAATCTAATCTTTGAATTAAAGAATTAATTGTTTCTTCATCAAAAAACTTAGATATAGGTGAGCTTATACTTCCATCTTCAAGTTTTTTAATGTATGCAAGTCCTTTCGCTTTATAGTACACTTTAACAAAATCTTCTAAATCTTTAATTCTTTTTCTTGAAAAATCTTTATCTTCACTTACTATAGCTCTTACACTACCACCATTTGATATTGCATCATCAAATACTGAAAATCCTTTTCCATTTACAATATTTGAAATATCTTGTATTTTCATATCAAATCTTAAATCTGGTTTATCTGAACCATAATTATTCATAGCATAATCATAGCTAATTCTTTCAAATGGCTTATCTTCAACTTCACCAGTAACATCTATAAACACTTTTTTAGCTAATCTTTCAACTAGGTTTAATATATCTTCTTGATGTATAAATGACATTTCTAAGTCAAGTTGTGTAAATTCAGGTTGTCTATCTGCTCTTAAATCCTCATCTCTAAAACATTTAGCAATTTGATAATATTTATCTATACCTGCTACCATTAATGTTTGTTTAAATAATTGAGGAGATTGAGGCAATGCATAAAATTCTCCTTTTTGTACTCTACTTGGAACTATGAAATCACGAGCTCCCTCTGGTGTAGCCTTACCTAATATAGGGGTATCTATATCTAAAAATCCCTCTTTATTCATAAATTCTCTAATAGAAAATAGCATGTCATTTCTCTTTTTAATATTTTCTAACATTTTTCTTCTTCTAATATCTAAATATCTATATGTTAATCTTAAATTTTCATTTACATTAGTTTCTGATAATTCAAAAGGTAATTGTTTAGAATGAGAAAGTATAGTTAATTCCCCAGCTAATACTTCTATATCTCCTGTTTCAATATTAGGATTTTTTGAACTTCTTTCAACCACTTTACCTTTTACTTGTATTACAAATTCATTTTTAAGTTTTTTTACTAATTCTTGTAAATTAGAAGGTGAATTTTCATTAATTAATATTTGTGTAATACCATATCTATCTCTTAAATCTATAAATGCAAAATGCCCTAAATCTCTTACTTTATCAATCCAACCAGCTAAAATTACATTTTCATTAACATTTTCTATTCTTAATTCATTTAACTTATGGCTTCTATACATGCTTTATCCTCTCTATCATTTCCGTTATAGTTATCTCTTCTTGATTTCCAGTTTTAAAATCTTTGAAAGTTATCTTTCCTGAATTTATTTCATTTTCTCCTAGTATTAATACATAATTTGCACCAACTTTATTAGCTTTTTTCATTTGTGCTGAAAATCCTTTAATACTATATTCAAATTCTACATTAACATCATTTTTTCTAAGAATTTTAATTATATCAAATAAATATTTTTTAGTTTCTTCAAAATATATTATAAATACTTTTTTATCTTTTTTTGATAATAAAGATTCATCCATTATCATTGATAATCTTTCTATACCTGCTGCAAACCCTACAGCTGGAACTTTAATTCCTGCTAAAATTTCTGTTAGTTTATCATATCTTCCACCACCTAAGATAGTAGACTGAGCTCCAAGTTTGTTTGATTTAATTTCAAATACTGTGTCAGAATAATAATCAAGTCCTCTAACAAGTGATGGGTTTATCTCATATTTAATATTAAACTCATCTAAATTATATTTTAACTCTTCAAAAAATATTTTACTTTCTTCATCAAAAAAATCATGTAATTTAGGAGCATTTTCTAAAACTTTTTGATCTCCTTCATCTTTTGAATCAAATACTCTTAAAGGATTTTTTTCTGCCCTTATTTTTGAATCATCACTTAATTTATCTATATTATTTAATAAATATTTCTTTAACTCTTTAATATATGTAATTCTTGATTCTACAGAACCAAGAGAATTTAATTCAACATATATATCAGTTATTCCTAAATTATCTAAAAATTCACATGCCATAGTTATTAGCTCTGCATCTAGGAAAGCACTTCTTATTCCAAATGATTCAACACCAAATTGATGAAATTCTCTATATCTTCCTTTTTGTGGTGCTTCATATCTATACATAGGTCCATAATAGTACCATTTTACATTAGGGTTACTCTTATGAAATCCTGCATTTAAATAAGCTCTTACAACACCAGCAGTTCCTTCAGGACGCATAGTTATACTTCTATCTCCCTTATCCATAAAAGTATACATTTCTTTTGAAACAACATCTGTTTCATCTCCAACAGCTCTTTTAAAAAGCTCTGTTTCTTCTAATATAGGAGTAATAATATTTGTATATCCATATTTATCAAAAATTTTCTTAGCTGTATTTACAATGAAATTATATTTTTCAACTTCTTGTGAAAACATATCTTTCATTCCTCTTAAAGTTTCAAATTTCATAAAAGCTCCTTCACTTCATCATATATTAACTCATGTATATCATCAATACTTAACATATTATTATCAACTACACAATTTATTATTTTCCAGTTTTTTTCTCTAGCTATATTCAGTGCATTATAGTATGATTTTTTTAAATATTCTTCATCTCTTTCATGTATATCTTTTTTACTATCTCCAGTAAATTTATTATCTCTATTTTTCATCAAATTAAAAGTATATTCTATTGGAACATTTAAAAATATTGTCAGGTCAGGTCTAGGCAATTCAAATTTATTAAATTCTAAATCTTCTAACCAATTTAAATATTTTTCTTTTTCTATTTCATCATCTATTTTAGAACCATGATGTATCATATTAGACCCCGTATATCTATCACTGATTATAACGTAATCTGATAAATATTCTATTTCCCATTCCAACTTATATGAAGCATATCTATCTATTCCATAAAATGTTGAAGCAGTGTACGCATTAACATCTGTGGGCTTAGAACCAAATTTTCCTGATAAATACATCTTAACTAAAACAGATGCATCAGAATTATAGTTAGGAAAAGATATCTTCTTTACATTAATTCCATTATTAACTAATCTATTATATAACTTCTGTGTTTGTGTTTGCTTACCACTACCATCAGTACCTTCTATTATTATTAATTTACCCATATCTATCTCCTAGTATTTTTCTAATATCACTTTTAAACTATGCCAAGCAAGGGTTGAACATTTAATCCTAGCAGGCATATCTTTAGTTATTTCTAAAAGTTTTGCTTCTCCTAACATTTCTTTTTCATTATCACTTACATACTCATCTTTAATTACTTTAAAGAAAATGTTTACAATATCTTTAGCTTCATCAATCTTTATACCTTTAACTAATTCAACAAGCATAGCAGAAGATGCTGTAGATATAGCACAACCACTACCTAAAAAAGAAGCATCTACTATCTTATCTTCTTCAACTTTTAATATGATAGATAAATCATCTCCACATGAAGGATTATGACCTCTTTCAATATCAGTAGCATTTTCTATTTCTCCTCTTAAATCATCTCTTCTATTATACTCCATTATTGTTAATTGATATAATTTTTCTAAGCTCATAATTGCTCCCTAAATCTTTTATTTCATTTTAACATATTTAAAAATTTTTTTCTACACAAAATGAAAGGATTAACCTTCACTTCAAAGTTAATCCCTGTTAGTTTTTTCTATATGGTATTCTATATCATCAATAAGAATTATATTATTTTCAACATTATGTTCCATCAAATCTTTATGAGTTCTAATTAAAATTCCCAAGCCTAAATTTTTCTTTTTCATAGCAATTTGTAAATTTTGTTCACTATCACTCAATGTTTCATTATCTTTTTGTATTTTTATTCCCACAAGTTTATCATCAATTTTTACTCTTAATATTCCATCTAAACCCTTATTTCTTTGAACTATATCACAATCGTATCTACTAAGTATTCTTTTTTCTCTATCAGTTTTAACATCATATTTATCTATTCCATTTTTTAAAAGAGCAGATTCTGTCTTGATTGGATATTCTAATCTATATTTAGCTATACTTATTGCATTAGGATTAATATCAAAGCCTATATATCTCCTATTAAGTAATTTAGATGCTACAGCACAAGTTCCACTTCCTAAAAATGGATCTAATACAATATCTCCTTCATTAGAAGCAATTTTTAATATATTTTCAAGTAATTGTATAGGTTTTTGTGTTGGATAACCAACCCTTTCTTTAGCTTTAGGATTTAAAAATGGTATTTCCCAAACATCTCCTAATGGAACTCCTTTTTTTATTCTATTATATACAACCTTACCATTTTCATCTCTTTTATATATACTTTTTCCATTTCCATCTCTAATTCTATCTTGAAGAATTTGATCTACATTTGTAGTAGGTGAATAATCCGTATAAATAATATTAAATTTATACTCCTTTGATTTTGAGAAATGATAAATATTTTGATGTGAATCTAAAAGACCTTTTTTAGAATTACTCCACCTTTTATATGTCCATATAATTTCACTTACAAAATTACTTACTCCGAATATTTCTTCTAATAATAACCTTATTATATGACTTGCATTATTATCACAATGGACAAAAATATTACCATCATTTTTTAAAACTCTCTTCATTTCAACAAGTCTTATCCTCAAATATTCCTTATATTCTTCTATATCATTCCAAATATCATTAAATTCATATTCAATACCTTCTTTACTCTTTAATTTATGTTTTCTTTGAGTAAAAAATGGAGGATCTAAATATATAAGATCTATAGTTTCATCATACATATTTCTCATTCCATCTAAACAATCTAAATTATATATATCATTTATTTGCATTACAATTATTCCTTTCATCAGCAATTTTTTGTAATATGCCCAATAAATCAATGTCTGTTTCTTTTTTTATATAATCCCAAGCCAAATCACTATAATAATATTGACCATTTACTCCTATATATAGCGTTTTTAAAGTTTCTTGTATTTTTATTGCTTGGCTACGATTAGGATAATAAAACATTATTCTTATTGGAGTATACCCATGAGATTGAATAACCTTAACTCTTGTATGTTCTTTAGTTATATGATCACCGTCCGTTGTAGCATCCTTCCATTTTATTTCATAAGCTTTATTGTCCACAAGACAATCTATTTCAAAAGTTTTTGGTCTATTACTTAAAGTATTATTTACCTTAATTTTCTTTGAATTAGTATATTTATGTTTAAAACATAATATAGTTGCTTCTTCTAAAAAAGAACCTGCATATTTATACAGAAATCTTCCTTTATTTTTATAAATATCTATTAATTCCCCCTCTTTTGTAGACACTCCCAAAACCCTGTATATTAAATAATGAGATTTATCATCATTTTTCATTTCTTCTATTCTTTCATCAACTTTAAATTTTAGATTATTACTATATTTATCAGCTAATTCTTTTATTTTATTATATATTTTTTCAATATTTTTCATTTTATTCACCTCATTTAAACATCTAAAATTATTCAATTAAAAGTTCGTATAATCTTTTTAAAGTATATAATAAATGGTTATAAAAGTCATCTTTCAACATAGTCTTATCTATATAATATTATAGGCAGAATAACATTTCATTTACATAAACAAAACAATATTCTGCCATAATTTTTATCTATTTAATTTTAAATTGTATAAATACTGGATCATGATCACTAAATGCTCCTTGAGCTTTAGTAAATTCAGGATTTATTCTTATTACATCTACATTTACTTTTCCACTATATTCCTTATTTATGAACATATTATCAAGTACTTGGGACATACCTCCATATACATATGAATATCTCTTATTTGGTGCAAGTTCTCCCATAACATCTATAAGTTCATTTCCTCTAATATTTTTAGATGTTGTAGAAAAATCATAATCATTAATATCTCCCATTACAACTATAGAAGCATCTTTGTCTTTAGATAATATCTCTTTAACAAAATTATTAATATATGTAGCTTGCTTATTTCTATTAACTTCTGATCTTCTTATAGGTGGTTGTTGTGGTCCATATATAGGGTCATCTCCTCTTTTTGAGCTTAAGTGAACTCCTATAATATATAGATGTTTACCATTTACATCAAATAAGGCAACTAAAGGTTTTCTTGTTGCAACAAAGTACTCAGAATCAAGTCCTATTCTTCCAGGATTATATTTTAATTTAGCCTTACCATTATTATCTAATATAACTTTAGTATTATCATATGATGTACTTTTATTTGATTCAATTAATTTAACTCTATCTTTTCTATATAATATAGCGTTACGTATATTCATAGATGGCATACCACCATCTTTTCCATATTCTGGATCAACTGCTAAATATCCATATTCTATATTAGTTTCATCTCTAATGGCATCTATAAGAGCTTGACCATTTTTTTCTGAACTTACAACATCACTTGTTGTTGGACCATCATCATCTCCAACCTCTATAAGAGTGATGATATCTGGTGTATTTAATTTATCCTTAACTTGTTTTGCAAATTGCACAGTTCTTTCAGGACTTACAACATGAGCATAGTTCTCAACATTATATGATGCTATATTAATCATATCTTCCCTATAATCAAATTCTAAAACATCAGGTTTTGCACCAATATTTTCAATAGGTGGTAATTCTTCTATAGGTAATATCTTAATATCATTATAGTTATCATTAGTTAATACCCCTATTATATCTCCTTTAAATCTATCTCCTGGATTAGGTGTAAACTCTCTTATAAAATGATTATTCTTCCAATACTTACTTCTTGTAGCTGAAACATTTAATACATGATTTTTTTCATTTCCATATTTATCATATAGTACTCCACCATTTTCTGTAAGTACTGCCTTATCTCTTGCAAGTTTAGGAATTACAAATACATCTCCATATTCTTCCTTATGCCCTGTAATATATGGATTTTTAATTCTTACTACCATACCTTCTAAAGATTCATAAAAATCCATAGCTGAAGCAGTTCTATCAATAGTTAAAACATTATCATCTGAAACATTAACAGGTATTTCATCTCCATATATATCAGTTATCATAGGTTTTAAATTAACATCTATAACTTCTAATTTATTTGCAAATATTGTAGTTACTGTTAATTTAGTTTTATCAAATCTAGCAAATTGTTTTTCTCCTACTTTACCTGAAACAACAACTAAATCTCCTACAGAAATTTTATCCACTCCCTTATATTCCACATAAATTCCCTCAGAAGTATTAGGGTCTTGATCAGGTTTTTCACTTTGTATGTACATCCCCTTATTATATCTATCATTCACCTTATATGTAACTATACCCTCTACATTACTTACTCTTCTATCTAAAAGTGGTGATTGTAAGCCTCTACCTTGTATTTCAGAAATACTTTCTGCATATCCTAAACTTATCATCATAATAAATGATAATAATATTTTTTTCATTTTATTCCTCCTAATTACCAATTGTATGAAATATTTAATCCAATATTTCCTATATATTTATTCTCTTTCATATCATTTTCCTTTGAATAAACATAAGTAAATGATGTAGTAGGTTTAACAGATAACTTATTTTGAATTAACTTAATTTCTGAACCTAAACTAACTTTAACCTTAACTTCTCTATCCTTTGTAGGTTCATCTTCTACTTTTAACTTCTTATTATCATTGTAATCATATTTAGTCTTTGGAACTGTTTGTTGAGTATTTCCATTATTTTTCTTAGAATCATTTTTTTCTTTTTCTTTTTCTCTATATTTAAAGTATTTATATCTATCAAATCCTAAATTTTCTACGTAATCTGTAAAGTGTTTCATATTATCAAATGATAATTTTTTCTCTCTATAATCTAAATCAAGTCCAGTAATCAATGTTACATTATCCTTAATATCATATCTAAACTCATTTTTACTCATTAACCCATATCTATTATTAGTTTCACCATGAAAAACATCTCTTGAATACACAAATTGAACATCTGTCCCTATATATCCATTACCCTTTTTATATGACATCTTAAATCCTGGATTTAAGAATAATAGTAAATTCTCATAATGTTTAATTACTTTTTTAGTTTTAGGAGCTGCTTTAGGTGCTGGTGCTTTAGGTGCAGCTTTAGGTTTAGAAGGTTTTTTAGCCGCAGCTACTTCAAATACAACTTGTGAAGCTTTTGCTTTTCCTTTGCCATTACTACTTTCATCTGGAGCATCTTCTTCTCTAGTAACCATTTCATATTCTGATGCAAAGTTTAAATTAGCTTCTACTTTAAACCCTCTATTTAAATATGTAACTTTGTTATCACTTAAAGAAAATATTGAGTTAGTTATATCGTTTTTAGAATATCCAAACATTCTATAACCTACATTACTCTTACTATCATAAATAACACGTCCATCTCTTCCACTAGACTTATACCCTAATCTTAAAGTAGCATCACTATTATCGAAAAAACCAGTGATATATGATCTAAAGTTACCATCTGTTACTAATTTAAAATTATCTAAAACATTGTATTCAAATATACCTTTCAAATCATAAGAATGATTTATAAAGCTTCTTTTTGCTTTAGCTATACTATTTCCAGTAACAAATTCTCCAAATAATCTATACTTATCTGTTACATAATCTGCACTAACTGACACTTTAACTGCATGGCTATTTTCTGTTATTAATTCACTATTAGAAGATTTCTTTTTATCATCTTTAGATTTTTCAAAAAATACTGAATGTTTAAATTCATAATCTAATTTACCAACTGTTGTAAGATTTTTAATACCTGTATATTTAAAGTAATTTTTTTGTTCAAATTCTAAAAATCTTTCTCCTTTATCTGTTGCTTTTAATCCTGATTTTAAATCTAATTTAGCTTGGTTATAGAAGAAAGTATCTTGAAGTATTCTTGAGCTTGAAAATTTAAAATCTAAATTAAGTGCTCCCCCATTTTGAGCTACTTGTATATCATCATCATTACTATTTTTATGTATTACTTTATTTTTTGATTGTTTTTCATTATTTAAATCATATATAACTTTAGCGTTAAAGAATCCTAAATTATACATAGTATTAGTTTCAAGATAAGCATAAAGTCTATTACTATCAGAATTAAAATTCTTAGTTACATAACTTCCAGAAAGATACACATCTGTTCTTTTAAAACGAGTATTTCCATGGAAACCAAGTATAAGGTTTTTATCATTTTCACTCTTATACCCTAATCTATTTAATGCATCAGTTTTCTGGAAAAAATTAAAGTCATCTCTATATTTATTCTTAGCAGATAAATGTTTTAATAATTCATCTTTAAAACTTTCATCTTCTTTATAATCTAACATAACAAGACTTTTATATGATCCATAAAATCCTATATCTGTCTTATCTCCTAATTTCTTTTGATAACTTAATCCAACTAAACGCTTAATTTTAGAATTTTTTTCTAAAATTTTATCTTTTTTTTCAAGATGAGCAAAACCATATAAATTTTTTTGAGAATCTAAATAAACCCCTATTTTTGCCTTATTATTTATACTTATATCTACACCTTTACCAAATTCAACACTTTCATCTATTTCAAGATTTCCACTCGTGTCCGAAAAAGATGCAATAGCAGCAATTGCTAAAAACCCAAAAACTATTTTATTCATAATTTCACTCCTTCTAAACCATACTATATAATATATTATTACCTTAAAAAAGTAAATTTGTCAATAAATACCAAGCATTTTAAAAACTAAACTCAATTTTTACATATTATCAAATATGTATAAAATATACTATAACAATATATCTTTTAATTTTAATCAAAAAAAAATTTTTTTAATTAAAAAGCTCAACCAGTAGTTAAGCTTAATTTTATTCTCCATATCCTGTATTTTTCTTATTAAATATTATTTCTATAGGAGAACCCTCAAATCCAAAATATTCTCTTAAATTATTTTCTATATATCTTTTGTATGAAAAATGTATTAAATCTGGATTATTAGAGAAAAATACAAATTTTGGTGGTGCTACACCAATTTGAGTTCCATAATTTATTTTAATAGCTCTTCCTTTTCTAGTAGGAACAGGATTTTTAGCTATCATTTCTTCTAATATCTGATTTAAAAGACCAGTAGATATTTTCTTATTGTATTCTTCATCAATCATTTTGACTTGATCTATGATGTTTATAGTTCTTTTCCCAGTAAGTGCTGAAATTGTAACCACAGGAGCATAGTCTAAAAAAGGCATATCTGCTCTAACAAGATCAACAAATTCCTTAACTGTCTTATTATTTTTTTCTATTAAATCCCATTTATTAATTGCAATAATTAATGGTTTTTTCTCTTCAAATATTAACCCAGCAATTCTTTTATCCTGTTCTGTTAATAACTCTGTAGCATCAAGCATTAACACGCATACATTTGCTCTTTGTATAGCCTTAACAGCTCTTAATACTGAATAATATTCTATATCATCTTCAACCTTAGATTTTCTTCTTATCCCAGCTGTATCTATTATTGTATACTTCTGTCCATCATAGTTAAAACTTGAATCTATAGAATCTCTTGTAGTCCCAGCTATATCACTAACTATAGATCTTTCCTTATTAAGTATCTTATTAACAAAAGATGATTTACCAGCATTAGGTCTTCCAAGTACAGCTATAGATAATCCACTTTCTTCCTCTTTATTAACAGTAGGAAATTTCTCAACAGCTAAATCTAAAAGATCACCTAAATTAACTTTATGTTCAGCAGATATTGGTACTACATCTTCAAAACCTAATCCATAAAATTCATACATAACATCTTTATCTTTAATATAGTTATCTATCTTATTAACAGCAACTATAACTTTCTTATCTTCTTTTCTAAGTATTTTAGCTATATCTTCATCTATTGCAGTAATTCCAGCTTTACCATCAACTAAAAATATGATAGAATCTGCCTCATCTATAGCAACTCTTGCTTGATCTTTAATTTTATTCATCATAAAATCATTACTACGAGGCTCTAATCCCCCTGTATCTACTAATAGAAATTTTTTACCAGACCATTCAGTTTCTCTATATAGTCTATCTCTTGTAACTCCAATTTCATCTTTAACTATAGATAATCTATCACCTATTAACTTATTAAATAGTGTAGACTTTCCAACATTAGGTCTTCCAACTATTGCTACTATCACTTTATCACTCCTTTCATGTTTCTATTAAGATTATTCCTTGTATTTCTTTAATCTTATCTAACTCTTCTTCTGAAACTTTTAATTTCATAATTATTCTTTCATTATATACCTTATCTAATATTTCTATATTATTCTTAATTAATTTTGCTTCAACTTCTGTTAATTTAGAATAATCAAAATCTATTAAAATATTTTTTCTCTGTATATATTTTACTATACCTGCCTCATTTATTGCAAGTTTTGCAGTTTTTGCATAATTTCTAATTAAGCCACCAGCACCTAGTTTAATTCCACCAAAATATCTAGTCGCTATTATAACTAAATTACAAACATCTAATCTAAGTATTATTTCTGCCATGGGTTTACCAGCCGTATTAACAGGTTCTCCATTATCATTAAACTTAAAATATTCTTGATTATTTTCAACCACCTTATATGCATACACATTATGAGTAGCATCAAAATGTTTTTCACTTATTTTATCTATATATTCTTCTGCTTCTTTTACAGAGCTTACAGGCTTAATATATCCTATAAACTTTGATTTTTTTTCTATAAATTCTATCATAGTTTCTTTTTCTACTGTGTTCATTGTATAAGCCTTAATAAATCATATATTATTGCTGTAAATATTCTAGTATTTACTATCACATATATTACTAATATTAAAAATACAAAACTATATTTATTAATACTATGTAATATTGTTCTTAGATCATCATCAGCATATGAATATATCATATCAAACATATCAAATCCTGGTAATGGTAAAAGATTGAATAATAATATAGATGAAGCTACTATATATGTAGAACTAAATAAAGTTCCTAGATTAAAAAATAAATAACTATCTCTACCTATATGAAGTAAAGAAAATATTTGAAAATGATATTTAAATAACACTCCTGTTATTAGCATTACTAATAAGGTTGAAAATATAGAGGCAAGTCCAACTTTTAACATACCTTTTCTAAAATCTTTAAATAGTCTATACTTTATTTCTAAATTTTTTCCTTGACCAAATATTATAGGGGATCTAAATAATATAAGTGCAGAAAGTATTAAAATATCAGGTATACCTATATGATTTATAGGGTTAAATCCCATTTTACCTTCAAACACCATAGTAACATCACCAGCTTTAAAGGCAGCTCTTGCTTTAAAAGCCTTTCTAACTGTATTTACTATTATAAAGCCTACTAAATATCCTATTCTATAATCTATCCTCATATACACACTTGCTAATATATATACAACTAGAAGTACTAAAAATATTTTTAAATTTAATTTTTCTCTTTTCCCCATCATTATTTTATAGACTCCTTTATTAATAAATCTAAAGTTTCTGAATAAGAATAACCCATATATAGGGTTGATTTTGGAAGTAAAGAATTTTTAGTCATACCAGGAAGAGTATTAACTTCTAAGAAATATGCCTTATTATCCACTAAAATATAGTCTATTCTTGCAAATCCCTTACATTTAACTGCATTGTATGCTTTAATAGTAAAATCATTTATTTCATTTTGTAAACTCTCTTCAAAGAAGTATACATATTCCTTAGCTCCACCATTTTCATATTTTGATGTGTAATCAAAGAAAGTATCTTTTAATGGTTCTATTAATAAGGTAGGAAAAACTTTTCCCGCTATAATAGGAACTGAAATTTCTATACCTGATTTCATTTCTTCTATCAATACTTCATTTTCTCCTAATTTAAATATCTCATTAAGTCCATATTCTAATTCTTCATCATTAGTTGCAAAATACACTCCTATACTAGAACCACCACGATTAGGTTTAAGTATTATCTTTTCACCTAGATTTAAATCAGAAAATTTAATATTTTCTCCTTTTTTTATGCATCTTCCATTTATAATTCTAACTCCAGAATTTTTAGCTAACACCTTAGTTATATCCTTATCCATACATATAGCACTTGAAAGTATACCACTACCAGAATATTTTATTCCTGCTGTTTCAAGTATAGCTTGAACATCTCCACTTTCACCAAATTCACCATGTAAGGCTATATATGCAAAATCAAGATTTAAATCTACTACCTTAAATATATCTTCTTTTTTAGATATTTCTATTTCTACTACTTCATATTTTGATTTATCTAAATTAGCAATTATTTCTTTACCTGTATTTATAGAAACTTCTCTTTCAGTAGAAACTCCACCATAAATTACACCTATTCTCATTATTTTATCACCTTTTTCATAGCATCAACCACTGGTTTAAATACTTTTTCATTTTCTTCATTTAATCCCATTAATATTTCATGCATTTCTAATATATATTTACTCTTTTCATCCATATTAGAAAAATCATTACCTGATATATGTTCTGTATAATTACTTATATCTTCTTTACTTATTAATTCAATGAATTTAATTATACCTGTTTGTTTTAAAAACATATATGCCTCTTCGCTAGGATTTAGTATAACTAAACTTTTACCCTTATTCATTTTAACATCTATAGAATATTTAGCCACTAAACCTAAAAATGTAGAATCCATATATGTTGTTTCTGACATATCAAAAGAAATTCCTTCAGATTCATTTATTTTATCATCTACAAAATCTGAAAATATTTTTGAATTTTTCATAGTTGCTTTACCACAAATCTTAAATACATATTCATTATTTAATTTTGCATATAAGAAATTATCCATAATATCCCCCTTCTTAAATTTCTTCAAATCTATATTTTTCTCCACAAAAACTACATTCTATTTCTATAAATCCATCTTCTTTTAATATCTCTTCCTTATTTTCATCAGAAAGTGAAATATCTAAAGCTCTTTTCATATATTCCTTATTACAATCACATTCATATTTTATATCATTTACACTTAGTATTTCAATATCTTCTATCATAGGTAACCTATCATATGGAAGCCCCTTATATATATTCTCATTAGCAAATATTTCTTCATCATTTTCAAATATTAAATGTGCTATTCTTTCTAAACTAAAATTATTTTTAAGCATATCTGTAACATTTAATAATCTTTCAATCTTACTTGCAAGCCACGCCATTACATTCTCATCACCATCAGGTAATAATTGTATCATTAAGCCTGAAGCTTTTTCTACATTTAAATTTTCATCATATTTAGTTGAACATATTAATATAGTTTTTGTTTGTTCTGACATTTCATAATATTCATTAAGAGATAATTCTAGTAAATTATCCTTAACTAAAAATACTGAAGAATACGGGCTTTTAAGACCATAATCTATCATTATTTGTAATTTAGCTCCTGTAAGATTATATAGCTTTTCAACTTCTTTTTCATCATTCGTATTTATTGCATTTAATAATTTTGCATGTTTTTCTTCATCTATATCTATCTTAACTGCAATATTTGAATTTATTGTAGATTTAGCTATAAAGTTTTTTAATGCTCCATCACTTTTTAGTGATAATGACATCTTAGTATTATTTGATTTAATACTTTGAGCAAGTATAGCTCCCATAGTTGTTAATTTAGAAACATCTTTTGAATAAAGTATATCAACATTTGTTCTATTTATTACCTCTTTTACTAATTCAGTACTATCTATTATTACAAATTTTACACTTTTACTTATTCCTCTTAATAACATTTATTCTCCTTGTTGTTCATTTAAATTTATACCATTTAAAGTAGTAAAATACTTACCTAAAATATCATCTATATTTTCTTTTCTTAGGAGAATTTTTCTATCTCTTCCCTCACTAATCATTAAAAATTGACTAATTATTATGAGTTTAGGTATATTCTTAGAAGTCATTAGTTCTATAAACACATCTTTAGCCTTAACATCATTTTCACCAAGAAAAGTTTTTTTAAAAATCTGCTTATATGCTAATTCAAATGTTTTCTTAACATCTATATTAGATATTTTAACATTTACAACTTCACTTCCATCTTCTCTTTTAGTCCTATTTTGTACTTCATATTGAAGATTTTCAAGTAATGCATTAAAAAAGACTACCTGAGATTCATTTTTAAAACTAATATTTAAACTATCTATTAATTCTGGATTACTTACATATTCTTTAGTTTTTTCAATATTAAATTCTTTAAAATCTTTCATGAAATTACCTACCACTTTTTCACTTCTTGAAGTACATGATATTGTAAATATAAGTAGATGTAAAAATATTAAAAACTTTTTCATTTTATCCTCACTTTTTAAATAACAAAGAGGACTAGTACCACTAGTCCATTATATTTAGAATGTTTGTCCAAATCCGAAATTAAATTTACCTTTAGATTTACTTGTTCTATCTAAATCCCAAGCATAGTCAAGTCTAACCACTCCTATAGGAGTATTTATTCTTGCCCCTAAACCTATATTATGCATAAATTTATGCTTACCATTATTATTTTTAGCATTTTGTGCTATACCTGCATCATAGAATATTACTGCTTGTATATAATCATTAATATATGTTCTATTTTCAGCAGTAAATGTAACAGCATATTGGTTTCCTGTTATTGGTGCTTTTAATCCTCTAAGAGTTACTCCATCTCCTACAGTAATTAACTGTCCATCTGGAGTATTAGCATGAGAATAACTTGCAAGCAATCTATATGCCATAGAGTTCTTATCCTTATACACTGGATGAAAAGCTCTTAAATCAAGTGATGTTGTAAAATATGCTCTAGGTTTTTTTCTTTCATATTCTTTTGGTGGTGCTGGTGTCGGTGCAGGAGCAGGAACTGGTGCAGGGGCAGGTGCTGATGGAGCTGCTGAACTTGAAGAACTTGCAACTCCATTAGTTCCACTTCCCGAACCTGATCCACTTCCACTTCCTGATCCTGAACCAGATCCAGAACCTGATCCTTGATTTGAACTAGCATTTTTTTCTTTAAATTTAATAGTTCCATCATTTTGTTTTTCAGCAACTAAAGAATTATCTCTAACTATATATCCACCTTCAAAGTATAAATCTGCATAAAGTCCTTTTTTAGGTGTATTTCTATCATCTCTAGTATCATAAATTAAATCTGTTCCTAAGGCAAGTAAGGTATAATCTTGATATACTTGAGTTGCTGCCTCAGTTCCTTTATTTCTAGCGTACACATTTAATAATCTAGGTGATACTGAAAGATAAAGATCTTTAGTTAATCCTTTACCTAATTGACCATTAACACCAAATACATATTGTTTATCTGTAGGTTGTGTTAAATGTTTTTTAATAGTGTCATCTTCGTTTTTCTTAGAGCTATCATATCCTTCTAAATCTTTAGCTTTAACTGATATCTTCTTAAAGTATATTGATCCTCCAACAAGCAATCTATCTGTTCCTTTAATCCATGGATCTTTAAAGTTAAATGCAAAGTTATAGTTTCCTTTAACTCCAGCTTCTCCTGTTAATGAGAATGTTTGTTCTCTTCCTAAGAAGTTAGTATCTTCTAATTTTAATGATCCTGATAGACTATCTTCTGTTGAATAAGAAATATTTGCACTTATTCCTGTAGTTGGTCTTTCAGCAACTATAATTTTTAAAATTAATTCCTCTGGATTTTCTGAACTTTTAATAATTTCATGCGAAAGCGATGAAAATAGTCCTGTTCTAAATAATTCTCTTAGTGTAAGTTCTAATTCTTTTTGATTTAATATTTCACCTTTTTTTACATAGGTATTTCTATCAAATATATATGATTGTGTTTTTAATGCATAATCTTTTGCACTAATTCTTTCATTTTCTTTTGCATTACCTTTTTTCTCATAAACGATGTTTTTGATTTTACCTTCAAGTAATTCTATAGTAACATCTCCATCTCTTGTAACTGTTATATCTTTAAACCCTACCCATAAAAATCCATTTTCAGAATAAACTTTAATTATTGGAGATTCTTCTAATGTAAGTAATCTTCCATTTAATATATCTCCTTCTTTTAATCCTGAAATTTCTTTTAATTGTTCTTCAGTTAATATACTTGATCCTTTAATACTAACTGATTTAATTACTGGGTTTTCTAATACATTTACTTCTACATCTATAACTTTTTCATCAGCAGTTCTATAAACTCTTATTTCAGCTGATCCGAAATATCCTGATGATAGTATTAGATTTTCTAATAATTTTGCATCATAAGGAGTAAAATATTCACCTTTTTTAAGACCAGTTTTATCTATTAAAGGTTGTATATTTTGATTAGTCCCTTTAACAACTATTTCTCCTACTTTAAATTCTGTTTTTCTTTTTAATTCTTCTATTTCTTTCATATTTTGAATTATTTTATCTGCATTAGGAACTTCATCTACTACTATTTTTAATTTAACATTTTCTCCATCTCCTGATGGATAGACATTAACATTTTGTATAAATCCTGTCCTAACTAATGCTAAATATATATCACTTAAATGTTTATTAGTATATTCTGTTCCTTCTTTAACTGGCAATAAATCTCTAACCATCTTTTCAGATAAATTTTTTAAATTGCTAATCTCTATATTATTTATTTTTGGTGCTGCAATTAGCACAGTTCCAAGAGATAAAAGCGAAATTAATATTTTATTCTTCATAGAATATCCTCCTATTTATTATCCAACAATAATTATACCATAGATTGTTATTTTTTTCTACTTAATTACTCTCTAAATTAATTTTATTTTTCTTCTTTTCCTCACTTTTTAGTACCTTTTTCTTTTTAAATAAAGTTGAAAGATCATCTATAATTTCCATGAAACTTCCATATCTATTATCATATTGTAACCCTGTATAGAATGTAGCTGTTCTAGTCCTATTATTAGTAACCTCTATAGGGCTTTTTATACCAGTTGTAGCTGATATTCCCTTTTTCAAGAAATAGTTTAACCACAAGTTATATTTCAATTCATTTTTTATTCTATCAATTCTTAAATCAAATGGAACTGTTAATTCTGCATTCCAATAAATATTACTTAAATTAAATAATTGATTGTTGATATAGAATGTTGTAGTAGTGTTGTTTATGATATCCTTAAATTCTAGGTTGTTTTTATAATCAAAGTTTGCTTTAATCTTAAAATCATTTATACCTAAAGTCGAACTAACCTTATTAGTAAATGTTGAAAACAGTAGATTATTTAATGCTGATGATAAGGCTTTACCTACAATATTTGTAGTTTTAATCTTATCTACATCTAGTAATCCTCCCTCTTCATTAAGTGCTATAATACCTAAGATCTCATTAACATTCTTACCTTGTTCAGAACTTAGCTCTATCTCCCTATTATTTAATGACCCTGTTATTTTTATCCTTATTATATCCTCACCTACATTAGTACTTGCTTTAAATTCTATACTCGGATCAAGATTACCAGTAAATTTAACTGATGATTCTTCCACTTTAAATATATGTCCATTTAAAACAAATTCACCTTTATTAACATTCAAGTCAGAATAAATCGATAAGTTAGAGCTATCAAAAACTACCCTTGCATTACCAAAAGCATTCCCTTTAATATCTTTAACTAATCCAGCAACTGATGGAATATTAACATTAATATCTTTTTCAGTTTCAAGAGATATATCTAAAATATGTTGGTTTACTATATTTTTAATAATTTGATTTTTAAGTTCAGTAAAGTAATCATTAACATTAGTCAACTTGTTTTTAGAACTATTCTTATTATTATTTAATTTTAAAAATGGTGAAACATTAACAATATTTCCATTATTTAATATTACATTACCAAATATTTTATTATTTTCAATTTTAACATCACTAGTAACTTTTAAATTATTACCTATATATTTAAGATTTACATTATCTATTTTAGTATCAACTTCTATAGCTCCTGTTTTAATCTTTTTAGATTTCAGGAAATCATCAGCTATTTCAGGAAGCTCAAATTTTCCTAATACACTGAAACTACCTCCATTTGCATTACCACTTAAATCATTAATACTAATAGTCTTATTCTTAAGATCTATATCAGCATTAATTTTATTTAAATTAGCTATATCTTCAAAAGTTTCAAGTGAGAAATTATTCATATTAATTTTACCTTGAACTAAATTTTTCTTTAGATATAGGTTAAGGTTTGCTATTCCACTAGATTTTTTAATTTTATCACTAATTTCTAAGAATTTTAAGTTAAAATCATTAGCTAATAAATTGAAACTATAATCATTTAAAGCATAACTTACATAACCATCTAATAAGAATGGATTATTTTCATATTCTAAATATGCTCCAGAAATATTCATTATTTTGTCATTTCCCTGTACATCAAAGTATACATCAGTTACTTTTAAACTATTTAATAATAGTTCATCACTTTTAACATTTAATGATGCTAAAGTTTCTTCTTTATTATGTCTAAGTATTAAATCTAACATTATTTTTCCTTTATATGTTTCTGGATTTAATAAACTTATCTTTCCTAAATCTATTTCTTTGTTTCTTATGTTATAGTCTATATTTAAATTAGCTAAGTCAAAGCTATCACTAAATTTAAATACTTCATTATTCTCACTATCTTTGATTTCAAAATTATTAATATTTAAAATTCCAGTTTTAGTAATATTAAAGATATTAGTATCTTTATGATTAATATTTAAAAATACCTTAGGTATTCTATATTCCTTATAGCTTAAATTTTCTATATCTAAATTACCTGTAATATCTGTTTTTTCAAAATTACCTTTAATATTTAAATTAGAAGTTACATTAAGCTTTAAATTATTAATATCAACTAACTCTTCTATATTATTTTCCTTAAGTTCTACATTTACATCATAGCTCTTGTCTTTAATATTGAAATATCCACTTACATTATTATCTCTAATATTCATTTTATTTAAATTGATCTTATTATTCACTATATTACCTTCCATAACAAAATCAGAAATTTTCTTTTTATTTAACATTACAGGGGATTTATCTATAGATATATTTCCATTTAAATTATCTAAGCTTCCATAAACATTAAAAGTCATATTATTTACTATTAAATCTATATCTGGTCCAAAAGTAGAATAAATATTATATGCATTTAAGTTAGATTCTAAGTTTACTTTTCTAGTCTTCAAGTTATATTTCCCTTTTAGTTTAAGCTTATCATTACCAAATTCTTCTACATATATATCTTCTTTTTTAATTTTAACTTTAGATTTAACATTCATAAATCTTTGATATTTAATCCATAATTCATCAACAGATAAATCAAGATCCATATCAAAGTCTTTTAAATTATTTATCTTACCATCTAATACAAGATTTTCATATTCAGCAACATATCCCCCATAAGGACTACTAATATGTATATCTCCCTTAATATTTTCTATATCTCCACTAATTTTAGTATTAAAATCAACCTTCATACTTTCATTAATGTCTTTATCTATATATCCAAATAGTTTACCTATTTCAAAAATATCTATCTTTTTCCCGCTAATCTCATATGAATGAATTAAATCCTTAGCAATATTACCTTTAAGGACTAATTTACCATCTTGAACAGTAACTATTGAAGTTATATCAAAAGTACCATTGTTAACACTTATACCAGCACTAATACTATCAAATATACTTCCATCACCTATAAGACCAAGATTTACATCTCCTGATTCAATACTTTTATCCTTAAAGTTATATACTAAATCATTCAACTTAGGCTTAATTCCCATTCCTTTATCCCTAAATTTAAAGTTTACATGATCATTTAAATCTAGTGATACCTTTATCTTATCTTCCATATTTTTAGCAGAAATATTTGCTGTAAAGCTCTCCTTATTCCCCTCAACTTCATCTAAGTTTTTAACACCAATTTTTTTCATATATTTAACTATATCAAAATTATTTGCTGCCAAATTATATTTATGCTCCATATTTTTAGAAGTATATCCATTTATACTTATATCACCATCACTAGTTCTTGCAATAATATTAGCATCATATCTACCATTATTAACTTTTAACTTTGCATTAAGATTATCAAAATATTTTCCATCATTAGATTTTGCATATATATCTGCATTTCCAGATATAAGGGAATTTTTAGAAAGTGAATAAGTTAAATTATTAATATTAGGTTTAATATCCACATTATTTTCCATATACCTTACATTAACTAGAGATCTTCCTTTAAGTGTTAATTTAACTTGTTTTTTATCATTAAGATATTTCACATTTCCAAAAATCTTTTTTTCATCAAAATTAACCAAAATGTCTTTATTATCTTTTAATTCTACATCTCCATTAATTCTATTTAGATTAATAAAATCACTTCTATTATCTATACTAAATTTACCTTTTCCAGATAATTTTTTAATATTTAGAGCAAAATTTGCACTTAATATCCCCTTAACATTTAAATCTTCATTAATATCTTTATTAACAGAAGTATTCTTAGTCTTAATTGTAATTACATTTTTTTCTTTTAATTTAAAACTTAAATTAAAATTAGTAATATCACTATCAAATACATTTAAATATTTAGTCTTAACATTACCATCAAATTTTTCTATATCAAAATCATCATCTGTAATCTTTAAACCTAAATCTATATCTACATTTACCTTATCAGATTTCCCATCTATATTCAGCTGTTCTATAAGGGAGTATTTTCTTAATGTAGAATAATCTACATTTCCTATATTTGTTTTAACATTTAATCTATTATCATTAATATTAAATTTAATACCTAAATCTATATCTCCATTATCAATTTTACCTTTACCATTTAAATCTATATCATATTTATTAAATTTAACATTAGCATCAACTTTTTTTACTATCCCCTTATATTCCCTATACCACACATCAGAATTATTAATATTTAAATTACCATAAAATTCAAAATTCTCATCATTATTTTCTTTTATTTCCAAATTACCATTAACAATACCACTATGAGCTGAAGCCATATTACTAATAGGTACATATTGAAATAGCTTCTTTGTTAAAATAACATTATTAAAATCAAACTTAAATTGCATTTTTTCTTTATTATATTCATCATATTTTTTTATAGAAAATACATCTAAGATATCTTTTCTTTGATTTGTATCAAATTTAATATTGATTTTTAATTTTTCATTATTATCAGTTTTTGCATATGCCTCTAAATCAAGACTAGATTGAAGCATTCTTATTAAATAACCATTTACATCTTTAAATTCCTTTTCTATAGGTAAATCATATGATTTATCTATATATCTTAGTGAGATATCTTTAAATCTCACCTTATTTATAGATGATAATCTCCTATAATCTGTACTATTGTAACTAGGAAGTATTCTCTTTAAATTTATACCTTCTAAGCTTCTTTCAAATAATATATTACCATTTATTAACTCAACATCAGATATTCTAGTAGGTGTAAATAGATTAATCTTTGCCCGAGCTAGATCTACTGAAATAACTTCTTTCCCATCTTGAGTTTTAAGTCTTAAATCTTTAATCTCTAAATTAGATAAACCATATAATTTAATGTCTGAATAATCTACTTTTAATTCAAAAACATTATTTAATAATAATTTTAAATTTTCTTTAAAAGAATCAGAGCCTATATATACCTTAGCCCCTGCTATCGTTAAAGAAATGGGAAGTATAATAGATAAAGTTCTTCTAACTATTTTCATATTCAGACCTCCTTTGTTATAGTGGTTTTTTACTTGGAATACCTACTCCTCTTGGATATTCTAAGCTTGTTTTTCTATTTTTTCTAATTTCAAGTATTATTCTTTCATCATTACTTATGGGAAGATTAAATTTATGTATATTTTCTATACTTGAAGATAATATTTCTAATACATTACTTGATTCTTCCACTTCATTTAAATTAAGTTTTTGAGGTAAAAATCTTCCATTAGTTTTAATAAAAGGTATCATATACTCAAGTATTATTCTTAAATTAGCAACACCTCTACATAATGCTAAGTCAAATTTTTCTCTATATTTTTTTACTATTTCCTCTGCTCTTTCACTACTAGTTTTAACATTTTTTAGTTTAAGTCTTTCTATTACTTCATCTAAAAAAGCAACTTTTTTCTTAACTGAATCAACTAGTAAAAAATTTTTATCAGGATAATACACTGCAAGAACAAGCCCTGGAAATCCAGCACCTGTTCCTAAATCTATCAATGTTTTTTCTTCACTTCTTATTATTTTAGTAAGTAATAAGGCGTCTATAAAATGTTTTTCTATCATATCTTTGCCATCTCTTATAGCTGTTAGATTCATCACCTTATTTTTTTCTATAAGCATTTCAAGATAAATTATTAACTTGTCTAATTTATCTTCACTAGTATCTATATTAGATAATTTTAAGAGATTAATAAAATATTCTTTCATTAATTTTCTCCTTTTAATTCATAGTACTTAGAGATAAACTCATATACTCTTCCACCTGCTTCAACAGCACCATATCCACCTTCTTCAACTAAGGCAACAAATGCTATTTCTGGATTATTACTAGGAAAATATCCTGCCATCCAAGAATGATGTTTTGCTTCCTTCCTATTTTGTGCAGTTCCAGTTTTTGCTGAAACTTCTACAGGAAGACTTCCAAGTCCCTTAGCTGTACCATCAGTTACAGTCATTCTTAAAGCTTTTTGTAAGTGAGATATATTTTTATCTTTAATATTTAATTTTCTTAAAATTTCTACTTTTTTTCTATCTTTAATTCCATCTGAATTTTCAAAATATTCTATAAAAGTTGGTTTAAGCATAACTCCATTATTTGCTATAGCTTGATACATCATTAATACCTGAAGTGGTGTTGTAAGCATATATCCTTGACCTATAGACATATTAATTAAATCCCCTGGTAACCATTTTCTATCTATTGCTGTTTTAAATCTCTTGTTTTTCCATTCAGGAGTTGGCAAAACACCTGATACTTCTCCTGGAAGATCTATTCCAGTAAGTTCGCCTATACCAAAATCTTTTGCTATTTTAAAATATTCATCTCTATCTATTCTTAAAATATTTTGATAAAAATATGTATTTACAGATTCAGCTATAGCCTTAAAAAAATTAGTAGTTCCATGACCTTTTCTATTTGAATCTCTAAAAGTAACTTTACCATAAGTAAATTCACCAGTTGAATACATAGTTTCATATGGTGATATACCATTTTCAAGTATAGCCAAACCACTAACTACTTTAGCAGTAGATCCAGGTGGAAATAGCCCTGATATACCCCTATTTAAAAGTGGCCTTTTACTAGAATTTAAAAGCTTTTCCCAATCTTTTTTACTTATCCTTGAACTTAGTTTATTTAAATCTATTTCAGGATAACTTACATATGTAATTATTTTACCTGTTTTAACATCTATAGCTATAAAAGTTCCAACCTTACCCTTAAATTGTTCAGTCATATATTTTTGTAATTCATATTCTATAGAAAGATAAATGTTTTTACCAGCTATTGCTTTTTCTTCATCAAGTTTATCTAAAACATTTCCTCTTGCATCTACTTCAACAAATTCTTTACCAGATTTCCCTTTAAGTTCCACATTATATGTCTTTTCAATTCCATCTTTACCTACAAGATCATCTTTTTCAAAACCTTTATCTTTTAATTCTTCATATTCTTTTTCACTTATTAGTTTAACATTTCCCAAAACATGAGAAGCTACTTCATGTTTATGATAATATCTTTTATCATATTCTAAAATATCTATACGTGGATTAGCAATTTTTTCTACTCCAATTAAGGCACTTTTTGAATCTAAATCTTCATCTATTATTATTACTTTATCAAAACCTGAAGGTAACATCTTATAGAATTTATTAATAATATCTTCATATTCCATATTAGTTAATTTCATCATATCTAATGTATCAAAATATATCTCCTCTATCTTTTCACGAGATTTTTTACCTAATTTTGAAAATATTTCTTCTCTTTCAGAATCAGTTTTATCAAATACATTTGTTAAAATTTTTAATTCAGAATTAGATATATTATTACTTTCCTTATGTATAAGTTGATAACCTGTTGTATTACTTACTAATAATTCACCATTTTTATCATAGATTTTACCTCTTGCTGGTTTAATAGTATTAGTTCTTAAACTATTCCTTGCAGCCCTATTTTGATAAAGTTCACTATTAGTTATTTGAAGATTATACAATCTTAAAACTAATCCCAAAAATATTAGAGCTACTATAAACAGAAAAGAGGGAACTCTTCTACTCTTATCTTCTATATCTAATATTCTCATTGTTATTAAACACTTTCATAAAATTCATCTAATTTATAGTAATCTCTAGCATCTTTAGTAAATACGCTAACTATTACATCACCGCCATCTATTAATACCCAATTTGATTCTTCTTGACCTTCTATTCCTTTAATTAAAGGCATAGATTTTTTTAATTCTTGTACTATAGCTTCAACATTTCTAGTTGAAGAACCAGTACACAGTATAGAATAATCAAAAAATGGTGATCTTCCTTTTAAATCATAAACTTTAATATCCATTCCTTTTTTATCTTCTATTACATCTACTACTAATTTTACTATTTCTTCCATAACTCTCCTTATTTAGTTGTTATTATTAATTTAGAATTTAAACTCTTATCTTCTTTTAAAATTGCATTAGGTAATAAGTTTAATATTTTTTTTGCTATAAACACATCTTCTGGATTATGCATTATTACAGTTTCATCTTTAATATCTTCATTATTATACTTATTTTCAATTTTTGTAGTTACCATATATCCCTTAAGTGCATTTTCTACATCTTTTAATCCACCTTTAGATAATACTTCTACATTGTATTTAACATTGGCATCATTACCTGTAACTAATATTGCATCTTGTTCAGGTTTTAAATTAGGATTATTTAGAACCTTAATAAATTTAATATTTACAGTATTAATTAATTTATCTAACTCTTCAGGTGTTAATTTATGGTTAACTATATAGCTTAATTTTTCAGATTTACCATAATTTTCTGATAAAAATTCTATACCTAAAGTTGTCTTTAAACTCTCTCCTAATCTTTTAGCATATCCATCTATACCATTTGCATTTAATATTGCAATTTTTTTACCTTTTAAACTAACTTCTTCTTTAACTTCCTCTTTTATTTCATAATCTTTAGTTTCATCTTTAACAATTAATAATTCTGGATTTTTACTTGACAGATCTAAAGATAAAGCTATAGCGTCTATAATTTTTTTATCTCCTAATGACATTAAAGGAATTTCTGTAAACTCTTCTGGAGCCTTACCTTTTTCTATACCATTAAACCCATGTGGGAAATATTTTTTTAAATCTACTAAGAAATCATCTTCTTCATTACTAAATAAAGAACCTTTAAAGTAATCTGAAACTTTTTTATCCTTAGTAATATATGTATCCTCAGTTAATTTAATTACTGTATCATCGTAATGTAGATAATATGAATTATCCACTCTAACTACTTTATTTCCTTCTATTTCTGCACTTGTTTTATTTCCACAAGAAACTATTGTTAATAATGTTAAAAGTAATGTTAATTTTTTTTTCATATCTACCTTCCTCTTATTCTTTTATATTTATTATACTTCCAGCAAGAACTATAGCTGCCGTTTCTGCCCTTAGTATTCTTTTACCTAAACTAATTTCTATTGCTCCTATAGATTTTAAATATTTAACTTCATCCTTAGTAAATCCACCCTCAGGCCCTATAATTAATAAAATATTACTATCTTCTTTTTTAATTATTTCCTTTAAGTTAAGTGAAGATTCACTATTTTCATAAGCATATATTATTTTATCATAGTTTTCATATTTTATCCTTTTAATTTCATTAAGTATTTCCACATTAGTTTTTTTAATAGCCCTACATTGTTTCATGCTTTCTCTAACTACTAAATCCCATTTTTCCTTTTTCTCATTAATTTTAACTACTACTCTTTCAGTTTTTAATGGAATAATATTTCTAATACCTAACTCCGTTAATTTTTGTATCAATAACTTCATTTTTTCATTTTTTAATAAACCTATAGCTACATCTAAATTAAATGAAAGAGAATAATTATCTTCTTTTTTATCAGATATACTAATTAATATATTTTTCTTATTAATTTCTTTAACTATCCCCTTATATTCATATTCAAAATCTATAACTCTTACTTCATCATTTTCTTTTAATCTAAAAACATTTTTAATATGATTTATCTCAGTTACTTCAAGTATCTCCACTATATCACCAATAACTTTATCAGCTATAACTGTTAACATATTACCTCTTTTCAAGTCCCATATGAGTGTAAGCTAAATCTGTAACTTCTCTACCTCTTAAACTAATTTTTAATAATCCTAATTGTATTAAATATGGTTCATAAACTTCTTCTATAGTCTTTCTATCTTCTCCTAAATGAGTAGCAAGAGTTTCAACTCCTACAGGACCACCAGAATAATTAATTATTATAGATCTTAATAGACTTCTATCCATCTCATCTAATCCTCTATCATCTACTTTTAATATTCTAATTACTTCCTTCATTATCTCATCATTAATTATACCATTACCATTTACAGTAGCATAATCTCTTGATCTCTTTAAAACTCTATTTGCAAGCCTTGGTGTTCCTCTACTTCTAAGAGCTATATCTCTTAATGAATTTTCTCTACATTCTACACCTAAAATATTAGCAGATCTTGAAATTATCTTCATAAGTTCTTCTGTAGTATAAAAATTCATTCTATGTTGTATACCAAATCTATCCTTAAAAGGTTTAGAAAGCTTACCTGCCATAGTTGTTGCACCTATTAATGTAAACCTTTTTAACTCAACTCTATAACTTGTTGCACCATGACCTTTACCAAGCATAATATCTACTTTAAAATCTTCCATAGCCGAATAAAGTATTTCTTCAATATTAGTACTTAATCTATGTATTTCATCTATAAACAATACATCTCCATCTTCAAGTGTAGTAAGTATAGATACTAAATCTCCAGCCTTTTCAAGTACAGGCCCAGATGTTATCTTTATATTAGTTCCCATTTCATTTGCAATAACAGTTGCCATAGTTGTTTTACCAAGTCCTGGTGGACCAAATAATAGTATATGATCTAATGCTTCTTGTCTAATTTTAGCTGCCTTTATAGATATACTAAGTGTTTCCTTTAAATCCTCCTGACCTATATAGTCTTTAAATAACTGTGGTCTTAAAGAATTTATCTCATTACTTATTTCATAATCTTCTAACATTTCATTTAAATCAACAAATCTATTTTCCACAATAACCTCCCTATTCTAATTCTAACTCAATAACATTATTATATACTTCTGCATTATTTTCATTGTTGATATAGTTACCTTTTGATAATTCACCAAATATTTTTAGTTTATCATTTGCAAAATCAACTAAATCTTTTTTCAAATTATTTAATTTATTCAAATCATTATTTCCATCAAAAAACAGGGCTTCAATATTTGTATGATTTGATAATTCCGATATACTTTTATCAATCTTAGCTGATAATTCTGTAGATAATTCTTTTTTAATTATGTTTTTTAAATTTTTAACATCAAAATCAAATTTTTGTATAGCATCAAAATGATTATCTATAATATTTATATCGCTTACAGGGTTTATAACATTGTTATTGGGTTGATAAACTTCAGAAATAAAATCAGTTACATTAATATATGGAAGATAATCTTCAACATTAACATCTTCTAAATATTCTATATATCTTTTTACTATTTCCTCATCTTCAAATATATTAATTTCTTTTTTTAGTTCAATTGGAGAAGAAACTACTCCAATTAAAGATACAAGTAATATTAATTTTTTCATTTCTCCTCCTCATATTTAAACTTGTATTAATCTATTAACCTTACTTAACATTTCATTAATTAAAGCTATTCTATTATTTTTAATAACTTCATCTTTAACATTTATTATTACTTTTTCAAAAAATCTGTTAATTATATCTTTTTTATCAATTAACATATCTATGTCATTAAAATCTCCACTTAAACTTTGTGAAAGATTATATAACTCTTTTTCTTCCTCATTTGTAAATAAGTTAATATTTACATTTTCAACTACTTCTTTTGAAATATTTTTAAGTCTTTTAATTAAATTAATTAATATCTCAAAGTTTTCACTTTTCTCAAGTTCTGAAAGTTTAATTAATCTATTTTTAATATCCATAATAGATGTTACATTATTAATTTGATAAGCAATTAAATTTTTAGAAAAATCTATAGCAAGTATTGCTTCAAGTCTTTGTTTAATGAAATCTAAAATATTTTCTTTTGCATTATCATTTAAGATTTTCTTATCTTCACTAAAAATTTCAAATGCCTTATTAATTAAATCTAAATAATCAATATTAAGATTTTTATTAAATGCAGTTAAAAGTAATCCATTAGTAGCACGTCTAAGTGCATAAGGATCTTTAGAACTTGTAGGAATTAGATTAACTGAAAATGTTCCTACTAAAGTGTCTAATTTATCAGATATAGACGCTATAGTTCCTTCCATAGTTTCTGGAAGTATATCACCTTGAAATCTTGGTAAATAGTGTTCAAATATACCCTTAGAAATTTCTGGCTTTTCTCCTTGTTTTTCAGCATAAATAGAACCCATAAATCCTTGTAATTTAGTAAATTCTTTTTCATTAATTACATTACTTACTAAATCAGCTTTAGATAAATATATAGTCTTTAATATATCTTCTTCATTTTCTAAATTTAGTTTATTTATAAGATACTTAGCAATTTTTTGACTTCTTTCCATTTTTTCAAATATAGTTCCCATATCCTTTTGGAAAGTAACATTTTTAAGCTTTTCTACATTATCATTAAGATTTATCTTTAAATCTTCATCAAAAAAGAATTTAGCATCAGCTAGTCTTGGTTCTATAACTTTTTCATTACCTTTTTTTACCAGTTCTGAATATTCTGGAGCGTTTCTAATTAATACAAATTTATTAGTTAATTTCCCTTCAGAATTTTTAACTGGAAAATATCTTTGATGTGTTTCCATTGTTATAGTTATAATATCCTCTGGTAATTCTAAATAGTCTTTATTAAATTCACCTTTAATAGCATAAGGATATTCAACAAGATTTACTACTTCATCAAGTAAATATTTATTTACTATTACCCTATCTCCATCTTTTTCACAATTTTTATTAATACTATCAAGTATCATTTCACGTCTTTTTAAAGTATCTACTACCACATATTCATTTAATAAGATATCTTCATATTTACTACTATCAGAAATTAAAACTTCTTGATTTCCAAATAATCTCATACCTCTTGAAATATTACTTGCTGTAATACCTTCAAAAGTAAAATCAATTATTTCATCATCTAAGGTTGCAACTATCCATTTAATAGGTCTTGCAAATCTAAATGATTTATCACTCCATTTCATTGTTTTATCAAAATCAAGAGATTTAATAGCCATTTCCATAAGTTCTGGTAAAACTTTGAAACTTTCTATACCCTTAATATTTTTTTCTACATAGATATATTCTCCCTTATCTGTTTTTTCAATCTTTAAATCAGATAAAGTTAAATTTTGTGAATTTAAAAATCCAAGTGCTGCCTTAGTTAGCTCTCCCTCTTTATATGCCACTTGAACTGAAGGTCCAATTTTCTTCTCATATAAATCTTTTTGCATTTTAGCAATATTTTCAAAATATATTGCAATTCTTCTAGGTGAATTGTATTTCTTCTCACCAGAAAATTCTATTCTAGCTTCTATAAGTTCTTTTTTAAATATTTCTAATAAGTCATCACATGCCTTATCTACATATCTTGAAGGAAGTTCTTCAACACCTATTTCAAATAGAAATCTCATTATTTATTTCCCCCTTTTTTTAAAAGTGGATGCCCTAAATCTTCACGAGTTTTAACAAATATTTCAGCACATTTTTTAGCTAAATCTCTAACTCTTAAAATATATGACATTCTTTCTGTAGTAGATATAGCTCCTCTTGCATCTAAATTATTAAATGTATGAGAACATTTAAGAACATAATCATAAGCTGGAAGTACTAATTTATGATTAATACAGTTATTAGCTTCTTTTTCATACATATCAAATAAGGTAAAATTCATACTATTATCACTAACTTCAAAACTATATTTACTCATTTCATATTCATATTGAAATCTTCTTTCACCATATTTAACACCCTCAGCCCATTCTAAATCATAAACATTTTCTTTGTTTTGTAAGTACAGAGCTATTCTTTCAAGTCCATAAGTAATTTCAGAAGGAGTAATATCTACCTCTATTCCACCTACTTGTTGAAAGTATGTAAATTGTGTAATCTCCATTCCATCTAACCATACTTCCCAACCAAGACCCCATGCTCCAAGAGTTGGAGATTCCCAGTTATCTTCAACAAATCTAATATCATGATTTTTAACATCTATTCCTAAAGCTTCTAAACTTTTAAGATAAAGTTCTTGTATATTATCAGGTGATGGTTTCATTATCACTTGAAATTGATGATGTTGATATACTCTATTTGGATTTTGACCATATCTTCCATCCTTAGGTCTTCTTGATGGTTCAACATAAGCAACATTCCATGGCTCAGGCCCTAAAGACATTAAAAATGTATCTGGATTAAAAGTTCCAGCACCTGTTTCAACATCATATGGATTACTTATTATACATCCTTGTTCACTCCAATATTTTTGAAGTATTAGTATTATATCCTGAAAATACATAGTTTTTCCCTTTCTCAATACTTATTTTTCTTTTTTTAATAGGTATATAAGGATAAGAATATATATACCTATATGTATGTATACATCAGCAACATTAAATATGAATTGCCATATACCTCTAAAATCTATCATGTCTATAACATAACCTCTAAAAAACCTATCTATCATATTACCAGTTGCACCAGCTGCAATAAACATTATTGCTATTTTTTTTATTAAATTTGATTTTAAAAAATTTTCCCATTCTGTATATACTATATACCCTATAAGGAAAGTACTCATTATTGTAAATACAATAATATGTCCCTGAAAAACTCCAAATACTCCACCATGATTTTCTATATATGTTAGTTTAAAAAAATCTCCTAAAACAGGTATAGAATAACCAAATTGAGCATTAGAAATAACATACATTAAATGCTTAGTAATCTGATCAATAAATACTAATATAACATACATTAATATTAGAAATATATATTGCATACTATAGTCCTTTCAACATTTTTAATACTTTAGCATCTCTTAATGTAACATCTGGATATTCTAAATCTTGCCCAACTTCTTCAGAATATTTCCAACATCTTTCACATTTTTTACCTAAAGCTCTTACTATTTTAACTTCAAATCCTTCTAAATCAGTACTTTCTAGTTCTTCTGTATTTGTAAATTCAACCTGTGATACAAGGAATATATCTGATATATCCCAATTAGAATATTCTTTAATAAATTCATATTTATCATTAGTTACTTTAATTAATACTCTTGCATCAAGAGATAAACCTATAGAACCATTTTGTCTTTCTTTTTCTATTTTCTTATTAACTTCTTTTCTAAGTTCTCCTAGTATTTGCCATTTTTTAGCAAGTTCTTCATTCATATGTTCTGGTTTAGCTTTTATCCATGAAGCTAAATGTACACTTTCTTCTTTACCTTCATAATCAAGTCTTTCCCAAATTTCTTCTGCTGTAAATGACAGTACTGGTGATATTATTCTTACTAAAACATCTAAAATATCTACTAATACACTTTGAGCAGATCTTCTCTCTAATGAATCCTTATATTCACAGTATAATCTATCTTTTATTATATCAAGATAAAATGATGACATTTCAACAGAACAGAAATAAAGTATTTCTTGGAATAATGAATAAAATTCATAATTTTCATAATGTTTAGTAACTTTTTCTTTTAATTCTTCTAACTTATGCATAGCCCATTTATCTATTTCTAACATATCATCATAAGCTACTTTATTACTTCTATCAAAATCATTTATATTACCTAATAAATATCTTGCAGTATTTCTTATTTTTCTATATGAATCTGTCATTTGTTGTATTATATTATCAGAAATTCTAACATCTTCTCTATAATCAACACTTGAAACCCAAAGTCTTAATATATCTGCACCATGCACATCTATAATATCTTTAGGAGTTATAGTATTACCTAATGATTTAGACATTTTTCTACCTTGTCCATCCATAACAAAACCATGAGTTAATAATTTCTTGTAAGGTGAATCAAATGTAGAAGCTACTGATGTAAGTAATGATGATTGGAACCAACCTCTATGTTGATCAGAACCTTCAAGATAAAGATCTACTGGTCTAATATTATATCCTCTAGGTCTTAATACTGCTCTATGAGAAACTCCTGAATCAAACCATACATCAAGTATTGATCTTTCTTTTCTTAATTCAACATCTTTTAAATTATGTTTGATTAATAATTCTTCTCCTATTATATCCTTAGCACTATATTTCCACCAAATATCAGTTCCTTCTTTTTCTACTAAATCTATTACCCTAGACATTATCTCTGATTCATATACTACCTCATTAGTTTTAGCATTATAGAAAATTGGTATAGGAACTCCCCAAACTCTTTGTCTTGATATAGTCCAATCTGGTCTATTTTCCATCATAGAAGTAATTCTATTTCTTCCCCATGCTGGAACAAATTCAACTTCTTCTAATTTTTCTAAAGTATTTTCTCTAACCTCACCATCAACTTTTATAAACCACTGTTCTGTAGCTCTAAATATTACAGGTTTTTTACTTCTCCAATCATGAGGGTATGAGTGAACTAATTTTTTATGCCCTAATAAATGCCCACTATTTTCAAGATCAGCCATTATTGCAGAATTTGCTTTTTTATAGAAAAGACCCTCATATCTTGGTGCTTCACTTGTCATATGACCTTTATCATCAACAGGAGATAATATACCTATTCCATATTTTAATGATACATTATAGTCATCAACCCCATGCCCTGGTGCTGTATGAACACAACCAGTACCTGCATCTTCTGTAACATGATCTCCTAAAATTAACATAGATACTCTATCATATATAGGGTGCTTATATGTTAATCTTTCAAAATCTTTTCCTTGTATTTCTTTTATTAATTCAAAACTTAAGTTCATTTCATTAAATGCTTTTTCAGCTAATGATTTACTTAATATTAAATTACCTTTTTCTGTCTTATATACTCCATATACAAAGTTTTCGTTTAAAGATATAGCTAAGTTTGCAGGTATAGTCCATGGAGTAGTTGTCCATATTATTACAGCTGCATTTTCAACACCTAATTTTTCATTAGTTTCATCAGTTAAATTCATCTTAACATATATTGAATCAGATTCTACATCTTTATATTCTATTTCAGCTTCTGCAAGTGCAGTTTCAGTAGTAGGCGACCAATAAACTGGTTTTAATCCTTTATATACATATCCATTTTCATATATATCTCTAAAAACTCTTAATTCTTCTGCTTCAAATTCTTTATTTAATGTAATATATGGATTATTCCAATCTCCTAAAATTCCTAATCTAATAAAATCTTTCTTTTGCATTTCTACAGATTTTAAAGCATATTTCTTACAAGCATTTCTTAGTTCTAAAGGCGACATTTCTTTAGCTTTTTCACCTAAATCTTGTATCATTTTCCATTCTATTGGAAGTCCATGTGTATCCCAACCTGGTATATATGGTGCATTAAACCCTTGTAATCTCTTATATTTTAATATTATATCTTTAAGCACCTTATTTATTGCATGCCCTATATGTAAATTTCCATTTGCATATGGTGGTCCATCATGTAAGAAAAAAGTTGGTTTTTCATTATCTAAAGATTTTTCATATATTTTATTTTTTTCCCAATCCCTTATAGTTAAAGGTTCTTTTTGAGAAAGATTTGCCTTCATTTTAAAGCTCGTTTTAGGTAAATTAAGCGTGCTTGCATAATCTACTTTATTTTCTTCTGACATATTTCCTCCTATTTTTTTATTTTCCATCCTTTATTTATCAGTTGTTGTTCTAATTTTTTTCTTTGTATTTCTTCTTTATTATTTTTATTATTTTGCTTTTTCTTTTTATTAGGTTTAACATAATTAGCATCTTTTCTAGTTAAACCAACTCTTCCTCTTTGAATATCTATATCAAGTACTCTAACTTTAATTATTTGACCTATAGATAACACTTTAGTAGGATCATCAATAAATGAATTTGAAAGTTCAGATATATGTATCATAGCATCATTTTTTAACCCTATATCCACAAATGCTCCAAATTTTGTAACATTTCTAACAGTTCCTTCAAGTTCCATTCCAACTTTTAAATCCTCAATAGATAAAATATCCTCTCTTAAAAGTGGTTTATCAAATTCATCTCTTGGATCACGTCTATCCTTAATTAAGGCTTCATAAACATCTTTTGTAGTCTTATCTAGTCCTGTTTTTTCTATTATATTTTGTAAATTAACTAATTTAAGTTTTTCTCTTACTAACTCTAAATCTGTTTTTAATTCATTTACATTTGTAGATGAGCTAGATAAGATCTCTTCTGCAATATGATATGATTCAGGGTGAATTATTGTATTATCTAAAGGATTTTCACCATTAGGTATAACAACAAATCCTGCTAATTGCTCAAATGCTTTAGCACCAAGACCTTTTACCTTTAATATTTCTTTTCTATTTTTGAAATCTCCATTTTCTTTTCTATACTCAACTATATTTTTAGCAATATTTTTCTTAATACCTGATACAAAGCTTAAAAGTTCTGCACTTGCAGTATTAATATTTACTCCAACTCTATTAACTATTTTTTCTATAGTTTGTTCAAGTTCTTCATTTAATTTCTTTTGATTTACATCATGTTGATACATTCCAACACCTATAGATTTAGGATCTATTTTAACAAGTTCAGCAAGTGGATCTTGCAGCCTTCTTGAAATAGATATAGTTCCTCTTACAGTTACATCTAATTCAGGAAATTCATCAGCAGCAACTTTAGATGCTGAATAAACAGATGCTCCAGCTTCATTAACTATAATATATGAAACTTTCTTTTCTTTGTATTCTTTAAGTAATGCTGCAACAAAGCTTTCTGTTTCACGACTTGCAGTTCCATTACCTATTGCAACTATATCAACATCATATTTACTTAAATATTTAAGTATCTTGTTTCTTGCAGTTTCTAATTGTTTTTCACTATGCATTTCCTTAACTAAATAAACTACATCACTTTCTTTAAAGAAACCGTCTTTATCAATTATTGCAAGCTTTGCCCCTGTTCTATACCCTGGGTCTAACCCTAGTATAGTCTTTTTATTTAATGGTGGTTGTAATAGTAATTTTTCTAAATTAGTAGCAAAGTTTTCTATAGCTTCTAATTCTGCTTTTTCTGTTAATATATTTCTTAGTTCATTTTCAATAGATGGATACATTAATCTATCTATAGAATCATTTACTATATCTATGAAAAAAGATTTTAAATTATCATTTTTAAAATTCATATGATACATTTTATTTACTAATTCTTCTCTTACGTTATCATCTATTTCTAAATTTACTTTTAGGATTTTTTCATTTTCTCCACGATTTATAGCAAGTATTCTATGAGTAACTATTTTAGAATATGCTTCTTGGAAATTGTAGTAGTCTTTATATACTTGTTTTTCATCAAGCCCTTTATTTTTTTCAATAAGCTTAGAAACTACTAAAGATTTTTGAGAAAGTAAATTTCTTAAATATTCTCTATTAGTAATTTCCTCTGATATTTTTTGAGCATGTATTAAATGAACACCCTCTAGTGCATCCTCAACACTTAAAATATTATCATTAATATATTTATTAGCTTCTTCTTTTAATATATCAATAGTAATTTTCTCATCTTTTGCAAAAATAGCTAAAGGTTCTAATCCATTTTCTATAGCTATATCAGCCTTAGTTTTTTTCTTTTTCTTATATGGCATATATAAGTCTTCTACTCTTTGTAAAACAGTAGCTTCATTAATAGACTTTTCAAGCTCTGGTGTTAATGCACCTTGTTCTTCAATAAGTCTTATTACTTCTTCTTTTCTTTTCTCTAAATTTCTATAATATGTTATTTTTTCTACTACATCTCTAATTTGTTCTTCATCTAAATTACCTGTAACTTCTTTTCTATATCTTGATATGAAAGGAATAGTAGCCCCCTCATCATATAGCTTCATAGTTTCTTCAATCTGCTTTAAACCTATATTAAGTTCCTTAGAAACATATTTAAATATTTTATTTTCCATTATTTCCTCCATTATTTTCCTATCATACCATTTTATCACATTTTTTTCAAAATTTCTAGATATTGCAAGATATTTAGATGTCTAAAATTAAAAAAGAGAAGCAAAGCATTTTTTACTTCTCCAAATATTAATTGCATGTTTTCATTAAATAATTTATTATGAAATTTAAATATTGATATTAATAATATAGCAAAAACTATGGTGAAATTAGATATAATTAAATATTGTAAACTAACAAATTTTAAAATAAAGCTAAATAAGATTAACATAATAAGTGATGCTATTCTTGATGAAGTACTTTTTAACGATATTAAAGAACTAATATTTTCTTTTGATACTATTTTTGAAAAATTATATATAATAAAATAATCAAGTATCGTAAAAATAGAACAAATCAATAAATATATTACAATTACTAAATATTTATTATTTGATAAAATAATTAAAGGTATTATTATTAATACACTAAAAGAAAAATAAATGTATCTCATATTATTTTTTGCTTTTTCAATAGGGAAATAATATGAGATAAATCCAATAAGTTGAAATAAAATATAGTAAATATATAAATTTTCTTGCTTAATCCCCTTTGTTAAAAATAAAGCTTGCCAAAGTTGAAAATGTGTTTGAAAATATATTTGGCTTACAAGACATAAAAATATATAAATTCTTAAATTTTCATTTACCTTTAATTCATTAATCACCTGAAATAAATGTATTTTTATTTTTACATTTTCATTTAATGATTTTTGATTATTTTTGAAAAAAAGAAGAATTATAAAAAATGAAAAAGCAATAAATAATGCTCCTAAAAGATATATTTTAAACCCTATTTTAAAATATAGGAAAGACCCTAAAACACTACCCATCATCATTCCTATAAACATTATTTGTTGAGATGTTTTTATAAATTTGTTAAGCAATGTTTCATCTTCATTTTTTATGTCATTTATAATTTGAGCATCTAATGTTCCGCTTATTGTAGCTTCATAAAACCCATAAATAAACCAAGCCAATGCTAAAATATACAAACTAGAAAACTTATATATTAAAATAAAAGTTATAATAACCAATATATTAGATAATAAATATAAAAATTTTCTAGAATATTTATCTGCCCAAATTCCACTTGGAAATTCAAATAATAATATTGCTAAACTAAAAAATGATTGTATAAAAAATTATATTTGATATATTTAATCCTTTTTGAAATAATAATACTGTTAATATTGCATGTGGTAATGATCTTGCTAAAACAATCATAAATATTGAAATATAGTAAAATGTTAGATTTCTATTTAAAGTATTTTTCATTTATTTTCACCCACAGAAAATATTTTTTCATACATATTACCTCCTTAATATAAATAAAGCCTATATAAAATAGACTATTTTCTAATTATACATTACTAATAAAATCTTACTAAAGAGAATAACATAAAACATTAAATTAATCAATAAGTCAAGTATATAAGTTGTATATGTTCTAATATATTTAATATATAAATTGTTTTGAAAATTATATTTTATTAATAGATTACTTTAAACATTTACTCAAAACTTTATATATCTTTCAAACTATTTTTTATTGTAAAAATTTTTCAAATATTGAACATTTTAACAATATGAAATATCTACCTATTTACATACTATAACTACCACGCTTAAAAAATTATTATTTATCATCATTAATTACAATTAAACCTATATTTACAATAACAATTTTGCCTTATTTTATTTAATTAGAATTGTAATATGTTAAAATAAAAAAATAACTTTTGACTTTCAATAATTATAAAGTTATAATTAATGTAGAAGAGATAGTAGCTACATTCTTTAAAAAATAATAGAAAGCAGGAATTTAAATGAAAAAACAATTTTTAGTTTTATCAGTTTTATTGGTTTCTTTAACATCATTCTCTAACGGTATTTCAATAGGTCAAAACAACGACTTTTTAAACGAACGTCAAGAAGTTTGGAATACTAAAGATTTTCTTTATGAAACTGGGAAAGGGGCGGTTTCTAGTGCAGTAGCCGGTGCTGTTGTAGGTGGGGCAGGTGGAAGCGTTACATTACCTATTGTTGGAACTGTTGCTGGAGCAAGTGGCGGAGCAATATTAGGTGCTGTTGGTGGTGCAATTTCTAATGCTGGTGAGTATATAATTGATGAAATTGCAGGAAAACACTAATAAAATCACGAGGTGAATAAAAATGGATAAATATACAATAATTAAATATATTATGATGTTCTTACAAGTTTCTATTGCAATTTTAGTTTATAGAAAATTTTCACAAGATAATAACAATAAAAATGAAAAATAGAGGTGAGAAATATGATTAAATATTTAATATTTAAATATACAATAATTACAGCAATAAATATTACTGTATTCTATCTTTTGGCACGTTGGGCAAGATATAGTAATAAGAAAAAATAAAAAATTAACCAGAGATAATATCTCTGGTTTTATTTTATTCTAAGTTTAGTATTTGATAAAGCTCTTAAAAAATCACTATGAAAATTACCTATTACATCTATTTTTTCTAATGTAATAGGATGAATAAAATTTAACATATATGCATGAAGCATTTGCCTATCATATTCATCTTTTCTACCATATACGCTATCCCCTAATATAGGAAAGAAAAAATGTGAAAGATGTACCCTAATTTGATGAGTTCTTCCTGTTTCAAGATCTACTTTCAATAAAGAAAATTTTTCATTACTATCTATAACTTCAAAATTAGTAATAGCAAGTTTACCATTATCAACTACTGCCATTTTCTTTCTATCATTAGGATTTCTTCCTATCATAGTTTCAATTCTTCCACTTTTTTTATTAACTTTTCCTTTAACTATAGCATAATATATTTTCTTTATTTCCTTATTTTTAAACATTTCGGATAATTTAAAATGAGTTTTATCATCCTTTGCTATGATAATTAAACCTGATGTATTTTTATCAAGTCTATGAACTATTCCTGGTCTTAGATCTCCATTAATACCTGATAAATCCTTAATTTTATACATGATAGCATTAACTAGAGTATCTTCTTCATGTCCCTTAGATGGATGAACTACCATTCCTGCATATTTATTTATTATAGCTAAATACTTATCCTCATAAACTATATCTATATCTATATCCTGTGGAATAATATCAACCTCTTTTAAAAGAGGTATATCAATAAAAATCTCATCACCAAAATTAACCTTATATGAAGCTTTAGTTTTTTTTCCATTAACTAAAATATTATTAGATTTAATAAGCTCTTGTATTCTACTTCTAGTTTCATCCAATTTCTTTGATAAATATATATCTATTCTTTCTAAATTAGAACCAATATCCTCAACTAACATCATCCACTCCTTGAAATTTTTTCATATTTTCATCTACATTTTTATCATGATGAATTAATATTAATCTTGCAAGTTCCTTATTGTATTTATAAAGTCTTTTGCTACCTATTTCCATATGTTTTACAAGTCTTGTTTTTATTCCTATCTTATGCATAACTCTTAATAAAAAAGAAGCATTATCTTTTCCATTATCATGTAAAAGTGCAAGTTTTAAATATATTTCAGGTAAATTAATTTTCTTAACACCCTTAAACACATTAATACTATGTAATTTATCATATTTACTCTGAGATAAAAAAATTCTTTTTTCATCTTCACTTAATATTTCTAATATTTTCTCCATTTCTTCTATATCTATCTTTTGAAAAAAATATTCATAAAACTTTCTTATCATAAATACTTTTCTATTATTTCATCTACTGTATTTACACGAGTATCCTCTTTTATACCCTTTTCACCTTTAACCTCGCCAAATCCCCAATTACAATAAATAAAATCTATTCCTGAATTTTCAGCAGTTTCTTTATCTACTAACATATCACCTACAAAAAGTATATCTTCATTTTTTAAATTTAGCTCATCTCTAAGTCTTAAAACATTTATATTAGACGGTTTTCTTTCATGTATTTTTTCAGGATCTACTCCTATTATTTTATAGAAATTATATGGTTTTAATTCTTCTATCATACATGATTTAACTGCTAAGTCATGATCCTTATTAGTAACAACTGCAAATTTTATGTCATTTAAAGTCAGATGATCAAGTAATTTTTCTATTCCCTTATATGGTTTTAGATTATAGTCATATTCTTTGTCATATATTTTAAGTAAAACTTCCATAATTTCATCAACACTTTTATCATATTTTTCTTTTTCTATTATTATCTGTACTAATTTTCTTAATCCATTACCAACAAAATAATTATACTCCATAGGCTCATAAGTCTTTAATCCAAAATGTTCTAATGCTTTATTAGTTGCATTAGCAATAGCATATATTGAATTAAGTAATGTACCATCTAAATCAAATATCACTAACTTTTTTTTCATCTTTTCACCTTTTATTATATTTTTTAATTACTTAAGAACTGCCCAATTATCTCCTTCACTTCCATTAACTTTTAATACTACATCATCAAAAACAATGGTATTTTGCATAATATCTCTTATTTCTTCAAAAATATTTATATCTTCCCTAACTTCAAATATTAATTCATCGTGTACTTGAAGTAACATTTTAACATTATCATTACATAATTTGTCATATATCTCTTTCATAACTTTTTTAATAATATTTGCAGCAGTTCCTTGAATTACAGTATTTACTGCCATTCTTTTTGCCTGTTCTTTTATATTTATATTAGATGAATTAATATCATAAACATATCTTCTTGTACCAAATTTAGTTTCAACATAACCATCTTTTTTTGCTTTTTCTATAATATCATCAAGTAATATTCTTACTTTGGGATATTCTTTAAAATATGTATTTATATATAGTTTGGCATCTGAAACTGTTATTTTAAGCTCCTTAGATAAACCAAAAGGAGTTTTACCATAAAGAACTGAAAAGTTTATTACCTTAGCTATATTTCTTTGTGTTTTACTTACTTTTTCATCATCTTTTAACATAAATATTTTTCTTGCTGTTAATTCATGTAAGTCTAAATTATGTTTATATGCATTTATTAAATTTTCATCTTTAGATATTTCTGCAAGTACTCTTAATTCTATTTGTGAGTAATCAAAAGATACAAGTTTCATACCCTTAGAAGCAATAAATCCTTCTCTAATTTTTGTTCCCTCATAAGTTCTTGTAGGTATATTTTGAAGGTTAGGATTGCTAGATGATAATCTTCCAGTAGCTGTTCCAGTCTGATTATATGTAGTATGTATTCTCCCATTTATAGAAAGCTTTAATAAAGGTTCTACATATGTCGATTTAAGTTTTACAAGTTCCCTATATTCTAATAACAGCTCTGCTATTTTAATCCCTCTATCTCTAAGTAACTCAAGTACTTCTGCATCAGTTGAATATCCTCTTTTATTTTTTTTAACGCCTTCTATACCCATAGTTTCAAAAAGAACTTCTCCTAATTGTTTAGGCGATGAAATATTAAAACTTTCTCCACTTTCAATATATATCTTATTTTCTATATCTTTTATCTTTTTTTCAAGTTCTAAGTTATATTTTTCAAAATAGTTTTGATTTATAGCTATACCTTGTTTTTCCATATATATTAAAACATCAGTAAATTCTTTTTCTTCTAAATATATATCCAGTTGATTTTCTTTTTCAAGTAAGTCCATAAATACTTCTTTTAATTTAAAAATAGCATATGTCATAGTTATTAATCTATTTTTTCTATATTCTATAAAACTAGTAGCATCAAATTTATTTAATATTTTTTTATCTATTTCTTCTATAGAAAGCCCTAGTTTATCAAATGCCATTGTTTCTAATTTTTGAGATTTATCAGTCCCTAATGTAAAGCTTGCAAGTAAAATATCAAAATAGTTTTTAAAATTAATTCCTAAATTTTTCCATTCTTTACCTGAATATATGCATACATTAAGATTACTATCAATATCTCTAATACTTACACCTTTTTCAAAAAGATTTCCTATTTCTTCTGAAATATCAAAAGTATAATGAACTTCATCTTTATTACAAAAAGCTATACCTTCTTCACCAAGATATATAGAAATTTCTTCATTTACACTATTAATTTTAGTTATGAAATCATTTAAACTTGGATACTCTATTTCATTTATTTTAAGATCCATTTTAGGTTTATCTTTAACTAATTTTTCATATTCTTTTCTTAATTCATACTTTAAATATATTTCTGAAAGCTTATCAAAATCTTTTTCTTTAATTTTAGCATCCTCTATATTTAAATCTATATCAAGTTCATCAAATACAGTTGCTAACTCTCTACTAATATATGCTAAATCCTTTGAAGCTATTATTTTTTTTTGTAATGCACCTTTAATATTATCAATATTTGCATAAATATTATCTATATTATCATATTCTGCTATTAATTTAGCACCTGTTTTAGGCCCTATACCTAAAACTCCAGGTATACCATCACTACTATCTCCTATTAGTCCAAATAAATCCTTAATTTGATAAGATTTAACACCTAAATATTCTATTACATCTTCATCATTTTCTATTATCTTATATGGTTCATTTTCATCTTTTTTTCCTAAAAGGGCAATAGAAGTATTAGGGTTTATAAGCTGGGCTAAATCCTTATCTCCTGTAAGAATTATTATTTCATAATCTTTAGAATATTTTTTAGAAATAGATGCTATAACATCATCAGCTTCGTAACTTGGAATTTTTATTATAGGAATACCATATCCCTCTAAAATTCCATCTATAGCATCTAATTGCATCACTAATTCATCAGGCATACCACTTCTATTTTCTTTATACTCTTTATATATCTCACGTCTTTTAAGTTCAGCTCTTTTAACATCTTTAGCTGCTATTACATATTCTGGAGAAAAATATGAAAGTGCAAGTTCCAACTGCTTTATAAAGCCTAACATAGCTCCTACAGGTTCTCCATTTGAATTTCTGAAATTCATAAGAGCGAAATATGCTCTATACATAATTGCACTAGTATCTAATATCAATATTTTCTTCATATTTTTTACCCCTATCTAAAATATCTAAATATTTGTTCATATATTTTATCATTATATATGCCTTTATGAAATTTTTCCTTTTCTAATTCATTATTTTCTATATCTTCCCTAATACTTTCAGGATATTCTGAAAATATTTTTGTAACTTTAATTCCATCAATAATAAATAAAGCTGGTATTTTACCTTCTGAAGAATATTGGAGCAAAAGTTCTTTATCTTCACTTCTTCTCCTATAATCCACATTCATATTAGGAATAAATTTTCTCATAGCTTCAAGAACAGCTATTACTACAGAACAATCTGGGCATTTAGGATGGGCAAAAGCAAGTATTTTAATTTCCTTTTCAACACTTGATAATTCTTCTTGCTTCTCCTCTGATAAATTTACTTCACCTAATAATCTTATTTGATTATCCATGTATTTTATTTCATCTGTAAATCTTAAATATTCTTTAAATGTCGCCATTTCTTCTCCTTATTTAGAATTATTTAATTTTAGCATTTTATTATACAAACCATTTAATTCAACTAATTTTTCATGATTTCCACTTTCTACTATTTTACCTTTATCTAACACAAATATTTTATCTGCATTTCTAATAGTTGAAAGTCTATGTGCAATTATTAATGTAGTTCTATTTTTTTTAAGTATTTCTATACCATTTTGTATAATTTGTTCAGTTTTACTATCTACATTAGCAGTAGCTTCATCTAATATTAATATCTTAGGATTTTTAGCAAGTGCTCTTGCAAACGAAATTAATTGTTTCTCACCAGTAGAAAAATTATTCCCATCTTGCATTACTTTACCATCTAATCCTCTTTCATCAAGAATGTATTTTGCTCCTACCATTTCAAGAGCATTTCTAGCAATTTCTTTATCTTCAGATATATTATCTCCTATAGTTCCTTCAAATAAGAAAGAATCTTGTAATACTATAGCAATATTATCTCTTAATGTATATGTATCTATATCTTTAATATTTAAACCTGATATCTCAATTTTACCTTTTTGATTTTTATAGAATTTAACTAATAAATTCATTATTGTAGATTTTCCACTTCCAGTATGCCCTACAAATGCCACAGTTTGATTTTCTTTAATTTCTAAGTTAACATCCTTTAAAACATATTCATCTTCATATGCAAAATATACATTTTCAAATTTAATATTACCATCTATTTTTTCAGGTTTAATTAAATCATTTTCATCTTCTATATTTAAATTTAATAACTCTGAAATATTTTTAGCAGAACCTTTTGCTTTATAGTAATATGATAAATTAACAGTAAAATTACTTAATCCATTTATTATATTTGAAATATAGAAAATAAAGACAAGAGTATCTCCAGCCGTTATTAATCCTAAATCAAATGTTGCAGAATAAATATAGTAAAATATTATTGTAAGCTGTGCTAATTTTGTTAAAAAATCAAATATATTATGACTAAAAAAAGATTCTAATAAAGTAATTATCCTATCACTTTCATATCTTTTATGTGCTGAATTTTCCCAATCTTTAAGCAAGGCTTCTTGATTATTAAATGCTGCAACCACTTCTAAATTTTGACACATTTCATTTGCTCTACCATTACAAATAGAATTATATTTTCTAATATCACTTGAATAAGTGTATGTTAAACTCTTATTATATTTTTGTAATATTATTACAATAGGTACATATATTAATAATATTAATGATAATCTCCAATTTATATACATCATTACAGAATAGATTATACCCAATTGAGATAATACTATCAAAATAGAAAGTAAGGTTTCAGAAAAGAAAGTTCTAATAGCCTTTACATCGGATGTAATTTTAGAAAGTACTGAACCTGCTGGTATATCATCAAAATATTTAATAGGTAACCTTTGAACATGATTATATATTAAAATTTGTATATTAGTATATACAATATTGGCTGCTATTTGTAAAAGCTTTTTTCTATATACCATAAATACTGCTTCAAGTATTTTTAAACTAACATATATTAATGCTATAGTTCCTACAAATGAAAATACCTTATTTACATCAATACTTTCTATTTCTTTATCAAAAGCAATTGCTATTAATTTTATAGTTCCAATTTCTAAAATCATACCTATTAATAATACAATCAAACCTATAGTATATTCTTTTTTAGCCTTTTTCATAAATTTAAAAAAATCAAATAAATAGTTCTTATTTTCCATAAGCTTCTACCTCCTCCTTATTTTGATACTCATATAATTCCTTGTACCATTTTGAAGAAAGTAATAATTCATCATGAGTTCCTATTTTTTCTATTTTACCTTCTGATAATATTAATATTTTATCAGCATTAATAACACTACTTATTCTATGTGAAACAATAATATTGGTTTTACCTTTTCTATTTTCATTTAATCTTCTAATAATATTTTTTTCTGTTTTAATATCTAAAACTGAAAGAGAATCATCAAATATTAATATTTTAGGATTGTTTATTATAGCTCTTGCTATAGATAATCTCTGTTTTTGACCTCCAGATAGTGCTATTCCATTTTCTCCAACTAAAGTATCAACGCCTTTTTTAAATCCTTTAATATCCTTATTTAAATCAGCTACCTCCAAAGCATATTCCAACTTATCTTCAATATCTCTATTAAATAATACATTCTCTTTAATAGTTTTAGAGAAGATAAAGTACTCCTGAGGAGAATAACCAAAATTTTCTCTTAATGAAACCAAATTATATTCTTGTATAGGAACATTATCTATGTATATACCCATACTACCTTCATAAAATCTTAATAACTGCTTTATTAATGTGGTTTTACCACTACCAGTTTTACCAACTATACCTATAGTATCACCCTTATTTATTACTAAATCAATATTTTTTAATGTAGGCTTACCATCATATGAAAAAGAAAAATTTCTAAATTCTATTTTATCTGAAAATTTTAATTTTTTCCCATTTTCATTAATTAAATTATCATCTTTTAAATCAAGTATATCTTTTATTCTACTATATCCAAGTTTCATATCAAAACGACTGATAAAATAGCTTGCAAAAACAGTATATGGCCAAGGCATTAAAAACATTATAAGGGAAACTGATATTATTGTCCCAAAAGTAATATTTCCATAAATGTATTGATAATAACCATAAATTATTAAAGAAAAGTATGAAAATCCTACAGCAAGTATATTAATACCATGACTATATATACTTCTTAACGAATAATTTAAATGAAGTTTAGCATATTTTAAAATGTTATCTTTAAATTCATTTGATAGTTTATTTAACATATTATATGATCTAACTATTCTAACTCCTTTAATACTTTCAAGTGTTTTATCAGAAATATCATCAAATTTTTTAGTCATTTCAGCATAAAGATTTTCGTATTTTTCTTTTTGTGATATTATTACATATGTTGCAAATAGATATGGAATATTTATTAAAACTACAAATATTAAATCTATTTTAAATAATATAAATATGAAAATTATCAATACCCCTAATACTCCTCTTGTAAAGCAATAAAGTCCCCATGAAAAATATACCGCAATATAGTCTTCAACATCTCCTGTAATTCTACTTAAAATCTCTCCAACACTAATTTTTTTAAATATTTGAGGATTTTGTTTCAATACTTTTTCTAATATGATTTTTTGAATTTCATATAGACTTTCATAATAGTTTCTAAAAACATAGTATTCATAAATACCTTGTATGATGTAATAAGCTATTGCCATTATAAGCATTAATATAACCCTATATTTTATTTCATCTGAACTCATAGTTTTATTATTTACACCATCTACTATCTCCCCTAAATAATCTAAAGGAAGTATTGTAAACAACATTATTATTAAATTTAATATGGCTACAAAAAATAATCGCCATCTTTTTTCCCAAAGTAATTTATTTATCATATTTTATTCCCCCTTTTTAAATTATATCTATATATAAAAATACCTGTTAATGTTATGATTAAATATCCCATAATACTATATTTATCTGGAAATTCTCCTAAAAATATTAGCCCCAAAACAGAAGAAAATATTACCTGTGAATATTCAAAAACTGAAATTTCTTTTGCAGGAGCAAAATTATATGCAAAAGTTATACCATATTGCCCCATAGCTCCAAATACTCCTATTCCAATTAGTAATGTTATAGTTTTTAAGTCTAAAGGAGTTCTATCTATTAACACATATGGTAATAATACAAATGTACTAAATAATGAAAAATAGAATATTATAATAAGAGGTTTAACCTTACCCCTTATAGCTAGTCCTCTAATACAAATATATGCAAATGATGCACAAAAAGCACCAAGTATTGCAAGTATATATCCGTAAGAAAAGCTAGAACTTCCTGGTTTAACTATTAATATTACTCCCAAAAATGACATTATCAATGCAAAAAATTGAACTTTTGTAAATTTTTCATTAAAGAATAAATAGGAAAGTAGTAACACAATGAAAGAAGATAATTTCTGTATAGTAGTTGAATCTGCAAGCAATATATATTTTAGGGTATAAAAATTAATCATTACTCCTAAAATACCAAAAACTGATCTCGCAAACATTAATTTCCATTCACTTTTTTCTAATTTAAAACTTATTCCTTTTACCCTTATAAGTATGAATGTAATAAATATTATTACTATATTTCTATAAAACAATTTACTTGCAACAGAAACATGTGGCAACATTTTCACTATCATCTGTAATGTTGAAAACCCTATTGCTGATAATAATATAAAGAATATTCCTAAATAATATCTTTTTCTATTTTCCATTTTAACTCCTTAAACAAATTCAACAAAAACTTCATTAGATAATAGCACACCTTTGCTAGTAAGTTTTATTCTATCATCAAATCTTTCTATTAAACCTCTTTCTATTAATTTATCTATTTTTTCATTAGGTGTGTATTCTACACCTTTTATTAACATTCTAAGACCTAAAATATATTTTAGGTTTTCAAGTTCTACATCATCTACTATTTCTATAGTTTTTTCTTCTATTGGTATAATATTTTGATCTATTAACCTATAATACCTGGCTAAAGATTTAACCTTTGCAAATCTTTGATTGTTATAAAAACTTGTTGCATTTACCCCAACACCTATATATTCTGTATTATTCCAATATTTAATGTTATGTTTACTCTCTTTTCCATCTTTACAAAATGAAGATATTTCATAATGATTATACCCACTTTTAACAAGTCTTTCTTGTATTTTAAGGAACATATCTGCTTCTAAATCTTCATCTAATGCTTTTAATTCACCTTTTTCAAGTCTTTTTGTGAAGTTAGTTCCTTCCTCCCATATCAATGAATATATAGAAAGATGTTCAGGTGAAAGTTCTAAAAACTTATCTAAATCATTTTCTAACATTTCCATATCTTGATTAGGTACTGAAAATATTAAATCAAGTGATATATTATCAAATCCTGCAATTCTAGCATTTCTATAAGTTTCTATAGCTTTTTTAGAACTATGATCTCTATTCATAAATTTAAGCATATCATCATTAAAACTTTGAAAACCTATACTTAATCTATTTATTCCTGCATTTTTAATATATTTAAGTTTTTCTAAATCCATATCACTAGGATTTAATTCTAAAGTTATTTCAGCATTATCAGTTTTCTTTAAATTATCTAGTATTTTTCTTATTTGCTCTCCATTAAGTAAAGAAGGTGTTCCTCCTCCAAAGTATATAGTATCGTATATATATTCTGGATATAGTTTTATTTCCTTAATAACATATTCTACATATCTTTCTATCTTATCATTCATATTTATGAAGACATGAAAATCACAATAATGACATCTCTTATTACAAAAAGGCACATGTATATATATTCCTGTTATATTTTTCATATTTCTCCAATATATAAAAATATACCATAATTTTCTACAAAAAACATACAAAATCTTATGGTAATTTTTAAATTTTTCTCTATTTTTAATAATTTATTTATATAGTTTTTACTATATTATTATACTCTTTTATCTTTTTTATGTCAAATGTTAGAATGAATTAAAAAAGGCTTTATATCCTAATTTATTAATATTATAATATTTTATAAAATCAGCTATAATTTAAATGTAGTATATATAATTTAATTTTAAATTTAAAGAAAAATAAATATATCTAAATACAAAAAGGGGTATATTTTGCAAAGCACACCTTAATCTCTATACAAGATTTTGTACAATGCACAATATCCCCTTTTTAGGTATATGTTTATATCAAATATTTAATGATAGCAAAACAATTAAATAACATATGAAATATACAATTCACTTTTAAAGAATTTGTCTTATAATAAATTAATGAAATTATTATAGAAATAGGTAAAAATAAAATAAAAATTTCTAAATTAAAATATGAATGAGCAAATGCAAATAAAATTATTGAAACAATCAGAGCTAATTTACGATTTTCTAAATATGTGAAAATAATTTTCCTAAAAAATAATTCTTCTTCTATTGGAGAAAATACTATTATCTGTAATATCAACAGTAATTTATTAACTGATTTATAATAATTCATACGTTTATGAAAAATAATTGTTTGTTCTGTTGAGTCCAAAAAAAGACTTAAACTTACTTCTAAAACCAATGTTATTATTATAACAATAATGATTATCAATATACTTTTTAAATTTAATTTATAATATTCTTTATTATTTTTTGATAAATAACTAAATAAAGTAATTAAAATAGTTGAACCAATTAAATTAATAATAAAAACTAAATCTAATGTTATTAAATCTTTATTCACAAAAAATTCTACTACCTTAAATAAAAATAAATTTAAATAATTTAAAAGAAAAAATAATAATAAAATTTTTAATAAGTTTACAATTATTTTCATTTTATTATTCTGTATAACAAGTTCCATTTAATTCAGGAGGACAAACTTTCTTTTCTTCATGAATTTCTTTTTCAGTTTCTTTTTTTTCAGACTCAGTACCATTGAATCTTTCAGAAATTTCGTTTGAAACTTTATCAACAACAACATCAACAACTTTACTTACAACAACTTCAATAATTTTTTCTTTTAATCCTGTATTTTCAATATCTTTTAGGCTAATTTGATTATCTTCTTTAAATTCAATATTAGTACTTTTTTTAAATTCAATACCATTTGACTCCTCACTAAAATTAATAGTTCCTAAAAATAAAATAGACAAAATAACAAATATTTTTTTCATAAAAAACCTTCTTTCTTTTTTTGAATGTGCCACTCATTCTTCTATATTCATTAGAACATATAAATTTATAAAAACAAAAGTTCTTTTTTTATTTTTGTTGTATGATTATTTAGTTATCCAATGCATGTAATAAAAAATTAAATTAATATCTGAGTATTTCATCAAAGTCATATTTTTTACTTATTTTTAATCGTTAAATTGGCATCCCTATAAGCCAAATTCTGTATTTGCTAATCATTTTTCTAGGCTTGTATTTACATACAAGCTCAAGCGAATAACCAAAAGAAGGACGAGCAGCCCTATATTCTTTTTTTACATTCTTGCTTCTGGTGGGGTTTACAAGCAAATATAGTTGCCTATATCTCTGGTGAGCTCTTACCTCACCCTTTCACCCTTACCTATACAGGCGGTTTACTTTCTGTTGCACTTTCCTTAAAATTACTTTCAGCAGTCGTTAACTGCCACCATTGCTCTATGAAGTTTGGACTTTCCTCAAGATAAATCTTGCGATTAGCTGGGATACCAACATATATATTCTATAACAAAAGAATAAAAAAGGCAAGCCTTAACTTGCCTTATAGATATTCAAATACTTCTTTAGAATCAAATTTAATTATTTCAATCTCTTTATTTATTTCCCTCAAACTTTTTTCAAAAAGTTCAACAACTAATTTTTCACTTCCATAATGATCTATGTCTAAAAGATGTAAATTTTCTTCTCCCATATCAAGTGAAATATGATGTTTTAAATCTCCTGTAATAAATAGATCTACCTTACCTCTAATCAAAGGAATAAAACTATCTCCAGAACCTGTAGTTATGGCAATTTTCCTTACCATTCTATTATCCATAGCTCTACTTAATCTAACATTTTTTATTTCTAACTTTTCCTTTATTATAGATATAATATACTCAATAGATTTTTTCTCTTTTAAATTAAATCTTCTTAATGCTATCTCTTCAGTTTCTAACATTTGCCCATCTAAATTCATTTTTTCTAATATATATTCATTTAATCCACCCTTAGCTGCATCTACATTGGTATGAGCTGAATATACTGCTATATCATTTTTTATTACATCAATGATTTTAGAACCAATGACATTATCTGATAGTATCTTTTTTTGCCCTTTGAAAATGAATGGATGATGAGATATTATCAGATCAACTTTTTCCTTAACAGAAAAATCTACTGCCTCTCTTGTTATATCTAAACATAACATTACTTTATTTATCTTTTTTCTAATATCACCAACAAGTAATCCAACATTATCCCATTCTTCAGCTAATTCTCTTGGAAATTTTTCTTCAAACTCTTTAATTAATTTAGATAAGCTTATCATTTATACCCTCCAAATCAGTTTGTATTCTTTCTAAGTAATCTAATATGTCCATATTGAAGATTAAAGATAACTTCATTATACTTAAATTTATAAGCTCTTGTATATTTTCTTTATTTGTATCATTCTTTTTAGCAATATCTGATATAGACAATTTTTCTCCATCTAGTCCTAAATACATAGATAATACTGTTTCCTCTAAGAATGTTAATCTATTTGTATTTAAAGCTATTTCATATTTTCTTTTTACTCTTTCTGTTTCTTCTTTTATATCATCATAGCTTAATGAAAAATCTTTATTTTCATATACCCTAGCTAACTTTTCATAATATTCTTTATTTATTCCAACCCTATTTAATATATCATCTAAATTTTCACCTTCATTAACTTCACTAACAATTTTAATATATAGTAAAGATAGGTATTCTTGTTCTGAATATATTGAAAGTTCATTATATTGATAACTTATTAAAGCTCTTCTAACAAAAAGTCTTAATACATTTTTCAAAAATTCTTTATCATAATTTTTAGAAAGCTTATCATAGTATTCATTTTTAAATTTTATAATAGAAAATAAGGCTTCTTGTTTTACATCATTAAATGAAAAATTGATTTTAGTATTTTTTATACTTTCATGTATAGCTATTTTCACAAATTCATTTAAAACATCATCTAAATAATCTTCTTCAGTTTCATTATAGTTTTTTAAGTAATCTTCAATTTCTCCATCATTAAAATATGTATTTTCTATATCTGCATAATTTAAATCATATGATTCATTTACATCATCTACATTATTTTTCAAACAATATATTATAGTTCCTAAAACATCTAAATCACTTATATCTTTTCTTATAAATATAGAATTATAGTTAACTTTATTATTTTTTTCTATATCTGATATTATCTTCGCTAATTTATTTTCCATTATTCCCTCACATTAAAATTTTATACCAGCATTTAATCCACCTAATGTACCTACTTTTTTATTTGAATTAAATCCTAAACCTAAATAAGCATTCAAATCTACAGGTAGAAATTTACTTTTTATTCCTACACCCATACCATTTGTAAACATTGCATTTACACCAAAATTTTTATAGACTATCAAATCATTAAAAAAGTATAACTGCGAATCAAAAACTTTAAAACTATCTAAATTAGTTTTAAAAACAAATGCTAAATCTCCACCTATATCCTTATCTTTTATTATTCTAGCATCATATACCTTAATTTTATTTCTATCTTTTAAAGGTATAGTTGCAAACTTAAGAAATAGTTCATTATTAAGTTTAGCATCATTTGAAAGGTCTATAGAACTATTAAGTTTACTTTCAAAAAATATATTATAGTCATTAGTTAAAAATCTATTTTCATATTTTATATTAGTATTTAAATTAACTTTTAGACCTGAAATTACTTTCATTTTATAATTCATACCCATACTAGCTGTTAATTTATGAGTATCATAATATGAATATTTTAAACTTATATCTGGTTTAATAAAGTATTCATATGACTTTATTTTATTACTTAATGCATATTTTTGTGCCTCTGCTTTGATAAATAAGCCATCTTCTTTATTTAATCCACCACTAATTATATATTTTTCATTCCTCTTAAAATCAAATATTGTATATCCAATATTAATATCAGTGCTTATATCTCTAAAATATATATTTGTCATAAAATTTAAAACATCATTTTCTCTAAAATTACCCTTAATATATTCAATAGTCGCAACACTTTCATTATTATCAAATCCTACAGATAATTTTACATCATCACTATTTTCGTTAACTTCATCTATTGCTACTCCTACACTTCCATTATCATCAATTACAACTCTGTAGTATAGATTAACAATTTTTTGTTCCTTTAATAATTCTACTGTCTTAGAGTCAACTAAAAAATCCACATCTCTTAATATTTTACCTATGTATATATCAGGCAAAGCCTTTAAAATACTATTCATATTATATTCATTAGAAACTAATTTAATATATTCTATTCTAGGATATACATATATTACATCTCCTAATTTTTCAGCATAATATTTACCTGGGTATTTCTTCTCTAAATATTCATTTACCTCTTCTTGTTGTTCTATTTTTTTTATTTCATCTTCACTTAAATATGTAATAAATCCTTTTACCTCTACCGAAAAAGTAATAGTCGATAAATATATAAATAATATTAATATATACTTTTTCATTTTTTTCTCCTTTTTGTAGCTTTAGTATAAGTTTATCAAATTTATCGCTTTTTTTCTAGTCTTACTTGAATTAAAATAGAAAAAACTGTATAATAATTTATAAAATTTATAAAGGAGAATTAGAATGTTAAATCCAAAAATAATTACATCAATTTTTATGATAGTAATTATTCTTTATTTAATATATTTTTTAACAAAAAAGTATAAATTAACAAAAAAACAGATCATTATATTTTGGATATTAGTCCTATTCTGGTCTAGTGTTAGTATAATTAGAGCATATAGGAAAGCATATGCAATAGATCCTGTAGATATAGGGGGATTAGGGCTTAATCTAATAGTTGCAACACAAATTACAGCAGCTTATGGTCTTATTAGTTTCATGCTTAGACTACCTCTATTTTTTATTAGCGATATGTTAAATAGAAAAAAAATATTCATACAACTTGGTATGATATTTATGATGATAGCCTCTATTTCAGTATATTTAAAACCTAGTTACAATACACTGTATTTATCATCATTATCTATGGGGGCTTGTGCTTCAATGCTTGCTATATTTAATGTTATTTTTTCTGAAACATTTGCAAAAGAACAGGCAGCAGTTTCTACTTCTATACTTGCATCTGCACCATTGCTTGCCGAGTTTATAGCAGCTCCTATACAATATATAGGCACATCAAATAGTATAAAAAATTATTCATTACTTTGGCTTACATCAACAATTATAGCCTTTATAACTTTACTATTAACTACATTTATAAGGGATATAGAATATACAAAAATTTCATTTTCAATGCAAAAAGTTAAAAAAGTTATTATAAATAAAGCTTTTATATATATTTGTTTAATAGCATTTTTACAATCTTTTGTTAAATTTGCAACTAGTGGTCCTAATATGATAGTGTATAATAAAAGTATAGGTATGTCTCCACTTTTATTAGCATATAATGATGCGATGTTTGCAGCACCTCAATTATGTGCAAGTGTACTTGTAGGTACATATTTTATAAAAAAATATTCTATCGAAAGAATACTACAATTTGGAATTATTTCAACTATAATTTTTTATATTTTTGTTATAACAACAAATAATCCTAATATAGTTTTCTTTGCATATATATTTAATGGATTTGGATATGGATTAATTTATACATCAATAATATCTATTGCATTACAATACTTTGATAAAGAATATATAAATATTAGTATGGGTATATTTCAAGCTTTCTTCTCTGCTGGAATATATTTTGGAGATAGCATACATAAATCTATACATACTTTAATACCTCAAAATGTAATTAATATAGATATTAATAAAAATATATTTATAATAGCAATATTTTCATCATTATTTACTATAATATTATGTCAAATTAGTATATTTTTTAAAAATAAGGGATTTATAAATATAAGATAGAAAATAAATTTAGTTAAAACAAAAAAGGAGAATTTTTCAATCATTTTGAAAAACATCTCCTTTTTTTAACTATCCTTAATCACATATTTTTATATTCTATGATTAAATATAGTCATTTATAAGAACAAATATTTAGTTAGTTGCTTTAATTGGTGCACTTACAACACCTTCAAATATTACATTTCTTGCAGTATCTGTATATGAATTAGCACTCTTTATTGCTTTATTAACTGGTGATATCTTGTAATTAAACATTAATGGTACTTCAGCTGCTTGATCTAAATAATATTTATGCCATTTCTTATATGCTTCTGCCTTATAATTTGGATCTTCTAATCCTTTGTCATCTGAAATTGCAGCAAGTAATTTATCATTTTCTTCACTTACAAAACGTGTCATATTAAATGCAGCATATCTTGAATTTGATTGTGAAGGATCAAGTGATGTTCCTACTCCCCATGCAGCAGCATACATATCAATATCTGGATCATTTGCTTTTACTTTTTCATAGAATAATTGAAATTCAAGTAATCTTCCGTTTGTTAACTCAACATCAACACCAATTTCTTTCCAATTTTGTATATAGAATTGTGCTAATGGTTCAGCGACATCTGATCCAGACATAGATGCAAATTTAAGTTTTAATCTCTTACCATCTTTATCAACAAATCCATCTCCATCTGTATCTTCATATCCTGCTTTCTTTAATAATTCTTTTGCCTTTTCAGGATTATATGGATATCCAACATTTGTTGAATCATAGAATTTTTTAAATATTGGTGGAGTTTGCCCATTAGCTCTAGTTCTTAATCCATTATAGAAAGCTTGAGCTGCTTGATCAACATCTAATGCATAAGCTAAAGCCTTTCTTAAATTAACATCTTGTAATGGTGTATCTCTATCCATTATATTTTCTTTTTTCTCATTATCTCTATGACCTAAATTGAATCCTAAATATGAATAATAAAGATCTGGTCTACCAATAAGTGCTAAGTTATCTAAAACAGAATATTTATCATAAGAACTACCAGGCACTCCTATATATGAATGATACTCCCCTTGTTTCATACTTTCAACTACTAATTGTGGTGCAATAGTCTTAATTGTTACCTTTCCAACTTTTACTTTTCCTAAATGATAGTATTCATTAGGTACTAATTCTACTGCTTCTCCTGGTACTATGTTTTTTATAACAAATTGTCCATTTGAAAGAGGATTTTTTCTTAATTTATCAGAACTTTCTAAATCTTTCATAGGTATATCTGATAAATAATGTTTTGGAAGTATACTTCCTATACCTGTAATCGGTCCTCCACTAGTAACAACTTTAGCATTATTCTCTGTTAATTGTATATGTACTTCTGTATCAGAAACTTTAGTAACTCCTGAAATTTTATTAGCCTTACCTAAATGGTATTCAGTCATTCCAACTATTTTACTATGTTCAGATTCATCATATCTAATTCCTGTATAATCTTTATGCCCTAAAACTTCTAAAGTATAGATTAAATCATCTGCTCCTAAAGGATGTCCATCTGACCATTTTAATCCTTCCTTAAATTTAAATATTACTTTTTTATTCTTTAAATCTAATGATAATGTTGCTAATCCACCTTCAACATTTAATGTTTCAAAATCTTCATTTTTCCATAAGATTTCTTCGTTTATGAAAGCTAATATTTCTAAATCATAAGCATCAGTGTAATGTAAACTAGATAATAATCCTTTAAAAGGTGATGAAACAACAAGTGCAACTTTATATTCTGCATTTTCATCAACTATTCCTGGATTTTTATACTCTCTTGGAAAACTTAAACTAATTTTAGAATCTTCTCCTGATTCTGATTTAGATTTTCCTATACCACACGATACCAAAAGTCCTAAACTTGCAAGTGCTAAACTCGCTGTTAATATTTTTTTCATAATTTTCCTCCTAAATATTTGTTTTTATTTTTCTTATAATTTAATGTAAGTATATCACTCTTTACACTATTAAGCAAATATATATTATTTATTAAGTTGATATATTTTATTAATATATGATTTGGATATAAAAAAACTATCCCAACTTTAATAATTAGGATAGTTATTAACATTATATATTTTATATTATTTTGCCTTTTCAGGTAAAGAATTTACAACAGATTCAATTATATTAGATCTCTTAGTATCTGTATATAAATTATCATGTTTAACATTTTTATTTACAGGTGATACCTTATATCTAAACATTAATGGTACTTCTACTGCTTGTTCAACGAAATATTTTTGCCAATCTTTATATGCCTTAACCTTATATTCTAAGTCAGAAAGACCTTTAGAGCTTGAAACTGCTTCTAATAATTTATCATTTTCTTCACTAGTGAAACGAGTAAAGTTAAACATAGCATCTCTAGCTTTTGAAGCTGAAGGATCTAAAGATGTTCCTACTCCCCATGCTGCCATATATATATCTATATCATCTTCATTTGCTTCTAATTTATCATAGAATAAATTAAAGTCTAGTAATCTTCCTGTAGTTAATGTAACATTAACTCCAATTTCTTTCCAATATTGTAAAAATGCTTGTGCAATTGGTTCAGCAACATCTGAACCTGCCATAGTTGCAAATTTCAATTCTAAATTTTTACCATCTTTATCAACAATTCCATCTCCATTAGTATCTTCATACCCTGCTTTTTTCAATAATTCTCTTGCTTTTTCTGGATTATATGGATATCCTTCTAAAGTTTCATCATAATATTTTTTAAATATAGGTGGAGTATGACCATTAGCTCTTTGTCTTAGACCATTATAGTAAGCTGTAGCTATTTCATCTATATTTAATGCATATGATAAAGCTTTTCTTACATTAATATCTTGTAATGGTGTATCTCTGTCAGTTACACTTTCATTTTTACTTTTATCAAAATGCCCTAAATTAAATCCTAAATATTGTATATATAAATCAGGTCTTCCTATTACAGTTATATTACTTAAATCCTTATATTTATCATATGAATCTTGTGGTAAATCTAAATATTGGAAGAAATCTCCATTTTTTAAAGATTCAACAGCTAATTGTGGATTAATTGTTTTTAAAATAATTTTTGCAACTTTTGGTTTTCCTAAATGATAATATTCATTTGGAACTAATTCTATAGATTCTCCAGGAACTATATTTTTAATTACATATTTACCATTTCCTACAGGATTTTTTCTAATTTTATCTGAATATTCTAAATCCTTAACAGGTATATTTTCTAAATCATGTTTTGGTAATAAGTTAGGAACTAATGGACCTCCACCAGTAATTACTTTAGATGATATTTCATCTACATTAATTCTTAATTCAGTATCTGAAATTTTCTCTAATCCTGAAATCTTAGAAGCTTTACCTTCATTATATTCTTTTAATCCCTTTATCTTATAATAATCTATTGGTGAAAATCTAACTCCTGTATAATCAGGATGAGCAACTACCTCAAAAGTATAAATTAAATCATCAACACCCATAGGATGTCCATCTGACCATTTTAGACCTTCTTTAAATTTAATAACCATTTGATTTTTTTCAGTATCTAATGATAAAGTAGCAATTCCACCTTCTACATCTAATATTTCAAAATCTTCATTTTTCCATGTATATTCCTCATTTATCAATTGAATAATGTTTCCATCATTATTATCTTGATAATGTAATGGTGAAAAAATTCCTTTAAATGGACTAGATGTAACCATAGCAATTGTATATGTTGCTCCTTCTATTTCTGGTGCTTCATTTGTATATTCTAATGGAAAGTTTAAGTCTACCTTACTTATTTTTTCTGTTCTTGAATTACCTGGTGAACAAGACATTAACAATCCTAAAGAAGCTAATATTAAACTTACTGATAATCCCTTTTTCATTTCTCCTCCTAAATATTTGTTTTACTTATATATCATTATATCAAAAAATATGATTTATTACAAATCCTTTAAAAATATATTTATCTATTTTCATATAAGTTATCTACATCAATTTTAAGTATTTTATCTTTTATCAAACCTAAGTTTTTATCCAAATATTCTTCTGAAAATTTCTTAGCATTTAAAATTACTTGAATATCATTAACTATATCTAATAATTTTAATTCAGATATACCACTTTGTTTTATACCAAATATTTCTCCAGTATCCCTTAATTTTAAATCTTCTTCTGCAATTTTAAAACCATCTAATGTTTCTTCCATAACTTGAAGTCTTTTTTGAGATATTTCATTTTGTGTTTCAGATAAAAGAAAACAATATGATGAATGTTCTCCTCTACCTACCCTACCTCTTAATTGATGTAGGGAAGATAGTCCAAATCTTTCTGAATTAAGTATAACTATTATACTTGAATTAGGAACATTAACTCCTACTTCAACTACAGTAGTTGAAACTAAAATATCTATTCTTCCTTCCTTAAACTCGTTCATTATATTTTCTTTTTCTTTAGATTTAATTTTTCCATGTAATAATCCTACAGTATATTGAGGGAATTTTTCACAATATTTTTCATATGTTTCAACAGCAGATGATATATTTAATTTATCGCTTTGTACAATTAAAGGTGAAACAACATAAACTTGTCTTCCTTCTTTTATTTTTTTATCTATAAATTCATACATTGAATTTTCTTCTTCTTTATTTTTTATCCACTTAGTTTTAATAGGTTTTCTACCTAAAGGCATAGTGGTTAATAAGGAAACATCTAAATCACCATATATAGTTAAAGCAAGAGATCTTGGTATAGGTGTTGCAGTCATAACTATAAGGTTTGAATATATTCCTTTATCTCTTATCTTATTTCTTTGATCTACTCCAAATTTATGTTGCTCATCTATTATAATTAATCCAAGATTATTAAATTTTAAGTTATCTTCTAATAATGAATGTGTTCCTATTGAAATATTAATATTACCATTTTCAACATTTTTGTATATTTCTTCTTTTTTCTTTGCTCTAGTAGATCCTGTAAGTAATTCTACACGAATGTTTAATTTATCAAATTCCTTTACTACCTCTAAATAATGCTGAGTTGCAAGTATTTCAGTAGGTGCCATTATAACACCTTGATAGTTATTTTCAGCCATATATAGTAATAAAATCAAAGATATTATTGTTTTTCCAGAACCTACATCTCCTTGTATCAATCTATTAATTATCTTACCATTATTTAGTTCCTTATATATCTCAGCTATAATCTTTTTTTGATCCTTTGTTAATTCAAAAGATAATCCTGATACATATTTTTTTACTAAATCCTTATTATCATCTAAAAAATATAGGTTGTAATTTTTAATATTTTCATTATATCTATTTTTTAGTATTTTCATTTCAAGTATAAGTGCTTCTTCAAAAAGTATTCTTTTTTTTGCTTCTTCATACATAAAATTATTTCTCGGAAAATGAATGTTTGCTATAGCTTCTGTTCTACTTATCAGCTTATTTTCTACTATATATTTTTGTGGTAAATTCTCTTCAAATAAAAATAAATACTTTTTAAGTACTTCTTCTACTATTTTTTTCATATTTTTTTGATCTATACCACTACTTAGTGAATATACTGAATCAAGTTTATCTTCTTCATTTAAAACAATATTTCTATTACTACTATTAATCTTACTATAACTAGGATTAATAATTTGTAAATTTCTACTTTTTCTTATCTTACCAGTTATCCGTAATTCCATTCCAACTTCTAATACTCTTAATATATATGGTGAATTGAACCAAACTAGTTCTATTAGCCCTTCTCCATCAGTAAATAGGACTTTAATTAATTTTTTTTTACCAAAAAAAGCATTATTAATAATTAGTACTTTTCCTTCGATTATAACATTTTCTCCATCTATTAATTCAGATATTGGTTTGTGTTTAGCCTTATTTTCATAAGTACGAGGAAAAAAATACACTAAATCATAAAGACTATGTATTCCTAATTTTTTTAATGCTTTTATTTTAGATTTATTTTTATCATTTTTTAAAGTTTTAATATCAAATTCTTCAAGAGTATCATATATTCTTAAATACATAACTCATCCTTTACATATTTTCTAAAAATTCTCTTAATTTCTTAAAAGCACGACCTCTATGACTTACAGTATTTTTAAGTTCTGTTCCTGCTTCTGCAAAATTCATTTTTAAATCTTTAGAATAAAAAATTGGATCATATCCATGACCTAAATTTCCTTTTAATTCATGTGATATACTTCCTTCAGTTTCACCTCTAAATATATACTTTTCTCCATTAGGGAAATAAAGTGTAATAACAGAGATAAACTTTGCATCTCTATTTGTATTTTTTTTATCTACTAATTCAATCATTTTTTTACATCTATCATTATAGTTTTCAAATTCATTAAACCATCTAGCTGTATGCACTCCTGGTTTGCCGTCTAAGGCATCAATACATAATCCTGAATCATCTGAGATTGCTGGTAACCCTGATATTTCACTTACTGCTTTTGCTTTAATTAATGAATTTTCTTCAAAAGTTAGACCATCTTCTACTATTTCTCCAACATTAAATTCTTTTTCAGAAAGTATTTCTATATTTAAATCCTTAAACATAGATCTAAATTCTTCAAGTTTTCCTTCATTTTTTGTAGCCAGTACTATTTTCATTCATCCTCCCCATAATTTAAACAATTTAATATAGAACTATATTCAAAACCTTTATTTATAAGTTTTCTGAAAAGTTTTTGTTTATCTAACTTTGAATTTTTTAAAATAAATTTTTTAATTAATTCTTCTTGATTTTCATTCAGATCTAATTCTGAAAGTACTTCATTTATAATATCAATTGAAATTCCTTTTGAAATCAGCTTAGATTTTAACTTATTAGTTGAATAATTAGGATTAATATTCACATATCTGAATACAAATTCTTTATCATCTAATAGGTTCAATTTTTTCAATTTTTCTATTACATCATTAATAATAAAATGATTTTCTTTATTATATTTTGATTTTAATTTTTGGATTAATTCAAATACAGTTCTATCTTTTAAGGTTATTATATATATTGACTTTGACATCATAGATTCATGAATTATATCATGATATATCCCTGTTATATCCATACCTTTTTTAAGTTTAAACATAGCTTTAATATCTAAGTTTATATCTATAATTTCACCATTATTGACATATACCTTATTTTTTAAAATATTTTCTATTATCTTCATTTCTTATTTTTTCTTATTTCTCACAAATTCAGGATCTTTAAGTTTTGTCATAACCTCTTCTTCAATTTTAGAAAATAATTCTATATTAGTAGTTAATAGATTCTCAACATTAACTTTACCTTGACCTAATTTTTCAGTTCCATAACTAAACCATGAACCACTTTTTTTACATATATCAAATTCTAATGCCAAGTCAAACACTTCTGTAATATGAGAAATTCCTTTTCCATATAAAATAGCAAATTTTGCTTCTTTATGTGGAGGAGCAACCTTATTTTTTGTAATTTTAGCTATAGTTTCAGTCCCTATAACATCATCACCTTGTTTAATAGATAAAGCTTTTTTGATTTCCATTCTAACACTAGAAAAGAATTTTAATGCTCTTCCTCCAGAAGTAGTAGTCTGTACTCCAGGAGTAAATGAAAATCCACCAATCTTTTCTCTAATTTGATTTATAAATATCATAACTGTATCAGATTTAGAAATACTTGATGTTAATTTTCTTAAAGCCTTAGACATTAATCTTGCTTGAAGCCCCATTTGTTGATCAGACATTTCTCCTTCAATTTCAGCTTTTGGTACAAGTGCTGCAACTGAATCAACTACAACAACATCTACTGCACCACTTCTTACTAAAGTATCTGCAATATCTAACGCTTGTTCACCAGTATCAGGTTGTGAAATTAAAAGTTCATCAACATCTACACCTAAAGCTTTTGCATAAACTGGATCAAGTGCATGTTCAGCATCAATAAATGCAGCAAGTCCACCATTTTTTTGTGCTTCTGCTATAATATGAAGTGCTATAGTTGTTTTCCCTGAAGATTCAGCTCCATAAATCTCTATTATTCTTCCTCTAGGTACTCCACCTATCCCCAATGCTAAATCAATGTTAATACTTCCTGTTGAAATAACTTTAACATCCATTTTTTTGTTTTCACCAAGTTTCATTATAGATCCTTCACCATACTCTTTAGTAATTTGATCTAATGCAACTTTTAACCCTTTTAATTTATCATCATTCATTGTAGCGTTTTCTTTTTTAGCCATGAGTTCCTCCCCTATTTTAATAAATTATTAATTAATTATATCATTTTTGTTTTTTAATGTCAATATCCTTGTTGCATTTTTATTACAGTAAGAATAAAAAAAAGTTTGGCAACTACCTATTTTCCCTATTACTAAGTATCTTCAGCGTACACAGACTTAACTACTAGGTTCGAAAAGTAACTAGGTGTATCCCTGTGGCTAACATCACCAAACAAAAAGCAAGAAATATAAGACAATCAAAAATGAATAGTAAAGTAAAGAATAAAAATACAAAGCCTACGTATTATTAGTATTGGTCAGCTAAATGTATTACTACACTTACACCCCCAACCTATCAACCACTTAGTCTCAGTGGATACTTAAAAAGAATACTTATCTCAAAGTGGGTTTCTCACTTAGATGCTTTCAGCGATTATCCCTTCCAAACGTAACTACTCAGCCATGCTACTGGCGTAACAACTGATACATCAGAGGTTTGTCCATCCTGGTCCTCTCGTACTAGGGACAGATCTTTTCAATATTCTAACGCCTGTAGTGGATAGGGACCGAACTGTCTCACGACGTTCTGAACCCAGCTCGCGTGCCTCTTTAATGGGCGAACAGCCCAACCCTTGGGACCTTCTCCAGCCCCAGGATGAGACGAGCCGACATCGAGGTGCCAAACACTTCCGTCGATATGGACTCTTGGGAAGTATCAGCCTGTTATCCCCGGGGTAGCTTTTATCCGTTAAGCGACGGCCTTTCCATACAGCACCGCCGGATCACTAAGTCCTGCTTTCGCACCTGCTCGATCTGTCAATCTCGCAGTCAAGCTCCCTTATACCTTTACACTCTCTGGTTGATTTCCATCCAACCTGAGGGAACCTTTGAACGCCTCCGTTACTCTTTAGGAGGCGACCGCCCCAGTCAAACTGCCCATCTAGCACTGTCTCAATTTCTTGATTAGAATTTCAATAATATATGGTTGGTATTCCACAGTTGACTCCTTTAAAACTAGCGTCTTAATATCTCAGTCTCCCAACTATTCTATACACACATTACCAAAACCCAATGCCAAACTACAGTAAAGCTCCACGGGGTCTTTCCGTCCTACTACAGGTAGTCGGTATCTTCACCGACATTACAACTTCACCAGGTCTCCAGCCAAGACAGCTCCCAAATCATTTCACCATTCGTGCAGGTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTCACTGGGGCTTCAATTTGAATCTCTCAATCCTCCTCTTAACCTTCCAGCACTGGGCAGGTGTCAGCCCATATACGTCGCCTTTCAGCTTAGCATAGACCTGTGTTTTTGATAAACAGTTGCTTGGGACTCTTCACTGCGACCTACTTGGGCTCATGATGCTCTCACTTACCTACCATAGGTACCCCTTCTCCCTAAGTTACGGGGCTATTTTGCAGAGTTCCTTAGCTAGAGTTATCCTGTCGGCCTCGGGTTTCTCACCCAGTCCACCTGTGTCGGTTTACAGTACGGGCACTTCTTTCCTCTTTAGAAGTTTTTCTCGGCAGTGTAGGATTTGTAACTTAAGCACTAATGCCCTTACCCATAAGGTCTAACATTTAATAATACGGATTTGCCTATATTATCATGCCTCTCCCTTAGAATGCCTATTCCGTCAGACATCTCACATACCTTCCTGCGTCACTCCATCAGTTAACAGATTAAAGTGGTATAGGAATATTAACCTATTTTCCATTCGCCACGACTTTCTAGTCTTCGCTTAGGTCCCGACTCACCCAGGGTTGACAAACATTGCCCTGGAAACCTTGGACTTCCGGCCAGAGGGATTCTCACCCTCTTTCTCGCTACTCATTCCTGCATTCTCACTTCTGATACCTCCAGATCACCTTTCAGCTCTCCTTCTACAGCCTACAGAACGCTCTCCTACCAACAACATTGTTGTTACATAGCTTCGGTTTATGTCTTAGCCCCGTTAAATCTTCGGCGCAGATACTCTCGACCAGTGAGCTATTACGCACTCTTTAAAGGTATGGCTGCTTCTAAGCCAACCTCCTGGTTGTTTGTGAATATCCACCTCCTTTCCCACTTAGACATAATTTGGGACCTTAGCTGATGTTCTGGGTTGTTCCCCTCTCGTCCATGGACCTTGTCATCCATAGACTCACTCCTAAGTATTAATATATGGTATTCGCAGTTTGCTTAACTTCAGTAAGCTATACGCCCCCTAGGTTATACAGTGCTCTACCCCCACATATCTTTAAACTTAAGGCTGCACCTAAATGCATTTCGGAGAGAACGAGCTATCTCCTAGTTCGATTGGCTTTTCACCCCTAAACCTATCTCATCTCCCAACATTTCAACGGCGGTGAGTTCGGTCCTCCACTGCATCTTACTGCAGCTTCAACCTGGACAGGCCTAGATCACTAGGTTTCGCGTCTATAACATGCGACTTTCGCCCTCTTAAGACTCGGTTTCCCTTCGGCTCCACTCTCTTAACCTCGCCACATATCATAACTCGCAGGATGATTAACCAAAATCCACGCAGTCAGCTTATCGCCTCCTACCGTTTGTAAGCACATGGTTTCAAATTCTATTTCACTCCCTTACTCAGGGTTCTTTTCACCTTTCCCTCACGGTACTCTTCTCTATCGGTTAGTAAAAGTATTTAGCCTTATGTGATATGGTCCACACTGATTCACACCAAATTCCTCGTGCTTGATGCTACTTGGGATTAATATTATACATATGTTAGTTTACACATACGAGGCTATCACTCTCTATGGCCAGGCTTTCCAACCTTGTTTTATTTACCTAACTATACATATCTTGATTATGGCTATCTCAACAAATATCTCCCTCTACCACATGATGGCAACCTCGCCAAGTTTAACACCACCATGTTTTAGGCTCTTCCCCCTTCGCTCGCCGCTACTAAGGGAATCGTTTTTACTTTCTTTTCCTCTAGCTACTTAGATGTTTCAGTTCGCTAGCTTACCTATCTCTCACTTGTCCTTCCAACAAGTAGGTTTCCCCATTCGGATATCTTAGGATCTACGCTCATATGCAACTCCCCTAAGCTTTTCGCAGCTTATCACGTCCTTCTTCGGCTTTTACTACCTAGGCATCCTCCATGTGCCCTTAATTAGCTTTTTATATCATCTCTATATATTTTCTCTTACAGTTTAACTACTCTATCTTTTCTTTCGTCTCTGTTTAAAGTTGTAATTCTTTACTCTCTACTATTCATTTCTCATTGTCCTATACTCTTAAATAAAAGAACTCCTTAAAGATTAAAGGAATAAATAAAGCAAACAAAAGAGTAAAAGTAAGTATAAGTGTGTTTATGTATATATATTCTCCTTAGAAAGGAGGTGATCCATCCGCACCTTCCGGTACGGATACCTTGTTACGACTTCACCCCAATCACTAATCACACCTTAGGTACTTCCCTCCTTACGGTTAGGCCAGTAACTTCAGGTGCAACTAACTCTCGTGGTGTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCAACATTGCTGATTTGCGATTACTAGTGATTCCAACTTCATGAAGTCGAGTTGCAGACTTCAATCCGAACTGAGAGTAGCTTTGAAGATTTGCTCCACATCACTGCTTAGCTCCTCTTTGTACTACCCATTGTAGCACGTGTGTAGCCCAGATCATAAGGGGCATGATGACTTGACGTCATCCCCACCTTCCTCCCGCTCGTCGCGGGCAGTTTCATTAGAGTCCCCAACTTAATGATGGCAACTAATGATAGGGGTTTCGCTCGTTGCGGGACTTAACCCAACATCTCACGACACGAGCTGTCGACAGCCATGCACCACCTGTATCTCGGTTCCCAAAGGCACTAAGATGCTTCCATCTTATTCCGAGTATGTCAAGACCTGGTAAGGTTCCTCGCGTTGCGTCGAATTAAACCACATGCTCCACCACTTGTGCGGGTCCCCGTCAATTCCTTTGAGTTTCATACTTGCGTACGTACTCCCCAGGCGGATCACTTATCGCTTTTGCTTCGGCACAGAGGCTTCACACCCCCACACCCAGTGATCATCGTTTACAGCTAGGACTACCAGGGTATCTAATCCTGTTTGCTCCCCTAGCTTTCGCACTTCAGCGTCAGTTTCTGTCCAGTGAGTTATCTTCATCATCGGCATTCCTACACATATCTACGAATTTCACCTCTACTCGTGTAGTTCCACCCACCTTTCCAGTACTCTAGTCTGACAGTTTTGTAGGCAAGACTATGGTTGAGCCACAGCTTTTCACCTTCAACTTGTTAGACCGCCTAGATGCCCTTTAAGCCCAATAATTCCGGATAACGCTTGCGACATACGTATTACCGCGGCTGCTGGCACGTATTTAGCCGTCGCTTCTTCTGTAGGTACCGTCATCTTCTTCTTCCCTACTGAAAGCACTTTACAATCCGAAAACCTTCTTCGTGCACACAGAATTGCTGGATCAGAGTTTCCTCCATTGTCCAATATTCCCCACTGCTGCCTCCCGTAGGAGTAAGGGCCGTATCTCAGTCCCCTTGTGGCCGTTCACCCTCTCGGGCCGGCTACCTATCATAGCCTTGGTAGGCCTTTACCCCACCAACTAGCTAATAGGATGCAAAGCTCTCTCTTAGCAATCTCTCCTTTCATTAATAGTAGATGCCTACTACTAATAATATCTAGTATTATCCATCATTTCTAATGGTTATCCCAGTCTAAGAGGTAAGTTCTTTACACGTTACTCACCAGTCCACCATGTAGTCTATGTAAGCAAGCTTACATTTCATACATAGATTTGCATGTGTTAAGCATTCTGTCAGCGTTCATCCTGAGCCAGGATCAAACTCTTCATTCAATATTTATTTTAAATATTTCTTGTTCTTCACCTTTTGTCTCTTATTCTTAACTTACTAAAGCTATTTTACTCTAAATAAAATTGACTTGTCTTTACTTGTTTGCTTTATTTATTCCTTCTCTTTCCATTGTCCTTTGTTCTTAATCGAACTCAATCATATTATCATATCATTTATTCTTTGTCAACATATTTTTTTTACTTTTTTTGTTTTCCCCTCAAAATCATTTCATGAAAAGGTTGCTTTTACTATGTTTCTGACAATCAAAAAAAATAAAAAATTTTTCAGATATTTATATTTTTTAACTCCTCATCTAAAAATTATCTCAAAAAATATTTTAAAAACAAAAAATTATTATCAAAAAAATATTTAAATATATTTATATATCAGATATTTATATAAAGGTAAATATTAAAATATGAGAATATAAAACATGTACCTCAAAATATGCTTTTTGGCTTATTTATTCGGTACATGTATATTTTCACATTATATTTCTTTTAATACTTTTTGTAATTCTTCTAATTTTTCTTGGAAAGTTTCAAGACAAGCATAAACTGGTGCATTAGTATTCATATCCACTCCTGCGTTCTTTAATATATTTAATGAATAATCACTTGCTCCTGATTTTAAATAATTAATATATTTTTCTACTGCTGGTCTACCTTCTGTTAATATTTTTTTAGCAAATGCTGATGCAGCAGACATACCTGTAGCATATTGATAAACATAGAAATTATAGTAAAAATGAGGTATTCTTGCCCATTCATATCTAATGTTATCATCATATGTTATTGCTTCACCATAATATTTTTTATTTAGGTTTTCATATAAATTTGAAAGATATTCAGCAGTTAATGGTTGCCCTTCTTCTACTGATCTGTGAATTTCATATTCAAATTCTGCAAATTGTGTTTGTCTAAATACAGTTCCTTTTACTTTATCTAAGTAATGGTTAATAATATATGCTTTTATAACAGGATTATCTTCATATTTTTTAATTAAGAAATCATTTAATATTAATTCATTAGTTATACTTGCAACTTCTGCTAAAAATATTGTGTAATGTCCATAAATATATGGTTGATAATTTCTTGTATAATAGCTATGTATACTATGCCCTAACTCATGTATTAATGTAAATAAGTTATCTAAAGTTCCACGCCAGCTTATTAATATAAATGGATTAGTTCCATAAGTACCACTTGAATATGCTCCTGATCTCTTACCTTCATTTTCAGCATAATCTATCCATCTTTCATCAAATGCTTTTTTAATTAATTTAACATAATCTTGCCCAAGAACTTGAAGAGCTTCTATTATTATTTCTTTTGCTTCTTCATATGTAAAATTAAGTTCTACTTCTTTTAAAAGAGGCGTATACATATCATACATTTTAAGTTCTTCAAAACCTAACTGCTCTTTTCTAAATTCTACATATTTATGTAATGTAGATATTTTATCATTAACTGCTGATAATAAAGAATCATATACTCCCTCATCTATAAAGTTTGATGAAACAGCTGCATTTCTAGCACTAGAATAATTTCTTAATTTAGCATTAGTTGTATGTGCTAGCACTTGTCCTTCAAGAGTTGTTGCAAAAGTATTTTTTAACCCTTTATATGTTTTATACATTGAATTATATGCATTTTCTCTAAGTTTTCTATCACTTGATTCCATGTACATTCCATATCTTGCATGATTTAAAGATAATTTTTCTCCTTTTGAATTTTCTATTTCTTCAAAAGTAATATCAGCATTATTAAGCATAGAAAATGCTTTACTTGAAACGCCTGTAATTTGAGCCATATTAGCTAATAGCTCTTCTTCTTTTTGAGAAAGTTGATGTTTTTTAGTTTTGAATAATTTTTCCATTTCAAATTTACGTTCAACTAATCTTTCATGAGAAAAATATTCTTCTACTTTTTCCTCAGATAATTCTAATAATTTTATTCTAATGAAAGTAGATCTTGCATCATAATCTGAATACATCTTCATAATCTTAGCATTATATTCTTGATATTTAGAATTACCTGTATCTTCATCTCCTTTTAAATGTGCGTAAGTATATAGTAACATTATTCTTTGATTTAATTTATCATCTAAATCTAAAGTATCTGCTAATGTATTTACATCATCTATCATAGTTTCTTCAAATTTAGATATACTCTCTATTTCACTATATAGCTTTTCAAATTCCTTTTCCCAAGAAGCATCATTTTCAAATATTGTTGTTAAATCCCAAGTTTTGTTTATATCAACTTCACTTCTTTTTAAAATTTTTTCCATAACTGTCCTTCTTTCTAATTTCGTATCTTCCACAATCATTCTATCATTTTATATCTTTTTTATCAACAATGAACAAAAACTTTCAAATCTTCTAATATATCTGATTTCGAAAAAGAAAGTATAAAATCTCCTCCACCTGCTCCTGAAATTTTAGAGTGTTTATACTTATTTAAAAATTCATTTATTAAAGGTGTATGAATAACAATGTCATTGTTTTTTTCTAAAAAATGTAAATTTTCATTTAATTTATCTATTTTTTCTAATATTTCATCAACTTTATTTTCTTTAAAATCTTCAAATATCCCCAAAGTTAATATATTAGAAATGTTTTTAAACTTTTCAAATTCACTATTATTCATATCAATTTTAGAAATTAATTTAGAGCTACTTGAAGGACATGTTGTCCATATAGCCTCTACTTTCAAATTAGTTTTCACATTAATTTTTTCTATAATATATTTTCTATCTATTCTATTAGATGATTTAAAAAGTATATTACTTTCATAACAAATACAAGCTATATCTCCAAAAGATCCACTTATATCATTTTCTATCATAAAATCTATGGCAATATCAAAAAGATGTTTTTCTGAAATGATGTAATCATTCATCTTTAATATAGCCTTAATCGTAACTACAATTAAAGACGCAGAAGATCCAAGTCCATATTTTTTATTGTTTTTATAAAGTTCACTATAATATTTAAGTTTTCCCCTTTTTTTAATTTCAAAGTTTTTTTCAAGATAACTTAAAACTCTCCCTATTATATTATCTTTATCTTCAATTTCTGACACTATTTTCCAAATATCATTTTCTTCTATATTTAAATAGGTGTATTTAGGAATAAATGACACTATAGCATAAGAGTTTTCACTTAAAATAGCATATTCTCCTGCAAGATATAGCTTAGAACCTGCTTTTTCTAACATAGAAGTATCTTCCCTTCAAAATATTTATTTAATTCTTTCAATACTTTTTCTTCATCTTCTTTTAAATAAAGTATTTTCACATTAGGTCCTGCATCCATTGTAGTAAAAATATTAATACCTTTCATTCTTAATCTTTTAACAATTTTAATAACAAAATATGTTTCCTTAGTTAAAAAAGAAAATGAAGGATTAGATCTAAAAGTAGTATTGTGCATAATTATTGTATTTTTTTCCATAATATTTCCTATTTTTATAAAATCATTTTCTAATAATGCTGACTTCATTTTTTCAAAATCTTCATTTGCTCTTTTTACCCACATAGGATATATAGGGGAGTTTTTAGAAATTTCCATAGCATTTCTTGATGAAATTTCTTTTTTCTTATCATTAAGAACTATAGCCAGCATAGAAAGATTAAGCTCTGTTTTTAATTCATATATTTTACCATTTTTATCAAAAGCTGCTATGTTATAGAAACTTCTACCTGCTGAACCTGAACCCATAGTAGAGATTTTAGCCATTTCTTCTGTATTTAAATTTAATTTAAAAAAATCATTTAAAGCCTTAGTAAGTGTACAATAAGCACTTGCACTAGATGCAAGACCTGCTGCTGTTGGAACAAAATTTTTACTATCTATACAAATACATTTTCTTTTTTTTATTACCTTATCAACAAAAGAAAATATCTTCTTAGTTTCATTTTCACCTTGAATTTCACCATTTAATATGAATATATCTTTATCACTTTCTGATATATTAGTTTCTGTATAAAGTCTTTTTGATCTAATAGATATACTTCCTTGAATAGGCACAAGATATGGATTAAATTCTTTTTTCCCCCAATATTTAACTATAGCTATGTTTATATATCCTCTAGCCATACTTTTTTCGCTCCTTTTTTAATTAATAATTTCTTAAGCTCTAGTGCTTTTTTTTCATTTTCAACTAGTGATATTATGCAGCCTCCAAGACCTGCTCCAGTTATTTTAGAACCTAGTGAGTTTTCTTTTGACACATTAATAAGCTCATCAATCATATCATTTGATAAATTCATTAATTTCAAATTATTCTGTGCTAAATTCATTAAATTTCCAACCATTTTCAAATCAGAATTTTTTAATGCAATTATAGCATCATCAGTAATTTTTCCTAAATCTTCTATATATTTTTCAAATTTATTATAGTTTTTCGCAACCATAGATACAGCTTTTTTGGTATTACCTCTAATTCCACTATCCGAAATTACAAGTTTAGCATTTAGATGAAAATCAATATTTTTTATTCCTTCTTTTTTATTAAACAAAACATTTTGATTGTTAAATATAACTGCAAGATCTATTCCACTAGGATTACCATGAGCCCACTTTTCAGCTTCAAAAACAATAGTTTTAACTATTTCATCACTAATATTATATCTTTTCTTAAAAGCCATTGCTATAGAAACTGCAAGTGCTGCTGAAGAACCTAATCCTCTTGAACTAGGAATAGTTGATTTTATTTTAATATATACTCTATCTTTAATATTAGATTTTTCAATTATATTTTTCTTTATAAACTTAACATGTTCATTTTCAAATACATATTCATATACTATATCAGCTTCTATTTTAACGGATTTTAAAAGTAGTGCTATAGCATTTTTACCATATACTACTGAATGTTCTCCAAATAATATTACTTTACCGTAAGCCATTATTTCTCCTATTAAACTTTTATACATTTATACATATTATATCATTAAAAATATATATATTATAGCTTTATTTAAAAAACTTATTCATTTTAAATTAATCAATTCACAATTTCCCCTTGACAAATATTGTATATGAGAGTAGTATTGTAATGAATACAAAAAAAAATCAATTCAATTTAATTAGGAGGTAGACATGTCATTAATTGGAAAAAGAATCCCTGAATTTAAAGTTAGTGCTTTTAAGAAAGGTGAAGAAGATTTTATTACTATAACAGATAAGGATGTATTAGGAAAGTGGTCAGTATTTGTATTTTATCCTGCTGATTTCACATTTGTTTGTCCTACTGAATTAGAAGATTTACAAGACAATTATGAAAACTTCAAAGCAGAAGGTGCAGAAGTATATAGTATTTCATGCGATACTTCTTTTGTTCATAAAGCTTGGAACGATCATTCACCTAAAATATCTAAAGTTGAATATCCTATGATAGGAGATCCTACAGGATTTTTAGCTAGAGAATTTGGTGTAATGATAGAAGAAGAAGGATTAGCTTTAAGAGGAAGTTTTGTAATTAACCCTGAAGGTAAAATCGTAGCTTATGAAATTCATGATAACGGAATAGGTAGAGAAGCTTCAGAATTATTAAGAAAATTACAAGCTGCTAAATTTGTTGCTCAATATGGAGAAGTTTGCCCTGCTAAATGGAAACCTGGTAAAGAAACTTTAAAACCAAGTATAGACTTAGTTGGAGAACTTTAAAAAGAGGCTGTTAAACAGCCTCTTTGTTTTAATATCTATCTTTTTCTATTGCTTCTATACCTAAAAGAAGTATATCTGCTATTGTATAATTAATTTTTTTCTTAGCATTAGTTAATCTCTCATATTCCTCTTTATTTAACCTAATTCCTATATTAATATTTCTAAATTCACTTTCATCTCTATGTTTCCATATATCCCAAGGTCTTTTACTACCTTTTTTTATACCCATAATCATCCTCCTACTATGCATTTCCTTTTCAATATATATTATACACTTTTTAATTAAATTTGCAAACTTTTTAAAAATCATTTTTTCACTTTATTTCACCATAATCTTGCATAGTTGTATTTTAAAAATATATATAGTATAATTATGTATATTAAATAAAAAGGGAGTTTTATGTGGAAAGAAAATATTAAAAACAGATTAGATGAGTTTATTAAAAAGAACAAAAATAATGGTCATTATGCTGTATTTGATTGTGATAATACCATTTTAATGAATGATATACAATTTGCACTTGTTCATTATACATTGAAGTTTAAAAAATTTAAAACCACTCCAAAAATGCTTAAAGATTTCTTATACAGAAATTTCCCAAATGAAAAAGTAATATTAGATGAATTTTTAGAAATATTTGAAAATGCATATATTTCAGAAAGTAATAGCGATGCCTATTTAAAATTTTTAGCAAATGTTGAAGATCTAGTTGAATATATTTTTTCAAAATATGATTCTTTTGATATTACGAGTGTTTTTTTCATTGATATGAAAGAAGATGAGTTAAGAAAGTTAATACAAAAAGCTATTAATTATCACAACTTAGTTGAATTTAGTTACGAAAATTGGATATATGAAAACAATATTTCTTCATACAAAACAGGTCTTTCAATAGCAAAAGAAATGGAAGAATTAATAAAAGAGTTTTATCATAATAATATAGATGTATATGTAATTTCTGGTTCACCAAGATTTCAGGTTGAAGAAGTTTTAAAGCCTTTAAATCCGTATATTAAAAAAATATATGGTAAGGAATTAGAAATTAAAGATGATAAAATCACTGGTGAATTTGAAAAAGGAAGTATAAAAACATTTTATGAGGGCAAGATAGAGGTAATTGAAAAATATATTTACCCAAAATACAGTAAAGCTCCAGCATTTATAGCTGGTGATAGTATGGGTGATTATCATATGTTGACAAAATATGAAGAAACTGAAATTTCATTAATTATAGATAGGAACAGAACAGGGAAATTCAAAGAACTTCTTATGTTAGACAATGATAAATATTTAAGTCAAACTGTAGATGAAACTACAGGAATTTTTATTGATGCTGAAAAAAGTATCACATTATAACAAGGAGGATTTATGCAAAACTATGATATTATAGTAGTGGGAGCAGGTCATGCTGGTGTTGAAGCTTCACTTGCAGCAGCAAGATTAGGTAAAAAAGTCGCTCTATTTACTATATACCTAGATAATATTGCAATGATGAGTTGTAATCCTGCCATAGGTGGACCAGGTAAATCACATATAGTTAGTGAAATAGGTATGCTTGGTGGTCAAATGGCAGTACATATAGATAAGTATAATTTACAACTTAAAAACTTAAATCATACTAAAGGTCTTGCAGCTAAAATAACTAGAGCTCAAGCTGATAAATATTGGTATAGAATTAAAATGAGAGAAATTATAGAAAAAGAAGATAATCTTGATGTAATACAAAATATGGTTGAAGATTTAATACTTGATGATAATAAAAAAGTTATAGGGGTAATTGATGCTCTAGGTCTTAAATATTCTGCAAAAGCTGTAATACTTTGTACAGGTACTTTCTTAAATGGAGAATATATTATAGGGGATGTTAAATATTCTGCTGGAAGACAAGGAGAGAAAGCAAGTAATTCTTTACCAGATAATTTAGTAAAATATGGAATAGAAATGGATAGATACCAAACTGCTACTCCACCTAGAATAGATAAAAAAAGTATAAATTTAGACATATTAGAAAAATTATATGGGGAAACTAATCCAAGATATTTTTCATATATGAGTAATAAAACAGATGAGAAACCTCTTGAAACTTGGTTAACATTTACAACAGAGGAAACTATAAAAGTTGGGCAAGAATTACTTAAATATTCACCAATAGTTACAGGAATTGTATCAACTAAAGGACCAAGACATTGTCCATCACTTGATAGAAAAATTATGAATTTTCCTGATAAAACTGATCATCAAATATTTCTTGAACAAGAATCAAGAGAAAGCGATGAAATTTATGTAAATGGATTTACAACAGCTATGCCTCCATTTGCACAAGAAAAACTTATTAAAACTATTAAAGGTTTAGAAAATGCTAAAATTTTAAGATATGGTTACGCTGTTGAATATGATTTTATTCCAGCAAGACAATTAAATTTTTCTCTTGAATCTAAGATTATAGAAAATCTTTTCCAAGCTGGGACTATTAATGGTACTAGTGGATATGAAGAAGCTGCTGCTCAAGGATTTATTGCTGGGGTAAATGCCGCTAGAAAAATAGATGGAAAAGAGCCTATTATAATCTCTCGTGATGAAGGATATATAGGCGTATTAATAGATGATATTATAAATAAAGAAACTCCAGAACCATACAGAGTTCTTCCATCTCGTGCAGAATATAGGCTAACTTTAAGACAGGATAATGTATTCATTAGATTACTTGAAAAATCTAAAGAAATAGGTCTGTTAGATAAGTCTAAATTAAAAGAACTTGAAGATAATATACAGATTATTTCTGATGAAATAGAAAGATTAAAAGAAATAAAAATCTATCCTAATAAAGAAAATAATGATATAATTAAGAAGATAGATAAAAATACTTCACATAATAATGTAATGACAGCATTTGAATTTTTAGCAAGACAAGAAATAACCTATGATAATTTAAAATTATTTATTGAAACAAAGGATTTACCTGAAATTTCTAAAGAACAAGTTGAAATAGAGGCTAAATATAGAATATTTATCGAAAGAGAAAGAAATCAAATTGAAAAATTTAAAAAACTTGAAAATATTGCTATACCAGAAGACTTTAATTATGAAATAGTAAAAGGATTATCTAATATAGCTATAAGTGGTCTGAGTTATACTAAACCAAAAAACATCGGACAAGCAACTAGAATAAGTGGCGTTACATACAATGATATAGCCATACTAGTTTCTATACTAAAGGAGGTTAAATAGTGTTTAATATTATTACTAGAGGTGAATATCATTTAAAGTTTTTTTCACCCGAACATCTAAGACCCATTTTTGTATTAATAATTATATCTATCATTTTATTATTAATACCATATTTATTTAAAGGAATAGAAAAAGGAAAATATACAACATTTATAGGTATTTTATGTCTAGCAGTAAAACTTGGAGATTCTCTTTACAGAATTCATTTTGAAAATGATGTTTGGTATAATACTATGCCGTTTAATCTATGTAATGTTTCTCTTATTTTTGCAGGTATATACTTTATTACAAGAAAAAGACTTTATTTTAATTTCGTGTATTTTTGGTTTTCAGGAGCTATAATAGCTGTAATAATACCTGGATTTTCAGTGTATCATTCTTCTCTTTATATTTATTCTTTCATTGCAAGTCATATGTTTGAAATATTTGCAGTATTTTATGCGTTCATACATTTAGATGAAAGAGTTACATTTAATGGATTAATTACATCTATAATAGGATATATGGGATTAATAGGATTAGCATTTTTATGGAATGGAATTTATGGTACTAACTTCATGTTTATGGCAGATTATATAATAGGAGCAGTAAGCTTTATCAAACCATTCTGGTTTTATCAAATAGCTCTAACAGGACTATTTACTTTATCTATACTACTTATGTATCTGCCATTTGTAAACAATCAAAAAGAAGATTTAGAAGAAGTTATAATATAAAATAAGGGGCTGTTTGTACTAACCCCAAAAAGTTGGACAAAATTAATTTAATCTACTAATAAGGATTGACTTCTATAAGAAGTAGGAGTTAATCCTTTTAATTTTTCTTTAATTCTTTTATTGTTGTAATAATATATATAATCCTCTATTGCTTTTTTCAATTCTTCCAATGTTTTATATTTTTCTTATAAAGTTTTTTACTTAATTTGATTTATTAATCTTATTATATTAAATCATCTCTTTTGTTACTTTTTGTTATATTTGTATTATCTCACAATATATTAATTTTTTCTCTTATTAATCAATTCTATAATTTTTAATTCTAATGGTTTAGCATAAAAATATGTCTTACATCCTATACCATACTCTAGGCATTCATTTTCAAATAATATTGTATGTAAATTATATATTTTAGAATTTAATTTATACATAAAATTACATTCCTTATTATAAAATTTAACTCCTAGTTCTATATACTTTAAAGGAAAAACTTTTTCTTTTATACTAGATTTCTCTCTCTTTATGTCTATATTTATTCGTTTCTCTGAATCAAGTCCAAAATAGAATATATCATTTCCATTTTTAACAACTAATCCTGCAACAAAATCCGCATCATCAGGATTATATAAAACTTCTATACTTATCCATAATTCAAAATTTTTATTTTTTGAATACATTATCTTAGGACTTTCATCTAATGACCATGTATTATATATCTTTTTATTATTAAATTTAAATATAATTTCTTTTTCATTTTTATAAATTATATTATCTTCATTATTTTCTATATAAATAATTTTTTCTGTATTTTCTTTATATATAATATTATTATCTAAGAAAAGAGATTCATTCTGAAAACAATTCCATAAATCACTCTAATATTTTATCAACATATTGTAATCTGAATTTTTAACAGGATAATTTTTATTTTTCAAAAAATGTAAATATGAGCTATAATTATATTTTTTCCATTTTTTTATTAAGTATTTTTCTTTTTTTATATAATAATTATATTTTTCAAAAGATATCAAATTCAATTCTTTTAATAAGTTAATATATATATTTAAAAATAAATCTTTATATCTATAAATGTTTAATGTTCTTTTTGTAATTTTATTATTGAATAATTCTTCAAAATTTTTATGACTAAATATTTCTTTTATATTTTCATTTATAAAATTAAATGAATTTTTGTAGACTTCATTACTTATATAAATATTTTCATTAGAATTTTTTTCTAAAATTAATATAAATTTTTCAATTCCTTTTGCAATATAATTAAAATAAGATTCATATGCATCAAATAAAATTTCATATTTTATAATAAATTCTCTCTCAAGTTCATTTTCACTATTCAATTGTACATTATCTAAAATATAAAATATTTTTTTATTTTTATCATACCCTTTTATTATAAAAGGATGTTCCCAATCTTCTTCTAAATAATAATGTGAATAATATATATTTCTTAAATTTACAGGAATAACAACTGGAAAACCCAATTCTATAAACTTTTCTATTATATTATAAAAATTATTATTTACACTTATTTTAGATAAATTAAAATCTAATATTTTTGATATTAATATTTCTTTTTCAAAAAAAATATTACAGTTAGTTTGAGTATAAATTCTATAGCAGTTATAAAAACTATCTAACATTAAATATAAATCACCTAATTTATCATTATATGTAGAAAAACATGTAGCAAATTGTAATGTGATAAAACATATGTAACAAAAAAATAAAAAAAGAGAGATACATTTGATATAATAGAGTTTGACAAAAACTAAAACAATCAAAGGAGTATCTCTCATGAGTATTATAACAGAAGAAATGAAATTTCGCCATAGATTATGTGAATATGCAATAAAAAATGGAGTAACTAAAGCAGCAAGGCGTTATCATACAAATAGACAATAGGTTCAAGAAAGCCCCATACAAGCCCAAATGCCCATACAGAAGAAGAATTAATACTAATAAAGAATATGTTAAAAAAACATGGAAGTTATGGATTAGCCCAAGTATATGTTAGTTGTAAGAATAAGGGGTATAATAGAAGCTTTGGTAGTATGTGTAGGATAAATTATCCAAGTGAGAAAGTACAGGTAGATATTAAATATATTCCAAATGAGTGTATAAAGTTTAATTCAAAGGGGATTAGATATTATCAGATAACTGCTATAGATGAGTATAGTAGGAAGAGGGTATTAAAGGTTGTAAAGGGAAAGAGTACATATGAGACATCAAAGTACATTAAGGAGTTAGAAAGGGCTATAGGCTTTAAGATAGAGACTATACAGGTAGATAATGGATATGAGTTTGTAAATGATAAAGATGTAACGGATAGGGAAGATGGAAAGATATTGTATAGTAGGAAAGAATTTAGGAGCGAGGAAGAATTAATAGAAAATGTTAAAAGGCATGAAAGGCTGTATAATAATACGGCAAAGACAGTGCTTAATTTTAAGAGTCCAAATGAGGTTGTGAGGGAATAGAGGCTTAAAAGGGCAACCCCAATCTCACTTCACACACTCTAACAATCAATTAAACACTAAACATTAAACAACACTTAACTAAACTAAACACTTAATTAAACACTTAGACAATTAACTAACTCTAACTTATATTAAATTTATTTCTTATTATGTAACATATGTATTGACAATTAAGAACCTAATTCAATTATTTCATCAAAATAATCTTTACTTTCATCATATAAATGATGTGATACAATTATTACTGTTAAATCTTTTTGAGATAAAATATTTTTTTCAATTTCTATTGCACATTTTTTATCAATGTTAGCATTAATTTCATCTAAAATTAATATTTCTTTTTCTCCCATTAATTCTCTTGCTATACCTATTCTTTGTTTTTGACCACCAGATAAATCATCTTCATAAACTCTATCTAATTTATCTAATACAAATTCATCAACATAAGATAATTTTATAACTTTTTGAAATACTTCCTCATTTATGTTACGACCTATCAATAAATTATCTCTTAATGTTTCAGATAAAATATATGGTTTTTGCATTACTATTCCTATTATATTTTGCAAACATTTAAAATCTATATTTCTATAATTTATACCATCCAATAAGATGTCTCCATCATAATTTAATATTTCTCCTGTTAATATTTTAAGTAAAGTAGATTTTCCAGTACCTGAAGCTCCTGTTATTACAATTTTCATACCTTTTTTAATTTCTATATTAGGATATTTTATTATATTATCATTAAATTCAACTTTTACATTATTAATGATTAACTTATCATTAAATTTTGATATTTGTGTTTTTGGTTCTTTTACATATATGAATGGATATTTTTCTAACAATTTAAAACATGCTCTAAATGTAACTATATTATATGCAGCACCTCTTGTATAGTTAAATAAAGTACTAGTTAAATTTGCTACTGAAAATATTACTCCTGTTGTTATTTCTCCCTTAATTATTAAATAACCCGTTACTATGAATATAATAACCTGAGATATAATACTTGCAAACATTGAAGATGAATTTGCAATAGTCGAATATTTAACTAATCTCACTTTAGGTATTATCATTTTTTCAAAACTTAATAAAATTTTATTTTTAAAATATTCTGTTTGATTATTATGATAAAAAATTTCAAATCCATTTATATAATCATCTGTTTTCTTAAGAACTCTACCTGAATGTTCCGAAACATCTTTTGTTGCATTTTCAACTTTTTTTTGAAATATTTTAGGACTATAATATACAAATACTGTCATTATTATAGAAACTAATAATATTATCCAGTGGAAATATATTATTGCAAAAGCATTTAAAATTACTGTAATAATACTTTCTACAGCTCCATAAAATTGAATAAATCCATTATCTCTTAATAAATTCATATCATTTACTAACCATGAAATATATTCAGATTTTGTATTTTTTTTAAATTCTGAAAAATCTACTTTTGTTAATGGTTCTAATATATCTTGTCTTATAGCATTTAATTCTTTTTGTATCAAATTTTCTTTTATAATATCTTTAGTTGCTTGAGCATAACTAACTCCTAACCAACATAATATATCGACTATTGAAAATATTAAAAATGTATTTATATTTTTTGATATTATTGCATCTAATACATATGTTAATATTACAGATGATGCAACTGTCATTGATGCCCACACTATTATCCAAAATAATAACCAAATATTTTGTAATTTAAATTTTAAAATATATGTAATAAATTTATTTTTATACATAATTTTATACCTCTTTTCCAAAAAAACTATTACTTCATTAAATATTTTTTCTATTTCTTCTTCACTATCAAAAATAAAACATTTTTTTAAAGTTAATTTTTCTATTTCTTTTTTAAATTTTTTAATTTCATTTATATCACTTTTTTGATATATATTTCCTAAAACAGACCATTTAATAGTTTTGTTAATAGGAAAAAGTACTAACGCAATTACTTTGCTTTCATATACAACTTCTAAATTTATAATTGTTCGTTGAATATATTCAAATGTGTCAGTAGGATTTATTACTAGTAAAATTCCGTCAGGATCACTCCCTAAAATTAGTTCTATATTTTTTAATGTATAACAATTAAGATTTCCTGTATTATAATGTATAGTTTGAGATTGAGTCCCTAAAATTATTATATCAGGATTTTTTAATTCAATATCTGATAATAATTTATTGATGAAATATATAGAATTATTACCATTTATTCTTACAGTTGAGTTATACCCCGTTGGATATATTTCATCAAAATTAAATAAAAAACCTGTACCTTCAGTTCCTAATTGACCTACTTTATATCCTTTATCTAAAAAGACTTTTCTTAATGCTAATTGTAAAGTATATTTACCTTGTTTTGGTGAAGTTCCCATTACAGCTAGTATAGGTTTACTTATACAACGTAATTTCCCAAATGTATTATTATTTACCATATTTTCTTCGATTAAAGGATAATAAAAATTTAGATTTTTTATATTTAGTTCATTTAAATATTTAGAAATATCTTCAATAGCGTATAATTTTTTATTATATTTTATACAATTTTTTATTATATCTTTTGTATAATTTTTATTTGTTAAATTTTCTATCTCTTGAATATGCCCTAATATAAATGTATCAAATTCACTTGTCCAATCTAATTTTTCAATATTTTTTATTATCATATCATTATTTGTAAATGTCAAAATATCAGATATTTTTTTATTTATTTGACCTAAATATTTAATATCAAATACTTCAATAACTTTAAAATTACATAATTCTAAATTAGTTAAAATATTTGTCATTTCTTTATTAAAAGGAAATATAACAGCTTTACTAATTTTTAGATCACATTTATAAGAAGTAACATAATTATTAAATTCACTATATATTTCAGTTGCATTTTCTTTTAAAAATTGAAATACCGTAAATTCATTATTTATTTTTTCAAAATTTTTATATATCATACTTGAAATATATGGTGAAAAAAAACTGCTACCGAGTAAATTTGAATATTCATTATTCAAACTTGGTAAATATTGTTGTCTTGATAAAAATCTTATATTTATTGGGCTATTTTCTACATATTGGTAACCATTATTAGGAACCTTTTTTACTGCCATATCTACTCCTATTACATTTTTGAATGATGCAGGATATGAAAGGCTGCCTAAATTATCAAATGAAGACACAATAAAAATACCATTATTATAGAAATCATCACATATTTCTTCAAATAATTTTCTATTATCACAAAAAGAAATTCCTAAACTCATATGTATAATCTTACATTTTATATTTTTTTTATATATTTTAATGCAAATATTACATCATTTAATTCAACTTCTAGATTATTCTCAAATAACTTAATAACAAAGATATTAGCAGTAGGATTATTTCTTTTTAACAAATAATATATCACTGTTCCATGACCTATTGAATCAGAAATATCATTATTAAGTTCATAACTATTTCTATTTTTTTTATTGAAATACCTTTGATATCAAAATTTTTTAATGCATCATGATTTTTTTCAACTCCACTGTCTATTAATACAATATCCGTATAAATAAAGTCCATGATTTATACTCTCCTTTTAAAAAATGCAGTATTAAACTACATTCAAATTTTACTTTAGAATTAATTAACATTGACAATTGTTTTCATTATACAAAACAAAATGTTTTTTTATTTTTTTTATTTTAAATAATTTTTTCATTTATAGTTCTCCTTTCATAATATTAATTAATATTATATATTACATATTAATTTTTTATTTATAATATTCTTGTATACAATTAAAAATTTTATTGAAAGTATACTCATCTTTATTTAATTCAAATAATTCATTTATTTCTTCTATTTCAATATTTAGATATTCCTCTAAATCAACTAATAAAGATAAAAAAGATAATGAATCTAAATCAAGTATTTCATTTTCATTTTCTATTAATAAACCATTGTTTTGAAAAATTTTTTTTATTTCTTCTTTTTTTAAATTTATATTCATAATTTCTCCTTTTCTATAATGAATTAAATATAAAGTTTTTATAGCCGTAACATATTTTTTTATTTTTAATCATTCGTCTATATGGACAGTAATGATTGTAACAAATAGGATAAAATTTACAATGTTTACATTCATTGTCAAGTTTATTCCTTTTTATCCATTGATTCTCAATATCATTTTTAATAAATATTTCTCCATCTTCTTTTATATATCCGATTATATTCTTTTCTTTAAATTTAAAATTATATATTGCTAATGAATACTTTAGTACATTTCCATCAGGATCTATATAATATGAATTTTTTTTACAAGATGAACAAAGACCAGCACCAGCTTTTATTAGAGGCTGATTAATAATATTGAAATTATTTTCTACTAATGTACTATGAATATTTGCAAAATCTTCTTCCGTAATCATTTCATCAATTAATTTATTTATTGATTCTCCACCATAATTAGACATTTTTTGACAATTAAAATTTATTTTATTGTTTCTTTTTAAAAATTTCAATTCATTCATAAATTTTGTAAAATTATTAACAGTAGCTTTAGTTAAATTTATCCTTAAAACAATACTATAATATTGTTTTATTTCAAAATTTATTTTTCTCAAATTATCAATTATTACTTCAAATGAATCTTGCTTATTTTTATGAGGTCTTAGTTTATTATGTATTTCTCGTGGTCCATCTAAAGTTATTTGAAATAAAAAAACTTTACATTTTAAAAGTTTTTTGAAATTATCTAATGTTAATAAATATCCATTTGTTGTCATCCCTGAAACCAATGAAATTTTATTTTTTTTACAAATTTCTATACATTTCTCCATAAAATAAATAATTTTCTTAAATCCTAACATTGGTTCTCCACCAAACCAATTAATTTTTATAGTTTTATATTTTTTAGAATTTTTCTCAATATATTTTAATATACTAATTAAAATATTTTTTTTAATTATTTTATATTCCCTATCTTCTTGATAGCAATATGCACATTTAAAATTACACCCATCTGTTATTATTATTGTAAATTCTAAATTATTATCAAAAATATTATAATTATAAATTTCTTAAACTTTCTCAAATTCATTTTCATTAGCATCAACTAAAAAACCATCTAAATATAATTTTTTTATTAAATTATCATTAGTATTAGTAAAATTCATTTTAGACATTAATTTATTGTATATTTCATCTGATATTTGACAGTTTATCTTTTTACCCGTAACAGTATTTAAAATAGTTACTTCATCATTTTTTTTAATTTTAACAATGTTATAATTGGACACTTTATACATAAATACACCCTTTATTAAAAATATTAAATAACATTATTTATCCTAATAAAGGATACCTTGATTTTATTATTTGTCAATAATTATTAAAGAGATTGTGAAAATAAGATTTAGAAGAAGTTATAATATAAAATAAGGGGTTGTTCTAAAATTTTGAACAATCCCTTAATATTTTAATTATATTTTATCTTTTTTGAATTTAATTCCATTCTTTTTAGTATCAACAATAACATAGATACTAATAATGTAAAAATTAATGAAATTACAAAAAAAGTTGTATACATACTTAAAAATTTTAATATGTAACTTGAAAAAATTAATGTCATAGAAATTAAACCTGTAGTAATAAAGTGTTGTATAGATAAATATGTCGTCCTATATTTAGTATTTTCAGGTATTTTCTTATTTACATATATTGTAACTATATTACCCTCAATATATCGTATAACTTGTTGTATACAAATAAATATCATGAATAAAATAAAGCTAGATTTTGAATACATTATTAAAAAACTAGTAAATAATATTGAAATATATATCTTCATTATTGATAAATTATTATATTTAATTTTTTTTATGAAGTATTTTTTTAAAATTTGGTTTGTTATTACCCCTATAATACTAAATAATACTGTAAACATACCAAAATATTTTACATCAATACCAAAGTCTGTATAAATAGGTTGATAAAAGTTATATGTACTTCTGAAAAAAACAAAAATAAATGAACCTATCATTAATCCAAGTATTACTTTTATATCAATAATTTCTTTAATTTTATTATTATTTTCATTGTTATTATCTTTTTCAATTTTTTCAGATTTGCTTTTCATTTTACTTTCTTCTAAAAAAAATATTGTAGCTAAAATATTAATTGTGTATATAATAATATCTAAATAAATTATATATAGTATATTAAATTTAAAAATAATTCCACTTAGAAATGATAGTACAATACCCAATGTTAAACCAATACTACTAACATTTGCTAAAATAACCTTATATTTATTTAACTCTTCTGAATTAAAAAAATATTCAAATAAAATTGATTCTGTATTTCCAGAGGTTAATGCTCCACCTATTGAATATATTACTATAACTACAACTCCATGTGAAAAATTATTTGAAAATAATAGAACTATCATTGAAATTAATATTATAACTTTACCTAAAATTAATATTCTTTTTCTACCAAATAAATCTGAAATATATCCACTTGGCATTTCAAAAGCTGTTATTAATACAAATAATAATGTATCTAAATATAGATACTTATCTATAGTAATTGATAGTTTAGTTATATAAAATGTTACGAAAATAAAATCAAGCAAAGCATTTCTAGGAAATAAAGAGTTTAAATACATAAATTTTTCTTGTTTAGTAAGTTTTTAATCAAATAATTCCACCAAAATTCCGAGTTCAATTAACTCTTTTAAAAATGTTTCAAAATAATTTTCACCTATATTATCACTTAAATTATTATATTTAATTTAAAAAATTTTTTTTACTTAAATATAGCGTTATGTTCATTTTTGTTTCTATATATCCTTCAATATAGTATTACGCAGATTATATCACATCATCAATAAATATGTAAAATATATATTTCGAATCATAATCATTAATAATATAAATACTTGAACTAAATTTTATCTTAGAACTTATACACAATCTAATATTCAAAAAAGTATATATTTATTAAAATCTTGATATAAAAATTTCATCAAAAAAAAGAATTTCTATAATTTTAGAAATTCTCTACTTTTTAGCTATTTCTGAACCTAATTATCTTTCAAATATTTTTTTCACTTCAAATAAACCCTCAATAAGTCTATCTATATCCTTTTCATCATTATACACTCCTAAACTAACTCTACAACATGAATTTATTCCCATAAATGAAAGTAATGGAGCTGTACAATGTTGTCCAGATCTAACTGCAACACCTTTATTATCTAGTATAAAAGCCGTGTCATGTGAATGAACACCTTTAACATTAAATGCAATTATTCCTACTTTTTCAACATTTTCTGTATAATATGTTTCCACAAAATCTAATGTATTAATTGCAAAAGTAGCATACATTATAAGTTTTTCTTCTACTTTTTGTAGTCTTTCATACCCTATTTTTTCTATGTATTCTATAGCCTTTACCAAGCTTAAAATTGCTTCTACATTTTGAGTTCCACCCTCAAACTTATATGGACTTTCCTTATAACTTGACCCACTTTCTTCTACATATTCAACCATATCTCCACCATAAATAAAAGGTCTAGTATCTTTTAGTAATTCCATTTTACCATAAAGTATTCCAACACCTTGAGCTGAAAACATTTTATGCCCTGAAAATACTGCAAAATCTACATCCCATTTTTCAAATTCATGTTTAAAATGAGCTATAGATTGGGCACAATCAAGCACTACTTTCACATCATATCTATGAGCCATTTCTATAACTTCTCTAAAATTTTGTATTACACCAGTTGTATTTACAACACTTGAAATACTTATTATTTTAGTTTTAGAATTAAATAAATAAGGAAGTTCTCTAATATCTAAATTACCAAATTTATCTAAATAAAGATATCTTATTTTTAATTTCTTTATTCTAGCCACTTCTTGCCATGGAACGATATTAGAATGATGATTAGATATTGCAAGTACTATTTCATCTCCCTCACTTAAATTTTCTAGTGCGTAACCAAAAGCTATAATATTTAATCCCTCAGTACTTCCCTTTGTAAAAACTATATTTTTTTCATCGCTTACACCTACAAAATTTGCCACTTTTTTTCTAGTAGATTCCATTATAGCTTGATTTATCATAGAAAGTTCATGAGAGCCTCTACCAGCATTACCATTAGTTTCTAAATAGTAATTATATATCTCATTTATAACTTCCTGTGGTTTTTGTGTAGTTGAAGCATTATCTAAATATGCTATATCCCTTTTTTTAAATATAGGGAAATCTTTTTTTATTTCATCCATTATAATCTTCTTTCCAAGATTTCTTTCAATTCTCCTACCATGTCCTCATCTTCTATAGCATTAAATACAGGCCCAAACGATGATTCTACCACAAGTTTTTTAGCACTTTTAGAATCAAATCCTCTGCTCATTAAGTAAAATAGTTTATCTTGATCTATTTTACCTATACTTGCAGAATGTGCCCCTATTACATCATCTTCATCACAGAATAAAGTTGGTATAGAATGAGCGTTGACTGTTTTATCTAAAAGTATAGAAAACTCAGATTCTGAACCAGCAGATTTTGAAGAAAATCTTTCAAATACTAAATTACCTCTAAACACTTTTATTGCCCTATCTTTAGTTACTCCTCTTGCATCTATATCTGCAACACATTCTCTCCCATGAAAATTTAATGTATATTCATAATCTGTTTTTCTTTCCATATCAGATAAATATACTGGTAAAAGAAGTGATTTTGCCCTATTTTCTAATAAATTCGATGATACTGAAGTTACATTTGCCATACCACCAAATTCTACACTATAGTGTTTAACATCTGCATCTTCTTTAACATCTATATCTACTCCTAAAAAATTTTCAGAATTAACATTTAGTGTTTGTATAGTTATTAATTCTAAGTTAGAACCTTTATTTGCTTTAACATTAATATACCCATTATGATAAGTACTTTCATTATCTATCCCTTTATAAATAATATATATTTTAGCTTTAGCATTTTCTTCAAGTTCTATGTTAAATACATCAACTAAATGTGGATTTTCCTTGCTTAATTCCATAGTTATATATATTTTTTCTTTAATTTCACCTTTGATTAATATTCTCTTTTTTAAATTTGCATAATTTTCAGATTCATACTTAAAATAATTTGAAATTCTTAATTTTGTAAATACATTTTCACTTACTTCTATATTTATATTATCTAAATTTTGAATTTTTAATCCATTAAAATTCTCAATTTTTTCTACACCTTGTACAGTATATTTCATTCTATTCCATACAGGTTTATTAAATGACATGTCAACTTCTTTTTTACTTGCTTTCTTAGACTCTTCTGCAACTGCTGATTTTAACAGATCTATAGTTTCTTGTAATCTTGCTGAATATTTTTTCTCTTTCATCTATATCACCTACCCTATAGTCCCTTCTAATTCTAATTCTATTAACTTGTTAAGTTCAACTGCATATTCAAGAGGTAATTCCTTAGATATTGGTTCTACAAACCCTCTTATTATCATTAATTTAGCCTCATCTTCTGAAAGTCCTCTACTCATTAAGTAAAATATTGCCTCATCACTTATTCTTCCTATACTTGCCTCATGACCTATATCTATATCATCAGTATTTACCTCTATTATTGGCATAGTATGAGATGCTGACCCATTATTATCAAGCATTAATGACTCACATTCTGCTGTTGCTTTACAGTGATGAGCTCCTGGAACCACTTTAAGAAGTGATCTATAAAAAGCTCCACCACCATTTTTTGAAATAGATTTTGATGACACATTTGAAGTAGTATATGGTGCTGCATGTACAATTTTACAACCTGTATCTAAAAATTGACCAGCTGCAGCAAAAGTAACTCCTGTAAATTCACAAGATGCACCAACACCATTTAATATACTCATAGGGTATAGATTAGTAACACGTGAACCAAAAGAACCTGATATCCACTCTATAGTTCCATGTTCTTCTACTATAGCTCTTTTTGTATTTAGGTTATATAAATTTTTTGACCAATTTTCTATAGTTGAATAACGTAATTTAGCATTTTTAGCAACAAATAATTCTACTGCTCCTGCATGTAAAGCATTTCTATAATACTTAGGTGCTGAACACCCCTCAATAAAATGTAATTCTGCCCCCTCTTCAACTATAATTAAAGTATGTTCAAATTGTCCTGACTCTGAAGCATTTAATCTAAAATATGATTGTAATGGTTTTTCAATCTTTACTCCTTTAGGTACATAAACAAAAGACCCTCCTGACCAAACTGCACCATGTAATGCAGCAAATTTATGATCTTCTGGTTTAATTAAAGTCATGAAATATTTTTTTATTAATTCCTCATGTTCAACTATAGCTGTTTCTATATCTGTATATATAACTCCCTTTGATTTTAATTCTTCATTTAAACTATGATAAACTACATTTGAATCATATTGGGCTCCAACTCCTGCAAGAGATTTTTTTTCTGCCTCAGGTATACCCAATCTATCAAAAGTTTTTTTAATATATTCTGGGACATCTTCCCAAGAAGAATTCATGTTTTCTGACTCAGTTTCTAAATAATGAACTATTTCATTTATATCTAAATCTGAAAGGTCAGTACTCCAAGTAGGCATAGGTTTTTCAAAAAATATTTTTAAAGCATGTAATCTTTTTTCAAGCATCCATTCAGGTTCATTTTTCTTTTCAGATATTCTTTTAACTACATTTTCATCTAATCCTTTTCCTGTAGTAAACTTATGCTTCATTTCATCTTTTACATCATATATTCCACGTTCAATATCAGCAATATATGTCTTTTTTGTAGTTTCCATTAATTATCACCTAAAAACTCTTTTCTTAATTTTTCATAACCATGAGTTTCTATAAATTCAACTAATTCTTTTCCACCAGTTTTAACTATTCTACCGTCCATTAATATATGGACAAAATCAGGTTCTAAATATTCTAATACCTTGTTATAGTGTGTAATTATTAACATAGATTTATCAGTAGATTTCAATGTTTTTACACCTTCAAATACAATTTTTGTAGCATCTCTATCAAGTCCTGAATCAGTTTCATCAAGTATAGCAAGCTTTGGTTCTAATATTGCCATTTGTAGTATTTCATTTTTTTTCTTTTCTCCTCCTGAAAATCCTACATTTAAATATCTATTTGCATAACTTTCATCCATTTTTAATTGTGCCATTTTTTCTTTTAATAACCTGTTAAATCTTAAAATATATTGTTTTTCTCCACTTACAGCTTCTTTAGCAGACCTTAAAAAATCCTCAACTGTAAGCCCTGGTATTTCCTCAGGATATTGAAATGATAAAAATATTCCTTTTCTTGCTCTTTCATCAACGAGAGATTCTTGTATTTCCTCTCCCTCTAACACTATTTTCCCTTGACTAACTTCATATTTAGGATGTCCTATTAATATAGAGGCAAGAGTCGATTTTCCTGCACCATTTGGACCCATTATAACATGTACTTCTCCCTTATTAATTACTAAATCTAATCCTTTTATTATCTTTTTATCTTCTATTCCAGCATGTAAATTTTCTACTTTTAATAATTCCACATTTCCTCCTTACTTTTCTTATCAAATATTTTGATAATACAAATTTATATATTAACTATATTATATATCATTTTAGTTATAAAATCAAAAAACTAACTTTATTATTATTTATTTTTTTTATTATTTATGCTAATATATTTAAAGAAAATTAAGGAGAGATATATATGAAAAAATTAGGAATTATTATGGCATTTATTGCTGCTTTTTTATGGGGAGTGTCAGGAAGTTTAGCTGAATATATATTTAGTAATTCAAATTTCAATGTAAATACATATACATTTTTAAGAATGTTTTTAACAGGTATTATTTTAGTTGGATATGGTGTCTATACGAAAGGGACTAAAGGATTAAATAAAATTCTTTTTTCAAAAAAATATTTAAAAAAAATAATTGTTTATGGTATTTTTGGAATTGCATTATTACAGTATTCTTTTGCTCAGACTATCAACAATTCAAATGCAGCATTTGCAACACTTATGCAATATATTACTCCAACTATAGTACTAGTTTATTTAAGTTATGTAACTAAAACTTTACCTAGTATTAAGAAAAGTATACTCGTTAGCGTTGCACTATACGGAATGTTTTTAATGATAACTAGTGGTAGTCTTAATAATTTAAATGTTAGTCCAATTTCACTTATTTACGGTTTAATTGCAGCATTTACTTTTGCATTCTATATCCTATATATCAGTAAGTTTAAAAAGATTGATAATACTATAGTTATAGGGTGTGGAATGATAATAGGTTCATTAATATTTATCCCTTTTATAGACTACAGTAATTTTAGAGAACTTTTAAAATTAGATATATTTATTACTTTTTTATCTAATGTTGTTTTAGGTAATGCTATACCATTTTATCTTTTCTTAGAAAGTACTAAATATATTCATCCTGCAACTACATCTTTACTAGGAGCAGTAGAGCCTATAGTTGCAATAATTATAGGGATAATATTTTTAGGAACACATTTAACTTTAATACAATTAATAGGTGCTATTTTATTAATAGGGTCTATAACTATTATTTCAATATTTGAAGATTAAAATAGAGGTTCAAAATAGATTTTTCTAATTTTGAGCCTCTTTATTTACTTAATATCTTTGATTATATTTTTCATTATTTTTAATTATTTTCTTAAATAATATATATCCTAAAAGTAGGTATATTATACTATCTATTATTAAGATTAATATTTCATTTAAATTAACCAATTCACCACTTAAAATATGATTACTAATTTTTATTCCTAATGTTAAAGGAAAATAATTTGTAATATATTGAATTATTAAAGGCATTTTTTCTACTGAATATACTGAACCAGATAAAAACAGCAATATATAACTAATTACAGATTCAAATGATGCAGTTTTAGTATATACAATAGTAAGTGTCATTAAAATCAAAGAAAATCCATAAATAGAAATCAATGTAATTATTAAAATAGGTATTAATAATATGTTAAACATTAAATTTAACTGAAATACATATTTTAATATTAGTAATATCAATACTATTTTACTAAAATTTATTATTAACCATGATAAAGTTCTAAATGTCATAATAGTTAGTATAGAATAAGGTTTAACAATTAAATTTTTTATAGTCCCTGCTTGTTTTTCTGATGAAATAGATGCTGATGCCTCTGATAGCACAGAACTTGCTAATATCCAGTATATATACCCTATATATTTAGTATTTTCTGTTTCAAATCCAAATAATATTAAGTATAGTATTAAACTTATAACCAAACTTACTATATAATCTGGGTAATAGGTCTTTATTTCTAAAAAATACCTTTTAATTTCTCCTAAAAAAATATTATACATTCTTACTCCATTTCTAAAATTAATTCTTCTAAACTTTTTTCATACTTTTTAATTTCATATATTTCATCAACTTTTTTTGATTTTAAATACATATATATTTCTTCAAAATTTTCTTTTAAAATTTTTTCTTCATATGTTATATCATCTATACTATATTTTACTATATATTGTTTAGTCGTATATTTTGTTTTTAAATCATCTATTCTTCCTACATAAACAACCTCACCCTTATCTAACAATATTAATTTACTATCTAAATATTCAACAATATCCATTTGATGAATTGTTAATATTATAGTTATATTTTCTTTTTCAGATAATATTTTTATCATATCCATCATTTTTCTTTTAGAATAAACATCTAATCCTAGCGTTGGTTCATCTAAAAGTAACAATTTAGGCTTGTTTATTAAGGCAATTATTATACTTAATTTTTGTATCATTCCCCTAGAATAAATTGAAACTTTTTTATTTATAGCATCTCTTAACTCAAATAAATCTATCCAATTATTTACATTAGTTAAAATTTTTTCTTTATTATATCCATATAGTGAGCCAAAGTACAGTATATTTTCAAGGCCTGTCATATAGTAATAAATATTTTGACTATTTTCTAAAACTATATTAATGTCTGAATAATATTTTTTGTTATTTATATCCCTTATATCCACATTTCTAAATTTAATATTCCCACTACTAGCTTCTATCATTTTTAAAATTATGCTTAATAAAGTTGTCTTACCAACTCCATTTTTACCTAGTATAGATAAAATTTCTCCTTGATTTATTTCTAAATTTATATCCTTTAATACTGCTTTATTTCCATAATTTTTAAATAGATGTTCTATTTTTATTATGCTACTCATCATTTCTCCTATACATTTCCTTAATTAGTCTTGTATTAAATTATACTTTATTTCTTTTTAAAAAACAATCAACACGGTAAATTTTAAATAAAAATCTTAATTTCTATATTACTTTTTTACATAACAATAGGTCTTCTTTAATATTTTTATTATATCATAGAAGACCCATTTGTTTATTATAAATTATCTTTTATTGCCCTATAAATATCATCTGCACTTAATTCATATTCTTTTTCTAAAAACTCAAGAGTTCCAACTTGACCGTATCTTTCCTTAACACCTACTCTAACAAGTTTAGTTGGACAGTTTTCTGAAAGAACTTCTGCAACAGCTGAACCAAGTCCATTAGTTATGCTATGATTTTCAGCAGTTACTACAAGTTTAGTATCCTTACAATATTTAATAATTGCATCTTTATCTATAGGTTTTAATGTAAACATATCAAGTAATGTTACATTTATTCCCTCTTCTTCCAATTTTTTAGCTGCAATTCTAGCATTATGAACCATCATTCCATTAGCTATAATAGTAACATCTTTTCCATGTTGAATTAAATTTGCTTTACCTATTTCAATTTTAGCATCTTCTTCATATACCTTAAATACATTTTTTCTTGTAAGTCTTATCCAATAAAATTTGTCATTTTTATTATACACTTCATCAAGTACTGCTTTAAGTACAGTAGAATCTGTAGGTTCTATAACTGTAGTTCCTGCAAGTCCTCTTATTAATCCCATATCTTCAAATGACATATGTGTTCCACCATTATGAACAGCTTGTATTCCAGCATCAGAAGCTATAATTGTTATTGGATTATCTTGGTAAAGAGAAGACATGAAAATTTGATCTAAACATCTTCTACTTGCAAATGCTGTAAATGTATGAACAAAAGGTTTTAATCCAGCTCTTTTCATACCTGATGCACAAGATATTTCTTGAGCTTCCATAATTCCACAGTTAATTATTCTATCACTATATTCTTTTTGAAGTGAAGCCGTACCTAAAGAACCCATTAAATCTGCATCTAAAATCACTACATCTTTATCTTTTTGTAAAAATTCATGAAATTTATCAATACAAACCTTTCTTAATTCTATTGTTTCTTTCATAGCTTCTCCGTTATATACATGTGTCATTATTTCACCTCACTTTGCAAGTCATTTATTGCTTTTTCTAATTCTTTTTTAACTTCTTCATTAGCTCTTATATGATGATTTCCTTTAAAAGTTTCAATAAATTTAACTCCTTGACCTTTTATAGTATCAAGTATTATTACTAAAGGTTTTTCTCCTTGTAAAAGTATAGCTTTTTTAATAGCTTCTATATCATCACCTTTAACAGTTGAAGCCTCTAATCCAAATGATTTAACTTTTTCTTCAAACGAATATGGCTTACATATATCTTCTAAGTATCCATCTAATTGTTGCTTATTATAGTCTATGAAGACTATAAGGTTATTTAGATTATGATGTGCTATAAATTGCATAGCTTCCCAAACTTGTCCCTCTTGTGCTTCACCATCTCCAATTATGGTAAATACTCTATTTTCTTTTTTCTGTATTTTTAAAGCTTTTGCTATACCTGTAGCTATAGATATCCCTTGACCTAAAGATCCTGTAGTTATATCTACTCCACTAGTTTTTAATCTATCTGGATGAGATGGTAATTTAGTTCCATTAACATTTAATGTTAATAACTCTTCTTTTGCAAAAAATCCTTTAAGTGCCAATGCTGAATAAAGTGCAGGCCCTGCATGACCTTTTGAAAGTACAAAATAATCTCTTTCTTCCCAGTTAGGATTTTTGTTATCATATTTCATTATATCATTATATAACACAGCAAGTGTTTCAACAACTGATAGTGAACCACCATAATGTCCAAATCCTAAATTATTTAACATTTTTAAAACATTTATTCTTATTTCTCTTGCAAATTCTTTTGTAGTAATCATAATTTTTCCCTTTTATTCCTTATTTTCTTTAGCAAATATATTATGAATAATTAATGCTAATACAACTACTGATATTATTATAGTAATTAGTGTAGGATTTAATAATTTTGCTGCATTTCCTAATATTATTCCAAGTATTGCAAAGTCAGCATCAGAAAAAGTTGTTCCTATATATCCTAAACTTCCTAATAATGGATATAATACTGCTGGCAAGAATGTTAATAATAGTCCATTTGCAAATGCACCTATCATAGCTCCACGTCTTCCACCTGTTGAATTACCAAATACTCCTGCTGTTGCTCCACAGAAGAAATGAGGTACTACTCCTGGTAATATTAATACTGCATTAAATATTCCTAAAATAAATAATCCTACTAATCCTCCTAAAAATGAAAAGATAAACCCTATTAATACTGCATTTGGTGCATAAGGAAATACTATTGGACAATCTAGTGCTGGTTTAGCATTAGGAACTAATTTTTCAGAAATTCCTTTAAATGCTGGAATTATTTCATTTAATATTAATCTAACACCTTGTAATATAATATATACTCCTCCTGCAAATCCTATACCTTTAAGTAAAGCATATATGATATAGTTATCTCCACCTGAAAGGTTAGTTGTTACAAAATCTTTACCTGCAAATATTGCTAAAATTACATAAATAATCATCATAGTTAATGAAATAGAAATTGATGAATCTCTTAAAAATGATAAATTTTTAGGTAATTTCATTTCTTCTGTTGACTTAGAACCTTTACCAACTAATTTCCCTATATATCCTGATAAAATATATCCTAAAGTTGAAAAATGTCCAAATGCAACCGAATCATCTCCAATAATACCTTTCATAAAAGGCTGAGCAAGTGCAGGGAATATTGCCATAGTTAAACCTAATAATACAGCTCCTACTACTATTAATAAAGCTCCATTAAATCCAGCTATATGTAACATAATAGCTATCATGGCTGCCATGTATAAAGTATGATGTCCTGTTAAAAATATATATTTTAACCTAGTAAAACGTGCTATTAAAATATTAGCAAGCATACCTAAAGCCATAATTAAAGCTGTAGTTGTTCCAAAATCTTTTAATGCAACTGAAATAATTGCCTCATTATTTGGAATAACTCCCTGAATAGCAAATGCCTTTTCAAACATTGAAGTCATAGGTCCTAATTGTTCTACTAAAAAGCTTGCTCCAGCTCCTAATACTAAGAAACCTAAAATAGTTTTAATCGTACCTTTAACAACATCAGTTATAGATTTCTTTTGTAACAATAATCCTATTAATGCTATAAGTCCAACTAATATCGCTGGTGTTTTTAAAATGTCAACAATAAAATTTAATATTGATTTCATATTTACCTCCTAAAATATCTTATTTTAATTTTTCTATTAATTTTTCTTCTAATTCTGAAATAGATATTATACTATCAAGTATCACAACTTTATCAAGTGGTAATGATGAACTTTCAGCAATATCTTTTCCCATTACAAACAAATCTGCACTATTAATTGTAACTGATGCTAAATCAGAATGTTCTACTTCAGCATCAAATCCAATTTTATCAAGAACTTTTTTTATATTCATCTCTAACATAAAACTTGATCCAAGTCCCGAACCACAAACTGCCATAATTTTCATATCTTTACCTCCCTAAATTATTTTTAATATTTCTTCTAATTTATTAGCTTCTTTAAGTTTTGATATTTTATCATTATCTTGAAATATCTCTAATAGCTCTGTTATTACATCTATATGAGTATTTTTATCTTTTGCTGCAAGAACAAAAATTAGATGTAATTTATTATCACCAAATTCTACTGCTTCATTTACTTTTAAAAAAGATACTCCAGTTTCTAAAACTCCATCTTCTGGTCTTGCATGTGGCATAGCTATATCATCAGTTATGACTATATAAAAGCCTAATTTTTTAACTGATTCTATCATTTTAAAAATATATTCTTCTTTAATGTTCTTACTCTCAACTAAAGGAAGGGCAGCAATTTTTATGGCTTCTTCCCAATCTTTAACTCTTTCTATTACAACTACATTATTTTTATTAAATAGCATTATTTCTCCTTCCTCATATTTTTTCTTTAAAATATGACATTAATTTTTCATAAGTTTTTATCCTACTTATATCTTCTAAAAATTTTTCATTTAGTATTAGTTTATAGAAATCACCTAAAAGTTCTAAATGAGAATTATTATCTTTACTAGAAAAACATAATAATACCTTAGCTTTCTTTCCTTTACCAAAATCTACTGCTTCTTCTAGTATTAATAAGCTTGCATCTGTTTTCATTACAGAATGTTCAAATTTTGCATGTGGCAGGGCTATACCATCATAAATTACTATATATGGTCCTAATTTTTTAACCATTTTTTTCATTTCATCTATATATTCATTAGTTATTGAACATTTAGAAACTAAATTATTACCTAATAGTTCAATTGCTTCTTCCCAATTACTAACATTTTTTCTAAAAATAACACTATTTTTATTTAAGGCTTTAATTAATTTACTTTCACTTTTAAAACTATCAACTAATATATTAGAAAACTTATCTAGTAATGTATTTTTAAGTTTGTTTCTATCAAAATTTATGTCATTATTTTCTATTTCATCTAATAAATCATCTACTAAAACTTTGTCTTGTCTTCTTTTTATTCCTAATTTATCTAATTTTTCATAATCTTCAACATTAAGCAATGGATTAATTTTAATAAAATCAAAGTTTTCTAAATCTATAGTTGAAATTATATAATCTACTGAATTTAAATTTATCTTATCTATCATATATGCTGGAATAACATCTACTATATCTATATCAAATTTTTCCTTTAAATTATATTCAAGTATTCTTGATGTGCCATAACCTAATCCACATACTAATATGACTTTTTTTCTATTAAAAGTTTTCATTCTTTCTATAGAAGCTTTAAAATGATAGGCTATAAGTGAAATTTCAATTTCTGTAAATTTAATTTCAAATATTTCCTCCATTTCAACTATGGAAGCTTTAATAATAGGGATTATAGGGTTATTTTCTAAAACTAATTGTTGGTAAATAGAATTTTTTAATTTAATTCCTTTTTTTAGTCTGTATATAGATACTTTTATATGGGTTAATAAGAAATCGTATAAGATCTTATCTTCTGTAAGATCAATTCCTATCTCATCTCCTACACTCTTTATCATTTTCTTTATTAAAAATGATTCATCTAGCCAAGATTCAAAATTAGGGTTAATGGATAATCCTATGAGCATTTCTGCTATTTTTTCAAAACTTGAATGAGAGCCAAAATATTCCACAAATATTTCCTTTATATTCCCCATCTCTTCATCTAAACTAAATTTAGTACTCGTATTATTCTTTTCAGGAAATTTTATCATAGTATATATAGTTATTATTAGTTTTTGATATATTTCCTCATTAATATTAAGTTTAATACTTACAGAAAGTGTTTTTAAAAAGTTTTCAACCTTTTTCATAATTTCAAAATCTATAACTTCTTTTATATACTTCTGTAATGACTTCTTATTATATATTTCATCAAGAAATTCTATTTTTTTATTATTTGTCCAATCTAAAAAATATCCTCTTGAATATATATATTGAAATTTTTCTCCATCTAGTAAATTCATATCTAATTTAAGAGTATTTCTTGAAATATCTATTTTTTTTGATAAACTTGAAATATTTAATCCATTCTTATTATACAAAGCATAAAGGTATATAAGGGTGATTCTATCATCTCTACTTATATATTCTTTATCTTTAATACTTTCCAAAAATTCTTTTAATTCAAGTTTTGAACTAATTAATATATTTCCATTTTTTATTCCAATTTTAGAAAATCCCTTTTTAGATAAAAAATAATTAATATTATTAAGATTATACTGTATAGTTCTTTTAGATACTCTAAAATACTCACAAATATTTTCAAGATTTAAAACATTTTCTTCTAAAAGTCTTTCAAGTATTCTTATTTCTCTTTCATTTATCATAGTTATCTCCTTGTATTATAAATATACCTTGATTTTTTTTAAATACCAAGATGTAAATACTTTCATAAAAATGAAAAAAAATGATACTTTCATTTTTTAAAGTATCACTTAAAATATTTATTTTATTATATCAAACTTAATAGCAAATAAGGCACGAAATACTTGATTATATTCTAAACATGAATCTATATTTAATCTACTAATATTAAAATTAACACCTAATTTTATATTAGGAGAAAAATATTTATAATCTGTACTAAATCCAATATTTGAATATATACTTCTATACTTTAAATTTAAAGACATATCTGTATTTAATTTACCATATTCTATAATATTAGAAATATCTATCATCTCCTTATACTTATATTCCATATTAAAACTCGGTATATATTTTTTATTTATTACCTTATTATTAAATTTTAAATTAAGTTTATGTTTCTCTTTTATTCTTGTATTAAATCCAATAGAAATATTATTTATCTTATCATGTGCATTCTTTACATCTTCTACATAACTCTTTCTATCTATATGATAATATCCTAAATTTAAATTTATATATCTATTAACTTTTCTATCAATCTTAATCTCATATTTATTACTAACTCCAGAAACATCATATCTATTATCATTTTCTGTAAATAGGCTTTTTAAATATATTGAATTTGAATAGATTAAGTATATTTTATTATTCTTTATTGGAAATGATAGGTTTATATTTAAATTCTCATTTCTTCTTGCAAACCTTTTATCCTTTATTTCTTCTAATTCTTCTCCTGGTAATAATTCATCTATATCTTTTTTAAATATTTTATTAGGAAGTTTGGGAGTTATAAAAGTATAACTAATATCTAGTTTTTCATTTAAAATTAATCCCTCTAGTCCTGTATTAATAGTATACCTATATTTTCCCTCTTCAATATTTTTACCATGATTATCTAAAGATATTGATAATTTAAAAGGATTAGTTTTTTTGTTGTTTATAACTATATTTGACATTCCCTCATTATCTGATGGTTCTATTTTAATATCAATATTATTATTTTTAACATATTTAAAATTTTCAGCTAAGGTATCTATTTTAGATATATCTAGTTCTTCTCCTCTTTTTATATCACTATTTAAAAATATTGCTTTACTATTTTCTATCCCATTATATATTACTTTATCTACTATTGTAGAATATAGTATTAATGGTGTAAATATTATTGTTAATAAACTTTTCATTCATTTTTCCTTTTTTAATTTTTTATTACATAAATTTCCATAAATCTACATAGAACTTTGTTTCATCTTTTTTTACAACTTTTTCCTTTATTTCTCCATTATTTGATAGCTTTTCTAAACAATAATATAATTTCCCTTTTTCTTCTTCTGTTTCATACAACTTAGAATATGTTAATAAATGTTTCCCTTTTTTATATGAATAATAAACATTAAAATCTGTATTTCCATCTTCATCTTTTATAAAGCCTATTACCTCAATCTCATCTCCATCAAATTCAAAATGTGAAATATCTTCATATTCTCCACTAGGAGTTTTGTAATATATATCTTCTGATGAGTCTGATAAATAAATTATATAATCTCTAATTTTTTCTTTATCTTTAATTATAGTTTTTCTCATTGTAAGTTCTACTAGTTCATATACTTTTATTTCTTCTATTGATATGTCTAATTCTTCTAAATACTCATCAAAATTAAAATTATCTTTTCCACTTAGTACATGTGCTACATATCTATCAATTGCTTCTACTGGATTAAGTAATCTTTTAGGTCTTTCATAATCTCCATTTCTTATTACATATATATCTCCATATTTTATTTTTATAAATACAAAAAAAGCATAATCATTATCATTCTTTTTTTCACTATATACATTAGTATTCATAAAAGTATATAAATATTCTGCATTTGCATTTTTATTTAGAAGTTTTGAAAAATATTTAGTGTATGATTTTATTACTTCTATTCTTCTTTTCTTTTTAATTCCTATTTCTTCTAAATATCCATCTAAGTCATCCCATTCAAATGAAGATTTTGGTAAATTTCTAAATCCTGCATCATATTTTTCATACGGAAACCCTATACCTAAAAATTCACAGTAATATGAATATGATAATTCTTTAGGTAAAGCTACATCTCTACCAAACCTAAATTTTTCAAAATATTGCTGACCTGGATTTTTACCATAGAATTCTCTGTCTAAAATTAATACTTTACCATTTAATTCAAAAGCTAAAAAATCATCAGATATTTTAGCTCTATATTCTAAATAGTCTTCATCATATACACCATACATTAAATTTTTTGCATCTTTTAAAACTTCATATGTTCTTGGTTGATATTCTTTAATATATTTAAACAGTCTTTCTAATCCATAATCATCAGATAGAGGCGTTATTAAATCTCTTGAATATCCTATAGACCTCTCATTTGAATGTATCATTTTTTTTACATATTCTGGTATTTCTGAGAAATTCCTACATATTCTGTATTTTTCTCTACTTTTTAAAAATTCTTCTATTGTTTTCATAATTTTACCTCTTTTTTCAACTTTACTCCCTTATTTTCCAATACATAACTTGCTACTATATATTTAAAAAACTTGCACCATTTAATGTAATTCCATTAGGATTTGAAAGTATTACATCAAGTTTATCTTTACTTAATGTCTCAAGCATTCCACTTAATTTACTTTCATTTATCCCTGTTACATTTAACAGTGCAAGTCTTGTTCTCTCTTCTCTTATATTTCCATTATTTATTACTACACCCTTAATTCTTGCAAACGAAAAAAGGCTAACCATTAAAACTATACCAATAAATTTCTTCATAAATACCATTCCTTTTTAACTTGTTGTTTAATGATATCATGAATAGATTCCTCAAGTCAATTAATATATATTTATTTTTACATTGATTTTTTGTATTTTTAAGGTATAATATTTACACATTACTAACTAAAGGAAGTGAAAGAAAATGAAAAAACTATTATTATTAACTGCACTAATGAGTATAACTACTTTTGCAGCAGGTCCTAAAGTTCCATACACTCATGAAGGGTTTTATACTACTGAAAATGTTCAAAAAGCTGTACATTTTGTATCAGTAGAACAAATTGAGAAAAGTTTAGAAGGACAAGGTCCTATAAATGTAAGTTTTGATATAGATGATACATTATTACATTCAAGTGGATATTTTAGATATGGTATAGATTATTTCCAAATACCTAATCACCCTAGAGGAAGAAATAGTTATCTTGATAATCAAAAATATTGGGATTATTTAGCAGAAATGGGAGATGAACATTCTATTCCTAAAATTTCAGCTCAAAAACTTATAGATATGCACTTAAAAAGAGGAGATAGAATATTTTTTATAACTGGAAGAACTAAGCATTCTAAAGATAAAAATTATAGTTCAACTAAAACTTCTAAAACACTAAAAAGATTTTTCAACTTACCTTATGAAGTATATATAGAATATGCTGGTGAAAAACAAGTTGGTGGATATAAGTATGATAAATCATTTTACATAAAAAAACATAATGTTTCTATTCATTATGGAGATAGTGATGATGATATTTTAGCAGCTAGAGAATTAAATATTCGTGGAATAAGAGTTCAAAGAGCTTACAATTCTACTAACCCACAAAAATTAAATGGTGGATATGGAGAAGAAGTTTTAATTAATTCTGCATGGTAGAATTAAGATAGTACAAAAAAATTTTACTTTTTACCAGAGGCATTTGTCTCTGTTTTTTTGTTTTTATTTATTCTAAATGTTTTAATTAAAATGAAAGGTAATCTGCATTCAATAAGACATACATTCATAACAAAGATGCAGCAATTACAAATAAAAGTATCAATAATAAAAAATATAGTTGGTCATGAAGAAAAAAATGTTACTGATGGAGTGTATACCCATTGGAGCATAAAAGACCTAAGAGATGCAATTAATCAATTAAAATATTAATGTAGCCAACAAGTAGCCTTTTAGTAGCTTAAATGTAGCCACTAATTTGGAAAAGGTTGGAAACACTAGGGAAAATAACCGTGTTTTTGGAAAATGATAAAAATATTGGATAATAAAAAAAATCTGCAAAGCCTTTATTCATCATACTTGCAGACATTTAAAATATACTTTTTCACTTTTTAAAAATCATGGTGCCCAGAACATCTTCTCTCTAAGTAATACTATAAGTTTCTATAAATATGATACCTAATTATTACCAAAATTAAAAATAATTTACAGCACTCTAAATTATATTATATTTTTCCTTTAAGTTAATTTTTATATAATAAATTTCATAATTTTATTTACAGGCTCTTTTCACTCTATATTAAACATAGAGTGAAATAAAGCTAGTTTTTACTTTTAAAATTAATATATTTACCATTCCTTACTATTCTTAATTTCTGCATATATTTTTTACCTTTGTAATCTAACTCAAACTCTACATAATTTCCTTTGCATAATTTTTCTGCAATACTTTTTGTTATTTTTAACTCATTGTTAAAATATTTCATAATAGGGTATAACCATACTTCTTCATTATTAAATAACCCTTTATAACATTTACCATTTTTAGTGTTAATTTCTACTACCCCTTTAATATCTTCTATTTTTCTCTCTATATTAGGCATTTTTACATCTTTAGTTCTTTCAACTATAGCTTTTAATTCATATTCTACTTTTTTTATTACTTCTTCTAATTTCATCTCATTTTTATATACTTTCTTCTGTAACTTTGAAAATTCAACTGATTTCTCCTTAAAAAAATTAATGTCGTATTCAATTAATTTATTAATAAAGAATATTCCTAACTCAGTTACATCAAATACACCATTATCTAATGTTAAATAACCTATCTTAACACATTTATCAATAATACCAGTTCTTGTTGCTTCTGTTCCTATTTCTATACCCTCTAATATATCTTTGTATATTTCTTCTTCAGTAGCATTCTTTTCCTTTTTAAATGGATTTTTTAAGAATTTAGATAGCTCACTTTCATTTACTTTAGATGGTGGTGTTGTTTCTTTTTCTACAGATCTAAATTCAATATCAAATTCATCATTTAAATTTAAACCAGGTAATTTATCTTTGTATTCTTTAGGTTCATATTTCATAAATCCAAGTTGTTTAACAACAAAACCTTTTAATTTAAATTCTTCTTCATCTACTTTAATAATCATTGTAGTTTCAGATACAATACAATCTTCTTTAACAAAATTAGATAAAAATCTATTATATACCATCTTATATACTTTATCTTGTTCTACAGATAATTCTCCTGGTATTTTTGTAGTAATAGTTATTGCACTATGAGATTCAATTTTTGAATCGTCAAATACCTTTTTACTATCTTTAAACTCTAAATCTTCATTATTTAATACACCTAGAATATCATTTACTTTCCCTTTTTCATTTTCTGATAGATATTCTGTATTAGTTCTAGGGTATGTCAAATATCCCTTTTCATATAGTTCTTGTATTATCTTTAAACTATTTGCAAAATTTATCTTATATTTCTTACTTAATTCACTTTGCAGAGTTGATAAAGAAAATAGTTTTTTAGATTGTTTTTTAACTTCTTTACTATCAATACCTATTACTTTAGCCTTTTTACTATTTAATTTATTAGAATAAATTTTTGCTTCTTCAATAGTTTTAAATTTATTGCTTGAAATAAGCTTTACTATGTTTTCATTTTCTACACTATAATATTTTTCAACAATAAAATTTTTAATTTCTTTATCCCTATCATAAATATATTTAACGATAGGAACTAAAACTCTACCAGCATTTAACATTTTACCAGATAAATTAGTAAACATTATTGTTAAATTATGTCCTAAAAGATAGTCCATATATGCTCTAGCATATCCCTCTTGTTGTAAGTTATAGTAATCACTATTATCTTTTAAGTTATTTAATTCTTTTCTAATTGTTTCTTCTGTTTGTTCTGGTAGCCATAATCTTTTAACTGGTGCTTTATTAACATTAAATTTTAATAAATTATCTACTATTATTTGACCCTCTCTATCAGCATCTCCACAATTAATTATTAAATCAGCCTTTTTCATTAGTCCTTTTATTACATTTAATTGTTTCTTTACTCCTACATCATCTTTAACTTCATATACAAAATTATTTGGTATAAAAGGCAATGTATATTCTCTCCATTTTTTACCAACATTTTCCTCATAGTCCTTTGGTTGTTTTAGTTCTAGTAAATGTCCTATAGCATTTGTTACTACAAAATCATTCTTACATTCAATATATCCCTCATTTTTCTTTATTATCCCTATAGCTTGAGCAATGTTTCTGCCCAAGCTTCCTTTTTCTGCAATTATTAACTTCATTATCCTCTCCTCATAGTATTTCCTAGCTTTCATTCACTCTATATTAAACATAGAGTGAATATTTCTATTATAATACTTTCCATTTAATAAATTTTCATTTAATTTTTCTATTTCACAATCACTACCAAAATATTCAAATTGAATTTCATTAAATTTATCGACTTTTTGAATACAATAATAAAATTTATTTTCTAAATCAAAATAATCAAAATCATCATACTTAAAATACATTGAATATATTGTTGATTTTAATTCATCTACAAATTCATTATTATACACTTCTCCAAATTTATATTCAATTTGTTCTAATAAAAACTCAACACTTCTATATAAATTTTCATCATTAAATTCAATACCATTAATCATTCCACAAAATTTACTTATTATTTTTAATTCCATAAAAATCTCTCCTTTTATCTTTCTAAATTCTTATATTCTTTTTTATTATCCCAGTTACTAGAAATTTCCTTATCTTTTTCTTTACTTACATTTATTTCAAGAATATCTACATAATCTTTTCCTAATTCTTTTCTTTTTTCCTTATATCTTTCCATAATTAAATTTGCTGATTTACTTGCTTCAGATAATGCTTTAAACAATTCATTTTCTGGCTTATAATTATCCTCATGTGTTCTATCTTTTGTTACTTTAATCCAATTTTGTAAATATGCTGTATGATTATTTTTACTATTTTCTCCTAACTTAATCCCTAATCTTCCTTGAACCATAATGCTTGTAAATTCTGCAACTAGTTCTTCTTTAGCATAATCTAAACTCCCCTTAACCCCTTTATCTCTTTTCAGATTTTCATTACCTGTTTCATGTCCCATCTCATGAAGTAAGGCTGCTAAAAAATCTTGTGAATTTTTAAATGTTTCCCTTGGTGGCAATACAATTTTTTTTGTTACTAAATTAGATGAAGAAAAGACTTTATCTTGTGCTGCTTCTATAACCTTAACAGGACAACTTGCTATAAGATCATCTGCTATATCCCATAAATCACTTTTTTCAACTCCTGGATATTTAAATTCTTCTAATCCCTCTATATCTTTTGCATTAAATACATTAAAATATCCTGGTAAAGGAGTATTTTCAACATATTTTGCTACTAAATTAAAATCTTTATGATTTCTATCTATAGGAGTAGCTATCTTATTACCAAAACCATCTTCAAATTCCCAACCTTTTTTAACTCTTAATGCTATTTTATTCTCTATTCTTTTTATTTCTTTTTCACTTAATTCTTTTAATTTATCATCTGTTAGCTTCTCTTTTGGAAATGACCAGTACTCCATCTGTATTGAAGAAGCTCCTTTTTTAAGTTTTAATCCTGCTTCTTTTATTTGTAAAAATGTAAGCCATCTCGGATCTTTACTTTCTAATTCTTTACATGTAATAGCAGCTTTTAAAACATTACCTCCAGAATAATAATTTTTTGTTATAGGATTAAAAGGGGCTACCATACTAGGATTCCAACTTTTTGACCAATTTAAGGGATCTTTATCAATTGCTTTTACTATTTCATCTAATATTTCTAATCTACTTTCTTTTAAAATTTCGTGAATATCTTTCTTTTTATTCATTATCTACACCTACTATTTCTTCTACAGGAATTTTAACTTCTTCTTCAAAAGCCATTTCTACTAAATCAATAACTTCAATTTTTTCTTTTTCCATAACCTCTACCTTTCTAAATCTTTTTCTTTATTATGTATTCTATCCTCAAAATGAAGATTATTTATTATTTCTTCTCCTATTTCTCTTAAATTGTCAAATAATTCTGTATTCATATTTAATGATTCAAGTTCTTTCCATTCATTTTGAGTTTTAGAGTATTTAATATAGCTATTTTCTCTAACTAAAATCAATTCATTTTTTGTATATACTAAATATTCATTGTCATAACAATCACTAGTTATATCATACATATTACTTTTTATTTTTTTAGCTTCTTCAAAGGTTGAAGCTAATCCTAAATCATATAGATAATCTGATTCTTAACATCTTCTGTATTTAAATCAATAATATTATCTCCATTATCTTCTCTAATATTTATATCAATAACATCTCTAACATTCATTTTTACTACCTTTCATTCACTATATATTGAATATATAGTGAATATTATCTTTCTATTTCAATATTTTTATTATCATTTTCATACCATTTATTACGATTTATTAACAAGTCTTCATTCCAATCTTTTTTTAACGATTTTTCTCTATAAAAATTTATACCCTCATATTTTTCCTTAACCTTTTCATAAAAATTTTCTCCTGCAACATCATTATCAACACATACATATACATTTTCTATATTTTCAATATATTGTTTAAAAATATCTTCTCTCAGTCCTGACAATGTTAAAAACCTTACATTCTCATCTTTCCATTTATCATTTATTTCCATTTGAAATGTCTGTAGATATGAAAGCATATCAATTGTACTTTCAAATACATATAAGTTTTTAATAATAGGATTTTCTTTAATATCTCTTCTAGTTAAATTAAATCCATTACACTCTGTAGTATTACTTTTAAATTTAATATCTCCAGTTCCAATAACTTCTTCTCCAAGATAATTTCCATTATCATCTTTTATAGAAAATACAATATTATTTTTATAAGTCATATAAAGAAAGTCATTATGATATAGGGCTTCAACAAATTTTTCATCAATCCCTCTTTTATTACATAAATAATCTTTTATTTTATCTAATGAGCATTTCATCTTAACCTTATAATTAATTTTATTTTTTTCTTCTCTTTTTACATCAACTGAAGGAGCATAATCTCCATATTCTACAGCATCTAAAAAGTTTTGAGTTACATTCCATATATTTTTATTACTTAATCCATACAACTCTTTTAATAAAGTAAAATAATTTCCACCAATTGATCTTGAGTTCCAATAAAATCTATTATTTGTAATAATTAATGAATCATGTTCTCTTAATTTAAATGAATTTCTACCATGTGGAATTACATCTTCTCCTAAAAACTCTAATAAGTCTTTTAAATTAATATCACTTCTACTTGTATTCAAATTCCTAACCTCGTTCCAAATACTGCTTTTTGTCTATAGTAACCACTTAATTTACTCACTATAGTTTTATTTGCTTTACTTGAAGCATGAATAAATTCATTATTACCAATATATATTCCTACATGAGAAACATAATTTCCTAATGTATGAAAAAATATTAAATCTCCTATTTCTAATTCATCTAATGGTATCTTATTTCCTATTTTTGATTGATCTTTACTTACTCTAGGTAAATTTATTTCTACTTCTTTATATAGAGTTTTTACAAAAGAAGAACAATCAAAATTATCATAATCTCCAACCTTTGCTCCCCATACATATTTTTTACCCATTAATTTTTTTGCTTTTTTTAAAATAAGAATTTTCTTATCATTATTTTCTTTATCTTTATTTTTTGTTATCAGAATTTTTTTAGGTTTTAGATTATTATTTCTATTTTTAAAATTAAGTGCATTTGAAAAAGAAATTGAAAAAGAAAAATTAATCAATAATATTATTAATAGTTTTTTCATAATCTATCTCCTATTCTATTATTTTCTAAGTTTGTTTCACTATATATTGAACATATAGTGAAAATTACCTTTCAAAATATACATCTTTTTCATCTTTATTAACATTCCATATATTTTCTTTATTATTTTCAAATTCTTTTAAAAATTCTCTATAATTAAAATCCTTATTTCTTTCATATTCTTCTAGTAAAGCTATATTTTTATCTTCATCAAAAGAGAATGGAATGTAGTCTCCTTTATCATCTCTATATTTACTAATGCTTTGTATTTCTTCAATTATGTTAGATTTATCAAAATATTCTATATTATCTTCCACAAAATATGTTTTAATAATATCTTTTTCTTTTTCAGACAATTCATCAAAATTTAAAATAAAATCACAATTTTCATCTGAATAAATCCCTAAATGATAATATTCATTTTTCTTAGATTGAATTATTAAATAATTGACATTCATTTTTGTATCTAAAGTTTTTTCTACAATAAATCCTTTTTCTAAGTTATTCATAAATGCTTCAAAAGTATCAATTCTATTTTTGACATTTTGCATTTGTTTTTCTCCATGATTTTTTTCAACTTTATTTAATATCTCTTCATCAGAATAATTATTAGATATAACATTTCTTAATAATGTTCTTCCCTTCATTTCATTATTTTTTTCATTAATATATTGAAGTCCTAATAAATGAGGGATATTTTTTTGACTAAAATCAATATCAAATTCTTTAGTTTCTCCTTTTATCTTAAATTCAATATTATTTAATTTTTTCATCTTATTTAAAATTTCTTGCACTTTATATGTTTTTTTCATAAAATCTCCTTAAAATAGAAAAAGACTAGAATAAATCTAGTCTTTTCGTGATTTTTCACATATTCTTGGTTTACACCCCACCTATGCTAAAGGTCTACCGATAAATCAAAACGGTAACGAGCTTCGCTGCCCCTAAAATTTCTGACCCATTAGGCTGGACAAGGATTTCTCGCATCCCCTGAGCTCATTTCTCATTAATATTATACCGTTAAATCTATTAAAATTCAAGACTAAATTTTTAAATTTATATGTATTTTCATTGTTCTTACTCACTCTATATTGAATATATAGTGAAACTATTTAACTATAATTTCTACTCTTCTATTTAATGCCTTATTCTCCATAGTATTATTATCTTTAATAAGCTCATTAAACCCTACACTTTTACTTACTAATACCTTAAATACCTTTACTTTCTAAATATGCTTTAACACTATTTGCCCTACTTAATCCTAAATTTAAGTTATATTTATCATTTCCATCTGTATCTGTATATCCAACAACTATAATCTCTTTATTTTCTAAATTAGTTATTAAAGCATCTATAATAGCCATTTGATTTTTATTTAAAGTAAATTTATTTGAATTAAATCCATAAATTGTATATACTTCTTTCTTTTTATTTTGCTTTTCTTCTATATTTTTAATTAACATTGATAATTTTTCTAGTTTTTCGTTTAATTCAATGTTTTCATTTTCTAAAATTTCAATTCTTCTTTCATTTTCATCTATTTTACCTTCTTTTTTCATAGCAATTACTGGTGCAACAACCTTAATAGGCTCAAGACTACTATTTGAATAAGATAAAGTACCTATAGCACTTATTAATAAGTTTATAACTAATATTTTTTTCATTTGTTTTTCTCCTAACATAATATTTACTGTGTTTTATTCACTCTATATTGAATATATAATGAATATTATCTCTCAAAATCTCTATCTTTTTCATCTTTTCTATCCCAAGGACTTTCCATTTTTTCATTTTCTTTTTTTTCTACTCTATTAATTACTTCATCTCTTGCAAATATTAATACATCATAATTATATCTAGCTGCTTCCAGTATAAACTCTCTATCATTTTTTAACCTCTCACTAGCATAATATAAATTCCCTGCATTATATTCATTTTTAATTGATTCCATTACAAGTTCTTCATCATCTCTTAACCTTTCACTAACATGAGATAAATTCCATGTTTTATCTTTAGTTACTTCCATTACAAAGTCTTTATCATCTTTCAACCTATCACTCACATATTCTAATAAACGTGAATTTTTCTCTATAGCTCTCATTGCTACATCTTTATCATCTTTCAGCCTATCACTTGCAAAAGCTAAGTTCCATGGACAACATTTAGTTACTTCCAACACAAGCTCTTTATCATCTCTAAACTTTTCATCAGCATTTTCTAAATTCCTTGGACAATATTTAGCGGCTTCTATTACAAACTCTCTATCATTTTTCAATCTTTCACTTGCAAATTGAAATACATTACTTCTTTTCTCTAAAGCAGCCATTACAACTTCATCATCATCTCTAAGTCTTTCACTCGCATATTCCAAATTCCATGACAAAGTTTTAACTACTTCCAATACAAACTCTTTATCATCTTTCAGTCTTTCACTCGCATACTGTAAAAAAAGTTCATCACTATAATTTCTTGCTACTACACCCATAAATTCTTTATCATCTCTAAACTTATCCTCTACATATTCTAAAACATCATAATCCTTTTCAATAAGATTAAGCACAAATCCCTTATTATTCCTTAACTCATCACTTGCATACATTAATAAATACGGATTTTTCTCTACAGCAATCTTAACTATTTCTAAATCATCTTTCAGCCTATTACTTGCATAAACAAAATTCCAACCTCTTTTTATAACGGCTTTCCTTACAACTTCTTTATCATCTTTTAATCTTTTACTTACACGTCCTAATAAATCATCAGCTTTCCATATGTTATCCATTACAAGTTCTCTATCATCTCTAAGTCTTTCACTCGCATAATATAAATTACATGAATTATGTCTAGCAGCTTCCTTTACAAACTCTCTATCATCTTTTAATCTATCACTCGCATACTTTAAAATAGGTTGATCCCATTTATATCTTATTGCTTCCATCATAAAATCTTTATCATCTTTTAATTTCTCATCTAAATATTCTAAATCTAACTCCTCAGTAGACCAATTAAAAAAGTGCTTATTTTCATCGCTTACTTTAGTTTCCATTTTTCCTACCTTTCTTTCACTATATGTTAAATATAGAGTGAACATTATCTTTCAATTTCTGTATATTTATTTTCTTTTTTAATCTCCCAAATATCATATTCATTTTCTGCAATTGATTTATTAAGTTCTTCTATTTTCCAATCAGAACCATAATATGAAAAGGCTATTTCATTAAATTTACTAGAATTTTCAATATCTTCATAAAATTCCCTTTCTAATTCACTATAACTAAATTCTTCATATTTATAATTCATAACATCTATTGTATCTCTTAAATCTTCAATAAATTTATCATTATAACAAGTACCATATTTATCTTCTATTTTATGTAATAAGAACTCAACAGAGTAAAAGGTATTTTCATTATTAAATTCAACATCATTTATTGTCCCTTTAAATTTTGAAATTATTTTAATATCCATAGCTATTTCTCCTATATATTTTTATCTTTCCATTTCACATTCTTTATCATCTTTTTTTAAATCCCAAGAATTTTCTTCTTTTATATAATCTAATGAAATATCATTTTTTTCATTAATATAGTCAATCATTTGATTTAAAACTTCAATTCCATTATCTTCTCTAACATTTACATCTATATTTAATTCATCTAACATTTCATGTAATTTACTATTTACTCCATTTGAAATTAAAACTGGAATAAACTTATTAGAATCATTTAGAATATCTTTATCATATGTTTCTTGAATATTTTCTAATGTATCATAATAGAAATCTCCACTATGTATATATTCAAAATCAAATTTTAATTTTTCATTTTTATCATAAAATATGAAATCATCATAAACCGAATTTGAAACTCTATCAATTAAATAAGAAATATCTCCAGTTTCTTTAAATTCTTCCATATTTAAAACATTCTCTAAATCATTAAAACAGTCTATAATATGGTCATTTACAACCTCATCAAAACTTTTAGAAATATTTCCCATAGTGCTAGTTAAATCATTAAATATTTGAATATTGTCATATTCATCAATATTATTTGTTTTTAATTTATTTAAAATTCCCTCTAAATTAGCAATCATATTATCTCTTGCATTTTTGTTTTCCATTTTTACCATTCTCTTCCTTTTTATTTAAAATATTGTTCTTTCTTTTTCTAATTTCTTTTGCTTTTCAATTTCACTTAAATATAGTTCTTCTCTATCATCTATTCCATTTCCATCACTATCCTTAGAAAATGGATCTAACCCTCTTTCTAATTCTTCTCTAGTAGATAATCCATCTCCATCATGATCTTTCATAATTTCCATATGTTTTTCATATGGTATTTCTTTTTCTAATCTAACAGATTGTTCATTTATAGTTTTTTCTATTTTATCAATTATTTCTCCTATAGCTTCTTTAAGCTCTTTTTCTCTAAATCCATTTCCTTTAACAGAATCTCTTAATGCTTCTAATCTCTCTAAACTTGCATCAAATATTTTTAGAAAATCTTCAATCTTTATTTCTTCCATCTTTTTTGAATTAATTGTAGAAAAAGCATTAGCTTTTTCAAATATTCCTGAATCAATAAAATTTCTATTCCTCATTTTTAATTCTCTCCTCTTTTAAATATTTTTCTCTTTCTATCTTAAATATCTTACCTTTTTCTTTTAACTCTTTCTTTTCTTTATCATTTAAATAATAATAATTCATTAATATTCCCAACAATAAATCCTGGTCCACATTTTCTATCTCTAATAATGTAAATAATGTTCCCAAAATTATTAATTTATGAGTTCTTTCTTTTCTATTAGAAGTGCTTTTATGTTTTCTAACTTTTCTTTTTTCTTTTATTATTTCTAAAATTATATTTTCTATTTTACTCATATCCTAATCCTATATATTAAATGTACTTTATATTTAATATCTTTCTTTTTAATTGTTCCATAATATCTTCCATCTACAGAATAACTCACGTCTCCTATAGTTAAAAATTCATTTTCAGAAATAATATATTTTTTTCTTGAATTAATAGGTATTTCATAAATTATTTCAGCCACATTTTCTTTATTAATATATATCTTATTGTCTATATACTCTACTTCATCTCCAGCAACACCTTTTATCTGTTTGACTGTATCTAAATCTTTTAATTTCTCATTTACATATTCTTTATACTTTTTATCAATTCTATATACTACATAATCTCCTTTACTATAGTTTTTAGAAAATCTATTAACTAAATATATTCCTATTGGAGATGATTCACTTATATTAACTCTTATATTACTAAATACAATTAATATTGTAGCTAGCACTATAAAGTATATTCTTTCTATTTTTTTCATCATAAATATCCTTTAAAAATTAATTTCTACTTTAGTAATTAAATGTCTCATAACGGATATCAACAGTAAAAATACAATAAAGTTTGATGATAATGCTGTTGATACATCTGTTATAGAAAGATTTAAAACCGAATTATTATTAGTTAATGTTTTCATAATCACCGAAGCTATAAAGTTTACTGATATTAATTTTACAGAAAAATTTAAGCCCATAGATAATATTTTTCCTATAGAATAGTATTCTTTTGTTGAATCCATTATTCCTAGAGGTATTAAGATTGTAGATAATCCTAATACTAGTTTAAAGCTTATTAAAGCTTTAAAGAGATTAAGCATCATCATAAAGAATGCTATATTTAAAAATACTATTACTGCTAAAAGTATCAATGTTAGTATAAAATCTCGTACAAATTCACTTGGGAAAAATGAACCAGCTCCCCATAAATTAGCTATACCTTGCCATACATTGTAAGTTACTTGATTTTTTATTCTCCAAATATTAGATAATTTTTGTATTCCTGGTTCTCCAGTAAGTAATTTAAGTAACTGATATGATAATTCTTCAACAACTCTAAAGACTGTTCCATCTACTATTTTTCTAATTGCAAATAAGTATAAGGAAAAGGTCATTAATCTTTTTATAAAGGTTTTAAAAAATTCTTCTAACTTAAGGGTCGCATATACACTGTACAAATCAATAGTTAACTGAATACCAAATAGAACGGAAACTATAAATATACCTATTTTTTGTAATGATTTAAGACCATTTTCCATATATTGTCCCATAAGTGTAGCAATACCATCAAAATCATAACTAACTGTAGGTGTATAATTTATTTCTCCATTATTTAAATTATTTCCATTTACTGAAGGAATTACTTTAGACTTCAAGATATCTTTTTTAATATTCAAAGAATAATTTACATTTTTAAATGTTATTGTATCTAATCGATAACTCGCAAAAGTAAACATTGAAAATAATAAGAGTATGCTAAATAATATTTTCCTCATGTATTTCCTCTCTTTCTTTCACTATATATTCAATATATAGTGAGTATTTATATTTATTTATCTATATTGATAACTAAATTACATTTTTACCACCTCTTTATTTTTAAGTCTAAAAAAAGAAAAAGGTATCCATACTAGCTCGCAGGCTAGCATGAATACCTTAATAATTTAACTCGCAGATTAAATCAGTAATTCATAATCTAAAATATTTAAATTGTATTTTTAACATTGCTTTTTTAATTGTTAGCTCGCAGTCTAACATGAGTAGCTTAAACTCACCTATATTTTCATTTTAATTATATATCTAAACTATAATAATCTTTATCAGACTTTTCAGTCTTTAATTTTTCAATTTCTTGTTTTAATTCCTTATTTTCTTTAACAATATCTTCCATTAAACTTTTCAATCCATTGATTTCATCTTGTAATCTTTTATCTTCATCTCTCAATAGATATACCTGTTCTTTAGTACTTTCTGCAAAACTATCTAATTCATTAATAGTTACAAGATTGCTTATATCTGGAACATGAATACTATTTTTAGCATCCATTATCATTCTATATACATCTGTTGAATCAATACTCATAATTACCACCTTAAAGTTTCTATTTTATATTATTATAATACCACAAAAATCTTTATTAAACAATATTTATTTATACTGATTTCTATTATTTGTTTCATCATCTCTCTTATTAGAATTATCTTTCAAAATCTCTTTCCCAATATCCTCATTCCAAATATCTTTTTTAACTCTTTGTCCTTGCTCATTAGTTGTATATGGGTTATATCTTCTTTCATTCATATAATTTCTTCTTGTTTCATGTATCTTATGCTTATCATTAACCTTATCTACAGCTTTTTCATACAAGTCTTGCTTAGTATTAGGGTTTGACATCTTTTCTCTAAATGTTTTAAATGCTTCCTTATATCTCTCATATTTTGAATGTGGCATATCACTTGTTTTATCTGTTCTAAATGAATCTCTTGCTTCTTTAAAGGCTTCTTTTACTGCATCAAAAGTTCCCACATAATCTGAAGCTTTTCCAACTTCATCATAACCTAAATTTTCTTTCATCGTTGCAAATGCCTCTCCATCATGCATAACTTGTTCTGATGTTGTTCCAGCCGTTGCTCCCCAAATATCACTTGCAGCATTCATTACACTCCTACTTCCTGAAGCATATCCAACTGTATTCTGTAATCCCCTAGATAATTTACCACCAAGCTTACCAAGTCTACCACTTTTAGCTATAGTTGATCCTTCTTTCATTCCTTTTATAGCTGCATTAAATATACCTTTCATATTCTTACCATCTTTAAAAGCTGCTGTTCCTTTTGAAAGTCCACCTTTAATTGCACTTGCTCCAACTACAGCTCCACCAACTGCAGCCGTTCCACCACTTATAGCCGTTGACATTGCTTGACCAAATATATTATTAGCATTACCAGAACCAGTTCCATTTATTAACATTGAACCTAATTCTCTTGAATTTGTAACAAGATAAGCTGCAAGTCCTAAAAGAAATGTCCACGATATAGCATTCCCTATTTGAACACCAATAAGACCATTAGATTTAAATGTATTATTTTGTAAAATCTGTAAGGTTACTCCTGTAATACATATAGATACTAATAATTTACCTGCTGAATTTAACAGGGCATGAAATAATTTAGAACCTATACTTTTTGTCTGTTCAAATACATTAAATGGTAACAATAATACACCTAATGCTATTATTATCTTTAATTCAACGAAGTTAACTATTATTTCTTTAATTATTAGAAATATTGCAAATATAACTATTAATACAATAATCAAATATGTTAATTGACCACCAACTTGAGTCCAACTTAATTTTTCCCAATCCTTTCTAATATGTGTAACTCCAGCATAAAGAAACTTAAATATTTCATCAAAATCAGGTAATCCAACCCTACCTCTAGGTACTCTTCCTGAAGGAAAGAACAAGTAACCTATTCTAAAGATAATATTAACAAATTCATCTGTAACAGGAACATAGTACCTAGCTATAGCAAAAAATATTGAATATCTAAATATTTTAGTAAGAAATACTTTTATAAAAGACATAAAATCATTGCTATATTCAAATATAAAGGCTAAAATAAAATCTATAGATGCTATTACACTCATGAAAAATAGAACTATACTTACTGTTCTCAATACTCCTGTAGATAGCATATCAGAAAATATTTGTACAAAATTATTAATCATATTCTATCCCCTATCTATTCCCATTAACAGAACCAACAAATCTGGTACCTAGTTTAATTTCTTTAACTAGTCTATTTGCTTCTTTTATTTCTTCTCTTAATCTCTCTACCTCAGCTTTTTTAATTTCTTTTGCTGCAATTTCTTCTTCAAGTCTTTTATTTTCTGCCTGTATCATTGTAGCTGCAGATGCAGATTGATTATTTAATAGTTGTTCCATTACTTGAATTAATATATTCATTTGTCCATTTAATTGTTGTAAATTTTGTACCTCATTTTTAGGATTTATTTGTTGTAATTTCTTCTTAGTCCTATTTATTGTATCGATAGCTAGCTTATAATCTTCTCCTGCTACCTTATCATAAGCATTATTATTTTGTTCTTGAACTTTCTTATTTCCTGTTAAAAGCAATTCCCAACCCTCTCCAGTTGATAAATCAGCACTTTTAATATCATTTGCAAATCCTTTTGTCATATCTGTTAAAGCAACACCTTCATTAATTATTGATGATAAAGAATTTAATGTATTATATACTCCAGTTAAATTCTTAACATCACTTTTACCTAAAGACCTCACTGAATCAATATATCTTTTATATTGCTTAAGTTGATCCACTCTATTTTTCATTGCAAGTATTTTTTGCAATACTGCTTGAATATTAGTACCTATTACAGAAATTCCACCAAAACCAGGAAATGAACCTGCTATACCTGTAATTCCTGTTACAACATCTCCTGCTATAGAAATATTTTTAAATATATTATCCGTTCCATCACTAATCTTTTCCCAATAATTATCTATATCATCAAACATTTTATCAAAATCAAAATTTTTACTTAATTGTCCTGTATCCTTTATATTTTTATCAACAGCATCTAAATTTTTTATTGCTTCTTTTCTCTTTGCTTCTTCCTTCTTTTTCTCATCTTTTGGATTACTTTTATTATCCTGACTTGTTGAAACATTTAAGTTTTTATCACTTGATCCTATTTCAACCTTAGAAGTTAGATTTTCACTAAAAGAAAGAGTTCCAATTAAAGCAATTATACCAAATATTTTTTTCATTTGTTTTTCTCCTTTTCATTTAAAATTTCTTTTATCTGATTTATACTATTTAGACTTACTTCTCCTATTTTATACTTATAGTTTATCCATTCTTTATTTAAATTTAATATTTTATCTCTACCACTTAATATTTCATTATCTATTTTATTTTTTAAGCTAATAATAGTATTTTGGTCATTATTTGTAGAAGCTCCTAAATATGCTATTTCAATATCTGTAGGATTTAATTGAAATAATCTTGAACCTTCAGTAGTTTTAACAAAATAATCTTGTTTCATCACGGCATTGTTTATCTCTTGTATCTCTTTTTCTGTAAGATTAAATTTTTTATACAGATTTAACCATGTTGACATAGCTTTTTCGTTAGGTAAAAAGATATTAGTTTTACACGCATCAACAATAGCTGAAAAAATAGGGGAATCTGCAATTTCTGAAAGAGATTGTGTCGCAAATATAACAGAGGTATTTTTCTTTCTTAATACTTTAAGCCACTCATTTATCTTATCTCTCATTTTTTCATTTTTTAAGAAAATCCAACACTCATCAAGTAAAATTACTGTAGGAGTTCCATCTAATTTTTCTGTTTCTATTTTATGAAAGATATAATCAAGCAATGGTGAAATTACTTTAGGTTTAGATATTACATCACCCATTTCAAAAGTAATAAAATTATTATTTGAAATATTATCAAAATTATTATCAAAATATTCTCCATATACATTATTTCCACAATATGAATCTAAAACAGAAGCTATTGTTTTTGAACTTGAAGCTATATATGTTCTTAAATTTGATAATGTTCTACTTTCAACTTTAGCTATAGAAAGAGAATCTAATGCTTTTTCTACAATATTTCTTGTAGTTGCATCGTAACTAACTCTCTCTTGTTCTAATATATTTATTATCCACCCTAACGCCCATTCCCTCTCACTTTTAATATGTATATTTTTTAATGGCTGAAAGGCAATTTCTTTTTTACCTAAATCATAGAATTTACCTCCAGAAGTATATGTTAATACTCTACTTGAAGCATCTTTATCAAAAAAGAAAACTTGTGCTGGTTTTATTTTTGAACTACCATATTCATCTAAAACTTTACCTTCATATTTTAAGAAGTTTGCAGCTATCATACTAAGTAGGAAAGATTTTCCAGCACCTGTAGGTCCTATTATTAAACTATGACCTATGTCTTTATTGTGTAAATTTAAATAAAATAACTCTTTTTCTGTTTTTGTAGTAAATAATGCTACATCTTTTAAATGATTATTTATCTTATTTCCTGTATATAATGATGACATAGGTAACAGAGCAGATAATAAATAAGTATTCATAGGTGCTTTTCTAACATTATTTACAATATTACCTGGTAGTGAACCAAATATAGAATCAAGTGTATTATATTTATCTACTCCAGCTACAAAATCATAAAAGTTTAATATTCTTCTAACCTCATTTATCTTTTTATCTAATATTTCTAAATCCTTATCTTTAATAATAAATGAAAATGTATAATATCCATAAGCAACTACTCCAGTTTTTGCTTCATTTAATGCAAAATCAGCTTCATCTACTTTATCTAATGCAACTGTATCTATATTTTGTACCTCTGTACCATTTTTTACTTCTAGCATCCATTGAGCTAATGTTTTTACTTTAGCTGAAAAGTATATTTTAAAGTTTTTAAGCATTTCTAATGCTTCTTCTTTACTTAACATTATAAATCTTGTTACATATCTATATTCAAAATTTAAACTCTCAAGTTGATTAAATATTCTTTGTGTTACATTATCTGGAAACATATTTATAGTTATAACCTTAACATATTCATCATTTATTTTTGTATATTCTCCATTTGATAATGTTGATACAGTTAAATATTCATCAAGAAGCATTGTATCATCAACAGGAACTCTAATTTTTTCTCTTTTTTCCATATTTATTGCTGAATACAAGAAACCTAAAAGTTCTTCTCCTTTTAAAAGTTCTGCACTAATCGCAGCAGTTTTTAACTGTTCTATAAACATTAAAACTTGATCTTTATACTCTTTTAATTCATTTTTATATATTTTTAATAGCTCTTCTTTACTATCTTCTTTTACCTTATTTTTCATAAAAAGATTACTTAATTTATCTAATAATTTTGTTATTTTCTCACTATTATCATTACTCATAATATATGTTAAAGTAATGTAATATTCTGTTGAGTAAAATACATCTTTTGTAACAGATTTTTCCCTTATTTTATCTATTATTTGTGTTGGATAAGGTTTTCCTTTTAAATTTTTTGTAGGATATTTATCACTTTTATTTCTCTGAACCTCAAAATGAACACTAAATCCATCAGGTAACCTTTTATATGCATTATTTAATCTATCATTTATTAATGTAACCTCATCTTCTCCCATATAATCTAAATCATAAAATCTAACTTTAAATGTTGATTGAAATCCACTATTTTTATTAAGTATTATTCCATCTTCAATTAAAGATTCAAAAGGAACAAAAAATTTATATGATTTTTTATAATTATTTAATATTTGTTTTAACATCATCTACTCCTTTCTTTCTAAAATCCATAAAAATTTCCATGAAATAAATTAATAAAAAATACATTTAAAAATTTAGAATCTTTTCTTGAAACTATTTTAAGAACTATAAATAATATTGCTACTGGTATTATTATTAAAAAAGTTTTCAAAAATATATATAGTAGTAATGCAAATACTCCTAAATACATAAATGCCGAAAGAGGTATACCAAAACTTGTTTTATTTTCCATTATCCCTTTATATACTGGTAGTTTTTTCATAATTGATCTCCTGGTAATTCTGTATATATAATTTTTCCATCAATAGTTTTTTGTATTATTTTTAAATTACCTATAGATGAATCTGGTATAATTAATTGCCAATCTCCATTAGAATCAACCATAGTTGATATTTTAAATGTATCAAATTCTAATATTATTTCAGATTGTGGTTCTCCATATCCTCTAATAACTTTACCATTTCCAAGTATTGCTTCTGTTTCTTTATATACAGTATTATTTATTGTTTTCTTATTATTTAATTCTATTATTAAATCATTCTCATAAAAAGAAGGACTTACTTCTTTTTCTATTATTTGCTTAGCTTTTTCTTCAAAAGTATCTTCATCTAAAAAGTATGGTACAAGTTTAATCCATTTATAGTTATTTTTTATAACACTCTTAATTTCAAATATTGTATTATCAATTACTTGATATTCATTATCTAATTTAAATTCTAAAGTACTTTCTTTAGGTAATCTTGCAAATATTATTTCTTTTCTAATAGTTCTATTTTTTCCTAAATTATTAAATGAAAGTATTACTTTATCTCCCATAGTATTATTAATGATAAATGAATCAACAATTCCTTTTTCATAATTTATATCAAGTAATATTTTAGGAATATTATCTACTATTAGGTTTTCAATATGATATAGATTTATTTCATCATTTCTTAAATCTAATTTACCTTTTATAAATAGCTTTTCTATTTCATTACTATTTTTAATAGGGTATGTATTTAGAAAAGTTTTTTCTACATTTGTAATATTTGAACAAGATAAAAACATTGTTAAACTTAAGGTTAAAATTAATTTTTTTATCATATTATTACTCCTCTTTAAGCTCATTTTCATATAAGTATCTATTTACAAATATATCAGTTTCTATAAACATTTTTCTTATAATTTCAGGTTTTTCCTGGGCTATGTTTATAATTAATTCTCTTTCTTCTTTTTCATACTTATATCCTAAATTAATATCTTTACCTGTAATAATTCTAAGTATTCCTATAAAAAGTATTTTATTAAGTAAATCAAGTTTATTTTCATTAAAAAATTCTTCTAAATTTACTTTTCTTAAATTATATTTTTTTCTTTTAATTTCCTCTTTATCTTTTAAAAGTTCTTCAACTTTATCTTTTTCATTTAATTGCTCTATATTATATTTTTTAAAGTATCTATATGATTTACTTCCAGTTTCTTCATCTGTTTCTCTTAAATATTCAAATATCATAGGGTACTGTTCTTTTTTTAAGGTTAGCTTATTTTCTTCAATAAACTTTTCATCTACATAATGTCCACTTTTAAATTCATTTCTTAATATATGTGCAATAAGTCTTAGCTTATTATCAGCTCTAAAATTAAAATCATCTTCTACTTTTGGCAAAAAAACCATTTTATTTATATTATATGCTATAGTTAAAATAGCATCATTTCTAGTTTTCAATACTACATCTCTAGCTGTTTTATTATCCATTTTTATCCTTTCTTTCACTATATATTGAATATATAGTGAAGCTTATCTCTCTAATTCTTTATCATCTTTTTTAATATTCCATGTATTATCTTTGCTATTTTCAAAATTTTTTAAAAATTCTCTATAATTCAACTCTCTATTTATTTTATATTCCTCTAATAATGCTCTGTTTTTTTCCTCATCAAAAGAAAATGGAATATATTCTTCTAAATCTTCACTATATTTACTAATACTTTGTATTTCTTCAATAATATTAGATTTGTCAAAATATACTATATTATCTTCAACAAAATATGTTTTAAGAAAGGATTTATCTTTATTTAATTCATCAAATTCTAAAAGTAATGTTCCATTATCGCTAGAAAAAATCCCTAAATGATAATATTCATTTTCCTTAGATTGAATTATTAAATAATTAACATTCATTTTTGTATCTAAAGTTTTTTCAACAATAAATCCTTTTTCTAAATTATTCATAAATGTTTCAAAAGTATCTATTCTATTTTTAACATTTGTCATTTGCCTAGTTCCATGAATTTTATATATTTTATCTAAAATGTCTTTATCAGAAATATTATTACTCATAATTAATTTAATTTTATCCATTGGTCTAGTTCTATTTTCATCCATATAATGAAGTCCTAATAAATGAGGAATATTTTCAATTCCTAACCTTATATCAAATTCTTTACTTTCTCCTTTTATAATAAAATCAATATTATTTAATTTTCTCATTTTATTCAATATTTTTTGTACTTTGTATTTTTTTTCCATAAAAATCTCCTTAAAAATAAAAAAGACTAGAATAAATCTAGTCTTTATGTGATTTTTCGCATATTTCATGTACTCCTATGCTTGGGCCCATCGATAAAATCCAACGATCACAAGTTTCGCCGCCCCTAAAATTTCTGACCCCTTAGGAAGGAAAGGATAGCTTGTCTCCTCTGAGCTCATTTCTCATTAACATTATACCTTTTATTTTATCAAAATTCAAGACTAAATTCTTTAATTTACTTAATTTTTTCATTGTCCAAACTCACTTTATGTTGAATATATAGTGAACATATCTAATTATATTTTCTTTATTGAATTTCTTAATTCCTTATTTTCTGTTACTATATCTTCCACTATTTTTCTTAGACTATTAATTTCTTCTTGTAATCTTTTATCTTCATCTTTTCCAAATGTATAAGATAATCCAAGTCCTGCACCAACTTCTAATCTACTATTAAATGAAGCATTAGCACCAAATCCAAAATTCTTATAATGTGTTGAATAAGCTATAGCTCCAGCAACTTCTTTCCCATAATAACCTATAGAACCTGAAATAGTGTGCTTTTTATTTCCTAAATTCTTTATAGTTGATGCTGTAGCAATAGCACTTGCAACTCCAGAATTAGCTGTATTTACACTATTATTTAACTTATCAAATTGTGATTTAGTAAAATATGTATTTTCATTATTCTTAATTCCTAATTTTTCTTTCCATTTATCAATATCTTTACTATCAAGATTAGAAGCATCTTTATTTACTTTAACTTGTAATATCTTTTTTAATTGTGGAATAAATGCGAACTTATATTCACCTAAACCACCTACATCTAAATTAAGGTCAGCATTTTTATCTATATCTCTCATATTTTTTAACCAATCATAAATTTCTTTATCATTATTTTCCGTGGAGGAATAACCAATATTAAATAAAAATATTCCACTTAATAATGTAATAATCCCATATTTTTTCATATTTTTATCTCTCTTTCTTATTTTTTATTTAAAATATATGTATCATTTTCTTTATCATAAGCAACTACTTCAGCTATCTCTTTTATATATCTTCTTGTTCCATCTCTAACTATATTTACAACTACATTTATTGCTTCAACTATTAAATAATGTTGAGATTTAACTGTTACTTCATCAATATATTGTTCTACTTTTTTTAATCCTGCTAAAGTACTATTAGCATGTATAGTTGCAAGTCCACCAGAATGTCCAGAGTTCCATGCTTTTAATAACTCAATTGTTTCTCCACCTGTTCTTAATTCTCCTAATATTATCCTATCAGGATTTAATCTCATATTTGACCTTAATATATCCCTATAGCTTACTGTTTCAGTTGATGTAAAAAAATTAATATTTTTAGCTTCACACTTTAACTCTCTTACCTCTTCTATAACACTTATTCTATCTTCACTATCTTTTAATTTATCTAAACAAGCATTTAAAAATGTAGTTTTACCACTAGATGTACCACCAACAACTAATATATTTTTTTTATCAATAATAGCTTGTTCTATATATTCTTTTTGCTCATTAGTCATAAAATTTGTCTCAACAAATTTTTCAAGTGGTATTACTTCTGTTGTATGCTTTCTAATTGAAAATACAGGAGAAAAATTGGTTACTTGGTGCATTAAACCTTCAAATCTTGAACCATCAGGAAGAGATGCAGATATAATAGGTGTTTCTTCAGTTATTTGTTTCCCACTAAATGCAGCAACTAATTTAATAATATTTTCTCCATCTACTTTAGATAGTGTTTTCTCACTATCAATTCTTCCTTTTCCTTTAATATCTAAATATATTTTCCCATCTTGATTTAAAGATATCTCACTAATATTTTCATCATTTAACCATTTTTCTATTCCCACTAAGTTTTCTTTTAAAAAGTTGATTTTTTTCTCATTTTCTAATTCTCTACTTATTTCTAAATCAGTCATTTTTACACCTTTATTCAAAATTATTTATATCCTCTATAACTTCATTAATGTTTTCTTCCTTTTTATCTTCTATCTCTTTCTTACTTTTAGTTTCTTCATATAAAAGCTCTATAATGATTGGATTTTTATCTTTATTTTCAGAAATATATTTAAATATCTTTTCTATATCAGATGTAGAACAAATAGTATAAATAGGATATTTATCTAAAAGTTTTTTTACCGTGTCAACAAATTTTTCTTTTTCAACTTCTACTGCTTTTGCAAGTTTTTGTTGTAACTGTTTTATTTTATTATTCCTTTTCATTTCTCACTTCCTTTCTGCAATTCTATTTCCCTTTGCATTGCTGGAGTTGGATTAATCGGTAATTTAACTTTATCTTTAAATCTTTTATCTTTAAAAAATAGAACCTTATTTGATTTAATTGGTGGTTTTCCACCGACTAATAATAAAATTTTATCTAAAGGGAATCTTCTCATCTCATCTGGTCTAATTAAATCTCTACCTGATTTTGATACAGATACATTTTTCTTACTAAAAAATCCACCACCATCACTTGATACACTTTTACTAATAACCGTTTCTTGCCCTATTGTTTTTGATATATATTCTGCCGTTTTATTATCATTTGCAGTATAGAATACTTGAGTTTGACAGTTACCCATAAACATGTTATTTTCACTATATATTTTATTTAATTGATCTAAAGATTGAACAACAAGCATCATCTTCATTCCATAACCTGCCACAAATCCTATAGCCTTTTCTAATATTTCCATTTTACCTATAGCAGGAAACTCATCAAGTAGCATTAATAATCTATGCTTAAACTTAATTTTATTTGAATTTCCTGAATAATCCATTTCTGGAGTTAATAATTGTACACATTGTATAATTAGTATTCTTAAAAGTGGTGCTAAAGGTTGTATTTGTCCTGGTGGAACTACTATGTATAAAGAAATAGGTTTATCAGCTGCCATTAAATCTAGTATCCTAAAATCACTAATCGATGTATTTTTTTCAACATTAGGTGATTCAAATATTGATAGTTTAGATTTGGCTGTTGCTACAATACTTTGTAATGTTTTTTCTCCCTTACCTAAAGCATCTGCAATACCTCTATCTATAAAAGGATGTATTCCTCTTTTAATCTGTTCCTGGTCATCTTGAGCTGTATATATTTCTAATAATTTTTCTAAAATCTCTTCATCTCTATCAGGATCAAATATTGGTTTATTAATTAATTTTTTTAGTCTAAGCTCTAAAGGTCCTGTAGGATCAGTAATAAATTTAACAACATTTGATAAATTAGCTTCTCCCTTACCTTTATATAGCTCATATAGAATTAATGTAGTTGCTAAATCACTTCCAGCTAGTCCCCAGAATGGATCAGATGAACCCTCGTCAATTACTATTATTTGAGCAATAGTTTTTGCATCATCTATTTCATCTGGAGTTAGATACCTTACTTCTTTCATAGGATTAAATGAACAAGAATCTATAGATAATGGAGAAAATTTAAAAATTGTATTATTAAATTCTTTTTGTCTCCACCCAGCAGTCATCTGATAATTTTCTCCTTTAATATCTAATACAAATACAGAATCTTTCCAGCTATCTACAAGTGTTGGAATAATTACAGAAACACCTTTTCCTGTTCTCGTTGGAGCAGATAAAAGAATATGTGTTTTACCATTATCTCTTATTAATCTTCCATCAACTTCTCCTAAAACAACTCCACTATCTTCTAATAGATTTAATTCAAAAGCTTTTGCTGATATTCTCGGAGTTAAAAATCCACTTAATCCTAAATCATCAAATGTTGCCCATCTTGCTGAACCATGAGATGTATCCTTAGGTATCCATTTTATAGGGAAACATAGTATTATATATGGAATAAATATTAAAACTTGTAATGCTAAATATTCATATTTTGCCCATCTTGCAGCATTAGGAGTTTTACTTAAAGCCAAATACATAAATTTATTAGGGTAATATATTTTTATTTTATCTATTTCTAATAATATATATTTACTAAAATATTCTGGATAATTTAATATCCTTGCATAATTTGATAAATAGAAAAAAAGAATTAATATATGTGTTAAAATAATTATAGAAATTGTTCCAATAACAAATCTTTTTTCAACACTTTTCATATTTTTCCATTTTAATTTTTTAATATCACTTAACATAGTTTCCTCATTTTTTAATATTTATATTTTTCAAGTTCCATATCTCCATTAACTATAATATTAAATTTATATCCTCTTCTTATTGTTATAGTTGGTTGTCTTTCTACTTCTTTTTTTACTAAATGTGATGTAACTTCTTTAAATGGAGATGTATCTTTCCCATCTTTAGATTGTCCATTTAATCCAATTTTTAAACCACCTAAATTAAAACTAACTCCACTTGCTAAAGTATCTGTAAAATTTAAAACACTTGAAAGTACTGCATTTCCTATTAAAGACCATGTATGATTATTAGTTTTATCACTAACTCCTGAATTACCTAAATTATCTCCAGCATGAAATTCTGATAATTCTATATATTTCCCATTAGGTAATGATAATTTATCCCATACCATGAAAACTCTAGTCTGACCTTTAGATACATTACTTTCATATCTACCATAAAGTTTTGAACCCTTAGGAATTAATAAGTAATTTCCAGTTCTACTATCATAGACATTTTCTCTAACTTGTGCTAAAACACTACCAGGTAAATCTGTATTAACTTCTGTTAAAAATATTGCAGGTATTACCGAACCTTGTTGTACTAAATAATCGTTAAATGAAGAAGCTATCTTATTTTTTCTATCAATTATATTTTCAACCTTATTTTCTACTTCTTCATTAAGCTTATATCTATTTCTAGTTATTTCTTTTTTCTTATCGTCATTTTCTTTACTTTTTCTTATAAAGGTTAATCCCTCCACTGAGTTTTTCTTGCCCAATACTTCATTAACATGCGATCTATTTTCAAGTTCTGCTATAGCTCTATCAAGCTCTTCATGGTCTTTTTCAACTCTATTTTCATCTAAATTACTTACTTCAGCTTCACTTATATTTTTTTCAAGATTAACTTCTTCATGTTTTTTATCTTTATCTTTAATAGTATCTTCAATAATTTTTTCAAAATTAGTATCTTCAATATCTTCTATTTTTTCAAAAGGTTTATCTTCATCTGTTGTATCATTTTCAGTTATTCTAAAGCTATTTGGATCAGCTATTTCTATTTCTTCCACTTCTTCAATTTTAGGTACATTTTTATAAATCGTTATACTAACAATTGATAATAGTATTAAAGCTATGATTCCAAATAGAATTTTTAAGTTTTTTAATGAGTTTGTTTTTTCTTCTCTAATTATCTCTTCTTTTATATTTTCTTTTTCTAAAGTCTTATTTTCATTGTTTTGATTAACCTTATTAACAATTTCTTCCATTTTCTTTATATTATCAACTAATTCTTCTGTATCTAATATTAGATTTGCTTTAACTTCAGAAATTTCTTCATCACTGACATTATACATTTGATTATTTAATATATCTAAATGATAATTCATTCGCTCTAAGACAGAAATAGCTATATTCTTTTCCTTCATATATTTCCCCCTTTCTATTATCTAGTTATATCTAATTTTTCATTTCCTAAAACTAATTGAAATTTATTTACTACTTTATCAATAATAATTTTATTTCCTATCATTCTATAATTTACTAAATTTAATACATTATCTTCTCCATAAACATATACTACTGGTGCTTCTTGTAATTTATCATTAAGGATTAGGATTGTTTTTTCTTTATCAGTAAATACTTGCTCTGGTGCTAATTTATTATTTTTATTATATTTAAATCCAAAACTTATGTCTTCACTCTTACCTAAAGTAATTTCTTGATTTTTTTCTTTTAATCCTGATTTTTTAAAATGAGACATATTATTTTCATATGGGTATTTCCATTGAATATATGGATTAAATTCTCTTTCTGTAGATTCTAGGGATATAAAGTATGACCTTTTATCTGTAATAATATTTAGGTTAGTTTTTAAACCTTTAAATAATGGTTTAACAAATAGGAAAGTTGAAGAATCAGAACCACCACTTGTTTCATCTATTTGCCAGTTTTCTGTATCTCCACCACCAACATAAACTAAATTCTCATCAGCATTTAATTTTAAAACTGTTGTAAAATTCGGTTTAGTGTATACTTGATATATTGAAGATTTAAAATAGTTAAATTCAGTTGATACATTATATACAGCAGCAGATTTACCTGATATTATAGACAATTGATTTTTTAACATATTTTGCATTTCATCATCATTTAAATTTTCTACATTATGAATTTTAGAAATATTTTGTTCATATTTTTTTACTTTCTTTTTTTAATTTATTTATATTTTTACTAGCATCACTTGAATATGAAATTGCAGTTAATAATAATAAAAATACTCCAAAATTTTTATTTTTCTTCATCCGTTACTCTCCTTTTCTTTAAGAAATTTTTCTAATTTCTTTCTTTTCATAATCAATCTCAAATATTTTTCCTCTATAGTTAATAGGAATTTGATATATATCTACAATATTTTCTGTTTTATTTTCTAAAACTTTTTCTTCAAATATAATTTGTTGTATAACTTCTTCATTAAACTCTAAATCTGAATATTCAGGATTACTTTCAAAAAATTCTTCTAATTCTTTTTTTATAACCTTATATTCTTCTTTAGTATCTTCTTTTAATTCTTTAATAAATTCAGAAAATTTATTAATAATATTTTCTTCTTGATAAAAGATTTTTTCCTCATCTTTTTCTGCTCTTTTTTCATAATCTTTCAATTCATCTATTGTTTTTTCATCACCTAAAAATTTATTAAGTTCATCAATATTTTTTTCTACATCATAAACAAATACATCTATTTCATTGTTTATAATCTTTAAAATGTTTTTTCTTTTCCATAAACAATATTCTTCATATCCCATCTTAATTTTCCACCTGCATATTAAAATCAACTACTATTATTCCAAAAGGATTCAACATTATTTGTTCTGAGTTAGGAGAAAAGTTTCTAATTTTTACAATAGCATTTAGATTTTTTCTTTTTTCTAATTCTCCACTAGTTCCATAATATTTTTCTCTCCATCTAATCTGATATGTTTTTTCAACTTCTGGAATTGCAACAAAAGATAAAATTTCTACTTCTCTTGTTTTTTTATTTTCAAAAAATGAATTAATATTTTCACTTCCTAAAATAGAACCTAATTTTGATTGTGTTTCTTTATTTAAAAAATAATTTGCTTCTTTTATTGTTTTATCAAATACTTTTTTATCAAGAGTAATAGTTCTTGTATCTTTAATAAATTTTTTCATAAAGTATTCTATCTCTCTATTACCAATATTAGAAATTTGATTTGTTAATTTTTCTGCTCCAACTAATTCATTATTTTCATTTACTTTTATTAAATAACTTTTAGTTTCTGTTTTACTGATAAATAGAAAAGTTGAAACTCCACCTAACATTAAAGATAAAATACTCATTCCAATAAATGCTTTCTTCCATGTATTAAGTGATTCAGAAATATTAATATATCTTTCTATACCTATTCCTATTTTTTCTCTATTTCTTGAAGTCTTACTTTCATCAACAATAAAATTTTTTCTCATTTTACTTATTTTATTTTCTTTCATTATCTTCACCTAAAAATTTTATTTTTTCTAATTCAACAATTTTTATTTTTTTTACATTTTCATTTACTGTTGTTCCACTAAGAATTTTTACAATTGAAACTCCACCTAACATTAAAGATAAAATACTCATTCCAATAAATGCTTTCTTCCATGTATTAAGTGATTCAGAAATATTAATATATCTTTCTATACCTATTCCTATTTTTTCTCTATTTCTTGAAGTCTTACTTTCATCAACAATAAAATTTTTTCTCATTTTACTTATTTTATTTTCTTTCATTATCTTCACCTAAAAATTTTATTTTTTCTAATTCAACAATTTTTATTTTTTTTACATTTTCATTTACTGTTGTTCCACCAAGAATTTTTACAATTGAACTTATTCCATATATAGCTCCAACAATTACAGCAAAAATCAAAAATGATTTAAGTAATTGATCCCATTGTTGGCTAGTTATAAATTCTAACAACTTAAAAATGAAATATATAGATGCTGAAATATATCCTAAAAATTTTACAAATCCAAAAACACTAACAAAATATGTTGCTGCTTTATCAAATCCAACAACAGAAACTTTATTTGTGTCAGCTAAAGCTAAAGTTGATAAAAATAAAACTCCTAATAAAATAAGATACTTTGTTTCAATTTTTTTAATAAACTTTTCCATAATATTTCCTTTCTTATATTTTTATTTTTTTATTTTATTAATTTTAAATATTACATTTTTACCACCTCTTCTTTTTTTGATTATTTAATCCTGAAAAAAAAAGAAAAAGGTATCCATACTAGCTCGCAGGCTAGCATGAATACCTTAAGAATTTAATTCGCAGATTAAATCAGTAATTCATAATTTAAAATATTTAAATTGTATTTTCAAAATTGTTTTTTAAATTGTTAGCTCGCAGTCTAACGTGAGAAACTTACAGATTTAATATAAAAAATAAATCAAAAACTCACAATTTTTTTCATTCATATTTACATTAGGATTATATCACATAAATTTAAAATTTACAAACATATTGCAAATATTTTTTTTAATTTTAAATTTATTTCTAAAATCATTTTTGATTTTTTTCAAGGCTTTATGCCAAGTGTTTTTTTCAAAAACCACGAGTCGTGTTTCTCCAAAAATTGACAAATTTTTTGAGAAACAGGTAAGCGTGCATGGTATAAATCTTATACCATGGCTATTTAAAAAAATGAACATTTTTTTCTCAAAAAAAAAGAAAAAAGTTTTACTTTTTTCAGATTTTTTTTTTGCAATTTTATTCTCTTTCAATTTCCATTTCTTCATCACTTAAAATATTTTTATATTCATCTAAAATAAATTCTCCATGTTTTAAAATTTGATTTTGTACTTTAATATCTCTATTAAATTTTTTATTTATTCTATCAAGTGATTTTATATTTTTATATAATACTCTATTTATATTTTGTATAATTTTAGCTGACCCATAATCTTTTTTTTCAACAAAATTTTTCATTTTATTTTTATTTTCTTCAACCTTTTTTATTTCATTTAGTTTTTCATCTCTTAAATCTTTTCTATCAATGTATGCTTTATACAAATTAATTTTATCTGGCTCATTACTATAATTTTTCTTTAATGTCTTAATAAAAATTTTATCAACAATTTCTTTTTCAATCATTTTAAATTTAAATGGTCTCATGTATTTTGCTTTTAACTCTAATTTTTTATCTATTATTGCATCTTTATTTTTTTCTAAAAATTCTTCTAGTGTTTTATTTATTTCATTTATTCTCTTTTTATATTTTGATTTATTCGCTCTATCTTTTTTTATCATTTTAAATAAATGATTCTTTTCATTTTTATTTTTATTACTTTCTCCTCTTGTTAAAATATTAATCGCTTCATTTTCCAAACTTCTTTCACTCATTTTTTTTGATAGTTTAAAAATATCATATTCTACTTTTTCTTTTTCTTCTAATATTTTTTCAAAAGTATAATTATTAAATTCTTTTTTCTTTTCTTCATATTTTTCTTTTATAAATTCTTTTTTATACAACACATCAATTTCATCTCTAATTTTTTTATCTTTCATATATTCATTCATTTTTATTCTTTCATATAAATCATAAGCATCAATATTTTCTTTATCTATTTTTTGATATTTAATTTTTTTATTTATATGGATTGCTTCTCTATTTAATTTTTCTGCTTTTAATAATTCTCCTTTTTCAATTGCTTCTTCTCTTTGCTTTTTTAATGTATCGCATGAAACTTTTTCTATTCCTTCTGCTTCTAAATATTTATTTAAATGTACTTCCCAATTTTTTCTTAAATCATTAACATATTCTTTTGATTTAACAATTGTATCTTTTTTTGCTCCACCCTTTTCAGGATTTTTAGGATTATATCTTTTAAAAAATTTATTTTTTTCTCTTAAAACTCCATCTAATTTTCTATCACAAAACATAACATGTGCATGAGGTTGTTCTGAATTAGGATTGTGCATCGCATAATTGTATACATATTTATCTCCAAAAGTTTTTTCTAAAAATCTATCTAATATTTCTTTATTTTTTTCTTTTGAAAATTCTTTTGGTAATGTTATTTCAAATTCTCTATAAATATTTGCATTACTTCTTTCATACAAAATAGCTGCTTCCCAAAATTCATTTATATCTTTAAAATTTTCTGGTAAATTTTTTGTTTCAATAAATTCTACATGTTCTTTTTTAGAAATGTATTTATCTTCTCCGTTAATATAGCTTAAATGTGCTAGTGCTTTCTTACCACATTTATATCTAAGTCTAAACATCGCCATTTTATTTTCTCCTTTCTAAATAAAAAAGTATTCATAACAGATTTAAAAACTGTCTGAATACTTTAAAATTTAATCTGCTAATTAAATTAATAATTTATCTATTTCCATTTACAGAACCAACAAAACTTTCACCTAATTTTGTATTTTCTAATATTTCTTTTGCTTCTTTTAATTCTTTTTCTAATTGTTCTCTTTCCTTTTTCCTAATTTTACTCATTTTTTCTATTTCTTCAAGTGAAACATATTTTCTAAGTTCTACTATATCTTTTTTAGTGTAAATTCCCTCTTTTACTATCTCCTCAATTTTTTTCTCCTCTTTATTACCACAAGAAATTGTAAAAGTTAATAATAATAAAATAGCAACTAATATTTTTTTCATTTAAACCACCTTTAATCCTCTCTAATATATTTATTCTAATTATATATTCAAAAATAAAAATTTTCAACATTATTTATATACAAAAACAAAAATCATAAAAACTAATAAAATTATTATTCCTACTACAACTTTTTTTATTAATTTAAAAATCATTATTTCTAATTTCTTTTGCTCTATATCTTTTATTTTTTTAAATAAACTTTTCCATAATCTAATCTTATTAAAAATAACTAATATTAAACATATAAAACTGATTAATACAAAAATTGTAAAACTAATATATAACAAATATATTATTTTTATTTTAAAAAATAATAAAAATAGTAAATTAAATATAAATAAATAAATTATATTAATTCCAAAATATTTAATTGAAAATAAATTTGTTATTGCTATTATTAATAATCCATATATAAGTAATATAAATGTATCCATTTTTATCCTTTCTTTTTTCTACCTTTCTTAAAGTTCTATATAAATACTTGATTTTTTCTAAAAAAACAATTATAATCTAATTGCATATTCGAGAAGTAATTGTTGTCAATATTACTTCTCCTTTTTTATTAAACTATCAATAAAGCTTTCTCCTTTTAATGTAAATTTCAATACATTTTTCCCTTTTATTTTAAAATATTTAGCATAGTTTTTATATTTATGTTCTCTATATAAATATATTGTTTTACCTCTCTGATATATAAATCTTTTTTCTGTTAATATTTTAATTAATTCTTCTGTTGTTTTTTCATATTTATTAGCTAAAAAATTTAAACTTATATATTCTTTTCCCTCATCAAAAAATTCTTCATATTCAATTAATTTTGTCTGTAATTTTTCTAATCTCTCACAAGCCTCTTTCATTAAATTATCTATTCTTTGTTTTATTGTAATTTCATTATCTTCTTTTCTAACTACAATATATCCACTCTTTTGTCTTATCGTTTTAAGTATTTCTTTTACTTGTTTCTTAAATTTTTTTGCTATAGGTTTTCTACTAGAAAATAAGACTTCATATAGACCATCTTCTGTTAAATACCACTGTTTATGTGTTTTACCATCTCCACGAGTAACTATTACTAATTCTTTTTCATCTTCTTCTACATCTTTAAGCATTTGTGATACATTCTTATTTTCTATTATTTTAGCTATTTCATTAGCATTAAACATTGGAGATACTTCATTACCAAATATAACTAATTCTACTCCTAAAATCTCTTTTTTCTCTAATATGTCCATATTATTTTAACCTTTCATTTATATTATTATTTTTCTTTATGATATAAATTTCTTCTCCAGTGTTGATATAATTGGAAGTAGAAAATTCTAAATTCTCAAATTTATTGATTTGATTAGACATTTTTATTTTTACAATTTTATATTCTTTACCTATCCAAATACTAATTTCAACATCATCTAATTTATGTTCTATTTTATTTCTTACTTCTAAAAAATTAAGTAATCTTTCAAATGTAGTTTTTGAGTTATAAAACAAAATTTTTTTATTCATTTCTTCAATCCATATTTTTTTAGGTACAGAATTTTTATTTATATTTCTGAAAAAGAATATGACCTCATTATTTTCAGTTTTCTTTAAATAAAATTCTTTCATGATTTTTCCTTTCTAATTTAATTTGAGTATTTTATTTTAAATTTTCATCTTATCTATCTAACTTTTTAAAATTTATTTTTTTTAGATATAGAATATTAGGTTTACCTACTCCCTGCCTTTTAACAAAAAGTAAATCACATTCTTCTAATTCTCTATAAATTTTTATTGCCGTTTTGTTGGATATATTAAATGTTTTCATAGTTTCTTCTACAGAAAAATAAAAATAATAATTTCCATCTTTATCAAACCAATTATTTTTTATAGATAAATTAAGTCTATCTAATAAAAGACCATAAAATAATTTTGACTCTAAACTAATTTTTTTAAATTTTTTATTCAAAATAAATTCCTTAGGTATTGTATAGAAATTATTGTATTGAATATCATTGTATTTATAAAACATATTTTCCCCTAGAGTTTTTATTTTACTTTTTTTATATAATTTTGAATGTATTCTTCAGTTTTTAATGGATTAAATACAAAAACATTTCTCTTTTTTCCATTTTCTCCTTTTTTAATTACATATACAAAATCTAAATTGCCACTTAAACATAAAATTTCAAAATGTTTTCTTGATATTTGTAATATTTTAGAAATATTACCAACATTGTATTTTTTCATGAAAATTACCTCCACTTCCAATTTTATTATTGTAACAAGATAATAATATCACACTTTTTATTTTAATGCAATAATTTTTAGAATAATTCATTTTTTTTTACAATTATTTATTAATTTGCTTACTTATTAATTTTCTGATATAATTTGATAATAATATATATATTATTTTTATACAAATTCGATAAAATAATTATCTATATTGTATATAAATCTAATTATAATAATATATATAATTAATGTTATAAATGCTTAGTTATATAATATATTTTTTTATTAATATATATTAGTATTATTAGGGTGTAAAAATTACACCTATCAAGTGTAAAAATTACACCTGATAAAAAATACAGTAAAATAAGGAGATTTTTATGAAAATTGGGGAAAAACTTAAAATCGTAAGAGAGGAATTAAATTTTACTATTAAAGATATTTCAAGATTAACAAAAATTCCCATACCAACTCTTTATGGTTATGAAAATGGTCATATAAAAAATATTCCTAATGATAAATTAGTCATTTTAGCTAATCTTTATGGCAAAGATCTATCATATTTTTTAGATTTTAAAAAAGATAACATAATATTAAATCATGAAATGAAATTATTAGATTCTTTATTAACCATAAACGAAGAAATAATCATTCAATTAACAGGAGATGAAAAAATAGCTAATGAGATAAATTATTATATGATTAAAAGAATCAAAAAAAACTTAATTAATAAACATTAAAATAATAGGATATAATATAATTTAGAGTGCTGTATGTATTTTAGAAAGGAAGATACATATGACTTTAAAAACTACTAGAATAAAATTAAATAAAAATATTTTTGCCGAGATATTTTTTCTAAATGATACTATATACTTTTTTATAAATGAAAGTATTAGTAAAGATGAATACAAATATACATGTTTAATATTAATAAATCAAATAGAAAATAACTATGGACAAGACTTTAAAATCTACAGAAGCAATATTAACAATAACACCTTCAATAAAACCGAAAAGAAATTGGGGGTGTAAAATAAATGAGAAGAGCAAATGGTACTGGGACTATAACAAAGCTAAAAGGTATTCGTAGAAAACCTTATATAATACGAGCAGGTTCTTATTATGATATTAATGGTAAATTAATTAGGAAAACTATTGGTACAGCTAAAACTCTTAAAGAAGCTACAGAAATATTAAATAAATATAATGCTAAAGTATTAAAAAGAGAAAATTATGAAATTACTTTATGCGATTTATTTGAACATTGGAAAAATTCAGAACATGCAAATAATTTAGAAACCATAGAAACTTACAAAAGATATATAAGTGATTTTTCAACAATATTTGAACCAATAATTAATGAAAAATTTATTTTTTTAGAATACAACGATTATCAAAGTTTATTAAATTCATTTCCAAAAACAAAAGGTAAAAATGCATTAACAGTTTTAAAATGGATTTATATATATTCTATAAAAAACAAAATAACTAAAGAAAATATATCAGTATTTTTAAATTCTTCAAATATTGTAGTTAGAAAAATAAAAAGAGAAATATTTGATGATAATATAGTTAAATCTTTATGGTTAGATTATGAAAATAATAACAGCAATGAATATGTTGCAATATTTTTAATACTATTTTATACAGGAATGAGAACAAGAGATATATTGAATCTTAAAAATCAAAATATATTCTTAAATGAAAGATATTTTATAACTGGTTCTAAGACTAAAGCTGGTAGGAACAGAAAAATTCCTATGCATCACCTAATTTTTCCTATAATAAAACAACATTATTCAAAAGAAAAGGAGTATTTATTTGAAAATATTACTTCTGATAATTTAAGAGTTAAATTTAAAAATAAGATTTATGACTTATCACAAAGAGAATATAATAATATAAATTTGCATTCTATAAGACATACATTTATAACAAAAATGCAAAGACTAAAAGATGTAAAAGCATCGTTAATAAAAACTATAGTTGGTCATTCTCATAGCAATATAACAGATGATGTTTATACTCATTATTCTGTAAAAGATATGAGAGATGCCGTCAATAAATTAAAATATTAATGATTAAATTGTACCAATTTGTTATCAATTAGTAACCTAAATGATACCAATAAAAAAAATAATACAAAACACTAGTAAAAACAAGGTATTTATGAATACAATTGTTTTTTCAAAATTGAATATAAAAAAGAATGCATACAGCATTTACTATATACATTCTACTCTCTAACTATATTCAAAATTTAAAAAATCATGGTGCCCAAACGCGGAATCGAACCACGGACACAGGGATTTTCAGTCCCTTGCTCTACCGACTGAGCTATCTGGGCATAGTGGCGGGTGGACAGAGATTCGAACTCTGACAGCTTTCGCTTTCGCCGGTTTTCAAGACCGGTCCCTTAGCCATTCGGACATCCACCCAAATTAAACTTATTTTCAAAAAAAAATGGTAGGCCCTAGGAGAATCGAACTCCTGTTTTTAGGATGAAAACCTAATGTCCTGACCACTAGACGAAGGGCCCAAAATAACTGGTGGATCCAGCTGGACTTGAACCAGCGACCACGCGGTTATGAGCCGCGTGCTCTAACCAACTGAGCTATGGATCCTTATGATTAGATAATATATGGCGTGCCTGAAGAGATTCGAACTCCTGGCCCACAGCTTAGAAGGCTGTTGCTCTATCCTACTGAGCTACAGGCACATATATAACCATAGTTATTTTTAAAATGGTGAGTCATACTGGAATCGAACCAGTGACACCTTGATTAAAAGTCAAGTGCTCTACCGACTGAGCTAATGACTCACATGGAGCGGGAGACGAGGGTCGAACTCGCGACATTCAGCTTGGAAGGCTGACACTCTACCAACTGAGTTACTCCCGCACAATTGGTTTTTTTGGTTGCGGAGGCTGGATTTGAACCAACGACCTTCGGGTTATGAGCCCGACGAGCTACCAAGCTGCTCTACTCCGCGATGACACTTAATGTAAATGGTGCCTCGGGCCGGACTCGAACCGGCACGGGATTGCTCCCACAGGATTTTAAGTCCTGTGTGTCTACCATTTCACCACCAAGGCTAACTTTCATTGACAAAAATCATTATATATCATTTATATTTTTTTGTCAAGATTTTTTTTATTATTTTTCTTCTAATAATTTTAAATATCCCCTTAGGACATTTTCTATTTTATATCATTTAAAAAAAAATGTCAATACTTTTTTTGACATTTTTTACTTTTTCTGATTTTCTTTTGCTTGTTTTAGTCTTAAAAAAATTGTATAATATCTGTAAGTTAGTACAATTTAGGAGGTAAAATGTTTAATAAGAGTATATATAATAAAGTTATAAAGATTTCTATTATTATTCTATCATTATTAATAATATTAACTTTAGGTCGTTCTGCTTTTTTAAACTATTTCTTTAATAAAAGAGAAACTATAGTCCCTAAAGTTACAGCATTACATATAGATGATGCAAAAAAATTACTTGAAGATTTCAATTTAAAATATTCTATTATAGAATACAAATCATCTGAAGTTCCAGAAGATTATGTGTTTATACAAGATCCTAAACCAGAATCTAAAGTAAAAGTAAATAGAACTGTAAATATATGGGTAAATAAGATTAATAGCGTGGAGATACCTGATTTAAAAGGTAAAACATTAATAGAGGCAAGAAGAATATTAGAAGAGTTTAATATACAGATAGTTAGAATAGACTATATGCCTGTAGAAGATATAGATGAAGAAATAGTTTTATCTATATATCCTAAGGTAGGAAGTAAAATTGGAACTAACCAAAAAGTTTCATTACTTGTTTCATCTAAATCATTAATAGAAAGTAAGGTTATGCCAAATTTAATAGGTCTTGATAAAAATGATGCAGCTAACATCTTAGCTCAAATTGGTCAAAGTATAGCTCTCGTTACTGAAGCAAATGATCCAGCTTTTGCACAAAATGTAATAATAACTACTAATCCTCTGCCAGGTGAAAATATAGAAAAAGATACTAAAATAAGTGTTGTCCTAAATACTGGTGTTGAAGTTGATAAAAGTATTACTGAAGTTTTAGAACAAAAAGTTGAATCAAAGAAATTAGATAGTAATATAGAAGAAATTTTAAATAAGACTTTAAAAGAAGTAGAGAAAAAAGAAGCTAACAAAGAAAATAGGGCAAAAGGTGAATAAATGATAATAGAAGGAAAAGTAATACGTAAAATTCAAGGTTTCTATTTTGTGTACACTAATTATACATTTAATGATATAGATGATTTTGAAAATAAGTTAATAAAATGTAAACTTCGTGGTAACTTAAAAATTAAAAATAAGAAGGATAATTGTATTATAGGAGATAATGTCCTTATAGATACAGAGCTTAATATTATAATTGAAATACTAGAAAGAAAGAACTTTTTAAATAGACCTTTAATTTCTAATATTGATAATTTAGCTATCACTTTTGCAGCAAAAGAACCTAATTTTGATATTATACAATTTCAAAAATTATTATTAAATGTACACAAGAATAATTTAGTTCCTTTATTACTAATTACAAAATTTGATTTGATGTCTGAGGTTGAAAAAAAAGAAATCGATGATATCTTAAAAGAAAATTTTCCTTATTTAAAATACTTCTTTATTTCTCATAATGAATACTCTGAATTTAAAGAATATATATATAATAAAAATATAATAATATCTGGTCCAAGTGGAGTTGGAAAATCAACATTAATTAATAATATACTTGGACAAGAAATATTAGTTACAGGTGATATTAGTCAAAAAACTAAAAAAGGTAAAAATACTACAGTCGATACAAGATTTTTCCCATATAATAATGGGTTTATTATCGATACTCCTGGATTTTCAAGTATAGAATTTCCTAATTTTAAAGATTATTTAGATATAAGGGAATATTTCCCAGAGATAAATGAATTAAGTTCTGAATGTAAATTTTCAAACTGTATTCATATACATGAACCAAATTGTAATGTGAAAAAAAAATTAAATAAATTAAGATATGATTTCTACAAACTTATATGCCAAAATATACAAGAAGGAGGAAGATAATATGAATAAAGAAATTATTATTGCACCATCATTACTAGCAGCAGATTTTTCTAATTTAAAAGAAGAAGTAATAAAAATAGGTGAAACAAAAGCTAAATGGTTACATTTAGATATTATGGATGGAAATTTTGTTCCAAATATTAGTTTTGGTGCTGATGTTATAAAAGCAATAAGACCTTATTCACAACTACATTTCGATGCACATTTAATGGTAGAAAAACCTGAATGGTACATAGAAACTGTTGCAAAAGCTGGAGTTAATAGTATTACTATTCATGCTGAAGCAACTAAACATTTACATAGAGCTCTTCAATTAATAAAATCTCATGGTGTAAAAGCTGGAGTGTCTATTAATCCAGCTACAGATATAGGGTTTTTAGATAATATTATTGAAGAATTAGATCTAATATTAGTTATGACTGTTAATCCTGGATTTGGTGGGCAAAAATTTATTGATGCTATGTGCCAAAAGGTTAAAAGAATAAGAGAAAAATTCCCTCATATAGACATACAAGTAGATGGAGGAATAAACGATAAAACTTGCTTGCTTGTAAAGGAAGCTGGAGCTAATATATTAGTTGCAGGTTCTTATGTATTTTCAGGTGATTATAACGAAAAAGTAAATTCATTGCTATAGGGGGTAAATATGTATGATAAAATGGAGAACTTAATAGATGAGTTCTATAAAACTTATTACAAAATGGAAGAAATAAATTTAAGTTTAGCAATTAAATGTCTTACAACTACAGAATTACATATTATAGAATGTATAGGACTTGAGAAAATAACTATAAAAGAACTTTCAACAAGACTTGGAATTACAATGGGTACAACATCTATAGCTATTAATAAACTTGAAGAAAAAAAATTCATAAATAGAGTTAGATCAAAAGCTGATAAAAGAAAGGTTTATGTTAGTTTAAATAAAAAAGGGCAAATTGCATATAACTATCATGGAAATTTCCATGCTACTACACTAGAAAAAGTAACTAAAAATATTCCTGAAAACAGATTAGATATATTTCTTGAAACTTTTGAGGAATTACTTAATAACCTTAAATCATTAAAACTTAATCTTGAACCTGAAGATTTAACACATTTTAATATAGGAGATAAAGTTGAAGTTACTGAATTAAAGGGTAATAATGTAATTAAATTAGCTTTATCTGAAATGGGTATAAAACTTAAAACTTCTATAGAAATATTAGATATACATAAAGACTATATCACAATAAAAATTAATGATAATGAAAAACTAATTTCAAAAGACCATGCTCTATATATATTTGCTTTAAAAAAGGAGAATTAATTGTGATATATTTAGATACAGTTGGAATAAGTTTTTTAGTAAAAGAATTAAAAGAAGAATTACTTAACTTTAAAATAAATAAAATAGTTCAATACGATAATCATTCTTTTTCATTATTCTTTTCCAAGAAACAACTATTTTTCCAAATAAAAGATAATGAATCAATAATATATATAAAGGAAAAAAAAGAAGAAAGTATTAATTTTTCAGCTTCTTTTCTTCTGTCTTTAAAAAAATATTTAGATCATGCTGAACTAACTAATATTTCTTTACCTAATAATGATAGAATAATTAAGCTAGAGTTTAAAAGAGTAAATATATTAGGAAATTTAGATACTACATATATAGTCTTTGAAATGATGGGAAGACATTCAAATATATTCTTATTAAATAATGAAGAAAATATTATTAATATATTAAATAATAATACAAATATAGAAAATAAGAGATTTTATTCTATAAATTCTAAATATGAATGTTTTAGCAATGATAAAATAGAACTAGACTTAGAAAAAATTTATGAAACACCTGATGACATGATAAAAGAAGTGTCAGGTATAGGTAAAATTTTTGCAAATGATACCTTTTCAAATATACTTTTAAGAAAAGAATATGTAAATAATTACATTCCATATATATTTACAAGTAAAGAAAATTACTATATTACTTATAATAAATTTAAAAAGTTTGAAAATTATGAAGAAAATATATATCCTACATTAAATAAGGCATTAAATGAATATTTTACTACATTTATAAATACTTCACTTATTAGAAATAAGAAAACTAATATAGAAAAGTATATAAATAATAAGATAAAGAAAAATAAAAAAACTCTTATAAACATTAAGAATAATATTGAAAAAGATAAGAATTATGAAGAATATAAGCATATAGGTGATTTATTAACTAGTTATCTTTATCTTGTTAATCCTAGAATGGAACAAATAGAGGTCTATGATTATATAAATAATACTAATGTAAATATAATTTTAAATCCTAATAAAAGTTCATCAGAAAATCTTAATATTTACTATAATAAATATAGAAAATGTAAAAAATCTATACAAATTGCAAATGAAAGACTAATTTTAATAAATCAAGAACAAGAATATCTTGAATCTGTACTTGATTTTACGCAAAGAGAAAATGATTTTTTAGGTCTTATTGAAATAGAAAAAGAATTAGGGATATATAAAGAAAAAAGTAAAAAAAATAGTAAAGAGAAAAAAAGAGAATTACTTAAATACATAGTTGATGATTTTGAAATATTAGTTGGAAGAAATCATAGTGAAAATAATTTAATTACTTTTGAGAAAGCAAAGAATCATGATATATGGTTACATGCAAGGAATATCCCAGGTTCTCATGTAATTATTATAACAAATAAGAAAAAAGTTCCTGAAAAAGTACTATTAGAAGCTGCAAAACTTGCAGCAATAAATTCTAAAGGTAGTGGAAACAAAACTATAGATTATACAGAAAGAGCTAATGTTAAAAGAATAAATAAATTTGGTAATGTAACATTTAATAATTTTAATAGTTTAGATATAAGAAAAGGATAGGCGACCCCTATCCTTTTAACATTAATAATTCTTTTTCCATTTTTTCAAAATCAAGATTTTCTGATTCTATATCTTTAAAATATCTATATGTTTTTACTTTTAATTCTAAAGCTGCATCTTCATCTATTACTATAATAGCTTTTCTGTGTAATTGTAATGCTGAAATAGTCCATAAATGATTTACACCCTCTTCTATTCCTTTATGTATAGCATATGCTTTTTTATGACCTGTTGCCATTATTAATACTTCTTTGGAATCTGTTATAGTCCCTACTCCAACTGTTAATGCAAGTTTAGGAACTTTATTTATATCATTATCGAAAAATCTTGAATTTACAACTATAGTATCCTGTGTTAATTCTTTATCTCTAGTTCTTGAAGATAGAGATGAACCTGGTTCATTAAATGCAATATGTCCATCTTCTCCTACTCCACCTAAAAATAAGTGTATTCCACCCACCGATTTTATCTTATTTTCATATCTTTGACATTCAGCTTGTAAATCTTGGGCAAGACCATTTAAAATATTAATATTTTCTTTTTTTATGTCTATATGATCAAAAAAGTTTTTATGCATAAAATAATGATAACTTTGATCATGATTAGGTGCAAGCCCTACATATTCATCCATATTAAAAGTTATGATATTTTCAAAAGAAATAATTCCTTTTTTATTTAATTCTATTAAGTTCTTATATGTTTCTAGTGGTGTTGACCCTGTAGGTAATCCTAATACAAATGGTTTATCTTTATTAGGATTAAATTTTAAAATTTCTTGTGCAATATGGTATGCACTCCATTTTCCAACATCTTTTGCATTTTTAACAATAAGTAGTCTCATGTATAACTCCTCTTTTTTATATGAATATACTTTTATTATACTTTTTTTAATAATTCATGTCAAGATTTCTGATTTTTTTGAAAAATTTTTTCATATATTAGAAAAATCTTCAAATCACTCTATCACCATTTGAACATATTCTAATTCAGAAAATCCTATTTTTTCATATAATTTTTTTGCCATAATATTTCCATGATCAACTTCTAATCTATATCTTTTATACCCTTTATATTTTTCAAATAAAAAATTAAATACTTTTTTACCTACACCTTTACCTCTATAATTTTCAAGTATTAAAATTTCTTCTATTAATAAAACCATTCCTCCAACTTCTTGAGAATATGTCTTAGAAATTAAACAATATCCAACTAATTTTGTATCTTCTTCTATAATAAAACATTCAGTGTATGCATCACTATTCATTAATTCATTAAATGTATTTAAAAAGTTATTTTCATCTACATTATGTAATACTGCATCACTAGAATAAAATTGTTTTGTTAGTTTTAAATATACATCTTTATCTTCTTTTCTAATTTTTCTAATTTCCATATTTTCTCACCTGTCCCTTCAATATTAAATATATCATATATTTTTCAAAATAGAAAGGTATGAAAATTCAAAATTTTTTTCATACATTAAAAAATATTAACTAAAATTAGTTGTTTTTTTATTTAATTTATGCTATAATTAAAAAAAATATAAGGAGAGTGAGTTTATGAATATATTATTTTACAGTTGGGATTTAAATTCAGAAAAAAAATATGAGGATATGTTAAAATTACTGGATACAACAGTTAATTTTACAACTGATGAAAAATTCGTAGTTAAAAGTTTAGAATCTGGCGAAGTAGATATTTTAATATTTGATACTACAAATATTTTAAACTACAAAAAGTTATTCCAATATAAAGTGGATAAAATGGATAAAATCATATATGTTGCAATAACTAGCCCTACAAATAGCTTTATTATAGAGGAAGCTTTATCATTCGGTTTAAATGATTATATTTATGATAATATTAGTAGCGAAGCTTTCTTAGCAAAAATTAATGCCATCTTATATCTATTAACAAGAAAAAATCTATTTACTTCTAATGCTATATTAAAGGTAAAAGATCTAACACTAAACCCTTATACAAGAGAAGCAAAAAGAGGGGATGTAGAAGTTTCATTAACTAATAAAGAATACAAATTATTAGAATTATTAGTAAAAAATAAGAACAAAGTAGTTACAAGAGAAACAATATCAGAAAAAGTATGGGGTAAAGAAATACAGGAAAACAAAAATATAGGGGATGTATATATTACTTTCTTAAGAAGAAAAATAGAATATGGTTTCCCTACAAAAATTATTAAAACTATTAGAAACATAGGTTATATTATTAAAGACTAATTAATTAAAAGGATTAACTCCCAAATCTTAGAGAAGTTAATCCTTTTTCATTTAAATTTACCAATTATATCCTGCACCAAAATTCAATTCATAATTAGTATAATCTCTTGAAATATCACTAATATTTAAATCCATTCCTATATTTATTTTAGAAAGTTTAGCAACCATACCCATTTTCATATTATATTCAAATATTTTATTATCTATTTTTAGCTTCTTTTTAGATAAATTACTTTGAGAAATATGTAAAGTATTATCATTTACTAAAATTTCTGGTTTAATTTTAAATTTAAGTTTCTTATATTTAAATTCTGTTTTTACTGAAAAATCAGCACTTGCACTTACTCTTCTATCAAGTCTTACATTCATATCTAATAAACTATCATGTGAATATGTTAATAATATTCCTGCTTTTGGAATAATAGATATATTTTTATTTGCATTAAATTTAGTTTCAATAGATGAATAAGTTTCTAAATTATGTCTTATAATTTTATCACTTATTATTGCATCAGGTTTATTATTATTTATATTTGAATTTAAAGATTGATGTCTATATCTAACAAAATTTCTAAATACATAGTTTATAAATTCTGTTTTAAAAGTAGTTCCTATAGATACATTTTTTGCCTTATCTTTTGATTTATTAATTTCTAAAAATGCTCCAATTTTTCTATTATCTATACTATGATTAAATCCAAATTTGAAATCTTTTTCATTAACTCCTATTTTTTTACCTAAAATAGCAAACACATCATCATCGTTATTTACTATATCTCTTTGTATATATATTAATTTTTTAGGTATTTCTTTATATGGTTCAAAATCTATTTTTTCATTAATTTTAGATGCTGCATTATCTATTCTATGTTTTAACATTCTTACTTGCATTACCTTTAATAAGTTATTTCTTTCGTTTCCCCATAACTTTTCTAAAGATCTGTTAAAATTTTCAATGTTAGAAGGCAAAGCATCTGGTATTTCATAAAGATCTTCATAATATTTTTCAGCTTTTTGATCTAAATCTTTTAATTCATTATTTAAAACAATAGCTTCAGTAAAGGCTCTATCATTATCTTTCATCATTTCTTCTGTTAAACTATCTTTTTGTTCAGGTGTTAATGAATCTAATTTTTGAACTTTTTCTATATCTTTAGCTCTTTCATCTTCTAAATTCCAACTAGTTGCTAATTCTTCTATTTTAGCTATATGTTCTGTTAAATTTTTTACTGAAATATCTCCCATATCCTCATAAGCAACAAATAAGTTACCACCCTTATATGCAAGTGAAGAATATCCAGCTCCTAAACCATTTCCTGAACCAGGTTTAATTATAGCAATTTCTTGCATTTGATTTTTATCTTTCCCTGAAAGTGCATAAAGTGTTATATCTGCTCTTTTATATCCATCTCTATTACCCTTAGGTGCTGAAACAAGTATAACCTTTTTACCACTAGGAAGTGTTACATAAAGTGTAGATCCTTGTGAAGGTTGAGATGATACACTTTGAAAAAGATGTAAAGGTTCAAATACATTCCAAGTTTTACCCATATCCTCTGTATAATACGCCCATCTGTGAAGGTTGTTACCATTTCCTCCACCTCTACCTGCTAATACTAATTTATTTCCCATTTCAAATACCATATTCTCAAGTGATTGTTGATTAGGTGCTACTATAGTAGAATCATTATTCTTTGGCATTTTCCAAGTTTTACCATTATCACGAGAATACATTATTGTTGCAGCTATACCCTTTTTACCAGCTGCACCTTGATGTGATGTTTGTATAGGCATTACTAAAGTACCATCTCTCATAACTATACCCGTTCCAACTCCACCAAGAAAAGCTCTTACAGGATTATCTGGTGTATGATTTACAAAAATATCATTATTATTTTTGTCAAATTTATGAGTTCTTTCCCATGTATTACCACCATCTTCAGAAATAGATATACCCTGATCTATTCTACCATGATCATTACCAATAGGCACAGTTTTATTCGGATTTTCTGGGTTAAAAGGGTCTTGCCACCTTAAATCATACATTACAATTAATTTATTATCATTAGTTATTATCATAGAAGGTATTCTAGTATAAAGAAGTGTTGCAGTTCCTTCTGGTTCACCATTAGGTCCTACACCAGCCCATTTACCTTCATTACCATTTTCTCCAATTATACCTTGATTATTACTAAACTGTGTATCATGTTTAACTTTAGTAAGATTAACTCTACTCTTAAAATCATCAAAAAAACCATCATTATACTTAGTACTTGCATTTAATAATTGCAATGCAATAATAGAAAACATTAATAACAACTTTTTATTCATAATCCTCCTTATATATTTTTTTTGGTCAATATATTATGATTATTTTTTTCAAAAATCAAGGGGATTTATGAAATAAAATTTCATTTTTAAAAAAGATTTTGAAATATAAAAATGATGTCAAATTATTTTTTCATATTATCTATAAACATAGATAAATAAAGCTTATATTAAAGGTGTTATCATTTATTTTTATTTTAAATACGTAAATATTAATGAAAAAATTTCATATAAAAAATAGGATCGTTAAATCCTATTTATATTAATTTTACACATTTTTCTAAAAATTTTACATCCTCTTTGCTAAATCTATTGAATTTAGGTGAATCTATATCAAGTTCTGCTATCATATTACCATTTTTATCAAATATAGGTATTACCACTTCTGAATTAGAAGCAAAATCACAGGCAATATGACCTGAAAATTTATGTACATCTTCTACTACTGTTGTTTTTTCATTTTCCCAAGTATATCCACATACTCCTCTACCTTTAGGTATATTAGAACAAGCAGGTTTACCTTGGAAAGGTCCAACCTTTAGCACATTTTCATGTACGATATAGAAACCTACCCAATTTAAATCAGGCATAGATTGCATAATAAAAGCTGACATATTTGCCATTTTTGATATTTGAAATTCTTCATCTGAAAGCAGTGCTTCTAATTCTTTATATAATAATTCATAATTCATTTTCCATTACTCCACTATTGCATTCATTACTTCTTCAGCAGAAATTCCAGCAAAATATCTTGAAATATTTATAGAATTTAATCTTTCCAATACTTCTTTTTGTTCGTATTTAGCTCCTCTTAATACATCTTCAACTGCTGATACATCTTCAATACCAAAGAAATCTCCATATATTTTAATATTTTCAATTTTTGAATCTATTACATTAACAAATACTTCTATTTTACCTTTTTCAAATTTCATAGATCTTGTCAAATTATATTCTGGGGATTTACCATAATTCCAATCCCAATTTCCAAACTTTTCTTCTTTAGCTTTATTTATTTCTGCAATTTCTTCTTCACTAAATACATATTCTGTCATTTCAGGATATTCTTTTTTCATATAATCTAAAAGTAAATCTTTAAATTCTTCTACAGTTATTTTATTAGGTAATTCATCAACTATATTTGTTACTCTAGCTCTTACAGATTTTACACCTTTTGATTCTATTTTATCTTTAGAAACCTTTAATGCTTTAGAAAGAACTGATAAATCTACATCAAATAATAGGCATCCATGATGCATGATTCTACCATTTATATATGCTTGTGCATTTCCACATATTTTTTTACCATCTATTTCTAAATCATTTCTTCCAGTAAATTCAGCTTTTACACCTAAGCTTTCTAATGTTTTAATTACTGGTATAGAAAAACTTTTAAAATCGAAAGCTCTATTTTCATCTTCTTTAGATATTATAGTGTAGTTTAAGTTATTATAATCGTGATAAACAGCTCCTCCACCACTTATTCTTCTAACTACTTCAATATTATTATCTCTAACATATTCCTTATTTATTTCTTCTATTGTATTTTGATGTCTACCAACTATAATTGATGGTTTGTTTATCCATAAAAGAAATATCATATCTTCATTTAATAATTTTTTAAAAGCATATTCTTCTAAAGCTATATTATATGCTGTATCATTACTTTCATTAATAATATATTTCATAATTACCTCCTTCTTTTTCTTAATTATATCTCATATGTATTTATTTTTCAATTAATTTTACATTAGAAAAATTCTTTATAACCATCAAGTATATTTTCTAATACATCTTTTTTTATACCTTCATCAGCAAAAGAAAAATTAATTGCATTAATATTTAAACTTTCCATCTCTTTATAAGTCAGTCCAAAGTATTTATGAAGTAACATATATTCATCAGTTAATGTAGTATTTGAAACAGTTCTATTGTCTGTATTAACACAACATTTAACTCCATTTTCCATTAATGTTCTAAAAGGATATTCTTCTATAGATTTAACTGCATCAGTTTGAACATTACTGGTTGGGCAGATTTCTAATAATACATTTGAATCTACTACGAATTTCATAACATCAACATCATCTTGTATAGCTACACCATGTCCTATTCTAGTTGCACCAAGATATATAGCTTCAACAACATTTTGAGCACAACCACATTCTCCTGAATGTAATGTTAATTTTAATTTTTTTTCTTTTACTTTTAATGCTGTTTCTTTTATCACAGAATTTGAATAATTTTTTTCATCACCTGCAAAATCAAATCCAGCAACAATATCTAATTTTTCTATTTCATCTAACAATTTATTATTTAATTCAGTTTTATGATGTCTTAATGCACAAATTAAAATATTTACCTTAACATCTACTTCTAATTGTGCTTTTTTTATACCCTCACTAACTGCTAAAACCACTTCTTTTATACTAAGACCTTTTCTTGTATGAAGTAAAGGGGCAAATCTTATCTCTATATATCTAACATTTTCTTTAAAAACTTCTTTAACTACTGAATAAGCTGCTTCTGTTAAATTTTCCTTATTTTGTAATACCTCTAATACAACATCAAAGCAATTTAAATAATCTTTTAAATTTACACATTTTTGGGGAGCAAAAACTTTATCCATTCTTTTTTCTTCTATACCTTCTCTTTTAGCCAATTCATATAATGTGTTTATAGGTATAGAGCCATCTAAATGGCAATGTAATTCAACTTTAGGTAATCTTTTAACTACTTCTCTTTTCATCACTTCTCCTTTTTATGACTATTATTGAATTTCATAATAGTATATCACATAAAATGTTCAAAAACAATATAAACAATTTATTTAAAACGATTTACCTATATTTTGATACATATTTTATATTATATTTTTATATAAATCATATATTTGTATAATAAAATCTTGATACTTGAGATATAACCTTTTGATTGTTTTAGTTTTAGATAAATTCTATTTATATATATTTACTAAAGTAAACAGGAGAACTTCTGATATTATAGAAATTCTCCTATTTTTATTCTATTTCATATATATTATTAGTTTTTCTTTAAAGCATGTACTGCAAGCCCTAACACATCAGCAAATGCTTCATACATTACTTCTGAATATGTTGGATGCCCATGTATAGTTTTTAACATTTCTTCTACTGTTATTTCCATTTCCATAATAGAAGATGCTTCATTAATTAATTCAGCAGCCGCTGGTCCAACTATATGAACTCCTAAAATTTCACCATATTTCTTGTCAGCTATAACTTTAACAAATCCATAGTTTTCATCACTTGCAATTGCTCTACCATTTGCAGTAAAGCTAAATTTACCTACTGAAATATCATATCTTTCTCTTGCTTGTTCTTCTGTTAATCCACAAGCAGCAACTTCTGGTAAAGTATAGATAGCAGCTGGTGTTAAATCAAGTTTAGCTACATGATGATTTCCTTTTAAAGCATTTTCTGCTGCAACTTCTCCCATTCTAAATGCAGCATGTGCTAACATCTTAGTTCCGTTGATATCCCCAGGTGCATATATTCCTTTAACAGATGTTTCCATGTATTCATCAACTTTAATTTTTCCTCTTTCAAGTTCAAATTCAACTTCTCCTAATCCTTCTAAATCAGGTACACGTCCTATAGATAATAAGGCTTTGTCAACTATTAAATCTTGTTTACCTTCTAATTTAACAGTTAATTTACCATCAGTTTCTACTATTTCTTGTAATTTAGTTGAAGTCATAATTGTAATACCTTTTTTCTCTAATGCTGTTCTTAATGCATTAGATACTTCAGCATCCATACTTGGAACTATTCTATCCATCATTTCTATTATAGTAACCTTAGATCCAAAAGTTGCAAAAGCTTGTCCAAGTTCTACCCCAACAACTCCTCCACCTATTACTGCCATAGTTTTTGGTACTTCTTTCATTTCTAATATATCATCACTTGTCATAACAAGTTTTGAATCCATTCCTGAAACATTAATCTTAGAAACTTTTGATCCTCCAGCTAAGATAATTTTATCTGTAACTAGTTCTTTAACTCCATCTACCATAACATTTTTATCTTTTGTTATCTTACCTACACCTTTAAATACTTCTATACCATTACTCTTAAGTAATGCTCCTACTCCACCAACTAAAGTTTTAACAACTTTACCTTTCATAGCTAATACTTTTTCCATATCTACTGTGAATTTAGGATTTTCTATCATAATTCCACGAGCAGCTGCATGTGAAATTCCTTCAATTATTTCAGCATTATGTAAGTATGCTTTTGTAGGTATACATCCTCTATTTAAGCATGTTCCTCCAAGTTCTGATTTTTCAACTAATGCAACTTTTCCTCCTAATTGACTAGCCTTAATTGCAGCAACATATCCAGCAGGACCTCCACCTATTACTACTACATCATATCCATTTTCTTTTTTAGCAACAGGAGCTGCTTTTTCTTCAACAACTGGTTCTGAAGCTGCTGCTTGTGTACCTCCAGCAGTAGGGATTGCTTCTCCTTGTTCTCCTAAATACCCTATAATTTCTGTAACTGCAACAGTTTCTCCAGGTTGTCTTAATATAGCTAATAAATATCCATCTTCTTCTGCTTCAAGTTCCATATTAGTTTTATCTGTCATTATTTCTAATAGAATTTCACCTTGTTTAACAAATTCTCCAATTTGTTTATTCCATTTAACAATTTCCCCCTCAGTCATATCTATCCCAGCTTTGGGCATAATAACTTCTAATGCCATTTTACTCTCCTTTATATTAACATTGTAATTGGATTTTCCAATAATTCTTTTAAATCTTTCATAAATTTAGCTCCAGCAAGACCATCTACAACTCTATGATCTATAGTTAATCCTAAAGACATTATAGGTCTAACTTTAATTTCACCATTAATTACTACTGGTTTTTCTATTGTAGCACTTACCCCTAATATTGCTGAATTAGGTTGATTTATTATTGGACCAAATGATGATACTCCAAACATTCCTAAGTTACTTATAGTAAATGTTGAACCTTGTAATTCACTTGGTGCAAGTTTCATTTCAAGAGCACGAGATGTTACATCTTTCAATGCAACAACTAATTCTGATAAACTCATTTTTTCTGCATTATATACAACTGGTGTTAATAATCCTCCATCAAATCCTACTGCCATTGCTAAGTTTACATAATTATGTGCAATGATCTTTTGTCCATCTTCAGTTAATGAAGAATTTAAGTATTTATGTTTCATTAATGTTTTAATTACTGCAAGTGAGATAATATCAGTAACAGTTACTTTCTTACCAGTTTGTGCTAAGATTGGTTCTAACAATTTCTTTCTTAATGCAAGTGCTTCACTCATATCTACATCATAATTTAATGTAAATGTAGGTGCTGTTAGATAACTTTCAACCATACGTTTTGCAATAACTTTTCTCATTGCTGTCATAGGTATTACTTCTATTTCCCCATATTTATCTTTCTTATCATCTAATTGTTGTTCTACATTTGTTTTTTCTTGATTTATATATTCTTTTTCCTTGCTAGGTGCAACATAGCTTTCTTTCTTATCAGGTGATAATAGAGCTAAAATATCTGATTTCATTATCTTACCTCTTATTCCACTTCCTTTAAGCTCTTGCCAGTTTATACTATTATCTTCTGCAATTCTTCTTGCTACAGGAGATATTTTAATACTTGCCTCTGCCTTATATGAAGCCACATCTTCTTTATGTATTCTTCCAAAAGCACCACTACCAGGTATTGCTGATAAATCTAAACTAAGTTGTGATGCTAATTTTCTTGCAGCAGGTGTAGCTCTAAATATTTTTCTTTCCATTTTTCCACCTCTACTGTTTATTTACTGTTTTACGTATTGCATCTTTTATTGTATCTACTGTTGGTATCATTGCAAATTCTAAGTTTTGTGCATATGGCATAGGTACATCTTCTCCAGCACATCTTCTAATAGGTGCATCTAAGTAATCAAAAGCATCTGATTCAGAAATTATAGCTGAAATTTCTCCAATAAATCCACTTGTTTTATGAGCATCATTTACAAGAACTACTTTACCTGTTTTCTTAACTGAATTTAATATTATTTCTTTATCTAAAGGTACTAATGTTCTTGGGTCTACTACTTCAACTGAAATTCCTTCTTTTTCTAAATCTTCAGCAGCTTTCATAACTCTTGATAACATTTTTCCATATGTAACAACAGTTACATCTGTTCCTTCTTTTTTAATTTCTCCTACTCCTAAAGGAATTACAAATTCAGGATCTAAAGGTACTTCACCTTTTTGGTTAAATTCTGACTTATATTCTAGTATTATTACAGGGTTATTATCTCTAATTGAAGCTTTTAATAATCCTTTCATGTCTTTTGGTGTACCTGGTGCTACTACCTTTAATCCAGGTATATGTGTAAACCAACTTTCAAGTGATTGTGAATGTTGTGCAGCTGAACCTACTCCATTTCCAGCAGCACATCTAAATGTTACTGGTACTTTACCTTTTCCACCAAACATATATCTTGTTTTAGCTGCTTGGTTTACTATAGCATCCATTGCTATAACAACAAAGTCCATAAAAGTTACATCAACTATAGGTCTTAATCCAGTCATAGCTGCTCCTGATGCTGCTCCTGCTATAGCTGCCTCAGATATAGGGCAATCTCTAACTCTTTCTGGTCCAAATTCTTCTATCATACCTACTGAAGTCCCAAAATCTCCTCCAAATACTCCAACATCTTCTCCCATAAGTAAAACATCTGGATCTCTTCTCATTTCCTCTGACATTGCTAAAATTATTGTATCTCTAAATGACATTAATTTTGTTTCCATATTTTTAATCCTCTCCTTAATTAGTCTGCATAAATATCTTCAAAAGCTGATTCTAGTGGTGGTAATGGGCTGTTTTCAGCAAACACTACTGCATCATCAACTGCTTTTTTTACTGAAGCATCTATATCTAATAATTCTTGTTCTGTTGCTATATTATTTTCAATTAAGTATTTTCTTAAATTTTCAACTGGATCTTTTTTCTTCCAAGTTTCAACTTCTTCTTTAGTTCTGTATTTACCTGGATCTGAAGAAGAATGCCCTAACCATCTATATGTAACTGATTCTATTAAAACTGGTCCATTTCCTCCTCTTACATAATCAACAGCTTTTTTAAACTCTTCATATACATCTAAAACATTATTTCCATCTAGAATAAACATTCCTGGTATTCCATATGATGCACTTCTTAAATGTATATGTTCTATATTAGTCATTTTTTTAATATCTGCACTTATTCCATATCCATTGTTTATACTATAAAATATTACAGGTAATTTCCAAATTGAAGCCATATTTAATGCCTCATGGAAACTTCCTTCATTAGTTGCTCCATCTCCAAAGAAACATACAACTATTTTTCCTGTTTTTTTCATTTGTTGAGTTAATGCAGCACCAACAGATATACCGTGTCCTCCACCAACTATACCATTAGCCCCTAAATTTCCACTATCTACATCAGCAATGTGCATTGATCCACCTTTACCTTTACAGATTCCAGTGTATTTACCTAAAATTTCTGCCATCATTGCATTTAAATCTATTCCTTTTGCTATAACTTGTGCATGTCCTCTGTGATTTGATGTGATAATATCATCATCATTTAATGCTGCAATAGCACCTACACTGGCAGCTTCTTCTCCTACTGAAAAGTGTGTCATACCAGGCACTTTACCTTTTTTAACTAATTGTGCTACTTTAAGATCAAAAATTCTTGCTTCTTGCATTTTTTTAAACATATCAAGCAATTGTTCTTTTGTTAATTTTTCCATTATAAACCTCCAATTATATTTCATATACATACATTTATAGTATAATTCGAAAAAAAATTCTAGTCAATCATTGTGATTTTATTAACTAATTTTCTAGCATAATTTTAATTTTTTAACTAAAATTTTTATATATTTATATCAATATCAATACATCGTTTCATAATATGAACCTCAAAAAAATGGAAAATAAAATGGCTTAATTTCTGAAACATGCAGAAACCAAGCCTTATCAATGCTTTGATCACTCTATTCTAAATAATTTATCTTTTTGTGATAATCTTAAAACTATATTTTCTTCATTTAATTTATCAACTGGAAATTTATCTTTTAATATAAGGATGATTAGTTGAATATTTTTATTATCAACAAAATCAGTTACCTTTAATAATTGATTATCATGCATTAGTTCTTTTTTATCATTTAGTAAAAATTTTAAACATGGTATTTGTTTATTTTCTGATACATTAAATTTTTATAAAAAAAAGATGATCAAAACTTTAACCATCTAAATCATCTTATACACCATTCCTGCCTCTACCCCATTTGCCCTATAACCAGCCTCATTAAATCTATGAACTATATTTACCCACATACTTAATCTATCATTAACATTCATCTCTCTTAATCCCCACTTTAATTCAAATGTATTCTTGTTATTATTATATAAATACTCTTCCTTTTCTACTCTAACTCCTACCAACCTTGTATCATAAATCCAATTAAACTCTATATATGGATTTATGTTTTTAAAATGAGTAAATAATGTAAGATTAGTTCCTAGTCTTGATTTAATATTTACATTATTTAAATTATTTACATCTTCTATATTAGGATTACTAACATAACTAAATATTAGTTGTTCATATAGATTACACACTAATCTATTTTTTCCTATATACATATCTCCTCTTGTACCAACCTCTATTGATGCTTTTAATGAATGTAATTCATAATTTAATCTATCTGCACTATTTTGTGAATACATATAGTTTAACCAGCTATCTGCATAAAAGTGTTTATTATGCCATGTACCATACAAACCTAGTCCAAATGCTCCTGTCTTTCCTGACTTCTTTTCTTTTCCTGAACTTACTCTATCAAATAAAAGATTTCCAAATACTCCATATTTGTATTCTTTCTTTTCTAATATATCATATCCAATGAATATATTAGTAATATTACTATCTATATTTATATTATCTGATAATATATTCTTACTTGATATATTTTTTATCTTAGTCCATAGTTTTTCATTTCTTCCATTATTTAACTTATTATGATCATAATATGTTAGATTTGATTCATTTCTAAGTTTATCTATTGAGTTTAATATTAATCCTAGAAAAGGTTTATTATATTCTTGAGATAAATACCAATTATTGTTTTCTAAACTAAGCCTATATCTATATATTCCATGTTCTGGATTTAATAAGGTAAAAGCATCTTTTGTTGAGCTTTTAGTTTCTATTAATTTTAACTTGTTTTTCATTCTCTTATTTAATGTAAAATTAGGATTTGAAATCTCTACTCCTGTACTTCCACTTGCTGAACCATCTAGTTTAAGCTTATCTGATTTTAGTTCATCTATATATGTTCTCATTAGTAGTTTAGAGTTTTCTCCTACATAGTTTCCTTTAATACTGAGATTACTCGTATTATCTTTACTATTTAAAAAACTAATTAAACCTTTATTCACAAATTTATCTTCTACTTCTATATTTGAATCTTTTAATATATTAATAGTTGATCTTTCATTATTAGTGAACTTTTTAGTCTTTAAATCACCTTTTTTAATAGATAATTTACTGGCTTCAACTAGTATTTCATTATTTACTTTATATTCTTCATCATTAAATGTCCAATCAGAATTTTGTAGATGTATCTTTTCAAAGTCTTTAAATTTATCTTTGCTTTTTACTTCTCCACTTCCTATTAATCTTAAGATGTCGTTATCTCCTTCAGTACTATCTAACATACCTGTTATATTATCCATTGATTTAATAGTAACTATAGTTTCTTTAAGTCCTTTTCTCTTTAAGATCAAATTACCTTCTACTTTTCCGTTTTGTAAGTTGACATTTAAAACAGTATCTTCATTTCTTATTTTTTTCCAACTATCAATTTTACTAAAATAATAATTAGTTAAATATACATCACCAATAATTTCTTTATTATTATCTACGCTACCTTTAATTGCAGTAATATAAACATTTGATTCTATATTACCGAAATTTTGAAAATTCATAATTCCTACTCCTGAATCTACAAACATTTTATCTTTTTTAATTACTCCAGTAGATGTATTTAAAAATAGTATTTCTTTACCATAATTTAAATATTTTCCTTTAAAATTTCCTTCAGTTCCTATTAAGAAAGGCAATCCATATTTTACATCATTTATTATTCCTGAATTTACAAATTTAAAATATAACATTGAAAGTACTACTATCCTACCATTTACTTTACCTTCATTTTTGTAATTACCATTTTCTTCAAAATGGGCTATAAGATCATTATGTAAACCACTACTTCTATTTATTATACTCCCATTTTTTAAGGTCATATAAACATCTTTTTCTATTGTTCCAGCATTATCTAAAATTCCTAATTCTCTAGCCCTAAATCCCATAGAAGTTGGATAATTTTTAGCTGTAAGTAATGCATTTTCAGAATTTTTAAAATATATATATTTACCTATTAATGAAACAGCATTTACATTATCTGCTGTTCCAACTAGTTTTTTATTATTAATTACATAAATCAAATTAGAAAAATCATGATTATGTAAACTTGTAATTACTTCAGCTCTACTTGATAGCGTTGCATTATTAACTATTCTAACACTATCAGGCTTTCCATTTGAAAATACTACATAAGATGTAGGGTTATCAATATCTTTATTAAATACAAGACTTACCTTTTTCCCTGTTTCTATATGTATAGAATTTTTAGCATCTTCAAATTTATCATATTTAATCTGTTTCTCAACCTCATTTATTTTATTTATATCTTCATTTATTTTTTCATCTATAGTTTTAGAATTAGATATAATAGCACTTAAAAAAATAAATAAAAATATAGTTTTATTAATATTCATTTTTCTCCTTTTTATCATTTGTTATTTTTTTATCAAAGCCAATAATAATCTATATCACAGATTAATACAAATATAGATTTTAACATGCTTTACTGATAAATTTAAAACCATTATACCCCCCCCCCAGATTAATTTGTCAATTTCAAAAATTAAAATTCATTTTCATGAAATTTTATTATTTTTAATTTCTTGTTTCTATTTTATATATGTACAAAATTTTTAGTTCTTTAAACTTAAATTGTTCAGTTATTTTTTTATCAAAGTAAATAATAACCTATATTTCAAATCAATATGAATGTAGATTTTACTATAGTTTCATAACATATTTAAAGTCATTATACTCGCCCTAAAGCTTCTTTGTCAAGAAATGATTATTAAAAAAATTTTTAAATTGTGAAAATTATTTTCAATAGAAAATTTATCTAAAAACAAAAAGTGCATCTCTAATCTCGTATACAAGATTTTGGATGCACTATATTTATAAATTTATACTTTTTTAATTGGTGCCTAAGAAAGGATTCGAACCTTCGACCCTGCGGGTATGAACCGCATGCTCTAGCCAACTGAGCTACCTAGGCATACACCTTAATGACAGTTGTAATTATACTATAATTATTTTTCTTTGTCAATTACTTTTTATACTTTATTATTCAATTTTACTTTTTAGTAATATTATGATAAAATTTAAGTTAATATATTGCCTTTATTTTGGTAATATTAGAAGGAGTGATTATGTGAAATTCAAAATATTAAATTCTATTAGAGAATACAAAAAACAAACAATACTTGGACCTATTTTTATGATACTAGAAGTATTTACAGAAATACTAATACCTCTACAAATGGCTAAGATCATTGATGTAGGGATTAAAAATGGTGATATGTCATACATACTTAATAAAGGAGCTATATTAATAATACTTGCTATACTAGCATTAATCTTTGGAATATTAACAGGAAGAATGGCTGCTATTGCTAGTGCTGGTTTTGCTAAAAATCTAAGAGAGGATATTTTTTATAAAATACAAGAATTTTCATTTAAAAATATAGATAAATTCTCGACATCTAGTTTAGTAACTAGAATGACTAATGATATTTCCAATATACAAATGACTTTTATGCTAAGTATAAGAGTGTTTGTTAGAACCATTATCATGTTAATAATGTCATTAATCATGATATATACTATTAATCCAAAAATATCAAAAATATTTATAGGTGTAATTCCATTTTTAACACTATCTTTCTATCTAATAATTCGTAATGCTTATCCATATTTTGTTAAATCTTTCAAAGAATATGATGTATTAAATAGAAAGGTACAAGAAAATATAAATGGGGTTCGTGTTGTTAAGGCATATGTTAGAGAAGATTTTGAAATAGAAAAATTTGAAGATACTTCTAATACTATTTTTAATCTTTTCTCAAAAGCTGAAGGGGTTGCAGCACTTAATTCATTTGCTATGTCATTTACAGTTTATACCGTAATTATATTAATTTTCATTATAGGTGGAAAAAGTATAGTATTTGGAAGTATGAAAACTGGGGAATTAACTTCAGTAATAATATATTCTATACAAATCCTTATGTCATTAATGATGATGTCATTTGTATTTGTCATGTTATTAATTTCTGAAGCTTCAATAAAAAGAATATCTGAAATACTTAATGAAAAGCCAGAAATGACTAATAAGCAAGAGGCTATAAAAGAAGTTAAAAATGGGACTATATCTTTTGAAAATGTATATTTTAGTTATTCAGGTAATGATAAGTTTTCACTTAAAAACATATGTTTTGATATAAAGTCAGGGCAAACTTTTGGAATTTTAGGTTCTACTGGAAGTGCAAAATCAACACTTGTTCAACTTATTCCAAGACTATATGACATAACTAAAGGTTCTATTAAAGTTGCTGGTATAGATGTCAGAGATTATGATATGGGAGTTCTTAGAGATAATGTTGCAATGGTTTTACAAAAAAATCAACTTTTCTCTGGAACTATAGAAGAAAACATTAAATGGGGTAATCCTAATGCAACTTTAGATGATGTTATAAGGGTATGTAAGCTTGCTCAAGCAGATAAGTTTATAACTAATTTTACCAATGGTTATCAAACAAAAATAACACAAGGTGGTAATAATCTTTCTGGTGGTCAAAAACAAAGATTATGTATTGCAAGAGCTTTACTTAAAAATCCTAAAATATTAATACTTGATGATTCAACTAGTGCTGTAGACACTAAAACTGAAAAAGAGATTAAAAAAGCCTTTATTGAAGATATACCTGATATTACTAAAATAATTATAGCTCAAAGAATCTCTTCTGTAGAAAATGCAGACTTTGTTATAGTTCTTGAAGAAGGAGAAATTAATGGTATAGGAAGTCCAAAAGAACTATTAGAAACTAATGAGATATATAGAGAAATATATAGTTCACAAGTTAAGGGAGATGATGAAAATGAATAAAAATAGAAGAGCCAAAAATCCCAAAAAAACTTTAATACGACTACTCCAATTTATATTTAAATACTATAAACCAGAAATGATAGTCGCCCTTATATCTATAATTATTAGTTCTCTTGCATCAATTTCTGTATCTCTATCTTTAAGATACATAGTTGATGATTATATAATTCCTTTAATTGGTAGTACTAATCCTAACTTTATACCTATGTATAAAATGATAGGGTTTATGGCAACTATATTTTTAATAGGTTCAATTGCAACTTTAACTTATTATCTGTTAATGGTTAAAATAACTCAAGGAACTTTAAAAAGAATAAGGGATATTTCTTTTAAACACTTACAAAGTTTACCTATTAACTATTTTGATAAAAATAATACTGGAAATATAATGAGTGTATTTACTAATGATACCGAAGCATTAAGAAATATGATAAATGGTTCAATGACCACAATAATTTCATCATCTATAATTATACTTGGTTCATTTATATCTATGTTAATACTTTCTCCACTATTATCAATACTATCTTTTGTTATGGTGGGTTCTTTAGTATATATCACTAAAATCATAGGTAAAAATACTGGTAAATATTTCGGTATGCAACAAAAAAATATCGCTGATGTAACAGGGTATATAGAAGAAAGTATGAGTGGGCAAAAAGTAATTAAGGTATTTAACCATGAAAAGATATCTAAAAAAGAATTTGATAATCTAAATGAAGAGCTTTACAAAGCTTCATCTCGTGCTAATATATATGCAAATCTTATGGCACCTGTTATAGGTAACATGGGAAATTTACAATTTGTTCTTACTGCAATATTAGGAGGATTATTGTATGTTAATAACCTAGGTGGACTTTCTGTTGGAATTTTAGTTTCATATTTACAATTTACTAAAAGTTTTACTCAACCATTCATACAAATGGCTATGCAATTTAATTCTGTATTTATGGCTATTGCTGGTGCTGAAAGAATTTTTAAATTAATTGATGAAAATAAAGAGATTGATAATGGAAAAATCCAGCTTATAAATACACTTAATAAACATTGGGCATGGGTTGATGAAAATGGCAATTTAACTGAACTAAAAGGTGATATAAGATTTGAAAATATGACCTTTGGATATGATGAAAATAAAATTATACTAGATAACTTAACACTTTATGCAAAACCTGGACAAAAGATTGCATTTATCGGTGAAACTGGAGCAGGTAAAACTACTATTACAAATCTAATTAATAGATTCTATGAAATACAAAAAGGAACTATTACTTATGATGGAATTAATATTAAAGATATCAAAAAAAGTGATTTACGTAAATCATTAGGAATAGTATTACAAGACACTAAACTATTTACTGGTACTATTATGGAAAATATTAGATATGGAAAATTAGATGCAACTGATGAAGAAGTTTACTTAGCTGCAAAACTTGCTCATGCAGATTCATTTATACAAATGCTCCCTAATGGATATGACACTTTATTAACTACTAATGCAGAAGAATTATCCGTAGGGCAAAAACAATTAATTGCAATAGCTAGAGCAGCTATAGCTGACCCTCCTGTGTTAATACTTGATGAGGCTACATCAAATATTGATACAAGAACTGAAAAAATAGTTCAAAATGGTATGGATAATTTAATGAAGGGTCGTACAGTATTTGTAATTGCTCATAGATTATCTACTATAAAAAATAGTGATGTTATAATTGTTTTAGAAAATGGTAAAATTATAGAACGTGGAAACCATGATGCATTAATTTTACAACAAGGAAAATACTATCAATTATATACTGGAAATATCGAACTTGAATAAAATAAATATAAAAGGAGATTAATATGTCTAACACATTTAAATCTATTATAGTTGCTTTAGTTGAATTATTAATATTAAAATTAATAAAACAATTTACAGTAGGAAATATAGATACTATCCTATTTTCTATAGGAATTGTTACAATTTTAATTCTTTACGATGTATTAAGTTTTGGTCATAGTACATTATATAAAATAATGATATTATTAATTCTTGGTATTTTAAATGGTTTTGTATTAGTATTAATAACAAAATCTATACATGCAAATAAATAATTTAATATAAAAACTCTAAAACACTATTTTGTTAATGTTTTAGAGTTTATTTTTATTTATTATATACCATAATTAATTTTTTATCTAAAGTTGTAAAGCTTTCAGCTCCATCTTCTGTTATTATTAAATCATCTTCTATTCTAACTCCAGCATAACCAGAAACATATATTCCAGGTTCTACAGTTATGGTCATACCAGCTTCTAATTTAGTTTCATCTCTAACAGAAAGCATAGGAGATTCATGTACTTCTAATCCATAACTATGCCCTAATGAATGACCAAAGTATTTTGCATCTTCTCCCATAAATTCTCTAACTGCTGCATCTATTTCTTTACCAGTTTTACCTGCTTTAAGTAAGCTTATTCCAAGTTCATTTGACTTTCTTACTTTTTCATAAATTTCAAGCATTCTAGGTTCTATATTCTCACCAAAATAGATAGTTCTTGTAATATCACTTGCATAACCATCATAATAGCAACCATAATCTATAGTTATAAATTCTTCTTTTTGAATTTTTTTATCACTTGCTACTCCATGCGGCATAGCAGATCTATATCCACTTGCAACTATAGTATCAAAAGATGTACCACTTGCACCTCTTTTTCTTTGATTATACTCTAAGATAGCTGCTACTTCTATTTCTGTCATGCCCTCTTTTATTTGAGGTATAGTTTCCATAAGTGCTTCTTCACTTATTTGTACAGCTTTTTTTATCTTTTCTATTTCTTCTTCAGTTTTAATTCTTCTTGCAATTAATAATTCACTTGAAGCTTTTATTAATTCTGCAAAATCAAAGGCAGCACTAATAGATTCATATTCAGAAAATGAAAGTGCTAAATTATCTATTCCTAATTTAGTAACTCCATCTTCTTTTGCAAGTTCTACAAGTTTATTATAATTTCTTGCATTGTCTTCTATAAATGTAAAGCCATATCTTTCTACTTGTTTAGTAGCCTGTTCTGTATATCTAAAATCAGAAATAAAGTATTTATTTTTTTTAGTTACTAAAGCAATACCTGTACTTCCAGTAAATCCTGTAAAGTATCTTTTGTTATAGTAATCTGTTAAAAGTAATCCATCTATTCCTAATTTTTCAAAAATAATTTCTAATTTACACATAATTTTACCTTTCTAAATAATATGCTTTAGTATAGCTATAAAATTATTAACCATATGCGAAAGTATCGCAAGTTTAAATGAACCTGTTAAAAAATATGTTCCTGAAAAAATAATTCCTAATGTAAAATATAGTACAAATTCAAAAAAACTCTTAGGTGAATGTACTAAAGCAAATAAGACTGAAGATACAAGTATCCCCAAATATCTATTTTTAAATAAATTATATAATATCTTTCTAAATATTATTTCCTCTACTATTGGTATAACAATTACAATAGATAATATTATATACATAGGACTTATATTATTTACTATAGTTTCTAACTGTTTTTCATTTTCAGGTTTAACTGAAAAATAGTTTATTAAAAATCCCATAGTTAGAGATATTATCGTTGTAATTAAAACAACTAATATAACTTTAGTTATTGTTATCTTTTCTTTTTCAAAAATTTTCACTTTAAATTTTTTCAAAACAAAATGAAGTATAAAAAATATAATTAAATTGTATATAAGTAATATTTTATATGAATTAAGTGCTCCATATTTTAATAAAATCATAATTACATTAATTATTATCATTATAAGTAAAGATAGTAATATTGATCCTACAGTTAAAATAAGCAATGTAATCTTATTATTTAAATCTAAATCTTTTATCATAAATTATTTTATCTCTCTAATACCTGCAAGTAGTGAAGTTAAATTTTGTAATTCACTAGGTATAAATATCTTTGTAGCTTCTCCTTGTGATACTTTTTCTAAACTTTCAAGTGATCTTAATACAAGAATTTCTTTACTTGGTACTGATGAATTTAATATCTTTATACCTTCTGATTCAGCTTCTTTTAATGCAAGTATAGCTTTTGCTCTTCCTTCTGCTTCTTTAATACTTACTTCTTTTTTAGCCTCTGCTCTTAATATCGCAGCTGTTTTTTCTCCTTCTGCAACTAGAATTGCACTTTCTTTTTGTGCTTGTGCTTCAAGAATTTTAGCTCTTTTTTCACGTTCTGCTTTCATTTCTTTTTCCATAGCTATTCTAATTTCTGTTGGAGGAATTATACTTTTTAACTCAACACGATTAACCTTAATTCCCCATGGATCTGTTGCTTCATCAAGTTCCATTCTCATCTTAGAGTTAATAACATCTCTACTTGTAAGAGTTTGGTCAACTGTCATATCCCCTATTATATTTCTTAAAGTAGTTGCTGTTAAATTCTCTATAGCTGCTATAGGTCTTTCAACTCCATAAGTAAATAATTTAGGATCAGTAATTTGGAAATACACTACTGTATCAATTTGCATAGTAGCGTTATCTTTAGTTATTACACCTTGAGGATCAAAGTCTACTACTTGCTCTTTTAAAGTTACTTTTTTAGCAACTCTATCTGTCAATGGATTTATAAAACTTAATCCTGATTCTAGTGTTTGTGAATATTTCCCAAGTCTTTCTATTACATATACATCAGATTCTGGTACTATTCTAATTCCTGAAATTGCCATCATAGATAATAATAATATAATTATCCCAAATATAGTCATAATCATAATTTATACCTCTTTCTATTTTTTTATTAATATTTTGTTTCCAACAAACCCTTCAATTGTTACAACATCTCCTACTTTAAATTTTTCATCTGATATTGCAGTCCATTTGCTTCCTTTAAATTTAACAATATACTCATCATTTTCTATATCAACTATACTTATCTTATTGCCTTTAAAATCTGAATTAAATTTTTCTTGTATAAAATACTTATTAAGTATAGGTCTTGTATATATTAAAAAGATTGCAACTAATGCAGAAAAAATAAATAGTTCTAATGTTGTATTTTTAAATAACATACTAATTAATGAAACTATTAATGCTGAAAAAGCAAACCATATAGTTACTAAATTATATGTTGCAATTTCAATTATGATAAATATTACAAATAATCCTAACCAAAAATATACATTTTCCACGATAAATCCTCCTATCTATTCTTAATTTTAATCATATCTTCATAACTAATAAATTGATAACCTTCCTCTATCAATATTGGAACCATGTATTTTATAGCTTCATATGATTCTAAATATAGGTCGTGAAACAGTACTACATCTCCATCTTTAACTACAGGAAGAACTCTTGAAATTATTGTTTCTACATTTCTACTTTTCCAATCTTCAGAATCAACATTCCATAATACTATATTATTTTTACCACCTACTACATTTTTAACTTTTTGATTAACTGCACCATAAGGTGGTCTTATATTTTTAACATCAAGTCCTATTACCTTAAAAATTTCATCATTACAACCTTGATATTCCTTCCAAATTTTTTCTGGACTTAATTTAGTTAAATCAGGATGTGTATATGAATGCCCCATAATTTCATGCCCATCTAAATATGTTTTTATAACCATATTAGAATTTCTTTTTATTACCTCTCCTAGTAGAAAAAATGATGCTGTTTGATCATATTCATTAAATACTTCTCTTATTAATTCATGATATTTATTCCTAGGTCCATCATCAAAAGTAAAAACTATGTGTTTTTTAGACATGTCTACTTCTCTTTTTTTAGGAATTAATTCCTCTCCTTGATAAAGAGATGGAAGCCCTACATTTGATTTAAATATTGCTTTAAATTTTTCTAAGTTAAGAACTAATTCTTCATTATCTCCAAAATATATATCAGTATCAGTTACCCTAAATTTCCTAACATTTACATTTTCAAAATCAATGTTTGGATCTATAGATTTTGCAATTTTTTTATAATGATACCTTAATATATCATCTGTTTTTATAATTTTTTCTTGTTGTTCTTCTTTTTTTTGAACTTCTTTTTCTTCTTCAACTTTTTTTTCGATTTTTATATCTTCTACAACCTTTTCTTCATTTTTAGTATTCATACAACTTATTAAACTAAATGTAATAATAAATGCAGCAAATACCTTAACTCTCCTTTTCATTACATACTCCTATCAATTAGTTCCTCTATATACTCCTTAGATATATTTTTAAACCAATATGTTTTTTCCTCTATTTCTAATAAAATTTTTTTTATTTCGTTATAATCAACACATATATCTATACTTTTACAAAAAAATAGTATTATTTCTATAACATCAACAATATTACCAACACTATATGTTTCTGTTAATACATCATTATTATGTGCTGCCATATTTCTAACATCTTTAATAATTTCTAACTTACTTAAAAATTCATCATATTCTGGATATATATTTATATAAATATTTTCAAACATTTTAGGGTAAGCAACATTTAATATTTCCTTTACTTCTCCTAAAGTTAATGTTTCCATTATTACCCATATAGGTAAAACTTCTTTTTTGTATTTTTCTACATAAAGACTTACTACCTTTTTATCAAAATATTCCATATTTACTATTTTATTATTCTTTTTAAGTATTTTCTGATGTATTCTTTTAACACTTTCAGGATCTGCTTTTCTATCTATCCACTTAGGAAAATCTAAATAAGTATATGCCCCTTTTTTACCAAATATGTTTACAAGTTTAGTTTTTAGATATATTTCAATATTTTCAATTAAAGATAATATTTCTAATCTTAATTTCTTATCAAGATAAAAATTATCAACAAAATTTTCAAAATATGTATTATCAAAATACTTGCCGGTTTCATCTCTATAAATATATGAAAATTCCTTTAATTTAAAATATCCTAACTTAGATAGAGTTTCTTTTGCTCTTTCCTTATCTTTAAATTTAACATTCTTTTTCTCTAAATGATTTATTAATTCATCTATTTCTAAAAGCATTTCCTGTTTTTCATTATTTTTTAAATCCTTGTTCATTCATAAATCCTGTAAGAAATTCTGTATTTATTCCTTTTAAATATGATTTAACTACCTCTAAATGTGATGGTAAATTAACATTTATACTTTCCCAATATTTATTTAATTCCTCATTATACTCTATTACACCTTCTATAGCTTTTTCTTTATCATATTCTTCAAAAAATACTACATTTTCAAATTTAGTTCTAGGTTTAAGAGGTGAGTTCTTAACAAATTCTTCAGGAACACCTAAAGTAACTCCATAAATAGGGAAGGTATGTTTAGGTAAATTTAATAATTTAGCTATTTCTAAAGGAGCAACACTAAATACTCCTCCTATAATAGTTGAACCATAACCTAATGAATTTCCTAATATATCTATAGTAGCAGCTGCTATTCCAGCATCTCCAAACATATCAGAAATTATAGAAGTTGAAAATATATTTTCTTCTACTTCCTCTCCCTTATATTTTAACGAACCTATTAATTTACTATAGTCCCCTACTATGATAATAAATGCATCTGCTGTAGCAACTTGTTTTTGTTTTCCACAATATTCTGCAAGTTTTTCTATTTTTTCTTTATCTTGAACAACTACAAAAGATAACTTTTGTAAATTCCTAGAATTTGGCATTCTAAGTAATGTTTTTAATATTAATTCTAAATCTTCCTTATTTACTTTATCTCCAGTAAAATTTCTTACTGATTTTCTATTACTAATTAATTTAATTACTTCATTCATATTAACACCTCTATTTAAATTTTCCTTTATTTACTAAATTTTTACAAATTGGATCTCTATCTTCCATATACCTTATTCTATCAACATCATAATAAAGCATATCTAAATCAAAACTATCATCTTCATATATTTTAAATATTAGTTTTGAACCTATAGGATATTTTTCAAATTCATTACCTATATCATCACTATCTATATCAAGAGCTGATAATATTGTTGCAATATTTGAATCATGACCAACTATTACTGATAAATCAACATCATTTTTAGCATGTTTTAGCATTAATTTATATGCATTAGTTTCAGAATAATTAATATATTCTTTATCTGCAAATAAGAGATCAAGTAATGAATCTTTTACTTTAGACATTTCTTTAAGATCTTTTCTAAAATTATCACCTTTAAATATTTCATCATATTTAAATCCTTCATAATATTTTAAAATATACATATCTACTATATCTGTTCCATATTTAAAAGCACCATTTGAATAGATTATTCCTCTATCATCTATAGTTATTTCAGATTTTAGATTATATATACTATCTTTTTTTAATCCTAGGCTTTTTTCTATTAAATTATATGAACTTCTTATTTTTTCATCATTTTTTTCTATTTTTTCTATATTAATAATATCTTTAGTTAAAGTTATATTATAATTTAAATCAAGCTTTTTCATATCCTTAAACATGTATTCTATTTCTATATTTTCAAAAGGAAACATAGCTAATGCTAATAATTTTGAAGTTAAAATTGTTCTTTTCATAGAATTTGTATGAAATTCTTTAGTAGAAATGTTAAAATTTAATTTATCTAAATATTTTTTTAAATATTTTCCAAATTCATATTCTAATATTTCTCCTTTTTTAGTTAATATTCCATCTTCAAAATCCCATTTAATCTTTTCAGGATCTACAATCTTACTTATTTCTTCTAAATTAAATAACGGATACCTTATTCCATGCCTACTATAAATTAAAATTTTTTTTAATTTCATAAACAACTCCCTTACTTATTATTATATATATTATATACCAATTCATATCTTAAAATCAATAAAGAAAAAGACTTCAAGAAAATTATCTTAAAGTCCCATTTTATCTATTTTTATTAATTTATCCATTCTATCTGATATAGCATGCTTAGATCTAATGTATTTTGCACTATCTTCTATCTCTTCTAACCAAATAATTTCACCCTTTTTTCTAGTTTTTTTCATATCAATTACTCTTTGATTACAAGAACCCCTAAATTTTAACTTTAGATCAAGTAATGATATTTCAAATTTTCCATCTACTAAAACATCAATTAATTCCAATATTTTTTCTAATTTTGGGAAATATGGAACCATTTCAGATACAATATATTCATAAGTAAAACCTGAATATAGCCATATATTTTTATTTGGAAATTTTTCTTTAACTTTTTTTAAAATAATATATACTCCCTCTTGGTTTCTTGGTTCTAATGGTTCTCCTCCTAAAAATGTTAATCCCTTAATATATTCCTTATCTAAATATGTATATAGCCTGTCAAGTATTGTTTCATCAAAACATTCCCCTTCTTCAAAAGACCATATTTCTTTATTAAAGCAACCCTTACAGGCATGTCTACAACCAGATACAAAAATACTAACCCTTATTCCAATACCATTAGAAACATCTGTAGGTTTAATTTTTGCTACTTTCATATATGCAATACTCTTTTACTTATTTCCTTAGTTTTTCCTTCATTCCAAAAGTTTTCCCCTAAATATCCACAAGTTCTTCTTATTACATTCATCTTTGTTTTATCATTATTATGACATTGAGGACATTCCCAATTATTTTCATTATTTACTACCATTTCTTCATCAAATCCACAAACATGACAGTAATCTGTTTTAGTATTAAATTCTGCATATTGTATGTTATCATAAATATATTTAACCATTTCCTCTAATGCATCTATATTTTTACTCATATTAGGTATTTCAGCATAAGATATTGCTCCACCACTAGATATTTTTTGAAATTCTGATTCAAAATTAAACTTATCAAATACAGAAATATTTTCTCTTACATCTACATGATATGAATTAGTGTAATAACCTTTATCAGTTATATCTTCAATTATTCCAAATTTTTCTTTATCTATTCTTGCAAATCTATAACATAGGCTCTCAGCTGGAGTTCCGTAAAGACCAAAGCCTATTCCTGTTTCTTTTTTCCATTTTATAGTTGCATCTTCTAATTTATTCATTAATTTTAATGCAAATTCTGTTCCCTCTTTAGTAGTATGTGATTTACCTGTAATAAGTTTTGTAGTTTCATAAATACCTATATATCCAAGAGATATAGTTGAGTATCCATTCATTAGATATTCATCTATTTTTTCACCTTTTTTAAGTCTTGCTATAGCTCCATATTGCCAATGTATAGGCGAAATATCAGATGTTGTTCCTTTTAGTTTATTATGTCTTAACATTAATGCTTCATAACACAATTTTAATCTATCCTCTAATAATTCAAAATATTTTTCTTCTGTTTTAGCAACTAAAGCTATTTGTACTAAATTTAAACTTACTACACCTTGATTAAATCTTCCCTCAAACTTATATTCTCCATTATTATCCTTATATGGCGAAAGAAAAGATCTACATCCCATAGGTGAAAATACATTACCTTCATAATTTTTTTTCATTATTTTAGCACTTATATAATCAGGATACATTCTCTTAGATGTACATTCTACAGCCAATCTAGTTAAATAATCATATTTTCCACCTTTTAATGCATTATTTTCATCTAGTACATATACTAATTTAGGAAAGGCTGATGTTACATAAACTCCTTGATCATTTTTTATACCCTGTATTCTTTGATTTAATATTTCCTCTATTATATCTGCTACTTCTTCTTTATACTCATCATCATCTCTTAAATAAAGAAATAGGGTTACAAAAGGTGATTGTCCATTAGTTGTCATTAATGTATTGATTTGATATTGTATCGTTTGTACTCCACTTTTTAATTCATCTCTAATTCTATCTTCTACTAATGAACTTAAAGTTTTTTCATCTAAATTTTTATACTTTTCTCTATACTTATTCATATACTTATCTCTACTTACACGCAAATATTTACCCAAATGTCTAATATCTATACTTTGACCACCATATTGTCCACTTGCAACTGCTGCAATTATTTGAGTTAAAACTGTACATGCAACCTGAAAACTTTTAGGAGATTCTACAAGTTTTGCATTCATAACTGTTCCATTTTCTAACATATCTTTAATATTTACTAGACAGCAATTAAAAATATTTTGAATAAAATAATCAGCATCATGGAAATGTAAAATACCCTCATCATGAGCTTTACTAATATGTTCTGGTAATATTATTCTTCTTGTTAAATCTTTACTTACCTCTCCTGCAATTAAATCTCTTTGAGTAGATGCAACAACTGAATTTTTATTTGAGTTCTCTTCTTGAACATCTTTATTAGAATTTTGTATTAATGCTAATATAGATTCATCTGTTGTATTAGCTTTTCTAACAAGAGATCTTGTATATCTATAAACAATATAGTTCTTAGCTAATTTATATAATCCCTCAGATACTAAAGATTTTTCTATAAAATCTTGAATTTCTTCAACAGTAGATATTTTTTCATTCTCTATATGTTGTATTATCTCTTCTATTTTTTTATTACATATTCTCTCTTTTAACTCCACAGTTTCATTCGCTTTATTTATGGCATCTCTAATTTTATTTGAATCATATTTTTCTTCTCTACCATCTCTCTTTAGTATATTCATAGGCTTTCCTTTCAACTTCTGTCTAAAACACAATATATAGTATAAGTTATTTATATTTAAACTCTATATATAGTATTTAAGTTAAGTATAGCACAATAATTATAAAAAGAAAAGAGTAAATAAAAAAAGGTGATTAAGAATTTCAAAAAAAATTCTTGAATCACCTCTTCTTTTTCTGTATAATTTAATCGCCAAACCAAATAACAGAAAGGAGTCAATATAATGTATAATTCTAATAAAATTAAATCTATCTTCTCCAAATATATTTTAACAAATTCTATTAATTCTATCAAGCCATATTTTGATAAAAAACATATTGAACATATCAACCATTCCATTCATAATTTTCTTAACTGTGGTAATCTCTCTAAAGGCTTTATCTCTTATCGTTGTTCCTCTTGTAATTTTCAACATAAAATGAAACTTACTTGTAAATCTAGACTTTGTCCATCTTGTGGTTATAACTATTCTGTTAATTGGACTAATTCTATCTTAAAACAATTTATTAACATCCCTCATAGGCATGTCCTTTTTACTGTCCCTAAAGAATTTAGAAAATTTATTGCTTATGATAGATCTATTCTTTCTAAAATGTCTAAAGCTATTAATGATATTTTTAAATATCAATTCCATAATATCAAAGATAAAGTTAAAAGAAAAATATATATCCCTAAATCTAATCCTAATTACTTTACTAATTCTGATATTATTAACTACGGACTTATTACTGTTATTCATACTTTTGGTAGAAACCTTAAGTTTAATCCTCATATTCATGCCATCATCTCTCTTGGAGGTTTTAATAAAAAATTTCAATATAAAGAACTTAAATACTTTCATGTCCCCTCTATTGCTAATCAATGGAAGTTTTCTCTTTGTAAATTAATTAGTAATGCTAATTATCCTAATGATATTATTAAAATACAAGCTAAAAAAGCTGTATCTAATGTTTATGATAATGATGTTAGGTTATTTTTTAATGTAGCTGGTAATGATATTAATAATCCTAAATACATTATTAAATATCTTGGTAGATATTTATCAAGAGTTCCTATTGCTGAATATAAGATTGTTAATATTGATTTTAATAAAAATTCTCTTACATTTAAATTTGAAGATTTAAGTAATAATAAAGAAGTTACTTATTCTACTTTATCTTTTAAAGATTTTGTTGCTAAAGTGCTTTTTCATCTACCTTTAAAGTATTTTAAAATGATTAATAGATATGGTTTCTATGCTAGAAGAATTTCTTCTAAAGTTAAAATGTCTCTATTTTATCTTAAAGCTCAGGTTAATAAAAAGTCTCTTTCTTTATTTAGGAAAAACTTTAAAGAACTTTGGGACTTTGACCCTTTTATGTGTCCTCATTGTAATATTTATCTTAAACGTTATGAACTATTTATTGATAATGGTCTTTCTCCTCCTATTCATAAGTTCTATAATTAATATATTATGCCTATTTTTATGATAGGTAGTTTTGTTGTTCTCTTATTTTTTATTCTATTAATTTTTCTTTTCTTTATCAATATTTTTTTACTATTTTCTTTTATTTTTTTATCTTGGATATTTTTTTAATTTCCTATAGAATAAAAAATGTCCTTTTTCAAGGACAAAATATTAATATCTATCGCTTACAATATCCCAGTTTACTACATTAAACCATTCTTTTAGATAATCAGCTCTTCTATTTTGATAATTTAAATAATATGCATGTTCCCAAACATCATTACATAAAATTATTTTTTTACCATCAGATAATGGGCAATCTTGATTGCTTGTAGAATATACTTCTAAATTACCATCTTTATCACTAACTAACCATACCCAACCTGAACCAAATTGAGTTAATCCCTTAGAATTAAATAAATTTTTAAATTCTTCAAAAGAACCAAAAGTTTTATCTATCGCTTCTTTTAATCTCCCCACTGGTTCTTTTGAGCCTCCTGGTATCATTGTTTCCCAGAATATATCATGATTATATGTTCCACCAGCATTATTTTTAATTCCATTTCTCTTTTCTTCAGGCATTTTATCTAGTGATGTTAATATTTCTTCTACAGTTGCATTTTCAAACTCTGTGCCTTTTATAAGGTTATTTAAATTTGTAACATATGTATTGTGATGTTTATCATGATGCAAATGCATAGTTTCTTTATCTATTACTGGCTCTAAAGCATCATAAGCATAAGGTAAATCCTTAAGTTTAATACTCATTTTAATTCCTCCTGTCTAATATATTAGTTTCAATTAAAGTATACCATATAGATTAAGTCTATACAATTTTTTTGTAATATATTCTCTATATATCTATAAAGAGTTCAAAATTATAATACATACAGTCAGGTTTATTTCGTAATATGAAATAGGATGCAATGCATCCTATTTTAAATTCTCTAATATTTGTTTTTCTATTTCTGCTGCACCTTCAACTTTTTTAGAAACTGCTTCTCTAACATTTTTTAAAGCTTCTTCTTTTTTATTTAAGTTAGCATATATTACTGCAAGAACTAAATGTCCTTCAGGATTTTTATCTTCTGTTAAAGTTTTTTTAGCATATTTTTCTGCTAATTCATACATTTTATCTGAAAGGAATAATTTAGATAAAGTGTCATTTAAATACATATTTTGTTTTTCATCTAATGTAGCTCTAAATTCTTTAGTAGTGCTTTCTACTAATTCTTTTTTATTTAATACTTCTGCTAAAGAAATTAATTCAAAGTATACACTTTTATCTTTAGTTAGATTTTTTAATATTATTAATTTCTTTAAAGCTTTATCATTTTCCTTGTTTTCTATAGCTAATAGGTAAGCAAAGTTTTCTATATCAGCATCTAATTCTTTTGATAACTTACTTGCCATATCTGAATATTTTATTGAACTCTTAATATCTTTTTGTTCAAATTTACTTATAGCTGTATAGTAATTTGCTAATGCTTTTAATTCATTATTTTTGCTTGTAAAGTATGGTTTAATAATTTTATCAGCATTAGAAAATTGTTTTTGTGCTAATAAATCTTTAATTAAATTTATATCAAAAGATGTTTTAAGTTTATCATCTTTAGCTATTTTCTTTACATATTCTTTATATAGTCTGTCAAATTTAACATTATCTTTTTTTACAGATAATTCTTTTAACATTTCAACTTGTAAAGATAAATCTTTTGGATCTGAAGATATTAATTCAGATAATATTTTCATTTTTTTATCATAATTTTCTTCAATAGAGTAAAGTAAAGTTTTAGCTATTTTTATACCATCTGCACTAACTAATTTATCAGCTAAAATTTCATTTATATATTTTCTAGCCTCATCATTCTTTTTTTGCATAATCTTTATTTTTGCTAAATCAAATTTAGAACTTATTGTATAGTGATCTGTTTTCGCTTTTACAATTTCTAATAAATCTTTTTCTAATTGTTCAACATTTTTAGTTGTTTCATAGTTTTTATAAGCCTTTTCAAAATCTTCTTTAGTTCCTGCAAAATTTATTGTAGCAATAAGTAAAGTTGCAAGTATTAATAATTTCTTTTTCATATCATTCTCCTCTAATTTTTTTTGATATCCTAATTATACAACATTAATATACCTATGTAAATATTTCTAATGCTTATCTAAGTTGTAAATAATATTAATTTAAAAAATACATATTACAATTAATGTCGTAAAATAAACATTATTATTAAAAGAATCCAAAAAATTGGATTAAAAATAAAGGTCATCACTAATGCTAATATCATTCCTAAAAACCCTAGTATGGCAGCAAGTATTCCTATTAGTAATAATAAAGCAATTATTATTAAACACATAATATCACCTCTATATTAATTATACTATATTAATCATTAGTATACAATACATCAAATGTATTATATTTGAATATTTTCTACTTTAATGATATAATCATGTATATTTTATTTTAGGAGTTTAATATGGTTAATTTAAGTTGTAATGCTGTTATACCTGATGGTCCACTTAAGGCTGTTGAAGAAATTGAAGAAAGTATTAGAACAACATTTAGAAAAGATATATATATCAAGTTTTTAGGATCAATACTTGAATACGGATTAGTAGAAGATGGTGATAAAATAGCTATAGCCGTTTCTGGTGGTAAAGATTCTTTATTATTAGTAAAGCTATTTCAAGAATTAAAAAAGGATAAAAGATTTAATTTTGAATTTAAAGCTCTAAGTCTAAATCCAGGATTTAGAGAAGAAGATTTAAAACATTTTAAATTTAATCTAAAAGAATTAAATATAGATTGCGATATAATTGACACAAATATATGGAAGGTTGCCAATGAAATGGCTAATGAATATCCTTGCTTTTTATGTGCAAAAATGAGAAGAGGGATACTTTATAAAAATATAGAAAAAATGGGGTATAATAAGTTAGCACTAGGTCATCATTTTGATGATGTTATTGAAACTACATTAATAAATCTTTTTTATGGAGGTACACTAAAAACTATGTTACCTAAGATGCCATCAACATCAGGTAATTTAACTTTAATAAGACCTATGGTAAATGTGCATGAAGAAGATATTATTAAATTTACTAAGAAAAATGGTATAAGAGCAATGAACTGTGGTTGTGTTATTGAAGCTGGAAAAACATCCAGTAAAAGAAAAGAAATTAAAGATATGCTAGAAACATTAGAAGCTAATAACCCAGGTTTAAAACAAAAAGTATTCAAATCTATGGAAAATATTCATTTAGACTATGTTTATGGTTATAAGACAAAAAAAGAAAAATTTCATATAAAGGATAATAAAAAAAAGTGAACTGACACAGTCAGTTCATTTTCTTTTTACCATTCAAATCCTGTCTTAATTTCAACTTTAAAGCCTATATAATCCTTATCTTCAAAATGTACTGGAACAGCTGCATTTAAGCTAAATTTTAAACTTTTAATTAAATTATATCCAATTTTAATTTCTGGGCTTATAGTATTTTTAAATAAGATATTTCTACTTCCAAATAATTCAACATCATCTAGTACTATCTTACTTGCAGCTTCATAATCTGTAACTAGTTTATGTTTCATACCAAAAGAAAGTACTAAGTTACTTATAGGATTTAAACTATATCCTAAATACGTAGATAAATTTACATTAATTTTTTTAGTATGTAAAAACTTACTTTCTTTTATATTAACTTCCTCTTTTATTATACCAGGATAATCTAGTCTTTCCTTTAATAAATAATCTGTCATTTCCCTATGGTTTATAACCATCCATGGCTTATATGAATCATATATTACATCATTATGTGCATTCTTTTTCTTAACAAAATCTTTTAAAGACTGCAATACATTTCCATCTTTTATTTCAACTTGATTATCAGGATTATTTTTAATTTCATCTGTAAAGTTAGGATGATGTGAGCTTGTTGTAAGACTAACTATTTTTGAAGTATTTTCGATTCTTTTATCATCTCTACTCATTTCAACTAACTTATTTTCAGCATATTTTAAATCTAAATGTAAGCCAAAATTAATACCGTTATCCTGAATATATTCAGTATCAATTTCAAGATTATATTTTTTACTGTCTAAATCAATAATCTTTTGATTCATTTTAATTATCTTTTCTGTTTTAACCTCTTTAAAATAATTGTATTCTTTAGTCATGAATAATCTCCAGAACCAATTATCACTACTTTTTTGATAATTCCAAGCAAAATAATCACTAGTAGGCTTTTCTATAGTTTTTTCTTCTTTTGTTTTATCCTTTTCTATATGTGCAGAGGCTTTAAGACTATCTGCTTTAACACTTATTCTAAATTTACCTTCCTCTTTTTTAATTTCTATAAAAGGTGTAAGTGTATAATCTATTTTTTCGTTAAATGATATTCTTGTTAATGCATATCTAGCATTATTAAATTCATCTCCACCTGAACCCCTATTTTTTATTATATCTAATATATCTGGCTTTAATTCCTTTTCTAATATATCTCTTGTAGATTTAATTACTTTTTTAAATCCTACTAAGCTTGAAAATTCAGTTCCTTTTGAATACTCAAGTCCAAATTTTACAAAATTTTCTGTTTTTTCTTTAGAGATTATAAATCTAGGTTTTATAGGAAAATTAACTATTAAAGGATTTAGTGATAAACTAAAGTCTACTCCTTTATCATTACCTTTTATATCTCCTCTTAAAAAACTTATATCTGCCATAGCCTTATATGATAAATATTTTTCAACACTTTTTCCTAATAATAATCCTGTTTCAAACTTTCCCATACTTCTAAATTTAATAAGATTTCCTTTAGTAAATATCTGTTCTTTAAAACTATCATCTATTAAATATTTAATTTCTCCTGTATATATACTCTTAATACCAGCTGGCATAAACTTTTTAAAACTGATAGGTAGTTCTAAATGATTAGTAAAGACTACATTTTCATATGGTCTATATACCATAGTAATTCTTGGAGAAAATATGTTATAGGAATCATAGATTGATTTAACAGCATTACTTTCTATAGTTTCAATATAGTCTGATTGATGTATATTCCTTTTTAGTTTGTTCTTCCCCTCATTTTTTAATCTCTCATATTCTTTATCAACTAAAACCTTTTCAGTTGTTTCAGATGTTATTATAGAACTCCCATCTTTTCCTATAGGGTTGTTATCCTTATCTCTTTTAGCTATATTGGTCCACTTAACTTCTTTTCCATCCTTATCTATAATAGATTTTGGATCTATCCAACCAAAATTTCCAATATGTCTAATTCCTAATAATAAATTAAATCTTTTAGTAGTTGGTATATTTAATCCTAGGTAAGTGTCTGTTTTTAAACTGATTGTATCGTATATGTATTTTTCTTGACTTTCTTTTTTAAGTAAATCATTTTTAGCTAAAGTTAATTCAGATTTATTACTAAATTCTAATAATCCCCTATACATCATTTCAACTGAAAAATGATTTGCTTTTTTAACATATTCATATTTATCAGAAGAAACTTCTATCTTATCATTTAATAATAAGGTAGTCCCTATTTTATAGTTTTGCCCTAAATGCCCTGCATCAATTTTTATCTTAATTGAATGTTTAGATTTATTATTCTTTAAATCTATATCTTTAAAAGATTCTTTTAAATAATCCCCATATTTATCTACATTACTTTGTTTTTCACTTTTATGAGAATAAAATCCTCTTAGCATATCAAGTCCTTTAATTTCATAAGGATTTCTAATTGCTTCTTGAAAATCTGGTAGAAGGTTTATAATATCATTTATTTTACCTTGTCTTTGAAAAAGATATGCAAAACTATCTTTAACTATATTCCAAGCACCAGATGGAAATTCACTAAATTTGTTTAATTTATATCCATTTGCTACACCATCTATAACATATCTTTGAAAATCAGAATCAAAATAATGTGTTCTTTCTTCACGGATATATTTTTCTGATACATCACCTTCTGAACTAGAGCTTTTAACACTACTTCTATTATACATAAATTCATAAGGTACTATAGTGTTTCTAATCCCATTATTATATAAATAATCTGGACTTAATTTATCAGGGTTTATATCTCTAAAATCAAAATATGGATAATAGCCTGGTAAAAGATTAACAAATTCACTTGGAACTTGTGTCCAAAGACCTACACTAGAATATTCTCTATCAGCTTCTATTCCTATTTTTTTATAAAGATCTTTACCTAATTTGTTAATTATCTTATTCATTTCTTCTTTATTTTTAATCTCTTCAGTTATATTAGGTAATCTTAGTGAATCCCATCTAAGAAAATCTAAAACTGTAATATATCCATCTTTTTCAAATTTTTTTATTAAACTAGACAGTCCTCCAAATTTACCATTATCATATATTTCATTAAATAGATTTTTGGCAATATATCTAATTGGAGAATCTCCATAAAGAGAGCCAGAATAATATCCAAGTATCCTAGATGTTCCCTTAGTTCCTGAAACTTCTGCTTTTTCTAAATCTGCTCTTTCTTCCTCATATTCTTTTATATCAAGCATCTGTGGATTACTTTTATACTTATCTTTTAAAGTCCATCTTTTAAAATATTCAATTTTATCATAACCTGGTGCTATATGTTTAATCTTATCTAATTCATCTGTTAAATCATAAGCTGATTTTATATTATTAAATAAAATAGACGTGTTAATATATGTTCCACCATTTCTGTATCTTAAAGTTGGTCCTATAGTTATTTCTTTATTTTGACCTGAAAAATCTAATGATAAAGAAACTTTTGAATCAGGAATAGGATTAACACTAAAAGTATAGTCAACTACCTTATTTTTTAATTCTTTTTCATTATCTATCTTATCTATATCTTTTTTCTTAGTACTTTCACTTTTAACATAGTAATTAATTTCTCCATTAATATATTTATTGTCAGATATTACTGAAATTTTTAATTTATCTATCTCATTATCATCTAAAAATTTAGAATGTGTAATCTTTTTTCCAAATATATCAACCTTTATTCCTAATCCTGAATAATTTTCTTTAAGTCTTACACTTAATTTTTTTCTAAGTTCTATATTTTTAGATAAGTATTTTGCAGTAAGTTCTAAATCTCTAGTTGTTCCACTATATTTAGGTTTATATGTATGATAATATGAAGGTTCATATCTTAACCTTTGAGGTTGAGCACTCAAATTTTGTGCACTTTCATATACATATGAACTAGGCATCAAAGCAGCATTTCTATATTTCACATTTTCATTAACATATGCTTTTTTATAATCTGCATATCTCATAGGTCTTATTGTGTCTACTAGTGGAGGAATAAATCCAATAACACTTTCTAATCCATCCACTCCAAAAGATGAATCAATACCAAAAGTTACTTCTCCTTCTATTTTACTTTCCATGGGATATAAAAAAGAATGTGCTAGTAATAAAAGCCACATCTTTTTTTGTTTCATAATTAACTTTATAATAAACCTCCTTATATAAACTACTAATTTAACATGATTATTATATATTAAAACAATTAATTTTACAATATTTTTTAACTACCAATTATATTCAAATCCAGCTTTAATATTAAACTTAACTCCTTTAAATTCTATATTTTCAAAATTTATTGGTAAATCAAGACCTAAGTTTGTATTTAAATTATGAATTAAGTTATATTTCATTTTAACTTCTGGAGTTATAGTATTTTTAAACAAGATAGTTCTACTTCCAAACAACAATTCATCATCTAAGATTACCTTATTAAGTGTTTCATAATTTATACCCAAATTATATTTCATTCCAAAGGCAACTTTAATCTTATCTGTTGGCTTAATATTATATCCTAAATACATATCTAAATTTGATATTATCTTCTTAGTACGTAAAAAAACTGTTTCTTTTATTGATTTTTCTTCTTTAATTCTTGATGGTATATCAAGTATATTCTTTAATTTTTCCTCATCAATTTTTTGTTTAAGCAAAAATGTTGTTTCAGAATTATATATATCATTATATTCTGATTTTTCGCTGTTAGCATGTTCTTTAAGAGAATTAAGAATATTATCTTTATTAATATTTACTTCTTTATGCTCTTTTTTATCCATATATTCTTTAATTTTATTCTCATCTAATATTTGTTTTTTAGTTTTTATACTAATAACTCTTGATTTTGTTTCTGTTTTTTTAATTTTTTCAGTTATTTCAGATAATTTTGTTTCATTATACATAACACTTAGATCTAAATTAAAATTAATCCCCTTATCTTGAGTGTATTCTGTGTCAATTTCAAAATTATATACTTCATTATCTAAATTTTTATTTCTCTTATCTATATCTGTTATTTTATCTGATTTAATATCTATAAAATAGTTATACTCAGTATTAATACTAAAAAAAATCAAATATGACTTGTATTTATGATAATTCCAAGCAAAATATGTAGTTGGTTTTCTTTCTTTAAATTCTCCTATATTAATAATCTCACTATATGAATGCCCTGAGGTTTTAATACTATCTGCCTTAACAGCTATTTTAAATTTACCTTCATCTTTTTTAATAGATATAAAAGGGGTTAATTCATGAGTTATCTTACCATTAAACTCTAATGCTTCTATTTTATCCTTAACCTTTTCATATTCTTTTTCTTTTCTAGTCTTTAATATTCTTATGACATCTGGTTTTAGTTCATCTTTAAAGATATCTTTATTTGATTTAATTACTTTTTTAAATCCTAATATACTTGAAAAGTTACTATCTTCTGAGTATTCAAGTCCAAATTTTACACCTGTTTCTTTTCCTTCTTTAGCAAGTAATATTCTTGGTTTAACAGGGAAATCTATTATTAATGGATTAAATGATACACTAATATCAAAATTTTTATTATTCCCTTTTATATCTCCTCTTAAAAATCCTATATCTACCATAGCCTTATATGAAAGATATCTTTCAATTTTACTTCCTAATAATAAACCAGCTTCAATATTACCTGTAGTTTTAAATTTAATAGGGAGCTGTTTTCTTAACACTATATCTGCAAAACTATCATCTATTAAATATTTTATCTCTCCTGTATATACTCCTCTTATACCTGCTGGTGAACTATTTCTTATACTTATAGGGACTTCTAAATGACTTGAAACTATTAAATTTCTATATGCCCTATATCTCATAGTAACCCTAGGTGAAACTATATTATACATCTCATATTTTGAACTAATAGCATCACTTTCTATAGTTTCTATAAAATCTGATTGATGTATATCTCTTTTTAACTTGTTAAAGAGCTTTTTATTAGGTTGTGTATTTTTCTCATCATATTCTTTTTTTAATCTTTCATACTCTTTATCAACTAATTCTTTTTCTGTACTTTGAGATGTTGTTATAGCTTCTCCATCTTTACCTATAGGATTGTTATTATCATATCTTTTAGCAATCTTATGCTTAATTTCATTACCATTTTCATCTGTACTTCCTTTAGGATTAATAAAGCCGTAATTTCCAATATGCCTTATACCTAATCCTAAATTAAATCTATCATTTACAGGTATATCTAGTCCTAAATATGTATCTGTATTTAAACTAGTTGTGTCATATACATATTTAACCTTATTATCTTTTCTAAATAAATAGTTTTTATCTAAACTTAGCTCTATTTTATTATATAGCTCTAATAAAGACTTTTTATAGATAGCTTCAAAACCGATTTTTTTACTTCTTTTAACATAACCATATTTATCTGCATCTACATGTATATTATCATTTAATAATATGTCAGTTCCTAATTTATAGTTTTTACCAACATGCCCTATATTTATCCTTATTTTATTTGAAAATCTTGCATTATTATTCTTTAAATCAATTCCCTGAAATGATTTTTTTATTATCTCCTCATACTTTACTATATTTCTCTCTTTTTCACTTTGATGTAAATAAAGTCCTCTTAACATGTCAAGACCTTTTACTTCATAAGGATTTTTAACTACTTCCTGTATTTTAGGTAAGATTTCTAATACTTGATTAATTTTTGTATCGTTTGAAAATATTCCTAAAAATCCATCAAATATTAATCCTGTAGTACTTGTATTAATAAGATTTTTGAATTTTTCTATTTCATATTCTCTAAATATCTCATCTTTCAAATATTTATCAACATCTGAACTAAAATAATGCAATCTTTCTTTTAATTCATACTTTTCATTTTTAGTATTTACTATACTTGCAGGCATCATAGCATTTTTAATTATTGGCTTTTTAACCCCATTATTATACAAGTAATCTGCATCTAATTTATCACTCTTTATATTAGAATAATCAAAATTTTCATAATATCCAGCTAAAAGATATTCAAAATCTTTTGGAATTTGTTTCCAAAGACCTACACTTGAATATTTTCTATCAAGTCCTATACCTAACCTTCTATATATTTTTGTTGCAATTTTTGAAGCTGCTTCATTAATATTCTTTTCATTACTTAATTCACTACTTAATGTAAGTGTTGAAAGCGAAATAAATGAAGACTTGGTAACTTTTTCTTCTTTTTCAAAAGTTTTTAATATGGATGATAAACTACTAAACTTAGAATTAGAATGTATTTCATCAAATAATGTTTTAGTAAAATATCTAAATGGAGAATCTCCATAAAGTGAACCAGAATAATTACCAAGTATTCTAGCTGTTCCTTTAGTTCCTGAAACCTCAGCTTTCATTAAGTCTGCATGCTTTTCATCATATTTATTTTTATCAATTTCTTTTTCAAGAGTTTCATTTTTTAAGGTCCATTTTTTGAAATATTCAATTTTATCATAACCTGGTGCACTATGTTTTATCTTATCTATTTCATCTGTTAAATCATATGATGATATAATATTGTTAAATAAGATAGATATATTGGCATAAGTTCCACCATTTCTATATCTAATAGTAGGTCCTATATTTAAATTTCTATTCATTCCTGAAAAGTCAAGAGAAATAGACCATTTATCATCAGGTCTAGGATTAACAGTAAAAGAATAATCAACAACTCTATTTTTTAGTTTCTTTTCTTCATCTATTTTATCTATATCTATTTTCTCTAAGCTTTCTCCTTTGATATAGTAATTAATTTCTCCATTAACATACTTATTATCTGAAGTTAATGATACTTTTAATTTATCTATATCATTATTACTTAAAAACTGAATATGAGGGATTTTCTTCCCAACTATATCAATTTTTAATCCTAATCCTATATATTCTTCTTTTAACTTAACACCCAATCTTTTTCTAAATTCTGCATTTTTAGATAAATACTTTACTGCCAGTTCTAAATCCCTCATTGTCTTATTATACTTTGGAATGTACACATCAGTAGCACTATCATCAAGTTCTAAATTTTCAATATTTTCATCTTTTTCATAATCACTATATTTTATCGGTTTATATAAGTCTATCATTGGAGGAAACAATCTAACGATACTCTCTAATCCATCTGCTCCAAATGCAGCATCGACACCAAAAGTTATTTCTCCATTTACCTTACTTTTAATTTCTTTTGAATAAGAAAGTGAAGATAATAATAGTAGAAAAAACATTCGTTTCATAATATTCTTATTATAAAATATCATAATCCTCCCTTTTATTTTAATCATATATGTTATTATATATTAAAAATATCAATTTTACAATTATATAAATTTTCGCTAAAACGAAGTCTTTGTTTTCATTGTTATTATTAGAAGCACCATTTGGTTTATTCTCCAAGTTAAACTCTGCTCCTATCCATGGACTTACTTTTAATCTTCCTTCTACATAACTAAATTCTGTTGATATTTTTGGCTTCACTGTTAATGAATGTATTGCTTTTTCTAATTCTTCTTTTGTTGATAGTTTTCCTTTTGTTAAGTCTTTTATTTCTCCTTTTTTCTTTCTTAAACTATCTTGTTTACTTACATCATATTTCTCTGCATATTTATGTATACTTTCCTTATAGCCTGTTGAATCTTTTATATAATCTACATATACTCCATATACTTCTTTATTTAAGCCATTTAAATTATACTCATTATCTAATGATAAGATTACTTCTACATTCTCTCTTGCCTTATATCTACTCTTTCCTCCAAAGTCTATGCTTAGGGCTTGTTTTATTCCTTTATCACTTGGTTTAAAGTTTGCATCTAATCCATATTTAGCATCAATATTTATTTCATTTGTGTATCTTCCATTTACATTCTTATACCCTAACACTATATTTGCTAAGAATACATCGTATAAGTCTTTACCATTAGTAGCTACTTTATGGTCTTTGTCTGTATGGAAATGTACTTGGTTGTATAAGTTTACTTTTCCTTCTATCTTGTTATTATCATTTATTTCATAGCTTACCTTATTTTCTGTCCATACAAATCCTTGATGTCTTAGATCTTCTGGTTTTTGGTTTTCTTTATGTTTTGTGTCAAATAAGTATCTTAAATCTATTGTTGATTCTATATTTACTTCTTCTATCTCTTTTTTTAATGATAGTCCTGCTCCTGTTAATAGGGCATGGTTGTATTCTTTATTTCCATTAGTAGCTTTTAGATTAGCTCCTAGCTTGTATTCTGCTAATGTGTGTAAGTCTAATCCCTTTGTTACATTTAGCTTTATCTTATTTGATGTCTTAAAGTCATTATTAAGTTTACTTACTTCTTCATTAACTTTATGCTCTATTGTAACCTTATTTGAATTATCTGATATTAGAGATAGTTTTGTTGTTGGTTTTATTGTTGCTCCTAGCTTTACTTCTGGTTCATGAGTTAATGTTGTATTACCATTATCTTCTTTAATCTTTAATTTGTAATTAAGATCTCCTCTTAGATCAACTGTTTTTCCTTTATATTCTCCATTATTTAATAACTCTACTTTTGTTTCTCTTTTAGTTCCCTTTAATATGCTCTTTAACTCAAAATTAAAAAGCAACACCTAATTTCAGAATGGAAAAAATTCTGTTAAAATGGTATAATTTAATATATGAATAATTAATAAATAAAGGTGGTGAAATAACGCTTATGAACATAGATGAAATAAAGATGTTAATTCAAAATGAAGAAAAAATAGATGTTGAATTTAAAGAATCTAAAAATGCTCTAAACAAAGATATTTTTGATACGGTATGTGCTTTCAACAATAGAAATGGAGGACATATTTTACTTGGAATAAATGATAAAAAGGAAATTGTTGGAGTTAATAAAGATAAGGTAGATAAATTGATTAAAAAATTTACTACTGCAATAAATAATCCACAAAAAATGTATCCTCCACTTTATTTAATTCCAGAAGTCTTTGATCTTGAAGAAAAAAAGTAATTTATATCAGAGTACCTGAAGGTTATCAGGTATGCAGACATAATGGAAAAATTTGGGATAGATCTTATGAAGGAGATATAAATATTACAGATCATTCAGAACTGGTATATAAGATATATGCAAGAAAACAGGGAACTTATTTTGTAAATAAAGTATATCCAAATCTTGATATTGATTTTCTTGATTCTTCTCTTATTAAAAAAGCGAAGAATATAGCTACTGCTAGAAATAAGAATCATGCTTAGAAAAATATGAGTGATGAAGAACTTCTTAGAAGTGCTAACTTGATTTTGACAGATCCAGAAACAAAACGTGAAGGAATTACATTAGCTGCCATTTTACTATTTGGAAAAGATAATTCTATTATGTCTGTCCTTCCACAACATAAAACTGATGCAATATTTAGAGTTGAAAATAAGGATAGATATGATGATAGAGATGTGGTCATAACAAATCTGATTGACAGCTATGATAGATTAATAAAATTTGGACAAAAACATTTAAACGATTTATTTGTTTTAGATGGAATCATCAATGTCAATGCAAGAGATAGAATACTTAGAGAAATTGTATCAAACACATTAGCTCACAGGGATTATTCAAGTGGTTTCCCTGCAAAAATGATTATTGATGATGAAAAAATTACAATTGAAAATAGTAACTTAGCTCATGGAATGGGAGCTTTAGATTTACAAAAATTTGAACATTTCCCTAAAAATCCATCTATATCTAAAGTTTTCAGAGAGATAGGTCTTGCAGATGAGCTTGGGTCAGGAATGAGAAATACTTACAAGTATACTCAGCTTTATTCTGGACAAAATCCAATATTTTAGGAAGGGGATATTTTTAGAACTATTATTCCTCTAAAAAAGATCGCAACTCAGAAGGTTGGTGGAGTGAATGTCGCTCAGGATGTCGTTCAGGATAATATAAATCTTGTAGATTTCATAAAAGAACAAATAAGAAAAAATCATAAAATCACAAGAAAAGCTATTGCAAATAAAGCTGGAGTTAGTATAAAAACTATAGAAAGAACTATTAAAACAATAGATAATCTAAAGTATGTAGGTCATGGTAACAACAGACATTGGAAACTTAACGAATAAAACAAGTTATGCCATATATATTAAAGTAAATATTTTGAAATAAAAATTCTTAATACAAAAAAGCCTGCTCGAAAAAGCAGGTTTTTCTTACTTTAAATAACCAAAACCATTATTTTTATTTAAAAATAAGCTATTTTCTATTTTTTAATAATTTCTTTTTTACTACCTCATTATTTATTACCTAGAGAATGTCCCTCGAAATGTCGCTCACGATTAAATTATTTTTTAGCGTTATTAAATTAAAAAAAACAGGAGAGTTTCCACTTTTAGAAATCCTCCTGTATTTTTATCCTTTTTCTTAATAACTCCTTGTTTTTGCTATCTTAATTCAATCTCTACCCTTCTATTAGAAGACCTTCCACTTGAACTCTTATTTGTTTCTACTATGTTATTATATCCTGATGAACTTACCTTCCTTATTGATATACTCATATCTAAGCCTAACTCTCTTAGTTTCTTTGCTACTACATTTGCTCTCTTTAAACCTAACTCAAGATTTAAATTCTCTCCTGATACATTATCTGTATACCCTGTTATATATATCTTCCTATTCTTATAGTTCTCATTTAACTCTCTTACTATATTCTTTAACATCTCTTCTTGGCTCTTTGTTAGCTCATGTATACCTAATCTATATCCATCTAGTGTGTATAAGTCATCTTCATTCATCTTAATATCTTCAAATTCTTTTAATTTCTTCTCAAGTTCATCTATTCTCTTATTTAATTTATTATTTAATTCATTTAGTTTTACTATTGAATTATTAACTTCATCATTATTTACTATTACTTCTTTTTCTATTATAACTTCTTTATCTTTCTTTATATTAACACTACTTCCAAACTGATATCCTATACCTGCTCCTAATGATACATGTCCTTTAGTATTAAGTGCTCCACTTACCTTATATACTACATTTCCTACTTCATTTAAACCTGATAGTCCCAGTGCAAAGGCATGTTCTCCGTTATAGTAACCATATGAACCTGCTATGTTGTGTCTTCTATCATCTAATGTACTTATTTGTGGTAAGTTTGCCATTGCTACAGCATTAGCTACCCCACTATTTGCTGCTACTCCTTTTGCTATATCACTTTTTACTTTATCTGTTAGATCTACACTAACTTCATTTCCTTTTGCTTCTGTCTTAATATAATCTGTTCCTTTAATTGAAAACTTAAGTCCTCCATTTTTGTTTAGACTTTGTGTATCTGTATTTCCTTTATCTGCTCCAAATGATAATGTATTATTTCCTAAAGTATTTATTGCTTTAGCTACATCTCCTGTTTTAGCTATTTTTTCATTATCAGATGATTTAGCTTCTATTTTATCATTACTTACCTCTGTAGTAATTGTACCTACATTAGCTTTTAATTTTCCATCTTTATCTTTTAGTATAGTCTTATTATCAGTCTTTACATCTAATGTATATGTATATTTATTCTTATCACCATCATAACTTGATTTTACATTTATTGCTGAATCATTTTCTGCCTTAACTTCCGTTCTACTATCTTTTAATTGTTTTAGATTAACTCCATCAGTATCTGCTTTTCCAGCTCCAACATTACTTATCTTATTTCCACCATTATTTAAACCATCTTTAGTTAAAGATACTACTTTATCACCTTTATCAGAATTTATTTTTAATCCATCTCCTGTAATATTAGTAGTATTCCCACTATTATCTTTAAATTCTGAACTAGTTAAATCTTTAAGTTCTTTATTTAATGAATAAGTAAAATCTTTACCTTTTTGTTTAATAGATAAGTTATCTCCTGCATTAAGTTTTACTGTATCATCTTTTTTAACTTTTTCTGTTGTTATTCCTTCAGCATTACCTGTTCCAGTTTTTCCAGAAGTTATATTAAATCCTGATTCTTTTATTGTATCATTTACTTTTTTATCAAGTTCTTTTAATTGATCTTCTGTTGCTACCTGACCACTAGTAATATTATTTGAATCCCACTTCTTATTAGTTAAACCATTAATTGTTCCTTTACCATCTTTGTTTGTTATAACATTTCCTGCTTTAACTTCTCCTGTCTTACCATTTAATTCTACTTGTTTATCTCCAGAACCTAATGTTACCTTATCGTTTAATTTAACATCATATTCTTTACTTCCATTAGCTCCATCTTTTTGTGTTACTACAATATTATTATCACTAGATTTTACAGTTGTTTTTGAAGCTTTTGATTCTTTATCTAATTTATCTTCTAACTCCTTTTTAACCTTATCTAATTGTGATTTATTTACAGCATCTGTATCTTTTTCTCCTGCTGCTACATTAGTTATCTTATTTCCACCATTGTTTAATCCATCTTTAGTTACTGATACTGATTTACCACTATTTTTATCAGAATTTATACTCATACCACTTCCTGTGATATTAGTTTTATTTCCATCTTTATCTTTAAATTCTGAACTAGTTAAATCTTTAAGTTCCTTATTTAATGAATAAGTAAAATCTTTTCCACTCTGACTAATAGATAAATTATCTCCTGCACTTAATTTTAATGTATCTCCTTTTGACATCTTTTCTTTACTAGATGTTCCTAAGTTATTTCCTGTTCCACTTTTACCTGATATTACATAAAAATCATAACTATTTGTTGCCTGTCCTTTATTTAGACTATCACTTAATGCTTTTAATTGATCCTCTGTTGCTGCTCTTCCACTTGTAATATTAGTTGGATCCCAAGTCTTATTAGTTAATCCAGTTATTGTTCCAGAATTTCCATCTAAAATTAAATTTTTACTCCCTAAAGTTATCTTATCATTTAACTTAACATTGTATTTTCTATGTCCATCTTTATCATCTTTTGATGTTAATACAATATTTCCAGATGTTTTATTTGCTTGTTCTTCATTATTAGCAATAACTTCTGTTTTTGAAGCTTTTATTGCATCATGAATAGTATTTTTACCAGTATCACCAATATTAGTCATATTAAGTTTTCCATTTGTAGTTATAGCTGCATTTCCACCTAAAATACTCTTAGCTGAATCTACAAATGTTCCTAATACCATATTAGTTGCATAAAGTTGTGATCCATTTATTGCATCTGTTGATTCCTTACTTATTTGTCCTGCTGCTACATGTTGTAATTGTCTTTCTTTACCTTTACTTCCTATAGATATTACTGAAATAGGGGTTTTACCTGCAAATTCACCAAATGTCATTCCATTTATACTAAATTTATTTGTTGCAACTTGTTTTGTTGTTTCACTTTCTGATCCAAGTGCTACTGATTTTTCTATAGTTGCTTTTGAATCTGCTCCTATAGCCGTAGAACTAACTTCTTCTGCTTTTGAACTAACTCCTATAGCTGTAGTTTTTTTATGATCAGCTTTTGAGAAAGCACCTATTGCTGTTGCTCCTGTAATTGCTAATTCTCCTCCACCTACTTTTGTTCCTTTACTTCCTGAACTAGCCATATATCCTATAGCAACATCTCCTACATACTCTGTTTTAGAATTATTTCCTATTGATATAGCGTGTATTTCTTTAGAACCTGCCTCTTTTCCTATCGCTATTCCATGTTTTGTTTTTGTTGTTGCAGAAACTCCTATAGCAATTGAATCAGATTGCTCTGCTATTGCATTTTTACCTATAGTTATTGAATCTTTTTCTTTTGATTTAGCTCCATTTCCTATAGATATACTATTTTCTCCTTCTGATAATGTTTCATTACCTATAGCTATTGCATTATTTCTATTAGTTCTTGAAGTAGTTCCTAATGCAATAGCATTAGTTCCACTACTTTTTGAATTATTACCTATTGAAATTGAACTTTCTCCTCCAGCATAACCATTATTTCCTATATTTATTGAATTTGCTGCCATTGCTTCAATTTTATTTCCTAAAGCTATGGCATTATTAGCATTAGTTTTTGAAGTATTACCTATAGCAATAGCATTAGTTCCACTACTTTTCGTATTATTTCCTATTGAAACTGAACTTTTACCTCCAGCATAACCACCATTACCTATAGCTATTGAATCATCAGACATTGCATCAATTTTATTTCCTAAAGCTAGACTATTTGCTCCACTTGATTTTGATCCTAAACCAAAAACTGAACTATTTTTACCTATTGCTTTAACATCATTTCCAAAAGCTACAGAATTTTCTCCTTTACTCCCAGCTTTTCTACCTACAGCAACAGAATCTTTTCCAATCGAATTTGATTCCATACCAATAGCTATAGATGATGAACCTGATGCTTGATTCCATGCACCTAAAGCAACTGAATTACTTTCTCCAACAATATTCTTATATCCTATAGCTACTACATTAGAAGCACTCGCTTTATTTGCCTTATTTTTAGCACCTATTAATATTGATTTTTGAACACCATTTTCAAAAACATTTGATAATTCAGTTTTAGTTCCATCTGATTTAATGTCAGTTCCAATTATATAATTATCACTTCCATTTCCACGCTTATTTTCACCACTTACACTACCTCCATCTTCTGTATAAATAGAATCTGTATAAGAAATCGTCGACAAGAATAATAAAATTGCAACCAAGTTTTTTTTATTCATATATATAGGGATTTAGCTATTTGAGAAAATCCCTCTCCTCCTTTTAAAACCATATTAAGTAAAGTATACCCCCCCCCCCGTTCTTTTTTGTCAACGATATTTGTGAAAAATAGTTACAAACGATGAAAATCATTTTCAAAACAAAAGAGAACCCCTAAATTTTAAGAGATTCTCTTACATTTTATAATTTAATATATCTCATTCTCATTGCATTTAAAACTGTAAGTATAGTAACACCCACATCAGCAAATACTGCAAACCACATAGACATAAAGCTAAAAACTCCGAATGTGATTATTATTAATTTTATTGAAATAATGAATAATAAGTTTTGGAAAACTATAGCTTTCATTTTACTTGAGATTTTTTTAAGTACTGATATTTTAGTTAAACTATCTGTATTTAAAACTATATCTGCTGTATTTATAGTAATGTCTTGCCCCATATTTCCCATTGCAACTCCTACATCAGCTGCTGCAATTACAGGGGCATCATTAATTCCATCTCCTACAAATAGGATATGCTTATTTTCTTTTTCTTTAATTAAAATGTTTAATTTATCTTGTGGTAATAGATTTGAATATATTCTATCTATGCCTAAAATATTTCCTACTTCTTTAGCTGCCTCTAAATTATCTCCAGTAAGCATTACCACTTCTTTAATTTTAGTCTTTTTCATTAAAGCAATAGCTTCTTTTGTATCCTCTTTTATTTTATCTTTAATAACAAATAAGGAAACGAAAACATTATCTATAGCTACATAAACTAAAGAAGAATTTTTATCATCTATAAAACTTATTTCAGGTATATATATATTTCTATCTTCTAATATTCTTTTATTACCTATCAATAATTCTCTATCTTCAAATTTAACATTTAACCCTAATCCAGCTATTTCATTAATTTCTAATATTTTTTTATTCTTAGAAAACTGTTTTTTTAAATATTTTCCATTATCTTTTATTTTTTTAATATGATTTTTACATTCATCACCATAATAATGACCCTTAGGTTCATGTTCTGCTATTTTAATATCTTGTTTATTATAGTGTTCTGAATAATCATGGCAACAACCACAATGTCCACATAAACTTATATATTCATAAAATCTTTCTTCATTTTCTACATTATCAACTAATCCAAATTTCTTATCTATGAAAGAAATTATTGATTTAGCTATAGGGTGGTTAGAATTTTCCTCAGCCTTATATATATATTCGTATACTTCTTTTAAATCTATATCTATTTTTTCTAAATCTTCAAAAACTGAATTAACCTTAAATTTTCCTTCTGTTATCGTTCCTGTTTTATCTAAAAATACACTATCTATCTTATCTATATTATCAAATATATCTGCACCTTTAATAAGTATACCCTCTTTTGCAGCTCTACCAATACCTGAGAAAAAGGTAAGTGGTATAGAAAGTACTAAAGCACATGGACAAGCTATAACTAAAAGTACTATACCGTTATAAAGTGAATCCATAAAACTAATATTTCTAAAAAATATAGGTGGAACTATAGTTATAAATATGGCTAAGGTAAATATTATTGGAGTATAATATCTTGAAAATTTAGTAACAAATTTTTCCATTTTAGATTTATTATGCCCAGAATTTTCTATCATTTCCACTATCTTATATATACTACTTTCATCAAAGCTTTTACTTGCTTCAATTGCTAAAGTTTTAGTTAAATTTATCATTCCTGCCAATACTTCATCATCTTTTTCAAAATGCCTAGGAAGAGATTCACCTGTTATCATAGATGTATCAAGTTCTGCATTACCTATATATATTTTACCATCAAGTAATATTTTTTCTCCAGGTTTAACATAAAAGATATCACCAGGTTTAATTAAATTAACATCTACATCTACAAATTCATTTTTATCTTCATCTAATTTATGTACTTTATTATCATTTAAATCTATTAAACTTCTAATACCTTTTCTTGATTTTAAAACTGAATATTCCTGAAAATATTCACCTAATGTATAAAATAGCATTACCCCCGTTGCTTCTTCATATTCTCTAATAAATATAGCTAATAATGAAGCTACCATCATAAGTACTTTTTCATTAAAACAATCTCCATTTTTAATTGATTTAATAGCATCTTTAATAATAGGAAATGCAACTATAGCATAAGAGAATAAATAAAGAGGTATATAGTATAAGTAAAGTTCTGAATCATATCTTAAATACATATATAGATATTTATCTACAAATATTGCAAAGATAAATAAAGCAAGTGATATAAACATATGGATTTTTTGATCTTTTAACTCTTCTATTTCTTCTAAAAATTGTATTTCAGACTTATTTTCTATTTTAATATCAAAAGATTTTTCTTTTTTTCTACCATATTCTACTAACTCATCTATATTATTTTCACTTTCAACATTAAAGTCCACAGATAAGCTTTTAGTTGCAAAATTTATACTTAAATCCTTAACATTTTCATGATTTTTAAGATGTTCCTCTAACTTACTTGCACAACCTGCACAATCAATTCCACATATTAAATATTTCATTACAATTCACCTCTTTTTCATTATATCATAGCTTAAAAATTATTGCTATGGTTTTTTAAGACTGAATTTATTTTTTTATAATTTTTATATTAAAAACATATATTTTAGGGTATAAGACTGAAAGTTGTAAGTTACTATATTCCTTACTCCAACGATGTATTTTTTGATATAAAAAAGGACCAACTCTAAAGTCAGTCCTTGTTAATATTTTTTTCCTTAACTACACTTGCTATACGGCTTGCTATGCTTTTAATTACAGGTATACAAACTGTGTTTCCAAGTAAATCTAAACTTTCTCTATATTTAAGAAAATCTAAACTATAGTCTTCAGGAAAACCAAATAATCTTAGTCCCTCTCTTATTGTAAGCTTTCTAATACCTTTGTTATCAATAACACCTAATTTTTCAACATCTGTTGCAACAAGCGTTGGTGCAACCCCATCTGGATTAAGTATTTTAGAAAACTCAAATGAAAGTTTTCCTGTTACAATATTATATCCTTTTTCTTTAGTAATGTCATATTCTCTTTTATTCCCTACTAACTTTTTAGGATATTCTAAAACTAAATATTTCTTTTGAACTAAATCATTTAACATTTCTTTTAAGGATTTATCATTAAAAAAAGTTGAAATTTGCTTTAATGTAAGTGGCATACCATCCATCCAATCTATTCCTATTTCTGCTGCCCATACCTTTTTTCTTCTTTCTTTTAGTAATGCTCCTAATAATTCTTTTTGCTTATCTGTTACTTCACCTTTTAAACCAATGTCCCAAGAGTGAATATTATCAGATCCACCTCTTTTATCTTTAATTGATTTTCCATAAAGATCACAAGGATTATAATTAAGAAGTAACTTTCTTGTAAAATCAGTATTTAATGTTTCACAATTTTTCTCTTGAATATCTCTAAAACTACTATATTTCTTATCAAAATTTTCTAAAGAAATTAATTTATCTTTAGTTCCTACAATATATATTCTTTTACGACTTTGAGCTAATCCAAACTCTATAGAATCTAATACTTTATAATTTACCTTATATCCTAAACTATTTAATGAATTTAAAATAGTTTCTAATGTTTTCCCATTGTCGTGGTTTATAAGTCCCTCAACATTTTCAAGTAAAAAACCATACGGTTTTTTATTTTTCAATATTCTTTCTATTTCAAAAAACAGAGTTCCTCTAGTGTCATTAAACCCTAATCTATTGCCTGCTGAAGAAAAAGGTTGACATGGAAATCCTGCTAATAAAAAATCAAAATCAGGAATATCATCTACTGAAATTTCTTTAATATCACCATGTATTTTATAATCACCAAAATATTTCGTATATGATAAAATTGCATGTTTTTTTATTTCTGATGAAAATACACATTCTGTTGAAATTCCCAAAGTATTAAAAGCTTGTTCAAATCCTATTCTAATCCCACCTAGTCCAGCAAATAGATCTATAAATTTAATACTAGAATTTAGTTTGTTTTCATACTCATTTAAAGCATAATTTATCAAAAAGGAGCACTTGTTTGAAAAAGAGCCATCGCACATTAAATTTTCAATCCGTAAAAGTTCTTCTTGATTTAAATATACAGTTACGCCTTTTTTTCTTAGTTCTTCTGGTAAATTTTTCTACCAGAATTTTCTCTTCTACCTCCTGACATATTATCCTCCTATTCATTTTAAATGATATCATATTTCTTTTGATAAAACAATGTATTTATTCATTTTTTTATAAAACCGTCATTTAATATTAAAAATATTTAATTTTAAAAAATTAATCTTTATGATATAATATTATTATAGATATTATATAAAAAGGGGTGTTAATTTTGATTCTAACAGTAAACAAAATTTTTTTCAAATTAAAATCTATAGATTGGACAAAAGCAAAAGGTATAATTTCATTTAATTTAGCCGATATTAATGTTACAATAAATACTAATGATACTGTAGGATTAATCTTACAGGCTTGGTTAAAAGAATATTTAAATAAAAATAATATATTGTTTAGAGAGCCTTCTAATACTCAAGAATTTCCTGATTTTTTACTATCACATAGCAATATTGAAAATTTACTTGAAATTAAATCATTTAATTTTTCAAAATCTCCAACATTTGATATAGCTAACTTTGATTCTTACTGCGATTCAATAAGAGAAAATCCTTACAGATTAGATGCAGACTATATAATATTTGGATATGATATGGAAAAAACAGGAATTATAACAATTAAAGATATTTGGTTAAAGAAAATTTGGGAAATAGCAGGAACTTCTAAAAAATATCCTTTAAAAACTCAAGTAAAACGTAATATAATATACAATATTCGCCCTAATACAGCATTTAAAAACTATAATGCTTCTCCTTTTAAATCACGAGAGCAATTTATTCATGCAATCTATGAAACTTTACTAGTATATAAAGGCTCTAAATTTGTATATAATTGGTTAAATATATTTTCTATAAATTATAAAGCTTATTATAATGCTGAATTTAAAATATAAATATAAAAAAATCTGCTTTAAAAAGCAGATTTTTCTTTAATATCCTTAATATCTTTGTAATTTACCTTTTGAAATTGTTCCTTCTACTTTGTAATCTGAATTATAGAAAGTTAAATCTGCAATATATCCTTCTTTAATATATCCATATCTATCATCAACTTGAACTGCTTTAGCTGGATATGAAGTTGCCATACGAAGTGCTTCTTCCTCACTAACTTTAACTTCTTTAATTAAATTCTTAACTCCTGTAATCATATCTAGTGCTGAACCACCTAATGAACCTGTTTTAGGGTCCCAACATTTACCATTTTCATGTCTAACTAAATGACCTTCAAATATGAACTCTTTCATATCTGTTCCCATAGGAGATACTGCATCTGTAACTAAATATAGATTTGATCTCATAACTTCTTTTACTACTCTAACTGATGGGAAACTTGCATGTAATCCATCTACTATAATTCCACATTGCACATTCTTCTTATCTAGCAGATAACCTACAGCTCCTGGTTCTCTTGAATCAAAACCACGCATAGCATTAAAGAAATGTGTAGCATGAGTAAAGTATTCAGATTTTTCTTCTATTTGAGCATATGTAGCATTAGTATGCCCTAAAGCTATATTTATTCCACTTTCTTTTAAAAGTTTTAGATGTTTAACTAAAGCATTTTCTGGAGCTACTGTTATTATTTTAACTCCATCATAACCTATCTTAGCTATCTCATCTATAACTTTATCATCTAATACTCTAATATAGTCTGGTCTATGGACACCTTTTTTCTCCACACTTATATATGGTCCTTCAATATGTAGTCCTAACACCCCTATTTCTTCTTTAGTATCTTTAATTTCATTTATTAATTCTAAAGCTTTTAATATTTTTTCATCTGGAGATGTAATCAATGTAGGTAAAAAAGAAGTACAACCATATTTTTTATTAGTTTCATTCATGATTTCTAATGTTTTTACAGTAATTTCATCATTAAACAGTACTCCTCCACAACCATTAATTTGTAAATCTATAAATCCTGGGGAAAGAACTTTACCTTCTATATCTACTATTTCATGCTTAGACATTAATTCATCATTAAGTTCTGATACTGTCGTTATTTTTTCAATCCTATTTCCACTAAGTATTACCACATTTTCAGGAATAAATTTATCTCCATCAAATATTCTAGCATTTTTGATTATCATATGACTTCCTCCTGTTTTAATTCTATATTTATTTTAACTCTATTAATAAAAAAAATCAAGTAATATTGTGAAATTTTATTTCATTTATTAAATTTATTATGAAATTTTATTTCCTATTTTCAACATTATCTATTTTATTGAAATAAATAAGAAATAATGATATAATTTAAATAAATTGGAGGTAAAATGAAAAAAATAGTTTTTAAATTAATAATGTTTCTTTTATTAGTTACTAATATATCTCTATCAAAAATTAAAATAGGAGTTAGTATGTTACCTTACTATTCTTTTGCAAGTAATATAGTAGGGAACAGGGCAGATATAGTTCAAATTCTTCCAGCTGATGTAGATGTACATTCTTATCAACCTTCACCTGATGAAGTTAAAAAGATTTCTGGTTTAGATGTATTAATAATTAATGGTACAGGAATAGATAATTATATGTATAGCTTAGTTAAGGCTTCAAATAATAAGAAACTTGTTATAATTAACGCAAATAAAAATGTTTCTTTATTACCTATAGCAGGTGAGCGTGGAAATACAAAATCTGTAAACACACATACATTTATAGCTATACAAGCAGCAATACAGCAAGTAAATACTATAGCAAAAGAACTATCTAAAATAGATATTAAAAATGGCAGTTACTATTTAAAAAATGCAAGAAGTTACAATAAAAAATTATCAAATATTAAATCAAAGAAAATAAAAGAAATTTCTGAATTAAGAAAAGGAATTAATCTTACAGTAGCAACAACACATGGTGGTTATGATTATATCTTAGGCGAATTAGGTATAAAGGTAGGAGTTGTAATTGAACCTAAAAACCACGGTAATCCTAGTGCAAGCGATTTAAGAACATCTATAGATTTAATAAAAGAAAACAAAATAGACATATTATTTGAATCAGATGGTAGTGCTTCTCCATATACTAAAGCTCTACAAAAAGAAACAGGTGTTATCGTTGAAAAGTTACTACATATGACTAATGGTAAATACACTAAGGAAGCTTTTGAAAAAGATATCGAAAAGAATATTGATATAATAATTAACGCATTAAGAAAGGTGAAACAAAAATGAAAAAAACATTAATTTTTACGGCAGTTATTTTAGCCTTAACAAGTTGTTCTACTATTGTTAATGGTTCTTACCAACCATTAAATGTTAGATCTAATTCTGGAAAAGAAATCATAGTTAGAGATGAGTATGGAAACATCTTAAAACATGGTCAAGGTACTTTATTTATCAACTTAAAAAGAATGGATAATGAAGTTGGTGTGGGTGCAAAATACTTTATTACTTCAGGGGATAAAACTGTTGCATTATTACCTAAAACAAATACTTTATCATATCTAATTGGAAATATTTTTGTTCCAGGAGGACATATCATAGATAAGTATACTGGTGCTATGTACGATCTTGTTGATGTTGATGGTAACAGATTAGATAGTATTGAATTTAAATAAAAGGTGTTGATGTTATGAAGAAATATATAATTCTAGGTTTATTATCTAATATTATAGCTATTTCTAATACAGAAGTTACAATACTTGCCCAAGGTGGTTTAAGTGGATTTCAAGCTCATAACATTAATAGTAATTCCATTTTAAATGCTGGAATACATGTTTCATTAGGAAAAGTTATGAAATTAAAAAAAGGTAAATTAAATGTTATTCTTGGTACAGGGCTTGAAGGTGGAATTAATAAAATGGTTATATTTAATAAAAATAATACTAAAATGGCACAAACAAGTGATACTACTACTACAAAAGTAGATTATCAAAAAGAAATAATGAAATTTCATCCATATATTTCTCCCTTTATATTCGCAGAATTAGCTGGAGAAGTTAAAGAAAACATCAAATTATATACAGGAGCTTCTATAGGTACTTTCCACTATATTATAGGCAATGAATCTATTACTAAATTTTCTATAAAAGCAAAATTTGGGACTACATTTAAAGGCAATTTTACTAGTGAAATTTCTGTAGGATATCCTCAATATATAACTATGGGTTTAGGATCAAAATTCAGTTTTTAATAATACTAAAAAAAGAATTTCCACATCGAGAAATTCTTTTTTTATTATATCTAATTACTATTAATATATCATCTTTTTATAAAAACAAAATTTATTTTTTTCATCTATTTTTGATAGTAACATTAAAATAAATTTCAATAATACTCCAAATATAAAACAAAGAGGTATAGCATATAAGTACCATCTTAAACCAGTAATACTTAAATTATTAAAAGTTTCTTTAAGAATAAGTTTATCAAAATGAAGATAAGAGAAAAACAAAGCAATGACATCTACTTTTGTTAATTTATAGTTTTTCATATCTGTAAAAAGTTTAACCACACCATTTTTTATATATTTAAACATTTTTAAAACTCCTTCTAAAATCAATTTTTTTTAGAATTATTCTAATTTTTTTTATTTAACTTTTCAATTTTATTTTCTAATCTTTCTAATTTTTCTTCTTTTTCATTTAAAAAGTTTAAATTGTTTGATGATGAAATCATAATATTGTTTGCAACTATAACATCATTTGTTTCTAAATTTTTTTCTTGTGCTAATCCTAATATAGGTACTACCATTAACGAAATAAGTAAAAATTTTACATTGATGTATCTTTGGCAATAATATTATACTACATATTTTTTAAAAAAAAAGATTTTTTTACACTTATAAAAAGTTTTACATAAAAAAGGTAACAAAACTAGAAAATATCAACTTTCTAGCATTTGTTACCTCGACATATTATATCTCTACTACTATTAACATATCACCTTTTTTAACATTAACTCTTGCAACATCATCTTTAATAATATTACTTACAAGAGAAATATTTCTTGAAATATCTTTATCCTTTAAATTATATATAAACCCCTCAAGATTTAATTCTTCTAAATCAGAAAGTGGTATCAAAGAAAATCTTTTATTAGCCTTACCTAATATTTCATCTTCTTTATCTACATAATACATTAATTCATTATTATGTGTAATATATTTCATATTCTTGTTATTTGCTAATAATTTAGCATTAGCTATACTCATATCTATCCTACCACCAGTAGCACCAAATACTAGCACATCTTTATCTTGATAAAAATCAATTTCTTCTTTTTCAAATCTATTATTCATACATACATCTTCTATTTTACATATATGTATTAATGCTATAGAAAAATCTGTATAATCTTTATCACTTGAATAATCATATATTTCAACATTTTTTGATTTATAGTAATCTAAAACTTCTAAATTAACTGAATCTAAATCCCCAACTATAGCATGAGGAATTATCCCATGTCTATATGCAAAATTAGCTCCTCCATCTGCACAATATATTTTTCTGTCTTTTATTAATTCACAATGATAATCATTAAATTCAGGATATTCTCCATTTAGAAATACACAATATTTCATTAGCCTCTTAAAACTGCTCCAAAGTCTTTATTTAACTTATTAATAATCTTAGTCATAATATCATTTATTTCTTTTTCTTCTAATGTCTTATTATCATCTCTCATAATTATACTAATTGCAACAGACTTATATCCTTTTTCTATCCCAAGTCCTTGATATATATCAAATAGTTCTACTTTTTCTATTAAGTTGTCAATTTTTTCTATAGTCTTTATCATATCTCCTACTAAAACATTTTCATTTACAACTAATGCAATGTCCCTAGGAACTGATTGATATTTGCTTAATCCTTTATATTTCACATTGTTTGATATATATTTTTTAATTAAATCTAAGTATATTTCTGCATAAAGTATATTATTTTTTTCTACATCCATATTTTCTAATACATCTGGATGTAATTCTCCATAACTTGCTATAAGTTCTTTTCCTACAAATACATCTACACTTCTTCCAGGGTGATATGCCTTATTTTCACTTCTTCTAATTTGATATTTAGTAAATTTAAGTTTTTCAAATATAGCCTCTACTACACCTTTTAAGTCATAAAAATCATAATTTTCTGGTTTTGCATTCCATATGTTTTTTATTTTACTTCCAGATAATATTAATGCTAAAGTTTCTTTCTCAAAAACCTGCATTTCATCTATTAAAACTGATTTTTCATTCACCTTATTTGTAGACTCTTTAGTAAATCTTTTACTTACCTCAAAGAATCTAATATCAGTTGCTCCTCTATTAATATTATCTCTAACATTTTTAATAAGTGAATACATTAAAGTCGGTCTTAAAATACTAAATTCTTCTACTATAGGATTTTTAATTTCTATAATATTATCACTATGTATTTCAAATAATATTTTTTCTAAAGAATTTTTAGGTATAAAGCTATAATTAATTACTTCTCTCATTCCTAAATTAGATACTATTTTTTTAATATCTGTTACAAACCTAGTTGTATCTTCAAGTCTTTCCTTAGTAAGATTTACTGAAGGCATTACATTTTCTATACTATCAAATCCTACCATACGTATTACTTCTTCAAAATAGTCAAATTGATTGATTAAATCTTGTCTATGTGATGGAGCAGTAAGTAATATCTCATCACCCTTATCTTCAATCTTAATTTCTAATTTTTCAAATATATCTAATATTTTATCTTTTTCTATTTCTTTACCTATAAATCTATATAATCTTGGAAGCGATAATGTACTAACTTTAATTTCTGGTTTAACTGGGTAATTATCATTAATATTACATACCTTTCCACCAGCTATCTCTTTTATTAAGCTTGTAATTCTATTCATTACATATTCCATATTTTCTGTATTTACAGCTCTTTCAAACCTATATGCTGCCTCTGTTGAAAGTGCAAATTTTCTGTTAGTTTTTCTAACCATGATATTATCAAAATGTGCAACTTCTATTAAAATATCAGTACTATTTTCATCAACTTCAACATCCATTCCACCCATAACACCTGCAAGTGCTACTGTTTTTTCACCATTCCCTATAACTATATCTTCATTATTAAGTATTCTTTCTTTTTGATCAAGAGTTACAAACTTTTCATCATCTTTAGCCTTAGTAATTGTTACTTTTTTTGAATTAAATTTATTAAAATCAAAAATATGATTAGGTTGATTAGTTTCAAGCATTACATAATTTGATATATCAACTATATTATTAATACTTCTAATACCAACTGCTTCTAATCTATTTTTTAACCACTCAGGGCTTTTTTCTACCTTAACCCCTTTAATAACTCTAGCTAAATATCTATTAGATAATCCCTCTTCTATTGATATATCTATATCTTCTCTATCTTCAACATTTACATTTACTTCTGGTAATCTTAACTTCTTAGAGTAATATGCTGCAAGTTCTCTTGCTATTCCTATGTGAGATAAACAATCAGGTCTATTAGGTGTTATTTCAAGTTCAAATATTATGTCATCTAAACCTAGATATTCATTAAGTGGTATTCCCAGTTTTGTATCTTGTGGTAATATCATGATTCCATCATGATCTTTTCCTATTTTAAGTTCTGCTTCAGAACAAAGCATTCCATTAGATTCTTCACCTCTAATTTTAGCTTTTTTAATTACAAAACCTTCTTCAAGTTCAGCACCAATTTGAGCCATAGCAACTATATCTCCAACCTTATGATTAGGTGCTCCACATAATACTTGTTGAACTTTTTCTCCATTATCAACCTGACATATACTAATATGATCAGAATTAGGATGTGGTATTTTCTCTAAAACTTTAGCTGTTAAAACTTTAGTTAAGTGTTCTCCTTGTTTTTCTATTTTTTCTACTTCTTGCCCTATCATAGTTAATGCATTTTCCAGCTCTTTTATATCTATATTCTTGTCAAGATCTATATATTCTCTTAACCAATTTAATGAAATTAACATATTTCCTCCACCTAAAATTGTTCTAAAAATCTAATATCATTTTCAAAGAATGCTCTTAAGTCATCTATACCATATTTAAGCATTGTAATTCTTTCTACTCCAAGCCCAAATGCAAATCCTTGATAAATTTCTCCATCTATTCCTGCTGCTTCAAGAACTTTAATATTTACCATTCCTGAACCTAGTATTTCTAACCAACCTGTATTTTTACATAGTCTACATCCTTTTCCCCTACAAACTCCACATTCAACATCCATTTCTGCACTAGGCTCAGTGAAAGGGAAAAAGTGAGGTCTAAATCTTACATTTCTATCTGCACCAAATATTCTTTGTACTATACTTTCAAGTGTTGCCTTAAAATTAGAGAAGCTAACATCTTCTCCTATCATAAGACCTTCTACTTGATGAAACATAGGTGTATGTGAAACATCATAATCTGGTCTATATACTTTACCTATAGAAATCATTTTAAATGGTGGTTTATGTTCTTTCATATATCTAATTTGTACTGGAGATGTTTGAGTTCTTAAAATTACATCATCTGTGATATAGAAAGTATCAGTTAATTCTCTTGATGGGTGAGTTTTAGGTATATTTAAAGCATCAAAGTTTAAGTAAGTACTTTCAACTTCAGGCCCATCTACTATATCAAATCCCATTTCACTAACTATTTCTTTAATTTCAAATAATGTTTTAGTTAAAGGATGTAAACTAGATTTTTCTAAAGATTTCCCAGGTAATGAAATATCTAATATTTCAGATTCTAGTTTAATTTTTTTAGCTTCTTCTCTTAATTTTAATAATTTTTCATCAAATTTTTCTTGTAATTCAGTTTTAATTTCATTTGCAATTGCACCAAATTCTTTTCTCTTTTCAGCTACAATATTACCCATTTCCTTCATTATAGCTGTAAATTCCCCTTTTTTACCTAAATATCTTACTTTCATATCATTAAAATCTTGCATAGAATCTAATTTTTCTATATCTGATAATGCTCTTTCCTTTATCAGTTTTAATTTTTCTAACATTTTTCCTCCAACTAATTAACCTTTTCTATTTTACTTTCTTTTAAATTTTCCATTAATTTTTCTACATCTTTTATTAATTTTATTCCTTCTTTTAAGTTTAGACCTTCTAATCCAACTATTTCTTTTCCATCTCTATAAAGCACACCTAAATATATTAACTTATATATCTCATCATTTTCTTCAAATTTAGATATATCACTAAAACTTAATTCATCATATTTAATTTTTTGAATTAAGTAATATTCTGCATTACCATCTATAGCTTTTCCTTGATATATTCCTGTCATTTCATCCTTAATGCTATATCTTGAATATCTTTCATCATATTTAGATAGATATTTAAATAAGCTTTTAACATTTATTTCATCTATAGATTTAACAATCTCAGGAACAGTTTTAATAGTTATTTTATCTTCTATTTCACCTGTTTTAAGATTTAAAAATTCTTTAATCTCTGCATTAAAACTAACTTTAATATTTCTAGTTTCACCTTTTTTTAGTTCTTCATTTCCTCTTTCAACCTCATAGTTTACTCCATTTAAGTAAAGAGATCTAAAGTTAGGGTCAATATTTTTTTCATTAACTTTTCTCATATTAACACTACCAAAAAGATATATTTTATCATTTTTATGTGTATAATTTTTAACCATATATTCAAAAGGTTTAAATATCTTATTATCATATTCAATATATATATTCCATGATATTAAACCAGATATTAATAACATACATGAAACAAAGGTAGCTATATTCAATTTTTTCCATATAGCCTTATCTTCTTTACCTACCAATGTTCTTACATTTAGAATTATAGCAAGAACTGTAGATACAAATATTATTATTGTTAATGTATGTATAATGTATTTTACATCTAAAATATATTGTATTCTTCCCATTAAATAAAGTGCATAAGGTAATCCTTGCTCATATTGTTTTTCTGTTATACTTCTTAGTGCATAAAAAAAATCTTTAGTAATGTATACATAATATACAGATGCTGTAATTACTACCCATATCATTATAGTTGATTCTTTAAGTAATTTACCAAATTGTTTATTTATAATTCTAAAAATTACAAAACATGCAAAAGTAATTAGTAGGAAAAGTAAAAATGTTCTATAAATAGTTGCAAACACTTCTAAAGCCTTTAAGTCTTCTGTCATAACAGATAATTTCTTAACTAAAGTTACAAAGTCAGTTTGATTTGTAATTTGCCCCTTTAATTTATAGAAAATATCTCCAACTTTTGCCATTAATAATAGTTTTATTAATAAACAAAAAGATAATAGCCATAACATTACTGTTTCAAATATTTTACGTGGTTTTACTATATTATTCATATCATTGCTCCTTTAAACTCTAAAACACCATTTTCTATTATCGCATATTCATGATTGATTATAGCTCCTGGGTTTATAAAAAAAATATTTCTATATTCACTTTTATGTTGTCTATGAGTATGCCCAAAAATTACATAATTTGCATTTTTTTCCACCCCATAGTTATATATACTATTCATATTTAATTTAACATTAAATAAATGTCCATGAGTAAGTATAACCTTACCCATAGACTCTATATCTAACTCTAATATTTCCTTAGTGCTATAATCATCATAATCACAATTACCTTTTACTATATAAAAAGGTATATCTACTGCATAAGACATTTCTATAGCATCCATGCTATGATCTCCTGCAAAAATTATCAGTTCAGGATTTTCTTTTTTTATTACTTCATAAAAATAGTTTAAATCTTTATGTGAATCAGAGCATAAAAGTATTTTCATTCTATCACCCCATGTATATAGGTACTTCAGTTTTTTCAAATACTTTTAGTCCAACCTGCCCTGTTAATCTTTCAAATATTATTGAATATTTTAATACTCCCATTAAGATTAGATCATATTTAGGTACTTCTGATAATATTATAGAAACTTCATCTCCAGTTTTATCTATAATATTACATTTAGAACCAAATCTTTCAGTTAATCTATTTCTATCTTCAACATTTACTCTTAAAACATCTATATCTTGTACACCAAATGTACTAAAATAGTCATATACTGTTCTATTTACCATAAATCCACCATCATTTAACATCAATACATTATCAAATGAATATTCTCTATCTGTAATTGATAATATCAACATAGGTTTATAGTGTTGTTTAAGTAAAGAATGTAAATTATCACTTATAGTTCCATTTTCAGTTCTACAAACTACTAATAAATCATAGGCTTTTAATTCTTCCATAGCTACTTCAACTATTTCACCATCTAATGAATATATTTTTCTAAAGTTTCCTTTAGATATCTTTTCCTTATACTTGTCAAATACATCATCTTCAAGTTTTAAATAATCTTCTATTAATAAATTTGTATTAGCACTTACACCCATTCCTTGTATAGTTAATGGGAAGATATCATATTTTCTTATATCTTTAATGTACACTACATCTTTTTCTATATGTGGATATTTCTCATCTAAAGACTTAGATAATTTTAAAAATTCGTTAATCTCTGCCTCATTTGTCAGTAAAAACAAGAATCTTTTCATAATTATACCACTCCTATTCTTCAACTATTTCCTCTTCCTCAGAATTTTCAGCAGCAACTCTATCAGCTGAAACTAAATATTCTTTGTATTTAAGAGATTGTATTTTAACACCTTTACTATTTCTTCCTACTACTGGAAGATCCTTAATTTTAATACGTATTACTGTTCCTGTAGTTGATATTGCAACAAGTTCCATATTTTCTGAATTTTCATCACTTGGATCTATTATAGTTGAATATACTACATAATGATGTTCGCTTTCTTCCTTACTTCTTCTTTCAAGATTGTAGTTTTTAACTCCTTTTCCCCCTCTTTTAATAATATTGTATTCTGAAAGCAATGTTTTTTTCCCTATACCAAGTGATGTAACACTTAATACACTCATTTCATCTACATTATTATCTGTATATATTACATCTGCTGATACTACTTCATCATTAGAATTTAACTTAATAGCTCTTACTCCTGCTGCTGTTCTACCCATAGAACGTATATCTTCTTCTTTAAATCTTACAGCCATTCCACCTTTAGTTGATATAAATATCTCATCTTTTTCACTTCCAGATGTTATTCCAACAAATTTAACTTCATCTTCATCATCTTTAAATGAAATTGCTATCTTACCGTTTCTATTTATTGTTTTAAATTCAGAGATCTTAGTCTTTTTAGCTATACCATTTCTTGTTATGAATATTAAATCCCTATTGTCATTTTCTATTTCATCTACTGGTATTATTACTGAAATTTTTTCATTTTCATCAAGTTCTATAATATTTCCTATTAATTTACCTCTAGCCTGTTTACTTACCTCAGGTATTTCATAAACTTTAATAGAATATACCTTACCTTTATCACTAAATACCATTAAGGTATCTAAAGTTTTAGCTGTAAATAGATCTTTTAGCACATCATCTTCAATGGTTGTAGTGTTAGACACTCCTTTCCCACCTCTTTTTTGTGCCTTATAACTATCAAGTGACATACGCTTAGCATATCCTCTCTTAGTTATAGTTACTATTACATCTTCATTTTTAATTAAATCTTCTATATTAATTTCATATCTATCATTTTCTATAGAAGTTCTTCTAGCATCTCCATATTTTTGTTTTAATTCTAATACTTCTTCTTTAATTATTGCATATTTTCTTTCATCTTTTGCAAGTATATCTTCAAGGTCTGTAATAAATAGCATTAATTTATCATATTCTGTATCTATTTCTTCTCTTGCAAGTCCTGTTAATCTATGTAATCTCATATCTAAAATAGCATCTGTTTGTATTTCAGTAAATTCAAATTTTGCTATTAATGATTCTTTAGCTAAAGCCCTTGTTTTACTTCCTCTAATAATTGAGATTATTTCATCTATATGATCTAGTGCTTTTCTTAATCCTTCTAAGATATGAGCTCTATCTTTAGCTTTATTTAAATCAAATATTGTTTTTCTTGTAATAACATCATATCTATGTTCTAAATATTTTTCTAAAATTTCTTTTAAATTTAATATCTTAGGGGCATTATTAACAAGTGCAAGCATTATGATACCAAAAGTTGTTTGAAGATCAGTAAATTTAAGTAATTTATTAAGTACTATTTCTGCTTCTTCTCCCTTTTTAATATCTATAACTATTCTTATACCCTCTAAGTTTGAAAGATCTGCTAAATCAGATATCCCAACTATTATCTTATCTTTAACAAGTTCACCTATTCTTTTAATTAAATTTGCCTTATTAACCTGATACGGAAGTTCTGTAATTACTATACTTTGTCTTCCTTTTTTATCAGTTATTATTTCTGTTTTAGCACTTACTCTTACCTTACCTCTACCTGTCTTGTATGCTGAATATATTCCAGATTTACCATATATTATACCCCCTGTTGGGAAATCAGGTCCTTTAATATGTGTAATTAATTCATCTATACTAATATCCCTATTATCTATTAATGCAATTATACCATCTGATAGTTCTCCTAAATTATGAGGTGGAATATTAGTTGCCATCCCTACAGCAATACCTGTAGTTCCATTTAAAAGTAAGTTAGGTAATCTTGCTGGAAGTACTGTTGGTTCATCTAAACTTTCATCAAAGTTTTTTCTCCAATCTATAGTGTCCTTATTAATATCTATTAACATCTCTTCAGCAATTTTAGACATTCTTGCCTCAGTATATCTCATAGCAGCTGCACTATCTCCATCTATAGAACCAAAGTTTCCATGACCATCTACTAACATATATCTAGTATTAAAATCTTGTGCCATTCTAACCATAGAGTTATATACTGCACTATCTCCATGTGGGTGATATTTACCTAATACTTCCCCAACAAGTCTTGCAGACTTCTTATATGGACTATTATGGTTCATTTTTAACTCATCCATAGCATAAAGTATTCTTCTATGTACAGGTTTTAATCCATCTCTTACATCTGGCAAAGCCCTTGATACTATAACACTCATAGAATAATCTAAATATGATGCTTTAATTTCATCTTCTATATAGATTAATTCTTCATTAGACATTTCTGTTTTTTTCATAATTTCTTCTATAGCACTCTGGCTATCTTGATCTAGTGTTGAATCTATATCTTCTTCTTTCATTTCTTCTTCATTATCGAATAAATCTGACATAACAACCTCCCTATATATCTAAGTTTCTTACATAATTTGCATGTTCTTCAATAAATTCTCTTCTAGGTTCTACTTTATCCCCCATTAATATTGAGAACATTTTATCTGCATATTGTGCATCTTCTAGTGTAACTTTTAATAAAGTTCTAACATCTGGATCCATAGTTGTTTCTTTTAATTGATCAGGATTCATCTCTCCAAGCCCTTTATATCTTTGCACATTATATTTATTTTTTCCACTATTATCTACACCTAATTTTTCATCAAGTACCCTAGTTATACTCTTTAATTGTTCATCAGAATATGCATATTTAACTTGTTCTTTTTTCCCACTCTTAGTTGTAACCTTATATAACGGTGGTTGAGCTATGTATATATGCCCATTATTAATTAATTCTCTTAAATATCTATAGAAGAATGTAAGCATAAGTGTTCTAATATGAGCTCCATCAACATCGGCATCTGTCATTATTATTATCTTATGATATCTTAATTTTTCTATATCAAATCTATCACCAAATCCAGCACCAAAAGCTGTAATCATAGCTTTAATTTCTGAATTTTCTAATATCTTATGTTCATTAGCTTTCTCAACATTAAGTATCTTACCACGTAATGGAAGTATTGCTTGATATTCCTTAAATCTACCTTGTTTTGCAGATCCACCAGCTGAATCTCCCTCTACTATAAATATTTCAGATTCTTCAGGATTCTTTGATTGACAGTCTGCAAGTTTACCTGGAAGACCACCTAAACTAAATTCATTTTTCTTAGTTACAAGATCTCTTGCTCTTTTTGCAGCTTCCCTTGCCTGTTTAGATATAGCTATTTTATCTATAATAGTTTTACAATCTTTAGGATGGTCTTCTAAATACATCTTAAGTTTACTTCCAAACACTCCTGAAACTATACTTGTTGCCTCAGATGAACCAAGTTTTGCCTTAGTTTGTGATTCAAATTGTGGTTCAGGGAATTTTAAACTTAATACATAAACAAGTCCTTCTCTTACATCTTCTCCCTTAAATTCATTTTTACTGCTAGCCTCTCTAGCTAGATCATTAATAGTTCTAGTTAAAGCTGTTCTAAGACCAGAAACATGTGTTCCACCATCTGATGTATTAATATTATTAACAAAAGAATATTCTATAGTAGATTGCGAGTTCTTGTATATCATAGCTATCTCTACCTCTGAATATTTATCAGGTATAGGATTTCCCTCATCATCTACTTCTCCTTCTGTAAGCATTACCCTATCTTTCATATATATTACATCTTCAATAATTTTATCTTCTCCTACAAGTTCTGTAACAAAATCAACTATACCACCTTCAAAGTAAAACACTTCTTCTTTAACTTTTTCTGGTTTTCTTGCATCTATTAATATTATCTTTATACCTTGATTTAAATATGCAAGTTCTTTAAGTCTTCTTTGAAGAATATCATAATCAAATTGTATAGTTTCAAAAATATCTGCATCTGGTTTAAATTTAATTGTCGTACCATGAGCTTTAGCTGGTGCTTTCCCTATTTCTAAAGCCTCTGTAATTGCATTTCCTTTTGAAAATATTTGTCTAACAACCCTACCATCTCTTGTAACTGTTGCTTCTAATTTTTCAGACAATGCATTAACTACTGAAATACCAACCCCATGAAGCCCTCCTGAGAATTGATAGTTTGAATTATCAAATTTTCCTCCAGCATGAAGTACTGTCATTACTACCTCAAGTGTTGATTTACCTGATTTATGCATATCAGTGGGTATACCCCTACCATTATCTATTATTTCTATTTCTGAATCTGGAAGCATTTTAACTGTAATAGTATCACATACTCCAGCAAGAGCTTCATCTATACTATTATCTACTATTTCCCATACTAAGTGATGTAATCCTCTTGAAGAAGTTGTCCCTATGTACATTCCTGGTCTAACCCTTACGGCATCTAATCCCTCTAATACCGTAATGCTTTCCCCACCATAATTTTTCTCTGACATAATTCCTCCATTTTAATATATTTTTTATTACTTAATTATATCATATTTTATTGATTTTTCCTAGCTTTTTAATGAATTTATACCTTAATTTAACATATATTTTGATACTTATTATTGAATAAAAAATATTAAAATGTTAAAATGAATAAAGAGGTGATATTTTGAATAATAAACTAAGATTTTTTTTATCAATTATTATACTTGTAGGTACAATACTTTTGTTTAATAGATATATCACAAGTAAGGAAAATAATAGTATTGCCATAGAAAATGTAAATAAGAAAATATTTAAAAATATGTTGCTTGATAATATTATAGAAGATTTTAATAAAAAATTTGGACCAACTAAATATGATGTAAGTAAATTTGTAAATAGAGAACTAGATTCTAATATATATTTTTATTCACAAATTTTTGGATATACTGAATCATATTTCATAATACAATACAATGATTTTGGGGTTACTCAATTAGTTTTTAATTTCTCAAATGTTAAAAAAGAAAATTTAGAAGATATTACAGAAATAATTTCTTTACTAATACAAATATCTGATGGTGATATAGAAGAAGTTGAAGCTAAAACAATTATAGTTAATATGTTTAAAGAATTTGAGAAAAATAAGGATACAGTAACACTTGTATATGATAATAAGCTAATATATACTTTAAATATATTTAATAATAATAGTATAAAATTTAGTGTAAGATAATAAAAACACGAGGTTTCTCGTGTTTTTATTTAATCTCTTCTATTTTAATATATTTTTCTATATCTTCTTTTTTTAATGATTCAGGTGGTAACTTTAATACATTAACCACAAAATTTCTATTATAGAACCTTATATCTATTCTATCTCCATCTTTAACAGAATACAGAGCTTTTTTTATATCTCCATTAACAGATACATTTCCAGAGTCGCATAATTCATTTGCAATAGTTCTTCTTTTAACTACTCTTGTAATTTTCAAAAATTTATCAAGCCTCATTATTTCACTTCTCTTTCTATGCTATTCATAACTCTTGCAGCTGCAAGTATATATGAATTAACATTAGTTTTTTTAATATTATCATAGGCTTTAGCTAAAAATTCTCTAGCAGAGTATTTATACCCTTTACTTTCTAATTTTTGTATACTCTCTATTGTTTTTTTCTTAATTTGTTCTTCATTTTCTACTACCTGTTCAGCAATAAATTTAACTATTTGAATATCTGTATCATCAAACTTTATTGTGCTTTCAACTGGCTCAGCTGGTGCAGGCTTTTTAACTTCTACTTCATTTTTAGTATTAACATCACTACTTGATTTAATAATACTTGATTTTATTTCTTTTTCACTTTTTGCTGGTGTAACTGTTGAATTTTTTGGAACTTCTTTAACTTCTTGTTTCTTTTCTTCAACTTTAGTTTCAATTTCTTTTATTTTAATTTGTATCTTTTTATTTTCCTCTTCTTTTACTTCTTCTTTTTTTTCTTTAAGTTCTACATATTTAATATGATCATTTTGCGTAATTAAATTTTTTTCTTTTAAGTACTCATCTAATGTAGTACAAGAAATTACAGCAAATGATAAAAAAATATAGCTAAGATATTTTATCATTTTAATCACCTCTAATATATTCTAACATATTTTACTTTACTTTTCAAAGTTTCATGATATAATTTAGAGATTATTATATAAGGAGAATGTTTGTGTTAAATAAAGAAGAATTTTTAAAAAATTTAGGTAATAATGAAATAGCTATAAAAATTTTTAATTCACTTTCCATAGCTTTAGAATATCAAATAGGTGTTTGCAGCGATATATTTATCACTCCTAATATTTACAAGAAATTAAATAATAAATATGGCAATATCTATACATATATGGAAGGTTATGATAGAAAGCAAATTTGTTTTACTCCATATATTCCAGAATTTGATTATTCTGTAATCGAAATTAAGATAAATAATAGGTTTATAACCTACACACATAAAGATTTTCTTGGAGCTATTATGGGATTAAATATTAAAAGAGAAATGATAGGAGATATATTTGTAGAAGATAATATAGCTTATGTATTAATTTCTAATAAAGTACTAGACTTTGTGATGAATAATCTTAAATCTATAGGTAAAAATGATGCTATTATACAAATAAGTAAAAAATCAAATTTTTCATATACTTTTCAAGATATTAAAATTAATATATGCTCTAATAGATTAGATAATTTCATAAGTGCTATTACTAATTTATCAAGAAATAAGGCTAATCAATTAATAGAATCAGGATTAGTTCAAATAGATTATGAGATATGTAAAGAGAAAGATAGAAAAATTTATCAAAATGATATATTAAGCATAAGAAAATATGGCAAATATTTAATATCTGAAGAACTAGAATATAGTAAAAAGGGTAAAAAAAGATGGATAATAAAAAAATATGATTAAAAAAAGAAGAAGATTTTTATCTTCTTCTTCTAATATTATTAAACCCTTTATATTTTTGTGTTGCCATGTGAGAATCAATATTTTGTATCAATTCTACTGCCACTCCAACTAATATTAGTAAACTCGTTCCACCTAACATCACTGGAATGTTTAATACATATCCAAACCATATATTTGGTAATATACCAAGTATAGCTAAGAATATTGCTGTACCGAATGTAATTCTTGTTGCAACATATTCTAAGAAATCAGATGTTTCTTTTCCTGCTCTTTTTAATGGTATACTTCCTCCACTTTGTTTTAAGCTATCTGCAATTTTTTCTGGATCAAATACTATAGCAGTATAAAAGAATGAAAATAATACAATTAACACTGCTGTTGATATTAAATATGCCCATCCTTTTGGTCCAAATAAATTAAGTAAATATGCTTGTTTTGATTGATCTTTAATAAGTGGTATTATAGCTGATGGTACAGCCATAATCATTGATGCAAAGATTATTGGCATTACTCCTGCTGTATTAATTTTAATAGGAAGATATGTTTTTCTTCCCACAACAGTAGCTTGACTATTTCCAACACCTCTGCTTGATTTACCAACATATTGTATAGGTATTCTTCTTTCTCCAAGTTGTATAAACACCATTATTATTATAATTAATATAAATAAAATTAATGAACTGTATCCAAGTATAGTCCCTTTATCTACTGTAGTTAATTGAGATATTGTACTTCTAACTACCTGAGGTAAGTTAGAAACTATACCTAAGAAAATTAACATTGAAGTTCCATTTCCTATACCTTTTATAGATATTCTTTCAGATAACCACATTAAAAATGCAGTTCCACCTGTTATTAACACAACTGATGTTAATATAAATGTAGTTCCAGGATCTCTAACTAAATTATTAGATTGTAATATTAAAGCAAGTCCAGTAGATTGGAACAATGTAATAGCTATAGTTAAATATCTAGTCCATTGTGTAACTTTCTCCGCTTCTTTTCCACCTTCTTTTTGCATTTCTTCTATTTTAGGCCATAAAACTCCTAAAATTTGAAATACTATAGAAGCATTAATATATGGTGTTATTCCCAATGAGAATATTGAGGCTCTTTGAACAGCTCCACCTGTAAATAGGTTTAAAAATTGAGCTAAAGTGCTGCCACCAGTAAAATCTCTAAATAATTCCATATTAATTCCTGGAACTGGTATATGTACACCAATTCTAGCAACTAAAAAACACCCTAAAGTAAACAATACTCTTTTTCTAAGCTCACGTGTTCTTACTATAGCTTGAAATCTACCTACTATTGCTTCTTTAAATGTCAAAGAAATCACCTCTATTCTATATTTTTATGTAAACAGGAAAAAAGTAAGTTAAACTTACTCTCCCTTAACTTCTTTAGCATTCCCTGCTACATTTGCAAATGATTTGATTTCTAATAATTCAACTGTTCCATTAAATTTTTCAATTGCTTCTTTAGCACCTTTAGATACTTTATGTGCTTTAATTTTTAAAGCTTTTTCTAATTCATAATTTCCAATAACTTTTAATAATGAAATGTAAACTCTTTCTCCATTTTCTTTAGTAATGAAGTCAGCATTTTTTACTACTCTTCTTTCTAATAATGTTTCTAAAGTTACTTCTTCACCATCATTAAATTTATCTACTATATCTTTTAAATTAACTACTATCATGTCCTTTTGGAATGCAGAATTTGAGAATCCTTTTTTAGGAACTCTTCTGATTAAAGGCATTTGCCCTCCTTCAAACGAAGCTGGTACATATGTACCTGATCTTTGTTTTTGTCCATTATGACCTTTACCAGCAGTTTTACCCCAACCAGTTCCATGTCCTCTACCGATTCTCTTTCTATCTCTTTTTGATCCTTCGGCAGGTCTTAATTCATTAAGATTCATTGATTTAAACCTCCTCTACTTTAACTAAATAAGAAACTAATTTAATTTTACCTTCTATATCAGCAGTCAAATTGTGTTCAACAGTTTGACCAATTTTTCTTAAACCTAAAGATTTAATTGTTGCGATATGGTTAGGCTTTCTTCCATTAATTCCTTTTACAAGTGTTATATTTACTTTAGTCATTAATCTATCCTCCTAGCCTTATCCTAAAATTTCCTCTACAGTTTTTCCTCTAAGTTTAGCAACTTTTTCAATTGATCTTAATTTCTTTAAACCATCTAATGTAGCTCTTGCAACATTATCTTTGTTTTTAGATCCTCTAATTTTAGTTAGTACATCAGTAACACCTACTAATTCTAAAATTTCCCTAGTTGCTGACCCAGCTATAACCCCAGTCCCTTTTGATGCTGGTTTTAATAAAACTGATGTAGCATTAAATTTACCAATTTGTTCATGTGGTAATGTTCCACCTTTTAATGAAACTGTTATCATGCTTTTTTTAGCACCTGCAATAGCTTTTCTAATTGCTTCAGGTACTCCATTTGCTTTTCCTAATCCTATTCCAACTTTTCCGTTTTCGTCTCCAACTGCTGCTAGTACTGAGAATGAAATTCTTCTTCCACCTTTAACAGTTTTAGAAACTCTACTAATTCTTAAAAGTTTTTCTTTGTATTCGTTAGCTTTAACTTCTCTTGCCAAAATAAATCCTCCTATCTTATTAGAATTCTAATCCTGCTTCTCTTGCAGCGTCTGCTAATGCTTTTACTCTTCCAGTATAGATGTATCCACTTCTATCAAATACTACTTTAGTAATTCCAGCAGCTTTAGCTTTTTCAGCTATTCTTTTTCCTATTAATTTTGCAGCTTCTACATTTGAACCATGTTCAACTTTGTTTCCTTTTTCAATTGTTGAAGCTGACACTAATGTTCTTCCTGTTGTATCATCTATTAATTGTGCGAAGATGTTAGTTAAACTTCTAAAAACAGTAAGTCTAGGTCTTTCAGGTGTTCCACTGATTTTAGCTCTTATACTTTTATGTTTTCTAACTCTTGCTAAGTTTCTATCTACTTTTTTAATCATTTAAACTACCTCCTATCCTTTCTTACCTTCTTTTCTTCTTATCTTCTCATCAGCATATTTAACCCCTTTACCTTTATATGGTTCTGGTGCTCTCTTAGCTCTTATATCTGATGCAACTTGACCAACTAATTGTTTGTCAATTCCTTCTACAGTTAATTTAGTATTACCTTCTACAGTAAAAGTAATACCTTCAATTGGAGCTATATCAACTGGATGTGAATATCCTAAAGCCATTGTAATTCCTTTACCTGCCGCAGCTACTCTGTATCCAACCCCAACTAATTCTAACTTAATTTTGAACCCTTCACTAACTCCAACAACCATATTATTAACATTTGCTCTTGTAGTTCCATGTAATGCTCTAATATTAGGTAAGTCATTAGGTCTTTCAAAAGTTATTTCATTATTTTCAATTTTTACTTTGATTTCCGAAGATAATTCTCTACTTAAAGTTCCTTTAGGTCCTTTTACTGTATAAACATTACCTTCATTTGTAATTTCTACACCGTTTGGTATAGTAATAGGTTTTTTACCTACTCTTGACATTTTTTTCCTCCTTATATGCGTAAATTTCCAGAAGTGTTTAGGCTATATTACCAAATGTAACAAAGAACCTCTCCACCAACACTTTGCTTTCTGCATTCTTTATCAGTTAAAACACCTTTAGGTGTAGTAACGATAGCTATTCCTAAACCACCTAATACTTTTGGTAAGCTTTCTACTGAAGAGTATACTCTTCTTCCAGGTTTAGAAATTCTTTTTAATCCTTTTATAACTTGTTCACCATCAACAGTTTTTAAAGTTACAACTATATCTTTTATACTTCCTTCTTCTTTAATTTCGTATTCTGATATATATCCTTCATTTCTTAATATATTTGCGATACTTTCTTTTATTTTAGAAAATGGTATTGCAACTTTATCATGTTTTGCAATATTTGCATTTCTAATTCTTGTTAACATATCTGCAATAGGATCTGTTAAATGCATGTTTGTCCTCCTCTCAAATATTACCAGCTTGATTTTTTGATTCCAGGTATAGCACCCTCACCAGCTAATTGTCTAAACATTACTCTTGATATTCCAAATTCTCTCATAAACCCTCTTGGTCTACCATTTACTTGACATCTATTTCTATGTCTTGTAGGTGATGCGTTACGAGGTAATTTAGATAATTCAATTAGTGCTTCTCTATCACCTTGTTTAGCTCTTGCTTTTAATTCAGCTCTTTTAGCTGCATATTTATCTATAGTTTTTTCAATTTTTAGATTTTTTTGAACCATTGCTTTTTTAGCCATAAATTCTTTTGCACCTCCTTATTATTTTGCAAATGGCATTCCAAATGCTCTTAATAATGCTCTTCCTTCTTCATCAGTTTTAGCAGTTGTTACGAATGTAATACCCATTCCTAACACTTTATCAACTTTATCAATTTCAATTTCTGGGAAGATAATTTGTTCTTTTAATCCTAAAGTATAATTACCTCTTCCATCAAATCCACGAGATGAAACTCCTTCAAAGTCTCTTACTCTTGGTAAAGTAACACTTACTAATCTATCTAAGAATTCATACATTTTTTCTTTTCTTAAAGTAACTTTTGCACCTATTAATTGACCTTCTCTTAATTTAAATCCAGCTTCAGATTTTCTAGCTTTTCTCGCAACTGGTTTTTGCCCTGTAATTTGTGCTAATTCTTTAATTGCTGTATCTATTAATTTAGGGTTATTTACTGCTTCTCCAAGACCCATATTAACTATTATTTTATCTAATTTAGGTACTTCCATAATGTTAGAAAGCCCTAATTCTTTCATTAATGCTGATACCATAGTTTCTTTGTATGCTTTTTGCAATCTAGGCATATATTTTGTAGACATTTAGTATCCTCCTTCCCTTATATTTCTTGTCCTGATTTAACTGAAATTCTAACTTTTTTACCATCTTTAATTTCATATCTTACTCTTGTAGCACTTTTTACGCTCTCGTCCCATAACATTACTTTAGATGAGAAAATTGGTACTTCTCTTTCCACAATCTCACCTTGTGTGTTCATAGCATTAGGTTTTAAATGTTTTTTCTTAAGATTTACACCTTCAACTACTATTTTTCCAAGTTTAGGGAATACTTTTAAAACTTTTCCTATTTTACCTTTATCTCCCATTTGAGAAGATTTATTGCTTCTTTTGTCATTATTACTTCTTCCACTAATTACTACAACTGTATCTCCAGTTTTAACATGTAATTTTTTAGGAACTGATTTTATTTTAGATTTAATCACAAAAAATTCCTCCTTCCTAAAGTACTTCTGGTGCAAGTGATACTATTTTCATAAAGTTTTTAGCTCTTAATTCTCTTGCAACAGGTCCAAAAATTCTTGTCCCTTTCATTTCCATTGATGCATTAAGGATAACTCCTGCATTATCATCAAATTTTATATATGAACCATCTAATCTTTTAACTTCTTTTCTAGTTCTAACTATAACTGCTTTTACAACGTCCCCTTTTTTAACACTTCCATTAGGTATAGCTTCTTTAACAGATGCTACAACAACGTCTCCTATTCTACCGAATCTTCTTCTTGATCCACCTAATACTCTAATAACCATGATTTTTTTAGCACCTGTATTATCAGCAACATTAAGTATACTTTGTTGTTGAACCATTTAATAGTTCCTCCTCCCATTTAATAATAATATATATTAAATTATTTTGCCTTTTCTAAGATAGTAACAACTCTCCAGTTTTTATCTTTACTTAAAGGTCTAGTTTCCATTATTCTAACTTTATCTCCTACACGACATTCATTTAACTCATCATGAGCCTTATATCTTTTAGAAGTTTTTACTCTCTTTTTATATAATTTGTGCAGTTTCATCGTATTTTCAACAACTACTACTGTTTTATCCATTTTATCAGAAACTACGATTCCTTCTCTGACTTTTCTTTCGTTTCTTTCCACGTGAGAATCCTCCTATTTTCCAGTTTTTTCTGTTAAGATTGTTTTCATTCTAGCTATATCTCTTTTTACTTTTCTAATTTGTGCTGTGTTTTGTAATTGTCCAAGAGTTTTTTGTAGCTTTAAATTAAACAATTCGTGTTTCAATTCTTTTACTTGTGATTCTAACTGATTTAAATCTAAATCTCTAACTTCTTTAACTGTCATTACTTATCACCACCTACTTCTTTTCTTACGAATTTAACTTTGATAGGTAGTTTGTGTCCAGCTTTTCTTAATGCTTCTTTGGCTTTCTCTTCAGATACTCCTCCAACTTCAAACATTACTTTACCAGTTTTAACAACTGCTACCCAACCTTCAGCGTTACCTTTACCTTTACCCATTCTTGTTCCTTCAGGTCTTTTTGTATAAGGTTTATCAGGGAAAATTCTTATCCAAATTTTTCCTTCTCTTTTAAATGTTCTATTTATTGTAATACGGCATGCTTCTATTTGTCTTGAAGTAATCCAACCAAATTCTTTTGCAGCTAATCCGAAATCTCCAAATGCTACATAATTACCTTTAGTTGCAATACCACCCATGCTTCCTCTAAATTGTTTTCTATATTTAGTTCTCTTAGGTATTAACACTATTTTGTTCCCCCTTCCTTCTTAGTAGGTAAAACTTCTCCATTAAAGATCCATACTTTAATCCCTAATGCTCCATATGTTGTATGAGCTGTTGCTGTTGCATAATCAACATCTGCTCTTAATGTATGTAATGGTACTCTACCTGATAAAGTCCATTCACTTCTAGCTATTTCTGCTCCGTTTAATCTTCCTGAAGTCATTACTTTAATTCCTAATACTCCAGCTTTTTCAGCTCTTTGAATTGCTTGTTGTACTGCTCTTTTGTATGCCACACGTTTTTCAATAGCTGTTGCAATACTTTCTGCTACTAATTGTGCATCTCTATTAGGGTTTTTAATTTCTAAAGCTTTAACAAAAACTTTTTTCCCTGTCATATTTTCTAGTTTTGCTCTTAATGCTGTGATTTCTGCACCTTTTCTACCAATTAATACTGCTGCTTTTCCAGTTGAAACTATTATAGTTATTTCATTTTCAGAAACTCTTTCAATAGCTATTGAAGAAATTCCAGCTTGGTAGTAGTTTTTCTTAATATATTCTCTTATTTTTAAATCTTCATGAAAATTATTTAAATATTCTTTTCCTTTTCTGGCAAACCATTTTGAATCCCACGTTTTAACGATACCGATTCTCATACCTCTAGGATCTACTTTTTGTCCCACAGACTTACCTCCTTATATACTCTTATTTTACATCCACTTCAACAGTTATATGTGCAAGTGGTTTTCTTATAATATCTGCTCTTCCCATTGCTCTTGGGTTCATTCTCTTTAGTACAGGCCCTTTATCTATTAACACTTTTGAAACTATTAAGTTTTCAGGGTTTAATCCTAAATTGTGTTCTGCATTTGCAATTGCAGATCTTAATGTTTTTTCTATTAATGGAGCTGCTTTTTTATTTGTAAATCTTAAAATGTTTAATGCTTCTAATGCATCTTTTCCTCTGATTACATCAGCTACTAATCTAGCTTTTTGAGGACTTAATCTTTGATAACGTAATTTAGCTATTGCTGGCATGCGTTTTCTCCTTTCATATAAAGTTAACTAAAATATTTATGTTAAGTTTTATTTTTTCTTATCTTTACCATGTCCATGGTAAGTTCTTGTTGGAGCAAATTCTCCAAGTTTATGTCCAACCATTTCCTCAGTTACATACACAGGTATATGTTTTTTACCGTTATAAACTGCAAATGTATATCCTATGAATTGTGGAAATATAGTTGATCTTCTTGACCATGTTTTAATAACCGCTTTATTTGATCCTTGTGCTTCTATTTTTTTGAATAAATATTGATCAGCAAAAGGTCCTTTTTTTAATGAACGAGCCATTTTTCCTCCTTACTTTATAACATTAATCTATTTTTTTCTCTTTCTTACGATGAATTTATCAGAGTTTTTCTTACCTCTAGTTTTCTTACCTAAAGCAGGTTTACCCCAAGGAGTAACTGGTGCTTTTCTTCCTATAGGTGATCTTCCTTCTCCCCCTCCGTGTGGGTGATCTACTGGGTTCATTACTGATCCTCTTACATGTGGTTTTCTACCTAAGTGTCTATTTCTTCCAGCTTTTCCTAAAGAAACTAATAAGTGTTCAGAGTTTCCAATAACACCAACTGTTGCAAAACATTCTTTGTGAATTAATCTTAATTCTCCTGATGGTAATTCAACATGGCAGTAAGTTCCTTCTTTAGCAACTAGTCTTGCTGAAGTTCCTGCTGATCTTGCAAGTTGACCACCTTTACCTGGAATTAATTCAACATTGTGTATTAATGTCCCTACTGGTAAATCTTTTAATTTTAGTGCATTCCCTGGTTTGATATCTGCATTTTCTCCTGAAACTACAATATCACCTTTTTTTAATCCACTTGGAGCTAAAATATATCTTTTTTCTCCATCTACATAATGTAATAAAGCAATATTTGCTGTTCTGTTAGGATCATATTCTATACTTGCAACTTTTGCAGGTATTCCTAATTTGTTTCTTTTCCAATCGATTACTCTGTATAATCTCTTGTGTCCTTTGTGTCTGTTTCTTCCTGTTCTGTGTCCATAGTTGTCAATCCCATAAGATGAGTTTAATGGTTCAACTAATGTTTTTTCAGGTCTAACTTTGTCTAACTCTGTATTTACTAATATAGACATATGCCGAGTCCCACTAGTAATCGGTTTTAATTTTTTAATAGGCATATCTTCCCTCCAATTTCTAATTTTTTTATGTACACCTTTACCTCGTGTGCACCTTGTAAATGCATAAAAATAAGGCGTACTTCGACCTATAATTTATAGCAATTTATCTTGCTAACTTAGTTAGTATATCATATTCAGCATTAAAAATCTAGTATTTTTTTACAAAAAAATGAGAATTTCATAAAGTTTAGAAATTCTCACTAATTTCAAAATATTATCTTAATTTATATTGCACACCAAATTCTGCTCCATTTGCTCTGTAACCAGCCTCATTAAATCTATGAACTATATTTACCCACATACTTAATCTATCATTAACATTCATCTCTCTTAATCCCCACTTTAATTCAAATGTGTTCTTGTTATTATTATATAAATACTCTTCCTTTTCTACTCTAACTCCTACCAACCTTGTATCATAAATCCAATTAAACTCTAAATATGGATTTATGTTTTTAAAATGAGTAAATAATGTAAGATTAGTCCCCAGTCTTGATTTAATATTTGAATTACCAAAATATTTTACATCTTCATCATATTTAAGTCCTGTATTAAATATATGAGAATATATTAACTGCCAATAATGACTAGAATGTAATCTCATCTTACCTATATACATATCTCCTCTTGTCCCTATTTCTAAAGACGCTTTTAATGCATGATTTATATATCTTAACTCATTTTTTATAGCTATCCTATTTTTTAAATACATATAGTTTAACCAACTATCTACATACCAATTATTATTCTTAAATGTTCCATATATACCAAGTCCAAATGCATTAGTTTTACCTAAATTATTTGCTTTATCGAAACCAACATTTCCAAATACACCATATTTATATGTTCTATCTTTAATATTACTTTCTACTAAATCATAACCCATAAAGATATTACTCGTATTACTTTTTATAGGTAAATTAAATTTATTATCACCTGATAATATATTATTAGAATATATCTTAGATAGTTTAGTCCATAGTTTTTTATTAGCTATACTTTCATTATGATCATTAAATGTTAAATTAAATTCATTTCTTGCATTATTAGTAGAATTTAATATTATTCCTATTATAGGCATATTATATGTCTGATTTAAATACCAATCATTACCTTCTAAATTTAACCCATATTTATATATACCGTATTCTGAATTTAATAAGGTAAAAGCATCTTTTGTTGAACTTTTAGTTTCTATTAATTTTAACTTATTTTTCATTCTCTTATCTAATGTGGAGTTAGGATTTGAAATCTCTACTCCTGTACTTCCATTTACTGAGCCATCTAGTTTAAGCTTATCTGATTTTAGTTCATCTATATATGTTCTCATTAGTAGTTTAGAGTTTTCTCCTATATAGTTTCCTTTAATACTGAGATTACTCGTATTATCTTTACTATTTAAAAAGCTAATCAAACCTTTATTTACAAATTTATCTTCTACTTCTATATTTGAAGCTTCTAATACATTAATAGTTGATCTTTCATTATTAGTGAACTTTTTAGTTTTTAACTTAGCTTTTCTAATAGATGGATTACTATTTTCAACTAATATTTCATTGTTCACTTTGTATTCTTCATTAATAAACTCCCATTTAGAACTATCTAAATGTAATTTCTCAAATTCTTTAAATTTATTACTATCTGTTATTTTACCCTCACCTATTAATCTTAAAGTATCATTATCTCCTTCAGTACTATCTAATTCTCCTGTTACATTATCCATTGATTTTATAGTAACTATAGTTTCCTTAAATCCTTTTCTTGATAAAAGTAAATTACCCTCTAATACTCCATTTTGTAAATTAACTCTTAAAGGGGATATTTCTTCCTTTTTATCATCTATATTTGAAGAAGGATCTTCAATAATCATATTACCTTTAATTTTACCATTATTATCTATTTTTCCCCTTAGAGCATAAAGTTGAAAATCATTTTCCGTTTCTATAGTTCCAAAATTTTGAAAATTCATATTTAACACAGACATCATATGAGCACTCGCATCCTTTATAACTCCAGTTTTTGTATTTAAAAAAATACTTTCTCTATCATCATTAATATCAAGATCTGTGTTTTGAATATATAGTTCACCTTTTATTGTTCCAGAATTTACTATCCTTGAAACAGCTGTATTTACATCAACAAATAGCCCGTTGTTAATTGTTCCCTCATTTTTTAAACTTAAATCCCCAGCACCAGCCATTTTAAAATTTTTTATTATACCATGTTTTCCATTTATTATACTTCCAGTATTTTGAGAAACAAAACTAAGAGTTTCTATCATTCCATAATTATCTAAAAAAGCTAATTTCTCTGCTCCTATTCCAAGACTACCTTTTAGTACTGAATTTTCTGAATTAACATAATGGACATATGGGGCATTTAAATCTAAAGCACTACCCTCTCCTTTTTGAGTTATTTCCTTATTATTTATTACATAAACTAATTTCCTATAATGAACCTCATCTATAACTTTGTCTTTTTGAAAAGTTTCTTTTCCACCTAAAATTATTTCTTTTGAACTCGAGATATTTGCATTATTCTCAAATATAAGACTATTAGCATTTGCATTTGAATTTACAATAACTTCACTTGATGATATATCTTCATTTATTATTATATTACCATTTTTACCATCTTTTACACGAAAGGTATCTCCTGTTTTTTCTACTCCATCTTCATCATATATTATCTGCTTTTCAATTTCCTCTATTTTTTCAAAATCTTTTTTTATCATTTCATCAACAATTTTTTCAGTAGATTGTTCAGAATTAGAAATAATTGAAAATGATGTTAAAAAAATAAACAAAAATATACCTTTTCTATACATTATTATCTCCTTTTTACCATTTTGTTATTTTTTTATCAATATTATTAATAACAGTATACCCCCCCCCAGAACATTTTGTCAACATCAAATACTAAATAAAAAAGACAACTAAGATTTCACTCTTAATTGCCTTTATTTACTTTTAAAAAATTTAATTTTCAAACTTATATATCTCTGCCTTATATACCTTCAATACTTTTGTGTATACAATATGAGATATTAAAGCTACTCCGAATGGAACTACAAAGTAAGCTATAATTACAAAAGTTAAGGCTTTTAATCCAGTTATTCCATTTACTGCATAATCACTCATGGCTTTAATTGGTCCTACAAGTCCAACAAATCCAAATCCTGAACTTACTTTATCCCCTGTTATACCTAAAATTCTTACAACTAAACCTGATATAGAAGAAGTTGTTAAAATAGGTAAAATCATTATAGGGTTTTTAACTATATTAGGCATCATCATTTTCATTCCACCCATACCAACTGCTATAGTAACTCCAGCCTTATTTACTGCCCATGATCCTATTACTAACACAGCTGCTGTTGCTGATACTCCAATATTTGCGGAACCACTTGCAAGACCTGAAAGTCCTATTGCAATACCTATAGCCACTGTAGAAATAGGCGATACTATTAGTATAGAAAATGACATAGCAATTAAAATACACATTAATATTGGTTGTAATGTAGTAAATGAATTAATACCATAACCTATAGTAGTTGAAATATGTTTTACATAAGGCAACATTAATAATCCTAAAAACCCTACTCCTACTCCAACTATTATTGGTTGTAAAACTATAGTTAATGATCCTAATTTTTCTCCTAAAAGCATAGTAACATAAGCTGCTATACCTGCAATAAGCATAACATTAATTAAATCTCCTAACCCTATTTTTAAAACTCCATCTACTCTAACTAAAGCACCTGAAGCTATCCAAGTAGCAGACATAATTATAGCTGATTTCATAGGATTAAATCCAAATTGTAAACCTACTAAAAATCCTATCATAGGAGCAACCAACCATTGAATGTCAACACAAATTTGTCTTAAAATCCCAAAAACAGGATTAAATTGTTCTAAATAACCAAATAATCCCCCTAATACTGCATTAGGTATTAATCCAACTACTATACCTATAGCTGTACCATTTAATACTTTCATTATAAACTGTTTCATAGTCATATCTTTCATCATTATCCTCCAATTAATACACTTTCTCTTCCATGAACTAAAATAGTTATTAAATCACAGAAACTTGTATCTAATCCATATTCTTTACCTTTTTTAGATACATATCCATTTAAATAATCTATTTCTGTAAGTCTTCTTTTTTGAATTAAATCTTGATGCATAGATGGATAATGTTTTACCCCTTGAAACTCTTCTGTTGTAAACCAACAAACTAAATTTGTAATTTCTTCAACATCTAATGTAGTTCCTTCTTTTTTTGCAACTGCTGCAAATTCTTCTACAATTTTACCTAATAATTCTCTTGATTTTTCAATCTTTCCTAACTGTAACATATTACAATCAAGTAAAGCACAACATGCATTCATAGTTCCATTAATACATGCTTTTCTCCAAATAGAAAATAAGATATCTTCAGAATATACTGTAGGTAATCCTGAATTATTAATACATTCTACAACCTTAATTGCATTTTCTTTCCCTGCTTCTGAAATATTTTGAATTTCTGTTTTACCATAATTAGTTACTTCAAACATTCCAGCACCTTTCATACCAGCTGTTAAAACTGTAACTCCCATTAAAATTTGTTCAGGTTTAACAAATTCTTTTAATGTGTCTATATGCCCTAATCCATTTAATAAACATAATACACTTGTTTTTTCACTAATTAAATGTTTAACATCATTTAACATTTGTTTTAATTGCATAGATTTAGTAAATACTACTATTAAATCTGCACTTTCTTTATAACCAGAAGGTAAATATGCTTCTGCTTTAATATTTTCTTCTACTCCAAGATTTTTAAAGTTGATTCCATTTTTATTAATAGCCTCAACATTTTCTTGCCATAAATCTAAAAAAATTACTTCATTTCCTGATTTTTTTAACATAGATCCATAAGTTGCACCCATAGCTCCAGTTCCTGCTATAATTATTTTCATACTTCAAATTTTTGTGATAAAAATCACATTCTCCTTTCAATTTTTATCTGTAACATGATTATATCATTAAAAAAAAGTATGTTGCAACAAAAAAATGAATATTAAATTCAAGATTTTTCATAAATCTTAAAAAACACAATTATTAAATAATAAACTCTTATTAAAGCCTTCTAATTTTTTCATTACCTCTATATATTTTAAACCATATTCTACTTTTAAATCCCCTATTTCCTTATGCAATGCCTTTTTGTATATTATAGCTTGTTTATGAACTCTAATATATGATAATTTGTTAAGATTTAATTTTGGATATTTTTCAGGATCTATTTCTATATCATATTCTGGATTAAAATATTGTTTTTTAGTTATTGTTGAAACAGGTAATATTATACAATCATTATCATTAGTTTCTCCTATAACTAAAACTGGTCTTTCTTTAAGTCCTTTTCTTCTACTCCCTATATCAAAATACGGGAAAAGTGCAATAAATATTTTACCTATCATTTTCATCTCCCTTATGGTCATTAAATTCATCACAATACATATCCCAATAAGTATCATAAAGTCTTTCTTTTTCATCAAAAATTAAATTAACATCTATATTATTAACACTCCTTTCATTTTCTAATAATCCTTTTCTTGCAAGTTTCCAAGCCCTTTCTTTATGTGTTAGATTTATAAGTTTACTCGAAGAATACAAACCATATTTTATTATAACATTATTGATTATATATTTATTAAAGGTTTTTAAATTATAGTTTTGCTTATTCACACTCCTATTCCTATATCCATTTCTTACTTTAATTGATACTGGTCCCAATCTCCAAGCTTTCATTTTCTCAATAAACAATAAATTTCCTGTATAAAGTATTGATTCTTTTTGAGTGAAATATATAAGTTTTTGTAATTTTATCTCATCTATATTTTCACTATACATCTCTTTATATCTTTTCACAATAAATCTAGCAACCTCAATAATTTTCTCCACTGTATCACCACCCATTAATATTATATCTCATAAATTAAAAAATGCAAATACTTTTTAATGTTTTTTTATATATTTTTAATTAAAATAAAAACATGCACAAAATTGTGCATGCAATTATCTATTTTTTATCATAAGGAAAATCATCTGGATCTAAACTAAATCTAACTCCTTCATCCATCATATCTATAGCCTTTAAATCTTCTTCATTTAAAATAAATGACTGAGAATTAAAGTTTTCTATTATTCTTGAAGGTGTTTCTGATTTAGGGATAGCATAAATACCTCTTTGTATATGCCAGTTTAATATTACCTGAGATGAAGTCATGTTATATTTTCTTGCAATATTTAACAGAATTTCATCGTCTAAATATTTAGCCTTTGCTATAGGCATCCATGCCTCTACTTGTATACCTTCTTTTTTTAAATATGATCTAAGTTCAGGTTGAGAAAATTTAGGGTGTAATTCTACTTGGTTGAAAAATGGTTTAATAGAGCAATGTTGTTTTAGTTTTTCTAAATGATGTATCTTAAAATTACATACACCTATTTCTTTTACAGCTCCTTCATTTTTAAGCCTTTCCATCGCCTTATATGATTCTATAAACTTTTCTGGATGAGGCCAATGAGATAATAAAATATCTATTTTTCCATCAAGTAGTTTATGACTTTCTTCAAAAGATCTCAAAGTATCATCATAACTCATATCACTTGGCCAAATCTTAGTAGTAATTACTAATTCATTTTTTAATTTGCAAGTCTTTAAAAAATCTCCTATAAAAGCCTCATTCTTATAATATGTAGCTGTATCTATCAACCTGTATCCAGCATCTATTGCAGTCTGTAATGCAGTTTTCATTTTTTCTTCATCAGTAATCTTATATACACCAAATCCTAATTTACCTATATTCATAATTCACCCCTTTATTTACATAATGCTAAAGAACCCATAGGATCCCATGGTCTAAGTACTATAGGGTCATTATTTAACTTAGCTTGTAATTCTTGTGATAAATATTTTTTATTAACTACTATTTGATATGTATATTTATCCATCCATTCATCACTCATTACAAAGTATCCTTTTTCTCCGTTTGCTTCTCCCCAGCTATTTTCAACTTTCCATCTAGTTGATTTACCATCAATGATATTTACTCCTGATAAAACCATAGCATGTGTCATTAAACTTTCACAATAATCAAGAGTTGCTGCCTTACTTTGTTCAAATTTAATTCCGAAGCTCTTTTCAAATTCAAATAAATTTAAATCCATTATTCCTAAAGTTCTTTGTGAGTTTTGTCCAACATCACAACCAAACCACACAGTTTCTCCATCACTAATTTGTCTTATAGCTAATTTTTTAAATTCATCCATAGGTAAGTTTAAATATCTAACTGGTTTACCACCTATTACATTACCTAAATATTCTACAGTAAACATTTCATAAAATGGTTTATCTTTAGTAGGTGCATTTATTATACTTACATATTCATTTAAATCCATATTGATATATTTATTATAGAAATCTTGTGGATTAATGTTTAAATCTCTATGGAATTTTTTATCCTTATCATAGTATTCAAAGTTAAATGTTTTAGGTGGAACACCTAACATAACACATAAAAAGGCATATATTTCTTCAATCATAGTTTCTTTTAAATCATATAATCCTTTTTCATCTAAATCGCTATTTCTTAATATTTCAGCATTAAGTCTTAACTTTTTATTTAAAAGTGTATTAAGCATAGCAGAATTTGATGAATGATATACTTCTGGCATAACACTTTTAGGTACTACTCCATATTTTTGTATTAAAGATACTACCATATCCCATTGTCCACCATCTTGTTGAGGTATAGATAATAGGTGATGAACTATTCTTGAATCTATATCTTCTTTGTGTGTTTTAATTATTGCATCTAAGAAAAAATTAGATTTTTCTAATTTATCCCAGAAGAAAGTATATGTTTGTGATAATTCAAAATTTTCTAAATTGTATTCTTTATTCATCTTATGTCTTAACGTATTAAGTGCAGCAAATATCCAACATCTTCCACTTGATTTCTGATTTGATACTTTTCCTGTTTCAATATTTTCAGAAAACACATGTATAGTTTCAGCAAATACTTCATTATTAATTACAGCATCACTAATCCCCATTCTAAGAGTTGCATTTTGTAACACTCTAAAATTCTTTTCGTTAAATTTTTGTTCCATTTTTTCAAGATTCATAAAAAATCCCTTCTTTCTAATCTATATATTTTATTTTTTCTTTAACTTTGTCTAGTGTAATATGTGTTTCATTTTCAAATTCTTTTTCAAGAATTTTAATTTTTTCATCTTCTAATCCTAAATACATAGCAAATGATTTTAATTGTAATTTCATATGTCCTTTCTGTATTCCTACAGTAACTAATGCCCTAAGTGCAGCAAAATTTTGTGCAAGACCTACACAAGCAGTAATCTCTGAAAGTTCTTTTGCATTAAGATTTCCAAGTATTTCAAGTGATATTTTACTTGTAGGATGAACTCCAACTGAACCACCAAAACTTGCAATAGCTAAAGGTAGTTCTATTATACCATGTAATATCCCATTTTTGTACTTCCAACTAGTTAAGCTCTTATACTTACCATCCCTTGATGCATAAGCATGAGCTCCTGCCTCTATTGCTCTCCAATCATTTCCTGTTGCAAGAGAAATAGCATCTATTCCATTAAATATCCCCTTATTATTAGTTACAGCCCTGTATATATCTGCATTTGCAAATTCTATTGCTTTTTCTATTTTTTTTCCTAAATCTTCTTCTATTTCTACAAAACATTCAGCCTTAACCATACTAGATGTAGAATAATTAGATATTATACTCATAAGTTTAGTTCCTAAACAAATTTCAACTATTACAGGAGCTATACTTTCAAGCATTGTATTTACAGTATTTGCTCCCATTGCATCTACAGCATCTACATAAAGATAAATAATTAAAAAATCTTCTTTTTTTTCTAATTTAATATCTCTTGCTCCCCCACCTAAATTTACTATACTTTTTTGAGAATCATTAGCAATTTTTAATAATCTATCTTTAATACTATATATATCATTTTTAGCTTTTTCAAAATCTTTAACATCATATATTGCAATTTGCCCAATAATTAATCTATCAGTTATTTGAGCTTTAAATCCTCCACTTTTTTTAATTATCTTAGCTGCATTACATGCTGCTGCAATTACTGATGGTTCTTCTATAGCAAAAGGTATAATATATTCTTTTCCATTGATTAAAAAATTAGTAGCTAATCCAAGAGGTATACCGTAAACTCCTATTTGATTTTCTATAAACTTATCTGCCATTTCATCACTTAAAACATCAGAATCATTTAATATATTAAATGTATCTTCACTAATATTACCATTTTCCTTAAGTAATTTTATTCTATCTTCTCTACTTTTTTTATAGCTATCTTTCCACATAATCTATCACTTCATATATTCTTTTATGATTTAATATTTCTTTTAAATATACATCATCATCAACAGCTCCTAAATACGCTGTTCCATTTTCATCTAAATTAATATCTTCAAAAAACATATTTTCATATTCTTCTACAGAATATTTTTTTCTATTATTTAATTTAATTTCTATTTTTTCTTTATCTATACTATTTTCATATCCCTTAACTAAAGTAACAGAGAAAAATTCTGCAACAGCACCTGATCCATAACTGAACATTCCTATTTTATCTCCAACTTTAATATTTTTAGAATTAAGTATTAAAGATAACATAGATAAGTATAATGAACCTGTATATATATTTCCTACCCTTTTATTATACTCTACACTTGCTTCAAATTCTTTTAATATCTTTTCATCATTTGTTATACTATTTAACCCTTTATATGCCATTTTAGTATATGGAACATGTAAACATATAGCACTAAAGTCTGTATTATTCAAATTCTTATACCCACTATATGATTTACTTAATAACTCTAAATATTTCTCAACTGAAAATTTTCCATCTACTAATGCATATTTTGAATAAGTTGGTCTCCAAAAATCCATAATATCTTCACTACATGCAATCTCATCGTTATTAAACTCAATTATAGATGGATTAGTTGAAACTAACATTGCTATAGCTCCTGCTCCTTGGGTTACTTCACCACCTGTATTTTTACCATATTTTGCAATATCTGCTGCTATTACAAGTGCTTTAGAATTAGGATTCATGGCAACATGTGCCTTAGCATAATCAAGACCTGCCGTAGCTCCAAAACATGCTTGCTTTATTTCTATACATTTACAATAATCATTAATTCCTAAATAATTTTTAATATATATACTAGCAGCCTTAGATTCATCAATAGATGATTCAGTTGCAAATATTACCAAGTCTATATTTTTTTTGTCATCTTCTGTTAATATATCTCTTGTTGCCTTTATTGCAAGAGTAACTATATCTTGATTTTTAGAAGTAAATGACATCTCAAGTTGACCTATTCCCTTAGTAAATTTATCAACATCTACATTTCTTGCTATTGCTAAATCCTTAATATCTAAATATTTATCAGAAAATTCTACCCCTATTTTATCTATTCCTATTTTCATAATTATCTTTCAATTAAAATCGAAATTCCCTGACCTCCTCCCACACAAAGAGTTGCTATTCCTCTTTTAAGATTTCTTCTTATTAATTCATGAACTAAAGTTACTACTATTCTTGCTCCACTTGCACCTATAGGATGACCAAGAGCTATAGCTCCTCCATTTACATTTATTTTATCCTCTGGTATATTTAACTCCTTATTAAATGCTAGTGAAACTGCACTAAATGCCTCATTTACTTCAAAAAGATCTATATCTTCTATAGTTAAATTAAACTTTTTAAGTAGCTTTTTAGTAGAATATATTGGAGCAAGCCCCATAAAATTAGGATCATTTCCTACAGTTGCAAAACCTTTAATACTTGCTAATATTTCCATATTATTCTCTTTTGCATAATTACTATCAGCTAAAATTAACATGGCAGCTCCATCATTAATACCTGATGAATTAGCAGCAGTTACTTTACCATCTTCTTTAAATACTGTCTTTAACTTAGATAATTTCTCTCTTTCTAAATTAAATCTTGGATATTCATCTATCATTTCATTATATATTTCAGCTTTAAAATGACCATTTTCTATAGCATTTTGTGCTTTTTTTTGTGAATTAAAAGCAAAATCATCTAAAGCTTCTCTACTAAATCCATAAACATCTACTATATTTTCAGCAGTAATACCCATGTGAGTATTTGAAAAAGCATCTGTTAATCCATCTTTTAACATATTTTCACTACCTGTCATCTTTTCCATACCACCTACTAACACAACCTCATTATTACCACTTACTATACTACTATATCCAAGTTCAATGGCTTTCATTCCTGATCCACAAACCATATTTACTAAAAAAGCAGGAACTTCGTTTTCAAGATTTCCTTTAATAGCTATTTGTCTTGCAATATTTTGCCCCAAATTATTTGCTAAGACATTTCCTAATATTACCTCATCTACTTTGATATCACTTGTAATGGTTTTTAGTAAATCGGCTGAAAAATCAACTAAATCAACATCTTTATACATACCGTTATACTTAGCTATCGCTGTTCTCATAGCTCTAATTATTGATACCAACTCTCCTCCTAAATTTTCCCATAATATTAATTATATCTTTTATTTAAAATTTTATCAACATAAAAAAAACAGAAGTATAAAATTACTCCTGTCTTCTTAGCTTATTTATGTTCTTCTTCCATTCCTCTTGCATATCCTTTACTTGCTTTTCCAACTTGGAAGTAATTTGCAACTTTACCATCTTTTTCAACAAAAGCTTCTGTCCCTTTTATTCCTAAAACTACTGTTTTATCGGCATTTGCAAACATTTCTCCTGATGCACTTACTATTCTTTCTAAATCGTGTTCCATTCCATCTACTCTAACAAATGCATGATCTCCTTTAATAATAACTAAAACATGTGAATGTGCTTCTCCTCTAACACTATGGTAATTTAAAACTATCTCTTCTACCATTTCTTGCATTGCATTAAATCCCATAACCTTATCATTCATTCTAACGAATGCATCTTTTCCTTTTATTCCTAAAACTACAGTTTTATCATCATTTGAAAACATTTCTCCTGATGCACTTTTCATTCTTTTTAAACTATATTTCTCTCCATTAATACTTAATAATGCCATATCTCCATTAAGTATTGCCATAGCATTTTGATCTTCACTACCTAATAAGTCTACTCTAACTTCTTCATGCATCATTTCCATAGCAACTTTTTCTTCTTTAACCATCTTATTTGTATTCATCATTGTATTTGAATTTGCAAATCCATTAACTGCAAGTAATATGACAGGTATAATCATCATTTTTTTCATCTAAATCACTCCTTTTCTATTTACAACTTAATTATACAACCTAATAATTATTTTTCTTGTATATATTTATTAATTTTACCTTAGTTTTTCAATAAATAATTCAAAGAAAAAAGTAGAAGTAATTTCTTACTTCTACCTATATACCCCTTATTTATGATCGTGATCATGGTCATGATCATGTTCGTGTTTATGTTCATGCATTTTTTTTGCATAACCTTTATTTGCTCTTCCAACTTGGAAGTAATTTGCAACTTTACCATTAATTTCTATAAATGAATCTGTTCCTTTTATTCCTAAAACTACAGTTTTATCATCATTTGTAAACATTTCCCCTGATGCACTTACTATTTTTTCCAAATTGTATTCCATTCCATCTACTCTAACAAATGCATGATCCCCTTTAAGAATTACTAAAAGATGTGAATGAGCTTCCCCCTTAACACTATGGAAGTTATAAATAATTTCATCTTCCATAACATGAACATGTTCTTGAGTTTTTTCAATTTTCATCATTTTTTGTGTTCTTGGCATTGCATTTGAGTTTGCAAATCCACTTACAGTTAATAACATTGCTGAAATAACCATTAATTTTTTCATTTTAATTTCTCCTTTATCTATTTGTTAATCTAATTAACAACTTTTTAGTTTCTTCCTCAAAACCAGGTTTTTCTAATAATGCAAACATATTTCTTTTATACTCTTCAACTCCTGGTTGATCAAAAGGATTTATACCTAACATATATCCACCTATAGCTACTGCCTTTTCAAAGAAATAGAACATATATCCTAAATGATAAGCTGTTGCCTCTGGTATATTAATCACAAGATTAGGTACATTCCCATCTACATGGGCAAGTATTACTCCTTTTGCTGCTTGTTTATTAACATAATCTATACCTTTTCCACTTAAATAATTTAATCCATCTAAGTCTGTTTCTTCTTTTTCTATTTGTATATCTACTTCAGGTCTATCTATTAAAAGAACTGTTTCAAACATAGTTCTTCTTGCCTCTTGTATAGATTGACCTATAGAATGTAAATCTGTTGAAAAGTCTGCACTAGTAGGATAAATTCCTTTTCCATCTTTTCCTTCAGATTCTGCAAATAATTGTTTCCACCATTCTGCGATATAGTGAAGTCTTGGTTCATAGTTAGTTAAAATTTCCATATTTTTCCCTTTATTATATAAAAGGTTTCTTGTTGCTGCATATATCATAGCATCATTTTCATAATATTCTTTAGTAGAATAATCTACCATAGCATCATATGCACCTTGCATTAATTCATCTATATTAATTCCTGCTACTGCTATAGGAAGTAAGCCTACTGCCGTTAATACAGAAAATCTTCCACCTACATTATCAGGAACTATGAAAGTTTCATAACCTTCACTAATTGAAAGTTTCTTTAATGCTCCTTTAGCTTTATCTGTAGTTGCATATATTCTTTTTGCAGCTTCTTCTTTTCCATATTTTTCTTCAAGTTTTTTCTTAAATACTCTAAATGCTATAGCTGGTTCTGTTGTAGTTCCTGATTTAGAAATTACATTAATAGAAAAATCTCTATCTCCTACTAAATCAAGTAAATGTTGTAAATATACTGGAGATATATTAGTTCCTGCAAAATATATTTCAGGTGTTTTTCTATCTTCTTTTTTCATGTTGTTATAGAAAGTATTAGATAAAAATTCTATAGCCGATTTTGCTCCTAAATATGACCCTCCTATACCTATTACTATCAATATTTCTGAATCATTTTGTATTTTTTCAGTTGCCTTTTTAATTCTTGCAAACTCTTCTTTATCATAATTTTTAGGAAGATCTAACCAACCTAAAAAATCGCTGCCTGCCCCACTTTTATTCATAAGTATTTTATCTGCAAGCTCTACAAATGGTCTAATTTGTTCATATTCATGTTTAGCAATAAATGGCTCAACATATGTAGTTTCTAATCTAAGTTTCATTTAATGTATCCTACCTTCAAATAAATATATTATAAGTATATACTAATTTGAAAATTCTTTCAATAGTTCTTTTCCTCATTTTAAAACATTGAAAATAATAAAATATGGGGTATAATATATGAAAGGTGCAATAAATTTCAGAGAAATAACCTTTTAATCCTTACGAAAAGATGTGATAGCAATGTTAAAAATAGAGGTAAAATAAATAAGACAATCTTTAATTTTTATGAAAAGAAGTGATAATAATGTTTAAAATTTTAAAAAAAATAGAGAAAAAATATATTATAAGCTTATTTTTTCTAATAGTAATTGGAGCTATCTCAGAACCTTTGATAGCTTATTCATATATTCTTTTAGGTTCTAAAATAGAGGCTATAGACAATTTAGACTTTGGTTTTCTATATATATTTATAACTATCCTTTTTGCTTTAATAATAGCTGGAATAAATTATTTATTTGTAGATTTAATAATGAATGATATTGTAACAAATATTAGAAAAAAAATATTTCTATCAATTTTAAATAAGAAATCCTCAGAAATATTAAAAACATAAAAAACAAGTTATTATAACGATATTTTGAAAAAAATTGATATTTGGAAATTTAGAACTTTAAAAAGTACTATAGACATATTTGAAAAAACACTTCAAATAATCTTAACACTTTCTTTTATAACTTTAGTAGATTATAGGGTAAGTATTGTAGTTATTCTATTTCTAATCCCCCTTATAATTAACAATATATATTTCCCTAAAAAAATGGAAAAATCATATAGAGAGTATATAGAAAAAGATAATGAACAACTTAAAAAGATGAAAGAATACTTCGATTCTATTCTAATAATTAAAAATAATAATGAAGAAAATGAATTTAGTTTAAAAATGAATGATGTATTAGAAGAACAAAATTTCTTATGGAAAAAGACATCTATATTAGGTAATTTAAGTGCTTTTATTGCAAATAGTGGAGTAATCTTATCACAATTTGCAGGTATATTTGTAAGTATATTGTTTTATAAAAATAACTATATATCTTTAGGTAGTTTAATAGCATTAATACAATTAACTATGTTTATAAATCAACCTGTAATAAATTTAATTAATTCTATAATAGGAATTAATTCTATGGGTGAAATAAATAATTATATAGAAAATATAAATTTTGATGTAGAAGAAAAAAATCATATTATTTTGATTTCAATAATATAGATATTGTAAATTTAAACTATGAATATACTGAAGATAAAAAAGTATTTAAAGATAATCTTAATATGAGATTTGAGCAAGGCAAGAAATACTTAATAATAGGTGAAAGTGGATCAGGTAAATCAACTTTTTTAAAAATTCTTATGAAGTATCTTGAAGATTTTAAAGGTGAAATACTTGTAGATAATATATCATTAAAAGATATAAATGAAGAAACTCTTAATAAAAATATTTTCTATATTCCACAAAAGATCCATATTTTTTCAGATACAATAAAAAATAATATAGATATAAAAAATAGGTATAGTGAATCTGAAATACTAAATTCTATGAGAGAAGTTAATCTTGATAAATTAATTAAAAAAGAAGATGGTATAAATTCTATTATAGGTGAAGAAATTAATACTATTTCTGGTTGAGAAGCAGCAAGATTATACATAGTTAAAGCAAAACTTTCAAATAAGAAAATTATAATAGCCGATGAAATATTATCTAACTTAGATAAAGAAAATTCATTGAATGTTGAAAAAAACTTATTAAATTTAAAAGATAAAATATTAATTCATGTTGCTCATAACTATAACCAAGAATATATGGAAGAATATGATCAAATAATTAGAATAAAATAGTTATAAAAAAGGGAGAATTTCAATTTTAGAAATTCTCCTACTTTCTTTATTTTAATCCTATTTCTAAATAAACATTAATTAAAGAAATTAGTATTATTAAAATCATTACTATACTATTTTCAAATAAGAACTTTTTAATATCATAATAATTTAAAGATAACATCTTTAAATATTTCTTACCTTTAAAAATACTAATAATAAATGAAATTATTAATATAACAGCAACTATAACTGAAGATATATAATAAAAATCTGTTTTGAAAAATAATTTAGGTAAGTTGTATATAAAATTATATGTAATATGAGCAAATATTGAATATTTTAAACCAAATTCAACATATATTTTTGCTAAAATAATTCCCAACAAAAATGATACTATCCAAGAATCTATTCTTGAATGTGATATTGAAAAGATTATTGAGGTTATAAAAATAATACTTTTATATCCTTCTTTTTTTAATGTTTCTATTAAAAAAAATCTAAAAATTAATTCCTCTAAAATGGGTGCTAAAAAACTACTTAATAAAAACCAAATAATAATTGGTCCTAGAAACTCATAATTAGATCTATAATCTAATCCTAATAATATATTTAAATTCGAAAATACATATCCTATTACTATCATTAATGATAATAAACTAAAAATGCATCTAAAAGGTGCATTTTTTATTACTTTAAAAATCTATATTAAATAAATATAGTGCAACTCAAATCTTAAGCTTTTGAGTGCACTATAATTAACTATCTTCTTTTTATTAATCTCTTAAATCCTAAAATTATAACTTCTAAAAATGTTTTAGATTTAACCATTTTTGATTTATCTATATAGTTACTAACAACCTTTAATGTTTTCTTATTATCCTTAGTAGAAAATGAAAACTTCCCATTTCTTTTTGTGAATATAACAAACCTAGTTATCCATCTTTTAAAAAAAACTTGAGCTGCAATATATTCAACTTCTTCCCAAGGTATTTGAATATAGTCATTAACATTCCTATCATTATAATATTCAAATGATTTATCTCCTACAAGAACTTTACCATAACTTGTTATTCCAGAAAAAGAACTTGCATTTATAGTCAAATCTATTTTACTACTTAAAGATTCTATCATATTACATTAAACCAGATAATCTTGCTAATATTCCAACTGCAAATAATACTACTATTATAGAAATTGGAGATATTTTTTTCTTAAGTAAATAACAACATAATAAAGTTAATAATAATGCTGATATTCCAGGTATTAATGAATCTATATTTTGTTGTAATGTAGTAACTTTATCAATATTTAATCCTGTTGCTCCAAAAGAACTGTATTGTTCTAATGCTGATTTTATTCCTTCTGCTCCACTAGGTAATGTTTCCCAGTTAATGAATGCTCCCTCAGGTTGTTTAACAATTGATACTATAGGTTTAAATGATATGCTAACCCAACGTTGAACTAATCCACCTATAATGAACATACCTAATATAGATGCTCCTTGAGTAATTTTACCAAGTAATCCACCTGATAAGTCTTTAGTAATTTTAACTCCAACTTGATATCCAAATTCTTGTGTGTACCATAAGAATGCAAAACGCATAATATTCCATACAAAGAAGAATAATAATGGTCCTAATACACTTCCACCTAATGCAAGAGAAGCTCCAAGTGCCCCAAGTATTGGTCTTGCTGTAAACCAGAATACTGGATCTCCAACTCCTGCTAATGGTCCCATCATTCCTATTTTAACCCCTTGTATAGCTGCATCATCAACAGGTACTCCATTTGCTCTTTCTTCTTCTAAGGCAAGAGTAACTCCCATAACTGGTGCAGAAACATATGGGTGAGTATTATAGAACTCTAAATGACGTTCTAAAGCTGCTATTTGATCTTCTTTTTTTGTATATAGTTTTTTAATTGCTGGTATAATAGAGTAAGCCCATCCACCATTTTGCATACGTTCATAATTCCAAGAACCTTGAAGGAATTGATGACGTAGAGCTACTTTAAAACGATCTTTTTTAGATAATGTTATTTTATTTTCCATTTTAAATCCTCCAAATTCTAATAATCATTTAATATATCATCTAATGGATCTCCTAAATTAGAACCATTATTTGAAGACGCTGCTGATTCTTTTAAGCCTAAGTAAATTAAAGCTAAACTTATTCCTATTGCCCCAAGAGCGATTAATGTTAATTGACTTATAGCTGCCAAACAGAACCCTATTATAAAGAATGGCCATACTTCTTTAGTTGACATCATATTAATAACCATTGCATACCCAACAGCTGCTATCATTCCTCCACCAATTGCCATTCCATCTGAAAGCCAAGCTGGCATTGCTTGTAATATGCTTGTAACTGCTGTTGTTGGAATTATACATAGTAATAATGCTGGTACTGCTATACGTAAACCTTGAATAAATAAAGCAAAGAATTGTAATGCTTCTATAGTTCTAATATTACCTTTTTTAGCTGCATCATCCATCAAGTGAACTATTGAAATTGATATTGTACGAGCTATCATAGTTAAGAATAAACCTGCTACTGATAAAGGTATAGCAAGTGCTATAGCTGAGTTTATTGATCTAGTTACATCTGCTTCTCCACCATTTAATCCTAAAACCATTATTATAGCTGAAGCTACTGAAGCAAGTGCAGCATCTGGAGCTATTGCTGCTCCAACATTTGACCAACCTAATGCTATCATTTGTAATGAACCCCCAAGTATAACACCCTCAGTTAAATGTCCTGTAACAAGACCTATCAATGTACACGCAACTAGTGGTTGATGGAATTGGAATTGATCTAAAACTCCCTCCATTCCAGCTAAGAACGCAACAAAAACAACTAATAAAATTGTTATTAATGACATACTTATTCCTCCTGAATTATATTAAAATTTTTCTCTAACTTTATTTAAAATTTGTTCTATGTTTCCTGGTGTATCTGCTGGAACTTTTCTAACATCCATCTTAACCCCTAAACCTAGTAATTTTTCAAAAGTTTTTACATCTTCCATATCCATAGCTAAAGAAGTAGTTACAGCTACTTTACCAACTGAATGTGCCATAGACCCTATATTTAATTCATCTATTTTCATACCTTTTTCAATAGCTTTTAAAGCATCTTGAGGTGTTTCAAATAAAAGTAGGGCTTTTGTATTTCCAAAACGTGGATCTTTATCTACTTCAACCATTTTATCTATAGGTACAGTATTAGCTTTAACACCTGGAGGTGCAGCTTCTGTTATCATAGTTTTTCTTAATGCATCTTTTGATACAGCATCTGAAACAACTATAATTCTATCTGGTCTAGTTGCTTTTGTCCATGAAGTTGCAACTTGACCGTGTAATAATCTTGTGTCAACCCTTGCTAATACATATTCTATTTTACCATCACCTAAATTTGTATTTAAGTTTGCAACTTGTTTTCTTACTTTTTTAGGTTCAAGTTCTTCAGGTTTAACTTTAATTCCCTATCTACCTTCATTTAAAATTTTTGATGCTAACTCATGTGCAGTAGTTACATCATCTCTAACATCTATTGCTTCTGCTAATAGTGGTAAATTTACACCTGTTACTATAGCCCAATTAGGATATTCTGCCATTAAAGCATTTGCTTGATTAAATGGTGAGCCTGACCATATATCAACTAAAACTAATACTTCATTTTGATTATCAAAAGATTTAGCAGCTTCTACGATTTTATTTTTCAAATCTTCTGGTCCTTCATTTGGATATATACCAACAGCAGCTAAGTTTTCAACATCTCCAAGTATCATTTTACTTGTTTCAAGAATACCACTTGCTAAATTTCCATGACTTGCTATGATAATTCCTATCATAATAATCTCCTTTCAATTTATATATATTTATTCAAAATTTTTGAATCAAAAATATTATTCAATAAACTCTACATTTTAATTATATTACATGATTTTCTAAATATCAAGAAAAAACACAAAAGAACTTAATGACTTTTTTAACTAAATTAAATTTTATTTTTATATTTCTTATAAAAATAAAAAGATTAACAACTGCTTATTACAGAAGTTAATCCTTTTGTTATAATTCCTTTAAAAAATTAAATATATTTTGAGTTCTTACTTTAGTAAAAAACTTCATTTTTCTCTTTACTCCATTATCATATTCAATAAAAATACTCCCATTTTTCATTTCAATATTAGATATATTTTCTCTGATTATAATATCAGAGCCTAGAATTATAGTTTTATCATCATAATAAACTGTTCCCATATTAACAAAAATTAAAGCAAATAAGTATATTGCAAATCCTAATCTAATAACTTCTAAATTTTCCAAAAACACACCTAAAATTAAAACTATAAAAGACAGAAAATACAGGCTATGTAGAAAAGAATCACTAGAACTAATTTTTTTAAATTGCATCTTATTTATTATCTTTAAAAATTCTAAATAAAGTAAATATATATTAATTATGAGTGTTGTTATAGCAATTATTATACTACTTAAGTTATTAAAACCATTTAAAATTAAGAAAAAATATAAAGGGATGAAGATAAAAAAATAGTATATAATTTTTAATTTTGTTTTATGCATAAAACCTCCTAAAATGTAATAGTAGCTATAGTTTTAATATTTTTACAATTAACTATATTATACTTTAACATATGTATATAGTCAATATAAATTATGTGTCATTTTAAAAATGACAATCAGATATATAGGTCTTTGTCTAAAAACAAAAATTAAAATAAAATGTTGATTATTAATATATATTAATTAATAACATATTTCAGATAATGAAAAATTAACTATCTTTTTTACTATTTCTATATATCCAATATGAATAAACTATGATTAGTGGAAAAAGAATAAAAGCAAATATGTATAAATAAGGTATAAATACAGATAAAATTGTCATTATTCCTGAAATCACAAGTATTTTACCACCAAATCTATGTGTCTTATTCCAATTTTCTTCATTATTTAAAGTCCAAGGAGTTCTAATTCCTACAGTATAATTTTGTCTAGTTTTAGGAATATAGTTTCCTACTACTATTAAAACTATACCAACAAAAATTTTTGTTATCATTAACATATTTATGTTATATCCTAAAGATGCTAAAATAACTAGTATTACAACAATATTAATGAATATAGGCCCTATCCATAAAACATTTTTAAATAAAAAGTTATTCTTATTTTCAATTTTTTTAGGATCTGCTTCAAGCATAAATATTGAAAAAATATTTAAAACTGCAAAAAATATAGGCATTCCAAATACAAAAACTTTTTTAGAAGTATATCCATCAATCTCTCCTGAGAAATTCCAATGTGTTGGAATCATTTCAGGTAACTTATCATATACCAATAAAGCATAAACTATAGGTAATAGACATAATAAAATAGAAATTAATATTTTTCTTTTATTTAACATATACATCATCTCCTTTAAAATTGTTAAACCATAAAATTAATTCTTCAAAAACTGAAATATTTAGTTCATAATAAATATAGTTTTTAAATTTAGTTTCATATATTAAATCAGCTTTTTTCAATAAATTCAAATGATATGAAACTGTTGGAGCTGTAATATTAAATGAACTAGCAATATCTCCTGCATTCATTTTACCTTTTTTTAAAAGTAATAATATCTCTCTTCTAATTGGATCTGAAAGAGCTTTAAATGTATCCTTAAACATAATATCTCCTCTATTTCTATATTTATCTAATTAGATTATATTCTAAATAAATTATTTTGTCAATATAAAAGAAGGCTTTCGCCTTCTATTTTAAACTCCTGAATAAGCTGAAAATCCACAATCTACGGGTATACATATACCTGTAACTGCACTTGATTTATCACTATCTGCTAAAAATTCTAAAACTCCATTTAATTCTTCTGGTTTAACAAATCTTCCCATAGGTGTACTATTTAGAATTTTCTCTGTTCTTTTAGTCGGATTTCCATTATCATCAAATAGTAATTTTTCGTTTTGTTTAGTTCTTAAAAAACCAGGAGCAATTGCATTACATCTTAATCCAACATGTGAAAAATGTACTGCTGTCCATTGTGTAAAATTACTTACAGCAGCTTTTGCCCCTGAATATGCAGGAATTTTTGTTAAAGGAGTGTAAGCATTCATGCTTGAAATATTAATAATATTTGCTCCTTTTCTTCCTATCATATCCTTAGCAAATACTTGTGTAGGTAAAATAGTACCTAAAATATTTAAATCAAATACAAACTCTATTCCTTCTTTTTCTAAATCAAAAAAGCTTTTAATTCCATTTAAAATATTTAATTCATGATATTCATTATCTGTTGTTGCCTTAGGACTATTACCCCCTGCACCATTAATTAATATATCACAGCCCCCAAAATATCTATCTACCTCTTCTTTAGCTTTCTTTATACTTTCTATATCTAATACATTACATCTAATAGCTAAAGTATCTCCACCATTTTCATTTATTTCATCTGATACTTTTTTAGCCATTTCAAAGCTTAAATCAAGTAATGCAATTTTACATCCTTTTTCCGATAAAAACTTAGCCATTTCTGAACAGATTATTCCACCTGCTCCTGTAATAACTACCACCTTATTTTCTAACACTTTCATTCTCCTTCATTTTTTTACACATTTCCCATAATCCATTAATATATGTAGCACCTAAAGCCCTATCATAAAGTCCATACCCAGGTTTTGACTTTTCTCCCCAAATTTCTCTACCATGATCTGGTCTTAAATATCCTTTAAATCCCGCATCATAATATGCCTTAACTATTTCTGCAAAATCAAGAGATCCCTCACTAGATAAATGCCCTGATTCTTCAAAACTTCCATCTTCTAAGATTTTAATATTTCTTAAGTGTGCAAAAGGAACTCTTCCCATTCCTGCATATTTTTTTACCATAGCAACAAAATCATTTTTCTTGTTACATCCAAGAGAACCTGAACATAAGGTAATACCATTATTTTTAACATCATATAGCGATAAAAATCTATCTAAATCTTCTTCATTTTTAATTATTCTTGGTATTCCAAATATAGGCCAAGGTGGATCATCTGGATGTATACCCATATCGATATCACATTCAATTGCAACTGGAATTATTTCTTCTAAGAATAATTTTAAATTATTCCAAAGTCCTTCCTCACCTAATTTTTGATATGAATCTATTAACTCTTTTACTTGACTAGGGCTATATGACAAATCCCAACCAGGAAGTGCAAGCTTAGTTGGATCAAGCTTTTCTATTTGTGATCTGTAGTAAACCAAAGCTTTTGAACCATCAGGTAAGACCTTATCTAACTGACTTCTAGTCCAATCAAATACAGGCATGAAATTATAGCAGATAGTCTTAATGCCTACATTTGCACATCTTCTAATATTTTCTTTATAATTTTCTATATATTCCTTATATTTCCCTCTTCTTAACTTAATATCTTCATGAACAGGAATACTTTCTATAACTTCCATATCAAGATTATAGCTATTTACCATTTCCTTTAACTCTATTAAATCTTCCATAGGCCAGATTTCACCTACAGGAACTGAATATATTGCTGTAACTACTCCACTCATACCTGGTATTTGCCTAATATTTTCTAATGTTACAGTATCATCTTTACCATACCATCTAAATGTCATTTTCATTTCTACTCCAATCCAAAATACTCTAAGGCATTTTTATATGAAATATTTTCAATTAATTTTCGCAAAAGTCTATCATCATTAGGTATTTCTCCCTTAATTACCAAATCACCTATAAATTCACAAAGTATTCTTCTAAAATAGTCATGTCTAATATATGAAACAAAACTTCTGGAATCTGTTAACATTCCTACAAAATTCATTAATAATCCTTGATCAGCAAGTGATTTAAGTTGTCTTAACATACCCTCTTTAGTATCGTTAAACCACCAACCTGAACCGTATTGTAAATATCCTTTAGGAAGATTTGAACTAAAATTAGCTAAACTACAAGCTACAATATTATTTTGACTTGGATCTAAGTTATATATTATGAATTTAGGTAATGAATTATTTTCTTTCATCAATGAAAGCAAAAGATTTAAATTTTTTGCAACATTACCCTGATCCATTATAGAATCTGAACCTGCATCAAATCCTATGGTTTTAAGTAATGTTACATCATTATTTCTAATTGCTCCAAAGTGAAGTTGCATTACCCAACCAAGTTCCTTGTATTTTTTCGATAAATCTATAAAAAAGGCTGTTAAATATTTCATATATTCTATATCTGTAATACTTTCCTTATTTAATACCTTAGTAAATATATCTTCTACTTCTTCTTTACTATATTTAGTAAATTCTAATTTAGATATTCCATGATCAGATATATTACAACCCTTATCATTAAAATATGTTATTCTTTCATACATAGCTTCTATATATTCATCATATGTATTAATTTTTTTTCCTGTAATTTCAGAAAGTTTATCAACATACATTAAAAAAATTTCACTTCTCAAATTAAAGAAGGCATCGGGTCTAAATCCAGGCTCTACTCTAACTTTAAAATTAGTATCTTTTTTAATTTCATCATGATATCTTAAATCATCGAGAGGTCCATCTGTAGTACAAACATATTCCACATTTGATATTTCTATAAGTTTTTTAGGGCTTAATTTCTTATCCTTAATTACCTTATTTGCCCTTTCCCATATTTCTTCCCAATTTTCACCATTTAATAATTCATCTATATCAAAATATTTTTTTAATTCCATAGCTGACCAATGAAATAAGGGATTTCCTAAAGTGCTTTCTAAAGTATATGCCCATGCCTTAAATTTTTCCTTATTACTCACATTTCCCGTAATATTAGTTTCACTTACACCGTTTGCTCTCATTGCTCTCCATTTATAGTGATCTCCTAATAGCCAAATTTCTGTAATATCTTCAAATTCTTTATCTTCAGCTATTAACTTAGGATCTAAATGGCAATGATAGTCTATTATTTTTTTATCTTTTGCAATGTTATATAGTTTTTTTGATATGTCATTATGTAACATAAAATTATTAGTTATAAAGGTCATTTTATGTTATCCTTTCTATTTTTTTAATGTCGATTCTCTAACTATTAACTCTGATGCAATTTCAAAACTTTTATCTATCTCATTATTATTTTCTATTTTATCTATTAATATTTCTAATAGTTTTTTAGCAATTAATTCAAAATTTTGTTTTATAGCTGTTATAGATGGTGTAAGTGCAGAACATATAAAGGTATCTCCAAAAGTTATTACTTTAATATCTTCTGGGCATTTAATACCTAATTTAGAAAATGCTCTTAAAGCCCCAAAAACTGGATAATCTGAATCTAATAATATTGCATCTGGCAACTTATTTTGACTATGTAATAAAGATATATATTGCTCTACACTTTCAGGAGAAGAAAAACCATCTATAACATTTTCTTCAAGATATTCTATTTCATTTATATCTAAAACTTCTTTATATCCTTGTATTTTTTTAATTGCTGTAAAACTATTTTTATTATCTAATAAGAATAATATATTTTTACAATTTTGAGTTATTAAATGTTCTGTTGCAATAATACCACTTTGAAATTGATCAGTACCTACATAACTATAGTTTCCATATATACCTGAAATAACAAAGGGTAATCCACTTTTTTTAACATATTCTATATCTTCAATTTTTTTAGGATTTAATAATATTATTCCATCATAATATCCTTTAGAAATTCCTCCATAAGGATTTTCTTGTAAATCGTTTACCGAATTATATACTATAATTTCATAATCATTTATCTTTTCTAAAATATATTGCATAATAATATAGTTTTTATTAAGTGGATGTTTTTTAGATATATTTGCTACTAGTGCTATATTTCTTGATTTACTTTCAGATAATCTTTTAGCATTGTAGTTTATACTATAATTATATTTTTTCATAATATCTAAAACTTTATTTCTAGTTGAAAGCTTTACTCCACTTTGATTATTTATTACTTTTGAAACTGTTTTTGTTGATACATCTGCAATTTTAGCTATAGTTTTAATAGTTATTTTTTCATTCATAAATTTCACATCTTTCTTAACAATATTTATACTTAGATATTATAACTTATTATAAAAATTGTCAACAGAAAAATGTACAACGGTTACCTCTTAGAGTTCTTTAAATCACTTATATGTTTTTGTATTTCTTCCATTTTCTCAGCAGTTAATGGATAAAATTTTAATGAAATAACTGAAGCTATCCACCCAAGTATTGGTAATCCTAAAAACAGAAACATAGCTGCATAAAATAACTGTGGAGTATTCACATCCCCTATTTTAGGAAATCCATTTGTATATCCTATCATAGCAATTACAACTCCTATTATTGTTGTTGAAATAGAAGATATAATTTTATCTACAAATGAGAATAATGTTCCCATCATACCTGGTACATACTTACCAGTTCTGTATGTTTCATAATCTGAACAATCTGCTATGGCATTAATTGTTAATCCACCACTTGCTCCAATAAGTCCTCTTCCTATACACCAAAGTGCTATAAAAGCTAGAGTTTCAAAGCCAAATAAATTATTTGCACTAATTTTTGTTGGATCTCCAAATTGGAATAATAGGAATAATAACATGTAAGTTATAATAGCACCCCAAGCAGTTGTTATCATACCTTTTCTTATTCCAAGTTTTCTTGAATATTGAGCAAAATATTGTAATAGTATGAATGCTGGTATTATAGTTATTAATGCAAGCTTAGATTGTAAAGTATTATCTCCCATTATGATACCATAAACCATTATTCCTACAGCTGCATTTCCAGCAGTAGTTAATGCTATCTTATCTGTTGATGCTGCTACTATTAAAGTTTGTATAGCTCTATTATTTTTTATAATATCCACATAATCTCTGAATTTAATATTTGATTTAACCTCACCTGTTCCAAAAAATTCTAATCTATCTTTTTGATATATACCTATAACTGATAATATAGTTAATATTGCACTTGCAAACATAAATGTGAATACAAATTCTCTAAATAACTCTAAAGTAAATGCATTACCATATTTAGGTAATAAATATCCATTTACATAAGTTGGTAAAATTAATGAAAGAAAAACTAGGGTATAACCACCTTCAAAGCTTGAAAATAAAGGTCTTTGTTTAGGATCATTAGTAATACAAGCCTGACCTGCTTTAGTTACAGCTGTTTGACATGTGTATCCTAGAATATATATAACATAGACTACTAAGAAAAAAGGAAATCTCATATTTTCAGGTAATGTTGGTGTAACTATGTATATTAATGTCATAGTAATAGCCATAATTATATTACCCATAATCATATATGGTCTAAATTTACCAAACTTACCATTAGTTCTATCTATTAAATATCCAACTAATGGATCTGTAATACCATCAAAAATTCTCATTGTTGTTAATATATTTGAGATAAATACTGTAGCAACTCCCATAAATCCAGTTGCAAAATATCCTAAGTAAAATGTCAATGCAAAAAATATATTAGTTGCTGTATTATTTAACGAAAATAACGCTATTTGCCAGATTTTTGCTCTATTGTATTTTATATTTTCCATTTTATCCTCCTATTATTTCACCTTATTAATTAAATTCGGGTATGTTATTCCATCTTTTTCTTAAATGATGGGCTACTAGTTTTGGCATTCTATCTCTTGTAAATACACCTTTTTTATTCCCCTTAACCCTAAATATTCCAAATTTTGTTTGAAAATCTGAAAAATTCCATGTTTGTTCACCTATAAAATAGTCTAAACTATCAAATACTCTTTCATTCATTTTGTAATATTCAACTTGAAATTCTTCTGTAAATGGTGTTCTAATATCTATATCATGCATACCAGAAATAGTATCTGCTCCATATTCTGTAAACATTATTGGTTTATCTGGAAATAATTTATGCCAATATTCTAATTCTTTTCTCATATTTTCTTCTGCTGTTTCTAAATCAGATAAATCTACATACCAACCATAATATCTATTTAAACAAATTACATCACATAAACTAGAAACTAAACATTTACCAGCTGGTGCAAGCATAATATTTGCAAAAGTACATGGTCTATTTTGATTATCTAAATCTCTTGCCAGTTTAAATAAAGGTTCAAAATACTCATATGCTCCAATTTCAGAACTAGCTGGTTCATTAGCTATAGACCACATTACTACACATGCATGATTTTTATCCCTCTTGATTAATTCTTTTATTACCTGTTCATGAGCTTTTCTTGTATCTAAAGTTTTCCAAGTATTTTTCTTTTCTTTACTACCCGTAAGATTAAAACCAAAATTTTCCATTAATCCCACAGCCGTTGTTTCATCTATTACAACAAAACCTTCCCTATCTGCAAGCCTCATCATTTCTTCAGAATATGGATAATGTGATGTTCTAAATGAATTAGCTCCTATCCACTTCATTCTACTAATATCTACTACATTAGAAACTTCATCTAATCCCCTACCATGTAAATATGTGTCTTCATGTTTACCAAATCCTTTAAAATAAAAAGGTTTTCCATTAATTAAAAACTTATTATCTTTAACTTCAACAGTTCTTATTCCAAATTCTTCTATATACACATCTTCCATTTTGCCTGATTCATTAAATAATTCTACTTTAGCCTTGTATAAATATGAAATTAATGGTTGCCATAATATGACATTTGATATATTTAGGTCATTACCTCTTGCAACTATATTATCTTCTTCATCTAAAATAGTAATTCTAATATCTTTTAAATCCCCTATTACATCTACTTTTATATCTATATTTGCATCTACTTTTTCATCTTTATTAAACACATCATATGTAATAGTTATATCTCCTATATGATTTTTAGGTTTAATCCATAATTTTACAGGTCTATGTATACCAGCATAATTAAAAAAATCAAAATTTTCATCTACTACTTTTTTTACTACATTTCCATTTTCATCCTTAATTTCTTCATAATTTCCTACTGGAAGTGAACTATAATCTAATATATTTGAAACTAAAACATCTAATTTATTTTCACCTAAATTAACAAATTCTGTAATTTCAAATTCAAAAGGAGTAAATCCACCTTTATGTTCTCCTACAAAAATATTATTAATATATACTCTTGCATTATGTGATACAGAACCAAATCTTAAATATATGCTTTTGTCTAACATGTATTTAGATACTATAAAATTTCTTGAATAAGTCATATTACCTACATAATGCTTTTTTTCAAATTCAGAAAACTGATCATTAAATGAGCCTGGTACACTAATCCTATATTTTGTTAAATCATTTTCAAAACTAAAATCCCATATGCCATTTAATTCTATAATTTCTCTACTTAATGTTGATAATGGATATAGCATAATTCCCTCCTTATAACTTAGCTTGCCATTGACCAGCCCATACATTTTCATTAAAATGTTTTCCTTTAAATTCTGATTTTCCCATTAATTTTTCTATTAAAGTATCTATAGTTACTTCATTATCATAATATGCATTTATATAGCATTTCACCATAGTGGCATCATGTAAATGATTAGTGAAATTAAAAGACACCATTACTGTTGGTACTTCATGTACATACCATGGAATTTCATTAGACATAGGTCCACTCCATTTTATTCTCATATTATTTGCTTCAGCATATCCTTTAATATTTGCAAAAACTAATGCTAAATCTACTTCACTTCTATACTTTTCTATAGACCCCTTTTCTCTTTTTCCTGATTCATTTACAGTTACTTCAAAGCCTTTTTCTTCTAACTTCTTAATACAATATTCTTGAAATTTTTCATTGGGTCTATATATACCATTTTTCTCTCCTTCAAGTATATATAGTCTAACTTTTTTATGTTTTTCAGGATTAATAGGTAATTCAAATTTAGTATTCTTTATCAAACTAATACCTTTATCTACTGCTTCTTTTTGCATTTTAATATGTTTTTCACAACCTATTAAATCTAATCCTTTTTCATCTTTTAATAAAGTATTTTCTTTTTGTCTAATATGTAAGTTTAACTTTGCTTTTAAACCTAATATTCTTCTAACTGCATCATTTAATCTTTCTTCTGTTATTATTCCCTTTTTATAACCATCTAACATATATTTAAAATCTTCATCTATATCATTAAAGAATAAGAACATATCACAACCTGAAGCTATAGCTAAAGGTACATAATCTTTTCTTCTCATACTAGCTGTCATACCTAACATATGAGAAGCATCTGTAATTACAAGACCATTAAATTTTAATTTATCTTTCAATAAATCTTCTATTAATTCCTTAGATAATGTAGCTGGCAGAATATCCTTATCTTCAAGACTTGGATTTATTAATTTCTGATAATGTGGAAGTGCAATATGCCCTGCCATTATCATTTCTACACCATTATTAATATGATTTCTATAAACTTCTCCAAAAGATCTTTCCCATTCTTCTACAGTTAACTCATTTACTCCTAAAATTAAATGTTGATCTCTTTCTTCTGTTCCATCTCCTGGGAAATGTTTAATACATTTTATAACATTACTCTTATCAAGACCTTCAAGATATGCATTACTATGTTTAATAACAATATCTACATCTCTACCATAAGCCCTTGTATTTACTATAGTATTTCTCCAATTTTTTAATACATCTACACATGGATCAAAATTAACATTAATACCTAATGCCTCTTCTTCAACTCCACTTACATAACCTGCATTATATGAAACTTCTAAATCTCCACTTGCTTCACACATAGCAGCTGTTGCGATATATGTACCATCTGAGCATGCTCCATTACCACCTGAATCACAATTTGCAGCAATAAGTAAGGGTATCTTAGAATTTTTTTGTAGATTATTTAAAAGATTCATTACCTCATATTTATTACCACCTTGATACCTTGCACCACCAACTTTAAATTTAGTAATGATCTCTTCATTTGAATACTTTGATTCTGTAGCTAGATCACCTAACCAAAACAGATTAAAAAATAGTTGACCAATTTTTTCTTCATCTGTAATACTTGATAAAGTATCTTCTACCCATTTAATTTGTTCATCATCTAAATTGTATGGTTTTTCCCTTAAATTAACTAATTTTGACATATTACCTCCATTTCTATAATTTTTTATTATATTCATCAATATATTTTTGATCATCATATTGATTGTTAATAAACTCATCTAAAATCTTATCTTTGAATCTAGCCCAACTTTTAGATTCATCATCAAAAATTATTGGATAAAAATGTATTCCATTATCTTTTGCAGCAGTGATATCGCCAGGTGAATCACCTATCATTAATACATCATTTACATCTAAATCATTATCTATTAATATTTTTTTTATACAATCTTTTTTACTTCCTGTATCCTGACCCATTACTATATCTACATATTTAAGTAAGCCATGTCTTTCCCATTCAGAAAGTATAGCTTCCTTATTAGCAGATGAAACTATTACAATTTTAACTTTGTCCTTCATTACCTCAAATACTTCTTTTACCATATCAAATGGTTTATCCATTCCTTCTAGTGAAACTATTTTTTTATTTACTTCCAAACTCCAATTTAAAGCTTTTTTAAGTTCTTTTGAATCAGTAATCTCTATTTCCTTAATTAAAGAATTGTTTGATAACTCACTAGTTGTTTTTATCCAATTATCAACTTCATTAAGTTTTGTATACTTGGGATATTTTTCGCTAAATATTTTAAAAATTTCATTTAATCCGTGAAATCTATTTATTCCTCTAGTTTTTGAATAAAGGTTAATATGATTCCATAATGTTAGAAATTCTTCTCTTTCTTCAATATTCCAAAAATCAGCAGCAATAGGACCAAAACATTCTATATGCTTATAGTTCATAGTATCCATTACACATCCATCAGAATCAACACATACAATTTTTTTCATCATTTTTCACTCCTTTCACTTTTAGTAATCGTTTACCATAATTAATCAAATAAAAAGTTACAATAAGTAACCGTTTACCAAATGTAATTAAATAAAATAAAGTAAGGACATTTACTTTATAGAAACCGTTACACTACTTTTTTCAAAAATAGTATACCTTGAAAATTTAAATAGTCAATACCTTTTTTACTTTTTCATAATTTTTATTGTAAAATAAAAAGACAATACATTATGTATTGCCCCATTTAAAATGTATATCCTGCCTCTATACCTAATACTCCCTTAATATTTCCTGTATAAACTGCAACATTATATTTATCATCTATCTTAAGCCCAAAAGACATTTTACCTACTGTTATAAGTTCAGGATTTTTTAATGTTCCATTCTCTATTAAAGGACCTATTCCTAATCCAATTTCTGCTCCAGCATATATCTTAAGTCTTTCCTTTAAATTATAGTTAAAATCTACTTCTCCACCTAAAGCTATGTTAGGAGTAATTTTTTTTGTTCCTGTTGATTGTATAATTGTAGCAACATTTAAATTCACTTTAGGTCCAAAAGTAACATAAAATTTTTCATTAATATCAGCTTTCCATTCTGCTAGAAATGAAGTTGATGTAGAAATATATTCATTTGCTTTAACATCACTTTTAGTACTAATAGCTCCCAAAGCTACTTCTACTCTATATCTTGGTCCAGATAATTTAGTAAAAGCTTCATCTACTTTTTTATTTTCTTCTTTTTTATTTAACATATAGTTTGTGTTATTTAAATTATTTATTTCATTTCTATTCTCTATTGTACCTAAATCAGAAATATCACTAACTTTATTATTTTCTACTGAAAATGAAGTTAATCCAATAAATAGAATTATTGATAATAATATTTTTTTCATATTTTTTCCTTTCTTCTAAAAAGTGTACCCTGCTTCTACACCTATAACACCCTTAATATCTCCTGTATAAAATGCTAGATTAAATTTATCTTTTACTTTAACACCTAGCGAAATTTTACTTTCAGTTTTAAGTTCAGGTCCCTGAAAATGATTATGGCTAGAACTAACAAATGCTTGAAATCCTATTCCTGTTCCAACTTCCATACCAGCATATATTTTAACATCTTCTATTACTTTATAGTTAAAATCTATTTCTCCTCCCAATATTATACTAGGATTAATAGTTGTAGCGTCCATACTTCCTATAAAGTTTTCAAAATTTAAACTAACTTTAGGTCCAAAACTAATGTCAAATTTCTTATTAAATTTAAGTTCCCACTCAGGTAAAACTGAAACAGAGCCTGAAAAAAATTTATAACCACTTGTAAGTGCAAATCTTCTATCATCAATAAATCCTGTTGATATATCAACTCTATATCTTGGTCCAGTAAAATTATTTGAAAGTGATATTAACCCCCCCCCGACAAATAATATAGACAATAGTAATTTTTTCATTATTATTCCTTTCTATAAAAAATATTTTATTATATATTTTGGCTTTTTATTTTTAATCCTTATTTTTCTGCCAAAGAGAATTATACTTTATTTTTTTAAATTTGTCAATTGTAAATAAGTTATTAGGCATGGTGTCATAACAAATGCACAAAATTATTTTCTTTTTTCTTTTTTTGAATAGCAAATGCACAAAAAATAAATTGTATCAAAATAAATTTTATGTTAAAATTATTTTGACTTATTTACATAAGATGAAATACTTATTTCATCATATCTTATTTCCTCTATATTTAATTTTTCTAGTATGTATTTTGGGAAAATCTATAGAAACATTTTTATAGGGGATTTATTATTATATTTTACCTTATACAAACTATTTAAATTTGATACAATATAGTTTATATCATTTTGACTATAATTTTCTATATCTGTCCCCTTAGGTATAAATCTTCTTAAAAGTGTATGAATATTCTCTATATTTGGCTTTTGATAAGGACTTGCTGGTTTACAATAAAATATTTCACATCTTTTTGTATATGAACCATATACACTCCTACTTATTTCTTTATACTTTAAAAATTCACTACCTTGATCTGATAATAAAAGTCCAAATAATCTCTTAAAATATTTATGACCTATCCTTCTTTCAAGCCAATCTAATACTTTTACAACACTTTGTGGTTCTTTATTCTTTATCTTAAATGCAAATAGAAATTGTATCTTAGGTATAAAGAATGTAAGCAAATAATTTATTCCACTATCTCTACTACCTTGTACTAAATCTAATTCACATATTGTAAAATTCTTATTTTTAAATACATAATTTAAAAAATCTTCATATTCTTTTCCCTCTAATAGTTTTTTCCTACTTAACATTTGATAAGTTTGTTTACTTTCATATTCCTTTACCTTAACTTTCTTTATCTTCTTTTTATCATATTTTAATAAACCTTTTTCAATCCAGTTATATATAGTCTTTTTAGATATTTTCTCATTATATTCCTTTTGTAAATATGAAAGTATATGTGAAATAGGTTGACCTCTTTTTAATACTTTCTTTTATTTCTATCATAAGATGCTTGTGCTATTTTACTATCATATACAACATAATCATATGTACATAATTTATTTATATATCTAGGACATTTATTACATACTATAGGTTGTTTCTTTAGTATTTCACATATATTATCTTCTATATTTTCTAAATGATTACCTATCATTTTATCGTTATATTTTAATATTCTTCTATTTTTTATTTCTCTCATAACGGTATGATATTATATTTCTAATATATTTGAAATCTCTTTAATTGTTTTACCTTCTCTTATACATAATTCTATTTTTATTCTATCTTCATATTTTAAGTTTTTATTCATTTTAATTACCTTTCTTTTTAATCAAATTTTGTGCATTTGTTTTTTTTACTTTTGTGCATTTGACCTTCAAAAATAGAATAATGTATTACGCCTATAGTATTTAAATATTTATTGCCTATTTTGTCAATTAATATTAAAAATGAACTAATTTGTAAATTCTTAATTGTCAATACATATGTTACATAATAAGAAATAAATTTAATATAAGTTAGAGTTAGTTAATTGTCTAAGTGTTTAATTAAGTGTTTAGTTTAGTTAAGTGTTGTTTAATGTTTTTTAATTGATTGTTAGAGTGTGTGAAGTGAGATTGGGGCAAATTTGGCTTTTTTGCCCTTTTAAGCCTCTTTCTTAACCTTAGTGAAGTATTCCCTCACAACCTCATTTGGACTCTTAAAATTAAGCACTGTCTTTGCCCTATTATTATACAGCCTTTCATGCCTTTTAACATTTTCTATTAATTCTTCCTCGCTCCTAAATTCTTTCCTACTATACAATATCTTTCCATCTTCCCTATCCGTTACATCTTTATCATTTACAAACTCATATCCATTATCTACCTGTATAGTCTCTATCTTAAAGCCTATAGCCCTTTCTAACTCCTTAATGTACTTTGATGTCTCATATGTACTCTTTTCCTTTACAACCTTTAATACCCTCTTCCTACTATACTCATCTATAGCAGTTATCTGATAATATCTAATCCCCTTTGATCCTACACATACTACCAAAGCTTCTATTATACCCCTTATTCTTACAACTAACATATACTTGGGCTAATCCATAACTTCCATGTTTTTTTAACATATTCTTTATTAGTATTAATTCTTCTTCTGTATGGGCATTTGGGCTTGTATGGGGCTTTCTTGAACCTATTATTTGTATGATAACGCCTTGCTGCTTTAGTTACTCCATTTTTTATTGCATATTCACATAATCTATGGCGAAATTTCATTTCTTCTGTTATAATACTCATGAGAGATACACCTTTGATTGTTTTAGTTTTTGTCAAACTCTATTATATCAAATGTATCTCTCTTTTTTTATTTTTTTGTTACATATGTTTTATCACATTACATATTAAAAATGAACTAATTTGTAAATTAGACAGAAGTCCCTTTTTTACTAAATTAGTTCATGTTTTACCCTTTGTGCATTTGTTTTTACACTATGCCAAATAAGTTATTATTTCACAATAAGATAAATATATATTCTGATTTATTCCAATTCTAATTTATATTACTAAAAATAAAGGTATAAAGCCATAACTTTATACCTTTTCAATGTTATTTAATTCTATATATTGCTGATTCATTTTTACTATGATTTGCAGCTATTACTATATCTTCATTTTCTAAATTAATAGCATCTAAATTAGCTGTACCTACTCCTTTTTCTATGGTAGTGGCAACATATTTCCCATCTATATATTGTATATAGAATAACTCAGAATCTAATCTTCTAACACCACAAACAAAAGTATTAACTCCTCTAAATTTAGTTGCAATTAAAGCATGTGCAAAGTCTATTTTATTTTCATATTCATAAACTTTAACTAATTTTCCACTACTTTGATTATATATTCTAATTTTATCTCCATGGAAAGCTTCTATAGTTATTATTTCATCTATTCCATCACCATCTAAATCTGACAGGGCTATTTCTCCTGTTGGGAAATCACATAATCTTTCAAATTTCCAATTAGAAATATCACCATTAATATATAGCTTATCTATACCTTGATCACTTCCAAAATATATTTCATTATGACCCTCTCTAGTGTCATGATAAAATCCGTGATTTCTATATAGGTCTGTTTTTATTTCCTGTAATTCAATTTTTTCATTTAAGTCCTTAGGTAATTTACCTGCAAATATAGAACCTGGAACTCTCCAATCTTCTTTATCTTCCTTTTTATTTGATATAGTCGCAATTACTATATACACATCCTCATCAACCTTAGTTAATGTAAATCTATGCATATATTCTTTCTTTATTATATCTTTAAAAGTCCATGTACCGTTTTCATAAACTCCCCAAACTATTCTTGATCTGCTTGGGCTTTCTTTTAAATAGAAATCTTTTATGGCTATAATTTCATTTTCTTTACCAGGAATTTGAACAATAGACATACATCCACCACCATTTTCCCACATTGTTTCTATTTCAGAAAAATCATTACCTCCATAACTATAACATGGTCTTCCTTCATTAACATAAGCTTCACTTGCAACTATTATCTTATATCCTTCAGAAGTTTTTAAATGACTTGCACAATAAGCTCTATCTAAATCACCTAATCTTTGTTTTACTATTTCCATATTATTCCTTTTCTTAATTAAGTTTTCATAATTAATCTAACATATTGTTTAACTAATTTTAATTGACTTGAGGTCATTTTACTTAAATCTTGCATGATATCTATGATTTTTTCATCAGAAATATCCTCTATTATCTCATTCCATATTTCATTTCTTAGTTCACGTCTATCCTTATCCGTATAACCTATTATTTTATACAACTTTAGATGATCAATTTCTAATATCCTCGCTATATTTTTTAATAATAACGGATTCGTCATATTATGTTTCCCTAATTCTAAATTAGATAAATATGCAGGACTAATATTTAGCATATCTGCCATTTCTCTTAGTCCTATTGATTTTTTAGTTCTCTTATTTCTAATATATTCCCCTAATGCTATAACTAAATTAGGATTCGTTTTTATATCAAATTTATCACACATAAAATATCCTCATTCCAAATTACTTTTGTCCGTAATACGCATTTTTACCATGTTTTCTTAAATAATGTTTATCTAACAATTCTTGTTGCATTTTATTAACATTTGGATTAATAACTTCTGTCATTATTGCCATTTTTGCAACTTGTTCCAGTACTACAGTATTATGAACAGCTTCAGCTGGATTTTTACCCCATGTAAAAGGTCCATGACTATGTACTAAAACAGCAGGTATATCCAAAGGATTAATATTTCTTTCTTCTAGTGTTTCTATTATAACACTTCCAGTTTCTTTTTCATAGTCATTTTTTATTTCATTTTCAAACATTTTTCTAGTACATGGTATATTTCCATAAAAGTAGTCAGCATGAGTAGTTCCATAGGCAGGTATATCCTTTCCTGCTTGAGCCCACATAACAGCATGACTAGAATGAGTATGAACTATAGCTCCTATTTCTTTATATCTTTTATACAATTCTATATGAGTTGGTGTATCTGATGATGGTTTTAAATGTCCTTCAACTACATTTCCATCTAAATCTACTACAACCATATCACTGGCTTTCATATTTTCATAATCTACACCACTAGGTTTAATTACTACAAGATTAGTTTCTCTATCTATTCCACTAACATTTCCCCAAGTGTAGATTACAACACCTCTTTTAGGTAATTCTATATTAGCCTTAAAAACTTCTTCTTTTAACTTTTCTAACATGAATATCCTCCTTTTCTCATAGCTTCTAAAACAAACTCTCTTGCTTTTTTTACTTCTGTTTTACCTTGTTCAATATCGCTATAATTTTCAGTCCACATTTCTATCAAAAATGGACCCGAATAATTTAAAGAGAATAATTTTTCAAAACATTTAACAAAATCTACGCAACCAGCACCAAAATCTACTTCCTTAAATTTTCCAGGGAAATTATCTACTACTGCAAGAGTATCTTTAACATGTATTGCTACAATTTCTTTATTAGTCATTCCTAATTCTAATTCTTTTGATACATCATTTTCTTGCCAAGCACTTAAATTTCCTAAATCTGGGTAGACTTTAAGATAAGGTGAGTTTACTAATTTTGAATATTTCATATATTTAGTAATTGAGTTTATAAACGGGTGATCCATAATTTCTATAGCCAAACACACATTATATTCCTCAGCCATTTTTAAAGCTTTAGATAAATTTTCTATAAAATATTTTTCAGTAATTTCATCACTTTCTTCATAATAAACATCATAACCTGCTAACTGAACTATTCTAATACCTAATCTATCTGCGAAAAGTATAGCTTTTTCCATTAATTCCATAGATTTTTTTCTAATATCTTCATCATGAGATCCCATGGGATACCTTCTATGACCACTAAAGGTCATAGTCGGTATTCTCATGTTATTAATATTTAATTCACATTTTAATTCATTTATTGTATTAATATCCCAATCAAGTCTAGCAAGTCTATCATCACTTTCATCTACAGAAATTTCAATAAACGTAAATCCTAGTTCTTTTGCAAGCTTTATTTTTTCTTTAAAACTATGTTTTTTAGGCAAAGCCTTTTCATAAATACCTAATTGCAAATTTTTCAACTCTTTTCTAAATCTATTTAATAATTTCTTCTATATATGCTAATAATTCTTCTGGTGTTTTTTTATCTCTAATTCTATCAAAAGATTCTTCATCATCAAATAAAGTAACTATTTGTGGGATAACTTCTGCTATATGAGTTTCTGAATCTGTAGCTGAAAATCCTATTAATATATCTATCATCTCTCCTGTTGGAAATTCTATTGCATCATTTAGAGTTAAAAATGTAAAAGCATTTTTTATAGCTCCCATTTCTCCTCTTTCATGTGGCATTGCAATCCCTGGACCTATGATATAAAAAGGACCTATTTCATTTGTTCTATCTATTATAGCTTTAGGATATTCTGGTTTAACTGATCCATTTTTTAATAAAGGTTCAAAAAGTAATTCTATAGCTTCTTGCCAATTAGATACATTTTTCCCTAGTTGTATAGATTTATTATCCTTTAATGAATCTACTATATTCATTTATACTCCTATTCCAGCTAATTTTAATTTTTCTTCTAGTTCAGCTTCATTTAACATATTTTGTACACCTATTAATATTGTTGGAGCTTTAACATTTAATTCTCCTACCATATGGATAGAACTAATAACTATATCGTAATTACTTAATCCTGATTTTGCTTCTCCAATACTACAAGAACTAACATCTGCGGCTATTTTTAATTTATCAAGAACCTTTTTCATTTTCATTTTCATAATCATACTAGTTCCCATTCCACTTCCACAAACTGCTAAAACTTTCATGTTTCCCTCTTTTCTGAAATATATTTTCTATTTCTATTCTTCTTCAACTATTCCTTCATAATATTGCTCTTTATTTTTACATCTTCTATATTGTAATATTGGGATAGCTAGCATAGATACTACTGCTAAAATATATCCTGATAATCCTAGATATTTAATTAATAATCCTTGTGCTAACCAAACTGTTGATTGATCTATATTTCCATGCCAACCACCAAAACCAATTAATCCAAACACTACTACTGCAACTGCACCTAATAATACTTGTAATATACCTGAAATAAATGTAGTTATTGCTACAGCTTTTACTCCACCACGTTTATTAGCAAATACTGCTATAGTTGCATTATCAAAGAATACTGGAACAAATCCTGTAACTATTAATACTGGTATTAATAATGGGTTAAATAATCTTAAAACTATTAAAGATCCTATTGCTAAGAATTGCCCTAAAACTCCAAATAAGAAACCAAATAATATTGCATTTTGTGATCCAAATCCATATGTAGCTGCACAATCAACTGCTGGTATAGCTCCAGGTATTATAGTATTTGAAATTCCTTGGAATGATATTGTTAATTCTGAAACAAACATTCTTACACCTTGTTTTAATACTGATAAGTAAACAGCAAATTTTAAAGAAGTTTCAACTACATATATTAAGAATGATTTATTTCCAGTAATATACGCTACAGATTTATCTCCTAATAAAACTTCTGGTCCTAATACATACATTATTATACCAAAGAAAACCATCATTAATGTTCCTGTTGCAACTATATCATCATGGAATATTGATAACCATTTAGGTAATTTGATTTCATCAACACCTTTTTTAGGATCTCCTAATTTTGGTGAAATTCTATCTGCAAACCACACTGCAACCATTTGTTGATGTCCTATTGCAAAACCAGCATTACCAGTTAATCTTTGAGTAGGTTCTACTGATAAGTTAGATGCCACTGCCCAATAAACTCCTGAAAAAATACCTATAAGTGCTGCTCCATAGAAATTTCTGAACATTGGTAATAAGAAAAATATCATCCAAGTTGCAGTAGTTGCTTGTTGTTGCATTATATGACCTGTAATAAATAGAGTTCTAACTTTAGTATATTTTCTAAATAATACTAATAAAATATTTATTCCAAACCCTATAAGTAAAGAAAACATTACCCAAGCAGCTGTTAATCCTATAGTCTCTAAAGCACTATTAACTGCATTTAATCCAAAATATGGATCTATAACAGAAGCACTTAGATTATATTTAGTGTTTAATCCTGCAAGTATAGGTCTAAATGTTACAACTAATCCACCTGCTCCAACATTTAAAATTAAATAACCAACTGTTGCCTTTAAAAACCCTGCAAATGCTTCATAAAATGGTTTTTTTAGTAATAAGTATCCAACAAATACTAATAATCCAACAAAAAATGGTGGGTTTGTTAAAACATTACTTCCAAACCAAATCAAAGCTTTAGTTAAAATTTCCATAAATATCTCTCCTTATATATATATTACAATATTGATGTAAATGGTAAATCAGGTTCTATTGTGAAAGCATCTTCAAATCCTCTTGGATACATGTACTCTAAATCATCTTTATTATCAGGGAATACAAAATGCCCTCCAGGTTGCCATATGTATGGTTTAAATTTATATTTCAATCTATCTTTTCTATAATTCCATAGTAAAGTAATTTCTTTAGGATCAGCCATGAAATTAGACCATATGTCATGATGTATAGGTATTACAACTTGTGTTTTTAATCCTTCTGCAACTCTTAATACATCAGAAGCTGTTAATTTATCTGTCATTCCTCTAGGATTTTCTCCATATCCAACAAGAGCAACATCAACTTTATTTTCATTTCCATGTTTTACAAAGAAATTAGAATGGTGTGAATCCCCTGCATGATATATATTGCCACCTGTAGTTTTAAATAAGTAATTTACTGCCATTTCATCCATGTCAGGTGGTAATTTATCTTTTAATACAACATCATCATCTACTGTTAATAACATAGTTCTATCAAAAGATTCTAACATTTTTATCTTAGTATCTTTTATTTCTATTTCATCTCCTGGTTTAACTGTAATCATTCTTTCTTCAGGAACTCCCCATTTTCTCCAAATATCTGTACAGCTCTTTGGACCTATAAATTTAGTATCAGGGCAATTTTGTAAAACTGCTGCTGCAACATTTATATCTATATGATCACTATGTGAATGTGTTGAAATTAAAGCATCTAATTCTCTTATAGCAAATGGATCTATAACACAAGGTGTAGTTCTTAAATTTGGTTGTAATGCTACGCATCCTACAGCTCTTTGGTGTTGATGTTTAGCCTTCATCAATTTATTAGATTTTGTTTTTTTACCTGTTGAAACCCATAAATCTACACAAAGATTAGCTCCTCCTTCACTTTTAATCCAAATTCCCATATTTCCTAACCACCACATTGAAACTGTTCCAGGTTTTACCTCAGTTTCAGCAATCTCTTCATTTATCCAAGTTCCCCATTCTGGGAATGTTTGTAAAATCCAAGATTCTCTTGTAATTTCATTAACTTTTGCCATTATATCCTCCTAAATAAAAAAAATAAAGTGTTAATAATTTGTTAACAATATATTTTACCTCAAGAAATTAAATAGTCAATAGTCTAATAAAAATTTTTTTATAATTCTAAAAAATAATAGATAAATTCATATTAAAAGGATTGATCTCTATTTTTCAAAGAAATCAATCCTTATCAATAGTTTAAACTAATTGTGTACAATTAATTTAATATATATATTTTTTTTATTCTGCATTCTTCTTTTTATTAGTTAAAAAGAATCCTAAAGTACATAGTCCTGAGAAAATTATTCCTATGATTATAGCTATATTTTCAACTAACCTTGTATCTATACCATTAAAGAATCTAACAAACCCTTCTGGTGCTGCAATTATATATGAAGTTACAACAACAGTCATAAACATAGCTGGAACTAACGCTACCCAGTAATTCCTATTTCTATTTGCTAAGTATTTAACTGCTGCCCAAAGACTTATTGTTGCAAGAGTTTGATTTGACCAACTGAAATATCTCCATACAACTGAAAATTCAATGAAACAAAGTAAAATTCCTAAAATGAAAAGTGGTGTTACAACTATAAATCTATTAACTATTGGTCCTTGTTTAAGATTAAATGCATCTGCTATTGTAAGTCTTGCACTTCTAAATGCTGTATCTCCAGAAGTTATAGGGCAAACAACAATACCTAATAGAGCTAAAACTCCTCCTATTTTACCTAAAATACCTATTGATATCTTATTAACTACTACCGCAGGAGCTCCAGCATGTGTTAATCCTTCAATTCCTCCAAAGAAAGACATTGCAGCTGCTGCCCAAATAAGAGCTATCATACCTTCAACTATCATTGCACCGTAAAATACTCTTCTACCCTCTTTTTCTGATCTTATACATCTTGCCATCATAGGTGATTGAGTTCCATGAAATCCACTAATTGCTCCACAAGCTATAGAAATAAATAAATACGGGAAAATTGATCTTCCTGCTGGATGCATATTTACAAATGCTATTTCAGGAATTTTGAACCCTTTTAAAAGTAATCCTCCAGCTATTCCTACTGCCATTAAAAGAAGTGAAAGTCCAAATACTGGATAAATTTTTCCTATAACTTTATCAACAGGCAAAATAGTAGCAAATAAATAATAAGTTATTATTACTCCTAACCATATTTCATATCTTATTCCTGTAATATCAGTTAAAATTTGTGCTGGACTCATTATGAATATAACACCAACAAGTAATAATAAAACTATAGAGAATATTCTCATTAATTGTTTAGCTGTTAACCCTAAATTTTTACCAACTATTTCAGAAACAGAAGCCCCATCTTGTCTAACAGACATCATTCCTACTAAATAATCATGAACTGCACCAGCAAAAATACATCCAAACACTATCCAAATAAAAGCTATTGGTCCCCATAAAGCTCCTGCAATTGCTCCAAATATAGGTCCAGTTCCTATTATATTAAGAGATTGTATTAAAAAAGCTCTAGTCCAACCAATTTCAACATAATCAACACCATCACTCATTCTTTTAGATGGAGTTAACTTGTTCTCATCTGAGCCGAAAATTTTATCAACAATTTTACCATAAATAGTATATCCAAGTATAAGTGCTATAATTGAAAATATGAAACTATACATAATTTTATCTCCTTTAAAGTTTTTATTGGTTATAAAATACTAATCATTTTATAACAATATATTTTATCTCAAAAAGTTTAAAAGTCAATAAGTCATTTTCAATTTTAAAAAGTGAAAGAATTAACAATATATGGTGTTTCTAAGCTAGTTGACAAAAGTAAAAAAATGGTATTTTATTAGTGAAAATCTAAGAATTTATACTATATAATCTATATGAAATTAATTACAAATTTAAGTAAATTTATAAAATTATCAGACATAGATCCTCTTACAATGTAGATGATTTTTATATAGTGTTATTACATTAATATTTATATTGATCTTTAAAAAAAATGAATTTATTAATATGAGATGATGTTTTCTTTTATTCAGTTAATAGTTTTATTTTGTAAATCTGTTTCATTAAAAATAGCCTCCTATGATTTATTTTATCATAGAAGACTATTTCTTTTTAATTTATATATTTTTTATCATACTATTTTTTTATTCTACATTCTTATTTTTATTAGTTAAAAAGAATCCTAAAGTACATAATCCTGAGAAAATTATTCCTATAATTATAGCTATATTTTCAACTAAGTTTATATCTATTCCATTAAAGAATCTCACAAACCCTTCTGGTGCTGCAATTATGTATGAAGTTACAACGACTGTCATGAACATAGCTGGAACTAAAGCCACCCAGTAGTTCTTATTTCTATTTGCTAAGTATTTAACTGCTGCCCAAAGAGTTATAGTTGCAAGAGTTTGGTTTGACCAGCTGAAATATCTCCATACAACTGAAAATTCTATGAAACAAAGTGAAATCCCTAAAATGAAAAGTGGTATTACAATTATAAATCTATTAATTATTGGTCCTTGTTTAAGATTAAATGAATCTGCTATTGTAAGTCTTGCACTTCTAAATGCTGTATCCCCAGAAGTTATAGGGCAAACAACAACTCCTAGTAGAGCTAATGCTCCTCCTATTTTACCTAAAATACCTATCGATATCTTATTAACTACTACTCCAGGTGCTCCAGCTAGTGCTAATCCCTCAATTCCTCCAAAGAAAGACATTGCAGCTGCTGCCCAAATAAGAGCTATTATACCTTCTGCTATCATTGCACCATAAAATACTCTTCTTCCTTCTTTTTCCGATCTTATACATCTTGCCATCATAGGTGATTGTGTAGCATGGAATCCACTAATTGCTCCACAAGCTATAGAAATACATAAGTAAGGGAAAATTGATTTTCCTGCTGGATGCATGTTTACAAATGCTATTTCAGGAATTGTGAATCCTTTTAAAAGTATTCCTCCACCTATTCCTATTGCCATTAAAAGAAGTGAAAGTCCAAATACTGGATAAATTTTTCCTATAACTTTATCAACAGGTAAAATAGTTGCAAATAAATAATAAACTATTATTAGTCCTAACCATACTTCATATCTTATTCCTGTAATATCAGTCAAGATTTGTGCTGGACTCATTATGAATATAACACCAACAAGTAGTAGTAAAACAACAGAGAATATTCTCATTACTTGTTTAGCAGTTAACCCTAAATTTTTACCAACTATTTCAGAAACAGAAGCCCCATCTTGTCTAACAGACATCATTCCTATTAAATAATCATGAACTGCACCAGCAAAAATACATCCAAATACTATCCAAATAAAAGCTGCTGGTCCCCATAAAGCCCCTGCAATTGCTCCAAATATAGGTCCTGTCCCTGCTATATTAAGAAATTGTATCAAAAAAGCTCTTGCCCAACCTATTTCAACATAATCAACACCATCACTCATTCTTTTAGCTGGTGTTAACCTGTTCTCATCTGAACCGAAAATTTTGTCAACAAATTTACCATAAATAGCATATCCAAGTACAAGTGCCATAATTGAAAATATAAAGCTATACATAATTTCATCCCCTTTAGAGTTTTTATTGGTCATAAAATGTTGATAATTTTATAACAATATATTTTACCTCAAAAAGTTTAATAGTCAATAAGTTATTTTTAATTTTAATAAAAAAATTAATAATATAAATCTATTTTCATAATATTTTAAACTAGTTGACAAAAATAAGAAAAAGGGTATCATATTATTGCAGATAGAGAAATCTATACTGTCTAATTTCTATGAAACTGAATGCAAATTTAAGCGACTTTATAAAGTCATCAGACATAGAGCCACTTACAATGTAGGTGGTATTTTTTGTATATAAAAATATTATTAACTCAAAGAAAATGGAAAAATTAAAATTAATAAGTCTTTCATAAGATTATAAAAAAATAAAAAAGGGCAACAAGCCCTTTATGTATATAACTTAAATAACAATCAATTGGCGACCTTGGAAGGATTTGAACCTTCGACCCTCTGATTAACAGTCAGATGCTCTAACCAACTGAGCTACAAAGTCAAAAAGAGTTTGGCAACTACCTATTTTCCCTATTACTAAGTATCTTCAGCGTACACAGACTTAACTACTAGGTTCGAAAAGTAACTAGGTGTATCCCTGTGGCTAACATCACCAAACAAAAAGCAAGAAATATAAGACAATCAAAAATGAATAGTAAAGTAAAGAATAAAAATACAAAGCCTACGTATTATTAGTATTGGTCAGCTAAATGTATTACTACACTTACACCCCCAACCTATCAACCACTTAGTCTCAGTGGATACTTAAAAAGAATACTTATCTCAAAGTGGGTTTCTCACTTAGATGCTTTCAGCGATTATCCCTTCCAAACGTAACTACTCAGCCATGCTACTGGCGTAACAACTGATACATCAGAGGTTTGTCCATCCTGGTCCTCTCGTACTAGGGACAGATCTTTTCAATATTCTAACGCCTGTAGTGGATAGGGACCGAACTGTCTCACGACGTTCTGAACCCAGCTCGCGTGCCTCTTTAATGGGCGAACAGCCCAACCCTTGGGACCTTCTCCAGCCCCAGGATGAGACGAGCCGACATCGAGGTGCCAAACACTTCCGTCGATATGGACTCTTGGGAAGTATCAGCCTGTTATCCCCGGGGTAGCTTTTATCCGTTAAGCGACGGCCTTTCCATACAGCACCGCCGGATCACTAAGTCCTGCTTTCGCACCTGCTCGATCTGTCAATCTCGCAGTCAAGCTCCCTTATACCTTTACACTCTCTGGTTGATTTCCATCCAACCTGAGGGAACCTTTGAACGCCTCCGTTACTCTTTAGGAGGCGACCGCCCCAGTCAAACTGCCCATCTAGCACTGTCTCAATTTCTTGATTAGAATTTCAATAATATATGGTTGGTATTCCACAGTTGACTCCTTTAAAACTAGCGTCTTAATATCTCAGTCTCCCAACTATTCTATACACACATTACCAAAACCCAATGCCAAACTACAGTAAAGCTCCACGGGGTCTTTCCGTCCTACTACAGGTAGTCGGTATCTTCACCGACATTACAACTTCACCAGGTCTCCAGCCAAGACAGCTCCCAAATCATTTCACCATTCGTGCAGGTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTCACTGGGGCTTCAATTTGAATCTCTCAATCCTCCTCTTAACCTTCCAGCACTGGGCAGGTGTCAGCCCATATACGTCGCCTTTCAGCTTAGCATAGACCTGTGTTTTTGATAAACAGTTGCTTGGGACTCTTCACTGCGACCTACTTGGGCTCATGATGCTCTCACTTACCTACCATAGGTACCCCTTCTCCCTAAGTTACGGGGCTATTTTGCAGAGTTCCTTAGCTAGAGTTATCCTGTCGGCCTCGGGTTTCTCACCCAGTCCACCTGTGTCGGTTTACAGTACGGGCACTTCTTTCCTCTTTAGAAGTTTTTCTCGGCAGTGTAGGATTTGTAACTTAAGCACTAATGCCCTTACCCATAAGGTCTAACATTTAATAATACGGATTTGCCTATATTATCATGCCTCTCCCTTAGAATGCCTATTCCGTCAGACATCTCACATACCTTCCTGCGTCACTCCATCAGTTAACAGATTAAAGTGGTATAGGAATATTAACCTATTTTCCATTCGCCACGACTTTCTAGTCTTCGCTTAGGTCCCGACTCACCCAGGGTTGACAAACATTGCCCTGGAAACCTTGGACTTCCGGCCAGAGGGATTCTCACCCTCTTTCTCGCTACTCATTCCTGCATTCTCACTTCTGATACCTCCAGATCACCTTTCAGCTCTCCTTCTACAGCCTACAGAACGCTCTCCTACCAACAACATTGTTGTTACATAGCTTCGGTTTATGTCTTAGCCCCGTTAAATCTTCGGCGCAGATACTCTCGACCAGTGAGCTATTACGCACTCTTTAAAGGTATGGCTGCTTCTAAGCCAACCTCCTGGTTGTTTGTGAATATCCACCTCCTTTCCCACTTAGACATAATTTGGGACCTTAGCTGATGTTCTGGGTTGTTCCCCTCTCGTCCATGGACCTTGTCATCCATAGACTCACTCCTAAGTATTAATATATGGTATTCGCAGTTTGCTTAACTTCAGTAAGCTATACGCCCCCTAGGTTATACAGTGCTCTACCCCCACATATCTTTAAACTTAAGGCTGCACCTAAATGCATTTCGGAGAGAACGAGCTATCTCCTAGTTCGATTGGCTTTTCACCCCTAAACCTATCTCATCTCCCAACATTTCAACGGCGGTGAGTTCGGTCCTCCACTGCATCTTACTGCAGCTTCAACCTGGACAGGCCTAGATCACTAGGTTTCGCGTCTATAACATGCGACTTTCGCCCTCTTAAGACTCGGTTTCCCTTCGGCTCCACTCTCTTAACCTCGCCACATATCATAACTCGCAGGATGATTAACCAAAATCCACGCAGTCAGCTTATCGCCTCCTACCGTTTGTAAGCACATGGTTTCAAATTCTATTTCACTCCCTTACTCAGGGTTCTTTTCACCTTTCCCTCACGGTACTCTTCTCTATCGGTTAGTAAAAGTATTTAGCCTTATGTGATATGGTCCACACTGATTCACACCAAATTCCTCGTGCTTGATGCTACTTGGGATTAATATTATACATATGTTAGTTTACACATACGAGGCTATCACTCTCTATGGCCAGGCTTTCCAACCTTGTTTTATTTACCTAACTATACATATCTTGATTATGGCTATCTCAACAAATATCTCCCTCTACCACATGATGGCAACCTCGCCAAGTTTAACACCACCATGTTTTAGGCTCTTCCCCCTTCGCTCGCCGCTACTAAGGGAATCGTTTTTACTTTCTTTTCCTCTAGCTACTTAGATGTTTCAGTTCGCTAGCTTACCTATCTCTCACTTGTCCTTCCAACAAGTAGGTTTCCCCATTCGGATATCTTAGGATCTACGCTCATATGCAACTCCCCTAAGCTTTTCGCAGCTTATCACGTCCTTCTTCGGCTTTTACTACCTAGGCATCCTCCATGTGCCCTTAATTAGCTTTTTATATCATCTCTTTTTTATATCATCTCTATATATTTTCTCTTACAGTTTAACTACTCTATCTTTTCTTTCGTCTCTGTTTAAAGTTGTAATTCTTTACTCTCTACTATTCATTTCTCATTGTCCTATACTCTTAAATAAAAGAACTCCTTAAAGATTAAAGGAATAAATAAAGCAAACAAAAGAGTAAAAGTAAGTATAAGTGTGTTTATGTATATATATTCTCCTTAGAAAGGAGGTGATCCATCCGCACCTTCCGGTACGGATACCTTGTTACGACTTCACCCCAATCACTAATCACACCTTAGGTACTTCCCTCCTTACGGTTAGGCCAGTAACTTCAGGTGCAACTAACTCTCGTGGTGTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCAACATTGCTGATTTGCGATTACTAGTGATTCCAACTTCATGAAGTCGAGTTGCAGACTTCAATCCGAACTGAGAGTAGCTTTGAAGATTTGCTCCACATCACTGCTTAGCTCCTCTTTGTACTACCCATTGTAGCACGTGTGTAGCCCAGATCATAAGGGGCATGATGACTTGACGTCATCCCCACCTTCCTCCCGCTCGTCGCGGGCAGTTTCATTAGAGTCCCCAACTTAATGATGGCAACTAATGATAGGGGTTTCGCTCGTTGCGGGACTTAACCCAACATCTCACGACACGAGCTGTCGACAGCCATGCACCACCTGTATCTCGGTTCCCAAAGGCACTAAGATGCTTCCATCTTATTCCGAGTATGTCAAGACCTGGTAAGGTTCCTCGCGTTGCGTCGAATTAAACCACATGCTCCACCACTTGTGCGGGTCCCCGTCAATTCCTTTGAGTTTCATACTTGCGTACGTACTCCCCAGGCGGATCACTTATCGCTTTTGCTTCGGCACAGAGGCTTCACACCCCCACACCCAGTGATCATCGTTTACAGCTAGGACTACCAGGGTATCTAATCCTGTTTGCTCCCCTAGCTTTCGCACTTCAGCGTCAGTTTCTGTCCAGTGAGTTATCTTCATCATCGGCATTCCTACACATATCTACGAATTTCACCTCTACTCGTGTAGTTCCACCCACCTTTCCAGTACTCTAGTCTGACAGTTTTGTAGGCAAGACTATGGTTGAGCCACAGCTTTTCACCTTCAACTTGTTAGACCGCCTAGATGCCCTTTAAGCCCAATAATTCCGGATAACGCTTGCGACATACGTATTACCGCGGCTGCTGGCACGTATTTAGCCGTCGCTTCTTCTGTAGGTACCGTCATCTTCTTCTTCCCTACTGAAAGCACTTTACAATCCGAAAACCTTCTTCGTGCACACAGAATTGCTGGATCAGAGTTTCCTCCATTGTCCAATATTCCCCACTGCTGCCTCCCGTAGGAGTAAGGGCCGTATCTCAGTCCCCTTGTGGCCGTTCACCCTCTCGGGCCGGCTACCTATCATAGCCTTGGTAGGCCTTTACCCCACCAACTAGCTAATAGGATGCAAAGCTCTCTCTTAGCAATCTCTCCTTTCATTAATAGTAGATGCCTACTACTAATAATATCTAGTATTATCCATCATTTCTAATGGTTATCCCAGTCTAAGAGGTAAGTTCTTTACACGTTACTCACCAGTCCACCATGTAGTCTATGTAAGCAAGCTTACATTTCATACATAGATTTGCATGTGTTAAGCATTCTGTCAGCGTTCATCCTGAGCCAGGATCAAACTCTTCATTCAATATTTATTTTAAATATTTCTTGTTCTTCACCTTTTGTCTCTTATTCTTAACTTACTAAAGCTATTTTACTCTAAATAAAATTGACTTGTCTTTACTTGTTTGCTTTATTTATTCCTTCTCTTTCCATTGTCCTTTGTTCTTAATCGAACTCAATCATATTATCATATCATTTATTCTTTGTCAACATATTTTTTTTACTTTTTTTGTTTTCCCCTCAAAATCATTTCATGAAAAGGTTGCTTTTACTATGTTTTCTACTTAGCTAAACTTCTTAAAATTTCTAATTTACCTTCTATATTAATTTTTACATTAGCTGGAATAAGTAAAGTTTCTCCTTTTTTTACATCTATAGTTTCCACATCACTTATTATTTTTCCATCACCTTCAAGTATAGAATAAATCATCATATCCTTATCTATATCTTCAAAGCTATTTTCTATTTTTATCTTATCAATAGAGTAATATGGTGTATTTGAAATATTTTTTCTAAATTCTCCATCTTTAAAATTAGTATTAAGCACTTTAGGTTTTAATGAGAAATCTATAACCTCTGCTGCATCTTCTAAATGTAATTCTCTTAACCTCCCATTCTCTAATCTATCAAAATCATATATTCTATATGTAATATCCGAATTTTCTTGTATTTCTGCAAATATTACAGAACCTTCAAGACTAGCATGAACTGTCCCAGGTGTTACATCTATCATATCACCTGTTTTGACAGATATTTCTTCAAACATATCAGTAAAATCATTTTTTCTTGTTTTTTCTAAAAAGCTTTCTTTATCATATCCTGGTTTCATACCCATAATTAATTTAGCATCATCACTTGCATACATAATATACCAAGATTCATATTTACCAAGTTCATTATGTTTTTTTAATGCAACTTCATCACTTGGATGAACTTGTATAGATAATCTATCATTTACATCTAAATATTTTATCAATAAAGGAAATCTATCTGGATGATTTTCATATATTTTTTCTCCAACTAATTTCCCTTTATATTCCTCAAACAATTCTTGCAAGCTCTTTCCTTTAAGATAACCATTAGCCACTATGCTCATACCATTAAAATGAGATGAAACTTCCCATGATTCTCCATAATTTCTATCATCTGGTAATTTTATACCCAATTCTTTTTCTAAATTTTTTCCTCCCCAAACTTTAGGTATTAATACTTTTTCAAATTTCAATGGATATAGTCTCATATTCTACCTCTTTTCTTCAACATTTTTACATTTAATTTTTATACTTAAATTTTATCAAATTTAAAAGAAATAGTCCATATTTAAACTTCTATTTCTACAATATCTTCTATATTTATCTTTTCTTTAATTATAACTATAAATCCTGTTTCTAAATCTATATTTGAAACCTTACCAAGTGTTTCTATATATCCCTTCTCTTTATACCATTTAATTTTTAAAACATCACCTTTTTTAATATTATTAATTTTACAGTTAAGTTCATCATATTTTTCCTCTGATAATTCCATTCTTTCCTGAGGGATTATTTCTTTTTCATGTATTAATTCATAAAATCCTTTAAGCGGTGAATAAGGCATAAATTGTTTTGCTCTATCCATTATGACCTCCTATTAGTTTATTTCTAGCCTTAGCCGTTGATTTTTCATTTATACTTCTTCCTTTGAGAATTGCATTTTTCCCAAATTTTTCTTTAATTTCTAATATTGCTTTTTGAGCTTTTTCATTTTTTTCATCTAAATGAGTTTCATCAAAAATCTCTTTTTGTATCCAAGCATCTTCTAATACATTATTAAGAGATAAAGTTATCTGCTTAATTTTTAAACTTTTATCAACTTTTTCATTAAAAAACTCAGTATAAATTTTAGATAACTTTCTAAATGAATTAGTTCTTATCCCAATCTTTTTACTTCCACTAACTCTTTTTTTATCTATACCGCTATATCTTACTCCTAAATAGATATTATCTATAGTATAGTTAAAGGCAACAAGTTCTAAAACTAAATTATCAAGCATTTCAAGCATAATCATTTTAGCATCTTCAAAGTTATAGTCATCAAATAATATCTGTGAATTTGAAATTGATTTAGTCTTTGATTTATATGCTTTTATTTCTGCTATAGTACAAGGTTCAATTCCATGTGAATGTTCTATTAAAAACAGAGCATTTTCTCCAAATTCATTATAAAGAATTTCTTCATCCATTAAAGAGAGTGAATACAGGTCATAAACACCATATTTTTCTAATCTTTTAGCTATCCCCTTTCCTATATTCCATATATCTGTAATAGGTCTATGCTTCCATATATATTTTTTAAATCTATTTAAATCCAACATTCCTATTTCATCTTTTACCTTTTTAGCAACCACATCTAATGCTACTTTAGCTAAAAAAAGATTAGTTCCTATTCCTGCACTAGATGGTATCTTCATTTCTTCAAAAATAGCATTTTTTATCATTATTACTATATCTTTAGCCCTCATGTTATATAGTTTTAAATAAGGAGTGAGTTCTATAAAACATTCATCTATAGAATATATGTATATATCTTCTGGAGCTATATATCTTAAATATATTGCATATATTTCAGCGGAATATTTCATATATAGTTTCATTCTAGGCATAGCTTTTATATATTCTATATCTTCAGGTATTTGAAAAATTCTACATCTATTTTTAACTCCCTGTTTTTTCATATACGGAGTTATTGCAAGGGTTACAGCTCCATTACCTCTAGTTTCATCTGCCACAACAAGATTAGTTGTAAAAGGATCTAAATTTCTTTCTGCACATTCAACAGAAGCATAAAAACTTTTAAAATCTATACATGCATACACTTTTTCTTCCTTTACATCCATAATATTTACACACTCCTCTTGTAATATTTTTATATCAAACGCTAAATATTTTACTTTTTATGTTATAATTATATTACTAAAACAATCAAAAAACAAGTCATTTTTTAACTAATCTATTCATATTTAATAATTTTTAATGTATAATATACATAATGGAGGTGAAAATCATGAAGGAAAACGAACATTTCTATTATTCTATATATGAAGAATTTAAGGAAAATATTTTAAATGGTAAATTTATGCCTGGAGATAGACTTGAATCTGAAAGAAGCTTATCTCAAAGATATGGCGTTAGCAGAAATACTATACGTTCAACTCTAAATTTACTTGAAAAGGATGGATATATTTTTAAAGTTCAAGGTAAGGGAAACTTTATTGCTAGCCAAAAAATGAATCAAAATCTTAATACTTTCTATAGTTTTTATGAAAATATTAAATCAGCAGGTAAAGAACCTAAATCAGAAATAGTTTTTCATAAAATTATGAAAGCTAATTTCAAACTTTCAGAAATTTTTAGAATACCTCTAAATTCAAAAATAATATATTTTGAAAGATTGCGTTTCATGGATAATGATCCAATAATATTTGAAAAAACTTATCTACCAATGTATAGATTTAATGGTTTTAATCCTCTTGAATTAAATAATAAATCTATGTATAATATCTTTGAAAATGAATATGGAATTATTTTTTCTAAGGCAATAGAAACTTTAAAACCTATACTTATTTCTGATAAAAAAGAGAAAAATTTACTTAATTTAAAGAAAACTAGTTTAGGAATGAATATAATTAGAACTACATATGAAAAAGAAAAAATAATTGAATATACCGTATCAAATATCAAAAATGATGTTTTTGAATATAGAATAACATTAAATAAAGGATGGTAAAAATGATTAAATTAGATGATATAAAAAAGGCAAATGAGAATATTAAAAATTCTATTAAAAGAACTCCTCTTATTGAGTGTCCACTACTAAATCATATTACTGGAGCTAATGTATATTTAAAACTTGAAAACTTACAAAAAACAGGTTCTTTTAAAGCTAGAGGAGCAATAAATAAGATAATGCATCTAACAGAAGAAGAAAAAAAACGTGGTGTAATTGCTTCATCTGCTGGAAACCATGCACAAGGAGTTGCTCTTGGTGCTAGTCAAGCTGGAATTAAAGCAACTATAGTAATGCCTAAATTTGCACCTATATCTAAAATTCTTGCAACTAAAAGCTATGGAGCAGAAGTAATACTTGAAGGAGAAACATTTAATGATGCTTATGAACATGCTTTAAAAGTTCAAAAAGAAAACGATTATGTATTTTTACATGCATTTGATGATGATGAAATAATAGCTGGGCAAGGTACTATAGGTCTTGAAATATTTGAAGATTTAGAAAATGTAGATGTTGTATTATGCCCTGTAGGTGGTGGAGGAATAATGGGTGGTATCGCCGTTGCTCTTAAAACATTAAAACCTAATGTTAAATTAATAGGAGTAGAAGCTGCTAACATGCCATCAATGAAAAAAGCATTAGAAAATAATGGACCACTACTTGTAACAGGACCTCAAACTATAGCAGATGGTATAGCAGTAGGGCGTGTTGGTAATAGAACTCATGAAATTTTTAAAGATTTAATAGATGATATAGTAATAGTAGATGAAGATGAAATAGCTCAAGCTATTTTATTCTTGATGGAAAAATCAAAAGTTGTAGCAGAAGGTGCTGGAGCTACTGCTCTTGCTGCTGTGCTTGCAAACAAGGTAGATGTAAAAGGATTAAATGTTGCCATAGTCATATCTGGTGGTAATATAGATATCACTAATATAGAAAAAATTGTAAATAGAGCTCAAATAATACAAAATAAGAGAGCTAAGCTAAATATATTAATTAAAGATATGGTTGGTGAGTTAAGTAAACTAACTAAAATCATTTCAGAAGAACACACAAATATCCTATACTTAAACCAAACAAGATATTCTAATAACTTAAAAATAAATGAACAATTATTAGAAATAGTTATTGAATGTGTAGATAGCAATCATCTTCAAGGGTTACTTAATAAATTAACAGAAAATAATTTTAAATACACACTTGTATAAATAAAATGACTTGTAACCTTAATAGGTTACAAGTTTTTTTTATTTATAAATTAAAAAGTATATCCAACCTCTACCCCAAAGTTTCCTTTTCCATACCCTCCAAAAAATCCTACATTATATTTATCATTTATCTTAAATCCTATTGATAATTTAGCTATATACACTACCTTTAAACTTTTAAATATTTGATTACTAGAATAAGGAGTCCATAATTCAATCTCATTATCTTTACCACCTTGACCACTGTAATAACTTCCCGTTCTAGTATTGATTTTTTCTCCTATCCCTATCTGTGTTTCTATTCCTGTATATATTTTTAAGTTATCTTTTAGTTTATAATTAAAATCTACCCCAGTTCCTAATGATACTGACATAAGAATTACATTTTTATCTGTTTCAGTTGTAAGAGCTCTATTATCTCCATTTGCTACATATAAAAGATTGGCTGATATCTTTGGTCCAAATGTTATATCAACTTCTTTATTAATTTCTACTTTCCATTCTGGTAAAAATGATATTGACTTATATGCATGATATCCTATTTTTTTTATTTTTGTATTATATATTGGTAATGTACTTATAGTTCCACCTATTCTATATCTTGGTCCACTTATATTAAATTTACTCTTTTTAGATTTATTAGAAACTAATTCTGTTTTTTCAACCTCTACAGCTTTATTTAGTTCTTTTTTATTTTCTACTTTCATCTCTTCTATTTTAATTTCTTTATATGAATCAGATTTTATAGTTTTAATTTCATATCTTTTATTAACTTTCGGTCTATTTCTATTTTTTTTGGCTGAAAATGAAAATAAACCAATAACTAGTAATAATGATAACATTAATTTTTTCATGTTTTACTTCTATACCACCAACTGATTCTTTTCTAAGTCCAAATTCTGTATAAAGTCCTATATTATATTTATTTATATTTGTACCTAGTGAAACTTTTCCAAGTAACATTGGATGCATTTTTAAGGTAACAGTTCTTCCAGTTCCTTTACTATAATCAGAATATGATACATGTATATCTGGTCTTATAGTTGCTAATGTTTCTAATCCTGTATATATCTTAATATTATCTTTTATACTATAATTAAAGTCCATTCTAAACACTGTTCCAATACTAAGATATAGTATTCTATTTATATCATTATCAATATAAGTTTCATAAGTTGTTGTAAATATACTTCCTGTAACTTTAGGTCCAAATGACATTGAAAACTTTTTATTAATTTTAATTACCCATTCTGGTGAAAATCCTAAACCCATATCTATGTTTAATAAATTTCCTGTAAAATTATTCCATTCTCTTTCTCTATCATGAGGATCAGGTTTATATCCTATACCTAATGTTCCATCTATCTTATATCTTGGCCCTGTTATCTCTATTGGAAATGAATATATTCCTATTAAAAATATTATTGTTAATATCAATTTTTTCATTTTTCACTCCTAAATATCTTTTTTACCCATATATTAGACCCCCCCCCCCCCGACTTATTTTGTCAATGTTTTTGTTGGTTAATTATAAGATGTTATTTTATTTAAAAAAAAAGAAATTTCCATTTTGTAGAAATTTCTCTTAATTTTTATTTTATTTCAGAATAGCCCCTTATTTATTTTTTTCTAATTTTACTATTCTTTCAATCAATTGTAATATCTTTTTATTATTTTCTATATTTTCATTTTTTAATTCCTTCAGTTCTTTTTCAAATAATTTTATCTTTAATTCATGTTCATAAACTTTTTCATCAAGTAAATTAATATTTCCATTTCTTTGTAAAGATAATAACTCTTTACTTCTCTTTTCTATATTATCAAATTGATAGCCTATTCCTGCTCCTAATGATACATGTCCTCTCGTATTTATTGATCCTCCTGCTCTATAAACTAACTTTTCATTTGAGCCTGATAATCCTATTGCAAATGCATGTTCTCCATTATAATATCCATATGATCCTGACAGGTTATGACCTTTAGCATTTACTTGGGCTAAATTTGACATTGCTATTGCATTTGCTATCCCACTATTTGCTGCTACTCCTTTTGATATATCTTCTTTTACTTTATCTGATATATCTATACTTACTTCACTTCCACTTGCTTTTGTTTTAATGTGTTCTGATCCTTTAATACTAAAGTTTAAACCTCCATTTTTATTTAACTTTTGAGCTTCTGTACTTCCACTATCTCCACTAATTGATATAGTATTATTTCCTAATTTATCTACTTTTTTATCAACATATTTGTGTAAAGACTTTAATTGAGCTACATTTACTGCATCTGTATCTAATGTCCCTGCTGCTAGTCCTGTTATCTGTCTTGTTATTCCTTTTTCTATATCTCCTATTGATACTTCTCCATAATGTGATTTCCAAGCACTTGCTATTTTTGAATATTTTCTATACTTTTCTTCAAAATCTTTACTTAAATTATTATTCATAGACTTATCATTATTTTTATTTGAGTTATTCTTTTTCAACGAGTCTTCAATTTCTTTTTCTAAGTTTAAGTATTCATCATATTTATCTTTTGTTAACTTATCTTTTAAATCTACATTTTTATCCGTTAACGCATCATATCCAAATCTATCCTTATTATTTCTTTCTTTTGCTACTGAATAAGACCCCAATGCAACAGAGTTGTGAGATTTTACTTCAGAATTACTTCCTAAAGCTGTTGCTCCAAATAAATTATCATCTATTTTACTATCTGCTCCTATAGCCACGTTATTTTCACTATGTTTCCCATTAGATTTTGCCCTATGTCCTATAACAACTCCATTAAGCTGAGAATGAGTATCCTCTCCTATAGATATACCTCTATTATGACTTATAGCCTTTTTTCCTAATGCTATAGATCCTGAGTTAGCTTTACTCTCTGCACCTATTGATATGGCATTTTGTCCGTCTGTATATGTGTTTCTACCTATGGCTATACTATCTGTTGTATTAGCATTTGCCTTTTCTCCTATTGCTATCGCATTCTTTGAATTAGCTTGTGAGCTTGTTCCTATAGCTATTGCATTTGAAGGATCAGTACCATTAGTATTTTTGGGCGATCCTACATAAGCCCCTTTCCCTATAGATATACCACTAGTTGCTTTAGAGGTTGCCTCTGATCCTATTGCTATTGATTCTTGCTTTTCAGCTTCTGCCTTATATCCTATAGCTATTGATTTATCTCCAGTGTCTTTTGCTTCACTTCCTATTTTTACTTTATTATTATCTACACTTATATTTGTATTTGTATTTGTGTGTGTAACCACAGAAGTAAATAAAAGAATAGTAATTAAATTATTTCTTTTCATTTTAACTCATATAATACATTTTACTATATTATATACATTACCCTCCTCATATATTTTATAATTTTTTGTAAAATTATACTTCAGTATTATATCAAAATAAATATTATTTTGTAAATATATAAACAAATTTATTTTATTCAGTGTAAATTTTTATTTGATTTTACTCTCATAAGGATTTAAAATTATTTCTTTTCCATCTAAAGTTATTTTTTGTTCAACATTTGATAGATTATGCATAAGTATTTTTTCACTTCTATTATATTTCATCTTATACACAAATACCTTATTATTCCCTGTTTCTACTGCCTCAAATTTTCCATATTTTAACTCATCATTTTCTTTTCTAATTTTTATCCACAGCTTATAATGATTTAAAAGTGAATTAGAATCCATTTTCTGACTATAATAATCCTTTGTTTCTATATTAAGTTCTACAGGTTCCCATCTTGTTTGAAATTCATCATTCCATATATATGGTTCTCTTATTAACTCATCTGGTTTTTTACCTTTCATTCCTAATTCTTCACCATAATATATATACGGATTACCAGGTAGGGTAAGTAGTATACTTGCAGCAACTTTTTGTCTTTCAAGATCAGATAACTTTTCTGAAAGTCTACTTTGATCATGATTAGTTAAAAATGTAGCATCTATATATTCTTTATTACTTTTTTCATATAAATTATACACCCTTGTTAATTTTGAACTAAGTTCTTTAGAACTTTCTCTAATTAAAGCATTAATTATACCTTTTTCTGAAAATTCAAAATTAAAATTAGAATCAAATACAGTAAAGTATTTAGAAACTATCTCAGGTGCAGTCCATACTTCTCCTACTATATACACATCTTTTTTAATTTTAACTAATTCATCCCTAAATTCAGACCACCATTTAATGTTCTCCTCAAATAAATTAACATCCTTTGAATATTCTCCTTTACCATAAGCATGTGGTGCCGCATCTATTCTATATCCATCTATTCCTACCTCATTTATCCAATATTTAGATATCTTATGTATTTCTTTTCTAACTTCCTTTTCTCTTAAATTTAGATCTGGCATTCCACTCCAAAAAATCCCAAAATATTTCTCTTCATCATTTAAATTATGCCATGCTCTCCCTCCAAGTGGAGCTGATTTAAAATCAATTTTTTCATTATTATTCTTTTCTATTCTATAGAACTTCCTATATTTACTATTCTTATCTACAAGTACATCCTTAAACCAAGGGTGTTCACTGCTAGTATGATTTATTGGTAGATCTATAATTACCTTTATACCTAACTGATGACTAGCCTTAACAAATTTTTTAAAATCTTCTATATCACCATATTCAGCATCTATTAGTAATCAATAACATCATATTTATGATAACTAGGAGAAGAAAAAATCGGAGTTAACCATATACCTTCTATTCCTAAATCTTTAAGTTCAGGGAGTTTTGCTCTTATACCATTTAAATCTCCTATACCATCTCCATTAGAATCAGCAAAAGATCTAACAAATATTTCATAATATATGGCAGTTTTAGCAATCTTATCCTCATGTGTATTCTCATATTTCTTTGATTTAACACAACTAAATATTAATGTAAATACAGCTATTAATGTTAAAATACTTTTTTTAATATATTCATACCTTTCTAGTTTATTTAAAAATAGAGGCAGTACATAATACTACCTCTAACCTATTTTTGACTTAATATTAATGGTTTTCCATCTACTATTGCAACAGAGTGCTCAAAATGAGCTGATCTTTTTTTATCTTGAGTAACAACTGTCCACATATCTTTTAAAATTTTAACTTTAAATGTCCCTATATTTACCATAGGTTCTATAGCTATTACTAAACCATTTTCTATTTTTAATCCTGTATTTGCTTTACCATAATTTAATACATAGGGATCTTCATGCATAGCAAATCCTACACCATGCCCTGAAAAATCTCTTACAACTGAAAATCCAAATTTTTCTACATATTGTTGTATAGCAAATCCTATATCTCCTATCCTATTTCCTGCCCTTGCTTGTTCTATTCCTATTTCTCTAGCTTTTTCTGTAACTTCTATAAGTTTTCTTGATTTATCATCAATATTTCCAACAGCAAATGTTTTAGCAGCATCTCCAAAATATCCATCAAGTATAGTAACTGTATCTAAAGAAAGTATATCTCCTTCTTTTAATATCTCAGTCTTACTTGGTATTCCATGAACAACTTTTTCATTTATTGAAATACAAGTACTTGCTGGATAGGTTGGATATGGCCAACCTATATCATAACCTTTAGTTCCAGGAATTGCACCTTGGCTCATTATGTAGTCTTCACATATTGCATCTATCTCCCAAGTTGATATTCCAGGTTTGATATATTTAGGAATAATATCTTCATAAAGTCTAGCAATTATTTCATTAGCTTTCTTTATCTTCTTTATATCCTCTAAAGTTTTTAATTTTACCATTTTTACCCTTTCTGGTTATTATATATTGCAATTATTAGATAAAATATCTATTATTTCTTCTGTAATATATTTACTTTCTCTTTCTCCTTGAACCTCAGATACCTTACCTTGATTTTTATAATACTCTAAAACTGGAGCAGTTTGATTTCTATAATTTTCTAATCTTTTCTTAACAACTTCTGCACTATCATCTGCTCTTTGTTCTAAATCTTCTGGATTTTCATCTACAGGTGGATTATATATTATATGATATATTTTACCAGTTTTTTAGAAACTCTTCTTCCTGTAATTCTTTTTAATATTTCATCATCTTCTACAACTAAAGCTATTACTTTTTCTATTGATTTTTCTTGTTTTTCCAATATTTTATCTAAAGCTTTAGCTTGCTCTACTGTTCTTGGATAACCATCTAAGATAAATCCTTTTTCAGTATCAGTCTCTTTTAATCTTTCCTCTACTAATCCATTAACTATGTCATCTCCGACTAAGTTTCCTGTATCCATTATTTTTTAGCTTCAAGACCAAGAGGAGTTTGATTAGCTATAGCTGCTCTTAATATATCTCCTGTTGATATTTGAGGTATTTCAAATTTCTTTATTAATTCTTTAGCCTGAGTGCCCTTACCAGCGCCTGGTGGTCCAAATAAGACTATATTCATATTTATCATCTCCTTAATTTTTCTAACATAAGAATAGCATTTAAAAATTGAGATTGTCAATTAAGAATAAATGTTAAATATTACTTAATTCTCATTTAAAATATCTGCAATAATATCGACAGATTTTTTAGCTTCAGGTATAGGGAAAAGTGGATAATCATGATTTAAATTTTCTCCTACAATTAAATTAAATTTAACTTTTTCTTTTCTTAGTTTATCTACAAGTAACATAATATCAGGATAAAGTATATCTCTAGTTCCTGTAATTATTGTTAAATTCTTTAAAGCACTCACATCGCCAAAAATTGGACTTAATCTTGAATCCTTTAAATCTTGCCCATCTGACCAAAATTTAGCTGCAGCCATAAGTTTTGAGCTTTGTAGCCAAGGATCAACTTTCTCATAAAGTAAAATATCTGGATTTTCCATAGTTAAATCTACCCAAGGTGAAATTGCTATTATTTTTTTAGGGGCTTTTATACTAAGTTTTTTTAATTCTTCTGTTAGACCTAAAGCAAAACCTCCACCTGCACTATCTCCCATTAAAACTACATCCTTATCCTTTGATATTTCTTTATAAAGAGAAATTACTTTTTCATATGCATCCTTAAAATTATACTTAGGAGCTCTTGGATAGATTGGTAATATTACTCTTATATCAGACTTTTTTATTAAATTATATAAGAATGTAAAGTGATTAGGATCAGGTTCATGAATGTATGAACCTCCATGAAGATAAATTACAACATCTCCTTTACCATTCTCATTTAAATGTAAAACTTGCATGCCCATGTATTCTTTAATTAATATATTTTCATAATATCCATTAGGAAGCATATACAATTCTTCTTTCATACACTTTCTTTCCCTTAACTATGCTTCCATTTTTTCCTGTGTAACTTTCTCATAATTAGTTACTTTTAAATAAATTTCTGCTACAGTTGCTAACACACTTCTTTTGTAATAAAATCTTGATGATAAAAAGATAGTCAATATTAAAAATATTGCTATCATAATTATCAATTTAAACATTTGTTTCATATTACTCCTTTTAAAATAACCACACGATTATCAATATTTTTCTCTAATATTTAATACACTTTTAAGATTTTTAGCTTTATATATATAACTATTTTAAAAATAAATTTTTTAAATTATCTCCAATAAATATCAAATTCTTCTTAATACTATATGACTTATACAAAAAATTAGATATTAATAAAATGCTTTTTTTACTTTTATTTTTTTCATTACACCTCCAAAAAAACATATAAAATAGAATTTATTTTAACAAAAAATAATTCACCTAAAGTAACATACTATTTCCAGTTAACTATATATTTTTACTTATATGATAAAGATATTCTATTTTTATTATACATTAAAATTAAAAAAGTTAGAATATATTTATAAAATATTTTCCAACTTTAAATTTTCAAATAACTCTATTTTACTTCCATCTTCACTCTTCTATTTAAATGTTTTACTTGTTTTTTTGTATCAACTATATTACTCTACACTGTCAGTATATATAATCCAAAAGCATTCATCTTTCTTTAATTTAGTCCTCATATATTTATCATATATTACTAAATTTTTATAATAGTTATTACTATTCCTTAATTACATCTTTATTTTAATTTCGATTTGAAAAATAATTTCTTAAATTTAAATTCCAGATAAATCTATAGTTAACTATAAAAAAGTTTTTTATAATTTAATTACATATCGTATCTTATTTTCATGATTTATCAAGCATTTAAACACAAAAATTCAAAAATAAAATTAAGATCTTAATTAATTTTACCAATTATATCCTATTTTTGTATTTAAGCTAATTTTATGCGAATCTTTATATAGCTTTTCATTATTATTAGTATTTCCATCAAATCTTAAATATGTATCAATATTAAATTTGTCAACTTTATAATTCAATCCAATTTTAAAATCATATGATATCCCTATATTATTTATATAATCTTTCCATTTAGAATTTTCAATTTTATCTTTTATAAATTTATTATTTCCATTTAACTCAATACCTAAATCTCTAAAAATCTCATCATCAATATTTAACTCTGTAATAATTTCATTTTCATCAATATCAATAATTATTGGCTTATCATGTACAGCACTTTCTGAACTCATTTCTCTTTTTCTATATTTCTCTATTTTTAATTTTGAAGTTATACCAACATTCTCATAATTAAATCCCAATTTAGAGTTTAAATATATATTTAAATTTTTAATTAAACCATACTCAATTAAAACTCCACTTGATAAAGTATTTTTAAAAATATGGTTTATCTCATTTGAAGTTATTATTCTATCATATAATGTTGAATCATCTTCATTTTCTGGAATTCTTTCTGATATTGTATCCAACAAATTATCTTCAGTATAAATATTAGAATATGTTATTGATGGTGTAATACTAGTATAATTTTCAATTTGTGGATAAATTTTTAGATTTTTAATAATATTAAATTTTTTAGAGTATTTATTATATAATTCAAAACTATGTTGATGAACATATTCATCATAAATTCTTTGAACTCCTTTATATAAATTATTATCTATAACTTCACTCTCTCTATTAATTATATTTTTATACTTCCCATAATTATATTTATATGCAATAAAACTTTCTATATCACCTTTATTATTTTTTAATTTAAATTTAGCATTTGCTCCTATTGCAAAAATATGAGCATGAGTTTTTAAGAATAAATCTCCTAACTTATTATCATAATGAATAAATCCTCCTATTTTAGCATTATCTCTAATAGAATAATTTCCACCAACAGTTACATTTAATCCTTGAATATCTTCTCTTGAAGCTCCTATATTTGAACCTATTTTAAAATAAACATTATCTTCAAAAGTTGGTTCTAACTTATAATTTGAATATGTTTTAAATCTAATTAATTGATAATTACGAAAACTTCTGTTTTTTAATAATGCTAATGTCTTTACTTTTCTTAAATTTTCATAATTTTTATCATCTCTAACCAATCCATTTTGTTCTAATTTTTTAAATCTATTTATAAATTCTTCAATTTTTGAATCTTCTAAATCATTATATGATTTATATGTACTACTTTCTATCATTTTTTTAACTTCAGCTAATTTTTCACCGAAAATATAATCGTGTATTTCTTTATTAAGATCCGAAAAGTCCTTTAAAGTATCCGATTCGGATATTAAACTTACTAAAGTACTTAAAAATAACAATAATCTTTTCATTATAACTATTCTCCTTTATATCTATATACAAATATTGTACCCCCCCCCCCGACTTATTTTGTCAATGTTTTTTTTTGGTTAATTATAAGATGTTATTTTATTTAAAAAAAAAAGAAATTTCCATTTTGTAGAAATTTCTCTTAATTTTTATTTTATTTCAGAATAGCCCCTTATTTATTTTTTTCTAATTTTACTATTCTTTCAATCAATTGTAATATCTTTTTATTATTTTCTATATTTTCATTTTTTAATTCCTTCAGTTCTTTTTCAAATAATTTTATCTTTAATTCATGTTCATAAACTTTTTCATCAAGTAAATTAATATTTCCATTTCTTTGTAATGTTAATAATTCTTTACTTCTTGAACTTACACTATCAAATTGATAACCTAATCCTGCCCCTAAAGCTACATTACCTCTTGTATTTAATGATCCACTTGCCCTATATGTTAGATTAAAGGCTTCACTTCTTCCTGATAGTCCTAATGCAAAGGCATGCTCTCCGTTATAGTAACCATATGATCCTGCTATGTTGTGTCCTACTCCACTTATCTGTGGTAAATTTGCCATAGCTACTGCATTTGCTATCCCACTATTTGCTGCTACTCCTTTTGATATATCTGATTTTACTTTATCACTTAAATCTACAGTTACTGTATTATCTTTAGCTATCGTTGTGATGTTTTCTGTCCCCTTAATACTAAAATCTAAGCCTCCAGATTTATTTAATGCTTGAGCTTCTGTCTTCCCACTATCTCCACTAAATGAAATAGTATTACTACCCAACTTATCTACATATTTATGTAAAGATTTTAATTGGGCTACATTTACTGCATCTGTGTCTTTACTACCTGCTGCTACTCCTGTTATTTGCCTTGTTATACCCTTATCTGTATCTCCTACTGACACTTCTCCATAATGAGATTTCCATGCCATTGCTATCTTTGAATACTCTTGGTACTTTTTATAAATTTCTGTACTATTTTTTATTTTTTTATAATTTTCTTGCTTTCCATTAACAACATTTCCTTCTGGCATTTGTTTTTCTAATAATTCCTTAATTTCTTGTTCTAATTTATGATATTTTTCTTTATCTTCTTCAGTAAGTTTATCTTCTAATGAAACATTTTCATTAGTTAATGCATCATAACCTAGTCTATCCTCTCTTCTCTTTGCCACTGAATATGATCCAAGTGCAACAGAATTATCTTCTTCTACTTTGGAATTACTCCCTAATGCTGTTACTCCAAATAAATCATCTCCTACATTACTATCTGATCCTATAGCAACATTATTTTCACTATGATTACCTTTAGACTTAGCTCTATTTCCTATTACTACTCCATTTAATTGTGATTCTGTTTCTTCTCCAATAGAAATTCCTTTATTATGACTTAATGCTTTTTTTCCTAATGATATTCCAGATGAATTAGCCTTACTTTCTCCTCCTATAGCTATTGCACCTTGTCCATCAGTATAAGTCTTTTTACCTATTGCTATACTATCTGTTGTATTAGCATTAGCTTTTTCTCCTATTGCTATTGCACTCTTTGAGTTTGCTTCTGAATCTGTTCCTATCGATATTGCATTTGTAGCATCATTACTATTAATTTTCCCTGTATTTGCTCCCTTACCTATAGCTATACTGGTATCTGCTTTTGCCTTAGATTCTACTCCTATTGATATAGATTCTTTCTTTTCTGCCTCTGCCTTATATCCTATAGCTATAGATTTATCTCCTGTATCTTTTGCTTCTTTTCCTAACTTTACCTTATCACTTTCTGTATTATTGTTTTGAGTTGTGTTTGTGTATGTTATTACAGAAAGAAATAAGAAAATTGTAACTAAATTATTTTTCTTCATCCTAATTTGTATAATATATAAATATATTATATCTTTGTTCCTCCTTATATACCAACATTTTTAAATTGTTTATACCATACTTGAATTTAAAATTTTACTTCAGTATTATACCAAAAGAGATACGATTTTGTAAATATATAAATAGACTTTTTTTATTCAGTATAATAATGTAATGTGTTTAAATTTAAATTTTATTTATTCTACCGACATTATACCCCCCCCCCACGATATTTTGTCAATAAAATTTATACAAATATATTTAAATACATTTTTTATTTAATTTTACTCTCATAAGCACTTAAAACTATTTCTTTTCCGTCTAAAGTTATTTTTTGTTCAACATTTGATAGATTATGCATAAGTATTTTTTCACTTCTCTTATATTTCATCTTATACACAAACACCTTATTATTCCCTGTATCTATAACTTCAAATTTACCATATTTTAATTCATCATTTTCTTTTCTAATTTTTATCCATAGTTTGTAATGATTTAAAAGTGAACTAGTATCATCTTTTTGAGTATAATAATCTTTTGTATCCACATTAAATTCTATAGCCTGCCATTTTGTTTGAAATTCATCATTCCATATATATGGCTCTCTTATTAACTCATCTGGTTTTTTACCTCTCATTCCCAGTTCTTCACCATAATATATGTATGGATTACCAGGTAAGCTAAGTAATATACTTGCAGCAACTTTTTGTCTTTCAATATCAGGAAGTTTTTCTGAAATTCTACTTTGATCATGATTAGTTAAAAATGGTGCATCTATATACTCTTTAGAAGCTTTTTCATATAGTTCATACACTCTTGTTAATTTTGAACTAAGTTCTTTAGAACTTTCTCTAATTAAAGCATTAATTATACCTTTTTCTGAAAATTCAAAATTAAAATTAGAATCAAATACTTTAAAATATTTGGAAATTATTTCAGGTGCACTCCAGACTTCCCCTACAATATATACATCTTTTTTAACCTTAATTAATTCATTTCTAAATTCAGACCACCATTTAATATTTTCTTCCATTAAATTAATATCTTTTGGATATTCTCCTTTTCCATATGCATGTAATGCTGCATCTATTCTATATCCATCTATGCCAACTTCTTCTATCCAATATTTAGAAATTTTATGTATTTCTTTTCTAACTTCCTTTTCTCTTAAATTTAGATCTGGCATTCCACTCCAAAAAATCCCAAAATATTTCTCTTCATCATTTAAATTATGCCAAGATTTCCCACCAAGAGAGGCAGCTTTAAAATCAATATTATCATTATTATTTTTTTCTATTCTATAAAACTTTCTATATTTACTTCCCTTATTTACTAAAACATCCTTAAACCAAGGATGTTCACTACTAGTATGATTAATAGGTAGATCTATAATTACCTTTATACCTAAATTATGACTAGCCTTAACAAGTTCTTTAAAATCCTCTACACTACCATATTCAGGATCTATGTTATAGTAATCAACAACATCGTATTTATGGTAACTAGGTGAAGGAAATATTGGTGTTAACCATAGGCCCTCTATACCTAAATCTTTAAGTTCAGGAAGTTTTGCTCTTATACCATTTAAATCTCCTATACCATCTCCATTAGAATCTGCAAATGATCTAACAAATATTTCATAATATATTCCTGTTTTTGCTATTTTATCATCATGTGTATTTTCATGTTCTTTAAATTTATTACAACTAAATATTAATTTAAACATTAAAATTAATATTAAAATACCTTTTTTCATATATTTACCTTTCTAGTTTTATTTGAAAATAGAGGTAGTATATAACTACCTCTAATCTATTTTTCACTTAATATTAATGGTTTACCATCTACTATTGCAACAGAATGCTCAAAATGAGCTGATCTTTTCTTATCTTGAGTAACAACTGTCCACATATCTTTTAAAATTTTAACCTTAAATGTTCCCATATTTACCATAGGTTCTATAGCTATTACCAAACCATTTTCTATTTTTAAACCAGTATTTGCCTTACCATAATTTAATACATAAGGATCTTCATGCATAGCAAATCCTACTCCGTGTCCAGAAAAATCTCTTACAACTGAAAAACCAAATTTTTCTACATATTGTTGTATTGCAAAACCTATATCACCTATTCTATTTCCTACTCTAGCTTGTTCTATTCCTATTTCTCTAGCTTTTTCTGTAACTTCTAAAAGTTTTCTTGATCTATCATCAATATTCCCTACAGCAAATGTTTTAGCTGCATCTCCAAAATATCCATCAAGTATTGTAACAGTATCCAAAGAAAGTATATCTCCCTCTTTTAATATTTCTGTTTTACTCGGTATCCCATGAACAACTTTTTCATTTATTGAAATACAAGTACTTGCAGGATAAGGTGGATATGGCCAACCTATATCATATCCCTTAGTTCCTGGAATTGCACCTTGACTTTTAATATAGTCTTCACATATTGCATCTATTTCCCAAGTTGATATTCCTGGTTTAATATACTTAGGAATAATATCTTCATAAAGTCTAGCAATTATTTCATTTGCTTTCTTTATTTTCTTTATATCCTCTAAAGTTTTTAATTTTACCATTTTTATCCCTTCTGGCTATTATATATTACAATTATTAGATAAAATATCTATTATTTCTTCTGTAATATATTTGCTTTCTCTTTCTCCCTGAATTTCAGATACTTTACCTTGATTTTTATAATATTCTAAAACTGGGGCAGTTTGATTCTTATAATTCTCTAATCTTTTTTTAACAACTTCTGCTGTATCATCTGCTCTTTGTTCTAAATCTTCTGGATTTTCATCTACAGGAGGATTGTAAATTATATGATATATTTTACCTGTTTTTTTAGAAACTCTTCTTCCTGTAATTCTTTTTAAAATTTCATCATCTTCTACAACTAAAGCTATTACTTTTTCTATAGTTCTTTCTTGTTTTTCTAATATTTTATCTAATGCCTTAGCTTGCTCTACTGTTCTTGGATAACCATCTAAAATAAATCCTTTTTCGGTATCAGCTTCCTTTAATCTTTCTTCTACTAATCCATTAACTATATCATCACCAACTAAATTCCCTGCATCCATTAATTTTTTAGCTTCAAGTCCAAGTGGTGTTTGATTAGCTATAGCTGCTCTTAATATATCTCCTGTCGATATTTGAGGTATTTCAAATTTTTTTATTAATTCCTTAGCTTGCGTCCCCTTACCAGCCCCTGGTGGTCCAAATAAGACTATATTCATATTCATCATCTCCTTAATTTTTTCTAGTATAAGTATACCATTTAAAAATTATGATTGTCAATTAAGTATAATCTTAACAATCATCTCCATAGCTTCCTGTGCTTCTGGTATAGGGAAAAGCACATAATCATGAATTAAGTTTTCTTTTACTACAAAATTAAACTTAACATTATCTTTTTTCATCTTATCTGCAAGTAGCATAACATCAGGATAAAGTATATCTCTTGTTCCCATAAATATTGTTAAATTTTCTAAAGTATTTAAATTACCATAAATTGGACTTAATCTTGGATCTTTTAAATTTTCTCCATCTGCCCAATATTTAGCTGCTGCTAAAAGCTTTGAATGTTTTAACCAAGGATCAGCCTTCTCATAAGTTAATATATCTGGATTTTCCATAGTTAAATCTACCCAAGGAGATATTGCTATTAATTTTTTAGGCTCTTTCATATTAAGTCTTTTTATCTCTTGTGCTAATCCTAAAATAAAGCCTCCTCCTGCACTATCACCCATTAAAACTACATCACTATCCTTTGAAACTTCTTTATATAGCCCCATTACTTTATCGTATGCCTCTTTAAAATTATGTTTAGGAGCTTTAGGATAAACTGGTAATATTACACTTATATCAGTTTCTTTTATTAATTTATTTAAAAATCTTAAATGGTTAGGATCTGGTTCATGAACATATGAGCCTCCATGAAGATAAAGAAGTTTAACTCCTTTTCCTCTTTCATTTAAATACATGACTTTCATGCCCATATATTCTCTAATTTCTATATCTTCATAACCTTTAGGAAGCCTATATTCCTCCTCTTTCATTTCCTTTTTTTCTTTTAACAGCATTTCTGCTTCTTCATAAGATATTTTCTTATATTCTGTTATTTTTAAATAAATTTCTGCAACAGTTGCTAACATACTTCTTTTATAATAAAGTTTTGATAATAAAAAAAGCCCTAACATTAAAAACATTACTATCATTATTATTAATTTAAATATTTGTTTCATATTACTCCTTTTATTTTCATATATATTTAATATATATTATACATTAAAACAAGAAAAGTTAGAATATATTTATCATATTTTCTAACTTTAAAATAGCCTATCCTTTTATTTCAGTAGAATAAACTCTATTTTTATCTTTTCTAAGAATATCATATCCATGCTTTTCTATTATTTTAATTAGATATTTTATTGTAGAAGTATTAATGTTAAAACATTTACTTAATGAAGAAATGGTTTCACCTTTTAATCTTCTTTTATATATTTCTATTTTATCTTTTATTGTAATTTTACACACAAAAAAAGCACCTCCATTCTTGTGTTCAAGAATTGGGGTGCAGTATATTTTTGACTTAATTCATTTTTTTTATGGATTCTTCTAAATATTTTCTAGGTATTCCTAAATTTATTCTGATGAATTTTTCTCCATTAGCTACAAAATGTGTACCACTTTCAACTAATATTCCTTTTTGTGCAAGTTCTTTTGTTAATTTTTCTCCATTTTCAACCTTTATCCAAAGAAGATATGATGATTCCATAGAAAAAATAGAGTACTTTTTTTCTAATTTTTCTTTTACGAAAATATAGTTTTGATATATGTATTTACTTAAATCATCTAACCAATCTTCACATAAATTATATGCATTAATCATTGAAACAAGACCTAATATATTAGGAGAAGTAATTGAGTTTTCTTTCATTTTTATTTCTAATTTTTCTCTTAAATTTTTATTAGGTATTATACTATATGAAGTCTTAAGACCTCCTAAATTAAATGCTTTGTTAGGCGATGAAAGAAATATTAAATTCTGTAAATATTTTTCATCTAAACTTAAGGTACTTGCATGTTTTTTCTCAAAAGTTATTTCAGAATGTACTTCATCAGATACAAGTATCACATTATATTTCAAACAAAGACTTGCTAGCTTTTCTATTTCTTCTTTTTCCCATATTCTTCCAGATGGATTATGTGGATTACAGAAAATAAATAGTTTAGGAGAATATTTTTTAATTTTTTCTTCTATATCCTCATAGTCTAAAAAATATCTATTACCCTCTTCTTTTAGTGGTGAAAAAATTACCTTATTTCCACTATTAATAGTAGAATTATAGAAAGGTTCATAACTAGGCGTATTAATTAATATATATTCTCCTTTATTTAAATACACCTTATTTAATAGATGTAATGTAGATACTGTCCCATACCCTATATTTATCCATTCTTTTTTAACCTCTACATTATGTCTTCTCTTTTGCCAGTTTATTATGGAATTATAGAAATCTGGTGTAAGAGAAGTATATCCTAAACTACCATGAGCTATATACTCTTTTAATATTTTTGATAATTTTTCTGGAAGTAGAAAATCCATATCTGCTATCCAAAGAGGTATAAATTCCTTAGGAAGTTTAACATTAAATTTCTTTTCTATTAAATCTCTATCCCATTTTCTTCTTAAATCAAATTTACTATCCACTTTTGTATCAAAATTATTCTTCATCAACTTCTAATTCACCTTTTTTAATTTTATAGTTTCTATAAATTACATTAACAACTGCTATTATTATAGAACCAATAGCAATACCTAATATATAGCTTGGCAATTTAGTTACAAGAGGCCATGCCCATATTGCTGATTCAGGAAACCATTGAACAGCACCTAACATTACTGCACTCATAGCACCTATTACTGCTGAAATAACATATAGCGGTATAACAAATACTGGATTTTCTAAAGCAAATGGTATAGCTCCTTCTGAAATTCCCATAAATGCTAAAAATATTGAAGTTTTACCAGCATTATAGAACTCTTTATTATACACTCTTCTACCAACTAATTTTCTATCTATTAATGTAGAAAGTCCAAGTCCTATAGATGGTATTACTACAGCTATATTTCTTGCTGTTAAAGGTAAAATTTTATCTGCACTAAATCCTATAGCCACAAAACTTGCCGCCTTATTAATTGGTCCACCTAAATCAAATGCTGTTGCTGCTGATGATATTAAAGCATAAACATATTCACCTTGTTTTCCTGCTATTTCTAATAAATTTCTTATTTGAACATTTAACCAACCACCTATTGGTGTAATTACAAATATCATAGCTATCATACAAATTAAGGCTGAAAGTAATGGTATTAAAAATGTAGTTTTAAATGCCAACCATTTTTCAGATAATTTAATATTTTGATTTAACCATTTAACTATATACCCAATAAAAATTCCTATAATTATTGCACCAAAAAATCCACTTGGAACTGGAGCAACTTTATCATAAACACCACTGTCTAATAATTTGATTATAGAAATAGGTCTATTTGCAATATATCCACCAATAAATCCAGCAGCTAATGCTGTTTTACCACCTATAGAATTAGCAACAAAAGCTGCAAACATAGGTATAGCAAATCCAAATAATGTAAATCCAAAACTTTCCATTAAATGGGCAAATTTTAATATTTGTAAGTTAAATCCACTAAACTCTCCTGAATTAATTGCTCCTAATATATTTACACTAGGATCTATTTTAAATAATACATAAGGCAAAACTTGTGAGAAAGCTCCTATTAAACCTCCCATTATTAATATAGGTATCATATATGAAATACCTGTCATTATGTGTCTATAAAAAGATTGTATTCCTGAAACTTTTCTACTTCTTTTTTTAATTTCCATCTTAATCCTCCTTAAAAATTTCTTGTAATATTTCTTTTGCTTCTCTTATAGCTTCTTTTAAACTAACTTCATATACATCACTATCATCAAATCTTTCTATACCTTGAGGCGTTATAGCAATAGCATGAATTATTGCATCTGCCTCCCTTATATCCTTAGCTGTTAATTCATTTTGTATACCATCTGCTCCTTGAGTTTCTATTTTAATCTCAATACCTAATTCATCTGCTGCATTTTTTAAAGAATCAGCTGCCATAAATGTATGAGCAAGGCCCATAGGGCATGCACATATTGCCACTACTTTTTTCATAATTTAACACTTCCTAACTATTTAATATTTTTTCTATTTCTATTTTATCTTCTAAAATATTTAACTTATTTCTAAAGTTTTTATCAATTATCTTTGATGATATATCTTTTAATATATCTATATGTTCCCCAACATTATTTTCAGGAACTAATATCATAAATACATGATTAACTGGTTCTTCCTCCTTATCCCAAATTATGTTAGTTAAAGACTTTAAATAAACTACTTTTGATTCATTAATGTATTTACTTTTACAATGAGGAATAGCAAAACCAAATCCAAGTACTGTATTATCTATTTTTTCTCTAATCATTATTTCATTTTTAATGTTTTCTGATATTTCTATATCCAAATTTAAAGATGATATCATATTTTCTATAATATTTTCCTTATTTATCTTATTAGAATTAATAATAATATTATCTTTTTCTACTATTTTCATATTTAATTTTCTCCTCTTAACATAACTTTTAAAAATTTTGATATTTCTTCTTTATTTGATATTTTTAACAGTTCTTCTTCAAAATTATATTTTTTTAAACACTTATTAATATCAAGAATTGCATCTAAGTGTTCTTCTTTATTCTTTGAAGCAAGCATTATAATTATCCTTATCTTTGCACCAAAAAAATCTATTTCATCTTTTAAGGTTACAAGAACAAATCCTGTTTTCTTAACTCTATCATCTATTTTTCCATGTGGAAGTATACTCATGTTACCTATTTGTATATATTTTCCATATTTATCTATTTGTTGTTTTATATTATTATAGTATTCCTTTTCTACTATCTGATTTTCTACCATTAAATTAACTGCTATTTTTAATGCTTCATCAATATTTCTTGCACTAGCATTTAACTTGATATTTTCTGAGCTAAGGAAATCATATATTCTTCTACTCTTATTTTCTTCTATATCCATGTATATATATGGTCTTAAAACTTTTCTAATATTTTCCTTTATTTCATCTTCTTTTTTTCCAGAATTTTCTTTAATAAATTCAAATAATTTACTTTCAGATATTTTAATATTTCTTCTAGGAAGTCCATATTTTTCAAGTTTTTCTATATCTTCTTTTTTAAATATTGGATTTACTTTTATTATTTCATTTCTTTTACTTAAAATATCTAAGGTAGTAACTATTAAATCTACTTTATCAATATTTTCATAATCTTTAAGCTTATTATATGGAATAGCTTCTATTACATCTACTTCAAAGTTTTCTTCAAGATTTTCTACAATTAGTTTTGAACTTGAATACCCTAATCCACAAACTACAAGTACTTTAATCATTTCATTTCTAATATTTTTATCCATTCTATCTAATGCTCTTTTAACCATTATAGCTATATATGAAATTTCCTCACTATTCCATTTAAATCCTAAAGATTTTTTAGTCTTATTATATACCTCTTCATATTCTTTCATTACTTCCTTACTAATACTATCTCCAAGGCTTATATTTTTCTTCACTCTATAAATGGCAGGTTTAATATGATGCAATAACTCTTCTCTAAATATCTTATCTTTACTAAAATCTTTATCAAAGTTTTCATTTAAATTGTTAATTATATTATTTATCATATCATCTGTTTCTATATAATTAGAATATATATAATCTTCTTCATTATATAGCCCTAAATATATGTCTGTAAGCATCGTTATGTCAAATTCATTCAAATTTTCATTCACAAAATATTCTGATATTTTCTTATACTCCTCAGTTTTTTGAATAAAACTTTTATTATCTAACTCACATTCTAGTAATTTATGATTTTCAAAATTTCTATTTTCACTAATATACACATAAAGTGAAACTATATCAAAAGCTTCATCAGTAAGTTTAATATCTTCAGTAAATTTTCTGACTAATTCTTTAGATCTTTCTAAATCTATATTTTTTGAATAATTAAATAATTTTTTACTAACTAATCTTAAAAAATATATATTAAATTTACTATTATTTAAACTTCTCAACTTATTTATTAAATATAGCCTTATCTTTGATTCTTTCCCATATATACTATATCCTCTATTAGAATCTAAATCTATTTTTAAATCATATTTTTCTATTTCTAAATTAATGTCTTTAATTACATTCCTAAGTGTTGATTTACTAATATCATATTTATTTGAAAGTTCTTGTAATTTAAATTTATTATTTTCTAAAAATATATCTAAAGTAATATACATCTGTCTTTCAAATGAATTAAAAACATATTCTCTAAAAGGAATTAATTCCAATTTTTCTTCATAATCTTCAATTAATAATTTTAAATTTGCATTCTTTATACCTATTATTTCATAGCTTATATAATATATGAAAAATTGATTTAATATTCCTATATCATATCTTAGCATTCTCTCACTTATATTAAGTTCATTAGATATATCAAATATATTGTTTTTACCTTGTTTTAATAACTCTAATATTCTAAAATTTCTATCTCCTATCATAAATTATCCTTTCATTATGAGTATAACTTAAAAAATTTTTTTAACAAGATTTAGATTATTTCACAAAAAAATGAAATAATTTGTAATAAAAAACAGAAGATTGCTCTTCTGCCTTATCTACTTAATTAATATTTCTCCATTTGATTTTATTACATCTCTATACCAATTAAATGATTTCTTCTTATACCTATTAAAGCTACCACTTCCATCATCATTTCTATCTACATAAATTAATCCGTATCTTTTAGAAATTTGTGCGGTAGACATAGAAACACAATCTATGCACCCCCAAGAAGTATATCCCATAATATCTACTCCATCTTTAATTGCTTCTAACAGTTGTAAAAGATGTTCTTTCATATATTTTATCCTATAATCATCTTGAACTGTTAAATTACCAAATTCATCTTTAACTAACTCATCTTTTGCTCCTAATCCATTTTCAACAATAAATAAAGGTATTTGATAACGATCATAATAACGATTTAAAGTTATTCTAAGTCCTATAGGATCAATTTGCCAGCCCCATTCTGAATCTTTTAAATATGGGTTTATAAGGCCACCCAATATATTTCCTTTACCAGAAGAATATTTAGAAGTGTCTTTTGCCTGTGTAACGCTCATATAATAGCTAAATGATAAGAAATCTACTGTATAATTTTTTAATAATTCCTCATCACCTTCTTCAAATAATATATTTATTACATTCTCTTTAAAATATCTTTTTGCATAGTTAGGATAATATCCCCTTACATGAATATCAGAGAATAGATAATTTAAATTTTCATAATCATATGCTGCCCAAACATCTTCAGGATTTGGTGTCATTGGATAAGTAGGCATAGCTAAAACCATACAACCAATTTTAAAATCTGGATTTATTTTACGAGCTATTTTTGTAACTAAACTTGAAGCAACTAATTCATGATGAATTGCTTGATATAGGTCTTGTTTAGATAACTTATCTTTAGAAGTTGCAATAGCTCCACTTGTAAACGGAAGTTCTAAAACTGAATTTACCTCATTAAATGTTAGCCAATACTTAACCTTATCCTTGTATCTTTCAAGTACAACAGTAGAAAATTTTTCAAAAAAACTAATCATTTTTATATCTATCCACCCGTTATATTTTCTAGCTAAATAAAGGGGTGTTTCATAATGTGAAAGAGTTACTAATGGTTCAATACCATATTTAAGAAGTTCATCAAATAGGTCATCATAGAATTTTAATCCCTCTTCATTAGGAAATTCTTCATCACCATTTGGGAAAATTCTACTCCAAGCAATTGAAGTACGAAAAACCTTAAATCCCATTTCAGAAAAAAGTGCAATATCTTCCTTATATCTATGATAAAAATCTATAGATAATAATTTTAAATTATCTTCTGTAGGTTCATCAGTTGGTTCACCTAATCCACCTTTTGGCAAAACATCTTGTACTGATAAGCCTTTACCTCCTTTATCATATGCTCCTTCTACTTGATTTGCAGAAACTGCACCACCCCATAAAAAATTTTCTGGAAAAACTTTCATAAATCCTCCTAACTATATTATAGCCAACAATTCATCAGAATGATTAATTTCATCATTTGTTGGAATTAATAAGATGTCTAAATAATTTTGTGCGTTTGTAACTATTATAGGAGTTACTATTTCATATCCCTCTGATAAAATTGTTTCTAAGTCTACTTCAAGTATTAAATCTCCTTTTGTTACCCTATCTCCATCTGAAATTTTACTTTTAAAACCTTTACCTTCTAATTTAACAGTTTCTAAACCTATATGTATTAATAATTCTACTCCATCATCACTTGTTAATGTAATTGCGTGTTTTGTTGGAAAAATACTAGTAATTATCCCATTAAAAGGAGCATAAATCTTACCATCTTTAGGAATAATTGCAATTCCATCTCCTAATAATTTAGATGAAAATGTTGTATCATTAACTTTTTCTAAAGCTAATATATCCCCAGATAAAGGGGAATATATATTTTTTTTATTTGATATTCCTGTTTTAATATTACTTAAGTTCTGTTTAGAAATTTTTTCATCAATACCGAAAATATATGCTAAAACAAATGTTACAGTTATAGAAATAAAGGCTGCTATTAATGCATTTACTATATTATGTGGAACTTCTGAATAAATAAATTGTGGAAGTCCAATTATAGAAGGAACTGCAAAAATATATGATTTAACTCCTGTTAATCCAACATATAGCCCTGATAGTCCTCCACCTATCATTGCAGCATATAGAGGTTTTTTGTATTTTAATGTAACTCCATATAGGGCTGGTTCAGTAATACCAGAAAGCAACGCAGAAAATCCAGCTGCAAATGCAATTTGCTTAGTATTATTATTTCTACTCTTAAATGCAACTGCCATAGAAGCTGCTCCTTGTGCTAAATTAGAACCTAACATTGCTGGAAGAATAAGTACATCTGGTGTTGCAGGAGAAGCTATTAGAAATATAGGGGCAAAAGCCCAATGCATTCCAGTCATAACTATAAAGGGCATAATAGTACCTAAAATAGCTAATGTAACCCAACTAGTAATGCCATACATCTGTTCAATTAAACTTGATAATCCTTTACCAAAAATTACTCCAAGAGGACCTACTAAAACAATAGCAATGAAACCTGAAACAATTAATACAAGTGTAGGTTGTAAAAAACTTTTAGTTACTGCTGTGCTTATTTTATTAACAATCTTTTCAATGTATTTCATTAAAAATACCATTATTAAAATTGGAATAACTGATGAACCATAATTAGCTGGTGTAACAGTTGCTCCAAATAACTTAAGGCTTTCTCCAGTAGATACCATTTGAACAAAACTAGGGTGTAATAATATTCCTGCTACAGACATTGCAAGTGTTGTATTAACATTTAGTTTTTTAGATGCTGAATAAGCTAAAAATATTGGTATGAAATAGTATGGTGCATCACCAAAAAATGTTAGAAAAGAAATACTTTGAGAATTAGCATCTACAATACCTATCATAGGTAATAAAACAACTAATACTTTTAACATTCCTCCACCAAGTATAGATGGAATAATTGGTGTCATTGACCCTGCAATATATTCTATAATTTGCCCTAAAATAGATTCTTTTTTCTTATTAGAGCTATTGCTTAATTGAAATTTACCTAATTTAATAAATTCTTTATAGTAATTTTCTACATCATTACCTAGTATAATTTGATATTGACCATTTTTTCTTAAAATTCCTATTACATTATCAATTGATTTTACAATTTTATCTGAAACTATATTTTCATCTTTAAGTTCAAAACGTAATCTAGTAACACAATGTGTTACATTAATAATATTCTTTTCTCCACCAATAGACTTTAAAATATTAGCTACTGTTTCTTTATATCCCATATTAATCTCCTTTATGATAAATTTTTTGTTAAACGGCGAATATGAGCAATTAAATAAACTAATTCACTTGAACTAAGTAAATATTCATACTTATTTTTAATAAAATCTGCTACACATATCCCACAACTATATTCTTTAGGGTATTTATTTTTCATTAATTCTAAAAGATCTTCATCTTCCTCATCATTATAGCTATTTCTTTCTAAAAGTCTATGAACAAATAGCTTAACATGAGTAATGAATCTATAATAATCAATAGAATCTTGATTAAATTCTGTTGAATAATAGTTTTGAATTATTTTTTCAATACTCATAATAATTTCTGTAATGCGATAAGATTCTTGAAAATTATTTTCTAAATTAGCATTAACAAAATGCAAAGCTATGAATGCTGCTTCATCAATAGGAATCTCAATATTCAAATCTTTTTTAATTATTGATAATGCTTTCTCTCCTAGTTTAAATTCTTCTTTATAATACTTAGCAATCTCCCATCTAAGGGGATTAGCTACAATAATTCCTTCTTTATGTCTTTCAATTGCTGTATTTATATGATCTGTTAAATTTATATAAATAATTTCATCAAAATGATTACCAAGTGTTATCTTCCCTAAGTTTATTATTTTTTCACAAACACAAACAATTTCTATTGGAACAACTATAAACATTTCAGTAAATCTATTCATATTTTCACTATTTTTAAGTAAAAAACTTTTTTCTATAATTGTTGGATTAATTTCATCTCCAATTTTTTTACCAAATGCAATTCCTTTTCCAAAAAGAAGTATATCTATGTCCTTCTTATTTTGTGCTATAACAGCATTATGATTTAATATACGTTTTATGATCATAAAATTTCCTTTCTAAAATAAAAAAATCTACTTAAAAAATCTCGGTATATTCCGATACATTTAAATAGATCCCTGCTCACTAAAAGTGATAACACTCTTCATTATCTTATATAATTCATGATTTTTTGTTATATCAAGCTTTATTCATTAACCCTATAACATGTTTATATGATAAAGGATTTTATTTGTATTGTCAAGAAATTTAAATTTCACCAGCAATCTTTCTTAAAACGAAGTCTTTGTTTTCAGTAGTTCCATTATTAGCAGCACCATTAGTATCTGGTTTATTCTCCAAGTTAAACTCTGCTCCTATCCATGGACTTACTTTTAATCTTCCTTCTACATAACTAAATTCTGTTGATATTTTTGGCTTCACTGTTAATGAATGTATTGCTTTTTCTAATTCTTCTTTTGTTGATAGTTTTCCTTTTGTTAAGTCTTTTATTTCTCCTTTTTTCTTTCTTAAACTATCTTGTTTACTTACATCATATTTCTCTGCATATTTATGTATACTTTCCTTATAGCCTGTTGAATCTTTTATATAATCTACATATACTCCATATACTTCTTTATTTAAGCCATTTAAATTATACTCATTATCTAATGATAAGATTACTTCTACATTCTCTCTTGCCTTATATCTACTCTTTCCTCCAAAGTCTATGCTTAGGGCTTGTTTTATTCCTTTATCACTTGGTTTAAAGTTTGCATCTAATCCATATTTAGCATCAATATTTATTTCATTTGTGTATCTTCCATTTACATTCTTATACCCTAACACTATATTTGCTAAGAATACATCGTATAAGTCTTTATCATTAGCTACTTTATGATTTTGGTCTGTATGGAAATGTACTTGGTTGATTTAAATATTTTCTTTACCAATTTTTCTACAATATCCATAGTTTTATATAATTCCATAAATCTTCCTTGAACTATTATATCCTACTTGTCCTCTTTGCTTAATGATCTTCTCCCTATTTTTTATATATACTATTTATATTTTATTATGCCCCAATATATCTTTATCAATAAAATGAAATAATACTTTTTTAGTAATAAAAAAGATGTCAAATAGTTAATTACCACTTAACATCTTTCATTATTAATCTTTAAAAAAATCTTTTATTTTATCAAAAAATGAAGTTGTTTTTTCCTCATTTTCTACACCTAATGTTTCATAAAATTCTTTTAATTTTTCTTTTTGCTTACTGTTAAGATTTTTAGGTACTTCTACACTAATTTCAATAATTTGCGATCCTTTATATCCACCATGTTTTATACCCGCATCTCTTATTCTCATCTTAGTTGCATTTTGTGTTCCTTCAGCTATTTTAATTTTAGTCTTACCTCTTAATGTTGGAACTTCTAATTCTCCACCTAAAGTAGCTGTTAAGAAACTAATAGGTACTTTACAATATATGTCATATCCATCTCTTTGGAATAATTCATGTCTTTTTTCTCTAATTTGTATATATAGATCTCCAAAATCACTACCTGGACCATCATAGTTCCCACCATCTCTAACAACTAATCTTTGTCCAGATTCTATACCAGCAGGTATTTTTATTTTTTTCTTTACCTGTTCTCTCTTACTTCCTGATCCATGACATGAATTACATTTATGTTCTGCCATTTCTCCTACTCCATGACAACTTGAACATTCAACTCTAACATTACTCATACCGAATATAGTTCTTTGTGTTTTTGTTACATGTCCTCTACCACCACATGTGTTACATTGTTTAGTTTTACCATCTTTAGCACCTGTACCACTACAGCTAGAGCATTTACCTCCTCTACTATATTCTATTTCTTTTTCAACTCCGTCAGCTATTTCTTCTAAGCTTAAGTCTAAAGTGTACAAAAGATCTTGACCTTGTTTTCTTCTTTGATTAGAACCAAATTCAAAGTCAAATCCACCTCCACCTCCAAAGAAGCTTGAGAATATATCTCCAAAATCAAAACCTTCAAATCCTTGTCCACCAAATCCTCCTGCACCTTGTTCAAAGGCAGCATGACCATATTGATCATATAGTTGTTTCTTTTCTGGATCTGAAAGTACTTGATATGCTTCATTTAATTCCTTAAACTTTTCTTCTGCTTCTTTTTTTTCTTTTTCATCAGCATTTGCCATTCTATCAGGGTGATATTTCATAGCTGATTTTCTAAATGCTTTTTTTATTTCTACATCACTTGCATTTTTATCAACACCAAGTAATTCATAATAGTCTTTTTTCATTAATTACCTCTCTTAAATTCAAACACTAATTTAGCCCTAAATTCTCCTCTAGGTTCTAATTTTTGTATTCCCTCTTTTAATGTTATATCCTTACTTGCTCCAATTATATCTGTAATTCCAAACCATGGTTCAATACATACAAATGGTGCATTAGACATTTTCCAAAAAGCTATATATGGAAAGTTTTCAAATGTTAATTTTACTTCTTTATTAGTACTTCTTGATTTAAGGTAAACTGATGAAGAGTTAGTATTTTTAAATACTATAGCATCATTTTTAAAGTTTTCTTCTGTAATATTTATTATCTTATTATCTACTAAATTAAATTCAACTTTTTCTTTTCTAAAAAATCCTGTTTCATCTAAGTGATATTTAAGAGATTTTTCTTCTTTTTCAAATTCTAAATATGCATCTTTTTCATAATTATTATTAATAAGAAAAGCAGGGTGTGCTCCTATAGAAAAATACATTTCCTCATCTTTCTTATTTTTCACAAGATATTTTAAAATAAATCCATTTTCTACTAACTCATATGTTACATATAGCTCAAATTCAAAAGGATATTTTTTTAAACTTTCTTCATCAGAAGAATACATAAGTTTAACTAAACTTTCACCTTGCTCTACTATCTGAAATATATTATCTCTTGCAAAACCATGCCTTGTTGAAATTATGTATTTCTTCCCTTTATATTCATAAGTTCCTTCTCTTAATCCTCCTACAAAAGGAAATAGTATAGGTGATGTTTTAGCCCAGTAATCTTTTCTATTCCAAAAAAACTCTTCCTTATTTATATTAAATGATTTTACTTCTGCCCCAAATTCTTCTATCTTTAGCTCCATTAAATCTTTTTTTAGTACTATCATAGCTTGCCTCCTCGTATACACGAAGAAAATAGGTCATAGACCTATTTTACTTCTTCTGCTTCTACTACATCATCATTATTATTTTCTGCATTTTCAGAAGCAGGTTGTTGTGCTGCTTGAGCTGCTTGATATATTCTCATAGCAAATGCTTCACTTGCTTTTGATAATCCTTCTATACCTTTTCTAATTTCTTCAATATTTTCACTATCTTTAACTTTTTTAAGTTCTTCTATAGCTTTTTCTATATTTTCTTTTTCATTACCTTCTAATTTATCTTCATTTTCTTTTATAGTTTTTTCTGTAGATATTATTAAATGGTCAGCCATATTTCTTGCTTCAATTAATTCTCTGAATTTATTATCTGCTTCTTCATTTGCTTCAGCTTCTTTTTTCATTCTTTCTACATCATCTTTACTTAAGTTAGATGATCCTGAAATTGTTACTTGATTTTCTTTACCTGTTCCTAAATCTTTAGCTGTAACATGTACTATACCATTTGAATCTATATCAAATGTAACTTCTATTTGAGGGATTCCACGTGGTGCTGCTGGTATTCCTTCTAAGTTAAATTGCCCTAAAGTATGGTTTTGAGAAGCTTGTGCTCTTTCCCCTTGTAACACATGTATAGTAACTGCTGTTTGATTATCTGCTGCTGTTGAGTATACTTGTGATTTTTTAGTAGGTATAGTTGTATTTCTTTCTATCATCTTAGTAAATACTCCACCCATAGTTTCTATTCCTAAAGATAAAGGTGTTACATCTAATAATAGGACATCTTTAACATTTCCACCTAATACTCCACCTTGAATTGCAGCTCCTACTGAAACTACTTCATCAGGATTTATTGATCTGTTAGGTTCTTTACCAAAGTATTCTTTAACCCATTCTTGAACTGCTGGTATTCTTGTTGATCCTCCAACAAGTAATACTTGTTCTATATCTCTAACTGTATATCCAGCATCTAAAAGAGCTTGTTTTACTGGTTCTTTAGTTTTTTCTACTAAATGTTTAGTTAATTCATTAAATGCTGCTCTAGTTAATTTCTTTTCTAAGTTTTTAGGTCCAGTTGCATCCATAGCTATAAATGGTAAAGAAATAGTTGTTTCTAAAGTAGAAGATAATTTCTTCTTAGCATCCTCTGCTGCATCTTTTAATCTTTGGTAAGCTTGTGGTTCATTTCTTAAATCTATTCCTGTTTCTTTTTTAAACTCATCAGCAAGCCAATTGATAATAGCAGCATCAAAATCATCTCCACCTAAGTGATTATTTCCTGCTGTTGCTTTAACTTCTACAAGTCCTGCTCCAACTTCAAGTACTGAAACGTCAAATGTTCCTCCACCTAAGTCAAATACTAATATTTTTTCTTCTTTTTCTTTATCCATTCCATATGCAAGTGCTGCTGCTGTTGGTTCATTAATTATTCTTTTAACTTCAAGCCCTGCAATTTCTCCAGCATCTTTTGTAGCTTGTCTTTGTGCGTCAGTAAAGTATGCAGGAACTGTAATTACAGCTTCTTTAACAGTTTCACCTAGGTAGCTTTCAGCATCTTTTTTTAATTTTTTTAATATCATAGCAGATATTTCTTGTGGAGTGTAACTTTTTCCATGTATATCTACCTTATGATCTGATCCCATATGTGTTTTAATTGAAATTACTGTTTGTTTTGGTTCTGTTATTGCCTTTCTTTTAGCTGTAGATCCTACTATAATTTCACCATTAGATTCAATAGATACTACTGATGGAGTAGTTCTTTCTCCCTCAGAGTTTGGTATTATTGTAAATGTTCCACCTTCCATAACTGATACACATGAATTCGTTGTTCCTAAATCTATTCCTATTATTTTACTCATATTATTTTCCTCCTAGTTTTTATTTTCTTCTTCATTATTTTTTATTTCTTCAATCTTGTTTATTACAACCATTGCAGGTCTTATTACTTTCCCTTTAAGCTTATATCCTTTTTGAAGTACCATTAATACTTCATTATTAGCTTTTTCTTCATTAGATATAACCTGAACGGCATGTTGTTCATAAGGATTATATTCTTTTTCTAATGCTTCTATTTCTGTAACACCTTCATTAGTTAGCATCTCAGAAAAATTCTTAATAGTCATTTCTAATCCTTCTACAAGTTTGTTGTAATCTTCTGTAGAACGAGAAGCTTCTATTCCTCTTTCTAAGTTGTCCAAGTTTTCTAATACCTTTAATATTATATCTTTTGAAGCATATTCCTTATATTCCTGTAATTCCTTTTCTTTTCTTTTAGAAAAATTTTGAAATTCTGCAAGCTTTAATGCATAAGCTTTTTTATAGTCCTCTAATTCTGCATTGAGTTTCTCTATTATTACATCAGTTTCTTCAATATTTTCCGTTTCCTTTAATTCCTCTTCTTTAATTTCTTCTGACATTTCATCTCCTAATCTTTGTAACCTATAAATTTATTTTGATAATTTTGATTTAACATTTTCTTTAACATATCTATTACTAAATCAAGTAAAGCTAGTGTTTTAGAATAATCTATTCTAGTTTGAGCAATAAGCCCTAAAACTCCCTTATCTTCACCAAATTCATAACATTTAAATATGAATACTGATTCTTCAAATCCTGCTATATCTATATCACTTCCAAAAATAATATTACTATCTAAATCATATTCAACCTTAGATATTAAATGTTTAAATAAGGCATTCATTTCACTTTCATTATTTATCATTTTAATATTTCCAATAACTTTTTCTATAGGTATATCTTCCCTAGAAAGTAAATTTTCTGCTCCATCTACAAAGACTTTACTATTTTCAAATATTCTTTTTTCTTCAAATCTAAAGTCATTAACGCTAATATTTTTTAAAAATCTTTCCATATCCTTTAAAGTAAATCTTTTATGAGTAGTATTCATCAAATCAAATATATATGAATTTAAATTATTTACATTTTCTTCTGTTACATATGTATTCATAAGTAAAGTGGATGTTTTTATAATATTATTTTTCATTACCACTACAACAAATACTTCTTTTTCATTAATTCTAATAAATTGTATCTTTTTAATACTTTCCTCATCTGATGATGGCTCTATTGCTATAGCTACAGATCTGGATAATTCAGATAAAAGCTTTACTGTTTCTTTAAATATTATATCTGTCTTATTTATCCTCTTTTGATAATGTAAATAAATCTGTTCTTTAGTTTCTTCATCAACTTCACTTACTTGAAGTAATTCATCTATATACATTCTATATCCATCTAAAGTTGGTATACGACCAGATGAAGTATGAGTTTTAGTAATTAATCCCATTTCTTCAAGATCAGACATAACATTTCTAATAGTGGCTGATGAAACCCCTATATTATATTTCTTCTCTAAAGTTCTTGAACCAACCGATTCTCCACTATTTAAATAGTGATTAATTATCATATTAAAAACTTCTTTTTCTCTTTCATTCACATACTCCACCTCCTGCTAGCACTCTTTATGTTATACTGCTAGTATACATCATTTATTACCTTAAGTCAATATTTTTTTAAATTCTAACCCATCTTCACTTACATCAACCTTTATATCTACATTACCATTTATATTCTCTTTTAATATTAATTTAGATAAATCTGTTTCTATTTGTTTTTGTATGAATCTTTTTATAGGTCTTGCTCCATAATTTTCATCATAAGCATTTTTGAATACATAATCTATTACATCTTCCCCGTAAACTATATTTATCATTCTATCTTTAAGTTTATCATTCATCTTCTCTAATTCTAATCTTACAATATTTTTAATTGCAGCTTCTCCTAAAGATTTAAATGTAATAATCTCATCTATTCTATTTAAAAATTCTGGTTTAAATCTTGTTTTTAATTCTTCCATTACTAGTTCACTTTTACCATCAAGTATGAAATGACTTCCAATATTTGATGTCATTATAATTAGGGTGTTTTTAAAGTCTACAAGTCTTCCTTTACCATCAGTAAGCCTTCCATCATCTAAGACCTGTAACAGTACATTAAATACATCAGGATGTGCTTTTTCTATTTCATCTAACAAGATAACAGAATAAGGTTTTCTTCTAACCTTTTCAGTTAATTGTCCACCTTCTTCATATCCTACATAACCTGGAGGTGCTCCTATAAGTCTAGCAACTGAATGTTTCTCCATATATTCGCTCATATCTATTCTAATTATAGCGTTTTCATCATCAAAAAGATTTTGAGCAAGTTTTTTAGTTACATATGTTTTACCTACACCAGTAGGTCCTAAAAACATAAATGATCCTATAGGTCTATTAATATCTTTTAACCCTGCACGAGATCTAAGTATAGTATCTGATATAGCTAGAATTGCCTCATCCTGTCCAATAACTGATTTTTTCATATATTCTTCAAGTGAAAGTATTTTTTCATTTTCACTTTGAACAAGCTTACCTACAGGTATACCTGTCCACTTACCGACAATTTCAGCTATTTGTTCCTTACCAATAATTTGTGAAACAAGAGAATTTTTTTCTGATTTATCTCTAATCTCATTTAATTTTCTTTCTATTTCAGGAATAATTCCGTATTCATATTCTGCTGCTTTAGCATAATCTGCAACCCTTTTAGTTTCTTCAAGTTTAACTTTAGCATCATCTAACTCTTGTTTTAATCTTTTAAGTTCTAAAACATTTTCTTTTTCTGCATTCCAATTTAAAGTTAAAACTCTTTTTTCTTCTCCTAATTCTTCTATTTCTTTAATAATATCCTTTAATCTCTTAATTGAAACTTCATCTTCTTCTTTTTTTAATGCTTCTCTTTCTATTTCAAGTTGTGCATATTTTCTATTAATTTCATCAAGTTCTACTGGAACTGAGTTAATCTCTGTTTTAACCTTTGCACAGGCTTCATCTATTAAATCTATAGCTTTATCAGGTAAAAATCTATCTTGTATATATCTATCAGACATAGTTGCAGCTGCAACTATAGCATTATCAGATATTCTAATTCCATGATATTGTTCAAACTTCTCTTTTAATCCTCTTAGTATAGATACAGCATCATCAACACCGGGTTCAAATACTTGTATAGGTTGAAATCTTCTTTCAAGTGCAGCATCTTTTTCTATATACTTTCTATACTCTGCCAAAGTAGTTGCACCTATAACTTCTATTTCTCCTCTTGCAAGCATAGGTTTTAATAAGTTAGATGCATTCATAGCCCCATTATTACCACCAGCACCTACAATATTATGTATTTCATCTATAAATAGTATGATTTTACCTTCATTTTTTTCTAATGTATCAACTACAGCCTTTAATCTTTCCTCAAATTCACCTTGATACTTAGCCCCTGCAATCAGAGCTCCCATATCTAAAGAAAATACTGTTTTATCCTTTAAATTATCAGGAACATCTCCACTAAATATTCTTTGAGCAAGACCTTCTACTAATGCAGTTTTCCCTACCCCAGGCTCTCCTATTATCATAGGATTATTCTTATTTCTTCTCGATAATATTTGTATAAGTCTTCTAATTTCATTATCTCTTCCTATGACTGGATCAAGTTTTCCTTGAGAAGCTAACTTAACTAAATCTCTACCATATTTTTCTAAAGATTCTAAACTTTCTTCAAATCCATCACTATTAACTTTTCTTCCCTCCATCATATTATCAAGTGTTTCATTAATCTTTTTAAAATCTAATCCAAAATCATTTATTTTAAGCATTGCTTTTAATAGAAATACTACCGAAACATATTCATGACCACCACTATTTGCCATATTAGATGCATCATTTAACATAGTAGTAAATTCTTGAGAATAACTTATTTCTCCTCCACTTATTTTAGGCATAGAATCTAATTTAGTATATATGTTTTGTTGCAGTTCATTTCTATCTACACCCACCTTGTTTAATACTGAAACAGTTGTCTCATCATTAGAAACTAACTCCAACATCAAATGTTCTAATCTTACATTAGAGCTTTTAAAATTCATTGCAAATTTTACTGTATTTTCTATTGCTTCCATAGCCTTTCTTGTAAAATTTTTCATATATATTCATCTCCTTTAATTTTTGTTATTAGCACTCTTATGGTTCGAGTGCTAATTGTATTATATATTAAAAAATATTAGTTGTCAAGGAGAAAGATTAACAATTTAAAATGATAACTCTTGGTGTGTAGAACTATAAGCGATATCGAGATATAAGGAGATGATGCGAAAAAAAATATATCACAAGAAGAATTAGCTTCAAAATGTAATTTAAATAGAAATTTTATTGGGTTAGCTAAAAGAGGTTAAAAAGGTATTTCTTTAAATAATTAGTTGAGCAAGATCTATGAAGAAAAGAAGTGGAGTTCACAAAATTATCTAAACAAAATAATAATATGATAAATTTTAATAAAAGAAGTGGTGGTACAACTATCATTTTACCTTTCGGATTTGTTCAGTGGCATCAGGGTAAAATGCAGTTTCACCATAAATTAGACTCAATAAATTTATTGTATTAAAAATAAAAAAGGATCGACTTAGACAAAGTTAATCCTTTTATTTTTATTTATTATATATATCAGAACTTTTCTTCCATTTTCTAATTTTAGTTCTAAAAGTTCCAAAAGGGGCAACAGTATTAACATGAATAAATTTATATACTTCCCATACTGCTGTTTTTATTGCTTCATCAGCCCATTTTCTCATATGTGGTTTAAAAAGTTCATCATCACTCAATGAATCAATCATCAAATAAATAGAGTTGATATTCTCATTTAATTTAACTTTCAATTCTTCAAGCGATAAACCGGCATATGTACTTGTAAACCATTGATATAACTCTCCAAGTTGATTCCATTTGAATTTATCTGTTGGTGTTTTTACTTTAATTCCTTTTCTTTCATCATTTTCCCATTTAAGAATTAATGTTGTCCAACCAACTTGATAAGCAAGATTTTCTGCTGGAGTTCTGTCAACTCCTTCAACTTTCTTATCTTTTAAATATTCAGGAATATCATCAAATTCTAAAATATACTTTTCAAAAGATTTTTTTATTTCATTTATTAATTCTTTTTTACCTGTATATGTTCTCATAAAATTATCTCCTAAAAAATTCTACCAATTATATCCAATTTTTGTATTTATACTGAATTTATGGAAATCTTTAAGCAATGTTTCATTGTTGTTACTGTTTCCATCAAATCTTACATATGCATCAAAATTGAATTTTTTAAAGTTGTAATTAACCCCTGTTTTAATATCATAAGCAATACCTATATTATTTATATAGTCCTTCCACTTAAATTCTTTTTTATCTCTTATATAATTATCATCACCATTTAGTTCAATATTAAAATCATCAAGTTCTAACTTTAGTCCATTTTCACTAGTTAAAGAGTTTTTTAATTCTTCAATAATATTTTCATCTAAAGTTAAAGCTTCTTCATTTATATTACTTTCTGTATTCTTATTTCTATCCCTATATTTTTCCATTTTAATTCTTGATGTTATTGAAATATTTTCATAATTAATTCCAAGTTTAGTATTTAAATATATATTTAAATTCTTAAATCCATTATACTCGAGTAATACCCCCCCCCGATGTAGTGTTTTAACAATATGGTTTATATCACTAGAGGTTGATAGTTTATCAAATAAAGGGCTTTCATCATTCATTTTATTTTCTTTTTTTTCACCAATAAATCTATAAATAATTTCATCAAATTTATTATCATCAACAAAAATATTAGAATACTTTATTGAAGATGAAATACTTAGATAATTTTCAACTTGTGGAGAAATTTTTAAATTTTTAACTATTTTAAATCCTTTAGAATATTTATTAAATATTTCAATACTATGCTGATGAACAGATTCATCATAATATTTTTCAATATTTTTATTTATCATATCATCTATATTACCATAAGTATCAATTTTATTTTGATATTTTCCATAATTATACTTATATGCAATAAATGATTCTATTTCACCTTTATTATCTTTTAATTTAAATTTACCATTTACTCCTATTACTCCAATATGAGCATGAGTCTTAGTTAAATCTCCTAACTTATTATCATAATGAATGAATCCACCAAGCTTTATGTTATCTTTAACTAAATAATTAGCTCCTACAGTTGCATTTAATCCTTGAATATCTCCTTTTGCTATCCCTTGATTAAATCCTACTTTTAAAATACACATCATCATCAAATGCAGGCTCTATTTTGTAATTTGAATATGTTTTAAATCTAATATTTTGATATCTAACAAAACTAGTTTTCTTAAGAAATGATAATCTTTCTAATTTAGCTACTACATTTTCATTAAAATCATTATCTAAAATTAATCCATCTTGTTTTAATTTTTTCAGTTCATTTTCAAATTCTTCAAATTTTTTATCATTTTCATAATTATATGATTTATATGTACCTTTTCCTATCATTTCTTTAGTTTTTTCTAATTTTTCACCAAAAATATACTTTTCTATTTCTTTTTGAAGATTAAAGTACTTAGTTAAAGTATCATTTTCTGCGAAAGATTCTATCCCTCCTAAAATTGTGAGGAATAATAAAAATTTCTTCATTATTCTTACCTTTCTTCTAGTATTTTTTCAATTTCTGTAACTAATTTTAAAGATAGTAATGGTAAATTTATTCCTAAATTTTTACCTAAATTACAAAGCCTTATTTCATTATAATTTATCCTTTTTTATTAAGAAAACGATAATCAACGACAGTTTCTTTTAATTCAACTCTTGCCGTTGGTAGAAGTTTTTATTTATTTATATTTTTTATTTCTTCTTCAAGTTATAACAGATATCTATCAAAATCAGATGTAAATAATCGATCTTGAATAATACGATATTTTTCAAACTCAGTTTCAGCATATAATTTGACTTGTTCAGCACTTATCTTACCTGCATCAGTTAATAATTCAGTACCATTAAATTCTAAGAAGCCATCTAAACGCTTAGACCAATCCTCCATACTCATTGGAATATGTCTTTGTGCTTGAAGTTCGGTATAATCTAAATATAACGACACAAATCTTTCTAAAAAATTTAATTTCTTTTCTGTTAAATAATTTTTAGCAATACTCACATCACTTTTTACAATCTTACCATTAGGAGAAGTTTCCCAAGTAGTTAATTCCATATGTTCTTTATTAGCGTCTGCTCTTTCTATGATAAGTTCAGATGCAGTATGACGATGTGTATCATAATAAATTTTATTTTGTACAATTTTAAAGAATATTTTTGTCATATTAGATGTTTTTGTCATAATCAAATGCTATTGAATAAAGATCAGTAACTCTTTAACATTAGGGTGATTAAGGACATAACATATAGAAATATTTTTTCATATTCTCATTACCTCCACAAAAGCAGTTTTATTAAAGGCTCTTTAAATATTTAATTTCATCATCTGTCATTTTTCTATATTTTCCAACTTCTAATCCTTTAAGTGAAAGTTCTCCAACTTTTACCCTTCTTAAAGTTTTAACCGTGTAACCTAAAACTTCAAACATTTTTCTTATTTGTCTATTTCTTCCTTCATGTATAGCCACTCTTACTTCTCTTTTTGTTATTGTTTTAACTTTTGCAGGAAGAGTTCTAACTCCATCAATAACTACTCCATATTTTAAAGCTTCTATATGATCATCTGTTATATCACTATCTATTTTAGCTATATAGCTTTTGTATAGTTTCTTTTTAGGATGCATAACATTGTTATATATATCCCCATCATTACTTATTATTATTAACCCCTCTGTCATATAGTCAAGTCTTCCATAGGTAAATAATCTTTTTTTAGATTTAATCAAACTTACAGCAAGAGTTCTTCCCTGTCTATCTTCATTAGAACATAATACTCTTTTAGGTTTATTTAAGATATAGTATTCATATTCTTTTTTAACTGTAACCTTTTCTCCATCTATTCTAACTATATCACCATCTTCTACTTCACTACCTATTACAGCTATATTCTTATTAATAGTAACCCTACCATCAATAATTAATTCATCAGCTTTTCTCCTAGAACAAAATCCAGATTCAGCTATGTACTTATTTATTCTCATTTTCTTCCTTTCTGTTAATCAACCAGTTGCTTTTATCAAATTCCAGTAAATCTTCCTTATTTTCTATGCCTAAGTATGCATAAAAATCATCAGTTACTTCATATAGGTTAGGATTTCCTAAAGCTTTTTTTCTACCACTAACATATATTAATTTTTTATCAAGTAATACAGGTATAATATGATCTGCACCAGAGCTTCTAATTTCTTCTATTTCAGATTTAGTTATAGGCCCTTTATATGCAATTATAGCTAAAACTTCAAAAGAAGATTTAGATAATTTTCTTAACTTAAGTTCTGGAGTGAAAAAATTTTTAATAATTTCTCCTTTTAAAGCATTTGTTCTTAAAAATACTTCTTCGTTTTCAAAACATACATTTATACCTTTTTCCTTATACTCATCAACTAATTCTTCTATAACTTTTTTCATTTCATCTTCATTTACCTTAAAAAAAGATGATAATTCTGAAAGGCTTATACTTTCTTTAGAGATAAATAAGATTGCTTCTAAATCTGATTTCATAGTTCCCCTTAATATTCATTAGTAGTCGGAATCAACATATTCTTATACTTAGCAAATTCTTGGAATATGTTTGCTATTCCATTTATTACAGCATATATAGGTTCATTACATACTGTAACTTTTAATTTAAATTTCTCTTCTATTTTATCTTTTAATATCTTTATACTTGCTCCTCCACCTGATAAATATATACCTGTTTCAAATATATCAGCAGCTATTTCGGGAGTAATTTCTTCTATTACTTTATCTATCTCATATATTATATGATCAACACTTTTATTAATAGCATCATTAACTTCTTTAACTGAAATTTTAATTTCTTTAGGTATCCCTGTTACAGCTTCAGCTCCTTTAATTTGACATAGTTCTTCTAAATTCTCTGAATTAGTTGCAACAATTTTTAAATCTTCTGCTGTTTTTTCTCCTATATTCAAATTAAAATTATCTCTAACATATTCTACTATATCTACATTTAATTGATCTCCTGCTGTTTTAATAGAATGTGTTTTTGCCGCTCCACCAGAAACTATAAAGGCTATTTCTGTAGTTCCTCCACCTATATCAACTATTAAATGACCCTTAGGTTCAAACATATCTATGCCTGCTCCAACAGCAGCTGCTATTGGTTCTTCAATAAGATAAACTTCTTTTGCTCCAGCATCTTTAACAGCATCAACAACTGCTCTTCTTTCAACCTGAGTAACTCCACTTGGAACACATATTATTACTCTATCGTTATATAGCTCTCCTTTTTTTATCTTACTTAAAAAAATAGATAACATTTTTTCAGTAATTTCATAATCAGATATAACTCCGTTTTTTAAAGGTCTTTTAACTTCCATATATCCTGGAGTTCTTCCCATTATTTCTTTAGCTTTTTTTCCTATAAATTCTATATTATCATTCATTTTAGTATTTATTGCTACATATGTTGGTTCATTTATTACTATATTTTCACCTTTAACATAAAGAACAGTATTTGCAGTACCTAAATCTATCCCTATATCCTTAACATTTTTATTTAACATAAAATTTTTTTTAAACATCCTAACTAAATTTTTAAACATCTCTTCCCTCTCTATTAATCTAACTCTGAATTTATGTATCTATTTTGTTCATCAATAACACCATTATTTCTAAGTTCTTCGCATAATTTTGAAGCCCTATTAAATCCTGTACTTAATTCCCTTTGTAATAATGAAATAGATAATCTATCTATATTAGGTCTTTTTGCTATAAGAACAGCTTTTTCATAAAGTGGATCTCTATTATTATTATTACCTTGTTCTTCTTCTACTAAAATTTCCTCATTATATACAGCGACTTTCTTACTTTTAATAATATCTGTTAATTTATTAATTTCATCATCTGATATATATGCTCCTTGAACTCTTTCAAGTTTAGCTTTACCATTATCTAAAAATAGCATATCTCCCATTCCAAGTAATTTTTCTGCTCCAACCTGATCTAAAATTGTTCTTGAATCTGTATTAGACCTTAATGCAAATGATATTCTACTTGGAAGATTTGCTTTAATCATACCTGTTACTACATCAACAGATGGTCTTTGAGTTGCTACTATTAAATGTATTCCTATAGCTCTAGCTTTTTGAGCAATTCTTGCTATAGACTGTTCTACATTATTTGATGATACCATCATTAAATCAGCTAACTCATCTATTATTATTACTATATATGGTAATTTCTCTTTAACATATTTCTTATTATACGCCTCTATATTTCTAAGTCCAAGACTTGCAAGTTTTTTATACCTTTCTTCCATTTCATTAACAGCCCATTTAAGTGCTATAGCTGCCATGTTAGGATCTATAATAACAGGTGTTAATAAATGTGCTATCCCATTATATGGCATAAGTTCAACCATTTTTGGATCTACCATTATGAATTTAACTTCATCATCACTTTTCTTACTTATTAAAGATGATATTATAGTGTTAATACAAACTGATTTCCCACTTCCAGTAGTTCCTGCTATTAATAAATGTGGGAGTTTTGCAATATCTATAATTTTATTATTACCTACTATGTCCTTACCTAATACTACAGGTAATATTCCTTGTTCAAGTTCCCTTGATTTAATTAAATTAGAAAAATATACTGGTTCTTTTATCTTATTCGGAGTTTCTATACCTATAGCATCTTTTCCTGGTATAGGGGCTTCTATTCTTATTCTTTCAGCCTTTAGATACATAGCTATATCATCTTCAAGTTCAGTAACTTTCTTAACTCTTACATTCTTAGGTATTTTTATTTCATATCTAGTAATAGTTGGTCCTGTTCCATAATCAACAACTTTTGCATCTACTCCGAAATTTCTTAATACTTCCTCTAAATTTTCTATATTTTTTTCTATTTCTCTTTTCATTTCAGATATTTTTTCAGGATCCATGCTCTTATCCTTAAACACATCTGCAAGTGCTACTTTTAATTCTTCTCTATCTATAACCTGAACAGGTTCTGGAATTATTTCTTCTAAACTTTCTGATGTTTCATCTATAGGTTCATCAATTTCAAAAACTTCTTCTTCTATTTCATCTATCTCATCAAAAGTTTCAGGTATTTCTATTTTTTCTTCTTTATCTTCTTGTTCCAATTGTTTTTCTTGTCTATTTAAAGCTTCATAATTTTCTTTTTCTATTTTTTCAAGTACTTTTTTTTCTTGCTGTAATTTAGCTTTTTCTATTTCATATTTCCTAATTTCAAGCATTCTATCATAATATTCATTCCATTCTTTTTGCTTAGCATTTAATTCTTTTTCACTATAATATTCAACTTCCTTGTTTTCTAAAGTCTTATCTTCATCTAATTTTTTAAATATTTCATCTTCTAATTTTTTATTAGTCTTATTTACAAAATAGTTTACAAAGCTTTCTTCAAATTGTTTATCTTCTGCTTCTTGTAATCTTTTTTCATATGTCTTCTTTGCTTCAATTATTTTCTTTTTATTTAAATATTCTTCACTTGAATAGTAATCTAAAGTGTTTGTTATATTTAAATATATTAATCTAATAGTTTTACCCATAGCAAAGAAAGATGTAATTAAAAACATAGTAATAGCTGAAAAGAAAAACCATGGCTCATTTACTACAGTAAAAAATGGTATAGAAATTATAGCTCCTATTATTCCTCCACCTTTATACATAAAAGCATTTGCTAGTATTTCTTGCCCTGCATCAAACATAGTTTCTCCTGTTATTTTAGCTAAGCTAAATACAGTTAAACTCATTGATAAAAATAGGAAAGATAGTATCCACATTATTTTTCTTATTAAAGGCATAGAACTTATTTTTTTTCTATTTCTAATAGCAAAAAAATTAAATAGTATTACTAATAAAAGAAAAACTATTACTGTTTTACCAAAAATTATTTTTAAATTTGCAACTATTAAACCTAAAAATGTTTCTATAAATGTATCAGTTGATATGAACCTTTCCATTAATACTAATCCTAGTAAAAATATTGATATTATTAATACACTAGCATTTATCCATATATTAGGGTTGTTATTACTTATATTTTTATTTATATTCTTTTTACCTTTCTTATATTTAGACATATTTTCCTCCTAAAATACATTACTTTAATTTTAACATATATACTACTTTTTTTAAAGGGAAAATGTTCGCAAATTATATTTTATATAAACAAAGAAAAAAGCCGTTGGTTAGACGGCCTTAAAAAGGAGTTATGAAGAAAAAGTTCTTATCTTTTTCTCTTGGTATGTTCCTATTATATAGTAGTAAACTTTGAATTATATAATGCGTAAACTTAGTATTTCATTAGAGTATTAAATTTCTAATTTTAAAACTCCTCCATTTTCTATAATCACTGCTGGTTCATCTATTTCTTTACCATCATGTTCTAGTATAGACATGATAGAACCATGTGCTATTACTAGTATAGTTGAATCTTCTCCATAAATTTTCTTTATTTCATTAAGCTTACCTAAAGCTCTAGTTTTAACATCTTTTACACTCTCAAAACCTTCAAAAAAATCTGAAGGAACAAAATCTTCTGAATATGTCTTATATCTTCTCCATAAATCTGCATATTCATCTTTCAAAACTGAAATAGGCATTCCTTCTAAAACACCAAAACCTACTTCTCTAAATTCTGGATGCTCATTTTCTTCATTTTCTATTCCAAGTATTTCTAGTATTCTTCTTTTAGTTTCAACAGCTCTTCCTAGATCACTACTACAAACATAATCAAAATGTATTCCTTTTAATTTTTCAGCAGCTTTTTCTGGCGATTTATCATCAGGTAGTAATGGTGAATCTGCCCAACCTTGTATTCTTTCTTCAAGGTTCCATTTTGTCTTACCATGCCTTACTAAATATACTATCATTTATACCTCCAAAACTTTTAATTACTACTATTTTAACATAATATATTTCCCTTTACAAGTTTAGACAAATTTGTTAAAATGAAAAGAGAAAAGAGGTATAAAATATGTTGATTTTAGCTATTGAAAGTTCATGTGATGAAACATCTGTTGCCATATTAAAAGATGGTAAAAATGTATTAAGTAATGTAATCGCAACTCAAATAGATATACATAAGGAATATGGTGGAGTAGTTCCAGAAATTGCTTCAAGACATCATATAGAAAATATATTAACTGTTTATGATAAGGCACTTAAAGAAGCTAATTGTAAAATTAGCGATATTTCATATATAGCTGTAACTAACACTCCTGGATTAATAGGTTCTCTTTTAGTTGGATTAATGTTTGCAAAAGGATTAAGTTTGTCAAATAATATACCATTAATACCTGTAAATCATATTGAAGGACATATTTTTTCAACTTTTATAGATTATGAACCTAAACTTCCAATGCTAACTTTAGTTGCATCAGGTGGTCATACATCCCTATACTTAATTGATGAAAATAAAGATTTAACCTTACTTGGAGAAACCCTTGATGATGCAATAGGAGAAGCTTATGATAAAGTTGCAAGAATATTAGGTCTTGAATATCCTGGAGGCCCCCTACTTGAAAAAATGGCAATTATGGGTCATAATAGTTTTGATATACCTACTCCAAAAGTTTCAGGTTATGATTTCAGTTTTAGTGGGATTAAAACATTTATTACTAATTATGTAAATAGAAAAAAAATGAAAGGTGAAGATTTTAATAAAGAAGATCTTGCAAAAACTTTCCAAGATAAGATTATAGAGGTTTTAATAGATAAGCTATCAAAAGCAAGTAGAAAAAATAATATTAAAACTATATCTGTAGTTGGAGGAGTTTCAGCAAATAAGGCTATACGTGAGGCAATTATTAATTCTGAATATTTCGAAAATGTAGATATACTGTTTCCTAAATTTGAATACTGTACTGATAATGCTGCAATGATAGCTTCTGCATGTTATCATAAAAATTTGAGAGAAGAAAATATGTTTATCGATGCAATAGACACAAAAACAAAAAAACAAGGAGGTTTATAGATGAACAATATCTTTATATTATTAGTATTATTCCTTTTAGCCTATATCTATACTAAAAAGAAAAAAACTGACTATACAGAGGTTATATCAAAAGAAAATAATATTAGTGAGGTTGATAGTATGGAAAAAGTTGAAATGATAGATTTAGAAAATTCAGAACTTGGTATAAGAGAAATATTAAAAATTAAGAAAGCTAAATCAGGAAGTTATAGAAACTATCCTAACCAAAATTCGTTGAAACAAATTTATAGAAGAAAGCCTAAATACTTAGTAAATAGTAAATATACTTTTAATGAAAATAATCATGATGAAGATAAATTAAAAGTTGAAATGTCTAAATATTTAATATTTGAACAACAAGAAGAAAAATACTTTAATAAAAGACCTCTTCCTGAACAATATCATAATAATGAGATAGTATTAATACCTAAAAATACAGATACTTTATTTACATATTGGGAAATTAGAGAAGATTTTTATTATACATTAAATAATGATAATAAATTAGTTAATGAAAATCCTGTTATAATACTTAAGAGTGTAGATGGGGAAGAAAAAGTAAAAATACAAACTCATTCAAGAAATGGAAGTATGTATATTAATAATGTAGATTCTAATCAAGAATATATAGTTTATTTAGGTTATTTAGATGAATTTAACAATTTCATTGAAATTGCACATTCAACTGAAGCAAATGTACCTAATCCATTACCATCTGAAAACTTCAATGTAAATTGGGGTGTATCTGAGGTAATAAATGTAGATGGAAAACAAGTTATATCTTTTAAAAATATTGATAAAAACAATGTATCTTCTTATTTAGGATATCAACAAGAAGTTTTAGATAAAGAATTATTATCAGATGAAGAAATACAATCATTAGTGAGAAAAGAAGATGAAGCTAGATTATTAAATGGTTCATCATTTCAAGGATCTTCTTTCACTGGTTCATCGAAGATATAAAGGGAAGGGTATGCTCTGCTGCACCTCAAATCTTGGACACAAGAATGGGGTGTTTTTTTATGTTTAAAATTAATATTCTCAGAAAAAAATATTAACTCTTTAAGTAAAAGTAATAATTCTAATTTTTCCTTTAAATCTTTTAATAACCAAAAATAAAGCTGATTTACTAGTTTCTGTAGATAGAAATTCAAAAAATAGTGTAAATATCGTTAAAGATTATCGAAATCCAAACAAAACACATTCTTTTTCATTTGGTAATGTCGTAACTGAAATTAATAATCAGTTATCTAAAAAAAATATACCTTTTCAATATTCTTTAAAAAATGGGACTATAAAAAAAGAATTTACTACAAATGTTCTAAACTCATTTATGCAACTTTATGATATTAAATCAAAAAAATAGAACATATTCAAATGCGTTAATAGACTTTATAATCGAAGAAATTAAAAAAGATCCTGAAAATGTTTACAAAAATATTAAAAAAGCTATTGAAAATAAAAAAAGATAACCCCAGGGGCAAAGGAATTCTAAATATATACTAAATATATATCTACTGCTATCCAGCAACCCAGCACTAATCCTTCACAAGTTATCTTTGATATATAGATATGATAATATATTTTATTTAAAAAGTAAAAATTTAAAAGAAAAAAATCATAAATAGTAATTATTAGCATAAAAATAGTTGCAATTCATATATATCTATGCTATAATTACAGTATATTTTTTTCGTAAAAGACCTTCTGTGATTTTATCATGGAAGTCTTTTTTATTTATATAGATGCTTTTAAAAAATCAGGTTGATGTCTTATTTTCAAATATTTCTTCATTAAAACATCTCCCTTCATTTTTATTATCTAATAAATTTCTTAATTTCACTTACACTATCTATAGCATTGTCGCTATATCCTATTTTATCTATAAATGCGTGGACTTCTCCTGCATATCTTATTCCTACTGATTTTATTCCATTTTCTTTAAGTCTTCTATGGAAGTATTCTGCCTCTAATCTTAAATAATCATACTCCGATGTAAATATTAATGTCTTTGGAAATTGTTTAAGTAAACTATCTGGTGCATTTATTTGTGAGATATAGTAATTGTCCTTAGGTTCATTTGTTTTAATATATGTATTTTTCACAAATAATATGATATCTTCTAATTCTGTTATTAATGATTTTATTAAAGGTGCATCAGAATTTGTTTCATCTATATCATATTCCTTAATATCCCATATAAAGTCATCTCTACAGTTATCATTTGGTGATATAAGTAGGTAAGGATAATAAAGTATTAAACCATCAGCTATTTTACTTCCCTCCTCTATATCTTTAATACATACTGAACATGCAAGTCCTCCTCCTGCACTATCTCCACTTAAATAAATACTTTCATATCTATTTTCAAAATGTTTAAGTATAGTATATCCCTCATTTATAGATGTTGGATATGGAAATTCTGGGGCTAGTGAATAATCAACAGAAATTACTGTTGCTCCTGTTTGTTCTGCTATATATTTACAACTATTATGCACTATATCTGTAGAACCACCAAAATATGCTCCTCCATGGAAAAATATTATTAATTTATCTACATTTTCTGGATCTGTTAAATATTTTACTACTCTAATTCCATTTACCTTTTCAATTTCAACTTTAATATTAGTCGTTGTTATATCAGTATTAAGAATACAAGCTGCTGCTCTCATTTTTTCAATATCTGAAGAAAATGTTCTTGCCTTTATTTTCTCCACTTCTTTAAGTCTTAATTCTTCTATAAATTTTACTTGAGGAGAAAGACTTCCTAATTTATACCCATCTATTTTCGGTTTTCTAATTTCCATAACTCTCTTAAATACCTCTTTCTCTATTATTTAATAAACTCTGTTATTTCATTTACACTATTTACTATATTATCATTATACCCTACTTTAGTAATAAATCCATGCACTTCTCCTGCATATCTTATTCCTACTGATTTTATTCCATTTTCTTTAAGTCTTTTATGAAAATATTCTGCTTCTAATCTTAAATAATCATACTCTGATGTAAATATTAATGTCTTTGGAAATTGTTTAAGTAAACTATCTGGTGCATTTATTTGTGAGATATAGTAATTGTCCTTAGGTTCATTTGTTTTAATATACATTTCCTTAATAAATGGCATTATATCCTTTAAATACATTATCGCATTTAATGCCTCTGAATTATTTTTATCTATGTCATATTCTTTAATATCCCAAGTAAAATCATTTCTACAATTATCATTTAAATCTATAAGTAAAACAGGGTAATAAAGTATTAGACCTTTTGCTATTTTACTTCCCTCTTCTATATCTTTAATACACACTGAACATGCAAGTCCTCCTCCTGCACTATCCCCACATAAATAAATATCTTCATATTTATTTTCAAAATATTTAAGTATAGTATATCCTTCATTTATAGCTTTTGGATATGGAAATTCTGGGGCTAATGAATAATCAACAGAAATTACAGTAGCATCTGTTTGTTCAGCTATATATCTACAACTATTATGAACAAGATCTGTAGAACCACCAAAATATGCTCCACCATGGAAATATATTATTAATTTTTTCATATTTTCTGTTTTTTTAGAGTATTTTACTACTCTTATACCATCTATCTTTTCTATATCATTTCTAATATATGTAGAAGTAATATCAATATTTGGTGCCCACATTTCATCTCTTAATTTCTCAAGTCTTGTAGAAAATGTTTTTATTTCTCTTTTTTCAGCTTCTTTAATTCTTAATTCATTTATATATTTTACTTCAGGAGAAAAATGCCCTGGTCTATATTCTTCTGATTTAGGTTTTCTTATATCCATTTATATTCCTCACTTTAACTTAGTGTATTAATTTAAAAATTAAGGATTTGCATATGTAAATCCTTAATATTCTATTATCTATATAACTCGTATACTTTCACCATTCTTTTTATGTCTTTTATTACAAGATCTGCAAGTTTTGAAAAATCTTTCTCTGCATTAGAAACTAATTCTCCTGTTTCAAATTTTTCAACTATTTTATCTTTTAAACTATCTAAATTAGATTCATATAATAAGTCTACTAGAATAGTTAAATATTCTGGAAGTTCAAGTATTTCTCCTTTATAACTAGAAAATGTTATTTTACTATTAGCTCCAAAACAATATTTTAAATAGTTTAAATTCATAGGTCCTATTTGACTTTCATCAGAAGTTCCTCTCTCATATATATCATATTCTATATTTTCTCTATATATTAATCCATATATTTTATAATATTCATCTTTTCCAAATTTTTCAACTAATTTCTTAATTTTAATATTTTTAGGATATATGTCTGTTAAGTATTTTAATAATTTATCATTTTGTTCATATAACTCTGTTTCTCCATATTTCCATTTTCCATCTTCAAGAGAATACACTCCTCTAACATATATATCATCTAATCTTTCAAGTAATATTTCATCTGTTAAATTAACTTTACTAGAATTTTCACTATGAGTTATAATACTAGTTCTAAATTGTGCATTTCTTAAAAAATCATAATACTGTTCTTTTGCTATCCTATTATCACCACATTCATTATTTATTGCAGTTTTTACTTCTTGATTAAAATTAGGATAAGAATTAGACATACTACTATCTACAACATGAATTAAATTATGTTTTGCTAACATTTTAGAAAATTCATAAAAATACATAGGATCATTATATTTTTCAAAATATTCATGATAAAGATAATGTGTATCTTTATCTAATAAATTCTTTAAAACATCTTTCATATTTTCATCAACTATAGAATTATCTAAATAAAATCTTATTGCACTTTTACCCATTTCAACTTTATCTTGGTCATTTACATTTAATAATCTATCTTTTAAATTTTCAATACTAAATAGCATTAAATCTCTAGCTACATCTATTCTTTTCCAACCTGGATATGTGTTATATGAAATTACAGCTACACCATTTTCTGTTAAACTTGATTTAACAACTTTTAATATAGCCTCCTTTACTTCATCTGATACCCAAGAAAATACTCCATGACAGATTATATAATCAAATTTCCCAAATTCATTGTTGTATTCTACAATATTTTTATGATATAGTTTAATATTTTTTAGTCCTATTTTTTCTATTATGTCATTTCCTTCATCTATTTGTACCTTAGATAAATCTAAGCCTATAACTTCAGAATTAGGATTTGAAATAGCTATAGGTATAATATTTCCACCAAAAGAACAACCTATTTCTAAAACTCTCATTTTATCTAAATCAGTAGTTTCAAAACTTAGCATTTTCATCATAGTTTTTAAATGTAGTGGTTGACACTTTTTAAAACTTTTAGATATATATGGAATGGAGTCATAAGATTTTTCTAACTCTTTTATATCATTCATAATAACCTCAATCTATACTATATAAGACATCTAGTACTTCTTTTTCAAATTTAGCTAATTTTTCTAATGATTTTTCTTCAACTGCATCTTTTACATAAACATATAGTTTGATTTTAGGTTCAGTTCCAGATGGTCTTAATGTATACCAGCTTCCATCATCGTATAAGAATTTAACAGCATCTGTTGGTTCTATTTCACATGGATTAATTTGCCCTGTTTCAACATTAAATACTGTTTGTGCTTTATAGTCTGTTATTTCTTCAAGTTTAGCATCTCCTATAGTTTTTGGGAATATTTCTCTAAACTTAATCATCATTCTCTTAATTCTTTTTGCACCTTCCATACCATCAAGTACTACTGAAACACCTTTTTCTTTATAGTATCCAAATTCTTCGAATAATTCAGTTAAAGCATCTATTAATGTTTTATTATGTTTCTTATAATATGCTGCCATTTCTGTTAGCATAAGTGCAGATGAAACACCATCTTTATCTCTTAAGAATGTCCCTATGTTATATCCTATACTTTCTTCATAACCAAAGATATAGTTCTTTTCTTTACTTTCTTCATACATGTTAGCTATAGCACATATATTTTTAAATCCTGTAAGTACATTAATCATTTCTATTCCATATTTATTAGCTACAGCTGTTCCCATTTCTCCTGTAACTATAGATTTAACTATTACTGGATTTTTAGGAAAAATATTTTTTTCTTTCATAGTTGATACTATATAGTTAATTAGTAATACTCCAGTTTGGTTACCATTTAAAGCTACTATTTTACCATTATGCATAACTTCAACAGCAAGTCTATCGCAATCAGGATCTGTTGCAATTAATATATCTGCATTCTTTTCAAAAGCTAATTTTTCTGAATATTCAAAAGCAGCTAAATCTTCAGGGTTAGGATAAACTAATGTAGGGAAAGTTCCATCAGGCATTTCTTGTTCTTTAACTACATAAACATTTTCATAACCTTTTCTTGATAAAACTGTTCTTACAGGAATGTTTCCTGCACCATTTAATGGTGTATATACTAATTTTATACTCATATCTAATTCATCATTTGATCTTAAAGAAGTATTCATAACTTCATTATAGAAAACTTCATCAATTTCTTCTCCTATAATTACTAATAATCCTTTTTCTATAGCTTCTTCTTTAGTTAAAGTAACATATTTACCAAAAATATCTAATTTAGAAATTTCTTCAAATACTGCATCAGATATTACTGATTTAATTTGTGATCCTTCTTCCCAATATACTTTATATCCATTATAGTCCTTAGGATTATGACTAGCTGTAATATTTACCCCTGATATTGCTTTATAATATCTAATAGCATATGAAAGTTCTGGAGTAGGTCTTAAGCTTTCAAATAAATATGCACGAATACCATTACTAGCCATTACTAAAGCTGATAATAAGGCAAATTCTGGAGAAAATATTCTACAATCATGTGCAAAAGCTACTCCTCTATCCATAGCTTCTTGTCCTTCTTTTTTTATAACATTAGCTAAAGCTTGAGTTGCACGAGCTATTACATACTCATTCATTCTATTAGTTCCTGCACCTAATTTTCCTCTTAGTCCTGCTGTACCAAATTCTAATTCTTGATAGAATCTATCTTCTATTTCTTTTTCATTACCTGCAATTGATTCTAATTGATTTCTTAAATCTGCATCTAAATTTTCATTGCTTAACCATTTATTATATTTGTCCATATAATTCATATTACCATTCCTCCTTTATTATAAATAATTTGCTGGATTTACATAATTTACACCTTTTCTTACTTCAAAATATAGGTTAGGTTCTTTAGTTATACTATCTCTACCTAAAGTTCCTACAGTTTGCCCTTTACTTACCTTAGCTCCACTTGCAACCCTTACAGAAGCTAAATTTCCATAAACTGTTATAAAATCACCATGATCTATCATAATTACAGCACCTAGTCCCTTAAGTGAACCTGAATATAGTACAACTCCACTATCAGATGCCTTAACAGCTTGACCTAAACTTCCACGTATTTCTATTCCTTTACTTGTAATACCTTTAGTTTTTTCTTGTCCATAAGCTACTATTATAGTTCCATTAATTGGCATAATAAACTTACCTGTACCCTTAGGAACTACAACTGCTTTAATAGGTTCTTTTTTATCTGTAGATTCATTGCCTGATTGATTTTTATTAGAACCTTGAGCTCTCTTTCTAGCATCTTCTTCTCTTTTTTTAGCAGCTGCAATTATAGCGTTAATTTGTTGCTCCAATCTTCTTTTTTCTGCTATTAAACTAGAATTTGTTCTCTCTATTTTCTTATTTTCATCTTTTAAGCTATCTTGAAGATTTTGTAGATTTTTAACAGCTCTATCTTTATTGATTTTAGCTTTTCTTAGCTCTTCTCTTTTATTTTCTAGCTCTAATTTCTTTTTCTCTACTTTTTTAGCTTCTTTTTGTGTCTTGTTTTTCAATATTTCTTCATTTTTTTTATGAATTTCTTCTTGCTGCTTATACTTTTCTATCTTTTTAATATTATTTTGACCTTGCTCTAATACTTTTATTAAATCATTAGTTTTCTTTGCAGATTCTGAAGAAAATGAATTTTTTTGAAATACTTTAGCATTAAATACTTTATTCCATGTATTAATCTTATTTGAATAATCTGTTTTACCCTCGGTAATTTTTTTACTACTTTCTTCAATTTTCCTTATACTTGATCTAATTTCTTTCTCACTTTTACCTATTTCTTTAAGTAAAGATACATATTCATTTTGAATAACATTGTATTCTCTTTGTAATTTAGAAATTAATGCATCTAATTCCTGTATTTCTTTTTTTATAGCTGCTTCATCTTTTTTAGCATTATTTATTTTACTATTATTATTATTTATCTTGTTTGTATTATCCTTAACTTGTTTATCAATTTGATTTATTCTATTTTTATTCTTATCAATATTATTTCCAAAAGATGCTAAAGATAAAAGAGAAAGAAAAAGCATAATCTTTTTCTTCATATTATTGCTCCTCTCTTAAATCTTGAAAATCTTCCTCTACTTCTTCTTTAACCTCTTGAATTTCTTCGTTTTTATTTTTTTCATAATATCTAATATTGTAGTATTTATTTAAGAATAAATAATTAATAACAAGAACTAATATTATTGTAATTATTAAAACTATAAATAAAAAATTAGTTTCTTTTCCTAAAGTGCTAAATCCTTGTATAGCTGTAGCTCCTCTAGCTTTTTCTATTAATCCTACTATAGAACATCTAATTTTTACATACATGATATAGCTTACAGCACCTGATATTAATACTGCTAATACTGATTCTAAAAAGAAAGTAGTTTTAATAAATTCTTTAGATTTTCCTTCAAGTAAACTCTCATATATTTCTCTTTTTCTTGTTTTAACTGTAAGTCCAACTATATTAAATATTATCATTACAGAGAAAATAATTAAGAAAATAATTGCATATTTAATGAAGTAATCTAAAGCTGCACTAAACATAACTGTCTGATTTACAACCTTAGCTCTTAAATCTATGCTTGATACCTCAGTTAATTCACTTAATTTAACATTTAATTCATCTATATTAACATCTCTTTTTAAATGTACAAAGAATGTATCTTCTAATGGATTAGGTTCTAAACTTAAATCTACACTTAATTCTTTTTCTAAAGATTTTAAAGCAACATCTTTAGATACAAATCTTAATGAACTAACTCCATCTAAATTTAAAACTTTTTCTTGAAGAGCTTTCTTTCCTTCATCATCTAAATCTTTAATATATAAGATAACTTGGTTTGCTTGTTCTTCTTTTAATCTATATAAATCAGCATTTAATGCTCCGAATACAAAAATATTTATCAATGTAAAAATTAATATAAATGTTGTAACTGCTGAAAAGAAAGCACCTTTTTCAGCTCTAATATTTTCTTTAACCCCTCCAAATAATTTACCTGTCATTTTTTCCTCCTTAAATATTTTCAAGAACTAATTCTACTATCCTTTCAGCTCTTAAACCATATTTGTCTAACATTACATTTCCATCAGCACTTTGTCCAAATACATCATTAATACCATGTTTAACTACTTTAGCTGGATGATTTTCAGAAAGGTATTCAGACACAGCTCCTCCAAGCCCACCTATTATTGAATGTTCTTCTGAAGTAATAATAAACTTACATTCTTTTGCTGCTTTTAAAACAGTTTCTTCATCTAAAGGTTTAATAGTAGACATATTAATTACTCTAGCATTAACTCCTTTTTCTTTTAATATTTTCTCTGCTTTTAAAGCCTCATTAACTAATAGTCCTGTAGCTATAATTGCAACATCATTTCCTTCTGTTAAAGTAGTTGCCTTACCTATTTTAAATTCATATTCATCAGTATATATATCTGCTACTGGTAATCTTCCAAGTCTTACATATACAGGTCCTTGATACTCAGCTGCTGCAAATATCATTTTTTCTGTTTCTGTTGCATCTGCTGGTTGTAAAACTACCATACCTGGAATTACTCTCATTAATGCTATATCTTCTATTGATTGATGTGAACCACCATCTTCTCCTAAAGAAATCCCTGCATGTGTAGGGCATATTTTAACATTTAAATTAGGGTATGCCACTGAGTTTCTTATTTGATCATAAGATCTTCCAGCAGCGAAAATTGCAAATGTTGATGCAAAAGGTATTTTACCAGTAGTTGCCATACCTGCTGCTGTTCCTATCATATTTGCTTCTGCTATTCCTAAATTAATGTGTCTTTCTGGAAATTCTTGATTAAAGAATGTAGTCATAGTAGATTTTGACAAATCAGCTTCTAAAACTACCACATTTTTATTTACTTTACCTAATTTAACTAACGCTTCTCCGTATGCTTGTCTTGTCGCTTTCATCTTTTCCTCCTACTTTAACTCTTCTAAAGCTTTATTTAATTCTTCAAGATTTGGTGCTTTACCATGCCAACCTGCATTATCTTCCATAAATGAAACTCCCTTACCTTTTGAAGTTTTTGCGATAATTACTGTTGGTTTTCCTTTAACTTCTTTTGCTTCTTTTAAAGCTTTTTTAATTTCATCAAAACAATGTCCATTAATTTCTATTACATGCCAATTAAATGCTCTATATTTATCTGCAATAGGTGTTATAGGCATAACTTCAGATACCTTACCATCTATTTGTAAATCATTATGATCTAAAAATGCAACTAAATTATCAAGTTTAAAGTGAGCTGCTGACATAAATGCTTCCCAAATTTGCCCTTCTTGCATTTCTCCATCTCCTAATATAGCGTAAACTCTGTAATCTTCACCAGATATTTTAGCAGAAATTGCCATTCCTTGTGCTGCTGATAAACCTTGTCCTAATGACCCTGTAGACATATCAATACCTGGTAATTTTTTTAAATCTGGATGCCCTTGTAAAGGTGAACCAAATTTTCTCAATTCTGTTACTAAACTTTTATCAATATATCCTTTTTCCATTAAAGTTGCATAAAGTGCTGGTACTGCATGTCCTTTACTTAATACTAATCTATCTCTATTAGGCATTGTTGGATTTTTAGGATCTATATTCATTTCCTCAAAATAAAGCACTGTTAAAATATCTGCTATTGAAAGTGATCCTCCAGGATGTCCTGATTTTGCGTGGTATATCATTTCCACTATGTTTCTTCTAATACTTTTTGAAATTTCTTTTAATTCATTTTTTTCCATTTTACTCCTCCAATTATATTTCACTTTTCTTTAAATAATAGCTCACAAATGAGATAATTAAAAATACTACTGCTATTGCTAAAGTAATCATTACCCCAAGTCTAGTAGCTCCACCTTTTCCACCTATAGAAAGTACTAAAGTTGTAGTTACTATTTGAAGTAATAATGCTAGTTTTAAAAATAGCCCTTGTATTCCAAACATCATTCCCTCAACACTCACATTATATTTCTCGTGAAGTTTTATTGATATTTCACTAAGCATAGCTGGTGGGAATATGAAGGCTGATCCACTTACTCCTGCACCTACTACTAAAAACATTGCAAAAAATATTGATTTGCTTTTATCTCCTAAAAATATTAATCCCAATGTACCTAATATTATTAATGCTAAATCAAAAAGCATAACCTTCCTATAATCAAATTTCTTACTTAAAAATTGAGTTACTGGGAAGAAAAGTGCTGACATAGCAAATAGTATAGTTGTTGGTAAACTAGCTGCTTTTTCACTTTGCCCTAATATTACAGTTACATAGTATAATACGGAATTTCTAATAATATTAAATCCTGAAAAGAAGAAGAAAAATCCTATGAAATATAGTATTATTTCTTTATTCTTTAAATATGAGAAGGCTTCCTTAAAATTAATTTTTTTAACATCATTATTATTGTTATGCCTCACCTTATTTTCTTTTAATAACATGACTGAAATTATTACTATTATAGCACTTAATACAGAAAATCCTGTAACCATTAATCTCATTGCTTTAATAAAGCTCATTCCTGATTTTATCATGTTTGATAAAATGATAGGACTAAATATTAATGGAATTGCCGTAAATATTAATCTAAATACTGATTGTATTGTAGAAAGATTTAATCTTTCCTCTTTATTTGAAGCAAGATCAGGAATTAAAGCATTATATGGTCCTCCGACTAATGTATATGCTATAAAATATATACTTCCTACAAATGCTAAATAAAGTGTTGCAATTAAAGGTCCATTATTAAATGGAAAGAAAAATGCTATCATAGATAAAGCTAAAGGAATTATTCCAATTAGCATATAAAATGATCTTCTTCCCAAACTAGATGTTGAATTATCAGACATGTATCCTACCACAGGGTCTGCTATCGCATCAACAAACCTCATAATTACAAATGCTATTGCTAAATATACAGGTGGCATTATTACACTAATCCCATAATCAGCTATAGCTTTTTCTGAAGGTAAATAAAAATATTGTATCCATTGATTAAAAACCTGATCTAACATAAAATATGCTACACCAAGCCCATAAAAAATATATGTTGCTTTCGTTAATCTTTTAGACATAAATTCTCCTTTTTTCTTTTCCCCTATGGTCTATTTTATCATATTTTCATATAAATTATCAACTTTAATTTAGGGTATTAGTAGCTATTACTTATATTCCAACTTACATATTTTCTTCATTTTGAACTATTCGGAAATTCCGAATAGTTGAAATCTCATTATACATTAAGTATTTAATGGCACTAAAGTTCTCAATTATCAACATATCTGTTATATTATATAAATAAATTTAGAGGTTCAAAAGCAACAATAATATACTTTGGAACCTCTTAAAAAATTTAAATTATGTTGTATTAAAAATATGTATACTTTTCATATTAATTATACCCTATTAATATCAAAAGTCAAAAAAAATAACCTAGTTCTTGAGCTTTATATATAGCTTCTTGCTTATTAGTTACTCCAAGTTTTGAATATATGTTGTTTAAATGATTAAAAACTGTTCTCTTACTGATATATGCTTTCTTAGTAATTTCATCTATACTTTCACCTTTTCTTGTAAGTTCAAGAATTTTAATTTCAGTAGAGGTTAGATTATTATGAGAAATTCCTTCGAATTTAATATTTTTAAAGTATCTACCTCCACTATATATTAATTTTAAGATTTTTATTAATTCTTCTGGGTCTATATTTTTATCTATAAATCCTCTAACACCTATTTTATTCGCTTTATCTTCATACATTAATTTTAAATGCCCTGTTAATATCACAATACATATATTTTTATCTTTTTTAATTAATTTTTCAGCAAGTTCTAATCCAGTTTCTTCAGAAATATTATTAAGATTAATATCTATAAGATATATATCATAATCTTTAATATCTTTCTTTTCTAACTGTTTTGAATCTGTTATTACATCAATTCTTTCTATTTCTTTATACTTTCCTAAAATCATTTGTATACTTAATGCAAATAATTTATGATCATCAATTAATAATATTTTCAAAACAAATTCTCCTTTCCATAGGTATTACAATTTCTAAATTATATGTACCATTTTCTATAAATATATCAATCTTCCCTTTTAAAAATTCAACTTTATTTCCTATATTACTAAGACCATTACCAATCTTTATTTTAGTACTTTCTGTGATATTATTAGTTTTAATATATATATTATCAAATTTTACATCTAAATAAACATCAATAAAACTACTGCTAGAATACTTTATCGCATTATTTACAAGTTCTTTCATTATTCTATAAACAATAGATGAATAAGGCGAATATATATTTAAATAGTCTGTGCAATAAAAATTTATTTTTTTATTTGTCTTATATTTTTGAGATAAACTTTTTATCATTCCATGATAAATTTCTTTCAAATTTTCATAAGAATAAATAATTGGCTTTTGAGTATCTACTTCATTTCTAATACTACTTACTAAATTGTTTAATTCATGTACTATAAGGTTTTTATTTTCACTTTCAATTTGGGATATTTGAATAATATTTTTTAATGCAATTATATTTTGTAAAATATCATCATGTAGATATTCTGCAAATTTCCCTTTAATATTTTCTTCTATTTTGAGAAGATTTATAAATTTATTATTTTCAAAATCATTAAATTCAAAATAGATTTTAAGATACATTGTTATTATAAATAATAGCAATTCTGTTAATATTAAAAATAGTATTAAATAATCAATTCTTTTTATATTTTGAAATAATAACATAAACCATAAAACAAAAGAAAACAATATTAAAATAATGGTAATCTTACCTAAAATATTTTTCAATTTTATTAAAAACATTTCTTGAATTAATCTTAAATAAGTAATAAAACATATTGTAATTGTAACTATATACCAACCAATATTTGAATACATAAGTTCAATATTTACAAAGTTTTCTATAAAATTTAAAAGCAATACTGCTAAAAGAAAAATAGAAAAAACAAAACACTCTGTTCTAATTTTAGATAAAACACTATCAAAATATTTCCTATAAAATACTACTATTAAAAATGGATATATATGTAATCCAATAAATAGGAAAAGATATATAAAATTAAATAAACTTCTATTTGTGAAAAAGCTTAGTGTGATTACAAGTAAAATAATATGAATAAAGTTATCAATTTTTCTTTTAAAATCTATTTTTTCATGTAACAATAAATTAAAACTTCCAACAGTGAAAATATATGTTACAAATGGTTGTAATATTATTCCAAAGTTATAATAAAAGTTATTTGAATTTAATATGAAAAAATGTTGCCAACAAATTAATGATACATATAAAATTATTTTTCTTAAAAAAATATCATTATTTTTCCTAATATGAGTAGCAATATAGATATAAATTATACTTATTAAATCAAAAATCAAAACTGTTCCATTAACAAGTAAGTTTTCACTAGATAAAATATATAATTTTAAATAAAAGAAAAAACATATTTGTTGTATTATTATAAATACCATCCATGCATATTTATCCTTATTTTCTTTTAAAAAATCAATTAATTTATACAAAATATCACCACCTTAAACTATACCTCATATCATATTTAATTATCTTATTTACAGCTTTTTTTGTAATATAGTAAAACAAGAAATAAATTCCTGTAAATAAAGATAACATAATCATTGTATTTAATATAAGATATTTTGATTTTATCAAATTGTCAATAAATATATATCTAAAAGCAAATAAAATAAAACTTCCATTTAACACGCCTATAACCAACGGTATTTTATAAAGCATTCCTATTTCTTTTTTTAATATATTAGTTATTTCTACATTAGAGTACCCTATTTTTCTAAGATAATTGTAATCTTCTTTAGTTTCAATAATTTCTATTAAACTAGTAAAATATAGAATACTTGCAGTACATATAACAAATAATATTGAAATAAAAGAAATAAAAATAAATGTTGAAGAATTATCTCTTATTATAGAATATTTTTTTGAATAACTACTTTGAATATTTTCTATTTCTCTAAAATTATCATAAAATTCTTTACTATCTCTTAAATTATTGCCATTTATAGTTGTTAAATTAATTTTAAATCCAACATTTTTAATTCTTAAATTTTCATAATATTCATCATCTACTATAAGTGTAGTTACACTATTTGCAAAACTAAATATATTATTTGTAGTTACTTTACTTATATTAATCTCATCATTATTTGATAAAACATATTTAACATGCAAAGGTTTTTCAGTAGGATAATAATTTATTAATAAATATCTACCTTTTTTTACATTTTCAACTTCATTTGTTCTACCCTGATTTTTCATTAATTTAATATAGTCATTGTATTTTACAATATCTAAAAAATTAATTTTCTTACTGCCATTTTCTGTTATAGGTATACTTGGTTTAATATTTACTCTAAGTATTTCAACATTTAATAATTGTGCATTATTTGATTTTAGAATATTTTTAAGTCTATATTCATTAAATTTCATATTTTCACTTCTATACTCAATTACTGATGGATTTAATCTATCTACAGCTTTTATAGGATAAACCAATGTAAATGTCATTATTCCTATTACTATAACAGTTACTGTAATAAGTAAACTTAAAACTATTAATAATCTATTTTTTGATGATATTCTAAAAATTAGCTTAGGATATACAATATTACCTATTGGTGTATATAGTTTATCTTTGTTTTTCTTTATCTTATCTAATAAATATATTAATCCAAATTTAATTAATATAACTGTTCCAAACACTATTAAAAATATAACTAACATAAAAATTGGTGTAATTCTAAGCTTCCATATACCTTTTATACCCCAAAAACTTGATATACAAATAATATAGCCTGTTATAAGGAAAAAGAATGCCATTATAGATATATTCTTTTTTACTTTTCTTATTTTTTCACTTTTTTTAGAATAATTAACAAATTCTATTAAAGATTGTTTCATTACTAAAACTGTGTTAATTATCATATTAATTATGAATGTAACTAAGGTTATTATTAATAATTTAAATATAATGATAGAGTCAAAATAAATTTTTGAATATATGTTTAATTTTAATATATTAACAATAATGACTTTTATACTTAAATATAAAAATGAACCTAATATAATACTAAATATATAGCTTAAAGATAATATAATTATACTTTCATAACACAAAATTTTAATTAATTTTGCTTTTGAAAATCCTAAAATATCAAGTATCCCTATATCCTTAATTCTATTTTTTAAAAAGAAGTGATTAAAATATATTAAGAAAAATATTACTAAAACTAGTAAAATGACATATATAGTCTTAGACATCTCCTCAACTCTACCACTTTCACTAATTTTTTCTAATATAATGTCATCTGAAACAAAATTTAAAAATGTTGAAAATATAGCTAATATAATTGTAGTTGCAAAAAGATATATTCTGTATAAAAAGAATTTAGCCCTTATATTAGCTTTGGTAATTTCAAATTCCATATTAACCTCCCAATATATCCTCATAAAACATTTTACTATTTTTTCTATATATTTCTTTTTCAATTTTTCCATCTTTTAAAAAAATAACTCTATCTGAATAAGAAGATGAAATAGCATCATGTGTAACCATGACTATTGTTATATTCAACTCTTTATTTATATTTTCAAAAATTTCCATAATATCTTTAGATGATTTTAAATCTAAAGCTCCTGTAGGTTCATCTGCAAATAAGATAAGTGGTTTCTTTATTATTGCTCTTGCTATTGCAACCCTTTGTTTTTGACCACCTGATAGTTGATATGGATATTTTTCCAATTGATTATATATACCTAACATTTCAGCATATTTATCTATTAATACATCTATTTCTTGTTTATTTACATTTTTTAAAGATAATGCAACAGCTATATTTTCTCTAATAGTAAGACTATCTAATAGCATATAATCCTGAAAAACAAAACCAATATCATTTTTTCTAAATTCTGAAGATTGCTTATCATTTAATTTTGAAATATCCTTATCTTCAAATAAAATAACCCCTTTATCAATCTTATCAATTGTAGAAATCAAGTTTAATAATGTAGTTTTTCCACTACCACTCCTTCCCATAATTGATACAAATTCTCCATTATTAATAATTAATGAGATATCTTCTAATACATATTTATCTTGATCATTATACTTTTTATATACTTTTTTTAATTCTAATTTATTCATTATACTCACACCCTTTCTTTTACATCATATAATCTTATATTAATAGAAAATTTTTTTAATGTTATGAGTAAAAAATGCAAATATTATTATAAATTTTTTATTTTAAACTTCAATAATCATATATTTTTATACAAAAGATACAGTATGAAATGTATTTTAAGTTAAATCGTCCATAACTTGTGGACGATTTAATAACATATGAAAAAATGCACTGACCCCCAAAAGTTGGACAAAATAATTTAGCTTATTGATAAGGATTAGCTTCTTTCCTTACAATAAAAAAGAGAAGCAGCTTATTTCTCCACTTCTCTCATTCATAAATTATTTTGTTTTCTATAATTGTGCAACGCCCGTTATACTATTTTCAATTAACTTTATTTTCCTCGTAATTCCTTAAAACTCTTTCAACTTGTTCTTCTAATAATTCTCTATCAGGAATATATAAGGTGTATTTAGAAGCAAATATCTTATTGGACAAACTGCCAAGTGCATATTCTGCCTGTATACTGTCCTTATCGGTACAAAGAATAATTCCAATCGGTTCATTATCCGTATCGTCATTAACTTCCGTCTTGTAGTAGTTAAGATACATATTGATCTGTCCGACTGCTTCCGGCATTAGCTTCCCTGTTTTTAGCTCAATCAAAACATAGCTCTTAAGTATCTTGTTATAAAATACCATATCAACATAATAATGGATATTTCCAAGTGTTACTCTTTGTTGTGAGCCTACATACATAAAGCCCTTGCCAAGTTCAAGCAAGAATTTTTCAATATGAGCTATTAAGGCTTTTTCTAACACTTTCCATAATTGGCTTTTCTTCAAGCAGTCCTAAAAATTCAAATACATAAGGATCTTTTACAACATCACTTGCCTTATTTATTTCATTTCCCTTTAAGGCTAACTCCAATACCTTTTCTTTATTTTCATCTCCTGATGAAAGTAAAAGTCTTTCAAAAAGTGAGGTTTTTATTTGTCTTTTTAGCTCTCTTACAGACCAATTTGCATTGATAGTTTCTTTTTCATAAAAGCTCCTTTTCCTCTCATCGCTTATGGAAAGTAGTTCACAATAATGCGACCAACTTAATTTTCCAGACACCGTCTGGAAAATTGGAAAACTCAAATAGAAATTTCTCATATTAAACAAGTTGGATTTTGAAAATCCCTTACCATATTCTTTGGTGAGCCTCTTTGATAAGTCTTTTACTAACTGTTTTCCATACACAGCTTTATCAGAATTTCCCTGTTCATCTTCTACGATAATTCGCCCAATCTCCCAATAAGTTTGAATGAGGATATTATTAACTTCTCTTGCAACACTATTTCTTGCATTATCCATCAATTCTTTAATACTGCTATAAACATCTTTATGAATTTTATCTATTTCATTATTCATATAGCCCACCTCTTTATCTGCTACGACTTTAATTATTATACCATAAATATTGAGTGCATTCAATATTGTACTGCACCCAAATTCTATACTGCTGTAATGTGATAAAACATATGTATTGACAATTAAGACATCTGCCATAAAGTCCCTCCTTCTTCTCTATACAGAGATTTCATTTTATGCTATACTTATATACAATTTTGAGTATAAAAAAAGATGATAGTCTCAATCCATCATCAAGTTTAAAAATTTTGTGGAAGCCTTTAACCATTGATTTTACTTGGATTTATTGTACTATCATCATTATAACATTATCCCCACTACCACTCCTTCCCATAATTGATACAAATTCTCCATTATTAATAATTAATGAGATATCTTCTAATACATATTTATCTTGATCATTATACTTTTTATATACTTTTTTTAATTCTAATTTATTCATTATACTCACACCCTTTCTTTTACATCATATAATCTTATATTAATAGAAAATTTTTTTAATGTTATGAGTAAAAAATGCAAATATCTTTATAAATAAAAAAGGATCAACTTCATAGTCAATCCTTATTAAAACTTAAATTCAAAAAATTCTGTATAGTATAAGTATATTCCCACTTATACTGTAAATATATCCTTACATGTTGACCTTTTCTAAAAGCTTTAAATATTGGCTTTATAACACTAGGATCTTCAACATTTTTATTCTTAATTATCTTATATTCTTCATTTACCATATCATATGGAGTAGTTTCATCTTTTTCAGATTGAAGTATTAAAGTTGGAACTTTTCCTAATATTTTTGAAAGTCTTAATTCATTTAATTTGCCATCTATTCTAAAATTAAATCTTGCAAGAGGAAAAGACATTATTGCATAAGGTATTTTAAATCCTAAAAATAGGGCATGATAAAGTATTGTTTCCTTAACATTTGAAACAGGAGAATCTAATATTATTTTTGATATTATAATATCTTTTTCATTAAGTTCTTTTTCATATAAGTAAGGGACTAATGCACTTCCCATACCACCTTGAGAAAAACCATAAAGTATGAAATCTTTAGTATTAAATTTTTCATTTAACATCAACATAGTATTTTTAATATCTACAGAAAACCTATAACCAAATGCTGTTTTAGCCTCATCTGATTTTCCTGAATTTCTTAAATCTGGTATAAAAATATTGTATTCTTCATCAAGTTGCATATCTATAAATAGCTGTAAAAACTTCAAACAGAAAATTCTATTATTTTTTCTACCATGATTAATAATTATTGTTTTTTTTGCATCTTCTTTTTTAATATACCAACCATAAAGATTAATATCACCTGATTTATATGCTATCTCTTCAAATTCCATATCAAAAGAAAGAGGTGAATATTTCCCACAAATAAGCCTATTTTTACTTTTCATTACATACTTTAAAGATTCTTCAAGTGTAACTTTTGGATATTTTTCAATTGCACTTAAAAGATAATCATCTAATAGAAACATCTTACCTCCTATCTCATATAGTATACATTTAAATTTTCCTTATCTCCCGTAATTATTTCGTGAAGAATAAAAGCATTTTTTTCTATCTTAATTAAACTTATATCTATGTTTTTCTCTATATCCTTCCAATTAACAAATATCTTAGGATTATTTAATTTTTTAATATACTTTGCCCCTTTTTCATTTATACCTAAAACTCTAATGTATTCAACATCTTTATCTAAGCTTATATCTTTTTTTTCAATATTTAAAAGTATGTTAAGTATTACCCTTTTTATTCTAGCTGACGAAAAATTTCTACTTACATAAAAAGATAGAAATTCTTCCATATTAGTAGATTTTTTTAAACACTTTTCTACTCTATTGTACATACTATCATTAAAATCATATATTTTCATTAATTCTATCTTTGTTTTAACACTAAATACATACTTAAACATATCAAATATTTTTTTATCAACATCTATTTTTCTATTTGTAAGATAAGGTAAACACGATTTAGGTACAAATTTTGAAACATCACTATCAATATGTTTTCTTATCATAGTTGCAGAAGCAATATTATCATTACTTTCCATATCATTATATCCACTGCCTATTCTTTTAAGTCCATAGGCTGATATATCAAATGAGTTTCTTTCTATACTTTTAATATATGAAAGAGCAAGTATATTATTCGACTTATATACATCATTAAATCCATATTCATTTAAAACCAATTCATGTGATTTAATATATGAATTTCCTCTCCTTATACTTTCCCTTAATTTCTCATTATACTCTTTTTCTTTCTGTAAATCCTTTATCATATAAATCTCATCAAAATTATCAGTTTCTATTCCAAATACTTGAATGTTAGTCCCTAATTCATTTAATATTTTGACCGAATATTCACAAAAAATATCAGCATTTTGTATAGAATAATATACAGGTAATTCAACTAAAATATCATAACCTTCTTCTAAGGCTATTTTAGTTTTTTCAAATTTATTAATAATAGAAACTTCTCCTCTTTGTACAAAATTACCAGAAATTACACCTATCTTTATTAAAGGAGCTTGTTTTGATATTTCATTTATTTGATATTTATGTCCATTATGAAAGGGGTTAAATTCTGCTACTACTCCTACTACCTTATCTTTCATGCTACTCCTATTTTTTTAAATTTTTTTCAACAAACCTCTCCCTATAATATGCTCTTTTTATTGATTTTCTCGAAGAAATATCAATATTATTTTTAAATGCCTCATCAATTATCCAATTAGGATTTCTAAGTAAGGCTCTTCCTGCTGCAATTAAATCTATTCCAAGATCCCTTATTGCAAATTCAGCTAAATCGAAGCTGTCTATTTGTCCAACTGCAATAACAGGAAGTCCAACTATTTCTTTTATTGTTTTTGCAAAACTTAATTGATAACCTGGATAAAACGAAAGTATTCCTTCATTTACAGTTCCACCACTACTTACATGTATAATATCTATATTATGCTTAAAATCTATTAAAACTTTTGCTAAATCTTCAGGTAAATATCCACCTTCAGCCCATTCATAAGCTGAAATTCTAATCCCTATTACTCCTTTAAATTCTTTCCTAACTTCATTAAGTATCTCTCCTAAAAGTTTTGCTCTATTTTTTAAATTACCCCCATACTCATCTTCTCTATTATTAGAAAAACTTGAAAGAAATTGATTAATTAAATATCCATGAGCAGCATGTAATTCTAAATAATCATAACCTGCTACTTGAGCTCTTTTTGCAGCTAATTTAAAATCATTTATTAAAGATAATATATCTTCTTTTTCCATTTTTCTAGGTTTTGGAAAATAGTCGCTAAAAGATATATCTGAACTTGATAATATATCTGCATTTTTAACAAGACCTTTTCTTCCTGCATCTCCTATCTGTACACCTATTTTACTACCTAATTTATGTACAGTATCTACAAGTTTTTTTAACCCTTCAATATGATCATCTGACCATATACCAAGATCTTGTTCACTAATTCTACCATCTTTTCTTACAGAAGTAACCTCTTGTATTATTAGTCCTACATTACCTATAGCTCTTGCACCATAATGGGCTAAATGAAATTCATTTACATAACCATCTTCTGCTTCATAAACATCCATAGGAGGCATTACTATCCTATTTTTTAATTCTAAATTCCCTAAGACATATTTTTCTAATAATTTCATTAGTATCTCCTCTCCTTTATTTATCTACCTAAAGTATAGCATAATTTTACATTTTTTGGTATAATGGAACTGCTTGTGAAAGGAGATTTTTAAAATGGAATATATTTTAGGAATTTACAAAAATGGTAAATTTTTTAAAGAAGTAAAATTAAATAAGAAAAATGATAAATATATATATAAATGGGCAAAGGTAGATGTTGCTTCATATTTTTTTACTATAACTAAAGTAGATAATAATGAGAGAGAAAATTTTAATATTACTTACAATCATACTAGTCCATTTGCATCTGAATTTAGAGCATATGCAGATAGTAAAAGTACTCCTAAATCTATTGCAGGTATACAATCAGGAATAGATATATTAGTAGAATTTAATCCACAAGATTTTAGTTTTTTATTACAAAAGAAGAGGTTTATAAAATTTAATATAGATATATCTAAGTTTGGATTATCTAACCCAAAAGTATTTGAAATATCTGGTGATTTCAATAATTGGCACCCAGAAACAGAACCTATAAATCACATAAAAGATAATATGTATGAAGTAATTTTAAATGTAGAAAATGGATTTTATGAATATAAGTTTTTAATAGACCATAAATGGTATCCTGAAAAAAATGAAATATTAGTTGTAGGAGAAAATGGAAATCTCTTTCCTAAAGGCATATTAGGTAGTGGTAATTTTATTAATGAAATTAGTAAAAATATCAATACTGGCAGTAAAATAACCGCTATATTACATGATGCTAAAAAGCTAATATATTTCAATAAAATTACAGAAAAAGAATTTGAAATTAGTATTAGAACTCAAAAATCTGATGTAGAAAGAGTATATATATCAGTAATTCCATATACTAAAGATGGTAAGGGATTAAATAGAATTTATGAACTTGAAAGATATATTGATTATACTAATTCTTTTGACTATTTTAAAAGAATGCTTACTTTTTCAGAAGATGTTGAAAGTTTTGAATATTTTTTCATACTAGAAGATGGAGGAATAAAAAACTATTATGGTGTAAATGGACTTGAAGAGGAATTAAGTAAACCTCTAATTTATTCAAAAAAGGAAAATGAGGATATCTTCTATATCCCATATTGGTCAAGAGAAGCTATATGGTATAACATATTTCCTGATAGATTCTATAATGGTGATATGTATAATGATCCAATTTTTAATGAATTTGGTCCTGAAAAATTTAAAAAAAATTCAAATCATGAAAGTAAATTTGTTAAAGATTATAGATGGAACAGTAATGAATGTGCATTAGAATTTGAAAGAAATAGATGGTGTTCTGATTTCAGTGAAAGAACCAATTGGGAAATACATATGGAATCAAATATAGATTATTCACTTAAATATGCAAGAATGTATGGTGGAGATTTAAAGGGTATTAAAGAGAAGATTCCATATCTTAAAAAATTAGGTGTAAATGCAGTATGGTTAAATCCTGTATTTTACTCTTTTCAAAATCATAAATATGGGGCTAACGATTTTAGGCATATATCTCCTGATTTAGGAACTATTAGAACTAGTGGTAAGCTTCATGATGTATATATAGATCCAAAAAATAGATACGGTAACAAAAGTTATCTTGATGTACTTGGTAAAGATTCTGTAAATAATTCAGAACTTGAATTACTTGAAGTTAATTTAATAGGTGAGAATAAAGGTAAAAATGGATATTTTGAAACTGATGATCCCAGTAGTTGGGTTTGGACAGAATCTGATTTAATAATGGTAGATTTAATTAAAGAATTACATAAAAATGGTATTAGAGTAATATTTGATGCTGTGTTTAATCATAGTAGTAACTACAATTTTGCATTTAATTTAGCTCTTGCTGAAGGAAAAAATTCAAAATATACAAATTGGTATAAGTTTAATGATTACTCTAATTACAAAGAAGTTACAGAAGATATGAGTGAAGAAGAGGCATATAACACTGTAAATCTTAATAGAACTAATCTTAAATACAATGGTTGGGCTGGATTTGACACATTACCTGTTTTTGATAGTTTTAATGAGGATTGGAAAGACTATATCTTTAATATTACAAGAAAATGGATGCTAGGTCCTGATGGTAAAGAACACAGTAATTGGCAGGAAGATGATGGTATAGATGGTTGGAGGCTTGATGTTCCTAATAATCTGGAAAATCAAATGTTTTGGAAAGAATGGCGACATGTTGTAAAAAAATGTAAAAAAGAAGCATATATTACTGCTGAACTTTGGTCTAATGCTGGTGATGATATTAACTCAGGAGATAAATTTGATGCTGTAATGAACTATGAATGGCTTAAAGCTGTAATAGGTTATTTTATTAATCAAGGTAAAGATTTTAATGAAAGCTATAAGCTAAGTGCTGAACAATTTTTATTAGAATTAAGAGAAAAAAGAACATGGTATCCACTTCAATCTGTACAAGCCTGTCAAAACTTAAATGGATCACATGATACTGATAGACTTTATTCAAGAATAATAAATGATAAAATAGGTAGAAATTTAGAAGAAGGTAAACAATATGAAAAAGGATATAATATTATTAGACCTGATCTTGCTAGAAACTACCACCCAAATACTACTATTGATTGGAAAAATTATCATATTAAGCCTAAAGATATTCTTAAATTAATATCAATATTCCAAATGACATATATAGGAGCTCCTATGCTTTATTACGGAGATGAAGTTGGAATGTGGGGAGCAACAGATCCATATTGTAGAAAACCTATGCTTTGGGATGAGTTTTGGTATGATAATGAAAAAAATACTTCATATGTTAATAATGGTGAAATATATTCTCAAAAGCCAGATATGGATTTATTTGAATGGTATAGAAAAATAATTAAGATACGTAAAGAACATAAATCTCTTGTATATGGTAGAATAAAACAGGTATATTTTGATAATGAAAAAGATATTATTGCATATGAGAGATATGATAAGGAAGAAAGTATAATAATTGTGTTAAATAATAGTTTTCAAGATCATAATGACATTATTATTACATCTTTCCATAACGATAAAACATATCTTGATTTATTGTCAGGTAAAAAAATTAAAAGTGATATAAATGGTAAAATGAAATTTGATATTAAAGCTAAAAAAGGATACATATTTTATTTATCAAAAAGGGAATAAATAACAAAAAGCAGAAATATATCTGCTTTTTTTATATTAACCTATTTTTGTTTAATTTTTATGATTAGAATTTATCAATTGTAGAATCAATTTATATTTGTTCCAAACATAAAAAAGTAATGAACATACATTTTTTGTATTTTTTATTATATATTCAATCAAAAAAAGTTTAACTCATCAATCATTTAACAAATAAATTATTTCTAAATATGTAAATTAAATGCATAATTACAATATAAACAATATATTTCTTTATTAAACTAAATATATTACCACTTCTATGATTATTTACTAACCTAGTTCTATTCTCTCCTTTTTCAGAATTTATTGTTACACTCACTTCTGTTGTATTTGTATATGATAGATATCATCGCCAAAAATGCTTTTAAATTATTTTTTTTAATTTATTAATTTTCGTAATATAAACTTTTGTTAAAGTATATTTAATAAGATTTACTACATAACTCCATTTTATCTTATTTTTTAAATGAAAAAACAGTAGTCTCAACTACCGTTTAGAAAGTATATCCTGCTTCTATTCCAAGCATACCTTTAATATTATTTCCTAAATAAACACCTATATTATATTTATCATTTATTTTAACACCCACAGATATCTTGCTTATAGTTGTAAGTATAGTTTTATGAATATTAGCATTCTCTATTGAAATCCCTACTCCTGTTCCAATTTCTACTCCTCCATATACTTTCATTTTCTCTTTTATTCTATAATTAAAATTTGCTTCTGCTCCTAAATTTAAATTAGGTTTATATGTATAAAGACCTTTAAAAATACTAAATGAAAAATCTAACGTAACTTTAGGTCCAAATGTAGCATCTATTTTTTCATTAACTTGAACTTTCCACTCTGATAATAATGATATAGAATTTGAAATAAATCTATTATTCATATAGCTACTATTTTCTTTACTACTTAAAATTCCAAAAGCTCCCTCTAGTCTATATCTTGGTCCACTTATTTTAACAGAAGTAAATTTTCTAGTAGGAATTTTATTTTTTGAATTACCAAACGAAAATAATCCAGTAATTAGTATTAATAACAATATTTTTTTCATATATTATTCTTCTCCCTTAAAATGTATATCCTGCTTCTATTCCTAACATCCCTTTAATATCACCTGTATAAAAGGGCTATATTAAACTTATCCTTTATTTTAAATCCAAATGATATTTTACTTATAGATGTAAATTCTGGTATCTCAAAATGTAACTCTCCTCGTTGTTCATAAAATATTTGGAACCCTATTCCTATGCCTGATTCTATCCCAGTGTATATTTTAATATCTTTTCTTATTTTATAATTTAAATCTGCTTCTACACCAAAGATTAAACTAGGTCTTATTGTTGGCTTAAAAAACTGACTATGATTAAGAGCTACATTTAATGTCATTTTAGGGCCAAAAGTAACATCAAATTTTTCATTAATTCCAATTTTCCATTCTGGTAATACTGAGATTGAACTTGAAGAAAATTCAAAACTTCTAAATTTCTCATTTTCTCTACCACTAATAGCTCCTTGAGAAATTTCTAACCTATATCTTGGTCCAATAACATTATTCGAAAATGAAATAAAGCCTAAAAATGATATTATCAACAACAATTTTTTCATTTATTATTCTCCTATTTTAATTATTTATCCGATTAATTATACCCCCCCCCCCACATATTTTGTCAATAAAAAATTTTAATATATATAATATTCATATCTTAATTGTCAATACATATGTTACATAATAAGAAATAAATTTAATATAAGTTAGATGGGGTTGCCCTTTTAAGCCTCTATTCCCTCACAACCTCATTTGGACTCTTAAAATTAAGCACTGTCTTTGCCCTATTATTATACAGCCTTTCATGCCTTTTAACATTTTCTATTAATTCTTCCTCGCTCCTAAATTCTTTCCTACTATACAATATCTTTCCATCTTCCCTATCCGTTACATCTTTATCATTTACAAACTCATATCCATTATCTACCTGTATAGTCTCTATCTTAAAGCCTATAGCCCTTTCTAACTCCTTAATGTACTTTGATGTCTCATATGTACTCTTTCCCTTTACAACCTTTAATACCCTCTTCCTACTATACTCATCTATAGCAGTTATCTGATAATATCTAATCCCCTTTGAATTAAACTTTATACACTCATTTGGAATATATTTAATATCTACCTGTACTTTCTCACTTGGATAATTTATCCTATAGGTCTTAAAAATACATAAATATTAATAAAAACAATATTTTATTTTCAATTAATTAGCCATTAAATTTTTATATTAAAATTGCTTGAAATATTAGAATTTATATAGTATTATTAAAACAACTTGAGAGAACTATCTTCATAAACTCAAAAGAACTTCTTAATAATAGAGAAGTTCTTTTTTATTTTTTAATATTGATTTTTAATAAAATTAAGTTGAAATTTAGTAAGATAAAGAATAAATAGAAAGAAATTTTATGAACTTTTAAACTTTAATACTATTAATTTTTATAATTCACAATAATATATTTTTAGAATGCTGTATAAATTTACTATCTCTATGAGAAATTAGTATTACGGGTAAATTAATTTTGTATAATAACTTAGATATTTTATCTTCTGTTTCATTATCAACATTAGCAAAAGGTTCATCAAATATTAATATTTTATCTTCTATTAATGCTCTTGCAATTCCTATTTTTTGAATTTGACCTGAAGATAAATTTATATCTTCATTTAATTTTATTTCATAATCCAATCCTTTTTCATCTATAAATTCTTTTAAATTTGTTTTTTCTATTATTTCATTTAATTTTTCTTCAGATATATTTCTACCCATCAATATATTTTCTTTAATCGAAAAAGGGAAAAGTTCTATTTTTTGTGGAACATAATTAAAAATATTTTTAGGTAATATGTCTACTTTTTTATCATTAATAAATATATTTCCTTTATTGGGTTTATATAGTCCTAAAAGAATTTTTAAAAGCGTACTTTTACCTGATCCTGATTTACCTAATATTGATATTTTACTCTTTTCTCCATTTACCTCAAAAGATATATCTTTTAAAACTTCTTCTCCTTCAATATATGAAAAAGTAATATTTTCTAATTTAATACTAGATATATTATTTACTTTAAACTCATCAATATTTTCAATATGTATAAATTCATTTATTCTTTCAAATGAAACTATTGCTTGTTTTATTTTAACTAAATTATTAGGTAATTCATAAAATATCCATGTAAAATTTCTAATAAGTAAACTAAATCCTATAAACCCTCCTATAGTTAATTTGTTATTTAATATTAGGTAAAAACTAAACATTAAATTTAAACTATCAAACAAAAGACCTGATAACATAGATAGAGTATATAACTGCCACTGTAGTTTTGAATTTTCATAATTACTATCTAAAAATTTAACATATCTTTCTTTAAGTAATTTTATAGCAAAATTTTCACTTTTAAGTATCTTTAAATGTATTTTATTTACAAATATTTCTTGCAAAATTTGTTGACTGTCTTCTTGACTTTCCTGTCTTAACTTCCATGATTTTTCTATCTTATCTGAAATATATTTAAATATTAATAAAGACACAGGACATAAAATCAATGAAAATACAGTAAGACTAATAGAAGTTAAAAATCCAAACACAGTAACTGCTATAAATGATAATATTCCTATTACTATTTTTGTTAAATCAGATATATATGCCTTGGAAACTATATCACTATCGGATATTAAAAGTGTCATAATTTCTCCATCTAAACCTTCATCAATTTTCATATATTCTTTTTTAGTAAGTGATGTTAATATGTCAGTATTTATCTTTTGCTTATATTCCTTTTCCTTTAAATATATTTTCTTGTTTAAATAATATCCTATTAGAGATAAAAGTAAGATTAATAATAAAAGGAAGGATATATTTTTAGTGTTAAAATTTTCTTCTAATTTAATTATTCCTCTTGCTATTAAAAATTCTAAAATAGAAAATATTAGAGCTAATAGCCAAATATAGTATACTTTGATTTCTCTACACAATTTAATAATTTTCATCATTTACTATCACCTAACCTTAAAACATTATCACTTTCTAGTATCATATCTGTAGTATGAGTAATAATTATTATTCCTTTTTCTTTTTTTAATTCTAATAGATACTCCATTATTAAATCTTGATTTACTTTATCTAGATCTGAAAAAGGTTCATCAAGTATAATGTAGTCAAAATCATTTAAAATGGCTCTTGCTATTGCAATCCTTCTAATTTCTCCACCAGAAAGATTTATTTCCTCGTTATATATACTATTTAATCCATTAGGTAATTTATCTATAACTTCCAATAAATTTAATTTTTCTAATAGATAATACAATTTTTCTTTTGGCAGCTTTTTACCTAAACATATATTTTCATATATACTTGTGGTAAATAAGGTATTTTTTTGACTAATAAATGTAAATTTTAAATTATGTATATTTGTATATATTTTACCACTATTTAATTTTAATTCATTTAAGAGTAATTTAAGTAAAGTGCTCTTACCACTACCATTTTCACCTAGTATATATGAAATTCTTTTATTTGGAAAATTAAAAGATAAGTTTTCTAAAACATTTTTATCATCATATGAAAAATTAATATTTTCTCCTTTTATTCCCTCTACATCATCACTAAAACATATATTTTCTATATCATTTTCATCTTTTAAAAATATATGTTTTTCTATTCTTTCTATGGAAGTTTTTTGAATTATCATATAGTCAACTATAGGAAAAAGATCTATAAATACATAGATTATTGAACCTACCCCTATATTCCATATAGATATCATTTCAGCTAAAGTTAATTCTTTAGTAGAAACTAAATGTATTCCTAGAATAAATGTAAGTATCTGCACAAAATATATTCCACTTGTAAGAAAGTTATCCATTTTTGAAAAAGAAGAAGCTACTCTATCATATTCTTTCATTTTTTCTTTGTAAATAAGGTTATGTTTAGATAATGTCCATTTTAAAATGTTATATACTTGAAGAATAGGTATATTTTTAATAAGACTTTCAAAATATGCCTTATGTTTATCTTCTTTTTCATAATATCCTGTATTTTGAACATAGGCTATGTTATAGTTTTTCTTTGAATAGTATAAAAATATTAAACCTATAAATAGATATAGGAATAAAGCCTTAAATGAAAAAAATGAAATATATACAAACCCTACTATTAACATAATAGAAAAATCTAAAATAGGGAAAAATCCATACATTAGATAATCACTTAAGTTATATACATCTTCATTAATTAATGTAGTAAAATTACCTAAATTAAAATCATCATTACTATTTCTAAGATATTTATTTACAATATTAAAAGTAATATTTTCCATCAATTTCTTTTTCATTTTTTCAAGACTAATACTGTATATGTAATAAATATATGCATGAAATAGTGTTATAACTATTATGATTAAAAATATTATGTTTATTGTTTTTACATTTTTGTTAAATATTTCATCTAAAATAACTTTCATTAAATATGACACTACAGCATTGTGCAGACTTAAAATGAGTCTAAAAATAACTAATAGAAAAAAAATCTTTTTATCTATTAGTTTCAAAATATTTTTTTGCATCTATTTCTCCTTTAAAATGAATTTATCAAAAACTATATTCTTTGTTCATCTTTATCACCTTATTAACTTTATTCTCCTTGTTTATTTATTATAAATTTTAAAAGTATAAATACAACTTCTAATATCTCTTCTTCTAAATTTCTATCTATTCCATAAAACCTATTAATTTGAATGTGTATAATATTTCTTAAAATATCATACTTCTTTGAATATGAAATGTCATTTAATGAATAAACATAATTATATAGTGATTGTTCCCAATCAACATATAATTTTTCTAATTCTACCCCTTTCAATGTATTATCTTTTAATTCTTTTATTTTTGAAATTATTACTTTTTTATCCCTATTAGTTTTTTCTCTTATATTCTTAAATCTTAATAAATTTGAAACTACATATTCATATTCATTTTGCATATTAAAAATTTCTGTTGTTCTAATTATTATAAAATAAAGTATATATTTTTTTTCTTTACTCTGTTTTTCTAAAATATTTACAATTAATTCTGATTCAATTTTTATGTATTCTTTATATAATTCATAACTATCAATATTATATTTTAATTTTTCTTGATAAAAAGGAACTATTTCAAAAAAATCAATATGTAAAATTTCATTTATACTATTTACAATTTTTTCTAATATTTTATATTTATCTTCTTTCCTTACATAAAACCTTATTCTTAAATGATCTTTTGATTCTCTATATTTTATATAAGTAAATTTTAAATCAAAATATAATTTTCTAAATTTTATTATCATTTTATAAATATCGAATAAAATTATATTTTGAAAGCTATATCTAGTATAAATTTTCATTGAAATAACATCATCTTCTAAAGTTTTTAATTCTAAATTTTCATTATAGTCTATAGCAGTATTTAAATCATTTTTTTGTATTATATTTATTTTACTGAAAATGTATCTCTCTTTTTTTATTTTTTTGTTACATATGTTTTATCACATTACAAAATTTTAATATATATAATATTCATATTTTTTTATTAACAAAATTTTTATAAAAGTACATAAACAATAATATTAAAATCAGAGAAGAAACTATTCCATAAACTTTAAATTCAAATAATTTTATTAATGTCCATCTAAAATACGGACTCTCAAATGAATAATAGCTTATTAATTGTCCACCATTTACACTGATACTTTTTGATAATTCTGTTATTGCTGGTGCAATATTAGTTGAAACCATAAGATATATTGGCGTTATTATAATTCCTAAAATTAACATTTTAAGTAAATTTCTATTTGATATTATTAAAGCTGGAACTACTATCATAGGATTAATTATTCCTGCTAATGGTAAAATAGAACTAAATCCTAATTTTGAAAATAATAATGCTAGTATTAATGTAATAGGAATTAAAAGTACTGAAACTATCCATAATTCAGCAATAGATCCAAGTATAGTCCATTCAAGTCCTATTACTATATCCCTATCCTTATACTTACTTTTCATAAAATTTTTAGCTACTTCTGATACTGGATTTAAAGCTTTTACAAACATATTAGCTATTATAGGGAGTAAAACTAATGCACTTGCAAGTTTTACTGAAATTTCTAGACCTTCAATTAATGAATATCCTGAAAATATTGAAAGTATCATTCCTATTAAAAATCCCATAACAGAATCTTCTCCAAATACACCTATTCTATTTTTCAAATATCCTATATCAAGTTTTGTATTTCTAATAAACGATACTTTATCTAATAAATTATTAATAGTATACATAATTAAACATTGTATAATAGAAACATGAGTAATTGTTGTAGCTACAATTCCTGTCATTTGCTCTACTCTAGGTCTAATCTTTTCAGAAATTTTTAATTCTAATAAAATTTGAATAATTGAAGCTATAAATCCAAAAATTATGCTTTTTGATACAACAGAAACTATAGCTGCTGTAAATACCTTAGTCCATATGTTAAAAATATCTACATTTAAAACATTAGTAAAATTAAAGTGTATCATTAATATATTTAGTATAATCTGTAAAGGAAACATTATTATCATGAATTTCCAAGCAAATGAAATAGTTACCATAGGTGAAAATCCTACATCTATAATATCAAGTTTAATACTTGTATATTCAACAAATCTTTGAGCTACAGGAGATATAGTGTTAAACATAAACCCTATAACCAAAGAAATAGATGTAAATGCAATTGCAAGTGTAATACCTGACATAAGTGCATCTTTTAATTTCATCTTCATAAATAAAGACATAATGATTATTATTATAGGTAATAGTATACTAGGACTAATACCTAAAATATATTTAACTATTTCTGACATAGTTTATCCTTTCCACTAAATACCTAAAAAATCAATTATTTCTCTTTCTACTCCAAATTCATTATTTGTATATTTAGTAACTCTTTTTATTTTTTCAAGTAAGATTTCTTCAGAATTTTTCATAGCAAAACCATATCCTACTTTAAGTAACATATCTATATCATTTTCTGCATTTCCAAAAGCAAGAACTTCATTTAAATCTATATCTAATTTTGAACAAAGAAATTCAAGTCCTTTTGCCTTATTTATACCTTTTTTTGTTAATTCATTTAAAAATACTGCACTTCTTGCCTGTGTAACCTTATCATTAAATTCACTAGAAATCAAATTATATATACCTTCTTGTTCTGCCTTATCTTTAGTAAATATCATCAATTTAATCTTATTTTCTGGAAAATATTTAACATCATCTATATTAATTAAATCAACAAAATTTACTCTTTGCTCAAGTTCTATCATTTTCTCATATTCTTCAGAATTTTTGTAGGTATAGAACTTATTCCAATCATGTATGCTAAGTGGATTATTAAAACCATTTTTTTCTAAAATTTCTATAATATTAAATACTACATCATCTTCCATACATTCTTGATATATTATTTTATTTTCTTTTAAGTCAAATATTTCAGCACCATTATGCCCTATTATATATCTAACAATATCTGTCATTTTTAATCTTTTTATTAATTCTACTATACCTGCTGTAGCTCTACCACTTGCAAATACTATTTCTTGATTTAAATTTTTTTCTCTTAATTTATCCACATAACTTAAATCTTGTTTAAAATGACTGTCATCTAAAAAAGTACCATCAAAATCTATAGCTATCAATTTTATTTTATCTTTCACTATATTCCTCCATAATTTCCATTAATTTATGTGTAATACCTTTTTCTAAGCTAGAATGTCCTGCATCTTGAATTATATATAGCCTTGCATTATTTAAATTTTTATATAGCTCATAAGCTCCAATAAGTCTACAATCAACATCATATCTACCATGAACTATATCTATTTCTAAATCTTTTATTTTATAGCTATTTTCTAAAATATATTTATCTGTAGGAAGAAAAGAATTATTATTAAAATATGTACATTCTATAATAGCCATAGAAATATCTGATTGTGATATCTCGCTTAAATTATCTTTTCTAATAAGCCTTACACACGAATGTTCCCAATCTGACCATACTTTCGCATATTTTTTAGCTATTTCTAAATCCATTTGTAAATATTTTAAATATGATTTAACTGGATTTTCTCTTTCTTCTATTGTTAATGGTGATAAGAATTTTTCAAATTCTACTGGATAAATATAGCTAGCACCCTCTTTATATAGCCAATCTACATCTTCACTTCTTGCTAAAAATATTCCTCTTAAAACTAATTTTAAAACTCTTTCAGGATGATTTATAGCATAAACTAGAGATAGTGTTGATCCCCATGAACCACCAAAAACTACCCATTTTTCTATATTAAGTTTTTCTCTTATTTTCTCCATATCATCTATCAAAGCAAAAGTATTATTTCCTTCTATTTTAGCAAAAGGTTTACTCTTTCCACAACCTCTTTGATCTATAACTATTATTCTATACTTATCTTTATTAAAAAATCTTTTAGCGTAATCTCCCATAGGAGCTCCTGGTCCACCATGAACAAATACTACAGGTATTCCTTTTTCATTCCCACTAATTTCATAGTATATTTCATGTCCATCATTTTCTAAATAATATCCCTTTTCATCATATTCATGATTTTGTAAAGTTAAAGGATTAGATATGTCTAATCCAATTATTTCTTTTATCATTTAATAAACTCCTTTATTTCATCTACACTATCTATAACATTATCGTTAAATCCTATTTTATCTATAAATGCATGTACCTCTCCTGCATATCTTATTCCTACTGATTTTATTCCATTTTCTTTAAGTCTTTTATGGAAGTATTCTGCCTCTAATCTTAAATAATCATACTCTGATGTAAATATTAATGTCTTTGGAAATTGTTTAAGTAAACTATCTGGTGCATTTATTTGTGAGATATAGTAATTATCTTTTGGTTCATTTGTTTTAATATACATATCTTTAATGTATGGCATAGCATATTTTAATCCTGTTGCTTCTGATTTCATTAATCCTGAATCAGGGCTTGTTTCATCTATATCATACTCTTTAATATCCCAAGTAAAATCTTCTCTACAATTGTATTTTAAATCTATAAGTAAAACAGGATAATACATAATTAAACCATCTGCTATTTTACTTCCTTCTTCTATATCCTTAATACACACTGAACATGCAAGTCCACCCCCAGCACTATCTCCTCCTAAATATATACTTTCATATCTATTTGAAAAGTGTTTAAGTATAGCATATCCCTCATTTATAGATGTTGGGTATGGAAATTCTGGGGCTAGTGAATAATCAACAGAAATTACTGTTGCTCCTGTTTGTTCAACTATATATCTACAAGTATTTTGTATAGTATCTGTAGACCCTCCGTAATATCCTCCACCATGGAAAAATATTATTAATTTTTCTTTATCTTCTATATCTTTTGAATATTTTATAACTCTAATTCCATCTATTTTTTGTATTTCATTTTTAATATGAGTTTTTGTAATATCTATATTTGGAAACCACATTTCAGATCTCATTTTTTCAAGTGATGTAGAAAATGTTTTTTCTCCTCTTTTTTCATTTTCTTTAATTTTTAATTCTTTTGTAAATTTAACATTAGGAGAAAGATTTCCAATTTTATAACCTTCTATTTTAGGTCTTCTTATATCCATAATTTACTAACATCCTCACTTTCTCTAATATGTAATAATTTATTATCTACAAATTTACTGTATTCTTTTCTAGTTTCACTAACAAATACTATTTTACTAACCTTAAGTTTAATAAATGTATCAATTAAAAAAGCTACTAAAAATACCATTAATGATTTAGCTATAGATAACCTTAAGTATAGATGGGCAAAAAGCCCAGCACTCATTCCTGTAAACATATTAAAAATTGTTTTTTTAATGAAATATTTTCTTTTTCTTTTAACAAAAAGTGCTACACCCTCATTAATACTCTCTTCTATTTCATTTTTTCCAACAAATTCATATATATCTATATTTTCTTGTTGATATTTGTATAAAAGTGCGGCACAGAATTCTTTTTGCACTACATTATTATTAATTTCAGCCATTTTTAATCCAGATAATAAGGCGAAAATATTTTCTTTATCTTTATTATTCATAACTCCCTCCTAAAATCTTATATGTTTATTAATAATTTCCATATTTACTTTATCTTTTAAATCAAGCTCTGATCTAATTTTTTTAAAGTTTCTAATATCAATTATACTTTTTATTTCTTTTTTTGAAAAGCCTAATGTATACAGGCTAGATTCATCTAAATCATTAATATTGTATTTCATATATTTTTTATCACTAATTTCTTCTACATAAAAATTTTTTCTTAACTTATCTATATTACTTTTATTAATCCCCCTAATCCTAACAAGATTTTCTAAATTATCTATATATCCAACAAAATCTCTATATTCAATTATCTTATACCCTAATTTACTAGAAAGTCCACTATATACTATGTCATCAAAACTTGCTGTATTAATATCTAATTTCTTTTCTTCTTCATTTTCATATTGAAAAATCAATTCATCATTAATTTCTACATTAGGTCTATTTCCTATTTCATCTATTCCAAATATATTTTTGATGATATTAAATAGAAAAAGAAATAATAATATTGATAAAATATATTTTAATTTTTTCACATAAACCCCCTAATTTCTATTTTCTTTTCATTTAATCTATCTTCAAATTCATCTAACCACATTAATGGATCTTTAGGATTAATAAGTCTTTTTATTAAATCATCCTTTATTAATTTAGTTATAGCTCCTGCACCTATAGATATTATACTCTTATATTCTTCTATCATTTCTATATTATATATCAACTGTTTACCAGATTTACAATAACCTATATTTTCTCCTGATATACTAGAACTTTTTTGTCTATACATATAGTAAGGTATGTAGCCTTTTTCATTCATAATTTCAGATATTTTCTTAGTTATTAATTCATGATTTAACAAATCTTCTTTAAAGTACTTATTCTTTGTTAATGTAGATGCTTTTTTCATTGCAAGATAGTGAAAAGTTACATTTTCTGGATTATACTTTCTAAACTGTTCTAAAGTATTTAATACATCTTCAGTACTTTCAAGTGGTAAGCCTATTATAAAGTCCATATTAATATCTAAACTTAATTTTTTAGCCTCAGTATATACCTCATTAAGCTTATCTAAATTATGATATCTATTAACTAATTTTAATGTAGAATCTTTAAAAGATTGGGGATTAATACTTATTCTAGTAACATTATATATTTTTAACATCGATAGTTTTAAATTATCTATAGTATCTATTCTTCCTGCCTCAAAAGTATATTCTTTTAAAAACTTAGTTTCTATATTTTCATTAATAGTTTTTAAAAGTATTTCTAGCTCATCATGTGTTAAATAACTTGGTGTTCCTCCACCTACATATATGCTATTTACTTCTAAATTAAGTTCACTACATAAATTACCTATTTCTTTAATTTCTCTAAGTAATGTTAAAAAATATTCATCATATCTTTTCTCATATTTTCCCTTTTTTAGATATGCAGGAAAAGAACAATAAGTACACTTAGTAGGGCAAAATGCTAATCCTATATATATTCCTATAGTTTTATCATCTAAAAAATCTATAGAATTTTTTACTACTTCTAATAATAAGGTTGCTTTTTCATAACTTACAAGATATATTTCTTGTAATATTTTTAATATATTATCAAAGCTATTATTTTTAAGTAATTTTCTTACTAGCTTAGTAGGTCTTACACCTACTAAAGAACCCCATGGAACATTGATATTATATAGCCTTAAAAGAGAAGATTTAAGCATTACCTCTATTTGATTATCTATCATCTTTAAAACAGAATATTCTACTATGTTACTATCATTTTTAGCATTAATGTATATGCTATCTCCAAAATCCTTTACTTCAATAAATACTTCATCATTATTATCTTTAAAGAAAACATAAATAAATTCTTTCCATTTATTTTCATTTATTTCATAATTTGATATAATTTTCATTTTTACCACACATATATATCTAAAAGTATTATTAAAGCTATTATTATCCTATAATATCCAAAAATTTTAAAATCATGGTTTTTAATGTATTTTAAAAATGAATTTATTATCATTAAAGACATTATGAAAGTAAATACTAATCCTAAAAATATTAAGAATAATTCATATGTACTTAAAGATGACCCTATTTTAATTAGCTTTAGAGTAGTTGCTCCAAGCATAGTTGGAATAGCTAAGAAAAATGAAAATTCTGTAGCTATAATTCTATTTAGCCCTAAAAACATTGCACCTATTATTGTTGCAGCAGAACGAGATGTTCCAGGTATCATAGCTAAACATTGAAACATACCTATACCTACTGCCATAGTATAAGTAAGTTTTGAAATATCATTTATCTTACTTTTTCTTCCCTTATTTTCTATAACAATTAATAATATACCATAAATTAAAAGCATGATTGCTACTATAGATGTATTAAAAAAATGTTTTTCAATATAGTCATCAAAGGCTAAGCCTAAAATTACTGCTGGTAATACTGCAACTATTATCTTACTCCAAAGTTCTAAAAGTTCTTTTCTTTCATCTCCTTTGTATATAAAAGGGTATAGTTTTTTAAAAAATATTACTACTACAGCAAGTATAGCTCCTAATTGAATTATTACCTGAAAAGCTGTAACAAATTCTTTATTACTTGATAAATTAATATATTTATCTGCAATTATCATATGACCCGTTGAACTAACAGGAATAAATTCTGTAAAAGCTTCAATAAGAGATAGTATAAATACTTTTAAAATATCTAATAACATTTTACCTCCTCATTTATTTACTACTTTTAATTATACAATATCAGGATAACTAATTCAACAATAGAAAAAAGATTAACAACTGCATTAACAGAAGTTAATCTCTCTTTCTATCTTAATTCAATCTCCACCCTTCTATTAGAAGACCTTCCACTTGAACTCTTATTTGTTTCTACTATGTTATTATATCCTGATGAACTTACCTTCCTTATTGATATACTCATATCTAAGCCTAACTCTCTTAGTTTCTTTGCTACTACATTTGCTCTCTTTAAACCTAACTCAAGATTTAAATCCTCTCCTGATACATTATCTGTATACCCTGTTATATATATCTTCCTATTCTTATAGTTCTCATTTAACTCTCTTACTATATTCATTAACATCTCTTCTTGGCTACTTGTTAGCTCATGTATACCTAATCTATATCCATCTAGTGTGTATAAGTCATCTTCATTCATCTTAATTTTTTCTATTGCTTTTATTCTTTCTCTTAATTCCTTTATCTCATCTCCTATCCTATCATTTTCTCTTCTTAATCTATCATTATCTTCTTCTAACTTCTTATTCTGATTAATTAACTTTTCATTTTGTTCAATCAATCTATCTCTTATATCATTTGAAGGATTATTTTCTATTATTACTTCTTCTCTTCTTACATCATCTCCTCCAAACTGATATCCTATCCCTGCTCCTATACCTACATTTCCTCTTGTATTTAATGATAAGTTTGCCTTATATAATACATTTCCTCTTTCATTTATTCCACTTAACCCTAATGCAAAGGCTGAATGTCCTTCATAATATCCATATGATGCTCCTATATTATGTCCCTTTCCATTTATCTGTGGTATACTTGCTACTGCTATTGCATTTGCTACCCCTCCTAAAGCTCCATTTAATTTATTATCTACATATCTCTTATTTACTGCATAATGTCCTGGATCATTATCTGTTAGATCTCTTAAACCTTTTACTACTCCTAATCCTTTATCATTATCTACCTTAAATGATATTGATGATTCTTTATCTTTTCCATTTCCTCCATCTATTTTAACTGTTTCTTCTCCTTCTTTATTTGATAAAGAAATAGTTGGAGTATCACCTTTATTATCTAATGTTATTCTTTGTTTATCATCTTTATCTTTTAAAGTTAATGTATTTGATGTTAGGTTAGAACTTCCTTTATCATCTTTTATTGTTGTTCCTTCTAATGTATATTTGGCACTTGTAGTTGGTTGAGCATTATTATTACTCTTTTCTAATGGATTCACATCATATTTACCTATTTCAGTTCCATTTGGTCCTGTTTTAGACATTATGTATTTATTATCATCTGTCTTATTAATTGTAGTTAGTCCTTCTTTATCTAGTTTAACTTTAGATTTATTTCCATTATCATCTAATTCTTTTGTTTCAAATGAAGTCATGTTAGTTAGCTTATCTGATAGTTTTACTGTTAATTCTCCTTTATCTTTATCTGATTTAACTTGTATGTTTCCACTTGCACTAGTAAAGTCATCTTTACTATCTGTTCCTTCACCTTTAATAGTTACTTGTTCTCCTATGTTTCTATGGATTTTTTCTCCTGAACCTTCATTACCTGAAAAATTTATTCCAGCCATAGCTAATGCTAATACATCTGTTCCTGTTGCTACTTTGTTTTTGCTATTATCAGAATTTCCAATTAGTTCTTTAACTTTTTCAGCAGCTTTATCTGATGTTTTAGTTGCTTCTTCTCCTAGAATACTTGCTACATTTCCTATTGATATTGGTGTTCCATTCTTAGGCATTACATTTACTGTTACATCTTTATTTTCTAATGCTTTTGGTTCTTGATTATTCATACCATTAGTTTTATGTTTGTATTTAGATGTAGCTTCATCATAGTAGTAATCCTTTAATTCAGATTCCTTATACAATTTATTATCTTGTCCTCTTACAACTTTTTCACCATCTGATGTTTCATACTCAAATGGTCCATTAGCTATTGCTTTTATTTGACTATCAACATAATTTTTATTAACTGCTATGCTTCCATCTTTTTCGTTAGGAGATATGTCTTTAAGACCAGTGATAGAACCTTTTTCACCATTTATTTTTATAGTATCTTTTCCATCTTTGTCTTTTACAGTTATTGTTCCTGCATTATTTTCAGTTTTTATAGACACAGATTCATTTCCATCTTTACCTTTTAAAGTTATTCCTTCTTTTCCAACTTCTGTACTTGTTTTATCTGCTGAAGTAGTTTCTTTTGGTCCGAATGTTAACTTATCTGCTGTTAGATTAGCTTTATTATCATTACTTGTAACCTCAACACCATTAGTATCAACTTTTGTTTTATTTCCATTATTGTCTTTTGTTTCTATACTATTTAGGTTCTTTAAATTTTCAGCAAGTTTAATATCTAATCCATCATCAGTAGCATTCTTTGTAACTTTAATATTATCTTTGGCTGTAGCCCCATTAACTGTTCCTTCACCTTGTATCTTTAAAGTTTCTCCCAGTTTTTTACTTACTTTATTTGCATCTCCATCATTTCCTTGGAACGATATCTGCTTATTAGTAAGATCTGCTATATTTTTTGTTGATGTTCCTATAGCATTATCTAATGCATTTAAAGCGTCTCCTACCGTATTATAACTTTTAGGTGCTGCTTCTCCTGCTTTTAACATGTATGTTGGAGCTGTAAGATTTCCATTTTCAAACTTAGCATTTCCTCCTAAAACTTTTACATATTCTTTAAGTTGTGATACATTTACAGCATCGTTATCATCTTTTCCATTTGCTACATTTGATATCTTTATATGTTCTCCTGCTTTAGTGAATGTTAATTCTTTTCCACCGACCTTTAATTTTGTAGTAGTATTATCTGTTGTTCCACTTCCAAATATTAGGCTATTATCAGCATCTTTACCAATAGTAGTTGCACCTAGTAAAGAATTTTTAGTAATTTCTACCTTATCAGTTCCATTTGCTACAGTTATTTTATCTGCTGTAATAGTTGTTTTATCTCCAGTATTATTAGTTATTTCACTTTTATCTGCTGTTATAGTGTTCGTAACTTCTTTATTATTACTCTTATCTTTTAATGTTATAGAAGTTTTAGTTAATATATTGCTTTTATCAGTATCTTTTCCATCTTTATCTGTGATTTTTAATCCACTTGCTGATAATATTGTCTTATCTGCACTATTTTTTACTTCTATATTTTCAGATGTAACTGATGTTTCTTTACTATCTTTTCCAGTAACTTTAAGTCCTTCTGTTGATAAAATTGATTTTTGACCATTTGTATTAGTTTTAGTTGTTATCTTATTTATATCCTTTAAATCTTCTGCAAGTCCTATAGTTAATGTATCATCAGCTGTCTTAATTATCTTTATATTATCCTTAGCTGTTCCTTCATTAAATGAACCCTCACCTATGATATTAAGTTTTTCCCCTAATCCAACTTTTACTTCTTTACTATCATTACCTGCAAATATTAGATCTTTATCTTTTAATAACCCTGATGAAACTTGTTTAAGTTGTGCCACATTTACAACATCAGTGTCTTCATATCCTGCTGCAACTCCTGTTATTCTTCTAGTTTTATTAACTCCATCTCCTATAGCAAGTTCTCCATGAGTTGGTTTCCATTTTGCATCCATTAAAGTAGAACTTTTTTGTGTTGTAATATCATATCCTGAATTATCTGTATTTGCAGTTTCCTTAGATTCACTTCCTAACACTATGCTATCTTTTTTAGTAGCAACTGCTCCAATTCCTATGGCTATAGCATTTTCTGCGTTTGCTTCTACTTTAGCTTTATGACCTATAGCTATTGAATTTTTAGCTTTTGCACCTTTATTAGAATAATTTTCTTCTTCTATTCTCTTCTTTTCATCATCTGTTAATATATTATCTACTTTAGTTTCAGATGAATCTTCTTGTTTAGCTTTTTCTAAATCTTCCATATATTTGTCTATATTAAAGTTACCATTATTTTTATATTTTTGATCATTCTTATTTAGAGCATTAAGCGAAGTAGCCTTATCTTTTATTTCTTCATTCTTTTCTAATTCATCTAACTTATCTTTTAATCCTTTAACATTGGCATCATTTATTGTTTCACCATTTTCTTTTCTAGCTTCTATAGTTAGCATTTGTGCTTTTAATTTTACATAGTTTTTGTAATCTATTCTTTTTCTAACTATTTTATCTAAATCATTTCCATTATTTATAGATAAATATCTAACCTTATCATCTACTTCCTCTGTTGCTCCATCTAATCTATCTTCTAATGTTTTAAGTTGGGCAACATTAACAGCATCAGAATCTCTATACCCTGATGCAACATTAATTATTCTTCTTTCATGTCCTTTTTTACCTACAGATATTACCCCTACTTTTGATGAGGTTGGTATAGAGTATGATCCTTTAGCTGTATAGCCTGGTTTATCTAAATCAGATTTATGATAATCAGTGGCTGAAAGATATCCTAAGGCAACTGAGTTATCTAGTGTTGCATTAGTCTTATTACCTAAAGCTAGTACTGATTTACCATTATGTCCTTCTACAACTGTACTATTTTCTTTTAATTCACTTACATTGGCATCATTTCCTATGATAATAGAATCTCCATCATTTTTAGTTCCCCAAACACGTGAATTTATCCCAAGTATTATTGAATTAGGAGCATATGCAACTGAACCATGACCATAAACCATAGAGTTTTTACCATTTACATCTACTCCAGCTCCATTACCAAATGTAACAGAACCCTCTGCTAATGCTCTTGAAGCTATTCCTAATGCTATTGAGTTTTTTTCTTTTGTATAAGAATAAGAACCTATTGATATTGAATTATCCTTTAGTGAGAATGATCCTCTACCTAAAGCTATACCATTATCTCCAAAAGCTCCTGATTTACTTCCTATAACTATGGCATTCTTACCACTAGATTTAGCTATATTTTCTACTCCATTTTTTGTTTGTGTTTTAATTTTTATTGAATTAGTTTTATTAGTATCATTATCTTTATCATATGCATTTGTTAATCCATTTTCTATACCTTCGATATAGTTTTTATAATTTAAAAAGTATTCTCCACTTTTTAAATATTCTCCTTTTTTAGCCCCTGTTATTTTATCTGGTGCATCTGCTTCTCCAAGACCTATTAAAGTTTTAGCAACTCCATTTAAATCAAAGCCGTATAAACCTCTCATTTCCTCTTTACTATCTTCAGAACTATAGTCAGCTATATTACCAAATAAACTAGTTATAGTTTCTTTACCATTAACACTCGTACTACTATTCTTTAATTTTATCTTACTATCATAATCATACTCAACATTGGCATAAACATCAGTTCCTATAGCTATAGAATTTTTACCTCCTGAAATAGCTGATAGTCCATAAGCTGCTCCACCTTCTTCTAATACCAGAGTTTTATTACCTGATGCTATCGCATTATTAGCAAATACATTAGTTTCTCTTCCTAATGCTATTGCCCCTTCTCCTTCTGCCCTTGTTAGTGTACCAACAGCTGTTGATCCATCTTTAAGAGCATAGGCAAGAGTACCAAGTGCTGTAGATCCATTTGCATAAGCTATAGAACGAGAACCTATTGCAATTGATCCATGTCCTTGTGCTAATGTTGGTGAATATTTATGCTTATCGGCATTTGTTTTAGTTCCGTAACCATACAAATCACCTTTATTATCTATCTTTTCATAAAGTTTTTTGAAATAACTATCATAATCATGTTGAGTAACCTTAGTTTCATATGCAGATATATCATCATTACCTATAGCTATAGATGATCTTCCTATGGCATATGTATTATTTCCTATAGAAGTTGCTTGTCCAGTCGCAAAAACAGAGTTACCTACAGCAACTCCTTGACCATCATTTTCTTCTACACCATTACCTATATTAAAGTGATCTTTGTAAACATAAGAATTATTTCCAAGAATTACGGAATTTTGTAAATCTGTTTTAGTATTAGCTCCTATTACAACACTTTGTTGTTTATCTGATTTTGCATTAAATCCTATTACTACATTTTCAGAACCTTTTGCATATGTTTTCCCTCCAGCTCCTATTACTACTGAACTAGAAGTATTATTCTTACTCTCATATTTAGCTAATATTACATTACTTTTATCGTTATACTCTCCATTAGGATCTTTTGCAGCTCCAACAGTTCCTTTAGTATCATCTATTGCTAAATATGCTCCATATGACATTGCTGATAATCCTGCAATTCCTATAAGTAGATACCTTAACACCATTTTTTCATTTATACTTACCTTATTTTTCAAAGAACTTTTTAAAAACTTTTTTATTTCAATTTTTTTCATTACCCTTCATTTATTCCTTTTTAAAAATTTTCATAATTCCTTTTTGTGTTTCATAATATGAAACCTTTAATTAGACTTTATTTTCAAGTCCATTATTAAATTAAATTTCTTTTTTGTTATATCACACATATATTTTATGTTTGTTATAACTACAAAAAATATATATATGCCTACTTAAAATATTTTTCATAAAATATTAAATATACTATATATATTTCTGTTATTTATTCGCAGATATTATACCCCCCCCCATTGCTTTGTCAATATTTTTGATTAAACAAATGAATATTTTTTTATGGGTTTTAAAATATTTATTTTAATTATACTTATGTTACTGTAGGTACTTAAAATAAGGTTTATTATATGATGTAATGTGATAAAACATATGTAACAAAAAAATAAAAAAAGAGAGATACATTTGATATAATAGAGTTTGACAAAAACTAAAACAATCAAAGGAGTATCTCTCATGAGTATTATAACAGAAGAAATGAAATTTCGCCATAGATTATGTGAATATGCAATAAAAAATGGAGTAACTAAAGCAGCAAGGCGTTATCATACAAATAGACAATAGGTTCAAGAAAGCCCCATACAAGCCCAAATGCCCATACAGAAGAAGAATTAATACTAATAAAGAATATGTTAAAAAAACATGGAAGTTATGGATTAGCCCAAGTATATGTTAGTTGTAAGAATAAGGGGTATAATAGAAGCTTTGGTAGTATGTGTAGGATCAAAGGGGATTAGATATTATCAGATAACTGCTATAGATGAGTATAGTAGGAAGAGGGTATTAAAGGTTGTAAAGGAAAAGAGTACATATGAGACATCAAAGTACATTAAGGAGTTAGAAAGGGCTATAGGCTTTAAGATAGAGACTATACAGGTAGATAATGGATATGAGTTTGTAAATGATAAAGATGTAACGGATAGGGAAGATGGAAAGATATTGTATAGTAGGAAAGAATTTAGGAGCGAGGAAGAATTAATAGAAAATGTTAAAAGGCATGAAAGGCTGTATAATAATACGGCAAAGACAGTGCTTAATTTTAAGAGTCCAAATGAGGTTGTGAGGGAATAGAGGCTTAAAAGGGCAAAAAAAGCCAAATTTACCCCAATCTCACTTCACACACTCTAACAATCAATTAAACACTAAACATTAAACAACACTTAACTAAACTAAACACTTAATTAAACACTTAGACAATTAAATAACTCTAACTTATATTAAATTTATTTCTTATTATGTAACATATGTATTGACAATTAAGAATCTTTTGGTTCATGAATGTTTTTATATCTTGCTATATCCATTAAACTTATATAGTCATTTTTAAAGTCTTCAGTATAAATTTGAATTTCAAACCTCTTTACTTCAGAAATATTTTCCCTCATACTTTAATATTCCTTACAACTAAAATTATATACTTTTAAATACAAAAGTCAATTATAAAATATCTACCACTCTTCAAATATTAAAAACTTTTTCCTATAATAATATTATTGCTTTTACCTTAATTATATCTATTTGAGTAAATATCATTTACAAAAGTATTAAATTTATCTAATATTAACACTATATATTTTTGAACATGTAATGGGGGATTGAAATTTTTATTTCTAAAACTTTATTAATATCTGGATGTTTTATTCATGAATCTCTATAAAAACTAGAAATTAAATCTATTTTATTTGATAAAGTGTAGTACAAAAACTTATTGTCTAGTTTTTTAGTTGCTATCCTATTATATCCTGTAATAAATTTATCTTTAAAATACTGTACAATAGGATTTCATACCCATGGTATATAAACAACTTTACACATACTAATATTATTCTTTACATCTTCTTCATCAGCATATAATTCAGTTTTATTTATAGTAAGTATTTTAATAGTTCCATTTATTGAAGATAATGATTTTAAATCATTTGAAAAATAATAATAGTATTTATTAATTTTATTTTGTTTAAATTTTTCAATCCCAACAAATTTTTTATCACATATAGCTCCTTCCCATAAATTCTTCTATTCAATTTTTTCATTCTTTATTAGGTTGATTATTCTCCTACAATATTCATCTAATATTATTTTTCTCCCTCTATATTAATGGAGCAAATATCTTCATTAATTTACCTATTAATTTTCTTAATAATTTATCTTCTTTTAAATCTCTATTAGTAAATATTTGTGATTTCTTAAATGTTTCAATAAAGTCATTTTTAATATCTTTAATTGCATCAACATTATACATATATACTGCATTTTCAAAATGATGATAAAGACTTCTATAATCTAAGTTAATTGTTCCAACTACGGCTTTAATATCATCTGATACAAACATCTTACCATGAACAAATCCTGGAGTATATTCATACACTTTAACTCCTGAATCTATAAGTTCAGAATAATGATTATGTGCTAATGCAAAAGGCATTTCCTTATCTGCTATATGTGGTAGTATTATTTTAACATCTACACCCTTAATAGCTGCAAGTTTTATAGCTGCAAGCATTTCATTATCTATGATTAAATAAGGTGTCATAATATATACATATTCTTTTGCATTGTTTAATATATCTATATATATATTTTGACCTAAAAGTTCATCATCAAATGGTTCATCACCATATGCAATTATATATCCATCATTTTTAATATCATGTGAAACATTAACATATTTAGAATAATCATTACTTCCATAATCAAAAATATTCCAAGATTGTAAAAACATTAAAGTTAATGGTTTAACCCCATCTCCCATTATTCTTATGCCTGTGTCTTTCCAATGACCGAATTTAGAAACTTCATTAATATACTCATCTGCTAAATTAACTCCTCCTGTAAATGCGATTTCTCCATCTATAACCATGATTTTTCTATGATTTCTATTGTTATAATGTGTTGAAACAAAAGGCTTTACTGGTGAAAATGCCTGTGCTTTAATCCCATCTATCATTAATTCCCTTGGATAATCCCTATCCAAAGTAGAATATTCACAAGTTCCATCATACATTACTCTAACTTCTACTCCTTCTAATACTTTTTGTTTAAGTATTTCAAGTATAGAATCCCACATTTTACCATGCTCTATTATAAAGTACTCTAAAAATATGAATTTAGTCGCATTCTTTAAAGCTATTAACATATCAAAAAACATATATTCACCTAGAGAATAATACTTAATTTCACTATCTTGATATATATTATATCCCCCTGTTTTTTTAATATATTTTGCTATATTTCTAAGTTCAAATAATTTATTTTCTCTAAGGTTATTAATTATTTCCTGTTTTTGTACTAAAACATTTTTTGTCTGATTTTGTATTTCAACTATCCTATTTTTCATCATTCTACTTCCAAAATCAAATTTAATAAACCAATATAGACAAATTCCAAAAAAAGGAACTAATAATATTAATATTATCCAAACTAATTTAACATTAGAATTTTGTCTATTATTTATTAAATAAATTATCATAACAAAACTAGTTAATCTTCCTCCTCCAATTAACAAGTAAACATTATTTCCAAGCCAAATTATTGAAGCTAGAATTAATGCAATTTCTATTAATAATAATACTGTAACTATCAAAGTTCTACTAAAAATCAATTTTACAATACTTTTTTTACTTTTTTCTTTTATCTTAGACATATTCCTCTCCTTTTCCTTCTATTATATCAAATAATATACCTTTTTAATAGAAGAAGGTCATATTTTACAAGTTTTACAGAAAAAATGATAAAAAAAGGGTAACAAAACTAGAAAGCATCAACCTTCTAGCGTTTGTTACCTTGAAATATTTGATAGTGTAAATCTCATATTCTTTTTTAAGATTTCCACATCCTGTGCCTTTAATTCATTTTCTATACCTAATACATCTAAAACTATCTTTATGTTATCATTCTTATTCTTTTTAAATACACAATAATTATCAACATTTATACATTTAAATTCTCTTAATGCTTCCTGTATCTTTTGAGAACTCATATCCTCTTTTATTATATTTTGCAATAATCTCATCATTATTAATGATATAAAGTTTATTAGAAAATCTGCATTAATGTGTTCTTCTTCTATTTCTAAAATTTTAAAGAAATCATCTATCTTAGTTAATCCCTTATATGTTTCTAACATTTCTTCATCTGATAGTTCTAAGCGTGATGTAGAAATGTAATAACCATTTAAGGTATTTTCTTTATTATTCTGAATATCAACTATCTTAGACTTAAACTTAAAATTTTTACCCTCATTATATGAGTAATCAGTATCATCTAATATCCATTATTTTATTTCATTTTCTGCACTTTTTATTCTCTCTACAAACAAGTAATCATTATTTAATTTATACTTATTAATATTTCAAGAAAAATCCTCATATCTAATAGGTATTAAATTTTCATCTAAAAATATTCTTATAGTTTTATCATAATAATTAATTACATAACAATATGTTAAAGGAGTATTTCTATTTGTATATTTTTCTATACTTGAATTAATAGTACTAATAATAGCTCCTTGTTTTTTTATCTAATACATCTAATGCCTTATATATTTCATATGAGTTATTAGAAGAAGTAATAAAAAAAAGAAAATCATCTTTTTGTTCAAAAGATTTAATCTTACTATCTGGATTAAGAAATCTAGTGAAAACAAGAAGTCTAATTAATCCTAAAACATCATAGTTAATATCTTTCCTAGATTTTTCTAAAGTAATTACTTTAGAAATACCAAGTAAGTTAAAAAGATTATTAAGAATTAGATAACCTACATTTTTTCTGAATAATTATTTAGTTCTTCTAAAGATACTTTATTAAATATTTTATCATCTTGAATATATTTTTATAATTCAGGTATTAATGCAATACCTCTTTTAAAATTATCTCTTAATTTTTCAAAGAAGTTAGGATCACCATTATCATAATTAGATATATTACCAAGAGAGGCTACTAGATCTTTTTTAGCTTTCTTAACACCATTTTTAACAAGCATAAGGTAAATATTATTACCAACTTTTCTTTTTTCTAAGAACATAACTCCTCCATTGTATCTATTATGACTATTAAACCTAAATTAAACTGTGTACTTTTCTACTCCCACTCTTCTTTTTCTAATGTTCACTATATCCAAAACCGTTCAAAATAAAGGTTTTTCGTTTATTGTGTGCTGGGAAATTCGTTCAATTTAATCTCGTTTTTAGATTTTTTACCCGTCCCAGTCCCAGTTCCAGCATTACTTGGATAAACTCAATTTACAAATCTCATATACCTAACTTTCAAAGGGATTAAATATACCTGCTACTATGAATTTCTATCGTGTCTAACACCATTATTCAATGTACCATTTTTCTGATATTTTTGCATTATCACTATCTGTTGTAGGATTCGCTTGAGCAAATTTAGTTAATGTCGGAAGATTTATTGCACTACCAAAAACCAATGCATTTCCTGTCTGAAGATAAGTAAGCCTTTCTATCATATTCTGATTTATGTATGGAACCATTCTAGATATATATTGCAAATCATCCGGGTTTTGTACACGATGAACAATAAAATTACTACACTGTGATACTACTGTTTTAGACAATTCACTTGGTCTTTGAGATGATATTCCCAAAAGCATTCCAAATTTGCGACCTTCTTTAGCAATTCTTTCAAAAATATTATATCCAACCGCTCCATAATTTGCTTCGTTTTTTATGAATCTATGTGCTTCTTCGATTATAAAATTTATCGGTGAATCTGCTTTTATTTCTCTTCTCTTCAAATAATCTAATAAAAGTTTAGCCAAAACTTTTGTTACAACCTCTGCTGAAGCATCGTCCAGTGTGCTAATATCAAGATCCACTATTTGGTTTTCACCCAATAACATATCTATATAATCATCAATAGTATTATATGTTGTTCTCGAGAGAATGCGTCCTTGGATTCCTTCCTGAATGGTATTCAATCGGGTCATTAAAGTTGCAGTATATTCTTGTATTCTCTGTGAACTAATACTCCCTTCATACAGAGTCGCAAACTCAACCGCTTGGCTAAAATCTTCTAAACTATACGGAACCATTGATCGTGTGATATTTTCTGTTATTAATTCTTGATTTAGATGATTAGATAAAAATGAAATAACAGCTTCCTCATCGGGCATTGAACCATAATTTATATTCATGGATTGCCTTAATGTTTTAGAATTCGATAAAACTGAATCCATTTTAATTTCATTAGTTCCAAATTTTGTTACTATAGCTTTAAGTTTATCCGACTTAGATGGAGAAGAATCTGAACTCTGAATAATACCCAGTAATGTGGATGCAAGAATGTGGTTCCGTAGTTCCTGATTAGTTTCATCAGAACTATAAAATACTCGTGCAATGTCTATCGCTCTTTTTAATACAGGCATTTGCGTTTTTTCAGAAGCATGTAGTAATGTTGCCCAATCGTCTGCTGATAACGCCCAAACTGGTATTTCGAACTTTGAATCAATATCTTCATCTGCAATCATTAGAGAATGTTTAATATCTTGATTAATTTCATTTAACTTCGAAAAAGCCTTGTTATATTCACCATTAGAATCAATTATTACAAATTTCGCCCCTTTAGCCGAATAATGATCTTTAACAAAAACATTCTGTAAAATTCTAGCTACAGTATTAGACTTACCTGCCCCAGTATTTCCAAAAACAGCAAAATGAAACCCAAAGAACTTATCAATATTTATTTTAACATCGTAATCCGGAAATATTACTGATTTCCCTATTGTAAGCAAAATCGCTCGAGTTTTATTAGACTCTTCAGAAATCTTTATTTCTTCTTTACCAACTTCAAGCATAGTAATCAATTCCTTTTGTGAAACAATATAAACAGTTGAGAAAATCAATGGCATTTTTGATACTCCAAATTGGAATTTATCCTCAACTATTTCTCCAATCAAATTTAAGTAAACCTGCCTTTTACTATTTGGTTTGATCATTTCCCTTGAATTAATTAACTGAGTCTTCTCATCTACTCCAATTATTTCTGCTATAACAGTTCTTCCTATCTCATAAATTGATACATATGATCCAACCTCTCCGACAAAAAGGATTCCATCAATTGTATTTATATAGTTTCCTAAATCAGAATTTACATCAGCTATTACTCCATGAATGCCTACTGAAGTAATCTTCCCTATTTCACGACTACTCATGTTTCACACCCTCAAATGCTTTTATCAATTCAGTAACAACAGGTAAATCTATTTGCTCTTTAACATCAGCTTGAACATCTGGCATAGCCTTCTCTACAAAATTTTTAAAATAGTGAATCTTGTCTTGTGAATTAATAACTATAATACGTGAATCATCCATTTCAATTAATCTTGAAATAGAATCACTCTGCCCAAATATAACAAGCTTAAATGTTGGAATAGCTAAAGAATTCAAAATTATTCGATTAATATGATCATCTGCAAAACTATATCCTAATGTTATTAAAACGCTATTCTTTTTAAGCAAAGCAGTTTCCATTGCTCTAAATAAATCAGAGTATGGAGTCATCAAAGTAGTTCTGTCTTTTAATGGAGTAGGATAAATCATAACCGTGTCATCTTCACTTATATGTTTATAATCTATTTCATTTATGTTATTTTCATTTTTAACCCAAGAAATAGAACCATGTATTTTATATAAATTGTAGAAGTTAGGGACTCTTTCCCATATGTTATTGGATAAATTCATATCCTCTACATACGCATACTTATAACTAGCTGGATTAAATGACCTTTTGTAAGTACCAATAAACCCGTTGTTATACGGAAATGATAGAGAGTCCAAGGCTTGTTCATTATATAAATCATAATTAGTTGTAAAAATATTTATCGGATGCTTTCTTCCATGTGTGACAGTTTTTATATAAAAATTACGATAAAAGCTTAATACTTCCTTTCCATGCAGTCCTTCAATAATCTTATTCCTAATATATTTCTGTACACTGCAAATTTTTTCTTCTATATCATTATCAGTTTGTTTCACTATTGCAGCAACAGCAATTGCCTCCATTGTTTCAAGCATTTTCTCTAAATTTCCATCAAAAATTGATTCTGCATCACTTCCAGCAATGTCAAATCCTCTGTGTTGTTCAAAAAAGCCCTTATATAAATTAGCCATACCTGGTATTCCGTATTCCACATCGTTTTCGACATGACTAGAACAACCCGCTCCCAATAAAAAATTCAAATTATCCAGTTGTAAAAATTGAGCCATTTCATTTTTAACATAATCAAGATCAACTTTTGTTTCATTTTTTCCTTTGAAATATGAAATATTCTTTTCGCCTTCCATCATTTTCTCCTCCAACTTATCACATACTTATCGTAAAGTTTAAAACTTCTCCTCAAGCAACACCCAGCTATTATCATTCATATCATCCATATACTCTGTGTTATTTAGATATAACTCATCATTTTTGTCTCTGACAAACCCAAAGCTATAGTTATGTTTATTCGCAAATTGTTTAAACACTTCAAACTTATTTTCTATCTGAACATCAATATTTTTGCTCTGCCCCTGTTTTTCTCCACCCTTTGTTTCAATTAGCCAGATTGTTTCATCTTTAAGCTGCACAATATAATCAGGATAGAATAGTCTTTGTTTATCAAAATTTGTACCATATACGATGGATAAATATTGCTGTCCACTGTCGCCATTTTTATAAACATATTTCACATTTTCATTCTTTTCACAATACTTCTCAAACAGCCTTTCCGATGTAGAACGAAAATCATCCGTAATCATAGAAGTGTTATAACCCTTATACACATTGCTTTCCAGCTCTTTTACATATCTTTCAAAAGGAACGCACCTATAATGTTCTTCCTCTGGAATTTTAAATTCTTCCGTCTTATTCTCAAGGAACACGAGCTGATCCTGTCTTTGTCCTGAAAATTCAATAAAATCCCTTTTCAAAAAATCTGCATTATTGATAATAAAGGCATAATACTCTCTCAAAGTCAGATTCAAAAGCTTATACCTATTATTCCCAAAACCTTTCAAAAACAATGTTTTCAAAATCTGACTGGTTTTGTTATATGCGAGCCCCACATGTTTCTTTATAGCATCAACATTATGCTGAAGTTCAATACCATGAGTATGGGTATTAGCTTCGATTGACATCGCATTATAATTAGCCTCTTCTTCTCTTACTTCCATTAAAGTTATATATTTGCCGGTTAAATATCGTCTTGAAAGTGCTGTTCCAAAAATAAATCCGTTATTTTCCAATAGTTTGATATTATCAGCTTTTGTATTGGAAAGATGATACTTATTCTTAAAAAACTCATAAACTCTGTTTCTAATGGCTTGCTCATCGATGTAGCTGCCGTCAAGATTCCTTGTTTCTTTAACAAGTTTTATCTTCTTAGGCTCTTCTTTTAGAAATACTCTCTGCGTTTCAAAACCGTTACCGGCTTTTATTACTTCCAGTTTATATTTTTCATCAAAAGTATAAAGATATGAGCAATCCAAAATCTCCCTACCATAGTGTTTTGCCTTAGGCATTCTTCTAAGTCTGCCCAGCGTTTGAATCTCAAAAGTTTCACTCATATTTTCACGAAGCTTAACGAGTATCTTTGCTCGTGGGCAGTCCCACCCTGTTGCAAGAGCTTGTTTGAACAACAAAAACACGGGCGTAGCATTTGATTTTGTGATGCTATCCGCATCTGTTGTTCCGATATTTATTTTCCCTAATTTTTTGGATTTCCTATTTTTTTCTTCTTTGTTTTCTGCCGAAAACCAGCTTGCAAGAAGCTTGTTTTCATAAGAATAGCCCATTAAATTCAGCTTTTCTTCCACGTGCTCTATTAGGTCATCATTCAAATTAGGAAATTGAACTAACACAAGTGGTCTTATATCTTCTTTTTCATCAATATAGGCTCGAGAAATTTTCTTTCTAACTTCATCAGCCTTCTCTAACAGAATATCAGTTTCATGTAATATGTTTTCAACGTGGGCGGTATCAAGTCCATCATTGATATACATAAATCTTGTAGTAAGTCCTTCGTTTATTACATCAATCTCGGGGATTTCATAAAATTCCCCAACCACCCTTTTATTCGGTGTTGCCGATACACGAATTTCATATTTTGCATTGATGCTTGAGATAATATCCTCTGCTTTTGAAGTATTATTCTGATGTTCTTCATCAATGATGACAATAAAATTTAAGTTGCGATTATGGGCTTCACTAATTCGTTCAAACAGATTTTTCCTTTCGCTATCTCTTATGGCGGTATTATCTTTTTTTGTAATCGTCTCCCAGTTAATAAAGTAGGTAGTCGCACTTTCAAATCCCGTATTCAAAATATCAAATACATTGCCGGTCTTTAGAGTCGGAGCAAAGCGTTCCATCTTTTCTTTCGATTGCTCTTCCAGTTCTCCCTTTCCTGGACAAAACCAACAAACTACACTATCTCTATGGAAATCAAGATATTTTTCAATATAGGCTACCAAAATAATCGTCTTGCCGGAGCCTGTCGGACTCTGCATCACAATCTTAGGTTTGGAATTGCTGTCAGTCGTTTTGCTAAACAAGAAGTCAACGGCATTTTCTTGAAAATTTTTAAGTTTAATATCTATCATAGCTCGCCAACCTCCTTTAGCTCCTCTCTGAAATAGTATTCCGGAATTTCAATGATACCGACTCCCTTTTCTTCAAGTATTCTTTGATTACTCCGTGATAGGAATATGCCCGAACGCACAAATAATTTTCCATAATTTTCAATTTTGGATATACTCACATCTAATTCATCTTCATCATTAAGGACGATATATTTTTCACCATCAAGCTCGATAGCATATTCTAGCTCAATCAACTCTCTAATATGCTCCATCATCTTATCGGATATACTATCTTCTTCATCAGAAAACTTTGGAATAAATTCCGTCTTATAGTATTTCAGATTATGTGGTAAATCCTCTTGAATATTCTTGAGTCTCTGATAAGTCACTTCCTCGCAAATATTATTTTCATTATTCGTACAAAGAATATATTTGCGATTACCTCCATCTTCTTTGTTAAGCTGCATTACTGCATGACCTGTAGTACCAGACCCTGCAAAGAAGTCGAGAACAATAACCTCTTTATTATTTATAGTCGACAAAAGCGTTTTTAAATATTTAATAGATTTTGGATAATTAAATATTTTCTTTCCAAAAATATTTTTCAGTTCACTATCTCCATCGGTTGTCCCTCCAAAATCCATTGTCATACTTCTTGGAGTTTTGCCATCCATATTTAGATATTGTTTAAATTGAACACTCCACTGTCCATTTTTCTTTTTCAAAAGTCTAATTTTCCCTTCCGCATATTCCTTATCAAATCGTTCCTTTGATCTAATCCATCCATTATTTATAACGCTCCCATCTGGTGCAACAATGTCATAAATAATCGGATTTTTTAACCCTGGTCGTGCAAATGTATCCCAAAAATATTTTCCATCGCTGTCTTCTTCTTTGTACCTTTTTAAATATTCTGCATTATGCTTAATATTCATTGGTCTAGTTGCGTTGATATTTTTAGCATAACATTTACAGTATTCATGCTCTTTAACAATAAATTTACTATCATTCCCACCACCAACTTTTGATTGCTTTATATACTCGCCTATAAAATTATCCTCGCCAAACACACTATCACACAGCAATCTCAGTTGAGCTTGTTCATTATCATCGATACTTATAAATATAACACCCTCATCACTTAAAAGTTCTCTTGCAATTAGTAATCTTTTCTCCATAAAAGAAAGCCATTTGCTATGAGAATATCCATCGGTTTTATCTACAAAACAGTCATCATAAATAAAATCTTTATTCCCCGTATTATACGGCGGATCTATATAGATAACATCAATCTTGCCCTTATGCGTTTTCTCTAAAAGTTTCAAGGAATGAAGATTATCTCCCTCAAGCAAAAAGTTATATGCTTCATCTTCATTTGCTGTAATTTTTCTCGTCTCATCTTCTATAAAGATTGGGATATTATGTTCCAGCATTTCATCAACTTTTTCAGAGTGTTCTTCCCATACAAGTCCATATTTCTTTTCATTAAGGGCATTTTCAATCTCCGTTATAGCACGGATATTTTCATCATCGTTATTGATTCCTTTTAATTTTTCAAGATATTCAAGCATTTTTTCACGCCTGATTTTGGATAAATTTGCCATATTCTACCTCACTTTATTAATCAGACTCTTAATCAAGTCCTTATCTTCTATCTTTGTAATGCCAAAGCTCTTTTTTCCTGCGTCTTTTATAGACGCACCAATATGATAAACTTCTGCTTCATCTACGATTAAAAATCTATCGTGAAAATCCTTAGTAGTTTTAACCGATAGCTTTGGATATTGAGCGTTGAATTTCGTTATATCTTTTGTTGATAAGCTCCTTTTCCTGCTGTAGCAATAACAACATTCACACCCTGATTTTTCTTACATAGAATATTTAAGGTATTGATATCGACATAGTTGTCAATCAAAATTATTTCTTTATTAGCCTTTTTAACAAGACCTACAATAAAGCTGAAGGCATCATATATTTGTCCGTCAAAAAAGATATTTTGTTTTACTTCAGTGTTCGCTCCTATATAGTTAAACACTTCTTCTAACTTTTTATCCGTTTCTAATTGTTTAAGCTCTACTCTATCAAGACGAGCAAACATTTCTCTATTAGAAAGTAAAAAGTTTCTAATTTCCATAAAAGCATCCATAATTTTTATACTAACATCTACTGCAATATCGCTTTTAAGCACAGTTGAAAGCATAGCTATTCCTTGCTCAGTGAAAACATATGGTGAGGTTCTCCTTCCACCACGTCCTTTCTTTGGTATCGCATTTTACGATATCAAAGACTTATATTCATCGTCTGTTAATTGAAACATAAAGCGAGATGGAAATCTATTTAGATTTCTTTTTACTTGTTCATTCAAACGTCCTGTCGTAACCTGATATAATTCTGCAAGATCACTATCGACCATTACTTGCTTACCTCTAATGGTATAAATCATGTTCTGTATTTCTCTATTTTGAGCAATGACGATATTTTTATCTTCTATCATAAATACCTCCATCTTTTAAAACTTGAGATTCCATTTTGCCACCTCAAATTTTGTTTATTTCTTTTGTTCTATAATCGAAACCATATCACCAAAATCAACACCTAATTTAGTTCCGATACGATATAAAACATCCATGCTGACAAACTCTCCTCTGCCCATTTTAGATATGGTTGCAGGAGATAATTCGCAAGCATTCGCCAAGTCTTTTTTGTTCATATTTTTATCTATCAAAATTTTCCACAATCCATTATAACTGACTTTCATATTTTTACTCCTTAATTACAAGTTTATGAAGTTGTTTTATATATTATAACATTTACATCATCGTTTTGTAAGAGGAGAATTTCGAAAGTTTTTATTTTTGTACTTAGGAGATTATTTCTTCCTTTTCAGCAACAATGAATGTATTACACCTTGCTCTTTTGAGAACTTTTCGATAGATTTTTTCATATCATCAATATCATTTTCATAAATTACTCCTGTTTGATTTACTCTCTTGGCAATCTGATTTAATTTATTTGTGGCAGCGAATAATGTTATGTATAAATCTCTCAAGCTAAATGCTTTCTCAGTAAAGAACAAGATCTTCATCAACAAATCAAAAATGTGAATTTATTTAATTTAAGACTATCCGACATAGGAAATACTACATTGCATATTAGTCCACCACCATATTATGAAATTGCAAATTAAGCTTTTTCTGTTTTGGAATTATTTAAGTAATATGTCAGTTTAGCAAGCACCAGTTTTCCCAAACAATATTTGCCTGGAATACCCATTTCCAGATAAACACAAAAAGACCGTAACACTCACACTACGGTCTAATTTTTTGTATTCATTTATAAAGCTACTTGAAGCTATTACTCAATTTATTATTTTTAAAATCTTTACCCAAATTTGTCCCAGTTGCTTATTTCAATGTGCTATAAAGCTTGAAAATAAGCCTTTTTCAGTAAAATATCTGTCACTCCCACTCTATAGTACTTGCTGGTTTAGATGAAATATCATAAACAACCCTGTTAATTCCATTTACTTGATTTACTATCATGTTTGATACTTTTTCTAAAAATTCATATGGTAGTTTTGACCAAGTAGCTGTCATGAAATCTATAGTATCTACAGATCTTATAGCCGCTACATATTCATATGTTCTAACATCTCCCATTACACCAACTGTTTTAACTGGAAGTAATGTTACAAATGCTTGTGATACACTATGATATAGCCCATCTTTCATTAATTCATTAATAAATATTTCATCTGCTTCTTGTAATATATTAACTTTTTCTTTTGTAACCTCTCCTATAACCCTAATTCCTAATCCTGGTCCTGGAAATGGGTGTCTATTAACAATACTTTCTGGCATTCCCATTTCTTTTCCAACTTGTCTTACTTCATCTTTAAATAATTCTCTTAAAGGTTCTAGTAACTTAAATGTCATTTCTTCTGGAAGTCCCCCAACATTATGGTGTGATTTAATAGTATGTGAAACTCCTTCTACTGCTTGAGATTCAATAACATCAGGATAAATAGTTCCTTGAGCTAAAAATTCTACATCTTTTCCACCTTTAAGCTTAGCTGCCTCTTCATTAAATACTTCAACAAATTCCTTACCTATTATTTTTCTCTTAGCTTCTGGTTCATCTACTCCTTTTAATTTTGATAAAAATCTATCTCCAGCATCAACCTTAACAATATTTAAATTAAAATTAGATTTGTAATAATCATATACTCTATTTGCTTCATCATATCTTAAAAGTCCTGTATCAACAAAAACACAAATTAAATTATCTCCTATAGCCTTATTAATCAATACTGCTGCAACCGATGAATCTACACCACCAGAAAGTCCAAGCATTACTTTTTTATCTCCTACAGTTTCTTTAATTTGCTTTATTTTTTCTTCTATAAAATTAGTTATTATGAAATTCTTTTCTGCTTTACAAATATTAAAGATAAAATTTTCTATCATTTTTTTACCAAATTCAGAATGAGATACTTCTGGATGGAATTGTAAACCATATACATTATTGTTGTTAGCTATAGCTGCAATAGATGAATCTGTTTTAGCTATTACTCTAAATCCTTTAGCTATTTCAGTAATATGATCATTATGACTCATCCATATATTTACTTCCTTAGGTACATCTATAAATAGAGGGTTTTCTTTTTCCATTACTTGTAATAATGCTCTACCAAATTCTCTTTCTTGTGCTGCTTCTACCTTCCCACCATTTAAGTGAGTAATTAATTGTAACCCATAACATATTCCAAGTATTGGTATACCTAGATCAAATATTTTTTTATCTATAGTTGGTGAATTTTCTAAATATACTGAACTTGGTCCTCCTGAAAATATTATCCCTATAACATCTTCTAAATTATTAAAATCAAATTCTCTCACCATCTCACAGTATACTTCCATCTCTCTTATTCTTCTTGCAATAATTTGAGAATATTGTGATCCAAAATCAATAACAATAATTTTTTTTCTTTTTAACATGTTTCTTCTCCTCTTCTTTTTATCTTTAATAAAGTTACATCATCATTAAAAGGTTTTTTACCAACAAAATCTTTTAAATCTTGTATTATCATATTTAAATCTAATTTTTTTACCTGTGATTTAAGTCTTTCTAAACCATAATAATTACCATTATCATCTATCTCTTCTGTTATACCATCTGTGTAAAGTAATATTTTATCTCCTACATTAAAATCTATTTCTTTTTCTTCAAATGATAATATAGGGAAGAGTTTTTTTGAAAATAGCCCTAATATCTGACCTTCACTTTCAAGTTCTATTACTTCATCTTTTTCCTTATTATACATTAGAGCTGGTTCTTGAGAAGCCTTAGCGTACCTTAATCTATTAGTTTTTGTGTTTATAACTAAATAAAACATAGATACAAACTTACCTTTAGGAAAAATATTTATTATTTCTTCATTTAATATTTCCATAAGTTCTGTAACTTTATCAACCTTTTTCGCATTATTATATATCAACACTTTAAGCATAGTTGATAGAAGTGATGCTGGTATACCATGACCTGATATATCTGCAAATACTATAGCAAATTCTTCATCATTTAATTCTATAAAATCACAAAAATCTCCACCTATATTCATGCTTGGTTCAAAAAAATATTCACATGTATATTCTCCAAAATCTATTTTTTTAGGTGGCATAAGTGATTTTTGTATATCTCCTGCAAGCTTTAATTCTTCACTTACCTCATTATATAGTTTTCTAATTTCCTTTTCTCTATTAAAAACTTCTGATACAAGCCTATCATTTTCTTTTTTTAATTCTGCTGCTGTAGCAAGACTTTTTATAGTCCCTACTAAACTTTTAATATCAACAGGTCTTTTAACAACTCTATTAACACCATATTTCATAGTATTTAAAGCATTATCTATGTCTGTTTCAAAAGTTATCAATATTACCATAGAATTAGGATTTTCTTTTTTTATCTTCTTTATTTCCTCTATTTTTTCTTCTTGATAACTAGAAAAATCTATAATATATATGCTATTTGATCTACTATCATGCTTTTTATTTAAGAAATTAAAACTATTCCTATCTTTTATACCAAATCCGTTTTTTATTAATTCATCTTTAAGAAGATTTTTAACATTATTATTATCATCATATATTTTTACTTCATATCCTGCAAAAATTTTAAGTTCATTATATTCTTCTATAGAATCAAAAATTTTAAAATATCTCTTTGATTCAAATAAATTAATATCTTCTATTATATTCTTATTCTTAATAATGAAAAAGATTTCAAAATCATTTTTAATAGAACATCTAAATAATTTAAGCATATAGCTTAAAAATTTTGGATCTATAATTACATCTTTAATATGAAAAAGAATTTTTTTCTTAATTTTTGAGGCTTTAATTAAATCTTCATAGCTCTGTTCAATAGATGTAAAATACACAATTTCATATTCTCTATCTCCTAAAAAGCAAAATTCATTCATAGCTGCTCCAAATCATTACTTGTATTTTTTACTATTTATTTAAAAAATTTGCACCATCAAGTGTTATACAATTATCATTTGAAAATATTTTATTAACATATTTCCATTTGTCCCTGTAACCTCTAATAGTGCAATTATACTATTTTATTATTATTAATCTTATTATCCTATTTATATGTTAGAATAAACATTTTTTAGATAAAGTAGTTTAACCCTATATATTACACACCATTATTGATTATATATATCACCATTTTCATAACTATTCCCTTTATCTATATCAACTAATACTAACATTTAAATTAATTTTTGTCAAAAATTTTTTTAATATGAAAGGCAACTAAATAATAGCTGCCTTATGTAGTCTTAATTAATTTTACTCATTTCCTCTTTAATTCTTTTAGATGACATAGCTCCAATTATTACTTTTGCTATATTTCCTCTACTATCAAGAAATACATTAGTAGGATATACTCTTAATCTAGCTCTTTTAATTAACTCTCCCTTATCATCCATTAATGTTGTAAGTTCTGTCCACCCAGTATCTTTAAACCATTTTTTAAAATCATTTTCTTTTAACTCTCCATTTCTACCAGGAGATACAACTGAAATTACATTAAATCCTAAATTTTTCTCTTTAGAAAGTTCTACTGTATGTGGCATAGTAGCAAGACATATATGACACCATGATGCCCACATCTTAATATATGTTTTCCCTTTATAATCACTAATTTTTTTAACCTGTCCTGCTTGATCTTTAAATGAAATGTAATCTAAACTTCCTGAAAATGAAAATGTTGTAGATAACATTAATAAAAACATTGCTAATATTTTTTTCATATACTCCTCCATCATTTTATATTTATTTTCAACAAATAGCTTACATACTTAGTTTGTTGAAATAAGAAACTATTATTGTAAGTTTATCAAAAATTAATAATAATCCCATTAATATTATTAATACTGCACTAATCTTTTTAATTACATTCAAGTTTTTCTTAATAAATTCAACCTTCTTAATTAGTTTATTATAGAACATAGTAAAAATTAAAAAAGGTGTAGAAAAACCTAATACAAATATTAATAAAAGCACAGCTCCTTGAACAGCGGTTTCTCTATCTCCAGAAAGAAAAAGAACTGCACCTAATATTGGTCCTATACATGGTGTCCAACCTAATGAAAACGTAGCACCTAGCATAAATGATTCTAATCCAGAATTATTATATTTTCTATTTATCTGTAGTGTTTTAGTTTTTTCTAAAAATGCTAAATCAAATATTCCTAATTGTTGCAATCCTAGTATTATGATTATAATACCAGCGATTATTCTAATTAAAGGATTAAATAATATATCTGATAAAAGTCCAAATCCAAATCCTAAAATAACAAAAGTTAATGATATCCCTAATAAAAACAGGGCTGTATTTCTAATTTTTTTATTATCTTTTTCAAGCACTCCAAAATATATAGGGATTAGTGGAAATATACATGGTGAAAAAAACATTAATACTCCACTTAAAAATATCGTAATTATTGATAAATCAAACATTTTACATCTCTCTTTCCTATTTTTGTTATACAAATATTATACTTTTATTTATTTACATTTGTCAAGTATTATTATAAAAAAGAACAAGGTTAATCCCTTGTCCATAAATTTAAATTTATTAAAAAAAATGCAAAAAAAAATGCGATAAACGCATAATAAATGGTTGGGCTGGCTGGATTCGAACCAACGCATCGTGGAGTCAAAGTCCACTGCCTTACCGCTTGGCTACAGCCCATCAAGACAACAATTATTTTACACTAAATAAAAAATATTGTCAAGCATTTTTTTAAATAAATAAAAATAGGCTTTTTAATTATTGTTCCTTTTTCACATCAATTAATTTATCATTTTCATATTCCATCCTGTATACAAAAAACTCTTTTTTATCATCTATTATATCTTTAAGAAAGTATTTATCTCCTTCCCATATATTTAAATCTAATATTTCTTGTTTTGGTATATATTTTAGATCACCTTCATCACAAGTTATGATTTCACCACTAAAATCTTCTGAAGTAAACACATATATGTATTCAGTTATACCATTATACACAAAAATAAGCATACCTCTTAAAATGCACTCATTTAAAATATACCCTGTTTCTTCAGTAACCTCTCTTTTAACAGATTCATGTGGACTTTCACCTAGTTCTATTTTCCCTCCTACACCTATCCATTTACCTTTATTTATATCAACTTCCTTTTTATTCCTATAAAGCATAAGAATTTTATCATCTCTAATTAAATAGCAAACTGTATACGACTTCATTATATCCTCCTTTATAAAGAGTATCACATGAATTAGCATTTTTCAATTATTATATCTATAAATATTGATATTTGTAAATTATTAATGTATAATATTATGTAGCGTAGACTAATATTTTCAGGTGATAATTATGAACAAAATTAAAGTTAAAGTATTAAATGAACAAGGTATACACGCAAGACCATCTACTAAAATATGTGCCATTACTAATAAGTTTTCTGGTAATGTTTTTTTTAGATGTGATGGTGAAAATTATGATGCTAAAAATATTATGACTATTTTGCTAATTGGTTTAGAGAAAGGTAGAGAATTTGAAATAATTGCAGATAGCGGCAATGAAAAAGAAGAAATGGATCTACTTAACTCACTACAAAGACTAATAGAGATAGAACAATTTAATTAAGGAGAACACTAATGAACAACAATTTTATGGAAATGTTAGAAGAATATCTTCCTACTAAAGAACAAAATCTAGGTGATAAAATAGAAGGAACTATAATCAGAAAAGATAACGAATTTGGATATCTTAATATTCAAAACAAATTAGAAGGACGTATAAGAGTTTCTGAAATAGAAGGATTTGAAATAGGAGATAAAGTTAAGGTTCTTGTTGTTAAAGAAAACGATGAATTCTTAATAGTTTCAAAAAATATCTTAGAGAAAAAAGAAGCATTCTCTAATATAAAAAAGGGAGATAAAATTTCTGGTATAATTAAAGAAAAAATAAAGGGAGGATACAAGGTAGAATGTGGGTTAATAAAAGCTTTTCTTCCATTTAGAAGTTCTGGATTAAACCAACAATACATCCCTAATGGTGAACTATTAGAATTTGATGTAACAGAAAAAAATAGAAAAGAAATAGTTATTTCAAGACTTGAAATAATTAAAGAAAACGAAAAAAACTTCTTAAATAAATTAAATCTAGGAGATAAAATCACTGGAACTATTTCTAATAAGTTAGATTATGGAATGATAATAGATCTTGGAACATTATCAGGGTTATTACATAGTAGCGAAATTTCTTGGAATAAAGAAAAAACTCTAAAAGATTTTACTGTTGGAGAAAAAATTGATGTTAAAATAATTGAACTTGATAAAGAAACTAAAAAGATAAAATTAAGTATTAAACAATTAGTTGAAAATCCATGGTTAAAAATTAGAGAAAAATATCATATAGGTCAAAATATAGATGCACCTGTTAAAGAAGTTTTTTCATTCGGTGTTGTAGTTGATTTAGGTGATAGAGAAGATTTAATACATGTTTCAGACCTATATTACAAAAAAATTGGTAATGTAGAAAAAGAATACAAAAAAGGTGATGTAATATTCTGTGAGGTTATTGATATAAATGATGAAAAAGAAAAAATTATTCTAAGTGCTAGAACAGTATTTGAAAAAATTTGGGAAAGCTTGGATGATTTCTGTCTTTTAAATGATATAATAAACATTAAAGTAACTAGAGTTAAAGATTTTGGTTTCTTTGCAAAAACAGATGAAAACTTAGAAATCTTTGTTCCTAAATCAGAATATTCATGGAACAAAGCTGATGATTTAAACATTAAAGTTGGAGATAGCTTAGATGTTAAATTAATTGAAATTAAAAAAGAAGATAAAAATTTAGTTGGAAGTATTAAAAGATTAGGAAAATCTCCATATGATATAGCTTCTTCTAAATTTGATAAAAATACAGAATATGAAGTTGAAATTACTGACATATTAGAAAATGGAGTACTTGTTAGATTAACTGATGATTTTAAAGGATTAATTCCTAAAAAAGAATTATCAAAAGAAGAAATAAAAGATATTAAAGAACACTTTAATGTTGGAGATAAAATTAAAGCTGTAGTATTTGATAAAAATAATAAGAACTCTATCTTACTTTCTATTAAAAAAATAGAAGAGTTAGAAGAAAAAAAAGAATTGGAAGAATTAATGAGAATTTATGGCGCCAATAACTAGGAGGATATGAATGGGTATAAAGTACATTGATGCTAAAAGATTAAGACGCATTCTTATAGGTGGAGCTAAATGGGTAAAAAAACATGAGGACTATTTAAATGAATTAAATGTTTATCCTGTTCCTGATGGAGATACAGGATCAAATATGTCTATGACTTTAGAAACAATGAAAAACGATATAGAAAGTAGTACTGTTAAAAAAAGTTCTATGGTTGAGGTAATAGATGTTATAGAAGAGTCAATTCTTATGGGAGCAAGAGGAAATTCTGGAACTATTTTATCTCAAATTATTACTGGTTTCTTAAAGGGAATAGGTGATAAAAAAAGACTTGAAAGTGCTGACTTAGCCGAAGCTCTACTTAATGCTAAAGAAGTAGCTTATAAGGCTGTGGATACCCCTGTTGAAGGAACAATATTAACTGTTATTAGAGAAGTAAGTGAAAAAGCGATTGAAATCAAAGATGATGTTGAATCACTAGATAAAATGTTAGAAATATTAACAAGTACAGCAGAAGAAGCCGTTAATAAAACACCTGATCTTTTACCTAAATTAAAAGAAGCAGGAGTTGTAGATTCTGGAGCTATGGGTCTTTACTATTTCTTCATTGGTATTAGTAAAGCCTTAACTGAAATTAATGAAATAGTTTCTTATGAAGCTACAGAAAAAACTTTTGATAGTACACTTAGAGATATCACACATGATCCAGCTGAAATTAAATTTAAATACTGTACAGAATTTATAATTAGAAATGCTGATTTTAATATAGATAAATTTAAAGAAGATATTTTAAAATTAGGAGATTCTGCTGTATTTGCACAAACATCTAAAAAATTTAAAATACATGTGCATACAAACAATCCAGGGCAAGCTCTTGAACTTGCTGTTACACATGGAGATCTTGAGAAAATAAAAATAGAAAATATGAAACTACAAAATGAAGGTTTATTAAGTAGCGAAAAAGAACAAACTAAGATATTTGTTAACTCTAAACCAAATTTATCAAGATATTCTTATGTTATATTAGCTGATAGCTTAAATTTAAAAGAAGAATTTTTAACACTGGGAGCAAGTGTTGTATTACTTGGTGGGCAAAGTCAAAATCCAAGTGTACAAGATATTTTAAATGCTATAGCTAAAATAAATAACAATAAACAAATAGTAATATTACCTAATAATAAAAATGTTATTTCAACTGCAAATATTGCTGCTGAAAAAACAGAAAAAAATGTATTAGTTGTACCAACTAAAACTATGATGGAAGGTTACTATTACTTAAATAGCTATTTTGATACATTAGCAAATACTAAATACAATGCAGAATTTAATTATTCTATAGAAATTACAAAAGCAGTAAGAGATACTAATGTAGATGGGTTGACTATAAACAAAGATGACTTTATAGCATTAGTAAACACTAAAATTGCACATGCTAATAAAAGTATTTTAGAATTAATTAAAGAAATAAAAGAAAAGTATATTAACGAAAAAACTATAAATATTACCATAGTTGAAGGTAAAGAAAAATATGATGATGTAAAAGCTTCATTAAATATTCCTAAATCTAAGTTTATAAATGGGGAACAGGAGAATTACAATTACTATATTTATATAGAAAATAGACCTGATAATATGCCAGATATAGCTATAGTTACAGACACTGGTAGTGATTTAGGAGAAGAAGATGTTAAAGGTCTTCCAATATTTATAACTCCTATTAGATTAGAAGCAAATGGAGAGCATTATAAAGATGGTGTTGATATAAGTAAAGATGAATTTTGGAATAAATTAATAAATGAAGATACTCATTTCAAAAGTGCTCAACCTTCACCTAAAGAACTTATGAATCTATATACTCATATACTTAATAGAGGATATAAGAAGATACTAACTTTAAACATTAGTAGTTCTATGAGTGGAACATACAGAACTGTTAAAATGGTTAGAGCTAATTTAAATAAAGAAAATGATATTATTCAAATAGATACACAGCTTGTTTCTTTCCCATTAGGAATATTAGTAAAACAAGCTGCTGAAAAATCTATGCTTAAACATTCTATTTCAGATATTAAGATTTGGGCAGAGAAATTTATTTCTAAAGTTAAGACATTAATAGTTGTAGATGATCTAAAATATCTTGAAAGAGGTGGAAGAATCACTAAAGTTGCTAGATCTATTGGTGATTTCTTAAAATTAAAACCTATACTTACTTTCTCTCAAGGAACTTTAACTGTAGAAAAGAAAGTATTTGGAGAAAATTTAGCTATCTCTTATCTTGAAAAAAGTATACAAGAAGTAGCAAAAAAACATAGTATATATGTGTATTCTGGTTTTGGTGGTAGCTCAAAACAATTAGATAATATCAGTAAAATACTTGAAAGTGTTAAAGGTAACCATAAGATTACTATTGCTGAAAAATCTATACAAATAGGAGCAACAGTAGGAGCACATGCAGGTCCAGTATATGCAATTTGCATGATTCCTAAATTATTATAATGAAAAAATACATTTTAAATGAAAAAGCATTTAGACTAAAAGTATCTCAATATTTACGTGAATTTCATAATTATTCTGGAAGAAGTTTGCGTTCTATTGAGGTATTTTTAGATAATAAACAAATAAGAACTACAACGAAACTACCAAAAATCGGAATACTTACAGTAATAGAAAAAGAAAAAGGAAGTAATATAGTTCCAATTAAAATGAATCTCGATATAGTATATGAAGATGATGATTTATTAATAGTTAATAAAGAACCATATTTACTTACTCATCCTACTTTAAAAAAAGTAGATAAAACACTAGCAAATGGTATAGTTTATCATTTTATAGAAAAGTATAATAAAAATCTTGTACCTAGATTTATTTCTCGTTTAGATATGAATACTTCAGGTTTAATCATGATAGCAAAAAATAGTTTTTCTCAATCATTTATTCAATCTGGAAAAGCAAATGTTACTAAAAAATATTTAGCACTTGCTGAAAATATGTTTGAAAAAGAAGAAATTATAGTTGAAGAAAAAATATATAAAGATGGTGATGAACTGGCAAGAATAATAGATGATAGAGGACAGTATGCTAAAACTAAATTTAAATTAATAAAAAATTATCCTCATCTTGATATTTCTCTTATAGAATGTGAGCTATTTACAGGAAGAACACATCAAATTAGGGTTCATCTTAAACATTTAGGGCATCCTATTATTGGAGATAGTTTATATAACCCAGATTCTATTTTTAATAAAATAGCAAAAAGGCAAATGTTACACTCATACAAACTTTCATTTACTCACCCTAGTAGTGGTAAAAGAATAGATGTAGAAATACCAATTTATCATGATATGTTAGATATATTAAAGATATAAAAGTATTGCACCCAAAATCTTAGATATGAGATTAAAGGTGCAATATAACTTTATTATTATTATTATTATTATTATTTTAAATTAATATTTATAACTAAATTCCATAGCAAGCTTATATTCAACTGGATAAGATCTTATCTTCCTATTTGCTGGATTATATCTGAAATATAATTTAGCAAAAGGACTTCTATCATATTTTTTCTCTACTTCTAAATTTGTTTTGATATCAACTTTTCTATTATATGAGTATTTAATAGAAATATATTGCTTTATTTTAAATTCTTCACCTAATTTCCACTTATTAGCCTCATCAGCTTCTTGAGTTAAATATCCAGTATTTTGAGATAATTCTTTTTTTATATTTTCAGGAATATTAGGTCCAAGCAACATGCTTTTATCTGCTTTTCTTGCAAGTAAGGCAGCATTTAATGTTAAACCTGTCTTAATATTTAATCCATTTTGATTATATAAATAATTAAAATCCATTCCACTATTTAAAATATTTGTTTCATATAAATTCTTATTATTAAAATCATTTCTTTCATATTTATTCTCTAAGTTGAATTTAACTCTATATCCTGCTTTTAAACCTCTTTCATAAGATAAAGTAAGATCATCATTTAATTTAGAATTTCCACTAAAAACATCATTAAAATATTTAATCTTATTAACAGCATTTACCTTATTTCTACCTTTAACATATTCAACTTTACTAACATTATCTATATTATATTTCTTTGTTATAACATTTGAAAAAGTATTAGGTCCATCACTAACAGCCTCCGTTACTACATAGTATTCAAATGGATTTTTCCCATTTGGTGAATACATATAATGGTTAACAATTATATATTTGTTGTTAAGTTTATGTATGCTAGTATCTAAAGTTTTTTGAAATGCTGTGTTGACTATTACATTTCTACGCATGTCAAATATAGCGTTAAAGTTCTTGCCAACATCTGAAGAATTACTGTTAAGATAATAAAAATGTTTTAGCTTATATTTTCTATCACTATTAACTCTTTGATTAAATTCTGTATTGAAAGTAAAATCATTTGATAATGATAATCCTTTAATTCCAAAATCAGATTTTTTTAAATTTAATTTAAAGTCATACTTTTCATTATCATTATATCCATCTAAAATAGCACTATCTAATGGACTATATTTAGCATTATATTTTCTATCATATGATAAAGAAACTTTAAATTGATCTATTTTTTCATGTTCATGATCTAAAATTTCCCAAAAATCATGAACCCTTCTTCTTTCCGTGTTATAATCAAAGTAGGCTGTAACCTTATTTCTATGCACTTTTCTTTCATCTAATAAATTTATTTGTCCCCCATTATACACATCAATACCTATAAAAGTGTCTTTATTTAATCTATATTTTAAATATGAATTAGCTTCTAATATAGCTGGTGTAAATTCTCTTGTAATCAATCTAGGCATTAAAGTAATAGCAATATTGTCATTTATAATTTGAGTAATTCTCCCTTCAAAAATGCTATCGTTTTTTAAATATCTTGATTTTTCTTCATTAAATGATGTTAGATATTTAATATATTTAAGCCCATATTTTTTCTTATTCATTTCTAAACTAAGCTTAGATTGAAAATCATTACTCTCCCTTATATTTCTCTTCTTTTGTGGAGCTTGTATATCCAAGCTTTCTCCTAACAAATCATTATGATCATGGTTGTGATCGTGGTCATGATCATGGTCATGATGATGGTGGTGATGGTGATGATCATCATGTGTATCCTGATTATCATATTTAAATAAAGCTCTTTCAAATAAACCATAATCAGGTGTTCTTTTGTCATAATATGGTTGATACATCATATAACCATTTTTCATATTAATTCGAGGTTTCTCCTTTGACACTGTTTCATGTCTAGTAACCAAATCAGAATAATTAAGATTTTTTCTTTCTCCTTTTATTATTAAATTAGCTTTAAATTCATTATTTAATGATGAAACTGTTAAATTTAAAGGAACATATTCTATCTTTGAAGTTTCAATTTTTGAAAAATTACCTTCATTTTTAATTCCTGCTTTATAAACTATATTTAATTTTTTATTAGAAAAAGAAAAAATACTAAAAATTACTGATAAAATTAAAAACTTTTTCTTCATTCTTTTCTCCTAATCTACTAATTTTATACCTTTTCATCTAATTATATCTGTTAAAAAAATAAAAATCAACTGCTGAAAATGCAGTTTTAATCAGTGTTTCACACAAAAAATACCCATTTATTTTATATTTTATTTAATATAAAAAATTCAGTCTTAATTAGAAAAAAATATGATTAAAAAGAGAAAATTATAATAAAAAAGGTACTCAAACTGAATACCTCCTCTTATATTAATATATGAAAATTAAGGGCTTTTTTAAAGTATTATTCCTTATGTATGTTTACCTCTGGATCTTCTATTTGTATAGTTACATGATCTATTTTATATACCTCTTTTAACATATTAGAAATATTTTTTATTATTTTATAGTCATTAACACCATTATATTCTTTTAAAATAACATGGAATGATAGGCTATGTAAGCCTTCAGATATTGACCACATATGAAATTCATGTATATTTTCTATATTTTCCATATCGAGTATACTATTTCTAATTTTATTTATATCTAATTCTTCTGGTACAGCTTCCATTAATATGTTTAAAGCTTTTCTAATAATCTTTATACCACCTATCATTATAACTATACTTATTATAGAACTTATTATTGGATCTAATAATATTATTCCTGTATATTTAACTAATATACCTGTTATTATTACTCCTATTGAATTTAATAAATCCCCTAAAAAATGCCATAATGCACTTTTAATATTTAAATTATCCTCATATTTTAAACTATTCATAAGTACTAAAGTAAGGACTATATTAATGATTAAACCAATAATAGCTATAGTTATCATTAAATTAAAGTTAATCTCTTGAGGATTAATTATTCTTTTAATAGCTTCATTTATTATTCCAAATGATATTATAACTAATGCAATACCATTTAAAAATGCAGCTATTATCTCAACTCTCAAATATCCATATGTATATCTATCTGTAGGTTTTTTAGTTGAATAATATATAGCAAGCATACTAAATATTAATGCAATTACATCTGATATCATATGAAATGAATCAGAAACTAATGCAAGAGAACCCGATATTATTCCACCAAATAGTTCAAGCATAGCAAATATAGCTGTAAGTAATAAGCTTATCCATAATGTTTTTTTAGATTTATTTTGAATTTTATAATGCTTTGCATGATGATAATTAAATTCAATAATTTTTTTCATTTTTACTCCTCATTTTACTATTAAAAATCTATTTTAACATTCATAAAATACATAGGCTTATATTTATTTGCTTGAATCATATTTAATTCATTAGATATTTCAGCTGTAAATGGTATATTAGAAATATTATTTTTTAAACTATCAACTAAACTTATTTTTCTCTTAGTAAAATGTAGCTTATATTCCTTAATATTTAAATAATCTAATAAAGCCTTTAAGCAATCATCAAATCCACCAATTTTATCTGCAAGACCTATTTCTACAGCCTCATTTCCTAACCATATTTTACCTTGAGCAATTTTTTCTAATCCCTCATCTGTCATGACTCTTGCTGTCATTACATGTTTTTTAAACTCAATATATACATCCCTCATGCTTTGAATTAATTTTTCTCTTAATTCATCAGTAAGAGGTTGTTTTAAATCAAATATTTCTGTTGCAACACCTGAATTTACTGTTTCTATATTTAATCCAACTTTATTACTTATTTCATCAAATGTAGGGTACATACTTACTACACCTATAGAGCCTGTAATTGTACTTGGATTTAAAAATACTTTCTTTGCTACAGTTGAGATATAGTATCCTCCACTTGCAGCCACAGAAGACATAGAAATAAATATAGGTACATCTAAATTTTTAAGTTCCTTATATATTCTTTCAGATTCAAGAGCACTTCCTCCAGGAGAATTTATTCTTAAAATTACTCCTTTAAGATTTTTTATTTCTTGTAAACTCTCTATTTTTTCTAACATATCATCATAAGTAATTATGCTCTCTGATTTATTATTTGGCATTATTGCTCCTTCAGCACATATTACTCCTATTACATTTTTACTCTTATTTTTTACCTTAACTTTTTTAGAAAAAGGTATCAACTCTTCTGTATCTTTAGAATAATCGATTTCTAATTTATCTAAATTAGAAATACCGTCTATTAATCCATATTCTTTAGCCTTAATATGATTAATTAAAACTAAATCTCCATTTAATAATTTTTCTTTAATGTCTACATTTCTTCTATCTTTAATCTCATCGATAAAGTTTTCTAACATCTTATCATAAATTCTAGTGATTGAAGTTCTTTGTTCCTCAGACATCTCTTCTTTATGATAATTTTCCCCTGCTGATTTATAATCTCCGATATGTAACACATTTACTTTAACACCTATTTTATCAAATAATTTTTTAAAATAAATAAACGATCTTGAATATCCTTTTAATAACATAGAAGAATTAAGAGAATTATACATGTATATAGTGTCTGCAAGCATTGCTATTCTATATTTAATATTATCTAAATTAGATGCTAATGCTATAACCTTTTTATTTTTATTCATATCTTTAAATAAATCTTTTAATTCATCAATTTGTACTGCTGTTAATTCCATTTTATCAACATCAAGAATTACTTCTTCTACTGTTTCTGTTTGATTAATCTTTTTAAGTGCTTCTTTAAAATCAAAAAATGAATTTTTTTTATTTAATCCCCCTTCTGGAACATCTTCAAGTAAAGATTCATTAGATATAATAAGTTTTTTTATTTTTTTTAGTTTCAAATCACTTATATTCTTATCTTTCTTTATTTTTGATTTTATTATTAACCCTACAATAATTATTACTAAAGAAAGTATTAAAGCAATAATTATCGCCTGTATTGTATAATATATTAATGTCATTTCTACCTCCTAAGTTAAATTTTAACTTATCTATAAATATTTGTCAAATATATAGTATAAAAAAAAATAGGTCTACAACCTATTTTTAACTGATACTTTCCCTACCGCATTTTCTATTATAATATTTAATTCTGAATTATCATTTATAGATGATAAAAAAATTCTTCCAACTATATTTCTAGTAATTACATTTGCATCTTTTTCTGTATTAATTTCTATTTTACCAACTATATTATATAAATCAATTTTTCCTTTTGAAGGAGCATTTAATTTAATATCTCCAAAAAAATTTTCTAAATTAACATCTAATTTTTCTTTCTCTTTATATCTAATTCTAACTTTTAGACTCTTTATTTTACCTTCTATAATTTCTAAACTTAACTTTCCATTGTCATATAAATAATTTATTTCTCTATCACTTTCAATAAAAATACTATTTTCATCTGCCTTTTCTATAATAATTTTTCCTATAAAATTTTTTATGTCAATATTATTAATACTATCAAAAGTTTTTTCTATTACATATTTATTATCACTATTCAATCTATCATCATTTATATAACTATATTTACTTCTATTTAATAAAAATATACCAATAAGTATAAAAATAAGACCAATAAATATTTTCTTCATAAAATTTCCTCCTTAAAATATTTCTACATTACCAAATATAGAATTTATTTTAATTTTTCTTACAGAATCTTTATCCTCTACTATTCCATTTCCAATTTTAAGTATTCCTAATTTATTTACAACATCTATATCAACTTCATTATCATCTAATTCTATTTTTAATTTTCCCATTATATTTTTAGCTTCAAAAGTTCCAGAATTAGGGAAGTTATAATTTAAAGTTACCTAATAAATTATTAATCTCAAGATCTAAGTTTTCTTCATTATATTCTATTACTATATATGCTAATTTATTATAACCTAGAACTCCTTCTCCAGTCATAGATAATTTAAGTATTCCATTTTCATATATTTCATCAAATGTTATTTCCTTTGATATTTTAGATGAAACTATCTTGTTTTCTTTACCTTTTTTAATAATTAATTTACCTAAAATATCTTTACATTCTATCTTATTTATATAGTCAAATTTAATTTCTTCAAAATTTGTATATTCTTTATCTGACATATGATCTTTAACATATGAATAATTAGATTTCTTATCATGTGTAATATAAGAATAAAGCCTCATTAACTTATTTAAAATGAATGAGAATATCTTTCTTATAACATAAACAATAGTTGGTAAAAATATTATAATTCCTCCTATTATTAAAAATATAATTCCAGCTATTGTGTAAATTTCTCTGTCTATATAATTAAATGATGAAATTAATATACTCCATAACAATGTAAATGGCAATAATACTAAGCCTCCTACAAAAATTACACCTAAAAAAATGAATAATAACAATAGAAATATTAAAAAAATTATTATTGGTGCTGAAAATATTCCAGCTAAAAATAATAAAATTGAAGTTAAATAACCCTTACTTTTATTTTTTTCTTCTGTATTCACTCCAAAATCAATCAATATATCTCTTGATATCTTTTTGGGGTTCATATCATTAGGAATCTCATCATCTTCGGCTATATTTAAATCTGAGAAATATTCTTCATAAAATTCAAAAACTGACTTTTTATCATAATAAGATAAATCTTTTAAGTAATTATCAAGTTTCTTCATAAATTCCCTTTTAGTCATTCAAATTTACCTCCTCAGCCTTATTTTCAACATTATACATAGCTTAAAATTCATTAATTATTTTATGTTATTTATTTAACAAAAGTATATTCCATATATTCTCTTTTGTCAAGTTATCACTAAAATAAAAAAAGTCTATAAAGATTAAAAATCAATACAGACCATTATTAATAATAAATAATAAAAAAGTTTAGCAACTCCCTATCTTCCCTATTACTAAGTATTTTCAGCGTACACAGACTTAACTACTAGGTTCGAAATGTAACTAGGTGTATCCCTGTGGCTATCATCACTAAACGGTTTGGCGACCTTGGAAGGATTTGAACCTTCGACCCTCTGATTAACAGTCAGATGCTCTAACCAACTGAGCTACAAAGTCAAAAAGAGTTTGGCAACTACCTATTTTCCCTATTACTAAGTATCTTCAGCGTACACAGACTTAACTACTAGGTTCGAAAAGTAACTAGGTGTATCCCTGTGGCTAACATCACCAAACAAAAAGCAAGAAATATAAGACAATCAAAAATGAATAGTAAAGTAAAGAATAAAAATACAAAGCCTACGTATTATTAGTATTGGTCAGCTAAATGTATTACTACACTTACACCCCCAACCTATCAACCACTTAGTCTCAGTGGATACTTAAAAAGAATACTTATCTCAAAGTGGGTTTCTCACTTAGATGCTTTCAGCGATTATCCCTTCCAAACGTAACTACTCAGCCATGCTACTGGCGTAACAACTGATACATCAGAGGTTTGTCCATCCTGGTCCTCTCGTACTAGGGACAGATCTTTTCAATATTCTAACGCCTGTAGTGGATAGGGACCGAACTGTCTCACGACGTTCTGAACCCAGCTCGCGTGCCTCTTTAATGGGCGAACAGCCCAACCCTTGGGACCTTCTCCAGCCCCAGGATGAGACGAGCCGACATCGAGGTGCCAAACACTTCCGTCGATATGGACTCTTGGGAAGTATCAGCCTGTTATCCCCGGGGTAGCTTTTATCCGTTAAGCGACGGCCTTTCCATACAGCACCGCCGGATCACTAAGTCCTGCTTTCGCACCTGCTCGATCTGTCAATCTCGCAGTCAAGCTCCCTTATACCTTTACACTCTCTGGTTGATTTCCATCCAACCTGAGGGAACCTTTGAACGCCTCCGTTACTCTTTAGGAGGCGACCGCCCCAGTCAAACTGCCCATCTAGCACTGTCTCAATTTCTTGATTAGAATTTCAATAATATATGGTTGGTATTCCACAGTTGACTCCTTTAAAACTAGCGTCTTAATATCTCAGTCTCCCAACTATTCTATACACACATTACCAAAACCCAATGCCAAACTACAGTAAAGCTCCACGGGGTCTTTCCGTCCTACTACAGGTAGTCGGTATCTTCACCGACATTACAACTTCACCAGGTCTCCAGCCAAGACAGCTCCCAAATCATTTCACCATTCGTGCAGGTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTTATAGTTACGGCCGCCGTTCACTGGGGCTTCAATTTGAATCTCTCAATCCTCCTCTTAACCTTCCAGCACTGGGCAGGTGTCAGCCCATATACGTCGCCTTTCAGCTTAGCATAGACCTGTGTTTTTGATAAACAGTTGCTTGGGACTCTTCACTGCGACCTACTTGGGCTCATGATGCTCTCACTTACCTACCATAGGTACCCCTTCTCCCTAAGTTACGGGGCTATTTTGCAGAGTTCCTTAGCTAGAGTTATCCTGTCGGCCTCGGGTTTCTCACCCAGTCCACCTGTGTCGGTTTACAGTACGGGCACTTCTTTCCTCTTTAGAAGTTTTTCTCGGCAGTGTAGGATTTGTAACTTAAGCACTAATGCCCTTACCCATAAGGTCTAACATTTAATAATACGGATTTGCCTATATTATCATGCCTCTCCCTTAGAATGCCTATTCCGTCAGACATCTCACATACCTTCCTGCGTCACTCCATCAGTTAACAGATTAAAGTGGTATAGGAATATTAACCTATTTTCCATTCGCCACGACTTTCTAGTCTTCGCTTAGGTCCCGACTCACCCAGGGTTGACAAACATTGCCCTGGAAACCTTGGACTTCCGGCCAGAGGGATTCTCACCCTCTTTCTCGCTACTCATTCCTGCATTCTCACTTCTGATACCTCCAGATCACCTTTCAGCTCTCCTTCTACAGCCTACAGAACGCTCTCCTACCAACAACATTGTTGTTACATAGCTTCGGTTTATGTCTTAGCCCCGTTAAATCTTCGGCGCAGATACTCTCGACCAGTGAGCTATTACGCACTCTTTAAAGGTATGGCTGCTTCTAAGCCAACCTCCTGGTTGTTTGTGAATATCCACCTCCTTTCCCACTTAGACATAATTTGGGACCTTAGCTGATGTTCTGGGTTGTTCCCCTCTCGTCCATGGACCTTGTCATCCATAGACTCACTCCTAAGTATTAATATATGGTATTCGCAGTTTGCTTAACTTCAGTAAGCTATACGCCCCCTAGGTTATACAGTGCTCTACCCCCACATATCTTTAAACTTAAGGCTGCACCTAAATGCATTTCGGAGAGAACGAGCTATCTCCTAGTTCGATTGGCTTTTCACCCCTAAACCTATCTCATCTCCCAACATTTCAACGGCGGTGAGTTCGGTCCTCCACTGCATCTTACTGCAGCTTCAACCTGGACAGGCCTAGATCACTAGGTTTCGCGTCTATAACATGCGACTTTCGCCCTCTTAAGACTCGGTTTCCCTTCGGCTCCACTCTCTTAACCTCGCCACATATCATAACTCGCAGGATGATTAACCAAAATCCACGCAGTCAGCTTATCGCCTCCTACCGTTTGTAAGCACATGGTTTCAAATTCTATTTCACTCCCTTACTCAGGGTTCTTTTCACCTTTCCCTCACGGTACTCTTCTCTATCGGTTAGTAAAAGTATTTAGCCTTATGTGATATGGTCCACACTGATTCACACCAAATTCCTCGTGCTTGATGCTACTTGGGATTAATATTATACATATGTTAGTTTACACATACGAGGCTATCACTCTCTATGGCCAGGCTTTCCAACCTTGTTTTATTTACCTAACTATACATATCTTGATTATGGCTATCTCAACAAATATCTCCCTCTACCACATGATGGCAACCTCGCCAAGTTTAACACCACCATGTTTTAGGCTCTTCCCCCTTCGCTCGCCGCTACTAAGGGAATCGTTTTTACTTTCTTTTCCTCTAGCTACTTAGATGTTTCAGTTCGCTAGCTTACCTATCTCTCACTTGTCCTTCCAACAAGTAGGTTTCCCCATTCGGATATCTTAGGATCTACGCTCATATGCAACTCCCCTAAGCTTTTCGCAGCTTATCACGTCCTTCTTCGGCTTTTACTACCTAGGCATCCTCCATGTGCCCTTAATTAGCTTTTTATATCATCTCTATATATTTTCTCTTACAGTTTAACTACTCTATCTTTTCTTTCGTCTCTGTTTAAAGTTGTAATTCTTTACTCTCTACTATTCATTTCTCATTGTCCTATACTCTTAAATAAAAGAACTCCTTAAAGATTAAAGGAATAAATAAAGCAAACAAAAGAGTAAAAGTAAGTATAAGTGTGTTTATGTATATATATTCTCCTTAGAAAGGAGGTGATCCATCCGCACCTTCCGGTACGGATACCTTGTTACGACTTCACCCCAATCACTAATCACACCTTAGGTACTTCCCTCCTTACGGTTAGGCCAGTAACTTCAGGTGCAACTAACTCTCGTGGTGTGACGGGCGGTGTGTACAAGACCCGAGAACGTATTCACCGCAACATTGCTGATTTGCGATTACTAGTGATTCCAACTTCATGAAGTCGAGTTGCAGACTTCAATCCGAACTGAGAGTAGCTTTGAAGATTTGCTCCACATCACTGCTTAGCTCCTCTTTGTACTACCCATTGTAGCACGTGTGTAGCCCAGATCATAAGGGGCATGATGACTTGACGTCATCCCCACCTTCCTCCCGCTCGTCGCGGGCAGTTTCATTAGAGTCCCCAACTTAATGATGGCAACTAATGATAGGGGTTTCGCTCGTTGCGGGACTTAACCCAACATCTCACGACACGAGCTGTCGACAGCCATGCACCACCTGTATCTCGGTTCCCAAAGGCACTAAGATGCTTCCATCTTATTCCGAGTATGTCAAGACCTGGTAAGGTTCCTCGCGTTGCGTCGAATTAAACCACATGCTCCACCACTTGTGCGGGTCCCCGTCAATTCCTTTGAGTTTCATACTTGCGTACGTACTCCCCAGGCGGATCACTTATCGCTTTTGCTTCGGCACAGAGGCTTCACACCCCCACACCCAGTGATCATCGTTTACAGCTAGGACTACCAGGGTATCTAATCCTGTTTGCTCCCCTAGCTTTCGCACTTCAGCGTCAGTTTCTGTCCAGTGAGTTATCTTCATCATCGGCATTCCTACACATATCTACGAATTTCACCTCTACTCGTGTAGTTCCACCCACCTTTCCAGTACTCTAGTCTGACAGTTTTGTAGGCAAGACTATGGTTGAGCCACAGCTTTTCACCTTCAACTTGTTAGACCGCCTAGATGCCCTTTAAGCCCAATAATTCCGGATAACGCTTGCGACATACGTATTACCGCGGCTGCTGGCACGTATTTAGCCGTCGCTTCTTCTGTAGGTACCGTCATCTTCTTCTTCCCTACTGAAAGCACTTTACAATCCGAAAACCTTCTTCGTGCACACAGAATTGCTGGATCAGAGTTTCCTCCATTGTCCAATATTCCCCACTGCTGCCTCCCGTAGGAGTAAGGGCCGTATCTCAGTCCCCTTGTGGCCGTTCACCCTCTCGGGCCGGCTACCTATCATAGCCTTGGTAGGCCTTTACCCCACCAACTAGCTAATAGGATGCAAAGCTCTCTCTTAGCAATCTCTCCTTTCATTAATAGTAGATGCCTACTACTAATAATATCTAGTATTATCCATCATTTCTAATGGTTATCCCAGTCTAAGAGGTAAGTTCTTTACACGTTACTCACCAGTCCACCATGTAGTCTATGTAAGCAAGCTTACATTTCATACATAGATTTGCATGTGTTAAGCATTCTGTCAGCGTTCATCCTGAGCCAGGATCAAACTCTTCATTCAATATTTATTTTAAATATTTCTTGTTCTTCACCTTTTGTCTCTTATTCTTAACTTACTAAAGCTATTTTACTCTAAATAAAATTGACTTGTCTTTACTTGTTTGCTTTATTTATTCCTTCTCTTTCCATTGTCCTTTGTCCTATCGCTTATATCGCTTTCGGACATCTATTATCTTATCATAACCCCCTCTTTTTTGTCAAGGACTTTTTGGAAGTTTTTTATAATTTTTACAAAAAAATTCATACATTTTGTTACAACCCTATTTTTTTACTACATTCTCTACACATTTTAAATTTTTAATATAGGGTAAAAACATTTTTACAACAAAAAATAATTTTTACCAAAACAACCAACAACCGCATACAAATACTACACATTTTAAAGTACACATATTGTAATGACACTATAAAAGTGCTATAATTAACCTATATTTAATTTTAAGTGGGTGATTTTGTGATTTCAATTATTCTTGCAGCAGGTAAAGGAACAAGAATGAAGTCAAACATCTCTAAATTAATGCATAAAGTTAATGGGCAACCTATGATAGTTAAGCTTGTTAATACTTTAAATAAGGCTGGACTTAAAAAGAACATTTTAATATTAGGTTACTTAAAAGAACAGATACTTGAAGTTCTTGACAATGAATATGTAATTCAAGAGGAACAATTAGGTACTGGACATGCAGTAATTATTGCAAAAAATAAGATATTAGAAAATGATGATGATATTTTAATTTGCAATGGAGATGGACCTTTATTAACTGTAGAAACAATTAATAAGATGAAAGAAAAATTTGAAAAAGATTCATTAGACTGTCTAATTCTTTCCTGTGAAGTTAATAATCCATTTGGTTATGGAAGAATAATCAAAGAAAATGGTAAGGTTACTAACATAATAGAAGAAGTAGATGCAACTGTAGAACAAAAAAATATTAAAGAAATCAATGCAGGGGTATATTTATTTAAGAAAACCTCTTTATTATCTATACTAGATAAGTTTAATAATGATAATAAAAAGAGAGAATACTATCTAACAGATGCAGTAAAATTATTAAATGAAGAAAAATTAAAAGTTGATAGTTTAGTTCTTGAAGATGAAAAAGAAATGTTAGGCGTTAATTCTAAATCTCAACTTGCAGAAGTTTCTAAAATATTAAGAGAAAAAAAAAATGAAGAGCTTATGAAAAGTGGGACTATACTTATAGACCCTAACAATACATACATAGAAGAAGATGTAGTTATAGGGGAAGATACTATAATTTATCCCAATGTATATATAGAAAAAGGAACTAGAATAGGAAATAATTGTATTATTCATTCTGGAACTAGAATAGAAAATTCAATTATAGGTAATAATGTTACTATAGATAATAGTGTGGTTGAGCTATCTGTTATAGAAGATAATGTTAGCATAGGACCATTTGCACATATTAGACCAAATAGCTTGTTAAAAGAAAAATCAAAAATAGGGAATTTTGTTGAAATTAAAAAATCTACATTACACAAAGGTGTTAAATGCGGGCATTTAACATATATAGGTGATAGCGAAATTGGTGAAAATACTAATATAGGTGCTGGAACTATTACATGTAATTATGATGGAAGCAAAAAACACAAAACTAACATAGGTAAAAATTGCTTCATAGGAAGTAATAGTATTATAGTGTCTCCTGTGGAAATTGGTGAAAATGTTTTAACTGCTGCTGGTTCAGTAATTACAAAAGATATTCCAAATGACAGTATAGCATTTGGAAGAGCAAAACAAGTCAATAAAATTGGAATGAATAAAAAATAGAAGAAAGTGTGGGATTTCAAAATGTACAATGATCATGAGATTAAAGTTTATGCTGGAACTTCTAGTGCAAAGCTAGCTGCAAAAATAGCTGAAAAACTCGGTATTAGCCTTGGGGATAGAACTATTATCAGATTTGCTGATGGTGAAACTTTTGCTAAATCTAACGAAACTGTAAGAGGATGTAAAGTATTTGTTATACAATCTACTTCTAAGCCTGTTAATGAAAGTATTATGGAACTATTAGTTTTCATAGATTCATTAAAAAGAGCATCTGCAACTGAAATTATAGCGGTTATTCCTTATTATGGATATGCAAGACAAGATAGAAAAGCATATCCAAGAGAACCGATTACATCTAAATTAGTGGCTGATTTATTAACTGTAGCTGGAGCAACTAGAGTTGTTACTATGGATTTACATGCAAGACAAATACAAGGTTTTTTCAACATACCTGTAGATCACATGGAGGCTCTACCTCTATTTGCTAAATACTTTTATGATAAAGGATTTAATTCTGAAAATGCTGTAGTTGTATCTCCTGATGTTGGTGGAGTTAAAAGAGCTAGAGCACTAGCAAGATCATTAAATTTACCTTTAGCAATAATAGATAAAAGACGTGAAAAAGCAAATGTATCAGAAGTTATGAATTTAATAGGAGAAGTTAAAGGTAAAAAAGCCATACTTATAGATGATATTATAGATACCGCAGGAACTATATGTAATGCAGCTACTGCACTTAAAAATGAAGGTGCTTTAGAAGTTTATGCTTGTGCAGTTCATCCCGTGTTTTCAGGACCAGCAATAGAAAGATTAAAAGATTCAGAATTTAACAAAGTTATTGTTACAGATACTATAGAATTACCAGAAGACAAAAAATTTGATAAATTATCTATAGTTTCAACTGCAAGCATGTTTGCTGAAACTATAATTAGAATCTTTAAAGAAGAAGCAATAAGTGATCTATTTGAAGTTCCTAAAAACTTAGATGTGGAAGGATAAAATGAATAGTAATGTCATACTATTTCCTACAGATACAGTTTACGGATTAGGATCTCTTCCAAATAAAAAAGCTTTAGATAAAATTTTTGATATCAAAAAAAGGGATAGAAATAAGAAAATTATTGCATTAGTTTCAAAAAAAGAAACAATAAATAAGATTATTGAAATCAACGATTTAATTGATAAAATAATAGATAAGTTTTTTCCTGGACCTATTACTTTAATAGCAAAATCCACTCCATTTATAAAAGAACTTTTAGGTTATGAAGATATAGGGGTAAGGATACCCAATAACAAAATGGCACTAGAAATAATTGAAAAATTTGGTGGAATATTAATGACAACTTCTGCTAATATTAGTGGAAAAGAAGCTCCAAAAAAATATTCTGAAATAGATGAAGAAATATTAAAACTTGTAGATCACAAATATATAGATGATAGTAATTTAAGTGGTATTTCTTCTAGTATATTTAAGATTGATGGAGAAAATATAACTTTATTAAGAGAGGGTAACATCTCATTAATAGAACTAATAAAACTTAAGGAGGAATAATTTGAAAGGTAAATTAGTAAACCCTAATAGCATTTCTGATATGGATGTTATGAATGCAAAAAGTCAAGCAAGCATGGCTGCTTTACTTCAAAAAATTGGTAAAGGTAAGAGAAAAAAAGAAGTAACATTAAGTAAAAATTCACAAAAATACCTAGAACAAATGATAGGTGAAATGAAAAAACAAATGGCAATATATGAAAAACAATTACCTAATATATTTTCATTCTTTAAATATGTAGAGAAATCATTACATGTAGGAAAGAAAGAAAAAAGACCTAAGGAAAAAGTACTTGCCCTTTCTTTTGAAGAATATGATTTAATCATGAAACAAATGAGGGATGTAATTAAAGGTTTAACTTTAGAAAAATCTAAATTAAAATGGTATAACATTGTTAAAAAAATGGTTTATAAAATGATGACTAAACAAACAGAGGAATTATTAAAAGACATGAAAAAATAATAATAGGGGGTTAAATGAGGGATAATAATAAAAATATAGCAACTACCTCAAATAGTTGCTTTTTGTTTAATTTAGAAAATATTTTAGAATTAGCTATTTTAAAAAATGCTACAGATATACATATTAGAGAATTTGAAAATATATGTAAGTTGGAATTAAGAATAGAGGGAAGTATACATAAAGTAGATAATACCCACAAACTAAATGTAAGGGAAATTATCGCAAGAATAAAAATACTTTCAAAATTAAATGTTGCAGAAAAAAGATTGCCTCAAGATGGTGCTTTTACACATATTTTTAAAGATAAAAAATATGATATTCGTGTTGCAACATTACCAAGTAATATGGGTGAAAATGTAGTTTTAAGAATATTAAACTCAAACTTAAATGATATTAGTTTAATTTCTTTAGGTTTTGATAATGATAGTATTGCTATTCTTAAAAAAGCGTGTTCTCAAAATAATGGGCTTATTCTCATAACTGGACCTACAGGAAGTGGTAAATCTACTACTTTACTATCTTTAATTAATATTCTTATGAAAAGTAAAAGAAAAATAATTACTATAGAAGATCCTATAGAAAATAGGATTGAAGATATAGTTCAAATACAAGTTAAAGAAGAGATAGGTTTAAGTTTTGAAAAAATATTAAGAACTGTTTTAAGATCAGATCCAGATATTATTGTAATAAGTGAAATTAGAGATGAAGTTACAGCACAAATTGCAACTAGGGCTGCACTGACAGGTCATTTAGTTCTTGCAACTTTACACACTAATGATAGCATATCAACCGTAAATAGATTAATAGATATGAATATTACAAAATATCTAATACTTGATTCTTTACTTTGTATACTTTCACAAAGATTGATATTTAATGGTTATAAAAGAATTTGTGTGTCAGAGATACTTGAAATAAATGATGAAATAAAGAAGATATTTAATAATAATTTAGATAAGATGACTATAAAAGAAATGCTTAAAGAAAAAGGATTTATAACATTAAAAGAAAAATTAGAAAAGAGGTGGGATCTTGAAGAATATTATTGTTTATGATTTTGATAAAACTATATATGGTGGGGAAACATCTACTGATTTCATGAGATTTTTTCTTAAAAGAAATCCTAAATATATTTTCAAAATATACAAAGTGATTCATTCATTAATGTATTATAGAAGTGATTTAAAAAAATCTAAGGAAATCTTTTTTGAAATATTAAGTAATATAGAAATTGAATATTTAAATAAAGAAATACATGCATTCTGGATAGAAAATAAATATAAAATATTCCCTTGGATTTATGAGGAAATTAAAAAGAATAAAAATCAAGCAGAAGAATTAATATTAATTTCTGCAACTCCTAAAATATTTCTCGAAGAAATTTCAAAAGAATTAGGTTTTGATAAATTAATAGCTACTAATTTTATTAAACAAGATAAATATTTTGTAAGCAAAATAGAAGGCAAAAATTGTAAACATGTAGAAAAGGTTCATAGACTTAAAGAATATTTACAAGATTTCAATATCCTTATTTTTTATTCTGATAGTATGTCAGATAAACCATTATTTGATCTTGCACAAAAAAAATACTATATTAATAAAGGAATTAAAAAGGAAGGTCTTCCAAATGAATAACATTAAAATTATATACCAATATGATGGTAGTGCTTTTTATGGTTCACAAAGACAAAAAGATAAGGTTACTGTACAAGGAACTATAGAAGATATACTTATTAATTCATTTAATGAAAAAGTTAATATGATAAGTTCTGGAAGAACTGATAGAGGTGTTCATGCTAAAATGCAGGTTTCTAATTTTATAATTAACAAGGATATAAAATTAGATATAATAAAGAGTAAAATAGAAAAATATTCTAACTATGCAATTAAAATTCTTTCAATAGAAAAGGTTGATATAAAGTACAACTCAAGGTTTGACTGCATGGAAAGAACATATGAATTTATACTTTCAAATAGAGAAAATATTACCCCTTTTAATAGAAAATATATAACAAGTATAAATTATGAAATAGATGTTGAAAAACTAAATGATATTTTAAAACAATTCATTGGAAAACACAATTTTTCTAATTTTTCTAAAAAAGAAAATAAGGCTAACAAAAATCCTATAAGAGAAATTTATGAATGCTATAGCATAAAAAAAGATAAAAATATCCATATATATATTAAAGGAAACAGTTTTTTAAAATCCATGGTGAGAATAATTATTGGAACAACTTTAGCCATCTATAGTGGTAAAATAAGCAAACATTTTATTAAAGAAGCTTTTGATAATCCAAATCCTAACACTAAAAAATATATATTAGATGGTAATGGACTTTATTTATACCATGTAAAATAAGGAGAATAATATGAAGATAACTATACAACAATGTATATTTTTAATATCAAATTTAACTAAAAAACAAAATAGAATTTTTCTAAGTTTAAATTCTTACTCTAATATTCCAATAAAAGTTAATGGAAAAGATGTTTTTGATAAAACACAAGCTAAAGAAATGTTAGCTCTGTATTCAGAACTTGAGATTATAAATAGGGATTTAGCAACTTTAAAAACTGTTTTAAATCATACAAATTCAACTAATAAAATAAATGATATGCCTATATCTTATCACTTAGAAGATCTAAAGAATAAAAGAAATCTATTATCTTTTTTAGAAAGATCTATAAATTCTAATACTTCAAGTGCAGAAAGTGGAGTAGGTATAGTAAACTATGGTGTATTAAACCAAAATATTTTAAAAGAAAATTACAGAAAATTAGAAAAAGAGGTTAACTCTATGTCAGAAAGAATTGATATAGAAAATTCAAAACTAACTATAGAAGTTAACCTAGAAGGTAATTATTAATCTTATTATGGTAGTAATTTTCTTAAATCAAATTTGTTAAATCGGCTTATCTTTTTACGATTATTTATTTTACATCTTATATTAACGAACGATTATCAATTTATAATAAGAAAATTACAATGGAGCTTATGCTCAAAAACTTTTTAGGGCAAGTTTTACCTTTAAAGCCCTATATTAATTTAAACATTTCAAGCATTTTAACAAAACCATCATCATCTATACTATCTGTTACATATTTTGCATGAGATTTAACTAAATCACTTGCATTACCCATAGCTACAGAATGCTCTACTACTTCAAACATAGAAATATCATTATTACCATCACCTATTGCTATTGCTTCACTAGGTAATATATTAAGTTCTTCCATAAATGCTTTTAAGCCATTACCTTTACTTGCATTCTTATTTAATATTTCTATACTTATAGGTATAGTTCTTACGAAATAATAATCATTAAGAAATTCTTTATTATGCAACTTTTCAAATTCATCTAATTTTTCTTTACTTCCCATAATATTTACTCTTGAAATCTCAATATCTTTATCTTCAGAAAATTTTTCCATTTCCATTAAAAGTATTTCATTATCTTCTACTATTTCCGGAAATATTTCATCAACATAATATAGTTTATCTGGTGTATAAACACTTAAGTTATATCTACTATCAACATTTTTTCTAATATGTCTATAATCATCAAGAGATAAAGAAAAATGTTTAATTATTTTTCTTGTATCTATATTTTGAACTACAGCTCCTGTTGTAAGTATTGCATAATTGTTTTTTCCTGATAATTTAAGTAAATCAAACATTTCATAAAGACTATCTATACTTCTTCCTGTATTTACAACTAACATTATTCCTTTATTTTCTAATTTATGAAAAGCTTCTATAACAGCTTTTGATAATTTAGAATCTTTAAGTATAGTTCCATCTAAATCAAAAGAAATCAATTTAATATTATTCATAATATTCCTTTCTAAAAGAAAAACACTTAAATAATAAGATAAAATCCTTTCTTTAAGTGTTATATATTCCATATTTTATTATCTTTTTTTAGTAGCCTCAAATTTTTCCCAAATTCCTGCTTTAGTTAAGATAGATTTAACTGTTTCTGTTGGTTGTGCTCCATTTGATAAAAATCTTAAAATTTCTTCTTCTTTTAAGTTTACTTGGTTTTCAGAAACTAATGGATTATATGTTCCAACATAAGCTACTGCTTTTCCATCTCTTTTTCCTAATGCTTCCATTGCTGCTATTCTATAGAAAGGTAATTTTTTTCTACCTAATCTAGTTAATCTTAATTTTAACATTTATTATTCCTCCATTTTTTTATTACAACACATTTTACAATATTAATAAAATATTGTCAAGTATTTTTTATTGACAAATTTTTATTTATCATCTTCTAAATACATGTTAAATGCTGTATCAACTATTTCAGAATAAGACATATTTTCAGGTTTTATTTGCCCTAAATATTTAACAGACAATTTCTTAGGTTTAGGGAATTTATCATATCTTGAATATGCTTCAAAAGCTCCATCAATTTTTAAACAAGTTACAGGTATATTTAATTCCTTAGATAATATAGCAAATATTTTCTTAAATTCTCCTAAATTACCATCTTTTGTTCTTGTTCCCTCAGGGAATATGAATACATTTTTACCTTGTTTAAGTGCTGATGATACATTTTCTATAGTAGATTTAATATTTTTGTTAATATCAAGTAATAATATATTACTATGTTTAGCAAAAAATTTCATAAAGGCATTTTTAAAATACCAATTTATAGCTAAAGTATATGTTTTTTCTGATGATTCATTAGGTATTAATAAACTAAGTGCTAATCCATCAATAAAACTTTCATGATTTGCTATAAATATTTGTTGCTCATTTTTTATATTTTCTGAACCTTTAATATCTATTCTAAAGTATAACTTAAATAATAGGAATAATATTGGTTTAATTAATAACATCAGCCATCCATCTTTAAGTTCTTTATTCGGAGCGTTTTGTATAACCTCTTTCCATTGATCTGTAGTTTCAGTAAATCCACTTGATTTTTCTTCTATATATTTAGATAATCCAAGTAATGTTAAATTATCCTTGAAATCTTCTTCAGATATTTTTAATCCAAAACTATTTTCAATAAATGTTAATAACTCTACTTGATCAAGTGAATCAAGACCAAATTCAACTTCTAAATTCTTATTTCCTTCAGGATAAACTCCCTTCATTTTGAAAATAAAGTCTTTAAGTATTCTGTATTCTTCAGTATTTGGTTCGTTTACATTTTCCTTATTTTCAACCTTAGATTTACCAGAATATATGTCTTTTAACATAAATCTTCTTACTTTACCTATCCTAGTTTTAGGTAATTCATCTTCAGTAATCTTATACTCTAATATCTTTTCATAATTATGTACAGCTCCATTATAGAACTCTACTGTATCTTTGATATATGCATTAATATTTAAAATATTTAATTTTTTAGCTTCATTTCTGTCTATTACTATTAATGATGCTAATTTATCGTTATGCCCTATAATTCCAACCTCTTTAATTATTGAATTAACAGATGACATAAATTTAATTTCAAGCGTTTCAGGATCTACATTTTTACCATTAGATAATACTATCATAGCATTCTTACGACCAACTATAGTAATATATCCCTCATCATCAACTTCAACTAAATCTCCTGTTTTAAACCAACCATCATCAGTTAATACCTCAGAAGTTTTTTCAGGTTTATTAAAATATCCTCTCATTACTATAGGTCCTTTAACCCATAATTCTTGATCTACAGCTTTAACTTCTATATTATTTACTGGTTTTCCAACAGTCCCTATCTTATATCCATGATTATTTGTATTTCCTGATATTATTGGAGCAGTTTCAGTAAGTCCATAACCTTCACAGTAATCAAAACCTAATGTATTAAAAAATTCTATCATTTCAATATCAGATTTTGCTCCTCCAACTACCATACTTCTTAATTTTCCACCAAATTTATCATGTACTTTTTTAAATATTTTCTTAGAAAATGCCTTATTATTTATTTTCTTAGCAATAGCATATATTAATCTAGTTATCCATTTAGAATCTATAGTACTTTTAATAGATTTATAGAATAATTTATATACTCTCGGAACTAGTACTAACATAGTTACATCATTTTCAGATAATGCCTTTAATATTTCTTGGCTAGATAGTTTTTCTACTAATACCACTGAATATTGATGTTCATGATACATGTAATAAATATTAGCTGACATTAATGGTAATATGTGATGAAAAGGTAATACTGCTAAAATTTGTTCATCATCCCATGTTATTTCTAATGTTCTTATAGATAATATTTGATTATATATATTACCATAAGTTAACATTACTCCTTTTGGAGAACCTGTAGTTCCTGATGTATATAGCATTACAGCTATATCTTCCATATCTGGATGTGAAAGTATTCTTTCATCTTTTTCTATTTTTTCATATTTTTCTTTATCTATTTTTATTTCATCAACATTAAATATTTTAATATCTCTTCCTGTAGATAAAATAGCTTCCTTTGCAACTTCATAAGTATTATTAGAAACATATATACATATAGCTCCTGAATCATTTAAAAAATATTCTAATTCATTCTTATTTGACATCGCATCAACTGCAACAGGAGTTAAATTACTATCCCATAATGAATAAAATGCATAAAACCATTCTTTTCTATTTTCCATCATAATAATACTAAAAGCTTTGGGCGTTTTTTCCGTTATAACATAATCAGAATAATATTTTACTGTATTTACAAGATCTGTATGACTTATTTTTTTTCCATCAAAGTCTACTATTGCTAATCTATCAGATTTATTTAAAAACATAATTTTTTCCTTTCTTCCTCATAATTTTTCCCTCCAAATTCGCATTAATTATACATATTTCTTGCTTTATCAACTATTTCATCATAACTTAAATTCTCTGGATTAATTTCTCCTAAATAACTAACTGTTATTTTCTTAGGTTTAGGATATTTATCATATCTTGAATAAGCTTCAAAAGTTCCATCAATTTTTAAACAAGTAACTTTAACATCCATCTCTTTTGATATTATTGCAAAAGTCTTTTTAAAAGGTGATAAATTCCCATCTTTTGTTCTTGTTCCTTCAGGGAATATGAATACATTTTTACCTTGTTTTAATACTGATGCAATTTGCTCTATTGTTTCTCTAATATTTCCGTCAATATCTAATAAAACTAAATTAGTTTCTTTAGCAAGTTTTCTCATAAATTTACTTTTAAAATACCAATCTATAGCAAGAGAATAAGTATTTTTTGCTACTTTTTTTGGAAGTAATAAATTAAGTGCTAATGCATCTAAAAAACTAGCATGATTTGCAATAAATATTTGTGGTTCATTATCTATATTTTCTTTACCTTTAATGCTTAATCTAAAATAAATTTTGAAGATAAGCCAACCAAGAGGTCTTAAAAATCTAATCCCACTTCCATTTTCTAATTCTTTTACTGGTGCATTTTTTATTATCTCTTTCCATTGATCTTTTGTTTCAATAAATTTCTCTGATTTATTTTTTATTAATTCTGATAATTTAATCAAGGTAATATTTTCTTTAAATTCTTCATTTGTCAACTTAACACCAAAACTTCTTTCTATGAAAGAAAGTAATTCAACTTGATCTAAAGAATCTAAACCAAATTCTATTTCTAAATTTACATTTGGTTCAGCATATTCATTTTTCATATTAAAAATATACTCTTTTAATACCTTGTATTCTAAAGTATCAGGTTCTTCAACCTTTTCTTTTTGTTCATCTTTCATATGACCTAAGTAGATATCTTTTAACATAAATCTCTTTAATTTACCTATTCTTGTTTTAGGTAACTCTGCTTCTGTCATCTTGTATTCTAATACCTTTTCATATCCATGTGAAGATGCATTATAAAATGATATAGTGTCTTCTATATATGGTTTAATATTTATTATTCCTTTTTCTTTTATTTTTTTATCGTCAATAACTATTAATGCAGCTAATTTATCATTTTTAGCAAAAATTCCAATTTCTTTAATAATTTCATTTGAATATTGAATTAATCTATTTTCTAATTTTTCAGGATCAATATTTTTACCATTAGATAAAACTATCATAGAATTTTTTCTTCCTTTAATAGTAATAAATCCTTCATCATCTATTTCTGCTAGATCTCCTGTTTTAAACCAACCATCTTCAGTAATTACTTTAGCTGTTTCCTCTGGTTTATTGTAATAACCTTTCATTACTATAGGTCCTTTAACCCATAATTCCCCATCAACTAATTTAACTTCTATATTATCAACTTTTCTTCCTACAGTTCCATTTTTCTTACCATGTTTTGTAGTTGAACATGCAACTACTGGTGAAGTTTCACTTAAACCATAACCTTCAAAGTATTCAATACCTATAGTATCAAAAAAGTCTGCTATTTCTTTATCAGTTTTAGCCCCACCTGAAATAACTCTTGTAAGCTTTCCTCCAAATGTTTTATGTATTTTGCTAAAAATTGTTCTTGAAAAACTAATGTTTTGTGCTTTTTGTGCAAGCTTAAATAAGTTTTTAGCCGTAACTTTAGAATCTATTTTACTTTTTATTGAACTATAAAATAGCTTATATACTCTTGGAACCATTGATAATATTGTTACATCATTATCATTTAAAGCTTTCAATATATCCTGACTTGAAAGATTCTCAATAAATACTATAGAAAACTGTGTACTATAATGCATGAATAATAAGTTTGTTGTCATTAATGGAAGTATGTGATGAAAAGGTAGTCCTGCTAATACCTGTTCATTTTCTTCAATAATCATTAATGATTTTATTGATTCAATTTGTGCTTCTATATTATTAAAAGTTAGCATTACACCTTTAGGATCTCCTGTTGTACCAGAAGTATATAGCATTATTGCTAGTTCTTCTCCTTCTGGATGTAATAATATTCTTTCATCTTTTGATATTTCTTCTAATTTATTTTCATCTATTTTTACATCATCTATATTTTCTATAAAGATTTCTCTTCCTAAAACATTTATTGTTTCTTTAGCCTTTTCATATGTCTTATTTGAAACATAAATGCTTGTTGCATTAGAATCTTTTAAAAAATATACTATTTCTTCTATACTAGATTCTGAATCAATTACTAATGGAACATTTTTTTTATCCCAAATTGCATAAAAAGTATATAACCATTCTTTTCTATTTTCCATCATTATTACATTAAATTGTTGGATATCTTCAGTTTCTTTAATTACATACTTTGAAAAATATTTAACTTTGTCTACCAATTCACTATGACTTACTTTATTTCCTTTAGGGTCAACCAAAGCCAACCTATTTGATTTTTGTAAGAACATATATAACTCCTCCTAATATTATTAGAATATTTGTAATTTACCTTTTTTTACCTATTTGTCCAAACCCTGGAATATTTCCAGAATTAAACATTTTCATCATTTGTTTCATTTGTTCAAATTGTTTAAGTAACTTATTAACTTGTGTTACATCTGTACCTGAACCTTTTGCTATTCTTATTTTTCTACTACTGACTTTTAAAAGATTAGGATTTCTTCTTTCCTCTACTGTCATTGAATATATTATAGCTTCTACCTTTTTCATTTCTTTTTCAGCACCAGTAAGATCTATATCTCCTAAAGCTCCCATACCAGGAAGCATTTTTAATATTCCTCCAAGAGAACCCATTCTTTTAATCATTTTAAATTGTTTTAAAAAATCTTCAAAATCAAACTGATTTTTTCTAAATTTAGCTTCCATTTCACGTGCTTCTTTTTCATCTATAGCTTCTTTAGCCTTTTCAACTAAAGACACTACATCTCCCATTCCAAGTATTCTACTTGCAAGTCTTTCAGGATGAAATACAGCTATGTCATCAAGCTTTTCTCCTTCAGAAATATATTTAATAGGTTTACCTGAAATTTCTTTAATAGACAGTGCTGCTCCACCACGAGTATCTCCATCTAATTTTGTAACTACAACTCCTGTAATATCTAATACATCATTGAATGTTTTAGCAACATTTACAGCATCTTGCCCTGTCATACCATCTACAACCAGTAGTATTTCTGTTGGATTAACACTTGATTTAACATCTTGAAGCTCTTGCATTAAAGCCTCGTCTACATGCAATCTTCCAGCAGTATCTATTAGCACATAATCTGCATCTTCTTTTTTAGCTTCTAATAATCCATTATTAACTATTTCTAATACATTATTACTATCTTCTATAGAGAAAAATGGAACTCCTATTTGATTTGCAAGTACCATTAATTGTTTTTTAGCTGCTGGTCTATATACATCTGCTCCTATTAAAAATGCCTTACTTTTTTCTTTCTTTAAAAATTTAGCTAATTTACCTGCAAATGTAGTTTTTCCAGCTCCTTGCAATCCAACCAACATAATAATAGTAGGTTTTGAAGTTGATTTATTTAAAGATGTATTTTGACCTCCTAAAACTTCTATCAATTCATCATTTATTATTTTTATAAACTGTTGTCTTGGATTTACACCTTTAATAACTTCTTGACCTTGTGCCTTTTCTTTTATTCTTTTAACGAAGTTTTTAACTACACTATAGTTTACATCTGCTTCAAGTAGTGCAAGTCTTACTTCTCTTAAAGCTTCTGTAATATTACTTTCAGTAATTTTACTTTGTCCAGATAACTTTTTAAAAGTTTCTTGTAACTTATCACTTAAACCTTTAAACATTAATTTGCTCCTTCTTCATACTCTATGATTATTTTATCTAAATTTTCTTTTGAAAAATTATCTCTAAGCCATTTTAAATTCATCATAATGTTCTCTTCTCTTTCCATAACTCCAAGTAACTTCTCATATTTATCTAGCTGTTTACATCCTCTTTTAATATTATCAAAAACTGCTTGTCTACTAACATTAAAAGCTTCTGCTATTTCTGTTAATGAATTATCCTCCTCTAAATATGCAGACAAATATTTTTTCTGTTTATCAGAAAATAGTTCCTTATAGTATATGAATAAAATCGAGTATTTTATATATTCTTCTATCTCTTTCATACACATATTTTACACTATTTAGTTTATTTTGACAACTATTAAAAATCCTTGAATTATGGTATAATAAATGAAAGTAATAAGGAGTGGTGTTATGAAAAAGATACTATTATTTATACTAATGTCAAATTTTCTTTCTTATTCTACATATATAGCTGGACCTAGAATAAAAGTTGAAGGTGGAGTTGGAATTGGTAAAGCTGATAATATTATACTTCCATTAAATGTAGCTATACTTCCTGAATGGAGAGCTGAAATTAGACATGATATTAATGTGGCATTTGGACCTAAATTCACCGTAGTTTCTTCTCATCAATTCAAGGGATTGAAATATAACGGGGCAAAAATTAGGGCATTAATTGGAGCAGAAACACATATAAATTTTAAAGTAACTAATAAACTTGATATATTTCTTGGTGCAGAATCTGCAATAGGTGGTGGATCTGATGTAACATTTGAATCAGCTCAAGTATCACAATCAACTCAAGCGAATAAAAAGAAAGCTGTATTTGATTGGTTAGCTTTAATGTCTGGTGGAATAAAAGTAAATGAGAGATATAACATGGGAGTATATTTTGGATATGGAAAAGGAAATTTTGGAATACAGGCAGGATATACTTTTTAAGAAAAAAATATGATAAGGATTAAATAATAAATAAAGTTTAATCCTTATCAATAATTAAAATTTATCTAACTTTTAGGGACATATCTTACATTTCCTTTATTGAAGATTTAATATGCTCTCGTTCAGTAGATGTTAATTCGTATTTATCAAATAATTGCTCATCTATTTCTTTAATAGATTTCGACCAATCTATATCGGATTTTTCTGTAAAATCTTGCATTGGAACAAATCTGAATGTTTTAGATGTCGCATCTTGACTACTTTTTGCTAAGCTATGTAAATATCTTGCAAATTTTGTCATCATATATTTTACAGCGTTTTTTGTAGAAATTTCTGTCAAATTGTCATCTCCAAAACAAGATAAATAAGACTCTGTGCATATCATATTGGTTGTTCCAACAAATGCATTTAGATTATCATCATTTAATTCTGTTGCAATATTATTAGCTCTTGGAATAAAAACTTTCCATGAATCAACCCAATGTATATTTTTCTCAATTAAATTATGTTCTACATATCCTATCTGTTGTCCTTTACCTATACAAACTACAGGTTTTTTCATCCCATTTGGTTCTTTTCTAAAGTTCTGATCTTTAATAAAATTACCCTCTAATCCAAATGGTTTTCTTGTTGAAATATATAAACTTAAAGACTTTGTATTATCTTTTGAGAATATTTTTTCAATGATTTTAATTCCTAAACTATCTCTAATAAATATATCTATACCTTTAATCAATAATTTTCTTTTTACATTAGAAATAATTTTATTATTTCTATTAGTTACAACTTTAACCTCTAATTTATTTTTATTAATATCGCTAATAAAGTAACACACGCCACCTCTATTATTTGTATTAGGAAAAATATCATCAGGAGTTAAAAAATCATATAGTTCCATAATAGAGCTATCATTTAACATATACTCTCTAAAACTATCTAATCCTTTACCTCCTGCAAACCATCTTGTTGGTGTTATAAAACTTGTGTAATTATTTGATAACTGTTTCCCAAGTAAAACAAAATGATGATAAATTGGCTTAGCACTCGTTTGAGCTCCACCATCACTAACTTGATATGGTGGATTTCCTACTATTGCTCCAAAATTCACTGTTTCTTCACACACCTTTAACAATCTATCTTAATTCTCTAGATTGAGTAAAATTAATACTTTTTTATCCTTAATATCTAATATTTAAAAGACTAATGTTATTTCCTTTTTCAAACTTATTATTACATCTCCTTTATTGAAGATCTAATATGCTCTCGTTCAGTAGATGTTAATTCATATTTATCAAATAATTGCTCATCTATTTCTTTAATAGATTTTGACCAATCTATATCTGATTTATCACTAAAATCCTGAATAGGTACAAATCTATAAGTAATCTTTGTTCCATTTTGATTCGCTTTTGCAATACTAATTAAAAATCTTGTAAATTTTGTTTTTAAATATTTTTCAATATTCATTGAACTTGACTTATCTAAATTTAAATCTCCACCAATAACTAAATATGTTTCAGTAACAATAGAATTAGGTTCGCTAATAATAGTATTTAAATTATCATCTTGTAAATCCTTTCCAATATTATTTGCAAAAGGGGTTATTACTTTCCATTTGTTAATCCAATTAAAATTTTTTTTAATCAAATCTTTTTCTACATATCCTATTTTACCTTTACTCGCATAAATTTTAACTGGATTTGTAATTTCTTTTTCATTATTTTTAAATAAGTCTGTTGTTATGAATTTAGTATTAAACCCAAAAGGATTTCTAACTGAAATATATTTTATTAACATATTTTCAGAATTTTCATTTAGTTGTACACCTCCATTATTAACCATTCTATAAACAATATTAAAAGCTATATTATCAGAAATAAATATTTCTAAATTTTTAATTCTTTTTTCTCTTAGTTGATTGTTTATAATTTTTTTATCTTTAATATTAATAATTCTTATTCCATTATTATCACTATCATATTTATCTTGATATAAGAAATAATTAATTCCTCCTCTTAGATTCACATTAGAAAAAATATCTTGAGGTGTAATAAAATTTGTAATTTGCTTTAATCCTTTTAATCCCAACATATACTCTCTAAATTCATCTAATCCTTTACCTCCAGAAAACCAAACACTTGGAACTATTAATGTCGCAAATTTTGGTTTTAAATAAAAGGATATCATAGAAAATTTATTATAAATAGGTTTGGCACTTCCCGTTCCACTATTATTATCACTAACTTGATATGGTGGATTTCCTACTATTGCTCCAAAGTTCACTGTTTCTTCACCTGCCTTTATTTCATCAGTTAATTCTATATAACTAAATTTCTTATTTTGTTTCAGTAAATTACTCACTTTTTTGTAATCAACTTCATTATTTTCAGATGTAATTTTTATTAAATCATAAGAATTAAATTTAGTTGCTATATTATCTACATTTAAATTCAATATTTCATAAAATCTTCTAGTAAATTCATATGCAATAGAAGATGTCGGTATAGAATAAATAATATCTGAAACCTCATTATGTGAAAAGCCTAAATCATCTACTAATCTTTTATATATTGCTACAGTATATTCTCCAGACTTACTTGCTATATCCAATAATTTATTTTTATTATTTACAATTTCTCTTAATCCATCTTCTGGAAAAAGATTAACCATATCCTCACAAATATTTGTTGGTGTTATTACTTCAGATTCTGACATTCTATTAAATTTTTTCAAAGATGTTAAGGCTCTATCTAATGGATTAACACTCTCATCAGAAGCAAGCCTTGAAATATTTTGTATTTTATAATCTAACTTACTTCTTTTAAAAGGATCCATTAAAGATGATAATTTTACTAAAACATCTTTATTTAAGTATAATTTTTTTGCTAATCTAGTATTTTCCTCTTTTTGTAAAACATTTAATATATCATCTAATGATGATACATTATCCTTAGTTAAGAATGAAAAGAAAAGTAATCTTTGATAATATGTTTTAATTTGTCTTTCTAGACGCTTAATTTCTTCATCAGTTTTTTCTTCTCTATATGACTGATTTTCTTTATCTTTTCTATTTTCTTTTTCATAAGTACTATCTGAATAATCATCTATATCGATATCATTACCATCCCCTTGATTCGGATTTATTGTTAATCCCTGTTTAGAATTGAATTCTCCTTGTTCTTCAATTGCTTTTCTCACATAATCATCTTCTAAAATTGATAAATCTACAGGAATATCTGATACCTCATCTGAAACACTTCTTTGATTATTATACAAACTTACTGTCTCAAGTATATTTGTTGCTTCAACCTGACTAATTTTATTGTTATTCATTACTATAATAGGTGAAATTCGTAGTTCTTCTGTTATTCTATCTTTTAATTTTGAATTACCATTTTCTTCAATATTTACATTATATATTAATGATTTTTGTTCCTGCATTCTAAATAATCTATTAGGATCAAAATCTACCAGTAAAGTTTGTGGTTTTAAATTTTCTTTTATAATACCTTTTTCACTTGATAAAGTTTTAATATACTGATTTTGTAGTCTAAATATTGATTGATCGTATTCTTGAGGAGAAGAGGTATCTTTAAAATATATCATAGTATCCCATTGTTCTACAGTTGAACCTGTAAGCATTCTATTTACTGTAAGTGTCAACGTTTTTTTATTCTCCAATTCAAACTCTTTAATTTTATTTTTAATATCATTCGGTGTTTTATATATTTTGTTTGAATCTACTCCTGATATATTTAAAATTTTATATTCATTCAAATTTTTAAAAAAATCTTTATTTTTAATAATTAATTCTTCCATAGCATCACAAGATGCACAATAAGGCAATACCATAACCATATGTTTACACATTTTACCATAATCAAGAAATCCTAATAAATTTTCATCATCTTGACTTCCATCTATAACTTTTAATAAATCAATTATTTCAGATTCATTTTGAAATTTTTTGTGAGCATTATTTTTACTGTCTTTTTTTATAGATATAGGTTCAAATAATTTTGAAAATACAAAACTAACACCTTTTTTTCTTAAGGCTTCCATCTTTTGTCTTGATGATTTATTAGGATTAAATGCAAATCTTATCATTTGAGGAAACCCATAATATGGATTATCCCATTCGTTCACATCATCATTATTCAAATTATTCTTATCCCATTTTTCCTGTTCTTTAACTATATCAGAAAATTGTACAAAAGAAATAATATCTTCTTTTTCAAATTCACTTCCCATTAATATACGATAAGGTGTTCCTGAAAGATGTAATCTTATAGTCGCATTTATTTTCTTTATTTTTTTATTTGCTTCTTCAATATCCATACTATAATCAGATAATTTTTTAAAATTTTTATCATCACTTCTATCATATCCTTCATCTTTTAATATTTTTCCAAATGATTCAGCTCTTGCTCCAAAATGAGTTTCATCAACAATTAACAAGTCAATTTTTTCTTCAAAAAGTTGTCTGTGTTTATCCTTTATATTTTCTCCTTGTAAATCCTGTAAGGTTAAGAAAAGAACTACTTTCTTATTTTCTATTATTTTATCTTTTATAATTTTTTCATTACTAATTAAATCATTTACATCTAAAAATACATATTGATAAAAATTTCCTGCACTTTCTAGTGTTTTCTTCCATTCATCTTTAACATCAGCTTTAGCAGAAACTATTAAAACTAAATTAGCATCCATCTCTAATGCACAACAAAGCGAAGTAAATGATTTACCAAAACGCATAACTGCATACATTAATAAATTTTTTCTACCATTTTGTATTGCTTTTTTAAAATTATTTACCACTTCTAATTGATTTGGTCTTAAATTCCAATTAGCACCTCGTTGATAATGAAATGTTTTTAAAAGTTTATTATTAGAACTATAGTATTCATATTTATCTGTATTTTGTATATAATTGTCCTTTATATCTTCAATAGCTTTTTCAATATCTAATGGATACGTATCTTTAAAAAACTCCTTACTATAATATATATCATCATCTAAATCAGAACGTAATAATCTTATTTTTTCTAAATCATTTTCTAAAAATTGATGAACAGAATAATCCCTAAAGTATATTTCATTATCAATAACAGCTTTACATTCATATTGTTTTTCCAAATCTGGAAAAAAATTTTTCCACTCATTTAATCTTTGTGTAACGGATCTATATGTATCTCCAATTTTTAAATAATTAGGAATTGTATTTGTTGTAAAAGCGTAAATATGAGGCTCAACTCTACCAACAATAATTCTGTCTAATATGTCTATTGCTTCTATCTTCGTTTCTTTCATCTAAAATCCTTTCTTATTTAACAAATCTTTGAATACAATTTTTTTTGTTTGCTCTCCAATCTTTAATAACACAATAATTGTCATTGTGTTCTTCTTCAAATTCAAAAAGTAATATTTGATTATTTGAAGATATTGGTTTTTTAAATGGTATAGTATAAACTAATCCATCCATTTGCCATATATTCCAAGAAATAATTTTTGCTATTTTAATTAATTCTTTATCTGTTGGATATCTTTTAAGTTTATACATCATATTATCACAATAAGTAGCTAATAAATTTTCTCTAGCAATTAATAGGCTATCTCCTTGAAACTCAAAACCGTATACACTTTGAAATGCACGTTCACTCCACTTAAGCCAATCTTTTTCATTTTCTACATTTTCATTAACTACCCGTAATTTCCTATCTAATATACCTATTCTTTGATTAATATCTATATAGTTACCAGAAACCGTGTCATATCTACTTACAAGATATGGTGCTTCTCCACAAGTAATTTCTAATCTATTTTCATCTACATATTTTTCCCAAGATTTATTTTTTTCTTTAGGAAATTCTATTTTTTCAAATGTTGATTCCCAAGATTTATCTTTTTCAATATTAAAAATATTATTTCTACCAAACCACGCATTATCAATTAAATTATTTTGTGCATTACAAATCCAACTAGGTGTAAATACCTCTGCTTTAGCTTTAGTCCTAATAACCTGACTTTTTTTAGATTTTAACACTCTAGGTTGTATAACATTACTATTTTCTCCTGTTATCAAATGATACAATATATGATGTTTTGAATTATATGCATTACCAAAATGTTCATAATCATCTGTTGCCCAAATTATATTTTTATTTGTAGTTCTATCTATTAAAAGTATTTCTAAAATTTCTTTACTCCTCTTTTCTTCACTTATATCAATCTTTAAATCCATTTAATTTCCCCCGTTATAGAATATATTCAATATTAAACTTTTTATATATAGTCATTTTATACAAATCATCATAATTCTATATAAATTTAAATATGTTACCAAACTATATTTTTAATACTATTTTACCATATTTAAATCAATTTTTCATCTAAAATATTAATGAGGTCAAATTCAAAAAAATCCAACCTCTTATAGCTAAATATAATTATTTTTGCAACTACCAAAATGGTAGGTATTTATGTTATATCGTATTATAAAAATTTTGAACATTTTTCTGTTGGTTATATATATGAAGAATATATTTTATTTAATAAAATAGTTAAAATTATGACCCTCATAATTTCATAATATGAAATATATTATAAAATTACATAATTTAAATAAACACATTAAATTTAGTGTGAATAATATTTTGCTTATATTTCAACAATATTTTACTTTAAGTTAAATTAAAACAAAACATTAATTATTGACTTTTATAAACTACAAAAGTTATACTGATTATAGAAAGAATGAGTGGCACATTCCCCAAAAAAAGAAAGAAGGTTATTTCATGAAAAAAAATTTATTTATTTTTTCTATTTTGTTTTTAGGAGCTATTAGTTTTAGTGAAGGATTAAATGGTATCGAGGTTAAAGAATATAGCAATATTAATTTAAGTAAGGTTGAACTTAAGGAAAATGGTAATATTGATTTAAATGATGTTAAAAATACAGGAATTGTAGGAGATATTGTAAAAGATGTTGCCAAAGAATTGATTAAAGATTTTATTAAAGACAGTATTGATAAAGCTATAGATTATATTAGCGAAAAAGAAGAGTCTGAGGAAAAAGAAATATCAAAAGAGATTCATATAGAACAAAAAATATGTCCACCTGAATTAAATGGAACTTGTTTAACAGAGTAATAAAATGAAAACAATTCAAAATATACTTATGTTACCTAATATAAAAACAATTATAAATACATTTAAAATTTTATTTTTATTATTTATTCCAGAAGTTTTGATTATACTTTTATTTAAGGAGGTAATTTTTAAAGGTTCAATATCAGTTAATTTAGATCTTATAATTAATTTAATTTCACATACTATTTTAATTATTTTATTTAGTTATTTAACAAGACATAATAAGGAATATTACAAAATAAAATTAAAAAGTGTTTTTATAATTTTAAGTGCAATAATGTTAACATTGGCTTTAAACATAATTATGGATTTTTTTATTCAATCAAAAGAACTAACAACTCGTTTTAATGAAAGGATTATTCTTTACAAATCAGCTAATAAATTACTGATAATATTGTATATTGTAATATTTGCTCCAATAGAGGAAGAGTTATTTTTTAGAAAACTTATTTTTACATATTTAGAAAATCGTAAATTTGCATTAATTGTTTCAATAATTTTATTTGCATTTGCACATTCAATTTTTGACTTAAAAATATTTATTATATATTTACCTATTTCGATAATAATTTCTTTAATTTATTACAAAACAAATTCTGTAAAGATGACTTCTCTATTTCATATGTCATGGAACTCTTTAGCTGTTATTAAATATTTAATTTAATAGAGGTATAAATGGGGCTATTCATTTCTGAATAGTCTCTTTTTAAATTAAAAGGCTTAACTTCTATTTTACATAGAAATTAAACCTTATTAAAACTCTATTTTTCCTTACATTGTTTAGTTTTTAATTTTTTTATTAAAAAAGATATTAATTTTAGACAAAGCATATATATCGTAGTCAAAACAAGTTTAAATAATCTTCTTTGTAGTTTATCTTCAATAAAAATAACCTCATCTACAACAATTAAATTAACAATAATTGGTATAAAGATATATATAAGCAAATTAAAATATTTAAACCTATCTTGCATATATTTCTCCATATTCTCCTGGTAAAATTATTTTTGAAGGTTTACCTATATTATTTTCTTGTCTTTCACTATTTTCTTGTCTTTCATTATTTTCTTGTCTTTCATTATTTTCTTGTCTTTCTTCTTCATTTTTTTTACTATCATCCTCATGTTTACCACGAACTTCATCTATAATATATTTCCCAGCACCAACAATTCCTCCACCTACGAATCCAACAGCACCACCTCCTGCCGCACCTGAAACAGTTCCGACTATTGGTAAAGTATATGTCCCTCCAAGTGAACCTGTAATTGCTCCGTTTAAAGCACCATCTATAGCTTCATCAAGTACTTGATCTAAAAAATCTTTATTATTCCAAACTTCTTGACGCTCATTTAAATAATCATTATTATCTTTTAATAAAATTCCAGTATCACCATTAGAAAATGATGTTAAAGATGCTAAAAAAATTGTTAGTCCTAAAAAAACTTTTTTAAATTTTGACATAATGTACCATCTCCAATCTATATTTTATCTTCAATATCATTTTAACTTTAAGAACATAATTTGTCAAATGTTAAAAATGTAACTTAAATTTAATGTTAAAAATTTTAAAGTTTAAATATTCATTTTTACAACCATCTAATTTAAAATAAAACATGTATTTTATACTATTTCCATAGGTTTCTAGTATTTTTTTTATATCTTTATTATCTACAATTTACATTGTATATGAGAGATTATTTTTTAAAAAATATTATCATTAATTCTAAATATTTCATAATGTGTAATTAAATTATATTTTTTAAAATAAAATACACCTAAAACCCTTTATATTTTCTCTTTAAACTATTTAAATACATCTTTTTATCTTTGTCTACTTTTAGACTTTCTTTCATTTTTTGTATAGCCTTATTATGTACCCAATCATTTACTATTTTGTTATTTTCTAAATATTCTAAAACTTCTTTTTCATGTTTTATGTAGCATTCACAAAAATACCAAGCTATTGCCATGTTTATATAATACTCATCTGTTTGTATTTTAGATAATAATTTTAGGTGATTTTCATTAAAGTTTTGTTTAATAAAATTAGTTCTTAATATTGTTACAGCATATCTTACAGTGTATACATGTTTAGATTTTAACCACTCATAAACCTTTTTTTCTATAATTTCAGGATATTTTTCAGCTACCTTACCTATCCCTATATCACAAGTTGCCCAATTATCAATGAAAGGTAAAAATTTTTCTGTCATAGATATTAATGTATTTATGTCTTTTATCTCATTTAATAAATACATATGTATATGATTTTCTTCCATATATTCATGTGGAAGATTATTTAAATATTTTTCTTTATCTTCCTTTGATAGAAATTTTGCAAATTTTTTAAGATCTGGCATTCTTACCCCAACTATATTTTCTACTTTTACTGTAGGTATAAGTTTAGCACTAAATTCCCTATAACTTAATTCTTGTTTAAAAAAAAGAAATTCTTTTACTTTATCCATATTTTCTTTCCTTTCTGTAATGTTATAGAAAAAATAAAGGCAATAATTGCAGGAACTAACCAACCTAAGTTTAGACTATAGAAAGGTAAATTAATAAATACAGGATCTAATATATTCCCTATATATTTATTTAAAACCATACCTATACTAAATATTAATGTTGTATATACACATAATCTAAATACTAATTTAGAATTATCAAAATATTCTGAAAATAGTCCAAGCAGTATTAAAACTAAAGATACAGGATATATTGATAATAATATTGGGATAGATATTTTTAATATATTTACAAGTCCAAAATTAGCTAAAATAAATGATATTAAAATGTATGTTATAACCCAAGCTCTATGTGAAACTTTCGGATAATTTTGATTAAAATATTGACTTATAGATGTAATTAATCCAACACTTACAGATAAACAGGCTATAATAAATATAGTTCCTAAAATTAAAGCTCCTAACATTCCATAATTCATTTTTACTACATTAACTAATATATCAGCTCCTGTTTTTGTATCAGGGAAATGACTTGCTGTAGCAAGACCTATATATGTTAGCATAAAATATACAATAAATAGTATTATTCCAGCTACTATTCCAGCCTTTATAGTTATTTTAGTTACATCTTTTTCATTAGTTACTCCTAAACTTTTAATTGCAAATGCTATTATTATTCCGAAATTTAATCCTGCTAATGCATCTGCTGTATTATACCCTTCAATGAAACCTTTTATAGCTGGTGCTGATATATAATCTCCGACAGGAGCTACCATATTAAATGGTTTAAATATTACTCCTAAAAACATTAATAGTATTAATAATAATAAAATAGGTGTTAATATCCTACCTAAAGTTGTTACAATTTTTTTAGGTTTCATAGATAAATAATATACTAATGAAAAGAATACTATAGTATACATTAACCTATAATAAATCACATTATCTAAATTTGTAATATACGGAGCAATTGTAATTTCAAATGATGTAGATGCATTTCTAGGTATAGAAAGATACGGTCCTATAGTTAAATACATGGCTGTTGTAAATATTAATGTAAATGATGAATCAACCATATTGGACAATTTATTTATTCCATTAAATTTTGATACAACTATTACCCCAAGTACCGGGAAAACTATTGCTGTAATTGAAAAGAATATTAAAGAAATAAAGGCATTACTTCCTGATTCTTTTCCTAAAATTGGAGGAAATATTAAATTTCCTGCCCCAAAGTATAATCCAAAAATCATTATACTTATACATCTAAATTCTTTTTTTGTTAAATTCCTCATTCTCACTCCTCTAATCTTACAAGTTGGGCTTATTATACAATATTTATATAAGTTTGTAAAATATATATTGTATTAGAAATCATATATTTTATATATATACCCATTTTTAAAAGATTTAACCTTTTGAAAAGTAAAAATCATTCCATATTATGAAATTATTAGTATAAAACTTGATTTATTACTTTAAAAATGTACAAAAAGTTCAAATTCAATGAAAATTACATTTTCAACATTTGACTAATTACACTTTTAAAGTTAAAATAATGTTAGAAATATCTGATAAATTTAATGGATAAAAATAGTTTCTTGAAAGGAGAAAATATGAAAAAACTTTTTTTAGTTGACTTAATTGCAACATCTATAATTGTTTTAATACACATCAATATTTTACCCCGTTATATTAACTCACAAAGTAATGTAAGTAGAATATTTTTTTTAATGCTATTATCATACTATAGTATAAGATATTTTATAGTAAAAAACTTTAAAAGTTAATATGTTACTTAGAAATAAAAATAGAATAAAGGAGAAAATATGAAAAAACTTTTTTTAATTGATTTAATTGCTTCTTTTTTAATTGTTGAAACACATATCAGTGTTTTACCTCGTTATATTAAAACATGGTATATGCAATCTCTAATAGTGGTGTTAATTCTGGCATCTTACTTTATTATAAGACACTTTATAATAAAAAAATTTAAATAACATTACATAACATGTTTTATAGAAAAGAATACTAAACATGAAAAAAATAACTCTATTTGATTTAACTGCTTTATTTTTTATTGTTATTATACATGTTATTATTATGCCCATGTTTATTCATTTATGGTATATTAATGTTGCAATACTTTATTCAATGTTTGCAGTATACTATTTTATAATAAAAAAAATTAAACATTAAATTATAATGTACCTCAAAAATGAGGTACTTTTTCTTTAAAATCAACAACAGAAAACTTAAAAACATTACACATTATGAAACATTTAGAATTAATGAGAATATATTTTAAAATATTTTTGAAAAATAGTTCCTCATATACAATGCAAATTGTAAATAATAAAGATATAAAAAATAAATACTAGAAACCTACGAAAATAGTATAAGAATACATGTTTTATTTCAAATTAAATTATTGTAAAAACAAATATTCAAACTTTAAAATTTTAACATTTAATTTAAATTATTTTTTTAACATTTGACCAATTATATTTTTAAAGTTAAAATAATATTGAACATAAAATAAAGAACGTAGATGACACATTATGTCGAAGATTAAAAGAAATCTAACAATATTATCTTTATTGATTATTCCTACATTAGGATTTTCTCAAGAAAGTAAGGAGAATTATGAAGAAATTAATAAAACCTCTTCAATAATGCTTATTAGTAATGAAAGTCCAGCAGTTAATAATGAAGATATGGTTGAAGTTGGTGAGATTGGTAAAAGTATAGGAGGAATTATTAGTGCAGCTGTTGGTGGAGTTATAGGAGCTTCTACAGCGAACCCAGCTGTTGCAGGTGCAGCAGGTTATGCTGCAGGAGCAATTGGAGAAAAAATCGGAGATAAAGTAGAAGAAAAAATAAAAGAAGTAATAAAAGACTACAAAGAAAAAAAACAGGATGAAAAAGAATCAAATAATAAAAAAGATTATCAAATAATAGATTCTCCTGTAAAAAGTGATAGCGATATTGTAACAGCTTAATTTATTTCGTCTTATTATCGAAAATAAACATATTGGGATTAACTTATTAAAAAGTTAATCCCTTTTTTATTTTAATTGAAAATGCTGTTTTAGATATATAAAATATATTAAAGATGTTTTAATCAGTATTCTAAGTTTATGTTGTATGTATTAAGAAATTTGTCATATTTTTTTTTATTTCAGTATATCTTTTAAAATAGTTTGATTTACAAAATAAAAATGTTGAAAATCCAATTAAAATTATATATAATAGTAAATAGTTATTTAGTATTAAATTACTAAACAAGTTAAAAATAGTTAAGGAGATTTCTTATGAAAAAATATTTGTCATTTTTAATAAGTGGACTATTAGTATTATTACTATTTGCTTGCTCAATTAAAAAAGAATATGAATCTACAAAAGTTAGAACTAGAAAGGGGAGGGCAACTAATGAACTTGTAGTTTCTATGGGTTCAAGAATAAGTGAATTTGATCCAAAAGATGGATTTGGTACGCATAATGAAACACATATATTATATAGCTCATTACTTAAAAGAACGGCTGATCTAGAAATAGTTGGAGATTTAGCTAAAGATTATACAATATCTAATGATGGTTTAATGTGGACATTTGATTTACATGATAATTTTAAATTCTCAAATGGTGAAATGGTAACTGCTGAAGATGTTAAATTTACATTTGAAATGTTAAAAAATGACGGTAGAAATTGGGATTTATCATTTATAGATAAAATAGATGCACCAAGTAAAACTAAAGTTATCTTTACTTTAAAAGAACCAAGATCTACTTTTGCACAATCTCAATTAATAGAAGTTGGTATTTTACCTAAAGCTCATTACAATGATAATTTCAAAAAAAATCCTATAGGTTCAGGACCATATAGATTAGTGGAGTATAAACCAAATGAACAAGCTATTTTTGAAGTTAATCCATACTGGCATGGAGAAGAACCATATTTCAAAAAATGGACTTGGGTTTTATTAGATGAAAATACAGCACTTGCCGCACTTGAATCAGAAGATGTAGATATAATTTATGCGACACCTGAATTTGCAGACAAGAAAATTAATGGTGTTAGCCTATTTGATATACCGTCAAATGATGTGCGTGGATTATCTCTACCTTATGTTAAAAAAGGAGTTGTTGAAAGTTCTCCTAAAGGATATCCTGTTGGAAATGATGTTACTAGCGACCCAGCTATAAGAAATGCACTTAATGTAGGGTTAGATAGACAAAAAGTTATTGATACTGTATTAAATGGTCATGGTAAACCTGCATATTCTATTGTTGATGAAATGCCATTCTGGAATCCTGATTCTATAATTAAAACTAATGATATTGAAATGGCTAAGAAAATTTTAGATGATGCTGGCTGGAAAGTTGGAGCAGATGGAATTAGAGAAAAAGATGGTCTAAAAGCTGAATTTGAATTATACTATGCAACAAAAGATCAATTAAGAACTAATGTAGCTGTAGAAGCTGCAAACCAAGCTAAAGATTTAGGAATAAACATTAAACTTGTTGGTAGTGATTGGGAAGAGATTATAACAAAAATACATGAAATCTCTGTTTTATATGGTGGAGGAAGACTTAACCCAGTTCCATTATATGATTCATATCACCCAAATTTAATACATAAATTATGGGGAAATGTAACTTTCTACAACAATACAAAAGTTACTGAATACTTAGATAAAGCTATTAAAAGTCCAAGTCTTGAGGAAGCAAACAAATATTGGAAGCTTGCTCAATGGGACGGAGAAACAGGATTATCTATAAGAGGAGATTTACCAAATGTTTGGTTAGTTAGAATAAATCACACTTATTTAGGTGATAGTAGAATTAATGTTGGTAAACAAGGAATACATAGTCATGGACATGCTTGGGGGTTAATAGCAAATATTAATGAATGGACATGGGAAGAAAATAATAAATAAAAGAAAACTAAAAGCTGGTTTATTTTAAAATTAATTTTAAGATAAATCAACTTTTTCAAGGAGAAATAAAATGAATAAAAAAAATATAGTTTTTATTTTCAACAAACTTTTACGCTTAATATTTTTACTTTTTGGAGTATCTGTTTTTTCTTTTATTTTACTTAAATATTCACCAGTAGATCCCGTTTTAGCAAGTGTTGATTATGACATGAGTTTAACAAATGAACAATATGAAAAAATAGCAGAGTATTATGGCTTAAATAGATCTATATTTACTCAATATTTCATATGGTTAAAAAACTTTATAACAGGAAATTGGGGTAATTCATTAATATATAATAAGCCTGTTATAGATATTGTTAAAAATCGTGCAATGTCATCATTTGCACTAATGGGAGTTTCATGGGTTTTATCAGGAGTTATAGGCTTTATTTTAGGTTCTCTTTCAGCATTTAAATTAGGTAAAATATTTGATAAAATGATAAAGTTTTTTTCATACTTACAAGCAAGTGTTCCTACTTTTTGGATAGGATTAATATTCCTCCTTATATTCTCTGCACAATTAAAATGGTTTCCAATAGGTTTATCATCTCCAATAGGAGTAATAAGTACTCAAGTTTCTTTTATTGAAAAAATAAGGCATTTGATACTTCCTGCATTTACATTAAGTATACTTGGAATTGCAAATGTTACCTTACATACAAGAGAAAAAATGATAGATGTTTTAAATAGTGAATATGTAACTTTTGCAAGAGCAAGAGGAGAAAATAATTTTGAAATATTCAAAAATCACTGTATAAGAAATGCAATAACACCCGCAATAACATTACATTTTTCATATTTTGGTGAACTATTTGGTGGTTCTGTATTAGCTGAACAAGTATTTTCATATTCTGGTCTTGGTTCTACATTAACTCAAGCTGGTCTAAAAGGTGATAGTCCTCTTCTTTTAGCTATAGTTATTATTGGAGCTGTATTTGTATTTTTAGGTAACATGATGTCTGATATATTAAATAAAATTTTAATGCCAAATTTAAGGAGATAAAATGAAATTAGATGCAAGAATACGAGTGATTTTATCAATAACATTTTCTATATTTATCATAGGACTTGTATTGATATTAAATATGAGTTTAAGTGATGAAGGGCTTAAAACAAATCATGTTATAAAAAATTTACCTCCATCATGGGATTTCATATTTGGAACAGATTCTTTAGGAAGAAACATGTTTGTAAGAACTATAAAAGGTTTAAACTTTTCTTTATTAATAGGAGTATTAGGTGCAACAATAGGGGTAAGCATCGCTATAATTCTAGGTGTATTATCTGCTACAAGTAATAAGAAGATTGATTTAATAATAATGTGGTTTGTTGATTTATTCATAGGAATGCCTCATATTATTTTCATGATTTTAATTTCTTTTTCTGTTGGAAAAGGATCTAAAGGAATTATTATTGCTACTGCAATAACTCACTGGCCTGCATTAACAAGAGTGATAAGAAATGAAGTTTATAGTATTAAAAATTCTGAATATATTTTACTTTCAAAAAATATGGGGAAAAGTAAATGGTTCGTTATAAAAAAACATATTTTACCTATAATATTCCCTCAAATTTTCATAGGTTTTGTGCTATTATTCCCACATATAATATTGCATGAGGCATCTATGACATTTCTAGGATTTGGTCTATCAGTTCAAAAACCATCTATAGGAATAATATTATCAGAAGCTGCTAAACATATTTCACTTGGAAATTGGTGGTTAGTAGTTCTACCTGGAGTAGCATTAATACTACTGGTAAAATGCTTTGATAATATAGGTGAATCATTAAGGATTTTAAATAATCCTCAAACAAGATATTTATAGGAGGAAAAATGAAAGATACATTGTTAAAGATAGAAAATTTATCTATTTCTTTTGAACAATATGGTAGGGGCTTAAAAAAATTTACTACTACACCTATTGAAAATTTAAATATTGAAGTTAAAAAAGGTGAAATATTAGCTATTGTAGGTGCAAGTGGTTCAGGTAAAAGCTTATTAGCTCATACTGTTATGGATATATTACCTCCTAATGCTATTGTAAATGGAAAAATTTTATACAAAGATGAAATTTTAAGTAAAGAAAAGATAAAAAAATATAGGGGTGAAAAGATTACTTTTATTCCACAATCAGTAAATTATTTAGATCCATCAATGAAAGTTAAAGATCAAATAAAAATTGGACTGAAAAATATGAAAAAAGAAGAAAAAGCAAAATTACAAAAAGAAATATTTGATAAATTTGAATTAAAGGAAAATGAGATAGAACTTTATCCGTATCAACTATCTGGAGGAATGTTAAGAAAGGTATTATTTGCAACAAGTATTAAGATGAATACAGAACTTATTATTGCAGATGAACCAACTCCTGGTATTCATCAAAGTGTATTAGATAAAGTTTTAAAACAATTAAGAAGTTTTGCAGATTCTGGAATTAGTGTAATACTTATCACACATGATATAATATCTGCTGTAAAAATAGCTGATAGGATTACTGTTTTTAAAGATGGAAGAACAATAGAAACAGTTCCAAGTAAATTTTTTAGTGGTGAGGGAGAAAATTTAAAAGAAGAATACTCAAAAAAACTTTGGAATGCTCTACCACAAAATAAATTTTTGGAGGTTAGATAATGTCATTGAAGGTTAAAAATTTAGGTTTTTATTATGAAAAAGATGAATGGATATTTAAAGATTTAAATTTTGAGCTTGCTCAAGGTGAAATTCTTGGAATTTTTGGTTATAGTGGTTGTGGTAAATCAAGTTTAGCAAAGGTATTAGCTGATTTTCAAAATCCCATATGTGGTGAAGTCATTATAGATGATAAAGTTCATCAAAAAAATTCTTTTAGAGAAGTTCAATTAATTTATCAACATCCTGAAAAAATAATGAATCCATTATGGAAAATGAAGGATATACTTAAAGAAAGTTATAAACCAGATAAAGAATTATTAGAACTTTTTGGAATTAAAAAGGAATGGTTAGATAGATATCCTATAGAATTATCTGGTGGAGAATTGCAAAGATTTTCTATTGTTAGAGCTTTTAATAAAAAAGTAAAATATTTGATAGCAGATGAAATGACAACTATGCTAGATGGTGTTACACAAGAATTTATATGGAAAAATTTTCTTAAAATTGTAAAAGAAAGAAACATAGGTCTTATTATAATAAGCCATGAAAAAGATATAATAAATAAAATATGTGATAAGTGTCTATATATGGATACTAAAAAAATAGTAAATATTAAAAAATAAAATGGGCGTAAATATTGTTTATCGCCCATTTTAAAATGTATAACCTGCTTTTAATCCAAAATATCCTTGTAATATATCTACAAAAAGCCCTACATTATATTTATCATTTATTTTAGTTCCTACAGTAACATTACTTTCAGGTATAAAATCATAAATTACACTTATTTTTTTACTTTCAGTATCTTTACTACTACTATTATTTAAGTTCATAAATGTTCCCATTCCTATTAAACCATCTATACCTGTATAAAACTTAACATTTTCTCTTATATTATAATTAAACTCAAAACCAGCACCTGCAGTAATTCCTAAAAAAAAGAAGATATTTTTTGCTATATGTGATATATTAAGTAATTTAATTCTTGGACCAAAATTAATATCACATTTTTCATTAATTTTCAATTTCCAATCAGAAGAAAATTCAATAAATCCTTTACTTTCTCCACCATAATAATATGTAACCTTTGTTCCATTAGGTTCTGTTGCTTTTTGAACTCCTTCATTTGAAAACGTTGAATCAACTGCAACTTTTCCACCCAGTCCCATTTCAAGTCTGTATTTGGGCCCCGAAATATTTAAAGAAAGTGAAATTATACCTAATAATGGTATCATTAATAATTTTTTCATTTTTTATTTTACTCCTAAAATTTTTTAATAACATTATACCCCCCCCCCGATATATTTTGTCAATTGTTTATTTTTATAATCTAAAAAACAATCAGTAATTTTGTCTTACTACCTAAAATGTATATATTTACTACTTATCTATATCTTTAATTAAATCTGCTAAAATACCATTTATGAAAGTTTTAGTTTTTTCATCTCCATATACCTTAGATAATTCTACAGCTTCATTTATAACTATCTCATGTCCTACCTTTTCAAATAATATCTCAAAAAATGCCATTTTAAGTATTACTTTTTCTGGTGTAGCTAATCTTGAAAAAGTCCATCCTTTTATTTTTTCTTTTATTTTTTCTATTATTTCACTTTCATTTAGCATAAAATTATTTAAATAATTTTCTAAAAATTCTCTTTTAGAATTGCTAATTTTTAAAGTTTCAAGTACTTCATCTTTTCTTGCAATAATATCAGAATTAACTACTTCATGTTCAAATAATATTTTAAAAATCTCATTTCTTACTTCCCTTTGGGTCATACTATCTCCATTCCTAAAATTCTGGTGTTGTTTCAACTATTTCTTCATCTGTCATATCATTTAAATTAACATCTTCTACAGTAACTGTATCAAATATTTTTTCTTGATTTATTTTAACTATTTTAAGACTTACATCTTTGACTACTACCCCTGTCATAAGATTTATATATTCTTTTAATTCATTTTGCACAACAGATAATCTATCATTTAAATTCTCTATATTATATGTTTCAACATTTGCACTAATTAGTATTTTTGAAAAATATGAATGAGAAACAACTCTAGCTGTTTTAATTAATGATTTTTGTTCTAAAAATATTTTAGAAATATCATTAATTGTATTTAAATCTACTTCTATTTTTCCATCTTTACCTTGTGATTTTACTACCTTTGTTTTTTTAAATAACTTTTCTAATAAAGATAATAGAAAAATTATTAAATATCCTATTGCTAAAAATCCAACAAATCTTAAATATATTACATATGGTATTACTTCATCAAAATATGTTGTATAAAAAAATGTATCTGAAATTGTCATAAATCCTAAAACAGGTAAACTTAAGAAGACTATTACTTTAATTAAGCTTGATAAAAATCTAAACATTTTCTCCCTCCTTATTTATTTTCACTATGTTAGTTACATTAACATTCACTTCATTTACTTTTATATCTGTTAATTTTTCAACATTTAATTTAACTGTTGATTGGAATAATTTAACAACTTCAACTATATTTTTACCAAATTCTACAACTATTCCTAAATCTATTACGCATTCTGTTTCACCCAATTCTACATCTATAAATTTAACATTACCTAACTTAGTTAAGTTTTTTAACATATTTATACCTTGAGTCTTACTTACTTTATCAGAAATTTCTACAACTCCTTCTACTTCTGAAACACTTTCTAAAACTATATCGCTTATTACACTTGGAGATATTTCAATTCTACCAAAACTATTCATATTAGTCCTCCTTTTTAACATATATCTTATTATATCAATTGAGTATTCTTTATTCAAGTTTTTATTTGTAGTCTAACATTTTCTTTTCCTAAAAAGGCTATCATTTTTTTTATAAACTCTTTATTTAGATTAATTTGTTTTATGTTTTTCTTATTTTTCTCTCCAAAATATATATTTAATATATCATTTCCTCTATGTTCTAATATATATTTTTTAAATTCTTCCTTATATTCAAAATCTTCATTTATTTTTACACTAATATTGTATTTTGAAAAATCATTTATTTTAAATGCATTAACTATATTGTATTTATTATTTTCCACTCTGTTTGACTTAAAACATATTATATTACCTTTTTGTATTACCTTAGAAAATCTCATATATTCTTTAGGAAATATTAGATATTCCTTACTTCCTTCAATACTTAATATATTAACTATATTCATAAGTTCATTTTTCTTGGTAACCTTACTTTTTTCAGATTCTATATATCCTATAACATATTCATTACTCTTAAATATGTTGTATACTAACTCACTTTTTAATATTTGTGTATTTCTCATACTTAATTTAACATATTCTTTTTCAAGTTTTATTATTTCATCATCGCTCATCTCATCAGTTTCCATCCACTTATATTCTTCTATTTCCATATTCATATTCAAGAAAAGTGAAGAATATATATCTGTTTGAGATTTATTTCTCTTATCAATCCATTTAATAATATCTTGTAAATTAACTATTAGTTTTTTTCTACCTATATTAAATTCATCAAAACAACCAGAATAAATTAAGCCCTCAAGATTACTCTTATTTAAAAATCTACATCTTGTTATGAAATCAAAAATATCTTTAAAGTTACCATTTTTTTCTCTTTCTTCAACTACTTCCCTTGCAGTTTTTTCTGACATTTCTTTAAGAGCACTTAAAGGTATTCTTATTCCATTTTCTTCTATTTCAAATTCTGCTGTTGACCTATTTATGCTAGGTGGATACATCTCTATATTTCTTTTAAGCATTTCAGCATAACTATTTACTAATTTTTTTTCTACTTTAAGTTCTGTAGTTAAAAGACTTGCAAAAAATTCTCTTGGATATTTTGCTTTTAAATATGCTGTTTGATAGGTAATATTTGCGTAACTTATAGCGTGAGCCTTATTAAATCCGTAATTTCCAAAATTATCTATTAAATCATATATTTTCTCTGCTCTCTGTTTAGGTATAATAGCATTTTCTATAAAATCTTTTCTATTCTGTTTTAATAATTCTACATTTTTCTTACCTATAGCCTTTCTCAACTCATCGGCTTTAGCTAAACTATATCCAGATATTTTTTGAGCTATTTCCATTACCTGCTCTTGATAAACCAAAACTCCATATGTAGGTAATAATATATCTTCTATCATAGGATCTACTGTTTTAATCTTAATATTCTTGTTATTCTTCATTACAATTAAACTAGGTATTAATCCACTTTCTAGTGGACCTGGTCTATATAAAGCTAATAACAGGGCAATATCTTCTAAAGAATGTATCTTTAAATTCATTGCAAGCTGAGTAATTCCTCTTGATTCACATTGAAATATTCCTATAGTATTTCCTGTATTTAATAAATTAAATGCTTCTTCATATTCAGGTAAATTATATATATCTATATCTTCATTAACTTTTTTAATTACATTTTTTACTACATTTAAATTTTTTAAACCTAATAAATCCATCTTAAGATATCCTAAAGACTCTAATACATTAGCCTCAAATTGTATTTGATAATCTTTAGTGTAACTATCATAGATTAATGGTAAATTCTCCCTCATATCTTCCTTAGTAATTATTACTCCAGCAGCATGAGTAGAACTATTTTTTATCTTTCCCTCTATTCTTTTTGCATAATCTATTAAGGATTTAACCATCTCTTTACTATCACTAAGCTCATCTAAAGATTTTTCTTTAGACTCATCAAGTAATTTCCTAATACTTTTTTCAGGTATTTCAAAAACTCTAGCTAAATCTTTTAATGCAAGTGTTGGCTTAAAAGTAGAGAAAGTAATAATTTGACTTACATTTCTACTACCATAAGTTCTTTTAATATATTCTATTAGATCTATTCTTTTTTCTTGTTCTATATCCACATCTATATCAGGCATAGATATTCTTTCAGGATTTAAAAATCTTTCAAAAATTAGTCCATATTTTATAGGATCAAGTTCTGTTATTCCTAATAAATATGATATAATTGAACCAGCAGCTGATCCTCTACCTGGACCTATGAATATGTCATTTTCTTTGGCATATTTAATAAAATCATGAACTATAAGGAAATATTTAATATATCCCATTTTATCTATTACATTTAATTCATAATTTATTCTATCTTGTATTTCCTTTGTAATATTTGGATATTTTTTCCCTATATTTTTTTCTAATATGTTAATTATATATTCTTTCTCACTTAAACCATCTGGTAATTTAACTAAAGGAAATTCAACATTTTTATTATCTAATACTATATCTATATCATTTAATATATCTTCTCTTTTATCTTGATTATTTATAATAAAGTGTAGTCCATCCTGTTTTTTTTCATTTTGAACTGTTTTTAAAGTTCTGTTTTCTTTAATAGCTGCAAATATTTTTTGTAATATTTTATCTTCTTTTTCTAAATAATATATTTCATTTACTTCTATACTTTTAACATTTAATTCATCTACCAATTTATCAAACATTAATCTTTGATACTCAAGCATTTCAAACATCGGAATTTCTAATATTATGTCTAGTTTTTCCAACATAATTTCCATAAGTTTTTTCACTTTTTTATAGTCATTTTTTAAAACATAACTTACTAATTCTGAATTAACTCCACCACTTAATATGTATATATCTTTACCATGTTCTAATAGGTCATCTAGTAATATGAAATTTCTTTCATGACTTATTGTTGATAATTTATATATATTTTTTACACCTTTTTCATTTTTTGCAAGTAAGGTAAGTGTGTATATATTTTCTTGATCTAAAAATCCTTTTAAATGTATTTCTATTCCTATTATTGGAACTATATTATTACTTTTACAAGAATTGTAGAATTTAATAGCTGCAAACATGCCAAAATCTGTAATAGCTAGTTCTTTTATATTGTTTTCTCTAGCTTTTTGTACATATTCTTCAACACTACCTACACCTTCAAGCAATGAATATTCTGTGTGTATTCTTCTTAGCATGTTTAAACCTCCTTACTTTATTATATCATCTAGCACTTTTATGAAATAATCTATTTCTTCCTTTTTATTTTGTATAGATAAACTTATTCTTATAGATGATTTAGCTTCTTTTTCACTAAGTCCTTGTTCCATTAAAACATTAGATGCTTTCATTGCACCACTTTGACATGCTGAACCTCCTGATAAAAAAATACCTCTCATATCAAATAAAGGTAAAAGATATTCTATATCTTCATCTTTTATTTGTATATTAATAATATGTGGTATAGTATTTTCTGAATTATTTAATATGATCTTATCTCCAAATTTTTCTAAATTTTGTATTAGATAATCTCTTAAATTTTTAATGTATTTAATATTATTTTCTATATTATTTGATAAATATTCATATACCTTAGCAGAAAATATTATAGAATGGACATTTTCTGTTCCTGCTCTTCTATTTTTTTCTTGATGTCCACCATGTATATATTTTTCTATTGAATGTTTAGATGAAATATATGCAAATCCACTACCTTTTGCACCATGAAATTTATGAAAAGAGGCTGAAATAGCATCTACATTAAATAGTGCTAAGTCTAATTTTTCCCTTAATATTAACTGTGTCATATCACTATGAAAAAAAATATTTTTTTCTTTAAGCATATTCCCTATTTCTTCTATAGGCATCCTAACACCAGTTTCATTATTAACTGCCATAACAGTTACAAGTATAGTATCTTCTCTTAAATTTTTTTCTATTTCTTTAGCTTCAATAATCCCTTTATTATTGGGTTTAATATAGCTTAGAGTAAAACCTTTTTCTTCAAGATATTTACAAACATTTAATATACTGAGATGTTCTATAGATGAAGTAATTATATGTCCTTTTCCTTTACTTAATGCTACACCTTTAAGTATCATATTATTAGATTCTGTAGCTCCTGAAGTAAAGAAAATGTCATTAGTTAATACATTGAGATCTTTTGCTATTACTTCTCTTGATTTTTCTAACATATATCTTGTTTTCTTACCAGGACTATGCAATGATGAAGCATTTGCAAAATATGTTGTATATATATTTAATAATTCTTCTTTAAATTCATCTAAAATTTTTGTAGTTGCAGCATTATCTAAATATACTTTCATATTAACCATTCTCCTTTTATTTTAATATATTCTATCATGAAAATATAAAAAAGGATAGTATTAGAGGAAATGATATATGTTTAAATTGAAGTTTAAATTATTTTTTGATAAAATTATATATATTTTTATGAAAGGACATTTTATATGTTTTTATTATTAACGATTAATTTATTTGCATTTATATTTTTTGGAATAGACAAATTTTTTGCAATAAATAATATTTCTCGAATTTCAGAAAAAACATTACTTTCATTATCTTTTTTAGGACCATTTGGAGCTATTATTGGAATGAATTTATTTAGACATAAAACTAAAAAACTTAAATTTAAATCTGTTTATCTATTTCTGTTATTACACTTATTAATTATCTATTATTTAAAATATTAAAAAAGAGAATTTCTAAAGCTACTGAAATTCTCTATATATTTTAATGATTATGTTCCCCATCTACACAGCCACATTCACTATGACTTGAATTTATGAGTTCATCTTTTATATTTTCTTCTTTGTATTCTTGTATAACTGATGAGCAAGAAAATATTGATATAAGTATAAAAGTATAAATAAATTTTTTCATTTTACCTCTTTTCTAAAAAACATATCTCAATTCTATTTTAGGGTTTAAATGTATATGATGTTTTAATTTACTGCCTTTTTTAAGCTTTTTATTTAACTCTAAAGTTGTAGAAAAAGATGTATTTAAATAAAGGTTATCTATCATTTCATATCTTAATGCCACATATGACCTATTAATATATTTAAATGCAAAAGTTAATTTCTTGCTTTCATCTAATATATCTAAGGCTTTTTTTACATTCTCATCTACATTAAATTCATTGTATTTTTCATTATATTTTCTTTCTTCCATATTCTTCTTATTATTTAATTTTGTTAAATCTATAAGTATTTTTGATTTAACACTTGCATATAATCCGTTACCTCTGTATTCTAATAGTTTTTCATATTTTTCTGCAAATTTTTCTTTATCATTAATATTCAATTTATCTGATATTTCTTTAATTTTTTCTTTTCTTTTTTCTCTTGTTTTCTCTCTACTTACCATTAAAAAACTACTATAATTCTTACTACTAATATTATTTTCTTTTTCTAATTTTGCTAATTCTTCAAGTTTTTCTTTAAAATATTCTTCTATTTTATCATATGTTTTTTCTTTTATTTCATCTTTAATTTCTTTTTTTCTATCTTCTAAATCATCTCTTCTACTTTTTTGTTTTTCTAAAGCATTTTCTATTTCTGAAGTAAAATCCTTCTTTTTCTTGTAATCATCAATTTCTTTTTGTTTTTTATCTATATTTTCTTTTAGTTTTTTTAATTCTTCTTCTCTTTTTTTCTTGTCATCTTCTGTTTGATTTTCTAACATATTTTTTATTCTTTGTTTTTCTCCTTCATAAGCATTTTTTCTATTATTATATGCTTGTTCATATACATCTTGATATCTTGCATTAAGAGTAAAATTATTATCCATACCTAATAATAGATTAAACTTTTTATTTAATGGATAAAAATATGTTAAAGTTGTTTTAAGTGTTCCCTCAATTTCATTTATTCCCTTGTATACATTAGAACCTAATAATTCTAATTCAAAATTTTTCCTTCCCCTATTATTTTCTTTAACAAATATATCTTGATTTAAGTTTAAATATGTAAATTTTGTTCCTATATTAAAATCAAAATTTTTAATAATTTCTCTTTTTAAGAGAGCATCTAAAACTAGATTTTTACCAGTTATTTTAGAAACTATTTTATTGGCTAAATTACTATGTAAATTACTTTTTCTATAACTTGCTGTAAAATCTATTTTATTATTTAATATATTTAATTTTTTATTTATAGAAAAATAGTTTGAATTATTTCTAAATTTATATTTACCCCCATATTCTGATTCTGCATGTCTAATACTAAATTCAAGTTTAGATAATTCATTTAAATGACCACCATGATTATGCCCATCATCTTCAGAAGATATTTTTGATTGTTTATTCTTCATATCTATCAAATGCCTTGTTTCATCTTCTGTTTTTTTATGCTTATATACCAAAGTTATACCCAAATCTTTTAAAATATATTCAATACCTAACTCTTTTGATAATATTTCATTTTCTATTTTTTCTATATTAAAATTTGTTTTAAGTTTATTATCATATTCTAAAGAAATTTTATGTAAAATATTATTATCTCTTACCTTATGATACACATCATCCCCAATATTATATTTAAATCCATATCCAAATCTTACTTTTTTAAATTCTGGTGTTTTTAAGTTTAAACCTAAGTTATAGTTATATGTATCTATCCTTATTTTATTTGATTTATTCTTATTAATCGCAAATTCCACACCAATATTATCTGAATAACTTAGATTAATTTTAAATGGACTTATTTTTCTTTCAATAACATCATTTAAAAATTCTCTTTTAAAACTATTTTGTAAGAATAACCCCTCTCTATTCTCTTCTATACCAATTTTTATTTCTCCTTTAAAATTAGCCATTACCATTGAAAAAAATAAGAAAAATGATACCAATATTTTCTTCATACTCCCTTAACCTTTCTATATTTAGTATCAGTATTTTACCTTATCAGAAATCATTTTTCAAGTTTTCAAAAACAGTCTTAAACCTTTAAAAACAGGTGTTTTAAAGCAAATTTTATTTTAAAATTTTTCAGTATTAAGTAAAGTGTAAAAAAATAGCTAGATTTTCATCTAGCTAGTTTATTCTTATTTTTCTATTTTTGTATATGGTAATAATGCTATTTGTCTTGATCTTTTAATTGCTTTTGCAATTTTTCTTTGAATCTTAGCATCTAACCCTGTTACTCTTGATGGAGATATTTTCCCTTTATCATTCATAAAGTTCTTTAATAAATCCACATTTTTATAATCTATATCTTCAATTTTGAACTTAACTTTTGGTCTTCTTTTTCTTTTTTTAAATTCAGCAACTGGTTTCATTTCTTCCTCCTATTTTTTAGAACGGGAAGTCATCCTCTTCATCTACAAGAATTTCTTCTTTCGGAGCTTCAAATGATTTACTTGGTGTAAACTCTCTGCTTCCCCCACTTGAATCAGATTTTGAATCTATGAACTCAAAGCTACTTAAAACAACATCTGTAGATGTTCTCTTTTCTCCTTCTTTAGTTTCATAGTTACTTACTGATAATTTTCCTGTAACAAGTATTCTACTTCCTTTTTTAAAATATTGTCCTATAGTTTCTGCTCTTTTTTCCCAAGCAACACAGTTAATAAAGTCAACTTCTTCTCTATTGCTATCTCTTTGAACTGCAATAGAAAATCTTAAATAAGCTTTTCCTGTTCCTGTGTATTGAACTTCAGGATCTCTTGTAAGTCTTCCTAATAATGATACGTAATTCATAATATTTCCCCCTAATAATTTATTTTAACCTTATAATTTTACTATCATGTATTTCATTAAGTACTCAGATATGTTTAATTTTTTCTCTACTTCTGTAAGTTGTGTTCCATCCATAGAAAATTTAGTTAAAACATAGTATCCATTTTCTTTTTTCTTAATTGGATATGCTAATTTTCTATCTCCCATTATCTCAGTCTTAACTTCAGTTGCTCCAGCTTGTGTTAAGATAGATTCTACTTTCTCAACATTTGCTTTCTTTTCTTCTTCTGTTAATTGAGTTGAAAGAATAAACATAATTTCATAATTTGTCATTTCTTTTTCTCTCCTTCCCTTTGGATTTTGCCCTAGTGGATTACCACAAAGCAGGGTAACTAAATTTTATCATAATTTAAATTAAATTGCAAATATTTTAAATTATATATTTTTATTTAAATTCTTAATTATTTCTTTTAAATATTCTAGTTCTTTTCTAAGTTCTTTATTTGAAGCCTCAAGACTTCTTATTTTAAGTTCATGTTCATAAACTTTTTCATCAAGCATATTAATATTACCATTTCTTTGTAATGTTAATATATCTTTTTTTCTTGCCTCTAATTTATCAAACTGATATCCAAGTCCTGCCCCTAAAGATATATGTCCTTTTGTATTTAATGATCCACTTGCTCTATATACTAAATTAGATTTTTCATTTAATCCTGAAATACCTAATGCAAAAGCATGTTCTCCATTAAAGAATCCATATGAACCTGCTATATTATGTCTATGTCCACCTAATGGACTTACTTGGGGTAAATTTGCCATAGCTACTGCACTCGCTACTCCTGAATGTGCAGATACTCCTTTTTCTATATCTTCTTTTACCTTTTCTGATAAATCTACATTAACTTCACTTCCACTTGCCTTTGTTGTAATGTATTTAGAACCTGTAATATTAAATTTCATTCCACCTGTTTTATTTAATGTTTGCTTCTCTGTACTTCCAACATCTCCTCCAAATGATATAATGTTATTTCCTAAACCATTTACTGCATTTACTACATCTCCTGTTTTAGCTATTTTCTCATTATCATCTGTTTTATATTCAATCTTCCCATTATTTTCTGATTTTATAATTGTACCTACATTAACATTTAAATTGCCACTACCATCCTTTAATATTGTTTTATTATCTATCTTGGTATCTAATGTATATACTTTATTACCATTTGCTCCAGTAGTTGATTTTACTATTATTGAAGAATTATTTTCTGATTTTACCTCAGTTATAGCTGCTTTTATTGCATCATCTATATTATTTTTCCCAGTTCCACCTATATTTGTCATATCAATATTAGCAATATTATCTCCAGTTTTAGTTATTTTAGAGTTTCCACCTAGAATTTTTTTAGTTGAATTAGCTAAATTTTCTAAAGCTTTACTAGTTGAAAAAAGTTGTGAACCATTTACTGCATCTGTTGAATCTTTAGAAACTTTACCTGATGCAACATTTTTAATCTGTCTTTCACTATCTTTGGCTCCAACTGAAACTTGATGTCCATCAGTTCCCGCTTCACCTGAAAATCCAGAATAAGTAAAATCTCCTATTTTGGCAGAACTTTCTTGTGTAGCCTTAGAATCTGTTTTAGAACTTGCTCCTATTGCTATTGCATTATCATAGCTTGCCTCAGAGCTTGCTCCTATTGCTGTTGAACTTTGATTTTTAGCTTTAGAAGCTGAACCTATTGCTGTTGAAAGTGTTTTACTCGCTTCTGACTGACCACCTATAGCTGTAGCATAACTTTCTTTTGATTTAGCAGAATATCCTATACTAACTGCACTATCTCCAGTACTTTCTCCACTATACCCTATATTAGTAGCTCCTGTACCACTAGCTTTACCCCCAAAAGACATAGAAGAACTTTTTTCAGCTATTGCTCCATTTCCTATAGCAAATGCATTATCTCCATCTGCTTTTGAATTAGATCCTATTGCAACAGCACCTCCATTACTGCCCTTATTTCCCCCTTTGTTTGTTTGAGCATTAGTACCTATTGCAACATCATGTTTCCCTTCTGCATTTGAATTAATACCTAATGCTAAAGAAGATTCTCCATTTGCCTTTGACCCATTTCCTAAAGTTGGATTTGTACTTGATGAAGAAGTATCTGCATAAGATATGATAGAAATAAATGCTAATCCTACGAGTAAATTATTTTTTTTCATTATTCTTTTAGAATAATATAGTTAATTTTTAAACTGTATTATAGCCCTCCTTATCCTATATATATTTATATTTTTATTTTTAAAAGATATTTTTTAACAATAACTTCAATATTATACCTACCCTCCATTATTTTGTCAATATAATTTGTACGCTTTTTTCACAAATTAAAAAGAATTAACTCCTTTACAGAAATTAATCCTCATTTTAATCACCATTCTCCTATTTAAAGACCTTCATTTGTTACCACCATTATATATATAGTTTCACAAATATTTTATCTACTTATTTTTTTGCATTAATCTTTCTAATTCATTAATTCTATTTTCTAAAGTTTTATTATTTTCTTCAAGAACTTTAACTTTTTCTTCAAGAACTTTGAATTCTTTATCTAATTCATAAACTTTTTCATCAAGTAGATTAATGTTTCCATTTCTTTGTAATTTTAACATCTCTTTATTTCTATTTCCTACACTCTCAAATTGATATCCAAGTCCTGCACCTAGTGATATATGTCCTCTAGTATTTAATGATCCACTTGCTCTATATACTAAATTAGCTCTATCATTCATTCCTGATAATCCTATTGCAAATGCATGTTCTCCATTGTAGTATCCATATGAACCTGACAGGTTATGTCCAATACCACTCATCTGTGGTAAATTTGCCATTGCTATTGCATTTGCTACTCCACTATTTGCTGCTATTCCTTTTTCTATATCTTTTTTCGCCTTATCTGTTAAATCTACCTTAACTTCATTTCCTTTAGCTTCTGTTTTTATATATCCTGAACCACTAATTTTAAAATTTAATCCTCCATCTTTATTTAATGATTGTTTATCTGTTTCTCCACTATCTCCACCAAATGATATACTATTATTTCCTAAGGCATTTATTGCTTTTGATACTTCTCCTGCATTTGCTACCTTTTTAGAATCTTCATCACTTAATTTTTCTACTTTTCCACCAGAACTTGATTTTAATTGTGTTGTAGATAAACTAATATCATAAATATTATGTCCTTCATTTGATTTTTTAGATGTTAAAGTTACTGGACCTTTAGTCTTATTTGCTTCCTCTCCAGAATTTGCTGTTATATCTGTCTTTAGCGTCTTTGTTGCTTTGTCTATCTTATCTGTTAAATCCTTTTTAGTGCTTTCTATTTTTTCATCATTTTTTGTTATTTTTTCTTCTAACTCTTTCTTAGTTTCATCTATCTTTTTATCTACTTCTTTTTTATTATCCTCTATCTTTTTCTCTAATTCTTTCTTAGTCTCATCTATTTTATTTTCTATTTCTTTCTTATTTTTTTCTATTTCTTTCTTACTTTCATCTATTTTATTCTCTAATTCTTTTTTAGAAGTGTCTATTTTTTTCTCAACTTCATCTAATTGTTTCTTATTTACTGCATCAGTGTCATTTTTTCCATCACCAATATTTTTTAAAACTTTACCCCCGTTATCTAATCCATCTTTAGTTATTTTTACTTTATCACTACCATTATTTATAGATATTTCATCTCCAGTAATCTTAACTTTACCTCCAGAAGTGCCATTAAATTCTGCACTAGTTAAATCTTTTAATGTTTTACTTAATGCATATGTAAAATCTTTTCCAGCTTGTGTAATACTTAAATTATCTCCAGCTTTTAATGTTAGTAATTCATCTTTTAATAGTTTTGTTTTATTTTCTCCAGATGAAGTTCCTGTTCCTTCTTTTCCTGCCATTACATTAAATCCATATTCAGCTATTGATTTTGTTATTTTATCATCTAATGATTTTATTGCCTCATGAATTGTATCTTTATTTGTTCCACCTATATTTGTAAAAGTAAGCTCTCCATTTTCTGCTAAATTTGCATTTCCACCAAAAATACTCTTTGTTTTATTCGCAAATTTACCTAAAATATTATTAGTTGCAAATAGTTGTGATCCATTAATTGCATCTGTTGAGTCTTTACTTACTTGCCCTGCTCCAACATACTGTAATTGTCTTTCCTTATTTTTAGATCCTATAGCCACTACATGAGAAACGTTTGGTGCTGCAAAGTTTCCATATTTTAAATTTTCTATTGTAACATTTAAAGATGCCACAGGTGTTTTTGTTTCACTTTCTGATCCAATAGCTACAGATTCATCTACAGTAACTTTTGAATGTCTTCCTATTGCTATAGAGTCTGATTTTAAGGCTTCTGAACTTTGTCCTATTGCTATAGATTTTCCACCTTTTGCTTTTGCGTATAATCCTAAAGATATATCATTAGTATTTTCTGATACTGCATAAGCTCCTATAGATATTGAATGTTTTCCTTTTGCTTCACTATTATATCCAAATGCTATAGAATTTTCATCTGAAGATTTACTTTCTTTACCTATAGAAATAGCATTTTTAACTGCTTTTGCATTATCTCCTAAAGCTATTGCTCCATCATCTTTTGCCTCAGTATTTGTTCCAATAGCTATACTATGTTCTTTTGAACTTTTTGAACTTTTACCTATAGCAATACCATTTATTGCATCTTCTTCCACTTTTGAACTAACTCCTATTGCAATAGAACCAGATGCTTTAGACATAGCATTTCCACCTATAGCTATAGCATTCATTGCTGCTGCTTCTGACCATAAACCAATAGCTATACCGTAATCTTTTGTTGCCTTTGAATATGATCCTAATGCAATCGTTCTTTCTGCTGTTGTAACAGCTTGATGCCCTATTGATAAAGCATCTAATTTTTCTGATCTACTTTCTTTTCCTATAGCTATTGCATGTGCTCCTTCTGATTTAGAATTCGTTCCCACAGCTATACTACTTTCTCCATTTGTCATAGCAGATGTTCCAAATGTTATAGAATTACTTTTAAAACTTTGAGAACTTTGACCAATAGAAATAGAATTATCCTCTTTTGACTTAGCTTTTCTTCCTATTGCTATAGCTGAGTTTTTTTCTGCAACACTTTCAGATCCTATAGATAATGAATCTGTTCCTTTTGATTCTGCATATCTACCAAGTGATATTGAATAATTATTTGAAGTCTTAGCACCATATCCTATAGAAATAGAGGCTTCTCCTTCAGAATTAGCATGCATTCCTACTGCTATTGTATGCTTTTTTAAACTCTTAGAATTATATCCTATTGCAATAGATGCCTCTTCTTTTGCATTAGCATTCATTCCAGCTGTTATAGAATATTTTCCTTCTGCTCCAGCTGCCTCTCCAATTTTACCTAAATTACTACTTTTATTTCCACCATTGTGAGTGCCTGTATTAACATGAAAATATGTTTTTTTATCATCTTCTAGTTTTGTTGCCAAAGCTTTTAATTGAGCCACATTTACTGCATCTGTATCTTCTTTTCCTGCTGCTAGTCCCGTTATTTGTCTTGTAACTGTACTTCCATTACCTATTGCTAATGCTGCATGAGTTGATTGCCATGCATTTCCTGAAAGAGTTTTATCAGCACTTGGTACATATCCCATTACTCCTTTATCTACAGTTGTCTTTGATTCACTTCCTAAAGCTATTGCTCCCATCATTGTTGATTCAGCCTTGTATCCAAAAGATAGTGCATTTTCTCCAGAAGCTTGTGCTATATGACCTAAAGCTACTGAATTCTTTCCTGATGCATCTACTCTCTTTTTGGAATCTGTTTGATACAGTGCATTTCTTTCTCTTGCCGATGATCCTATCGCTATTGCATTTTCTCCACTTGATGTTGCATTTGTTCCTATAGCTATTGAACCTTTTTCTTTTGCTAATGCTGTTACCCCTTGTGCTATAGATTCATTTCCTAATGCTGTTGCACTTCTTCCATATGCCTGTGAATAATACCCTTCAGCATAACTTCCTGCTCCTATTGCTATAGCTGATGCTTTTGTTGCCCTTGCTTGAAAACCTATACCTACACCAAATACTGCCCCTTTACTTGATGAATGACTCCCTAAAGCTACTCCACCCTGTCCTGCATAAGAGAATGCTCCTAGGGCTACTCCTGTCCCTCTTTTTTTTGTAGTATCTAATGTATTCCCTGGTACTTTATTATCCAATATTTTGGGTACACCTTTAGGATCATATTCTATTTTGGCTGAATTTCCACGAGTAAATCCATCTGTTCCATCTACGCCTTGTTGATTTTCTGTTGGATCTTTTTCATAATCCTCTGAATAAGATATATTACTTAAAAAGCTTCCTGTTATTAAAAAAGCAATAATAAGTCCTTTACTAATATTTATTTTTCTTTTAAGCCGTTTCTTCAATTCACCTTCTATTTTAAAATTTTTAATCATATCACTTTCTCCCGTTTAAATTATTTTTTTCACAATTTATCTATAAAAGTATACCCCCCCCCCGATGATTTGTCAATATATATTTTCTTTTAAAATATGTATTGACTTTTGTATTTAAATATTTATCATACTTTGAAGCTATTAAAAAAATATAGAAATAGTTCTTTGTAATGTGATAAAACATATGTAACAAAAAAAATAAAAAAAGAGAGATACATTTGATATAATAGAGTTTGACAAAAACTAAAACAATCAAAGGAGTATCTCTCATGAGTATTATAACAGAAGAAATGAAATTTCGCCATAGATTATGTGAATATGCAATAAAAAATGGAGTAACTAAAGCAGCAAGGCGTTATCATACAAATAGACAATAGGTTCAAGAAAGCCCCATACAAGCCCAAATGCCCATACAGAAGAAGAATTAATACTAATAAAGAATATGTTAAAAAAACATGGAAGTTATGGATTAGCCCAAGTATATGTTAGTTGTAAGAATAAGGGGTATAATAGAAGCTTTGGTAGTATGTGTAGGATCAAAGGGGATTAGATATTATCAGATAACTGCTATAGATGAGTATAGTAGGAAGAGGGTATTAAAGGTTGTAAAGGGAAAGAGTACATATGAGACATCAAAGTACATTAAGGAGTTAGAAAGGGCTATAGGCTTTAAGATAGAGACTATACAGGTAGATAATGGATATGAGTTTGTAAATGATAAAGATGTAACGGATAGGGAAGATGGAAAGATATTGTATAGTAGGAAAGAATTTAGGAGCGAGGAAGAATTAATAGAAAATGTTAAAAGGCATGAAAGGCTGTATAATAATAGGGCAAAGACAGTGCTTAATTTTAAGAGTCCAAATGAGGTTGTGAGGGAATAGAGGCTTAAAAGGGCAAAAAAAGCCAAATTTGCCCCAATCTCACTTCACACACTCTAACAATCAATTAAACACTAAACATTAAACAACACTTAACTAAACTAAACACTTAATTAAACACTTAGACAATTAAATAACTCTAACTTATATTAAATTTATTTCTTATTATGTAACATATGTATTGACAATTAAGATTAAAAAAATATAGAAATAGTTCTTAATATATTTCCTATTTTTTCATTAACTCTTTTACTAACTTTTCTAATTCAAGAATCCTAGTTTCTAAAATTTTATTATTTTCCTTAAGAACTTTAACCTCATTATCACTTTCTGATACACTCTTAAATTGATATCCAAGTCCTGCACCTAAAGCTATATGTCCTTTAGTATTTAATGATCCACTTGCTCTATATACTAAATTACCTACATTATTCATTCCTGATAATCCTATTGCAAATGCATGTTCTCCATTGTAGTATCCATATGAACCTGATATATTATGTCTATGCCCACCTAATGAACTTACTTGTGGTAAATTTGCCATAGCAACTGCACTTGCTACTCCTGAATGTGATGCAACACCTTTTTCTATGTCATCTTTAACCTTATCTGATAAGTCTATATTAACATTACTTCCACTTGCTTTTGTTGTAATATATTTTGAGCCTTTAATATTGAAATTAAGTCCACCAGATTTATTTAAACTTTGCTTTTCTGTAACTCCACTATCTCCACCAAATGATAATGTATTATTACCTAAACTATTTACTACATTTATTACATCTCCAGTTTTAGCTATTTTATCATTATCATCTGTTTTAAATTCTATTTTACCATTATTTATTTGTGTTGTAATTGTACCTACATTAGCTTTTAATATTCCATCTTTATCTTTTATTATTGTCTTATTATCTACTTTTACATCTAGTGTATATATTTTATTACCATTTGGACCAGTAGTTGATTTAACGTCAATTGCCGATTTGTTTTCTGCCTTAACTTCTGTTATAGCAGCTTTTATAGCATCATTTATATTATCTTTTTTAGTCCCACCTATATCTGTCATAGTAATGTTTCCAATATTATCGCCAGTTTTAATTATTTTAGAATTACCACCTAAAATTGTTTTAGTTGTTTTCATTAAATTTGATAGAGCATTATTAGTAGCAAATAATTGTGAACCATTTACTGAATCTGTTGATTCCTTAGACACTTTACCAGCTGCTACATTTTTAATTTGTCTTTCTTTATCTTTAGCCCCCACTGATACTTGATATCCATCATCTCCTGCTTCTCCTGCAAAACCAGAATAAGTATAATCCCCTATTATAACAGATTTTTCTTGTGTTGCCTTAGAATCTGTCTTAGAGCTTGAACCTATTGCAATAGCATTATCATAACTTGCTTCAGAACTAGCCCCTATTGCTGTTGAACTTTGATTTTTAGCTTTGGCAGCTGAACCAATGGCTGTTGAAAGAGTTTTACTAGCTTCTGACTGTCCTCCTATTGCTGTTGCATAATTTTCTTTTGATTTAGATGAATATCCTATACTAACTGCACTATCACCATTACTTTCTCCTTGATATCCTATGTTAGTAGCACCTGTCCCACTAGATTTTCCACCAAAAGACATAGCTGAATTTTTTTCAGCAGTTGCACCGTTTCCTATTGCAAAAGCATTATCTCCATTTGCTTTTGAATTTGCACCTATTGCAACAGCTCCTCCATTACTTCCCTTGTTTTCTCCTGTATTTGTTTTAGCATCTGTTCCTATAGCAACATCATGTTTTCCTGAAGCATTTGCATTAATTCCTAATGCTATAGAAGATTCCCCAGTTGCCTTTGCTCCATCACCCAAAGTTGGATTAGATGGTGATGGTGTAGAAGGATTTGAATAAGATATAATCGAACTAAGAGTTAAAGCTACAATCAAATTATTTTTCTTCATTTATTATTCGTATTATATATATTAATAGCTAAACTATATAATACGCCTCCTTATCTGTATATTATTAATTTATTGTGTTTTAATTAATTTGGTTCTGTTTTTCAAATTTTGAGAGATAATTTTTTAACAATACCTTTAGTATTATACCCCCCCCCCACACTTTTTTGTCAATAATAAAAATAAATTTTTAACTAGGTTGTAGAGCTTGTATTTATTAATTTTATGTAAATTAAAAGGAACTATTAAAATAGTTACTTAATGTATTTTTAAAGTTATCTAATTTCTTCTCAATTCTTTCATTAATTTTTCTAATTCAGCAATTCTAGACTCTAATGTCTTATTATTTTCCTTAAGAGCCTTAAATTCTTTATCTAATTCATAAACCTTTTCATCAAGTAAATTAATGTTTCCATTTCTTTGTAATTTTAAAATTTCTTTACTTCTTTTACCTATATTATCAAATTGATACCCTAATCCTGCTCCTAAAGATACATGTCCTTTAGTATTTAATGCTCCACTTGCTCTATATACTAAAGTTCCCGTTTCATTTACTCCTGATAATCCTAAAGCAAAAGCATTCTCTCCGTTATAGTAACCATATGAACCTGCTATGTTATGTCTTTTATCTCCTATAGTACTTACTTGTGGTAAATTTGCCATTGCTATTGCATTTGCTACTCCACTATTTGCTGCTACTCCTTTTGATATATCTGTTTTCATTTTTTCACTTATATCTATACTTACTTCATTTCCTTTTGCTTTTGTTTTTATATTTTCTGACCCTTTAATATTAAAATTAAGTCCTCCATCTTTATTTAAACTTTGCTTTTCTGTAACTCCACTATCTCCTCCAAATGATAATGTATTATTTCCTAAAGTATTTATTGCTTTTGCTACTTCTCCTGCATTTGCTATTTTTTTAGTATCTTCATCATTAAGTGTTTCTACTTTACCACCAGAACTTAATTTTAATTGGGTTGTAGATAAGCTAATATCGTAAATATTATGTCCTGCATCTGATTTTTTATATGTTAAAGTTATTGACCCTTTAGTATTATTTTCTGTTTCTCCACCATTTGCTGTTATCTCTGTTTTTAATGTTTTAGTAACATTATCTATCTTATCTGTTAATTCTTTTTTAGTATCCCCTATTTTTTTATCAATTTTTTCTATTTTTTCATCTAACTTTTTGTCTATTTCTTTTATTTTATTATCTATTTCTGTTTTTGTTTCACTTATTTTATTTTCTAACTTATCTAATTGACCCTTATTAACAGCATCTGTACTATCTTTTCCATCTGCTACATTAGTTATTTTCTTTCCACCATTATTTAATCCATCTTTACTTATATGTACTGAATCATCATCACCAAATTTAATACTATTCATTCCTTTTAAATCTTTATTTAATGCATAAATAAAATCTTTTCCATTTTGAGTAATAGTTAAATTATCTCCAGCCTTAAATGTTAATACCTCATCTTTTTTTATTTTTATACTTTCTATAGTTCCCAAAGCAGTTCCTGTTCCATCTTTCCCTGCCATTACATTAAATGTTATACTTTCTTTTAAATGTTTTATTGCATCATGAATATTATCCTTACCAGTATCTCCAATATTATTCATAGTAAGTTTTCCAGCATCATCCCCACTTTTAATTACATAAACTGTCCCACCTAAAATACTTTTAGTTGAATCTATAAATTTTCCTAAAACATTATTAGTCCAATAAAGTTGTGAACCATTTATTGCATCTGTTGATTCTTTACTTATTTGCCCTGCTGCTACATATTGAAGTTGTCTTTCTCTATCTTTATAGCCTATAGATATTACTGAAAAAGGTGTTTTTCCTGCAAATTCTCCATATTTTATACCATTTATCTCAATATCTTTTGTTGCAACTGCTTTTGTTGTTTCACTTTCTGAGCCTAATGCTACTGATTTTTCTTCACTAGCCTTAGCTAATTGTCCTATAGCTAAACTATGCATTCCAGAAGAAGATGAACTAAGTCCTAATGATATAGCTCCGAAGCCTGAAGCATTTGCATTTGAACCTATTGCTATTGAAGTTATTCCTGACGCTTTAGCATCTACTCCTATTGCCATTGATGTAAGTCCTGAAGCCTTAGAATCTATACCCATTGATATTGAATTATCTCCTGATGAATTAGATGATTTACCTATAGCTATACTATTAAGACCTGACGCTTTAGTTTTTATTCCTACTGCTATAGCTCCATATCCTGTTGCTCCAGCAGCTTCTCCTATTTTACCTAAATTAGTATCTTTATCTCCAGTATCCTTATTTTCTCCTGAATTCACATGAAAATATGTCTTATTTTCTGATTCAAATTTATTATATAGTGATTTTAATTGGGCTACATTTACTGCATCTGTATCTTCTTTACCTGCTGCAAGTCCTGTTATTTGTCTTGTTATCCCATTTTTTGCATCTCCAATTGAAACTTCTCCATAAGTTGCTTCCCATACATTTACAATTTTATAATACTCTCCATATTTTTGATTAATTTCTGTAATTTTACTTGTAATTTTTTTATTTAATTCTGTTAATTTATTTTTTTCATCTTCTGTTCTTGAATTATAAGCCTTGTCTATTATATCTTTAGCGTCTTTATCAAGTGTACCCTTTTCTGCTTTTAATTTTTCTATTTCTTCTTTTAATTTTGTGTATTTTGATTTATCTGCTTTTTCTAATTTATCTTCTAATTTAACTACCTTATTTGTAAACATATCATATCCAAGTCTATCATCTCTTTTTTTTGCTATAGAACTTGAACCAATGGCTGTTGAATAACTTTCTTCTACCTTTGCCTTATATCCTATTGCTGTTGAAAAATTTAAATTTTCATCAGTACTACTTTCACTACCTATAACTACATTACCATATGAATATACTCCTTTTGAATCTGCCATATATCCTATTGCAACACTGTATCTTCTTGAATGTGAGTTTTCTCCAAGTGCTATCCCTTTACCATATCCTACTGCTTCTTTTCCTATAGCTATAGAATCTGAATTAGCCTCACTCTTATACCCCAAAGAAATTGCTCCTATTCCATCTGTTTTAGTTTCAGTCCCTATAGCTATACCATATTTTGTACTCGCATGTGCTTTATTCCCTATTGCTATTGCATCAAGTGCTGTTGCCTTAGAATCTGTTCCTATAGCTACTGTATTTTCTACATCATTACTAAGATTTGGCATAGCTCCAGCATGAGCCTTATTCCCTATAGCCACTCCATTAGTTCCTCTTGACATAGAACTAGATCCTATTGCTATTGACTTTTTATCTTCTTCTGATTTAGAATCCTTACCTATTTGTACATTATGGGTATCAGTAGTAATGGAATTACTCCCAAAAATTGTATACGAGTTCAAATTATTTCCATTATTTCTAGAATAAGACAAACTAGAAATAACTATTAAAAATGCAATTAAATTATTTTTCTTCATTAACTCATTGTATAGTTAAGCATTTAATTAACTATACAAAACACCTCCTTTATTTAATACATCTACCAAGATATTTTATTCACAACCTAGTATAAGTATACCTCAGTGGTTAAATTTGTCAATATTAGCAAGTAAAAACAAAATTACATTAAACACTAGTATTTATTAGATAAAACGCTTTATTTGATTATGACGGATAATAAAAAAGTGAGATAATTTTAATTTATCTCACCTTTTATTCAAACTATTTTTCAATTAATTTTTTTATTAATTTTTCTAATTCAGAAATTCTATTTTCTAAATTCATATTTTTTTCGATAATAGCCTTATTCTCTTCTTTAAGAGCTTTAACTTCATTATTTAATTCATATACTTTTTCATCAAGTAAATTAATGTTTCCATTTCTTTGTAATTTTAAAATTTCTTTACTTCTTTTACCTATATTATCAAATTGATACCCTAATCCTGCTCCTAAAGATACATGTCCTTTAGTATTTAATGCTCCACTTGCTCTATATACTAAAGTTCCCGTTTCATTTACTCCTGATAATCCTAAAGCAAAAGCATTCTCTCCGTTATAGTAACCATATGAACCTGCTATGTTATGTCTTTTATCTCCTATCGCACTTACTTGTGGTAGATTTGCCATAGCTACTGCATTTGCTACTCCATTTAAAGCTATTCCTATTTTATTATCAACATATCTCTTATTAACTGCATCATTTTCTTCAACTGGATCTGCTAATCCTTTTATTTTTCCGTTATTATCTTTAAAGCTTAAAGTTGTAGATGTTAAATTAGATTCTCCTTTACCATCTTTTATTGTCGTTCCACCTATTGTGTATTTTGCACTTTCAGTAGGTTGTGAATTATTATTTGGCTCATTATCGTATTTACCTATATTAATTCCATCTACTCCTATTTTAGATTGAATGAACTTATTATCATCTGTCTTCTTAATTGAAGTTAAACCATCTTTATCTAGTTTAACTTTAGATTTAGTTCCATTATCATCTAAATCTTTTGTTTCAAATGAAGTCATATTAGTTAGTTTGTCTGATAGTTTTACTGTTAATGAACCGTCCATTTTATCAGATTTAACCTGTATGTTTCCACTTGCACTATTAAAGTCATTTTTACTATCAGTTCCCTCACCTTTAATAGTTACTTTTTCTCCTAGGTTTCTGTGAATTTCATCTCCTGCACCAGTATTACCAGCAAAGTTTAATCCTGCTTTTGCTAATGCTAATATATCTGAACCTGTTGCAACCTTATTTTTACTATTATCAGCTACACCATTTTTATTAGATAGTAGGTCTTTAACTTTTTCATCTGTTGGATTTTCACCTAAAACACCTTCTACATTTCCTATTGATATTGGTTTCTTCCCATCTCCCTTAGGCATTAGATTTACATTTACATCTTTACTATCTACTGCTGTTAATTGTTCTGAACTACCACTATTTTTAGGCTTATATGAAGACGTTTTTTCATCATAATAGTGTTTCTTTAAATCCTCTTCTTTGTATAACTTACCATCTTGTCCTCTGATAACTTTTTCTTTTTTATCTTTTGTTTCATATTCAAATGGTCCATTAGCTATTTCTTTTATCTTGTTATCAACATAATTCTTATTAACTACTGTATCTCCAGATGCATTATGAGCTATATCTTTAAGTCCTGTTATAGTGCCTTTATCACCATCTATTTTGATTGAATCTTTTCCATCTTTACCATTTACAACTATTGTTCCACCATTTTCTCCAGATTTTATTGATACTGCATCTTTTCCATCTTTACCTTTTACAGTTACGCCACTTTTTTCAATAGTTGTACTTGTTTTATCAGCTGAATTAGCATCTTTTGCTCCAAATGTTAATTTATCACCAGTTAAACTAGCTTTACCTTTATCGTTTGTAACTTCTACACCATCTGTAGTAATTTTAGTTTGTTTGTTACCATCTTTTTTAGTTTCTATACTTTTCAGATTCTTTAAATCTTCAGCAAGTTTAATATCTAGTCCATTACTGTCAGCACTTTTTTCAACTTTAATATTATCTTTTGCAGTTCCATTAGCAACTGTTCCCTCACCTTTTATTGCTAATGATTGTCCTAGTTTTTTACTTACTTTTTTATCTTCTCCATCATTTCCATAAAATGATATTTCTTTGTTTGTAATATCTTTTATGCTATCTGAAGATTTATTGATAGCATCATCTAAAGCTTTTATAGCCTCTCCTACATTAGTATAATCTTTAGCATTTTCATCACCAGCTTTTAAATTATATTTAGGTCCTGTAACATTTCCTTTATCATCAATTTTTGCATTTCCACCTAAAGCTTCTACATATTTTTTAAGTTGTGATACATTTACAGCATCTTTATCTTCTATTCCATTTGCTACATTAGATATTTTAATATTATCTCCTGATTTAGTGAATGTTAATTCTTTACCAGCAACTTTTAATTTAGTTGTAGCTTTATCATCTGTACCACTACCAAACATTATAGAGTTATCTTTATCTTTCCCAACAGTTGTTGCACCCATTAAAGAATCTTTTGTTATCTCTACCTTTTCTCCATTTTTTGATACAGTTATTTTATCAGAGCTAATCTTAATTTCATTTCCATTTTTCTTAACTGATATACTTTCTAAATCTACTAAATTCTTTGCTAATCCTATAGTTAATTTCTTACTATTACTATCTGCTGTTACTTTTATATTATTTGCAGCTGTTCCATTAGCAACTGTTCCTTCACCTACTATATTAAGTTTTTCTCCTATTTTAACTTTTACTTCTTTACTTGTATCATTACCAATAAATGTAAGTAATTCTTTGTCATTTAATAATCCTGATGTAACTTTTTTTAGTTGAGCAACATTTACTGCATCTGTATCTTTATCTCCTGCAGCTACTCCTGTTATTCTTCTAGTATTAGTTGTACCATCTCCTATAGCAAGTTCTCCTTTAGTTGGCTTCCATGTTGAATCCGTTAAATTAGAAGTCATTTTTGTTTCAAAATCATATCCAGCATTAGTTAAAGTTGCTGTATTCTTAGAATAACTACCTAAAACTATACTATCTTTACTCGTCGCTTTTGCTCCCATACCTATAGCTATAGCATTTTCTGCTCCTGTTTCTGTACTAGCATCATAACCTATTGCTATTGAATCTTTAGCTTTTGCTCCTTTATTATCATAATTATTTGAACTTAATTTAGTTTTTTCTTCATCACTTAATACACTATTAAGTGTAGTTTCTGATAAATCAGATTCTTTTGCTTTTTCCAAATCTTCCATATATTTATCAATATCAAAAGTTCCATTATTCATATATTTATGATTATTCATGTCTACTAGAGCATTAATTGAAGTAGCTTTATCCTTTATTCCAGCCTTATCTTCTATTTTTTTTAATTTTTCTTCTAATCCTTTAACATTTTCTTCATTTATTTGATCTCCAGCCTTTTTTCTGGCTTCTACTGTTAATTTTTGTACTTTTAATTTAACATAATTTTTGTAATCTATCTTTTTTCTTGCTATTTCTGATAAATCATTTTCTGTATTTACGGAAAAATATCTTACCTTATCATCTGCCTCTTCTGTCGCTCCATCTAATCTATCTTCTAGTGTTTTAAGTTGAGCTACATTTACTGCATCTGAATCTCTATATCCTGCTGCTACATTGATTATTCTTCTCTCATATCCTTTTTTACCTACTGATATTACTCCTACTTTTGCCGAACTCGGTATTGAATATGACCCTCTTGCTGTATATCCTGGTTTGTCTAAATCTTCTTGGTTATAGTCTGTTTGTGACTTAAATCCTAAGGCTACTGAATTATCAAGTGAGGCTAAAGTTTCATTCCCCAATGCAAGTACTGACTTACCTTTATGACCTTTTTTACCATTTAAACCATATACATTAGCATTATTTCCTATTATTATTGAATCTCCTGCATCACTTTCATCCCATAAACGAGAATTTATTCCTAGTATTATTGAATTAGGGGCATAGGCTACTGATCCATGTCCATATACCATAGAATTCTTTCCTGATATATCTACTCCTGCCCCATTACCAAATGTAACCGATCCTTCTGCCAAAGCTCTTGAAGCTATTCCTATTGCAATAGCATTCTTATCTTTTGTATATGAATATGATCCTATTGATATTGAATTTTCTTTAAGTGAAAATGATCCTCTACCTAGTGCTATAGCATTATCTCCAAATGCTCCCGATTTACTTCCTATTACTATTGCATTTTTACCATTACCTTTGGCAATATCTTTTACTCCTTTTTTTTCTTGTGTTTTTATTCTTATTGAATTTGTTGTTTCCTTTGTGTCTTTTGTCTTTGCATTAGTTAATCCATTTTCTATACCATCTATATAGTTTTTATAGTATGAGAAATAATCTCCACTCTTTAAATAATCTCCTTTTTTAGCATCTGGTATATTATCTCTAGGTTGATCTTCTGCAATTCCTAAAATAGTTTTTGCAACCCCATTTAAATCAAATCCATATAGACCTCTTTTATCTTCTGTACTTCCTACTTGACCATAATTAGCTAAATCTCCAAATAATCTCCATTCACCAGATCTTTGACTTCCACCTAATATTACTTTACTATCATAATCATAGTCTACATTAGAATATACATCTGTTCCTATTGCTATAGAGTTTTTACCTCCTGAAACTGCTTGTAATCCATATGCTGCTCCACCCTCTTCTAAAACAAGTGTCTTATTACCAGCAGAAATAGCATTATTTGAAAATACATTAGTTTCTCTTCCTATTGCTATTGCTCCCTCTCCTTCTGCTCTTGTTAGTGTTCCTATTGCTGTTGATCCATTCTTTAGGGCATAAGCAAGTGTTCCTAATGCCGTTGATCCATCTGCATATGCTATTGATCTAGAACCTATGGCTATTGATCCATGTCCTTGGGCTAGTGTTGGTGACCATTTGTGATTTTCCTCTTTACCTTGTACTTTTTTCCCATTTGCATATCCATATGTATCTCCTTTATTGTCTATTTTATCATAAAGATTTTTAAAATAATTTTTATAATCATATTCTGTAACAGGTTGAACATATGAAGAAACATCATCATTTCCTATTGCTATAGATGACCTTCCTATAGCATATGTATTATTCCCTAAAGATGTTGCTTGGGCTGTTGAATATACAGAGTTACCTACTGCAACTCCTTGTCCATCATCATCAGTTACACCATTATTTGTATTAAAATTATTTTTATATACATATGAATTATTTCCAAGAACTACCGAATTTTGTAAATCTGATTTAGTATTAGCTCCTATTACTACACTTTGTTGTTTTTCTGATTGTGCATTGTATCCTATTACTACATTTTCTTTTCTTTTAGCATAAGTCTTTCCTCCAGCTCCTATTACTACTGAATGGTCTGTATTATATGAACTATCATATTTAGATAATATTATATTATTTTTTGTATTATTTTCTCCCTGAGGACTACTACCATTTGTTGAAGTCCCTACAGTCCCATTTGTTTCATTGATTGCTAGCCAAGCACCGTTAGAAATTGTAGATAATCCTACAAATCCTAACATCATATACCTTAGTACTGTTTTTTCATTTACACTTACCTTGTTTTTTAAAGAACTCTTTAAAAATCTTCTTAACTCCTGAATTTTATTCATAACTTTATTTCATTCCTTTTCAATTTATTTATCAATTTTAATATATTTGTTAAAATATTTTTCATCTACCTTTTCTTCTGTTAAACTTTCTAAAAACAGCTCTGTTAAATCTTTTCCTATTACACTAACTTTTGAAACTTTAACATTGCTTAATTTCTCTATTTTCTTATTAATACCCTTTATCTCATATGTTATATAATCTCTATTTTTCATATATCTATCATCATTTTTAAAATTCAATAAATATATATGTATATTACTAACTTTTTTAGAAACATCTTCTATATATTTTTCTACATAATCTAAATTAGGAAAGTATAGATGTAAATCTTTTATTTTTTTATCCTCATATTTTGAAATTTGCCTTAAAATTTCATCTGCTGATATTACATTTGCTAAAATATTAAATTTTGTTTTCTTAGAATATATTTTTTTTATTCCAGTTATTACATTTAATCTCTGATTTATTATTAAATCATAATAGTCTATATTATTAGAAAATGTATTAATGCTTATCATCAATATCAGAATAAAAATATTTATATATTTATTTATTTATTATCTTTTTCATATATTATCTAATCCTCCTTTCTTAGTTATGTATTTTTACAAAATAAAAAAGTATTTTAGTAAATATATCTACATATAGATAATTTAAAAAAATACTTTAATTAGAATCTAAAATTCCTATTTATTAAATTTACTATTCTAACCAACACTTTTTTAAAAAAGCTACTTTGTGTAAAAATTTTCACACTATTATACCCCCCCCCCACGATGATTTGTCAATATTTTTTAGTTAAAATTTTAACAATGGAAATGTTTTTTAAATTTAGTTTTTCATTTTATATTCATATTAGGTAAGTATAATTCTAATATACTTTAGTTGCGAAAGGAGATAGTTATGAAAAAATTCCTATTTTTCACATTTTTAATATTTGGATTTAATATATTAGGAAATAATAAGGAAGTTAAATTTTCTAAAAAAGAAGCTTTAACTAAGGCTATCTCTCATAGTGAAAATGGTATAGTTAATTCTGTAGAACTAGATTATGTTAAGAATAATCCAGTATGGAAAATTGAAATTATACATAGTCATTCAAAAAAAGAATTTAAAATAGATGCCACTAATGGCAAAATACTATCAACTAAAGTTGATTATGAAAAAATAATACAAGATACTGATAAAGATATCTTAAATATTAATGATATTAAAATAATAGTATCTAAAAAGACTAAACATCCTGTATATACTGAAATATATTTGGATAAGAAATTGGGTAAAAAAATATATGAAATCCAAGTTTTAGATGGAAATAATGAAATATCATTTACCATAGATGCACATACTGGTGAGATATTAAAATTTAATAAATAGTTTTTTATTCATTTTTTATTCATTTTAAAGATGTATAATAAAGATGTGATAAGACTTAGGTCTTAAAATGGAGTTATAGATTTCAAAAATAAGGGTGGTAGCTTATACATATACAAGAATAATCCTCATACTTCTAAATATTTGTTCATTAATTTTTTATTTATACTTGTATATATTTTGAAATTTTGTTAATAAGGTAGGGAAATTGAGGAAGGGAGTTTTGAAGATATATATAAGGTAGAGGAAAGATAAGTTTTACTTATCTTTTTTTAATATTTATGTTAAAATTAAAAAAAAGGAGAGGATAATATATGAAAATACTTTTAGTTGAAGATGAAATTGATTTAAATAATATTATAAAAAAGTATCTTAAAACTAGTGGATATATTGTTGATTCTGTATTTGATGGAGAAGAAGCTCTTTTTAATTTAAATGAAGCTTCATATGATTTAGTAATATTAGATGTTATGCTACCAAAATTAAGTGGTTTTGAAGTTTTAGAAAAAATGAGAAAAAAGAACAATAAGGCAGCTGTGTTAATGTTAACTTCAAAAGATCAAGTAGAAGATAAAATAAAGGGGCTTGATTTAGGGGCTGATGATTATCTATCCAAACCTTTTGATTTTGAAGAGTTAGCAGCTAGAATTAGAGCTATTATTAGAAGAAGATATGATAATTTATCCTCTGAAATTAAAATACATGATTTAATTTTAGATACTATGAAAAAAACTGTTATTCGTAATAATGTAAATATAGATCTAACTGGTAAAGAATATGAAATATTAGAATACTTAATGCAAAACAAGGAAAGAATAGTCAGTAGAGATCAAATTAAAGACCATGTTTATGATTTTTATTACGAAGGTAGTTCTAATGTTATAGATGTATTAATTAAAAATATTAGAAAGAAAATTGATTTAGAGGGATCTAAACAGATAATATTTACTAAAAAGGGACTTGGTTATGTGGTTAAAGAAAATGAGAACTAAGTTTCAAAGACATATCCCTATAACTTTAAAAGTTACTCTTTGGTATAGTAGCTTTATACTTTTATTAATGATATCAAGTATAATTCTTACATTGATACTTTCTTCTTCCTTAGGAATGAGCGTATCTCAACAACAATTGAAAAAAAGTGTTGATGATGTGGCTAAATATCCTGAAAAATTTGAAAGTTTTGAATCTGGAATCTTTTATATAAACTATGATAATTCTGGAGAAATTCTTGCAGGTAAATATCCTTTAGGATTTAACTTAAAATTAAAATTAGAAGAAAATAGTATAAGACTATATGAAAAAAATGATTACCAGTTTTATTATTATGATAGTAAAATAAAGAATAGTAACTATTGGATAAGAGGGGTTTATCCTATCAATCATCTTGCACAAGATAGGGATAGAACTATGGCAATTATCTTTATTTTTTCTCCAATATTTTTTCTAATAGTTGTTTTAGGTGGAAAAGAAATACTAAAAAGAGGTTTTATACCTGTTAAACAAATTTCAAAAACTGCATTAGATATTACAAAAAGTCAAGATTTTTCTAAGCGTATAGAAATTGAAGAAGGTAGTGATGAAATACATAAAATGGCTAAAACTTTTAATACCATGTTTGATTCAATTGAAGCTTCATATATACGAGAAAAACAATTTAATTCAAATGTTTCACATGAATTAAAAACTCCTATTAGTGTCATACTTGCGGAAAGCTCTTATTCTTTAGAACATGTAAATAATTTAGAAGAAGCTAAAGAATCTTTTGAGGTTATAAAAAGGCAGTCTAAAAAAATGTCTGAATTAATTTCTCAAATAATGATGTTATCTAAAATTGAAAATACATATAATTTGGAATTAGTTGATTTAAATTTATCTACATTAGTAGATAATACATTAATTGATAATTCTATAATTTTTAAAGAAAGAAATATTAATTTAAACAAAGATATACAAAAAGACATTATCATATCTGGTAATAAGATTATGTTAGAAAGAATGTTAGATAATTTGATAGATAATGCAATTAAATTTACAAAAGATAATGTTAGTGTTAATTTATTTAAAAATGATAATAAAGTTGTTTTAGAGATTATTGATAATGGTATGGGAATTTCTGAAAAAAATATAGACTTCATATTTAATAGATTTTATCAAGAAAATGTATCAAGAAATAAAGGTAAAAATCAAGGTTCAGGACTTGGTTTATCATTAGTTAAAGAAATAGTTAAGTTACATCATGCTGAAATTAAAGTAGAAAGTTTACCTAAAAATTATACTAAGTTCACTGTTTCTTTTAACTAAAAATATTTTATTTTTTAAATTATCTGTTACAAAATGTACTTTATATTGCATTTAAACGAAATAAAATAGACTTATAGCTAAAAAATGGTATAATTAATTACAAAATGTAACTAATGAGGAGTGAGAATGGAGAAATTTTATTTAGTATCTCTTTGTGTTTCAAGAATAAAAAATATTTTTAATCCTATAAAAATTGATTTTTTAAATTCAAAAAATTACAATTTAGAAAATAATAGAGTTAAAGGAATTTTTGGGAAAAATGGTATAGGAAAAACAGCTATAATTAAATCTGTTGAAATAATTCAAAATCTAATTTTAAATCCTAATTTTTTATCAGAAAAAGAAAATATATTAATGTTAAATAAATTAATTATAAAAGTAAGGAATTTACTATAAAGCTTGAATTTATAAAACAATCTGATATGAAAAAGAAATTTAATCACTCTATAAAACTTATAAGCTTGGATAATGAAATAAAAATTAAAGAAGAATCTTTAAAAATTCAGCAAAGAAATAAGATTAAAGAAATTAAAATTATTAATGGTGAAATTATATTAAATACAATAAAAAAAGATGAAATTTTTGAAAATAAAACATTCAATCTTCTTGATAAAAAAAGCATAATAACTATAGCAATTAATTTAATTAATGAAGTTAAAATTAAAGATTATTTTGATTTTATTGATTTTTATTTTAGTATCTCAGTTTTTTCACAAACTTCAGATGATTATAGAAAATTTATTAATACAAAAGAAGGATTTGAAAAATTTAAAGATACTGTTATTAGTGCAAGTTATAAAGATTTTGATGATTTTGAATTAACTATACCTAAAGAAGATAAAATACTACTAGAAATATAAAATATAAAAAAGAAAAAAATTGAATTTATGAAATACTTTATTAATGATTTGAAAGATATTGAAATAATAAAAAAAGAAGATATTTCATCTTATAAATTAAATTATGTATTATTATATGAAAATTACAAAGTAGATCTTAAATTTGAAAGTATGGGAATAAAAAATCTTTTTGATTTATACGATTATATACATTCTGCATATTATGGAGAAATAGTCTTAATTGATGAAATTGATTTAAGTATACATGATATATATTTAAATAAATTAATTGAATTTTTAGGAAAAATGGGAAAAGGTCAGTTTATTTTTACAGTACATAATATAAGTTTATTAGATACACTTAAAAAATTTAAAAAATCTATATTTTTTATAAATGATAATCAAGAAATAATTAATTGGGTCAAAAGAGGAAATTCTTCTCCTAGAACACAATATAAAGATGGATATATAAAAGATTTACCTTTTAATATTGATTACTTTGATTATGTTTCTTTTTTTGAATTTGAATAAATGAACAACATTTTTTCATAATATGAAATATTACCAATTAAAAGCCATGTAAAATTTTAGATTAAATATACAGTTTCTATTTTGAATAATCAGTATTTACTATATTTTGAGGCTATTAATGATTTTAACAGTATTTAAAAATTTCAAGTTAATTTATTAATATTTGACTTTTGTAAACTATGAAGTTATACTGATTATGAAAAGAACGAGGTCGAACGTTCTAATAAAAATAAGAAGGTGGTAAATTTTATGAAAAAAAAATTAATTTTAGCAACTCTATTATTTGTTCCTTTTTTAGGATTTTCTCAAGAAAATGAAGTAGAAGGAATAAAAGAAACAAAAGGAATAGTTCTTATAAACGAAGATAAGAATGAATTTATTATACCGAGTGATGATATAGTTCAAACTGGAGTAAAAGGGGCTGCTGTAGGCGGTTATGTTGGAGCAAAAGCTGGAGCAGTAATTGGTGCTGCAGTTGGTGGACCAATAGGAGCTGAAGTCGGAAGTTTCGTCGGGGGTGCAGTAGGAGGATATATTGGAGATAAATTAGGTGATAAAATAAGTGATAAGTTAGAAGAAAATAATAAAAATAATTAGGAGGTTATTATGAAATTTTTTTTAATTGATATAGTTTTTTGGATTATTTTAACAAGAATATATTTTTATTTTGGAAATTATAAAAATAAATTTATTAGAGAAATCATATTTATTTTATCTATTTTGATTTTTTACATTTTAAAATTTCATTTTTTAAATGAAATATAATTAATTTTGAACTAACCACAAAAAGTTGGCGTAAAAAAAAACAATTTAAAGGTAAGTTCACTATATATAATTTTTTAAATAAACTAATTTGTAAAATTGTTTTAGTATTAAGTATATTTGCTTATTTTTTCTGTTTCAAACATCTTTTAAGTCCAATTTTTATAAATTTAGGACTACCTATATATTTATTTAAACCATTGTAGAGGAAAAGCAGGAGATAAAGTAGAAGAAGATATAAAAGAATGGTGGAAAGGAGATAAAAAATGATTAAAAAATCATATCTTCCAACTTTAGTTATGAGTATAAGTGTGGGATTTGTTATATATCTATTAGATAAAACAAATTTAAGTCATAATCAACAATTAATAGGTATTGGTCTTTATTCTTTTATTGCATCCATAGTAAAGGATAAGCTAATAAATAAACATTAAAAGGTGCCTAGGCACCTTTTTAATTTGATTAGTTGTATTTTAATTTTTAAAACTGTGTATAGGAGCTGGTATTCTCCCACCTCTATTAATAAATTCTTCACAGCTATATGGATTTACTTTCATTATTGGTGCTCTTCCAAGCAATCCTCCAAATTCTACCATATCTCCTTCTACCATATCTTTAACAGGAATTATTCTTACTGCTGTTGTTTTTTGATTTATCATTCCTATAGCCATTTCATCTGCTATAATTCCAGATAAAGTAGCTGCACTAGTTGTTCCAGGTACTGCAACCATATCTAGTCCAACTGAACAAACACAAGTCATAGCCTCTAATTTTTCTAAGCTTAAAGCTCCTATTTTAGCTGCTTCTATCATATTTGCATCTTCACTTACAGGAATAAATGCTCCACTTAATCCTCCAACATGAGAACTAGCCATTACTCCACCTTTTTTTATAGAATCATTTAGCAAAGCTAATGCACAAGTAGTTCCAGGTGCTCCAACTTTTTCAAATCCCATAAATTCTAATACTTCTCCTATAGAATCTCCTATAGCTGGTGTTGGTGCTAAAGACAGATCTATAATACCAAAAGGTATATTTAATCTACGAGATGCTTCATTTGCAACAAGCTGACCTACCCTTGTAATTTTAAATGATATTTTTTTAATAATTTCACACAATTCATCAAAACTTTTACCTTTAGCTTCTTTTATTGCACTTGCAACTACTCCAGGTCCACTTACTCCAACATGAACTGTTGCATCCATTTCACTAACTCCATGAAAAGCTCCAGCCATAAATGGATTATCATCTGGTGCATTACAAAATACAACGAATTTAGCACATCCAAAAGAATTAGGTGTTATTTCTGCTATTTCTTTTATTACCTCTCCTACAAGCTTTACAGCATCCATATTAAGACCTATTTTTGAACTTCCAAGATTAAGAGAGGAACAAATAAATCTAGTTTCTTTTAAAGCTCTTGGTATAGATTTAATAAATAATTCTTCATTAGGTGTCATTCCCTTAGAAACTAAAGCTGAATATCCTCCTAGAAAATCTATTCCTACTTTTTCAGCAACATCATCTAAAGTTTTAGCTATTTTCACATAATCATCTATCGTTTTAGTACAACCAGAAGCAACTAATGAAATAGGCGTAATAGATACCCTTTTATTAACTATAGGTATTCCAAATTCCTTACTTATTTCTTCTCCTGTTTTAACTAAATCTTTTGATAGATTATATATTTTGTTATATATCTTATCACAAAATATATCTATATCATCGCTTACACAATCAAGTAAACTTATTCCTAAAGTAATAGTTCTAACATCTAAATTATCTTTTTGTATCATTTTATTTGTTTCATTAATTTCAAATACATTCATAATTACACCCTGTGCATAGATTGGAAAATTTCTTCTTTTTGTGCTTTAATTTGTATATCTAATTCTTTTCCTATTAAATCTAACCTTTCTTGTAATTTTATATGTTCAATACTTGATTTAGTAACATCAACTATCATTATCATATTAAAATATCCTTCAAGTATAGATTGAGAAATATCTAATATATTTATATCTACTTCTGCTAAAGAATTACATATTTTAGCAATTATTCCTATCTTATCTAATCCTACAACAGTAATAATAGTTCTTTTCATGTTATACTCCTTTTATTTACATCCACAGTGCTTATCTAACATTTCAACTAAAGTTTTAACATGAACTCCTGTTGCTCCTAATGGTAAATATCCATTAGCCTTAGATAAAAATGCTGTTCCAGCTATATCTAAATGTACCCATGGTGTTTTATTAACAAATTCTTCTATAAATAATCCAGCAGTGATAGTTCCACCTAATCTACCACCTGAATTTTTAATATCAGCTACTACTGAATTATTTAATGCTCTAAAGTCATCTGAAGTAGGTAATTGCCATATTGGTTCTCCTGCTTTTTTAGAAGCTTCAAGAACTTCGTTAAATAATTCTTGATTATTAGTAACACTTCCAGTATAAAATTCACTTAAAGCTACAAGACATGCTCCTGTTAATGTAGCAAGATCTATTATTTTATCAACTTTTAATATTTCTGAAGAATAATAAACTGCATCTGCAAGAGTTAATCTTCCTTCTGCATCTGTATTATCAACTTCTATGCTCTTGCCAGCTAATGATCCTATAATATCACCTGGCTTGTATGAATTTCCACTAATAGAGTTTTCACATGCTGCAACTACTCCATAAACATTAGTTTTAATGTTATTTTTTGCTAATGCAAACATAGTTCCTATTACTGTTCCAGCTCCCCCCATATCACAGAACATAGTTTTCATTCCATCACTTGGTTTAATAGAGTATCCACCTGTATCATAAGTAATACCTTTTCCTACTAAAGCTATTTTTTCTGAACTTTCATTATTATTTAAATATTCCATTATTATAAATCTTGGTCTATTTTCTGAACCTCTTGCTACTGATAGGAAAGCTTTCATTCCTATTTTTTCTATTTCATCTTCTTCTAAAACAGTAACTTTTACACCCACTTTTTCTAATTTTTCTTTAGCAAAGTTAGCTAAAGTTTCAGGATATAGGTCTTGAGCTGGCATATTTACTAAATCTCTAGCAAAGAATATACCTTCCATAGTATTAGTAATTTTAACTAATTCTTTTTTAACCTTTTCTTCTTTAGCAGCATCAATAAAGAAATTAACTGTAATTTCTTTTAAATCAACTTTTTTTGATTTGTATTTATCAAATTTGTATTCTGCATGAACCATACCCTCAAGTGCAGCTCCATAAGTTCTTCTAGTACATAATCCATTTAATTTAGGTATGTATATTTTAATTTCTTCTTCTTTTTTTGCTTGCATTTCTTTAGCTAATTTATAGAAAATTTTTCTAACTTTATCTATAGTTATTTCTTCTTTTTTTCCTAATCCTATTAAAGCTATTTTTTCTTTATCTTCTAAATCTCTATAAATTAAAATTTCTCCTTCTTTTCCTGAGAAAAGACCAAGTTTACTCATTTTATTAAAAACAACATTATCTATTGTTTCATTTTCATAAACTAGTACTGCTTCTAATCCATTTTTTACATTTTCTAACCCTACATTATATTTCATTTTTATATCCTCTTTCTAAACTTTTTCTACTAAATTTCTTGCATGATCACATACTCTTGTAAAGTGTGATATTAAATCTATATATGAAAGACCTGCATGAATTTCGCATTCTTGTAAATTAATTCTTTTGATATGATTTTTTCTTATTTTTTTCTCATAAGCATATACTCTATTATGTAAATCTAATGCCTCAAAAACTTTCTCTTTATTACCATGTTTAATAGCTTCTATTGCACATTCTATCATTTCTGTTGATATTTGCAACATATTATTTATTTCATTATGTGCATATTCTGAGAATTTTAAACTTTTTCTTATTTCATATTCAACATCCATTAATATACCGTCAGCATGATCTCCTATTCTTTCAACATCTCTACACATATCTAAATATATACCTAATTCTTCCCCTTCTTTTTCACTTAAATTCTCTCTTGAAAGATCTGATAAATACTTTGTTATTTCTCTATCTAATGTATTAATACCTTCTTCTCTTCTTTTTATTTCTTCTGCAAGTTTTTCATCATGAGTGTGGAAAAATTCAACAGATTTCTTTAAGTTTTCTAAAGCAACTTCTATCATTAATAACATTTCTTGTTTTACTTGACCAAGTGCTATAGATGGTGTTTGTATCAATGCTCTATCAAGATATTTTATAGTGTACTCTTCATCAATTTTATCATCTTTAATAACTTTAGTAACTATATATGCTAAAACTCCTATAAATGGGAATAATAATATTGTATTTAAAATATTAAATGTTCCATGAGCAAAACCTATAGTTAATTTAGGTGAAAGATGGAAAAATTTACTCATTTTCTCTACAAATAGTGTAAATGGTGATAAAAATATCATAAATATTGTAGCTCCAATTACATTAAATAGAACATGTGATAGTGCTATTCTTTTAGCTGCTGAACTAGCTCCTATTACTGCTATTATAGCTGTTATAGTTGTTCCTATATTATCTCCAAATAATACTGGAAGTGCAGCTCTTAAAGTAATTAAATTATCATGGTAAATATTTTGTAGTATACCAACAGTTGCTGATGAAGATTGAACTATCATAGTAAGTACTGTACCTATAAATACACCTAATAATGAATTTTTACTTAAATCTACTGTTAAATCTACAAAGGCAGGTAAACTTCTTAAAGGATGCATAGCTTTAGACATTAAACTTAATGCAAAGAATAATCCTCCAAATCCAAATATTACTCTTCCTATGTTATTTATACTTTTTCTATTAGTGAAAGTTAATAATGCTACTCCGACAAAAAGTATTGGTAATGCATAACGAGAAATATTAAATCCTATAATTACAGCAGTAATTGTAGTCCCTATATTAGCTCCCATTATTATTCCTATGGCTTGTCTTAAAGTAAGTAATCCAGCTCCAACTAGTCCTATAGTTATAACTGAAGTTCCAGAACTTGATTGTATTAAACCTGTAACAAATACTCCAACTAAAACACCTAAAAACGGAGAAGTTGTATATTTATCTAAAATATACCTTAATTTTTCCCCAGCCATTAATTGCAATCCTTCTCCCATATATTTTATACAGAAAAGAAATAAACCTAATCCTCCTAAAAATGTAAATATCATTTCTCTATAGTTTATAACTTGTGTCATTAATTTCCTCCTAAAGTATATTCGAATACATTTCTTTCAGTTTCATCATTTGCATGAACTTTGGCTATATATTTAAAATTTAATTTATTAATTAATTTTATCATTGATTTATTATCTTTATGTGTATCTAATCTTACAACGAATTTAGAATCTTTTGTAGAGACTCTTATTAATTTTTCTAAAAATTCTTTCCCTATACCTTTATTCATTTCATTTTTATCCACCATAACTCTGTGTATAGATGAATAATCAATTTCGTTATTAATATGTCCATCATATGCTTTAAGATACATAGTATCAATACCATAATTTAAAGATGCATAAGCATATATTTTATTATCTTTTTCATAAACATATCCTCTTTTAAGATCTATATCATTTTTAAAATCTTCTTCTAAAGGGTATTTATCAGTCCATTGAATTAATCCAATTTCTTTTTGATAATCTATTGCTAGATCTTTAATTTTTAGTATTTGGTCTATATCTTCTAATTTAGCTTTTCTAAGTTTAAACTTAGATTTTGAGTTTTCTTTCTTTTTTATATTATATTTTGACATTAATTTTTCAATATCATTGTTACTGATAAAAGCGTTAATTATTTTAAATATGTGTTGGTCTAATTTATTTAAAATAATATTTTCTTCTTCAGTAAAATTTCCTAAAACATGGGATATTACTGATTTGTTGTTAGGTTTGCCTATACCTACTTTGATTCTAATAAATTCTTCACCTATATGAGATATTATAGAATTAATTCCATTATGACCAGCAGATCTTCCGTTATTTTTTATTTTAACTTCTCCTAACTTTAAATCCATGTCATCATAAATCACTAATAAATCTTTTTTAGGATTTATTTTGAAAAAAGAAATTAATTCTTTTATGGCTTCACCACTTAAATTCATATAGGTTTGAGGCTTTTGAAAAAAAACAGTTTCATTTTTAATTAATTCTTTTGTATAAAGACTTTTGTATTTTTCTTTTAAATTTGAAATATTATTGGCTTTTAAATATTTGTCTAAATATATAAAGCCGATATTGTGTCTATTTTTTTCATATTCATTGCCAGGATTTCCCAATCCGACTATTAATTTCACTTTACACCTCTTTTCATTTAAAATGTCATTTAATTTTACCATTTTTTGTATTTTTTTTCCATGTTTTTTTATATTTTTGTAATTGACTTTTATGATTTTTAAGGTATGAATATATTAGGAGGATATTTTATGGAGATATTAGTGAAATTTGATGATAAAGAAAAAGAACAAATTCTTAAATATGCTAAATCTCATTCTCTTACTTTAGAAGAAGTTTTTAAAAGAGCTTTATTTGAAAAGATAGAAAATGAATTTGAAATATATTTAGCTGAAAAACTTTATTTAGATTATATGAAAAAAGAGAAAAAGAATAGTGAGCTTTTTAAAAATTTAGATGTTTAAATAAATAATATATATTTATATATATTCATATTCTTTATTATTATTATATCTATGAATTTGTGAATAGTCTTTATTTATCATATTTTTAAATACTTTTTATGAGTGATTAACTTCAAAAAAATTGTGATTAATTTTTACTCACAGGCTATTCTTTACTTATTCAGAACTAACTATTTTTTGTGTGTAACTAAGTGAGTTTGATTTTAAACTGTTAATTTGAAAATGTGCTAAAATTCACAAAAAGAGGTCTAAACAATTAAAATACTACAACAATTAATGTGCCTAACTCTGTGAAAAAGTGTATAACTTCTGTTTTAAGGAGCTTTATACCCACTTTATTTTACATAATGTACAAAATGTAAAATAAAATATATTTTTTCAAGAAAAATAAAGTTGTGAATAAAAAAAATTTATCTTGTAAAATACATACTTTAATATTATTCACAATTCATATTTTTTTGTGAAAAAGTCATACAAGCTTATTAAATACATAGATTACTTTAATTGTGATATTGTGAATAATTATTTTTTTAGACTTAATTTGAAAGTTGAAATAGAT
>sequence2
GGCTTATCTCTCTAATGTTTTCCCTTGTGTCTTAATTTTATTCCATGCAGATTCAGGTTCTTCAAATCCTAATTCAACATTTATTTCTTTTGTTGCATTATTTTCATCATAATAATTTGATAAATTAGATACTTTATCAATTATCTTATCAACTATTTTCTTTAAATTTGGTACATATTTCATTACATTTTGAATTACATTTAAAGTTCTTTTATACCAAGTCAATTCTCCTTTTACCTCATCTAATTCTTTTTCAATCTTTTTCTTTTCTTGTTTTAAATTGGTTATTTCATTATCTCTTAATCTTATAGTTGATTCTAATTGCTTAATTTTTTCATTTTTACTATTTAATTCAGAGTTTTTTATTTCTTCTAATCTTTGATATTTTTCTTTTAAATTAGCTATTAAAAATTCCTTTTCTGCTAAACTATTTTTAAATGAACTTAATTTGCTAGAATTGTCTTTTGCCATTCTAAAAATATATTCATAATTTTCTTTTGTTGTAGTTATCATTGGTGTACTATCAAACATTCCTTTTTTATGTTCTGATTTTTCATTATATATCTTTTCTAGCATTTGAATATTTACCCATTTATCAGTATTAGTAAATTTTGTTATTTGTCCCCTAATATTTTCTTTTTCATCTTTAACTTGTTGCAATTCATTTTTTTGACTTTTAAGATCCTCTATTATTTTTTTATTTTCAATTATACTTTCTTCTTTTTCTTTTTGTGCTTTCAGTTTTTCTTCTTCAAGTTTTAAATACTCTTTATATTCTATTTCTTTTGCTAGTGCTATATAGTCGTGTTGTATCTTAGCATTAAAATCAAATTTAGTCTCTATTTTCTTATTAAAAAGTTCTCTCCATTCTTCTTTATCTAGTTCCATAAATTCTTCTTTTAACTTTTCTCTATTTCTTTTTCTTATGTATCTATACATTTCAATTTCAGTTAGTGGTTCTCTTTTTAAAATTTTCTTTTCAATATTTTTATTTTCTCTTTCTATTGTTTCTTTAATCTCGTAATGGTCTTTTGATTTACCATCATATACTTTCTCAGTAGAATTTTTTACAAACTCTACCTCTTCCCCTCTTATTTCAGTTGCTTTCTTACATAACTCTTTAATAAATTTATGCTCTTTACAAAAATTAAAAAGTTTATTTTGATAATCTTGATATGAATTAGATTTAGCAGCAATAGTCTTTGTTGTAGTAAAGCAATATTTCATATCAGTTTTTTTATTTCTTGGCTTGTATGATTTTATTATTTCTTCTCTATTTTCTTCAATCCATTTTTCTTTTGCGTGTTTATATAATTTTTTACTTTTAGGATCCGTATAATTTTCTTGTCCTTTTAAACTGCTATTGTATCTTGTGAACTTATTACTTGCCACCTTTTCAAATAATTCTTTATCGTTTCTAATGTCTTTCTCATCACTAGATTTTATTTCAGTTCTATATATTCCCATTATCTGCAAGTGTGGAGTAAATTCATCGAATTGTATCACTTCTGATAGAATTCTATAATCTTCCCCCATATAATTTTTTATAAATTGAGAAACATCTTTATAAAACTCCGTCCACTCATCTTTACTTGCTAAAAAAGTTAAATTGATTCCACCTAAATTTACAAAGTTGGTTGCTTGAATTGTAGGTGTCGTAGAGTAAAAATCTTCAAATTTACTGGTATCTTTATTTAAACTATAATCTGTATTTAAAATGTAATTATCATATTCTTCAAGATCAAACTTTTTTAGAATAATATTCTCCCCAGATAATTTTAGATTTATGTCTGGATTCTTCTGTTCTCCAATCCTTTCATACTCACCTGCAATGTCAATAATTTGTTGCCGACTTCCAGAAACTTTTGTTGACTTTTTCTTAAAATTTGAAAATATTTTGACTTGTTTTGCTATTGACATCTTCAATCACTCCTTTAAAGTTTACACTTAGTAGTTTTTTTTAATTTTTGACATTTCGCCATAAAATCGGAATAATAATTTTTGATAAAATTTTGAATTTTTTGCTTAATTTTTGTAGTACAGTTAGAGACAAGTTGTTTCTGACTAAAAATTTATCGCAAAAAACACATCAAAATTTGTTCCAATACTCTGCAAATTTTTCAAATTTGCAATTTTTACTGGAATTTATTAATTTCCAGTAAAAATAAAGGGGTCAAGGGGCTCCCTTGCACGTTAAATGTCAAGGTAAAACGGCTTGCGTTTCCTTGCATTATAACGTGCTATAATACAATATGATAAGAATTTTTAAAAAGGGAAAAATATTCCCTTTATTTTATATTCATTATTTATAAGTTTAATTACCTAAAGAAATATACTAAGTACCTGAACTCGAATACTTCTTTAATACATTATTCCAAATTAATACTACTATTATAAAATATAATATTGTAATAAAAACTGAAATTAAAAATACAATTATCAAATTTTGATTACCATCTTTTAAATTTATGTATGCTGGTATATAACCGATCCATGCAACCGGAATAATTGTTTTAAATAAAATAGAAATTACAGGATTAAAAATATTTATTGGATATTTAGAAAATTCATATATTATATATGGTAAATCTGAAAAATTAGATGACCCCAAAAATATAATTGAAAACAATGACCCTATTACTGATATGCCTGAAAACACTAATCCCCCTAATAAAGCTATTATAAATACTAAAATAATATTCAGTATCGGTAAATTTAATTTAAATGATATATAGAAATATATAATAATACCAACTGCTAAATCTCCCCACGCATCTTCATCAAAGCCTTCCATAAAAATTAAAAATAAAGGATTCAAAGGTTTTATAAGTAATATATCTAATTTACCATTTATTATATAATATGATATATTTAGAGTATTTATAAAAAAACATCTCCAGATTGAAAAACTAATTGTAACTATAGAATATAAATATATCATTTCATTAATATTCCAACCGTTTATTACATTAACAATATTATATATAAAAAATATCAAAAATAGATTAGATATATTTTTTAAAAACATCGCAATTGAACCTAAATAAAAATCTATTCCATAAGATTTTAATTCTTTTATATTAATATATAAATATAAAAAAAATAGTTTTAAATATCTTTTCATTTTATCCTCCATTTATACTAATTTTCTTTAAACATAATTTAAAAATAGATTTATATACACAAAATAAAATCAATACAAAAAAAGTTTGAAAAAATAATATCTTTAAAAAATTTTTTTCATATAATATAAAATCTGCTATCTTTCCATATATATATACAAAAGGATTATAATCTAACATTTTCTTTGACCATTCTGGATAATATTCTATGGGGAAAAATGACCCTGAAAGTATAAGCATAAATATAGACTTTAAAGATTCAATTCCCCAGATACTTTGTGTAAAAAAAGAGAATGTCCCTAAAATTAATTCTATAACAAAATTAAGTACATATGAACCTATTATTATAATAATTAACTTAAATATAAAAAATATATTAAATTTCCCAATCAAAAACAAAGCTATTAATATATTAGGAATTAAAATCGCTAAAACTTTAGCAATAGTATTTCCTAATATATCAAAAAAATAATATTTTTCTACAGTAATTGGTTTTGTTAATATCCCTACTATATTACCATTTTTTACATCATAACTCATATATTGAGATAAATTGAAATTAACACTATTAACAGATCTAATAATTATAAAATAAACTAATATATTTTTTATATCAATATTTATTGAGCTATTTTCTTTTATCGATAGCCATAAACTATATTGTAAAAATATATAAATATAATTTTTTATAATTAAAGTTGTTATTAAGCCTTTATATGATAATATTTTTTTTCCCCCTATTTTAATTAACTCTATATATTTATCCATTAGAAACTTCCTTTAATATTTTTTCTAAATTATTTTCTTTAATTTCAAAATAATCAATCAAATTATTCAAGTAAATATAATCTAAGAAATTTTTTAATTCATCTTTTCTTATAAATTCAAAATTATATTCATACTCATTTGTTTTACTTATTTTTACTTCTCTAAATTTTAAACTATCATACTTAAGTGGACTTTTAAGATAAATTTTTATACTTAAATATTCAATATCATTTAAAATATCATCTTTATTTTTATCCAATACAATTTCACCTTTATTTAAAATTATTATTCTATCTGAAATTTCATAAACTTCATTTAAATTATGTGAAGTATATATTATTGTTGTATCTTTTTTTAATTCTTCTATTAATTTTAAAATTTTATTTTTACTTAATATATCTACACCAATAGTTGCTTCATCTAAAATTAATAATTCAGGAGAATGTAATAATGCCGATAATAAATCTGCTCTCATTTTTTGTCCTAAACTTAAAGTCCTAACAGGCCTATCGATAAAAGAATTTAATTCTAATATTTCAGAATACTTATTTAATAAAGTTTCAAATTTTTCGCCAGGTATATCATATAAAGCTTTATTCAATTTATAAGAATCTAAGGGAGATAAATCCCATCTTAATTGTGTTTTCTGTCCAAAAATAACACCAATGTTATATAAATTTTCAATTCTATTTTCAAAAGGTTCTTTATCAAAAACTTTTATTTCTCCTTCGGTTGGAACAAGTATTCCTAAAATAATTTTTATTAAAGTAGATTTACCTGCCCCATTTAAACCTATAAGTCCTACTGTTTGTCCTTTATAAATTTCTAAATTTATATTTTTTAAAGCTTGTATTGTTTTAATCTCACTTCTAGAAAAAAATCCTTTTTTTATTTTATAAACCTTATTTAAATTATTTATACTTATAATTTTCTCCATTTATTTTCCTTCTTTGTAAATTTTTTTTATAATTTCAAACATTCTGCTACTTCTAGCTTTTAAATTAGAATTATGTGTTCCTTCATCCCAAAAAAATCTGAAATTTTTAGATTGAAAAGAATTTTCTAATATATTTCTTTTATTAATAATTTCATCATTATAACCAAGTATAAAATATAAATTCTTGTTCAAGTTTAAATTTAAAATATTATTTAAATTTATATCTCTAAAATCTTTATTTGAAAATCTTTTATAAAACCATTTATTATAACTTGTTGGTATACTCTCTATATGATTATTTAAATCAAGTAATGGATTTATTAAAATTTTATTTTTAATTTGGGAATTTTCTATTAATAATGATACTGTCCCCCCAAAGCTTCCACCTATTAGTATTTTTTTAGTTTTATCTTCTTCTAATAATTTATTTAATGATTTATTTAAAACATTCTTCCAATCATTATATGGTAATTTCCTATATTCACTTCCAAATGAAATTGAACCTGGATAATTAAATATTATAATTTTTATTGGAAATTCCTTTAAAAGCTTATAGTATAATCCACCATAATTATTTGAAAGTAATTCAAAACTCTCAGGGCCACCATGACATGATATTAAAGTTATTTCTTCTTCTTTATTTAAATCTTTAAAAATAGAAATATACTTTAAATTTTCACTATAATATTCTTTTATTTTTATTCTATCTTTATATATATATTTTCTCAAAATTATATTATTTCTATAATTTGATGATTTATTTATTATTATCTCTCCAAACAATAGTGAATCGATTTTATAAATTAATTTATTATCTATAAAATTATAAAGATTAACTTTACCTTTTAATTCATTAATTATTAATTTCTCACTTAAATTTAAAAGATCAATATGGATACAAAAAGTCATGCCGCTAAATACATATTTAATAAAAATATTATTATTAAAACTCAATATATCTGATATAACTCCCAATATTTTATTTGATTTTATATTTTTTTTTAGTTTAATTATTTTTATGATAAAATAATCTATAAATTTTTCTACAATTATAAAAATTTGATTATATATTCCAATATAATAATATAATTTATCTAACAAATTAGACTCATAATTATTATTTTCATTTTTAAGTATGTATATTCGTTTAACTAAATCTATATATTTAAAATCATATTCTTTATTAGATATTAACTTTTTAAATAATTTATTTTTAAATCTCAATTTTGAACCTATAATTAAGTACTTATTAATAGGTTCTAAAAATAATATTAATTCATTATTTTCATTAATAAATATATTCGAAATTTCCAACCTTTCTTTATAATATCGATTAAGATTATAAAGTTTTATTTGTATTTTAAAATGAAAATTTATTTTTTTTATTAATAAAATATTTGAATTTAATGAAATTATATATAAATAATTTTGACCTTGTTTATAAAAAAATTCTGCATTAGTTAATGAAAATTTTAAATTATTTTTTTTACTTAAAAATACTAATTTCATATTAGTTTCATCTAAATATATGTATTTTTTTTTATCAAAATATATAATATGATATTCTATATACTTTATTAAATTTTTAAATTTATTTATCATATTTTATTATTTCCAAATTTTCTAGCAATATCTTATTATTCTCAAACTTTCTTATACCTTCATTTAGTAATTCTATTGCTTTTTCTCTTAAATCATTATTATAATAAACTTCTGATATTAAAGAAATTATATCAATATTATCTGTTTTTTGATAGTTATTTAAATTATTAATGATATTTAAGGCTTCCTTATATTCATTATTTTCTGAAAGAATATATATATAATCATATATTATTTCAATATTTTTATCTAAAATATAAGCTTCCTTGTAATTAAATATTGCTTCTTTTAAATCTTCATTCTTTAATGATATAAATCCTTTTAAAGAATAAATTTCTGGTATTGTACTATCCAAATCTAAGGCTATTTCCAATTCATTTAAAGCCTCTTCTATCTGTTCATTTTTTAAAAATAATTTAGATAATTCAATATGATATTCAGCAAAATATGGATCTAATAAAATCAATTTCTTATAAGTTTCTATTGCTTCTTTTAAATAATTTGCTTTAGTATAGCATTGCCCTAAATTAAATAATAAAACTGTTTTTTGTAATAATGTTTTATTTATATCAAACTTTTCTAACTCTTCTATTAATTTTTTTACTAATTCAATTGCTTCATCATATTTTTTATCATTAAATAAAAAAAATGCATATCCATTTCTGTTAAAAATTTTATTAATCTCAATTCTAGTATTATCAGGCTTTCTAAGGTTATTTAAAATCTCATATCCTTCATTTATATACTTTAATCCTAAATTATAATCTCTTCTATAAGTTTCCATATGCCTAGCTTGAAGAATTGATAAAGAATATAAACAACTCGCTTTATCTTCATAAGATCCATAAGAATACCATTTTTTTAAATAATATTCTGATTTTATTGTATCTTCTTTCATATTATACGCAATAGAAAATAATGTATATAATTTTACAGATGTCTCTTTTTTTTCTATGAAATTTAATATTGATAAAGCAGTATAATAATCTCCAATATTAAGATAATATTCTGTTTGTTTAATTAAAAATTCTATGACATTTTTATCTGCAAAATTATTTTTTAGATAATAATTTATTTCTTTTTCTTGATCTGTATAAATTATATTTTCATCTTTATCTGTATTTTCAATTATAATTTTTATATTATTTGGAAATAATTCTTCAAATATATTAAAAAATAATTTTGTTCCTTCATCTAATTTATCATAATTATTTATTGAAATTGATAAATTCTTATAATTACGAATAATATATTTTATTATCTTAATAATTTCTCTTTTAATTTTATTTTTTGTATAAAATCTAATTTGATTTTGAATTTTAGCTGAGGAAGTTAGAGAAAATTTTAAATTCTCATCATTAAATTTTAAATTTAAAATTTTACAAGCTCTTTTAAATTCTAAATTTTTCTCTATTTCTAACATTTTTAATTTATAAATAATAGTTTTTAATCCTAAAAAAGATATCAAAATTTTGTCTTTAACAATTAATTCAACCATAACATATTCTCCTTTTAAAATTTTTATTTTAAAAAAGCTGTTAAAAATAACAGCCTTTCTCATTTTTTAGAAAGCTAGACACCCATCTTTATAACAATACATAACAGAGAAGTTTACTTTCTTTAATTCAATTTTCTTTTTTATTAACTTTTTCATAAAAATCACTCCTTTTTAATTTATATTCAAAATATATCTCTGTTTTTTTCATTTGTCAATAAAAGTTTTATTTTTAACTTACAGTTACCTAATTATTATTTCCAAATTTGATACCATTTTTTATTTTTTTTATTTTCTAACAATAATTGATATGTTTTATTAGTTTCTGAAATTTGCTCAAATAATCTTTGATAATTTAATTTATCTTCTTTTATTTCTTCTTCCATTCTTGAAATAAAATTATTTTTATTTTCTAATTGTATATTTAATATTTTTATTTCTTGTTCTAATTCTTTAATTTTTTTATTTTGATTTTCAGTTTCAAAATTTAATAATTTAATTATATCATTTTGACTATCAATTTTGGGGGCACTTTTGATACTTTGAGTTTCAAAAGGTATTAATGAAGTATCAATTTGAGTATCAATTATATATAATTTACCATCTTCTCCTTTTACTTCTTTGACACTTCCTTCTCTAACATATTTTTTTAGTGTATTCCTAGATTTTATACCCTTTAAAGCCATATATTCTTTATATGTAAATTTCATAAATTTCTCCTTTTGACTATCAATTTGACAATGTCAATTGACTATCAATGATCATCAAATTGACTATCAATTTCATTATACCTCTATTTCTATTAAATTCCAATATTTTTTTACTGTATTCTTAGAAAGTCCCGTTTCTTTCTGACAACGATACATTGTAGCATTAGGATTATTTTTTTTATATTCAATAACTATATTTTCTTTTGTTCCTTCACCAATAGGTTTACCATTTTTATTTCTCCATTCTCCATTTGGAAAATCTAAATTTTGCAATATTCTTGCTCTTAATAAATGTTCTTTTTGTTTTCTACCATTTCTTTTATTAGGTGGAATAATAATTCCAGTAATTTTTTCAATATCTTTTCTAGGAAATGTCGAATAATTTTCTCTAAATGCCTTTAAAGAGTCTTCAATATCTTCTTTGGTAAAATGATTATCTTCATTCATTGTTAAATTTTCCATAGGTGCTAATAAAGAATAAGAATCTTTTTTTAATTCTTCATAATCAATATTACATTTAATGGCATACATAGCTAAACTCATCAAACAAAAATATCTATGACCTTCTTTAACTTCATTTCCTTTAATTTTATTTAACCACCAATCGTATAAATCTCTTTTAATATTCCATTTCCCCCTTTTTTCGCCTTTAACTATTCTTCTTTCATACCAATCTGGGTACAATTCTTTTGCTTTTTCTAATGATATTTTACTATGTCTATATGTAGATTTATTAATCATAGCAATTTGATCCATAGTCAATCTTTTTTTCTCTTCATAAATAAAGTTATTAAGATATTCTATTGTAGCATAAGGAATATCATTAAATTTAAAAGCCGTTACAATTTCTCCAAATTTAGTTTTAGTTCCAGGTAATCTAAAACCTTGAAAAATTCCTTGAACTTGTTTTTCAGAAATACTAGATGTATACATATTCCAAATTTCAACAGTAAGTTTATACTTAAAATCTTTAAGTAAAACTTTAATATTATCAAATAAAGCAATTGGCTTTTCAAATAAATAATATAAATGAACTCCATTACCACTATTAACAATCAAATTTGCAATAGGTAATCTTTTAGTTCTCATTTGATGTAATAAATCTTGTAAATTAGATAAAAAAACTCCATCAATATCAAAAGCAATACCATAACAATATCTAGCATTATTAGAATTTCTATTTCTACCTATATAAGTTATAGGAGATGTAATAACAAAGTCTTGACCTTCAAATTCTGGTAATTCTTCTAAATCTCTTGTAATAATTTTACTAAAACTTTTCTCTTTTTTTATATTAACAATAATAGAATTATACTGGCCTTCAACATAATTTTCTTTCCCTTTTAATTCAAAAGGATACTCATTATTTCTCATAAAAACAAATTCATAAAAACCATATAAATCAATACGATCCAAATCAAAAATATCATTATATTCTAAAAATAAATTTTTCTCATTAAAATTCTGAATTTTATCTTCAATAGTTAAATATTCAACATTCTTATTAGACATAACTACTCCTTAATTTTATATATAATTAAAAAATTTTTCTCATACTTAAACGATAAATAGCTTCATAATAACCATATGGCGTTATTTTATCAATACAGTTTTTTGACCCTATTTTATTTTAACAAATTTTTATGCTAATAGTCAATAAATAGCTTGATTTTATTTTGTTTTTAGAGTATAATTATGTTGTAAATAATTATAATTATTAAAAATTAGTTGATACATTGGCATAGATAGTTTGGCGACTATCTATTTTTTTTTATTTTATGTTATAATAAAATCGCCTCTGCTTTTTTTCTACGAGGAAAGGAGTAGAAATGTATCAACTAATAAAAAAAATAATAGCATTTGTATTATTAGGTATTATAATAATCGCCAATATTATATTACCCTTAACAATGTTATTTTAAAATTTTTCTGCAGCCTTTTGCTGCAGTTTTTTATTTAAAATGAATTATGCTTCTAATTTGCTAAAAATTGCCCCTCTAAGCTCCAAAATCAAAAAAAAAGGTTTTAATACCCCTTAATATAAAAAATGGCTCAGAATTGAAATTTG