##gff-version 3
sequence1	MetaGeneAnnotator	CDS	331	690	.	-	0	ID=MGA_2;product=ribonuclease P protein component;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597963.1;translation=MCITSLKNQKEFELINKLGEKFYERYFILVIAKKLPKIFLESKYNTFLGIKVSRKLNKKAVVRNKIKRRIRHLMRIIVNDSNFKAIKFAIIIIPKKGFEEINFSHLQYELSKIILRNIY;locus_tag=LOCUS_0010;gene=rnpA;EC_number=3.1.26.5;note=WP_004597963.1 ribonuclease P protein component (Rickettsia prowazekii) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-59],MGA_2
sequence1	MetaGeneAnnotator	CDS	974	1327	.	-	0	ID=MGA_3;product=50S ribosomal protein L20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597959.1;translation=MTRAKSGKISKKRHKKILKLAKGYRGRANNCFRVAIEKVEKGLQYAYRDRRNRKRDFRGLWIQRINAAVREHGLIYSQFMGALKKAGINIDRKVLAELAVNNNDGFASIVQQSKAHI;locus_tag=LOCUS_0020;gene=rplT;note=WP_004597959.1 50S ribosomal protein L20 (Rickettsia prowazekii) [pid:88.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-52],MGA_3
sequence1	MetaGeneAnnotator	CDS	1348	1551	.	-	0	ID=MGA_4;product=50S ribosomal protein L35;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597958.1;translation=MPKLKTKSAVKKRFKFTATGKVIASQAGKKHFMRRRTKAQIRNLRGTTILCPQDGHNIKKYFLPYGI;locus_tag=LOCUS_0030;gene=rpmI;note=WP_004597958.1 50S ribosomal protein L35 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.3e-33],MGA_4
sequence1	MetaGeneAnnotator	CDS	1701	2405	.	+	0	ID=MGA_5;product=7-carboxy-7-deazaguanine synthase QueE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597956.1;translation=MNQRINSYKMFGHNPKRSILSGDGTKLEVQSIFKTIQGEGIFVGYPSIFIRLGGCNLACNFCDTEFEDFKLIDIDQILNKVKNLSLNSKNAKTINLVVITGGEPMRQPIGLLCQKLLDQDFKVQIETNGTLYRSLPKEVFIVCSPKVGKTGYNKIREDLLPQISAVKFIISKNIVEYSIIPEVGQSAYDIPVFVQSMDQNDKRLNNENNELAVKLALESGARLSLQTHKFLGIE;locus_tag=LOCUS_0040;note=WP_004597956.1 7-carboxy-7-deazaguanine synthase QueE (Rickettsia prowazekii) [pid:98.7%25%2C q_cov:96.2%25%2C s_cov:100.0%25%2C Eval:1.3e-123],MGA_5
sequence1	MetaGeneAnnotator	CDS	2630	3241	.	+	0	ID=MGA_6;product=50S ribosomal protein L25/general stress protein Ctc;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597954.1;translation=MSGILELEAKSRTEFGTGAARALRREGRVPAIIYGAGKTPISISLKEKEITKYYRKPAFISQLINLTIDKKQYKVLPKAVELHPVTDIVRHVDFVFLEAKTQKMEVPIVYEGKERALGVKRGGYFNIIKRRVILLCDVNNIPRNVTIDVTNMPIGTSLKSSQVELPKGCSFITKKEFVLATIIGRRGVKTEIEGEQEVAEAIQ;locus_tag=LOCUS_0050;note=WP_004597954.1 50S ribosomal protein L25/general stress protein Ctc (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.5e-110],MGA_6
sequence1	MetaGeneAnnotator	CDS	3471	4028	.	+	0	ID=MGA_7;product=aminoacyl-tRNA hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597952.1;translation=MILVIGLGNPGTEYQYTRHNIGFIAIERIASKYHLSFSIKKKFNCEIAEAVIDRQKIIFIKPTTYMNLSGKSVILVKTYYNIKYEKVFVIHDDIDLEIGRIKFKTGGGNGGHNGLKSIDVVIGNHYNRIRIGIGRPKNNHDVADYVLNNFSESEYKIAMQSIDNIANNFGLILEHKLAEFTNKIV;locus_tag=LOCUS_0060;gene=pth;EC_number=3.1.1.29;note=WP_004597952.1 aminoacyl-tRNA hydrolase (Rickettsia prowazekii) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.0e-102],MGA_7
sequence1	MetaGeneAnnotator	CDS	4399	5496	.	+	0	ID=MGA_8;product=redox-regulated ATPase YchF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597950.1;translation=MTLKLGIVGLPNVGKSTLFNALTASQIADAANYPFCTIEPNSSKVLVPDERLQRLVSLVGSNKMIPSYIEFVDIAGLVKGASKGDGLGNKFLSHIREVDAILHVLRCFEDEDIMHVHNKIDPLYDIEVIETELILTDIASLEKHFIKSEKRLKSGDKKMVEQIALLKEIYKVLAEGKPARILNEVLGADNLNQLQLITSKPILYVCNVFEQDAAIGNKFTQLVAKRAETEKTKSLVISSKIESEIALLESVEEKEEFLKYIGLNKTGLSKVIKEGYNLLNLKSFFTIGPKEAHSWTFKDGTLAPAAAGIIHTDFEKGFIRAEVISYEDYINLGSEAKAKEVGKMRLEGKDYKMQDGDIVHFRFNI;locus_tag=LOCUS_0070;gene=ychF;note=WP_004597950.1 redox-regulated ATPase YchF (Rickettsia prowazekii) [pid:99.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.8e-204],MGA_8
sequence1	MetaGeneAnnotator	CDS	6463	7686	.	+	0	ID=MGA_9;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598986.1;translation=MKIIAKIPAWMLLCLFILSPTTETIYTSGLPSLTRCFSIDGCITQMTSTLYFLGFAVGILSLGRLSDIYGRRPIVLLGLFIYIVSSIISIFSFNIEMLMIARFIQAFGVSVGSVIGQSMARDSYQGAELSYVYAILSPWLLFIPALGSYIGGYIIEYLSWHYVFIFFSLAGTILLALYYQILPETNYYIAFSQSSKYFEVFNIIIKDKMLWLYAFIIGAFNGIYYGFFIEAPFILIDQMRVLPSFYGKLAFLLSFASIFGGFLGGYLIKKRQVYDKKVMSIGFIFSLCGCILFAVDSFILEFILVSNVFAIAMIFMPMMIHMIGHSLLIAITLRYALEDYATVTGTAGSIFGAIYYVVIASVTYCVSKIHGETISNFSLLCLVLSISSVISFYYICLLYKKKSIIIN;locus_tag=LOCUS_0080;note=WP_004598986.1 MFS transporter (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-223],MGA_9
sequence1	MetaGeneAnnotator	CDS	7897	9381	.	-	0	ID=MGA_10;product=patatin-like phospholipase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598988.1;translation=MLDLDTSNTKKSSLALLEGGGVKGEIHLEKLKVIEEITGKPTCKVFDFTGGTSVGGLILILLNLPDSDNPGKPLFSAEQAQTLFERMVHNIFPEGLTFRKLWSCNGLFSYKFSPDPLVKLLKKYCKDYTLKDLIGEVIVTGYDLNNQQNPLITFSTIEARKSQDNNYYLSDIIQGITAAPGYFPSHHFSNITNTKVHTIIDGGIYANDPTLQTWQLLKENKCIIDNALYLSLKEENNADYKTVCCGGGILELLKNNMPNKILAATQQADEITAQRIFGNKLIEIPTYIPEQHAEMSNSSIENLQALKEFAKKSIYESSYFRDAPYNEKFKEVIDKIIKNYNANNPQDKIVMNDAYKKLFHIDTSNNEFDSYSNVDDITDIVPIAQALDSQDIQDIDTDKEEILEGIKNFFDSFIAKNPEAKADIAHFLNETENYTLEEMKNYIVSFKLASSKWQDTQNNLDIFSSCSMQALKEDIDLEGEEHTDDVPGYNEIVA;locus_tag=LOCUS_0090;note=WP_004598988.1 patatin-like phospholipase family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-290],MGA_10
sequence1	MetaGeneAnnotator	CDS	11019	12410	.	-	0	ID=MGA_11;product=chromosomal replication initiator protein DnaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597944.1;translation=MSTNQIPLTDQGDNYVNVWSYVAQDLYNHYGETLYNSWFSKVNFIESSLNTVILCAPTNFIRDWIKSKYAMVILQLFQHYNNAIKSIEIITKELPGTTQAVIESPTKTFADIGNSALNSENIVSTLDVRFTFDNFVVGVPNELAYAAARAVAESSGAVFESNPLFLYGGVGLGKTHLMHAIGWYIKQNNPRRKVIYMSAEKFMYQFVKALRNKEVILFKEKFRSVDVLMIDDIQFICGKDSTQEEFFHTFNTLIDNNRQMVISCDRSPSDLDNIEDRIKSRLGWGLVADVHSTTYELRLGILESKIEQMNVKIPKDVINFLASKIVSNVRELEGALNKVIAHSNFTLKAITLENTQNILRDLLRSNERIITVEDIQKKVASRYNIKLSDMYSSRRLREVARPRQIAMYLSKTLTPKSLADIGKKFGKKDHTTVMHAIKKVEELLENDIELREEINLLMKILQN;locus_tag=LOCUS_0100;gene=dnaA;note=WP_004597944.1 chromosomal replication initiator protein DnaA (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-262],MGA_11
sequence1	MetaGeneAnnotator	CDS	12411	12782	.	-	0	ID=MGA_12;product=rhodanese-like domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886332.1;translation=MLVQNICSTKAYNMLILNNNAFLVDVRTQEEWKQVGIPHLDNKNKVIFLSLQLNKNFEDNFLSIINEKIDTAIFFLCRSGYRSFIAANFIANIGYKNCYNISDGFEGNNQDKGWKQNNLPWQF;locus_tag=LOCUS_0110;note=WP_010886332.1 rhodanese-like domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-69],MGA_12
sequence1	MetaGeneAnnotator	CDS	12978	13241	.	+	0	ID=MGA_13;product=succinate dehydrogenase assembly factor 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597938.1;translation=MNKLNKNALQKKLFYRSKKRGCREMDYILGRFAEKYLSSMDEKKLKSYTLILDQNDNDLYNWINNKPSAPSYLDPEIIDKLRKIAKI;locus_tag=LOCUS_0120;note=WP_004597938.1 succinate dehydrogenase assembly factor 2 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:96.6%25%2C s_cov:96.6%25%2C Eval:2.1e-43],MGA_13
sequence1	MetaGeneAnnotator	CDS	13253	16615	.	+	0	ID=MGA_14;product=transcription-repair coupling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598992.1;translation=MIQQKFPATAKCFYVIDNFTKNLNQDFILSVSNEEEALQLYKQALFFSSNDNIYYFPSYDTIPYDHTSPNANIVSRRAETLTKLITNSKGKLLITHAANLLNKLPPKDFFSKYFLKLYPKIKFTMDELSMLLVENSFTRNTSSIDVGEFAVRGEIIDIILPGPKGYRINFSWDYIESIKEFDINTQISTKYCAELVISPANEIVLNSETIGNFKNNYLRNFGVNHTDNPLYEAVISGRKFAGYEQLLPLFYYSCSSLVDYLNNPICIFDNLSKQAILEFENSYNDFYLARSKANKLKVNNFYPTLSPTSLYFTASAITELLEQKNNILISYENSEQASLIGNISSISFIEKKTIFDKLFEIIKANFHKKIIICSSVLSSFERIKSIIQNYEYTFNEINKLDEAKASVINIGIIPLNQSFYTKEYLFITSSELLEEKTLYTNTNKKLKNILLELDNLKEGEFVVHKDHGIGQFLKLEAFKIQGKLHDFLKILYFGNDKLYVPVENIEVIKKYGSDNAELNKLGSVAWNKSKAKLKNRIKEISLHLIQIAAKRKLNISTPIELDLEAYDKFCANFPFSETEDQLTAINDIREDLTNGMLMDRLICGDVGFGKTEVAMRAVFMVAKSLNEYLPQVAVVVPTTILCSQHFSRFIERFKGFGLNIKQLSSVISSKEANIIRLELASGKINIIIGTHALLHKNTKFFNLKLLIIDEEQHFGVSQKEFLKSLKSSTHVLAMSATPIPRTLQMSMTGLKELSIIATPPLNRLEVRTSVMPFDPVIIRDALLREHFRGGRSFYVAPRIKDMEDIEKQLKQIVPELSYKIAHGKMTPSKIDEVMSEFYVGKFDILISTTIIESGIDIAEANTMIIHKADTLGLSQLYQLRGRIGRGKIRGYAYLTVASNKKITSHSLRRLEIIQNSCSLGSGFTIASHDADLRGFGNLIGEEQSGQIKEVGTELYQEMLEEQIALLKDDPIVLEQAFIPNINLGLSVFIPDSYVSDSALKIGLYRRIGNLSNEMEVEKFKDEMIDRFGLLPIEFNNLLDIVKIKLLCFKLNIENLDSGDDGFVIRFYKNADMTDKILKFVSRYSNQTKIKPNNKLVFIKKLVDKNIITEVNQLLWTLLEI;locus_tag=LOCUS_0130;gene=mfd;note=WP_004598992.1 transcription-repair coupling factor (Rickettsia prowazekii) [pid:98.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_14
sequence1	MetaGeneAnnotator	CDS	16736	18178	.	+	0	ID=MGA_15;product=UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411751.1;translation=MKYNLNQLFKNHRIKGLSTNSKTVKEDEVFFAIKGQNVDGNDFINDALNNGAVLVITENKDNTAIDKVIYVEDVHKALYEAIEIFYPKKPKNLISVTGTNGKSSVVSYIAQAYSLLKKKAAFIGTIGLEIFGSNNIINDVPSLTTFDYLSFRKVAHNLAEDSIEYLAFEASSHGLEQGRLGKTKVNIVSFTSFSQDHLDYHHTKENYLLAKLKLFTDHLLPSGIAILNSDIEEIEFVKDYLHNNNVKFITVGKKGDLQITKITCSLTGQNIDFIFNNIIYNLHTLIIGSFQASNLLIAALTLYYTGFKFDEIIEALAKVKPIKGRMERIDGTNIFVDYSHTPDSLEKALIELKNIKLHGSKLSVIFGCGGDRDKTKRALMGQIAAKLADNVIITDDNPRFEDPKLIRAEIIRGIGTATYTEIASRAEAIKYGINNLKQDDILLIAGKGHETYQIIGDKKLPFDDSEVVRKYLFEISYTRN;locus_tag=LOCUS_0140;EC_number=6.3.2.13;note=WP_014411751.1 UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2%2C6-diaminopimelate ligase (Rickettsia prowazekii) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.9e-272],MGA_15
sequence1	MetaGeneAnnotator	CDS	18285	19634	.	+	0	ID=MGA_16;product=UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597930.1;translation=MIWNSKTLSIALGIEISNSVNCNEVQFNSKDVKKGDLFIALQGNRDGHDYIQDAIDKGATAVIVSKQVEINDKDKIILVNNSFEALQKMALYKRENSKAKFIAITGSVGKTSTKEALKILLQHDFIVFASRGNFNNYLGLLINLASMADDTEYAIFELGMNHQGEISELVQILKPNIAMINNISEAHLEFFHSLEEIAEAKCEIFKNFSKNDIAIINASNNCYNKILSILKNLSITNIYSFGHSSKASAKLILYKTLGEQVHLQYYINNKFIDITIPFIPRHFANNYTGVLLIIDILGKDIEISAKYLADIALTKGRGKIINIQNSRVICDYYNASPQSMKAALEYLKQVPADNKTSIIGEMLELGWNSQRLHEELVPYILDAGCTKVYLVGAYTKYIYDLLPNKISKKFFKNVEELITHITDLFEYSELILIKGSRGVKLDKIVDYYQ;locus_tag=LOCUS_0150;note=WP_004597930.1 UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.5e-256],MGA_16
sequence1	MetaGeneAnnotator	CDS	19801	20886	.	+	0	ID=MGA_17;product=phospho-N-acetylmuramoyl-pentapeptide-transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597928.1;translation=MLYNLLLPHIHNSHIANLFHYITFRSGLAIIITLSISFVTGPILIKFLRSLQKYGQPIRSDGPESHKTKAGTPTMGGIMIILSSCLSTLLLADLTNKYIWITLFGFISFGIIGFMDDYAKVKRNNHYGVRGKSKFLLQGIISLIIYVLLEYLDKNFSHLLNVPFFKNLSLDLNYFYMVFAIFVIVGSSNAVNLTDGLDGLATVPIAFTAGSFALISYLVGNLIYANYLQLTYIPNTGELTVLCAGLVGSCLGFLWFNAQPAEVFMGDTGSLSLGGVLGIISVITKHEIVLAIIGGLFVIETTSVILQVYYFKATKGKRIFKMAPLHHHFEKHGWAESKVVIRFWIISVIFSLIGLSSLKLR;locus_tag=LOCUS_0160;gene=mraY;EC_number=2.7.8.13;note=WP_004597928.1 phospho-N-acetylmuramoyl-pentapeptide-transferase (Rickettsia prowazekii) [pid:97.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.0e-199],MGA_17
sequence1	MetaGeneAnnotator	CDS	22647	24821	.	+	0	ID=MGA_18;product=ATP-dependent DNA helicase RecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598998.1;translation=MKGLYKVNYFIINFLSKVILKYMLTTLEQFLFAPVKAFINIREDTVSALKRLGIKNIRDLLFYLPVSYQNKILSPNLTKVRGGEIIQTEIIVNSINLQKRGNQPLKITASNNTGSLLLVFFHKPPQFILNKLKVGTKHIISGKVQFFDYQLQILHPEFITNPQLSKAIEPLYSMTYSLSNTQLYSYIIKAIEIFEEKCNGIEDKELKEYLDVILQNLKILHVFLSPHNLISCSRTTDIVVNPSYAIVAAKKQLAIKELIANQISLLNVRMQINRKHGNIYPKAASIQENILRELGFELTYYQKQVIEEIEFEQSDKVEMMRLLQGDVGSGKTLVALLTMVNVVTTGFQATLMAPTDLLANQHYDFFVKALKNTNIRVGLLTGKILGKARRNIIIQLVNGKIDILIGTHALFQEKVSFKKLGYIVIDEQHRFGVQQRLNLINKGVNPDVLIMTATPIPRSLALTMFGDMTVSKLIGKPKNRLSIVTKTMSVNKIGYIIKAINKRLIAGERVYWICPLITQREKETLQEDLLLMDVINRFNSIKNIYQGYTGIIHGKMKNDQKERIMKQFKEGEIKILVATNVIEVGIDVSEATLIVIENAEQFGLAQLHQLRGRVGRGRLQSYCILLYNPKRLGKVAQNRFKIMKHTNDGFYIAEQDLKLRGSGEILGIKQSGEIDFFFADLAEDYALLIKAHKIAEREISLKDNVNFVNFQIKLFAKSQVSYLI;locus_tag=LOCUS_0170;note=WP_004598998.1 ATP-dependent DNA helicase RecG (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:97.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_18
sequence1	MetaGeneAnnotator	CDS	25011	25625	.	-	0	ID=MGA_19;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599000.1;translation=MNVIDLLILDNEKYKKQFRKNKLFKIKFDSTLRKNKFLKHFRIWSDEFQKMVLARVVFSETKEFKQLAWDHLTDEFGHNIELSQNLENDKETTDSIFEALGSWFTLKMMTLGDSERAVLVHLVIESCATIFYEKLGSIFCNHKASQHFKTHMHLDPEHEQMGINLLKQININDFSLLIIQKKGWDMIDALFTRLAEITTIPDNF;locus_tag=LOCUS_0180;note=WP_004599000.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-116],MGA_19
sequence1	MetaGeneAnnotator	CDS	25701	26447	.	-	0	ID=MGA_20;product=TraX family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597918.1;translation=MIIAQNKTNYQDLLKTLAVIAMTIDHIGLYLYPELTIMRIIGRIAMPVFCFFAGYNFYDKPKTRIIIYGVILQIYTTILFKQFLTTNILISIYLGQCYIYYFRNSITSFFYNGFCHVAVMIILWYISWTLIDYGTLVIAIMILGFIAQHEKTNLKLCCFIAIFTSIVHSTFFTLLIPLSDFNFSNTDLILNLTFLTITYILMILSDYSQKILINIKWISRNVIYIYCIQIIILQFIFIYKYTYGFKNW;locus_tag=LOCUS_0190;note=WP_004597918.1 TraX family protein (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-136],MGA_20
sequence1	MetaGeneAnnotator	CDS	26428	27843	.	-	0	ID=MGA_21;product=murein biosynthesis integral membrane protein MurJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886330.1;translation=MGDSMNIAFKLPNLFRRIFAEGALSSVFIPIYNEKMLISKKAANNFSGKVFTLLSLTLIVIIALMQIFMPQLILCIAPGFYAKKEKFELTVFLCRITIPYLIFVSLTALLGGILNSVKKFAAFAFSPIILSVCVIIFTLIFGNYIESTISISVSLIIAGILQVVFMFICVKKADLHFPIIFHTNDPDVKKLLINMGPATISSGVQQLNLFISQSISSFIEGAISILAYADRIYQFPLSIIGTSFSTILLPEMSKVYKSNDIVSAQKIQNNAIRIGLLLSLPATFGIIILSHPITNIIYERGVFTPQDTTNTAEAISAFALGLPAFILAKILTPIFYANGDTKTPLKITLFSIIINTNMNLLLMDSLKHIGIAVGTSIAAWYNLGLLYSYSTKQHKLHIEAGIKLFCAKILLCCTLMSIIIALIKHYYLEYLYSEYLLIKVSMLGSTIIIGVAIFFGTAYLLKVVNYDNSTK;locus_tag=LOCUS_0200;gene=murJ;note=WP_010886330.1 murein biosynthesis integral membrane protein MurJ (Rickettsia prowazekii) [pid:99.6%25%2C q_cov:100.0%25%2C s_cov:92.9%25%2C Eval:6.5e-261],MGA_21
sequence1	MetaGeneAnnotator	CDS	27758	27985	.	+	0	ID=MGA_22;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNTLDNAPSAKILLNRFGSLKAIFILSPIGVEPNNDAINCSRTKPNMRAMNVKKANMIPERNNVTVLLILIDTLL;locus_tag=LOCUS_0210;note=MGA_22
sequence1	MetaGeneAnnotator	CDS	28022	28540	.	-	0	ID=MGA_23;product=inorganic diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597914.1;translation=MFIKKIKAKANNNEINVIIEIPMNSGPIKYEFDKESGALFVDRFMQTTMSYPCNYGFIPDTLSNDGDPVDVLVVAHHPVVPGSVIKCRAIGVLMMEDESGLDEKIIAVPTSKLDITFDHIKELDDLCEMLKKRIVHFFEHYKDLEKGKWVKVTGWGDKVKAETLIKEGIDRN;locus_tag=LOCUS_0220;gene=ppa;EC_number=3.6.1.1;note=WP_004597914.1 inorganic diphosphatase (Rickettsia prowazekii) [pid:90.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-86],MGA_23
sequence1	MetaGeneAnnotator	CDS	28669	29055	.	-	0	ID=MGA_24;product=cytochrome c maturation protein CcmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597913.1;translation=MQKIVRNRLIKIIICFCSACLGISIILYNLEKNIIFFFPPSKINEAEQGKELRVGGLVKRDSINKISANKISFVITDNIKDLEILYQGVLPALFREGQGIIAIGQLSDSKFIARQLLAKHDENYRPPS;locus_tag=LOCUS_0230;gene=ccmE;note=WP_004597913.1 cytochrome c maturation protein CcmE (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-67],MGA_24
sequence1	MetaGeneAnnotator	CDS	29157	29774	.	-	0	ID=MGA_25;product=SCO family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599005.1;translation=MKMQSNITKIIIIMSLLIGVGALYVLLSLSTPKKPLAGQFNIYEDKIKIGGPFELIDQNGEIFNSDKLRGHLSLIYFGFTSCPDICPTSLNKITNIVEILHQNKIDIIPVFITVDPKRDTPEVLKEYIKNFHPKFISLTGNEHQIKDVTDKFKVFYARVNSDNDDQNYMIDHSSFTYLIDKNGRYMKHFYLDISAKEIMELFKNE;locus_tag=LOCUS_0240;note=WP_004599005.1 SCO family protein (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-113],MGA_25
sequence1	MetaGeneAnnotator	CDS	29922	31478	.	-	0	ID=MGA_26;product=protein translocase subunit SecD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597905.1;translation=MQNLPKWKIVLSIICTVFAIICALPNFIQINSKFLPHDSINLGLDLRGGANLLLDVDFDTYLNDSMENLADTLRKNLRKHKIGYKNLLVRHNNIQLEVRSPEVLKSLKKIINKIDPEIIIGVNKNKIKLRYSESRFNDLLNKVVEQSIEIVRMRVDSTGTKEPTLQRQGNKHILLQVPGSENPSYLKNILGKTAKLTFHLVDENANIEDAIKGHVPLGSMLIKGDSKHHGEYYIVIKKKVLLSGAHLTKASASFDQNSQPIVAFSFNNLGSKIFGEITKNNTGKRLAIVLDNKLLSAPIINGAIIGGNGIITGNFTIESANELALLLRVGSLPTPLKIIEERSIGPNLGADSIESGKKAGLIGFVAVCIFMILSYGVIGLFANIALILALLYILALLSLFQATLTLPGIAGIILTIGMAVDANVLIYERIKEELHKGVSNLYAIRTGFESAFATIIDSNITTLIVAFALYIFGVGAIKGFAVALTIGIISSMFSAIIITKLLIDVWVKYFKPKKLGLL;locus_tag=LOCUS_0250;gene=secD;note=WP_004597905.1 protein translocase subunit SecD (Rickettsia prowazekii) [pid:95.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-274],MGA_26
sequence1	MetaGeneAnnotator	CDS	31482	31892	.	-	0	ID=MGA_27;product=preprotein translocase subunit YajC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597903.1;translation=MSQHTQDNQINNNETIEIQETDTVPVETNSLQSGLTSLIPMILIFAVFYFLLLRPQEKRRKEREKLVSGVKKGEEVLINSGIYGIVTKVSENDNNIEIEIAKDVRIKAIKSAIVDITSRKREVAATQENNKKKIRR;locus_tag=LOCUS_0260;gene=yajC;note=WP_004597903.1 preprotein translocase subunit YajC (Rickettsia prowazekii) [pid:89.4%25%2C q_cov:97.1%25%2C s_cov:93.0%25%2C Eval:1.9e-57],MGA_27
sequence1	Aragorn:1.2.38	tRNA	33052	33126	.	-	.	ID=Aragorn_1;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0010;note=Aragorn_1
sequence1	MetaGeneAnnotator	CDS	34380	35750	.	-	0	ID=MGA_28;product=magnesium transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599011.1;translation=MPNFNMFKSILPDHHNQFAEIFDQINDLIEDHNYDAAASRLAKLHYADLADFLDNLNNKTYKIIIPLLHDKIKPETLVSLNAYSKPLIIETLGIKKSAELINKLVIEDAIEVVIDLDDDIKDLILSNLTKEKKHQITVGCTYPENTVGRVIERDFINLQAGWTVEESLNFIKNVKNEFYAAIVTDNKLRPIGIISLSTLIKGKKNELIKDLMSKDFKLADTFTDLNELSFIFRQYALTIVPVVNKSGKLVGSVSIDNIIYIIEEQAGKDILSLSGVHTQDTFFNVFYTVKHRFPWLFVNLITACMTSLIINHFNDTIAKLVTLAATMPIVASMGGNAGTQAMTVTVKALANKDIHYNNVNKVILKEIAVSAFNGFVLAIIGAGLSFVMLLDLNLSVIFAIAVILNFLVAGLFGSAIPIILHYFDIDPAAGSGVFLTTITDALGFLTFLSLANIFLV;locus_tag=LOCUS_0270;gene=mgtE;note=WP_004599011.1 magnesium transporter (Rickettsia prowazekii) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-248],MGA_28
sequence1	Aragorn:1.2.38	tRNA	36007	36093	.	-	.	ID=Aragorn_2;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0020;note=Aragorn_2
sequence1	MetaGeneAnnotator	CDS	36284	37144	.	-	0	ID=MGA_29;product=TIGR01459 family HAD-type hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597898.1;translation=MNTLKFKNIFDVINDYDVFLFDLWGVIIEGNHTYPGVVQNINKIIAQKKVYFVTNAPRNIFSLHKTIKSWGINALPEMIISSGEIAVQMILESKKRFDITNPIIYHLGHLENDIINLMQCYTTDDINKANISLITIYRDENEKLDLNEFDELFKIIVQRKIINICANPDLGINQHGIYRYCSGYYAEKIKQLGGKVIYSGKPYEEIYHKILKECSNIPKNRMLMIGDTFYTDILAANRLGFDSALVLTGNSREYHFECDNIHEKLDSLMEAAIKQSIIPNFVIDLS;locus_tag=LOCUS_0280;note=WP_004597898.1 TIGR01459 family HAD-type hydrolase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.8e-166],MGA_29
sequence1	MetaGeneAnnotator	CDS	37259	39682	.	+	0	ID=MGA_30;product=DNA topoisomerase (ATP-hydrolyzing) subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597896.1;translation=MSVIEEKCNESSYSADSIKVLKGLEAVRKRPGMYIGDVGDGSGLHHMIYEVVDNSIDEALAGYCDLVQVTLNKNGSVTVSDNGRGIPVEIHEEEGISAAEVIMTQLHAGGKFDQQSYKISGGLHGVGVSVVNALSEWLELRIWRNNKEYFIRFNNGITEAPLSIVKENIDKKGTEVTFFPSVGTFTNIEFDFVTIEHRLRELAFLNSGVKILLVDNRFEEVKKVEFYYTGGIEAYVQYIDRAKHAIHPCIVVNTVHVESGISLELALHWNDSYHENILCFTNNIRQRDGGTHLSAFKSAITRVITSYLDTTGLNKKTKHDFSGEDTREGICCVLSVKVPDPKFSSQTKDKLVSSEVRPVVENAVYTKVLEWFEEHPTEAKAIIAKIMEAANAREAARKARELTRRKSALEVSNLPGKLADCHAKDPAISELFIVEGDSAGGTAKQGRDSKIQAILPLRGKILNVERARFDKMLGSDQIGTLITALGISVEREFSLEKLRYHKVIIMTDADVDGSHIRALLLTFFYRHMPELINKGYLYIAQPPLYKVKSGASELYLKNEKALQNYLIKSTINDTYLILDGQEQLVGENLEDLINKVVKFNNLLDHVSKKFNRSITEILAINDLFNKKIFEPESSARLQKALDILNNLEESPDKTNLQVLKHENKIEFFHFSRGLKETKILLKEQLELFEFVEISQFALSIFDIFSKRLKLIVKSKAFDILTPSQLLNTIIECGKKGITIQRFKGLGEMNSDQLWETTLDPTKRTLLQVRVAEVDEAEGIFSTLMGDVVEPRRLFIQANALNVMNLDV;locus_tag=LOCUS_0290;gene=gyrB;EC_number=5.6.2.2;note=WP_004597896.1 DNA topoisomerase (ATP-hydrolyzing) subunit B (Rickettsia prowazekii) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_30
sequence1	MetaGeneAnnotator	CDS	39784	41043	.	+	0	ID=MGA_31;product=UDP-N-acetylglucosamine 1-carboxyvinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597894.1;translation=MQKLIIHGGKPLEGSINISGAKNAVLPIMAASILTNKLHITNVPKLTDVSTMKDLLRNHGACIRIIEHTDEFELIINTTNINKFTADYEIVRKMRASIWVLGPLLTKYGKAKVSLPGGCAIGARQVDLHIAVLKSMGAEIEIEDGYINASSKGRLKGTHFIFDKVSVGATINAILAAVLAKGETVLFNCGREPEIVDLCYCLIKMGADILGVGSSTITIKGKDCLNETSYKVLSDRIEAGTYMFAAAITKGDVKICGIDYNIIENIALKLIETGIKVVQINNGVQVTYKGKLNSVDLETNPYPGFATDLQAQFMSLMSISSGVSMITENIFENRFMHVPELCRMGADIVVRGNKAVVRGVEMLKGAEVMASDLRASVSLILAGLSTNSKTVLHRIYHLDRGFQDLEKKLSNCGANIKRV;locus_tag=LOCUS_0300;gene=murA;EC_number=2.5.1.7;note=WP_004597894.1 UDP-N-acetylglucosamine 1-carboxyvinyltransferase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.3e-237],MGA_31
sequence1	MetaGeneAnnotator	CDS	41198	41581	.	+	0	ID=MGA_32;product=DNA-directed RNA polymerase subunit omega;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597892.1;translation=MARITAEDCNKIIPDRFRLVVLATRYAKLLNYKVETNQIKKEKRDKPPVISLRRIAAGKVSVPQLEQDLINSLRTRMMIEPLINQDESEDVEEKFEYLPEVYIGEDYSDLDDQIFINENGEDYETDK;locus_tag=LOCUS_0310;gene=rpoZ;EC_number=2.7.7.6;note=WP_004597892.1 DNA-directed RNA polymerase subunit omega (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-67],MGA_32
sequence1	MetaGeneAnnotator	CDS	41582	41962	.	+	0	ID=MGA_33;product=holo-ACP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597890.1;translation=MLIGVGTDIVQIPRIEKILNIYQELFAKKILALKELKQFTLLNKTNHATFLAKRFSAKEAVSKAFGVGIGRGINFKDITILNDNLGKPTVEISSHYTNKLAPFNIHLSLSDDYPICIAFAIIESNC;locus_tag=LOCUS_0320;gene=acpS;EC_number=2.7.8.7;note=WP_004597890.1 holo-ACP synthase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-66],MGA_33
sequence1	MetaGeneAnnotator	CDS	42143	42991	.	-	0	ID=MGA_34;product=peptidylprolyl isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597887.1;translation=MKKLSVIFLSVSMLSSIAFGDEDKVVATYKGGEVKESQIMQEFKPQLNLQSGETIKNFDDFPLQDQEKLIKIYVNNLLLKEEVAKSSITSSKEFQEKLENAKNQLAQQELLANYIKSNITDKMFDDEYNKYVDNLKGKEQIKVAHILVKSQKEANTVKTKLSKGGNFTKLAEEFSLDKATASNGGIIGYIILNQPGQLVPEFEQKAFALKVNEVSTPVKTSFGWHIIKVLEKKPVPIPTKEEAKVTIDNILAAEILKQYISDLEAKADLKIMLPKANSKTGS;locus_tag=LOCUS_0330;EC_number=5.2.1.8;note=WP_004597887.1 peptidylprolyl isomerase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-154],MGA_34
sequence1	MetaGeneAnnotator	CDS	43216	45936	.	+	0	ID=MGA_35;product=preprotein translocase subunit SecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599014.1;translation=MLSILKKLFGTANDRTVKKLFSEITKINSFEPAIKILSDAALKNKTVEFKEKLKNGATLDDILYEAFAVVREAASRVCGMRHFDVQLIGGIILHRGMIAEMRTGEGKTLVATLPAYLNALTEKGVHVVTVNDYLALRDSASMGKIYNFLGLSVGCIVAGMTDEAKRIAYNSDITHATNNELGFDYLRDNMKYSMQERVLRPFNFAIIDEVDSILIDEARTPIVISGPVNDNSALYGKIDKIVRLLNVSDFEKDEKLKTINLTEAGITHIESLLIKDGIIKPDTGLYDFENLNLVHYVNQALRAHHMFTIDVDYLVREGKVMIIDEFTGRVMEGRRYSEGLHQALEAKENVKIQNENQTLASITFQNYFRNYPKLAGMTGTSMTEASELKDIYNLDVVAVPTHNKVTRIDLDDEIYGSKQEKYDAILKLIKDCYNRGQPILVGTISIEKSEELSSILNKEKIPHKVLNAKFHEQEAFIIAQAGRFKAVTIATNMAGRGTDIMLGGNPEMLIEQFNKDHNYVAKTAEIKAQIAEEKQKVIETGGLFVIGTERHESRRIDNQLRGRSGRQGDPGKTQFFLSLDDDLMRIFASDRISGVLRTLGLKDGEAIHHPMISRSLEKAQQKVEEYNYEMRKNLLRFDDVMNDQRKIIYEQRTEIIKSKDSYGFLTSATEELAKKIVLTFIPVGSYREDWDIENLTVELHRIFSIKFDHNLVNKNDVTEEDITKLVIQMAHDIYKSKEEAYSSELMHNAVKYILLTTLDQVWKDHLYSLDHLRQGISLRAYAQKDPLSEYKREAFNLFEQMLNNLKELFIQTVYHFHIDLKHLQKEDISLEHKKLQKNMRESREDPAFSKYNAGNSIETYLKPVVSRVDPKDRKPDDPMSWGRVSRNELCPCGSGKKYKYCHGVNE;locus_tag=LOCUS_0340;gene=secA;note=WP_004599014.1 preprotein translocase subunit SecA (Rickettsia prowazekii) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_35
sequence1	MetaGeneAnnotator	CDS	46825	47040	.	+	0	ID=MGA_36;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKAKAKTASKNNPTSREQAKEYLHNGQKIKPVKLISAQNSFMAAEYESSGDLVVGSNNQPLPWGLVKNLS;locus_tag=LOCUS_0350;note=MGA_36
sequence1	Aragorn:1.2.38	tRNA	47072	47146	.	+	.	ID=Aragorn_3;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0030;note=Aragorn_3
sequence1	MetaGeneAnnotator	CDS	49111	49650	.	+	0	ID=MGA_37;product=copper chaperone PCu(A)C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597884.1;translation=MLKTVLVSFINLICALSYADQTTQNPNLTSVASNVDVASTDDLLPAEAAVHFVQPWARPTINVQGKVSNSAMYFTLINTRNKSYQLVNISSDKIGGIEIHQTINDQGVNKMVKVDYPFLISGNINVDFKPGSRHIMLYDPKVDLNAGDEFQITFFFDDNTQKIVNVKVANDNPYNKIGN;locus_tag=LOCUS_0360;note=WP_004597884.1 copper chaperone PCu(A)C (Rickettsia prowazekii) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-97],MGA_37
sequence1	MetaGeneAnnotator	CDS	49759	51639	.	+	0	ID=MGA_38;product=excinuclease ABC subunit UvrC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597883.1;translation=MSLEISGSKLIKAQIIDAPECSGVYKMLDVNKQVIYIGKAKILKKRLTNYIKSDLDNKTLRMISNTYFLEYIITNSEVEALLLEAQLIKKFQPKFNILLKDDKSFPFIKLSLDHDFPQLIKYRGKALSDGKFFGPFASNTQVNTTLTELQKIFKLRSCTDNYFNSRTRPCLQYEIKRCYAPCVGKINKEDYRELVMQVKDFLQCRTIALQANLSKKMQELSSQMRFEEAAEIRDRIKALSYVQLKSGILDVVRDADIIAIVHKNLHYCIEVSLYRAGQPYGAIPYFFSSTENSTHEEVLEYFLLQFYQKQQVPSEIIMNHEINSKENMIEAIKKINNISDLSITVPHKGGKAKLVQKAEVNALLSLEQYLKKSIKNTDIMFALKKLFDLPEIPERIEIYDNSHLQGMFAVGVMVVAGQIGFDKKEYRVFSLSSRSLTIGSEIELRDDRKGDDYGMLRQVLTRRFTRLKNEPHKLPSLMIIDGGKGHLTIVKEVMDKFEINIPFVCMSKGRDRNAGLEQLHMQGKEVLTLDKNLPIMKYLQILRDEAHNFAIKNHRLGRSRAIKISSLDEIDGIGETRKTALLHYFGSYKAVCNATIDELTKVKGISKSLASMIFNILNRKISLDNS;locus_tag=LOCUS_0370;gene=uvrC;note=WP_004597883.1 excinuclease ABC subunit UvrC (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_38
sequence1	MetaGeneAnnotator	CDS	51884	53269	.	-	0	ID=MGA_39;product=sodium:solute symporter family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886329.1;translation=MFNLPIYNIIVFIYLISILVIGIYYRAKHSSFKHYANVERKSQHNKLLLIATIFTSSVGGATTFGIMEKVFLGHGYYAYALIVTIPIDILIAFYMVPLIAKHYGAESIGDIMSRYYGNTGRFIGGISTVIVSVGFLAAQISVSGYIFKYILGIHYVNGVVLSYSIVLIYTTIGGLQSIIFTNLLQFFAMIIAIPTITFISLNKIGVVYFIDNFTNTNFDQNNRLYYTITAALNFSVMNLYPTFIQRALINKNPTHTTKAIYVKSAIYFFFLICITLNGLIAFKLYPNQPSNLVLPYLINQIIPPVMQGFVISGLLAAVMSTADSDLNVTSISIVKDIINPIVKVKNQKKLLLIVRIINVIIGSFAIIVALKFSNVIDLVMFFTGFWGPVILVPLITTLFDIRTSKIIIVLSSFSGATTFLTWEYYSFSLQYFNLRGVFVGTIMSLVIFILGQIIISRKLLK;locus_tag=LOCUS_0380;note=WP_010886329.1 sodium:solute symporter family protein (Rickettsia prowazekii) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.5e-251],MGA_39
sequence1	MetaGeneAnnotator	CDS	53799	53948	.	-	0	ID=MGA_40;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKLNETNQVNQLRIPILNKIHSTKIIDKLDKSIVNLVGYNPQKQMPKL;locus_tag=LOCUS_0390;note=MGA_40
sequence1	MetaGeneAnnotator	CDS	54193	54642	.	+	0	ID=MGA_41;product=division/cell wall cluster transcriptional repressor MraZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599021.1;translation=MNVFLSKYINGVDKKSRVTVPANYRAVLGKELFNGVIAYPSIRNNCIEVCGIAHIEKLRKMIETLDPYSEERDAFETMIFGEAVQLAFDGDGRIILPQSLMKHAGIEEQACFVGKGIIFEIWQPKNFEKYLSYAQNIAHEKRLTLRNAH;locus_tag=LOCUS_0400;gene=mraZ;note=WP_004599021.1 division/cell wall cluster transcriptional repressor MraZ (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-82],MGA_41
sequence1	MetaGeneAnnotator	CDS	54642	55562	.	+	0	ID=MGA_42;product=16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886328.1;translation=MSQYHIPVMLSEVLAVLAPKGYESYLDCTFGAGGYSNAILNSCYCSVTSLDRDPNVIESVEKIKQDYGERFNFIKTNFADSFRKLKHKKFDGIVMDLGVSSMQLDIADRGFSFLYDGPLDMRMSVQGFSAEEFVNTADEEEIADVIYKYGNESLSRRIAKSIVEYRKTARIDSTRKLAEIVRYSIGFRKGKIDSATKTFQAIRIYINNELGELEQFLANVKNILKKDGRLVVVSFHSLEDRIVKNFFKENSEKQVARSKYAKDEIKIDPNKWLKIITPKVLTPSSQEIRLNVRARSAKLRAAKKII;locus_tag=LOCUS_0410;gene=rsmH;EC_number=2.1.1.199;note=WP_010886328.1 16S rRNA (cytosine(1402)-N(4))-methyltransferase RsmH (Rickettsia prowazekii) [pid:95.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.7e-163],MGA_42
sequence1	MetaGeneAnnotator	CDS	55898	56176	.	+	0	ID=MGA_43;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKQINSENNNINILKAEQAYLLLPTRLEKLAAAYLKLEIVKSYQMINDPLAPNIEQNIKFNHNISISKSNKWRYKRIMNNKYIQTVSSRVK;locus_tag=LOCUS_0420;note=WP_010886327.1 hypothetical protein (Rickettsia prowazekii) [pid:95.7%25%2C q_cov:100.0%25%2C s_cov:71.3%25%2C Eval:7.2e-44%2C partial hit],MGA_43
sequence1	MetaGeneAnnotator	CDS	56303	57988	.	+	0	ID=MGA_44;product=penicillin-binding protein 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599027.1;translation=MKQILEKWKPAIKSLIIWNICSKNTKIRLLMVICGFSFLFATVSYKLIIVATNVYDQNINSFKKKHQFRKEIVDRNGNLLAMNLPSASLFANPQIVLDPETSVNKLAEILPDINKAKLIKELKSNKSFIWVKRDLLPSQQEKIMSLGLLGFEFEEEQKRIYIFSNLLSHIIGYVGRDSVGLSGLELAYDKYLTNTDYELNDPKDQKAPLQLSIDIRLQSILNEEIDKTLKKFKAIGAVGIIADPNNGEILALVNKPDFDPHYPSLAKPEELFNTASLGIYEMGSVFKALTMAVGFDTGVIKMNDAYDISYMKVGGFQLKDYTPRQGWHSVPEIFLYSSNIGTSQIMLEIGKNDFKQYLKKLGLLDQLQIELPERGTPLFPSEKRWNELTSVTMSYGYGISISPLHFVKAILPVVNGGTLYDLTLLKRKTKKVIGTKVFSENTSTQMNKLFRSVVKEGNGKRAEIKGYLIGGKTGTAEKLSQGIGGKKKYLKNSRASSFLGILPSSKPQYVLFIRFDEPKPIKESFGFATASWTAVPTAGRVFERMISLYGLEPIEQNEEES;locus_tag=LOCUS_0430;note=WP_004599027.1 penicillin-binding protein 2 (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_44
sequence1	MetaGeneAnnotator	CDS	58566	58946	.	+	0	ID=MGA_45;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIIFIYYFMSLYSLNIFSIFFLGLLIDQISGMPIGTDSLVFVSANIIYKLSSKYFLAKNYLINFVVFCFYCLFILNFKYLLVTIKNLEVEGYLIIFFQSLTTIFSYNIIRLILDSPMDYFKKYAK;locus_tag=LOCUS_0440;note=WP_004597869.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:72.8%25%2C Eval:7.7e-67%2C partial hit],MGA_45
sequence1	MetaGeneAnnotator	CDS	58936	60720	.	+	0	ID=MGA_46;product=penicillin-binding protein 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886326.1;translation=MLNKKILHGELISRRAFIIGLGKLWFLSLLGIRMFYLQLIKSEEYRTLSDKNRINFVVLPPIRGKIYDLDGNILATNKPCYQLVIDKSINNNYRDELEIISNILNFSPDKYNYIKQKIKKSSRHTILTILDHLDWKQVSVIEEQKHKLAAIFIDVGYLRFYPFSSTTSHLIGYLGQINEQDKQQLNIRSLSDFNIGKSGIEKYYDNKLRGEFGYKKVEVNAYGKQVRTISETPTQSGEDMHLNIDASLQQHIQQYLNPKGSSAIVMDIRTGNVLICASTPGFESNNFSKLSENYWQSLMSDPYKPLVNKVIQNSYPPGSVFKIITVLAALEVGINPNKTVFCDGSSILGTNSFRCWNHRGHGTLDMMSALKYSCNIYMYELAKIVGPDKILEVAREFGFGSKTGIDVSPESSGFIPSKEWKKKKFKLPWSIGDSFNLAIGQGFLGVTPIQLARFITAIASNGKLYTPRILKNDPEFYNVNIKTENIKIIQESLYNTVNVAGGTAYYNRIFAKNRKLAGKTGTAQVQKKLNAKDDLNRDSIAWERRNHALFLGFAPYPDPRYSVTVFVDHGGGGSIAAAPIARKIMSDVLDKYMQ;locus_tag=LOCUS_0450;gene=mrdA;EC_number=3.4.16.4;note=WP_010886326.1 penicillin-binding protein 2 (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_46
sequence1	MetaGeneAnnotator	CDS	60947	61930	.	+	0	ID=MGA_47;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599031.1;translation=MTEVYMSTNEQDDQIIKELEERLATLKGTPPSIEELEERLAKIQDTPYIYKKKSSNEVDNLIEQMQSELKLEQKSKSLNDQKDQVIRDRLDKLRGNSPVKETFIDFSFNDTKSIITDTISAQADVVSAYANRATELEDKKALLHLSNNLIEARDIIMDTPSISKEYDTKIFDVIASGLAIIYEGIKKIATPAVNIIKEIGNIFINSIKSLSQKSSEKQIEESKKELKKLYKSYTDLKGVDEKVKKEFLKKHYQQIDKLQTPKEIFLETAKITKSISIVGKQKINNLKQQQIMNRMQNESPSSLLNKNSFTPFHTPTNKVKSSKSNQR;locus_tag=LOCUS_0460;note=WP_004599031.1 hypothetical protein (Rickettsia prowazekii) [pid:93.5%25%2C q_cov:98.5%25%2C s_cov:100.0%25%2C Eval:1.3e-163],MGA_47
sequence1	MetaGeneAnnotator	CDS	62087	63829	.	-	0	ID=MGA_48;product=pentapeptide repeat-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599033.1;translation=MLKIISIIIISLLLSSCSESTRDENGLLTDSQSTIIRDYIISQNSKNLKVNLKEKFGSNLKGVKLIGIKLTNEDLSGIDFTSCEILRTDFMGSNLEKAILTNSVIQESNFADSVIKNISGYNADFQGSIFNNITLQNTNFVQSNFSDTAFNKSTIINVNFENSKFSNVLWCHSNIDSSNFQKTHLKNNSFKNTNVMNSIFYGADLGKSVINNTNFTNNYFESSDLSNTKFTSVIIKDSNFTQSIFNSVNFNNIQSNNSFFSYTSFEDSTLHNIHLTKCDLQNSTINSSVFNNFKIDNAILTNMSLNDNTFNNLSIKNSNTNFVRINKSKGFNITLLNTNYSNAIFSNNDLKEFKVINTDLNNSEIINSNFTNGQFNNVNFSQSLIQNVNFTDVKITLGNLNQVALINSNLINTNIINSVLSNSQINNINYQAYYSFINTNVSNNIVINDNSNQIPPNNIVINSEKDLQNISNLANMNLTNFNLSNLVFNGVDFSKSIFKKANLTNTVIKNSILKDANFSAAILTKTDFSKSILTGSIFKFAQIDQTCFSNSDLTNTDFTEATIKNTAFDNANTHGIKGLE;locus_tag=LOCUS_0470;note=WP_004599033.1 pentapeptide repeat-containing protein (Rickettsia prowazekii) [pid:94.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-312],MGA_48
sequence1	MetaGeneAnnotator	CDS	63822	65249	.	-	0	ID=MGA_49;product=sigma-54 dependent transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599035.1;translation=MSQLDVLIVDDEESIRNLIAANLKDEGFNPKIAANSTQALKIISEKPVSAVILDIWLQGSEIDGLGVLEIIKKRYPLMPVIIISGHGTIETAVNAIKMGAYDYIEKPFNNDKLIILLKRACEVTKLKRENIDLKSKVIDKTELVGGCPVTLKYKMEIEKAASSSSRIMIHGKVGSGKELAARLIHKQSKRVNNPFIIFSPTCMTTEKINQELFGESEKQENNNKRPTILEFANNGTLYIDEISNIPIPIQVKLLKFLKDQTITKPCGKKTKVDIKIITSTAKNIQDEVNNGKFLEDLYYRLNVFSLKVPSLYERKEDIPLLVKYFVKQLSKFSGLKERHFSDEAIAALQSYEWPGNIRQLRNVVEWTLIMNPLTTGNNEIIKPYMIPSEILANSANLTKLEDSFDMLSMPLREAREVFERQYLSAQMSRFNNNISKTSSFVGMERSALHRKLKLLSLHIPPTNRINEEEYEKANA;locus_tag=LOCUS_0480;note=WP_004599035.1 sigma-54 dependent transcriptional regulator (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-270],MGA_49
sequence1	MetaGeneAnnotator	CDS	65875	67026	.	+	0	ID=MGA_50;product=2-octaprenyl-6-methoxyphenyl hydroxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599037.1;translation=MSQIETDKMLNIVILGCGLSGMLTALSFAHKGIKTTILERKLVKSQDFLKDIRTTALTPYSKKFLFSIGIWKELEQFVAEMQDVYVVDNKASEILDLCNKNDAVLGYVVKNSDFKKILLSEITNNSLITLIDNNQYQEVISHNDYSIIKFNNDKQIKCDLLIICDGANSKVRSYYFTNEIDKPYQTALTFNVKHEKPHENCAMEHFLPLGPFALLPLKDQYSSSVIWSTSVVQAALIINLPTKEVDFLIQRNVGNFLGQITIESEISSFPLKAFIANRYFHNRIVLIADTAHIVHPLAGQGLNQGIKDIETLSMIMSNNGTLQEYQKLRQYDNFIMYKLTDSLNSIFSNYSKNLKCLRQIGFKAINNLKPIKNLITNYAMGQR;locus_tag=LOCUS_0490;gene=ubiH;note=WP_004599037.1 2-octaprenyl-6-methoxyphenyl hydroxylase (Rickettsia prowazekii) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.8e-217],MGA_50
sequence1	MetaGeneAnnotator	CDS	68381	70543	.	+	0	ID=MGA_51;product=3-hydroxyacyl-CoA dehydrogenase/enoyl-CoA hydratase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599039.1;translation=MQNEIKKVCVIGAGVMGSGIAALIANSSHQVVLLDILDKDSNDPNKIVKNSVKNLHKQKLSPLSFPDKVNFITIGNLEHDLDLIKECNLVIEVIVEKLEIKHQLYNKIIPYLKEDAIIASNTSTLPLKKLKVNLPNNIKSRFVITHFFNPPRYMELVELIIDHTIKDEVIEKVSVFLTKMLGKTIIKCNDTPGFIANRVGCFLLELVVHKAIAQNLNFVTIDQIFSRCLGLPNTGIFGLYDLIGHDVMKLISSSLISALPKSDDYHRIYTNTKVFDKMIEHNLIGRKGEGGFYRLSVSNGKKIKEVINISDLSYHPVQKVDISFNSLNELLSSNSIYGKFFSEIITEFYIYLTSLVPSVTNNIYDIDTTMKLGYSWHYGPFELLTIAVKNGWNLIIKNADLMNIPLPKYLASKEYQKIDKQKFNSKKDFLQESKIVLSNDSANLIHYCENLVFVITTKMNSLNHNVFYLLQEAVSKAENYGKNLYIYPQGNNFSAGADLKLILSYIQDGNFHNLENLLKLGQQTMRYLKYSSVHIISCARGVALGGGCELLLNSSYIVANQELNAGLIELGVGLIPGWTGVTEMFARSNGNKTKLIRNIKNIIEQNKTSSADYFKADYGIKNMQVNMNKHYILDDALKLRISKKIVSIPNKITLPKINIVSEIDTSKYNELQNKVLNKFQNIIDKHNEISEAELLTYEREMFLELAKTPQTIEKLQAIVG;locus_tag=LOCUS_0500;note=WP_004599039.1 3-hydroxyacyl-CoA dehydrogenase/enoyl-CoA hydratase family protein (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_51
sequence1	MetaGeneAnnotator	CDS	71150	76816	.	-	0	ID=MGA_52;product=alpha-2-macroglobulin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010947392.1;translation=MKNIYCKFVLTIFLCLINLQVIATSFNEKIPVYLKLTNEKMLAGKNSLNIELCDYRIKEWCIKPQREMGLNGQKINEYISISPDIKGEWRFGWSYNIYFIPEENFLPNQTYKITIKDYIFPNFISLKKNNISFTTLPLLSMIKEMNYLQDNIDISKKFIQTRIAFNYPIDPKTLKERINFIKSSTKEKLPFSIKFNTDNTEAISITNIPPLTDKKDIVSIIIKDGVKILYGDEIFTQKNVDIQNNKMQNNIRYSYKEKVLIPSLSSYFKITNSTATIVKDAKLKPEQIIIITTNTPVSGEEVKKHLELFLLPKNKPHFLGVTGKKNYKWQSPKEITDDILKLSEKINFELLPSVPKITTVHNFKVNTVASRTVLIKIKKGIRTSDNLTLGSDYTQIIQIPDNPKEVKLMSDGSILSLSGEKKLPVYSLGIDKLYVEIDKIHQQEINHLISQTNRYNIFQNPTFINEYSFNEYNISDVFQEEVIINSPNLDLPHYTNLDFGKYFYSEQAGRYSKGLFLAKVYFKDKNNNIISQDKRLILVTNLGFIVKTDKTGTHHIFVSYISNGKPAEGVKVDIIGLNGEILVSSKTDSQGHTILSNIHDLNKAKIPIAYVLTTRDDFSFMPYNRVDQQVNYSRFDISGTVSSNEGLKAYLFSDRGIYRPSEQGHIGIMLKQNDWHGKFDGLPLEIQVTNPHGKVIDKNKIVLNSEGLGEYLFTTFDDSLTGLYNISLYLGDQGINNYLNSISVRVGDFQPDRMKININFNNLKDTLWTHPKDLKATVKLINLYGIPAENRKIRGLIDIKPTEFFVTNFKEYTFYRSKSNEEFFNEHLGDVTTDSTGTANFDVNLEKYYNATFNLTFSAEGFELDSGRSVTSSKSLIISPLPYIIGFRSDSNSKYIKKQSISTIKFIAISNKAEKVSAHNLTLKLNKINYVNNLVSDANGNYSYNTVPVETNISSDNVNITANEGYIYNVPTKEEGDYVIYLTDTKNRVFAQTEFSVIGEGNVTANLTDKANLKVKLDKDDYKAGDTILLNIKTPYTGHGLITIETDKVHNFKWFKTDKNNSIQAIKIPDGFEGKGYVNVQFIRDITATEIFMSPFSYAVLPFTAGVYKHKENIELILPKKIKSGKKLAIRYRTTNPCKIIIFAVDEGILSFADYQTPDPINYFMNDKALEVRTSQIMDLILPEHRLLMKSYIAAPSGDSLINISRNFNPFKRKSQPPVKFWSGILESDLDEKEVTFDIPSYFNGTLRVIGVAASLDTIGVFKADLLVQSDLIINTNLPLFVAPNDEFAVPITIFNNLKDSGNAQIFLKIETSEGLKILDYPKEIQINENNEATINVKLKATDKLGSANLKVVASINNLKPDIKSVHRTELTSTTSVRPASPGITTVDTGFITGNKANLKILRNLYPKFAKLQISASKSPLSIIAGFKDFLDNYHYGCTEQLVSQNFANVLLYNEQELVQILKTDREKMDESLSKIFQILLERQNYDGGFRYWNNLNDDSDPFLSVYTMHFLNEGITKYLAVPSDMFNEGLYYLENMANRAIYSLDEAREKAYAIYILTKNSVITTSYIANILKYLDEYHKNTWHDDLTSVYLAASYKMLKMDEDADKLLDSFTFNKTISKTNYPYYNHLIKYSQYLYLISLHFPERLKNFDSKIIQDIARFAKDNYNSLSASYAIMATLTYASKIHNVDESTIKVTDTDKVVTLKGDKVMTSELSLESNEIDLTSSSNGFFYQLLTSGYDKQLKGNKEIVKGIEITKKYLDENNKEVSKVKLGDNINVEITMKSASNKILSNIVILDLLPGGFELLQDNNNLILERNQETIIWKPIYINNRDDRVMIFGTIPDQKMTYQYKIKAVNKGIFTTPAIYSKAMYDIQTYYRGSIGCIIVE;locus_tag=LOCUS_0510;note=WP_010947392.1 alpha-2-macroglobulin (Legionella pneumophila) [pid:36.9%25%2C q_cov:98.0%25%2C s_cov:95.2%25%2C Eval:0.0e+00],MGA_52
sequence1	Aragorn:1.2.38	tRNA	77750	77826	.	-	.	ID=Aragorn_4;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0040;note=Aragorn_4
sequence1	MetaGeneAnnotator	CDS	78955	80241	.	+	0	ID=MGA_53;product=tyrosine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597849.1;translation=MSVEKTVYRKTKNNINNMTFIEEFIYKGYLNQCTDLARLSAITQEAKIAAYIGFDCTATSLHIGSLMQIMILRLLQKHGHTPIVIIGGGTSKIGDPAGKDVTRKALTQEDIKRNAEGIKKSLSKFIKFGKDQGDAIILDNAEWLDSLNYLDFLRDFGSYFSVNRMLTMDSVKLRLDRSHHLSFLELNYMLLQSYDFYYLSKNYNCILQLGGSDQWGNIVIGADLIRKISGKEVFGMTTPLLTTASGAKMGKTAAGAVWLNEDLLSPYDYYQYWRNCEDADVMRFAKLYSELDIVELNKFESLVSEDINAAKKQLAYELTKLCHGERLAKLALETAVKIFEQGDIDENLHTFILAPEILQSGISAYNLFYNANLARSKSEARKIIRGKGAKINDQLVEDENMTIDTNFLRNRKVIKLSVGKKRHILVKV;locus_tag=LOCUS_0520;gene=tyrS;EC_number=6.1.1.1;note=WP_004597849.1 tyrosine--tRNA ligase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:96.0%25%2C s_cov:100.0%25%2C Eval:1.4e-235],MGA_53
sequence1	MetaGeneAnnotator	CDS	80385	81140	.	+	0	ID=MGA_54;product=TlyA family rRNA (cytidine-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597848.1;translation=MTKIRLDEYLLQKGLVTDIAIARSLIIQGKVHNKHEKLIKSGIKVNRHDPDIKVKLPQHNYVSRGALKLITALDYFKIDPQNLVCIDIGSSTGGFTEVLFERKAELIFAVDVGYGELHSKLRFNPQIKVLEKTNARYLTDKQITTKPDLIVCDASFISLTTILPTPLNLAKEDCILIALIKPQFEVKKNEVENGGIITNPLLHQKVCDKIKNWLEQEHHFQIFGIIASPILGTKGNKEFLICGKRNMPISL;locus_tag=LOCUS_0530;note=WP_004597848.1 TlyA family rRNA (cytidine-2'-O)-methyltransferase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-142],MGA_54
sequence1	MetaGeneAnnotator	CDS	82454	82939	.	+	0	ID=MGA_55;product=ribosome maturation factor RimP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597847.1;translation=MQTIAQQITNIIEESLTDMGFELVLVKFKGVSPKVVEVLIDSLNGNKISIEDCTNVSRTISAILDVEDLIEEAYSLEVSSSGIERTLVKFENYNRFLGREVKIKLKELLNGKTLYQGKIIKAENNKIYLKCAEQEVSIDFNLIRNANLVLTEEVFKKLLGS;locus_tag=LOCUS_0540;gene=rimP;note=WP_004597847.1 ribosome maturation factor RimP (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-83],MGA_55
sequence1	MetaGeneAnnotator	CDS	83111	84622	.	+	0	ID=MGA_56;product=transcription termination factor NusA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597846.1;translation=MSNIYNIEILQIIDSVAREKGISKEILISTVEQAVQVAGRKKYGNEYNIKAQINRKTGEINLLRILKIVEDVEDYLTQISLEDALVKNPEAKIGDEIYEYLPPIDHARVSAQAAKQVITQRVIEAEREKQYHDFKDRKGDIINGIVKRIEYGDIIVDLSRAEAIIKKDQLIKGEHFKPNDRIKAYVQDVRQETKGPQIFLSRVDNQMLVKLFKLEVPEILEDIIQIKSVARDPGSKAKIAVFASDSSIDPVGSCVGIRGNRVKAVTNELNGEKIDIVLWSNDLAQFIVNSLIPLAPSEITKILIDEDSHKVEVVVSQEHQSIAIGRRGQNVRLASKLTGWNIDIMTEEQESKRRNEEFSTSTELFMEALDVEEVIGQLLSVTGFNSVEQIASSEISTLTRIEGFEEELAVEIKNRAIHYVDLKNEKIIKKLEELGVEQELIDILELPLELILKFAEYGIKTIEDLGEMSVNEFKNLAPNSNITDENIKLLIKTARHHGELKDS;locus_tag=LOCUS_0550;gene=nusA;note=WP_004597846.1 transcription termination factor NusA (Rickettsia prowazekii) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.9e-272],MGA_56
sequence1	MetaGeneAnnotator	CDS	84836	87331	.	+	0	ID=MGA_57;product=translation initiation factor IF-2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599046.1;translation=MTDNQEIKPKKLTLGNSKLLLNKSFDSLTGAQSFVNAKSKTLVEVRKSSIGSTTTISLNKERNSLDQSVIDSNKEEFNRRLSILKKAAEQSKLHDPAQISTLSKLASINQSINSKNEQSITDKAVEQKHQNIEDNKVEIAAKIVQDNENISSQIPKKKKETLAKSVLVGMRTRYGIEEEPALEKTVDNKVVVPKIKLEESKKFKKADLFNMLSDDENGSGRTRSLASIKRAREKEKRKLVSQVPEKVYREVTIPEVIGVGDLANAMSERVADVIKELMKLGILANASQTIDADTAELVATNLGHTVTRVQESDVENILINDDKVEDLRTRAPVVTVMGHVDHGKTSLLDALKSTDIAAGELGGITQHIGAYRVTLADSKAITFIDTPGHEAFSEMRSRGAKVTDIVIIVVAADDGIKTQTVEAINHAKAAGVPIIVAINKIDKPDIDIERIKNELYVHEIIGEEAGGDVIFIPISALKKINLDKLEEAILLISEMQDLKASPFGLASGVVIESKIEKGRGTLTTILVQRGTLRNGDIIIAGTSYGKVKKMINDKGREILEATPSVPVEIQGLNEVPFAGDQFNVVQNEKQAKDIAEYRIRLAKEKKISVASRSSLEELLLKASGNSKIKELPLIIKCDVQGSIEAISGSLLKLPSDEIKLRILHSGVGPITESDVSLAHVSSAIVVGFNVRAWANALTAAEKTKVDIRYYSIIYNLIDDVKAIMSGMLEPIVREQYIGSVEIRQIFNITKIGKIAGSYVTKGIIKKGAGVRLLRDNVVIHAGKLKTLKRFKDEVKEVREGYECGIAFENYEDIREGDTVEVFELVQEQRQL;locus_tag=LOCUS_0560;gene=infB;note=WP_004599046.1 translation initiation factor IF-2 (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_57
sequence1	MetaGeneAnnotator	CDS	87743	87907	.	+	0	ID=MGA_58;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIYAKFNRPGFPLLKTVYDFGVKSYNFILNTFSDYKVAHCFNNNADEILHILD;locus_tag=LOCUS_0570;note=MGA_58
sequence1	MetaGeneAnnotator	CDS	87943	88095	.	+	0	ID=MGA_59;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHVIIPDEHVHKLVNYILQKHFEKLMRFIILVKLTTYIDNDLALEELIVQ;locus_tag=LOCUS_0580;note=MGA_59
sequence1	MetaGeneAnnotator	CDS	88770	89447	.	-	0	ID=MGA_60;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597842.1;translation=MKILAFDTANNTTSVAISENDNILKYKEALHPSIQAENLMPMIEDIMKLAKFSYDDLDYLAVTNGPGSFTGIRIGLASAKGILCAKKNIKAVVVSNFEYAYFRAITQVKNYDKIYVFLNAYRLQLYMQVFHKSGKREEPLLIDYDYAIKRLTKEQGSIVCCGSGLECIYHNIMYLSHIITLPRFARVKAWVICRYITTMLSRDIKLNNSIAPLYIRQPDAKRTID;locus_tag=LOCUS_0590;gene=tsaB;EC_number=2.3.1.234;note=WP_004597842.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex dimerization subunit type 1 TsaB (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-126],MGA_60
sequence1	MetaGeneAnnotator	CDS	89703	90413	.	-	0	ID=MGA_61;product=DNA repair protein RecO;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599050.1;translation=MNIKDIGVIISKKPLKENTFIIRVFTKNHGLYSGVIKESSKKNKFIYQEGNIVDFLWKARLHEHIGIAKCELIKSYTGYFIINKAKLYAFNSVISLIQELFHEREEHSIFFSFLINYLDNLSKNFCFRDYISFELNLLAETGYKLDLTKCCVSHVTTDLTYVSPKSARALSYKVGKPYRDKLLILPKFLLAKDSEITLEEKKQALTLTNYFFNRYLFHNNRQVKAREEFIEYITNI;locus_tag=LOCUS_0600;gene=recO;note=WP_004599050.1 DNA repair protein RecO (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.5e-134],MGA_61
sequence1	MetaGeneAnnotator	CDS	90470	90790	.	-	0	ID=MGA_62;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597839.1;translation=MSRVYKIKNLEEARNFLYSIEEPLILTNDDSSIKYYGMLVIDYMFKTLRREFPEKVLALTVNVGQDHAALFTAIKLGYKNIVYIGASAEAKRLLSDLYNNPITYKV;locus_tag=LOCUS_0610;note=WP_004597839.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-54],MGA_62
sequence1	MetaGeneAnnotator	CDS	90787	92133	.	-	0	ID=MGA_63;product=DNA repair protein RadA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014607237.1;translation=MTRVTRDKKYYICSNCANISNKWSGQCFDCGVWGSIVEEIINTNKSIIKGSKQTFDKLSCNVSEQLRIPTPICELNRVLGGGLVLGSAILIGGEPGIGKSTLLLQLTASNFESEMRCLYITGEESLDQIKLRAIRLNITNYNTAILAATNLEDIIASIDDNNNNIDLVVIDSIQTITTKELSSPPGTVSQIRTCANELVNYSKQNNIIILLSCHVTKDGQIAGPKILEHLVDTVLYFEGDHNNHFRILRSYKNRFGGVGEIGVFEMSNSGIIEVTNHSELFLIKRDHNVVGTSIFAGIEGSRPLLMEVQALIVPSNMVTPRRSAVGWDANRLSMILAVLSSRIGLNLANYEIYLSIAGGLKIADPASDLAVAASLISAATSIPLPEHSVFFGEISLSGEIRKTAKAETRIKEAVKLGFNKVICSKLENLTYDFIFPCAHLQELKEIIK;locus_tag=LOCUS_0620;gene=radA;note=WP_014607237.1 DNA repair protein RadA (Rickettsia prowazekii) [pid:97.1%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:3.6e-245],MGA_63
sequence1	MetaGeneAnnotator	CDS	92226	92936	.	-	0	ID=MGA_64;product=RsmD family RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597837.1;translation=MLKIISGKYKNQIIPTAQNIKYRPSTGKLKEAIFSILTSGEFIGNKLFNENTQILDLFAGSGSLAFESLSRGAGFATLIDIDTYSLKIAAGFAKSLNIENNVHFININALNLQKTTRYLSKQTDRNEFITTAESYIGISKHKSTNITYKLPLKEQFCNMSNKVFDLVFIDPPYNKDIVPKVMKLLIKNNWLKNGTIIVIEMSKTDDYDLDKNIEIIRAKLYGQSKLLVLRYSSHLR;locus_tag=LOCUS_0630;note=WP_004597837.1 RsmD family RNA methyltransferase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-130],MGA_64
sequence1	MetaGeneAnnotator	CDS	93443	94150	.	-	0	ID=MGA_65;product=pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597835.1;translation=MCRLAKIISNAGVCSRRNAEKLIVGGKVKIDGITILSPATNVDMSNQIEVSGRLINNTQKPRLWIYYKPVGLITTHKDPLSRKTVFEQLIGLPRVISIGRLDLNSEGLLLLTNSGDLAHQFEMPASKLKRVYNVRAYGNPNILLKNNYKNLKIDGIFYNPHSIKLLRQNKSNSWFEVVLFEGKNREIRRIFEYFGLQVNKLIRIQYGALKIGNLKPGNYQEISNKILEKQLVMCF;locus_tag=LOCUS_0640;note=WP_004597835.1 pseudouridine synthase (Rickettsia prowazekii) [pid:98.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-129],MGA_65
sequence1	MetaGeneAnnotator	CDS	94143	94355	.	-	0	ID=MGA_66;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFKTCQILNCFLRIFQIFFRSLPFLLAYKEKFKVGTETYVKMQVPDQRINVTYKNLLEKSILKFTMFQYV;locus_tag=LOCUS_0650;note=MGA_66
sequence1	MetaGeneAnnotator	CDS	94940	96400	.	-	0	ID=MGA_67;product=replicative DNA helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597833.1;translation=MVRNKINNDDNLSIPRVLPSNIQAEQMLLGAIITNNALLSYVSEFLRNEHFFEPIHQKIYDAIEKIIEKGLIATPITLRSMLTQDALFKEIEGEGYLAKLITMSMMVINPIDYGKIIYDLAIKRNLINIGEEVVNNAYNSSLAVAAKEQIEYAEAKLYDLTKEGLNEKSFTKVGISISESLASINRAMKNNDHVIGISTGLLDLDNKLFGFHNSDLIILAGRPSMGKTAFAINLALNTCNNMRLKNIRDNQEIKSVGFFSLEMSSEQLTTRLLSLCAEIDSTALRTGMLSEDKYNRLRKEANTLSELQFFIDDTPALSISAIRTRARRMKRKHNLGILFIDYLQLIRGVSKSENRVNEISEITQGLKAIAKELNIPVIALSQLSRAVELREDKKPMLSDLRESGTIEQDADIVMFIYREEYYLTRKEPVAGDAKHAEWLDKLNKVYNIADIIIAKHRNGPVGNVSLYYDSQFSKFGNLEKRTFNSI;locus_tag=LOCUS_0660;EC_number=3.6.4.12;note=WP_004597833.1 replicative DNA helicase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-272],MGA_67
sequence1	MetaGeneAnnotator	CDS	97560	98129	.	-	0	ID=MGA_68;product=UbiX family flavin prenyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597832.1;translation=MIKNKKIIIAISGASGAIYGIRLLKVLKEQNIETHLVISDGAALTIKFETKYSIQEVKFLANYCYDEKNLGAAISSGSFKTAGMIIAPCSMKTLASIAHSMEDSLISRAAGVVLKERRKLILMTRETPLHIGHLENMLKVAHYGGIIAPPIPAFYNKPTRINDIIDHSITRVLDFFDIETNLIKRWSSD;locus_tag=LOCUS_0670;note=WP_004597832.1 UbiX family flavin prenyltransferase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:94.2%25%2C s_cov:94.2%25%2C Eval:9.3e-97],MGA_68
sequence1	MetaGeneAnnotator	CDS	98192	100138	.	+	0	ID=MGA_69;product=primosomal protein N';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597830.1;translation=MRIAKILLPVSKLFPLDYLITEDLELNIGDLVVVHFRNKELTGIVWELDTNSEAKKIKTIEAKAPLNLSITLEVLELIKWMSSYYMSELGSIAKLVLPINISEKPIKIKEQQVKNHFVLPKLSEEQKQAVTILNESNKPTLIKGVTGSGKTEIYFHIIADYLIKGRQVLIMLPEIALGKQIINRFIDRFGFEPIIWNSSVTKAQKKMILRGILSNKVKVVIGTRSSLFLPFHNLGLIVIDEEHDDSYKQDDNILYNARDTAIVRGKFDKAKIVLCSATPSLETIYNIKTHKYQLVTLANRYKNVDLPNIEIIDMTKEKLPKNSYLSKILIDAIKGNLENKKQALLFLNRRGYAPLMLCKACGHRFTCKFCSAWMVLHKATKKLECHHCGYQSKIFSSCPECLEDETLTICGPGIERIAEEAMLLFPKSKIAVISKDHAKTPEKIAQLLHQMENLEIDILIGTQIITKGYHFPNLTLVGVIDADLGSNNAELRASERTFQLLHQVGGRAGRGDSKGVVYLQSYYPDNIIFSYVKVGDEDRFFTNELEIRKAANMPPFSKTASLILSGFSESKILDIARKIVQIAPKANVKILGPARSLMSKLAGKYRYRILIIADKKFNLQKYLKFWLGFIKIPSYCQIKIDIDPKTFY;locus_tag=LOCUS_0680;EC_number=3.6.1.-;note=WP_004597830.1 primosomal protein N' (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_69
sequence1	MetaGeneAnnotator	CDS	100831	101823	.	+	0	ID=MGA_70;product=porphobilinogen synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599058.1;translation=MYPLIRFRRNRKALWLRELIAESNLSISDLVLPLFVVEGHNEMQEIKTMPGIYRLSIDQIVETAKKAADFGINAIALFPSIDHSLKSDNADEAYNLDNLICRTIIKIKNANIDIGIICDVALDPYTISGHDGIVHHGEVDNDRSVKALCNQALVLAKAGVDIVAPSDMMDGRIAAIREYLDKEGFINVGILAYAAKYASSFYGPFRDAVQSNKKNYLDKSSYQIDVRNIKEAMLEIEHDIAEGADIVMVKPGMPFLDVIREAANNFNAKIFAYQVSGEYAMLKFAAETGAIDWERALIESLISFKRAGATGIFTYAALEVAEILKHNNIK;locus_tag=LOCUS_0690;gene=hemB;EC_number=4.2.1.24;note=WP_004599058.1 porphobilinogen synthase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.5e-186],MGA_70
sequence1	MetaGeneAnnotator	CDS	101902	103443	.	+	0	ID=MGA_71;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597824.1;translation=MIQNKKSVFKGWNFLKPKLGGVNEAGEYGGLYQSSDGKITAMIKKERSSSKNIAEFLGSQIFEAISPGNGAKVNLIAPDDFNKSKSVDSQIYVKSEFFKNYSSDMYVDMDKYMSAKTKPSSWFRKDGGRPLFMGSRNKLFRTLEKAFKEIKYQNFEKIMPASLLIGDFDIHLGNIGVIRNKKNPKTLPRLVRIDFAGSFDNLTDNIYPHSRIRHLPGFGPTNHFREFPSSLRTKNPDFADSLLAASKIDLSKIIDKSVDKLTKYYSNEAIAKFAQRAMPKQFNKKSHAITTEEIKASLIDIMKKRQVSLQEYGLEIKINTLISKKYSFPYYEVKKQELKTLIKEYPDYFEKILNYAKSKNGSLKLKLRDKVTTNFARILEIFCIRDSVKTHLLKTITSLNEDIKYESNLANSSDKIKNESKPKSVKTDRYGTREYVDSLEKFYQAGGIDDVVCVTPSKLGLMSKAKQEDQDLLKLDAEDLKHIKNLKEKLMTPTKITESSIFLNKKHTLTKTR;locus_tag=LOCUS_0700;note=WP_004597824.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-296],MGA_71
sequence1	MetaGeneAnnotator	CDS	103430	104434	.	-	0	ID=MGA_72;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MELTALTSYALAGFKLNDIKSSEGALKYFILGSLVSCLSLFGISFIYGFGGSIQFDDILHQLNNDSEIKPGLIIGIVLFLSSIFFKLASSPLHFWIPDVYEGSPISSVTYFTAASKIGMVIVLLNISKLIIGNYYPINYNLIKIIAILSMLFGAFGAIRQTSLKRLMAYSTILNIGYVLIGVLLHNQEGYKAALLYILIYAVVSIGFFTCLIMLFGKDVDNASFKTIEGIAETHKTIAALISIVMFSMIGIPPLTGFFGKYYLFYQAINKKEFTLAYCGIFTSVVAAFYYLKVVKAMYFSKKIAIIKLPMQYGLLLINYLVLGFLLFGSFIILF;locus_tag=LOCUS_0710;note=WP_004597822.1 NADH-quinone oxidoreductase subunit NuoN (Rickettsia prowazekii) [pid:98.1%25%2C q_cov:96.1%25%2C s_cov:70.1%25%2C Eval:1.0e-174%2C partial hit],MGA_72
sequence1	MetaGeneAnnotator	CDS	104391	104552	.	+	0	ID=MGA_73;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNPASAYEVNAVSSIPQNNNKKFRDEIATKIPTIDNSIKVINSNFNVSPTRIE;locus_tag=LOCUS_0720;note=MGA_73
sequence1	MetaGeneAnnotator	CDS	105295	105453	.	+	0	ID=MGA_74;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSKNDEVSQVVLSDKVLKEQKLIENFVQIRDTEMMIREVFLEEFYIDNIIMV;locus_tag=LOCUS_0730;note=MGA_74
sequence1	MetaGeneAnnotator	CDS	106762	108063	.	+	0	ID=MGA_75;product=folylpolyglutamate synthase/dihydrofolate synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886315.1;translation=MLMPHFPLPTWQNQVKYDLDNIKRLLKALGNPHLSLPPVIHIAGTNGKGSSSAMLKSIFTLAGYTVHCYTSPHLLEFNERIIVAGEKISDNALWQVCEHVRIASEKFNIESNFFEGITAAAFLAFAQTKADILILETGLGGRLDATNIFEHPLITLITPISYDHMNVLGNTLHMIAVEKAGIMKACVPCVISMQTLEVYATLFAKAEELDVPTFCYEYDFGIQKTDNGFIYSSRNFTYEFPSPSLLGDHQLINAASVIALISLINQQFYINNEIISKGLQNTIWQARIEKIEPQKYSKLIGENVQIWVDAAHNNSGAQVLANWVRVNLKTPIYLILGMTKNRDIKAFCSYFNDLTIKGYGVKVLSEPLSHSAAIINLEGRKSGIDFTESDSLEAAISDIKKRNGDNKTNIIITGSLYLASDFYKLLSNCYLTD;locus_tag=LOCUS_0740;note=WP_010886315.1 folylpolyglutamate synthase/dihydrofolate synthase family protein (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.2e-251],MGA_75
sequence1	MetaGeneAnnotator	CDS	108158	108787	.	+	0	ID=MGA_76;product=superoxide dismutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599063.1;translation=MTYCSKANQPSYPFILPDLPYDKESFKPHFTRETFDYHHGKHHNSYVQNLNNLIKDREELQKKDLEEIIEWSSQNAEVAILNNASQIWNHTFFWYSIKPHGGGKPSGKVFEQISKDFGSFEQFCAQFKQEAVGQFGSGWTWVVYHDNKLQIIKTSNAGTPIVNFMKPILACDVWEHAYYIDYRNKRSDYIDIFIRHMINWKFVEDNLIQ;locus_tag=LOCUS_0750;note=WP_004599063.1 superoxide dismutase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.1e-127],MGA_76
sequence1	MetaGeneAnnotator	CDS	108809	110605	.	+	0	ID=MGA_77;product=phospholipase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599065.1;translation=MTDIKIRKHHIINNLKQKSKTDVFNEQSEILEQLEYITKDQHSPINQIKTLYELEQAQKAPIEYIAFSGGGAKGAIYSGVYEAAKKTGILDNVKAVAGSSVGAITAAVVALGTPPKRFEEISKNTNLQTLFGKQGFSAGMIQLNKDGKPLYDLIELIIKENIGNFLHRSDIVNVQNDKDLDELRERYNQKDGKIYFKDIALLRKYDPVQYKDLVITATQQETSALTIFNSFDTPNVEIALACRASASIPIVFKPVEIDGKKYVDGGYRDNIPTKYFKDNEPEFCTKEVTNNLEEITLAKKQGRTLAMVFGTGMGADANIAIYSAKNFDSPSDIVKFLVDVLFKIIAQVGGKFKYTETLRETNEQLRENALNTVVLDTAGIGTLDFKDAQKYCDYLHIKGYCQTLEHLNNHDLTKKIDKTFDHQKFLLNVYEVYDNKNLHKTFGTKLFEMFIPSKENNSSKWQDGIIETHNDKAKMLLSFCKTGVLTEKKLNERLKEYVIIAATSRNNTLKTDTNSLNALLYTLNASAASSKIKDSFIEVLEIDKNKDTRFDKTKTFDYNIANFQFTKKDLESFLAKNKSAVLKIQRKHDVARNQRSRG;locus_tag=LOCUS_0760;note=WP_004599065.1 phospholipase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_77
sequence1	MetaGeneAnnotator	CDS	110777	111583	.	+	0	ID=MGA_78;product=biotin--[acetyl-CoA-carboxylase] ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411716.1;translation=MIINKIMNIGKFKLIVFDEIDSTSSEAMRIARHNKVYADYAIFAKSQTRGRGRSGKNWQSRLGNLHVSLLMRPDKELELLPQLCFVTALAVYDTILSCILYAGSNQLINNFNAVSVCPQNYSIQLKWPNDILMNGRKIAGILLESVKMDNNYYLIIGIGINITYHPENIDQPTTSLITENLMHVVPKALLKILIKNFEKYYKIWHHNGFPFIRKKWIEHAYKLNENINIKYRNDIVTGLFKDIDNTGNIILQLNTQEIISFSTAELYF;locus_tag=LOCUS_0770;EC_number=6.3.4.15;note=WP_014411716.1 biotin--[acetyl-CoA-carboxylase] ligase (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:97.8%25%2C s_cov:100.0%25%2C Eval:2.2e-147],MGA_78
sequence1	MetaGeneAnnotator	CDS	112204	112536	.	+	0	ID=MGA_79;product=DUF2335 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599070.1;translation=MKETKRFFNKNNRLNKGYAKTFSINEPDNNFYRKKFEHILPPVDLISEYESIYPGTLQELMHMAQKEQAHKHAIDLKNLKIQERIAKLTRICLLIFGIGLVVLIFLKLLK;locus_tag=LOCUS_0780;note=WP_004599070.1 DUF2335 domain-containing protein (Rickettsia prowazekii) [pid:92.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.3e-53],MGA_79
sequence1	MetaGeneAnnotator	CDS	112637	113143	.	+	0	ID=MGA_80;product=translation initiation factor IF-3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_081420893.1;translation=MPKANREIKAKEVRLVDENSEMYGVVNIREALDMAERAGLDLVEISPNAVPPVCKILDFGKFKYESKKRLHEARKKQKVVVLKEMKFKPNISIGDFETKLRKIKEFLKDGDKVKISLWFKGREILHKEVGHELFKRIELALEGLIKIDQHAKMEGKQMIMIVSPDIKV;locus_tag=LOCUS_0790;gene=infC;note=WP_081420893.1 translation initiation factor IF-3 (Rickettsia asembonensis) [pid:94.6%25%2C q_cov:99.4%25%2C s_cov:90.3%25%2C Eval:7.5e-86],MGA_80
sequence1	MetaGeneAnnotator	CDS	113269	114495	.	+	0	ID=MGA_81;product=pyruvate dehydrogenase complex dihydrolipoamide acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599072.1;translation=MPIKILMPALSPTMREGNLARWLKKEGDKVNPGEVIAEIETDKATMEVESVDEGILAKIIIPQNSQNVPVNSLIAVLSEEGEDKADIDSFIAQNNSVSLSLKTDATLKKSNDSITNVEGIKHDSNKIFASPLAKRLAKIGDIRLENVQGSGPHGRIVKQDILSYDSSTSSNKIVYRDTEEYRSVPNNNIRKIIAKRLLESKQTVPHFYLSIECNVDKLLDVREDINKSFSEDKVTKISVNDFIILAVAKALQEVPNANASWSEDAIRYYNNVDISVAVAIENGIVTPIVKDANKKNIIELSREMKTLIKKAKDNKLTPIEFQGGGFTISNLGMYGIKNFNAIINTPQSCIMGVGASTKRAIVKNDQIIIATIMDVTLSADHRVIDGAVSAEFLASFKRFIENPVLMLI;locus_tag=LOCUS_0800;EC_number=2.3.1.12;note=WP_004599072.1 pyruvate dehydrogenase complex dihydrolipoamide acetyltransferase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-227],MGA_81
sequence1	MetaGeneAnnotator	CDS	114675	115742	.	+	0	ID=MGA_82;product=peptide chain release factor 1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597801.1;translation=MSFSDNLVKILDKYENLGKKLSSGIIGDEFVKASKEYAELEDVVVKIKQYNKAKSELEEANNFRLEMALDNATLEMIDNEIHTLENLLPKLERAVRISLLPKDEADSKSAIIEVRAGSGGEEAALFAAVLFNMYQRYSEFKGWRFEILAISDTGIGGYKEASASIKGKDVFSKLKFESGVHRVQRIPETESQGRIHTSAATVAVLPEAEGIDIKIEDKDLRIDTYRASGAGGQHVNTTDSAVRITHIPTGITVALQDEKSQHKNKAKALKILRARLYEEKRRQKEQERSDSRRGQVGSGDRSERIRTYNFPQGRVSDHRINLTLYKIDEVVKHGQLDEFIEALIANDEAKKLSEL;locus_tag=LOCUS_0810;gene=prfA;note=WP_004597801.1 peptide chain release factor 1 (Rickettsia prowazekii) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-195],MGA_82
sequence1	MetaGeneAnnotator	CDS	115848	117608	.	+	0	ID=MGA_83;product=single-stranded-DNA-specific exonuclease RecJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599075.1;translation=MKPQISINGKIWKQKPIKEDIVTELCRSFKISDFLARIVSLRVNNLEEVENFLIPKIKNLLPDPFHLLDMDKAVDRIIQAIVNSQQICIFADYDVDGATSAALLKHFLRDLNIICDIYVPDRIYEGYGPTPLAMQKIKGNGTELLITVDCGAMAHDALKYAKDVKLDVIVIDHHISTEILPDAVAIVNPNRIDETSEYKYLAAVGVTFLFATAILSNLKKRNYFSQSIPTPNLMKYLDLVALGTVCDMMKLTGLNRAFVTAGLKVMQQRQNIGIKTLYDIAGLDEIPQCYHLGFILGPRINAGGRVGKSNLGANLLATNCHNEANKLANELEKHNNERKVIELLMINEAIDIALTQKDSSLLFVVKEGWHPGVIGIVAGKLKEKFDKPVVVVALNNGIGKASCRSILGIDFSAEIINAKSKDLIISGGGHAMAAGFTATASKLQELQDFLNDAFSISINKLASYKHAEYDIDLTVNGVNFRLMEELKTLEPFGPGNYEPIFKFDDLFILKADIVGSKHIKCMLAPDKQYFGNKALSAIVFDAVGTPFEDILLSSRARHISAIGTLKMNNWKYNYTIQLIIKDILLK;locus_tag=LOCUS_0820;gene=recJ;note=WP_004599075.1 single-stranded-DNA-specific exonuclease RecJ (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_83
sequence1	MetaGeneAnnotator	CDS	117628	118947	.	+	0	ID=MGA_84;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599076.1;translation=MSNFKKIKNITISKDLPEVQEHYQDYPYPFRDPNHEKERLLTICGEFLGELNHFLYKGKENFNNNFRCLIAGGGTGDSAIYLAEQLKDKNAEIIYLDFSKPSMEIAQKRAEVRGLKNIKWIHNSILNIPNLKLGKFDYINCTGVLHHLANPDEGLKNLKASLKPTGGMGLMVYAKYGRTGVYQIQDLMKMINKNAQNRIEEIMNGKLILDNLPATNWYKRGWDLFSDYQNFGDIGVYDMFLHKQDRAYSIPELYEFIEKAGLNFVDYLDPLEKILLRTENYIKDFSLLQKVKQMDKVTQEAISEILTGNIIKHSFYVSNQKDSVASLDNLDNIPYFHNIVNFAKQIYEYLESNSSSINVINFTINNGILNNINISMSIFRSTKYIFKYMIEEKSLREIFDAVRSELNQEISDEALLNEVKNVFMPLLHTNVLLLKSKYL;locus_tag=LOCUS_0830;note=WP_004599076.1 class I SAM-dependent methyltransferase (Rickettsia prowazekii) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.6e-251],MGA_84
sequence1	MetaGeneAnnotator	CDS	119275	120648	.	+	0	ID=MGA_85;product=transcription termination factor Rho;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597794.1;translation=MNTTNKQLTEELNNTESNNDHNDFAENNIINLKQLKRKLPEELQVQAEELKIENISSLLKQELVFAILKKSVEQGGLIVGEGVLEVLPDGFGFLRSPEVNYLAGPDDIYISPSQIRRFGLRTGDTVEGQIRAPKAGERYFALLKVNRVNFEDPAKAYHRVHFDNLTPLYPDEKLGLELENNSKDSKDFSTRVIELVAPMGKGQRALIVAPPRTGKTVLLQNIAHAITTNNPEVFLIVLLIDERPEEVTDMQRSVRGEVVSSTFDEPASRHVQLAEMVIEKAKRLVEHKKDVVILVDAITRLARAYNTVVPSSGKVLTGGVDANALQRPKRFFGAARNIENGGSLTIIGTALIETGSRMDEVIFEEFKGTGNSEIVLDRKIADKRIYPAIDITRSGTRKEDLLVDKIILNKMWVLRRIIDPMGSSEAIEFLLKKLENTKTNCAFFEMMKSPERPRNGL;locus_tag=LOCUS_0840;gene=rho;note=WP_004597794.1 transcription termination factor Rho (Rickettsia prowazekii) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.7e-255],MGA_85
sequence1	MetaGeneAnnotator	CDS	120787	121704	.	+	0	ID=MGA_86;product=signal peptide peptidase SppA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597793.1;translation=MNITPDYLIERRQLKSRLLIWKLADIILIAIICLLVGKDLVSKEILSINSNEDYIASVLIDGIILEDEKRDKKLKKIIDDSHIKALIVNVNSPGGTVVGSEKIYNILRKISAKKPVVVIMGTMATSGGYLISLGGDYIISHNGTITGSIGVILQTAEVTELAQKLGIKFNNFKSGAFKAVPNPTEKLTEAVRLAIMENIEDTYKFFIELVSERRSLPIEEVQKLADGRVYSGRQALKLRLVDTIGSEDTALKWLQEIKKININLTIKDYQLKPKSTLIEMIFEDFNSLLLSFFKNSFSGIKSVFQ;locus_tag=LOCUS_0850;gene=sppA;note=WP_004597793.1 signal peptide peptidase SppA (Rickettsia prowazekii) [pid:92.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-150],MGA_86
sequence1	MetaGeneAnnotator	CDS	121704	121946	.	+	0	ID=MGA_87;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597791.1;translation=MVTKNYLIDKVHDKLDYLSKQDVKESVDLILDYLNESLKEQKRIEIRNFGNFSIRKRKFPESNKFYNTVYYRMPKNLFKD;locus_tag=LOCUS_0860;note=WP_004597791.1 HU family DNA-binding protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.3e-41],MGA_87
sequence1	Aragorn:1.2.38	tRNA	122931	123007	.	-	.	ID=Aragorn_5;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0050;note=Aragorn_5
sequence1	MetaGeneAnnotator	CDS	123454	124113	.	+	0	ID=MGA_88;product=(d)CMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597789.1;translation=MIDLKTKAFDIAQNFTISLDGPAASGKGTVGLILAKKFSLKYFQSSIVYRQLAFNCINQQIDITDIDAVIALSKELKLDNNIDLENEDIGDIASQIAVISDVRNNLNENLINLVKTTPRIIMEGRDIGTVVAPDADLKIFITASPYVRAIRRYNQLQAKGKTCILDEIIQQIILRDKRDKERKAGPLLPALGAFIIDTSKLSAIEIVEEVTNYIKNKIT;locus_tag=LOCUS_0870;gene=cmk;EC_number=2.7.4.25;note=WP_004597789.1 (d)CMP kinase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-117],MGA_88
sequence1	MetaGeneAnnotator	CDS	124363	126069	.	+	0	ID=MGA_89;product=30S ribosomal protein S1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599077.1;translation=MSIKLKQRFVPQLAAINCQFEEDFAQMLKTVDTSHIKEKTVVKGQVIEIKNDMIIVDVGLKNEGRIPKSEFLSLPEVGDVVEVFIEKIEGRNGRTILSREKAVKEELWGQLEIMCSKGEFVDGTIFGRVKGGFTVDLSGVVAFLPGSQVDVRPIKDPTSIMNIKQPFKILSMDKKLGNIVVSRRVILEESRSEARDEMLSKIKEGIVLEGVVKNITDYGAFIDLGSVDGLLHLTDISWGRVNHPSEVLEFNQKVKVMVIKFDEKTKRISLGIKQLDSNPWDAIKEEFPVGKKMTGKVTNFADYGVFLELKDGLEGLVHSSEISWLKSNQNPRKMLTIGQEVEFIVLEVDTEKHRVSLSIKQCQENPLIKFAENNPIGTIIKAPIRNITDFGIFVVLGNNMDGMIHEGDISWEDNGTDLLKSYKKGDEIECKVLAINFEKEQVSLGIKQLLPNPYQKISDEYKKSTIVKAVVTEIKDDGLVVLLNNKVTGFIKRVELSDEKDEQKPEMFKVHEEIDAKVVSIEKSTGRVLLSIKAHKIAERQKTLKEYGSSDNTTNMGDILANVLEEKK;locus_tag=LOCUS_0880;note=WP_004599077.1 30S ribosomal protein S1 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_89
sequence1	MetaGeneAnnotator	CDS	126222	126827	.	+	0	ID=MGA_90;product=ATP-dependent Clp endopeptidase proteolytic subunit ClpP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597786.1;translation=MSYVPVVIEQTSRGERAYDIYSRLLKERIIFVCSTVEDHMANLIVAQLLFLEAENPKKDIYMYINSPGGVVTAGLAIYDTMQFIKPKVATLCIGQACSMGSLLLCGGEHGMRYSLPHSRIMIHQPSGGYKGQATDIEIHARETLKIKRLLNELYSKHTKQELKYIEKSMERDNFMSSEEAKKFGLVDNIISSRDTIAFLAQ;locus_tag=LOCUS_0890;gene=clpP;EC_number=3.4.21.92;note=WP_004597786.1 ATP-dependent Clp endopeptidase proteolytic subunit ClpP (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-111],MGA_90
sequence1	Aragorn:1.2.38	tRNA	127064	127139	.	+	.	ID=Aragorn_6;product=tRNA-Ala;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0060;note=Aragorn_6
sequence1	Aragorn:1.2.38	tRNA	127970	128046	.	-	.	ID=Aragorn_7;product=tRNA-Asp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0070;note=Aragorn_7
sequence1	MetaGeneAnnotator	CDS	128412	128843	.	+	0	ID=MGA_91;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIISVSGQHISIGSNLQEYSKEKITQGIKKYLTDIINIDIHFSKEGINFKCDIIVKYGSGKHNIIKSNDSCSDIYLAFDKAMSKLEKQLRKCKSKFKNHHSGKVKISEIAYEGTKYVINPYFDSETSNYEDNDNPTIIAEKSV;locus_tag=LOCUS_0900;note=WP_016916788.1 ribosome-associated translation inhibitor RaiA (Rickettsia honei) [pid:88.8%25%2C q_cov:100.0%25%2C s_cov:74.5%25%2C Eval:1.9e-69%2C partial hit],internal stop codon at [128841:128843](+)%2C[128922:128924](+),frameshifted%2C insertion/deletion at around 128927%2C128951,MGA_91
sequence1	MetaGeneAnnotator	CDS	128979	129536	.	+	0	ID=MGA_92;product=gamma carbonic anhydrase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597783.1;translation=MLIVPYKGIIPKIAKSAYVAKNSALIGDVVIGNNSSIWFNTVLRGDVESIKIGNNTNVQDGSVIHTSRFNGPVEIGNNITIGHLSLIHACTIHSNAFIGMSATIMDYAVIEEYAFIAAGSLVPPKKIIKSNELWMGSPAQFVRYLTDKDLQYMEDNIRNYVELANLYKTQSQCKSHSTNNCKKLS;locus_tag=LOCUS_0910;note=WP_004597783.1 gamma carbonic anhydrase family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.7e-103],MGA_92
sequence1	MetaGeneAnnotator	CDS	129615	130547	.	-	0	ID=MGA_93;product=bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_187145826.1;translation=MSIIYYLPEYRGQATVLQTQKDNNMVNNIIDGKALANEILADLKLEIQGFKEKTKTSPKLAIVLVGDNPASMIYVKNKIKNAHQVGIDTLLVNLSTNIYTDDLILKINELNLDKGISGIIVQLPLPSSIDENKILSAVLPSKDSDGFHPLNVGYLHSGINQGFIPCTALGCLAVIKKYAPNLNGKDAVIVGRSNIVGKPLSALLLQENCSVTICHSKTCNLSSITSKADIVVVAIGSPLKLTAEYFNPEAIVIDVGINRISHNKIAGDVDFENVKSKVKYITPVPGGIGPMTIAFLLKNTVKAFKNAIAL;locus_tag=LOCUS_0920;gene=folD;note=WP_187145826.1 bifunctional methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase FolD (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:92.3%25%2C s_cov:100.0%25%2C Eval:6.9e-159],MGA_93
sequence1	MetaGeneAnnotator	CDS	130649	131653	.	-	0	ID=MGA_94;product=NAD(P)/FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599078.1;translation=MYNTDIVIIGSGPVGLFAVFQAGMLGMKCHVIDAQEVIGGQCITLYPEKHIYDIPAYPKIAAKELIKQLESQAAPFNPVYHLNQQATELNKHDDFFEIKTSKNTLIKSKVIIIAAGAGAFGPNKPPIANIEAFEGKSIFYFINDKSKFLGKNIVVAGGGDSAVDWAITLSEIANKIYLVHRRDKFTAATESVRQLRHIAETGKIELVTGYQLNNLDGHNSELRSVIVKDLQNNIRKLDANILLPFFGLKQDLGPLANWGFNVRLQHIEVDNYYYQTNIKGIYAIGDVAHYVGKLKLIITGFAEAACSLHHAYSRVFDGKALHFEYSTNKYEQKQ;locus_tag=LOCUS_0930;note=WP_004599078.1 NAD(P)/FAD-dependent oxidoreductase (Rickettsia prowazekii) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-189],MGA_94
sequence1	MetaGeneAnnotator	CDS	133153	134976	.	+	0	ID=MGA_95;product=ribonucleoside-diphosphate reductase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599079.1;translation=MNTLKKNKFQITINNKYNNLLTPFGKAILRDRYLMKGEDFQDLFARVSSHYAENKQHAQKLYEYMSQMWFMPATPILSNGGTERGLPISCFLNETDDSLDDIVNLWMENVWLAARGGGIGSYWGNVRSINEAIRDKGHSSGIIPFIKVMDSMTLAISQGSIRRGSSAVYLPINHPEIEEFIDIRRPTGGDVNRKSLNIHHGITITDEFMQAVENNMDFDLVSPATKKVANKVRARDLWIKLLTTRIETGEPYLLFIDSVNKTIPEHHKKLGLQVKMSNLCSEITLPTGIDHLGNSRTAVCCLASLNLEYYEVWKDDKEFIHSIMLFLDNVLEDFINKAPNTMARAKYAAFRERSVGLGVIGFHSFLQMKKIPIESVMAKVWNKKIFEYISAEVDKASIEIGKDKGACPDALDSGSNERFSNKTAIAPTASISVIAGNASPGIEPFAANSFVQKTLTGSFNVRNKHLEQLLEEKGFNNDQVWSSIATHEGSVQHLTFLSEEEKQIFKTAYEIDQNWLIELAADRTPYITQSQALNIFLHGNVSKKYLNNIHFKAWKKGIKSLYYCRSTSIQRADKVSHDVLKADFKDLEKQNDKLAQTRNYEECLACQ;locus_tag=LOCUS_0940;EC_number=1.17.4.1;note=WP_004599079.1 ribonucleoside-diphosphate reductase subunit alpha (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_95
sequence1	MetaGeneAnnotator	CDS	135141	136115	.	+	0	ID=MGA_96;product=ribonucleotide-diphosphate reductase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599080.1;translation=MSLLDASPIYKPFSYPWAYEAWHTQQKIHWLPEEVPLAYDVKDWKYNLTPGEKHLLTQIFRFFTQADIEVNNCYMKHYSRVFKPTEVLMMLSAFSNMETVHIAAYSHLLDTVGMPEVEYSAFLKYKEMKDKYDYMQQFGVDNKEDIATTLAVFGAFTEGLQLFASFAIMLNFPRFNKMKGMGQIIAWSVRDETLHTNSIITLFKTFVRENPEVWTETLRKRIYEACTTIVHFEDAFIELAFEVGGIEGLTAYEVRQYIRYIADRRLMQLGLKDVYLVNHNPLPWLDEMLNGVEHTNFFENRATEYSKAATTGSWEEVFAEMDNK;locus_tag=LOCUS_0950;EC_number=1.17.4.1;note=WP_004599080.1 ribonucleotide-diphosphate reductase subunit beta (typhus group) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-190],MGA_96
sequence1	MetaGeneAnnotator	CDS	136181	139033	.	+	0	ID=MGA_97;product=pentapeptide repeat-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599081.1;translation=MAVVNTKNYQKVVEKVLSSSKANKALKSAIKDLSSSNSISLRTILLGAKFILTHPVNTYNLVKLAKSSNIYLDPEFQKSLLENSPIWEFLKKHSDDLPKIGRILAKAGFREFQDKSALDEEGLKILKECFKNEKVLKKLQDIAIEVKQERTDWNKVTSNILDMLVTDKNFQKFFNEKSKDITHYIRSGATEILPSDYMKSFDDILQKPEKKKLLKIFNTHPDVKQELVNNINNPNILKKFNKLFYKQEIMLTSFLKEVKAQSKPFLQEHFESYKIDLKILDIIPTLLNKIPDIKEIFDTLNAPNKGVMISLEKALEMVAGDDQLKSFFANNKTILPNMALGIIENTPSVQSITNEYNFDQQMLVIVGEVMSKPEIAHEIIADLNKGDYMSLTGNIISIINDPSFKLKDILVEQSKKGLFDNLINGVLEQDIKNSQIIKQQLINYGMEAGDVTKLTKIMPILLDKPESLKKVFRDFIKGNYTKMTKELISLTKDNPKIKEYLNNNRAIFASILDKTLMDIPGINNLDKQELYNILPSMLNHPDELIKVIEEVEKSHYHGAVSAIYNLAQKTNYFEGQLPNIIKAGFNSGFNYATEKVKDVFSSSRDFKDKVIDEITIRKHLDKIQNGKFNLEGAILLGNLSNIDFSGVSLKNADLTKVTSLKDCNFKNTNLVDAKLPDNLIMFTDTYNLDKAIPTLAPRLIKAQQAKLVDKAIDKVFVQIKAEEKKILFSKKEFLQQVKILLEENQTVKDYIIDKLNSFPMNMVTNLETPKINQYKHITNHVNSPFQILNPLYENIANQQDIKSNLFANILSEKISKKLFDKGDNRGEDFYLINQMLKSIVAEYSKPNNNIDNFLEHKNLEKLASNIASTLYSKSKYTLVGTITSGIYLPKEIFNEQLKDNFKNEFNKIIDVLKEAKNIVSNLESKVHIVDNQNKSHAYKLLLAKNKKIHR;locus_tag=LOCUS_0960;note=WP_004599081.1 pentapeptide repeat-containing protein (Rickettsia prowazekii) [pid:99.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_97
sequence1	MetaGeneAnnotator	CDS	139506	139625	.	+	0	ID=MGA_98;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNVATSIDSLGNRILFDNSNVIKELVGYLNQKSDKIEEL;locus_tag=LOCUS_0970;note=MGA_98
sequence1	MetaGeneAnnotator	CDS	139881	140816	.	-	0	ID=MGA_99;product=tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599082.1;translation=MIKKEIIILCGPTASGKSCLGHELAKAYDCEIINIDSMQVYKEIPIITASPIQIYNTDIHYHLYNFLSITEDFSVIKYLKLAAKKIKEITVRGKLPILIGGTGLYINLLVFGYNNIPDISEDLRVQVRNLHDKIGNIELWNQLKKLDPIASTKINHCDTQRLIRAYEVFMHTGKSIFSFHTAPKERILSDFNFKIIFLNPERKFLYKTCDERLDKIFKDKAIDEIALLKKQFTPEEYAHLKAVGIKEILAYLDGNLTLDAALNVAQMRTRQYAKRQVTWFTHQIQDKTILEYSTQEEFAQILRHLLFILRS;locus_tag=LOCUS_0980;gene=miaA;EC_number=2.5.1.75;note=WP_004599082.1 tRNA (adenosine(37)-N6)-dimethylallyltransferase MiaA (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-174],MGA_99
sequence1	MetaGeneAnnotator	CDS	141263	142789	.	-	0	ID=MGA_100;product=phosphomannomutase/phosphoglucomutase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597764.1;translation=MTSNNIKGFMNINKEIFRAYDIRGNSIKHLTEEVAYKIGFCFANMSITKDNNKICVGLDGRISSPTLCKALELGLTDAGAEIINIGVVPTPVLYFADKHFMPSGSIMVTGSHNPRDDNGFKMLQNGKSFFGTQIQTLLTRINGVRWLDHDLKSRCKMTIMSSWNEIKDQYTSDTLKFAGQLNSNSIQYIQKGCYMSSIEFDVLKLYIKRILEGININPKLKVAWDPGNGATCNIIEELIKHLTNKNIIINSMIDGNFPNHHPDPTNPANLQELIKLVKEQNCDIGIAFDGDGDRIGIISGVGEILFGDQILCIFAEDILKEHPNANIIVDVKASQFIVDKIKSFSGNTIICRTGHPFIKNKMLETNALLAGEMSGHIFFADKYFGFDDAIYAALRFLDLLSKSSKTLDKIIDELPKIYSTPEIKIFVTSRLKLQIIKEIKEKLLEAKIEFNDIDGVRVNTKNGWWLLRSSNTESIIVARAESVSKNGLKNIIAMMNKYLVEYDLLINY;locus_tag=LOCUS_0990;note=WP_004597764.1 phosphomannomutase/phosphoglucomutase (Rickettsia prowazekii) [pid:95.6%25%2C q_cov:98.2%25%2C s_cov:100.0%25%2C Eval:3.2e-277],MGA_100
sequence1	MetaGeneAnnotator	CDS	142882	143604	.	-	0	ID=MGA_101;product=LPS export ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597760.1;translation=MDSLQIKNISKSYKKRNILTDISLHIKQGEIVGLFGPNGAGKTTCFNIIIGLMRPDSGQLLLNDINITNLPIYLRARLGIGYLLQEPSIFRGLSVADNIKAVVEISENDKEVIEQKTHNLLEKFSIVHLKDLSSASLSGGERRRLEIARSFVIEPKFIMLDEPLAGIDPLAISDIKKLITYLREFNIGILITDHNVRDTLDIVDRAYVIFEGKVLLEGSAQEIANSKKVKEVYLGESFNF;locus_tag=LOCUS_1000;gene=lptB;EC_number=7.5.2.5;note=WP_004597760.1 LPS export ABC transporter ATP-binding protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-130],MGA_101
sequence1	MetaGeneAnnotator	CDS	143715	144152	.	-	0	ID=MGA_102;product=LptA/OstA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597758.1;translation=MSLQSSIYRIIKFIIFLTINISIYANAKDIANLQITSNTLIIDRIKQKAEYSGNVIVYFDNAILRTQKLYIFYKTIGEKQVIDHIVVPSKLTVERKINNELLLADSAKYFFVDKQLILLGNVILQRNDHVLKTNKLIYYVEIVRK;locus_tag=LOCUS_1010;note=WP_004597758.1 LptA/OstA family protein (Rickettsia prowazekii) [pid:95.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.9e-71],MGA_102
sequence1	MetaGeneAnnotator	CDS	144118	144657	.	-	0	ID=MGA_103;product=LPS export ABC transporter periplasmic protein LptC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886310.1;translation=MLYIGYILIKSGYINEKNDINVTKKNLNLRDNKNYDLKYNVILQDSIFEGVNKNLNAYKIKTERAIKESGNKYKLDIINAIYNINQDQALIITAKEGFLDQESNILDLKNDIKLFFDEIIFNTNNARINLVNQNIYGNSSAKLLYKNSSITSDSFNTMDENNIIIFKGNVSTIIDLSDY;locus_tag=LOCUS_1020;gene=lptC;note=WP_010886310.1 LPS export ABC transporter periplasmic protein LptC (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:89.1%25%2C Eval:2.2e-97],MGA_103
sequence1	MetaGeneAnnotator	CDS	144729	145688	.	-	0	ID=MGA_104;product=KpsF/GutQ family sugar-phosphate isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597752.1;translation=MINTNNYRIIAKRVISSATSALETLSNNIPSDFNRIIEFLLSFKGRIILTGIGKSGYIARKIAASFSSTGMPSFYLHPAEASHGDLGMITRNDLVMMLSNSGETKELFNIIEYCNNSSIKIAAMTMNKNSTLAKRSDFLLKIPECQEASLIGTPTISSLIMLSLGDAIMTVIHEERGFTRDDFKIYHPGGTIGANLTKIKNIMRSGDEIPLVYEDTSFTETIIIMNKKRLGCTLVTDKEQNLIGIITDGDLRRNIHDQIHLKTASSIMTKNPHYISSEIFAQEALNLMKAKNITNIPIVDDNIIIGIIHIHDLLSMGVS;locus_tag=LOCUS_1030;note=WP_004597752.1 KpsF/GutQ family sugar-phosphate isomerase (Rickettsia prowazekii) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.7e-169],MGA_104
sequence1	MetaGeneAnnotator	CDS	145873	148110	.	-	0	ID=MGA_105;product=polyribonucleotide nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886309.1;translation=MFNEITKSVMWNGQVLEISTGKIARQANAAVTVKMGNSILLCTCVVANKVKDGIGFFPLTINYREMAYSAGKIPGGFFKREGKASDREILVSRLIDRPIRPLFHQAFMHETHVTCSVLSYDPATPVDILAIIGASAALSISPAPYLEIVAASKVGLINGEFVLNPTLELLKTSQLDLVVAGTEDSVMMVESEAHLLSEDKMLEAVKFGFESFQTVIKLIKELAKEAKKPKFEMQDLYPSSLKKEIEKLFTKEVEQAFEIKSKQERSTDLALIYEKVLTHFVRDIENKKYNNYQIESALKAISADILRNKILEKNIRIDGRSTTDIRQIACEVGLLPSAHGSALFTRGETQSLVSTTFGTSLDEQIVDSLEGEYKERFMLNYIFPPYSVNEAMPMKAPSRREVGHGKLAWRAINPILPNKVQFPYSIRVVAETTESNGSSSMATVCGSSLALMHAGVPIKAPVAGIAMGLVKESNKFAVLSDIIGDEDYFGDMDFKVAGTSQGITALQMDIKISGIDFKIIQIALEQARLGRLHILEQMNKVISKPNSELSKNAPSSTTVKIDKDKIKDIIGPGGKIIKEICETSNAKIDISDDGTVSIYASDRDKIKIALDKIKAIAVEPEIGEIFNGTVMKVLDSGAFINYLGNKDGFVHISEISDARIDKVSSVLKQGDIVKVKLIGFDNKGKAKLTIKNAYKDHSSNNTKQKNNVKDDSESEQRRDTSKKRTWNEDNNTEMSEVITERKYFT;locus_tag=LOCUS_1040;gene=pnp;EC_number=2.7.7.8;note=WP_010886309.1 polyribonucleotide nucleotidyltransferase (Rickettsia prowazekii) [pid:96.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_105
sequence1	MetaGeneAnnotator	CDS	148265	148540	.	-	0	ID=MGA_106;product=30S ribosomal protein S15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597748.1;translation=MSITTERKQQLIKEYAITENDTGSTAVQCAILTERINNLTEHFKSNHKDHTSRRGLLILVGRRRRLLNYIKKNNVSEYLDLISKLGIRKIK;locus_tag=LOCUS_1050;gene=rpsO;note=WP_004597748.1 30S ribosomal protein S15 (Rickettsia prowazekii) [pid:94.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-42],MGA_106
sequence1	MetaGeneAnnotator	CDS	148562	149440	.	-	0	ID=MGA_107;product=tRNA pseudouridine(55) synthase TruB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597747.1;translation=MGNYWLNFYKPRGISSAKLVNIVKKIIGKTKIGHAGTLDVEAEGILPLAVGEATKLIQLLIDARKTYIFSVKFGTQTDSGDYTGKVIASKDYIPSQEEVYTVCSKFIGNIRQVPPIFSAIKVNGVRAYKLAREGKIVELKPRNITIYDLKCLNFDKENAIATYYTECSKGTYIRTLTEDLALSLQSLGFVLELRRTQVGIFKAENAIKIKSSDEITKNFIEKKSIKIEAILDDILVLDATDDQAQRIKYGQKCVFDYEEDVSFLWVRYNGTLLAIGSLNKSCFNSLRVFNLL;locus_tag=LOCUS_1060;gene=truB;EC_number=5.4.99.25;note=WP_004597747.1 tRNA pseudouridine(55) synthase TruB (Rickettsia prowazekii) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.7e-159],MGA_107
sequence1	MetaGeneAnnotator	CDS	149656	151194	.	+	0	ID=MGA_108;product=NTP/NDP exchange transporter Tlc4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597746.1;translation=MTINASNIENSFSKINSHFSKLTDYIWPIKRHEISKFLFITLLMFCILFIQNLIRALKDSIVTTMIGAETISFLKFWGVMPSAFLITVIYVKLVNRMKAENIFYLIISIFLTFFALFAYVIFPNHEMLHLRPVTVHNLTASLPNLKWFILLLSKWSFSLFYIIAELWPNVVFALLFWQFVNNITTVEESKRFYPLFGLLSQTGIYLAGHFLENLSNINYYVTNKFALQSSFHTLSIQIILTIVLILGIVSIKTFWLLNHKVLDKKHMALLRFKTKNKSITIAKSFQMILSSRHIRLIATLLICYGIAINLVEGPWKAAATKIYKTPTEYAAFIGSYLSYTGVFTIFFVLLGSNIVRRMGWFTSAVITPSIVFITGILFFAVNNFEGFAGLIIANFILTDPALVAITIGAIQNVLSKSSKYTLFDSTKEMAYVPLEPEIKISGKAAADVIGTKLGKSGSAFLQSLIFIILPSASYQSISICLMIIFILTCVTWIWATKELNKEYKNSIKFSQK;locus_tag=LOCUS_1070;gene=tlc4;note=WP_004597746.1 NTP/NDP exchange transporter Tlc4 (Rickettsia prowazekii) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-290],MGA_108
sequence1	MetaGeneAnnotator	CDS	151435	154503	.	+	0	ID=MGA_109;product=Sca4 family spreading effector;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015508418.1;translation=MSKNGNQDISEFDPLNREFTEAEKQQQMQQEQEFFSQTILDIADDGFMVASSSQATPSISFLSNNRPHGDHKSDPITEAIRKEILEKQRDILREYFVNTNPELAEQIAKEEDDRKFRAFLSNQDNYALINKAFEDTKTKKNLEKAEIVGYKNVLSTYSVANGYQGGFQPVQWENQVSASDLRSTVVKNDEGEELCTLNETTVKTKDLIVAKQDGTQVQINSYREINFPIKLDKANGSMHLSMVALKADGTKPAKDKAVYFTAHYEEGPNGKPQLKEISSPQPLKFVGTGDDAVAYIEHGGEIYTLAVTRGKYKEMMKEVALNHGQSVALSQTIAEDLTHVQGPSHETHKPIIIPNQELESSIEQYTSQQVPPITTFNKSLQPKISQIHQLQPQQAQSSGIPNPVLNAANALSTSMQDLLNNINSYLTKNQDINKQSDLIKEAAIAILNNKKSDFAEKQYNIIDLAKNIFSNKDIIADAKVNVVNTLLETIQNDQNTLDIKKSKILEDTVAITLNSENIELKQKQQILEKVVDIGLSIKDDISRVVAVDSIMDTVIKSNIANEDKEKIFITVFDQINSYEFSNVAKQKLLDSILKKTAETQVLSPEQQQLMNQNLDNITTEHTKRDTIEKVNNILLEPLSNTALKTTNIQVMTSNVLDSPVQIEMKSKLIQVVTKTVAESALVEPKDKTEIVKGIGKTIVTHSDTSLPLHDKVVIMGSVAKGIVESKNDLLDRELIIAGLVDGIYEAKGDNAVVHAISSMIANSNINQSEKEALKRSQDVVSEKVLDKEIQNLDRELKAQNINESKLHDDIYNKTQDVANALKNVITTVLDDNSGQRGVSEEAPKKVSSLLNDISKRTIEKVNNLRAMLSQDGNLKTFEEKKDEATKKVDELVKAFDNKSSTEEQQNFIKSNLIDNKTLSREIRLQIIDNLLKAQAQKRAETIENLSAKTEDVRVISGKSELKPISQDEPYIQKAKMVVERDRVDIKDNIKIMSALINARDSIQSENFNKSIHIKKESSFPQR;locus_tag=LOCUS_1080;note=WP_015508418.1 Sca4 family spreading effector (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_109
sequence1	MetaGeneAnnotator	CDS	154600	154992	.	-	0	ID=MGA_110;product=helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597739.1;translation=MGRKNDIIQKIDSFIGQKIYSLRLAKGLSRQQLAEVIDVTHQQLQKYEKAINRISVGRLVLIAEALDRNIDYFFEGLEEANKPQPVHTQHQRMCIEVSRNFMKINSTEEQQAINNLVKCLAGKEKLKTNV;locus_tag=LOCUS_1090;note=WP_004597739.1 helix-turn-helix transcriptional regulator (typhus group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-68],MGA_110
sequence1	MetaGeneAnnotator	CDS	155463	156368	.	+	0	ID=MGA_111;product=YihY/virulence factor BrkB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411711.1;translation=MNLFKVKYKINNNNLIMIMRKILNCLYVALFRTIKDDGVEHSGYMSFMILLSIFPFLVFLLALTSFLGASELGQNFIQIFLESLPEQATESIEKRIRELLSAPPQSLMNLAIIGSIWTASSFVECLRTILNRVYQIKSPPPYIRRRLLSIIQFLIISALITFTMFLLVVIPIIFTKIPIILETIEQYKIILNFIRYSLILILLFLGASSLYYILPNVKLNFVDVFPGAVLTVVLWIISGYLLSTYIVYYNQLNLMYGSLGSIIVTLIFFYIINMIFIYGAEFNYLMKNYTNIDHNIEQSAT;locus_tag=LOCUS_1100;note=WP_014411711.1 YihY/virulence factor BrkB family protein (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:94.0%25%2C s_cov:100.0%25%2C Eval:2.1e-149],MGA_111
sequence1	MetaGeneAnnotator	CDS	156506	157336	.	-	0	ID=MGA_112;product=glutamine synthetase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599088.1;translation=MKIPYINYNNFINTLSQNLQKNKQLEKIIAQFYQNYQIIPIIGVEIEFYLSHNIDIANFEILSSKDLSKFKISKIKKEKGNNQFEIALPPSINLIQYIKNILEVKKILTKNAKQLNGYIDFSPKPFLDDYGNSMHFHINFNSELNDYYILAAQGICHYMLDTLLVFMPTTLDYLRINKKFMSPTHVSYGGNNRSVAVRTPNSLPKRLEHRLSSPETDPYIAMFTILKSILLALTFPNSLKKIEKIYGNAFDPQYNLTPLPTSYQESFRLFKPEFFK;locus_tag=LOCUS_1110;note=WP_004599088.1 glutamine synthetase (Rickettsia prowazekii) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-152],MGA_112
sequence1	MetaGeneAnnotator	CDS	157335	158057	.	+	0	ID=MGA_113;product=peptidoglycan editing factor PgeF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597737.1;translation=MEVLIHKSVYYKIFDKTFNNSSHRYIQENHSINEAEILANIESITNYFKAQDILILNQVHSNQIVNADEHIVTIPEADGSITTKKNLVLTVQSADCVPVLLASDDGKIIGVAHAGWQGSINNIISNIVTKMIEKGAKNLIAVIGPAIAQSSYEVDDKYYKTFLSKDINNKRFFINSIKENHYMFDLPAFVELKLNESGVKDIKNITEDTYTNPSKYPSKRRSYHMQVPYNEKILSAIVIK;locus_tag=LOCUS_1120;gene=pgeF;note=WP_004597737.1 peptidoglycan editing factor PgeF (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-134],MGA_113
sequence1	MetaGeneAnnotator	CDS	158979	159674	.	-	0	ID=MGA_114;product=class II aldolase/adducin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599090.1;translation=MDIKYNLAAAYKIMAYLSLDDHTYTHLSARSKNADFYYIYPFGLRFEEVTTENLLKVSLDGKILEGEEYQYNKTGYFIHGNIYKARPDVLAIFHYHTPASTAVSALKCGLLPISQWALHFYDRISYHDYNSLVLDADKQSTKFVNDLKQNYVMLLRNHGAITCGKTIHEAMFYTYHLEQACKTQCLLNSTIQQELIIPSVEICKKTVKDLLSFEEDLGKRDWEAWLRLINM;locus_tag=LOCUS_1130;note=WP_004599090.1 class II aldolase/adducin family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-134],MGA_114
sequence1	MetaGeneAnnotator	CDS	160532	163174	.	-	0	ID=MGA_115;product=pyruvate%2C phosphate dikinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597734.1;translation=MNKLIYYFGNNGSDGNASMNNILGNKGAGLAEMSNLKLPIPNGFTITTELCNYFYKHNNNFPKNFQNELQQAISKLEVTTGKIFGSTTSNPLLLSVRSGSTVSMPGMMDTILNLGMNNEVCNALADACGNKLFALDSYRRFLEMYGSTVLSIPSDLFEQIYENHKIQADIYKDSDITVELLEKIIDDFKRLHIKYDKQLINDPYEQLESAIKAVLYSWKNNRAIIYRKLNNISEDFGTAINIQEMVFGNLGKTSATGVAFTRSPSTGEKKLFGEFLINAQGEDIVSGTRTPMPIIANDSNSMQAMMPEVFKELSQIAKKLEEHYLDMQDIEFTIENNKLYILQTRTAKRTAIAAINIAVQMVKEKLISKEQALMRIDPESLNQLLHTRIDYSKGLTSIAEGLPASPGAATGIVVFSPYDAEKLSHHHKVILVRHDTSPEDINGMHVSSGILTIRGGMTSHAAVVARGMGKPCVCGTNNLSIDEQKQILIAGDIVIKQGDIITIDGGSGKIFLGEMPLIQPTFSEESKLILDWADEISSLKVRANAETVNDALVSIKFGAQGIGLCRSEHMFFDKNKIPLVREMIIAPDIERRQCALQKLLPLQTEDFKSLFRVMKNKPVNIRLLDPPLHEFLPTTEEDKKNLANSLNLPLSMIHQRLHAMHEVNPMLGHRGCRLGICLPEIYQMQIEAIFTAIFELHKKEHIESNLELMIPLISNVAEIKKLKMYIYEVVQELEQRYSYKFSFTLGTMIELPRAALESKKIAKEVDYFSFGTNDLTQTTYGISRDDIASFLPYYLEEKIFESDPFTTLDEEGVGELIEIAIKRGKSSNANLKLGACGEHAGNPTSIAFFHKANLNYVSCSPYRIPIARIAAAQAKIKQGS;locus_tag=LOCUS_1140;gene=ppdK;EC_number=2.7.9.1;note=WP_004597734.1 pyruvate%2C phosphate dikinase (Rickettsia prowazekii) [pid:99.7%25%2C q_cov:98.0%25%2C s_cov:98.0%25%2C Eval:0.0e+00],MGA_115
sequence1	MetaGeneAnnotator	CDS	163975	164643	.	+	0	ID=MGA_116;product=glutathione S-transferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597733.1;translation=MKKLYHNPICPLSRQARFFLKELDIEFTTIKEDYWQFNKDFLKINPAGTLPILEESYGLFVVGIYPFVEYLNNKYPNFNFLDTDIDICCEIRRLFFWFNNKFYFEVTKIIIDEKVIRSISKMSSPRTEFLRAAKNNLNYHLEYITSLLEKRSYLVSEFLTIADIAASCHLSVLDYFGEIYWDKWALVKHWYSLIKSRPAFRLLLQDRIPGFIPPSYYTDLDF;locus_tag=LOCUS_1150;note=WP_004597733.1 glutathione S-transferase family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-130],MGA_116
sequence1	MetaGeneAnnotator	CDS	165186	166052	.	+	0	ID=MGA_117;product=DUF1189 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597732.1;translation=MYLLSFILGGLNTLLRQLRLSISSIDFYKDVYKNYQGYGIKYLFTLSFIPSIIYCIFILNYIITLKDYFNGTSSSKVTDNIEYIINQLPKIKYNNSKISVEEVEPIYLYSKNNNKIFVIDTKNQVSNQEKSKVPFVLEENKLKINLVSNTKKHFPSIVNYSEIFKQNEVILTPEIIKKYFADNLLYAPNLFIFFGTPVIILFWFVTFLLERSIIVLLVYGLANLLTTKTSIQTSIRLVMFSSGIPIILQPVIIILIPELSILIQLLQMFTTFLVFVAILQINKSLSHI;locus_tag=LOCUS_1160;note=WP_004597732.1 DUF1189 family protein (Rickettsia prowazekii) [pid:95.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-150],MGA_117
sequence1	MetaGeneAnnotator	CDS	166192	166398	.	+	0	ID=MGA_118;product=Rrf2 family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599093.1;translation=MVGIMILKIKEIYTVMAILELATNISNGPIILDKVSIKHNISLNYLAQIFSKLKKSDLVKSIIESKDC;locus_tag=LOCUS_1170;note=WP_004599093.1 Rrf2 family transcriptional regulator (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:94.1%25%2C s_cov:100.0%25%2C Eval:1.9e-28],MGA_118
sequence1	MetaGeneAnnotator	CDS	166459	167589	.	+	0	ID=MGA_119;product=cysteine desulfurase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597730.1;translation=MIYLDHNATTFIDPRVKEYIISLMDKELNPSSAHTSGRFAKNIIETARSQIATSLGITMSREYNITFTSSGTESNNLIMKNFYDGDIFISAIEHLSIYNHINYAPNIKIIRVNKQGLVDLEHLEDLLSQSNASKKLVSVMIANNENGVLQDIAAISKITKKYNAKFHSDLVQSFGKISLNIKELGLDFATISGHKIGGGHGCGALISNSNFQLIPIIIGGGQEKSVRSGTENVLAIAGFGLAAEFRRKDISKNYIKIRYLQERLEQKLKEYSNVNIISNNVARLANTTLITVDNTDAQVKLIGFDLRNICVSSGSACSSGKISKSHVLTNMGIREEEARSSIRISLSHTNTISDIKAFIKAFEEIYEYKSSCNHCI;locus_tag=LOCUS_1180;note=WP_004597730.1 cysteine desulfurase family protein (Rickettsia prowazekii) [pid:97.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-204],MGA_119
sequence1	MetaGeneAnnotator	CDS	167667	167981	.	+	0	ID=MGA_120;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNQQLKNLTLPIYMDYQSTTPIDPRVMEAMLPYFTTKFGNPHSRSHSFGWEAENAVENARSMVAKVIGADSKEIIFTSGATESNNLVIKGIAKFYGNKKNILSP;locus_tag=LOCUS_1190;note=WP_004597728.1 IscS subfamily cysteine desulfurase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:95.2%25%2C s_cov:24.1%25%2C Eval:3.2e-52%2C partial hit],frameshifted%2C insertion/deletion at around 167960,MGA_120
sequence1	MetaGeneAnnotator	CDS	168131	168898	.	+	0	ID=MGA_121;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MAVNNEIGVIQPLKEIGKICRERNVFFHSDIAQGFGKIPINVNECNIDLASISGHKIYGPKGIGALYIRKKPRVRVTPLINGGGQERGMRSGTLPTPLIVGLGIASEIAYNEMEKDTQHVNYLFDRFLNNIHSKISEVYLNGDKDQRYKGNLNLSFAGVEGESIILAIKDLAVSSGSACTSASLEPSYVLRSIGISEELAHTSIRFGIGRFTTEQEIDYAVNLVCSKIDKLRRLSPLWEMMQEGVDLKKIRWTAH;locus_tag=LOCUS_1200;note=WP_004597728.1 IscS subfamily cysteine desulfurase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:62.2%25%2C Eval:2.7e-144%2C partial hit],frameshifted%2C insertion/deletion at around 167960,MGA_121
sequence1	MetaGeneAnnotator	CDS	168964	169359	.	+	0	ID=MGA_122;product=Fe-S cluster assembly scaffold IscU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599506.1;translation=MAYSKKVIDHYENPRNVGSLDKKKKNVGTGLVGAPACGDVMKLQIEVGDDEIITDAKFKTFGCGSAIASSSLVTEWIKGKSVEDAKEIKNTEIAKELSLPPVKLHCSLLAEDAIKAAIADYKQKRENKKDS;locus_tag=LOCUS_1210;gene=iscU;note=WP_004599506.1 Fe-S cluster assembly scaffold IscU (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-70],MGA_122
sequence1	MetaGeneAnnotator	CDS	169363	169695	.	+	0	ID=MGA_123;product=iron-sulfur cluster assembly accessory protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597725.1;translation=MKNVISLTDAAAKQVKLLIEKRAKPTFGIRVGIKSGGCAGQTYYVEYADNKNQFDEVVEEKGVRILIDPKTLMYILGSEMDYVETNFKSQFTFTNPNEKANCGCGKSFSV;locus_tag=LOCUS_1220;note=WP_004597725.1 iron-sulfur cluster assembly accessory protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-58],MGA_123
sequence1	MetaGeneAnnotator	CDS	169865	171154	.	+	0	ID=MGA_124;product=amino acid permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599503.1;translation=MSQKLSFWAVFALVTGSQIGTSVFILPLSLAPFGVYSIWGWILSLFGAMSIALVFSCLCTKFPKTGGPHVYVRASFGDTIAFFTGWTYWIISFVSTSIVVISAIGYLTPFFKSQTILDLILQLILLAAIAILNLKGPKIAGKVEFYLTLLKFVPLLVVGLAALFHFNIDNIVIAKEVENFTIPTIMGRVALLTFWGFIGIECATTTAGTVKDPAKTIPRAIIIGTCCVAFLYIINSIGIIGLIPASELINSKAPYADAATLLFGGTWSKVITVIASVICIGTLNAWVLTSGQIALGLAEDGLLPKFFAKKNSNNAPTYGIIISCLGITPLLLFTSNNNFAKQITQIIDFSVIAFLFVYLICSLAFLKVIFSSKENFSYYYLFVAIISIIFCTWVIYKTPFETLIIACSFTILGIPVYYGWYRLMNRIKL;locus_tag=LOCUS_1230;note=WP_004599503.1 amino acid permease (Rickettsia prowazekii) [pid:96.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.3e-238],MGA_124
sequence1	MetaGeneAnnotator	CDS	171237	173012	.	+	0	ID=MGA_125;product=aminopeptidase P family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599501.1;translation=MRHDRINLLRKLFIEYNIEGYIIPSNDKYMNEYVPEYAKRLEYITGFTGSSGIAIICKDAAFFFTDGRYLEQANKELDLAFYKIYDLKEIYKTLDKNIKIGYDPQLFTYQVLANLNINFHKINENLVDKIWYNKPLEPNSKVYLHDIKFAGVSHNDKIRKCRETILSSSSVTVGCNKNNDDILVILDSASICWLLNLRASDVNYTPLMFAKVILTSTKLYLFINPIRIDTEIINARPEITILPEKEFENILRDSKNRYLIDDSITSVHIMDLIANKKVKKIVEPCLLAKACKNDIEIKHAIDFHIKDAVALCEFFAEFFLYHSSENVNSCFHSHEIITEHSLCLKLTAQRAKQEGYVSDSFHAICGFQENSAIIHYRANPKTAKKIEGHGILLIDSGAQYKGATTDITRTIIVGIPTCEQKKRYTQVLKGHIALTRAKFPKNIVTGANLDILARQYLWQDMIDYPHGTGHGVGSFLSVHEGPQSINLSNKIILKAGMILSNEPGFYIPGKYGIRIENLIYVKENNGWLEFETLSLVPYASKLIDVALLNIDEINYIKEYYNKIRAKIYNLLSTQAKYWLNYEINLFLQSLL;locus_tag=LOCUS_1240;note=WP_004599501.1 aminopeptidase P family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_125
sequence1	Aragorn:1.2.38	tRNA	173063	173137	.	+	.	ID=Aragorn_8;product=tRNA-Gln;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0080;note=Aragorn_8
sequence1	Aragorn:1.2.38	tRNA	173187	173263	.	-	.	ID=Aragorn_9;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0090;note=Aragorn_9
sequence1	MetaGeneAnnotator	CDS	173282	174265	.	-	0	ID=MGA_126;product=polyprenyl synthetase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597722.1;translation=MNIIVKIQQNLKDEVTQLNDLIISCLKSDAELIEKVGKYLVEAGGKRIRPLLTIITAKMFDYKGNNHIKLASAVEFIHAATLLHDDVVDNSTLRRFKPTANVIWGSKTSILVGDFLFSQSFKLMVASGCIKAMNVLAKASVIISEGEVVQLVKLNERRIITIDEYQQIVKSKTAELFGAACEVGAIIAEQVDRVSKDVQNFGRLLGTIFQVIDDLLDYLGSDKQVGKNIGDDFLEGKVTLPLIFLYHKLEQDKQLWLENMLKSDKRTKDDFVKIRDLMLKHAIYNETVNYLSSLENEANNLLNKIPVQNIYKYYLFSIIRFILYRSY;locus_tag=LOCUS_1250;note=WP_004597722.1 polyprenyl synthetase family protein (Rickettsia prowazekii) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-180],MGA_126
sequence1	MetaGeneAnnotator	CDS	174343	176007	.	-	0	ID=MGA_127;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886304.1;translation=MKKILIIILFIIIFIVLIYSGLWFVIMFSLSHSINQKYSGVHLNIGKGNNNPHQQYLVKFSKVQPYGFPFKLGIMVINWQEESINRAIEFTKPINIGYDLLGQKLFINFSGEALGKFKPVQRGFGVKFYNENCILSAKIPLNLKLFKMVLLKKNLFEFLNLIENIKFISDKTQIFDLVDNQKLYEEDHTILTMLVDKRQYYTSKQDFLNNIPQKLEFYYETEIIQSNLEDRIIPAGLLLYRPAWNNNFKFSGNFLISTSSLHFKDIAKDLTIKVNNAKINSNNFENNMNLLYKGKLNDFGNSNIHLSIESQFKLKPGFIIGFLEFLKKNYDKQTYLLKFSDNKIYKNFNNELVYILNNNKPYNFSILEDRPYHFNFNINLVTELKKLTRVQINTLSLYSNTSGFNITNETIINDLKDSYTKGIIVINNYSKIIEILSFYIYGVGSFKNLSKESQIVHIEALQSFLKTISDHPNSSNLIDTSIKYEFNLSDLNKAKIGNIDDINKLIPLYYLSLYQAAVKKMEPGANVKEKILELIPSINQKILEECVLSDIVTQ;locus_tag=LOCUS_1260;note=WP_010886304.1 hypothetical protein (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:98.0%25%2C s_cov:98.0%25%2C Eval:4.0e-313],MGA_127
sequence1	MetaGeneAnnotator	CDS	176111	177616	.	-	0	ID=MGA_128;product=nucleotide exchange transporter Tlc3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599498.1;translation=MLPPKIFFEKVKEIIWPIERKELKLFIPMALMMLCILFNFGALRSIKDSLVVPSMGAEIISFLKLWLVLPSCVIFTILYVKLSNKLNFEYIFYSIVGTFLLFFLLFAYIIYPNQDIYHPNDAMINNLIASYPNLKWFIKIGSKWSYALMYIFSELWSAVVINLMFWQFANHIFDTAKAKRFYPVLGMVGNIGLIIAGSVLVFFSSGQYIIDSELLTDSYNSSSNNSIMLQPIISIIVTAGIIAMFLFRIINKFILTNSINVLDVKKVAAKTKTKLALIESIKLIIHSKYIGRIALLIICYGLLINIVEGPWKAKIKELHPNTVDYVNFMGMFNIWMGISCVTFMIIGSNILRRLGWLIAALLTPIMLSITGFMFFIFIIFIEEIGTCFGDFNLLYVAIIVGAIQNILSKSSKYSLFDSTKEMAYIPLSLELRTKGKAAVEVIGTKFGKSLGAFIQSLIFIIIPTATFDSIIIYLLVIFIVMMNLWIWNIIKLNKEYIKLCQ;locus_tag=LOCUS_1270;gene=tlc3;note=WP_004599498.1 nucleotide exchange transporter Tlc3 (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-276],MGA_128
sequence1	MetaGeneAnnotator	CDS	177685	179154	.	-	0	ID=MGA_129;product=glycosyltransferase family 8 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597718.1;translation=MHKNTNCIMDIGTYSYKKFYSTIREDQLNLDLALERLEDIESLNTKDKSRLEKICSFQVEDGMVRLDVAKGYDCLLRFALDKNANLVQQYKAIKNGSYSLDTLYTKTAAFNLATLIISGYKEKVKEIFELKNDDDLLKYYSGYTEDEVPFLKGLISLNIPELTARCLYRLSLIHILGRSSFNEKTIRTDYKLAIKEIQNVIKLTGIKQNNILDIALTINDKYAIHAAAVIASSLLNSDLDSFYRFHIVMDSNDPISQESINKLSSMQYIRDYSIDFTTFPDNILNKALTYKEIKFSNNWPSLVMYRLYFDKIFPNLDSILYLDADIVVLRDLNSLKKIDMNNYIAACSLDTAITYCIHKVQEECKRNVAHSYKNSGIVFLNLKNMREKQYNNILLETLKNSKCDFSFPDQDLLNVAFQNYLYPLSMRWNFCTYFEHQSPYFSYFILHYAGPKPWTTEKEELWKTNHDKLDKITQYYWRYREITPWNSIN;locus_tag=LOCUS_1280;note=WP_004597718.1 glycosyltransferase family 8 protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-289],MGA_129
sequence1	MetaGeneAnnotator	CDS	179660	181018	.	+	0	ID=MGA_130;product=AmpG family muropeptide MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599497.1;translation=MLKSAYIKFMLKNSHIYIIWLFGFISGFNVMITGNTLNYWFAKKDIALQTIGMLSFITLPYSINFLLAPVFDTVQIKYLNKILGHRLSWICLTSTTLISLIFILSFLDPSTDLVLLSFIAFIISFFSAAQDTILSALRTKIVPKESLGFTSGIYILGYRVGMLLASSGAIYLSIYLTFNAIYKIFAGVIFVYLILLILVARYTNSFDVMEENTSYSYVARCYAIADMNLKNKFFIKNYFNYFKNFISAYLLKIFSGFYFHRNDINLAYYIILILIFLVLYRLPDNLINVMINPFLLHLGYNAFEIASVCKFCGVMGAIIGGLIGGIIMKYKNILYSILLFGIIHALSHIFFILLEINGKNSLILFITIGVESITGGMTMTAYIAFISSLCQGKFRATQYSLLSSMMGISRSIFPIISGYMVVNFGWQNFFLFTTIITIPSLLILLKIKTKIN;locus_tag=LOCUS_1290;note=WP_004599497.1 AmpG family muropeptide MFS transporter (Rickettsia prowazekii) [pid:90.5%25%2C q_cov:92.7%25%2C s_cov:94.6%25%2C Eval:1.5e-211],MGA_130
sequence1	MetaGeneAnnotator	CDS	181333	182142	.	+	0	ID=MGA_131;product=palindromic element RPE1 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597715.1;translation=MKSVLLTRNIQENNETIQEINKYNLDLRYIHCSLIKYKTLDFNINILNNYSNIIITSKYAAHILADYNLKQDIWVVGNKTKQLLGKKVIYTANNIADLIQHFPTDLYKHTIYLSSNEITQDLPNKIARHIIYNVEYLNELPISIIQEFENIRYFSKPAYRNAFKANTIRATTAYKKVFNDPSLGSTYPLEVPLGKMSIDFILLYSQNSAKTLVRLLLQNNLLQYLQDSLVIAISLKVANIVRPFIKNVVYCDNQSPHDIIKLLYENAKI;locus_tag=LOCUS_1300;note=WP_004597715.1 palindromic element RPE1 domain-containing protein (Rickettsia prowazekii) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-145],MGA_131
sequence1	MetaGeneAnnotator	CDS	182129	182824	.	+	0	ID=MGA_132;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599496.1;translation=MQKFDSLFRSQNIFFIAIVIFILSSVILYHNRSDILKLFTTEYKGLNQITNQEKENKENAILDEKEYETLLSTKSLLNYVNSLKSSKTSIPDSEAIIHESVEVTDNIVEVPIRYTHYLLNVNLLVYNFIQDKDYSKELRILKSYPLPQNIRNILNNLEKYNNNYLVSKSNSTVVIFPIHHKWLEQLIKIEKKSPVMIVKEQDKTLILEKLNYLIYFLYSEKFMQEFVNKDV;locus_tag=LOCUS_1310;note=WP_004599496.1 hypothetical protein (Rickettsia prowazekii) [pid:96.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-121],MGA_132
sequence1	MetaGeneAnnotator	CDS	182817	183821	.	+	0	ID=MGA_133;product=heme biosynthesis HemY N-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886302.1;translation=MFRLLLICITFLALYFGFTFIKHFDSKVVISLYDYNIETTLFLSVILGLLLLVSCFIIIRFLIIIIDLPATIHIMFSKRKINHDRHAVILAFAEYIIGNKMKAASIARKNLSSEDLKDFQEFHNFILAVTAEDIDSKISYFQKLITSKTFVFYASKNLAKLYYDKSLYDKAENYAIKAYNLNELDSDNLITLMHCYAKLSLWSKFIFITNKLAKFHKHEFVPKITQYYLLIAKQEVENNNTANAIDYLEKAIDLNFYNDELLEFYFNLNDKLSVNQKTKILKEAFRIAPSLRLVQLFKKITSLSDKQIYEELTQVLDTQKDKIFILAIEAYLEL;locus_tag=LOCUS_1320;note=WP_010886302.1 heme biosynthesis HemY N-terminal domain-containing protein (Rickettsia prowazekii) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.5e-182],MGA_133
sequence1	MetaGeneAnnotator	CDS	183952	184668	.	-	0	ID=MGA_134;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597710.1;translation=MPQIYFNGPEGRIEGRYAKATSPNAPIALVLHPHPLYEGNMNNKVVYNAYKILVDNGYTVLRINFRGVGGSQGKFDNGVGEVVDAGAALDWLQQNNPNAQSNLILGFSFGAWIAMQLVMRRPEINHFLAISPPVNTIHKYDFSFLAPCPIPGFILQGDNDSIVSADDVKDLVNRLSNQQSHIKIDYKIINGADHFFRYKTEEFSKAINDYLITIQSNYHHHNNINEDKSKNQKKLFLY;locus_tag=LOCUS_1330;note=WP_004597710.1 alpha/beta hydrolase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-139],MGA_134
sequence1	MetaGeneAnnotator	CDS	185031	185471	.	-	0	ID=MGA_135;product=host attachment protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597708.1;translation=MVGTALLKLIAVIDSKHMMLYDALGIKITTNKPLKLTLDLEEHHHHREKRQSLYQNKSTPGSLFEPHTSLKDIEHKEAARSVIKHLEKVTTANQAKYKELIIIAEPKMLGCVRQELTSGLKKIVTKEIAKDLVQHNVDAVERAVFA;locus_tag=LOCUS_1340;note=WP_004597708.1 host attachment protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-77],MGA_135
sequence1	MetaGeneAnnotator	CDS	185538	186116	.	-	0	ID=MGA_136;product=lysophospholipid acyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411708.1;translation=MWLAKICCGLKYEVEGLEKLPKTTSIVISNHQSFWDQMFMQLIIPKHSWVLKRELFNIPLLGWGLRMVKPIAVDRGTNSSVAQILREGQAKIKEGLWLIIFPESTKVPPDKTVKFKPSAVKLASVTRVPIVMIAHNAGLFWPRGFWFQQPGTIRVKIIGVIDKAEVEQTDVRILNEKVEQIINSEKQKLLNY;locus_tag=LOCUS_1350;note=WP_014411708.1 lysophospholipid acyltransferase family protein (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:79.3%25%2C Eval:5.5e-108],MGA_136
sequence1	MetaGeneAnnotator	CDS	186344	187336	.	+	0	ID=MGA_137;product=tryptophan--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597704.1;translation=MKKTVLSGVQTTGALHLGNYLGSIRNWIKMQEEYNCFFFLADLHAITIDIKTSELNDAIMEVLAIYLAAGLNPDKVTIFAQSMVKEHVELSWLLNCVTPLGWLKRMTQFKDKAGSAQCKACLGLFAYPILMAADILIYKADIVPVGEDQKQHLELTRDIAEVINRRFDKEILKVPDILISETGTRIMSLRNGLKKMSKSDISDFSRINLKDSNDLIHQKIKKAKTDHLSFISYNKKTRPEISNLLDIYKSFSKESIEKIIDNYQNQGFAKFKEDLAEIIITNLQPIRNKCLELMNDKEYLLKILHKGAQKARIRASETVNEVKKQFGFII;locus_tag=LOCUS_1360;gene=trpS;EC_number=6.1.1.2;note=WP_004597704.1 tryptophan--tRNA ligase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-186],MGA_137
sequence1	Aragorn:1.2.38	tRNA	187395	187484	.	+	.	ID=Aragorn_10;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0100;note=Aragorn_10
sequence1	MetaGeneAnnotator	CDS	187839	188738	.	-	0	ID=MGA_138;product=hydroxymethylbilane synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597702.1;translation=MINSIRIGTRNSTLALIQTNLVIEQIKQIFPDINCEIVPIITSGDLIQNKPLYDIGGKALFLKEIEQALLDKKIDLAVHSLKDIPGKIPVELVIAAVLEREDPRDVLVCLNYQSIETLPQNAVIGSSAVRRKAFIKKIRPDLNIKVFRGNVDSRIKKLMTGEVDAIILSYAGLKRLNVFNQKYCHLIEYSKMLPCIGQGVIAVEIRKDDNAMFNICSQINHLPTFELIKPERAFLEYLDANCSTPIAAYAQYLDAYNIQIDFMLGNLDCTKIIFQTEITNIKTSKICGIKAAKMMLAQQ;locus_tag=LOCUS_1370;gene=hemC;EC_number=2.5.1.61;note=WP_004597702.1 hydroxymethylbilane synthase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-167],MGA_138
sequence1	MetaGeneAnnotator	CDS	189857	192622	.	-	0	ID=MGA_139;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599494.1;translation=MPNIDLLIFTSFLVINLLFGLLNIKNIKNNREYAVGERNFSTGTIVATLIATWIGTSTFLIDNSIIYPDGLFYLLPSIFGSVVSWLLMSYFIAPRFENFLGSLSVAEIIGAAYGNKVRILTSIVSILMSIGRIAMQFHVAGLILQLFFNISNFYINLCIATVIISYSAFGGVKSVTFTEAVQFFTYSAIIPVIGIIIWNVFSDPYIVINSNVQNHLIDLQGLFHCTSPKFWIALNIFIYFAIPSFGPSIFQRILMAKDTKQISHTFFIAAVICLCWSILFIWITILLFSQNSVIETNELFLRIIKSYIGFKGLIVGVVMAMIIASTNSDINVAAVTFTNDIIKKASLHYNYITAIIIGLIGFIISLYTQDLINLFLLLTSIYLPLITLPLILLIYGFKSTTKSFFISTIAAIFTIIAWQIFSLRTVLGIYPILPATIVTLIFFLGRHYILKQPGGFIALKEPLSVKIIRQERKRKFLTLFRDIKNFNIFKYWKSTLPNQEITYSHVGIFILISMFSSLYTISGSRIMTHFAIYNIIYHTTLIAASILITYPLWSLKFKKNYIISFSWFIATFVILIFFGSLLVILSNFDQLQLMCLVINSLIIATIFRWQATLLMTVTGVFASIEFYKYFIDEKLLISIDSFQFKVVYFLILFSSLLIVFLKPRQDQEILINLKNTHLGNRVNYREQELEKLLDLKHEFLRNINHEINTPLTGIISLGETLWANYDKFNEDQRRNAVEVIAKSSIRLNSFINNILDFSKLSSLNYELNKNYINLSELLYERIKICKKLYLNGKTLNFVFDIEENIIFNCDPHYIKHTFDNLIINAISYCSEGTIKIDLQKQTDSILFMIKDDGIGVPKEELPNIFGVFVVSSKTRTKAGGRGVGLALCKKVIELHSGKIWAENDKQGKTHFIVTMPLNTPL;locus_tag=LOCUS_1380;note=WP_004599494.1 ATP-binding protein (Rickettsia prowazekii) [pid:96.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_139
sequence1	MetaGeneAnnotator	CDS	193578	194435	.	-	0	ID=MGA_140;product=folate-binding protein YgfZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597696.1;translation=MYEILINREIIKIIGLDSLIFLQKLITNDICKKRYCYTYLLNNQGRYLFDFFVYVHKKEEIYIDIDKSNKTALIAHLNFYKLRSKIQIIDCSEEYKVIYSHKKLDIDMLITVRDPRYTKLGFRSINKLDITCSSDNMANMESISSITSYCQSMNPIYLEDKYNFAIIDGIEDLITDKSIPNMYGAEELNAISFEKGCYVGQEIISRTKYQGVIRRKVYRITANEDLLSLVQDDVILADNEKIGVICSSYQNKGIALIMEKKYHDYKTYNITVKGIKINLSLAPWY;locus_tag=LOCUS_1390;note=WP_004597696.1 folate-binding protein YgfZ (Rickettsia prowazekii) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-160],MGA_140
sequence1	MetaGeneAnnotator	CDS	194552	195343	.	+	0	ID=MGA_141;product=RMD1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411744.1;translation=MSDLVTNLKKIGLEPQHFDDVLYLRKEINKDSDFIEVFFFPFGCVTIWGGDEIQEKIILSNTDLVRVNKLKEHLSDYIYFEYNTDVEKTFIDEEKNKIILADQSIFAKLSISHALAQSVKLSVLEQSVSNLIVQTTPIQQELARTGSVSLSKKEILQQIGILFNERYSISLHSDIFDTPEFFWRRPSYEPLYLMTAEFQDIEIRQNIMNHRLNMIQELLDILSNDLNYKHSTKLEWIIIILIGLEVILSLSHTNLFLKIIGAL;locus_tag=LOCUS_1400;note=WP_014411744.1 RMD1 family protein (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.3e-144],MGA_141
sequence1	MetaGeneAnnotator	CDS	195357	196202	.	+	0	ID=MGA_142;product=ribonuclease D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597692.1;translation=MQIIDKQKTLEEFCNKLANHTSLSIDTEFERRYTYYAQLSIIQVKAEGYCGIIDTLSNLDLNIFNKLLIDNNITKIFHAPREDLEIFYNLFKTLPSNIFDIQIAASICGFGQQLSYDNLCYKLIGITIDKTHQKSNWLKRPITNDMLNYAILDVEYLYKIYKELNNIIISNNLTHKYQHTLSALLDVRNYKVELKDAWKKIRYKSDDENFNRTIQVLAAYREENAQTINIPRKHFILDEDLIKLCKNMPLNYKDFKNLKLKSKYLHKKKYKDEIINLFNNL;locus_tag=LOCUS_1410;note=WP_004597692.1 ribonuclease D (Rickettsia prowazekii) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-157],MGA_142
sequence1	MetaGeneAnnotator	CDS	196323	196841	.	-	0	ID=MGA_143;product=5-formyltetrahydrofolate cyclo-ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597691.1;translation=MTKQELRFYFKDLLIKKQDKINSNLVKDSLITKINWLLKKLRVKTVGLYYPLKYEINLLAIINLLPEIKFFLPKIKNEIRYCAYNFNDALVLGKCKTYEPINNNFIIPELVIIPGLAFSKDGYRLGYGKGYFDQYLNNHQNIFTVGVCLKEQLIDNFPIESHDYKLDLMISV;locus_tag=LOCUS_1420;EC_number=6.3.3.2;note=WP_004597691.1 5-formyltetrahydrofolate cyclo-ligase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.5e-97],MGA_143
sequence1	MetaGeneAnnotator	CDS	196926	198305	.	-	0	ID=MGA_144;product=dihydrolipoyl dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597690.1;translation=MQEFDLVVIGSGPAGYTGSIRAAQLGLKVACIEKNDTLGGTCLNIGCIPSKALLNTSKKYEEAIRHFDSIGIIADIKLDLQKMLSNKDKIVLDLTKGIESLFIKNKITKIKGEAKIISNNIVEVNKEQIKAKNILITTGSSVIEIPNITIDEEFIVSSTGALKLSKVPKHLIVVGGGYIGLELGSVWRRLGAKVTVVEYASSIVPMLDKEIAKQFMTIQQKQGIEFKLNTKVIASEVKSGKVNLTIEEWDKRSIITSDVVLIAVGRKAYTKNLGFESVGITTDNKGRIEINERFQTAVSNIYAVGDVVKGAMLAHKAEEEAIAAVEIMVGQAGHVNYNLIPSVIYTYPEVASVGATEEQLQEQGINYKVGKFPFLANSRARAIGSTEGMVKILADSKTDRVLGAHIIGSDAGTLIAELIAYMEFGASSEDIARTCHAHPTLSEAIKEAALNVDKRTINI;locus_tag=LOCUS_1430;gene=lpdA;EC_number=1.8.1.4;note=WP_004597690.1 dihydrolipoyl dehydrogenase (Rickettsia prowazekii) [pid:99.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.5e-254],MGA_144
sequence1	MetaGeneAnnotator	CDS	198432	199112	.	-	0	ID=MGA_145;product=methyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597689.1;translation=MIDKSSADILEISAKCGYLTGLLKNVYRSANIIVTDMSPLLLDSFDHNHKLLIDDENLEFQKDSFDLIIYSLGLHWINDVQRFLYNIRTFLKSDGIFIGNFVGGDSLKNLRKSLIDNEIASGFKHSPHISPFIHFDHVPMLLLHAGFSEVIVDYENIALKFENPIVLMKEIKNIGESNALNSQHNYAISKKMFSLLKNYINVFEDNITLISFIAAPNKNSLRLKLL;locus_tag=LOCUS_1440;note=WP_004597689.1 methyltransferase domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-126],MGA_145
sequence1	MetaGeneAnnotator	CDS	200654	201145	.	-	0	ID=MGA_146;product=DUF2532 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599491.1;translation=MNIKLVTYFLILVSSLKVNADLNHIQDSFKYQEAEQLTIELPWNDCTAIHKFLEEKLFFSEQQIKKENKIHEKYKQFYLQHNNKLSDFSMQFLEKKSEINSVETLISGFLKFCEDNFQTSKSKSHSLNFFQKQQDQWLHNIRNENYKTYYKKKYEDNTFRNIN;locus_tag=LOCUS_1450;note=WP_004599491.1 DUF2532 domain-containing protein (Rickettsia prowazekii) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-90],MGA_146
sequence1	MetaGeneAnnotator	CDS	201151	202023	.	-	0	ID=MGA_147;product=lytic transglycosylase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411705.1;translation=MLSLFLPHKISYDKIFILRNSSYFKVNGMVRQYILFHKYTIIGYFLNNVIKPRDNTRQVVLRFILLLLSFCFFPNHTIADPEISESLKCSQLFPYFEKKFNIPSNALYSIALKESGKKHSTRKIKVVWPWTVNVEGKGYYFNSKREAINFVRIELIKGRDSIDVGCMQINLRHHLEAFNSLDQAFDPHNNIRYGAEFLRSKYDQLGSWHKAIAHYHSANHALGVKYKQDVIKIASNMALYKALLFSYLDNNEEALADIMHVNNKVQKKTLFSSNKRYRSSIMIPIPTKIN;locus_tag=LOCUS_1460;note=WP_014411705.1 lytic transglycosylase domain-containing protein (Rickettsia prowazekii) [pid:99.6%25%2C q_cov:83.4%25%2C s_cov:100.0%25%2C Eval:9.4e-139],MGA_147
sequence1	MetaGeneAnnotator	CDS	202339	203097	.	+	0	ID=MGA_148;product=YebC/PmpR family DNA-binding transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599489.1;translation=MAGHSKFKNIQHRKGAQDKKKSKVFTKLIREIVTAVKTGASNVPENNPRLRKALNAARSQNLPKERIDKAINSANDASNNESYMEIRYEGYAPNGIAIIVEALTDNKNRTASEVRSSFTKYGGILGETGSVNYLFNHCGVIQYPINIASNEDIFEAAIQAGGNDIISDYITHTIYTDIENFYKALGFLTDKYGIPEDSYIGWIPVNTIIIDDKEKAKKLLKLIAVLEENDDVQRVFGNYMLSEDVYEIIQEE;locus_tag=LOCUS_1470;note=WP_004599489.1 YebC/PmpR family DNA-binding transcriptional regulator (Rickettsia prowazekii) [pid:96.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-135],MGA_148
sequence1	MetaGeneAnnotator	CDS	203097	203846	.	+	0	ID=MGA_149;product=NTP transferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599488.1;translation=MIHNDANYQIIILAAGKGTRMESDLPKVMHKVGGVPMLETVLRNSLKITHDVIIVYSEALKKYLTPYENMCRFVLQAEPKGTAHATHAAIDLIDQNKIILVLYGDHPLITPTLMHELIDCLNIINAALVTLSFERSNPAQYGRIAIDKNGNFLEIIEYKNASEEEKKIKLCNSGIMAFSSGILNKYLPLLVSNNTHCNQEVYLTEIVKICKNHGEKVSYLLSTDHDLIVGINTQSELEEANNILSQNKS;locus_tag=LOCUS_1480;note=WP_004599488.1 NTP transferase domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-140],MGA_149
sequence1	Aragorn:1.2.38	tRNA	204066	204153	.	+	.	ID=Aragorn_11;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0110;note=Aragorn_11
sequence1	MetaGeneAnnotator	CDS	205611	206639	.	+	0	ID=MGA_150;product=type 2 isopentenyl-diphosphate Delta-isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599487.1;translation=MPKEQNLDIERKQEHIEINLKQNVNSTLKSGLESIKFIHNALPEINYDSIDTTTTFLGKDMKAPILISSMTGGTARARDINYRLAQAAQKSGIAMGLGSMRILLTKPDTIKTFTVRHVAPDIPLLANIGAVQLNYGVTPKECQYLIDTIKADALILHLNVLHELTQPEGNKNWENLLPKIKEVINYLSVPVIVKEVGYGLSKQVAKKLIKAGVKVLDIAGSGGTSWSQVEAYRAKNSMQNRIASSFINWGITTLDSLKMLQEISKDITIIASGGLQSGIDGAKAIRMGANIFGLAGKLLKAADIAESLVLEEIQVIIEQLKITMLCTGSCTLKDLAKAEIMW;locus_tag=LOCUS_1490;gene=fni;EC_number=5.3.3.2;note=WP_004599487.1 type 2 isopentenyl-diphosphate Delta-isomerase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-190],MGA_150
sequence1	MetaGeneAnnotator	CDS	207231	214253	.	-	0	ID=MGA_151;product=autotransporter outer membrane beta-barrel domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886297.1;translation=MKKSKILRKFLATASLCGTLFTNSNATGTIIPNNGSVSLNTGAGLVGGVFNNGDIIQIVNGGREIKISADKANAIIGGINTLKELPDFGGVEVSQNDSIGPLNAGEDLNTNFGPLKFISNNVTSIITGVGTKTFSNIDFAGKNATLQINKDLNITTKIDNTVAGNNGSITFEGSGIISNHIGYTNSLLGINVGNGEAKIYAPEANNITINAKNINLTHNNSILTLCDGNITTLKGNINNTTEIDGQGILNLAYDLGSSSIITGDIGNIGSLDTINVLLGSATFNSTILKATNINLKHNTSTLNLDDNIIVIGNIKGNNNKDILNFKVHGTNLDNEMIIPAPQKTHGTLNFKGNATLNGNINNLNILKFSGGHGKTLNLQGNTKVDNLVFADSVLDSGTISVNGLLDTDCVTFNNSNVNGGTLIINAKNTISAKLLNATKAKIQINANLTMNHPSAGDISDIRIADNTIYTIDAKNGNVNLLNNNAKIIFEGADSMLALINTGVTADRTFTIYNNLNQSGNDEYGIVKIEAIKKVITIANQSGPYTIGQDNTHRLKELIVEGAGDIIIDDTIFTKLLSINSTGQITFNRTLDLGAGGNIAFGKHGTLVVNGVTGSITTSENNQGILTINSGNITGVIGTNELGLKLVNIGADPVTCSANVFASVALTNPSSVLILADGVTLTGEVTTHNNTKGVLSLGTGSNITGQIGTNSAALEKINIGAGASNIDSNIYAGSTVLTDQTSELTLNNDVVVNSNIITTAGNNSGKLIFTGNGGITGNIGANGAALQEVVFNGTTNIGGTANSQNFTVAHSAANVVITGLTTGALKYKDTGTIIAHGGLVGDIDFNNKAGKFILGDGAMIDGSVLCNGGVAGTLDFIGDGNVTQNIGADNANSISTINIQGDNTKNVTIANDIFVDNIHFTNGGILQLGGNLTTHNIDFGANGGTLEFNGNNTYNLNAIIVNGQNGILNAFTNLKASDDTIGTVKIINIGQIGTPQNFTIQVNNKNLTLVSSVNSSINFGDANSQLILSAPVDQTIKFINNLNETGGGIITLDSNGNNLTISGNNGIKLGSKGNELSSLNIKGKVTVTNDLDIQNIHQLNINNGALFDDQSLTSAKIKNINIGTVAGGATYTLDAINDNFDLNTSGMVFKHQDSILELKNSSNTNDHTITLTSALDPGNNQFGIIKLITDTNKLTIDNNGNVAYTLGTANHMLKQLTFASIDNGAIALKVGINVENVTLNIKDIELNEVNANVLFNKNTTYTATGNINGHVDFQGNAGVINLNDDIEIDGSVTSTGNVNGTLNFNGSGKVTGLINNIVMLQAGAGDVSLSASGNYSITEIQGNGNNNLTFAANSHLTTDINKTGGQDLNLVFINGGSVSGSIGANAAVGDIIINAGSVNFSNTLKSGNIVISDGATMQVNNNVTATDISGKNANNGTLKLNNHTPINITSTLGNNNAIGTIEVANNDVTITGTLQAQNIHFSNATQAATLTLGAASQVTNITTAGNNIHTLEVTDFDTGNDGIIGDANNRLKSIELTGNGTVTINSPHVYSSITTANNAQGNVKLNIEGGITYDLGSKIKSLANVQISEDTTIRGDVYSKYLNIDAGKTINFDRGDNNMNPKNLDIPDALIDLDVLPRSLSLFNYFTDIKADNLNFADDTATANFKDAVVIDAHIDNGGILKFNDNAWLTQEIKNANIIEIASDKFMLLQKNIKAATLIADNANLVLLDNVEVNTNLNVRDIVLDLANYELKYTGNVTHNGLLTIITYFDTALQKGGHILVSQGSNVDMSDLDNLIIKIKAHSDITNITSDTKHQIVKLETGAIYTPVPQTKVIIDASEEQNKFVKWVADANGLVLLTDTGGRDDTGGRDDTRGRGNTDNGCRDNCDVGNISNNSSNEAGGSSSDKNYGITDVVPIFDPSPILDYTKNNYVASGIANQLINHVKDFGNTTDAGKLLNDLGFMSPNRVTETLDRLSNRINVNGLNEGVVGLNGIEVENFLTDIAINMDNFTAKEIGNRLEELSDANTVNGLNKTNTLLNNKINLKRLNTNNQAIIAAGDEDNIVTGIWGMSFYGKIKQNSKNSASGYQSNTGGGIIGFDYNIDNSIVIGAAYTMADSKVKHKNDKNGDRTKAKSNIYSIYGLYNWLTNNFFVEAIGVYGRNKIKNYEKRITTITDQIAIGKFINTFYSYELLGGYNYLISHRTTITPMFGMRYATFKNNGYKENNTTFQNLSIKKNYYDKFETILGLNSVTHYLSQDIIIKPELHWFINYQCKNKLPNIDARLDGIDEPLTTIRFKPAKITYNLGGGISTKNNMIEFGIRYNLSLAKKYTAHQGSLKIKVNL;locus_tag=LOCUS_1500;note=WP_010886297.1 autotransporter outer membrane beta-barrel domain-containing protein (Rickettsia prowazekii) [pid:97.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_151
sequence1	MetaGeneAnnotator	CDS	214785	217139	.	-	0	ID=MGA_152;product=endopeptidase La;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597677.1;translation=MNKKSLPLMALRDMVVFPGVIAPIFVGRKKSLQALSRTTISEENNSKYILVTLQKKFDQENPSKHELYNTAILAKIIQIVKLPNNTAKILIEAVARVKLSNIKDEEAFEANYEIIPDEEILDIHNMRSLVDNAVQLFSKYAMNDKKVNAEIIETINKEISNRTNFINIINILSSHLITSLETKQQLLEETNPVKRITTVITTLTSNIVNSETEHALQQRVRKQIEKTQRDYYLHEQMKAIQKELDEDKSELADIEKKIKSLKLSKEAKEKAESEFKKLRAMNQMSAESGVTRNYLETLLSLPWGKYDNSKIDINQAEKILNRDHFGLEKVKERIIEYLAVLQRSSKIRGPILCLIGPPGVGKTSLVKSIAEGMGRKYTKFSLGGVRDEAEIRGHRKTYLGSMPGKILGQLKKIKTSNPVMLLDEIDKMSSDFRGDPASALLEVLDPEQNSHFVDHYLEVEYDLSNVVFIATANSHDLPRALSDRMEKIYISGYVEEEKLQIAKNYLVPKQFKMHKIKEDEITISEAAILDLIRYYTKESGVRALEREICALTRKALKQILANKTVKHISIDSNNLEEFLGAKKYNFGLAEKEDQIGSTTGLAYTEVGGELLTIEALAFSGKGEIKTTGKLGDVMKESAMAAYSCFRSRATNFGLKYDNYKDFDIHIHVPAGAIPKDGPSAGCALFTTIVSLMTKIPVHRTVAMTGEITLRGNVLPIGGLKEKLLAASRGGIKTVLIPEENVKDLKDIPPNIKENLEIISVSNIDQVLKHALVEMPINKGLSYDL;locus_tag=LOCUS_1510;gene=lon;EC_number=3.4.21.53;note=WP_004597677.1 endopeptidase La (Rickettsia prowazekii) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_152
sequence1	MetaGeneAnnotator	CDS	217239	218240	.	+	0	ID=MGA_153;product=serine/threonine dehydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597675.1;translation=MNLLLQPPQNVAIAHNRIKQYINLTPIIHSESLNAMLGHEIFFKVESLQKTGAFKIRGVLNNLLKLKEQEKLPDKIVCYSSGNHGIGLAYSSKLFGIKTRIYLPLNTSKVKQQAALYYGGEVIYTNTRQEAESRAKADEEQGFYYMHPSDSDSIIAGAGTLCYEALQQLGFSPDAIFASCGGGGLISGSYLAKELISPTSLLIGSEPVAANDAYLSIKNNNIYRFNDSPITIADGLKTLSVSARTFEYLKKLDHFYLAEEYEIYYWTAWLTHLLKVICEPSSSINMASVVSWLKTQTKTQKLLVLISGGNIDPTLYNELWKNDYLTVPPSISN;locus_tag=LOCUS_1520;note=WP_004597675.1 serine/threonine dehydratase (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.0e-188],MGA_153
sequence1	MetaGeneAnnotator	CDS	218412	219776	.	-	0	ID=MGA_154;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597673.1;translation=MSEIITNINDSIEKIKKIEEITEISAAVQGKIIDIKNVDSRLDTLNKNIVILDPIQQYLQSEEYIISTLEVLASHIISEVVENKDVQKLVDNLHINLEQITKLIPSAADKLKFDIARAEAALKGFVLPLNNGGPFDELSLMGIKDKEEIFAGPIRATKKALIAISGNSIPKEQYANAIKDKAMEILKQDPNNTPDKLEQYEKFIIQGDKNQKFNKDSNQFIPRVNKLSQIEFKELQKAATDTVHKISSRLEKNNSISKQLEQIVLIANSSGIKKSKVIIKKLNKLDSTYLSENSTKIATALKDINDKGASLWEKFKQIFTGRNYLEERLSQLVDKHITLSDGYVVKTINDRIFSNALTNPEIAVGLTKFLNKNKDKVTTNPEFKNLIPITGEHIIVQPQQVNNLNLAELRKINPITFDKTIFEDSIKLRNSNRKYPQTTPNIATKNQEAVRSKG;locus_tag=LOCUS_1530;note=WP_004597673.1 hypothetical protein (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.0e-248],MGA_154
sequence1	MetaGeneAnnotator	CDS	220656	222632	.	-	0	ID=MGA_155;product=DNA helicase PcrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599479.1;translation=MKDKIQNQNFMHTLNAEQKKAALHTEGPLLLLAGAGTGKTKVLTSRIANIIHQNLALPHNILAVTFTNKAAKEMSERVHNLINCYGLNIGTFHSMAAKILRDQIENLNLGFNNRFTIISHDDQLTLVKDIVKLKKDIDAKKYTPKLIHIIISRWKDQGLLPNKLSTSDTNLPLQKIAKLVYEEYQKNLLISNVLDFGDLLLYNNELFIKNPAVLKYYQEKYRYILIDEYQDTNIAQYLWARMLASLYRNICCVGDDDQSIYGWRGAEVGNILRFEKDFAGATIIKLEQNYRSTLPILAAASNVINNNKNRHSKTLWTDSSSGEKIKIISCLSDKEEARYIACEIDKLVKEERYNAGNIAILVRAGFQTRSFEEAFINSAIPYKIIGGLRFYERMEIRDVLAYIRISLNQNDNLALERIINVPKRAIGAASLNKIRSYALERNISNFAAIKEILEIGNIKAKSYESLKDLLTKIDNWYEQFIIDTPINVVKAILDDSGYLAMLKEEKTEEAFGRIENINEMLRAIAEFNDIHDFIEYSSLVMENEVLETNYGGSVTIMTLHAAKGLEFDVVFLPGWEEGVFPSQRSLDEDGEKGLEEERRIAYVGITRAKKDLYITHAESRKIFYEIVRSCPSRFINEIPDEITIRTSSMKQYNSFYKF;locus_tag=LOCUS_1540;gene=pcrA;EC_number=3.6.4.12;note=WP_004599479.1 DNA helicase PcrA (Rickettsia prowazekii) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_155
sequence1	MetaGeneAnnotator	CDS	222653	223495	.	-	0	ID=MGA_156;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597670.1;translation=MNTNSSISIVLTVYNREKLLPFAIESCLNQSFKDFELIIIDDCSKDNSALIAKKYAEQDPRIKIIINEHNKRLSASLNIAFKKANGKYFTWTSDDNLFHEGALAKMVKILDNAPEIGLVYTDYTLIDEKGNIGARLYQESPEFLPIRDCVGACFLYRADLAKQVGGYNENMALVDDYEYWLRLGLVTKFAHIPESLYFYRVHNQSLTTQRKVEAKIAKRTLKKLFKDKYIIPDEIKPINDLYNWFIEDRNFISCFRLLKIIIYNPIITISYIIKNLRRIR;locus_tag=LOCUS_1550;EC_number=2.4.-.-;note=WP_004597670.1 glycosyltransferase (Rickettsia prowazekii) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.0e-158],MGA_156
sequence1	MetaGeneAnnotator	CDS	224802	225734	.	-	0	ID=MGA_157;product=thioredoxin-disulfide reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597668.1;translation=MKITTKVLIIGSGPAGLSAAIYTARSALKPILINGMQPGGQLTMTTDVENYPGFAETIQGPWLMEQMSMQAKNVGTEIISDYVERVDLSKRPFEIFTGTGNEYEADSIIICTGAESKWLGIASEQEFRGFGVSSCAICDGFFFKNQEIVVVGGGNSALEEALYLTNHANKVTVVHRRNSFRAEKILQDRLFKNPKISVIWDHIIDEIVGSNKPKAVTGVKIQNVYTNEINLVNCSGVFIAIGHAPNTALFKGQIAIDDDNYIVTQSGSTRTNVEGVFAAGDVQDKIYRQAVTAAASGCMAALEVAKFLNK;locus_tag=LOCUS_1560;gene=trxB;EC_number=1.8.1.9;note=WP_004597668.1 thioredoxin-disulfide reductase (Rickettsia prowazekii) [pid:99.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-175],MGA_157
sequence1	MetaGeneAnnotator	CDS	225855	226736	.	-	0	ID=MGA_158;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597666.1;translation=MKINSIKIGPYINLLPLQYIPQHKISYVEFGDPKNKNIILCAHGLTRNAHDFDKIAKELCKNYRVISINYPGRSDSENFKKPHHYNYTTYIKDTLLFFKRLNIKNPIWLGTSMGGIIGMVLASKYKNIFKALILNDIGAFIDAAPLIKIGDHAKKIILLDDLASAKKHLKLIYAQIGIKNEEDWDYLTKYSVISTFGGKYKMNYDPAITKGMKNANNQEDVKLWSVWNKIKCRILVIHGMKSQILTKSTIQKMKKTNTFDLYEIKYAGHAPSLMNDEEINYIESWLEKSIDVL;locus_tag=LOCUS_1570;note=WP_004597666.1 alpha/beta hydrolase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-171],MGA_158
sequence1	MetaGeneAnnotator	CDS	226794	227723	.	-	0	ID=MGA_159;product=AEC family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886296.1;translation=MIIFSIVFFKTVSVLLSVVIGFLAGKYSNVEKDSISSLLFYFISPIVFFTIPASTTLTLSALSVTVVTFVIATLLSLFSYYFFGKFWQDHTRNIIALSAGTANGGYFMLPIAAALFDDYTLSIYMMAVIGINIYECSVGFYICMRSFTNTTDSILKVIKLPILNAFFLGCLFSFCGFTLPDFLDDFIYNMKGSFSILGMVMVGLALSSLQKFEVDIKFTLATFAAKFLFYPLGVGLFIMFDHFVTKWYNNDYYNALKLLSTAPLAANTIVIANLQKFYPEKVAATVFLSLLFVVIYMPTMVSIFLSDLN;locus_tag=LOCUS_1580;note=WP_010886296.1 AEC family transporter (Rickettsia prowazekii) [pid:96.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-165],MGA_159
sequence1	MetaGeneAnnotator	CDS	228377	229327	.	-	0	ID=MGA_160;product=NAD(P)H-dependent glycerol-3-phosphate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599474.1;translation=MNKFKNIAVYGGGSFGTSLASLVARNCNNVTLFLRDEIILKEILYKKTNAQYLGDIELPTNLQATTNLSVIKDFELIIIAVPSYAFDDSIKLLKTYGISKEHTILVATKGLADNPTELFSDRLNTLLPDNPIGFLSGPNLAKELAKNLPASASIASLDIDIANKIAYNFSSKTFSTNTTIDIVTLQIAGALKNIFAIKSGIDLAREQGANSRATLIVGALKEITTLSKVLGGMQKNSDILLEAGVLGDLVLTCYSLGSRNTKFGYEFEISRDKKKFLCEYKELVEGREALKLVLDLIKKYNLHMPIVAEVASLILI;locus_tag=LOCUS_1590;EC_number=1.1.1.94;note=WP_004599474.1 NAD(P)H-dependent glycerol-3-phosphate dehydrogenase (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-170],MGA_160
sequence1	MetaGeneAnnotator	CDS	229385	231067	.	-	0	ID=MGA_161;product=ribonuclease J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597660.1;translation=MSSFNIKNHKNDLLFVPLGGSNEIGMNLNLYHYKGKWLMIDCGSGFADDYLPGVDMIIADSSFIEKYKKDLVGLILTHAHEDHLGGVQYLWNSLKCPIYTTTFTANFLKIRLNEYDFAKNIKIHEVKPGSKINLEPFSLEMVPLTHSAPEMQAIMIRTDSGNILHTGDWKFDNDPILGKKVDEELLKSYGDEGVLALVCDSTNVFNKGSSGSEGDVRKSLIDIIAGCPQMVVVSTFASNLARLDTIMHAARLAGRKVVLTGRSLYRMIFAAQESGYFKDLAPLISERDVSRFRRKELLVIATGCQGESMAATAKLASNSHPSIKLAPQDTMIFSAKIIPGNEKKIFRLFNVFVKAGVEVMTERDHFVHVSGHPSIDELQKMYSLIRPNICIPVHGEPVHIHEHVKLAKKNGIEHAIEVENGSVVLLEPNNAKVISKVENGYLAVDGNYLLPVESPIFKIRRRMRESGIVVASVVINKKGLLSANPILSMPGLLDPKEDIALVNLIKNDIKELITIQKQRAKKVLSDEQVIESIKSTIRKTLKQEINKSPFIIVNLEKTLE;locus_tag=LOCUS_1600;note=WP_004597660.1 ribonuclease J (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_161
sequence1	MetaGeneAnnotator	CDS	231154	231921	.	+	0	ID=MGA_162;product=NAD kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597658.1;translation=MNINKIALIYNKNSKHLAIIEEIKKLYNYCKIEEAEVIIIIGGDGELLHNIHRYMHLNIPFYGLNLGSLGFLMNPLDTKKLLQNIYESTVSILHPLLMQVEDTSGQIYKALAINEVSIFRKTNQVAKFRIDVNGVERMSELVADGALVATPAGSSAYNLSAGGPILPLASNMLCLTPICSFRPRRWHGALLLSTDTIKFEILNITKRPVNATADFQEFNNITRVTVKSTKDKYIKLLFNKNHTLEDRIIKEQFGE;locus_tag=LOCUS_1610;EC_number=2.7.1.23;note=WP_004597658.1 NAD kinase (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-140],MGA_162
sequence1	MetaGeneAnnotator	CDS	233247	234422	.	-	0	ID=MGA_163;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599472.1;translation=MQDFNIESRSVLHMTAQIRAKQLAIRDAQNREQEAIVKTWEENGIDKSDETVSNDIVNSLETFYNISKSLNDYLKTQGINDIGYPIKFNKTDLQLKMALNYAKQQEDNLIDQIIKGKFYNGLSNDINSQELPVLQSDNMLSFWGNENSSVSSVLLASVAQILNIEPVPLVGAATNYKLHNPEYTLPQELIPEDYRFASQKGMLVFGDYQYGGHRTFEEQLVFGPEDCSSSVGKATYLSNEQIKSITTTQMKENYSKYDYKLITLLKDIVEPKQLELIEAGDIYVYKGHCAVIATKPDNKAEITTLEFSRNIDRAENKISGGGIYNYSLIDKAQEEPLNPIYILRKNLEPLPSQSSLKYFLSAIDEKYLNLYPEGPNEDVVGDCRIFFETQE;locus_tag=LOCUS_1620;note=WP_004599472.1 hypothetical protein (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-223],MGA_163
sequence1	MetaGeneAnnotator	CDS	234506	235105	.	-	0	ID=MGA_164;product=recombination mediator RecR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597652.1;translation=MNKTNDIDQLIYLFSKLPGLGIRSARRIVLYLLQDKDVRLKSLINHLIELDKKIVKCEICGNLDTKSICHICSSEYRDKSTIAIVETVAELCAMERSGNFKGLYHVLGHNLSAASRQNPRILRLPELLKRCFVENIKEVIIATNSTLEGQTTAYFIIEYLKEHPAKISRLASGIPIGGELDYLDEGTLSAAISLRQPCE;locus_tag=LOCUS_1630;gene=recR;note=WP_004597652.1 recombination mediator RecR (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-109],MGA_164
sequence1	MetaGeneAnnotator	CDS	235257	235778	.	-	0	ID=MGA_165;product=RDD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597650.1;translation=MKKQIIYPDFITRIFSTALDLSLVAFIAIPISQFCFFNLLWLFFHDYFLSIKINIHNSNEMFNSIMSQEFYEYLKLGNFNKYILFNILIFATNILVICSYFITFWYYKGTTLSKMFLRMKIVDAVTLNRPTLKQLIKRFLAYITFPIGIFFILFSSKKQALHDRIAGTVVIKS;locus_tag=LOCUS_1640;note=WP_004597650.1 RDD family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-95],MGA_165
sequence1	MetaGeneAnnotator	CDS	235948	236373	.	+	0	ID=MGA_166;product=YqaA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597649.1;translation=MNQFEAYSLLFVDSFVSNLIISFQNELIFHSMQMLVGYNRLIMLLVAICSSLSGNTVNYLFGKIVLNIFYASKNEQNILRHKNLTKLYYQYETFIIFLISFPFWGCFVSLFSGFFKTKFLKFLSIGCLAKACYYASKIYIF;locus_tag=LOCUS_1650;note=WP_004597649.1 YqaA family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-77],MGA_166
sequence1	MetaGeneAnnotator	CDS	236377	236763	.	+	0	ID=MGA_167;product=30S ribosome-binding factor RbfA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597648.1;translation=MKKLTKTNSHRQQKLASIINEVLIEILKRGKMLDKRLFDCPLTITKIIVTADLKIANCYFFPFNTKLTFDEIMDALNNSKHAIRNFITNRINMKFSPEIRFYYDYGFDNAIKIEELLKNSSFKDKTSE;locus_tag=LOCUS_1660;gene=rbfA;note=WP_004597648.1 30S ribosome-binding factor RbfA (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.5e-69],MGA_167
sequence1	MetaGeneAnnotator	CDS	237038	237676	.	+	0	ID=MGA_168;product=Tim44 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599471.1;translation=MSPQIIELLIFAIIAFYIINKLITTLGSTSEEEQIKNKSYFGEPVIKDVTYSTVKDHKKVERNVSRTQDIKVFKDIIVENNINAVVDGIEQIHKRLYSFDPVKFINNAKTAFQMIIEAAYKKDVKELSELIDKRYLEEFEKIIPSYGDFFDSSALSAKYSEIYMFGNNIFIKLLFQGKNVVDKIEDLQEEWTFTRNANTKEVDWFLSNIERV;locus_tag=LOCUS_1670;note=WP_004599471.1 Tim44 domain-containing protein (Rickettsia prowazekii) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.3e-113],MGA_168
sequence1	MetaGeneAnnotator	CDS	237831	238991	.	+	0	ID=MGA_169;product=ADP-forming succinate--CoA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886294.1;translation=MNIHEYQAKEILRKYGVPTSTGLVVTKTEKINETIDKLNTKVYVIKAQIHAGGRGKAGGVKVAKSKEEAKKVAHDMFGINLVTHQTGPQGQKVNRIYIESGCDILKEYYFSIVFDRSASCITFIASTEGGVDIEAVAEKMPEKIIKFAVDPATGLQDFHMRGIAYELGFKDNQAKQMKEIVKSVYNAFIETDATQIEINPLIINSYGNLLALDAKITFDDNGLFKHPNITAMRDHDEEDPLETRAANAGLSYVKMDGNIGCMVNGAGLAMATMDIIKLYGALPANFLDVGGGADRERVKEALKIILSDKEVKGILVNIFGGIMRCDIIAEGIIAAAKDIGIKVPLVVRLAGTNVEKGKEILSNSDLKIIPAHDLADAANKIVEAIR;locus_tag=LOCUS_1680;gene=sucC;EC_number=6.2.1.5;note=WP_010886294.1 ADP-forming succinate--CoA ligase subunit beta (Rickettsia prowazekii) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-209],MGA_169
sequence1	MetaGeneAnnotator	CDS	239154	240032	.	+	0	ID=MGA_170;product=succinate--CoA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597642.1;translation=MAILINKKTKVICQGFTGSQGTFHSEQAIAYGTNMVGGVTPGKGGHTHLNLPVYNTVHEAKAKTGANASVIYVPPGFAADSILEAIDAKIEVVVCITEGIPVLDMIKVKRALIGSKTRLIGPNCPGVITPGECKIGIMPGHIHKIGDIGIVSRSGTLTYEAVAQTTAAGLGQSTCVGIGGDPVNGTSFVDCIEMFLQDDETKAIIMIGEIGGSAEEDAADFIKQSKIKKPIVSFIAGITAPADKRMGHAGAIISGGKGSAEDKVEVLQSAGVIITRSPADIGKTMLDLLNKI;locus_tag=LOCUS_1690;gene=sucD;EC_number=6.2.1.5;note=WP_004597642.1 succinate--CoA ligase subunit alpha (Rickettsia prowazekii) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-161],MGA_170
sequence1	MetaGeneAnnotator	CDS	240433	241233	.	-	0	ID=MGA_171;product=DsbA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597640.1;translation=MKHIIGKILVIFVVIIGVLFVFKTIKTYSTSSIFVEVKQREDAKKCEEERVQEIIKDYLLKTPEIIIESIEGLQKRKIHENETKVNNYLKANKLTIEDSTNFPVIGNHNGDITIIAFYDYNCSFCKKGDFSINELLKNDQKVKVVLRPLPILGDSSEYLARIVLAVYKVNPNKFKDIHDKLIKIRAVSQESIKELLIEHGLNYTEIEEIADSNEIKDLITQNIKIARSLRMQGVPTYIINSKLIHGLIDLPQLLNIVQEIMDNKIS;locus_tag=LOCUS_1700;note=WP_004597640.1 DsbA family protein (Rickettsia prowazekii) [pid:97.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.0e-142],MGA_171
sequence1	MetaGeneAnnotator	CDS	241391	241849	.	-	0	ID=MGA_172;product=SsrA-binding protein SmpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599469.1;translation=MIEDKKVIVQNKKALFNYFIEEILEAGIVLKGSEVQSLRQGKASIEESHASDNGHEVFLYNCHITEYEKANRFNHSTRRPRKLLLHAKEIKKIIGRIRIKGYTLVALSMYFNKKNKVKVELGIAKGKKLYDKRAAIKEKDWKKDQSRLIRQK;locus_tag=LOCUS_1710;gene=smpB;note=WP_004599469.1 SsrA-binding protein SmpB (Rickettsia prowazekii) [pid:96.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-78],MGA_172
sequence1	MetaGeneAnnotator	CDS	241846	242730	.	-	0	ID=MGA_173;product=4-hydroxy-tetrahydrodipicolinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597637.1;translation=MYNIFKGLITALITPFKDNKLDLYALENILNQQIKHKIDAVLIAGSTGEANSLSFEEYKLLLKTSVDIVNNRMPIISGCSSNNTAYAIELAIESKKIGVDCFMASPPSYVKPTQHGIYKHFEALHEACNLPIMLYSAPTRSGVDFSDETILRLSKLPRILALKDCGVDLERPMRIRAIVKGDFNILTGNDEVVLAFHAQGVVGWISVTSNIAPKLCKELLEKWYNNDTQGALEIHQKLLPLYKALFLESNPIPVKYAAYYLGLCENEIRLPLTEASDSAKKQIKKIITSLSIKI;locus_tag=LOCUS_1720;gene=dapA;EC_number=4.3.3.7;note=WP_004597637.1 4-hydroxy-tetrahydrodipicolinate synthase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:94.9%25%2C s_cov:94.9%25%2C Eval:1.4e-158],MGA_173
sequence1	MetaGeneAnnotator	CDS	242953	243825	.	-	0	ID=MGA_174;product=branched-chain amino acid transaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886293.1;translation=MTMIKLDQIYGYIWINGDLIPYQFARIHVLTHSLHYSGSVFEGERAYNGKVFKLKEHTERLIQSAESLGLKVPYSVDEIIKAHELLIIQNNIKDAYIRPLIWCGDESLNITNPDLSTNFLIASISSMPRSCEQSVHLHVSRWRKAMPNSTPVQSKSAAQYNMAITSKKEAKALGYDDALLLDYEGFIAECTTTNIFFVKDKTLYTPIADRFLNGITRKTIIEIAKSLCLEVKEERLKLAQIEHFTGCFVTGTAIEVQNISSIDLGNKKILFEDNKIADLLKREYWRIVRG;locus_tag=LOCUS_1730;EC_number=2.6.1.42;note=WP_010886293.1 branched-chain amino acid transaminase (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.5e-164],MGA_174
sequence1	MetaGeneAnnotator	CDS	243947	244624	.	+	0	ID=MGA_175;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599468.1;translation=MQPHKIHILIVDDDSRILALLKQFLNKNNFLVSTANSVIEAKNLLKTSNYDLIILDVMLPRITGLDFATTIRDAGNNIPIVMLTALSEANDRVKGLEAGASDYITKPFEPRELLLRINNLINNYNFKKETNIIKFGNNFYNCTTKEFTKNDQIVSLSSTEHKLLEILIKNSGKSTSRFELSKIMGGLSMRSIDVQITRIRSKIEDNPKEPKYLKTVRNEGYALYI;locus_tag=LOCUS_1740;note=WP_004599468.1 response regulator transcription factor (Rickettsia prowazekii) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-119],MGA_175
sequence1	MetaGeneAnnotator	CDS	244656	245912	.	+	0	ID=MGA_176;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886292.1;translation=MFIIIIPILIGQVVAIFLFYDRHWYNVSYYTSTIIINEIESLIKEHKNNSRERTHLSENYLNLSYQFQLNKKLSIKQPKLSEPLIIFKNILATKIYEKNIVKLNKENKIEVFLELKDGILYITFPAKLLLNPTVYIFVLWIISLTIILLSVSIIFSKNQIKPILTLADSMDKFGRGVLKSNNFKPSGALEIRNAGLAFLKMKTRIEKQINKRTNMLAMISHDLRTPLTRMKLQLELIEESEAIKGLKQDILTMQQMINSYLDFAKGESTEEFEEILLLPWMNHLLNKWSHINIEFIKSTNLNKLTVLMKPNSFERALSNLIDNAIKYGTKIEISLINNTSTVAIIIEDNGIGIDDMEKHLVFKPFYRSDKARQLDNSSNVGLGLAITKEIINNHKGCIYLEDSKNLGGLSVRIEIPKI;locus_tag=LOCUS_1750;note=WP_010886292.1 ATP-binding protein (Rickettsia prowazekii) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:95.7%25%2C Eval:4.8e-228],MGA_176
sequence1	MetaGeneAnnotator	CDS	246063	246743	.	+	0	ID=MGA_177;product=polyprenyl diphosphate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597627.1;translation=MTTIKHLAIIMDGNARWADRHNLTKSEGHKAGADKIRELLPEFINLNIPYITLYTFSFENWQRSSSEVDFLIKLLSIYLKNELDSLHENGVKIKVIGRLNLLRSSLQKQINNAIELTKNNNKIKLCIAFSYGSRQEIVDACTKIIAHGKKQVSEYDIQHALYDPEMPDVDLLIRSGGVYRISNFLLWQAAYAELYFSQKYWPDFNKDDIHEAINDYSKRKRTFGKR;locus_tag=LOCUS_1760;gene=uppS;EC_number=2.5.1.-;note=WP_004597627.1 polyprenyl diphosphate synthase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-129],MGA_177
sequence1	MetaGeneAnnotator	CDS	246703	247389	.	+	0	ID=MGA_178;product=phosphatidate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886291.1;translation=MITQKEKEHLAKDKQNIYLRIISGIALVSLFVIAILCLKTLFYILMILVGLGMLSEWYNMTYPSINYLLIGLIIIPIPISLLIFLSMEESNRLVIMLYFCILWSVDTFAMIGGKTFKGIKLAPKISPKKTWTGLITGTVSAGLVSVLVSLIPNYHIEHYYFSNKIYLFIISCILALIAQSSDLFISYFKRKFNIKDSGHIIPGHGGVLDRFDSIILTAPVFFCINIYL;locus_tag=LOCUS_1770;note=WP_010886291.1 phosphatidate cytidylyltransferase (Rickettsia prowazekii) [pid:94.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-119],MGA_178
sequence1	MetaGeneAnnotator	CDS	247386	247709	.	+	0	ID=MGA_179;product=septum formation initiator family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599465.1;translation=MIIHFNKHSKKIILNIFLALLLVYFIFHCIYGNKGIIAYLKVNRQLEKAYDELKNLRAERVELEHNVKLLRTESLNKDMLEEQAKKILGIAAPNEQVFTIKDIASQR;locus_tag=LOCUS_1780;note=WP_004599465.1 septum formation initiator family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.9e-55],MGA_179
sequence1	MetaGeneAnnotator	CDS	247835	248446	.	+	0	ID=MGA_180;product=ribonuclease D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597621.1;translation=MNIKIYQNDLPSNFKLEGDIAVDTETMGLNIHRDKLCLLQFSNGNGEAHLVHFINQDYTAPNLKMLLLDKTRCKIFHFARFDLASIKKYLSIDLENIFCTKISSKLVRTYTDSHGLKDLCRELLNINISKQQQSSYWGTDHLSLEQKEYAAKDVLYLHQLKDILQKMLLRENRLELAHDIFRFLPTRVHLDLIGWDQIDIFMH;locus_tag=LOCUS_1790;note=WP_004597621.1 ribonuclease D (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.9e-116],MGA_180
sequence1	MetaGeneAnnotator	CDS	249026	251512	.	-	0	ID=MGA_181;product=leucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599464.1;translation=MHKIEKKWQKIWQEEKAFQVSNESSKPKYYVLEMLPYPSGKIHIGHVRNYSIGDVIARFMTMQGFNVLHPMGWDAFGLPAENAAIKNNSRPQDWTYSNIEYMKKQLQSMGFAYDWTREINSCDPEYYKHEQKFFLELYDRNLVYQKESLVNWDPVDNTVLANEQVVDGRGWRSGAIIEKRYLKQWFLKITDYAEELLNEIQNLKDWPAAVRVMQEEWIGKSTGVNFHFKVKYHENTTIEVFSTKPETIFGASFIGIAFNHPIIEQLICKTPEIVNFITKCSYITRSSEIDKAEKEGIFSGLYVIHPFDANIFLPVIITNFVLMDYGTGAIFGCPAHDKRDHELAIKMNLPIKQVIETGNIQEGILINSDWLNGLTSSEAKQKVIEKFEKLGIGKRSVNYRLKDWSISRQRFWGCPIPMIHCKTCGVVPVPYKDLPVTLPDDVSFDSNYNPLEHHSSWKYVNCPKCDNSAIRETDTFDTFFESSWYFTRYCNSNAVEMTDKKACNYWLPVDKYIGGIEHAVMHLLYARFFTKLMNEHNYVSIREPFKGLFTQGMVLHATYKDENNNWLYPAEVVKKGNEFFHKENNTRVVQGRIEKMSKSKKNIIDLETIREQYSADAIRLFVLSDSPPEKDLEWSASGIEGCSRFINKLENMFEAIFSLKDDMKSEINKDLNRLIHLTIKHVADDIKTFSLNRAIARMRTLTNAIYYEISKDRIDVRTIKYGFNVLVQLLNPFIPHITEEIWQKLGNKERLYKSVFAEFDESILELSTYIMAVQVNGKLRDTYEFDVDISEDEVKQITVNLPKVQKFLAGKEPRNIILVPRKIVNIIV;locus_tag=LOCUS_1800;gene=leuS;EC_number=6.1.1.4;note=WP_004599464.1 leucine--tRNA ligase (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_181
sequence1	MetaGeneAnnotator	CDS	251577	252080	.	-	0	ID=MGA_182;product=DUF3576 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597618.1;translation=MKKIIGLFFIIILIVINISILAYDYPKAEQEQKWDEVDSIAGEGGLIFRPGRVKNESTKAVGCTVNKYLWQAALEIISFIPLASVDSNGGVIITEWYSPRSNTNFRFKINIFIKDDVISPDAIEVKIFEEILKNKQWVLNENTSNLAIMLEDKILRKARDIYINSVR;locus_tag=LOCUS_1810;note=WP_004597618.1 DUF3576 domain-containing protein (Rickettsia prowazekii) [pid:94.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-85],MGA_182
sequence1	MetaGeneAnnotator	CDS	252446	253591	.	-	0	ID=MGA_183;product=DNA polymerase III subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597616.1;translation=MLKLIVETKTLMQSLGFARSIIEKRNVIPEYANIKLSAQDGNLELSSTNMDLYLSQKIAVQVLNEGEITVATQTLSDIVRKFPDSELTLTEIEITQLEIKGQNCKFNLFTLPVSSFPAMDSIKPEVSFKISCADFAKIIESTKFSISLDETRYNLNGIYLHIKDKEFFAASTDGYRLSISWITLEEKIKNFGVILPQKSAEEILKIVKDPKNIHEDIEILLSSNKIKFICNENTILLSKLIDGTFPDYSAFIPKSSVSKLVINRKIFADSIERIAIITVEKFRAVKLSLSRKILEISAVGEARGTAKEIITASQDKESFYEYNHDESLVIGFNPQYLEDVLKAIKSDIVELYFSDISASAPVLIKFPRNPKDIFVIMPVKV;locus_tag=LOCUS_1820;gene=dnaN;EC_number=2.7.7.7;note=WP_004597616.1 DNA polymerase III subunit beta (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.2e-210],MGA_183
sequence1	MetaGeneAnnotator	CDS	253596	256043	.	-	0	ID=MGA_184;product=phenylalanine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599463.1;translation=MKFTLSWLKQFLEISASVTEIAEALTDIGLEVEEVIDKSKELQKFEVAYIRNIKPHPSADKLKLCDVETKNGILQIVCGASNVRADIKVVLANIGIEIPKGNLKIKESVIRGQKSYGMLCSEEELLLSSNSDGIIELPKDAVVGDNFTKYYGLDDPIFVINVTPNRGDVLGVYGIARDLSAKGLGTLKELELSEIKSTFFSKIKLNVHDKEACPLFTFREIRNLKNKPSPNWLQQLLKNVGIKTISSLVDVTNYISHSFGQPIHAYDADKIYGGISVDCYIRSDKVISCKNHEMATAVLQFSNDSANFYAINGKGYLLTENDLVIKDESGIQGLAGIIGGAKSSCNDSTTNVILEAACFNAKMVAASGRRLKIDTDARYRNERNIDRNFTEKALNIATNLILSICGNCEVSEVVKVGEQEPQKKPLDFSVYFLEKITGIKLSIQEIEDILNKLGFITDVKGDIIKVIAPSWRHDINILEDIAEEIVRIYGYDKIESIKLPELYQNNNLREYKRISSFKRILASKGYDEVVTNSFMSSEDAKLFAELKEGLFLLNPMSIEENYMRPTVLPNLISIVSKNLARDVKDMAFFEVGPSFVNLNIESTYLTAIISGAFNNKNPHSFGRNYDIFDIKGDLEQVIEYAGLSLDKCIVIDETVLPQYYHPTRAINIRLGKNLLGHFGQIHPKILKYYDINQEIFAFELNITNLPLIKAKFGKRDEFTVSDYQANFRDYSFIVDQDHKVGEIISYIKNFNKKLVKSVMLFDIYSGDKLPEGKKSIAIKIKLQADDRTLSETDLNSFSEDLVASISQKFQGILRE;locus_tag=LOCUS_1830;gene=pheT;EC_number=6.1.1.20;note=WP_004599463.1 phenylalanine--tRNA ligase subunit beta (Rickettsia prowazekii) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_184
sequence1	MetaGeneAnnotator	CDS	256040	257092	.	-	0	ID=MGA_185;product=phenylalanine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597612.1;translation=MKNIETILKLAEEKIVLVHNLKDLQEYKVEFLGRNGIVTSELKKLGSLINGQKRKEFGLKINTLKDKIHDIIKAKAQNLEAEELHLKLAADKIDLTIPARRYKQGSIHPITQCMDELIQVFSQFGFTIENGPNIENDFYNFTALNFEYDHPARQMHDTFYLKGHENDKPLLLRTHTSTVQIRAMKNGKPPFRFIAPGRTYRSDSDMTHTPMFHQIEGLVIDKNINMGHLKYVIITFIRSFFENSNIELRFRPSFFPFTEPSAEVDIRMNKNDKWLEVLGCGMVHPNVLKNIDINRSEYQGFAFGLGVERFAMLKYNIKDLRRFFEGDIRWLKHYNFESFDIPNLAGGLTK;locus_tag=LOCUS_1840;gene=pheS;EC_number=6.1.1.20;note=WP_004597612.1 phenylalanine--tRNA ligase subunit alpha (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.7e-201],MGA_185
sequence1	MetaGeneAnnotator	CDS	257199	258449	.	-	0	ID=MGA_186;product=tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase MtaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886290.1;translation=MRNNLRQEIVTFGCRLNIYESEIIRKNLELSGLDNVAIFNTCAVTKSAEKQARQAIRKAKKNNPDLKIIVTGCSAQANPKMYGNMSEVDKVIGNEEKLLSHYYQITDQKISVNDIMSVKETACHLVSSFDGKSRAFIQVQNGCDHNCTFCIIPYVRGKSRSIPIGTIVAQVKHLVLKGFKEVVITGVDVTAYGSDLPGSPTFAQMIKRVLKLVPELKRMRLSSIDIAEIDDELFELIAYSERIMPHFHISVQSGDDMILKRMKRRHNRASVIEFCQKLRAIRPEVSFGADIIAGFPTETNEMFENTRKLILEAELQYLHVFPYSEREGTPAARMPQVPQNIRKERAKILRQDGFNQLNEFFKRHIGQKVELLIENNNIAHTENFIPVKLDKYLAIGQIFKAELVGIEEGYMKCVLV;locus_tag=LOCUS_1850;gene=mtaB;note=WP_010886290.1 tRNA (N(6)-L-threonylcarbamoyladenosine(37)-C(2))-methylthiotransferase MtaB (Rickettsia prowazekii) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:98.8%25%2C Eval:1.8e-235],MGA_186
sequence1	MetaGeneAnnotator	CDS	258439	259251	.	-	0	ID=MGA_187;product=diaminopimelate epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886289.1;translation=MINKINFVKMHGLGNDFVIVNKRDLATSYNLSHLAKNMADRHTGIGCDQCIIYEENNDFYTMIIYNIDGSSAKLCGNAIRCLAKLIYLDTGKQNITVMVGKKKLLCNVKAANKISVNVGNVSFNETWMPSRDKIWKFAERYMLDLKEMLCVDIGNPHLIIFSKLEPQDKTIIGQKLQAKELFADGVNVNFAEVKDNKIYLSVWERGAGLTLACGSGACASFAAGLKLGFVHSPSTVVFEYGNLIMREEDGNIIMQGAATFVMRGEYYYEK;locus_tag=LOCUS_1860;gene=dapF;EC_number=5.1.1.7;note=WP_010886289.1 diaminopimelate epimerase (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-153],MGA_187
sequence1	MetaGeneAnnotator	CDS	259917	260933	.	+	0	ID=MGA_188;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886288.1;translation=MKILNIMLSRDLGGIQQAFLDYNAALEIQKIEVINVTSYRAKINSLLHKRSFKLINLLPIDPLSVLILKYIIYKTKPDIIIAHGNRSINFSKLAKPHNTKLIGIAHNYSLKGLRKCDFAIALTYHMKEFLLKNNFAESRIFILPNMINITKNFVPNKIYKKVIVIGVLARFVAKKGIDVFIKAIKLLKDKQYNIQVVIGGNGNEKDNLIALVHKLNLQDQISFTGWVNDKDTFFKQIDIFCLPSLHEPFGIIILEAMQASVPIVSTDTEGPKEILKHLKDGLICKVGSIEDLAEKIIYLIDNPLQAAKFSKNAYLKLKQNYDIKVVSKKLQYILKNFR;locus_tag=LOCUS_1870;note=WP_010886288.1 glycosyltransferase family 4 protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-190],MGA_188
sequence1	MetaGeneAnnotator	CDS	263946	264605	.	-	0	ID=MGA_189;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599457.1;translation=MFKKIIILFLGIFLLSSCTDNFRNYFQRSANNKLLDIKGAKGGKRKPVYNNKYIDLAKKNILEDNIDDDDNDSDANYDSDSLLIGEKIDNIKKNREMYINMIKRDIARQKAESNATQSNNDMTLSKANKKVRKDDSYKEKKIEEELNQIKAMLRETKRDITKYTCPNATVNQNYVPPVTNYENENYPPIKNSRPYNNTSKVKQKFIREDDDNTSNACSI;locus_tag=LOCUS_1880;note=WP_004599457.1 hypothetical protein (Rickettsia prowazekii) [pid:93.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-114],MGA_189
sequence1	MetaGeneAnnotator	CDS	264837	265994	.	-	0	ID=MGA_190;product=undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599455.1;translation=MKKIILVAGGTGGHFFPAVALGEELIKRGYIVHFITDLRCKKYINKDMKIIFHILNLKRFSNIFLFLPILSITFLKSIRLIYNIKCCVIIGFGGYPVIAPMFAAIFLRIPIIIHEQNSYLGKVNKFFARFAKKIATSYEDIKNLPEFAKSKIVLTGGIVRKNIRELDSFMYSVSQHSLTKLTQTALTNTFNPLVKGRNDEFANSNIFTIFIFGGSQGAKLFSELIPASIKILMKKQPSLELNIIQQAALDHQVKIKDIYSKLNITYEFAEFFDNIALQYKVANLVISRAGASTIEELTYIGLPAIFIPLPSAADNHQYYNAKLLEDNKAGWCLEQNNISSEKLADKILDLISNRQLLEDASQNLLNRKKEGHVLLSNLIEDTVFL;locus_tag=LOCUS_1890;gene=murG;EC_number=2.4.1.227;note=WP_004599455.1 undecaprenyldiphospho-muramoylpentapeptide beta-N-acetylglucosaminyltransferase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-217],MGA_190
sequence1	MetaGeneAnnotator	CDS	265991	267124	.	-	0	ID=MGA_191;product=putative lipid II flippase FtsW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886287.1;translation=MNNEISNNFIKLWWRSTDRQIIISLIILFAFSLILVTTSGSIVASRIGLEESYFASRQIFYLATASGLILLLSCLNKKWLRRFAILGFIVSIILLIAVKFFGYEVKGAVRWINILGLSIQPSEFIKPFFEVVIGWILALKFNDNFPSFTICIIFYFIVAILLIIQPDFGMLVMITTVFGIQLFIAGMPIFWIMLASFLGMLGVTIAYFCLPHVTQRINSFLDPDSSENYQVSKSLKAFEHGGLYGCGPGEGVVKHALPDSHTDFIFAVAGEEFGAIICLIVIAIFAFIVLRSFVKLLNETDKFVQFAASGIIAQLGLQAIINIGVTLHLLPTKGMTLPFISYGGSSTLAIAIATGMLLGFTRHRTPLNSYKICNIEI;locus_tag=LOCUS_1900;gene=ftsW;note=WP_010886287.1 putative lipid II flippase FtsW (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-210],MGA_191
sequence1	MetaGeneAnnotator	CDS	267199	268536	.	-	0	ID=MGA_192;product=UDP-N-acetylmuramoyl-L-alanine--D-glutamate ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597598.1;translation=MNAYKKQKIGIFGLGKTGISVYEELKNKYDLIVYDDLEANRDIFKELFGNNLITVLSDSRWQDLDKIVLSPGVPLTHEVVRIAHHFNIPIISDIDLFFEKSKNLKFIAITGTNGKSTTTALISHILNSNGLDYPVAGNIGVPALQAKASNEGYVLELSSFQLDLVKSFTVKVAVLLNITPDHLDRYQDMNDYIAAKAKIFDRMDKDSYAVINIDNDYCRKIFVLLQKDQSIKLIPFSVTKILKNGISIVDDKIHDNDLTYKLPLNKNLQGLHNCENIAASYAVAKIIGLESKKILESISSFQSLHHRMQYIGSINNISFYNDSKATNAISALQSIKALDNIYWLAGGIPKEGGIEGIKPYFNKIKKAYFYGQAKAMFANTAKNIIDFVICDNLEYAFNIAYKDAVSDTTEVKNILLAPSCSSYDQFKNFEERGELFIKLSKRHWQ;locus_tag=LOCUS_1910;gene=murD;EC_number=6.3.2.9;note=WP_004597598.1 UDP-N-acetylmuramoyl-L-alanine--D-glutamate ligase (Rickettsia prowazekii) [pid:99.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.5e-255],MGA_192
sequence1	MetaGeneAnnotator	CDS	268686	268934	.	-	0	ID=MGA_193;product=DUF3035 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597596.1;translation=MKQIFLLFTLLFITSACSKKLKETLGLSTSGPNEYQVQRVKTLEAPPHYYLIDPRSNKTTYNNIKGKHELNEGEQALMHDMH;locus_tag=LOCUS_1920;note=WP_004597596.1 DUF3035 domain-containing protein (Rickettsia prowazekii) [pid:95.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.3e-40],MGA_193
sequence1	MetaGeneAnnotator	CDS	268956	269540	.	-	0	ID=MGA_194;product=signal peptidase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597594.1;translation=MISLLKKLYFTFSRSSRIIITLVIIDQLTKWWFINNLRWKPGLMLKVTSVLNMVYTWNYGISFGLMREYYQYSNTIFLITNMIIVCYLYYLMICSKTIGSFAGYSFVIGGAIGNLIDRFCRGAVFDFIHFHYRNYSFPVFNLADCFITLGVIILMEDYFSTKKVIEETSKGNYDNLQIEVMAEKIRHTDHDSKI;locus_tag=LOCUS_1930;gene=lspA;EC_number=3.4.23.36;note=WP_004597594.1 signal peptidase II (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-111],MGA_194
sequence1	MetaGeneAnnotator	CDS	269689	271065	.	-	0	ID=MGA_195;product=peptidoglycan DD-metalloendopeptidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599453.1;translation=MNDTALYDFNDILQSSFISARFKKIFTPSFFLSLLLFIGLVFFVSFAINNYVNDTLSITLVQPDSNEEETISFKEVVVKKGDTIKSILVEQKIPKNDIEKIINLVKVGKLSSILKIGQHIIFEYETKITENDDEDLTSEITFLNKIVIIIDKLKTIKVIREGDNFKVEEIVVPLSKKVSKSSVNIESNFMSALKKLGLSNNSIIELINAYAYQIDFQRQIKNGDTATVITEKYVTEDGKFSHHGKILYVSLNLSGKEYNIYRYSHDNNANNYAFFSEDGKSVKRSLLKTPLKVIKVSSHYGNRKHPILGYTKMHRGVDFAAPTGTPIYSAGNGVITEIGWKSGYGKFIQVKHSGTLSTAYAHASSFAKNLKVGSIVKQGQVIAYVGSTGRASGPHLHYEVKIDGKHVNPMSVKTTPGIELNGKNLEKFKQFKQEIKTLNVKLDKESYTDAINAMSYDT;locus_tag=LOCUS_1940;note=WP_004599453.1 peptidoglycan DD-metalloendopeptidase family protein (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-255],MGA_195
sequence1	MetaGeneAnnotator	CDS	271682	272644	.	+	0	ID=MGA_196;product=cytochrome c oxidase subunit II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886286.1;translation=MVTYILAMNIIRYWSKQSYKKLKVDQEHNTTEYTNVCNSTSLGSTYTLPLKMELWKIYITLIYFLITNSNCFASEPLAWQITFQPPASPIMEELYHFHNFLLYIGTAIVLFVAGLLGFVCIRFNAKNNPVPAKFAHNLLIEIIWTVIPIIILVIIAVPSFRILRHAEKIPEIDLTIKVVGYQWYWHYIYPDYDNLEFDSVMISDKNLQIGQKRLLDVDNRIVIPENTTVRFLITAGDVIHSFAVPSLGFKIDAVPGRINETWTRVTKKGVYYGQCSELCGINHGFMPIAIEVVSKEDFNNWIALKNKTAMNNKSSKLMSK;locus_tag=LOCUS_1950;gene=coxB;EC_number=7.1.1.9;note=WP_010886286.1 cytochrome c oxidase subunit II (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:97.8%25%2C s_cov:100.0%25%2C Eval:7.7e-177],MGA_196
sequence1	MetaGeneAnnotator	CDS	272723	274327	.	+	0	ID=MGA_197;product=cytochrome c oxidase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886285.1;translation=MNSLTNIEDLNCDNQHIPNGFRRWIFSTNHKDIGIMYIIFAIFAGVVGGLFSLLFRLELAMPGGTFLNHNFQLYNVLITVHAIIMVFFMIMPALFSGFGNYFVPLLIGAPDMAFPRLNNISFWLLIPAFLLLISSTFIDGGPGTGWTLYPPLSNLNGHTGAAVDVAIFSLHLTGLSSILGSINLIVTIFNMRAPGMGLFKMPLFVWSILVTAFLIILAMPVLSGAITMLLTDRNFGTTFFKPDGGGDPLLFQHLFWFFGHPEVYIVILPGFGIVSQVISTFSRKPIFGYQGMVGAMVIIGFVGFIVWAHHMFTVGLSYNALIYFTAGTMIIAVPTGIKIFSWIATMWGGSITFPTPMLFAIGFIILFTIGGVTGIILSNSALDRVLHDTYYVVAHFHYTMSLGALFTAFAGFYYWFGKISGKQYPEILGKIHFWITFIGVNLTFFPQHFLGLAGMPRRIPDYPEAFAGWNMVSSIGAGISIFAAFYFVFIVFYTLKYGKNCTANPWGDGADTLEWKLNSPPPFHTFETPPHIVE;locus_tag=LOCUS_1960;gene=ctaD;EC_number=7.1.1.9;note=WP_010886285.1 cytochrome c oxidase subunit I (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_197
sequence1	MetaGeneAnnotator	CDS	274674	275519	.	+	0	ID=MGA_198;product=gamma-glutamyl-gamma-aminobutyrate hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597588.1;translation=MKEKPIIGVTPDLAKNCQKYTYADFPWYALRRNYTDAIIAAGGIPILLPYQSDTINQLMELIDGIVIPGGDEDIHPKFYEQKYAEDLVISNEERDHFEILVLKKALEKDIPILGICRGMQLLNVMFNGTLIKHIPDYIRHFSKLTYSKKFECNTEAFATTVYTLPIKLEFENAPIKTIINHTQPKPKNIVSHTINIEVSTKLSKIANNCLQTMVNSTHHQAVNKLGNDLIISAKAEDGIVEAIEATKHKFVIGVQWHPEYLNDNGIDLQLFKALVKASKYI;locus_tag=LOCUS_1970;note=WP_004597588.1 gamma-glutamyl-gamma-aminobutyrate hydrolase (Rickettsia prowazekii) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.0e-160],MGA_198
sequence1	MetaGeneAnnotator	CDS	275863	278475	.	+	0	ID=MGA_199;product=PD-(D/E)XK nuclease family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599450.1;translation=MTARYSFLQNFAEYIIDQLKKGIEVQIILPNNFLCLKLKKILTDKYKIKLPIIIPFNFIFSKKNESDYISKIEELFILSSIITEYKALPFNLEESLKAAEILRKLFNDLIINNIDIKLIEVYNNSNYWQKIYKFLEYCFLTWKKTIALTQKYTKTIHKFNLLQEEIIKIKKRENRIILAGIFKPNIYFKRFKEELKDYIMHYNPSYNHMSNNISYSEPNNIYQEAKQIAYICELNKDKHIAIVTNDNKLKKVYCNFLDQKYSDLLGNDLRLTNIGALLNAIIKIICNDFDLKLLFLLLKNPLINCHAVQKLELMLSNKNRFISSPKYLLQLQFDDEEIREYCVNLIDILFTNNPHNITDILILTQQIAEKLLPNIWEQEGGTVLIEFLTNLISYSKHINLTNKKDFPKIFSFLLSNIKHYKNIDSSRIIIGQPEDLALCRFDLIILPHFNNEHWSSNAKPHPLLSKKALQILNIDYDDAITTTLYSDYFNLLLQNKQIVILNAKKYNGKLSAACNLFLRLQLKYVIPCFECDIKKKLFTPAINSLDEHTKPQDDHKLTTISNTFPSVLSVTDIETLIRNPYGFYAKKILGLHKKDNIWEEPKISDFGNFIHKVLEKYSKNYDKQYVYLNLHDKQAALINIGNNILYSTILPAYTKKTWQIKLTAFSKTFILFDIERRKNCKKIYFEIKGELRLNIAGQDIKIIGIADRIEVSKSNYITILDYKTGTIPTKKEIEFGLSPQLIIEGLMLIENGFNIESFNNLETSQFSNIHFCKGNFICSTEQMVNPSYLNHYKSSYINTKLTIAYVKITSTEPYIQTIEIDLNIETLHKHKVGLIRLLEYYVTNKSFSYDFNLSNYNDYWHLTRCDYMSY;locus_tag=LOCUS_1980;note=WP_004599450.1 PD-(D/E)XK nuclease family protein (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_199
sequence1	MetaGeneAnnotator	CDS	278565	279518	.	-	0	ID=MGA_200;product=LD-carboxypeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599449.1;translation=MVLKNLSLLIILFFSTSVFSVSNNLINIPITVVATATGADSKTLSDLKNINGLNLQIPAKCFTKGKLPFLASSDEVRFNCLRDALFDKSDNVVWSLRGGYGSARIIPDLLKLSKPNKEKFFIGYSDITALHLFLSQEWGWRTIHGSNIADLLKTEKDQGNFTKLGEILKGKVKQVTIDNLIPLNDIAKSSDLVKGNLTGGNLTMVQTSIGTRWQIKTKGKILFLEDTNVAPFRLDRELLHLKQSMLLEGVKAIIFGSFGKDLDATMLVLRNFAYSLNIPVFKTNRFGHERINDPIIYNTNSKIIMSKHKEFKLIMEL;locus_tag=LOCUS_1990;note=WP_004599449.1 LD-carboxypeptidase (Rickettsia prowazekii) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-173],MGA_200
sequence1	MetaGeneAnnotator	CDS	279634	280377	.	-	0	ID=MGA_201;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886284.1;translation=MQQIEKYIKKKRNATDVQVKKYKQALTEIGIKYDYEFAHVAVPNHATGRFEYFKWDWMTSTTSSHSEIVEIFKEIVMILQEAKNNQTQYENFASRLDSNTKDILAFNIKQHNIPIIHLSQNELVRKALAEAEYCTKTSDVTAAFKNYFSKLNPDGVVEFMNCAKGTTINVDGCIGTSLLDNAVNIKYPATWNGIFTQNFFIENGITNPYASFEDKIDKTVQEDSVNKSTIEEVQIEQVELIGGASDC;locus_tag=LOCUS_2000;note=WP_010886284.1 hypothetical protein (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.3e-139],MGA_201
sequence1	MetaGeneAnnotator	CDS	280449	282404	.	-	0	ID=MGA_202;product=lytic transglycosylase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597581.1;translation=MKIKLFIAIFLLLALKINANSDSIDNVQQVFTYIDQKKWSQAKDLALAINIKVLTKIVLSQAFLDNKCSDNSFQEIIKFLQKNPDWPQNKLIAKRAEEYLNNHTNKKVIFDWFSTHPPLTGKGYKFYAVAAISLVKDYKILLPIIKKAWVYGNFTPEEENIYYNKWSKYLTVNDHLERIEEHLWLNDIKTAKRSLKYVDQGYRNSFKAQIAIISTAPNAEKLFKNVPEKYYTSGLLYRYLDFKKMQKPTKEMIALFKKAKNNRKHFAKWCRLQSYYARAFIDYKDFANSYRMATMRFPACHKTIREQEWLAGWLSLSFLKKPDQALMHFNKFIKVVKTPISLARGFYWLGRTYEAKGDKQTARKFYEQASRYSFTFYGQVANIELNRTKLVLPNIPVITSEVRKTIENKEIIKAIRLFVKYNKNHLAMIYSKEAIKNTRNQAEIQIIANIIKECNNTHYMVDVAKIAAQKHAFIPDCAFPTPYNLTGLPISSSLTYGIIRQESVFDHKAISCSNAMGLMQLIKGTACDIAKSINMKCDVGQLIKNPSYNIKLGSHHFKKLLDDHKGSYVLSIASYNAGSNNVMKWIEKFGDPRDIKDTRKIIDWIELIPYKETRNYVQRVLENVQIYRVILNKNSNLYFKRDLHACTIVRN;locus_tag=LOCUS_2010;note=WP_004597581.1 lytic transglycosylase domain-containing protein (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:98.6%25%2C s_cov:98.6%25%2C Eval:0.0e+00],MGA_202
sequence1	MetaGeneAnnotator	CDS	282559	283005	.	-	0	ID=MGA_203;product=dUTP diphosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597580.1;translation=MTIIEVKIKKLENFLGNLPEYATEHSAGMDLVAANEQSITIKVGSIQLIPTGIAIALPESFEAQIRPRSGLAVKHGITVANSPGTIDADYRGEIKVLLINLGNKDFIIEKGMRIAQMIIAKYERVLWAETSILTETMRGRGGFGSTGL;locus_tag=LOCUS_2020;gene=dut;EC_number=3.6.1.23;note=WP_004597580.1 dUTP diphosphatase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.0e-78],MGA_203
sequence1	MetaGeneAnnotator	CDS	283007	283921	.	-	0	ID=MGA_204;product=S49 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597579.1;translation=MNEVNKSTMANAEFDQIITKRQISKLDQLFASVFGDSKEVVAVLRLSGVIGKVSTMQSGLTLESLNELIEKTFKIKKLKALCLIINSPGGSPVQSELIAKRIRDLAKENKIKVYSFIEDMAASGGYWLACSGDQIYALPSSVIGSIGVVSSGFGFHEAINKLGIERRVYTEGKNKAVLDPFKPINKDDLKIIKDLQKQVYEHFVEYVKNRRAGKLTQQDEILFNGEFWAGQTALDYGLIDGIGDMYSVIKEKFGDNIKFQYLCAKQPWLKKKLGMRSKILIEDLVNTVIDTIENKIITDKFNMK;locus_tag=LOCUS_2030;note=WP_004597579.1 S49 family peptidase (Rickettsia prowazekii) [pid:95.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-161],MGA_204
sequence1	MetaGeneAnnotator	CDS	283914	284579	.	-	0	ID=MGA_205;product=TlpA disulfide reductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597578.1;translation=MTLRNYNKYLIYIIVFLLSIIIFFPKIQAKLYEKPKGKLEFLKGLSVPDNIFFFDEEKNQYSLDQFEGKTILLVFWATWSATCIKEMPDFDMLQKDFRKLPFSVIPISEDYQDIKIVKEYFKRYHIRYLPIYHDYRNALFKALGIISLPTSILIDPNGKIVTSFVGTTNWYDEKVRDTILSVIPGNYPEPKNSYNEQSLNKPAKHLPKIKNFIIKNEQNNE;locus_tag=LOCUS_2040;note=WP_004597578.1 TlpA disulfide reductase family protein (Rickettsia prowazekii) [pid:97.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-123],MGA_205
sequence1	MetaGeneAnnotator	CDS	284767	285393	.	-	0	ID=MGA_206;product=dioxygenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597577.1;translation=MKKIIFCFLYLYTLNVFGASKIDHNKLNSCSITRNIFNNYEPKVFETTNNLLRKTGTLSKFYGEMILIRGKILDQNCVPVTDAKVYLWQAGNGGKYPYEPLKTRVDKSRFTNKSDSSFTGSGIATTNNKGEYYFISMLPYKSPRYLRNANIRIEHPNLTTLETRLDLFDKNMCDNECGEISPILIETKKNIPSYCFDLVLQGTTLKRY;locus_tag=LOCUS_2050;note=WP_004597577.1 dioxygenase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.6e-121],MGA_206
sequence1	MetaGeneAnnotator	CDS	285474	286535	.	+	0	ID=MGA_207;product=FKBP-type peptidyl-prolyl cis-trans isomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597576.1;translation=MIINELIVIVNFVIIQILFFMQKFLSLIIVILILYNIVKLKIYPEDNNNSTTIKQTTSNNSSTNEHQTSINNEPTISLNGNLFERTVSKIVINALKTEEGKIFFENILQPLNGPINPNDYTIEVHKDLVKTLFKINTFGSGNIGPASCGHVVTVFYQISDMNNNLISEDTKTFTLGSAPVMLGLDNVIIGMMVGEAREAIIPAKYTVNNSNNIIFDDAYNYKVTVILKSILPQNFVESNKVKIYDDEIAYRVPLLCGEKVSFHAKITRLSNGKILFDSKSKGQPLDMKIGDITYPLIFSYALQGKVQVGTRSVIAEGKTFKALGSNLNKIIAHESLPIHEYLLLELNDFKQIK;locus_tag=LOCUS_2060;EC_number=5.2.1.8;note=WP_004597576.1 FKBP-type peptidyl-prolyl cis-trans isomerase (Rickettsia prowazekii) [pid:97.6%25%2C q_cov:94.3%25%2C s_cov:100.0%25%2C Eval:1.7e-183],MGA_207
sequence1	MetaGeneAnnotator	CDS	286886	287263	.	+	0	ID=MGA_208;product=cupredoxin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599447.1;translation=MDIIKKNKKIIILVCLMFLAIMVYIYKSNGPDKTNDNILEVKITIKDHKFVPNIVEVPKSTKIRLIIHNADDTIEEFESHDLHREKIVMPHESINIILAPLKPGKYEIFGDFHQDTAQGFIIVND;locus_tag=LOCUS_2070;note=WP_004599447.1 cupredoxin domain-containing protein (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-66],MGA_208
sequence1	MetaGeneAnnotator	CDS	287272	288120	.	+	0	ID=MGA_209;product=FTR1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599446.1;translation=MFKIALVVFRECLEISLLLSVILAVTKQIEKSRLYIIAGIMLGVVFASIFAFFTRKLSLSFGGIGDELFDSGIMILITILISWTIIWMQGYGIKVKQHINDLSLKIHEGNRSYFMLVFLVATTILREGAEIIILVYSISSVETIPSSIYLQGVIIGATSGFLLGLVIYCGLIKIANQKYIFKISTILLMLIAGGFAASAAGILTSSGLVMFLSDQLWDSSWLVADRTMIGKILHIVTGYIARPNGLQVLSYFTTIVLINIFIQIKLRYYKNNLISVQTNESN;locus_tag=LOCUS_2080;note=WP_004599446.1 FTR1 family protein (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-147],MGA_209
sequence1	MetaGeneAnnotator	CDS	288153	288695	.	+	0	ID=MGA_210;product=septation protein A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597572.1;translation=MLKLLSEIGPVIAFFAGFFYGGGIQNATLYMLITSIICITLCYIIDKKVSKLSIISSTVLFISGIITLISGDSMYIKIKPTILYVIFGIIFLMSGIKKNPFIKYALESIVRLKEESWIILSYRTAAFFFFMAVVNEVVWRNFSDETWVKFKVFGVIPITFIFILLQLPLLLKNKLPDSKI;locus_tag=LOCUS_2090;note=WP_004597572.1 septation protein A (Rickettsia prowazekii) [pid:90.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-85],MGA_210
sequence1	MetaGeneAnnotator	CDS	288872	289513	.	+	0	ID=MGA_211;product=BON domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597571.1;translation=MILKIVVVMILRVLIFIILLFSISACLPAIFTAVTATGIAASKDQPMSETLNDAKIATGIKADLVKNNFKDLGAKIKVEVSQGRVLLTGNIQKETDALKAVKIAWNQTGVQEVINELKVNKNNNHFDLVQYTKDSMITTQIKAKNLVRKDIKFANYTILTIDNIVYLFGIARSEEELEKLASIASKIKGVEKVVCYANIMNNFTTNNDNNEEL;locus_tag=LOCUS_2100;note=WP_004597571.1 BON domain-containing protein (Rickettsia prowazekii) [pid:93.4%25%2C q_cov:93.0%25%2C s_cov:96.6%25%2C Eval:1.5e-96],MGA_211
sequence1	MetaGeneAnnotator	CDS	289500	290453	.	+	0	ID=MGA_212;product=septal ring lytic transglycosylase RlpA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886281.1;translation=MRNYKFKLEPLKQCQEAFKRYTVHSTALYIIALQANWSRRLIYKLSLYFCKIKNCYTTFKFEQSNRFIITKAERIIKIQHLIRFKDIVNNFISLINILLVLIFCINLSGCNASKKLSYSNKYSYKELSKDDPHNLTYIGHYKVGKNYKIKGKIYKPHTPKYFTETGYASWYGGRKDGFHGKTTANGDRFNRNLLTAAHKTLPLPCLVKVTNKVNNKSVILMVNDRGPFKKNRIIDVSQKAAEILAFKNQGVTKVRIEYLPNETEKFLKKINLKKPENKTFAKNHKKSLFTQITKNNQCSINCHIKLVNLKYKLAVNP;locus_tag=LOCUS_2110;note=WP_010886281.1 septal ring lytic transglycosylase RlpA family protein (Rickettsia prowazekii) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:99.1%25%2C Eval:2.6e-177],MGA_212
sequence1	MetaGeneAnnotator	CDS	290559	291479	.	-	0	ID=MGA_213;product=D-alanyl-D-alanine carboxypeptidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599443.1;translation=MFRRFLLPYIFILIFCFAPISEAKKIVKNTNKHPIQTSLVIDAKNGKVLQAHNAQVRIYPASLTKLMTLYLIFEAIESRKLSLDKKLLVSAKASKMPHCKLGLRAGDHITVREAINGLIIKSANDVAVTVAEGMKGSEKAFAHLMNVRAKTLGMKNTFFKNASGLHDPFQQTTARDIAKLAIALKRDYPKYYPLFSKTHFVFRGNVVNGHNSVTKHYQGAEGMKTGFHTPAGYNLVTTASRNNKSLIAVITGGKSAASRDQKMMRLLDHHFGVKTITSKPSIKLASNNKANTKAKSKIIKRKNIRS;locus_tag=LOCUS_2120;note=WP_004599443.1 D-alanyl-D-alanine carboxypeptidase family protein (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:95.4%25%2C s_cov:95.4%25%2C Eval:1.3e-162],MGA_213
sequence1	MetaGeneAnnotator	CDS	292872	294635	.	-	0	ID=MGA_214;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597565.1;translation=MNDNNLNDNYTVVYIIKRLIKDHVKPYAYKIYFSIFCMVIAALCTAVIVHAVRPIIDKIFLTHDKTMLVIMPIILTVTFFIKGISEYYQNYLIKFVGQMVLNDLKIKMYEHLLSADIAFIQKQSSGRLISRFTNDISLMRGAVSNLLVGCAKHFLTVVCLIITMFHLEPILSCVVFLVFPLAVYPVQRMGKKIRKIFAQSQEELGHYTSRLDETFQSIKIIKSFVGEKIESHRASLIMNNILEFYKRTSKLDAMVSPIMEGLSGIAVGGMVWYGGTLVLDGKTTPGALFAFLAAFAAAYRPFKSLVSLNINLQEGIAAAKRVFSILDTEPIIKDHENAKQIDLYNPQITFEKLTLNFDSKIAIKYIDLKLDSHKIIAFVGRSGSGKTSLSNLLVRFYDPSHGRILINNHDIKDIKLTALRRQISLVTQDTHLFDASVAENIAYGHANATREEIISAAQYADAHEFIMHLPNGYDTQIGVHGKTLSGGQRQRLSIARALLKDAPILIWDEATSNLDQASEQKILKFLKKLRQGKTTLIITHRLSSILDLDNIIVMKNGEICEQGTHTQLIQNKNEYYMLYNNELKENV;locus_tag=LOCUS_2130;note=WP_004597565.1 ABC transporter ATP-binding protein (Rickettsia prowazekii) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_214
sequence1	MetaGeneAnnotator	CDS	294628	295656	.	-	0	ID=MGA_215;product=Holliday junction branch migration DNA helicase RuvB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599441.1;translation=MTNILSPEKSEHDQELPIRPSYLKEFVGQQQIKENLLVFIKAAKSRNEHLDHTLFYGPPGLGKTTLAKIISNEIGGNFKSTAGPAIIKAADLASILTNLEKNDVLFIDEIHRLNTLVEEVLYSAMEDFELDIIIGEGSAARPVKITLPKFTLIGATTRFGLISNPLRDRFGIPMRLNFYNTEELKQVLNRASKLLDIDLTDSGSEEIAKRSRGTPRIALRLLRRIRDFAVVDGKSRIDKEICDFGLKRLTVDSIGLDSNDYRYLKFIADNYHGGPVGIETIAAALSEQRDELEETIEPYLIKIGLVKRTPRGRVITIAAFEHLKMPIPNKSQNQLNILNENE;locus_tag=LOCUS_2140;gene=ruvB;EC_number=3.6.4.12;note=WP_004599441.1 Holliday junction branch migration DNA helicase RuvB (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-188],MGA_215
sequence1	MetaGeneAnnotator	CDS	295713	296312	.	-	0	ID=MGA_216;product=Holliday junction branch migration protein RuvA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597563.1;translation=MIGKLNGKIDSHCDDYVIIDVNGVGYLVYASGKTLAKLVEGKFYKLFIETHVREEHIHLYGFLTLEEKNFFNLLQSVNGIGTKMALSILSNLTPTDIQIAINNDDRNIFKAISGVGAKLAERIMLELKDKITKIFSSSAIIKDSNISSIAINEVMKALVNLGFTRFEAQNTVQGIITQNPKISIDELIKTALKNRNSSF;locus_tag=LOCUS_2150;gene=ruvA;note=WP_004597563.1 Holliday junction branch migration protein RuvA (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.9e-107],MGA_216
sequence1	MetaGeneAnnotator	CDS	296318	296572	.	-	0	ID=MGA_217;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MWIKLCGNKLGFDMKNFIKYLFFSVLYIVVTIIIAYMVLAQTIPNDGQCHMMDRPIIIHYILAAIITALPTLILICSNSKNNKK;locus_tag=LOCUS_2160;note=MGA_217
sequence1	MetaGeneAnnotator	CDS	297316	298614	.	-	0	ID=MGA_218;product=proline--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597559.1;translation=MLLSKYFLPILKEEPSEAKVISHKLMLRSGMIMKQAAGLYTWLPLGLKVLKNIENVVRSNMNKVGALEVLMPCIQPAHLWIESGRFEHYGKEMLKFQDRHDNTLLFGPTNEDMITDIFRRNIKSYKDLPKNLYHIQWKFRDEIRPRFGVMRGREFLMKDAYSFDINQKNAVNTYNKMYKAYMNTFRDLGVFAIPVIADNGPIGGNLSHEFHIVAETGESTIYYDKRFKILKDNPDIDVEEIKGWYAAAEEKHDVNKLSSFPEGITRSKGIEVGHIFYIGSKYSVNMNALINDEYGKLIPVEMSSYGIGISRLAAAIIEANCDKKGIIWPCSVAPFKVSLINLNIHDNKCVELAAKTDKELSHQNIEVLYDDTDARPGSKFATHDLIGSPYQIIIGPKKAANNIVELKDRKTGVLEDIEVENIINYIKNIDSI;locus_tag=LOCUS_2170;EC_number=6.1.1.15;note=WP_004597559.1 proline--tRNA ligase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.3e-254],MGA_218
sequence1	MetaGeneAnnotator	CDS	298756	299328	.	-	0	ID=MGA_219;product=GTP cyclohydrolase I FolE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597557.1;translation=MSKPTREEAKEAVRTLLKFIGEDPNREGLLKTPDRVINSYTEIFSGYGKDAQEILNTKFYDICNFQDLISLEGIKFTSFCEHHILPFNGTVHIAYIPDNCIIGVSKLARIVNIFARRLQIQEKMTLEIAESVQENLKPLGVAVKISALHSCMSMRGVMHDNSVMNTMYYTGIFAEQQKYRYEFLNLIAKR;locus_tag=LOCUS_2180;gene=folE;EC_number=3.5.4.16;note=WP_004597557.1 GTP cyclohydrolase I FolE (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.5e-106],MGA_219
sequence1	MetaGeneAnnotator	CDS	299321	300853	.	-	0	ID=MGA_220;product=cbb3-type cytochrome c oxidase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597555.1;translation=MHSTNKSHNNSLANAWLKLGIISLGLGGLYSIILVVLRTPQLSSFFLNQRIFKSALIIHVNLSILIWLLSITASVWGNETSLRLVKRRGIFIPFGLLREIVTFYTFDRNDVLYIYPKLAFFATLLIAISPLAGYNTVTNNYIPMLANIVFILGLSLFGVTLLLYAINILYLFDWMKLNNLVNVTVFSTIIMFILSFVCFGWSYKSLQKIIQIIPIEIEFYYELLFWSGGHLLQFIYTQILIFIWVSLLRTITVRELKFQTFYLFILYLNFVFSILILFGHISYDIIDIAFKEFYTDHMKYLGGIAPILCLVGMVVELVLMSYRDKLVLLIYRLSTKSSKIKKDCITLSNHRTHSIIKTILLCSITLFLLGGLIAININDINLVIPAHYHGSIVGISIACMGYSYQTIIPLMDHDIHKTTKQYLITLSINWIKFAIYLLTFGQILHILGLAFSGIYGVMRKDPNSIVPMSSKLLMGMMGIGGLIAIVGGLMFVYICGKTMFFLKGMKLEYE;locus_tag=LOCUS_2190;note=WP_004597555.1 cbb3-type cytochrome c oxidase subunit I (Rickettsia prowazekii) [pid:93.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-273],MGA_220
sequence1	Aragorn:1.2.38	tRNA	301273	301349	.	-	.	ID=Aragorn_12;product=tRNA-Ile;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0120;note=Aragorn_12
sequence1	Aragorn:1.2.38	tRNA	301365	301440	.	-	.	ID=Aragorn_13;product=tRNA-Lys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0130;note=Aragorn_13
sequence1	MetaGeneAnnotator	CDS	301660	302400	.	+	0	ID=MGA_221;product=3-deoxy-manno-octulosonate cytidylyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599440.1;translation=MKNQDVAIIIPSRLNSTRLIQKPLQLIGSITLIERVFQQVNKANIHHTYVATDSEEIANVIKKISGKVIFTDSNIPTGTDRAYEAFKLIPNNHNIHYIINVQGDIPFIEHRSILKIIEYLKNSEYDIVTPVVKVDRESIEDSSNVTVAVDYTGKALYFSRSPIPHGAEEFLYHLGIYGFRKNALEKFVSLKQTFLEKTERLEQLRILENGMTIGTCLVENVPISVDTEEDLKKAIKFCKKINKLGL;locus_tag=LOCUS_2200;EC_number=2.7.7.38;note=WP_004599440.1 3-deoxy-manno-octulosonate cytidylyltransferase (Rickettsia prowazekii) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-132],MGA_221
sequence1	MetaGeneAnnotator	CDS	302407	304167	.	+	0	ID=MGA_222;product=CTP synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597537.1;translation=MVRFIFVTGGVVSSLGKGITAASLAMLLQAKGFRVSVRKLDPYLNVDPGTMNPHEHGEVYVTDDGAETDLDLGHYERFTGVTACKCDNITTGAIYSKLLKDERLGNYTGITVQVIPHVTNIIKDFIMSNTNGFDFIICEIGGTVGDIEGLPFFEAIRQIGNKLKNANCLFIHLTLLPYVKTARELKTKPTQHSVKELRAIGISPNILVCRAERNISKSAIDKIALFCNIKPEYVIPAIDQKNIYLVPIAYHNSGLENKVLNFFNINVVPSKLDKWYDIIDKIKDSNSKVKIAIITKYHKTQDAYKSVIEALNHAGIYYKYKIDVLWINAENLTEENINKKLLDINGILVPGGFGVRATQGKMIAIKYARTNNIPFFGICFGMQLATIEIAQNLIGIQDAVTEEFKIKGTKIIEKINKNCEDATIKIKNAHISKCTYSEAFECDASTVYTNIHEDSNNLSTDKLQIETNFRNMSDIEKTMRLGAYPCNLVANTIAANAYKSLEINERHRHRYKFNNEFQNIFEQHGVVFSGFSQNKQIVEIIELPELRWFVGVQFHPEFKSKPFEAHPLFIQFIKATIEYNKSNEQQ;locus_tag=LOCUS_2210;EC_number=6.3.4.2;note=WP_004597537.1 CTP synthase (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_222
sequence1	MetaGeneAnnotator	CDS	304398	305921	.	+	0	ID=MGA_223;product=nucleotide exchange transporter Tlc2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597535.1;translation=MNIVDSNCTIWHKARNSKFRHIVWPIRSYELTKFIPMTLLMFFILLNQNLVRSIKDSFVVTLISSEVLSFIKLWGEMPMGVLFVILYSKLCNIMTTEQVFRIITSTFLFFFAIFGFILFPYKEFFHPNPELINQYIIVLPHLKWFLIIWGQWSLVLFYIMGELWPVIVFTLLYWQLANKITKVEEAPRFYSFFTLFGQTNLLFSGTVIIYFAKSEHFLLPLFAHLNDTNEILLKSFITVILISGLICLALHKLIDKSVVEADKNIKFKNQRTDILKLSLLESAKIILTSRYLGFICLLVMSYSMSINLIEGLWMSKVKQLYPATKDFISYHGEVLFWTGVLTLVSAFLGSSLIRIYGWFWGAIITPIMMFVAGVMFFSFTIFEQHLGNIVNTLGYSSPLVIIVFIGGLWHVFAKSVKYSLFDATKEMVYIPLENEIKTKGKAAVDVMGAKIGKSIGAIIQFISFSIFPNAVHNDIAGLLMVTFIIVCILWLYGVKVLSQNYNKMIKR;locus_tag=LOCUS_2220;gene=tlc2;note=WP_004597535.1 nucleotide exchange transporter Tlc2 (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.3e-290],MGA_223
sequence1	MetaGeneAnnotator	CDS	306757	307701	.	+	0	ID=MGA_224;product=malate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597533.1;translation=MKKNPKISLIGSGNIGGTLAHLISLKKLGDIVLFDVSEGLPQGKALDLMQAATIEGSDIKIKGTNDYRDIEGSDAVIITAGLPRKPGMSRDDLISVNTKIMKDVAQNIKKYAQNAFVIVITNPLDIMVYVMLKESGLPHNKVIGMAGVLDSSRFNLFLAKEFKVSVKNVNSIVLGGHGDTMVPLLRYSTISGVPIPDLIKMGLSSNKNIEKIIDRTKNGGGEIVKLLKTGSAYYAPAASAIAMLESYLKDKRQILTCAAYLQGEYDIHDLYIGVPIIIGKEGVIKVIELQLTEEEKILFYKSVTEVKKLIDTIQ;locus_tag=LOCUS_2230;gene=mdh;EC_number=1.1.1.37;note=WP_004597533.1 malate dehydrogenase (Rickettsia prowazekii) [pid:96.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-165],MGA_224
sequence1	MetaGeneAnnotator	CDS	309247	310467	.	-	0	ID=MGA_225;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599438.1;translation=MPNSAFLVAFFTTIIRYYDYALFGLSASILAQNFLPSIEQDKQLLVFFAILSAAVIVRPLGSLIFGFIGDKYGRIKSIKISMFISSISTGLIAITPSFEIIGIFATVILTLCRMFFLASLAGEVDGIKVYVAEKTGDHRKNLNLGIVSCCSQIGALLASIAYYYATNSNIWYLWRLNFFLGTIFGLCAILMRNFLKESSEFLCYKNKLASKSTIQQIIKDNKLFFIIALLINGAIGGVYHFLIIFLGVFLTKIAFINHPEIKFMNIALTTTYGISAVFSGLLADKINPLKQIIFSLFASIIVALGMQIILYQKIFNMFCPIILIGFAAFYSVPLQIIVQSLFKPHVKMRLYSLSHSCGGIILSSTTPFFSMLLWQNFKSLSLTLSFFIFLLIILISTVLVLHKILS;locus_tag=LOCUS_2240;note=WP_004599438.1 MFS transporter (Rickettsia prowazekii) [pid:94.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.9e-214],MGA_225
sequence1	MetaGeneAnnotator	CDS	310919	312295	.	-	0	ID=MGA_226;product=T4SS guanine nucleotide exchange effector RalF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599437.1;translation=MDSLLKNEVIKLFNDKPKSGIARIKKWCTDNNQDFIAETAKIFYEEKSNLNLEFVGDYLGTDGVDNQKVLESFTKQFDFKEKDYLESLRRFLQSFKLPGEAQKIDRLVESFGTHYYEQNLNIDINSKDAAYILAYQTIMLNTDLHNPSIAKSKKMTFEQLKNNLKGTNESKNFNDNFLKKIYDEIEAKPFKLNFVDSSPGYQINNISSQNDKTFKQLNQFLEEKRNIQNIFPKLQNNNLTIEFKNPKTFLSKFTGYKGSVIIKDEKSGAAEIQVYKPSIFSRWFLGEKSKIIIQPLREEGRQPSEQSLKLAAQITASFETKVTSIKATYDYLKEDLKSQYDNIRNPKKELEKASAIAEGHKNIKYITEIVHQINQPVKNAVAVFSSTISVEPQISKSDLPIKPPQLPVPKSIPNVVKKAAKDISKQIPHERDKHKEELAKALEIQRRKIEKQNSGRVV;locus_tag=LOCUS_2250;gene=ralF;note=WP_004599437.1 T4SS guanine nucleotide exchange effector RalF (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.7e-263],MGA_226
sequence1	MetaGeneAnnotator	CDS	312556	314859	.	-	0	ID=MGA_227;product=NADP-dependent malic enzyme;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597525.1;translation=MDEMNKINYTEALEYHEKDKPGKIAITTTKSLVTQQDLSLAYSPGVAAPCLEISKNLEAVYKYTSRSNLVAVISNGTAVLGLGNLGAAASKPVMEGKAVLFKKFADIDAIDLEVNTEDPIEFINAVKYLGYSFGGINLEDIKAPECFLIEEKLKSLMDIPVFHDDQHGTAIITAAGLINAAYLTNRTLKDLKIVINGAGAAAIACIDLLIALGVDKSKIILCDTKGVIYKGRTSGMNKWKERYASDTKIRTLTESLNNADVFIGLSVKGAVTKDMISKMAHKPIIFAMANPDPEITPEDIKFVRDDAIIATGRSDYNNQVNNVMGFPYIFRGALDVRASTINTEMKIAAARAIADLARRPVPEEVYKAYSGRKMVFGNEYIIPVPFDPRLITVVATAVAVAAIESGVARVKDFSIDKYKQQLGSRLNPTANYMNFLAEKIHNVPLKRIVFAEGEEEEVISAALMMRDEKYGNPIIIGRVERIEVTLKKIGKDISLAGIQIMNAALSDRLEQYTDYLYKRLQRKGYLYRDCAKLVKTDKNIFAACMVACGDGDALLTGVTKSYIDSLEDIIKVISPKQNRRILGYSIMIAKDHNIIIADNCITEYPNSLELAQIATQTAEIAKNMGITPRVALIAFSTFGNSSKEKTVRIREAVNILDNFSKDKKKLNGIKVDFEYDGEMSVKVALDHDLRKLYQFCRLSGSANVLIMPGLNSAAISTELLQKFSSNSFIGPIINGFAKPVQILPTTATANEILKIATFACVEAIKEV;locus_tag=LOCUS_2260;note=WP_004597525.1 NADP-dependent malic enzyme (Rickettsia prowazekii) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_227
sequence1	MetaGeneAnnotator	CDS	314962	315933	.	-	0	ID=MGA_228;product=AEC family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599434.1;translation=MNHGFTIKAINKHMNEIFCSTLPIFLITLLGSIIKNKWLTSEEVWRGIEKLSYFILFPAMLFNYVSTADLSVTSIIKLVVALIISTILVSLGLIIYQKKCNIDKVQFTSIFQGSIRYNSYIFFGVSSPLLGPSGLSIVAVISSYMIIFTNILSAMIFAYYIPNKSVTNTLRTSFVLMMKLIIRNPLIIASLVGFIFNYSNLELYLGLKKTLDSLSNAALAIGMLNVGAGLNFTIRQELLHNVMLTSFIKLVAFPLVSVIVLWLMSIEGINRSVGILYSCLPCASTAYVLSRQLDGDPDSMASIITFTTFFSVITISIIMYLMG;locus_tag=LOCUS_2270;note=WP_004599434.1 AEC family transporter (Rickettsia prowazekii) [pid:97.4%25%2C q_cov:96.0%25%2C s_cov:100.0%25%2C Eval:1.5e-164],MGA_228
sequence1	MetaGeneAnnotator	CDS	315964	317550	.	-	0	ID=MGA_229;product=lysine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597521.1;translation=MSVVLEDAIRSNAWPFIEAKKILDSLNGKAPEKGYILFETGYGPSGLPHIGTFAENARMVMVQKAFEQLSDIPTKLICFSDDMDGLRKVPSNIPHPEMVAQYMDMPLTSIPDPFGKCKSYGHYMNAKLCAFLDKFGFKYEFYSSTNCYKAGMFDEMLIRVLEKYDEIMALMLPTFRDERKTTYAPFMPICPKTGKVLQVPIEKWDAKAGTVSYKDEDGNDVEVPVTGGHCKLQWKPDFGMRWAALKVDYEMYGKDHLANSRLYSEICRILGGKPPVQFCYELFLDANGEKISKSRGNSISVDDWLKYASVESIALFMYKNPARAKRLFFDLIPKNVDEYITLNQKYHLEEDMVTRFANPVYHIHHGNVPKIETFGLTYSLLLNLTAVCNTSDKSVLWGFITKYEPKATPNTSTYLDHLTEFAIRYYNDFIQTHKSYLVVSEKHKIILHDILDMLSNISDQTEEESIQKAIYDIGMKSGYENLRYYFKDLYQILLGQNEGPRLGTFIKLYGVEETKKLVEEKLLCHTVA;locus_tag=LOCUS_2280;EC_number=6.1.1.6;note=WP_004597521.1 lysine--tRNA ligase (Rickettsia prowazekii) [pid:99.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_229
sequence1	MetaGeneAnnotator	CDS	319431	320174	.	-	0	ID=MGA_230;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597517.1;translation=MKPYLYAEKIQFKVSARSDPIILETTLNIAKEEFVVILGHNGSGKSTLAKILAGYLKPTSGQVFLDQVKIDKISQKHKALMLVTITQKIEDRLFTELTLEENIILWESRYHSNERLTSSDVLELTGSPERFLPLLSQQLGKFSGGEKQVILLALSIAHPPKILFLDEHTANLDPKASLEVIKKTAKIIENHKITAVMITHNLEAAVHYGKRLIVLDSGKIVLDYLKPQNFSLKELRVILSSKINIEG;locus_tag=LOCUS_2290;note=WP_004597517.1 ABC transporter ATP-binding protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-134],MGA_230
sequence1	MetaGeneAnnotator	CDS	320171	321013	.	-	0	ID=MGA_231;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597515.1;translation=MNILITALEQSLIMLPLILGMYISYRILKITDLTVDGTYVLGAAVFARTIPFGLFHALIFAIIAGGINGSIVSFMQRNKRINGLIAGILANFMLYSVNLQIMQRPNISVLGMPTLLSILDLDNWLVPLILINSFIIVIVLILLKGNLGLFLRAFGFNKDLLIDLGKPAELYRMLGLSISNGLAALTGTLSAQVNGFADINMGYGVALVGIGAIIIGRQIFLNNINNFNALKEIFACFIGILFYFISLSILLYIGIDPINLKLILGIVLFISLSSVKREDL;locus_tag=LOCUS_2300;note=WP_004597515.1 ABC transporter permease (Rickettsia prowazekii) [pid:87.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-127],MGA_231
sequence1	MetaGeneAnnotator	CDS	321024	321935	.	-	0	ID=MGA_232;product=ABC transporter substrate binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599431.1;translation=MFISNIFQKFFSFLFVLLITTLVCADPKKVAVIVPLEHDSMYKIVSGIQEALKDIDVEILVKNAHADPNILLAIINQIKDHDIDLIIPIGTTVSQTTISHIINKPIVCAAAIINGKNLPLVTGVNDEIKITDTISKLPFLENITLIYSSSEKVIPEVEMLKLYAKNNNISLYTAMIQNLNDMPIAVKNAPKNTQSFIILKDHLIVSGINILKQEAFVRRIPLIASDEGSVINGATIAVGVQEKQIGVEAGLMAKKILQGIAPKDIPFSDMKDFTLFINLKSFLKQDILTQENLSVLPFKHKEF;locus_tag=LOCUS_2310;note=WP_004599431.1 ABC transporter substrate binding protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-166],MGA_232
sequence1	MetaGeneAnnotator	CDS	323781	325271	.	-	0	ID=MGA_233;product=apolipoprotein N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599430.1;translation=MYKTKIICLLLGILSGLVFAPIFFIPALFTFSYLCYIVQKSQNWQVAAKFGYLFGFGHFLSGMYWISIGVSVYIADFWWAIPFALFGLPIILAFFISANCTLSFFAKNNKYYQLIFCLLWVLFEWIRSWILTGLPWNLIGYAFSFSEILIQPLSITGIYGLSFIVIYISTSAYPVFTKKFTQLKILLASSMLILTVMVIYGAVRVSTNPTNFTDIKVRLVQPSIPQTAKWDQEEFWHNLMLHINLSENLEPTDLIIWSEAALVVPDDIPQVKLKLLNMLNSTNAILITGGISDNKKHGDQFELYSAMYALDKNNNKLFEYHKSHLVPFGEYMPLKNILPFKKLTHGLIDYKEGDGGLVYIKKYHLKIKPLICYESIFPNFVRTNNEIVDVIINITNDAWYGKSSGPYQHFHISRSRAVENGLPMIRVANNGISAIVDPIGRIVKKLNLNEINYIQGLIPQKLTTPTIFSQFGNFAMLLSIVFIILIHYLLSLIFDE;locus_tag=LOCUS_2320;gene=lnt;note=WP_004599430.1 apolipoprotein N-acyltransferase (Rickettsia prowazekii) [pid:99.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-292],MGA_233
sequence1	MetaGeneAnnotator	CDS	325347	326132	.	+	0	ID=MGA_234;product=enoyl-ACP reductase FabI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597508.1;translation=MTTGLLQGKKGLITGIANNMSISWAIAQLAKKHGAELWFTYQSEVLEKRVKPLAEEIGCNFISELDVTNQKSISNLFNDIKEKWNSFDFLLHGMAFANKNELKGRYVETSLENFHNSLHISCYSLLELSRSAETLMHNGGSIVTLTYYGAEKVIPNYNIMGVAKAALEASVKYLANDMGENNIRVNAISAGPIKTLASSAISDFSTMLKSHAATAPLKRNITQEDVGGAAVYLFSELSKGVTGEIHYVDCGYNIIGSSKLL;locus_tag=LOCUS_2330;gene=fabI;EC_number=1.3.1.9;note=WP_004597508.1 enoyl-ACP reductase FabI (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-146],MGA_234
sequence1	MetaGeneAnnotator	CDS	326323	327483	.	-	0	ID=MGA_235;product=DUF5410 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599429.1;translation=MATKNKKEIVNTETKNLANLIIKEISKESFDFGILQKMQQAFSTASKQKQREAFINILDTKLDKEQLHKLNQTIMKNANELMPDNDPNFVCRTSNNKVFQEILLLEAKRSGMQARFSDTGALQSLDIKDITPEILDHYRVLQEKFYLKRNSKDSVDSRIAQSINFLLYAPLFRESDIYKKLGLKSAEIEREIQDPNGKYVQQLIDAKIGSNIPFHMQKNNVNEGKEIERTAIIEKAITKFEQDKKFSFEGKKRDEITKYLSKSLEGASDYILTFKKNELVDVIYQGLDKGQTLWSKVANYIGIKSYSISKENLKSVAKIINDKIKSSHTPLKIEVQDKLKQISKELNRLNNPVLPSEAQKVQVKSNKKPPIAPKPEHLKKRDHGLC;locus_tag=LOCUS_2340;note=WP_004599429.1 DUF5410 domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.0e-218],MGA_235
sequence1	MetaGeneAnnotator	CDS	327620	328321	.	-	0	ID=MGA_236;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVCSDSLHELNQKIMQHAPDLVHSKDLTFVLRVDNEDILRKLFYLEAKRNNFSVEINEEWTLKINFPSKILELYKLLINNFYLKNFAKEELQKELYKELFPNCQIPFEQLIEEVSFFENFIECLKEFNIKKSLAQSIMFLLVSKYIEEHDVAKSLFKSESFKKVSELEKFKPYYDINKCDEVDNYVFNCILNDVKGPYIKNLSSSILDLVNHCQPDCEIVSIEILGNSAVLV;locus_tag=LOCUS_2350;note=WP_011190814.1 DUF5410 family protein (Rickettsia typhi) [pid:88.4%25%2C q_cov:100.0%25%2C s_cov:70.4%25%2C Eval:6.6e-115%2C partial hit],frameshifted%2C insertion/deletion at around 328397,MGA_236
sequence1	MetaGeneAnnotator	CDS	328383	328634	.	-	0	ID=MGA_237;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLKEKMFSCICKPSTIDQSSTTEKYLRFEKKRVGRFNICTVLSNKNLEKAGNFTVIQNVDNEDKIFIIRIINNILQKKNYIR;locus_tag=LOCUS_2360;note=WP_011190814.1 DUF5410 family protein (Rickettsia typhi) [pid:60.8%25%2C q_cov:95.2%25%2C s_cov:22.1%25%2C Eval:1.2e-17%2C partial hit],frameshifted%2C insertion/deletion at around 328397,MGA_237
sequence1	MetaGeneAnnotator	CDS	328700	329635	.	-	0	ID=MGA_238;product=site-specific tyrosine recombinase XerD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597501.1;translation=MEFIAQFLEMLLAERALSKNSILSYKRDLLDFQHYLAAQKISELNITTGNIRKWIEYLASNNLHARSINRKISTIKSYYAFLISENHTKFNPVLNIDLPKYQNKLPIILSIDQIKLILEYCSKDNTPEGIRLNAMINLLYASGLRVSELVSLKLADILTNNTSKGTVRKIFSVLGKGNKERVIVINDQAVLSIIKYLEIRDFFINKAKSKNLIYLFPSSAVAGYMTRQNFAILLKSVALYTGLNPEHVSPHILRHSFASHLLEGGADLRVIQELLGHADISTTQIYTHLHTNHLKKALLHHPLNKNSFILS;locus_tag=LOCUS_2370;gene=xerD;note=WP_004597501.1 site-specific tyrosine recombinase XerD (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-173],MGA_238
sequence1	Aragorn:1.2.38	tRNA	329658	329732	.	-	.	ID=Aragorn_14;product=tRNA-Cys;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0140;note=Aragorn_14
sequence1	MetaGeneAnnotator	CDS	330232	330699	.	+	0	ID=MGA_239;product=DUF2155 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597499.1;translation=MKLLQIIFIITIYINLHIFVLAENLESVEDSENDVFIPLDKNHPILNQKDNIYSAEFKNYTNGKIIALNKITATSEEIGLKAGEEKYFGNIKIKLHKCIKNLDPYNQDNYLLMTITEYKIDEDPTLLFQGWMVSSSISLSTFEHPIYEIFAKDCF;locus_tag=LOCUS_2380;note=WP_004597499.1 DUF2155 domain-containing protein (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.3e-83],MGA_239
sequence1	MetaGeneAnnotator	CDS	330700	331917	.	+	0	ID=MGA_240;product=O-antigen ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597496.1;translation=MQYLILSLIFLIPSLGMLTGLSIAATVAFFLLSIIITGFISFIQKQEFNKKFFIKLYPRFGFDDIFCIINKIKTELLFTAWCFISCLFAVHPINSLVTFTKVFVLLFLRFVSNAVTFQNVLYIKNSLILGIITAILLFFIEYSSHGFLTRMFKTHFGLYMLDRGCALLSITTWVAIIILFSNGHNINSFILYIVVLYLLSISDSLASFLGFSIGGIIFILARLIKTIFFKLITISLITGSLLFPVIAKQIDPQNLSEKYLATQPSAAHRLFIWHFVANKIIIRPILGYGFASSKYIETGDNAMIDYRGEKLHPLPLHPHNNILQITLELGILGLALFLCLVYKYLKEIDNIKVSNFRAASYSCFINYYIIGMISYNIWQTWWILSGIWILVLMKLLVKPDIIIDN;locus_tag=LOCUS_2390;note=WP_004597496.1 O-antigen ligase (Rickettsia prowazekii) [pid:95.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-220],MGA_240
sequence1	MetaGeneAnnotator	CDS	332048	332419	.	+	0	ID=MGA_241;product=NADH-quinone oxidoreductase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597494.1;translation=MLQNSELLQEYLPIAIFFGIAVLLSVLIMILPNLLSTKKYNKDKLEPYECGFEPFSDARSKFDIRFYLVAILFIIFDLEIAFLVPWAISLNTIGKMGFFSMMFFLFVLIIGFIYEWTKGALDW;locus_tag=LOCUS_2400;gene=ndhC;EC_number=1.6.5.9;note=WP_004597494.1 NADH-quinone oxidoreductase subunit A (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-66],MGA_241
sequence1	MetaGeneAnnotator	CDS	332424	332948	.	+	0	ID=MGA_242;product=NADH-quinone oxidoreductase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597491.1;translation=MEHDFYQEDELLNSGLTNRGFLLSKVDEVISWARANSLWPMTFGLACCAVEMMQAAASRYDMDRFGMLFRPSPRQSDLMIVAGTLTNKMAPALRKVYDQMTEPKWVLSMGSCANGGGYYHFSYSVVRGCDRIVPVDVYVPGCPPTAEALIYGLMQLQKKIKRTTGFKYDSRQTH;locus_tag=LOCUS_2410;note=WP_004597491.1 NADH-quinone oxidoreductase subunit B (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-100],MGA_242
sequence1	MetaGeneAnnotator	CDS	332926	333519	.	+	0	ID=MGA_243;product=NADH-quinone oxidoreductase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886275.1;translation=MTLDKLIEKLAAKFRIVITKVAVKDHLAYKIEPHFLLPFLKALKESEELRFTVLTDLFGVDFPKKEKRFEVVYNLLSLKLNKNLIIKTHISEKESIPSAMQILSAAYWYELEVYDMYGVNFNGNNDKRRILTDYDFEGHPLRKDFPLTGYTQVKYDKKLEKVTYEPVNLDIEYREFDFSSHWHSPSYVLPGDEKAEE;locus_tag=LOCUS_2420;EC_number=1.6.5.9;note=WP_010886275.1 NADH-quinone oxidoreductase subunit C (Rickettsia prowazekii) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.8e-109],MGA_243
sequence1	MetaGeneAnnotator	CDS	333729	334898	.	+	0	ID=MGA_244;product=NADH dehydrogenase (quinone) subunit D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886274.1;translation=MTNKTITLNLGPQHPATHGVLRLILEMDGEVVNNADPHIGLLHRGTEKLIEHKTYLQAIPYFDRLDYVSPMCQEHAFALAVESLLECSVPRRAQFIRVLFSELTRILNHTLNIGSQALDIGATTPLLWLFEEREKIMEFYERVSGSRMHSNYFRPGGVAEDLPENLLEDINKFIEQFPSKLNDIENLLNENRLWKQRLVDIGVVSQKDAMDWGFSGPMLRGSGIAWDLRKSNPYDVYDEMDFEVPIGKNGDCYDRYLVRILEMYESIKIIKQCIVKMPKGQVKTDDPKLTPPTRGKMKESMEAMIHHFKLYTEGYDVPIGETYKAVEAPKGEFGVYLYSQGGNKPYRCRIKAPGFAHLQGLNFMSKGHLIADVITIIATLDIVFGEIDR;locus_tag=LOCUS_2430;gene=nuoD;EC_number=7.1.1.-;note=WP_010886274.1 NADH dehydrogenase (quinone) subunit D (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-230],MGA_244
sequence1	MetaGeneAnnotator	CDS	334965	335498	.	+	0	ID=MGA_245;product=NADH-quinone oxidoreductase subunit NuoE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597486.1;translation=MNTKITNFTFAFDKKNLNLAETIIKKYPPEGKRSAILPLLDLAQRQNGGWLHVSAIEYVANMLEMPYMRAYEVATFYTMFNLNPIGKYHIQVCTTTPCWLRGSDNIMKICEKKLAIKHKETTKDQKFTLSEIECLGACVNAPVVQINDDYYEDLNEAKMEKLIEQYLNEFKSKMQNG;locus_tag=LOCUS_2440;gene=nuoE;EC_number=1.6.5.9;note=WP_004597486.1 NADH-quinone oxidoreductase subunit NuoE (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-101],MGA_245
sequence1	MetaGeneAnnotator	CDS	335491	335739	.	+	0	ID=MGA_246;product=membrane protein insertion efficiency factor YidD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597484.1;translation=MAKILLLIITFYKYFISPLLGNNCLFHPTCSEYAKEAITTHGSIKGLWFTFRRIIKCQPFCSGGYDNVPTSIKNSKTPTKKI;locus_tag=LOCUS_2450;gene=yidD;note=WP_004597484.1 membrane protein insertion efficiency factor YidD (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-44],MGA_246
sequence1	MetaGeneAnnotator	CDS	335991	336644	.	+	0	ID=MGA_247;product=DNA-3-methyladenine glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599421.1;translation=MNKLIPLPREFFARDTNLVSTELIGKVLYFQGTTAIITETESYIGEDDPACHAARGRTKRTDVMFGPAGFSYVYLIYGMYYCLNFVTEDEGFPAATLIRGVYVISHNNVYTIDTAKIKSQITDEKTQSIIIRKNRRIMKFYIPNLKASNLYLNGPGKLCKYLGINTSYNKCDLINNKDFFVSDIGLNLPYYSTTRIGITKGTDKLWRYIVTDPKMLY;locus_tag=LOCUS_2460;EC_number=3.2.2.-;note=WP_004599421.1 DNA-3-methyladenine glycosylase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-125],MGA_247
sequence1	MetaGeneAnnotator	CDS	337241	337483	.	-	0	ID=MGA_248;product=exodeoxyribonuclease VII small subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597479.1;translation=MTNTKTLKDNISFEEALRELEEIVKKIDTGQENLETAVNSFERGILLKNHCEKKLKEARLKIEKITKLADSTVILEETEV;locus_tag=LOCUS_2470;EC_number=3.1.11.6;note=WP_004597479.1 exodeoxyribonuclease VII small subunit (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.8e-38],MGA_248
sequence1	MetaGeneAnnotator	CDS	337518	340124	.	-	0	ID=MGA_249;product=AsmA-like C-terminal region-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597477.1;translation=MIKKIVVGIIICFTLLFIIFSVLPFVNYNSVTNNLVNHFGITRENIRKIQIHKFPFPYLCIDTIKEDGKFDLEQIKIHFSLWSLIKFNPKINQIDILDAKFYASSNVINIYNHEELIKNFFKYKLQNINLNITNLSIFNKQDYSILNFNNCILKKENALSSNYIFTITSNNIGKISGSINKRDDIVDFRLNIDNNDYSSKLSQLYKDFKLTSGRGKCQIKNLASVIYTILPDLKDLLNKFNQNEPVNIKFNISNNADEIELKDIVIESSFIIGNGFVNIAKNTNITTNVKLDFHKIDLSSLILPNAVVTFNTFGSNIRFIFADKLLKANVAINEIILSNNEALEKIVFAANLSKGTLNINELSGNIKSGGEFRLTGNVTQNAVRSMFDGKLYLKHNDMNSLLSILGFNNLTIQESVPFVLSSDLKLTLIDLFFKNLLLKTDNLNLSGSFSSKFIAQTPRIDATLNISSLDLSGKSYPIISPIIRFTENLTKDMQTLDYPSKFIPIRTIGYLANLDILIDSVKYHDHVFDKMNLLAKILPANIKISNLDFKTAHSSLSTRLHLDTSSVLPSLTVEIKDGHLTTDLLSLREMLNLRNKLVNEYSLNNAILQFYGTLSTLSQNNFIFRNVKFYLANHNNLLQFNNIEAELLGGKFQGSGNILLEPYSINFVYAVNTIDLNKILALMHNIFTWSGGKVSISGSLWTNGNSLQSQLYNLSTKSQFVINNIDVNNFSIDSFIEKINKSDYNVQNLDNDINSSITTGRTNIRDISGDIELQKGIVLLKNIKFATQYSSGAASCTVNIYNFDIDSSSILSFYIPDKFVKLNNLHTSSDKVSLTQLNIRMHGSIFEPKKTFDSSKLKTILIPQTTYE;locus_tag=LOCUS_2480;note=WP_004597477.1 AsmA-like C-terminal region-containing protein (Rickettsia prowazekii) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_249
sequence1	MetaGeneAnnotator	CDS	340190	340687	.	+	0	ID=MGA_250;product=ribosome maturation factor RimM;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599419.1;translation=MNSLKNLILIGVIKSCHGIQGHVILKSFTEPSTKILERTLVNESGANIRIKLISQNAKGELICTFNDIATRNEAENLKGYKIFCLRTSLPKLEEDEFYIADLNHLQILDQSNKEIGKIKNILNFGAGDIIEIEFLDKTTELLPFNKEFFPIITKDYVILNYQTKV;locus_tag=LOCUS_2490;gene=rimM;note=WP_004599419.1 ribosome maturation factor RimM (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-89],MGA_250
sequence1	MetaGeneAnnotator	CDS	341355	343844	.	+	0	ID=MGA_251;product=AsmA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886272.1;translation=MPKALKYSLIIFITIILLLIIIPFFIPLNNYKGVLIDKVKEATNRNLTINGDIKLSLLPTPTISLSEIKLSSINGAKVPHLVSVEAVKASLRLFPLFRGVIEVALIELQKPTISLEVLDNGQKSWQLYISNNNNTINNNNTVQSNYTQTVLELPILISHLKIKGGKVIYIEKNNEKIFNDINLETKMKSIKGPIDFTIALNALQQQIHIDGHVKEIGKIIPLSTNINLAGAKIKIDGKFDSKNNSFIGNANIKGNTKTLGMPYDLNNDYTLTMSISACSKNINIRDARLHYPNIELLANTNYDMERNNLESNIIVNPGNLITKIQSNLDKTNILLQADSLKPILDALKLKTDELPPIINQKLILTTNVIRDPQAIKLQNINLSATNSNITGEIVLKNLTENIIILHNLKINNFELFMSLIGVNNLSKIGILQLNGEVQKVKDTFNINNKISVLNTNISIKGDINLANQKPNFNLKLYSPLVNLDKIFSSNSAINTSNKTNNPSNHNIDTDKNNSPWSNNRINLGFLNEIEGQLSANIDKVTNNSLIINNLKAKLNIIGGKLNINAVNGSIYGGELNSTGYINSGKEQDVAIKINLKNAYLKRLTAQSSKIKITDGLLSFTIDLTSHGNSVYTYVNNLNGQFNINSDNGEISGFDLNQIAHAIDNAKNIEGVLSLINSSFRTGSTSFKNLIVHGNLKQGNLNLNKCILDAAPVTASASGQINLPQYVMNINTSINIAKLPPITVKLHGFINNMHYKLDTHAIQNYLVKNVFRVIKDLKNSKKKSENIIQNALDLRKTKDIDIKKESSNIQESEQVDPVNTLLQKGLKKLF;locus_tag=LOCUS_2500;note=WP_010886272.1 AsmA family protein (Rickettsia prowazekii) [pid:95.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_251
sequence1	MetaGeneAnnotator	CDS	344390	345322	.	-	0	ID=MGA_252;product=heme o synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886271.1;translation=MSSLVTQINFNKINNSQSTVKDYILLMKPRVMSLVIFTGFVGMWLAPDSIHPLIAGIAVICIALGAGSAGAMNMWYDRDIDILMKRTQNRPIVRGVIEPDEALSFGLITGFFAVFFMALCVNILASFLLLFTIFYYICIYTIWLKRRSIQNIVIGGVSGALPPVIGHAAVSNTISLESIILFLIIFIWTPPHSWAIALFCNDDYKHCKIPMMPVVKGTLYTKKQILIYSIILFIVSLMPFFIGMNNDIYLIIVCIIGLVFLYYAFSLFYDTPDNKQAKRFFTYSIFYLCFIFILLSSTSTIHSLRDIIFG;locus_tag=LOCUS_2510;gene=cyoE;EC_number=2.5.1.141;note=WP_010886271.1 heme o synthase (Rickettsia prowazekii) [pid:94.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.2e-168],MGA_252
sequence1	MetaGeneAnnotator	CDS	345435	346052	.	+	0	ID=MGA_253;product=30S ribosomal protein S4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597472.1;translation=MTKIVRSKYKASRRLGVSLWGDSKDAFNTRNYRPGQHGQNTMIKTSDYGLHLKAKQRLKCYYGRVTEKQFRNIFALAQRMKGNTGENFIGLLESRLDTVVYRMNIAPTIFAARQLVSHGHIKLNGKKADIASIRLKEGDIIEIKESIQQIPLIQESISKQGQTTPGYLSFDIPSLTGKYLRVPALSDVPYPFEAEVHLVIELYSR;locus_tag=LOCUS_2520;gene=rpsD;note=WP_004597472.1 30S ribosomal protein S4 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.8e-114],MGA_253
sequence1	MetaGeneAnnotator	CDS	347293	348462	.	-	0	ID=MGA_254;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597471.1;translation=MPALKSSKRYNKYTILQVVPALVSGGVERGTIEVAKYLKILGHTPIIISAGGTLVKELDKEDILHIEMNSSSKNPCIIVNNAKLIAEIIKKYHVDIVHTRSRAPAWSSYLATKWTNAKFLTTFHGVYNIPNSFKKYYNSIMLKGEKVIAVSNFVKQYLLKNYKVDESKIVVIERGVNCDYFDPANLTPEKLKKCSDKYDAPSNVPIILMPSRMTSWKGHLVLVEALSKLKHRDFYCLMVGDISRHPNFTNRVKELIATLKLQNKIQIFGNDSDIISLYGISDIIVSASIEPEAFGRTIIEGQAMEKLVIATNLGGAVETINNNITGFHVEPNNAEALAQKIDYCFSILGTDTAKKIQEAARHTVIDNFSLDLMLRKNLEVYKEILKNSY;locus_tag=LOCUS_2530;note=WP_004597471.1 glycosyltransferase family 4 protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.4e-223],MGA_254
sequence1	MetaGeneAnnotator	CDS	348495	349253	.	+	0	ID=MGA_255;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886270.1;translation=MHKLYNKTQDKFIVYDNYRIINTNIPSVIFLHGLMSSMQSTKAIYLIDYCKKNNYNFIVFDNFGHGNASGQFEDQTISDWLEGVALILDKLIDTEAILVGSSMGGWLALLAALRFPDKIKWLICVAPAPDFTENIWQNISLDDQNKMKKEGIIEVSSENCKHKYPISYKLIEDAKKHLLLRKQQIEINIPVHIIHGMLDKNVPYNVSVKLLEKITSKQIVMKLIKDGNHNLSREEDLKVITNSLEEMISNIK;locus_tag=LOCUS_2540;note=WP_010886270.1 alpha/beta hydrolase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-144],MGA_255
sequence1	MetaGeneAnnotator	CDS	349263	350057	.	+	0	ID=MGA_256;product=DUF2608 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599414.1;translation=MYRKINKVHDFKEVIRAIDQTDNTSLVLFDIDEVIVMDSHESRLTHDYRKELMENIEARLTRKECELLLSIILKTKKARFVNSDIIKIFALLKAKNIPAMGLTKLPTGKFGIIEDMIAWRMHELTELKVNFQEFSPLKDEIIIEDYNAGYGKPTLKDGIIYTAEYDKGIVFEYVLSKTNYYPQSIIFIDDIEENLLSLQKTCNKLKINYQGFEFTGSAIIPEPKLDAQLEKIRFEILEKEYKWLTDEELKKHILSSSILSTVSN;locus_tag=LOCUS_2550;note=WP_004599414.1 DUF2608 domain-containing protein (Rickettsia prowazekii) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.9e-146],MGA_256
sequence1	MetaGeneAnnotator	CDS	350113	351138	.	+	0	ID=MGA_257;product=efflux RND transporter periplasmic adaptor subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411683.1;translation=MIPIQIIIYMPAKLIILITLLISLSTIAHKKEEEKIIDVKATKIQIAKLYDVFNIVGQCQNDNSRDYYANTTGVVEKVSAQQGKIVKKGDILLVIDQNIAETTKSRASALLDIRQEDYNRKEALFAKKFVSNEAYKMSKSALEDAKLNYSKALKIYNDMIITAPYSGKIGVIKYMVGDEVKIGDYLFSITGTENEQSIFIELPESLSEKVRVNTEVLIEGKIKSTIDTVSHYLSENGTFTAKIILPVGTKILHNSFVDVKLIINPHQNLTIPESCIQRNNQGHFIYKIIDGNTVKQVYVQIGTRTEGRIEITSNDIKEGDLVVIEGMTKIDDGSKVKIFDE;locus_tag=LOCUS_2560;note=WP_014411683.1 efflux RND transporter periplasmic adaptor subunit (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:97.4%25%2C s_cov:100.0%25%2C Eval:5.7e-181],MGA_257
sequence1	MetaGeneAnnotator	CDS	351151	352167	.	-	0	ID=MGA_258;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886268.1;translation=MDQEKSKIVQSFIFYSPGIHSGGGLVLLKEILNVKDFVNNCKYIYLDERVRSKLNFSHFFKNIIFIKSRLLGEWKLRKNCEMSDTVLCFHGLPPLFPIKSKVIVFLQNRLLLEPLKNNRYSILILIKKIWLRLGLKFNNIRYIVQTESMLRIAKEFLDQDIDIAVLPFSPKTIQKNLNHTKKYDFFYPASGEAHKNHFNLLKAWKILAGIGIKPSLALTINTELYPELLEQIQTYQLDIVNLGEISYNEVLDLYTQVSVVIYPSKSESLGLPLIEATVYKIPIIASELDYVRDVSNPIETFDPNSPISIVRAVRRFLNNNESLIVLNSAAEFLEVICK;locus_tag=LOCUS_2570;EC_number=2.4.-.-;note=WP_010886268.1 glycosyltransferase (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-189],MGA_258
sequence1	MetaGeneAnnotator	CDS	352143	353099	.	-	0	ID=MGA_259;product=glycosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599412.1;translation=MKQNIYSPLVSIIIPVYNGANYMREAIDSALAQTYKNIEIIVVNDGSKDETETIALSYGDKICYLYKENGGCGSALNCGIKNMKGKYFSWLSHDDVYYPNKIEHQINILNKLDNKDVIVYCGYELIDQKSHSLYCVKPDQRYSKEKLDISLFPLLHSLIHGCTLLIPSILFQKIGLFDESLKYTHDYDLWFKFFRVSSIYFDHEVLIKSRIHAAQTTNTALNQLEEYEDLWSGFLKKLTKEEMIMIKGSTHQFLSDIAVFLKKNGYIKSYQLALAMTDQKIIGGFYTSIITEIIYSLRRHGINTTITKIYKWIRKSRK;locus_tag=LOCUS_2580;EC_number=2.4.-.-;note=WP_004599412.1 glycosyltransferase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-185],MGA_259
sequence1	MetaGeneAnnotator	CDS	353096	354133	.	-	0	ID=MGA_260;product=acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011190792.1;translation=MTINNSRIVWVDLTKSLAIFMVIIIHSIALSFYKYSFVPFSKNFIISNFINSFCRVAVPLFILLSGSLALHNSMPIEKLWYKVQRLLIPSIFWSILYKYWVSYNIGEQFNIFAVLNSIIHEPAMYHLEFVYYMLGVYLLLSILVLIVNEMIKDTKFAYYFLILWLSLNTVNTYYYLSIIDLIAIGNVFKYSGYAILGSYLIRKNIGSKFPTYCWLSLYCIGSIFTFVVTWKLNINSSIPDETAYVYLAPNVIIASIGIFLVLQTMNVPVYYHKLLKCISDNCFCIYFIHVWLLDRLQYIAIEFSKFNHVNYPVTGSLALAFITFIISLLVSILIRLIPHSNKLVG;locus_tag=LOCUS_2590;note=WP_011190792.1 acyltransferase (Rickettsia typhi) [pid:86.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.8e-173],MGA_260
sequence1	MetaGeneAnnotator	CDS	354120	355331	.	-	0	ID=MGA_261;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597463.1;translation=MKILLLTDIPPCENYTAGLVLNPLVKFLPLDEVVICSVANPALEFKIPKELNKIPHLKLFKPIEAAIRYKKGIIGDLIAYGFELLNAATVKYFLLPKIIKFAKEHQVGAIWSVLQGQTIIRLTGPLAKKLSVSLFTQIWDPFEWWLRSNKIDRLTQKRLLKEFDLVIKHSICCATASWAMSESYKTKYNTPTIPLIAGLSKELARVPAISPHNRNEYIISIAGQFYAQSEWLSFINALNQVNWIIASKKIKVRVMGQGFQVFTQLYANFEYLGWRSQEETIGLLAESDLLYMPYWFSKEFYKESSTSFPSKLVTYFASGRPVFCHAPEYSSPSKYIAENNAGYLCNSLSTDRIIYELERAIVDEVSYKTFAENASKCFLRDFILERMQATFFKFLNRNDNDNK;locus_tag=LOCUS_2600;note=WP_004597463.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-235],MGA_261
sequence1	MetaGeneAnnotator	CDS	355328	356551	.	-	0	ID=MGA_262;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597462.1;translation=MKILQINGYESPGRRFHGLSITQILKKYGIESKHLVWAKDTQDPEVLTFEGIIPRKINQILQLIENQTSLQSILYRNVSKIIKMPAFQEADLIHLHIIHSGYFSISDLSMITDLKPTIWTLHDPWAMTGRCIYPMGCLGWRKDCGVCPDLNTPFAMKKDNSRFLFNYKRMAYEKANFDIIIASKWMKDMVYSSPMFNDKEIKIHHLPFGIDLEFFSSDFTVSARKRFNISEDKIVISFRSEDTHFKGYQYIMAALEKLETTKSICLLTVGRHNTLERFRGKFDIIELGWTNDDVLLRDVLSACDIFLMPSVAEAFGVMAIEAMACSKPVIVFDGDNSLPDVTFAPDVGIAVPMRDSHALSNAIKHLIDNPKERLDRGNKSREIAELHYSQDLYIKNLVNIYKETLNK;locus_tag=LOCUS_2610;note=WP_004597462.1 glycosyltransferase family 4 protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.9e-240],MGA_262
sequence1	MetaGeneAnnotator	CDS	356584	357705	.	-	0	ID=MGA_263;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597461.1;translation=MIAKDKIVEEWYSKDILHIKIKEFISPVYSIMDIGCGIRPQQYIVPNLLICVEPYKEYTEILKRNLSGTNSIIIPLDAKSALSILPDKSIDSIFLIDVIEHIPKEIGKEILIKCTRIARRQIIIFTPLGFMPQEVHEIDGWNLHGGAWQEHKSGWYPEDFPGWNIIGCKELHTHNSNGELLTTPYGGFYAIKNIVYTENYFNDLYGEKVLFNSTNHLENLNATFPDFKEKVINSEIVRSSLKCGLWMCQRTTELLIEQGTTISLKEILEIVDSEKINFAINTAQEYLLKINNFASQFKDINKLYEQINNLQELLKSTIDQLTDQLIVNTEELERLKEYLKVKEQELKISNENCSIFIKIYSKIRRILNKLRAI;locus_tag=LOCUS_2620;note=WP_004597461.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-217],MGA_263
sequence1	MetaGeneAnnotator	CDS	357702	358832	.	-	0	ID=MGA_264;product=UDP-N-acetylglucosamine 2-epimerase (non-hydrolyzing);inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597460.1;translation=MLKVMTILGTRPELIKMCLVISEFDKYTNHILVHTGQNYAYELNHVFFDDMGIRKPDYFLEIASDNTAKSIGIVIAKVDEVLEKEKPDAVLFYGDTNSCLSAIAAKRRKIPIFHMEAGNRCFDQRVPEEINRKIIDHISDVNITLTEHARRYLISEGFPPERILKSGSHMPEVLNHFMPKILKSDILEKLLLKAKQYFLISSHREENVDVKNNLQDLLSSLQILIQEYNYPIIFSTHPRTKKRLKDLECFQELEDKIRFLPPFSFTDYVKLQINAFCILSDSGTLTEEASILNLPALNIREAHERPEGMDAGTLIMSGFKAERILQSVKVITAQHKNNKCLQNIVSDYAEASIVSKKILRIVLSYVDYVNRTVWFK;locus_tag=LOCUS_2630;gene=wecB;EC_number=5.1.3.14;note=WP_004597460.1 UDP-N-acetylglucosamine 2-epimerase (non-hydrolyzing) (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-211],MGA_264
sequence1	MetaGeneAnnotator	CDS	358825	359850	.	-	0	ID=MGA_265;product=UDP-glucose 4-epimerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597459.1;translation=MFVDKTLMITGGTGSFGNAVLSRFLKSNIINDIKEIRIFSRDEKKQEDMRIALNNSKLKFYIGDVRNYQSIDDAMHGVDYVFHAAALKQVPTCEFYPMEAINTNVLGAENVLSAAINNKVTKVIVLSTDKAVYPINAMGLSKALMEKLAIAKARMRSPGETILCVTRYGNVMASRGSVIPLFIHQIKQGKELTITEPSMTRFLMSLVDSVDLVLYAFEHGRQGDIFVQKSPASTIEVLAKALQEIFGSKNAIRFIGTRHGEKHYESLVSSEDMAKADDLGGYYRIPMDGRDLNYAKYFVTGEKKVALLDDYTSHNTKRLNLKEVKELLLTLDYVQKELKNA;locus_tag=LOCUS_2640;gene=capD;note=WP_004597459.1 UDP-glucose 4-epimerase (Rickettsia prowazekii) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-188],MGA_265
sequence1	MetaGeneAnnotator	CDS	359883	360737	.	-	0	ID=MGA_266;product=NAD(P)-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597457.1;translation=MKILILGVTGMLGNSMFRFLTQDSKFNVCATARSNAASLYFSKDLTNKLITNVDVENHDSLVEVLNKTNPDVVINCIGLVKQLADVNDPLKALPINSLLPHRLANLCGLIGSRLIHISTDCVFSGKRGNYKESDFPDCNDLYGRSKFLGEVDYPHAITLRTSIIGHELASNRSLINWFLSTEGYVKGFTKAIYSGFPTVEFARIIRDFVLPNTELHGLYHVASHPINKFDLLKLVAEIYNKEIEIIPSDELIVERSLDSTRFNSITGYKPPEWRELVKRMYEFR;locus_tag=LOCUS_2650;note=WP_004597457.1 NAD(P)-dependent oxidoreductase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-163],MGA_266
sequence1	MetaGeneAnnotator	CDS	361705	362175	.	-	0	ID=MGA_267;product=Holliday junction resolvase RuvX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597453.1;translation=MIIKNLQEFYRLLIPNKPLIAIDYGSKKIGVALSDQELSIAMPFNTITAVNKKVVITSLLNIIKKYKVCGIVIGLPIDMSGGVTQQTNIVMKFAEKLKQSLGLPIYLQDERLTTKSANNFLKSFGIKRKDRNHNDDAVAASMILEIVLNAIKRFNL;locus_tag=LOCUS_2660;gene=ruvX;EC_number=3.1.21.10;note=WP_004597453.1 Holliday junction resolvase RuvX (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.1e-82],MGA_267
sequence1	MetaGeneAnnotator	CDS	362211	363773	.	+	0	ID=MGA_268;product=sulfatase-like hydrolase/transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599410.1;translation=MLKNILKHFDTKLIKLSAILAFIYCLLFNTAILIYKFDYYKATIFKGILELLKDFCYIYIFSFIAFFGLNVHRFVLKLGAGFLFITSAIASYYIYFFKINPTKQVIGSFFSTDLNEIYELTSIKLIIWIIFCLFTCFYTLQSFIAKNSKSFLTKLLSAACLLIFIYNIITPSFKILKNYFPIQYLHNSYLNFAAPFDNKNYTDISKQYHFIDNSDPDIIGVLVIGESARFDHFGINGYKRNTTPYLKTAQNIISFKAKSSYNLTYLSVPSLLSRYPASQIENSRLENSFLSILTNLGFNTTWIGTQTLMRNFANFDLSNIYNDVNFTIVPGGSALLSLNDYDEKILPFIKEIITKSEKQFLVLHTSGSHWNYNARYPKKFEHFTPTCHIKVKGDASDCDQRALVNSYDNSILYTDFLLSNLIELLKDKNVFLLYVSDHGESLGENGYYGHGGPLLSEQITVPFIVWVSDTFKAKYPESVDAIKSYASTEISHDYVFHSILDCLNIDSDIINKGLSLCKSN;locus_tag=LOCUS_2670;note=WP_004599410.1 sulfatase-like hydrolase/transferase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.9e-307],MGA_268
sequence1	MetaGeneAnnotator	CDS	364216	365151	.	+	0	ID=MGA_269;product=stomatin-like protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597449.1;translation=MEYALLIFSIITILVIIQMVKVVPQQQAWVVEKLGKFDKVLQPGLNLLIPIIQRVAYKHTLKEEAIDVTAQTAISNDNVTLSIDGVLYVKIIDPMAASYGVNNPYYAITQLAQTTMRSEIGKLPLDRTFEERDTLNVAIVSAINQAAINWGIQCMRYEIKDIQPPQTILKAMELQVAAERQKRAQILESEGNRQAKINHAEGEKAQIVLNSEASYTDQVNRAKGEAEAIGLVATATANSIEIVAAAIQKTGGSDAVALKIAEQYISAFGNLAKDTNTVILPTNLSEPSSFVTGALTIFNQLKTSAEKKKDK;locus_tag=LOCUS_2680;note=WP_004597449.1 stomatin-like protein (Rickettsia prowazekii) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.2e-168],MGA_269
sequence1	MetaGeneAnnotator	CDS	365233	365835	.	+	0	ID=MGA_270;product=peroxiredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597447.1;translation=MSVFVGKTAPDFTAKAIMPNNNIDDKFKLSDYAAGDNIVLFFYPLDFTFVCPSEIIAFHNKLGEFTERRTKVIAVSVDSHFSHLAWKNTPHNKGGLGQVQFPMVSDITKDISSKYNVLNEDGIALRGTFLIDKDFIVRHMLVNDLPIGRDINYTLKVIDALTHHQKHGEVCPAGWHKGEEAITPSHEGIAHYLSSHAEKL;locus_tag=LOCUS_2690;note=WP_004597447.1 peroxiredoxin (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-115],MGA_270
sequence1	MetaGeneAnnotator	CDS	366863	369193	.	+	0	ID=MGA_271;product=type I DNA topoisomerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599409.1;translation=MKLVIVESPAKAKTINKYLGDEFKVIASFGHIRDLPSKKGSVLPDKNFLMEYDISDKAGKYVDAIVKEARKAEVVYLATDPDREGESISWHVAEVIKEKNKVESDDFFKRVAFNEITKKAIMNAVANPRKLDTNLVNAQQARRALDYLVGFTLSPLLWRKLPGCKSAGRVQSVALRLICDREDEIERFKSEEYWDISLKMQNSNNDLFTAKLTHVNDQKLKKFSIINEKEAKDLTQKLKLQKFYVEKIEKKQQKRQPQPPFITSSLQQEAARKLGFSAKKTMQIAQKLYEGVDIGKETIGLITYMRTDGVTLSNDAIADIRKLIDKNYGNQYLPIKPRIYQSKVKNAQEAHEAIRPTNITYTPDSLKQKLEKDYYKLYELIWHRTIACQMENVIMDLVIANLASENKEYLAKANGSIIAFDGFYKVYRESLDDEDEEDNKMLPPLKEQEHIKTKEVIPNKHFTEPPPRYSEASLVKKLEELGIGRPSTYASILSVLQDRKYVALEKKRFIPEELGRLVTVFLVGFFKKYVEYDFTAGLENELDEIAAGKLEWKTALNNFWRGFNHNIESVNEQKITEIINYLQKALDYHLFGEDKESKVCPSCKTGQLSLKLGKFGAFLACSNYPECTFKKSIVSGNDNNEDEGDPSTILNDNKILGTDQDGVEIYLKKGPYGPYIQLGEQCGKVKPKRTPVPANLKQSEITLEIALKLLNLPLKIGIHKDSGEEIIIGYSKFGPYIKYMCKFISVPKKYDFLNLSLNDAMKLIQNNKAKLEKKYG;locus_tag=LOCUS_2700;gene=topA;EC_number=5.6.2.1;note=WP_004599409.1 type I DNA topoisomerase (Rickettsia prowazekii) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_271
sequence1	MetaGeneAnnotator	CDS	369301	370644	.	+	0	ID=MGA_272;product=glutamate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597439.1;translation=MTKVITRFAPSPTGMLHVGNIRVALLNWLYAKKHNGKFILRFDDTDLERSKQKYKNDIERDLKFLNINWDQTFNQLSRVSRYHEIKNLLINKKRLYACYETKEELELKRKLQLSKGLPPIYDRASLNLTEKQIQKYIEQGRKPHYRFFLSYEPISWFDMIKGEIKYDGKTLSDPIVIRADGSMTYMLCSVIDDIDYDITHIIRGEDHVSNTAIQIQMFEALNKIPPVFAHLSLIINKEEKISKRVGGFEIAYLKKEVGLEAMTIASFFSLLGSSLHIFPYKSIEKLVAQFEISSFSKSPTIYQQYDLERLNHKLLISLDFNEVKERLKEIDADYIDENFWLSVRPNLQKLSDIKDWWDICYQTPKIKNLNLDKEYLKQASKLLPLKITKDSWSIWTKEITNITGRKGKELFLPLRLALTGRESGPEIAGILPLIDREEIIRRLISIA;locus_tag=LOCUS_2710;gene=gltX;EC_number=6.1.1.17;note=WP_004597439.1 glutamate--tRNA ligase (Rickettsia prowazekii) [pid:98.1%25%2C q_cov:96.0%25%2C s_cov:96.0%25%2C Eval:4.7e-245],MGA_272
sequence1	MetaGeneAnnotator	CDS	371861	372433	.	-	0	ID=MGA_273;product=biotin transporter BioY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886266.1;translation=MNSLFKILYLNRFVEYLSTNTYILDIVKIVMGVIAIFASSQITIPIKPVAITMHSVILCIIAFTYSPRLSFLTILTFIFIGVMGLPVFCQFSSGINYFLGSAGGYYLGFLIGMPVMSVLKGKLAENYLNVTIICIIGHAIFYLCGIIWLASMIGLKQAIYSGFIIFIPSGLVKILIFSCLFSYIKNLKRK;locus_tag=LOCUS_2720;note=WP_010886266.1 biotin transporter BioY (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:97.9%25%2C Eval:8.0e-104],MGA_273
sequence1	MetaGeneAnnotator	CDS	373159	373497	.	-	0	ID=MGA_274;product=iron donor protein CyaY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597434.1;translation=MILKNKKNMNNTAFSKLAETTIVYIVDKIEEQDLEGIIDVDLQGDILNLDTENGIYVINTQSASKEIWLSSPVSGPHHFFYEQGKWKSRIGFELMVLLTEELGIRFDKYEIF;locus_tag=LOCUS_2730;gene=cyaY;note=WP_004597434.1 iron donor protein CyaY (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:92.9%25%2C s_cov:100.0%25%2C Eval:6.9e-55],MGA_274
sequence1	MetaGeneAnnotator	CDS	373466	374488	.	-	0	ID=MGA_275;product=endolytic transglycosylase MltG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599407.1;translation=MLKNLLKTKLSLVIISLTITILITLINFSIFYILMPGNLAQNKTIIIEPKLSVNQIVTKLYFNKVIKYPIIFKVIAKIYSITRPIKSGEYVFTRNISPIQTLRILSNGKSIIHKIVVPEGTVVSDVIKKINEESRLFGAIKGIIPEGFLMPSTYFFSYGDQKDRIIDQMRNLMSTNLDEVMKYLSPDSPLKTRIDVLTLASIIEKEAGSNEEKPIIAAVFINRLKKNMKLQADPTTIYALTEGKFKLARALTKKDLLQKLPYNTYYIQGLPPGPISCPSLKSLEAVVKPAKTDALFFVVDGKGGHHFSNNLNDHNRFVEIYRKSLITGTPIDLKKQKKYE;locus_tag=LOCUS_2740;gene=mltG;note=WP_004599407.1 endolytic transglycosylase MltG (Rickettsia prowazekii) [pid:96.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-182],MGA_275
sequence1	MetaGeneAnnotator	CDS	375033	376175	.	-	0	ID=MGA_276;product=lipid-A-disaccharide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597431.1;translation=MKKIYFIAGEMSGDFIGGHVIQNLKSNEGLEFTGIGGKYMEEAGNFKSLFTITAINLIGFIEIIPHLLKIKKLIDKTVEHIINSKADLLITIDSPGFTYRVAKRVRKLLPNLKMIHIVAPSVWAYKADRAVNYAKIYDCLFALLPFEPPYFTKVGLDCRYIGHPIMEQEFYRDKIALRKELKIDENERILCVTLGTRKGEILRHLPIFIDAIQEISKDYKNLTIIFPLAHPDHEAIIKPFLDNIQFNYLFLSNERLKAYAVSDLALAKSGTNTLEISASGTPMVVAYKVNIISFIIIMLLIKIKYVSLINIIAGSEIIPEFIQFNCKANLISNKLKELLSNSQKRYNQVVKSKKILQKLGFESNRSPSYIAAKIIKQEFL;locus_tag=LOCUS_2750;gene=lpxB;EC_number=2.4.1.182;note=WP_004597431.1 lipid-A-disaccharide synthase (Rickettsia prowazekii) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-209],MGA_276
sequence1	MetaGeneAnnotator	CDS	376835	378187	.	-	0	ID=MGA_277;product=ATP-dependent protease ATPase subunit HslU;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599404.1;translation=MKSTETTYKKDNMGLTPSQIVNELNRFIVGQDKAKKAVAIALRNRYRRKRVEGNLRNEIVPKNILMIGSTGVGKTEIARRLAKLTNSPFYKIEATKFTEVGYVGRDVESIIRDLVEIAVNTEKALAKIAVDINAREKAIERILDSLVGKTSSSETREKFKAKVLNGELDDTEIEISVADTTPVGGGGFEIPCIPGASMGVLNLGDMIGRALGNSKTKTKKMLIKDAMTVIIPEESEKLIDQEKIIQKAINLAENDGIVFIDEIDKIASTSNAGAKNAEISREGVQRDLLPLIEGTTVNTKYGPVKTDHILFIASGAFHIAKPSDLLPELQGRLPIRVELNLLTKDDMIKILLEPETSLIKQYSALIGTEEVHLEFTDAAIEKIADYAITVNLEVEDIGARRLHTILENLLEDISFEASEMKVKKIIIDDKFVENQLSKIITNLDLAKFVL;locus_tag=LOCUS_2760;gene=hslU;note=WP_004599404.1 ATP-dependent protease ATPase subunit HslU (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-245],MGA_277
sequence1	MetaGeneAnnotator	CDS	378184	378732	.	-	0	ID=MGA_278;product=ATP-dependent protease subunit HslV;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597428.1;translation=MSDNFALHGTTILCLKKKEEIIIAADGQVSHGNTVLKSTARKLRTIANNKIIVGFAGSTADGLALFEKLEIKIEQYNSNLLRSAVELAKDWRNDKYLRRLEAMMIVADRSHILILTGNGDVIEPENNVAAIGSGGLFALSAARALMSYENNLTAEEIALKSMNIAADLCVFSNHNIIMEKVV;locus_tag=LOCUS_2770;gene=hslV;EC_number=3.4.25.2;note=WP_004597428.1 ATP-dependent protease subunit HslV (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-94],MGA_278
sequence1	MetaGeneAnnotator	CDS	378997	379347	.	+	0	ID=MGA_279;product=DUF2628 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599402.1;translation=MNIYAIYINSTQKNNNFIILEEGFSWIAALFSIFWALYHKMWIVVAITVIANIIATTIIVDFKFIFQIFLILSFGFFAADIRENYLNRNNYQLEDIIIANSRIEAELKFLERSILI;locus_tag=LOCUS_2780;note=WP_004599402.1 DUF2628 domain-containing protein (Rickettsia prowazekii) [pid:93.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.1e-56],MGA_279
sequence1	MetaGeneAnnotator	CDS	379486	379848	.	+	0	ID=MGA_280;product=HIT domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597422.1;translation=MYNKENVFAKIITKNLPAEIIYEDKQILAFKDIAPIAPVHIIVIPKNEYIDYTDFISKASIDEIKHFFSKIADIANEAGLDKVGYRLITNKGEKSGQTIFHFHFHIIGGKKLIGLINNND;locus_tag=LOCUS_2790;note=WP_004597422.1 HIT domain-containing protein (Rickettsia prowazekii) [pid:92.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-57],MGA_280
sequence1	MetaGeneAnnotator	CDS	379841	380857	.	+	0	ID=MGA_281;product=aspartate-semialdehyde dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599400.1;translation=MTKKYNIAVIGATGNVGRETLNILAERHFPINKIYAIASDNSLGREVRFGEKILHINSIKIFNFHDIEIAFFCAGSNVSKEFIPKATSCNCIVIDKTSLFRADNQVPLIVPEVNLSTLKEFNTKNIIANPNCIVIPLVVVLKPLDNEIKIKRVVISTYQSVSGAGKAGMDELYNQTKSKYVFRENNPKKFPKQIAFNLFPYIGDLNKDGYTSEETKIAFELNKIMGNHFKTSVTSVRVPVFIGHAISVNIEFSDKIYAKDVEEILQDADGIVTISNNNGLAYISPIEVVGEDAVYVSRIRNDLSKDNTINLWITCDNLRKGAALNSVQIAEALINNYL;locus_tag=LOCUS_2800;gene=asd;EC_number=1.2.1.11;note=WP_004599400.1 aspartate-semialdehyde dehydrogenase (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-189],MGA_281
sequence1	MetaGeneAnnotator	CDS	380865	382616	.	+	0	ID=MGA_282;product=type I secretion system permease/ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599398.1;translation=MDNKNNLNKKNPLLIALSECKTAFWIVFWFAFVINLLMLITPLYSLQVLDRVLGSGNLQTLLFLSIIIAYIYFVYGLLQIARSFTLIKVGEWLDKTVAPVIFASSISATATRVNIGSSQLLRDFQAVKTFLTSTGINTLFDAPWSIIYIAVIFSIHPYIGFITVFGAIIIVSTAFFNAAATNKTLGEATEFSIKGMTQADIANRNAESIEAMGMMKNVTKNWHKFNILALDKQSVASYRNGVISNFSRFVRNIMQMAVTGVGAYIVVKSHSADMTPGNMIMSSIIVGRALAPFDNAIELWKSMSGAIKSYKNINNLFNNYSSRDEAMPIPNVNGHLTVENVYYAHPIPKHWSQPIVPKYILKGISFAVQPGEILAIIGPSATGKSTLAKIIVGVWKESSGSVRLDSAEIYRWNREDFGKHVGYLPQGIELFSGSIKQNIARMEENADPQKVIEAAKIAGAHEMILRFPDGYDSDIGPAGSNLSGGQRQRIGLARAFYGNPKLIILDEPNANLDEEGEIALASALKQAKLKRISVLVISHRPSVLSVVDKILILQDGAIAVYGTGEEIKKHFKTLKSDTIHINN;locus_tag=LOCUS_2810;note=WP_004599398.1 type I secretion system permease/ATPase (Rickettsia prowazekii) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_282
sequence1	MetaGeneAnnotator	CDS	382764	384299	.	+	0	ID=MGA_283;product=HlyD family type I secretion periplasmic adaptor subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599396.1;translation=MQDLKHNKSQITPEQLKQLLSLRENALNLKCNNSKRNALINTTLKKTSDAIEFLLLKLDRFINFITKKTDENRNNVAQAARSPILFGIYVIIFLVLIGGLWSALAPLDSGAVAIGIVIPSTNKKTIQHNEGGIINAIYVKQGDKVKEGDKLIELEETRIKSEHENILSQYRNFLATENRLIAERDNLEQIKFSDFLMQNINLPEVAKIIHTQENLFKSRKEVYFSEKDAFNQNIAQLEKKIDGLEAKKIAASKTSEVYQDRLKALRTLKEKGFIQKAALLEQEAKVAAAKSDVATTEAEIAGIRHAITETQIKIINHQNKYTERTLTELREAQIQTASLKEKYNSLTDLLNRVIIRSPVDGIVNNLKYHTIGGVISHGQPIMEISPINDPLIIEARISQKNIDSVHEGLVAKIRFSAFKSRTTPTFTGKVVSISPDIVQDERQHLGQQQDNYYVARIEINMEEFNKVAKVKNLALHPGMQAEVQIVTGTRTLLRYLLDPVTDTAFKAFREK;locus_tag=LOCUS_2820;note=WP_004599396.1 HlyD family type I secretion periplasmic adaptor subunit (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-286],MGA_283
sequence1	MetaGeneAnnotator	CDS	384427	385755	.	+	0	ID=MGA_284;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599394.1;translation=MYKFMLGYEKEQKSLNKEQKQAVGLLSIGTFLEYFDLMLYVHMAVLLNNLFFPEYDPFTFSLLTAFSFCSTYLLRPIGALIFGYIGDQFGRKIVVVLTTLLMAITCVIIGSMPTYAQVGITASWILTICRIIQGMSATAEARGAELYLTENSSPPIQYPLVTIITVFSAVGTTVALGIASIFTNQNIYQHESSWRIAFFVGATIAFVGTIARTSLKEADAFSNKRNKLKLRLQENNIMIEEIDKDILDQKVPNATSIWYFFIQCARPPCFYFVYIYCGDILKRECGFTPNQIINHNFWVSIIDLLGIIGLAFISYKIHPLKILKVKLYLFFTSLMFFPIMLSYSPNPSYIFIFQCLAALFVFDHVPAAPIFYKYFPVFKRFTYTSMLSAIAKLFTYIITSFGLVYITNYLGYWGLFLIFIPIGVTFFMGVTYFERMEKNRNL;locus_tag=LOCUS_2830;note=WP_004599394.1 MFS transporter (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:99.1%25%2C s_cov:100.0%25%2C Eval:1.7e-255],MGA_284
sequence1	MetaGeneAnnotator	CDS	385706	386494	.	-	0	ID=MGA_285;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597411.1;translation=MIIGFEKVKKNNHKKTNKIIDIELGDFMKDIEYWEKNFKSCKYSDKLIERLLFLNNKVKQPIDIREVKKGIYYARKYHGTQMRQSGDPYYSHPIAVTIMVAEFVAKEVPKLFTSRILQAALLHDTIEDTELTEDMISNIFDKEVARHVEGLTRIKPCGKISSAKSLILLIKQKRYDTALIKLFDRIHNLQTLEAKSPEKAHKIIKETLKSFLVLSEILEIPSVSELIYAECYKNNLKFNINATFNEIINFDSFPFAQNKLLP;locus_tag=LOCUS_2840;note=WP_004597411.1 HD domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:89.7%25%2C s_cov:100.0%25%2C Eval:3.6e-131],MGA_285
sequence1	MetaGeneAnnotator	CDS	386837	387706	.	-	0	ID=MGA_286;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSLFNKKFPEEQIISFEILPVSDQSNIITQTKQKEDPIKHEDSKKSEQSKFKAEASQAVSQEKNAKAREIETIEEKKTIKESNTKEAKETFLERKEEVAKAKLKEEWGKKQVQQVRKPEVNKDNKKLLEINKEVKHKKHKTDELDSLLKNLEQSSEGDNVKSNKYNRLKKVDNLKEAKGVYTDMLPLSDSETSLIKRQIERHWINIPAGVRGNNKVKIIISITLNKAGNVDQVRVKAKICPNIQSSICEALVDNVMRAVWQASPIENLDPARFNHWKEINFIFDPSKL;locus_tag=LOCUS_2850;note=MGA_286
sequence1	MetaGeneAnnotator	CDS	387789	388220	.	-	0	ID=MGA_287;product=protein TolR;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886263.1;translation=MAIMFTGSNRKSKKAVVSDINVTPLVDVMLVLLIIFMVTSPMLVSGVNVDLPETNPSTILEQDEPLVITINNEGKIFLLETLIERTHLTDKIINITTGNKNARIFVRGDKNVSYGKVVEVIAEIHSAGFSRVALISNIKNNEK;locus_tag=LOCUS_2860;gene=tolR;note=WP_010886263.1 protein TolR (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-73],MGA_287
sequence1	MetaGeneAnnotator	CDS	388220	388945	.	-	0	ID=MGA_288;product=protein TolQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597405.1;translation=MSADTNINDRLEIVMQDNLSILSLISSADIIGKSVMLMLLFASIWSWSIILHKIFRLAQVQRRIQSFENVFWSGCVLEQLYESIKKSVNNPLALIFVSAMNECNSLNTKGFSEALKNNHKERIMSAMYLAQNREIEKLEQNLNVLATIGSSAPFIGLFGTVWGIMHSFQSIASSKNTSLAVVAPGIAEALLATAIGLFVAIPAVIFYNYLISRITLINNKIEDFISELNSILSKAIDQEKM;locus_tag=LOCUS_2870;gene=tolQ;note=WP_004597405.1 protein TolQ (Rickettsia prowazekii) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.8e-126],MGA_288
sequence1	MetaGeneAnnotator	CDS	389613	390863	.	-	0	ID=MGA_289;product=histidine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597402.1;translation=MNYMIENLQPLRGMKDLLPNDYQIHNYIINKARDVGALYGYKQMSTPILEYTKVFNRSMGESSDVMSKEIYSFVDKSNNAVALRPEFTSGIIRSFISNGLQHKLPLKFFSTGPVFRYDRPQAGRQRQFHQLNYEYLGAKGAITDAETVKLAVDILKALEIEEDTTLELNSLGCHESRIVYQQKLVEYLNDFKDQLSGESRLRLNKNPMRILDSKSEIDQKIIAHAPILSEYHTNESKKYFDELQKYLDILGIKYSVNPRLVRGLDYYCHTVFEFTTKKLGSQSTILAGGRYDMLSRIMGNYDVHAIGFAAGIERIALMREYKISVIKPVFVLPIGKNNICYALDIVDKLRLQNIVSIIDPIGKIAKRIQRVLNEDAKFIIFIGDEEKMNNNLKFKDLKNQKEYIIDFEKVLELLKQ;locus_tag=LOCUS_2880;gene=hisS;EC_number=6.1.1.21;note=WP_004597402.1 histidine--tRNA ligase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:99.3%25%2C s_cov:100.0%25%2C Eval:2.1e-236],MGA_289
sequence1	MetaGeneAnnotator	CDS	390944	392356	.	-	0	ID=MGA_290;product=amino acid permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599391.1;translation=MSFLRKKSFESVKEIGSSSGLSKTLGAFDLILLGLGAMIGTGVFVVTGIIAAKFSGPAVMISYMIAGITCIFVALVYTELAAMLPTSGSIYTYSYVAFGEVFAWMIGSVIILELGVSAGIVAAGWSGYVQGILEAGGIYLPKVLTTVPSNGGVINLPAFLISAFIGFILFLGTKDSKKINAILVFIKMVAIFAFVLAAAPHFDATNWSNFMPFGFGSVVMGSSILFLAFTGFGTIATAAEECKNPKRDIVIGIIGSLILTTLVYVIMSGLVTGIAPFDQLNNDRPLAYALTINNSKIGSAIVSTGAVCGMMTVLMMNIYGTSRIFYAIARDGLLPKSFAKLHPKYDSPYITIIIFSALAAFLGGFCPTEIITQLTSMGALIDYIAVAIIVMMFRIKLPTAQRAFKCPIVFIIAPFILFACIYLLLTQMYGDEIYKGNFNLLTSGRVLIYWFITIFILYLVRSFFMGKEQH;locus_tag=LOCUS_2890;note=WP_004599391.1 amino acid permease (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-261],MGA_290
sequence1	MetaGeneAnnotator	CDS	392487	393563	.	-	0	ID=MGA_291;product=tRNA 2-thiouridine(34) synthase MnmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597398.1;translation=MATIVVAMSGGVDSSAVAAMLHEQGHNVIGITLQLYDYGIAVGKKNACCAGQDIYDAKMVANKLGIPHYVLDYENKFKESVIDNFVDSYLHGETPLPCVQCNKSVKFRDLINTAKELGADKLATGHYVRKINGYNGAELHTGLDTTKDQSYFLFTITREQLEYLSFPLGGFTKYETRKLASKFGLDIADKPDSQDICFVPDGNYKTVINKIRPEANTSGKIVHINGFELGEHSGIINYTIGQRRGLGIAYNEPLYVVKIDPSNNIVYVGQESALHVHEFIIKDVNWLADEIKDHEKLAVDVKIRSTRPPCHAEISKLCNDRIKVKFLSKEKAVAPGQACVIYAGERVLGGGWITSNIS;locus_tag=LOCUS_2900;gene=mnmA;EC_number=2.8.1.13;note=WP_004597398.1 tRNA 2-thiouridine(34) synthase MnmA (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-210],MGA_291
sequence1	MetaGeneAnnotator	CDS	393781	394749	.	+	0	ID=MGA_292;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599389.1;translation=MMLLKILYTTIIVYFVLIILEYAHQGFINDLSLQKVDLYIQNSIKEPIYLISYADGPEYVYRNQNTTTHYAINKGIDFIFNYKKKYIDQAFITKNKEIFNEPVGAGLWLWKPYIILETMKSAPEGAIIVYLDSAFVINKHISNLTNLLGDNDVLLVHDRNRKNGSFIKGETFALMDCLTDECRNDNHIWSAVIIVRNTELSRVFIEKWLKSCEDIRILSGKNYNMYPNYAEYKWHHSDQSVLSIIYHKNPQSVKVIEYDEITDVLSWFHRKYSNSSPSKPWYSIYGIDPIINFNTNGKVLPSTALINTPPIVRLRKWILKHQ;locus_tag=LOCUS_2910;note=WP_004599389.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:2.8e-190],MGA_292
sequence1	MetaGeneAnnotator	CDS	394819	395304	.	-	0	ID=MGA_293;product=cytochrome c oxidase assembly protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886260.1;translation=MSMVLLSFASVPIYNLFCKVTGYGGTTIKETVSVYSKVKGTKAIIIEFDANVDPNLPWHFIPRQKRVQIVPGQNTLVFYEAENLSNKDIIGTSIYNVTPNKAGKYFVKIHCFCFEEQLLKAREKVLMPVTFYIDNDFERDPEMENIKVITLSYSFFKIREL;locus_tag=LOCUS_2920;note=WP_010886260.1 cytochrome c oxidase assembly protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:90.4%25%2C Eval:7.7e-90],MGA_293
sequence1	MetaGeneAnnotator	CDS	395445	396326	.	+	0	ID=MGA_294;product=RNA polymerase sigma factor RpoH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597393.1;translation=MTNNINALAISSESGFYSYLQKINKIPSLTQEEEFLLAKSYLEENDLQAAHKLVTSHLKLVAKIASSYKTYGLPITELVSEGNIGLMQAVKKFNPELGFRLSTYAMWWIKASIQEYILKSWSLVKMGTTAAQKKLFFSLNKVKHKITNLYSRAITTDDFAQIADELGVSVNEVSEMNTRISGPDLSLNNSINSDDVESGELIELLPELRPTPEAMAINKQNYTSKRKLLSNAMQILNDRELRILKDRKLTDTPKTLDILSSEYNISKERIRQIENTAFEKIKKFILNNNREIA;locus_tag=LOCUS_2930;gene=rpoH;note=WP_004597393.1 RNA polymerase sigma factor RpoH (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-161],MGA_294
sequence1	MetaGeneAnnotator	CDS	396475	397806	.	-	0	ID=MGA_295;product=Tol-Pal system beta propeller repeat protein TolB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597391.1;translation=MRNIVYFILTLFSLTSYALETINIEHGRVDPTPIAVNKFNADSSNNDLVGRDVVKVISNDLKISGLFRPISSASFIEEQTGIKYKPLFAAWRQINASLLVNGEVKTLENGKLKISFILWDTFLEKQLTGALFEVPTKLWRRAAHKIADKIYEKITGDPGYFDTKIVYVSESTVLPKIKRIALMDYDGANNKYLTNGKSLVLTPRFAHSADKIFYVSYATKSRALVYEKDLKTGKESVVGDFVGISFAPRFSPDGKKAVMSIAKNGSTHIYEIDLATKQLNKLTNGFGINTSPSYSPDGKKIVFNSDKNGVPQLYIMNSDGSDVQRISFGVGSYASPSWSPRGDYIAFTKIIRQDGEKTFNIGIMKAYPQDHGNSERIITSGYLVDSPCWSPNGRVIMFSKGWPSKANAPGKNKIFTIDLTGHNEREIITPADASDPEWSGILN;locus_tag=LOCUS_2940;gene=tolB;note=WP_004597391.1 Tol-Pal system beta propeller repeat protein TolB (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-258],MGA_295
sequence1	MetaGeneAnnotator	CDS	397976	398860	.	-	0	ID=MGA_296;product=FAD-dependent thymidylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597389.1;translation=MHNTTKRVTVPALEAMLYETIKVLDHGFIRVIDYMGDDSSIVQAARVSYGKGTKQLNQDKGLINYLLRHYHTTPFEMCDIKFHIKLPIFIARQWIRHRTASVNEYSARYSILGNEFYLPDPANIASQSVVNKQCRAGDSVPKKVSEKVLAILEEDARRCYRHYKELMNADEDGNILDENVSGIARELARINLTLNYYTEWYWKINLHNLLHFLRLRTDPKAQYEIRVYAEKILDIVKAWVPFTYEAFEEYRLQGANISRKGLEVIKRMIKGEKVIHETSGMNKREWEELVKIFR;locus_tag=LOCUS_2950;gene=thyX;EC_number=2.1.1.148;note=WP_004597389.1 FAD-dependent thymidylate synthase (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-168],MGA_296
sequence1	MetaGeneAnnotator	CDS	399566	400198	.	-	0	ID=MGA_297;product=M23 family metallopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597387.1;translation=MKYPVVLSLVVCFCLVSCVDQPPAPIDYKVGDVTGNNHFTELDHDEGMIIQRNIEDTSISGKVSDQLEELKAKMIEDDNDYIEMSMSRHGDEAVIEQLNFVTPLNGVIINEFKVGKSKGIDIAVQEYSAVKSVAAGTVIYSGYNKQFGNLVIVKLDADDLEVAYARLDDLLLKKGDKIAKNSIVGHVEHQLYFAMRKNKIAIDPSKYIEF;locus_tag=LOCUS_2960;note=WP_004597387.1 M23 family metallopeptidase (Rickettsia prowazekii) [pid:96.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-112],MGA_297
sequence1	MetaGeneAnnotator	CDS	400422	400856	.	+	0	ID=MGA_298;product=ribose 5-phosphate isomerase B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597385.1;translation=MKTYNIVIASDHSGYELKSKIINYLEQKCLNIYDCGTQDTQTVDYPDYAKKVVDIIIEKAAPIGILISDTGIGMSIAANRSSEIRAALCNDILTAENAKAHNDANILILGAKSVDNKIVFNIIDKFLTTKFEGGRHSTRLSKIK;locus_tag=LOCUS_2970;gene=rpiB;EC_number=5.3.1.6;note=WP_004597385.1 ribose 5-phosphate isomerase B (typhus group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.2e-77],MGA_298
sequence1	MetaGeneAnnotator	CDS	401065	403740	.	+	0	ID=MGA_299;product=DNA mismatch repair protein MutS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411740.1;translation=MTLCNMNLHEFRQKYNYNVATKMMQQYLDIKFAHLDCLLLFRMGDFYELFYEDAILASNILGIALTKRGKNCEEEIPMCGVPYHALEHYLTKLIEENYKVAICDQLETPEEAKKRDGYKAVVTRDVTRIITPGTIIEENLISVTEPNYLTSLVIPKNKKTASICCVDLSTSKIFVINVPETEILNELARLKSREILLSENLKSSNISDSILKQFNCRITYQVDSFFAINKCEKIILDFYKIRDIKGIGEISNSQICAIGSILEYLSLTQKQNIPHLPIPKIINFHNYMTIDFSTRRNLEIVTNLQGNLYGSVLNTLNHTVTTQGGRLLYHFLSSPLTNIAKINHRLNITEFFYSNLGIVTRIRELLKNTSDIERCLTRITMNRSSGRDLLSIKYTLETAKTIKGLFSESYGLNLPHFIEKIIKPLSGDAELYNLIHMSIREDAPNNLNDGGIIKYEFHPKIAQLNDLINNKKLHVEKLKDQYRKETRIESLKISHNNVLGFFIDITPKNVNKILDPKFIHRQTTINSVRYTTYELQNLENELVNAQTLVIRLEKELYTDICRKVIEKSSYLKILANSLSGLDVFCNFAYIADEYDYTKPEFTNDLSFDIVKGRHPVVEAALRKTSKSFVYNDCHLSEAERIWLITGPNMAGKSTYLRQNAIITIIAQIGSFVPAKSAKIGVVDKIFSRIGAADDLIKGQSTFMTEMLETSAILAQSTKNSLIILDEVGRGTSTYDGVSIAWSVLEYIHDKLQCRCLFATHYHELTVMKNFLPALQNYTIAIEESGKDILFLHNIILGASNKSYGLHVAALAGLPTSVINRAAQILLKFEKIAISKEKNILSNASNNLSLFNFEHEKPISNSKLDEEFKTIDPDKISPKEALELIYKFKKLV;locus_tag=LOCUS_2980;gene=mutS;note=WP_014411740.1 DNA mismatch repair protein MutS (Rickettsia prowazekii) [pid:99.4%25%2C q_cov:99.4%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_299
sequence1	MetaGeneAnnotator	CDS	403855	404643	.	-	0	ID=MGA_300;product=3'(2')%2C5'-bisphosphate nucleotidase CysQ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597379.1;translation=MNDNLINALKDLIINTGKVALDIKKTGILIDTKSDGSVVTNADQEISKIIYQTLRSLTSQIAIVCEEQPLPILNSDTFWLIDPIDGTRSYVEGKNTYTVNIGLIENGFPTIGLIYHPETAKLYYTDVNGRLKIEQNSQEIFVNYSPKHKEPNAVVGFYNSNKATKEFLRSYSFGKINAISSSIKLCLIAEGKADIYPKFGQTMEWDIAAGHALIKASGGNILDCDGQEVTYGKANFANPHFFACSKYWLEMDSVFVSTKSLL;locus_tag=LOCUS_2990;note=WP_004597379.1 3'(2')%2C5'-bisphosphate nucleotidase CysQ (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.7e-150],MGA_300
sequence1	MetaGeneAnnotator	CDS	404646	405470	.	-	0	ID=MGA_301;product=DUF2608 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597377.1;translation=MKRINKVLLSLLCLVIAYAGYSQIIPTYSVDSVTIQNLLPNVDEDTLVLINIDNTIITPKSKLFRYQDNAYINFTKYLYSLAANNASVNKTIAKLIVQRQMMLVESQWVDLINKMKNQGATVLGLQEITAPCNLIENYERWLYTILYGLNINFTRKVNDKEVFRFNPSDAEAPIFYLGIIFTGNINKVNTLIEFLKIIPIPPKKIVIFANNKKDLENMDSYLSMVDIGYYGIEYFGWQMLPGSPDNQIAELQQSTFLNTGQWLEDDTAAKMLNK;locus_tag=LOCUS_3000;note=WP_004597377.1 DUF2608 domain-containing protein (Rickettsia prowazekii) [pid:97.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-150],MGA_301
sequence1	MetaGeneAnnotator	CDS	405454	406350	.	-	0	ID=MGA_302;product=DUF2608 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597375.1;translation=MFRKFLFIQLLIVTSLVKAEIIEVDSLNKITQDFKVNYNKNYLPQDLLVVTVLDKFLFKSFGVPIGEYIDQHRYLALAPLFSHINKNPKIIYITQLILTNNSYKKELQESDFPNFVNEMSNSQIPIIAVNNGFTGNFNNIPKFEIWFADYLKKNFYIDFSKSFPNNNYIIFNNLDSFDNTYPVFYKGILTSNNIPASKVILNFLIQINFIPKCFILISSSRELLRSMEFQLNNYSSNILFIGYHYNNKSISDDKDYKDIAYYTKMINDLIPQINKLKRNNPPLKNNNAKSKNSYETYK;locus_tag=LOCUS_3010;note=WP_004597375.1 DUF2608 domain-containing protein (Rickettsia prowazekii) [pid:92.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-156],MGA_302
sequence1	MetaGeneAnnotator	CDS	407139	407291	.	-	0	ID=MGA_303;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILAKFVLSYSSYFPFAKDTLLGIALYHNANNILIETTSILSGIDKSIIS;locus_tag=LOCUS_3020;note=MGA_303
sequence1	MetaGeneAnnotator	CDS	408055	409467	.	-	0	ID=MGA_304;product=Ppx/GppA phosphatase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597373.1;translation=MRSAIIDIGSNALRAVVYESDELGAPEIFNYKFRNYLTNLLNLDNLDVKHQTYLSIQYLIHVFTKLSVTNIRCVATAILRGHPKADEFKTIIKKRFNIDIEIISGEREAYLTAAGLISGISDAFGIVADLGGGSLELAHIYNKKVGKLKSLPLGTKIIANSNFSDVGLITKMLEEEFGVAHYPNLYLIGGALRLMSRIYMESINYPLKNLHNFEINRVEFELYLEKLSQIDKLKLSYYEQKAINYNAVLVIKAMIKVFSPEKIIISNYGLKEGVRFDSLPYHETEKDIIYERVKRLVNFDRNICKIEKYIEALQYLLINSDATTLIIIELAIMLAQYNKNIDKTLRANFVSEFILSSDIPFSHRQRLMLGIALTVTYTAKTDMQINKIAKKMISKSDYYNSHIIGYYIKIAREIDGPEFQEPSFSIKLKDDKFLQINASSILPKQVFDKVCERLKDISSARKNISYNFSD;locus_tag=LOCUS_3030;note=WP_004597373.1 Ppx/GppA phosphatase family protein (Rickettsia prowazekii) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-262],MGA_304
sequence1	MetaGeneAnnotator	CDS	409476	411251	.	-	0	ID=MGA_305;product=type IV secretory system conjugative DNA transfer family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597372.1;translation=MEWHKILKVTRNIFGHAIIHPVVIFCTIWITGVFVAIFTNEIRALGADINAINIAYKWAYWLINVWWQLKIADYNYLKLKLIVSLFGPAIIVIIFYIKNFQRIKALQFFEQPEKVYGDASWANQSDIEAAGLRSKKGMLIGVDAGGYFVADGFQHALLFAPTGSGKGVGFVIPNLLFWTDSVVVHDIKLENHNLTSGWREKQGQKVFVWEPSNPDGITHCYNPIDWVSTKPGQMVDDVQKISNLIMPEKDFWNNEARSLFLGVTLYLIADPTKTKSFGEVVRTMRSDDVVYNLAVVLDTLGGVIHPVAYMNIAAFLQKADKERSGVISTMNSSLELWANPLIDSATASSDFNIQEFKKVKTTVYVGLTPDNIQRLQKLMQVFYQQATEFLSRKMPDLKEEPYGVMFLLDEFPTLGKMDTFKAGIAYFRGYRVRLFLIIQDTQQLKGTYEDAGMNSFLSNSTYRITFAANNYETANLISQLVGNKTVEQRSFSKPLFFDLNISTRTQNVSQVQRALLLPQEVIQLPRDEQIVLIESFPPIKSRKIKYYEDKFFTSRLLPPTFVPTQVPFNHMANNNEAAEETKTTNVIENNE;locus_tag=LOCUS_3040;note=WP_004597372.1 type IV secretory system conjugative DNA transfer family protein (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_305
sequence1	MetaGeneAnnotator	CDS	411553	412557	.	-	0	ID=MGA_306;product=P-type DNA transfer ATPase VirB11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597371.1;translation=MNEEFAALETFLLPFKNLFAEEGINEIMVNKPGEAWVEKRGDIYSKQIPELDSDHLLALGRLVAQSTEQMISEEKPLLSATLPNGYRIQIVFPPACEIGQIIYSIRKPSGMNLTLDEYAQMGAFDNTATESLVDEDADILNNFLAEKKIKEFIRYAVISKKNIIISGGTSTGKTTFTNAALTEIPAIERLITVEDAREVVLSSHPNRVHLLASKGGQGRANVTTQDLIEACLRLRPDRIIVGELRGKEAFSFLRAINTGHPGSISTLHADSPAMAIEQLKLMVMQADFGMPPEEVKKYILSVVDIVVQLKRASGGKRYVSEVYYKKNKNSESML;locus_tag=LOCUS_3050;gene=virB11;note=WP_004597371.1 P-type DNA transfer ATPase VirB11 (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-183],MGA_306
sequence1	MetaGeneAnnotator	CDS	412554	414005	.	-	0	ID=MGA_307;product=TrbI/VirB10 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597370.1;translation=MAVDQNNNNNTDSLSGADLPEVQRELSKVSVSFNKNIAIVVVICAILIYIFYTLFVSTKKEEIPETKIPSNIVKPVTDVDDIIPEIPKLPDPPKLERPIVSPPPPPPPPVVEVPPVLPPIAVEGNKDKTLQLPPVSLPTTSGTLVESDAEKQRREAKRKSAIVLVGGVAPKKTPEQMTEAVTFKDRGDMFLLLGRGKLIDAVLETGINSDLGGEIRAIISRDVFSEKGKVILIPKGSKIFGKYATSTSSDSYGRVSIIWDRVDLTNGYTIEFDSPAVDNLGRPGLQGRVDNKYKEQFANAVLQSGFNIGLAKILDKLVPPPIDSQAAATNSATATQILNVAQTISSNTAMDVNTRIVTICTNILAAITDKTSIAYATMTQACTTAQNASSAHTSEQRLQTLIQAVNTAASNLLTTTSIASTPTQAQQASTQAFTDVTNVVQNMITQQHFKPTTTVNQGTPIRIYVNKDYKFPKTVLLKSKVMK;locus_tag=LOCUS_3060;note=WP_004597370.1 TrbI/VirB10 family protein (Rickettsia prowazekii) [pid:94.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-252],MGA_307
sequence1	MetaGeneAnnotator	CDS	414088	414561	.	-	0	ID=MGA_308;product=TrbG/VirB9 family P-type conjugative transfer protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597369.1;translation=MTIVRFYFLVFLLLSGFTVQRACPVVDDFNSSRNNYVDDLPLTKDNRIKTYIYNPNEVYLLVLHFGFQSHIEFAKNEEIQNIILGDAYAWKITTLANRLFIKPLEKDIRTNMTIITNKRTYEFDIASTELMIGHERDLVYVIKFYYPKKNSNYMARF;locus_tag=LOCUS_3070;note=WP_004597369.1 TrbG/VirB9 family P-type conjugative transfer protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-87],MGA_308
sequence1	MetaGeneAnnotator	CDS	414548	415279	.	-	0	ID=MGA_309;product=virB8 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597368.1;translation=MNNIFGFFKSSNNTQSASGGKQNQENIKSANPLKISQNWYEERSDKLIVQRNLLIILIILLTIFMVISTLVIAFVVKSKQFDPFVIQLNSNTGRAAVVEPISSSMLTVDESLTRYFIKKYITARETYNPVDFATIARTTVRLFSTSAVYYNYLGYIRNKDFDPTLKYKEDNTTFLVIKSWSKIADDKYIVRFSVNETSGSQLVYNKIAVVSYDYVPMQLTDSELDINPVGFQVNGYRVDDDNS;locus_tag=LOCUS_3080;note=WP_004597368.1 virB8 family protein (Rickettsia prowazekii) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-128],MGA_309
sequence1	MetaGeneAnnotator	CDS	415330	415509	.	-	0	ID=MGA_310;product=DUF2706 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886258.1;translation=MLKSLKFLLVFIILAQLLSCTPSAPYEIKSPCVSVDIDDNSSLSINPCIRRPINAVNIV;locus_tag=LOCUS_3090;note=WP_010886258.1 DUF2706 domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-27],MGA_310
sequence1	MetaGeneAnnotator	CDS	415914	416657	.	+	0	ID=MGA_311;product=virB8 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597364.1;translation=MIELKHNKLDYNLVIMDQLTNAIKEYIKSGEYFIDARKWYNFKYILPLSHRSFLFLTCIIFTLLLTLICLNINILLPIHKKVGYLIKDDSEKQATITNTKHSTLANPYIAVANIMLQNYVKQREKYNYDTLKEQFTFIKNASTSIVYMQFANFMNIDNSLSPVIRYQKLYRRSINIISINNINNNEATVTFESLAQNNTGEILENMLWEARIGFIMDSISTSTLQDMTFNFTVTSYKLKLLRNKNQQ;locus_tag=LOCUS_3100;note=WP_004597364.1 virB8 family protein (Rickettsia prowazekii) [pid:88.8%25%2C q_cov:93.9%25%2C s_cov:100.0%25%2C Eval:9.0e-113],MGA_311
sequence1	MetaGeneAnnotator	CDS	416659	417411	.	+	0	ID=MGA_312;product=P-type conjugative transfer protein VirB9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597362.1;translation=MKQLIIFCTFIILTLDIFALTMSRPLGRDPRLRVMIYNPDDVFKFTGYYGYQASIELAQEEEIVSISMGDTTSWQIVPAGHRIFIKPMEPDATTNMTLITNKRTYFFELYAAETLDIRDPEMVFNVKFLYPDDENDNMSGHMQTFSTSLASPDLTHPEKYNFNYYISGSEEIAPIKIFDDGEFTYLQFRDKNAEISGIFAVDDSLRESLVNYRLAQDNPNMIILEQVFPKLAIRKGKKVTCVFNHSFKAY;locus_tag=LOCUS_3110;gene=virB9;note=WP_004597362.1 P-type conjugative transfer protein VirB9 (Rickettsia prowazekii) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-142],MGA_312
sequence1	MetaGeneAnnotator	CDS	417587	417865	.	+	0	ID=MGA_313;product=Na+/H+ antiporter subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411671.1;translation=MLTSQNYIHKIIGLGIFQSPVLLFFLSIGKIKTGGVPILRDGINTYTSPLPHVLILTAIVVGFATLSVALSLIYQIYKHYGTVSENEVNVDK;locus_tag=LOCUS_3120;note=WP_014411671.1 Na+/H+ antiporter subunit C (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:82.9%25%2C Eval:3.5e-46],MGA_313
sequence1	MetaGeneAnnotator	CDS	418183	419481	.	+	0	ID=MGA_314;product=proton-conducting transporter membrane subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886255.1;translation=MILTNHFPIIQILFPLFGALLSIISFRFIIFARVITIICILSSLLVSVYGYSIIQNTELSYTIGGWTSNIGIEYRLNSLNQATTIYLNLVLLFFLVFCHKMTNRTILQYINNNRKSLFYGILLFAHTGYLGMISTNDFFNLYVFIEISALSSYVLIASGNNPKSLVGAFDYLIMGSIGATFILIAIGLLLSITGSLNMHDIAAYLKEYTKLRIITIVIGFFLIGSILKTAFFPMHFWMMRAYNNTASIILVYLAGISTIIGIYIIYKFTYIIIGYETIKTAITNFIRPIALASLIIAPYFAYQAKDFKNIIIYSCFTQIGYVFLLYITENGIIMLPSLLLIDSINKISLFLIASYNESYKREPNKILTIIIIICSCGLPISPLFFIKINILEILLAQNLLLDFVIILLSSVVSLFYHYKMILLSLPQKYARN;locus_tag=LOCUS_3130;note=WP_010886255.1 proton-conducting transporter membrane subunit (Rickettsia prowazekii) [pid:93.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.8e-225],MGA_314
sequence1	MetaGeneAnnotator	CDS	419533	420993	.	+	0	ID=MGA_315;product=proton-conducting transporter membrane subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597357.1;translation=MIMQFSTTNLLILSTLLVGALNLTSPYATKKDSLIRNFLLITIAIFFYGNILIIDVLFLKGIRAGFEFNIFGNYSIGFHLEPLGLIFLTLIGFLWICALLYTPKYLAINNIECSSRFLFFFNLTILIGILIALSSNLLTMFICYELLTISTAFLIGHTRNNIVMSGLYKYLKILMISAMLLFLPAVIIIYSKTGNGNFESCSIVNYFTRNQSIILLLMFIFGIAKTAIFPVHSWLPAAMVAHYPVSSLLHAVIVVKTGLFCIYKILLYVFGLSYLQIIFAEFNWLIFIPIVSIFYSSIKALKTDNIKKILAYSTMNQLSLALLSAFMLTPKALGAAILHLVSHSFTKICLFYSMGSIYSLKKTDQVQNLHGIYKELPLIAFIISISSLSLIGIPIFSGFISKFSILLAASEQNQIIVMIVVIASSIFSSIYLLKILSSIYKPSLLEYNVTKQLPYSIHISIIICTLAITLFYFIQILIREFLSYIT;locus_tag=LOCUS_3140;note=WP_004597357.1 proton-conducting transporter membrane subunit (Rickettsia prowazekii) [pid:95.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-257],MGA_315
sequence1	MetaGeneAnnotator	CDS	421582	423123	.	+	0	ID=MGA_316;product=proton-conducting transporter membrane subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597355.1;translation=MFIQNTKFIFPVTNFNLIFDFNPQNQLIALSFIIVTTILNIYTISKKRKLECLIGSLYCLSSIACIFAADFISMIISIEFMTIFTCIIIFCEQLKIQPLRQYFITHLLSSELILIGITLRIQTTSNTAFISLTESVNHFKLPEIFILTGCLINASAIFVNGWVVNCYPAASSSGVVYLISFTTKVSLIIILKLFSGLEILKLFGISIMIYGLVFSLIEKNLKRLICYLTISQLGFILAAISINAPNIDYLITSFIFMHILYNSLFALYFTYIEDEYGIKNYQDLHKSSINLILLIGFVISILIYISILPISSSDIKDAIANILNEKNIMIFFKIITCTVLFELLLESLHLLYRRTLRICSTNIKLFSIIEYFQNNVVKTRHDIIKILYLHFCIMTLFLCLFYPIQISHKTNSNQLIILTISLLLALIFRKIPRISTENINLDLYQYIEKLIFFIVDKYTEKYNKKNAKAYINFKAILDNILIKISAWHNQQTAIFIVLFLLISFILTLCYTAA;locus_tag=LOCUS_3150;note=WP_004597355.1 proton-conducting transporter membrane subunit (Rickettsia prowazekii) [pid:92.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-264],MGA_316
sequence1	MetaGeneAnnotator	CDS	423210	425264	.	+	0	ID=MGA_317;product=S9 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599378.1;translation=MKPPIANKQNYSFEIHKQTIKDDYNWLRDPNWPNVEEDKILDYLKAENKYTENFFLNLKKDKKKIFEELKGRIKLDDESVYIKKKDYYYYQRVERDKNYPIYCRKHNSIEATEEVILDVNLLASKGSFTDIGEIAMSPDQNLMAYSVNFTGNEQYNIKIYNIKKQQYLSNEVKDVAPVIIWHARLNGFFYITINENQRWDRVIFHSLDRNITQDKLIFEVKNPIHFISCKRSASHEYIFINSGDHNENEIYVISMQDDSFTPKLVRVAENKVFYEVEHNGDFFYIKTNYKAKNFHIVKVPINNFENANWNDIYIQEEQDKYLKSFDVTKNYLILNYRYNGLPLIKIKQFQDQHENIIHFPDVSFQANSFSTNFEEDNIRIDYSSLARPNTTYSYDFDKNKLTILKDQEIPSGFNPEEYKVERIFADNEGVKVPITLFYKKSLFKKDGSNPLYLIGYGAYGITMPVNFRNIAVTLTNRGFIYAIAHIRGGDDLGHDWYEAAKFLTKKRTFEDFIACSRTLIKEKYTNNNNIVIAGGSAGGMLIGYVLNEKPEIYRAAIAHVPFVDVLNTMLDENLPLTLLEYNEWGNPKEQEYFDYIKSYSPYDNVKTQNYPALFIRCGISDPRVGYWEPAKWVAKLRELKTDNNPLLLKINMDTGHQGAAGRFDYLQEITDELVFIFKIFDVEI;locus_tag=LOCUS_3160;note=WP_004599378.1 S9 family peptidase (Rickettsia prowazekii) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_317
sequence1	MetaGeneAnnotator	CDS	425311	426462	.	+	0	ID=MGA_318;product=rod shape-determining protein RodA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597348.1;translation=MLDTVIKLYDDRINIKTMHKNYLEQLQKLPITLIVLIIIICCIGFIVLYSAANSNLQPWAYKQMINFCIFLPLAIIIALIDLRTIFRLSYILYFCVLALLIAVELFGSTAMGGKRWIDIGIVKLQPSEPIKISIVLMLARYFHRSTSDDITKLHKVIIPIIGVLTPAFLIIREPDLGTGMIVLIVAAIIFFAAGFRIKYFIILALAALISMPIAWNMMYDYQKKRVMVFLNPEHDPLGASYNIIQSKIAIGSGSLFGRGLNQGSQSHLDFLPEHQTDFIFATFAEEFGFIGSMLLLILYFALITISLLIGINCREIFSKLMVIGITSILFSHVFINIAMVMGLLPVVGVPLPFISYGGTMMASMLIGFGLVMNAQVHVHTTLN;locus_tag=LOCUS_3170;gene=rodA;note=WP_004597348.1 rod shape-determining protein RodA (Rickettsia prowazekii) [pid:92.1%25%2C q_cov:95.6%25%2C s_cov:100.0%25%2C Eval:6.2e-187],MGA_318
sequence1	MetaGeneAnnotator	CDS	427956	429098	.	+	0	ID=MGA_319;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599377.1;translation=MIKLLKIIQMSDYKDDAQIKNTLRAIKTQLTATANPSELARLASAAAGLALNTNNSELLEQIKGVQAAIAKKEENAGHNISSKIASENFERQQINNAVLRTQQEYEERETRLKENYIQYDTVEEALYSLLTKETDLIKKANNIPESLTPDDLRRLKGENLTPEEQEEERKKFEYLSILGSIIDDTKKSNEHYDKRANEINEQLNKTIINEEFRKNLEQEKKKIEGKKTQASEALNKKLKPIYKQMDEEREELFKLAEILPQYAQANIDKHAKLYAKQYQTKIENDPNYKELEKLQEIVSKIEYSKKSKTNDIIINNPNSTVVKNLLKEKIDEKISSKEMTEAINVIKQEVNLNTKPFITPLTPSRSPSMQRLANKTKGIE;locus_tag=LOCUS_3180;note=WP_004599377.1 hypothetical protein (Rickettsia prowazekii) [pid:95.4%25%2C q_cov:97.6%25%2C s_cov:100.0%25%2C Eval:4.2e-196],MGA_319
sequence1	MetaGeneAnnotator	CDS	429121	429807	.	+	0	ID=MGA_320;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597345.1;translation=MPFRYKRINIENHNKDELKSLDMMLNQNYFYQNKFEEIKKSYLEDRKAQKDPQYLSDPQLRVIVEKYFEKTAWDLLLNYVIGVKETAFYLASSYINGYGVDQDEFLSHLTLAVGVKLGDEKSIKMLDGEETLPAYIQQFADRCIKEIKKHEAEVQNRDVSCEEIMARAKAFDYFVKTNTNHSYYDTIHEKNNASMKHFSYYVEPIIENNSQDHLEPIGESTKCHCEIC;locus_tag=LOCUS_3190;note=WP_004597345.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-132],MGA_320
sequence1	Aragorn:1.2.38	tRNA	430531	430605	.	-	.	ID=Aragorn_15;product=tRNA-Asn;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0150;note=Aragorn_15
sequence1	MetaGeneAnnotator	CDS	430965	432767	.	-	0	ID=MGA_321;product=translation elongation factor 4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599376.1;translation=MNNQKYIRNFSIIAHIDHGKSTLADRLIEYCGGLNAREMSQQVLDSMDIERERGITIKAQTVRLVYKAKNGNTYYLNLMDTPGHVDFAYEVSRSLAACEGSLLVVDSTQGVEAQTLANVYQAIANDHLIVPVLNKIDLAASEPDYVKTQIEDIIGIDASEAVLISAKNGIGIDSVLEAIINKLPAPKESSTDILKALLVDSWYDPYLGVVILVRIIDGALRKNMRVKMMRTNSVYTVEHVGFFTPKKHISDVLYAGEIGFFTASIKRVSDCKVGDTITDEKKSCEQALPGFKPNIPVVFCGFYPTDSAEFEHLKDSLAKLRLNDASFEYEMESSSALGVGFRCGFLGLLHLEIIQERLSREFDLDLITTAPSVIYKINMLDGQNLEIHNPADLPDLQKIASMEEPWIKATIIVPDEFIGTVLSLCTEKRGIQLDHSYISNRAKIVYKLPLNEIVYDFYDRLKSCSKGYASFEWQMDVYELSDLVNLRILVNGEVVDALSTIVHRSRAEQRGRALCIRLKDLIPRQQIDIAIQASVGSRIIARETIKALRKDVLSKCYGGDISRKRKLLEKQKAGKKKMRQYGNIEIPQSAFIAALQIGGE;locus_tag=LOCUS_3200;gene=lepA;EC_number=3.6.5.n1;note=WP_004599376.1 translation elongation factor 4 (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_321
sequence1	MetaGeneAnnotator	CDS	433140	434051	.	+	0	ID=MGA_322;product=peptide chain release factor 2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886252.1;translation=MFNKLKSNLKEILELEAMAEVENDLETLNQIEQDFKKLSIITAKFETECLFSGETDCNNCFLEINAGAGGTESHDWASIMMRMYLRFAERLGFKTKIINMINGEEVGIKSCTIRIIGKRAYGWFKTESGVHRLVRISPFNAAGKRMTSFASSWIYPEIDDDIAITIEDKDLRIDTFRSSGAGGQHVNTTDSAVRITHIPTNTVTQCQSDRSQHKNKAQAMKMLQAKLYKLEMQKRNENVDKQNANKTDNSWGHQIRSYVLQPYQIVKDLRTNYETSDTKGVLDGNLEDFVSASLSMNNSGNKT;locus_tag=LOCUS_3210;gene=prfB;note=WP_010886252.1 peptide chain release factor 2 (Rickettsia prowazekii) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:82.1%25%2C Eval:1.7e-170],frameshifted%2C insertion/deletion at around 433009,MGA_322
sequence1	MetaGeneAnnotator	CDS	434339	434830	.	-	0	ID=MGA_323;product=Hsp20/alpha crystallin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599375.1;translation=MLKYIPAIFAIILSSNIAIASKNYDYISLTPLRHVADLIDSHITNIDHLFNNRLTFYESSSLKSKFITKDKQYIIVMEVPGFDKSQIKVKLNGKKLFIAGNIEDKNKANDSDNYMNKNFNYVISLYEDVDQKSISARLKNGILTIILPRIEVKEQDSREITIN;locus_tag=LOCUS_3220;note=WP_004599375.1 Hsp20/alpha crystallin family protein (Rickettsia prowazekii) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.6e-84],MGA_323
sequence1	MetaGeneAnnotator	CDS	435358	436077	.	-	0	ID=MGA_324;product=cytochrome c1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599373.1;translation=MNINAEALRPETLHLKKMKWPFDGVFGTVNREAAQRGFQVYKEVCSVCHGLNNLYYRNLKDIGFSDDEIKEIAKGYTVKDGPNDDGEMFERPALPYDRFVPPYPNEQAARKANNGANPPDLSLIIKARYDGANYIYSLLTSYTEPPAYFKMMHGTYYNPYFPGAQIAMPPPLTDGQVTYMDGTNASVEQMSKDVTVFLQWAAEPEMEHRKSMGLKVMMFLIVFTILFYIAKNRIWSNVK;locus_tag=LOCUS_3230;note=WP_004599373.1 cytochrome c1 (Rickettsia prowazekii) [pid:99.6%25%2C q_cov:100.0%25%2C s_cov:94.5%25%2C Eval:5.6e-141],MGA_324
sequence1	MetaGeneAnnotator	CDS	436548	437744	.	-	0	ID=MGA_325;product=cytochrome b N-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599371.1;translation=MNKEIIHKKSNGIIEWIDYRLPIFSFLKHFSYYQTPKNLNYLWNLGSIAGIALVIQIITGVILAMHYTPHVDHAFESVERIMRNVNYGWLLRYTHAVGASMFFAAIYLHIARGLYYGSYKTPRELLWHIGIIIFLIMMATAFMGYVLPWGQMSYWGATVITNLFSAIPLVGEPIVIWLWGGFSVDNPTLNRFFALHYLFPFIIVVLVILHLVALHQHGSNNPKGIDVKSTKDTIPFHPYYTVKDFVGFGVYFIIFAYFIFYAPNYLGHPDNYIPANPLVTPAHIVPEWYFLPFYAILRAVPSKLGGVFLMFGSIVVLFLLPWLDTSKIRSGNYRPIYRIAFWIFMADCLFLGYLGSKPVSEPYITISRFAVCYYFCHFLLVLPLIGKYEKPLPLPKVL;locus_tag=LOCUS_3240;note=WP_004599371.1 cytochrome b N-terminal domain-containing protein (Rickettsia prowazekii) [pid:95.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-229],MGA_325
sequence1	MetaGeneAnnotator	CDS	437747	438280	.	-	0	ID=MGA_326;product=ubiquinol-cytochrome c reductase iron-sulfur subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597339.1;translation=MSDTEDNKNKQTTRRDFIVLTASSVAAVGAACAFWPIIDSFNPSADVLALSSIEVDLSNIAIGQTVTVKWQGKPIFITNRTHDEIAAARAVKMSELIDPERDEVRVKAGHDNWLVTIGICTHLGCVPLSHKGEYNGWFCPCHGSQYDSSGRVRKGPAPLNLAVPPYIFISDKKIRIG;locus_tag=LOCUS_3250;gene=petA;EC_number=7.1.1.8;note=WP_004597339.1 ubiquinol-cytochrome c reductase iron-sulfur subunit (Rickettsia prowazekii) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-100],MGA_326
sequence1	MetaGeneAnnotator	CDS	438297	438755	.	-	0	ID=MGA_327;product=DUF2670 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599369.1;translation=MWRALRRLIAANPMGFFLWSIITKWYLIIAVASLITLYYTVLGLKKIGFIDYFGRETEDILSQSKAVAQNCIPKLKLVNGKLPLNEFWDCLSDPGEYKHEEVTGARVLEDEINKFMQKQTDSIADTAHPIIHPYEKLENQNNLNNTLSDNNR;locus_tag=LOCUS_3260;note=WP_004599369.1 DUF2670 domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:89.5%25%2C s_cov:89.5%25%2C Eval:7.1e-76],MGA_327
sequence1	MetaGeneAnnotator	CDS	438832	439479	.	-	0	ID=MGA_328;product=heme exporter protein CcmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597336.1;translation=MNNLFVLIKREFILQHRINNIIKYIVIFFLFYIISTVLINSEKDINKFGLIFSVICLLISLISFSTIIFKSDVEDGSLELLLSIVSCEKIIFAKFVAIFICTTVGLIFVLPVIYVFFDQILLEIALFFISVWMIFVLSSSLVVLSGSVQCYFKKNTNFVGTFIMPLLIPNIIMTGLILQDNNLQLIFIMIGINLIFLPVSFCLSAYLIKNIYNIT;locus_tag=LOCUS_3270;note=WP_004597336.1 heme exporter protein CcmB (Rickettsia prowazekii) [pid:93.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.3e-106],MGA_328
sequence1	MetaGeneAnnotator	CDS	439472	440518	.	-	0	ID=MGA_329;product=DUF4040 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599366.1;translation=MAVKTVLNFDLGNYLLNLIVFLLVLISIKIIFAKDLLNAVIASSVFSVLICVSELIMDAPDVAMTEAALGACLSTCVYLNLLRKLPTNLKNIKRINIIPASVICILFVITLTYIGLELPSYGDNNTPIHMYSSKYYVENTSRDIGIPSFVAAILASYRGYDTLGETSVILIAGIAVLLVSSKKSNAFIPRLDHYNSYSDKQYKIQCSSHGIIHLKVYPIIKHITNFIIPYIILYSIYIQINGEFSPGGGFQAGVIFASGLIAYNMIYGKQFFQENILIAVAVLGVAMYAIVGIISLFLNDNYLNYYSLTHFIEDKLAAQHIAIFIVEIVIGLTVAAIMYLIYKVFNYE;locus_tag=LOCUS_3280;note=WP_004599366.1 DUF4040 domain-containing protein (Rickettsia prowazekii) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-184],MGA_329
sequence1	MetaGeneAnnotator	CDS	440602	440922	.	-	0	ID=MGA_330;product=Na+/H+ antiporter subunit G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597332.1;translation=MTLYYIGILVVIIGLFSIFSGIIGFFRFPDFYTKLHAASVIESFAVPICLIGFACIELDMLNSIKLILAALLILLLNPVATHALGKASLLMKIRTYNTVLLKKIRK;locus_tag=LOCUS_3290;note=WP_004597332.1 Na+/H+ antiporter subunit G (Rickettsia prowazekii) [pid:86.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-44],MGA_330
sequence1	MetaGeneAnnotator	CDS	441013	442464	.	-	0	ID=MGA_331;product=NADP-dependent isocitrate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886251.1;translation=MAAFTPITIAYGDGIGPEIMEAVLYILRKAEARISLETIEVGEKLYKKHYTSGISEESWDVIQRTGIILKAPITTPQSGGYKSLNVTIRKTLQLFANIRPVVSFYPFTRTLHPNLNLTIIRENEEDLYSGVEYRQTHNMYESMKLISHTGCKKIIRYAFEYAIKNNRKKVTCLTKDNIMKFSDGIFHRVFNEIAKEYPQINNEHYIIDIGTAKLATKPEIFDIIVTSNLYGDIISDVAAEISGSVGLAGSANIGQHYAMFEAVHGSAPDIAGKGIANPSGLLNAAIMMLVHIGQGDIASLIENAWKKTIEDGVHTFDIYNEHSSSKKVCTKEFAAEVIKRLGQLPITLPKAAYPLIVKKQESNIDYKIDTREVKKLVGTDIFINMHVFSAHDIADKINKLDIGNFELKTISSKGLKLWPHDSRFEIISDHWCCRFMNKDGTEIKHLDITMLLQSLSKANIDFIKVENLFEFDGVAWYSLAQGE;locus_tag=LOCUS_3300;EC_number=1.1.1.42;note=WP_010886251.1 NADP-dependent isocitrate dehydrogenase (Rickettsia prowazekii) [pid:99.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.7e-281],MGA_331
sequence1	MetaGeneAnnotator	CDS	442567	443073	.	-	0	ID=MGA_332;product=OmpH family outer membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886250.1;translation=MKTEAQNVVIKEENFKVRVAVADVQSILEGSIAIKDLRNKIEKLNHKIQEDIAAKEAEFKPLEEKLLNERSNLSDDEFEHRVNEFNAKVSYVRKEIQIRKTKLEQAHAEAMSRVHETTITIIGELAEKYNLNLVIPSAQVLYAKNNLNITSEVTFMLNERLKEVSINY;locus_tag=LOCUS_3310;note=WP_010886250.1 OmpH family outer membrane protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:91.3%25%2C Eval:6.1e-88],MGA_332
sequence1	MetaGeneAnnotator	CDS	443895	445712	.	+	0	ID=MGA_333;product=translational GTPase TypA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597327.1;translation=MTSIRNIAIIAHVDHGKTTLIDNMLKQSGTFRANQAVAERAMDFNELERERGITILAKCTALMWNEIRINIVDTPGHADFGGEVERILSMVDGVVLLVDASEGPMPQTKFVLSKALNLGLKPIVVINKIDRDDQRIKEVIDEVFELFVALEADNDQLDFPIVYASGRAGTASLNFDNKINPLDNLAPLFNLIVTHVPTPAADHKAPFSMLVTTREYNPFFGRVLTGRVQSGTLKINQNVQVLNHENKVLETGRITKILAFRGLERIAIDNAKAGDIIAVAGVENANVSDTICAPEVTKAIPSLPIDPPTLSMTFSINDSPLAGSEGTKITSSLIGARLMRELESNVALKVTETTDKNTFQVAGRGELQLSILIETMRREGFELSISRPEVLCHTDKKGNKQEPIEEIQIDVDDDYVGVVVKSLALRKAEMTNIRPSGGGKSRITFIGPSRGLIGYYSQFLTETRGTGIINRIFYGYTDYKGPIEGRRKGVLISNCDGEAVTYALWNLEERGKMFINPGDKVYRGMIIGEHNRDNDLDVNPLKAKQLSNVRAAGKDEAIRLTPPMLLTLEQAISYIQDDELVEVTPKSIRLRKALLNPNDRKRAAK;locus_tag=LOCUS_3320;gene=typA;note=WP_004597327.1 translational GTPase TypA (Rickettsia prowazekii) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_333
sequence1	MetaGeneAnnotator	CDS	446252	447232	.	-	0	ID=MGA_334;product=pyruvate dehydrogenase complex E1 component subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596097.1;translation=MQITVREALRDAMQEEMLRDEKVFVIGEEVAEYQGAYKVTQGLLEQFGSKRVIDTPITEYGFAGLAVGAAFAGLRPIVEFMTFNFAMQAFDHIVNSAAKTHYMSGGQVKCPIVFRGPNGAASRVAAQHSQNYTACYSHIPGLKVVAPYSAEDHKGLMLTAIRDDNPVIFLENEILYGHSFDVPDIIEPIPFSKAKILKEGSNVTIVTFSIQVKLALDVVNILQNDNIDCELIDLRTIKPLDTDSIIESVKKSNRLVIVEEGWFFAGVGASIASIVMKEAFDYLDAPIEIVSGKDVPLPYAVNLEKLAMPSANDLIEAVKKVCYYSI;locus_tag=LOCUS_3330;EC_number=1.2.4.1;note=WP_004596097.1 pyruvate dehydrogenase complex E1 component subunit beta (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-180],MGA_334
sequence1	MetaGeneAnnotator	CDS	447394	448374	.	-	0	ID=MGA_335;product=pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596096.1;translation=MDIKPEKYKPIKEEYIKSFKDMLLLRRFEEKCGQLYGMGKIGGFCHLYIGQEAVISAVAMIKKKGDSTITSYRDHAHIILAGTEPKYVLAELMGRATGCSKGKGGSMHLFDIPNKFYGGHGIVGAQVPIGTGLAFAEKYNGTNNICFTFLGDGAVNQGQVYEAFNMASLWGLPIVYIIENNEYSMGTSVARSTFMCDLYKKGESFGIRGFQLDGMDFEEMYNGTKQVAEYVRENSFPVILEVKTYRYRGHSMSDPAKYRSKEEVEKYKERDTLVRIREIILDNKYATEADLKAIEQSVREIIKVAVEFSENSPLPAEDELYTEIYV;locus_tag=LOCUS_3340;gene=pdhA;note=WP_004596096.1 pyruvate dehydrogenase (acetyl-transferring) E1 component subunit alpha (Rickettsia prowazekii) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-186],MGA_335
sequence1	MetaGeneAnnotator	CDS	448467	449252	.	-	0	ID=MGA_336;product=exodeoxyribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598520.1;translation=MKVVTWNINSLRLRIDLLRKLAYEHQPDIILLQETKVANSLFPLEVIKNIGYEHVIYSGQKSYNGVAIISKFPLNNVFALELYNGDKRHIAAIVNDLEIHNFYVPAGGDIPDVEVNFKFKHKLEYVRLMREWFTANRTKNDKIIIVGDLNIAPHEHDVWSSKQMQNVISHTDIERSLLIELQNSLGFIDSSRYFISLNKKCYTWWSYRNVDWKKSNRGRRLDHIWVSDNLKYALFSMHLLSEARDWFRPSDHVPYLVTFNF;locus_tag=LOCUS_3350;gene=xth;EC_number=3.1.11.2;note=WP_004598520.1 exodeoxyribonuclease III (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-153],MGA_336
sequence1	MetaGeneAnnotator	CDS	449261	450313	.	-	0	ID=MGA_337;product=serine hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596091.1;translation=MFADDYKSLLTGAKGIFALNGEQLKANEMMPIASATKPFTAAGILKLQEQELLNINDKICKYLAPEMWGGKVPDWACKISIHNLLTHSSGIAEYFSFVKLDLNMSKQEVHKKLLQFVSSKPLEISIGKNFKYSNTNFVILGMIIEKVAKKDLANFFYDEFFKPLNMKSTSFASYSEAARIQKNVVSSNYPVRYFVTPNNSNKPTFTPVTADFLAVPCADGGIISTPNDLVKWYRALNEGKILSKKSYKLMTTKYFVAQGIESRKSYTGYGIFLTDLDSKHLMIHYTGKALGIQSAVGYILPNNIYFAILSNTMIKIPEEEKDKIDMKNPLNQLGIIYFRDAIIGAAIKKD;locus_tag=LOCUS_3360;note=WP_004596091.1 serine hydrolase (Rickettsia prowazekii) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:88.8%25%2C Eval:2.5e-200],MGA_337
sequence1	MetaGeneAnnotator	CDS	450562	451473	.	-	0	ID=MGA_338;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596089.1;translation=MIIDVNIPIPFRLDKYLKRLYPLLTQGVIEKALRQKQITVNFQKAEANLRVKVGDTIFINDYFNLPVTQHETLVFADAEIKLAKKILTDYLIYEDDHLIAINKPASLATQGGSKINLSIDSALKYLNYQGADFKLVHRLDKETSGLLLIAKNYLSSVKLHNAFKEKLVIKKYFAITYGRPVKNVGTVKSNIGKSKRRLSKIANIDSDDGKLAITYYKLLKSLNNNLFLIEFMPVTGRMHQLRLHAQLLGCPILGDDKYGNKEIMPYSKYMFLHANNIYLSETIVGKEIKLEAKLPFYFTRRII;locus_tag=LOCUS_3370;note=WP_004596089.1 RluA family pseudouridine synthase (Rickettsia prowazekii) [pid:98.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-167],MGA_338
sequence1	MetaGeneAnnotator	CDS	451600	451935	.	-	0	ID=MGA_339;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGDNFIPIEIQDNLFNLTNLYDPVFMQFMHRLGGFSVFAVNAILVICLFKVKHLQLTKIAYFLIIVLLIQIATGIITIVYSVPIIIASIHQFVAIILLSIIIWCYFLFKNS;locus_tag=LOCUS_3380;note=WP_010886248.1 COX15/CtaA family protein (Rickettsia prowazekii) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:33.2%25%2C Eval:2.2e-56%2C partial hit],internal stop codon at [451990:451992](-),MGA_339
sequence1	MetaGeneAnnotator	CDS	451990	452559	.	-	0	ID=MGA_340;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVILMIIIGGITRLTGAGLSIVEWSPVTGLLPPFSFESWQVEFAKYKAFPEYQSVNYDITLSQFKFIYLLEFIHRLLGRITTLIYIVPLICFYFQGVIKMCKMLPYIIALLLFCIQGFMGWYMVESGLLNNHSVSHFRLAFHLIIAVIIYHILFYQLIKNYCDLLLIPSQKLLLIFSCISITVIYIQIF;locus_tag=LOCUS_3390;note=WP_010886248.1 COX15/CtaA family protein (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:56.6%25%2C Eval:3.5e-104%2C partial hit],internal stop codon at [451990:451992](-),MGA_340
sequence1	MetaGeneAnnotator	CDS	453212	455263	.	-	0	ID=MGA_341;product=Rne/Rng family ribonuclease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596085.1;translation=MHKKIIIDANFPSETRVVLLGQSNNIEDIEFQTTVRQQNKGNIYLAKVTRIEPSLQAVFIEYGMDKSGFLPFSEIHPNYYNLPTAESTFPVNAFPEIALANITIEDDQEKPSIIYDSLIDNEEIDLKTIEDLVESKFQSEFNLESADDIEIIQSCTTELNISQYKPYKVQDVIRKNQVLLVQVTKEERGNKCAAFTTYISLAGKYCVLMPNTSSQNGISRKISNGEERKRLKDILNKIVSIQKITYSVIVRTAGRGSSTLDLKKDYNYLARLWNKIRKSTIKFSAPCFIHEEDSIIRKTIRDMCDHNVKEVVIQGQEAYEDASKFMQDLLPSELAKLKEHKNKTPIFTQFQVEEQLVKLYQPVVTLPSGGYIVINPTEALISIDVNSGKSTSEKNIEETALKTNLEAAKEVAKQVKLRDLSGLIVVDFIDMSEAKNRKIIERSFKEFLSRDRARIQTGNISQFGLLEFSRQRLRSSFLETNSEVCFHCNGKGVIRASDANAMLILRTIENEIFEERIDIINVFTNIVSVIYLLNNKRAEIKFIEEKYNIKLNFYSDPNATSDSYSIEKVKLLKKNNSVNTVKPVIQNHSADYTEEEPKKEQLRKNKHKWKTANNNIVNAVKDQSLGVKELVAQTVSVVEEMKVVESNGISLEEVQVAPKKAKRKYRNKNSNKKRLVDSILDVI;locus_tag=LOCUS_3400;note=WP_004596085.1 Rne/Rng family ribonuclease (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_341
sequence1	MetaGeneAnnotator	CDS	455679	456824	.	+	0	ID=MGA_342;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886247.1;translation=MTLKNDYKTNFFSLFGIFIFSCINAINFYNFKIFLLIKNLGGEQINNINQTKFIGSIIAGFSLIQLINKLSNKRIILISLSLLIICTINLIILNNYTLIKINFILINFGIFSYFTSRTLDIIEISKVKKYLFLACIILLWAGGNLMVDLLNPFIKPTNNTIVICALLYCINILTEFLHYNHTSHKLNLNSKFSSLIKNIELQLLTGFVVSYITLNILWYYEAFALKKQLALINLKLILKYIFLTICFAIIPICYILSKINKYFANLSLNIILLICFILLPIHGTNKNLNILYIILIGNCLGAIFICNILILIDKFQDYELRTALLSYFSMCSIGIYAGALSSHVPYGTIKGSDFLFSVFAVVGSFVTYHFWYFIQYKLYRF;locus_tag=LOCUS_3410;note=WP_010886247.1 hypothetical protein (Rickettsia prowazekii) [pid:91.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-197],MGA_342
sequence1	MetaGeneAnnotator	CDS	457050	457916	.	+	0	ID=MGA_343;product=UDP-3-O-acyl-N-acetylglucosamine deacetylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596080.1;translation=MHQSTLLKPVSCYGIGVHTGKRTQLTIEPAKENTGIIFIRTDISSENNYIEASYCNVSDTLLSTTISNNHKIQISTIEHLMAALWGCSIDNAIIKIDGPEVPIMDGSSKPFVFMIECAGKKLQNAPKKYLKILKEVKVVNKDCELYCTPSEHMAVDLTIDFSSKAIGRQNLSFGMQESFTKNIADARTFGFIRDVEYLKSKGLAQGASFENAIGIDEHDKVLNPSGLRYADEFVRHKLLDLFGDLYTSGISVVSAIKGYKTSHAFNNELLHKIFSDTTSYKFVTSNEL;locus_tag=LOCUS_3420;gene=lpxC;EC_number=3.5.1.108;note=WP_004596080.1 UDP-3-O-acyl-N-acetylglucosamine deacetylase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-164],MGA_343
sequence1	MetaGeneAnnotator	CDS	458764	459291	.	+	0	ID=MGA_344;product=cytochrome c family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598522.1;translation=MTGKELNKIVAAILFASLIAMIVGFIANILYKPNLHVLHRGYSIAIQKSSSNESATVIAQESVNIQELMKTANANHGREIAKKCLMCHSLDKDGPNKLGPHLWNIVGRPKASITDYKYSFAISKLGGVWDDENLFAFLHKPSSYAPGTKMSFAGISKPQDIADVILFLKNYVHDQ;locus_tag=LOCUS_3430;note=WP_004598522.1 cytochrome c family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-97],MGA_344
sequence1	MetaGeneAnnotator	CDS	459362	459766	.	+	0	ID=MGA_345;product=NfeD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886246.1;translation=MGFLFLGLGALSNSLVVYNKPLVIFTLTNQITFFGLFSLVWFCILYYPLKKYVYNKTDKTKSYSDMIGKTVEVYSPTVSSNTIGQVKWSGAIMNAYLAPNEIDAKIGEQLFIIGVKGNILICSKHRFNNNADYC;locus_tag=LOCUS_3440;note=WP_010886246.1 NfeD family protein (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:82.2%25%2C Eval:8.5e-74],MGA_345
sequence1	MetaGeneAnnotator	CDS	459893	461128	.	-	0	ID=MGA_346;product=cell division protein FtsA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598523.1;translation=MKEKISNFVTFDFGSSKIAVIAAYISKKGEIKVASQNLHHSKGIKSGVILDLKNAETSILTAIYALEKDCGKNINKIILSLSGAETKSYYINYTIKINGQTVTQQDIKKLLQKALVEFKFKNQEIIHYFPLEFTLDNNSVENPIGMYGRALSCELHIISARSNLLSNIVQCFAKCHVEVTNITLAIYASAISCLTNDEKNLGVLIIDIGDQTTSCGIFFADKLIYTWHLNIGSFHISLDIAKVFGIDLVTAEKLKILYGNAIIPLFEKDSIINMDDFHVDIPHNLNISLTIYRLAEVISARAEEILSMVKAEYDKATKGQFEVFRVVITGGGSQLRGLKELSNKIFAKQSRIGKPEIIAGFTEDYNPAMYSAAIGMLKIHALKQQKALSHIRLDENINFFKKAFDWFKENI;locus_tag=LOCUS_3450;gene=ftsA;note=WP_004598523.1 cell division protein FtsA (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-233],MGA_346
sequence1	MetaGeneAnnotator	CDS	461308	462111	.	-	0	ID=MGA_347;product=cell division protein FtsQ/DivIB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596070.1;translation=MRQKTISNKNKQTKNTNNISLRRKLGLMYKKAILVLKIVLMIFVCLFVFTKYFTSIKTYLITNIYQVTTKLGFRLENVIIEGQQNVDELTILKVLNANKSSPIFSLKLDEISNNLKKSKWIKEVYVSRRLPNTVYIKLFEREPIAIWQINNQLFLIDEEGYKISKDIQPFSHLLHVVGEGANIYASKLVLELQKYPALLNKTLVAIRVGDRRWDLNLKGNISIKLPEKEFETALKYIDALNKTNKLFNQNYKALDLRDRNKYYIQKY;locus_tag=LOCUS_3460;note=WP_004596070.1 cell division protein FtsQ/DivIB (Rickettsia prowazekii) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.5e-145],MGA_347
sequence1	MetaGeneAnnotator	CDS	462108	463073	.	-	0	ID=MGA_348;product=D-alanine--D-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596068.1;translation=MHKYQTHFVEHSVVKILSSTGKKHIALVAGGMSAEREVSLVSSAGVSKALIELGYKVTFVDMGADIAVKLQEINPDIVFNCLHGTYGEDGCLPGLLNIMRIPYTHSGLLSSALAFDKIHFRSCVLKNNINIADSIVVSKSDHINTDPMKRPYVIKPLKQGSSIGVEVIFEEDDFNFTDYDFPYGEDIIIEQYIQGQELQVALLNGKALGVLEIKLLKIRFYDYETKYNEGFAEHVCPAPLPANLYKKLLIESEKIYKTINCKGPVRAEFILEEQTNKLYVLEINTHPGMTPLSIVPEIAAYAGINFTNLIEEIIKMASFES;locus_tag=LOCUS_3470;note=WP_004596068.1 D-alanine--D-alanine ligase (Rickettsia prowazekii) [pid:99.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-182],MGA_348
sequence1	MetaGeneAnnotator	CDS	463189	464076	.	-	0	ID=MGA_349;product=UDP-N-acetylmuramate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598530.1;translation=MSILPIIKGEYKKDYNLKHLTWFKVGGNAEIFFKPFDFADLKSFLIQNKQKLPITTFGSGSNIIIRDGGIEGVVIKLGQNFNKIEFLDNHLIVGSSCLNYNLARFCQANAISGFEFLVGIPGTIGGGVIMNAGAYGSAFQDIIVQVEALDFSGNFLTFTNKEIGFKYRGNNLPKDLILLKAVFKVNKGDSQNILLKMNKINNTRSSTQPIKERTGGSTFINPEGRKSWELIDKAGLRGYRIGGASISELHCNFMINNGNATAKDLEDLGNFVRQKVFEDSGVELNWEIKRIGKYV;locus_tag=LOCUS_3480;gene=murB;EC_number=1.3.1.98;note=WP_004598530.1 UDP-N-acetylmuramate dehydrogenase (Rickettsia prowazekii) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-167],MGA_349
sequence1	MetaGeneAnnotator	CDS	464087	465574	.	-	0	ID=MGA_350;product=UDP-N-acetylmuramate--L-alanine ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598531.1;translation=MLLLELKKSNQTLGTIHFIGIGGVGMSGIAEILHNLGYKVQGSDLVENYNTKRLESYGIKIFLGQAKQNIKNVSYVVISSAINQNNPEIKEALERKIPIIRRAEMLAELMRLKCSVAVSGSHGKTTTTSLIACLFEAAGLCPTVINGGIINNKSTNAYLGSSNYLIAEADESDATFIHIPSTIAIITNIDPEHLDYYQDFEILIGAFRSFITNLPFYGFAVCCIDHKIVRKLVDDITERKIITYGIDSEDAHIIAFNINTDIASSTFDVKISLPNVLGTTIIEKITIPTPGRHNILNSLAAIAVGIELDFGIKAIKNGFNNFKGVKRRFTKVAEYNKAVIIDDYAHHPEEIKATLATAKNIANQQNGKVIAIFQPHRYSRIKYLFDDFMLCFADADILYITNIYAAGETPIEGITGQSLVDKMTQNKHHDKANFLAELDDVVSIIIDNAASGDMIIMMGAGNISSFANELDRRLLSHEILENTDCDTKSNDKVMQ;locus_tag=LOCUS_3490;gene=murC;EC_number=6.3.2.8;note=WP_004598531.1 UDP-N-acetylmuramate--L-alanine ligase (Rickettsia prowazekii) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-282],MGA_350
sequence1	MetaGeneAnnotator	CDS	465757	466980	.	-	0	ID=MGA_351;product=EAL domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598532.1;translation=MIKIAMLELITDSKNLQYEIDKLQKGVCFACRLVNYDEIEFIEQDKHFVIQDLDQIIEDVSKELNIFTTFKIINKDRILFILKTTDSDLIKNFARKLYLLSQLYINKDRPALYMHCYIASIKFTTVMNNAKSIEKALNMLLAQNNNYYYREYSSTAHDVKNIRQSNLQLNLLRQALAEKTMRFAYQPIIDRNTMKIHYYECLLRIPDENGAYISVGHIIPIAENKGLIFIIDQIVLEMTVNELARNPNLMLAVNISNIGTSDEALCEIAESLLKTHNVRDRLIIEITETSFNENYDKITLFINKLRKYGCKFALDDFGSGFTSFKQLQSLAIDIIKIDGKYVRSITSDIQSRYFVERLIKISEDLGIATVAEFVENGEIAKFLIDLKVSGLQGNFYSEAKFDRVDEV;locus_tag=LOCUS_3500;note=WP_004598532.1 EAL domain-containing protein (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.6e-226],MGA_351
sequence1	MetaGeneAnnotator	CDS	467035	467277	.	+	0	ID=MGA_352;product=BolA family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886244.1;translation=MNRIARIQEKLSVLKPHFQEIIDESYKHTNHYDGTYSHIKIRISAETLQGQSLIAHHRTINNLLADEFNSGLHALSIEVL;locus_tag=LOCUS_3510;note=WP_010886244.1 BolA family transcriptional regulator (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-40],MGA_352
sequence1	MetaGeneAnnotator	CDS	467274	467480	.	+	0	ID=MGA_353;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596058.1;translation=MKTNNILKVAVGASSVAQKALNSIANKGYNFIEDKILKGNYISREEFEKLQTLVIKLKKELTELKGNN;locus_tag=LOCUS_3520;note=WP_004596058.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-31],MGA_353
sequence1	MetaGeneAnnotator	CDS	467867	468919	.	-	0	ID=MGA_354;product=HlyD family secretion protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596056.1;translation=MFSVLQQVIYKYKHYSFIKHVIIIVLIIFTYFGYRIYVWANTQSTDNAYIDADISNISAEVSGVLTKLFVTNNTRVNKGELIGEIDDRDYKARLAALDAAIQACIKNIEIIEQKISIGKMRLEQVAEKLKLTKISFDIISIDFTRVQALSNAKFVSSKTLDDSKNEYQKVKTEYKQAQLDLDISKHNLQLLELEKSAAQEKLKELTENKKLTLRSLQNTKIIAMVPGIFSNSNLAVGNYIVMGKALFSIVQDNTMYIKANFKETQIKNFKSGMKVKIVFDAFPTKVIYGKIRNIAPATGAKFSLIPPDNATGNFTKIVQRVSVLIDFVSPNANLVPGMSARVSIRTDQST;locus_tag=LOCUS_3530;note=WP_004596056.1 HlyD family secretion protein (Rickettsia prowazekii) [pid:95.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.1e-182],MGA_354
sequence1	MetaGeneAnnotator	CDS	468928	469695	.	-	0	ID=MGA_355;product=phosphatidylcholine/phosphatidylserine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596055.1;translation=MLKIRRSIITKPVPLIKLIPNFITLLGLVTGMSSIKFALDSRWELAVYCIIVAAIIDGIDGRIARILNAASPFGAELDSLCDFANFGIAPAYLIYLWSFQQYEYKVFSSAVMLLFIVCMALRLARFNVGIYQLKQDKKTEDFFTGVPAPCGALLALTPVMIDFEIGTLLNINTRTHTITINIYLAIVAFLLASRLPTISTKNLSIKPEYLSLAMILVAIVIINLIIYPWYSLPLIAVIYILSIPICYFLKHRGDW;locus_tag=LOCUS_3540;note=WP_004596055.1 phosphatidylcholine/phosphatidylserine synthase (Rickettsia prowazekii) [pid:92.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-130],MGA_355
sequence1	MetaGeneAnnotator	CDS	469828	470523	.	-	0	ID=MGA_356;product=phosphatidylserine decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598533.1;translation=MKQYNDLFKIIHREGYIFIASFALVSFLLASFNEKLGCIGFIATIWCIYFFRNPDRFVPISDDLVISPADGIIQEIKEASPPPELGLGDLEMIRVSIFLNIFNIHVNRIPANGKILALHYNPGKFFNASLDKASLYNERQSVLMETDQGQKIVFVQIAGLIARRIVCDLEEDNEVKMGERYGIIRFGSRVDVYLPLKTALLVSKGQTAIGGETIIADFGRKKTEEFKFERK;locus_tag=LOCUS_3550;EC_number=4.1.1.65;note=WP_004598533.1 phosphatidylserine decarboxylase (typhus group) [pid:100.0%25%2C q_cov:94.8%25%2C s_cov:94.8%25%2C Eval:4.2e-122],MGA_356
sequence1	MetaGeneAnnotator	CDS	470556	470879	.	-	0	ID=MGA_357;product=DUF2610 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596053.1;translation=MAHYKEFEFDCDFGGQRAKFKFYIGTPQEGHHPLQFQAKWLSDERGGTIPDEVMKAISQLNDLAKKISVPLPDLCVYALGSAQETQVSNHEEDADVLETQDDNAEQV;locus_tag=LOCUS_3560;note=WP_004596053.1 DUF2610 domain-containing protein (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-58],MGA_357
sequence1	MetaGeneAnnotator	CDS	471097	471834	.	-	0	ID=MGA_358;product=inositol monophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598535.1;translation=MQPITNLLMNAIRKAVKFLNRDFLELEMLQKNSIRNEEFCKRSYLKLKTLLCEELQKHTQYLFFPEDIFDLNDNYESIILINPIDSTNNFCRSIPFFAISVTYLKRNQDALTTASTVIYFPVLNEIYYAEKGKGAWIEKNNFNSNYHVLRLRVSDNADLKNCLAIVEGVNYDNFEEIKLNNIRSFGSPCYGAALVSLGKVDLIYLSLLNFTLYYAFELLIKEAGGIIIDSSDKFICANRYIAKKL;locus_tag=LOCUS_3570;note=WP_004598535.1 inositol monophosphatase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.2e-139],MGA_358
sequence1	MetaGeneAnnotator	CDS	471844	472410	.	-	0	ID=MGA_359;product=elongation factor P;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596051.1;translation=MKISANSIRTGNILVYNNDLWVVSKTPEHTQPGKGGAYVQVEMKNLKTGTKRNDRFSSSDYLEKAELEQKDCQFLYFEGNNLVLMDTKHFDQINVPKEILEAKLPFLTENMIVKVEFYNDKPLTIVLPPTVILAISETDPVIKGATVTSSYKPAILENGIKVKVPQYLAIGEKIVVKTDDMTYVERAK;locus_tag=LOCUS_3580;gene=efp;note=WP_004596051.1 elongation factor P (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.0e-104],MGA_359
sequence1	MetaGeneAnnotator	CDS	472486	472941	.	+	0	ID=MGA_360;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTILVVDDIETNIKLLTAKLLKEYYTVLTANSGKEALSILKKEKIDTILLDVMMPEMDGFEVCKMIKTDPGTTHIPVVMITALSDIDDRVKGLEAGADEFLTKPINDTALFVRLKSLSRMKSLIDELKLRNSTNALLGVTNIEIHDTFTD;locus_tag=LOCUS_3590;note=WP_004598537.1 PleD family two-component system response regulator (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:33.6%25%2C Eval:4.0e-79%2C partial hit],internal stop codon at [472939:472941](+),MGA_360
sequence1	MetaGeneAnnotator	CDS	472993	473838	.	+	0	ID=MGA_361;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVKVTKHVKVINNSNELDIINEYRSDLVIISSTLENEDPLRISVILRGKAEISGVVIILQIDEDGMPLVVKGIELGINDYFIYPIEENELLARIRTQLRRKQYQDNLRNDLEQSVNLAAKDGLTGLFNRRYFDIHLKQMIEKANKENIKLYLLMCDIDNFKHVNDTYGHQAGDKVLTTVSRILKNTLRVTDLIARFGGEEFTILLTDIDISKAIETAERVRVKIEYMDFYIEGQIEPFKKTISIGVTEYKKEESIESFIKRADKAMYEAKTTGKNKVVQL;locus_tag=LOCUS_3600;note=WP_004598537.1 PleD family two-component system response regulator (Rickettsia prowazekii) [pid:99.6%25%2C q_cov:100.0%25%2C s_cov:62.4%25%2C Eval:3.4e-154%2C partial hit],internal stop codon at [472939:472941](+),MGA_361
sequence1	MetaGeneAnnotator	CDS	473867	474352	.	+	0	ID=MGA_362;product=RNA pyrophosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598539.1;translation=MRNSSNKYLDLPYRPGVGMMILNADNQIFVGKRIDTKISSWQMPQGGIVPGETPSIAAMREMLEEIGSNKGYIIAESKCWYSYDVPSFLIPKLWNGNFRGQKQRWFLIRFTGNNKDINIHTSNPEFDQWRWTSLDELLSIIIPFKRKLYQAVVKEFESLIQ;locus_tag=LOCUS_3610;EC_number=3.6.1.-;note=WP_004598539.1 RNA pyrophosphohydrolase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-92],MGA_362
sequence1	Aragorn:1.2.38	tRNA	475281	475357	.	-	.	ID=Aragorn_16;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0160;note=Aragorn_16
sequence1	MetaGeneAnnotator	CDS	475398	475883	.	-	0	ID=MGA_363;product=30S ribosomal protein S9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598550.1;translation=MTELKIKTEKVVKQLTKESLKSVLKIPKEKIDSVSKFYATGKRKNAIARVWLKVGKGKIVVNNKILNQYFPSETYVKTILQPFILTKTIDQYDVICTVKGGGISGQKGAILHGISKALDKSAPCFHAILRKGGLLTRDSRVVERKKYGQRKARKKTQFSKR;locus_tag=LOCUS_3620;gene=rpsI;note=WP_004598550.1 30S ribosomal protein S9 (Rickettsia prowazekii) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-84],MGA_363
sequence1	MetaGeneAnnotator	CDS	475890	476357	.	-	0	ID=MGA_364;product=50S ribosomal protein L13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596047.1;translation=MKTYSAKPSEIEKKWWVIDAKNVVLGRLASRVAIMLRGKHKPSFTPHLDCGDNIIIINAEHIKLTGKKLNPKDGKVYYRHTGFPGGIKDTTAGKILSGKYPERVIKMAVKRMITRNVLGAKQMSNLYVYANCEHPHMAQQPTIYDFASENPKNKK;locus_tag=LOCUS_3630;gene=rplM;note=WP_004596047.1 50S ribosomal protein L13 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-88],MGA_364
sequence1	MetaGeneAnnotator	CDS	476577	477824	.	-	0	ID=MGA_365;product=PQQ-binding-like beta-propeller repeat protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598559.1;translation=MKKKLALLLLPFILISCNGLGSKSVKNIVDLTPKLVIQTNEPIYLDSNTKIYPFNVNMLKNKQYSPAKSKMIAEPVFIGDMIYTLDIRANISAFSIEKNKIIWSYNLSKHKKDNYIGGGILHHNGKLYITYGARLLIVLDAKSGYEIIRKELPDIIRIKPIALNDHTILVQTISNQTIALDSETLKTLWDHESIAEILSTSYSMIPIVQHDNVIVTYNTGQVLALNIKNGEVKWNFEFTNLNDHTAIPNFDTSSILCTPVHDSMNLYIATGLGKLIKLNLLTGSVLWQINADDIQSMSLIGNSLFIINNARQIAALNPETGKVKFVADLNYEKNDKRLKSTTFLVPFVGVDNNNQRSLNVISVDGILYNFNIDSNGLKMNPHIIKIIKNIRYYGLRSNNTLYFSTDRQVIFGSQI;locus_tag=LOCUS_3640;note=WP_004598559.1 PQQ-binding-like beta-propeller repeat protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:2.6e-234],MGA_365
sequence1	MetaGeneAnnotator	CDS	477851	478513	.	-	0	ID=MGA_366;product=DUF2659 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598561.1;translation=MTDILDEVLSDQNEEKRLIFFKKLVPIIIIISIVVITIMVIIKNNKDNRIKNNQKNGDILVKTIGLDTTKDNKALAFNTLENLITSSNTKIKEIAALEQVAIRMSEKNYLGAKNLLNKIIDNEKYSEISTAYARIAWCCIVLDDQSLNIQDKGKLQKYLNYFDDEKKPFWATATIIKAILDIKHNMKTQAEKNLKNLLASNNVSDLLKDQAKALLVSLSK;locus_tag=LOCUS_3650;note=WP_004598561.1 DUF2659 family protein (Rickettsia prowazekii) [pid:94.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-110],MGA_366
sequence1	MetaGeneAnnotator	CDS	478510	479199	.	-	0	ID=MGA_367;product=tol-pal system protein YbgF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886242.1;translation=MPQGKPLKYAVNNDFENRLDEQEQEIRKLIGKVEILQHKIDLLKQNLNMLNQEENIEVLETDDFKKQDIFDIALLEGMHDNVSKKTFEVNKDIAPYKQAYDLALAAYKDNKLTEAKDKFKNFIQKYPNNSLISNAYFWYAECFFKQKDYNGAAINYLKCYKESPKGAKSSDGLLKLALSLGELKKMQEACNILAKLDKEFPINRTSVSKKMTEDAKIKFGCKINKNNKI;locus_tag=LOCUS_3660;gene=ybgF;note=WP_010886242.1 tol-pal system protein YbgF (Rickettsia prowazekii) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:91.6%25%2C Eval:6.7e-128],MGA_367
sequence1	MetaGeneAnnotator	CDS	479490	480983	.	-	0	ID=MGA_368;product=ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886241.1;translation=MNHNKYIVRLSFIILFLNIVINMLFYRYFMIKEMIIKQVALEHTKIVELYTDNIWNIHKNVISKLHKFDYLKLLQDQDFINFVKITAQWFTNLNINISLYDLKGNKFITSNMLHMYSVDNYKDDSLIEIVITKIDKIFLKSFTSAAPLRDAFKGITSHILLPKVVIENESDLTIEHASFVTSYIPVIDHNLDFPVDAVFEINTNITSQWKNITSLEQKVFITFIIIFIIFCTIIISNTNYARQIIEEQLETNRNLKAQIEKVEKTSSSNTKFFANISHELRTPLNAIIGFSEILMSERDTEKCKNYIKDIHDAGKHLLSMINDILDLSKASADKLKVDNIDLDLNKLISSSLILIKPRAYQAEVELISRLPKEHVVINADPKRLKQVLLNLLSNAVKFTNSGGSVTISLEKDELAKLVYIKVIDTGIGIEEKDIPKTLSAFGQIDSELSRKYEGTGLGLPLTKKLVELMNGKFDLQSKINKGTTVTITFKYDGSIEI;locus_tag=LOCUS_3670;note=WP_010886241.1 ATP-binding protein (Rickettsia prowazekii) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-269],MGA_368
sequence1	MetaGeneAnnotator	CDS	481189	482514	.	-	0	ID=MGA_369;product=S41 family peptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596041.1;translation=MLLRFIIALFLSINCAIEGKETENKISNQEAYKQFQDVFERIEKDYVQVPDRQKMIDEAINGMLNSLDPHSNYYTDEDLEDIFTFTKGEFGGIGVEIMYDSGAIKIISSIDDLPAFKAGLKGGDYIVGVNDELVSTLGPNKAIKEMRGTPGTKVRLLIIKEEEAKPQELELTREIVKIKPIKAHLEKNNIAYIRITTFNESTISELKAAVKKLKTESKDNLKGIILDLRNNAGGILDQAIAVSDYFIDSGVIVTTKGRTTSSNSETKANEFSLKAPKVPMIVLINGNSASASEIVAGALQDHKRAIILGTKSFGKGSVQALTQINSRAAVKLTISKYYTPSGRSIQAEGIEPDILIEPAKVEYPEVKKLDKRFSESSLKNYLKNDNAKNKDSNKETKTKNNKQEESELSELYKKDYQFARAYDVITGLIINTNLETQGKAK;locus_tag=LOCUS_3680;note=WP_004596041.1 S41 family peptidase (Rickettsia prowazekii) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-239],MGA_369
sequence1	MetaGeneAnnotator	CDS	482689	483000	.	-	0	ID=MGA_370;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPKLVEEGHLYLAKPPLYRLTQSNKIYYACDEEEKIKLTYKLSKASKAKIEVGRFKGLGEMMPAQLKETTMHPEKRSLLKVTLEDVQNVDKIVDDLMGKKPEK;locus_tag=LOCUS_3690;note=WP_004598566.1 DNA topoisomerase IV subunit B (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:15.6%25%2C Eval:7.7e-54%2C partial hit],internal stop codon at [482689:482691](-)%2C[483004:483006](-),MGA_370
sequence1	MetaGeneAnnotator	CDS	483004	484611	.	-	0	ID=MGA_371;product=DNA topoisomerase IV subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598566.1;translation=MSDLFSLNKEKKNKIVYTNYSAKDIEVLDGLEPVRKRPGMYIGGTDSNAMHHLVSEVLDNAMDEAVAGFASIIMIKMHQDHSITIFDNGRGIPIDNHPKFPDKSALEVILTTLHSGSKFSNNVYHTSGGLHGVGISVVNALSKHFKIKVYKQGKLYSQSYSKGAKLTDLISAEASKRLRGTSINFTPDPEIFSEKLHFNPKKIYEIARSKAYLYRGVSIEWECEVEVPSDIPKKALINFPNGLKDYLSSKISLDNLVIPEIFSGNIESTVDDIKLEWAICWQNNDTSAFMQSYCNTVPTPQGGTHEQGLKSAILRGLKAYSEMIGNKKAANLTIEDILETASIVLSIFIVEPSFQGQTKEKLVSNGVSKLVENIIKDHFDHFLSSDKVLATHLLEHVIAIAEFRRNKKNERNISRKSVTQKLRLPGKLADCTRTSAEGTELFIVEGDSAGGSAKQARNRETQAVLPLWGKVLNVASSTLEKIINNQAIQDLEIALACGSLKNYKKENLRYEKIIIMTDADVDGAHIASLLMTFFF;locus_tag=LOCUS_3700;gene=parE;EC_number=5.6.2.2;note=WP_004598566.1 DNA topoisomerase IV subunit B (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:80.8%25%2C Eval:2.9e-308],internal stop codon at [483004:483006](-),MGA_371
sequence1	MetaGeneAnnotator	CDS	484806	486560	.	-	0	ID=MGA_372;product=ankyrin repeat domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598568.1;translation=MLNKLCDILFLINLLLVTVQGYASPPPLPPSLPIIAVDTTDKNISTNSNISFFEKFKQFFSKQKMKNISSQHEQEQTKAIHQESQQIDSRELNENEQSEPFIDFGSTILPSVASNYIDSKAEYENSTNLAASYNTQDIQVKQQEFDPSEASEPIDIGNTKFTSATNHEMYKEAVSSNDKETNLTSNIITPNVPSPVISIPTAQDVNYVVPSQQSVQIYKPTNLTSIRNPIPLNHHTDLNKVEKILESTISNMTTIPTNMVSVPSIQDTIQTTLNITVPTAETHVSVQTSTVMHSNQHSAQPITPISINTPVETSSTVLRATESSVPINNSQEIFVSESESTKKQDWYTPIMPVLVVDPNKSQSKPLALEQKNNNDQIINNQAESHSVSSSNVTIQKQNDKVNNATSESTKEFVKNETQMLFLPDDDIVLGKLTEDATLEQMDMHGYIKLFQKNEEWIANAEKRKLVESFIKYDDDINKNKDIYANLSYYSAVDNAFRAVEKNNLFELRALLDVYPILQAKNSTGETLLTSSIYNGNYYLAKFLVIRGIKTSVLKNDECKYPLDIALAKGNTNIVCMLMKAKGYN;locus_tag=LOCUS_3710;note=WP_004598568.1 ankyrin repeat domain-containing protein (Rickettsia prowazekii) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_372
sequence1	MetaGeneAnnotator	CDS	486653	487066	.	-	0	ID=MGA_373;product=PopZ family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886240.1;translation=MNKENKKNQDMSIEEILKSIKGIINERKNPIYDNYSADEDILELTDIVNQNEEENLISTKSASEVEEVFRNFTDTIKDKKLNNNFSSKNALEELVIGMLKPELKAWLDKNLPILVKELVEIEIKKLVQYSKRNDSNY;locus_tag=LOCUS_3720;note=WP_010886240.1 PopZ family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-72],MGA_373
sequence1	MetaGeneAnnotator	CDS	487068	488438	.	-	0	ID=MGA_374;product=TolC family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598570.1;translation=MSKFTITIFITTLLFTGSVIALDLEQALTEGYKNNEELKAAQIKFLNAIEQFPQAFSGFMPNVGLQINRQNSKTKYNKKYVNRLGITPRETASTQGILTIEQSLFNGGASIAALKAAQSGFRASRSEYYAGEQKVLLNLITAYLDCVESKEKYDISESRVRTNIQQVKTVEEKLRLGEATAIDIAAARAGLAAAETNKLAAYADFQGKKANFIKVFGIEANDITMPDLPDRLPISLDEFTRKAAKFNPDINSARHNVTVTKALEMVQKGKLLPQVSVKLLSGGTNYNPQEPVIQNINNRIYTTTLSVNIPIYPEGGAQYSRIRSAKNQTRNSVVQLDSAIKQIKAGVVSVWEGFETAKSRIVAANQGVEAAQISYNGIVQEEIVGSKTILDVLDAEQKLYEAKITRVDAYKNSVLASYQMKLLTGELTAKSLKLKVKYFSPEEEFNNLKKKMFIGF;locus_tag=LOCUS_3730;note=WP_004598570.1 TolC family protein (Rickettsia prowazekii) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-247],MGA_374
sequence1	MetaGeneAnnotator	CDS	488643	489839	.	+	0	ID=MGA_375;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598572.1;translation=MYIMNFSSFHGLNTEQQTTLKRLLIKLGSFTKSLKINVTDLENHLFYIVQNSLDELLHTENIDTEKITTFFNITLQESLNILSRELDRTYQEQLVKKDIFLFDGVIIEKCLNVLEQVLKFQKELDTLYPRASHKIIKSLENIIVMVIASQIPILGIFIQISETLKKVNNLIDYKKLLPKITRFHNEITEIIRDVTSNKQLKNIFKKATKVATILEISKESARKVIEIANKNPNNSASFENVVKAAKTIPKSKDEVEEKIAELKSNIESTIPKNINIDKLNSINNTISYHINETKTELLKVLNPEASFAEKIESLCKAAAKAMTIVGHIKEILGVVPGSKQLGTVISLAIKSNLLPPPVFTITKLAPDITKLVNIGKAVVIMLSKIHNLTQQHGRANSV;locus_tag=LOCUS_3740;note=WP_004598572.1 hypothetical protein (Rickettsia prowazekii) [pid:99.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-218],MGA_375
sequence1	MetaGeneAnnotator	CDS	489931	490248	.	+	0	ID=MGA_376;product=DUF2660 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886239.1;translation=MLPATLNNIDDSQNVALNRKKSENKKLTLQEKIELSWQFLYDLTEIILNKFSKEDVVQVNKCGQILFENGVRYEHVVDLITPHQVRSHTQLVEQEQSKGKKALRM;locus_tag=LOCUS_3750;note=WP_010886239.1 DUF2660 domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:89.0%25%2C Eval:1.5e-54],MGA_376
sequence1	MetaGeneAnnotator	CDS	492068	493384	.	-	0	ID=MGA_377;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKVAGAYWRGNSRNEMLQRIYGTAWATKEQLDNYLFMLEEAEKRDHRKIGKELDLFHFQEEAQGMVFWHDKGWSIYNTIEQYIRKKFRKNGYIEVKTPVLVDKSLWEASGHWAKFRCDMFTLETDDKTLALKPMNCPCHVQIFKQGIKSYRDLPLRMSEFGLCHRNEASGALHGLMRVRSLVQDDAHIFCAEEQITDETVRFCKLLTEVYKDFGFTDIKVKFSDRSEICAGNDEVWDKAENALKTAIEKAGFIYTLNPGEAAFYGPKIEFVLTDAIGRQWQCGTLQMDFVLPERLDANYIAASGEKKRPVMLHRAILGSLERFIGILIEEYAGKFPIWLAPVQVAIATITNDLNDYALEVQKTLIDNGVRTDINISPDKINYKIREFSNQKIPIIAVIGKQEQANKQVTIRKLGTIEQEILSIEQLIAMIKKENSNYL;locus_tag=LOCUS_3760;note=WP_004598574.1 threonine--tRNA ligase (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:69.0%25%2C Eval:3.4e-256%2C partial hit],internal stop codon at [493529:493531](-),MGA_377
sequence1	MetaGeneAnnotator	CDS	493529	493975	.	-	0	ID=MGA_378;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MINISFPDGSVKQFAQNITAFEIVNAISMSLAKAAIVVEINGELKDLSTVIENDCKLRILTAQDYECLEIIRHDAAHLTAEAVKELFPETQVTIGPAIENGYYYDFARDKPFSIDDLANIEAKMQELSKKNEKITRELWDRDKAVEFF;locus_tag=LOCUS_3770;note=WP_004598574.1 threonine--tRNA ligase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:23.3%25%2C Eval:2.2e-79%2C partial hit],internal stop codon at [493529:493531](-),MGA_378
sequence1	MetaGeneAnnotator	CDS	495582	496292	.	-	0	ID=MGA_379;product=phosphoribosylaminoimidazolesuccinocarboxamide synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596020.1;translation=MKKNLYEGSSKILYSAEEDFLLIMAFSDKAVLETGETVDISGKGVLNNNISSFLMDKLEMIGIENHLIEKINMREQLIQYVEVFPIQVIISSVACGRFVKEFGMDEGYVFDKPIIDFKVRSREFNYPIVNEYQISNFGWLTMDEIRIVKAQTLRIYDFLSGLFIGIGIRLVECKLEFGRVFNGEESIIMLTDEISPDNCRLWHINSNEKLGFELIQNEPNKAFESYQLIANRLKEK;locus_tag=LOCUS_3780;note=WP_004596020.1 phosphoribosylaminoimidazolesuccinocarboxamide synthase (Rickettsia prowazekii) [pid:99.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-131],MGA_379
sequence1	MetaGeneAnnotator	CDS	496426	497664	.	-	0	ID=MGA_380;product=pitrilysin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596018.1;translation=MKENFNVSKLKNGLTILTYNMPYVHSVAINLIAKVGARYENEEEEGISHFLEHMAFKGTKTRTAQQIAEEFDSIGGYFNAYTGHENTVYYARVLSENCHKALNILADIIQNSIFADEEIAKEYQIIMQEIAHHHDNPDDLIYETFYNTVYKGQPLGKSILGTTKTLVTFTKEHFLNFIGKHYNAENLYLSIAGNIEHNKIVMIAEELFASLKQGVKSSFIPAKYIGGKGFIHKELEQTSLVLGFECTSYINLGQLYQTYLLSIIFGGGMSSRLFQSIREKLGLAYVVGSYNSAYFDSGVFTIYASTAHNKLELLYREIKNEIIKITETVSTEEIIRAKMQLRSNLQMAQEQNTYKSEEIGKNYSVFGKYILPEEIIEIITNIRADDIINTANKIFSGTTTLAIIGPNDLNGF;locus_tag=LOCUS_3790;note=WP_004596018.1 pitrilysin family protein (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-234],MGA_380
sequence1	MetaGeneAnnotator	CDS	497803	498681	.	-	0	ID=MGA_381;product=glycosyltransferase family 2 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598575.1;translation=MKKISTFIITKNESARIARAINSVKNITDEVIVVDNESTDDTVHIAKTLGAQVIVKPWLGYVGQKSFAESMCVNDWVLNIDADEELSQELQDEIEYIFTSHNQDRYLAYQIKLLIMYRGDQKPRMFAPLNKCTRLYNKKFASFANTINSTTHDSVVFNKDVDFTGKIYLLNGIAYHYSGTSIEQLVNKANFYSSEQAKDLVKQGKKLSNFRLATEMIWCFLKAFFIRRYFVFGFDGFVDSIIFAFARFLRLAKLRDLSLKSQNVITSDNYINYCMDFKSLLQQKKRNRYPKK;locus_tag=LOCUS_3800;note=WP_004598575.1 glycosyltransferase family 2 protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-166],MGA_381
sequence1	MetaGeneAnnotator	CDS	498941	499960	.	-	0	ID=MGA_382;product=cytochrome d ubiquinol oxidase subunit II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886238.1;translation=MLNFGSYIDLPLVCGGLIATAICLYVLLDGFDLGVGILFPFAPTDDCRHKMMNSIAPFWDGNETWLVLGGGGLFAAFPLAYSILMSALYIPIILMLLGLIFRGVAFEFRFKAHIGHRCIWDYSFHFGSMLAVFCQGLMLGTFVQGIVIDGRQFAGGSFDFLTPFSVMTGIALIFGYALLGATWLILKTENKTQDWAYKSALYILFYVALFMGLVSLSAPFLNNYINHRWFSMPNIYYLSIIPIITVLIFIKLIKAIKQKKEVKPFIYTILLFLLGYLGLAISIWPYIVPYKVTLENAAAVPESQSLLLVGALIFLPVILGYTFYCYYIFRGKSSSQPLY;locus_tag=LOCUS_3810;gene=cydB;note=WP_010886238.1 cytochrome d ubiquinol oxidase subunit II (Rickettsia prowazekii) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.9e-194],MGA_382
sequence1	MetaGeneAnnotator	CDS	500054	501415	.	-	0	ID=MGA_383;product=cytochrome ubiquinol oxidase subunit I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598577.1;translation=MEFDQVLLSRIQFAFTISFHIVFPTFTIGLASFLAVIEGLWLKTKNPIYQEIYKFWVKIFAVTFGMGVVSGVVMSYQFGTNWSNFSDKVGNVLGPLLGFEVFTAFFLESSFLGIMLFGFNKVTKKVHFISTLIVAIGTIISAFWILAASSWMHTPAGFELRDEGFFYPLNWLEIIFNPSFPYRFFHMITASYLTTSFVIGGVASFYLLNNRYKKHAKIMLFMAVLMALIVSPIQIFIGDLHGLNTLKYQPVKVSAIEGIWNTEKGASFNLIGLPDKEEEKTKYAIEIPYASSLILTHSLDGEVKGLKEWTKEERPPVAVVFFSFRIMLGIGCLMVFTGIAGLYLYLNKRLYTTYWFQYWYILMSPSGFIAVLAGWLVTEVGRQPYIVYNILKTVDTVSPLLGKYVFISLIAFVVVYLIIFGVGIYYIIYLIKKGIEAIDNNETYVEHWLSNRL;locus_tag=LOCUS_3820;note=WP_004598577.1 cytochrome ubiquinol oxidase subunit I (Rickettsia prowazekii) [pid:95.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-252],MGA_383
sequence1	MetaGeneAnnotator	CDS	501588	501860	.	-	0	ID=MGA_384;product=DUF2671 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596007.1;translation=MQEKELSNNFLEEQNTFKEDNSPFSDIKYICQASLLITDSIRKGYDVTQLSNGDINVTEIRIVNVHYNWNSEKGKFVKTNQIEFNNNKGG;locus_tag=LOCUS_3830;note=WP_004596007.1 DUF2671 domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-47],MGA_384
sequence1	MetaGeneAnnotator	CDS	502035	503804	.	+	0	ID=MGA_385;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596005.1;translation=MIKYHALSKSTFSLGIYFLKFDKIKITLLTVICILFGIIPAMDSILLQKIIDLIESFSDENAHNLLSSMIYWAIFYALWWESINIAYRSYDYLYLKTMPVIKGKILNELYNYTQYHSHKFFQDNLAGHISNRITETARSFEMIISIFGEKLLRKLAIIVFALIALYSVHYAFATIFILWITVFLGLSILFSDKMNQYSLNYARSQSFVAGSIVDAISNINAVRMFTAHKFERQHLETRVENAIADEQTMQFFMFKLRYSLGMSCSIMIFIMIYYLSRLRSELSISIGDCVLVLTLCINVADDIWDLTQEIGDMFEQIGAFNQGLSLMAPHIITDIENATPLDIKEGIIEFRNVTFNYYHNNNLFYKKSVLIPSKQKVGLVGFSGSGKTTFISLLTRLHDIEDGMILIDNQNIRNVTQDSLRKAISLIPQEPVLFHRTILDNIRYGKKEATLDEIIAAAKAAHIHDVIDNLPDGYNTMCGERGNNLSGGQRQRIIIARAILKNAPILILDEATSSLDSETESMIQNSMDYLMQNKTVIVIAHRLSTLLNMDRILVFEAGSIIDDGSHTELLKNSKLYKKLWDSQIKGSIV;locus_tag=LOCUS_3840;note=WP_004596005.1 ABC transporter ATP-binding protein (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_385
sequence1	MetaGeneAnnotator	CDS	505200	506351	.	+	0	ID=MGA_386;product=tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595999.1;translation=MKLSDFDFNLPSALIAQYPSSERDNSDLLIAGTKHIKTKFYNIIDYLKKGDLLVFNNSKVIKAKLHLGKNITINLNKKLSDNCWIAFAKPARKLNIGDEFYFDTHKIIITEKLAIGEIKVKFMLDNISIIKFLDKYGEIPLPFYIKRPSPVCYSNMALCCKPENTLKIKSIPHNMSKIVTNNSNTVNLRSNDGIIDSTNDNDRYQTIYSQIEGSVAAPTAGLHFTKNILDKLKTKGVHTAFVTLHVGAGTFLPVKTENIHEHKMHTEYCSITTETAEIINKTKQEGRSIIAVGTTTLRTIESACNNGIVRAGNFETDIFITPGFNFQVVDMLLTNFHFPKSTLFILICAFAGFKEMHALYKYAIKEKMRFFSYGDATLLYRKV;locus_tag=LOCUS_3850;gene=queA;note=WP_004595999.1 tRNA preQ1(34) S-adenosylmethionine ribosyltransferase-isomerase QueA (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-223],MGA_386
sequence1	MetaGeneAnnotator	CDS	506934	507572	.	+	0	ID=MGA_387;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIKCLNSFILDSKQTALLTELKELAKEVNKSKSLFKLFNKHHLKNGIYLYGPVGSGKTLLMNSFFDAISISKTILHYQNFIHEMHKSMHRLQTEKQKDIITKIAKNYAKQTKVLCIDEFEIKDITDAMIISRLFNELIKQNIFIFITSNTSPNNLYKDGLQRESFLPFIKTINNTFYIKYLDNHHDYRFDKALGVKSSRIIYPLTLENKNKL;locus_tag=LOCUS_3860;note=WP_010886236.1 cell division protein ZapE (Rickettsia prowazekii) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:59.4%25%2C Eval:1.5e-115%2C partial hit],internal stop codon at [507570:507572](+),MGA_387
sequence1	MetaGeneAnnotator	CDS	507582	508007	.	+	0	ID=MGA_388;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKISDNNLVAQNIQVLCRSISFQKVYKQILVTDYNELFIRELSYIDYVNICQNFNIIIVENINTIDANDTDTVVRFINFIDNAYFYKILLFMSLVDNPNKIYQGLARAKEFQRAISRLHEMNSEAYLLNNDLKELITLNTI;locus_tag=LOCUS_3870;note=WP_010886236.1 cell division protein ZapE (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:39.5%25%2C Eval:2.8e-75%2C partial hit],internal stop codon at [507570:507572](+),MGA_388
sequence1	Barrnap:0.8	rRNA	508194	508303	.	-	.	ID=Barrnap_1;product=5S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r0010;note=Barrnap_1
sequence1	Barrnap:0.8	rRNA	508570	511321	.	-	.	ID=Barrnap_2;product=23S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r0020;note=Barrnap_2
sequence1	MetaGeneAnnotator	CDS	512047	512943	.	-	0	ID=MGA_389;product=methionyl-tRNA formyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886235.1;translation=MGTPEFAVPTLKKLIIHHEVKAVFTQQPKAKGRGLHLAKSPIHQLAFEHQIPVYSPSTLRNDETINLIKKIDADIIVVIAYGFIVPKAILEAKKYGCLNIHPSDLPRHRGAAPLQRTIIEGDRKSSVCIMRMDSGLDTGDILLKEDLNLERRITLDELSNKCAHLGAELLIKTLANIDNIVPIKQSSNGITYAHKLTKAEGKINWYESAYSIDCKIRGMNPWPGAYFSYNDKIIKILRAEYFNYNHHFIPGTVINNKLEIACGSGILRVKKLQQESKKALNIEEFLRGTNILKDTILK;locus_tag=LOCUS_3880;gene=fmt;EC_number=2.1.2.9;note=WP_010886235.1 methionyl-tRNA formyltransferase (Rickettsia prowazekii) [pid:98.7%25%2C q_cov:100.0%25%2C s_cov:98.3%25%2C Eval:1.2e-168],MGA_389
sequence1	MetaGeneAnnotator	CDS	512955	513482	.	-	0	ID=MGA_390;product=peptide deformylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595989.1;translation=MSIFSIVTAPDERLKQKSKPVLECTDQTRKFMHDMLETMYNADGAGLAAVQVGILLRILVIDIKEYDPVERPKDFYPLFIVNPEIIEKSTELVTANEGCISLPKQRIEVTRPESVKIRYLDYHGKSQELKANDWLARVIQHEYDHLEGKLMVDYLSNLKRDVVLRKLKKLKNNIV;locus_tag=LOCUS_3890;gene=def;EC_number=3.5.1.88;note=WP_004595989.1 peptide deformylase (Rickettsia prowazekii) [pid:92.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.6e-87],MGA_390
sequence1	MetaGeneAnnotator	CDS	513998	514183	.	-	0	ID=MGA_391;product=twin transmembrane helix small protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411656.1;translation=MMWLLIAIGLTVSVLIIGIVSMAIGGKFDKKLSLKLMTLRVFFQAVSIFLLIYFYKVHFLY;locus_tag=LOCUS_3900;note=WP_014411656.1 twin transmembrane helix small protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-27],MGA_391
sequence1	MetaGeneAnnotator	CDS	515791	518508	.	-	0	ID=MGA_392;product=DNA topoisomerase (ATP-hydrolyzing) subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595986.1;translation=MIDKYSSNLVPVNIEDEMKVSYLDYAMSVIVSRAIPDVRDGLKPVHRRIIYSMYEAGNHASKPYRKSARIVGDVMGKYHPHGDSAIYDSLVRMAQDFSLRLPLVDGQGNFGSMDGDAAAAMRYTESRMAKVAHKLVEDIDKGTVSFNINYDGSEEEPSVLPAMFPNLLVNGSGGIAVGMATNIPPHNLGEIIDACCLYIDNHDIEILDLLEVVKGPDFPTGSMILGISGIRSAYLTGRGSIIMRGKAEIENVGNSRQAIIITEIPYMVNKARLVEKIAEMVKEKRIEGISDLRDESNKNGIRIFIELKKDVVAEVVLNQIYACTQLQTNFGVIMLALKDGLPKVMNLKEVIAAFVSFREVVITNRTIYLLNKARDRAHILLGLTIAISNIDEIIYIIKASNDTNLAKQELMARQWEVLDILPLIKLVDDKVILNERGTLSFTEVQAKAILEMKLQRLTAMEKEKLEQDLKHLATDIAEYLNILASRTRLLEILKEELIKVKEEFASPRLTSIEFGGFDQDIEDLIQREEMVVTVTLGGYIKRVPLSSYRSQKRGGKGRSGLSMRDEDITTQVFVGSTHTPMLFFSNIGKVYSLKLYKLPLSNPQGKGRPMVNILSLQENEHITNIMPLPENQDEWDHLNIMFATAKGNIRRSDLLDFKKIQSNGKIAIRLDEDDKLIDVKPCKEDEHILLATKAGKALRFPVESLRIIKSRISDGVRGMKLAKEDSVISMTVLKGINSTKEDRDAYLTVPWEKRLEIAKGEEFNLEELGVNLNADSILEMANSEEFILTVTENGFGKRSSAYGYRITDRGGSGIINMDINDKTGLVVGVMPVKMDDELMLITNSGKLIRCKLESVRITGRNTSGVILFKLDDDEKVVSVSLIAETSESEEASELAEEGLENDVKV;locus_tag=LOCUS_3910;gene=gyrA;EC_number=5.6.2.2;note=WP_004595986.1 DNA topoisomerase (ATP-hydrolyzing) subunit A (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_392
sequence1	MetaGeneAnnotator	CDS	519659	521461	.	-	0	ID=MGA_393;product=ABC transporter ATP-binding protein/permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598580.1;translation=MSKNNNHKNAFYLLLTYLWSKDFDIRLRIVTSLICLVIAKVINIFVPIVYKYIIDGLNQNLSLSVLIGVIIGYGGTKILAQIFSELRNIIFSKVGCQATRLVALNVFKHMHNLSMRFHITRKTGGLSRSIERGTKGIEAVLRYSLFNIFPTSLEIILVIGILWYFHGIWFAVTLLITMIVYVCYTLLISTWRISFAREMNQSDNTANNRAIDSLLNFETVKYFNNEEYEAIKFNDALQAYEKSATKITNSLSILNIGQDVIISLGLVSLMILSVNAINQNKMMVGDLIMVNAYLFQLSIPLSILGFAYREIKNALVNMEDMFKLLDIPAEIQDSVDAKELIISKCKVSFNNVSFAYNKERTILHNITFTIESGKTIAVVGSSGAGKSTISRLLFRFYDINSGSIIIDNQDIREVKQGSLRKSIGIVPQDTVLFNDTIYYNIAYGNNAASYDEVIAASKNAHIHEFISVLPEGYATQVGERGLKLSGGEKQRIAIARTILKNPSIYVFDEATSSLDTKTEKLIQASLKEISANHTTLIIAHRLSTIVDADEIIVLDNGYIVERGNHKTLLKNQGYYAELWYKQQEECNQDTQNCKQIICDA;locus_tag=LOCUS_3920;note=WP_004598580.1 ABC transporter ATP-binding protein/permease (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_393
sequence1	MetaGeneAnnotator	CDS	521587	521874	.	-	0	ID=MGA_394;product=glutaredoxin 3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595982.1;translation=MNKSILHTIIIYTLASCPYCIKAKALLDKKNVIYEEIEVSNLTQEEKEKFIKKSGGKSTVPQIFIDNMHVGGCDDLFNLEKEGRLDKLLEHQPKN;locus_tag=LOCUS_3930;gene=grxC;note=WP_004595982.1 glutaredoxin 3 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-50],MGA_394
sequence1	MetaGeneAnnotator	CDS	521955	523943	.	+	0	ID=MGA_395;product=excinuclease ABC subunit UvrB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598584.1;translation=MNNFSIISGYKPAGDQPKAIDEIITGLNSKKRSQMLLGITGSGKTFTMANIIERTNRPTLIMAHNKTLAAQIYLEMKSIFPKNAVEYFVSYYDYYQPESYIVRTDTFIEKDSSINEQIDLMRHSATRSLLERRDVIVISSVSCIYGLGAPDLYYQMTVHLEPGQNYPRDKLLNDLINLQYKRNDIGFERGCFRVKGDNMDIFPSHYSDKAWRLSFFGDELEYIHEFDPLTGEKLTQLDKAMIFGNSHFVMPRERINHAISSIEVELQKRLEFLKSQDKLIEAKRLNQRTLYDLEMLTETGSCKGIENYSRFFTGRNAGQPPPTLFEYLPEDALLFIDESHVSVPQIRAMYNSDRARKEVLVEHGFRLPSALDNRPLKFEEWEKFRPQTVFVSATPGQFELEETGGTVVELIIRPTGLLDPECIIKPATNQVEDLISEIQTTINTGLRILVTTLTKKMAEDLTSYLQDLQYKTYYLHSNIHTLERIEILRNLRQGTIDILVGINLLREGIDIPECGLVAILDADKEGFLRSETSLIQTIGRAARNSRGKVILYADKMTKSIDKAVSETLRRRQIQQEYNKKHGIIPKTINRAIHALESLEEIHDNKLDKKQANALLNNPAKLKAHMDKFKKEMFKAASNLEFEQAAKLRNQLKALEEAALKLS;locus_tag=LOCUS_3940;gene=uvrB;EC_number=3.1.25.-;note=WP_004598584.1 excinuclease ABC subunit UvrB (Rickettsia prowazekii) [pid:99.8%25%2C q_cov:98.2%25%2C s_cov:98.2%25%2C Eval:0.0e+00],MGA_395
sequence1	MetaGeneAnnotator	CDS	524004	524585	.	-	0	ID=MGA_396;product=ribonuclease HII;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595977.1;translation=MEVNLLQYEKKYHNYIVAGVDEAGRGSLVGPVVASAVIIDKADIIPGIKDSKKLSKNKREILYERITSNYVWSTAIIAHTEIDNINILEATKKACAIAVANLSLKPQKILVDGNMKFSDIRFISIINGDNLSLSIAAASIIAKVTRDRLMLELSAEFPQYLWHKNYGYGTREHIEAIKTHGLSSYHRRSFKSC;locus_tag=LOCUS_3950;EC_number=3.1.26.4;note=WP_004595977.1 ribonuclease HII (Rickettsia prowazekii) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-103],MGA_396
sequence1	MetaGeneAnnotator	CDS	524791	525291	.	+	0	ID=MGA_397;product=Fe-S protein assembly co-chaperone HscB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595975.1;translation=MQNYFQLLELPQEYNIDLKILEKQYFAMQVKYHPDTAKTAQEKAQNLITSTELNKAYSTLKDALKRAEYMLLLQNINLNDEKIRSLLSPLELSIFWDEMERIENTTLFSDLEKLKNKYELMQQQNINSLKQAFVEQNLSDATIYTSKLKYIRTLQSKLQEKIKSCK;locus_tag=LOCUS_3960;gene=hscB;note=WP_004595975.1 Fe-S protein assembly co-chaperone HscB (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.0e-89],MGA_397
sequence1	MetaGeneAnnotator	CDS	525282	527063	.	+	0	ID=MGA_398;product=Fe-S protein assembly chaperone HscA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886232.1;translation=MQIIEITEPKQTDFQQKLQIAVGIDFGTTNSLIAIATNRKVKIIKSIGDKELIPTTIDFINEDLIIGNNKGLHSIKRLFGKTLKEILNTTTLFSLVKDYLDINSSELKLNFANKKMRIAEIAAEVFIYLKNQAEKQLKNNITKAVITVPAHFNDAARGEIMLAAKIAGFEVLRLIAEPTAAAYAYGLNKNQTGRYLVYDLGGGTFDVSILNIQEGIFQVMATNGDNMLGGDDIDVVITQYLCNKFDLPHSIETLQLAKKAKEILTYKESFNNDIISINKQTLEQLISPLVERTINITQECLEQSGNPNIDGVILVGGTTRIPLIKDELYKAFKIDILSDIDPDKAVVCGAALQAENLITQHTNSLLIDVVPLSLGIELYGGIVEKIITRNTPIPIAVIKEFTTYADNQTGIQFHILQGEREMAADCRSLARFELKGLPPMKAGNIRVEVTFAIDADGILSVSAYEKISNISHNIEIKPNHGINKTEIETMLKNAYKNAKIDYTTRLLQEAVIETEALMSSIERSIIELTKLLSESEISIINALLDNIKDAVQTRDQILIKNSIKEFKSKIKKYLDTKLNINDLRKCKNSNQIK;locus_tag=LOCUS_3970;gene=hscA;note=WP_010886232.1 Fe-S protein assembly chaperone HscA (Rickettsia prowazekii) [pid:99.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_398
sequence1	MetaGeneAnnotator	CDS	527109	527447	.	+	0	ID=MGA_399;product=ferredoxin family 2Fe-2S iron-sulfur cluster binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595967.1;translation=MLRKIKVTFIINDEEERTVEAPIGLSILEIAHSNDLDLEGACEGSLACATCHVMLEEEFYNKFKKPTEAEEDMLDLAFGLTDTSRLGCQIILTEELDGIKVRLPSATRNIKL;locus_tag=LOCUS_3980;note=WP_004595967.1 ferredoxin family 2Fe-2S iron-sulfur cluster binding protein (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.7e-58],MGA_399
sequence1	MetaGeneAnnotator	CDS	527484	528527	.	+	0	ID=MGA_400;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886231.1;translation=MFLAFTIIWFATAYTIKNNIVNLIKNSESDNLRIYYNAIKFSGYPFNWKINITDPKVKLIDHINSKEFICKNIVIDISFSTKRATLNFGPFIQIDNYGDKPFTYNVHSDNNINGISKFNKPLYKVSQDDSLKEILKSIKLNNKTLSIFKDNQEIFKINDLAFLIKKHNLASQENISLFLNMHYYSEKDILNFKNANLDMATSFKFAKNGKDAAILENLNIERFIFTCDNESKVNLNGTLQFFANKLPKGILSFELENYNSIVDKLLPNSILFSKKTIKTIIAKAMNKTSDEQLNTDKNDTNSVYNNIKNAKFDIAFSDKGINIGSMNLLELTLGEYKAEKNTENNPN;locus_tag=LOCUS_3990;note=WP_010886231.1 hypothetical protein (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:97.7%25%2C Eval:1.2e-197],MGA_400
sequence1	MetaGeneAnnotator	CDS	528532	529473	.	+	0	ID=MGA_401;product=TAXI family TRAP transporter solute-binding subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598587.1;translation=MNNLKLVTIISIFFICSNIYAAPKIIKIGTGSILKGYYAIGLDLCKTITNDYKNNEHIKCEVVITNGSIENLKLLQQGKIDLALVQANIAVEAYEGIGYYHNQEKMQNLRQVLNLHDEFFTVIVRDDNRIKVFADIDGKKITNGPEFSSSNITYDTIRSLYKFSNESAELNINYEDSIDKFCNNEIDAIIMMIGHFNPLVNLISHKCKINFVSIENDKITELIKKNRAFNKAILNKNLYPGITDNHTTVKVSAILVTRDEVNGYILDKFIGAFHRNVANFKLSNYLLNNLDIHYFADTKNFVLPKHHSVRNKN;locus_tag=LOCUS_4000;note=WP_004598587.1 TAXI family TRAP transporter solute-binding subunit (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-180],MGA_401
sequence1	MetaGeneAnnotator	CDS	529478	529924	.	+	0	ID=MGA_402;product=universal stress protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595959.1;translation=MTKNTTFKNILIPIDLNDKKSIKSIFPKALMLAINFQAKLHFMYVIPEFGTKMFEDYLPKNWRIVKKEKYQTQIKDIIKQYIPDTIETDNYIGSGAVYDEIIKRSNEIKADLIIISAVRLQLKDYMLGPNASKIVRHSDISVLVLRDE;locus_tag=LOCUS_4010;note=WP_004595959.1 universal stress protein (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.3e-79],MGA_402
sequence1	MetaGeneAnnotator	CDS	531687	531866	.	-	0	ID=MGA_403;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILILLKQTGFKILCHFLLMLHLVNLKTIAKELEYWLLPITKANLIKLIVRPMWLQYKF;locus_tag=LOCUS_4020;note=MGA_403
sequence1	MetaGeneAnnotator	CDS	532305	532469	.	+	0	ID=MGA_404;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRISLSKDDKYKIFTPINEIPTTFIKAVLLYEDKHFYKHFGINPLSLAKAFYST;locus_tag=LOCUS_4030;note=WP_011190656.1 penicillin-binding protein 1C (Rickettsia typhi) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:7.0%25%2C Eval:5.7e-25%2C partial hit],frameshifted%2C insertion/deletion at around 532224%2C532467,MGA_404
sequence1	MetaGeneAnnotator	CDS	532510	534072	.	+	0	ID=MGA_405;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQTARLRYGINSSTILGKMHQIIKSIHIELHYSKDHILEAYLNLVPYGSNIEGIAAGSYIYFYRDLKDLNLIEILSLVVISQNPLKRGGNYVNILKARKYLFNKWITTHPEDIIYDKLISLPIKFNQHKNLPFIAPHFTLEILSNNDSPIIYTTIDNNLQTTIEKQVKLYINNQRKYGIYNASVMLIDFTTMEVLTSIGSADFFNNDICGKINGTKIHRSPGSALKPFVYALSFDQSLIHPLTLLKDTPTYYNYYKPENFDSRFVGGLSARASLIKSRNVPVIFLASKLKNPNFYEFLQQAKISNLRKPENYGLSIVLGTVEITLEELITLYAMLANFGTYKPLRKTFISSRSLSIESKNNKFDHKDEIQDDINNVLLSPEASYLTLDILKDMTRPITYNINYNLPIYWKTGTSSSFRDALSVGIFGKYVLAVWVGDFKGQTYGTFTGNISAAPLFFNIIEAITRPNKDEDLILSKIHELNITKVKVCADTGDIDNDMCPVKTETLFIKGKSPIKQSDIY;locus_tag=LOCUS_4040;note=WP_011190656.1 penicillin-binding protein 1C (Rickettsia typhi) [pid:93.1%25%2C q_cov:100.0%25%2C s_cov:67.0%25%2C Eval:1.4e-283%2C partial hit],internal stop codon at [534071:534073](+),frameshifted%2C insertion/deletion at around 532224%2C532467,MGA_405
sequence1	MetaGeneAnnotator	CDS	534100	534504	.	+	0	ID=MGA_406;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPTCKFVKGQTEYKIINLLPIDILLLYQKAGMHIFPKPIPNNNCNNFTNWYHQKPKIIYPVKNSLNSIKENDTMTFSAISHNKASNIFWFVDNKLIATAKPNEPVIWKARIGEFTISAINDSGKSDSVKIYIKE;locus_tag=LOCUS_4050;note=WP_011190656.1 penicillin-binding protein 1C (Rickettsia typhi) [pid:78.4%25%2C q_cov:100.0%25%2C s_cov:17.3%25%2C Eval:3.8e-58%2C partial hit],internal stop codon at [534070:534072](+),MGA_406
sequence1	MetaGeneAnnotator	CDS	536107	536931	.	-	0	ID=MGA_407;product=2%2C3%2C4%2C5-tetrahydropyridine-2%2C6-dicarboxylate N-succinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595953.1;translation=MSYIIKEIEEAWQIKENILHDSSKLIKLKKILNESIASLNQGIIRVCEKQGNQWKVNEWVKKAILLYFITTESQLYNNNYNSWYDKVAPKFPADTDKNIFKEAAIRKVPGAIVRTGTYIAKNVVIMPSFINIGAYIDEGTMIDTWATIGSCAQIGKNCHISGGAGIGGVLEPLQAKPVIIEDNCFVGARSEIAEGVIVEEGSVISMGVFIGSSTKIVYRDTGEIIYGRIPAYSVVVPGILPPPEVGKPGLYCVVIVKQVDKTTRGKVSINDLLR;locus_tag=LOCUS_4060;gene=dapD;EC_number=2.3.1.117;note=WP_004595953.1 2%2C3%2C4%2C5-tetrahydropyridine-2%2C6-dicarboxylate N-succinyltransferase (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-155],MGA_407
sequence1	MetaGeneAnnotator	CDS	537014	537637	.	+	0	ID=MGA_408;product=zinc-ribbon domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595951.1;translation=MYITCPNCKTQFIVTSNQIGINGRRVKCSKCKHLWYQKLDYNTSKLNDFKDKINTEAIKTPIKNHYNTNVPVILPLKKKYKIFPILWSSFIIFCLVILLIDSFKFLGKYDQLKIEEINIGKYRNMGGMKIFYKLSNESDYLITNPIIKVRVIDANHHTLGEYASITKLRTKIYAKQAIYLELNIEKIPVTAKYIDITICNRLGLLFK;locus_tag=LOCUS_4070;note=WP_004595951.1 zinc-ribbon domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-118],MGA_408
sequence1	MetaGeneAnnotator	CDS	537900	538259	.	-	0	ID=MGA_409;product=TrbC/VirB2 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595949.1;translation=MNFHNRKLDEELIDYNISLRILFTILSVAIIMVAFDSLGSSVSDPVGDALCKLIKVFRGNTAKGIAVVGIIVLGIQTLRGKLQWEVALVVVTAIIILFKAPDIVNMVSSDNNSSSCGVS;locus_tag=LOCUS_4080;note=WP_004595949.1 TrbC/VirB2 family protein (Rickettsia prowazekii) [pid:92.2%25%2C q_cov:86.6%25%2C s_cov:86.6%25%2C Eval:5.9e-46],MGA_409
sequence1	MetaGeneAnnotator	CDS	538413	539129	.	-	0	ID=MGA_410;product=cytochrome c oxidase subunit 3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886229.1;translation=MHGYKFNMYILSAGVISVIYCLYSWWRDVVQEGIVEHQHTSPVRKGLKIGMVLFILTETVFFSVFFASFLKSSISPVGILDGVWVVKQGIWPPPTIKTFDPFDIPFINTLILLLSGTTITGAHYALEEKNQKDCVTALAFTIVLGIFFTLMQVYEYYHAEFKFTDGIYASNFYLATGFHGAHVVIGTIFLIVCYFRAKRGDFTTEGNGHLGFEFAAWYWHFVDVVWLFLFTFVYILGS;locus_tag=LOCUS_4090;note=WP_010886229.1 cytochrome c oxidase subunit 3 (Rickettsia prowazekii) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:85.6%25%2C Eval:2.2e-137],MGA_410
sequence1	MetaGeneAnnotator	CDS	539820	540356	.	-	0	ID=MGA_411;product=demethoxyubiquinone hydroxylase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598596.1;translation=MPRPDFSNLDKQIHDIIRVNHAGEYGAKRIYEGQLTYIKSKNDRILIKEMLDHEVVHLNFFEKKLLERAVRPTVLLCFWHHYGFLLGALSSLIGKKSAMLVTESIEEVIAQHYAQQINYLENKNVEPELLNNIIKFRLDEIEHKNIAIIYSTESIFTDIISKIVKIICRISILLSKKI;locus_tag=LOCUS_4100;note=WP_004598596.1 demethoxyubiquinone hydroxylase family protein (Rickettsia prowazekii) [pid:94.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-91],MGA_411
sequence1	MetaGeneAnnotator	CDS	540491	541456	.	-	0	ID=MGA_412;product=DNA polymerase III subunit delta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598599.1;translation=MQFYFSQIGRLFELIAAGKIRALLLYGPDKGYIEKICTYLIKNLNMLQSSIEYEDLNILSLDILLNSPNFFGQKELIKVRSIGNSLDKNLKTILSSDYINFPVFIGEDMNSSGSVKKFFETEEYLAVVACYHDDEAKIERIILGKLAKTNKVISKEAITYLKTHLKGDHALICSEINKLIFFAHDVHEITLNHVLEVISSEITANGSNLAIYFSKKDYSNFLQELDILKNQNINEVLIIRALIRHYLNLYIVLSKVKNGECLEIAIKSLSPPIFYHNINDFTKIVHALSLTECIKTLKLLQQAEVDYKLNPASFDLFQSIL;locus_tag=LOCUS_4110;note=WP_004598599.1 DNA polymerase III subunit delta (Rickettsia prowazekii) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-175],MGA_412
sequence1	MetaGeneAnnotator	CDS	541464	541937	.	-	0	ID=MGA_413;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598601.1;translation=MHFLFLIILCCLISSCNLKSVYSEKYSRNKDLEAITVEPIRTIEGAEFYNRLTRLLPQKAKAKYLLKAELSVTTMPATIEKNSNVLREDINQLVRYKLIDIESQKILIEEKFCQNTSYNAIFTPYATNVERYGTGIGLAYQAAEEIRSRLILYFIRK;locus_tag=LOCUS_4120;note=WP_004598601.1 hypothetical protein (Rickettsia prowazekii) [pid:91.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-75],MGA_413
sequence1	MetaGeneAnnotator	CDS	542849	543433	.	-	0	ID=MGA_414;product=S1C family serine protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598607.1;translation=MIKKLGGNLALFDREMDNFKGVTIKLTIFRDGKKLEQSVDLYDVNNNKIAKMINFGGAVFFESDDYFSNKSGIPLKALSVASVQAGSSFSSIPTFFNKDYKNVYRLQIFEMKDLALTNLDDLVKFLPVITKQKFITVRFRNYQPYYANFGYNELIASHNDMIADITLDSVDTKPYLLKYNTISHDWDMENIKLQ;locus_tag=LOCUS_4130;note=WP_004598607.1 S1C family serine protease (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-108],MGA_414
sequence1	MetaGeneAnnotator	CDS	543396	544322	.	-	0	ID=MGA_415;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKLPILLKLVFIINLVFTNNIVLASSDKNTAIFEKAKKAIVTIETRIAVSAYDDTSSWTGTGFINDKNNGYIITNTHVVGGASIGTYFVTFYNGEQAEAKLIYYDIWQDYAILKVESKDIPVSAIQIAFTSELPKLNQKVFVVGNTEAKGFSFHTGYLSDLYHIEGLMPQCTYVINLNTTGGASGSPVLNDKIEAIGVLYGGGKTHSLALHGDYVARTLKSLKNNKQPSRKHIGIISELYSLNKAVRHHNFPKDEMYKYINKFPDSRNRVISVKAVLSGSPAQKSLKAGDIIWAVNDQETWRQFSII;locus_tag=LOCUS_4140;note=WP_011190648.1 S1C family serine protease (Rickettsia typhi) [pid:97.0%25%2C q_cov:97.4%25%2C s_cov:60.4%25%2C Eval:4.4e-166%2C partial hit],frameshifted%2C insertion/deletion at around 543422,MGA_415
sequence1	MetaGeneAnnotator	CDS	544429	544653	.	+	0	ID=MGA_416;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHSMHCSGGTITISVSHRSLSTVFKKTTYNLFLDPGNKSPNKGDKTGPHWNNIEYNANNKQKENEEYYGKSNRY;locus_tag=LOCUS_4150;note=MGA_416
sequence1	MetaGeneAnnotator	CDS	544631	546514	.	+	0	ID=MGA_417;product=molecular chaperone DnaK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595925.1;translation=MGKVIGIDLGTTNSCVAVMEGKEPKVIDNAEGERTTPSIIAFANSERLVGQPAKRQAVTNPRNTIYAVKRLIGRNFTDPMVRKDQGLVPYNIVKADNGDAWVEADNHKYSPSQISAFILQKMKETAENYLGEKVTQAVITVPAYFNDAQRQATKDAGKIAGLEVLRIINEPTAAALAYGFEKSSSKTIAVYDLGGGTFDVSILEISDGVFEVKSTNGDTFLGGEDFDTRILNHLIEVFKKESGIDLSKDPLALQRLKEAAEKAKKELSSTSTTDINLPYITADSTGPKHLNIKFTRAELEKLVDDLIEKTIEPCRQALKDAGFKPNDIQEVVLVGGMTRMPKVQEAVKKFFGREPHKGVNPDEVVALGAAIQGGVLNKEVTDILLLDVTPLSLGIETLGGVFTRLIDRNTTIPSKKSQVFSTADDNQHAVTIRVFQGEREMAKDNKLLGQFNLEGIPPAPRGVPQIEVTFDIDANGIVHVSAKDKASGKEQKVTIQASGGLSDAEIEQMVKDAEHNADEDKKRKELIETKNAADSLVYSTEKTLREYGDKLSSEEKGTVEEALTSLKAALESEDASLIKEKTGNLTAANMKIGEAMYKTQTENQHSEANTVNNEKVVDADFQDVDKK;locus_tag=LOCUS_4160;gene=dnaK;note=WP_004595925.1 molecular chaperone DnaK (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_417
sequence1	MetaGeneAnnotator	CDS	546637	547749	.	+	0	ID=MGA_418;product=molecular chaperone DnaJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595923.1;translation=MSQDYYQVLGVSKTASQADIKKAYLKLAKQYHPDTTNANDAEKKFKEINAAYDVLKDEQKRAAYDRFGHDAFQSQQARGGGNNGSFHPDINDIFGDFFSDFMGSGRRKQTSSKIRGSDLKYDLTIKLEEAFHGIEKNISFSSEVKCDTCHGTGSEKGETITTCDACGGVGATRIQQGFFTLEQTCHKCQGNGQIIKNPCKKCHGMGRYHKQRNLSINIPAGVENGTRIRHTGEGEAGIRGGNNGDLYVDIAIKPHDIYKVDGANLHCKLPISFVHAALGGEIEVPVIEGGKVKLTIPAGTQNGDQLRLRSKGMSKVRSTIRGDMLTHIHVEVPKNLSKKQRELLEEFKKESINEKENDSSFFNKMKSMWS;locus_tag=LOCUS_4170;gene=dnaJ;EC_number=1.8.4.-;note=WP_004595923.1 molecular chaperone DnaJ (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-214],MGA_418
sequence1	MetaGeneAnnotator	CDS	548233	548988	.	+	0	ID=MGA_419;product=outer membrane protein assembly factor BamD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598609.1;translation=MKLTKLLSALLVIGLVLGGCKSKKDSNDIVAPIATLYNEGIILLDKKKYKKAAEEFGKIFYQHPGNEMTPQAELMQAYSLFLAAQYEEAVDILNMFINLHPANIDIAYAYYLKALSYYMLISDVNHDQSRTFLSKDSFEDVITKFPNTKYAIDSSLKIDLVNDHLAGKEMMIGRFYLKKKNPMAAINRFEEVIDNYQTTYHSVEALYRLVESYMMLGLHDEAKKYTSVLGYNYPNSKWYSYAYRLVKNYQN;locus_tag=LOCUS_4180;note=WP_004598609.1 outer membrane protein assembly factor BamD (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.3e-138],MGA_419
sequence1	MetaGeneAnnotator	CDS	548996	550660	.	+	0	ID=MGA_420;product=DNA repair protein RecN;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886227.1;translation=MFYSLSVKNFILIDELEIEFSKGLCVITGETGAGKSILLDAILFCLGYKTSNNIIKHGKDYTVVNIIFSLNEKIKKFLIQNFIEPEELLLVKCLQKAEGRKSFFINNQIVTKTLIKQLANYLFELHGQNNNITLLEASTQRDILDSYGDLLEFRVKLAKCYQIWQNTRKEIEEITVKQNVIEQEIDYLNFVTEELTKLNIQIGEEETLTNIRQDLQNKNKDLQLIRDIIAQINNPEINISINRAEKLLARQRDNDRFKAIATSLEEAYNNLEVARQELSNLLDSFTYEEYNLEETEERLFLIKAISRKYNVPANELGNFLDKSLEKLVILKNKIANSHKLQAQEVLLQEQYYKLANDLSARRLIAAKHLEESLNQELKQLKMEKANFKIEIKTAIDPTASGNDDIVFKASTNPGMKAEEINKIASGGELSRFMLALKTSLFDKMIKPSIIFDEIDVGIGGEAADKVGDRLKKLSSVTQVIVITHQPQVAGKADLHIKIEKTQLEQETKIKVKALNLAERQRELARMISGKTITDASLKVAKELLYPVACPHDQK;locus_tag=LOCUS_4190;gene=recN;note=WP_010886227.1 DNA repair protein RecN (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-308],MGA_420
sequence1	MetaGeneAnnotator	CDS	550777	552267	.	+	0	ID=MGA_421;product=carboxypeptidase M32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010946880.1;translation=MNSNYTELENKFATISHFNNILSILHWDVAVNMPISSSKSRTNEIITLTSFVHSMFKSPILKELISKAKEESKNLNEWQNSNIREIEKKITDANCIDEQLNKKLVASTTTAELAWRKAIKNNDYNLFKPYLQKVLDYTKEVAKIRASILNSGLYDSLIDMFDPSRESSEIKQVFSVLKIALPELINKVLEKQKSNKELVKNSALEPEMQKLIGQRIMQIMQFDMTKGRLDEATHPFCRGTPHDIRLTTRYNKYNFVSGLMCIMHETGHALYEQNLPEIYKGQPVGLAKGMAFHESQSLFMEMQIGRSREFTEFLAKLLQDEFALKGEEYSAENLYRKITRVKPDFIRVEADELTYPMHVILRFEIEEMLINDVLNLDELPKFWDSKMYEYLGIIPVNFIDGCLQDIHWSHGNFGYFPAYTNGAIIASMIMQKIKKKHKNIKDDILRGDFSNLNHYLNNNLRNFGSLKNSADLLKSASDEENINPNVYVRYLEEKYL;locus_tag=LOCUS_4200;note=WP_010946880.1 carboxypeptidase M32 (Legionella pneumophila) [pid:40.6%25%2C q_cov:99.2%25%2C s_cov:99.4%25%2C Eval:3.2e-104],MGA_421
sequence1	MetaGeneAnnotator	CDS	552380	554014	.	+	0	ID=MGA_422;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEEYFNKTGYLFSGNAVFVEELYRQYLANPNSVDQTWQEFFADIKDNNVVLNKSTAKVISTNVTNKELLNNNLSSETLNNLKAKEMISAYRRNAHYLANLDPLGLEIRKTKNDLKLNIEAFGLDSSQLGENINIMDEFIGTWNCKLSELVTKLDKVYTSSIGVEFDQIENVEEKNWLYTKLETDITFTSEEKKSILNDLVEVECFEQFLHIKFPGAKRFSIEGGDASIVAMNKAIDLSMHQGVEEIVIGMAHRGRLNTLTKVVGKPYKEVIASFINGNIFPDGLNVSGDVKYHLGYSADRVRANQKIHLSLADNPSHLEAINSIVAGKVRAKQDIFVDTKRSKIKAILVHGDAAFCGQGVVAESLSMSPLTAYNVGGILHFVINNQLGFTANAADTRASRYSTEFAKIISAPILHVNGDDIEAVLKATDIAVEYRQKFSKDVVVEIICYRKYGHNEGDEPMYTQSKMYNIIKSKPTPGSIYANELVKNGIIDNNYYAKLKEKFKIRLDQEYEQAKSYKQETHFFEGYWKGISRIRGKDAITGVN;locus_tag=LOCUS_4210;note=WP_004598613.1 2-oxoglutarate dehydrogenase E1 component (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:58.1%25%2C Eval:5.2e-313%2C partial hit],internal stop codon at [554012:554014](+),MGA_422
sequence1	MetaGeneAnnotator	CDS	554171	555190	.	+	0	ID=MGA_423;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLCSGINIRLTGQDSARGTFSHRHSILHNQIDDTTYIPLNNLSKTQAKYEVANSNLSEYAALGFEYGYSLANPKNLVLWEAQFGDFANGAQIIFDQFISSSATKWLRMSGLVVLLPHAFEGQGPEHSSARLERFLQLAAEENMYITYPTTPASIFHLLRRQILESTRKPLIVMSPKSLLRHKYAVSKLDELGENTTFIPILDEVTKIDTNNVTKVILCSGKVYYDLFAMRTNNSNIVIIRLEQLYPFVKKLVASLLKKYNKAQAFIWCQEEPKNMGAWHYIATHLNDALKEAEINNEFKYVGREESASPAVGSLQVHNKQQEKLLMEALGDDIIKEKLY;locus_tag=LOCUS_4220;note=WP_004598613.1 2-oxoglutarate dehydrogenase E1 component (Rickettsia prowazekii) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:36.2%25%2C Eval:2.2e-193%2C partial hit],internal stop codon at [554012:554014](+),MGA_423
sequence1	MetaGeneAnnotator	CDS	555215	556420	.	+	0	ID=MGA_424;product=2-oxoglutarate dehydrogenase complex dihydrolipoyllysine-residue succinyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595915.1;translation=MSVKIIIPSLGESVTEATIAKWYKKLGDSVKTDELLLEIETEKVTLEVNAPCNGTIEKIAKTDGANVTVGEEIGEINEVVDTDTACTNNNSYKKQAIVQHDSEQIVDKPASSSNILAPSVQKLVTENKLDPNNIKGTGRGGRITKCDVLETINTTPVTIETPALNKTNEERTQRVRMSRLRKTIAQRLKDSQNTAAILTTFNEIDMSKVIALRNQYKEEFEKKHTVKLGFMSFFVKATIEALKLIPSINAEIDGDDLLYKNYYDIGVAVGTDQGLVVPVVRDADKMGFADVEQAIGDLAKKAREGKLSMSDLSGGTFSISNGGVYGSLLSTPIINPPQSGILGLHKTEERAVVIDGKIEIRPMMYIALSYDHRIIDGKEGVSFLVKIKNLIENPEKLLLNL;locus_tag=LOCUS_4230;gene=odhB;EC_number=2.3.1.61;note=WP_004595915.1 2-oxoglutarate dehydrogenase complex dihydrolipoyllysine-residue succinyltransferase (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-223],MGA_424
sequence1	MetaGeneAnnotator	CDS	556588	557004	.	+	0	ID=MGA_425;product=6-pyruvoyl tetrahydropterin synthase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595914.1;translation=MIKCTRRINFDAGHRIIGHKNKCQFLHGHHYVLEITIAANKTDTLGMVIDFGLIKNLAKKWIDANFDHNLILHQDDKEMGQQIENYTRQKIYYMRNNPTAENIATHLKNEIFPKLFVSQNFFVTSLKLYETQNCFVEV;locus_tag=LOCUS_4240;note=WP_004595914.1 6-pyruvoyl tetrahydropterin synthase family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-78],MGA_425
sequence1	MetaGeneAnnotator	CDS	557026	557475	.	+	0	ID=MGA_426;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKHSDTKNNLQEINESVSRSAVHTKIHEHPKIYKDNIENFLSSSSIKDYCLILTTTNDLQIAEKIASILLELNFAACIQMDNIKSYYRWNNKIIEDNEYRLIIKTKSYNYNAIEHKILEMHNYALPQIIKINIDYGYQQYLKWIDQNSK;locus_tag=LOCUS_4250;note=WP_044286901.1 divalent-cation tolerance protein CutA (Rickettsia typhi) [pid:89.4%25%2C q_cov:69.8%25%2C s_cov:100.0%25%2C Eval:3.7e-50%2C partial hit],MGA_426
sequence1	MetaGeneAnnotator	CDS	557513	558235	.	+	0	ID=MGA_427;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKLWQKVTLGLILGIIFGIYLPQYVNYIKPIGDIFLRLIKMIITPLIFFSLVSGITSMNDTSALGRVGMKAVAAFLGTTFFATIFGLTIALVLKPGVGIHIDFTSLSTTDRTSFNIIDFFVNIVPENAVRAFANGNVLQVVFFAIFVGITLNKMKSIGKPITDLIHAMSKLILKMISFVIKLSPYGAFALTGWIVGMQGFSVMISLSKLVVAVVVAMTCQYLVFGLLIYIFCRVSPIPFY;locus_tag=LOCUS_4260;note=WP_004595912.1 dicarboxylate/amino acid:cation symporter (Rickettsia prowazekii) [pid:96.7%25%2C q_cov:100.0%25%2C s_cov:60.2%25%2C Eval:1.8e-126%2C partial hit],internal stop codon at [558233:558235](+),MGA_427
sequence1	MetaGeneAnnotator	CDS	558302	558712	.	+	0	ID=MGA_428;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQVCREKLGISESSTSFVLPIGASINMDGFAINLSLTTIFFAQMMGITLAPHDYLVIILTSTLGSIGGAGIPGASLIMLPMVLSSVHLPIEGVAIIAGIDRILDMLRTTINITGDATITMIIDNSEDTLDKKVYLS;locus_tag=LOCUS_4270;note=WP_004595912.1 dicarboxylate/amino acid:cation symporter (Rickettsia prowazekii) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:34.1%25%2C Eval:7.9e-67%2C partial hit],internal stop codon at [558233:558235](+),MGA_428
sequence1	MetaGeneAnnotator	CDS	560039	561190	.	-	0	ID=MGA_429;product=radical SAM family heme chaperone HemW;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886226.1;translation=MANDLSIYIHWPFCLSKCPYCDFNSHIVSTIDYNQWLKSYEKEIEYFKFIIQNKYIKSIFLGGGTPSLMQPLIVEVIINKINNLGIIDNKTEITLETNPTSFETEKLKAFKSAGINRVSIGVQSLKEDDLKKLGRTHDSMQAIKTIEAANTIVPRVSFDLIYARNGQTLKDWEKELKQAMYLATSHIALYQLTIEKGTPFYKLFKIGNLILPTSDEAAEMYEWTNHYLESKKYFRYEISNYARLGHECLHNLTYWNYNSYLGIGPGAHSRIIENSNSVLAIMMLHNPAQWLDAVSTKNVGIQTHSKLTNKEIIEEILMMGLRLRKGIKISKLEQRLSTALENILDINNLQHYQNQGLIKLDEHIYLTDKGLMLHNYIVPRLIR;locus_tag=LOCUS_4280;gene=hemW;note=WP_010886226.1 radical SAM family heme chaperone HemW (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:96.0%25%2C Eval:1.6e-222],MGA_429
sequence1	MetaGeneAnnotator	CDS	561530	563641	.	+	0	ID=MGA_430;product=prolyl oligopeptidase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595908.1;translation=MEDNNKQIYNPKETKFLEEAAGAEALKWAKERTNKTEKALQAMQEYKRIKKEIESIFYDQRKTLYGVIRKGYVYNFWMDDKNPQGLWRRTLVDNYYKDKPNWEVLIDFDKLSKKIGKKVAYRGVSNCVQNPNRYLISMSFGGKDEMFFREWDLEKKDFVKNGFEPITSCGKLLEGKFTYPTWVNKDTIIFNPVLYKDEITSSLYPNSLYIWKRGEAIEKARKLFEVPKEYIRVSADKLLSDAISSSLIFISADKDFYNYDNYILDTQDKNFKLLKINMPSDATLQGSFKEYVFWLLRSDWKFKNHNIKAGSLVALHFTDLLKAESDKTSLKILFTPTENEVFNFIGTTKDRVFLATYDNVVSKVVTFTLENEQWTKPVILKLPYQNAIFRMSSYEDEEEALITIENAIVPPTIYLWVKTHELKVIRKALYSFDSENYVLEQKEATSFDGVKIPYFIVYKKGIKFDGKNPTLLEAYGGFQVINSPYFSRIKNEVWVKNGGVSVLANIRGGGEFGPEWHKAAQGIKRQTAFNDFFAVSEELIKQNITSPEYLGIKGGSNGGLLVSVAMTQRPELFGAIACEVPILDMIRYKEFGAGNSWVTEYGDPEIPNDLLHIKKYAPLENLSLTQKYPTVLITDSVLDQRVHPWHGRIFEYVLAQNPNTKTYFLESRDSGHSSGSDLKESANYFINLYTFFANTLKLKLIKF;locus_tag=LOCUS_4290;note=WP_004595908.1 prolyl oligopeptidase family protein (Rickettsia prowazekii) [pid:99.9%25%2C q_cov:100.0%25%2C s_cov:97.4%25%2C Eval:0.0e+00],MGA_430
sequence1	MetaGeneAnnotator	CDS	563799	565148	.	-	0	ID=MGA_431;product=signal recognition particle protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598617.1;translation=MFKTLTQNLTKIFDKLVNSGILTENQIDTAMRDVRVALLESDVALPVIKGFIEEVKQKALGQEVIKSVSPGQMIIKIIHEEMINLLASTESTTKLNLNAKPPVNLLIVGLQGGGKTTASGKLALRLKNQNKKVLLVSLDTYRPAAQEQLAIIANSVNIDSLPIVKGEKPLDIVKRAIGEAQISAYDVVIYDTAGRIQIDNVMMEEALAIKKILNPTETLLVIDSMTGQDAVITAKTFSEKLEISGLILSRIDGDTKGGAALSVKYFTQKPIKFLSSGEKLTDLEEFNAERLASRILDMGDIISFVKKAASIVDREEAEKTAIKLKSGKFDLNDYLQQMRSIKKLGGFGSILSMLPGSGKIFDQIDQSKLNSKIIEHQEAIILSMTLKERKNPDIINASRRKRIAAGAGMTVQKVNILLKQYKQISAVMKKTSKMNPKNLLRSGIGKLFS;locus_tag=LOCUS_4300;gene=ffh;note=WP_004598617.1 signal recognition particle protein (Rickettsia prowazekii) [pid:99.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.2e-244],MGA_431
sequence1	MetaGeneAnnotator	CDS	565816	566607	.	-	0	ID=MGA_432;product=DNA polymerase III subunit delta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598618.1;translation=MIIELLEFYLKYNKLYNSWLIEAWNIEQTLQDLKEFIYIKFFNSNIPLENNPDYYFVARKDSYTSNAKNISIEQIRKLQDFLNKTSAISGYKVAVIYSADLMNLHAANACLKILEDTPKNSYIFLITSRAASIISTIRSRCFKVNIRSPLPNVSNDLYLQFIQPIADNKTLDFINRFTTKDRELWLGFIENLFLLMNRILKKSVNFNIDLLDLENKIYNKLNKNPAYLLQKFTDIKKLIYNTIDYDLDLKTSYILVVNEFFTV;locus_tag=LOCUS_4310;note=WP_004598618.1 DNA polymerase III subunit delta' (Rickettsia prowazekii) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-145],MGA_432
sequence1	MetaGeneAnnotator	CDS	566736	567068	.	-	0	ID=MGA_433;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595898.1;translation=MSTHNKQEQKKLNKTEFIAFMTEHGHNNKHAAHKTLTKADAEKALNLVIESVISAIKSKHNVNLTGFGSFEIHHRKEREGRNPKTGAKMKIDAYNQPTFRAGRKLKEACN;locus_tag=LOCUS_4320;note=WP_004595898.1 HU family DNA-binding protein (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:90.0%25%2C s_cov:100.0%25%2C Eval:1.8e-52],MGA_433
sequence1	MetaGeneAnnotator	CDS	567589	569106	.	+	0	ID=MGA_434;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MIVALGGIFFTKLQIRGAPDISVPIINVEAHYAGADALYMEQEITTRIEKVLKTVKNLDYITSQSSTGSSSITLSFRLSTDIELALNDVRSKISDISYMFPQDMKAPSVTKLDTDNFPSLFISIESDQYSDLELTQIVSDNIQAQLDKLESVGKSQIYGGREYIMRIEPDFKKLYQYKISLLEIEAAIKEQNKDYPAGMIKTKSNNFIVTLTGSLSAPEEFGNIILKVQNGCIIKLRDITKISLTSPDEDIIFRYNGKNSIALGLIKESKANIIDLSNEVTKELERIKASIPKGISISIAYDGAKPLKASIYAVFKTMFEALILVVLVTYLFLASAKISLIPFVTIPVSLIGTFSIMYAFGFSINVFTLLAMILAIGLVVDDAIVMLENIFRYNEMGYKPMEAAMLASKEIGFAIITMTITLAAVFVPIGFIEGFIGKLFIEFAWTLAFCVLFSGFVAVTLTPMMSSHMVTKHNTNLAKFLVRFHDMLQFVQNRYIYYLKLALDN;locus_tag=LOCUS_4330;note=WP_010886224.1 efflux RND transporter permease subunit (Rickettsia prowazekii) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:50.1%25%2C Eval:2.6e-279%2C partial hit],internal stop codon at [569104:569106](+)%2C[569170:569172](+),MGA_434
sequence1	MetaGeneAnnotator	CDS	569317	570558	.	+	0	ID=MGA_435;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIGVGGSENVFGFIPLKDWSARSRSQKTIKNMLNKQFSKIPGMSVFAMEPRSMISVNATSPIEFTIQTNLEYKDLDKISQQFIDIMRANPIFLNVNRNLQSAMPTINIEVNRDKAYLYGMDLANIGKTLQYLIAGQQIGAFRMGNNLYNVILQFNQKDRQDISDLSKILIRTKNNNMLPLESIANIREKISLKSYYHYNNSKSVTISSDLAPDVKINDAINIINKIAAQLLDPNNTIIEYIGEIKQMKEVDNNILITFVFSLVFIYLVLAAQFESFTDPLLILLAVPFSITGGVLTLWLAGNSLNMYSNIGLITLIGLVTKNAIMIVEFANQLRAKGLNVREAIIESSKLRLRPILMTTVAAIVGALPLVFADGAGAASRNSIGFVIVGGLSIGTIFTIFAIPVIYQTFKKD;locus_tag=LOCUS_4340;note=WP_010886224.1 efflux RND transporter permease subunit (Rickettsia prowazekii) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:41.0%25%2C Eval:4.5e-223%2C partial hit],internal stop codon at [569104:569106](+)%2C[569170:569172](+),MGA_435
sequence1	MetaGeneAnnotator	CDS	570606	570878	.	+	0	ID=MGA_436;product=DUF378 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598623.1;translation=MIILHLIHRSLNMLINTSNNLLITTIHLLSSIGAINWGLVGLFNFNLVTLLFGSFPIIVTIFYIIIGFCGVYSFLYLGKIFCKPGIKNVK;locus_tag=LOCUS_4350;note=WP_004598623.1 DUF378 domain-containing protein (Rickettsia prowazekii) [pid:97.1%25%2C q_cov:75.6%25%2C s_cov:87.2%25%2C Eval:9.5e-33],MGA_436
sequence1	MetaGeneAnnotator	CDS	570952	571662	.	-	0	ID=MGA_437;product=16S rRNA (uracil(1498)-N(3))-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598625.1;translation=MKYNRIYINSNLAENSKLELARDYVHYVKTVLRLKIHDSLRIFNGSDGEFLAQITQIGKNNLSVVLKEQLKKAYIESALTLAVAIIKSDKLMLTINMATQLGITKIIPLITRRCQFRTVNIERLMKCVIEATEQSERLNPPIIEQAITLKDYLKKNNNLILYANEHEKVKHSILHISSLLSKDIAIIIGPEGGFTNDELELLALYNNTQSISLGSNILRTETAAISLISQVRLLQC;locus_tag=LOCUS_4360;EC_number=2.1.1.193;note=WP_004598625.1 16S rRNA (uracil(1498)-N(3))-methyltransferase (Rickettsia prowazekii) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-123],MGA_437
sequence1	MetaGeneAnnotator	CDS	571822	571959	.	+	0	ID=MGA_438;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MDKQKVNNNIVEEENLSKEKEIGGIKGLEPTRYGDWQHKGKVTDF;locus_tag=LOCUS_4370;note=WP_103897643.1 DUF1674 domain-containing protein (Rickettsia fournieri) [pid:87.8%25%2C q_cov:91.1%25%2C s_cov:44.1%25%2C Eval:6.2e-16%2C partial hit],MGA_438
sequence1	MetaGeneAnnotator	CDS	571959	572399	.	+	0	ID=MGA_439;product=type II toxin-antitoxin system RatA family toxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598627.1;translation=MLSFQHTKILPYKPKKLFDLVWDIKSYPQFLPWCAAARIISENNQEVISELVIQLKGLSEKYNSRVINTITDNGIYLIDTVAISGPFEYLKSTWQFIPHSTGTELKFFINFKMTSVILDKLIGSYFTIATEKMILAFEKRAKEVIK;locus_tag=LOCUS_4380;note=WP_004598627.1 type II toxin-antitoxin system RatA family toxin (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-79],MGA_439
sequence1	MetaGeneAnnotator	CDS	572499	573605	.	+	0	ID=MGA_440;product=DUF2974 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598629.1;translation=MEQFEFVNKTEIPTHAINNTAFAHLGVNLAYKTDDTSRYLAAALMTDGNHLVGSGFEILAASCDSLNTALYGYKAVAFINKETKTIHIASAGTKADINDIWDDALITFHYAPNKLKIAQKFVDNIISKIGGIDEAREYTFDTSGHSLGAIIADLTGIELHSRNLNFNKSVTFDSPGSQEVIKYAINQDLFTGKVITPIEELAKHSEVYNAKPNIINTTNQHVGQINLVLPKINNEKSKSSEAVGWFKYLYNISGSAVYKVAEYLNFNKMFEGINNHKLKYFADLQDSAVIPIANWEEQILENNAYTQKLKTIPSTGNDVYLLDTNRITDNEYTSIIGIDVFHWAYNDLQQSCAMETVEQIGNLIPILC;locus_tag=LOCUS_4390;note=WP_004598629.1 DUF2974 domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-213],MGA_440
sequence1	MetaGeneAnnotator	CDS	573599	573784	.	+	0	ID=MGA_441;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLEYIVFSITRLVRSGANTIVEFCTNTIDTISYTTHESIEEPNLKEKDIEDDLVVVSLIGN;locus_tag=LOCUS_4400;note=MGA_441
sequence1	MetaGeneAnnotator	CDS	574796	575479	.	-	0	ID=MGA_442;product=RlmE family RNA methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595881.1;translation=MTNNLSGYRNKIVRVKTSKKRPISSSNWLRRQLNDPYVAKARLEGFRSRAAYKLLEIHYKFRLFTPNMKIVDLGAAPGGWSQVASKLIKASDNNLNNKIISIDLLEIEPIVGVEFLQKDFFEKDTEELIIHNLEGKADIVMSDMASNTIGHKATDHMRTLLLCEQAFEFALKVLKPSCHFIAKIFRGGAETALLNKVKREFRTVKHFKPVSSRSESTEIYLVALNKK;locus_tag=LOCUS_4410;note=WP_004595881.1 RlmE family RNA methyltransferase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.1e-126],MGA_442
sequence1	MetaGeneAnnotator	CDS	575476	576000	.	-	0	ID=MGA_443;product=transcription antitermination factor NusB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411647.1;translation=MTFGAIITHNHKNYKFLLSMSTNKINKKSIARIAAVQALYQNILQNNYDMYDIMQNILACYHSNNSIDLPKNFKISLSISHFKMLVKSVFENINKLDEIIDNHLTNAKDSVHMPILLRALLRVSICELLFCSTTPAKVVINEYTDIANDLLNEHEIGFVNSILDKIAQENNKIS;locus_tag=LOCUS_4420;gene=nusB;note=WP_014411647.1 transcription antitermination factor NusB (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:89.1%25%2C s_cov:100.0%25%2C Eval:2.9e-83],MGA_443
sequence1	MetaGeneAnnotator	CDS	576115	577194	.	+	0	ID=MGA_444;product=RIP metalloprotease RseP;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595877.1;translation=MLSLIGFIITISILVFIHEFGHYCIARYLDVKVEEFSIGFGKELIGITDRKGVRWKLCFIPLGGYVKIYGYDSSTRIIDKTKEVNEEVTFYSRSCLARFSIVAAGPLINYLLAVIIFTSFYCYFGKVEIPPIIGDVVAASPAERAGLKEGDKIVKVNNKYVKDFVDVQKEILINGFSSSTLTIARKSEEFKVNIRPQEIIISHPVKKKIGKTFRIGIIAKNEPIHTKIGIFGGVLEAINTTIDISTLTLKAISQMILGTRPLDEIGGPISIAQESGKSMASGAQMYLLFIAMLSINLGLLNLLPIPVLDGGHLIFILYEAITGRLPNPKTRNILLQLGAVIILLLIIISISNDIKNLFY;locus_tag=LOCUS_4430;gene=rseP;note=WP_004595877.1 RIP metalloprotease RseP (Rickettsia prowazekii) [pid:93.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-187],MGA_444
sequence1	MetaGeneAnnotator	CDS	577419	579725	.	+	0	ID=MGA_445;product=outer membrane protein assembly factor BamA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886220.1;translation=MKIISISKLTILLLTIFYYHISFADYVIRKITIEGNHRVERSTIESYLKLNVGETYNNSKEDEAIKRLYATSLFRNINMYITNDGNLIVNVTETPFISSVVFSGNSKIKTNILAKEIYTMSGESLSQAKIELDVKKILEIYKRSGRFSTKVTPKIKSLENNRVKVIFDIAEGPKTVIKSIYFSGNEHYSDSELKSIVLTKESRWFRFLESNDTYDPDRVEYDKELLREFYQSVGFADFRVISASVALNDTKEYFTITYSIEEGEKYRFGNVTIDNKLTNINIKQLNKIVNIKQGKIFNMKTVDDIAEKIGEYFTANGYPAVNVYPDIKKNDNHTADIKFIIEKADKVYINKINIINNLKTEDHVIRRAFKIEEGDVMNRSYIEKGERNLRNLDYFEKVSISLAQTKAKDKYDVNVEVDEKSTSSIGFDLGYNTAGGLFGRFSFLERNLVGTGKLLNAGVQVSKNSTSYYGCITDPHFLDRDLSLSVNAFRNYTGRGASVLNTTDQSYKLHSIGVKISLGYDMKEDLSHEIDYLIKRDILSAPSPSNSIFLNEQMGKLITSAIGHTITYDQTDNKIVPKNGYLVSGTQEFAGVGGDNKYIKHEIECKFYKSFINNKVTLKLSAAGGDMAGLGGKMVRISDRFNLGDYSLRGFASGGVGPRVKNTNEGLGGERYYTFSTELNFPTPVPEEFNFTGAVFIDLGSVWGVGLNKKQYKTPNGFYNDQSLRASVGFGFIWVTRFAPIRMDWGFPIKKKQYDDTQNFHLRFSTHL;locus_tag=LOCUS_4440;gene=bamA;note=WP_010886220.1 outer membrane protein assembly factor BamA (Rickettsia prowazekii) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_445
sequence1	Aragorn:1.2.38	tRNA	579864	579939	.	+	.	ID=Aragorn_17;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0170;note=Aragorn_17
sequence1	MetaGeneAnnotator	CDS	580966	581169	.	-	0	ID=MGA_446;product=DUF2674 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595874.1;translation=MQNPTQKVISFSEHKADIERIKKEIEEGWAIVKLVPNKDRFIGLLEKISDPKDETIYIPPRKKIIMN;locus_tag=LOCUS_4450;note=WP_004595874.1 DUF2674 domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-32],MGA_446
sequence1	MetaGeneAnnotator	CDS	581352	582911	.	+	0	ID=MGA_447;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595873.1;translation=MPNNDLKTPPLSKKQLLAFFGMIVGMFMSVLDIQIVASSLSVIAAGLAASSDELSWVQTSYLIAEVIIIPITGFLARLLSTRICYFIAALGFTIMSVLCSLANNIESMIIFRALQGFFGGAMIPLVFSTVYIIFPASQRPTVTILIGLVVTVAPTLGPTLGGYITEILSWHFMFLLNVIPGIFVCTVVFLYVNFDKPNYQLLKNFDFLGILLMSLTLGLLQYVLEEGNKEGWLDDNLILFLSITVALGFILLIIRELTFINPILDLKTFLYKDFTFGCIYSFVMGIGLYGAVYILPLFLFTIAEYDTLQIGATMMVTGVAQFLSAPLAGRMLGLGIDLRMMLTIGLGGFALGCHLNSCLTPDSKFAAFILPQFVRGFSLMFCFIPTNNIALGNMPKEKVGNASGLYNLTRNLGGAVGLAIISTILSNDTKIFMQYLSENISYTSIIALTRLDSYTELLSGKILNPEQGSYLLLANKLNNDAFVIAINNIFNMIGLLFVFIMLLIPFTSNIKLTENVNVH;locus_tag=LOCUS_4460;note=WP_004595873.1 MFS transporter (Rickettsia prowazekii) [pid:98.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.5e-290],MGA_447
sequence1	MetaGeneAnnotator	CDS	582895	583206	.	+	0	ID=MGA_448;product=monovalent cation/H+ antiporter subunit E;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886219.1;translation=MLMFTKIKFILYFLWLLLEIWKSAFLVIKIIWQNKIKIEPIFEWIDAEGLQEIGTVIYGNSITLTPGTVTLDINNNMLLVHALNKSSITDLKSGKMIKKIKTA;locus_tag=LOCUS_4470;note=WP_010886219.1 monovalent cation/H+ antiporter subunit E (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-53],MGA_448
sequence1	MetaGeneAnnotator	CDS	583216	583944	.	+	0	ID=MGA_449;product=UMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598633.1;translation=MASDINALKYKKVLLKVSGEALMGNKQFGHEYEVIKKIAEDIKEVIDLGLEVAIVVGGGNIYRGINAALVGMDRASADYIGMLATVMNALTLQNVMESLGIYTRVLSAIPMMSVCEPYIRRKAKRHMVKKRVVIFAGGTGNPFCTTDSAAVLRAIEMNCDILLKATQVDGVYDSDPKKNPNAKKYFTISYKDVINNHLQVMDTAAIAVARENKLPIRVFSIKEHGNFARVIQDKGQYTTIGE;locus_tag=LOCUS_4480;gene=pyrH;EC_number=2.7.4.22;note=WP_004598633.1 UMP kinase (Rickettsia prowazekii) [pid:99.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.8e-133],MGA_449
sequence1	MetaGeneAnnotator	CDS	584148	584708	.	+	0	ID=MGA_450;product=ribosome recycling factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004595870.1;translation=MEKDNLKKILQEKMEKAIKVLGNELKGLRTGRASINFLDSVTVEAYGSKIPLSQVASLSTPDARTINVQVWDKSMVSSVEKGITIANLGLTHATDGQLIRLPIPSLTEERRKELVKLAHKYGEETKISLRNIRRDGIEELKKLEKDNIIVKDEYHNLSEQIQKLTDEYSSKVDSAIKQKEQEIMTV;locus_tag=LOCUS_4490;gene=frr;note=WP_004595870.1 ribosome recycling factor (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-98],MGA_450
sequence1	MetaGeneAnnotator	CDS	585264	585566	.	+	0	ID=MGA_451;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597219.1;translation=MITKEEAQKIAKLARLKFEKDIVEKFSTQLSTIMNMINILNEIDCKDIEPLTSVSNMNARMREDTVTSSDLSNKLFDNVSGNSAKLAKEVKYFITPKVVE;locus_tag=LOCUS_4500;gene=gatC;note=WP_004597219.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatC (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-49],MGA_451
sequence1	MetaGeneAnnotator	CDS	585569	587050	.	+	0	ID=MGA_452;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597217.1;translation=MTELNKLTVAESVKGLKNKDFTSKELVNAYIKQIEKYKNLNAYVTETFDLALKQAEAADQNYGQNKARTLEGIPFAVKDLFCTKGIRTTACSNILKNFIPHYESSVTQNIFDKGGVILGKTNMDEFAMGSANITSCFGNVISPWKANDDNSDLVPGGSSGGSAAAVSAFMASAALGSDTGGSVRQPASFTGLVGFKPTYGRCSRYGMVSFASSLDQAGIFTRSVLDSSIMLEAMMGFDEKDSTSINAQVPELQSAIGSSMKNMKIGVPLSLGEGGIIEHDIMKMWHDTIELLKNAGAEIVDITLPHAKYGVAVYYVIAPAEAASNLSRYDGVRYGLRVECENMTLDEMYEMTRSAGFGEEVKRRIMLGTYVLSSHCMDAYYFKAQKVRRLVANDFNNAFAKVNAILLPTAPSAAFKIGKKQNDPTIMYLNDLFTIPASLAGLPCASVPAGLSARGLPLGMQIIGKQLDEYNVLKVASTIETGVKHIKFEPAGF;locus_tag=LOCUS_4510;gene=gatA;note=WP_004597217.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatA (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-277],MGA_452
sequence1	MetaGeneAnnotator	CDS	587218	588669	.	+	0	ID=MGA_453;product=Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597215.1;translation=MEYIEGNTGKWEYVIGLEIHAQISSKSKLFSGSSTLFAASPNSQVSYVDAAMPGMLPVLNKHCVYQAIKTGLVLKAKINKYSVFDRKNYFYADLPQGYQISQFYYPIVQDGMIEIPTSTGDLKTIRINRLHLEQDAGKSIHDQSPYYSLIDLNRAGIGLMEIVTEPDISSPEEAAEFVKKLRNLLRYIGSCDGDMEKGSMRCDANISVRRIGEALGTRCEIKNINSIRNIIKAIEFEAKRQVDLLESGETIIQETRLFNVDSCETKTMRLKEEALDYRYFPDPDLLPLIIPDELINELKASLPELPDQKIEKYIKKFGLSQYDAGIIVSDEAVAEYFEKAANECNPKMLTNWLITELFGQLNKASIGIRECKITPSDFAKLIKLIEHDTISGKIAKTVFEIMFETGKAPDKIVEEKRLVQISDNKILNTVIDEVIAENSKSVKCYKSGKDKLFGFFVGQVMKKTECKANPTLVNKLLKDKLDS;locus_tag=LOCUS_4520;gene=gatB;note=WP_004597215.1 Asp-tRNA(Asn)/Glu-tRNA(Gln) amidotransferase subunit GatB (Rickettsia prowazekii) [pid:97.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-268],MGA_453
sequence1	MetaGeneAnnotator	CDS	588834	589559	.	+	0	ID=MGA_454;product=ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599765.1;translation=MKFLKIFLLSFLLVSCGKKETEKTLIVGTAADNPPYEFIQDGEIVGIDIDIIKAISQRLNKKIIIKNFDFNGLLAALISENIDVAIAALSVTPERSEYISFSDSYAKARFAIIYRTGDNIQNSKDLYNKIVGVQLGSVLEKKAQDLSHKMNIKVHALANHLMLVEELKAKVIDAIISEEFQGKKLKENNSNLETCTLEEFSSAFAIGMSKHSGLINEINDTINSLKKDGTINKIMKKWLGQ;locus_tag=LOCUS_4530;note=WP_004599765.1 ABC transporter substrate-binding protein (Rickettsia prowazekii) [pid:96.2%25%2C q_cov:98.3%25%2C s_cov:98.3%25%2C Eval:1.6e-122],MGA_454
sequence1	MetaGeneAnnotator	CDS	589544	590029	.	+	0	ID=MGA_455;product=flavin reductase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886218.1;translation=MARTITEGQFKDAMSRFPQGVTIITTNCNNELFGFTASSFTSVSLKPSLILFCLNKNSCSINSFKQSDKFAVSILAENQIDISKHFAKSQPNKFIKIGYKLGNKTDCPLINDATCHIECNKYASYNAGDHVIFIGEVINTAIKNNVKPLLYFHKSYTRLLA;locus_tag=LOCUS_4540;note=WP_010886218.1 flavin reductase family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-90],MGA_455
sequence1	MetaGeneAnnotator	CDS	590270	590989	.	+	0	ID=MGA_456;product=4-hydroxy-tetrahydrodipicolinate reductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597209.1;translation=MINIGLSGSTGKMGKTIIEIIDQFKDCQISGKFNSTNNLNDLDNLCKNSDVIIDFSTPEVSEKLINYALKHNTKLVIGTTGLKDQHFKLLEKAAQTLPVLYSANMSIGANLLNYLAKKITKILDEYDVEILEMHHRNKKDSPSGTALMLASTIASAKGFNIIFNRDNRIKSKKEIGISSLRGGNVHGIHEIFFLGNDEIITLKHEALNKNSFAIGAIKSAIWIQNKPSALYSMQDIYKV;locus_tag=LOCUS_4550;gene=dapB;EC_number=1.17.1.8;note=WP_004597209.1 4-hydroxy-tetrahydrodipicolinate reductase (Rickettsia prowazekii) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-129],MGA_456
sequence1	MetaGeneAnnotator	CDS	591180	591890	.	+	0	ID=MGA_457;product=Bax inhibitor-1/YccA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597207.1;translation=MIDYTKTLTTTSKNKTFDEGLRRYMLKVYNYMALALLLTGVAAITTISVEPIYHLMFQTGFGTIIMFAPLGIALYFFMGFGRMNLQTAQILFWVYAGLTGMSLSYLALIYTGTSIARTFFICSSVFGAMSLYGYSTSRDLTSMGSFFAMGLIGLIIASLVNLFLKSSSLSFATSLIGIVVFMGLIAWDTQKIKSMYYIAGNDEVGQKLSIMAAFTLYLDFINLFLYLMRFLGNRRD;locus_tag=LOCUS_4560;note=WP_004597207.1 Bax inhibitor-1/YccA family protein (Rickettsia prowazekii) [pid:98.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.1e-128],MGA_457
sequence1	MetaGeneAnnotator	CDS	591996	593768	.	+	0	ID=MGA_458;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011190607.1;translation=MSKEKITRELLLQQELFKALKTHDIAANAKISRICRRIAGSVIALARQQSHTTENLYTHYINQAAFNTKDLAKVTTIIKNLFPGDKNKKLREIIDTPLLQNLVIEGSIERKIELNDPQYNTNYRKFEEIIDPNETKKVIDAMLRDKRVAQQDEFEETGKKTAGISAGYVANDSTGNTFILKHFYKTHAACKKIQDPKEQDQAITDRRDGVQELIGSTMYQFLLHDRAPKEGLVNADEQHPDSLYVRSKFFDNAVTLAEFCGLSGLTRVRINDKNLKRLEGFEKAIAACHILGDGDYHAGNLMVQNGKTITKIDHGRSFLEFHKDFASMIQSTAEMFIHPHVCYSYAIKAGNLSFNIDKYSEALNQMINQFDLKHMEAIVDQKLDELKKAGFDPNKIPLSINIKNFDDLKKYYKTHIKQNIINMQEVAKGAEIVKKFSNVLPSFKNGGWLEAFANSPIKEPLLYAIENNITIEGKDAQEWAYENNYQIKTAIGLTKETIKEQQWSKDFEGKWQEREVEIQRDKVEIQLSDPLKSIRIQDKFTAEKLGSLIVNFTKHTTTKNVTDKEVAKFYDNIMKVLKKSIILPSKMLKL;locus_tag=LOCUS_4570;note=WP_011190607.1 hypothetical protein (Rickettsia typhi) [pid:85.3%25%2C q_cov:98.1%25%2C s_cov:81.9%25%2C Eval:1.8e-290],frameshifted%2C insertion/deletion at around 593921%2C593726,MGA_458
sequence1	MetaGeneAnnotator	CDS	593777	593944	.	+	0	ID=MGA_459;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKYHDNIENTTNLLNAKDFKLNTKDTIYYKVGNFCEKIGLRSVANHCIKKSRLKI;locus_tag=LOCUS_4580;note=WP_011190607.1 hypothetical protein (Rickettsia typhi) [pid:88.0%25%2C q_cov:90.9%25%2C s_cov:7.1%25%2C Eval:1.4e-20%2C partial hit],frameshifted%2C insertion/deletion at around 593921%2C593726,MGA_459
sequence1	MetaGeneAnnotator	CDS	593914	594117	.	+	0	ID=MGA_460;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHKKITPKNLNKIYNTEKVIAESIKIGNILKYNKQEGFQTKRLETVKGIAVSQLQAKQERQQQGKHY;locus_tag=LOCUS_4590;note=WP_011190607.1 hypothetical protein (Rickettsia typhi) [pid:89.2%25%2C q_cov:97.0%25%2C s_cov:9.2%25%2C Eval:5.1e-26%2C partial hit],frameshifted%2C insertion/deletion at around 593921%2C593732,MGA_460
sequence1	MetaGeneAnnotator	CDS	594338	596155	.	-	0	ID=MGA_461;product=aspartate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599762.1;translation=MHKYRTHNCNELQLSNVGQEVKLSGWVHRRRDHGNLVFIDLRDHYGITQIVFTDQNQQLMYDASRLCYESVITVSGTVVARSLDTINNKLPTGYVEVLAMECIVESASSPLPFVINNEKEAPEESRLKHRFLDLRREKLHNNIILRSQVIAHIRHLMIARGFTELQTPILTSSSPEGARDFLVPSRIHPGKFYALPQAPQQFKQLLMVAGFDRYFQIAPCFRDEDARADRSPGEFYQLDLEMSFVTQEDIFNTIEPVLYDLFTKFTNKTVSNTPFVRIPYNESMLKYGSDKPDLRNPIIISDVTEVFRDSNFTIFRENIKKGSVVHAIPAPQAASLPRSFFDKMIEFAISKGARGLGYIQFSESGEAKGPLSKFLTGQQLEILKATANTSNGDAVFFVSDKKDEAVKLCGKVRIKLGEELNLLEKDCFKFCWITDFPFYELNEETGKIDFSHNPFSMPQGGIDALEQAKTTEELLALTAYQYDIVCNGIELSSGAIRNHKPEIMYKAFSIAGYSAEEVEQRFGAMIKAFRFGAPPHGGIAPGIDRIVMLLAEATNIREIIAFPLNQQAEDLLMNAPSYVEEKALKELSIMLSPSSRKIHKKNTNL;locus_tag=LOCUS_4600;gene=aspS;EC_number=6.1.1.12;note=WP_004599762.1 aspartate--tRNA ligase (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_461
sequence1	MetaGeneAnnotator	CDS	596228	596662	.	-	0	ID=MGA_462;product=DUF3106 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599761.1;translation=MSNVAENISKLPEEQEKINKLVDQYKNLMPQEQKEVDKKLKLYFTKDELEQDELKSRMNKIRSNLSQQEQEKLQAGNSTIGEIAKDVLSLVKGIINLVENISKVIKNPTGAVYEWFQNELNQVKPQQQNNHQLQSKPKAASISR;locus_tag=LOCUS_4610;note=WP_004599761.1 DUF3106 domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-76],MGA_462
sequence1	MetaGeneAnnotator	CDS	596761	597555	.	-	0	ID=MGA_463;product=division plane positioning ATPase MipZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597196.1;translation=MNIINKPYIFVLGNEKGGAGKTTCSMHLIIGLLYQNYSVISIDADSRQSSLTNYLKNRDLYNQQNPTNTVLVPKHFHIFQSDVEEQINSFKQILKNNKDADYIVIDTPGSYTALSRIAHSYADTIITPINDSFLDLDVIAKVDSKDEIISPSIYSQMIWEQKMERASRDGGSIDWIILRNRLSNLDALNKRRVGAVLVALAKRINFKLAEGFSERVIYRELFLQGLTLLDLKTAKYDRVFNSSHVLARQELRNFLVFLDIKAEV;locus_tag=LOCUS_4620;note=WP_004597196.1 division plane positioning ATPase MipZ (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.1e-147],MGA_463
sequence1	MetaGeneAnnotator	CDS	597647	599149	.	-	0	ID=MGA_464;product=leucyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597194.1;translation=MLNINFVNEESSTNQGLIVFIDEQLKLNNNLIALDQQHYELISKTIQNKLQFSGNYGQITVVPSVIKSCAVKYLIIVGLGNVEKLTEAKIEELGGKILQHATCAKIATIGLKIINRINRFTSPTFTSLIASGAFLASYRFHKYKTTLKEVEKFAVESIEILTDNNSEAMKLFEVKKLIAEAVFFTRDISNEPSNIKTPQVYAERIVEILEPLGVNIDVIGEHDIKNLGMGALLGVGQGSQNESKLVVMEYKGGSRDDSTLALVGKGVIFDTGGISLKPSSNMHLMRYDMAGSAAVVGTIIALASQKVPVNVVGVVGLVENMQSGNAQRPGDVVVTMSGQTAEVLNTDAEGRLVLADTVWYVQEKFNPKCVIDVATLTGAITVALGSTYAGCFSNNDELADKLIKAGEAVNEKLWRMPLHDDYDAMINSDIADIANIGNVPGAAGSCTAAHFIKRFIKDGVDWAHLDIAGVANSNNASALCPKGAVGYGVRLLEKFIKEYN;locus_tag=LOCUS_4630;EC_number=3.4.11.1;note=WP_004597194.1 leucyl aminopeptidase (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-280],MGA_464
sequence1	MetaGeneAnnotator	CDS	600140	604258	.	-	0	ID=MGA_465;product=DNA-directed RNA polymerase subunit beta';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597190.1;translation=MSVVNFYGQLSNTQQFDQIRINIASPDQVRSWSFGEVTKPETINYRTFKPEKDGLFCARIFGPVKDYECLCGKYKRMKNRGITCEKCGVEVTVSRVRRERMGHIELAAPVAHIWFLKSLPSRISTLLDMTMRDVEKILYFENYVVVDPGLSILQKGELLTEEELQKAKDKYGEDAFTASIGAEVIQQMLKELDFSKLKQELYDELHITSSEVKKKKLVKRLKLVEDFLESENKPEWMIMDVLPVIPPEIRPLVMLDGGRFATSDLNELYRRVINRNNRLKKLIESKAPDIIVRNEKRMLQEAVDALFDNGRRGRAAKNANKRPFKSLSDMLKGKQGRFRQNLLGKRVDYSGRSVIVVGPELKLHQCGLPKKMALELFKPFIYSKLELYGIATTIKAAKRMVEAEKPEVWDVLEEVIREHPVLLNRAPTLHRLGIQAFEPLLIEGKAIQLHPLVCAAFNADFDGDQMAVHIPLSIEAQLEARVFMMSTNNILSPANGRPIIVPDKDIVLGLYYLTIAFDNEVGEGMMFSDLAEMEHALYNKFITIHTKIKYRRDQLNAEGKMVPVIIDTTYGRLMVGELLPSNPNIEFKFINKQLTKKDISLVIDLVYRHCGQKATVIFADQLMKLGFKYACSSGISFGMDDMVVPESKSTHINETQLEIKEFEQQYSNGLITYGEKYNKVVDAWSRCTDRVANDMMKEIATPPVNDYPNHQKINAIYMMAISGARGSFQQIKQLGGMRGLMTKSNGQIIQTPIISNFKEGLTEFECFNSANGMRKGQIDTALKTASSGYLTRKLVDVAQDCIITEKDCGTDKGIEVKSVIEGGEIIVPLAEKILGRTAAIDIFHPVTNDLILNKGELINESKLEQIESAGLDRIMIKSVLTCESSTGICSICYGRDLATGTLVSEGEAIGVIAAQSIGEPGTQLTMRTFHIGGAATKGAEVSSVEASYDAKVKIISRNVVINSEERKIVMSRNCELLLLDNNGNEKARHKIPYGARLLVDDGDMVIKTQKLAEWDPYTIPIITEKSGKVLFKDMVEGISIRDVTDEATGIPSKVIIESKQYSRGAELRPRIQLLDSKGEVITLSNGLEARYYLPVGAVLSVEDGIQISVGDIIARIPKESTTTKDITGGLPRVAELVEARRPKDHAVIAEVDGRVEFGKDYKSKRRIIIHPIDGTMSIEYMVPKGKHVVVNEGDFVKKGDLLIDGNPVLQDILKVMGVEVLANYIVKEVQAVYRLQGVKIDDKHIEVIIRQMLQKVEVTDSGGTTLLVGEKIDRHEFDEINAKAMKNGLKPAEAQLILQGITKASLQTRSFISAASFQETTRVLTEAAIAGKVDKLRGLKENVIVGRLVPAGTGYFMDKMRKAAVKLDEENV;locus_tag=LOCUS_4640;gene=rpoC;EC_number=2.7.7.6;note=WP_004597190.1 DNA-directed RNA polymerase subunit beta' (Rickettsia prowazekii) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_465
sequence1	MetaGeneAnnotator	CDS	604415	608539	.	-	0	ID=MGA_466;product=DNA-directed RNA polymerase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886216.1;translation=MVSLRDNIESQPLSHNRRIRKNFGHINLVADIPNLIEIQKNSYEKNFLQLNIKDSERKNKGLQSILNSIFPISDSSNIANLEFVKYEFDTPKYDVDECSQRSLSYAAPLKVTLRLSIWDIDEDTGTREIKGIKEQEVYMGDIPLMTKNGTFIINGTERVVVSQMHRSPGVFFYHDEGKVHSSGKLLYSARVIPYRGSWLDFEFDAKDIIYFRIDRKRKLYATTLLRAIGMSTEEIIKFYYNSVTYKFVKNKGWSVKFIPQHITAHRLTSDLVDADTGNVLLKAGQKITPRLAQKYFGVGLNNILVTHETLIGKYLSEDLRDPASDEVLAKIGEMITSDMLKVINDLKIKNVNVLVINPQSGSYIRNTLFADKNQDREAALCDIFRVLRPGEPANIEAAESLFYNLFFDAERYDLSEVGRIKMNSRLELNISEEVTVLTIDDIKNIVRILVELKDGKGIIDDIDHLGNRRVRSVGELIENQFRIGLVRMEKSVIERMSAGDVDTVMPHDLVNSKILVSVVKEFFSTSQLSQFMDQTNPLSEITHKRRLSALGPGGLSRDRAGFEVRDVHPTHYGRICPIETPEGQNIGLINSMATYARINKHGFIESPYRRVKNGYVTDEVVYLSAIEEGKYKIGQANSKVDQDGKLQGEFINCRVEGGNFVMVEPDEVDFIDVTPMQVVSVAASLIPFLENDDANRALMGSNMQRQAVPLIKTEAPFVGTGVEGVVAKDSGASVLALHDGIVERVDSNRIVIRTLEQKVDGSPSVDIYNLLKFQKSNHNTCINQKPLVKVGHYVKKNDIIADGPSTDNGEIALGRNVLVAFLPWNGYNFEDSILISERIVKEDVFTSIHIEEFEVIARDTRLGPEEITRDIPNVSEEALRHLDEVGIIYVGAEVKAGDILVGKVTPKSESPITPEEKLLRAIFGEKAFDVKDSSLHVPSGVSGTVVEVRIFSRRGVEKDQRAIAIEKQQIEKLAKDRDDELEIIEHFVFSWLEKLLVGHVIINGPKQITAGQTITTEMLKGLSKGQLWQITVEDANVMNEIEQIKIHYDEKKYALDKRFTTKVEKLQSGDDLPQGALKVVKVFIATKHKLQPGDKMAGRHGNKGVISRIVPEEDMPFLEDGTVVDIVLNPLGLPSRMNIGQILETHLGWASINLAKKISTLVKEYKDNHIDIEEIKKFLLELYGKDINYILEGSEEEIISFCNKVSKGVYFATPVFDGAKVQDVKDMLELAGQDLSGQVKLIDGRTGEYFDRLVTVGHKYLLKLHHLVDNKIHSRSIGPYSLVTQQPLGGKSHFGGQRFGEMECWALQAYGAAYTLQEMLTVKSDDVNGRIKTYDSIVRGENNFESGIPESFNVMIKEFRSLCLNVKLEVTPSK;locus_tag=LOCUS_4650;gene=rpoB;EC_number=2.7.7.6;note=WP_010886216.1 DNA-directed RNA polymerase subunit beta (Rickettsia prowazekii) [pid:99.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_466
sequence1	MetaGeneAnnotator	CDS	609393	609770	.	-	0	ID=MGA_467;product=50S ribosomal protein L7/L12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597183.1;translation=MADLAKIEEQLSSLTLMQAAELVKMLEEKWGVSAAAPITVASAGVAAPLAEAVTEKTEFEVVLTATGDKKVEVIKIVKDITGLGLIEAKKLVDEAPKSIKNNVKKAEAEEIKSKLEAAGAKVELK;locus_tag=LOCUS_4660;gene=rplL;note=WP_004597183.1 50S ribosomal protein L7/L12 (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-59],MGA_467
sequence1	MetaGeneAnnotator	CDS	609959	610468	.	-	0	ID=MGA_468;product=50S ribosomal protein L10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597181.1;translation=MLRSEKPVAVEDIVNIYKESPSVIITHYHGLTVSQVSSLREELKSKEAGFKVVKNTLAKIAAKQTGLDSITNLFAGPTAIVYSKEPVEMARLVVNFANSNDNLKIIGGIVDNHILDAYSIKELSKLPSLYELRGKIVGLLQAPATKVVGVLQATSSSIARVIHAHAIKH;locus_tag=LOCUS_4670;gene=rplJ;note=WP_004597181.1 50S ribosomal protein L10 (Rickettsia prowazekii) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-87],MGA_468
sequence1	MetaGeneAnnotator	CDS	610556	611272	.	-	0	ID=MGA_469;product=50S ribosomal protein L1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599759.1;translation=MSNKDICVKISGSKKIREAREKVKSDTLYNLTNAVAQLKSASYVKFDPTLEIVMKLGIDPRHSDQIVRGVVNLPAGTGKTIRVAVICKEEREEEAKSAGADLVGSINIIDEIKAGQINFDVCIATPDMMSMISSVARILGPKGLMPNPKLGTVTLDIKNAIKNAKSGQVEYRAEKAGIIHAGLGKLSFSDQDLLKNLNAFIGAVIKAKPVGLKGNYLKAIYLSSTMGASVQIDLTSIS;locus_tag=LOCUS_4680;gene=rplA;note=WP_004599759.1 50S ribosomal protein L1 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-128],MGA_469
sequence1	MetaGeneAnnotator	CDS	611275	611712	.	-	0	ID=MGA_470;product=50S ribosomal protein L11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597179.1;translation=MSKKAIKGYINLIIPAAGATPAPPIGPALGQRKVNIAAFCKDFNDATNGMEKGVPLPTVITVYEDSSFSFKVKTPPASYFLKKYAKITKGSSATKKEAMVGKVTIDDCREIAKLKISDLNTKNIEAATKIICGSAASMGLEVVGN;locus_tag=LOCUS_4690;gene=rplK;note=WP_004597179.1 50S ribosomal protein L11 (Rickettsia prowazekii) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-75],MGA_470
sequence1	MetaGeneAnnotator	CDS	611845	612423	.	-	0	ID=MGA_471;product=transcription termination/antitermination protein NusG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597178.1;translation=MTEQTIDNILPASKNNVKQWYVVHTASGAEKRIKEDILRKIAKQKMTDFFEDILIPVFGVSEVKRGKNVKVEKKLMPSYILIKMNMTDKSWHLVKNIPGVTGFLGSKIVPKALTESEIQNIFNNLEAEAKVAKNSKLYEVGEIVTVTDGPFETFMGTVEAIDKARNRLKVSVSIFGKATPIELNFNQVKKSD;locus_tag=LOCUS_4700;gene=nusG;note=WP_004597178.1 transcription termination/antitermination protein NusG (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-104],MGA_471
sequence1	MetaGeneAnnotator	CDS	612439	612639	.	-	0	ID=MGA_472;product=preprotein translocase subunit SecE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597177.1;translation=MFREYKIYKFFEQVKQETYKVFWPNKKELIASTLVVVATVFIFSLICLVLDYSIHNIMQLLLTIGK;locus_tag=LOCUS_4710;gene=secE;note=WP_004597177.1 preprotein translocase subunit SecE (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-31],MGA_472
sequence1	Aragorn:1.2.38	tRNA	612783	612858	.	-	.	ID=Aragorn_18;product=tRNA-Trp;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0180;note=Aragorn_18
sequence1	MetaGeneAnnotator	CDS	613002	615101	.	-	0	ID=MGA_473;product=elongation factor G;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599757.1;translation=MSKINKLEQIRNIGICAHIDAGKTTTTERILYYTGKSHKIGEVHEGGATMDWMEQEQERGITITSAATTCRWQDKVINIIDTPGHVDFTIEVERSLRVLDGAVAVFDGVAGVEPQSETVWRQADKYNVPRMCFVNKMDRMGADFYRCVEMIKDRLGARSLIIQLPIGIEENFKGIVNLIKMKAVIWKDESLGAEYFEEDIPADMQDKAAEYRARLLDMVVELDDTIMEQYLSGAEITEEQIKILIRKGTIEARFYPILCGSAFKNKGVQPLLDAIVDFLPSPIDIGIVKGIEVSTSEEKDFPISIVEPFSALAFKIMNDPFVGSLTFIRIYSGKITSGATVINTVKNKREKIGRMLLMHANNREDIKEASAGDIVALAGLKDTSTGDTLSDIDKQVVLERMEFPEPVIELAVEPKSTADQEKMGLALSRLAAEDPSFRVSTDHETGQTVIKGMGELHLEIIIDRMRREFKVEANIGAPQVAYRETITTACEIDYTHKKQSGGAGQFARVKIIFEPLKDVIDLKDEDKNKTFVFESKIVGGAVPKEYIPGVEKGLNNIRETGVIAGYPMIDFKATLVDGAFHDVDSSVLAFEIAAKGAFREGMQKGNPKLLEPIMKVEVITPDEYMGDIIGDLNSRRGQIQNMDPRGNAQVVTAHVPLAEMFGYVNTLRSLSQGRAQFSMIFSHYDQVPSQVADMIKAKK;locus_tag=LOCUS_4720;gene=fusA;note=WP_004599757.1 elongation factor G (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_473
sequence1	MetaGeneAnnotator	CDS	615113	615595	.	-	0	ID=MGA_474;product=30S ribosomal protein S7;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597175.1;translation=MSRRHVAEKRIILPDMKYNSILLSRFINNIMKAGKKAVAEKIVYSALNKIEKKHSVDPYQTFNNAMHNVKPHLEVTSVRVGGANYQVPTHVDERRGYALASRWIINAASKRSEKMMIDKLAEELFEASNNRGVAIKKKEDTHKMAEANKAFSHFSPKKMK;locus_tag=LOCUS_4730;gene=rpsG;note=WP_004597175.1 30S ribosomal protein S7 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.0e-87],MGA_474
sequence1	MetaGeneAnnotator	CDS	615629	616018	.	-	0	ID=MGA_475;product=30S ribosomal protein S12;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597174.1;translation=MPTYNQLVRFGRKSKTRKTKSPALESNPFKSGVCLVVKTVTPKKPNSALRKIATVRLSNKRTVNAYIPGEKHSVKEHDRVLVRGGQVPDLPGVKYHIVLGAYDIAGVKGRKQGRSRYGAHRKQVAATKK;locus_tag=LOCUS_4740;gene=rpsL;note=WP_004597174.1 30S ribosomal protein S12 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-69],MGA_475
sequence1	MetaGeneAnnotator	CDS	616180	616836	.	-	0	ID=MGA_476;product=amino acid ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886215.1;translation=MLMYLLKYYPKILFIIEGTLVTLKYSVIAVILGLVIGMLLAICKVNKNRVLRLFANFYTSIFRGTPLLVQLSIIYFAAPYIINIKFNVFMAGVISFALNSGAYVSEVIRAGINTVDKGQFEAAEALAIPKFLIMKDIILPQAINNIFPSLVNELVNLIKESAIISMLGEMDLMRRAQIVSIETYNYFFPMLIAACCYYILVILISFIAKIIEKKMIVN;locus_tag=LOCUS_4750;note=WP_010886215.1 amino acid ABC transporter permease (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-116],MGA_476
sequence1	MetaGeneAnnotator	CDS	616956	618746	.	-	0	ID=MGA_477;product=succinate dehydrogenase flavoprotein subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597170.1;translation=MTKAYNIIHHKFDVVVVGAGGAGLRSAFGMAKEGLNTACITKIFPTRSHTVAAQGGISAALGNMGEDDWRWHMYDTVKGSDWLGDQDAIEYMCKNAPDAILELEHYGVPFSRTVDGKIYQRPFGGMTTEYGKGKAAQRTCAAADRTGHAILHTLYQQSLKHKVQFFIEYFAIDLLMEDGECRGVVAWNLDDGSLHCFRAHNVVLATGGYGRAYFSATSAHTCTGDGGGMVIRAGLPLQDMEFVQFHPTGIYSAGCLITEGARGEGGYLVNANGERFMERYAPAAKDLASRDVVSRAMTIEIREGRGVGEHKDHVFLHLNHLSPEILHRRLPGISETAKIFAGVDVTKDPIPVLPTVHYNMGGIPTNYQGQVIIKDGKNHNSIVNGIMAIGEAACVSVHGANRLGSNSLLDLVVFGRSSALKAAELIKPASPHKPLQKETLEKIINRFDKVRYANGNILVADLRLKMQRTMQSHVSVFRTQKLLDEGVGMISEIRNRYKDIKINDKSLIWNSDLVEALELDNLLDQALVTVCSAAARKESRGAHAREDYPDRNDRDWIKHTLSSIDDSGKVVLDYKPVTLTTLTDAISAIPPVKRVY;locus_tag=LOCUS_4760;gene=sdhA;note=WP_004597170.1 succinate dehydrogenase flavoprotein subunit (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_477
sequence1	MetaGeneAnnotator	CDS	618880	619257	.	-	0	ID=MGA_478;product=succinate dehydrogenase%2C hydrophobic membrane anchor protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597167.1;translation=MIYDFKAEIIKAKNSSFSKSGSHHWLLQRVTGVILALCSFWLIYFMFTNKNNDINIIMWEFKKPFNIVILLITVTISLYHSVLGMRVVIEDYINCHKLRNTLIIIVKLFCILTIVSFVVAIFYSG;locus_tag=LOCUS_4770;gene=sdhD;note=WP_004597167.1 succinate dehydrogenase%2C hydrophobic membrane anchor protein (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.5e-65],MGA_478
sequence1	MetaGeneAnnotator	CDS	619416	619790	.	-	0	ID=MGA_479;product=succinate dehydrogenase%2C cytochrome b556 subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597166.1;translation=MTKIKQEIYNKRPTSPHLTIYKPQISSTLSILHRMTGVALFFVVSILVWWLILSKYDNNYLQLASCCIIKICLVAFSYSWCYHLCNGIRHLFWDIGYGFSIKAVNITGWCVVVCSILLTMLLWV;locus_tag=LOCUS_4780;gene=sdhC;note=WP_004597166.1 succinate dehydrogenase%2C cytochrome b556 subunit (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-71],MGA_479
sequence1	MetaGeneAnnotator	CDS	619928	620671	.	-	0	ID=MGA_480;product=rhodanese domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597164.1;translation=MNERITILSAYSFVNIIEPANLIPKLLLVGKKKYIRGTILLANEGFNSSFSGSYENVNIVLKQLIALTGSKDVNVKINYSPVHPFQKLKVRLKREIIAMNVKDLNVDVFKGHYIEPKDWDEFITKQNVILIDTRNEYEIDIGTFKSAINPRTETFKQFPAWVQQNHALLQGKKIAMFCTGGIRCEKSTSLLKSIGYNEVYHLKGGILQYLEDTHNKNNLWQGKCFVFDDRRAVADDLYPAEGYWLHR;locus_tag=LOCUS_4790;note=WP_004597164.1 rhodanese domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-142],MGA_480
sequence1	MetaGeneAnnotator	CDS	620776	622317	.	-	0	ID=MGA_481;product=Do family serine endopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599755.1;translation=MVNLKIFLIVIVLMFNNIILAKENSNALKVVDQEENEFTAINSAPLKISEAARYSFADIVEPLIPAVVNISTIEYVNDKSENSEKDLLQENKHLGFMSDVLEKLNIPLNLEEIAKTPKSIPLGSGFIIAPNGLIVTNYHVIANVEKINIKLADNTEFLAKLIGSDSKTDLALLKIDSEEPLPFVEFGDSNDARVGDWVIAIGNPFGNLGGTVTSGIISSKGRDIDVDTDNIVDNFIQTDAAINNGNSGGPMFNLDQKVIGVNTAIFSPLGTNIGIGFAIPSNTAKPIIERLKKDGKVSRGRLGVTIQDLTEEISEVLGFKGTNGVLVSKVQENGPGYKAGIKKGDIIIKFGDRLVKNTKKLRVIIADTPINQEVKLKILRDAQELELPIKVTADNEEVINDSTEETNKAVIINKKENNLSITKNNITFSNLTEELRKKYDIPQDKTGIVIINIDEEESVFKLGDLITNINHDSIDDIRKLEVLYENAKKLEKQNILLLIERGDTSVFIPLSVS;locus_tag=LOCUS_4800;EC_number=3.4.21.107;note=WP_004599755.1 Do family serine endopeptidase (Rickettsia prowazekii) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.2e-281],MGA_481
sequence1	MetaGeneAnnotator	CDS	622348	623208	.	-	0	ID=MGA_482;product=protease modulator HflC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597160.1;translation=MQQKIYYIIFTIVFGLMLIASALFSVDQRQSAVVFQFGEAIRTIENPGLNIKIPFIQNVEFFDKRLLDVEVEAKELTAADGKRVIVDAYAKFQINNPIMFYKTVHDYQGVKIRLTRNLESSMRKVIGKISLSSLLSQERSNVMLNILNQVNGEAKSFGIDVVDVRILRADLPKENSAAIYRRMQTAREKEATQIRAEGQEESVRIRSKADKESKIILAKAYRDAQIIKGDGDEKAAKIYNAAYSVDPEFYKFYRSLLVYKNALKKEDTNFVISPEAEVFKYLNLAK;locus_tag=LOCUS_4810;gene=hflC;note=WP_004597160.1 protease modulator HflC (Rickettsia prowazekii) [pid:99.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-155],MGA_482
sequence1	MetaGeneAnnotator	CDS	623352	624386	.	-	0	ID=MGA_483;product=FtsH protease activity modulator HflK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599754.1;translation=MLSKKYISILKKSPWKDFDSEKEDNIFTRPRKNQFTFDKLQFPFNFNTKTIILAVGAMVILWLVSGIYEIKEGEEAAVIRFGRFVRKGYPGLNYHFPSPFENIIVEKVKQSRRIEIGYRTNSSMRSGGDKNIVSESIMLTGDENIVSLNCDVMWHISNLEDFIFNVQRPEETVKATVESSIREVIGNTPISWVLSDQKQEITYKIEKLAQKILDSYNAGVMIEKVQLLKAEPPSEVIDAYRDVQTSKADKEKEINQAQAYNNKILPEARGTAAKIIQEAEGYREEVISKAEGDSQRFNAIYKQYATGRQVTRDRLYLEVVEEILGGSNKTIINNALLPHMLINR;locus_tag=LOCUS_4820;gene=hflK;note=WP_004599754.1 FtsH protease activity modulator HflK (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:2.2e-193],MGA_483
sequence1	MetaGeneAnnotator	CDS	624485	625441	.	+	0	ID=MGA_484;product=Mrp/NBP35 family ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597156.1;translation=MANLHQQQIIDKIQNITFKDGTFLNEVISDIIIKGNNIGFSIDISGKNKLEAEEIRLKAINKLNNIKEVNKITIVFTQSKTIDKKAQKPKHFVENVKKIILVASGKGGVGKSTISALIAQQLSLENYRVGIVDADIYGPSIPHIFGINGIPKTVEGRIVPILAQNIQIISIGFFVKAHSAIIYRGPMASKIIYQLLSNTRWNNLDYLIIDMPPGTGDIHLSIIENYHLDGVIVVTTQQKISEIDVIRSIDLYRKLGLPILGIIENMIYMLESDHCGYLSKKYHIPLIAQIPIMPQIANACDKSLPLTNLLTLPLEKYL;locus_tag=LOCUS_4830;note=WP_004597156.1 Mrp/NBP35 family ATP-binding protein (Rickettsia prowazekii) [pid:96.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-170],MGA_484
sequence1	MetaGeneAnnotator	CDS	625441	626505	.	+	0	ID=MGA_485;product=mitochondrial fission ELM1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599753.1;translation=MNIWVIADDRTGNTHQAIALAAQLTGKYTTITLEYNFLAKLPNFLLQYYPIHIKRELLQDIIDKLPPDMIITAGRRTAVLAFYLKKKFENIKLVQIMQPNLPYNIFDAIILPYHDYRDLLYCGPAKILSKNIKSHCKVLNYSSRQHDIEKMMKIIPINGALNNITAKFSAASLELQKHYPHLKQFTAVIIGGNNKRFSFNEDIAILFSSLLNKIYSNQAIPFLISFSRRTPQIVKSIIKNNTHASTMIYDPSKDTDYNNPYIDMLANAKYIISTADSISMCSEAASSGKPLYIFYPPNFNSLKHKIFIEQLVEQKIARIFNESITMLEEYSYKPLNEAKKVAEIIKFALKINKS;locus_tag=LOCUS_4840;note=WP_004599753.1 mitochondrial fission ELM1 family protein (Rickettsia prowazekii) [pid:99.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-202],MGA_485
sequence1	MetaGeneAnnotator	CDS	627767	628240	.	-	0	ID=MGA_486;product=crossover junction endodeoxyribonuclease RuvC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597152.1;translation=MIVLGIDPALGKLGWAVVAKESTKLHYLASGTIKTHSKDEIHNRLAFINSILEKVILEYQPNIAAIEETFVNTNNVTSLKLGYARGAIMSLIGRYNLDMQEFKPNTVKKTVTGYGHAGKEQILYMIKHLISGTDLITNSDEADAVALAYTCLVAKKY;locus_tag=LOCUS_4850;gene=ruvC;EC_number=3.1.21.10;note=WP_004597152.1 crossover junction endodeoxyribonuclease RuvC (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.1e-85],MGA_486
sequence1	MetaGeneAnnotator	CDS	628329	629216	.	-	0	ID=MGA_487;product=GTPase Era;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597151.1;translation=MTNQIQKTISVCIIGRPNSGKSTLLNRIIGEKLSIVTPKVQTTRSIITGIVTLKDTQIILYDTPGIFEPKGMLEKAMVRCAWSSVYSADLVLSIIDSLKPLDNIAHNILNQFCLLNIVPIFLLNKIDIESKYLNDIKAFLKITHPKSLLFPISALLGKNVDVLLEYIKSKAKVSPWLYADDDITNLPMRFIAAEITREQLFLNLQQELPYKLTVQTEKFEELKDKSIKINQVIVISRENYKAIILGKNGAKIKDIGVKSRVQLEQFFCVPVHLFLFVKVHAFWENNQEFYQYMKI;locus_tag=LOCUS_4860;gene=era;note=WP_004597151.1 GTPase Era (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-165],MGA_487
sequence1	MetaGeneAnnotator	CDS	629213	629890	.	-	0	ID=MGA_488;product=ribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597150.1;translation=MESFEKLETLLGYSFKNKELLIEALSHPSLRQYHEYKYDKDYERLEFLGDAVLNLLITEILFKNFENYKEGNLAKIRSYLVCKETICIVGTKLALKDYIIMTHGEEVAGGRDNPNNIENATEALIAAIYLDSNIEITHNIIEKLWAEFMKVQNLTDYDPKTALQEWAQANSHHLPIYRLIKREGAAHSSIFTVLVKVKDYEQTCTGYSIKEAEKKAARSLLHRLK;locus_tag=LOCUS_4870;gene=rnc;EC_number=3.1.26.3;note=WP_004597150.1 ribonuclease III (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.3e-127],MGA_488
sequence1	MetaGeneAnnotator	CDS	629890	630684	.	-	0	ID=MGA_489;product=signal peptidase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597149.1;translation=MNRDNINSNKTVKQEFGSFAFVICIALVIRILIMEPFTVPTGSMKATILENDYIFSTKYSYGYSNYSLSFFDFIHLFKGRVFAREPERGDIVVFRPPNDMSVRYIKRLIGLPGDKIQLIDDVIYINDKKIERTEVGTYIGEDGIKYLKFKETLPNGRTYFSYKLAPIFGVIPSDRYSNTDVFYVPEGQYFFLGDNRDRSNDSRVNLGFVPFENFIAKAQFIWFSTKITWWDNDIGIINLILKLKPWIESVRLSRIFKNLYNVDE;locus_tag=LOCUS_4880;gene=lepB;EC_number=3.4.21.89;note=WP_004597149.1 signal peptidase I (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-153],MGA_489
sequence1	MetaGeneAnnotator	CDS	630854	632119	.	-	0	ID=MGA_490;product=NADH-quinone oxidoreductase subunit NuoF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599751.1;translation=MLKEEDKIFTNLYGQQSYDLKSSQKRGDWYNTKALIDKGRDFIIDEVKKSGLRGRGGAGFSTGMKWSFMPKNSEKPCYLVVNADESEPGTCKDRDILRFEPHKLIEGCLIASFAIGANTCYIYIRGEFYNEASNMQRALDEAYKEGLIGKNACGSGFDCNIYLHRGAGAYICGEETALLESLEGKKGMPRLKPPFPAGFGLYGCPTTINNVESIAVVPTILRRGASWFAAIGKPNNTGTKVFCISGHVNKPCNIEEVMGVPLKELIEKYAGGVRGGWNNLKAIIPGGASVPLLPKSLCEVEMDFDSLRTVGSGLGTGGIIVMDKSTDIIYAIARLSKFYMHESCGQCTPCREGTGWMWRVMMRLVNGNAKKNEIDTLLNVTKEIEGHTICALGDAAAWPIQGLIRHFRDEIEQRIKSFGIA;locus_tag=LOCUS_4890;gene=nuoF;note=WP_004599751.1 NADH-quinone oxidoreductase subunit NuoF (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-253],MGA_490
sequence1	MetaGeneAnnotator	CDS	632283	633218	.	-	0	ID=MGA_491;product=protein translocase subunit SecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599750.1;translation=MQIYPLRFVPNKIDFDFMNFKKVSYSFSIILSLISLIWISIYKFNFGIDFVGGIVIEVRLDQAPDLPKMRAVLSALEIGEVVLQNFGSERDLSIRFGSSSEENLMKNIDIIKTSLRNNFPYNFEYRKVDFVGPQVGRQLIEAGAMAMLFSFLAIMVYIGVRFEWYFGFGILIALVHDVILALGFMSMTKLDFNLSTIAAVLTIIGYSVNDSVVIYDRIRENLRKYHKKNITEIINLSINETLSRTILTVITTLLANLALILFGGKAIHSFSVLVFFGIIAGTYSSIFISAPILTMFANRKFNKKVITQGKG;locus_tag=LOCUS_4900;gene=secF;note=WP_004599750.1 protein translocase subunit SecF (Rickettsia prowazekii) [pid:92.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.1e-159],MGA_491
sequence1	MetaGeneAnnotator	CDS	633290	633526	.	+	0	ID=MGA_492;product=DUF2312 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597146.1;translation=MSAVVVKEQLEQYISKIERLEEEKSDLAQEVKDIFQDAASHGFDVKAMKAILKLKKLDKNKLAEQDAMLELYRDTLGI;locus_tag=LOCUS_4910;note=WP_004597146.1 DUF2312 domain-containing protein (Rickettsia prowazekii) [pid:89.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-31],MGA_492
sequence1	MetaGeneAnnotator	CDS	633743	634159	.	-	0	ID=MGA_493;product=50S ribosomal protein L19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597145.1;translation=MNIIDNFEQENIAKLTANKKIPDFEAGDTVKVTVKIIDKAIEKDGKEKLTERFQAYEGVVIAKRNRGITSSFLVRKISHGEGVERRFMTYSPIVHSIDVVKYGVVRRAKLYYLRHRNGKAARIREKLISRAKPKTAIS;locus_tag=LOCUS_4920;gene=rplS;note=WP_004597145.1 50S ribosomal protein L19 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-72],MGA_493
sequence1	MetaGeneAnnotator	CDS	634176	634880	.	-	0	ID=MGA_494;product=tRNA (guanosine(37)-N1)-methyltransferase TrmD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597144.1;translation=MSILHVTILTVFPEMFPGTLGYSLAGQALHNNIWSYNIINIRDFGLTKHKNVDDKAYGGGDGLIMRPDVLGNAIENALSLNHNAKIYYPSPRGCVFTQSFAKEMLKNKNLIFLCGRYEGIDERVIAEYNVTEVSVGDYILSGGEIPTLTILDCLIRLLPGVLINQNTLSSESFEKDGEFQGGLECDLYTRPKIWRGRAVPSILLSGNHRLINNWRKEQSHMITKLRRPELLKDL;locus_tag=LOCUS_4930;gene=trmD;EC_number=2.1.1.228;note=WP_004597144.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.8e-135],MGA_494
sequence1	MetaGeneAnnotator	CDS	635263	636420	.	-	0	ID=MGA_495;product=acetate/propionate family kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597143.1;translation=MKDVILIANAGSSSLKISIFAIQNKRVNDKIYNIFLEKNNNKILFYINQQKESTTSIKDDPIEMMINLFEEWWKKQSALNLIATGHRIVHGGKNFNKPVVVNKKVIKELRVLIPLSPLHQPYNLQVLDLFFQKYKAISHIICFDTSFHCTNSPITKAFGLPKQYYDKGIMRYGFHGLSYQYVSSHFKEITMEDLPPKAIIAHLGSGSSLCAIKNGLSLTSSMGFSVLDGVMMATRPGNLDPGVVLYLINNEKMTINEITELLYKKSGLLGMSGESSDMRTLIASNSHDSKFAVDLFVYRIVLEIGKLIAALEGIDCLIFTAGVGQNSPVIREMISKKLSWLGIKIDYEKNQKNEHRISTKGSKIKVFVVPTNEELIIAEEVMKFL;locus_tag=LOCUS_4940;note=WP_004597143.1 acetate/propionate family kinase (Rickettsia prowazekii) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-214],MGA_495
sequence1	MetaGeneAnnotator	CDS	636417	637472	.	-	0	ID=MGA_496;product=phosphate acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597142.1;translation=MKKQHIINETFLDEILAQKLGTTYIPPTEIKDSDFDKAAKHFINLLLRADGLKPIKTAVVHPIDKESLLGAVRAAQFNVIKPILIGPQHKIESVAKVNDVDLENYQVINAEHSHEAAKKAVELAKKREVAAIMKGALHTDELMSAVVYKENGLRTERRISHAFLMAVATFPKPFIITDAAINIRPTLEDKRDIVQNAIDLMHIIKEDKQVRVAVLSAVETVTSAIPTTLDAAALSKMADRGQITNAVVDGPLAFDNAISLFAAEAKGISSPVSGNADILVVPDLESGNMLAKQLKYLGQAVMAGIVLGARVPIILTSRADPIDMRVISCVLASFIYNQTKAKLHNSSKSII;locus_tag=LOCUS_4950;note=WP_004597142.1 phosphate acetyltransferase (Rickettsia prowazekii) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-189],MGA_496
sequence1	MetaGeneAnnotator	CDS	637909	641376	.	-	0	ID=MGA_497;product=type IV secretion system protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886214.1;translation=MKKNIFITSLLILLLLLSSCTGDTCIDPDDFGFITFNVSSRYNPGEITSRHEGDQVTPWRDSAYKVNGYPLTIMVRPWNYILGDKNTSGQLSAWCPWYGQKNNTTTLAPFCVKLQPCTFWDNARFDMCTPNPENRNDAMISNPPCIMTDGVGLYFLIAAKNTDPNISPDSQRRPQGITKHLGELTSSVGYEFYSISSTGQFLKAGGINYQYNGEDKSKYAQSPLYFKIIDKFYDDNSGQYRLVIKSGVSDTRPDPLQFLTDLIKKVLFGKDGIIKKTYQQIIDTPGYKISVSAILTLYIMFTVLSFLIGNINLTHVELIIRIFKISIISILLSTDKAWTFFHDYLFVFFIDGVQQILQIINEAAATGPGSQSLLGLLISTQTLSKLFSLLFVDWLGFIYIILYLIALYFIFFLIFKATIIYLTALITIGMIIIMGPIFICFMLFNITRSLFENWLRQLISYALQPIILFAGIAFISMIIRTEIYSTLGFGVCKHDFPNLGPINEIFGSFLEDIDPSLGNSIFYWWFPVPMKGGINNFHKAKILVPNDHIVVDASCKNDHDKCKHCAAYECIDERYIELPFLDLVKDSTRINNFINGKFVQLDGILLIFVSIYLLSKFNDTAVSTAQFIAGTSGNLTDIQKVNQQSYESLSQQINRPLNYVAQAVSAPVTSRISAGTEQASMFFAEKFENMMMERLEKQALSSSANKAVQNEVKRKYGIDSKDVKMNAIKDYEDGISGLLKNLPKRNELKVKELSQMKFIQLRDKISANKYDVQDYAALSKEQKTELDKLLKDANLRALASEANFTKDYQEAYKQAHQEMSGRGIGLFGKNIGVLRSWQEMEHRVNVKRKLKEEKRIGIGEKIYAGYTGIKRAALTKIVGKDLRDAYEGNLTSAEWHDFEYNDPRLRTYSEKLKDDEKAREYEELRMHINKETIAVQADILSPEYLVKLEKAGRQSDVEYYQGLAQKQLIHDVHSRLFEEGEPVMMGDRFMREKATDSQMRDMIDNAHKKYAELIDVDRYTRRQEYYDIIHEKAKENLEQTYKELKDHFKSDNISIEEMPSLIAQKVKDTNTGSEIDKKITEEINNFNTDVKNYEYSTAVLNKIEDRKQAIMNEVNAQIDKINKYRASAKMEQYVKPILNEGRKLRTLEDHLKNMT;locus_tag=LOCUS_4960;note=WP_010886214.1 type IV secretion system protein (Rickettsia prowazekii) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_497
sequence1	MetaGeneAnnotator	CDS	641503	644124	.	-	0	ID=MGA_498;product=type IV secretion system protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886213.1;translation=MPAKAHDAFSWMSTSFSGLKGLFGCLEVPEFTSFQESNIGINLSKAGAWQSTGHTVEKGKLLKINWSIAGVTTEPRKYLVLYRIDPRFSTPQVFIKTYNYSKLQFEALGFPRFVTNSNSSIPGAIPPDKDLDALSFTKMSDSIKYFNYSKNNVKIEVKAGDVVNISLVGKDNFFTSNTLDNILTEELDSSIFAPSALYTQSNLGNFDNRIIYASAKEVCDIIDAARDPDKPSGCSGTGAATKYKSINSNEALVGKPMMIGAIHNFMGLINSCPEHSGINTRPACYYDQGRGMIIKVGGQVIKERDQSFVKSGRNSFIYYQATRDGIMNFTSDWQVSNMFNNSVLMSDWIRRFLNYPSFIDYINQNDWSANFLYFGRYSMIVEIGNGANSISADVQQNISLEYLITYDGTLPDPSIRGTPVDYNFAADAPKDGYLWLRVVNPNSNIQGVVSVNYANYTGTTWFSDIVYNGAIKPITDQFRTFSKNFYIKLIKNSAVQNIVKAALTLYVIIFGLMFVAGALKLTAIEVITRICKIAIVAFLIREESWNFFNTYFFSVFTDGIDFFITNVVGATSSRSNIFGFIDPIFDKYTNGRIWGLLFIELLQIHNGLAFIAIITIYSLITYFRAILEVIIGYVIAFIGITVMISLAPFFIILMLFEKTKSLFDNWISTLLSYVVQPTILLIFFLLIDQVLSEQLLKVVVRACWDTLIPIKIGLDLTNLGIPINFSFTLPFLPGIPFYVPDVPEISRSNIFTNNANTFLVLFTTSLLFYSYCLMSYGLVTFVNIVVGMLTNVTPARISGNYQARSDPVGAVMQDIGSVTTPMKNASMVPARVFKDKIIDQNYKARKSEGGVEFTNKFFSERNDITKKEEGARE;locus_tag=LOCUS_4970;note=WP_010886213.1 type IV secretion system protein (Rickettsia prowazekii) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:98.3%25%2C Eval:0.0e+00],MGA_498
sequence1	MetaGeneAnnotator	CDS	644331	647246	.	-	0	ID=MGA_499;product=type IV secretion system protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886212.1;translation=MQSNLLKVLGVLAIVATLVCFIFAALGMIGAVRVGNGCYMRYSKDGNGSTDSITSTITLNANANYVNISKMLPDGTTKLIPDPNRYGEWLNTQVLVEKNQSVNLQVLGQVSLCLAYLPKNNLQFTERTRPGKSNLDDSGQMIPIPRVQDANSPPISLIMDAKNNEWRNIAELYANDKVLVSVSPNFANTDATVDDVFKGVKVTKDCTQGKTSYYPICGKYSIYSGKYVTACELKQNYWKGNVHREECYCVFGCIYKEDSDPWVCDMANAASHCCTSLVCDSLPAWINHYSNMPEAYKDDGSFTFSWSDKSKNLLIEYEDLQCSNNVNIPPNGQCPDIVNNRSPKDKNYIGGVSCTSGICKDGDFQKNRKFWYTADGKGGKGPTGLIYQMNDIGSVSQALPSKLEFAKFVPETEQPPEYKDKNGKYLYKVIYNIPFNSNIEKSYLQYRLWSPTSQDASKNTGGYVLNIKQTKCYRENGNSFKDIFDDRGRVQYIIVKSSENPNTSGKTYSPQGINVDSDGKSHFNANESGYIWMKILNDPSNNLKDYKDSEGSYKVHFSTSLKVGSFTIKVMNPLLQLFKTKVQDAATSIFKNMVCYKATDNSSCTNFFTYIKAILILYVMTYGAMFLLGFAKINQKELVIRIAKIGVVSGLINGNTFEFFNNYLFDAITNFSDSIIANMSGYSLFTSTNTISNPFMFLDAIMSKIFFSQTFIAQLLSLLSLGLSGIIYFIITFIAICIVIITTLRAIAVYIMAFMATCILIGIAPLFISFLLFDFTRYLFDNWVRFTIRYMIEPVVMMAGIIVLTQLFTIYLDFVLGYSVCWKCTLPIKIPFIGTILPIALLNVPIFCINWFAPWGMDYMSGMMGVNMQNIVALVIIAYGMYGYVEFSGRMVAKLTSAAGPSATQIGGRMSHDAGQKVLSQIGMDYRTRQGITGRAKSRLEQRNRTLEHAEQNSKKYKKRIGENTNEETLK;locus_tag=LOCUS_4980;note=WP_010886212.1 type IV secretion system protein (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_499
sequence1	MetaGeneAnnotator	CDS	647253	649271	.	-	0	ID=MGA_500;product=type IV secretion system protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886211.1;translation=MKTLKVLKIFIIVYISSVSLESFAGFGESCSNLPITSDGYLETYTAYGYIIRSIDMKDPRGNCNPSTSSITFCFKNVEGSASPCTIYTLNEGDTRKISDLSTDNNPDLGANTVLKNIVLTVKKFGNDLCLAMPTSRGPMPVACKSLSVTPTATKPKDENCNIGKSCYTGANYSQSLINFSGLAVQCLSETLNKIFFTGSSCSAQDQNSRITHLASFATFQGYLKRIVGAALILYTMFFAFNMALNKEYATTEKITLFIIKFLFVVYFSIGLGPLDFSGGQPVKENGMLKYGLPLLTGAAPDFAGMIFNAAGSRGLCQFDNTKYKDGYKFYGLWDAIDCRIGYYLGLDLLYNIDKNGILGRPVSNGTSGNNKPIPNFDPDGKKDRPHDLSKAGALRFFTVMFGFFMSGHVIILVAGMVFSVIFLSILLYFITHYLVCMVTIYVMTYISPIFIPMVLFTRTKAYFDGWLKVCISCALQPAVVAGFIALLITMYDSAIFKNCEFLRYDYEKGDIRFSTFELRLPSIDADKCQESFGYKMLKYYAGEGWEEHLLILFPIKSIVRDVVSILAELLCVLIFSVIFYYFSKSIGRFAADLTNGPNMDAVTASPTKIVDLVKKGAAFLKDASVHAHGKSSLGDKPDIGNKRKDGAQQGEDAVNSSGGEVADLASGSGGGK;locus_tag=LOCUS_4990;note=WP_010886211.1 type IV secretion system protein (Rickettsia prowazekii) [pid:99.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_500
sequence1	MetaGeneAnnotator	CDS	649258	652632	.	-	0	ID=MGA_501;product=type IV secretion system protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886210.1;translation=MALFPRSILIALVLSFVLNLGLVTKIHAKDTLDSIIDILSGLTCETQGVGDLMRTEFSHTCIVAPFFTFAVMNLVSPVLYMNTFLKLKINDSDLFNDSDFGNFPGGQCTRANRIDPKNPELRFALCNNAKLIVSRAKSVAESALAIAKAVLTWSDPWDDIKQAWENKKKEYHIPYRGKPGDDGFAFDVGFPVIYWKVIQDRDRICVSTKGFTGDVPVGCKYMKEPFPKSIYNSFIDVEDKNFIKDPTNDTPSDPLALVSCSAAGEGCYQKAYNASKTAVVMTSPLIECIKQMIARLLISKDVCSFDNVDQVVNLSSRQDSALFQFQVGMYKIVTAFLTLYVMFFGFKLLLAGKVPPKSEYINFILKIIFVTYFSIGININPANGSQYDRLDGMIQWAFPFLLNGINGLASWVMNAAPSGLCKFNNIHYDGSVSYIALWDALDCRVAHYLGLDILSTLLVENTYRSHDFLNFDFFSFSAPPYIYLLIPAIISGNMMLVSLALSYPLLVISVAAFMVNATIMCMISIVILGILAPLFVPMFLFAYTRNYFDSWVKLMISFLLQPMVVVTFMITMFAVYDYGFYGKCQYKSKLIHNSIEDKIQGGLKSKRDVLIFYINNDWDDTSQYPDKDSVESCKNSLGYMLNNPINMAFNFAKDNISEIVNSKPGETTTDEFLSKFQFLSGVVLGPGMFFMSPKVLFEKIKNILLALVTACFTLYLMYNFSSQLAEFAADMTEGVALNNVAIKPQAIFKAAMAALSTAGTATKGIDQMASRGGGARDLGGAKGFVSDNTASSGSAVGDNIAVSRGASTPTVTTTTDSSSITNSITKTVSSDVRSDIVTPHSPTTAFSQHSSISSTIPTSVHNIKPTSIKEIVSNNRESKKEINNTMRSQEKIKSASKALGLIDYSFNLKEHDNPIGVKQIRENAEIRDKRVEVEKAWNELVASGRGRIRDQQSEATSERRTNAEKKWKELVDSGVVTEIRERDNSVTNQFDKLADELDKSKKSKVEENKNITKDIKVDNTNTLPQEKVDNTNRRSGLIDYSFNLKEHDNPIGVKQIRENAEIRDKRVKVEKAWNELVASGGGRVQEQAGVKITERRANAEKVWDELVKSGVVTEKRDNSSNENS;locus_tag=LOCUS_5000;note=WP_010886210.1 type IV secretion system protein (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_501
sequence1	MetaGeneAnnotator	CDS	652750	655167	.	-	0	ID=MGA_502;product=VirB4 family type IV secretion/conjugal transfer ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599743.1;translation=MKLFRTRAAKELRSKQERPTSHFIPYKCHWDSNTILTKDNSLLQVIKINGFSFETADDEDLDIKKNIRNALLKNMASGNIVMYFHTIRRRKAVIFDDTEFTYDPTVKVPNDFITYLGAEWRKKHAGARSFFNELYISILYKPDTGGAAIVEYFLKKLRQKSNKTAWENDMKEMKENLQEMSTRVVNTFRSYGAKLLGVRQTQSGIYCEILEFLSSLINCGDSPGPIALPRGTIDEYLPTHRLFFDSRTIEVRSPLGKKYAGIISILEYGPNTSAGIFDGFLQMPFEFVMTQSFVFANRTVAIGKMKLQQNRMIQSGDKATSQIAEINTALDMATSGDIGFGDHHLSLLCSAKNIKALEDILSMAAVELSNSGIQPVREKVNMEPSYWGQLPGNMDYIVRKSTINTLNMASFASQHNYPLGKIRDNHWGEYVTVLDTTSGTPFYFNFHVRDVGHTLIIGPTGAGKTVLMNFLCAEAQKFKPRMFFFDKDRGAEIFIRALNGVYTVIDPGLKCNFNPLHLEDTSENRTFILEWLRVLVTSNGESLTAQDNKILSQAVNGNFRLEKKDRRLSNVIAFLGIDTPNSLASRIAMWVGKGSHAKIFDNEIDDIDLQRARVFGFDMTELLKDPVSLAPVLLYIFHRINISLDGQKTMIVLDEAWALIDNPVFAPKIKDWLKVLRKLNTFVIFATQSVEDAAKSSISDTLIQQTATQIFLPNLKATDIYRSAFMLSQREYILIKTTDPTTRYFLIKQGIDAVVAKVNLEGMNNIISVLSGRVETVMLLDQIRDKYGNDPDKWLPIFYEAVKTL;locus_tag=LOCUS_5010;note=WP_004599743.1 VirB4 family type IV secretion/conjugal transfer ATPase (Rickettsia prowazekii) [pid:99.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_502
sequence1	MetaGeneAnnotator	CDS	655226	655411	.	+	0	ID=MGA_503;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLSNGENLDCYYPPVATIMGCVAYTLSYDTVITLRYDIKNSNLYIIRIGSVVKFIRTLASS;locus_tag=LOCUS_5020;note=MGA_503
sequence1	MetaGeneAnnotator	CDS	655352	655639	.	-	0	ID=MGA_504;product=type IV secretion system protein VirB3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599742.1;translation=MSGTLASDLLFVGLTRPTMIFGVSIKFAALNMIMTMIVFIWNNGIMILFIAGALHLVAYIICFKEPRFIELYLNKMSRTSQCPNKFYYGANSYNI;locus_tag=LOCUS_5030;note=WP_004599742.1 type IV secretion system protein VirB3 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-49],MGA_504
sequence1	MetaGeneAnnotator	CDS	656226	656870	.	-	0	ID=MGA_505;product=ribosome biogenesis GTP-binding protein YihA/YsxC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596471.1;translation=MINNGKALNNKKSIDYSKLFRHQAKFVAGAIHINQIPDFSLPEIVFVGKSNVGKSSIINTICNNKSLAKVSNTPGRTRQINFFNIVDKLIIVDLPGYGFANVPISVKEQWEGLITYYLRNSHNLMLVNLLIDSRRGIKENDKKVAELLLANKREFQIIFTKSDKVTDRENLNYEAQNFLATLNYLCNVIYVSSRNKEGMRELKASFAQCIKHQR;locus_tag=LOCUS_5040;gene=yihA;note=WP_004596471.1 ribosome biogenesis GTP-binding protein YihA/YsxC (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-119],MGA_505
sequence1	Aragorn:1.2.38	tRNA	657167	657243	.	-	.	ID=Aragorn_19;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0190;note=Aragorn_19
sequence1	MetaGeneAnnotator	CDS	657363	657599	.	-	0	ID=MGA_506;product=50S ribosomal protein L31;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596473.1;translation=MKNGIHPEYKKLLIKVGSNIFETMSTHPIGEILMDVDFRKHPAWNKDSGNVVNQSNKSVSDFNKRFAGLSFDSKKEAS;locus_tag=LOCUS_5050;gene=rpmE;note=WP_004596473.1 50S ribosomal protein L31 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-40],MGA_506
sequence1	MetaGeneAnnotator	CDS	657596	657889	.	-	0	ID=MGA_507;product=50S ribosomal protein L28;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596475.1;translation=MSRKCELTGVGVLYGNNVSHSQRKTRRRFEPNLRSIKFRSDITDEVYRLSVNARCIRSVEKAGGFDAYILKANDDILSSAARAIKQKIIHIKAAKSL;locus_tag=LOCUS_5060;gene=rpmB;note=WP_004596475.1 50S ribosomal protein L28 (Rickettsia prowazekii) [pid:93.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-45],MGA_507
sequence1	MetaGeneAnnotator	CDS	659572	659823	.	-	0	ID=MGA_508;product=DUF5510 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596477.1;translation=MFKHVLLSIIIFLGINQNVYSINSNSYKTDDIIKIVIILGIVILIFSPAKFRIIVIGTILGLACAYFTYKYIIPIFIASLNAA;locus_tag=LOCUS_5070;note=WP_004596477.1 DUF5510 family protein (Rickettsia prowazekii) [pid:92.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-36],MGA_508
sequence1	MetaGeneAnnotator	CDS	659825	660583	.	-	0	ID=MGA_509;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599741.1;translation=MSTKEEFKIKIRSLYKSFAHHKVLDGIDLDVKKGSSLVILGGSGSGKSVLIKSIVGLIKPDKGQIFIDNLEIQDISNTHKFEIMKGVGFLFQGGALFDSLNVRDNITFNTKKLSKKEKNDLAGAKLNSVGLSTRILDLYPSELSGGMQKRVALARAICSTPSILFLDEPTTGLDPIMANVINELIIKIQEELCATTITITHDMISTEKIAKEIAMIYHGKIQWYGSKEEMRNSDNPYLTQFINGLTTGPIEV;locus_tag=LOCUS_5080;note=WP_004599741.1 ABC transporter ATP-binding protein (Rickettsia prowazekii) [pid:96.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-133],MGA_509
sequence1	MetaGeneAnnotator	CDS	660586	661365	.	-	0	ID=MGA_510;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596488.1;translation=MLLKIAHLVGKHTIKFAQSVGIFSLFSFIAISSIIKPPLYLSLIIRQLLFIGFHSLPVVAMTTFFSGAVLALQSYTGFSRFSAENSIATVVVLSLTRELGPVLAGLIVAGRVGASIAAEIATMRVTEQVDALYTLSTDPIKYLVCPRVIAAIITMPCLVLIGDIIGVMGGYLVGIYKLDFNSTAYLTSTFQYLEPIDVISGLIKATVFGFIISIISCYSGYYSGKGAKGVGRATTSAVVNSSILILISNYLITELFFKV;locus_tag=LOCUS_5090;note=WP_004596488.1 ABC transporter permease (Rickettsia prowazekii) [pid:91.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-125],MGA_510
sequence1	MetaGeneAnnotator	CDS	661517	662731	.	-	0	ID=MGA_511;product=alanine racemase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599740.1;translation=MSLCTLEINLSAIKNNYRLLQDICKTALVGAVVKANGYGLGAMQIAKALIKENCQYFFVATSEEGINLRKVLNNDITILVLNGVFTHDALELIQYNLTPVLNNLSQIEIWQKFSNLKGKILPCYLHFNTGLNRFGLNSDEIEQLINDRDLLKGLDLQYIISHLAASEETGNPYNLIQLNRFKVYLEYFPNVKASFANSGGIFLGQDYHFDLARPGAALYGLNSLIEVSSNLSYTEEFESNTAALTTTACINKCPDVSVRLTPKLPLKGSYTVRLQNPVTLKAPIIDLQNLTLDSHIGYNMTFTTKRDSVIATLPLGYADGFSRNFSSQGEVFINSCRVPIVGRVSMDLINIDVTDLPPSEVFLGQEAEIIGNYCTPDKIASIIGTIGYEVLTSLGSRYKRKYIS;locus_tag=LOCUS_5100;EC_number=5.1.1.1;note=WP_004599740.1 alanine racemase (Rickettsia prowazekii) [pid:99.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.6e-231],MGA_511
sequence1	MetaGeneAnnotator	CDS	663514	664113	.	-	0	ID=MGA_512;product=phospholipid-binding protein MlaC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596492.1;translation=MQKIITGLFLLAITFSSYSTEKVPSGLHDYVTNLVKDASSILNDSKLSERVKISKARELMSQNLDFEWMAKYTLGRNGIKTLSGLQIQEFIKVYSKYVTKSYTDLIKDYKGEHPKIVGVRPLSSTDFLVAMNIISNKEQDPIKVEYLVREMKGNGKDFFKISDIITEGISLIGAQQDEFTETLKNQGFEVLIQKLENHS;locus_tag=LOCUS_5110;note=WP_004596492.1 phospholipid-binding protein MlaC (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.5e-108],MGA_512
sequence1	MetaGeneAnnotator	CDS	664133	664888	.	-	0	ID=MGA_513;product=VacJ family lipoprotein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599738.1;translation=MKILIILSIILCSLFGRADLEYVDNDIYTYNGGRNENGCLEVYDPYEKFNRKVFAFNSVLDYIIFRPLAVGYKNITNDYIKARVNSFISNVYTPLTVVNYGLQLNYDKTMKSVWRFLINTTLGIGGLFDVASKVGLQSDRQTFGSTLAHYGVAPGPYLVLPIIGSTNARDMTDSVITNYAINPLMYYTHNDFDLWILAVSKITDRYIVLPFSDYVMKNSTDPYVAIRSALHRAREASVQYPENFKCPKPKN;locus_tag=LOCUS_5120;note=WP_004599738.1 VacJ family lipoprotein (Rickettsia prowazekii) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-143],MGA_513
sequence1	MetaGeneAnnotator	CDS	664893	665897	.	-	0	ID=MGA_514;product=methyltransferase domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596508.1;translation=MLGKIKYIIKHYYLTIINIPHFIKNQILEFRNYINDCKYKFSHLAETNYQLGFDHLYKGNLNDALLRFKLVNKFFNSNDSKVYYQLGLIYYLKNNYRQATVYLEKSNEKYKTIFINFLKNYQFITEIPQEIWAQYRDLIAQYYPTIFNNEKNIHLPYRFVNETLKHISDLSDNYSILELGSNIGLVGYEVQKRFPESFTLTGVEISSFMNEIQATFYQNTKIYNHIYNIAIDEFLKQNSNKFDIILSFCGLSFTNNLIKYFNLIYSCIKKQGYFALCLPNSVKTQFSAKRKEFIFNLNEVNNFLQKNNFTILTSDEIILAENNKYSIIVCKKIT;locus_tag=LOCUS_5130;note=WP_004596508.1 methyltransferase domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.9e-196],MGA_514
sequence1	MetaGeneAnnotator	CDS	666072	667310	.	+	0	ID=MGA_515;product=pyridoxal phosphate-dependent aminotransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411730.1;translation=MNNIKNLLIRAQIMSIISTRLNSIKPSPTLAVVKKTLELKKAGVNIIALGAGEPDFDTPDNIKEVAITSIKDGFTKYTNVDGIPLLKQAIKNKFKRENNIDYELDEIIVSTGGKQVIYNLFMASLDKGDEVIIPVPYWVSYPDMVALSTGTPVFVNCGIENNFKLSVEALEHSITDKTKWLIINSPSNPTGAGYNCKELENIAKTLRKYPNVNIMSDDIYEHITFDDFKFYTLAQIAPDLKERIFTVNGVSKAYSMTGWRIGYGAGSKALIKAMTIIQSQSTSNPCSISQMAAIEALNGTQDYIKSNALNFQKKRDLALSILEEVTYFECYKPEGAFYLFVKCDKIFGTKTKSGRIIANSNNFSEYLLEEAKVAVVPGIAFGLDGYFRISYATSMQELEEACIRIKHACNAL;locus_tag=LOCUS_5140;note=WP_014411730.1 pyridoxal phosphate-dependent aminotransferase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:96.8%25%2C s_cov:100.0%25%2C Eval:8.5e-230],MGA_515
sequence1	MetaGeneAnnotator	CDS	667435	668091	.	+	0	ID=MGA_516;product=lysophospholipid acyltransferase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596512.1;translation=MRKALKKFLKNSKCLLSIITILLYWYLRFVYFTSRQKFIFYDNRNKEKFLNEQGVIFAFWHNMLALSPAMFTGHRNVYALISPHLDGKILNALVGKFGCQVIVGSTNKNSIVALRNIIGKLSQGANIIVTPDGPKGPVYKVNSGITEIAYRYNKKLIPIVSSTSRCFRLKSWDKLIIPIPFGTIKIIVGSPLALVADKVKNHLNLEKQLKSLTESLKK;locus_tag=LOCUS_5150;note=WP_004596512.1 lysophospholipid acyltransferase family protein (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-121],MGA_516
sequence1	MetaGeneAnnotator	CDS	668088	669473	.	+	0	ID=MGA_517;product=lipid IV(A) 3-deoxy-D-manno-octulosonic acid transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599735.1;translation=MMLLYYTLSFILLPVYFIIIFIRLLIGKEDIRRIQERFAIGKQRQNSALDFIQMSVNKEGFTDHKTTSYVDMHRNASLMYKLSLERSYAHSLVWIHAASVGEVMTALTLIHNISKLAPNVRFLITSWTNASAKILSTKLPKIATHQFLPIDNVIFTRKFLRNWQPDLGIFIESELWPCTINEGAKYCKLLLINARISNKSFKAWLKRKRFFQLIIKNFSKIIVQSERDLQKFNALGISDAMNLGNIKFANEKLLVNQEKLSKLILHLDNRRVLVFASTHPEDEEVILPIINNLKEQFIDCYIILIPRHPERIKSIINNCKLHHLSATAKSQNDLPVLNNDLYIVDRFGEMGLFFSVATISFIGGSFKQGGHNILEAAYFSNCIIFGPDMSKNTDIAKGILQNNAAIQIKNGKDLLNTLTSLLNANNALKLKTYRENALKFVENNQKKILDEYLQIIKQFLP;locus_tag=LOCUS_5160;gene=waaA;EC_number=2.4.99.12;note=WP_004599735.1 lipid IV(A) 3-deoxy-D-manno-octulosonic acid transferase (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-259],MGA_517
sequence1	MetaGeneAnnotator	CDS	670666	671595	.	-	0	ID=MGA_518;product=translation elongation factor Ts;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599734.1;translation=MSEINISAVVVKELREKTGAGMMDCKKALIETSGNFEEAIDFLRKKGLAAAVKKSGRIASEGLTAVKVDGLISAVIEVNSETDFVARNKQFQDLVKDIVNLAIIAQNIDTLKISKMQSGKSVEEEIIDNIAIIGENLTLRRMDILEISNGAIGSYVHNEVVPHLGKISVLVGLESNAKDKVKLEALAKQIAVHVAGNNPQSIDTLSLDKSLIEREKKVFFEKSKEEGKPNHIIEKMVEGRIRKFFSEVVLLHQNFLFEPKLTVAEVIKNAEQELSAEIKITKFIRYALGEGIEHAEKNFADEVAAITQC;locus_tag=LOCUS_5170;gene=tsf;note=WP_004599734.1 translation elongation factor Ts (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-163],MGA_518
sequence1	MetaGeneAnnotator	CDS	671750	672640	.	-	0	ID=MGA_519;product=30S ribosomal protein S2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596525.1;translation=MSKISPINIKELLDAGVHFGHKTSRWNPKMASYIYGERDDVHIIDLRQSAALMSVALNAIYETVKKDGKILFVSTKIQASDIIAEYAEKCGQYYVNNRWLGGMLTNWKTIACSIEKLEKLEKTLESEEARICYTKKEILDMSRKKDKLLLSLAGIRNLNSKPDLLVVIDTNKEHIAINEAVKLNIPVVAVVDTNSNPDNVDYPIPGNDDSIRSIRLYCSLFADAALQGLEESMKVSGVDIGTMQDHTDKALTSSKTVSKLKQSKKLSKTQNIDEETNTEFDQALGGACENNNSDNT;locus_tag=LOCUS_5180;gene=rpsB;note=WP_004596525.1 30S ribosomal protein S2 (Rickettsia prowazekii) [pid:95.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-158],MGA_519
sequence1	MetaGeneAnnotator	CDS	673048	674421	.	-	0	ID=MGA_520;product=cysteine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599732.1;translation=MKLHLYNTLTRTKEVFNPQDPANIKMYVCGPTVYDNPHIGNSRSVVVYDLLYRIIIKIFGKKAVKYVRNITDVDDKIIDRAELLGITINDLTDKVTREFHINMEYLGCMLPTIEPKATEHIDVMIEIIERLIAKDHAYIADNHVYFDVLSAPNYTELSNRNLEAMFEGVRIENSKTKKNPQDFVLWKPAKKNEPENINFTSPWGLGRPGWHIECSAMSYKYLGQNFDIHGGGADLIFPHHTNEIAQSRCAFPSSTYAKYWIHNGFLTVNGSKMSKSLGNFITVRDLMDKQIQGEVVRLFLLSSHYRRPLDYNDKAIDDAKKTLDYWYRAIEHINVQKVDLPSNFMRSLFDDMNTPLAIKIINDYAKCVFISKTEAERKFNASAIITCANFIGLMRKTQYEWFNRDVDEFYINELINKRLKAKKQKNWLLADKIRNQLLEKKIILEDKSNYITIWRKE;locus_tag=LOCUS_5190;gene=cysS;EC_number=6.1.1.16;note=WP_004599732.1 cysteine--tRNA ligase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-273],MGA_520
sequence1	MetaGeneAnnotator	CDS	675789	676415	.	+	0	ID=MGA_521;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILDVLTNNTRIRKALITKIEREQRQEHNQKLNKNIAGDTFVDALKKALVHRTSNPETIQKSLERRKKETPKNLNVWDRISQNIPNLNNQNDNQNGQDENNKEWEESNQNADYLNNTNIYRITKAKQDLEKAVKETINKFSAMSTLIKDNTIKNTMAYQKYLKGAEDQLALAKEKGKELIENSVQTFKIIPKKYQDDMNENWQNYLSP;locus_tag=LOCUS_5200;note=WP_011190526.1 autotransporter domain-containing protein (Rickettsia typhi) [pid:77.9%25%2C q_cov:100.0%25%2C s_cov:13.5%25%2C Eval:3.8e-84%2C partial hit],internal stop codon at [676413:676415](+),MGA_521
sequence1	MetaGeneAnnotator	CDS	676557	676892	.	+	0	ID=MGA_522;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKKIGIEKQQKKLVKDYVDEMITNAKQAVKKIERTLEKVNQKKENKYEFSESSALISKEILDAQARLENAKQKIEFIKLKQIISDKRQVNSSDEDSDDDSKKKCNQTKSRT;locus_tag=LOCUS_5210;note=WP_011190526.1 autotransporter domain-containing protein (Rickettsia typhi) [pid:69.1%25%2C q_cov:98.2%25%2C s_cov:6.9%25%2C Eval:8.3e-32%2C partial hit],internal stop codon at [676413:676415](+),frameshifted%2C insertion/deletion at around 676856%2C676889,MGA_522
sequence1	MetaGeneAnnotator	CDS	676849	677265	.	+	0	ID=MGA_523;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886207.1;translation=MILKKNAIKLKVELENAQKDINQAKKNLENAEAKNEALQRQIILNHNQNEVNSHTTKNQEKFKTDNVTEEYLEDMALMFKNSEDTAEQKEEVNCQHHEEQNRQKQEHINTEEEAVHKEKIIHITEETETEAFKKEIDL;locus_tag=LOCUS_5220;note=WP_010886207.1 hypothetical protein (Rickettsia prowazekii) [pid:94.2%25%2C q_cov:100.0%25%2C s_cov:96.5%25%2C Eval:2.9e-69],MGA_523
sequence1	MetaGeneAnnotator	CDS	677278	678303	.	+	0	ID=MGA_524;product=autotransporter outer membrane beta-barrel domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886206.1;translation=MDVSFKTETITEQDEATQRQQVSDDTSRKVAILVKATSTLHKPVHHNILSDRLKVTVIGAGDEKTNVNRGIWISGLYGVNKQGVWKNIPKYQGRTTGLTIGADAEFINNHDVIGIAYSNLESKIKYNKKLGKTAVHGHLLSVYGLKELVKGFSLQAITSYGHNYIKNKSKNLNKIIGKYQNNNFQTLLNYKYRTKYNLHFIPSIGFKYDYSRASNYKEYNVDIENLMIQKKSNQSFESSIGAKIVSKPIISKNNIILTLSAHGNIERHFNNKNTKVNAKATFKKQTLQETIIIPKQPKLGYNIGNNILMSIKNINVLLEYNYYTHKKYHSHQGLVKLKVNL;locus_tag=LOCUS_5230;note=WP_010886206.1 autotransporter outer membrane beta-barrel domain-containing protein (Rickettsia prowazekii) [pid:97.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-189],MGA_524
sequence1	MetaGeneAnnotator	CDS	678911	679150	.	-	0	ID=MGA_525;product=preprotein translocase subunit SecG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886204.1;translation=MQRSGSGGISGISGDNNMGVVSAKTVGNFLSKSTIILTTLFLINAIVLANLSAKKQSDLVSKINEIEENQADNSLPIAK;locus_tag=LOCUS_5240;gene=secG;note=WP_010886204.1 preprotein translocase subunit SecG (Rickettsia prowazekii) [pid:93.7%25%2C q_cov:100.0%25%2C s_cov:79.0%25%2C Eval:4.3e-33],MGA_525
sequence1	Aragorn:1.2.38	tRNA	679233	679307	.	-	.	ID=Aragorn_20;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0200;note=Aragorn_20
sequence1	MetaGeneAnnotator	CDS	679467	680723	.	-	0	ID=MGA_526;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596538.1;translation=MNRSKLVFSSSIANTFEWYDYVLFSYFAPIIGVKFFPNDDVNTSLLHVFSVFAIGYLARPLGGIFFGVIGDRFGRKVALTSALFCMSAPTVLIGILPTYNTIGITATIVMICVRILQGLSMGGALTGSISFVIEHTSHKYRGFICSIAMSSICSGLLFGSIVFYIVKNMLTASQFDNFGWRIPFLIGVFIIFAAFYIKKNTHETPSFTNLRDQQKILHSPLKKVIINHWLDILISIFINAPGSIIFYLATIYLVSFLKISRNFTENEINNLASICYVIMMVVTLLSGYLSDIIGRKKIFLINLIIIIVTMPFLLKNFENGDFTSVIISQFILTILAASYIGPEPALQAEFYPTNIRNTALSISYNTATSIFGGTTPLIFEYLVQQTGHVTFAVFYVILSCIFALFALSFYKDRSLDNI;locus_tag=LOCUS_5250;note=WP_004596538.1 MFS transporter (Rickettsia prowazekii) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.9e-235],MGA_526
sequence1	MetaGeneAnnotator	CDS	680710	681594	.	-	0	ID=MGA_527;product=S-adenosylmethionine uptake transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596540.1;translation=MNDALKTYLNGICWFLLSLVTSSINDVMSKYLGTRLHSFEVAFFRFFFSSIVLLPFVVYYGKNALKTSRPFVHVLRGLLLFFGMTSWTYGLTIAPVTTATVVSFAIPLFTLILAVFILNENIIWQRWVVTVVGFIGLVVMLKPHTKDFNPEILYLILAAISFAMLDIINKKFVVKESMLSMLFYSAIVTAMVSLPVAMQYWITPSSFELALLFVLGSSGSFILFFLLKAFSIVDATATAPYRYLELVISAIAAYFIFNEFPDKSTVHGAVIIIPATLFIIYSEKKSMSSKHESQ;locus_tag=LOCUS_5260;note=WP_004596540.1 S-adenosylmethionine uptake transporter (Rickettsia prowazekii) [pid:97.5%25%2C q_cov:95.6%25%2C s_cov:95.6%25%2C Eval:2.9e-151],MGA_527
sequence1	MetaGeneAnnotator	CDS	681670	682473	.	+	0	ID=MGA_528;product=OmpW family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411635.1;translation=MTYKQKFLYNNTAINFKQVIGYNYMLRIVKKLWVILFISNISINSFAKNIYDNVDDANYDSTQYYENEGSLLFKMRLGGIFASAKQKGLPTHSSIQAVSVGEVAKNGYGGDASTTIFFNNYLAAELSLGFNVLRTKYTSLAAVAHNYGVDNVKLGKHKPIYMIPATLTGQFHIAPYGGIRPYIGIGYHGSYMLTQATGLKIRNGYNIVGQIGVDFYAKDDTLINMDVRQFFLKPKLEYKPNLVGNKKVTSKVKLNPLIVSIGIGFTF;locus_tag=LOCUS_5270;note=WP_014411635.1 OmpW family protein (Rickettsia prowazekii) [pid:97.5%25%2C q_cov:91.0%25%2C s_cov:100.0%25%2C Eval:1.4e-133],MGA_528
sequence1	MetaGeneAnnotator	CDS	682572	683969	.	+	0	ID=MGA_529;product=NAD(P)(+) transhydrogenase (Re/Si-specific) subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886203.1;translation=MSLQIIQLLYLLAAVCFILSLKFLSSQKQARLGSIIGILGMTIAVGITFCLPDFTHKLQIIITILVGGIIGGIIALKISMTAIPQLVACFHSFVGLAAVFVAYATILAPENFSIGISGNLPVNSLIEISIGVSIGALTFSGSIVAFLKLQGLMKSNTFKFYGQQYICLFTAIILVIIVVAFIRSENIFLFNLIVLLSLLSGILLIIPVGSADMPVIVSMLNSYSGFATAGIGFTLSNSLLIITGSLIGSSGAILSYIMCKAMNRSLIKVIFGAFLPPPTGINKDICDDKIAKISTPEEAAHLLLNASSVIIVPGYGMAVAQSQHSIKEMVDILERSDINVRFAIHPVAGRMPGHMNVLLAEANIDYEKVLELEEINRDFAITDVVLVIGANDVTNPSAKNDPNSPIYGMPILDVEKARTILFIKRSMASGYAGIANELFYHNKTFMLFGDAKKVVDEIVKFLNED;locus_tag=LOCUS_5280;note=WP_010886203.1 NAD(P)(+) transhydrogenase (Re/Si-specific) subunit beta (Rickettsia prowazekii) [pid:90.9%25%2C q_cov:99.1%25%2C s_cov:99.1%25%2C Eval:1.7e-229],MGA_529
sequence1	MetaGeneAnnotator	CDS	684026	684586	.	+	0	ID=MGA_530;product=DUF1013 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596551.1;translation=MNSQKILPLLPRATAIWLIENTSLTFKQIADFCGIHEFEIKGMADGEVAQSIKGLNPIANGQLTLEEIERCSKDPNTNLQISYSPADELMQNQKKHRAKYIPIARRQDKPDAIYWLLSNYPNIQDHQIIKLIGTTKTTIDAIRTRSHWNMHSIRPRDPVLLGICSQIDLNKIVETLKLTQNTIKEL;locus_tag=LOCUS_5290;note=WP_004596551.1 DUF1013 domain-containing protein (Rickettsia prowazekii) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.2e-103],MGA_530
sequence1	MetaGeneAnnotator	CDS	684614	685435	.	-	0	ID=MGA_531;product=NADPH-dependent 7-cyano-7-deazaguanine reductase QueF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596554.1;translation=MPLSTSLLGKKNTYKDSYDATLLFKIPRINNRNVLGIDSNHLPFYGVDIWNTYEISCLNKNGKPLVGIGTFYIPADSENIVESKSFKLYLNSFNNFIIESIEELERIILQDLSNVTYAKVTGRIFPINTKIEFGIPSGKNIDNLDIVCNNYGPPDNSLIEYEDVLVEEEIYSNLFKSNCLVTGQPDWGTIVIKYKGKKLKYDSFLRYLISFRNFNEFAEQCAERIFIDIKNSINLDFLSIYIVYTRRGGIDICPYRSTDKSYTLPNDKRLIRQ;locus_tag=LOCUS_5300;gene=queF;EC_number=1.7.1.13;note=WP_004596554.1 NADPH-dependent 7-cyano-7-deazaguanine reductase QueF (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-157],MGA_531
sequence1	MetaGeneAnnotator	CDS	685439	686152	.	-	0	ID=MGA_532;product=response regulator transcription factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596556.1;translation=MRVLLIEDESEMANLIEITLASEGIVCDKASVGVEGLRLGKVGIYDLVILDLMLPDINGFEILLRLRAAKIKTPILILSSLTDTDQKITSFSSGADDYLTKPFVREELIARIKAIVRRSKGHAASIFRFDKISVNLDTRSVEVDGKKLHLTNKEYSILELLILRRGTILTKEMFLNHLYSTVDEPEMKIIDVFICKLRKKLSDAAGGRDYIDTVWGRGYMLKEYDELQQKELLAQGA;locus_tag=LOCUS_5310;note=WP_004596556.1 response regulator transcription factor (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-128],MGA_532
sequence1	MetaGeneAnnotator	CDS	686349	686807	.	-	0	ID=MGA_533;product=protein-export chaperone SecB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596558.1;translation=MSTINTDTSEAMPHISVNAQYIKDLSLENPSAPSSLAALDQRPQIDLSLDINITNLSEENFYEVELNIEAIARNEKYKLFQIELKYAGVFNLINIDSEQHPILLSVHCPAMIFPFARKIIASCTQDAGFQPLMIDPIDFGALYHKKMSEHQN;locus_tag=LOCUS_5320;gene=secB;note=WP_004596558.1 protein-export chaperone SecB (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.9e-83],MGA_533
sequence1	MetaGeneAnnotator	CDS	687004	687570	.	-	0	ID=MGA_534;product=dCTP deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596559.1;translation=MAIMSDKWIKDAVMNQNMIRPFAAKQVRVHNKEKIISYGLSSYGYDARVSNEFKIFTNINSTTVDPKNFSEYNLVDREVDACIIPPNSFALGRTIEYFKIPRDVLVICVGKSTYARCGIIVNVTPLEPEWEGHVTLEFSNTTPLPAKIYANEGACQFLFLKSDQICDTSYAERQGKYMKQVGVTLPLT;locus_tag=LOCUS_5330;gene=dcd;EC_number=3.5.4.13;note=WP_004596559.1 dCTP deaminase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.8e-107],MGA_534
sequence1	MetaGeneAnnotator	CDS	687837	689159	.	+	0	ID=MGA_535;product=porin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599726.1;translation=MKKLLLAASIVYFASACLAEEKTTPFLSNSDTKIKLEGFYLFESGYIKQNHLILFDKNVTDNRKKLGFYTEVAFAATITKTINDVIAGAKIVLQPTTKAKTAASYNGSHIFIETSYGKVELGSPVDASAKLRVTGNKVTAGTGGWYRYALLDGQYMRYNGLKPDFDTNVNFYLESYSNSFDQINEKTEKARRLNFFTPKMKGFQAGISYTPDTANTGGNKNINNLTLQSSGRNGISVSRTGIKTFALGNGETMTINQNIRDAFSAGLTYEHAISEDADLKLSMTGEYGKPARRLIHSKVDGTTKTIEVLNTYKLSNLKAYNLGAVFTYGNFSCGASYSNLGKSLTSKEYYKVGRNTYYYNGAVAYGQGPIKTSLAYLKASRYKNTVNAVSLATEYKIMPGLLPYAEISHFQAKGKPVYYPEAPSKTTRGTVGLIGTKLKF;locus_tag=LOCUS_5340;note=WP_004599726.1 porin (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-254],MGA_535
sequence1	MetaGeneAnnotator	CDS	689501	691717	.	-	0	ID=MGA_536;product=DNA topoisomerase IV subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599725.1;translation=MKEAKIENIDFGNALSERYLAYALSTIMSRSLPDVRDGLKPVHRRLLYAMLQLRLEPNSGYKKCARVVGDVIGKYHPHGDVAVYDTLVRLAQHFSLRYPLIDGQGNFGSIDGDNAAAMRYTESRMTEICMLLMEDIDKDTVDFRSTYDDSDLEPVIMPASFPNLLANGSEGIAVGMATNIPPHNLHELCDALLYLIDNPQAGINDIMNFIKGPDFPTGGIIIDKAEVINAAYTTGRGSFRVRSRWEKEELSYGTYQIVVTEIPYQIQKSKLIEQIAILLKDKKIPLISSIRDESTDIIRVVIEPRDRSCDPQIVMESLFKLTNLESRIQLNMNVIGSNNVPRVMNILEILQEFLVHRKNIIIRRSTYLLNKIKQRLEILKVLRIVYLNLDEIIEIIREEDEPKTIIMERFKISAIQVEVILNTRLRSLQKLEEHAIIDEHSNLQKQQAILEKILKNHKELWQIVKKEIKAVQTKFGLNTIIGARRTSFEEVDLTNQVVDITAFITKEPITIICSKMGWVRSLKGHNTDLSTIKYKEGDTEKFIIEAYTTDKILIISSKGRFFTLLADNISKGKGTGGVSIKLLVDIGNNDITNILVYKPNQLLLLASSIGKGFLVNSNEVIAQTKTGKQIMNIPEGYSCIACLPVNGDSIACIGESRRLLVFNIDEIPEMKKGQGVVLQRFKNAKLLDIKIFNKQDGLSWNDGTKIQLEKNIVAFLGKRGGFGTFPPIGFPKNNRFSP;locus_tag=LOCUS_5350;gene=parC;EC_number=5.6.2.2;note=WP_004599725.1 DNA topoisomerase IV subunit A (Rickettsia prowazekii) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_536
sequence1	MetaGeneAnnotator	CDS	691840	692508	.	-	0	ID=MGA_537;product=SPOR domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599724.1;translation=MTNNSKICLVSLICISGIYFGYQYYQNSKPVITIYPDNLPPKIRPSIIENNQVASVYSNIYENLITQDTNIQTVKLLPDPEQPMIIDSRNQSQNDKIFDRMSTLIPLIESNNNAKNATDLNIIKLEKVIKDKVSNAQNCRSNAGYKVQLGSVKSEAEAMAEGAKIKKKFPKILKNVVITTKKVKYDDGKFFYLILAGEYSSLSQAQAVCKKLAYNKQSCVLK;locus_tag=LOCUS_5360;note=WP_004599724.1 SPOR domain-containing protein (Rickettsia prowazekii) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-121],MGA_537
sequence1	MetaGeneAnnotator	CDS	692571	694301	.	-	0	ID=MGA_538;product=arginine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599723.1;translation=MNIFNQLKQDIIAASQKLYNNKEIANTATIETPKDSFNGDLSSNIAMIIASKESIAPREVALKFKEVLVTLPYIASIEIAGPGFINFTIKAESWQAAIKDILQHEEKFFEIDIDKNSNINIEYVSANPTGPMHIGHARGAVYGDVLARILQKVGYSVTKEYYVNDAGSQINDLVSTVLLRYKEALGEPITIPVGLYPGEYLIPLGEILSKEYGNKLLTMNDVERFKIIKSFAVEKMLDLNRKDLADLGIKHDVFFSEQSLYDKGEIEKTVKLLERMGLIYEGTLPAPKGKVHEDWEYRVQKLFKSTNYGDSQDRPIEKADGSWSYFASDLAYAKDKIDRGANHLIYVLGADHSGYVKRIEAIVKALGQEKVKVDVKICQLVNFVENGVPIKMSKRLGSFASVQDVNKEVGKDIIRFMMLTRQNDKPLDFDLVKVKEQSRENPIFYVQYAHVRTKSILSKARELMPEAYNSFKEGKYNLSLLSSEEEIEIIKLLAAWTKTLEASVKYFEPHRIAFYLINLASKFHSMWNFGKENSDYRFIIENNKELTLARLALASVIQKIIASGLEVIGVEPMVTM;locus_tag=LOCUS_5370;gene=argS;EC_number=6.1.1.19;note=WP_004599723.1 arginine--tRNA ligase (Rickettsia prowazekii) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_538
sequence1	MetaGeneAnnotator	CDS	694310	695461	.	-	0	ID=MGA_539;product=deoxyguanosinetriphosphate triphosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596578.1;translation=MLASYASDPLKSRGRLYKEIPTYYRNEFERDRDRIIHTNAFRRLQYKTQVFINHEGDHYRNRLTHSLEVSTVARSVANTLNLSSDLAETIALAHDLGHTPFGHAGERALNECMKEYHGFSHNSQSLKILTLLEKRYAAYNGVNLTWEVLEGIVKHNGPILGAINEYVAEYNKQNDLELSTYASAEAQVASLADDISYISHDLEDSIGAKIIDFDSLAELQYIDNYVFELKAKFKDISPSCLIYEVVRKLIHELITDLLWQTKENLNKEKITNIDEIRNLHYPIVDFTEKTNERINEIKKFLHKRVYESNKMIAISIKCTKIVQGLFKIYMDDINLLPTNWKILIDSNKTYSKARVIADYIAGMTDRFAIQEYNQLCSPNFNNI;locus_tag=LOCUS_5380;note=WP_004596578.1 deoxyguanosinetriphosphate triphosphohydrolase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-222],MGA_539
sequence1	MetaGeneAnnotator	CDS	695711	696043	.	+	0	ID=MGA_540;product=iron-sulfur cluster assembly accessory protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596580.1;translation=MTITITDRAFERIYELIELEKDKNLVLRVSVDSGGCSGLMYNYELVSKDNIEKDDYVFTRHNATIIIDSISQKFMLNCTLDFIEELGSSYFNVSNPQAKAKCGCGNSFSV;locus_tag=LOCUS_5390;note=WP_004596580.1 iron-sulfur cluster assembly accessory protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-58],MGA_540
sequence1	MetaGeneAnnotator	CDS	697583	698410	.	-	0	ID=MGA_541;product=3-deoxy-8-phosphooctulonate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596582.1;translation=MKKVVKLNNIKIGNDLQFVLIAGPCQIEGKDHALFMAEKLMKLTSKLSIPFIYKSSFDKANRTSINGIRGLGIEKGLEILSKVKSEFDCPIITDVHSESQCIETAKVVDILQIPAFLCRQTDLLKAAAKTGKIVKVKKGQFLAPWDMKNVQKKLEVFGAKDILFTERGSCFGYNNLVSDMRSLAIMSELNVPVVFDATHSVQQPGGRGGSSGGERKYVELLAKAAISVGIAGIYMEVHQDPDNAPSDGPCMIKLDNLESILIKLKKYDKITKEIV;locus_tag=LOCUS_5400;gene=kdsA;EC_number=2.5.1.55;note=WP_004596582.1 3-deoxy-8-phosphooctulonate synthase (Rickettsia prowazekii) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.4e-150],MGA_541
sequence1	MetaGeneAnnotator	CDS	698445	698756	.	-	0	ID=MGA_542;product=DUF2672 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596584.1;translation=MSFTQILLILFVWILVTKPHDLFFIIKKLKTIKASFIKSFFIKDIDESLETEQINFYLKRIINLEGYYYGNYDLTTIKEKYYTLIINNAFIENEIVPDLIEKH;locus_tag=LOCUS_5410;note=WP_004596584.1 DUF2672 domain-containing protein (Rickettsia prowazekii) [pid:97.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-51],MGA_542
sequence1	MetaGeneAnnotator	CDS	698759	700426	.	-	0	ID=MGA_543;product=energy-dependent translational throttle protein EttA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599721.1;translation=MSYQYVYEMVGLSKIINGKQILKETNLSFLPKAKIGIIGPNGAGKSTLLKIMAGIDKEFEGKATAKIGIKVGYLPQEPYLDSTKNVFDNIVEGLREKTKLIDEFNDISNKFTDKMTNEEMQQLFEKQAELQEKIDNCNGWNLEREIEIAMLALRCPPKEAEINKISGGEKRRVALCKLLLEKPDMLLLDEPTNHLDAESVSWLEDYLKYYEGTVIVITHDRYFLDNVTEWILEIDRGNCIPWKSNYSSWLEQKQKKLALESKEDDDRKKQLSRELEWIRQTPKARQSKNKARITAYQELLNKQQEYKIDPTQIIIPNGPRLGDLVIEAEHIAKKFNNKILLSDFSFKVPRGAIVGIIGPNGAGKSTLFNIITGKVMPDSGSIKIGPTVKLGYVDQSRDHLDDNKTIWEEISEGLDELQLGNRIIKSRAYCAAFNFRGGDQQKKVGQLSGGERNRVHLAKLLKEGANVILLDEPSNDLDIDTLRALEDAILDFAGCVLVISHDRWFLDRIATHIISYDQENNATWFEGNYQDYHEYMLSTNGENIFTPKYKHKKLI;locus_tag=LOCUS_5420;gene=ettA;note=WP_004599721.1 energy-dependent translational throttle protein EttA (Rickettsia prowazekii) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_543
sequence1	MetaGeneAnnotator	CDS	700598	701458	.	-	0	ID=MGA_544;product=ParB/RepB/Spo0J family partition protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599720.1;translation=MVKNKGLGRGLSSLLGEEVLPIESEIVQIINIDKIKPNENQPRKHFEYNKIKELADSILNNGLLQPIIIDNNFQIIVGERRWRACKLAKVLEIPVIIKNFDTRESMEVALIENIQRTDLTVMEEARGFKYLVENFNYTVEKLAERLGKSRSHIANLLRLNNLPQSIQDKLNENILSMGHARCLINHEYAEEIADHIINHDLNVRQTEALVRQWHKNEYKKSSNNNNKVDKLCVKDNVIDNDLELLVKALSKKFGIKITIDNCRLGGKLMFHYKNLEELDLILSKLN;locus_tag=LOCUS_5430;note=WP_004599720.1 ParB/RepB/Spo0J family partition protein (Rickettsia prowazekii) [pid:96.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-153],MGA_544
sequence1	MetaGeneAnnotator	CDS	701445	702212	.	-	0	ID=MGA_545;product=ParA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596591.1;translation=MKIISIVNQKGGVAKTTTTVNLATAFASVNKKILVIDLDPQGNSSTGFGIIQQQRKNTIYQVLTNLIELKDAIIATNIPNLEIITSNTNLSAAELDLTTLKEREYVLMKLLEEVKILYDYIIIDCPPALNLLTVNALVASDEVLIPMQCDFYSLEGLSHLLKTIEIVEKKLNPKIKIAGILFTMYDKRNRLTEQVEDDVRKCLGELVFKTVIPRNIKLSEAPSYGKPAILYDYKCAGAVAYIELTKEILERYGEK;locus_tag=LOCUS_5440;note=WP_004596591.1 ParA family protein (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-136],MGA_545
sequence1	MetaGeneAnnotator	CDS	702209	702784	.	-	0	ID=MGA_546;product=16S rRNA (guanine(527)-N(7))-methyltransferase RsmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596593.1;translation=MKVQSEIIEKLEIFQNLIKKWNKSINLISDNTIPNFWQRHILDSLQLMQYISNKEIHLIDIGSGAGFPGIVLSIAGVTKVSLIEADLRKCIFLAKASKISNNSIQIINQRIEKIEIDCSILTCRAFSNLNTIFHYTQNISVREKFLLLKGKSYLTEIVEAKERWSFDYLIHQSITCGSGKILEINNLTKII;locus_tag=LOCUS_5450;gene=rsmG;EC_number=2.1.1.170;note=WP_004596593.1 16S rRNA (guanine(527)-N(7))-methyltransferase RsmG (Rickettsia prowazekii) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.4e-100],MGA_546
sequence1	MetaGeneAnnotator	CDS	702768	704633	.	-	0	ID=MGA_547;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886201.1;translation=MLKYGVIIIGGGHAGVEAAAASARLGVHTLLITLKPENLGEMSCNPAIGGIAKGTLVKEIDALDGLMGFVIDKSGIHYKMLNETRGPAVWGPRAQADRKLYKKVMYQILTNYRNLDILYAKVEDIQIKSSKVEAVILSNGSKIFCQKVVLTTGTFLSGFIHIGSIKMPAGRIYEEPSYGLSNTLKRLGFKIARLKTGTPPRIDGRTIDYSKTALQQGDQIPRPFSELTDVIDVPQINCFITKTTSETHDIIRENLDKSAMYSGQIEGIGPRYCPSIEDKIVKFSTKLEHRIFLEPEGLEDYTIYPNGISTSLPEEVQYKLIKTIPGLENAQVLRPGYAIEYDYVDPREINVTLETKKITGLYFAGQINGTTGYEEAAGQGIIAGINAALSVKDQAPFILTRATSYIGVMIDDLTTFGTVEPYRMFTSRSEYRLSLRADNADLRLTELGIKIGVITEKRKKFFTKKCKNIEKTKLLLNNLSLTTSKLAKMGIQVAQDGKYKTILDLFKIPSFNVEQAIKIFPILKKQNNNILQLLYIEAKYASYLTRQYADINLFQSEELQLIPKNIDYFKIPSISLEIQEKLSYHKPATIGVARRISGITPASITAIIIYLKTKYSDESSK;locus_tag=LOCUS_5460;gene=mnmG;note=WP_010886201.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis enzyme MnmG (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_547
sequence1	MetaGeneAnnotator	CDS	704637	705059	.	-	0	ID=MGA_548;product=nucleoside-diphosphate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886200.1;translation=MTIQYTFSMIKPDVIKRNKIGQVNTYLENAGLKIVAQKMKFLTKYEAECFYDEHRARPFFNSLVEYITSGAVVLQVLKGEDAITLNRTIMGATNPAEAKEGTIRKDLGESIEANSIHGSDSENSAKREIKFFFSKSEIIE;locus_tag=LOCUS_5470;gene=ndk;EC_number=2.7.4.6;note=WP_010886200.1 nucleoside-diphosphate kinase (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-73],MGA_548
sequence1	MetaGeneAnnotator	CDS	705222	706511	.	-	0	ID=MGA_549;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596611.1;translation=MTNIESKIKMPRSPYVKKYNSWRIRILYSIVIGYATFYFCRQNFNIATPAIREYFGVTKTQIGWILTAASIMYGVSKACNGFISDKVNARIFMVLGLLFVGIITILIGFSDFLWLIGILWIASNWFQSMGWPPATKMLTHWFAAKELGTKWAIGATSNQIGGALAMISCGYLIDKFDWRAAFFVPGLVACVASLFLYNRLRNSPKEVGLSTVEEYKEYPPEAIGNYERLLTKQLLKMVFCNKLIWYVCLANMFVYIIRSGVIYWAPTFLKDLRNISFVNAGLQIGLYEMIGIPGALIAGILSDKLFQGRRGPIASICMILLTLLLVLFWKVPIQSELLSILILALIGFFVAGPQLLVGIAAADFSTRQAVGTANGLSGLFGYLGAAIAGVGVGWISDNYGWNGVFIFFSISALLGGVLFALTWNHSAEK;locus_tag=LOCUS_5480;note=WP_004596611.1 MFS transporter (Rickettsia prowazekii) [pid:97.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.4e-244],MGA_549
sequence1	MetaGeneAnnotator	CDS	706584	708080	.	-	0	ID=MGA_550;product=ATP/ADP exchange transporter Tlc1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599717.1;translation=MSTSKSENYLSELRKIIWPIEQYENKKFLPLAFMMFCILLNYSTLRSIKDGFVVTDIGTESISFLKTYIVLPSAVIAMIIYVKLCDILKQENVFYVITSFFLGYFALFAFVLYPYPDLVHPDHKTIESLSLAYPNFKWFIKIVGKWSFASFYTIAELWGTMMLSLLFWQFANQITKIAEAKRFYSMFGLLANLALPVTSVVIGYFLHEKTQIVAEHLKFVPLFVIMITSSFLIILTYRWMNKNVLTDPRLYDPALVKEKKTKAKLSFIESLKMIFTSKYVGYIALLIIAYGVSVNLVEGVWKSKVKELYPTKEAYTIYMGQFQFYQGWVAIAFMLIGSNILRKVSWLTAAMITPLMMFITGAAFFSFIFFDSVIAMNLTGILASSPLTLAVMIGMIQNVLSKGVKYSLFDATKNMAYIPLDKDLRVKGQAAVEVIGGRLGKSGGAIIQSTFFILFPVFGFIEATPYFASIFFIIVILWIFAVKGLNKEYQVLVNKNEK;locus_tag=LOCUS_5490;gene=tlc1;note=WP_004599717.1 ATP/ADP exchange transporter Tlc1 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-285],MGA_550
sequence1	MetaGeneAnnotator	CDS	708457	708732	.	+	0	ID=MGA_551;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886199.1;translation=MIIKCSNDELDIVQKIQANIFCKENTKKLLDMRSSNLVPLTRIDFESFDSHLINLSNGIYALGMTHMLCFTKTVSKVNSIINSLVTLEEAA;locus_tag=LOCUS_5500;note=WP_010886199.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-45],MGA_551
sequence1	MetaGeneAnnotator	CDS	709822	710205	.	+	0	ID=MGA_552;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596623.1;translation=MLKKIIFGITISLTTGCFANSTASNLSKKDVAKTNDVNTQKIIDDFSVYAGTIKPEVREEIQKYRVEIVDINKKKRELYNRLSKEAQSFLAEQQKYKQKLSIPKLLIENDPKNNTANSKDNNDKDMK;locus_tag=LOCUS_5510;note=WP_004596623.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-66],MGA_552
sequence1	MetaGeneAnnotator	CDS	710275	710856	.	-	0	ID=MGA_553;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599716.1;translation=MQENFMIYMKYIISCFIIVSSLNLYAAHNNVIADKKVIKVAASKEHLKTLKVASTILISCVDFRLINETSKLMKQLGLEDTFDKVSLPGASLALVNEKYTYWGKTIEDTIEILQALHNIEQIVFLDHRECGAYNILIGNEHLNTKEKEKVAHAEILNKARDIIREKFPQLKVYTFLMGLDGVVEQIYEDITPS;locus_tag=LOCUS_5520;note=WP_004599716.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:97.4%25%2C s_cov:100.0%25%2C Eval:1.6e-102],MGA_553
sequence1	MetaGeneAnnotator	CDS	710866	711411	.	-	0	ID=MGA_554;product=CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596626.1;translation=MRIDKNLPNYLTIARIMVIPVIILLFYINNSLARKLGALLFVLASITDFFDGYIARKYNLVTSFGKMFDPIADKLLVGCVTIMLLKKDNVDEIPCLLILAREFLVSGLREFLALVKVSVPVSRLAKLKTFLQMFALSILILGSKGSGIIYLDIVGEIILWIAAFLTIITGYSYFKACKTYF;locus_tag=LOCUS_5530;gene=pgsA;EC_number=2.7.8.5;note=WP_004596626.1 CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase (Rickettsia prowazekii) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-93],MGA_554
sequence1	MetaGeneAnnotator	CDS	711411	713093	.	-	0	ID=MGA_555;product=membrane protein insertase YidC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596627.1;translation=MNNNIINLIAAVVLSLSIIFGWQYFFVKPEQKKQQQRIAMHKSENLNKQKLKALAEPASDIAVQEASQVQRIKIESESLTGSIALKGLRFDDLILKKYKQDLSQNSPAVRLFSPANTENAYFAEIGLVSNLNSVKLPNSNTVWNSDSEVLSPEKPVNLFWINEDGIKFLVTITVDKNYLFTIEQTIINNSDKELPVQSYGLINRKYISLEKAVNILHQGPIGCIDENLKEYSYDDIKDKKSTKFALSKVDWIGITDKYWLSSLIPDKSSRYSSNFNYALKQGTERYQVDFISPVQVIKPGENLSIKSRIFAGAKKVDLLDEYEKSYDIKLFDRAIDFGWFYIITKPVFYAMNFFYGYVGNFGISILIVTVIIKLLMFTLANKSYRSMKKMKNLQPEIDRIKNLYNNDKARLNQEIMALYKKEKVNPVAGCLPILVQIPVFFSIYKVLYVTIEMRQAPFFGWIKDLSSPDPTTIFNLFGLLPFAPPSFLMIGAWPILMAITMFLHQKMSPELADPIQAQVMKFMPLIFLFMFSSFPVGLLIYWSWNNILSIIQQYYINKFN;locus_tag=LOCUS_5540;gene=yidC;note=WP_004596627.1 membrane protein insertase YidC (Rickettsia prowazekii) [pid:99.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_555
sequence1	MetaGeneAnnotator	CDS	713242	714408	.	-	0	ID=MGA_556;product=mechanosensitive ion channel family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886197.1;translation=MQYLTDLYHTSSTELVLLFVMLASLMPVIFLIKRLIFIPIQNYLTRHHYDDCERILKKYPIFRYLLHTLLALYFLCWSNIFHPISFKTHVLLGIKDTVVILYTSISVTMLLLTLIDAFSDLYHNKIKNITKNAPLSLYFQILKIIVIVIAVIVTISYILNISLSKFLTSLGAAAALLTFVFKDTVLGLLASLQLTTQKIINIGDLVRVGEIEGIVEKITISVVTIRNFDQSISTVPTYSILNSNVTNYRGITESGARRIKRVFNINMATINFCDINLLKELKKSPYISKDLIDKITLDKEEQDLTNIKLFKLYIKEYLKNNPKVYTEGFTFLVRQLEPTITGLPIEIYIFVKEVNLVGYENIQDNISEHLISILPEFKLKIFQNVGVV;locus_tag=LOCUS_5550;note=WP_010886197.1 mechanosensitive ion channel family protein (Rickettsia prowazekii) [pid:96.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.2e-207],MGA_556
sequence1	MetaGeneAnnotator	CDS	714607	715413	.	+	0	ID=MGA_557;product=prolipoprotein diacylglyceryl transferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411631.1;translation=MLNELNNLFMILPNINPIIFSIGPFSISWYSLAYVVGILLGWFYATKIIEKFKPEITKKHIDDFITYAIIAIIVGGRLGYVLLYNPLKYFTNPIEILKTYEGGMSFHGATIGIIMAAYLFCQKYKINFLSLTDIITTVAPIGLFLGRIANFINCELYGRITNSSFGIIFPNSDLQPRHPSQLYEAFFEGLILFCILTYAVFRHDTLKKRGLNSGIYLIFYSLFRIIIEMFREPDIQIGFILDSLTMGQILSAPMLLLGSYLICRSNPK;locus_tag=LOCUS_5560;gene=lgt;EC_number=2.5.1.145;note=WP_014411631.1 prolipoprotein diacylglyceryl transferase (Rickettsia prowazekii) [pid:97.7%25%2C q_cov:96.6%25%2C s_cov:100.0%25%2C Eval:4.3e-143],MGA_557
sequence1	MetaGeneAnnotator	CDS	715392	716468	.	+	0	ID=MGA_558;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599715.1;translation=MSVESKIRQLIYQHGYITCDVLMQEVLSSNPNSYYKQVKSLASEGDFVTAPEISQLFGEIIGLWCIREWQRIGNPKSLSLVELGPGRGLLMRDLLRTAKLVPEFYKALSIKLIEINKNFIAHQKSNLQDINLPIKHLAFIEEIPQKPTIIITNEFFDTMPIKQYIKVKELWYERIFLVQPVDGRIKYDKISINKRLQEYLLRTHIEAKDGAILEESYKSIEIIKFIAEHLKKVRGSCLIIDYGYDIAPYDRTRYQYNPTLQAVRKHKYCPILENLGEADLSAHVDFYSLKTVAKNSKINVIDTISQRDFLIQNGILLRKQTLKDKLNDKQVLIIEKQMERLILPEQMGKLFKVLQIMN;locus_tag=LOCUS_5570;note=WP_004599715.1 class I SAM-dependent methyltransferase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-204],MGA_558
sequence1	MetaGeneAnnotator	CDS	716928	717713	.	-	0	ID=MGA_559;product=succinate dehydrogenase iron-sulfur subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596634.1;translation=MVELRLPSNSVVKKGREHKAQQKMLKPRKVKVYRYDPDLDENPTIDSFEIDLSKTGPMVLDALIKIKNEIDSTLTFRRSCREGICGSCAMNIDGTNTLACIKPIEDISGDIKIYPLPHMKVVKDLVPDMSHFYAQYESIEPWLKNDSPAPSNSERLQSIKDREKLDGLYECILCACCSTSCPSYWWNGDKYLGPAILLQAYRWIADSRDDNTGARLEALEDPFKLYRCHTIMNCTKTCPKGLNPAKAIGRVKNLIAERHGV;locus_tag=LOCUS_5580;note=WP_004596634.1 succinate dehydrogenase iron-sulfur subunit (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-155],MGA_559
sequence1	MetaGeneAnnotator	CDS	717958	719871	.	-	0	ID=MGA_560;product=ATP-dependent zinc metalloprotease FtsH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596636.1;translation=MNNQGRSILAWAALFIFVILLFNVFQSDGLLGVRNNITFSDFLTRVDEKTINSVKIQGRVIEGTANDGSTFSTYSPDYPDLVNRLTSNDVNIEVVPLETRMNTFLGFLISWFPMLLLIGVWVFFMRQMHGGGKAMGFGKSKARLLSDKGPKITFKDVAGIDEAKEELTEIVDFLRDPSKFQKLGGKIPKGCLLIGPPGTGKTLLAKAIAGEANVPFFSISGSDFVEMFVGVGASRVRDMFEQGKRNAPCIIFIDEIDAVGRHRGIGMGGGNDEREQTLNQMLVEMDGFEANEGVVIIAATNRPDVLDRALLRPGRFDRQIAVANPDINGREQILKVHLKKIKYNSTVLARIIARGTPGFSGAELANLVNEAALIAARLGKKEVDMHDMEEAKDKVLMGVVRRSIAMSEKEKRLTAYHEGGHALVGLYCPAASPIHKATIIPRGNALGMVQRLPETDEYSQNREQMESSIAVYMAGRVAEEIIFGRNKVTSGASSDIKGATNIARAMVTKAGLSDLIGPIFHGSNSDDMYGRQSSNEISEATAELIDAEVKRIITQGYEFAKDILTKHIDQLHTLANALIEYETLSGQQIKNLLSGRALDSEEENKFPFNDSHTIKIDKENLHEKVKSTKDKKENIIS;locus_tag=LOCUS_5590;gene=ftsH;note=WP_004596636.1 ATP-dependent zinc metalloprotease FtsH (Rickettsia prowazekii) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_560
sequence1	MetaGeneAnnotator	CDS	719922	721214	.	-	0	ID=MGA_561;product=tRNA lysidine(34) synthetase TilS;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596638.1;translation=MLYEKFEYNINNLIGNFGLSKIAIAVSGGSDSISLLYLANIWARKNNIELFVISVDHNLRPQSKQENYYIHTISSNLNRKYYNLSFDHQNNFSNLQERAREGRYDLMTNLCLELDVLVLLTAHHEDDYVENFCLRLERNSGIFGLSSSNIHWYNNIQIIRPLYNIPKSELVEYLVNHKIKWFEDESNLSDKYRRNIIRQKLFKEENYIKAEISLQQLKTNKLIEDELKPALISAIAEAVKIFEYGFTFLDLVKFDKFLNEVKAQIINFLLIMISGQSRSARFYSIAHILKLISQDINFKNTVHGCVIKRIQNELLIYREFGKKLPKSKILLDKSVIWDNRFCITKNQKTPDCVITYLSLADYKAIKKQLDLKHLKNLSCKNHNAILFTLPIIKILEKVIAIPHISYYDNDVWNFEVSFAPNFVSRFTHFC;locus_tag=LOCUS_5600;gene=tilS;EC_number=6.3.4.19;note=WP_004596638.1 tRNA lysidine(34) synthetase TilS (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-248],MGA_561
sequence1	MetaGeneAnnotator	CDS	721373	721888	.	-	0	ID=MGA_562;product=50S ribosomal protein L9;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596640.1;translation=MEVILIKPVRKLGKIGDILKVADGFGRNYLLPQKLAIRATKSNKELIVKQKYEFEEKDKQVREEVEKINTIIKDQQLVFIRQTSDDCKLFGSVTNKDIADKLSKNISYNISHSNIILDKQIKSTGIYTVEIRLHAELTSIVTVVVARSESEAQDYLREQKAETLEDVDETA;locus_tag=LOCUS_5610;gene=rplI;note=WP_004596640.1 50S ribosomal protein L9 (Rickettsia prowazekii) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-87],MGA_562
sequence1	MetaGeneAnnotator	CDS	721900	722187	.	-	0	ID=MGA_563;product=30S ribosomal protein S18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596642.1;translation=MLKSNNASETATSKGVDKAAKKVFFRRRKGCPLSVPNAPVIDYKNPELLIKFVSEGGRMLPSRITNVCAKKQRKLNNAIKIARILALLPFVFQAK;locus_tag=LOCUS_5620;gene=rpsR;note=WP_004596642.1 30S ribosomal protein S18 (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.9e-46],MGA_563
sequence1	MetaGeneAnnotator	CDS	722212	722577	.	-	0	ID=MGA_564;product=30S ribosomal protein S6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596645.1;translation=MSFYESVFIIRQDVSLNDIDKIVDDFTKIIKDNNGTIIKKEYWGLRTLAYKIGNNKKGHYYFLGIDITSNVKEELERKMKLNENIIRFLTIKADSISSEPSPILKNQSTENTPVIDVTINN;locus_tag=LOCUS_5630;gene=rpsF;note=WP_004596645.1 30S ribosomal protein S6 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-64],MGA_564
sequence1	MetaGeneAnnotator	CDS	723369	724556	.	+	0	ID=MGA_565;product=fatty acid desaturase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599713.1;translation=MLSKLNKPALFALIFYPVFIISLVVKYSFDYGIGLTEIIFIIASYYINNITVGIGLHRLWSHNAYKINKYAEFVLVMLSAGTLQGPALSWASNHYKHHAKTDTDQDPHSPLKFDNKVLGFLWSHIGWMLIGSGSYKFIDRITWAKLGKNNLLKWQLKYYWKIAAFMNIVVPLFTGYLVGGTIKSAYAGFLFIGLGRFLQQQATFCVNSLCHFVGSKKYYRGTAGDIWWMALFLLGENWHNYHHAFPSDYRNGVKWYHFDVHKWIIFLMSKIGLASELERTTKVRIQAKMQETLSYLSEKQKQKLSLMQTKIDNLLENLCLKSKEIEESSLAIKEQLKKSFVEIQESLKNLAEQVSSATQITEKPSEKLLKIVNKKIIDAEQSIYKLYNQLNTLKV;locus_tag=LOCUS_5640;EC_number=1.14.19.-;note=WP_004599713.1 fatty acid desaturase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-232],MGA_565
sequence1	MetaGeneAnnotator	CDS	724680	725843	.	+	0	ID=MGA_566;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596647.1;translation=MKKILGIESSCDDTAISIITERRKILSNIIISQNTEHAVFGGVVPEIAARSHLSNLDQALKNVLKKSNTELTEISAIAATSGPGLIGGVIVGSMFARSLSSALKKPFIAINHLEGHALTARLTDNISYPYLLLLASGGHCQFVAVLGLGKYKILGTTIDDAVGETFDKVAKMLNLSFPGGPEIEKRAKLGNPHKYKFPKPIINSGNCNMSFSGLKTAVRTLIMNLKEVNDSVINDIAASFQFTIGAILSSKMQDAIRLYKQILNDYYEDINHPTKLNLKSFRKDEFNWKPLECITRPKYRIHIQNSYRSNLLNDTIVIAGGVAANKYLQEILSDCTRPYGYRLIAPPMHLCTDNAAMIAYAGLERYNNKLFSPLDFCPKAKWSLEDI;locus_tag=LOCUS_5650;gene=tsaD;EC_number=2.3.1.234;note=WP_004596647.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex transferase subunit TsaD (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-222],MGA_566
sequence1	MetaGeneAnnotator	CDS	726426	729002	.	-	0	ID=MGA_567;product=ATP-dependent chaperone ClpB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596648.1;translation=MNIDKFTAHAKSVIANHQSLAIKNDHQQILPLHLLSSLLSEETGIIQALINNIGGNINLLKDQVQLELNKIPKIQVDGGGQIYYSAEDLKVLEKSSSIAKDSGDSFVTIERIFEALTYDNTIAGKILTNNGINSKKLATAILHLRKGKKADTESAENNYDALKRYGRDVTELAENGKLDPIIGRDEEIRRAVQVLSRRMKNNPVLIGAPGVGKTAIIEGLAQRIFSKDVPETLINCRIIELDIGALIAGAQYRGEFEKRLKAVLSEIKESSGEIILFIDELHLLVGTGKVDGAMDASNLLKPMLARGELHCIGATTLDEYRKYIEKDAALARRFQPVYVGEPSVEDTISILRGIKEKYELHHAVRISDSAIVAAATLSNRYITDRYLPDKAIDLIDEACSRMKIELSSKPEELDELDRRIIQIKIELAALKKENDEHSKKKITSLTEELKKLESKSYDMNTKWQAEKSKLQQAQKLKEELEQARIDLERAERDANLAKASELKYGIIPEIMNKLQEAENMDNKGLLKEIVSESDIASIISRITGIPIDTMLSSERERLLVIEQKLCESVIGQDEAIKGVSDAVRRSRSGIQDINRPLGSFLFLGPTGVGKTELTKALAGFLFDDRNALLRIDMSEYMEKHSISRLIGAPPGYIGYDQGGVLTESVRRRPYQVILFDEVEKAHLDIFNIMLQILDEGRLTDSQGITVDFKNTIIVLTSNLGAEILVNQKEGEDTYKVRDEVMQYVRAVFKPEFLNRLDEIILFHRLNRNNIHDIVKIQLGSLKKILLQQNIILEFDESALNYLAEKGYDPSFGARPLKRLIQREIQNNLAKMILAGEISSGNTVKIRREKEELSINIID;locus_tag=LOCUS_5660;gene=clpB;note=WP_004596648.1 ATP-dependent chaperone ClpB (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_567
sequence1	MetaGeneAnnotator	CDS	730029	730754	.	+	0	ID=MGA_568;product=SDR family oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596650.1;translation=MSEIAIVTGGTRGIGKATALELKNKDLTVIANFFSNYDAAKEMESKYGIRTKCWNVADLEECKKAVNEIEEEFKKSVSILVNNAGITKDKMLHRMSNQDWTDVINVNLHSCFNMSSSVMKQMRNQNYGRIVNISSINAQAGQIGQTNYSAAKAGIIGFTKALARETASKNITVNCIAPGYIATEMVNTVPKDILTKIVNSIPKKRLGQPEEIARAVAFLVDKNAGFITGETISINGGHNMI;locus_tag=LOCUS_5670;note=WP_004596650.1 SDR family oxidoreductase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.8e-134],MGA_568
sequence1	MetaGeneAnnotator	CDS	731299	732621	.	+	0	ID=MGA_569;product=DUF2748 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599712.1;translation=MTSIYHILDRIPAIYKQDMEIEYEYLAMQLIKSGKLRIDTNDCCNFARFTDPALNINLMISKEELTKPHLIPETTKLFQSLYKNSASDQKINSIFDNLKKQIQKLQPVKKEVTEMLARLFVQSAHPIVIRWLLLNKTEVFLTYSHNIGDMMDIVSWQRVGGNSGMQSTNGKDVAIFVSCGGNPFAENNKEHPSYGDGFAAVARLQIIAAQELGHFADIKRDDKGRQLTRHAANFSGTKATDKVRIARKSDIIHCNNLFNKLLNAGMKKQLEYETKLKFYNTNKINGVKVNAIKCMILIYKFRLLNYSSKNNLIFIRKFKTYKYMALMLEAMFKDMQDNLSPNAEVYKNKNPEIEEAIACIEALARVPQQTIKWGYLTTKETMHHLYKIYYNEVIPSLITSYNSFTGENYKRNLKKPKSSFFSKINIFSNKKLILKPVREL;locus_tag=LOCUS_5680;note=WP_004599712.1 DUF2748 family protein (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-250],MGA_569
sequence1	MetaGeneAnnotator	CDS	732877	733533	.	-	0	ID=MGA_570;product=CvpA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599711.1;translation=MITFFDITIFAIITLFSFFGLYQGIVGFLTRILGFIASIMLGYFLYPYISAQIVKYIENEVISIIITSVISYVISLILCVFIVYKFLAIISFMRNGFIDRFLGLLVGFVLGSTISLVLFLITMIFTSENYFQSKSLKDFVISSKQNKYGGVLKFSVTTDYLDELSRKIIVIMLNNIFGSIEIFKNKDFKNFLKKSNSLNDIEDVFSKELQDELSNIDD;locus_tag=LOCUS_5690;note=WP_004599711.1 CvpA family protein (Rickettsia prowazekii) [pid:89.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-102],MGA_570
sequence1	MetaGeneAnnotator	CDS	733594	733842	.	+	0	ID=MGA_571;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MCDKIFHNLSGKTLVATPYVITKGIYHKSLIYMLSHTEEGAIGLIFNRLVNHVDLKSFFKIKEDKITSQVMVPIYLWWAYRT;locus_tag=LOCUS_5700;note=WP_004599709.1 YqgE/AlgH family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:92.7%25%2C s_cov:40.2%25%2C Eval:4.6e-38%2C partial hit],frameshifted%2C insertion/deletion at around 733821,MGA_571
sequence1	MetaGeneAnnotator	CDS	733883	734164	.	+	0	ID=MGA_572;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLLDFHNDLAVSSNLEISEDIAFGKGPKNSLFIVGYTAWKPGQLEEELEKNLWLVMDCSKEFIFAENPENKWHNALKHLGIDEIYFSSQIGNA;locus_tag=LOCUS_5710;note=WP_004599709.1 YqgE/AlgH family protein (Rickettsia prowazekii) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:49.2%25%2C Eval:6.7e-50%2C partial hit],frameshifted%2C insertion/deletion at around 733821,MGA_572
sequence1	MetaGeneAnnotator	CDS	734180	734626	.	-	0	ID=MGA_573;product=SCO family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886196.1;translation=MDDSLKIKFTLIEQQGKKFDSTNLQGYLSLIYFGTTYSLYDNQALKRVEDIIKILKRENILLQVVFITLDPEHDTSEVLKKYLEKIDSNFIGLTGRVQDIEQLAQQFKVFYTSKIFDVKTNEYALQHSNFVYLISSDGKILSHYYLGS;locus_tag=LOCUS_5720;note=WP_010886196.1 SCO family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:77.5%25%2C Eval:2.8e-79],MGA_573
sequence1	MetaGeneAnnotator	CDS	736586	737245	.	+	0	ID=MGA_574;product=DUF5394 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596659.1;translation=MTNNQFSEDTKKIADQIKDSLIGISDNLVLESKEVEEIFEELSKNEEFDYEIERILAILNEQTMDLTQLQSRIILLIRKYLDKTKNLKLKMDEKLINKNVAEVSNYLMHQHSKIVRDANKNLAKPKDKLQSLTKQARMDLKRLIKSFAVYQVYMFMNPKRIAGETKLMNFAYNMIKGGMKLAKKYEGGKEKDIKSYSPRLIKKLEKAHAGFKKNNSISI;locus_tag=LOCUS_5730;note=WP_004596659.1 DUF5394 family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-118],MGA_574
sequence1	MetaGeneAnnotator	CDS	739206	740288	.	+	0	ID=MGA_575;product=DNA replication/repair protein RecF;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596661.1;translation=MKNIFLHSLTLENYRNFKNLELKTDNTPIILTGENGSGKTNILEAISLFYPGRGLRSSKLTDICKTSEDYCKVKTLLQSKLGLAELSTHIKRSSNRRITEYNASKIANNELSKFTNMVWLTPQMEGIFTSSSTDRRKFLDRIVYNFDTKHAALLNKYEYYMHERNKILAEDIRDNNWLKIIEEKMADISNNIANNRLKTIRFIQQAIDDIENEFPKADLSIDGIIEQKILNVEGDIVNFIITELYKTRSKDKLLGRTSFGIHKSDFLVKHQKKNILAKFCSTGEQKAILIAIILAEINSTIKLTKITPILLLDEIFVHLDDKRRQYLMGFFNALNIQLWVTATDLDGIENFANKAQLIKL;locus_tag=LOCUS_5740;gene=recF;note=WP_004596661.1 DNA replication/repair protein RecF (Rickettsia prowazekii) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-198],MGA_575
sequence1	MetaGeneAnnotator	CDS	740539	742143	.	+	0	ID=MGA_576;product=class I SAM-dependent methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599706.1;translation=MIKKTNKISYDEVPYPPFTFSHTYPPYLRTIGKLFGLNPPPLETAKILDIGCGVGVNLLNFAETYPKSQSLGVDLSKTQIEIGKKTISDSKIKNVRLKALSILDLDESYGKFDYIVCHGVYSWVSKEVQDKILEVLNKLLNPNGIAFISYNTLPGWNMQNTIREMMMFHSESFNTSHDKLQQSKLLLKFINDSLENSTTPYANFLREEAKLISTYADSYVLHEYLGEINTGTYFHQFIEKAQKNHLNYLGDTSITAMFIGNLPTKAAEKLQAINDIVRTEQYMDFITNRKFRSTLLCHQNIPINRKIEFENLKDFYTTFNIRPISSENKIDLNNEQENISFYYENLPEPFISTTSAIMKAILYVYAENISNPIRLEQVAKEAFKKLGKYQLQDFLAILEQHFITFIFQGYLKIFETKPHAIATITEKPKTSQFVRYQAKHAHFNNVTNMLSVTNRLNDMIGIPIHEKYILEMLDGTHNIDDIKKGMIEKINSKLLIACDNKGQAVTDPKLLKEFVDYIVNISLEKFRINYLLIG;locus_tag=LOCUS_5750;note=WP_004599706.1 class I SAM-dependent methyltransferase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.6e-313],MGA_576
sequence1	MetaGeneAnnotator	CDS	742397	742930	.	-	0	ID=MGA_577;product=CarD family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596664.1;translation=MANITQSEHKTEQKSEFKIGQRIVYPAHGVGEITNIEYHTIADTEIKVYVISFSQDKMTLKVPVNRAAVVGLRAVASRKDLDVIYSTLQGKPKQGNRMWSRRAQEYEGKINSGNIVAIAEVLRDLHKNVDNDRSYSERTLYESALNRLAGELAILENIDPTEAINKLVEVLREKLVA;locus_tag=LOCUS_5760;note=WP_004596664.1 CarD family transcriptional regulator (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.6e-95],MGA_577
sequence1	MetaGeneAnnotator	CDS	743093	743911	.	+	0	ID=MGA_578;product=thioredoxin domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596665.1;translation=MRNIFIVLIFLFLSNCSEVKAQDKKYEGKQIIVQEPLQNNKTPQETNQESINSATKSVVHNNDNNQTEEVLIHDSREQKKPEIRPTKVTFKIDDNDMVLGNKKSNVIVVEYFSPTCPHCAYYHQTIFPELKKKYIDTNKIAYVIREFIATKQDLDAAILARCKGDINSFIQFHNIILQQQDKWAYSNKYRELLTDIGQLGGIPPEEYKQCLNSDKITATLIANTNLVAKAPKFIGTPSFFVNGVQTENYSIDNISKAVDKALDDETKKQINF;locus_tag=LOCUS_5770;note=WP_004596665.1 thioredoxin domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.5e-156],MGA_578
sequence1	MetaGeneAnnotator	CDS	743963	744211	.	+	0	ID=MGA_579;product=AtpZ/AtpI family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599705.1;translation=MNTEKLKDIKARIKDFKSYKTSNSKIQQKINPFSIALDLVSGTMVGLLIGILTDKFFNSKPLFLIIFTIIGMIAGFNIIRRK;locus_tag=LOCUS_5780;note=WP_004599705.1 AtpZ/AtpI family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-39],MGA_579
sequence1	MetaGeneAnnotator	CDS	744216	744944	.	+	0	ID=MGA_580;product=F0F1 ATP synthase subunit A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596667.1;translation=MTHSPLIQFNIKKLIDIKMFGFDVSFTNSSIYMLLATTLSLTYLYLAFYNRKLIPSRLQVSAEIVYNLVADMLNQNIGIKGRKFIPLVFSLFIFILFCNLLGMTPYSFTATSHIIVTFTLALLIFLTVTIVGFIKHGVSFLTLFLPHGTPVWLAPLMIVIELFTYLARPVSLSLRLAANMMAGHVLLKVIASFTVSLMIYLKFLPIPLMVILIGFEIFIAILQAYIFTILSCMYLNDAINLH;locus_tag=LOCUS_5790;EC_number=7.1.2.2;note=WP_004596667.1 F0F1 ATP synthase subunit A (Rickettsia prowazekii) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-129],MGA_580
sequence1	MetaGeneAnnotator	CDS	744978	745202	.	+	0	ID=MGA_581;product=F0F1 ATP synthase subunit C;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596668.1;translation=MDIVSLKFIGIGFMAIGMYGAALGVSNIFSSLLSAIARNPSAAENLQRMALIGAGLAEAMGLFSFVIAMLLIFS;locus_tag=LOCUS_5800;EC_number=7.1.2.2;note=WP_004596668.1 F0F1 ATP synthase subunit C (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-33],MGA_581
sequence1	MetaGeneAnnotator	CDS	745215	745691	.	+	0	ID=MGA_582;product=F0F1 ATP synthase subunit B';inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596669.1;translation=MPQFDIDTYYSQIFWLIVTFGLLYILVYKFIAPNAEEIFNNRQKNIQDNITQAAALTEEIEKLNKYYSDIVNKTNTEIDNLKKEKIESIESEFLIKKKNLVQDLTKSINQNIEDINLVAKQFRTNKSEAMIKLAVHIIEKIAGTKADMNLLQKNIKIK;locus_tag=LOCUS_5810;note=WP_004596669.1 F0F1 ATP synthase subunit B' (Rickettsia prowazekii) [pid:96.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.9e-80],MGA_582
sequence1	MetaGeneAnnotator	CDS	745691	746194	.	+	0	ID=MGA_583;product=F0F1 ATP synthase subunit B;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596675.1;translation=MNFLDESFWLTISFVIFVYLIYRPAKKAILNALDTKISEIQEKVLKAKKLKEDAALLFEQTKLQIQKLETLRSQMIEESDKATKQIIQDKTKEMEEFLERKKADAIQLIQNQKSTASKDLQDEFCDEVITLVSKYFRSAKLSEKSIAKNLMDKSDFVHNDSKATYLH;locus_tag=LOCUS_5820;note=WP_004596675.1 F0F1 ATP synthase subunit B (Rickettsia prowazekii) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.3e-84],MGA_583
sequence1	Aragorn:1.2.38	tRNA	748194	748268	.	-	.	ID=Aragorn_21;product=tRNA-Glu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0210;note=Aragorn_21
sequence1	MetaGeneAnnotator	CDS	748378	749421	.	-	0	ID=MGA_584;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNKVDTTILLEQEAKQEMQTQISENAPTLNQVKVINTIVNNMIRNRLDTSINMVVVGASAEEESNIKRGLWMRGMYGTNNHGRVDNMTGYRGINKGATVGFDAEINNNIIGIAYSNVHSVFKFKNGKNNDKELIGSKVISIYGQKELQQNFTLQLLVSASKNFIKDKINYSYGDTQIKSHVKHHNHSYNAEALLNYNYLVKNSIIITPNIGLKYGKSRDGVYNETGINVQEIALTMKENNILSGILGAKVKVSLIDVLKFNNLGLTFQTAVEHNFKEKTQRINRVIKIFDNIFKQDYLIPKQPKTSYNLGTGIICGINNTNIAVDYNYYLNKHYRSHQGSLKIKVNL;locus_tag=LOCUS_5830;note=WP_011190491.1 autotransporter outer membrane beta-barrel domain-containing protein (Rickettsia typhi) [pid:91.1%25%2C q_cov:100.0%25%2C s_cov:30.7%25%2C Eval:3.1e-182%2C partial hit],frameshifted%2C insertion/deletion at around 749537,MGA_584
sequence1	MetaGeneAnnotator	CDS	749520	751382	.	-	0	ID=MGA_585;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTTKNKDTDRLSEEIDIPETKVNAFQAQQARIDEAQRDLLESNQQKSARKRFEENKTKEKVKKIFNNAKKKITRTKLKKLQDQVGNHIIMGTLPTIPNTLPTSKPTMQLSNDINRTVSEDEDGYLVPCKAQPQIYTVILPSQEIENHKSMDSDLWTLSSKTLGKEIDEVHPNIVLLSEKETEAKIVEDVKISNTTNSRGVFENTSKSFGQHNNFKLTQDLYGKDRKQYYKQEINSINSLDSAVLVESQQFKKTKSLEDIEDGSLSSQLKQTKYKSVLSPSSYVNDMFSNEHHQNSSIELPKLLHSSLSDTNSSLNDCINQLRCANTSDVYNLSYTLSNKTKQLSIDELKNTLEQMQTSPNINIVLPMLIRVQQDYVNEVAEIYQQTIEQRKQNPSEQAKNQEEVVAAYFTQEYDKLKIINSFRSLKTDSITNTSLASSVNIFGSNEDLSWDNTGDIGVGYRYGPEHSCPTPDDRLSSKLIDMSNKNTKNVKGLEEGVTIYDSIDSVADPLKSNDVSFEEINEALKQLSAAISETVINSSESKVQEDPEDILDGSILQAMLNSNNDQSIESLSLGSEEEQGQEETEASIQNAGDKKLLPVPASSNESTLLLSDCKKMNIYH;locus_tag=LOCUS_5840;note=WP_011190491.1 autotransporter outer membrane beta-barrel domain-containing protein (Rickettsia typhi) [pid:66.2%25%2C q_cov:39.8%25%2C s_cov:23.3%25%2C Eval:6.2e-84%2C partial hit],frameshifted%2C insertion/deletion at around 751402%2C749540,MGA_585
sequence1	MetaGeneAnnotator	CDS	751400	752308	.	-	0	ID=MGA_586;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886191.1;translation=MNKLTAQNLLKKSRFLKYSLLTSISVGAVMAIPVERIAMGMDQEAFCAELSKKLSLEFSQSYEDTISTTQEKNNLSNNGPSNKSDMAEELANVTTKSLYKVRKMQAPEFKISENKFLNNLDSQTISKELDPNTYTTESISQKPEIILTASSTTVSTDSNSFVTVSTASSLKPVTSYQPTPDFKPNYSLGFNTPINTNLKIVRKLSFSSEQPQIVQHSKSMISLMPTAPVVLPKSSIEIEPEMVSNIPRVDDTISIKSSEVREDIKGTKDQKTLVDQFNSSIGIWSKKTGKNKYDLNKDSSQK;locus_tag=LOCUS_5850;note=WP_010886191.1 hypothetical protein (Rickettsia prowazekii) [pid:99.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-165],MGA_586
sequence1	MetaGeneAnnotator	CDS	753073	754236	.	+	0	ID=MGA_587;product=CCA tRNA nucleotidyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596689.1;translation=MQIIHKTLKISSKEYKKILSLLNKKGQSRLIGGCVRDALLDKDTYDIDIATNLMPGEAINILSSANIKIIPTGLKFGTITAILNNEKFEITTLRKDIECNGRHAKVIFSKDFAEDAARRDFTINALSYCPFKNEIYDYFDGFKDLQRAKVVFIGKAFNRIKEDYLRILRFFRFSSYYANQLDYESFKACDTLKYGLKTLSRERIKSEIDKIIVSKRATQILEAMFKIGILELIFSIQNYEIKFFERANNFKLELATKYALLLYNQQNLNLKIFLNWKFSKHEAMQILSILNFLNDAEFNIKKIWFEKKNYKEYLLAACIIDKLDYSQVKEFILKYDTLSHPKFELNGNDLLNLNIEKKEIGAKLEYLKNFWIEHDFKPSKSELLEKL;locus_tag=LOCUS_5860;note=WP_004596689.1 CCA tRNA nucleotidyltransferase (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-220],MGA_587
sequence1	MetaGeneAnnotator	CDS	754233	755132	.	+	0	ID=MGA_588;product=zinc ABC transporter substrate-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599700.1;translation=MKTNMLTNNCKDKIFIKKSHTILRLLYFFKSLAMILFFIFFSLTSYAKPKIVVSITPISSILAMLVKDKVDIESLAVNNECPHHHNIKPSDITKVRNADMVIYINEQFDGFTEKLISNNNQNIIKISDIKSLTTIKNNWHIWLDLNNAKILLQEFAQIFIKNFPQLQKEINNNLPIALKELNKLQDIKNNEFRTIKDIILLSDSSEYFFLNTNIKTAKLYRESQKSLRYISKLEELIKGSNNKCIVLSNKQKSQLYTKLNAKTKIIILNSENWNVKNINSNTFQDQYLQMINQVKKCIH;locus_tag=LOCUS_5870;note=WP_004599700.1 zinc ABC transporter substrate-binding protein (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-166],MGA_588
sequence1	MetaGeneAnnotator	CDS	755120	755554	.	+	0	ID=MGA_589;product=tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596691.1;translation=MHTLNSKKETKNFAKLFAQNLKPNDIVLLNGDLGAGKTFFCREIIKHFCGKNTNIISPTFNLLQIYKTPKFNIYHYDMYRIKSPEEIYELGFEEALNGNLILIEWSEIIKHLLTPPLIEVNLKVLDNNKRLCSIHKENFLFDFL;locus_tag=LOCUS_5880;gene=tsaE;note=WP_004596691.1 tRNA (adenosine(37)-N6)-threonylcarbamoyltransferase complex ATPase subunit type 1 TsaE (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-81],MGA_589
sequence1	MetaGeneAnnotator	CDS	755606	756706	.	-	0	ID=MGA_590;product=palindromic element RPE3 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886190.1;translation=MKRILSFIFIILFFNSSYAVEKAAIITDYKPIFLPVITENKKIKIAIRSYLKNKKSYFVLVDPNSFKTEIVLQELVILPANKIEKENLLIKLNKTSYIKALNKYNFIDQSLQSFKQDEFSNKFTDNTIVYEHKLNSKSSHSSTFMNSTVQQNYGATSSMYKVKGQFLTIDMCPSSKNFEEVFFKKLVELSTKLKKAIPITICVSGLWINKHTEEFLWLLKQQENGYLQITWVNHSFSHPYFKDKPLEDNFLLSNKDDFENEVLEVGKILVSYNIAPSPFFRFPGLVSDQTLIAKLKNFGFIPLGSNAWLAKGEKIQDGSFILVHGNSNEKAGIDLIMPMLSELKLLPIEKAFLPTNFYQQIYNSIF;locus_tag=LOCUS_5890;note=WP_010886190.1 palindromic element RPE3 domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:95.4%25%2C s_cov:97.8%25%2C Eval:7.8e-200],MGA_590
sequence1	MetaGeneAnnotator	CDS	756703	757728	.	-	0	ID=MGA_591;product=tRNA dihydrouridine synthase DusB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411626.1;translation=MLNYDIMLNFITIFMIKIGNIELSSNVILAPMSDVTDLEFRKLVKRFGAGLVVSEMIASRAMIMKSRQSMQKCAIMHDDPTSACVQLAGCEPDVIAEAAKMNEDMGAKIIDLNFGCPAKKVVGGYAGSALMRDEQLAAKIFEATVKAVKIPVTVKMRIGWDDNTRNAPTLAKIAANSGVQMVTVHGRTRCQFYSGNANWDFIRTVKEAVKIPVIANGDITNFAKAKEALQRSGADGIMVGRGVYGKPWLISQIAYYLKTGKEKPAPSIAEQLDIITKHYDAIIDYYGKSVGVPIARKHIIWYSNGLPSSAEFRCTVNLMKDPIAVKEKIAEFYMSVMDANK;locus_tag=LOCUS_5900;gene=dusB;EC_number=1.3.1.-;note=WP_014411626.1 tRNA dihydrouridine synthase DusB (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:95.9%25%2C s_cov:100.0%25%2C Eval:4.5e-186],MGA_591
sequence1	Aragorn:1.2.38	tRNA	758050	758125	.	+	.	ID=Aragorn_22;product=tRNA-Phe;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0220;note=Aragorn_22
sequence1	MetaGeneAnnotator	CDS	758690	759730	.	+	0	ID=MGA_592;product=UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596698.1;translation=MVSSNFYKNLGPRKLTAIVDFLHDIIEPTKIYEDIDIYDIKILQEASPNDISFLSNPKYSEFLKTTKAAACIVPKNFTEEVNQNTVLIHAENSYFAYSKLIDFFYAPIKSYSTKIMKSAIIADSATIGKNCYIGHNVVIEDDVIIGDNSIIDAGTFIGRGVNIGKNARIEQHVSINYAIIGDDVVILVGAKIGQDGFGFSTEKGVHHKIFHIGIVKIGNNVEIGSNTTIDRGALQDTIIEDLCRIDNLVQIGHGVKIGKGSIIVAQAGIAGSSAIGKYCALGGQVGIAGHLNIGDGTQVAAQGGVAQNIEEGKIVGGSPAVPIMDWHRQSIIMKQLVKTSNSKLKK;locus_tag=LOCUS_5910;gene=lpxD;EC_number=2.3.1.191;note=WP_004596698.1 UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase (Rickettsia prowazekii) [pid:97.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-191],MGA_592
sequence1	MetaGeneAnnotator	CDS	759921	760358	.	+	0	ID=MGA_593;product=3-hydroxyacyl-ACP dehydratase FabZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596700.1;translation=MIIAITEIMDLIPHRYPFLLVDRVLKIDPNKSIIGIKNVTVNEPQFTGHFPARPVMPGVLMVESMAQLAAILVAKSLDSTKNKEVFLMSIENTKFRRIVQPGDTMHIHSVIDQQRANVWKFSSKVMVECEIAAESKFTAMIKDKM;locus_tag=LOCUS_5920;gene=fabZ;EC_number=4.2.1.59;note=WP_004596700.1 3-hydroxyacyl-ACP dehydratase FabZ (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-77],MGA_593
sequence1	MetaGeneAnnotator	CDS	760368	761162	.	+	0	ID=MGA_594;product=acyl-ACP--UDP-N-acetylglucosamine O-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596702.1;translation=MSNSNIHTTAIIAEGAKFGKNVKVGPYCIIGPEVVLHDNVELKSHVVIDGITEIGENTVIYPFASIGQPPQILKYANERSSTIIGSNNTIREYVTVQAGSKSGGMITRVGNNNLFMVGVHIGHDCKIGNNLVFANYVSLAGHIKVGDYAIIGGLSAVHQYTRIGEYSMIGGLSPVGADVIPFGLVSSKRAVLEGLNLIGMNRKGFDKADSLTALNAVEEIFLGEGNFVDRIKQVAEKYKNNSIVTQIIDFLNQDSSRAFCHFKK;locus_tag=LOCUS_5930;gene=lpxA;EC_number=2.3.1.129;note=WP_004596702.1 acyl-ACP--UDP-N-acetylglucosamine O-acyltransferase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.6e-149],MGA_594
sequence1	MetaGeneAnnotator	CDS	761512	764553	.	-	0	ID=MGA_595;product=FAD-dependent oxidoreductase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599696.1;translation=MKLGFNLDFNELDLTGLKKLDQIFLDYLFKADKSLHKDLMLFRATPLSIIPQDYSKFLLKISPHLDDFLAELFCISKEVTISRLKHKDFDIIYECKRKFVQRVAVKKYPLEKIKDIDFEDVYLKITNLIGTNFTSREFAKQIVIWQQDEESFSLELDIAARYAAYRVFSYYNSLSSWNKNLFLQNDILFNLQQKLDKKNLIDDKKILKYQKNERVDFDYKDSFFNLDEALNNSHYCIYCHKRDKDSCSKGFDVIPHFDRVISVDKIPRLSYRMTTGCPLKQKISEMNYIKAQGFNLAALAIIVIDNPMVAATGHRICNDCSKACIYQKQDPVNIPLIESNILEETLKLPYGLEIYILLTRWNPLNIYAPLPKEPTNYNILVTGLGPAGFSLSYYLLRSGHNVTAIDGLKITPLSFNIHKPVKFWHEYKNLLSERIPKGFGGVAEYGITIRWDKNNLDILRLILERNNNFKYYDGVALGFNITKEQALDLSFDHVAFCIGAGKPKILNIENFEAKGVRTASDFLMTLQNGGAFLQNSNTNMMIRMPIVIIGGGLTSLDVATESLFYYKKQVEEFAKNYIEKDLTEEDKEIAEEFIAHAKLFKEAKNNEELKKVFNKLGGATVYYRGRLQDSPAYKLNHEELIYTLALGVNFKENMQPLRINIDKYGHVESVEFSITTWLDRRTHKKYHINMCPTVKPSSNTVLIKTKTVIMAIGIENNTQFDYDKYSYFGDCNPKYFGSVVKAITSAKEGYEVINKRLIDNVPSFKGSYACFITQLDYLLTSRINKINILNDKTFELIIHSPLAAKNFQFGQFFRLQNYSKDITKLIEPVALSPADIDIEKGLISFIVYEVGKSTSLCKTLSENEKVVLMGPTGSPLEIPQNKKIIIIDSKYRNVGLLKILKENKNKVIFATYPDIKKHKLTSVDIVIINTSPEIAEELQELKIFGENTELIINVNSLMQCMMKGICGQCIQKVKGKQKYIFACSEQNQNVEIIDFKSLKTRLRQNSLQEKMSN;locus_tag=LOCUS_5940;note=WP_004599696.1 FAD-dependent oxidoreductase (Rickettsia prowazekii) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_595
sequence1	MetaGeneAnnotator	CDS	764550	765326	.	-	0	ID=MGA_596;product=ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596705.1;translation=MIKYFFSKKYWRAIALLVKASIVRQNKDSFLGSLWSLIQPFIHIIVISYFFGFLLRQPREFMVMNLVGGIPLWSFIVSSLTICASSLVTRDQIIKKVRISKTFFPIADSLGQLYTLICSFSAMYFAFILLFPEKFSWQIIFMPILILPLVICVISGSIAVAFLTPYIRDIPQMLNVILGVIYWSIPIVYPYSLIPESKKIYFEFNPFFLVIRPVQVLVINGSLPDMMLIIKSVIVAFITVFISYLIYRQFSKRVIYYL;locus_tag=LOCUS_5950;note=WP_004596705.1 ABC transporter permease (Rickettsia prowazekii) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-141],MGA_596
sequence1	MetaGeneAnnotator	CDS	765323	766081	.	-	0	ID=MGA_597;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596706.1;translation=MLLNHSKVFIEITDGYVEGIDVHKRAQGLKHFFLKKGVSLSPTIPILNNINFSCYEGEKIAFIGSNGSGKSSLLKLIAGIYPLKSGIVKVHGDIAAIIDMGVGFEQEQTGRENIKMLMLYNNMLDKYSKKIEKEIIDFSELGSKIDLPIKIYSSGMLSRLAFSVSIFQNPQILLLDEVFAAGDSYFIEKSLNLMKNKFKNTPISIIVSHQEEIIKDNCDRCILLKDGHIIDDGTPSEIFKIYKQQSNKEIHK;locus_tag=LOCUS_5960;note=WP_004596706.1 ABC transporter ATP-binding protein (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-137],MGA_597
sequence1	MetaGeneAnnotator	CDS	766092	766484	.	-	0	ID=MGA_598;product=thioredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596708.1;translation=MSCYNEITTLLEFDSNDINTTQRINMVNNVTDSSFKNEVLESDLPVMVDFWAEWCGPCKMLIPIIDEISKELQDKVKVLKMNIDENPKTPSEYGIRSIPTIMLFKNGEQKDTKIGLQQKNSLLDWINKSI;locus_tag=LOCUS_5970;gene=trxA;note=WP_004596708.1 thioredoxin (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:80.8%25%2C s_cov:100.0%25%2C Eval:1.3e-56],MGA_598
sequence1	MetaGeneAnnotator	CDS	766568	767389	.	-	0	ID=MGA_599;product=pyruvate%2C water dikinase regulatory protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886186.1;translation=MTKLIIHLVSDSSVQTAKHAANSALAQFTSIKQKLYHWPMIRNCELLNEVLSKIESKHGIVLYTIADQELRKTLTKFCYELKIPCISVIGKIIKEMSVFSGIEIEKEQNYNYKFDKTYFDTLNAIDYAIRHDDGQMINELSESDIILIGPSRTSKTPTSVFLAYNGLKAANIPYVYNCPFPDFIEKDIDQLVVGLVINPNRLIEIREARLNLLQINENKSYTDFNIVQRECIEVRKICNQRNWPVIDVSTRSIEETAALIMRIYYNRKNKYHK;locus_tag=LOCUS_5980;note=WP_010886186.1 pyruvate%2C water dikinase regulatory protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-155],MGA_599
sequence1	MetaGeneAnnotator	CDS	767774	768811	.	+	0	ID=MGA_600;product=uroporphyrinogen decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596714.1;translation=MKQILNPLKNSNKIPIWFMRQAGRYLPEYKKVRETTKNFLDFCYDVNKATEVTLQPIRRYGLDAAIIFSDILVLPNALGWEVDFKENIGPVLKQFKSQKDFQYLQRDSNNKLEKVYKIIKKVKEKLPSNTSLIGFAGSPWTVMSYMLEGKGKRDFRTSKKFIYENKILAKDLLNFITEKTSDYLINQVKSGVDLLKIFDSWSGVLAEDDFTEFVIEPTKKIILKVKEVFVKTPIITFPKGAGLLYEKFIEEVPIDILAVDQMVPLEKMKEWSNKVIIQGNLDPVILLTNKEIIKEKTYKILQAMKGKNFIFNLGHGILPETHPENVEFLTQYVRLYEQKNSNSTF;locus_tag=LOCUS_5990;gene=hemE;EC_number=4.1.1.37;note=WP_004596714.1 uroporphyrinogen decarboxylase (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-193],MGA_600
sequence1	MetaGeneAnnotator	CDS	768768	769808	.	+	0	ID=MGA_601;product=ferrochelatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_015508361.1;translation=MLGYMNKRIAIVLFNLGGPEDIEYVKPFLFNLFYDKAIINLPNPLRYIIAKIISITREKKSQKIYSLIGSKSYLIQETEKQKLAITEKLKEFIKEDFIIFINMRYSTPFAKEVIGQIKEYNPSEIILLPLYPQFSSTTTGSSVKNFLQNIDIDIPIKTICCYPIEEDFIKAHVSIIKEKLYDKNFRILFSAHGLPKRIIKAGDPYSFQIKETVNKIVKELNIKDLDYKITYQSRVGPIEWLKPNTEDEIELAGKLKKDIIIVPISFVSEHVETLVELDIEYKLIADKYKIQYTRIPTLGTNKIFINSLTNILLRFINNTNTNLVMSSSSKRICPNKFTKCLCNLTN;locus_tag=LOCUS_6000;gene=hemH;EC_number=4.98.1.1;note=WP_015508361.1 ferrochelatase (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:98.8%25%2C s_cov:100.0%25%2C Eval:6.2e-191],MGA_601
sequence1	MetaGeneAnnotator	CDS	769891	770271	.	+	0	ID=MGA_602;product=protoporphyrinogen oxidase HemJ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599693.1;translation=MAGLLYLPRIYVYHTKAKIGSELDSTLQVMELKLLRFIMNPAMISTFIFGLINAHIYGFVALDTWFQFKMFAVLILVIFHGLLARWRKDFAKGKNVHSKKFYRIVNEIPAICMVIAVIMVIVKPFD;locus_tag=LOCUS_6010;gene=hemJ;note=WP_004599693.1 protoporphyrinogen oxidase HemJ (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:86.9%25%2C Eval:5.5e-65],MGA_602
sequence1	MetaGeneAnnotator	CDS	770884	771723	.	-	0	ID=MGA_603;product=oxygen-dependent coproporphyrinogen oxidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596721.1;translation=MNTENKEITSNWFTNLRDLLCKEFEKIEEKYAQIKGLKPAKFVRTSWKRNGGGCGIMSLMKGEVFEKVGVNISTVFGEFSQEFRSEILGAELDGKFFATGISVVAHLKSPLIPAMHFNTRYIETSKNWFGGGGDLTPFYPEENETAKFHTAFKEACDKYDSSYYPKFKKQCDEYFYLRHRKEPRGVGGIFYDYLNSGNFEQDFAFTKDIGKALLSVYPEIVRSKLFLPWTAEQKEYQLIRRGRYVEFNLLYDRGTKFGLMTDGNVEAILMSLPPVVKFN;locus_tag=LOCUS_6020;gene=hemF;EC_number=1.3.3.3;note=WP_004596721.1 oxygen-dependent coproporphyrinogen oxidase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-165],MGA_603
sequence1	MetaGeneAnnotator	CDS	771707	772978	.	-	0	ID=MGA_604;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886387.1;translation=MNRSKLIFLSAISGNVLEYYDFTVYSVFSLIIGQIFFPGESEFIRILLSLGVFAVGFLTRPIGGILFGYIGDRYGRRVALIISMLGMTIPTFIMGLIPSYASIGIYAPITLVIMRLIQGLCISGEGTGAAIFILEHRQNLRHGFTAGLVHGSNIAGTLIATFIGIIIERYFSYIDFAWRFAFLLGGLMGFAGFYFRLRVSETPIFKMIEKKKQVLKAPFSNVIRTAWISMFLTICIGAIASSVMYLVKTYINVFYYNVMNLSNTIALSYLAYSSFVAMIAMPLAGGTADIIGKFKMAMLVGVAILILILPTMLLMSAKEMWQQIIALTILGILAGSIAGTAYIFVISLFTAEQRFTGVAFSYNFAIAIFGGTSPIISRWLVEHTGLFYAPAFYIMIIAIIFLIIMYTMKKVIKSLLNNYEHRK;locus_tag=LOCUS_6030;note=WP_010886387.1 MFS transporter (Rickettsia prowazekii) [pid:94.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-222],MGA_604
sequence1	MetaGeneAnnotator	CDS	773953	774105	.	+	0	ID=MGA_605;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIVNSLDVSVSCHGKEPLYGHPKVYLEIDKEKNEIICPYCSKKFKLVTK;locus_tag=LOCUS_6040;note=MGA_605
sequence1	MetaGeneAnnotator	CDS	774102	775889	.	+	0	ID=MGA_606;product=DNA mismatch repair endonuclease MutL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596727.1;translation=MTIKFLSESTINRIAAGEVIERPASVVKELVENAIDGGSTKIDIILERAGKNLIIVSDDGIGMTDKELEIAVKRHTTSKLNESDFFNIHTFGFRGEALASIAAISKMLITSKKREADKAFQIKLIGGNKQQITVSVHNEGTKIEVRDLFFATPARLKFLRSDKTELAASIDIVKKIALAHPRISFNLIHDNKNLLKLKGQNKDSETNLKQRIIDVIGDVFIKNAAYIDFKTPDFSICGYSSIPTYNKASSEDQFLFINNRPIKDKLLQVALRVAYQDYLARDRYALCVIFLQIDPQLVDVNVHPAKAEVRFHDPNYVRNILIEAIKNALTNKSQITATTIGSDKNSLVNKEPTIHKATNVNSKASEYTSFNFKRNTAYHTLPYGKIEQEVGKCIEHNNQSHKQYKFGVAKAQLHTTYIISQTEDSIVIIDQHAAYERLGYAKIKYCLKNGELVKQRLLIPEIVELSSQKKADCLYENREKLFKLSLTIEKFGEKSIIVTEIPNILGDVNVQKLIQDLADHLSDFAKNMPLKELIEHVIKIYICHYSIRAARKLSADEMNSLLRQMENMSFSAQCNNNRPTYIELKLKDIELLFRL;locus_tag=LOCUS_6050;gene=mutL;note=WP_004596727.1 DNA mismatch repair endonuclease MutL (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_606
sequence1	MetaGeneAnnotator	CDS	776027	776197	.	+	0	ID=MGA_607;product=50S ribosomal protein L33;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596729.1;translation=MAKKNKNVLVRLVSTAGTGVFWVKKRNPRTQTEKLSFRKYDKVVRKHVLFKEEKIK;locus_tag=LOCUS_6060;gene=rpmG;note=WP_004596729.1 50S ribosomal protein L33 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-25],MGA_607
sequence1	MetaGeneAnnotator	CDS	776202	776537	.	+	0	ID=MGA_608;product=30S ribosomal protein S16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596731.1;translation=MAVKIRLARGGAKKRPFYRVVIANATAPRDGDFLEKVGTYNPMLASDNSERVILKKDRIEYWLGTGAKPTERVAKFIEKAGVTLPKKVKKEMEVKAKNRKVRPSKKQSKES;locus_tag=LOCUS_6070;gene=rpsP;note=WP_004596731.1 30S ribosomal protein S16 (Rickettsia prowazekii) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.7e-56],MGA_608
sequence1	Aragorn:1.2.38	tRNA	776692	776766	.	+	.	ID=Aragorn_23;product=tRNA-Thr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0230;note=Aragorn_23
sequence1	MetaGeneAnnotator	CDS	777234	777863	.	+	0	ID=MGA_609;product=lipoyl(octanoyl) transferase LipB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886386.1;translation=MIRFITLQNLMDYQVTLKLMEDYVNKVINDNEPEIVYLVEHSEVYTAGTNYKQEELLNYDDIPVIYTGRGGKFTFHGPGQRVIYPILNLALPNRHKDLKLYIKMLEEWIINSLNYFGIKGYLIKDKVGIWIKVNKGEFAKIAAIGVRVRKWVTYHGIAINISTDLCKFNGIIPCGLESSLVTSLNQLGIYVEMSEFDKIIQTEFNKIFK;locus_tag=LOCUS_6080;gene=lipB;EC_number=2.3.1.181;note=WP_010886386.1 lipoyl(octanoyl) transferase LipB (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.7e-119],MGA_609
sequence1	MetaGeneAnnotator	CDS	777860	778384	.	+	0	ID=MGA_610;product=YdcF family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596735.1;translation=MIRKFLLIILAIFTLWVGGFGYYLYLINSYKLNSNTTNAIIVFADGGHKIETCMALLKAGYAPILFITGIESTERFKNLLMKHNVIEQQVILAPNKIMSEEDNIKEAINFIVTYNLTLITLVEHNYNIPFMLNKLQKAIPSSNNVYIVPYPVFSKPKYDVLLKSYHRYLMSIVN;locus_tag=LOCUS_6090;note=WP_004596735.1 YdcF family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.6e-96],MGA_610
sequence1	MetaGeneAnnotator	CDS	779197	780348	.	+	0	ID=MGA_611;product=succinyl-diaminopimelate desuccinylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596737.1;translation=MYTHYLKNLVSFKSVTPNSAGAIEYIDDLLKQHSFKTEIKIFGDSKKEQVTNLYAIFGGNEPNICFVGHVDVVPAGNYEFWHNSNPFKFHEQDGKIYGRGTVDMKGAIACFLAASLNFIKNNTDFKGSISFLITSDEEGKSKHGTKEMLQYIYDQRYKIDFAVVGEPTCEKEIGDTIKIGRRGSVNFKLNIVGLAGHVAYPHKANNPLPCLIKILNELINIKLDEGTEFFQNSNLEVTNIDVDNDTSNTIPASAAAHFNIRFNSLHNVETLRQLIEQIIKQYCKEYKVDYKLEYSSSAESFIQNPNDNDKIKKFANVIERTLKIKSKFSTSGGTSDARFVKDYCSLVEFGLLSDMAHKINEYTKISDLQKLYNVYYNFLIEIL;locus_tag=LOCUS_6100;gene=dapE;EC_number=3.5.1.18;note=WP_004596737.1 succinyl-diaminopimelate desuccinylase (Rickettsia prowazekii) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-222],MGA_611
sequence1	Aragorn:1.2.38	tRNA	780489	780573	.	+	.	ID=Aragorn_24;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0240;note=Aragorn_24
sequence1	MetaGeneAnnotator	CDS	780611	781075	.	+	0	ID=MGA_612;product=DNA polymerase III subunit chi;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886385.1;translation=MQQFSIYHTSNELFLKAILRLIEKCYYSNFKSVILTTDVHQQEMLNKNLWTYSRKQFIPHGSKFDPQPAKQPIYITDELQNPNNASVLVIISPTDIAKILQVKEYIKVFKRIIIITDLLENLKELIIKINKFTGQENKIDCFTQNPIGTWNKIA;locus_tag=LOCUS_6110;note=WP_010886385.1 DNA polymerase III subunit chi (Rickettsia prowazekii) [pid:98.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.7e-84],MGA_612
sequence1	MetaGeneAnnotator	CDS	781081	782214	.	-	0	ID=MGA_613;product=LptF/LptG family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596741.1;translation=MIPIQSGNEINKLIQKYMLLYRKYFIKNILPLLIIVTFSVTSIVWITQILKLLYLFDKGIKVIDFFNLVVLVLPTLLFILLPIITVIAVLYIYNNLKVERQLIILQTSGVNNIQLALPALYVALTIMLLAYYISSTILPLSHINLKSRLNFIKNNYISSMIEEKTFNKITKNITVFIDKKLTGNIMNGIIIFDNRNADNPSVVFAGSGTLNIYGNNPIFELNKGLRQEYDANGNLTQLTFDSLMIKLQNNSSLTSQRTQNNKEANEYYISELLTPSHDLVITKKIKLIAEAHQRIIWPLYNFVLPCLALAVFLRYPYSKKTTFMPVLFSALTVLFVTAIHFILQNFASKNLDFIFACYFNLLVALTIGLYLLVHKRI;locus_tag=LOCUS_6120;note=WP_004596741.1 LptF/LptG family permease (Rickettsia prowazekii) [pid:97.5%25%2C q_cov:95.5%25%2C s_cov:100.0%25%2C Eval:2.7e-195],MGA_613
sequence1	MetaGeneAnnotator	CDS	782404	782592	.	+	0	ID=MGA_614;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRDKDTSIIKQIIKIFIDNLVEFQAKYVNKMLRAAWLLGKLERHLSFPVFIMVTKLFTGRLQ;locus_tag=LOCUS_6130;note=MGA_614
sequence1	MetaGeneAnnotator	CDS	782921	783670	.	+	0	ID=MGA_615;product=MBL fold metallo-hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596744.1;translation=MLQVTVLGCGASIGVPVIGCECSTCTSPSKYNKRTRSAIYINDENSQILVDFGFDIRNQLLREKINKLDCAILTHGHSDHVNGIDDLRVFTFMQDKPFEIYTDYNSVAQLHAKFDYLFNLCKLLATKSINFFDKIKINTIEVQFFRQHHGPIDSLGLRIGDFVYSPDVIGFPPESEKFLKDIKIWILDCMDYRSNPNHAGLDKVLAWREKYNPEEILLTNMRHTIDYHEIKKVLPNNVKPLYDGYKFMV;locus_tag=LOCUS_6140;note=WP_004596744.1 MBL fold metallo-hydrolase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-147],MGA_615
sequence1	MetaGeneAnnotator	CDS	783674	784396	.	+	0	ID=MGA_616;product=amino acid ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599689.1;translation=MIILEKVSKHYGKNYAIKNIDLNFTTKETTVIIGPSGSGKTTLLRILNNLEEPSSGTFLVDQQKLMQKDRRKLCLKVGMVFQNFNLFPHFTVGENLMYTPVNVLKLPKEQAISMAIELLTKFKLIQKFYAYPTSLSGGQKQRIAIARALMMKPEILLFDEPTSALDPENIKDVIENINLLKTQMSMVVVTHHLKFAKLIADRIIFMDQGQILANQPANEFFKKPASHRARLFLENIGDLM;locus_tag=LOCUS_6150;note=WP_004599689.1 amino acid ABC transporter ATP-binding protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-132],MGA_616
sequence1	MetaGeneAnnotator	CDS	785328	786023	.	+	0	ID=MGA_617;product=TIGR02281 family clan AA aspartic protease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596749.1;translation=MNKRLIKLIFIVCSTVIVTGVLYKYINQNYPKFFKESQNIVSFYALLLLLFSIIYSTFSRKEIRRFCFQLAMWAVIFLVIITGYAFRFELHYAYHRVISALIPSYKWSTEVGEIIIARSGDGHFYINACVNNVKIKFMVDTGASDIALTKEDAQKLGFDLNKLKYTRTYLTANGENKAAPIILNSVVIGTEFKNIKGHVGLGNLDISLLGMSLLERFKGFRIDKDLLILNY;locus_tag=LOCUS_6160;note=WP_004596749.1 TIGR02281 family clan AA aspartic protease (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.9e-129],MGA_617
sequence1	MetaGeneAnnotator	CDS	786131	786454	.	-	0	ID=MGA_618;product=YbaB/EbfC family nucleoid-associated protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596750.1;translation=MVNFNQFLKQAQSMQKKMQEAQEQMANTRYTGKAGGMLVEIIITGKGEVEKISIDESLLKTEEKEMLEDLIKVAFNDAKQKCDEDSQNSLSGALNGMSLPPGFKIPF;locus_tag=LOCUS_6170;note=WP_004596750.1 YbaB/EbfC family nucleoid-associated protein (Rickettsia prowazekii) [pid:94.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-51],MGA_618
sequence1	MetaGeneAnnotator	CDS	786459	788084	.	-	0	ID=MGA_619;product=DNA polymerase III subunit gamma/tau;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_037215687.1;translation=MRRSDLRSLLLLHKEDRLPLLSAMTKTTSITIIIVLENSSNQYIPFARKYRPSNFTELQGQEVLVKILSYTILNDRLVGGYLLTGIRGIGKTTSARIIAKAVNCSALITENTAIKTCEKCTNCVSFNNHNHPDIIEIDAASKTSIDDIRRIIESAEYKPLQGKHKIFIIDEVHMLSKGAFNALLKTLEEPPPHVIFIFATTEVQKVPSTIISRCQRYDLRRLSFEEIFKLLQYITKQENLIADVEALRIIAHKSEGSARDAVSILDQAASMSAKSGNIISPQIINQMLGLVDTSFILEFIENIISRETEKAINLINKLYYGFSINLETFIKSVADFIAYLNKVKILPNYSLPIYESFNYRTKSILDKISLPHLSILWQIYNKGVTEIKISYNQLIETEMLVIKSIYSTSLPLLNDSNANIMNADNSGIKKIEILDFLEYLYKNNEIDIYYFLLNHTELKKLSDNRLELYSLEVTHKLKKQIEDLLAAFTKEKPEFIVIKEQNKQTLKGQLINKIETSNDFSLIKKHFPNVKITDILLKIKG;locus_tag=LOCUS_6180;gene=dnaX;EC_number=2.7.7.7;note=WP_037215687.1 DNA polymerase III subunit gamma/tau (Rickettsia prowazekii) [pid:99.8%25%2C q_cov:93.7%25%2C s_cov:100.0%25%2C Eval:2.4e-286],MGA_619
sequence1	MetaGeneAnnotator	CDS	788234	788875	.	-	0	ID=MGA_620;product=outer-membrane lipoprotein carrier protein LolA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599686.1;translation=MKKILFLTVICFCLSSIKAYANNNIHLSEFKNYLRTIKSVAIDFTQEDSYGKIVKGKLLIQKPYNFRCNYYPPFPLVIIGTKNFVSMYDYDMEQVSRISPSENIFNFLLEDNVDFDKDFVFESVINKGNIFNITIYHTRTEKRSEITFNKNIKQIEKLKIFEDHNIVTITFDKITKVQKFSDDLFKFKNPEIFSPPERLIKSEIEKKYVVSSK;locus_tag=LOCUS_6190;note=WP_004599686.1 outer-membrane lipoprotein carrier protein LolA (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-120],MGA_620
sequence1	MetaGeneAnnotator	CDS	788942	790093	.	+	0	ID=MGA_621;product=NAD(P) transhydrogenase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596753.1;translation=MKIVALKEKVKNETRTAITPEVAGLLIKKGYAVTVEKDIGLYAGFLDEEYVAVGTKISSVPLEIISDADIILKVQPSSVTDKYSELEFAKQGAIVVGLLSPYLNHEYIKAAAKKNLTTFAMEFVPRITKAQNMDALSSQSNLVGYRAVIEASYHYTKAFPMMITAAGTISACKTLVLGVGVAGLQAIATAKRLGSIVAGYDVRIATKEQVESLGAKFVSPELQEDLEEESGYASESSADYKAKQEKFLAKIIKGYNIVITTAQIPGKKAPMLVTDKMIESMMYGSVIVDISTSTGGNVEGSEPDKIVTRHGVTIIGLLNLASKIASDSSKLYSKNLYNFLTYALQDGQFNMDDELVRDMLITKDGKIVNYIIREKYESITDNG;locus_tag=LOCUS_6200;note=WP_004596753.1 NAD(P) transhydrogenase subunit alpha (Rickettsia prowazekii) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.8e-209],MGA_621
sequence1	MetaGeneAnnotator	CDS	790068	790466	.	+	0	ID=MGA_622;product=proton-translocating transhydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596754.1;translation=MNQLPIMAKQAAEIASNAQELSNKLKDLVIDASWQTNTNTIDPLVFAITIFVLASFVGYYVVWKVTPALHTPLMSITNAISGIIVISSMIAITSSSAFEFSSLLGSFATLLASINIFGGFIVTTRMLEMFKK;locus_tag=LOCUS_6210;note=WP_004596754.1 proton-translocating transhydrogenase family protein (Rickettsia prowazekii) [pid:93.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-62],MGA_622
sequence1	MetaGeneAnnotator	CDS	790539	791027	.	-	0	ID=MGA_623;product=transcription elongation factor GreA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596757.1;translation=MNTKFPITAKGFKKLEHELKHLKHVERKKISEDIAEAREHGDLSENAEYEAAREKQAFIEGRIKELEDMTARAEIIDICKLSGDNIKFGATVTLIDDDTEEEVTYIIVGEYEADITKKRVSIASPIAKALIGKSVGDFVEVTTPKGLKSYEVVTVEYKELDL;locus_tag=LOCUS_6220;gene=greA;note=WP_004596757.1 transcription elongation factor GreA (Rickettsia prowazekii) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.3e-83],MGA_623
sequence1	MetaGeneAnnotator	CDS	791298	791912	.	+	0	ID=MGA_624;product=SEC59/DGK1/VTE5 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596759.1;translation=MKTEDFDFEKKRKIFHISAIIFPMFYLFVPRIAIALLLFIITSITLYLDVIRHNNAKIRKFVTRFFSKIIRLKENNGTFALSGISFMMLGFFLTSILFPKNLVICSWLILIISDCLAALVGIKIGSSLSNGKSIAGSFTFFVSALFISILVYFYLGYNTSFVIIIISCIGATAVEFYSKYLRINDNLSIPLSYCLSTTIFPYIL;locus_tag=LOCUS_6230;note=WP_004596759.1 SEC59/DGK1/VTE5 family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.8e-111],MGA_624
sequence1	MetaGeneAnnotator	CDS	791917	793698	.	+	0	ID=MGA_625;product=DNA primase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596761.1;translation=MRVTQEFYEFLRNRINISDVVRQKLALTRKSSNYVGLCPFHQEKTPSFTVSDSKRFFYCFGCKASGDVIKFTSNISGLSYNESAIKLANDYGIEIPKLTVKQKEFYEESDNILNILELANKFFRTQLTPEILNYLYKRNITETTIKEFSIGFAPRNNKFEKFFLDKKIDITKLGQAGLIGKCKNGKIYNLFSNRITIPIRNIYNKIVGFGGRVLGNELPKYLNSFETIVFQKSDILYGEHKAISSSYKKNRSILVEGYFDVIALHQAGFNEVVASLGTSVTESHLHKLWRAGDEIILCLDGDNAGIKASIRTINLALPLVNSEKKISFIRLPSGLDPDDAVNKNGADFFAKLIDKRISLSEMIWHIEYSGKNFRTAEEKANLEKNLKDYCNKISDSNLKASYYRFFKDQIWQNLVTKQKKIITPSSNSVLIASSHCYSELEMLEHAFCALLIKFPIMFAEKDIRDFILNLNFNNKSLEEFRNWYLNEIIDNKVKENEITAIVEKTSFFDIFLLLSKADNLFLDISFNKNNIRLDLLWQWLYKKYYLINLQQEYAISINSNHDFEKVLLYKKEIIKIVNELQVLNESFINQTIT;locus_tag=LOCUS_6240;gene=dnaG;note=WP_004596761.1 DNA primase (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_625
sequence1	MetaGeneAnnotator	CDS	793717	795624	.	+	0	ID=MGA_626;product=RNA polymerase sigma factor RpoD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596762.1;translation=MSNSNIDNDPAKIDSLLKKAKSKKIPVTYDDINKALPLNKNPSIRQLEEAILKFSDAGVDILESNEDDEIKLDIGMDEEFKLSTNVDNESEDEVEEENIGSTDDPVRLYLKDMGGVDLLTRENEVEIAKRIEEGRKTMTASLCRSPIAMRCFIVWYEDLVNEKMLLRDLIDLEANMLHDEVHENDEEHNSETEVEEHEDNHLSMSRVETQILHNIIDRMKKISFICEELLIEAKKCYEESFEPKVLQNSKKYNNNLELLINEVSEIHFNSKRTEEILGKMYGINRDLINKETAFLKLAEKYGVTRQNFLDEYIGSVINAAWKEKMLKNKKVAWKELITKESDYIDQMINELSVIESNTGLLVNDFKKLVNTIQKSERQTLQAKKDMIEANLRLVISIAKKYANRGLQFLDLIQEGNIGLMKAVDKFEYRRGYKFSTYATWWIRQAITRAIADQARTIRIPVHMIETINKILRTSRQMLNELGYEPTATEIANRLSMPLDKVRKVMKIAKEPISLENPVGDDSDGGQLGDFIEDKNAVAPIDAAIQSNLREVTTRVLATLTPREERVLRMRFGIGMNTDHTLEEVGQQFKVTRERIRQIESKALRKLQHPIRSKKLNSFRNGGKRGDGNPSDLLEA;locus_tag=LOCUS_6250;gene=rpoD;note=WP_004596762.1 RNA polymerase sigma factor RpoD (Rickettsia prowazekii) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_626
sequence1	MetaGeneAnnotator	CDS	795697	796458	.	+	0	ID=MGA_627;product=tRNA pseudouridine(38-40) synthase TruA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596764.1;translation=MIKSQDDSMYRYKITIEYLGTHFAGWQRQAGVLSVQQILEEAIYKFSSEQVTLFGSGRTDAGVHAIGQVAHFDLSKYLEPYKIIKAINYFVRPYDVGVWNCELVSNNFHARFSAISRHYIYRIINRTYPSVIDFNRAWWISSPLDILAMQKAAAYLLGKHDFTSFRSSSCQSKSPIKTLTEINIIKEYEEIKLYISAPSFLHYMVRNIVGSLVLVGKNIWQAEQIKNVLDARDRKIAGPTAPAFGLYFIKAEY;locus_tag=LOCUS_6260;gene=truA;EC_number=5.4.99.12;note=WP_004596764.1 tRNA pseudouridine(38-40) synthase TruA (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:96.8%25%2C s_cov:100.0%25%2C Eval:1.1e-137],MGA_627
sequence1	MetaGeneAnnotator	CDS	798333	800966	.	-	0	ID=MGA_628;product=alanine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599684.1;translation=MTKFTTEEVRSKFITYFKANNHTHVPASSLIPDNDPSLMFVNSGMVQFKNVFTGQEKRSYNKAVTSQKSLRAGGKHNDLEHVGYTARHHTFFEMLGNFSFGDYFKEQAIYYTWDLLTKEFELPKDKLYVTIYHTDDPAASYWKKIAGLKDDRIIRIKTNDNFWSMGDTGPCGPCSEIFFDHGEEIYGGLPGTKDENCDRFIEIWNMVFMQYEQINKETRIELPKKSIDTGMGLERMTAVLQHVNNNYDIDLFQEIINFTENIVKIKVDGEAKFSYRVIADHLRASSFLIADGIIPSNEGRGYVLRRIMRRAMRHAHMLGAKEPLMYKLLPKLVDLMGNIYPELKIAESFISSILEQEEIRFKTTLERGLKLLTEETKTLTKGSKLSGEVAFKLYDTYGFPLDLTEDILKNRDITVDHKGFEELMLTQKERARKSWLGSGESKTDQLWFDIKEQYGSTEFLGYTLNEAECKIIALIKNNNLVDNIQEINTQFLLIANQTPFYGESGGQMGDIGMIFSQGSEIEVIDTFKYLRSIIVHKCILKKGKINIGENANLNINIRYRQNLRIHHSATHILHAVLHKILGKQVIQKGSLVTSTYLRFDINHSKAITNQEITLIEDQVNEIIRNNHEVTTTVMFTEDAIKQGAIALFGEKYDSEVRVVKIGETSLELCCGTHVKRTGDIGSFKIISESAIAAGVRRIEAVCGEFVIKLIRERDSLLKSIESSFKTNKNELITKVINILERNKELEKELEKAHLASLDLSIEQIKKQTKEITGIKLLYKEVGNINNKILRQAAENLTKKVENLIVVYIAHGVDKLSITVAVSKAITDKFNAGIIAKELSLFLGGSGGGGQASIAQAGGNDIINLTNINKKLWSLIVT;locus_tag=LOCUS_6270;gene=alaS;EC_number=6.1.1.7;note=WP_004599684.1 alanine--tRNA ligase (Rickettsia prowazekii) [pid:95.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_628
sequence1	MetaGeneAnnotator	CDS	801157	802719	.	+	0	ID=MGA_629;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596770.1;translation=MIKINLFMKNISDSIKLHFLTKLKIFSFKREKIVVLLGNKGVFLSTFLNNKLLDQLFIPTQGQIDLTPYKNFLSKFPKSDVYFLLDGSECKMRYDQIPILQSIVKIDPIEQFIEGYFNKEDIIAHCVYEITTKPSEIWSTLIMSCPFETPLSDIISCIIDKRSLDLKGIHFLTLELKVIINKIVQNIQNDKYNDYFQVCVYVSQTSGIKFIIKHKNNIITIRNLDYPFDKTTNYVQGIIEQEIHDFFILFKNYISNLDQRVCIILIVDDELKSLLESTNFEDRNVIFIPVDNILNKQTLEKERFIDANISRLFLEYKSFPAYNNNLKSIKKLVTIKDLTFKLYTTLLIVLLLIVCIIKYNTKQNYKDINSINEKYYATNQEYDSIKYKYPYIKNTTSLADLYVIEKLLETPVPLPFDLLERLIINLNPAFKLEEIKWELTNIDNILLISKRQLIIKLILKYHTNNLSIDESLKLLDDHMQNIKNKLSHLQIDYVIYKDKILDIFGKLVIPLSVNVVDYKT;locus_tag=LOCUS_6280;note=WP_004596770.1 hypothetical protein (Rickettsia prowazekii) [pid:97.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-292],MGA_629
sequence1	MetaGeneAnnotator	CDS	802883	803521	.	+	0	ID=MGA_630;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599683.1;translation=MFEKYIMYLKNLIFFQFIVYFFFISLTILIIKNFQQEYSKSILDKQVAQENLTEEVLKLYSVINSKEEILESYKKYVALSVPKNSVSCLNYQELIPRIKSLGSKYNLVEPIDVSINSVFFKNNVQVIEGENESIHVNNYSINIKYACADFLTFLKIFSEIYSYMPPNTLISFVRVRNEEVLTPKNIYKLSVNHAPNLIYTKLILYIRELSSK;locus_tag=LOCUS_6290;note=WP_004599683.1 hypothetical protein (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-114],MGA_630
sequence1	MetaGeneAnnotator	CDS	803528	804496	.	+	0	ID=MGA_631;product=RP853 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599682.1;translation=MNNAIVLNNVNTNLFKKDIINNFVNNLTKSTCSTIANMLAIDYTLRLNSKPEAEKYIKKCVTRLKSYLGMRVINDDNFSVALELFAIMITYEYENEQNKDNILEQSQNVIAANLVEVYFSDAKITSSEKEKIKNIFKTLLKEKNFDKIINYAESHKKLFKMSVMYAMQKYNNIDQATIYIKKEFNKILDMSLAFTQKCNIFKQTTGKIVGAVCALLVGAISVATAGAAFSIIIVPTLIFAIRYAPALGEKIGEFILNNDNVIKLEQSNIDEFMKTLQNNKENLLSQEKVKKIKNNITVVPPTINSKLIKKVVNNKKNIDRIY;locus_tag=LOCUS_6300;note=WP_004599682.1 RP853 family protein (Rickettsia prowazekii) [pid:96.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.9e-172],MGA_631
sequence1	MetaGeneAnnotator	CDS	804708	805955	.	+	0	ID=MGA_632;product=MHS family MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596777.1;translation=MRKIIIPAMIGNAAEWFDYALYAQFAYIIGQHFFPNSSMRDTLTFAVFAAGFIVRPLGGIIFGNIGDRLGRRAALVIGIITMTVPTAGIGLLPSYNTIGIAAPIILTIIRLIQGFSLGGEFSGCISYIVEHAAIEKRGLAGSASFVSMCGGMLLGLLTASGFSYFMSDDILFEWGWRVPFIVGLFIGSIGLYIRKNLAESPIYKKAKERGRLARFPLRETLTQYPKELMIALGLYITVTAPFYTLTVFIGNFMQTLGYSNQQSTIVNSIILIVMMIVFPISAYVSDKVGRRPVLICAIILLILLVYPIFVALGSMNITLAIISQVIFAGIIATYMGPIPTVLVEIFPTRVRFTGVALSYNLAAAIFGGTAPMVAMILTRITGDNYAISYYLIALSLLSSIFLKFYKETYKKNLVN;locus_tag=LOCUS_6310;note=WP_004596777.1 MHS family MFS transporter (Rickettsia prowazekii) [pid:94.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.2e-219],MGA_632
sequence1	MetaGeneAnnotator	CDS	805977	806606	.	+	0	ID=MGA_633;product=epoxyqueuosine reductase QueH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599681.1;translation=MTEVFEIPNGENKVLLHCCCAPCVGPIMEKMIDSRIEYTLFFYNPNIHPKKEYELRKNENIKFAKKHNIEFIDADYDPQNWFRRAKGMEFEQERGKRCTMCFDMRFERTALYAYENGFKVITSSLGISRWKDITQINESGIRAASHYDGVTYWTYNWRKNGGASRIYEIAKEEHFYKQEFCGCIYSLRDTNAWRVANDRPKIDIGKEYY;locus_tag=LOCUS_6320;note=WP_004599681.1 epoxyqueuosine reductase QueH (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.1e-127],MGA_633
sequence1	MetaGeneAnnotator	CDS	806793	807662	.	+	0	ID=MGA_634;product=glycine--tRNA ligase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596781.1;translation=MKKLSFQQIILILQNYWQDYGCAILQPYDAHVGAGTFHPATVLRCLGDKPWFIAYVQPSRRPGDSRYGMHPNRMQHYYQFQVILKPSPDNIQDLYLKSLESLDLDLKTHDIRFVEDDWESPTLGASGLGWEIWCDGMEVSQFTYMQQIGGIECYPVACEITYGLERLALYIQGIDEVKELDWNGQIGEKALKYGEVDFEAERQFSKYNLEFADSEMLLRRFKDSVEQCERLVKVNLPMPAYDECLKASHYFNQLNALGVISVTERASYVLRVRDLARICCIKWLELSSE;locus_tag=LOCUS_6330;EC_number=6.1.1.14;note=WP_004596781.1 glycine--tRNA ligase subunit alpha (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-170],MGA_634
sequence1	MetaGeneAnnotator	CDS	807655	809649	.	+	0	ID=MGA_635;product=glycine--tRNA ligase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599680.1;translation=MSELLLELFSEEIPAFMQKNAEEGYLKIFTKIFEENEIFAKVQVFAGPRRITLHATHVPKVILPKEEEIKGPSIEAPEIAINGFCKAHNVSKLDLSTKLRNNKLYYFFVKKTKQRETKEILPKIIIDAINKYSWTKSMFWGCYKIKWIRPLRNILCIFDGEILPLRFGHLSTNNITYGHRLTNNKKLEIIDFENYRNKLLENNVILERLKREEIIKVGLLELANAQNLNIKQDVCLIEEVTGLSEFPVVLLGKIPQKFLELPEEVIVSVMRTHQKYFCLFDKNGSFAPYFLFVINGRFVNTELIIQGNEKVLSARLADALYFYKNDIAKTLESRLDKLKSVIFHTKLGSLKEKVDRITDICRYIAPDNIDLIMAAKLCKSDLVSDMVGEFPDLQGIMGYYYAKHEELNEEVAKAIRDHYKPQGLNDNVPSGNATLLALADKLDSLVGLIIVGETPNGSGDPYALRRQALGIIRIIIENKLEINFINLISFSVSLYKVSSNSHLDSVISFFEERAKFYFKNDYDITLINAVLDLNLVDTKFKLDTLKEFLVQDVGKQLLNAYKRVSNIMGNQKITGLVDASLFSTQYEKELFEVIQKISQQIIVIIANKDYQKALNLLSSLLKPITSFFDNVLVNDSDPKIAQNRLSLLQNTCEVFDKVAKFCRL;locus_tag=LOCUS_6340;gene=glyS;EC_number=6.1.1.14;note=WP_004599680.1 glycine--tRNA ligase subunit beta (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:99.5%25%2C s_cov:99.5%25%2C Eval:0.0e+00],MGA_635
sequence1	MetaGeneAnnotator	CDS	809810	810751	.	+	0	ID=MGA_636;product=L-threonylcarbamoyladenylate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596784.1;translation=MINKAVQFIKSGKVVVFPTETVYGIGADATNNEACLKIFQFKNRPAINPLIVHVTSIVQAKAIGEFNKLAEKIASKFWPGPLSIVVPLKDNVNIAPSVTAGLNTIALRIPSYPIALALIRQSVVPIAAPSANPSNYISPTNAEHVTKHFKDNREIFILAPEIYQCEYGLESTIIDTTTVIPTILREGFITSEILEELLGVKILKASEINSIVKAPGMLKKHYSPNVHVRLNAINLNDKEIGLNFGNSNLTGKFALNLSTEGNIIEAAANLYSYLRILDDYAVSNDINCIAVAPVPLTNIGAAINDRLKRAAKS;locus_tag=LOCUS_6350;EC_number=2.7.7.87;note=WP_004596784.1 L-threonylcarbamoyladenylate synthase (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.6e-173],MGA_636
sequence1	MetaGeneAnnotator	CDS	810717	812273	.	-	0	ID=MGA_637;product=bifunctional peptide chain release factor N(5)-glutamine methyltransferase PrmC/tRNA (guanosine(46)-N7)-methyltransferase TrmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599678.1;translation=MQYSIKQILSNANDKLNKIGINLPGLEARILLQHVTNKPIEHLLIKLNEQLSEAEIEAFEKLLERRLAHEPIAYIIGVKEFYSREFIVNKHVLIPRIDTEVLVDVVIGLVVSRNNLHMFSKLKSLDSVLTTQSYNILELGTGSGCIAISLLCELPNTNIIATDISVDAIKVAKSNSIKYNVTDRIQIIHSNWFEKLDKQKFDFIVSNPPYISHTEKLKMAIETINYEPSIALFAEEDGLEAYSIIAKNAKQFLKPNGKIILEIGFSQAAKVSKIFLNYGYNIDYIYRDLQSHNRVIEISPINLNRSYARRIGKSLSKMQQKLLDNELPKYLFSKEKFKSEKRKVFLEIGFGMGEHLINQAKINPDTLFIGVEVYLNGVANVLKHSAQHNITNFLLFPNNLDLILNDLPNNSLDGIYILFPDPWIKNKKKKKRIFNKERLKILQNKLKNNGNLVFASDIENYFYEAMALIRQNGNFEIIHNDDYLQPHDNYIITKYHQKAINANRTAKFMILQHALTDH;locus_tag=LOCUS_6360;gene=trmB;EC_number=2.1.1.297;note=WP_004599678.1 bifunctional peptide chain release factor N(5)-glutamine methyltransferase PrmC/tRNA (guanosine(46)-N7)-methyltransferase TrmB (Rickettsia prowazekii) [pid:95.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.9e-281],MGA_637
sequence1	MetaGeneAnnotator	CDS	812735	813676	.	-	0	ID=MGA_638;product=RluA family pseudouridine synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596790.1;translation=MLTYNVPKELNNTRLDKALSLLLKKVSRNQVQKAIKNYCVQVNGVIISDSDVLVKENDTILFSFKEPEELKITAANITLDIIYEDDDLIVINKAAGMTVHPGIRHHDNTLVNALLHHTKYLSDIGSAERPGIVHRLDKDTTGLMVVAKNNKTHILLANQIKQRQVIRKYKALVWGVINPLEGIIKNNVGRNRNNRKKMTILKYGGKKAVTYYKTLELFYGGTLSMVECKLSTGRTHQIRVQLSNLKHSVVGDQTYGNNNRKIINSPPKLKAKLIAFKRQALHSWYLSFTHPTSNDIMAFSCELPRDMQEIITD;locus_tag=LOCUS_6370;note=WP_004596790.1 RluA family pseudouridine synthase (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-175],MGA_638
sequence1	MetaGeneAnnotator	CDS	813693	814469	.	+	0	ID=MGA_639;product=uracil-DNA glycosylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596792.1;translation=MNDMFKWLNAIGVEYYCYEHTPQLKISHNTAITEKKQVKLMHTTEAVFNNNVHDNITLSRSLADKANNIVELRESLLNFNGCELKKFATNTVFGDGNPQANIMLIGEAPGNTEDLKGIPFCGESGNLLDNMLYAIGISRNNFYITNMVFWRPPANRQPTLEEVDICRPFVEKHIALINPKLLILVGSTAATSLLGKNACITKIRQEYYFYTNKYISTPIQTTAIFHPAYLLRQPMQKRTSWYDLLKIKEYLVNNRVIA;locus_tag=LOCUS_6380;note=WP_004596792.1 uracil-DNA glycosylase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-150],MGA_639
sequence1	MetaGeneAnnotator	CDS	815056	816366	.	+	0	ID=MGA_640;product=citrate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596795.1;translation=MTNGNNNNLEFAELKIRGKLFKLPILKASIGKDVIDISRVSAEADYFTYDPGFMSTASCQSTITYIDGDKGILWYRGYDIKDLAEKSDFLEVAYLMIYGELPSSDQYCNFTKKVAHHSLVNERLHYLFQTFCSSSHPMAIMLAAVGSLSAFYPDLLNFNETDYELTAIRMIAKIPTIAAMSYKYSIGQPFIYPDNSLDFTENFLHMMFATPCTKYKVNPIIKNALNKIFILHADHEQNASTSTVRIAGSSGANPFACISTGIASLWGPAHGGANEAVINMLKEIGSSENIPKYVAKAKDKNDPFRLMGFGHRVYKSYDPRAAVLKETCKEVLNELGQLDNNPLLQIAIELEALALKDEYFIERKLYPNVDFYSGIIYKAMGIPSQMFTVLFAIARTVGWMAQWKEMHEDPEQKISRPRQLYTGYLHREYKCIVERK;locus_tag=LOCUS_6390;EC_number=2.3.3.16;note=WP_004596795.1 citrate synthase (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-255],MGA_640
sequence1	MetaGeneAnnotator	CDS	816675	817670	.	+	0	ID=MGA_641;product=GTPase ObgE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599676.1;translation=MHFIDEVKIYIKGGNGGNGCISFHREKFIDRGGPDGGDGGFGGSVIFRSNHHINTLVNYRYQQHFTAENGENGKGSNRSGKSGKSLILDVPVGTQIFSQDGDILLYDFTEDEKSFEIIKGGCGGLGNSHFKTSVNQAPRKSTEGEIAEEMWIHLRLKLLSDVGLIGLPNAGKSTFLSVVTAAKPKIADYPFTTLVPNLGVVYIDDEEFVIADIPGLIAGAHQGYGLGDKFLKHIERCNVLIHLIDGASNNVIADYNTVRFELESYSDYLKNKIEIICLNKCDVLVDEEIQKKIKKLQKVTNKVVHPISTYNNQGVNKIVKLALEIIKNQKY;locus_tag=LOCUS_6400;gene=obgE;note=WP_004599676.1 GTPase ObgE (Rickettsia prowazekii) [pid:93.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-177],MGA_641
sequence1	MetaGeneAnnotator	CDS	817743	819080	.	-	0	ID=MGA_642;product=trigger factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599675.1;translation=MGIIVLKNEGLNFHARISTPLSEIDDDIQKELLDLTKKVKVAGFRAGKVPVSIVKKKYGTSVRHDIIEKRINNLVNHIIKEYNLNIIGRPKIEELQNEPDKDLEFTVKIELLPKITIPDLKKISLDRPKLAVNSQDVEIQLEKLAALTKCYTKESKTKIKDGDQVTIDAIGYIKDRAFDGGKLNDFKVVIGSNTLIQGFEQQLIGSKTGNEVDVNVTFPENYHDKNLSGKDAHFVVQIKAVHTAEPTIIDEEFAKKFQSNSLEELRTHFAKQIENESEEAINTIMKMNLFDKLEKLLDFDVPESLLEQEKNILKSETDKNKHDGSLLNGKSSKEITEYYNKLALRRVRIGLLLAEYAKFKNLQLEPDDFKKIIMQQARNFPGQENMIFDFYKNNPRAIEGLKGPALEDKTVQYIFNNEIQLKEKRYTKEELEKYLETEEQRISLI;locus_tag=LOCUS_6410;gene=tig;EC_number=5.2.1.8;note=WP_004599675.1 trigger factor (Rickettsia prowazekii) [pid:97.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-244],MGA_642
sequence1	MetaGeneAnnotator	CDS	819812	821056	.	-	0	ID=MGA_643;product=5-aminolevulinate synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596804.1;translation=MSYYDTIFNKHIDKIKSEGRYREFKSLKRQADNFPFAEYEDKQIVMWCINDYLGMSKHVKVMQASIDALLKYGVGSGGTRNIGGNNISILELEKELADLHSKETALVFTSGFVANDTTLASLAKIIPDIVFFSDELNHASIIAGIKSSRAEKYVYRHLDVQHLEKLLQSVDINKPKIIVFESAYSMDGFFSPIKDIINLAKKYNALTFIDEVHTVGLYGKQGGGISELLDCSNQIDIIQGTLAKAYGTIGGYITSNYNLIDAIRLTAPGFIFTTSLPPVISTAATHSIRHLKESNEERIKHQEVVTKLKNSFEHFNIPYLKNESHIIPIIIGDPIKATKVSNMLLNEYGIYVQHINFPTVPRGTERLRIIPTPAHTDKMINDLSTALVHIFDELDIELSSAKELNKEVRLHLIA;locus_tag=LOCUS_6420;gene=hemA;EC_number=2.3.1.37;note=WP_004596804.1 5-aminolevulinate synthase (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-236],MGA_643
sequence1	MetaGeneAnnotator	CDS	821219	823084	.	-	0	ID=MGA_644;product=molecular chaperone HtpG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599674.1;translation=MTQEKKKFDAEVGKILNLMIHSLYSNKEIFMRELISNASDACDKLRYLSQSNSELIAGDSNFKIIVKVDKDNGQIIIRDNGIGMNKEDLIENLGTIARSGTANFLKNLSGDSKKDNMLIGQFGVGFYSSFMVADKVTVTSRKAGESKVHTWESDGLGEYIVADSEQEFTRGTEIVLYIKKSETTFLDHFRLKHIVKSYSDHIAVPIYFCDEAGNNEIQLNSASALWTRPKSEITEDQYKEFYKSLSYAVDDPWVTLHNKNEGAIEFTNLLFIPSSKTFDLFHPDRKKRVKLYIKRVFISDENIDLIPSYLRFLRGVVDSEDLPLNISRESLQHNNVLEKIKNAITKRVLGELRKKKEELPEEYNKFWTNFGGALKEGLCEATTDHEKLLEVCIFRSALHNKMISIDEYIANFKEGQNTIYYLSGDNPDKLLSSPQIEGLLNKNIDVLLFTDTVDDFWVNVNSEYKGYAIKSATRSDIDVEQTTSQPKDKNTDSKKSDNEYKLLTDYFKEILGELVKEVKISKKLTLSPACLAVSDTAMDIRMERFLIEQKQIANASAKNLELNPKNKIIEKIFNDLKANNKNNNELVNLIFDQACILEGEPVADTGAFSKRLNDILQKAIL;locus_tag=LOCUS_6430;gene=htpG;note=WP_004599674.1 molecular chaperone HtpG (Rickettsia prowazekii) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_644
sequence1	MetaGeneAnnotator	CDS	823242	823559	.	-	0	ID=MGA_645;product=DUF167 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596809.1;translation=MNKFYIYNSFKHEALINVKVKPYAKQNLIGNFVIINNIPYIKLAIKATPEQGKANEGIIHYLAKEWELSRSSIEIIKGHTHSLKTILIKNINEDYLNLIINAYIK;locus_tag=LOCUS_6440;note=WP_004596809.1 DUF167 domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.1e-55],MGA_645
sequence1	Aragorn:1.2.38	tRNA	823658	823734	.	+	.	ID=Aragorn_25;product=tRNA-Arg;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0250;note=Aragorn_25
sequence1	MetaGeneAnnotator	CDS	825706	826527	.	-	0	ID=MGA_646;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596814.1;translation=MTKFVLLVTSILLLGCSTTHDVASRIKHAQEIATQNNFQMRLINGGDFTLTTFQRITASHLPFVFYIEGDGHLTDNGIHSNNPTPVNLMLLKLATIDKRLNVVYIARPCQYTPLEMNSKCISNYWLDKRMGQEVVDSINNVINIINNGQKFSLIGFSGGGGLAILIAAQNSDVKDIITIAGNLDTEKFDKYHNYRGYLVKSLNPINYAKQVDNIPQLHLSGMDDKKVPPFIAEQYVKTSNSLCVKQYTLPNISHTKGWDKVWPHILDIPLICN;locus_tag=LOCUS_6450;note=WP_004596814.1 alpha/beta hydrolase (Rickettsia prowazekii) [pid:94.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-149],MGA_646
sequence1	MetaGeneAnnotator	CDS	826652	827110	.	-	0	ID=MGA_647;product=single-stranded DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596816.1;translation=MAGSLNKVILIGNVGRDPEIRTTGEGKKIINLSLATTETWKDRITSERKERTEWHRVVIFSEGLVSIVERYVTKGSKLYIEGSLQTRKWNDNSGQEKYTTEVVLQNFNSQLILLDHKNSNQNTQGSGHHEYKYPETKNHSFDHSDLDDEIPF;locus_tag=LOCUS_6460;note=WP_004596816.1 single-stranded DNA-binding protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-85],MGA_647
sequence1	MetaGeneAnnotator	CDS	827217	830078	.	+	0	ID=MGA_648;product=excinuclease ABC subunit UvrA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596819.1;translation=MNQEYIKVRGAKEHNLKNINVDIPRNKFVVITGLSGSGKSSLAFDTIYAEGQRRYVESLSSYARQFLHLQNKPNVESISGLSPAIAIDQKTTSKNPRSTVGTITEIYDYLRLLYARVGIPYSPVTSLPIHSQTVAEMVDIINELPKGTKVYLLAPIVRGHKGEFKREIMNLKKQGFQKLIVNGEVCEIDDLPKLDKNKKHNIEVIVDRIVLDENLGNRLADSLESSLNLADGITYLEIVELPQAVKSQFEKNQRITFSEKYSCPVSGFQLTEIEPRIFSFNSPFGACPKCEGIGKEFFFDRDLIVQDQRISIKDGAIVPWGSTSSKFILETLKALADHYKFSIEVPFISLSQSVKDILFEGSGEEEIKFEFHDGSKTQIIKQPFAGIIPSLQEKDRTIESVLIKEELAKFKSEHKCTACSGFRLKDEALCVKIANLHIGEVAGMSIAALQKWFIHLEEKLNQKQLFIAKRILKEINERLKFLMNVGLDYLTLSREAGTLSGGESQRIRLASQIGSGLSGVLYVLDEPSIGLHQRDNTRLIATLKRLRDLGNTVLVVEHDEETMYEADHIIDIGPGAGIHGGRVIAEGNAEKIKHFEESITGRYLSGRQTIKVPSETRVGHDNRAIELLGAVSNNLDNVDIKIPLGTFTAITGVSGSGKSSLMIHTLYKAALKHLEPTSKVFPGKYRELKGLEYIDKIIDINQSPIGRTPRSNPATYTGAFTHIRDWFVELPESKARGYKVGRFSFNVKGGRCEACQGDGLIKIEMHFLPDVYVKCDICNGHRYNRETLEIKYKGKSIADILMMTVEDAMQFFDKIPLIYEKLITLNEVGLGYIKIGQSATTLSGGEAQRVKLAKELSRRSTGKTLYILDEPTTGLHIDDIKKLLKVLHKLVDMGNTVLVIEHNLDVIKTADYIIDVGPEGGDKGGKIVVCGTPTDIAACKESHTGRYLKQYLI;locus_tag=LOCUS_6470;gene=uvrA;EC_number=3.1.25.-;note=WP_004596819.1 excinuclease ABC subunit UvrA (Rickettsia prowazekii) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_648
sequence1	MetaGeneAnnotator	CDS	831104	831805	.	-	0	ID=MGA_649;product=metal ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596821.1;translation=MQKPIIEFRNVSKKFGNKTPISKVSFIVKKNNITTLIGPNGAGKTTIVRLMLGLEKPTSGEVIIDRKLKIGYVPQKFGLTTDIPITVKKFLDLLAPSHFNKNIKEISSFIDLEHIKKQEISKLSGGQFQKVVLACSIINNPDLIILDEPLQSLDVTSQQEFYQLIHFIRKKLNITVFMISHDLFTVIKNSDQVICLNGHICCSGVPHEITPNSEFSNALSSLGFYTHNHDHKH;locus_tag=LOCUS_6480;note=WP_004596821.1 metal ABC transporter ATP-binding protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-131],MGA_649
sequence1	MetaGeneAnnotator	CDS	831894	832373	.	-	0	ID=MGA_650;product=RT0821/Lpp0805 family surface protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596824.1;translation=MKLLSKIMIIALAASMLQACNGQSGMNKQGTGTLLGGAGGALLGSQFGQGKGQLVGVGVGALLGAVLGGQIGASMDEQDRRLLELTSQRALESAPSGSNIEWRNPDNGNHGYVTPNKTYRNSAGQYCREYTQTVIIGGKQQKTYGNACRQPDGQWQVVN;locus_tag=LOCUS_6490;note=WP_004596824.1 RT0821/Lpp0805 family surface protein (Rickettsia prowazekii) [pid:84.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.7e-71],MGA_650
sequence1	MetaGeneAnnotator	CDS	832495	833397	.	+	0	ID=MGA_651;product=cation diffusion facilitator family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596826.1;translation=MNNSHHRLIKSVSYLSVTTALIILIIKLYAWVVTSSQSILASLIDSMLDITSSFINLVALRFALQPPDHYHRFGHEKMQDLTIFSQSIFFFASAFFVGFASVKSLFIKTKPENISDGTIIMYLCMFLTIILVLYQTYVIKKTGSEIVKADKLHYFTDLLTNVIVIISINLSDYFWFVDPLFGVVISLYIFHSSYSLFKKAFKNLVDHELPEQDRQKIISIVNNHSGVKGMHEMKTRYAAQKAFIQCHLEMDGNISLYSAHKISDEIAFEILQKFPEAEIIIHQDPFGIEEHVNYREYIVR;locus_tag=LOCUS_6500;note=WP_004596826.1 cation diffusion facilitator family transporter (Rickettsia prowazekii) [pid:97.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-163],MGA_651
sequence1	MetaGeneAnnotator	CDS	833378	833869	.	+	0	ID=MGA_652;product=nucleoside deaminase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596828.1;translation=MNILLDKKTYFNNFFMEQALKQARLAFDKNEVPVGVVIVCRLNQKIIVSSHNNIEEKKNPLCHAEIIAINTACNLISSKNLNDYDIYVTLEPCAMCASAISHSRLKRLFYGASDSKHGAVESNLRYFNSNSCFYRPEIYSGILSEHSRFLMQEFFQRIRSAID;locus_tag=LOCUS_6510;note=WP_004596828.1 nucleoside deaminase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:90.8%25%2C s_cov:100.0%25%2C Eval:4.0e-81],MGA_652
sequence1	MetaGeneAnnotator	CDS	834014	834706	.	+	0	ID=MGA_653;product=heme ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596831.1;translation=MLKLLTPYYFNKLSRIIIPILAVSTLVMMIIALYLALIVSPIDYQQGEFVRIMYVHVPASWMALGIYVFMAICSFSYLVWKTTISYLLAVASSDIGAIFTLISLVTGSLWGKPIWGTWWVWDARLTSMLILFLLYLSYIIIVNSVDNIRKAQNPASIIALIGLINIPIIKFSVNIWYSLHQPASVLRLGSPTIHASMLKPLITMFISFILYFLLVLLLRTVILIDKIKNR;locus_tag=LOCUS_6520;note=WP_004596831.1 heme ABC transporter permease (Rickettsia prowazekii) [pid:90.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-113],MGA_653
sequence1	MetaGeneAnnotator	CDS	834711	835040	.	+	0	ID=MGA_654;product=ferredoxin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886381.1;translation=MTYVVTDECVKCKYTDCVEVCPVDCFYEGEFMLVINPDECIDCGVCVPDCPIDAIKPESPELIEWVERAKDFIENHGWKNITKKKCALPGADKFKDEKDKFNKYIIKKT;locus_tag=LOCUS_6530;note=WP_010886381.1 ferredoxin family protein (Rickettsia prowazekii) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-61],MGA_654
sequence1	MetaGeneAnnotator	CDS	835197	835865	.	+	0	ID=MGA_655;product=porin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596835.1;translation=MKKLLLIATASATILSSSVSFAECIDNEWYLRADAGVAMFNKEQDKATGVKLKSNKAIPIDLGIGYYISENVRADLTLGTTIGGKLKKYGAATNTHFTGTNVSVSHKPTVTRLLINGYVDLTSFDMFDVFVGGGVGPALVKEKISGVSGLASNTKNKTNVSYKLIFGTSAQIADGVKVELAYSWINDGKTKTHNVMYKGASVQTGGMRYQSHNLTVGVRFGI;locus_tag=LOCUS_6540;note=WP_004596835.1 porin family protein (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:97.3%25%2C s_cov:97.3%25%2C Eval:2.7e-115],MGA_655
sequence1	MetaGeneAnnotator	CDS	836087	836845	.	+	0	ID=MGA_656;product=porin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886380.1;translation=MKKLLLIAATSTALLTSGISFADHDMNCSVDSSTNTSMSSSIEKQWYLKLNAGGVMFNKTKPKGKDFKLKTNTGFIGNVGVGYYIMDNLRTDLTIGAVTSAHLKKSTTGKSSAGSSSTKSIKHKPTIVSALLNGYVDFIDLSMFKVFAGAGVGLAMVKEKVTGKEAIAIVSDKNTTSKDHNHNTKNKTNFVYQLSLGTSFELAQGIKVELAYAWIDYGKTKTITKTIHGVQYKYGGTRYKGSNLMAGLRFDM;locus_tag=LOCUS_6550;note=WP_010886380.1 porin family protein (Rickettsia prowazekii) [pid:88.2%25%2C q_cov:97.6%25%2C s_cov:97.6%25%2C Eval:1.2e-117],MGA_656
sequence1	MetaGeneAnnotator	CDS	837099	837425	.	-	0	ID=MGA_657;product=DciA family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596839.1;translation=MKLIKEDIDKIVRRIFAKQHPLLPKIMINWHKIVGFNFSTKALPLKIKTYTYKNQKINILLIQAEDNATAAELPYYQDIILERIKIYLGFEAIHQMNVTFYKAKSKVR;locus_tag=LOCUS_6560;note=WP_004596839.1 DciA family protein (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-56],MGA_657
sequence1	MetaGeneAnnotator	CDS	837422	838402	.	-	0	ID=MGA_658;product=glycosyltransferase family 4 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599672.1;translation=MNINSYSALFIFSFIATTILTYILTKYLPTIGLVDVPSNRRSHNKITPRGGGLAIVIVVMIALSGFEYIMSHNLVNSIKILPLLLVIASISFLDDLKAVPILIRLIVHLICAACAILFFTQINSHILIHNILIIALSGFINIYNFMDGIDGMSCVESIHLSSTMLVLCFLQFSIIDNPYFIASVNVIILGCSCGFLIFNWHPAKIFLGDVGSISLGFLTGLCLLLLALTSTNLFIACVIASLYYMTDAVLTILIRLLNKEKIWQPHLKHFFQKAVQKGKSHKQVVSIIAICNIFLMIISVISLNFPVISIMLAIAVITLTMHSLLK;locus_tag=LOCUS_6570;note=WP_004599672.1 glycosyltransferase family 4 protein (Rickettsia prowazekii) [pid:93.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-167],MGA_658
sequence1	MetaGeneAnnotator	CDS	838859	839638	.	-	0	ID=MGA_659;product=type I methionyl aminopeptidase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599671.1;translation=MTIKIHTEKDFIKMRAAGKLAAETLDFITDHVKPNVTTNSLNDLCHNFITSHNAIPAPLNYKGFPKSICTSINHVVCHGIPNDKPLKNGDIVNIDVTVILDGWYGDTSRMYYVGDVAIKPKRLIQVTYDAMMKGIEVVRPGAKLGDIGYAIQSYAEKHNYSVVRDYTGHGIGRVFHDKPSILNYGRNGTGLTLKEGMFFTVEPMINAGNYDTILSKLDGWTVTTRDKSLSAQFEHTIGVTKDGFEIFTLSPKKLDYPPY;locus_tag=LOCUS_6580;gene=map;EC_number=3.4.11.18;note=WP_004599671.1 type I methionyl aminopeptidase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-152],MGA_659
sequence1	MetaGeneAnnotator	CDS	839934	840122	.	-	0	ID=MGA_660;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTKTIRYFAITFRFVKTFKKYLKMKDYTTNNFKKKIFAKKGSNQNKKDIYRINLYKNFILLI;locus_tag=LOCUS_6590;note=MGA_660
sequence1	MetaGeneAnnotator	CDS	840545	842725	.	+	0	ID=MGA_661;product=DNA translocase FtsK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886379.1;translation=MWIIGLAIVIVLMSYNIDDPSFNSVTTEYPSNLIGIVGAYLSDFLYQFFGLTSFIIPLACFIWGRNCWYGRYRSAFIRIFVVLLALISSSTLLSKIKLELIPASAGGAIGIIVSNFCERFINQLYLLLIFPTFIILVVLLEIKFTAISNFMIKLSKFLTYWILLFFNYVLPRLSLIGLFPIKNNDKLNITSFYQKPASGKVKFTEEASLIPANPIKCFIKPVCTKISQNQIASLPPISLLCDPKNNHVKGASSSELKQKAEELLTVLNDFGVKGQIININQGPVVTQYEFEPAAGTKTSRVVGLSDDIARSLSALSTRIAVIPGKNVLGIELPNKQREFFCLKELIETNEYQDKSILLPLVLGKDLAGKPLIADLAKMPHLLVAGTTGSGKSVGINAMIVSLLYRYTPEECRFIMIDPKMLELSAYDGIPHLLTPVVTEPSKAVIALKWAVKEMENRYRMMSNIGVKNIAGYNAKILEAVKENRVIERPIQTGFDPETGKPIYETVTMNMVKLPYIVVIVDEMADLMLVSGKDIEMLIQRLAQMARAAGIHIIMATQRPSVDVITGVIKANFPSRISFKVTSKIDSRTILGEQGSEQLLGMGDMLFMGNTSKISRVHGPFVNEAEIAKITEYLKETSMPVYISAVTEQPEENYSSIDIGDGSIDEVLYKKAVQIVRNERKSSISYIQRSLRIGYNKAANLVEKMEKDGIVSSPNHTGKREILLPEM;locus_tag=LOCUS_6600;note=WP_010886379.1 DNA translocase FtsK (Rickettsia prowazekii) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:97.6%25%2C Eval:0.0e+00],MGA_661
sequence1	MetaGeneAnnotator	CDS	843108	843242	.	+	0	ID=MGA_662;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPSILGFSGLYRSIKEQFSVGLMIQFLIEYATDINYLVNQARIL;locus_tag=LOCUS_6610;note=MGA_662
sequence1	MetaGeneAnnotator	CDS	843554	843811	.	+	0	ID=MGA_663;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVLNSIIHALYHSNNTWYKYFVSLSTVLRDIAEFVWYYECNNNNKLVALLLKILKSNKAFYMSNHIIAVYLVDCIIYAINVVDTT;locus_tag=LOCUS_6620;note=MGA_663
sequence1	MetaGeneAnnotator	CDS	845063	845260	.	+	0	ID=MGA_664;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MNCSYVHYILNNCCFIINAHCIYNTRHKNITILLLFYLGIEQIQEANKSYISPGNDDDIDSKFAA;locus_tag=LOCUS_6630;note=MGA_664
sequence1	MetaGeneAnnotator	CDS	845666	846961	.	+	0	ID=MGA_665;product=SurA N-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596858.1;translation=MLDNIRKTSDSFIMRVLFAIIAFAFVGFGIKDILNVRRNSDIVIFSHAKNISKQDFLQAKSLEINAISKQMGKSLIDEEITQLNIDNRILKRLIYNNILDYLVSYYDLDLGDDTVKILVKESPMFKNEQGVFDIEIFKTYFKNAYIGEEKYLLNFKEKVLKNLIVSTFAKSFYVPKAMTDNIVDYMAEKREVELIQLDLQNKPKDLQIHTPTDQQLKDFYQDNKAAFEVPEKRSFSYIKANIKDFKISVTQDELLEFYNENKDEFGDQSFEAVQTQLHDLLRAKKIDILNMELAKKLEDEIASGASLVEISEKYKLPIQNVNYVSYAELIGDNIMADNIAESADSIFELSEGELSYPIEAEDKSYLILVELKSIQPAQIPKFNAIKDQVNKVWIKRNIEDVNFKMIKDLAKEYNADPEQIKDFNAVGIKIS;locus_tag=LOCUS_6640;note=WP_004596858.1 SurA N-terminal domain-containing protein (Rickettsia prowazekii) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:81.6%25%2C Eval:1.1e-235],internal stop codon at [846959:846961](+),MGA_665
sequence1	MetaGeneAnnotator	CDS	846977	847252	.	+	0	ID=MGA_666;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEIENDLTLTPEILLSIFNTKIGSNTPVFRVGDIVYFAHIKSRSIDELTAQNIHVNLEKNIIYNIKNSVIEELINYTIMQNDMKIKSNFTK;locus_tag=LOCUS_6650;note=WP_004596858.1 SurA N-terminal domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:17.2%25%2C Eval:1.3e-45%2C partial hit],internal stop codon at [846959:846961](+),MGA_666
sequence1	MetaGeneAnnotator	CDS	847354	848832	.	+	0	ID=MGA_667;product=UbiD family decarboxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599666.1;translation=MSFRDLPEFLKFLVKNGQLKRISTTVKTDLEITEISRRVLAQGGPALLFENVIKADGSKSTIPVVTNLYASIKRICIGLNLKSPAELRELGALLAFLKQPQIPESFKETLSILPLAKRIFSMSPKTIAKGACHEVVIVKPNINILPIQKCWPEDISPLITWGIVVTKGPTKDRVDHYNLGIYRMQVVSENKLLMRWLKLRGGAEHHKRWKTKKKELFPAAVVIGANPVITLAAVTPIPENVSEYNFAGLLGNKKIELVQCKTIDLKVPAHSEIVLEGYVSLAEYLPEGPFGDHTGYYNDVEEFPIFTVTAITMKKKPIYLSTYTGKPPDEPAILGEALNEIFIPILHQQFPEIVDFWFPPEGCSYRVVVVSIKKSYPGHAKRIMLGIWSYLRQFMYNKFIIVVDDDIDVRNWQEVIWAIATRSDPKRDTSFIDNSPIDYLDFASPKSGLGSKMGIDATDKMYPETNRKWGKKIEMSQEVIDKIDSMWDGLNI;locus_tag=LOCUS_6660;note=WP_004599666.1 UbiD family decarboxylase (Rickettsia prowazekii) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.9e-288],MGA_667
sequence1	MetaGeneAnnotator	CDS	848881	850635	.	+	0	ID=MGA_668;product=class I poly(R)-hydroxyalkanoic acid synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599665.1;translation=MYNITHETIINNFKEIANKYQELILHFMQGKGSMIPRSLIDSDKNIIIVSCIIEQFCKNPQKFCQLNIEYIEKLRELTTNSFAKFVGNTSKDVFSTDNRDKRFKDALWEDNVYFHFVKQYYLLSAEWIKKNIEQYELSHDLKQHLEFTTKHFIDAFAPSNFAFCNPKVLRETLESGGHNLVQGLENFLRDIKSSGDILNINTTDKSAFKLGQNIAATKGKIIFQNDLMQLICYEPKEKVHKIPIFIIPPCINKYYILDLSSHNSLVSFLVENNFQVFLISWVNPDTSLSKKGFEDYLKEGILAPFEYVKNLGFAKIDFVGYCMGGMFLAIIIAYFKVKRIDSVHSSTFFTTLLDYTNPGELGIFLNKNTINYIKEEIKLKGYFDGKYLSNSFSLLRANDLIWTFFVNNYLLGKKPMPFDLLYWNADSTNLPAKMYEEYLHNTYCNNLLKESNALEVLGTKIDLGNVDCNSFFLAAKEDHITPWRSIYDGVKLLNGRKIFCLTDSGHVAGVVNHPDNAKYNYRLNYDLSLSSNEWFMQATEYKGSWWNYWIDWLIKNNDTKMLVDSLDYQNLDVIESAPGSYVRR;locus_tag=LOCUS_6670;note=WP_004599665.1 class I poly(R)-hydroxyalkanoic acid synthase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_668
sequence1	MetaGeneAnnotator	CDS	850770	851387	.	+	0	ID=MGA_669;product=phospholipase D;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596866.1;translation=MKSKNNKFIAVSISFILGIALGIYVESTYYFTNIINSKSFSLSNAQINYYSISELSRSNVSTCFTPPAGCTKFIVQQIEKAEESIYMQAYGMSDSLITTALINAQMRGVKVRILLDRSNLKQKFSKLYELQQAKIDVGIDTVPGIAHNKVIIIDKKKVITGSFNFTVSADKRNAENVILIEDRKLAESYLQNWFSRKTTSNAVHF;locus_tag=LOCUS_6680;gene=pld;note=WP_004596866.1 phospholipase D (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-107],MGA_669
sequence1	MetaGeneAnnotator	CDS	851435	851914	.	-	0	ID=MGA_670;product=phasin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599664.1;translation=MLNNTQFLNLMKSYMKPEFYMSSIKNTTNLDLSSITNTIQKAMNIFFTTNKISTESMQSLFKKNSEIIQNNINTILNSTKEVINSKDFKQATEYHQKCVKSIYETSMDNAKELANIAYEASNKIFEAANKHITKNIHNASNNIHNTAEQVQKNFNNKSA;locus_tag=LOCUS_6690;note=WP_004599664.1 phasin family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.5e-86],MGA_670
sequence1	MetaGeneAnnotator	CDS	852079	852747	.	+	0	ID=MGA_671;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLDISIQELIKQWQKYLILQKNYSNNTVIAYNNDLKHFLEFMNYYNSELVTLNHIKTADIRLIRSWLAKRKCENFTASSIARGLSTVKNFYKFLVKTLLLNNHIIFSIKSPKKAKLLPKGLSVDDVLISLEHIEEYGNVKWVELRNKALIVLIYAAGLRISEALSITKLHLQNLEFIKIIGKGSKERIIPWLPLTKNLITKYLEILPYKLDENEPIFRGRQG;locus_tag=LOCUS_6700;note=WP_004596870.1 tyrosine recombinase XerC (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:72.8%25%2C Eval:1.4e-122%2C partial hit],internal stop codon at [852745:852747](+),MGA_671
sequence1	MetaGeneAnnotator	CDS	853089	853520	.	+	0	ID=MGA_672;product=RNA polymerase-binding protein DksA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596871.1;translation=MLETPKLPIGYKPSKDEEYMCPNHLEYFRQKLLRWKEDLLKESQETLNHLKEENLKESDLNDCATHETERAFELRSRNRYCKLMSKIEEALSRIKNGEYGYCEETGAPIGIKRLEARPIAALCIEAQERHENYERSHLDEPGN;locus_tag=LOCUS_6710;gene=dksA;note=WP_004596871.1 RNA polymerase-binding protein DksA (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-81],MGA_672
sequence1	MetaGeneAnnotator	CDS	853560	854228	.	-	0	ID=MGA_673;product=nucleoside triphosphate pyrophosphatase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596873.1;translation=MKQHIKNLPIILASGSLARVELLDRIKIIPTQIIPAYIDETPNLRELPAPLAIRLAYEKAIKVASQIETSSIIIAADTVTAVGRRILPKATTYEEVKHCIKMVSGRRHRVYTGLCIIKKENNQLTFRQKIVQTIIKFKKLSDEEINFYSSLDEGIDKAGGCKISGYAEAFVSFISGSYSNIMGLPLFETVNALTSLGFRYSNNTPNVYKDPSTNHLSKPSIS;locus_tag=LOCUS_6720;note=WP_004596873.1 nucleoside triphosphate pyrophosphatase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-121],MGA_673
sequence1	MetaGeneAnnotator	CDS	854241	854456	.	-	0	ID=MGA_674;product=translation initiation factor IF-1;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596875.1;translation=MSKDDLIQFTGTVLELLPNATFRVKLENDHIIIAHTSGRMRKNRIRILLGDKVTVEMTPYDLTKGRVIHRH;locus_tag=LOCUS_6730;gene=infA;note=WP_004596875.1 translation initiation factor IF-1 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-34],MGA_674
sequence1	Aragorn:1.2.38	tRNA	854474	854550	.	-	.	ID=Aragorn_26;product=tRNA-Pro;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0260;note=Aragorn_26
sequence1	MetaGeneAnnotator	CDS	856124	856357	.	-	0	ID=MGA_675;product=BolA family transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596876.1;translation=MAISAEELEKILKKSFPSSVIKITDLVGDQDHYALEISDAQFNGLSLINQHKLVKNALSEILNKKLHSISIKTISIP;locus_tag=LOCUS_6740;note=WP_004596876.1 BolA family transcriptional regulator (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.1e-36],MGA_675
sequence1	MetaGeneAnnotator	CDS	856493	856819	.	+	0	ID=MGA_676;product=ribosome silencing factor;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599663.1;translation=MKKETEELKLFILECLIEKKAEDIEVIDLRGKNKLADYIIFASGRSTKNVGAIAEYVALALKNNACINSNIEGLGKSEWVLIDAGAILINIFYPEVREHFKLEEIWKR;locus_tag=LOCUS_6750;gene=rsfS;note=WP_004599663.1 ribosome silencing factor (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-56],MGA_676
sequence1	MetaGeneAnnotator	CDS	856816	858543	.	+	0	ID=MGA_677;product=monovalent cation:proton antiporter-2 (CPA2) family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599662.1;translation=MNDHILINVIILLGTAVFIVAILKRFRLSPVLGYLIAGAAIGDHGLKIVTYDQTKLLGELGVVFLLFAIGLELSFERLKAMRRYVFGLGSLQVLTTAIVIAGAMVLIDGNSSAAIITGGGLALSSTALVMQVIDENRSQSTQIGRISLAILLLQDLAVVPLLVIVPLLASNNKASLAVALGIAFLKAVTALLTIFIVGRVLLRPVFSFISSESNNTSELPISMTLLIVLSAAWATETFGLSLALGAFVAGVLVAETEFRLQAEESIYPFKSLFLGLFFMTVGMNIDALEMYEKISHILTLSIALICIKTLIITAFCILFGFNKGVAFYSGLLLSQGGEFGFILFSLGKDSGVLEESTADILLLVVTFTMALTPLLAALGKKIAEKVDKGLGKTPTQMIELGARDLTNHIIIAGLGNTGKMVARVLEAEGISYVILDLDDDRVKEELSNGLPVFKGDVSQADTLKALGTERAFAIILTMNNQVTIKKSLKTISSNYQDIPVVVKLKNLKNAREFYDLGATTIIPESYETGLQIGGTVLKNIGISEQEINRIKVQFRLGNYIIAKKEDALSEVEDND;locus_tag=LOCUS_6760;note=WP_004599662.1 monovalent cation:proton antiporter-2 (CPA2) family protein (Rickettsia prowazekii) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.3e-308],MGA_677
sequence1	MetaGeneAnnotator	CDS	858536	859015	.	+	0	ID=MGA_678;product=SH3 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596882.1;translation=MIKISIILIIIILSTTINANNKKLPIPRFVSIKSNEVNARRGPTTKSAVEWVFIKKGEPVEITAEYEQWRQVRDINGECGWIHSSVLSAKRSVIIASDKEIELTKSADPKSRVIAKLMPKVRCSLKKCKEEFCQVTCKDYKGWISKKAIWGVYHHNDRY;locus_tag=LOCUS_6770;note=WP_004596882.1 SH3 domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:93.7%25%2C s_cov:93.7%25%2C Eval:4.7e-84],MGA_678
sequence1	MetaGeneAnnotator	CDS	859756	861054	.	+	0	ID=MGA_679;product=tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886377.1;translation=MNVYDSVKIQDLLYPFGYESTEDIKEADIIILNTCHIREKAAEKTYSELGRIKKLQNTRKQEGLNPAIIVVAGCVAQAEGEEIFSRTPYVDIVVGPQSYYNLPELISKVVRHEKQLIDLDFVEEAKFDNLPEQLYPQGASSFISVQEGCDKFCTFCVVPYTRGAEFSRSVEQVYRESLKAVSNDAKEIILLGQNVNAYHGKGPKDQIFTLADLLKCLAQIPNLARLRYMTSHPIDMTDDLIKLHGTEPKLMPFLHLPVQSGSNKILKAMNRKHDRDYYFNIINRLREARSDIVLSSDFIVGFPGETEQDFEDTLDLVHRVKYGQCYSFKYSPRPGTPGAIRTDQIPEHIKSKRLTILQQELATQQLAFNQSCVGSTMRVLFDRDGKFEDQIIGKTPYMQSVYIHNPNKSLLGKIVDVIITKAALNSLTGEIL;locus_tag=LOCUS_6780;gene=miaB;EC_number=2.8.4.3;note=WP_010886377.1 tRNA (N6-isopentenyl adenosine(37)-C2)-methylthiotransferase MiaB (Rickettsia prowazekii) [pid:99.8%25%2C q_cov:100.0%25%2C s_cov:97.1%25%2C Eval:2.7e-250],MGA_679
sequence1	MetaGeneAnnotator	CDS	861058	863421	.	+	0	ID=MGA_680;product=penicillin-binding protein 1A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599661.1;translation=MYKSLFLCLKIFAVLILIGCSVTAYIIYHYSHDLPDYSQLARYYPPSVTRIYSRDGKLIEEYAFERRVFVPINNVPSSLIESFIAAEDKNFYTHPGIDLLGIVRAAFLNISNYLHNRRMEGASTITQQVVKNFLLTNEVSLERKIKEVIISYMISRIFTKHQILELYLNQTFFGRGAYGVAAAAQNYFNKSVEELTIAESAFIAALPKAPSELNPDKNYSRVKARRDYVIERMFEDGYITRDTMKEAIGSPIVLRKRAKEETVTADYYAEQVREEVIRMLNSKEEFYRGGLTIITSLDAKMQQLAENSLRKGLREFDRKSGFRKPIANIPLDNWQEELKKLPTPSSLLEYKLAVVLDVSDNHAKIGLIDGSKAKIPIVEMQWARSNLKSVKTLLKKGDVIVVEPIKDCYALRQIPEVNGAIMVMNPHTGQVLASVGGYDFSTSKFDRVTQALRQPGSLSKTFVYLAALENGVKPNQIFNDGPIEIIQGPGMPSWCPKNYEGQFLGDMTMRTGFEKSRNLITVRVATAVGLTKIVDIIKRFGINNEPKKVYSMVLGSIETTLSRITNAYAIIANGGKKVEPHFVELIQDRNGKIIYRRDNRECFSCNIADSDLDTAILEIPKEDIYRVTDEASNYQITSFLTGAIDSGTGYAARKLGKIIAGKTGTSNDSKDTWFIGFTPKIVVGSYVGYDTPKELGKKATGSNVVLPIFIDFMNHAYKDEPSLPFKVPDSIKLIAVDRITGKMIPNGTVIEAFKVNNIQMLENDYMIDNHDIFDYVPGMLDQSQEIY;locus_tag=LOCUS_6790;note=WP_004599661.1 penicillin-binding protein 1A (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_680
sequence1	MetaGeneAnnotator	CDS	865209	865640	.	+	0	ID=MGA_681;product=Dps family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596890.1;translation=MQLVKALEQILADSYVLYFKTQNYHWNVEGAEFRSLHLLFEEQYKDLAESLDEIAERIRSLGTKVPIFSNLIKLASIDGTNPSATANEMLKSLIKDQDIIRETLYNGLKVAQEERDECTADMIIGRIKVHEKNRWMLKSSLLI;locus_tag=LOCUS_6800;note=WP_004596890.1 Dps family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-76],MGA_681
sequence1	MetaGeneAnnotator	CDS	866205	867269	.	+	0	ID=MGA_682;product=dihydrolipoyl dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599659.1;translation=MTIIDGVASFGENKVINVNDKPTVKAENIIIATGTRPKILQGFEPDIKQIWTSKEAMIPQHVPKSMIIIGSGAIGIEFASFYNSIGVDVTVIEAKNRILPSEDTEIAGIAHKNFEQKGIKIITNAKLIKQTKSQNEIEVELELEGKTQKLQATILLMAVGISANIENLGLEKTKVEVENGYILTNGLMQTAESGIYAIGDVAGVPCLAHKASHEGIIAAESIAGLNPNGINKHNIPYCIYSSPQIASVGLTEEIAKDLGYEIKIGRFPFSANGKALVSGNSDGLIKTIFDVKTGELLGAHMVGLEVTELIQGYVVSKNLEGTELDLINTIFPHPTLSEMMHESVLAAYDMAIHI;locus_tag=LOCUS_6810;gene=lpdA;EC_number=1.8.1.4;note=WP_004599659.1 dihydrolipoyl dehydrogenase (Rickettsia prowazekii) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:77.1%25%2C Eval:6.6e-196],internal stop codon at [865968:865970](+)%2C[866193:866195](+),MGA_682
sequence1	MetaGeneAnnotator	CDS	867388	867939	.	+	0	ID=MGA_683;product=ATP synthase F1 subunit delta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596896.1;translation=MNKDNLIQNYAVALFNNALLDNIQVKICEEITLLNSIIEDSFEIKKFLFSPLVNKIDKINVFNSLVKTTNFNKIVNNFLLLLIKNSRTHILSNIVEVYNKLLYESRNIKIVHVISTNELQPKEQEWIQSRIEKELQHKTELFFDIDNTIIGGIVIKYDNVLRDYSIKGSLEKIAKCLKNVKIC;locus_tag=LOCUS_6820;gene=atpH;EC_number=7.1.2.2;note=WP_004596896.1 ATP synthase F1 subunit delta (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.2e-99],MGA_683
sequence1	MetaGeneAnnotator	CDS	868076	869614	.	+	0	ID=MGA_684;product=F0F1 ATP synthase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599658.1;translation=MKLNPIEVAEILQKEIANINFLSELEEVGQVISVGDGIAKIYGLANVKSGEVVEFKSGVKGLILNLENDSVGAVIIGDYSKVKQGDNVKRTKDVLKVLVGKALLGRTVDALGNPIDGKGDIVSKEYRHIEMKAPGIIERMSVSEPVQTGIKAIDSLIPIGRGQRELIIGDRQTGKTAIAVDTIINQKQAHSLTNESDKIYCIYVAIGQKRSSVAQIVKKLEDAGAMDYTIVVLATASEAASLQFIAPYSACSMGEYFRDNGMHALIIYDDLSKHAVAYRQISLLLRRPPGREAYPGDVFYLHSRLLERAAKMSKEKGGGSLTALPIIETQAGDVSAYIPTNVISITDGQIFLESDLFYKGIRPAVNVGISVSRVGSAAQIKAMKQVAGSVKLELAQFRERESFSQFGSDLDPATKAQIEHGKRLVEILKQDQYHPCPVEEQIVSIYVGTKKYLNDIPIQKVKEFEEAMLAEIRLNKKDILESIKTEQCITEEIEQKLKAFLENFIQAYCVML;locus_tag=LOCUS_6830;gene=atpA;EC_number=7.1.2.2;note=WP_004599658.1 F0F1 ATP synthase subunit alpha (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.1e-284],MGA_684
sequence1	MetaGeneAnnotator	CDS	869638	870567	.	+	0	ID=MGA_685;product=ATP synthase F1 subunit gamma;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596901.1;translation=MSKIENRRYKLCVNNRKLTNYMSNLKQLRTRIKSVKSTQKITKAMQLVSASKMTKIKTQIANSNFYIEAINKMMSDICSMTSCELSIEEQKFFNTMPSKINLLIVMTSERGLCGMFNYSIIKQVKNDIKELTNKGEQIKLIIIGKKGYEALKRQYANYINSYFEFTKIHSENLILQVKEKIMCAVKNLEVSNCIIYFNKFKNAMTQIPTKQKILPIEKHQDYSVVANDYFEYEGKNLISNLINLYVHAKINYALLQNIVSEEGARMTAMENATNNANDLISKLVLKLNRSRQTIITTELIEIIAGAEAV;locus_tag=LOCUS_6840;gene=atpG;EC_number=7.1.2.2;note=WP_004596901.1 ATP synthase F1 subunit gamma (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:87.7%25%2C s_cov:94.1%25%2C Eval:3.5e-147],MGA_685
sequence1	MetaGeneAnnotator	CDS	870676	872100	.	+	0	ID=MGA_686;product=F0F1 ATP synthase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886376.1;translation=MTQNIGKITQVISAVVDVKFTNNGKLPEILNALECYNDKQRIVLEVAQHIGDDTVRCIAMDSTEGLIRGLEVIDTGNPIRIPVGTETLGRIMNVLGEPIDGKGEIKSATISSIYKPAPDFINQSTERDILVTGIKVVDLLAPYAKGGKIGLFGGAGVGKTVLIMELINNVAKAHGGYTVFAGVGERTREGNDLYHEMIASGVINLEEPEKSKVALVYGQMNEPPGARARVALSGLTIAESFRDMNAGQDVLFFVDNIFRFTQAGSEVSALLGRIPSAVGYQPTLATDMGELQERITSTKHGSITSVQAIYVPADDLTDPAPSTSFAHLDATTVLSRQIAELGIYPAVDPLDSNSQVLDPMIVGEKHYGVARQVQQVLQTYKSLQDIIAILGMDELSEEDKLTVSRARKIQRFLSQPFHVAEVFTGVEGKFVNLDDTIEGFKGLVEGQYDDLPEAAFYMVGTIDEAVEKAKILKI;locus_tag=LOCUS_6850;gene=atpD;EC_number=7.1.2.2;note=WP_010886376.1 F0F1 ATP synthase subunit beta (Rickettsia prowazekii) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.5e-265],MGA_686
sequence1	MetaGeneAnnotator	CDS	872214	872552	.	+	0	ID=MGA_687;product=F0F1 ATP synthase subunit epsilon;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596905.1;translation=MHETIRVKIITPSSIAFEKQSKMVTMPGEDGMFGVLPHHVPMIVNLKAGLVQIYIYNIHNYENTYLISGGVTEITSHYINIVTEVAINVTNLSESEISTQRYELQKLLSHQH;locus_tag=LOCUS_6860;note=WP_004596905.1 F0F1 ATP synthase subunit epsilon (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.6e-59],MGA_687
sequence1	MetaGeneAnnotator	CDS	872705	875341	.	+	0	ID=MGA_688;product=aconitate hydratase AcnA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596907.1;translation=MSKVHNSEYIKELVVDNTSYKIYDINKAASDIGLPLKKLPYSLRVLLENVLRTNGNKENLLVFKEWLKTKKSNTEIDFMPARVLMQDFTGVPAIVDLAAMRDAMQKIGCNPLKINPLIPVDLVIDHSVSVDSYGNKESFDQNVHMEMKRNIERYQFLKWGQQAFNNFKVVPPGTGICHQVNLEFLSQVVWHNDGTAYPDSLVGTDSHTTMVNGLSVLGWGVGGIEAESAMLGQPITMIIPEVIGVKLIGKLAGMATATDLVLTITEILRSKKVVGKFVEFFGNGLRNLTISDRATISNMSPEYGATCGFFPIDQETLKYLEVTGREITQIKLVEKYAIEQNLWYNCEDTQEYTEVLELDLSTVYSSLAGPKRPQDRVNLNCVASNFQNELPYFALANKDIDKKYAVANQNYAIGNGDVVIAAITSCTNTSNPSVMIGAALLAKKALEHGLNVKPWVKTSLAPGSKVVTEYLKLSGLDKYLDALGFNLVGYGCTTCIGNSGSLNPEIENTINKNRLVVASVLSGNRNFEGRINPLTKASYLASPILVVAYALSGTLNIDLTNTPIGANIYLKDIWPSQKEIDEVIANSINSSMFIEKYADVFNGTKEWRDLQITTGTNYNWDKNSTYINNPPYFDNIGSEHSIKDIKSARILAIFGDSITTDHISPAGSISKNSPAAKYLIKHHIEPLDFNSYGSRRGNHEVMMRGTFANIRIKNEMCNGVEGGFTINQLSGVQQTIYDTAMDYKAHDIPLVIFAGKEYGSGSSRDWAAKGPGLLGIKAVIAESFERIHRSNLVGMGILPLTFTGKNTRLNLKLDGSEIIDLIGLSENIKPYNLVKCVIKKQTNEISTIDLILQIFTENEINYIKHGSIMQFVVESLKG;locus_tag=LOCUS_6870;gene=acnA;EC_number=4.2.1.3;note=WP_004596907.1 aconitate hydratase AcnA (Rickettsia prowazekii) [pid:99.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_688
sequence1	MetaGeneAnnotator	CDS	875515	875871	.	+	0	ID=MGA_689;product=DUF4870 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596909.1;translation=MDKHLKEYTESGKKNLIVVYILYLCGVVAPILPLVGVFFAYLHKDKGDSFAVSHYVFLFRTFCLVVLGWIICFIFTFIIVGVVLYFALAVWYILRVAIGFKYMIEDQAYPNPITYWIK;locus_tag=LOCUS_6880;note=WP_004596909.1 DUF4870 family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-65],MGA_689
sequence1	MetaGeneAnnotator	CDS	875874	877901	.	+	0	ID=MGA_690;product=NADH-quinone oxidoreductase subunit NuoG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599656.1;translation=MIKLIIDGSEIEISEGSTVYQACIQAGKEIPHFCYHARLKIAGNCRMCLVEIEKSQKPVASCAMPVSKGMVIHTDTPMVKKAREGVMEFLLINHPLDCPICDQGGECDLQDQAFRYGKGTNRFHENKRSIKDKYMGPLIKTAMTRCIQCTRCIRLANDIAGIEEIGAINRGEHMEVTSYLEQTLDSEISGNMIDICPVGALNSKPYAFKARKWELKHTASIGVHDAEGSNIRIDSRADEIMRILPRVNEAINEEWLSDKNRFCYDGLKYQRLDHPYISKNGKLVEVSWSEAFKTIMDKIKSVKPEKIAAIAGSIVSVEAMFMLKILLQKLGSNNYTVNQFNYKIDTSERGNYLFNTTIVGVEKADLCLLIGANTRQIAPILNSRIGRRVRIGALKVVRIGIGHNQTYKIQDLGNDIKIIEDLAIGTHEYTKAFKEAKYPMIIVGDGVYGRDDGYAVLSLIHKVVDKYNMMRDDWQGFNILHNHASIVGGLDIGFNTTIKFEGIKLAYLLGADAIPFDKLKSAFIIYQGHHGDVGAMSADVILPAAAYTEQSGIYVNLEGRPQIAQKAVSTVGGAKEDIEIIKEIAGYLKIDIGMDNLQEVRIRLAKEYNVFANIDKITVNKFTKFISIDKLSKDPIAARPINYYMTDVISKNSVTMAKCVEAHEERKRDVAKVFY;locus_tag=LOCUS_6890;gene=nuoG;EC_number=7.1.1.-;note=WP_004599656.1 NADH-quinone oxidoreductase subunit NuoG (Rickettsia prowazekii) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_690
sequence1	MetaGeneAnnotator	CDS	878069	879064	.	+	0	ID=MGA_691;product=NADH-quinone oxidoreductase subunit NuoH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886375.1;translation=MFPLTVIALKVVAITIPLILCVAYLTYAERRVIGLMQLRRGPNVVGPFGLLQPIADAVKLLFKEPIIPTDADKILFILAPIITFVLSLIGWAVIPFSSGVVLADINVGVLYILAISSLSVYGIIIAGWASNSKYAFLGAIRSSAQMISYEVSMGLVIITVLLTTGTLNLSGIIEAQKTLPWWIDLMLLPMSIVFFISVLAETNRLPFDLPEAESELVAGYNVEYSSMGFALFFLGEYANMILVSAMTTTLFLGGYLPPFNLSFLDCIPGFFWFVFKVGFLLFCFLWIRATLPRYRYDQLMRLGWKVFLPFTLFGVVLVSSVLFYTDNLPSV;locus_tag=LOCUS_6900;gene=nuoH;EC_number=1.6.5.9;note=WP_010886375.1 NADH-quinone oxidoreductase subunit NuoH (Rickettsia prowazekii) [pid:96.4%25%2C q_cov:100.0%25%2C s_cov:97.6%25%2C Eval:5.1e-179],MGA_691
sequence1	MetaGeneAnnotator	CDS	879070	879549	.	+	0	ID=MGA_692;product=NADH-quinone oxidoreductase subunit NuoI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886374.1;translation=MINYLKSFFLYEIIRGMTLTLKYFFKPKVTINYPYEKSPVSPRFKGEHALRRYENGEERCIACKLCEAICPAQAIVIESDERDDGSRRTTRYDIDMTKCIYCGLCQEACPVDAIVEGPNFEFASLTHTALIYDKERLLNNGDKWEQALANKLHKDYQYR;locus_tag=LOCUS_6910;gene=nuoI;EC_number=1.6.5.9;note=WP_010886374.1 NADH-quinone oxidoreductase subunit NuoI (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-92],MGA_692
sequence1	MetaGeneAnnotator	CDS	880906	881520	.	-	0	ID=MGA_693;product=heme ABC exporter ATP-binding protein CcmA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596917.1;translation=MECTQYYMDMLSLNQLQLNIEKRNLFDLCITFLPSAITYIKGANGSGKSSLLRMIAGIMQPSSGNIYYKNSHINNCIKPYCTYIGHNLGLKLEMTVFENLKFWSEIYNSTETVPAAIHYFKLDYLLDEKCYNLSSGIQKIVAIARLIVCQSDLWLLDEVESNLSKENKDLLNNLIVMKANSGGIILLSSHQENVIKSAQILQLK;locus_tag=LOCUS_6920;gene=ccmA;EC_number=7.6.2.5;note=WP_004596917.1 heme ABC exporter ATP-binding protein CcmA (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:96.6%25%2C s_cov:100.0%25%2C Eval:2.5e-109],MGA_693
sequence1	MetaGeneAnnotator	CDS	881856	883331	.	-	0	ID=MGA_694;product=NADH-quinone oxidoreductase subunit M;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886373.1;translation=MLELPIISITIFLPLISVLYILLFFNQNKKADKLSIYVAMLSSVLTFISTIYILIEFDVSNNTYQFVERYTWLDKIGLEFHVGVDGIAIFFVVLTSFLTLICIIGSLFTIKKYIKEYLVCFLLMESLCIGAFTSINLLLFYLFFEAILVPMYIIIGVWGGDNRIYAALKFFLYTFFGSVFFLLALIYIYSKIHSFDLTNILELIGNIPLFAQKILWWAIFIAFAIKTPMIPFHTWLPDAHVQAPTTGSVILAGILLKLGGYGFLRVLLPLFPNASQEFAIYVIYLSVIAIIYASLVALAQKDIKQMIAYSSIAHMGYVTIGIFSFTEIGISGAIFQMLSHGIISSSLFLIVGTLYERLHTKEIAKYGGVANKMPILATFFMIAMLSSIGLPSTSGFIGEFLSLLGIYKVNVVTAFIAALGIILGAVYMLKLYKEVMLGEITNTEIKHFRDLYKYEIISIAPLILLIIYFGLMPNSILNVFHLSVENLLIKF;locus_tag=LOCUS_6930;EC_number=1.6.5.9;note=WP_010886373.1 NADH-quinone oxidoreductase subunit M (Rickettsia prowazekii) [pid:98.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-270],MGA_694
sequence1	MetaGeneAnnotator	CDS	883481	885442	.	-	0	ID=MGA_695;product=NADH-quinone oxidoreductase subunit L;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596922.1;translation=MIHQNLAIMIIILPLVSSIINGLFLNIIDKKLAKIIAISFLSLSALFSLVIFCDVTLVGKIIHIKLLPWIEFKNLQVNWSIYIDQLTSIMFIAVTFVSSVVHIYSLGYMAEDKGIIRFLSFLSLFTFFMLMLVSADNFLQLFCGWEGVGVCSYLLIGFWHSKESANKAAIKAFITNRVSDFAFILGIITIIVYYGSANYKDVFSSAKLLSNTKIFVHFSILDIICLLLFIGCMGKSAQIGLHVWLPDAMEGPTPVSALIHAATMVTAGVFLVARCSYLFEYSPIVLQFITIIGGITCLFAASIAIMQSDIKKIIAYSTCSQLGYMFMACGVSSYNSAIFHLVTHAFFKALLFLSAGNVIHAVNEHNIFKMGALINKMPITYGNFLIGSLALIGIYPLSGFYSKDLILEATYSSGSFMFIFGIITAILTAIYSMKIIILVFHGKTKLEKDVFKHAHEPTKIMNNPLILLVAGSFFSGMIGYYLLSMDKPNGYFHESLFNLHIYKLLINHHPLYIKLLPMAVGIVGIIIGICLYKGSLSYQTLTNESDQREKDWIPKSKCKMILVFISNVLRNKYYFDEIYNHLIIKPIHCLTYLFYFGDQKIIDRFGPNGFARVINYFCAVTCKIQTGYIFNYTLYIVSFIVVTISYFVLKNIY;locus_tag=LOCUS_6940;gene=nuoL;EC_number=7.1.1.2;note=WP_004596922.1 NADH-quinone oxidoreductase subunit L (Rickettsia prowazekii) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_695
sequence1	MetaGeneAnnotator	CDS	885442	885756	.	-	0	ID=MGA_696;product=NADH-quinone oxidoreductase subunit NuoK;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886372.1;translation=MNEYISLNHYLILSSLVFTIGMFGLFMNRKNIINILMSIELMLLAVNINFVAFSVYMQELSGQIFSIIILTVAAAETAIGLAILLIYFRNKGSIKITDINKMRG;locus_tag=LOCUS_6950;gene=nuoK;EC_number=1.6.5.9;note=WP_010886372.1 NADH-quinone oxidoreductase subunit NuoK (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.9e-51],MGA_696
sequence1	MetaGeneAnnotator	CDS	885749	886240	.	-	0	ID=MGA_697;product=NADH-quinone oxidoreductase subunit J;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596926.1;translation=MILLGAEFLAMLLIVIYVGAVAVLFLFVIMMLDINFNQAITKLRENLSLSIFITLIMFADLVITIILSTKNINYSSNISFAIANNISNTKAIGNVLYTEFMLPFQIAGLILFVAMISCITLTLKKRDRIKHQDIRKQLSHNKSNVILMTKPILNKGVENIKYE;locus_tag=LOCUS_6960;EC_number=1.6.5.9;note=WP_004596926.1 NADH-quinone oxidoreductase subunit J (Rickettsia prowazekii) [pid:95.1%25%2C q_cov:100.0%25%2C s_cov:79.5%25%2C Eval:1.4e-78],MGA_697
sequence1	MetaGeneAnnotator	CDS	886439	888100	.	-	0	ID=MGA_698;product=lysine methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886371.1;translation=MSLKSTTSSLTTNNHDKTINSVQSLVNGTGTVADHNPYDEVPYESYPYAITNPYHLSTLATLFGINAPEVENSKILELGCAAGGNLIPHAVLYPNAHFVGVDLSKVQIDEANKNVRALGLKNIEFHHCSITDIDDSFGKFDYIICHGVISWVPKIVRDKIFKVCNRNLSTNGIAYISYNTLPGWNMVRTIRDMMLYHSSSFTNIRDRIAQSRLLLDFVKDSLEHSKTPYAEVLKTEAGLLAKQTDHYLRHDHLEEENAQFYFHEFMNEARKHNLQYLADCNISTMYLGNMPPKVVEQLKAVNDIVRTEQYMDFITNRRFRTTLLCHNDLKINRNINNDDIKKFNIIFNVIPEKPLKEVDLNNATENLQFFLNGNKESNLSTTSPYMKAILYTFSENLNNPLSFKQVTSEANTKLNNTKLNEIKNELLNNAMKLVLQGYISITNQKHRSKPVLDKPKTTQMVIYQAKYTPSMWVTNLKHEPIGVNFFEKFALRYMDGRNDKKAIIEAILGHVEKGELTLSREGQKIENKEEIRKELESLFTPMIEKFCSNALLV;locus_tag=LOCUS_6970;note=WP_010886371.1 lysine methyltransferase (Rickettsia prowazekii) [pid:96.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.9e-313],MGA_698
sequence1	MetaGeneAnnotator	CDS	888188	888901	.	-	0	ID=MGA_699;product=outer membrane beta-barrel protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596929.1;translation=MNKLLKLFLITIIIYNNIAFAKETGFYMGAAIGIVEPVVRKFRHKYSNTGIILKQSNMYSGKIGYIIYPQISMEFSATYQPKYRLHYSLQHKNLINGLTIPKTIGNTTIVSNIYMLNLIYDLEKIKTFTPFIILGGGITRVKVKSTSSKWSLINNDYFKVHRTSKNCVTWQAGLGIAQHITPDLSIDATAKLQTAYRVRINYDTLDMKTVQLMNANSIKKTISVGEFGIGFTYRLPF;locus_tag=LOCUS_6980;note=WP_004596929.1 outer membrane beta-barrel protein (Rickettsia prowazekii) [pid:98.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-131],MGA_699
sequence1	MetaGeneAnnotator	CDS	888957	889850	.	-	0	ID=MGA_700;product=TerC/Alx family metal homeostasis membrane protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_011191205.1;translation=MSWIIFYTIIAALLILDLGIIHKKNKVISFKGSILLSLFYFIISCLFGIYVYHNMGLDHAREYYTCFLIEKAMALDNIFIISIIFQFFNIPSTYQHRVLFFGIIGVIIFKAIIIYGGIMLIHKFSWLLYILAVILIATGIKTFNVSHKTYDIQNSYIYKSIIKNLNITHDLEGQKFVIKRNNKLYFSTLFVSLILIETIDLVFAIDSIAAIFAITNDVYIIYTSNIFAILGLRSLFFCLSEIVERFSYIKYSLALILIFIGFKIFIHHYIEIPAYISLTVTISSLLFGIIASILEKI;locus_tag=LOCUS_6990;note=WP_011191205.1 TerC/Alx family metal homeostasis membrane protein (Rickettsia typhi) [pid:84.5%25%2C q_cov:99.7%25%2C s_cov:98.0%25%2C Eval:9.8e-139],MGA_700
sequence1	MetaGeneAnnotator	CDS	889855	893364	.	-	0	ID=MGA_701;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599651.1;translation=MLKKYLLFCLFLFFSFNVYASIWDDIITCLSDPCNCGQSDRTEIWNKGSKYEVKRGPFKPGTLCPPWNKSDGRNNDTCLLQFDYPGTFIGFLLNRCAEEAPDSSYFTPKIRIRVQSCNAAACWHQNSTLNWDGECVLWPTGYGLPLTRVCARVAIPEMNSPSGINASHSYADPGYTEGVHLNKVGYTESDNKIIGVDGQVVTLKSPKLCAYSDPGLVNLISDSGIHLDPMDWNPNRQPLHQTNELSPIAKVLKFLVETVKGFSLPSLLGQLLGMIDPNSEFIKVLQSILNAIGEVFNFFPDLIIKVIEKLGALNSAVDSYSFGCVQLPLGPFPPPYCPNLNAISINPSVNNVCSIKNASGIFDQSSTSPSCVVPSNINVRNNIVNNTIRVSFSNLVPLCTGAKPDLKTCVELRNIDFSSAKITHTKTAFKDLIKSCKNTSGNAACINTEIPTPCSVTANGCNEGFRIVYSQKIGNIETPRDYYIDDIPDCPSSNSTTCQKVWGVNIGEFKDVSIKFPKVQKQDTNSLIPIKTDFTLKDNNGKDRKLYVSISNTEDDKQNPNNICLFESANLIDCVPRVNHSYSLAAYECAKQYAGITCTNNSNPNDAYYKPQFIASLQVREGSNIIDETSTLVTPLSYAGPPPQNPTDTESIVMLAGYQYSSSVAFIPKNPIKDKYIGMPFSGPNALNQLTIHGKYKDDKEPYDSKGNPDLSAIYLKYLEYINGKYIQGGTHACLMPKNFQHCNPMPRPTLSDGAPIPGYNNESINCVLAKVHNNDTINCKDFKNKYNAKYPNLGLCKKDIDLTLCTIEETVPGPRKGITIYTCNINKIPSKCYTNNDNANTPICVLSRDYKDRIKPEPSIGPILVPVDPSKYYTVTYTKGDENTPPEPTYHAETEDVRDKTWQELNLCAPILVPTCAKIPSTAEAPSGQSHGNAEWPESDIGELVKGKCPTNWILIDPNKPLERHCLSYFDRKVVELEPLGHNVGCRKSTGLPIQVVYNDFPSNQLPDTPYNPVTKIGDYFLNKKPVRYGTIMAFPKDGAFINASNEPDNTILHTVVFKVTLDAIMDDIEYFIVEDLWYDDCTLIYVNGTKLLSLPTNVDSLDEKRYCNNGKDQGQALQAKVNNQRISAKNPIDIKPYLKQGENIIKFQLRVMSGGGLYFHMQYKMKR;locus_tag=LOCUS_7000;note=WP_004599651.1 hypothetical protein (Rickettsia prowazekii) [pid:98.9%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:0.0e+00],MGA_701
sequence1	MetaGeneAnnotator	CDS	893477	895909	.	-	0	ID=MGA_702;product=VirB4 family type IV secretion/conjugal transfer ATPase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596936.1;translation=MFSDLRKFDKDIYNYNAPNFIPIACHYNENTLLTKDGKLLQIVKIHGINSEKISDNIQNLREMVRLAIKKHVTDYDFAFWLHTIREKQNLDDITPYKKLLPANIHTLWQRKNHWNDKFVNTLYISIVHDSAKIQIKNFSSLINSLSYKLIANFEKNYLDSAFKKLENITNNILNDLNEFGAEKLGIIFENDNVFSNTLFLYNRIANLNDNDCLVPIIDLSDALGRSIYTISGDKIIVTDHAKNNKFVSLLSIKEYQETPSNTLDKFLQLPIELIITEIFYFVSKKQIISKLHGQDHILKITNDSILLNYKGINKLDETNLDFQFCNQQISIAVIEEDESKLAKAVAKASTELFKLGIIHVKEDINIEQIFWSQLPANFSFIRRISPLSVEHIASFTALHNTTLGNQYNPWGRAITLLRTEKGTPYFMNFHDKTNKGNTCIFGTEKTGKTVLLNFLISESTKYDPTIIYISNNNDSQIFIEAIEGKWLEPEKQIINPFLVDDTEQSQAFILEFLKLISGHYISQLSEIEISFLEKFKDKILSIEKEKRIFSNILKLENFKEEGGIQIFDKLKVFTEGQLYYGLFDGPSLSIKEGEVIGFNLYTLSDEPFSKQFYPMERKFLEQFNHNLKKHQSISAAVIYALSYHLSLLGTKPKIFAADNFDQLYRPESYYDNINLIYNNLSENNGIFVSNFNFIYLKSYPKYTIKPWLDLINTKIILPSDVKIEDLDKILGLNELEIRKLSQLMLAARMFLINKDNESIASELSIAALIGIVRILSSRQEEMDIYKKILQEHAGPPDNWINYLYNALNIY;locus_tag=LOCUS_7010;note=WP_004596936.1 VirB4 family type IV secretion/conjugal transfer ATPase (Rickettsia prowazekii) [pid:99.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_702
sequence1	MetaGeneAnnotator	CDS	896164	897441	.	-	0	ID=MGA_703;product=serine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596938.1;translation=MLNIKWIRENQELFDEKLSQRFIEPMSSKIAMLDQEKRKITSLIQEFQHARKVKSKILGNMVSKSGEEFEELQRDVNHINEKLAELEQNLDNNNELNELLNMLPNIPDEEVPYGIDGSMNKLVRAYGKTNKNALNKQHFELGTKLNLMDFEQTAKISGSRFVTLKGDLAKLERALINFMIDIHTKEFDFFEISPPFLVRDRAMYNAGQLPKFSEESFITTNGYRLIPTAEVSLVNIVADTIIQREKLPMRYVAYTTCFRSEAGSSGRDTRGMIRLHQFGKVELVSITTPEESKNEHEYITNASETILKKLDLPYRVMLLCTGDMGFAAKKTYDIEVWLPGQNQYREIASCSNCGDFQARRMKARYKEFGSNETTLVHTLNASGLPIGRTIVAILENYQNNDGSITIPDVLINYMGGLQKITTYSE;locus_tag=LOCUS_7020;gene=serS;EC_number=6.1.1.11;note=WP_004596938.1 serine--tRNA ligase (Rickettsia prowazekii) [pid:96.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-235],MGA_703
sequence1	MetaGeneAnnotator	CDS	897419	898174	.	-	0	ID=MGA_704;product=twin-arginine translocase subunit TatC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599650.1;translation=MKLYSFQEHLLEFKIRLLRIFTAFIIIFAICYYFSDYIYSFLLEPLAKLSGDTVRNIIYTGLTEAFFTYIKLSAFTAFTIIIPIIALECYLFISPGLYRHEKKIIAFILFMSPILFWCGSIFVFYFVMPKAWNFFLSFEKRDMIVPIILEARISEYLNLVIHLIIAFGIAFQLPIVIIVLNILKIVKTQTLKKKRRIAVVINFIIAGILTPPDILSQFALAIPLLLLYETSIIICNFIETPRTLNVKYQMD;locus_tag=LOCUS_7030;gene=tatC;note=WP_004599650.1 twin-arginine translocase subunit TatC (Rickettsia prowazekii) [pid:93.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-128],MGA_704
sequence1	MetaGeneAnnotator	CDS	898350	899342	.	-	0	ID=MGA_705;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596944.1;translation=MMWFLKRSPCNNLCITAIILFIIAFFSSTQDIVLDAYRIERTTSKEELSIVFTFSSIGFRLGMLLGSVGSLYSSIIFGWNTVYKFALFITMVGPIVILCIKEPKLKTKRHTTNTLIDLQQYFEVIKKCIISFKNEQQYLLLIILFVFLYKAADSIPMAMSIPLFLDLSFTTHEIAVIYKAYGLLIMIVGGTLGGILAAKIGIFHSVLIGGVIQLLSPLMFMILATIGYDIKTFIITITIQNFCSGFAGTIISIYFASLCNSEFVATQYAISASFSSLSRIILASLGGICAKHLTWSVFFLCNTLFSMLFIPIFYTIYRKNLHFMNHSKKI;locus_tag=LOCUS_7040;note=WP_004596944.1 MFS transporter (Rickettsia prowazekii) [pid:97.0%25%2C q_cov:100.0%25%2C s_cov:78.4%25%2C Eval:1.5e-178],internal stop codon at [899406:899408](-),MGA_705
sequence1	MetaGeneAnnotator	CDS	899406	899615	.	-	0	ID=MGA_706;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MYKKLYLIGILLLGLISGLTFNLIFLTVPYQLSEAKYTTDIIGAISLAAFPYCLKVIWSPFIDKYSIPF;locus_tag=LOCUS_7050;note=WP_004596944.1 MFS transporter (Rickettsia prowazekii) [pid:98.2%25%2C q_cov:82.6%25%2C s_cov:13.5%25%2C Eval:2.3e-26%2C partial hit],internal stop codon at [899406:899408](-),MGA_706
sequence1	MetaGeneAnnotator	CDS	899625	901499	.	-	0	ID=MGA_707;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MPLIIYQTVEKIIPDNPIVAYLREHIKQGFIQNGELNIKLDKNLFKKIILVEDNLKANLHISNFEYKYHKDLPPLTKIDTNIIISGREIKFLINEAYSGKSLISDGIMTFKWEGPDKSQFIFNATAKGEINDLIAFVPSDTYKKIKAQNIDLSKIKGTANSIIELIIPISPDVPNRYNVLSTLTNISFNTLDNKVLLQNGEAKGSLKDNKLNISGKGNINNYESSFIYDHDISDKHNECLLKIKSNITANNQRFGVLKLISGTTILNFEYKKQHNNESFITVHSNLDNLEFYIDKVSIHKKLYKRANLYLYTKLNDTDRNIEFNLSGHDNLKIHGNVLIKENIYNINLASVKHNYTDLKGKIIIDNHNLNTELYGSGLDLSNANMMQFLEKEGDSTHNINLKTNISKIILKNNIILTNLDLVIKCDKVRCFYGFLNANIENKKVKMSLTAKDTFEQWLIESDNAGALLNGLGMYTTMQNGQIHIKLNTKRYEVKKGEIVPILDGKFSIKHFKVVDTPFLTRLVSFVSLPGFLSSITNNKNILFDDMTGKFNYRGNIITIFDTEAHGPFFDFTMKGNIDTKQQFITVTGNVIPSFFLISTIVTKIPVVGKIFSKVALYSLKMHYK;locus_tag=LOCUS_7060;note=WP_004599649.1 DUF3971 domain-containing protein (Rickettsia prowazekii) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:74.7%25%2C Eval:0.0e+00%2C partial hit],MGA_707
sequence1	MetaGeneAnnotator	CDS	901866	902192	.	-	0	ID=MGA_708;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MEFYLSIESFYHISIDLQAQMNFIKKSFVSIFIILIALSFAIALTMYSVNKGHLNAPLKKIIEFYLSKNDIKAVLYNLEFKENRLSIEYISLSLIDNARGEIKDFNLF;locus_tag=LOCUS_7070;note=WP_004599649.1 DUF3971 domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:68.5%25%2C s_cov:8.9%25%2C Eval:6.0e-35%2C partial hit],internal stop codon at [901866:901868](-),MGA_708
sequence1	MetaGeneAnnotator	CDS	902378	903682	.	+	0	ID=MGA_709;product=UDP-glucose/GDP-mannose dehydrogenase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596947.1;translation=MNITFIGSGYVGLVSGIIMGYLGHNVTCLDNDDVKISKLNKKILPIYEAKLDEYLKHALESDRLKFTNIYSNEFRNFDAIFITVGTPSKELGEADLKYVYDAVDKVSKHINKDCLIVIKSTVPPGSCNNIIAYLKAKGFSFNVASNPEFLREGSAVEDFLYPDRIVVGVNNKESEALLRKIYAPLIEQGAKFLVTNLVTSELIKYVSNSFLATKIAFINEMADLCEKIGANIKDLSQGVGLDQRIGRNFLNAGPGFGGSCFPKDILALNNLVENHKIDCKILKSVIKSNKLRPSNMVAKIATLLDGDLKGRNIAILGLTYKAGTDDVRASPAIEIITILLNKDVYVKAFDPIGLENAKKNLEHKNLLYFASAVEACKSVDIIVIATEWSEFKELNWQEIYNLVKSPMIIDLRNILDNEVMKKIGFRYYAVGSQI;locus_tag=LOCUS_7080;note=WP_004596947.1 UDP-glucose/GDP-mannose dehydrogenase family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.3e-248],MGA_709
sequence1	MetaGeneAnnotator	CDS	903810	907358	.	+	0	ID=MGA_710;product=DNA polymerase III subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599648.1;translation=MQPEFIHLRTQSSYSFLESALTIEKVVELALLHKMPALCLSDRGNLFGSLEFSLYAVKKKLQPIHGVILNIQYDINAFAQILLIAKDETGYKNLLKLSSLTFTKNDRKICEHIGFEDLIKYQEGVIALCCYTDGIVGKCLLARKQEQAILFARRLQAILGDRFYFEIMRHDLPEEQFIENSYIQIASELSIPIVATNKVLFSEKSMHYAHDVLLCISEGVTKEYPDRKTVSENCYFKSPAEMRKLFSDLPNAIQNTINLRERCYFAAHPNPPMLPNFSTQDISETYLIRKYATEGLLARLVTKFKAENISLEHQEKLKTEYFTRLNYELDIICNMNFAGYFLIVSDFIKWSKKQGILVGPGRGSGAGSVVAWSLLITDLDPIKFGLLFERFLNPERISMPDFDIDFCQERREEVINYVRSKYGPNRVGQIITFGKMQAKAVIKDVARVLSLPYKLADYLTELVPFSAINPVSLEQAIREVPELANAAKGNGLYNLEGDAELIKLVLDTSLILEGLHRHSSTHAAGIVIAGTDLVDIVPVYKDANADMLIVGYSMKYSEIAGLIKFDFLGLQTLTVITNCKKLLKEQGIKIDFDDMTFDDKKTYQMLCKGKGVGVFQFESIGMKDALRRLKPDSIHDLIALGALYRPGPMENIPTYIACKHKLQQPDYLHKLLEPILEETYGVVIYQEQVQRIAQVLAGYTLGAADLLRRAMGKKIKKEMEEQEEIFVKGAIANNISPSQAKSIFSTVAKFAGYGFNKAHAAAYGVISYQTAYLKANYPAEFLVACLNLELNNHDKINLFLQEAKDNGIKIIAPNINISEGYFSVKSSNTVITHSTKSVISRLNCDIKKIAKDTAVKPLYCKDESTIIFALGAIKGVTANFGKLVTDERKARGAFKSITDFIERLPPKSINSKLLENLIKAGCFDELHDNRLQLFLSIPKLIAYSTSYHQEQESNQFSLIKVSSLSPTILVSSDYADKNTLAFYEFEAMGLFLSNHPLTEYQGIFSRLNILNTRDLYNKLPNGTNRVTLAGVIQKKDSRMSARGRFVTLVLSDPENIFELTIFSEEVLKDYVHLLDVKSLVVVNCDVVKDEGGIKLTAKSFLSIEDVMNNRQFELQLYPQNYAELEQIITLLASRTSNGYQSNAKATIYLQSKDVKHFIAKITLSETFFLQVQDFEVLNQYIR;locus_tag=LOCUS_7090;gene=dnaE;EC_number=2.7.7.7;note=WP_004599648.1 DNA polymerase III subunit alpha (Rickettsia prowazekii) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_710
sequence1	MetaGeneAnnotator	CDS	907725	908861	.	-	0	ID=MGA_711;product=methionine adenosyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010958613.1;translation=MKNFVFTSESVSEGHPDKIADQISDAVLDEILKHDPNGRVACETFVTTGLVLVGGEITTNTYVDIEQVVRNKIQEIGYNNPNYGFDGSCCAVISSIIKQSPDIAMGIDNEEEIGAGDQGMVFGYACNETKSLMPAPIYYAHLLMKRQAYLRKQNILSWLRPDAKSQVTLRYENNKPIVIDSVVLSTQHHPEIQQKDLIEAVIEEIIKPTLPTNLLHKDTKYLINPTGRFVIGGPVADCGLTGRKIIVDSYGGMAKHGGGCFSGKDPTKIDRSAAYMARYIAKNIVGAGLADRCEIQISYAIGVADPVSVYAETFGTSKLSNEQTTKLITEHFDMRPGKIIKNLKLHTQCYQKTATYGHFGREDENFTWEQLDKVDIFK;locus_tag=LOCUS_7100;gene=metK;EC_number=2.5.1.6;note=WP_010958613.1 methionine adenosyltransferase (Coxiella burnetii) [pid:66.8%25%2C q_cov:98.9%25%2C s_cov:95.7%25%2C Eval:3.5e-150],MGA_711
sequence1	MetaGeneAnnotator	CDS	909139	911742	.	-	0	ID=MGA_712;product=DNA polymerase I;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596955.1;translation=MTKKITLLLIDGYGFVFRAYYAQKSLSSAKGEPVGALYGFTSMLLKLLSDFKPQYVAIVFDSGGKNFRHKIYQNYKANRPLPPKDLIAQLPLVRDVASNFKFAILEKNGYEADDIIATFATKTVSLGEEVIIISSDKDLLQLMSKNIKIYDPIKCKYITEDNVVTKFGTTPDKLREVMALIGDRSDNIPGVPSIGPKTASSLITKFGSVENIFNSLDQISSIKQRKTLQNAREAALISWKLIGLDSNVDLDFDLNNLKWSPPNSKKLTGFLQEYGFKSLYKRVENLFDIKINDHEEIVDNKVTEAKEISNASELANFAKEAERIGIFGIYLLQQKGENRALILSLQNQSYIIKITNNNYNIKNNNDWFSHIILNLLTNKSIKKITYSLKHLLKFYANQSHQITAIEDLELMQYALSAGLVQKNLFTKTLTKDNIINESARIVINFISLYKQTLLELQKNKAFRLYREIDLPTCFILDKMEKVGIKVDANYLNRLSDEFGTEILKIEEEIFALSGTKFNIGSQKQLGEILFKKMQLPSGNTLAKTSSYSTRAGILKKLSEDGYHIATLLLRWRQLTKLKNTYTDSLPKQINNITKRIHTTFLQTSTTTGRLSSQEPNLQNVPIRSSDGNKIREAFIAEEGYKLISADYSQIELRILSHIANIDVLKQAFINKEDIHTQTACQIFNLKKHELTSEHRRKAKAINFGIIYGISAFGLAKQLNVSNSTASEYIKQYFAEYKGVQEYMTQTKACASRNGYVTNFFGRKCFIPLIHDKKLKQFAERAAINAPIQGTNADIIKIAMIKLDKEIEERKLKTRLILQIHDELLFEVPEIEVEIVIPIIKKIMEHSTNMNVPIITEIKAGNNWKEIH;locus_tag=LOCUS_7110;gene=polA;EC_number=2.7.7.7;note=WP_004596955.1 DNA polymerase I (Rickettsia prowazekii) [pid:97.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_712
sequence1	MetaGeneAnnotator	CDS	911896	912807	.	-	0	ID=MGA_713;product=signal recognition particle-docking protein FtsY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596957.1;translation=MITIFNKLKQSLSKTSNTISAGIDKIFYKRKLDKETLNELEELLISSDISISVVTHIIEEFKNVKFDKTIDSDTVKEAIAKLIEQQLSKSEIPFTLSENKLNIILVCGVNGVGKTTTIGKLSALYSAEGKKVAVAACDTFRAAAINQLSSWVHRANALLITGKASADPASVAYRAIEESIKQNIDILFIDTAGRLHNNKNLMDELSKIVKVIKKLDENAPTHSILIIDAITGQNTYNQIEYFNDVTNLTGLIVTKLDGSAKAGVLVGAVQKFNLPVYFIGIGEKIEDLKIFNRHDFSRSLVGL;locus_tag=LOCUS_7120;gene=ftsY;note=WP_004596957.1 signal recognition particle-docking protein FtsY (Rickettsia prowazekii) [pid:96.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-158],MGA_713
sequence1	MetaGeneAnnotator	CDS	912999	913460	.	-	0	ID=MGA_714;product=outer membrane protein assembly factor BamE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596959.1;translation=MKTFITYIFSILVFFTLNSCKTIENRGTSIDDAELIKLESKKLNKMEVVELIGTPTMVPEYSQNTWYYVERVMSQRAWLNPKIQKQKIIKITFDSNNLMKELIVIDDSHKEDIETVREYTKTHGTELNGLQKFVKNLGRFNNITHKNKNKKQR;locus_tag=LOCUS_7130;note=WP_004596959.1 outer membrane protein assembly factor BamE (Rickettsia prowazekii) [pid:96.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.9e-80],MGA_714
sequence1	MetaGeneAnnotator	CDS	913554	913751	.	+	0	ID=MGA_715;product=50S ribosomal protein L32;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596961.1;translation=MAVPKKKTSKSKRNMRRSHLALGKINVIVDSHTGEYKLPHHISLVDGTYNNRQVVTKKIDTEEVA;locus_tag=LOCUS_7140;gene=rpmF;note=WP_004596961.1 50S ribosomal protein L32 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-31],MGA_715
sequence1	MetaGeneAnnotator	CDS	913765	914718	.	+	0	ID=MGA_716;product=ketoacyl-ACP synthase III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886368.1;translation=MTCKIIGSGGYLPPKIISNDELTKFVDTNDKWIRTRTGILQRHIAGDAEYTSHLAFKSAQKAIEDAMISVDDIDLIITCTTTPDNSFPSVATKLHGYLGLTNIPSFDLQAVCAGFIYGLQLAHSLIVSGKYKTILLIGAEKMTSLLDWNDRSTCVLFGDGAGSVILQRSNDDSGLIDSNIFSSGTDYEILYTSGGTSMNGTSGKIVMQGQKLFRHAIEKMLQSIEDLLYANQFSVSDIDYFIPHQANIRIINKLAELLNIEEHKVVKTVEKHANCSAASIPLALSALKESGKIKKGDILLFSAIGAGLTWGGALIRW;locus_tag=LOCUS_7150;note=WP_010886368.1 ketoacyl-ACP synthase III (Rickettsia prowazekii) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-173],MGA_716
sequence1	MetaGeneAnnotator	CDS	915034	915501	.	+	0	ID=MGA_717;product=peptidoglycan-associated lipoprotein Pal;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596964.1;translation=MKTKITLAFLALFMLAGCNTTKKTTQMAGMVHQCEETSLIKDFEKHAGNAVWFAFDSSSLSPKAKEELERQACWLSKHPEVKVTVEGHCDERGTREYNLALGERRAAAAKQFLANKGIAHNRLNTISYGKDKPAMIGNTEEAFSYNRRAVTVLHK;locus_tag=LOCUS_7160;gene=pal;note=WP_004596964.1 peptidoglycan-associated lipoprotein Pal (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.7e-86],MGA_717
sequence1	Aragorn:1.2.38	tRNA	915893	915969	.	+	.	ID=Aragorn_27;product=tRNA-Met;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0270;note=Aragorn_27
sequence1	MetaGeneAnnotator	CDS	916011	917099	.	+	0	ID=MGA_718;product=LptF/LptG family permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886367.1;translation=MINLKTLSLYLTKLYSKCFFIILFLLIGLLIISNIFDLLQKFKNIYVPFSFFWRFILYKIPYLLSQVSSLISFTSMLFFLRNLTKSNELTAILSSGIHIWQVLIIPCIVTLILGIICTTILNPISTIGLQKYSLLEAKLTKKALSECLISESGLLFFESLNEHNQIIQTKFIDVAEKKLNNITILFIDNNNSFLKRIDALYGIIDNKKLYLNRVKVSTKDEIKSYSNLTIQTNLSINSLVNKFMRPEMVSIWALPKLINELLNSGLSAINYQIYYYKQLFKPIMMMATVILASCFISLKQRCNSQEKILILGLFSGFIAYSLSEILLKILTYNNLSLIAAILLPSMLIFFISNFIILHYKEI;locus_tag=LOCUS_7170;note=WP_010886367.1 LptF/LptG family permease (Rickettsia prowazekii) [pid:95.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-189],MGA_718
sequence1	MetaGeneAnnotator	CDS	917307	918347	.	+	0	ID=MGA_719;product=rod shape-determining protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596966.1;translation=MIMKFLEGFSSGMAIDLGTANTIVYQKSRGIVLREPSVIALIKKDGAFVPYAYGHEAKMMLGRTPTDIEAKRPLKDGVIADFKGAEEMIKYFIKMVHNRRSFFGPTIVICVPSGSTPVERRAIQEAAESAGGRDVYLIEEPMAAAIGAGLPVTEATGSMIVDIGGGTTEVAVLSLGGIVYARSVRVGGDKMDEAIISYIRRHYNLLIGEATAEKIKQEIGTAYVDENAEPRKMEIKGRDLIYGIPKEMILNERQIADSLIEPVSQIVEAVKVALEATPPELSSDIVDKGIVLTGGGSLLRNLDFVLSEATKLPVIVADDALSCVALGTGKVLEDFTKLKHVLFKQD;locus_tag=LOCUS_7180;note=WP_004596966.1 rod shape-determining protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.5e-192],MGA_719
sequence1	MetaGeneAnnotator	CDS	918659	919189	.	+	0	ID=MGA_720;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MQSEVESVKAENIALKDLLMIAEEEEFEYFTTKLLSVSFNPFSRTALIGAGKKQGIEPDQIVVNSGKLIGKVIEVSNNYSKVMLISDVNSRIPIKANSSREQGILAGNNNNSKILYLPNNHLVQKDEEIVTSGHGNIYPAGILVGYVSKVTENDVIVTLAADLSKMEFVQILLPKQ;locus_tag=LOCUS_7190;note=WP_004596967.1 rod shape-determining protein MreC (Rickettsia prowazekii) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:63.1%25%2C Eval:1.2e-92%2C partial hit],internal stop codon at [918485:918487](+),MGA_720
sequence1	MetaGeneAnnotator	CDS	919816	920094	.	+	0	ID=MGA_721;product=helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599647.1;translation=MYIYKSFIYSEVINMALATKVKEFLEEKLKQEKIDRKYLAQVTNIPYTTVSRIMRAEANREFNPEIDTILKIAKYFNCTMDEVIKRKVHNNS;locus_tag=LOCUS_7200;note=WP_004599647.1 helix-turn-helix transcriptional regulator (Rickettsia prowazekii) [pid:96.2%25%2C q_cov:84.8%25%2C s_cov:100.0%25%2C Eval:2.5e-36],MGA_721
sequence1	MetaGeneAnnotator	CDS	920211	920804	.	+	0	ID=MGA_722;product=guanylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599646.1;translation=MKFKNKGLIIILSSPSGTGKSSLAKELLKIDNNLRLSISVTTRKPRLGEVDGINYYFKSDREFKTLVKQNKFLEYAKIYNDYYGTPKEYVKMLLKQGFDVLFDIDWQGVRSIKKNTNNVITIFILPPSIEILEQRLRNRATDNEETIKLRMQSAQNEISHANEYDYVVINDDFSQTLKKIHEIIVAERAKNFAYHEY;locus_tag=LOCUS_7210;gene=gmk;EC_number=2.7.4.8;note=WP_004599646.1 guanylate kinase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.8e-109],MGA_722
sequence1	MetaGeneAnnotator	CDS	921378	922658	.	-	0	ID=MGA_723;product=beta-ketoacyl-ACP synthase II;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596970.1;translation=MSNQNINKRVVITGLGLVTPVGLNVSSTWKNIVGGVSGIKTITEFDTSKLACKIAGVIDNSEQNGFKLENFTQADDINRLSKMDKFIHYGIAAATEAVEDSGWLPKDEKSRDRTGLILGSGIGGLKMIEDTSIKLYKENNGKVSPFFIPASLINLLSGLVSIKYGFSGPNQAAVTACSTGAHAIGDAMRMIKHGYADVMIAGGAEAPVTPVGIAGFVAARALCTKYNDNPEKASRPWDKDRSGFVMGEGAGIVVLEEYEHAINRGAKIYCEVIGYGSTGDAYHMTAPHPKGRGAYRAMSEALQDADITPSMIDYINAHGTSTPLGDMIELDATQKLFLESNPKILMSSTKSSIGHLLGAAGSVEFIFSVLTIRDQIAPPTLNLENPIDDVKIDLVKFKARETVIDYVLSNSFGFGGTNASLVIKKI;locus_tag=LOCUS_7220;gene=fabF;EC_number=2.3.1.179;note=WP_004596970.1 beta-ketoacyl-ACP synthase II (Rickettsia prowazekii) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-241],MGA_723
sequence1	MetaGeneAnnotator	CDS	922692	922937	.	-	0	ID=MGA_724;product=acyl carrier protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014607275.1;translation=MSTTDKIEQKVIEMVAEKLNKDKAIITTDSRFIEDLKADSLDTVELMMAIEVEYGIDIPDDEATKIKTVSDVIKYIKERQS;locus_tag=LOCUS_7230;gene=acpP;note=WP_014607275.1 acyl carrier protein (typhus group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:94.2%25%2C Eval:3.4e-38],MGA_724
sequence1	MetaGeneAnnotator	CDS	923104	923829	.	-	0	ID=MGA_725;product=3-oxoacyl-ACP reductase FabG;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886363.1;translation=MIDLTGKTSLITGASGGIGSAIARLLHKLGSKVIISGSNEEKLKSLGNALKDNYTIEVCNLANKEECSNLISKTSNLDILVCNAGITSDTLAIRMKDQDFDKVIDINLKANFILNREAIKKLIQKRYGRIINISSIVGIAGNPGQANYCASKAGLIGMTKSLSYEVATRGITVNAVAPGFIKSDMTDKLNEKQREAIVQKIPLGTYGIPEDVAYAVAFLASNNASYITGQTLHVNGGMLMV;locus_tag=LOCUS_7240;gene=fabG;EC_number=1.1.1.100;note=WP_010886363.1 3-oxoacyl-ACP reductase FabG (Rickettsia prowazekii) [pid:96.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-126],MGA_725
sequence1	MetaGeneAnnotator	CDS	923831	924853	.	-	0	ID=MGA_726;product=recombinase RecA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596976.1;translation=MSNIDKERAIAAALAQIEKSYGKGSVMKLGQRPNVDIEAISTGSLGLDIALGIGGVPKGRIIEIFGPESSGKTTLTLHLIAESQKKGGTCAFIDAEHALDPAYAKKLGVNIDELIISQPDTGEQALEIADTLIRSGGIDMIIIDSVAALVPKSEIEGEMGDAQMASQARLMSQALRKLTASINRTNCITVFINQIRMKIGVMFGSPETTTGGNALKFYASVRIDIRRIGSIKDKEEVIGSQTKVKVVKNKVSPPFKTADFDIMYGSGISKEGEIIDLGVKLEIIEKSGSWFSYNKIRIGQGRENVKQYLKEHPQISNEIEKIIREKSSAITNINLDQTEE;locus_tag=LOCUS_7250;gene=recA;note=WP_004596976.1 recombinase RecA (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-185],MGA_726
sequence1	MetaGeneAnnotator	CDS	926331	927452	.	-	0	ID=MGA_727;product=DUF5460 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599643.1;translation=MHNADCNWKNIMQSFTESPNDFSILHQECSSGLNIPINNIFTDTENNTHLLLDQTVTHNQNGTANILGKIYKVTNGYMFSQGDITSTNGANFLGLNQCTEEAAISVLQNYHSYKETLIPRASFINTLAETLNHLGLYLDNISPMEIGKYILDQFGKTYDEPTTEKSNNDTNCHEYSNSYYYVVALGTLALGSILGYTAKYVWDNYNGKIIKNENIELVRENKQLKFSTLLYENFKNNAFILDEIIKINNLNDIIKLAKSMQEFKSSISSLTNLNNEIIKLNSPSAIALNLASVSKILHEICDNLKGNDSFTTINNFAKLITMIRTENPDSEEYKASIKEILEIFSSHYEEIEELNYATPLLAIEAYSPLEIIE;locus_tag=LOCUS_7260;note=WP_004599643.1 DUF5460 family protein (Rickettsia prowazekii) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.6e-210],MGA_727
sequence1	MetaGeneAnnotator	CDS	927866	929203	.	-	0	ID=MGA_728;product=tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596984.1;translation=METIFAQSSAFGKAGVAVFRISGPKSLEVLQLLTGRKDFKPRLMYYQQIIVPETNELIDNAMVVYFKLPNSFTGEDVVEIHTHGSKAISIMLINTLLNIADIRLAEAGEFTKRAFLNNKFDLTAAEGIADLINAETIMQHRQAVRQANGGLKELYNKWRNQLLKIISLLEAYIDFPDEDIPESILNDVNNTHKNIVNEISNYLNDNRRGELLNNGLKLAIIGPPNTGKSSLLNFLMQRNIAIVSNIAGTTRDIIEGHLDIGGYPIILQDTAGIRTESTDIIEQEGIKRAINSAKTANIKIVMFDAEKLDSSINNDITGLIDENTIVIINKIDLIEPNKTFAIENRYKCLRVSVKNNIALSNILKNIENIAENLAGVTETPYITNQRHRHYLKQALSHLIDFNLDNDLVLATEDIRMTVRCIGLITGVINVEEILNEIFKNFCIGK;locus_tag=LOCUS_7270;gene=mnmE;EC_number=3.6.-.-;note=WP_004596984.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-251],MGA_728
sequence1	MetaGeneAnnotator	CDS	929286	934031	.	+	0	ID=MGA_729;product=NAD-glutamate dehydrogenase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596985.1;translation=MVSKTLNFRRLNCQIPNYKTKILELSKERESSPIYIDFIQKFLNYIPIDYDFENREKLFQNFADEAFKFFQQRVDRARKISITKSVIENDPAINILILLDNKPHIVDVIICLLKNMNLQAKFLLHPVINCMRNSQGELEKIYENSVLDEKSELILHLTILGNFDDKTTQFLTEAINERLEELQQSYIHLPQLLTKLQDLSKNIIDNDKFNFGEAKEFLNWLQNDNLVLLGTFDFEVKSLKLSNEIGVAKIWQEVRDEIDDIIKCSANTLYQNQLIILGKVNSISLIHSDNLIDYILVKKFDSSGEYISGSIIFGIYNANMYYYSISNIPILRQKFNFVIEKAGFSLSGYNADKLRILIESLPRAALIQIDQSDLYCMCLHMLSSMMSKKLKLFIQYDWSNSFLNIIIFLPRERLTAEIHNMIDCYLSEKFGSKILSNYITEVAGNFSYLFVTLEAQGVHKINFEAEIIQQDLDRISTRWSEDFYFKLSKKFGEYQAGINLKIFDNVFPPDYRQKFSPEIALIDIEYLKNASESQACMFNLVSVNETEFYLKIYSPKVKLALSNILPSIENLGFKAIDEQTFAIKEAMEIKESWIYNFILTSIVPVKDNISALKINVEEALDQMALGMLANDSLSKLIVLAGFNWKQVKLIKALTRYLHQTGFSYGKGYVQLTLLKHPEYTKMLVNLFDIKFNPKHPDNNYDAIQDKLNNYLVTVEMSSEDKVLRSMLGIVNAITRTNYYQPHKHIFSFKFDSSKVPNLPKPIPFAEVFVYSRNFEAIHLRGGPVSRGGLRWSDRAEDYRFEILGLMKAQMTKNSVIVPVGSKGGFYVNFTEEGLTRDEYMEKVVECYKNFLRGLLDITDNIIDGKVVHPKDMIIYDTQDPYLVVAADKGTASFSDYANSVAKEYNYWLDDAFASGGSAGYDHKKMAITSKGAWISVTNHFKTLGLDVQKDNITVVGIGDMSGDVFGNGMLRSKAIKLVAAFNHKHIFIDPNPNPLLSFNERLRLFNLNGSNWSDYDSTLISKGGNVFERSSKLLKLSPEIKELLDINANEMSPEELIRAILKADVDLLWNGGIGTYIKAKTENNLEIGDKANDNLRCNGEEIRAKVIAEGGNVGVSQRGRVEYAKKGGRINADFIDNSAGVDCSDHEVNIKIALSSAVTSGKITLEERNKLLIDMTKQVEELVLLDNYKQTEAITIMQLSPTLTVNILSQFIDILEEEKVLERDNEFLPSVEELNRRATSGEVLTRPELCVLLSYSKRAAYHELINSTFFHDKYFDAYLIDYFPKMMQKKFRNEILSHPLKYEIIKTVTINKIINQLGGPLISIVKLEIGAPLCDIIRSYTIICEIFALDDIWETISNLSTHVDYNVKIDMFTEVTKLMRRGISWFIKNSKHPINISETIEEFRGPAQNLRKMISTLLVGEAKVRFAEKLNYYTTSGVEESFAATIATFDNLISVFDIIYVTKETDGNNTKIAKAYFDISNMFSLDWLRKVCDKQLNDSFWRRLGLQSLKDDLYDKQRRLLIKIINKSKTTIDLNLWIDNNNNLVSNFLDFIKEIKAQETIDLNIIILANKKFEIFLQKLE;locus_tag=LOCUS_7280;note=WP_004596985.1 NAD-glutamate dehydrogenase (Rickettsia prowazekii) [pid:99.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_729
sequence1	MetaGeneAnnotator	CDS	934035	934397	.	+	0	ID=MGA_730;product=helix-turn-helix domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599639.1;translation=MSSMLKQIRLDAGKSLNQVSSDLKISKKYLVALEEGDFDVLPGEVYVRGYLKLYLDYLNVKDRNTAQIEATKQNESEKLLINKRATALINYKRKKQLVLISIMMLSIIIVSHQFIINVTN;locus_tag=LOCUS_7290;note=WP_004599639.1 helix-turn-helix domain-containing protein (Rickettsia prowazekii) [pid:95.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.4e-57],MGA_730
sequence1	MetaGeneAnnotator	CDS	934410	934613	.	+	0	ID=MGA_731;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599638.1;translation=MDNKILKRLMEEVEHKLDELLQAQTHNHNEVKKLQNENKKLKDNYIKILDQIKIYINELEEIKKQQK;locus_tag=LOCUS_7300;note=WP_004599638.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-32],MGA_731
sequence1	MetaGeneAnnotator	CDS	934616	934933	.	+	0	ID=MGA_732;product=cell division protein ZapA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596991.1;translation=MPIVTVTLNNKSFQLYCNNGDEEKVLSLADKLNDKIAEIKLSSPTASFDLLLVMASLNAQAEIAILTEKLYKNGFQNNNHEEEKFAETLTTIASYLENLARKMEK;locus_tag=LOCUS_7310;note=WP_004596991.1 cell division protein ZapA (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.9e-53],MGA_732
sequence1	MetaGeneAnnotator	CDS	935255	936496	.	+	0	ID=MGA_733;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599636.1;translation=MKQIKSRNKVLGAFLGTIIEYYDYSLYGFSAAIIADKFFSACTDPLTKLVNVFAVYAAAYLSKPMGSYVFGHIGDIYGRKKALSFTVVGIVIPTLIIGLLPDYSLIGVWSTIILVLCRFMQGIFIGGEYDGAAIYVIEHLGTKYRFTASAITRCTGVMGLLCGIAATNFFNSHIFPEWSWRIPFLLSVPLALITLYYRRKFDETPEFKKANYSNDSIEKMSAIIKKQWTNIVRLIFLAGGFGATYQIAIIFMKQYLPIVLPSVAIIMSSFSVLIVICFAVCMPIAGLIADRLGVNLVLKIAFICTITASVFFVIAVKYQMTNLGLAVSLMLAGSVAPFNALAHSIVIKSFVVKERYRVISLGHNIGSMLMSGTANYICAKVIKSFDFNLFPILYLCMFTVLAYAINILFSKND;locus_tag=LOCUS_7320;note=WP_004599636.1 MFS transporter (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-235],MGA_733
sequence1	MetaGeneAnnotator	CDS	937480	937971	.	-	0	ID=MGA_734;product=helix-turn-helix transcriptional regulator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599634.1;translation=MREDMRSTESNRINDTSVTNKDNPEEMRNNFKKFVLNILETDNITPYQLSEKTGTHETAWKNFLDGRTKMPDMGAIVALADYKNVPLDKLIGREINKEHKMTLEIKQTSKISSSTSKIPKDILQEAMLIGEKTQQFINKPTTKETKSYTKPIKRSHKPDARSI;locus_tag=LOCUS_7330;note=WP_004599634.1 helix-turn-helix transcriptional regulator (Rickettsia prowazekii) [pid:95.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-85],MGA_734
sequence1	MetaGeneAnnotator	CDS	938380	939720	.	-	0	ID=MGA_735;product=aspartate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596996.1;translation=MALIIQKFGGTSVANVERIKKLVPIIKAEIAKNNQVIVVVSAMAGVTNQLVTLCNEVSSLNKRSQFAEYDVALSSGEIVTASLLALALQEEEIKAQSLLAWQLPIRTNNNYSKALVEFITTDLLEKYLQLKIIPIIAGFQGINKSNRVTTLGRGGSDTTAALIAAAMKADRCDIYTDVDGIFTADPRIIPNAKRIKEIDFLEMLELASSGAKVLHPRAVELVMRYKIDMRVLSTFSPNTEGTLITSKDTIPLVKSTYMEESALNTKHSTKIDIPEDASGSTYKLPIELALQNRYNMENCVVRCITSNKNLLKVSVNSISLSFLQVANMITYNNNCIEFMQEIENNIEYNFITNLTDKNNLQTLLTKCKNNKQIQDFTFDTEIATISLIGYGIKNDCKLLTMILSQLTQDNINVHMMQLSEVKITLLINDKDVEKTIFNLYNLFKIS;locus_tag=LOCUS_7340;EC_number=2.7.2.4;note=WP_004596996.1 aspartate kinase (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.7e-245],MGA_735
sequence1	MetaGeneAnnotator	CDS	939971	940231	.	-	0	ID=MGA_736;product=50S ribosomal protein L27;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596998.1;translation=MATKKAGGSSRNGRDSAGRRLGVKKSDGQYVIPGNIIVRQRGTKIHPGINVGLGKDHTIFSLIEGRVEFLTKQSHKIVNVKEIANV;locus_tag=LOCUS_7350;gene=rpmA;note=WP_004596998.1 50S ribosomal protein L27 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.5e-43],MGA_736
sequence1	MetaGeneAnnotator	CDS	940256	940573	.	-	0	ID=MGA_737;product=50S ribosomal protein L21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597000.1;translation=MFAVIKAGGKQYKVDRNSVIKVEKIDGELGSKIQFDQILMIGEYSKPSFIGTPIVKGAIVTAEITNQLKDNKIIAFKKKRRKNYRRKAGHRQELTELKILDITKQ;locus_tag=LOCUS_7360;gene=rplU;note=WP_004597000.1 50S ribosomal protein L21 (Rickettsia prowazekii) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.1e-52],MGA_737
sequence1	MetaGeneAnnotator	CDS	940770	941375	.	-	0	ID=MGA_738;product=phosphatidylglycerophosphatase A;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597002.1;translation=MFTKKQFSEFFTTFYYIGKIKYCPGTFGSIAAFPVTYSLIYFVVHHKIIIPFSNLTLGEAQLVSIFIINFIICLIFLMFGIYFTKIYLNYTNLQDPKEVVIDEVVGQMLTIVLVFFSALFANESHLMKYYSQLTRNIILLFILPFCLFRFFDIVKPWPINWFDKNIKGSIGIMLDDLLAAIFAAITQYAIIFVLIDIDNRL;locus_tag=LOCUS_7370;note=WP_004597002.1 phosphatidylglycerophosphatase A (Rickettsia prowazekii) [pid:93.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.0e-105],MGA_738
sequence1	MetaGeneAnnotator	CDS	941456	941620	.	+	0	ID=MGA_739;product=Sec-independent protein translocase subunit TatA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597004.1;translation=MGMSFSHLLIVLLIIFVLFGAGKLPQVMSDLAKGLKAFKEGMKDDGNDNDKTNN;locus_tag=LOCUS_7380;note=WP_004597004.1 Sec-independent protein translocase subunit TatA (Rickettsia prowazekii) [pid:95.2%25%2C q_cov:77.8%25%2C s_cov:77.8%25%2C Eval:3.1e-15],MGA_739
sequence1	MetaGeneAnnotator	CDS	941703	942818	.	-	0	ID=MGA_740;product=penicillin-binding protein activator;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597006.1;translation=MANIKHKLLIFLSFFSLLYLTSCQIHNEGEITIHKKEQKEIEIAILMPNQGPDAVVGKQYKDLIKMGLNDAVKSYIHVTSYDGSDEQNVLAAMDKIVARKTKIILGPLYSNFTSLITEKAKANDIIIITMSNNPALAEDKLFVFGHAPLKQLIRIINYYGDHHKDFMALLPQGKYSQTISQVMQNILIQKNSSLSHTEFYEDNPEAIEKAVRNISNNADIINERSDTTKPVIYLSDDPKNLNLLADSIRKYNLDKKAILIGDNRIDVDYSENIDISFTSTLNLFNSNVQDRAKDLGINHMGFMHLIAYDLGRMTANYIGNEFVSEIFLNRMHSRQPYIGLSGNIHFIDGVAQRRYDIIRKENGVYFTITED;locus_tag=LOCUS_7390;note=WP_004597006.1 penicillin-binding protein activator (Rickettsia prowazekii) [pid:97.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-205],MGA_740
sequence1	MetaGeneAnnotator	CDS	942842	943684	.	+	0	ID=MGA_741;product=16S rRNA (cytidine(1402)-2'-O)-methyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597008.1;translation=MILKSGLYIVSTPIGNFEDITLRAISTLKNSDIILCEDTRISQKLLAKHYIHTKLQIYNDHSDYKDREYIISLIKAGNVVSLISDAGTPLISDPGYKLVRDLRNLNYYIEVVPGVSSPITALTLSSLPTDRFLFSGFLPKTIESKKKIFAELVNLKATLIFFDTASRLINTLLLAKEIFGNREICVARELTKIYQETKTGDIDEIIEFYKNNILKGEIVLLISGNVQVQNKQINLEKFIEFCLSKNLSSKTIIELAYDKFKDVYSKKEIYSVVHKKKFTA;locus_tag=LOCUS_7400;gene=rsmI;EC_number=2.1.1.198;note=WP_004597008.1 16S rRNA (cytidine(1402)-2'-O)-methyltransferase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-154],MGA_741
sequence1	MetaGeneAnnotator	CDS	944431	945069	.	-	0	ID=MGA_742;product=endonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597010.1;translation=MQAQIMNKIFEIFSKNNPKPQTELIYKNDFTLLVAVILSARATDISVNLATKHLFETYNTPEKFLELGEEGLKKYIKSIGLFNSKAKNIIALCQILIKNYQTSIPNNFKELVKLPGVGRKTANVVLNCLFAMPTMAVDTHVFRVSKRIGLAKGNTAAIVEKELLQIIDEKWLTYAHHWLILHGRYICKARKPGCNICPIKEYCEYYINTFSS;locus_tag=LOCUS_7410;gene=nth;note=WP_004597010.1 endonuclease III (Rickettsia prowazekii) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.9e-117],MGA_742
sequence1	MetaGeneAnnotator	CDS	945122	945445	.	+	0	ID=MGA_743;product=Grx4 family monothiol glutaredoxin;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597012.1;translation=MTKNKNLEFIQNAIKKNKVVLFMKGTKEMPACGFSGTVVAILNKLGVEFSDINVLFDTALREDLKKFSDWPTFPQLYINGVLVGGCDIAKELYQNGELEKMLKDVVV;locus_tag=LOCUS_7420;gene=grxD;note=WP_004597012.1 Grx4 family monothiol glutaredoxin (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-56],MGA_743
sequence1	MetaGeneAnnotator	CDS	945548	946195	.	+	0	ID=MGA_744;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597014.1;translation=MNKYLEYPEVESKELPPQKLVVLLHGVGSDGHDLIGLVPYIKNDLPNCHFISPHGIEDYDMMPYGRQWFSLRDRSPHIIAKLIANNISKLEDIIREKQTELNLTNKDTVIIGFSQGTIIGLYLTLIQQKPLFCTIGFSGALIPPMKVNNKLTPICLIHGELDQVINVSEMYNASNYLSKLNIEHSGHKLTSLAHSIDGRGLEIAINFINTCHNIV;locus_tag=LOCUS_7430;note=WP_004597014.1 alpha/beta hydrolase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-123],MGA_744
sequence1	MetaGeneAnnotator	CDS	946275	947537	.	+	0	ID=MGA_745;product=serine hydroxymethyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597016.1;translation=MNILNNNLYEMDKEIYEIIKNEKIRQNNVIELIASENFVSSAVLEAQGSILTNKYAEGYPSKRFYNGCDEVDKAEVLAIERIKKLFNCKYANVQPHSGSQANQTVYLALLQPCDTILGMSLDSGGHLTHGAAPNISGKWFNTVSYHVDQETYLIDYDEVERLAVLHNPKLLIAGFSAYPRKIDFAKFRKIADKVGAYLMADIAHIAGLVATGEHQSPIPYAHVVTSTTHKTLRGPRGGLILSDDEEIGKKINSALFPGLQGGPLMHIIAAKAVAFLENLQPEYKNYIKQVISNAKALAISLQERGYDILTGGTDNHIVLVDLRKDGITGKCAANSLDRAGITCNKNAIPFDTTSPFITSGIRFGTPACTTKGFKEKDFVLIGHMVAEILDGLKHNEDNSKTEQKVLSEVKKLMKLFPFYD;locus_tag=LOCUS_7440;note=WP_004597016.1 serine hydroxymethyltransferase (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-241],MGA_745
sequence1	MetaGeneAnnotator	CDS	947530	948423	.	+	0	ID=MGA_746;product=lipoyl synthase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597018.1;translation=MTNLNKRPDWIKVKAPNSVEYYQTKDLIKNLRLNTVCEEAACPNIGDCWSRKHATVMILGAVCTRACRFCNVKTGRPDLLDPHEPRRLAEAVQKLNLQHVVITSVDRDDLEDGGASHFAECINEIRRSSPNTTIEILTPDFLRKEGAVEIIANAKPDVFNHNVETVPSLYKTIRPGARYYNSLSLLHNIKKLSPEIFTKSGMMVGLGEEINEVVQVMDDLREANVDFLTIGQYLQPTKSHAEIRKYVTPEEFKYLERIAKTKGFLMVSATPLTRSSYHADKDFQKLKGNYNIRLASM;locus_tag=LOCUS_7450;gene=lipA;EC_number=2.8.1.8;note=WP_004597018.1 lipoyl synthase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.2e-172],MGA_746
sequence1	MetaGeneAnnotator	CDS	948487	949029	.	+	0	ID=MGA_747;product=rRNA maturation RNase YbeY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597020.1;translation=MIPRSRRGMKTSTMINVEIIRNYNKWREHRKINKGLIKKITQNVLVRFDNFSKIKQFELSILLTNTAEILTLNQQFRSIEKATNVLSFPNNELNWHNLYSKLEFLYYSDYMHLGDIAFCYEVIYNESCEQQKTFENHFIHMLIHSILHLIGFDHQNDTDANIMESLEIEILSYFGIPSPY;locus_tag=LOCUS_7460;gene=ybeY;note=WP_004597020.1 rRNA maturation RNase YbeY (Rickettsia prowazekii) [pid:97.6%25%2C q_cov:92.8%25%2C s_cov:100.0%25%2C Eval:3.1e-91],MGA_747
sequence1	MetaGeneAnnotator	CDS	949046	949957	.	+	0	ID=MGA_748;product=hemolysin family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599630.1;translation=MLKSSKHEDSSSKKNQNNKLIFIVRQLFYLIKHFFSKTKTPDKFFGIIKRLKINSQKMSLDEFNILANLLKLEDKIVEDIMVPRSDIIAIKLTTNLEELSESIKIAVPHTRTLIYDGTLDNVVGFIHIKDLFKALATKQNSPLKRLIRKHIIAAPSMKLLDLLAKMRRERTHIAIVVDEYGGTDGLVTIEDLIEEIVGRIDDEHDQQLDSANFKVINNSTIIANARIEVELLEEIIGEKLKNDDDEFDTIGGLVLTRVSSVPAIGTRIDISENIEIEVTDATPRSLKQVKIRLKNGLNSDNLT;locus_tag=LOCUS_7470;note=WP_004599630.1 hemolysin family protein (Rickettsia prowazekii) [pid:98.7%25%2C q_cov:98.7%25%2C s_cov:98.7%25%2C Eval:9.3e-161],MGA_748
sequence1	MetaGeneAnnotator	CDS	950737	952134	.	-	0	ID=MGA_749;product=GTP/GDP exchange transporter Tlc5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597024.1;translation=MFCILFNQNILRILKDSILISEISAEIAGFAKVYCVTPVAALFVIIYAKMINHLTFEKIFYYLSAFFISCFILFAFVIYPNIHIFHVHPDTLSDWMNKYPHFKWYISLVGNWGYIVYYSLAELWPNIFYVLLFWQFTNELTTTEEAKRFYTLFSLFGNSSLILVGFLMMNLSSEDTIIKKFISISDSKITLVQVSTTIIAIVAIICCLLVRFISKYIFTNPLFYHKTKSSRSTAQRMGLIKSFKYIVKSKYLWLLLICSAAFGFAINLVEAVWKAKIKELYPTVNTYAEFNSLYILWTGVAIIVMTIIGNNVMRMHNWFVAAVISPVIIMVTGVLFFGLIVFDQQILSLFDGAILMSPLALAVSIGGIQNILAKGTKYSIWDTSREMLYIPLDDELKTKGKAAVDVISAKVGKSSSGLVQSIIFTLVPNATFTSISPILMVVFTFVCFAWIYAVRKIYFEYQKIA;locus_tag=LOCUS_7480;gene=tlc5;note=WP_004597024.1 GTP/GDP exchange transporter Tlc5 (Rickettsia prowazekii) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:93.0%25%2C Eval:1.5e-262],MGA_749
sequence1	MetaGeneAnnotator	CDS	952548	953567	.	+	0	ID=MGA_750;product=alpha/beta hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599629.1;translation=MLDNNKLQEYFDLYNNYTKTNNLGNKYLKSGEIVIQAEHYRVLYYSVSSYGLLTKSSNGQYKKLDVQYNTNTFLIIPSIFNSPEIFFLARDRSFIDNLRRYGEVYLIDWLQIEESQYCLDDYVNEIIEVIDILKIKDINLIGHCIGGNLAIAANVLMPQFIKTLTLLTCPWDFSQFFYIRMLYSYLKLDSSIVNLSIIPKIHIQILFFLLSPDCFNTKLKKIFSITSDKEQELAFRIEHWLMSGHNISKGVYNQIIQNILYENMFINLKWKINNFIIDPSLIDCSVYIVSAENDQIVPKSSILTLQKLLQNSKLIEVKGGHISYLINDKLDKLLKEYTL;locus_tag=LOCUS_7490;note=WP_004599629.1 alpha/beta hydrolase (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-192],MGA_750
sequence1	MetaGeneAnnotator	CDS	953564	954742	.	+	0	ID=MGA_751;product=acetyl-CoA C-acetyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599628.1;translation=MTKQVYITHAKRTAFGSFMGSLSTIPAPMLAAYLIKDILQNSKIEPALVNEVILGQVITGGSGQNPARQTLIYADIPQEVPGYTINKVCGSGLKSIALAANSIITCDNEIVIAGGQENMSLGMHGSYIRAGSKFGDIKMVDLMQYDGLIDVFSGVFMGITAENIAKQFNISRQEQDAFALSSHKKAAKAQLSGILQDEILPIEVTVKKNTSLFDHDETVRHNTSIEILSKLRPAFDKNGVVTAGNSSSINDGAACVLLVSEKALKKHNLTPLARIVSWASAGVDPRIMGTAPVPASKKALSKAGWSVNDLEVIEVNEAFAAQSIYVNREMKWDIEKVNINGGAIAIGHPIGASGGRLLITLIHNLRRAKAKKGLVTLCIGGGIGISMCVEAV;locus_tag=LOCUS_7500;EC_number=2.3.1.9;note=WP_004599628.1 acetyl-CoA C-acetyltransferase (Rickettsia prowazekii) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-215],MGA_751
sequence1	Aragorn:1.2.38	tRNA	955439	955530	.	-	.	ID=Aragorn_28;product=tRNA-Ser;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0280;note=Aragorn_28
sequence1	MetaGeneAnnotator	CDS	956429	957373	.	-	0	ID=MGA_752;product=ACP S-malonyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597030.1;translation=MKTAFIFPGQGSQLIGMGKDFYDNLKPAKETFQIIDEVLNRKLTDIIFNGPSEALTLTTNAQPALMAVSMAIINIIKAETGKNLDSLCDYAAGHSLGEYSALCSAESINLETTAKLLHIRSTSMQEACPEGVGAMAACINIPLQTLVELLEDIKKLNLCQIANDNIEGQIIISGKVEAINHAISIIKDLGYKAIRLKVSAPFHCSLMKPAEEKMSIALDKAVINKPIIPIIQNYTAKPTINPLEIKQNLILQICGRVRWRETLKLFNHLHVTHIVEIGAGNVLTNMLRKINYPYKLSNIRNLAELKNFLDNINK;locus_tag=LOCUS_7510;gene=fabD;EC_number=2.3.1.39;note=WP_004597030.1 ACP S-malonyltransferase (Rickettsia prowazekii) [pid:99.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-176],MGA_752
sequence1	MetaGeneAnnotator	CDS	958421	960889	.	-	0	ID=MGA_753;product=exodeoxyribonuclease V subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597032.1;translation=MSNLQQQASNPNTSVWVSASAGTGKTKILIDRFLRLLITGTEPTNILCLTFTNAAAIEMQARINSKLKYLALCDAEKLENELFLMSGNKPLPQEIANTKTLYYKLLNSHEPLNIYTIHAFCQKILKTFPLEAGITPEFKILEETKLQDIFLKIKNEIYLSDEHNEVIQILLNRFHEITLQDIFTEIIEQKIKFKKLFINKQIPEQISNKRLALEQLNNIYDKVASLFTAYDLAIAPKTLFFTKDGGKRKRLLSKELTKKYPQLLTELEKITAKIHHLDELRRIEELKYHTNLLTKLAYIFLKKYDSYKEENNLLDYDDLIYYTEKLLNNKTTHEWLFHKFENEINHILIDEAQDTSPTQWNIITTLITKLNVAEKPSNSTFIVGDDKQSIFRFQGANLHNFNLVNDQLKINLTSNNKKFKNITLEYSYRSCPEILQFTHNVLNNIKSNYPNLFLADNPLISSLRIHQGSVTVWPLLTNQKQKEFFWTLPEDDKNAKSAADLLIDKIVNFIKEKIKSKGILTSTASRISEKDFMILVRKRDKFSHNLIKELSKAKLKVEISDRINLKENLPILDLIAAAKFVLLPDDDLNLACLLKSPIIGISEQKLYTLLVKKIDHTLWEVLSSHKDIYHKLDSIIEIYKIATAENFFDLLVNRLNLRAIYGKNTDDMINDLLTLSKDYANSIDNSLQGFIAWFENNDIYIKRDMEHSDKIRVMTVHGSKGLEAPFVILCDSTTLPIRSNKFIWDDNGQMFFSLNSEDTPAFLQELKESEKLKDLQEYMRLLYVAMTRAQDHLIICGFSNKDTIPENCWYKIAKQTFDKLLN;locus_tag=LOCUS_7520;note=WP_004597032.1 exodeoxyribonuclease V subunit beta (Rickettsia prowazekii) [pid:99.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_753
sequence1	MetaGeneAnnotator	CDS	961037	961672	.	-	0	ID=MGA_754;product=SURF1 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599627.1;translation=MKINFLILTTFIILTSLGFWQLSRLKEKNLFLDSIQSHIISPGINLEKVQENLLYHKVKITGQFLPNKDIYLYGIRLMAMEKDGYYLVTPFKTIADQVILVVRGWFSNRNKNIIMKATNNQIHEIIGVIMPSEKTLSYLPANDIKNNVWLTLDLKEASKALKLNLENFYIIAEGKDISNLDILLPLSLNHLALIKNDHLEYAITWFGLAIF;locus_tag=LOCUS_7530;note=WP_004599627.1 SURF1 family protein (Rickettsia prowazekii) [pid:96.7%25%2C q_cov:100.0%25%2C s_cov:86.5%25%2C Eval:1.2e-112],MGA_754
sequence1	MetaGeneAnnotator	CDS	961798	962487	.	-	0	ID=MGA_755;product=DNA polymerase III subunit epsilon;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597036.1;translation=MSSLREIILDTETTGLDPQQGHRIVEIGAIEMVNKVLTGKHFHFYINPERDMPFEAYKIHGISGEFLKDKPLFKTIANDFLKFIADSTLIIHNAPFDIKFLNHELSLLKRTEIKFLELTNTIDTLVMARNMFPGARYSLDALCKRFKVDNSGRQLHGALKDAALLAEVYVALTGGRQSTFKMINKPDEINNLAVKCVDVQQIKRGIVVKPTKEELQKHKEFIDKILIQA;locus_tag=LOCUS_7540;gene=dnaQ;EC_number=2.7.7.7;note=WP_004597036.1 DNA polymerase III subunit epsilon (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.7e-128],MGA_755
sequence1	MetaGeneAnnotator	CDS	962475	963050	.	-	0	ID=MGA_756;product=dephospho-CoA kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597038.1;translation=MLAIGITGSYASGKTFILNYLSAKGYKTFCADRCIKELYKDIVLQTQILKILPELEYFNIRKISNLIYNNDIAREKLQNFIYPLLIDKLILFKNENTNYKLAFSEIPLLYEAKFEQYFDFVVTIYCSEEIRMQRAITRAEFDINIYNKIKEIQLSQESKIAKADFSINSGVDMLDLEKQITKLIKDLECRV;locus_tag=LOCUS_7550;gene=coaE;EC_number=2.7.1.24;note=WP_004597038.1 dephospho-CoA kinase (Rickettsia prowazekii) [pid:99.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-103],MGA_756
sequence1	MetaGeneAnnotator	CDS	963044	963901	.	-	0	ID=MGA_757;product=LpxI family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597040.1;translation=MAYNKCLECSIKNLIMLPNLGMIAGRGSLPHLIACNYIKQGGKCYIAAIKDETNIEQIKEFEYKIFKIGMVGEAIRYFQDHNVENIIFIGGINRPNFKNLAVDKIGRLLLFKIVEQKIRGDDSLLKIVANFFESYGFKVISSNQIYQNQQCNSNIITNTTITNSDKNDIELGIKVLNHLSLFDIAQSVIVKNGYILGIEAAEGTDNLIVRCADLRKKSHGGILVKIPKLGQDNRLDMPTIGPNTIKNLAKYNYQGLAIQKNNVIIVEEELTIKLANKHKIFITKC;locus_tag=LOCUS_7560;note=WP_004597040.1 LpxI family protein (Rickettsia prowazekii) [pid:97.0%25%2C q_cov:94.7%25%2C s_cov:100.0%25%2C Eval:3.5e-146],MGA_757
sequence1	MetaGeneAnnotator	CDS	964646	965125	.	+	0	ID=MGA_758;product=SspB family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597042.1;translation=MNIEYKKFVNEYMLEFVKKILTKIQHENLYWDQLIYISYRTDNPAVILPSKVKQAYPKQITIVLQYQFENLTVKDNGFSLTVSFDGVKEIIYIPFDSLISFVDSNNNYSLTFNQSLNIPEHQQYEKEISNNKSYKTSLSLNPNVIMLDKFRNSSKPKPS;locus_tag=LOCUS_7570;note=WP_004597042.1 SspB family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.1e-88],MGA_758
sequence1	MetaGeneAnnotator	CDS	965136	965594	.	+	0	ID=MGA_759;product=ribonuclease HI;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_196218364.1;translation=MDSKVVIYTDGACSGNPGPGGWGALLHFNDTSKKIFGYELVTTNNRMEMTAALEALRILKKSSVVEIYTDSKYLQHGITVWIHNWIKNNWCKSNNAPVKNADLWQKLYSELSKHTIMWQWVKGHASNSGNIAADKLAVQGRETAMEILKCLG;locus_tag=LOCUS_7580;gene=rnhA;EC_number=3.1.26.4;note=WP_196218364.1 ribonuclease HI (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:98.1%25%2C Eval:8.1e-88],MGA_759
sequence1	MetaGeneAnnotator	CDS	965582	965884	.	+	0	ID=MGA_760;product=NADH-ubiquinone oxidoreductase subunit NDUFA12 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597048.1;translation=MSWIDKFFITFFYTKVGEDEFLNQYYESRNNIDYLGRSRRCVIYKNINESTKIPPSWYSWLHHLVNEIPKNVQLFPWQQNNKITKKLPKTSNLKYNRWQP;locus_tag=LOCUS_7590;note=WP_004597048.1 NADH-ubiquinone oxidoreductase subunit NDUFA12 family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.6e-58],MGA_760
sequence1	MetaGeneAnnotator	CDS	965910	966359	.	+	0	ID=MGA_761;product=outer membrane lipid asymmetry maintenance protein MlaD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597050.1;translation=MQQNIVETIIGFLVLIIGLLFLIFAYKTGTSIITSRGYQVIANFQNAEGIAVGSDVMISGIKVGSVTQITLDPDRFYASVYLNINDDVKIPKDSKAQVVTSGLLGGKYIAIIPGNGDENLSANEEIRYTQSAINIESLINKIVYSFGNK;locus_tag=LOCUS_7600;gene=mlaD;note=WP_004597050.1 outer membrane lipid asymmetry maintenance protein MlaD (Rickettsia prowazekii) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.7e-75],MGA_761
sequence1	MetaGeneAnnotator	CDS	966731	967015	.	+	0	ID=MGA_762;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004597052.1;translation=MKESNSNSVKEDVEGIKKDIESLVSRLRNLKGKTGDILDEQLGNLSSVMEHYKDKGIEKGKANLADLCESTRNNPLRNLAYAFGAGVLLAILMK;locus_tag=LOCUS_7610;note=WP_004597052.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.3e-47],MGA_762
sequence1	MetaGeneAnnotator	CDS	967219	967470	.	+	0	ID=MGA_763;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVIEAVRCYLKYKNRYRHLDCLRSNSGVLVGSISKTLIDLFSTKTLIRYLPTIIRYVPSTVITFIICTYIKRKFLKNFMYYTR;locus_tag=LOCUS_7620;note=WP_004597055.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:56.1%25%2C Eval:2.3e-42%2C partial hit],internal stop codon at [967102:967104](+),MGA_763
sequence1	MetaGeneAnnotator	CDS	968980	970065	.	+	0	ID=MGA_764;product=tRNA guanosine(34) transglycosylase Tgt;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886359.1;translation=MSKFSFTIHSHYKKARSGVITTAHGEIRTPAFMPVGTRGAVKAMLTEAVVETGADILLGNTYHLMLQPSAERIAYLGGLHKFMNWDKPILTDSGGFQVMSLSKLCKITEEGVSFRSHINGNKYMLTPEYSTEIQYLLGSTITMALDECTPYPSTFEKAKTSMHLTTRWANRSRDAFVKREGYAQFGIIQGSVYKELREQSVKDLVKCDFEGYAIGGLAVGEGQELMFRVLDYVPDFLPQNKPRYLMGVGKPSDIIGAVSRGIDMFDCVIPTRSGRNGQAFTKYGTVNIRNSKYADDKEPLEHDCKCPACTNYTKAYLHHLVRIREILGPMLMTWHNLTYFQNLMSRIRTYIKLGKDFDFVH;locus_tag=LOCUS_7630;gene=tgt;EC_number=2.4.2.29;note=WP_010886359.1 tRNA guanosine(34) transglycosylase Tgt (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.3e-214],MGA_764
sequence1	MetaGeneAnnotator	CDS	970203	972272	.	+	0	ID=MGA_765;product=NAD-dependent DNA ligase LigA;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886358.1;translation=MQNIDLISEQEAKKLLKELADKIAMYNHAYYIEDNPLVSDSEYDQLFNINLKLENTFPHLVLSNSPSKKVGANITNKFAKVIHQAPMLSLSNAFDEDDLRDFLERIKNFLRINEFTPIFCEPKIDGVSFSAIYKNGLFITGATRGDGYVGEDITMNIKTIKNFPHKIDNAPEFLEVRGEIYIEKQDFLNLNKEQEAQNRGKFANPRNAAAGSIRQLDVAITAQRPLKYFIYSGGVTEQNLASTQEQLLTKLKALSFSVNEISKLASSEEEIFAFYEYLKTNRHNLPYEIDGVVYKLNNFAMQNRMGFIARSPRFAIAHKFPAIIGQTKLLSITVQVGRTGMLTPVAELDPIEIGGVVVSRATLHNFQDIARKDVRIKDYVFLQRAGDVIPQITGVDISKRSNDTVKFDTPVFCPSCNSKLRYVSEDIIIRCDNGLNCPAQNYERICHFVSKNAMDIEGLGRKQVAFLIDKRLISNPLDIFFLKEKNETNLIRLENMDGWGKKSVANLFKNIEKSQKISLQRFIYALGIRHIGEQNAKLLAREFGSYNNFIAQMELLSKNDSDIYQKLNDLEGIGDKILVDIVEFFYVKENTQLIKRLGSVLNIEDYQETREQNILTGKIVVFTGSLSTISRVEAKEIAEKLGAKVTASVSLNTDLVIAGVNGGSKLKKAKELNIKIIDEVEWLAFIKNA;locus_tag=LOCUS_7640;gene=ligA;EC_number=6.5.1.2;note=WP_010886358.1 NAD-dependent DNA ligase LigA (Rickettsia prowazekii) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_765
sequence1	MetaGeneAnnotator	CDS	974237	975214	.	+	0	ID=MGA_766;product=tetraacyldisaccharide 4'-kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598916.1;translation=MIKLLYPQFWQERNIIAYLLLPISLIYQFLSYLRASLAYPVILPAQVICVGNCSVGGTGKTQIVIYLAKLLKAKNVPFVIITKAYGSHIKSTTIIQKGHTALEVGDEGIMLARYGTVIAAKYVKDILPLINELKPDVIIVDDFLQNPYLHKDFTIVSVDSQRLFGNRFLIPAGPLRQNPKQVLDAADLIFLVSSNQDQIPNELTPYIDKLINAQIVPSNNIDKNKNYFAFSGIGNPQRFFLTLENYRLNIVGYKIFPDHYNYLQADLENLYSLAKEHNAILITTRKDYVKFNYLNDEIICLDVELSINNPDLLNEKIFKKAKILN;locus_tag=LOCUS_7650;gene=lpxK;EC_number=2.7.1.130;note=WP_004598916.1 tetraacyldisaccharide 4'-kinase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-185],MGA_766
sequence1	MetaGeneAnnotator	CDS	975177	976049	.	+	0	ID=MGA_767;product=lipid A biosynthesis lauroyl acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598029.1;translation=MKKFLKKLRYLIEYFIVIIFLKVIGIFGIDKASDICSFIARKVGILFAVNKIAKRNIKSVFGDMYDVEKIIDQTWDNFGRFIGEFIYVDKMDESELESRIEIIGKENIKKLEDQPFLLFSGHFANWDISLKVLKKYYPKVAVIYRKANNPYVNKLVNESRAGDKLRLIPKGSEGIRSLVRAIKEGESIVMLVDQKMNDGIEVPFLGRPSMTASSIAKIALQYKYPIIPCQIIRTKGSYFKVIVHPQLKFEQTGDNKVDCYNIMFNINQILGEWVKQNPAQWFWFHNRWKK;locus_tag=LOCUS_7660;note=WP_004598029.1 lipid A biosynthesis lauroyl acyltransferase (Rickettsia prowazekii) [pid:99.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-167],MGA_767
sequence1	MetaGeneAnnotator	CDS	976810	977073	.	+	0	ID=MGA_768;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MFFNCTIKINLSENADFKLELKYNLLMILDEFQAIGNIPYVKETVGYIAGYQLQLLTIFQNVSQLNEIYGMQGRKTLLSNHSASSCS;locus_tag=LOCUS_7670;note=WP_032309849.1 type IV secretory system conjugative DNA transfer family protein (Enterobacterales) [pid:56.8%25%2C q_cov:93.1%25%2C s_cov:13.3%25%2C Eval:1.0e-21%2C partial hit],frameshifted%2C insertion/deletion at around 977058,MGA_768
sequence1	MetaGeneAnnotator	CDS	977448	979508	.	-	0	ID=MGA_769;product=ankyrin repeat domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598912.1;translation=MPNISDNIRISAFKYVEQNKISELYELIAEYPELINERSKKDNSSLFIRACEHLRKDIITLLLDHGADPMATNDNGNNGIMYLFYRHNTGMDIRKHDFKALEILELLQRKNIPINAWIHQDRDKDTPLMEAIRAQLLECSKFIINLLKCHNHDLLQGQLSHQSNTGQDVFQLITSARFLDKMLNESNMIPTLIDIARFHIDDAIKINSPTAQEKDKLLSLIRESLSKLDIKEVGSLANMVFQEKLYNKSCGSDSTHHRKNLKYEYASGNFGTNIFNSIDVELIELLYVASGINLVNYKTFINSLVSLQDEHLDSIGMCGAVILESNKQKILQVINGSNTLSTIVQNISELNVNDEDIIATKDLALKRFCFLAANNHQLEINAKSEAGILLAFANIGENIRDYSINVHDHLKQLLMAECKTYEKLKKVLNVHGDQIAKIISHGNKLVSDLLVWDKIFGDDVDIVTHELQKLLNPNLGDVLPRNVFLGLIQNKKEIEITAEANKFIQDNLKFFDNSHKMQIPEYERIDQNQFKASTSHYQNNPECLIPNLTLLKMAHCTPVLNELRAFLNNHYIKAKSTVDRCLNVIISGKQYIKDLNISGLDSSADIQAFYNKIPILTDKITRVLSDSTIENVRNINLLCKQVGDFLNIVPITALFEEYSNNYQLLEQKNVNILNTLGELNSAIDFC;locus_tag=LOCUS_7680;note=WP_004598912.1 ankyrin repeat domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_769
sequence1	MetaGeneAnnotator	CDS	979891	980064	.	+	0	ID=MGA_770;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRLRHDALIRKAFENPIVVKEFFEMHLSSQIKAMFSSHTLKIKKESFIEADLKHSNI;locus_tag=LOCUS_7690;note=WP_103897029.1 Rpn family recombination-promoting nuclease/putative transposase (Rickettsia fournieri) [pid:81.5%25%2C q_cov:94.7%25%2C s_cov:16.1%25%2C Eval:2.1e-19%2C partial hit],frameshifted%2C insertion/deletion at around 980055,MGA_770
sequence1	MetaGeneAnnotator	CDS	980147	980443	.	+	0	ID=MGA_771;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTFRLFKYMTDIAARHLTLNPQSNIYLYQLVFYNGQKKYNVPKNIWDLCQYKELMQDIWTKDYQIINVHDIPDDELKKKAWVGILQFFMQHISRKRFT;locus_tag=LOCUS_7700;note=WP_103897029.1 Rpn family recombination-promoting nuclease/putative transposase (Rickettsia fournieri) [pid:76.3%25%2C q_cov:96.9%25%2C s_cov:29.0%25%2C Eval:4.3e-41%2C partial hit],internal stop codon at [980523:980525](+),frameshifted%2C insertion/deletion at around 980422%2C980055,MGA_771
sequence1	MetaGeneAnnotator	CDS	980601	980822	.	+	0	ID=MGA_772;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MTSLAHHWEQQGVEKGIQQGMQIGEATGFQIGKNEWKYEVAKNMYNVGSDIAFISKVTGLSIAELNTILKSKS;locus_tag=LOCUS_7710;note=WP_041078769.1 Rpn family recombination-promoting nuclease/putative transposase (Rickettsia asembonensis) [pid:67.1%25%2C q_cov:93.2%25%2C s_cov:22.6%25%2C Eval:2.0e-22%2C partial hit],internal stop codon at [980523:980525](+),frameshifted%2C insertion/deletion at around 980422,MGA_772
sequence1	MetaGeneAnnotator	CDS	981132	981455	.	+	0	ID=MGA_773;product=ankyrin repeat domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598910.1;translation=MPQLLTPPLSPLIIAVLNGNIEYTSELLQNGVDIDVRDKNGNSALHIAASKGYTKIATMLLLYGATIDAPNFELATPLHYAAANNYKDLTQYLLNMNANKSAVNKYN;locus_tag=LOCUS_7720;note=WP_004598910.1 ankyrin repeat domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.2e-56],MGA_773
sequence1	MetaGeneAnnotator	CDS	981468	982052	.	+	0	ID=MGA_774;product=gamma-glutamyl-gamma-aminobutyrate hydrolase family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411760.1;translation=MARLFNSHEVIPILCTTDSSVCTTPQQNQIVLSYNIDIGGITALSIMTELATSHKTKIVIANYLEIVPTIANPNSLFMYMYDDIKQCIYINFSIPETLKIFSEAKNNARKALQNSDGLIIPGNVNMVDARLFGEVISPNDVKLHNLERNIAEMALIHVATQRGIPILGICGGIKFLILILVARSVITVKIIIYM;locus_tag=LOCUS_7730;note=WP_014411760.1 gamma-glutamyl-gamma-aminobutyrate hydrolase family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-105],MGA_774
sequence1	MetaGeneAnnotator	CDS	981974	982567	.	+	0	ID=MGA_775;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598042.1;translation=MWWHQILNTYFGGKIGNNSKDHNLYVNIIPNSELSQIIFGKPSMSIEKEKFWASHKQVVKEIGGTNLINGKHDLFKAVAYTSDDIEAVESQFGVPIMGLQFHPEMSMYSNAFTCSEKGRDKKIYLSFQQSVWSFHNKQVLLAEFKNSKHYSKTQHPTEDITEKLINYENNKYNNNIIDIFNETSVEIIGYSNVEILN;locus_tag=LOCUS_7740;note=WP_004598042.1 hypothetical protein (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:78.2%25%2C s_cov:100.0%25%2C Eval:5.5e-82],MGA_775
sequence1	MetaGeneAnnotator	CDS	983561	983935	.	+	0	ID=MGA_776;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLVGYIRVSSENDRQVFDLQYDALIKESVDPRHIFQDQVSGAKDNRKGLQEALSYLQDGDCLIVWKLDRLGRSLSHLIILIDGFKQKNIGFKSITEQMDTTTSHGEFLFSVFVALAQKNALWQC;locus_tag=LOCUS_7750;note=WP_014408000.1 recombinase family protein (Rickettsia australis) [pid:92.3%25%2C q_cov:94.4%25%2C s_cov:61.6%25%2C Eval:5.6e-57%2C partial hit],internal stop codon at [983999:984001](+),frameshifted%2C insertion/deletion at around 983911,MGA_776
sequence1	MetaGeneAnnotator	CDS	984380	984652	.	+	0	ID=MGA_777;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRQKQNTTMNQAIDLLINNDTVVSTLLKEDGLLKELTKRLVEKTLQSEINNHLGYSKYNQSDAQNSRNGYNTKNLITKNGAVEIEVLRDR;locus_tag=LOCUS_7760;note=WP_200885858.1 transposase (Rickettsia felis) [pid:85.6%25%2C q_cov:100.0%25%2C s_cov:63.8%25%2C Eval:1.3e-37%2C partial hit],internal stop codon at [984650:984652](+)%2C[984653:984655](+),MGA_777
sequence1	MetaGeneAnnotator	CDS	984968	985210	.	+	0	ID=MGA_778;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGLWISENEGAKFWLGNFTEMKNRGMQDILIACSDDLDGMSEAIDAVFPKTEHQLYILYIKLGIVYDMYHIRTGKSLLVI;locus_tag=LOCUS_7770;note=WP_000343613.1 IS256-like element ISEc39 family transposase (Escherichia coli) [pid:61.7%25%2C q_cov:75.0%25%2C s_cov:14.9%25%2C Eval:5.6e-17%2C partial hit],internal stop codon at [984827:984829](+)%2C[985241:985243](+),frameshifted%2C insertion/deletion at around 985138%2C985246,MGA_778
sequence1	MetaGeneAnnotator	CDS	985393	985599	.	-	0	ID=MGA_779;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MGKKQGMSTALVPKEGFQWQKVQDMINNRPILAASHKFAKQYSNSDLSKKEWDQLDKNNLLECSKISV;locus_tag=LOCUS_7780;note=MGA_779
sequence1	MetaGeneAnnotator	CDS	986468	986764	.	-	0	ID=MGA_780;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598899.1;translation=MAVGRQYIEDHTEQLHKLCDNLVKYIELETKAITHEKAAEDTEVVIEVSLDLDNSSDDASIINKKAITVTSDDIANSNEDAARNTNKSHGDVLRCYYQ;locus_tag=LOCUS_7790;note=WP_004598899.1 hypothetical protein (Rickettsia prowazekii) [pid:95.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.1e-48],MGA_780
sequence1	MetaGeneAnnotator	CDS	987688	987843	.	-	0	ID=MGA_781;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MVVEDVNTVNIGYSAIGRWKGKKKRRTRKSKNLIVFLVVAKILEFYIAVRN;locus_tag=LOCUS_7800;note=MGA_781
sequence1	MetaGeneAnnotator	CDS	988039	988482	.	-	0	ID=MGA_782;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_014411603.1;translation=MFSSESYNNSFESSIKAKPFWSNTTSESTARTIEDISEYKELRHFYPLSKKGVDSLNFRANREFSNNSMNQLLLKFYIKYNEKRFKNKFTFLSYMAKILKNEKHQGPLVNHTRFRFSCNIGEIEKNLLEYEKYLNQIENSFDTSKDM;locus_tag=LOCUS_7810;note=WP_014411603.1 hypothetical protein (Rickettsia prowazekii) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:76.6%25%2C Eval:1.1e-80],internal stop codon at [988039:988041](-),MGA_782
sequence1	MetaGeneAnnotator	CDS	989662	989949	.	+	0	ID=MGA_783;product=HU family DNA-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886355.1;translation=MTITKNKISLMLSSKLGFSNNLCEAIVNTVFSNILEIAKVQKLTLKNFGSFEVKQKTPRPGINFHTKSPVMIASKKNLRFTPSEKLKALINKSML;locus_tag=LOCUS_7820;note=WP_010886355.1 HU family DNA-binding protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.1e-47],MGA_783
sequence1	MetaGeneAnnotator	CDS	990108	990617	.	+	0	ID=MGA_784;product=palindromic element RPE3 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886354.1;translation=MILCNNTCILEYMINNKLTKKYYVASEVIRILNIALHKLRYLETKIPGLSHYKINNRKYYTAHDIDLLQKFLFVSRREEYLEVRGYHRSDKDYLANFSNIHCASDTSRQNEFQGKNSECILNLHVQQRQDSQSAVVLSLMDNTVSSRIDILLTNFHNLSIQIKKILLIS;locus_tag=LOCUS_7830;note=WP_010886354.1 palindromic element RPE3 domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:85.8%25%2C s_cov:92.4%25%2C Eval:4.0e-79],MGA_784
sequence1	MetaGeneAnnotator	CDS	990662	991606	.	+	0	ID=MGA_785;product=glycoside hydrolase family 3 protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598892.1;translation=MKIRQTAKPVIIGISGPELTDAERELFEEHNPLGIILFRRNIRKNEKGEQDKAALIKLIADIKEVLGDNTIIAIDQEGGMVKRLIAPTFYDAPAAQTFTELQTCKYNYSTIAKELREVGINLDFAPVADLIHDGADKIISDRSFGKEPEIVVPLFLSAIAGLQEEKVTACIKHIPGHGRATVDSHIELPIIDTSLKTLEDTDFKVFKELAKYDYIKLAMTAHVIYTALDPDNPATLSQIVIDYIKSNIGFKGLIISDTIEMQALSGSMADITKGALDAGVDIVLECTGEFNKMSEVLGSVAENSIDKFSDLFIS;locus_tag=LOCUS_7840;note=WP_004598892.1 glycoside hydrolase family 3 protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.0e-175],MGA_785
sequence1	MetaGeneAnnotator	CDS	992974	997905	.	+	0	ID=MGA_786;product=autotransporter outer membrane beta-barrel domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886353.1;translation=MAQKPNFLKKIISAGLVTASTATIVAGFSGVAMGAAMQYNRTTNAAATTFDGIGFDQAAGANIPVAPNSVITANANNPITFNTPNGHLNSLFLDTANDLAVTINEDTTLGFITNIAQQAKFFNFTVAAGKILNITGQGITVQEASNTINAQNALTKVHGGAAINANDLSGLGSITFAAAPSVLEFNLINPTTQEAPLTLGANSKIVNGGNGTLNITNGFIQVSDNTFAGIKTINIDDCQGLMFNSTPDAANTLNLQAGGNTINFNGIDGTGKLVLVSKNGAATEFNVTGTLGGNLKGIIELNTAAVAGKLISQGGAANAVIGTDNGAGRAAGFIVSVDNGNAATISGQVYAKNMVIQSANAGGQVTFEHIVDVGLGGTTNFKTADSKVIITENSNFGSTNFGNLDTQIVVPDTKILKGNFIGDVKNNGNTAGVITFNANGALVSASTDPNIAVTNINAIEAEGAGVVELSGIHIAELRLGNGGSIFKLADGTVINGPVNQNALMNNNALAAGSIQLDGSAIITGDIGNGGVNAALQHITLANDASKILALDGANIIGANVGGAIHFQANGGTIKLTNTQNNIVVNFDLDITTDKTGVVDASSLTNNQTLTINGSIGTVVANTKTLAQLNIGSSKTILNAGDVAINELVIENNGSVQLNHNTYLITKTINAANQGQIIVAADPLNTNTTLADGTNLGSAENPLSTIHFATKAANADSILNVGKGVNLYANNITTNDANVGSLHFRSGGTSIVSGTVGGQQGHKLNNLILDNGTTVKFLGDTTFNGGTKIEGKSILQISNNYTTDHVESADNTGTLEFVNTDPITVTLNKQGAYFGVLKQVIISGPGNIVFNEIGNVGIVHGIAANSISFENASLGTSLFLPSGTPLDVLTIKSTVGNGTVDNFNAPIVVVSGIDSMINNGQIIGDKKNIIALSLGSDNSITVNANTLYSGIRTTKNNQGTVTLSGGMPNNPGTIYGLGLENGSPKLKQVTFTTDYNNLGSIIANNVTINDDVTLTTGGIAGTDFDAKITLGSVNGNANVRFVDSTFSDPRSMIVATQANKGTVTYLGNALVSNIGSLDTPVASVRFTGNDSGAGLQGNIYSQNIDFGTYNLTILNSNVILGGGTTAINGEIDLLTNNLIFANGTSTWGDNTSISTTLNVSSGNIGQVVIAEDAQVNATTTGTTTIKIQDNANANFSGTQAYTLIQGGARFNGTLGAPNFAVTGSNIFVKYELIRDSNQDYVLTRTNDVLNVVTTAVGNSAIANAPGVSQNISRCLESTNTAAYNNMLLAKDPSDVATFVGAIATDTSAAVTTVNLNDTQKTQDLLSNRLGTLRYLSNAETSDVAGSATGAVSSGDEAEVSYGVWAKPFYNIAEQDKKGGIAGYKAKTTGVVVGLDTLASDNLMIGAAIGITKTDIKHQDYKKGDKTDINGLSFSLYGSQQLVKNFFAQGNSIFTLNKVKSKSQRYFFESNGKMSKQIAAGNYDNMTFGGNLIFGYDYNAMPNVLVTPMAGLSYLKSSNENYKETGTTVANKRINSKFSDRVDLIVGAKVAGSTVNITDIVIYPEIHSFVVHKVNGKLSNSQSMLDGQTAPFISQPDRTAKTSYNIGLSANIKSDAKMEYGIGYDFNSASKYTAHQGTLKVRVNF;locus_tag=LOCUS_7850;note=WP_010886353.1 autotransporter outer membrane beta-barrel domain-containing protein (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_786
sequence1	MetaGeneAnnotator	CDS	999329	999499	.	+	0	ID=MGA_787;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MRIIDKHINVKNKKPKDLFLTSLYLMNIDILINLRNIRKLFFIYGMKKSCKKDKTQ;locus_tag=LOCUS_7860;note=MGA_787
sequence1	MetaGeneAnnotator	CDS	999816	1000259	.	-	0	ID=MGA_788;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MILGHFGVALIAFSITMNSLLQSEMDFIGEVGTSKTFNAFKVTLQNIKFAQGKNYYRQIAEFWLEDHKNNITILKPENRFYIIEQKLSQESDIHSYLLYDLYAVLSNIDGKIIHAKIYYKPMMSFIWIGVILTTAGFVIALIRKNSY;locus_tag=LOCUS_7870;note=WP_004598889.1 heme lyase CcmF/NrfE family subunit (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:21.9%25%2C Eval:5.6e-80%2C partial hit],MGA_788
sequence1	MetaGeneAnnotator	CDS	1000732	1000944	.	+	0	ID=MGA_789;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MITYSPPIPIIQSITSKYIHLSDENAKAWIELIKPERTKKVLNITNKKVIIDKIIVQCCILFVLVVTMME;locus_tag=LOCUS_7880;note=MGA_789
sequence1	MetaGeneAnnotator	CDS	1001821	1003095	.	-	0	ID=MGA_790;product=HlyC/CorC family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598888.1;translation=MTTILVIVIIIMISLSALFAATETAITASSPGKIHKLKIAGNKRAKTVLEVLKKNEKVIGTLLIGNSLINTICTTIATTLFISLLGNNGTIVASGVMAFIIIVFAEVVPKAIAVAKPEQLTLKMSSTIVIFLKLFKPINIALDYITKIFCFIFRINLNPQISGTEEVRGVIEHYHQEGGVYKSERNMLGGILDIRNMTVSEIMTHRSNIIALNIDLPYELIIKTLLSGAHTRIPLWQDNRDNIIGILNLKDLLKALYENNNDDKKVDINTLLTPPWFIPDNALVVDQLHAFRERNNHFACVVDEYGTLLGIITLEDVIEEIVGPITDEHDRLNNEIIQESNTEFIIKGTTTIRDINRELDWNLSDEDANTIAGLIIHKIARIPNQGEVIKIFNFKIIILKKIANKIDSVKITVLPMTEETISSE;locus_tag=LOCUS_7890;note=WP_004598888.1 HlyC/CorC family transporter (Rickettsia prowazekii) [pid:96.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.3e-228],MGA_790
sequence1	MetaGeneAnnotator	CDS	1004046	1005005	.	-	0	ID=MGA_791;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598071.1;translation=MAEPIIFTLLFGNKDRILDRINNQKALNKLHIIPLQVNKESHISDKERIFSEILEKSYKECKIPIFNIQISNNNVKPIFRAQDLINAQNLNIKTTITFDKYNALPQNSELKSYWKQIIEKVDHVFFTNEADQNLSIADGIVPKDKTTTITDIRLVTSVFNNLIYNHETNHGLSSTIYKKVDKLIKTAKNQDSKEIIETWPISVDEATNLITAKFGITSEDQIYGLKLEIHEILKDPNNAAENFKKYVSQISRQFKKDLDKDQKNHIDSNFNTQKVINDSNKDIQVEHITSYVQDKEKQSKPQGFLTRIFNYFKNIVFKQ;locus_tag=LOCUS_7900;note=WP_004598071.1 hypothetical protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.1e-182],MGA_791
sequence1	MetaGeneAnnotator	CDS	1005220	1005885	.	-	0	ID=MGA_792;product=ABC transporter ATP-binding protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598073.1;translation=MNNIVLILKMISKHYKQGNTIVRVLDGLNLTANEGELIAIIGSSGSGKSTLLHIAGLLDKPTNGQVIIPNIKYKKYHLIRLYYLGFIYQQHHLLKDFTALENVIIPRLIRGLDQKEAIKDATKILDDLGLEKKLYNMPGELSGGEQQRVAIARSLINKPRIILADEPTGNLDPNTTNEVFNLFLKVARKQNTTVIMVTHNHELAHKMDKLYNLKHGLLNIA;locus_tag=LOCUS_7910;note=WP_004598073.1 ABC transporter ATP-binding protein (Rickettsia prowazekii) [pid:98.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-120],MGA_792
sequence1	MetaGeneAnnotator	CDS	1005878	1007125	.	-	0	ID=MGA_793;product=lipoprotein-releasing ABC transporter permease subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598076.1;translation=MINNNFSFNIAFRYFRAKKNEKFVSIIAAFSLVGVMIGVAALIVVMSVMNGFHLELTKNIIGLNGDIVINRQGDNIDNYEEIKTTLLKQDYVKHVTYIAHGQALALGKSNNSGVLVKGIKLNDLSLRNGIFKNVNFGSFDNFHGKNVIALGEQLASNLGVTVGEKLRLISPNSVSTAFGSIPRSKEFQIIAIFNSGMYDYDLTTILMPLTAAQNFLSLGNDINSIEINSLDPDQAITYSYKIQSLLGPNLYVFNWKTLNSQFLSALAVERTAMFTILSLIITVAAFNIISNLFMLVKDKTSDIAILRTMGASTKQIMVIFIYNGMFIGLLGTTLGVILGVTFSYNIQTIKNYLERITGIKIFEAAIYFLYSLPSKVKTDDIILITSLSIILCFLATIYPSYRASKLNPVDALRYE;locus_tag=LOCUS_7920;note=WP_004598076.1 lipoprotein-releasing ABC transporter permease subunit (Rickettsia prowazekii) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-225],MGA_793
sequence1	MetaGeneAnnotator	CDS	1007238	1008413	.	-	0	ID=MGA_794;product=multidrug effflux MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886352.1;translation=MQLLITVIFMEILAGSEIDLFIPSFPEIQDTFNLSTFMTELLLGVNLISYCITSLIVGNLGDKYGRRPIIIIGLLIFNLGSLFCVFANNYEIILFGRFFQGCGIAPVAVLVYVVLADIYSIQEQQKLMGILNGTIALSMAVAPVIGSYVNLFWGWRANFILLLSVGLISLILGIFLIPKGQINKKISVSLKEYIPIFKSPKAIYYILTMIFLAQGYWIFIGITPILYMQDLGVTLEYFGLYQGAMAALFSIMSFASGYCFKKFGIKNCFYFGVIFIILFLLGNSILIIYNINNPLTITIVTLLLSLGVIYPINILWPLLLEAIANGKARMTAIFTAARLILTAFGLQLVGFLYDGTFTPIGITISIVTLFGLVTLHKLFKYDKIFEISEIV;locus_tag=LOCUS_7930;note=WP_010886352.1 multidrug effflux MFS transporter (Rickettsia prowazekii) [pid:93.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-205],MGA_794
sequence1	MetaGeneAnnotator	CDS	1008942	1009190	.	-	0	ID=MGA_795;product=DUF2673 domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598082.1;translation=MKNLLKILLIIAFANPVFASSMQMPDPASVTTTQIHAMSTNAQQDWIASLTANQYNMLSPDVQKWVMENTTDAQKQALGINQ;locus_tag=LOCUS_7940;note=WP_004598082.1 DUF2673 domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.5e-41],MGA_795
sequence1	MetaGeneAnnotator	CDS	1009435	1009605	.	-	0	ID=MGA_796;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MKGNIIISIAHRISSIESADYILVIDKGGVVTEGSHYDLSKNSEIYRNICREQLTI;locus_tag=LOCUS_7950;note=WP_010886351.1 ABC transporter transmembrane domain-containing protein (Rickettsia prowazekii) [pid:94.6%25%2C q_cov:100.0%25%2C s_cov:9.7%25%2C Eval:2.4e-23%2C partial hit],internal stop codon at [1009612:1009614](-),MGA_796
sequence1	MetaGeneAnnotator	CDS	1009612	1011165	.	-	0	ID=MGA_797;product=ABC transporter transmembrane domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886351.1;translation=MDIKLLYRLAKYLRFYKKDLIIVMISLLSVSASLLLIGSIFRDLIDRGLAEDNILSVNKSILYICLLIVILSVASFFRSYFINNVAEKIVNQIRKEAYSNLINYEIEEYEELKIGDIISRLTNDIDQIATLIVNFLSFLIRNSVMLIGSITLMFFESFKLASIVIITIPILLVPLIKFGKHVKALSKKALESKSLLVSDIDETFNNIRVIYAFNHQINKIADFDTKLQSYLIYCKTRLKIRALFFAISIAVIFLTITLIVWIGASDIVQGDLSAGQIISFIYYAIIAGVSSGGIFELLSEMHLPTTALERIITIIDKTSIVHNNYYALNNSDAISIEFKNVDFTYNSRPNLKVINNMSLKINSNKFVGIVGRSGAGKSTLIQLLLRFYRQENGTILINNQDISFVKPTDIRKFIAYVPQEASIFSDTIKSNIIFGNNKASDYEINEIIKITGIEEFSTKLHDGINTKIGEKGVRLSGGQKQRIAIARALLRKPKILLLDEAMSALDTMSEQKLLNAI;locus_tag=LOCUS_7960;note=WP_010886351.1 ABC transporter transmembrane domain-containing protein (Rickettsia prowazekii) [pid:94.8%25%2C q_cov:100.0%25%2C s_cov:89.8%25%2C Eval:4.7e-268],MGA_797
sequence1	Aragorn:1.2.38	tRNA	1011308	1011384	.	-	.	ID=Aragorn_29;product=tRNA-His;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0290;note=Aragorn_29
sequence1	MetaGeneAnnotator	CDS	1011731	1012414	.	+	0	ID=MGA_798;product=7-cyano-7-deazaguanine synthase QueC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598086.1;translation=MKKSVNLLSGGTDSATVLAIASEMCYEIYAMSFNYGQRNNAELRKVKELIKKYNVKQHKIVDIDLRAFGGSALTDDNIDVPYYHGINALPEIVPVTYVPARNTIFLSYAVGFAEVIGSQDIFIGVHTSDSANYPDCCPEYIQSFEKMVNLATNMGVQGKKITIHAPLIDMTKEQIIRTGLKLGVDYKNTISCYSPTEDDLSCGNCLACIIRLDAFKKNNIQDPIKYV;locus_tag=LOCUS_7970;gene=queC;EC_number=6.3.4.20;note=WP_004598086.1 7-cyano-7-deazaguanine synthase QueC (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-129],MGA_798
sequence1	MetaGeneAnnotator	CDS	1012411	1012962	.	+	0	ID=MGA_799;product=GNAT family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886350.1;translation=MINIGYLHTTFPVFDLGNIVLRELAESDVQDYLCYMSRSEMGLYITESNRPKDLEEARKEIFYWSNLYTLHRSFYWGIALKTDNKLIGTAGFNIINLEHHRAEISYDLDPNFWGQGIMLKSIKNILKFADCIGIIRVQATVITDNFRSVNLLERCGFSKEGILKKYEIIANKHKDYYMYARVV;locus_tag=LOCUS_7980;note=WP_010886350.1 GNAT family protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-104],MGA_799
sequence1	MetaGeneAnnotator	CDS	1013077	1014354	.	+	0	ID=MGA_800;product=ATP-dependent Clp protease ATP-binding subunit ClpX;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004598091.1;translation=MVVDADKKELICSFCSKKQHEVKKLIAGPAVFICDECIDLCTDIMKEESKVALKQITASIPTPQKICKILNDYVVGQDQAKKILAVAVYNHYKRLEYVQSGNNDVELNKSNILLIGPTGSGKTLLAQTLAKILDVPFTMADATSLTEAGYVGEDVENILLRLLISAEFNIAKAQKGIIYIDEVDKIARKSDNPSITRDVSGEGVQQALLKIMEGTVASVPPQGGRKHPQQDFVQLDTSNILFICGGAFMGIDRIIRSRTNHSSIGFAANINIDKEKSNNEILKSLEIEDLTKFGLIPEFIGRLPIITTLDELDKEALITILTKPKNAIVKQYQKQFELDDADLVIDYSALEAIAEKALVKKTGARGLRSILEHLLLDSMYKVAELKKQRVTITKEVVDGLIEPCMTSIISTKLNKKQPIIEDIPA;locus_tag=LOCUS_7990;gene=clpX;note=WP_004598091.1 ATP-dependent Clp protease ATP-binding subunit ClpX (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.2e-238],MGA_800
sequence1	MetaGeneAnnotator	CDS	1015819	1017789	.	+	0	ID=MGA_801;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886349.1;translation=MSNTLAVISNKLEVMMKYYHDISNLGIRLYKTTKALVSFDLGEVFKIWFCDKNFKDLKKIDQSVIYTQYLETVLSKIAATGKYQDKHISHSQWINCFETINNYDDFLHTKLKKLIGIKNKNIIDSILDDIGDINSLEFNIIFSKVQVFLSDNLDKFENLVQVAKKIDSIVYPLTREYFLYRYLAKSILVAKTLSLHSYSEAEFNIVKKTHLNFTNYLNSLEQSLTKIEKATNKYNEEHKIASWLTAKSDLVSNHSGKIAATYATLVGGVIALRSYVIDEKDPWYELCALPSTILAMLQILASFPGTVLSNRQTKEINNNMFQELKNSDQNAQDIKFLFDCTPSFANDPINTAASCFRYASNLGLQPIDLLNNDIVNRIILYTALRWSAVAGVVEEQSKVTNFMQTKLIKFLHHEIVPALIENKKFTSKEIKPYFYLLYKHSAQDRNTQIKLQTIYHKLTNEDIDLNNIKLDINTYYGWKSVVMCSAMTTLILDYICFYFRNQELAFYEDPMFYASTSVKFMRLASLLVSTYYGNKLIENITGEKLAHDMFFQKFYYNDAARLTVAIVPLIMFESIKDLKLLSLATLIDVLTTAISDLNVGNAISSAGKNIAEKTATTLTWLNKIASGTNDDTNDDIVIDIAHTEELQPLGCVDISD;locus_tag=LOCUS_8000;note=WP_010886349.1 hypothetical protein (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_801
sequence1	MetaGeneAnnotator	CDS	1018777	1020057	.	-	0	ID=MGA_802;product=DNA recombination protein RmuC;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886348.1;translation=MPSLLLLTTTILLILCVLIIWFYIKTHTLKRQLQFLSEQNLEINNNNRLLNQEKIAYLQKIEQLKCKVEYQEQMIKDSEKIREESFTSAKAALFDLGKDLSKQLIEIHKIENNTARELAEQNITTASRKFNSELERLITMVGALNKDIEQSKSTVDLIKQSLLSPIGAGLLSEITLENILKSSGLRPNLDFIMQYGLTTSDSVKLRPDAIIFLPSGNLMVIDSKASKFLVDSQDNSVNLSKTMNYHLKSLANKDYAENILTTLNKKAHNFNNVITLMFLPTEQAVEKVIAANPEFLQKAWGCNIFPVGPAGLMNMLSFAKFQITDNRRSENYKVIISEVRKLLSSIGTIADYSKKFGYNLQNMVTNYDKFAASFNRNLMSRVKTIQKLGIDSGDKAMPATLERYQIVSSKSEIIEVDAENPTQIEE;locus_tag=LOCUS_8010;note=WP_010886348.1 DNA recombination protein RmuC (Rickettsia prowazekii) [pid:96.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.1e-227],MGA_802
sequence1	MetaGeneAnnotator	CDS	1020122	1020919	.	-	0	ID=MGA_803;product=phosphorylcholine transferase LicD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886347.1;translation=MKLNTVLSFKNIIGLMLIIFAGILFYAYILQHEWQYVTLSDEQVKKYRISPKNALSLYQLMKDTHELLTKNNIKYWIESGTLLGAVRHQGIIPFDDDLDIGIMHEDEIHLQQILPQFEQLGYTVSYERAYNICKKTCLDIFIVHKEKIKFIYTNIMLRDKYPEHFFYDHELYPLKKYKFGSIEVYGPSDPISNLNRQYPEWDKYAIIYSPHSLHLPFLSNIEKKTKFILTPELLKPAQPLGPLEDHVNIVNSAKFIRIYKDIDDH;locus_tag=LOCUS_8020;note=WP_010886347.1 phosphorylcholine transferase LicD (Rickettsia prowazekii) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:99.6%25%2C Eval:6.5e-152],MGA_803
sequence1	MetaGeneAnnotator	CDS	1020965	1021858	.	-	0	ID=MGA_804;product=LicD family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886346.1;translation=MIKLKSILNFLYNITNRDGFKGYKECNAAAYKNVCNDSSTKSTSKLALIISYTQNLLSFKNIIGLMLIIFAGILFYAYILQHEWQYVTLSDEQVKKYRISPKNALSLYQLMKDTHELLTKNNIKYWIESGTLLGAVRHQGIIPFDDDLDIGIMHEDEIHLQQILPQFEQLGYRVKHNKIYVICGERCLDIFLFHKEKDKFIHVIYDKYPNDFFYDHELYPLKKYKFGSIEVYGPSDPIGNLNRQYPEWDKYAIIYSPHSLHLPFLSNIEKKTKFILTPELLKPAQPLGPLEDRVNLF;locus_tag=LOCUS_8030;note=WP_010886346.1 LicD family protein (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-173],MGA_804
sequence1	MetaGeneAnnotator	CDS	1021821	1024265	.	-	0	ID=MGA_805;product=valine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599517.1;translation=MKEFPKHYNFTENEKKWQNIWQELQIYAYDPNISKAEIYIVDTPPPTVSGQLHIGHIYSYTQTDFIVRFQRMIGKNIFYPIGFDDNGLPTERLVEKQKQIKAYNMERDEFIKICLEVVKNEEAKFRSLFKQIALSVDWSLEYQTISPLSRKISQMSFLDLLHKGEVYRANQPILWDTVDGTALAQADIEDKQKISSMNYITFKTEQGDQLTIATTRPELLPACVAVFYHPDDVRYKHLADKSAITPLFNEKVPILADPLVQQDKGTGLVMCCTFGDQTDITWWKSHNLPLKTIITKKGTINFPHKLDIDGLTIKEARTKIIDILKEQSLLTKQEEIIQTVKCAERSGAPLEILTVTQWFIKTITHKEALLKRTNELNWYPKNMKMRLENWINSLSWDWCISRQRYFGVPFPIWYSKRIGEEGKILYADISQLPVDPLKDLPIGYSKEEVDPDLDVMDTWATSSVSPQLSTYGISEDLAINKVRHDKLFPMDLRPQAHEIIRTWAFYTILKSHLHQNILPWKNIMVSGWCLAEDRSKMSKSKGNVLVPEKLLARYGADVIRYWSANSKLGADTAYSEDVMKNGKRLVNKLWNAAKFVSIHFDKLTSEDKKVSLFDIKEKITNEFDQWMINKLVALVKLATNALQNYEYANAIYLTEKFFWSIFCDNYLEISKTRSYDEANKNPQGQYSSILTLYHIMQTLLKLFAPFMPHITEELYQILYNKNSIHMQGNWINYGDLNYEIDVQGPEGLLEILDIVRKFKAEYNLSIKAPIKLLEVSGIVLSTELVEDLKNVTSAEEIQFKAKDDQIKVNIKLFV;locus_tag=LOCUS_8040;EC_number=6.1.1.9;note=WP_004599517.1 valine--tRNA ligase (Rickettsia prowazekii) [pid:99.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_805
sequence1	MetaGeneAnnotator	CDS	1025147	1025995	.	+	0	ID=MGA_806;product=4-hydroxybenzoate octaprenyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596372.1;translation=MLMLNKLLIIFKLMRADKPVAYLLDFFPALFGLLLANPSNMELAYLLPLFIFGSITARSSGCIINDIFDRKFDKYVERTKKRPLASGAVSVFYAIFILLILSIISLSILLLLNKTAIYTGFFAVIMIILYPLMKRITYFPQIFLGFTFKLGVLVAYGAVQDKLDTEAIIMYLACCFWAIGYDTIYGYMDIKDDKKIGVKSLSIYLENKNPKFWLYICYIGFILLFILATKIANFNIDYLPVLAALILLILQIATLDIKNPVNCIKRFSANNYVGVLLIMAFC;locus_tag=LOCUS_8050;gene=ubiA;EC_number=2.5.1.39;note=WP_004596372.1 4-hydroxybenzoate octaprenyltransferase (Rickettsia prowazekii) [pid:94.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.3e-149],MGA_806
sequence1	MetaGeneAnnotator	CDS	1026029	1027294	.	-	0	ID=MGA_807;product=MFS transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886345.1;translation=MDHFDTALYGFLAPLLASFFYPNHDKVVALILTYSVLATSLFTRPIGSYFFGVIAKKYGSIFALSHSLIGIAYTTVLIGLIPSHAQIGWFAPLLLVVLRILQGIYSEGECAIAQLVILENKEEKNAFKASYLYQTSTMLGIILASFISSIVLNLEYNEYWRLCFIFGGLTGFIGAFLRKSETMVFNDLVTEPSKSLNNLDLVIKQRDNIMVMCTFAEMKFLNDLTTIWNNKLSILRISVAVGFSYMSYSVPFVFMNSFIPLITNISIAKMMEFNTEFLIFDMVMIPIIGHLTKKLNYHKILNGTLIIMSLSIIPLWLFLNNASIWYVHFVRIWIIILGVSFLAPLNCWLNNLFKTNDKYMLVGIGSSIGASLIGRLTSSICLMLWHITNNSLSIGIYIAIVSMITLCAVKRVVTTSCMTKQ;locus_tag=LOCUS_8060;note=WP_010886345.1 MFS transporter (Rickettsia prowazekii) [pid:98.8%25%2C q_cov:100.0%25%2C s_cov:96.1%25%2C Eval:8.8e-238],MGA_807
sequence1	MetaGeneAnnotator	CDS	1027890	1028501	.	+	0	ID=MGA_808;product=dTMP kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596365.1;translation=MNKLTQGKFITFEGVDGIGKSTQSKMLYEYLKSQKIPVILTREVGGTTVAEKMREILVNEELLPMSELLQAMAARYDHMARKIIPALKDGYIVICDRFIDSTACYQGLELENGIDLVYSLHKTLMPSLMPDITFFIDVEPHTAIKRVNARNMSNKFDIRSIDFYKKIYTCFKELSNRFPERIKTIKASHLSPLEVHELIQKHL;locus_tag=LOCUS_8070;gene=tmk;EC_number=2.7.4.9;note=WP_004596365.1 dTMP kinase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.1e-112],MGA_808
sequence1	MetaGeneAnnotator	CDS	1028498	1030024	.	+	0	ID=MGA_809;product=methionine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596363.1;translation=MKNTYYITTPIYYVNDVAHIGHAYTSVASDVIARFMRFCGKDVMFLTGTDEHGQKVEKAAINQNIDPQTFTDKTSQNFRDLMVAMNISNDDFIRTTENRHKKAVAVFWKKLLDNGAIYEGFYEGWYSVRDEAFYDESEINEDKLAPTGAPVEWVKEPSYFFNLAKWQDKLLEFYELNPDFVRPISRRNEVISFIKSGLKDLSISRTTFHWGIKVPNNRKHVIYVWLDALVNYISALGYPDKQSNYAKFWPANLQIVGKDILRFHAVYWPAFLMAAEIPLPKAIMVHGWWTNEGQKISKSLGNTIDPITLIDEFGVDQVRYFLMREVIFGADANFARNNLITRINSELSNKIGNLLHRIVSFVYKNNDAKVPLIKSGVIDKIYELPILKTAIKFAQENILLMDKTEINKILENIINLAEDANIYITNEAPWNLKTTDPDKMLEVLYSLLEVLRYIAIMLQPFVPNSANKMLDQLGVSKEERLFKHLVRDHALKAGSNILEPSIIFPKFN;locus_tag=LOCUS_8080;gene=metG;EC_number=6.1.1.10;note=WP_004596363.1 methionine--tRNA ligase (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.6e-297],MGA_809
sequence1	MetaGeneAnnotator	CDS	1030150	1031031	.	+	0	ID=MGA_810;product=TatD family hydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596361.1;translation=MLIDSHCHLNLLTNFSSCGSITISSKNIKTTNSSCFFDTKMYDTVFLDSFIQRALENNVQYIQTICTKLEDLPIVLKIAEQYKNVFASVGVHPCEVNDKKRLITDLEIIELTNHQKIIGIGETGLDYYHQPYNKKLQRDSFIAHISAASATNLPIIVHTREADEDTIDILTSAMHNSKFSGLIHCFASSKNLAAKMLDIGLYISVSGIITFKNATNLQEIVKYIPLDRLLIETDSPYLAPTPMRGKQNEPAFVRYVAEKVAELKNITSQEVENVTTHNFKILFSKFEKQVSLI;locus_tag=LOCUS_8090;note=WP_004596361.1 TatD family hydrolase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.6e-165],MGA_810
sequence1	MetaGeneAnnotator	CDS	1031579	1032847	.	+	0	ID=MGA_811;product=polyhydroxyalkanoate depolymerase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886344.1;translation=MHCDLSTNYTYYILEWLRAQIAPMHLGIKILKELYEHEPLEDNGFARIIHAYLTLCERMTRKYTKPEFNILETIINDKTYNINEQVIFKKPFCELRHFQKIGFKKELPKLLIVAPMAGHHATLLRSTVHALLPYTDIYITDWTEANYVPLEAGHFDMDDYIDYLIEFINFMGQNIHTMAVCQPTVPLLAAISLMSENNSPNVPSSMILIGGPIDARKNPTVVNEFALSKSLEWFCEMLTMQVPPNYPGYGRKVYPGFLQLTGFISLNLLRHIDSHLELWQSLLNSDYQKADYIIKFYDEYLSGMDMPAEFYLQTIDEVFQQFSLARGKFISEKRPIDLKHITKCALLGIEGELDDIAAVGQTKAALKLCVNISESMKRYHLQNGVGHYGVFSGSKFKQFIVPLIKEFIYDFDKTNVQKLKLK;locus_tag=LOCUS_8100;note=WP_010886344.1 polyhydroxyalkanoate depolymerase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:99.8%25%2C Eval:1.2e-250],MGA_811
sequence1	MetaGeneAnnotator	CDS	1033033	1033830	.	+	0	ID=MGA_812;product=bifunctional demethylmenaquinone methyltransferase/2-methoxy-6-polyprenyl-1%2C4-benzoquinol methylase UbiE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599522.1;translation=MTVNKESLCYYIFNHIYMYNTNFGFKKVDYTKKQWLINNIFSRVADKYDLMNDLMSIGLHRLWKDEFIMQIPNLNSNILDVASGSGDIALKLAKKAKDRGNNISLILSDINEEMLNNAKKKSIDLNLFQNIKFIVANAEELPFSDNSFDYYTIAFGIRNVPDINKALKEAYRVLKPMGKFVCLEFSKVKEGILKDFYKFYSFNIIPSIGQIIAGNKEAYEYLVESIALFPSQDDFRIMIKESGFEEVHYKNLSGGIVAIHSAYKI;locus_tag=LOCUS_8110;gene=ubiE;EC_number=2.1.1.163%3B 2.1.1.201;note=WP_004599522.1 bifunctional demethylmenaquinone methyltransferase/2-methoxy-6-polyprenyl-1%2C4-benzoquinol methylase UbiE (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:93.6%25%2C s_cov:100.0%25%2C Eval:4.5e-137],MGA_812
sequence1	MetaGeneAnnotator	CDS	1033827	1035278	.	+	0	ID=MGA_813;product=2-polyprenylphenol 6-hydroxylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599523.1;translation=MISIFLNLIRIFRIVSKKQILIDSRSPKYFRFIGYILALFFAPSSLIKKSREDYGKRLTDCLTDLGPIYIKFGQTLSTRADLVGAEIACYLRLLQDKLPPFDGAVARKLIYKSFIDHCKGEKSADAIISEHKQNVEKHSTNTCNVSLPFLHFDNNPIAAASISQVHKAQLITGGYVALKILRPDIRKKYNRDIKLLYFFAKIISKFSKAKRLKPITVIDKFHETMRFELDLRLEAAAASELKDNMRHDINVIIPKIYWDLTSENILTTEWLDGTSIYDISLLKEMNLEPKKIAQDFAVMFFNQAYRDGFFHADLHAGNILVNNQGKIILLDFGIMGRLKEKDRLSVAEILFAFLKRDYKLVAKVHLRAGYIPANTDLDLFAGSCRAVTEPIVGTPTKNISIGKLLTHLFKITEDFGMEVQPDLLILQKTLIMVEGIGRQLDSNVNMWQLAEPWIKKWAVKNLSPEAKLLRLIKHYLNSVNDIT;locus_tag=LOCUS_8120;gene=ubiB;note=WP_004599523.1 2-polyprenylphenol 6-hydroxylase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.1e-278],MGA_813
sequence1	MetaGeneAnnotator	CDS	1035928	1037271	.	-	0	ID=MGA_814;product=ribosome biogenesis GTPase Der;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599524.1;translation=MTKKIITLVGRPNVGKSTLFNRLSIRKKAIVHDLPGVTRDRKYTDGKIGSFEFLLIDTPGLEENPDNMGERLMGQTTQAILEADLICFMVDGKSGVLPDDKLLSNFVRKYNKHCILVVNKCEKAFDFDKEYYKLGFDSIVIISAEHGIGLIDLYDAIISKLSVEESIERNIADPFRGDCLQIVVSGRPNAGKSTFINAIINDERLLTGPEAGITRESIEVDWQYKNTHIKLIDTAGLRKKSTITASLEKLSTSDTINSIKFANTVILMIDALAHVKQQDFNIASHIVNEGRSIIIVVNKWDLVKESEKEAFQKEFYYQINTHLPQIKGVPVLFISAINKQNIEQVLDACLKIYKIWNKKITTNKLNKWLDFTTKIHPLPLQKCGRRVRIKYMTQIKTRPPTFKLFSNNPGKITDSYTRYLVNNMRDAFDMHGIPIRFTYVKNKNPYV;locus_tag=LOCUS_8130;gene=der;EC_number=3.6.5.-;note=WP_004599524.1 ribosome biogenesis GTPase Der (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-260],MGA_814
sequence1	MetaGeneAnnotator	CDS	1037666	1038475	.	-	0	ID=MGA_815;product=exodeoxyribonuclease III;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599526.1;translation=MKIATWNINSIKTRLNLLRNFLSKENPDILLLQEIKCETEKFPFNELSDLPYHFYVHGQKSYNGVAIISKFPADQIIKDFQNNYCNDQARFLEIKLSSPIGYSNIISLYAPNGSFVGSNKFVEKLKFYDNFINYLSTKKSCYEKTIIGGDFNIAPFDIDVYSKVLTETTCCTEVEQKKLRTILNSGFEDLYRLMHPDKQEFSWWDYRAGCFEQNKGMRIDMILGCNNTIDYLERCYMDYNLRTQKKPSDHIPIIASFCHSLSTKSGIKY;locus_tag=LOCUS_8140;gene=xth;EC_number=3.1.11.2;note=WP_004599526.1 exodeoxyribonuclease III (Rickettsia prowazekii) [pid:98.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-156],MGA_815
sequence1	MetaGeneAnnotator	CDS	1039554	1040915	.	-	0	ID=MGA_816;product=exodeoxyribonuclease VII large subunit;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596348.1;translation=MIDNCIANQASKEFSVSEISNKIKELLENNFGYIKVKGEISGLKRASSGHAYFNLKENTAILACTCWRPILAKIKFPLNDGMEVVIGGKLSSYSGNSRYQLSVDNLQPAGLGAMLQILNERKTRLEKEGLFNKKRIPIPFLPDKIGVITSITGAVIKDIIHRIRERFPTRIIIWQVSVQGENSGHEMAEAIEGFNNLEEIHKPSVIIVARGGGSIEDLWSFNDEILVRAAYNSKIPIISAVGHEADYTLIDLAADKRAPTPTAAAEFAVPVRSILNNTIQSYEKILFNNTNRLIKYHEQSIVNYDKIHSYFSYYINNRQQLLDEIGFNLLDVLIRFIALKETKIKSFSKERINYAKIINYKILELTHQTAYLFKSVNNTLKNFEYKLELNSTLLASLDYHNVLKRGFAIVKGDAGNFLSSKSAATNEQSLNIKFFDGEINVVLSCHDLNTRSN;locus_tag=LOCUS_8150;gene=xseA;EC_number=3.1.11.6;note=WP_004596348.1 exodeoxyribonuclease VII large subunit (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.6e-259],MGA_816
sequence1	MetaGeneAnnotator	CDS	1041112	1043247	.	+	0	ID=MGA_817;product=LPS-assembly protein LptD;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599527.1;translation=MRLIYLIIIVLLPLASFTQQFKQNQSVKYNLIADSVFVEYNENKNFIYAKGNIKIITDEYLLTTNNLLYDVKNDILWAEGNIRIKDKQNRIIEGDKAVLKNEFKKGIISEFILLVGDHNLLIAKLAERIDENNLKLYGAEFTPCDVTCNSKPIWQIAANDTYIKSAEHRIVYKNVFFEVYGVPIFYLPYFFHPTPSAPATSGLLVPDVKNKGFGIPIYLRAKPNIDFTLTPRIASKYQTYELEARYRLNDTDNMNFQGSYGQLPYLLKKDGSVVKNRKVSSYHYIASGNFISRDQTYDYGFRIERTSDKAYLKNYYNNYSSYLTSKMFLYKILGADYFAIEVLSFQGLGSNDSKYTDPLVFPKINTKNVIHLNDNGDSYIVVENNTLMYKARIGEQVARTSLQLSFMHNVLTSSGQILNFIAKDRGDFYLARSSYLDKQRKNQALQRNIPELQTLWRYPLVGNIKTINLLIEPIVSFSIGRKLSKQDKQFVIIDPVKYELSEKNIFLSNRYSGIDCYDFGNRLSYGLNASILQEDNYLKLFLGQSRNTRYSIDLPTDDTENVGQILGNLSNNLEVFYNFRQDRYFRPIRDEVGGNFNYNKINFLGSFIQLTNLKKYYSVESIKVSNNRVRQFYGVINYQLAENWTIGFATRIDLSRRSPNLFTRTIRVTYAKDCVRITTKIYSDYLADGSRGIKKTTSSPTVAVSLKVLNM;locus_tag=LOCUS_8160;note=WP_004599527.1 LPS-assembly protein LptD (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:99.4%25%2C s_cov:99.4%25%2C Eval:0.0e+00],MGA_817
sequence1	MetaGeneAnnotator	CDS	1043431	1044318	.	+	0	ID=MGA_818;product=SurA N-terminal domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596344.1;translation=MHKLLLIITVFFTFNVAQASLTSIVASVNDKPITLNEFHARKKMIMALNNIENLTADQDKQLNDLAINSLIDESLLFQYAGDREIPQDEIDNAIKSIEDRNKMAHGSLLQYLKNKSVNPESFILQIKSELIKMNILSSLSRSVQVSNKEIDVAILSSDQKDVEILMQVFRSKDGSNKAFTKMNHLKNRLKKCSDVKRTLYDKFATMQIITSKLSNIEGVKQTIVKDLIPDKASNVFEVNNKFEIILVCSKKILNVNADENNYVVNFLTNKKISQKAQKIFKNMRKKAAIRIMFPS;locus_tag=LOCUS_8170;note=WP_004596344.1 SurA N-terminal domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-160],MGA_818
sequence1	MetaGeneAnnotator	CDS	1044444	1045250	.	+	0	ID=MGA_819;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_004599528.1;translation=MLPSIVKHATSHKINPLKKHGQNFIFDSSLCDKIIRASNVLENSNVIEIGPGIGGLTRSILQKNPKSLTVIEIDERCIPLLNEIQEYYPNLNIIKQDVLKINLTDLIYDKVTVISNLPYHIGTELVIRLLKEVKLITNMTLMLQKEVVERICAIPSTKAYGRLSVICQILAKVEKCFNVAPTAFYPHPKVYSAIVKIIPLENPPSIALINKVEQITKLVFAGRRKMIKSSLRNLIPNIHEVLTQLKINCNDRAENLTPKDYLRIAMKL;locus_tag=LOCUS_8180;gene=rsmA;EC_number=2.1.1.182;note=WP_004599528.1 16S rRNA (adenine(1518)-N(6)/adenine(1519)-N(6))-dimethyltransferase RsmA (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.3e-149],MGA_819
sequence1	MetaGeneAnnotator	CDS	1045414	1045656	.	-	0	ID=MGA_820;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599529.1;translation=MKNKEESNILPEFIIDEEERKQLKAKNSKQELKLILITFTIILTSFLTFCYFFFNYIEEKAAEYKLQREVEPKKIDQLND;locus_tag=LOCUS_8190;note=WP_004599529.1 hypothetical protein (Rickettsia prowazekii) [pid:90.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-34],MGA_820
sequence1	Aragorn:1.2.38	tRNA	1048038	1048123	.	-	.	ID=Aragorn_30;product=tRNA-Leu;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0300;note=Aragorn_30
sequence1	MetaGeneAnnotator	CDS	1048497	1048709	.	+	0	ID=MGA_821;product=cold-shock protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596176.1;translation=MATNIVGKVKWYNSTKNFGFIEQDNGGKDVFVHKSAIDAAGLHSLEEGQEVIFDIEEKQGKAYAVNLRVK;locus_tag=LOCUS_8200;note=WP_004596176.1 cold-shock protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-34],MGA_821
sequence1	MetaGeneAnnotator	CDS	1049138	1050361	.	+	0	ID=MGA_822;product=DEAD/DEAH box helicase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599197.1;translation=MKNFNLSKELIIALETMNITEPTEIQKQSIPVAMSGADILASSQTGSGKTLAYLLPLIDAFIKNKTTALILVPTRELATQIHSTLNKVTTAYKMNSAVLIGGEPMFKQFMQLKKNPKVIIGTPGRIIEHLNRRSLKIEHIGIIVLDEMDRMLDMGMKEQLEEINKFLPEKRQVLMFSATMPKHIIAVSQKYLNNPVRIMVGATNKAAAEIKQELMHVSNKEKFSELTKQLGNRVGSVIIFVKTKRSADQLAKMLKYENHKAEAIHGDLSQSQRERVILSFRKLNHRIMVATDVAARGLDIPHTQHVINYDLPMCPEDYLHRIGRTGRAGAIGHALSFISPDDVVRWRAIDRLVNKGESTPRSAFRSDKKKRKRSFGKRTSICDSKKFNSFDSSGRRTFDCNRYRSTI;locus_tag=LOCUS_8210;note=WP_004599197.1 DEAD/DEAH box helicase (Rickettsia prowazekii) [pid:98.5%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-225],MGA_822
sequence1	MetaGeneAnnotator	CDS	1050828	1051673	.	+	0	ID=MGA_823;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MLIQSSQMLLITDKNWGISEAACTTGFRIGILISGSGALYLSTIISWQDVYRTMAILCIPSLLLIIFYPLKFKDKIIDNDFDRFLNAFYDFIKKPKCIVIISFMLLYRLQDSFLSIMPNMFYLDIGYTKQDLAVGYKAFGMCATIFGGVIGGFLCRKYEYSYLLKRVLIYHALSSLSFIYLYFLNQDITSLYIAVFCQEFTKGLTMSPFFSYQLKCCSSRYCITQIALITSITNVGTILIGSISGYAATYLGWSYFFIVAGLCFIPAYILILYLPKTINSV;locus_tag=LOCUS_8220;note=WP_010886340.1 AmpG family muropeptide MFS transporter (Rickettsia prowazekii) [pid:97.9%25%2C q_cov:100.0%25%2C s_cov:68.9%25%2C Eval:1.9e-157%2C partial hit],MGA_823
sequence1	MetaGeneAnnotator	CDS	1051713	1052285	.	+	0	ID=MGA_824;product=NifU family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596187.1;translation=MFIQTEETPNPDAIKFFPGQEISVDQPVFFSELAEVKGRSALAESLFHINNVKSVFLGSDFITVTKQARGNWQVIKPEILMVIMDHFISGFPVFNENTKIDDEKHNLDMLSEIEKQIIETIETRVRPFVTQDGGDIIYKGFESGVVKLALRGACLGCPSSTITLKNGIESMLKHFIPEVQEVKAVEEDFK;locus_tag=LOCUS_8230;note=WP_004596187.1 NifU family protein (Rickettsia prowazekii) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-103],MGA_824
sequence1	MetaGeneAnnotator	CDS	1052792	1054150	.	-	0	ID=MGA_825;product=cell division protein FtsZ;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596189.1;translation=MVLNIKAPENIVLKPTITVFGVGGAGSNAVNNMIHANLQGANFVVANTDAQSLEHSLCINKIQLGVSTTRGLGAGASPEVGALAAQESENEIRSSLENSNMVFITAGMGGGTGTGSAPIIARIAKELGILTVGVVTKPFHFEGGHRMKTADKGIIELQQFVDTLIVIPNQNLFRIANEQTTFADAFKMADDVLHAGVRGVTDLMIMPGLINLDFADIKAVMSEMGKAMMGTGEDSGEDRAIKAAESAISNPLLDHSSMCGARGVLINITGGPDMTLFEVDNAANRIREEVDNIDANIIFGSTFNPELKGIIRVSVVATGIDADKVPKYKLAIDKNTNTLPEETYNESIIQHTQIETIPSFNSYSTENIEINESSIKQDYTENEQELRLHVNAVNKPENNSQKSSFLGKIWESLRTSNNQTLERKNVIVNTVDQDNKESDIHDIPAFLRKKRD;locus_tag=LOCUS_8240;gene=ftsZ;note=WP_004596189.1 cell division protein FtsZ (Rickettsia prowazekii) [pid:97.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.4e-249],MGA_825
sequence1	MetaGeneAnnotator	CDS	1054512	1055897	.	-	0	ID=MGA_826;product=class II fumarate hydratase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596191.1;translation=MKNYRIESDSFGEIQIEEKFYWGAQTQRSLNNFKISKQKMPKILIRALAILKKCAAQVNYEFGDLEYKIATSIDKAIDRILAGEFEDNFPLVVWQTGSGTQTNMNMNEVIASIANEELTGKKGGKFPVHPNDHVNKGQSSNDSFPTAMHIATVLATKQQLIPALNNLLTYLQDKSKDWDKIIKIGRTHLQDATPLTLKQEFSGYITQIEYALERIEDALKKVYLLAQGGTAVGTGINSKIGFDIKFAQKVAEFTQQPFKTAPNKFESLAAHDALVEFSGTLNTIAVSLMKIANDIRLLGSGPRCGLGELHLPENEPGSSIMPGKVNPTQVEALTMVCTQVMGNHVTVTIAGSNGHLELNVFKPVIIYNILQSIELLSDSVNSFVTHCVKGLEPNIARINTLRDKSLMLVTVLNPHIGYDNAAKIAKEAHKYGITLKEAAKKLNFLSEEEFDKIVVPEKMIS;locus_tag=LOCUS_8250;gene=fumC;EC_number=4.2.1.2;note=WP_004596191.1 class II fumarate hydratase (Rickettsia prowazekii) [pid:99.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-262],MGA_826
sequence1	MetaGeneAnnotator	CDS	1056245	1056973	.	-	0	ID=MGA_827;product=23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596193.1;translation=MQNKQLDYKNSYYMYGKHPVLSAINNPKRQIENILCTKEFFDINKKLIGTRSYEIVNNYILSKLLKHQTHQGIAAKVRPIFSYNLDDIDINKPQCKIVILDQITDTQNIGAIIRSAAAFYINAIILPQDNSPNESGSIAKAACGTLELIPIIKVTNLCSYMNYLKKRGFWIIGVTGYAKEYFTDKLISDKIALVFGAEDKGMRRLVKETCDYLAKIPISKSVESLNVANAASIIFHSLHKYF;locus_tag=LOCUS_8260;gene=rlmB;note=WP_004596193.1 23S rRNA (guanosine(2251)-2'-O)-methyltransferase RlmB (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.6e-137],MGA_827
sequence1	Aragorn:1.2.38	tRNA	1057162	1057247	.	+	.	ID=Aragorn_31;product=tRNA-Tyr;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0310;note=Aragorn_31
sequence1	Aragorn:1.2.38	tRNA	1057353	1057426	.	+	.	ID=Aragorn_32;product=tRNA-Gly;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0320;note=Aragorn_32
sequence1	MetaGeneAnnotator	CDS	1057509	1058693	.	+	0	ID=MGA_828;product=elongation factor Tu;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596195.1;translation=MAKAKFERTKPHVNIGTIGHVDHGKTSLTAAITIILAKTGGAKATAYDQIDAAPEEKERGITISTAHVEYETQNRHYAHVDCPGHADYVKNMITGAAQMDGAILVVSAADGPMPQTREHILLAKQVGVPAMVVFLNKVDMVDDPDLLELVEMEVRELLSKYGFPGNEIPIIKGSALQALEGKPEGEKAINELMNAVDSYIPQPIRATDKPFLMPIEDVFSISGRGTVVTGRVESGIIKVGEEIEIVGLKNTQKTTCTGVEMFRKLLDEGQSGDNVGILLRGTKREEVERGQVLAKPGSIKPHDKFEAEVYVLSKEEGGRHTPFTNDYRPQFYFRTTDVTGTIKLPSDKQMVMPGDNATFSVELIKPIAMQEGLKFSIREGGRTVGAGIVTKINN;locus_tag=LOCUS_8270;gene=tuf;note=WP_004596195.1 elongation factor Tu (Rickettsia prowazekii) [pid:99.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.9e-223],MGA_828
sequence1	MetaGeneAnnotator	CDS	1058787	1059104	.	+	0	ID=MGA_829;product=30S ribosomal protein S10;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596198.1;translation=MKNKIKIRLKSFDHRSLDQATKEIVSAVKRTFATINGPIPLPRKIERFTVNRSPHVHKKSREQFEIRKHKRLLVIDDPNPAVVDALSKVDLAAGVDVVIELESGE;locus_tag=LOCUS_8280;gene=rpsJ;note=WP_004596198.1 30S ribosomal protein S10 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-53],MGA_829
sequence1	MetaGeneAnnotator	CDS	1059105	1059755	.	+	0	ID=MGA_830;product=50S ribosomal protein L3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596199.1;translation=MRTGIIAQKVGMTSVFNDKGERISLTLVKVDDCQVVGHKTLAKHGYNALVIGVKDQKISKVTKPMKQVFANAKIAPKTKLKEFRISEDNFIDIASILEVDHFRVGQFVDITATTIGKGFAGSMKRHNFRGLEASHGVSISHRSHGSTGQRQDPGKVFKGKKMAGHMGCNKVTIQNLKIFAVDTNRKLIMIQGSIPGHKNSYLLVKDAIKKAAITIA;locus_tag=LOCUS_8290;gene=rplC;note=WP_004596199.1 50S ribosomal protein L3 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:94.4%25%2C s_cov:94.4%25%2C Eval:3.2e-113],MGA_830
sequence1	MetaGeneAnnotator	CDS	1059997	1060620	.	+	0	ID=MGA_831;product=50S ribosomal protein L4;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596200.1;translation=MKTKILSLANEEVGEITLNKDIFAVEFIRDDIIKQVIDWQRAKAMFGNHKTKTVSEVSGTTKKPFKQKGTGNARQGSLRSVQMRGGGISHGPKVRSHAIKLPKKVRKLGLIHALSEKYAEEKLLIIDSLKLDKPKTSILVNLLSKFQGQSFFVIDGNKVDINFSLATKNIYNTLIVPQIGANVYDIIRHEYVLLSQEAVSFLEERLR;locus_tag=LOCUS_8300;gene=rplD;note=WP_004596200.1 50S ribosomal protein L4 (Rickettsia prowazekii) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.5e-109],MGA_831
sequence1	MetaGeneAnnotator	CDS	1060617	1060913	.	+	0	ID=MGA_832;product=50S ribosomal protein L23;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596201.1;translation=MSVYKYYDLIRKPIITEKTTSISEQNKYTFYVNKFAKKLSLKRAIEAIFKVKVKKVNILNIKGKKKRFKGIIGTQINRKKAIVTLEKDHNIDYAGGIK;locus_tag=LOCUS_8310;gene=rplW;note=WP_004596201.1 50S ribosomal protein L23 (Rickettsia prowazekii) [pid:87.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.5e-41],MGA_832
sequence1	MetaGeneAnnotator	CDS	1060914	1061735	.	+	0	ID=MGA_833;product=50S ribosomal protein L2;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596202.1;translation=MALKNFNPITPSLRELVQVDKTNLWKGRPLKTLTKGMSKTGGRNQQGRITSWHRGGGHKKLYRVIDFKRKKIDISAIVERIEYDPNRTAFIALIKYDDGEYSYILAPQKLSIGDRVISSQAADIKIGNCLPLKSIPIGTTLHNVEMKIGKGGQIARSAGTSVELVGKDSGYAQIKLRSGEFRLVPLDCKATIGSISNPDQKNINLGKAGRNRWLGWRPHVRGVAMNPVDHPHGGGEGKTSGGRHPVTPWGFSTKGKKTRKNKRTSKFIVKKRK;locus_tag=LOCUS_8320;gene=rplB;note=WP_004596202.1 50S ribosomal protein L2 (Rickettsia prowazekii) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.1e-157],MGA_833
sequence1	MetaGeneAnnotator	CDS	1061760	1062038	.	+	0	ID=MGA_834;product=30S ribosomal protein S19;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596203.1;translation=MARSIWKGPFVDGYLIKKVQKLMKSGKSEMIKTWSRRSTILPIFVGFTFSVHNGNKFIPVYINEEMVGRKLGEFAPTRTFHGHGADKKVKRK;locus_tag=LOCUS_8330;gene=rpsS;note=WP_004596203.1 30S ribosomal protein S19 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.4e-49],MGA_834
sequence1	MetaGeneAnnotator	CDS	1062048	1062407	.	+	0	ID=MGA_835;product=50S ribosomal protein L22;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596204.1;translation=MIQKNKNFATAKAKSIRVSPRKLNLVASFIRNMKVSEALVQLTFSPKRIAKIVKDCLQSAIANAENNLGLDIDRLIITKATVGKSVVMKRIMPRAKGRATRINKFFSNLYITVTEKEDN;locus_tag=LOCUS_8340;gene=rplV;note=WP_004596204.1 50S ribosomal protein L22 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.4e-60],MGA_835
sequence1	MetaGeneAnnotator	CDS	1062409	1063062	.	+	0	ID=MGA_836;product=30S ribosomal protein S3;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596205.1;translation=MGQKVCAHGFRVGPTLIKDWDSILYAEKHYKTLFIQDLKIRDLINKWFNQAQISRVLIERPSNKSIIININAKKPNIIIGKNGTEIDKLKKAIENMTFLKEVYINIHEVRKFNIDAAIVAQTIAAQLEKRVSFRKAMKTAIQASFKQGGQGIRVSCSGRLGGAEIARTEWYIEGRMPLHTLRADIDYSTAEAITTYGVIGVKVWIYKGEYKENKRYN;locus_tag=LOCUS_8350;gene=rpsC;note=WP_004596205.1 30S ribosomal protein S3 (Rickettsia prowazekii) [pid:97.2%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.3e-118],MGA_836
sequence1	MetaGeneAnnotator	CDS	1063077	1063487	.	+	0	ID=MGA_837;product=50S ribosomal protein L16;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596206.1;translation=MLAPKKQKFRKAHKGRVMSKAKAGMTLAFGSFGLKSIDGWRVTARQIEAGRKAATRCMKRQGRLWIRIFPDVPVSKKPAEVRMGKGKGTPEFFAVRVSPGRIMFEIEGVEENIALRALELASAKLPVRTRIVRRYE;locus_tag=LOCUS_8360;gene=rplP;note=WP_004596206.1 50S ribosomal protein L16 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.3e-72],MGA_837
sequence1	MetaGeneAnnotator	CDS	1063480	1063695	.	+	0	ID=MGA_838;product=50S ribosomal protein L29;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596213.1;translation=MNDLKLLRSKLSTETIEELYKNLNLLKKELFNLRFQQALGELKNTSRFSLVKKSIARIKTELTKRSNSEEY;locus_tag=LOCUS_8370;gene=rpmC;note=WP_004596213.1 50S ribosomal protein L29 (Rickettsia) [pid:88.7%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-26],MGA_838
sequence1	MetaGeneAnnotator	CDS	1063697	1063930	.	+	0	ID=MGA_839;product=30S ribosomal protein S17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596215.1;translation=MPKRVLQGVVISSKTDKTVTVKVERKFKHPIYKKFVKVSKKYAAHDIENKYKEGDKVSIVESRPISKTKTWVVLNLE;locus_tag=LOCUS_8380;gene=rpsQ;note=WP_004596215.1 30S ribosomal protein S17 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.6e-38],MGA_839
sequence1	MetaGeneAnnotator	CDS	1063991	1064359	.	+	0	ID=MGA_840;product=50S ribosomal protein L14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596218.1;translation=MIQMQSILEVADNSGAKKVMCIKVLGGSHHMMAKLGDVIVVSIKEAIPGGKVKKGDVYKGVIVRTKTGVVRSDGSTIKFDKNALVLLNKQDEPIGTRVFGPVTRELRAKKYVRIMSLAEEVL;locus_tag=LOCUS_8390;gene=rplN;note=WP_004596218.1 50S ribosomal protein L14 (typhus group) [pid:98.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.4e-61],MGA_840
sequence1	MetaGeneAnnotator	CDS	1064356	1064697	.	+	0	ID=MGA_841;product=50S ribosomal protein L24;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596219.1;translation=MIKLKVKKGDEVVIITGKYKGKKGKVLKVFPEENTVVVSGVNLVKKHTKPNKMSEGGIITQESPIHISNIAHIDPKTGNPTKVAFKFLEDGSKVRVAKKSGEIIGKVGNNVKV;locus_tag=LOCUS_8400;gene=rplX;note=WP_004596219.1 50S ribosomal protein L24 (Rickettsia prowazekii) [pid:93.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.4e-54],MGA_841
sequence1	MetaGeneAnnotator	CDS	1064684	1065223	.	+	0	ID=MGA_842;product=50S ribosomal protein L5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599192.1;translation=MLRFKELYKQKIIESLKKEFSFKNKHEIPKIKKIVINMGVGEAIADSKVINNALNDLTLISGQKPVVTLARKSIATFKLRENMKIGCKVTLRKDRMYDFLERLVIVALPRVKEFRGFSYKSFDGKGNFTFGLKEQIVFPEINYDKIDTIRGMDITIVTSAKTDQESKFLLSGFNLPFYN;locus_tag=LOCUS_8410;gene=rplE;note=WP_004599192.1 50S ribosomal protein L5 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.9e-97],MGA_842
sequence1	MetaGeneAnnotator	CDS	1065241	1065546	.	+	0	ID=MGA_843;product=30S ribosomal protein S14;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596221.1;translation=MAKVSSIQKNKSRQKKSQSLHNKRSELKSKIYDKSLSLEQRFPLIIALAQLPRNSSSTRIRNRCELTGRPRGVIRKFGISRNKLRELIGRGLVPGVVKASW;locus_tag=LOCUS_8420;gene=rpsN;note=WP_004596221.1 30S ribosomal protein S14 (Rickettsia prowazekii) [pid:95.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-47],MGA_843
sequence1	MetaGeneAnnotator	CDS	1065565	1065963	.	+	0	ID=MGA_844;product=30S ribosomal protein S8;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596222.1;translation=MSMTDNVADMLTRIRNAYKSKLINVSFPSSKIKTSILDVLQKEGYIKDYVTTQKNNISYTEVALKYSVNGEASICEIHRVSKPGKRVYSAIKDLKGYYNNMGIYILSTPYGVMSDREAHIKNVGGEVICKVF;locus_tag=LOCUS_8430;gene=rpsH;note=WP_004596222.1 30S ribosomal protein S8 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.9e-71],MGA_844
sequence1	MetaGeneAnnotator	CDS	1065972	1066505	.	+	0	ID=MGA_845;product=50S ribosomal protein L6;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596224.1;translation=MSRVGKLPITIPEGVKVGLNDLEVKISGPKGELSKTFKGNIAIIMEENKLVVKPLAVNKNARAMWGTARSIICNMITGVKEGFKLKLEINGVGYRAMVKGKYLNLMLAKSHNTKIEIPSNIKIDLPKQNIILLEGIDKEKLGQFASIIIKQRPPEPYKGKGIKFENKFIQRKEGKKN;locus_tag=LOCUS_8440;gene=rplF;note=WP_004596224.1 50S ribosomal protein L6 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-96],MGA_845
sequence1	MetaGeneAnnotator	CDS	1066521	1066877	.	+	0	ID=MGA_846;product=50S ribosomal protein L18;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596225.1;translation=MRSAKLKFEKRKSRIRYKISKTSNRMRLSIFKSCRHIYAQIIDDSKSITIAAASTLDKKIKKIKKSHCNIENAIKVGKEIAKKADSAGIKEVVFDRGGYKYHGIIKALADAAREKIKF;locus_tag=LOCUS_8450;gene=rplR;note=WP_004596225.1 50S ribosomal protein L18 (Rickettsia prowazekii) [pid:95.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.5e-57],MGA_846
sequence1	MetaGeneAnnotator	CDS	1066894	1067421	.	+	0	ID=MGA_847;product=30S ribosomal protein S5;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596227.1;translation=MSKVKKNEEALSEVLVDVNRVTKVVKGGRRFAFSAYVVVGDKAGRVGAGHGKAKEVNEARGKAKQAAKKRMMKVPLYQNRTIHHDVVGKSGAAKVILRRAKAGTGVIAGGSMRAIFDSLGVHDIVAKSIGSTNVYAMISATFDALNKLASPKSIAIRRDKKVHEISIKSYIQVNE;locus_tag=LOCUS_8460;gene=rpsE;note=WP_004596227.1 30S ribosomal protein S5 (Rickettsia prowazekii) [pid:97.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.0e-89],MGA_847
sequence1	MetaGeneAnnotator	CDS	1067446	1067637	.	+	0	ID=MGA_848;product=50S ribosomal protein L30;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596229.1;translation=MNNKINNIKITQIKSAIGCKYDQRFTLIGLGLNKINKSVILKNTNSIRGMVEKVKHLLKIENM;locus_tag=LOCUS_8470;gene=rpmD;note=WP_004596229.1 50S ribosomal protein L30 (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.2e-27],MGA_848
sequence1	MetaGeneAnnotator	CDS	1067651	1068103	.	+	0	ID=MGA_849;product=50S ribosomal protein L15;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886338.1;translation=MKLNELYNNLGAKKNKKRIARGIGSGKGKTAGRGIKGQKSRSGVAIKGFEGGQTPMIKRLPKRGFKCISTKKYNIINIYNIEEALTDGRLSTNDIITKEKLLEVGLINNKNLVKLLSICSDDFASPLSLKLDAYSSKAKYLIEKVGGQLL;locus_tag=LOCUS_8480;gene=rplO;note=WP_010886338.1 50S ribosomal protein L15 (Rickettsia prowazekii) [pid:97.3%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.1e-77],MGA_849
sequence1	MetaGeneAnnotator	CDS	1068107	1069408	.	+	0	ID=MGA_850;product=preprotein translocase subunit SecY;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596233.1;translation=MGQNFSKKSSNDLVNRIIFTLFMLIICRFGSFIPIPGIDSIALNSVAEKNQFGILGMFNMLSGGSLGRMSIFALAIMPYITASIIIQLMSVAYKPLENLKKEGETGKRKINQLSRYLTVLLASFQAYGVALSLESMVTNTGPVVILAGFFFRVTTVITLVVGTILLMWLGEQITQRGIGNGTSLIIFIGIISGVPSAIISMFELSRKGALSPLIAITVCIGVVLLIAIIIFFEKAQRKLLVQYPKRQVGNKIYGGEATHMPLKLNTSGVIPPIFASSILLFPTTLASFSNSNSDTMSMLTYYLGHGKPVYILLYVVLIMFFSFFYTAIVFNSEETANNLRKYGAYIPGKRPGKNTSDYFDYILTRLTVIGGIYLSVICVIPELLMNKYVISLSLGGTSFLIVVNVVLDTMTQIQTYLFSSKYEGLMKKIKLKN;locus_tag=LOCUS_8490;gene=secY;note=WP_004596233.1 preprotein translocase subunit SecY (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.7e-239],MGA_850
sequence1	MetaGeneAnnotator	CDS	1069424	1070065	.	+	0	ID=MGA_851;product=adenylate kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599187.1;translation=MIVIFLGPPGAGKGTQGKKIAKKIDLPHIAVGDIFRTIIKTSTSEAELINNYVKQGALIPNEIVNQVIKVFLLSSKYKNGYILDGYPRNLEQAKFFEAFIQKPQIKIIYFDVADELLIKRVLGRYSCKNCGKIYNIHFLQPKIEHVCDVCSSSVFDYRKDDNKEVIKKRIKVYKTETYPLIDYYKNSGNFYIVNANKNEQEIENDIQKILKIN;locus_tag=LOCUS_8500;EC_number=2.7.4.3;note=WP_004599187.1 adenylate kinase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.0e-120],MGA_851
sequence1	MetaGeneAnnotator	CDS	1070123	1070500	.	+	0	ID=MGA_852;product=30S ribosomal protein S13;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596237.1;translation=MARIASVNIPDNKRLVVSLTYIYGLGSTMAAEICNKAKISKDKKVKVLTDQELISLRNIIENEYKVEGDLKREVTLNIKKKKDIRCYQGLRHIRKLPVRGQNTHSNARTRKGKAIAIAGKKKTVK;locus_tag=LOCUS_8510;gene=rpsM;note=WP_004596237.1 30S ribosomal protein S13 (Rickettsia prowazekii) [pid:88.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.8e-55],MGA_852
sequence1	MetaGeneAnnotator	CDS	1070524	1070907	.	+	0	ID=MGA_853;product=30S ribosomal protein S11;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596242.1;translation=MNQTIKVKKKKKTITLGVVHIRASFNNTIVTFTDIQGNTISSASAGGNGFKGARKATPYAAQVTIDKASEKAKECGLKTISIRIGGPGAQRESAMRALFGQNFVVTSILDVSSIAHNGVRPPKRRRV;locus_tag=LOCUS_8520;gene=rpsK;note=WP_004596242.1 30S ribosomal protein S11 (typhus group) [pid:97.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.8e-64],MGA_853
sequence1	MetaGeneAnnotator	CDS	1070926	1071948	.	+	0	ID=MGA_854;product=DNA-directed RNA polymerase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599184.1;translation=MLSLSKNWNTLIKPNRVTYENFPETNNKAKIIVEPLERGFGLTLGNAMRRVLLSSLQGAAITSIKIPAIEHEFSSIPGVQEDVSEVILNIKGIEVKMHVSEKRIIKLKAMGPCVVTAGMIDTGHDVEILNPDHVICNLAKNKQLEMELTCKVGKGYVLSTNSYEDNLPIGEIAIDALFNPVKSVTYKVENTRVGQVTDYDKLIMFVETNGDVLPEMAVGLAARILQEQLQLFIAFEEQEEDKQVKTDSLPFSPYLLKRVDELELSVRSANCLKNDNIIYIGDLVKRTESDMLRTPNFGRKSLNEIKEILAKFNLRFGMDVPDWPPENIQELSKRYEDSYN;locus_tag=LOCUS_8530;EC_number=2.7.7.6;note=WP_004599184.1 DNA-directed RNA polymerase subunit alpha (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:6.4e-193],MGA_854
sequence1	MetaGeneAnnotator	CDS	1071961	1072371	.	+	0	ID=MGA_855;product=50S ribosomal protein L17;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596246.1;translation=MRHRIKGRRLNVTSSHRQSMLANMAVSLVIHEQIKTTLPKAKELRPYIEALITKAKKPDLAVRRSVLSKIKDKRAVEKIINILGVRYKDRPGGYTRIVKSGFRYGDLAPIAYIEFVDRDINAKGNVHQDANEEIKN;locus_tag=LOCUS_8540;gene=rplQ;note=WP_004596246.1 50S ribosomal protein L17 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:8.1e-72],MGA_855
sequence1	MetaGeneAnnotator	CDS	1072391	1072663	.	+	0	ID=MGA_856;product=30S ribosomal protein S20;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596248.1;translation=MANHSSAKKVVRQTVKRTLINKKRSSAIKTFIKKVIHEISRGNKEDANLALSIAQSKIMQGVKKNIIKLNTASRKIRRLSKQIKNLYKSE;locus_tag=LOCUS_8550;gene=rpsT;note=WP_004596248.1 30S ribosomal protein S20 (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.7e-42],MGA_856
sequence1	Aragorn:1.2.38	tRNA	1072726	1072801	.	+	.	ID=Aragorn_33;product=tRNA-Val;inference=COORDINATES:profile:Aragorn:1.2.38;locus_tag=LOCUS_t0330;note=Aragorn_33
sequence1	MetaGeneAnnotator	CDS	1073983	1074648	.	-	0	ID=MGA_857;product=DnaA/Hda family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596252.1;translation=MQQYIFHFTPSNKYHPDEFIVSSSNAQAYNIIKNWQYCFGANPYKFTLLIKGPSSSGKTYLTKIWQNLSNAYLIKDIFFNEEILEKYNTFIIEDIENWQEPTLLHIFNVINEKQKYLLLTSSDKNNNFTLPDLSSRIKSVLSILLNAPDDELIKILIFKHFSISSVTISQQIIDFLLVNLPREYSKIIEILENINYFALISKRKITISLVKEVLNNYKNKI;locus_tag=LOCUS_8560;note=WP_004596252.1 DnaA/Hda family protein (Rickettsia prowazekii) [pid:98.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:5.1e-122],MGA_857
sequence1	MetaGeneAnnotator	CDS	1074663	1075661	.	-	0	ID=MGA_858;product=AI-2E family transporter;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599181.1;translation=MLITDTIKPFFIAFIISYLLQPAIYFIESKLEISNKLASSIIYLIFLSIFFLIFTILIPIIYGQIFTFINNIPKYKNYLQSEILPPIMGKIYSIEPDIADKIKHSLSDFINSIFTILGSIANNFWRYTIITINIFVLFLLIPIILFYFLRDWDKIITNMESLLPIKTRPKILEILSAINNLLSSYIRGQLNICLLLSTYYSIAFTLIGIDLALLLGILTGFLVIIPLLGTFISFLLTLIIGYLTFGITSKLLYIMIIYLIGNIGESYILTPKIIGDKIGLHPLWIIFAIFACGSLFGIIGIFFAIPIAGITKILLLNLIKFYKSSKFYRTDV;locus_tag=LOCUS_8570;note=WP_004599181.1 AI-2E family transporter (Rickettsia prowazekii) [pid:89.5%25%2C q_cov:100.0%25%2C s_cov:94.6%25%2C Eval:7.4e-162],MGA_858
sequence1	MetaGeneAnnotator	CDS	1075853	1076389	.	-	0	ID=MGA_859;product=nucleotide exchange factor GrpE;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596256.1;translation=MKDYNIENNNVEEENPNVETQVVDNEEIVRLKAEIEELKDKLIRTTAEIDNTRKRLEKARDEAKDYAIATFAKELLNVSDNLARALAHKPANSDVEVTNIISGVQMTKDELDKIFHKHHIEEIKPAIGSMFDYNLHNAISHIEHPDHEPNSIITLMQSGYKIRDRLLRPAAVQVVKKP;locus_tag=LOCUS_8580;gene=grpE;note=WP_004596256.1 nucleotide exchange factor GrpE (Rickettsia prowazekii) [pid:96.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:7.2e-93],MGA_859
sequence1	MetaGeneAnnotator	CDS	1076601	1077323	.	+	0	ID=MGA_860;product=ribonuclease PH;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596258.1;translation=MRQSGRKSNQLRPISLELSPLINAEGSCLIKIGNTHVMCSATCETTVPPFLRGQNQGWITAEYGMIPGSTSHRIKREAALGKQGGRTQEIQRLIGRAMRCVINLQKLGERQIIIDCDVINADGGTRTAAITGSYVALHLAIRSLMKKRILKVNPLISQIAAISCGIYKGNAVLDLDYLEDSDAEVDSNFVFACNGNLIEVQGTAEKEPFSEEQFLAMLKLAKSGVVELFKLQNQVLIAAE;locus_tag=LOCUS_8590;gene=rph;note=WP_004596258.1 ribonuclease PH (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.7e-133],MGA_860
sequence1	MetaGeneAnnotator	CDS	1079110	1079397	.	+	0	ID=MGA_861;product=co-chaperone GroES;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596263.1;translation=MSFKPLHDRIAIKPIENEEKTKGGIIIPDTAKEKPMQGEIVAVGNGVLNKNGEIHPLELKVGDKVLYGKWAGTEIEIKGEKLIVMKESDVFGIIN;locus_tag=LOCUS_8600;note=WP_004596263.1 co-chaperone GroES (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.5e-49],MGA_861
sequence1	MetaGeneAnnotator	CDS	1079418	1081070	.	+	0	ID=MGA_862;product=chaperonin GroEL;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596265.1;translation=MTTKLIKHGSKAREQMLEGIDILADAVKVTLGPKGRNVLIEQSFGAPKITKDGVTVAKSIELKDKIKNAGAQLLKSAATKAAEVAGDGTTTATVLARALAREGNKLVAAGYNPMDLKRGMDLAVNAVVEEIKRSSKKINSQEEIAQVGTISSNGDKEIGEKIAKAMEEVGKEGVITVEEAKNFSFDVEVVKGMMFDRGYLSPYFVTNSEKMVAELENPFILLFEKKLSNLQPMLPILEAVVQSQRPLLIIAEDVEGEALATLVVNRLRGGLKVAAVKAPGFGDRRKAMMEDIAILTKGELITEDLGMKLENVNIKNLGTAKRVTISKENTVIVDGNGDKKNIEDRVLQIKSQIAETTSDYDKEKLQERLAKLSGGVAVLKVGGATEVEVKERKDRVEDALAATRAAVEEGVVAGGGVTLLHASQTLTKLKVENKDQQAGIEIVIEALKDPLKQIVKNAGENGGVVVGKLLEHNDKNYGFNAQDMQYVDMIKAGIIDPAKVVRTALQDAASVASLIITTETLIVDEPSDKEEPMPMRGGMGGMGGMGGMDF;locus_tag=LOCUS_8610;gene=groL;note=WP_004596265.1 chaperonin GroEL (Rickettsia prowazekii) [pid:96.8%25%2C q_cov:97.5%25%2C s_cov:97.5%25%2C Eval:3.5e-285],MGA_862
sequence1	MetaGeneAnnotator	CDS	1081962	1082366	.	+	0	ID=MGA_863;product=bifunctional (p)ppGpp synthetase/guanosine-3'%2C5'-bis(diphosphate) 3'-pyrophosphohydrolase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596267.1;translation=MLQRVIKHLSYNLSKHDIAAQITGRIKHPISILYKLYRKGIKLEELTDIFAIRIVVIDEEKCYKALKIVHELYDHEKDKFKNYILNPKPNGYQSLHTIIITEDNYKIEIQIRDYNMHYNAESGDAAHWKYKNSF;locus_tag=LOCUS_8620;note=WP_004596267.1 bifunctional (p)ppGpp synthetase/guanosine-3'%2C5'-bis(diphosphate) 3'-pyrophosphohydrolase (typhus group) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.0e-74],MGA_863
sequence1	MetaGeneAnnotator	CDS	1082372	1083124	.	-	0	ID=MGA_864;product=HD domain-containing protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596269.1;translation=MEDIDIWQKKFEFCDYSKKLIGRIEYLNTIVDSPIDITEVEKGIYYTRKYHATQMRQSGEPYYSHPIEVAIMLADFTALEAPKLYKSYMMNVALLHDTIEDTILTHADISKIFDKNIADNVERLTRIKPYGKISSGEMLNLLIQEQRYDIALIKVFDRLHNLQTINAKSTEKALETVKETIESFLLIAAYLEIRTVEQQLLNVCNNFIKQHFPSEQKAIFRSVYEISFFNFKIIQNKLKRMQYYFRKKKA;locus_tag=LOCUS_8630;note=WP_004596269.1 HD domain-containing protein (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.0e-140],MGA_864
sequence1	MetaGeneAnnotator	CDS	1084617	1084787	.	+	0	ID=MGA_865;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MSQLSIEQIYKMNILCAISTFLNYKLKIVENNQAINEYCVGPKNIISMLMHYLIQY;locus_tag=LOCUS_8640;note=MGA_865
sequence1	MetaGeneAnnotator	CDS	1085214	1086626	.	-	0	ID=MGA_866;product=glutamate--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599177.1;translation=MTNIITRFAPSPTGFLHIGSARTALFNYLFARHNNGKFFLRIEDTDKKRSTKEAVEAIFSGLKWLGLNWDGEVIFQSKRNSLYKEAALKLLKEGKAYYCFTRQEEIAKQRQQALKDKQHFIFNSEWRDKGPSTYPADIKPVIRLKVPREGSITIHDTLQGEIVIENSHIDDMILIRTDGTATYMLAVIVDDHDMGITHIIRGDDHLTNAARQIAIYHAFGYEVPNMTHIPLIHGADGTKLSKRHGALGVEAYKDMGYLPESLCNYLLRLGWSHGDDEIISMNQAIEWFNLASLGKSPSKLDFAKMNSINSHYLRMLDNDSLTSKTVEILKQNYKISEKEVSYIKQAMPSLIVRSETLRDLAQLAYIYLVDSPMIYSQDAKEVINNCDKDLIKQVIENLSKLEQFNKECVQNKFKEIAIYNGLKLNDIMKPVRALITGMTASPSVFEIAETLGKENILKRLKIIYYNNLNF;locus_tag=LOCUS_8650;gene=gltX;EC_number=6.1.1.17;note=WP_004599177.1 glutamate--tRNA ligase (Rickettsia prowazekii) [pid:99.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:9.7e-273],MGA_866
sequence1	MetaGeneAnnotator	CDS	1086741	1087499	.	-	0	ID=MGA_867;product=bifunctional 3-demethylubiquinone 3-O-methyltransferase/2-octaprenyl-6-hydroxy phenol methylase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596275.1;translation=MSSINKKELEKFEKISHNWWNKNGEFGILHRINHIRIEYIIEKIKSNYNDISKLQILDVGCGGGLIAAPLALQGFNVTAIDALKSNVETATIYAQKNGLKINYLQATIEELENDKLYDVVICLEVIEHVANIQQFILNLVQHIKPNGIAIISTMNRTKKAYLFGIIVAEYILGWVPKNTHDYSKFVKPSEIYEILTDTNIEIKELKGLVFNLAKNEWKLSNDIDVNYFMCLEKKMNSLSSTCNGIPQLKRVI;locus_tag=LOCUS_8660;note=WP_004596275.1 bifunctional 3-demethylubiquinone 3-O-methyltransferase/2-octaprenyl-6-hydroxy phenol methylase (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:3.8e-143],MGA_867
sequence1	MetaGeneAnnotator	CDS	1087574	1088335	.	+	0	ID=MGA_868;product=metal ABC transporter permease;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_010886337.1;translation=MTLIILALILISCIFAPLGCIALWKRYIYFGDGLAHSSFLAASISIIAHFPLIYSGIIVAILFSFFVFFFKNNSEKNAVINLISSFMLAVALIINYFTSLQNNIVHLLFGDILSVSFNDLIILVVVLITIISFVVYFYNQILLIIINRDIAVIQGLKVNIIELIFLLLLSLSVFAAIKIVGVLMVTAILLIPAMIARFVSYSPSQMIIISIFISLFINFCAAFSSFYFDLPLTPLFIILGTLIYSVLYLKRFL;locus_tag=LOCUS_8670;note=WP_010886337.1 metal ABC transporter permease (Rickettsia prowazekii) [pid:88.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:2.8e-117],MGA_868
sequence1	MetaGeneAnnotator	CDS	1088684	1092142	.	-	0	ID=MGA_869;product=acyl-[ACP]--phospholipid O-acyltransferase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599173.1;translation=MDTNKLYLFKDRRFLPNFIVQLFGCLNDNILKNALVILITYGISGTLSKYNNVLVLITNATFVLPFIIFASIAGQIADKYERANLMKILKIYEIGIIAFAIYGFHHNNLLILFCSIGLMGIHSTFFGPIKYSVLPDHLNKDELLGANGFVEAGTFIGIFIGTIIGSYYTISNNFIIYSLIIIAFLGFITSLFAPKSDNANHNIKINFNIIDESISMIKYSKAKKQIYLAILGISWFWFIGAAIISQIPLLAKITFKADENVANLFLAVFSLGVGVGSFLCSKIFENEITVKYLFISALGISIFGIDLFFASRISSVNYEPTQLKSIFVFLSKRHNWRIVIDLFFLAIIGGLYIVPLFAILQHYANPAHRSRIIAANNLINSIFMVGSTIILSLLFYLNFTIPWIILFISLANIVVTIYIYRLIPEVKIIPFKLLRRIFQICFDLMYKVEVKGFENFQKAGKKVVVVANHISYLDPPLIATYLREEMIFAISPDIQKIWWIKPFLHMAKTLPVDPSNPMAIKTLVKEVQKDQKIAIFPEGRISVTGSLMKIYEGPGMIADKADATLLPVRIDGTQFTHLSKLKNILKKKIFPKITITVLPPVKFANMDTASNQERRSYISRTLYDIMADMMFESSDYKNTLFSSLIEAAKIHGFKKKIVDDFEKNTVTYRDLIFKSFILGDLIKKNNIFGRNLGLMLPNTTNTLITFYAMQSSGYVPAIINWSSAIGTIINCCKLAQIKVVYTSKEFIEKANLHKLITNLLDFGIKIIYLEDLKNQISTALKLKAKIGGYFTQTYYNYFCHNRDEEKPAVIIFTSGTEGEPKAVLLSHRNLQTNRYQITAKVPFSPEDIVFNALPLFHCFGLSGAIITTLNGIKLFLYPHALNYRSIPEAIYDIGATILISTDTFLKGYANYAHPYDFFSLRYIFAGNEKLKETTRQFWLNKYGIRIFEGYGITEAAPIIACNTPMHNKAGTVGRLLPKINYKLEKVAGINEGGRLLIKGPNIMLGYLDLEGQRSHKEWYDTGDIVKIDSEGYITILGRLKRFAKIAEEMISLTRIEEFASEIDPDSLHAAISVQDKRHGEKIILLTTGSDINQENFTNMLSNAQISLLHLPKLIITNSEIPLLASGKIDYIEIMKNINLRDFTHSECCDLDR;locus_tag=LOCUS_8680;note=WP_004599173.1 acyl-[ACP]--phospholipid O-acyltransferase (Rickettsia prowazekii) [pid:98.9%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_869
sequence1	MetaGeneAnnotator	CDS	1092803	1094374	.	+	0	ID=MGA_870;product=acyl-CoA carboxylase subunit beta;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596285.1;translation=MKNKTINLAMNQSNIISPELLDERKNIARQGGGEARINAQHQKGKLTARERIEVLLDPNSFTETGMFVSHRCDNFGMQNKKFLGDGVVTGYGTINGRLVFIYSQDFTVLGGSLGEYHAKKICDIIDQAIATGAPVIGINDSGGARIQEGVDALAGYGELFQRNVLASGVIPQITLIMGPCAGGAVYSPALTDFIFMVKNSSYMFVTGPDVVKTVTGEEVTQEKLGGARMHTTKSGVADLAFNNDIEALLEIRKFFNFLPSSNRSTLPVRPTVDPADRVDMSLSTLIPNTPNKPYDMKELVERIVDEGEFFELQPDFAKNIIIGFGYMEGYPVGFIANQPLHLAGCLDINASRKAARFIRFCDAFNISIVSLVDVPGFLPGTSQEHEGIIKHGAKLLYAYAEATVPKITVITRKAYGGAYIVMNSKHLRGDINYAWFNSEIAVMGAEGAAEIIFKEECKDNEAKKQKIDEYRKVVTSPFVAASRGYLDDIIRPQNTRWRICKALNFLRTKKVSLPWKKHDNLPL;locus_tag=LOCUS_8690;note=WP_004596285.1 acyl-CoA carboxylase subunit beta (Rickettsia prowazekii) [pid:100.0%25%2C q_cov:98.3%25%2C s_cov:100.0%25%2C Eval:5.6e-301],MGA_870
sequence1	MetaGeneAnnotator	CDS	1094467	1096464	.	+	0	ID=MGA_871;product=acetyl/propionyl/methylcrotonyl-CoA carboxylase subunit alpha;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596288.1;translation=MTKPLFDKILIANRSEIAVRIIRTLKKMGIGSVAVYSEADTNSMYVQHADEAYYIGDSPATASYLSVKNLISAIRESGASAVHPGYGFLSENPNFANILKREGVVLIGPSAGTIKKMGDKIEAKKIAIEAGVSTVPGYMGTIKDVKQAIDIAKEIGFPVIVKATAGGGGRGMRVVNNPAEMANAFESAKLEAANSFSDDRLFIEKLIQTPRHIEIQLIADQYGNSVCLGERECSIQRHHQKVIEEAPSSFITENIRHEMYRQVISLSQKVGYYSAGTVEFIVDSNKNFYFLEMNTRLQVEHPVTELITGIDIVEEMIKIAAGKKLSFTQDDIKLKGWAFESRICAENPSRGFLPSSGRIIAYSEPAKSPNIRIDTGIGLGGEVSMFYDSMIAKLCTYGETREQAIEVMRSALSSYIINGIAHNISFLEAVMLHPRFVSGDISTAFIQEEYPDGFSGASLTSEVTTVFLATAIFIYISEQRRASLISGNINNQANKIGTRWVVTIDDKLFPVLITPVENGYNIRHESDRIYIRSNWNLGNELFTAMINGKKTNVKIENIRTGYLLSHAGISVKAFVRSPRISELEALMVSKVVLEENSELQAPLSGQIAAIKVKEGQEVTIGQEIMILTAMKMENLILAERDGKIAKIFVNEKDNVVRGKILLEFA;locus_tag=LOCUS_8700;note=WP_004596288.1 acetyl/propionyl/methylcrotonyl-CoA carboxylase subunit alpha (Rickettsia prowazekii) [pid:99.1%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_871
sequence1	MetaGeneAnnotator	CDS	1097139	1100399	.	-	0	ID=MGA_872;product=isoleucine--tRNA ligase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596290.1;translation=MTNTKYYPDVSANVDFAAIEQEILKFWQNNNIFQKSIDYRNGESEFIFYDGPPFANGLPHYGHLLTGFIKDVYARYKTIKGKKVERRFGWDCHGLPAEMQSEKELGISGRIAITNFGIEKFNNHCRASVMQYASEWEQYVTRQARWVAFKNAYKTMDKNFMESVLWAFKELYNKDLLYESMRVMPYSWACETPLSNFETRLDNAYRERTDKAITVSFVLNEVTLINGIISQKSDMKEGDNFKEYRILAWTTTPWTLPANLALAVGSDIDYAFVDKNEVCYIIAASSVAKYAKELGLSGKENFEIIKGLKLQGLSYKPLFNYFENHPNSFKIFASDFVVEGDGTGIVHMAPGFGEDDQILCESKGIELVCPVDNSGKFTKEIPDLEGVQVFDANDKIIIKLKEQGNWIKTEQYIHNYPHCWRTDTPLIYKAVPSWYVRVTKFKDRMVELNQQINWIPHNVKDNLFGKWLENARDWSISRNRFWGTPLPVWKSDDPKYPRIDVYGSIEEIEKDFGVKINDLHRPFIDELTRTNPDDPTGKSTMRRIDDVFDCWFESGSMPYGQVHYPFENKKWFVEHFPADFIVEYSSQTRGWFYTLMVLSTALFDRPPFLNCICHGVILDATGQKLSKRLNNYADPLELFDKYGSDALRVTMLSSNVVKGQELLIDKDGKMVFDTLRLFIKPIWNAYHFFTIYANADSLKGTLNFASQNVLDVYILSKLKIAVNKIEESLDNFDTQTAYHAVSEFFEVLNNWYIRRSRARFWKNEKDTDKQNAYNTLYSCLKIMTIAMSALIPMISETIYQGLHNTAITQLNCLLSEGKHIVQNPMSDTQDYNTSVHLCNYPTLSDFEINYELVSTMDNVLDICSNSLFIRSTENIRVRQPLACITIISKHNNNLKDFEDLIKDEINVKTVIYRDDLENYARKKLSLNFAILGKRLPHKMKAIIDAAKKGEWEATTLGLAICGEILNSDEYTLILEPYSHIKGTANFDNNSSLLILNLELTSELIEEGYARDIVRFIQYARKEADFSITDRILIEIISEFDLSKIIDHYGDFIKEQTLGEFAKNFTPDYVSKVALENNQIQLKVKRL;locus_tag=LOCUS_8710;gene=ileS;EC_number=6.1.1.5;note=WP_004596290.1 isoleucine--tRNA ligase (Rickettsia prowazekii) [pid:99.4%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_872
sequence1	MetaGeneAnnotator	CDS	1101000	1101611	.	-	0	ID=MGA_873;product=COQ9 family protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004596292.1;translation=MSIKEEYNIKKINFVQSLLELLPFNEWNNNLLEEAEEKCSFEKGYALIIFPDGLSEIIEFFEDYLDKIMLENLKTIEEPKKIREKISLAVKIRVKTLIPIIHSKNASYFALNPIQGIKVAVRSCDAIWRYAGDKSLDFNYYTKRGLLLSVYISSILFYIQDESEHYIETDQFIETSIKNIVKTSVQIKKILDTSNIPIIRMFT;locus_tag=LOCUS_8720;note=WP_004596292.1 COQ9 family protein (Rickettsia prowazekii) [pid:95.6%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:1.4e-104],MGA_873
sequence1	MetaGeneAnnotator	CDS	1101702	1101902	.	+	0	ID=MGA_874;product=30S ribosomal protein S21;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599167.1;translation=MILVNVHAGNCDNTLKNFKKKLQRELYFRKMKEQRYYETPSAKRVRKAQEAARRIRKFARKKMYEE;locus_tag=LOCUS_8730;gene=rpsU;note=WP_004599167.1 30S ribosomal protein S21 (typhus group) [pid:97.0%25%2C q_cov:100.0%25%2C s_cov:100.0%25%2C Eval:4.0e-31],MGA_874
sequence1	MetaGeneAnnotator	CDS	1102130	1103935	.	+	0	ID=MGA_875;product=PAS domain-containing sensor histidine kinase;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator,similar to AA sequence:RefSeq:WP_004599164.1;translation=MSMLSDLKQNLRSYFSSRILILALAIASIISVCTTFYVISLEAKNFSTIIGFLLIDLAIFLILGILLTQKFFTKNNDNDSSKLQNRIVIAFSLVAAIPTIIVSVFSVYFFNLSVKAWFDKKISTVLDQSVIVAETYIAEHKVQLKETALAVAEDLSDMYYDLIHNPALFTKTLNTEADMRSLDEAIVLNKSTNTIVANSYLSFSLSFATIPAHLIKKADLGEPVEVKSDPTTIRMLIKLKEYNDVYLLVGRLVDNKIIDHIDATNGAAAEYNSLKNEIDNIQIKFSIMFIFIALLLLFVAINFGVLFTAKIVKPIKKLVTATDKVKDGDLTVQVPENEVDKDEIGTLYAAFNRMIKQLSRQQRDLVIAQRAMAWSDVAKKVAHEIKNPLTPILLASERLLKKFSSEINEKSEFESYLKMIIRHTNDIKNIVSEFVLFARLPAPKFTKSELVYLVKHIIEARKLLNDNIVYTYDSNVDQFDFMCDATQINQVMINVLKNAEESIEGQEFGKIDVILDAKDDFISVIVMDNGKGFPPELIGKATESYVTTSSKGMGVGLAIVKRIVEEHCGVLDIANREDEGAIIDIKFDLKELHLKVRRSGG;locus_tag=LOCUS_8740;note=WP_004599164.1 PAS domain-containing sensor histidine kinase (Rickettsia prowazekii) [pid:96.5%25%2C q_cov:99.7%25%2C s_cov:100.0%25%2C Eval:0.0e+00],MGA_875
sequence1	Barrnap:0.8	rRNA	1105398	1106891	.	+	.	ID=Barrnap_3;product=16S ribosomal RNA;inference=COORDINATES:profile:Barrnap:0.8;locus_tag=LOCUS_r0030;note=Barrnap_3
sequence1	MetaGeneAnnotator	CDS	1107723	1107872	.	+	0	ID=MGA_877;product=hypothetical protein;inference=COORDINATES:ab initio prediction:MetaGeneAnnotator;translation=MHYLGYGGLSLGTILAIVISFNANKSILWAIIHGFFGWFYIVYYLLLKK;locus_tag=LOCUS_8750;note=MGA_877
##FASTA
>sequence1
TTTTAATACAGTTATAAAAATTGGTAATCTAGAAATGCTAGATATAATACTGCAACATTCTTATAATTCGGAGGAATTAGTAACAAAATATCATAATTATACTATAAATAATATTATGCCTGAAGTAAATACTATACCAACTATAGAAGAAGATGTCTCAATATTGGGAGCTGAGATAGTGTAGTAACTGAATTTTTTTATTTTTTGGATTGCGTTTATTTAATTTTAGCATATATGATCGAATTGATGCAGCAATCCACAAAATAAAAAAAAATGTTATTCAATAAATTTCTTCGGAAAACTTAACTGATAGAGATTACTATCTCAGTCCTAATAAATATTTCTGAGAATTATTTTACTTAATTCATACTGCAAATGTGAGAAGTTTATTTCTTCAAATCCTTTCTTTGGAATAATAATTATTGCAAATTTGATCGCCTTAAAATTAGAATCATTAACAATAATTCTCATTAAATGTCGTATGCGCCTTTTAATTTTGTTTCGAACTACAGCTTTTTTATTTAGTTTTCTGCTAACTTTAATTCCTAAAAAGGTGTTATATTTTGATTCAAGGAAGATTTTTGGAAGTTTTTTAGCTATTACCAAAATAAAATATCTCTCATAAAACTTTTCTCCAAGCTTATTTATAAGCTCAAATTCTTTTTGATTTTTTAAAGAAGTAATACACAATTTGATAAGTCAGATTATTTTAAGCAGATAACTTATGCCTACCTTTAGCACGACGTTTTTTTAAGATTGCTCTTCCGGTTGCAGTAATCATTCTAGCCCTAAAACCATGTCTTCTTTTTCTAACTAAATTACTAGGTTGAAATGTACGTTTCATTATTTATACCTAACGAAAATAAAAATTAATTTAATATCAATATATAATGCTGTAGCTTGATCATAAGATTTTCTCTTCAAGTATGTGTTTTGAACAAAAATCAAGCTATCAAATCACACAATAATCTTGTTAAATATGCGCTTTGGATTGCTGTACGATACTTGCAAATCCATCATTGTTATTTACGGCAAGTTCTGCAAGTACTTTACGATCTATATTGATTCCTGCTTTTTTAAGAGCTCCCATAAACTGAGAGTAAATAAGTCCATGTTCTCTTACCGCCGCATTGATTCTTTGAATCCATAAGCCTCTAAAATCACGCTTACGATTCCTACGATCTCTATAAGCATATTGAAGTCCTTTTTCTACTTTTTCAATAGCAACTCTAAAACAGTTATTCGCTCTACCTCTATAACCTTTTGCTAATTTGAGGATTTTTTTATGTCGCTTTTTAGAAATTTTTCCTGATTTTGCACGTGTCATTGTTTCAGCTCCTAATTAATTTATATACCGTACGGTAAAAAATATTTTTTAATATTGTGCCCGTCTTGAGGACAAAGTATTGTAGTGCCTCTCAGATTACGAATTTGAGCTTTAGTACGACGACGCATAAAATGTTTTTTACCTGCTTGAGATGCAATAACCTTACCTGTAGCAGTAAATTTAAAACGTTTTTTTACAGCAGATTTTGTTTTTAATTTAGGCATAATGTTCCTTATATTTGGTATTTCTTGAGTATTTTCCGATTTAAACTGTAATTAGGCATACCAAGGTAACGTTACAGAGTAGAAAAGTAGATAATAGTTTTTTTTATTAGTTATTGCAAGATTTTTTTATAAAAATGTATTAGAATGTGATGAATCAACGAATAAATAGTTATAAAATGTTTGGACATAATCCTAAAAGAAGCATATTAAGCGGTGATGGTACTAAATTAGAAGTACAGTCTATTTTTAAGACTATACAAGGGGAAGGTATTTTTGTAGGTTATCCTTCAATCTTTATTAGGCTTGGAGGGTGTAATCTTGCTTGTAATTTTTGCGATACAGAGTTTGAGGATTTTAAATTAATAGATATAGATCAGATTTTAAATAAAGTAAAAAATTTGTCATTAAATTCTAAAAATGCAAAAACGATTAATTTAGTAGTAATAACTGGTGGTGAGCCGATGCGTCAACCTATAGGATTATTATGTCAAAAGTTATTAGACCAAGATTTTAAGGTTCAGATAGAAACGAATGGTACGTTATATCGCTCTTTGCCAAAAGAAGTCTTTATAGTTTGTTCACCGAAAGTTGGTAAAACTGGTTATAATAAAATAAGAGAAGATTTATTGCCTCAAATTAGTGCGGTGAAATTTATTATTTCTAAAAATATTGTTGAATATAGCATCATACCAGAAGTAGGCCAAAGTGCCTATGATATACCGGTTTTCGTCCAATCTATGGATCAAAACGATAAAAGACTTAATAATGAAAATAATGAGTTAGCGGTAAAATTAGCACTAGAAAGTGGTGCTAGGTTGTCTCTACAAACTCATAAATTTTTAGGCATTGAATAAGTTGTGTTGCTTAAAAAGGCTGATAATTAAAAAGTTTCAGTGGATTGTAAAGCAATTATAAAGTCATTGACGAATTTACTAATTAATACAGATAAAAATTGTAGTTTCAGTTTTTGCTGGATTAGTATGCTCCTTTGATAGTCACTTTCAATATGGATAAAATACTTGAATTTTATATTAATTGATTCTATTATAGTCTTCTTTAAGTTTAAAGTGTTGAAATAATGAGTGGAATATTAGAACTTGAAGCTAAATCGCGCACGGAATTCGGTACTGGTGCAGCAAGAGCGTTAAGAAGAGAAGGTCGTGTTCCTGCTATTATTTATGGAGCAGGTAAAACACCAATTAGTATTTCTTTGAAAGAAAAGGAAATAACTAAATATTATAGGAAGCCGGCTTTTATCTCTCAGTTAATTAATTTAACAATTGATAAGAAACAATATAAAGTATTACCAAAAGCCGTGGAATTACACCCAGTTACTGATATAGTACGTCATGTTGATTTTGTCTTTTTAGAAGCCAAAACACAAAAAATGGAAGTACCTATAGTATATGAAGGAAAAGAAAGAGCTTTAGGTGTTAAAAGAGGTGGATATTTTAATATAATAAAAAGAAGAGTAATTTTATTATGTGATGTTAATAATATACCAAGAAACGTAACTATAGATGTTACCAATATGCCTATTGGTACTTCGCTAAAATCATCGCAAGTAGAATTACCTAAAGGATGTAGTTTTATTACAAAAAAAGAATTTGTACTTGCAACTATTATAGGACGCAGAGGAGTAAAAACTGAAATTGAAGGAGAACAAGAAGTCGCTGAAGCAATTCAGTAATGTAAGTTCTTATGATAATAGCTACTCGCTTAGATATTTAAATCGTCATTACAAAAGACAAAGCGATGTTAATCGCACTCTGATTGGATTTCTTTATTAAATTACTACGTGGTGTAATGAAAAATTGATCGGAGTTATAGTAATGTGAAGCTAAGGATTGCATTATTTTGTACTTCTTTAAATCAATATTTCTTCAAACATTTTCATTATATTTATTAGGTATATTGTTATGATTCTTGTTATTGGTCTTGGTAATCCAGGCACAGAGTATCAATACACAAGACATAATATTGGTTTTATTGCTATAGAGAGAATAGCAAGTAAATATCATTTATCATTTAGTATAAAGAAAAAATTCAATTGTGAAATTGCGGAAGCTGTTATTGATAGACAAAAGATTATTTTTATAAAACCCACTACTTATATGAATTTATCTGGTAAATCAGTGATATTGGTAAAAACATATTATAATATCAAGTATGAAAAAGTTTTTGTTATTCACGATGATATTGACTTAGAAATAGGTAGAATAAAGTTTAAAACTGGTGGTGGTAATGGTGGGCATAATGGTTTAAAATCGATTGATGTGGTTATAGGTAATCATTATAACCGTATTAGGATTGGTATTGGTAGACCAAAAAATAATCATGATGTAGCAGATTACGTACTTAATAATTTCTCAGAATCTGAGTATAAAATAGCAATGCAATCTATAGATAACATTGCTAATAATTTTGGTTTAATATTAGAGCATAAGTTAGCAGAATTTACAAATAAGATTGTATAATATTATTTTTTGATGATCTTATCCTTTAATATTTTTTGTTATAAGGTTTGTTTATGTGATTTGTTTTACTTTATTGAATGATTTATTAAAAAAATTCAGTGAAAATAATATGAGTATTTTTAGTTATTTTCATGATATTGTATGTACTTTATTAACTAATGCAAAAAGGTAATGAAAGGCAAAATTTAGTATGCACAATTTTTGTAATAGTTTATATAGCAGAGATTGATCTCTAATTACAGTCCTAAGATCTGGTACGTTCATCTTGTTATTATAGACTTTTAAGAAGAAGCGTTTTATTAGAAATTAGGTTATCAAATTACATTTGATATGCACTAAAAATCTATAATGTATTGTTACGGACAAATTTATGACATTAAAACTCGGAATTGTTGGGTTGCCGAATGTTGGTAAGTCAACGTTGTTTAATGCCTTAACTGCAAGTCAGATTGCGGATGCAGCTAATTATCCGTTTTGTACTATTGAGCCTAATAGCAGTAAAGTTTTAGTACCTGATGAGCGTTTACAACGACTTGTCAGTTTAGTTGGAAGCAACAAAATGATACCATCTTATATTGAGTTTGTTGATATTGCAGGCCTTGTTAAAGGAGCAAGCAAAGGGGATGGGCTTGGTAATAAATTTTTATCGCATATCAGAGAAGTTGATGCAATATTGCATGTACTTCGTTGTTTTGAAGATGAGGATATAATGCATGTACATAACAAGATTGATCCGCTGTATGATATTGAGGTGATTGAAACAGAATTAATACTTACAGATATAGCATCACTTGAGAAGCATTTCATTAAAAGTGAAAAACGCTTAAAGTCAGGTGATAAAAAAATGGTAGAGCAAATAGCATTATTAAAAGAGATTTATAAAGTTCTTGCTGAAGGTAAACCTGCAAGAATTCTAAATGAAGTTTTAGGAGCTGATAATTTAAATCAATTACAATTAATCACATCTAAGCCTATTTTATATGTATGTAATGTGTTTGAACAGGATGCAGCTATAGGCAATAAATTTACGCAATTAGTTGCCAAAAGAGCAGAGACAGAAAAAACTAAAAGCCTTGTAATTTCTTCAAAAATCGAATCTGAAATTGCTTTACTTGAAAGTGTAGAAGAAAAAGAAGAGTTTTTAAAATATATAGGGTTAAATAAAACAGGGCTTAGTAAAGTCATTAAAGAAGGTTATAATCTTTTAAATCTTAAAAGCTTTTTTACTATAGGTCCTAAAGAAGCTCATAGTTGGACTTTTAAAGACGGTACACTTGCACCTGCTGCTGCTGGTATTATTCATACCGACTTTGAAAAAGGTTTTATTAGAGCAGAAGTCATAAGCTATGAAGATTATATAAATCTTGGTAGTGAAGCAAAAGCTAAGGAAGTAGGTAAAATGCGTTTAGAGGGTAAAGATTATAAAATGCAGGATGGGGATATAGTACATTTTAGATTTAATATTTAATATGCTTGATAACTCGGAAAATGTGTTAGATATTCATATAAGTTATATGGGTAAGTATAGACTATACTATACTCTTCTCTTCTCCTTATAGCTTCTCTGATCTTTTGAAAATTGATTTGTGTCAATTTATTGTCTTTAAAGAATTCATTGTAGTTAATGATGACAGCAGTTTTGAGCAGTGGGATACTTTATTGTATGTTCCTTATGATGTTTAAGTTTTTTATCACCGATTTTCTGATAAGGAATATGTAAAAAATTTTTTATTCAAATAAAAATAATTATTAAGAACAGTTGTTTTAGCACTTAGTCAATAACGTAAAAATTGATGCGCATTTTGATAGATTTATATTGATGCGCGGAAAGAGTATTTATCTAAATGTTTTATATATATAAGCAATGATTTCTGTTTTAAATTATTTTATCTGAGTATAATTTATTTTTATTAAATTTTTAACTTGTATTAGTGATATTGTTTTTTGTATCTTATGATAATCCTAAACCTATAGTGTTTGAGTTAAATAAAGCAACCTGAATCTTGATAAAAGAAAATATCAAATTGTAAAGAATCTAAGGATTGTATAAGATAATAAAAGTATTAATTTTTAAAATGTTCTAGAAGCTTTAATAATGTAACTATAACAAGTGCAATCTATAGTTTGATTAATGAGCAAAAATAATTTTAATGAATTATTTGTTATGTTGTAATAATAAAGAATTGAAAAAGAAATTTTTATTAATGATGAGTGCACTATGACTTTAGATACACAAGATCCTGAATTTTGATATATAGTTAATATATATATAATTAATAAGTTTAATAATAAATAATTTAAATAGAATACAGTAAAAGAGCAACTTGAAAAAGAAAAAAGAAAAGAGAAAAAATCTACTTCAATATAGTATTGAAAACTTTTCATAAGTGTTTATTTTTGCTTAAATAATATATGTATTAGAGTAATAAAACTTATGAAAATTATTGCAAAGATTCCGGCATGGATGCTTCTATGCTTATTTATTTTATCACCGACTACGGAAACAATTTATACTTCAGGATTACCAAGTTTAACTAGATGTTTTAGTATTGATGGTTGTATCACACAAATGACGTCTACATTATATTTTCTAGGATTTGCGGTTGGTATATTATCGCTTGGAAGATTATCTGATATTTATGGAAGAAGACCTATAGTTTTACTCGGGCTTTTTATTTATATTGTCTCTTCAATTATTAGCATTTTTTCATTTAATATAGAAATGCTGATGATAGCTCGTTTTATACAAGCTTTTGGTGTAAGTGTAGGGTCTGTTATTGGACAGTCTATGGCTAGAGATTCCTATCAAGGAGCAGAATTATCATATGTTTATGCTATCTTATCTCCGTGGCTATTATTTATCCCTGCTCTAGGTTCGTATATAGGTGGATATATTATAGAATATTTAAGTTGGCATTATGTTTTTATATTTTTTAGTCTTGCCGGTACTATATTATTAGCTTTATATTATCAAATTTTACCTGAAACAAATTATTACATAGCTTTTTCACAAAGTAGTAAATATTTTGAGGTTTTTAATATAATTATTAAGGATAAAATGCTTTGGTTATATGCTTTTATCATTGGTGCATTTAATGGTATATATTATGGTTTTTTCATAGAAGCGCCTTTTATTTTGATTGATCAAATGAGAGTTTTGCCATCTTTCTATGGTAAATTAGCATTTTTGTTATCTTTTGCTTCTATCTTTGGAGGTTTTTTAGGAGGATATTTAATAAAAAAACGTCAGGTATACGATAAAAAAGTTATGAGTATAGGATTTATATTTAGCCTATGTGGTTGTATATTATTTGCGGTCGATTCTTTTATATTAGAATTTATTCTAGTGAGTAATGTTTTTGCAATCGCTATGATATTTATGCCGATGATGATTCATATGATTGGGCATAGCCTACTTATAGCTATTACGCTTCGTTATGCACTTGAAGATTATGCTACAGTAACAGGTACTGCTGGTTCAATATTCGGGGCAATTTACTATGTAGTGATTGCTTCTGTCACTTATTGTGTTTCTAAAATACATGGAGAAACAATCAGTAATTTTTCTTTATTATGTTTAGTTTTAAGTATTAGCTCTGTTATTTCATTTTACTATATTTGCCTACTATATAAGAAAAAATCAATTATTATTAACTAAAATTGACGTTATTATTTGGGTAAAAACGTTTCAATATTGTTTGTACTGTGGCTTAGCTTAGGCCACAGTATCTAGAAACAACTTAAAATACTAATATTATTTTAGTATATAAATCATGGAATGAAAACTAAACCATGAAATAAAATACGTCACAAAGCGGTCACGACAATTCATTTAATACATCTCATTAAAATTAGAGATGCAAAAAAATCACGCTACAATTTCATTATAACCAGGTACATCATCTGTATGTTCTTCACCTTCAAGATCAATATCCTCTTTTAATGCTTGCATACTACAACTACTAAATATATCAAGATTATTCTGTGTGTCTTGCCATTTTGAACTCGCTAGTTTAAAACTGACAATATAGTTTTTCATTTCTTCTAATGTATAATTTTCTGTTTCATTTAAAAAATGCGCTATATCTGCTTTTGCTTCTGGATTTTTTGCAATGAATGAATCAAAAAAATTCTTAATACCTTCTAATATTTCTTCTTTGTCTGTATCTATGTCTTGTATATCTTGAGAATCTAGAGCTTGAGCTATCGGAACTATATCCGTTATATCATCTACATTTGAATAACTATCAAATTCATTATTAGAAGTATCAATATGGAATAATTTTTTATAAGCATCATTCATAACAATTTTATCTTGAGGATTATTTGCATTATAATTCTTTATTATTTTATCAATAACTTCTTTAAACTTTTCATTATAAGGTGCATCTCTAAAGTACGAGCTTTCATATATCGACTTTTTAGCAAATTCTTTTAGTGCTTGAAGATTTTCAATGCTAGAATTACTCATTTCAGCATGTTGTTCAGGAATATAAGTAGGTATTTCTATTAATTTATTACCAAAAATTCTTTGAGCTGTTATTTCATCAGCTTGTTGCGTTGCGGCTAATATTTTATTTGGCATATTATTTTTTAATAACTCTAATATTCCTCCACCACAACAAACAGTTTTGTAATCAGCATTATTTTCTTCTTTTAACGATAAATATAAAGCGTTATCTATTATACATTTATTTTCTTTTAATAGTTGCCATGTTTGCAAGGTTGGGTCATTAGCATATATTCCACCATCAATAATTGTGTGTACTTTAGTATTGGTTATATTACTGAAATGATGGCTAGGGAAATATCCAGGCGCTGCCGTTATGCCTTGTATTATATCTGAAAGGTAATAATTATTATCTTGACTTTTTCTAGCTTCTATAGTAGAGAAAGTGATCAGAGGGTTTTGTTGATTATTTAAATCATAACCTGTAACTATAACCTCACCGATTAAATCCTTTAGTGTATAGTCTTTACAATATTTTTTCAATAACTTTACTAATGGGTCAGGAGAAAATTTATAGCTGAATAAGCCATTACAACTCCATAGTTTTCTAAAAGTTAATCCTTCTGGAAAAATATTGTGTACCATTCTTTCAAAGAGTGTTTGCGCTTGTTCTGCACTGAATAAAGGCTTTCCTGGATTATCAGAATCCGGCAAATTAAGTAAAATAAGAATAAGTCCACCAACACTTGTTCCTCCAGTAAAATCAAATACCTTGCAAGTAGGCTTACCTGTTATTTCCTCTATTACTTTTAATTTTTCTAAATGAATCTCTCCTTTTACTCCGCCGCCTTCAAGTAGGGCTAAGCTACTCTTTTTAGTATTGCTTGTATCTAGATCTAGCATAACTACCTTTCCTACATTTTAAAAGATTATAGAGCAAAATTTAATAATAAAAACTAATTTTTGTCAATAAATTTATCTCGGACACATTTGAAAATTTAACATTAATATAATGATCTCTTAGTACAAAGACTATAATATATAGTTAATTATTATGGTATGATATATGCGAAGTGATTTTAGTGATATAAAATATTAAGTCTTATACTGCTCTTCATAGGAAAGATAATTAAATCGTAAACATCTTAATTTTTATTAATAACATATTATTAGTTATATTAATACTACTAAATGATTAGTACTGAAATTTGGCTTTGTTTAATTATAGAATAGGGATTTTTTTAAAATATTCTGTATAATTTGTAGATAATGTATTTAATCTAAGAAAACTTAAAAATTATAAAAAAACTACTTTGAATAAGCATCTTAATAAATTATTTAAAGATTATAATAAAGAAAATTATCAATAATAAAGTTATTGCACTGTGTTTTAAATATAAATTCTCTTCCTAAAATATTTACCATATTATGTGGTTTACTGCTGTGTCTGTAAGAAAATTATTATTATAAAAATCCAAAAAAGTTATATCAAATTTCAGTAATAATTCATAAATTTAAAAATATAATTCTAAAGAGTTGTAAGCATTTTATAGAACAATATTTAATTACTTAAAAAAACTCTAATGTTATAATAGATCTTTTACTAACTAATTATTTATATATTACTAATTCTATGTAAAAACATTTAAAGCTAATCATATTAAGTATGATAACAGTCTACTTGTATAGACCATATATGAAGTTATAAAAAATAAAAAAACTTTACAAGCTATCGCTATACAAGCACTACCGTGCAATTTTAACTATTGCATATTTATTAATATAATTGAAATATATAGAAACAATGCAACATTACAGCTTCGATGTTTTTCATACACTTATTTTTAAAATAGTATATTTTACAAATAAGATGTTGCTCATATATCTACAGAGCATACCATTACTCAAGTAAGCGGTATAATAAAAAATAGATAATATAAATATTAAATATCAATGATATCAAATTAAAAAAACTAAATTACATCAAAAAGATTTTTATTAATATTTCAAGGATTTGATTTAAGTTACTTGGTAGTACTATAAAAACATTATCTCAAATCTTACATTATAATGCATAAGTAAAATTTTAAGTATTTATTAAAAGATATTATCAACAAATTTAATCACACTGGTAAAAATCACCGCTGCAATATTATACACAAATTGGAGCTTATATTATCATAGTATAAACAACATATATAGTCTTTTTGAGAGATATAAAAAGATTTGATCACTTAAGTGACGAATAATGCTTATATATAGTGATCTATAAAATGTACATTATTTATAATTTCTTTTTATATATTAATTCATTAGCGCTCGAGCAGAGAATAAAAACTTCATTTTGTAGGTCGTTTTGTATATATTATCTATATCATGTATGTGGAGGTTCTAGTTTCATAGATCTAGAGTGCACGTTCAACATTATCATGTTATTTGAATACTTGATCAAGCAAAACAATTTCAAACTAAATAACTTTAGTTTTTTAAAACTGGAAATTGCTATCAAATCGTGTTATACATGAATATATTATGCGTATTTAATTTTGCAATATTTTCATTAACAAATTAATTTCCTCACGTAATTCTATATCATTTTCGAGTAATTCTTCTACTTTCTTAATAGCATGCATAACCGTAGTATGATCTTTTTTACCGAATTTTTTACCAATATCTGCAAGACTTTTCGGCGTTAATGTTTTACTAAGATACATAGCGATTTGACGTGGTCTTGCGACTTCTCGCAACCTGCGTGAAGAATACATATCAGATAATTTAATATTATAACGACTAGCTACTTTTTTTTGAATATCTTCAACAGTAATTATCCTTTCATTAGAACGCAATAAATCTCGCAAAATATTTTGTGTATTTTCAAGCGTAATTGCTTTTAAAGTAAAATTAGAATGAGCAATCACTTTATTTAAAGCTCCTTCAAGTTCTCTAACGTTTGAAACAATTTTAGATGCTAAAAAATTTATCACATCTTTTGGTATTTTAACATTCATTTGCTCGATTTTAGATTCTAGAATGCCGAGGCGTAATTCATAAGTAGTACTATGCACATCTGCAACTAAGCCCCATCCAAGGCGAGATTTGATGCGATCTTCAATATTATCTAGATCTGAAGGTGACCTATCGCAAGAAATAACCATTTGACGGTTATTATCAATCAATGTATTAAAAGTGTGGAAAAATTCTTCCTGTGTACTATCTTTACCGCAGATAAATTGAATGTCATCAATCATTAGTACGTCAACTGATCGGAATTTCTCTTTAAATAAAATTACTTCTTTATTACGCAGAGCTTTAACAAACTGATACATAAATTTTTCTGCTGACATGTATATTACTTTGCGCCTTGGGTTATTTTGTTTGATGTACCAACCAATTGCATGCATTAAATGAGTTTTACCGAGTCCAACTCCGCCATATAGAAAAAGTGGATTAGATTCAAACACTGCCCCTGATGATTCTGCCACAGCTCTTGCTGCTGCATAAGCTAGTTCATTTGGTACTCCAACCACAAAATTATCGAAAGTAAAACGTACATCAAGTGTTGAAACGATATTTTCTGAATTTAGTGCACTGTTGCCGATATCGGCAAAAGTCTTAGTAGGTGATTCTATCACTGCTTGTGTTGTTCCAGGTAACTCTTTAGTAATTATTTCAATTGACTTAATAGCATTATTATAATGTTGGAATAGTTGCAATATGACCATAGCATATTTGGATTTTATCCAATCTCTAATAAAATTAGTAGGTGCACACAGAATAACGGTATTTAATGAAGACTCTATAAAATTGACCTTACTAAACCAACTATTATATAGAGTTTCACCGTAATGATTGTAAAGATCTTGAGCAACGTAACTCCAGACATTTACATAATTATCACCCTGATCTGTTAAAGGTATTTGATTAGTGCTCACTTAAAACTGCCACGGTAAGTTATTTTGTTTCCAGCCTTTATCTTGATTATTACCTTCAAAACCGTCACTTATATTATAACAATTTTTATAACCAATATTAGCTATAAAATTTGCTGCAATGAATGACCTATATCCTGAACGACACAGAAAAAATATGGCTGTATCTATTTTCTCGTTAATAATAGATAAAAAATTATCTTCAAAGTTTTTATTCAATTGCAAACTTAGAAAAATTACTTTATTCTTATTATCTAAATGAGGTATCCCAACTTGTTTCCATTCTTCTTGTGTTCTAACATCTACAAGAAAAGCATTATTATTTAAAATTAGCATATTATAAGCTTTTGTAGAACAGATATTTTGAACCAACATATTTACGTTTTTTTCTATTATTGATAATAAAAGTTAATAGAACTTTCCCAATGTAGAATGGTTATTAGAGTGCTTAATTATTCAAGTATTTTAAAATGATTTCGGTATCTAGGCTCTATATCATTGAAAATGATGTTCATAGAACCTTATTATTTTAATAATATTATTATAAAAAAATTTTGCAAGATGTTATAGATGAATAAATTAAATAAAAACGCTTTACAAAAGAAACTTTTTTATCGTAGTAAAAAGCGTGGTTGCAGAGAAATGGATTATATACTTGGTCGCTTTGCTGAAAAGTACTTATCTTCAATGGATGAAAAGAAACTTAAAAGTTATACTTTAATACTTGATCAAAATGATAATGATCTTTATAATTGGATTAATAATAAACCTTCTGCACCTTCTTATCTAGATCCCGAAATAATTGACAAATTACGCAAAATAGCAAAAATATAAGCTCCTGTAGAATGATCCAACAAAAATTTCCGGCAACTGCCAAATGTTTCTATGTAATTGATAATTTTACTAAGAATCTTAATCAAGATTTCATTTTAAGTGTGAGTAATGAAGAAGAGGCATTGCAATTATATAAGCAAGCGTTATTTTTTTCTTCAAATGACAATATTTATTACTTTCCAAGCTATGATACAATTCCTTATGATCATACGTCACCGAACGCAAATATCGTATCTAGACGTGCGGAAACATTAACAAAACTAATAACAAATAGTAAGGGGAAATTGCTTATTACTCATGCAGCAAATTTATTAAACAAACTCCCACCAAAAGATTTTTTTTCTAAATATTTTTTGAAATTATATCCTAAAATAAAATTTACTATGGATGAACTTTCTATGTTGTTAGTAGAAAATAGCTTTACACGAAATACAAGTAGTATCGATGTTGGAGAATTTGCAGTTAGAGGAGAAATTATTGATATAATATTACCAGGTCCTAAAGGTTATAGAATTAATTTTAGTTGGGATTATATTGAATCAATTAAAGAATTTGATATTAATACACAAATTTCGACAAAATATTGTGCAGAACTTGTTATTAGTCCTGCCAATGAAATTGTGTTAAATTCTGAAACGATTGGTAATTTTAAGAATAATTACTTACGAAATTTTGGCGTTAATCATACTGATAATCCTTTATATGAGGCTGTAATATCTGGCAGAAAGTTCGCAGGATATGAACAATTACTCCCATTATTTTATTATTCTTGCTCTAGTTTAGTAGATTATCTCAATAATCCTATTTGCATATTCGATAATCTATCAAAACAAGCAATTTTAGAGTTTGAAAATAGTTATAATGATTTTTATTTAGCAAGGTCAAAGGCTAATAAACTTAAAGTTAATAATTTCTATCCCACACTTTCCCCAACTAGCTTATATTTCACCGCTTCCGCAATAACAGAATTACTTGAACAAAAAAATAATATATTAATTAGTTATGAAAATTCTGAGCAAGCTAGTTTGATTGGAAATATTTCCTCTATAAGTTTTATAGAAAAGAAAACGATTTTTGATAAATTATTTGAGATTATTAAAGCAAATTTTCATAAAAAAATTATCATATGCTCAAGTGTTTTAAGTAGTTTTGAGCGAATCAAAAGTATTATTCAAAATTATGAATATACTTTTAATGAGATAAATAAATTAGATGAGGCTAAGGCTTCAGTAATAAATATTGGAATCATTCCTTTAAATCAAAGCTTTTATACGAAAGAATATTTATTTATTACATCTAGTGAATTATTAGAAGAAAAAACTCTTTATACAAATACCAATAAAAAACTTAAAAATATTTTGTTGGAGCTTGATAATTTAAAAGAAGGAGAATTTGTCGTTCATAAAGATCATGGAATAGGACAGTTTTTAAAGCTAGAAGCTTTCAAAATTCAAGGTAAACTACATGATTTCTTAAAGATTTTATATTTTGGCAATGATAAATTATATGTACCGGTTGAAAATATAGAGGTAATAAAAAAATACGGGTCTGATAATGCAGAGCTTAATAAGCTTGGTAGTGTCGCATGGAATAAAAGTAAGGCAAAACTTAAAAATCGTATAAAAGAGATATCACTACATTTAATACAAATAGCAGCTAAAAGGAAACTGAATATTAGTACTCCGATTGAATTGGACCTTGAGGCATATGATAAATTTTGTGCTAATTTTCCTTTCAGCGAAACAGAAGATCAGTTAACAGCGATAAATGATATTCGAGAAGATCTAACAAATGGCATGTTAATGGATAGATTAATATGTGGAGATGTTGGATTTGGTAAAACAGAGGTAGCAATGCGTGCTGTCTTTATGGTAGCGAAATCACTAAATGAATATTTACCACAAGTAGCTGTAGTTGTTCCGACAACTATTTTATGTAGTCAACATTTTTCAAGATTTATAGAAAGATTCAAAGGGTTTGGTTTAAACATTAAACAATTATCCAGCGTTATTAGTTCTAAAGAAGCAAATATTATCAGATTGGAGCTTGCAAGCGGTAAAATAAATATAATAATAGGAACTCATGCTTTATTACATAAAAATACAAAATTCTTTAATTTGAAATTGTTAATAATCGATGAAGAACAGCATTTTGGTGTCAGTCAAAAAGAATTTCTTAAATCACTAAAATCCTCTACCCATGTACTTGCAATGTCCGCAACACCGATTCCTCGAACGCTACAAATGTCAATGACTGGTTTAAAAGAACTTAGCATTATTGCAACGCCACCTTTAAATAGATTAGAAGTGCGTACATCTGTTATGCCATTTGATCCAGTGATTATTAGAGATGCATTATTACGGGAACATTTTAGAGGAGGTAGAAGTTTTTATGTAGCTCCAAGAATTAAAGATATGGAGGATATCGAAAAACAATTAAAACAAATCGTGCCTGAATTAAGTTATAAAATAGCTCATGGGAAAATGACTCCGAGTAAAATTGATGAGGTCATGAGTGAGTTTTATGTTGGCAAATTCGATATATTAATCTCAACTACCATTATAGAATCAGGGATTGATATCGCCGAAGCAAATACAATGATCATACATAAGGCAGATACGCTTGGTCTTAGTCAGCTATATCAATTGCGTGGTCGAATAGGTCGAGGTAAAATACGAGGTTATGCTTATCTAACAGTAGCAAGTAATAAAAAGATAACGTCGCACTCCTTAAGACGCTTGGAAATAATACAAAATAGTTGTTCTTTAGGTTCAGGTTTCACTATTGCAAGCCATGATGCAGATTTACGAGGTTTTGGTAATTTGATCGGTGAAGAGCAATCAGGGCAAATTAAAGAAGTGGGTACGGAACTCTATCAAGAAATGTTGGAAGAGCAAATAGCTCTTTTAAAAGATGATCCTATTGTCTTAGAACAGGCATTTATTCCAAATATTAACTTAGGACTATCTGTTTTTATTCCAGATAGTTATGTATCAGATTCAGCCCTAAAAATTGGTCTATATAGAAGAATAGGTAATTTAAGTAATGAGATGGAAGTAGAGAAATTTAAAGATGAGATGATTGATAGATTTGGTTTGCTACCTATTGAATTTAATAACTTACTTGATATTGTAAAAATAAAACTATTATGCTTTAAATTAAATATTGAAAATTTAGATTCAGGAGATGACGGGTTTGTGATTAGATTTTATAAAAATGCTGATATGACTGATAAAATTTTAAAATTTGTTAGTCGCTATTCTAATCAAACAAAAATTAAACCGAATAATAAATTAGTATTTATCAAGAAATTAGTAGATAAAAATATCATTACTGAGGTAAATCAATTACTGTGGACATTACTAGAAATTTAAGTTTTATTATGCAGAGAAAAAACATATGGCACTTTGTCATTTGCTTAAGTAATAAAAATAAAAAACTCTATTTGTATTATTTTGGATCACATATTGCACGTTAAGGATGTCATATTATTTATGAAATATAACCTAAATCAACTATTTAAAAATCATAGAATCAAAGGGTTGTCTACTAATTCTAAAACTGTTAAGGAGGATGAGGTCTTTTTTGCTATTAAAGGACAAAATGTTGATGGAAATGATTTTATAAATGATGCATTAAATAATGGGGCAGTATTAGTAATTACAGAGAATAAAGACAATACTGCAATAGATAAAGTAATCTACGTAGAAGATGTACACAAAGCTTTATATGAAGCTATAGAAATTTTCTATCCTAAAAAACCAAAGAATCTAATATCTGTAACAGGTACTAATGGTAAAAGCTCGGTAGTATCTTATATAGCTCAAGCATACTCCTTGCTTAAGAAAAAAGCTGCATTTATAGGTACAATAGGCCTAGAAATATTTGGCTCCAATAATATTATAAATGATGTGCCTTCATTAACAACTTTTGATTACTTGAGTTTTAGAAAAGTTGCTCATAATTTAGCTGAAGATTCTATAGAATATTTAGCTTTCGAAGCTTCTAGTCATGGTTTAGAACAAGGAAGACTTGGCAAGACAAAAGTGAATATAGTAAGTTTCACTAGTTTTAGTCAAGATCATTTAGATTATCACCATACAAAAGAAAATTATTTGTTAGCCAAACTAAAATTATTTACTGATCATTTATTACCAAGCGGTATTGCAATATTGAATTCTGATATAGAAGAAATAGAATTTGTTAAAGATTATTTACATAACAATAATGTTAAGTTTATTACAGTTGGAAAAAAAGGTGACTTACAAATAACCAAAATCACCTGTTCTTTAACAGGACAGAATATTGATTTTATATTTAATAATATAATATATAATTTACATACCTTAATTATTGGTAGCTTTCAAGCTAGTAATTTATTGATTGCTGCTCTTACTTTATATTATACCGGATTTAAATTTGATGAAATAATAGAGGCTTTAGCAAAAGTTAAACCTATAAAAGGAAGAATGGAGCGAATAGATGGCACTAATATTTTTGTTGATTATTCCCATACCCCAGATTCGCTAGAAAAAGCTTTAATAGAGTTGAAAAATATTAAGTTACATGGTAGTAAGCTAAGTGTAATTTTTGGTTGTGGTGGTGATCGTGATAAAACAAAGAGAGCCCTTATGGGGCAAATAGCTGCAAAACTTGCTGATAATGTAATAATTACCGATGATAACCCACGTTTTGAAGACCCAAAACTTATTAGAGCTGAAATTATAAGAGGTATAGGTACAGCAACCTACACAGAGATAGCAAGTAGGGCAGAAGCGATTAAATATGGTATAAACAACTTAAAGCAAGATGATATCTTATTAATTGCTGGCAAAGGTCATGAAACTTACCAAATTATCGGTGATAAAAAATTACCTTTTGATGACTCTGAGGTTGTAAGGAAGTATCTTTTTGAGATATCATACACTCGGAATTAGCAAAAATATTATGTATCATCACGTAGTGTTGTTTATATAATATTAGATAAATTACATTATGACACTAGATGCTTTTTAAAAGCAATAGAACAACACGTAAATCACAATGATTTGGAACTCTAAAACTTTAAGTATTGCTCTTGGTATAGAAATCTCTAATTCTGTCAATTGTAATGAAGTACAATTTAACTCTAAAGATGTTAAAAAAGGTGATTTATTTATAGCACTTCAAGGTAATAGAGATGGTCATGATTATATCCAAGATGCAATAGATAAAGGCGCAACAGCAGTAATTGTTAGTAAACAAGTAGAGATAAATGATAAAGATAAAATTATCTTAGTTAATAATTCTTTTGAAGCGCTACAAAAAATGGCTCTATATAAACGAGAGAATTCAAAAGCGAAATTTATCGCTATAACCGGTAGTGTCGGTAAAACTTCTACCAAAGAAGCACTAAAAATATTATTACAACATGATTTTATAGTTTTTGCTAGCAGAGGTAATTTTAATAATTACTTAGGGTTACTTATTAATCTTGCATCAATGGCTGATGATACGGAATATGCTATTTTTGAGCTTGGTATGAATCATCAAGGTGAAATAAGCGAACTGGTTCAAATATTAAAGCCAAATATTGCTATGATTAATAATATTTCAGAAGCTCATTTAGAATTTTTTCACTCACTTGAAGAGATAGCCGAAGCTAAATGTGAGATTTTTAAAAATTTTAGTAAAAATGATATTGCCATTATTAATGCAAGTAATAATTGTTATAACAAAATATTATCGATATTAAAAAATCTATCTATTACAAATATATATAGCTTTGGTCACTCTTCTAAAGCTTCAGCTAAATTAATTTTATATAAGACTCTAGGAGAGCAAGTACACTTACAGTATTATATAAATAATAAATTCATAGACATAACTATACCATTCATCCCTAGGCATTTCGCTAACAATTACACAGGTGTACTTTTAATTATCGATATATTAGGTAAAGATATAGAGATATCTGCAAAGTACTTAGCAGATATTGCGCTTACTAAAGGGAGAGGGAAGATTATCAATATACAAAATTCTCGTGTAATTTGTGATTACTATAATGCAAGTCCTCAATCAATGAAAGCTGCATTAGAATATTTAAAACAAGTGCCTGCAGATAATAAAACCTCTATAATAGGCGAGATGCTGGAGCTTGGTTGGAATTCTCAACGATTACATGAGGAGCTAGTACCTTATATACTCGATGCTGGTTGTACTAAAGTTTATTTAGTAGGAGCATATACTAAATATATTTATGATTTACTCCCTAATAAAATATCTAAAAAATTTTTTAAAAATGTTGAAGAATTGATAACGCATATCACTGATTTATTTGAATATAGTGAGCTTATTTTAATCAAAGGGTCCAGAGGTGTAAAACTTGATAAGATTGTTGATTATTATCAATAAATACATTAGGATATTCTTAATAATCATGTGTCTCTCAATGTCATTCCCGCAAAAGTGTGAATCTAGTAATCTTTAATTTTATTACGCAATCAAGTCACGGTATGAGATCGAGTTAATTTTTCTAGCTATATAAAAATACTTAAATACTTTTAATTTAAATCTACAAATGTTATATAATCTTTTACTTCCTCATATACATAATTCACATATAGCTAATTTATTCCACTATATTACTTTTCGTAGCGGTCTTGCTATTATTATAACTTTAAGCATTAGCTTTGTAACTGGTCCTATATTAATAAAATTTTTACGTTCGCTTCAAAAATACGGCCAACCTATACGTTCGGACGGACCTGAGTCGCATAAAACAAAAGCAGGTACTCCGACAATGGGCGGGATAATGATTATTTTGTCTAGTTGTCTTTCTACTTTATTACTTGCTGATTTAACTAATAAATATATTTGGATTACATTATTTGGTTTTATTAGTTTCGGTATTATAGGATTTATGGATGATTATGCTAAGGTGAAGCGTAATAATCATTATGGTGTAAGGGGAAAAAGTAAATTTTTACTACAAGGCATTATTAGCTTAATTATATATGTTTTACTAGAATATTTAGATAAAAATTTCAGTCATTTACTTAATGTACCATTTTTTAAAAATTTAAGTTTGGATCTAAATTATTTTTATATGGTTTTTGCTATATTTGTTATAGTTGGTTCTTCTAATGCTGTGAATCTAACTGATGGTCTTGACGGTCTTGCTACCGTTCCGATTGCATTTACTGCTGGTTCTTTTGCTTTAATAAGTTATTTAGTAGGCAATCTTATTTACGCGAACTACTTACAGTTAACATATATACCTAATACAGGAGAGTTAACTGTGTTATGTGCAGGATTAGTAGGTAGTTGCCTTGGATTTTTATGGTTTAATGCACAACCAGCAGAAGTGTTTATGGGTGATACCGGTAGTTTAAGTCTTGGTGGTGTTCTTGGTATTATTAGTGTTATTACTAAACATGAAATAGTTTTAGCGATCATAGGTGGTTTATTTGTGATTGAAACTACATCTGTGATTTTACAGGTATATTATTTTAAAGCAACTAAAGGCAAAAGAATATTTAAAATGGCACCACTTCATCATCATTTTGAAAAACACGGTTGGGCAGAATCTAAAGTTGTAATAAGGTTTTGGATTATTTCAGTAATCTTCTCTCTTATAGGATTATCATCTTTGAAATTACGTTAAATATTGACATAAATTTACTATATTCTATACAGAAAATGATATGTGTAAAATCAGAAGTTTTAAGGTTTAATAAAAATATATAATGAAACTAAAGAATTAGAAAAATATCAACCTCTGCAAAAGAGTTTAATGTAAATTAGTATAACAGTTAACAAATTATGCAATAAAGTTTAATACAAAGTATTAAAAGTGCACATTTAGTATTATAAGAAAAAATTGCAACAAATGAGTAAGAGGTGTTTTTAAGTTATAATACTAAGTGTAAAAGATTCTAAGATCTACATATAACAGATCAATTTTCATTAATTGAATCTGCAGTACTATAGAAACCATATGTATACAAAAACTCTTTCAGCTGTTCTCAATGATGATTAATATACTGATATGTTATGACTCTTTCTTCTATAAGCCTATAGTGCATTTAGCTTCAGTTTTAGATCTTACAAGTTATATTAACTTACTCTACTATTCAATCTTGATCAATATAAAATACTCCAAGATCAGTAATTACTGTGGTCACTACTTTTTACCTTTTAATAATTTAGTACTGACGTCTTTTGCGTTATGTCAAATTACAATTACTAACTTTTTGGTATTAGCTACTGCATATATATTGCCTTTCATACTTTTAACCATTTGGCAATTACCCGTAATGGTTTTAAGATGGTTAAGTTTGAAAAGATTACCTTTTTGTAGTACCTGTATAGCTTCTAAAATAGTTAAATCAACGTATAAAACTCTAAATATCCAAAATTGTTACTAAAATAACTCCTTTCAGGAATAGCAGTGATAGTTTGCTTACCGTCATTAATTAAATTATTATCTTCCTTTCTTGCGTAAGGCAAGATAAATATTTAAGTTATGCATTATTGAAAATAAGTTCAATGGTATTTTGAGTTGAAACTGATAACTAATTGATTTTATTAATTTAATTAGACGTAGCATTTTGGAATCAGCCTAAAATGTTGTCTGATACTCCTTAAAAAGAAAATTGTAAATGAGTTGGACGTTGAGCAGTTAATTTTGAGCTTAGCTTACAATAGAAGTATTTATCAAGAAGGTATGACTTTCAAATCCTAAGCTAATAGTTAAGCAGTATTGAAATATAAAAACGTCATTATGAGTGACCTAATTATATTTTGTCTGAGATCACTTCGTTAATGTTGTATTGAGTCTTTTTTCAATGACGGTTTTATATCAACACATTGCGAAGTCTTGCAGTGAACAGCTTTATTATGTAGTGTTTTGATCTTATACATATGCAATCTTTAATTGCAGCCACTTTCTCTGTATAGCTCTATTAAATGCTTCGTGTCCTAAATGGACGTTATGCAGTATTTACTATTTTTATATTTTCTGTATTTTTTAGTGCAAAGGCACCTGCTATTTAATCTATATAATATAATTCTATTATTCATTAAGATTGAATGCAATCCGTTATATAGGATCGTACAGTTTTGCTATTATTATATTGTATATATTATTTAGTAATAAAATAAGTAGAGATAGGGATAGACTTAGAAATTTTGTAATGGTTTTTATTTAAGTTATATTGATATTATGTCGTATTACGATATTTCCCTCCAATAATAGTCATATTTGAAGATTTTTTATATTATATTACTTGTAGCATTTATTACCTAATATCAATATCTTGTATTAAGATAGTATTGATCTCGTCTTGTTATTTTTGATAATTTCTTTATTAGTATATTAACCTTTTTTAAAGATTAATATACTAAACAAGTACAATTATATCAATGAAAGGCTTGTACAAAGTTAATTATTTTATTATTAATTTTCTTAGCAAAGTAATTTTAAAATATATGTTAACTACTTTAGAACAATTCTTATTTGCTCCTGTGAAAGCATTTATCAATATACGTGAAGATACAGTCTCTGCTCTTAAAAGGCTTGGTATTAAGAATATTCGTGATTTATTATTTTATCTACCTGTTTCATATCAGAATAAAATATTATCACCTAATTTAACTAAAGTTAGAGGCGGTGAAATAATACAAACAGAAATTATAGTTAATAGTATTAATTTACAAAAAAGAGGTAATCAGCCTTTAAAGATTACAGCTAGTAATAATACTGGGTCTCTATTATTAGTATTTTTTCATAAGCCACCACAGTTTATTTTAAATAAGCTGAAAGTTGGAACGAAGCATATTATTAGTGGAAAAGTACAATTCTTTGATTATCAATTACAAATTTTGCATCCTGAATTTATTACGAATCCTCAACTCTCAAAAGCCATAGAACCGCTTTATTCGATGACATATTCACTTAGTAACACGCAGCTATATTCATATATAATAAAAGCAATAGAGATATTTGAAGAGAAGTGTAATGGTATAGAAGATAAAGAATTGAAGGAATATTTGGATGTTATATTGCAGAATTTGAAGATCTTGCATGTTTTTCTTTCACCACATAACTTGATCTCATGTTCTAGAACAACGGATATCGTTGTTAATCCGAGTTATGCCATTGTAGCTGCCAAAAAACAATTAGCAATTAAAGAATTAATCGCTAATCAAATATCTCTTTTAAATGTACGTATGCAAATAAATAGAAAACACGGTAATATTTACCCTAAAGCTGCATCTATTCAAGAAAATATATTAAGAGAGTTAGGATTTGAGTTAACCTATTATCAAAAGCAAGTTATAGAAGAAATAGAGTTTGAGCAAAGCGATAAAGTAGAAATGATGAGATTGTTACAAGGCGATGTTGGTTCTGGTAAAACTTTGGTAGCTTTGCTTACTATGGTAAATGTTGTCACCACTGGATTTCAAGCTACACTTATGGCTCCAACCGATTTACTTGCCAATCAGCATTATGATTTTTTTGTTAAAGCTCTAAAAAATACTAATATTAGAGTTGGATTACTTACAGGTAAGATACTTGGTAAAGCTCGTAGAAATATTATTATTCAACTTGTAAACGGTAAGATTGATATATTAATTGGTACTCATGCGTTATTTCAAGAAAAAGTAAGTTTTAAGAAACTAGGTTATATAGTTATTGATGAGCAGCATAGATTTGGAGTGCAGCAGCGGTTGAATCTAATAAATAAAGGAGTCAATCCTGATGTTTTAATTATGACTGCAACACCAATTCCAAGAAGCTTAGCACTTACTATGTTTGGTGATATGACTGTTTCCAAGCTAATTGGGAAACCAAAAAATCGTTTATCTATTGTTACAAAGACTATGTCGGTTAATAAGATAGGATATATTATAAAAGCAATAAATAAGAGGCTTATTGCAGGTGAAAGGGTATATTGGATATGCCCGTTGATAACGCAAAGAGAGAAAGAAACACTGCAAGAGGATCTTTTATTAATGGATGTGATAAATCGTTTTAACTCTATCAAAAATATATATCAAGGTTATACTGGTATTATTCATGGTAAAATGAAGAACGATCAGAAGGAGCGCATAATGAAACAATTTAAGGAAGGTGAAATTAAGATATTAGTTGCAACAAATGTTATTGAAGTTGGAATAGACGTATCTGAGGCCACTTTAATTGTTATTGAAAATGCTGAGCAATTTGGTTTAGCACAACTTCATCAGCTGAGAGGTAGAGTAGGACGAGGTAGATTGCAGTCATATTGTATATTATTATATAATCCAAAAAGGCTTGGCAAAGTAGCACAAAACAGGTTTAAGATAATGAAACACACTAATGATGGGTTTTATATCGCTGAGCAGGATTTAAAACTACGCGGTAGTGGTGAGATTTTAGGTATCAAACAAAGTGGTGAAATCGACTTTTTTTTTGCAGATTTAGCAGAAGATTATGCACTACTCATAAAGGCTCATAAAATTGCAGAAAGAGAAATAAGCTTAAAAGATAATGTAAATTTTGTTAACTTTCAGATAAAACTCTTCGCAAAATCGCAAGTAAGCTATTTGATTTAAAGATATTGTTGCTATGTAGTATGAACTCACATTAGCCTATACTTCAAAACTGATTATAATATAGGAAGTATTCTTTAGGTCATATCAATGATCAGAATGTGAAATCCATTATTTTAATGTTTTTAAAAAGCTTGATTTATATTACTTTATTTTAGATTTTTGTTTTTGTAGGTAGGATATTAGGAATTTTTAAAAATTATCTGGTATTGTTGTAATTTCAGCAAGTCTAGTAAACAGAGCATCAATCATATCCCAGCCTTTTTTTTGAATAATTAGTAAAGAAAAATCATTAATATTTATTTGTTTTAATAAATTTATCCCCATTTGTTCATGTTCAGGATCAAGATGCATATGTGTTTTAAAATGTTGTGATGCTTTATGATTACAAAATATTGATCCTAGTTTTTCATAAAATATTGTAGCACAAGACTCTATTACTAAATGCACCAGGACTGCTCTTTCACTATCTCCAAGAGTCATCATTTTTAGTGTAAACCAGGAACCTAATGCTTCAAAGATAGAATCTGTAGTTTCTTTATCGTTTTCTAGATTTTGGGATAATTCTATATTATGTCCAAATTCATCAGTAAGATGGTCCCATGCAAGTTGTTTAAATTCTTTTGTTTCAGAAAACACTACTCTTGCTAATACCATTTTTTGAAATTCATCTGACCAAATCCGAAAATGCTTAAGAAATTTATTTTTTCTTAGTGTACTATCAAACTTAATTTTAAATAGTTTGTTTTTTCTAAATTGCTTTTTATATTTTTCATTGTCTAAAATGAGAAGATCTATTACATTCATATAGTTAATATCAATATCATAATTAAGTATATTAATATTAACTCAGTCAGTCTGTCACGAATTATTAATGTTTATCTACCAATTTTTAAAACCATATGTGTATTTATAGATAAATATGAATTGTAAGATTATAATTTGTATACAATATATATATATAACATTACGACTGATCCATTTTATATTTATTAGTATTTTTTGTGAATAATCGCTTAAGATCATTAATATATAAGTAATTGTTAAGAAAGTCAGATTTAAAATTAAGTCAGTATTTGAAAAATTAAAATCACTCAAAGGAATCAAGAGAGTAAAAAAAGTTGAGTGTACTATAGAAGTAAAAATTGCTATAAAACAGCAAAGTTTTAGATTAGTCTTTTCATGTTGTGCAATAAATCCAAGTATCATTATCGCAATTACAAGAGTCCCATAATCAATTAAAGTCCAACTAATATACCATAATATTATCATTACCGCTACATGACAAAACCCGTTATAGAAAAAACTAGTTATAGAATTACGAAAATAATAAATATAACATTGTCCTAAATAGATAGAAATTAGAATATTGGTAGTAAGAAACTGTTTAAACAATATAGTAGTATATATTTGTAGTATAACTCCGTATATTATTATTCTAGTTTTTGGTTTATCATAAAAATTATAACCGGCAAAAAAGCAAAATACTGGCATAGCGATACGACCGATTATCCGCATAATCGTTAATTCAGGATATAGATATAGACCAATATGATCAATGGTCATCGCGATAACAGCTAAAGTTTTTAGTAAATCTTGATAATTTGTTTTATTTTGTGCTATTATCATAATTAACCACTTTTAATAAATATGCTGTTCCAAAAAATATTGCCACTCCAATTATAATTGTACTACCTAGCATAGAAACTTTAATAAGTAAATATTCCGAGTACAGATATTCTAAATAATAATGTTTTATTAAGGCAATTATAATAGACATTAATGTACAGCATAATAAAATCTTAGCACAGAAAAGCTTTATACCAGCTTCTATATGGAGTTTATGTTGTTTTGTACTATAGCTATATAATAAACCTAAATTATACCAAGCTGCAATCGATGTTCCAACTGCAATACCTATATGTTTTAAAGAATCCATTAATAATAGATTCATATTAGTATTAATTATAATTGAAAATAATGTTATTTTGAGAGGGGTTTTAGTATCACCATTAGCATAAAAAATAGGAGTTAAAATTTTTGCTAAAATAAACGCAGGAAGACCAAGTGCAAATGCAGAAATAGCTTCGGCTGTGTTTGTAGTATCTTGAGGCGTGAATACTCCTCTTTCATAAATTATATTAGTAATTGGATGCGAGAGTATTATAATACCAAATGTTGCGGGCAATGATAACAATAGTCCAATTCTAATAGCATTATTCTGTATTTTTTGTGCAGATACTATATCGTTTGATTTATATACTTTTGACATCTCAGGTAGCAATATAGTAGAGAAACTTGTGCCTATTATTGATAAAGGAAATTGATATATACGATCAGCATAAGCTAATATAGAAATAGCACCTTCAATAAAGCTAGAAATAGATTGTGAAATAAAAAGATTTAATTGTTGTACACCAGAGCTTATAGTTGCCGGTCCCATATTAATTAAAAGCTTTTTTACATCAGGATCGTTTGTATGAAAAATTATTGGAAAGTGCAAATCAGCTTTTTTAACACAAATAAACATAAAAACAACTTGTAATATTCCAGCAATTATTAAAGATACGCTAATTGAGATAGTAGACTCTATATAATTCCCAAATATTAAAGTAAAAATTATTACGCATACACTTAAAATAATTGGTGAAAACGCAAATGCAGCGAATTTTTTTACAGAGTTTAATATACCGCCAAGTAGTGCCGTTAATGAAACAAATATTAAATAAGGTATTGTAATACGGCATAAAAATACCGTCAATTCAAACTTTTCTTTTTTAGCGTAAAATCCAGGAGCAATACATAGTATTAATTGTGGCATAAAGATTTGCATTAGTGCTATTATTACTATTAATGTTAGAGATAGCAGCGTAAACACTTTTCCTGAAAAATTATTTGCAGCTTTCTTAGAAATAAGCATTTTTTCATTATAAATAGGAATGAATACACTTGATAATGCCCCTTCTGCAAAAATCCTTCTAAATAGATTCGGTAGTTTAAAAGCAATATTCATACTATCGCCCATAGGTGTTGAACCAAATAATGATGCGATAAATTGCTCACGCACTAAGCCAAATATGCGAGCAATGAATGTCAAAAAAGCTAATATGATCCCTGAGCGAAATAATGTCACTGTTTTATTAATATTAATAGATACGTTATTATAATGATATATTACTTGTGTAGATTAGTTTTCCATTACGCTAATTTCTGTCTATTCCTTCCTTTATTAAAGTTTCTGCTTTTACTTTATCTCCCCATCCAGTAACTTTAACCCATTTACCTTTTTCTAAATCTTTATAATGCTCAAAGAAATGCACAATACGTTTTTTTAGCATTTCACATAAATCATCTAGTTCTTTAATATGATCGAAAGTAATATCGAGTTTAGATGTTGGTACTGCGATAATCTTCTCATCGAGTCCTGATTCGTCTTCCATCATTAATACACCTATTGCTCTGCATTTGATCACTGACCCAGGTACGACGGGATGATGTGCTACAACAAGTACATCTACCGGATCACCATCATTTGAAAGAGTATCAGGAATAAAACCATAATTACAAGGATAACTCATGGTAGTTTGCATAAAACGATCAACAAAAAGTGCACCTGATTCTTTGTCAAATTCGTATTTGATTGGTCCGCTATTCATTGGAATTTCGATAATTACATTTATTTCATTATTGTTTGCTTTTGCTTTAATTTTCTTTATAAACATGTTTTTGTTTTATTTTTTTTGTCATGCAGCGGCTTGAACACGGCATCTAGTTAAAAATGTTGCAACAACTGATACTTTAAATTTTTTATAGATACCGTAGTCAAGCCTACGATATAACACTGAGTGTTTTAACTCGGTGGTCTATAATTCTCATCATGTTTTGCAAGTAATTGTCTTGCTATAAATTTGCTATCAGATAATTGTCCTATCGCAATAATGCCTTGTCCTTCACGAAATAGTGCAGGGAGCACTCCTTGATATAATATCTCTAAATCTTTAATATTATCGGTAATAACAAAACTTATCTTATTAGCAGAAATTTTATTTATTGAATCTCTTTTAACAAGTCCACCGACTCTTAACTCTTTGCCTTGTTCTGCCTCATTAATTTTTGACGGCGGAAAAAAAAATATTATATTTTTTTCTAAATTATAAAGTATTATACTAATGCCTAAACAAGCTGAACAGAAACAAATAATTATTTTTATTAATCTATTCCTGACTATCTTTTGCATTAAAGTTTTGTTTATTTTTTAATATTTTATAATTTAAAAAATTTACTATTAACAATATCGCTAAGGTTAAAAAGGTAAATAAATATGATACTAATATACAATTATTCATTTTTGAACAATTCCATAATTTCCTTAGCTGAGATATCTAAATAGAAATGCTTCATATATCTCCCGTTTTTATCAATTAAGTAGGTAAAAGATGAATGATCAATCATATAGTTTTGATCATCATTGTCACTATTGACACGAGCATAGAAAACCTTGAATTTATCAGTGACATCTTTTATCTGGTGCTCGTTACCAGTAAGACTTATAAATTTCGGGTGAAAATTTTTTATATATTCTTTAAGTACTTCAGGTGTATCACGTTTTGGATCAACCGTAATAAAAACAGGTATAATATCTATTTTATTTTGATGTAAAATTTCTACAATATTCGTTATTTTATTTAGAGATGTCGGGCATATATCAGGACAGCTAGTAAATCCAAAATAAATTAGGCTTAAGTGACCTCTCAACTTATCACTATTAAATATCTCTCCATTTTGGTCTATCAGTTCAAAAGGCCCGCCGATTTTTATCTTATCTTCATAGATATTAAACTGACCAGCAAGTGGTTTTTTAGGTGTGCTTAAAGATAATAACACATATAATGCTCCTACTCCTATTAACAAGCTCATTATAATGATTATTTTCGTAATATTTGATTGCATTTTCATAAGATATAATTCATTTCATTATTATTTTGTGGCTTGAGATAACTTATTAATATCGTAATTTCAATGAGCTATAGGTTAGGTGATGCAGCATTCTTATAATAACCTACGGTACACAATAATATAATAAAAATCATTATCGACAACTTCTTACAGCAGACCTAATTTTTTAGGTTTAAAATATTTTACCCAAACATCTATTAGCAATTTAGTAATGATAATTGCTGAAAACATTGAAGATATAATCCCAATCGTTAATGCTACAGCAAAACCTTTGATTGCTCCAACTCCGAATATATAAAGTGCAAAGGCCACTATTAAAGTCGTTATATTAGAATCAATGATAGTAGCAAATGCAGATTCAAAACCTGTTCTAATAGCATAAAGATTCGAAACTCCTTTATGTAGTTCTTCCTTGATTCTTTCGTAAATCAATACGTTAGCATCAACAGCCATACCTATAGTTAGTATTATTCCTGCAATTCCAGGTAGAGTTAAAGTAGCTTGGAATAGTGAAAGTAAAGCTAGAATATATAATAATGCGAGGATTAACGCTATATTAGCGAATAAACCAATTACACCGTAAGACAAAATCATAAATATACAAACTGCTACAAACCCTATAAGACCTGCTTTTTTTCCTGATTCTATAGAATCAGCTCCCAAATTTGGACCTATACTTCTCTCTTCAATAATTTTAAGTGGAGTAGGGAGTGAACCAACACGCAATAATAGTGCGAGTTCATTTGCAGACTCAATAGTAAAATTCCCTGTTATTATACCGTTCCCACCAATAATTGCTCCGTTTATAATTGGAGCGCTTAGTAATTTATTGTCTAAAACTATAGCAAGGCGTTTACCAGTATTATTTTTAGTGATTTCACCAAATATTTTACTACCTAAATTGTTGAAAGAAAAAGCAACGATTGGTTGTGAATTTTGATCAAAAGAAGCTGAAGCTTTCGTCAAATGTGCTCCACTTAACAGAACTTTTTTCTTTATAACTATATAATATTCACCATGATGTTTGCTATCTCCCTTAATAAGCATTGAACCTAACGGTACATGCCCTTTTATCGCGTCTTCAATATTGGCGTTTTCATCAACTAAATGAAAAGTGAGCTTTGCAGTTTTCCCTAATATATTCTTAAGGTAAGATGGATTTTCTGAACCTGGGACTTGCAGTAATATATGTTTATTACCTTGCCTTTGTAGTGTTGGTTCTTTAGTGCCTGTACTATCAACTCGCATACGTACAATCTCGATAGATTGTTCTACTACCTTATTAAGTAAGTCATTGAATCTAGATTCACTGTATCTAAGCTTTATTTTATTTTTATTCACTCCAATGATAATTTCCGGATCGATTTTATTAATTATTTTCTTTAACGATTTTAATACTTCAGGAGATCTTACTTCTAATTGAATGTTATTGTGTCGCACTAACAGATTTTTATAGCCGATTTTATGCTTACGCAAATTTTTGCGTAAAGTATCAGCAAGATTTTCCATTGAATCATTCAAATATGTATCAAAATCAACATCTAGTAATAAATTTGCTCCTCCCCTTAGGTCAAGGCCTAAATTTATTGAATCATGAGGTAAAAACTTCGAGTTTATCTGAATAAAATTTGGTAAGGCACAAATAATTGCAAAAACTGTGCATATAATTGAAAGAACAATTTTCCATTTAGGAAGATTTTGCACAGCTTACCTTCTTATTTTTTTTTTGTTATTTTCTTGTGTTGCTGCTACTTCTCTTTTCCGGCTAGTTATATCGACAATAGCACTTTTTATAGCTTTAATGCGTACGTCTTTCGCTATTTCGATCTCAATATTATTGTCATTTTCACTTACTTTAGTAACAATACCGTAAATGCCGCTATTTATTAGAACTTCTTCCCCTTTTTTTACTCCACTGACTAATTTTTCTCTTTCTTTACGGCGTTTTTCTTGGGGGCGTAATAATAAGAAGTAAAATACGGCGAAAATTAAAATCATCGGTATTAAGCTTGTTAATCCCGATTGTAAAGAATTTGTTTCTACAGGCACTGTATCAGTTTCTTGTATTTCTATGGTTTCATTATTATTTATTTGATTATCTTGAGTATGTTGTGACATATGTAATTTCCTAATTATTGCGATAGCCTTCCTCTATAGCCTCTTTCTAAAGGTCATTTGTATGTCAATTCAGTACTCGTATTCTCACGTTATTCGTATCTACTATGTGCTGGGTTTTTTACAAATTTACCATTATTAGCTATCTTATGCAAGAAGTCTAATAAAATAAAAATAGCTACCTAATAGCTTTAATGCAAGGGTAAAATATTATACTCTTCAAAATATTATTTAGCATATAAATATTTAAATGTTTAATTAGATATAAAGTGAATAATGAAAGTGAATAATGTCACTAATAATGAAAGCTTCAATTTATATAATTTAAGTGTTAGAAAATTAGCAATTATCTATTTGATTTGTCTCTGATCAATCTTTTTTATTAAAATGAGGTAATACAGTTATCAAAATGAATTTTAATTTTTATTAATAAAAATTAAAGTAAGATTAAGACAGTATAGAGTTATATAATTTCTTGTAATGAGTACAATAATTATATAATAGCAATATAAATTTTCTTTACATTTTTAAAACTGTAAACTACTTCAAAATTTGAAAATGTTTTTAAAGCTAGCAATGAACTTTTATGTTTTTTTAATTGTAAATTCAAATCGTATTAATGCTTAAAATACTAGGAAATTCATAGTAATTACTACACAAAATTTTGTACTACAAATTATGTAATTTGCTTTCAAATAAGCTCAAAAATTATTTGAACTGTATAATAACGAATTATTTGATTAAATTTTAGATAATTCATCATATCTACTTTTATGAATCTATTTCTAATATCTATACTAGTGTTTTGCTATCATTGCTAGGCATAAGTTTTGTCGTCTCTTTAAGTAGTGAATAATATAGTAAGAGCATTGCTAGAATCAATGAAATAGCAGTACTGTAAAAATAAATAAGTGTTTTCGCAAATTAATTGGATTAATAATGAATTTACTGATTCTATTTACAAAATAGTATTGTGATGTGGAATAATTTACTCTCATGTGCGAGGAGTTGCGTAGTAATACAACTAAGTAATTTAGTATAAATTGTAACTTAAATTTCCAAAATCTTTTTTGATTATTGTATTGCATCATTCCTTATACTAACAGTCTTAGTATCTACACAACAACGCTATGGAGAAATGATATAAAACTTGGAAAATTATTGGAGCGGGTGAAGGGATTCGAACCCTCGACTTCGACCTTGGCAAGGTAGCGCTCTACCCCTGAGCTACACCCGCTTTTAAAAAAGTTTTATGTAACACTACCTTAGTGTTTCTTAAGCTAACTGAATCTCAATATAAGTAATTGTAAGATAAATTGCAAGTATTAAATTAGAAATTTTTGGTACTTCTGAAATAAAGCTAGATTATTTTTAATGAAATTACATAATATTAATTGTATTGGTTAAGCAATCTAGTTAAACACTCTGTAGCCTCTTTGTAGTAACTTTAAGTTACAAAGGAAAAAGTTTAGTCTGTAATCAAAAATAGTAAATAGTTTTACTATTATAAATAGGTATGTTTAGAATATTTTTCTAATTCTCTTAATATATCATGGCAGTACTTTTAAATGAGTTATTTTTGCCTGAAGCTGATGTTCTATTCTATATACTGTCATTGTATATTGTTCTAGATATGTATCTAGACATATATGTGCTTTAATTATTCAGTTGGTATATATGCACTATAAATATCGCTTTGTTATCTTTTATAATCACTAAATTTAAAAATTCATACTGGCAATTGGTATTATAGCAATTTTTGCAGTAATTTTGTGTCGTATCACTGAGTATATGTTCTCTATGTATGCTTTATGCTGAGCTTGATCTAATACAATATTATTTTATGCGCGCTTTATTTCTTATTTCTGTAACTTTAGGTTTCGTTATATCATGAGCATTAGGAAAGTTTCTTAGTTTTGATTTGCCAAGGTTATGTTTAGAACACTGATACTTACATTAGTAGATCCTTTTAACGTGAATATCTAAGGTCTTACACCATTCATATTTAAATCTAAATGCGAGTTTATCAAGCAATTTTTACTATAAACTATATAGTTAACATTTGACTTGCTAAGTGCTTATATCTTCTATACAAGTTATTTTATTAATTATTATTTGTTGAGCGATTAATTAATTTCTATAATAAATAGCTATTATAATATTGTTATAATATAAAATTAATCCTAAAGTTAAGATTTGTATGATATAGCTTGTTGAGTTAAAGACTGAATCGAAGAGTGCGTTAATATTAAAATATTAATGTTGCAAATTTATTGTTCAAAGAATTGATTATTAATAATAATTGGAATATACCAAGATAAAATTATCGTTTTTAAAAATCATGATGCAAGTTGTATGTAAATGTCTTGAGTTGTAGATATTGTTTGCTGTAATAATTTATATTATGTCGATCCTAGCTTTGCATTTTTTGTTATGTATGTAGCAATACTGCGTATAATTATTTCTATAGGTTGGTTTGCTAATAAACAATTACACTAAAAAAATATTAGCAAGACTTAAGAAAGTTAGGAACCCTAACGCATCTGTTATAGTTGTTAAAAATACACCTGAGCCTGCAGCTGGGTCTATATCAAAATAATGCAGTATTATAGGAATAGCAGAGCCAAATAATCCTGCTACTAAAAAATTTAAAATAACTGCAATAGCAAAAATAACGCTAAGATTTAAGTCAAGTAACATGACAAAGCTAAGTCCTGCTCCGATAATTGCAAGTACAAAACCGTTAAAAGCTGATACTGCGATTTCTTTTAATATTACTTTATTGACATTATTATAATGAATGTCCTTATTAGCAAGTGCTTTAACAGTAACAGTCATAGCTTGTGTTCCTGCATTTCCGCCCATTGAGGCTACAATAGGCATAGTTGCTGCAAGTGTTACAAGTTTTGCAATAGTATCATTAAAATGGTTAATAATAAGTGAAGTCATGCATGCAGTAATGAGATTCACAAAGAGCCAAGGAAAACGATGTTTGACTGTATAAAATACATTGAAAAAAGTATCTTGTGTGTGTACCCCGCTTAATGATAATATATCTTTCCCTGCTTGTTCTTCGATAATGTAAATTATATTATCGATTGATACACTACCTACCAACTTACCGCTTTTATTTACTACAGGTACAATCGTTAAAGCATATTGTCTAAAAATGAAGCTTAGTTCATTTAAGTCGGTAAAAGTATCTGCAAGCTTAAAATCTTTGCTCATCAAATCTTTTATCAATTCATTTTTTTTGCCTTTAATTAGTGTACTAAGAGAAATAATACCAATAGGTCTTAATTTATTATCTGTAACGATTGCTGCATAAAATTCATTCTTTACGTTCTTGATAAAATTTAATGATTCCTCAACAGTCCATCCTGCTTGAAGATTAATAAAATCTCGTTCAATTACTCTACCTACCGTATTTTCAGGGTATGTACAACCTACTGTAATTTGGTGTTTTTTTTCTTTAGTCAGATTACTTAGTATCAGATCTTTTATATCATCGTCTAGATCGATTACTACTTCAATTGCATCTTCTATAACTAGTTTATTGATTAATTCGGCAGATTTTTTGATGCCTAAAGTTTCTATTATTAGAGGTTTACTATAAGCATTTAAAGATACCAATGTTTCAGGCTTAATTTTATCATGTAATAAAGGAATAATGATTTTATATGTTTTATTATTAAGATTATCTAAAAAATCTGCTAAATCTGCATAATGCAGCTTAGCAAGCCTACTTGCAGCTGCATCATAATTGTGATCTTCAATCAGATCGTTAATTTGATCAAAAATCTCAGCAAATTGATTATGATGATCAGGTAAGATGCTTTTAAACATATTGAAATTAGGCATAGCCTGTTTACCTAATAGTTGTTATAGAATTATTTATTATTTAAAGTTAGTTAGCTAGGCTTGGTACAGAATTGTGTACAATTTGCTAATCAATATAAATCACAGATTATAAATAAGCAATAGTTTTTATTGTGTCTACTTTTCATTATGAGTATGTAACTAGCATAAACATTTCTTCACAATAAGAACTTGGGATTCAATAATAACAGCTGAAGTGTTACGACAGAAAAATTGAACTTTGTAACAAATCGTCGAATGGTGCGGTCGAGAAGATTTGAACTTCCAATCCTTTTACAGAACAGCACCCTCAATGCTGCGCGTCTACCAATTTCGCCACGACCGCTTAAATTTTACTCTACTCTATAACAACTATAACGGATTATCAATAAAATATCAATAGAGTCGCTGTATTTATCTCTTGGATAAATCACGTTATGATAGTAGTGTAGTGATACTATACAACAATGTCTAATTTCCATAGCATAAACTAGACATATAACAATTTTGGTATTTTACAAGGATAATAAAGTTATTCAAGATAAATCAATAACAAAATTAGGTATAATTGATTGTTTAATGGCAGCTTCCATTAAACTATCTAATTTTTCATGAATGTTATCGCATTCAAAATGATATTCTCTAGAATTTCCAGTTAATACAAGAGCAGAATCGAAACCGAGGCGATTTGCTGCAAGTATATCAGTGTAAAAAGTATCTCCAATCATTAGCATACGATTCTTAGGGATATTAGAACATTCTTTTAAAATCTTGTGATATATTTCTTCATATGGTTTACCACTATAAATTACTTTTCCACCAAGCTGCTTTATTTTTTCTGCATAATATCCGCTACAATATCTATAAATACCATGTTGATTTATTCCAAGATCAGGATTAGCACAAATATTAATAATTTTGCGTTGTACAATGATTTTAAATAATTCATCGAATTCGTTTAAATCTAACTTTTCATTTTCGTCTCTATAAATAGTTATTAAGGAAATATTAGCTTTATTAATATCATCGGTTGTATAGCATTGCATTAGGTTTATTATATCATTTTCTAAATGTCCTAGGTGATATATTATCGGATTTGTAATATCGAATCGCTTTTTACTCTCTAGTATCATTTGAACTGCTATTTCACCTGAGCTAATGATCATTTCTGGCAGTGCATTTATTCCCCAAGATTTAATTGTTTTATGTAGTGAAAAAATATTGCGTGGGGCATTAGTAACAAAATATACTTTTTTCTGTGCAATAATTTTATTAATATTTTGTACGACGCCTGGATAGGTGTGGTTTCCTTCAATTATTACTCCCCACAGATCAAATAAAAACACATCATAATCATTGATTACATCGAAAATATTTTTAAACTTTAATGTATTCATGTATATTATCCCGCTAATTTTAAATCAAGAAACTTTACTATTTTAATAAGTTACGTTATAGTCATTTTTATTGTTTCTAGCAACAAGTAATAAAGTTCAATATGTATATGTATTATGTCGGTAATTGAAGAAAAATGTAATGAATCATCATATAGTGCTGATTCTATAAAGGTATTAAAAGGTCTTGAAGCAGTAAGAAAAAGACCAGGAATGTACATAGGTGATGTTGGAGATGGATCTGGTCTACATCATATGATTTATGAAGTAGTTGACAATTCTATCGATGAAGCGCTTGCTGGTTATTGTGATTTAGTACAAGTAACATTAAATAAAAATGGTTCAGTAACCGTGTCTGATAATGGACGAGGTATACCTGTTGAAATTCATGAAGAAGAAGGGATATCGGCAGCTGAAGTAATTATGACGCAGCTTCATGCGGGTGGTAAGTTTGATCAGCAGTCCTACAAGATTTCAGGCGGTCTGCATGGTGTTGGTGTATCGGTAGTAAATGCACTTTCTGAGTGGCTTGAGCTGCGTATTTGGCGTAATAATAAAGAATATTTTATTAGATTTAATAATGGTATAACTGAAGCTCCACTTTCAATTGTCAAAGAAAATATTGATAAAAAAGGTACAGAAGTTACTTTTTTCCCATCTGTAGGTACATTCACTAATATAGAATTTGATTTTGTGACTATAGAACATCGTCTTCGAGAGCTTGCATTTTTAAATTCAGGCGTTAAGATTTTACTCGTTGATAATCGCTTTGAAGAAGTTAAAAAAGTAGAGTTTTATTATACAGGTGGTATAGAAGCTTATGTACAATATATAGACAGAGCGAAGCATGCTATTCATCCATGTATAGTAGTAAATACTGTGCATGTTGAGTCAGGTATAAGCCTTGAGCTTGCACTTCATTGGAATGATTCTTATCATGAGAATATTCTATGTTTCACTAATAATATTAGGCAGCGTGACGGTGGGACTCATCTTAGTGCTTTCAAATCAGCGATTACACGTGTTATCACTTCTTATCTAGATACTACAGGTCTTAATAAAAAAACTAAACATGATTTTAGTGGTGAAGATACTAGAGAAGGGATTTGCTGTGTATTATCTGTTAAAGTCCCTGATCCTAAATTTTCTTCTCAAACAAAAGATAAGCTAGTAAGTTCTGAAGTACGACCTGTTGTAGAGAATGCCGTTTATACAAAGGTTCTTGAGTGGTTTGAAGAACATCCTACTGAAGCTAAGGCAATTATAGCTAAGATTATGGAAGCTGCCAATGCTCGTGAAGCTGCTAGAAAAGCAAGAGAACTTACTCGAAGAAAATCAGCTTTAGAAGTTTCAAATTTACCAGGTAAACTTGCAGATTGCCATGCCAAAGATCCTGCTATTTCAGAATTGTTTATTGTTGAGGGGGACTCTGCGGGTGGTACTGCAAAGCAGGGAAGGGATAGCAAAATTCAGGCTATACTGCCTTTGCGTGGTAAAATTTTGAATGTTGAACGAGCAAGATTTGATAAAATGCTTGGTTCGGACCAAATTGGTACATTAATTACAGCTCTTGGGATTAGTGTTGAACGAGAATTTTCTTTAGAAAAGCTGAGATACCATAAAGTTATTATTATGACCGATGCTGATGTTGATGGTTCGCATATTAGAGCTTTGTTGCTCACATTTTTTTATCGTCATATGCCAGAGCTTATAAATAAAGGTTATCTATATATAGCACAGCCACCGCTTTATAAGGTAAAAAGTGGTGCATCTGAGCTTTATTTAAAGAATGAAAAAGCTTTGCAAAATTATTTAATAAAATCAACTATTAATGATACATACTTAATTCTAGACGGTCAAGAGCAGTTAGTAGGTGAGAATTTAGAAGATCTAATTAATAAAGTAGTTAAGTTTAACAATTTGCTTGATCATGTTAGTAAAAAATTTAATCGCTCAATTACTGAAATTCTTGCAATTAATGACTTATTTAATAAAAAAATATTTGAACCTGAAAGTAGTGCAAGGCTTCAAAAAGCTTTAGATATTTTAAATAATTTAGAGGAGTCACCAGATAAAACTAATTTGCAAGTGTTAAAACATGAGAATAAAATAGAATTTTTTCATTTTAGTAGAGGTTTAAAAGAAACTAAAATATTGTTAAAAGAGCAGTTAGAATTATTTGAATTTGTAGAAATATCACAGTTTGCTTTATCAATTTTTGATATATTTAGTAAGCGATTAAAGCTTATAGTAAAAAGTAAGGCATTTGATATTTTAACCCCAAGCCAGTTGTTAAATACTATTATAGAATGCGGTAAAAAAGGTATAACTATTCAGCGTTTTAAAGGTCTTGGAGAGATGAATTCCGATCAGCTGTGGGAAACTACTCTTGATCCTACAAAGCGAACGTTGCTTCAAGTAAGAGTTGCTGAAGTAGATGAAGCAGAGGGGATTTTTTCTACTTTAATGGGTGATGTTGTTGAGCCTCGTAGATTATTTATCCAAGCTAATGCTTTAAATGTTATGAATTTAGATGTATGATGTTAATACCTGTACTGAGATAAATAAAGTTATTTGGTATAATTATGTGGCTTAATCACGTAATGATAAAAGAGTACAATCAATCTGTACAGTAATAATTTATGCAAAAATTAATTATTCACGGTGGTAAGCCCCTTGAAGGTAGTATTAATATTAGCGGTGCTAAAAATGCAGTATTACCTATTATGGCTGCGTCTATTCTTACAAATAAACTACATATTACTAATGTTCCAAAATTAACAGATGTTAGTACTATGAAAGATTTGCTCCGAAATCATGGTGCATGTATTAGAATAATAGAACACACGGATGAATTCGAGCTTATAATTAATACCACAAATATAAATAAATTTACTGCAGATTATGAAATAGTACGTAAAATGAGAGCGTCAATTTGGGTTCTTGGTCCTTTGCTTACCAAATATGGTAAAGCAAAAGTATCACTTCCTGGTGGTTGTGCGATTGGAGCCAGACAAGTAGATTTACATATCGCTGTATTAAAATCTATGGGTGCTGAGATTGAAATAGAGGATGGATATATTAATGCTTCAAGTAAAGGACGTTTAAAAGGCACACATTTTATTTTTGATAAAGTTTCTGTTGGGGCTACTATTAATGCAATACTTGCAGCAGTTTTAGCAAAAGGGGAAACTGTGCTTTTTAATTGTGGCCGTGAACCAGAGATAGTAGATCTCTGTTATTGTCTTATAAAAATGGGTGCTGATATTTTAGGGGTTGGAAGTAGTACAATAACGATTAAAGGTAAAGATTGTTTAAATGAAACAAGTTATAAAGTACTTTCCGATCGTATTGAAGCAGGTACTTATATGTTTGCTGCAGCTATTACTAAAGGTGATGTAAAAATTTGTGGGATTGATTACAATATTATAGAAAATATAGCATTAAAACTTATTGAAACTGGTATAAAAGTTGTGCAGATCAATAATGGAGTTCAAGTAACTTATAAAGGAAAATTAAATTCAGTTGATTTAGAAACTAATCCCTATCCTGGTTTTGCTACTGATTTACAAGCTCAATTTATGAGTCTTATGTCGATTAGTAGTGGTGTTTCAATGATTACTGAGAATATTTTTGAAAATCGTTTTATGCATGTGCCTGAGTTATGTAGAATGGGTGCAGATATAGTAGTGCGAGGTAATAAGGCGGTAGTTCGAGGTGTAGAGATGTTAAAAGGAGCAGAAGTTATGGCGAGTGACCTTAGAGCTTCGGTATCGCTAATACTTGCTGGTCTTAGTACTAATAGTAAGACCGTATTACATCGAATATATCATTTAGATCGTGGCTTTCAAGATTTAGAAAAAAAATTAAGTAATTGCGGTGCTAATATAAAAAGGGTATAATAACCCAATATGCTATTATTGTTGGTTATAGCTGTTGTTTATAGCTTTGAATACAGGCTCCAGCTTAATTTAATAATGGATTTGTACTGTGAGTTGCTTGTAAGACACTGTAGTCAATTTATATTACAATGAAAAATTTTTAACGGAGAAAATTATGGCAAGAATTACAGCAGAAGATTGTAATAAAATTATACCTGATAGATTTCGACTTGTTGTACTAGCTACAAGATATGCGAAATTATTAAATTATAAAGTGGAAACTAATCAAATTAAAAAAGAAAAGCGTGATAAGCCTCCTGTTATCTCATTACGTAGAATTGCTGCAGGTAAAGTATCGGTGCCTCAGTTAGAACAAGATTTAATAAATAGTTTGCGTACCAGAATGATGATAGAGCCACTTATTAATCAAGATGAATCAGAAGATGTAGAAGAAAAATTTGAATATTTACCTGAAGTTTATATCGGAGAAGATTATTCTGATTTAGATGATCAAATCTTTATTAATGAGAATGGCGAAGATTATGAAACCGATAAGTAAATGCTGATTGGTGTCGGTACTGATATAGTACAAATTCCTAGAATTGAAAAAATATTAAATATATATCAAGAACTTTTTGCCAAGAAAATTCTCGCATTAAAAGAATTAAAACAGTTTACTTTATTGAATAAAACAAACCATGCTACTTTTTTAGCAAAGCGTTTTTCTGCTAAAGAGGCTGTTAGTAAAGCATTTGGAGTAGGTATAGGTCGAGGTATAAATTTTAAAGATATTACTATACTAAATGATAATTTAGGCAAACCTACAGTAGAAATAAGTTCGCACTATACAAATAAACTCGCCCCCTTTAATATTCACCTTTCTCTTTCTGATGATTATCCTATATGCATAGCGTTTGCCATAATTGAAAGTAATTGTTAAGTATACCTTTTAGGTAATCTTATAGTGCGTCGCATTATTTAAAAATCTATACGATATCATTCATACAAAGGCAAGAATCTATAAAAATTAGTTTTTTTATAGATTTTGCTAGATTTGTTGCTTTCGCAGTAATGTAATCGATACGCTGCTGCTCTTTTTAGCTAAGAAATATTAAATAAATTAAGATCCAGTTTTGCTGTTTGCTTTAGGTAACATAATTTTTAAATCAGCTTTAGCTTCTAAATCAGAAATATATTGCTTTAATATTTCTGCAGCTAATATATTATCAATAGTTACTTTTGCTTCTTCTTTTGTTGGAATAGGCACAGGTTTTTTTTCAAGCACTTTTATAATATGCCAACCGAAACTTGTTTTGACTGGAGTTGAAACTTCATTTACTTTTAATGCAAAAGCTTTCTGTTCAAATTCTGGTACTAACTGCCCTGGTTGATTTAGTATAATATAACCTATAATCCCACCATTTGACGCTGTAGCTTTATCAAGAGAGAATTCTTCTGCAAGCTTAGTAAAATTCCCCCCTTTGCTTAATTTGGTCTTTACAGTATTAGCTTCTTTTTGAGATTTAACTAAAATATGAGCAACCTTTATTTGTTCTTTACCTTTAAGGTTATCAACATATTTATTATATTCGTCATCAAACATCTTATCTGTAATGTTAGATTTTATATAATTTGCTAGTAATTCTTGCTGCGCTAATTGATTTTTTGCATTTTCAAGTTTTTCTTGAAACTCTTTAGATGAAGTAATACTTGATTTAGCAACTTCTTCTTTTAACAAAAGATTATTAACATAAATTTTTATTAGTTTTTCCTGATCTTGTAGTGGAAAATCATCGAAATTTTTAATTGTTTCGCCGGATTGAAGATTGAGTTGAGGCTTAAATTCTTGCATAATTTGCGATTCTTTTACTTCACCACCTTTATATGTAGCTACTACTTTATCTTCGTCACCAAAAGCAATACTGGAAAGCATGCTAACTGATAAAAATATAACAGATAATTTTTTCATTTATGACTCATCATTGTGTTAAACATAAGCTTAAATTTTATAAAAATAATATATCACCGTCAACAGCTATTTGAAATATTTTATTATTAACAATAATTTATAGTAAATAAAGCAAAAAATGTCTTTCAATAAAAAATTAAAATTATAATATTTGATTATTTTATAAAATATACCTATAGTAAAGTACTAATAATTACTAAAATACGAACATCATAAGGACTTTAATGCTTTCTATTTTAAAAAAACTCTTTGGGACTGCTAATGATCGTACTGTAAAAAAACTATTTTCTGAAATTACAAAAATTAACTCATTTGAGCCTGCAATAAAAATATTATCAGATGCGGCGTTGAAGAATAAAACCGTAGAGTTTAAAGAAAAACTTAAAAACGGAGCTACTTTAGATGATATCTTATATGAAGCGTTTGCGGTAGTGAGAGAAGCGGCTAGCAGAGTTTGCGGTATGCGACATTTTGATGTTCAGCTTATAGGCGGTATTATATTACATCGTGGCATGATTGCGGAAATGCGTACTGGTGAGGGTAAAACCTTAGTTGCAACGCTTCCTGCATATTTAAACGCTTTGACTGAAAAAGGTGTACATGTTGTAACTGTGAATGATTATTTAGCACTCCGTGATTCTGCTTCTATGGGTAAAATTTATAATTTTTTAGGATTATCGGTTGGATGTATTGTCGCAGGTATGACCGATGAAGCAAAACGGATTGCATATAATTCCGATATTACTCATGCAACAAATAATGAACTTGGTTTTGACTATTTAAGGGATAATATGAAGTATAGTATGCAAGAGCGCGTACTTCGACCTTTTAATTTTGCTATTATTGATGAAGTTGATTCGATTTTGATAGATGAAGCAAGAACCCCGATAGTTATCTCAGGTCCAGTTAATGATAATTCAGCATTATACGGTAAAATTGATAAAATTGTACGTTTACTTAATGTAAGTGATTTTGAAAAAGATGAAAAACTGAAAACTATTAACTTAACAGAAGCAGGTATTACTCATATAGAGTCGTTATTAATTAAAGATGGTATTATAAAACCTGATACTGGTTTATATGATTTTGAGAATTTAAATTTAGTACATTACGTTAATCAAGCATTAAGAGCTCATCATATGTTTACTATTGATGTTGATTATTTGGTGCGTGAAGGTAAAGTAATGATTATAGACGAATTTACTGGGCGTGTAATGGAAGGTCGTAGATATTCAGAAGGCTTGCACCAAGCATTAGAGGCAAAAGAAAATGTGAAAATTCAAAATGAGAATCAAACTTTGGCATCTATTACATTCCAAAATTACTTTCGTAATTATCCTAAATTAGCTGGCATGACTGGTACATCTATGACTGAAGCATCAGAATTAAAAGATATATATAATTTGGATGTGGTCGCGGTCCCAACACATAATAAAGTTACAAGGATTGACCTTGATGATGAAATTTACGGAAGTAAACAAGAAAAATATGATGCTATCTTAAAGCTGATTAAGGATTGTTACAATCGTGGTCAGCCTATACTTGTTGGTACTATAAGCATTGAAAAGTCAGAAGAACTTTCAAGTATTTTAAATAAAGAAAAAATACCTCATAAAGTATTAAATGCTAAATTTCATGAGCAAGAAGCTTTCATTATTGCTCAAGCAGGTAGGTTTAAAGCTGTAACGATTGCAACCAATATGGCAGGGCGAGGTACTGATATTATGCTTGGCGGTAATCCTGAAATGTTAATAGAACAGTTTAATAAAGATCATAATTATGTAGCTAAAACAGCTGAAATCAAAGCTCAAATTGCTGAGGAAAAGCAGAAGGTTATTGAAACAGGTGGCTTATTTGTGATAGGTACGGAAAGGCATGAAAGCCGCAGGATAGATAATCAGTTAAGAGGAAGATCAGGAAGACAAGGTGATCCTGGTAAAACACAATTTTTTTTATCACTTGATGATGATTTAATGCGTATTTTTGCATCAGATCGTATATCAGGAGTTCTTAGAACACTTGGCTTAAAAGATGGAGAAGCTATTCACCATCCAATGATTAGTCGCTCACTTGAAAAAGCTCAGCAAAAGGTGGAAGAATATAACTACGAGATGCGTAAAAATTTATTACGTTTTGATGATGTAATGAATGATCAACGTAAGATAATATATGAGCAACGTACTGAAATTATTAAATCTAAAGATAGTTATGGTTTCTTAACTAGTGCTACTGAGGAACTCGCTAAAAAAATAGTATTAACTTTTATTCCAGTGGGCTCTTATAGAGAAGATTGGGATATAGAAAATTTAACTGTAGAATTACATCGTATCTTTTCTATAAAATTTGATCATAATTTAGTAAATAAAAATGATGTAACAGAAGAAGATATCACGAAGCTTGTTATACAAATGGCTCATGATATATATAAGTCAAAAGAAGAAGCATATAGTAGTGAGTTAATGCATAATGCGGTAAAATATATTTTACTAACTACTCTTGATCAAGTTTGGAAAGATCATTTATATAGCTTAGATCATTTAAGGCAAGGTATTTCACTTCGAGCTTATGCACAAAAAGATCCTCTGAGCGAGTATAAAAGAGAAGCATTTAATTTATTTGAGCAGATGCTTAATAATTTAAAAGAATTATTTATTCAAACTGTATATCACTTCCATATCGACTTAAAACATCTACAAAAAGAAGATATTTCGCTTGAACATAAAAAGCTTCAAAAAAATATGCGTGAGAGTCGGGAAGATCCAGCATTTAGTAAATATAATGCAGGAAATAGTATTGAAACTTATCTTAAACCGGTCGTCTCACGTGTTGATCCAAAAGATAGAAAACCTGATGATCCTATGAGTTGGGGTAGAGTATCACGCAATGAGCTGTGTCCGTGTGGTTCAGGTAAGAAATATAAATATTGTCATGGTGTAAATGAATAAATCAATCAAATAAACTTTACGTTAGTGTTTTCAAAAATCTAAGCTACGCTGAATTTTATAATGTAGTAGATTGAGATATTGAAGAGTAAAAGCGCTATTATTATCTTGTATGGTACATTTGTTCAAGGTAATTTATTGCCTGATTTATATTAGTATAATACGGTATGCCTGATTTACACTTAAATAAGCATCCTTTTATTTACAGTAGTAATTATATTACCATGAAGATAGTAAATGATAACTTATCCTATTGTTTTATATATACAATTTATTAAAACAATTTAGTTTTTCGGCAATAGTGTTTTTGATATAGTGTGTGTGGCGTATCTATTACTGAATTGTCCACGACATTTTAATATCATGCATTTAAAATTGCTATATGGTTATTGCAGAAAAAAGGAAATGTTCATATGTGTTAGTATAATCAATGATCATGATACTCTTTGCAATTTAGATGCATGTCACATAACTTATATAAAATATCAGAATATCAAATATTAATAAGGCGTCATAATAGTATAGCTAGGATTACATTATAACATTATATATGAATCAGTAAGTGCTTGGATATAACAAAATTATGACTTAAGATATTGTAGTTGGTTATAGAAAGTTCTGAAAATCAATTTTGCCATTTCTAAAAATTTTATATGTGCTTCGCAATATATAAAATTGGTGTTGTACTAATAACAACGCACAATTAGACTTTAGAGAAGTAGAGGTTAGTATATATGATAATAACACAAGTAAAATTTGAAATAGCATTAGCTGCTGAGAGTGAAATAATAACGCAAGAATAATAATATTCTGTAGATACTAAAAGGTAGTGATTGACAAGTTTAGTGAAAAGTCTTATATTATTAACAAGTCTAACAAAGTGAATAGTATATGTCTAAAGCTAAAGCAAAAACAGCTTCTAAAAATAATCCGACTTCTAGGGAGCAGGCTAAGGAGTATTTGCATAACGGTCAGAAAATTAAACCGGTAAAGCTTATTTCTGCTCAAAATTCTTTTATGGCTGCTGAGTATGAATCTTCAGGAGATTTAGTGGTAGGCAGTAATAATCAGCCATTACCTTGGGGATTAGTGAAAAACTTATCTTAATTTTCTTACATAGAGTATCTTCTACACAATTGGGGGCATAGCTCAGGGGTAGAGCATCTGCTTTGCACGCAGAGTGTCAAGGGTTCGATTCCCTTTGCCTCCACCATTTTCATTTCTATTCCAATTGATAAATAGTAAATACTTGTAAACTAGAGCTTCTTACTGTTTATATAAGTAACGTCTAGTATTTTTTTGATACAACCTTATGAATACTTCTAATTAACTTCTAACTGTAAAACTACTTATTATTCTATTGTAAGTTTGGAGAAAGCTTATCTAATTAGTAATGAGATAAAATATATTAAATGAAATTAAATATATTAATATTACACTTAAACATTTATAAATGATATAGTGCACTTTATTAATAATAAAGAATATAGCATTTTAAAAGCCGTGAATAGTAAATTAGTTACTAACAAATGACACTAGTTTTTTTACAGGGTATAACAAATCAAAATCACTATAAAAATACTATTCATATTTCTTTTTATCTCTATTATCATTAAGCAGAAAATAATTTTTTATGTGGAAATGCATGATTATTAATTTGAATAATGAAATTATATTGTAATTTATTTTAGCTAAAGATCACACTAATCAGTGATTGTACTTAATAAATATAGAATTATTGCATAATTCTATATTATATAATTTTATAGGGTATTAATATTTATATTCCTATCGTCGAATAATAATGTGTCCAAGCATTTTTTGTAGAAATTGGATCTGTTGTTTTAATGACTTCTGATCTAAATTACCAAGTTCATTAAAAATGAAATGATAATTTGATCTATTATATTTTTTACAAATTATTATAAGGTATTGTTTGTATTACCTATATTTGGTGAAATTTGTGTCTCTGTGTTCATCTGTGTTATATTATAATAGTTCTATTAGCTTTTATACATAAACTGACAGACTTTAATACAATTTTTCAAGATTTTTATATACTATTTAGTGTAGTCCCAAATACTTTTTCAATTTGTTATTTCTATACAACATAGTAGTAATTTTCTCTATTTTATCCTTGTCTATTATTCCGTTATGTTTTGTCTTCTGTTGCTGTATTATCAATATTCTGGTATTTTAGTATCCTGCATTCACTAAATAATTAAGTGCTGTTTTTAACGTATTTAATTATTACCTATAAATTGTAAATATAATATTAAACTAGAGAGTATACTATAGTAAGAAATGAGCTGAAAGTACACTTTGCTTGTGTGCTTCTTGGTTCAATGCGTGTAATGCGTTATAAAGAAAGGTGTGATTTTGCTAAAAAGATCAGAGCAAAATATAATTAATTTAACTGTAATACCACTATATGTTTTTAGGAAACGCATTTCAAAAAATAGTTTGGTCACTATTAATTAACATGATTTACTAAATAATTAAAATCATTCTAAAACTTTTGGTATAATTATATATTATAGAGGTATTTTAGATTATAACTAACATGCATCAGTTAGTAATAATTGCTTCTTATGATCGCAATGGCAAATTTAGGTGATATTTCTATATTATATTTTCAAAAATAGTTTATTGAAAAGAAAATTTATCACAAATTAGAGATATTTTACTTAGAATGTAGATATTTTTTGGAGTGTATAATGCTATTCTTTAATACTAATGATGGAGATAATTTGTTTTATTGTATCGATTATTAAAGGTGTTGTAATTTAGCGTACGAAGATTTAAGTTATGTTTTCAACCTAAAATTGATGAATAGTATTTTTTAGAAAGTATAAGAATATACATAAATCATTGGAATGAATTTAGTAGAATCGTCAGCTTTCCATATAATCATAATTATTTAATATAATGTTTAGTCTAATGTTAATCGCTATATTCTTTAAATGTATATTTTATTCTAATAATAATTAGATACCATTTCTGAAGGATAAATATTTTATGCATATTGGATACTACTGTAGTAAGTAAGGTTATTATATAAAGAAAACCCTAAGAAATGGAGGGCATTATGCAATAGGAAAATTTTCTAAAGAAGAATATTTTACAAAAAAGATAACTTATGATAATATCGTATTTTAATTTATCACAGGTGCTTTTATGTTAAAAACTGTATTAGTTAGTTTTATTAATTTAATTTGTGCGTTAAGCTATGCTGATCAAACGACTCAAAATCCTAATCTTACCAGTGTTGCTTCTAATGTTGATGTTGCTTCTACCGATGATCTATTACCTGCCGAAGCAGCAGTGCACTTTGTTCAGCCTTGGGCCAGACCTACAATAAATGTTCAAGGTAAAGTTAGCAACTCTGCTATGTATTTTACATTAATAAATACTAGAAATAAAAGTTATCAGTTAGTAAATATATCTTCAGATAAGATAGGTGGGATAGAAATCCATCAAACAATTAATGATCAAGGGGTTAATAAAATGGTAAAAGTAGATTATCCATTTTTAATCTCTGGTAATATTAATGTTGATTTTAAGCCTGGTAGCAGGCATATCATGCTTTATGACCCAAAAGTAGATTTAAATGCAGGCGATGAGTTCCAAATAACCTTTTTCTTTGATGACAATACACAAAAAATAGTGAATGTCAAAGTAGCAAATGATAATCCTTATAATAAAATAGGGAATTAGTTAAAGTTTTATTGTGATGTATTGTACATTGTTTTAATCTTCCCCACCATCTTTATGGTATTCCGCCCAAGCTGACAATTGTCCTTTGCAATGATAGATAAATAAAAGATGAGTTTAGAAATTAGCGGAAGTAAGTTAATTAAAGCGCAAATTATAGATGCTCCTGAATGTTCAGGAGTTTATAAAATGCTAGATGTTAATAAGCAGGTTATTTATATCGGTAAAGCTAAAATTTTAAAAAAACGTCTTACTAATTATATTAAAAGCGATTTAGATAATAAGACTCTACGGATGATTTCAAATACTTATTTTTTAGAGTACATTATCACTAATTCTGAAGTTGAGGCATTACTATTAGAAGCTCAGCTCATTAAGAAATTTCAGCCGAAATTTAATATTCTCCTTAAAGATGATAAATCTTTCCCTTTCATTAAGTTAAGTTTAGATCATGATTTCCCACAATTAATAAAATATCGAGGTAAAGCTCTAAGTGACGGAAAGTTTTTTGGTCCTTTTGCATCAAATACACAAGTTAATACTACTTTAACGGAATTGCAAAAAATTTTTAAATTACGTTCCTGTACAGATAATTATTTTAATTCTCGTACTCGTCCTTGCTTGCAATATGAAATAAAACGTTGTTATGCTCCTTGTGTCGGTAAAATAAATAAGGAAGATTATAGAGAACTAGTAATGCAGGTAAAGGATTTTCTACAATGCCGTACTATAGCACTACAAGCAAATCTATCTAAAAAGATGCAAGAGTTAAGTAGTCAGATGCGTTTTGAAGAGGCAGCAGAAATCAGAGATCGTATTAAGGCGCTTAGTTATGTTCAGCTTAAGTCTGGAATTTTAGATGTTGTTAGAGATGCAGATATAATCGCTATTGTGCATAAGAATTTGCATTATTGTATTGAGGTATCTTTATATAGGGCTGGGCAACCATATGGTGCTATTCCTTATTTTTTTTCTTCTACTGAAAATAGTACCCACGAAGAAGTATTAGAATATTTTTTATTACAATTTTATCAAAAACAACAAGTACCTTCAGAAATTATTATGAATCATGAAATTAATTCTAAAGAGAATATGATAGAAGCTATTAAAAAAATCAATAATATATCTGATCTTAGTATTACAGTACCTCATAAAGGTGGTAAAGCTAAATTAGTCCAAAAGGCCGAGGTCAATGCTTTGTTATCTCTAGAACAGTATTTAAAGAAAAGTATTAAGAATACAGATATTATGTTTGCACTTAAAAAGCTATTTGATCTTCCTGAAATTCCGGAAAGAATTGAGATTTATGATAATAGTCATCTTCAAGGTATGTTTGCAGTGGGAGTGATGGTAGTTGCTGGTCAAATCGGTTTTGATAAAAAAGAATATAGGGTTTTCTCATTATCATCCCGTAGTTTGACAATAGGTTCAGAGATTGAACTGCGAGATGACAGAAAAGGTGATGATTATGGGATGCTGCGGCAAGTTTTAACACGACGATTCACTAGACTTAAAAATGAGCCGCATAAATTGCCAAGCTTAATGATTATAGATGGTGGTAAAGGACATTTAACTATTGTTAAAGAGGTAATGGATAAATTTGAAATAAATATCCCTTTTGTGTGCATGTCGAAAGGCAGAGATAGAAATGCTGGTCTTGAACAATTACATATGCAAGGTAAAGAAGTCTTGACTTTAGATAAAAATTTGCCAATTATGAAATATTTACAAATCCTACGAGATGAAGCCCATAATTTTGCCATAAAGAATCATAGACTAGGTAGATCACGTGCTATAAAAATATCAAGCCTTGATGAGATAGATGGTATAGGTGAAACTCGTAAAACAGCATTGCTACATTATTTTGGTTCATATAAAGCAGTCTGTAATGCAACCATAGATGAGCTTACTAAAGTAAAAGGCATTAGTAAATCACTTGCTAGTATGATTTTTAATATTTTAAATCGCAAAATCTCACTTGATAATTCATGAGAAATGGCATTGGAATCATTAAAGATTGCTTAACTGAAATAGACACATACATATCTTAAGATTTAGCGATAAAAAAATACTAATAATTCAAGTATTTTAAACTTGATTAAGTTTGTAGAATAATATTAGTTGTGAATAGATTTCTGTTATTACAAGAATGATATAAATGAGCAATGCAACAAGAAACAAGAATGTGCTCATAATTAGTTTTGTGATCTCAGCAAATAAATTTTCTTACGGATCATTACTTGAGTAATTTTCTAGAAATAATTATTTGTCCTAAAATAAATATCACAAGACTCATGATGGTGCCTACAAACACTCCTCTAAGGTTGAAATATTGCAATGAGAAAGAATAATATTCCCACGTTAAAAAAGTTGTGGCTCCACTAAATGATGATAAGACAATTATAATTTTAGATGTTCTGATATCAAAAAGTGTTGTTATTAACGGTACTAATATTACAGGGCCCCAGAAACCTGTAAAGAACATTACTAAATCGATTACATTACTAAATTTTAAAGCAACAATTATAGCAAAACTTCCGATTATAACATTAATAATGCGGACAATTAATAATAATTTTTTCTGATTTTTAACTTTTACAATAGGATTTATTATATCTTTAACAATAGATATAGAAGTAACATTTAAATCAGAATCTGCAGTAGACATAACTGCAGCTAGTAGTCCACTTATAACAAATCCTTGCATTACAGGTGGGATGATTTGGTTGATTAAATATGGTAATACTAAATTTGATGGTTGATTTGGGTAAAGCTTAAATGCAATTAAGCCGTTTAAAGTAATGCAAATCAAGAAGAAAAAATATATAGCAGATTTTACATATATTGCTTTAGTAGTATGTGTAGGATTTTTATTAATTAACGCTCTTTGTATAAATGTAGGATATAGATTCATCACGCTAAAGTTTAAAGCTGCTGTGATAGTGTAATATAGTCGATTATTTTGATCAAAATTTGTGTTTGTAAAATTATCTATAAAATATACAACACCGATTTTATTTAAACTTATAAAAGTTATAGTAGGTATAGCTATTATCATTGCAAAAAATTGTAATAAATTAGTAAAAATAATTGATTGTAAACCACCTATTGTAGTATATATAAGTACTATACTATAGCTTAAAACCACCCCATTTACATAATGTATTCCTAAAATATATTTGAAAATATAGCCGCTTACGCTTATCTGAGCGGCTAAAAAACCTACTGAAACGATAACCGTGCTAATACCACCGATAAAACGACCTGTATTACCATAATATCTACTCATTATGTCACCAATACTTTCGGCCCCGTAATGTTTTGCAATTAAAGGCACCATATAGAATGCAATTAATATATCTATAGGTATTGTAACTATTAGGGCGTAAGCATAATATCCATGTCCTAAAAATACTTTTTCCATAATGCCGAAGGTGGTAGCCCCTCCGACAGAACTTGTAAATATAGTAGCTATTAGTAATAGTTTATTATGTTGTGATTTGCGCTCAACATTTGCATAGTGCTTAAAACTACTATGTTTAGCTCGGTAATATATACCAATAACTAGAATAGATATTAGATATATGAATACAATTATATTATAAATAGGTAAATTAAACATAAATTAGATTTTAAAGATAAAACTTAGAATTTGTTCATAATATATTTTTAGTAATTATTATGTGTAATAATATGTTCTAGTAGTTTTAGATCATATTAAATATTTTATTTTTTAGTAGTTTTTTCTTTAATGAATAGTTAGTGTGTGATTAAGGGATAGTTTTAAAATACCTATTTTAGATTGCAACATATATTACATTTATTGAAAACGTAATTATTAATATTAATCAATAATTATTTCAAATAAAACAAAATTAATAAATAAATTTTCTAAAAATTAAGTAATATTCATGTATCTATTATTGCTTATGATAAATAGTCTATCATAGGTGTATTTGTGATATTACGGCAATGTAACTTATTATTTTTATCTTCTAGATTTCATAAATTTTCGCTATTTTTCAAAGTGCTATAATTATTTAACCACTGCAATAAAAATATGTATATTTTGAATTTGAGAACATTACTTTAAAAATCCATACAATTATCTTATCACTTATCAAAAAACATAACGATTTTATCTTTCAATTTCATAGTTTAGGCATTTGTTTTTGAGGATTATATCCTACAAGGTTAACAATAGATTTATCTAATTTATCAATGATTTTGGTACTATGAATTTTATTAAGTATTGGAATTCTTAACTGATTTACTTGATTTGTTTCATTTAATTTAATCATTTATTAAGATTTGAGTCTTTCGTATGACTAAAAGTAGTACAAAGGATTTTTGTATGAGATCGTTTTGTAATTGTAATGCAATTTTCTCGAAATGACTGAAAACATTAATAATGCAAGTACTTAATGATAATAAAGACACAAGTTAATAATTGAAGTCTTAGCTGTTAAAAACGCTTGACTACGTTATAGTCCTATCATATCCTATAAATTACCATTAAATCCCAAGGTAACCCGAATTATACCAATGAATGTATTTCTATCTAAGTATATCAATGGTGTTGATAAAAAGAGTAGGGTAACAGTGCCGGCAAATTACCGTGCAGTACTAGGGAAAGAATTATTTAACGGTGTTATTGCTTATCCGTCAATTAGGAATAATTGTATAGAAGTGTGTGGTATCGCGCATATTGAGAAATTAAGGAAGATGATTGAGACGCTTGATCCGTATTCTGAGGAACGTGATGCTTTCGAGACTATGATATTTGGGGAAGCTGTACAGCTTGCCTTCGATGGTGATGGAAGAATTATATTGCCACAGTCTTTAATGAAACATGCAGGTATAGAAGAGCAAGCATGTTTTGTAGGTAAGGGGATAATTTTTGAGATTTGGCAACCTAAGAATTTTGAAAAATATTTAAGTTACGCTCAAAATATCGCTCATGAAAAGCGTTTAACTCTAAGAAATGCGCATTAATGTCACAGTACCACATACCTGTAATGTTAAGTGAAGTATTAGCGGTTTTAGCGCCCAAAGGCTATGAATCTTATTTAGATTGCACGTTCGGTGCAGGAGGATATAGTAACGCAATATTGAATAGTTGTTACTGTTCTGTCACGTCTCTGGATCGTGATCCAAACGTAATTGAAAGCGTTGAAAAAATTAAGCAAGATTACGGTGAGAGATTTAATTTTATAAAAACAAATTTTGCTGATAGCTTTAGAAAACTTAAGCACAAAAAATTTGATGGGATAGTGATGGATTTAGGTGTGTCATCAATGCAGTTAGATATCGCAGATAGAGGATTTTCTTTTTTGTATGATGGACCATTAGATATGCGTATGAGTGTGCAAGGGTTTAGTGCTGAGGAATTTGTAAATACTGCAGATGAAGAAGAGATTGCAGATGTAATTTATAAATATGGTAATGAGAGTTTGTCACGAAGAATAGCTAAGAGTATTGTCGAATATAGAAAAACTGCAAGAATTGATAGTACTCGCAAGCTAGCTGAAATTGTAAGGTATAGTATAGGATTTAGAAAAGGAAAAATTGATTCTGCAACTAAAACTTTTCAAGCTATTAGGATTTATATAAACAATGAGCTTGGGGAATTAGAGCAGTTTTTGGCGAATGTAAAAAATATCTTAAAGAAAGATGGACGTTTAGTTGTGGTATCTTTTCACTCTTTAGAAGACAGAATAGTTAAGAATTTTTTTAAAGAAAATTCAGAAAAGCAGGTAGCAAGATCTAAATATGCTAAAGATGAAATAAAAATTGATCCAAATAAATGGCTTAAGATTATTACGCCCAAAGTTCTAACACCGTCAAGTCAAGAGATAAGGCTTAATGTTAGAGCTAGATCAGCAAAACTTCGAGCCGCAAAAAAGATAATATAAGTCATGGTTGAATTTACTATTTTTCTTATCATTAATAAGAAAATTATGAGGTAATTAAGACATTATCGAAAAATTTATTATTACTGCATGAGATCGCTTCGTAGCGCCGTTTCATAGCAATGACGTGCTGGGTATCTAGTAGTCAGGTAACACTTTGATTGAATGATATCACATGTTCTAAAAAATTGTCTAAGAAGTATTATATGTAATTTAGTTATGACTATATGACTATAAGAAAGTTTCACTATTTAATATTATTTATAACAATTATAGCAATATGTAGTTTATTCCGGATAAAGGATCGAGTCTCAACTCTGAATTATCAATTAAGGAGTGTGATAAAACAGATCAATAGTGAGAATAACAATATTAATATTTTGAAAGCAGAGCAAGCTTATCTACTTTTGCCAACTAGGTTGGAAAAACTCGCTGCAGCTTATTTAAAATTAGAAATAGTGAAATCATATCAAATGATAAATGATCCGTTAGCACCAAATATCGAACAAAATATTAAATTTAATCATAATATTAGTATTTCAAAGAGTAATAAATGGCGTTACAAAAGAATTATGAATAATAAGTATATACAGACTGTTTCAAGTAGAGTTAAATAATTGTCATAAGCTAGTTAGCAATAATTCTATATTGTCGTCTCAGGAATTTTTTATAAGATTGTTGATTCAAAACTTATAGTTTGCACTTACAATGACATGACTGCTACTTAAGACACTATAAATAAAATGAAGCAAATTTTAGAAAAATGGAAGCCTGCAATTAAAAGTCTAATCATTTGGAATATTTGTAGTAAAAATACAAAAATTCGATTATTAATGGTTATTTGTGGTTTTTCTTTTCTTTTTGCTACTGTATCTTATAAATTGATAATTGTTGCTACAAATGTTTATGATCAAAATATTAATTCCTTCAAAAAAAAACATCAATTTAGAAAAGAAATAGTTGATAGAAATGGTAATTTATTAGCCATGAATCTACCATCTGCCTCATTATTTGCTAATCCACAAATAGTACTTGATCCTGAAACTTCTGTAAACAAGCTTGCAGAAATTTTACCTGATATTAATAAAGCTAAATTAATTAAAGAACTTAAGTCAAATAAAAGCTTTATATGGGTCAAAAGAGATTTATTACCTAGTCAACAAGAAAAGATAATGAGCCTTGGGTTACTTGGTTTTGAATTTGAAGAAGAGCAGAAACGAATTTATATCTTTTCAAATTTATTGTCACATATTATTGGTTATGTAGGTAGAGATTCAGTAGGATTGAGTGGCTTAGAACTTGCATATGATAAATATTTAACTAATACTGATTATGAATTAAATGATCCAAAGGATCAGAAAGCACCACTTCAATTATCTATTGATATCAGATTACAAAGTATTTTAAATGAGGAGATTGATAAAACTTTAAAGAAATTTAAGGCAATAGGAGCAGTAGGAATTATTGCGGATCCTAATAACGGTGAGATTTTGGCATTAGTAAATAAGCCTGATTTTGATCCTCATTATCCAAGTTTAGCAAAACCGGAGGAGCTGTTTAATACAGCAAGTCTTGGCATTTATGAAATGGGTTCTGTGTTTAAAGCATTAACTATGGCTGTTGGTTTTGATACCGGTGTAATCAAGATGAATGATGCTTATGATATAAGCTATATGAAAGTAGGCGGATTCCAGCTTAAGGATTATACTCCACGGCAAGGATGGCATAGTGTACCTGAGATTTTTTTATATTCTTCAAATATTGGTACAAGTCAAATCATGCTTGAAATCGGTAAAAATGATTTTAAACAATACCTAAAGAAATTAGGGTTATTAGATCAATTACAAATAGAATTGCCTGAACGAGGTACACCATTATTTCCTTCAGAAAAAAGATGGAATGAACTAACTAGTGTTACTATGTCGTACGGCTATGGTATTTCAATTAGCCCTTTGCATTTTGTTAAAGCAATTTTACCAGTTGTTAATGGTGGTACTTTATATGATCTTACTTTATTAAAAAGAAAGACTAAAAAAGTAATCGGTACAAAAGTTTTTAGTGAAAATACCTCTACCCAAATGAATAAATTGTTTAGGTCAGTAGTGAAAGAAGGTAACGGTAAACGAGCAGAGATTAAAGGATATCTTATCGGCGGTAAGACCGGTACGGCAGAAAAACTTTCCCAAGGTATAGGAGGAAAAAAGAAATATCTTAAAAATAGTAGAGCTTCATCATTTTTAGGTATACTGCCTTCATCTAAGCCGCAATATGTTCTTTTTATTCGATTTGATGAGCCAAAACCAATTAAAGAAAGCTTTGGCTTTGCAACGGCAAGCTGGACTGCTGTACCTACTGCTGGTAGAGTTTTTGAACGTATGATATCTTTATATGGTTTAGAACCGATAGAACAAAATGAGGAAGAGAGTTGATATACTCATTTAATTTAAAACATTTGTATTATAGCTCGTTTATATTCTTGCTTTAGCAGTATATTTATATCGCATTTTATGTTGGATTCCGAATTGTATAGGAATGACATTGAGTAAGAAAAATATAATAAATAAACCTAATATTTACAGCTTAAGTCTTTTTGTTATACTAAAGAAATAATTTGAAAAACTGTTTAGCTCTACAAATTCCAAAGAACAAGAAGCATTAGTGCTGATGATGATACAAGAATAAAATTGTACAAAAAGAAAATTATTAATTTATATTTTGTAATGTAATGGATACTAGAGCAATTATTCCGAGAGGTGAAACTTTGCTAAAAAAATGTCTTGATATTGCTTAGTTCATTAGCAAGTAATTTTCACGTAAAGAAGGAAACACCTGAGCAATAAAACAATTTAAAAAACTACATTATTTATGTTAAAGATAAAACAGGAAATATATAAAAATAGCTTACAAGTAATATTAAAGTTTTTCTTTGCTTTGCTATGTTTTTGTATAATATTATTTCCATTATTGAGTTATAAAATAAATATCCAAAGTAGAATTTTTCCAGCAATGGAAATTATATTTATTTATTATTTTATGTCGTTATATTCCTTAAATATTTTTAGCATATTTTTTTTAGGGTTATTGATAGATCAAATCAGTGGCATGCCTATTGGTACAGATTCTTTAGTTTTTGTATCAGCAAATATAATTTATAAATTATCTTCAAAATATTTTTTAGCTAAAAATTATTTAATAAATTTTGTTGTTTTTTGTTTTTATTGTTTATTTATATTGAATTTTAAATATTTATTAGTAACAATCAAGAATCTAGAAGTAGAAGGGTATTTAATAATTTTTTTTCAATCTTTAACAACTATATTTTCTTATAATATAATTCGTCTTATACTTGACTCTCCTATGGATTATTTTAAAAAGTATGCTAAATAAAAAAATACTACATGGTGAGTTGATTTCACGAAGAGCCTTTATCATTGGATTAGGTAAACTTTGGTTTTTATCACTGCTTGGTATAAGAATGTTTTATTTACAGCTTATTAAAAGTGAAGAATATAGGACTTTATCAGATAAAAATCGTATTAATTTTGTTGTACTTCCGCCGATTAGAGGAAAAATTTATGATTTAGATGGTAATATCTTAGCTACTAATAAACCATGTTATCAGTTAGTAATAGATAAGAGTATTAATAATAATTATAGAGATGAATTGGAAATAATTAGTAACATTTTAAATTTCTCTCCAGATAAATATAATTATATTAAGCAAAAAATAAAAAAATCTAGTCGTCACACAATTTTAACAATACTTGATCATCTTGATTGGAAACAAGTTTCGGTGATTGAAGAGCAAAAGCATAAACTAGCTGCGATATTTATTGATGTAGGGTATTTAAGATTTTATCCTTTTTCAAGCACTACTTCTCATTTAATAGGTTATCTTGGTCAGATCAATGAGCAAGATAAGCAACAGTTAAATATACGTAGTTTAAGTGATTTTAATATAGGTAAATCCGGTATTGAAAAATATTATGATAATAAATTACGAGGAGAATTTGGTTATAAAAAAGTTGAAGTTAACGCTTATGGTAAGCAGGTAAGGACAATATCAGAGACACCTACTCAATCAGGTGAGGATATGCATTTAAATATTGATGCTTCTCTTCAGCAACATATCCAGCAATACTTAAATCCTAAAGGTTCTTCTGCAATAGTTATGGATATTAGAACTGGAAATGTGCTAATTTGTGCTTCTACCCCGGGTTTTGAATCCAATAATTTCAGTAAATTATCAGAAAATTATTGGCAAAGTTTAATGAGTGATCCTTATAAGCCGTTAGTTAATAAGGTAATACAAAATTCTTATCCTCCTGGTTCAGTGTTTAAAATAATTACCGTACTTGCAGCACTTGAAGTAGGGATTAATCCTAATAAAACAGTTTTTTGTGATGGTAGTTCTATTCTTGGTACTAATAGTTTCCGATGTTGGAATCATCGAGGGCACGGTACGCTAGATATGATGTCTGCTTTAAAGTATTCCTGTAATATTTATATGTATGAACTTGCTAAAATAGTAGGACCGGATAAAATTCTTGAAGTTGCAAGAGAATTTGGCTTTGGTTCAAAAACTGGTATTGATGTATCACCTGAAAGTAGTGGTTTTATACCTTCAAAAGAATGGAAAAAGAAAAAATTCAAACTCCCTTGGTCAATAGGTGATAGTTTTAATTTAGCAATTGGGCAAGGGTTTTTAGGAGTAACGCCAATTCAGTTGGCAAGATTTATTACGGCTATTGCAAGTAATGGCAAGCTATATACGCCTAGAATATTAAAAAATGATCCAGAGTTTTATAATGTGAATATTAAGACTGAAAATATCAAAATAATACAAGAAAGTTTGTATAATACTGTGAATGTTGCTGGAGGTACGGCGTATTATAATAGAATTTTTGCTAAAAATAGGAAGCTTGCTGGTAAAACAGGTACTGCTCAGGTGCAAAAAAAACTAAATGCTAAAGATGATTTAAACCGTGATTCTATTGCATGGGAAAGACGTAATCATGCTTTATTCTTAGGATTCGCTCCGTATCCAGATCCTCGTTATTCTGTTACCGTTTTTGTTGATCATGGAGGAGGCGGTAGTATTGCAGCTGCACCCATAGCTCGTAAAATAATGTCTGATGTTCTTGATAAGTATATGCAATAAAAATAGTGTCGTTATTTTTTGACTTTTAATTATCATAGAATTTAGTGATGTTGATGTACGTGCTGCTTAGTTATGTATTCTGCAGTTAAATAAAAGTTTTAAAACACTTTACTTTTTAAAGTTGAGATTTATATGTCTATTATGTATCTTGATTTAATTATATTTTAGCTCATATTTAAAAATACTTTATTTCAGTTAGTGTTTATGTTATTAATAATTGAGAATCATGACAGAGGTATATATGTCTACAAACGAGCAAGATGATCAAATAATCAAAGAGTTAGAAGAAAGACTAGCTACACTTAAAGGTACTCCTCCATCAATTGAAGAATTAGAAGAAAGGTTGGCGAAGATTCAAGATACACCTTATATATACAAAAAAAAATCTAGTAATGAAGTAGACAATTTAATTGAGCAGATGCAATCTGAGCTTAAACTAGAACAAAAAAGTAAAAGCCTCAATGATCAAAAAGACCAGGTAATACGTGATAGGTTAGATAAATTAAGAGGGAATAGTCCTGTAAAAGAAACATTTATAGATTTTTCTTTTAATGACACTAAATCAATAATTACTGATACTATATCTGCTCAAGCAGATGTAGTTAGTGCATATGCTAATCGTGCTACCGAGTTAGAGGATAAAAAAGCATTACTTCATTTATCTAATAATCTAATTGAAGCTAGAGATATTATTATGGATACACCATCTATATCTAAAGAATATGATACGAAAATATTTGATGTGATCGCTAGTGGACTCGCTATAATTTATGAAGGAATAAAGAAAATAGCTACACCTGCAGTTAATATTATAAAAGAAATAGGTAATATTTTTATTAATTCGATTAAATCGCTTTCTCAAAAATCTTCCGAAAAACAAATAGAAGAATCGAAAAAAGAATTAAAGAAGTTATATAAATCATATACTGATTTAAAAGGAGTAGATGAAAAAGTAAAAAAAGAATTTCTTAAAAAACATTATCAGCAAATTGATAAGCTGCAAACTCCTAAAGAAATATTTTTAGAAACTGCAAAAATTACTAAATCTATAAGTATAGTAGGAAAACAAAAGATAAATAATCTTAAACAACAACAAATTATGAATAGAATGCAGAATGAAAGTCCTTCGAGTCTTCTAAATAAGAATTCATTTACACCGTTTCATACTCCTACTAATAAAGTAAAATCTTCAAAGAGCAACCAAAGGTAAATTTTGTGTCATGCTTGAATAAGTGTAACGTTATTGTGTGTATATTGACTACGTGGTCTAATAAATGTAGTACTAATTAACTAAATTCCATTTATTAAGATATGTGATATTGATGCTGTGGCAACAAAACCATAAAACGTAAAACGTGATTATAGATTATTCTAATCCTTTTATACCGTGTGTATTAGCATTATCAAATGCAGTATTTTTAATTGTTGCTTCAGTAAAATCAGTATTTGTTAAGTCGGAATTACTAAAACATGTCTGATCAATTTGAGCAAACTTAAATATACTACCTGTTAATATCGATTTTGAGAAATCTGTTTTAGTAAGTATTGCTGCAGAAAAATTAGCATCTTTTAAAATAGAATTTTTTATTACTGTATTTGTTAAATTAGCTTTTTTAAAGATGCTTTTTGAAAAATCTACTCCATTAAACACTAAATTACTTAAGTTAAAATTTGTTAAATTCATATTTGCTAAATTAGATATGTTTTGTAAATCTTTTTCAGAATTGATTACTATATTATTTGGTGGAATTTGATTCGAATTATCATTTATAACAATATTATTAGAAACATTAGTATTGATAAAACTATAATATGCTTGGTAGTTAATATTATTTATTTGTGAATTAGAAAGGACTGAGTTAATAATATTAGTGTTTATTAGATTGGAATTTATTAGAGCTACTTGATTTAAATTGCCTAAAGTAATTTTCACGTCTGTAAAATTTACGTTTTGTATTAAAGATTGAGAAAAATTTACATTATTAAATTGTCCATTAGTGAAATTTGAGTTTATTATTTCACTGTTGTTTAAATCAGTATTAATGACTTTAAATTCTTTTAAATCATTATTGCTAAAAATAGCATTACTATAGTTAGTATTGAGTAAAGTAATATTAAACCCTTTGGATTTATTAATCCTTACAAAATTAGTATTACTATTTTTTATTGATAAATTATTAAATGTATTATCGTTGAGACTCATATTTGTTAATATAGCATTGTCGATTTTAAAATTATTGAAAACTGAACTATTAATTGTGCTGTTTTGTAAATCACATTTAGTAAGGTGAATATTGTGTAATGTTGAATCTTCAAAGGAAGTATATGAAAAAAAAGAGTTATTACTTTGTATATTATTGAAATTTACTGAATTAAAAATACTTTGTGTGAAGTTAGAATCTTTAATGATTACTGATGTGAATTTAGTGTTACTTAGGTCACTAGATTCAAAATAATTATTAGTAAAATTTGTATTATTTATTACACTTTTGCCTAAATCTGCACCATAAAATATTGAATTCATTACATTAGTATTTTTAAAGCTATTATTTTTTAGATGAGTTTTTTGAAAATTACTACTGTCAATATTACTGTGACACCATAATACATTACTAAATTTAGAATTTTCAAAATTGACATTGATTATAGTACTTTTATTAAAAGCAGTATCACTGAAATTTGATTGAACAAAATTTGTATTTTGTAATGTTATATTATTAAAAATTGAACCTTGAAAATCAGCATTATAGCCTGAAATATTTTTTATTACTGAATCCGCAAAATTACTTTCTTGAATTACCGAATTTGTAAGTATTGCTTTTTCTAAGTTGCTACCCATGAAGTCAGTCCGTAATATTTCGCATGAAGTGAAATCTATTCCCGATAAATCTTCATTTGTTAACTTTATTCCTATTAATTTTACTCCTTTTAAATTGGAACCAAACTTTTCTTTAAGGTTCACTTTAAGATTTTTAGAATTTTGCGATATTATATAATCTCGAATTATAGTACTTTGACTATCTGTAAGTAATCCATTTTCATCACGCGTAGATTCGGAGCAACTGCTTAATAAAAGAGAAATAATAATGATTGATATGATTTTAAGCATTTGCTTTCTCATATTCTTCTTCATTTATTCTATTTGTGGGCGGTATATGTAGGCTTAATAATTTTAGTTTTCGATGTAAAGCCGATCTTTCCATACCGACAAATGAAGAAGTTTTTGAAATATTATTATTAAAACGACTCATTTGTGCTGATAGATATTGACGTTCAAAAACTTCTCTAGCTTCTCTAAGCGGCATAGATAACATATCAAAGCTATCTTCAAGTTTAGTAAGATTAGCACTATTTGCTAATATTTCTGAAGGAATCATATAAGGTTTTATAATTTCATTATTACCTGTAGTTAACGGATTCATAATTAAAGTCCATTCAACAACGTTACGTAATTGTCTAATATTACCAGGCCATTCGTATGATTGAAGAGCTGCAATAGCTTCATCAGAAAAGTGACGTTCTTTTAAACCTGAAAATTTTGAAAGTTGCTTAACAAAATATTTAACTAATAGTGGTATATCTTCTTTTCTTTCATATAATGAAGGTACTTTTAAAGAAAAAACATTAAGGCGATAATATAGATCTTCTAGAAATTTTCCGTTATTAACTTCATCTTGGATATTTTTAGCAGTACTGGTAATAATTTTTATATCAACTTTAGTCTTTTTTCCGCAAGGTTTTGTAATAGTTTGATCTTTAAGGAATTTTAATAATTTTACTTGGATAGGAATAGGAATATTACTGATCTCATCTATATATAAGGTACCGTTATTTGCAAATTCTAAGATAGTAGGACGTTTATTATTATTCTCCTGCTTTTCCGATTCTCCAAATAATTCTTGATTAATTTTTTCTGTAGTCATGCAGGTTGGACTAAAAATAATGAATGGATTATTAACTCTCTTAGATTGTTTATGAATTAACCTTGCTGCAAGTTCTTTGCCGCTACCGACTTTACCATGAATCATTATACGACTGCTAGAGCTAGCTGCTTTTTCTATTTCCATTTTATATTTTAAAGTTACCGGACATCCTCCAACTAATTCAGTTTTATCTATAACTTTTGATTTTAAATCTATGTTTTCGCGTTTTAACTTTGTTACTTCGCAAGCTCTTTTAAGTAAAATAATTAATTTATCATTATTAAATGGTTTCTCAATATAATCGTAAGCACCCATTTTTATCGCATTAACTGCTGTTTCTATAGTACCGTGGCCGCTAATAATGATTACTGGCATTAAAGGATAACGTTTTTTAATTATCTCTAATACTCCAAGCCCGTCAATTTCGCTACCTTGAAGCCAAATATCAAGTATCACTGCAGAGACCGGTTTCTCGGAAATTATTTTAAGAGCTTGAGTACTATTAGCAGCAATCTTAGGATTAAAACCTTCATCTTTTAAATTTGCAGCAATGAGATTGCGTATACTTTCTTCATCGTCTACTATTAAAACATCTAATTGTGACATGACAATTTACCTTAAAAATATTAAAAACCTAAATGTATAGGTTAATGCTGAATGTAAAAGAAAGCAACATTTTTTTATAACATTTTTGTCACAATATTTTTTGTCCATAATTATGTAGAGTGAGAAGTCTTATATAAATTTATTAGTTGTTTTTATAAATCTATAAGATTTTAATTTTTAAATTTGATTTGCAGTTTATAGTGTTATAAATATAATGAATTATGTGGATACTGTAGTAGTCATTGTGTAACTAGTGTGTTTGTGACATAAAATAATAAGAATACTGATAATTTTAGTGTTTTTAACTGGATTCACTGATGTAATAATAGTGATTATGTATTCACGCAATAAACACTCTCACTAGTAGTAAAATAAATTTTTAAAATTATGCTTAACATCTTTTTAATTATTATTGCATTATTTATTTGCTTAACAATATATCTCTTTATAAGAAGCAATGATATTTTTACGAATTTATTAATTCTAAATAGTTGTACAACTATTACTTGCTTATTTATTTGTTGTTTAGGTTTGTATTCAGGAAATAGCTCATATTTGGATATAGCAATTATTTATTTTCTTTTAAGTTTTATAGCAACAAATGGTTATTTAAAATATTTTATATATGAGTCAAATAGAAACAGATAAGATGTTAAATATAGTAATTTTAGGGTGCGGTCTCAGTGGTATGCTAACTGCACTTTCTTTTGCACACAAAGGTATAAAAACTACTATATTAGAGCGTAAACTGGTAAAAAGCCAAGATTTTTTAAAAGATATAAGAACTACTGCGTTAACGCCGTATTCTAAAAAGTTTTTATTCTCTATTGGGATATGGAAAGAGCTGGAACAGTTTGTAGCAGAAATGCAAGACGTATATGTTGTAGATAATAAGGCTTCAGAAATATTAGATTTATGTAATAAGAATGATGCTGTACTTGGATATGTTGTTAAGAATAGTGATTTTAAAAAGATATTATTGTCAGAAATAACTAATAATTCGTTGATAACATTAATTGATAATAATCAATATCAAGAAGTGATAAGCCATAATGATTATTCGATTATAAAATTTAATAATGATAAACAAATTAAGTGTGATTTATTAATTATATGTGACGGAGCAAATTCAAAAGTAAGATCTTATTATTTCACTAATGAAATTGATAAACCTTATCAAACTGCTCTAACTTTTAATGTTAAGCATGAAAAGCCGCATGAAAATTGTGCGATGGAGCATTTTCTTCCTCTTGGTCCTTTTGCTTTGCTACCTTTAAAAGATCAATATAGTTCTTCCGTAATATGGTCCACTTCTGTTGTTCAAGCTGCTTTAATTATTAATTTGCCTACAAAAGAAGTTGATTTTTTAATTCAAAGAAATGTTGGTAATTTCTTAGGTCAAATTACTATTGAGAGTGAGATTAGTAGCTTTCCACTAAAAGCTTTTATAGCAAACAGATATTTTCATAATCGTATAGTGCTTATTGCCGACACTGCACACATCGTACATCCGCTTGCAGGACAAGGACTTAATCAAGGTATAAAAGATATAGAGACTTTGAGTATGATTATGAGTAATAATGGTACATTACAAGAATATCAAAAACTAAGGCAATACGATAATTTTATTATGTATAAGCTTACCGATTCATTAAATAGTATTTTTTCAAATTATTCCAAAAATTTAAAATGTTTAAGACAAATAGGGTTTAAGGCAATTAATAATTTAAAACCTATTAAGAATTTAATTACTAATTATGCGATGGGGCAGAGATAATAGTTGTTACACTACTAACTATAATTGTCATTATAGTTAGTAGTTTCTACTCAAATATATCGAGGATAAGGAATTTTATACTAATACTAAAAAATTTTTTGGATACTAATTATATTGGTATAAAAACTCTTGAACCTAACAAGTTAAATACTACAGGCACTATAAATTATAGATATTTAGGAGTCGATCTTACTAGAGTAGACAGTAAAAATTAGTAATCTATGATATGCAACAAGATACAATAAATTAAATAAATATTTTGAAACATCAATGATTAGTTATGTTAATACATACATTATTGTAATGTAACAAGAGCAAATTTTGTAGAAGACATGAATTTACTCCTACTCCCAAAAAACGATATTATACAGTTCAATCTGAAGTAAAACAGTAGCAGATTATTTTTTATTTAATCGTAAAATGAGTGAGAGTGTATAGTCTAACGGAAGATCAGCTATAATACCTCTGTTGTTGCTCTTAATATTCATAAGCAAAAAATTACCTTAATTATTAAAGCAGAAGTACATAATATGTAGGAAAGTTTAACGAACAGTAAGGCTAGTAGTGCTGACAAAAAAGTGTATCGAAGCAAAAAGCCTCTTCAACGAGAATGAATATTTGTTAAATCCTATAATTATCTTATAAATGATATTTTATAGCCAATATTTTAAATTTTATGCAGAAAGATTAGTGGGCATGTAGTACTGCTTAAAAAAATGAGAATTGATAGCAAGAGTATAATTACAGTATATGAGGCAAAATATTTACTCTAATCTTATTAATTGGAATTGTTATAGGAACAAACTGTAACTGAATTATTTTATCCTGTAAATGAATATCGCACAATAGCAGAAATATTAAGATCTATGATATTGACCAAGCTTTTATATCATAGATATAGAGCATACCTTGTGATCTAATCATAAGTTTACACATGCATAGATTTAAGAAATTACAATGATTACTCTTCTCATATTTTAGCTAGGAGATTGTAAAAATTATAGATAAAAAGCAGCTATTTAAAAAATGTTAAGTATTGAACTGTTTTACTAATGATTGTAGTATCAAATTTAACACACAGTATAATAATTATGAGTAAAAAAATTTATTAGTTTATTATGTCATTATAACCACTGTTACTATAATAAATGTGCTTACAAAGTAGTTGCATAGTCGGTAAGACCCTTATAAGTGTTGTGATTACCAAATATATTCAAACTTCAATAATTGGCTAGAATCACCCTACAAATCTGAAGTACTCTTGTATTAATTATGTTCTGTATAGTGTATTTATTGCTCTTTCTGAAGTTGATCTTCATTTATTGTTATTAGATTAGTATTAGGGGAGTAATTTATGCAAAATGAAATAAAAAAAGTTTGTGTTATTGGTGCAGGAGTCATGGGTTCAGGCATTGCAGCGTTGATTGCTAATTCCTCTCATCAAGTAGTTCTGCTTGATATTCTTGATAAAGATTCTAATGATCCTAATAAAATAGTAAAAAATTCTGTAAAGAATTTGCATAAACAAAAGCTTTCTCCTTTATCTTTTCCAGATAAAGTCAATTTCATTACAATAGGTAATTTAGAACATGATTTAGATTTAATTAAAGAATGTAATTTAGTAATTGAAGTTATCGTTGAGAAGTTAGAAATCAAACATCAATTATATAATAAAATTATACCTTATCTTAAAGAAGACGCAATTATCGCTTCTAACACCTCTACATTGCCGCTAAAAAAACTCAAAGTGAATTTACCAAATAATATAAAGTCAAGATTCGTTATTACACATTTCTTTAATCCACCGCGATATATGGAATTGGTTGAATTAATTATAGACCATACAATCAAGGATGAGGTCATAGAAAAAGTATCAGTGTTCTTAACTAAAATGCTTGGTAAAACTATAATAAAATGTAATGATACACCTGGTTTTATTGCTAATAGAGTAGGATGTTTTTTACTTGAGTTAGTAGTCCACAAAGCGATAGCTCAAAATCTTAATTTTGTTACAATAGATCAAATATTCAGTAGATGTTTAGGTTTGCCGAATACCGGAATTTTTGGTTTATATGATTTAATAGGTCATGACGTAATGAAGTTGATATCAAGTTCATTAATTTCTGCTTTACCTAAAAGTGATGATTATCATAGGATATATACTAATACCAAAGTGTTTGATAAGATGATAGAGCATAATTTAATTGGACGTAAAGGTGAGGGTGGATTTTATCGTTTATCTGTATCAAATGGTAAGAAGATTAAAGAAGTGATTAATATAAGTGATTTATCATATCACCCTGTTCAAAAAGTAGATATTTCGTTTAATAGTCTCAATGAGTTGCTATCTAGCAATTCAATTTATGGTAAGTTTTTTAGTGAGATTATTACAGAATTTTATATTTATTTAACAAGTTTAGTACCATCCGTGACTAATAATATCTACGATATCGATACCACTATGAAGCTTGGTTATAGTTGGCATTATGGACCGTTTGAGTTATTGACTATAGCTGTTAAAAATGGATGGAATTTGATAATTAAAAATGCTGATTTAATGAATATTCCACTGCCTAAATATTTAGCTAGTAAAGAATATCAAAAAATTGATAAACAAAAATTTAATTCTAAAAAAGATTTTTTACAAGAAAGTAAAATAGTATTATCGAATGATTCTGCAAATTTAATACATTATTGTGAGAATTTAGTATTTGTTATTACTACGAAAATGAATAGTTTAAATCATAACGTATTTTACTTATTGCAAGAAGCCGTAAGTAAAGCAGAAAATTATGGAAAAAATCTTTATATTTATCCACAAGGAAATAATTTTTCTGCAGGTGCGGATTTAAAGCTTATTCTTTCTTATATTCAAGATGGGAATTTTCATAATTTAGAGAATTTACTAAAGCTTGGACAACAAACAATGCGTTATTTAAAATATTCTTCGGTACATATTATTAGCTGTGCTCGTGGTGTTGCACTTGGAGGCGGGTGTGAACTTCTATTGAACTCAAGCTATATTGTAGCAAATCAGGAGCTTAATGCTGGACTTATAGAGCTTGGAGTAGGTTTAATACCAGGATGGACCGGTGTTACAGAAATGTTTGCCCGAAGTAATGGAAATAAAACTAAATTAATTAGAAATATTAAGAATATTATAGAGCAAAATAAAACAAGTTCAGCTGATTATTTTAAAGCAGATTATGGTATAAAGAATATGCAAGTCAATATGAACAAGCATTATATTTTAGATGACGCTTTGAAACTCAGAATATCTAAAAAAATAGTCTCCATACCGAATAAAATTACTTTACCTAAAATTAATATAGTTAGTGAAATAGATACATCAAAATATAACGAGCTACAAAATAAGGTACTTAATAAATTTCAGAATATTATTGATAAACATAATGAAATAAGTGAAGCAGAATTACTGACATATGAGCGTGAAATGTTTTTAGAACTTGCAAAAACACCACAAACTATAGAGAAATTGCAAGCGATTGTGGGGTAAATATTAATATTATGTTTATGAGACTTGTATTTTTATTTTTTAATAAATAAAAAAATTATTCCAATAATGAGTCGTTTTGTATCATTATTATGATATCCTATATATGATTCTGCATCATTTTCATATTAAATATGATGATTATAAAGTAATAATTTTACTAAACTATACAAGAAAATGTAAATTTTCTAGTAAAGCTTTACAATTAGTACAGCGTAAATATCAGAAGATCTCATAGATAATTAGCATAGAATAGAATATTAATTTTTATTCAAAATGCATTTTTGTCGAACAAAAGGAGATTATAAACCTATATCCATCTGTATCTTAAATTTTAACTTTTGCCCCGCTTCAAGATAAAAATTTATTTAATATAGTTGAATAGAATTTTGAGTTATTTAAAAAGCTTAAATTAAAGACTATTTGAAGGTATCAAAATATCTTTCCATATAATTTAAGTATTTTCGCATTTTAGGTAAATTATTTTCTACTGTGAGACAGTGCAATATTCCTCATATAGTAGTTTTCATATTTTATATACACTATAATCAAGTTCTTATCGAGAATTTATTAACACTTTAATATGTGATCGTTTCTATTAAGCATATTTTACTCCACAATAATACAGCCTATACTACCACGATAGTAAGTCTGAATGTCATACATAGCTTTGCTGTAAATAGCAGGGGTTGTGAATATTCCCTTATTAACTGCTTTGATTTTATATTGATATGTCATTTTTTGATCAGGAATAGTACCGAAAATCATTACTCTATCATCACGATTATTTATATATATCGGTTTCCATATAATTGTTTCCTGATTACGTTCTAATATTAAATTATTATTATCTTGTAAAAGCTCAAAGCCTCCTGGTAATAAATCAAGTATAACAATATTGCTCAAGATTTTATTACTAGCTGACTTCATAGTGATTTCCACATTAATATTATCACCTAATTTTACTTTACTAACCTCTTTATTATTTTCATCAAGATATTTTTTAGTTATTTCTATTCCTTTAACTATCTCTTTATTGCCTTTTAATTGTTTATCATAGCCTGAAGTTAATAGCTGATAGAAAAAGCCGTTACTTGATGATGTTAAGTCTATCTCATTACTCTCTAATGACAATTCAGAAGTCATCACTTTATCACCTTTTAACGTTACTACTTTATCTGTATCAGTTACTTTAATAGTAGACTCATCTACATTGTGGATTTTAGAAGCATAGGTAAGAGTTGCCATAATTGCATAGCTTGCTGATAGACTATTATAGTTATCTTTTGCAAAACGAGCGATATCCTGGATAATTTTTGAGTCAAAGTTTTTTAATCGTTCAGGGAAATGTAAAGAAATTAAGTATAAATACTGACTATATTTTATTAAATGATTATAATATGGGTAGTTTGTTTTTGATATAGTTTTATTGAAAGTAAAGCTATCTAGTAATTTATCTGCGTCCTCATCCATTTTTAGCATTTTATAGCTAGCTGCTAAATAAACGCTAGTCAAATCATCATGCCATGTATTTTTATGGTATTCATCTAAATATTTTAAAATATTTGCAATATAGCTTGTAGTAATAACACTATTTTTTGTCAAGATATAAATCGCATATGCTTTTTCTCTTGCTTCGTCTAAAGAATATATTGCTCTATTTGCCATATTCTCTAAATAGTAAAGGCCTTCGTTAAACATATCACTTGGCACAGCTAAATATTTAGTTATTCCCTCGTTTAAGAAGTGCATAGTATACACAGACAGAAATGGATCAGAATCATCGTTCAAATTGTTCCAATATCTAAATCCACCGTCATAATTTTGACGTTCCAATAATATTTGAAATATTTTCGATAATGACTCATCCATTTTTTCCCGATCAGTTTTAAGAATCTGCACTAGTTCTTGCTCATTATATAATAAAACATTTGCAAAATTTTGGCTTACTAATTGTTCAGTGCATCCATAATGATAATTATCTAAAAAATCTTTAAAGCCGGCAATAATAGAAAGAGGTGATTTAGAAGCAGAAATTTGCAGCTTAGCAAATTTAGGGTATAAATTACGCAAGATTTTTAAATTAGCTTTATTGCCGGTAATAAAGCCTGTATCAACCGTTGTAATGCCTGGGCTAGCAGGACGAACACTCGTAGTGCTAGTTAATTCTGTTCTATGCACAGATTTTATATCAGGCTTTAGGTTATTTATAGACGCTACAACCTTTAAATTTGCTGAACCGAGTTTATCAGTTGCTTTTAATTTAACATTAATAGTAGCTTCATTATTTTCATTTATCTGTATTTCTTTAGGATAATCTAATATTTTTAGTCCTTCGCTTGTTTCAATTTTTAAAAAAATTTGAGCATTCCCTGAATCTTTTAGGTTATTAAATATTGTTATTGGTACTGCAAATTCATCATTTGGAGCTACAAATAAAGGTAAATTTGTGTTGATAATAAGATCAGATTGTACTAATAAATCAGCTTTAAAAACTCCTATAGTATCAAGGCTTGCTGCTACACCTATCACTCTTAAAGTCCCATTAAAATAGCTTGGTATATCGAATGTTACTTCTTTCTCATCAAGATCTGATTCTAAAATGCCTGACCAAAATTTTACAGGAGGTTGGCTTTTTCTTTTAAACGGATTAAAGTTGCGAGATATATTTATAAGACTGTCACCTGAAGGAGCTGCTATATAAGATTTCATTAATAAACGATGCTCAGGCAATATTAAATCCATGATTTGTGAAGTTCGTACTTCTAATGCTTTATCGTTCATGAAGTAATTAATCGGGTCTGGAGTCTGATAATCAGCAAATGATAATATGCCTTCATCAACAGCAAATATTATGATTTTACAAGGATTAGTAGTACGGTAACGAATTGCTAACTTTTTACCTGATTTGATTTTTTTTGGCAATATTAATTCAATATTTTCTTTATGCTTATAAACACCAGCAGTAAACGGTAGTACTGCATAGCTAAACGGTGACATAAAGATTTCCGTAGCTGTGATGTCTCTTATAAATTGCACATTTACGTATCCTTTACCTTCAAAACCGTCAGGTATTTTTATTGCTTGAATACTATTATTTTTATCAGTTTTAAACCATTTAAAATTATGTACTTTATCAGTCTCAATAGTAATTAATCCATGACCTGTATAAGGAGTTTTAATATTTAAAAGAATAGTATCACCGGCTTTATAATCATCTTTATCAAGTTTAACTTTTAAATTTGCTTTATCTGTTAAATTAGCTGTAACATTTCCTTCACCTATTACTGAAAATTCAGTTTGAGCAAATACTCTATTTTTTGTATCTGTTAGGTAAATAACGTAATCGCCTTCTTCTTTAGTAGGCACATTATAAATATAACCTTCGTTTGCTGTGATATTAACATTATCGGAAGATATATTCGTTTCAACAGGTACTGTATTGTAAGAATAATTACCATTAGCATCAGATACTAAATTATTTACGTAATTAATCTTGTTTAACTTAAGAGTTAAATTATGCGCAGATACTTTTTCTGCTTTATTGGATATAGCTATAAATTTTATTGTTGAAATTGATTGTTTCTTAATATACTTAGAGTTGCTATCGCTTCTAAAACCTATAATATAAGGCAGAGGTGAAATTATAAGAGATTTACTACTGGTTACGCTTCTTCCTGAGTCAAGTTCAAACCCTTCTGCTGAAAATGTTAGATTAAAAGTAGCATTATAATATTTCTCAAGGTTAACGTCAAAATTTGCGGTACCTGTAGAATCTGTAGTAACATCTCCTAAATGCTCATTGAAAAACTCTTCATTGCTTTTACTACGATAGAATGTATACTCTTTAAAGTTAGTGACAAAAAACTCTGTAGGTTTAATATCGATTAAACCTCTAATTTTTCTATTTTCTGCAGGAATGCCATAAAGATTTATAAGTTTAACTGTTGCTTTAAGATCTTTTGGATGAGTCCATAACGTATCTTTTAGGTTATTGAAGTTTATATTTATTTTCATGCGGTCAGGTTGAAAATCTCCGACTCTGACAGATATGCTATTAAGATAATTATTTATTCCTTGATCACCTAAATATAAGCTTATATTATATAAGCCTGTTAAAGAATCATCAAATGTTGTGAATAAATATTCACCAAGCCCTTCTGAGTTTAGAACGATTTTATTTTTATCTATTACTTTCCCATGAGGATTAGTAACTTGGATTTCTAAAGGTAACCCATCAAATTTTCCATGCCAATCGTTTTGTTTGAGCATAATACCTATATGGCCTTGCTCGCTTGGTCTATAAATGCCGCGATCGGAAAATAAATAAGCTTTTAATCCTTCATTTGAACTTACAGTCCCTGATATATCAAACCGAGAATAATTAACTTGCTGATCCACTCTATTATATGGCATAAACGAGAAATCGTCTCGAGTAGTTAATACGTAAGCTATTGGAATTTTAGCTTTATTTAAATCATGTATGTTTGATAAAATAGTATGTCCTTGGCTATCAGTTTTACTGCTGACTAATATCTCACCATTAAGTCCTATAATATCTACTTTTACACCCTCTGCAGGTTTACCATTACTGATATAAGAAACAAATATATGATGCGTTCCTGTTTTATCGGTTTTTACTATAAAACCAAGATTAGTAACTAAAATTAATCTTTTATCTTGAGATATAATATTATTATTTTTATCTTTAAAGTACACTTTTGCTAAAAATAGTCCCTTAGAATATCTCCCTGCTTGCTCTGAATAAAAATACTTACCAAAATCTAAATTGGTATAATGAGGTAAATCGAGATTTGGAGAATTAATTATTACCTCTTCTTGGAATACATCTGAAATATTATACTCATTAAAAGAATATTCATTTATGAAAGTTGGGTTTTGGAAAATATTATATCTATTTGTCTGGCTTATTAAGTGATTAATTTCTTGCTGATGAATCTTATCGATTTCTACATATAATTTATCTATGCCAAGTGAATATACGGGAAGTTTCTTTTCACCAGATAATGAAAGAATAGATCCATCTGACATGAGCTTCACTTCTTTAGGATTATCAGGTATTTGTATTATTTGAGTGTAATCTGAGCCAAGCGTTAAATTATCCGATGTCCTAATCCCTTTTTTTATTTTAATGAGAACAGTTCTTGAGGCAACCGTATTTACTTTGAAGTTATGTACAGTAGTAATTTTCGGGACAGAAGGCAGTAGTTCAAAATTTATTTTTTCACTTAATTTAAGAATATCATCCGTTATTTCTTTTGGACTTTGCCATTTATAGTTTTTCTTACCTGTAACTCCTAAGAAATGCGGTTTATTTTTTGGTAATAAAAATAGCTCTAAATGTTTTTTTACCTCTTCACCTGAAACTGGTGTATTTGTAGTAATTATAATTATCTGTTCCGGTTTTAGTTTTGCGTCTTTAACAATTGTAGCAGTACTATTAGTGATTTTAAAATATGAGGATAGACTTGGAATTAATACTTTTTCTTTATAAGAATATCTTATATTATTTTGCATCTTATTATTTTGAATATCTACATTTTTTTGAGTAAAAATTTCGTCTCCATATAATATTTTAACTCCGTCTTTTATAATAATAGATACTATATCTTTTTTATCTGTAAGCGGTGGTATATTAGTAATTGATATAGCTTCTGTATTATCTGTATTGAATTTGATAGAAAATGGTAATTTTTCTTTAGTGGAAGATTTGATGAAATTTATTCTTTCTTTTAGAGTTTTAGGATCAATTGGATAGTTAAAAGCTATTCTCGTTTGGATAAATTTTTTAGAAATATCGATATTATCTTGTAGATAATTCATTTCTTTAATCATAGAAAGTAGCGGTAAAGTCGTGAAGCTTATATTATTTTTTTTTAAACTAATAAAATTAGGAAATATATAATCTTTGATAGTAATTTTATAAGTTTGATTAGGTAAAAAGTTTTCTTCGGGTATAAAATATATATTATAACTCCAGCCGAATCTCCATTCTCCTTTAATATCAGGTGAAATAGATATATACTCATTTATTTTTTGCCCGTTAAGGCCCATCTCTCTTTGTGGCTTTATACACCATTCTTTAATTCTATAATCACAAAGCTCAATATTTAACGAATTTTTCCCTGCTAACATCTTTTCGTTAGTTAATTTTAAATATACAGGTATTTTTTCATTAAAGCTTGTAGCGATTACTTGTAAATTTATTAAACATAAGAAAATAGTCAATACAAATTTGCAGTAAATATTTTTCATATCTATAGCTTATTATTTATGATATTAAATGTTAAAAAAATTAAGTAAAACAATGAATGAGGATATATATTAAACAAAATTTTTTTGTTGTTTGGACAAGAATTGTGATGAGGTGATCATAATACCAGTACTAAAGACATTCGCACTACAATATATTGTTCAAATATATATTATATTATTCAAATATATATTTGCAATACCTTTCAATCTTTCTCTAATATTTAAAGGTTTTTACTGTCTATAGCTTATATTACTGTCATAGTATTTCGATTGATAATATTAGATCCTTATTAATCAATAATATCGGATTTGTGGTGATTTATGATATCTATCATTAAGGTTAGTATTATTTTACAATTATAGATGCTATTTGAACAATAAAGAGATTATTTATATCTTTTTAGCAGTGTTATAGTACAGGTTATATTTTATCGTACAATATTTATGTAAATTGTTTTATACTATATTTTTAAATATTTTTTTTGGCGATATTATCAATATTTTGCTGTTCTTAATAAAAAAACGTTTTATTAATTTAGCTATAATTGTTATTTCAATAACTTTGATTTGAATATCTCACAATGTTTTTGTTCTTAATAGGTTTAATAATATCGGTGAAGGATATGCCATATTTATTTATGATCAACGCATTATTAGTATATGTTAGTAGATTAAGTCATGCACTATTTTAAATACTTTATTATACTAAAACTCTTTTATATAAGATGGTAAAAGTAAATAGAATTAAAGTGCTAAAAATTTAGAAGAAAAATCTCAATATTATGACTAGCGTAATTAATTATATTCGTAGTATCATATTGTTCTAATCTTTTGCTACTAGTTTTTGCTAACTTAATATCTAAAACTGAAAATCTACCTTTATAATGCGTTTTAGTTTTATACACTTGGGGAATACAGATAGATCAATAATGGTGGCGCACCCGAGAGGAGTCGAACCCCTAACCTTATGATCCGTAGTCATATACTCTATCCAATTGAGCTACGGGTGCTAAGCTTGAAGTACTTGTATATTAATACTTAATAATACTAAAGAAGTATAGATAAAAGCATAGCATTTGTCAAGAAATATAGCATGTTCTGATAGCATGTTCTGATGTTTCAAATAATAAATAATCACATTTTACTTAATTTAGATTAATTCATGTATAAGCAGAGAATATAGATGCAAATAGAGTTAATGAACTTTTGTGTTGAGGTAAAGTAGTTCAAAGGTAATTTAATTGTAAGTTATGTACGACTTTATTAGAAGCAAAAATATAACTCCCATATGTTACAGTATCTGAATCTGACTTATTGTACTTGTTTCGGTGTATGTTTTAGTAGTTCAGCTTTCAAATAAGTTTCTACTTTCCTCATTCTGAAATCTCTTATTCTGAAAGCGATAAAGTGTAATACTTTATCAAATTAAGTAAGTTTAGTATATTGGAGTAGACGCAAAGGTCCTGGAATATTGTTGTTGTAGTACCAAGTAGTCATGGTATAGAGAAATGTAAAATGAAAGATCTGATCCGATTCAGGTCAGTAATATTTTCATTTATCCTGTGAAGGCATTTTATCGATTGGATTATTATGGCAGATTGTTATGTAATCATATTACTGTGTGCTCAACTTCGTCTCTATCCTTAGTGTCTAGCAAAATACTCAACATTATTATTTTTATAGGCCTAATACTTAATAGCACTAGGTGACCACAGCAGGTTTTACTGATGCAATAAAACCTTACAGTAATGATATAAAAAAAGTCATTCAGCACAGATTATAGTTGCTTGCAATTATGTAGTTATCTACACATGCAATGCCTAGTGTGTGAGTAACGTAAAATTGTTCAATTCAATACATTATTGAATATTATCATATCTTTATGACGACACTATATATTATATTAACATGATTTATAAATTAAGTGAGTTAATTAATATGAGCTTGTATGATAATCAATATATCAAGTATAGACAAAGTTTTCATATACTTTATAATAAATTAAATATAATGGTAATGTTATTGCTATAAAACTAGACCCTTTAAAATAAGGCCTTAAGGTTAATTTTAAAAAGCAGCAATAAATTTATTAGCAGGAAAATAGCTTTATTTGTCAAAATCTCTAAAAAGACCATAAAGTGTCTGTAGAGAAAACTGTTTATAGAAAAACCAAAAACAATATAAATAATATGACCTTTATTGAAGAATTTATATACAAAGGATATCTTAATCAATGTACTGATTTGGCTCGGTTAAGTGCTATAACACAAGAAGCAAAGATTGCTGCTTATATAGGTTTTGATTGTACTGCTACATCACTACATATCGGTAGTTTAATGCAGATAATGATATTACGGTTACTTCAGAAACACGGACATACCCCTATTGTGATTATTGGGGGTGGCACGAGTAAAATCGGTGATCCTGCTGGTAAAGATGTAACACGAAAAGCTTTAACACAAGAGGATATTAAAAGAAATGCTGAAGGGATTAAAAAATCATTGTCAAAGTTTATCAAGTTTGGAAAAGATCAAGGTGATGCAATAATACTCGATAATGCAGAATGGTTAGATTCGCTCAATTACCTAGATTTTTTACGTGATTTCGGTAGCTATTTCTCGGTAAACCGTATGTTAACTATGGATTCGGTAAAACTTAGGCTTGACCGTTCTCATCATTTAAGTTTTCTAGAATTAAATTATATGTTATTGCAATCATATGATTTTTACTATTTAAGTAAGAATTATAATTGTATCCTGCAACTTGGGGGGAGTGATCAGTGGGGCAATATAGTTATTGGTGCTGATTTAATACGTAAAATCAGTGGTAAAGAAGTATTTGGTATGACAACGCCGCTACTTACAACCGCTTCAGGTGCTAAAATGGGCAAAACTGCTGCAGGTGCAGTATGGCTTAATGAAGATCTGTTAAGCCCATATGATTATTACCAATATTGGCGTAATTGTGAAGATGCTGATGTAATGAGATTTGCAAAATTATATAGTGAATTAGATATAGTAGAGCTTAATAAATTTGAAAGCTTGGTATCTGAAGATATTAATGCTGCTAAGAAACAACTTGCTTATGAATTGACGAAGCTTTGCCACGGCGAGCGATTAGCTAAATTAGCCCTAGAAACTGCAGTAAAGATATTTGAGCAAGGAGATATCGATGAAAATCTACATACATTTATTTTAGCGCCAGAAATATTACAATCCGGGATTAGTGCATATAACTTATTCTACAACGCAAATCTTGCTAGATCTAAGTCAGAGGCACGTAAGATTATACGCGGCAAGGGAGCTAAAATAAATGATCAATTAGTTGAAGATGAGAATATGACAATTGATACTAATTTCTTGCGTAACAGAAAAGTTATAAAGCTCTCTGTTGGTAAGAAAAGACATATATTAGTTAAGGTTTAAATATTTTTCTTTATTGCGATATATACTTCAGTTGTAAAATGCGTATAACTTAAAATTAAAAATTCTCATTTTCAATTAAACATATTGTATATTTTCTATCTTATGCATCCTTAAACATAACTTAAATTTAGGTTTAAAAAGTAATGACTAAAATAAGACTTGATGAATATTTGCTGCAAAAAGGTCTTGTAACAGATATTGCTATAGCACGAAGCTTGATTATCCAAGGTAAAGTACATAACAAACATGAGAAATTAATTAAGTCTGGGATTAAGGTGAATAGACATGATCCAGATATTAAGGTAAAGCTACCGCAGCATAATTATGTTTCAAGAGGGGCATTAAAATTAATTACAGCTTTGGATTATTTTAAAATTGACCCCCAAAATTTAGTTTGTATTGATATCGGTAGTAGCACTGGTGGTTTTACCGAAGTATTATTTGAGCGTAAAGCAGAATTAATTTTTGCCGTAGATGTAGGTTATGGTGAACTTCATTCTAAATTACGATTTAATCCACAAATTAAAGTGCTTGAAAAGACCAATGCACGATATTTAACAGATAAACAAATTACAACGAAGCCTGATTTAATTGTTTGCGATGCTAGTTTTATTAGCTTAACTACTATATTACCGACTCCGCTAAATTTAGCTAAAGAAGATTGCATTCTTATTGCTTTAATAAAACCACAGTTTGAGGTCAAAAAGAATGAAGTAGAGAATGGAGGAATTATTACAAATCCTCTCTTACATCAAAAGGTATGTGATAAAATTAAGAATTGGCTTGAGCAAGAGCATCATTTTCAAATATTTGGTATTATAGCAAGTCCTATATTAGGTACTAAGGGGAATAAAGAGTTTTTAATATGTGGAAAAAGAAATATGCCTATTTCCCTATAATTTATAGGGAGAATTATTTTATCAATCATTACATATTCTTCATTTACTTCTTTAATAAAATATTTTAATTTTTATTCATATTTTCATTCTGTAGCTATTAGTATTTGATTGTATCAATATTAGATGCTAATTTATAATACTAACTTAATTCATTTTACTACTATTAGTATAGCAAGCTAAGTAGTTAAATGTATTAATTTTTTACGTTTAATATTAATTATTTAATGTAAAAATGTCTTAATTAATTTTAGTTACTAATAGGAGAATTGATATTATTAAATCAGGAGCAATCATTATTAAAACAAGAAAGGAATCAGAAAAATTGCTACGTTATTTAAGAAATTTAAAATCTTTATTTCAATTTAGCAACTAAAACTGAATATTAATAGTTTTAATATAGAAAAACCTCAGAAAAGAATAAATAAAAATGCAATGCAAATTTAAAATCTTACAGGTAGATTCTTACAGAGTTATAGTGTAACCTGTTATTAAAGAGCTTCTATCAAATATAGGTTGTGTAAGAAGAAATATATCCTACTAGTAGTAGGAAGTATTTTATAAGCCTTGAAAAGGAAAGAATATTATGAAATTCTAATATAGCAGTAGAAAGTCCTTTATGGATAAAATGAACAAAAAGTAATACATAATAAATATATTGTGCAAAATTATTGCTGTTAAAGTTAGTAAAATATAGTGAGTTTGCGATATCAAACAGTGTTGATGAAAAAGATTATTTTTTATTCTATAATAAAGCACTTATGTTTATCAACGCACTTTTGGTAAGAAAGTCATCTTATTACTAGAAAACAAATGAGCCAAATCCTAAGTTGTAGAAGTTATTCATGCTATTAGAAATCGTGATGAATGCAATAAAATTAACTGATATAGCAGTAATAAATATGTGATATTGCAAATGAGATAATGATATATTTTAGTTGACTAATTTCATTAGTATTATAATTATTATACTTGTATAATCACTGTCTAATTTTTATTAGGCTTTTTTTTCAAAAGGGAAAATCTATTAAATTTGTAGCCCTCATTCTTTTTATAATCATGTACAACATACATTATTAGCAGAGGAAATAGTAGTATGACGACTCAATATAGTATCAAATCAGGATAAGAAGCCTCTAAGTGTGTAAGAGTGATTTATAGAGTATTTGCAATTTATAGTATGTAGTTTTATAAAAATATAAAGTTAAATATTGCTTATATAATCTAATTAGTGTATTTTTATTACGGATAAGCATTATATAAATTATAAACAGCAGGGTGGGTTTTCCACCTTTTTTATTATATAAACATCACATATGCAGACTATTGCACAACAAATAACAAACATAATAGAAGAATCCTTAACGGATATGGGGTTTGAGTTAGTTCTTGTGAAGTTTAAAGGTGTTAGTCCTAAAGTAGTTGAGGTATTGATTGATAGCTTAAATGGTAACAAAATATCTATAGAAGATTGTACTAACGTAAGTAGGACTATTTCTGCTATTCTAGATGTTGAAGATTTAATAGAGGAGGCGTATTCTTTAGAGGTATCATCAAGTGGTATTGAACGTACGTTAGTAAAATTTGAAAATTATAATAGGTTTTTAGGAAGAGAAGTTAAAATCAAACTGAAAGAATTATTGAATGGAAAAACACTTTATCAAGGTAAAATAATTAAAGCTGAGAACAATAAAATATATTTAAAATGTGCAGAACAAGAAGTATCAATTGATTTTAATTTAATTAGAAATGCTAATCTGGTTTTAACTGAAGAAGTATTTAAAAAATTATTAGGCTCTTAGAAATTTTCTAATTAATGTATTATTTTAGGTATTTTTTAGTACAAATTATAAGATTTTTGAAGAAATAGTGATTCATTTTCAAAAAATTTTATAATTTACAGCAAATAATAACTAAAGTTAAATTTTTAGAAATTTTTATAGAACCTAAAAACTAGTAAGAGATAATAATGTATGTCTAATATATATAATATAGAAATTTTACAAATTATAGATTCTGTAGCACGTGAAAAAGGAATATCAAAAGAAATTTTAATTTCAACTGTTGAGCAAGCTGTACAAGTAGCAGGACGGAAAAAATATGGTAATGAATATAATATTAAAGCGCAGATAAATAGGAAAACCGGTGAAATAAATCTTTTGAGGATCTTAAAAATAGTAGAAGATGTAGAAGATTATTTAACGCAAATCTCACTTGAAGATGCTTTAGTAAAAAATCCAGAAGCTAAAATCGGTGATGAGATATATGAATATTTACCACCGATTGATCATGCTAGAGTATCGGCACAAGCCGCAAAACAAGTTATAACTCAACGTGTTATAGAAGCTGAACGTGAAAAACAATATCATGATTTTAAAGATAGAAAAGGCGACATTATAAATGGGATAGTTAAGAGAATAGAATACGGTGATATAATAGTTGACTTGAGTCGTGCTGAAGCAATAATTAAAAAAGATCAGTTAATTAAGGGTGAACATTTTAAACCTAATGATCGTATAAAAGCATATGTACAGGATGTAAGACAAGAAACAAAAGGACCACAAATTTTCTTGTCTAGAGTAGATAACCAAATGCTGGTTAAGTTATTTAAGCTAGAGGTTCCTGAAATTCTTGAAGATATTATTCAAATAAAATCAGTAGCACGTGATCCAGGTTCAAAAGCAAAAATAGCAGTATTTGCTTCGGATAGTAGTATAGATCCAGTAGGTTCGTGTGTAGGTATTAGAGGTAATAGAGTAAAAGCTGTAACAAATGAGTTAAATGGAGAGAAAATTGATATAGTATTATGGAGTAATGATCTTGCACAGTTTATAGTTAATTCTCTTATTCCTCTTGCACCAAGTGAAATTACAAAAATTTTGATTGATGAAGATAGTCATAAGGTAGAAGTAGTAGTGTCGCAAGAACATCAAAGTATTGCAATAGGTAGAAGAGGGCAGAATGTTCGTTTAGCTTCTAAGCTTACTGGTTGGAATATCGATATAATGACCGAAGAGCAAGAATCAAAAAGAAGAAATGAAGAATTTTCAACTTCTACAGAATTATTTATGGAAGCTTTAGATGTTGAAGAAGTTATAGGTCAGCTTTTATCGGTAACAGGATTTAATTCTGTAGAACAAATTGCTAGTAGTGAGATTAGTACTTTAACAAGAATTGAAGGCTTTGAGGAAGAACTTGCTGTAGAGATCAAAAATCGAGCTATTCATTACGTAGATCTTAAAAATGAAAAGATTATCAAAAAGCTAGAAGAGTTAGGAGTTGAGCAAGAATTAATAGATATATTAGAATTACCGCTTGAATTAATATTAAAGTTTGCTGAATATGGTATAAAGACAATAGAAGATTTGGGAGAAATGAGTGTAAATGAATTTAAAAATTTGGCTCCAAATTCTAATATAACGGATGAAAATATTAAATTGTTGATTAAAACTGCTAGACATCATGGGGAATTAAAGGATAGTTAGTGGGTTAAATTATGTTATGCATTCGAAAAGTTGAGTTGTGAAAAATAGCCATTGTAATAATATTACAAAGTAATTTATAAACTAATCTTAGGATATTTGATAGATTGCCTCACAGTTTATGGCTGTTTGCAATGAATAGAAAATACTGCTATACTGCCAACATTATGGGAGTGAAGTAGTAGATAGAAAAACAGGAATACAAAGGTTTTAAATATGACGGATAACCAGGAAATCAAACCCAAAAAGTTGACACTTGGCAATTCAAAATTATTGCTTAATAAGTCTTTTGATTCTCTGACAGGAGCTCAAAGTTTTGTTAATGCTAAATCTAAAACATTAGTAGAAGTTAGAAAAAGTTCTATAGGTAGTACTACTACTATTTCATTAAATAAAGAAAGGAATAGCTTAGATCAATCTGTTATTGATTCTAATAAAGAAGAATTTAATAGACGTTTATCTATTCTTAAAAAAGCTGCTGAGCAATCTAAGTTACATGATCCTGCGCAAATCAGCACTTTAAGTAAACTTGCAAGTATTAACCAGTCTATTAACTCAAAAAATGAACAATCTATAACTGATAAAGCAGTTGAACAAAAACACCAAAATATCGAAGATAATAAAGTAGAAATTGCTGCTAAAATTGTTCAAGATAATGAAAATATAAGTTCACAAATACCTAAAAAGAAAAAAGAAACTTTGGCAAAATCTGTTTTAGTAGGAATGCGAACACGTTATGGTATAGAAGAAGAGCCAGCATTAGAGAAAACAGTAGATAATAAAGTAGTTGTTCCAAAGATTAAGCTAGAAGAATCAAAAAAATTTAAAAAAGCTGACCTTTTCAATATGCTTAGTGATGACGAAAACGGCAGTGGTAGAACTAGAAGTCTTGCTTCTATAAAAAGAGCTAGAGAAAAAGAAAAGCGTAAATTAGTATCACAAGTACCTGAGAAAGTATATAGAGAAGTAACAATACCAGAAGTTATTGGAGTTGGTGATCTTGCAAATGCTATGTCTGAAAGGGTAGCTGATGTAATTAAAGAATTAATGAAACTTGGCATTTTAGCAAATGCTAGCCAAACAATAGATGCCGATACTGCGGAGCTAGTTGCAACAAATTTAGGACATACCGTAACAAGAGTTCAAGAATCAGATGTTGAAAATATTTTAATTAATGATGATAAGGTTGAGGATTTAAGAACACGCGCTCCAGTTGTGACAGTTATGGGGCATGTTGATCATGGTAAAACCTCATTGCTTGACGCTCTTAAATCTACGGATATTGCTGCAGGTGAGCTAGGCGGCATTACACAACATATTGGCGCTTATCGAGTAACTCTTGCAGATAGTAAAGCAATTACTTTTATTGATACTCCAGGGCATGAAGCTTTTTCAGAAATGCGTTCAAGAGGTGCTAAAGTAACAGATATAGTCATTATAGTGGTTGCAGCAGATGACGGAATCAAAACGCAAACGGTTGAAGCGATTAATCATGCGAAAGCAGCTGGGGTGCCTATAATTGTAGCTATTAATAAAATTGATAAACCTGATATTGATATTGAGCGTATCAAGAACGAATTATATGTTCATGAAATTATAGGTGAGGAAGCAGGTGGTGATGTTATTTTTATTCCTATCTCGGCTCTAAAGAAAATTAACTTAGATAAACTTGAAGAAGCAATTTTATTAATTTCAGAAATGCAGGATTTAAAGGCAAGTCCTTTTGGTTTAGCTTCTGGGGTTGTAATTGAGTCGAAAATTGAAAAAGGAAGAGGAACGCTAACTACTATATTAGTTCAGCGTGGTACTTTAAGAAACGGTGATATTATAATAGCAGGTACTTCTTACGGTAAAGTTAAAAAGATGATTAATGATAAGGGGCGAGAAATATTAGAAGCAACTCCATCTGTTCCTGTAGAAATCCAAGGTTTAAACGAAGTACCTTTTGCTGGTGATCAATTTAACGTAGTACAAAATGAAAAACAAGCAAAAGATATCGCTGAATATAGGATACGTCTTGCTAAAGAGAAAAAAATATCTGTTGCATCGCGTTCAAGTTTAGAAGAATTGCTTTTAAAAGCTTCCGGTAATAGTAAAATTAAGGAATTACCTTTAATTATTAAATGTGATGTCCAAGGGTCAATTGAAGCTATTTCAGGTAGCTTATTAAAATTACCGAGTGATGAGATAAAGCTTCGTATACTTCATAGCGGTGTAGGTCCAATAACAGAATCTGATGTATCTCTAGCACATGTTTCCTCTGCTATTGTTGTTGGCTTTAATGTTAGGGCATGGGCAAACGCCTTAACTGCTGCAGAAAAAACAAAAGTTGATATTAGATATTATAGTATAATATATAATTTAATTGATGACGTAAAAGCTATTATGAGTGGTATGCTTGAGCCCATAGTTAGAGAACAGTATATAGGTAGTGTAGAAATTAGACAAATATTTAATATTACAAAAATAGGTAAAATTGCTGGTAGCTATGTAACTAAAGGGATTATTAAAAAAGGAGCTGGAGTACGCTTATTACGTGATAATGTAGTAATTCATGCAGGAAAACTAAAAACTTTAAAACGTTTTAAAGATGAAGTTAAAGAAGTGAGAGAAGGATATGAGTGTGGTATAGCATTTGAAAATTATGAAGATATTAGAGAAGGAGACACAGTTGAAGTTTTTGAATTAGTGCAAGAACAGAGACAATTATAATATATCTTTGATTGTGCTGTCATTGCACAAAAAATGAAAATTTTGATGGAATAAACTTGATATTGTTCTATTCTTTTTTATTACAATATTGCGCATTTATATCATACTTGTGAAAAAAGCTTCCATCGCAGCGGCATAAATTAAAGATAAATCTAGTGTTAAATTTCGCAATTTTTAGATTCAAGATTCAATACAACAACATTACTCTACATCAAGTTGATATCAAATATGTTTTGTAAGTAATGATATATGCTAGTCATATGATAGCTTCAGTGCTGTGTCAATGATATTTAGTAGCATATTTCTTTACACTTAACTCTAATAATTATTAGTATTCTTCTTTACTATTAATCATTTCTATTATTATAATGTTACGCTTGTAACGCTGATTTTAAGAAATGAGACAACATAATGGTAATTTATGCGAAATTTAATAGACCTGGGTTTCCATTATTAAAAACAGTTTATGATTTTGGAGTCAAGAGTTATAATTTTATACTAAATACATTTAGTGATTATAAAGTTGCGCATTGTTTTAATAATAACGCTGACGAAATATTGCATATCTTAGATTAATTTGCTATTTCTTGCTGATAATGAGTTAGTAAAAAATGCATGTAATTATTCCTGATGAGCACGTACATAAATTAGTTAATTATATTTTGCAAAAGCATTTTGAGAAATTAATGCGATTTATTATTTTAGTGAAATTAACAACATATATAGATAATGATCTTGCCTTAGAAGAGCTGATTGTGCAGTAAAATATCAAATAAATATATCTCGGATGAAAATATCATTATTTTAGCATGAGAATAAAAACTTGCAGAATATTTTGATATTGTAAATAAAATTTTAGATTATTAGGTTAGTTACATTCATTTCTAATGCTTCAGAAGTATTATAAAAATAACTGAAATTATTGAATCAGATCAACATAATTTATCAAAATCATTAGTTAAGCAAATACTAATATTAATACATGATAAGAGATATAGAATTAAGAATCATATGCAGTATTTTTATGTAATTAAGGTTTTAGTTTTGATTATGAAATTGCAATAGAATTATCAGTAGAAAACTTGAATAGTGCTTTGGCCACTTATGAGGTGTATATTTATAATAAAGCTCTGATATCATGTCATACATATGGTATAAAAAATGTACCACTGCTTTTAGTAATTTTATTGCAAACTTTTTGATGTTATTGATTTATAATCATTGTCGTGTGGAGCAAGTTTAATCTACTGCGTAATGAAGTATCTTGAGCATGTAGGACATAATAGCGCTACTAATAATTTTAATATTTTACATTGAATCTTACAGTCAAGTTACGATATGACAGAATTGAAATTGATATACAAAGTAATACCTTCTTGATTAGATTGAGATAATATAAATGCACCATGCAACAATGTTACATTTAACTAAGAATAATCTAATCTATTGTTCTTTTAGCATCAGGTTGACGTATATACAGTGGTGCAATAGAGTTATTTAACTTGATATCTCTAGATAACATAGTCGTAATATATCTACAAATCACCCAAGCTTTAACTCGTGCAAATCTTGGCAATGTTATTATGTGAGATAAATACATAATATTGTGATATATACATTCAAGTCCACTACCGCAGCACACTATACTACCTTGTTCTTTTGTAAGACGTTTTATAGCATAATCGTAATCTATTAATAATGGTTCTTCTCTTTTACCTGATTTATGAAAAACTTGCATATAAAGCTGTAAGCGATAAGCGTTTAAAAAGACATATATTTTATCATAGTTTTTAACTTGAGTTATAGCTCTAAAGTAAGCATATTCGAAATTGCTCACCACTACTGCTTTAATATTTTTCTTAGCACATAATATACCTTTAGCACTAGCAAGTCCTATCCTAATACCGGTAAAACTACCAGGCCCATTAGTTACTGCTAAATAATCTAGATCATCATATGAAAATTTAGCTAATTTCATGATATCTTCTATCATAGGCATTAAATTTTCTGCTTGTATAGAAGGATGTAATGCTTCTTTATATTTAAGAATATTATCATTTTCAGATATTGCAACCGATGTAGTATTATTTGCTGTGTCAAATGCTAGTATTTTCAAGGTATTAACTATGAAAGTGATGAATAAAATTCAGAATACTTTTGTAGATGAAATATATCGCTTTACCTCTATGTTTACATCTTTTTTGTTTGTACTCTATAAAGTGCTTAGATTAATTACAATATCGGTATAATAGTCTGATTTGATCTATAATGCTAAATATCACATCATTTATCATCTGCAAAATATGTTCTTACTTAATAAAATTTTTAAAACAAAAGAGAATATTATTATAAATATTATTACACCATAAAGTCAAATATTAGTTATATACTCTATAAACTCTTCGCGCGCTTTAACTTGTCTATTATTATGAAATAAATACCTATTAAAAAAATAGTTTGTTAAAGTTAAAGCTTGTTTTTTTTCTTCTAATGTAATTTCGCTGTCTTTCGCAAGTAAAAATTTGGGTAAAATCAATAACTTATCTCTATAAGGTTTCCCTACTTTATATGATAGTGCTCGAGCTGATTTAGGTGACACATAGGTTAAATCAGTTGTAACATGACTCACACAACACTTAGTAAGATCAAGCTTATAACCAGTCTCAGCAAGTAAATTTAGTTCAAAACTAATATAGTCACGAAAACAAAAATTCTTTGATAAATTATCTAAATAGTTAATTAGAAATGAAAAAAAAATAGAATGTTCTTCTCTTTCATGGAATAATTCTTGGATTAAAGATATAACAGAATTAAAGGCATATAATTTAGCTTTATTTATTATAAAATAACCAGTGTAAGATTTAATGAGTTCACATTTAGCAATGCCTATATGTTCGTGTAATCTTGCTTTCCAAAGAAAATCGACAATATTACCTTCTTGATATATAAATTTATTTTTTTTTGAAGATTCTTTTATAACTCCAGAATATAAACCATGATTTTTAGTAAAAACTCTAATAATAAATGTATTTTCTTTCAAAGGTTTTTTCGAAATTATTACCCCTATATCTTTGATATTCATTATTTTTCTTTATGTAATAGTATGGCTTGAACGCTAAAAATTTTAAAATTTTAGGATTACACCTTATAAGTTATAGGATTATTGTATAAATCACTTAATAATCTTTTAGCTTCTGCAGAAGCCCCTATATATACTATATTTTTATATCCTAGTTTGATTGCAGTAAATAAAGCAGCGTGATCCTGTCCTACATTTACAGTTAGCGCTAAAACTTTTTCAGGGAATTCTCTTCTTAAAGTTTTAAACATGTAATCAATTACTAGCATACCGTAATATTTTATGCTAGAGTCATCATTTGTTAATATTAGTGGCTCTTCTATACTATATAAAAAATTACGTGCTTCTTCCAAATTTTTTATTTTATAAACTCTACTCATTTAATGATCTCTTTTAGCTCCTGTAAATGTGCGCACGGAAATATAAAGTCATATGTTAAATTTTCAAGTTTAGAGCAGATAACCTTATTAAATCCAAGTTTTACAGCTTCTTTTATTCTTGTTTCTGCTTTCGCGGTTTTTCTTATTTCTCCTGATAAACTTATTTCGCCGAAAAATACACTATGTTCTGGTAGTGGTATGCTAGTTGCCGCAGATATTAAACTTGCTGCTACTGCTAAATCAGATGCAGGATCAGCAATTTTTAGACCTCCAGCTATACTTAAATATATTTCATAATTAGCAAGATTCAGTCCTATCCTACTACTCAGTACAGCAAGTATCATTGATAACCTGTTAGCGTCCCAACCTACAGCAGAACGTCTAGGAGTTACCATATTTGATGGTACTATGAGTGCTTGTACTTCCATAAGTAATGGTCTTGAACCCTCGATTCCTGCAAAAATAGATGTACCTACAACGTTATGATCTCGCTTTATTAAAAACAGTTCAGAGTGATTTGTTACTTCAATAATACCGCTATTACTCATTTCAAATACTCCTATTTCACCTACACCGCCAAAACGGTTTTTATATGAGCGTAGAATACGAAAATGATTATTATGATCTCCCTCAAAATATAATACTGTATCAACTAAATGTTCAAGTATCTTAGGGCCTGCTATTTGTCCATCCTTAGTGACATGACAGCTTAATAAAATAATTATATTATTTTGTTTAGAATAATTAACAAGCTCATTTGCACATGTACGAATTTGTGAGACAGTACCTGGAGGTGATGATAATTCTTTTGTTGTAATTGTTTGAATAGAATCAATAACTACTAGATCAATATTATTGTTATTATCATCTATACTTGCAATAATATCTTCTAAATTAGTAGCTGCTAAAATAGCAGTATTATAGTTAGTTATGTTTAGTCTTATTGCTCTTAATTTTATTTGATCTAAAGATTCTTCACCTGTTATATATAAGCAACGCATCTCTGATTCAAAGTTACTTGCTGTTAGCTGTAGTAATAAAGTAGACTTACCTATACCAGGCTCTCCTCCTATTAATATAGCAGAACCTAGTACTAAACCACCGCCCAAAACTCTATTTAATTCACATATAGGTGTGGGGATGCGTAACTGTTCAGATACGTTACATGAAAGCTTATCAAAAGTTTGTTTGCTACCTTTAATAATTGATTTATTTGTGTTTATTATCTCTTCGACAATACTACCCCATACACCACAATCAAAGCACTGTCCTGACCATTTATTACTAATATTTGCACAGTTAGAACATATATAATACTTTTTGTCTCTTGTCACTCTTGTCATGTTAAACTTATCCTTTATTGTGCATTTGCTTGAATTTAATATTGCATCCAGCAAAACAAAATATACTATTTAGACTGATATTTGAGATCAAGTTAGCGAAGATGAGAACTATACCTCAAGACCAATAGCTTACTTTGACCATATAGTTTTGCGCGTATAATTTCAATATTTTTATCTAAATCATAATCATCTGTTTTAGACATCTCAATCACTATTATAGTACCGTTTTTAAGCCAGTTATTTTTTATAAGCAATTTCATTACTTTAGGTACTATATCCTTATTATAAGGAGGGTCTATAAATACAAGATCAAAAACTTTATTAGACATATTACAAAATTGCTCTTTTAGAGGTAATTTATAAGTTATGTTAGTACTCTTATGCTTAGATATTCCTATATACGATTCTGCAGTAGTAATAAATTCGTTTCTATCAGTTTGTTTAGAGAGATATCTAGTAGTTTTCTGTAGATTTAAAGCATTAATATTAATGAAATGAACATTATTTTCAATGTTTAGAGATTTAGCGAATCCTGCAGCTATTTTTAATGAGTATGTATCAATATCAATTAAGGTAGCAAAGCCTGCGCCTCTTGATAAGCTCTCAAAAGCAAGACTACCGCTACCGGCGAATAAATCAAGAATTTGTGTATTTTCGTTAAATAATTTGTTACCTATAAACTCACCAGAGGTTAATATACTAAATATTGCCTCTTTAAGTTTACCAGTAGAAGGGCGATACTTGATATTTTGAGCAGTAGGTATAATTTGATTTTTATATTTACCTGATATTATTTTTAACACTTATTTAGTCATATACTTATTTTGTTTACTTTGATTTTTTGTGTATTGTTCTGACAAGTCCTTGGTCTTTAAGTACTTGTCTTAAATTTGCTACTAATGTAATATGTTACTTTAATAAAATCATTTCCAAGATTAGTAGCAACTAGAAGTGTAATTAAAATATTCAATACATTTGTACTTGTCGAATTAAATAAGTTATATAGTATTGTTTATATTTTATGAATTAGATCTTTCAAAATGAACAAAATCTCAATTACATAGAGATGTAAACATTCTATAAATCCTTACAATACATATATTTTGAGGTTAAGATTAATGTTATCTGATATACCTGATAAATTAATTGTTGAAAAATTAGGAAATATGAAATTACTTTTTATAAAGTTTTTTCCAACAATTGTATGAGATTGTTTCTATACTTTAATTTAATTAGATCAAATTCAAAAGAAGTACATCTTATTATATAAGATTTTATGTTTCCGATCAATAATTTATGACTCAATCTATTAAAAACACATTACTAATTGTTTTTCAAGTATTTTATTACTTATTTCCTGATAATTTCCTGGTTTTAGATTGCCAATTTTTAGCGCACCATATTGAATTCTAATTAATTTGTTCACTTGAAGACCAAAATACTCAAATATTCGTCTAATTTCACGATTTTTCCCTTCAAATAAAACTACTTCAAACCAAGAATTACTTTTATTTTGTCTCAGTAATTTTATCGAATGCGGATTATAAAATATTCCATCAATTTTTAAATTTTTATAATTATTTTTTAGTAAAATATTAGGATTTCCGTATGCCCTAACGTTATATACGCGTTTTAACTTACTTGCAGGCATTTCAAACTGGTGAGCTAAATCACCGCTATTAGTGAGTAATAACAAACCTTCGCTATTTAAATCAAGCCTACCTATTGAAATAACTCGTGGTAACCCTATTAGCTGTTCAAAAACAGTTTTACGAGATAATGGATCTTTATGAGTAGTAATTAGACCAACGGGCTTGTAATAAATCCAAAGCCTTGGTTTTTGTGTATTATTGATTAATCTACCTGACACTTCAATTTGATTACTCATGTCAACATTTGTAGCTGGTGATAAAATTGTAATGCCATCTATTTTTACTTTTCCTCCAACTATCAGCTTTTCAGCATTACGTCTAGAGCAGACTCCTGCGTTACTAATTATTTTGGCTAATCTACACATATTGAAACATAGTAAATTTTAATATACTTTTTTCTAATAAGTTTTTATAGGTAACATTTATACGTTGATCTGGTACTTGCATCTTTACATATGTTTCTGTACCTACTTTAAATTTCTCTTTATAAGCTAGTAAAAAAGGAAGAGATCTAAAGAATATCTGAAATATCCTTAAAAAGCAATTAAGAATTTGACATGTTTTAAACACAATAAAACAAATAAAAACTTTTATTAAATTTTGCTCTTTTGAATTTTCTTTTTATAAAAAAATCACTTCGCTTTTTTAATTTAACTCTCATTAAATTATGCAAAAAGTTATTAGTTTAATCCTATTAATATTATAGAACTACCTACTAGTATAAATAAGTATTATATTTAGTTTATAGTATTGATGTTTATAATTTGATTGATAATGTATTTTTTACATTAATTTAGATCTTAACATTTCAGTTAATCAAGGTTTTATTGTATTGGAAATATTTTTGAGGACATGACTCTTAAATTATAATGTAATACTTAAGCTCATTTCATATGCTTTACTTGTAGTATTTTTATAAAGCAAGTTATAGAAATTATTAGCTTTAAATGTATATACAATATTATATTATTAATTATCTTCAGTAACTTGATGTAGCTTTGTCGTGATAACAATAATGTAATACTTAATAATAAAATTAGTATAATAAATACAAGATAAACATTGTTATTGCAAGAAGCATTGCGTAATAGTTTTGCTAAGAAATTAAGTTAATGCGTATTTACAATATTCCCGCAATAATAACTTTCAAGTATTTAAATAGAGTTAAAAGTTCTTTTCTCTAAATTCCCAAATTTAGAAAATTGACTATCATAATAAAGAGAAACATTGCCGACTGGGCCATTACGATGTTTTGCAATTATTATATCTGCAATATTATATACTTTATTCAGCTTATCTAACCATTCAGCGTGTTTAGCATCTCCTGCTACTGGTTCTTTTCTAGTTAAATAATATTCTTCACGATAAATAAACATTACTATATCTGCATCCTGTTCTATAGTGCCAGATTCTCGAAGATCCGATAGCATAGGTTTTTTATCCTCACGTAGTTCTACTGCTCTTGAAAGCTGAGATAACGCAATAACCGGAATATTTAACTCTTTTGCTATTGCTTTTAAACCTTGAGTGATTTCTGAAATCTCATTAACTCTATTTTCAGATTTACTAACTCCTCTAATTAATTGTAAATAATCAATAAATAATATGCCAAGATTATGCTTTCGTTTCATCCTTCTAGCTCTTGTTCTTATAGCAGAAATAGATAAAGCAGGTGTATCATCAATAAAAAATTGTAATTCTGATAGAGTATTTGCTTCTTTGCGAAGACGATTATATTTATCTTCACTTAGCATTCCAGTACGAAGAGCAGTAGAATCAATTTCTGCACAAAGTGAAAGTAGACGTGTAGTTAGCTGTTCTGAAGACATTTCTAAAGAGAAAAAACCTACTGACTTAATTTCTTGATTATCCCTAATATTTTTAAGCCGCATATTATTACAGGTGTTAAGTGCAAGATTTATAGCAAATGCAGTCTTTCCCATTGACGGACGTCCAGCAAGAATTATAAGATCAGAATTATGAAAACCGAATAATTTATTATCTAGATCAAGCAAACCGGTAGATATACCGATTACGTGATCATTATTTTTCATGGCTCTATTAATACTAGCGAGTGATTCTGAAATAGATATACCGACTTTGGTAAAACTTTTCTCATTTAATCCTTCTTTCGTTAAATCGTAAAGTTTAGCTTCAGCATATTCAATCTGTTCTTTTGCTGCAACTGCTAATGAAGAATTATATGCATTATTTACTACTTCTTCACCTATATTTATTAAATTACGTTTTATCGCTAAATCATATATTATTTTACCGTAATCAATAGGATTTATCACCATCATTGACATAGTTATCAATTTTGCTAAATACCCTTCACCTTCTATTTCTTTGAATAATGCATCTTGAGTTAGCATACTACGTAAAGTAATTGGTGTAGCTATCAAACCTTTTTCGATAATTTTTTCAATTGCATCATAGATTTTTTGATGAATAGGTTCAAAGAAATGTTCATTACGTAAAAATTCTGATACGTAACTGAGTAATGCATTATTAGTTATAATTGCCCCTAACAGCATTTGTTCTGCCTGAATATTTGAAGGTAAAACCCTTGGTATTGATAAATTATCATCGTTATTTATTTTATTACGTACCATTTTGTTTGTTCAATCTTATTGTGTTAGAACTGTAAATTGTTATATCATGATTTATTCTATAGTATCAGAAAGTGTACATTGTATCTTTCGATAAAGATAATTTATTATATACTTCTGTTTCAAAAATTATTTGAAATTATACCATATAGATGAATTTTTATGTTCATTATTAGTAATATAATTATATTAAAAATAAGTTGCAACGCCTCAATACAGTTTTTAAATTACAGACACTATTGTAAGAATATTTGCTGTATGTAATAATGCTGCATCTTTGATTGTCATTGTAAATTCTTTATCTTAGGTTAGTACTCACTTATGAGTGTAAGCTAGTGAAGAAAATTAATTGAGTTATATTTTGTTCTGAATATATTAATTGTAATAATTACCAATTGTAAGAAAACCTCAATCAAAACATTAAAAATTGTTTTTGCATTTCTAAATTTCTTGTAATAATAATTCTATTACAAATTTAATCGCTACCTATTTTAGTAATAGCTTTTTCTATTGCTTATTAAGGCAAATGTATACATCATATAAATCACTTGAAGATACCTTTAATAAGGAAATATTAAGATGCTGTCTCATCATTATAGATTGACTAATTAATAATATGAGCAATATGAGCTGTAATAAGGAATATACGCTTTATCTTTGGTAATTAGAGATATAAAAAAACACTAAATTAATAATTTAGCACTTAAAAAGTATCTTAATAAATCTATATATTAACATTTATTATTAAGATAAATAAAGAGTGGAAATAATCTATAAAATATTTCAATTTTAAGGAGTAATAAGAGTTTGCAGTAATTGCATATTCTGTTTTTTGATGAAAAATTGATAAAACATAGTTATATCTAGTGGTATCGTAAACCTATAAATTTTGTAAACATTGAAAAAAGCAATATTATATGACAATAAACCTGAAGTAAAACCGAAGAGAATAAAATATTTTTAAAAACTAAATTTATCTTCTTAAAATCTTAAAAATTGCTAATTGTAATGTGATTAGACAATTCTAAGAGAAATATTATTACTCTCATATACATTGATAATAGAAATACTAAAATATCAGCAATAGCTGGGAAAATAATATATTTCAATGTACATTAACAAAAAAATTTTATTTGAATGATTGTTAAATATGAATTTTTTACTAATCACTACTCCATCGTTTAATCAAGTTAGTTTCAATATCAAAAAAATCTAGCACTCTAGTAATAGAGTGATCTATTATATCATTTATCCTTGTGGGCTTATTATAAAAAGCTGGTATAGGTGGTGCTATGATTCCTCCATAATGAGCTACTTTTAACATATTTTCTAAATGTCCTATATGTAGTGGAGTCTCACGGGTCATTAAAATAAGCTTTCGTCTTTCCTTAAGTACAACTCCTGCTGCTCTACTAATTAAACTATCTTCCATTGAGTGTGCGATACTTGCTAAAGTCTTCATGCTACAAGGGGCTATTATCATTCCAGCAGTTTTAAAAGAACCACTGGAAATAGCAGCTCCTAAATTTTTTTCGTCATAACAATAATTAGCAAGAAATTTGACTTCCTGTATAGAATATTTAGTTTCAAATTTTATAGTAAGAGCTGCGCCATCTGAAATAACTAAATGAGTTTCGATATTTTGTTCTTTGAGTACTTTAAGTAAACGAATACCGTATATTGCTCCTGATGCACCAGAAATTGCTATAATAATCTTTTTATTTTTTATCATTTAAATTTCTTTAATTCATTAAATTTAGTATATAATAAAAACAATATAAAATATATTTATATATGCGAATAGCAAAAATATTATTACCAGTATCAAAATTATTCCCATTAGATTATTTAATAACTGAAGATTTAGAGCTCAATATCGGTGATCTTGTTGTCGTGCATTTTAGAAATAAGGAATTAACTGGCATAGTATGGGAACTTGATACAAATTCTGAGGCAAAAAAAATAAAAACTATTGAAGCGAAAGCCCCATTGAATTTAAGTATTACTTTAGAAGTTTTAGAATTAATTAAATGGATGAGTAGTTACTATATGTCAGAACTTGGCAGTATAGCCAAGCTCGTATTACCTATAAATATTTCTGAAAAACCGATTAAAATTAAAGAGCAGCAAGTCAAGAATCACTTTGTGCTACCTAAATTGTCAGAAGAACAGAAACAAGCAGTAACAATTTTAAATGAAAGTAATAAACCAACACTTATTAAAGGTGTTACAGGATCAGGTAAAACAGAAATATATTTCCATATAATAGCAGATTATTTAATAAAAGGTCGGCAAGTTCTTATTATGTTACCTGAAATTGCATTAGGCAAACAAATTATTAATCGTTTTATAGACCGATTTGGTTTTGAACCTATCATATGGAATTCAAGTGTTACCAAAGCTCAAAAGAAAATGATTTTACGAGGAATATTAAGTAATAAAGTTAAAGTAGTCATTGGTACTAGAAGTAGTTTATTTCTACCTTTTCATAATCTTGGATTAATTGTGATAGATGAAGAACATGACGATTCTTATAAACAAGATGATAATATATTATATAATGCTAGGGATACGGCTATAGTAAGAGGTAAATTTGATAAAGCAAAAATTGTTTTATGTTCAGCAACACCGTCTCTTGAAACAATATATAATATAAAAACACATAAATATCAGTTGGTTACGTTAGCTAATAGATACAAAAATGTTGATTTGCCTAATATAGAAATAATCGACATGACTAAGGAAAAGTTACCTAAGAATTCCTATTTATCAAAGATTCTTATAGATGCTATCAAAGGTAATTTAGAAAATAAAAAGCAAGCATTATTATTTCTTAATAGACGTGGTTATGCTCCACTTATGTTATGTAAAGCTTGTGGTCATAGATTTACATGTAAATTCTGCTCTGCTTGGATGGTTTTACATAAAGCGACTAAAAAACTTGAATGTCATCATTGTGGTTATCAAAGCAAAATTTTTAGTTCTTGCCCTGAATGTCTAGAAGACGAAACATTAACTATATGCGGTCCAGGAATAGAGCGAATAGCAGAAGAAGCAATGTTACTATTTCCTAAGAGTAAAATTGCAGTAATAAGTAAAGATCATGCTAAAACTCCGGAAAAAATAGCACAGCTTCTACATCAAATGGAAAATTTAGAAATTGATATTTTAATAGGTACACAAATAATAACAAAAGGTTATCACTTTCCTAATCTTACTTTAGTTGGAGTAATAGATGCAGATCTTGGAAGTAATAATGCCGAGCTTAGAGCATCTGAAAGAACTTTTCAGTTACTACATCAAGTAGGTGGTAGAGCTGGTAGGGGAGATAGTAAAGGGGTCGTATATTTACAAAGCTATTATCCTGATAATATAATTTTTAGTTATGTTAAGGTTGGTGATGAAGATCGCTTTTTTACAAATGAACTTGAAATAAGAAAAGCAGCAAATATGCCTCCATTTTCTAAAACGGCATCTTTAATTTTGTCAGGTTTCAGTGAGTCTAAAATTTTAGATATTGCCAGAAAGATTGTCCAAATTGCACCAAAAGCAAACGTAAAAATCTTAGGACCAGCGCGCTCATTAATGTCAAAGCTTGCTGGTAAATATCGTTATCGTATACTCATTATAGCCGATAAGAAATTTAATTTACAGAAATATTTAAAATTTTGGCTAGGTTTTATCAAAATTCCCTCATACTGTCAGATTAAAATAGATATCGATCCTAAAACTTTTTATTAGTTTCTATATTTTGTGCGTTTATTCTTCGACGATCGAGATGAATTAGGAAAATGCTTAGTAAACGATTTTTTCTTTCATAGCTTTTTATAAAAACAATTTAGCTTTATCTAGGGTAAAAATATCCTCCAAATAGTATTAATCATTAATTTGTGTAGTGTCTATAATACCAATACCAAAATTTGCTGCATGCTTCAACTTATAACTATAGTAGATAGATTATTTTTATTTTAATATTATTAATAATATGTTATTAGATCATCTACTCTAAAAAAGCAATAAACTATTTTCCGGTACTCATATTATAATGATAGCTAAGCTTTGACATACGCTTAAGATCTTTTGATATAACATAGTATTGATTAATGATAATATACAGCAATTAAATTCATGAATCAAACAGTCTTATCTTTTGTATCATATTCATCCAGTGTATTTTTTGCTAAAAATAGGGTTTTTGAAGAACAGCGTGTTTAGTATTTTTAGGTTGGTTATTTTTTGTATACATATTTTCTATCTTGTACTAATTTAAAAATCTTCATTTAAATCATTAAACTATATTTTTATTTTCGTTAGCTTGTCTAAATTTTATAAATTGCAAGCAAATTTTTTTTGTCTAAAGCAATATTTTTACTATAAGATAGTTAAATGATATATTAAAATCCAAGTGATTAACTAAAATGAGATATTAATTTATGTACCCTCTTATTAGATTTAGAAGAAATAGAAAAGCTTTATGGCTTAGAGAGTTAATAGCAGAGAGTAATTTATCGATTAGTGATTTAGTGTTACCTTTATTTGTTGTTGAAGGCCATAATGAAATGCAAGAAATTAAGACTATGCCTGGTATATATCGTTTATCGATCGATCAGATAGTTGAAACTGCAAAAAAAGCAGCAGATTTTGGTATTAATGCGATTGCATTATTTCCTAGTATTGATCACAGTCTAAAAAGTGACAATGCAGATGAGGCATATAATTTAGATAATTTAATATGTAGAACTATTATAAAAATCAAAAACGCCAATATTGACATTGGTATAATATGTGATGTAGCACTTGATCCTTACACTATAAGTGGCCATGATGGTATTGTTCATCATGGAGAAGTTGATAATGATAGGTCAGTAAAAGCTTTATGTAATCAAGCATTAGTATTAGCAAAAGCTGGAGTAGATATCGTTGCACCTTCTGATATGATGGATGGAAGAATAGCAGCTATCAGGGAGTATCTTGACAAAGAAGGCTTTATAAATGTAGGAATTCTTGCTTATGCAGCTAAATATGCTTCAAGCTTTTATGGCCCATTTCGCGATGCAGTTCAGAGTAATAAAAAGAATTATTTAGATAAATCAAGCTATCAAATTGATGTGCGTAATATTAAGGAAGCAATGCTTGAGATTGAGCATGATATAGCAGAAGGAGCAGATATTGTAATGGTTAAACCAGGTATGCCGTTTTTGGATGTGATTCGTGAAGCGGCAAATAATTTTAATGCTAAAATTTTTGCATATCAGGTTAGTGGGGAATACGCAATGTTAAAATTTGCAGCAGAAACAGGGGCTATTGATTGGGAGAGAGCGTTAATAGAATCATTAATTAGTTTTAAACGTGCCGGTGCAACAGGAATATTTACCTATGCTGCTCTTGAAGTAGCTGAAATATTAAAGCACAATAACATTAAGTAGAAAACACATATTAATAATATCTTTGAAATAATCTTTACTTTATATTAAAAATTATCGAGTAAATATAAAGAGGCGTAGATGATACAAAATAAAAAATCAGTATTTAAAGGTTGGAATTTTTTAAAGCCTAAATTAGGCGGAGTTAATGAAGCAGGCGAGTATGGTGGATTATATCAGAGTTCAGATGGTAAAATTACTGCAATGATAAAAAAAGAACGGTCAAGTTCGAAAAATATAGCTGAGTTTTTAGGATCTCAAATTTTTGAAGCTATAAGCCCAGGAAATGGAGCAAAGGTTAATTTAATCGCTCCTGATGATTTTAATAAGTCTAAATCTGTTGATTCACAAATATATGTCAAATCTGAATTTTTTAAGAATTATAGTAGCGATATGTATGTGGATATGGATAAATATATGTCTGCTAAAACTAAACCAAGTTCTTGGTTTAGAAAGGACGGGGGAAGACCGCTTTTTATGGGATCTAGAAATAAATTATTTAGGACCTTAGAAAAGGCTTTTAAGGAAATTAAGTATCAGAACTTTGAAAAAATTATGCCGGCAAGTTTATTAATCGGCGATTTTGATATACATCTTGGCAATATAGGAGTTATAAGAAATAAAAAAAATCCAAAAACTTTACCGCGTTTAGTAAGAATTGATTTTGCTGGTAGTTTTGATAATTTAACGGATAATATCTATCCTCATTCAAGAATCAGACATTTACCTGGATTCGGTCCCACTAACCATTTTAGAGAATTTCCTTCTAGTTTAAGAACAAAAAATCCTGATTTTGCAGATAGCTTACTTGCAGCTTCTAAAATTGATTTAAGTAAAATCATTGATAAAAGTGTTGATAAATTAACTAAATATTATAGTAATGAAGCAATTGCAAAATTTGCACAACGAGCAATGCCAAAGCAATTTAATAAAAAATCTCACGCAATCACAACTGAAGAAATTAAAGCTAGTTTAATAGATATAATGAAAAAAAGGCAAGTATCCTTACAGGAATATGGCTTAGAGATTAAAATCAATACCTTAATTTCTAAAAAATATAGTTTTCCTTATTACGAAGTGAAAAAGCAAGAATTAAAAACATTAATAAAAGAATACCCTGATTATTTTGAAAAAATTCTTAATTATGCGAAAAGCAAAAATGGATCGCTAAAACTTAAATTAAGAGATAAAGTGACTACTAATTTTGCAAGGATTTTAGAAATATTTTGTATTAGAGATAGTGTAAAAACACATTTACTCAAGACAATAACAAGTTTAAATGAAGATATTAAATATGAAAGCAATTTAGCTAATTCTTCTGATAAAATAAAAAATGAATCAAAACCAAAATCAGTAAAGACTGATAGATATGGGACAAGAGAATATGTAGATTCTCTAGAAAAATTTTATCAAGCAGGAGGAATAGATGATGTTGTTTGTGTTACACCAAGTAAACTAGGGCTAATGAGTAAGGCTAAACAGGAAGACCAAGATCTATTAAAATTAGATGCAGAAGATTTAAAGCATATAAAGAATTTAAAAGAAAAACTTATGACACCTACTAAAATTACTGAATCTAGTATTTTTTTAAATAAAAAGCATACACTTACTAAAACAAGATAATAAATGAACCAAATAATAAAAAGCCTAGAACTAAGTAATTAATCAATAAAAGTCCATATTGCATTGGTAGCTTAATTATAGCAATCTTTTTAGAAAAATACATAGCTTTTACTACTTTAAGGTAATAAAAAGCAGCGACTACGCTAGTAAAAATACCACAGTATGCTAATGTAAATTCTTTTTTATTAATCGCTTGGTAAAAAAGATAATATTTGCCGAAAAATCCTGTAAGCGGAGGAATGCCTATCATTGAAAACATAACTATGCTAATTAGAGCTGCGATTGTTTTATGTGTTTCTGCAATGCCTTCTATCGTTTTAAAACTAGCGTTATCAACGTCTTTACCAAATAACATAATTAAGCAAGTAAAAAATCCTATACTGACTACTGCATATATTAGAATATATAATAGAGCTGCTTTATATCCTTCTTGATTATGAAGAAGAACGCCTATTAATACATAACCGATATTTAAAATGGTACTATACGCCATTAATCTTTTTAGCGAAGTTTGCCTAATAGCTCCAAAAGCTCCAAACAGCATAGATAATATAGCAATAATCTTGATCAAATTATAATTAATAGGGTAGTAATTACCTATAATTAATTTGCTAATATTTAATAAAACAATAACCATACCTATTTTTGAGGCAGCTGTGAAATAAGTAACAGAACTAATCGGGGATCCTTCATATACGTCAGGAATCCAAAAATGGAGTGGAGAGCTTGCAAGTTTAAAGAAAATACTACTTAAAAATAATACAATACCAATTATTAAACCAGGTTTGATTTCAGAATCATTATTTAGTTGATGTAATATATCATCAAATTGTATACTTCCACCAAAGCCATATATAAAAGAAATTCCAAATAATGATAAACAACTAACTAAACTACCCAATATAAAATATTTTAAAGCACCTTCTGAGGATTTAATATCATTTAATTTGAATCCCGCAAGTGCATATGAAGTTAATGCAGTAAGCTCCATACCACAGAATAATAATAAAAAATTCCGTGATGAGATTGCAACAAAAATACCTACGATTGATAATAGCATTAAAGTAATAAATTCAAACTTTAATGTCTCACCAACAAGAATAGAATAGTCACGGTATATAATCAATGATACTATAGTGAATAGTAATATTATGCTTTTACTAATACCAATATTTCTTTCTGTAGCAAATGAATGCCATATTCCTTCATAACTTGAATATTTAAAGGTAAGAAAAATTGATATTATGCATAATAAAATAACTATATTATAAATAATTCTATTTTTGTTTGGTATCATTAAGGCAAAACATTGCCCTAAAAGTGCTATTAAAGTTAAAGTTATTTCAGGGAGTAGCAGTAGCATATAAACTAATATTATTATGGGAACATAGATTTTATTGAATAAAGCATTTTTTATCAATAAATTGATATATCATATTGTATTTTAATACTACATACAATAAAAATAAAATTATTTCGCCATAAAAACGATTATACAAAAAACATTAATATAAAGTGCTATATAGCTTAGTTCTAATCATCTGTTTTCGTACTGATGCTGTAGTCGATTTTGTATCTTGTCAATATTATTTTATCACTAAATGTTAATTTTATTATTGCTGATAACTTACTAATTAATAGTTGAAATTGTTTTAGTTCATTCATTTTAAATTGTTTTAATAAAATTTTTCAAAATTATAACTTTGAATATAATGTAGCTTGCTAATTAAATTACATTAACTTGTAACTTAAGAACTTTATGAGCTTTCACACGCTTTACAAAATCTAAGCGACAATTACTAAATCAAAGTGCAGTTTTGCGAGGAATAATTATGAAAATTACAGATACTAGTGAGTAAAAATGATGAAGTTAGTCAAGTAGTATTAAGCGATAAAGTTCTTAAAGAACAGAAATTAATAGAAAATTTTGTTCAAATTAGAGATACAGAAATGATGATTAGAGAAGTGTTTTTGGAAGAGTTCTATATTGATAATATAATTATGGTATAGCACTAAGGTAGCAAATGTAAGGTAGTAACAATATATCCTGTATAGAAAATTACATAATAAATCTGAAACGGAAATCACAAATCTCTGAATCAATAAATATAATCCAAGTCGATAATTGCTCCCGTATTGTTTTGAGGCAGTGTGAAACCCATGTAATTTATATCTAGTACTTTAGATCTTATACAAATATACTATGATATTATAGATTGAGTATCTCAGTATAAGGACTAAATAATTCCTTCTAGGTGTAATGTGTTTTTTAGCTAGCAGCAATGAGTAACATATTTTGCCTCAAAGTAGCAAATTAAGGGGTGGATAGTGATATAATATCATAATGTTGATTATAATTCAAGAATTAGGAGTCCCATGGCTTTTAGGATGCTCATATCCAAATAAAAGCAATATTTAAAATGACTTTGCAATTTTTAGCAGAATGAATAGTAACAATGATAAGAATTAATTAGAATATTTTAGTAAGAAGTTAATTTGTACCATTAATGGTATATTAATTAGCGCTTTGCATAAAGATTAATTATATTTACTATTTTATAAGTAAATGAAACATTTTATTATGAATTCAAATATATTGTGAAATATCTTATCACAGGAGCATTGTGTCATTATTCTGTTCATAACATCATTTTAAGCAGTTTACGAATATTTTGGTGTCTTATCATATAATGGTCTTGATATTTAGTTGATTAATTGACGTATATATTAATGGCTAACTAGTAATATTTTACCATTGGTTCTGTAGTATTACACGGAGCTATAGTAGATTATTTACCTGTTATAATACGTAATTGTACTTATTAGTTTAGTAAAAACTTTATTAACTTCAAAATTTGATTGTATTGCAATATATATTGTAATATATTATCAATGTTGTTGTACAGATATATAAAAAACACTTTAATTAATATATTAGAAACTAATTTAAGTGATAAAACTATAACTTTATTTGTTAACCTGAACTTATTAAAAAGTTAAATGCATTAGAATGAAGTCTTTATTATCTAGTGTACAACAAAAGAATGAGTAATGAAAAAGCAAGATTATCCAGATTGGATTTGCAATTTAAAAGGGGTAGTTTACGTATTAAGTTGAAATCCATTGTAACGTGCTTGAGTATTATTTTCACAACTTAATTAAATCAATGCCACAGCTCGTCATTTGTATATCAATATAAAATTGGTACTTCAGCCATTGTTTTTGATGCAAAAATATTGATAAGCTTTACATTAACCACTAGTCATAGTTTTTTTCTTTAAAGGTTTTATATAAATTTTATACAAAAAATCAATAACAATGTTAATGCCGCATTTTCCGCTGCCTACCTGGCAAAATCAAGTTAAATATGATTTAGATAATATTAAAAGACTATTGAAGGCTTTAGGTAATCCACATTTAAGTCTGCCTCCAGTCATACATATAGCCGGTACAAACGGTAAAGGTTCAAGTAGTGCTATGCTTAAAAGTATCTTTACACTTGCTGGTTATACGGTACATTGCTATACATCTCCTCATTTATTAGAATTTAATGAACGCATCATAGTAGCAGGCGAGAAAATCTCAGATAATGCATTATGGCAAGTTTGTGAGCATGTACGGATAGCAAGCGAAAAATTTAATATTGAATCTAATTTTTTTGAAGGTATTACGGCAGCAGCGTTTCTAGCATTCGCACAAACAAAAGCTGATATATTAATTTTAGAAACAGGACTTGGTGGACGATTAGACGCAACAAATATATTTGAGCATCCTTTAATTACCTTAATTACGCCTATTTCTTATGATCATATGAATGTGCTTGGTAATACATTACACATGATAGCAGTTGAGAAAGCTGGTATTATGAAAGCTTGCGTACCTTGCGTAATCAGTATGCAAACCTTAGAAGTTTATGCAACATTATTTGCAAAAGCTGAAGAGCTAGATGTGCCTACATTTTGCTACGAATATGATTTCGGTATTCAAAAGACAGACAATGGATTTATTTATTCGTCACGCAATTTTACTTATGAATTTCCCTCTCCTTCACTACTCGGTGATCATCAATTAATAAATGCTGCAAGTGTTATTGCTTTAATAAGTTTAATAAATCAACAATTTTATATCAACAACGAAATTATCTCTAAAGGACTACAAAATACAATTTGGCAAGCTAGGATTGAAAAAATAGAGCCGCAAAAATATTCTAAATTAATAGGTGAGAATGTTCAAATTTGGGTAGATGCAGCTCATAATAATAGTGGAGCTCAAGTTTTAGCAAATTGGGTGCGTGTTAATTTAAAAACACCGATATATTTAATACTTGGTATGACTAAAAATAGAGATATAAAGGCATTTTGCTCTTACTTTAATGATTTGACAATTAAAGGTTACGGTGTTAAAGTTTTGTCCGAACCGCTAAGTCATAGTGCCGCAATAATAAATTTGGAAGGCAGAAAGAGTGGTATTGATTTTACTGAAAGTGACTCACTTGAAGCAGCAATTAGTGATATAAAGAAAAGAAATGGTGATAATAAAACAAATATTATAATAACCGGATCGCTTTATTTAGCTTCCGATTTTTATAAGTTATTATCCAATTGTTATCTAACGGATTGACCACTAGGCTTTATTATTATGCAATCCACAATACGAGATATCGCGATTTGCGGTATGATAGATATAGTATAAAAATTACTTGGGAGAAAATAACATGACATATTGTAGCAAAGCTAATCAACCCTCATATCCTTTTATCTTACCTGATTTACCTTATGATAAGGAGAGTTTTAAACCGCATTTTACTCGTGAAACTTTTGATTATCATCATGGTAAACATCATAACTCTTATGTACAAAATCTCAATAACTTAATCAAAGATAGAGAAGAATTGCAAAAAAAAGATTTAGAAGAAATAATAGAGTGGTCTTCTCAAAATGCGGAGGTTGCTATTTTAAATAATGCCTCTCAAATATGGAATCATACATTTTTTTGGTATTCAATAAAGCCACATGGTGGAGGAAAACCAAGTGGTAAAGTATTTGAACAAATTAGTAAAGATTTCGGTAGTTTCGAACAGTTTTGTGCACAGTTTAAACAAGAAGCAGTAGGGCAGTTTGGTAGCGGATGGACATGGGTTGTATATCACGATAATAAGTTACAAATTATAAAAACATCTAATGCAGGTACACCTATAGTAAACTTTATGAAGCCGATTCTAGCATGCGATGTATGGGAACATGCTTATTATATTGATTATCGTAATAAACGATCTGATTATATTGACATATTTATTAGGCATATGATTAACTGGAAATTTGTAGAAGATAACTTAATACAGTAATATAATAACATTAATAAGACTATGACTGATATAAAGATAAGAAAACATCATATTATTAATAATCTGAAGCAAAAGTCCAAAACTGATGTATTTAATGAGCAATCTGAAATATTAGAGCAGTTAGAATACATAACAAAAGATCAACATTCTCCTATCAACCAAATCAAAACATTGTATGAGCTAGAACAAGCACAAAAAGCGCCTATCGAATATATAGCTTTTAGTGGGGGTGGAGCTAAGGGGGCAATATATTCCGGAGTTTATGAAGCAGCAAAAAAAACTGGTATTTTAGATAATGTTAAGGCTGTAGCCGGTTCTTCTGTTGGTGCTATCACTGCTGCAGTGGTAGCTCTTGGGACACCGCCTAAGCGATTTGAAGAAATTTCTAAAAATACAAATCTGCAAACTTTATTTGGAAAACAAGGCTTTTCTGCAGGTATGATACAGTTAAATAAAGACGGTAAGCCTTTATATGATTTAATAGAACTGATTATTAAAGAAAATATTGGGAATTTTTTACATAGATCAGATATAGTAAATGTTCAAAATGATAAGGATCTTGATGAATTAAGAGAAAGATATAATCAAAAGGATGGTAAAATATATTTTAAAGATATAGCGTTATTACGAAAATACGATCCAGTGCAATATAAGGATTTAGTAATTACAGCAACACAACAAGAGACAAGTGCATTAACTATTTTCAATAGTTTTGATACACCAAATGTTGAAATCGCTTTGGCTTGTCGTGCTTCTGCCTCTATACCTATTGTTTTTAAGCCGGTAGAAATTGACGGTAAAAAATATGTTGATGGTGGATATAGAGATAATATACCGACAAAGTATTTTAAAGATAATGAACCAGAATTTTGTACAAAAGAAGTAACTAATAATTTGGAGGAAATTACATTAGCTAAGAAGCAAGGTAGAACTCTGGCTATGGTTTTTGGTACTGGCATGGGAGCTGATGCAAATATTGCTATATATAGTGCAAAAAATTTTGATAGTCCAAGTGATATCGTAAAGTTTTTAGTTGATGTATTATTTAAAATTATTGCACAAGTAGGAGGAAAATTTAAATATACTGAAACTTTAAGAGAAACTAATGAGCAATTGCGTGAAAACGCTTTAAACACCGTTGTTTTAGATACTGCTGGAATAGGTACCTTGGATTTTAAAGATGCACAAAAATATTGTGATTATTTGCATATTAAAGGTTATTGTCAAACTTTAGAACATTTGAATAATCATGACCTTACCAAAAAGATAGATAAAACATTTGACCATCAAAAATTTCTACTAAATGTTTATGAAGTTTATGATAATAAAAATTTACATAAAACATTTGGCACTAAATTATTTGAAATGTTTATTCCATCAAAAGAAAATAATTCTTCTAAATGGCAAGACGGCATTATTGAGACTCATAACGATAAGGCAAAAATGCTATTATCTTTTTGTAAAACAGGAGTATTGACTGAAAAAAAATTAAATGAAAGACTTAAAGAATATGTAATTATTGCCGCAACTAGTCGTAACAATACACTAAAGACCGATACAAACTCATTGAATGCTTTATTATATACATTAAATGCTTCTGCTGCTTCAAGTAAGATAAAAGATAGTTTCATTGAGGTATTAGAAATAGATAAAAATAAAGATACAAGGTTTGATAAAACTAAAACCTTTGATTATAATATTGCTAATTTTCAATTTACAAAAAAAGATTTAGAAAGTTTTTTAGCAAAAAATAAAAGCGCTGTGCTAAAAATTCAACGCAAACATGATGTAGCTAGGAATCAAAGGAGCAGGGGGTAATGAGTTTAATTGAAAAAAGATATTGTCTTCGTATATAGATTTCATCTATTTCATTTGGTAATGTTTAAAACATAATTATTAGTATTTTAGTTATTTTTCTGTATACTGTAGCAAAGTTAATGTATTACACTTACTGTATATTCTTGTCTATGCTTGCAATGTATATTTGCAATGATTATAAATAAAATAATGAACATCGGGAAATTTAAGTTGATTGTTTTTGATGAAATAGATAGTACCAGTTCTGAGGCTATGAGAATCGCAAGGCATAATAAAGTTTATGCAGACTATGCAATATTTGCTAAATCTCAAACTAGAGGACGTGGTAGAAGTGGAAAAAACTGGCAATCTAGATTAGGTAACTTGCATGTAAGTTTACTAATGAGGCCTGATAAAGAGTTAGAATTACTACCACAATTGTGTTTCGTTACGGCACTTGCAGTTTATGATACTATATTATCCTGTATACTTTACGCTGGATCTAATCAATTAATAAATAATTTCAATGCTGTGTCGGTGTGTCCACAGAATTATAGTATACAACTAAAATGGCCTAATGATATTTTGATGAATGGTCGAAAAATTGCTGGTATACTTCTTGAATCCGTTAAAATGGATAATAATTATTATCTTATTATCGGTATTGGTATTAATATCACTTATCACCCTGAGAATATCGATCAACCTACTACTAGCTTAATAACTGAAAATCTAATGCATGTAGTGCCAAAAGCTTTACTTAAGATCTTAATAAAAAATTTTGAAAAATACTATAAAATTTGGCACCATAATGGTTTTCCTTTTATTAGAAAAAAATGGATAGAACATGCTTATAAGTTAAATGAAAATATTAATATTAAATATCGCAATGATATAGTAACCGGTCTTTTTAAAGATATCGATAATACTGGAAATATAATATTACAACTAAATACTCAAGAAATAATCTCTTTTTCTACTGCCGAGCTTTATTTTTAGTAAAAATATTACTCATTAAATTTATGAGTTTTTTAAAAGTATTTTATTACTATTATTGCTATACATAAAATTTCTGTTTAATAAATTTGAAACTTGAAACGGTATAATGTGATCAGACGGTCATGAATCGATATAGCAAATATGTATAATATATTTGTAGATAGTAAATTTAAATAGATAATATATAATGACATATATTAACGCCATCTCTTTTAAGGTAAGTATAAAAATACTAGATTTAGATAAAGAAAATTGATACTATCACTGGCCAATTTTATGAAAAGCGTTTTAAAATGAAAGCTTTTAAAAATTTTTGTGACTATATCATATCTTATTCTTCTAACAATGATTAGGCAGTAAAAATTATTACAGGATGTCTATTGCAATAAATTAAATAATGCTATAAATTTTAGTAACAAATCGTAATACCACAACAAGACTTTATAAATTTAGTATAATCAATGAAACGTAGTTTTATAAAACTAGTATATATAGAGCTAAAGAATATCATAAATATGAAAAGTTTTAAACAACAGCAAAAAAAAAAAGACAATTAATTGATTATTTTAAAATAGTTGAAAGTAATATATTATATACATTTCGAAAAATTAAAAAGGAATATGAAAGAGACGAAACGTTTTTTTAATAAAAATAACAGATTAAATAAAGGTTATGCTAAGACTTTTAGTATCAATGAGCCTGATAATAATTTTTATCGTAAAAAATTTGAACATATATTACCACCAGTAGATTTAATTAGTGAATATGAAAGTATTTATCCTGGCACTTTACAAGAATTAATGCATATGGCACAAAAAGAACAAGCACATAAGCATGCGATAGATCTAAAAAACTTGAAAATACAGGAAAGAATCGCTAAATTAACACGAATTTGTTTATTAATATTTGGAATTGGTCTTGTGGTTTTAATTTTTTTAAAACTTTTAAAATAATTTAAAGATATTATTTACTTGTAATTTTAAATAAAATAAGTTAAATGCAATATATTTATTTATAAACATAATATGGAGAAATTTTATTTCTAAAAATAATTTGCCTAAGGCTAATAGAGAAATCAAAGCTAAAGAAGTACGTCTAGTAGACGAAAACAGCGAAATGTATGGTGTAGTAAATATTAGAGAAGCGTTAGATATGGCAGAAAGAGCCGGTCTTGATTTAGTTGAGATATCACCGAATGCTGTACCACCTGTCTGTAAAATTCTAGATTTTGGTAAGTTTAAGTATGAAAGTAAAAAGCGTTTACATGAGGCACGTAAAAAGCAAAAAGTTGTCGTACTTAAAGAAATGAAGTTTAAACCTAATATTAGTATAGGTGATTTTGAAACTAAGCTAAGAAAAATAAAAGAATTTTTAAAAGACGGAGATAAAGTAAAAATTTCTTTATGGTTTAAGGGACGAGAGATTCTTCATAAAGAGGTCGGACACGAACTATTTAAACGTATAGAACTAGCATTGGAAGGACTAATTAAAATTGATCAGCATGCAAAAATGGAAGGTAAGCAGATGATAATGATAGTTAGTCCTGATATTAAGGTATGATAGTTATAATATAATCACGTGTGTTGACACTGTGTTCTAGTATTATAAGGTTTATATCCTGAAGTCACGCAATTAAGGCGTGAAGGCTTATGCAAAAAAAATAATAACATAAATCTCAATAAATTATGCCGATTAAAATTTTAATGCCTGCTTTGTCTCCAACTATGAGAGAGGGGAATCTAGCTAGGTGGTTAAAAAAAGAAGGGGACAAAGTAAATCCCGGGGAAGTAATTGCTGAAATTGAAACTGATAAAGCAACAATGGAAGTAGAATCAGTAGACGAAGGTATACTTGCCAAAATAATTATTCCGCAAAATAGTCAAAATGTACCTGTTAACTCTTTAATTGCAGTATTAAGTGAAGAAGGAGAAGATAAAGCAGATATTGATTCGTTTATTGCACAAAATAATAGTGTATCACTATCACTAAAAACAGATGCTACTCTTAAGAAATCAAATGATAGCATAACTAATGTAGAAGGTATAAAACATGATTCCAATAAAATATTTGCCTCACCACTTGCAAAAAGGCTTGCAAAAATTGGAGATATTAGACTTGAGAATGTGCAAGGTAGTGGACCGCACGGTAGAATAGTCAAACAAGATATATTATCATATGATTCTAGCACTTCTTCTAATAAAATAGTGTATAGAGATACTGAAGAATATCGTTCAGTACCAAATAATAATATCCGAAAGATTATAGCCAAGCGTTTGCTTGAATCGAAACAAACAGTTCCACATTTTTATTTATCTATAGAATGTAATGTTGATAAATTATTAGATGTAAGGGAAGACATTAATAAATCTTTTTCTGAAGATAAAGTAACAAAGATATCGGTTAATGATTTTATAATTTTAGCTGTAGCCAAAGCTTTACAAGAAGTGCCAAATGCTAATGCTAGCTGGTCAGAAGATGCGATTAGATATTACAATAATGTCGATATTTCAGTGGCGGTAGCAATCGAGAACGGTATTGTTACACCGATAGTTAAAGATGCTAACAAAAAGAATATTATAGAACTATCTCGTGAAATGAAAACATTAATAAAGAAAGCAAAAGATAATAAATTAACTCCTATAGAATTTCAGGGTGGAGGATTTACAATTTCTAATCTCGGAATGTACGGTATTAAGAATTTTAATGCTATTATTAATACACCGCAAAGTTGTATAATGGGTGTCGGAGCTAGTACAAAACGTGCTATAGTCAAGAATGATCAAATAATCATCGCAACAATTATGGATGTTACTCTTTCTGCCGATCACCGAGTAATAGACGGAGCAGTAAGTGCTGAGTTCTTGGCATCATTTAAAAGGTTTATAGAGAATCCTGTTTTGATGTTGATATAAGAATGTCCTTTATAAAGGGTTCTATGTTATTTCCATATAGACTGTAATCTAGTTTTTATAAGCGTCATCATGTAGTGTGACCACAGATCTAAAATATTAGTAATTTAAGTTATTTTCTTGAATGCTTATAGTCAAATACACACTACTGCATAATAATAATTGCAACAAATCAAAATAACATGAGTTTTTCAGATAATTTAGTAAAAATTTTAGATAAATATGAAAATTTAGGCAAAAAACTATCTTCTGGTATTATTGGAGATGAGTTTGTTAAGGCCTCTAAAGAATACGCCGAACTTGAAGATGTTGTAGTAAAGATTAAACAATATAATAAGGCAAAATCTGAACTTGAAGAAGCAAATAATTTTAGGTTAGAAATGGCTCTTGATAATGCTACTTTAGAAATGATTGATAATGAAATACATACTCTTGAAAATTTACTACCAAAACTTGAAAGAGCAGTAAGAATTTCTTTATTACCGAAAGATGAGGCAGATAGTAAAAGTGCTATTATTGAAGTTAGAGCAGGAAGCGGGGGAGAAGAAGCTGCACTTTTTGCTGCAGTACTTTTTAATATGTATCAAAGGTATTCTGAGTTTAAAGGATGGCGTTTTGAGATATTAGCAATTTCTGATACTGGAATAGGCGGTTATAAAGAAGCGTCAGCGTCGATAAAAGGTAAAGATGTCTTCTCAAAACTTAAATTTGAGTCAGGTGTTCATAGAGTACAAAGGATACCAGAAACGGAATCACAGGGACGTATTCATACTTCAGCAGCAACGGTTGCTGTACTTCCTGAGGCTGAAGGTATTGATATTAAAATTGAAGATAAAGATTTGAGGATTGATACTTATAGGGCTTCAGGGGCTGGTGGGCAGCACGTTAATACTACTGATTCTGCAGTGCGTATCACTCATATCCCTACAGGTATTACCGTAGCCTTGCAAGATGAGAAGTCGCAGCATAAAAATAAAGCAAAAGCATTAAAAATTCTTCGTGCTAGACTTTATGAAGAAAAACGACGTCAAAAAGAACAAGAAAGATCCGATAGCAGACGGGGACAGGTAGGTTCGGGGGACCGTTCAGAACGGATACGTACCTATAATTTCCCACAGGGCAGAGTATCAGATCATAGAATAAATTTAACACTTTATAAGATAGATGAAGTAGTTAAACATGGACAATTAGATGAGTTTATTGAAGCTTTAATTGCTAATGATGAGGCTAAGAAACTTTCGGAACTATAAGCATGTATGTCATTGCAAGTAGCAATAGATTGTATGGTAATTGCATCAAAATTATTTCATAAACAATTTTTTGTGTAATGACCTGATATAGTAAAAAATAAACAAATGAAACCACAAATATCGATAAACGGTAAAATATGGAAACAGAAGCCAATTAAAGAAGATATAGTAACGGAATTATGTCGTAGTTTTAAAATCAGTGATTTTCTTGCTAGAATAGTATCATTAAGAGTAAATAATTTAGAGGAAGTAGAAAATTTTTTGATACCGAAAATCAAAAATTTATTACCTGATCCTTTTCATCTACTTGATATGGATAAGGCTGTTGATAGAATCATTCAGGCTATTGTAAATAGTCAACAAATCTGTATCTTTGCAGATTATGACGTAGACGGTGCTACTTCAGCAGCTTTACTTAAACATTTCTTACGAGATTTAAATATCATATGTGATATTTATGTGCCTGATCGTATATATGAAGGATATGGTCCAACTCCTTTGGCTATGCAAAAAATTAAAGGTAACGGCACTGAATTATTAATTACAGTTGATTGTGGTGCTATGGCACATGATGCGTTGAAATATGCAAAGGATGTTAAACTTGATGTTATAGTCATTGATCATCATATTTCTACTGAAATATTACCAGATGCAGTAGCTATAGTAAATCCAAATCGTATTGATGAAACAAGTGAATATAAATATTTGGCAGCAGTAGGTGTTACGTTCTTATTTGCAACTGCAATATTATCAAATTTAAAGAAGCGAAATTATTTCTCGCAAAGCATACCAACTCCTAACTTAATGAAGTATCTAGATTTAGTGGCCCTTGGCACTGTTTGCGATATGATGAAATTAACAGGTCTAAATCGTGCATTTGTTACAGCTGGATTAAAAGTAATGCAACAAAGGCAAAATATCGGTATTAAAACATTATATGATATTGCAGGGCTTGATGAAATACCGCAATGTTATCATTTAGGCTTTATTTTAGGTCCGCGTATCAACGCAGGGGGAAGAGTAGGTAAATCAAACTTAGGTGCTAATCTTTTAGCTACTAATTGCCATAATGAAGCAAACAAATTGGCTAATGAACTGGAAAAACATAATAATGAGCGTAAAGTAATTGAATTATTAATGATCAACGAGGCGATAGACATTGCTTTGACTCAAAAAGACAGTAGTTTATTATTTGTTGTGAAAGAGGGATGGCATCCCGGTGTTATAGGGATCGTTGCAGGAAAATTAAAAGAAAAATTTGATAAGCCAGTAGTAGTTGTGGCTTTAAATAACGGTATTGGTAAAGCCTCATGTCGTTCAATTTTAGGTATTGATTTTAGTGCTGAAATTATCAATGCTAAAAGTAAAGATTTGATAATATCAGGTGGAGGTCATGCTATGGCAGCAGGATTTACTGCAACTGCTAGCAAATTACAAGAATTACAGGATTTTTTAAATGATGCTTTTAGCATTAGTATAAATAAATTAGCAAGTTATAAACATGCTGAATATGATATTGATTTAACGGTTAATGGTGTGAATTTTCGTTTAATGGAGGAATTAAAAACTTTAGAGCCTTTTGGTCCAGGAAATTATGAACCAATATTTAAATTCGATGATTTATTTATATTAAAAGCGGATATCGTTGGAAGTAAACATATTAAATGTATGCTTGCTCCAGATAAACAATACTTTGGTAATAAAGCATTGTCTGCTATTGTGTTTGATGCTGTAGGTACTCCATTTGAAGATATCTTATTAAGTTCTCGCGCAAGACATATTTCTGCAATAGGAACGTTGAAAATGAATAATTGGAAATATAATTATACTATTCAGTTAATTATAAAAGATATACTTTTAAAATAGCAATTTAATAAATAAGATTATGAGTAATTTCAAGAAAATAAAAAATATTACAATTTCTAAAGATTTACCAGAAGTACAAGAACATTATCAAGATTATCCTTATCCTTTCAGAGATCCAAATCACGAAAAAGAACGTTTACTTACAATTTGTGGTGAGTTCTTAGGAGAATTAAACCATTTTTTATATAAAGGAAAAGAAAATTTTAATAATAATTTTAGATGCTTAATAGCAGGTGGTGGTACCGGTGATTCGGCTATTTATCTTGCTGAACAGTTAAAAGATAAAAATGCTGAAATAATATATCTAGATTTTAGTAAGCCTAGCATGGAAATAGCACAAAAACGTGCAGAAGTACGAGGGCTTAAAAATATAAAATGGATTCATAATTCAATATTAAATATACCTAATCTAAAACTTGGAAAATTCGATTATATAAATTGTACTGGCGTGTTACATCATTTAGCAAATCCCGATGAAGGTCTAAAAAATCTCAAAGCTTCTTTAAAGCCGACAGGTGGTATGGGCTTAATGGTATATGCTAAATATGGACGTACTGGTGTTTATCAAATTCAAGATTTAATGAAAATGATAAATAAAAATGCTCAAAATCGTATTGAAGAAATAATGAATGGGAAACTAATTCTAGATAACTTGCCTGCAACTAATTGGTATAAAAGAGGTTGGGATTTATTTTCAGATTACCAAAATTTTGGTGATATTGGAGTTTATGATATGTTCTTGCACAAACAAGATAGAGCATATTCTATTCCTGAGTTATATGAATTCATAGAAAAAGCAGGCTTAAATTTTGTTGATTATCTTGATCCTTTAGAAAAAATCTTATTAAGAACAGAAAATTATATAAAAGATTTTTCACTCTTGCAAAAAGTGAAACAGATGGATAAAGTAACTCAAGAAGCAATTTCTGAAATACTTACAGGTAATATTATTAAACATTCATTTTATGTATCAAATCAAAAAGATAGTGTAGCATCTCTTGATAATCTTGATAATATACCATACTTCCATAATATCGTAAATTTTGCTAAACAAATTTATGAATATTTGGAATCTAATTCTTCATCAATAAATGTTATTAATTTTACTATTAATAATGGGATATTAAATAATATTAATATCTCAATGTCAATATTTAGAAGTACGAAATATATTTTTAAATATATGATAGAAGAGAAAAGTTTAAGAGAAATATTTGATGCGGTACGCAGTGAATTAAACCAAGAAATAAGTGATGAAGCATTATTAAATGAAGTTAAAAATGTATTTATGCCATTACTTCATACAAATGTTTTATTGTTAAAATCAAAATACTTGTAAAGCTTGTTATACTGAAATTACTAAGATGTTTGTTATTGATTCTATATTATTAGATTGAGAAGTTTGTTTTAACAGTAAATACAAATATAATAATACGTACTAGTAATGATGATTTGGGTTGACAATGTGCTATTACGTTGTTAGTATACTTTTACATACATAGAAAGCGCCTATAAGCTAATAGGATAAATGATTCTTTAAACCGCAACAAGAATAAATAAAATTTTCTAAAATCTAATTTGATTCCTAATTTAAATAAGTATATTACTTACCTTTAAACTTAATTGCTAACTCAATTTTCAATTATAATCTATTAATAATAAAATAATGAACACAACTAATAAACAATTGACAGAAGAACTGAATAATACTGAATCCAATAACGATCATAATGATTTTGCAGAGAATAATATTATTAATTTAAAACAATTAAAACGTAAATTACCTGAAGAATTACAAGTTCAAGCAGAAGAATTAAAAATTGAAAATATTAGTTCATTACTTAAACAAGAATTAGTTTTTGCAATTTTAAAAAAATCTGTAGAGCAGGGAGGTTTAATAGTAGGAGAGGGCGTACTTGAAGTATTACCTGATGGATTTGGTTTTTTACGTTCGCCTGAAGTAAATTATTTAGCAGGTCCTGATGATATTTACATCTCTCCTAGTCAAATTCGTCGTTTTGGGCTTCGTACCGGTGATACGGTAGAAGGTCAGATTAGAGCACCAAAAGCCGGAGAACGTTATTTTGCTTTACTGAAAGTAAATAGAGTAAATTTTGAAGACCCTGCTAAGGCTTATCATCGTGTACATTTTGATAATTTAACTCCATTATATCCTGATGAAAAATTAGGATTAGAACTAGAAAATAATAGTAAAGATAGTAAGGATTTTAGTACACGGGTTATTGAGCTTGTGGCTCCTATGGGTAAAGGGCAGCGTGCATTAATAGTAGCGCCACCTCGTACTGGTAAAACCGTATTATTACAAAATATAGCACATGCAATTACAACAAATAATCCAGAAGTATTTTTAATAGTATTATTAATAGATGAAAGGCCTGAAGAAGTAACAGATATGCAACGTTCCGTGCGTGGAGAGGTTGTTAGCTCCACTTTCGATGAACCTGCAAGTAGACATGTGCAGCTTGCAGAAATGGTGATTGAGAAAGCAAAACGTCTAGTAGAACATAAAAAAGATGTGGTAATTTTAGTAGATGCGATAACACGACTTGCTCGTGCTTATAATACAGTTGTACCTTCATCAGGGAAAGTATTAACTGGCGGTGTTGATGCTAATGCACTACAGAGACCAAAAAGATTTTTCGGAGCAGCTAGAAATATTGAAAATGGTGGCTCACTTACTATAATTGGTACAGCTTTAATTGAAACTGGTTCTCGTATGGATGAGGTAATTTTTGAGGAGTTTAAAGGTACAGGTAATTCTGAAATAGTTTTAGATCGTAAGATTGCAGATAAGCGTATTTATCCGGCAATTGATATAACAAGATCAGGAACTAGAAAAGAAGATTTATTAGTAGATAAGATAATTTTAAATAAAATGTGGGTTCTTCGTCGTATTATCGATCCAATGGGTAGCAGTGAAGCAATAGAGTTTTTGCTCAAAAAACTTGAAAATACTAAAACTAACTGTGCGTTTTTTGAGATGATGAAGAGTCCTGAACGCCCTAGAAACGGTTTATAGTTATATCGTCATCGGTAAGGAAAAAGTTAAATTTTTGACGAAGTAAAAATCAAAAATCTGATTATTTTTTGAATTACTACATTCCTTGTAGTTGTTCTCAATAACTGTGTGAGTGCACTATTAAAAATATAATAAATCATGAATATAACCCCTGATTATTTAATTGAACGAAGACAACTGAAATCTCGATTGTTAATTTGGAAGCTAGCAGATATTATTTTAATTGCTATAATATGCTTACTAGTTGGTAAAGATCTTGTGTCAAAAGAAATTTTATCTATTAATAGTAATGAAGATTATATAGCTTCTGTATTAATAGATGGAATAATTCTTGAAGATGAAAAGCGTGACAAAAAGCTCAAAAAAATAATAGATGATTCTCATATTAAAGCGTTAATAGTTAACGTCAATTCTCCTGGTGGTACAGTAGTAGGATCTGAAAAAATTTATAATATTTTACGTAAAATATCAGCAAAAAAACCAGTAGTAGTAATTATGGGGACAATGGCTACAAGCGGGGGTTATTTAATATCTCTTGGAGGTGATTATATTATTAGTCATAATGGTACTATTACAGGATCAATAGGTGTAATACTACAAACAGCTGAAGTGACGGAGCTTGCTCAAAAGTTAGGCATTAAGTTTAATAATTTTAAATCAGGGGCATTTAAAGCTGTGCCAAACCCTACCGAAAAATTGACGGAAGCAGTGCGATTAGCAATTATGGAAAATATAGAAGATACTTATAAATTTTTCATTGAACTTGTTTCAGAACGTCGTTCTCTTCCTATAGAAGAAGTACAAAAGCTTGCAGACGGACGAGTATATTCTGGTCGCCAGGCTTTAAAATTAAGACTTGTAGATACTATTGGTTCAGAAGATACTGCGTTAAAATGGTTACAGGAAATTAAAAAAATTAACATTAATCTTACTATTAAAGATTATCAATTAAAACCGAAATCAACATTGATTGAAATGATATTTGAGGATTTTAATAGTTTACTCCTAAGTTTTTTTAAAAATAGTTTTAGTGGAATAAAATCGGTTTTTCAATAATGGTTACTAAGAATTATTTAATAGATAAAGTACATGATAAACTAGATTATCTTTCTAAACAAGATGTTAAAGAATCAGTAGATTTAATTTTAGATTATTTAAATGAATCGCTTAAAGAACAAAAGCGTATTGAAATCAGGAATTTTGGTAATTTCTCTATCCGTAAACGTAAATTTCCTGAAAGCAATAAATTCTATAATACAGTTTATTACAGAATGCCGAAAAATTTATTTAAAGATTAAATCAGCAATGGAATACTCTAAATGTAGTATTGTAGAGAAGTTAGAAAAGCATGGTTATTGCTATAGCTCCTTATATTAAGAATTTATAACTCTTTAATATTGAGATATGTCAAAAATGTGTTATTAAATTATTGCAAAAAGATATTTGTTTTTGAAGAATCATTTAATGTATTTTAAAGAAAAAATCCTAAATAATGATATGTTTAGCAGAATCTAACGATCATTCTATATGGTACTATGACGTCACTTTAGAATATAATTGAAAAATCACTATTATTCTGAACTAAAAATAAAAAACGATATGATCATTGAAATTATACAGTATTAGATTTTTAAGATTATGAAAAATCTTGAGATTTTTACTTTTAGTTAGAATAATAACATGTTGCTTTCATATAAGAGTAATAAGCAATCATCTTAAGCGTAATATTAATAATTTATCGCTCGTACTAATACATTTAGTCATAGTACTAAAAAATGCTTGTTATTTTTTCTTTTGTTAAAAATATTAATGTTAAGAAGTTAGTGCCAAAACAATATGGTTCCCTTCTTTTGTATTTATTAATTTAATTAATTAGCTTTTTGCTAAGCTCTTAAGGTATTTTAAAAGTCAATTATCAAAATTAGATTAATACAATTCTTTTGAAATATGAACAATATTTATTCTAATACAATTGTAATAAACTATAAATAAGATTATATATCAATATAGCTAAAATGCATTTTTGAGAAAATAGAAACTTTATCAACAATTTTCATAAATACTAATAAAACTTAAGAGAATATGTTGAATATTATTTCAGTGTACTAAGTTAATTTTTTTACTAAAAAGATTGCTCATATTTAGATTATGAATACTAATGCCGATAATGCGTTATATTATAAAAGTTAATAATGTTGAAATATCATAATTCTAATATGAATACAGATATAATTATACAAATAAAAATCAAAAAATATGTATAAATACTGGAAAATATACAATGGTGGGTGATAGTGGACTCGAACCACTGACCTTTACGATGTCAACGTAATGCTCTAACCAACTGAGCTAATCACCCTTATGTGTTTTTCAATTATGGTCCTTATAATATTTACAGTGAAGATAAGTGTCAATTGATTAGTTTAATAATTTATTGAAAACAGTGGATTTCCATAGCTAACAATTATAGTAAAGGAAATCTTAAATAAAAAATTTTGATGGATTCAAAAAAGTTATTATCAAACACCCAAGTAAAGAAAACGTATCAAGAAAATGGAATTTATACTTTTTTAAAAAGCTTATTTTAATCTTGATGCAGAAAGGTGATTTTGATGTTGTTACAAAATGTTTACTGCGCAAGTTACAATAGTAAGAATGCAAAGCGTACATCATATCTTTAATTGTTTGCATCGTTAAAAATACACTAAAACTGCAAATAATTAATTTTTGATTATATAATAGGCTTAATTCTGTATTAAATATAAATAATTATTATTTGTAACTTGCTATTGGAGACAATCTATAATGATTGATTTAAAAACTAAAGCCTTTGATATTGCTCAAAATTTTACTATTTCTCTTGATGGTCCTGCTGCTTCAGGTAAAGGGACTGTAGGTCTAATATTGGCGAAGAAATTTTCTCTTAAATATTTTCAGTCAAGTATTGTGTATAGGCAGCTTGCATTTAACTGTATTAATCAACAGATAGATATTACTGATATAGATGCAGTCATTGCTTTATCTAAAGAATTAAAACTTGATAATAATATTGATTTAGAGAATGAGGATATAGGAGATATTGCATCACAAATTGCAGTAATAAGTGATGTGAGAAATAATCTAAATGAAAATTTGATTAATCTAGTTAAAACAACGCCGAGAATTATTATGGAGGGTAGAGATATAGGTACTGTTGTTGCACCTGATGCTGATTTAAAGATTTTTATCACTGCAAGTCCTTATGTAAGAGCTATAAGACGATATAATCAGTTGCAAGCAAAAGGGAAAACATGTATACTTGATGAAATTATACAGCAAATAATTTTGCGAGATAAAAGAGATAAAGAGCGAAAAGCCGGCCCATTATTACCGGCTTTAGGTGCTTTCATTATTGATACTTCAAAACTTTCTGCTATAGAAATTGTAGAAGAAGTAACAAATTACATAAAGAATAAAATAACTTAAAAAAGTGCTCTGTTATTTTATTGCGTTATTGCATGACGCAATTTCTCTGTTGTGATTCAGCGACTCGCTTTCATGATCCAGTAAAATACTAAACTGATTACTGTTTTAGTTATTTTATGGATGTATTGAACATAAGTCATGTTATGACAACACGTTTGTTTCTCAATTGATGCAATAACATCCAATTTTATTAACCTTTAAAAAATTTTTATTAGCTTATGCACTTTCAGCTAATATTACGAGAATAATATGTCAATAAAACTAAAACAACGATTTGTTCCACAACTTGCAGCGATTAATTGCCAATTTGAAGAAGATTTTGCTCAAATGCTTAAAACTGTTGATACAAGTCATATAAAAGAAAAAACGGTAGTTAAAGGTCAAGTAATCGAAATAAAAAATGATATGATTATTGTGGACGTTGGGTTAAAAAATGAAGGAAGAATACCTAAGTCTGAATTTTTGTCTTTACCTGAAGTTGGGGATGTAGTTGAAGTTTTTATAGAAAAAATTGAAGGGCGTAACGGTAGAACTATACTAAGCCGTGAAAAAGCAGTTAAAGAAGAATTATGGGGACAATTGGAAATAATGTGTTCTAAGGGTGAATTTGTTGACGGTACGATTTTTGGTCGTGTAAAGGGAGGCTTTACTGTAGATTTATCAGGTGTAGTAGCATTCTTACCTGGAAGCCAAGTTGATGTAAGACCTATTAAAGATCCTACTTCTATAATGAATATCAAACAACCATTTAAAATTTTAAGCATGGATAAAAAGCTTGGTAATATAGTAGTTTCAAGAAGAGTTATCTTAGAAGAATCACGTTCTGAAGCTAGAGATGAGATGCTATCAAAAATTAAAGAAGGTATTGTATTAGAAGGAGTAGTAAAAAACATTACGGATTATGGTGCATTTATCGATCTTGGTAGTGTAGATGGTTTATTACATTTAACGGATATTTCTTGGGGAAGAGTGAACCATCCTTCAGAAGTATTAGAGTTTAATCAAAAAGTTAAAGTAATGGTTATTAAGTTTGATGAAAAAACCAAAAGAATATCGCTTGGTATAAAACAACTTGATTCTAATCCATGGGATGCTATTAAAGAAGAATTTCCAGTCGGTAAAAAAATGACCGGTAAAGTTACAAATTTTGCTGATTATGGTGTATTTTTAGAATTAAAAGATGGACTTGAGGGACTTGTCCATTCAAGCGAAATTAGTTGGTTAAAATCTAATCAAAACCCTAGAAAAATGTTAACTATAGGGCAAGAAGTAGAATTCATAGTTTTAGAGGTTGATACTGAAAAGCATCGTGTTTCTTTAAGTATTAAACAATGCCAAGAAAATCCTTTAATAAAATTTGCCGAAAATAATCCTATCGGTACTATAATTAAAGCACCAATTAGAAATATTACAGATTTCGGTATTTTTGTTGTACTTGGTAATAATATGGACGGTATGATTCATGAAGGTGATATTAGTTGGGAAGATAATGGAACAGATCTATTAAAATCATATAAAAAAGGTGACGAAATAGAATGTAAAGTTTTAGCTATTAATTTTGAAAAAGAACAAGTGAGTTTAGGTATAAAACAATTATTGCCAAATCCATATCAAAAAATCAGTGACGAATATAAAAAAAGTACAATAGTGAAAGCAGTTGTAACAGAAATTAAAGATGATGGACTTGTAGTACTATTAAACAATAAAGTAACAGGCTTTATTAAAAGAGTTGAATTATCAGATGAAAAAGATGAGCAAAAACCTGAAATGTTTAAAGTTCATGAAGAAATCGATGCGAAAGTCGTTTCTATCGAGAAATCGACTGGTAGAGTTTTATTATCGATAAAAGCTCATAAGATAGCAGAACGTCAAAAAACTCTCAAAGAGTATGGCTCTAGCGATAATACTACCAATATGGGCGATATACTTGCTAATGTTTTAGAAGAGAAGAAGTAGCAGTTTTTATGTTCTATTCTAGCTTTTGATTATTATCTCACGCGTGTTTAGTGAGATCAAAAATAATAACAATGTTAGTCTTTTGATTTAGATACCATTGACAATGGATGGTATAACATCTTTAATTAATCAAATTTTGGGAGAAAATATTAATGTCATATGTACCTGTAGTAATTGAACAAACATCACGCGGTGAACGTGCTTATGATATATATTCAAGATTACTAAAAGAGCGTATAATTTTTGTATGTAGTACTGTTGAAGATCATATGGCAAACTTAATTGTTGCACAATTATTGTTTCTCGAAGCAGAAAATCCTAAAAAAGATATTTATATGTATATCAATTCTCCAGGAGGTGTAGTTACTGCAGGGCTTGCAATTTATGACACAATGCAATTTATAAAACCTAAAGTTGCTACATTATGTATAGGTCAAGCATGTTCTATGGGGTCATTGTTACTTTGTGGAGGCGAACATGGGATGCGTTATAGTTTACCTCATAGTCGTATTATGATACATCAACCATCAGGAGGTTATAAAGGACAAGCAACTGATATAGAAATACATGCTAGAGAAACCCTAAAAATCAAAAGGTTACTTAATGAATTATATAGTAAACATACTAAACAAGAATTAAAATATATCGAAAAAAGTATGGAACGTGATAATTTTATGTCATCGGAAGAAGCAAAAAAATTTGGATTAGTAGATAATATAATTTCTTCTAGAGATACTATAGCATTCTTGGCTCAATAAAGAGTTTGTATTGTTAAAAATATAGATTTATTATAGTGAGAATCCACAAAGTTGTTTTTTCAATCAAAGTGTGAAATTAAAAATTTCCTTATGAGATTGCGTTTGTTAAATCTTTAATTTTTTGCGTGATAAGGTTAATTACTCATTAGTTTCTATTTCGGTAGATTAAGTATTTTATAAAAAAATCTTATAGATTTACTTACTATATTATAGTATAATAGAGGCGATTTATTATCGGGGTCATAGCTCAGTTGGTAGAGTATTTGAATGGCATTCAAAAGGTTAGGGGTTCGATTCCCCTTGACTCCACCATGTCTTATTTCTATTTCAATTTATCAATTGTAAACCAAGTACTTGGTTTTGTTCTACAATAATGTTTAATCTTTATTATAATATCTTTTTAGATTAATTGTAATTTACTGGGTATCTTCTAATTAAAAGAGCATAACATGAATAAAGTAATTAAACAATTATCACAATTAGTTAGTATTACAGTTGTAACATCAAATGTTACAGCAATAACGCTTATAATATAAAAATATGTTCAATGCATGCAGTAATGTTAAGAAGTTAAATGTCTATCATATCTAATTTGAAATATATTAAGTTAAAAATGATTTTGCTAATTATTTGATAAATACCTTTTTCTTCTCAAGAATAAGTTTTTATTAGTAGTGTTTTATTACTTTTTTACTGAAATTAGTTGATTATATAGTGCCCACTGTTTAGTCATGTGATGTTGCTCTATTATTTATACTGAATGACATCATTTTTAGAAGTTTTACATTAGTTATAATATTTTTGTTTCTTCATATCTTATTTAATGAACGATGTATCATGTATCAGTAAATTACAGGACTTAAAACTGTATGCTTTATTTTCTAATTTTTCTTTAGCAATTCTATTAATTTTTCATTCTGAATTATTATTTCTTGTGAATTTTGAAACAATCGTTAAAAGATAATAATATTTTGTTTTATTCTGAAATCTTAACATTTGTATTCAAAATAAATAGACATTAGTAAAAGAGAAGTATACATAATGCAGTTTTGTAGTTGATTTAAAGAATGTATCACTTGGTTTTGAAATATCATATTGGTATATGAATTTTTTAGAAAATAAATTGAAGTGATCTTAGTTCTTGGCGAGAATGACGGGACTCGAACCCGCGACCTTCTGCGTGACAGGCAGACGCTCTAACCAACTGAGCTACATCCCCTTCTACTTAATACATACGAGAATATATATTAATTCTGCTATTCCTGCAACACTAAAATATCTAATTTATCAAAAATTATAGTTCCTAAATCTCTAAACATTAGTACTTATCATTATTAATCAGTAATATTTTACTATCACAAGGAGTAACTAGAGAAGAATATAAAGCTAAAAAATGACTATTTTGAAAAAATACAAATTTTATCAGGAAGATTGCTATAAAACTAATTAAATCAGGACAATAATTCTATAGATAAAGTTTAAATTAATTTGTAATAAAACTTGCAATTATTCTCAATATAAATTAATTGTATAGGTGTTACTTTAGTAACACCTATACAATTAATTAGATTATAAAGGTTATTTATGATTATTTCAGTTTCAGGTCAACATATTTCTATCGGTAGTAATTTACAAGAATATTCAAAAGAGAAGATTACTCAAGGTATTAAAAAATATTTAACTGATATAATAAATATAGATATACATTTTTCAAAAGAGGGAATTAATTTTAAATGTGATATTATAGTAAAATACGGCTCAGGTAAGCATAATATAATCAAGAGTAATGATAGTTGTAGCGATATATATTTAGCTTTTGACAAAGCTATGTCAAAATTGGAAAAACAGCTTAGAAAATGTAAATCAAAATTCAAGAATCATCATTCTGGTAAAGTAAAAATATCAGAAATTGCTTACGAAGGTACAAAATATGTGATTAATCCATATTTTGATAGTGAAACGTCTAATTACGAAGATAATGATAATCCAACAATTATTGCTGAAAAGTCTGTTTAAATATTAAAATTATTAATCACAGAAGTGGTAATAAAAATTTATTTAGAAGATTTACCTGTTGTAGTATTAAAAAAACATTAAAACATATTCATATAATTTATTATCAGTAAAGACGATAATATTTCTTAGGTAGTTATGCTTATTGTCCCTTATAAAGGAATTATACCAAAAATCGCTAAAAGCGCATATGTCGCCAAAAATAGCGCTTTAATAGGAGATGTTGTAATAGGTAATAACTCGAGTATTTGGTTTAATACGGTTCTTAGAGGTGATGTTGAATCGATAAAAATAGGAAATAATACTAATGTACAAGACGGCAGTGTAATTCATACTTCAAGATTTAACGGACCGGTAGAAATAGGTAATAATATAACTATTGGTCATCTTTCTCTAATTCATGCATGTACAATACATAGTAATGCATTTATCGGTATGAGTGCTACGATAATGGATTATGCTGTCATAGAAGAATATGCTTTTATTGCTGCAGGAAGCTTAGTGCCACCAAAAAAGATAATTAAATCTAACGAATTATGGATGGGATCTCCTGCACAATTTGTTAGATATTTAACAGATAAAGATTTGCAATATATGGAAGATAATATAAGAAATTATGTAGAACTTGCAAATCTTTATAAGACTCAATCTCAATGCAAATCCCATAGTACAAACAATTGTAAGAAGTTGAGTTAATAACGATACTGCAATTTTATGTAATAAAAGATTCTTAAGATTGCCATACAAAAAGATAAATAATGATTTCTAATCCATTTAGAGTGCTATAGCATTCTTAAATGCCTTAACTGTATTTTTAAGTAAAAATGCAATAGTCATTGGTCCAATGCCTCCTGGAACTGGAGTAATATATTTTACTTTAGACTTGACATTTTCAAAATCAACATCACCAGCAATTTTATTGTGGCTAATTCTATTAATTCCTACATCTATTACTATCGCTTCAGGATTAAAATATTCTGCAGTTAATTTTAAAGGTGAGCCTATTGCAACAACTACAATATCGGCTTTAGAAGTAATAGAGCTTAAATTGCATGTTTTAGAATGACAAATAGTAACACTACAATTTTCTTGTAATAGTAAAGCACTTAAAGGCTTACCTACTATATTTGAGCGTCCAACGATTACAGCATCTTTACCGTTTAAATTCGGTGCATATTTTTTTATAACTGCAAGACAACCAAGAGCAGTACATGGTATAAAACCTTGATTAATCCCGCTATGTAAGTAACCAACATTTAAAGGGTGAAAACCATCGCTATCTTTCGATGGTAATACAGCCGATAAAATTTTATTTTCATCTATAGAACTTGGTAAAGGAAGCTGCACTATAATTCCTGAAATCCCTTTATCAAGATTTAACTCATTAATTTTTAATATTAAATCATCTGTATAAATATTAGTAGATAGATTTACTAATAAAGTATCAATTCCTACTTGATGTGCATTTTTTATTTTATTTTTTACATAAATCATGCTTGCTGGATTATCACCTACTAATACTATAGCAAGTTTTGGTGAAGTTTTAGTTTTTTCCTTAAATCCTTGAATTTCTAGCTTTAAATCTGCTAGTATCTCATTTGCTAATGCTTTACCATCAATTATATTATTTACCATATTATTATCCTTTTGCGTTTGTAATACAGTTGCTTGACCACGATATTCAGGCAAATAATAAATAATACTCATAAATTTAGTATTTTAACTGGAGTAATGATACTGTATCTTGTAATGAATATGCAAGTATCATTTCCTCAAGTTTATTCTTTATGCACGAATTACGTCTTAATTTATTGCTTCTGCTCATATTTGTTTGTAGAATATTCAAAATGTAGTGCCTTACCATCAAATACTCTACTATAAGCATGATGAAGGCTGCATGCAGCTTCCGCAAAACCTGTAATAATCAACTTAAGCTTACCAACATAATGAGCAACATCCCCAATCGCATAAATACCTTTGATGTTAGTTTGATAATAGTAATTATCTACTTCAATATGTTGAAGTCTTACATTAAAACCCCAATTTGCTAAAGGCCCTAAATCTTGTTTTAAACCAAAAAACGGTAGTAATATATTTGCATCTAATTTGCGGATATTATTTTGCAAATCTTTAACTATTACTGATCGAAGTTCACTATTATGCCCATCTAAATTATTTAATTGATAACCTGTTACTAATTCAATTTTACCAGTTTCTGCGATATGCCTTAATTGCCTTACACTTTCAGTAGCAGCAGTAAATTTATCACGTCTATGTACTAAATATATTTTATTTGCAATTTCCGAAAGTGTAATAGCCCAGTCAACAGCAGAATCACCACCTCCAGCTACAACTATATTTTTACCTAAAAATTTGCTTTTATCATTAATAAAATAAAAAATCGATTTGCCTTCAAAAGCTTCAATATTTGCAATAGGCGGTTTATTGGGACCGAATGCTCCTGCTCCTGCTGCAATAATAATAACTTTACTTTTAATAAGAGTATTTTTTGAAGTTTTTATTTCAAAAAAATCATCGTGTTTATTTAGTTCTGTAGCTTGTTGATTTAAGTGATATACAGGATTAAAAGGAGCTGCTTGAGACTCTAACTGTTTTATTAACTCTTTTGCTGCAATTTTAGGATAAGCTGGTATATCATAAATATGCTTTTCAGGATATAGTGTAATACACTGACCACCGATAACTTCTTGTGCATCAATAACGTGACACTTCATTCCAAGCATTCCAGCCTGAAACACTGCAAATAATCCAACTGGACCTGAACCTATGATGACAATATCGGTATTATACATTATTTTGTATTTAAATTAAAAAAAGGATTTTATTGGATATTGATGAAATAATCAATTGTTATATGAGTAATTTATAAATTAAACATTTTTGCAGTAAGTTTTTTAAAGCACTCTAGTATTATTATAACATTTCAAGGTTATGATGCATTCAATTTTTTGATGTAAAAATATTTTTAGCTTTGTTTTACAGTATATTAAATATTATTATCTATAATGTAATATCTGTGCTAATTCAAATCTCTTTTGGTAAAAAGAAAAGATTGCTATGTAAAAAATATTAATTATGAAAATTAAAATTTTTAAAAAATTATCGGTTTTATTTGAAGATAAGAGCTTTTTTAATCTTCTAATATGTGTTTTATTGTTAGTAGCACAAATTTATACTTTTATAAGTTATAGTTACACTAATCGTCATAGTAAAAATAGTGATAAATCTATATACAGAACAATTATATAGTTGATATCAAAGTAAGTATTTCCTTATACAAGATAGTATAATGATTCGACTAATTTAGTGTGCATAATAGTTTGTGAAAGGTTTTAAAATACGATGATATCTATATAATTGATCAGTAAAAAAACGATTATAAGTATATATGTACACTTGTAATAATAAACTCTTACAGCTCCCGCGATACGTGTTAAGACATTATATTAGAAATCTGTAAAATTCTTTAATCTAGATTCTAACTTTATAGAAATTACGTCGAATACAATAAAGTTGTGTTTTTTATAAAATTATTAAAGTTTAAATTAATTAAGATCTGTATATTTTGTATGTTAAAATCTTAATCATAGTACCGTGAAATTTATTTTTGAAATGTAATTCTATTTTAAAAATTTTATTAATTTTTCATTAAAACACTTCATCATTATAATGATTAAAATATACAGTACTAATATTTTAATTTAAATAAAGATCAAATTTATAAAAAATGAAGAGTAAAATTTAACGTATTTGAAACAGATAAAGCGGAGATAAGAGTTTTTTGTAATGATATTATAGTTTTTGAAACATGCATTTTCTAATTCTATTAACTATAACTTAAATTGGTGAATTACAATATAAATATTTGATTTCATATTGATTATTTATAAGAGGATGCGTGGCTCCAGAAAGATGTCTCAACACAAATGCTTGAAGATGTTTTCAACATTATTTCAATGTTATATTACTCTAGAGCCGTATATTAAAGGTTCTTTTGTATTATTTTTTTCAACAATAATGCGATACTTAAACAGTTTTTTTAAAAAATTTTGATATCTCGTATCTAGATCTAATAAAATACCAATCTTTATGGAGAAATGCAGCTTTTAATTACCAATGTATAGTAACTAAATCTTATTTTTGTCAAGTCAAAAATCTAAAAAAAAATAAAATATTTATATTGAATAAATTATTATTCTCGTGTCTACTTAATTGAAGTTCTATACACTAAAATGGTGTCATTTTTGCAAAAAAGCATTATAATAACGACTATAACCAATTAGTATCTATAATGAATACGCTTAAAAAAAATAAATTTCAAATAACTATAAATAACAAATATAACAATTTACTTACTCCTTTTGGTAAAGCGATTCTACGAGATCGATATCTTATGAAAGGTGAAGACTTCCAAGATTTATTTGCAAGAGTTTCTAGTCATTATGCTGAAAATAAACAGCATGCTCAGAAATTATATGAATATATGAGTCAAATGTGGTTTATGCCAGCAACACCAATCTTAAGTAACGGAGGAACTGAAAGAGGACTTCCTATTTCGTGTTTCTTGAATGAGACTGATGATAGCTTAGACGATATAGTAAATTTATGGATGGAAAATGTTTGGCTTGCTGCGCGCGGAGGTGGAATTGGAAGTTATTGGGGTAATGTCCGTTCTATTAATGAAGCGATTCGTGATAAAGGTCATTCATCTGGTATTATACCATTTATTAAAGTAATGGATTCAATGACTCTTGCTATTTCCCAAGGTTCTATTAGACGAGGTTCATCAGCTGTATATTTACCTATTAATCATCCTGAAATTGAAGAATTTATTGATATAAGACGTCCCACTGGTGGAGATGTAAACCGTAAGTCTCTTAATATTCATCATGGTATAACTATTACCGATGAATTTATGCAAGCAGTTGAAAATAATATGGATTTTGACCTTGTTAGCCCTGCTACCAAAAAAGTTGCAAATAAAGTGAGGGCAAGAGATTTATGGATTAAATTATTAACTACTAGAATAGAAACTGGTGAACCTTACTTGTTATTTATTGATAGTGTTAATAAAACTATCCCTGAGCATCATAAAAAATTAGGACTTCAAGTTAAAATGTCTAATCTTTGTAGCGAAATCACACTCCCGACAGGAATTGATCATTTAGGAAATTCTAGAACTGCAGTTTGTTGCCTTGCTTCTTTAAATTTAGAATATTATGAAGTATGGAAAGATGATAAAGAATTTATTCATTCTATTATGTTATTCCTGGATAATGTTTTAGAAGATTTTATTAATAAAGCACCAAATACGATGGCAAGAGCGAAATATGCGGCTTTTCGTGAACGCAGCGTTGGACTTGGTGTAATTGGTTTTCACTCATTTTTACAAATGAAAAAAATACCAATAGAATCTGTTATGGCAAAAGTTTGGAATAAAAAAATATTTGAATATATATCTGCTGAAGTCGATAAAGCTTCAATAGAAATCGGTAAAGATAAAGGAGCCTGTCCTGATGCTCTAGATTCAGGAAGTAATGAGCGATTTAGTAATAAAACAGCCATAGCACCTACTGCTTCAATTTCAGTAATAGCAGGTAATGCTTCACCTGGTATAGAGCCGTTTGCTGCTAATAGCTTTGTACAAAAGACTTTAACCGGTTCTTTTAATGTTCGTAATAAACATTTGGAACAGTTATTAGAGGAAAAAGGTTTTAATAATGATCAAGTGTGGTCTTCTATAGCAACACATGAAGGATCAGTTCAACATTTAACATTTTTATCTGAAGAAGAAAAGCAGATTTTCAAAACTGCTTATGAGATTGATCAGAATTGGCTAATTGAGCTTGCTGCAGATCGTACTCCTTACATTACGCAATCACAAGCATTAAACATCTTTTTACATGGTAATGTTAGTAAGAAATATTTAAATAATATTCATTTTAAAGCATGGAAAAAAGGAATAAAAAGTTTATATTATTGCAGATCAACATCAATACAGCGAGCCGATAAAGTTTCGCATGACGTATTAAAAGCAGATTTTAAAGATTTAGAGAAGCAAAATGATAAGTTAGCACAGACTCGTAACTATGAAGAATGCTTAGCTTGTCAGTAAATATATAGTTACATAAATCATATACCAAATCGTAATTTGTAAGCAGTGATGTACTGCATGTTAAACTCAAAAATTTGGTGTAAGATTACATGCAAAAAATTATTCTATAATTTCTCTAGCTCACGATAAAAAACCTTTAAACAATGTAATATTAGTAATAAATTATGTCACTACTTGATGCAAGTCCAATTTATAAACCATTTTCATATCCATGGGCATATGAAGCTTGGCACACTCAACAAAAAATTCATTGGTTACCAGAAGAAGTGCCACTGGCATACGATGTTAAAGATTGGAAATATAATTTAACTCCAGGGGAAAAACATTTATTAACTCAAATATTTCGTTTTTTTACTCAAGCGGATATTGAAGTGAATAACTGCTATATGAAACATTATTCAAGAGTATTTAAACCAACTGAAGTATTAATGATGTTATCAGCTTTTTCTAATATGGAAACAGTACATATTGCAGCGTATTCACATTTACTTGATACTGTAGGTATGCCGGAAGTAGAATATTCAGCATTTCTTAAATATAAAGAAATGAAAGATAAATATGATTATATGCAGCAATTCGGTGTTGATAATAAAGAAGACATAGCAACTACACTTGCAGTGTTCGGAGCTTTTACGGAAGGATTACAATTATTTGCTTCTTTTGCGATTATGCTTAATTTCCCTCGTTTTAATAAAATGAAAGGTATGGGACAGATTATTGCTTGGTCAGTTCGTGATGAAACACTCCATACTAACTCAATTATTACGCTGTTTAAGACTTTTGTAAGAGAAAATCCTGAAGTTTGGACTGAAACTCTACGTAAACGTATTTATGAAGCATGTACAACTATTGTGCATTTTGAAGATGCTTTTATTGAACTTGCTTTTGAAGTTGGCGGTATTGAAGGGTTAACGGCATATGAAGTAAGACAATATATTCGTTATATTGCTGATCGTCGTTTAATGCAATTAGGACTTAAAGATGTATATTTGGTAAATCATAACCCTCTTCCTTGGCTTGATGAAATGTTAAATGGAGTTGAGCATACGAATTTTTTTGAAAATAGAGCAACTGAATATTCTAAAGCGGCAACTACCGGTTCATGGGAAGAAGTTTTTGCTGAAATGGATAATAAATAGTACATAATAATAGTATTATAATACATATTTAAAATAGATTTAGAATTTTTGTTAAAATTAATTTTATGGCTGTCGTAAATACTAAAAACTATCAAAAAGTTGTAGAAAAAGTTTTATCTTCATCTAAAGCTAATAAAGCACTCAAGAGTGCAATTAAGGATTTATCATCTTCAAATAGTATAAGCTTAAGAACGATTTTACTTGGAGCAAAGTTTATTTTAACTCATCCTGTGAATACTTATAATCTTGTAAAACTTGCTAAGTCATCCAATATATATCTAGATCCGGAATTCCAAAAATCACTTCTAGAAAATTCTCCAATATGGGAATTTTTAAAAAAACATTCAGATGATTTGCCGAAAATAGGTCGAATATTAGCAAAGGCAGGTTTTAGAGAATTTCAAGATAAAAGTGCTTTAGATGAAGAAGGACTCAAAATACTAAAAGAATGTTTTAAAAATGAAAAAGTACTTAAAAAACTTCAAGATATTGCAATCGAAGTAAAGCAAGAGCGAACAGATTGGAATAAAGTAACTTCTAACATTCTAGATATGCTGGTTACCGATAAAAATTTCCAAAAATTCTTTAATGAAAAGAGTAAAGATATTACTCATTATATACGTAGCGGAGCAACTGAAATACTTCCAAGCGATTATATGAAATCTTTTGATGATATATTACAAAAACCAGAAAAGAAAAAATTATTAAAGATATTTAATACACATCCCGATGTTAAACAAGAATTAGTAAACAATATAAATAATCCTAATATTCTAAAAAAGTTTAATAAGTTATTCTATAAACAAGAAATAATGCTTACAAGTTTTTTAAAAGAAGTAAAAGCACAATCTAAACCTTTCTTACAAGAACATTTTGAAAGTTACAAAATCGATCTTAAAATTTTAGATATTATTCCTACTTTATTAAATAAAATTCCTGACATAAAAGAGATTTTTGATACTCTTAATGCTCCAAATAAAGGTGTCATGATATCGCTTGAAAAAGCCTTAGAAATGGTCGCTGGTGATGATCAATTAAAAAGTTTTTTTGCTAATAATAAAACAATCTTACCAAATATGGCTTTAGGTATTATTGAGAATACTCCTAGCGTACAAAGCATAACAAACGAATATAATTTTGATCAACAAATGCTTGTTATAGTAGGAGAAGTTATGTCAAAGCCAGAAATTGCTCATGAAATTATTGCAGACCTAAATAAAGGTGACTATATGAGTTTAACTGGTAATATAATCTCTATTATTAATGATCCTTCATTTAAATTAAAAGATATATTGGTAGAGCAAAGTAAAAAAGGGCTATTTGATAATTTAATTAATGGTGTTTTAGAACAAGATATAAAAAATAGCCAAATTATAAAGCAACAACTTATAAATTATGGTATGGAAGCGGGTGATGTTACAAAGCTCACTAAAATAATGCCTATATTACTTGATAAACCGGAATCATTAAAAAAGGTTTTCCGAGATTTTATTAAAGGTAATTATACAAAAATGACAAAAGAGTTAATATCTTTAACTAAAGATAATCCTAAAATTAAAGAATATTTAAATAATAATAGAGCAATCTTTGCAAGTATTTTAGATAAAACTTTGATGGATATACCAGGTATCAATAACCTTGATAAGCAAGAATTATATAATATACTACCATCAATGTTAAACCATCCTGATGAGTTAATTAAAGTTATAGAAGAAGTTGAAAAAAGTCATTACCATGGTGCAGTTAGTGCTATATATAATCTAGCTCAAAAAACAAATTATTTTGAAGGACAATTACCAAATATTATAAAAGCAGGGTTTAACTCAGGGTTTAACTATGCTACTGAGAAAGTAAAAGATGTATTTAGTTCATCAAGAGATTTTAAAGATAAAGTTATAGATGAAATTACTATTAGAAAACATTTAGATAAAATCCAAAATGGAAAATTTAACTTAGAAGGCGCTATATTATTAGGTAATTTATCAAATATTGATTTTTCAGGCGTATCATTAAAAAATGCAGATTTAACTAAAGTAACTTCTTTAAAAGATTGTAATTTTAAAAATACTAATTTAGTAGATGCTAAATTACCAGATAATTTAATAATGTTTACAGACACTTACAATCTTGATAAGGCTATCCCTACTTTAGCACCAAGACTAATTAAAGCACAACAAGCAAAATTAGTTGATAAGGCAATTGATAAAGTATTTGTACAAATAAAAGCAGAAGAAAAAAAAATTTTATTTAGTAAAAAAGAATTTTTACAGCAAGTCAAAATATTACTTGAAGAAAATCAAACAGTTAAAGACTATATTATAGATAAGCTAAATTCATTTCCTATGAATATGGTTACTAACCTCGAAACTCCTAAAATCAATCAATATAAACATATTACAAATCATGTTAATTCGCCATTTCAAATATTGAACCCGTTATATGAAAATATTGCAAATCAACAAGATATTAAGAGTAATTTATTTGCAAATATTTTAAGCGAGAAAATATCAAAAAAACTTTTTGATAAAGGGGATAATAGAGGTGAAGATTTTTATTTGATTAATCAGATGCTAAAATCTATCGTTGCTGAATATTCTAAACCAAATAATAATATTGATAATTTTTTAGAGCATAAAAATCTAGAAAAGTTAGCAAGTAATATTGCATCTACTTTATATTCTAAATCTAAATATACTTTAGTAGGCACTATTACCAGTGGAATTTATCTACCAAAAGAAATCTTTAATGAACAGTTAAAAGATAATTTCAAGAATGAGTTTAACAAAATTATAGATGTATTAAAAGAAGCAAAAAATATAGTTTCAAATTTAGAGAGTAAAGTACATATAGTAGATAATCAGAATAAATCACATGCTTACAAATTATTACTTGCAAAAAATAAAAAAATACATAGATAACTCTATTCTTTGCAATCAAATTGATTTGATTATTAGAATCAATTTTTATTAAATTAATATTTATTACATTTTTATTCAATATATTCAATTAAAGAATTTTAATAAAAATTGTTAAAGTACGTTGATATATCTAGATCCGGAATTCCAAAAATCACTTCTAGAAAATTCTCCAATATGGGAATTTAAAAAAAACATTCAGATGATTTGCCGAAAAGTGCTTTAGATGAAGAAGGACTCAAAATACTAAAAGTAATGTTTTAAAAATGAAAAAGTTTAAAAAACTTTAATATATTGCAATCGAAGTAAAGCAAGAGCGAACAGACAAAATAACTTTATAAAGTAATTTTCTTAAAATTTTAGTCGAGATTTCATGTATAAAAGTCACCTTGATAAGAAATAATATACTAATATATGATTCTCATCACGTATCCACTACTCCAAAATTATATAAAATTTAGAAAATCAAAAATATATGAATGTGGCTACTAGCATAGACAGCTTAGGCAATAGAATATTATTTGATAATTCAAATGTTATTAAAGAGTTAGTTGGTTATTTAAATCAAAAATCTGATAAAATAGAAGAATTATAAACTAAAGTTCTATCTGATATTAAAAAAGTATAAAGTATTGCTTTAAATTTAAATAATAAGATTAATATTCTAGGATCTCTCATACAATACCACTTGACCACTTGCTTATTATTTAATAGAACGAAAGGAGAAATTTAATAAATAAATTACACCAGCTGAATTTATTAAAAAATCACTCCTTTGTTTTTGGCTTTTGATGATCATATATTAATGGTAAAAAGTATCAAGATGACTTATGTATTGAGCTTCAGTATATTAACTTCTTAAAATAAATAATAAGTGTCTTAATATTTGTGCAAATTCTTCTTGGGTTGAATATTCTAATATTGTTTTATCTTGTATCTGGTGTGTAAACCAAGTCACTTGTCTTTTAGCATATTGACGCGTTCGCATTTGAGCTACATTTAAAGCAGCATCTAGTGTGAGATTTCCATCTAAATACGCTAAAATTTCTTTTATTCCTACAGCTTTTAAATGCGCATACTCTTCAGGAGTAAATTGCTTTTTTAATAAAGCAATTTCATCAATTGCTTTATCTTTAAATATCTTATCTAAACGCTCATCACAAGTTTTATATAAAAATTTTCGCTCAGGGTTTAAAAAAATAATTTTGAAATTAAAATCAGATAAGATTCGTTCTTTTGGTGCAGTATGAAAAGAAAAAATAGATTTACCAGTGTGCATGAATACTTCATAAGCCCTAATTAAACGCTGAGTATCACAGTGATTTATTTTTGTCGATGCAATAGGATCAAGTTTTTTTAATTGATTCCATAATTCTATATTACCTATTTTATCATGTAAATTTCTTACTTGTACTCGTAAATCTTCTGATATATCAGGAATATTATTATAGCCAAAGACTAATAGGTTAATATATAAACCAGTTCCTCCAATTAATATTGGTAACTTACCTCGAACTGTTATTTCTTTTATTTTTTTTGCAGCAAGTTTTAGATATTTTATTACTGAAAAATCTTCTGTAATTGATAAGAAATTATAAAGATGATAATGGATGTCGGTGTTATAAATTTGAATAGGAGAGGCGGTGATAATAGGTATTTCTTTATAAACTTGCATTGAGTCAATATTAATGATCTCGCAGTCATATGCTTTAGCAAGTTCATGACCTAAACAAGACTTTCCACTCGCAGTTGGTCCACATAATATAATTATTTCTTTCTTTATCACTTATAAATCTATAATTATTTAGTTGTGGTATATATTCTGATATCATATATGTTTTTTCTAATGGTGTTGTTGTATGATATGTGAAATATACGATATGTTATATAATGACTTGTGCACAGTATAATAATTAAAAATACTAAATACTATTTAAACCGTAAATAATGAGATCACAATGGGACCATAGAAGACGAATTACACTATATACAACAAGTTTAGTTTTATCTAGGAAGCATATAGACAATATTAGTATTGTCTTAAGTTTGTGCATTGTTCATTTTTTCTGTAATCTGTAAATTCAATATTATACTACACAATATTTATTCAATTGCTACATGATAAATAAATTCTTTAAACAGTTATATTCTGCTATATCACTTTTAGTTTTAAAATAAAAAGATCATCATATTATATATTAAATTTAATATATTAAAAATAGTATTTATATTTTAATAATTAATTAATAAATCGTATTCTACAAGATATTTATTCATCATAGCTATTATATTCTTTAAGCCATTTTTACTCACTGATTCAGCTCTTGCAACTATAATAGATTCGGTATTAGAACTACGCAGAAGCCACCAACCATTCTTAGTATTTACACGTACACCATCTATATCATTAAACTCGATTTTCGCTTCTAATAATTTTTCTTTAATCTCTTTAATAATTTGTAATTTTAATCTAGATGTAACAAAAATTTTAATTTCTGGTGTACTATAGATTTTTGGTAACTCATCTATTATCTTATCTAGAGTTTTACTTGATTTACTAAGTAAATCTAAAAATCTAAGAGCTGCATAAATTGCATCATCAAAACCAAAATATTTATCGGCAAAGAATATGTGTCCACTCATTTCCCCTGCTAGTAAAGCATTTGTTTCAAGCATTTTGTTTTTAATAAAAGGATGTCCTGTTCTACATATTATCGTATTTCCACTGAATGATTTTATTTTATCCACTATAAATTGACTAGCTTTTACATCAACTATTATATTTGCATTTGGATGTTCTTTTAAAATATCCTCAGCAAAAATACATAAAATTTGATCACCAAATAATATTTCTCCAACTCCACTTATAATACCGATTCTATCACCATCACCATCAAAAGCTATCCCAATATCACAATTTTGTTCTTTAACTAATTTAATTAACTCTTGTAAATTAGCAGGATTAGTAGGATCAGGATGATGATTTGGAAAATTCCCGTCAATCATACTATTTATGATTATATTTTTATTAGTTAAATGTTTTATTAGCTCTTCAATAATATTACATGTTGCTCCGTTACCTGGATCCCAAGCTACTTTTAGTTTTGGATTGATGTTTATCCCTTCTAAAATACGCTTTATGTATAGCTTTAATACATCAAATTCTATGCTACTCATGTAGCAACCTTTTTGTATATACTGTATGGAATTACTGTTTAGTTGACCTGCAAATTTTAAAGTATCTGAGGTATATTGATCTTTTATCTCATTCCAGCTAGACATTATTGTCATTTTGCATCTTGACTTCAGGTCGTGATCAAGCCACCGCACGCCATTAATTCTAGTCAATAATGTCTGTATCTGTGTACCAAAAAAAGATTTACCATTTTGTAGCATTTTAAAACCGTTATCATCACGGGGATTATGTGATCCTGTAACCATAATACTACCGGATGGCATAAAGTGTTTATCGGCAAAATATAAAACCGGAGTTGGCACTACACCAATATTTATGATTTCAGCTCCTGCATCAGTTAATCCGAGTTCTAAGGCTTTACAAAGTGTAGGAGAACTAATCCTACCATCTAAACCGACACAGATTTTGTTATTATCCTTTGTTATACTCATATTAGCAAAACAAAAGCCTATTTTATACGCTACTTCTTCTGTCAAGTGCTTAATACTATTGCCTCTTATATCATAAGCCCTAAAAATTTCTTTGTTAATGTTCATGAAACCTTTAATGTTGTTCGATGTCATACTATAGCCGACTAGACACGGAATCAAGTAAAATTATTAGTAGATTTACGTGGTCAAGCATAATATGACAACCTAACACATAATAACATAGCCTAAAAATTAAAACTCTCGCCTAAATATACTTCTTTGACTTTCTTACTGTTCGCTATTTCTTGAGCACTTCCTTCTAATAATACTTTACCTTCAAAAATAACATAAGCACGGTCTACTATATCTAAAGTATCACGTACATTATGATCGGTTATTAATATACCTATATTAAATTCACGTAAATAAGTAATGAGCTTTTTGATATCAGAAATAGCAAGCGGATCAATACCTGCAAGTGGTTCATCAAGCATTATAAATTTAGGTTCTATTACAAATGAGCGCGCAATCTCAAGTCTACGTCTCTCCCCGCCTGATAAGCTAGCAGAGGACAAATCTTTTAAATGTACTATTGAAAATTTCTCTAGCAAATTATGTGTTTTTTGTTCTATTACTTCTTTATCATTTTCAGATATTTCAACTACAGCCTTAATATTATCTGCAACTGATAATCCACGAAATATTGAAGGTTCTTGAAGGAGATATCCGATTCCAAGCCTAGCTCGTAAATAAATAGGCAAGTTTGTAATATTTATATCATTTAAAAGTAATTGTCCTGAGTCTGGTCGCATTAAACCAATAATAATGTTAAAACAAGTTGTTTTTCCTGCTCCGTTAGGGCCAAATAAACCAACTATCTCTCCTTGTTTTATATGAAGAGATATATCAGTTAATATATTTCTTTTTTTATAGGATTTTGATATATTTTTAATTTGTAAACTATCCATCTTTTTATTTATGTGTTTCCGGTAATACCTCCATTTAACCACGTTTTTTGACCATTGGCTCTATGCGTTATTAAATTTGTATTTTGGACAAAACAGAGTATTACATCTAACTATTTCCTAACAATCTCTACATAGTAGATTAGTTTATTAGTTTTTAAAACATGATCATTGCGTTGTAATATTACATTACCCAGTAGAATAAGTTGTTTATCAACAAAAAAATATTTAGCACTATCTGCAAGTAATAATTCATTATTTATTTTTCTTTCTACAGTCAATTTGCTCGGAACAACTATATGGTCAATAACTTGCTTTTCACCTATTGTTTTATAAAAAATATATAATTTTTGCGTTCTCAGTATCGCATTATCGAAGTAAACAATGACATTTCCAGAATATTCTGCCTTTTGTTTTATTCTATCAATAATTAAAGTATTAGAAGTAATTTGTAAATTTGCAATATCTTTAGCATTAGCATATATAGATATATTAATAGTAAGAAATATTATAAATTTAATAATCCGATAAATCGATGATTGTAGAGACATTACCTTTAAAAATTATAATATTATTTTCATCCATTGTATTAAAACTATCAGAAGTAATTGAAGAGTTTTTGTACAGTAATTTAGCAGAGGAGTTACCATATATATTCTGATTTACTAAATTAATTCTTGCATTGTTAGTGTTAAATATTATTTCATCAAAAAAAAGTTTTATATCGTTTTTTAAGTCTAATATGTTTGATTCTTGATCTAAAAAGCCTTCTTTTGCAGTAATAATAAGAGCTTGGTCTTGATTGATATTATAAATAGCATTTATTATATCTAGCTTATATTTGTTACCGGATTCTTTTATAGCTCGTTCAGTTTTAATTTTATACGCATTTAAATTTTTATTTACTCCTTCAAAAATTGAATCTTGCAATATCACATTATATTTTAAATCATAATTTTTATTGTCTCTTAAATTTAAATTTTTTTTGGTAACATTAATATCGTTTTTTTCATTAATATAACCGCTTTTAATTAAAATATATCCTATATATAACATTCCCACTATTATTAAAAGATATAAAGATTTCCAAATTTTTTTCCGCAGTTTATAAAAAGATGGCATATATTTTAACTAACTCCCATGCTTAGTAAATCATGAATATGAATAATGCCTATAATGATATTATCATCAACAATCGGTATATTAGTGATATTTTTGGCTTTCATTAAATTTAAAGCCTCTTGTGCAAATATTTCCGATGAGATATAATGAGGATTTTTGGTCATAATGCTTGATGCTGTTTTTAAATGGATTTGATCGTGAATATTACGACGTAAATCACCATCTGTGATAATCCCTATCAAATTTTGTTCTTTATCTGTGACAAGCGTACAACCTAAACGTTTTTTATTCATAATAATTATAGTTTCGGTAAAGGAAGTATCTTCATATACTAAAGGTATTTCATCGCCACTACGCATTATATTTTTAATTTTTGTTAAATTAGCCCCTATTGTACCACCTGGATGGTAAATTTTAAAATCATCTCTAGTAAAGCCTCGTTCTTCATGTATAACAGTCATGATAGCATCGCCGAGTGATAACATTATTAAAGATGAGATAGTAGGAGTACCAATTAACGATGCCTCCTGACATTCAGGTATTTTTAATAAAAAATCACTTCTTTTAGCTAAAGTGGAATTTTTATTCATTGTCATTGCGGCAATTTTTATCGAAGAATTGTTACAATATTCAATTATATTAAATAGTTCTTTAGTTTCACCAGAATTAGATAACATCATTACTAGATCATTTCTTGTTATCATGCCTAAATCACCATGACTTGCTTCTGCAGGATGTAAATAAAAGGAAGGCATACCGGTTGAAGAAAAACTGGCAGCTATTTTTCTTGCAATATAACCACTTTTGCCTATACCTGTTAAGATTATCCGCCCCTTAAAAGATAGTAAAAATTCTATAATTCTGTTAAAGTCTGAAGGAATATTGTTAGATAATGTTTCTAAAGCACTTGTTGCACTAGAAATAACCCTCTTTGCGATAATGCGGTAATTATTTGTATTGATCATTTAATTTACTCATTTTCACCGTGGTTTATTAACTATATCTAGTACATATTTAGTATTAGGAGTATTTGTTGATACCTAAATTATCATTGAAAAGAAATTACGCACTGAGTAACACATAATCTTAGGAATTGATGATGGTTTCATTTGATTACCACACAGCTTAAAACTTCTTACAATAATGGTCCTATGTAAAATATTTACGTTCTGTAATTACTTCAGACATTTCAGTATTATTATCTTCATTCCAAGTACGTTTTTTACTAGTATCACGTCGTTGCTCAGATTCTGAATCGTCTTTAACATTATTTTTTTGCTTTGTATTATTTGAAGAGTGATCTTTGTAAGCATTTTTAATAGTTAGTTTTGCTTTACCTTTATTATCAAAGCCTATTAGCTTAACTTTTACTATATCACCTTGTTTTAAAACACTGCTAACCTTATCTATTCTTGCGTCTGAAATTTCACTAATATGCACAAAGCCGTCTTTATTACCTAAATAATTAATAAAAGCACCAGAATCTAAAACTTTCATTACCGTACCGTTAAATATTTCACCGATTTCAGGCTCAACAGCAATCGCTTTAATTTTATCTAATGCAATTTTTATCTTATCCCTATCTGAAGCATAAATAGAAACTGTTCCGTCATCGCTTATATCTATTTTAGCATTGCTAGTTTCACAAATTTCCTTTATTATTTTACCGCCTGGTCCTATAATATCTTTAATTTTATCTTTGTCTATTTTTACAGTAGTAGAAGAAGGGGCATTTTTACTTAGTTCGCTATTTGGTTTACTGATCACTTTATTCATTTGCTCCAGTATATGCAAACGACCGAGTCGTGCTTGCTCTAAAGCTATTTGGATTATTTTAAAATCTATTCCTGATATTTTAATATCCATTTGTAATGCAGTAATCCCTTGACTAGTACCTGCAACTTTAAAATCCATATCACCGAAATAATCTTCATCACCGATAATATCCGATAATACAGCAAATTTATTACTTTCCTTAACAAGTCCCATAGCAATACCAGCAACCGGTGCTTTTATCGGCACGCCAGCATGCATTAAAGCAAGAGAACTACCGCAAACAGTAGCCATTGAAGAAGAACCGTTAGACTCAGTAGTTTCAGCAACTACTCTAATAGAATAAGGAAATTGTACTTTATTAGGTAATATTGGATTAATAGCACGCCATGCAAGTTTACCGTGTCCGACTTCGCGACGACTAGGTGCTTTCATTGGCATTGCTTCATTAACAGAATAGGGAGGAAAGATATAATTAAGCATAAAACGTTCTTTATATTCACCCTCTAAACTGTCAACTATCTGTTCATCTAAACTAGTACCAAATGTAGTACTAACTAAACTTTGCGTTTCACCTCTAGTAAATAAAGCTGATCCGTGTGCTGACGGTAATAAACCTACTTCACAAGCAATTTGTCTTATATCTGTTGTGCTTCTTCCATCAATACGTATATTTTTTTCTAAAATTTTATTACGTAATATATCTGCTGAAATAGCTTTTAAAGCTGATTCAATTTGATAATTATTATATTTTTTATTTTCTATATCACGTACAAAATGTGTAAGAACTTTTTCATATATTAAAGCTAAATCAGTGCTACGTTCTTGCTTAGATTTTATCTCAAAAGCTTGTTCAACTTCTTTTGTAAATAATTTCTCGATTTCTTTCTTTAATGAAGAAGGATATAAATCTTGCATTTCAAACTTTGGCTTTTTAGCCTCTTTTGCGAGTTCTTTAATTAGCTTGATTACTGTCTGGAAACTTTCAAATCCAAATTTTACGGCTTCTAACATTTTGTCTTCAGAGAGTAAATGTGCTTCTGATTCAACCATCATAACTGAATCTTCTGTTCCTGCGACTACTAAATCAAGCTGACTTGTTTTTAATAATTCAAGTGTAGGATTTAAAACAAATTCACCATTGATTAAACCTACTTTACTTGCAGCAACTATTTCTAGATAAGGGGCAGGGGATATGCTAAGGGCAGCAGATGCACCTATAATTGCAAGTATATCTACAGGGGTTGCAGGATCATATGAAAGAACACTGCAAGTTACATGCGTTTCATGCATAAAAGCTTGATGAAATAATGGCCTAATTGGTCGATCTATTAAACGAGATACTAAAATTTCTCTATCTGATGCTTTCCCTTCACGTTTAAAAAACCCACCTGGTATCTTACCAGCAGAATATGCCATTTCTCTATAATTAATTGTTAAAGGGAAAAATCCTATACCATCTTTCACTTTGTTAGCTACTACACACGTACATAATAAAATTGAATTACCCATTTTTACTGTAACTGCTGCATTAGCTTGCCTTGCTATTTTACCTGTACTAATCTCAAGCACTTGCCCATTCCACATGACACTCTTAGTTATTTCATTAAACATCTATTTATCTCATTTCATAATTTATATTCTATTAAAGATATCATTCAGTAATCATCAAACACTTAATCTCATATTGCAATATATATAATGAGATCAAATGGTCAAGTTACGTGCTTACACTAATTTAAGTTGCGGTATAAGTATAATACTTATACTACTTAATCTTTCTGATACCTAGCTTACTTATTAAATCTAAATATTCACTAACATTATTCTTTTTAATATAGTTAAGTAATCTACGACGACGTCCGACTAAAATTAATAATCCGCGTCTTGAAGTATGATCTTTATGATTAGATTTAAAATGCTCAGTTAAATTATTGATTCTTTCAGTTAAGATAGCACATTGCACTGCAGTTGAACCAGTATCATTTTCAGTAATAGCATATTCTTTAATTAATTGTTGTTTACGTTCTGTAGTAATCGACATCGATAATTTCTCCTTTAAATGTTATAATAAATTAAATACTCGTAAAGAATTAAAACAACTCTTGTTTAAGCTACCTATTGCAAGTAGAGTACCATTATATCGAACCCATAAAAAACTAACGTCTTCTTCATAATCAAATACACATTTTTGTCCATATTTAATTCTTTGTGCTTGGTCATCGGTTGCATCAAGAACCAGGATGTCGTCCAGTATTGCTTCTATCTTTATACTTTTTTTTTCTATAAAATTTTTGGTAATTTCGTCAGATGATTTAATTTTAATAGCATTTTCTGCTTTAAATATTCCAACTTGAGTACGGCGCAATTCTAGCACAAATCCTAAACTTTGCAAGGATAATGCCAAATCTTCTGTTAAAGTCCTTATATAAGTACCTTTTGAGCATTCCGTATAGTATGTAGCAATAGCATTTTCTTTGTCAAAATTCAAACATTTTAGATCATATATAGTTATATTGCGTGGCTTTAATTCTACTATTTTTCCTTCTCTAGCTAATTTATACGCTCTTACACCATTAACTTTAATAGCAGAAAAAATCGGGGGTACTTGTCTTATATTACCTATAAACTTAGAACATACTGTGTATACCTCTTCTTGAGACGGGATATAATCTTTTGATGCTATTACTTTACCAGTATAATCTCCGCTATCTGTTTGTGTGCCGAATTTTACACTAAAAATATAGGTTTTCCTAGCATCAATTAGCAACTGTATTAGTTTTGTAGCTTCACCTACTGCAAGAGGTAATATTCCTTCTGCTTCTACATCTAAAGTACCGGCATGTCCTATCTTAGTTTTACCGATTATTTTTTTTACTATATTAACAAGTTTAGCAGAACTTATACCTCTTGGTTTATAAAAATTTAACCAATAATTACCCATGAATATATGATATAAAATGCAAAATTGATAGACACAGTTTAATTTCAACAAGAGCAAAAAGTTTATAATGCAAGGAGCATTATTAATGCATGAGTACTACAGAGCTTATTAAGACAACTTAGCCAATTTTAAAATTAAACGAGTATATCCTTGACTTAAATGTAGAAAATCTTTAATATATAATTCTAGCCAATAGACATAGGTTAGACTCAATAATGACGATTAACGCCAGTAATATAGAAAATTCTTTTTCTAAAATCAATAGCCATTTTTCTAAGCTTACAGATTATATCTGGCCTATAAAACGCCACGAAATTTCTAAGTTTTTATTCATTACATTATTAATGTTCTGTATTTTATTTATTCAAAATCTCATCAGAGCTTTAAAAGATAGTATTGTTACTACTATGATAGGTGCTGAGACTATATCATTTTTGAAATTTTGGGGCGTGATGCCGTCAGCATTCTTAATAACTGTTATATATGTTAAACTTGTCAATAGGATGAAAGCAGAAAATATATTTTATCTTATTATATCAATTTTTTTAACATTCTTTGCTTTGTTTGCATACGTTATTTTCCCAAATCATGAAATGCTGCATTTAAGGCCTGTAACCGTGCATAATTTAACGGCAAGTTTACCGAATTTAAAATGGTTTATACTTCTTTTATCAAAATGGAGTTTTTCACTATTTTATATAATAGCCGAATTATGGCCAAATGTAGTTTTTGCATTACTGTTTTGGCAGTTTGTGAATAATATTACTACAGTAGAAGAATCGAAAAGATTTTATCCATTATTTGGTTTACTTAGTCAAACAGGTATTTATTTAGCAGGACATTTTTTAGAAAATCTAAGTAATATAAATTATTATGTCACTAATAAATTTGCATTGCAATCGTCTTTTCATACACTTTCTATACAAATTATACTAACTATAGTATTAATTTTAGGCATAGTATCGATAAAAACTTTTTGGTTACTTAATCATAAAGTACTAGACAAAAAGCATATGGCATTACTCAGGTTCAAAACAAAAAATAAATCTATTACTATTGCTAAAAGTTTTCAGATGATTCTATCGTCAAGACACATTAGATTAATTGCAACTTTGCTTATCTGCTATGGCATTGCAATTAATTTAGTAGAAGGCCCTTGGAAAGCAGCAGCAACTAAAATTTATAAAACTCCAACCGAATATGCAGCTTTTATAGGAAGTTATTTAAGCTACACTGGAGTATTTACTATTTTCTTTGTTCTACTTGGTTCCAATATAGTTAGAAGAATGGGCTGGTTTACTTCAGCTGTGATCACACCTTCAATAGTTTTTATTACCGGTATATTATTTTTTGCTGTTAATAATTTTGAAGGCTTTGCTGGCTTAATAATAGCAAATTTTATTTTGACCGATCCTGCTTTAGTTGCTATAACAATAGGTGCTATTCAAAATGTACTTAGTAAATCAAGCAAATATACTTTATTTGATTCTACAAAAGAAATGGCTTATGTTCCTTTAGAACCAGAAATCAAAATAAGTGGTAAGGCTGCTGCCGACGTTATAGGTACAAAACTCGGTAAATCCGGTAGTGCATTTTTACAATCATTAATATTTATAATATTACCTTCTGCTAGTTATCAATCTATTTCAATCTGTTTAATGATTATATTTATCCTCACTTGCGTAACTTGGATTTGGGCTACTAAAGAACTAAATAAAGAATATAAAAATTCTATTAAATTTTCTCAAAAATAATATCAAATTTTTTCTTGATATTACTATAATCTCTTTATACTATCTAATAGTATAACACAAACTATGAAAGTGGTAGGTTATGTTATTACAGCAAAAGCAGAAATCCAGCTTTTTCTTCTATAATCCTGTGTCTTAAGCTAAGTACGGGCTCTTTTGGATGATTTTTTTTGGATCTAGCTCACAGGTCTCGGTATAACATTTAGTTTGTGCTAATTAATTTTTTGTTAAATTAGAGGTTTTATGAGTAAAAACGGTAACCAAGATATAAGTGAATTTGATCCTTTAAATAGAGAATTTACAGAAGCAGAAAAACAACAACAAATGCAACAAGAACAAGAATTTTTTTCTCAAACTATACTAGATATAGCTGATGATGGTTTTATGGTTGCATCTTCTTCTCAAGCTACACCTTCAATTAGTTTTTTATCAAATAATCGTCCACATGGTGATCATAAATCAGATCCAATAACTGAAGCTATAAGAAAAGAAATCCTTGAAAAACAAAGAGATATATTAAGAGAATATTTTGTTAATACAAATCCAGAACTAGCTGAACAAATAGCAAAAGAAGAAGACGATAGAAAATTTCGTGCTTTTTTGAGTAATCAAGATAATTATGCATTAATTAATAAAGCTTTTGAAGATACAAAGACGAAAAAGAACCTAGAAAAAGCTGAAATAGTCGGTTATAAAAATGTTCTTTCTACATATAGTGTTGCGAATGGATATCAAGGTGGATTCCAACCAGTACAGTGGGAAAATCAAGTCAGTGCAAGTGATCTTAGATCCACAGTAGTTAAAAATGATGAAGGTGAAGAACTATGTACCTTAAATGAAACAACTGTTAAAACTAAGGATTTGATTGTAGCAAAACAAGATGGTACTCAGGTTCAAATCAACTCATATAGAGAAATAAATTTTCCTATAAAACTTGATAAAGCCAATGGGTCAATGCATTTATCTATGGTAGCATTAAAAGCTGATGGTACAAAACCAGCTAAAGATAAAGCAGTATATTTCACTGCACACTATGAAGAAGGTCCAAATGGTAAACCACAACTTAAAGAAATAAGTTCACCACAACCTTTAAAATTTGTAGGAACCGGTGATGATGCAGTAGCTTATATTGAGCATGGCGGAGAAATTTATACGTTGGCAGTTACACGTGGTAAATATAAGGAAATGATGAAAGAGGTAGCACTAAACCATGGACAGAGCGTTGCCTTATCACAAACTATAGCTGAAGATTTAACACATGTACAAGGTCCATCTCATGAAACACATAAACCAATAATAATTCCAAATCAAGAATTAGAATCATCTATTGAACAGTATACTAGTCAACAAGTGCCACCAATCACTACGTTCAACAAATCACTGCAACCTAAAATTTCACAAATACATCAATTGCAACCACAACAAGCTCAATCTTCAGGAATTCCAAATCCAGTACTTAATGCAGCTAATGCTTTATCAACAAGTATGCAAGATTTATTAAATAATATAAATTCATATTTAACAAAAAATCAAGATATTAATAAGCAAAGCGATTTAATTAAAGAAGCTGCTATCGCAATTCTTAATAATAAGAAAAGTGATTTTGCTGAAAAGCAGTATAATATAATTGATTTAGCTAAAAATATATTCTCTAATAAAGACATTATAGCAGATGCTAAAGTAAATGTAGTAAATACATTATTAGAAACCATACAAAATGATCAGAATACACTAGACATAAAAAAATCAAAAATACTTGAAGATACAGTAGCTATCACATTAAACTCCGAGAATATAGAACTAAAACAAAAACAGCAAATATTAGAGAAGGTAGTAGATATCGGTTTAAGTATTAAAGATGATATAAGTAGAGTTGTAGCAGTTGATAGTATTATGGATACTGTAATCAAGAGTAACATTGCTAATGAAGATAAAGAGAAAATATTTATAACAGTATTTGATCAAATTAATAGCTATGAATTCAGTAATGTTGCAAAACAAAAATTGTTAGATTCTATATTAAAGAAAACTGCAGAAACGCAAGTTCTTAGTCCTGAACAACAACAATTGATGAATCAGAATTTAGATAATATTACAACAGAACACACTAAAAGAGATACTATAGAAAAAGTAAATAATATTTTACTTGAGCCTCTCAGTAATACTGCATTAAAAACAACAAATATACAAGTCATGACATCTAATGTGCTAGATAGTCCAGTTCAAATAGAGATGAAAAGTAAATTAATCCAAGTAGTTACTAAAACCGTTGCAGAAAGTGCACTTGTTGAACCTAAAGATAAAACAGAGATTGTTAAAGGTATAGGTAAGACTATAGTTACTCATAGTGATACCTCTTTACCCTTACATGATAAAGTAGTGATTATGGGATCAGTAGCAAAAGGTATTGTAGAAAGTAAGAATGATTTACTTGATAGAGAGCTAATCATTGCAGGGTTAGTAGATGGCATTTATGAAGCGAAAGGAGACAATGCAGTCGTTCATGCAATTTCTAGTATGATCGCTAATAGTAATATTAATCAATCTGAGAAAGAAGCCCTTAAAAGATCTCAAGATGTAGTAAGTGAGAAAGTTTTAGATAAAGAAATACAAAATTTAGATAGAGAGTTAAAAGCGCAAAATATAAACGAATCTAAACTTCATGATGATATATATAACAAAACGCAAGATGTAGCTAATGCATTAAAAAATGTTATTACAACTGTTTTAGATGATAATTCTGGACAACGTGGAGTTTCAGAAGAAGCTCCAAAAAAAGTCTCTAGTTTATTAAATGATATATCTAAGCGTACAATTGAGAAAGTCAATAATTTGCGAGCTATGCTCTCTCAAGATGGTAATCTTAAAACTTTTGAAGAAAAAAAAGATGAAGCAACAAAAAAAGTAGATGAGTTAGTAAAGGCATTTGATAATAAATCTTCTACTGAAGAACAGCAAAATTTCATTAAATCTAATTTAATTGATAATAAAACTTTATCTAGAGAGATACGTTTACAAATTATAGATAATTTATTAAAAGCACAAGCACAAAAACGAGCAGAAACAATTGAAAACCTTAGTGCTAAAACGGAAGATGTAAGAGTAATATCAGGCAAGTCTGAATTAAAACCTATAAGTCAAGATGAGCCATATATTCAAAAAGCTAAAATGGTAGTAGAAAGAGATAGGGTTGATATTAAAGACAATATAAAAATTATGAGTGCATTAATCAATGCAAGAGATAGCATTCAGTCTGAAAATTTCAATAAATCAATACATATTAAAAAAGAGTCTTCCTTTCCGCAACGCTAATCAAGATTTGTATTTTATAATTTATAATGTCATTCCTAGACAAAAGTTGGAATGACATAAATTGTATCAAGATATAATAATGAGGTTAAATTACCTTTATACATTAGTTTTTAGTTTTTCTTTACCAGCTAAGCATTTTACTAAATTATTAATTGCTTGTTGTTCTTCTGTACTATTAATTTTCATAAAATTTCTTGAAACTTCAATACACATACGTTGATGTTGAGTATGTACAGGCTGTGGTTTGTTAGCTTCTTCTAAACCTTCAAAGAAATAATCAATATTTCTATCTAAAGCTTCTGCGATTAATACTAGCCTCCCTACAGAAATTCTATTAATTGCTTTTTCGTATTTTTGTAATTGTTGATGAGTAACATCAATGACTTCAGCAAGTTGTTGACGCGACAAGCCTTTAGCAAGTCTTAAAGAATAAATCTTCTGACCTATAAAACTATCGATTTTTTGTATAATATCGTTTTTTCTACCCATTATCTTCTCCTTGGTTACTAATTATGTCTATATTTAAAAATTTTCTTTGAACATAAATAATATTATCCTATAGTATATAAAACATTTGGCTATTAATAATTTTTATACCATTAAACTTATCCAATTGTAAGTAGAAATAATATCATAAATTAATATTATAAGCAACTATAAAATAATATTTTTCAAGTTTTTTGTAATCATTTGTTAAAATAATTATTCAAGAATAATACACAATTATTTTATCAAATAAAAAAATATCATAAGAATTTTACAATTGTTTAAAAGATAAAATATTAATATTATGATTATGTTTTCAAAACTTATAACGCATCAAATTTATAAAAAACTAAAATTTTGGTGTATTATAGAAAAATATAAAATTAATGCAAGAGAAAATTTCATTTCTATATGAATATTTCAAATCAAAGATAAAATATAGTTTCATTTTAATTATAAATTAATTATTTACAGTGAACTTATTTAAGGTTAAATATAAAATTAATAATAACAACTTAATAATGATAATGAGAAAAATTTTAAATTGTCTTTATGTAGCTTTATTTAGAACAATAAAAGATGATGGCGTTGAACATTCGGGATATATGTCATTTATGATACTTTTATCTATTTTCCCTTTCTTAGTATTTTTATTAGCTTTAACAAGCTTTTTAGGTGCTTCAGAACTCGGCCAAAATTTTATACAAATTTTTCTAGAGAGTCTGCCAGAACAAGCAACAGAATCAATAGAAAAAAGAATACGAGAATTATTAAGTGCACCTCCTCAAAGTTTAATGAATCTTGCCATCATAGGAAGTATTTGGACTGCTTCTTCTTTTGTGGAATGTTTAAGGACTATTTTAAATCGTGTATATCAAATTAAATCTCCACCACCTTACATAAGAAGAAGATTACTTAGTATTATACAATTTCTTATAATTAGTGCCTTAATTACCTTTACTATGTTTCTTTTAGTCGTGATTCCAATAATTTTTACAAAAATTCCAATAATATTAGAGACCATTGAACAATATAAGATCATTTTAAATTTTATAAGATATTCTTTAATTTTAATTTTATTATTTTTAGGTGCATCATCGTTGTATTATATATTGCCTAATGTAAAACTAAATTTTGTTGATGTATTTCCAGGAGCTGTATTAACTGTAGTATTATGGATAATAAGCGGATATTTACTTTCAACATATATAGTCTATTATAATCAACTAAATCTCATGTATGGTTCTCTTGGAAGTATAATAGTGACATTAATATTTTTCTATATTATAAATATGATATTTATCTATGGTGCAGAATTTAATTATCTAATGAAAAATTATACAAATATAGATCACAATATAGAGCAAAGTGCAACTTGAAGCATTGCATACATTATTGAGTTTTAAAAAAATAAGTTATAAGTTAACACTTAGACAAGTTTTATATTCAAAATTTTTAATTTTAGTTATAAATAAATAATTATTTCGTAGTTTTAAAGTTTTATAGAAAATAAAAATCATTTAAAAAATTCTGGTTTAAATAACCTAAAACTTTCCTGGTATGATGTAGGTAATGGAGTTAAATTATATTGAGGATCGAACGCGTTCCCGTAAATTTTTTCTATTTTTTTGAGCGAATTTGGAAAGGTTAAAGCCAACAATATTGACTTTAAAATAGTAAACATTGCTATATATGGATCAGTTTCGGGAGAAGATAAGCGATGTTCTAAACGTTTTGGTAAAGAATTTGGAGTTCGTACTGCTACGCTTCTATTATTACCACCGTATGATACATGTGTAGGAGACATAAATTTTTTATTGATCCGTAAATAATCTAAAGTAGTAGGCATAAAAACTAGTAGTGTATCTAGCATATAGTGACATATCCCTTGTGCTGCTAATATATAATAATCATTTAACTCAGAATTAAAATTAATATGAAAATGCATACTATTACCATAATCATCCAAAAACGGCTTAGGAGAAAAATCTATATAACCGTTTAACTGCTTTGCATTTTTTGTTAAAATCTTCTTAACCTCTAATATATTTTTGATATATTGTATTAAATTTATAGAAGGAGGAAGTGCTATTTCAAATTGGTTATTTCCTTTTTCTTTCTTGATTTTAGAAATTTTAAATTTAGATAAGTCTTTGCTTGAAAGTATTTCAAAGTTAGCTATATCAATATTGTGACTTAAATAAAACTCTATTTCTACGCCTATAATAGGAATGATCTGATAGTTTTGGTAAAATTGTGCTATTATCTTTTCTAACTGTTTATTTTTTTGTAAATTTTGAGATAAAGTATTAATAAAATTATTATAATTAATATATGGTATCTTCATGGAAGTATTAATACATAAATCAGTTTATTATAAAATTTTTGATAAAACATTCAACAACTCTAGTCATAGATATATACAAGAAAATCACTCTATAAATGAAGCAGAAATATTGGCAAACATAGAATCTATTACTAATTATTTTAAAGCACAAGATATTTTAATTTTAAATCAAGTACATAGCAATCAAATTGTTAATGCTGATGAGCATATAGTGACTATACCTGAAGCAGATGGAAGCATTACAACTAAAAAAAATTTAGTATTAACAGTACAATCCGCAGATTGTGTACCGGTATTACTTGCAAGTGACGACGGTAAAATAATAGGAGTTGCACATGCAGGTTGGCAAGGAAGTATAAATAATATTATTAGTAATATAGTGACTAAAATGATAGAAAAAGGAGCAAAAAATTTAATAGCAGTGATAGGTCCAGCTATAGCGCAAAGTTCATATGAAGTTGATGATAAATATTATAAAACTTTCTTAAGTAAGGATATTAACAATAAACGATTTTTTATAAACTCAATAAAAGAAAATCATTATATGTTTGATTTACCAGCTTTTGTAGAATTAAAACTTAATGAATCAGGTGTGAAAGATATAAAAAATATTACTGAAGATACTTATACAAACCCATCTAAATACCCAAGCAAAAGACGCTCATATCATATGCAAGTACCTTATAATGAAAAAATATTATCAGCTATCGTAATTAAATAATTGATGAATAACTGTTAATTTAACTTTTAATGGATCAAGAGAAAAATGACTATCAAATAATTGACACGCCAGACAACATTTAAAAAATAGATGGTATTAATACTATTACTAGTATCAAAAAATATTTCAAACTTTATAGAAATTGTAGTGTAATTAGGTAGCAGTACAGTAGTGACCTTATATGGAAATAATACATAGCCTATAGTTTTTATTAGAAATAAGTCATACTAAAGAGTGATATGCTCTTTAAAAAGAAACTAAAGTATACTACCATAAATATATATTCCGGTAGTGATTTTAGATATTAATTAATTCTTAATCAGGAATAGAAAATATTTAATTGATTTAAAATTTTATTTTTTATTTAAAAAACGTAAAAATATGTTATTTGAAGTTATGATTTATATCATTACTTATTCATAATTAATACAATAATAAGAAAATCTAGAAAATGTATCAAATTAATAGTTTTTATAAATTTTGTAAAAATAAAATATAGATAAATTAAAATATATAACTGTGAACAAAAATTGAGGCAATGAAATATGTAAACAATTCGTGAGTTGTCAAAATAATTTAAACTGTGCTCTTAGGTGATTTTTTTGTACAAACTAATCTTTAATATTCTTAAAATCTTTTAATAAAGCCATACAATTTACTCATTATATATAAATCTAATACAAAAATATTGCTAATGATATTGTTAATACAATTTCAGTCTAATATTCATTTTTAGAGAGATTTCCTTACTTGATATTTTTTAATTCATTAAGCATGCTATGAAAAATAGAGTACTATTATTAGCATCGAGGCACTAAAGATTTATGAATTTATTGATAGCTGTAACAATAAAAACTCTACATTGGCAGATATTATAACTACTGAGGAGAAAATTATTAGAGTATATATGCATGGTAACAATTACATATTTATAAGTCGTAGCCACGCTTCCCAGTCACGTTTTCCTAAATCTTCTTCAAAAGATAATAAATCTTTTACCGTTTTCTTACATATTTCTACGGAAGGAATTATAAGTTCTTGTTGTATTGTTGAATTTAGCAAACATTGTGTTTTACAAGCTTGTTCTAAATGATAAGTATAAAACATAGCCTCATGAATAGTTTTACCGCATGTAATAGCACCATGATTACGGAGCAACATTACGTAATTTTGCTTAAGGTCATTAACAAATTTAGTACTTTGCTTGTCAGCATCTAGCACTAGAGAATTATAATCATGATAAGATATTCTATCATAAAAATGTAATGCCCATTGACTTATTGGTAAAAGCCCGCATTTTAAAGCAGAAACTGCAGTAGATGCAGGAGTATGATAATGAAAAATAGCCAAAACATCAGGACGTGCTTTGTAAATATTACCATGAATAAAGTACCCGGTTTTATTATATTGATATTCTTCTCCTTCTAAAATTTTTCCATCTAGACTCACTTTTAAAAGATTTTCTGTAGTTACTTCTTCAAATCTTAGTCCAAAAGGATAAATATAGTAAAAATCTGCATTTTTAGATCGTGCTGATAGATGAGTATAAGTATGATCATCTAATGACAAGTATGCCATTATTTTGTAAGCAGCAGCTAAATTATATTTTATATCCATTATTGCTAAAATCTATATTAGTTTTATATTATTTTTACGTATCTTAATTTTATATAATCATAAGAAAGCATGAATTCCTTGCTTTAACTAGCTAGAATTTAATATTTAAAAGGAGTGTATAATAATCTCACTCTATATATACAATATCTATAATTGTTTTTTAGAAGTTTTTATTTACCTCATTTATAAAGTATAGCATACAAGATATCTAAGTATAAAGAATCTCCTTTAATCGCATCCTTATAATTAAAGTGCAAGAAATATTTCCATTTTTTTAAAAAAATAGAAAAAATAAGCAATAATATATTTTGCTGAATACACCAGATTTGCAACAATTTTTTATTTGCATCTAAAGGAACTAGATAAATTTAAATAATCTGTGCAAGTGCAAACAAAAAGTCATTATAAACTGCAGCGCATCTTAAATTAGTGTGCGTGAGTAGTCATAATGGAAATAATAGAGCTCTGATTTCCAACAAAATCAAAATATTAGTAATTCTTTAGTAAATATCCACCAATATGTAAATTCATTATAAAAAAATTACTAAAATAAATACTTATAGATTCATGTACAATTAGTGATGAAATCCAAAATGTAAAAAATAAAAGCTAAAAATATACCTATAAATGTTACAGCAGGTAATAGTTTTTAACATAGCAAATCATTATAAAATTACAGTAATAATTCAGTTATTTTTACAGAAATAGTAAAAACAATTTTGTTGTAAAATATTTGAAAATTCCAAAAGGATTCATATAGGTAATTTGTAAATAATTTTTTGATTCTTGCAAAGAGTTATAAACCCGAATGTGTCATAAGTAGTTTAGCGTTGACAGAAATCAATATACAAATCAGTTTATGACCCTTGTTTAATTTTAGCTTGAGCTGCAGCAATTCTTGCTATAGGGATTCTGTATGGAGAGCAAGAAACATAGTTTAAATTCGCCTTATGAAAAAATGCAATTGAAGTAGGGTTTCCAGCATGCTCTCCGCAAGCTCCAAGTTTTAAATTAGCATTACTGCTTTTACCTCGTTTTATAGCAATTTCAATTAATTCTCCTACTCCTTCTTCATCAAGAGTAGTAAATGGATCAGATTCAAAAATCTTTTCTTCTAAATAATATGGAAGAAAAGATGCAATGTCATCTCTAGAAATTCCATATGTAGTTTGAGTTAAATCATTAGTCCCAAAACTAAAATAGTCAACCTCCTTAGCTATTTTTTTACTCTCAAGTGCGGCCCTTGGAAGTTCTATCATAGTACCAAGGGTAAAGGAAAACTTATAGCTATAACGTTGTTCTAATTCTTGTACTACTTCATAAATATACATTTTGAGCTTTTTTATTTCAGCTACGTTACTAATTAAAGGAATCATTAATTCTAAATTAGATTCTATATGTTCTTTTTTATGTAGTTCAAAAATAGCTGTAAAAATTGCTTCAATTTGCATTTGGTAAATTTCCGGTAAGCATATTCCCAGTCTACATCCACGATGCCCAAGCATAGGATTTACTTCATGCATAGCATGAAGACGTTGATGAATCATAGATAACGGTAAATTTAAGCTATTTGCTAAATTTTTTTTATCCTCTTCAGTAGTAGGTAAAAACTCATGTAGTGGAGGATCAAGTAATCTAATATTTACAGGTTTATTTTTCATTACTCTGAATAAAGATTTAAAATCCTCAGTTTGTAGTGGTAATAATTTCTGTAACGCGCATTGTCTACGTTCTATATCAGGAGCAATAATCATCTCCCTTACTAAAGGAATTTTATTCTTATCAAAAAACATATGTTCGCTACGACACAAACCTATACCTTGAGCACCAAATTTTATAGATACTAAAGCATCGTTAACAGTTTCAGCATTGGCACGAACTTTTAAGCTGCTAATTTCGTCTGCCCAATCTAAAATTAGCTTTGACTCTTCACTGAAAGTAGGCTGAATTAATGGCATTTCCCCTAAAAAGATTTTACCACTACCTCCATCAATTGTTATAATATCTCCTTGTTTAATAACTATGTCACCTGCTATTAATATTTGCTTTTGTTCATCTATAGATAAATTATTTGTCCCACAAACACAAGGTTTTCCCATACCTCTTGCTACAACTGCAGCATGCGAAGTCATTCCACCTCTAATAGTTAAAATACCAGAAGAAACATGCATTCCATTAATATCTTCGGGACTGGTATCATGACGTACTAAAATTACTTTATGATGATGCGATAATTTTTCAGCATCATAAGGTGAGAATACTACAATCCCAGTTGCAGCACCAGGAGAAGCAGGAAGTCCCTCAGCAATAGAAGTAAGCCCCTTGCTGTAATCAATTCTTGTATGTAATAATTGATTTAATGATTCCGGATCAATGCGCATTAATGCCTGTTCTTTAGAAATAAGTTTTTCTTTTACCATTTGTACTGCAATATTAATAGCAGCGATAGCAGTTCTCTTTGCAGTACGTGTTTGTAGTATATATAGTTTATTATTCTCTATAGTAAATTCTATATCTTGCATATCTAAATAATGTTCTTCAAGCTTTTTTGCTATTTGTGATAATTCCTTAAACACTTCCGGCATCATTGCTTGCATAGAATTCGAATCATTTGCTATAATTGGCATAGGAGTTCTAGTTCCTGAGACTATGTCTTCACCTTGAGCATTGATTAAAAACTCTCCAAATAATTTTTTTTCTCCTGTAGAAGGTGACCTAGTAAAAGCAACGCCCGTAGCTGAAGTTTTACCTAAATTACCGAAAACCATTTCTTGAATATTAATAGCTGTCCCAAAATCTTCTGAAATGTTATTGAGTTTTCTATATATAATCGCTCTATTATTTTTCCAAGAATATAGTACAGCTTTAATTGCTGATTCTAATTGTTCATAAGGATCATTGATTAGTTGCTTATCATACTTAATATGCAATCGTTTAAAATCATCAATAATTTTTTCTAATAATTCTACGGTAATATCACTATCTTTATAAATATCAGCCTGAATCTTATGATTTTCATAAATTTGTTCAAATAGATCACTAGGTATAGATAATACAGTTGAACCGTACATCTCTAAAAATCTTCTGTAACTATCAAGAGCAAATAGTTTATTACCGCACGCATCAGCAAGAGCATTACACACTTCATTATTCATCCCAAGATTAAGTATAGTATCCATCATTCCAGGCATTGAAACTGTAGAACCTGAACGCACTGATAATAATAAAGGATTGCTTGTCGTACTACCAAAAATTTTACCAGTAGTGACTTCAAGTTTGCTGATAGCTTGTTGTAATTCATTTTGAAAATTTTTTGGAAAGTTATTATTGTGCTTATAAAAATAATTACATAACTCTGTAGTTATTGTAAAACCATTAGGAATAGGTAGTTTTAGGTTAGACATTTCAGCAAGACCTGCACCTTTATTACCAAGTATATTGTTCATGCTAGCGTTTCCATCACTACCATTATTACCAAAATAATAAATTAATTTATTCATATCAAAGTTTGCTAATAGTGTATATGTTTTTAAGTACTACATTATTTATACATTAGGAAAAAAATAGTAGCAATGTTAAATTAAGATATCTTTTTTTAAAGAATTGACATTATGGAATTTGTTATTATAATTGTAATTATATTGTGTGTACAATAATTACAATAAATTTTCCCCTCAGAACCTAACAAGCTAATTGAAATTCTTTTAACATATTATTGACTAATTTAAGAAAAGCTACCATAATCTAAATGGTCGTGCAGTTGCGTGATGATAATCACGAGGAAAGTCCGGACTCTATAGAGGTATGGTGCCGGTTAACATCCGGCAGAGTATTATTACTTTAGGGCTAGTACCACAGAAAATATACCGCCGAGTATTTCGGTAAGGGTGAAAAGGTGTGGTAAGAGCACACCGGTAAGTTGGCAACAAGTTACGCATGGTTAACCCCACCAAGAGCAAGATCAAATAGGCATTACAGAATTTAAATATTTATTTAAGTTCCTGGGTTACCTCTAATCGGATTGTAATGCGGGTAGATCGCTTGAGGTAAACGGTAACGTTTATCCTAGATAAATAACTGCAATGAATTAATATTCATACAGAATCCGGCTTATAGACCAGATGAGCAGGTATTACATGTGTTAATACCGCAGAGTTATTGCGAGTAACTGAAAAAAGTATGGCAATCTAGAAAAATAATCAGATTCTGTGGATTTTTAGTGTTCCCTCGCAATGACGAAAATAATACACGTATAGATTACAGCATGAGATGATACTAATACTTACTGTAACATAATTTAATGAAAAAGTTATATCATAATCCTATTTGTCCTCTTTCAAGACAAGCACGTTTCTTCTTAAAAGAATTAGATATAGAATTTACTACTATTAAAGAAGATTACTGGCAATTTAATAAAGATTTTTTAAAAATCAATCCTGCAGGAACATTGCCTATTTTAGAAGAATCATACGGTTTATTTGTAGTCGGTATTTATCCTTTTGTTGAATATCTTAATAACAAATATCCAAATTTTAATTTTCTAGACACAGATATTGATATTTGTTGTGAAATTAGACGATTGTTCTTTTGGTTTAATAATAAGTTTTATTTTGAAGTTACTAAAATTATTATCGATGAAAAAGTTATACGATCGATTTCTAAAATGAGTAGTCCACGAACGGAATTTTTACGTGCCGCAAAAAATAATCTAAATTATCATTTAGAATATATAACTTCTTTACTAGAAAAAAGAAGTTATCTTGTATCTGAATTCCTAACTATTGCCGATATTGCAGCAAGTTGTCATTTATCTGTACTAGATTATTTCGGAGAAATTTATTGGGATAAATGGGCACTGGTAAAACATTGGTATTCACTAATTAAATCAAGACCGGCTTTTAGGCTATTATTACAAGATAGAATTCCTGGTTTTATACCTCCAAGCTATTATACAGATTTAGATTTTTGATTATTCAATCATTTTAGTCTTTATGTATCATGATCTTTGAATATTTGATGCTCAAAGCTTGATTTTTTATGAATGTAGCAATCATAATGAATCGAGATCCGGCTTAAAAAAATAGTAACCAGTCGTAATATAAGTCAATTTTATTATTGAAACATAAGTATATTAATAACTTGCTATATTCAGTTTTAATATCTCATTACTATAGTATCTAGTTATTTATACTAGTTATAGTAAAATAGCTTTGTGGTATATTGGACACAGTACTTTGATATAACAAAATTAATAATTTTGGTATGTTTTTGAATATTATATCAATAATAAAAAATTTCCTTTTATATATCCTTTAATATTATATAATGACATGCTTTAGTATTATATAATGGCATGTAATATTATTAATTTCTAAACTTTGACCAAACTTGATCAAAATTATATAATAGAAATAGAAAAATAGCACTAGCATAAGTATAATTAAAGTCAGTATAACACTTGATTTTATAGCTACCTCAACCGGATTAAAGAAGGAATATATTACTTAATACATGTATTTATTATCATTTATATTAGGCGGATTAAATACACTACTTCGTCAATTACGCTTATCAATTAGCTCAATAGATTTTTATAAAGATGTATATAAAAATTATCAAGGGTATGGAATAAAATATTTATTTACTTTATCTTTTATTCCATCAATAATTTATTGTATTTTTATATTAAATTACATAATAACTTTAAAAGATTATTTTAATGGTACAAGCTCATCAAAAGTTACAGACAACATTGAGTATATTATCAATCAATTACCAAAAATTAAATACAATAATTCAAAAATTTCAGTTGAAGAAGTAGAACCTATATATTTATATAGTAAAAATAACAATAAAATATTCGTCATTGATACAAAAAATCAAGTTTCTAACCAAGAAAAGAGCAAAGTGCCGTTTGTACTTGAAGAGAATAAGCTGAAGATAAATTTAGTATCTAATACTAAGAAACATTTTCCAAGTATTGTTAATTATTCTGAGATATTCAAGCAAAATGAAGTAATTTTAACTCCTGAAATAATAAAAAAATATTTTGCAGATAATTTATTATATGCACCAAATTTATTTATTTTTTTTGGTACACCGGTTATTATATTATTTTGGTTTGTAACATTCTTATTAGAGAGGAGTATTATAGTTTTGTTAGTATATGGCTTAGCTAATTTACTTACTACTAAAACTTCAATACAAACTTCTATAAGGTTAGTGATGTTTTCAAGCGGAATCCCAATAATATTACAACCAGTTATTATTATATTAATACCAGAATTAAGTATATTAATACAGCTACTACAAATGTTTACAACTTTTTTAGTATTTGTCGCTATTTTGCAAATTAACAAGAGCTTGTCACATATATAAGAAATATACGTTGACTATCTTGCCTACTTTTTTACTAAAATCTATAAAATTTAATTTACTTCTAATTTTTGCTTTAATAATTAAATACTTGACTAAATTACTTTAGTATTGTAGACATAAAACAATTTTAAGTTTTAGTATGGTTGGTATAATGATACTGAAAATAAAAGAAATATATACTGTAATGGCGATACTTGAACTGGCAACAAATATAAGTAATGGGCCGATCATTTTGGATAAAGTTTCAATAAAACACAATATATCACTGAATTATTTAGCGCAAATTTTTTCTAAACTTAAAAAATCTGATCTAGTTAAGTCGATTATAGAATCAAAAGATTGTTAATAGGTAATCTATAAGAAATAAAAATTTCTGATTTGATGTTGTAAACTTTAATTTAAAAATATGATATATCTTGATCATAATGCTACTACTTTCATTGATCCTAGAGTTAAGGAATATATAATAAGTTTAATGGATAAGGAGCTTAACCCTTCATCCGCACATACTTCTGGCAGATTTGCTAAGAACATTATAGAAACTGCACGTTCACAAATCGCAACATCTCTTGGTATAACAATGTCTAGGGAATATAATATTACTTTTACATCTTCTGGAACTGAAAGTAATAATTTAATAATGAAAAATTTTTATGATGGTGATATTTTTATTTCAGCTATTGAACATTTATCGATTTATAACCATATAAATTATGCGCCAAATATTAAAATTATAAGAGTTAATAAGCAAGGACTAGTGGATTTAGAACATCTAGAAGACTTATTATCTCAAAGTAATGCTAGTAAAAAACTAGTTTCCGTAATGATTGCAAATAATGAAAATGGAGTGTTACAGGATATAGCTGCGATAAGTAAAATAACTAAAAAATATAATGCAAAATTTCATAGTGATTTAGTACAAAGTTTTGGCAAGATATCTTTAAATATTAAAGAATTAGGGTTAGATTTTGCTACGATTTCAGGACATAAAATAGGAGGAGGGCATGGTTGTGGTGCTTTAATCTCTAACTCTAATTTTCAGCTTATCCCAATAATTATAGGAGGAGGTCAGGAAAAATCAGTGCGCTCAGGCACTGAAAATGTTTTAGCAATTGCTGGCTTTGGTTTAGCTGCTGAATTTAGAAGAAAAGATATCTCAAAAAATTACATAAAAATCAGGTACTTACAAGAAAGATTAGAGCAAAAACTAAAAGAATATTCAAACGTAAATATTATTAGTAATAATGTAGCTAGGTTAGCTAATACTACCTTAATTACTGTAGACAATACTGATGCACAAGTAAAATTAATAGGGTTTGATTTACGTAATATTTGTGTAAGCTCTGGGTCTGCTTGCTCATCAGGTAAAATATCTAAATCGCATGTATTAACGAATATGGGAATAAGAGAAGAAGAGGCTAGGTCTTCAATTCGTATATCTTTAAGTCATACTAATACGATAAGTGATATAAAAGCTTTTATAAAAGCTTTTGAGGAGATATATGAATATAAATCGTCTTGTAATCACTGTATATAATAAAAATATAAAAATTTATTCCACCGTATAAGTCATGGTATAATGTAAAAAAACAAATCATTTAACATTTATAACATATGAACCAACAATTAAAAAATTTAACTTTACCAATATATATGGATTATCAGTCTACAACTCCAATAGATCCAAGGGTGATGGAAGCAATGTTGCCGTATTTTACCACTAAATTCGGTAATCCTCATTCACGCAGTCACTCTTTTGGTTGGGAAGCAGAAAATGCTGTTGAAAATGCACGGAGTATGGTAGCAAAGGTAATAGGTGCGGATAGTAAAGAAATTATTTTTACCTCTGGTGCAACAGAATCTAATAATCTTGTAATAAAGGGAATAGCAAAATTTTATGGTAATAAAAAAAACATATTATCACCTTAGTAAGTGAACATAAATGTGTACTTAATGCTTGTAGGCATTTAGAGCAAGAAGGTATAAAAATCACATATTTACCAATTAAGTCAAATGGAATAATAGATTTAGAAACCCTCAAAAATGCAATTACTGATCAGACTTTATTAGTGTCAGTTATGGCAGTGAATAATGAAATAGGTGTTATTCAACCTTTAAAGGAAATTGGAAAAATTTGTCGTGAAAGAAATGTATTTTTTCATTCCGATATTGCTCAAGGATTCGGTAAAATTCCAATTAATGTTAACGAGTGCAATATTGATCTTGCAAGTATTTCAGGACATAAAATTTATGGCCCGAAAGGAATAGGGGCATTATATATAAGAAAAAAACCTCGTGTTCGTGTTACACCATTAATAAATGGTGGTGGACAAGAGCGAGGAATGCGTTCAGGTACTTTGCCTACTCCTTTAATTGTAGGTCTTGGCATAGCTTCTGAAATAGCATATAATGAGATGGAAAAAGATACTCAGCATGTAAATTACTTATTTGATAGATTTTTAAATAATATACATAGTAAAATTTCAGAAGTTTATTTAAACGGTGATAAAGATCAAAGATATAAAGGCAATCTAAATCTAAGCTTTGCTGGAGTAGAAGGCGAATCAATTATTCTTGCTATTAAAGATTTAGCTGTTTCTTCTGGTTCTGCTTGTACTTCTGCATCTCTAGAGCCATCATATGTTTTACGGTCCATAGGCATCAGTGAAGAACTTGCACATACTTCAATTAGGTTTGGCATAGGTAGATTCACTACTGAGCAGGAAATTGATTACGCAGTAAATTTAGTATGCTCAAAAATTGATAAGTTAAGGAGATTAAGCCCTCTTTGGGAAATGATGCAAGAAGGAGTTGATTTGAAGAAGATTAGGTGGACAGCTCATTGATAGAGTTGCATACTATTTTGTCAAGTCATGAAATGATATAATATAACAATTAAAAGAGAATAATAATGGCTTATAGCAAAAAAGTGATAGATCATTATGAAAACCCTCGTAATGTTGGGTCACTTGATAAAAAGAAAAAAAATGTTGGTACAGGACTCGTTGGAGCTCCTGCTTGCGGTGACGTTATGAAATTACAAATCGAAGTTGGCGATGACGAAATTATTACAGATGCTAAATTTAAAACATTCGGTTGCGGTTCGGCTATTGCTTCAAGTTCTCTAGTCACAGAGTGGATTAAAGGAAAATCAGTAGAAGATGCAAAAGAGATTAAAAATACTGAAATAGCAAAAGAATTATCACTGCCGCCGGTAAAATTACATTGTTCACTCCTGGCAGAAGATGCAATAAAAGCAGCTATTGCTGATTATAAACAGAAAAGAGAAAACAAAAAAGATTCTTAAAATATGAAAAATGTTATTTCATTAACTGATGCTGCTGCAAAGCAAGTAAAATTACTCATAGAAAAGCGCGCTAAACCTACCTTTGGTATTAGGGTAGGTATTAAGTCAGGCGGTTGTGCCGGTCAGACTTATTACGTTGAATATGCTGATAATAAAAATCAATTCGATGAAGTAGTGGAAGAAAAGGGTGTACGTATACTAATTGACCCAAAAACATTGATGTATATCTTAGGTTCTGAAATGGATTATGTAGAGACTAATTTTAAGTCACAGTTCACTTTTACTAATCCTAACGAAAAAGCTAATTGTGGCTGCGGTAAATCCTTTAGTGTGTAATCCAACTTCATTTAGATAAAAATAATGATATTAATACTATTCAATATAAAGTTTTTGTTTAGAAAACACGAATAAAATTAATTAATAGTAGTTTAACTATTGCTAAAAAGTATTATTTCATCTATTATAAAGCTATTTCTTTAAATATTTCTTTAAATCAAATTTTGATATGTCACAAAAATTAAGTTTTTGGGCTGTATTTGCATTGGTGACAGGTAGTCAAATCGGTACTAGTGTTTTTATATTGCCTTTAAGTTTAGCACCATTCGGTGTATACAGCATTTGGGGCTGGATTCTGTCATTATTTGGTGCTATGAGTATAGCACTTGTATTTTCTTGTTTATGTACAAAATTTCCTAAAACAGGTGGCCCTCACGTTTATGTACGAGCAAGTTTTGGAGATACAATAGCATTCTTTACTGGTTGGACTTATTGGATTATATCTTTTGTCAGTACGAGTATAGTCGTTATCTCAGCAATAGGTTATTTAACGCCTTTCTTTAAATCACAAACGATTTTGGATTTGATATTACAGCTAATATTATTAGCTGCTATTGCAATTTTAAATCTAAAAGGTCCTAAAATAGCAGGAAAGGTAGAGTTTTATTTAACTCTCTTAAAATTTGTCCCACTACTTGTAGTAGGTTTAGCTGCATTATTCCATTTTAATATAGATAATATAGTGATTGCTAAAGAAGTAGAAAATTTCACTATCCCGACTATTATGGGAAGAGTTGCACTTCTGACTTTTTGGGGATTTATTGGAATAGAGTGTGCAACTACTACAGCAGGAACAGTAAAAGATCCGGCGAAAACTATTCCAAGAGCCATAATAATTGGAACTTGTTGTGTAGCGTTCTTATATATTATTAATAGCATAGGTATCATTGGATTAATTCCAGCTTCTGAACTTATTAATTCTAAAGCTCCTTATGCAGATGCCGCTACATTATTATTCGGTGGTACATGGTCAAAAGTAATTACAGTGATAGCTTCTGTTATATGTATAGGTACTCTTAACGCTTGGGTTCTAACTAGTGGACAGATTGCACTAGGACTTGCAGAAGATGGGTTATTGCCAAAATTTTTTGCTAAAAAAAACAGTAATAATGCTCCAACTTATGGAATAATTATAAGCTGCCTTGGAATTACACCATTATTATTATTTACGTCCAATAATAATTTTGCCAAGCAAATTACTCAAATAATAGATTTTTCTGTAATAGCATTTTTGTTTGTTTATTTAATTTGTAGCTTAGCTTTTTTAAAAGTAATTTTTAGTTCAAAAGAAAATTTCTCGTATTATTATTTATTTGTAGCCATAATATCCATTATATTTTGTACTTGGGTCATTTATAAAACACCTTTTGAAACTCTAATTATAGCTTGTTCTTTTACTATCCTTGGTATTCCTGTGTATTATGGATGGTATAGATTGATGAATAGAATTAAATTATAGTCTATATAATAAAGTGACTTATTCATTGTGTCCATTTAATATTTTTAGATACTGAGATCAAATTGTTGTATATAGTGTGAATATGAGACACGATCGGATTAATCTACTTAGAAAATTATTTATAGAATATAATATAGAAGGTTATATCATACCATCTAATGATAAATATATGAACGAATATGTACCTGAGTATGCTAAAAGGCTTGAATATATAACAGGTTTTACCGGCTCAAGTGGTATAGCTATTATATGTAAAGATGCTGCATTCTTCTTTACTGATGGACGTTATTTAGAGCAAGCAAACAAAGAGCTAGATTTAGCATTTTATAAAATTTATGATTTAAAAGAGATATATAAAACATTAGATAAAAATATTAAGATAGGCTATGATCCTCAATTATTTACTTACCAAGTCTTAGCAAATTTAAATATCAATTTTCATAAAATAAACGAAAATTTAGTTGATAAAATTTGGTATAACAAGCCTCTAGAACCAAATTCTAAAGTCTATTTACATGATATTAAATTTGCAGGGGTTAGTCATAATGATAAAATACGTAAATGTCGTGAAACCATATTATCATCCAGCAGCGTGACCGTGGGATGCAATAAAAATAACGATGACATTCTAGTCATTCTAGATAGCGCTTCCATATGTTGGTTATTAAATTTGCGTGCTAGTGATGTAAACTATACACCACTAATGTTTGCAAAAGTTATACTTACTTCTACAAAATTATATCTATTTATCAACCCTATAAGAATTGATACTGAAATTATTAATGCACGTCCTGAAATCACAATTCTACCGGAAAAAGAATTTGAAAATATTTTAAGAGATAGTAAGAATAGATATCTTATCGATGACAGTATAACATCAGTTCACATAATGGATTTAATAGCTAATAAAAAAGTAAAAAAAATCGTAGAACCTTGTTTATTAGCAAAAGCTTGTAAAAATGATATAGAAATTAAACATGCAATTGATTTTCATATTAAAGATGCAGTAGCTTTATGTGAGTTTTTTGCTGAGTTTTTTCTATATCATTCAAGTGAAAACGTGAATTCCTGCTTTCACAGTCATGAGATAATAACAGAACATTCTCTCTGTTTAAAACTAACAGCGCAAAGAGCAAAACAAGAGGGATATGTTTCTGATAGTTTTCATGCTATTTGCGGATTTCAAGAAAATAGTGCTATTATTCATTATAGAGCTAACCCAAAAACTGCTAAGAAAATTGAAGGACATGGTATACTACTGATTGATTCTGGTGCTCAATATAAAGGTGCTACCACTGATATAACTAGGACAATCATTGTAGGTATACCAACATGTGAACAGAAAAAACGTTATACGCAAGTACTTAAAGGACATATTGCTTTAACTAGAGCTAAATTCCCAAAAAATATCGTAACAGGAGCGAACCTAGATATACTTGCACGGCAATATTTATGGCAAGACATGATAGATTATCCGCATGGTACCGGGCATGGAGTAGGAAGTTTCTTAAGCGTTCATGAAGGGCCACAAAGTATAAATCTTAGTAATAAAATAATACTTAAAGCAGGTATGATCTTATCTAACGAACCTGGATTTTATATTCCAGGAAAATATGGTATTAGAATTGAGAATTTAATATATGTAAAAGAAAATAATGGATGGCTTGAATTTGAAACCTTAAGTTTAGTGCCTTATGCTAGTAAATTAATTGATGTTGCATTACTGAATATTGATGAAATTAATTATATTAAGGAATATTATAATAAAATTAGAGCTAAAATTTATAATTTGTTATCCACACAAGCGAAATATTGGCTTAATTATGAAATAAATTTATTTTTACAATCATTATTATAATTGACGTTTCTCTTATTTATTGATATAAGTTCTATTCCTGCATTTTAAATTGGGACGTCGCCAAGTGGTAAGGCAACGGTTTTTGGTATCGTCATACGGAGGTTCGAATCCTCCCGTCCCAGCCATAAATCTGTTTATTTTCCATAATACATATTATAGAACAATTTTTATTGATGGTGCATTCGATTGGATTTGAACCAATGACCTTTGCCTTCGGAGGGCAATGCTCTATCCAACTGAGCTACGAATGCAAAAATTATGAACTCTCATTAATAAGAACGGTATAAAATAAATCTAATAATCGAAAATAAATAATACTTATAAATATTTTGAACGGGAATTTTATTTAATAAATTATTTGCTTCGTTTTCTAAGCTACTCAAATAATTAACTGTTTCATTGTAAATTGCATGTTTTAACATTAAGTCACGTATTTTTACAAAGTCATCTTTAGTACGCTTATCAGATTTAAGCATATTTTCTAGCCAAAGCTGCTTATCTTGCTCTAGCTTATGATATAAAAAAATCAGTGGTAATGTTACTTTTCCTTCTAAGAAATCATCACCGATGTTTTTTCCTACCTGTTTATCACTACCTAAATAATCAAGTAAGTCATCTATAACCTGAAATATTGTACCAAGTAACCTACCAAAATTCTGCACATCTTTAGAAACGCGATCGACCTGCTCTGCTATAATAGCTCCGACTTCACAAGCAGCTCCAAATAGCTCAGCCGTTTTAGATTTCACTATTTGCTGATATTCATCTATAGTGATAATACGTCGCTCATTTAACTTAACTAATTGTACTACCTCACCTTCGGAAATAATAACCGAAGCTTTAGCTAGAACATTCATAGCTTTAATACAGCCAGAAGCAACCATTAACTTAAAAGATTGACTAAAAAGGAAATCGCCAACTAAAATACTTGTTTTACTGCCCCAAATAACGTTAGCTGTAGGTTTAAATCTTCTTAAAGTGCTGTTGTCTACCACATCATCATGAAGCAAAGTAGCGGCGTGAATGAATTCCACGGCACTTGCAAGTTTGATATGATTATTGCCTTTATAATCGAACATTTTAGCCGTGATTATAGTTAAAAGTGGACGAATTCTTTTACCACCTGCCTCTACTAAATATTTGCCGACCTTTTCTATTAATTCTGCATCACTTTTTAAACAACTAATAATTAAATCGTTTAACTGAGTTACTTCATCTTTTAAATTTTGCTGTATTTTTACTATAATATTCATGATATTTTTTATTGCTAAATTCCAGTATTAGTTGTCATACTATAGCTTAACCGCTATATCCATATTTTGTGATCAGATTACTGTGTTACAATATCAGATAATACACATTCCTCTAATATTTTTTGATTAATACTTGGAATTAACTCAAGAATTTTTTCTTTTACGTTTGCTCCAGGCTCCATTTTTTTTACTGCTGCTTGATATAAAGATAAATAATACAAAGGTATAAGTTTATTAATATCATCTATATTACCTATTTTAGCTTTATTTAAATCTGATAAATTAAACTCATACTTAATACTAGTATCAATTAAATTAGATGAATTAGGGTGATCGGATATAGTTTTTAAAAATGATTGCAAAGCCTCTATATGTACTATCTGACTCTCTTTAGATAAATTTTTAAAACTCCCTACTCCATATATATAGAAACTTAAAATCTCTATTATTTTAGAGTAATTATTAATTACTATTATACCTTTAGTGTACGAATCTTTAAGATCATTTATTATAGTTTCATTTGTTATATTAAATCCTGATGTGTTGGAATATAAACTTAAAGTATTTATCTGTACTCTAGTTAATTTCTTTAATTCTGTAACTAAATTAATATTAAAATTAAAATGATATGGTCTATCTTCTAAAATACTAAAATTATATGGTTTATTATTATTCAAAATATACACTAGTTCATTATTAAAATTTTTATATATTTTATTATCAGAAAATTTTAACAAATAGGTTTGCTTATCGTAATTTTTCTTTAAAAATTCTAAAAACCCTATTATAAAACCAGGTTTTAGCTTAAATTGCGATTCTATCGAAAGATGAATATTACTGTTACCAAAATCATTTAACTTACCTTTATATAATAAATTCATATTATTTTCAAAGTTATTACTATTTATTTTTGCGTTATTAACTTTAATTGTTAAATCTTTAGCAATATCTTTAAAATGTAAGCTACTAGTACTAATCAAGAAATTACCAGAAAATTTAAAATTATTATTCCAAGCCGGTCTATATAATAATAATCCTGCAGGTATTATTCTATCTTCAAGATTACTTTGTATTATTTCGGTTTCATAATAAAATTCTAATTTTTGTGGTATATTGTTAAGAAAATCCTGTTTACTTGTATAATACTGCCTCTTATCAACTAACATAGTAAGTATAGTATGATCTTCTTCATATAATTTTTGATTATCTACTAAGTCAAAAATTTGTGTCTTATCTGAAATAAATTTAATATTTTCTATTAAATTTAGAAATTCAAATAAATTTTTTTTTAACAGTACCATTTTAAATAATTTTAAGTTTAATGGTATCTTTGCCGATAATATGCAGTTCTCATTATAAAATTTTACTCCAAATCCTCTTTGCACAGGCTTAAATTTTCCTAATGCTTCTCCAGAAAAATTTATAAATAATTTCTGTCCAAGTAAATCATAACCAATATTGATTGGTTTGGTAAATTCAATTGCTCTATTAATACTTTCTTCTTGCCAATTAATTACCATAATACCTAATTTAAAAGGGAAACCATATGGTTGTACTTTAGAAAATTTAACAAGATATTGCTGATGAGGATTATTATTACCCTTTCCTATATTAAGATGTACACCAGAATATTTTTGATTTATAGAGTGTGATAACGAAAACATAATAACAAACCACAGTCCACTATATATTAGTACAATAAATATAATTATAAATAATATTATTATAAGAATTTTTTTCATTTTAAATTAACATTGATGTATGATTTGCTAGTTTATAATTGCAAGAAAAATTAGATTTTAGTAAAACAAGTAGCATATGATTATCCACAATGCAGTAATACTATTATTGACACAGCTTTATATATTCCTTATTTAATTTTATAATATTCCAAATCCATAAATTCATCATCACTATAAAAATTACTAGTAAATATATTATAATAGAATCAAAGGTAGCCGTTGGAATAATAATAAATATCAAAGACTGGATAAATGCTCCAAGTGATTTACCAAATTTCGTTCCTATTACCTCTACAGCGGCTTTTCCCTTAGTTCTCAGTTCTAAAGATAAAGGAATATATGCCATTTCTTTTGTTGAATCGAATAATGAATATTTAGACGATTTACTAAGTATATTCTGAATTGCTCCGACAATAATCGCTACATATAGAAGATTAAAATCACCAAAACATGTACCTATTTCTTCAATAAAAATTATAAAGATAAAAAACATGAAGCCTGTAATAGATAACATAATAGGAGTTAATAATGCAGCAATGAGCCAACCAAGCCTTCTAAGAATATTACTACCTATTATCATGAAAGTAACACATGAGATCCCCATCCAAATATTAAACATGCCCATAAAATTAACATAATCTACAGTATTTGGATGTAATTCTTTTATTTTCGCTTTCCAAGGTCCTTCAACTATATTTATTAGTAATCCATAACAGATTATTAATAATGCAATACGACCTATATATTTTGAATGAATTATTAATTTTATACTTTCAATTAATGCAAGTTTTGTTTTTGTTTTAGCAGCAACTTTTTTTACATCTAAAACATTTATAGAATTAGTTAAAATAAATTTATTTATTATTCTAAATAAAAACATAGCAATTATTCCTGCAGTAACAATAATTGATATGATTGGCTGAAGCATGATAGAATTGTTAGAAGATGAATTATAAGAATCCGTTAATAATTCTGAATCAATGATGTACTGCCCACTTGAAAAAAAAACAAGTACGCTGCCTGCTATTATAAGACCGATATTACCAACCATCCCAAGAACAGGATAAAATCGTTTAGCTTTAGCAGTATCAAAAATGTGATTAGCAAATTGCCAAAACATTAAGTTTATAACTACTGCACTCCATAATTCTGAGAAAATATACATTAGCGCATAACTCCATTTACTACCTATTTTAATAAACCACTTTAAATTAGGGTATGAAGCAATTAAATTATTTATCATTGCATCATTAGGATGATAAATATCTTGATTTGGATAAATAATATAGGCAAATAATAAGAAAAATAGTAAAAAAGTACCGACTATACTATAGAAAATATATTCAAAATTTAATTTATTACTAAGTTTAACGTAAAGTATCGTAAAAATTACGCACGAGGGTAGCACTAACCATAATTTTAAGAAACTAATAATTTCAGCCCCCATAGAGGGTACTACTAAACTATCTTTAATAGATCTTAAAGCCCCAAAATTAAACAGGATACATAACATCATTAAAGCCATTGGTATAAATAGCTTTAATTCTTTCCTTTCTATAGGCCAAATTATTTCTTTAACTTTTTCAAAGAAAATTTTAGGCGGTAACATTTTTATTGTAACCTTACATATTAAAGTTAACTTTTAAATCGCTTAAGTTTTAAAGTCAATTAAAATCATCAATTGATACTATTCCAAGGTGTTATTTCTCTATATCGCCAATAATATTGTGTAATCTTATCTAATTTATCATGATTTGTTTTCCATAATTCTTCCTTTTCAGTAGTCCATGGCTTAGGTCCTGCATAATGTAAAATGAAATAAGAAAAGTAAGGGCTTTGATGCTCAAAATATGTACAAAAATTCCATCTCATCGATAAGGGATAAAGATAATTCTGAAATGCAACATTTAATAAATCTTGGTCAGGAAAAGAAAAGTCACATTTTGAATTTTTTAAAGTTTCTAAAAGAATATTATTATATTGCTTTTCTCGCATATTTTTTAAATTTAAAAATACTATACCACTATTTTTATAAGAATGAGCCACATTCCTTTTACATTCTTCTTGTACTTTATGAATACAGTATGTAATAGCTGTATCTAGACTACATGCGGCAATATAATTGTTCATATCTATTTTTTTCAGAGAATTCAAATCACGTAGCACTACAATATCTGCATCAAGATATAGTATAGAATCTAGATTAGGAAAAATTTTATCAAAATATAATCTATACATTACTAAACTGGGCCAATTATTTGAAAATTTTATTTCCTTATATGTTAAAGCTTTATTTAATATATTGTCAGGGAAAGTAGTGAAATCTATAGAATAATCTCTAATATATTGCATAGAAGATAATTTATTTATTGATTCTTGACTAATAGGGTCATTAGAATCCATAACAATATGGAATCTATAGAAACTATCTAAATCGCTATTTAGTAAACTGGATGCTATTACTGCAGCAGCATGAATAGCATATTTATCATTAATAGTTAATGCTATATCTAATATGTTGTTTTGCTTGATACCAGTTAATTTAATTACGTTTTGTATCTCTTTTATTGCAAGCTTGTAATCAGTTCGTATAGTTTTTTCATTAAAAGATGACCTACCTAGTATATGAATTAAGCTCAATCTATATAAACATCTAGCAGTAAGTTCTGGTATATTAAGAGAAATTAAACCCTTTAAAAATGGAACCTCATCTTCTGTATAACCGCTATAATATTTGAGTAAATCATCATCATTTTTTAGTTCAAATATTTCTTTTACTTTTTCTTTGTAACCTGAAATGATGAGTGTAGCTAAATTAAATGCAGCTGTTTTAGTATATAAAGTATCTAAACTATAACTACCGTTTTTAATCGCTTTATATTGCTGGACTAAATTTGCATTTTTATCTAGAGCAAAACGTAGTAAGCAATCATAACCTTTTGCTACATCTAAACGTACCATTCCATCTTCTACTTGAAAAGAACAAATTTTTTCTAATCTAGATTTATCTTTGGTATTTAAAGATTCAATATCTTCTAATCGTTCCAGTGCTAAATCAAGATTTAATTGATCTTCACGTATTGTACTATAGAATTTTTTATAACTATAAGTGCCAATATCCATAATACAATTTGTATTTTTATGCATTCTATAATTACTTATAAAAAAACGGAAATAACAATTACCATTAGAAAAATAAAAAAGAATAATATTAAATTTGTACTAGGCATTTATATTTTATCAAAATTAATGTACAAATTTTAACAATTCAAAATAAAAAGAGCAAATAAATATTGCAAATAGCAATACCGATTTTCTTAGGACACGATAACTATATTCCCACTAGTCTATAGTGTATTTTTTAAAAACAACTTAGATTATTAATGAATAATCAAAATATTTTTGATACAAAATTAAAAGAAAAAGGAGAGGCTTCAAATTATGTACTTTTTAAAATATGCACAAGTCTTATTAAAGAGATTGCAAGCAATAGCCGATCTTTACCTTGAATAAGATTAAGGAAAATGCTAAAATACGAATAGTAAACATTTTTAACTATCATTCTAAACTATAGGAAATATTTGCTTAGCTCATAACTGGATTCAATGAACAGAATACTCACATTTTTATATATTATTCCTAATAAGCACTTATGTTAAAAAGTGCATATATAAAATTCATGTTAAAAAACTCTCATATATATATTATTTGGTTATTTGGATTTATTAGCGGTTTTAATGTAATGATTACCGGTAATACTTTAAATTATTGGTTTGCTAAAAAAGATATCGCATTGCAAACAATAGGCATGTTATCATTCATAACACTCCCATATTCTATTAATTTTTTATTAGCACCAGTTTTTGATACAGTGCAAATTAAGTATTTAAACAAAATATTAGGTCATAGATTATCTTGGATTTGCCTAACGAGTACAACATTAATATCTCTTATATTTATTCTCAGCTTTCTAGATCCTAGTACTGATCTAGTATTATTGTCATTTATTGCTTTCATTATATCTTTTTTTAGTGCAGCACAAGATACTATACTCAGCGCTTTAAGAACAAAAATAGTACCTAAAGAGTCACTTGGGTTTACTTCAGGAATATATATATTAGGTTATCGAGTCGGTATGCTTTTAGCAAGTTCCGGAGCTATTTATTTATCTATTTATTTAACATTTAATGCAATATATAAAATCTTTGCCGGTGTAATATTTGTCTATTTAATTTTACTTATTTTAGTTGCTAGATATACTAATTCTTTTGATGTTATGGAAGAAAACACATCTTATTCTTATGTTGCGCGATGTTATGCGATAGCAGACATGAACCTAAAAAATAAGTTTTTTATAAAAAATTACTTTAATTATTTTAAAAATTTTATATCTGCCTATTTATTAAAGATTTTCTCAGGTTTTTACTTCCATAGGAATGATATAAACCTAGCATACTACATTATTCTTATATTAATTTTTCTAGTATTATATAGATTACCAGATAACTTAATTAATGTTATGATTAATCCATTTTTACTTCACCTTGGGTATAATGCTTTTGAGATAGCAAGTGTTTGCAAGTTTTGTGGCGTTATGGGAGCTATAATCGGTGGACTCATCGGTGGTATTATTATGAAATATAAAAATATATTATATAGTATATTATTGTTTGGTATAATTCACGCTTTAAGTCATATTTTCTTTATTTTGCTTGAAATAAACGGTAAAAATTCTTTAATATTATTTATTACGATAGGAGTAGAAAGCATTACTGGCGGTATGACTATGACTGCGTATATTGCTTTTATTTCTTCGCTGTGTCAAGGTAAATTCCGCGCTACTCAATATTCTTTGCTTTCATCAATGATGGGAATTTCGCGTTCAATTTTTCCTATAATTTCAGGCTATATGGTAGTAAATTTTGGTTGGCAAAATTTCTTTTTATTTACTACTATTATAACTATCCCATCTTTATTAATATTATTAAAAATAAAAACTAAAATAAACTGAAGTACCTTTGGATATGAATTAGTACCACTGAGATACAGAATATTTTTATATTTAATCAAGAAACAAAACATCTAAAATTTAATAATGCTTTTTCTCGTATAATGGTTAATATTCAATATGCATACATTATAGATACGATTATAGTAATAGGTACAGTAAGTTATATTATAACTTGTATAGTTATATCTTAAATATGATTTTTACTTTAGAAGTTACGGATAGATTTTAATAGCAAAAAGCTAAATACAGATAGTATAATTTATACCATAATATAGCTTCTATTATTATCAATTAATTTTTATATTGTAATACAAATGAAATCAGTTTTATTGACTAGAAATATTCAAGAAAATAACGAAACTATACAGGAAATTAATAAATATAATTTAGATTTACGTTATATTCATTGTTCTTTAATTAAATATAAAACATTAGATTTTAATATTAATATTTTAAACAATTATTCAAATATAATAATTACCAGTAAATATGCAGCACACATCTTAGCAGATTATAACTTAAAACAAGACATTTGGGTAGTAGGCAATAAAACAAAACAATTATTAGGCAAAAAAGTAATATATACCGCTAACAACATTGCAGATTTGATTCAACACTTTCCAACTGATTTATATAAACATACTATATATTTATCTTCGAATGAAATTACTCAAGATTTACCTAATAAAATAGCTAGACATATCATTTATAATGTAGAATATTTAAATGAGCTTCCAATATCAATTATACAAGAATTTGAAAATATTAGATATTTTTCTAAACCAGCTTATAGAAACGCATTTAAAGCGAATACAATACGTGCCACCACAGCGTATAAAAAAGTATTTAATGATCCTAGTCTAGGCTCAACGTATCCTCTAGAAGTACCGCTTGGAAAGATGTCTATTGATTTTATTTTACTTTATTCTCAGAATAGTGCTAAGACTTTAGTAAGATTATTACTACAAAATAATTTACTACAGTACTTACAAGATAGTTTAGTTATAGCAATAAGTTTAAAAGTCGCTAATATAGTTAGACCTTTTATAAAAAATGTGGTTTATTGTGATAATCAAAGCCCTCACGATATAATAAAGTTATTATACGAAAATGCAAAAATTTGATAGTTTATTTAGAAGTCAAAACATCTTTTTTATAGCAATAGTAATATTTATCTTATCTTCTGTTATTCTTTATCATAATAGGTCCGATATTTTAAAATTATTTACAACTGAATATAAAGGTTTAAACCAAATTACTAATCAAGAAAAAGAAAATAAAGAAAATGCTATCTTAGACGAAAAAGAATACGAAACTCTATTATCTACCAAGTCGCTTTTAAATTACGTAAATTCTTTAAAGTCCTCTAAAACATCAATACCGGATTCTGAAGCAATAATTCATGAGAGTGTAGAAGTGACGGATAATATTGTAGAAGTACCTATAAGGTATACACATTACTTATTAAATGTAAATCTATTAGTATATAATTTCATACAAGATAAGGATTATAGTAAAGAACTAAGAATACTAAAATCCTATCCATTACCTCAAAATATAAGGAATATTTTAAATAATTTAGAAAAATATAATAATAATTATCTTGTATCTAAATCAAATAGTACAGTAGTAATTTTCCCTATACACCATAAATGGTTAGAACAATTAATAAAAATTGAGAAAAAATCTCCTGTTATGATAGTAAAAGAACAAGATAAAACTCTCATTTTAGAGAAATTAAACTATCTAATCTATTTTTTGTATTCAGAAAAATTTATGCAGGAGTTTGTAAATAAAGATGTTTAGGTTATTATTAATATGTATTACTTTTTTAGCGCTCTATTTCGGATTTACTTTTATAAAGCACTTTGATTCAAAAGTGGTCATTAGTTTATATGATTATAATATTGAAACTACTTTATTCTTAAGCGTTATTTTAGGATTATTATTATTAGTATCTTGTTTTATTATTATTAGATTTCTAATTATAATTATCGATTTACCAGCTACAATACATATTATGTTTAGTAAACGCAAAATTAATCATGATAGGCATGCTGTAATTTTAGCTTTTGCAGAATATATTATAGGTAATAAGATGAAAGCTGCATCTATAGCACGTAAAAATTTATCTTCTGAAGATTTAAAAGATTTTCAAGAATTCCATAATTTTATCTTAGCTGTAACTGCAGAGGATATCGATAGCAAAATTTCTTATTTTCAAAAACTTATTACGTCTAAAACATTTGTTTTTTACGCTAGCAAAAACCTAGCAAAACTTTATTATGATAAATCTTTGTATGATAAAGCAGAAAATTATGCGATAAAGGCTTATAATTTAAATGAACTTGATAGTGACAATTTAATTACCTTAATGCATTGTTATGCTAAACTTTCTTTATGGTCAAAATTTATTTTTATAACGAATAAATTAGCAAAATTTCATAAACATGAATTTGTACCAAAAATCACTCAGTATTATTTATTAATAGCGAAGCAAGAAGTGGAAAATAATAATACGGCTAATGCTATAGATTATTTGGAAAAAGCTATAGATTTAAATTTTTATAATGACGAATTACTAGAATTTTATTTTAATTTAAATGATAAGCTAAGTGTTAATCAAAAGACTAAAATATTAAAAGAAGCTTTCCGTATTGCACCTTCTTTAAGATTAGTGCAGCTATTTAAAAAAATCACTTCTCTATCAGATAAGCAAATTTATGAAGAATTAACTCAAGTGTTAGATACGCAAAAAGATAAAATATTTATTTTGGCAATAGAAGCTTATTTAGAATTGTGACATTCATTCTATTATGTCCCTTGAATCAATCCAAGATACAAGATGATAACTGTAGATATTGAACCACACAAGTAAATTTGTAAGGACATTAAAAGTATAGCATAGATATACTTTAATCACATAACAAAGACTAATATAAAAATAATTTTTTTTGATTTTTACTCTTGTCTTCATTTATATTATTATGGTGGTGATAATTAGATTGGATTGTTATTAAATAATCATTTATTGCTTTAGAAAATTCTTCAGTTTTATAACGGAAAAAATGGTCTGCACCATTGATAATTTTATAATCAATTTTAATATGAGATTGTTGATTAGATAATCTATTTACTAAATCTTTTACATCATCTGCAGATACTATACTATCATTATCTCCCTGTAATATAAAACCTGGAATAGGACAAGGTGCAAGAAATGAAAAATCATATTTATGAATTGTATTAACTGGTGGTGAAATGGCCAGAAAATGATTTATTTCTGGACGTCGCATTACAAGTTGCATAGCTATCCATGCTCCAAATGAAAATCCTAATATTAGGTTAGACTGAGCATTTGGATTATTTTGTTGTAACCAGTCGAGAGCTGCCCCCGCATCAACAACTTCACCGACTCCATTATCAAATTTACCTTGTGATCCTCCTACTCCTCTAAAATTAATACGTAATACGGTATAACCATTATCTACTAAGATTTTATAAGCATTATAAACTACTTTATTATTCATATTACCCTCATATAAAGGATGAGGATGAAGTACTAATGCAATAGGGGCATTAGGCGATGTCGCTTTGGCATATCTTCCTTCAATTCGTCCTTCTGGACCGTTAAAATAAATTTGCGGCATAATTATTTATAATATTTAATTTATTTGGATATGGTATTTTACCACTTTTTCTTATTAGTGCAACTATTCTTATATACCAAGTCATTAGGCATTAAACTTTTTACATAGCATCACTAATTATGGTAAAATTTGTATAAGATACTACACATTAGAATAAAGTATACACTCTATTTGTAATTCATGCTTTTGCTTAAATAGTATCAAAGACATTTAATTATGATTCAACAACACAGAGACCGCATGAATAAATCTTGTTGGATGCATTACTTTTACTATTTCAGTAACTAGAGAAATAGAGCTCAATTTAAATTACTAAAATTAATAGTAAGATGGACTCTTTGCTGTTTTACGCAATAATTCAGCTAAGCAAATACTGCTCTTTCAACTGCATCCACATTATGTTGCACTAAATCCTTAGCGATTTCTTTAGTAACAATCTTTTTTAAACCACTTGTTAGCTCTTGTCTAACACATCCAAGCATTTTCGGTTCTGCTATAATAATCAATTCCTTATATTTAGCTTGATTAGCTGTAGTTACTTTCTCTAAATGTTTAATAACACTTCTTGCTGCTTCTTTATGTTCTATATCTTTTAGCGAAGTATGTGGCTCAAAAAGTGAGCCAGGAGTAGATTTATTTTGGTAAAGGCTTTGTCTTTTTTCACGATGATGGTGATGTTCTTCTAAGTCTAAAGTGAGTTTTAAAGGTTTATTAGTGGTAATTTTAATCCCTAACGCATCATAAAGCATCATGTGCTTACTATCAATAACCGCAATTAATTTTAACAGTGCTGTACCTACCATAAATACCTCCATAAATAATTGGTTATTTTATGATAATACTATTTATTATATAAACCAATATTATATTTAATAATTTAATAATTTTTGCTTTTCACTATTAATTATTTGCTCGACCTTCTCATTCAAAATACGTACATCCGTTTGCTCTACCTCTGCTTTGTCTATTACTCCTATAATCTTTACCCTTATAGTTCCAGGCTGCTGAAACCAAAAACCTCTAGGCCAAAATAAACCCGCATTATGTGCAATCATTACAATCGGAACCCTAGTAACAGATGCCAGCTTTACAGCACTTGGCTTAAATTTTACTGTTTTATCAGGGGGCACTTTAGTTGATTCTGGAAATATTATTAACCATAAACCTTCTTTTATTTTTGCTTGTCCTTCTCTTAAAATCTGAGCAACTGAACTATTAGTACCGCGATCAACTGCAATCGGTTTAACCATACGGAGTCCCCAACCAAGTAATGGTATATTAAATAATTCACGTTTCAATACCCAAGAATGTTTCGGAATAATTAATTGCATAAACATTTGATCCCAAAAGGACTGATGATTAGATATAACTATGGAAGTAGTCTTCGGTAATTTCTCAAGTCCCTCTACTTCATATTTTAAACCACAACAAATTTTGGCAAGCCACACAAAAGCGTAAGAAAAGATAATGGCAATTCTATATTTTATTTGATAGTTGACATTACAAAATGTTACAGGTATGTAACATATAAGAAAAAAAATAAATGTAAATAACGATAATAATCCGTAAAATGATAAAATTCTTAAACGCCACAACATCATTATTAAAATAATTATATTAATAAAAATGGTATTTATAACATAATTTTATAATGAGTAAAATAAAAAGGTATTAAATGAAAAAAACTGTTCTTTCTGGTGTGCAAACAACCGGTGCTTTACATCTTGGTAACTATTTAGGTTCAATTAGAAACTGGATTAAAATGCAGGAAGAATATAATTGTTTTTTCTTCTTAGCAGATTTGCATGCTATTACGATTGATATTAAGACATCAGAACTTAATGATGCAATTATGGAAGTACTTGCTATTTATTTAGCAGCAGGTCTTAATCCAGACAAAGTAACAATTTTTGCTCAAAGCATGGTAAAAGAGCATGTAGAGCTGAGTTGGTTACTTAATTGTGTTACACCACTTGGATGGTTAAAGCGTATGACACAATTTAAAGATAAAGCTGGTAGTGCTCAATGTAAAGCGTGTCTTGGTTTATTTGCATACCCGATACTTATGGCAGCTGATATTTTAATCTATAAAGCAGATATAGTGCCTGTAGGTGAAGATCAGAAGCAGCATTTAGAGTTAACACGAGATATTGCAGAGGTGATAAATAGGAGATTTGATAAAGAAATTCTAAAAGTACCGGATATTTTAATTAGTGAAACAGGTACAAGAATCATGAGCTTACGGAATGGATTAAAGAAAATGAGTAAATCAGATATATCTGACTTTTCTCGTATCAATTTAAAAGATAGTAATGATCTTATTCATCAAAAAATAAAAAAAGCTAAAACTGATCACTTAAGTTTTATTAGCTATAATAAAAAAACAAGACCGGAAATAAGCAATCTATTAGATATTTATAAAAGTTTCTCTAAAGAAAGTATAGAAAAAATAATTGATAATTATCAAAACCAAGGTTTTGCAAAATTTAAAGAAGATCTAGCAGAAATTATTATTACAAATCTACAGCCAATACGTAATAAATGTTTAGAATTAATGAATGATAAAGAATATTTATTGAAAATACTGCACAAAGGAGCACAAAAAGCAAGGATTAGAGCATCTGAAACAGTAAATGAAGTAAAAAAACAATTTGGATTTATAATTTAAATTTATCTTTTTAAGATTTTCCTTGAAGTATATTAGATTATTTGGTATGAATTTCCTTGGATAGGTGGCCGAGCGGTTTAAGGCACTAGTCTTGAAAACTGGCGTATGGGCAACTGTACCGTGGGTTCGAATCCCACCCTATCCGCCAATTTGAACAGTTAGAAAATTTGTATCCTTGATAAGGAATCATTTATTTAGTTGTTTTACACACCACTGAATATTTTTTATTAATCCAATATTTGAATTATAGATAAATCACATATGTACCTTTCTGAATTTTGTTATTGAAATAAACACGTGTGGTCAGCATGCACATATACCTCTACTTTAATATTTAAAACTATTTATTATTTGTTTCACTTAATAAATCTTTATATAAATTGAGTATTTTGTTATCACACACATATCATTTTGTATATGAATTGGCATGTTGATAATAATTACTATTAAAATTTATATTTTGATAAACTTACTATATTCTCATTTAATCGGTTTAATTTATTTATTGTTGTGCCAACATCATTTTAGCAGCTTTGATGCCACATATTTTTGAAGTTTTGATATTGGTAATTTCAGTTTGGAATATTATTTTAGTACAATCAAGGTTCCCAAGCATAAAATCTATTTGTATATTATACGCATCTAGGTATTGTGCGTAAGCAGCAATCGGTGTACTGCAATTAGCATCTAGATATTCTAAAAATGCTCTTTCAGGTTTTATTAATTCAAAGGTTGGAAGATGATTAATTTGACTACATATATTAAACATAGCATTATCGTCTTTTCTGATCTCGACTGCAATTACACCCTGCCCTATACACGGTAACATCTTCGAATACTCTATAAGATGACAATATTTCTGATTAAACACATTAAGTCTTTTCAGTCCTGCATATGATAAAATTATTGCATCAACTTCACCTGTCATTAGCTTTTTTATTCTGGAATCAACATTACCTCTAAAAACTTTTATATTTAAATCAGGTCTTATTTTTTTTATAAATGCTTTTCTTCGCACTGCCGAGCTACCTATTACGGCATTTTGCGGAAGTGTTTCTATAGATTGATAATTTAAACATACCAAAACATCTCTTGGATCTTCACGCTCTAAAACTGCAGCTATTACTAGCTCTACAGGTATTTTACCAGGTATATCTTTCAAAGAATGAACAGCTAAGTCAATTTTTTTGTCAAGCAATGCTTGCTCTATTTCCTTTAAGAACAAAGCCTTACCACCTATATCGTATAATGGTTTATTTTGAATTAAGTCACCGCTAGTAATAATAGGTACTATTTCACAATTAATATCAGGAAAAATTTGTTTGATTTGCTCAATAACTAAATTAGTTTGTATTAAAGCAAGTGTACTATTTCTTGTACCTATTCTGATAGAATTTATCATGTGTTTTCTACTATTTTAACATGGCTAGTAAAATTTCAAACATTAATATTTATAATTAATCCCATATACTATTTCATTAGCCTTATAAACTCTATATATGGAATTGAACATAATTAAATAAAAATTTTTTAGTGTATTCTACAATAGTAAAATCACGGACAATTCTTACGTACTAAAATATACCGACATTTTTATTGCACTAGATTATAATGTGCTGCATAGTTTTTTATTAACATCTATTACTCTTTGATAAACTCCATTAAGTGACTATAAAATTGTAATTTTAAATGTTATATTTGCTTTTGCTTTAATAATAATAAGAAGATTTAATATCTTTTATAATCTTTCACTATTTTATCAACTTTTTTCTATATTAAAACAATTTAACAAATTTACTGTAGCTATATATAACCAAAAAATGATTTTAGTATGTATATGCCCTCTTTAAATATTTTTTAGACGTTCCTTTTTCGGATCATAAAAAAGTCAATCCATGACATGGTTTTATTATATACTTAAGTTTTAAAACACGGAAAAGTGAATTTTTGGCTTTAATTTATGCATCATGATAACTTGATTTAATGCTATTATTGATATAAAATTTTATTGTTTGTTAAAAATAAAATAAGGATTTACGCATTGCAAATGTTCACTAATCAAAAACATAAATTTGAAATTAAGTCCAATATATGCTGCTAATATCTAATATATTAGTATTGTATTTTCAATTAATCACAGAGTTAATATGCAGGTCTCTACAATCTTTCTATTAACAATAGAGTATTATGATATCTGATCATATGTAAATAACTGCTTTCAATAATATCATCCACATCTATATAGGTTTTATATTTATTTCACGCATATAATCACATTTAAACTGCGCAGTATATTTAAGCATTCTCATTTATAACAAATTTTATCGATATGAACTAACTCACAACTTCTTGCAATGTTCATTTCTTTAATTGTTTCATCATTTGTAAGAGGTTTAAACTGCAATATTTTGCACTAGTGACACGTAATAATACTATACGAGTAGCATAGTACAAAGGGAGTAATAACAAGTACTAAATCTATTCCTTTTGCAATAATAAAACTAAATTGTTGTACATAACTTACAAAGGAGTATTCAAAGGCATAGTAACAATAAAATGTGTTTTCCCTTGCTTATCATTTTCTGCCCAAATTTTTCCAGAGTGCAGTTCTATAACTTTTTTACATAAGGCAAGCCCTACTCCCCGTCCTCCTGCTTTTGTACGTGTTTTAGAACTTACAACAAATACGCCGAATATATTTGGCAATTCTTCCTTTGGTACTCCTATCCCATCGTCTTTTATCATGAATAAAATACTATCTGTTTGTTTTTGTAAATCAATTTTTATTGTTCCTTCACTACAATAGCTAATAGCATTGATTATGAGATTATCGAATGTGTGTTTAATATAATGCGGATCACAGTTAAATATTATATTTTCTTCTATATCAAATACAAAATTTAAGGTTTTGCCGTTTAGATATAATTTTTTACATATTTTAATCCTTTCATATAACAATTCGCTTAAGTTGATATAATTTTTATTTAATTCATAATTAAGACTGGATAATTTTGAAAAATCTAGAATATTATTTATAAAGCTATTCAATCTAATAGAGCTTTTAGCTATAACCTCTACAGCATTGCGACGCTGATCCTCATTAAACTTATCATAATTAGCCCATAATGTTTCACCAAGACTAATAATACCTGTTAGAGGTGTATTGATTTCATGATTTATATTACGTAAGAACTCATGTTTTAAATCAAGTAGTTTCTCTAACTCTTGTTCTCTATAATTAACTCTATTACCTAAATGAGTATTTTTCAGATTAATTAATATTTCTTGATCTTGTCTTGGTTTTAAAAATACTATTAAAAGGCTACTAAATAAGATTAAGAAATATACTACTTTAAATTGAAAGCTATCTATACTAATTAATAACTTCTCATCTATAAAATATTTATAAAATTCTATACTAGCAAACACGCCTGTAACAGTCATAAGTAAAGTAGCTTGCCACCTAAATATTGTTGCAATTATAAGTGAGTTAATTACTAAACACATTAATTGTAACTGATCAAAATTACTTAATATAACAAGTAAACTACCAAAAAATATTAATATAACAAAAGTAGCGATAAACCAAGAGAAAGATATAATATAATTTTTTTTGAATTTTAAAGACCATAAAGGATAAGTTATTAATATTGAAGCAGCTATAAGTGTAGTATGATAAATAATATTATATATTGCAAAATGGGTCATTATTCTGCTACCTGATATAGTATATAAAGATGAGAACATTGATATTAAAATAAATATTCCAACATGACTATAAGTAATTTCTTGATTTGGTAAGGTACTTTTCCAATATTTAAATATGTTAAAATTCTTAATATCACGAAATAAAGTTAAAAATTTTCTTTTTCTCTCTTGCCTGATTATTTTCACTGATAGTGGCTCTTTTAAAGCAATAAATCCCCCAGGCTGCTTTAAAATATAATGTCTTCCAAGAAAAAAGATTAAAGTTACAATAGTTGCTGGTAGTATAGGATAAATGCCTAAAACCGTCCTTAAAGAAAATATTTGCCATGCTATAATAGTGAATATTGCAGCAATAGTGCTGATAAAAAAACTTTTAGTAGTAGATTTAAAACCATATATTAATAAAATTAACGGTAAAGTAATTAACGGCAAATAGATACTAGTTAATAGTAAAAACAGATTTATTAGATCTTGCGTATAGAGTGATATAATAAAACCGATTAATCCTATAATAATTGCGGTTATATAATTATAATGCAATGAAGCCTTTTTAATTATATCATTAGTAAAAGTTACCGCAGCAACATTAATATCAGAGTTAGTACTTGCAATTATCATTGCCATAACAACTCCAACTATTAACCCCTTAAATCCTATATAACTTTTAATGATTCGTAAAAACAGCTCATTTGTTTCAATTACAGAATTTTGAGAAAATAATAATATTGTAATCCAAATGAATAAAATGGACCAACAAAGACAAATAACTGCAGCAATAAAAAATGTATGTGAGATTTGCTTTGTATCTTTTGCCATCAATATTCTTTGAAATATTGATGGACCAAACGATGGAATAGCAAAATATATAAAAATATTTAAAGCAATCCAAAATTTAGGACTAGTACAATGAAATAATCCTTGTAAATCAATTAAATGATTCTGTACATTTGAGTTGATCACTATATACGGATCACTAAAAACATTCCATATAATGATTCCTATTACCGGAATAATTGCACTATATGTAAAAAACTGTACGGCTTCAGTGAAAGTAACTGATTTTACGCCACCAAAAGCAGAATAACTTATTATTACAGTTGCGATACATAAATTTATATAAAAATTTGAAATATTAAAGAATAGCTGTAATATTAAACCTGCTACGTGGAATTGCATAGCAATCCTACCTATAGACATTAATATACTAACTATTGAAGTAAGAATACGCACTTTGTTACCATACGCTGCACCTATTATTTCTGCTACCGATAAACTACCTAAAAAATTCTCAAAACGAGGTGCTATAAAGTAACTCATTAATAACCAACTCACAACGCTACCAAATATACTCGGTAATAAGTAAAATAATCCATCTGGATATATTATTGAATTATCTATTAAAAAAGTACTAGTCCCGATCCAAGTTGCAATCAGAGTTGCGACTATTGTGCCTGTAGAAAAATTCCTTTCACCTACAGCATATTCACGATTATTTTTTATATTTTTGATGTTTAGAAGTCCAAATAGTAAATTAATTACTAAAAAGCTAGTAAAAATGAGGAGATCTATATTTGGCATAGAGTTAAATTATAGAAATTTTCTATGCAAATAATAATAACGAGAAAAAAAGAAACAAACAATATTTTTATCGAGTTAAAGAAGCATTTCATACCTAACTTAATACAAATGAATGTTATAAAATTAAATGTCATTAACATCCTGAATTTTGTATAAGATAGTGTAAGTGAGATCAGATCGAGCGCTTTTAAAAAGCTATAAACTACTATTCCTTTTTATATTGCTTAAGCAAAATTAATATAATATTTAATCTATATTATATAAAATATATTATGAATTTCTTTAGCATTTAAAAAGATCTTCGAGCAATTTTATTAGTTATAGCGACCCTTAACTTAAGATAAAATCAATGAGGCTGATATTTAATAATTTCTGAAATAGGTAATATCTGTCTCCACTATTTACCTTACATCATTACTTACTAAAGTTACAGTTTCTCATTTTCTTCTTTTTGACTAAGTAAGAATTCTTATCATTTAAAATATCAAATCTATAATTAGTGCTTCACTCTTATTCAAGTTATAATTTGATAAAGAAATTTATAGTTCTTGTTTCTGTTCTAATTTAAGTGCTCAATTTATATTGTACTCTCAAAAAATTACGCTGAAGTTTTTTCATATTCTATAAGCTTATTGTATTTATCAATAAACCTTTAAGTTCATCAATAACCACGTACTATGACGCAAGCTACTATATTTATTAAAATGCTTGTATCTTCTATACAAAATTATCTTACTGATATCTGCTGCTAATTATTTTACAATTTAAAGTAAGGACATTATATTGCAAAATATATATTCCTCTTAGTCTCTTAACTAAGAAATTATATTAACTTGTAGTTGATGCTAATTTTTCACAGAATTAGTTAATTTAAGTTTGCAATAATTTTTTCAAAATTTTTTATAAAAAACTTTAAAAGTTTATTTACTAGGAAAAATTCTAGAAATCTTAAAATTTAATACCATGGTGCAAGAGATAAGTTTATTTTAATTCCTTTAACCGTAATATTATATGTTTTATAATCATGATATTTTTTTTCCATGATTAATGCTATTCCTTTATTTTGATAACTTGAGCATATTACACCAATTTTTTCATTATCTGCAAGTATCACGTCGTCTTGAACTAATGATAATAAATCTTCATTTGCTGTAATTCTATATACTTTTCTTCTTATAACACCTTGATATTTAGTTCTTGATATAATTTCTTGACCAACATAACATCCTTTTTCAAAACTAATTGCATTTAATTCCTCAGCACCATACATATTCGGAATAGATTTATCTGTGATTAAATCTTCTATACCATCTATTATTGCAAAATTATATTTATCTTCTAAGTATATTGGGTTCATACTTTGGCAATAAGATGTTATTGAGCTGATAGATTCCATATTTGCCATATTATCGCTTGAACATGTTATGTCGAGCTTATTTATTGAACGAAACCCAAGCTTAGTATAACGAGGGTCACGAACTGTAATTAACATGTCTATATCTAATTTTTTGTGTGAGTAGATAACTTTGTATTCTTCACTACAATCTATTATTTGTATTTTAGAGCGCAATTTATAAAAATTTAAATGTGCTATTAAAGCAGTTTTATTACTTTTATCAATATCAATGTAAATTTCCTCTTTCTTATGCACATACACAAAAAAGTCAAATAAATATCTTCCTTGATTATTAAGCAAATAGGTATAACAATATCTTTTTTTACAAATATCATTAGTAATGAGTTTTTGTAGGAATATTAAAGAATCTAAACCTATTATTTTGATAATCTCTCTATTAATTAATATTTCATACATATTATAATATTATTGACTTTATATGGTTCTAACTACTATACTATACTCTAAATTTATATAAATAAAACTTAATAATCATGAGATGTTCATCTTACTGCACTTCTTCTGAATATAAAATGAGTGATTTAGTAACTAATTTAAAAAAAATTGGTCTTGAACCTCAACATTTTGATGATGTTTTATATCTACGGAAAGAGATAAATAAAGATTCTGATTTTATAGAGGTGTTTTTCTTTCCATTTGGATGTGTAACTATTTGGGGCGGTGATGAAATTCAAGAAAAAATAATTTTAAGCAATACTGATCTAGTAAGAGTAAACAAGCTTAAAGAGCATCTATCTGATTATATTTATTTTGAATACAATACTGATGTTGAAAAGACTTTCATTGATGAAGAAAAAAATAAAATTATCTTAGCTGATCAATCTATTTTTGCGAAACTTTCTATTTCGCATGCTTTAGCACAATCAGTTAAACTTAGCGTTCTTGAACAATCAGTGAGTAATTTAATTGTTCAGACAACTCCTATTCAGCAGGAACTAGCTAGAACAGGCAGCGTATCACTATCTAAAAAAGAGATATTACAGCAAATAGGTATATTATTTAACGAACGTTATTCGATTAGTCTACATAGTGATATATTCGATACCCCCGAATTCTTTTGGCGTCGTCCAAGCTATGAGCCTTTATATCTTATGACTGCAGAATTTCAAGACATAGAAATACGACAGAATATCATGAATCATCGTCTTAATATGATTCAAGAACTTTTAGACATTCTTTCAAATGATCTTAATTATAAACATTCCACTAAACTTGAATGGATTATTATTATTTTAATCGGTCTTGAAGTGATTCTATCATTATCTCATACTAATCTTTTCTTAAAAATTATCGGAGCTTTATAAATAAATAGCTTCTATGCAAATTATAGATAAACAAAAAACACTAGAAGAATTTTGTAATAAGTTAGCAAATCATACATCTTTAAGCATAGATACAGAGTTTGAGCGTCGTTATACTTATTATGCCCAGCTTAGTATAATTCAAGTTAAAGCAGAAGGATATTGCGGAATAATTGATACATTAAGTAATTTAGATTTGAATATTTTTAATAAGCTACTTATAGATAATAATATTACTAAAATATTTCATGCGCCTCGTGAAGATTTAGAGATTTTTTATAATTTATTTAAAACACTGCCTTCTAATATTTTTGATATACAAATTGCAGCAAGTATTTGCGGTTTTGGTCAACAACTAAGTTATGATAATCTTTGCTATAAGCTAATCGGTATTACTATAGATAAAACTCACCAAAAATCTAATTGGTTAAAACGCCCTATCACTAATGATATGTTAAATTACGCAATATTAGATGTAGAATATTTGTATAAAATATATAAAGAATTAAATAATATAATTATTAGCAATAATTTAACGCATAAATATCAGCATACTCTTAGTGCTTTATTAGATGTTAGAAATTATAAGGTTGAACTGAAAGATGCATGGAAAAAAATAAGATATAAAAGTGATGATGAAAATTTTAACCGTACAATTCAAGTACTTGCAGCCTATCGTGAAGAAAATGCGCAAACTATAAATATTCCACGTAAGCATTTTATTTTAGACGAAGATTTAATAAAGCTTTGTAAAAACATGCCATTGAATTATAAAGATTTTAAAAATCTAAAATTAAAAAGTAAATATTTACATAAAAAAAAATATAAAGATGAAATAATAAATTTATTTAATAACTTATAAGACACAAACTATTACGTTATTATTTTATAGTTAACCTACTTTGTGCTGTAAATTAATAAGATATTTTATTATACGAATGAACTATTAATTAATTTTTCGCTAAAAACTTTATCAACTTTATTATACTGAAATCATAAGATCAAGTTTATAATCATGCGATTCAATAGGAAAATTATCAATTAATTGCTCTTTTAAACACACTCCGACAGTAAAGATATTTTGATGGTTATTTAAATATTGATCAAAATATCCTTTGCCATATCCAAGTCTATAACCATCCTTACTAAACGCAAGACCTGGGATAATAACTAACTCAGGAATAATGAAATTATTATTTATAGGTTCATAAGTTTTACATTTGCCTAGAACCAATGCATCGTTAAAATTATAAGCACAATATCTTATCTCATTTTTTATTTTTGGTAAAAAAAATTTTATTTCAGGCAGTAAATTGATTATTGCAAGTAAATTAATTTCATATTTTAGAGGATAATACAACCCTACAGTTTTTACTCTTAACTTTTTTAATAACCAATTAATTTTAGTTATTAATGAGTCTTTCACTAAATTAGAATTAATCTTATCTTGTTTTTTTATTAAAAGATCTTTAAAATAAAAACGCAGCTCTTGTTTGGTCATTAATATCCTTATATACAATTTATTTTAGTATACAGTCTTTTATTTGTTTTTTTCTGAATGTTATAAGTCACTATAATTGAATATTTATATATTAATTGTTCTTTTATCTACATTAAGAGCCGCTTCTTTTATAGCCTCACTTAATGTTGGGTGTGCATGGCATGTCCTTGCTATATCTTCAGAAGATGCTCCAAATTCCATATAAGCTATAAGTTCAGCAATGAGAGTTCCTGCATCTGATCCTATAATATGTGCTCCTAAAACCCTATCAGTTTTACTATCGGCAAGTATCTTAACCATTCCTTCAGTACTACCAATAGCTCTAGCTCTACTATTTGCTAAAAATGGGAATTTACCAACTTTATAATTAATACCTTGTTCTTGTAGTTGTTCTTCCGTTGCACCAACACTTGCGACTTCAGGATAAGTATATATAACGCTTGGAATTAAGTTATAGTTAACATGCCCAGCTTGACCAACCATAATTTCTACAGCAGCAATAGCTTCTTCTTCAGCTTTATGAGCTAGCATTGCGCCTTTTACTACATCACCAACTGCGTAAATATTTGATACAGCTGTTTGGAAACGTTCATTTATCTCAATCCTACCTTTATTGTCCGTAGTAATACCGACTGATTCAAATCCTAGGTTTTTAGTATACGCTTTTCTACCTACTGCTATTAAAACGACATCACTAGTTATTATTGAGCGTTTATCCCACTCCTCTATAGTTAAGTTTACTTTTCCTGACTTTACTTCAGACGCTATTACTTTAGTATTAAGTTTAAATTCGATACCTTGTTTTTGCTGTATTGTCATAAATTGCTTAGCAATTTCTTTATCAAGCATAGGTACAATGCTTGAAGCATACTCAACAACCGTTACTTTAGCACCTAAACGACGCCAAACCGAACCAAGTTCTAATCCTATATATCCACCGCCTACTACTATTAAGTGCTTAGGTACTTTAGAAAGTTTCAAAGCACCAGTAGATGAAACAATAAATTCTTCATCTATTGTAATATTAGGTATTTCTATAACGCTTGAACCTGTAGTAATTAAGATATTTTTTGCTTTAATTTGTTCTTTATTTACTTCAACAATATTATTAGAGATAATTTTAGCTTCGCCTTTTATTTTTGTAATCTTGTTCTTAATAAATAAGCTTTCTATACCTTTTGTCAGGTCTAAAACTATTTTATCTTTATTAGATAACATTTTTTGTAAGTCTAGTTTTATATCCGCAATAATACCTATACTGTCAAAATGCCTGATCGCCTCTTCATATTTTTTAGAAGTATTAAGTAGAGCTTTAGACGGTATGCAGCCTATATTTAAACAAGTACCGCCTAAAGTATCATTTTTCTCAATACATGCTACTTTTAATCCTAGTTGAGCTGCTCTAATACTACCTGTATAGCCAGCAGGCCCGCTACCTATTACCACTAAATCAAATTCTTGCATATTTAACCTTATGATCCTTATGATGTGTAATACCGTATATTGACTACGGTATCTAATCTTTATAATAATCTTTTTTAAAATATCGTAGTCACACAACAGCATTACAATACTACAATATTATAAACACTATAACAACTTTAATCTTAAACTATTCTTATTTGGTGCTGCAATAAAACTAATTAAAGTAATGTTATCTTCAAAAACGTTTATATAATTTTTTAGTAAAGAAAACATTTTTTTAGAAATAGCGTAATTATGCTGAGAATTAAGTGCATTTGATTCACCAATATTTTTTATTTCCTTCATTAAAACTATAGGATTTTCAAATTTTAGAGCGATATTTTCATAATCAACAATTACTTCGCTAAATCCTGCATGCAATAATAGCATTGGGACATGATCAAAATGAATAAAAGGAGATATATGTGGAGAATGTTTAAAACCACTTGCTATTTCATTATCGATTAATGATTTACGTAAATTTTTTAAACTATCACCACCGACAAAATTACCAATAAAAATACCATCAGATTTTAAAAATGTTCTAATATTATATAAAAAACGCTGCACATCATTGATCCAGTGTAACCCTAATGAATAAATAATTAAATCAAATGAGTCTTTTTGAAATTCTAAATTTTCATCATCGATTAATAATTTGTGATTATGATCAAAAGAATCAAGCAATAAAGGCGACATATCTGTTACGATAATATTAGCACTGCGATAAACATTTTTTAGTAAACCTGTAAGATAACCACATTTTGCAGATATTTCTAGAATATCTGCAGAACTCTTATCAATCATACCTAACCGACTTATTATATCATTAGCTGCATGCTTTATAAATAAGCTATTACTTATTCCTGCTACTGAATTATTACGGTGATCTTGTAATTTTAGCCTATTAAATATATAACTCTCTCACTTGTTTTAATTAAATCTTTTATTTTAGTTATAATATATCTCTTTTTTTGATAATCTGATACTTAATTATCAATACGCCATGAATGGGTTTGCTATATTAATATGATGACGTTTGCTGACACTTTAAAAATATTCTCAGTATCAATAAGAAACTGCATTTTATTTTTATTCAAAAAGCTCTAAAGAGAATAAAATTATTTATGCAGAATTTAAACCCATAGTTATCATGACTATATTAATTCATCACTATTATTAATATTTACTAAAAGATTACTGTATTATTAATAGTTAATATAAATTAAGATAATATATATTCAACCAAGATTGCAATTTAGATATACTAATAACTTATTAAATTACTACCTACTTAATCTTTGAATCATTTAAATGCTTTTTATACCAAGCATGAATTATTATTAATGGCCTTATTTTTATGTTTTGCAAGTATTGTGAACTTATCTTCCTCATTGTTTGTTATCACTGTGATTCTATAATTAAGCACTTTATATGAAATGCTGTATGCTTTAATCATAAAATTGCATTTTTATTGCGGAGCATAAATACTTGATCAATTTTATAAACTAAGGAATATCAAAGCAATATCTTATACCTATATCTATACTATTTTAATATATTAAAACAACACGATATTCTTCGTACATATATTAATTGTGACACTCAAATTTGTTCCTACTTTATATTAGCCTATAACAATTCGATTTGTTTTGTATTAATAATGCCTTATTAAAATTATTGTCTCTTATTAGATTTAAAATTTATATTTCTTGATAACATATAATACTAAAAGTTTTTGATAAAATCACGATCTGATAATACAATATACATATGTGCTTATTGAATTCTTTGAATTGTTATAAGGCTTAATCTTATGATTGCTTCTATAAAGCTAAGTTTTAGAAGTATTATTAAATAGAGATTCGACTTATAGCACTTAAACTATAAATGTCTTATATATTTACATAAGTTTTTTAGTTTATTGTGCTATTTGTTGTTTTCGTTACAACTATAATATCTAATCTATTTCTACATTGCTTTTTTTTAAAAAAAAGATTAACATGTGCTAGTTTAGATGCTTCGCTAATACTCATAAAGTATAAACCATACAGTTTTTGGATAAAATTAATATCACTTTAAAAGTGGTATAGATGATATTTTTTTGTGTATAGTAACTTGTAACAGTGTGTTTTAAGCATTGTTTTAAAGAAAATTGACTATTTTGAAAAATAGTGCCAATTATAATACAAAAAACTCTTTACATGCTAAATCTTTGTAATTCTTCCTAAATACAAATAGTGTATTTTAAGTTCTATTAACTTAATATATCAAAATAACGTATAAAATTTGATAATTTAACTATATTACACAATTTTATATAAAGTTATATAAAGCCAATATAACTATTAATTAATATTTCTAAAGGTATTGTCTTCATATTTCTTCTTATAATATGTTTTATAATTCTCATTTCTTATATTATGTAACCATTGGTCTTGTTGTTTTTGGAAAAAATTTAAAGAATGCGATTTACTTTTACTTGTTTGAAAATTATCTTCACAAAATTTTAAAAAGCCTGATATTAAAGTTTCGACACTATTAATTTCAGATTTTTTTTCTAGAAATTGCATAGAAAAATCAGAAAGCTTATTATTATGTTGTAAATAAAATTGCTTATATTTCTCATGAATTTTATTTTCTTTTTTTATTTGTTGTTCTGAAAAAAATAACTTTTCTTCTAAGAATTTATGAATTGCAGTACAGTCATTCCAAGGTAATTCTATTGTTAACTGCTCTGCTTCTTGATATTTAAAACTATCTTGAATATGATTTAAATCAGCATTTACTTTTAATGAGCTTACTAATATTAAAAAATATGTAACTAATTTAATATTCATAATATTTAATTAATTTTAGTAGGAATCGGTATCATAATACTACTTCTGTACCTTTTATTGCTACTAAAAAGTGTTTTCTTTTGAACTTTATTATTAACATGCATTATATCTGCTAAAGCTTCTTCATTATTATCTAGATAACTAAATAATAATGCTTTATAAAGCGCCATATTACTTGCTATTTTAATTACATCTTGCTTATATTTTACTCCTAAAGCATGATTAGCCGAGTGGTAATGAGCTATAGCTTTGTGCCAACTCCCTAACTGATCATATTTTGAACGTAAAAACTCTGCCCCGTAACGGATGTTATTATGTGGATCAAATGCTTGGTCAAGGGAATTAAAAGCCTCTAAATGATGTCTTAAGTTAATCTGCATACATCCAACATCAATACTATCTCGCCCTTTTATAAGTTCTATTCGAACAAAATTAATAGCTTCTCTTTTACTATTAAAATAATAACCTTTTCCTTCAACGTTCACTGTCCAAGGCCATACTACTTTGATTTTACGGGTTGAATGTTTTTTTCCTGATTCTTTTAAAGCGATTGAATATAAAGCATTAGATGGAATATTAAATTTTTTTTCAAAATAAGGAAAAAGCTGAGAACATTTTAATGATTCAGATATTTCAGGATCAGCAATAGTATGATTTGGAAAGAAACAAAAAGATAACAATAAAAGTATAAAGCGCAAAACGACTTGTCTTGTGTTATCCCGTGGCTTAATCACGTTATTTAAAAAATAACCTATAATGGTATATTTATGGAATAAAATGTATTGTCGAACCATACCGTTAACTTTAAAATAACTTGAGTTCCTTAAGATAAATATCTTATCATAACTTATTTTATGAGGCAAGAAAAGCGATAACATTTAAGAATTTATAAATTAATTTTAATTAATAGTTTAATACATTAAAACGTTATTAATTCCGAGCTTTAAATAGCATTAATTATTAATTCTATTAAAACTATACAGAACTTAATTGACTGATTAGATAAAAATGTTTATTATTAATCCCAATTAATGTAATAAGTATATTGTATGAAAGTGGTTAGTTCATTAAAATCGTTAAAGAAACGCGATAAAGATTGTCAGATCGTTAAAAGAAGAGGCAAGATTTTTGTAATAAATAAAAAGAATAAAAGGTTTAGAGCGAAACAAGGTTAATTGTTTCTAGAATAGAATATGGCCGGTCACTCAAAATTTAAGAATATTCAGCATCGTAAAGGGGCTCAAGATAAAAAGAAATCAAAAGTTTTTACTAAATTAATTCGTGAAATAGTGACGGCAGTTAAAACAGGTGCTTCTAATGTTCCTGAAAATAATCCACGTCTTAGGAAGGCTTTAAATGCTGCACGTAGTCAAAATCTCCCTAAAGAAAGAATAGATAAAGCTATTAATAGTGCTAATGATGCTTCTAATAACGAAAGTTATATGGAAATTAGATATGAGGGTTATGCACCAAATGGTATTGCTATAATAGTTGAAGCTTTAACCGATAATAAAAACCGTACTGCTTCAGAAGTGCGATCTAGTTTCACTAAATATGGTGGAATATTAGGGGAAACTGGGAGTGTAAATTATTTATTTAATCATTGTGGCGTTATTCAATATCCAATAAATATAGCTTCGAATGAAGATATTTTTGAAGCAGCAATACAAGCTGGAGGAAATGATATTATATCAGATTATATCACGCATACGATATATACGGATATTGAAAATTTTTATAAAGCTCTAGGATTCTTAACCGACAAATACGGCATACCTGAAGACTCTTATATAGGCTGGATTCCAGTAAATACTATAATTATAGATGATAAAGAAAAAGCGAAAAAATTACTAAAGCTCATAGCAGTTTTAGAAGAAAATGATGATGTACAAAGAGTTTTCGGTAATTATATGTTATCGGAGGATGTTTATGAAATAATCCAAGAGGAGTAATGATTCACAACGATGCAAATTATCAAATCATTATTTTAGCTGCCGGTAAAGGTACTAGAATGGAATCTGATTTGCCAAAAGTAATGCATAAAGTGGGCGGAGTTCCAATGCTAGAAACGGTATTAAGGAATTCGCTTAAAATCACACATGATGTAATCATAGTTTATTCAGAGGCACTGAAAAAATATTTAACACCCTATGAAAATATGTGTCGCTTTGTACTACAAGCAGAACCTAAAGGCACAGCACATGCTACTCATGCAGCAATAGATTTAATTGATCAAAATAAAATAATATTAGTTTTATATGGCGATCATCCTCTTATTACTCCAACACTTATGCATGAATTAATAGATTGTTTAAATATTATTAATGCTGCGTTAGTAACTTTAAGCTTTGAGAGATCAAATCCGGCTCAATATGGAAGAATAGCTATTGATAAAAATGGAAATTTTTTAGAGATTATCGAATATAAAAATGCAAGCGAGGAAGAGAAAAAAATAAAACTTTGCAATTCAGGTATTATGGCTTTTAGTAGTGGAATTTTAAATAAATATTTACCTTTATTGGTTAGTAATAATACTCACTGTAACCAAGAAGTTTATTTAACTGAAATAGTAAAAATATGTAAAAATCACGGTGAAAAAGTTTCGTATTTATTATCTACTGATCATGATTTAATTGTTGGTATTAATACTCAAAGTGAGTTAGAAGAAGCTAATAATATTTTGTCTCAGAATAAATCTTAGCTTGTTATATTGACACCATTATTAGTGTAACTCGAAAATGAAGTTCAACCACGACATTATAGAAATAATAATGAATACTAATAATTTGCTAAGATAATATAGTTGAAATTAGGACACATAGCATACGTACACAACTCATGATAATTAAGTCTCGAAGCAAAACTAATATCTTGCACCGATGTAATAAAAGGCAATAGATATAATGTTAAAAATTTTTTTGGAGAGATGGCCGAGAGGCTTAAGGCGCACGCCTGGAAAGCGTGTTCACAGAAATGTGTCGGGGGTTCGAATCCCCCTCTCTCCGCCATCATGATATTTCTGTCATTATTATGCATTAGCTTGTTATTTTAAATCAATCTATTTTATATTATGTAATGTATTCATCTCATGATTACACTAATTTAGTAGTGTAATTTAAAAGGTAACTAGAAATAGTAAAACTAATATTAAGTAACTTTAAATTATAATGTTTTTTATTATTAAAGTCTTAATTCACCTTCTTCCAGTACATTGTGCTATATTAGATCACAATACAACGCAGTAAATTTTAGCTTTATCTTTATTAATAGTACTATAATTTGTAAAATCCTAATCATTTTTGAATCAGACAGCATATATAATTACTCTTCTTCTAGTTTTAGTTTTTAAAATTCATGTTTAATGACTTAAAGTTCAGAAACATCGATAAAAAAGCTTAATTGTAATTAAATCTATATTAAGAGTGGGCTAAAGGATTGCAAAATAAATTATTATTACAAGATGACTATATAATGTTAATTTCAGAAGTAAAAAATCTTTATTTCATTATAAAATAAAAAGAATAATAGAAGCGTCCAAGATGTTATGATCAAAAGGACTGAATTTAATTATTATTTTGAAAAAGAATTCGTAATTCAAAAATTAAGCCAAACGCTAAAAGCAAATGTGTTAAGATTAACAATAGTTTGTGTAATGTACCTACAAAGGTAGCAATAATTAATTATTTCTGAGATAATTTGTTACTTACTCTAAAAACTTTTTTAGACATTTTATAGATTAGTAATATAATCATAATTATTAGTTAAGCTTTAAAAAAATTACTACTATCCACACTTCTTTAAAAGAATGATTTAAAATATGTGCGAATGCTTAAAGAATTAAAGTAATAATTCTAACTTTATATCTTAATAATTTGTATATTGCTCAATGCTTAAAGAATCATTTGTAAGCAAGTGATTTTCATACTACACTATCATTTAGTATTGATAAAACTTATTATACCACATTTGAAAAATTATAAACGATGTTGCAACAATTTACTTAATAACTTTTGATAATTTATCAAATAAATATTATCACTAAACTTAAATGAATAATATTAATATATCCACTCCTGATATTTTCCTATTTCAGTAATAATTTGAATATTGTTAGTTTGCAATGCTAATCTTTAAGCTTGTAAACTATTTTGAGGTAAGTCAGTCACTATTTCATTTTTTTTGCAACGTTTAAGCATTTTTCAAGAAAGGTTTTCTAGATGAATCGCACATCTTTTAACTTTAAACGTCTTTTAATTGCATTCATTTAATTTACATTCAATTTATCAGATATAAAGCATATTAGAACCTGTATCTGTATATTAAATAATAATTTGTGGTCGTATATCTTTTAATCCATATATTGCTATCAAACTTATAATAAGAATTAGGTAGTAATAAAGAAATATATTTTGCAAAATTATGTCTATTAATATAGATTAACTATAAAAAGGATATAATAATTAAAATGCCGAAAGAACAGAATTTAGATATAGAAAGAAAGCAAGAGCATATTGAAATTAATCTTAAACAAAATGTTAACTCTACACTTAAAAGTGGTCTAGAATCTATTAAATTTATTCACAATGCATTACCAGAAATTAACTATGATAGCATAGATACTACTACTACTTTCCTCGGAAAAGATATGAAGGCACCTATTTTAATTTCAAGCATGACTGGTGGTACTGCTAGAGCTAGAGATATAAACTATAGGCTTGCACAAGCCGCACAAAAATCTGGCATTGCTATGGGGCTTGGTTCTATGCGTATTTTATTAACGAAGCCTGATACGATCAAGACATTTACAGTCAGACATGTTGCACCAGATATCCCATTACTGGCGAATATTGGTGCAGTACAACTTAATTATGGAGTAACGCCAAAAGAATGTCAGTATTTAATTGATACTATTAAAGCTGATGCCTTAATTTTGCATCTTAATGTATTGCATGAATTAACTCAGCCTGAAGGTAATAAAAACTGGGAGAATCTTTTACCTAAGATAAAAGAAGTTATTAATTACCTATCTGTCCCTGTAATCGTTAAGGAAGTAGGATATGGTTTATCTAAACAAGTGGCTAAGAAGCTGATAAAGGCAGGGGTTAAGGTTCTTGATATTGCTGGGAGCGGTGGGACATCGTGGAGTCAAGTAGAAGCTTATCGTGCAAAAAATTCAATGCAAAACCGTATAGCTAGTAGCTTTATTAATTGGGGAATTACGACATTAGATTCTCTAAAAATGTTGCAGGAAATTTCAAAAGATATTACGATTATTGCAAGTGGGGGATTACAATCTGGTATTGACGGTGCGAAAGCAATTCGTATGGGTGCTAATATTTTTGGACTTGCAGGTAAATTATTAAAAGCGGCGGATATTGCTGAAAGTTTAGTGCTTGAAGAGATTCAAGTGATAATTGAACAGCTTAAAATTACTATGCTATGTACTGGCTCATGTACTTTAAAAGATTTAGCAAAAGCCGAAATTATGTGGTAGTAATAAATATATAATTTGTAATTTTGTAACGAAAAATATGATACATCTTAGAATCTATAAAAAACGTAATAAATTTTAAATTTATTAAATATGATAAATATCAATAATTCTGAGATATAATAACTCAAATATAAAAGAGCTTATAAGAAATAAATCAATTAAGGACGTAGATAATTTTGCTAACTCCATCTCCTATGTATTGATAATACTATCATTATATAATTAATGAGTTTTTAAAAGTAATTAATTACTATAAGATCAAAAGTTATTTTTGTAATTTTTTAAAATTTTAATATTTGTTATAGGATCATTCCATCTCAAAATAATTCGATACTATAAACCTTATAGATCACTTTTAAAAAATATGTTAATCTTCACATTAACTTATATAATTGTTTCATATTTTATGCTACGTATCAATCTTTGATCTTTAAGATGTACAATTATCAATATTAGTGTACATATTTATCATAGTAGATGAAGATATAGTTTTATTAAGTATAGCTTTGCATCTACTATAATTGAAATTATTAATATCTAAGTCAATTCACGAGTTTTGTATTTTTTTCAATATCGATTTGTATAGATATATTACAGGTTCACTTTAATCTTTAAGGATCCTTGATGTGCTGTATATTTCTTCGCAAGAGATAAGTTATATCTAATACCAAATTCTATCATATTATTTTTAGTAGAAATACCACCGCCTAAATTATATGTTATCTTTGCAGGTTTAAATCTAATTGTTGTCAATGGTTCATCTATACCGTCAAGGCGTGCATCAATATTTGGTAACTTATTTTTACATTGATAATTTATAAACCAATGTAATTCGGGCTTTATTATTATATCTTGTGATAAATAATGAGTTACACTATTTAAACCTAATATAGTTTCAAATTTATCATAGTAATTTTTCTTTATAGATAAATTTTGGAAAGTAGTATTATTTTCTTTGTAACCATTATTTTTAAATGTAGCATAACGCATACCAAACATTGGCGTTATAGTGGTACGATGCGATATTAGATAGTTATAGCCACCTAGTAATTCATAGCTATAAAAAGTATTAATAAATTTACCTATTGCGATTTGATCAGTAATAGTAGTTATACGTTTTTCATAATTTTTGATTTTATTTCTACCATACACACCTATAGCTTCAACAAAAAAGTTATTAGTAAGCCAATTATAAAGCCCATAGATAGAATATATATTACTTTTAGCTTTGGTTCTATCACCATTTTTATCATTTTTGTGCTTGACTTTACTATCAGCCATAGTATAAGCCGCCCCTATAACTATAGAATTATCAATATTATAATCAAAGCCTATTATACCACCACCTGTATTAGATTGATAACCGCTTGCACTGTTTTTAGAGTTTTGCTTTATTTTACCATAAAATGACATGCCCCAAATGCCCGTTACTATATTATCTTCATCACCTGCAGCAATTATTGCCTGATTATTAGTATTCAGTCTTTTTAGATTAATCTTATTATTAAGCAATGTGTTTGTTTTGTTGAGACCATTTACAGTATTTGCATCGCTTAATTCTTCTAACCTATTGCCAATCTCTTTAGCAGTGAAATTATCCATATTTATTGCTATATCTGTTAAAAAATTCTCAACCTCGATACCGTTCAGTCCTACTACTCCTTCATTAAGTCCATTAACATTTATTCTATTACTAAGTCTATCTAATGTTTCAGTAACTCTATTCGGAGACATAAAACCTAAATCATTTAATAATTTACCTGCATCAGTAGTATTACCAAAATCTTTAACATGATTAATAAGTTGGTTTGCTATACCAGAAGCTACATAATTATTTTTAGTATAATCTAAGATAGGAGATGGATCAAAAATTGGTACAACATCAGTGATGCCATAATTTTTATCGCTACTTGACCCACCTGCTTCATTACTACTGTTATTGCTGATATTCCCTACATCACAATTATCACGACAGCCATTGTCAGTATTGCCTCGACCCCTAGTATCGTCTCGACCTCCAGTATCGTCTCGACCTCCAGTATCAGTAAGTAATACCAAACCGTTTGCATCAGCGACCCATTTCACAAATTTATTTTGTTCCTCGCTTGCATCAATAATGACTTTAGTTTGCGGTACTGGAGTATATATTGCACCTGTTTCGAGTTTTACTATTTGGTGTTTAGTATCTGAGGTAATGTTAGTGATATCGGAGTGTGCTTTAATTTTAATTATTAAATTATCTAAATCGGACATATCGACATTAGATCCTTGACTAACTAATATATGCCCACCTTTTTGTAATGCAGTATCAAAATAAGTGATAATAGTCAGTAATCCATTATGTGTAACATTACCAGTATATTTTAATTCATAATTAGCTAAATCTAATACAATATCTCTAACATTTAGATTAGTATTTACTTCCACATTATCTAATAATACTAAATTTGCATTATCAGCTATTAAAGTAGCTGCTTTAATGTTTTTCTGAAGCAACATAAATTTATCAGATGCAATTTCTATGATGTTAGCATTTTTAATTTCTTGTGTTAACCAAGCATTGTCATTAAATTTTAAAATGCCACCATTATCAATATGTGCATCTATTACAACAGCATCTTTAAAATTTGCTGTAGCAGTATCATCTGCAAAATTTAAATTATCCGCTTTAATATCAGTGAAGTAATTAAATAGTGAGAGCGAGCGTGGTAATACATCTAAATCTATTAGAGCATCTGGTATATCTAAATTTTTGGGATTCATGTTATTATCACCTCTATCAAAATTTATAGTTTTACCTGCGTCTATATTAAGATATTTAGAATACACATCACCTCTAATAGTAGTATCCTCACTAATTTGTACATTTGCTAAACTTTTTATTTTACTTCCTAAATCATAAGTAATACCGCCTTCTATATTGAGTTTTACGTTACCTTGCGCGTTATTTGCAGTAGTAATAGATGAATAAACATGTGGAGAATTAATAGTCACTGTGCCATTGCCTGTCAATTCTATTGATTTTAATCTATTATTTGCATCTCCTATTATGCCGTCATTACCAGTATCAAAATCTGTTACTTCTAAAGTATGAATATTATTTCCTGCCGTAGTAATATTAGTCACTTGCGATGCTGCGCCTAAAGTTAAGGTAGCTGCCTGAGTGGCATTTGAAAAATGAATATTTTGCGCTTGTAATGTCCCTGTAATGGTAACATCATTATTTGCGACTTCTATGGTCCCTATAGCATTATTATTACCAAGTGTACTAGTGATATTAATAGGTGTATGATTATTTAGTTTTAAAGTTCCGTTATTTGCATTTTTGCCTGAGATATCAGTAGCAGTTACGTTATTATTAACTTGCATCGTGGCACCATCCGATATAACAATATTACCGCTTTTAAGAGTATTACTGAAATTTACACTTCCTGCGTTTATAATAATATCACCAACTGCTGCATTTGCGCCGATAGAACCGCTAACGCTACCACCATTTATGAATACTAAATTTAAATCCTGACCGCCTGTCTTATTAATATCAGTTGTTAAGTGTGAATTAGCAGCAAATGTCAAATTATTATTACCGTTACCTTGAATTTCAGTAATAGAATAATTACCGCTAGCAGATAGTGATACATCACCTGCTCCTGCTTGCAGCATTACTATGTTATTGATTAAACCAGTCACTTTACCTGATCCATTGAAATTTAATGTACCGTTTACATTACCGGTACTTGTAACACTACCGTCAATTTCTATATCATCATTAAGATTTATTACACCTGCATTACCTTGGAAATCTACATGACCGTTTATATTACCTGTTGCGGTATATGTTGTGTTTTTGTTAAACAGAACATTTGCATTCACCTCATTTAACTCTATATCCTTAATATTTAAGGTAACATTTTCAACATTGATCCCTACTTTTAAAGCTATAGCCCCATTATCTATACTAGCAAAAGTTAATTGCTTCAACATATGATTTGCTGTACCGAGTGTATAAGCCACATTGCCATTATTGTCTATAGTTAATTTATTAGTATCTGTTATGAGTTTAATTATACCAAATTGATTATTACCTGGATCTAAAGCAGATGTTAATGTTATAGTGTGGTCATTAGTATTTGAACTATTTTTCAGTTCTAATATTGAATCTTGATGTTTAAATACCATACCACTAGTATTTAAATCAAAATTATCATTTATAGCATCTAAAGTATAAGTAGCTCCGCCTGCTACTGTACCAATATTTATATTTTTGATTTTAGCAGATGTGAGACTTTGGTCATCAAATAATGCACCATTGTTTATATTTAATTGATGAATATTTTGTATATCTAAATCATTAGTTACAGTAACTTTTCCTTTAATATTTAAGCTAGATAACTCATTACCTTTACTACCAAGCTTTATTCCATTATTACCACTTATGGTTAAATTATTACCATTACTATCTAAAGTGATAATACCACCTCCAGTTTCGTTTAAATTATTAATAAATTTAATAGTTTGATCTACTGGTGCAGATAATATTAATTGCGAATTAGCATCACCAAAATTAATGCTACTATTTACGCTACTTACTAGAGTTAAATTTTTGTTATTAACTTGAATAGTAAAGTTTTGCGGTGTTCCTATTTGTCCTATATTAATTATTTTAACCGTACCAATAGTATCATCGCTAGCCTTTAAGTTTGTGAAAGCATTTAATATACCGTTTTGTCCGTTTACAATAATAGCATTTAAGTTATATGTATTATTACCATTAAATTCTAAAGTACCACCATTTGCTCCGAAATCAATATTATGCGTTGTGAGATTTCCGCCAAGCTGTAATATCCCACCGTTTGTAAAATGAATATTATCTACAAATATATCATTTGCTATAGTTACGTTTTTTGTATTATCGCCTTGAATGTTGATAGTCGAAATACTATTTGCATTATCTGCGCCTATATTTTGAGTTACATTACCGTCACCTATAAAATCCAATGTACCAGCAACCCCTCCATTACATAACACTGATCCATCAATCATAGCACCATCGCCTAAAATGAATTTACCAGCTTTATTATTAAAATCGATGTCTCCTACCAATCCTCCATGAGCTATAATTGTACCAGTATCTTTGTATTTTAATGCACCAGTAGTAAGTCCTGTAATCACCACATTTGCTGCAGAATGTGCAACAGTAAAGTTCTGTGAGTTCGCTGTACCACCTATATTAGTAGTACCGTTAAATACAACCTCTTGTAAAGCTGCACCATTTGCTCCTATGTTTCCTGTTATGCCGCCATTACCTGTAAATATTAACTTTCCGCTATTGTTCCCGGCAGTAGTTATGATATTACTGTTAACGACTACATCATTGTTTAAAGTTAATTCCGATGTTTGATCTGTGAGTACTGTAGAACCTGCATATATATTACTGTCAATATTACTAGCTCCAGCCCCAATATTTATTTTCTCAAGAGCTGCGCTATTAGTACCGATTTGACCTGTTATATTACTTCCTGTTCCAAGTGATAATACACCTTTTGTATTATTATGTGTTGTTACTTCACCAGTTAGCGTAACACCATCTGCTAAAATTAACACAGAACTTGGGTTAGTTAAAGCTACCGATGCAAATACATTTGCTGAGCACGTAACAGGATCTGCACCAATATTGACAAGTTTTAAGCCGAGTTCATTAGTGCCAATAACACCAGTAATATTCCCGCTATTGATTGTTAATATTCCTTGATTATTTTCAGAAGTTGTAATTGAACCAGTGACACCGTTTACTACTAATGTACCATGCTTTCCAAATGCAATATTACCACCTGCACCTAAATCTAAAGTACGATTAAATGTTATTTGTCCTGTACTGTTTATACTAAGTAACTTCGTAAATATCGTATCATCTATTATGATATCACCTGCTCCCTCTACTATTAATTCCTTAAGACGATGTGTATTATCCTGCCCTATAGTATAAGGTCCACTTTGATTTGCTATAGTTATTACTTTTTTAATTGCTTCTATTTTTACTATTCCATATTCATCATTGCCAGATTGATTTAAATTATTATATATGGTAAAGGTTCTATCAGCTGTAACACCAGTATTGATTAAAGCTAACATAGAATCAGCTCCTTCAAATATGATCTTTGCGTTGTTATTTAGCAAATTTACATTCCCATTTTTTGCATCTATTGTATAGATTGTATTATCCGCTATTCTAATATCACTTATATCCCCAGCACTTGGATGATTCATCGTTAAATTAGCATTGATTTGTATTTTTGCTTTTGTAGCATTTAATAATTTTGCACTGATTGTGTTCTTGGCATTTATTATTAATGTTCCGCCGTTAACATTACTATTGTTAAATGTCACACAGTCTGTATCTAACAACCCGTTAACACTTATAGTACCTGAATCTAAAACACTATCTGCAAAAACAAGATTATCTACTTTAGTATTACCTTGTAAATTCAAAGTTTTACCGTGACCTCCACTAAACTTAAGTATATTTAAATTATTTATATTCCCATTAAGTGTAGCATTTCCTTTAAAATTTAATGTACCATGAGTTTTTTGAGGAGCAGGAATAATCATTTCGTTATCTAAATTAGTACCATGCACTTTAAAATTTAATATATCTTTGTTATTATTACCTTTTATATTACCAATAACAATTATGTTATCATCTAAATTGAGTGTTGAAGTATTATGTTTTAAATTAATATTAGTCGCTTTTAATATTGTAGAATTAAATGTTGCAGATCCAAGTAAAACATTTATTGTATCTAATGAGCCTATATTACCTATATCACCTGTTATTATGCTACTACTACCAAGATCATAAGCTAGATTTAATATACCTTGACCGTCAATTTCTGTAGTATTATTTATATTACCCTTTAATGTAGTTATGTTACCGTCACAAAGAGTAAGTATAGAGTTATTGTGAGTAAGATTTATATTTTTAGCATTAATTGTAATATTATTTGCTTCTGGGGCATAAATCTTGGCTTCTCCGTTTCCTACATTTATTCCTAAAAGAGAGTTAGTGTAGCCTATGTGATTTGATATAATACCGCTACCTTCAAATGTTATTGAACCATTATTTCCGGCTACTGTATTATCTATTTTAGTTGTAATATTTAAATCTTTATTAATTTGTAAAGTAGCATTTTTACCAGCAAAATCGATATTACTAAATGTTTTAGTACCGACTCCTGTAATAATTGACGTAACATTATTACTAATAAATTTAAGAGGGCCAAAATTAGTATTAAGATCTTCTCCTGCATTAAGAGGGCCTATTGAGTCGTTTTGACTTACTTCAACACCACCAAAATCAGGCAGTTCTTTTAATGTATTGATTCCTCCAATGATAGCATTTGCTTTATCTGCCGATATTTTAATTTCACGCCCTCCATTAACTATTTGGATAATATCGCCATTGTTAAATACTCCTCCTACAAGACCTGCGCCAGTATTCAAGCTTACGCTACCATTATTAGGAATAATTGTTCCTGTTGCATTAGAGTTAGTGAATAATGTCCCACATAGTGAGGCTGTTGCTAAAAATTTTCTTAAAATTTTTGATTTTTTCATTAATATTAATCATAATACATTAATTAAGTTAAAAAAATCTTAATATATTTTATATTAATAAAGTTAATGTTAATGAGTAATTATTCAAGATTAATAATTTATAGTAACTTTTTTGCAACATATAGATCTAAATTTTAGATTAATTAATTAACAAATATGACTCTATTAGGCACAAAAAGACATGCATAAACGCGCATATCAAAAAATTTCCTTGTATAAGTTTTTTAATGATATTGGGAAATATTGTTACTTGAAAAAATCTAATTATATTTAGATTAAGTTAAAGAAATTACTAATAAGAAAAGGATAGATAAATTGAGCTATTACATCTTTGGTAATATTATATCTCGTCCCCTGATTAATGGTCATTGTATTTAGAGCAGTAATCAAAGTTTTATGTTAGTGATATATCCATCATGACTTGAGCGTTTTATCTTAGAGATTAGTATACAATATGAGATTAAATGAACAAACAACTGTATAACATCGACTGTTATTGAATTTTTGCTTTTGCATGAATTAATAACCTTTCTATAAGTCATATGATAAACCTTTATTTATTGGCATTTCTACCAAAGCATGTTTAAGTACTTGGTCAATATTTGACACTGATATAATTTCTAGATTTTCTTTTATATTTGGTGGTATATCTTTTAAGTCCTTAACATTTTCCTCAGGAATTAATACGGTTTTAATCCCCCCTCTACTTGCTGCAAGTAATTTTTCTTTAAGACCGCCTATAGGTAATACATTCCCTCTTAAAGTAATTTCACCTGTCATTGCTACAGTGCGATGTACTGGTATTTTAGTCATTAATGAAACAATAGTAGTAAACAAAGCACAACCAGCAGATGGCCCATCCTTTGGGATAGCGCCAGCTGGCACATGAATGTGAATATCAAAATCTTTATAGTTATCGTATTTTAATCCAAAATTTGTTGCTCTGCTTCTAAAACAACTATAAGCAGCCATTGCTGATTCTTTCATAACATCACCAAGTTTCCCAGTAGTTTTTATTTCACCTTTTCCTGAAAATGCTAAAGCTTCTATAGTTAGAAGTTCTCCTCCTACTTCAGTATAAGCGAGCCCTGTAGTACTACCTATTTGATCTTCTTTTTCTGCAAGTCCGAAATTATATTTTTTCGCACCTAAAAATTCTTCAAGATTATTACTATCTATTGAAATATGCTTAACTGTCTTATTTGCTAAAATTTGCTTTAATGCTTTTCTAGTTAACGCACATATTTCACGTTCTAAAGCTCTTACGCCTGATTCTTTAGTATAATATCTAATTAAATCTAAAATTGCAGCTTCGGATATAGTAATTTCATCTTCCTTAATTTTATGCATTTTAAATTGTTTTGGTACTAAATAATTTTTTGCTATTTGCAGCTTTTCTTCCTCTACATAACCAGAAATATATATCTTTTCCATTCTATCACTTAAAGCTCTTGGTAAATCATGAGAATTAGCAGTAGCAATAAATACAACATTTGATAGATCATATTCTACCTCTAAATAGTGATCCACAAAATGACTATTCTGTTCAGGGTCTAACACTTCAAGCAAGGCTGATGCAGGATCTCCTCTAAAATCAGAACTCATTTTATCGATTTCATCAAGCAGCATGACAGGATTACTAGTTTTAATTTTCTTAAGTTGACCTAGAATTTTACCTGGCATTGATCCGAGGTAAGTTTTCCTATGACCTCTAATTTCTGCTTCGTCTCTAACGCCACCAAGAGAAAATTTAGTATATTTTCTTCCCATTCCTTCAGCAATAGATTTTACAAGTGAAGTTTTGCCTACACCTGGTGGACCGATTAAACATAATATAGGCCCTCTGATTTTACTTGAACGCTGTAATACAGCTAAATATTCAATAATACGTTCTTTAACTTTTTCAAGACCAAAATGGTCACGATTTAAAATTTTTTCCGCTTGATTAATATCTATTTTGCTATTATCATACTTACCCCAAGGCAAACTAAGTAATGTCTCAAGATAATTGCGAGTTACTCCTGATTCCGCTGACATTTGATTCATAGCACGAAGTTTCTTGAATTCAGATTCAGCTTTTTCTTTTGCTTCTTTTGATAATTTTAAACTTTTGATTTTTTTCTCAATATCGGCAAGTTCCGATTTATCTTCATCAAGCTCTTTTTGAATAGCTTTCATTTGTTCATGTAAATAATAATCACGCTGTGTTTTTTCAATTTGCTTTCTTACTCTTTGTTGCAATGCATGCTCAGTTTCTGAATTTACTATATTAGAAGTAAGAGTAGTAATAACAGTAGTGATACGCTTAACAGGGTTAGTTTCTTCTAATAACTGTTGTTTTGTTTCTAGTGAAGTAATCAAATGTGAAGATAATATATTGATAATATTTATGAAATTAGTTCTATTACTTATTTCTTTATTGATAGTCTCAATAATTTCTGCATTCACTTTCTTATCATTCATTGCATATTTACTAAATAGTTGTACTGCATTATCCACTAATGAACGCATATTATGAATGTCCAATATTTCTTCATCTGGAATAATTTCATAATTGGCTTCAAAAGCTTCTTCATCTTTAATATTGCTTAGCTTTACTCTTGCTACTGCTTCTATTAAGATTTTAGCCGTATTGTTAGGCAATTTCACTATTTGGATAATCTTGGCAAGTATAGCTGTGTTATAAAGTTCGTGTTTACTAGGGTTTTCTTGATCAAATTTTTTCTGTAAAGTTACTAAAATATATTTACTATTATTTTCTTCAGAAATGGTAGTACGAGAGAGTGCTTGAAGTGATTTTTTCCTACCAACAAAAATAGGAGCAATTACTCCCGGAAACACTACCATATCTCTCAGTGCCATTAACGGAAGGGATTTTTTATTCATCAATTAAAACCTTTTTAAAAATTTATATAGTTTATAGCAATTTTTAATTATATAATATAGTATCAACTGGATTTCAAGCTACCATTATTAATTATATTTATGAATTTATTACTACAACCTCCTCAAAATGTAGCAATAGCACATAATAGAATAAAACAATATATAAATTTAACTCCGATCATTCACTCTGAAAGCTTAAATGCGATGCTAGGTCATGAGATTTTTTTTAAGGTTGAATCATTACAAAAAACAGGAGCATTTAAAATTAGAGGCGTATTAAATAATTTGTTAAAATTAAAAGAGCAAGAAAAATTACCTGATAAAATAGTTTGTTATAGTAGCGGTAACCATGGCATTGGTCTTGCTTATTCAAGTAAATTATTTGGTATTAAAACAAGAATTTATTTACCGTTAAATACTTCAAAAGTAAAACAGCAAGCAGCTCTTTATTACGGAGGTGAAGTTATATACACGAATACTCGGCAAGAAGCAGAATCAAGAGCAAAGGCAGATGAAGAACAAGGATTCTACTATATGCACCCTTCTGATAGTGATTCTATAATAGCAGGAGCCGGTACGTTATGCTATGAAGCATTACAGCAATTAGGTTTTAGTCCTGATGCAATTTTTGCTTCTTGCGGCGGTGGAGGTTTAATTTCCGGCTCATATCTTGCTAAAGAATTAATATCACCTACAAGCTTATTAATAGGTTCAGAACCAGTTGCGGCTAATGATGCTTATTTATCGATTAAAAATAATAATATATATAGATTTAATGACTCACCAATTACCATTGCAGATGGTCTTAAAACTTTAAGTGTATCAGCTCGCACATTTGAATATTTGAAAAAACTTGATCATTTTTATTTAGCAGAAGAATATGAAATATATTACTGGACAGCGTGGCTTACTCATTTACTTAAAGTAATATGTGAGCCATCAAGTAGTATAAATATGGCTTCAGTAGTAAGTTGGTTAAAAACACAAACCAAAACACAGAAACTATTAGTATTAATCTCAGGCGGCAATATCGACCCTACTCTTTATAATGAGTTATGGAAAAATGATTATCTAACTGTTCCACCAAGCATTAGTAACTAAATACTGAATATAAAACCTTCATTGCTATGGAAGCTATAAAATAATCTATGGCACAATGTTAAGATATTTAACAAGATTACTATGTGATCTTTAATTATCACTTAACAATTACGACCTACAGTATCTAGTCTATACAACAAGATTCCAACAATAACATTACCAAGTGAAAATTTACCCCTTACTTCTTACTGCTTCTTGATTTTTAGTAGCAATATTAGGGGTGGTTTGTGGATATTTTCGATTTGAATTTCTTAATTTTATTGAATCTTCAAATATGGTTTTATCAAATGTTATTGGATTAATTTTTCTAAGTTCTGCTAAATTTAAATTATTCACCTGTTGTGGTTGCACTATAATATGCTCACCAGTAATAGGAATTAAATTTTTAAATTCAGGATTAGTAGTTACTTTATCTTTATTTTTATTTAAAAATTTTGTTAAACCTACGGCAATTTCAGGATTTGTTAAAGCATTTGAAAATATCCTATCATTTATTGTCTTAACTACATATCCATCGCTTAGAGTAATATGTTTATCGACTAATTGCGACAATCTTTCTTCCAAATAATTTCTACCTGTAAATATCTGTTTAAATTTTTCCCATAAAGAAGCGCCTTTATCATTAATATCTTTTAATGCAGTCGCGATTTTAGTACTATTTTCACTTAGATAAGTAGAATCTAACTTATTTAATTTTTTTATTATAACTTTAGACTTCTTAATTCCTGATGAGTTAGCAATTAGAACAATTTGTTCTAATTGCTTACTAATTGAATTATTTTTTTCTAATCTACTACTAATTTTATGTACCGTATCGGTTGCTGCCTTTTGCAATTCCTTAAATTCTATTTGAGATAATTTATTTACTCTTGGGATAAATTGATTACTATCTTTATTAAATTTTTGATTTTTATCTCCTTGAATAATAAATTTTTCATATTGCTCAAGTTTGTCAGGAGTATTGTTAGGATCTTGTTTTAAGATTTCCATAGCTTTATCTTTTATAGCATTTGCATATTGCTCTTTAGGTATAGAATTGCCACTTATAGCTATTAATGCTTTTTTAGTTGCTCTTATAGGACCAGCAAATATTTCCTCTTTATCTTTTATACCCATCAATGATAATTCATCAAAGGGACCTCCATTATTTAAAGGTAGCACAAAACCCTTAAGCGCTGCTTCAGCTCTTGCAATATCAAATTTTAACTTATCTGCTGCGCTAGGTATTAATTTTGTAATTTGTTCTAAATTGATATGCAAATTATCTACTAATTTTTGTACATCTTTATTTTCTACAACTTCACTAATAATGTGACTAGCAAGTACTTCAAGCGTACTAATGATATATTCTTCAGATTGTAAATATTGCTGAATTGGGTCTAATATAACAATATTTTTATTTAAAGTATCTAATCTACTATCTACGTTTTTTATATCAATTATCTTACCTTGTACTGCAGCTGATATCTCAGTTATTTCCTCAATTTTTTTTATTTTTTCAATAGAATCATTTATATTAGTTATAATCTCTGACATATCACCCTCATTATTAAATTATTTTTTTCTCATTAATAAAATTATCAAACTTCTTAAAAACTCACAACTATATTATAATATAAATTACTACTTACTATTTTATGGATATTATAAACGCCCTCTACTTTTATTAGACCTATCAATATGAGATATATGAGTTGATATAAAATTATGATTCTTAGTGCATTATTTCTTTTACGCTATTGATTTTAGTGTTCCTACTATTTTACACTTCTGTCAACAAATTTTTTATAAACCATTACTTCAGACAAAATCTCAACTATCTTATCTATAATTTTTTTGAACCTAGTCCTGAAAAGTGAAAATATTATACTATTCTGCGATTATAGTTTAGCTTTGATTAATCTTTGTATACCTTCTAATTTTCCGTGTTCAATTAAATATCAAGGTTTAGAAGTACTTATTTTTTAGCTACATTAACAATTTGTAGGACTATCAGTATCTGTGCTATTACGTTTAATCTATTACAAAACTTTAATTTTAGTATTCATAAAACCATATTTGTCTTGTCCACTACTGAAATTAATCTAGTAACTTCATCATGAGCGTCGTATTAGTGTCAATTTAAGATTGCATCACATTATTTGATTAATAATTAGCACTAAAAGAAATACACTAAGATTTTATTACTAATAGTTGTAATATAGAAGGGTAGATCTCTTTAAAAAAGATTCAATGCGAATATTTGATTTAGTATAAATAATATTTTAATTTATCCTATAATTATAAATATGAAGCTTGATGGATTTTATCCAGATTTATTATCATCTTTATATATATCATCCCTTTATTAATAAATAAGATCATAATTAATAAAAGAATGCAAACTAATTTAAAATATTTATGCATGAAAATTAATCAAAACTTATAAAAAGAATTGTATTGCTTCATAGAAGATGTTCTAATCGTAATTTCATCAGGAATTTCATTTATGAACCTTGAAGGGCAAGAGCGTACTATTTCATAAAATATTTTTCTGCTTTCCGCGTGAGTAATATAAAGATCTTTTTTTGCTCTCGTAATACCAACATAAGCGATACGTCGTTCTTCTTCTAAGCCTTTTTCTCCATCTTCATCTAGAGATCTTTGAGAAGGAAATACACCTTCTTCCCATCCAGGTAAAAATACTACATCAAATTCGAGTCCCTTAGCTGCGTGCAGTGTCATTATAGTCACAGATCCACCGTAATTAGTTTCAAGTACTTCATTTTCCATAACTAAGCTTGAATATTCGATAAAATCATGAATATCATTAAATTCTGCAATAGCTCTAAGCATCTCATTAATATTTTCAATTCTACCAAATGCTTCTTCAGTTTTTTCTTCTTTCAGCATTGCAAGATAACCAGAATCATCAAGTATTGCTTTAACTACGTTTATTGGGGTATCTATAATAAATTGTTCATACCAATTATCAATTTTAGTAAGTAAATCTTTTAGAGATTCATATGATTTTGCTTTAATATTACCTATTTCTAGTATTTCTTTAATTGCTGCAAAATTAGAAATATTGCGTTCAAGTGCATAAGATCTAATTTTATTTAGGCTAGCTGCACCTATTGCTCTTTTTGGCACATTGATAATACGCTCAAGTGCTAGATTGTCATTTTGATTCAAAGATATACGGATATAAGCAAGTACGTCTCTTATTTCCATACGTTCATAGAATCGTAAACCGCCTATAATTTTATAAGGTATAGCACTATTTATAAAAGCTTCCTCAAAACTTCTTGTTTGAAACCCCGCGCGTACTAATATTGCAATATTGCCAGCATTATACCTTTCTTCTTTAACTAACTTATCTATTTCACATGCTATATATCTTGCTTCTTCTTTATCACTTAAACAAGAAATAATTTTTATCTTTTCACCACTTGAGCTGTCCGTCCATAGCGTTTTACTGTGACGATTTTTATTATTATTGATAACATTGGAAGCAGCAGCAAGTATTGGCAAGGTTGATCTATAATTCTGTTCTAATTTAATAATCGTTGCACCTGCAAAATCTTTTTCAAAACGTAGTATATTCCCGACTTCTGCTCCGCGCCAACCATAAATAGATTGATCATCATCGCCTACACAACAAATATTCCTATATAAACTTGCTAGCATTCTTGCCCATAAATATTGCGCAATGTTAGTATCTTGATATTCATCGATTAAAATATATCGATATTTTTCTTGGTAATATTTTAGTACTGCAGGATTTTTAATAAAAAGTTCATTGTTATAAAGTAAAAGATCTCCAAAGTCTAAAACATTAGAAATAAGTAAATTTTTTTGATATTCTTCGTATACAAGTTTTGCTATTTTCTGTAGTGGTAAATTAGTATCTGATGTTGATAATTTATTTGGTAATAATCCCTGATCTTTCCATCTTGAAATAATAATATGTATTAACTTAGGTGTATATTTTTTGGCATCAATATCCTTTTTTAGCTTTACTATATCTTTAACTAAAGTTAATTGATCATCATGACTAATTATAGTAAATCTATTATTAAAACCAAGATTTAAATTCTCGATTTGGTCACGTAATATCTTAGCTGCCATTGAGTGGAAAGTACCTATATTCAGACCATAGCAATTAATTAAGTTATGGACCCTTTCAGACATTTCTTTTGCGGCTTTATTAGTAAAAGTAACGGCGAGAATATTATGAGGCAAGGCTAAATTTTGATGAATAATATTAGCTATTCTTGATGTAAGAACTTTTGTTTTACCAGTTCCGGCGCCTGCTAGCAATAAAAGGGGACCTTCAGTGTGAAGTGCTGCTTTTTTCTGTTCTGCATTTAATGTATGCATGAAATTTTGATTTTGTATTTTATCTTTCATACCGTGGTTTGACTTAAATATTACCTTATTCTTCTTAGATTTTTAATAATATAAGAAATAGTAATTATCGGATTATAAATAATTATTTTTAATAGTCTAAAACAAGAAATGAAATTTCTATCTTCAATAAACCAATTATATAAATCATTTATAGGTTTAATCTCATCAGGAATAATATATTTATCTTTAAATAATTTTTTTAAAGTTCTTTTAGCAATTTTTGCCTCTACTTTACGTTGTGTGGTTAAGCTTTGATTATGCACCCGGTAGAAATATAAAGATTCTGGTATATGAGCAAATTTTGTAACCAGTCCGAGACGGAGCCAATATTCATAATCATCAACCAATGCCATATTTTCGTTATATCCACCTACCTGCTTTGCTAAATCAGCTCTATATAAAAAGCATGCACCAACGCAATCTCTAATGGGTAAAAATTCAGGCGATTCTTGATAAAGTCTTGCGCCTATATTACCTTTCTCATCGATTAAAGTATAATCAGTATATACAAGACCTATCTCAGGTGCATTATCAAGTATCTTAACCATTTTTGCTAAAGCCCCTTCATGGAAAAGATTATCATCTGAAGTCCAAGTAAAATACTTCCCATTAGCCTTTTTAAAAGCAATATTCAAACTTGCTGATAATCTTTTATTATGCTCATTTATTATTATCTTAATACGTGGGTCCTGCTCTGCATATTTCTTAGCTATCAGAGCACTATTATCTTTTGAACAATCATCAATAATAATAAGTTCAAAATCTTTAAAGCTTTGATTAAGGCAACTTTCAATAGCAAATGGTAATAGCTTTTCTCTATTATAAACTGTTAAAACGATTGAGATTGAAGAGTTAGTATTCATGCACTTCTAACATGTCAATGGTAATAAAACTATTTATACTATAAATTCTAATTTTTCAGATTTAAAATATAATTTTTTAATTTTTGCTTTAATATTATCTATTAAAAGTCTTAAATATTAGATTTATTCCTATGAAAATAAGAATAAATAAAAAAGGTACCACTGTAGACTATTTAAATAAACAATTAACTACAAAACCAGAATCTTAAGATTACATAAACGATAACTATTTATACTAACATCACTATCTATCATTTATGTTACTGAATATTATTTGAATATGCATATCTTTTCAAGAAGCATTCTGTATTATTTGCACATTCTATCACTTTTTAGATATTAGAACGTATGCAACTATCAGATCGAATATTTTTGGTTCTAGATAACCTATACAATAGATTAATATATAATAGATGTATTAACAGCTTTAAGCGTAGCAAATTTATACCTTAATCCATATAATTAGTTCATTTATAAAACTCTATAAGTTAAAATATAAAGTTACCAACTATTTCTTAGTTAATATACAACTTTGCGCTAATTTCATTAATATTTAAAGATGTTAAATATTGAAAATACGTAGACCAAATGAGAAGCGATAATAGCTACTTTATTAAGTATGCATGCATTTCATTCCTACACCACATTTATTTATAATAAAAGTTAAACAATTATCTAAATAATTTGAGATATCAATTTAGAAAATTTATTAATTAATGGGCGTAATATCCCATCCTGATTCCTGTACTTGATTTATTATCATCATTTATAAAATCTGTATTCATATTATGTTTTATGAGATTTTAGTAGAAAATTCTAGCACTTAATAAATCTTGCTATTAAACAAATCTTATTGCTTATAAAATTTTAGACAAAAATACTCTATTATAAATTTACAAGCTAGCAACTTATAAAATATCTTATATACCTGAATGATTAAGATTATCTGGTTTAGAGTATAGTATATTCTCCTTATTATTTAAATACATGTAATTGATGACAGAATGCTAAGAATAAGAATATATGAACGAATATTGTACCATGTTTAAAGTTTTAAAAGTTGTTTTATAAATGGCTTTATTATAGTTATATTTGTAATATACATACTAAACTTAAAATTTAATATTTAATTTATGAAGTTAAGCGTTATAAGCAAGATTATTTTGTATTTTTAAAATTAAAGTACAGGGTTATTTTGTGTTATAAATATAAAATTAATTATTAATATAAATTTTGCTTTTTTAATGCATTTGTACGGTAAGACCTAGAAGCATATTAGGATCAAATCTATACGTGAGATATTAAATTATTTATTTAGAAATTTCGCGACCTCAAGAGCGGCCATACAACCGCTCGCTGCAGCAGTGACTGCTTGTCTATAAATTTTATCCTGAACGTCACCGGCAGCAAAAACACCTTCTACATTAGTTCTAGTCGACCCTGATTGTGTTACGATATAATTATCATCATCTATTGCAATTTGTCCTTTAAATAGTGCAGTATTTGGTGCATGCCCGATAGCTATAAATACACCACTACAATTCACTAAATTAATCTCGTTAGTATAAACATTTTGAATTTTTACACCAGTCACAGCTTTTGGTTTATTGCTACCTACAATCTCATCTATTATATGATCCCAAATTACTGATATTTTAGGATTTTTAAATAATCGATCTTGTAATATTTTTTCAGCTCTAAAACTATTCCTTCTATGCACTACAGTAACTTTATTAGCATGATTGGTTAAATATAAAGCTTCTTCTAATGCACTATTCCCGCCACCTACTACAACGATTTCTTGATTCTTAAAAAAGAAACCATCACAAATAGCACATGATGAAACACCAAAACCACGAAATTCTTGTTCTGAAGCTATACCAAGCCATTTTGATTCCGCACCAGTACAAATAATTATACTATCTGCTTCATACTCATTACCAGTTCCCGTAAATATTTCAAATGGTCTCTTTGATAGATCTACTCTTTCTACATAATCACTAATAATTTCTGTACCGACATTTTTAGCTTGCATAGACATCTGTTCCATAAGCCAAGGTCCTTGTATAGTTTCTGCAAATCCAGGATAATTCTCAACATCGGTTGTCATTGTAAGCTGCCCACCTGGCTGCATGCCATTAATTAATATTGGTTTTAGAGCTGATCTAGCTGTATAAATAGCAGCACTTAAGCCAGCAGGTCCTGAACCTATTATTAGTACTTTAGTAGTAATTTTCATAATTATTTGTTTATTAATTTAATTTAAAATTATTAAGTTATTGTATTGAATTTATATAACCATATAACATACATAATCCAAAAATTTAAAAAGACTAAAACATGTAAATAAAGTGCTGGATTATAGCACATCAATACTTTTTTCTAACCAAGACTCAATATAATTAATTTCTTCATCATTCATTAAAGAAGGAGCATGACCTGCATATTTTATTTCATAAAGATCAAAAGTATTGGTTTTTTTCATCTTTTGAATAGTAGATTTTGTTAAAATTTGAGATTTCATACCATGAATTACTAATATTCTACATTTTATTTTATTCCATACAGACCATAGTTTAACATCTTCCTGGTTATTAGCATTTTTCATCCCTTTTGTTATAGCAGGATCATAATTCATTTTATATTTTCCGCCAAATGTAGAAATAACGCTATATTTTGTTAAATAATCCCAATCTTCTTCATTTTTAATACCTATTTGAGCATAAATAAGTTTTAAATGTTTTTTTGCACTAGCTAAATCATCTAATAGTATTATTTTTTTAGCATGATCTCCAATTTTAATTAAAGGTGCAGCATCAATAAACGCACCTATATCATTTAATATTAAAGCTTTAAAAATATTTTTATATTTACTTGCAAGTACCATACCTATAATGCCACCCATTGAAGTACCAAGCCAAATAGGATTCTTTATATTGAGCCTTTTAAAAAAAAGTAACGTATCTTTAATATAAGTCGTATAATTATAATGATGGGGTTTTTTAAAATTTTCACTATCACTGCGACCAGGATAATTTATTGAAATTACTCGATAATTTTTGCATAGCTCCTTAGCGATTTTATCAAAATCATGAGCGTTTCTAGTTAAACCGTGAGCACATAATATTATATTTTTATTTTTAGGGTCACCAAACTCTACATAAGAAATTTTATGCTGCGGTATATATTGAAGAGGTAATAAATTAATATAGGGCCCAATTTTTATTGAATTAATTTTCATATAAACCTATTAATACCAATTTAGAATAAATTTTTAGAAATCATTGTCATCATATTATTAATTTAAATCACTTAAAAAGATGCTGACCATTGTCGGCATATATATCACTACAAAAAGTAAAGATAAAAACACGGTAGCTGCAACCTTTTCAGGATAAAATTTCTGTAAATTCGCTATAACTATAGTATTTGCAGCGAGTGGTGCTGTAGAAAGTAGTTTTAATGCATTATAATAATCATTGTTATACCATTTTGTTACAAAATGATCAAACATGATAAATAATCCTACTCCTAGAGGATAGAATAGAAATTTAGCAGCAAAAGTAGCAAGAGTAAATTTTATATCGACTTCAAATTTTTGTAGAGATGAAAGAGCAAGACCTACCATCACCATGCCAAGTATCGAAAAAGAACCTTTCATGTTATATATGAAATCATCTAAAAAATCCGGTAAAGTAAAACCACAAAAACTAAATAAACATCCTAAGAAAAAAGCATTAAGAATTGGTAATTTTATAACTTTTAATATACTATCGGTAGTATTAGTAAAACTGCGCATACAAATATAAAAGCCAACAGAACATTCATAAATATTAATGCCTATCACCGCCATCATGTAAATACTTAATGTATAATCATCAAAAAGTGCTGCAGCTATAGGTAACATAAAATATCCACCATTTGCTGTACCTGCAGACAAAGCTATAATATTACGTGTATGATCCTGCCAAAATTTACCAAAAAAATAATAAGAAAAAAGCGACAAGAGTGTTGCAATTACAAATGTGACGACTGTAACGCTTAATGCAGACAGTGTTAAGGTTGTACTAGCAGGTATTGTAAAAAATACTATAGGCGATATAAAGTAAAATAGTAATGAAGAGATACTATCTTTTTCGACATTGGAATATTTACCTGCTAAAAATCCTATTACTACACTTAATAATACTGAAACTGTTTTAAAAAAAACTATACTAAAAATTATCATGTAATGAGCTAAATATAATTAATTATAATATATGAGGTTTTATTTTTTTTTCACTAAATTTTATAAAGATTTTTTATTTCATTAGACAAAAATTAATTTCAAATCAAAATTTGAAAATCTTATATTATTTTAGATATCTATAATAGAAAATAAACCTAATTATTGACAAGGATATAATTATTATATGGAATTAAATGAAAAAATTAAATCTAAAGATTTCATGATATGAATACATTTTAAGAGAAGCTATTCACTATAGATGGTCGAAGAAATAACTTTGTGAAGTGTTATCATCTTTTAAACTAAATATAGTTTTAAAAGCATTGTTTGGTAAAATTTAATCATATGATTAAATACACACAATATACAATAAAAAATTTTTAAATAAACTATCAAAAGGAATGGGAGATGAAACAGATACATAAAAAATACATTCTATGTACTGTTACTGATACTATTAAGCTAAGCATAAATATCAATTCAAATTGTATATTGATCTTGTACACTAGATGCAGTGAATAAATTACTGTATGCTGCATGAAAAAATTAAGTAATGTAACAAGATAGAAAGAAGAGTGAATCCAAAAGAAAATAAGCTTTTATTTCTAAAAACTTATTTTATAAGCGAATACCGTGATCACTATGTCAATTTATCAAATTAAAATGAGTGAAGCTACTTCAGCAACTATAGGCATGTGTAAATTATATTTTTTTATTAGATCCAAAACTAATTTTAATGCTTCTCGTCCTTCTACTAATTCTTTATATTCGCATAAAAATTTCTTTTTATCCCTACTAATTTCAAATTCATAACCAAATTTTGTATTACGCGAACCTAAAGAGTAACAAGTAAGTACTAAATCGCCTAATACTCCTGCTTCAAGTAAAATATCAGAATTTTTTTGCATACCTCCAAGAACCTTAGATAAAGTAGTAATTTCTTTTAAGGCCCCTACTATAAGCGTTGCTCTTGAATTTGCTCCCTGCTCTCTTGCTAAATCAATTCCACTTTTAATAGCAAAAATATTTTTTAAAGCTCCAGCAATTTGTAACGTTACAATATCTATGGTCGTATTTGTTGAAAAAGTTTTTGAACTGAAGTTATAAGCTATTTTATTTGCGATATCTATATCTAAACTTGCAATACTTGCCGAAGCAGGCAAATTTTTAGCAAGTTCCTTTGCTAGATTTGGACCAGATAAAAATCCTATAGGATTATCGGGTAATAAAGTGTTAAGTCTATCAGAAAATAATTCAGTAGGATTATCAGCCAAGCCTTTTGTCGCTACTAGAATAGTATGCTCTTTAGAGATGCCGTACGTTTTCAATAATTTTATTGAATCATCAAAAGCATAAGATGGCACTGCAATAATAATTAATTCAAAATCCTTGATTACACTTAAGTTTGTAGTAGCTTGCAAATTAGTAGGTAATTCAATATCACCTAAGTATTGTGCGTTAGTTTTTTTATATAAAATTTCTTTTAAAATTATCTCGTCACGTAAAAATAAAGTAACATTATTACAGTTTCGTGCTACTAAAGAAGCAAGACTAGTGCCGAAACTACCTCCTCCATAAACTGCAATATTCTTAAATTTGTTCATGATTTTTGTTCTGAAAACTGGTGATTAAACTATTAGATAATAATCAAAAAAATAATACTATTCCAGAGTTTTCTCAAGATTAACTATTATGAAAGGCGATTTATTAATTTCTTGTTTTAATGTTTTACGAATTGTGCTTTTTATTGATTCGATTACTTGTTCATCTGATAATACTTTTTTAGCACGTTGCTTTTGAATAGTAATCAGTTCCTTAATGTCGTTTTTTATAAGATTAACTAATGCAATATCCTCTTTGGGATCAAGCAGCCCAGGCATAGACAGAATTGGATTCGCAGAAAGTAGCCCTTTTTTGTTAATTACTACCGATGCTACCACGATACCTGATTCACGCATACGCCTTCTAATTTTGAAAATTGGAGATTCAACTGGTAGTAAATAATTACCATCTACAGCTAAATAACCATTTTCAACCTTTGAAATTACTTTTGCATTATTAGGTTCAAGCAACACTACACTACCATTTTCAACCTCTATTGCATGTTCTATACCGTTTTTCTTAGCAAGTTTAACATGTTCATGAATATGTACAGGCTCGCCGTGAACGGGTATACAAATATTTGGTCTAATTAGAGAGTACATTTTTTGTAGCTCATCAATTGATGGATGTCCTGAAACATGTACAAAATGATCTCGTTCGGTCATTACTTCTACACCAGCTTTAACAAATACATTAAATAGCCTGAATATTTTCTTTTCATTACCAGGAATAATTTTTGCAGAAAAAATCATTGTGTCCTGAGGCGCAAGCTTTATAGACGGATGAGAATTACTAGCGAGTTTTGCGGTGGCAGCCATAGACTCACCTTGACAACCAGTAGCGATTACTAATAATTCTTTTCTTCTAAATCTGCTAACATCACGTTCACTAATTAGAGGAGCTAAATCTTTAAAATATCCGCTTTCTTGCGCTGCAAAGATCATACGGTATAAACTTCTACCTGTTAATACTACTTTTCTACCAGCAAGCCTTGCTGCATGCATTATTGTATCAAGACGCGCTAAATTAGAAGCAAATGTTGAAACTACTACCATTTGAGGACAACCTGCTATAATATCTATTAAACTTTTTCTAACATCACCTTCAGACCCTGAGCTTCCTTTATTAAACACATTAGTTGAATCACAAACAAGTGCTAAAACACCTTCATCACCATAGGATTTTAAAAGTTCCTCATCGACTTTTTTTCCAAGTATCGGATCATTATCAAATTTCCAATCTCCAGTATGTAAAATATTACCAGAATCAGTACGGATCATAATTGCCTGCATTTCAGGAGCGGAATGTGTTAGTGGTACCATCTCTAATGAAAATGGCTCTAGATTTATTTTACTACCTGGTTTTACTTCATGAATTTTTATATTTTTAGCAAAATCATATTCATTTAAACGAATCTTCAAAAAATTTGCTGTAAAAGTAGTAGTATAAATAGGACATTTAAGGCTATTCCATAAATATTGGACACCTCCTAAATGATCCTCATGCGCATGAGTTAAAATCAGTCCTACTAAATCTTTTTTATATTTTTCTATAAAACTACTATCAGCAATTATCATATCAACACCTGGTAGATAATCATCGGCAAAACCACTACCACAATCAATCATTAACCATTTACCTTTATAATGGTAAAGATTAAGATTCATACCTATTTCATTAGATCCTCCTAGCGGTACAAATAGCAGATCATTTTTATGATTTTTGATGTTGAATGATGACATAATTTAACTTAATATTTATTTTATTATTTTATTCTTATAACTTATTATTAGTTAAGCGTCTATATATTAAAAAAGAAATTCATATTATGAATATAAATAAAATAGCATTGATTTATAATAAAAATTCTAAACATTTAGCTATTATAGAAGAAATAAAAAAACTCTATAATTATTGTAAAATAGAAGAGGCGGAAGTAATTATCATAATAGGAGGTGATGGAGAATTACTACACAATATTCACCGTTATATGCATCTTAACATCCCTTTTTACGGCTTGAATCTAGGCAGTTTAGGATTTTTAATGAATCCTTTGGATACAAAAAAATTATTACAAAATATATATGAAAGTACAGTTTCTATCCTTCATCCTCTTCTTATGCAAGTTGAAGATACTAGTGGTCAAATATATAAGGCACTTGCTATTAATGAAGTATCAATATTCCGAAAAACTAATCAAGTGGCAAAGTTTAGAATAGACGTAAACGGAGTAGAAAGAATGAGTGAATTAGTAGCGGACGGAGCTTTAGTAGCAACACCTGCAGGAAGTAGTGCTTATAATTTATCTGCTGGAGGCCCTATTTTACCGCTTGCATCAAACATGTTATGTCTTACACCTATATGTTCATTTAGACCGCGCAGATGGCACGGAGCTTTACTTCTTTCAACTGATACTATTAAATTTGAAATATTGAATATAACTAAAAGACCTGTAAATGCCACTGCAGATTTTCAGGAATTTAATAATATCACACGTGTTACTGTTAAATCTACTAAAGATAAATATATTAAACTGTTATTTAATAAAAACCATACATTAGAAGATAGAATTATTAAAGAGCAATTCGGTGAATAATAAATTATTACAAATATCAATTTTAACTAAGAAATTAATATCTTGTTAAGATAATTATTATACAAGCAATAAATCTTTTTTATCTATAGAAAATAACATATTTTTATCACTTACTGATAATTATTTACACAATGATATATATTTAAGCTGTAATTACAAAATTGTAAAGTGCTAATTATTTAGCAATTAAACCAATTTAATTAAAAAATTTAAAATCTTAAAGGGTACAACATAATAATCCTTAAAAGAAATTGTGATATTATAAAACCTTAAACAGATTGAAGTTATAAAGAAATAAATACTCTTGAATAAATAAATAATGTTTAAAATATCAAACAATACCAAAATCAACTTTGGTAAGTGATTTTCAAAAAAGAAGCTTTATGACATTATTTTTGGCATCATCGATAATAATTAGATATTAATACAAAAATTCATTGTCAAATTAATAATGTTAAAATTAAATTATATTAGTTTTTATAATTTTTATAAGATTAATTGAAAATTAATAAAAGTTGAACATTTAATACAACATATTTCTAGAAAAATTTTAATAAAAATAAGAATGCTAGATTAATTCTTGATCTAATTAAAATTCAATGAATAAATATAATATACTTAATTAAATAATGTGACGTATCTTAAATTTGTTGATGAATATAATTAAGATTCGATTTGTGAAAAATTGTGAGTAAAAAAACTAAAGGTTGTATTAATTAAATACTAGCGTATTTAATCATATATATGTAACTCAAATTTATTAAAAACAACAATATATACTAGCAACAGTTTTAAGAAAAAGCACCTAAAATAACTTTTTATCTAAATATACAAGTAAATAATAGTTTTAAAGAATTATTACTAAAAACTCTAAAACGCAATAACTAACTCTATATAATAAATATTACTAATCATTATTCTAAGCTATAAAAAGTTTGATAATACTAAGTTTAATTGCAGATAAACAATATAACCTGAAGTTCAAAATCAAGAATTACTTATAAAAATGTTGAGAGATTAATTAATTATAATAATCAAAATAAGATATCACAATTTTGTTTACTTTAGGTTATTACAGTAAAAATAGTGCAAATTGTTGATTATTGACAATATTATTATGGTGCACTACAGATAAATTTAATCAAGATTTGCTAACAATTAACTTTGTTACTGAAAAAGATATTGTTGTTATACTGTGACTTGACCAAGATATCTAAAAATAACTAAAAGTACTAATGATTTTTAGTATTTTAAACTCGATACCTTAATCACGTCACAGTAGTATTTTTAATTTACACAAAAAATTCGATAAAATCTATGTGTTTTTACTCTTGAGTTTCAAAAAATATTCTGCAATCTCCTACAACGTCTTCATTAGGACCTTCAGGATATAGATTTAGATATTTTTCATCGATTGCACTTAAAAAATATTTTAATGATGATTGCGAAGGCAATGGTTCTAAATTTTTACGTAAGATATAAATTGGATTCAATGGTTCTTCTTGAGCTTTATCAATTAAGCTGTAATTATAAATGCCGCCGCCAGAAATTTTGTTTTCTGCTCTATCTATATTCCTTGAAAATTCTAGTGTAGTAATCTCTGCTTTATTGTCAGGTTTAGTAGCAATAACTGCACAATGACCTTTATAAACATAAATATCACCAGCTTCAATTAATTCTAATTGTTTTGGTTCTACTATATCCTTTAAAAGAGTAATTAACTTATAATCATATTTAGAATAATTTTCTTTCATTTGAGTGGTAGTTATACTTTTTATCTGTTCGTTAGATAAATAAGTTGCCTTACCAACGCTACTTGAACAATCCTCAGGTCCAAACACTAATTGCTCTTCAAAAGTACGATGTCCACCATATTGATAATCTCCAAAAACTAACATACCTTTTTGAGAAGCAAAACGATAGTCTTCTGGTATTAATTCCTGTGGTAGAGTATATTCAGGATTATGCAGTTTATAATTGGTAGCAGCTCCTACTAACGGTACAGGCTCAATATTAAGTATTTGAGCAACACTGGCAAGTAATACAGAACTCACAGAAGAGTTTTCATTACCCCAAAAAGATAGCATATTATCGGATTGCAAAACAGGTAATTCTTGAGAATTTATATCGTTTGATAAACCATTATAAAACTTTCCTTTAATTATTTGATCTATTAAATTATCTTCTTGCTGCTTTGCATAATTTAATGCCATTTTTAATTGCAAATCAGTTTTATTAAATTTTATAGGGTAACCGATATCATTTATTCCTTGGGTTTTTAAGTAATCATTTAATGATTTACTTATGTTATAAAAAGTTTCTAAAGAGTTTACAATGTCATTACTTACTGTCTCATCGCTTTTATCAATGCCATTTTCTTCCCATGTTTTAACTATAGCTTCTTGCTCTCTGTTTTGCGCATCTCTAATTGCTAATTGTTTAGCTCTAATTTGAGCTGTCATGTGAAGCACTGATCGTGATTCAATATTAAAATCTTGCATAATAAAACCTCCTTTTAAATAGATTTTAATAATGAATTTATGTTAAAAATATTTATCATAATTGTCAATACTTTATTAAAATTTTATTCACAAGGTTGACGTAGGCTAATAGCAGCAGATAAGGTGCCTTCATCTAAATAGTCAAGTTCACCTCCAATAGGTATACCGCTTGCAAGGCGAGAAATTTTAGCAGGATGTTCTTTTAAATATTCTATAATAAAATAAGCAGTAGTCTGACCTTCTAAAGTAGAATTAGTCGCAATAATAACTTCTTTAATATTTTCTACAAAACATCTTTTAAGTAATTCAGGTAAACGAAGTATGCGAGGGTTCTGTCTACTAGCTGCAGATAAATTATGACCGAGTACATGATATAAACCTTTAAAATTACCACTACGCTCCATTGCACATAATTCAGCTACGGTTTCAACAATAGCGATAGTCGATTTATCTCTATATTCAGAAGAACAAATATGGCAAATACTTTTTGTATCCAAATTACCACAAATCTCGCATTTTACTATTTTCTTATCGAGCTCTATAAGATGATTAATTAGGCTTTTTAGCCTTACATCTTTATCTTGCAATAGATAAAGTACTATACGCCTTGCTGATCTAATGCCAAGACCAGGTAATTTTGAAAAAAGATAGATTAATTGATCTATATCATTTGTTTTATTCATTATAATTATAATAAAGAGTTTGTATACGGTAAGAAATTTAATTTGAAAAAGTGTTAAACATGTCTTAAAGCTTTTAATCACAGCATATACAAATGATATGCAAAGAAAAGCAAAAAATAATAGCCTCAATTTTTTAAATTAACCAAATATATTAAGATTTAATCACAACTGTTCCAGCTATCCTATCATGCAGAGCTTGTTTTTTAGAAGAAAAAAGTATAAAAAAAATACCGATAGGAAAAGTAATGTATGCTAAAAATCTTTTAATTAATTGCTTTAAAGTAGGACGATTTAATGTAACAGCATCTACTATTTTCATACGTAAAAACATTTTACTAAGCGTTGTGCCTTTATAATACCAAAACGTTATGAAATATGAGCATATTACTAATATATTAGTAGCAAAAATTAAAATATTAAACAAAATATACTTATTAAAATTTCCTAATTTAAGATATTCATAAAATTCCTGACTCATAATTGAGTTAAACATTTCATTAGAATTATGAATATTAATCTTAATGCTAAGAAAATAATCATGAAAAAACAACCATAATAAATTAAAAAAACAAAATTGTGATATTGGGATCGCTATAAAAGCAACTAATGATAAATCAAGTGCTGTAGAAAAAATTCGTGTTATAAAATCAGGATAAATAATTTGCTTTTTCATTGTCGTTGATTATTTTTGATTTTTAATATTTTTTATTTCATTATATAGTAAAAATACTAAATTAAAAATTAAATTTATTATAAAGATGGAAGCACATTGTAATTTTTATTACTTTATATTTCAATTTTCTTGAGAGAAATAATTATTCAAAGAAAAAATTATTACATTTATGAATCAATTTGAAGCATATAGTTTATTATTCGTTGATAGTTTTGTCTCAAATCTTATTATCAGCTTCCAAAATGAATTAATATTTCATTCTATGCAAATGCTTGTAGGCTATAATAGATTAATAATGCTGCTAGTAGCTATTTGCTCTTCTCTTAGTGGTAATACAGTTAATTATCTTTTTGGGAAAATAGTTCTAAATATTTTTTATGCTTCTAAAAATGAACAAAATATCTTAAGACATAAAAATTTAACAAAATTATATTATCAATATGAAACGTTTATAATTTTTTTAATTTCTTTCCCATTTTGGGGATGCTTTGTTTCTTTATTTTCAGGTTTTTTTAAAACAAAATTTCTAAAATTTTTAAGTATTGGTTGTTTGGCCAAAGCATGCTATTATGCCTCAAAAATCTATATATTTTAACTAATGAAAAAATTAACTAAAACTAACTCTCATAGACAGCAAAAATTAGCAAGCATTATAAATGAAGTGTTAATAGAAATTCTAAAACGTGGTAAAATGCTGGATAAAAGACTTTTTGATTGTCCACTCACTATTACAAAGATTATCGTTACTGCAGACTTAAAAATAGCTAATTGTTATTTTTTTCCTTTTAATACTAAATTAACATTTGATGAAATTATGGATGCGTTAAATAATTCTAAACATGCTATCAGAAATTTTATTACTAATAGAATAAACATGAAATTCTCGCCTGAAATAAGATTTTATTATGATTACGGATTTGATAATGCTATAAAAATAGAAGAGCTATTAAAAAATAGCAGTTTTAAAGACAAAACAAGTGAATAGATATGTACTATAAAATCAATCATTAAAAATGATAATATCCGTTATATTAAAAATTTAAATTTTAGTACAAAATGACTAATTAGTATAAATAATTAAAGGCTATAATTTATAATGCTGAATTAAAGATAATTTACAAAATTATAATATCCAATAAGATATAGTAATTTTATATAACTTTAATAAAAATAAATTCTTATTTTTATTAAATACTTTAAAAGATTATTTTTTTATATTAAGATATAAATGATAATCGTTTAATAAAAAAAAATAGAAAATGTCTCCTCAAATAATAGAGTTATTAATTTTTGCCATTATTGCCTTTTACATTATTAACAAATTAATTACGACTCTCGGTTCTACTTCAGAAGAGGAACAGATAAAGAACAAATCTTATTTTGGTGAACCTGTGATTAAGGATGTAACTTACAGTACAGTTAAAGACCATAAAAAAGTAGAAAGAAATGTTTCAAGGACCCAAGATATTAAAGTTTTTAAAGATATAATAGTCGAAAATAATATCAATGCGGTCGTAGATGGGATTGAACAAATCCATAAACGCCTTTATTCCTTTGATCCAGTCAAATTTATAAATAATGCCAAAACTGCTTTTCAAATGATTATAGAGGCTGCTTATAAAAAAGATGTTAAAGAATTATCTGAGCTTATAGATAAAAGATACTTAGAAGAATTTGAAAAAATCATACCGTCATATGGCGATTTTTTTGACTCATCGGCTTTAAGTGCAAAATATTCAGAAATTTATATGTTTGGTAATAACATATTTATTAAATTGCTATTTCAAGGCAAAAATGTAGTTGACAAAATTGAAGATTTACAAGAAGAATGGACATTCACACGTAATGCTAACACCAAAGAAGTTGATTGGTTTTTAAGCAATATTGAGAGAGTTTAATTTTCTTTAGTTTGACTACAGTATTTCAAATCTATTAAACTAGATCCTGAGATTAAGTATCAGGGTGGAATAACTAGTTATTTTAAACTCTCTTCTTTACAGCTTATAAATTAATTATTATACTGAGCTTTTATTATTTAAAAAATTATTTGAAATGAATATTCATGAATATCAAGCAAAAGAGATTTTAAGAAAATACGGCGTGCCTACGTCCACTGGGCTAGTCGTTACTAAAACTGAAAAGATTAATGAAACCATAGATAAATTAAATACGAAAGTATATGTGATTAAAGCACAAATACATGCAGGAGGTAGAGGTAAAGCAGGCGGAGTTAAGGTCGCAAAAAGTAAAGAAGAAGCCAAAAAAGTGGCTCATGATATGTTTGGTATTAATTTAGTAACGCATCAAACAGGCCCTCAAGGACAGAAAGTAAATCGTATTTATATCGAATCAGGATGTGATATTTTAAAAGAATATTATTTTAGTATAGTATTTGATAGATCAGCGAGCTGTATTACTTTTATAGCGTCTACCGAAGGTGGTGTTGATATTGAAGCAGTAGCAGAAAAAATGCCGGAAAAAATTATTAAATTTGCAGTTGATCCTGCAACTGGTTTACAAGATTTTCATATGAGAGGCATAGCGTATGAGTTAGGATTCAAGGATAATCAAGCTAAACAGATGAAAGAAATAGTAAAATCAGTCTATAACGCTTTTATTGAAACTGATGCAACACAAATTGAAATTAACCCGTTAATTATAAATAGCTATGGGAACTTATTAGCATTAGATGCAAAAATCACTTTTGATGATAATGGCTTATTTAAACATCCAAATATTACTGCAATGCGTGATCATGATGAAGAAGATCCATTAGAAACTCGAGCAGCGAACGCAGGGCTTAGTTATGTAAAAATGGACGGTAATATTGGTTGTATGGTTAATGGTGCTGGTCTTGCAATGGCTACTATGGATATTATTAAACTTTACGGTGCTTTACCTGCAAATTTTTTAGATGTAGGTGGCGGAGCAGACCGTGAGCGTGTGAAAGAAGCACTTAAAATAATTCTATCAGATAAAGAAGTAAAAGGAATTTTAGTGAATATTTTTGGAGGTATTATGCGTTGTGATATTATAGCAGAAGGAATTATTGCGGCTGCAAAAGACATAGGTATAAAAGTACCATTGGTAGTCCGCTTAGCAGGTACAAACGTTGAAAAAGGCAAAGAAATTTTATCAAATTCCGATTTAAAAATAATACCAGCACATGATTTAGCAGATGCGGCAAATAAGATAGTTGAGGCTATACGATAAATACATCATTGCAAGCGAATGTTGTTATATAGCTTAGAAAAATCAATTTAGTATAACCCTGTAGTTTAGCAACGGTATCTAAAAGTAAATAAGGACTAAGATTTTATCATGAAGTTAATCAGTAACATATAAAGTAAAATAAACAATAAAAAATTATTTCACATGGCAATATTAATAAATAAAAAAACAAAAGTTATATGCCAGGGTTTTACAGGCTCACAAGGCACTTTTCATTCTGAACAAGCGATAGCTTACGGTACTAACATGGTTGGTGGCGTGACCCCAGGGAAAGGAGGGCATACTCACCTTAATTTACCTGTATATAACACAGTGCATGAAGCAAAAGCAAAAACCGGTGCGAATGCAAGCGTTATATATGTGCCGCCTGGATTTGCTGCTGATTCGATATTAGAAGCAATTGATGCTAAGATTGAAGTAGTAGTGTGTATAACGGAAGGAATTCCAGTACTTGATATGATAAAAGTAAAACGTGCTTTAATCGGCTCTAAAACAAGATTAATCGGTCCTAACTGTCCTGGGGTTATTACACCAGGCGAATGTAAAATTGGTATTATGCCCGGACATATTCATAAAATAGGAGATATAGGTATAGTTTCAAGATCAGGCACTCTAACTTATGAAGCAGTTGCACAGACAACTGCAGCAGGACTTGGACAATCTACGTGTGTTGGTATAGGTGGCGATCCTGTTAACGGCACTAGTTTCGTTGATTGTATTGAGATGTTTTTGCAAGATGATGAAACAAAAGCAATTATTATGATTGGAGAAATTGGCGGTAGTGCCGAAGAAGATGCGGCTGATTTTATTAAACAATCTAAAATCAAAAAACCTATTGTTAGCTTTATTGCAGGTATTACAGCGCCTGCAGATAAAAGGATGGGTCATGCTGGAGCTATTATTTCTGGAGGAAAAGGAAGTGCAGAGGATAAGGTTGAAGTTTTACAAAGTGCCGGAGTAATTATTACTAGATCACCTGCTGATATTGGTAAAACGATGTTAGATTTACTAAATAAAATCTAGAATAGAATAAATTTACTAACTCAATATCAAATGCAATAAATAGTTAAACTCTTATTCGCTCAATAAGTAACTTAGAAAACTTAAATTAATTAACTAATTTTGATTTAATCTCTGTTTTTTACTTGTAATAAAAGTGCTAATGTTGTGATACTATTAATAATTGATTCTGTGAAGTCTATAATTAATAATAGTCATATATATTAGGGCGCAAAGCATGAAGGTAATTTTTATAATATTTAAGATTTAAATATTTTTTATTAAATTCTTTCTTAAATGCGCTAATATATATTTATTTATAAATATCACTGCTGCCTACGCTGAATTACATCAAATAGACTTTACTCGCGCTTGGAAAGAAGAACGCAATGCTTTTAAAAAGAAACAAATCTTATTTTGGTTTTTACGAAATCTTATTATCCATAATTTCTTGCACTATATTTAATAATTGCGGTAAATCTATTAACCCATGTATTAATTTTGAATTTATTATATATGTAGGTACGCCTTGCATTCTAAGGCTTCTAGCTATTTTTATATTTTGAGTAATTAAATCTTTAATCTCATTACTATCAGCAATTTCTTCAATTTCTGTATAATTTAATCCATGCTCGATTAATAACTCTTTTATAGATTCCTGAGACACAGCTCTTATCTTTATTAATTTATCATGAATATCTTTAAATTTATTAGGATTAACCTTATAAACTGCTAGCACTATCCTTGCAAGATATTCTGAAGAATCGCCAAGTATAGGGAGCGGTCGTAATACAACTTTCACTTTTTGATCATTTTTTAATAATTCATTTATAGAAAAATCACCTTTTTTACAAAAGGAACAATTATAATCATAAAAAGCAATTATTGTTATATCACCGTTGTGATTACCTATAACAGGGAAATTTGTACTATCTTCAATAGTTAATTTATTAGCTTTGAGATAGTTATTAACTTTAGTCTCATTTTCATGTATTTTACGCTTTTGTAAACCTTCTATTGATTCTATTATTATTTCCGGTGTCTTCAGTAAATAATCTTTGATTATTTCTTGTACTCTTTCCTCTTCACATTTTTTTGCATCTTCTCTTTGTTTAACCTCAACGAAAATTGAACTTGTAGAATAAGTTTTTATTGTTTTAAAAACGAATAAAACTCCTATAATAACTACGAATATAACCAATATTTTACCTATAATATGCTTCATAAATATCCTTTTAATTTTATTATAATTTTATTATTATATGAGTAAAAAGTAGACAAAAAATCAATTTCAAAAAACAATAAAATTGCGATGTGACACATCAGTTGCTAATATATTAATCACAACTCTTGTTACACAACAAAAATTTACCTAACATCCCTTATTTCTGTCTTATTAACCTACTCTGATCTTTTTTCCAATCTTTTTCTTTAATTGCAGCTCTTTTATCGTATAACTTCTTACCTTTAGCAATGCCAAGTTCAACTTTCACTTTATTCTTTTTATTAAAATACATAGAAAGTGCAACTAGCGTATAGCCTTTTATTCTAATTCTACCAATAATTTTCTTGATCTCTTTAGCATGTAACAATAATTTACGTGGTCTACGAGTAGAATGATTAAATCTATTCGCTTTTTCATATTCTGTAATATGGCAATTATACAAAAATACTTCATGTCCATTATCTGATGCGTGACTTTCTTCTATAGAAGCTTTACCTTGACGAAGAGACTGTACTTCACTACCCTTTAATACAATACCTGCTTCTAATATTTCTTCAATAAAATAATTGAACAATGCTTTCTTATTTTGAACAATAACTTTCTTATCTTCTATCATATTTTTATAGATAGTGATGTTATGATTTTTTTAATTTGTTTTTTTGCACTATCACTTGCTTCAGTCAAGGGTAATCTAATTTCATTTTCACATAAACCTAAATAATATGCAGCATATTTTACTGGAATTGGATTAGATTCTAAAAATAATGCTTTATATAAAGGCAGTAATTTCTGATGAATCTCTAATGCCCCTTGAGTATCATTGTTATACCACTTTTCTAATAACTCTTTGCATAGTTTAGGGGCAATATTAGAAGTTACAGAAATCCACCCTACTACACCTTGTGCATGAAATGCTAAAACTACTTCATCATTACCGGTTAAAATATTAAAATCCCCTTTAACTATTGCTCTAATGCGCATAGGACGCTCTAAATCTACCCCACAATCTTTTAATGCTAAAATACGTGGTAATTTGCTAAGTCTCAATATTGTCTCATCAGAAAAATCTACTCCGCTTCTAGTTGGAGCTGAATATAACATTATAGGTAGATTACACGCTTCATGTAAGGCCTCAAAATGCTTATAAATCCCGTGTTGAGTCGGTTTTACATAAGATGGGGGACTAGCCATAAAACAATCAACACCAATTTTTTTAGATTCTATTGCAAGCTCTATTGCATAAGCAGTATTATTTGAAGAACATCCACTGATTATAGGCATACGATTATTAACAATATCTACACTAGTTTTCAGTAATAATTTATATTCTTCAAAACTTAAACTATTAGCTTCTCCTGTTGATCCTGCAATTAATACTGCATCGATTTTATGCTTTATTTGCTGGTTTAGAATATTCTCTAAAGCATATAAGTCTAGTTTATTATCTTTAAAAGGTGTTATCAGTGCGGTAATTAAACCTTTAAATATATTATACATGATTTTCCTTATTTTAATTATTACGTTATTGTTATACTAAGATTTTTATGAATACATAAATAGGATTACATGGCCTAACAAGTGATTTTGTTGTTATACTTTTGCTTTATCATAGAATCCCATTAAACAAATTTTAAAATATTATTAATATTAGTATTTTTGTTCTCATATACTTTCTACACGACAAGAAGTAGAAATAGTAAAATTGTAATAGCGTTTTGCCTATCCTCTAACAATACGCCAATACTCTCTTTTTAACAGATCTGCAATTTTATTATCTTCAAAAAGAATCTTTTTATTTCCAAGATCTATAGAACTAATATTTTGCACCTCAATTGCTGTACCTGTTACAAAACACCCAGTAAAATGTTCTATTTGCGCTAATTTTAAACGCTCTTCTTTTACTTCTAGACATAAACTTTTTGCAATTTCAATAATAGTCTTGCGCGTGATACCGTTTAAAAACCTATCAGCAATAGGAGTATATAATGTTTTATCTTTAACAAAAAAAATATTTGTTGTAGTACATTCAGCAATAAACCCTTCATAATCTAGTAATAATGCATCATCATAGCCAAGAGCTTTAGCTTCTTTTTTACTTGTTATTGCCATATTATATTGAGCAGCAGATTTAGATTGTACCGGTGTGCTATTAGGCATTGCTTTACGCCATCTACTTACATGCAAATGCACACTTTGTTCGCAAGATCTTGGCATTGATGAAATACTTGCAATCAAAAAATTAGTAGACAAATCAGGATTAGTAATATTTAGTGACTCATCTCCACACCAAATAAGCGGTCTTATATACGCATCCTTAATATTATTTTGTATTATTAAAAGTTCATGAGCTTTTATTATCTCATCTACACTATAAGGCACTTTCAAACCTAGTGATTCTGCTGATTGTATTAATCTTTCGGTATGTTCCTTTAATTTAAAAACTTTTCCGTTATAAGCTCTCTCACCCTCAAATACCGATCCTGAATAATGTAGACTATGAGTTAAAACATGAATCCTTGCAAATTGATAAGGGATTAAATCACCATTAATCCAAATATACCCATAAATTTGATCTAGTTTTATCATTGTCATTAAGTTATATTTATATTAGATTAGAAACTCATCCCGTGGTTTGACCACGAAAGCCAAAAACAACTATGATATTAATAATTTTGAACCCGTGGTCAAACCACGAGATGTAAAATGAGTATAAATGCAACCACATAAAATACATATTTTAATTGTAGATGATGATAGCAGAATATTAGCACTTTTAAAGCAGTTTTTAAATAAAAATAACTTTTTAGTTTCAACGGCAAATTCAGTTATAGAAGCTAAAAATCTATTAAAAACTTCTAATTATGATCTAATTATTTTAGATGTTATGTTACCTAGAATAACTGGGCTTGATTTTGCAACTACTATAAGGGATGCTGGTAATAATATTCCTATAGTTATGCTTACTGCTTTATCAGAAGCCAATGATCGTGTTAAAGGTCTTGAAGCTGGGGCATCCGACTATATCACTAAACCTTTTGAACCAAGAGAATTATTACTGCGAATAAATAACTTAATCAATAATTATAACTTTAAAAAAGAAACAAATATAATTAAATTTGGCAATAATTTTTATAATTGTACTACAAAAGAATTTACTAAAAATGATCAAATTGTATCTCTTAGCTCTACTGAGCACAAACTACTTGAGATATTAATAAAAAATTCCGGAAAGTCTACTAGTCGTTTTGAACTTTCAAAAATAATGGGAGGACTGAGTATGCGTTCTATAGACGTACAGATTACAAGAATCAGAAGTAAAATAGAAGATAATCCAAAAGAACCAAAATATTTAAAAACAGTGCGTAATGAGGGCTATGCACTTTATATCTAAACTATTACCGAAAACATTATTTATACGGTTTATGTTTATAATAATCATTCCGATTTTAATAGGACAAGTAGTTGCTATATTTTTGTTTTACGATCGTCATTGGTATAATGTTTCATATTATACTAGTACTATTATTATCAATGAAATTGAATCACTTATTAAAGAGCATAAAAATAATTCAAGGGAAAGAACACATTTATCAGAAAATTATCTTAATTTATCTTATCAGTTCCAGCTTAATAAAAAGTTATCTATAAAACAGCCTAAATTAAGTGAACCTTTAATTATATTTAAAAATATTTTAGCTACAAAGATTTATGAAAAAAATATAGTTAAACTGAATAAGGAAAATAAAATCGAAGTATTTTTAGAATTAAAAGATGGAATATTATACATTACTTTTCCTGCAAAATTATTACTTAACCCTACAGTATATATATTTGTTTTATGGATTATATCCTTAACTATTATATTACTTTCTGTTTCTATTATTTTTTCAAAAAATCAAATTAAACCAATATTAACGCTTGCTGATAGTATGGATAAATTTGGTCGAGGTGTTTTAAAAAGCAACAATTTTAAACCTTCAGGCGCTTTAGAAATAAGAAACGCAGGTCTTGCTTTTTTAAAAATGAAAACTCGTATTGAAAAACAAATTAATAAACGAACTAATATGCTTGCGATGATCTCGCATGACCTTAGAACTCCTTTAACAAGAATGAAATTACAACTTGAATTGATAGAAGAAAGCGAAGCAATCAAAGGATTAAAACAAGATATATTAACTATGCAACAAATGATAAATTCTTATTTAGATTTTGCTAAAGGTGAAAGTACAGAAGAATTTGAAGAAATTTTACTATTACCTTGGATGAATCATCTTTTAAATAAATGGTCTCATATAAATATTGAATTTATAAAATCTACTAATTTAAATAAACTAACAGTACTAATGAAACCAAATTCTTTTGAAAGAGCATTATCTAATTTAATCGATAATGCGATAAAATATGGGACTAAAATTGAAATATCTTTGATAAATAATACATCTACCGTAGCTATAATTATTGAAGATAACGGTATCGGTATAGATGATATGGAAAAACATCTTGTATTTAAACCATTTTATAGATCTGATAAAGCAAGACAGCTTGATAATTCAAGTAACGTAGGGCTTGGACTTGCTATTACTAAAGAAATAATAAATAACCATAAAGGTTGTATTTATTTAGAAGATAGTAAGAATTTAGGCGGACTATCGGTAAGAATCGAAATACCTAAAATATAGCTTTTATTTGCCATATCATTCCGTATAATTTTATGCATAAAAATAAACAAAAAACATTATTAAAGTTGTTATTCTGTATACCGTGGTCAAACTACTATATGATACCAGGTACATTTTTGATCTATAAAGCAACATCTAAAATATAAAATAATGACTACTATAAAACATTTAGCAATAATAATGGACGGTAATGCACGTTGGGCAGATCGACATAACTTAACAAAATCTGAAGGACATAAAGCAGGAGCTGATAAAATTCGTGAATTACTGCCGGAGTTTATTAACCTTAATATACCTTATATCACTTTATACACTTTCTCTTTTGAAAACTGGCAACGCTCAAGTTCTGAGGTAGATTTCTTAATAAAATTATTAAGTATTTATTTAAAAAATGAATTAGATAGTTTGCATGAAAACGGAGTTAAAATAAAAGTAATAGGGAGGCTGAATTTATTAAGAAGCTCATTGCAAAAACAAATAAATAATGCTATAGAATTAACAAAAAATAATAATAAAATAAAACTTTGTATAGCTTTTAGTTATGGAAGCCGCCAAGAAATAGTTGATGCCTGCACAAAAATTATTGCGCATGGGAAAAAACAAGTGAGCGAGTATGATATACAGCATGCTTTATATGATCCAGAAATGCCGGATGTAGATTTATTAATAAGATCGGGTGGAGTCTATCGCATCAGTAATTTCTTGCTTTGGCAAGCAGCTTATGCTGAATTATATTTCTCACAAAAATATTGGCCTGATTTTAATAAAGATGATATACATGAAGCTATAAATGATTACTCAAAAAGAAAAAGAACATTTGGCAAAAGATAAACAAAATATCTATTTAAGAATAATATCTGGTATAGCTTTAGTTTCGTTATTTGTTATAGCTATATTATGTCTTAAGACTTTATTTTATATTCTAATGATATTAGTTGGTCTTGGAATGTTAAGTGAATGGTATAATATGACATATCCTTCGATTAATTATTTATTAATTGGACTCATTATTATTCCGATCCCTATAAGTCTATTAATATTTTTAAGTATGGAAGAGAGTAATAGATTGGTTATTATGCTTTATTTTTGCATACTATGGTCAGTAGATACTTTTGCAATGATTGGCGGCAAAACTTTTAAAGGGATAAAGCTCGCTCCAAAAATCAGTCCTAAAAAAACCTGGACTGGTCTAATTACTGGTACAGTATCAGCAGGTTTAGTTTCAGTATTAGTAAGTTTAATACCAAATTATCATATTGAACATTACTATTTTTCAAACAAAATATATTTATTTATCATTAGTTGTATACTAGCATTAATAGCTCAATCAAGTGATTTATTTATTTCATATTTTAAACGAAAATTTAATATTAAAGATAGTGGTCATATAATACCTGGTCATGGAGGGGTACTAGATAGATTTGATAGTATTATTTTAACAGCTCCAGTATTCTTTTGTATAAATATTTATTTATGATAATACATTTTAACAAGCATTCTAAAAAAATAATTTTAAATATCTTTTTAGCGTTACTGCTTGTATATTTTATCTTTCATTGCATATATGGAAACAAAGGTATTATTGCATATTTAAAAGTTAATAGGCAACTTGAAAAAGCTTATGATGAATTGAAAAACTTGCGAGCAGAAAGAGTAGAACTTGAACATAATGTTAAATTACTGCGAACAGAATCATTAAATAAAGATATGTTAGAAGAACAAGCAAAAAAAATTTTAGGCATTGCTGCTCCAAATGAGCAGGTCTTTACAATCAAAGATATAGCTAGTCAAAGATAGGTATAATTTAAAAATTACAAAGTAGTTGTTAATCAAATCTCACAAGATATTTAGTATCACTTCTAATCTTTGTAATTAATAAAAAATAGACTAGTTAATAATAACATTAAATTAAAACATAATTTATGAATATAAAAATTTATCAAAACGACTTACCTAGTAATTTCAAACTTGAAGGAGATATCGCAGTAGATACCGAAACCATGGGATTAAATATACATAGAGATAAACTATGTTTACTCCAATTTAGTAACGGTAACGGTGAAGCTCATCTTGTGCATTTTATAAATCAAGATTATACTGCTCCTAATCTTAAAATGTTATTGCTAGATAAAACTAGATGCAAGATATTTCATTTTGCTAGATTTGATTTAGCATCTATAAAAAAATATTTAAGTATAGATTTAGAAAATATCTTTTGTACTAAAATTTCTTCAAAATTAGTTAGGACCTACACGGATAGTCACGGTCTTAAGGATTTATGCAGAGAATTGCTTAATATAAATATTTCAAAACAACAACAATCTTCCTATTGGGGTACTGATCATTTATCTTTAGAACAAAAAGAATATGCAGCAAAAGATGTACTTTATTTGCATCAATTAAAAGATATTTTACAAAAAATGCTATTAAGAGAAAATAGACTTGAACTTGCACATGATATTTTCCGTTTTTTACCAACAAGAGTTCATTTAGACCTTATAGGTTGGGATCAAATCGATATTTTTATGCATTAATTAATGTTAACTATGATGCAAAAAAGAATAAGAAAATAAATGATAAGAAGTAGCGAATAATAATCCTAAAAGGAGCAATAGTAAAAATTCATTAAACCTAATTCTAAAACATGCAATCATAACCCTTACTTAATTAGATAGCACTATTAGATAAGATTACAGTAATAAAAATTCTTTGGGTATTATTTTTGGTAATGTATATTGGAATTAATCGCAAGAAATTTTGAATTATCTTTAAAAGACTAATTTTTACAAGCAGAAAAAAATACAGCGACATACCACCTATTTCATTGTAAAGAGATGAGAATTAATTAACATATTACTTTTAAGATAAGTATGACTTCAATGGTTTAATTAAATTATAAATTGATTGAGCTAGTTATAATCTATTGACATTCATCATTATAAGGCATATCTACCTTCATAAAATGAAGGTATTTTCTATATGAATATCGAATGCATCATTTCCAAGTAATTAGAACCTATGTTGCAACATCATGCAATATTAATTTTTGATATTATCTAATCGATACTGTACATCAATTCACAACGATACATCAATATTCACATAATTACAATTTAAACAATAATATTTACAATTTTACGAGGCACGAGAATAATATTTCGAGGCTCTTTTCCTGCTAAGAATTTTTGTACCTTTGGCAAATTAACAGTAATTTGCTTCACTTCATCTTCACTTATGTCAACATCAAATTCATAAGTATCACGTAGTTTGCCGTTAACCTGCACCGCCATAATATATGTGCTTAACTCAAGAATTGATTCATCAAATTCAGCAAAAACTGATTTATATAATCGTTCTTTATTGCCAAGCTTTTGCCAAATTTCTTCTGTAATATGTGGGATAAAAGGGTTTAGTAACTGTACTAAAACATTAAAACCATACTTTATAGTTCTAACATCAATCCTATCTTTAGAGATTTCATAGTATATAGCATTAGTAAGCGTACGCATACGTGCTATTGCTCGGTTTAGGGAAAAAGTTTTTATATCATCTGCAACGTGCTTTATGGTTAAATGAATTAATCTATTAAGATCCTTATTAATTTCACTCTTCATATCATCTTTTAAAGAAAAGATTGCCTCAAACATATTTTCAAGTTTATTAATAAAACGTGAGCATCCTTCAATACCGCTTGCTGACCATTCTAGATCTTTTTCAGGCGGACTATCAGATAATACAAAAAGTCTAATAGCATCTGCACTATATTGTTCTCGAATTGTTTCAAGATCGATTATATTTTTTTTAGATTTACTCATCTTTTCAATGCGTCCCTGCACAACTCTAGTATTGTTTTCTTTATGAAAAAATTCATTACCCTTTTTTACTACTTCTGCAGGATACAGCCAATTATTATTCTCATCTTTGTAAGTAGCATGCAGCACCATTCCTTGAGTAAACAATCCTTTAAAAGGCTCTCGAATACTTACATAATTATGTTCGTTCATTAACTTAGTAAAAAAACGTGCATATAATAAATGCATCACCGCATGCTCTATGCCTCCTATATACTTATCGACAGGGAGCCAGTAATTACAAGCTTTTTTATCAGTCATTTCTACAGCATTGCTATTACAATATCTAGTAAAATACCAAGACGATTCAAAAAATGTATCAAAAGTATCGGTTTCACGAATAGCACTATTATCACATTTTGGACAATTAACATATTTCCAACTTGAATGATGTTCAAGTGGGTTATAGTTACTATCAAAACTCACATCATCAGGTAAAGTAACTGGTAAGTCTTTATAAGGTACTGGTACTACACCACAAGTCTTGCAATGAATCATAGGAATAGGACAACCCCAAAAGCGTTGACGAGAAATGCTCCAATCTTTTAGACGATAATTTACACTGCGTTTACCTATGCCTAATTTCTCAAATTTCTCAATTACTTTTTGTTTTGCTTCACTACTAGTTAAACCATTTAGCCAATCAGAATTAATTAAAATTCCCTCTTGTATATTACCTGTTTCAATTACCTGCTTTATAGGTAAATTCATTTTAATGGCCAATTCATGATCGCGTTTATCATGCGCAGGACAACCGAAAATAGCACCAGTACCATAATCCATTAACACAAAATTTGTAATAATAACTGGCAAAAATATATTTGCATCGAAAGGATGGATGACATAAAGACCTGAAAATATACCTTCTTTTTCAGCTTTGTCTATTTCGCTACTTCTTGTGATATAAGAGCACTTAGTTATAAAATTTACTATTTCAGGCGTTTTGCAAATTAATTGCTCTATTATCGGATGATTGAAAGCAATACCTATAAAACTAGCTCCAAAAATTGTTTCAGGCTTAGTTGAGAATACTTCTATAGTAGTATTTTCATGATATTTAACCTTAAAATGGAAATTAACACCTGTTGATTTGCCAATCCATTCCTCCTGCATAACACGTACTGCTGCAGGCCAATCTTTTAAATTCTGTATTTCATTTAATAATTCTTCAGCATAATCTGTGATTTTTAAAAACCACTGTTTTAAGTAACGCTTTTCAATAATTGCACCTGACCGCCAACCACGACCATCTACAACTTGCTCATTCGCAAGCACAGTATTATCAACTGGATCCCAATTAACAAGCGATTCTTTTTGATAAACAAGATTTCTATCATAAAGCTCTAAAAAAAATTTCTGCTCATGTTTATAATACTCTGGATCACAGCTATTTATCTCTCTAGTCCAATCATAAGCAAAACCCATAGATTGGAGCTGCTTTTTCATATACTCGATATTAGAATATGTCCAATCTTGTGGGCGAGAATTATTTTTTATTGCAGCATTTTCTGCAGGTAATCCAAAAGCATCCCAGCCCATCGGATGTAACACATTAAAGCCCTGCATAGTCATAAATCTGGCAATCACATCACCTATAGAATAATTGCGTACGTGACCTATATGAATTTTACCAGAAGGATAAGGAAGCATTTCGAGTACATAATATTTTGGCTTGCTACTCTCGTTTGATACTTGAAAAGCTTTTTCTTCTTGCCAAATTTTCTGCCATTTTTTTTCTATTTTGTGCATATCTGTCGTTTAATTTATGTGTAATCATGTTGGTTCTCACACTAAGTAATACAACCGTAAAAAATTACCTTACACTATTAATATATATATCTCTAGCTTTTCTTAAAATTTTATCTTCAAGCATGATAGCAAGATTTGAGGTATTTTCATTAAGTACCCATTGTTTGTTTTTAAGTATTTCTTCAAATATTTTGACTTCAATTGCATCAGGACTTATTACATCATCCTTAATAAAGATATTGATCTTAAATCGAAAATTAGTATTAGAGCGTGGACTATACCATTCCGTAATGATTACACCGCCGTTTGAGTCAACTGATGCAAGAGGAATAAAGCTTATAATCTCCAATGCTGCTTGCCAGAGATATTTATTAACTGTACATCCTACAGCTTTAGTAGATTCGTTTTTTACCCTACCAGGTCTAAAGATTAACCCACCTTCACCCGCTATAGAATCTACCTCATCCCATTTCTGTTCTTGTTCTGCTTTTGGATAATCATACGCTAAGATACTAATATTTATTACAATAAGTATAATTATAAAAAATAATCCGATAATTTTTTTCATAACAAATTTAATTAAAGTGCTTGATGGAAATCATAAAGGAGCTTTGACTATTAGTCAAAAATTATTTAAACTAATTGTATGTCATACATATATAGAAAAAACAAAGTTTTGTTTATTTCGCTTTTAAAATTCTGACTTTTGCTAAAGAACATATGGAAGATTTAATTATTTCTTAGCATAAATTTTAAATCTGGAGTCCTGATTTAAAAAAATTTTTTCATTAAATATCTAAACTGGTCTTATCACAAACTCAAAATTATCTTATTATACTTTATAAGCTATTAACTATTTAATATGTTCTACTGTATCTATAACTTGATATAATATTTCTTTGTAATACTTATATATTCTGGATTTTATAAAAGTTAAACCTTAACAGGCATGATTACAAAAATATCTTTAGGATTTCTAGGAAATTTAATAAGTACTGGTGCTGAAGCTGAAATATCTGAGAAATATAATTCTACTATATCCGATTTAATTGCTTTTAAGACATCTTCTAAGTATTGCGGATTAAAGCCTATGACTAAAGATTCATCATGATTATATTCATAAAAACTTTCTTTATCTTGTGAAGCAGTAATAATCTCTTTTGCGGTACCTCTTGCTTCTCCGACGGCACTAATCTCTAAGATCTTACGAGATAATGATAATTTGACCGCTCTAAATTTTTCAACGGTTATTATTGCTATCCTTTCTATACTATCTGCAAATATTTTTCGATTAATCACTAATTTTGATACGCTGCTTTTTGGGATAAAAGCGCTATAATCAGGAAAAGTCCCGTCTATAAGCTTTGACAACAAAATAGTATTTTCATTACATATAAATTTAATTTTATTACTACTTAATAAAATCTCTATATCTTCATGTATATTTTTAGGATCTTTAACTATTTTTAAAATTTCTTCTGCACTTTTTTGAGGTAATATAACGCCAAAATTCTTTATTTTTTCTTCTAATGTTATCCATGAAATTGAAAGTCTATATCCATCAGTACTTGCCGCAAAAAATTCTTTATCTTTTATGTGTAAATAAATACCATTTAAATTATAACGAGTTTCATCTAAAGAAATTGAAAATTTTGTTGACTCAATTATTTTAGCAAAATCTGCACAAGAAATTTTAAAGCTTACTTCAGGTTTAATACTATCCATTGCAGGAAAAGAACTAACAGGTAAAGTAAATAAATTAAATTTACAGTTTTGCCCTTTGATCTCAAGTTGCGTTATCTCAATTTCTGTTAACGTAAGCTCAGAATCTGGAAATTTGCGTACTATATCACTTAGAGTTTGTGTAGCAACGGTAATTTCCCCTTCATTTAATACCTGTACTGCGATTTTTTGACTTAAGTACAAATCCATATTAGTAGAACTAAGCTCTAGATTTCCATCCTGTGCTGATAATTTAATGTTTGCATATTCAGGTATTACATTACGTTTTTCAATGATAGATCTTGCAAAACCAAGTGACTGCATTAACGTTTTTGTTTCAACGATTAATTTTAACATATTGTTATTCTCTTAATATTCCTTGAAATTTTTGCGAAATAGATGCAACTAAATCTTCACTAAATGAATTTAAATCAGTTTCCGATAATGTTCGATCATCTGCTTGTAGTTTTATTTTAATAGCTATAGATTTTTTACCTTCAGGTAATTTATCACCGCTATAAATATCAAATAACATCACTGATTTGACAAGCTTTTTATTGAAATTCTTTATATATGATATTATTTCACCGACTTTATGATCTTGATCAACAATAAATGAGTAATCTCTAAAATTAGCTTGGTAATCTGATACTGTAAATTCATCTCTTTTCCCAAATTTAGCTTTTATCAACGGCAGATTAGTAATATTCAACTCGAATGCAAATATTTCCTGATTAATATCATAATATTTTAAAATTTTAGGGTGTATTTGTCCAAAATGACCTAATAAATTTTTACCAAGCCTTATATTGATTGCTCTAGTTGGATGATAATATTGTGGCAATACTGTCTCATCTATAACTATACATTTGTCTAAAGATAGTCCTGCATACTCAATTACCTGCTCTAAATCACCTTTAATATCAAAAATATCATAGTTTCGTCCAAACGAATGAGGGTTTTTATTATTAAATGCACCACTTATAATTGCCGTCAAATAAGTTGATTCTATATTTAAATTTACAAAACTTGGTCCAACTTCAAAAAAAGCCATATCTTTTACGTCTCGTGCTAGATTTTTACTTACTATACTTATCAAATTCGGTAACACAGTAGGACGCATATAATTTTCCTCGATACTCATAGGATTAAGTAAAAATAATCCTTCTTTTAATTCAGCAAATAATTTGGCATCTTCGCTACTCATAAAAGAGTTAGTTACTACCTCATCATAACCCTTACTTGCTAATATCCTTTTAAAACTAGATATTCTTTTATATTCTCTTAGATTATTATTTTGGTACAGTTCAGGTAATTTTATACTTTCTATTTTATCATAACCGTAAATACGCACTATTTCTTCAGCTATATCTTCTAAAATATTGATATCATGACGCCAAGAAGGAGCTATCACCTTTATAATATCACCTTTAACATCCGTAATAAATCCAAGTTTATTTAATATATCTTCTATCTCTTGTATACTTAATTTAATTCCTGTGATTTTTTCTAAAAAATATACTGAAAAATCTAAAGGTTTTTTTTGTGGCTCTTGTTCACCCACTTTTACTACTTCTGATACTTCACAGTTCCCGCATATTGATAAAATAAGATTAGTTGCTATATTTAAAGCCTTTTCAGTAAAATTTCTATCAATATTACGCTCATTACGATATCTAGCATCCGTATCAATTTTCAATCTTCGTCCACTAGCTGCAACCATTTTGGCATTAAAGCAAGCAGCTTCAAGTATGACATTAGTAGTACTGTCATTACAACTACTTTTAGCCCCACCAATAATACCAGCAAGCCCTTGAATACCACTTTCATCTTTTATAACCAAATCATTTTCGGTAAGTAAATATCCTTTACCATTGATAGCATAAAAATTGGCTGAATCATTGCTAAACTGCAAAACAGCAGTTGCCATTTCATGATTTTTGCAAGAAATTACTTTATCACTACGTATATAACAATCTACGCTAATTCCACCATATATCTTATCTGCATCGTAAGCATGAATAGGCTGCCCAAAGCTATGGGAAATATAATTTGTTACATCCACTAAACTTGAAATAGTTTTTATACCGACATTTTTTAATAATTGCTGTAACCAATTAGGACTTGGTTTATTCTTTAAATTTCTTATTTCTCTAAATGTAAACAAAGGACAAGCTTCTTTATCGTGCACGTTAAGCTTTATTTTAGAAAAAAATGTACTCTTTATTTCCGACAATTCTAGCTCTTTAAGTGTTCCGAGTCCTTTTGCTGATAAATCTCTTGCGATTCCGTAAACTCCCAGTACATCACCACGGTTAGGAGTAACATTAATAACAAATATAGGATCATCTAAACCGTAATATTTAGTAAAATTATCTCCAACTACGGCATCTTTAGGTAACTCTATAATACCATCAGAATTTGAAGATAACAATAATTCTTCTTCAGAACAAAGCATACCATAGCTTTTTTGACCTCTAATAACAGATTCCTTAATCTTTAAATTGCCCTTTGGTATTTCTATTCCGATATTTGCAAGTACTACTTTTATATCTGCTCTTACATTACTTGCACCACAAACTATTTGTAATATACCATTTTTAGTCTCAACATCACAAAGCTTTAATTTATCAGCTGATGGATGAGGTTTAATATTTCTAATATATGCCACTTCAAACTTTTGTAATTCTTTCGATTTATCTATCACCTCTTCTACTTCAAGACCAATATCTGTGAGGGCTTCAGCAATTTCAGTCACCGAAGCTGAAATCTCTAAAAATTGTTTTAACCATGATAATGTAAATTTCATTTTGTCAAACCTCCTGCTAAATTCGGTATATCAAAACTCTCAAAATTATAATGTTTAAGCCAACGTATATCTCCTTCAAAAAATCGTCTTAAATCTTTGATATTATATTTTAGCATTGCAAAGCGTTCTACTCCAAGGCCAAACGCAAAACCTTGATACTCACTTCTGTTAATATCAATATTTTTAAGCACATTTGGATGTACCATCCCACACCCAAGGACCTCAAGCCATTTATCATTTTTATTCATGCGAATATCAACCTCGGCAGAAGGCTCTGTAAATGGGAAAAAGCTAGGTCTAAAACGTAGTTCAATATTAGAATTTTCAAAAAAGCTTCTTATAAATGTTATGATAACATATTTTAAATGCCCCATATTGATATTTTTATCAATAACAAGTCCTTCTATTTGGTGGAACATTGGAGTATGTGTCATATCTGAATCTGATCTATAAGTCCGACCAGGTGCTATAAATCTAAAAGGCGGTTTGCCGTTTTTCATTGCTCTAATCTGAACTGTTGAGGTGTGAGTACGTAATAGCAATGGTTTATCATTTTCATGACCTTTTAAATAAAAAGTATCGTGCATCTGCCTTGCTGGATGGTCATATTCAAAATTGAGAGCAGTAAAATTATAAAAATCATTTTCTATATTCGGTCCATTTTCTATAGTAAAACCAAACTGCGAAAATACTTGTATTAACTCATCCATACATTGAGTTATTGGATGAATAGAACCTTGTTTATATCTTCTTGCAGGAATGGTTAAATCAATTTTATCGGCAGCAAGTTTTAAGTGCAGTTCTTCTGCCTCTAAATTTTGCGCTTTTGCTTTTATTATATCGTGTATTTTATCTTTTAATGTGTTGATTTTTAAGCCGAATTCTTTACGTTTTTGTCCATTTATTAAACTACCTAATTTTTTAAGCTCACTCGTTACTATACCGTTTCTACCTAAAAATTCTACTTTATATTCTTGCAAATCTTTTAAGTTATGTACTAATACAATTTTTTCCTCAGCAAGTTTTAATATTGTTTCTATATTTTTCATAATTATTTTTTGTTTTTAGATTTTATCTCAACATTGTTACAACATAACTTTGCTAAATAGTCCAGTGAATCAATACAATATTGTTGATCCTGTATACAATATATAACTAAACCAATACACACTTCATATACCCCTCTTCTATTCCCACCAATTCCGCTTTAAATATCTGCCCTATTGCTAAATATTTATCTAGCTTTACTGGAATAAAATTCTCGGTATGAGCAATGTTATTATTCTCTATTAATAATTCCACTTTCTGCCCTATATGCCTTTTGAAGAACTCATTTAATTGATTAAATCCATCTTGTCTTAAAATTTTTGCCCTTTCTTTTCTTATATTTTGAGGTACTTGTGGCATACGTGCTGCAGGTGTTCCTTCTCGTTCTGAATATGGAAAAACATGTAAATATTGTAATTCCGCTTCTAAAATTAATTTTCTTGTATTTTCAAACATTTCATTGGTTTCAGTTGGGAAACCTGCTATAATATCAGCACCAAACGATACTTCAGGTCGTATTGCTCGCAACTTTTGACAAAATTCTATTACGCTTGCTCTATTATGACGTCTTTTCATACGTTTTAAGATCATATCGTCACCTGATTGTACACTAATATGAAAATGTGGCATTATCCTCTCACTATAAGCTATAAGCTCAAAAAGTTCATCATCTATTTCAGCTATATCTATCGAAGACAAACGCATCCTTTTTAGCTCAGGCACTAACTTTAAAACTCGTTTAATCATTTGTGCAAATGTTGGACTGCCCGGCAAATCACTACCATAAGCTGTTACATCTACACCAGTAATAACTACTTCTTTAAAGCCTTTTAATACTAAATGTTTTACCTGTGCTACTATAGTTCCTATAGGTATTGATCTACTTTTACCTCTGACGTAAGGAATTATACAAAAAGTACAATTATGGTCACAACCATTTTGCACCTGAATAAAAGCACGAGATTTACCGTCAAAACTACTCACCAAATGACATGCGGTCTCTTTAACAGACATGATATCATTAACTGATATTTTTTGATCGGTGATTTGATAATAATGAGATAATAACTTCTCTTCATTACCTATAACCTTATCCACTTCTGACATATTCCCGTACATTTTAGGATTTGCTTGAGCACTACAGCCAGTAACAATGATTTTTAAATCAGGATTATTTTTTTTAGCCTTGCGTATAGCTTGTCTTGCTTGTTTTTCAGCTGATTTAGTAACAGCGCAAGTATTAAATATTGCTACATTATCGAGACCAGATAATTCTAAATTTTTTCGTATTATCTCACTTTCATAAATATTAAGTCTACAGCCGAATGTTACTATTTCTTGTCTTAAATTATTTCTCATAATAATATTCTCCACGCATTACAAAGGTGGCTGCTCCTTGCATTATTATATTACCATCTTCTTCTCGCATTATAAGATTACCATACTCAAATACTACAGTACTTGGTGAATGAACAAAACCAAGCTTTAAACCAGCAGCAAAACTAGCACAAGCTCCACTCCCACAAGCAAGCGTTAACCCTGCTCCTCGCTCCCAAACAGATAAATAAATTTTATTATCTTTTACTTCAGCAAAATTCACATTTACTCCATCTGCAAATAATTCTTTAGCCTGTAATTTTTGACCAATAATTGTTTTATCTTGTGGTTCTAATTTACTAAAAATAATTAAATGTGGATTACCTATATCAACACACAGCATTTCTTTTAAATCAAGCATATAACGCTCTGCAAATTTCCAAATTTTATCACGGCTTGGCATCCAAGTTTCATTAAAACTCACATTGCCTACATTAACACTAATCTTATTTGCAGCTTTCACATTACATAGCAATTTTTTCTTGCCTACCATTACTGTAATATTTTGCTTTCCTGTATCAAGATAAATTAACTTTGCTAAACATCGTATAGCATTACCACATAATTTAGCACTAGATCCGTCTATGTTGTATATAATCATTGTATAAAAATCATTATTCTCTTCATAAATAATACACTGATCACAACCAATACCTGTATGACGATCAGCCATATTTTTGGCTAAGTGCGATAAATTGTATGAAGTTGCTAAATCCCGTTTATTCACAATCACGAAATCATTACCAAGACCATGCATTTTTACAAAGTTAATTTTATTAATCATAATGTTTTACATATTAAAAATTTGTATTATAGCAAATTTCTTTAAATTTACTATAATGAATTGAGGATAAAATATAGACTATTATACTAATTTCATGCTTCTTATTACTTCACAATAACTAGTATTTTAAAAAATTTGCAGTAAGACAAAAATAAAGATAATAATCATTGCTAAATAACATTTTAATTGATATATAAATAAGTATCCTAAGATTGATATAATAAAGTCTAATAAAACACCAATACTTAAAAAGACGTGTTTAGCTTTTTAGCACTAACAACATGAAATAAAATCAATTCAAGACTCTTCAAACAAAATAGCCGTATTACTTGCAGCATGCATATGCATGCAATATAGGAGAAACAAGATATTTAATGGATTTTAATTTTTATGATTATATTTATAATAATAAAGCTTATTATATCTTTTCTATCTAAATAATAATTATCTATGGCAAAATTAGTAAAAACTAAAATAACTAATTTAGTTATAGAAGAATAAAAAACTATGGAGACTGAAATTAAATTAGCAATAATATGCTATGTAAGAGCAGAAGCTAGAATAGGAGCAATCTTAAACAGTTTCTATATCTAAAAAATATTCGTAAAACAGACCTTTAGACTGATTCACTGATTTCACAGTAAAAAAAGTGACAAATTAAAATAATGAAGATACTTAATATCATGCTAAGTCGTGATCTTGGCGGCATTCAACAAGCATTTTTAGATTATAATGCAGCACTTGAGATACAGAAAATTGAGGTTATAAATGTCACTTCTTATAGAGCAAAAATAAATTCTTTACTACATAAAAGAAGTTTTAAACTAATTAATTTATTACCAATTGACCCATTATCGGTACTTATTCTTAAATATATAATCTACAAAACTAAGCCTGATATAATTATAGCACACGGCAATAGATCAATCAATTTTAGCAAACTTGCTAAACCTCATAATACCAAATTAATAGGTATTGCTCATAATTATAGTCTAAAAGGACTACGTAAATGTGATTTTGCTATTGCATTAACGTATCATATGAAAGAATTTCTACTAAAAAATAACTTTGCTGAATCTAGGATATTTATCCTACCTAATATGATAAATATTACTAAAAATTTTGTTCCAAATAAAATATATAAAAAAGTTATTGTAATTGGTGTACTAGCAAGATTTGTAGCTAAGAAAGGTATTGATGTTTTTATCAAGGCTATTAAACTTTTAAAAGACAAGCAATATAATATTCAAGTTGTTATAGGTGGGAATGGCAATGAAAAAGATAATTTAATTGCTTTAGTACATAAACTTAATTTACAAGATCAAATATCATTTACAGGATGGGTTAACGATAAAGATACATTCTTTAAACAGATTGATATTTTTTGTTTACCGTCTCTTCATGAACCTTTCGGCATTATAATACTTGAAGCAATGCAAGCAAGTGTACCTATTGTTAGTACTGATACTGAAGGTCCAAAAGAAATCCTAAAACACCTAAAAGATGGGCTTATATGTAAAGTTGGCTCGATTGAAGATTTAGCAGAAAAAATTATCTATTTAATAGATAATCCTTTACAAGCAGCAAAATTTTCTAAAAACGCCTATCTTAAACTTAAACAAAATTATGATATTAAGGTTGTTTCTAAAAAATTACAGTATATTTTAAAAAATTTCAGATAAATTTAAAAATGAATTTGCGAAAATATGAATACGTTGCTATAAGAGGTGCATAAAAATGCTCTTGTATTATGATACTAAAATTTGCTATCGTAATATTATTATAATATAAAAATAGTTAATTATAAAATAATATTCTATATTAACATAATAATTTAAAATAACATTTATTTTAATAAACCAACTCAATGCATTACAAGAATTGGCTAAGTCATATTACAAGTATTACTGTATTGAACGTTTCAGCCATCATCTGATTAATTTTTGTTCTTTTTGAAATGGATTTTTTAATACAAATTTTTTATTTTCTTAGGACGATTGCATCTTTTCTACTATATGATTATATAACTAAAATAAATATTGATCTGGCAATGAGTAATATCTTAATAATCAAAGTGCAACTTATTAGATTATATAGATTTCAACAAATAAAAAAATAAAAATATTAAATTAACGAAAATTTCTTTAATATTTAATAATGCTGTTCGAACAAATATTCTTAATGATAAACTTATATGTATGGAAGATACAAATGCTAGCGCATCAACTAAAGAAAATTTCTTTACAAAGAATGTATAGCATGACAGCAATATATTTACCTGTGATCATTAACAGAACTATAACTAAATTTAATCTTGTAGAGTTAGTTATAGAAGTATCTAACTAAACAAATTAATTGAAGCTAAAACAGAATTTATAAATTAACTAAGAAATTCTACTATCTTCTTTTGGTGATGTAATATCGTTTTAGTTAACAAAGCTTGTAATTAGTAATTTTTCATTATACCCTTACAACAACCGATCAATCTTTTGATATTTTAATAGATGAAATTTATTAAACTGTTTAATTTAATATGATAACCTAATAGATTATTTTCATACTCTAACTGTGTTACATAAATATTACTATCGGAACTTATTATAATAAAGACAGGATTTAAAAAGCATTACTGAATTGATTGCAACAGATAAAACTTGAAATTTATACAAATAGTTATTGTCTACAAATCTCTTTAATAAGATTATTCAGATTTGAAAATAATAAACTTAATCATCTATATTAGATATGTAAAAATTACTGCAAGTAATAATATGAGTAGTATATACAGATTACTGAGGAATAATTAATGAGGTTGCTATAAAATTTTTAAAGCTAAGTGCTAGAATCCCATTGAGAGGAGAATAATGAAAAAGTCATACGACTTCTTAATATTATTAAGACTCGGCTAATCATTTTTAACATATCCTTTCATCAGAGAAGCTTAACATTACGATATTAAAAATACTAAGAAACAAGATAACTCTAATTTAGATAACAAAACTTATAAAAGTGCTCATATTATATTCAGATTAGAGTAGAAGTATTATATGATTCTTTGTGACTTATTCATGATAATTATTTTAATGTTTTGAGCATTCTGTTATAATAGAATAGGCAAGCATTTTACGTAATATAATATTTTTTAACCATTTTTCATGTTTAAGTAAGCTAGCTCGTATCTGCGAGTTACATTACAAAGTTACATTACAATTTGAAAAGTATCCGACATTAATAACTATGAGTCATGTTCATAGTAAGTAAAGGCATGACTCAAAATGTACTGCGAAGCAGTGCTACCGAAGTGATAATCCGTCTCCTCATCGTCATATAATAAATTGCATCATATAAATGCCCAATATTCATTTATATTTGACTTCTTATATTATGCTCATATACAGAATTGAATATTACGATGCAACACTGCGAAAATATTTGCACAAATTAAAACCAAAGGAAATTACAAAATGCTATAAAATAGAATGAGTCAGTGATTAATTAATAATGGTAATACACTTTTTATCAAGACAGTTATTGAAAATTTAACTAATAATAAAATAATACTTATTCATAAATAACAACATACCAATATTATTGGTATAATTCATTTTATATTTCTGTATAACTTAATCTGTTTATTATCGCAATAATAATCCTACATTACAGTATGCAGCACTATTACCTTATATTTATCTATTTATAGGCATTGGTTTTAGTTCTTTAAAATATCATGAGACAAATCGCAAGGATATTTTAGGATAGGAGCAAAACTTTCATAAGAATTACTGAATGCACTTCACTGTTGTGACTACTACTGCTATTTTACAGAAATTATTGCGATATGCGATAATTAGTAATTTCAATGTAACTATTTTTCCATCATGCGACTTGATAGTAAGATCCCAAAAAATATTAATATGATACAATCAACATGCAAAATAACAAAGAATAATCATGATTTACTGATATTGAAAAAGCTTTTGAATTATTATCAAATACAAATTTAGTGTATAAACTTTACTAGCACATTCAAAAACTACTACGCTTAATCTTATACAACTTCCTATTTATCTTAGAAAAATCTGTAAAGATTTTATGCTTGATCCTGATAAGAAACAAATCTTAGTTTTAATTGAAGCTGCACAAATTATTTTTTTTGATACGATACTAAAAGAAAAGTAACAAGTTAAGTGATCCTTTAAAAACATTAACATAGATTATGTTTTTAAATCTTAGGTATTTTGAATAAAAATTTTAGAATTAATAATTGTGTAATTTTAAACCATGCTCAACAAATTTGAGCTAACTGAGTGTAATGTATTAAGTTACGCTCAAAACTATATTTATTGAGTAAGTTTAAGAGACATATGAAAAATATACTAACTATTAAGATAGACGTATAAATAACAATACAAATCCACTATACTATACCTAGTATATGATTTACGATACACTATTTATTAACTTTTTCTTTTTTCTGATCTTACTTAAACTTTTTAAAGTATTTTATATGTAATCTTGGGTACTAAGGTATTTTAGGCAGACAATAGTTTAATTGTTTACAACAATAAAAAGATATATTAATAAACTTAATTTATAAATTATTATAATCTTAATAAATATATTTTCTACATAGAATTCCATTTCTTTGTAAACGCAAAATCTAAAAAAATAAAATTTCTAATTGTAAAAAGATATTATATAGAACAAGCATTACTTGTGTTATCATCATCTTCACGTATAAATTTTTGCTTTACCTTAGAAGTATTATTATACGGCCTACTATTTTTAATCGGCGGATAATTTTCATTCTCATAATTTGTGACAGGAGGTACATAATTTTGGTTTACTGTAGCATTTGGACAAGTATATTTTGTTATATCACGCTTAGTCTCTCTAAGCATTGCTTTTATCTGATTTAATTCCTCTTCTATTTTTTTTTCTTTATAGCTATCGTCTTTCCTAACTTTTTTATTTGCTTTACTTAAAGTCATATCATTATTGGATTGAGTTGCATTAGATTCTGCTTTTTGTCTTGCTATATCCCTTTTAATCATATTAATATACATTTCACGATTTTTCTTGATATTATCTATTTTCTCACCTATTAAAAGACTATCGCTATCATAGTTAGCATCAGAATCATTATCATCATCATCAATATTATCTTCTAATATATTCTTTTTAGCCAAATCAATATATTTATTATTATATACAGGTTTTCTTTTACCACCTTTAGCACCTTTAATATCAAGTAATTTATTATTTGCTGATCTTTGAAAATAGTTGCGAAAATTATCAGTACAAGATGAAAGTAAAAATATTCCTAAAAATAATATTATAATTTTTTTAAACATAATTATTCCAAAACCTTTATTATGATTAATGCCATATAATAAGCAATTATGCAAGAATAAAGCACTAAAGTTCTATGAACTTAATGAAATTATTATTATTTTGAGATATTCTTGTATGAAGATACAACTATAATTGAAAAGCGTATTACAATCTCTAAACTTTAAAACAAAATTGCTGCATATTTATTATTTACAATTTTTTGCAAAAATAAAAATACATGCAGAGTAAAGCTACAGAAAAACAGTATCTTCTATTAAGTTACTTAGCAACACATGACCTTCTTTTTTTCTGTTTAATAAATTTTGTGAAGCATCCTCTAATAACTGTCTATTACTTATCAAATCCAGTATTTTATCAGCTAATTTTTCAGAAGAAATATTATTTTGTTCTAAACACCACCCTGCTTTGTTATCTTCTAATAATTTTGCATTGTAATATTGATGATTATCTGCAGCACTAGGCAGTGGAATAAAGATTGCTGGCAACCCTATATATGTCAATTCTTCTATAGTAGATGCTCCTGCTCGTGAAATCACTAAATTGGCTACTTTATATTGCAATGCAATATTATCAAAAAATTCAGCAAATTCATACGTAATGTTTAATTTTGAGTATATATCTTTTATTTTTACTTGATGATCTAATGCTGCTTGCTGTATTATATTTAATTCAAGACTTGGCTGTTTTTTCATTAAAATTTTGATACTTGCAGGTATCAGCTCTGAAAATAATTTTGCTCCTTGACTACCGCCAAAGATGAATATTGTAAAAATATTACTATTCGCAAATTCATCATTACGTCCCTTAACCAAAGGATTAAATGTGTTGGTTAAGGCTGTTTGAGTTAATTTAGTGAGAGAATGTTGTGATACTGAGTACATAAAAGAATCTAATTCTCTAATATTCTTTCTAACTATTCCACCGGTCAATACTATTTTACTTTTTGCAAATTCTGGTAAATTCTTTATGTCTTCATAAGAAGTAGCGATCTTTTTAGCAAAGCGTGCAAAAAATTTATTAACCTTGCCAAGGTAAGAATTCTGTTCATGAATTATAATCGGTATTCTTAAAAAAATTGCTGCAAACATTGGTGCTATGACAGGATAACCACCAAATCCTATAATGACACAACACTTTATATTATATATTAATCTAATGGATTTTAAAAATGTAATTGATAATATTGGCAAAAACAAAAAAATATTACTGAATCGTTTCAAATTTAAGATATGAAAAATTATTTTCATATCTTTGTTGATATATTTTTTGCATCTTAAATCAGTAATAAAATGCACGATATAACCACGTTTTATAAGCTCTTCGCCAAGAGCAACTGCAGGAAAAAAATGTCCACCAGTACCACCTGCTACTAAAATTATTTTTTTCATATTTCAATATTACAAATTTTATATGAATTTAAAGGGGTTCGGTGTCTCGTAAATCCAAGAAGCATACCAGTAGCGATAGCTATTGCAAGTGTTGAAGAACCTCCATAACTAATAAATGGCAATGTCATACCTTTAGTAGGCAATAAATGTAAAGTTACACCAATATTAATTATTGCCTGCAGTCCTAATTGTGCAATTATACCACTAGCAGCGAATTGTACAAATTTATCTGTTTCGTTTAATAATTTCACAAAACTTCTTAATACTATAAAAGCAAATATAGCGATAACAATAAGGCAAATAATAGCTCCAAATTCTTCACCTGCTACAGCAAAAATAAAATCCGTATGCGAGTCAGGAAGTGCATGCTTGACTACGCCCTCCCCTGGACCACATCCATATAAACCTCCATGTTCAAAAGCCTTAAGAGATTTACTCACCTGATAATTCTCACTACTATCAGGATCTAAGAATGAATTAATTCTTTGCGTTACATGAGGTAAGCAAAAATACGCAATAGTTACTCCTAACATTCCTAAAAAACTTGCTAGCATAATCCAAAATATTGGCATACCCGCAATAAAAAGCTGGATACCGAAAACTGTTGTAATCATTACAAGCATCCCAAAATCCGGCTGAATAATTAAAAGAATAGCAACAATAAAATAAAATATTATACAAATTGTAAAACTTGGAAAATTATCATTAAATTTCAGCGCTAATATCCATCCAATAACAACTTCAAAAAATGGTTTTATAAATTCTGAAGGCTGAATAGAGAGACCTAAAATATTAATCCATCGCACTGCACCTTTTACTTCATATCCAAAAAACTTAACTGCTATTAATAAAATAATACTAACAATAAATCCCAATATTGCAAAACGCCTTAACCATTTTTTATTAAGACATGACAATAATAATATTAATCCTGAAGCAGTAGCTAAATAAAATATTTGTCTAGAAGCAAAATAACTTTCTTCCAGACCTATTCTACTTGCTACTATTGAACCTGAAGTAGTAACAAGTATGAGACTAAAAGCAAATAAAATAATTAAAGAAATTATTATTTGCCTATCGGTACTACGCCACCATAATTTTATAAAGTTATTAGATATTTCATTGTTCATATTACATATTATTTCAAGCAATAGTAAACTGAGTACCAATCTAATCAAATATTCTGAGATTCCTTAGTAAATAATTACTGCCAATGACGTTTTGATAACTTTATAAACAACTCTCCACGCTCCTCAAAATTTTTAAATTGGTCATAAGAGCTACAACTTGGTGCTAACAAGATATTTTTTACTTCCGTAGTATCACTTACTGCATCCTTATAAGCAATATTGAAAGCATACTCAAGATTATCACATATTACAAAATCTATTATATTCTTAGCAGTATTTGCAAACATTGCTTTAGCTTGACCATAAAAATAAGCTTTCTTAATTTTATTAAAATAAGGTTTTATTCCTTCAATACCACCTTCTTTAGGGATTCCTCCAGCAAGCCAATAAATATTATCAAGTGCTTTAATTGATTGTAAAGCAGATATAGCATTTGTTGCTTTACTATCATTATAAAAACTTATATTATTTATACTACCGATATATTGCATTCTATGATGCAAACTTTGAAAACTACTTATAGACTCAAGTATTTTTTTAGATTCTAATCCTATTATTTTAGCTACTGCATAACTTGCAGCTATATTTTCACAATTATGCAGCCCTTGCAAATTTTTATTCAAAGGCAATTTATAAGTTAAATCATTATCGTGAATTTTATCATCAACTATTGATATACCATTTTTAAGAATTTTAGTAACCGAGAATGGAATTAATTTTATAGACTGGTCTTTCTGTAATAGCACAAAAATTTTACGACAATAATCATTATCGATATTAATTACTGCATAACTATCTTTATCCATTCGATCAAAAATTTTAGCTTTTGCTGCAATATAATCGTTCATATCCTGATATCTATCTAAATGATCAGGAGTTATATTAAGAAGCACTGCAACTTTAACTGTAAAGCTTTTTACTAAATCTAGTTGAAAAGAAGATAATTCAAGTACATATCCCTCGTTACTTGCTTTAGCTTGTAAAGCAGGCACTCCAATATTACCAGCAACAGGATAATCTAAACCGTTACTATTTAAGATATGACTTATTAAAGCAGTAGTAGTACTTTTACCGTTTGTACCGGTTATGGCTATAAATTTTAAGTTTTTTGATTTTTCAAAAAATAAATCTATATCTGAAATGATTGGAATATTAAAATGATGAGCAATTCTTACTACTTCATGCGTAAGCGGAACGCCAGGACTTAAAACAATTTTATCTAAATCCTGCCATCTTGAATCAGATAAAACAGTAATAAGATTGTTTCCAAACAATTCTTTAAATATATCTCTATTTGCTTCTAAATCATCATAAACAATTAAATCATATTTATTTTTCAGTTCCTCATAAACAGATATTCCTGTTTTACCAAGCCCAAAAATACCTATTTTTTGTTTTTTATATGCATTCATTAGTCATTGTAGTTTAGTATCTAAGACAAATAGATAGAGATGACTTCAAAAAGAATATGAAATTAATACAGTGAAGATAAAAAACTGTGACTTAATACCTCCAGTTCTTATAGAATTAATTAGCAAATTTTTAAAGTGCATCAAATATATTAGTGCATATCATGCATTAAAGCTTGTTCACCTTCATTCAATTCATGTTTCCCTTTTATATTATTATAAGTTGTTTTATTACTTCTAGGATCTATTAAGTAATAATGAGGGGGGGCTTCTAATGTTTTAACACGCTGTACTTGATATTCATTCGGTCCTGATGTTGATAAACCCAAGGTTTCTTTTAACTTTTTACTACAAGCAGAAGTAATGAATAAAAGCGTAAATAATAAAAAAATCTGTTTCACTTAAATACCTTTATATTTAAATTATATTTTACTGTCATGATCAGTGTGACGAATTTTTTCAGCCATAACTTCAATTTGTAGATTATCATAATTCCCTTTTGACGTTTCTTCAATAACTTTTTTAGTACTAAAATAATCTTCCATTAAGATAATTACTCCTAATGTAATAAAGCAATCAGCTAAATTAAATACGGGGAAGCTATAGTTACGATAATGAAAATGAATAAAATCAAAAACCGCCCCTCTACAAAACCTATCAATTAAATTACCAATAGCCCCACCAATAACAAAACTATAACCTGCAAAACTACCTATCGTTTTTGAACATATCATCAAATAATATAAATAACACACAATAATCATGTTTGTTATTAAGAAAATAGTATTACTATATTGATAATATTCACGCATTAAACCAAAACTAATACCGTAATTCCAAGTATAAACCATATTTAAAACAGAAGTCACCTTAAGCATTAAGCCTGGCTTCCATCTTAAATTATTAATAAACCACCATTTGGTTAACTGATCAATAATAACTAAGGTTATTATTATACGACTACTACGAGAAAACGTAAAATATAGTTTTTTCAATAATGAGATCATAGATAATTAATATATTTATAAATACAAAAAAGGAATGTTAATTATCAAAATGGACAATAGTAAGTCTAATCATTCCAAAAAGGAGAAAAATAGATCCTTTAATAAGTGTACACCGTATCTGCAACAAAACATCAATTTATAAAATTGATCAAGTATCATAAGACATTGCGTTTATTGCATCAGTATACGACTCCTTATCAAGCTTAACATTTAAAGTTTTTATTTCTTGTTTAAATTGTTTAAATTTTTCTAAATTTTTCCCGTTTAATTCTATACCAGGTGTTGTTTTAACTGACATAGGATTCACATGTTTGCCATCAATTTTTACTTCATAATGTAAATGTGGTCCGCTAGCTCTACCTGTACTACCAACATATGCTATAACTTGCCCCTGTTTTACTATACTTCCTACTTTTAAATTTTTTGCAAAACTTGAAGCATGAGCATAGGCAGTAGATAATGTACCACTATGTTTTACTTGAATAAATTTTCCATAACCTGATTTCCAACCTATCTCTGTTATAACACCGTTTCCAGCAGAATATATAGGTGTACCGGTTGGAGCTGCAAAATCAACACCTCTATGCATTTTAGTATAACCGAGTATCGGATGTTTTCTATTACCATAATGTGAAGAAACTTTTATTACTTTTAGCGGAGTTTTAAGTAAACTTCTTTTTACACTTTTACCATCTTCAGAAAAAAATGCATAATTATTTGCATTATTATCATGTGAATAGCGATATATATTATATTCTTTCCCTGAAAGATTTAATGAAACATATAAAATTTTACCATGATGAGAAAATTTACCATCTTCAGTTACATATTTTTCTGTTATTACTGTTGCAGTATCACCGTTTTTTATTTGACGCTGAAAATCGATTTGATAAGCATAAGCGTTAATCAACTCTATTATACTATTATTTGATAAGCCAAGCTTTTTAAGGGCTGACATAAAATTTGATTCAATATTTACAGATGATTTAGAAACTTTTTTACTTAAAGGTACTACAATTTCTTCAACTTTAAAATTATCACCTTCTCTAATTACTTTAATAGTTTTTAGCTTATCAATAATTATAACAATTTTATTTAAGAATGTTATCTCTGAAGTTAAATCTTCATCATCGTTTTCGGTAATTTTTGTTTCATATTCAAAAATAATGTGCTGACCTATTTTAAGAATAGAAGATAATTTACCTACTTTCACTAAATTTATAATTTTTTCTATGTCATTTTTAGGGATCTTTTGTTCTACCAAAATTGATTTTATAGTATCACCTTTTTTTACTACTACTTCTTTAAATGAAATTGTTTCTTCTTCATTACTATCAGGCTGTACTAAAGTTATGGATAAAGTATCGTTTACATAATTATTAATTGCAAAAGATACAAAAAAAACCAATCCTATAAATAATAATAATGATAAGAAAAATGAAGGGGTAAAGATTTTCTTAAAACGTGCACTAATAAAAGATGATTGTAATATGTCATTAAAATCATATAGTGCAGTATCATTCATTAAAATTGCTCCGAAGATTATTTGAATCAATTTTTGATTATGAATAATATGAACTATATATAAAGAAATTACAATAAAAAATTGTAAAATTTTGATTGCTGGGTTATGAGTTTTTTATTGATTTAAAATTAATTAAATATAAGTTAATTTTCATTAATATAAATAAGATTTATAACTATGCTTTTTGTATTTTCAATATATATGTAACTAAGAATAATATGTTCTAAAACATCATAAATAGAATATTATGATAATATTTTTTAAATAAATATTGTAATGTAAATGGTGAATATAATTATTAGTAACTTGTTTCTTTTGATTTATAAGTCATATTGCATTTCTATGCAAAGCTAAAAAAAGGTAACAACCTATAAATTAACGAGCAAAAATTTTAAGTTTTTTCACATTTGTCGATAAAGTACTTTATATTGTAACAAAACACGATCCTCCGTTAATAAATAAACTAATGCAGATAAAATTAATAAATGCCAAAGTAATAGAAGTTATTGACTTACCTTAACATCTTATTTCTACCTCAAATATTATTAAATATATAGTGTTTACAAAAATTTATTGATTTTTACTTTAACAAAAATGCATATCTGTTTATACTAATGTGGTAACTTATATACTTGCTATGAATATTATTAGATATTGGTCCAAACAATCTTATAAAAAGTTAAAAGTAGATCAAGAACATAACACCACAGAATACACAAACGTATGTAATAGCACGAGTCTAGGTTCGACGTATACATTACCTCTAAAAATGGAATTATGGAAGATATATATTACTTTAATTTATTTTTTGATTACTAATAGTAACTGTTTTGCTTCTGAGCCGTTAGCGTGGCAAATAACATTCCAGCCTCCAGCAAGTCCGATTATGGAGGAATTATATCATTTTCATAATTTTCTGCTTTATATTGGCACAGCTATTGTCTTATTTGTTGCTGGATTACTTGGCTTTGTATGTATAAGATTTAATGCAAAAAATAACCCTGTACCAGCGAAATTTGCACATAACCTTTTAATAGAAATAATTTGGACTGTAATACCTATAATTATCTTAGTTATTATTGCAGTACCATCTTTTAGAATATTGCGTCATGCCGAAAAAATACCTGAAATTGATTTAACTATTAAAGTAGTAGGTTATCAATGGTATTGGCATTATATATATCCTGATTATGATAATTTAGAATTTGATAGCGTAATGATCTCTGATAAGAATTTACAAATTGGCCAAAAGAGATTACTAGATGTTGATAATAGAATTGTTATTCCGGAAAACACTACAGTAAGATTTCTTATTACTGCGGGTGATGTAATACATAGTTTTGCTGTACCATCACTTGGTTTTAAAATAGATGCAGTACCAGGCAGAATAAATGAAACATGGACAAGAGTTACTAAAAAAGGAGTATATTACGGACAATGCTCTGAACTATGTGGCATCAACCACGGCTTCATGCCGATTGCAATAGAAGTAGTAAGCAAGGAAGATTTCAACAATTGGATTGCACTTAAGAATAAGACCGCTATGAATAATAAAAGTTCAAAATTGATGTCTAAATAATAATAACTTAAGAACAATAGATCAACCTTATATAATAAATGTACTTTTAATATAAAATTTATAAAAATTACAATTGCTATGAACTCATTAACAAATATAGAAGACTTAAATTGTGATAATCAACATATTCCAAACGGTTTTAGGAGATGGATTTTTTCTACTAATCACAAAGATATCGGAATTATGTATATCATATTTGCTATTTTTGCTGGAGTTGTCGGAGGGTTATTTTCCCTTCTCTTTAGGTTAGAGCTTGCAATGCCAGGCGGCACTTTCTTAAATCATAATTTTCAGTTATATAACGTGCTTATCACGGTACATGCTATTATTATGGTATTCTTTATGATTATGCCTGCATTATTTAGTGGATTTGGTAACTATTTTGTACCTCTATTAATAGGAGCGCCTGATATGGCTTTTCCACGCCTTAACAATATAAGTTTTTGGCTATTAATTCCTGCTTTTCTTTTACTTATTAGTTCAACTTTTATTGACGGCGGGCCTGGAACTGGATGGACACTCTACCCTCCTTTAAGTAATTTGAACGGTCATACTGGAGCAGCAGTCGATGTAGCTATTTTTAGCTTACATTTAACCGGTCTCTCATCAATACTCGGATCAATTAATTTAATCGTTACTATATTTAATATGCGAGCTCCAGGGATGGGGCTTTTCAAAATGCCATTATTCGTTTGGTCGATATTAGTAACCGCATTTCTGATAATCTTAGCTATGCCTGTGCTTAGCGGAGCTATCACTATGCTACTGACCGATCGTAACTTTGGCACCACTTTTTTTAAACCTGATGGTGGCGGCGATCCTTTATTATTTCAACATCTTTTTTGGTTTTTTGGTCATCCTGAAGTATACATTGTAATACTCCCAGGCTTTGGCATAGTAAGTCAGGTTATTTCAACTTTTTCACGTAAACCTATATTTGGTTATCAAGGTATGGTTGGAGCTATGGTCATAATCGGTTTCGTTGGATTTATTGTATGGGCTCATCATATGTTTACTGTTGGACTTTCTTATAATGCACTGATATATTTCACTGCTGGAACAATGATTATAGCAGTACCAACAGGCATTAAAATATTTAGCTGGATAGCAACTATGTGGGGTGGTTCTATTACATTTCCAACTCCTATGTTATTTGCAATTGGATTTATTATATTATTCACAATTGGCGGCGTAACAGGTATAATATTATCAAATTCTGCGCTTGATAGAGTCCTGCACGATACATATTATGTTGTCGCACATTTTCATTATACGATGTCTCTCGGCGCTTTATTTACGGCATTTGCAGGCTTTTATTATTGGTTTGGAAAAATATCTGGAAAACAATATCCAGAAATTCTAGGCAAAATTCATTTTTGGATTACATTTATTGGTGTTAATTTAACTTTTTTTCCGCAACATTTTTTAGGTCTTGCGGGAATGCCAAGAAGAATACCTGACTATCCTGAGGCTTTTGCAGGTTGGAATATGGTTTCATCAATAGGCGCAGGTATTTCTATATTCGCTGCTTTTTATTTTGTATTTATCGTTTTCTACACGCTAAAATACGGCAAAAATTGTACAGCAAATCCTTGGGGTGATGGAGCTGATACACTCGAGTGGAAACTTAATTCACCACCACCATTCCATACTTTTGAAACACCACCACATATTGTGGAGTAATTTATGAGCAATATATTACTGGTTTTTTAATACACAGCTCATGCTATTAATGTTTTTCTTAACGATAGTAATAAGTTTTTAAGTTAAATTTAACAGACGCTCTTAATATTTAATATAATGTGATCTTTAATTTAGAATACTATATTATTCTTTATTATAAGCCCTCAAATATAAGATACTCTAGAAAAAACTGGACTAGAATAGTACAAGAGTAAATTTTTAAAAACATCTTTTAGATTTATTAATAAATCTCATCATAATACTCCTATATTGTTACATTATTTAATAAATATAAAAAGCTCTTCATGATATATTTCTAATATATAAATAATAAATCGATAACACAATGAAAGAGAAACCGATAATAGGTGTAACACCTGATTTAGCTAAAAATTGTCAAAAATATACTTATGCTGATTTCCCATGGTACGCTTTGCGACGCAACTATACCGATGCCATTATTGCAGCTGGTGGTATACCGATATTATTACCTTATCAAAGTGATACAATAAATCAACTAATGGAACTTATTGATGGTATTGTAATTCCAGGTGGTGATGAAGATATACATCCTAAATTTTATGAGCAAAAATATGCTGAAGATTTAGTAATTTCTAATGAAGAACGTGATCATTTTGAGATATTAGTTTTAAAAAAAGCATTGGAGAAAGATATTCCGATTTTAGGAATATGCCGCGGTATGCAGTTATTAAATGTTATGTTTAATGGCACACTTATTAAACATATTCCTGATTATATTAGACATTTTTCTAAACTAACATATAGCAAGAAATTTGAATGCAATACTGAAGCATTTGCAACCACAGTCTACACATTACCCATAAAATTAGAATTCGAGAATGCACCTATTAAAACTATAATTAACCATACACAACCTAAACCTAAAAACATAGTTTCACATACAATTAATATAGAAGTCAGTACTAAACTTTCTAAAATAGCTAATAACTGTTTACAAACTATGGTTAATTCAACTCATCATCAGGCTGTTAACAAACTTGGTAATGATCTTATTATATCTGCAAAAGCAGAAGATGGTATAGTTGAAGCAATTGAAGCTACAAAACATAAATTTGTTATCGGCGTGCAATGGCATCCTGAATATCTTAATGATAATGGAATAGATTTACAATTATTTAAAGCACTAGTAAAAGCTAGTAAGTATATCTAAAAATAAAATAACAGTATATAGTATTCAGATATGACAGTAGAACCTTTACCATTACTATAGGATACTTATAATAAAGTACAGGTCACATTGTTCTTATTAAGCAATTAAATATTTAACATGATTATCTTACATACAAATTACTATAAAAAGTTGCTAATAATACGATACTTTTATTTTATTACTTGTATATTATCACAATAATCTATACAATTTAAATTGTATCAACTCCCCTACCTTATATATTGGTGAAAGACCTTAATAAGTAACTAATAATCAAATATTATTGAGTGTACTATATTATCAATAATACTTGCCATACAATATTATAATAAAAATATTATTTATGACTGCTCGTTATTCTTTTTTGCAAAACTTTGCTGAGTATATTATTGATCAATTAAAGAAAGGTATAGAAGTTCAAATAATATTACCTAATAATTTCTTATGTCTAAAATTAAAAAAGATTTTAACCGATAAATATAAAATAAAATTACCTATCATTATCCCTTTTAATTTTATCTTTTCAAAGAAAAATGAATCGGATTATATATCTAAAATAGAAGAATTATTTATTTTATCATCTATTATCACGGAATATAAAGCATTACCTTTTAATCTCGAAGAATCATTAAAAGCTGCAGAAATCTTAAGAAAATTATTTAATGACCTTATAATCAATAATATTGATATCAAATTAATTGAAGTCTATAACAATTCTAATTATTGGCAAAAGATTTATAAATTTCTAGAGTATTGCTTTTTAACATGGAAAAAAACAATAGCGCTTACTCAAAAATACACTAAAACAATACATAAATTTAATCTATTACAAGAAGAGATAATAAAAATAAAGAAAAGAGAGAATCGAATAATACTCGCTGGAATATTCAAACCTAATATTTATTTTAAAAGATTTAAAGAAGAATTAAAGGATTATATAATGCATTATAATCCATCATACAACCATATGAGTAATAATATATCTTATTCTGAACCTAATAATATTTATCAAGAAGCAAAACAAATAGCTTATATATGTGAACTTAATAAAGATAAACATATTGCAATTGTTACAAACGATAATAAACTTAAAAAAGTATATTGTAATTTTTTAGATCAAAAATACTCAGATCTACTAGGTAATGATTTAAGACTTACTAATATAGGCGCATTACTAAATGCAATTATTAAAATAATATGTAATGATTTTGATTTGAAACTTCTATTTTTATTACTTAAAAATCCTTTAATTAACTGCCATGCTGTGCAAAAGTTAGAGTTAATGCTATCTAATAAAAACCGTTTTATATCATCGCCTAAATATTTATTGCAATTACAATTTGATGATGAAGAAATAAGAGAATATTGCGTTAACTTAATAGATATTTTATTTACAAATAATCCGCATAATATAACAGATATTTTAATCTTAACTCAACAGATAGCTGAAAAACTTTTACCTAATATTTGGGAACAAGAAGGAGGGACAGTACTAATTGAGTTTTTAACAAATTTAATCTCATATAGCAAACATATAAATTTAACGAATAAAAAAGATTTTCCTAAAATTTTTTCTTTTTTATTATCTAATATTAAACATTACAAAAATATCGACTCTTCTAGAATTATTATAGGACAACCTGAAGATTTAGCATTATGTAGATTCGACTTAATTATACTACCGCATTTTAATAATGAACACTGGTCCTCTAATGCTAAACCACATCCATTGCTTAGCAAAAAAGCGTTGCAAATACTAAATATAGATTACGATGATGCAATAACTACCACTCTATATTCAGATTACTTCAATTTATTACTACAAAATAAACAAATAGTTATACTAAACGCTAAAAAATATAATGGCAAGTTATCTGCAGCATGTAATTTATTTTTGAGACTACAACTTAAATATGTCATACCATGCTTTGAATGCGATATCAAAAAAAAATTATTCACTCCTGCTATAAATTCACTAGATGAACATACAAAGCCACAAGATGATCATAAACTCACAACCATTAGTAACACATTTCCAAGCGTTCTATCAGTAACTGATATAGAAACATTAATAAGAAACCCATACGGTTTTTATGCTAAGAAAATACTTGGATTACATAAAAAAGATAACATATGGGAAGAACCTAAAATATCAGATTTTGGTAATTTTATTCATAAAGTTTTAGAAAAATATTCTAAAAATTACGATAAACAATATGTTTATTTAAATTTACATGATAAGCAAGCTGCTTTAATAAATATCGGGAATAATATTTTATACAGCACTATCTTACCAGCATATACAAAAAAAACTTGGCAAATAAAACTTACAGCTTTCAGTAAAACGTTTATTCTATTTGATATAGAACGCCGGAAAAACTGTAAAAAAATCTATTTTGAAATTAAAGGTGAATTACGGCTAAATATTGCAGGTCAAGATATAAAAATAATTGGTATCGCAGATAGAATTGAAGTTAGTAAATCAAACTATATAACTATACTAGATTATAAAACTGGCACTATTCCAACAAAGAAAGAAATAGAGTTTGGGCTTTCTCCTCAGCTTATTATTGAAGGTTTAATGTTAATAGAAAACGGATTCAATATAGAGTCATTCAACAATCTTGAAACAAGTCAATTTTCTAATATCCACTTTTGCAAAGGTAATTTCATATGCTCTACAGAACAAATGGTCAATCCATCTTATCTCAATCATTATAAATCTAGCTATATAAATACAAAACTCACAATTGCTTATGTAAAAATCACTAGTACGGAACCATATATACAAACAATAGAAATAGACTTAAACATTGAGACTTTACATAAACATAAAGTAGGATTAATAAGACTACTCGAATATTACGTTACCAATAAATCTTTTTCTTATGATTTTAATTTATCAAACTATAATGATTATTGGCACTTGACTCGATGTGACTACATGAGTTATTAATCATCTTCAAAAGATTATTAATATTTAGTATTGTTAATATTGTTCTAGATAATAACATACTGGTATTTTATTTTCATTTACAATGAATTTTATAATTCCATAATTAACTTAAATTCTTTATGCTTCGACATAATAATCTTACTATTCGTATTATAAATAATTGGATCATTAATGCGTTCATGACCAAACCTATTTGTTTTAAATACTGGTATATTCAAACTATATGCAAAATTACGAAGCACTAACATTGTCGCATCAAGATCTTTACCAAATGAACCAAATATTATAGCCTTAACACCCTCAAGTAACATTGATTGCTTTAAGTGTAAAAGCTCACGATCTAATCTAAAAGGTGCTACATTTGTATCTTCTAAAAAAAGAATTTTGCCTTTAGTCTTGATTTGCCAACGTGTACCTATACTAGTCTGCACCATAGTTAAGTTACCTCCTGTTAAGTTGCCTTTAACAAGATCACTTGATTTTGCTATATCATTAAGAGGTATTAAATTATCTATAGTTACTTGCTTTACTTTACCTTTTAATATTTCACCAAGCTTGGTGAAATTCCCTTGATCTTTTTCTGTTTTTAAGAGATCTGCTATATTACTACCGTGAATTGTTCTCCATCCCCATTCTTGTGATAGAAAAAGATGTAATGCTGTTATATCGCTATATCCTATAAAAAATTTTTCTTTATTTGGTTTTGAAAGCTTGAGTAAATCGGGGATTATTCGAGCAGAACCATAACCACCTCGTAAACTCCATACTACATTATCTGACTTATCAAATAATGCATCCCTCAAACAATTAAATCTCACTTCGTCACTACTTGCAAGAAATGGTAATTTACCTTTAGTAAAACACTTAGCAGGAATTTGTAAATTTAATCCATTAATATTTTTTAAATCTGATAAAGTCTTACTATCAGCCCCTGTTGCAGTAGCAACAACTGTAATCGGTATATTTATTAGATTATTACTAACGGAAAATACTGATGTTGAAAAAAATAATATGATTAGTAAAGATAAGTTTTTCAGAACCATGATAATTATATATTCCCTATACTATATTGTAACTGATCTACAATATGATAAATGGAAGAACTTGATGCCTACATCTAAAGGAATAACATTGAAAACAAAAATAACTTTAAGATTATTAGCAATCAGAAGCACCACCAATAAGCTCTACTTGTTCAATTTGTACTTCTTCAATAGTACTTTTATTGACACTATCTTCCTGTACAGTTTTATCTATTTTATCTTCAAAAGAAGCATATGGATTTGTTATACCATTTTCTATAAAAAAATTTTGTGTAAAAATACCGTTCCATGTTGCAGGATATTTGATATTTACTGCATTATCTAAAAGAGAAGTACCAATACATCCATCAACATTAATCGTTGTTCCTTTAGCACAATTCATAAATTCTACTACCCCATCAGGGTTTAACTTTGAAAAATAATTTTTAAATGCAGCAGTTACATCACTTGTTTTAGTGCAATATTCTGCTTCTGCTAAAGCCTTTCTTACTAATTCATTTTGACTAAGGTGTATAATAGGAATATTATGTTGCTTAATATTAAAAGCAAGTATATCTTTAGTATTAGAATCCAATCTAGATGCAAAATTTTCATACTGTGTTTGGTTATTTTTAGCTTCTTGTAAAATCATTACTATTTCCTTAAATATTTCTACTATTTCTGAATGACTACTTGTAGTGCTTGTCATCCAATCCCATTTAAAATATTCAAATCTACCAGTAGCATGATTAGGCACTGCAACATGTGCAAACTCATAATCATATTTAATACCAATTTCAGTAAGAGCTTGTTTATATTTTTTTACTTGGACATCTGTAGCATTACGTTTTTTTTTAATGTACTTCTCTATTTGTTGCATAATTTTTCATTAATCTTTTCTTGAAAAATACTTACATATTATCATATACCATAATTAAATGCTAATAAAAATTAGTTTCTGACTATAGTGCAAGCATGTAAGTCACGCTTAAAGTACAAGTTACTATTCTTATTTAAAATTACCCTATAAATTTGAACATTTTCAAGTACTCTTTGAACGTAATTTCGTGTTTCTTTATAAGGAATAAGTTCTATCCAGTCAATAATTTTTCTTGTATCCTTTATATCCCTTGGATCACCAAACTTTTCTATCCATTTCATTACATTATTACTTCCGGCATTATAAGAAGCAATTGATAAAACATAAGAACCTTTATGATCATCTAATAATTTTTTGAAATGATGTGAACCAAGTTTAATATTATATGATGGATTTTTAATAAGCTGCCCTACATCACATTTCATATTGATAGATTTTGCAATATCACAAGCAGTACCTTTAATAAGTTGCATTAACCCCATGGCATTTGAACAACTAATTGCCTTATGATCAAAGACTGATTCTTGTCTAATTATTCCATAAGTTAAAGAGGATGAAATTGGCAAACCAGTTAAATTATACGGAGTGGGAAAAGCACAATCCGGAATAAAAGCATGCTTTTGAGCAGCAATTTTTGCTACATCAACCATATAATGGGTATTATTACATTCCTTAATAATATTCGCAATTATTTGAATTTCAGCTTGGTTTCTAGTATTTTTAATTGCTTCTTTAGAATAAATCATAGCTAGATGATTTTTATTATATTTAACAAACAACCTTATTGCTTTAATAATCTCTTTATTTTCAATAGTTTTTCTTACTTCAGAAGTTATTACAGGAATATTAGGTAAAACTAACTTGGTCCTATTTAATTCAATATTTGCTACCTGTCCATAAAAGGTAAAAGAATATCTGGATGCCTGCTCGTAAAATTTTCTGGCCGTTTGCTTATCACCTTTTGCTTCATAAGTACGCCCAAGCCAATAAAATCCTCGTGCTAGACTAATAGGAGTCTTAACAACTTTAATAAACTTATTAAAATGCATTAATGCTTGATCAGGTTTTTTTAAAAAGCTTAAAGAAAGCCATCCGGCTAACCACTCCTGCTCTCTTATGGTTTTGTGACAAGCAGGGAATCGCATTGTTGCCATTCTATAACTATTCGCAAAATCCTTATAATCTATGAATGCACGAGCATAATAAGACTGAAGACGACACCATTTTGCAAAATGTTTACGATTATTTTTAGCTTTCTTAAATAAAGCAATCATTTCCTTTGTTGGTTTTTGCATTTTTTTAAAATCTAGATAACGATATAATAAACCGGAAGTATAATATTTTTCAGGAACATTTTTAAAAAGCTTTTCAGCATTTGGCGCTGTAGATATAATAGCAATTTGTGCTTTAAAAGAATTACGATAACCCTGATCTACATATTTTAGTGATCGTTTGGCAGTTTTAATATCATTTAGCCATAAATGCTCTTCTATCCGCTCTAAATGATCATTCACCGTTAAATATTTACTCCACTTATTGTAATATATATTTTCTTCTTCAGGCGTAAAATTGCCATATACCCAAGCTTTCTTAATAATAGGCAACAATATTTTGTAATCTTTAACTAAACTAATTGCTGCAACTGCATAAAATTTATAACCTTTACCAGTAAGAGGCGGATGGGTACTAAACCAATCAAAAATTACTTTTTTATTCGTATGATTATTTAGATATTCTTCTGCTCTTTTTGCAATCAGCTTATTTTGAGGCCAATCTGGATTCTTTTGTAAAAACTTTATTATCTCTTGAAAACTATTATCTGAACATTTATTATCTAAAAATGCTTGCGACAATACAATTTTTGTTAAAACTTTAATATTTATTGCTAGAGCTAAATCTTTAGCTTGTGACCATTTTTTTTGATCAATATAAGTAAAAACTTGTTGTACATTATCTATAGAATCAGAATTAGCATTTATTTTTAAAGCTAATAACAAGAATATAGCAATAAATAATTTTATTTTCATAGGTTTTATGATTTGCTGCGTGGATACAGCAACATCACTGTAAAGCAATACTAGAATCGAAACTACGATCTCAGGAATTTTAGATTACTTAAAATAAAATTGCTACACTACTTGTAATCGATTACAATTAGGAATACAATGACGTTTTAGAATCTTATAGACCCGTAGAACCAAAACCGCCTCTACCACGCATAGTTTCCGTCAAGATACTAGTTTCTGCCCATAATACACGTTCATATTTTGCGATGATCATTTGAGCAATTCTCATACCTTTTTCTATAATAAAATCTTTGTTACCTAGATTAATAAGCAAAACCTTTATTTCACCTCGATAATCTGCATCAATGGTACCTGGTGAATTAGCAACCGTGATGCCGTGTTTAACTGCAAGCCCTGAACGCGGTCTTATCTGTGCTTCAAACGATTCTGGCAGCGCTATAGCAATACCTGTAGGAATTAGCTGTATACTTCCTACTTTTATCGTTATAGATTGCTCATTTGCAGCTACCAAATCCATTCCAGCACTATGCTCTGTAGCATATTCTGGCAAATTACCTAAAAAATTTTCTAATTTCTTAATTTTTACTTCTATTATTGTCATATTATTTCATATTAAATTTATCTGTAATAATTTTATTTTCTATCGTATCAATTACAGTATTAACAAGATCTTCTATTAATATCTTGCTTCTCATACCAAGTTTCTTTTTAAGCCAAGGCTGCTTAGCACACAGATATTGAAACTTAATATTATCGCCAAATTTTTCTTTTATGACACTATACATATCACCTATGCCATCAATTAAGCCATAATCAAGAGCCGTTTGGCCTGCCCAAAATTCACCATTAAATAAAATTTCATCTTGTTGCGTTAGCTTACCTGCTCTGCGGTTCTTTACATATTCTACAAAATGTTCATATACCTGCTTTTGCAAATCTTTGATAATTTTAAGATCATCTTTATTAATAGGTTTAAAAGGATCTAGAACTGCTTTATTTTTCCCTTCTGTATAAACTCTGCGTTCGATCCCGAGTTTATTAATTGCTTCATGAAACCCAAATCCACTTGATACTACTCCGATACTACCGATCACAGAACTTGGTAAAGCATATATCTGGTCTCCACTACAAGCAAGCCAATATCCTCCTGAGGCAGCCATATCTTCAATAAAACTATAAACTTTTATTTTATTTTCTTTAGCAAGGTCACGGATACGTTTTGCAATAAGTTCTGATTGTACAGGAGAACCGCCTGGAGAATTAATAATTAAACATAATGCTTTTAACTTCTTTATTTTAAAAGTTTTTTCTATTAATTCATTTAACGATTCTAACGTGAGCCCTGATTGCATAGTACTTACTTTGCCAATAACACCGCTAAGTCGTAAAACTGCAACCACTTCTTTAGAATCACCAAAAACTGAAGCAAATAATTGATCTAATTTACTTATCTGACGTTTTGTTATTATTTGATCAAATTCTGCATTAGCCATAGTTGATTTATTGACTTCATTCATTATTCTGCTCATTTTTAATTATAAAATTTTTTATTTTTGGCAAATGTTTAGCCGGTTTATTCAAAGATTGTTCATTATAACTATTTTTAGGTTCAGGATAATTTCCAGGAATAACAGATAAAATAGTATCTCTTACTTTTTCATCATACCAATTTGTAGTGCCGACAAAGCTAGTTACTATTTTACCGTTTGGGTCTATTAATATACTAGTCGGTAAACTAATAATCCCTAATGCTTTAAATAAAGCATTTCTATAATCATGATAAATAGGCAAATATCTTATGTGATATCTTTTAAAATATTCTTTAACAATTTTTATGTCTTGATAATCTTCTGAAATTGGAATTACTGAAAAAGGTAATTTCCTAAAATCTTTTTGCAACATATCAAAATCAGGCATTTCTTTGATACAAGTTGCACTCCAAGTAGCCCAAAATACTAACAATATAGTCTTTCCTTCAAACTGATCAAGAGAATATTGATTTTTTTCTTCATCAAAAAAAAATATATTATCAGGTACGCTTAAACCTTTTAAAAATTCTAATTTACCCTTTGGCTTCTCATAAAGCTTAGCTTGAATTTTAGGAAAAAAAATTATTATAGATAATAAAAATACTATAATATATATAAGATATTTATTATAATTTCTTAAGGTCATATAATAATTTATAGTAATGAAGGCATTTTATTATTTTTTCATATTAGTATTTATATTTAGTTGTGGTATAAAAAAGCCTTTAGAAGCACCGCAGCAAGAGATAGTATTGTCATCATATGGAATTGACAATGGGACACACATATTACAGAATGTATCCTTAGATACCGTGATCAATTATGCAAGTATATCAGTACCTCTTAAGGGTCGTACCTTGCAAAACTAAGTCAAAACAATAGGACGGTATATTTTTCTTCGTTTCTATCAATATCGGACTTATTTCACCACACTCATTATCACACATATTTTTATCAAATAAATCTAAGCGCGTTTCAAGAGTAGTAAGATTTGGATGCTCTATTCTTATGTTTGCATTTCTCAAATAACGAGGAGATTTATAAGGCAACATACTAATAAAATAATATTCTCCTTTATTATTAGTAGTAGCAATACCGGACCCAGTAAAACTTGAATCGCTTTTATTTGTAAATCTGCTTTTATCAACTCTAGTTTTTAAAGGTTCATAAGGATATTTACCTCCGTTTCCTGCTTGCCATAAATAAACTTTAGCATCTGTCACAGGTACACAATTTTGATCTAATATTTTCCCTCTAATTAATATCATTTCCCCATAAAATTTTGATAATGTCCCTGTTTTACGTAATAAATTATTAGTAGTCTCAAAAACTTTTGGTTCATAATTATTAAATATATTTCTAGTAATTGAACAGGAATTTAGCTTATTATGGTCAATTTTAGAAGCACCGAATACATTTAATGTATATAAATATAAAAAACAAAATATTATTTTTTTCACTTTTTATAACTATCTTTATAGAGTTCTAAATCTAAATTTAAATCAATTATTTTTATTAATCAAATTATTTTTATTCTCATTTGATTATTAATGAATTGATTGTTATAGTAAACTTTGTTATAATTCAGATATTATTCTTTATGCAAAAATTTTTATCTTTAATAATTGTAATTCTAATACTTTACAATATAGTAAAATTAAAAATATATCCAGAAGACAATAATAATTCTACAACTATAAAACAAACAACTTCAAATAATTCATCCACCAATGAACATCAAACTAGTATAAATAATGAACCAACTATTTCATTAAACGGCAATTTATTTGAACGTACAGTTTCAAAAATAGTAATCAATGCTCTTAAAACTGAAGAAGGTAAAATATTTTTTGAAAATATTTTACAACCTCTCAATGGACCTATAAATCCTAATGATTATACTATTGAAGTACATAAAGATTTAGTAAAAACATTGTTCAAAATTAATACATTTGGTAGCGGTAATATTGGTCCCGCTTCTTGTGGGCATGTAGTCACAGTATTTTATCAAATATCAGATATGAACAATAATTTAATATCTGAAGATACTAAGACTTTTACTTTAGGCTCTGCTCCTGTAATGCTTGGCTTAGATAATGTAATAATTGGTATGATGGTAGGAGAAGCGCGAGAAGCTATTATTCCAGCAAAATATACTGTTAATAATAGTAATAATATTATCTTTGATGATGCTTATAATTATAAAGTTACTGTAATTTTAAAATCTATATTACCACAAAATTTTGTTGAAAGTAATAAAGTTAAAATTTATGACGATGAGATAGCTTATCGCGTGCCTTTATTATGTGGGGAAAAAGTAAGCTTTCATGCTAAAATCACTCGTTTATCAAATGGTAAAATACTATTTGATTCTAAGTCAAAAGGACAACCACTAGATATGAAAATCGGTGATATTACATATCCTTTAATTTTTTCTTATGCTTTACAGGGTAAAGTACAGGTTGGAACACGTAGTGTTATTGCTGAAGGCAAAACTTTTAAAGCCTTAGGGTCTAATCTAAATAAAATTATTGCTCATGAATCATTACCGATACACGAATATCTTTTACTTGAACTTAATGATTTTAAACAAATTAAATAAATATGAAACAAACGAAAATCTCGGATAATACAAAACAAAAAAATTATATTTTATTATCTATCCTTGTCATTATGATAATAATTGTATATCTTATAGCATTAATAAAAATTGCAGGATAAGTTTTGTAATTATCTAAATTTGAAACTTAGATTATTCAGATATGATAATTTAATAGAAATAGACGAAGTTTAATTTCGAAAAGAAAAAACAATGATTATTATAAGGTAAACAACAGAGTATACTTAAATATGTTAGTATAGTACTACAGCTCTGATTAATAAAACGTGTAGCCAATTTTTGAATAAAGCTAGTATTCTTACTTTAAACTTTAATTAAGCTAGGAGTTTAGTATGGACATTATTAAAAAAAATAAAAAGATTATTATACTAGTATGCTTAATGTTTTTAGCAATAATGGTGTATATCTATAAAAGTAATGGTCCTGATAAAACAAACGATAATATATTAGAAGTAAAAATAACTATAAAAGATCATAAATTTGTTCCGAATATAGTTGAAGTACCAAAATCGACTAAGATAAGATTAATTATTCATAATGCAGATGATACGATAGAAGAATTTGAAAGTCATGATTTACATCGTGAAAAAATAGTTATGCCACATGAATCAATAAATATTATACTTGCACCGCTTAAGCCGGGGAAATATGAAATTTTTGGAGATTTTCATCAAGATACAGCTCAGGGTTTTATAATTGTTAATGATTAGATAAAAATATGTTTAAAATTGCTTTAGTAGTGTTTCGTGAATGTTTAGAAATATCTTTATTACTTAGTGTAATACTAGCCGTAACAAAACAAATAGAAAAATCTCGTCTTTATATTATTGCTGGAATAATGCTTGGAGTAGTTTTTGCTTCAATTTTTGCATTTTTTACACGTAAATTATCTTTATCTTTTGGAGGAATAGGTGATGAACTATTTGATTCCGGAATTATGATACTAATAACAATTCTGATTAGCTGGACAATAATATGGATGCAAGGTTATGGTATAAAAGTAAAGCAACATATAAACGACTTATCACTAAAAATTCATGAAGGTAATAGAAGTTATTTCATGTTAGTTTTTTTAGTTGCGACTACTATATTACGAGAAGGTGCAGAAATAATTATTTTAGTGTATAGTATCTCATCAGTTGAAACAATACCAAGCAGTATTTACTTGCAAGGCGTAATAATAGGTGCTACAAGTGGCTTCTTACTTGGTTTAGTAATATATTGCGGTTTAATTAAGATTGCTAATCAAAAATATATTTTTAAAATCTCTACCATATTATTAATGTTAATAGCAGGTGGATTTGCAGCAAGTGCTGCAGGTATTTTAACCTCTTCAGGCCTAGTGATGTTTTTATCCGATCAACTTTGGGATAGTTCATGGTTAGTAGCCGATAGAACTATGATAGGTAAAATACTACATATTGTTACCGGTTATATTGCAAGACCTAATGGGCTACAGGTACTTTCTTATTTTACTACTATAGTACTAATAAATATTTTTATACAAATAAAACTAAGATATTACAAAAATAACTTAATATCAGTACAAACAAATGAATCAAATTAATTTTAATATTAAAAGAGAATAATTAACTAAATATGTTAAAACTTTTATCAGAAATTGGACCAGTAATAGCATTTTTTGCAGGTTTTTTTTATGGAGGTGGTATACAAAACGCTACCCTTTATATGCTTATTACATCTATTATTTGTATTACCCTTTGTTATATTATAGATAAGAAAGTCTCTAAGCTCTCTATTATTTCTTCAACTGTTTTATTCATTTCGGGAATTATTACTTTAATTAGTGGCGATTCAATGTATATAAAAATTAAACCGACTATATTATATGTTATTTTTGGAATAATATTTCTCATGAGCGGTATAAAGAAAAATCCTTTTATCAAATATGCTTTAGAGAGCATAGTACGTCTTAAAGAAGAAAGTTGGATAATTTTAAGCTATAGAACAGCCGCTTTTTTCTTTTTCATGGCGGTAGTGAATGAAGTAGTTTGGCGTAATTTCTCAGATGAAACATGGGTAAAATTTAAAGTATTCGGTGTAATACCTATCACTTTTATATTTATTTTACTGCAATTACCTCTTTTATTAAAAAATAAATTACCGGATAGTAAGATATGATATATTAATTTCCTTGTTGATTTTAAAAATGTCTGGTGTCATACCATTACTAATCTACAGTATCAAGAAAAAGTTGATATTAAATTTTAGTATTTTAATCTAAATTTCATGTTCAAGTTAGCTAAGATTAAAGTGAAATCTATAACACAATATACAATCTTAATGCTTAAACAAAAATGATCTTAAAAATTGTAGTTGTTATGATATTACGAGTTCTAATTTTTATAATTCTTCTTTTTAGTATATCTGCTTGTTTACCTGCAATTTTTACCGCAGTTACTGCTACTGGCATTGCTGCATCGAAAGATCAACCAATGTCTGAAACATTAAATGATGCAAAGATTGCTACAGGTATTAAAGCTGATTTAGTAAAAAATAATTTTAAAGATTTAGGTGCTAAAATAAAGGTTGAAGTATCGCAAGGAAGAGTATTATTAACAGGAAACATTCAAAAAGAAACAGATGCATTAAAAGCAGTAAAAATTGCTTGGAATCAAACAGGAGTACAAGAAGTTATTAATGAGTTAAAAGTAAATAAAAACAACAATCATTTTGACCTAGTACAATATACTAAAGATAGTATGATTACTACACAAATTAAAGCTAAAAACTTAGTTAGAAAAGATATTAAATTTGCTAATTATACTATTCTAACTATAGATAATATTGTTTATTTATTTGGAATTGCAAGATCAGAAGAAGAGCTAGAAAAGCTTGCTTCTATTGCATCGAAAATAAAAGGGGTTGAAAAAGTTGTGTGTTACGCTAATATAATGAATAACTTTACAACAAATAATGATAATAATGAGGAATTATAAATTCAAATTAGAACCATTGAAGCAGTGCCAAGAAGCATTTAAAAGATATACAGTACACAGCACCGCACTATACATCATCGCATTACAGGCAAATTGGAGTAGAAGATTAATATATAAATTAAGCCTATACTTCTGTAAAATAAAAAATTGTTATACGACATTCAAATTTGAACAGAGTAATCGATTTATAATCACAAAAGCTGAGCGTATAATAAAAATTCAGCATCTTATAAGATTCAAAGATATTGTTAACAATTTTATAAGTTTAATCAATATATTACTTGTGTTAATTTTTTGTATAAATCTAAGTGGTTGTAATGCTTCAAAAAAATTATCTTATAGCAACAAATATTCTTATAAGGAATTATCGAAAGATGATCCTCATAATCTAACTTATATAGGACATTATAAAGTAGGTAAAAATTATAAAATAAAAGGTAAAATTTATAAACCTCATACCCCTAAATATTTTACCGAAACAGGTTATGCATCATGGTACGGTGGACGTAAAGATGGTTTTCATGGGAAAACAACTGCTAACGGTGATAGATTTAATAGAAATCTACTTACTGCAGCACATAAAACTCTTCCACTGCCCTGCTTAGTTAAAGTTACTAATAAAGTAAATAATAAATCAGTAATTTTAATGGTTAATGATAGAGGTCCTTTTAAGAAAAATCGTATCATAGATGTTTCTCAAAAAGCGGCCGAAATTTTAGCATTTAAAAATCAAGGTGTAACTAAAGTAAGAATAGAATATTTACCTAATGAAACTGAAAAATTTTTAAAAAAAATTAATCTTAAAAAACCAGAAAATAAAACATTTGCTAAAAACCATAAAAAATCTTTATTTACTCAAATTACAAAAAATAATCAATGTAGCATTAATTGTCATATAAAACTTGTGAATCTAAAATATAAGCTCGCAGTAAATCCTTAAAGATTGTGTGTGAATATTACATCACTATTATCGAATAGTCTCGTACATTATTACATGTCAAAACGCAATAGGATGTTACAGTGCTTATGGTTTATAAATATAATATCAACTACGTATATTCTTTCTCTTTATTATTTTTGATTTCGCTTTTGTATTAGCTTTATTATTAGAGGCAAGTTTGATTGAAGGCTTAGAAGTTATAGTTTTAACACCAAAATGGTGATCTAATAACCTCATCATTTTTTGATCACGAGATGCTGCACTTTTACCGCCAGTAATAACTGCAATCAATGATTTATTATTCCGAGAAGCAGTTGTTACTAAATTATAACCTGCAGGAGTATGAAATCCTGTTTTCATACCTTCAGCACCTTGATAATGTTTAGTAACACTATTATGTCCGTTTACTACATTCCCACGAAATACAAAATGAGTTTTAGAAAATAATGGATAATATTTGGGGTAATCTCTTTTAAGTGCAATAGCGAGTTTAGCTATATCTCTTGCGGTAGTTTGTTGAAATGGATCATGCAAACCTGAAGCATTTTTAAAAAATGTGTTTTTCATACCTAATGTTTTAGCTCTCACATTCATTAAATGAGCAAAAGCTTTTTCTGAACCTTTCATACCCTCAGCAACAGTTACTGCAACATCATTAGCAGATTTTATTATTAATCCATTAATTGCCTCTCTAACGGTTATATGGTCACCTGCTCTTAAACCAAGTTTACAATGCGGCATTTTTGAAGCTTTTGCCGATACAAGTAATTTTTTATCTAAAGATAACTTACGTGATTCAATTGCTTCAAATATTAAATATAGAGTCATTAACTTAGTTAAAGAAGCGGGATAAATTCGCACTTGTGCATTATGTGCTTGCAAAACTTTACCATTTTTTGCGTCAATTACTAAACTAGTTTGGATAGGATGTTTATTGGTATTTTTTACAATTTTTTTTGCTTCGCTTATAGGAGCAAAGCAAAATATTAAAATAAAGATATAAGGTAGTAAAAATCTTCTAAACATTAGAAATAAAATATTCTTCAAATTAAATCAAGTGTGTTCTTAATCATTGTCAAGAAGTATTTCATCATTGCGAAGAGTAAGGAAACATTACAATCTCTAAAAATAATAAAATTCTGTTACTTAATTTTGTAAGTACAAAATTTAAAGGTTTCTTTGCAAGAATTCTTTAGTAATAATGCATTATCACAATGATAAAATGTACTCATTAATCTCTTTATTAAGATACATAAATATAAACAAAGCAGACAATACTAAAATTATATTAAAGATAAAAAATAGTATCAACCCATCATTATTTACGAATTTCTTGGTAGGAATAGTGATAGTATTATCACATACTTGTACTACTAATTAAATCTATATTAAAAGATTTTTATTACACAAATTACTTAATATAATTGCATAAATAGCGGTAGCATCAAAATACTTTATATAATTAAATAAAGCTTTAAAAGCAGAAAATTTGACAACAAATGTGTTCAGCGTTAGGCAATCATTAATAAATCAAACCTTTAAATGAAGACTCTATATACCAAAGACAGAAAGTTTAACTATCATTGCTATTTCTACTTTTGTAAAACAAAACTCTAAATACTATAAAATAGTTAGGAAACCGCTCAAAAAATATATTATCACCTAATAATAAAAATATTAAAGGAATAATATATTTCGGTTCAAAATCATTGAAAGGATTAATGACTATAAAATCCATATTATTCCTCTTACTTTTGTATTTACAGTTATAAATATAGCAATGGCAAACATAGCTATCATTAAAAAAATTAATATCCAATTATTTTCCCAGGTATAAAATACCTGCACTTAATAATATAATAAGTATACTAATTCGATAATTAAATATAGTAGTTATACTAATTTATTTTACGAAACTATCAAATACAATATCGAATATACTTGATAAACAGTATAAACATTGTAGGATTTTTTACTAAAAACTAACTTTTTCAATGTCACAACATACTTTAAAGAAAGTATTGTTAAATTATTGACACCCGATGACTAAAATAGTTATAATAAAATAATCGTGCAATTGCGATAAGTATTAATAACTGCGATATCTAAACTGCATACTTTTTACTGTAATAGAAGAATATAAACAATTTACTCCGCTAACGATCACTAAAACAAAAAACAAATATTATAAATAATCTATAATCTTAAAAAAAATCCTGGTGATTAGTATTACTTTATGTCATAATGCTTTCCATATCTAAACTAGAAATTTTGTAGCATATCTTGAAAAAGGAATGCCATATCATAATCATGACTTATACACTTTATCAAGTTTTTCTTTTGTACTAAATAAGTTATTCGAATAACATTAAGTACTACAATAAAAATTGTAAAAAATAATATGTACATTTTTATAATTCAAACATTCTCCTTTAACTCGTTATTATATAACATATAATATTCATTTTTATTTTGTATTAATTGAGTATGAGTTCCCTGCTCACAAATCTCACCGTTTTTCATAACAATAATATTATCAAGATCTAGAATACTGCTTAAACGATGCGTAATAATTAAAGTGGTTTTCCCTTGGCGTAATTTTTTTAAAAATTTGAGAATTTTTTGTTCAGAAGCTTGGTCTAAGTTACTCGTTGCTTCATCCCAAATTAAAATAGGCGCATCTTTTAACAAAGCTCTTGCAATAGATAAACGCTGACGCTGACCACCTGAAAGAGTCTTGCCATGCACTCCTATTTGAGTATCATAACCATTAGGTAGATGCATAATAAACTCATGAGCATCTGCATATTGTGCTGCGCTAATTATTTCTTCCCTTGTAGCGTTTGCATGACCGTATGCTATATTCTCGGCAACGCTTGCATCAAATAAATGAGTATCTTGAGTAACTAAAGAAATCTGACGTCTAAGCGCAGTAAGCTTAATATCTTTAATATCATGATTATTAATTAGAATTCTTCCATGACTCGGATCATAAAAACGTACTAATAAATTACTCAAAGAAGTCTTGCCGCTACCGGAACGACCAACAAATGCAATTATTTTATGCGAATCTAGCTTTAAATCTATATATTTTATAGCTATTTTACTGTCAAAATTTAAAGTCAATTTCTCAAAAGTGATTTGTGGATTATATAAATCTATTTGTTTTGCATTTTCATGATCTTTAATAATAGGTTCAGTATCTAAAATACTAAATACCCGCTTAGCTGCTGCTATGCCTTCTTGTAAATTAATATTTAATGATACTAAACTTTTAAATGGTCTATAAGCTGCCGCAAAAGCAGCTAAGAAAGCAAATAATGCACCTGGTGTTGTTTTACCATCAAGCACTAGAGTACCTCCGTACCAAACCATCCCTCCTACTGCAATACCGCTTAAACCCTCCATAATTGGCGAAACCATTGCATCTAACTTAGATGTTCTTTTGTAAAACTCTAAAATATTATTCATAATCAACGATGCTCTATGACTTTCTATTTTTTCCCCTACAAAAGATTTAATAATCTTAATTGACTGAAATGTTTCATCAAGTCTAGAAGTATAATGTCCAAGTTCCTCTTGTGATTGAGCAAAGATTTTTCGTATTTTTTTACCCATTCTTTGCACAGGATAAACTGCTAAAGGGAAAACAAGAAAAACTACACAAGATAATATTGGTTCTAGGTGGAACATAGTAATTATTAAACATACTACAGTGAGAAAATGTTTAGCACATCCGACCAGTAAATTAGAAACAGCACCACGCATCAAAGAAATATCATTAGTAAAACGAGATATTAAACGTCCTGAAGATTGCTTTTGAATAAAAGCAATATCAGCAGATAACAAATGCTCATACATTTTTATCTTCAAATCGTTTAGTACCATCTGCCCAACAAATTTTATTAGATAATTCTGGTAATACTCTGAAATGCCTTTGATAAAAAAAGTTACAGTAAGTATTATAGGCATAATTACAAGCATTGTCTTATCATGCGTTAAAAAAATTTTATCAATAATAGGTCTAACAGCATGTACGATCACTGCTGTACAAAGTGCTGCAATAACCATACAAAATATTGAAAAATATATTTTATATGCATAAGGTTTAACATGATCTTTTATAAGCCTTTTTATAATATATACTACTGTGTAGTTATCATTTAAATTATTATCATTCATTCTCGTTTAAAATATTCAATTGATTCTGTGATTTATTCGGTATTGGCATTTTTAAATGCTCAAAAGCGGCAATTGTTATTACTCTACCTCTAGGAGTTCTTTTTACTAAACCTATTTTTATAAGATAAGGCTCTATAGTTTCTTCAAGTTCATCACGCTGTTCAGAAAGTGCTGCTGCTATTGTTTCAATTCCTACGGGACCACCATGATAATTATCAGCTATGAATTTTAGATAACGATAATCATTACTATCAAGTCCTATACTATCAACTGTCAAACGCTTTAACCCAAAATCACAAATTTCTTTATCTATTCTTGATTTACCATCAACTACTGCAAAATCTCTTATACGACGCAATAACCTTAAAGCAATTCTCGGTGTTCCTCTACTTCTTTTAGCTATTTCTTCAGAACCAGAATCTGTTAAATCAATGTCAAGTAGTTTACTTGCTCTATTTAGAACTTGTTTTAATTCTTCAGTATTATAAAAATTTAAACGCATTGGAATGCCGAACCTATCACGCAAAGGATTACTAATCAGCCCAAAGCGAGTAGTAGCACCGATTAAAGTAAATTTCGGTAGTGTTATTTTCACTGGCCTTGCAGCAGATCCTTCACCAATAATTATATCAAGCTCAAAATCTTCCATAGCAGAATATAATACTTCTTCAACCAAGGTATTTAGACGGTGTATTTCATCAATAAATAACACATCATTTTTTTCAAGATTTGTAAGAATAGAAGCAAGATCAGCCGCTTTAATTATAGCAGGACCAGCAGTAGATTTAAAATTACCACCGATTTCGTTTGATATAATCTTAGCAAGAGTAGTCTTACCAAGCCCAGGTGGGCCATAAAATAAAGTATGATCAAGATGCTCATTCCTAGATTTTGCAGCCTTGATAAATACTAAAAGATTTTCTTTAATTTGCTGTTGACCAACAAACTCTTTCAAATATGATGGCCTTATTGGCAATTCTTGATCATGTTCACTTTTTTCAGGTGATAATATATTAGTCATTATTTAAAATCGAATATAATAGCTAAAAAATAGTTTTATGCTATATTTTAATTTAATTAAAAACTAGAATTACGATTTTTTAATGCTGTTTTAATTAGTTCATCAATGGAGATTTTAGGATTTTGGGTAATTATGCCTTGAACAGTGTTTTGAGCTTCAAATCGAGTAAATCCTAGATTTACTAATGCTTTCATTACTTCATTAATTGCAATAGATGAAATGTTACTATCTTTAATAATAGCAGAGCTGCTAAATATTTTCGTTATTTTATCTTTCAATTCTAGCATTATACGTTCAGCAAGCTTAGCACCAACTCCAGATATTGCTTTAAATATATTTCTATCATCATTATTTATAGCGATCTGAATATCCGTAGGAGTAAGATTTGATAAGATAGACAAAGCCATTTTTGTACCAATACCATTAACAGATTGCAGCAAATTAAAAAAATTTTTCTCTTCTAGAGTTAGAAAACCGTAAAGATGAATATGTTCCTCTCTAACATGGGTTTCGATGAATAGTTTATAAAACTTACCTTCCACAAGTTTCGCTAAGGTCTTACCTGAAGCATACACAAGATAACCTACCCCGTTTACATCGATTATTACATAATCATCACAGTGTGAATCAATCTTACCATTTAATTTACCAATCATATAATTTATTTCTTGTTATTCTTACTGTTACTACATATTAAAATTAGTGTTGGTAACGCGGTAATAATTGCTGCTAAGATATAGTGAATAATAATCGGCCTATCCATCATATGACACTGTCCATCATTAGGAATAGTTTGGGCTAACACCATATAAGCAATTATTATTGTTACTACAATATATAAAACAGAAAAAAATAAATATTTTATAAAATTTTTCATGTCAAATCCTAATTTGTTACCACATAGTTTTATCCACATGGTAACAAAAATTATAGTAAATTTGATTATCACATTGAATTATTAGTATAAGCTCTAAACAATACCGTAGCAATATTTTTTATAAATTAATACAATCTGCTCTAGAAAACAATTTATATATTTAATGTACTTTAATAAATTCTATCTAGATCCAGTCTTATTTGATATAATTTTATTAAGCAAAACGCGACAATACATAACATTAATTAGCGTATTTTACTGCATGCAGCAGTACATTCAATTGATATATTTCCAATCAAACTTTGAATATATTCAAAAATATTACATTAGTAGTCATTATTGCGATAAATTACGAATATTATTACTATCCTAAAAGGATTGATGAATTCAAACTCATGATGAAATATATAAACACTTTAATTATTCCAGATATACTGAATTTATAAATTCAAACTTTAAAAAGGATATAACAACTTGCCTTAAGTATGAAATGTATAATCTATGTACATTTAATATAGCTTGCATTATTGAATTTTATAGTGCTAAATTTCAAATACATTTACCTTATTATATCGGTTATCTGTACTACGCTTAAGTTATTTCATTAAATTGCTAAAGAAACGTATATAGTTTTAATTTGATTATTTGTACAAAGTTTTATAAGATTAAGAGTAATAATCTTACATACCAGCTAAAATGCTAGGCTCATAAGAAATATATTGTATCATCACAAGATATTTTAGTTATTTGCAAAGGCGATTTAGTATTTAGGATATGTAATATTATATACTATCTATATTCTTAATATAATTAATAATATTTTCTACCTCAATATCCTCAAGTACTCCAGTTTTACGGTCTTTTAATTCAACAATATTATTTGCAGCTTTTTTAGGACCAATGATAATTTGATAAGGTGAACCGATAAGATCATGCGTTGCAAATTTACTTCCCGGACGTGCATCAGTATCATCATATAACACTTCTATATTTTGATGCGATAGCTCTTTATCAGTTTTTGCCGCAAGCTCTACACATTTATTATCATGAATATTTAAATTAATTAAAGAAACTTTGAAAGGAGCAACACTACAAGGCCATATGATACCTTTCTTATCACAATTTGCTTCTATAATAGCTGCAGCCAACCTTGAAATACCTATACCATAAGAACTCATTTCTACAGGAATTAATTTACCGTATTCATCATTAATAAGGGCATTCATATTAACAGAATATTTTGAACCAATATAAAAAATATGCCCTACCTCTATTCCTTTACTACGCGTTATTCCTTCTGGAAAGGAAGATAATTTATTTACATCATGCTTTTCTTCAGCTGCTGCGTACCAACCTTTGATTTCTTCTACATCAATATCAGGATTATCTTTTAATATCTTAAATCTTTTATCATAATAAATAGTACTTTCACCTGTTTCTGCAACAATATGAAATTCATGACTTAAATTTCCACCTATAGGGCCATTATCAGCAATAACTGGGATAGCAAAAACACCTAAATCCCTAAAAGTATTCATATAAGCTTTATACATTTTGTTATAGGTATTAACTGCATTTTTTTGATTTATATCAAAAGAATAAGCATCTTTCATTAAAAACTCTCTTCCTCTCATAACACCAAAACGTGGTCTAATCTCATCGCGAAATTTCCATTGGATATGATAAAGATTTTTTGGTAAATCCTTATATGATTTAATATTACGACGAAAAATATCTGTAATCATATCTTCGTTAGTCGGCCCAAATAATAAAGTATTATCATGCCGATCTTGAAATTTCAACATTTCTTTACCATAATGCTCAAAACGCCCAGATTCGATCCATAAATGCGCAGGCTGAATGCAAGGCATTAATACTTCCAAAGCTCCTACTTTATTCATATTTGAGCGCACTACATTTTCGATATTTTTAAGTACTTTTAAGCCGAGAGGAAGCCATGTATAAAGCCCTGCTGCTTGCTTCATAATCATTCCACTTCTAAGCATTAATTTATGAGAAATTACTTTAGCTTCACTTGGTTCCTCTTTTAAAATAGGTAAAAAATATTTTGATAATAACATAAAATTGTTTTAGTTTAATAATTTTCCTATTATTATAAGGAAAAACCATTAGTTTTGATGAAGCAATCTAATAAATTTTATTATTTCATGAGATTGCTAAATTGTGTTACTCATACTAGAGACAAATCGATTATCAAGATTCTACCTTTTAGCGATAAGATTTAGGAACTCATAACGATATTTTTGCTGCTCAGCAAATATACCTGTATAATACATAGTATTCATAACACTGTTATCGTGCATCACGCCACGCATCGACATACAACTATGTAAGGCAGAAATCTTAACAGCAACACCAAGAGGCTTTAAATTCTCCTGTACACTTTCTGCTATCTCTAAAGTCATTTTTTCTTGAATTTGTAACCTTCTAGCAAAAATATTGACTATTCGTGCTAATTTACTTACACCGATAATACAGTTATCAGGGATATAAGCTATATGTACTGTACCATTGAAAGGCAAAATATGATGTTCACAAAATGATGTAAATTTTATTCCTTCAAGTGAAATCAAATCCTGAAAATTACAAATATCATAAAATTTTGTATTTAATATTTCTTGTGCATCCTTTCCATAACCGGAAAATATTTCCGTATAGCTATTTATTACTCTATCAGGCGTTTTAAGCAAACCTTCTCTATTTGGATCTTCACCAATGAATTTGAGTAATGTCCTGACTGCTTCTTTTGCTTCTTCTCTAGTTGGTTTACTCATATTCTAGTTTCATACCTTTTAAAAAAAACATTGTTTTACCACAAATATAAACAAACATCAAGCCACCTACTATAGCAATAAGCCCTCCAATACCCATCATTCCCATTAATAGTTTAGATGACATCGGTACTATGCTATTTGGGTCTTTCCGCATAACACCATAAATACCCGAGAATGCTAACCCTAGTATGTGTAAAATTTGCCCAAATGTTAGCAAATAAATTGCAAACTTAATCCAATTTATTGACAACGTAATCAAATATTGTTTTGTTGTTTTGTGTATATCATGATCCATCAATGGTATGATAGTTTGATAACTATACCCCATACAAGCAATGCTAATCCCTACTATAGATCCATGATAATGAGCAGGTATCACTAAATTTATATCATTGATATTTATTGCAATAAGACCACCGAGTAAAAACAAAGTAATAGAACAAAGTAATATGGTTTTGATTATAGAGTGTGTTCTGTGATTTGACAATGTGATGCAATCTTTTTTTATTTTACTAGATTTAGTGCTTAATCTATAGATTAACAATACTAATTTGTCACGATATGACATTAATACCAATTCCACTACCATACCTACTAAACATAAAATAGGAGCAATCCCTCCTAGATATTTCATATGATCTGTATAAAATTCTTTAAATGCAATATCGATAATATCATAAGATATATGACCGAAAAGTATAAGAATACTGAAAACAAAATTTAAATAAAGTATAAATAGATAAAATGTTTGGAATTTTAATTCTCTCACTGTTATTGTTCTTAATAAACTAACCCAAATAAAAATTAAAATTTGAGTATATATAAATTGTAATAAATGACCTCCACTCCAAAAAAGTAATTCATAATAAAATTCTATCTCAATAGGAATAATTTGAATTATCTTTTGCAAGCTTTTATAAGACCATCCAAAACAAACGAAACTTAAAATAAACATTATAATAGTCGAGAATACAGTAACATTTACTAAATTATTTAATTTCATCCAATCGAATAAATATAAAATATTTATTGCATATAATAGCAACGTAACGCCAAATAAGCTTAACCCCAAAATAAATACGATATTTGCAAGCATTGGTATATAATTATTCGTGACCGTATTGTACCCTGCTAATGGGGAAATAGCGATCAAAAGAGTAGCGAAAAAAGCTAGTTTTGGGTAAATGTACAACACATCATTGCGATCAAACGTATAAAACGTGACAATTTCACGAAGAAGTCCAAAAGGGATAAAAATTCCACGTCGCTTAACCAATCGCAATGATGTTTCATTTCCCCAAACACTAGCCGTAATAGACAATAACCAAATCAATATAGATAAATTAACGTGAATAATTAAAGCAGATTTAAAAATACGCTGGTTTAGAAAAAAGCTTGATAATTGAGGAGTACGTAATACTACTAAAATAATTGAATATAAACCACCAAGACCTAAGGATATTATACCAAGCTTAAGCCAAGCATTAGCTAAACTATTATTGTGTGATTTATTTGTAGAATGCATGATTACAAAAAAATTAAATATAACCTATAAATAGCTCACGGTATTTAAAAATATTTTTCCTTTGATAAGGTACATAATCTATATGACTGTTAAAAAATAATTTTAATTGTTAATTTAAAAAATTTAAAGTAAAAATTTTTTATAGAATGTTATTCATTCTAGGTCGATTAATAAATAGTATATCAGTATCAATATTTTAATTTTTAATAATAGAAATTGGGTATAGGTAAAAGTATTTAGTCACGATAATAAGTTTTATGCTGTTTCTTGTAGTTTGATATTGAATTGTGATTAATAAAAGTACTATACATGAAGTTTATAATTAAAAATTAAGCCTCAAACTGTAAGTATAGCTACATTTTAACTTTGCTCCAGACTAAAAACTCATTAAAAAAATAAAAAGATTATACTCAATTAAATGGTGGGTTTGAGAAGACTTGAACTTCCGACCTCACGCTTATCAGGCGTGTGCTCTAACCATCTGAGCTACAAACCCACAATAATGGAAGCGTGGTGAGCTCGCCGGGATTCGAACCCGGGACCCTTTGATTAAAAGTCAAATGCTCTACCAACTGAGCTACGAGCTCTTAAATATGTAGCAATATGAAGATCAATTTTAAAAAGAGCAAAGAGTTTATCAATTGAGGAATGCAGCTTAACACAAAAAACTACAAACTTTATTAAGACAACGTAGCCATTCTTTAAACAGATCGAATATTGAATATATTCAAAAATATGTTTTACTTTATCGCCGAAAAAGGCTAATCTGTCAACAATTATTTTTTAATTTTAAATATAGGCAGTTTATGAAGAATCAAGACGTTGCTATAATCATTCCATCAAGACTAAATTCAACTAGGCTTATACAAAAACCTCTGCAACTTATAGGTTCTATAACTTTAATCGAACGTGTATTCCAACAAGTAAATAAGGCCAACATTCATCATACATATGTTGCAACTGACTCAGAAGAGATAGCAAACGTTATAAAAAAAATAAGTGGAAAGGTAATTTTCACTGATAGTAATATCCCTACTGGTACTGATCGTGCTTATGAAGCTTTCAAATTAATTCCAAATAATCATAATATTCATTATATAATTAATGTACAGGGCGATATACCTTTCATTGAACATAGATCTATTTTAAAAATTATAGAATATTTAAAAAACAGCGAGTATGATATTGTGACACCGGTAGTAAAAGTAGATAGAGAGTCAATAGAAGATAGTAGTAATGTTACAGTAGCTGTTGACTATACAGGGAAAGCATTGTATTTTTCGCGTAGTCCTATTCCACACGGTGCAGAAGAATTTTTATATCATCTTGGCATATATGGGTTTCGCAAAAATGCTTTAGAAAAATTTGTATCCCTTAAACAAACTTTTTTAGAAAAAACAGAACGTTTAGAACAATTACGTATTCTAGAAAACGGCATGACTATCGGTACATGTCTAGTTGAAAATGTGCCTATTTCTGTAGATACGGAAGAAGATTTAAAAAAAGCAATAAAATTTTGTAAAAAAATTAATAAACTAGGTTTATAATCAATAATGGTACGTTTCATTTTTGTTACTGGCGGTGTTGTTTCATCACTCGGTAAAGGTATAACTGCTGCATCTCTTGCTATGTTATTACAAGCTAAAGGTTTTAGAGTCAGTGTACGAAAACTAGACCCATATCTCAATGTTGACCCTGGCACTATGAATCCTCACGAACACGGAGAAGTATATGTAACGGATGATGGAGCAGAAACTGATCTAGATCTTGGACATTATGAACGTTTTACAGGAGTGACCGCATGCAAATGTGATAACATCACAACGGGAGCTATATACTCAAAATTACTTAAAGATGAACGTTTAGGAAATTACACAGGCATTACAGTTCAAGTTATACCACATGTTACAAACATAATAAAAGATTTTATAATGTCAAATACCAATGGTTTTGATTTTATTATTTGTGAAATAGGTGGTACAGTAGGTGATATTGAAGGTTTACCATTTTTTGAGGCTATACGGCAAATAGGTAATAAATTAAAAAATGCAAATTGTTTATTTATTCATTTAACGTTATTACCTTATGTAAAAACCGCACGTGAATTAAAAACAAAACCTACACAACACTCAGTTAAAGAATTACGGGCTATAGGTATTTCACCTAATATATTAGTGTGTCGCGCAGAGCGTAACATTTCAAAAAGTGCAATAGATAAAATAGCGTTATTTTGTAATATAAAGCCTGAATATGTGATTCCAGCAATAGATCAAAAAAATATATATTTAGTACCAATTGCATATCACAATTCAGGTCTTGAAAATAAAGTATTAAATTTTTTTAATATTAATGTCGTGCCTTCTAAATTAGATAAATGGTATGATATAATTGATAAGATAAAAGATTCTAATTCTAAAGTTAAAATCGCTATAATAACTAAATATCATAAAACACAGGATGCTTATAAATCAGTAATCGAGGCACTTAATCATGCAGGTATTTATTACAAATATAAAATTGATGTATTATGGATAAATGCTGAAAATCTTACTGAAGAGAATATTAATAAAAAATTATTAGATATAAACGGAATTTTAGTTCCAGGAGGGTTTGGAGTACGAGCCACTCAAGGGAAAATGATAGCAATAAAATATGCACGTACTAATAACATACCTTTTTTTGGAATATGTTTCGGTATGCAACTTGCAACGATCGAAATAGCTCAAAATTTAATCGGTATTCAAGATGCAGTAACAGAAGAATTTAAAATCAAAGGTACAAAAATTATTGAAAAAATAAATAAAAACTGTGAAGATGCAACAATAAAAATTAAAAATGCACATATTTCCAAATGTACTTATAGTGAAGCATTTGAATGCGACGCTTCCACTGTATATACAAATATACATGAGGATTCAAATAACTTGTCTACAGACAAATTGCAGATAGAAACAAATTTTAGAAATATGTCTGATATAGAAAAAACTATGAGACTCGGGGCTTATCCTTGTAACTTGGTCGCAAATACTATCGCAGCTAACGCGTATAAAAGCCTCGAAATAAATGAGAGACATCGTCATAGATATAAATTTAATAATGAATTTCAAAATATTTTTGAACAACATGGGGTAGTATTTAGTGGTTTTTCTCAAAATAAACAAATTGTAGAAATAATTGAACTACCAGAACTGCGTTGGTTCGTAGGAGTACAATTTCATCCAGAATTTAAATCTAAACCATTTGAAGCGCATCCATTATTTATTCAGTTTATTAAAGCAACAATTGAGTATAATAAAAGTAATGAACAACAATAATATGAAACTCTTTTAAAAAATCTTGACACTGTTTTTAAAAATATTATTTTTAATACTTAAAGCCTTATATGTAGTCATTCCTACGAAAGTAAAAACCTAATAAAAAGCTCTGGATAATATTGAATTAGTATAAAAGTGCAATTCATTTTACTTTCTCTAAATTTCCATTGAGTGACATCTAATGCTTTTTAACAACTACTTGGTACTAAAAATAAGCTCATAGTAAATTAATGAATATAGTAGATTCTAACTGTACAATTTGGCATAAAGCAAGAAATAGTAAATTTAGGCATATAGTATGGCCAATTAGATCGTATGAATTAACAAAATTCATCCCGATGACTTTATTAATGTTTTTTATTTTACTTAATCAAAATTTAGTGCGTAGTATTAAAGATAGTTTTGTTGTTACATTAATTAGTTCAGAAGTATTAAGTTTTATAAAACTTTGGGGTGAAATGCCGATGGGGGTTTTATTTGTTATTCTTTATTCTAAACTCTGTAATATTATGACCACAGAGCAAGTTTTTAGGATAATTACCAGTACCTTTTTATTTTTCTTTGCAATTTTTGGTTTTATTTTATTCCCATACAAAGAGTTTTTTCATCCTAACCCTGAATTAATTAATCAATATATCATTGTTCTGCCTCACTTAAAGTGGTTTTTAATAATTTGGGGACAATGGAGTTTAGTATTATTTTATATAATGGGTGAGTTATGGCCTGTTATAGTTTTTACTCTTTTATATTGGCAGCTTGCAAATAAAATCACCAAAGTCGAAGAAGCACCAAGATTTTACTCATTTTTTACTTTATTTGGACAAACTAATTTGCTCTTCTCAGGCACTGTAATTATTTATTTTGCTAAGAGCGAACATTTTTTATTACCTTTATTTGCTCATTTAAATGACACAAATGAAATTCTTTTAAAATCATTCATCACAGTTATTTTAATATCAGGATTAATTTGTTTAGCTCTCCATAAGCTAATTGATAAATCAGTTGTAGAAGCTGATAAAAATATAAAATTTAAAAACCAAAGAACAGATATATTAAAATTAAGCTTGCTCGAAAGTGCAAAAATAATCTTAACGTCTAGATATCTTGGTTTTATTTGTCTTCTCGTAATGTCTTATTCTATGAGTATTAACCTAATAGAAGGATTGTGGATGTCAAAAGTAAAACAACTCTATCCTGCTACAAAGGATTTTATATCATATCACGGTGAAGTATTGTTTTGGACTGGAGTGTTAACTTTAGTTAGTGCATTTTTAGGCAGTAGTTTAATTAGAATTTATGGCTGGTTTTGGGGGGCTATTATAACACCGATTATGATGTTTGTAGCAGGGGTTATGTTTTTTTCATTCACAATTTTTGAACAACACTTAGGAAATATAGTAAATACTCTTGGCTATAGTTCTCCACTTGTCATTATAGTTTTTATTGGTGGACTTTGGCATGTATTTGCTAAATCTGTAAAGTATTCCCTTTTCGATGCTACTAAAGAAATGGTGTATATTCCACTAGAGAATGAAATTAAGACTAAAGGTAAAGCAGCAGTTGATGTTATGGGTGCTAAAATTGGTAAGTCAATAGGTGCTATTATTCAATTCATATCCTTTAGTATCTTTCCAAATGCTGTACATAACGACATAGCAGGCTTATTGATGGTTACTTTTATTATCGTATGTATATTATGGCTATATGGAGTGAAAGTTTTATCACAAAATTATAATAAAATGATAAAACGTTAATAATTTTATATATTAATATTGTTGATTATAGAGATTACTACAAAATTTATTATTTTTTATTACATAATACTGTTTATCAAACATTGCTAGAAAATTACATAGCAATTTACTAATCAATTAAGTAAAAAATTCTGATTTTCAGATTTTATTCTAGATTACATTCTACGTCACCTATGACTTTTCGCTAATGATGATTTTTTAACAATAAGGTCTGTTTCGTCAAATCAAATTTACGTACAATAGCTTATATATGAGCTTTTGCTCAAGCAAATCAAAAGCCTCATCAAAACAATTATATAATAATATCTTATCTTGTGCTATTTCATAATAATCTTTGATTTAACTTCTGTGTTAACAAGTAATAGCAAAAACTATCACTAAATCAGAATGAGAATTACTTATATTAATAGTACAAGAATAATTTTACTGTAATCTCTAATTTTATATATTCGAATCAATATTTTGGTTAAGTAACACTTTAAGATCGGATCAGTCAGCTATATAATGTATCAAACTCTTGAGAGTAAAATCACAGCTCACATCTTTACAAGTTCTCACTATTCAGTCTATCTTTTAATAAAAAAATCACAGAATATATCTGAAATGGTTTTATATTATTGATGATTACTTCATTTTTATATACAAATTAAATATTCATGAATTTAAAAAGTGTATTTTTATATTTATCGTGGTACTTCTGAATAGGCCTAGTTATATTAATCTCTTTGAATAAAGTCAAAGTGATTTATGTATTTACAATTTAAAAATTCTTTTTTCTTAAAGCCATTTGTAATATAGTATTATGCGTATTAAATAATATATTATAGAGGGCATAATGAAAAAAAATCCAAAAATCTCATTAATAGGTAGTGGTAACATAGGTGGTACACTCGCTCACTTAATTAGTCTTAAAAAACTCGGTGATATTGTATTATTTGACGTATCTGAAGGTCTACCGCAAGGAAAGGCATTAGACCTCATGCAAGCCGCTACAATAGAAGGGTCTGATATTAAAATAAAAGGTACAAACGATTATAGAGATATTGAAGGCTCTGACGCAGTAATTATTACTGCAGGTTTACCAAGAAAACCAGGCATGAGTAGAGATGATTTAATTAGCGTTAATACAAAAATTATGAAAGACGTAGCACAAAATATAAAAAAATATGCTCAGAATGCTTTTGTAATAGTGATTACTAATCCACTAGATATTATGGTATATGTCATGCTTAAAGAAAGCGGATTACCTCATAATAAAGTAATTGGTATGGCAGGGGTACTCGACTCCTCAAGATTTAATCTGTTTCTTGCTAAAGAGTTTAAAGTATCAGTTAAAAATGTTAATAGTATAGTTCTCGGTGGTCACGGTGACACTATGGTACCACTCTTACGATATTCTACAATATCAGGAGTGCCGATACCTGACTTAATAAAAATGGGCTTATCAAGTAATAAAAATATTGAAAAAATAATTGATCGTACAAAAAATGGAGGCGGAGAGATTGTTAAATTGCTTAAAACAGGTTCTGCTTATTATGCTCCTGCAGCATCAGCAATTGCAATGCTTGAATCATATTTAAAAGATAAACGTCAGATTCTAACTTGTGCCGCTTATTTACAAGGTGAATATGACATACATGATTTATATATCGGAGTCCCGATTATTATAGGTAAAGAAGGTGTGATAAAAGTAATAGAACTACAGTTAACAGAAGAGGAAAAAATACTATTTTATAAATCAGTCACAGAAGTAAAAAAACTCATTGATACAATACAATAAATTATATTCTTAAAGAGCTTAGATATAATAAAAGTAGTACTTACTTCTCAATAGGATTAAATCAGCTATTACATGTGTTTAACAAATAAGTAGTACTTATCCTAAAAGGATAAATAAAATTAAGAGAAGCAGAGTAAGAACAATTAAAATCAGACTATAATGAAGAATTTAATAAGATATAAAAAAGCAATTTGAAATTTATAATATTAGTGCTCATCAATAATCTAGATTATTGGAAAATATTTCTTACACGGCGTAAATTAGAGTAATTTGAAACATTAAGAGATATATTATATAGAAGAACATAAAAAAATTTAGATGAAATAAAAAATTTATATTATTTGATTAATTCATTAAATAAAAATATTATTCTAGGAATAATAAAAAAGAAGAATAAAGTTTAACAATCTTCCAATCAAAAAGCATAAGAAATTATAAAAAGTAAATTTTTATACTTTTATAATGCAAAGAATTTACTAACTTTGGGAAGTTTTTAATAAAAGAGAAAAAAGTAGAAAGAGGTGATCAACGCTTCTAAAAGAATACTAAGAAAAAGTATATTAATAAATAAAAATTATTGCTGTAATACAATGATATGCAACTATTAGATGTTAATAATAAGATTGATATATTGAAAATTAGTTAATAAATTTCAAAATTGATCAAACTTAGAATTATACTGATAAACAGACATAGGTGCAGTATACTACCTAAAAATACAAAACTTGTTTAATGATGATTTCACAAAATCAAATTGCATCAATAACTAATCAAATACATGGAGCGATACTAATTTCAATTACTTTTTCCTGGAATACTCATAACTATAATATGGTTATACAATAAATTTTTTGAAGAAATTTAAAAAAAAGTAAGGGTAAATTTCTGCGAGATGATAAATAAAACCTCTACAATACCATATATATTGAAGTAATATTAATAAAAATTAAGGAAGGAGAGAAAGCTCATGGTATTGACTGCGCAATAAGATGAAATAATCTATGAAATTATTAGATCAATTTTCAAAAAAGTCCTAATACAGAAAAATAAATACTAAAGCAATACAAGAATCTTGCATAGAAATGAATACCACATTTAAGAAGATAATATTTAAATGCCAATATAAAAAATTCAAAAGAATATATCTAATTCAAAATCTTTTATTTCAGGCAATAAATTTACGCAACATACTCAATAATTAATTCAAGATAAACCTAAAATCTATAGCGATAGGATCGGTATAAAAGCTAGAATAATCAAATTGAAAAATTCTAGAAACTAATTTAATATAGCAATCCTAAGAAAAATTGTAAGTCGAAAATTGAGATATAGAAATTAAAGCGAAGAGGACAAAAAATTTAATAAACAAATTTGAACATAAGCAGCGCAAAGCTCAAATCTTAAAGCAACCATGACATAAAACACTACATGTCATTGTTTATTTTGTCAAACATCTAAATTCTGTATCAATATCGTAGTGATTTTGAGTATGTAATATGCATTGATAATGCATGAATTGCTTTATCTGTACAATAAAGTTTATGATTAGGATAATATCTTATGTAAAACCAACACTGTACTAATTAATATTATAAGCAAAAATATAAAAAAGCTTAAGGTGAGAGATAGTGACTTAAAATTTTGCCATAACAACATACTAAAGAAAGGAGTAGTTGATGATAGAATAATACCTCCGCAAGAATGAGATAGACTATAAAGTCGCATTTTAACATGAGGCTTAAATAAAGATTGTACAATAATCTGTAGCGGTACTGAATAAAATGCTGCAAATCCTATTAATATAATAGGACAGAACATGTTAAATATTTTTTGATATAATATTATTTGCATTCCTAAAGCAACAATAATACTCGCAAATAAAGAGAATATAATCTGTTTTAAAGGATTTATTTTATCGGCAAGCAGACCTGAAAAAACAGCCGATATCCCATAGGTAGTAGTTAAAGCTATATTCATAAACTTTATTTCAGGATGATTTATAAAAGCTATTTTTGTTAAAAAAACTCCTAAGAAAATTATCAAAAAATGATATACTCCTCCAATAGCACCATTAATTAATAATGCTATTATAAAAAATAGTTTATTATCTTTTATAATTTGTTGTATTGTACTTTTTGAGGCAAGTTTATTTTTATAACATAAAAATTCACTACTTTCTTTTAAAAAATTTCTCATCAAAATAGCACATAAACCAAATATTGTTCCAAGAAAGAAATTTAAACGCCATAAATACCAAATATTAGAATTAGTAGCATAATAATAAGCTATGGATGCAAGTAATGCCCCTATTTGGCTACAACACGAAACGATTCCTAGATTTAAATTTTTCCGATGATCTCCTGTTTTTTCAGCGACATAAACCTTTATTCCATCTACTTCGCCAGCAAGACTTGCTAAAAAAAACATTCGACATAATGTAAGGATTACTGTAGCAAAAATACCTATTATCTCAAAGGAAGGAGTAATAGCAATTAATCCAGTAGAAATACTACTTATGAACATTGATATTTTAATAGATTTAATACGCCCGTATTTATCTCCGATAAACCCAAAAATTAAAGAGCCTAAAGGTCGTACTATAACGGCTGCACTAAGAATTGCAAAAAAAACGAGTAATTGTTTATCCTGCTCTATACTAGGTAGAAAATTTTGCGCAAGTATACTAGCCGATAAACCGAATAAAGCATAATCATAATAGCGGATAATCGTTGTAAAAAATGCAACTAAAAAAGCTGAATTAGGCATATAATATTTTCTTTTTGTTATAACATCATATGATACTAACTCTTTAATCCGAGTGAAAACAAATTAATTTTATATATTGTATAGTTTCCAAAATGTTATATTTGGTATATATTCAATGATTTTAATGTTAGTTAAATATATTAAAATAAATACTTACGTAAAACGTCGTGATCAATTACATACTTTCTTCTGAAATACTGATACTTAATACAGCATTAACTTAATTAATCTAAAAAATAGATTAAAGAATTTTAGGCATTAGTAAAGTCTAAAAATAAGATCTCATTAATTGACGCTTTAATTAAAAGCAAAGATTTGAATTCGTTGTAATACAACTTAATCATTCTTAAGTTTTTTTAAAAAAATTCTCTTTACTTCTTTTACTTAGTATCTTAATCATTGTATCAAATTTATAATACTAATAATTATTAGTATTATAAGCTATGACGAATTATACTACTCTCCCTGAATTTTGCTTTTCTATTTTTCTTCTTTGTATTTCCAGCGCTTTTGCCAGTTCTTCTTTATGCTTATCTCTTTCATGAGGTATTTGTTTACTAATATCCTTCGCTGCTTTTTTTACAACATTTGGAATCGATTTAGGAACTGGTAGTTGTGGAGGCTTAATAGGAAGATCACTCTTAGATATTTGAGGTTCCACTGATATAGTACTACTAAATACAGCTACAGCATTTTTTACCGGTTGATTTATTTGATGTACAATTTCTGTAATGTATTTAATATTTTTATGTCCTTCTGCAATAGCACTAGCTTTTTCTAACTCTTTTTTAGGATTTCTAATATTATCATATTGGCTCTTTAAATCTTCCTTTAAATAATCATAAGTTGCCTTAATAGATGTTACTTTAGTTTCAAAACTTGCAGTAATTTGAGCAGCTAATTTTAATGATTGTTCTGAAGGTTGTCTTCCTTCTTCACGTAAAGGCTGAATTATTATTTTAGACTTTTCACCTAAAAACCATCTTGAAAATATACTTGGTTTATATACTTGTATTTCTGCTGCACCAGATTTCTCATCCTTAATGATTACACTTCCTTTATAACCGGTAAACTTACTAAGAAATGTTTTAGGATTTTTAAATTCTATCGTTAAATTATTATTTTGTAATTTAGGAAAGATATTTTGAATATTTCTCTTTTCTTCTAAAAATTGATTTAATTGTTTAAAAGTTTTATCATTTTGCGAACTTATATTATTTATCTGATAACCAGGACTACTATCTACAAAATTTAATTTAAAAGGTTTGGCTTCGATTTCATCATATATCTTTTTTAAAAAATTATCATTAAAATTTTTACTTTCATTAGTACCTTTTAAATTATTCTTTAATTGCTCAAAGGTCATTTTTTTTGATTTTGCAATACTCGGATTATGCAAATCGGTATTAAGCATAATTGTTTGGTAAGCTAATATATATGCAGCATCCTTACTGTTTATGTCAATGTTTAAATTTTGCTCATAATAATGAGTTCCAAAGCTTTCAACTAACCTATCGATTTTTTGAGCTTCACCTGGTAATTTAAATGATTGTAAAAACCTACGTAAACTTTCTAAATAATCTTTTTCTTTAAAATCAAATTGCTTAGTAAAACTCTCTAATACTTTTTGATTATCAACCCCATCTGTACCAAGATAATCGCCTACAAACTCTAAATTCAGATTACTTTTTTCTTCATAAAAAATTTTAGCAGTTTCTGCTATAAAATCTTGATTATTATCAGTACACCATTTTTTAATTCTTGCTATCCCACTTTTTGGCTTATCATTAAAAAGTTTAATTACTTCGTTTTTTAGTAATGAATCCATTTTATCTCCCACAAATTAATTAAATATCTAGTAATTAAAGATCTTTTATAAACTTAACACAACAAGCAAAAATCGCTATTTAAATATTTTCTAGCTTTGACTGTGTCTTGTAAGATTTTATTTTAAAAAAATAATTTTGACAAATCATTATTATAGAGACTAATTAATAAGATTTTTGCAAGAATAATTATTGATATTTTAAAAAAACTTAAACATTAGAAAATACATTTATCAATTAGAATTGATTTATAGATAACCTCTTAGACTTCTTTGATAGCTTCAACACAAGCAAAAGTAGCGATTTTTAGTATTTCATTAGCTGTCGCTGTAGTTGGTAGTATTTGGACAGGTTTTGCAAAACCGTTTATTATAGGTCCTATAAAACTATTTGATGAAAATTTTTGCAATAATTCAGTAGAAATAGCAGCTGAATTTAAACCTGGCATAATTAATACATTTGCAGATCCTGATAATCTACAAAATTGATATAATTTACGTAAATCATGATCTAAAGCGACCTTAACAGACATCTCTCCATCATATTCAAAATCTACTTTTATGCCATTTAACTTTTTTTTATCTTTACTAAAATTATCTAGTATATTTACTGCTTCACGAATACGAACTGTTTTTTCCTTAGAAGAATTACCAAATGTTGAAAAAGCAATAAGAGCGACACGAGGAGTGATACCCATATTTTTAGCAATCTCTGCAGTTTGCGTTGCTATTTGTGCGAGTTCCAAACTATTGGGATACTCTGTAATACAATTATCGGCAATAATAATATTATGATCTTTAGCAATCATAATGGAATAGCCAAGGATTCTACGATTTTGTTTTGGTGAAATTACTTTTATAATATCTTCTAAACTATCTATATAACTTTTTGTAACACCTGTTAAAAGAGCATCACCATCGCCACATGCTACCATACAAGCAGCAAAAATATTCTTATCAGTTTTAACAAGTTTAGCACAATCACGATATAAATAACCTTTTCTCTGAAGTCTTTTATATAAATAATCAGTATATTGCTCTAGCCTATCACTTAAAGCAGCATTCATTATTTGAATTCCAGCTAAGCTAATATCTTTACCTATCTTTTTTAATGTAACCTCAATTCGTTCAACACGACCAATTATAATTGGATTTCCATATTTTTCATCTCGCATCATAAGAGCAGCGGAAATTACTTCCTCTTCTTCCCCTTCAGCAAAAACAATCCGTTTAAGTGGTACATTATGAATTTTTTCAGCTAAGAAATTCATATAGTTAGCAGTAGGATTTAATCGACTACCTAATTGTTGCTTATATTTATCTATACTAAAATCTTTAACCCTAGCAACGCCACTTTCTATTGCAGCAACAGCAACCGCTGTGGCTACTACAGTAATTAAACGAGGATCAAATGGTACTGGAATAATATATTCATTACCAAAAACCATTTTACGACCTGAATAAGCTTTATACACCTCTTCCGGTACAGGTCTACGTGCTAAATCTGCAATAGCTCTTGCTGCAGCTATTTTCATTTCAGTATTAATGGTACTAGCTCTCACATCTAACGCGCCTCTAAAAATATAAGGAAATCCCATAACATTGTTAACTTGATTATTATAATCAGATCGCCCTGTTGCTATAATCGCATCATCTCGCACAAATTTTATATCTTCCGGAGTAATTTCTGGATCAGGATTAGCCATAGCAAAAATAATCGGTTTATGTGCCATTTTACTTATCATATCTTTAGTTACTGCACCTTTTACCGATAACCCTATAAAAACATCTGCATTATTTAAGCTTTCTGTTAAAGTTCTAATCTTAGTATCACTTGCATAACGCTCTTTCCATTTATTCATACCACTTGTGCGTCCCTTATAAATAACACCTTTAGTATCACATAAAATAATTTTTGATTTATCGACTCCAAGAGCAATTAATAAATCAATACAAGCAATAGCTGCCGCACCTGCACCGTTAATTACAATTTTTAAATCCTTAAGCGTACGGTTAGTAAGATATGCGGCATTTATTAACCCTGCAGCGGTAATAATCGCAGTTCCATGCTGATCGTCATGGAATACTGGTATATCCATTAAAGATTTTAATTTTTCTTCTATAAGAAAACATTCCGGAGCTTTAATATCTTCAAGATTAATACCACCAAAACTATAACCAAGATACTTTACGGCATTAATAAATTCTATAGGATCTTCAGTATTCACTTCCAAGTCAATTGCATCAATATCAGCAAATTTTTTAAATAATACAGCTTTACCTTCCATAACAGGTTTTGAAGCAGCTGCTCCTAAATTGCCAAGACCAAGCACTGCTGTACCGTTAGAGATTACTGCGACTAAATTACTACGAGATGTATATTTATATACAGCTTCTAAATTTTTAGAAATTTCAAGGCATGGAGCAGCTACACCAGGAGAATAAGCAAGCGATAAATCTTGCTGAGTCACTAAAGACTTTGTTGTAGTAATAGCAATTTTACCAGGTTTATCTTTTTCATGATATTCAAGTGCTTCAGTATAATTTATTTTATTCATTTCATCCATTTGAGCAATTCCTGTTTTGTTTTTTATTATGTTATATATGACGCTCTTGTGCTATAATCTTTGTTCTTAGGTACAGCAATCAAACCATAGTAATAACCTTTCCTACCCCATCAAATACATAATAATTGATATAGTAATTACCGAAAAAAAAGTAGTAAATGTTATAATTGATGCCATAGAATCAGGATCACCATCAAGCTGACGGGATAAAACATAAGCAGTACTAGCACATGGAAGACAACTATATAATATTCCAACCGATCTATTTATTCCCTCAATTGACATTAACCATAATACTATTACGCTAACTAAAGGAAATGCAACTAACTTAATAAAGCTTGTAAGCATTACATTATGTAAAAGCTCTTGTCTAATAGTAAAATTAAGCCCTGCTCCAACATTTAGCATACCAATAGCTAAAGCGGCATTAGAAAGACTATCTAAAGTTTTCTTAAGCCCTAAATATAATTCAAGATTTGAATAATTAAAAATGAATCCTACTAAACTTGCAATAATTAATGGATTACGTATAATTAATTTCATCATTAAAACAAAACTAGTTCTAAGAGTATTAGTAACTGATTTATTAGGGATATAATAAGCGAAAATCATTGCTGATAAAATGTTGGTAAAAATAATCATATAAGAGGAAATAACAGCAACAATAGAAAGTCCGCTAGGACCAAGTAGAGGGCTGCTCACTCCAAAAAAAATGTAACTATTATAACGAATTGATCCTTGAAAAATAGAAGTAAATTGGACTTTATCAATGTTACATTTTTTTTGATAAATTATAAGACCGAGTGATACAAGAATAGTAGAGATAATAAGAGCAACTACTAGTTTAATTATAGATGTAACACTTAGGTCAGCGGTAGATACATAATTAAAAAGCATGGCAGGGAATAGTATAAAATATGATAATTTTTCAATACCACGCCATACTTCTTCTGAAGTTAACCATTTATTTTTGATAATACTACCAAGTAGCGTAATTAAAAAAATAGGTAACGTACTACAAAAAATTTCATTCATGTGTTTGTTAATAGCTTTTATTGTGAATCCATGATTCATTCAGTATTGTTTTTTTGCTAAATATTGTTGTCAAGCTACTGTATGACATAGTAATTTTTCTTCAACTAACTTCTTTGTTTCTTCCACTCCGTAAAGCTTGATAAAAGTCCCAAGTCTTGGCCCTTCATTTTGCCCAAGTAATATTTGATATAGATCTTTAAAGTAATAACGCAGATTTTCATATCCTGATTTCATTCCAATATCATATATTGCTTTCTGAATGCTTTCCTCTTCTGTTTGATCAGATATATTAGATAACATATCTAATATATCATGTAAAATAATCTTATGCTTTTCAGAAACAACTAAATATGATTTATGTGTTTGAATAAAGTCATTATAATATCTTATAGCAAATTCTGTTAAATGGTCAAGATAAGTACTAGTATTTGGAGTCGCTTTAGGTTCATATTTAGTAATAAACCCCCAAAGTACTGATTTATCTGAAGTATTACATACAGCAGTAAGATTCAAAAGCAACGAATATGTAAGACCAAAAGTCTCAATTTTTGGAACATTTCCGTGATGTATATGATAAACGGGATTTGCAAAACGTGTTACCATATCCTCCTCCAAATGATATTTCTGATTCAAAGTAATATATTCATCAACATTTTTAGGAATTAAATCAAAAAATAAACGCTTAGCTCTAGCTGGATTTTTATACATAAATAATGCTATACTTTCAACAGAAGCATATTTAAGCCAATCATCAACACTAATACTATTACCTCTTGATTTAGAGATTTTCTCACCGTTTGCATCTAAAAAGAGCTCATAACAGAACTGCACAGGCGGCTTACCTCCTAAGATCCGACAAATCTCCGAATAAAGTCTACTATTTGCCAAATGGTCTTTACCGTACATTTCGTAATCGACTTTAAGTGCAGCCCAACGCATACCAAAATCTGGCTTCCATTGTAATTTACAGTGCCCTCCAGTTACTGGTACTTCTACATCATTACCGTCCTCGTCTTTATAAGATACTGTACCTGCCTTAGCATCCCACTTTTCTATAGGGACTTGCAACACTTTACCTGTTTTCGGGCAGATAGGCATGAAAGGTGCATAGGTAGTTTTTCGCTCATCTCTAAAAGTTGGTAACATTAGCGCCATTATCTCATCATATTTCTCTAAAACTCTTATCAACATTTCATCAAACATACCAGCTTTATAACAGTTAGTACTGCTATAAAATTCATACTTAAAACCGAATTTATCAAGGAATGCACAAAGCTTTGCATTCATATAATGCCCATAACTTTTACATTTACCGAATGGATCAGGTATAGATGTAAGAGGCATATCCATATACTGCGCTACCATTTCAGGATGTGGTATATTACTAGGAACTTTACGCAGTCCATCCATATCATCAGAAAAGCAAATTAGTTTAGTCGGAATATCAGATAATTGTTCAAATGCTTTCTGTACCATCACCATACGAGCATTTTCAGCAAAAGTTCCTATATGAGGTAAACCTGAAGGACCATACCCAGTTTCAAATAATATATAACCTTTTTCAGGAGCTTTACCATTTAAACTGTCTAATATCTTCTTAGCTTCAATAAAAGGCCAAGCATTCGACCTAATAGCATCTTCCAAAACTACTGACATTTATTTTTCTTGCACTTTAATTAATAATCAGTGACAATATACTAAATTTATTTATTTGTAAAATATCAAATTAAGCTCAGTCATTATAAGGAGCATTACGCAGTAATTCGATGAAACAATCCAGAAAAAATGCTATAATGTTTTATTTTTTTAAATTACACGAACTCCTACGACTTAATTACTTCTTATAATGACAGTGCGAGAATCCATGCGTGTGAAACATATATTCGCTCCTAATAAAAATAAAAACCTATGATACTTAACATGACCATAAATTATATTAAAAAAGACAGATATAAAGTTCTAAATTTAGTACTGATTACAATTTCTATAATAGCACTTTCTACAGCTTATATTGCTGAATATATATTCCATTATACACCATGCCCTTTATGCGTTTACGAAAGATTTCCATATTTAATGCTAATTAAAATTAGCTTAACTGCTTTAATTATCAGACAATTAAACAAATATACGCTCATATTAATACTCATAACTATCCTTAGCTCGTGCATATTATCAACCTATCATAGCTTTGTAGAAAGAGGAATAGTACAGCCAAGCGCTATTTGCTCTTCCATGATCCGTATTCCACAAGGCTTGTCTATACAACATATAAAACAGATGTTTTACTCGCAGCCAATCACCTCATGTACAAAACCAGCAATCAAAATCTTAGGTATTTCTATGACTGAGTATAATCTGCTTTTAAATATTTGTCTTCTAATCTTTTTAGGCCTAATTTTGTTTTATCCAAAATCTAATAAATAGTTTAATTTGGTTATTGTACACAGTGCACTTACTTATATTATAAGCATATGTTATATTTTGCTATTTACGTTATATCAAGCAACTAATAATAATAAAATATTAAGATTAATTAGTTGCAATTTATAGTGTTTTTGCAATAGCAATTTAGTATCTATATAGACAATACATATGCAGTGATAACATAACTACACACACTAAAAATATTAATAACTTAGCTCAATCAAATAAATACAATTTTTTAAAAGGAGATTTTAGGATGAAGAAGCAAGCAAATAATGCAAATGACCTACTTGTGACACTGTAGTATGACTTTACATACCTAGATACATAATATAGAAAGATTATACTTTCTTTCACAAGATGCATATGTTTATACCTTCTAAAGGATAAAACATATTAGATTGTCTATATACAGATAACAAGAATTCTTAATGAAAGATTATGATACACCAAATTATGTAAGTACATAATATAAAAAATGGAAAATTTTAATGAAGAAACAACTTAAAATTATAATAAATACTGAGGATGATATATATGAACCGATTTCATAAATAGTCAACACGATTCAACACAGAAGATAATAGTATAAAGAGAATACATAAATTCAGATATGATTAAAGAATTAATTTAGCAAGATTAAAATCTTTATTTTACCACATGAAATAGCTTAAATTTTTCATCTATATATTTTATATCAAGAATAAAAATGAGATACTTAGATATCTAAGTATAATTTTTGTATGCGTCATTTCTTTTATTCCTTTAATAATCATATTATAATTGTATAAACAAATACTAACAGAAGTAACTCTAATACTAATACTAATACTAACACTAAGATTAAGCAGATTGAGTAACAATCATTTATTATACTTTAAAGTATTCATAGTTAATTAAGCAAATTATAATTGATTAAAACATAAATGCAAAATGTATAAATTATACTGCGGTAGTACAGTACCTTTTCACTGGGAAAAAGTGCAAAAACCGTTCTCTATCTTAAATTATTTAGATCAAATGCAAGTTGATACATTCATTAAAATACTACACTTAATATATATACCAAATGCGAATATAAAATTTACTGTGAATTTGATACCACTAAATTAACCTTCGATATTAATCTTAGATGATAAGATCACTCTAAGTTCTTTTAGGGAAAAATTCTGTGGTTTTAGGTAGTCTAGTACTATTTTACCACTATCAAGTACTATAAGCCTTTTGCCGTAATGTACTGCTGCTTCCAAATTATGCGTAATCATAACGGCAGTTATCTTATGATTCTCTATAATCTTTGCTGTTTTTTTTATCACTTCCAAAGAAGCTTTCGGATCTAAATTTGCCGTATGCTCATCTAGAAATAATATTTTAGGTGGATGAGCTATACTAAGTGCAAGCAATATAACCTGCTTTTCTCCACCTGAGAATTTACCTAGTTGCTGCGAAAGTAAAGGTAAAAAACGTTCAGGCGAACCTGTAAGCTCTAATACATCACTACTTGTTAACCTTTCATTACTATGGTATCGACTTTCCCAAAGAATAATATTTTCCTCAAGAGTTAACTCAGTAAATAACCTATCTTCAATCTTTTGTGTTATTGTAACAAGCATAAGTGCTTTGTGTTTTTGAGATATTTTATCAATTTTGACTTGATCTAGGAATACTTGTCCGCTTGTTGGTTTTAAATAACCGGCAAGTATTTTAGCTAAAGTAGACTTACCGCTACCGTTATGACCTAATATTACTACAAATTCTTCTTTTGCAATATTTAAAGTAGTCTCTAAAATTATAGGATCACTTCTTGCGCTAACTTTGAACTGTATTTTTTCTGCATATAAATAAGGCTTCATAAATCTTCTCTTTTTACAGAACTTAGCGAAATAAATAATACTATTCCTAGTATAAGCTTAAGGTTTATAGGATCAATACCAATATATAGTAAAATACTAAGAGAAATAAAGTAAAATAATATACCTATGAAACAGGCAAATATCTCTTTTAAAGCATTAAAATTATTAATATTATTTAAAAAAATCTGCCGCCCTATAATAATCGCACCGATACCCACTAGTGCTACCCCATAACCCATATTAATATCCGCGAAACCATTTACTTGTGCAGATAAAGTACCAGTTAAAGCAGCAAGTCCATTACTTATACTTAGCCCAAGCATACGGTACAGCTCAGCAGGTTTTCCTAAATCAATCAATAAATCTTTATTAAAACCAAAAGCACGAAGAAACAAACCAAGATTACCTTTTAATAAAATTAAAACAATAACTATAATAAAACTATTGATTAGTATTAAAGGTACTAACCAATTGTCTAGATCTAATATAGATAGCAGAGTCGGCATACCAAGAACCGATATATTAGGACGCTGCATAATTTGCAAGTTAACAGAATAAAGCATAAAATTTGCAAGTATTCCTGCTATAAGTCCATTAATTCGCTTATTCCTCTGCATAAAACTCACTATACTGCCGTTAATTCCGCCTGCTATTATAGCAAATATTAATGCGTGAAATAATCCAAAGGGAATAGTACGTGCAAAGACAGCAGCTCCTAAGACATAAGTACCATCTACTGTAAGATCGGTAATTTTGAGAATACGATAACTTATATACATTCCTAAAATAAGCGGTAGCATTATTAAGGATTGTTCAAGAGCAGTAATTAAAATATTCATATAACTACTCTTAAAATTCTTTATGTTTGAAAGGCAATACAGATAAATTTTCTTGAGTAAGAATATCTTGTTTAAGAAATGATTTAAGGTTAATAAATAAAGTAAAATCTTTCATATCACTAAATGGAATATCTTTCGGTGCTATTCCTTGTAAAATCTTTTTTGCCATTAAACCTGCTTCTACGCCTATTTGCTTCTCTTGTACTCCTACAGCAATAGTTGCACCATTAATTACCGAACCTTCATCAGAGGCAATTAGAGGGATACGGCGCACAAATGCTTCTTGTTTTAAAATATTAATACCACTGACTATTAGATGATCTTTCAAAATTATAAAACTCTGTGTATTTTTAGGTGCATTTTTGACAGCAATTGGCATATCATTTAAATTTTGTATCATTGCTGTGTACAGAGAAATATTGTTATTTTTAGCATATAATTTTAACATTTCTACTTCAGGTATAACCTTCTCACTACTACTATAAATTAAAGTTATATTCTCTAAAAAAGGTAATTTACTAATAGTATCGGTTATTTTGATCTCATCGTTAACACCTGTAACTAAAGGTAAGTTTTTACCATTAATTATAGCAGCCGCACAAACAATCGGCTTATTTATTATATGAGAAATAGTAGTTTGGCTAACTGTCGTACCGATTGGAATTATTAAATCAATATCGTGATCTTTGATTTGGTTGATAATTGCGAGCAATATATTAGGATCAGCATGAGCATTTTTAACTAAAATCTCTACGTCTATATCTTTTAACGCCTCTTGAATGCCTGATACTATTTTATACATTGAATCATGCTCAAGCGGCACAATTACTGCAACCTTTTTTGGATCTGCACAAACTAGAGTTGTGATCAATAAAACAAAAAGAAAAGAAAAGAATTTTTGAAAAATATTAGAAATAAACATTATAATATCCTGTTATAAATAATTTAATAATCAAAATTGAAATTTGCATATAGCAAAGCAAACAAAGCAACGCAAAAATTATCTACGCCAATACAAATTTTTGATTAAACTATTAACCTTTAAAGATATCATAAATATTTTTAACTGAAGTAATATAAGGTAAACACAATATCTTTCTTTGACTCGAAGCTAAAGAGTCAAGAAAGAAATATCTAAGAGGCTACCTGTAAATAAATTCTACTGTATGACTTTTTAAGCAATTTAAAAAATCTTATAAAGATTACTCAAGAGTTCTTAAAATTATTTCAGATAACTTCTTATTTTAAGCAAAGCACTATTTTAAGATAATGTCAATAAATAATAATAGTTTTCCTAAAATAGGATGACTTTTTTACAATACTTTATTCGTACAATATATAATACGTTTCATTGTTATACTATTATCGATATTATTGAAGGAATCTAATGAATATAACTTAAAAACTCATTGAAAATTTTAATGTACTAATACAATTTAAAATTCTGATTTCCAAATTTTAAAAATCTTGTGATTAATTTTTGCATTGCTTCTTACAATAATGATTGTTTATAAATAAAATACTACCTATGCACAATGAATTTACAAAATGAAATAAAATTCATATCTTAAACTATACATTGTCTATTTATACCAGTATTGCTTTATCTAAGTAATTACAAAGAACATCATGATATGCTTTATAGTCCAACTTATAGGCTGCTCTTCAGCTGTTAAATAAATAGATATCATAAAATTAAAATACTCCAAGCTACTTTTGGAGTCAGTTGACACATTTATTTAGCAAATCTACTCTATAGCTATCTTAATTTAAAGTATAATATTAACAGTACTATTATGATTAATAATTCACTCTTTCTGTTTTTTCTTAAAATATCTACAAAAATACACTATATCTAATTCTTTGCTACAATCAAAAAGCTATATAAAGATTTTATTGTCTTGTCAACCTATAGTTACTTCATCAAAACCTATTAAATTGTGTTTTAAAGCTTATGTGTGTAGACCTTACTGCTATATCCTTAAGCAATCCTATTAATGTCACTAATTATTCTTCAGTCAAATTATTTTTTGCGTTATTAGTAAACATTACTAAAAATTTATTAATAGATACTGCTTATGTCTCAATCCATTAAATAAAAGGCTTGATCTGTTAAATCATAATAATATTGTTTTATCCTTATCAAGGATTTGATGTAATGAATACTTGCTCACTAGAAGACTTTACTATTTTTGCTTCCAAAAAAGTAATTATTACACAGTAGATTTTAGAGTCTTTAAGAGATATATAACCTATTGGTATTACAATAGTCTTACTTTAATAAGTGTGGATGTTAAGAATTAAAATTAATACTTTAATGATAGTAATTTTATAGACAAGATATTAAACATATATAAAATCAGAAAGATATGTCACTTTCATATTGTATACTTCTTCAGCAATATTATTTCAGAAATTACTTTCTATTGCTTAACATAGATATTCAAATTCTTATTAAAATAATATTTAAAAAGCATATTGAAAACTTTTACACAAACATTAATCTACTTTAGGAATATTATTAAAACCTTCTTCATATCTTTTTTACTTGAAAAACACTAATATCTAAATCTTATCCTAATCCGTTTTGGATAATACCTACAGTATAGTGCTTTAAACATTTACCTGAGAGTGAATCCAAATATTTTATTAAATTATTCATTTAATAATAAACTTAAATTATTTTAAATTTTTAATTAACTTTAAATGTTGAATGTTACTTTATATTTTAATCAAGTATTATTGTATTAAAATATACTAAAACCCTTTATTCATCAAAAATCAAAGATAATAAATAATGAATTAAAATTATAAAAACAATTGATAATAACATGGCAAAATTACCAAATTGCGAGAATATAGTAGGAGTGGTTAGTTTTTGAGGAATTAGACCTTGTATATAATTTATTTCATTTAGATTTAGTTTTTTTACTATCCTACCAATAGGATCTACTATGGCTGAAATACCATTATTCGCGACTCTAATCATAGGTAAACCGTTCTCTACTGCTCTACTTCTACTAATATGAAAATGCTGATATGGACCGCTTGATTTACCATACCATGCATCATTTGTAATATTAATTATTACATCTACTATTTCATTATTCGTACGTACAAAATTAGGAAAAATAGATTCATAACAAATTAATGGTTTAATTTTAAGATGATATTTTTTAATATAAACAAGACCTCCGTCTCCTTCTTTATAATCAATTAAACCGTGAGTTAATTTTTTAAATGGCAATATATTTTTAAGCGGCATATACTCACCGAAAGGTACTAAATGTGATTTATGATATTCAAATAACTTATTATTATTTTTATCAAGAGCATACATAGCAGAATATAGTTCAAACTGATCCCCGTGTTTTTTATTATCTGAGATACCTCCTGTTATTAGGATAGCATTTGTAGAATTTAGCATATTTAATAATTTTAATTTAACTTGCGGTATATCATCAGGTACTACTAATGCTGCTTCAGACCAAATAATTAAATCTGTAGGCTCTAAATTTTCTGATAAATTAATATGTAGCATTAAATTATGCCAAAATTCTTCTTGATCCCATTTTGCAGTTTGAGGAATTGAAGGCTGCACTAATCGCACTTTTATATCAGTAAAATTTGTAGGATTCGTACTTACTCTCACTGCTCCATAAATTACCATTACTGTTAATATTAACATTGAACTCGCTAGTAATATTTTTAACTGAGTAAATTTTTTAGTAAATACAGGATAAGCAGATGTAGAAATATATATAACTATAAAACTAAGCCCATATATCCCTGTTATACTTAGAGGCTGTATTAAAATCTCTGAAAACGAAAAAGCATACCCTATCAAATTCCAAGGAAGACCAGTCAAAATCCACGAACGTATCCATTCAAATAATACCCACAATAAACAGAATATCAATTGGTAATATTTATTATTTTTAGCAAAAAAACTAAGAGTACAATTTGCAGATATAAAGAACGCTAAAATTATAGGTAGTCCAAATAAAGCAAAAGGAATAGCCCACCAAAAATCTGCTATATAAACACTAACACCGATACTGATCCAATACATTCCACTTAAAAAATGCCCAAAACCAAATAAATAACCAAATTTTGCAGCTACTTGCCAGTTTTGAGATTTTTGCACTATATAACATAGGTAAGAAAATGTGAATAATGCTGGTATAAAAAAAATCGGGGCAAAAACTAAACCGCTTAATATCCCTAGCAGTAAACATATGATTTTAGTTTTATACATTTTTATCGATTATTTGTTTACAAAATAATACATCATGCTATCATTTCAGCAAGTTTAAATATAATGAGTAAATAAATGACTACAGGATTACTACAAGGAAAAAAAGGTTTAATTACAGGTATTGCAAATAATATGTCAATATCGTGGGCGATTGCACAGCTTGCTAAAAAACACGGAGCAGAATTATGGTTTACTTATCAATCAGAAGTACTCGAAAAACGTGTTAAACCACTTGCTGAGGAAATAGGTTGTAATTTTATTAGTGAACTTGATGTGACGAATCAAAAATCAATTAGTAATTTATTTAATGATATAAAAGAGAAATGGAATAGTTTTGATTTCTTACTCCATGGTATGGCTTTTGCTAATAAAAATGAATTAAAAGGACGTTATGTAGAAACAAGCTTAGAAAATTTTCATAATTCTTTACATATATCATGTTACTCGCTTTTAGAACTCTCAAGATCCGCAGAAACATTAATGCATAACGGTGGGAGCATTGTCACATTAACGTACTACGGTGCTGAAAAAGTTATACCTAATTATAACATTATGGGAGTAGCCAAAGCTGCACTTGAGGCTAGTGTAAAATATCTAGCAAACGATATGGGAGAAAATAATATTAGAGTAAATGCTATTTCGGCAGGCCCTATCAAAACTTTAGCATCTAGTGCAATAAGCGATTTTAGTACTATGCTTAAATCTCATGCTGCAACTGCACCGTTAAAACGTAATATTACTCAAGAAGATGTAGGAGGAGCAGCTGTATATTTATTTAGTGAATTATCTAAAGGTGTTACAGGAGAAATTCATTATGTAGATTGCGGTTATAATATTATAGGAAGTAGTAAATTATTGTAGTTGCCCTCCGATTTAATGCATTTAAAATGCTTATATGTATGTAATAAAATATAATATGTCAATAGGTGCGGTTTAATTAACTTGGTCTATCAAAACAATTAAAATTCTGCAAAATAAATTGCTAGATTACTTCATCAAAGTACTTTATAATTTCATGATAAACATACAAAAATTAAACCATAAAACGAAATTAACATAATCCATGATCTCGTTTTTTGAGATGTTCAGGTTTTGGAGCAATGGGGGGTTTTTTATTAGATTTTACCTGAACTTTTTGAGCCTCTGACGGTAATACCGGGTTATTTAATCTATTTAACTCTTTTGAGATTTGTTTTAATTTGTCTTGTACTTCTATCTTTAAAGGAGTATGTGAGCTTTTAATTTTATCATTGATTATTTTTGCTACTGACTTAAGATTTTCTTTAGAAATGGAATATGATTTTATACCTATATAATTAGCAACTTTTGACCACAAAGTTTGTCCTTTATCCAATCCTTGATATATTACATCTACTAATTCATTTTTTTTGAATGTTAATATATAATCAGAAGCACCTTCTAATGATTTAGATAAATACTTTGTTATTTCATCTCGCTTCTTACCTTCAAAACTGAATTTCTTATCTTGCTCAAATTTTGTTATTGCTTTTTCAATTATTGCAGTTCTCTCAATTTCTTTTCCTTCATTTACATTATTTTTTTGCATATGAAAAGGTATATTTGACCCTATTTTTGCATCTATTAATTGTTGAACATATTTACCATTAGGATCTTGTATTTCTCGCTCTATCTCAGCAGATTTTAAACCTAATTTTTTATATATATCTGATTCACGAAAAAGTGGAGCATATAATAAAAAATTAATACTTTGTGCTATTCTACTATCTACCGAATCTTTAGAATTTCTTTTAAGATAAAATTTTTCTTGTAAAACACGATAGTGATCTAATATTTCTGGTGTTATATCTTTTATATCAAGAGATTGTAACGCTCCTGTATCTGAGAATCGTGCTTGCATACCTGAACGTTTTGCTTCCAATAATAATATTTCTTGAAAGACTTTATTATTACTGGTTCGACAAACGAAATTAGGATCGTTATCTGGCATCAACTCATTTGCATTTTTCATTATTGTTTGATTGAGCTTATGTAATTGCTCTTTATCAAGCTTTGTATCTAAAATATTTATAAAAGCTTCTCTTTGTTTCTGCTTACTTGCAGTACTAAAAGCTTGTTGCATTTTTTGCAAAATACCGAAATCAAAACTTTCTTTACTTATTTCTTTTATAATTAAATTTGCTAAATTTTTTGTTTCGGTATTCACTATTTCTTTTTTATTTTTTGTAGCCATATTTAGTATTAACCTCAATTATAATATTTATTATAATATAAATAATAACAGTAGATTAAATATAATGATAGATTAAATTAATTTCTAGATATTTTTACTATGTTTATTATTAAAACTTTAAAACACATCTAGAAAATCATACTAGCACTGCGCTATTACCTAAAATTTCTATTGATACTATTTCACAATCTGGTTGACAATGATTTACTAAATCTAATATTGAAGATGATAGATTTTTAATATAAGGACCTTTTACATCATTCAATATACAATTAAATACATAATTATCTACTTCATCGCACTTATTAATATCATAGTATGGCTTAAATTTTTCTAATTCACTTACTTTTTTAAAACTCTCTGACTTAAATAATGATTTTGCTACATCATGTTCTTCAATATATTTACTAACAAGTAAAAACATAATGCTTTGCGCTAAACTCTTTTTAATGTTAAATTCTTTTAAACATTCAATAAAATTTTCAAAAAAACTTACTTCTTCAATTAATTGTTCAAAAGGAATTTGACAATTAGGAAACAATTCTTTATATAATTCTTTCTGTAATTCCTCTTTTGCAAAGTTTTTTAAATAAAAATTATTTATTAATAACTTGTAAAGTTCAAGTATCTTACTAGGAAAGTTAATTTTTAAAGTCCATTCCTCATTAATTTCTACAGAAAAGTTATTTCTTTTTGCCTCTAAGTAAAATAATTTACGTAAAATATCTTCATTATCTACACGCAGAACAAAAGTTAAGTCTTTAGAGTGAACTAAATCTGGAGCATGTTGCATTATTTTTTGATTAAGTTCATGTAGTGAATCACTACATACTAACAATTGTAAATCTTCAACAAAAATTTTTTTATTTCCTTTTTTTAATTCTTTTAAATTATTTAAATCATCTAATGTAATTTTTTTTTTGCAAAATATTATTAATTATTCTAATAATAAAGATTTTATCTTCATTATCGACATTTTGTATTACGGTAAAATTACCTGCTTTTTCTAAGTTTTTGTTACTTAACACGGTACAAATATTGAATCTACCTACACGCTTTTTCTCAAATCTAAGATATTTTTCAGTTGTACTAGATTGATCAATTGTACTAGGTTTACAAATACAAGAGAACATCTTTTCTTTTAACTTCATACAATTTACTTTATTAAATTAAAACGGCATAATTATATTTAGCTCAAAAATATTAACAAGTACTTTTATGATAAAATAAATGAATTTTTATTAAGAGGATGATGTAACAATGCTTTTTTTAAATGATTAGTGTGAAGATGAGTATATATTTGAGTTGTAGATATATCGGCATGACCAAGCAGCTCTTGAATGACTCTTAAATCTGCTCCGCCTTCAAGAAGATGACTCGCAAAACTATGGCGTAATATATGAGGGGAAACATGTTCAGGGTTAAGCCCAGTATACAGGGCAACAGATTTTAACAAAATAGCAAAGTTTTGTCTAGTCATATAACCAGCTACCGCTGATGAAGGAAATAAATAAATTAGATTTTTTGATTTAGCTTTATTAATAAAAAAATCTCTAATTTCAAGGTATTTAATAATACTAAGAACTGCCTGATCATTGATTACTATAACTCTTTCTTTATTGCCTTTACCAAGTACTGAAAATATTTTTCTTACAGTTCCTTTAGATGTGTTATTAGTTAGAATATCAGCAAGCTTCAGACTTACAAGTTCTGAGACTCTAAGACCGCTAGCATAAAGCAAATTAATCATCGCATTAAGCCGAATACCTTCCGGCGTATTGTCTTTGGAGCAATATTCTAGTATTAATTTAATTTGATCTATAGACAATATTATAGGGAGTTTATTTTGATATTTTGGTAAATCTATATTAAGAACTGGATTAAATTTAGTATGATTTTCACTAATTAAAAATGCATAATAGCTTTTTATAGTTGAGATTTTGCGATTTATAGATCGAGCATGTAAATTATTACTGGCTAGATATTCAATCCATTTCCTAATATTTCCCGTTGTGATATTTAATTCTGATATTTTTTGTGCAGCAAGATAATGTTGAAAATCTAATAGATCACGCTTATAGCTAAGTATAGAATTTTTTGATAATGCTCGCTCTGCTAAGAGCATTTCTAGAAATTGCGCAATAAACTCCATAAATTTTATTAAATTTCTACAATGGAGGCCAGGGTCGGAATCGAACCGACGAATAGAGGATTTGCAGTCCACGGCATTACCACTTTGCTACCCAGCCTAATCAATGTCATACCATAACTATACTGCATTCCAGTGAAAACATAAATTCTACATACGTTGACGTTATACAAATATAACAAAAATACATCACAAAAAGCAACTATTTTTTAGTATAAAAATAATTCTTACTGGATGATATTTAGCAATTTATCCTGCATAAAATGCAAAAATTAACTAACTGAACCAAGTATATAATCATTTTTAATATAAAAAATTCAATAATTGCTTAAAATATGGTTAATTGTTGGCTATTAAATCTCAGTTTATATTCGTTTTCTATTTTTTTTCAAATTTTTTTTGTCAAATTCTTAAGTATAAACGAAGCTAAGTAGAACTTAAAAGTTCTTTATTGTGAAGACTGTTACTAATGTAATATTAGTTACTGCTGTTAATTAATGTAGTTTATCACGTAAATAATTAAAGTATGGCATAATACTGTAAATTATTATTGCCATCAATGGCCTATAGTATATAATATTTAAAATATATTTTGATCTATGAAGCTATTACAAATTATTTTTATAATTACTATATACATTAATTTACATATATTTGTATTAGCAGAAAATTTAGAATCAGTTGAAGATAGTGAAAATGACGTATTTATTCCTCTTGATAAAAATCATCCTATTTTAAATCAAAAAGATAATATTTATAGTGCTGAATTTAAGAATTATACCAACGGTAAAATTATTGCTCTCAATAAAATTACTGCTACTTCTGAGGAAATAGGCTTGAAAGCTGGGGAAGAAAAATATTTTGGTAATATAAAAATTAAATTACACAAATGTATAAAAAACCTTGATCCATATAATCAAGATAATTATTTGTTGATGACTATAACGGAATATAAGATTGATGAAGATCCAACCCTACTCTTTCAAGGATGGATGGTTTCTTCAAGCATTTCACTTTCAACTTTTGAACATCCAATCTATGAAATTTTTGCTAAAGATTGTTTTTAGATGCAATATTTGATTTTAAGTTTAATATTTTTAATTCCAAGTCTTGGGATGCTTACAGGCTTATCGATTGCAGCTACTGTAGCATTTTTTTTGCTTAGTATTATAATAACAGGATTTATATCATTCATACAAAAACAAGAATTCAATAAAAAATTTTTTATTAAATTATATCCACGCTTTGGCTTTGATGATATATTCTGCATCATAAACAAAATAAAAACTGAACTATTATTCACTGCTTGGTGTTTTATCTCTTGTTTATTTGCAGTTCATCCTATTAATAGTCTAGTGACTTTCACTAAAGTTTTCGTACTCTTATTTCTTAGATTTGTTAGTAATGCTGTTACTTTTCAAAATGTACTATATATTAAAAATTCGTTAATATTAGGCATTATCACAGCAATATTACTATTCTTCATCGAATATTCTTCTCATGGATTTTTAACAAGAATGTTCAAAACTCATTTTGGCTTATATATGTTAGATCGTGGTTGTGCTTTACTATCCATTACTACTTGGGTAGCAATTATTATTTTGTTCTCTAACGGTCACAATATAAATTCCTTTATACTATATATAGTAGTGCTCTATTTATTAAGTATTTCCGACAGTTTAGCAAGTTTTTTAGGATTTAGTATAGGTGGCATAATATTTATTTTAGCAAGACTTATAAAAACAATATTTTTTAAATTAATTACAATAAGTTTAATCACTGGATCGTTACTATTTCCTGTTATAGCTAAACAAATAGATCCACAAAATTTATCTGAAAAATATTTAGCGACACAACCTTCTGCTGCTCATCGTTTATTTATTTGGCATTTCGTTGCAAACAAAATCATCATAAGACCGATCTTAGGATATGGCTTTGCTTCTTCTAAATATATAGAAACCGGTGATAATGCAATGATTGATTATAGAGGTGAAAAATTGCATCCTTTGCCGCTTCATCCTCATAATAATATATTACAAATTACTCTTGAACTTGGTATACTAGGATTAGCATTATTTTTATGCTTAGTGTATAAATACTTAAAAGAAATTGATAATATAAAGGTTTCCAATTTTAGAGCAGCTTCATATTCATGTTTTATAAATTATTATATTATCGGTATGATTTCATATAATATTTGGCAAACATGGTGGATATTAAGCGGTATTTGGATACTAGTTTTAATGAAGTTACTAGTTAAACCTGATATTATCATTGATAATTAATGTTATTTAGTATAGATATAGATATGAGATCAGTGCTCGAATATCATAACGCAACTTGATTGTGGTGTTATCTGAGTGTGGATCCACTTATACAATAAGCTACGTAGTAACATATAAATAATAAAAACATATGCTACAAAATTCAGAACTCTTACAAGAATATTTACCAATTGCTATATTTTTCGGTATTGCAGTATTGCTTTCAGTTTTAATAATGATTTTACCAAACTTATTATCGACAAAGAAGTATAATAAAGATAAGCTAGAGCCATATGAATGTGGATTTGAGCCTTTTAGCGATGCAAGATCAAAATTTGATATACGTTTCTACTTAGTTGCAATTTTATTTATTATATTTGACCTTGAAATTGCCTTTTTAGTGCCTTGGGCTATTAGCCTTAATACAATAGGTAAAATGGGATTTTTCTCGATGATGTTTTTCTTATTTGTACTTATTATTGGGTTCATATATGAATGGACAAAAGGAGCGTTAGACTGGTAGTAATATGGAACATGACTTTTATCAAGAAGACGAATTATTAAATAGTGGTCTTACTAATAGAGGATTTTTACTTAGTAAAGTTGACGAAGTGATAAGCTGGGCAAGAGCTAATTCTTTATGGCCTATGACTTTTGGGCTTGCTTGTTGTGCTGTTGAGATGATGCAGGCCGCAGCAAGTAGATATGATATGGATCGCTTCGGTATGTTATTCAGACCAAGTCCAAGACAGTCTGACCTGATGATAGTTGCAGGAACACTTACTAATAAAATGGCACCAGCACTTCGTAAAGTATATGATCAAATGACTGAACCTAAATGGGTACTTTCAATGGGTAGCTGTGCTAATGGTGGTGGCTATTACCACTTTTCATATTCTGTAGTACGTGGATGTGATAGAATCGTACCAGTTGATGTATATGTCCCAGGTTGTCCTCCAACCGCTGAAGCATTGATTTACGGGCTTATGCAGCTACAGAAAAAAATTAAACGCACTACAGGTTTTAAGTATGACTCTAGACAAACTCATTGAAAAACTTGCAGCTAAATTTAGAATTGTAATAACAAAGGTAGCAGTTAAAGATCACTTAGCTTATAAAATTGAGCCACATTTTTTATTGCCGTTTTTAAAAGCTTTAAAAGAATCAGAAGAATTACGTTTTACCGTCTTAACTGATTTATTTGGCGTTGATTTTCCAAAAAAAGAGAAAAGATTTGAAGTCGTATATAACTTACTAAGCCTAAAATTAAATAAAAATCTTATCATTAAAACACATATATCTGAAAAAGAGAGTATACCTTCAGCAATGCAGATATTGAGTGCCGCTTATTGGTATGAGCTTGAAGTTTATGATATGTATGGTGTAAATTTTAATGGCAATAATGATAAAAGACGAATACTCACTGATTATGATTTTGAGGGGCATCCTTTGCGAAAGGATTTCCCATTAACAGGCTATACGCAAGTAAAATATGATAAGAAGCTAGAAAAAGTAACTTATGAACCGGTTAATTTAGATATAGAATATCGTGAGTTTGATTTTAGCTCTCACTGGCACAGTCCAAGTTACGTTTTACCAGGAGACGAAAAAGCTGAAGAGTAATACATTATTTATGTATGCAGTTTACTTAACTAAAAATTAAACCGTCATTATTAGTAAGCAATGGCATTATTCTTACGCAATCTAATGAGTGTCATAGCATGACTTATACACAGCATTTAGTTAAAAATATCAATATTATTGATATTTTTAACTAAAACATGTGATAAAATATAAGTATAGAAAATCTAGAAATAAATAACAAAAATACTATGACTAACAAAACTATAACTCTAAATCTTGGCCCACAACATCCCGCGACTCATGGGGTTTTAAGGTTAATCCTTGAAATGGATGGAGAGGTTGTTAACAATGCAGATCCTCATATTGGATTACTTCATCGTGGTACGGAAAAGCTTATTGAACATAAAACATATTTACAAGCTATACCGTATTTTGATCGACTTGATTATGTTTCACCAATGTGCCAAGAACATGCATTTGCTTTAGCCGTAGAATCATTACTAGAATGCAGCGTACCACGCAGAGCTCAATTTATAAGGGTGTTATTCTCAGAACTAACAAGAATCCTTAACCATACATTAAATATAGGCAGCCAAGCTTTAGATATCGGTGCTACTACTCCTTTATTATGGCTTTTTGAAGAGCGAGAAAAAATCATGGAATTTTATGAACGTGTTTCTGGATCTCGCATGCATTCAAATTACTTTAGACCAGGTGGTGTTGCAGAAGATTTACCAGAAAATTTACTTGAGGATATAAATAAGTTTATAGAGCAGTTTCCTTCGAAACTTAATGATATTGAAAATCTCCTAAATGAAAATAGATTATGGAAACAACGTTTAGTAGATATAGGTGTTGTGTCTCAAAAAGATGCTATGGACTGGGGATTTTCAGGACCAATGCTTAGAGGTTCAGGTATAGCTTGGGATTTACGTAAGTCAAATCCTTATGATGTGTATGATGAAATGGACTTTGAAGTACCAATCGGCAAAAACGGTGATTGTTACGATAGATATTTAGTCCGTATACTTGAAATGTATGAATCTATTAAGATAATCAAACAATGTATAGTAAAAATGCCAAAAGGTCAAGTCAAAACTGATGATCCTAAATTAACACCACCAACAAGAGGAAAAATGAAAGAATCTATGGAAGCAATGATTCATCATTTTAAACTTTATACAGAAGGATATGATGTTCCAATCGGTGAGACCTATAAAGCTGTAGAAGCTCCTAAAGGCGAGTTTGGTGTATATTTATACTCGCAAGGAGGTAATAAACCTTATAGATGTCGTATTAAAGCACCAGGCTTCGCTCATTTACAAGGACTAAATTTTATGTCTAAAGGCCATTTAATTGCAGATGTTATTACTATCATTGCAACGCTTGATATAGTATTTGGCGAAATAGATAGGTAAGATCACAATGTGATTCAATTGATTTACTATAAGATGAGGAAGAAAACTATATCGTACTAAAAATATATGAATACCAAAATTACAAATTTTACATTTGCATTTGATAAAAAAAATTTAAATTTAGCAGAAACTATTATCAAAAAATACCCTCCAGAGGGGAAAAGAAGTGCAATACTACCACTACTTGATCTAGCACAACGTCAAAATGGTGGTTGGCTGCACGTATCTGCTATCGAATATGTAGCAAATATGCTAGAAATGCCTTATATGCGCGCTTATGAAGTTGCAACATTTTATACTATGTTTAATTTAAACCCTATAGGTAAATATCATATTCAAGTATGTACTACTACTCCATGCTGGCTGCGTGGTAGTGATAATATCATGAAAATTTGTGAAAAGAAATTAGCTATAAAACACAAAGAAACTACTAAAGATCAAAAATTTACTTTAAGCGAAATAGAATGTTTGGGAGCATGCGTTAACGCTCCTGTTGTACAGATTAATGATGATTATTATGAAGATCTCAATGAAGCAAAAATGGAAAAACTAATAGAGCAATACTTAAATGAGTTTAAGAGTAAAATGCAAAATGGCTAAAATACTTTTATTAATAATAACCTTCTATAAATATTTTATTTCTCCGCTACTTGGTAATAATTGCCTATTCCACCCTACTTGTTCAGAATATGCTAAAGAAGCTATAACAACACATGGTAGCATAAAAGGCTTATGGTTTACCTTTAGAAGAATCATCAAATGCCAACCATTTTGTAGTGGTGGATATGATAACGTTCCAACATCTATTAAAAATTCTAAAACACCTACTAAAAAAATATGAATTATATTTAAATCTTAAATATAAGAAAAATATTGATTAATTAAGTATCAGAATTTGCTCACTGTTTATTATGGAATATAGAAATTATTAATACATTACCTATCTAAGAATTTGCATTATTATTTGAGCGAATATAGAAAAACTAAATCTACTTAAAATAATAAAAATAGGATTTAAAATATAGCTAAATAGGAATAACTCACTTTAGTGATATCAAATCTCATAAAAAACTAAAGATTTTTTTCAAAAACATGAATAAATTAATCCCATTACCTCGTGAATTTTTTGCACGAGATACTAATTTAGTAAGTACTGAGTTAATTGGTAAAGTGCTATATTTTCAAGGCACAACAGCTATCATTACCGAAACTGAAAGCTATATAGGGGAAGATGATCCTGCATGTCATGCAGCACGAGGACGGACTAAAAGAACTGATGTAATGTTTGGTCCTGCAGGTTTTAGCTATGTCTATTTAATTTACGGAATGTATTATTGTTTAAATTTCGTTACTGAAGATGAAGGCTTTCCCGCTGCAACATTAATAAGAGGTGTATATGTCATTTCACATAATAATGTATATACCATCGATACTGCAAAAATTAAAAGTCAAATAACCGATGAGAAGACACAGAGTATAATAATACGTAAAAATAGACGAATCATGAAATTTTACATACCAAATCTTAAAGCATCAAATCTATATCTCAATGGTCCAGGTAAATTATGTAAATATTTAGGTATTAATACCTCGTATAATAAATGCGATCTGATAAATAATAAAGATTTTTTTGTCAGCGATATTGGATTAAATCTCCCATACTATAGTACTACACGTATAGGTATTACCAAAGGCACTGATAAATTATGGCGTTACATTGTTACTGATCCAAAAATGCTTTATTAAACATCAATATTTTATAAAACCAATTGCATTTTGATAAGCATATTAAACTAAAAAACTACTTTTTAGAAATATTTTTCTTAATACAAGTTAGTTAGTGAAGAGCAAATTAGTATTGTAAATACTTTTGCATAATGCATTCGAAAATATTAGTTTTGATGAACAATTTTTTTACAAGCCTTATATAAAGCAGTAAATCAAATATTATATCATCGATCATCATATCATTTTACATAATTTCTATTTTTGATGCATTGCGTCTAATAATAAATAATGTACCAATAAGATTACATATTGATTTATGTATTCAAGAACGTATAACAATCTATCTAATAGAATAGAAAACATTTAAAGCAATAGAAACTAAAGCAAATTGAAATCTTATACTAATAAAAGTTGATGCCAAACATCATGATGATTAATAAAACATTGATAAGAATTATTGTAGATCAAGTTAATTATATGATTAAGGCATTAAGTATAAGCATAGTAACTATTCTTACGACGTGAAATAGTTTTTGCATTATTGTGAAGAAATGACGTAGTAATTGACGAAGCAACCTCATGCAATTGATTTACATAAGCAATGGAATTGCACACTACACTTCTGTCTCTTCTAAGATCACTGTAGAATCAGCAAGTTTAGTAATTTTTTCAATTTTTAATCGAGCTTCTTTTAATTTTTTTTCACAATGATTCTTAAGTAAAATACCCCTTTCAAAACTATTAACTGCCGTCTCTAGATTCTCTTGTCCAGTATCTATTTTTTTTACAATTTCCTCAAGCTCTCTTAAAGCTTCTTCAAAGCTAATATTGTCTTTTAAAGTTTTAGTATTAGTCATTTATTTTTATTTTTTAATGGTTATCTATAGTAGGTTATTCGTAAGTTGTTTGAGGTATAAGTATCGTTTTGAGCTTACTACTATCAAAAGTTTTCTTAGGCTCAAAAATACTCCCGTGCATTCTTATATTAAGCTGCGTTAAACTAACTTTATCAGAAGATGTATGTAAGTTATTTAATTTAACAAACTTGTCTGGAATATAAAATGATAAAATACTAGAAGAATCTATATCAAAATTATATATGTTAACTGTACAAGAAGCTGCGCCACTACTATATTGTGTTGCAAATTTTATGTTCTTTAAAAGAACAATACCTTTTTGTAATTCAATATCGCCGCTTATATCTCTAATATTAGTTCGTCCTGTTGTTATAGAACTATTTATATCGTTATCTAAATTTTGTACATTATAATCAGATTTATTAATTTTTTCTATAAAAGAATCAATGCTAAAATTATTAACATCTATATTGTTGATAACAAATTGTGATTTTGTACTAAGATTATATAGCTGACTTTGAAGGCTATTACCGTTAGTCCATAAGCTACCGCTTATACTTACTTTTCCACCACTCCAAGTAAATATGTTATGCATAAGAGCCAAAATTTTGTTTAAATCTATTGTATTTACAGCATATACGAAATTGATAGAATAAGGTTCTAATAAAATATTACCACTACCTTGAAACTTACCACCTAATAGTTCTGCTTCAATATTATTAAATTGTAATAGATTATTATGATTTGCTAAATAAAATTTAACATTTCTGAATATAAAATTATTTTGTGATAATGTTGATAATGTACCATAAAATTGCAATATAGCATTATTTAAACTATATTCATTTACTAATTTATTTCTTAAATTAAGCATTTCTCTCAATGACAATAAATCAGTAGTTAAATGACCATCTTTAATTTCTACCGTCAAAGATGGCAATACACTTGAAGTGTCTAAATGCAATCTAGTCGATAAAGAGCTATGCGCAGTTTTAAAATCTAAATTACTAATCTTGATATTAGCCGGTAGGATTTTAGCAAGTAAATTCATTTTGTCAAATACATGATCATGATACTTAACGCTATCTATCAAAATATCTAAATTCGCTAAATAGCCTATTGTTCTAATAGGAATAAACTTACTTGGATAATCTAAAGTTTGCATATCTTTAGTTAAATTCTCTGTAAATCTGATAATAGGCGAAATTATTGGATAGGACTTCCCGCTTAAATCAAGTGAAGATATATTAAGCGTAGCATCTATACGAGGTGTTTGAGCAATAAATTTACTAGAAAAACTTCCTGATAAATTTAAATTATCCGTTTTAAGTAATAAATTTTTAAAAAATAAATCTATTAAAGTAAGTTTTAAATCTGATGACAAGACAAAAGGTACAGATTCTTGAATGGTAAGATTATTAAACCCTAAAATACTCAGTAATGAATTCATATCATTATGCTTTAAATATAACTTTCCATCGAACATACTTCGAACAGCATTCTGTGTTACATTACCTGTAAGCCTAAACTCTCCACCGGACTTAATATTACCTGAAAGTTCATTTATGTTTAACGTACCCTTTGATAAGTTAGCAGCAAAGACTATTTTTTCTAGCGCTTCATTATTACTTAAAATTATTTCGTTAATTGCCACATTTGCTTTAAGTAATTTATCCGCAAAAATAAATCTAATATTTGAACCAAAAGTATTAAATGTTACCACTGCATTTGGTAAAATTAACGAACTTAGATCTATTTTATGGAAATCTAGTTTTACATTAGTAGTAATATTAGTATTTTTAGCAATGTTAACAAAGCCATTACCTATAATAAAAGATGATTCTATAACTATGTCTTTTAGCTCTATTTCATCTGCATTATTTGAAATATTAAATTTAATATTCACTGGCTCATTTTGATTAAATTTATTCAAAAGATCCTTTAAATCGGGTAATATAGTATATATTACCGAGGCTAAATTTTTTATCTGACACTTACCTCTACCGCTAGTAAGCTTAAAATCTTTGTAAAGCTGTGATAACTTAGAGCTATAATCATTATTATCAATATTAAGCCTAAAATCTACTATATCATCACGTTTATTAATGGAACCTGAAATTTTACCTATATTGTTACTAGTAATAGTAAATATGTAATTAGAGGATAGAGCATTTTCTTTTTTTAAAATACAATTATTAAAATTTAAGATAGAATAGTCTTGTTTATTAAAAATACTTAGATTAGTAATATTTAGATTTATATTTTGTAATTTATATTTAAAGAAATTCTTGATTAATTCTTCGTGATTATAAATATTGATTACATTAGAACTTGCATAAAATTTAGCATCTAATATATCTATTTGATTAATTTTAGGATTAAACTTTATAAGCGACCACAACGAAAAATGGATTTTAATCTGCTCTAGATCGAACTTTCCATCTTCCTTTATCGTATCAATACATAAATAGGGGAAAGGGAATTTATGGATCTGTATTTTTCTAATATTTTCTCTTGTAATACCGAAATGATTAACCAAATTATTAGTCACAGAATTATAATTCACAAATGGTAATACACTAAAAATTATAAATAATAATGTAAAACAAATTATAATTCCGACAACTATTTTTTTGATCATGTCTGTAAAAAGTTTTAAATAAATATATTATTATATAATAATAATCAAAATTTAAAGGTAAATTAATGAATTCTTTAAAAAATTTAATTTTAATTGGTGTAATAAAATCATGTCATGGAATTCAAGGTCATGTCATTTTAAAATCTTTTACCGAGCCTTCTACAAAAATACTTGAAAGAACCCTAGTAAATGAGTCAGGAGCTAATATACGTATTAAGCTAATTAGTCAAAATGCCAAAGGAGAATTAATTTGTACATTTAATGATATAGCTACTCGCAATGAGGCTGAAAATTTAAAAGGTTACAAAATATTTTGTTTAAGGACAAGTTTACCTAAATTAGAAGAAGATGAATTTTATATAGCTGATTTAAATCATTTACAAATATTAGATCAATCTAATAAAGAAATAGGTAAAATTAAAAATATTCTTAACTTTGGTGCTGGTGATATAATTGAAATAGAATTTTTAGATAAAACAACCGAATTATTACCTTTTAATAAAGAATTTTTTCCTATTATAACTAAAGATTATGTGATTTTAAATTATCAAACAAAAGTGTGAGTACTTATTATTTTTGAATCTATATTTATAATGCTTGAATTTTTGCAAATAATACCCATAAATTTCGAGGGATATTCTTAATTGTTGTATAACATTATAAAATACTTAAGGTGAAAATTCCTTTTATCTGTAGATTCAATATTATATCACACAATATTTTATCTTAATAATCTGAAAGATATATAATGTTTATTTTGACTTTCTATGCTAATAAAAATAAGTAACTTACTTCAAAGTCAAATATTAGTAGAAACTTTAGTATATAAAACTCTCTTTTTCCATCTGAAGATTCTTAAATATGAATAAATTTTGATATTAGAGAGTAAATGCATTTCAAAAAAACTTCTCTAATAATCACATAATTTTCAAATGCATTACGAATAATTTATACTGCTTAAGTTAGAGACAATTGATATATAGTGCTACAATTATAAACGATATAATGTATTTAAAATATATGGATTGAAAATTAAGTTGCAGGGGAGCTTGATATCAAAATTTGAATTAAAAAATAAGATGTGTGCTTAAATTATTGTGTATATTAAGCAAAATCTTTTAATTTGCAATAAAAATGGAATACAAAACACTACATTTTAATGTAAATTTGTTTACAGATAACCTTTTATAAAATATTATCAAAATAACCTATTAAAAGAAATGCATTCCTATGCCTAAAGCTTTAAAATACTCACTTATTATATTTATAACTATAATATTATTATTAATAATAATCCCTTTTTTTATCCCTTTAAATAATTATAAAGGAGTATTAATAGATAAAGTTAAAGAGGCTACAAATAGAAATTTAACTATTAACGGCGATATAAAATTATCTTTACTACCAACTCCTACAATATCACTATCAGAAATTAAATTATCATCAATAAACGGTGCAAAAGTACCACATCTAGTCTCAGTTGAAGCTGTTAAAGCATCGTTGAGGCTTTTTCCTCTTTTTAGAGGCGTGATTGAAGTAGCTTTGATAGAATTGCAAAAACCTACTATAAGTTTAGAAGTGTTGGATAACGGACAAAAAAGTTGGCAACTTTATATATCTAATAATAACAATACGATAAATAACAATAACACTGTGCAATCTAATTATACTCAAACTGTATTAGAGCTTCCTATTTTAATTAGTCATTTAAAAATTAAAGGCGGTAAAGTAATATACATAGAAAAAAATAACGAAAAAATATTTAATGATATTAACTTAGAGACTAAAATGAAAAGCATTAAAGGCCCTATAGATTTTACTATAGCTTTAAATGCTTTACAACAGCAAATTCATATAGATGGACATGTTAAAGAAATTGGCAAAATAATTCCATTAAGTACTAATATTAATCTTGCAGGTGCAAAAATTAAAATCGATGGGAAATTTGATAGTAAAAATAATTCTTTTATAGGTAACGCAAATATTAAAGGTAATACTAAAACTTTAGGTATGCCTTATGATTTAAACAATGATTACACACTAACTATGTCAATTAGTGCATGTAGTAAAAACATAAATATCAGGGATGCTAGGCTTCATTATCCCAATATAGAATTACTAGCAAATACAAATTATGATATGGAGCGTAATAATCTAGAATCAAATATCATTGTAAATCCAGGTAACTTGATAACCAAGATTCAATCTAATTTAGATAAAACGAATATTCTGCTACAGGCTGATAGTTTAAAACCTATACTTGATGCTTTAAAGCTGAAAACAGATGAATTACCACCTATTATTAACCAAAAACTTATACTCACTACTAATGTAATTAGAGATCCTCAAGCAATAAAATTGCAAAATATTAATTTATCAGCTACAAATAGTAATATCACTGGAGAGATTGTGCTTAAGAATTTGACGGAGAATATCATTATTTTACATAATCTAAAAATTAATAATTTTGAATTATTTATGTCTCTTATTGGAGTAAATAATTTAAGTAAAATTGGAATATTACAGTTAAACGGTGAAGTGCAAAAAGTTAAAGATACTTTCAATATTAATAATAAAATATCTGTTTTGAATACTAACATATCTATTAAAGGCGATATTAATTTAGCGAATCAAAAACCTAATTTTAATCTTAAATTATACAGTCCATTAGTGAATTTGGATAAAATCTTTTCAAGTAACAGCGCTATTAATACTTCAAATAAAACTAATAATCCTTCTAATCACAATATAGATACCGATAAAAATAATTCTCCTTGGTCAAATAATCGAATTAACTTAGGATTTTTAAATGAAATTGAAGGGCAATTATCAGCAAATATTGATAAAGTAACCAATAACTCATTAATAATAAATAATTTAAAAGCAAAATTAAATATCATCGGCGGTAAACTAAATATTAATGCAGTTAATGGCAGTATTTACGGTGGCGAGCTAAATAGTACAGGTTATATAAATTCAGGAAAAGAACAAGACGTTGCAATCAAAATTAATTTAAAAAATGCATATCTCAAAAGATTAACAGCACAATCTAGTAAAATAAAAATAACAGATGGACTATTAAGCTTTACAATTGATCTCACTTCTCATGGTAATAGCGTTTATACATATGTTAACAATCTAAATGGACAGTTTAATATAAATAGTGATAACGGAGAAATAAGCGGATTTGATTTAAATCAAATCGCACATGCCATTGATAATGCGAAAAATATCGAAGGAGTCTTAAGTCTTATTAACAGTTCCTTTAGAACTGGATCGACATCTTTTAAAAATTTAATTGTCCATGGAAATTTAAAGCAAGGTAATCTTAATTTAAATAAATGTATTTTAGATGCTGCACCAGTTACAGCGAGTGCAAGCGGTCAAATTAACTTGCCTCAATATGTTATGAATATTAATACAAGTATTAATATTGCTAAATTACCTCCTATAACTGTTAAACTACATGGATTTATAAACAATATGCATTATAAATTAGATACTCATGCTATTCAAAATTATTTAGTTAAAAACGTCTTTAGGGTTATTAAAGATCTAAAAAATAGCAAGAAGAAATCTGAAAATATTATTCAAAATGCTTTAGATCTAAGAAAAACAAAAGATATAGATATAAAGAAAGAAAGTAGCAATATCCAAGAAAGCGAACAAGTAGATCCTGTAAACACACTATTACAGAAAGGATTAAAAAAATTATTTTAAATAAATGCTTTAATCCTAAAAGGAGAAATATCCCTATCAGGATCTAAGACAATATTATTTAGTTAGAAAATCTTTTTCAGTAATTTTTTTATTGTTGCGTCATCATAAGCATCATTACTAGCTAAAGCCGTACTACACTGTACTTAGAAATTATCTTGTTATTTTTCCAAATAGAACTTAAGCTATGCAAAATTTCAGCGTCCATATATAATATTAGATTATTAAATTTCTATTATAAGTTGTCATGACATTTATAATTAGTTTTAACAAATTTTTATAGATTTTCTTTTTCTGAGTGATATGAATCTTTTAAAAATCAAAACCTTTTTACAACTCAACAATTGTAGTGATAATCTATGTTTTATCAATGACTACATAATTATACACTAAACTTCATAAAATGAATATTTAATCATATTGTTTTTTCTATGATAATGTTGAATATTTTTAAGAAGTTTATGAAAACATATAAATAAAATCACTCATATAAAAATAAATTTATGGCCGGCCTTTCACGTTAAATTTCAATTTTAACTTCCATAAAATTAACCGAATATTATATCTCTCAGAGAATGTATAGTACTCGTTGAAGATAAAAGTATAAATATAAAACACAAATAAAATATTGAATATGTAAAAAATCGCTTTGCTTGTTTATTATCAGGTGTATCATAGAATAAAGAGAAAGCATAATATAGGAATACTAACCCAATTATACAGACAATTATTAAATATATATCATTATTCATTCCAATAAAAAAAGGCATTAGAGAAACAATAAATAAAATAATGCTATAAATTAGAATTTGTTTCTTAGTATATAAAGTACCTTTTACTACGGGCATCATCGGTATTTTGCAGTGTTTATAATCATCATTACAGAATAAAGCAATGGCCCAGGAATGTGGAGGAGTCCAAATAAAAATAATCAAAAATAATATAATCGACTCTAGAGATATAGTATTGCTTACCGCTGCATGACCTATTACTGGAGGCAATGCCCCAGATACTCCACCAATAACGATATTTTGTATCGAACGACGCTTTAACCAAATAGTATAAATACAAATATAATAAAAAATAGTGAATAGTAGTAAAAAAGAGGCCAGTATATTAACACATAAAGCCATAAAAAATACTGCAAAAAACCCTGTAATCAAACCAAAAGATAAAGCTTCATCAGGTTCTATAACACCCCTTACTATCGGTCTGTTTTGAGTGCGTTTCATTAATATGTCAATATCTCTATCATACCACATATTCATTGCCCCTGCACTACCTGCACCAAGAGCTATACAGATAACAGCAATACCTGCAATAAGCGGATGTATTGAATCAGGAGCAAGCCACATACCTACAAAACCAGTAAAAATCACAAGCGACATTACACGCGGTTTCATAAGTAAAATATAGTCTTTTACAGTACTTTGTGAATTATTGATCTTATTAAAATTGATTTGTGTTACTAAAGAACTCATATGCAATATTTTTTAATTAAATATAAAAAATATTAGGTTAAAAATCAATGATTGACTTTGATACAAGAAATGTATATATTTTTTTGTAATTAAAAAGTTAAGGATATTAACAGTGACAAAAATTGTTCGTTCTAAATATAAAGCTAGTAGAAGACTTGGGGTAAGTCTATGGGGTGATAGTAAGGATGCTTTCAATACACGCAATTATCGTCCTGGACAACATGGGCAGAATACAATGATTAAAACCTCAGACTATGGGTTACATTTAAAAGCTAAACAAAGATTGAAATGTTACTACGGTCGTGTTACTGAAAAACAATTTAGAAATATTTTTGCACTTGCTCAAAGAATGAAAGGTAATACTGGTGAAAATTTTATTGGGTTACTTGAAAGCAGGCTTGATACTGTTGTTTATAGAATGAATATAGCGCCCACTATTTTTGCTGCACGACAGTTAGTATCACATGGACATATTAAATTAAACGGCAAAAAAGCCGATATAGCAAGCATAAGACTAAAAGAAGGTGATATTATAGAAATTAAAGAATCAATACAACAAATACCACTTATTCAAGAATCTATTTCAAAGCAAGGGCAAACAACACCAGGGTATTTATCATTTGATATACCTTCATTAACAGGTAAATATTTAAGAGTCCCAGCTCTTTCTGATGTGCCATATCCTTTTGAAGCAGAAGTACACTTAGTAATCGAGTTATATTCTCGTTAATAATTTTAAAATGTAGGTTTGTACCTGTTTCTTCATATTACTTACTATCTACATACGAAATAAAGGTAAAAGTAGATTAAACGTCTTAGCTAAGAGCGGTATATTTGATTTTGTTATTTTTTTTAGATTAAACCATCATATAAAAAGCTCCTAGTAATTTATGGTTACGTCTAACAATTCCAACTCTTTAATCTAAAAAGTGCCGTAATCATAAAATATATTATAGCATTTTTTATATGCAATATGCGCTCTAACAAAGAGTATTTTCGTATACGTAACAATGCATTCGTAATTAGTATATCGATTGTTAATATAATGATAATGCCAACTTAAGTATTCTTTTTATTGAATTATCTTATTTAGTAAAAATCTGATAGTAATGACTAACTGAATATATTATATAGAAAATAACTGTTCTAAGATTCTACATATGGAATGCATTTAATAATTAGATGTATAATTTTTGTTAACAAGACAAAATTATGTACGCTTTTAGATATTCTCGTTGATATAACTTTTACGCTCCCCTACTACAAATCGTATCAAAACTTTTTATACTTATTAAGTTACCAATTTTACAAACACAATAATTAAATGACTTTAAAAATACAATTAAAAATGCAACATAAGAATTTTGCAGAAAAATTAACTCGATATTCTAATAAGAAAGAGTCAAATTAATGACAATAAAATTTATATAGCCTCTATCAAATAGATTTATTATTGATTCTAGACAATTTTTACAACATGAAAATGCTAAGCTTCTTAAAACTATATCAAAGAAAATATTGTGTTAAGATATATAGATACGATATTAAAGATAAATTCATGAAATCACTTTTTTCAAGAGTTTAGTATACTGTATTACTTATCCATACCATAGTATTTGTAAAATTTCTAAACATATCAAAATAACATTTATTGAGCATACACTAGTGCACTCTACTATATTTGAAGTAATAATCTCAGGTCTTGATCAATTAATCACTGAAAGTAAAAATTAACATATTATCTATATAATGCGCTTCAGATACATTAATTACACACTTAAGTAATAAAAAAATTATAATGGACTAAATGCTATTACAACAAACTTTAAAAGATATTTATACCGTATACTCTAATGCTTTTAATACATAATGACTATAAATGGTTTTATAGTCTTATATAAATAGTGAAAATTTGTACATTAAAATAAACTTATTATGCACAAGAAACATTGTGTCATTTTAACGATATTCTAATAAGAGTTTTTTAAGATTTCTTTATAGACTTCAAGATTTTTTCTAAGCATAAGATCAAGAGAAAAATTATCAATTACAGTATGACGCGCAGCTTCTTGTATTTTCTTAGCAGTATCAGTACCTAAAATTGAGAAACAATAATCTATTTTCTGTGCTAATGCTTCAGCATTATTTGGCTCTACATGAAAACCAGTTATATTATTATTTATTGTTTCTACTGCTCCACCGAGATTAGTGGCAATAACAAGCTTCTCCATAGCCTGCCCTTCTATAATAGTACGTCCAAACGCTTCAGGCTCAATTGAGGCAGAAACAATAATATCAGAAATCCCATATAGACTTATTATATCAGAATCATTACCGAAAATTTGAATTTTATTTTGAAGTTTTAGAGTAGCTATGAGCTCTTTCACTCTATTAGTAAAATTAGGATGCCTAGATATATCACCGACCATTAAACAATAAAAATCTCTATGTTTTAACTTACTTAATGCTTCTACTAATACAAGATGACCTTTCCAGCTAGTCATTCTAGAAGGCATTAATATTATAGGTACATTACTCGGTGCATCATATTTATCACTACATTTTTTAAGTTTTTCTGGTGTTAAATTCGCTGGATCAAAATAATCACAATTTACTCCACGTTCAATTACTACTATTTTACTTTCATCAACTTTATAATTTTTAAGCAAATACTGTTTTACAAAATTAGATACAGCGATTACTTTTTCGCCTTTTAGCATTATACTATTATAATATTTTTTAAAACTATTTGGAATATTATAAACCCCATGAAAAGTAGTAAGAAATTTAGCATTGGTCCATTTTGTTGCTAGATACGAACTCCATGCAGGAGCCCTTGATCTTGTATGCACTATATCAACATGATATTTTTTGATTATTTCTGCTATCAATTTTGCATTATTAACAATTATACAAGGATTTTTACTGCTACTATTCATTTCAATATGTAATATATCTTCCTTATCTAACTCTTTAACTAGAGTACCGCCTGCTGAAATTATTATAGGAGTATGACCAAGAATTTTAAGATATTTTGCAACTTCTATAGTACCTCGTTCAACTCCTCCCGAAACAAGAGCAGGAACTACTTGCAAAATAGTATATTTATTGTATCGTTTACTTGACTTTAATGCAGGCATTTAATCTCAATCTATTAAAATAATTATTAAAAATGCACAAGCTTTATAATAAAACACAAGACAAATTTATTGTCTATGATAATTATAGAATAATTAATACAAATATTCCATCTGTAATTTTTTTACACGGCTTGATGTCTAGTATGCAATCAACTAAGGCTATCTATTTAATAGATTATTGTAAAAAAAACAATTATAATTTTATTGTTTTTGATAATTTCGGTCATGGCAATGCATCTGGACAATTTGAAGATCAAACAATTAGTGATTGGTTAGAAGGCGTTGCGCTTATTTTAGACAAATTAATTGATACGGAGGCAATATTAGTAGGTTCTAGCATGGGAGGATGGTTAGCACTTCTTGCGGCCTTAAGATTTCCTGATAAAATAAAATGGCTTATATGTGTTGCTCCTGCTCCAGATTTTACTGAAAATATTTGGCAAAATATCTCGTTAGATGATCAAAATAAAATGAAAAAAGAAGGAATAATAGAGGTCAGTAGTGAAAATTGCAAACATAAATATCCTATTAGCTATAAACTGATAGAAGATGCAAAAAAACATTTATTATTGAGAAAACAACAAATTGAAATAAATATACCTGTACATATAATTCATGGCATGTTAGATAAAAATGTACCTTATAATGTTTCAGTAAAACTATTAGAAAAAATCACTAGTAAACAAATAGTAATGAAGCTAATTAAAGATGGTAACCATAATTTGTCGAGAGAAGAAGATTTAAAAGTAATAACAAATTCCTTAGAAGAAATGATAAGTAATATTAAATAAGAAATAAATATGTATCGCAAAATAAATAAAGTGCATGATTTTAAAGAAGTTATAAGAGCAATAGATCAAACTGATAATACTAGCTTGGTACTTTTTGACATTGATGAAGTAATTGTAATGGATAGCCATGAATCTAGGTTAACACATGATTATAGAAAAGAATTAATGGAGAATATTGAAGCAAGACTTACTAGAAAAGAATGCGAATTATTGCTTAGTATTATTCTTAAAACAAAAAAAGCAAGGTTCGTTAATTCAGATATTATAAAAATATTTGCTCTACTTAAAGCGAAAAATATTCCCGCAATGGGACTTACTAAACTTCCTACAGGTAAATTTGGGATAATTGAAGATATGATTGCATGGAGAATGCATGAACTTACTGAATTAAAGGTAAATTTTCAAGAATTTTCACCTTTAAAAGATGAGATAATAATAGAAGATTATAATGCTGGTTACGGTAAACCTACATTAAAAGACGGTATAATTTACACTGCAGAATATGATAAAGGAATTGTGTTTGAGTATGTATTAAGTAAAACAAATTATTACCCACAATCAATAATATTTATCGATGATATAGAAGAAAATTTATTATCATTACAAAAAACTTGTAATAAGCTTAAAATTAATTATCAAGGATTTGAGTTTACTGGTTCTGCTATCATTCCTGAACCTAAACTTGATGCACAATTAGAAAAAATTAGATTTGAAATTCTAGAAAAAGAATATAAATGGTTAACAGATGAGGAGCTGAAAAAGCATATTTTATCATCTAGTATCTTGTCCACAGTATCCAACTAAAAATGTTAAAACAAAATACGGTTTTAATTACTAGATTCGATCGTCAATCTACTAAATGATACCTATTCAAATTATAATATATATGCCTGCAAAACTTATTATTCTTATTACTTTATTAATATCACTTTCTACTATTGCGCATAAAAAGGAAGAAGAAAAAATTATAGACGTAAAAGCTACTAAAATACAAATTGCCAAACTTTATGATGTATTTAATATTGTAGGACAATGTCAAAATGATAATAGCCGAGATTATTATGCTAATACTACCGGAGTAGTAGAAAAAGTCTCTGCACAGCAAGGAAAAATAGTAAAAAAAGGGGATATATTACTTGTTATAGATCAAAACATAGCAGAAACTACTAAATCTAGAGCATCAGCTTTATTAGATATAAGACAAGAAGATTATAATAGAAAAGAAGCTTTATTTGCCAAAAAATTTGTAAGCAATGAGGCATACAAAATGTCAAAAAGTGCACTTGAAGATGCAAAATTGAATTATTCTAAGGCTCTTAAAATATATAATGACATGATAATTACTGCACCATATTCCGGTAAAATAGGTGTGATTAAGTATATGGTTGGTGATGAAGTAAAAATAGGAGACTATCTTTTTAGCATTACTGGAACAGAAAATGAACAAAGTATTTTTATTGAATTACCTGAATCGTTAAGTGAAAAAGTTCGTGTCAATACTGAAGTTTTAATTGAAGGCAAAATTAAAAGCACAATCGATACAGTATCACATTACTTATCAGAAAACGGTACTTTTACAGCTAAAATTATTTTACCTGTTGGGACAAAAATTTTACATAATAGCTTTGTAGATGTGAAGCTGATAATTAATCCTCACCAAAATCTAACAATTCCTGAAAGTTGTATTCAACGAAATAATCAAGGTCATTTTATTTATAAAATAATAGATGGTAATACAGTGAAACAAGTATATGTACAAATAGGCACACGTACAGAAGGACGAATTGAAATTACCTCTAATGATATTAAAGAAGGTGATTTAGTAGTTATCGAAGGTATGACTAAAATTGATGATGGCTCAAAAGTCAAGATATTTGATGAATGAAGTAATAACGCTTTATTTACAAATAACCTCTAAAAATTCTGCTGCTGAATTTAGCACTATTAAACTCTCATTATTATTTAGAAATCTTCTTACTGCTCTTACAATTGAGATGGGAGAATTTGGATCAAATGTCTCTATAGGGTTTGATACATCCCTAACATAATCAAGTTCTGATGCAATAATAGGTATTTTATATACTGTAGCCTCAATTAAAGGTAAACCGAGTGATTCTGATTTTGATGGATAAATTACTACTGAAACTTGTGTATATAAGTCTAATACTTCGTTATAAGATATTTCGCCTAAATTAACTATATCTAATTGGTATGTTTGTATTTGCTCTAAAAGCTCAGGGTATAATTCAGTATTTATAGTTAAAGCAAGAGAAGGTTTTATACCTATACCAGCTAAAATTTTCCATGCTTTAAGTAAATTAAAATGATTTTTATGAGCCTCACCACTTGCAGGATAAAAAAAATCATATTTTTTAGTATGATTTAAATTTTTTTGAATAGTTTTAGGTGAAAAAGGTAGTACTGCAATATCAATATCTTGATCTAAAAACTCTTTAGCAATTCTTAGCATAGACTCAGTTTGTACTATATATCTTATATTATTAAATTTTAAACCTAAACGTAACCAAATCTTTTTTATTAATATTAAAATTGAGTAGCGATTATTTTTCAACGGTTCTAATAAAAGTCTATTTTGTAAAAATACAATTACCTTACTTTTTATAGGAAATAATGGTGGTAATCCATGAAAGCATAAAACAGTATCACTCATTTCACAATTTTTTCTTAATTTCCATTCTCCTAATAATCGTGATTTTATAAAAATAATATTTTTAAAGAAATGAGAGAAATTTAATTTACTTCTTACTCTTTCATCTAGATAAATATACTTACAATTATTAACAAAATCTTTAACGTTTAAAATCTCTTTTAATAAAACTAGTCCACCACCTGAGTGAATACCAGGACTATAAAATATAAAGCTTTGGACTATTTTCGACTTTTCCTGATCCATTTATATATTTTTGTAATTGTTGTATTTATTCCATGTCTTCTTAAAGAATATATTATTTCTGTAATTATAGAAGTATAAAATCCTCCAATAATTTTCTGATCTGTCATAGCAAGAGCTAATTGATACGATTTTATGTAACCATTTTTCTTTAAAAAAACAGCAATATCAGACAAAAACTGATGAGTTGACCCTTTTATCATAATCATTTCTTCCTTTGTTAATTTTTTTAAAAAACCTGACCATAAATCCTCATATTCCTCTAATTGATTTAAAGCAGTATTAGTAGTTTGTGCAGCGTGGATTCGAGACTTTATTAACACTTCATGATCAAAATAAATAGAAGATACTCGAAAAAATTTAAACCATAAATCATAATCATGTGTATATTTTAAAGATTCATCAAATAAACCAATTTTTTGAAACAATATACTAGGAATTAATAATGTACATCCATGAATTAAACTATGCAAAAGCGGAAATAGTGAAATATCTAATTTTTCTTTTGAATATCTTTGATCTGGTTTTACACAATATAAAGAATGTGATTTCTGATCAATTAACTCATAACCACAGTAAACAATAACATCCTTATTATCTAATTTATTTAATATATTGATTTGATGTTCGATTTTATTAGGATAATATACATCATCGTGGCTAAGCCATGAAAAATATTTTCCTTTCATGTTTTTGATGCCGCAATTTAAAGCTGAACCGCACCCACCATTCTCTTTATAAAGATAACATATTTTATCACCATAGGATAATGCAATAGTTTCAGTTTCATCTTTAGAACCGTCATTAACAACAATAATCTCAATATTTTTGTAAGTTTGTGCTAATGCACTATCGATAGCTTCACGCATATAATTAGCACCATTATATACTGGAATAATAATTGAAACTAATGGGGAATATATGTTTTGTTTCATCCAACTAACTTGTTAGAATGCGGAATTAATCTAATTAATATACTCACTAGTAAACTAATTATGAAAGTAATAAATGCTAAAGCTAAACTACCTGTAACTGGATAATTGACATGATTAAATTTTGAAAATTCTATTGCTATGTATTGTAATCTATCTAGTAACCAAACATGAATAAAATATATGCAAAAACAATTATCAGAAATACATTTCAATAATTTATGATAATAGACCGGCACATTCATTGTTTGTAATACTAGAAATATTCCTATGGATGCGATTATAACATTTGGAGCTAAATATACATATGCAGTTTCATCAGGTATAGAGGAATTTATATTTAATTTCCAAGTTACAACAAAAGTAAATATACTCCCTATACAATATAAACTTAACCAACAATATGTAGGAAATTTTGATCCAATATTTTTTCGTATTAAATATGATCCTAAAATTGCATAACCAGAATATTTAAAAACATTACCAATTGCTATCAAATCTATGATTGATAAGTAATAATAAGTATTAACAGTATTAAGACTAAGCCATAATATTAAGAAATAATAAGCAAATTTTGTATCTTTAATCATTTCATTAACAATTAGAACAAGGATTGATAATAATAAATAAACTCCTAGCATATAATAAACAAATTCTAGATGATACATTGCAGGTTCATGAATAATACTATTTAATACAGCAAAAATATTAAATTGTTCTCCTATATTATAGGAAACCCAATATTTATATAAAATACTCCAAAATATTGATGGAATTAATAATCTTTGTACTTTATACCATAATTTTTCTATTGGCATACTATTGTGAAGTGCTAAAGAGCCTGATAACAATATAAACAACGGCACAGCCACTCTACAAAAAGAATTTATAAAATTAGATATGATGAAATTTTTAGAAAAAGGTACAAAAGAATATTTATAAAATGATAAAGCTATCGAATGAATTATAATTACCATAAAAATAGCTAAAGACTTAGTTAAATCTACCCAAACTATACGGCTATTATTTATTGTCATTATCATTTCTATTTAAAAACTTAAAAAATGTTGCTTGCATACGCTCTAATATAAAATCTCGCAAAAAGCATTTTGAAGCATTTTCCGCAAATGTTTTATAAGAAACTTCATCAACTATTGCTCTTTCAAGCTCATATATTATTCTATCAGTAGAAAGCGAATTACACAAATATCCTGCATTATTTTCTGCTATATATTTGCTTGGAGAAGAATATTCAGGTGCATGACAAAAAACCGGTCTACCGGAAGCAAAATATGTAACTAATTTTGAAGGAAAACTCGTACTTGATTCTTTGTAAAATTCTTTAGAAAACCAATAGGGCATATATAGAAGGTCAGACTCAGCAAGTAATCCAATAGTTTCTTCTTGAGAACGCCATCCTAAATATTCAAAATTAGCATATAGTTGTGTAAATACTTGAAAACCTTGACCCATTACTCGAACTTTAATCTTTTTACTTGCAATAATCCAGTTAACTTGATTAAGAGCATTAATAAAACTTAACCATTCTGATTGAGCATAAAACTGCCCTGCTATACTTATGATATATTCATTTCTATTATGAGGTGATATAGCCGGCACACGTGCTAATTCTTTTGATAATCCAGCGATTAATGGTATAGTAGGTGTATTATATTTTGTTTTATAACTCTCAGACATTGCCCATGAAGCAGTAGCACAACAAATACTATGTTTTATTACTAAATCAAACTCTTTTAAAAGTCTTTTTTGAGTCAATCTGTCAATTTTATTAGAACGAAGCCACCATTCAAAAGGATCCCATATTTGAGTAAATAAAGATACTGACAACTTTTTGGCTAAAGGTCCTGTTAATCTAATTATAGTCTGCCCTTGCAATACTGACCATATTGCACCAACTTGATGCTCTTTAGCAAATTTTATTATTTTAGGAAGTAAAAAATATTTCACTGTTGCAGCATTTAATAACTCAAAACCATAAGCAATTAAGTCCCCTATTATCCCTTTTTTATACCTTATGGCGGCTTCAATAGGTTTAAATAATTTTAAATGAGGAATTTTGTTGAGTTCTTTTGGTATTTTAAATTCTAAAGCAGGATTTGCAACACTACATATAACAACTTCATCTAAAGGTAAAAATTTTACTAATGGATTCAATACTAACCCTGCAGTATAATTCTCACATGGCGGTATATCAGTTAAAAGTAAAATTTTCATTTATTTAAAGTCTCTTTATAAATATTGACTAGATTTTTTATGTATAGATCTTGACTATAATGTAATTCAGCTATTTCTCTACTCTTATTTCCTCTATCTAAACGTTCTTTAGGATTATCAATTAAATGTTTTATTGCATTTGATAAAGCATGACTATCACGCATTGGAACAGCAATACCAACATCAGGGGCAAAAGTTACATCAGGTAGTGAATTATCACCATCAAAAACTATAACTGGCTTACTACATGCCATTGCTTCTATTGCCATAACACCAAATGCTTCAGCAACAGATGGCATCAAGAAAATATCACAAGCAGATAAAACATCACGAAGTAATACATCATCATTAGTCCAACCAAGTTCAATTATATCAAATTTCCCTCTAAACCGCTCTAGTGTATTATGCCTACCAACCGTTAAAAGACATATAGATTTTGTAGTTTCTAATTTTTCTAATGCTGCCATAATATATTGATATCCTTTAAAATGAGTATCTTCAGAACGGAAACTTATTACTATTTTATCTTCACTAATATTGAAGCGTTTTCTTGCACTTACTGTAAAATCGGAAGAGAAAAATTCTAAATCTATACCAAAAGGTAAATGATGAATTTTAATTTCTTTATCATTAAACATTGGCGAAGAATATACCATATCTTTCATCCATTTTGATGCTATAATTATATCAAAATTAGCTTTCTCATAAGCCATACGTTTATAGTTAAATAAAAATCTACTATTATCTTTTTTCATTGCAAACGGAGTGTTAAGATCTGGACAAACACCACAATCTTTTCTCCAGCCCAAACAACCCATAGGATAGATACAACGTCCTGTCATTGCCCAAGGATCATGTAAAGTCCATATAGTTGGCTTTAAATCTGTAATCATGGATAAATCACTAATACTAAAGTAGCCAGAATGTATGATATGAAGATGTATTAAATCCGCTTCTTGAAAAGCAGGCATTTTTATTATTTTTGAAACATTACGATATAATATAGACTGTAGAGATGTCTGATTTTCTATTAATTGTAGAATTTGGTTTATCTTCCTAGGGATTATACCTTCAAACGTTAATACCTCAGGATCTTGAGTATCCTTAGCCCATACTAAATGCTTCGATTCAATACCATATTTTTTTAAAATCTGTGTTATAGATAAACCATGAAATCTACGACCTGGTGATTCATAACCATTTATTTGTAATATTTTCATTTAACTTAGACCTTATTAAACGCTATACATCATCATATCGCTCTTAATTTATTTAAGATTCTTCTTATTTTAGAGTAAATCTTTATAAAAATAGAGCAATTCTCATTACTGATTTTTAGTTCTTGTTCCTTAACTTTTAGATATTCCTTAAGCCTTTCTAATTCTTCTGTATTAACAATTAACTGATCGGTTAGCTGGTCTATAGTAGATTTTAATAATTCTTGTAAGTTATTTATTTGTTCGTATAATTTATTTATATCTTTAAATTGTGAAGCAAAATTATTGATCTTTAATAGATATTCTTGCGCTGTATTAATAGCAAAATTTATTTTTTCACTATCTACTATTTCTAAAATTTCTTTTAAAGAGATAGTCGTACCTTGCTCAATTAATAGTTCTGTTGTGCGTTGACACATCCACAAACCGCATTTTAAACTACTTCTTACAATTTCACTGTTTATAACTTTTTCTTTAAAATCAGGAAATGTAGCATTTAAATTCTCTAAATGATTAGTAGAATTAAATAAAACCTTTTCTCCATATAAATCATTAAAATAATTTTCTGTATATACTATATTTTTTATTGCATAAAACCCTCCATAAGGAGTAGTAAGCAGTTCACCATTAGAATTATGAGTGTGTAATTCTTTGCATCCTATAATATTCCATCCAGGAAAATCTTCTGGATACCATCCGGATTTATGCTCTTGCCATGCTCCTCCATGTAAATTCCAACCATCAATCTCATGCACTTCTTGTGGCATAAACCCCAAAGGGGTAAATATTATAATTTGCCTGCGTGCTATACGTGTACATTTAATTAATATTTCTTTTCCAATTTCTTTAGGTATATGCTCTATAACATCTATTAAAAATATTGAGTCAATAGATTTATCTGGCAATATACTAAGAGCAGATTTTGCGTCTAATGGAATTATTATTGAATTAGTTCCTGATAAATTCCTTTTTAATATTTCAGTATATTCTTTATATGGTTCTACACAAATTAGTAAATTAGGAACTATATATTGTTGTGGACGAATCCCACATCCAATATCCATAATACTATAAACAGGACTAATAAATTCTTTTATTTTAATATGTAAAATATCTTTCGAATACCATTCTTCAACTATTTTATCTTTTGCTATCATTTAAACCATACCGTCCGGTTAACGTAATCAACATAACTTAAAACTATACGTAATATTTTCTTTGATACAATACTTGCTTCAGCATAATCCGACACGATATTTTGCAAGCACTTATTATTTTTGTGTTGTGCAGTAATGACTTTTACCGATTGCAGTATTCGTTCTGCTTTAAAACCAGACATAATGAGCGTTCCCGCATCCATTCCCTCAGGTCGCTCGTGTGCTTCCCTAATATTTAAAGCAGGTAAATTAAGTATAGATGCTTCTTCGGTAAGAGTACCGCTATCAGACAAAATACAAAACGCATTTATCTGAAGTTTGACATAATCTGTGAAACTAAAAGGCGGCAAAAACCTTATTTTATCTTCTAGTTCCTGGAAACATTCTAAATCTTTGAGCCTTTTTTTAGTCCTTGGATGTGTTGAGAAGATTATTGGGTAATTATACTCTTGAATAAGAATTTGCAAACTACTTAATAAGTCTTGAAGATTATTTTTAACGTCTACATTTTCTTCACGATGTGAGCTAATTAAGAAATACTGCTTTGCTTTTAATAATAATTTTTCTAAAATATCTGATTTTAATATTTTAGGCATGAAATGGTTGAGCACTTCAGGCATATGCGAACCTGATTTTAAAATACGCTCAGGAGGAAACCCTTCAGAAATTAAATAACGTCTTGCATGCTCGGTTAATGTAATATTCACATCACTAATATGATCAATAATTTTACGATTTATTTCTTCTGGTACTCTTTGATCAAAACAACGATTCCCAGCTTCCATATGGAAAATTGGTATTTTACGACGTTTCGCTGCAATTGCCGATAAACAAGAATTAGTATCACCATAAAACAAAACAGCATCGGGTTTTTCTTTTTCAAGTACCTCATCTACTTTTGCGATAACAATGCCAATAGACTTAGCTGTATTATCTGATGCTATTTCTAAGAAATAATCAGGTTTTCTAATGCCCATATCATCAAAAAAAACATGATTTAATTCATATGCATAATTTTGACCTGTATGAACCAAGATATGATTAGTATATTTATCAAATTCTGAAATCACTAGACACATTTTAATAAGTTCAGGACGTGTACCAAGAATAGTCATAACCTTAAGCATTTTTTAGCTCCTTTTGGACGTAATCAAGAGTTAATAATAACTCCTTTACTTCTTTTAAATTTAAACGTTTTGTATTATGTGAAGTGTAATCATCTAAAAGAGCTACTTTTTTCTCACCTGTAACAAAATATTTTGCATAATTCAGATCACGTCCATCCATAGGAATACGGTAATAGCCACCTAAATCATCGGCCTTCGCCATATCTTCCGATGATACTAATGATTCATAATGTTTCTCTCCATGACGTGTACCGATAAAACGTATTGCATTTTTACTACCAAATATTTCTTGTAATGCTTTTGCAAGCACTTCAATTGTACTTGCAGGAGATTTTTGTACAAAGATATCACCTTGGCGACCATGTTCAAAGGCATATAAAACTAAATCTACGGAATCTACAAGCGACATTAAAAAACGTGTCATTGATGGTTCGGTAATAGTCAATTCCTTACCTTGTTTTATTTGATGAATAAAAAGAGGAATAACAGAACCACGAGAAGCCATAACATTACCATATCTAGTAACACAAAGAATCGTCTCACCAGGAGAGCGCATACGCGCTTTTGCTATTGCTAACTTTTCCATTAATGCTTTAGATAAGCCCATGGCATTAATTGGATATACCGCCTTATCGGTACTCAGTACAATAACTTTTGTAACTTTGTTATTAATAGCAGCACTTAAAACATTTTCAGCACCTAAGACGTTAGTATTAATTGCTTCCATTGGATAAAACTCACAAGTTGGGACTTGTTTTAAAGCTGCAGCATGAAAGACATAATCTACACCATGCATCGCATCATCAATACTTTGATAATTACGTACATCACCGATATAAAATTTAAGTTTTGAGTTATTTAAAGCAATACGCATATCTTCTTGCTTTTTTTCATCTCTACTGAAAATACGAATTTCTTTAATATCGTTAATAATATTGGACTTAAGAAAACGAGAAAGTACTGCATTACCAAATGAACCGGTACCACCTGTAATCATTAAAGTTTTATCTACAAACATTATATATAAATACCTAATTTTACAATTAACTGCTACCTAAACTCATACATGCGCTTTACAAGTTCACGCCATTCAGGAGGTTTATATCCAGTTATAGAGTTAAAACGAGTAGAATCTAGTGAGCGTTCTACTATCAGCTCATCTGAAGGAATAATTTCAATTTCTTTATTATATATTTCTGCGACTAATTTTAACAAATCGAACTTATTAATAGGGTGTGATGCCACATGATAAAGTCCATGTAGTTCTGTATTTGGTAATACAAAATCTCTTATTATTCTTGCAAACTCTACCGTCGGGAATCCTGAATAAATAGCTTTTGTAAAACCTTTGACATAACCTTCTGTACTTAAAAACCAGTTTATTAAACTTCTATTGCTTGCTAACTCATGACCTATAATAGAAGTACGTAAAGTGATAGCATGCGGATAATCTACTTCACCGAGAAATTTTGAGCGACCATACAGATCATTACAATCAGGAAAATCACTTTCTTTATAATTACCTCTTTTTCCTGAAAATACACAATCCGTACTAATATGGATTAATCTACTACCTATAAGTCCGCATAAATTTGCTAACCTATGAGGCAATAAACTATTTATTGGTAATGCTTTTAATGGATCATTTACATCAGCTAATTGCTTTACAAGCCCTATACAATTTATGACAACATCAGGATTTGTTTTATTTAAAACCTCAACTAAAGAATCATGGTTTTCAACATCTACATTTGTAATTAATTTATTTGTTAAATCCTTAGAAAAGTATAAACTTGCTGCATTACTGCGAGCGGTTGCACAAACGTTAAATTTACTATCCTGAGTTAAAAATCTAAACATGCTGTTACCCAGCATACCTGTAACACCTAAAATTAATATTTTCATGGTTATATTATTTTTTATCGCGCCCTTTCTATCATAAATAATATATCTTTACAATAAGGTTTTTTACATAGCTCACAATATGTCATGATCCACTAATTAATTTATCCTTATTACTTTTTATACAAATTTTAATATTTCTAGATTTTTCTATACTTGAATAAAAATTGATACTGTAAGTTCTAAAACATTAGATTTAATTATTACTTAATCGCATATTTTAAAATCTAATTTTTTTATATTTCAGTATTATTGTTATACTATAAGTATAACTAATGCAATGATTGTTGTACTTTTATTTTATTCTTTTCGATGAATTAATAAATTTATTTAAACTTTAGCAACAATTGTTTTATAATTGTACTAATTAGTATTTAGTAAATTATGACATATATACAATACAATAAATGTACAAACATCAGATATTGCATTTAAAAAACATTTTAAAAATCTACTTACTTGACTAAATAAAATAAGCATAATGCTTTTATTATAAAATAACAAAAAGAAAATTATCGCTTACTAAAATAAGCACATTAAATACTGATAAAATCATAAAACTTTACTGTTACTTCTTACAGGAGAAATAAAATAAATCTAGTAAACTGTTTAAATGCGACTTCACAATAACTGATTACTCAATTAAAGATAATACAATAAATACCATGTGGGATAGTCAATTTTGTATGAGGAAGGATACTTATTTAAGTATCAAATGAAATTAATAGAGATATAGAATATATGTGCTTATATCTCTATCTATAATTTAGGTAGTAGCGATGCTTGAAAAATATCAAAAATAGCATTTTTAATTAATCTAAAATGACTTATAAGTTGCCGTCTATTACATGCTGGTATTATTGGTTCCATTCCTAATAGAAATCTGTTTATACAATAATGCATATATTTCTTATGATAAAAAATCATAAAATATGCTAATTTAGGCTATTAAAAATCAATATAATTTATATTAAAGATTAAACCTCTTAATAGCATTAAGTACGATTTCAAGAATCATACTAGCAGCTACTGCATCATCATTATGATTACGGTCCTTTCTTTTGATACCGAATGATTTAAGAAAATTATTTGCAGATTTCGTAGTTAATCTTTCATCTTGTAAATATATAGGCAAGCCCAAAGACTGTTTTAGTTTTTCGGCAAATTTCATTACTATATTTGTTTGTTGTGTTACTCCTCCGCTCATATCAATAGGAAGGCCAATTACAATACCGCAAACTTTATATTTCTTTATAATATTAAGCAAGGAAGTGATCACGACCTTTTTATTTACCGCAGTTATAGTATTGAATGGCATAGCAATGCTAAGTTCTTGATCAGATAATGCTACTCCTATTTTTTTGCTTCCGTAATCAATAGCGATAAGCGGCTTATTTGGTATTAAAAGTCTATAAAATTCTTGAAGATTTTTTATGATCATGTTAGTTATTAAATTTACTTATATTGTTATATTATATGCTAAAAAATATTTTAAAACATTTCGATACGAAATTAATTAAATTATCAGCGATTCTAGCCTTTATTTATTGCTTGTTATTTAATACCGCAATATTGATTTATAAATTTGATTACTATAAAGCTACAATCTTTAAAGGAATATTAGAGTTATTAAAAGATTTTTGTTATATTTATATATTTTCTTTTATAGCATTTTTCGGTCTTAACGTACATAGATTCGTATTAAAACTTGGAGCGGGGTTTTTATTTATAACATCTGCTATTGCTAGTTATTATATTTATTTCTTCAAAATCAATCCTACTAAACAAGTAATAGGTAGTTTTTTTTCAACAGATTTAAATGAAATTTATGAATTAACAAGTATTAAGTTAATAATATGGATAATTTTTTGCCTTTTTACTTGTTTTTATACATTGCAATCGTTTATCGCTAAAAATTCTAAATCATTTTTAACAAAACTATTATCAGCTGCCTGTTTACTTATTTTTATATATAACATTATTACTCCTTCATTTAAGATACTAAAAAATTATTTCCCAATTCAGTATTTACATAATAGCTACCTTAATTTTGCGGCACCTTTCGATAATAAAAATTATACAGATATTAGCAAACAATATCACTTTATTGATAACTCTGACCCTGATATTATAGGCGTTTTAGTTATAGGAGAATCAGCAAGATTTGACCATTTCGGTATTAACGGTTATAAAAGAAATACGACTCCATACTTAAAGACTGCTCAAAATATAATTTCTTTCAAAGCGAAATCTTCTTATAACCTGACATATCTTTCTGTACCATCATTACTTTCACGTTATCCTGCAAGTCAAATTGAAAATAGTAGGCTAGAGAACAGTTTTTTATCAATTTTAACAAATCTTGGTTTTAATACTACTTGGATTGGTACTCAAACTTTAATGAGAAATTTTGCAAATTTTGACCTTAGTAATATCTATAATGATGTTAATTTTACTATAGTACCTGGTGGCTCTGCCTTACTTTCTTTAAATGATTATGATGAAAAAATATTGCCATTTATAAAAGAAATTATTACGAAGTCAGAAAAACAATTTTTAGTATTACATACATCAGGAAGCCACTGGAATTATAACGCAAGATATCCAAAAAAATTTGAACATTTTACCCCGACCTGCCATATTAAAGTGAAAGGTGATGCAAGCGATTGTGATCAGCGTGCTTTAGTAAACAGTTATGATAACTCAATTTTATACACTGATTTTTTATTATCTAATCTAATCGAATTATTAAAAGATAAAAATGTATTTTTATTATATGTGTCAGATCACGGCGAATCTCTTGGAGAAAATGGTTATTATGGTCACGGTGGCCCACTACTTTCAGAACAAATAACAGTTCCTTTTATAGTTTGGGTATCAGATACTTTTAAAGCAAAATACCCTGAATCTGTAGATGCAATTAAAAGTTATGCTAGTACTGAGATTAGTCATGATTATGTATTTCATTCAATTCTTGACTGTTTAAATATAGATTCGGATATCATAAATAAAGGCTTGAGTCTATGTAAATCTAATTAAAAATTATTGAATTATTTTAAAATTTATATATAAAATAAGAACTCAATATTTTGGGATACTAAACTAGAACACTAATTATTTAGAATTTTTAAAATGTTTTATTTAAAAAACTAGAAATAATAAAGTTTTTGAATTTATTACAAAAAGATTTTTATAGTGTTAAAAATGAGATAACAATAAATGTTTAATGTGAATAATATTCAAAAGAATTTTTGCTTTAATCAAAGTAATTAAAGCTAATTAATTTCATAAATAATATCATGCCACTTAAATCCTTTTTTATTATAATTAAAAATGATATAAAGTAGAGTATAACAAAATTCACTGATAGAGAATCAGTCCCAATGCAACATACACTCAGTACAATAATATACACACTAGCACATTAGGATGCGTATATAAATAGAATTATATAAAAAATCTAATAAAAAGGTATGAAATCATGGAATATGCATTATTAATTTTCAGTATTATAACGATTTTAGTTATAATACAAATGGTTAAAGTTGTGCCTCAACAGCAAGCATGGGTAGTAGAAAAACTTGGGAAATTCGATAAGGTACTACAACCAGGTTTAAATTTACTCATCCCTATTATTCAAAGAGTAGCATACAAACACACTTTAAAAGAAGAAGCAATAGACGTTACCGCTCAAACTGCCATTTCAAATGACAATGTAACATTATCTATTGATGGTGTTTTATATGTGAAAATAATTGACCCGATGGCAGCATCTTATGGAGTTAATAATCCTTACTATGCTATAACACAGCTTGCACAAACTACTATGCGTTCCGAAATTGGTAAACTCCCTTTAGATAGAACTTTTGAAGAACGTGATACTTTAAATGTAGCAATTGTATCAGCGATTAATCAGGCTGCTATAAATTGGGGCATACAATGTATGCGTTATGAAATTAAAGATATTCAACCACCGCAAACCATATTAAAAGCTATGGAACTACAAGTAGCAGCTGAGCGTCAAAAAAGAGCTCAAATTTTAGAATCAGAAGGAAATAGGCAAGCAAAGATTAACCATGCAGAAGGAGAAAAAGCACAAATAGTACTTAATTCAGAGGCTTCTTATACCGATCAAGTTAATAGGGCAAAAGGTGAAGCTGAAGCAATAGGGTTAGTCGCTACCGCTACAGCAAATAGTATTGAAATTGTAGCAGCTGCTATACAAAAAACTGGAGGTAGTGATGCGGTGGCTCTAAAAATAGCTGAGCAATATATTAGTGCATTTGGAAATTTAGCTAAAGATACTAACACAGTAATTTTACCTACGAATCTTTCAGAACCTAGTAGTTTTGTAACCGGAGCATTAACTATATTTAATCAATTAAAAACTTCTGCAGAAAAGAAAAAAGATAAGTAGAAATTTATAAAGATTTATTATTGTAATAATAACTAGTTTTATATATCATATCAGATTATTAATTAAGAAAAGGTTATAAATATGTCAGTATTTGTCGGCAAAACTGCTCCAGATTTTACAGCTAAAGCTATTATGCCTAATAATAATATAGACGATAAGTTTAAACTTAGCGATTATGCTGCGGGTGATAATATAGTGTTATTTTTTTATCCTTTAGATTTTACTTTTGTTTGTCCATCAGAAATTATAGCATTTCACAATAAGCTTGGTGAATTTACAGAAAGACGTACTAAAGTAATAGCTGTTAGCGTTGATTCTCATTTTAGCCATTTAGCATGGAAAAATACTCCACATAATAAAGGTGGACTTGGGCAAGTACAATTCCCTATGGTATCCGATATAACAAAAGATATTTCTTCAAAATATAATGTACTTAATGAAGACGGTATTGCTTTGCGTGGAACTTTTCTAATCGATAAAGATTTTATAGTACGTCATATGCTAGTTAATGACTTACCTATCGGTCGTGATATTAATTATACATTAAAAGTAATTGATGCTTTAACTCATCATCAAAAACACGGGGAAGTTTGTCCTGCAGGTTGGCATAAAGGAGAAGAAGCGATTACTCCTTCACATGAAGGCATAGCACATTATTTAAGCTCACATGCTGAGAAGTTATAGTAATATAACTGTGTTATGAAAGTGCAGTACTACTATATCGTAACTTATCCACGATATGTTGCAAAACTTTTTACATAAAATAACACAATACTAATGAAATATTACCGAATGCTAAAAAATGAGTAAAAAAAATTGTCTTGAATATCATTCAATTATTTTGTGATATAGCAAATTTCATCAAAGCTAAAGATTTTTCACTACGAGATAAAGTTAAAATCAATTATAGTAGAAAAAATGATATAAAAGTCATCGCATATAAATTCCTAGGAATACTCAAAATTATTACTTTAAATTTATAATTCAGTGCTAATATTAAATTATAAAGATAATATACAGTTATTACTGTAAGCTTGATAAGCTTTAATAAACAATTTAATCAAAGAATGGGGCATACAACTAATTTCAGCATGAGCAACAAACATATATAAGAGAGTACATCAAACTGCAATTTTTAAAACTATCAGAATTCTTACAGGTGATATTGATCATATATTACTAAGAAATAAAAATATTTAAAATTTAGCAGCAAAAGATTTAATATTACTGAGTTCACTATAAGGTCTATACCATATCTTAAGAAACATTTTTTGTAGCGTAATAGGATAAGTGAAATCACTCTTGGAATGTGGTAGTATTGAAGCAAGCTTTAAGCCTAGTTCATTAATAATGAATTTGCACTGGAACAAAATAATGAAAGTAATATTTTTTTCATACTCAAGATAATGCACGAATAAATTACTAGGAATAGATCATATTTAGTATAAATCAATAGAATATTAGCTAATTTACAGCAAATATTTAAAAAGGTTATCGATTAATTAAGTATTTCATTAAGCTGAAAACAGTAAATATCATATCTAAAGAATTAGTATACTGCTATGTTTTATATTTGAATTATTATCGGCAACAATATTTTAAACATTTAAGAACACAAAACAGAATTACCATCGCCTATCATATACGGTATATATAGAATTAAAAGTAATGCATAATACCATAGATAATGTAATGAGTTTATAATAAATAGATGAAATTAGTAATAGTAGAATCACCAGCAAAGGCAAAAACGATAAATAAATATTTAGGCGATGAGTTTAAGGTTATTGCATCATTCGGTCATATTAGAGATTTACCGTCTAAGAAAGGTTCGGTATTGCCTGATAAAAATTTTTTAATGGAATATGATATTTCAGATAAAGCAGGTAAATATGTAGATGCTATAGTTAAAGAGGCAAGAAAAGCTGAGGTAGTATATCTTGCAACTGATCCTGATCGTGAAGGCGAATCTATCTCATGGCATGTTGCAGAGGTAATAAAAGAAAAAAATAAGGTTGAATCAGATGATTTTTTTAAAAGAGTAGCATTTAATGAGATTACTAAAAAAGCAATTATGAATGCAGTTGCAAACCCTAGGAAACTAGATACTAACTTAGTCAATGCACAGCAAGCAAGAAGAGCTTTGGACTATTTAGTCGGCTTTACCCTTTCACCTCTTTTATGGCGTAAATTACCTGGATGTAAATCAGCAGGACGTGTACAATCTGTGGCTCTGCGATTAATATGTGATAGAGAAGATGAAATAGAGCGTTTTAAGTCAGAAGAATATTGGGATATTAGCCTTAAAATGCAAAATAGTAATAACGACCTATTTACTGCTAAATTGACCCATGTAAACGATCAGAAGTTAAAAAAATTCTCAATTATTAATGAAAAAGAGGCCAAAGATTTAACGCAAAAATTAAAGTTACAGAAATTTTATGTTGAAAAGATAGAAAAAAAACAACAAAAACGTCAACCACAGCCACCTTTTATTACTTCATCACTACAACAAGAAGCAGCAAGAAAATTAGGTTTTAGTGCTAAAAAGACAATGCAAATAGCACAAAAACTTTATGAAGGTGTTGATATAGGTAAAGAAACTATAGGACTGATTACTTATATGAGAACTGATGGCGTTACATTATCAAATGACGCAATAGCAGATATACGTAAGTTAATCGATAAAAATTATGGCAATCAATATTTACCAATTAAACCTAGAATTTATCAATCCAAAGTAAAAAATGCTCAAGAAGCTCATGAAGCAATAAGACCGACAAATATTACTTATACTCCTGATAGTTTAAAACAAAAGCTAGAAAAAGATTATTATAAACTTTATGAACTAATTTGGCATAGAACTATAGCCTGCCAAATGGAAAATGTTATAATGGATTTAGTAATTGCAAATTTAGCTTCAGAAAATAAAGAATATTTAGCAAAAGCAAATGGATCAATTATAGCATTTGATGGTTTTTATAAGGTTTATCGTGAAAGTCTAGATGATGAAGATGAAGAAGATAATAAAATGCTACCACCTTTAAAAGAACAAGAACATATTAAAACTAAAGAAGTTATTCCAAATAAGCATTTTACCGAACCACCTCCAAGATATTCAGAAGCAAGTTTAGTCAAAAAACTTGAAGAGCTTGGGATCGGCCGTCCTTCAACTTATGCTAGTATTTTATCAGTTTTACAAGATCGGAAATATGTTGCACTTGAGAAAAAACGTTTTATACCTGAAGAGCTTGGACGTTTGGTGACAGTATTCTTAGTTGGGTTTTTTAAGAAATATGTAGAATATGATTTTACTGCAGGTCTTGAAAATGAATTAGATGAAATAGCTGCAGGAAAACTTGAATGGAAAACTGCTTTAAATAATTTTTGGAGGGGTTTTAATCATAATATTGAGTCGGTAAATGAACAAAAAATAACCGAGATTATTAACTATTTACAGAAAGCTCTTGATTATCATTTATTTGGTGAGGATAAAGAATCTAAAGTATGTCCATCATGCAAAACAGGTCAGCTTAGCTTAAAACTTGGTAAATTTGGAGCATTTTTAGCATGTAGTAATTATCCTGAATGTACTTTCAAAAAATCTATTGTGAGCGGTAACGATAATAACGAGGATGAAGGTGATCCTTCAACTATTCTGAATGATAATAAAATTTTAGGTACTGATCAAGATGGAGTAGAAATATATCTTAAAAAAGGACCTTACGGACCTTATATTCAGCTTGGCGAACAATGTGGCAAAGTAAAACCAAAACGTACCCCCGTACCTGCTAACTTGAAACAAAGTGAAATTACACTTGAAATTGCATTAAAGCTCCTAAACTTACCACTTAAGATCGGTATCCATAAGGATAGCGGGGAAGAAATTATAATAGGATACAGTAAATTCGGCCCTTACATAAAATATATGTGTAAATTTATTTCGGTGCCAAAAAAATATGATTTTCTCAATTTAAGCTTAAATGATGCAATGAAGCTAATTCAAAACAATAAAGCGAAATTAGAGAAGAAATATGGATAAATGGTTTAATATCAAATTATTACTATAAACTAAAAATATACGGTGTTACAATACAAGATTTCGTGGTTAAGCCACACACGTATAGCAATTAATAAAATTAGTTATTTATGACAAAAGTTATAACACGCTTTGCTCCATCACCAACCGGTATGTTACATGTTGGTAATATTAGGGTCGCATTACTTAACTGGCTATATGCAAAAAAGCATAATGGAAAATTTATTTTAAGATTTGATGATACAGATTTAGAACGTAGTAAACAAAAATATAAAAACGATATCGAGAGAGATTTAAAATTTTTAAATATTAATTGGGATCAAACATTTAATCAATTAAGTCGTGTAAGTAGATATCATGAAATAAAAAATCTATTAATAAATAAAAAAAGATTATATGCATGCTATGAGACTAAAGAAGAATTAGAATTAAAACGTAAATTGCAATTATCTAAAGGTCTACCACCAATTTATGATAGAGCTAGCTTAAATCTCACTGAAAAACAAATACAAAAATATATAGAACAGGGCAGAAAACCACATTATAGATTTTTTTTAAGTTATGAACCAATTAGCTGGTTTGATATGATCAAAGGAGAAATTAAATATGATGGTAAAACTTTAAGTGATCCAATAGTGATAAGAGCAGATGGTAGTATGACATATATGCTCTGCTCAGTTATTGATGATATTGATTATGACATTACTCATATTATTAGAGGCGAAGATCATGTTAGCAATACCGCTATTCAAATTCAGATGTTTGAAGCATTAAATAAGATTCCACCAGTTTTTGCGCATTTGAGTTTAATAATAAATAAAGAGGAAAAAATTTCTAAACGAGTTGGAGGGTTTGAAATAGCATATCTTAAAAAAGAAGTGGGACTCGAAGCTATGACAATTGCTAGCTTTTTCAGTTTACTTGGTTCATCGTTACATATCTTCCCTTATAAATCAATTGAGAAACTAGTAGCACAGTTTGAGATAAGTAGTTTCTCGAAGAGTCCAACTATCTATCAGCAGTATGATTTAGAAAGATTAAATCATAAATTATTAATAAGTTTAGATTTTAATGAAGTAAAAGAACGTCTTAAAGAAATAGATGCAGATTATATTGACGAAAATTTTTGGTTATCTGTCAGACCTAACTTGCAAAAATTAAGTGATATCAAAGACTGGTGGGACATTTGCTATCAAACTCCAAAGATAAAAAACTTAAATTTGGATAAAGAATATTTAAAGCAAGCATCAAAATTATTACCGCTTAAAATTACTAAAGATAGCTGGAGCATTTGGACTAAAGAAATAACAAATATAACAGGTAGAAAAGGCAAGGAACTTTTTTTACCCCTACGCCTTGCTTTGACCGGCAGAGAATCAGGACCTGAAATCGCAGGCATTTTACCTTTAATTGACAGAGAAGAGATAATAAGACGATTAATCTCCATTGCTTGAGCAATGTTATACATCAAAACAATAAAAATACGAGTAAAAACTAAGCCATATTGTAAAGTCATATAGTGATGCAGCATTGATTCACACAAAATACCCTACTCAAACTTAAGTATAACAAGGTTTTAGATAAAATACGCTTAATACTAAAAAGCTTTTGAAAACTAAAAATGCTGAAGTTAGTCCTGATTTTAAATATTTGTTGCAGATCTGATAAATCAGACGATGAAATTACAATCGATCCAAAAATTAAAGCAACAATTAAAAACATAGTATTATCAAGAAATAAAAATAGTAAAATTTACTCAAAGAGATTTGGGCAAACGTAGATATACAATGATAATTAGCCCTGCCTAGCTCAAAAACACTTAAAATAACATATAGGATTGCTCAATATCTTGATCACATTAATCGCATGATACACTAACGCAGTATCATATATAATTTACCACAACTTTGCTAACATTTTAAAAATGACTGGTGACACACTATAGGCTGTATAATTTGTTATCATAATTACACAAATTGTGATTAAATTATAATTTAAATGTAGGTTATATAAATTGTGCATTTGATATTTTTATTAGCATATATCTTATTTAGCATTACAGCTTTCAGCAGACACTTTACGCTTTGCAAGATTTAAGGTCATATTAATATGGTAATTCCATGCGAGCGATATCAACACAACATACTTTAATACATAAAGCACAAACATCCCCTAATGTATCTAATCTACACTAAAAAATTCAAGTACTAATAATTTGTGTGATTATAAAACTTTTTATGTTTATAAAATTAAGCAGTTCGTCTTTTGTTGCTTGAAGCATTTTTGAAAAACTAAGTGTAATAGAAGATTTGTAACCTAATTTTTCGCCTAAATAATCTAAAGATACATCAACATTGATGCATCAACACATAACTGTAATATAAAAGTGAGTCTATAATTAGTGCTTTGGTACATTTTGCTGCCATAATTACCTCCTCAATTTTCATCAATAGTTCTTTTTTATAGCAATTTTTATAGTGTAGTGTACTGATTGGAGATAGAATAATTTTTAAGACAACTTACTATTTTAATACTTAAGAGATTCACGATTCAGAGCTTACTTAGATCAAAATTAGCACTATGTCATATTTGAGATTAATAGATCAGTCATAAATGGAAGGTTAAAAATTTCTTTAGAGTCATCAAAGGTCTATTTTCCATTTCTAAAAATTATTTTCTTTTTAGGTTCTTAATATAAGAAAATAAGCAAGAGAAGATAAGAATTTTAACAAGACCGCTTGGAATAAAAATTATAAAACCACTATAAATTGCCTGTTTTAAACCTATCATACTTGCAAGCCAGATAATGCCACATAGATAAAATATAGCATGACCGATAATACAAATTATAGTAACGTTTAAATAATTCTCAGCTAGCTTACCCTTTAAAACACTCATAACAGGCATTCCGATTAAAAATCCGAGATAATAACCACCTGCTGATCCTAAAAAGTAATTTATCCCGCTAGAAAATTGACAAAATACCGGCAAACCCATTACACCTATAAAAATAAAAGTTAAGATCGTAAGAAAACTAAGACGTGGACTATATGTAAAAGCAATAATACAAAGTATTACGCTATGCATAGTAATTGCTACCGGTTTTATAGGAATCGTGATTTGTGATGAAGCAAAAATTGCGATTACTCCCATAACTATTTTAACAATATCTAGAATATAAGTATTTGTACTTAAATATTCGACAAATCTATTCAGATACAATATTTTAAATAGAGAATTCATAATATACCTCATTATTTAGTTTAAAAGTTATTTGCGGATAATATATCAAAATAAATGTTATTATTATTCATTGTTAATTATTTTGTTACAAAAGATTATAGTTTTTTGGATACATTAGTCAATGCACACTATATATGCTTGTTTATTATTTTAAATTATTATTTACTACTCATTAATCGATACTATTCAAGCAATATAGTATTTATGATTTGAATTCGGCAAATTGCGGATCCGCTCCGTATAATTGTAAGTACGAAATAAAATGTCTAAAACCTTTGCAAAAATCTCTTAAATCTTCAATATTTGAAACCATCATCAACAAATATAACAAGACTACTTTTAACTCTTTAGAAAATTTTGATAAAATATCACTCTATCAATGATTATGGATTATGAATATGCCTTTTTAAAAATAGTATTAACTGAATTATAAATTCTAATTCTTCATTATCTGCAAATGCGATACAAAACGCTTTGAATTCTGCATACATAATAGCAAAGTAATATTGTTGTATTGTAAGATAGTAAACAAAAACTTTAATCTAGACTCATTTCTACCAACACTTTATCAATTAATTACTTTTAACATCAACTACCTATTACAGCTTAATAATTATTATAATTGATTTTATTGTAATCAATTCTATTAATTATTAGTTATAATAAAGCGCTGCTCTAAAGATTAGTGATTTAGGAGTTATAGTGAATATAAATAAATGTTAGTCTCAAAATATTTCATATTTATCAAATCTAATACCAAGTTCTTCAGTTAAAAGAACCATCAACTCAAATCCTATTCTACTTTTCCATTTTCCTTGTTCATAAAAAAAATGATGAGGGCCACTCACTGGAGATGATAACCAAATTTCTTTGGATGCACTTTGTGTATTTATTACATATATACCATTCTCAGTATCAAGATTTAATATATCACCTTGTAAATCTACATCTATAATCCCTTCTAGATCTTGCTCTTCTATCTTATCTACTATATATACAATTGTAGTTTCGGCTAATTTACTAAATGCTGTATTATTCATATTTTTTTTGTTTTTTAAGATCAATTGGAGTTCCTGTAATTAAACTTTTACGGTAAATTTCAACAAATCTATTATGATCATTAAGATTATTAGAAAAATGATGCCCACCCTTACCATCAACTACAAAAAATAATGCATCCGTTTTAGCAGGTTTTACCACTGCTTCTAAAGATTTCAATGATGGACAAGAAATTGGACCTGGTGGTAAACCTTGGATATAATAAGTATTATATGGTAATTTTTGCAATAAATCTTTTTTTGTTAAAGCTCTTGCTAATTTAAATTTCCCTTCAGTCAAAGCATATATAGTAGTCGGATCGGCTTGTAGCTTCATATTTTTCTTTAAACGGTTAATAAATACTGCTGCTATAATAGGCTTTTCTTCATTTGACCCAGCTTCTTTTTCAATTATTGAAGCAAGCGTTAAAACATCAATTCTAGTTTTTAATGGAGAATCTGGTGAAAGATATTTCATTACTTCATCTAAATTAGTAGACATTAAATTTCTCATTTGATCAATTATCCGATCTTTTTGATCACCATAAGAAAAAAAATAAGTTGAAGGCATTAAAAAACCTTCAGGTATTATACCTTTTATTGCTCCAAATAATCGACTTTCTTCATTAATTTTCTTTATAACATCACTAACTACTGTACCTTCAGGTACAACGATCTTGTGTATTATAGATTTACCGTTTGATAATATTCTTAAAGTTTGTATAGGTGATATATTACGGGTAAACACATATTCACCACTTTTAATAGGTCTTGTTATAGAATAAATTTTAGCGATTACCTTAAAAATTATCGGATATTTTATTACTTTATTAAAATAAAGTTTTGTAACTATTTGATTTACGGATAATTTAGGTTCAATAATTATTGTTTTATTTTGAGCAAGATTACCAGGCATCAAAATATAAAATATACTAAAATTTATCAAAGTTATCAATATAGTTATAGTTAGAGATATTATAACCAACGATAGTTTAGTTTTTAATAAATTTTTTAACATAATAACTATTATTTTTGACTTAGAAATATCGATAAAAATACCACGAGATATGGTTTTTGATGTTTTTTAAAAAGTACAGCTAATTTAAAGTACAATACTGGATAAATTTATAGCGTTTACTAAATAAATCAATAAGTAATTACAATATTAAAACTATATGACTAATATACCAATAACGTAACTTACTATAAAATATGCTACTATAAAATAAAAATTTAGAATTTTTATTACAAATCAAAAATAATAAATCTTGATTCATAGTGCATATTACTATCAAGTCTTTAATACTGATCTTATAATAGGCATTATTATATGATACAAGTTAACAATACCGATTTACAATACTAAGCCCATAATAAAGTATTCAGTGTCCTGATAACAATGTATTCTAATAACAATACAGAATATAAAAATTCCAAGTCATTTAGAAAATTTAATAAAACAAAAATTAATACTAAGAAGAAAAGTGGTAACCATTCAGAAAATGTTATAGAGCACTGATTCAAGTATTAGGCTTATAATCTTTTTACAACTTTATTTTAGATTATAAAAATTCCTGTTTAATAATTTTTGCAGCAATATAAGAAGGTGATCGATTTGATTCAAACCCTAATTTCTGTAAGATTTTTTTGCTTTTTACTACCTGATTATATCGTTTTTGAGAATTTGATAATAATTCTTTTAACTTATTACTAATAAGATTAGCTTTGCAATTAAATTGGATAAATTCTGGAATTATTTCACTACCTGCTATAATATTAATTAACGACACATATTTTATTTTTATCAATAACATAATAATAATAAAGCTTATTATATTCACTTTATAAGCTACAACCATAGGAGTACCAGAAGCTGATATTTCTAAAGTATTAGTACCAGATTTTGCAAGAGCTAAATCAGATACCGCATAAGCTTTTAGTCTTTCATTTGATAAAAATAAATAATTAAATTGAATATTATCTAAAAATGGTTTTATTATTGCTTCATGATCAGGGTGCGCAAGTGGAAATATTATTGTAAGATTTTTATAATCTTTTGAAATTTCTTGAATAGCATCAATAAAAATCGGTAAATGCCGCAAAATTTCTCCTTTTCTTGTTCCAAGAGTAACACATAAAATTCTCTCATTCTCATCTATTTTTAACTCTTTACGCAAAGCTATTTTATCACGATAAAACTCCTGCTCCATGATTGGATGACCTATATATCTACAATCAAGACCGACCTTAGTGAAATAAGGAGGTTCAAATGGTAATAAAGCAAATAAGCAATCATAAATTTTTGCGTAATTTACTGCTCTATCTGCTTTATATGCCCAAACTGACGGTGCAACGATATGAATCATTTTAAGATTTGGCAAAAGTTTTCTGACACGCTTTGCCACACGATAAGTAAACCCTGGTGAATCTATAGTAATTAATAAATCAGCTTTACTATTTATTATATGCTCTACAGTTTTATCAATTAATTTTTTAATCTTTAAAAGATGAGGTATTATTTCTATAAAACCAATTAAATTTATAGCAGTAATAGTAAATAAGCTTTTAAAGTTACCAGCTTCTTCCATATATTTACCTCCAATTCCGGTAAACTCTAATCCTTCATTACTTTTTAAGTTTTGAATTACATGCCCACCGATAAAATCTCCTGACATCTCACCAGCTATAAAGTAAATTTTTTTCATCAAAGATAGTTATTTTAAAAGGTTCTTAATTTCTGTTTTTAATCGCTCTATTTCTTTGATAGACAATTCAGTAATCTGATATAATCGATCTTTTTTCATTAAAATCTTTTTTGCTATTTTTACAACTTTGTGTTCTTCTTTACCTGCTTCTTAAGAGAAACTATCCTGTTGTTTTATAGCCTAGTCTGTACTTGTTATCCTCACGCTCTCACTCTTGCTTGTAAAGTAATTTTAAATCATATCAAGTTTTTTTATGTTTTTATTCAAAATGTTTTCATGAACAATCCATCTGTTATAACATCATTAAATAATGGTATTCATTTCATCATCAGATATTTTTTTATATATTCTCAAGAAAATTTCATAAGGTGTTTTTATTTTCAGCAATAAAAGTTAGTAAAATATGTAATAGAGCTAAATACTATACACTAGTAACCTAAAACTATTATTGAAGCAAGCTTTATACATCAAAATATTATATAGGAGTTATCATCTTATACTAATAAGAAAAATTCTCTTATTATTACAACTTACAAGTAATGCAATTATCTTAATCACACTATTATTTTAAAACTCAATCTCATGGACAAACCACATCTTTAAAAAAGCATAGAAATACAAAAAAATAAATCCATCCAGATCAATGATTTAAAATGAAACTATAGAACAAACTTAGCTAAGTCAAGATTGGTGATTATCTTCGATAATTGATTTTCCACAAATTTATCATCGATAATTATTTTTTTGACTTTCATTTCACTAGCTTCAAAGCTTATATCCTCAAGTAAATTCTCAAGTATAGTATGCAATCTTCTAGCCCCTATATCTTCTACTTCTAAATTAACAGTGATTGCATAATCAGCTATCTTTTCAATAGCAGCATCTGTAAATTCAAGGTGTACTTCTTCAGTACCTATCAATGCCGAATATTGCTTTATTAAACTAGTTTCAGGTTCAAGCAATATTTTAATCATATCATCTTTAGTGAGCAAATTTAATTCTACTCTAATCGGTAACCTTCCTTGCAACTCTGGTAATAAATCAGAAGGTTTAGCAATATGAAAAGCACCTGAGGCAATAAATAATATATGATCGGTTTTAACCGGCCCATATTTAGTATTAACCGTTGTACCTTCTATCAAAGGTAATAAATCTCGTTGTACACCTTCCCGACTTATTTCGGCATTTTTTGCTCCTGCATTACTGGTTGAAGCTATTTTATCAATTTCGTCAATAAAAACTATACCGTCATTTTCAGCTAAATTTATAGCTTTCTGAATGATTTTTTCTTGGTCTATTAATTTTTCTGATTCCTCAGGTATAATAACAGTCATAGCATCTTTAATTAGCATTTTTTTTGTTTTAGTCTTACTATTGCCCAATGCTCTGCCAATCATATCGCCAAGATTAAGAACACCCATAGATGCTCCAGGTATGCACGGTATTTCAAAACCTCCACCACCAACAGGTGTAGTATCAGCGACACTAATTTCGATTTCCGTATCATCAAGTTCACCGTTTAAAACTTTTGCTTTAAATTTCTCTCTAGTCTCGCTACTAGAAGTTTTTCCTACTAAACTATCTAATATTCTCTCTATCGCTTTTTCACGAGCATTAATATCTACTGCTATTTTTGCTAAAGCTTTTTCAGTATTAACAGCTATTTCTACTAAATCACGAATTATTGATTCTACATCACGCCCAACGTAGCCTACTTCAGTAAATTTAGTTGCTTCTATTTTGTAAAAAGGCGAATTAGTCAATTTTGCAAGGCGTCTTGCTATTTCTGTTTTGCCGACACCAGTTGAACCAATCATTAAAATATTTTTTGGTACTATTTCATTACGTAAATTGCCTTCGACTCTTTTACGACGATAACGATTTCTAAGTGCAATAGCTACAGCTTTTTTGGCCTTGTCTTGACCTACGATAAATCTGTTAAGTTCATTAACTATTTGAGAAGGGGTAAGCCCCATATTGTCTTTTTTATAAGTAGTTTCAGTAGATTTCATACAACTTTTTCCATTATAATATTATGATTAGAAAATACACACAAATCTGCAGCTATATTCATAGATTTTAGAGCAATTTCCTCAGCAGTGAGATTATTCTCATAAGACATTAAAGCACGAGCTGCAGAAAGTGCAAATAAACCGCCCGATCCTATTGCTGCAACATTATTTTCAGGCTCTATAACATCACCGTTACCTGTTAAAATTAATATATGACTACGATCAGCAACAATCATCATCGCTTCTAAACGTCTCAAATATTTATCGTTACGCCAATCTTTCGCAAGTTCAACTGCACTTCTCAGTAAATTAGAATTATATTGCTCTATTTTTATTTCAAGTTTTTCAAATAATGCAAGACCATCAGCAGTCGAACCTGCAAAACCGACAATAATTTTGTTATTTGCTATAGTACGCAGTTTTCGTGCTGTAGACTTTAGTACGGTATTACCATGCGATACTTGTCCATCTGCTGCTATAATTATTTCTTCCTTCTTTTTTAAACAAAGTATTGTTGTGCCGTGTAAGGCGAAATTATCTGACATATATAAAATTTATTGATATTAAGTTGTTAATTAAGTACTATAACATAATATTTTATTCTAAAGTAGAATGATTATTATATGAAGATCAACTGCAAAAAGATAGTAGTTCACATCAAGAGGAACATAGCGTATACGTAATATACGTGTAAGTACCAGAACTATTGTAGAACAACAACGCAAATTTTTGAAGTTTATCAAGCATACTTGACTAATTCAATTTAATTAATTATTGTTCCTTGAATTTTCAAGGCTTACACTTAAATAATGAATATATACGCAATATACATTAACTCAACACAAAAAAATAATAATTTTATTATTCTTGAAGAAGGTTTTTCATGGATAGCTGCTCTTTTTAGTATATTTTGGGCATTATACCATAAAATGTGGATAGTTGTTGCTATTACTGTAATAGCGAATATAATTGCTACGACAATTATAGTAGATTTCAAGTTTATATTTCAGATATTCTTAATATTAAGCTTCGGCTTTTTTGCTGCAGATATTAGAGAAAATTATTTAAATAGGAATAATTACCAACTAGAAGATATAATAATTGCTAACTCTAGAATTGAAGCTGAATTAAAATTTTTAGAACGTAGCATACTTATTTGACAAAAAAAATGGATGTACCAATATTATCATCATTGTGAGGTAAAATTTAGATGCTGCACACATATCTTAAAATATTGATTAGATTGTGCTGCATCATAATTCAGTGTGCAATTACCATAAAACTACAGGATAAAAGAAATGTATAACAAAGAAAATGTGTTTGCAAAAATTATCACTAAAAATCTTCCTGCAGAAATAATTTATGAAGACAAACAAATTTTAGCATTCAAAGATATAGCACCAATAGCACCTGTACATATTATCGTTATACCAAAAAACGAATACATAGATTATACCGATTTCATTTCTAAAGCTTCCATAGATGAAATAAAACATTTTTTTTCTAAAATTGCTGATATAGCAAATGAAGCTGGTTTAGATAAAGTAGGCTACCGTTTAATAACTAATAAAGGTGAAAAATCTGGACAAACTATTTTTCATTTCCATTTTCATATAATTGGAGGCAAAAAACTCATCGGATTAATAAATAACAATGACTAAAAAATACAATATTGCAGTAATTGGAGCTACAGGGAATGTAGGGCGCGAAACTCTCAATATTCTAGCTGAGCGTCATTTTCCAATTAATAAAATTTATGCTATAGCTTCCGATAACTCTCTAGGACGGGAAGTAAGATTTGGAGAAAAAATACTACATATTAACAGTATAAAAATTTTTAATTTTCATGATATAGAAATTGCTTTTTTTTGTGCAGGTTCAAACGTTTCAAAAGAATTTATACCAAAAGCTACTTCTTGTAATTGTATAGTTATCGACAAAACTTCACTTTTTAGAGCTGATAATCAAGTGCCATTAATTGTACCTGAGGTTAATTTATCAACACTTAAAGAATTTAATACTAAAAATATTATAGCTAATCCTAACTGTATAGTAATTCCCCTTGTAGTAGTATTAAAACCACTAGATAATGAAATAAAGATTAAAAGAGTAGTGATATCTACTTATCAATCAGTATCAGGAGCTGGTAAAGCAGGAATGGACGAACTCTACAACCAAACAAAATCTAAATATGTTTTTAGAGAGAATAATCCTAAGAAATTTCCAAAACAGATTGCATTTAATCTATTTCCTTATATAGGAGATTTAAATAAAGACGGCTATACAAGTGAAGAAACAAAAATTGCTTTTGAACTAAACAAAATTATGGGAAATCACTTTAAAACTAGTGTTACTTCCGTGCGAGTACCGGTATTTATAGGTCATGCTATATCAGTTAATATAGAATTTAGCGACAAAATTTATGCAAAAGACGTTGAAGAAATATTACAAGATGCAGATGGAATTGTTACAATTTCTAATAATAATGGTCTTGCTTATATTTCACCGATCGAAGTAGTAGGCGAAGATGCAGTATATGTCTCACGCATTAGAAATGATTTAAGTAAAGATAATACAATAAATCTTTGGATCACATGCGATAACTTACGTAAAGGAGCAGCTTTAAACAGTGTCCAAATTGCTGAAGCGTTAATCAATAACTATTTATAATAAAAATATGGATAATAAAAATAATTTAAATAAAAAAAATCCGCTATTAATAGCATTAAGCGAATGTAAAACAGCTTTTTGGATAGTTTTTTGGTTTGCGTTTGTAATTAATTTACTAATGTTAATTACTCCTCTTTATTCACTACAAGTTCTTGATAGAGTACTAGGAAGCGGTAATCTACAAACATTATTATTTTTATCTATAATAATCGCATATATTTATTTTGTTTACGGATTATTACAAATTGCTCGTTCTTTTACACTTATAAAGGTAGGAGAATGGCTTGATAAAACAGTCGCTCCTGTGATTTTTGCTTCTTCAATTTCTGCAACTGCAACGCGTGTCAATATTGGTTCTAGCCAATTATTACGTGATTTTCAAGCTGTAAAAACATTCTTAACAAGTACCGGAATTAATACTTTATTCGATGCCCCGTGGAGCATTATCTATATTGCGGTTATTTTTTCAATTCATCCATATATCGGTTTTATTACAGTTTTTGGTGCGATTATAATCGTCTCAACCGCCTTCTTTAATGCTGCAGCTACTAATAAGACGCTAGGCGAAGCTACAGAATTTTCGATAAAAGGTATGACACAAGCCGATATTGCAAACAGAAATGCAGAATCAATTGAAGCAATGGGGATGATGAAGAATGTTACAAAAAATTGGCATAAATTTAATATATTAGCACTTGATAAGCAATCAGTTGCCAGCTATCGTAACGGTGTTATTTCTAATTTTTCAAGATTTGTCCGTAATATAATGCAAATGGCTGTTACTGGAGTCGGAGCATACATTGTCGTAAAATCTCACAGTGCAGATATGACACCTGGTAATATGATTATGAGTTCCATAATAGTTGGTAGGGCTCTTGCTCCTTTTGATAATGCTATTGAGTTATGGAAAAGTATGAGCGGTGCTATTAAATCATATAAAAACATTAATAATTTATTTAATAATTACTCTTCCAGAGACGAAGCAATGCCAATTCCAAACGTTAATGGACATCTTACTGTTGAAAATGTTTATTATGCTCACCCTATACCAAAACATTGGTCGCAACCTATTGTACCAAAATATATCTTAAAAGGTATTAGTTTTGCAGTACAACCTGGTGAGATTTTAGCAATTATCGGTCCTTCTGCTACAGGAAAATCAACTTTAGCTAAAATCATAGTTGGGGTATGGAAAGAATCGTCAGGTTCTGTACGTTTAGATAGTGCTGAAATTTATCGTTGGAATAGAGAGGATTTTGGTAAACATGTAGGCTATCTTCCTCAAGGAATAGAACTTTTTAGTGGTAGTATTAAACAAAATATAGCTAGAATGGAAGAGAATGCTGATCCACAAAAAGTGATTGAAGCCGCTAAAATAGCCGGAGCACATGAAATGATATTAAGATTCCCAGATGGTTATGATTCTGATATCGGTCCTGCAGGCTCTAATCTATCAGGAGGTCAAAGACAGCGTATTGGACTTGCTAGAGCTTTTTACGGTAATCCAAAACTAATAATTTTAGATGAGCCTAATGCTAATTTAGATGAAGAAGGTGAAATTGCACTTGCGAGTGCCTTAAAACAAGCAAAACTGAAAAGAATATCGGTTCTTGTAATTTCACATAGACCATCTGTATTATCAGTTGTTGATAAAATTCTAATATTACAGGATGGCGCTATTGCAGTTTATGGGACAGGAGAAGAAATTAAAAAACACTTTAAAACTTTAAAAAGCGATACAATTCACATTAATAACTAATTTTGTAATACTAAATTATATGCAACGGTATACAGTTAAAAATACTAATAATATTTATATAGTATTTTCACAGTGGATTTTACAATACTATATATGGATTGAAAGAAATAAAAACAGATACTGAATAAATATAATAGAATAAATATTATGCAGGATTTAAAACACAATAAATCTCAAATCACTCCAGAACAATTAAAACAATTATTGTCCTTAAGAGAAAATGCCTTAAACCTTAAATGTAACAACTCTAAACGTAATGCTTTAATAAATACTACATTAAAGAAAACTTCCGATGCTATAGAATTCTTATTATTAAAACTTGATAGGTTTATTAATTTTATTACCAAAAAAACTGATGAAAATCGTAATAACGTAGCTCAAGCTGCAAGATCACCTATACTTTTTGGTATTTATGTTATTATCTTTTTAGTATTAATAGGAGGATTATGGTCTGCGCTTGCTCCACTTGATAGCGGTGCTGTAGCTATCGGTATTGTAATACCAAGCACAAATAAAAAAACGATTCAACATAATGAAGGAGGCATAATTAATGCTATTTATGTTAAACAAGGTGATAAAGTCAAAGAAGGTGATAAATTAATAGAACTTGAAGAAACTAGAATAAAAAGCGAACATGAAAATATTCTTAGTCAGTACCGTAATTTTTTAGCAACTGAAAATCGTTTAATTGCCGAACGTGATAATTTAGAACAAATCAAATTCTCTGATTTTCTAATGCAGAATATAAATTTGCCTGAAGTAGCAAAAATAATTCATACACAGGAAAATTTATTTAAATCTAGAAAAGAAGTATATTTCTCAGAGAAAGATGCATTTAATCAAAATATTGCTCAACTTGAAAAAAAAATTGACGGTTTAGAAGCAAAAAAAATTGCTGCCTCTAAAACTTCTGAAGTTTATCAAGACCGTTTAAAAGCTTTAAGAACGTTAAAAGAAAAAGGCTTTATACAAAAAGCAGCTTTATTAGAGCAAGAAGCAAAAGTTGCAGCTGCAAAAAGCGATGTTGCAACGACTGAAGCAGAAATAGCAGGAATACGCCATGCTATTACCGAAACTCAAATTAAAATTATAAATCACCAAAATAAATACACTGAGCGTACTTTAACAGAGCTGCGTGAAGCTCAAATACAAACAGCATCTCTTAAAGAAAAATATAACTCTCTAACTGATTTGCTTAATCGTGTGATAATCAGATCACCTGTTGACGGTATAGTAAATAATTTAAAATATCATACAATAGGTGGTGTTATAAGTCACGGACAACCTATTATGGAAATTTCACCAATTAATGATCCATTAATAATAGAAGCAAGAATATCTCAAAAAAACATTGACTCAGTACATGAAGGATTAGTAGCAAAAATACGTTTTAGTGCATTTAAATCACGCACAACTCCAACATTTACTGGTAAAGTAGTAAGTATATCGCCTGATATAGTACAAGATGAAAGACAACATCTTGGACAACAACAAGATAATTATTATGTTGCAAGAATTGAAATCAATATGGAAGAATTTAATAAAGTTGCTAAAGTTAAAAATCTTGCATTACACCCTGGTATGCAAGCTGAAGTGCAAATCGTAACTGGCACTAGAACACTACTTAGATATTTACTTGATCCCGTTACAGATACTGCATTTAAAGCTTTCAGAGAAAAATAGATAATTTGCAAATTTTAGGTGAGATATCTTGACATAATCTAGATATTTTGTCACCATTTTTATTAAAAATGCTTAATCCTTTATTGACTTTTAATATAAAAAGTATAGCTTATTTTTCAATATAGTTATGTATAAATTTATGTTAGGCTACGAAAAAGAACAAAAAAGTTTAAACAAAGAACAAAAACAAGCTGTAGGATTACTTTCTATAGGTACATTTCTAGAGTATTTTGACCTTATGCTTTATGTACATATGGCAGTACTTTTGAATAATTTATTTTTCCCTGAATATGATCCTTTCACTTTTTCATTGCTTACTGCATTTTCTTTCTGTTCCACCTATTTGCTTAGACCTATAGGAGCATTAATATTTGGGTATATAGGAGATCAATTTGGACGTAAGATTGTAGTTGTTTTAACTACTCTATTAATGGCTATTACTTGTGTAATTATAGGCAGCATGCCAACATATGCACAGGTAGGTATAACAGCATCGTGGATTCTTACCATATGTCGTATAATTCAAGGTATGTCGGCAACTGCAGAAGCGCGCGGTGCAGAGCTTTATTTAACTGAAAATTCATCTCCTCCTATACAATATCCATTAGTAACAATTATAACTGTATTTTCTGCAGTAGGCACTACAGTAGCACTAGGTATTGCATCAATTTTTACTAATCAAAATATTTATCAACATGAATCAAGTTGGCGTATAGCATTTTTTGTTGGTGCAACTATTGCATTTGTAGGGACTATTGCAAGAACCAGCTTAAAAGAAGCAGATGCATTTTCAAACAAAAGAAACAAATTAAAACTAAGACTTCAAGAAAATAATATTATGATTGAAGAAATTGATAAAGATATCCTAGATCAAAAAGTGCCAAATGCCACTTCCATTTGGTATTTTTTTATCCAGTGTGCTAGACCACCGTGTTTTTATTTTGTATATATATATTGCGGTGATATATTAAAAAGAGAATGCGGATTTACTCCTAATCAAATTATAAATCACAATTTTTGGGTATCTATAATAGATTTACTTGGTATTATAGGGCTTGCATTTATTAGTTATAAAATCCATCCTTTAAAAATCCTAAAAGTAAAGTTATATCTATTTTTTACCTCCCTCATGTTTTTTCCCATAATGTTAAGTTATAGCCCTAATCCTTCATATATTTTTATTTTTCAATGTTTAGCCGCATTATTTGTATTTGATCACGTACCGGCAGCGCCTATATTTTATAAATATTTTCCAGTTTTTAAGAGATTTACATATACTAGTATGCTAAGTGCTATAGCAAAATTATTTACTTATATTATAACTTCATTTGGTTTAGTTTATATTACCAATTACCTAGGATATTGGGGATTATTTTTAATTTTTATTCCGATAGGAGTCACTTTCTTCATGGGAGTAACTTATTTTGAGCGAATGGAAAAGAATCGAAATTTATAATTTCATTAAAAGTAGCATTTATATTAAACTTTAAATTATTTTTATAACATTCAGCATATATAAGCTCTGAAACTGAAGGTATTTCGAGTATTTCACTTAACACTAAAAAACTTTTTAATGTCTCTTTAATTATTTTATGGGCTTTTTCAGGCGATTTTGCTTCCAAAGTTTGTAAATTATGTATTCTATCAAAAAGTTTTATCAAAGCAGTATCGTATCTTTTTTGTTTAATTAATAAAATAAGGCTTTTTGCACTACTTATTTTCCCACAAGGCTTAATTCTAGTCAGACCTTCTACATGCCTTGCGACTTCTTTATCAAAAATATTGCTAATCATGTCTTCAGTGAGTTCAGTATCTTCAATAGTGTCGTGCAATAATGCTGCTTGTAGTATTCTAGACGTGAAGAGTTTAGGAACCTCTTTTGCTACAAATTCCGCTACCATAATTGTTACTGCAATTGGATGAGAATAATAAGGATCGCCAGATTGACGCATTTGCGTACCATGATATTTACGAGCGTAATAAATACCTTTTTTAACTTCTCTAATATCAATAGGTTGTTTTACTTTATTATTTAAAAATAGAAGTCTTTCGATCAATTTATCTGAATATTTACAGCTTTTAAAGTTTTTTTCCCAATATTCTATATCTTTCATAAAATCTCCCAATTCTATATCTATTATTTTATTGGTTTTTTTATGATTATTTTTTTTTACTTTTTCAAATCCAATTATCATTTAGTTTAAATCTCTATATTTAATATTTGCTATTTTTAATGCTAAACAATAACTATATATTAAAAATAGTTTTTTATAAAGATTTATATTTCATCCTTAATTATCAAATACATTTTGCTTATTCAAACAATCTGAATATCTTGTGATTTGGTCGTGATACAAGACTTGCATTAGACTATAGGGATACGTATTATTTTTAATAGTCTATTGTTATTTATAAAAAAATAAGCGAAAAAACATGTTTTGTGGATTATCACAACAAACATAATCAAATAATATTTTGCATTTTACTTAATTTCAGTTTTTAGCACGGTATGATATAAAACGAGCTATACAATAAGTTTACAATTTACTTGGATCAAAAATAAAATTAATTTCTTTCCAATGATTAAAACGTGCTGGGTCAAGATTTTCTATAGGACTTGCTTGCCATACGGCTCTCATTACATTATCTACCAAAGCTTCACAAATACTAGATTGAATATTAGGACAGATTTTTGCTTTAACCCTTACTTGATCAACGTTACCTGCTTTATTTAGAGTAATGCTAATAATGATTTTGACCTTATTATTACCTCTAACTCCTGCTGGTATATTAATCCAATGTCTTTCAATCTGTCTTTTGATTAAAGATGTTTCACTATCGGAAAGAGGTAGCATATCAGTATACACTCCTTTAGCTTCTTTTAGATTATCAACTTTTTTTAATCTGTTATACTTATTGGATTTTACATTATCCCCTTCTGAAGATTGCTCTAAATTCTTCAGTAAAGAGTCGAGCTCATCTGTTTTATGTTTTTTGTGTTTTACCTCTTTATTAATCTCTAACAATTTTTTGTTGTCTTTATTTACTTCAGGCTTTCTTACTTGCTGCACCTGCTTTTTTCCCCACTCTTCTTTAAGCTTTGCTTTCGCAACTTCTTCTTTTCGCTCAAGGAACGTTTCTTTTGCTTCTTTAGTATTAGATTCTTTTATAGTTTTTTTTTCTTCTATTGTTTCAATCTCACGCGCTTTAGCATTTTTTTCTTGAGACACAGCTTGTGATGCCTCTGCTTTGAACTTACTCTGTTCAGACTTTTTAGAGTCTTCGTGTTTTATAGGATCTTCTTTTTGCTTTGTTTGGGTTATGATATTTGATTGATCACTAACAGGCAATATCTCAAAAGAGATAATTTGCTCCTCTGGAAATTTTTTATTAAAAAGCGAGGGCATAGCAAATAGAACAAAATAAAACAATAATAAGTGCAGAACAATAGAACAACTAAGGAAAAACGTAAAATGCTCCTTAATTTGATTATTTTTCATTATTTTTAATATTTGAAATAAGCGCTACACGAGAAAAACCTGCAGAGTGAATTTCAGCAATTACCTCTACTACCTTCCCATAAGAAACGTTTTTATCACCTCTTACAAAAATTCTAGCATTCTTGTTTCCTGTGGTAATATTTATAATCTTATCGGTTAAATGAGTTCGTTCTATAAGAGTTTCAAGTAGGAAAATTTTACCTTCATTATTGATAGTAATAACCAAAGGTTCATCCTGCTCTAAAATTGTACTTGGATTGGTTTCAGGTAAATCAACATTTACCCCTGAAACCAACATTGGAGAAGTGACCATAAAAATAATTAATAGCACAAGCATTACATCAACGAGCGGCGTAACATTAATGTCACTCACTACAGCTTTCTTACTTTTTCTATTACTACCTGTAAACATTATAGCCATTACATTTTCTCCTGATCAATTGCCTTAGAAAGTATAGAATTTAACTCACTAATAAAATCTTCAATCTTATTATTGATAAGAGTAATACGAGAAATAAGATAGTTATAAAAAATTACTGCTGGAATAGCAACAAATAAACCGATAGCTGTTGCAAGCAATGCTTCAGCAATCCCTGGTGCTACTACTGCAAGTGAAGTATTTTTAGAAGATGCAATTGATTGGAAACTATGCATAATCCCCCAAACCGTACCGAATAACCCAATGAAAGGAGCACTTGAACCGATAGTTGCAAGGACGTTTAAATTCTGCTCGAGCTTTTCTATTTCTCTATTTTGAGCTAAATACATTGCACTCATAATACGCTCTTTATGATTATTTTTTAATGCCTCGGAAAAACCTTTAGTATTTAGACTATTACATTCATTCATAGCTGAAACGAATATTAAAGCTAGTGGATTATTAACAGATTTTTTTATGCTTTCATATAGCTGCTCTAAAACACAACCTGACCAAAACACATTTTCAAAACTCTGTATTCTCCGCTGCACTTGTGCTAACCTAAATATTTTATGCAAAATAATAGACCATGACCAAATAGAGGCAAAGAGCAACATCAACATAACCGATTTACCTATAATATCGGCAGAGCTTATTAAAGATAAAATCGATAAATTATCTTGCATAACAATTTCTAAGCGATCGTTAATATTAGTATCTGCACTCATTGTATATATATACTTTATAATGATTCTAAAATTAAATAATATATTTATATTTTACTTTTGTCATTATGTTATGTAAAAAATAATCAATTTAGCATACAGTATCACACGATTGTTTAACAGAAGTAATAATAATTGTATTTAAAGTTTATTGGCTATCATGTATAGTTTTATGCCTAGTAAGGTTAATGTAATGCTTAAAACTTAAGATCATTTTGCAGCGAAACTTAATAATCATTGATATATTTCTTAAAAAGATCATCATATTGCACTTTAAAATCAACAATATTTTTTCTATTTGTGAGAGCGATTATTCTTGTACTGATGGATTTTATAAAGTCATTATCGTATGTCATTATCGTATATTACTATTAAGGTTTTGTTTATGTAATAAAAATTACAATATTCTAACATCATTTTAATAAAAAAGTATCTTAAATAAAAATCTTTTTCTATTTACTTCATCATGCAGAAATAATGCTTATCAAATTCTATTGCTAATAATATTTCTTGTCCTTACATATTACTTTTTAAGCAAATCAATAATATTATATATTACTCATGATTAACTTAAATAAGATATTTTTCATTTATAACTACCTTTATATGATGCTATTTGGCATTAATTAAAACTTTTAATAAATTAGATTTATAGATACTATAAAAAGTCTTATTGCTTCAATAACTCAAGAACTTTTTCAAAATCTATTATATATTCTTTTTGGTTTTTGAGATCTTTAAATTTGAGGTTATTATTCATCTTTTCTTCATCACCTATGAAAATAATAAATTTTGCATCTTCATTAAGAACACGTTGTATTCTTTTAGCTATTTTACCTATGGGGTCTATTATAGAAACAATATTTTGTAAACGTAATTTATCTACAATATCTAAAGCATAGCAAATATTATTTTTACCTATTGGTAATACAAATACCGGCTTTATTACAGATATCTTATATTCTCGCATCAAAGCAATTCTCTCGATACCAGCAGCAAACCCTATAGCATGTACATCATAATTACCCATAATGCGGCTAAGCATGTCATAACGACCTCCTGCAAGAATAGTAGATTGACTCCCTAGCTTTTTTGTAGTAAACTCAAAAACAGTGTGACAATAATAATCAAGCCCTCTAACTAAACGTGGATTTACGCTATATTTTATACCTAAAATATCAAGATATTTTTGTAATTCATCAAAATATTTTTTAGATTCATTAGTATGATATTCAGATAAAATAGGAGCATGAGCTATTATTTTTTGATCGATTTCACTTTTTGAATCAAGAATTCTCATAGGATTTTTATTTAATCTTAGTCTACTTTCTCCCGATAATTGATCTTTAAAATCATTTAGATATTCTACCAACTTTTGTTGATAAACAATCCTTGATTCATGACATCCAAGAGAGTTAAGTTCTAATGTAGTATCCTCCTCTATTTCAAGTGCTTTAAGTATATCTACTGCTAACTTCACAGTTTCGGCATCTGTAATAGCGCCTTTAGCTCCAAGATATTCGTAATTCAGTTGATGAAATTGTCTTTGACGCCCTGCTTGCGGTCTATCATATCGGAAAACAGGACCGGTAGAAAAAAACTTAAGAGGGAGTTTATGCTGTAAACCGTTTGAAATAAAACTTCTGATAATACCTGATGTAAATTCAGGCCGAAGGGCTACAGCATTATTACTTTTATCTACAAAACTATAGATCTCTTTACTCATTACATCAGAGCTTTCACCCATAGAACGATTAAAGACTTTGGTATATTCGAGTATTGGTGTACTCATTTGCTTATAACCATACAATGCTCCAACATCTCTTGCCTTATTAATTATATAGTTGTGAATTTGATAATCATTTGGCAAAAGATCTTTCATGCCTCGGAGTGGTTGAAGATTTTCAATCATATAGTTCATTTTATTGTGTTATGTGGATTAAATAGTTATGGCAAGAGTATATTTATAATAAAGAATAATGAAAAAATGTAATTGAAGTTTTAATGTTGTTCTTTTCCCATAAAAAATGATCTTACAAGATATAATATAAATATTGTAATAAACCAATATATTAATACTCGACCTGATGTTAATAGATTAAAGTTTCCTTTATATATTTCATCACCATACATTTGGGTAAGTAATAGATAGATACAAGCAAATAAAATAAACGGTGCAATAATAAATACTATAGGACATTTAAATGCTCTTTGAGCAGTTGGTAATTTTATCCTAAACATCATTACTATTATTGCTACAGCAATATAATCAATAAGTGCCCCCATTGAAGTTAATTGTGTTATAATTTCAGTAGGACAAAAACCTCCTAAAAATGCTGCAAGTGCAGAAAATATTATAATTGTAATATATGGGCTATCATATTTTGGATGAAGCTTTGCAAAACTCTTAGGAAGTAAACCATCACGTGCAATAGCATAAAAAATACGAGAAGTACCATAAATATTCATCATCAACACCGTCATCATACCACAAACAGCTCCTGTTGAAACAATCGCTGAACCAATTTTACTATTATTAATAGTTAAGGCATAAGCAAGTGGACGATCATTATTTAATTGATCAAAAGGAGCTATACCAGTGACTAATCCTGACATAATAACATATACTAAAGTAGTTAAAATTAATGATCCTATAATACCAATTACTATATCCCGCTTTGGATTTTTACATTCTTCAGCTGCAGTTGCAATTGTTCCAAAACCTGTAAAAGCAAGAAACAAAATAGAAGAACCCATCACAACACTACCGAAACCAAACGGCATAAAATTACTCCAATTAGTAGCATCAAAATGTGGAGCAGCTGCCAAAACAAAAGCGAATATTGCTACCATTTTTATAAAAACCAAAATAGCATTTATTTTTTTACTATCTTTAGTGCCTAAAAATAAAATAAACCCAATAAATGCTGAAATTAAAAATGCAGGTAAATTTATTACACCACCATTTGAAGGTACAGTAGTTAATACTTTTGGTAAATATATTCCTCCAGCCTCTAATATTCCTTGTACATAGCCGGACCATCCAGCTGCTACTATACCAGCAGATACTCCAAGCTCTAATATTATAACGCTACCTATCATCCAAGCGAATACTTCACCGAATGCAACATAAGAATAAGTGTAAATACTTCCAGAAGTTGGGAGCATTGCAGCAAGTTCAGTATAAACAAGTGCTACAAAGATACACGTAATACCGGCAATCATATAAGATATCATCACCGCCGGACCTGAAAATTTAGCTGCAATTATACCAGTAACAACGAATACACCAGTACCGATCATAGCCCCAAGACCTAGTAATATTAAATCAAATGCTCCAAGTGTCTTACTAAGGCCACTTGAACTACCTATCTCTTTGACCGATTCAAAACTTTTTTTCCTTAAAAAACTCATTAGTTTCTCCTATTTTAGTGAGTAATATCTCCATTCTCGTATATGCTAAAATTCCTAATAAAGCAATACAATTAGAATAAGCTTGAAATGGATATAATTGCCAAACTATGGTGTATCAATTTTACTTAATTTAGCTTATATTGCTAGTGATCCACCCGCCACCTAGTACTCTTTCACCTGCATAAATAACGCATGCTTGCCCCGGCGCTACAGCTTTTTCTTTAGATAAAAATTTTACTTTAATTCTATCATTGCAAAGCTTACTGATTTCAGCGTGGCATGGCGGTCTTGTTGAACGAATTTTCACATCTACTGCTAACTTTTCATGATCTTTAATCTCATCAGCAAGCCAATTCACATCTTTAATGATAAATTCATGTACATGTAATGCAGACTCCTGACCTACATATACTATATTATTGCTAGGATCAATCTTTACTACATATAAAGGTTCATTATAAGCTATACCAAGACCTCGACGTTGTCCTATAGTATAATTAATTATACCACTATGCTCCCCTAACTCAAACCCATTTATGTGAACAATCTTACCACTTGTGTTTGCTTCAGGACGTATTTTATTTATTACAGTCTTATAATTTCCGTCAGGTACAAAACAAATATCTTGACTATCAGGTTTATCTGCTATATCAAGTCCAAATTTACTAGCAAGCTTTCGTGTTTCATACTTAGTAAACCCACCTAAAGGAAAGCTTAAGTATTCAAGTTGCTCTCTAGTTATAGTAAATAAAAAATAACTTTGATCTTTTGTTGTATCAAGCCCTGTATGCAATTCTGCGCCATTATAACCGTTGATTTTCCGTACATAATGACCTGTAGCCAGCTTATCTGCGCCAAGTTCCTTAGCCGTATTAATTAGATCTCTAAATTTCACTGACTTATTACATTGCACGCATGGCAGTGGTGTTTCGCCATGTAAATAGCTATCAACAAAATTATCTATCACAGACTCTTTAAATTTGTTCTCATAATCAAGTACATAATGAGGAATACCTAACTTATTTGCTACCATTTTAGCATCGTAAATATCCTGACCAGCACAACATGCATTTTTTTTACCTACTGCAATACCGTAATCATATAACTGCAAGGTAATACCTATAACATTATGTCCCTGCTCATGCAACATTGCTGCAACCGCTGAACTATCAACACCACCTGACATTGCAACAACTATAGTAGCCATAAATTAATCACATCAACCTTAAATAAACATTAAATTATACTAAATTTATAATTAAATTACAACACTATCTTTCAATATATTAAAACGCTATAATCGTGTTGTTTAATAATTATCAATTTGTTGTAATATACGGTCACCACATTGATTGACTACGGTATGACACTGCGTGTATTTTCACTCCATACAACAATACACGTAGATTTTAAAAATTAAAATTATGATGTTATTGAAAATATTATACACAACGATTATCGTCTATTTCGTACTTATTATCTTAGAATACGCACATCAAGGTTTTATTAATGACCTATCATTACAAAAAGTAGATTTATATATTCAAAATTCTATAAAAGAGCCTATTTATTTAATATCATATGCAGACGGCCCAGAATATGTTTACCGCAATCAAAATACTACAACTCATTACGCAATTAATAAAGGTATAGATTTTATATTTAATTATAAGAAAAAGTATATAGATCAAGCATTTATAACCAAAAATAAAGAAATTTTTAATGAGCCTGTAGGAGCTGGATTATGGCTATGGAAACCTTATATTATACTTGAAACAATGAAAAGTGCACCAGAAGGAGCTATTATAGTATATTTAGATTCAGCTTTTGTTATTAATAAGCATATCAGTAATTTAACGAATCTTTTAGGCGATAATGATGTATTATTGGTACATGATCGCAATCGTAAAAACGGTAGTTTTATTAAAGGTGAAACTTTTGCTTTAATGGACTGTCTTACTGATGAATGCAGAAATGATAATCATATTTGGAGCGCAGTTATTATTGTACGTAATACTGAACTTTCTCGTGTTTTTATTGAAAAATGGCTCAAAAGTTGCGAAGATATTAGAATTCTTTCCGGTAAAAATTATAATATGTACCCTAATTATGCTGAATATAAATGGCATCATTCCGACCAATCAGTACTTAGCATTATATATCACAAAAATCCACAATCGGTTAAAGTAATAGAGTATGATGAAATAACTGATGTTTTATCTTGGTTCCACCGTAAATATTCAAATAGCTCACCATCAAAACCTTGGTATAGCATATACGGTATAGATCCTATAATTAATTTTAATACTAACGGTAAAGTTTTACCTTCTACCGCGCTTATCAATACTCCGCCAATTGTGAGATTGCGTAAATGGATTCTTAAACATCAATAATTGACTTTAAGTACACAACTCTTGCAAACACTCTATTCTCATAACATGTTCAATCTTACCGTATTCCAGCTATAATTCTCTTATTTTAAAAAAACTATAAGATAAAGTAATTACTTTAATGTTTTCCATTTCAGGATCACGCTCAAAATCATTATCTATATAAAATGTAACAGGCATTAAAACTTTTTCCCTAGCTTTTAATAATTGTTCTTCAAAACAAAAACAATGAATTTTTACGAAATATTTCCCTGCTTTATTTGGAGTAACATTATATATCGATGTACCTATTATATCCTTATTGCTTAGATTTTCTGCTTCATAGAACACTAGTGTATTCTGTCCCGGGACAATTTGAACTCTTTTCTGCCTTGGGATAAAATGCCAAGGTAGATTTGGATCAACATTAGCATCAAACTCAATAATTATAGCTTTAGTACCTTTTACCTTAGAATATACACTAACTGTTTCTTTAATAGTAGTACCACCATAACCAGTAACTTTACAAAATAAGTTATATATAGGTACGGACGCAAAACTCAATAACACCATACTCATCATTAACCCCAGCAATGAAAAGGCTAAATTTTTATTGGATTTTTTAGACATTGTTTGATTTTATTTAAAAAAATTATAGAAAAAGTTTATTTTAGATCATATATATGTTAGTATAAACGAAAATAGTTTTTCAGGTTATTATGACTAATAATATTAATGCATTAGCAATTTCTAGTGAATCAGGATTTTATAGCTATTTACAAAAAATCAATAAAATACCTTCACTTACTCAAGAAGAAGAATTTTTATTGGCTAAATCTTATTTAGAGGAAAATGATTTACAAGCTGCACATAAATTAGTAACGAGTCATCTTAAACTTGTTGCAAAAATTGCAAGCAGCTACAAAACTTACGGTCTTCCTATTACCGAATTGGTTTCAGAAGGTAATATAGGATTAATGCAGGCAGTAAAAAAATTCAATCCGGAACTTGGTTTTCGCCTTTCAACATATGCGATGTGGTGGATTAAAGCATCTATACAAGAATATATATTAAAATCTTGGTCATTAGTAAAAATGGGAACAACAGCAGCACAAAAAAAATTATTTTTTAGTCTTAATAAAGTGAAGCATAAAATTACTAATTTATACTCAAGGGCTATTACTACTGATGATTTTGCACAAATAGCAGATGAGTTAGGCGTTTCAGTGAATGAGGTGTCGGAGATGAATACTAGAATTTCAGGTCCTGATTTGTCGTTAAATAACTCTATCAATAGTGATGATGTAGAATCAGGCGAATTAATAGAACTATTACCGGAACTACGGCCTACTCCTGAAGCTATGGCAATTAACAAGCAAAATTACACAAGTAAAAGAAAATTACTATCAAATGCTATGCAGATTTTAAATGATAGGGAATTACGTATTTTAAAAGATCGTAAATTAACAGATACTCCTAAAACTCTAGATATTTTAAGCAGTGAGTATAATATTTCGAAGGAACGTATTAGACAAATAGAAAATACAGCTTTTGAAAAAATAAAAAAGTTTATTTTAAACAATAATAGAGAAATCGCTTAAACCTTATTATATTGTAATCACTATGAAAGCAGGAATTCATGATAAAAATCTTAAAGATTTGTGTTATTATATACTTTTTCCAAATTAAAACTTTTACAAAACTTTAAAATACTAGATTTGCACTTCCGTAGGTATGAATATAATGATATTAGTTCAGAATACCTGACCATTCTGGATCAGACGCATCTGCTGGTGTTATAATTTCTCTCTCATTATGACCAGTCAAATCAATTGTAAAAATTTTGTTTTTTCCAGGAGCATTAGCTTTAGATGGCCAACCTTTAGAAAACATAATAACTCGTCCGTTAGGCGACCAACAAGGACTATCAACTAAATATCCGCTTGTTATGATTCTTTCACTATTCCCATGATCTTGTGGATATGCTTTCATAATTCCAATATTAAAGGTTTTTTCTCCATCTTGCCTAATAATCTTAGTAAATGCTATATAGTCGCCTCTAGGCGACCAGCTAGGAGATGCGTAAGAACCAACACCAAAACTAATACGTTGCACATCACTTCCGTCCGAATTCATAATATACAACTGAGGCACACCGTTTTTATCTGAATTAAATACAATTTTTTTACCATCCGGTGAATAGCTAGGAGATGTATTAATACCAAATCCATTAGTTAATTTATTAAGCTGTTTAGTAGCAAGGTCAATTTCATAAATATGAGTTGAGCCATTTTTAGCTATAGACATTACAGCTTTCTTACCGTCCGGTGAGAATCTAGGCGCAAAAGATATACCAACAAAATCGCCTACTACACTTTCTTTACCTGTTTTTAAATCTTTTTCATAAACTAGAGCTCTACTTTTAGTAGCATATGAAACATAAAAAATTTTATCAGCTGAATGAGCAAATCTTGGCGTTAAAACTAGTGATTTCCCATTGGTAAGGTATTTATTATTAGCACCATCATAATCCATCAAAGCAATTCGTTTTATTTTTGGTAACACAGTACTTTCTGATACATATACTATCTTGGTATCAAAATAACCTGGATCACCTGTGATTTTTTCATAAATTTTATCAGCAATTTTATGTGCTGCTCTTCTCCATAATTTTGTCGGTACTTCAAAAAGTGCCCCAGTAAGTTGCTTTTCAAGGAACGTATCCCATAATATAAAGCTAATTTTAAGTTTACCGTTTTCTAGTGTTTTAACTTCACCGTTTACTAAAAGACTAGCATTAATTTGACGCCATGCAGCAAAAAGTGGTTTATACTTGATTCCTGTCTGCTCTTCTATAAAAGATGCAGAGGAAATAGGACGAAATAATCCAGAAATCTTTAAATCATTAGAGATGACTTTAACAACATCACGACCTACTAAATCATTATTAGAACTATCAGCATTAAATTTATTTACTGCTATAGGCGTAGGATCAACTCGACCATGCTCAATATTTATTGTTTCAAGTGCATAACTAGTCAAACTAAATAATGTTAGGATAAAATATACAATATTTCTCACTCAAAATACTCCTTGTGTCAAATTATGTTATAATTCTTTTTATGTCACTCCAAAAAATGGATTTGTGTGATATGAAGATCAATTTAAAAATAGAACGAGTATTTAATGAGTTGCGTAATGTCTACTTAATATGTGAGCATTCTAATCAAGACCTTATATCGAGTATCAACTACCTAAAAATCTTTACCAATTCCTCCCATTCTCTTTTATTCATACCACTAGTTTCATGGATCACTTTTTCACCTTTTATCATTCTTTTAATTACCTCTAAACCTTTACGTGAAATATTCGCGCCTTGCAAACGATACTCTTCAAACGCTTCGTAAGTAAAAGGTACCCAAGCTTTTACTATGTCAAGTATCTTTTCGGCATAAACTCTAATTTCATATTGTGCCTTAGGATCAGTTCGTAATCTTAAAAAATGAAGCAAATTATGTAAATTAATCTTCCAATACCATTCCGTATAATAATTCAAAGTTAAATTAATACGAGCAAGTTCTCTTGCTATGCCTGAAACATTCTCATCTAGGATATTTCCATCTTCATCAGCATTCATGAGCTCCTTATAATGCCTGTAGCACCGTCTAGCATCTTCTTCTAAAATTGCGAGAACTTTTTCAGATACTTTTTTCGGTACGCTATCCCCTGCTCTACATTGTTTATTTACAACAGATTGAGAAGCAATATTGGCAGGGTCAGGTAAATAAAATTCATTTCCTAAAATAGAATACCTTGCTGAATATTCGTTAACACTAGCAGTCCTATGCCTAATCCACTGCCGTGCAATAAATATAGGTAATTTAATGTGAAATTTGATGTCACACATCTCAAAAGGTGTCGTATGATAATGACGCAGCAAGTAATTTATTAATCCTTTATCTTGGTTTAACTGCTTAGTACCTTTACCATAAGAAACACGAGCTGCCTGTACTATCGAACTATCATCACCCATATAATCGATTACCCTAATAAAACCATGATCTAAAACTTTGATAGTCTCATATAACATTGCTTCAAGTGCTGGTACTGTTACTCTTTTTGTCGTATTGTGCATTCTATCCTCTATATTCTTTAATATCAGGTATCACCACGTGGCTTAACCACATTTAATATTTTATTAGAATTTGTTAATTGTTTTTAAGATACTCTGTACAAACTACTGCATAATATTTTATAACAAATCACTATACGGTTTCTTTTAAAACTATAATTTTCTAATTAGTACTACAGTGTTATACATATCCTAAACTAATAGTCATAAATTTTTATTCATTTCTTTTACATTTGCTATTTCGTGCACTACAAGCAGCAAAAACTACTTGGCGCTTAAACAATATTTCATTTACTACCATAACTCTCACAATAACTTCATATATTCTAATACTAATAAAATATTCTCAACTATTATTTTATTGTTAATAATTTCGTTTCTGTTATAAATTTTATCTACAATACACTTCTAATTTAGCATCATTTAGTTTGATATGCTTTTTTCGAGAAATAAATAATATTATAGCATAAGATTTATACAAAATAGCTTGGTATTTATTCTTTGATATCTCATTATATTAATGTATTATTGTATAATATTATCTTATTCTTTACTTAACAAAAATGATACTCTTTATAAGTAAATACACGCTCTGCACCTTTACTGTACATTGTAATGCATATTACTATATTTTTAGTGTTAATACTTCTCATTACTAATAATATTTAGAGATATGATATCTTTGATAAAAAGAATAAAATCTTCTATTTAAAATTCTATATATTTGCTTGGATCAATAGCTATTTTGTTTTTACGCATCGCAAAATATAACTGATGTTCGACGTGTCCAACAATACTATTTTTAGCAATTTTATCACCTTTTTTAAGTAATAAATCATCTAAACGCGCATATGCTACTTCTAAATCGTCTGCATCTAATTTAACTATTACTAAATTACCGAATTGCTTATTATAGCCCGAATATATTACCGTTCCTGCAGCAACTGATTTTACTGCACTATATTCTTGAACAGCAATATCTATCCCTTTACTTTTACCAACTTTAAACTCATTAATAATTACCCCATTTAATGGTGTTACAAAGTTTAATTGTTCTATCACTGCTTCATCTCCATGCCTAGACATAGACATCTCAATATAATCATTATCATCTTCTATCATTTTTGCCTTTAGCTCTTCGAGCTGATCACTAACTTTTCCTGATATAGAAGTATCTTCGATATTTCTTTGAATTATCATTCCCTCATCGTGATCTAGTTCTGTAAAATGATTATTTCCAGTTACATCGCCTACTTTATAATCGATTGGAGCAGGTGGCTGATCAACACAAGAAACTAAACAAAAACATACAACTAGACTTAATACAACAGGATATTTCATATATTCAACAAAATTATTATTTGATATAATACAACTATTAGAAGTGCTCTGTAAAAATAAATAAAGAATAAATACATTAAAAAAATGTTAATATGAAAATAATTAAAGATTTCTAAAAATTTATAATTATAGCAAAAAAAATTATTAACTTTAAAATTTATTTACAGCTAAGCGCTTACATAGTATATAATTTTTATCATAATTTTCCATCAAAAAATTAACTATGAAAACTTATAATATAGTCATAGCTAGTGATCACTCCGGTTATGAGCTTAAGTCTAAAATTATAAATTATTTAGAGCAAAAATGTCTCAATATTTATGACTGTGGAACGCAGGATACACAAACTGTTGATTATCCAGATTATGCTAAAAAAGTAGTCGATATTATTATTGAAAAAGCAGCTCCTATCGGTATTTTAATTAGTGATACTGGAATAGGTATGTCTATAGCTGCCAATCGTAGCTCAGAAATAAGGGCAGCTTTATGCAATGATATATTAACTGCTGAAAATGCTAAAGCTCATAATGACGCTAATATTTTGATACTCGGGGCAAAAAGTGTAGATAACAAAATAGTATTTAATATTATAGATAAGTTTTTAACCACTAAATTTGAAGGGGGAAGACATAGCACACGATTATCAAAAATAAAGTAGCTCCAGCAATAAATGTACTTCTTCATCACGAACTAACATCATTGCGTGGATATAAAAATCATTCAGGATCATTCTGTTACTTACAATATCAAGAAAAACAATTTAAAAACTAATATTAATATATTATATTGGATCACATAATCAATTGGTAGGAGTACAATTATGAAAGCAGTTTACGAAATAAAGTATAGATATAGATAAACAACATATGACCTTGTGTAATATGAATCTTCACGAATTTAGACAAAAATATAATTACAATGTTGCAACAAAAATGATGCAGCAATATCTAGACATTAAATTTGCTCATTTAGATTGTTTGCTACTATTTAGAATGGGTGATTTTTATGAGCTGTTCTATGAAGATGCAATCTTAGCAAGTAATATACTTGGCATAGCTTTAACAAAAAGAGGCAAAAACTGCGAAGAAGAAATACCGATGTGTGGTGTGCCTTATCATGCACTTGAGCATTATCTAACTAAGCTAATCGAAGAAAATTATAAAGTTGCTATTTGTGATCAGCTTGAAACACCTGAAGAAGCAAAAAAGAGAGATGGCTATAAAGCAGTAGTGACGAGAGATGTAACACGTATTATAACGCCAGGTACTATAATTGAAGAGAACTTAATTAGTGTAACAGAACCTAATTATTTAACAAGTCTCGTAATACCAAAAAATAAAAAAACGGCTAGCATTTGTTGCGTTGATCTTTCTACTTCTAAAATTTTTGTAATTAATGTACCAGAAACAGAAATTCTGAATGAACTTGCACGTTTAAAATCTCGTGAAATTCTGCTTAGCGAGAACCTAAAATCTTCTAACATTTCTGATAGTATTTTAAAACAATTTAATTGTCGTATTACCTATCAGGTTGATAGTTTTTTTGCAATTAATAAATGTGAAAAAATAATTTTAGATTTTTATAAAATAAGAGATATTAAAGGAATAGGGGAGATATCTAATAGTCAAATTTGTGCCATAGGCAGTATTTTAGAATATTTATCGCTAACTCAAAAACAAAACATTCCGCATTTACCAATCCCTAAAATTATCAATTTTCATAACTATATGACTATTGATTTTTCTACTAGACGTAACCTTGAAATTGTAACAAATTTACAAGGCAACTTATACGGAAGTGTACTAAACACACTAAATCATACAGTTACTACACAAGGTGGACGTTTACTATATCATTTTCTTTCAAGTCCTTTAACAAATATTGCTAAAATAAATCATCGTTTAAATATTACCGAGTTCTTTTATTCTAACTTAGGAATCGTCACAAGAATTAGAGAACTTCTTAAAAACACTAGTGATATAGAACGTTGCTTAACACGTATCACAATGAATAGAAGTTCTGGTCGTGACTTACTGAGTATTAAATATACTTTAGAAACAGCAAAGACAATTAAAGGCTTATTTTCTGAATCTTATGGTCTGAATTTACCTCATTTTATCGAAAAAATTATTAAACCTCTATCAGGCGATGCAGAATTATATAATTTAATACACATGAGTATAAGAGAAGATGCTCCGAATAATTTAAATGATGGTGGTATAATCAAATATGAATTTCATCCAAAAATAGCTCAACTAAATGACTTAATTAATAACAAGAAATTACATGTTGAAAAGTTAAAAGATCAATACCGCAAAGAAACACGCATAGAAAGTTTAAAAATATCTCATAATAATGTTCTAGGATTTTTTATCGATATTACCCCTAAAAATGTAAATAAAATTCTTGATCCTAAATTTATTCATCGTCAAACAACTATCAATAGCGTACGTTATACTACCTACGAATTACAAAATCTTGAAAACGAATTAGTTAATGCTCAAACCTTAGTAATAAGATTAGAAAAAGAATTATATACAGATATATGTAGAAAAGTAATCGAAAAATCTTCCTATTTAAAAATACTAGCAAACTCCTTAAGTGGACTTGATGTATTTTGTAATTTTGCTTATATCGCTGATGAATATGATTATACTAAACCTGAATTTACAAATGACTTAAGCTTTGATATAGTTAAAGGCCGACATCCTGTAGTAGAAGCAGCTTTACGTAAGACTAGTAAAAGCTTTGTGTATAATGACTGTCATTTATCAGAAGCAGAGCGTATTTGGTTAATTACCGGTCCTAATATGGCAGGTAAAAGTACTTATCTGCGTCAAAACGCTATCATTACAATCATTGCTCAAATAGGTTCTTTTGTGCCTGCTAAAAGCGCCAAAATAGGGGTAGTTGATAAAATATTTAGCCGAATAGGTGCTGCAGATGATTTAATTAAAGGACAATCAACATTTATGACAGAAATGCTTGAAACTTCGGCTATTCTTGCGCAATCTACAAAAAACTCACTCATTATCCTTGATGAAGTTGGCAGAGGCACTTCTACTTATGATGGAGTATCTATAGCATGGTCAGTACTTGAATATATTCACGATAAGTTACAATGTCGTTGTTTATTTGCAACCCATTATCATGAGCTAACAGTTATGAAGAATTTTCTGCCTGCTTTACAAAACTATACTATCGCCATTGAAGAGTCAGGTAAAGATATTCTGTTTTTGCATAATATTATATTAGGTGCTTCCAATAAATCTTACGGTCTTCATGTCGCTGCTTTAGCAGGACTACCTACAAGTGTGATAAATAGAGCTGCACAGATTTTACTGAAATTTGAGAAAATTGCTATAAGCAAAGAAAAAAATATTTTATCAAATGCATCAAATAACTTGAGTTTGTTCAATTTTGAACACGAGAAACCTATATCTAATAGTAAGCTAGATGAAGAGTTTAAAACTATCGATCCTGATAAAATTTCCCCTAAAGAAGCACTGGAGTTGATTTATAAGTTTAAAAAATTGGTTTAATCCAAATTGTTATTTAGAATCATCATAGCAAGGACACTATATAATAACTCATGAAGTAATGTCATAATTTTTATCATATTAATAACTTACTGTATTGCCCAGTATTGCGTCTTTTTACAATAACGATTTAGTAGACACAAAAACAGAATCCATTTCCAACCAATATTTACTGCATGCAAAAAAATGAGGATTAGCAAAATTTGCTTTACCGTAAGTAACTTCTTGACCATCGCAATCTAAAATATTACCGCCGCTAGCTTTAATTAGTGCATGACCTGCTGCTATATCCCACTCCATAGTTTGGCCAAACTTGGGATATATATCAGCTTTACCTTCGGCAATTAAGCATAATTTAATTGAACTGCTTATTGCATTTATTTTACCGAATGAATAACTCCTTAAAAATTCTTTAGTAGCTTTATTTGAATTATAAAAACCTACAACAGCATTAGGCTCTTTATGTTTAGGTGAATAATTCACAAATATTTCTTGAGAATTTTGTTCGATTTTTAATCGACCGTTTACATCAGTATAATACAGCTTCGCAGTTTCAGGATGATATATCAAACCGATAGTCGGAAAACCATTTTCAATAAGGCCTATATTTACTGTATAGGTATTTTTACCCTCTACATAGCTCCGTGTCCCATCAATAGGATCTATTAACCAAAAAGTATCACTATTTAATATAGGTAGTGGCTGCTCTTCACATACTATTGCTATTTGAGATGTTAAGCTTCGTAAAGTTTGATAAATTATTTTACTAATTTCCTGATCTGCATTAGTGACTACAGAACCATCTGATTTAGTATCAATCAATATTCCTGTTTTTTTGATATCTAGCGCAACCTTACCAGTATTAATAATTAAATCTTTTAAAGCATTAATTAAATTGTCATTCATAATTATTTATTTAACATCTTTGCAGCCGTATCATCTTCTAACCACTGCCCAGTATTTAAAAACGTAGATTGCTGCAGCTCAGCGATTTGATTATCAGGTGATCCAGGCAACATTTGCCATCCAAAATATTCAATTCCATAATATCCTATATCAACCATACTTAAATAAGAGTCCATATTTTCTAAATCTTTTTTATTATTTGCAAAAATTACTATTTTTTTAGGTGGTATTGGTATAATTTTTAAGAACTCTATAAGAGTGTTCACTTTATTTATATTACCGGTAAATATTATACCTAAATAAAAAATAGGAGCTTCAGCATCACTTGGATTAAATCTAAATACCTCTTTATCATTAACTTTGCGAGTAAAATTAATATTAAGTCCATAAAGTATGGTATATAACCATCTTTCATAATTTTCAATTAAATTACATGGTGCTGTTATTTCTTGAAGACCTAACACTGTCGCCCCTTGATTTTTCATCTTATTAATTAAATCTACCCATTGAGATTCAACAAGCATCATTTGACGCTGTACTATCAATTTTGCAATAGTTTTATTAACTGATGCATTATTCGCCGCAAGACTATATAAATATTTCGTGAAATTAATATAAGCATTATCCTGATATCGGAATAATTTAGATTTAGGTGTAATGATAGTATTATCTATATTTATCAATACCAACGTATCTTCATCTACATTTGGTAATAAGTTTTGTATTGTTACCGAGTCTACAGAATAAGTAGGAATAATTTGACTATAACCTGCATATGCAATAACTAAGCAAAGTAAACTCAATAAAACTTTATTTATACGTTTCATAAGAATTTTTACTTTTCGCGTTATTATTCTTTAAAGGTGGATTATTTCTTTTTAGCTTATTTATTTGAGGTATTAAATCATTAATCATTTTAGTATAATATGCAATATCTTTATAGTCCTTATCGTCCGAAATACTTTTATTATTATAATGATAACCAATGAATAATATATTAGAACTATAATTATTAAGCTGAAATTCCATAGAACGTAGCAATTCTCTACTACTACTAATCAGTATAAAGCATTTTGGTATAAAATTAATTTGAATAAGAAAATTGAGTATCACTTTTGATGCTGGTATATTATTACTAGTCAATATACCCTTATAAAATACTGGATAAGTATTATCAAAACTATCTAAATTATTAAAAATAATATAATTATTGTTTGGAAAACTCTTTGAAAAATCAATATAAAAATTTTTTTTTAAATAATCAGCAAACCATATTTCAAATTTAGGAATATTATTAAAATTACCAGTAAACCCATTATTTACTGCTATTATTGGGATCTGACTATTACTCATTTCATTTACAAAATTTGGAAAATCAGATTCTTGCAATTCTTTTTTATAACTATTATTAGTTAAAATCAATTGTGTTATATAAATAATTTTAGGGTTTTTATTAATATGACTAAAAAGAGGAGCTAACGCAAGATACCTATGCTGATCAATATATTCACCAATAGGTACACCAAAAGACTTAAATAAAAATTTATCTAGAACAGTTACTACTAATAAATCCTGCGGTAGATAGTTTTTATTATAATTTACTTTAAAATCTTGTGTTATTTTATTTAAACTATCCACTTCTATAATTTCTGCTTTCACTAAGGAAGTAACAATTAATAGTTGGATAAATAAAAATTTTCTAAACATTTACGATGTCCATTTTAAAGATAAAATGCCACAACATTACTTAACAACTATAGTACATAAAAATTAGCTTTAAATCCACATTGTGACACTTGTTATACTATAAGTGTTATCATACTACAATACTAATATCAATTCATATTAAATTATAATATGGTAAATATGTTCAGAAGTTTTGAGTATAAAAACATCTAAATAAATATCTTGAGTAAATTATGTTTGTAAAATTAACAACACAAATATTTCATCACCATCTTACACATTTACAATAGCTATACTATTTTGAGCATCTACATCTATATATTCACACTTACCGTTACCTTTTTTATATTCAAAATGCTACCAATTTCGCCGTACTAAGTACCTCAGTAGAGCTCTTAATCAATTATATAAATCACATTTGAAACGTGCTGTTAGTTAATTTCAAGTCTATATCTCATATTATATAATTTAAAATTACCTTTAATGAATATTTCATTGTGACATTAATTATAGTTCCCCTAACCTGCTTAAGATCAATGTATTGCAATGTTACTAACCTCCAATTTGATCAATTTCTTACTATATTATCTGTTACCCCAGCATACTAGCTCAAAATTAATATTACTTTCTCATTAGTCTTCGTTGTATTAATGCTGATATACAATCATACTTTATTTTTGATTAGGTATTTTAAAAAAATTATTTTAATTACTTAGAATATCAAATAAAATATTAGAAACATTTTGAAAAAATTATCTATTATAATTTTATCTTTTGTACATATTTTTGAATTTTCTGCACTTATATCACTATGAGATAATTGATTTATCTATACCACTCAATATACTAGTAGTCTCTATTAAAATATTATTTGCATTGTGATACAGAGCAATTCCTAACAACGTATCTTTAGCAAAAGGGAAATAACTACTGTAAGATAATACAAATTTCGCTAATATCATATATAATAGAATAGTGATGGCAGCCCTCTATACTACTACAACTCTTTTTTGTTTAAAATAGGTATTATCTTTGCTTACTGATACTGAATAATATAACTTTTACTAACCTTTACTATGAATGTCATAAGAGTTCTTAACATCTTTTGAATAATGCGGTGTAAATCTATAGAGCAAAAGATTTTAAATAAGATAATCATTAATGCTAATCTACAGTATAATATTAAAAATGTTATACTCACTCTACGTACCTTAGCTATAGGATAAATCATATTGCCTTTGTTACTTTTATATTAATAAAGTAACTAAATTTTTATTCTATAAATATTACGTAGCAAGAGCTGTTGATAAATAAATCGATTTAGATAAAAATCTAGAGTTAATAAAATATAGCTATTATCAAATAATAATTTACTTAAAATCAGCAACTTTTTCAGGACTCATTTTTAGTAAATAATGTAGCTTATGGTTTGTACAGTTTTTTTACTATTAAGTACTTTTAATCAAGCAGGTCTCACATCTCACAAATAAATCTAAATACTAAAACATTTTCTCGATAAGCATCAAAGATGACGATGATTATTTACAATGTATTTGAGTTCAATAAATTTTGAACATGATTATTCAAAAACTTTTTCCAATAATTTTTGATTATATATCCTACAGTATATAATGATTAAGCTTTTAGAGTAAAAATAGAATGCTTTATAGACCAAAAAATACACTCAAGATTAACTTGGACTTAATCACATTATACAAACAATAACTAATCACTAAAATTATAACTAATATTTTTTCTAGCAGAACTTATATCTTTTAAACGTTCACAAACTTTGTCAAAAACTTGTTTAGGCAATATACTTGAAGCATTAATTTGTAAAAATTTATCGTCTTTTAATTTAATTGAAAAAGAAGGTTCTTGAAATTCTGGCCCATCGATTTCTCTAGCAATTTTTATATAATAACCGATTATATGACTGTTATAATAATCACTTTTACTAATCATTTTCTTAGCTATTTTATTAATCTGCATATCAGTTTTAGCAGTATAAGTGACTGTAAGAGCAATACCAAGCATTAGACGCTGTCTATGACTAAAAGGAATATCGGAAGATAATATAAATTCTGAAACAAAATTTGCTCTGAGCGTTTTATCAATATTTTTATTATATTGCGCTAGCATTATTGCGAGTTCAATAATAATAAGAGTCGTGGCATCAGAATTAATTAAAAGATATTGTAGTGCTTCAATATATTTTTCAATTTTACATATATTTCTATCAAAATTTACTAATCTTTTTACCCTTTCATAAATGATATCTTTTTCTGTTTCATGATACGGCAATGAGTCAAATCGCACTCCTTCCTTTAAACCGTAATTCGAGATAATAATTTTTTCCGGTGAAAATACCTTAATCATAGCTTTTATTACTAAAACTGCATTATAATTTATAGCTTTTTGTTCGTAATAACTCAGCTTTAATTTATCAATTTGCGATAGTTTTTCTAAATATAATTCAAACTCTACACGATTTATTTCAAAATTATGTAAATTCTTAAGAGGATAATTTATAGACTCCATATATATACGACTCATTAGACGTAATGCACCACCGATTAAATATAAATTAGGATAATGTGCAACTCCAAATTCCTCCTCTAGCATTTTAGTAATCAAACCAACATCACTAAAATTGCTATTAGCAATAATTTTTGTCCCGAGTGGCAATGATTTTAATTTACCAACTTTTTTATTATAAATATGTGCAAGCTCAAGACTTCCTCCACCAAGATCAGCTACAATACCGAAAGCATCACTAATACCGGAAATCAATCCAGCAGCAGTTAAATAAGCTTCACGTTCACCTGAAATAATTTCAATATCAATATTAAATCGCTTTTTAATTATAGTTTTGAATTCATCTGCTTTAGGGTGCCCTCTAAGTATAGCGGTTGCAACACATCTAATATTAGTAACGGATAGTTTGGTAAAAACATGTATAAGATACTGTATAGATAAATATGTTTGATGTTTCACATCTAAATTATCTAAATTAAGTAAGTTTGTAAGATAATTTCTAAATTTATAATTAAAAATTTCCGGTGCTCCAAGCTCATCACTTTCATAAACTACAGCTCTTAAAGCATTTGAACCGATATCAATAATAGCTGAACGCATTTGGAATCTTACTCATTATTTTCGATAACATTTGTTGTTTTAGTCTCTTCAGCAGCCTCATTATTATTTGCCATATGATTAAAAGGTACTTGAGTAGGTACAAAAGTTGGCGGTAATAATCTACTAGTAAAAAACTTATCTTCGTAATACTTAATTTTACGAGATTTTATAGGCGGGAAGGATTCAATTAAAACAATTTGCTCATCCCTCGGTAACTGTATTACTTCTTGAGGTAAAAGTAAAGCTCTTTGAACTTGGGATACGTTTTGGGTTCTAGTAGAAATATTAAGATCAAAAAATAAAGGTTTACTAAATGACCTTTGTTCTACCGTTTTATTACCAACAAGCTGCGATATTAAATTTGCAGTTTCATAGTTATTAGCAGCAAAGGTAATACGATATGTAGAATTAGATAAGAAAGAATTCATACCAGCATCTTCATATGTTCCTTTTAATTGCTGCGTATCTTGAATAATCAAAAATAATCGAACTCTATAACCTCTAAAATAAGCGATACCAGCTTTAAAAGTATCCATCTTTCCAAGCGTCGGGAATTCATCAAGTAAGAACATTACTCCATATGGTTCTTCCTTTAAATCGGGCATTTTACGGCTTAAAAATTCTGTAGCTTGCTGATAAAACACCTGCATTAATTTTTGCAAACGCTGTATATTATCAGGTGTTAATCCTACATACACTGTTGTTTTCACTTTTTTAAATTCTTGTATATTAAAGTCAGAAGATGCAGTTGCAGAATCAATAAGTGGATTTGCCCATAATTCAAGTGATGAATTCATTGTAGATATTACACCAGAACGCTCTTTATCAGCTTTTTGCAAAAATGCAGCAATATTCATATATGCAACAGGATGTATTACACCACCAAGCGTATCAAGTACAACTGCTAGATTATAAACTACATCGTCACTTCTCATTGTACGCACTACTTCACCGAAAGATTTAGTTTTAGTAGGATCGGCTATTAAATATAAAGTTACACCTAAGAATAAACTGCGCGCTTCATTATTCCAAAAATCCTTTTCAGGCATTATAAGATTTGAAATTTTCTGTACATCATCAACCATTTGCCCAGGCTTAGTACTAACCCAATCAATTGGATTATAACAATGTGTAATACCGTCCGGATTAGAAGGCTCCCAAACAAAAACTTTCTGCCCTTGTTTCTCACGCCAACCACTAGTCAAATTGTGATTTTCAAGCTTTATATCATGTACTACTACTGAATCAGTCCAAAATAAAAGATTAGGTATTACAAAACCAACACCTTTACCTGACCCAGTAGGGGCGAATAATAAAGCATGTTGAAACCCATCCGCAACAAAATATCCACCAGCATCAACCCCTATTAACATGCCTTTTTTTGATCTAAGGCCAGCAGCTTCTATATCAGACTGATTAGCCCAACTCGCATCACCATATACTTTTTCAGGCTGCTCAAAAAATTGTAATGCTTTTATTCTTTGAAAATTTTTAATGTAAAATATTATAACAATAATAGCAGGACCAAAAAGAGATACAATTAGCTTCAATTTTAAATAATTATAGTCGGCAATTTTTAATTGCCACCAAACATTAATAAGCCAGTAAGCCCACTTATACGCAATATTTATAGCATTTATGTCTGCGCCTAAAGCTCTAATCTCATTAGTAAAAATTGCAACAAACACACCAGTGATCCAAATGGTGCAAAAAATAACAACCGGATGAATTATAGCATGACCAAATATATTCCTAGTAACCTTAAGTATCTTATGCCATTCCATAAATTAATATTCCTGATTTTGTTTCTTTATCTCATTCTTGACTCACTCTATCCTAATTACAGAGTAATCGTGGAGTCAAAAAAAGCAAAATTATCTTAATTTTAATCCAGTATATTTAAACTTTTTTTTATTATTACTGCATTCGCAATTACGCAGATAATATTGCTATTTAAAAAATAACGCTTATATATAAGCATACAAAACTGTAGATGACGTTTAATTCAATAAAGCGCAATATGCTGTACCATACATACTATAAGGATTAAACAAACACAATACAACGACACTAACTTAAACTAATCTATAACATAGATTCAGAATTCTTATTTTTTTTGTAGTACACTTCTGAAACATATCTTTTTCCACCACTAGCACGTTTTAACTGTACCACAATATCTACAACGCTTAAAATATACTTTTTTACTTCTTCAGGTGGCATACCAAAATCTGCTTGCATAACCATAAGCTTTAACTGTTCAATAGCCATAGCAGGACTATCAGCATGCAATGTTGATATTGAGCCTGGATGACCTGTATTAATAGCACGTAAAAAACTAAAAGCTTCCTTACCTCGAAGCTCACCGACTATAATTCTATCCGGTCTTAAACGCAAACATGCCTCTATTAAATCTTGTGTAGTAACATTTGCACGACCCTGTCCACCTTTAGAAGCAAGTAAATGCACTCTATTAGGATGACTTGATAGTACAACTTCACGAGCATCTTCTACAGTAATTAATCTCTCTATTGCAGGTATTTCAGTAAGTGCAGCATTAGTAAAAGTAGTTTTACCGGTTGAAGTACCACCACTAATTATGATATTTTTTTTTGAAATAACTGCATATCGAATAAATTCTTTAATTTTTTTTTCAGCTAAAAAATTATTTAAAATATCTGCATCTTCATCTACTAAACTCTCTGTTGCAGTGTTATCAAATGCTCCCATTTGAGCATATTCATCTAAAGTTAAATTCATACCACTAGGCTTTCTTATAGAATAAATGATTTGTCCTATCTCACACGCAGGAGGAAATACTATTTGGATACGGTAGCCATTCGGCAAAGTTGCTGAAAGTAGCGGTTTTTCTTCTGAAATCATCTGTTCTGTAGATTGCGCTACTAAACGCCCTAATGCAAGTAGATGGTCGCTATCCAATTCTGGTATTTGCTTAGAATATATATCACCTCTTTTCTCAACCCATGCTTCTCCAGGCTTATTAACCATAATTTCGTTAATACCTTCTTCAGCAAATAAATTTTTAAAAGGCAATAAAAACGTCTCTAAGGCTGCAAATTCTTCATTCATTTCATTACCTTCGATTTTAATAAAACGGTTTTTGGAAATTTATAATCCTTATTAACGTATATTCTAATCGGCGTACCTTGATTAACCGTTGTGGTAGGCTTAAAATGTTGCTGAGTTATCATATTTTGTACAACATTAGTCACATCAGTAAAAGCTTGTGTAGAAGCTTGTTGTGCTTGTGTCGGAGTTGATGCAATAGATGTAGTAGTCAGCAAATTTGAAGCTGCCGTATTAACTGCCTGTATTAGTGTTTGCAATCTCTGTTCAGAAGTATGTGCAGAAGAAGCATTTTGTGCTGTCGTACATGCTTGAGTCATAGTAGCATAAGCAATCGAAGTTTTATCGGTAATAGCAGCAAGTATATTAGTACAAATTGTAACTATCCTAGTATTTACATCCATAGCAGTGTTAGACGAAATAGTTTGAGCTACATTTAATATTTGTGTTGCTGTAGCGCTGTTGGTAGCCGCTGCCTGTGAATCTATAGGAGGAGGTACTAACTTATCTAGGATTTTAGCAAGACCTATATTAAAGCCAGATTGTAATACGGCATTTGCAAATTGTTCCTTATATTTATTATCAACTCTCCCTTGTAATCCAGGTCTACCTAAATTATCAACTGCAGGTGAGTCAAATTCTATTGTATAACCATTAGTTAAGTCGACTCGATCCCATATGATCGAAACCCTACCGTAACTATCCGATGAAGTTGAAGTTGCATATTTACCGAATATTTTTGATCCTTTGGGTATTAATATAACTTTACCTTTCTCAGAAAATACATCTCTACTAATAATTGCTCTGATTTCACCACCGAGATCACTATTTATTCCTGTTTCAAGGACTGCATCAATTAATTTACCGCGTCCGAGCAACAAAAACATATCACCACGATCTTTAAATGTTACTGCTTCTGTCATTTGTTCTGGTGTTTTTTTAGGTGCTACCCCACCAACTAACACTATAGCTGATTTCCTTTTTGCTTCACGGCGTTGTTTTTCTGCATCACTCTCAACTAACGTTCCTGAGGTCGTAGGTAACGAAACCGGGGGTAATTGAAGTGTTTTATCTTTATTTCCTTCTACAGCAATTGGAGGTAAGACAGGAGGTACTTCTACTACCGGTGGAGGAGGAGGTGGTGGTGGGGACACTATTGGCCTCTCAAGTTTCGGTGGATCGGGTAACTTTGGAATCTCTGGGATAATATCATCAACATCTGTAACAGGCTTTACAATATTACTCGGTATTTTAGTCTCCGGTATTTCTTCTTTTTTAGTGCTAACAAAAAGAGTATAAAAGATATATATGAGGATAGCACAAATGACCACTACTATCGCAATATTCTTATTAAAACTAACCGAAACTTTAGATAATTCTCTTTGTACTTCAGGTAAATCTGCCCCTGATAAAGAATCGGTATTATTATTGTTATTTTGATCTACAGCCATATCTAAATTATATTAGTTAAAGTGTTTTAGATTTAAAATTGTCATACTATGATCAAATTTACGGAATGACCACCGTACACCACTAAAACCTTGCCATGTAATTACTATTTTTCTTAGGATAGTAAAATTTTATTACATATACTAAATCTCTTTCATGGCCTATCATAAGTTCAGTAGAAGCGATATCAAATTCATATGTTCTTTTATTAGTTATAATCGTCATATTTGTACGAATATCTTTCTCCAGAGGCTTAATAAATAACCTATTTGCCAGAGTGGTTATTTTCCAAGCATAAGCATCCCCAAGAATTATATTTTGGATTTCTTCATTTTTAGCGAATTCTATATGCGATTGAAAGCCAAAATGCAAAACTAATAAATAAACTTCATTTGGATTATATATATAAGTTTTTATCCTATTATCTTTAGTTAAAGGTAAATCATCTACATAATTATTTCTACTACTATTAAAATCATCTACAACCGGACATGCGCGTTGTACTGTAAAACCGCTTAATAATAGAAAAACTAAAAAATAAAATCTAACTATTGTCATCGTCTACCCTATATCCGTTAACTTGAAACCCTACTGGATTTATGTCAAGTTCTGAATCTGTTAATTGCATAGGCACATAATCATAACTTACTACCGCTATTTTATTATAAACTAATTGACTTCCTGATGTTTCATTTACAGAAAATCTAACTATATATTTATCGTCTGCGATTTTGGACCATGACTTTATTACTAAAAATGTAGTATTATCTTCTTTATATTTTAAAGTAGGATCAAAATCTTTATTTCTTATATATCCAAGATAATTATAATAAACAGCACTTGTGGAAAATAATCTTACTGTTGTACGAGCTATAGTAGCAAAATCAACCGGATTATATGTTTCACGTGCTGTTATATATTTCTTTATAAAATATCTTGTAAGAGATTCGTCTACAGTTAACATTGATGATGAAATAGGTTCTACCACCGCAGCCCGTCCAGTATTACTATTAAGCTGGATCACAAAAGGATCAAACTGTTTAGATTTTACTACAAATGCTATAACTAAAGTTGATATAACCATAAAAATGGTTAGTAGTATTATTAATATAATCAGTAAGTTTCTCTGAACAATTAACTTATCAGATCGCTCTTCATACCAATTCTGACTAATTTTTAAAGGATTAGCTGATTTTATATTTTCTTGATTTTGTTTACCTCCTGAAGCACTTTGCGTGTTATTACTTGATTTAAAGAAGCCAAATATATTATTCATATCAAAGGTATTTTTATTATTACATTGTTATTGTATCAAATTATTACTTCTTATACTATATTTACTGCATTAATCGGTCTTCTTATACAAGGATTTATGCTTAAACTCGAATTATCATCTATATCAACAGAAACGCACGGACTTTTAATTTCATAAGGAGCTGAAGGTGTACATGACAACAATTGAGCAAGAATAATGAATACTAATAGAAACTTTAATGATTTTAACATTCTAATTATACATTATTAAATTATCTTGTGACTATTTTAAAATTACCTTACTATAAAATAGTGCACAAGTATTTTTTGCAAAATCTATTTATAAATAGAAAAAAAATATTAAAAAGATTGTAAATTGTTATACTCTGCAATAAATCAAGAGTTAGTTATAAGAAGTGTAAATTGATAACAATGCGTATATTAAAACACGTAGCTACCTACCTATTACGATCTTATAAATACACTTTAGTCAAATTGAATGAGTATAATCACTATAATCAGAAGTTGATATTATATATATTTATATATTTTAATTTTAAAGCTAAACAATATTTGGTATTGTAGCAACAATATATAAGTTATTTTTTAACTGAAATAACATTAAATTAACAAATTATAATCATAATATAATAATTATGATAGAGTTAAAACACAATAAATTAGATTATAATCTAGTCATTATGGATCAATTAACCAATGCAATAAAAGAATATATAAAATCCGGTGAATATTTTATTGATGCGAGAAAATGGTATAATTTTAAGTATATATTACCGTTAAGTCATAGAAGTTTTCTATTCTTAACATGCATAATTTTCACATTATTATTAACATTAATTTGTCTTAATATCAACATATTGTTACCAATACACAAAAAGGTAGGTTATTTAATAAAAGATGATTCAGAAAAACAAGCTACCATTACTAATACTAAACATTCAACATTAGCAAATCCTTATATTGCTGTTGCGAATATTATGCTTCAGAATTATGTAAAACAACGAGAAAAATACAATTATGATACATTAAAAGAACAATTCACTTTTATTAAAAATGCTTCTACGAGTATTGTTTATATGCAATTTGCTAATTTTATGAATATTGATAACTCATTATCACCTGTCATAAGATATCAAAAGCTATATAGACGCTCGATTAATATAATATCAATTAACAATATCAACAATAACGAAGCAACTGTTACTTTTGAATCATTGGCGCAAAATAATACTGGTGAAATTTTAGAAAATATGCTATGGGAAGCAAGAATTGGATTTATAATGGATTCTATCAGTACAAGTACATTACAGGATATGACATTCAATTTTACAGTGACTAGTTACAAGCTAAAATTATTAAGAAATAAAAATCAGCAATAATATGAAGCAATTAATAATATTTTGTACTTTTATAATACTGACATTAGATATATTTGCTCTTACTATGTCACGACCTCTAGGTCGAGATCCACGTCTAAGGGTTATGATTTATAACCCTGATGATGTTTTCAAATTCACAGGATATTATGGCTATCAAGCAAGTATAGAACTAGCACAAGAGGAAGAAATCGTCAGTATTTCTATGGGTGATACTACATCATGGCAAATAGTACCCGCTGGTCATAGAATTTTTATTAAACCTATGGAACCGGATGCTACTACTAATATGACTTTAATCACTAATAAACGGACTTACTTTTTTGAACTATATGCAGCGGAAACTCTTGATATACGTGATCCTGAAATGGTATTTAATGTAAAGTTTCTTTATCCGGATGATGAAAATGACAATATGAGCGGTCATATGCAAACTTTTTCTACATCTCTAGCAAGCCCTGATCTTACTCATCCTGAAAAATATAATTTTAATTACTATATTAGCGGAAGCGAAGAAATAGCTCCTATTAAGATCTTCGATGACGGAGAATTTACTTATCTACAATTTAGAGATAAAAACGCCGAAATTTCTGGTATTTTTGCTGTAGACGATTCACTGCGAGAATCTTTAGTAAATTATCGTCTTGCTCAAGATAATCCTAACATGATCATTCTAGAGCAGGTTTTTCCTAAGCTTGCTATACGTAAGGGTAAAAAAGTAACATGTGTATTTAATCATTCTTTCAAAGCATACTAATATCCCAAATATCATGAAGGATTTAATTAGAATACTAAACAAGTTTAGTATAAAATATGTTGAACTAGATTGCAATATCAGCACTAAAATATCTTCTTACAATAACAACTTAAATTTTATGCATCTTCTAATATACTTTTTCACCTTAATCTTATTCACGAGCGGCTTATTCATAATGCTTACAAGTCAGAATTATATTCATAAAATTATAGGACTTGGAATATTTCAAAGTCCAGTATTACTATTTTTTTTAAGTATTGGGAAAATTAAAACAGGTGGTGTACCTATTTTACGAGATGGTATCAATACTTATACTAGCCCTTTACCTCATGTATTAATACTGACTGCTATAGTAGTTGGATTTGCTACTCTTAGCGTGGCTTTAAGTTTAATATATCAAATATATAAACATTATGGTACAGTATCAGAAAATGAAGTTAATGTTGATAAATAAGATTGCATCAATGTATTGATATTGAGTCATTATTGCACACAAAATTACCTAGTAATTCAACTCAGCAATACAGTAAAAAATGATGATATACAGAATTTTTAAATTTTTCTATATTACTAAGTCACTATACTAATCATAAAGCATTGTTGCGTATACTAAGAAAATCTACTGTATAGAATTATAGTTGACTACGGTACCTATAAAACAATCAATAATTTAGTATTGTTAACTCGATCCAGCGATCACATAACAAGGATAAAAGAAGTAAGATTGTTCAATGTAACAATCTTCGTAATTAAGATCAATGATAAACTGATATGATTCTAACTAACCATTTTCCTATCATACAAATATTATTCCCTTTATTTGGTGCTTTACTTTCAATAATATCTTTCCGCTTTATTATATTTGCACGCGTCATTACTATTATTTGCATTTTATCTAGCCTTTTAGTCAGTGTTTATGGATATAGCATTATACAAAACACTGAGCTATCCTATACTATAGGAGGCTGGACTTCAAACATAGGAATAGAATATCGTCTAAATTCACTAAACCAAGCTACTACTATTTATCTTAACTTGGTTTTATTATTTTTCTTAGTTTTTTGTCATAAGATGACTAATCGTACAATCTTACAATATATCAACAATAATAGAAAATCTCTATTTTACGGTATATTATTATTCGCTCATACCGGCTATTTAGGGATGATTAGCACTAATGATTTCTTTAATTTATATGTGTTTATAGAAATTTCAGCACTTAGTAGCTATGTGTTGATAGCATCAGGTAATAATCCAAAATCTTTAGTCGGAGCTTTTGATTACTTGATCATGGGTAGTATTGGTGCGACTTTTATTCTTATAGCAATAGGACTCTTACTGAGCATTACTGGTAGCTTAAATATGCATGATATTGCAGCTTATTTAAAAGAATACACTAAGCTCCGTATAATTACTATAGTTATAGGTTTTTTCTTAATAGGATCTATTTTAAAAACAGCTTTTTTCCCGATGCATTTTTGGATGATGAGAGCTTATAATAATACTGCTTCAATCATTTTAGTATATTTAGCAGGAATTTCTACTATCATAGGAATATATATAATATATAAATTTACTTATATCATTATAGGCTACGAGACAATAAAAACAGCTATTACAAATTTTATAAGACCTATTGCTTTAGCATCTCTTATTATAGCTCCATACTTTGCATATCAAGCAAAAGACTTCAAAAATATTATAATTTATTCATGTTTCACCCAAATAGGTTATGTATTCCTACTATACATCACTGAAAATGGAATAATAATGTTACCAAGTTTATTACTTATAGATAGTATAAATAAAATATCTCTTTTCTTAATAGCTTCTTATAATGAAAGCTATAAAAGGGAGCCTAACAAAATTTTAACTATAATTATTATTATTTGCAGTTGCGGTTTACCTATAAGCCCGTTATTTTTTATTAAAATAAATATTCTTGAAATATTACTAGCGCAAAATCTACTATTAGATTTTGTTATCATTTTACTTAGCTCTGTAGTATCGTTATTTTACCATTATAAGATGATATTATTATCACTCCCACAAAAATATGCAAGAAATTGAATGTGTGTTTAGAGTCATATAACAACATCGACAAAATTCGAATTAATTATCATGATTATGCAATTTAGTACAACAAATCTCTTAATATTATCTACCTTATTAGTAGGTGCATTAAATTTAACTAGTCCGTATGCTACTAAAAAAGATAGTTTAATACGTAATTTTTTACTTATTACTATCGCTATTTTTTTCTACGGTAATATTTTAATTATAGATGTATTGTTTTTAAAAGGTATAAGAGCAGGATTTGAATTCAATATATTCGGTAATTACTCTATAGGATTCCATCTTGAACCTTTAGGACTTATATTCTTAACCTTGATAGGTTTTTTATGGATTTGCGCTTTACTTTACACTCCTAAATATCTTGCTATTAATAATATAGAATGCTCTTCCAGATTCTTATTTTTTTTTAACTTAACTATCCTAATAGGAATTTTAATTGCTTTATCTAGTAATTTATTAACTATGTTTATTTGCTATGAACTTTTAACTATTTCTACAGCCTTCCTAATAGGACATACTAGAAACAATATAGTAATGAGCGGATTATATAAATATCTAAAAATTCTAATGATTTCTGCTATGTTATTATTTTTACCGGCAGTGATAATTATTTATAGTAAAACTGGTAACGGAAATTTTGAAAGTTGCAGCATAGTAAATTATTTTACCAGAAACCAGTCAATTATTTTATTATTAATGTTTATATTCGGTATTGCTAAAACTGCAATTTTCCCTGTACATTCGTGGCTTCCAGCTGCAATGGTCGCACATTACCCAGTAAGCAGTTTACTTCACGCAGTAATAGTTGTTAAAACTGGATTATTTTGTATTTACAAAATCCTATTATATGTATTTGGTTTATCATATTTACAAATTATATTTGCTGAGTTTAACTGGTTAATTTTTATACCGATAGTGAGCATATTTTACAGTTCAATTAAAGCACTAAAGACAGATAACATCAAAAAAATACTTGCATACTCTACTATGAATCAACTAAGTCTTGCCTTACTAAGCGCTTTCATGTTAACACCTAAGGCACTTGGAGCTGCAATCTTACATTTAGTTTCACATTCTTTTACAAAAATCTGCTTATTTTATAGTATGGGGAGTATTTACAGTTTAAAAAAAACCGATCAAGTACAGAATTTACATGGTATATACAAAGAATTACCTTTAATTGCTTTTATTATATCTATCTCTTCATTATCATTAATTGGAATACCTATCTTTAGCGGATTTATTAGCAAATTCTCTATATTACTTGCAGCAAGCGAACAGAATCAAATTATCGTTATGATTGTCGTAATAGCTAGTAGTATATTCTCAAGCATTTACCTTCTCAAAATTCTAAGCTCCATCTATAAACCTTCTTTATTAGAATATAACGTAACAAAACAGCTTCCATATTCTATACATATCAGCATAATTATTTGTACTCTAGCTATAACATTATTTTATTTTATTCAAATCTTAATCAGAGAATTTTTATCTTATATTACATAATAATATATACATAATAGCATATTTATGTATATATTATTATGTATCAGTGATGCTCAATATAAGCAACAGAATTTTTACGATCTTTTTTTTGAGGATATAAGGCTAAAGCTTTAATATTAAAATCTATCTCGTAATACGAATTACGCATATAAATAAGTAGCATGATTCATGATTAGATTCTGAATATAGTACAATTTACAAAAGATATTGATGATATAAACGCAGCACTTGAATAAATATTCAAGAGTTTTATAGCAAAAAAGTGATTAATAAGTGCTAAAGCAATACTTAATAGGTTAAATTCTGAGGATATATTCCATATTTTATTAGGAGAATATTAATTGTAGTGATAGAGAATATAACACGAGTAGTTTTATAAAACTTTTAGCTTTTAGAATATGTAAAAACTTTTTTCATGTGCTATCTATTTTGAGTAGAACAAGCGTATATATTTTAAGCAAATTACTATTTGCACTCATTATTTACTCCAAATACAATAGTTCACAATTATCATCTATTAACTTTAAATGAAAGATTTGAAAAAGATTCCGAGAATAGAAGTATAAACAACTGCACTTAAAGATTAAAATGTTTATTCAAAATACAAAATTTATATTTCCTGTTACTAATTTCAATCTTATATTTGATTTTAATCCACAAAATCAGCTAATAGCTCTATCATTTATAATTGTTACTACTATTCTAAATATTTATACAATTTCTAAAAAAAGAAAATTAGAATGCTTGATAGGTAGTTTATACTGTTTATCATCTATTGCATGTATATTTGCAGCTGATTTTATTTCCATGATAATTTCAATTGAATTCATGACGATTTTTACATGCATAATTATTTTTTGTGAACAATTAAAGATACAACCGCTACGTCAATATTTCATTACTCATTTATTAAGTAGTGAGTTAATTTTAATCGGTATTACTCTTCGAATCCAAACAACAAGTAATACAGCTTTTATTTCTTTAACAGAATCAGTGAATCATTTCAAGTTACCAGAAATATTTATACTTACCGGTTGTTTAATTAATGCTTCAGCTATTTTTGTAAACGGATGGGTAGTTAATTGCTATCCTGCAGCTTCAAGTAGCGGTGTAGTATATTTAATTAGTTTTACTACTAAAGTTAGTTTAATAATCATTTTAAAATTATTTAGCGGTCTTGAGATATTAAAACTTTTTGGGATATCAATTATGATTTACGGATTAGTATTTTCTCTAATTGAAAAAAACCTTAAACGATTGATATGTTACCTGACCATATCACAGCTTGGTTTTATATTAGCTGCTATTAGCATAAATGCGCCAAACATAGATTATCTTATTACAAGCTTTATATTCATGCACATATTATATAACAGCTTATTTGCTTTATATTTTACTTATATAGAAGATGAATACGGTATTAAAAATTACCAAGATCTTCATAAGAGTTCAATTAACCTTATTTTGTTAATTGGATTTGTTATTAGTATATTAATATATATCTCTATATTACCTATTAGTTCTTCTGACATTAAAGATGCAATAGCTAATATTTTAAATGAGAAAAATATAATGATATTTTTTAAGATAATAACTTGTACTGTATTATTTGAGTTGTTGTTAGAGAGTTTACACTTGTTATACCGTCGCACTTTAAGGATATGCAGTACAAATATTAAACTATTTAGTATTATAGAATATTTCCAAAATAACGTAGTCAAGACACGGCATGATATAATAAAGATACTGTATCTACATTTCTGTATCATGACTTTATTCTTGTGTTTATTCTATCCTATTCAAATATCACACAAAACTAATTCTAACCAACTAATTATCCTTACAATTTCACTATTATTAGCTTTAATATTTAGAAAAATACCACGCATTTCGACAGAAAATATCAATCTTGACCTATACCAATATATCGAAAAATTGATCTTTTTCATTGTCGATAAATATACAGAGAAATATAATAAAAAAAATGCAAAAGCATATATTAATTTTAAAGCTATTTTGGATAACATCCTAATTAAGATATCTGCTTGGCATAATCAACAAACTGCTATATTTATAGTATTATTTTTATTAATTAGTTTTATTTTAACACTCTGTTATACAGCAGCTTAACCTTGTTATTAAAATAAAATAAGCAATGATAATAATATTAAACTACTATCCAGTGTGCTAATACTTCACTAAAAAAGAACAAAAACATGAAACCACCAATCGCAAATAAACAAAATTATAGTTTTGAAATCCACAAGCAAACAATAAAAGATGATTATAACTGGCTGCGTGATCCTAATTGGCCAAATGTAGAAGAAGATAAAATTTTAGATTACTTAAAAGCCGAGAATAAATATACTGAAAATTTTTTTCTCAATCTGAAAAAAGATAAAAAAAAGATTTTTGAAGAGTTAAAAGGACGTATTAAATTAGATGATGAATCAGTTTATATTAAGAAAAAAGATTATTACTATTATCAGAGAGTAGAACGAGATAAAAATTATCCTATATATTGTCGAAAGCATAATAGTATCGAGGCAACTGAAGAAGTAATATTAGATGTAAACTTACTTGCTTCAAAAGGGAGTTTTACCGATATTGGAGAAATTGCAATGTCACCTGATCAAAATTTAATGGCTTATAGCGTTAATTTTACAGGTAATGAGCAATATAATATCAAAATATACAATATTAAAAAACAACAATACTTATCTAATGAAGTAAAGGATGTCGCTCCTGTTATAATTTGGCATGCGCGACTTAACGGCTTTTTCTATATTACTATTAATGAAAATCAACGCTGGGATAGGGTCATATTTCATAGTTTAGACAGAAATATTACTCAAGACAAATTAATATTTGAGGTAAAAAACCCTATCCATTTTATTAGCTGCAAAAGATCCGCAAGTCATGAATATATTTTTATAAATTCAGGTGATCATAATGAAAACGAAATTTATGTAATTTCTATGCAGGATGATAGTTTTACACCTAAATTAGTACGTGTAGCAGAAAATAAAGTATTCTATGAAGTAGAACATAATGGTGATTTTTTTTATATTAAAACTAATTATAAAGCTAAAAATTTTCATATTGTAAAAGTTCCAATTAATAATTTTGAAAATGCTAATTGGAATGATATTTATATTCAAGAAGAACAGGACAAATATTTAAAAAGCTTTGATGTTACAAAAAATTATCTAATTTTAAATTATCGTTATAATGGATTGCCACTTATTAAAATAAAACAATTTCAAGATCAACATGAAAACATAATTCATTTTCCCGATGTAAGTTTCCAAGCAAATAGTTTTTCTACTAACTTTGAAGAAGATAACATCAGAATAGATTATTCTTCTCTAGCAAGACCAAATACCACTTATAGCTACGATTTTGATAAAAATAAATTAACAATATTAAAGGACCAAGAAATACCTTCTGGCTTTAATCCAGAAGAGTATAAAGTAGAAAGAATATTTGCAGATAATGAAGGTGTAAAAGTACCGATAACATTATTTTATAAAAAATCTTTATTTAAAAAAGATGGTTCGAATCCTTTATATCTAATAGGTTATGGAGCTTATGGTATCACTATGCCGGTTAATTTTAGAAACATAGCAGTAACGCTTACAAATCGTGGTTTTATTTATGCTATTGCTCATATTAGAGGTGGTGATGATTTAGGACATGATTGGTATGAAGCTGCTAAATTTTTAACAAAAAAAAGGACTTTTGAAGATTTTATCGCATGTAGTAGAACTTTAATTAAAGAAAAATATACAAATAATAATAATATAGTAATAGCGGGCGGAAGTGCTGGCGGCATGTTAATCGGTTATGTTCTAAACGAAAAACCAGAAATTTATAGAGCAGCGATAGCTCATGTACCATTTGTAGATGTATTAAATACTATGCTTGATGAAAACTTACCACTCACTCTCTTAGAATATAATGAATGGGGTAATCCAAAAGAGCAAGAATATTTTGATTATATTAAATCATATTCGCCTTATGATAATGTCAAAACACAAAACTACCCTGCTCTATTCATTAGGTGTGGCATATCTGACCCGCGCGTTGGTTATTGGGAACCAGCTAAATGGGTAGCAAAATTACGAGAATTAAAAACTGATAATAATCCTTTATTATTAAAAATAAATATGGATACGGGACATCAAGGTGCTGCTGGTCGTTTTGATTATTTGCAAGAGATAACTGACGAATTAGTATTTATTTTTAAAATCTTTGATGTAGAGATTTAAAGATTTGATGGTCATGACATATACTCGTATCGTGATCTAAAAAATAATGCTGGATACGGTTATCAAGCTATATGATGACAGAATAAATATAAAAACGATGCATAAAAATTATCTAGAACAATTACAAAAATTACCAATCACTTTAATTGTATTAATCATTATAATTTGCTGTATTGGGTTTATTGTCCTTTATTCTGCAGCGAATAGTAATTTACAACCTTGGGCTTATAAACAAATGATCAATTTTTGTATATTCTTACCATTAGCCATTATTATTGCATTAATTGATTTACGAACAATATTTAGGTTATCTTATATCTTATATTTTTGTGTACTAGCTTTACTAATAGCAGTCGAGCTTTTTGGTTCAACTGCCATGGGGGGAAAGAGATGGATCGATATTGGTATAGTGAAACTTCAACCTTCCGAACCAATAAAAATCTCTATTGTATTAATGCTTGCTAGATATTTTCATCGATCTACAAGTGATGATATAACAAAACTACATAAAGTTATCATACCAATTATAGGAGTTTTAACACCTGCTTTTCTAATCATTAGAGAACCAGATTTAGGTACAGGTATGATTGTTTTAATTGTTGCAGCAATAATATTTTTTGCAGCAGGTTTTAGAATAAAATATTTCATAATACTCGCGCTTGCTGCACTTATTAGCATGCCTATTGCTTGGAATATGATGTATGATTATCAAAAAAAACGAGTGATGGTTTTCTTAAATCCAGAACATGATCCGCTTGGTGCTAGCTATAATATTATTCAGTCTAAAATCGCTATAGGTTCAGGTAGCCTATTTGGACGGGGGTTAAATCAAGGTAGCCAAAGCCATTTAGATTTCCTACCTGAGCATCAAACAGATTTCATCTTTGCTACCTTTGCTGAAGAGTTTGGTTTTATAGGCAGCATGCTTTTACTAATATTATATTTTGCACTTATCACTATTTCTTTATTAATTGGCATAAATTGCCGAGAAATTTTTAGTAAATTAATGGTAATAGGTATCACTTCAATCTTATTTAGTCATGTATTTATTAATATAGCTATGGTTATGGGATTACTTCCAGTAGTAGGCGTGCCTCTACCATTTATTTCGTACGGAGGGACAATGATGGCATCCATGCTAATAGGATTTGGACTTGTAATGAATGCTCAGGTACACGTACATACTACTTTAAACTAGTATAATGCCGTGTAAAGTGAAAGTGCCTATTAAAATTAGCATAAATTGCTTCCAATTTAATTTTTTATAAAAAATTTATAAAAGATAAAATAGAAAACGTTAACAAAAAACTATTGAAATACTATTTTTAAGTCTTATGATTTAATGATCGATTCATTCTGAAAGACAACACTAAGACTACTATTATCTACTGCTTTTGATCTTACATTTTGTTTTTTAGAAAGGATCCTTTCTAGTTTTGAACATAGAATAAATAAGCTTGATGCATTATAGTCAATCAGAATTTGTATCTCAGAAATCATATCAAATATGCATTACAACACGTTAATGTTACAAATAGATTATAGATTTTCTAAAAACTTTTCGATTTTATAAATGTAAAGGGAAATTAGTCATAACGTAAGGAATAGATGTTTTAATCTTAATAAGATATTAAAATGCTACTTTAACTTGCATATTTAATGAATGTAAAATTAACTTGCTATCTATTCATGATTCGATTTTTTATATAAAGGTTTTTTTAGTATAAATTCGGTCCTATTAGGCTTGAAATTTGTTGTACAATATTATCAAGTAATCTATTAAATGACATATTAGAAAAATCTGTACTTTCTACGAGTGATGCTATTTTATTTGAATTATTTAGATCTTCTTCTGTAATATAATTTATTCAGTTATCATTTTAAGTAGTAATTTATTATTAATCAACTCCTTTGTACTTTAAACAATTCAAGCTCAATTACATTAGAACTGTTGTTATCTTCAATATAATAAGATTAAATAATTGGTATTTATTATGTTCTGAAGAAGTAACCTGATCTATAAATTTGCTTACTCCAGAATTGAGTAAATATTATAAACTTAAAATTCTTAGATTATCGATAACAGGAGTCATGATGTAGGAATGAGCGTATTAAGTGATTATACTAGGGCAAAATAATGTCTTTAATGTCTTAAGCAGGAACATACTAAAAACTCATTTAGAACAATCGCTTATCATATATTAGTAACAGTCTGGTAATAATCTATATAAAAGGTTATACGTACAATAAATAAGTTGCAATCAATAAAAAATAATACCCAATATTAGATCTATTACTTACTACATTTCATTTTTAAACAGAAATGATTATTACTTAATTTCAAATTAAACAACTAAAGCTGATTTAAGAGAAATATGCTGTTTACTTAGAACATTAGTACAGGAATATTTACTAAAAAAATTAAAGTATAATCAAACTATAATAAATGTTATGTTATGAAAAACTGATTCAAAATATTACAAAAAGCTTAAATATAAATATTAATTCAAAACCTATTGGGAAATTATTGCATTTTTACCACTTCATTCAAAATCAATAAGTTTAAAATTATTTAAGATTGTTAATAATTTGACGTATTATTTAAATAATATTAAATTTAATTAAACATCTTATAATATCCTTTAATGAGTTGAAATATCTTTAGCACATAAATCAAATTTTATAAGTTTTTTGATTAAACTATTAAAAATTATTCAAATGTCAGATTATAAAGACGATGCTCAGATTAAAAATACACTTAGAGCAATTAAAACTCAACTTACCGCTACCGCAAATCCATCAGAACTTGCACGTTTAGCAAGTGCTGCAGCAGGTTTAGCATTAAATACTAATAATAGTGAACTACTAGAACAAATTAAAGGAGTACAAGCTGCCATTGCTAAAAAAGAAGAAAATGCAGGGCATAACATCTCTTCGAAAATAGCTTCCGAGAATTTTGAAAGACAGCAAATTAATAATGCAGTTTTGCGTACACAACAAGAATATGAAGAACGAGAAACAAGATTAAAAGAAAATTATATACAATATGATACAGTAGAGGAAGCATTATATTCGCTTTTAACAAAAGAGACAGATTTAATCAAGAAAGCTAATAATATACCTGAATCCTTAACACCTGATGATCTCCGAAGACTAAAAGGTGAGAATTTAACTCCTGAGGAACAAGAAGAAGAAAGAAAGAAATTTGAATATCTTAGTATACTCGGAAGTATAATTGATGATACTAAAAAATCTAATGAACATTATGATAAACGCGCTAATGAAATTAATGAACAGCTAAACAAGACTATAATAAATGAAGAGTTTAGGAAAAATTTAGAACAAGAGAAAAAAAAGATTGAGGGGAAAAAAACTCAAGCGAGTGAAGCTCTCAATAAAAAACTTAAACCAATATATAAACAAATGGATGAAGAGCGAGAAGAGCTTTTCAAATTAGCTGAAATATTACCTCAATATGCTCAAGCCAATATAGACAAGCATGCGAAATTATATGCAAAGCAATATCAAACCAAGATTGAAAATGATCCTAATTATAAAGAACTAGAAAAATTACAAGAAATCGTAAGTAAAATAGAATACAGCAAAAAATCTAAAACCAACGACATAATAATAAATAATCCTAACTCAACTGTTGTTAAAAATTTGTTGAAAGAGAAAATAGATGAGAAAATTTCGAGTAAAGAAATGACAGAAGCAATTAACGTAATAAAACAAGAAGTTAATTTAAATACAAAACCTTTTATAACTCCACTAACCCCGTCTCGCAGTCCAAGTATGCAAAGACTTGCTAACAAAACCAAAGGTATCGAATAATAAAAATTAAGAGAAATAATTTATGCCATTTAGATATAAAAGAATTAACATAGAAAATCACAATAAAGATGAGCTCAAATCATTAGATATGATGTTAAATCAAAATTACTTCTATCAAAATAAATTTGAAGAAATTAAAAAATCATACTTAGAAGATCGAAAAGCACAAAAAGATCCACAATATTTATCTGATCCACAATTAAGAGTAATAGTAGAAAAATATTTTGAAAAAACAGCTTGGGATTTATTGTTAAATTATGTTATAGGAGTTAAAGAAACAGCATTTTATTTAGCCTCAAGCTATATAAATGGTTACGGTGTAGATCAAGATGAATTTTTAAGTCATTTAACTCTAGCCGTAGGAGTTAAACTCGGTGATGAAAAATCAATTAAAATGTTAGATGGGGAAGAGACGCTGCCGGCATATATTCAACAATTTGCGGATAGATGCATAAAAGAGATAAAAAAACATGAGGCAGAAGTACAAAATCGCGATGTGAGCTGTGAAGAAATAATGGCACGTGCTAAAGCATTTGACTATTTTGTTAAAACAAATACTAATCATTCTTATTATGATACTATACATGAAAAAAATAACGCTTCTATGAAGCATTTTTCTTACTATGTCGAACCAATAATAGAAAATAACAGTCAAGATCACCTCGAACCTATTGGAGAATCAACTAAATGCCACTGCGAAATATGTTAACCTTATCTTATTAAGATGCACTCCATTTCTATGTTTATCGCACAAAGTGAAAATTTTTATTGAGATTTTTATATACAACAGCATTATCTGCTTTACAATTTAATTTTGTGTAAAGCATTTATGATTTATGAAAAACAGAAAAATTTAACAATAAAACAAAAGTATGCGATAGTTTTCTTGTAATATGTATATTATTTTATCTGCATATGATGAGTGTTTAAATAATTTACTTTAGTTTAAAATAATTCTTTTACTTTTACATTATTAACATTTATCTTTTAATACACTTATCTTGTAATGCCTATAATTGTTTAATATAGTATCTAAAATAATTGTTGTGTTAACTAATTATTTCATAGCTATAACTTTATAGGTAGTTTAGTTTACTAACATACAAATATTTATTACAACATCGTTACAGTTCCAATATATGTCTATAACTCCATAATGTAGAGGAGTTGAATTATATTAAATTGAACGCTAACCTCATCCTGTTCAATATTCATAAGCAGCTCTAGTACCGTTTTTTCTGGATTAAGTATAAAATAATACTAAAAATAGCAGAGCATAATAAAATGAATGATAGCCTGAGAAAGGATAAAGATACTAGATTCAGCTGACAATTCATTTTATTCTATAAAATGCTGAGTACAAAATACCTAATAAAATGTATTCTCAAGAATTAATAAATAAAAATACTGTTTGATTCATTAAACTAACGAGTGGCTCCCCGGGCCGGACTCGAACCAGCGACCGAACGGTTAACAGCCGTTTGCTCTACCACTGAGCTACCGAGGAATATAAAATGATATAAACTTAGATAGTTTCTTATAACAAATCTTTTCTAGCACGTCTATAGTTTTCTTTATATAAAAGAAAAAATTATATACAATCCTATGTTGTAGTAATTTTATAATAGTATTAGTTATTAAAAACTCATTTCAATAAGACAACATCATCATAATATAGCGGTAGCGATCATCAATTTATTTCCGATCACCTACATAAATTTTTGGTATTATAACTAGAACTCTCTATTTGGTATATTCACTTCATAACTTCACCATAATAAACTTTGTATTTTGTAATTTTATTGTTTATAATAATAAGAGCAAAAAATTAAATAATCAGTAGTAATCCTTACTGTATACTAATATTTATTCACCTCCAATTTGCAATGCTGCAATAAATGCAGATTGTGGGATTTCTATATTACCGTACTGTCTCATTTTCTTTTTACCCGCTTTTTGCTTCTCAAGTAGTTTACGTTTACGGCTTATATCACCGCCATAACATTTTGATAAAACATCTTTACGTAAGGCTTTAATAGTTTCACGAGCAATAATACGACTACCAACACTTGCTTGAATTGCTATATCGATCTGTTGTCTTGGTATTAAATCCTTTAATCTTATGCATAAAGCCCTACCACGCTGTTCCGCACGTGATCGATGTACTATAGTTGATAACGCATCAACAACCTCCCCATTAACTAAAATCCTAAGATTAACAAGATCAGAAAGTTCATAAACATCCATTTGCCATTCAAAACTTGCATAACCTTTAGAACAGCTTTTCAAACGATCATAAAAATCATAAACTATCTCATTTAGCGGTAATTTATAAACTATTTTAGCTCTATTTGATATATAACTATGATCAAGTTGTATACCTCTTTTTTCTGTACAAAGCGATAATACAGTCCCTATAAACTCATCCGGAACTATTATAGTTGCCTTAATCCATGGCTCTTCCATCGATGCGATTTTTTGCAAATCAGGTAAATCGGCTGGGTTATGAATCTCTAAGTTCTGACCATCCAACATATTGATTTTATAGATCACACTTGGAGCAGTAGTGATTAAATCTAAATCGAATTCCCTACTTAAACGTTCTTGTATGATCTCTAAATGTAATAGCCCTAAAAAACCACACCTAAAACCTACTCCAAGAGCTGAGGAGCTTTCCATTTCATACTCAAAACTGGCATCATTAAGACGTAATTTAGCTAAAGAATCCTTGAGATGTTCGAATTCTGCACTATCTGTCGGATAAAAACCACAAAATACTACGGGTATATTCGGCTTAAAGCCAGGTAGTGCTTGTTCACAAGATTTTTTCTCATCAGTAATAGTATCACCAACTTTACAATCTGATACCCGTTTTATAGAAGCTGTAAAAAAACCTATTTCCCCTGCATATAAAACATCCGAAATATGTTTTTTTGGAGTAAAAAAACCAACATGCTCGACGGTATAAACAGAATTTGTCCTCATCATTTTAACACGCATATTTTTACGTAAAGCACCATCAATAATACGTACCAAAATAACTACACCAAGATACGGATCGTACCAACTATCAACAAGTAACGCTTTTAAGATATCTGTGCTACTTTCTTTTGGGGCAGGTAATTTATTGATTATTGCTTCTAGAACTGAATCAATGCCTATACCGTTTTTAGCAGATATTAAAACAGCTTCACTTGCATCAATGCCAATTATATCCTCTATTTGCGTCTTAACATAATCAGGTTCTGAAGCTGCTAAATCAATCTTGTTAAGCACTGGTACAATCAAATGATCATTCGCAATTGCTTGATAAACATTTGCAAGAGTTTGAGCCTCTACTCCTTGAGTACTATCCACTACTAATAACGAACCTTCACATGCAGCCAAGGACCTACTAACCTCATAAGCAAAATCAACATGACCCGGAGTATCCATGAGATTCAAATAGTAAGTATTACCGTTTTTAGCTTTATATACAAGCCGTACAGTTTGGGCTTTAATAGTAATACCTCGTTCTCTCTCTATATCCATCGAATCTAATACTTGCTGACTCATTTCCCTAGCATTCAAACCTCCACAATACTCGATTAGCCTATCAGCTAACGTAGATTTACCATGATCTATATGAGCGATTATTGAGAAATTCCTTATATATTTTTGATTATTCATAATTATTGTGATATAACTTGTATTTTATTATCCATGTGATTGCGAACTACCATAAGAAATGCAAAATCTTATACATTCTTACAAAATTTCTTTATCAAAATTTGTAATTTTCCTTCACAATGACATCTATAATCACCATAATACAAAATTGAAATTTAGAACAGGGAAAAATAATGCGAGCTGAAATAGAAAACTATATCAAAAAAATTGAGCAATCTTTAGACCTAATTTGGAGGTCACTTTGACATTGAAGCATTAACTGTAAGACTGACAGAATTAGAAGAATTAACAGCAGATCCAAATTTATGGAATAATAATGCTAATGCACAAACATTACTAAGAGAAAAAAATAATCTCGAAGAAAAACTTAATGTGTTTAATAAACTCAAATCAAATTTAAAAGAGATTTTAGAACTTGAAGCAATGGCTGAAGTCGAAAATGATTTAGAGACCCTGAATCAAATTGAACAGGACTTTAAAAAATTAAGTATCATTACAGCAAAATTTGAAACTGAGTGCTTATTTTCAGGTGAAACAGACTGCAATAACTGCTTTTTAGAAATTAATGCTGGAGCAGGAGGAACGGAAAGTCACGATTGGGCATCGATTATGATGCGTATGTATTTACGTTTTGCAGAACGACTTGGTTTTAAAACCAAAATAATAAATATGATTAATGGAGAAGAAGTAGGCATTAAATCATGTACGATTAGAATAATAGGTAAACGAGCTTACGGTTGGTTTAAAACCGAATCAGGAGTGCATAGGCTAGTGCGTATTTCTCCATTTAATGCAGCAGGCAAAAGAATGACTAGCTTTGCAAGTAGCTGGATATATCCAGAAATTGATGATGATATAGCAATCACTATTGAAGATAAAGATTTAAGAATCGATACTTTTAGATCATCAGGAGCAGGCGGACAACACGTTAATACAACAGATTCTGCAGTACGTATCACACATATACCAACAAATACAGTAACACAATGTCAAAGTGATAGATCACAACATAAGAATAAAGCTCAAGCAATGAAGATGCTTCAAGCAAAACTCTATAAGCTTGAAATGCAGAAACGTAATGAAAATGTTGATAAACAGAATGCCAATAAAACCGATAATAGCTGGGGACATCAAATTAGATCATATGTCTTGCAACCTTATCAAATTGTAAAAGATCTACGTACTAATTACGAAACTTCCGATACTAAAGGAGTACTTGACGGTAACCTTGAAGACTTTGTCTCTGCAAGCCTTTCTATGAATAATAGCGGTAATAAAACATAAAGACTTTAACTACCGCCCATTCCTACTGAACCTTCTGTTATTTTTGCTGTATTGTGATAATATGCCATTTTTTTCAAAATGTTCATTTATAATACTTATTTCTATCTTTTAATAATTAAAATATGATTTCTCTAAATTGATTGTTTGCGGTACAAAAACATAAATAAAGAATAAAATTCCTTCAAAAGAATCACATATATGATTTGCTATCATGAGCTCATGACTTTTGTCTGTTTCTTGCGTTGTAAATTTAATGCAATAAACACATCAAATTTGTAATTAAATTTTTAATTAATCGTGATCTCCCTTGAATCTTGTTCTTTAACTTCAATACGAGGTAGAATAATAGTGAGTATACCGTTCTTTAATCGTGCAGAGATACTTTTTTGATCTACATCTTCATATAATGATATAACATAATTAAAATTTTTATTCATATAATTATCTGAATCATTGGCTTTATTTTTGTCTTCTATATTCCCTGCAATAAATAACTTCTTGCCGTTTAATTTAACCTTAATTTGGCTTTTATCAAAGCCTGGCACTTCCATAACAATAATATATTGTTTATCTTTAGTAATAAATTTACTTTTTAAGCTACTAGATTCATAAAACGTTAATCTATTGTTAAATAAATGATCAATATTTGTAATGTGACTATCTATCAAATCTGCAACATGACGAAGCGGTGTCAAACTAATGTAATCATAATTCTTACTAGCTATTGCAATATTACTAGATAAAATAATAGCAAATATAGCTGGAATATATTTTAACATAGTACTATCTCCATTTATTAGTTATATTTAAATATATAAAATTATCTATATTAAAATTCAAGTATTATATTGACATAATTTGCAAAATATGCAAAAAAATAAAAATGAATAATTCTAGCAAAATAGTTTACTTATCTTATACTAAATAATATATATACCACGAGTAAATACACGACTTTACAAACTTTTAAACACAAATAAACCTTAGAAAAGGCTATACTATTGCTATTTCTTGCGATACAGTAAGCACTGTACTTTTATATTGTGCTAGCTTATTGTAAGCAATATAACAATTTAAAATATTTAGTATTTTTAAAACTATTAAACTAATACATCATGTTATTGATTTAAGTAAGTAAAATAAATAGCTATCTATAAGATAGTATAAATAAGTTATGATACTAAGCGTATCATTAGTTATTTTTTTAAGAGAAAATTTTAACAAAATAAGAAATAATGCTTATTTCACAGAATCATTTTTTTAGATTGTAAAATCACTTCGTACATTGGCAATGAATATTTTTGCACTACTTTACATTAGACCAAATGCGATTTTTGGCAATATAGAATAATATAGTAAATACTATCAAAAACATCATCACTTTAAGGCCCATAGATTTACGGTGTTCCATTTCCGGTTCAGCTGCCCATTGCAAGAATACTGTAACGTCCTTGCTCATCTGCTCTACACTTGCGTTAGTACCATCCATATAGGTTACTTGCCCATCTGTAAGCGGTGGCGGCATTGCAATTTGCGCACCTGGAAAATATGGATTATAATAAGTACCATGCATCATCTTAAAATATGCAGGCGGTTCAGTGTAACTGGTAAGGAGCGAATATATATAATTAGCTCCATCATAACGAGCTTTTATTATTAATGATAAATCAGGAGGATTGGCTCCATTATTAGCTTTCCTTGCAGCTTGCTCATTAGGATAAGGCGGAACAAAACGATCATATGGAAGAGCTGGACGCTCAAACATTTCACCATCATCATTTGGACCATCTTTTACAGTATAACCTTTTGCAATCTCTTTTATTTCATCATCTGAAAAACCAATATCTTTAAGGTTACGGTAATATAGATTGTTTAAACCATGACAAACACTACACACTTCTTTATAAACCTGAAAACCTCTTTGCGCAGCTTCACGATTAACTGTTCCAAATACTCCGTCAAACGGCCATTTCATCTTTTTTAGATGTAATGTCTCTGGACGTAGTGCCTCTGCATTTATATTCAAGCTAGAGGTTACTAATAGGATGATAGAGATAAGTATTTTCATAAAATGTTTGATTCATCATTACATTATTGTGGAGGCAAAATTAAACTTTTTGACTAAGCAATATATAATTATATTATAAGATTTTAAGATATTTGAATTACAAGATAATTTCACGATACAAATCATCTAAATCTATTTTATTTGTTCTATTAGTTCAATGTTCTCTTAAGTTGATTTTAATTTTTCTTTCTCTATTGATTGCTGAATTTATAATTGGATGAATTTCATAAAATACTAAAATTTAGTAATTAAGATTTAACTAAACAATACTAAACAAATTAATTGTATTATTATTGTATTGGTATATTCTGTTTATTAAATTAGCAGTATTATATATAGTTCAAAGCACTAATCTCAACAGTCTTACATGAGATTGCTAAGTCTAATTACTGCAAATTCTCCTTAGATTGACAATTCGTATCAGAGTCTTATAATACCTTTGGTAAGGGCAAAGGTTTTTCATATTTACCTATTAGCGGTAGCACTAATAAGAAATGGCAAAAGTAGTAACAAACAGCAAAACGGCTAATTGTAATATAAGGCTCTGATACTGGTTTACTACCCAAATAACCAAGAAATAAACAATCTGCCATAAATATCCAAAAAGCAATTCGGTATATTGGTCTATAATTACCGCTTCTAATCTTTGAAGTATCAAGCCACGGTAGTAAAAATAATACAACAATACTTCCAAACATTAAGAATACTCCACCAAGTTTAGACGGTACCGCTCTAAGAATTGCATAAAACGGGAGAAAATACCATTCAGGTACGATATGCGCAGGAGTAACTAAAGGATTTGCTGGAATATAATTATCTGGATGCCCTAAATAATTAGGTGCGTAGAAAATAAAATAAGCGAATATTATGAAATAAACTCCAAAACCAACAAAATCCTTTACGGTATAATAAGGGTGAAATGGAATAGTATCTTTAGTACTTTTCACATCTATTCCTTTTGGATTATTTGAACCATGCTGATGTAAGGCTACTAAATGCAGGATCACTAAAACAACAATAATAAACGGAAATAAATAATGCAATGCAAAGAAACGATTTAATGTCGGATTATCAACAGAAAAACCGCCCCACAACCATATAACTATTGGCTCACCTACTAACGGAATAGCTGAAAATAAATTAGTAATTACTGTTGCACCCCAATAGCTCATCTGCCCCCATGGCAATACATAACCCATAAAAGCAGTAGCCATCATGATTAAAAAAATTATAATTCCGATATGCCAAAGCAGTTCTCTAGGTGTTTTATAAGAGCCATAATATAATCCACGTGCTATGTGTAAATATATGGCAGCAAAAAACATTGATGCGCCTACAGCATGAGTATAACGCAACAACCAGCCGTAATTTACATTACGCATAATTCGCTCAACACTCTCAAAAGCATGGTCAACATGTGGTGTATAGTGCATAGCAAGTATTACACCAGTGATTATCTGAATCACCAATGCAATACCAGCAATAGACCCTAAATTCCATAAATAATTAAGATTTTTTGGAGTTTGATAATAACTAAAATGTTTAAGGAAAGAGAAAATAGGCAAGCGATAATCTATCCACTCAATAATACCATTAGACTTTTTATGAATAATTTCTTTATTCATAATTACCCGATTCTAATTTTTTTATCGCTAATAAAAATGTAAGGAGGTACAGCTAAATTTAAAGGAGCTGGACCTTTTCTCACTCTACCTGAAGAATCATATTGTGAACCATGACATGGACAAAACCATCCATTATATTCACCTTTATGAGAAAGTGGCACACAACCTAAATGAGTACAGATGCCGATTGTTACAAGCCAATTATCATGACCTGCTTTTACACGTACTTCATCTCTTTCCGGATCAATAAGCTCTGACATCTTAACAGCTCGTGCGGCAGCTATTTCATCATGAGTACGATTAGTGATAAAAATCGGCTTGCCTTGCCATTTCACAGTTACTGTTTGCCCTATCGCAATATTTGATAAATCAACCTCAATTGATGATAAAGCTAACACGTCTGCGGAAGGGTTAAAAGAGTCAATAATAGGCCAAAAAGCACATGCCGCCCCAACAGCTGCAACACTACTAGCCGTTAGAACTATAAAATCACGACGTGTTGTTTGTTTATTTTTATTATCTTCAGTATCCGACATATTAAAATGACATAAATTAGCGATTATTATCGCTTAGTGTATTATTAAGATTATTTTGATTTTCTAGTTTTTCATAAGGATGAATTATAGGATGTGCAGTATCTGCAATACTATCTGTTTGTTTTTGCATAAACTTATTTATTTCATCTTCTAACACTCTGGCACCTGTTACTTCTTCATGCTTATATTCTCCAGGATCACTTAAGCAATCCCAAAATTCATTCAGTGGTAATTTACCATTAACAAGTTTAAGTTTAGGAATACAATTTTGAGCAACTGCTTTACTTTGCGATAATATATCCTCCGTTTCACGACCAAAATAATCTATAAATCCAATTTTTTTTAAGCCTAATACTGTATAATATAAAGTAATTAATGACGCAACTGCTATAATTAAATACCATTTAGTGATAATAGACCACAAAAAAAATCCCATAGGATTTGCTGCAATCAACCTTCGTAAAGCACGCCACATATATTTTCTCAAAAAAAAATTTATTAATAATAGTCATCTTATTTTATATCACTACATTAATAAAAATAAAGTGAAATCATGTAATATTGTAAATATTTTTAATTAAATATGCACTTAAGCAAAACGAAACAGGTAAAAATATCAAATTAATTCCTATCATAATAAAAATTAATTGTAAGTTATTATCTTGTAATATTAAACCAGTCATTATAATATTTGGAATTAATAACGGCATAATAAATGTACCAACAAAATTAGTATTCTTCTTAAAATAACACTGCACACTACCTGATAATACTACTAAACTACTTGATAAAACGAATATCATCCACACACTAATGAAGAAAAGTGCTATCTCAAGCAAAATTTGATCAAAAAAAACATAAATAACTGGTAAAACAAAAATAAGCCCTACTGTAGTACAGATAAATATAGCAACAAACTTAGCAAAAATAATTTTTTCACAACTAACAATTGATAATAATAACTCTAAGCTTCCATCTTCTACATCAGATTTAAATATTATAGTAGAAAAACTTATTAATGAAATTAATAAACAAATTACTGAAAAAATTAAACCAAATTTGTTAATATCCTTTTCACTATTAATTAAAACAGTACTAATTATGTAAAATAAAAAAAATATAACTATATATTTAATGATATTATTAATGCGATGCTGCAATATAAATTCACGTTTAATTAATACAAATAGATTATTCATAATTAAACACTTTATATATTAAATACATAATAGCTGCGACAGTTAAACCTATAACAATTTCAACAATAAATATAGCGATATGTTGAGCTGCTAATTTATCCTCGATAAAATGTGTGAGTGAATAATAATTCAAATAATTATCATTTAAAAATAGAGATATTATTCCTACAATTGCATACATTGCTACACCTAAAACTGCAACAGCAATCAATATATTTTCTTGAAAAAATTGCTTCCCATAAATCATATTATAAGCGATAAGACCAGAAGCAAATATAACACCTGCTTGAAACCCACCACCCGGTGAAAACTCACCATTAATCTGAATATATATACTATATAAAATTATATAAGGTATTATAAAATTAGTAATGTGTTTTATTATTGGATATACTTTGAGATGTATTATACCGTGACTTGAACACTGGATCTTGTATTGCTTGTCGGAATATGAATTATAATGATCAAGTCGTGGTATGAAAGCATTAGACTTTTTTGAAGATACTAATAACACAGCAATTCCTGCAATTAAAATTACACTAGTTTCACCTAAAGTATCATAGCCACGGTAGCTAGCTAAAATTGCAGCTACAAAAGACGGTATGCCTATATCTCTAGAGGTATTTTCTACATAATACTTACTAGAATACATATGAATAGGAGTATTATTATCACCGTAACTCGGTAATTCTAATCCTATATAAGTCAGAGTTATTACAAACAATATACATATTACACTTGCTGGAATAATATTTATTCTTTTGATATTTTTTAAATTGGTAGGTAATTTACGTAATAAATTCAAATATACACATGTTGATAAACAAGCTCCAAGTGCCGCTTCGGTCATTGCAACATCAGGAGCATCCATAATAAGTTCAGATACACAGATTAATACACTAAAAACAGAAGAAGCAATTACTGCATTTAATAAATCTTTAGCAAAAATTATTTTTATAGATATTAAAACTAATAAAAAAACAATTAAGTTAAGTAGGTAATTACCTAGATCAAAATTTAAAACTGTTTTTACTGCCATATTATTTTAAAACGTCATTGCGATAAGAAACATATAGTTTTGACATGAGAATCATATAAAACATCTTAAGATTGTTTCGTCAATTACTTTCTAATTTTCTTCAAAAGAACTGTATTATAAGTTCTAATTTTCATAAGCAAAGATGCTTTACCTAGTGCATGAGTTGCTACAGGATTTAGGAGCAAAATAAGTAATGCAGCTAAAATTAATTTAATAGAGTTGAGCATATCTAACTCAATGCACGCAAAACCTATTAAGCAAATAGGCACAGCAAAACTCTCAATAACACTTGCTGCATGTAGTTTAGTATAAAAATCAGGGAATCTAAAAAAACCTATTATCCCTGAAAATATCGAAAATAATCCAATAATGACTACTAGTATCCCTATATAATATAATGTCATTTTTTTTATAATGTTATTAATGTAACAGTTATCTCAAACTACAAGAGAAATTGGAGCTATAGTTCGAGTCACGCTTTGATAATAATCTACCTATTCACCCTGTGCAAGGCTATACCATGCTACTCCATCAAACTCAAATAAATTTTCTACTTTAATAAAATCAATATTTGCTTTGCTTAAAGATTGAAGCAACATTGTGATATCTAAATGCTTTATTTCCGTGCCATCTTTATTCATAAAACGACAACACCAATGATCAGAAATAATTTCAAACCTTGAATCATGAGGCCACAATTTTAATCCTTTTGACGAAATTGTTTTGAGCTCAAAATTACCAATATCAAGCTTATTAATTTTATCTGCTATATCATGAGCAGAAAATACGTGCATATTAATAAAAATATCTGTACCGACCAACTTCTTAACTTCTCTAGTATCAATTTTATAATCTATATTACTCTCTTGTTTCTTAACAATTAAAGGATAAGCTGCTTTAGGTAAAGTAATCGGTAACTGCCCTAATCTTTTAATTACTTCTGCAGCAAATTCTTTTGTACATACTTTTTTACTAGAACTATGCTCATTATATATATCGAATGTATGTACTCCATCCTCTATGGTTTTCTTCCAAGCATTTTCGATTAAACTAGCAATATCACCCTGTCCTATATGAACTAGCATCATTATAGCGGCATTTAAAAGCCCTGAAGGATTAGCAATACCTTTACCTGCAATATCTGGAGCACTCCCGTGTACTGCTTCAAACATTGCATAATGCTGCCCAATATTTGCAGAACCTGCAAGTCCCACCGAACCAGAAATTTCAGCAGCGACATCAGAGATAATATCACCATATAAATTAGAAGTTACGATTATGTCAAATATTTCCGGCTTTGTAGCAAGCTTTGCCGTTCCGATATCGATAATATAATGCTCATTATTAATTTGTGGATATTCTTTTGCAATTTCATTAAATACTCTATGAAAAATCCCATCAGAAAATTTCATAATATTATCTTTAGTTAAACACGTGACTTTTTTACGGTTATTTTTTATTGCATATTCAAAAGCATATCTAATAATTTTTTTACATCCTGTATGACTTATCAACTTCATTGACTCATACATATTATGAGTTTGACGGTATTCTACACCTGAATATAAATCTTCCTCATTCTCACGTATAATAGTGAGGTTTAAATTTGGATGTAGAGTTCTAGTAAAAGGATAAAATGAAACAACAGGACGAATATTAGCAAAAAGCTGTAATGTTTTACGAATCGTGACGTTTAAACTTTTATATCCTCCACTTTGCGGAGTAGTAATCGGTGCTTTAAGTATAATCCCTGTACGTTGTATTACATCCCAACTTTCCTCGCTGATGCCTGAAGTATAATGCTTTTTGTAAAGCTTTTCACCTACTTCAATTGTTTCTAAACTAATCCGAGCCTCAGCTTTACGTAATATATAAAGTACTGCCTCCATGATTTCAGGGCCTATACCGTCCCCATATGCTATTGTAATCGGTGTAAATGCTGCCATATTAAAATACTCTCATCTTTTCGTAAACCAATGTTAAATTACCATTGTTTATTTTTTGCATAGTCTACTTATACAATCAACTTGGTAACAAATGGCACACTCTCAATAATTGATTGATACTTCTTTTAACCTTTCATTCAACATGAAAGTCACTTCGGAAGTGATATTCAAGTTATTTTTAGCATATAAGACTTGAGCACTTGGAATCACCAAATTCAGGTTATATTTCTCAGCAAGTTCACCAATTATTGTAATAGTTGTTTCATGAACTCTACTCATAGCCTCAGCGTGTGCTTGTTCAAGCTTTGTTTTCCTAATCTGAATTTCTTTTCTAACGTAACTAACTTTTGCATTAAATTCGTTTACTCTATGCTCAAATTCATCATCACTTAAATTAGAACGCTCATTTAGCAGTTTCTCTTCCAGAGGTTTAAATTCTGCTTCTTTTGCAGCAATATCTTCCTGAATTTTATGATTCAATTTTTCAATTTTATTACGTAAATCTTTTATAGCTATCGAGCCTTCCAATATAGATTGTACATCAGCAACAGCTACTCGAACTTTGAAATTCTCTTCTTTAATTACCACATTTTGTGCCTCAGTTTTCATCGAGAAATTTATTATGAATATACACAAACAGAGTATCCGATACATCATCTTTGATCCTTATAGAGCTTAAACAGTGTATGTTACCTGCATTATTGCAAGCAATATACTAAGCAATCTTTTTAAAAAGCATTTTTAATTATTTTTTGGATTGCTAAGTCACTGCGGTCCTCCTTACAATGACATCTCTTATTAATCTAAGATAAATAACATTAAGTAATTTGTCTATAATTAAAAACTGCACCTTTACCATTACTGCACATGAGACATCAGCACCTCATATAACATAGTGTTAATCTTCTAACTTAACATAAATTGAATGCTGTGCAAATAATTAACAATATATAATAAAAAGCTTTATTAAAAGCTATATTTTTTCTTAACCAAAACTACTTTAATAACCGGACTCTTTTATTATATTAAGTCAAATTTCATCTTTCTTATCAAAAGTTAAACCTCATTTTATATAAAGTCCTTTTATATACTAATAAGTATTTCTAATTTTACAGCATCACAATAATCATTTAAATGATGCGATACCTATTTTATTACAAATTCTTTAAAAAAAAGACTATTTTAATGTGTATTGTTCAACCTAAATTATCATTATATTATACGAATCTCCTGTAACTAAAGCATAATAAAATCAAACACAAATAGTACTATGATTAGCATTCATTAGTCCTTATTTTTAAAAGTTGTAAAATTCTTAGTAATTTTACTTTATGAAGTTAAATCAATTAATTAAGAACTTTATTCCAATTTTGATATTTTAGTGTATAATATGATGAAAAATTATTATAAACTTGTAAAAATTTCTAAAAATGACATCTATTCGTAATATAGCAATTATTGCCCACGTTGATCACGGGAAAACTACGCTTATAGATAATATGCTTAAACAAAGCGGGACATTCAGAGCTAATCAGGCAGTTGCTGAGCGTGCCATGGATTTTAACGAGCTTGAGCGCGAACGTGGAATTACAATACTTGCTAAATGTACAGCTCTTATGTGGAATGAGATCCGTATCAATATAGTAGATACACCAGGACACGCTGATTTTGGTGGTGAAGTAGAACGCATCCTTAGCATGGTTGATGGTGTTGTGTTACTTGTCGACGCATCAGAAGGACCAATGCCACAAACAAAATTCGTATTATCTAAAGCTTTAAATCTTGGTTTAAAACCTATTGTAGTTATTAATAAAATTGATAGAGATGACCAAAGAATTAAGGAAGTTATAGATGAAGTGTTTGAGCTATTTGTAGCACTTGAAGCAGATAATGATCAGCTGGACTTTCCTATAGTTTATGCATCAGGTAGAGCAGGCACAGCATCTTTAAACTTCGATAATAAAATAAATCCTTTAGATAATTTAGCTCCACTTTTTAACCTAATAGTAACACACGTACCTACACCTGCAGCAGATCATAAAGCACCGTTTTCTATGCTTGTGACCACACGAGAATATAATCCTTTCTTCGGTAGGGTTTTAACGGGGCGTGTACAAAGCGGAACTCTTAAAATCAACCAAAACGTACAAGTATTAAATCATGAGAATAAAGTACTTGAAACTGGTCGTATTACTAAAATATTAGCCTTTAGAGGTTTAGAGCGAATCGCTATAGACAATGCTAAAGCAGGAGATATTATTGCCGTAGCAGGCGTTGAAAATGCTAATGTTTCTGATACTATCTGTGCGCCTGAAGTAACCAAAGCTATACCGTCTCTACCTATAGATCCACCAACTTTATCTATGACTTTTAGTATTAATGACTCACCACTTGCAGGAAGCGAAGGTACGAAAATTACATCAAGCTTAATCGGAGCTAGATTAATGCGTGAGCTTGAGAGTAACGTTGCTCTTAAAGTAACAGAAACAACTGACAAAAATACTTTTCAAGTCGCAGGACGAGGTGAGTTACAGCTTAGTATATTAATCGAAACTATGCGTCGTGAAGGGTTTGAGTTATCTATCAGTAGACCAGAAGTATTATGCCATACTGATAAGAAAGGTAATAAGCAAGAACCTATTGAAGAAATTCAAATTGATGTTGATGACGATTATGTTGGAGTAGTTGTAAAATCTTTAGCACTTAGAAAAGCTGAAATGACTAATATAAGACCATCAGGTGGCGGCAAAAGTCGTATTACATTCATTGGCCCATCTAGAGGATTAATTGGCTATTACAGTCAGTTTTTAACAGAAACACGAGGCACAGGGATTATAAATCGTATTTTCTACGGATATACTGATTATAAAGGTCCTATCGAAGGAAGACGTAAAGGCGTACTGATCTCTAACTGTGATGGAGAAGCAGTTACATACGCTCTATGGAATCTAGAAGAAAGGGGTAAAATGTTTATAAATCCTGGAGATAAAGTATATAGAGGTATGATTATTGGGGAACATAATCGTGATAATGATTTAGATGTAAACCCACTAAAAGCAAAACAACTGAGCAATGTTAGAGCAGCAGGTAAAGACGAAGCAATAAGACTAACTCCACCAATGCTTTTAACACTTGAGCAGGCAATCAGCTATATACAGGATGACGAACTAGTTGAAGTCACACCGAAATCTATTCGTTTACGTAAAGCTCTCCTTAACCCAAACGATCGTAAAAGAGCTGCAAAATGATTTATTGTTATTCCTATTTTAATTTTATAGCATAAAATGGTCTTTCGCAACCTATAGCTTAATAGTGTTGTATATAAAATAATAAAATACTAATTACTGCTATCAAGTCAATGTATAATGCATGCAATAATCTAAAACGAAAATAAATTGATACTATAAAAATTACTTGGAGTTTAATTCGAAAAATTATCTTAGAATCAGTAATAAATACAAGTTATTCATATTACTTACTAAATTATATGGATATCAAAAATTATTAAAAACTACTAAAATAGGTTAAAAAATCTTAAGATCATTATATGACAGAAGTTGTAGACATTTAAAAGTATTTGAATCAATCTGCAGTATCAATGAATATAAACTACAAGATATTATTTTTAATTAAAACATAAAAAAGAAATTTAACGACTGTTTTGATAATTAAGATAGTTTTAGAAAAATAACTAATTATGGATACAACACACACAAGCCACAGCAGTATGACACTTTGCTATTTTTTGAAATATACTACAATAATATTAGGCATAGTACCCAAAAACCTAAATACTATAATAACACACTTTCTTTACAGCCTCTATTAAATCATTTGCACTTGGCATAGCTAATTTTTCTAAATTAACAGCATAAGGTAGTGGTACATCTTTACCACTAACAATCTCTATTGGCGCATCTAAATAATCGAATGCTTCTTTCATAACAATAGACGCAATACTTGCTCCAACACCAGCAAAAAACCATCCTTCTTCTACTATAACTAAACGATTAGATTTTTTTACTGATTCTATGATTGAATCAGTATCAAGAGGCTTAATAGTACGAAGATCAATTAACTCACAATCAATATTATCATTCTGTAAAATATTTACAACATCTAGTGCAAGCTTTACTTGAATCGAGAAAGTTACTATAGTTACATTACTACCTTCTTTTAAGATTTTTGCCTTACTAAAAGGTATAGGCTCAATTATGTCTGGTACATCAAAACTATGACCATATAAAATCTCGTTCTCTAAAAAAATAACTGGGTTATCATCCCTAATAGCTGTCAGCATCAGCCCTTTATGATCTTCAGCGCTATAAGGCGCCACTACTTTTAACCCTGGAATATGAGAATAACAAGCTGTATAATTTTGGCTATGCTGAGCTGCAACTCTACTTGCTGCACCATTTGGTCCTCTAAACACTATAGGACATTTTACTTGCCCGCCTGACATATAATGAGTTTTTGCAGCTGAATTAACTATATGATCAAATGCTTGCATAGCAAAGTTAAAAGTCATAAACTCCACGATCGGACGCAATCCTGCAAAAGCTGCTCCAACAGCAAGTCCTGCAAACCCATATTCCGTTATTGGTGTATCAATTACCCTCTTAGAACCAAATTGCTCTAGTAACCCTTGAGTGACCTTGTAAGCTCCTTGATATTCGGCAACTTCTTCACCTATGACAAAAACTTTTTCATCTCTTAGCATCTCTTCTTGCATCGCATCACGCAACGCTTCACGTACAGTTATTTGCATTTTCCCTTTTTATTTAAATTAAATATTTTCATTTACTTATAATGTAATCACGTAAATTAACAATGCAATCTAGCTAAAAATATATTAGTATATATTGGTTTGACTGAATACAGTGTACAAGAGATGGGGTGATACAGTATAATAAATAAGCTGTGCAAATTTTAAACATATATCTCTGTATATAATTCATCTTCAGCGGGTAACGGTGAATTTTCTGAGAATTCTACTGCCACTTTTATAATTTCTCGTACTGACTGTTCTATTGCTTTTAAGTCTGCTTCAGTTGCATATTTATTATCCAGTATTATTTCCCTTATTCTGACTAACGTATCACGCTCTTTATATTTCTCGACTTCTTCTTTACTACGATATTTTGCTGGGTCAGACATCGAATGTCCCCGATAACGATAAGTTTTTACCTCTAATATCACCGGAAAACTATTTTCTCTAACGTATTCAGCTACTTGTTTAGTCCCGTTATACATTTCTTCAAAATCCATACCATCTAACTGAAAGCCTCTAATACCAAATGATTCACCTTTCTTATATAAATCACACATAAAGGTAGAACGTGCTACAGAAGTACCCATCGAATATTCATTATTTTCAATAATATAAACTATAGGCAATCCCCATAAAGAAGCCATATTAAAAGCTTCATACACCTGACCTTGATTAACAGCTCCGTCGCCTAAAAAAGTAAAACAGATATTATTCGTACCGTTATATTTCTCCGCAAAAGCAAGCCCTGTACCTATGGGTACTTGAGCTCCAACTATACCATGTCCACCATAGAATTTGTTCGGTATATCAAATAAATGCATCGAGCCACCCTTACCTTTTGAGCAACCTGTAGCACGTCCCATAAGTTCAGCAAGTACGTATTTAGGTTCAGTCCCCGCTAAAATAATATGAGCATGATCACGATAGCTAGTAATAGTACTATCACCTTTTTTCTTAATCATCGCTACTGCAGAAATTACTGCTTCTTGCCCTATATATAAATGGCAAAAACCTCCAATTTTCCCCATGCCATATAATTGCCCACATTTTTCTTCAAAACGACGTAGTAAGAGCATATCTTTAAAGCTTTTTATATATTCTTCCTTTATAGGCTTATATTTTTCCGGTTTAATATCCACTAATTACTCCTTAAGAATTATTGTAATCAAGTTATAAAGTTACGGCATGACATTTGTTTCTGGATTCCTACTCCCGCTCGAACAATATAACACTAAAAATTAAAAGTTACCAAATATGGCACATGATCCGAAGGACGAAACCAATCTCGTGCTTCTGATAGTAAATGCATAGAAAATAATGCATATTTTAAATTATCACTAACCCAAATATGATCCAGTCTTCTACCCCTATTAGATTTTTTCCAATCTACATTTCTATAACTCCACCAAGTATAACATTTTTTGTTAAGTGATATAAAATATCTACTACTATCAATAAAACCTAACGAGTTTTGTAGCTCTATCAATAACGAGCGTTCAATATCAGTATGACTAATAACATTTTGCATCTGCTTACTAGACCATACATCATGTTCATGTGGAGCAATATTTAAGTCCCCGACAATAATAATTTTATCATTTTTAGTACGGTTAGCAGTAAACCATTCCCGCATTAACCTTACATATTCGAGCTTATGTTTAAATTTAAAGTTTACCTCTACATCAGGTATATCACCACCTGCTGGAACATAAAAATTATGTATCTCTAAATCATTAACTATAGCTGCTATATGCCTTTTATCGCCATTATATAATTCCAGTGCAAAAACATTATTCAAAGGAAATTTTGAAATAATAGCAACACCATTATATGATTTCTGACCTGAATATATTACATGTTCATATCCTATATTTTTAATAACTTCAAGTGGAAATAATGAATTAGCTACTTTTGTTTCTTGAAGTAAAATAATATCTGGCTGATGTTCATATGCTAATTTCCTTAATAAATCAATACGTAGACGTAATGAATTAATATTCCAAGTCACTACTTTCATTAAATGTTTTAATCCTTTTTTATAGCTGCACCTATTATTGCATCTCTGAAATAAATTATTCCAAGCTGATTTAAAGGATTTTTCATATCAATTTTATCTTTTTCTTCTTCAGGAATTTTAATCATAGTATTACTTAATATAGCAAAATAAATATTATTAGGCAAAATATACCCTACTGCACTTTGTATTCCAAGGGCTTTTCCAGTATAATGAATCATTAAATGTTTAGAATCAAGATCAGTCAGGAAAATACCATAACCAGTATAAGACTTACGGCTTTCTATACCTTGTGCTACAAAATACTTAGTAGTCATAAGTTTATACGACTTCTTAGAAAGGATTTTTCCTTCATTTAATGCTCTATACCATTTTACTAGATCGTTTGGTGTTGATATTATACCTCCATCTGCACAAGGAACTGCTAAAAAATCTGCAGTTACAGGAGTAAATGTAGGCTTATTGCTATTATTAGGCGTTACAAAATACCTTACCGGATAATTAGAACTCACAACATTTTTCTGAATTCTAGCAGCTTCACTATATGAAGCAAAACTAGTAGATTTCATGTTCAGAGGTTTAAAAAATTCATCATAAAAAAAGTTAGCTAAATCTTTTTTAGCAACTTTTTCGATAATCATACCGAGTATGACAAAATTAGTATTACTATATTTAAAATTTTTTCCTATAGATATTTCTAAAGGCTTAGAAGATACAAATTGTAATAATTTTTTGTGTACCTCTTGCTTAGACATATTTAAATCAAGTTTAACAAAACTAAAATATTCTGCAATACCACTACTATGTGTTAATAAATTATGAATCGATATTTTACATGCCCAATCCGGCACTTTGCCACCCCACATTTCCGGAGCAAGGTATTTACAAATTTTATCGTTAATATTCAACAATTCCTGTTCTTGTAATTTTAAGATTCCTGCGGCTGTAAAAGGCTTTGTAGCAGAAGCAATAGGCATCATTTCATTTGCCTTTAATTGTTCACCATTTAAAGCAAAAATTCCTTTAGCGCCAGTTAATAAAGATTTATAATCATCAGCAAACATAAAAACTGTATTTAAAAATCTATTATTTAGATATTCCTTTTCTACTTCATGAATTCTTTGCTGTATATCTGCAAAACAATCAATACAATTAGTAATTTAAAAAAATAGCAATAAAAAATATCTAGACATCATAAATTCCAAACCTATCAGAACACAATTTACAAAAGTGCGATAATAAAGAAAAATTTTCATGATACACAGAAAAAGTACATTTTCGGAGCTATATACAATTTATTTTAAGAGACAAGTTATATAATACGTCTAGTAAAATAAAACGGTAATTTTGCCTCTAACTTAATCTCTTTACCAACAATCGTTTCCGATAAATATATGTTATTAGCATGCAAGAACATATATTTACTATATGGCATTATTTCTTTATTACCATATTTATCATCCCCAAGTATTGGACAACCTAGCAATTGAGCATGCAACCTTAATTGATGCATTCTACCTGTAACCGGCATAAATTCAATCAAAAATAAATTATTATTAAGTGATTTAAGTAATTTATAATAAGTAATGGCAAGTTTACCATCGTCACTATCAATATTAGCAATTTTAGATAGTCTTCTTTTACTTTTTCCTATATTACTTTTAACTGTGCCTACATTTTTAACTGGCCTCCCATAGGTTATAGCAAAATATTTTTTGATAACCAATTTTTCTTTAAAAGCATTATGAAGTTTTACACTACTTAAATAATTTTTTGCTATTAAGAGTAGACCACTTGTTTCTTTATCTAACCTATGTACTAACTTAAAATCAGCACCTTGATAATTCAAATATTTTAATGCAGAGTCAATAGATAAATTGATTTTACTTCCTCCTTGAGTAGCGAGGCTTGCAGGCTTATTTATAGCGATCAAATGATCATCTTCATATATCAAATAATCAGTCAAAATTTTCTTCGCTAACTTAATTTCAGCATCAGCAAAAACTAATGTTTCATGTTGTGTAACAGGTAAATTAAAGTAATCATTAATAAAAATTGTATCTCCTACTTTTACTCTTAAATTCGCTTCTGCTTTTTGAAAATTAACGGTGATTTGTTTTTGGCGCAATGCTTTCTCTATTACTCCTTGAGTCAATAATGGATATAGACGTTTTAGATATTTATCTAGCCTGAAAGGAATAGGAATATTGACATCAATTATCATTTAGAACTTTTTATTATTTTATTGTATGTATTGATTCTGCCACTTTGAACATGCGATCAAGCAATAAATAATACCAAATTCATTTCTCGAACTATGTAAACAATACAAACTTCACCACAAAACATTTTAACTATTTTTAAATAAAAAGTAGCACCAAATTATTATAGATAAAAGGATTATAGCAACAAACTGGTGTATAGAAGCAATGATTATAGGTACAGAGTATACAATAGTAATTATTCCAGTAGCTATCTGTATCAATAATACAATTATGAGAAAATATGCTATCTTTGTTAATTGAAGATGTTTTACTTTGAATAAGCAAATTACCAAAATTGCATTCACTGCAAATACACTAAAACCACCTAAACGATGCATGAATTGCATAAAAACTGGATCATACAAATTTGTCAGATTAAATAAATTATCTTGTATCTCAATCGGGATAAAATTATCACCCATTAGCGGGAAATTATTATATACCAGCCCTGCATCAAGCCCTGCAACTAAAGCACCTTAAAAAATTTGTATATATATTACAGTAATAGAAATACAAGAAAATATTAGTAATAATTTCTGTGATGGTATTAACAAAAGATCACAATAATTTTTTATTAATTGATAAAAAAGTATATGATAAATAATCACAGCAATAATTAAATGAAAGGCAAGCCGAAAATGACTAACAGAGTGATTATTCAATAAGCCGCTTTCAACCATATACCACCCCATAAAGCCTTGTATACAAAATAACAACAAAGCAATAATATAAGGTAGCATTTTACACATTTTTATAACACCTTGAAAATAAAAACATATTAAAGGTACAATATATATTAAAGTTGTAATTCTACCAAGTAATCGATGTATAAACTCCAACAGATAAATAAACTTAAATTGTGATAAAGTAATGTCGTAATTAACTGACTGATATTCAGGAAAAGCTTTATATTTAGCAAATTCCACTTGCCAACTTTCAAAACTAAAAGGAGGTAAAAGACCTGTTACCGGAGACCACTCCACTATAGACAAACCAGCACCAGTAAGCCTAGTTATCCCCCCTATAATAATCATTAATATAACCATGATACAGCTTATAAATAACCATCTTGTAATTAAGTTTTGATGCATTTGTCTTATATTTTTTATTATTGATAGAAGCTAAATAATTTAAAATACTTAACGTAAATTCATTTTTACATAATCACCACTAAAGTGTCCTTAATGCTTATATTTACTTAAGTATTGAGGTGATATATCGCATGTTCATAAGTATTATATCTTCGGGAACTAAAAAAACTTATATAAGTTTAGATATAGATTATCATAATTTCACGGTAAAAAATAACAAGATAACTGAATCAGTATTAGGTACACAAACTATTGTTCTACAAAACTGATATCGCTTCAATTACTGCTAAAGTATCTTTAAATAGATTGATAATTCACTGTGATTGCACATAAAAAAAGAATTTAATAATAATATATACTGGCTAGCTCAGAACATAAAAATGACTACAATAACTTCTATATTATATGATTCTAATTCTTTTTTGACACTGAAACAATGAATTATCCTGTGTTGTAGGAATAATATTATCCACAACAAATACAATTAAATTTGAAAGCAGTAATACAGTTCTGCTTTAGTGTAATACTGTAATTTATTGACGTAACACAGTTATAAAAATATCAATAATATTGATATTTTTAGTTATTTTTTATCGTTGCAAAACCATTATATAACATCCAAAATGCTATCCACAAGACGTTTTTTATTGGAATTTTTATTACGGTACTTACGTTTCGCTTTTTTTGGAGCGACTTGTACTTCTTCTAATGATATACCATTACTTTCTACAACCTTCATCTCTTCAACAACGCTTACGGTTTGCGCTACCAACTCTTTTACACCTAAACTCTGATCTTTTACTGCATTTACAATGTTATTATTAGCTGTTTTCCATTTATGTTTATTTTTGCGTAATTGTTCTTTTTTCGGCTCTTCTTCAGTATAATCAGCACTATGATTCTGAATTACCGGCTTAACAGTATTAACACTATTGTTTTTCTTCAACAATTTCACTTTTTCAATTGAATAACTATCTGATGTAGCATTAGGATCAGAATAAAAATTAAGCTTTATATTGTATTTTTCTTCAATAAATTTTATCTCAGCACGTTTATTATTAAGTAAATAAATCACTGAAACAATATTGGTAAAAACATTTATTATATCAATTCTTTCTTCAAAAATTTCATTCTCTATAGTACGTAAAATTAACATAGCATTAGCATCACTCGCTCTAATAACTCCTTTACCGTTACAATGGAAACAAACTTCTGAATTAGTTTCTAAAAAAGAGGAGCGTAATCGCTGCCTTGAAAATTCAAGTAACCCAAACTGACTAATATTACCGGTTTGTATACGAGCACGATCACGACTTAAAAATTCTTTAAAAGATCGTTCAATGATTTTACGATTCTTAGCTTCGCTCATGTCTATAAAATCAACGACTATTAAACCTGATAGATCTCTAAGCTTGACTTGCTTTGCTACTTCTTTTGCTGCTTCTAAATTAGTTTTTAGCGCAGTTTCTTCAATATTTTTTTCAGAAGTGGATTTACCAGAATTTACATCAATTGAAATCAACGCTTCTGTAGGATTAATAACTATATATCCACCTGAAGGTAGTGTCACAACAGGCTGATATAATTTTACTAATTGCTCTTCTACTTGAAACTGAGTAAATATAGGAGTTTTATTTTTATGCTCTTTCAACTTGGCAAGTTCTGAAGGCAATAAATCCTGCATAAATTTTGAAGCATCTTCATATGCTTCCTGTCCTTGAATCACTACTTCTTTAACATTGTGATCACACATATCACGTATAGTTTTACGTATTATACTATCTTCTTCATGAATAAAACACGGCGCTGAAAATTTAATGGTACTTTTACGAATTTTATTCCATAATCTTGCTAAGTAATTATAGTCTTTCTTCAAATCTAAGGTGCTACTGCCTCTACCTGCAGTTCTAACAATTACACTATAAGTAATTTTTTGAATACTTACTATTTTATTTAAAATATCTTTCAGTCTTTTTCTTTCTTCTCCATTTGATATTTTACGCGATATACCGTTTTGTGAACTTGTATTAGGCATTAAAACACAATATTTACCAGCCAAAGATATATAAGTAGTAAACGCAGCACACTTATTGCCTCGTTCTTCCTTAGTAACTTGCACCAATAATACTTGGTTTTTTCTTATTACATCTTGAACTTTATACGGTTTATATTGTGAAATATTTAACTCAGTGGTACAGCTTTGTATAATTTCAATATCGTCAGCTGACTCTAAATTAAACTCTGACTGAAATTTACTTTCTACTAAATCTTCTATTGTTTTGAGATCAATTTCTTCATTATCAATCAAAGAATCATATATAATAGATGGCTTCTCTTGATCGTCCTCAATCGTGATATTTGCAAGAGCTATTTCAGGAAAAGCATTAACTGGAAAAGTACTCTCTGCGGTAGGCAAATTGTAATAGTTAGGATGGATTTCACTAAACGGTAAAAAACCACTTTTATCCATTCCATACTCTATAAACACAGCTTGTAGCGACGGTTCTATTCTTGTCACTTTTGCTAAATAAATGTTACCTTTATTTTGTTGTCTTACGGTTGTTTGAAACTCAATATCTTCTATATTGTTACTTTGTCCTAATAAAACTACTCTTGTTTCACTTGGGAAATTAGCATCAATTATAATCTTTTTATGCATTTATCTTGCTCACTAACTTGAAGAACATATAATTAATATAATGCTTGTATCTTAAGACAAATCATTGCTTATCTTGTATTAATTTCTTAACAAAATCATTTTATCCATAAAAAATTTATCCATAATTAAAAAATGAAATTTTAGATAAACTTTAAATAACACCTCTTTAAAATACTAAAAAATATATTATTACTTTCTTACATTAAAATATTTTCATATTATTTAATTCATTATTTTTAAATTAAATAATAATTTATATACAATAAGACTACCATACTGGATTAAAAGCTGATAATCTAATAACTATTATACCTAAATTGGATTACGAATCTCTTTATTTAATTTTTAAGATAATAATCTTAATTATAATTATGAGTTATATACCATGTACCTATGTTTAGCAAATACTTAATTTATGACTTTAAAAAACGATTATAAAACTAATTTTTTTTCACTTTTTGGAATATTTATTTTTTCCTGTATCAATGCTATAAATTTTTATAATTTTAAAATCTTTTTACTGATTAAAAATTTAGGAGGAGAACAAATAAATAATATAAATCAAACTAAATTTATAGGTTCAATAATAGCAGGCTTTTCCTTAATACAATTAATTAATAAGTTAAGTAATAAGAGAATTATTTTAATTAGCTTATCTTTATTAATTATATGTACAATAAACCTAATTATATTAAATAATTATACTTTAATTAAAATTAATTTTATTTTAATTAATTTTGGAATATTTTCATATTTCACTTCTAGAACATTAGACATAATCGAGATTAGCAAAGTAAAAAAATATCTTTTTCTAGCTTGTATAATATTGTTATGGGCGGGTGGAAACTTAATGGTAGATTTATTAAATCCATTTATAAAACCCACAAATAATACTATAGTAATTTGTGCATTATTATACTGTATCAATATACTAACCGAATTTCTGCATTATAATCACACATCTCATAAATTAAATTTAAATTCAAAATTTTCATCTTTAATAAAAAATATTGAATTACAATTATTAACAGGTTTTGTAGTTTCTTATATCACCTTAAATATATTATGGTATTATGAAGCTTTTGCATTAAAAAAACAATTAGCATTAATTAATTTAAAACTCATACTAAAATATATTTTCCTAACAATATGTTTTGCGATAATTCCTATATGTTACATATTAAGCAAAATAAATAAATATTTTGCTAATTTATCACTAAATATAATTTTACTTATCTGCTTTATTTTACTACCAATTCATGGGACTAATAAAAATCTTAATATATTATATATAATATTAATCGGTAATTGTTTAGGAGCCATTTTTATTTGTAATATTTTAATACTAATTGATAAATTTCAAGATTACGAACTCAGAACCGCTTTATTGTCATATTTTTCAATGTGCAGCATCGGCATATATGCTGGTGCTTTATCATCCCATGTACCATACGGCACTATTAAAGGAAGTGATTTTTTATTCTCAGTTTTTGCTGTAGTTGGTAGTTTTGTAACTTATCATTTTTGGTATTTTATTCAGTATAAATTGTATAGGTTCTAATTTCATCTTGTTTACCGGTCTACTGGAAATAATTACAGATACTATATAGTATCTGTAATTGGACCTTATGTTCAAGGCAGAACATAACATAAGCTAGACGTCTTGAAGCATACAACACCACTTATTGATGCTCACAATGGTGATTATGTAATATTTTGTAACAAAATATTATTTGTATAATTTGCAATTAAATATTAACATTTAAATATATTTAAACAACCTCGTATGCATCAAAGTACATTATTAAAACCAGTTAGTTGTTATGGTATTGGGGTACACACAGGAAAACGTACTCAGTTAACTATAGAACCTGCTAAAGAAAATACTGGAATTATATTCATAAGAACCGATATATCTTCTGAAAATAATTATATTGAAGCTAGCTATTGTAATGTATCCGATACTTTATTATCGACCACTATAAGTAATAATCATAAAATTCAAATTTCAACAATTGAACATTTAATGGCAGCACTTTGGGGATGCAGCATTGATAATGCAATCATTAAAATTGATGGTCCCGAAGTTCCAATTATGGATGGTAGTAGTAAACCTTTTGTGTTTATGATTGAATGTGCAGGTAAAAAATTACAAAATGCTCCTAAAAAATATCTAAAAATTTTAAAAGAGGTCAAAGTAGTTAATAAAGATTGTGAATTATATTGTACTCCTTCCGAGCACATGGCTGTAGATTTAACTATTGATTTTAGTAGTAAAGCTATAGGGAGGCAAAATCTAAGTTTTGGAATGCAAGAATCATTTACTAAAAACATTGCTGATGCTAGAACTTTTGGTTTTATAAGGGATGTTGAGTATCTGAAAAGCAAAGGACTCGCACAAGGCGCCTCATTTGAGAATGCTATAGGAATAGACGAACATGATAAAGTATTAAACCCAAGTGGCTTACGTTATGCAGATGAGTTTGTTCGTCATAAACTATTAGATTTATTCGGCGATTTATATACAAGCGGCATTAGCGTTGTAAGTGCAATTAAGGGGTATAAAACAAGCCATGCTTTTAATAATGAATTATTGCATAAAATATTTAGCGATACTACATCTTATAAATTTGTAACCAGTAACGAGTTATAATAATCATAATTATCTCATATTGATACATTGCGTTTTCTTTTTTGCATCCTTTTTAAATCTTAACATTTTTATTTCAATAGTATTAACTATTTAATCTATAGATTTTAATTTGACTATAATTTTGATAAAGTAAATGTATTTTGAAGATAAGTTGCTTTTCTATATTACTATTTTTCTTTAAAAATGCTTCCTCATATTACGGAAATTCTTGTATTTTCTGCTCTTATGCATACTTCTATAATCCTTATCCTTTTTAATTTTTTAAAGCGAATGTTTGTATAATACTTATAACTCTCTAATTGCTCTAAATAATTTTAGATGGGAGTTTTATTATATTCTTAATATATATTTAATGACGAAATCGTCATTATTAATAAAAGCACATTATCACTAGCATCTAATATAAGAAATCAAATTATTAACCTAAATTATTTTCAAATATTCAGTGACATTATAAATTCATTTGTTATAAGATCGCTTCTTATTATCAAAATAACTAATTTTATATACTAATAAATCATTTTATGAATTTGATACAAACTATGAACTTGAAAAGTATAATTTGAATCATGCCTTCCTATACTAACTCCTAAAACAACAGCGACAACTATCACAGTAATATAATAGTAAAAAATACTGACACTACATCACTTAATACTATTATTTAGTGGGTTTTACTTTGTCTAAAACTAGACTAAATAAGATTGAGCATTTTTTATATTTTCCTAACCTTTGATTTAAAAATCAAAAAATTTTTTATAAATTTTACTTTTATTTTATTTATTATTTTATTAACTTCGTTTACAACTTGAGTTATATTATAAATTCTAATCAACAAACAAAATAAATGACTGGAAAAGAGTTAAATAAAATTGTTGCAGCAATCTTATTTGCTAGTTTAATTGCTATGATTGTTGGATTTATTGCAAATATATTATATAAACCAAACTTACATGTTTTACATCGCGGTTATAGCATTGCAATTCAAAAATCATCAAGCAATGAAAGTGCTACAGTAATCGCGCAAGAATCGGTAAATATACAGGAATTGATGAAAACTGCTAACGCAAATCATGGTCGTGAAATAGCAAAAAAATGTTTAATGTGTCATTCTCTTGACAAAGACGGTCCAAATAAACTAGGACCACATCTTTGGAATATAGTAGGAAGACCAAAAGCAAGCATAACAGACTATAAATACTCCTTTGCTATATCAAAACTTGGAGGCGTATGGGATGATGAAAATTTATTTGCTTTTTTACACAAACCAAGTAGCTATGCCCCAGGAACTAAAATGTCCTTTGCAGGTATCTCAAAACCACAAGACATAGCTGATGTAATATTATTTTTAAAAAACTATGTTCATGATCAATAATTATCTCAACGAGATATGGTTAATAATTGGAATAATTTGTATACTTGTTGAATGCTATATAGTTCAAAATATGGGCTTCTTATTCTTGGGACTTGGAGCATTATCAAATAGTCTTGTTGTATATAACAAGCCTTTAGTGATATTTACTTTAACAAATCAAATAACATTTTTTGGTCTATTTTCACTTGTATGGTTTTGTATATTATATTATCCTCTTAAAAAATATGTTTATAATAAAACTGATAAAACAAAAAGTTACTCGGATATGATAGGAAAAACGGTAGAGGTTTATAGTCCTACTGTTTCTTCCAATACTATAGGACAAGTAAAATGGTCTGGCGCTATTATGAATGCTTATCTTGCGCCAAATGAAATCGATGCAAAAATAGGAGAACAACTTTTTATCATCGGAGTAAAGGGAAATATACTAATTTGTTCTAAGCATAGATTTAATAATAATGCTGATTACTGCTAACCGACATTATTGTATTAAAAATTATAATTTCGTTTAAAATGCTAACTTATAGCATTTTTTGTTTTTCTTAGATTACCACATATTCTACAATTTCTTACAATGATAGTGTGGATATCTGTATAAGATCTAAATATTCTCTTTAAACCAATCAAAAGCTTTTTTAAAGAAATTAATATTTTCATCAAGTCTAATATGAGATAAAGCTTTTTGCTGCTTTAATGCATGAATTTTTAGCATACCTATAGCTGCTGAATACATAGCCGGATTGTAGTCTTCTGTAAAACCAGCAATAATCTCTGGTTTACCAATTCTACTCTGTTTTGCAAAAATTTTATTTGAAAGCTCTTTAAGCCCTCTAAGCTGCGATCCACCTCCAGTAATTACAACTCTAAAAACTTCAAACTGCCCTTTTGTTGCTTTATCATATTCTGCTTTTACCATTGATAATATTTCTTCAGCTCTTGCACTTATTACCTCAGCCAATCTATAAATTGTTAATGAAATATTTAAATTATGAGGAATATCAACATGAAAATCATCCATATTTATAATACTATCTTTCTCAAATAAAGGTATAATTGCATTACCGTATAAAATTTTTAATTTCTCGGCGGTAACAAGATCGATACCAAAGACTTTAGCAATATCCAAACTAATATGAAAACTACCTATATTTAAATGCCAGGTATATATTAATTTATCAGCAAAAAAAATGCCGCAAGAAGTTGTTTGATCGCCTATATCTATAATAAGCACACCTAAATTTTTTTCATCATTTGTAAGACAGCTAATAGCAGAAGCATAAATTGCTAGAGTAATATTTGTGACCTCAACATGACATTTAGCAAAGCATTGTACAATATTGGATAATAAATTTGAACGAGCAGAAATAATATGTAATTCACAACTAAGTGCTCTACCGTACATACCGATAGGATTCTCGACTGAATTATTATCAAGTGTAAATTCAAGAGGAAAATAATGAATAATTTCCTGGTTTTTAAATTTAAATTCAACTAATGCTTTTTGTAGTAACTTTTTAATATCCTGCTGTGTTACAGTTTGTCCATTAATTTTAATGGTATAATTAATATAATAAGATTTAGTCTCAGCGCCAGACAACGATAATATAATTTTGTTTATGTTTTTACCGCAATCTTTTTCAAGTGCATAAATCGCTGTAAGAATACTAGTTTCAGCATTTTTTAAATCTAATATCACTCCTGACTTAATCCCTTTAGAATGATGTAAATTTTGGCTAGCTACTTTAATTTCACCTTTTTTACTAATATAGGCAGCAATTACGGCAATCTTACTACTACCGAAATCAAATGTTACAAAATTTGATATTTTCTCTTTCATTTTTATGCTTCTTATTATAAAAATTGCATTGCAAAGAGTGCACCAACGTTGCAATTCACAAAAAGATTTTTAAAAATTATGTAAATCAGAATTTTTAACTTGATTGCTTCGTTGAATTACTACTTAATTACTATAGGAAACTGTAACACGCAAACAAGCTTGCTTGACAATGATAATTCTCAATATTTCTGTATATAATATTTATTTCTATCTCTTAAATCTAAAGCCTTATAATTTTGATTAAAAAGCTTGTTAGTCTTATTGAGTGCATCGATATATTTTAATGCTGTTTCAAATTCTTTTTCAGGTAATTTTATACTAATATTCCCTTTAAGATTTAAATCCCATCTTCTATCTCCAACTCTTATAGCAACTAAAGTTTTATTGAGTAATGCAGGATATTTCTGCAACTCTAATACTAATTTACTTGCATAGATGTTCGCACCTTCCCCTACAACATGTAATAAGTGAGAAAAAGGTTGAATATCTTTACTAATTTTATAACCTTCTTCATCAATTAGAAAAAGTTGATTATTAATTTGCCAAATAGCAATAGGTTCTCTTTCAAATAATTTTATATATACTGTATTTGGTAATCTTCTACTGACATATACTTCCTTAATCCATTTACTTTTCTTTAAATTATTACTAATTTCATCTAATTTAAGAGAAAAAATAGGACTACTCTTATTCGCATTTAAAACCTTTAATATTGTAAGCTCATCAACATTTTGCTGTCCTTCAATAATCACATTCTCAAGTCTAAATCCAAGTTTTGTTGTGACTTGATATATATTTGTTATGAGATATGTTTTTATGCTAGTAAAATATTTTGTAAAAACAAATAGACATACAAAGATCATTAAAACAATCTTAAGCACTAATATTGCTTTTTTATACATTAAGCCCAGTTTTCTGCGTAATGAGATATTATTAGTATTTTTTGTTTGTTTGTTTTTATTTGAGATTGTTTTTTGTCTCATGATTCAAAGCTTGCCATCTTTATAATTTCTTCAATTAAATTAGTAAAATTTATCCCTGCATAGGCTGCAATTTCTGGCACTATTGATAAAGGCGTCATCCCAGGGTGAGTATTGATCTCCAAAACATATAATTTGTTTGTCTGTTCTTCTAAAATGAACTCTGCTCTAACAGGACCTTTACAATTTATTGTTTTATAAATTTTTTCTGATTCTATCAGTAATTTTTTATATAAATTAGCAGGTAGCGGAGCAGGACACACATGTTCAGCAAATCCTTCATTATATTTAGTTTCATAATCATAAAAACGAATTTTTAGTAATTTAATTTCTAAAACACCTAAAGCTTTGCCATTTAGTAATGCTACTTGCAATTCTTGCCCTTGTATATACTGCTCTATTATTATATCTTCACCATAAGGAAAATCATAATCGGTAAAGTTAAAATCATCCTCTTCAAATATTACTTCAACACCAATACTTGATCCTTGTTTAAGAGGTTTTATTACATACGGTCGCTTCATAGGATCAGTGTTTATATGATCACTTTTACTAACGACAATACTGTCTGCAATGTTAATATTATTTTTTAAGACACAGCTTCTAAAGTGTATTTTATCGAATGCTAAAGCCGAAGATAATAGACCACTATGAGTATAAGGAATACGCATTATATTAAGTAATCCTGGTAAACAACCATCTTCACCATATGTACCATGTAAACAGTTAAAAACAATATCAGGGTTTATTTCTTGTAATTTTACTGCAATATCTGCACCCATATCAACAAATGTAACTTTATATCCTAATTCAATTAAAGCTTTACTAACTCCTGCACTGGATACTAAAGAGACTTCACGCTCAGCAGACATACCACCCGCTACTAATGCTATATGCTTTTTACCTGTACTACTTAATATTTTGACTACAGAGTGTTCTACAAAATGTGTTTGATATTTGTGCATATTCTACTTTTTTATTAGTATGACTAAAATATTAAGTTGCGATAAAGTAATATCAGTATGTTTGAAAAGCCTTTTCCTCCATCATCTGCTAGGCACATCTTCGCAATAACGGTTTTTAAACATATTTTCCAATTCTTTTTATTTCCCAATTCAACTCTACTCCACTATCTTCAAATACTTTTTGCCGTACAAAATTGCCTAAATCTTCTAAATCTTTAGCGGTAGCATTTCCATTATTAATCATAAAATTACAATGCAGTTCTGATATTGAAGCACCGCCTATTCTATAGCCTCTCAGTCCTGCTTTGTCAATAAGTTCCCAAGATTTACGCCCTTCAGGATTTATAAAAGTACTTCCACCTGTACGCTCTTTAATAGGCTGTGTTGATGATCTTGTATTATTTATTTTATTCATCTTTAATAAGATATTCTGACTATCACCTTTATTTACTTTAAAAACAGCTTTTAGAAGAATTAAATCTTTTGGTAAATTGTTACCACGGTATTTAAACCCGATTTCTTTATTCGTAAACGTTAAAAAGTTTCCTGAAAAATCAAGTGCTTCAACCTGCACTATAATATCTTGAAATGCAGAACCATAAGCGCCAGCATTCATAATTACTCCTCCACCGATAGTTCCTGGAATACCTACTAAAAACTCAAAACCGGAAATAGCATTTGCTTGACAAAATCTTGCTAAATTATAATTAAGGCAGCTGCTCCCTACTATCAAATGATTATCTAAAAACTCAATTTTGTTAAAATTCTGACCAAGCTTTATAACGACACCTTCTATTCCACCATCTCTTATAATAATATTTGAGCCTGATCCAAAAGTAGTGATAGGTAATTTTTGCTTATTTTGTATTAAGAAACTTTTTAAATCTGCAAAATCGAAAGGTTTAAAGAAAATTTCAGCATTACCACCTACTTTAAACCATGTCAGATGTTTTAAATTATAATCTTTTTTATACTCACCTTTGATTATCGGTAAAATTGACATATTGTTACTTTCATTGCATAACTTTATCATTGGATTTTGTATCACAGTCTGTATTTTCTAAAATCTCGTGTGATAACAATCTCCTATCTAATTCATTAGCAAAACTTGAAATATTGCCTGCTCCCATCATAATGATCATATCACCGGAAGCTGCATTGTCTATAATAATACTAACAACATCATCTAGTTCTGCTAGAAAATTTGCCTTATCATGATGCTTATTCTGCGTCATCTTATCAACTAAACTTTGTCCTGTAATTCCTTCTATAGGGGTTTCACCTGCAGCATATATATTGGTAATATAGAGTATATCTGCATCCGCAAAGCAAAGCATAAAATCATCAAATAAATACTTGATTCTTGAATATCTGTGAGGTTGGAAAATCGCTATAACTTTACCGTTTTGTTGATTTGCTATATTTTTAGCAGTTGCAAGCGTTGCCTTTATTTCCTCAGGGTGATGAGCGTAATCATCAATAATCACAGCTTTATTATATTCAGCTACTTTAGTAAATCTCCTTTTTACTCCTTTAAAATTATTAAAGCCATTTTTAATAGCTTTAATACCAAAATCTAATTCTATCCCAACTGCAATTGCAGCAAGACTATTTAAAATATTATGTCTTCCAGGTGTGGGAATAGTAATTTTTTCAATAATAGTTGTGCCTAGTACATTTGGTAGACTAATTTTTACGTCAAAAGTAGAGGAAGCAATATCAGTATTAATATTAAATGCTATAATATGAGCATCTTCTGAATCAATTCCATAAGTAATAATTTTCCTTTCAGTAATATCATCTACTAACTTACGCACTATTTTATGATCGATACAACAAACAGCAAAACCATAAAAAGGTAGATTTGTAATAAAACTTCTAAAAGCACCAATTAATATTTCAAAATCTTGATAATAATCTAAATGCTCAGGATCAATATTAGTGATTATCGCAATAGTTGATGGAATGTGAATAAACGTTGCATCAGATTCATCAGCTTCAGCAATTAAATAATTACTTGAACCAAGATATGCATTAGTAGATTTATTATTTATAATTCCACCATTAATAACCGTAGGACATAAGCCAGCTGCTTCAAATAAACAAGCAATTAAAGAAGTAGTAGTGGTTTTACCGTGCGATCCAGAAACTGCTACTGAACATTTTAATCTCATAAGTTCAGCAAGCATTTCAGCACGCCTAATAATCGGAATTTTACGTTCTAAGGCCTCTTTTATTTCAGGATTATTTTGGTTAATCGCTGATGAAATAACAACATACGAAACATTTTTAATGTTCTGCTTAGCCTGTCCTAAAAATATTTTAATACCGTATGACTCAAGTCTTTTAGTATTATAATTTTCTACTAAATCGGAACCTTGTACTTTATAACCTAGATTATGTAATATCTCAGCTATACCACTCATTCCAACACCACCGATACCTATAAAATGTATGGTTCCTAAAGTTTGATTAGATTTTTTTAATTCAAGTAATAGCATTTAAGTTTAATAATTTAAAATTGAATTCGTCATAAAGATCATTACCTATGTTATAAAGTATAATAATTGATGCACTACAAATACTATGTAATACTATAATTTTGCTTACTTATTAAGTATATGCCTTATCTTATGGATTCCTTGAGAGTTTCAAAATTGATCTTGTTATAATTATAACGTTTTTATACTTCATCTACCCTATCAAATTTTGCTTCAGAATAAAAATTCCCTTGCAGTCCACTCACTTTTAGATCAATTAAAAATTTAGCTATTTCTCCGTTTTCTACAAATTCAGCTACAGTTGCAATACCTAAATCTTCTGAAATTTTAATTAATCTTTCTACAAAATATCTACTTTGTATATCACTTGTAATACTACGAACATATTTACCATCAATTTTAATAATATCAATTGCTAAGCTTTGAAGTTGTTTAAAAGAAGTGAAACCAGAACCAAAATCATCTAATGCAAATTTACATCCGTACTTACGTAGTTTATTAATAAATAAAGTTATTTTATCATAATTTTCATTGAAAGAAGTTTCTGTAATCTCAATAATTAAACGATCTCGAACATTATGAGTTTTCAATAAGCTTTCTGCTATTTCACATAAAGCTTCATCGCTTGTTCCTATATTTGAAATATTAACTGCTAACATTAAGTTAGGATTACGTGCAAGTTCGTTAACAGTCATTTCTAAAACGATTTGATCAATTATAAAAATCAATCCTTTATTTTCAGCAATAGGTATTATATGCCCTACAGAAATATAAGCACCATTCTCGTCAGGTATACGGAGAAGACACTCATAATAATGAATTTTCATAGTATTACGATCTATTATAGGCTGATAAGCAAATCGCATAGTCTTTTCCGCTAAGGCTTGTCGTAATAAGTTCAGCTGAAGATTAGATTGTCTTATATTTTTCACATCATGTGCTGTACTACTATATTCACGATAATAATAATTATTATTTTGAGCAAGTAACATATTTAATGCTTTTTCAATTGATTTCGCATTATTCATTACTGTTGTAAATTTAATGCTTGCTATATAACAATGCATATAAAGTGCTGGCCTATCTTTATTAATATAAAGCTGCGACAATAAATATAATTTTCTAGCAAAATTTTTAATTAGGTCAGAATCAGTGGTCTTGAGTATAAATAATATTCTATCTTTATTTATTATCTTAAATGTCGTAAAAATATTCAGTTCTTTGCTTACATCTTCAATGATTTGATCTAAATCCTGAATAACAAAATGCTTATCTTGCTCTATAAATTCTATTTCATCATAATTAACTAATCTACAAGCAAAACACACACCTTTTTGCAATTTATCTATCTCATATTGTAAATTTTTAGAATCCGTTATTAATTCCAACATTGCAATTTTTATCATAAAATTATATATTTAAGAATATTAAGACATTTTTACTTTAAATGAAATAAAAATATGAACCGCATAGCAAGGATACAAGAAAAATTAAGTGTGTTAAAACCACATTTTCAAGAAATAATAGATGAAAGCTATAAGCATACTAATCATTATGACGGAACTTATAGCCATATAAAAATAAGAATCTCTGCAGAAACATTACAGGGGCAAAGCTTGATTGCACATCATCGCACTATTAATAACTTACTCGCGGATGAATTTAATAGTGGCTTGCATGCGTTATCGATAGAGGTATTATGAAAACAAATAATATTTTAAAGGTAGCAGTTGGAGCTAGTAGTGTAGCACAAAAAGCCCTAAACAGTATAGCAAATAAAGGCTATAACTTCATTGAAGATAAAATACTTAAAGGTAATTACATTAGTCGCGAAGAATTTGAAAAATTACAAACTTTAGTAATAAAACTTAAAAAAGAATTAACAGAGTTAAAGGGTAATAATTAATTAACTAGCTTTACTAAATTTTTATTTTTATTATTTTAAACTTCTGTTTTACTTATAACATTTTCTGCTAAAGCACCTTCTTTAGCATCTTTAATTTTGCTCATATAGGATTCATATTCTGAGGATGTAAAGTTCTATTATTGTACGTTTTAATAAATCTGTAGTATAATCCTTATTAAAACTTATGCTCTATCATTATGCATTAGCATAATTTATATTCTTTTTAAACAATCCATTTTTTAAATCTTGATTAAATATCAGCTGCCAGATTTAAACCTTAAATCAAACATACTGTGCTCATATAAATTATTATAATGCATAACTCGAGTCATAAGTAAATAACATGATCAATATTTACTTTTATATAATTATTGCTATTTAAAACATTATGTGCTTTGATCAGTTCGGATTGATACTCTTGCCGACATACCTGGGACTAGATTAGCATTTGGGGATACAAAATCTATTAAAACAGATACACGTTGTACAATTTTAGTAAAATTACCAGTTGCATTATCTGGTGGTATTAAACTAAATTTAGCTCCGGTAGCAGGAGCAATATTACGAATTTTCCCATAAATTACCTTTGTAGGGAAAGCATCAAATACAATTTTGACTTTCATCCCAGACTTAAAGTTCTTAATTTGGGTTTCTTTAAAATTAGCCTTAATATACATAGTATTATCCTGCACTATAGAAAATAATGCCTTACCCATTACTATATAATTCCCGACTGCTAAATTACTATTACTAAATATGCCTGGTACCATAGCAATAATTTTAGTATTTTGTAAGCTCCTTAAGGTTAATTTTTTATTTTCTGTTAGTTCTTTAAGTTTTTCCTGTGCTGCTGATTTTTCAAGTTCAAGAAGCTGTAAATTGTGCTTAGATATGTCTAAATCTAATTGTGCTTGTTTATACTCCGTTTTCACTTTTTGATATTCGTTTTTAGAATCATCTAACGTTTTAGAGCTAACAAATTTAGCATTACTTAATGCCTGTACTCTAGTAAAATCTATTGAAATAATATCAAAGCTTATTTTAGTCAGCTTTAATTTTTCAGCCACTTGTTCTAGACGCATCTTGCCTATTGAAATTTTTTGCTCTATAATTTCTATATTTTTTATGCAAGCTTGAATAGCTGCGTCAAGTGCTGCAAGCCTTGCTTTATAATCTCTATCATCAATTTCACCTATAAGCTCACCTTTATTAACTCTAGTATTATTGGTAACGAATAACTTTGTTAAAACACCGCTAACTTCAGCACTAATATTCGAAATATCTGCATCTATATAAGCATTATCAGTAGATTGCGTATTCGCCCAAACATAAATTCTATATCCAAAATAAGTAAATATTATTAAAACTATAATAATGACATGTTTAATAAATGAATAATGTTTATATTTATAGATAACTTGTTGTAATACACTAAACATAACACACTTTACCAATCCCCTCTATGTTTTAAAAAATAACAAATTGGTATAGAAAGAATATATATCACTGCAATTAATGGCAGTGAATACCATGGATATATAATAAGATTTATAATCACAATAGCGACTAAAATCATTGCAAGAGATAAATATTCAGGTTTGATACTTAAATTTTTTGTTGAGATTGTAGGAAGCCTACTAGCAAGTAGGAAAGCTACAATAGCTAAATATATATTAATTGTTATAGTGTGAGTACGTGTATTGATATTTAACAACGTACCAATTTCAAAATCTATCATTACAGGCGTTAAAGCAAGTAAAGCACCACATGGAGCAGGTACACCAGTAAAAAAATCTTCAGTTTTTTTATCTTGTTTCAATTGATAAATCCCAACGTTAAAGCGCGCTAAGCGTAGTGCCATACACACTATGAATAATAGCATTACTGCTGATGAAAATACCTTATACTCATATTGTTGAAAAGACCATAAATATATTAAATAAGCAGGAGCTATACCAAAATTAGCGAAATCACATAATGAATCAAGCTCTGCACCAAATGGACTAGCTGCATTTAGTATCCTTGCTATTCTACCATCGATACCGTCAATAATTGCTGCGACTATAATGCAATATACTGCAAGTTCCCATCTACTATCCAAAGCAAATTTTATAGAACTCATACCAGTTACTAAACCAAGCAACGTAATAAAGTTTGGAATTAGTTTTATTAGAGGTACAGGTTTAGTGATGATAGATCTACGAATTTTTAACAATTTTAATACTCAAAAATACTATATAAAGAACATCATGAATTAATTGAATGCAAAGAACATTGGCAAATTGATAGACAAATTTTACAATTCTTGCATAAAATTAGTGTAATTCTACTGTACAATAACTAGTAGTTATTTCCGCTCAAACTTAAATTCTTCTGTTTTTTTACGTCCAAAATCAGCAATGATAGTTTCACCGCCTATAGCAGTTTGTCCTTTACTCACTAATAAAGCTGTTTTCAACGGTAGATAAACATCTACTCTGCTACCAAAACGAATTATACCGTACCGCTCACCCATTTTTACTTCATTATCCTCTTCTAAATCACAAACTATACGCCTTGCTATAAGTCCAGCTATCTGAACAAAAACAATTTTCTGTCCTTGATCAGTTTCCATTAATACTGATTGGCGTTCATTATAAAGACTCGCTTTATCAAGTGAAGCATTGAAAAACTTTCCTGGATTATAATGCAGAGCCAAAATTTTCCCATTTGCGGGGATTCTATTAACATGGATATTAAAAATATTTAGGAAAATACTAACTCTAATCATTTCCAGATCACCAAGCCCTAATTCCGGAGGTGGCGAGGCTTCCTTAATTTCTTGAATTATTCCATCTGCAGGACTTATTACTAAATCATCACTTATAGGTACAAAGCGATCAGGGTTACGGAAAAAATAAATACACCAAATAGTAGCAATAAACCCAATACAGCCAAGTTTTTCATTAAATGATGCTAATAAAAAACTTACTAATGCAAAGCTAGCGATAAATATATATCCTTCACGGTGAATAATTTTAAATAAATCATTATATTGTTTCATTTTAATCTCTATAAATCTCCTTATTATTTTAACTATACCTGCTCTGCGTTATCATCTTGGGTCTCGAGAACGTCTGCATCTTCTTCATGATTGCTAACTTGTGTTTCTTGAGCAGAACCAAGAGCATACACGCATAAATCTGGAAGTGGGACAGAGATTTTTTTTGCAAGATCATTTAGCTGCGATATTGCTTTCATCACTTCATCAGGAATAGTACCACCTCTTTCATCAGATAACCATTTTGCTTGAAATTGCAACGGATGATGCCCTTCTTGAGGCGTACCTATATAAAACTTAAATTTTGCCCTTTGTCCACCAAAATCGCAATCAAATTCAAACTCTTTATAATGTGCCATAACTTTATAAATTAATAATTATATAATAATATTCTAACAATAAAAATTCGAATCTTAAATCATTTCTATCCAAGAAGTCACAATATCAGGTACTTTAAAACTTATAGAATGCTTTTTTACTACAGATATAGTAAAAATAATAAAAATCTTATTTCGCTAAAAAAATATTTCTCTAATTATCAATTTAAATAACTAATACAGATAACCTTTGATATTTTTAAAGTTTCTTCGCAATATAACGATTTGCACATATAAATTTATCGCTAGAATCTATAATTATCCCACCTGCTTCCTTAATAAGAAGCTCAAATGCATAATATAATGTAAAATTTAATAATGATAAATATATTAAATCTACTTTACCTAAAGATACAAGGGCGGCTCCATAGCAAGGAGACCCAAAAGATCTAATATTATTTAGCTTTATTTCTTCAAAATTATCATAATTTACACCTTCAACAATTGCTAAACAATTCTTTAAATCGGCATTATCAGACACTCTAAGTCTTAATACATGATAATTAGAGTTAAAATTATTTTTTTCTATCCAAGCTCCTTTACCCTTTTCAGCATAATAAATTTCATTAAGAACAGGAAAATATATTACAGTAGAAGCAGTAGTCAATGCGTCTTGATTCCTTTTTAAATAAGTTACGGATATTGCAAAAAAAGGTATACTCCTACAAAAATTATTTGTGCTATCTATAGGATTAATTAAAATGATACTCTCATAATTATCATTTAAATCGAATATATCTTCTGGAAAGAATAAATATTGTGTATGTTTTTGCAATTCTTCACATAATAAAGTTTTTAATTTTAAATAAGATCGTTTGCAAAATTCTTCATTTCTTATAGAATTTTTTTGCAGCATTTCTAATTCTAAAAAATCCCTATTCAGAAACTTCACTGCTTTACGTATGGCATTCATTAATAAATTAGTTATAGGTTGCATAATGAAAATTTATTTAGCACGCTCTACATATGTCATATCATCAGTTTTAACGACAATTTTTTCTCCTATTGCTAAATATTGAGGCACCTTAACTTTAATACCGTTTTCTAAAATTGCCGGTTTATAAGAAGAGGTGACTGTTGCTCCTTTTATTACTGGATCAGTTTCACTAATTGCTAATATAACAGTTGGAGGAAGCACAATAGTTAAAGGCTTGTCATTATAAAATTCTACTTTAACAATCATATTTTCGGTTAAAAAAGGTAGTTTTGCTTCTAATATTTCCTTAGGTACATTTATTTGATCAAAATGCTTAGTATCCATTAATACTAAATTATTACCTTCAAAATATAAAAACTGACAATCTTTTTGTTCAAGTTCAGCTTTTTCTAAATAATCGGAAGAGCTGAATCTATCGTTACGCTTTGTACCTGTTTTTAAATTTTTCATCTCAACTTGTACATAAGCACCTCCTTTCCCAGGTTGCGTATGTTCAGGCGTTTTGCTTACAACCCATAAATCATTATTATAAACCAGTATGTTACCTGTTCTAATTGAATTTGCTGAAATTTTCATATATTATAGATTTTAAGACTTAAAATTAAGTATAAATATACAAATTATTTCCTTTAAACACAAGAATTTAATCTTATGACCACAATATTAGTAGTAGACGATATAGAAACCAACATTAAGTTACTAACAGCAAAACTTTTAAAAGAGTACTATACAGTTCTTACTGCAAATAGCGGCAAAGAAGCATTATCAATTCTTAAAAAGGAGAAAATCGATACTATACTCCTTGATGTTATGATGCCGGAAATGGATGGATTTGAAGTGTGTAAAATGATAAAAACAGATCCAGGCACTACTCATATACCTGTTGTAATGATTACTGCACTTTCTGATATTGATGATCGAGTGAAAGGTCTTGAAGCAGGAGCTGATGAGTTTTTAACAAAGCCTATTAATGATACTGCTCTATTTGTAAGACTTAAATCATTATCTCGAATGAAAAGCTTAATTGATGAATTAAAACTTCGTAATAGTACTAATGCATTATTAGGCGTAACAAATATAGAAATTCATGACACTTTTACAGATTAAAAAATATTACTAATTAATGATGATGTAGTACAAGCTAAAAATATAAAACAAATGCTAGTTAAGGTTACCAAGCACGTAAAGGTAATAAATAATTCAAATGAATTAGATATTATAAATGAATATAGATCAGATTTAGTCATTATCAGCAGTACACTTGAAAATGAAGATCCTTTGAGAATAAGTGTTATTTTAAGAGGCAAAGCAGAAATAAGTGGTGTAGTAATAATTTTACAAATTGATGAAGATGGAATGCCGTTAGTGGTGAAAGGTATTGAACTCGGCATTAATGATTATTTCATCTATCCTATAGAAGAAAATGAATTACTTGCTAGGATTAGAACACAATTAAGGCGTAAACAATATCAAGATAATTTACGTAATGATCTTGAACAAAGTGTTAATTTAGCAGCTAAAGATGGTCTCACAGGTTTATTTAATCGTCGTTATTTTGATATACATCTCAAACAAATGATTGAGAAAGCTAATAAAGAAAATATTAAATTATATTTACTAATGTGTGATATAGACAATTTTAAACATGTAAACGATACTTACGGTCATCAAGCAGGGGATAAGGTTTTAACAACTGTATCACGTATTTTAAAAAATACTCTCAGAGTAACAGACTTAATAGCAAGATTTGGTGGCGAAGAATTTACTATACTTTTAACAGATATAGATATTTCTAAAGCAATTGAAACTGCGGAAAGAGTTAGAGTTAAAATAGAATATATGGATTTTTATATTGAAGGTCAAATTGAACCGTTTAAAAAAACTATTTCAATAGGAGTAACGGAATATAAAAAAGAAGAATCGATAGAATCGTTCATTAAACGTGCTGACAAAGCAATGTATGAAGCTAAAACAACCGGGAAAAATAAAGTAGTACAATTATAACTTTGTTTGATTTTTAAAAGTAAAAATAATGAGGAATTCTTCTAACAAATATCTTGATTTACCATATAGACCAGGGGTAGGCATGATGATATTAAATGCTGATAACCAAATATTCGTTGGTAAAAGAATAGATACAAAAATATCTTCATGGCAAATGCCTCAAGGTGGGATAGTTCCAGGCGAAACACCAAGTATTGCAGCAATGCGTGAAATGTTAGAAGAAATAGGAAGCAATAAAGGATATATTATTGCGGAAAGCAAATGCTGGTATAGTTATGATGTACCAAGCTTTTTAATACCTAAATTATGGAACGGTAATTTTCGTGGACAAAAACAACGCTGGTTTTTAATTAGGTTTACAGGCAATAATAAAGATATTAACATACATACATCTAATCCGGAATTTGATCAATGGCGTTGGACATCACTTGACGAGCTATTATCTATTATAATTCCTTTCAAACGCAAACTTTATCAAGCAGTTGTAAAAGAATTTGAATCATTAATTCAGTAAAAACTAATATATGAAATAAAATTAAATTAGGTTTAATTACTATGCAGTAATATTATAAAATGTTTGAAATATCTATGCCTTATTCAATCACAAGATTTTGTGCTTACTAATATTAAATTTTCTAATAAAATAAATCTATAGATTATTGGTAAATTTAATATGCTTAATGTAGTATCACATTTATATCATATATCTTATGATCAAGATAATCGTTAAAGTGCATTTCATTAGAAGCAATATAATAATTATGTGATTTTTGCTATTAATATAAAGTTGCTTTCTTTGAGATTATTAAACTTATGAATCTATATATCCACAGCACTTACTACAATAAGATACAGTTAAATCAGAATGAATTATTGCACTATCCTACTTTACAGTTTTAGATATTTTAGTTGTATATGCTATAATTTTATTCTATCTAATACGATTTCAGATCATCAATTTTCTTCAAAATAACTAAAGTAAATCAATTCACACTTTTTTAATTATTTGTATTATTATATCTAAATAGATATATAACACATTGGTCCCTAAAATTACGCTTAATAATTTTGAGATTATTCTTAACTTCTTTGCGAAATTTATATTAACAAGTCTACAGTATTAGAAGTTTATCAAGACTTCTTGCATAACATCTTTCTAAATGTCATGCAGCGCACTTGAATCCTTCTTAAATCCTTACATAGATTTGAATACACTGCATCTTTATGTTCAATATATAATTAATATTGTTAAATAAAAAGAGGATACTGTGACTTATAAAATACCTAAATCCATTATTTTAATAAAATGACTAGATAGTGGCAATAAACAACAACATATCCATCATAATTTAGTGAATAACCGCTAAAAAATCCATAATATGGATGCATTCTATTTAAACTATTCAAGTTTATTATATAGAATCGACAAAAAGACGAATGAATGGTAGCGGGAGAGGGATTTGAACCCGCGACACACGGATTATGATTCCGTTGCTCTAACCAACTGAGCTACCCCGCCATAGAATGTTTATTTTTTGTTAAAAACAGTAATTCTAAATTTAACGTTTAGAGAATTGCGTCTTCTTACGCGCTTTACGTTGTCCGTATTTCTTACGCTCTACCACCCTAGAATCACGTGTTAAAAGCCCCCCTTTACGCAAAATAGCATGAAAACATGGGGCAGATTTATCTAAAGCTTTAGAAATCCCATGTAAAATAGCACCTTTTTGTCCTGAAATACCTCCACCTTTAACAGTGCAAATTACATCATACTGATCAATGGTTTTTGTTAAAATAAATGGCTGTAAAATAGTTTTTACATAAGTTTCAGAAGGAAAATACTGGTTTAGTATTTTATTATTAACAACTATCTTCCCTTTGCCTACTTTAAGCCATACTCGTGCTATAGCATTTTTCCTTTTACCTGTCGCATAAAACTTACTTACACTATCTATTTTTTCTTTAGGAATTTTTAACACTGATTTTAAAGATTCTTTAGTTAACTGCTTGACTACTTTTTCTGTTTTAATTTTTAACTCAGTCATATTCTATTACTTTTTATTTTTTGGATTTTCGCTTGCAAAATCATAAATAGTAGGCTGCTGTGCCATATGTGGATGTTCACAATTTGCATAAACATATAAATTACTCATTTGCTTCGCACCCAAAACATTTCTTGTAATCATTCTTTTTACAGCCATTTTAATAACTCTCTCAGGATATTTACCACTTAAGATTTTACCTGCTGTAGTATCTTTGATCCCACCTGGAAATCCGGTATGTCGATAATATACTTTTCCATCTTTAGGATTCAGTTTTTTACCTGTTAATTTTATATGTTCTGCATTTATTATAATTATATTATCACCACAATCTAAATGAGGTGTAAAACTAGGCTTATGTTTACCTCGTAACATAATAGCAACCCTGCTAGCAAGGCGTCCTAGTACAACATTTTTTGCATCAATGACCCACCATTTCTTTTCAATTTCCGATGGCTTTGCTGAGTAAGTTTTCACAATAGTCTCTATTTAATTAGAATTTAAAATTAAAGAATCAAGAAACACTTAAATAGCATTAATACCAGCTATCTGTCAAGCTAAATATCTTGTTTTATTGAAATTTACTATCTCATACTACAGATGCTGTAGACGTATATATTAATGATATACTCTGCTCCCTGTATATCTAAGAGCTAATACTTTTTAAAATTAAACTTTATTTACCTATGCATATTTTTATATTTGACTTCCGAATATTACTTGTCTATCGGTAGAAAAATATAAAGTATTATTTGATCTTAGTCCATAATAACGAATATTTTTTATAATTTTGATAATATGAGGATTCATTTTTAATCCATTACTATCAATGTTAAAATTATATAAAATACCATCAACAGAAATAACATTTAAACTTCTCTGATTATTATTATCAACTCCTACAAAAGGCACTAAAAAAGTCGTAGATTTTAATCTCTTATCATTTTTCTCATAGTTTAAATCAGCTACAAACTTTACTTTTCCTGTTTCAGGATTCAATGCTGCTATTTGTCTAGCGTTATTTATTATAAATAAGCTATTACCAATTAAAGACATTGATTGAATATCATCGGCATTTATCTGCCACAACACACTGCCTGTTAGTAAATTAAGCTTAATAAGCTTACCAAGACCAGTTGCTATATACAGGTTCATACTATCATGAACAGGTGTACATAAAATACTTGATGTATCAAAATTCGGTATAGCTGTATGATCATTAAGATTTGTAAATTCAAAATTCCATTTTACTTCACCATTTTTGATATTTAAGGCTAGTACTTGACCTGTGTTATAAGTTACTATTACATTGTCATGCTGTACTATCGGAATCATAGAATAACTAGTCGATAAAATTTCTGCTATACTTTCATGATCCCATAACGTTTTTAAAGTTTCTGAATCTAAAGCAATAGTTTGATTACTGATAGTTTGCACTAAGATAGTATGATCATTTAGCGCAATAGGTTTAATTCTAATAATATCCGGCAGTTCTTTTCTGATAATTTCATAGCCTGATTTTGCATCTAATACTATTAACAACCTTGCACCGTATGTTATGTATAATTTACCATTATGGTGCAAAATTCCTCCCCCTATATAATTATCTTTTTTATGTTTACTTAAATTATAAGACCAAATAATCTTATTTTTTTCTATAGAAAATGCAGAAATATTAGCTCTAATATCCAATGTATAAATCATATCTCCTATAAAAACTGGCTCGGCAATCATTTTACTTTTAGCAGGACTATATTGTTTATTCTTAAGCATATTTACATTAAATGGATATATCTTTGTATTAGAATCTAAATATATAGGTTCATTAGTCTGAATTACTAATTTAGGAGTCAAATCAACAATATTTTTGACACTTTTAGATCCAAGCCCGTTACACGAAATTAAAATAAACGGTAATAATAGAAGTGCTAATTTTTTTTTCATATTTGTCTGCCCTGAAGTACAAATTATTATTTACTTAAACTTACAAGCAATGCTTTAGCCTGATCTTTTAACAAATCCGATACATTATTTGAAGCTAATAAATTTTTTAGATTTTTCTCTGCTTGCGTTTTCATATTATGCTTAATATCCAAAATAGCTTTTATAATAGTCGCTGTAGCCCAAAACGGTTTTTTCTCATCATCAAAATAGTTTAAATATTTTTGCAATTTTCCCTTATCTTGAATGTTAAGACTTTGATCATCAAGAACAATACAGCACCATGCAATGCGTGCATAAGCAGTAGAAATTTCAGAATATTTTTCATTGTCAATAATTTTATTCAGAAGATTTTTTGCTCCTAAATAATTTTTTTCTGACATCCTTATCGCTACTTGTTCTAATGCAGCTATTTCTTTTATTTTAGTATTACTACTAGTAATTAAATTCTCTAAAGTATTAAAAGCTAATGCTTTATTATCTTTTGTTGTATCTAAACCAATAGTCTTAACAAGGATATCGCCATTTTTTTGATTATTTTTAATTCTGTTATCTTTATTATTCTTAATAATAACCATTATAGTAATAACTACTATAGAAATGATTATTATAATAGGTACAAGCTTTTTGAAAAAAATTAACCTTTTTTCTTCATTTTGATCACTTAGTACTTCATCTAAAATATCTGTCATATTTTATTATTTTTATTTATTTTACAGCCAAATTTGATCTTGGCATCTTCTGTCATTTTTTTAGATACAGAAGTTCTATTAATTGGAAATTCCTTATCAAGCTTAGCAAGAATATTACATGCTTCTTGCATTTTTTTTAGTTCGCCTAAGGAAAGTGCTAACTTCAATAATCCATCAGAAGATTTAGCCCCTTTCGGTGACTCTTTATAACACTTTAAATAATTAATGGCTGCTCCATTATAGTCTTTTTGTTTAAAAAAGCATTCCGCATACCAAAAATATGCATTACTAATTAGCGAATTGTTAGGATATTTTTGAATAAAATTTTTAAATTTATCTTTTGCTTCAGTCAGTTTATTATCTTTATAAGCAGCAAGCGCCAAATCATAAGCCTGTTTATATGGAGCTATATCCTTATTCACTTCAAAAGTTTTTTTAGATACATTGTCATGCATACCTTCAAGTAAAGCTATATCAAAAATATCTTGTTTTTTAAAATCATCAGTTTCTAAAACTTCAATATTTTCTTCTTGATTCAGCATATTTAAGTTCTGCTTTAGCAGATCAATTTTATGCTGTAAAATCTCAACTTTACCGATTAGTTTTCTTATTTCTTGTTCTTGTTCATCTAGTCTATTTTCAAAATCATTATTTACTGCATATTTTAAAGGCTTGCCTTGAGGCATTTCGCTTTTTCCTAAAGAAAACAAAGAAAATTAAAAAGTTATTAATAAAATGATAAGCTTCATATTTTTAAAAATTGATAACTTTTTTATAATAGTGAAAAATTTTTAATATTCCACACAATTTTTTATATTTCCATAATCTTAAATAAATCATTATCACTACACAGATATAAATGTTGTTACATACTGTTAAACTACAGCACAAAAAATTGACATACTCAATAATACACTGAAATGTATACTTAATGATATAGAAGAATTCTATTCTAAACAATTATTTTTGATAATACTTAGATTTCAATACTACCGTCATATTTAAAAGTTATTGTGACTGTAGTACCTTTATTTATCTTACTTTGCAAATCAAATTTACCATTCATAAGTTCAACTAGCTTTTTAGTCAGAGGCAATCCAAGACCAGTACCTTCATATTTTCGACTAAGCTCACTATCAATTTGACCAAATGCCGATAAAGTTTTTGGGATATCTTTTTCCTCAATACCAATGCCGGTATCTATAACTTTTATATATACTAATTTTGCTAACTCGTCTTTTTCAAGTGAAATAGTAACACTACCGCCAGAATTTGTAAATTTCACAGCATTTGATAAAAGATTTAATAACACTTGTTTTAATCTTTTTGGATCAGCATTTATAACAACATGCTCTTTCGGTAATCTACTAATTAACTCTACTTCTGCTTGATATGCACGAGGTTTAATCAGTATGAGAGAAGAACTAATTAATTTATTTAAATCAAGATCTATATTATCTACTTTTAATTTATCAGCAGAAGCTTTAGAAAGATCTAAAATATCATTAATCATACTAAGCAAATGTTTACCAGCATCATGTATATCTTTAATATAATTTTTACATTTTTCTGTATCTCGTTCAGACATCAAAATCTCTGAAAAACCTATTATAGCATTAAGTGGCGTACGTAATTCATGACTAATATTAGCAAAAAACTTTGTATTGGATGAGCTAGTTTTTTCTACTTTTTCTATTTGAGCTTTTAAATTGCGATTTGTTTCAAGCTGTTCCTCGATAATTTGCCTAGCATAGTTAGTATTACTAATAATTATAGTGCAAAATATTATAAAAATAATAATAAATGTTATAAAAACCTTTTGCTCAAGAGATGTTATATTTTTCCACTGACTTGTAATATTAGTGTTAATCTCAAATACTGCATCTACAGGAAAATCTAAATTATGATCTATAACAGGGATATAACTAGTAACAAAAGAAGCGTGTTCTATTGTTAAATCACTTTCATTTTCTATTACTACCTTTGGTAGTAATATATGACTTGTAATACCCTTAAAAGCATCGCGAAGTGGCGCTGCTGAAGTAAAAGATTTTAAAAAAATTTTATCGATTTTTGTTATGACTATCTCAATTAAACTATCATCTTTATAATTGTCGACACTATACATATGTAACATATTACTAGTGATAAATTTATTACCTTTAAGATCGTAAAGAGAGATATTAATATTAAGATTGGTAAACCATTGAGCGGTAATCTTGACAAAATTAATAAAATCTTGATCTTGTAATAATTTTAAATAATCGAATTTATGTAATTTACTGATTACGTTTTTATGAATATTCCAAATATTATCAGTGTACAGTTCTACAATTTTAGTATGTTCCAAAGCTACTTGTTTTATTATCATTTCTTTTATCATAAAATAACGATAAAACAGCATATTTATAACAATATTAAGAAATAATATAATGAATGATAATCTTACTATATACTTATTATGGTTCATTACGAGCCCTAGTATTCATTTTTAGCTTAACTGATATCATAACTGCGCATTGATTGTGTACGTATTAAATTGTGATTTCCGAATAAAAGAATTGTTGTAATTATAAAGTATAATTCAAGAAATTACATATATCAGTTTTCCCATAACTTATAACTACAATCTATAATGTATCAAAGCCGAGAATTTATTATCTCGACTTATCTCATTATTTAGCTTTCCCTTGGGTCTCAAGATTCGTATTAATAATCAACCCTGTAATTACATCATAAGCACGAGCAAATTGATAATCTTTCTTATATAATTCCGATAATTCACTCTCTTCTTGCTTATTATTCTTGGTTTTTGTTTCTTTGTTACTATCTTTATTTTTTGCATTATCATTCTTTAAGTAATTTTTTAAAGAACTTTCTGAAAAACGCTTATCTAATTTTTTTACTTCTGGATACTCAACTTTTGCAGGCTCAATTAAAATATCAGGCTCTATCCCTTCTGCTTGAATAGAACGACCACTTGGGGTATAATATTTAGATATAGTTAGTTTTACAGCAGCCCTAGAATTAATTTGTGTTAAAGCCTGAACTGATCCTTTACCAAAAGATTTAGTACCAAGTATTATTGCTCTTTTATGATCTTGCAAAGCTCCAGCAACTATTTCTGAAGCAGATGCAGAATTACCGTTTATTAAAACAATCATAGGTACTTTTGGGGCTTTTAACGAAAACTCATTCGCTTTAGTTTCGCTATTACTTGATGTAGTTCTACCTTTTGTTGTAACAATGACACCAGAATCAATAAAATAATCACTAACAGCAATAGCTTGATCAAGTATACCACCAGCATTATTACGTAAATCGAGAATTATACCTTTAAGATTATCTTTACTTTCAGTTTTTAACTTCTTTACTGCTGCCTTCAATTCAGAAATTGTTGACTCATTAAAAGTAGTGATACGTATATAGGCGATATTATTTTTTTCTAGATGTGCTTTTATTGGTTTGATTTTTACTATTTCACGAGTCAGTTCCAGCTCTTGTGGTTTTGCCTCTTCTTCCTTGATTATTAGCAATCTAACCTTAGTACCAGGTGTACCACGCATTTCTTTTATAGCTTTATTAGGACCAAGCGTAGAGACTAATTCGTCATTGACTCCTACTATATAATCACCACCTTTAAGCCCTGCTTTAAAAGCTGGCAAATCGTCAATAGACGATATTATCTTAATTGCACCACTATCATACATTATTTCAACACCGATCCCGCCAAATTCACCTTTTGTAAAAGTAAAAATATCTTCTAAATCTTCATCGGTGTAATAGTTTGAATGAGGATCAAGGGAGTTTAACATACCGTTAATTGCTTCATCTATCATTTTTTGCCTATCAGGTACCTGTACGTAATCCTTTTCAATACGTTCAAATACATCTTGAAATTGCTTATAAGCCTCTTGATTTGATATTTTATTTTCAGTTTCTTTTCCTTCTATTGCACAATTTATACTTAAAAATAGTGCTATAATAAAACGTAATAACATAATACTCCAAATATATGTGTTGTATCACATCCTAGCTACTCCACAGAATCTTATAGTACAGATTATACCATGAAACAAAGTGGTCAAGCAACGGTGTAACATTTTTCTTTAAATATCCAACTTGTTAATAATTTGATCCATTTTAACTAAAGCCTGTTCATAAATAAATTGGAATCATTTTTCTGGCTTTTTACCCATCAAATCATCTACTATTTTATCAACATTTTGGACATCTTCTAAAGTAACCTTTAAAAGTGATCTTTTTTCCGGATGCATAGTAGTTTCCTTTAATTGCGCCGGCATCATTTCACCTAGACCTTTAAATCTACCTACTTCAATTTTAGCTTTACTAGCTTTCGATAATTTATATGTTAACTTAATTTTTTCTTCTTCATCACATGCATAATAAATTTTATTAGATTGCGTTAAACGATAAAGAGGAGGCTTAGCTAAATATAAATGCCCCTCTTCTACTAATTTAGGCATTCGTTAAAAAAAGAAAGTCATTAATAACGAAGCTATATGAGCGCCATCAACATCTGCATCAGTCATAATAATTATTTTTTCATAACGCAAATTTTCTTTTTTATAATTCTTTAAACTACCACAGGCAAGAGCTATTTCTAAATCTTGTATTGCTTGATTATTAATGATTTTTTCAAGCGTAGAACTCGCGACATTGAGAACTTTACCCCATAGAGGTAATACTGCTTGCGTTTCTCTATTACGTGCTTGTTTTGCAGAACCTCCTGCTGAATCACCTTCTACAATAAATAATTCAGTCCCTTCAGCTGAAGTGCGTGTACAATCAGCAAGCTTACCTGGTAAACGTAATTTTTGAGTGACACTTTTACGTGAAATATTTCTTTCGTTTTTCTTATTTCTTCTAAACTCAGCAATAGCAATTACATGCTCGAGTAAATGAGTTGCTAAAACTTTATCACTACTAAGGAAGTGGTCGAAATGATCTTTTATTATATTCTCAACCAGTTTACTTACACCGTTTGACACTAATTTTTCCTTAGTTTGCCCTTGAAAAGATGGCTCAACTATAAAAATAGATAGGACAATACTTGCTGTTTCCAAAATATCCTCAATAGTGAGATTAGCAGCTTTTTTATTCCCTATCATTTCACTGTATGCTTTAAGCCCACGTAAAATAGCTGACTTAAGTCCTTGCTCATGCGTTCCTCCTTGAGGAGTCGGTACAGTATTACAATATGATTGCATAAATGCCGATGTATCATTATTTTGCCAACAAATAGCCCATTCAAGTTTTATATCATCCACCGTAGACTCTATATTACCTGAAAAAATTTCCGGAATAACTAAATTATCTAAAGATATTTTAGAACTTAAATAATCTTTTAAACCATTCGGAAAATTTATTAATGCTTTTTTAGGTATATCTGATGGTACTTCTACTTCACATTCCCATTCTATAGAAACACCACGATATAAATAAGCTTTTGATCTTGCAATCTCATAAATCTTTTTTGGATTAAAATGTAATTTTTCACTAAAAATTTCTGGATCGGGAGTGAAATTTATTGATGTACCTCTTAGCCTTTTAGATGCTTCTGCAGATATTAAATCAGTTAATTTTGCTCCTTTAGAATAACTTTGGCTATATAATTTACCTTGTTTATAAACCTTTATTTTGAAATGTTTAGATAAAGCATTTACTACCGATATTCCGACACCGTGTAGTCCTCCTGAAGTATGATAAACATTATTTGAAAATTTACTTCCTGAATGCAGAGTAGTTAAAATTACTTCTAAAGCAGATTTATCAGGAAATTTAGGATGATTATCAATAGGGATACCGCGACCATTATCAAATATAGTAATACTATGATCTTGATGCATTTTTATCATGATAATACTTGCAAAGCCGGCTACTGCTTCATCCATAGCATTATCCAGGACCTCAGATACTAAATGATGCATAGCATTTGAATCAGTGCCTCCAATATACATCCCTGGTCTTTTACGCACAGGCTCGAGACCATCTAATACTTCAATATCTTTTGCACTATAATTAGTATAGACTATCTTATTTTTCTTTTCTTTATTCAAGCTGAATAAATCACTCATATATTTAGAGTTAATTAATTATTTTCGCTCCTAAACTAAACTATTTAACGTAGAAAAGCAATTAAGCTTTAAAGCAATTGTTAGTATTATTGTATTATATAAACACGCATCCTGACAACGTGATCAAAAATAATTTGGAAAGACTTGTTGCTACGATCAAGTTAACTAGGATGGAAATTACTTAAATAATACTGTTAATTATATCCCTTAGCTTTCATTAACATGCAAACTATGTTAGTATTTCCTTTAGCAAGTGCAATATCTAATGGATATTTGCATTCATCATTTTTTAAAACAGAAGTTTTAATACCCCGTATCACCAAAAATTTGGCTAAATAATAATTACCGTTATAAATAGAAGAAGTTAATAATGTCTCACCAGTACTATTCTTTGCTTGTAATATCGGATAAACATCAAGTAATGCACGTAACTCAAAAAGGTTGTTTTTTTCAACTGCTCTAAATGCATTATCTACTGCGCTATAATAAGATAAATTAGCATAAATATCTTTATTTTTATTGATATCATCATCATATTTAATAAAACTCTCTACAAGTTTTCTTTTTTCTGCATTTGCAATCCATTCTTCATTTTTTTGAAACAACTTGATATATCCATGCATATCCATTTGCTCTAAAGTCGCGTCTTCTGTCAATTTACCAAGCACTATATCATCATCAGGTAAAAATAACATTTGCGTTTCATTTTTAACGAATTCTTTTGTTGATTCTGAGGTTGCATTATTCACCTTATCATTTTGTTTTTGAATCGTAACATTTGAAGAACTTACCGAATGCGATTCCGCTTGATTATTTATTATTTGATCATTATTATTTTTTTGCTCTAAAGCTAAAGGCTTAGATTGAGATTTATTTGGATCAACTACAAGAACGGGCATAATCGGAGTATACCAATCTTGTTTTTTTGTGCTCTCTGACTCAGAAACAAATATTTCTTGCGAATTATTTATGGGCACAGAAGACTCTGTTGCCCTCAATACTGTAGATGAAGTCTCAACAGGTGTATTTATACTAATCGGCGTTATAGGCTGTGCAGAATGTTGATTTGAATGCATCACTGTAGATGTTTGTACACTAACATGCGTTTCTGCAGTAGGAACTGTTATATTTAGAGTAGTTTGTATAGTATCTTGTATTGACGGCACGCTGACCATATTTGTAGGAATAGTAGTCATATTAGAAATAGTCGATTCTAAAATTTTTTCTACTTTATTAAGATCAGTATGGTGATTAAGTGGAATAGGATTACGAATAGACGTCAAATTAGTAGGTTTATATATTTGAACTGATTGCTGCGAAGGTACTACATAATTCACGTCTTGAGCGGTAGGAATAGATATTACAGGGCTCGGTACATTAGGAGTTATAATATTAGAAGTTAAATTTGTCTCTTTATCATTAGAGGAAACTGCTTCCTTATACATTTCATGATTTGTTGCACTAGTAAACTTGGTATTACCAATATCTATAGGTTCAGATGCTTCTGATGGATCAAATTCTTGTTGTTTAACTTGTATATCTTGTGTGTTATAACTGGCAGCTAAATTTGTACTATTTTCATACTCAGCCTTGCTATCAATATAATTACTTGCAACACTAGGCAATATTGTACTCCCAAAATCTATAAATGGCTCGGATTGTTCATTTTCATTAAGCTCTCTGGAATCTATCTGTTGTGATTCTTGATGTATTGCTTTAGTTTGTTCCTGTTCGTGTTGAGATGATATATTTTTCATTTTTTGTTTACTAAAAAATTGTTTAAATTTCTCAAAAAAAGAAATATTGGAATTAGTACTAATATTCTTATCTGTAGTATCTACAGCAATAATCGGTAATGATGGCGGTAATGGCGGAGGCGAAGCATAACCTTGCACTGTAACCAATAATAGATTGATCAAAAATAATATATCACATAATTTATTTAACATATCATGCCTAAATTGGTTATTTATTTCATGAAATTGTTATACAATCTAATGCTGCGCGCAATCATTGTTTAAGATATATGCCTGCAATAACGTTAGTAATTACTATCATTTCTTTTACTATACTGCACCAATTTCTTTATTTCAATTTCTACTAACTCTTTAACAAGTATAGGTAGATTTTTATCAAGCCACGCTTTAAGTTCAGGTTTTAACATTCCAATTACTAATTCTTCAAGTGCATTTTTAGATGAAAAATTATTATTTAGCTTTTTATCTTTAATAGTATCAGTAAAATTTCTAAAAACTTCCTCTACCTCTGAAGCAGATTTAGTAGATATTAAATTTTCTTCTTCATTTTGATTTACTATATCCGTTAACTCTAATATATCTTCATCTGCACTATAATTATCATAAATAGGATTTTTACGTTCATTAATTATTCCTTTAATCGATTTTAATATTTCTTCTATAGACATGTCTTGGTTCTTTTTATTTTCTTTATTCACGTTAGAAACCTATAAACATTTTCTTTTTAAGATTGTTAAACTCTTCTTCAGGACTAAAATATTTTACTTTAAGTTTTAAACTTTTAGCAGTTAGCTCACCAGTTAACAATTTCATTTGATATGAAGCAAGTACTGAATTCTTATAAGCATCAACACGCGTTATTTTTGCTTCATACAATTTTTGTTCAGCATCTAAAACATCAAGTATAGTTTTAGAACCAACTATTTCCTCTTGCACAATACCGTTATATGATATTTGTGCAGCTTCTACTCCTTGATTAGCTGCAACAATACGAGATTTTGCTGTTTCAAATCCTTCCCACACACTAACAACACCTGCTTTTATCTGCTTTATGGCACTATCAAGCTGGACTACACTATTCCTTGTTTGATTTTTAGCTGATCTTATTCTTGAATATTGCGCTCCTCCTTCAGGATAAATAGGGATATTTACCGAAAGAGTAGTAGTATAGATCCTATTGTTTATATTTTGAATAACTGGCTCTTGTGGATTATAATTAGTCCCCCCTGATAGCAACTTTACACTTACTTGCGGCAATAATTTCCCTTTTTGCACCATTTCTAAAGCTTTAGTAACAGTTACGTTATGCCTTGCTGAATTAATATCAGGATTGAACTTCGCAGCTTTTCTTGTGAACTCATCTAACGAAATAGGTAACCTATCAGGTAAATCAGGCATAGTTATATCATTTGCCTCTATTCCAAACACTTTAATAAAATTTGCTTTTTTCCCTTGAAAATCTGCATAAGCAGCTAGTTTATTTGTTTCTGCTGCTGCAAGTCCTGCTCTTGCAGCAGCTATATCTATTGCTGTTGCTTCACCTAGTCTTAATTTCTCTTCAACAGTCTTAACTTGCTGTATATTAGTACGTACCCTACTTTCAGAGATATCATATTTCTCCTTACTCTCAACACAATCAAGATAAGCAGTTATTAAATTTAATAATACTTTTTGCTCACCAGCATAGTATTCGGATCGTGACGCTCTAAATCCTGATTGAGCAGCTTTAAGAGCAGCAATACTAGCACCGCCATTAAATAATGATTGTTCAATTGTTAATATCCCTTGAGTGCTAGCTGTCTCACGTGGAGTAATACCAAGCCTATTAACATATTTTTTATTATATTTAGTCTTACTATTTTGTCTATTAATCTGTAAACCTACATTAGGCATAAACCCTGAGAAAGCTTGAGGAAACTGTTCAATTGCATTCAAAAACTTAATTTGAGCAGCTTTCAGTTCCTCATTATTCTTATATCCTTCAGTTAAAGCTTGCTCCAAATCAAGAGCGATAACGGAACCAGTAAACAATAATGTAGTAATAAATATAGTGATAGTGAATTTACTCATAAATTTTTTGAATAATTGATACGATGTTAGTGCGATTAATTTAATCTTTCAATAAGATACATAATATCACAATAAAATATTGTACATTATTGTAGCAATGTTAGCACGTAATATAACAAAAATTAATCTCAAGGGCAATGATAACTATATTTTATAGTTATAAATCTTTAAGCTTAATTTATCTAATAATAAGAAATAAATTTTATGTATATAATGAATTTTTCTAGTTTCCACGGATTAAATACAGAACAACAGACAACACTAAAAAGACTCCTAATAAAATTAGGAAGTTTTACAAAATCTTTGAAAATAAATGTAACAGATTTAGAAAATCATTTATTTTATATTGTACAAAATTCTTTAGATGAATTATTGCATACTGAAAATATCGATACAGAGAAAATAACAACATTTTTTAATATAACACTCCAAGAATCTCTAAATATTTTATCTAGAGAACTAGATAGAACATATCAAGAACAATTGGTAAAAAAAGATATCTTTTTATTTGATGGGGTTATTATAGAAAAATGTTTAAACGTTTTAGAACAAGTTCTAAAGTTTCAAAAAGAATTAGATACACTCTATCCTAGAGCTTCTCATAAAATTATCAAATCATTAGAAAATATCATAGTCATGGTTATAGCAAGTCAAATACCGATTCTTGGAATATTTATACAAATAAGCGAAACACTAAAAAAAGTCAATAATCTTATCGACTATAAAAAATTATTGCCTAAAATAACAAGATTTCATAATGAAATAACAGAAATAATTAGAGATGTTACCTCGAATAAGCAACTTAAAAATATCTTTAAAAAAGCCACAAAAGTTGCTACAATTTTAGAAATATCAAAGGAATCAGCTCGCAAAGTTATTGAAATAGCGAATAAAAACCCTAATAATAGCGCGTCATTCGAAAATGTTGTAAAAGCTGCTAAAACTATACCAAAAAGTAAAGATGAAGTAGAAGAGAAAATAGCAGAATTAAAAAGTAATATTGAAAGTACAATTCCAAAAAATATAAACATTGACAAATTAAACTCTATAAATAATACTATTTCGTATCATATAAATGAAACTAAAACAGAATTATTAAAAGTATTAAATCCAGAGGCTTCTTTTGCTGAAAAAATAGAATCCTTATGTAAAGCAGCAGCAAAAGCTATGACAATTGTAGGTCACATAAAAGAAATATTAGGTGTAGTACCAGGAAGTAAACAACTCGGAACAGTTATAAGTCTAGCAATCAAAAGTAACTTATTACCGCCTCCAGTCTTTACAATTACAAAACTAGCTCCTGATATCACTAAGTTAGTTAATATAGGTAAAGCAGTGGTTATAATGCTATCTAAAATACACAACCTAACTCAACAACACGGAAGAGCAAATAGTGTCTAATACTAATATTTTAATTGCAATAGGTTGCTTAGCATTATTATTAATATTTTTAATGTTAATGTATAAAAAAATAGTAGGACATTAAAAAAATATGTTACCTGCTACATTGAATAATATTGATGATTCACAAAATGTTGCTCTTAATAGAAAAAAATCAGAAAATAAAAAGTTGACATTACAGGAAAAGATAGAATTATCTTGGCAATTCCTTTATGATCTTACAGAAATTATTTTAAATAAATTCTCGAAAGAAGACGTTGTGCAAGTGAATAAATGTGGTCAAATTTTATTTGAAAATGGCGTGAGATATGAACATGTAGTTGATCTTATAACCCCTCATCAAGTGAGATCTCATACTCAATTAGTTGAACAAGAACAATCTAAAGGCAAAAAAGCTTTAAGGATGTAACTCTTTTCTTTTAAAAAAGTATTTATATTAAAGCAAGTTTAAAATAAATACTTATAATCTACCGATTAAGGTTTAGAGAATTATTCAAGGCATTATTCTTAGCTAGATAAGAAATTCTTTAATGTCTCTTTCATATTGTTTTACTATATCATTTAATAAAAAATCATTCTTATTAAAGGATTGTTGCAAGATTTAACATTTACTTTGTAGCTTTATCGGCTCCTTTATATCAAATGATACTGTATGCGTACTTCATATTTTTATGCAGTGACATATAAAGATGATAGAATGATCAATACTAATACCTCGTAGGAACAATTAAGTATTGATCTGTATATACTGCATTGCGCAGGTTATGGTATTCTAGTAAAACCGGTATAACACGTACTCTTATCTATCTTGTGCAAAGGTTGGCAATTTAAAACAAGATTTCATTTGTTTTTATGCATTTCTAATACGAAGACTTCTAATAGAAAATCTATTGTCAATATCAAACATGATATAATAAATTTATTATGGTACTTCTTTTATAACTATCAATACTTGAAGTTACTTTAACTAAAACAAAGACTAGAACTTTTTAAAGTGTAACACAAGCAATTACTATCCATTGTCTATGCATTCCACTTATCACATACAATGTGTGTTATATTTTTGACAAATTCATGAATACTTGTATCTGCATTTTCTATTCAATTTGCTAAAGCATTTTCTTTTGCAAAATACATATTCTCATATACTGAGCGATAAAAAACATAATATCTGAAGAATTAATTATTATACTCTCTCTAAGAGTGAGTATAATCAGTGTTTCCGATGATAATATACACTATTCCAATTTTAAAACAAAAAGGTAATTATAAGAAATAATATAGCAATATTTACCTTGAGAAATTTTTAATTTCGCTATAATCTCTTATCGATATTATTACATGCATAATTGCAAAGCACGAGAAACATCTTCTAAAAATATTGAAACTGCATTGTGGCATATCAGGAGTTGTCTAGAAGACATCAAAAACTCTCACAAATGCTAATTCATATACATGTAAAACATACAACTTAGATATACTCCAAAAAATATACTAAAGTAATATTTATTGTAATATATGTTAAAGGATTAACCACATTGAGATAATAATGATCTATTGTATTTATCGTTTGTTTTAGTAATAGTAAAGATTATTTACTATCAGCAACTATATCAAATAAATTAATCCTGCTCAATTTTAGCAAACTTATTAAAAAGATATAAAAGCAACAAACCATAGTTGCAATACTAGTAGGTATAAATTAACAACGGTTTAGTTATTGACGCTCAACACACATGGGGGCTAATAATTATCACCTATATTATCGACAATTCGTACTATAGATCTGGAAAATTATTTTTTGAAAAATTATAGGTAAATTAAAACAGTGATTACATATTTTTAGAGATATATAAAATTATGAATATGCAAGCATAAATCAAGTATATGCTTATGCTATTATATTACACACTATAATTATAGGTTTATCACTTTGAACGAATATAATCTGTTCATTTTCAAGTAAATGAATCAAACAAAAGCTTTACAGAATAATTATATATAGGATTAGTTTGATTTAAAGTTTAGTAAAAAATTATTATATTAATTGCTACTATGGCACTTAACGTAATGATACAGTTCAAAAAATACTAAAATTATTAGATATCTCACATATGCTATATGACACAGTGTATTTTAGCGATCTACGGACAATACCATGATAGTATGAGAACAAAACATTGAAATATATCAAATAATTATTTTTAGTAATGAAAATTGTATATACATTATAAATAATTACTATTCTCTTTTTTAATCATAGCTATTAACTGTTCTATCGATAATATTTCTTGTTCAATAGTACCAAGTTTTCTTATAGTTACTTGTTTATTTGCTTGTTCTTGCTTACCTATTACAGCAATAATCGGTATTTTTTGATTAGAAAACTCTCTGATCTTATAGTTAATTTTATCAGGAGAAATATTAATATCCGTTCTTACACCGTTATCAATTAAGGTTTTTTGTACTTCTAAAGCGTAGTCGTTTAAATCGTTAGTAATAGTTGCAATGGCAACTTGTACTGGTGCAAGCCAAATAGGGAACTTACCTGCATATTCTTCGATTAAGATACCAATAAAACGCTCAAGTGATCCAAGAATTGCCCTATGTAACATTACAGGTCTTTTTTTCTCACCACTTGCCGCAATATAATTAGCATCTAACCGCTCTGGTAATACAAAATCCATCTGCAGTGTACCACATTGCCATTGCCGCCCTATCGCATCTGTTAATACAAACTCAATCTTTGGACCGTAAAATGCAGCCTCACCTGGGTTTAGTGTATAAATAAACCCGGCTTTTTCTATCGCTGTTTTCAAAGCATTCTCAGCCTTATCCCACACTTCATCGTTACCTGCACAAATTTCAGAACGATCAGAAAATTTTACCTTAATATCAGTAAAACCAAAATCCTTATACACCTCTGTAAGTAACTTACAGAAACGTACTGTTTCATCTGTAATTTGCTCCTCAGCACAAAATATATGCGCATCATCTTGTACTAAACTACGTACCCTCATTAAACCGTGCAATGCACCAGACGCTTCATTACGATGACATAACCCAAACTCTGACATACGTAAAGGTAAATCACGATAACTCTTGATACCTTGCTTAAAAATCTGCACATGACAAGGACAATTCATAGGCTTTAAAGCTAATGTCTTATCATCTGTTTCTAATGTAAACATATCACAGCGAAACTTTGCCCAATGTCCTGAAGCTTCCCAGAGGCTTTTGTCAACTAAAACAGGAGTTTTAACTTCAATATATCCGTTTTTACGAAATTTTTTTCTTATATACTGCTCAATAGTATTATATATACTCCAACCTTTATCATGCCAAAATACCATACCTTGTGCTTCCTCTTGGAAATGGAATAAATCAAGTTCCTTCCCTATTTTCCTATGATCACGCTTTTCTGCTTCTTCAAGCATAAAAAGGTAATTATCAAGCTGCTCTTTAGTAGCCCACGCTGTACCATATATACGCTGTAACATTTCATTACGACTATTGCCTCGCCAATAAGCTCCTGCAACTTTCATCAGTTTAAAATGCTTCACAAAGCCTGTAGAAGGAGAATGAGGACCTCGACACAAATCAATAAAATTACCTTGCCTGTATAAAGTAATTGGTTCACCTTCAGGGATTGAAGCAATAATTTTGGCTTTGTAATGCTCTCCTATCGATTAAAAAAATTCTACTGCTTTATCCCTATCCCATAACTCTCTTGTTATTTTTTCATTCTTTTTTGAAAGTTCTTGCATTTTAGCTTCTATATTAGCTAAATCATCTATCGAAAAAGGTTTATCACGAGCGAAATCATAATAATAACCATTTTCAATTGCAGGACCAATCGTTACCTGAGTTTCAGGAAAAAGTTCTTTTACTGCTTCTGCTGTTAAATGTGCTGCATCGTGCCTTATTATCTCAAGACATTCATAATCTTGTGCAGTTAAAATACGAAGCTTACAATCATTCTCAATTACAGTACTTAAATCTTTAAGTTCACCGTTTATTTCAACAACTATTGCTGCCTTAGCAAGTGACATTGAAATTGCATTTACTATTTCAAAAGCGGTAATGTTTTGTGCAAATTGTTTTACACTACCGTCAGGGAAAGATATATTGATCATTTTTATTCTAATTTATCTATTTTTCTATTTTATATATTAACGATATAATTCTTGAAAATGCTCTATCTACCGCAACATAACAACGTCACATAGAACACAACTAAAAACACTAACATTTGTAATACTTTTAACTATTACCGACAAGTTATTTTCTTTATTAGTATATTTGAGTTATGGCATTCATAAATTTTAATACTCTTGTATCACTAAAATCTTCTACATAACTTTATCATTAAAGGTTAGTACACTATCTTTATATTTTACATCAACTACTAAAGAATTACCATCTTTTAATTCAGAATTTAAAAGCTGCTATTGCTTGAAAAGCATATTTTTTGTAGATACAAGATTCTTTTTTTAGATTTATTATTAAGTACAGATATTATCAATATAATTAACAAAATTTTTCTGTACTCAGATCTGATAATTTTATTACACTTTCTAAATTAGATATCACAATATCAACTGAAAATTGAAATCATCTATTACAAGATTAGTATTACTAAATAATTTCTTTGCTTCAAGAGCAAACATAAATTTGAAATGAAATTCAAAATTATTTTTTTTGCAAAAACACTTATTACTTTTTCTTCCTCTTCTATAAGTAATAGTACTAGTTAGTCTAAAAAATTTCTAAAATTTGAACTAGCATTTTTTGGAATGTTTTAGAAGGTTCTATAGTAGATTTAATATTTATCTTTTAATTTATATAAATAATGCTCTACTTTTCCTTGCAATATCACAAGAAAATAAAAACGGCTTACCTTTTTCTCATTTTCTTAACATCTGTATAAAAAATAACAGCATTTATATGCTCATCTTATTTCCGAGCTAGAGCAAAGTTTTGCATTAATAATTTCCCAATATATACTAACTCATTACTATATTTTAGTTTTCTGTCAGAAATAGGTCAATCAGTATACCTCAGTCTGTCAAATTATAATCAAAAACAACAGTATCAGTATCATATCAATTTCTTCTACAACTTTCAGAAATAAAAGAATAATATTTTTGCATTCAAAATTAACAAATTAATCTTATCAGATGTTGTAGTATTACATTACTAATATATAATTAGTGCTGATTTTTCTGCATCTAAAGAACTATAAAGAGTAGATTTATTCAAGCTTAATTGCTAAAAATCATGTTCTCTACTAAAGAAAGATTTTCTAAACCAGATTGTTGATCATCAAGTGAGTAAAAAATTATTTCATCTGACTCAGTATTAATTATTGCTATAAGACTCAATTTTTGTAATATTTAAAATGGAATATTAACTATTTCATCAAAATAAAAATCTATAGATTTTAATATTAATTTATTTATAATTATTAACTTTTATAAAGTTATATATTCCATGTACCCATCAAGAATAAAGAGAATATTCTCTTTACTTTATATTTTTAAATTGATAAGTATAATTATCACAAAGACTACTATAAAATCAAAGCTATAAAGATTATTATTCGTATTTCTAGCACATTGCTTAACTAAATGACCCAGTTCTTATGGGAATTTTTGTCTAGATGCCACGGCCAAAACATCCTGTAATGACGCCACATACGTTTTTTAAGTACACGATAGCATATATCACTTTAAAATATCATTATTTTTCTTTTAAACGATTAGCTATTAACTGATATGATTCAAAAGCTTTATTAGGCTCATTTTGAATCAATTCAAACCCTAATTTTTCATTACTGTTAATATGCCATAATCTACAATTATCAGGACTAATTTCATCAGTTAACATAATGATAGATTCTTCACCATTAAAGACACGCCCAAATTCTAATTTACACTCAACGAGACGAATTCCAATACCAATAAATAAGCCGCTTAAAAAATCATATATACGTAAAGTCTGAGCTTTTACTATTCTAATTTCATCCATAGTTAACCATCCAAAATTGGATATTTGATACTCATTAACTATTGGGTAGTTAAATTCACGGCTTCGGACCTTAAAATCAATAATAGGTTTATCAAATACATATCCTTCATCCATTCCGAACTCTTTTACAAATCTACCACATGCTACCGATGATATGATTACTTGTATTGGAAAAACCTCAACATATTGAATTAATTGCTCTCGCATATTTATTTTTTCGATCAGATGATTTTCAATTCCAATCATTTCAAGTTTATCCATTAGAAAAGAAGAAATATTATTATTAAGTACTCCTTTACCTGATATATCAACAGTTTCCCCGGTTTCTAATACAGCTTTATCGGAAAAAGCCATAATAAGTAGAAAATCTTCTTCGGCAGAATATAAAATTTTACTTGAACCTTCATATAAATTTTTTTTCATTTATTTGTCTCAAAATTCATTTAAGTATCCTATGTCATTTTAGTGCACTTGACCACTATATCTTAAGATACAGTCTGCAAAACAATATCCTATGATTAAGCGATGTGATAAAAACAAAAAACTAGAAATGACATTAAAATCCATTAAGATCATTCGGACCGATAATTGCCAACGTAGTAGTCCCACTAAATATTTTATTTGCCGTATTAATAATGTCATCAGCTCTTATATTCGTAATAATTTCTATAATCTCTTCAGGAAGAATATATTTACCGAAAACAGAATAATTTTTACCTATTTCTTCTGACTTATAGGTATTTTGCTCTTGAGCCATTTGTAAATTACTACGAAGTTGCATTTTAGCTCTAATAATCTCTTCTGTACTTACTGTTTCAGTTATTTTTATTATTTCGTTTTTAATCTCTCTATATAATAATTCTAATTTATTATGTGCAGTAGATGCATAAATTGTAAACACGCCACTATCAAAATAAGCACTATTATAACTACCTACTACATACGCTAAACCTAATTTCTCACGAATACTTTGGAATAAACGTGATGACATACCACCACCAAATATTATAGAAAGTAGATAGGTTTGATAAAGCTGTCCTAAATTAATATATGAGGTGCATTCAAACCCTAGCACTAAACTAGTTTGCTCTAACTCCTTATGAATAAACCCCTTTCCACCGATGTATTTTGCCGGAATAAAGCTACTTTTTACTCCTTGCTTCAAAGAAGCAAATAATTCTTCTGCTATCATTACTATTTTATTATGTTCAATATTACCGGCAATCGATAAATAAAGATTTTCAGCATTATAATGTTTACCGATAAAATTAAGAAAATGTTCTTTCGTGAACGTAACAAGAGTTTTAGTTGTACCTAAAATTGACTTACCTAACGGTTGACCTTTATAAACTGTATTATAAAATGTTTCATATATTAGGTCATCAGGATTATCATGATGATGTGCGATTTCCTGCATAATTATCTGGTATTCCTTAGCTATTTCTTCATCAGCAAAAATAGAATTTTGAATTATATCGGCAAGTATATTAAGTGCTTTATGACAATTTTCAGACAAGACTCGTGCATAATATACCGTATTCTCATGACCGGTATATGCATTAAAATATCCACCTATAGAATCAAACTCTTCTGCTATCTGTTGTGCTGTCCTAGTTTTTGTGCCTTTAAAAGCCATATGCTCAAGAAAGTGAGATATGCCTTCCTCTTCTTCATTCTCATAACGTGCCCCAACTTTAGCAATTAAATTTATTGCAACAGAATGAACATAAGGCATATTATATGTTAAAATTGTCAAACCGTTTTTTAATTTACTAACATTAAAATTTTCTTTCATAATTTATTTTTATTTTCTAAATAATCATTTTACAGAAAAATGAAATGCGTAGATCAGTTTCTCAACATTGCGAGAACAATTATCTAGTAATGCGACGAAGCAACTTAGTAAAAAATTCTGTAAATAAGAATTTTCCAATTATTTTTTTGGATAGCGATTTCTCTTCTTTTGTTGCAATAACGACTTAAAATCCATGCAATAATTAATATAATTATCACTCGTAATAACATTTTGTGATTTAAGTGATAAATCTCTTAACTTAGCAAGCCTTAAAAATCTTGCAAAAGCAAAAATTATTGAATCTACAAAACCATCAAAACCAAATACAAAATAGCGTCTAATAAAAAAAGCTTTTAAAAAGCACCATATCATTTCAGTTGCTAAACGAAAATTTGAAAGCTTTTTGCCTTGTTTAACTAAATCTTTTGCTTGCTCACTAGAATAAAAATTTGCTTTATTTACTAATTGCTCAATTGAAGTACCAGAATAATGATAGGCGATTCCATTTAATAGATAAATTTTGCCTGTAAAATCAACATCTTTATTAAATACAACGGAATCATGAGTAGTACTATTGATGGTATTTGCAAAACTGGCAAATTTTTTATTATACAACCTAGTACATTTATTCAATGGAGCAAACATGCGTGGTTTTTGATCACCACGATACATTATTAATAGCTTGATTTGATAAGCTAAATAACGATCTTGATTATGAGAAGTAAAAATATACTCTATTTCATCTTGTAACTCTTGAGACAACTCTTCATCAGCATCAATATTTAGAACCCAATCATTTACACACATGCTTTCAGCAAAAGATTTCTGCCCTACATAACCAAGCCAAGGCTTTACTATCACCTGTGCGCCTAATGTTTTAGCTATATGCACCGTATCATCAGTACTTTCATTATCGACTACTATCACTTCATCAGTAATATTTTTTACACTATTTATAGCTCTTGCTATCCTTGCTGATTCATTTTTGGTAATAATAAATGTGGAGATTTTTTTCATATATTTTATATTGCAATTGCAAGGAAATTAAAAACTCTTGCGCTACGTAATCTCATGACATAATTCTGAAGTCGTCGTGCTGCTTTCTTTATTCGTTCACAAATTTTACTTCTTTAAAATATCATTCTCAACACTAATTTAACTATATAAGTTAAAAGTAATGTAGATAATAACCCACTCAGCCATAGAATAATAAACCATTGCCACACTTTTAGACAAGTAGTTATTTTTTTAAATTTTTTAGAAATTTTCACAGAACCTAATACAGAGGTTGAGAAGATGATTTACCACGGAATATATAATAACAATAGAATGTATATCCAAGTATTACAGGTAGAAAGATTAGAGCCCCTACCAATAGTAAAGACTGCGATTCAGGTACTGCTGCTGCATTTTCAAGCGTAACTTTATATGGAACGATATATGGCCATATACTTATTGCAAGCCCTAAATATCCTAATAAAAATAATAAGATTGTATAAATAAACGGTTTCACTTCTTTTTTCTGTTTAATAGCCTTTATTAACTTGATAAATATTAAAACAGTTATAATAGGTATAATCGATAAATAGTAAATATTAGGCATACTAAACCAACGATGATTTATATAATTATTTAAGAAAGGCGCAGATAAACTAACAAGCCCCATAAAAAGGGCAACATAAAATAAAATGTATAAAGCAGATTTATAAGCCCAATCTTGTGTTTTGTTTTCTGTTTTTAGAATAAGCCAAGTAGCACCCAAGAGTGCATAACCGAATATTAATGCTATCCCTGTCATAACAGAAAATGGCGTAAGAAAATCAAAACTTCCACCTGCAAATTGCCGCCCGTCTATCACTATTCCTTGAACAAATGTACCGAGCATTAAACCTTGACAAAAAACAGCAAGCATAGAACCGAAATGAAAAGAATAATCCCAAATACAACGATGACCTATATGAGCTTTAAAACGAAACTCAAAAGCTACACCACGAAATATTAAACCAAGTAACATTAATATAATAGGGATATATAAGGCAGACATTAATATTGAATAGGCTAAAGGGAAAGCGGCAAATAAACCGCCACCTCCAAGTACTAACCAAGTTTCGTTGCCATCCCAAAAAGGTGCTATAGAATTCATCATTTTATGACGACAATCATCTGTAGGCGCAAAAGGAAATAAGATTCCTACTCCCAGATCAAAACCATCTAGTAAAACATATAAACAAATAGCGGTAGCTATAAGTCCACCACAAACAAGTGGTAAATCTATATAAGATCCAAAATTTAACATAAACTGCCTACATTGTCATAATGCAATTTGCATCCAATACAATATATTTTGAGTAATATTTTATACTGCAAGCAAATTGCTGTATAATACAAATTACAAACGATTACTTAACCAATGTTCCACGTAAGTTTCGTTATTATCTATCGCTTCTATACCTTTCTTTATTAAATATATGATATAATATATACCAACTCCAAAAATAATCAAATACACCACTACAAAAGCAATTAGAGAAATAAACACATATTTACCGAGTAATGGTGACACCGTATCCACGGTTTTTAAAATATTATATACTATATAAGGTTGTCTTCCTACTTCAGTTACTAACCAACCAGCAAGTACTGCAATAAAACCTGAAGGTGACATTAATATATACCAATATTGAAACCAATATGTAGTATATAATCTCTTGTTTAAGTAAAGATATAAACCAGCAATACCTGTAAATACCATTAAGCAACCAATTCCTAGCATAATACGAAAGCTAAAAAATACTACTGCAACCGGCGGACGTTCTTCTTTTGTCCATTCTTTTAAGCCTTTCACTTCACCGTCTAAACTATGCGTTAAGATTAAACTACTCGCATAAGGTATTTCTATAGCATATTTTGTTTTTTCTTCTTCTTTGTCAGGCAAGCCTATAAGATTAAATGATGCTCCTTTTTCTGTATTCCAAATACCTTCTATAGCTGAGACTTTGACAGGCTGATATTTAAGAGTATTTAAACCATGTAGATCCCCGATAAATATTTGAATAGGTGAAACAATTAACGCCATTAACACAGCCATAAAAAGCATAATTTTAGCATGCTTTTTATAACGATTATTGAGTAAATAAAAGCTAGCTACACCACCAATAACAAAAGAAGTAGTTAAATAAGATGCAGTAATCATATGGAAAAAGCGATAAGGAAAAGATGGATTAAAGATAATTTCTAACCAGTTTAAAGGATAAAAGAATCCTTCGTCTCGCAATTCAAAACCAGCAGGTGTATGCATCCAGCTACTCGCTGCAAGGATCCAAAAAGCTGAGATTATAGTACCGATCGCAACAATTAACGTAGAAATAAAATGTACTTTTTTAGTGACTTTATTAAAACCGAATAACATGATGCCTAGAAAAGAAGATTCAAGGAAAAAGGCAGTAAATACTTCAAAACCTAAAAGCGGCCCCAGAACATTGCCAACCTTATCTGAAAAATTCGACCAATTAGTACCAAACTGGTAAGACATTACAACACCAGAAACTACTCCCATACCAAAAGTAACGGCAAAAATCTTTACCCAAAATTTGTATATTTCTTGATAAATTGGATTTTTTGTTTTTAACCACAACCCTTCAATTACCGCTAAAAAACTTGCAAGTCCTATAGTAAAAGTAGGAAATACTATATGGAAACTTATGGTAAAAGCGAATTGAATCCTCGATAATAATACTTGATCAAATTCCATATGATTCTATCATTCCTGATCCTGAAGAGGTAATATCCATAAAAATAACTGTAATATGATTTAATAATTATATGTCCGGAAAATATATAAAAAGCAAATTTTTTATATATTTTTGCTTCCTGACGCCACAGAAAAATTACATACAATAACATCAAGACAGTATTTGATTTAATTATCCACCTTTGTTATTATTAAATTCTATCTGATTAGTTTTAACAAATTTCCCTTTTTCGGAGTTCCAATTATAATGAACATTTACTATTCTTATTTCTGTAACATTAATATCACCATTGGACAATTGAGTTACATCATACCCTTTTCTAATAGAATCTGTAATTAATAAGCTTGCTTGACAAATATACTTTATATCAGAGAACGGCGAATTATCTTCCTTAAACGTGTTTTGTTCTTCTAAAAAATTATTAGATAATTCTTTTTCTTGCATTTCTTATGATTTTGAAGTTATTTTCTGAATTTTGTAGCATTATTTAATGTAAGAAGCAAGGCTTGTTTATTATTTTTCAATAGATTTAATATTTTGAGGTATATTTTTACTAAAAAAATTTTAATAAACTAACAATTAACACAAATTAATATTTAAGAATTGAGGTACCGTATCGTGATCAAATACCATGCTTTATCTAAATCTACATTTAGCTTAGGTATTTATTTTTTAAAATTTGATAAAATTAAGATTACTTTATTAACTGTAATTTGTATTTTATTTGGTATTATTCCAGCAATGGATAGTATATTACTTCAAAAAATCATTGATCTAATTGAATCTTTTAGTGATGAAAATGCTCATAACTTGCTGTCATCAATGATTTACTGGGCAATATTTTACGCTCTTTGGTGGGAGAGTATTAATATAGCATATCGTTCATATGATTATTTGTATCTCAAAACTATGCCAGTAATAAAAGGGAAAATACTAAATGAACTTTACAATTATACACAATATCATAGCCATAAATTCTTTCAGGATAATCTAGCAGGGCATATTAGCAATCGTATTACTGAAACTGCAAGGTCATTTGAGATGATTATTTCTATATTCGGCGAAAAACTTCTACGTAAACTTGCGATTATTGTATTTGCATTAATTGCTTTATATTCAGTACATTATGCTTTTGCTACGATATTTATTTTATGGATTACAGTTTTTTTAGGACTGAGTATTCTTTTCTCAGATAAAATGAATCAATACTCATTAAATTATGCTAGAAGTCAATCCTTTGTTGCCGGCAGTATTGTAGATGCAATTAGCAATATTAATGCTGTAAGAATGTTTACAGCACATAAATTTGAACGTCAACATTTAGAAACAAGAGTAGAAAATGCCATAGCTGATGAACAAACTATGCAATTCTTTATGTTTAAATTGCGTTACTCTCTTGGAATGTCGTGTTCAATAATGATTTTTATCATGATTTATTATTTATCGCGACTTCGTAGTGAATTATCTATAAGTATAGGTGATTGTGTGTTAGTGCTAACATTATGTATAAATGTAGCAGACGATATTTGGGATTTAACTCAGGAAATCGGTGATATGTTCGAGCAGATCGGAGCATTTAATCAAGGTTTGTCTTTAATGGCACCACATATTATAACGGATATTGAAAATGCTACTCCTTTAGATATTAAAGAAGGGATTATTGAATTTAGAAATGTCACGTTTAATTATTACCATAATAATAATCTATTTTATAAAAAATCGGTATTAATACCTAGTAAACAAAAAGTCGGACTAGTAGGCTTTTCAGGTTCAGGAAAAACTACTTTTATTAGTTTACTCACTAGATTGCACGATATAGAAGACGGAATGATTTTAATAGATAATCAAAATATTAGAAATGTAACTCAAGATTCTTTAAGAAAAGCAATTAGCCTCATACCTCAAGAACCGGTTCTTTTTCACCGTACCATTTTAGACAATATTAGATACGGGAAAAAAGAAGCTACTCTTGATGAAATTATAGCAGCAGCTAAAGCAGCACATATCCACGATGTTATCGATAATCTACCCGATGGTTACAATACTATGTGTGGAGAGCGTGGGAATAATTTATCTGGCGGTCAACGTCAAAGAATTATCATAGCAAGAGCCATCTTAAAAAATGCTCCTATTTTAATTCTTGATGAAGCAACAAGTAGTTTAGATAGTGAGACTGAAAGCATGATTCAAAATTCAATGGATTATTTAATGCAAAATAAAACCGTGATCGTCATTGCCCATAGATTATCTACTTTACTCAATATGGATAGAATTTTAGTTTTTGAAGCAGGCAGCATAATTGATGATGGTAGTCACACAGAATTATTAAAAAATAGCAAGCTATATAAAAAATTATGGGACTCACAAATAAAAGGATCGATAGTATAAGGCAATTATAACGTTACTTTACTATTTTCCCACTGTCATACCGTATCTTGTCGACATTAATGGTATGGTTTATGCCTGCATTATATAATACTGGGATCAATCTTTAAGAGAAATCATTATAAATTAATATCCCTTCTGTTACTTTTACAATATGACTAAAAACATTGTAGCTTTAGAGATGAATGTACACAGCTTTATTAGTATGTTCCTATAAACATTTTTAATTGAACAAATACAACTAGAACGTATTAATATCCTCAATTTTCTGATTCTCATTAAAAAAGAATGCTCAGATGAAAATCTCAGAAGCTCTAATTTGAAAGTGATACTTTAAAGTAGGATGCAAATCATATTGCAAAAATACTTTTACAATATCTATATATCTTATATTATTGAATATTTAGCAATATCAAATTATAATATATTGTGTAAATATTGTAGCTACATTATTACTAATATTAGGAGCTAAATCAAGCAAATTAGTGACAATAGCTATATTTTGTGTTCTCAAAAGTAGCAAACTCTATATAAACTAAGACCTATCTCGTCCGATATACATCATCGATAGCAATACATAAATGTGTTTCACTAAAATATTTAGAAATTAAAAGCATATATTATATCTTTCTGATTATTACACACAAAATGATAATAAAGAAATCAAGCATCACACTAATATATAAGCTACTTCATTTGGAGCAATAATGCCATCTATCAAAAAAGTATAAACTAAATTGTAAACACCTTTTCGCATTATTGTAGCTACAGTATTCATTACAAATCTTTTTATTTAGATCTTCAACAGTAAATTAAAATTCATATTTTCTTTACTATTCAATACGTTTTTACTTCAGATACTAAGTAATCACTTATTATAGTTTTGGAAAAATCATACACATTATCAAATTACATTAACTCTTTCTATGATGTTATTTTATTATAAAAATCAAAATCGGATCTACATTTTAAAGGAATATCTTAATCATTTCTTACTAATGTTGAAATCAACTTACAAAAAAGGGCGAATATATTTGATACTAAACTTGTTAATATATACTCAATCAATACTACTCTTGACTATTACATAGATAGTATTATTACGGTATATTACAGAATATATTAAACTTATTACTATTGTAATGGTAGTACAACACGTTTAATTAAATTGTTTACTGCTTCAAAAGAATTGCCACTTGAAAAGTCATATCTTGTATTTTCAATAATATCCTATTATATCTAATCAAATGATCCATCTTCCATATTAGTTATAGTATATATATTAGTTGAATTATTAGTAATAAATAAACTAAAATCTTATATTAAATATCTTAATATTCGTATTATAATCATAATAATCATTTTTTAGCAATTAATACTTAAAGTAATATTTAAACAATGAAACTATCTGATTTTGACTTTAATTTACCAAGTGCTCTTATTGCACAATATCCATCTAGCGAACGTGATAACTCGGATTTACTAATTGCCGGAACAAAGCATATTAAAACTAAATTTTACAATATAATAGATTACTTAAAAAAAGGTGATTTATTAGTATTTAATAATAGTAAAGTTATTAAAGCAAAATTACATTTAGGGAAAAATATAACTATCAACTTAAATAAAAAATTATCAGATAATTGTTGGATTGCTTTTGCAAAACCTGCACGTAAATTAAATATTGGTGATGAATTTTACTTTGATACACACAAAATAATTATTACCGAAAAACTGGCGATTGGCGAAATTAAGGTAAAATTCATGCTTGATAATATTTCTATAATTAAATTCTTAGATAAATATGGTGAGATACCACTGCCGTTTTATATTAAACGCCCAAGTCCAGTCTGTTATTCCAATATGGCATTGTGCTGTAAACCTGAAAACACACTCAAGATCAAATCAATACCACACAATATGAGCAAAATAGTAACTAATAATAGTAATACTGTTAATTTACGGTCTAATGACGGTATTATAGATAGTACAAATGATAATGATCGCTATCAAACAATCTATAGTCAAATAGAAGGGTCAGTTGCAGCACCAACTGCAGGATTACATTTTACAAAGAATATACTTGATAAACTTAAAACAAAAGGTGTGCATACTGCTTTTGTAACTTTACATGTTGGAGCTGGTACTTTTTTACCTGTAAAAACCGAAAATATTCATGAGCATAAAATGCATACAGAATATTGTTCTATTACTACCGAAACTGCAGAGATTATCAATAAAACAAAACAAGAAGGAAGATCCATTATTGCAGTCGGTACCACAACACTTAGAACCATTGAGAGTGCTTGCAATAATGGTATTGTAAGAGCAGGGAATTTTGAAACCGATATTTTCATAACTCCGGGTTTTAATTTTCAAGTAGTCGATATGCTACTGACCAATTTTCATTTTCCAAAATCTACTTTATTTATTCTTATATGTGCTTTTGCAGGATTTAAAGAAATGCATGCGTTATATAAATATGCTATAAAAGAAAAAATGCGTTTCTTTAGCTATGGCGATGCAACACTTTTATATAGGAAAGTATGAAAGTACCAATCTAGTCAAATTATATATAGAAAATTTTTGCTTTTTACACGTAATAGGGGTAATAATTATTAAAGAGCTTTTGATATTACAATTCTTGGTACGAATGCAAATAAAAATCATTTAAATCAAATTTTCTGATGCAGATAAAATTATATTGTATCCAATTCAATACAGTTAATGAATATTAAGAACTTAAACAATCAATAATTTAAAAAATTCTTTATAAAAAAGAGAAAATACTAATAAAAATACTAAGATAAGCTATAAAACATTTGCATGAAGTTATAAAGTAATCTAAAGTAGAGAAAATTTTATCAGTTACTCAAATTTGAATACGTAATAGAACTATTTTCAGTTGCAGTTGTTTAAAAATACTTAGTAATGATAAAATGAACATTATTACTACAAAAGATAAGTGAAGCTTCTCAATTTAGTATTATTAATGATAAAAATGTTGCTTAAAATTTAAGATGATTGTAGCATCAATGCTCATCTTTATAAATATGAAAATACAAAACAAATTTGTAAAAGTATTAAATTATACCTACCAATTTTAGAGCAAAACTATAAAAATATTTTTGGATGATTAAATGCTTGAATTCATTCATACTAGATTCAAAACAAACTGCTTTATTAACAGAATTAAAAGAACTCGCAAAAGAAGTTAATAAATCAAAAAGTTTATTTAAACTCTTTAACAAACATCATTTAAAAAATGGAATTTATTTATACGGCCCAGTTGGCAGTGGTAAGACTTTGCTCATGAATTCTTTTTTTGACGCAATAAGCATATCTAAAACCATTCTACACTATCAGAACTTTATACATGAAATGCATAAATCTATGCATAGATTACAAACAGAAAAACAAAAAGATATTATCACTAAAATTGCTAAAAACTACGCTAAACAAACCAAAGTGTTATGTATAGATGAGTTTGAAATTAAAGATATTACTGATGCAATGATAATAAGTAGATTATTTAATGAATTAATAAAGCAAAATATTTTTATTTTTATAACCTCTAACACTAGTCCAAATAATCTTTACAAAGATGGATTACAAAGAGAATCTTTTTTACCTTTCATAAAGACTATCAATAATACATTTTATATAAAATATCTAGATAATCACCATGATTATCGATTTGATAAAGCATTAGGAGTTAAATCCTCAAGGATAATTTATCCTTTAACTTTAGAAAATAAAAATAAACTTTAAAAAATTATCATGAAAATTAGTGATAATAATCTCGTTGCTCAAAATATACAGGTTCTATGTAGGTCAATATCATTCCAAAAAGTATATAAACAAATATTAGTAACAGATTATAATGAATTATTTATAAGAGAATTAAGCTATATAGATTATGTTAATATTTGCCAAAATTTCAACATTATTATAGTAGAGAATATTAATACCATTGATGCTAACGATACAGATACAGTTGTTAGATTTATCAATTTTATTGATAATGCCTATTTCTACAAAATACTTTTATTTATGAGTTTAGTAGATAATCCAAATAAAATATACCAGGGTTTAGCACGAGCCAAAGAATTTCAACGCGCTATATCAAGATTACATGAAATGAATAGCGAAGCTTATTTATTAAATAATGATTTAAAGGAATTAATTACCTTAAATACTATATAAAGCACTAAAATTAGATGCTTTTTACAATTTTAAATGTTAAAATTTTTGTTAAAAATCTCTTGATTAAATATTTATTACTATACTGTTACAGTATATTAGATATTTTTATTTAAAAAGGTCAAACTATTTGTATAGGATACTTCATATAAAGAAAAAGCAAGATAATTAAAATTTGCATTGCAAGCTTGGCAGCGACTTACTCTCCCATGGCTTATGACATAGTACCATTAGCGCTATGAGGTTTCACGTTCGAGTTCGGGATGGGATCGTGTGTTTCACTCATGCTATGACCACCAAGCTAGCAATACAAATTTTAACAAAATAGGTTTGTATTATAATATGCTGTTAATGCTATTATATTATTCTTAAGCAAGTATAATATACAATTGTCTACAATATCTTAAAGAAAGATCAAAACTTTACTATCAAATCGTAACATAAAACGATAGAATAACATTTTTATTTATTGATAAAGCTAATTTAACATTAAAATTATAATTTACAAATTGATGCTTAAATACTTATATAATTAACACTATATGCATATATAATCTCACAGCAAAGTAAATCAATCGAGCTATTAGTATCGGTTAGCTACACACATTACTGTGCTTCCACACCCGACCTATCAACGTGGTGGTCTTCCACGGCTCTAATGGGGAAGTCTAGTTTTGAGGGGGGTTTCCTGCTTAGATGCATTCAGCAGTTATCCCTTCCGTACTTAGCTACCCAGCTGTGCCGTTGGCACGACAACTGGTCCACCAGGGGTACGTCCACCTCGGTCCTCTCGTACTAAAGGCAGCTCCTCTCAAACTTCCTACACCCACGGCAGATAGGGACCGAACTGTCTCACGACGTTCTAAACCCAGCTCACGTACCACTTTAATCGGCGAACAGCCGAACCCTTGGGACCTTCTCCAGCCCCAGGATGTGATGAGCCGACATCGAGGTGCCAAACGATTTCGTCGCTATGGACGCTTGGAAATCATCAGCCTGTTATCCCCGGAGTACCTTTTATTCGTTGAGCGATGGCCCTTCCACTCGGAACCACCGGATCACTATGACCGACTTTCGTCTCTGCTCGTCTTGTCAGACTCGCAGTCAGGCTAGCTTATGCCATTGCACTCTAAAAGTTGATTTCCGACCAACCTGAGCTAACCATCGCGCGCCTCCGTTACTTTTTGGGAGGCGACCGCCCCAGTCAAACTACCCACCATGCATTGTCTCGGACCCTGATTCAAGAGTCTCGGTTAGATATCAAAAACCAAAAGGGTGGTATCTCAAGAGTGACTCCACAAAGGCTGACGCCTCTGCTTCGTAGTCTCCCACCTATCCTGCACATTTGATTTCTAATACCAGTGCAAAGCTATAGTAAAGGTTCACGGGGTCTTTCCGTCTGACCGCGGGAACTCCGCATCTTCACGGAGAATTCAATTTCGCTGAGTCGATACTGGAGACAGTGGGGAAATCGTTACGCCATTCGTGCGGGTCGGAACTTACCCGACAAGGAATTTCGCTACCTTAGGACCGTCATAGTTACGGCCGCCGTTCACTGGGACTTCAATTTAGAGCTTACACCCCTCCTTTTAATCTTCCAGCACTGGGCAGGCGTCAGACCCTATACGTCGTCTATTGACTTTGCAGAGCCCTGTGTTTTTAATAAACAGTCGCTACCCCCTAACTTGTGCCACCTGCATATGGTTGCCCATACACAGGTCATCTTTCTTCCGAAGTTACAGATGTAATTTGCCTAGTTCCTTCAGCATCGTTCTCTCAAGCGCCTTGGTATACTCTACCTGTCCACCTGTGTCGGTTTTGGGTACGGTCTATAATAAAGGTGCTATTTCCTGGAAAATATTCACTGCACAATCAATCCAATAAGACTATACAATTTACTATTTTCGTCACATCCTTTAGGTTCAGGAATATTAACCTGATTCCCATCGATTACGCCTTTCAGCCTCACCTTAGGGGCCGACTAACCTTGCGCAGATTAACTTTACGCAAGAACCCTTGGACTTTCGGCGAGAATGTTTCTCACATTCTTTATCGCTACTTATGTCAGCATTCTCACTTCCGATACCTCCAGCAAACCTTACAGTTTACCTTCACAGGCTTACGGAACGCTCCGCTACCATTTATGCTAAATGCATAAATCCGCATCTTCGGTACATGACTTGAGCCCCGTTACATTGTTGGCGCAAGAAAACTTATTTAGACTAGTGAGCTATTACGCTTTCTTTAAATGATGGCTGCTTCTAAGCCAACATCCTAGTTGTTTTGGTCTTCTCACATCCTTTAACACTTAGTCATGATTTAGGGACCTTAGATGGCGGTCTGGGCTTTTTCCCTCTCGACTATGGACCTTAGCACCCATAGTCTGTCTGCTATGCTGTACTCATCGACATTCGGAGTTTGATTGAGTTTGGTAAGTCTGTAGAACCCCCTAGCTCATTCAGTGCTCTACCTTCGATGGTAATCGCTATAACGCTCTACCTAAATAGATTTCGCGGAGAACCAGCTATATCCGAGTTTGATTGGCCTTTCACCCCTAACCACAGCTCATCCCCTACTTTTTCAACAGTAGTGGGTTCGGTCCTTCAGCGGATTTTACTCCGCTTTCAACCTGGCCATGGCTAGATCACCCGGTTTCGGGTCTAATTCATCTAACTAAACGCCCTATTCAGACTCGCTTTCGCTACGCCTACACCTAACGGCTTAAGCTTGCTAGATAAACTAAGTCGCTGACCCATTATACAAAAGGTACGCCGTCACAAGACATATAAATATGCTTGCTCCGACTGCTTGTAAGCATTTGGTTTCAGATACTATTTCACTCCCCTTGTCGGGGTACTTTTCACCTTTCCCTCACGGTACTTGTTCACTATCGGTCACTAGAGAGTACTTAGGCTTAGAGGGTGGTCCCCCTATGTTCAAACAGGATTTCACGTGTCCCGCCTTACTCAAAAACTTCAAACTTTTTACCTATACGGGACTATCACCCTCTATGGTCAATCTTTCCATATTGTTTTAGTTATTTTTTTGAAGTCACTGGCCTGGTCCGCGTTCGCTCGTCACTACTAACGGAGTCTCGGTTGATGTCCTTTCCTCCAGCTACTTAGATATTTCAGTTCGCTGGGTTCGCCTTATATAGCTATGTATTGACTATATAATACCTAACAAATTAGGTGGGTTTCCCCATTCGGAAATCTTCGGATCAAAGTTTATTCGCAACTCCCCGAAGCTTATCGCAACGTATTACGTCCTTCATCGCCTTCTAGTGCCAAGGCATCCACCAAATGCCCTTATTACATTTACTTTAATGCTTTTAACTTGAGATTACACTATGCATACAGAATTAATTTTACAATTATTTTCAGTATCTACTCACGATATATTATTATCGCGGTGTATTTAGTTTTAGCTTTATCAACTTTTAAAACAGCTACAAAGTTTTAAATTTTAAACTTTGTGTGATGAATCTTATATCTATATTTTAAAAGCTTGTCAAATACTAATTTGAAATAATTTTAATTTTATTTTTGATGTAGTATCTTAAACTCATTTAAACCTCTTTTAAAAGAAAATATGTGCTTAGATTACAGTCTACGATTTTATATTCACTTAAATCTTCAAAATCTACTTCTTTGTAAAATATGATTTACTGTTTTCAGTATACATTTTCTTTTTATTAACAAGCTGTAGATTTTAATTTTTCTAAAGACTAGACGATTTGAACTATTAAATGATTATTCTTAGATCTCAAACATTTTTCTGTAAATTAGCAGATTCATCATAAGTATATAATTTTAAAATTGCTTTTATCTATTTTGAGTTGTGCAATGTTTATTAACAACCAAGCTACTAATTTCAGACTTTAGAGTGTGAAATTTTTCTTACAAAAAATTCTGTAAAAATCTCAATTTAATCTTCTACCTCATCATCTAATATCTAATTACTTTTTTACAAATTCTTATGAATTATATGTAAACTCGAAATTACAATTAAACTGAACTTTAGCTTTATAACTAATAAATTCTTATTTTAATATTGTATCTTTTAAAATATTTGTACCACGTAAAAATTCTTCTATATTCAAAGCTTTTTTACTCTCTTGCTGAAGTTTCTTTACACGTAATATACCACTGCCACAAGCGATTTCTAGTTTATTGTTAATAACAGTACCAGGAATAAAATGATGATTGTAATTGAAATATTCTGCTCTAAGGATTTTAATTATTTTATCATTATAACTAAAATATGCTCCAGGCCATGGATTCATACCCCTTATTTTACAATCAATAGAATAAGCGGATTCATACCAATTAATTTTTCCTTCTGCTTTAGTTAATTTATGCGCATAAGTAATGCCGTTACTTGACTGTTTTATTGGTACTATATTATCAATATTTGCAAGTGTTTTGATTAGTAATTCAGCTCCTAAATGAGCACATTTATTGGACAATTCATCCAATGTTATTCTTCTTTCTAAATTCAAATCTTCTTTCAACAATATATCGCCAGTATCAAGCCCTGAATCCATACGCATAATACATACACTACTTTTACGGTCACCCTCTATAATAGTACGCTGCAGAGGAGCCGCTCCTCTGTGACGAGGTAAATCGGATGGATGGATATTAAGACAGCCATATTTTTTCGCTTCTAATATAGCTTTCGGTACAATAAAGCCATACGCAATCACAACTATAATATCTGCATCAATTTTCTTAATCAGATTTATTGTTTCATCATTACGAAGAGTAGAAGGGCTATAAACAGGAATTTGATGTTCAAATGCTAATTGATGTATTGGGGATTTAGCTAAGTGAAGTCCTCTACCTTTAGCCTTAGGTTGCTGTGTAAAAACAGCTTTCACTTCGTGATGAATTATAAGTTTTTTAAGAGTTGGAACAGCGAATTCAGGCGTTCCCATAAAAATTACTTTCACACTATATTATTTTTAAGTTTCTTAAGCTTACGAAGTACTACATCTCGTTTTAAATTACTTAAATAATCAACCATAAGCTTACCTTCTAAATGATCATACTCATGCTGAATAACTCTTGCAAGCCAATCATTTGCTTTTAGCTCTTGTGATTTACCATGATAATCTAAATATCTTATCTTTACAGACTCCGGTCTCGTAACCTCAATACGTTGCTTTGGTAATGAGATACAGCCTTCATTAGCAGTCACTAACTCTGTTGATTTTTCTATTATTTCAGGGTTCACTATAAAAAGTGGATAAAAATCTTTCGGTCTTTCTACTGGATCATATTCTTTTATATCAATTACTAAAATACGTAGCAATATTCCTACTTGTACTGCCGCAAGCCCTGCACCATCCGCATTGTACATAGTTTCAAGCATATCATGCATAAATTTTCGTGTTTGATCGGTACATTCTAAAACAGGCTTAGATTTTTGCTTTAATCTTTCATCAGGTGCGGTTACTATGGAGAATATTGACATACATAATTCAATCTTAATCTTTTACTTATAATATACAATAAAATTAAATGCAAAGAAAGTAAATCTTGCTAATTCCGGTAATAGTTGTATAATAAGCTCACCTACTTTCAATCATTTATTTGCATGATTATAACAAATATCAGACAGCATAAAATATATGTATCAATTAAGGAAGATTAATAATATATTATAGTGTGATAATGGAGAAATTTGTGAATAACTCAACACATTATAGCAATATCATGCATTATCAATGCTAGAAAAATTGATGAGAATTTAAAAGGTTCTAAAGATGAAGTAGAACAAGTTATAACAAAAAACTCTAGACAAATTGAAAAAATTATTTGTAGAGATGATAGAAATAAATTAAGTAGTTATTGATCTGAATTGGTATTAAACAGTTTGGGTTATAATATCTTTTGATTTTACATACCTCATGAAGTAAATAGTTTAAGAGATATAAATCTTACTAAAAAATAAAATTCACCTATAAAAATAGATCATTACACTTAATTTTAGTATAAAAAATGAACTTTATAAAAATAAATTAATAAAAATATAGAAACGGCCTGAAAAAATACTCTCAAAGTCATTAGTTTTAAGCTCAATTTCTTATCAAATTTTCCTCCTATAGCCATAGACACTATACCTATAATAAGAACTGAAACGGTTAACCCAATGGCAATTAATAACCACATCATTAATTTATACTAAAAATAATCTTCTACACAAGATTATATGCTTTTGTGCTTTTAAAAGCAATTATCTAATTAATAAAAATTCCAATTCAAAAATTTCTTCTATAAAAAAATAATAATATATGGATTAATTTATTGAATATAAATAATGTAATACTTAATTGATAAAAGAACGATATTATCATCATTAATTTTTAGTTGAAATATAGTGCGTTAAGAGAATTTTTGTCAGAACCTAAGAGATACTTAATAATATTGCTAAAATTTATTAGTGTTACATGCATTAATCCATACAAATTTGCTTAATTTAAGGTTTCTGAGTTATAGAATATATAGATTATCTATCAATCTTAAAAAAACATCATTTTATAAAAAATAAGAGGATTAAATAAGATATAAATATATGTCTTTTAACAGAATAGCAAGCATTACAATAATTACACCACCTTGTATTATTATCGCTATTAAAGCTAATTAACAACTTTTTAGGATTACTTACGCTAAAATCGGAGTAAAACAATCAATAGTGAATAAATATTTACTTTTACTATAATAACAGTACGAGCAAGCGCTTTATTTTTTGTATTATTTTCTACTAATATTAGATCAAGTTATATACTCATCATACTCGGAATTACGTTAAATACACTTTTAATATCTTAACTCAGCTATTACTGAAGTCTAAACGAGCAATAACAAAACTGAGCATATGCAATTATCATAAAAATAAAGGGATAATCTTTAAATACTTTCTAAAACTTTAGTTTAATGGTAAAGATCATAGATTATATAGATAAACAATTTAATATTACAATGCTGCTATCTTGAAGTACAATGCAATTCCTTTAAACACAAAATTTTTAAAAAATACTAAAGTCATTAGAAATAATGATAGCAAAATCAAAGAAACATCAAAACTTTCATTTATCGTTTCTCCTATACTATAATAGATAAATAAAATTGATATCATTATAGGAGAATGCGCTAACTACACATACCAGATAACATAAAATATATGAATGAAATCTTTGGCTAGCTCTTTTGCTAACATTTAAAAGTAACAAAAATAATAGATTGAAGTAATGAGTGTGTGTAACAAAATAACAGCTATAATTAATAGCCACAAGTTGTATGTTACGAAACATAAAACTGATTTAATAATAATTAGTGCATTGGAATAGATTGATCTAATTAAAATAGAAATATTATTACTTGCTGAAACCTATTATAGTAGTAACAAGATTAAAAAGTAAATATTTGTATATTCAAAAATTGAATATCTATTTTATAAAAAATTAGTGTTTTCTAGAATTTTATATGAGATATTGCTAAACGCAAACAAACAGATAAATGCATTGATTAACATCATGGTTATAAAAATAGGTAAAGTAATTTAACAACAAAAGCACATAAATTTGTTCTTATTTAATTAAGATGAAAGTACAAGACATTTTAATTAATATCATAACTATTCAATGATCGAGACTAAAAATACTAATATTAGTATTGATTTAGTACTATATATCAAGTCATGCGCTGCAAAAGAGTCGTTTTAATGATATATATAAAAAATGTCATGGGTTAAATAAAATCAGCATATACTTCCACTACTATACCTTTACATCATTCTCTAATCCCTCTTCCGCTAATTCACTAGCTTCTTCGCTTTCAGAAGTTTCAGCTATTAAAGAAACAGATACTACTTTTTCATCATCATCTAGTTTAAACAGAATTACACCACTAGTGTTACGACCCGTAATACGTACCGACTCAAGTTTACAGCGAATTAACTTACCACTATTTGTGATTAGCATTAACTCATCATCCATTTTAACTGGCATAACACCAACGACTAAACCGGTTTTATCGTTAATATCCATATTTATTATACCACTACCACCACGATCAGTAATTCTATAACCATATGCCGAGCTTCTTTTACCAAAACCGTTCTCTGTAACCGTCAAGATGAATTCTTCTGAATTTGCCATTTCTAAAATCGAATCTGCATTCAAATTTACACCTAATTCTTCAAGGTTAAACTCCTCACCTTTAGCTATCTCAAGTCTTTTTTCCCATGGCACTGTTAAATAAGCATCTCTATCCTCTTTTGTGCTGTTAATGCCTTTAAGTACAGTCATAGAAATTACAGAATCCTCTTTAGCAAGCTTCATACCTCGCACCCCATCAGAAATACGACTCTTAATAATACGCAAAGATTCAACAGGAAATCTTAAAGCTTTACCTGCTTTGGTAGCAAGTAAAATATGCTCATCTTCTTTACATGGTTTTACGTCTATTAATTTATCGTCTTCATCAAGTCTAATAGCAATTTTACCATTTGACTGAATCTTTTTAAAATCTAATAAATCACTTCTTCTGATATTACCTTTTGCAGTTGCAAACATAATGTTTAAATGATCCCACTCATCCTGGTTTTCTGGTAACGGCATAATATTTGTAATATGCTCATTTTCTTGCAATGATAATATATTAACCATTGGTCTACCCTTACCTTGCGGATTACTTAAAGGCAATTTATAAAGCTTCAAGCTATAAACCTTACCTATATTTGAGAAAAATAACATTGGTGTATGTGTACTACCAACAAAAACTTGCGTGGTAATATCCTCATCTCGCATTGAAAGACCAGATCTCCCCTTACCTCCACGTTTTTGCGAACGATAGCTACTTAGAGGTACACGTTTGATATAACCACCAAGCGTTACGGTTACGACCATTTCTTCACGCTGAATTAAATCTTCTATATCTTGATCAAATCCACCGAATTCAATTGAAGTAAGACGAGGAGATGCAAATTCTTCTTTAACTTTAATTAGCTCTTCTTTTAAAATTTCAAGTAATCTTGTACGAGATGCGAGTATATTAAGATATTCGGCAATATCCGTAGCGAGGTGTTTTAAATCTTGTTCAAGCTTTTCTTTCTCCATAGCAGTTAGACGTTGAAGCTTCATTTCTAAGATTGCTTTAGCTTGTACCTCAGTAAAACTCAATGTCCCTCGCTCATTTAATATTACTTTATCATCAACTAACTTTATAAGAGGTAAGATATCTAATACTTCCCACTGTCTAGCCATTAATTCTTGTTTAGCTAAATTCGTATCATTTGAAGCTTTAATAATATATATTATTTCATCTATATTACTAATGGCAATAGTTAACCCTAGTAAAATATGCGCTCTATCTCTTGCTTTATTTAGCAAATATATAGTACGATTAGTAATTACCACTTCTCTAAAACTAACAAAAGCTGCGATTACTTCTTTTAAATTCATCACTTTCGGTAATCCGTCTTTAAGAGCAAGCATAATCACACCAAAGTTCGTTTGTAGCTGAGTACATGCGTATATTTGATTTAAGACTACTTCTGCAACTACGTCTTTCTTTAACTCAATAAAAATCCTTATACCATTTTTATTCGATTCATCTCGTAAATCACTTATACCTTCTATACGTTTTTCTTTGACCATTTCAGCAATTTTTTCAACAAGTCTCGCTTTATTTACCATATACGGTATTTCAGTAATAATAATTGCTTGACGACTATTACCGACATTCTCAATCTCAGCTTTACCACGCATAATGATACTACCTCTACCAGTAAGATATGCAGATCTAATACCACTAATGCCTAAAATCATTGAGCCTGTAGGAAAATCTGGTCCTTTAACGACTTCTAGCAAATCTAAGATTTCTATATCATGATTATCTATATATAAACAGCACGCATCAATAATCTCACCAAGATTATGAGGCGGAATATTAGTGGCCATACCAACTGCAATACCGCCACTACCATTAACCAATAAATTTGGAAACATTGCAGGCAGTACGGATGGCTCTTCTTCAGAACCGTCATAATTAATGTTAAAACTGACAGTTCCTTTATCAATATCTTCTACAAGCTTATGCGCAACTTTGGCCATGCGAGATTCAGTATATCTCATCGCAGCCGCTGCATCACCATCCATTGAGCCGAAATTACCTTGTCCATCTACAAGTGGTAGACGCAAAGAAAAATCTTGAGCCATACGTACTAACGAGTCATAAATAGCACTATCACCGTGAGGATGATATTTACCCATCACGTCACCAACTATTCGTGCAGATTTTCTATAAGGTTTGCTAGCATGATTACCGGCTTCATACATGGAATAGATAATTCGGCGATGCACAGGCTTTAAACCATCACGAACATCTGGTATAGCTCTACTGACTATAACGCTCATAGCATAATCAAGATAAGATACTTTCATCTCATCTTCGATATTTACCGGTACTAAATTAGAAGAATATTTATCAATCACTATACTAGCCTTAAATTAAATGAATTACATTTAATTATAGAGACATAATAAATTTCTTTCAAGAATTGCTTGTACTTATAATCATGTATTATTTCTCAGAGGTCGGTCTCATGTATGCAAAAGCAGGAATTTAATTTTAGCTTGCTTACCACTGTCACTTTCCTTGGCATGAGATAAACAAATATACAACAAAATCTTTACACAATTGACATAATCATGACATTAACTGTTTTTAGCAATTACATAATTTAAAAATTAACAAATTTCATTTTCAACATAATGGAATGCTTCTAACATTTAGAGAAACTTAACTCCTAGTTTTTCTTAATCTTTATTCTTTTAGCAATCTATAATACTTTAGAGTATAATTTTTATTAAACGTATTTCTCAATTCATCAAACTTAATTTTTGCAAGTTTTAATCACAAAAGTTTGAACTCTGGTTATTTAGTTATTCCAAATACAGCTACAGAATAATTATCATAGCTTGTATGTATAGTTTATACCTTAAAGACTAGACATTAATATTAAATCTAAAGTTCGATTTCAATAAATTTTTTTGAAATGTCAATTTACTATCAATACGACAAAACTTAATATTAAATTAAACTAATAAATTTAGTTTAGACACTATATCAATATCCTACAGATACATTATTACTACAATAATTGTAATTGAAGTTGACACCTATAACACTTCTTATATCCTAAGAAATTTTTCACCCAATAACCTTATATTTTATAATTTTTTTATTAATTGAGTTAAAGCATCTTGACCAAAGGTCAGATCTAATAAGAATTCCTAATCATTTACAAAAAGCATAGTTGCTAGATTTGTATACTAAGTATCCGTCTACTACTAATATTCTGTTTTGTACTCAACTTTAATCAACTATGTATTTGTAATCAAGAAATATATCCTACATTTAAGCTATTACAATGTATAATTACTAAGACAATTATAGCATCATTAAATGATAATATTATCATTCCTATATTCACAATAGCATACAAAATTATAAATGATTGAATATATTTGCGGGGCTAAAAATTTTGTTACCTAACACCAGTCTAGTAAGTAAGATAAATATTAGAAAACTTTACAGGAATTGATGCACACATCTACTAGTATAGCCTAAGTTCGTTTCATGTTAGGCATCACATATTATTTGCTTACAATTCTGTGTATCTTGGTTACATTCCTCCTGCTGTTTATACCATAATTCAGCGTAATAGCCTTGGTTTTTTAGTAATGTTTTATGATTTCCTCGTTCAACTATATAGCCATTATCTAAAACTATAATCTCATCTGCATCAACAATAGTCGATAATCTATGAGCGATGATAAGAGTAGTATGGTTAGCTGAAATCTCTTTAAGACTTGCTTGAATTAGCTTTTCGGTTTTAGTATCAAGTGAACTTGTCGCTTCATCAAAAACATATATTGATGGATTTTTTAAGATAGTTCTTGCAATTGCAATACGTTGTTTTTCACCACCTGAAAGTTTTAAACCTCTTTCACCTACCTGTGTCGCATAACCTTCAGGTAGTACGCTAATAAACTCATGAATATGAGCATTTTTTGAAGCTGCGATAACTTCATCGTAACTAGCTGCATTATTACCGTATGCGATGTTATAATATATTGTATCATTAAACAATACCGTATCTTGTGGAACAATCCCAATAGATTTACGAAGCGAGCCTTGCTTAACTTCTCTTATATCTTGATTATCTATAATAATACTACCACTATTAATATCGTAAAACCTAAAAAGCAATCGTGATATCGTTGATTTACCGGCACCGCTGCTACCTACAACTGCTATTGTTTTACCGCTCTCAATTGTAAAAGTTATATTATGCAAAATAGTACGTTCCTTATTATAAGCAAAGCTAACATTATTGAAACTGACTTTACATTTTGAGATAATTAACTCCTTAGCATCTACCGAATCTTGTATTTCTGCCGGTATATCAAGTAACTTAAACATATCTTCCATATTCACTAGAGCATTTTTAATTTCTCTATAAGCAAAACCAAGTATTGAAAGTGGGATTGATAACTGAAATAGATAAGCATTAACCATTATTAAATCGCCGACCATCATTTTATTTTGATTAATAGCATTTACTGAAAGTATCATTAAAGAAACAAGACCTAAGGATATTATAACATCCTGTCCAATATTCAAAATTGATAGGCTGTTAGTAATTTTAGTAGCTGATTTTTCATAAGCTTGTAAAGCATCATTAAACTTTATTGCCTCATATTCTTCATTATTAAAATATTTAACTGTTTCAAAATTCAACAAACTATCGATCGCTCTATTATTTGCAGTGTTATCGCTTTGGTTCATTTCCCTTGCAAATGAAATACGCCAAGTACTGATTAATAAAGTATAACACACATAAACTATCATTGTTATTAAGAGAGTTACTGCAAACCATATACCATGAAAATACCATAATATTCCGATGACCAATATAATTTCTAAGCTTGTCGGGAAAATATTAAATAATGAATACCGTAGCACTGCTTCAATACCTTTAGTACCACGCTCTATTGACCTACTTAAACCACCTGTTTTTCTAGTAATATGGAAGCGCATACTTAAATTATGCATGTGTTTAAAGACATTTAAAGCGACTAAGCGTGTTGCTTGACATCCAACTTTTGAAAAAATTATATTTCGTAATTCACTGAAAATTTGGGCAAGTATTTTTGTCCCACCATATCCAATAATAACGCCAATAAGAACTGAAAGAGATAAATTTTGATTTAGTCCGTCTATTATATATTTATAAACAATTGGAACAAAAATATTTATTACTTTAGCTATAACTAAACAAATAAGAGACGTAACAATACGTAATCTGATATCAAAGTCCTTCGACCATAAATATGTAAGAAGTAGATAAAATGCATTTTTGTGATTGTTATTTTTAGACATAAAATTGTCACCCCGTTGCTTAATCACGGGATCCAATTAAAATATTATTATTTTTATTTGTGTTCTAGATATCGTTTTCAAGCCAAGACGTAAACAATAACATCCCAGTAACGGTTAAATCATTCTTAATTCTTAGGCTGATGTTCTAACAACTTATCTAACCTCCCCTCTTTTTCAAGATTAAATAAATCATCACACCCGCCAACATGCATATTATCTATAAAGATCTGTGGAACAGTGCTTTTACCACCAGATTTCTTAATAAATTTTTCTTTCTCTTCTTGCGTAAGATTACTTACTTCAATTTCCTCATAAATAACATTTTTCTTATCAAGCAATGCTTTAGCCTTTATACAATAAGGACAACTAGCTAGAGTATAAATAATAATTGTGTGTAATATAGATTTATTCATAATGTTATATTTTTTATTTTTTGTAAGATCTTATATATTATCTTAAACTAGAGTTTTGAAAGCAAGTAAAAATACAATACATGAATAATTTTTCTATTATCTCAGGATATAAACCCGCAGGCGATCAACCAAAAGCAATAGATGAAATTATAACAGGGTTAAATAGTAAAAAACGCTCACAAATGTTGCTTGGTATTACTGGATCAGGCAAAACTTTTACTATGGCAAATATTATAGAAAGAACTAATAGACCTACTCTTATTATGGCTCATAATAAAACTTTAGCTGCACAAATCTATTTAGAAATGAAATCAATTTTTCCAAAGAATGCAGTTGAATATTTTGTCTCATATTATGATTATTATCAGCCAGAATCTTATATAGTACGCACTGATACTTTCATCGAAAAAGATTCATCAATTAACGAACAGATTGATTTAATGCGTCATTCTGCTACAAGATCATTATTAGAGCGTCGTGATGTAATAGTAATTTCGTCTGTTTCGTGTATTTATGGACTTGGCGCCCCTGATTTATATTATCAGATGACTGTGCATTTAGAACCTGGTCAAAACTATCCTCGTGATAAGTTACTAAATGATTTGATAAATCTACAATATAAGCGTAATGATATCGGATTTGAGCGTGGCTGTTTTAGGGTTAAAGGTGACAACATGGATATTTTTCCCTCACATTATAGCGATAAAGCTTGGCGTTTATCATTTTTCGGTGATGAACTCGAATATATTCATGAATTTGACCCATTAACAGGTGAGAAACTTACTCAGCTTGATAAAGCTATGATTTTTGGTAATTCACACTTTGTTATGCCACGAGAAAGGATAAATCATGCGATATCAAGCATTGAGGTGGAGTTGCAAAAACGCTTAGAGTTCTTAAAGTCACAAGATAAACTAATTGAAGCAAAAAGATTAAACCAACGTACTCTATATGATCTTGAAATGTTAACAGAAACAGGCAGCTGTAAAGGCATTGAAAATTACTCTCGCTTTTTCACAGGGCGTAATGCTGGTCAGCCTCCTCCTACATTATTCGAGTATTTACCTGAAGATGCTTTATTGTTTATTGATGAAAGCCATGTATCAGTACCACAAATTAGAGCGATGTATAACAGTGATCGAGCACGAAAAGAAGTATTAGTAGAGCATGGATTTCGTTTACCTTCTGCTCTTGATAATAGACCTTTAAAATTTGAAGAATGGGAAAAATTTAGGCCACAAACTGTGTTTGTATCTGCAACTCCAGGACAATTCGAGTTAGAAGAAACAGGTGGCACTGTAGTAGAGCTGATTATCAGACCTACAGGACTTCTAGATCCTGAATGTATTATTAAACCTGCTACTAACCAAGTCGAGGATTTAATTAGTGAAATTCAAACAACTATCAATACAGGTTTGCGTATCTTAGTCACTACATTAACTAAAAAAATGGCTGAAGATTTAACATCTTATTTGCAGGATCTGCAATATAAAACATATTATTTGCATTCCAATATACATACTCTAGAACGTATTGAAATATTAAGAAATTTAAGACAAGGTACTATCGATATTTTAGTCGGTATTAATCTATTAAGAGAGGGGATTGATATACCTGAATGCGGTTTAGTTGCTATACTTGATGCAGACAAAGAGGGATTTTTACGATCTGAAACATCACTAATACAAACAATAGGAAGAGCTGCAAGAAATAGTAGAGGCAAAGTTATACTGTATGCCGATAAAATGACTAAATCTATCGATAAAGCTGTTAGTGAAACATTACGTAGGAGGCAAATTCAACAAGAATATAATAAAAAACATGGTATAATTCCAAAAACTATAAATCGTGCTATTCATGCTTTAGAATCACTCGAAGAAATCCATGATAATAAGCTCGATAAAAAACAAGCTAATGCTTTATTGAATAATCCTGCTAAGCTAAAAGCTCATATGGATAAATTTAAAAAAGAAATGTTTAAAGCTGCAAGTAATCTTGAATTTGAACAAGCTGCAAAACTCCGTAACCAACTTAAAGCTCTAGAAGAGGCAGCACTGAAGTTAAGCTAAATTCGTACTGTTCTATGGTGTAACAGTTATAAAACAAATGATGTAAAAATAATACAAATCTTAGCAAGACTTGAAACTCCTCCTATGATAAGAGGATAATCCATGTGTCTTAATAGCTTCTATATGTTCACGAGTACCGTATCCGTAATTTTTATGCCATAAATATTGTGGGAATTCAGCACTTAATTCTAGCATCAAACGATCTCTAGTCACTTTCGCAATAATAGAAGCTGCAGCAATCGATAATGATAAATTATCACCATTAATTATACTAATAAATCTTATATCACTAAATTTCATATTACCGTCAACTAAAATTTTCTGCGGCTTCAGGCTAAGATTTGCCACAGCAATAGCACAAGCTTTTTTAGTTGCCTCTAATATATTAATATTATCAATTTCGGTATGTGCAATAATAGCGGTAGACCAAACATAATTACTAGTTATTCGCTCATATAGTATTTCTCTCTTATTTTTAGAAAGCTTTTTAGAATCCTTAATACCAGGTATAATATCTGCTTTATCTATTATAACTGCACTTGCGACTACAGGACCGACTAACGATCCTCTCCCTGCTTCATCTACACCTGCTACAATATAATTGTGATATTTTTTTTCATACTGTAATAGATTTACTTCCATAATTGTATTTTATAAATTTTTAATGTATATAATAATATCTTTCTTGCATGGATTCTGAGTAGTTATTGCATGGAGCATTATATTACGTAGCAATCTCATGGAATGAGAATATATTTCTGAACTTGTTTTGTTAAAACTTATAGTTTTACATCTCAATGAGGAAAAACCTTGTTAATAAAAACCTAAATAAATATAGAATTCTAAAGTGCAAAATTATTTTCAATTATTAGAACTTCCACAAGAGTATAATATTGATTTAAAAATATTAGAAAAGCAATATTTTGCCATGCAGGTAAAATATCATCCTGATACAGCAAAAACTGCGCAAGAAAAGGCACAAAATCTAATTACTTCTACTGAATTAAATAAAGCTTACTCTACTCTTAAAGATGCTTTAAAGCGTGCTGAATATATGCTGCTTTTGCAAAATATAAATTTGAATGATGAAAAGATACGTAGTTTACTTTCTCCACTAGAATTAAGTATATTCTGGGATGAAATGGAAAGAATTGAAAATACTACTTTATTTAGTGATTTAGAAAAATTAAAGAACAAATATGAATTAATGCAACAACAAAATATTAATTCTTTAAAACAAGCTTTTGTCGAACAAAACCTATCAGATGCAACAATATACACGAGCAAACTTAAATATATTAGAACATTACAGAGCAAGCTGCAAGAAAAAATAAAATCATGCAAATAATAGAAATTACAGAACCAAAGCAAACTGATTTTCAGCAAAAACTGCAAATAGCAGTAGGTATCGATTTTGGCACTACTAACTCATTAATAGCTATTGCAACTAATAGAAAAGTTAAAATTATTAAATCTATAGGTGATAAAGAATTAATACCGACCACTATAGATTTTATAAATGAAGATCTGATAATAGGTAATAATAAAGGACTACATTCTATCAAAAGACTATTCGGTAAAACATTAAAAGAAATTCTAAATACCACAACACTTTTTTCGTTAGTTAAAGATTATTTAGATATAAATAGTAGTGAACTGAAATTAAATTTTGCTAATAAAAAGATGCGTATTGCTGAAATTGCAGCGGAAGTTTTTATTTACTTAAAAAATCAAGCAGAAAAACAATTAAAAAATAATATCACTAAAGCAGTAATAACAGTACCTGCACATTTTAATGATGCAGCAAGAGGGGAGATAATGCTTGCAGCTAAAATAGCAGGTTTTGAAGTATTAAGGCTAATTGCTGAACCAACTGCAGCTGCATATGCTTACGGCTTAAACAAAAATCAAACAGGTCGCTATTTAGTATATGACCTAGGAGGTGGTACTTTTGACGTATCTATTCTTAATATACAAGAAGGAATTTTCCAAGTTATGGCCACAAACGGCGATAATATGCTTGGTGGCGACGACATAGATGTAGTAATTACACAATACCTTTGTAATAAATTTGATTTACCTCATTCTATTGAGACTTTACAACTTGCAAAAAAAGCAAAAGAAATTTTAACATATAAAGAGAGTTTTAATAATGATATTATATCAATTAATAAGCAAACTTTAGAACAACTAATTTCCCCTTTAGTAGAACGAACTATCAATATAACACAAGAATGTTTAGAACAGTCAGGAAATCCAAATATAGACGGAGTGATTTTAGTAGGTGGGACGACTCGCATTCCTTTAATCAAGGACGAATTATATAAAGCATTTAAAATAGATATTTTATCAGATATTGATCCTGATAAAGCAGTTGTATGTGGCGCTGCATTACAAGCAGAAAACTTAATAACACAACATACAAATTCATTACTGATTGATGTAGTACCGTTATCCCTTGGCATTGAATTATATGGCGGTATAGTTGAAAAAATCATTACGCGCAATACTCCAATTCCTATTGCGGTAATAAAAGAATTTACAACTTATGCCGATAATCAAACCGGAATACAATTTCATATATTACAAGGTGAACGGGAAATGGCAGCAGATTGCCGTAGCTTAGCTCGATTTGAGTTAAAAGGGCTACCACCTATGAAAGCAGGCAATATTAGAGTTGAAGTTACTTTTGCTATTGATGCAGACGGTATATTATCTGTCTCTGCTTATGAAAAAATCAGTAATATATCACATAATATAGAAATAAAACCAAATCACGGTATTAATAAAACAGAGATTGAGACTATGTTAAAAAATGCTTATAAAAATGCTAAAATAGATTATACTACTAGATTATTACAAGAAGCAGTCATTGAAACAGAGGCGTTAATGTCGAGCATAGAACGTTCTATAATAGAATTAACAAAATTGTTATCGGAAAGTGAGATATCTATAATTAATGCTTTATTGGATAATATAAAAGACGCTGTACAAACTAGAGATCAGATCTTAATTAAGAATTCTATTAAAGAGTTTAAATCCAAAATTAAAAAATATTTGGATACAAAGCTTAATATTAATGATTTGCGAAAATGCAAAAATAGCAATCAAATAAAATAATCCCAGTTACATAGAACTAATTTAGATAAGGAAAAATTAAGTAGAATGTTAAGAAAAATAAAAGTAACATTTATTATAAATGATGAAGAAGAAAGAACAGTAGAAGCGCCGATAGGCCTTTCTATTTTAGAAATTGCTCATAGTAACGATCTAGATCTTGAGGGAGCTTGCGAAGGATCACTTGCTTGTGCTACTTGTCATGTTATGTTAGAAGAAGAATTTTACAACAAATTTAAAAAACCTACAGAAGCAGAGGAAGATATGCTTGACTTAGCCTTTGGTCTTACCGATACTTCTAGATTGGGATGTCAAATTATTCTCACTGAAGAATTGGATGGAATAAAGGTACGGCTTCCTTCTGCTACTCGTAATATAAAATTATAATGGATTTAAAAAGTGATACGGAAAATACTGCTTCTTGTGTTTTTAGCCTTTACTATAATATGGTTTGCAACTGCATATACTATAAAAAATAACATTGTAAATTTAATAAAAAATTCTGAATCAGATAATCTGAGAATATATTATAATGCTATTAAGTTTTCAGGCTATCCTTTTAATTGGAAAATCAACATAACAGATCCTAAAGTAAAGTTAATTGATCATATAAATTCTAAAGAATTTATATGTAAAAATATTGTTATAGATATATCTTTTAGTACTAAAAGAGCTACGCTTAATTTTGGTCCTTTTATTCAAATAGACAATTACGGCGACAAACCATTTACCTATAATGTACATAGCGATAATAATATTAATGGTATAAGTAAATTTAATAAACCTTTATATAAGGTATCACAAGATGATAGTTTAAAAGAAATATTAAAATCAATTAAGTTAAATAATAAAACATTATCAATATTTAAAGATAATCAAGAAATTTTTAAAATTAATGATTTAGCATTTCTTATCAAAAAACATAATCTAGCAAGTCAGGAGAATATATCCTTATTCTTAAATATGCATTACTATTCAGAAAAAGATATTTTGAATTTTAAAAATGCTAATTTAGATATGGCTACTTCTTTTAAATTTGCTAAAAACGGGAAAGATGCAGCTATTTTAGAAAATTTGAATATAGAAAGATTTATTTTTACTTGTGATAATGAGTCTAAAGTTAATTTAAACGGTACTTTACAATTCTTTGCTAATAAATTACCAAAAGGAATATTATCTTTTGAGCTAGAAAATTATAATTCTATAGTTGATAAACTATTACCTAATAGTATTCTTTTTTCTAAAAAAACAATTAAAACAATTATTGCTAAAGCAATGAATAAAACTTCTGACGAACAATTAAATACAGACAAAAATGATACAAATTCAGTTTACAACAATATAAAAAACGCTAAGTTTGATATTGCTTTCTCAGATAAAGGAATAAATATCGGCTCTATGAATTTATTAGAACTCACACTTGGTGAGTATAAAGCTGAAAAAAATACCGAAAATAATCCAAATTAGTTTTATGAATAATTTAAAACTAGTAACTATTATTAGTATATTTTTTATTTGTAGTAATATTTATGCTGCGCCAAAAATCATTAAAATAGGTACCGGCTCTATTTTAAAAGGATATTATGCTATTGGACTTGATTTATGCAAGACTATTACAAATGATTATAAGAATAATGAACATATTAAATGTGAGGTTGTAATAACAAACGGTAGTATAGAAAATTTAAAATTATTACAACAAGGCAAAATTGATCTAGCCTTAGTACAAGCAAATATTGCAGTAGAAGCATATGAGGGCATAGGTTATTATCACAATCAAGAAAAAATGCAAAATTTACGTCAAGTACTTAATCTACATGATGAGTTTTTTACAGTTATTGTAAGAGATGACAATAGAATAAAAGTTTTTGCTGATATTGATGGAAAAAAAATAACTAATGGTCCAGAATTTTCTAGTAGTAATATTACTTATGATACCATACGTTCCTTATATAAATTTTCTAATGAATCTGCAGAACTCAATATTAATTATGAAGATTCTATTGATAAATTCTGTAATAATGAAATAGATGCTATAATCATGATGATTGGACATTTTAATCCATTAGTAAATTTAATATCTCATAAGTGTAAAATTAATTTTGTTTCAATTGAAAATGATAAAATAACAGAATTAATTAAAAAAAATCGAGCTTTTAATAAAGCTATACTTAATAAAAACTTATATCCAGGGATTACCGATAATCACACTACCGTAAAAGTATCGGCAATCCTAGTAACTAGAGATGAGGTGAATGGTTATATTTTAGATAAGTTTATTGGCGCTTTTCATAGAAACGTAGCAAATTTTAAACTTTCTAATTACCTATTAAATAACCTTGACATTCACTATTTCGCAGATACTAAAAATTTTGTTCTACCAAAACATCATTCAGTAAGAAATAAAAACTAACAATATGACTAAAAACACAACATTTAAAAATATATTGATACCTATAGATTTAAATGATAAGAAATCTATAAAAAGTATTTTTCCTAAGGCTTTAATGCTCGCAATAAATTTTCAAGCAAAATTACATTTTATGTATGTAATTCCTGAATTTGGTACTAAAATGTTTGAAGATTATTTACCCAAAAATTGGAGAATAGTAAAAAAAGAAAAATATCAAACTCAAATTAAAGATATTATCAAACAATATATTCCTGATACAATTGAAACAGATAATTATATAGGTAGCGGTGCAGTTTATGATGAAATAATTAAGCGCTCTAATGAAATTAAAGCAGATTTAATAATAATATCTGCAGTCAGACTACAATTAAAAGATTATATGCTTGGACCTAATGCTTCTAAAATCGTACGTCATTCAGACATATCAGTTTTAGTACTACGAGATGAGTGATGAAATATTATTGACTGCTATTAGACCTAGAGTATTATAGTCATGATGAGTATGCATTCTGGTTAATGAAATACATTATGTGTCATCTATGTCTACGGTATTAAAAAGAGCAAAAATCTAATACTTTAAATTTTTTTGACAACTTTCACCTAAAAAGATCTCTAATAAAAAAGATTAATTCAAAAACACTAAGGTTCATATGTATTAAGTGATACTATACTAATTCATCAACACTTACAGTGTTTTTTTAGAATGATGATTTGCATATTTCTATTGTAAGTAACAGTGATATTTAATAATATACTTACATTGCTTTCTTGGTAAACAAATTCTTGGGAGTTACTGCATCTGATAACAAGTTTTAATTTTAGTAATACTGCAATGCATAAGATGGTTATTAATTAATAAGGTGAATAATTCTTATAACTCTTTACCTTTACTATATTATGATCATAAGTAAACATACATTAAAGTTTTCCGTATAAAGTTACTATATTACTATCTAGTATTTAACCTACTACCACTAGATTAAAACTTTGAATCAAATTTACTATAAGCAATACTAACTTAATCTTTAGTGATCAGAACTAATATCAAGACCTAATTAGTACCACCTGACATTTATAACAGTGCACAAATTGCAAGCTAGTATATGCACTCAAAGACATTACATTTTATTTGATTACATTTTGTATTTCTTGCAGCTTCAAATTTACAGCAATTGTGATATCTGTTTTAGAGACAGCTGATTTGATCTATTATCTATTTTAGTTTTTTTGGCTCCTTGCAGTTATAACTTCAAACTGCGACTCACAAGAAGTAATAATTAGTTTAATAAAATAGATAGGTATAATAGGATACTCAACAACTTTACAATATTCTTAGTAATGTATCTATCAAACATCTCAGACTGCTACACAATTTTTGCTGTTCTATCTAACTTCTGATTCAACAGGAGTATCGATGCTATCTTCTTTATCATATGCATTCAGATCAATAGCTAGCGATAACTGCTGCAACTAGAGTTGTAATGTCTTATATTATAGGTATAATACACACGGCATCTTCCATGTTGCGCATTCTACAATCGGTGGTAATACTGCATATTGACTTCCAATTAATACACTGATACTCTAATTAATTAAGTGTTCAAATGAGCTGCTTCTAGAACGAAAACTACCACAACTTGTTCACAACATTTTATACCTTTGCAATGCAATCTGTATTATTCTCTATTAAAAGAACTACTCAATATCTATGAAGATCAACTTATATTCGCAATTTAAGTTATCGCTCACCCTATTTACAAAAGTTCATTATTTATATTCATGATCTAGCACGCTTTCTACTTCTTTTGTATTTATTCTTCAGAAAATTTCTTTCATTACAAATCCATCATCTGCAATAGCTTTATCTATTTTCAGTCTTATTTGTTTAGTTTTGACATTTGTTCACAAATTATTATGAGCTGCTCCTACAATTATACTTTGAATTTTTGTACATAATAACAGTAACAACAATAACTACAGTAACTTCTGGCACTATAGTTTTCTTCATTTGAGTGTTTAAATTCTTTTTAGAGCTTTTAATCTTATTAAAAGCATTCACATCTAAATCAACAATACGATTTTTATTTTTAAATTCCTAAAATTTAGTTTAGTAAATCTTTATCATTAATTCTACTTGCTAGCTAATGATAGTTTTTTTCTTATAATATAATGCTGATACAACCTATATTATATTTAAACAGTTATTTCATTTGCTAAAATTTGTATTGAAGCCACATTGGTCTTACTATTAATTTAATTAAATTTGCTTTAGTTATTGGTAATAGCCAATACTCAAGTTCTTTCGCAATTGTTTTTAAATTAACTAAGTGAAGCATTAATAAAAAGTGGCATAATATTTTGAAACCAGTTTGTTTTAGTAAAATTAAGATCATTTAAAAGTTAATGGTTCTAATTGATGAAATTTATTTAAATTAATATTATTTTCACTACTAAATTTACTATATCCTTAAATCAGACAGCATTAAATTTTATCAGGTAGATAGTAACCTAGGCTTTATATGCCTAGCACAATATTTGTAATAACCATAATATCTAATTAACTATTATTTAGTGGTGTATTATAATAATTCTATATGCGCACTATATTATTCAAATTCTCATTATTTTTAAAATGCTTTATTAATGTATATTCCATGGCTTAACCACGATATAACAACAATTTCTTTATATGTACATAAATTACGTCTCAAATCTAAATCACTTTTTATTACAATCAATGGCATTATAATATATATTTTGCTATTGCTCCTTCACCTTTACTTGAAGACATAAGTTTCTCTCAAAGAGTCTTTGACCGGAATAACAAATTAATGCGTATTTCACTTTCTAAAGATGATAAATATAAAATATTTACGCCTATTAATGAAATACCAACAACCTTTATCAAAGCCGTATTATTATATGAAGATAAGCATTTTTATAAGCATTTTGGTATTAATCCTCTTTCTTTAGCTAAAGCTTTTTATTCTACTTAATGTACAGAACAATCGTAAAATAGGAGGTTCTACTATAACAATGCAAACAGCACGTTTAAGATATGGGATAAACTCTTCTACTATTCTTGGCAAAATGCATCAAATCATTAAATCTATCCATATAGAGCTACATTATTCAAAAGATCATATATTAGAAGCTTATTTAAACCTAGTGCCTTATGGAAGTAATATTGAAGGTATAGCAGCCGGCAGTTATATTTACTTCTATCGTGATCTAAAAGATTTAAATTTAATTGAGATTCTAAGTCTTGTAGTAATCTCACAAAATCCACTTAAAAGAGGTGGAAATTATGTTAATATTTTAAAAGCACGTAAATATCTATTTAATAAGTGGATAACGACTCACCCAGAAGATATTATTTATGATAAATTAATTAGTTTGCCTATTAAATTTAATCAACATAAAAATCTTCCATTTATTGCGCCGCATTTCACTTTAGAGATACTTTCAAATAATGATAGTCCTATCATATATACGACCATTGATAACAACTTACAAACTACTATAGAAAAACAAGTTAAGCTATATATTAATAATCAGAGGAAATACGGCATTTATAATGCCTCTGTAATGCTTATTGATTTTACTACTATGGAAGTGCTTACAAGCATTGGTTCAGCGGATTTTTTTAATAACGATATTTGTGGGAAGATTAACGGAACTAAAATCCATCGTTCTCCAGGCTCAGCATTAAAGCCGTTTGTCTATGCACTTAGTTTTGATCAATCACTAATACATCCATTAACTTTACTAAAAGATACACCTACTTACTATAATTATTATAAACCGGAAAATTTTGATAGTAGGTTTGTAGGTGGTTTAAGTGCTAGAGCATCGTTAATAAAAAGCCGTAACGTACCAGTAATATTTCTAGCATCTAAGTTAAAAAACCCGAATTTTTATGAGTTTTTACAACAAGCAAAAATTAGTAACTTACGAAAACCTGAAAATTACGGCTTATCTATAGTACTCGGCACAGTAGAAATTACACTTGAAGAATTAATTACTCTTTATGCTATGCTTGCTAATTTTGGAACTTATAAACCGCTTAGAAAGACCTTTATATCATCACGTAGCTTATCCATAGAATCTAAAAATAATAAATTTGATCACAAAGACGAAATACAGGATGACATTAACAATGTATTATTATCTCCTGAAGCAAGCTATCTAACACTTGATATTTTAAAAGATATGACGCGTCCTATTACATATAATATAAATTATAACTTACCGATTTATTGGAAAACAGGTACTTCAAGCTCATTTCGAGATGCACTTAGCGTTGGTATATTTGGGAAATATGTACTTGCTGTTTGGGTTGGTGATTTCAAAGGACAAACTTATGGAACATTTACTGGTAATATTTCTGCAGCCCCTTTATTCTTTAATATTATTGAAGCCATAACGAGACCAAATAAAGATGAGGATTTAATTCTTTCGAAAATTCATGAACTAAATATTACTAAAGTAAAAGTTTGTGCAGATACAGGAGATATCGATAACGATATGTGTCCTGTTAAAACAGAGACCTTATTCATTAAAGGTAAATCCCCAATAAAACAATCCGATATTTATTAAAAAATATTAATAGATTTAAAAAACGGGATGCCTACTTGTAAATTTGTTAAAGGACAAACAGAATATAAAATTATAAATTTATTACCAATAGATATCCTTTTGCTTTATCAAAAAGCAGGAATGCATATATTCCCGAAACCGATACCTAACAACAATTGCAATAACTTTACAAATTGGTATCATCAAAAACCTAAAATTATATATCCTGTAAAAAATTCTTTAAATTCAATTAAAGAGAATGATACTATGACCTTTAGTGCGATTAGTCACAATAAAGCAAGTAATATCTTTTGGTTTGTAGATAATAAATTAATAGCTACAGCAAAACCAAATGAACCAGTAATATGGAAAGCAAGAATTGGTGAGTTTACTATTAGCGCTATCAATGATAGTGGCAAAAGCGACAGTGTAAAAATTTATATTAAAGAATAAATGATATATGAAATTGCAATTGCCGCAGCACATAATAACCACGCACATCAGCAGAAACTGCTCTTGATTATTTAAAAGCAAGCATCTAAATACATTTAGTTAATTATTCAGTAATACCATTATAAAAAATACCACAAGCTACAGTAGGATAGAATTGAAAAAACCTTTCTAAATTCTCGTGAACATGAGGCTAAGATTATTGAATACAGTAAAGAATTTACATTTGATAAATTATTTTATTTTAATACAATTCAGAAAATTAAAAACAAATATGAACGCGATATATTACTAACAAAAATTTGCAATTTCAGAAAAAGTATTGTGTAAATCCTTTAATTGAGGACTATATATAGTTCCAAAGCTAATCAATGTATTTTGAATTTATTTTAAATTATTGATAAATTAAAATTTATCATAGTAGTAATAAAAGGAAAAAATACAATCTACGAGTATCTTTAACAGGATTAAAGGACACTTTAAAAATATTCTTCCTACAAAAGACCATAATTAAACGAAATCATTATATTGTGAATAACATAATGGTGATAATCATAAGAACATTATATAAGATATATTAGCATTCTCTGATATAATTTTGCTATAACATACTTTTTAAAATGTAGTAACATGCTAAAATTAAAAAACCTAGAATATAGATAAGGAACCCAAAATGTCAAGGTAAAAAACTAAATTCATCTATAAATATAGATAAAGGTAGGATTAATATTTAAAATGGCTTTTTGCAGACTTTAATACCACTTAATTATTCAAAATTTTTCATTAATCAGTATTAGGATTATATTTACAAAATGCTCAAAAATATCAGTTCTGTCTATAGATCAAATTTTCTCCTTGTTTTACAGGATTAACACAATTAGAGGCATTACAAGCAATCATATCATATTAAATAAGCAACTATCGCCTTATACGTATAATATTTAAACCTACAAATTATCATTATTTTTAGAGATCTACTATATGGTATCAATCCAATTATACCTATATTTCCTTAATTACAGCTTGTAAGTGATACATACAAAGTAACTATCTATCTACTATTAAAGGATGCAATATTACAACATTAAACAAGTTCAAATGATAAAAAAGCAATAGGATAGTGCAATAAGTAATAAGAAGTAAAAACAATATTTAATTCTAAAATAAGCAATATATTAGCGTAGAACAAAATTATAAAGGAACGTTACAATTTAAAACTTTAAAATATCAGTAATAATTTTAATTAATACGTAAAGAAAGTAATCTATTTTATAGTAATATAATGCTAATCTTAGCACCTTATAACATGCTAAAAAACTTATAAAATTATGTTCTATAAGATTAGTACAAGAAAAAGAAACTTAGCTTTGAAACACTACAGGGAACAGTAATATTGTAACATAGCGGGTATTCTACTATATGATACTTTCTTTAGGTAATATGAATAATAACCTCATTCAACAAATGTGGACAATAACAAAGAAAGGATTATTTTTTAATTGACTGATAATCATGGACTAGTACTTTTATCACCCTCTACAAACTATATATATTATGGCTTTACTTTGAAAGCAGAAATGTATCAATACAGCAGTTTGTGAATGGTCACCTTAATAAATCATTGATGCTTACTTTACCTCGAGTAGTTTTATCAACCTGCTTTACAATAACTACGCAATAAAGTCCAGGCTTGCCTACCTCAGGAGGAGGTAATATCCCTGGTACCACAACAGAATAAGCTGGAATTCTACCATAAATAATTTCGCCTGTATCTCTATATACTATTTTTGTAGAGCTACCAATAAACACACCCATACTAATTACTGATCCTTCCTCTACTATTACACCTTCTGCTATTTCAGATCTTGCTCCAACAAAGCAATTATCTTCAATTATAACAGGCTTGGCTTGCAATGGCTCAAGCACCCCACCTATTCCTGCACCACCGGAAATATGACAATTTTTACCTATTTGAGCACATGATCCAATAGTAGCCCATGTATCAATCATTGTACCCTCATCTATATAAGCACCGATATTAATGAAAGAGGGCATAATTACAACATTTTTAGCGATATAAGTACCAGTTCTCACAATAGCTCCTGGAACTTTGCGTATCGCTGCTTCTTTGAATATATTCTTATCAGTATCTGCAGGAAATTTAGGAGCAACTTTATCATACCAACTATTATAATTGTTATTATAAAGCTGCGATTCTGTAGTGATAAAATATAGCAATATAGCTTTCTTTACCCATTCATTAACTTTCCACTGATTGCCTTGCTTTTCACAAACACGAATTATACCTTGATTTAAACTTGCGATACTCTCATTAAGTATTTTCTTTAATTTTATAAGCTTTGAAGAATCATGAAGAATATTTTCCTTAATTTGCCAAGCTTCTTCAATTTCTTTAATAATATAGGACATATCTTTTAACTGTTTTATTGCTAATAATGATAAATGATATTATCATGGAATCAAATATTTTTTAAAAATAATTATAATTAATATGTATATTACTTGCCCAAATTGCAAAACACAATTTATTGTTACAAGCAATCAGATAGGTATTAACGGACGACGAGTAAAATGTTCTAAATGTAAACATTTATGGTATCAGAAATTAGATTACAATACTAGTAAATTAAATGATTTTAAAGATAAAATAAACACAGAAGCTATTAAAACACCTATTAAAAATCATTATAATACTAATGTACCAGTTATTTTGCCTCTTAAGAAAAAATATAAAATATTCCCAATATTATGGTCTAGTTTTATAATTTTTTGTTTAGTGATATTACTAATAGATAGCTTTAAATTCCTAGGTAAATATGACCAATTAAAAATAGAGGAAATTAATATAGGGAAATATCGCAATATGGGCGGTATGAAGATATTTTATAAATTATCTAATGAGTCTGATTATTTAATTACAAATCCTATAATCAAAGTTAGAGTAATTGATGCTAATCATCACACGTTAGGTGAATATGCATCAATTACAAAATTACGAACAAAAATCTATGCCAAACAAGCAATATATCTAGAATTAAATATTGAAAAAATCCCTGTGACTGCAAAATATATTGACATTACTATATGTAATAGACTAGGGCTTTTGTTTAAGTGACAATAGCTGTGCACATGACTTATCTATGCATAACATATACTTGAACACGGGATCTAACAATATTAACATTATATATTTTAAAGTAATTTTTATAGGAAAAATAATAAATCCTGAACAAGAATTTTTACTATATTCCATTCAATAAGTACTTAGTATCAATATAGCTAGCGCTATAGCTATTCACAATTCTATTTAAAAATCAAAACAATGATAAGTAAAAACTGATTGTTCTGACTAATGATATGATAATTTTTAGCGTAGATTAAGAAACACCACAACTTGAGCTATTATTATCACTTGATACCATATTCACAATATCTGGTGCTTTAAATAGTATAATTATTGCAGTAACTACTACTAAAGCTACTTCCCACTGCAATTTTCCTCTTAATGTTTGAATTCCTAAAACAATTATACCTACAACAGCTATACCTTTTGCAGTATTGCCTCTAAATACTTTAATTAACTTACATAATGCATCACCTACAGGATCACTGACACTACTGCCTAAACTATCAAAAGCTACCATAATAATAGCCACGCTTAGAATAGTAAATAATATACGTAATGATATATTATAATCGATTAATTCTTCGTCTAATTTACGATTATGAAAGTTCATATATTTTACCTCAAGAAAAATTAGCATTTAAAAAATAATGTATAATTTATTTATATAAAAATCAACTCATAAATATCACAATTTTAATTAATATGCAAAAATATCTTAAAAAGACTTATTTTAAGTAACATTATAATCACATATTAGCCTAATTTAACTTCCTAATATATAAACAAACGTAAATAAAAATAACCAAACTACATCCACAAAATGCCAGTACCATGCAGCGAATTCAAACCCTAAATGTCCATTACCTTCTGTAGTAAAGTCTCCTCTTTTTGCTCTAAAGTAGCAAACTATTAGAAATATGGTACCAATAACTACATGAGCACCATGGAAACCTGTAGCTAAATAAAAATTAGAAGCATATATACCATCTGTAAATTTAAACTCCGCATGATAATATTCATATACTTGCATAAGTGTAAAAAATATTCCAAGCACTATGGTAAAAGCAAGTGCAGTTACACAATCTTTTTGATTTTTTTCTTCTAAGGCATAATGAGCACCAGTAATAGTAGTACCTGATAAAAGTAATATTAAAGTATTGATAAAAGGAATATCAAATGGATCAAAAGTTTTAATTGTAGGTGGAGGCCAAATGCCTTGTTTTACAACCCATACCCCATCTAAAATACCTACCGGTGATATACTTGATTTTAAAAAAGAAGCAAAAAATACACTAAAAAATACTGTTTCAGTTAAGATAAATAACACCATACCTATTTTTAATCCTTTCCTAACAGGGCTAGTATGTTGATGTTCTACTATTCCTTCCTGCACTACATCTCTCCACCAAGAATATAAACAGTAAATTACTGAGATAACTCCTGCAGATAAAATATACATATTAAATTTATAGCCATGCATGGACGAAATACCCCCTATAACTAGAAGAAGTAGAGCAAAAGATGTGAGAATGGGCCAAGGGCTTGGATTTACTATATGAAATAAATGTGATTTAGTAATAGAATTTGAATTCGGATTCATAGTTTTATTTTATCATTTTCTAATTAATACTGCAAAATATACGAAAATCAACTTAGAACAGAGTAATTGATCATTGAAGTCGGATAACAGAGCGTATCTATATTTAAACGTTCAACGCTTACAAGACAAAATAGCAAATTTTTCAAGTTTAACTACGATAATTATTATTGATGAACATCAAATTTTAGCAGCAAATTATACCACTTAACTCAGAATTACATTATTTATTATTAATGACAACTAAAATCCTCTTGACTCTTTATATTATTTAACTAATATTATAGACTGCCAATAATGTTGAAGCTCCATTTTGTTGCAAGACCAATCTGTCAAAACTGAATATTTATGCCAGGGGTCTATTATTATAAGTGAGTAAAATCATGAAGTATAATGGAGGTTGTTGTCTTACAGCAGCGGAGCTTAACCCCTGGCACCTTTATACTTTGTAAATTCAATAATTAATCAATCCTAAAAAAATACAAATGCAATAACCACTTCTAATAATTATGTTTTGATTATATTGTTAAGCTTCTAAGAAATAGATTTCAAACTAATCAAGTTGATCACATGCTAAATCTTCTTACTTAGAAGTATAGAAATACGACAAATTATCTTCACTATTTTACTAATGATGTCTGTAAATATTGACTCAGTACTATATATTATAGCAATATTTTTATGTTCAATTTCATCAAGTCGAAATTTAATAATATTATTTAATAATTCTGGCTCAACATTTTTATTTTCTAAATAATTTATTTGCTGTGCATAATGTTGTGCTATTACTTCTTCTATACTCTCGGTAACAAGCATTGCAGATTTTTTCCCTATTAAGGAAGATAAAGCACCAAGTAAAAATCCATAATGATGCCAAAAACACAGTAAAACTGTTGGTCTGACTGCTCTTTCAAGTAATTTTTTTTCAAAAAAATTTAAATGTACTACTTCGTGATCAAGCATTTCTTTAATCAATATACGATCATTTTTAGATTTGATATATGTTAGCTGTCCTTCATAAATTCTTTTTGCACCATACTCTCCAGCATGATTAACTCTAATTATATCGTGTATTTGTTTGTCAAGGTTAGAAAAATCAGGTCTAGGCATAATGTATACTCATTGAACTTGAAAATTAACTACGTTATCTTATAATTGATACAGTACTCACTTAATATACTCCTTCAGTACCTCATATACTTACTTTTCCTAAATTAAACTTTGTATACTCTCTAATTTAACTTTTAGAGTATACTTTGAAATAAATCGAAACTAGCAGGATTTAACTTATAATCCACTTCTGCCTGTTGTAGTAGTTTCAAAGTCTTTATACATTCAGTTAGGCTGAGAGCATGTACTATCTTTGTAAAATCATTAATATTATGATAGAAAATCGGCGGTGATAATGATTTTATTGCAATTTCCAAACATTCACCATTTTTTACTTTCGATAAAACTATATATAAATTTAAATAATGCCTTATTAAAGCTCTAATAATTAAAACTTCATTAATATTTTGATTTTTTAAAATATCAAGCTCTTGCAGAAAATTACTATAATCTTTTTTTGAAAAATATATTGCCAAATTACTACCATTTGCTGTAATTTCACTACTTATAACTTCTAAAACATGGTTTAAAGTAATTTCATGTACATCATGAGCAAAAAATATCAATTTATTGATTTCGCTACAAATTAAAGCATGATCACCTTTTAAATGAGTTTTTAAGTAAGTGATAGCTTCTTTACTTATAACTTTATTAGTTTTTGCTAATTTACCTAAAATAATTCGTTCAATTTTTGCTTCATCGTCATGATAACAAGCAACTACCGCTAAATATTCTTCTGTTTCAAAAAACTTTTTAACACTCCCACTAGAATTCATATCTTCCCCTATAAATACAGGGAAATTTATATAATCACTGCTTAGAATTGTTTTTAAATTCTTATCGAGTGAATTTCCAATTGATCTCACTTTAATTAATTCTTTTTGACCAAAAAAATTAGGTGAATTAAGTAATATATCTAAAGATAAAATATTAAGATCTTCATATTCTATAGAAGATTGTAGCATATTCAAGTTTTTGATTAAATATGTACAAATCTTTTCTATATAGCCTTTATCAGGACCATATAGTAAAAGAGCCCTAATCTTCCCGGCTGCTATTAATTCAAATAATCTACCTATTTGCGAAAAATAAAATTGCATAACTTAACTATTTTCGTATAAAATATAAAATTAATCTACTACGAATTTCTTCTGCTGCTTGATATGCCAAACCTATTCCTGTTCCATATCTTTCAACATTTGTTGCATATGGTGTAAAAATAGCATTATATGATGTGTTTTGGCAAAACTTCTCTTCAATTAAAATTTTTTGGCTTTCTATATCAATTAATTTATATCTAACTAATTGATTAATATCTTCCCTTAAAACATTAGAGTTTTTTTCAATAGTAGCAGGCATAGTTGTTACACTAAGCTCAGCTTTCAGCAGGTATTTTGCTTTTGCTTTCTGAGGTAAAAGACGAGTTAAACGATTATAAAATTCAGCTCCTTCTATTGTTCGAATCGGTTCAACTGTAATAGCTTCTAAATCTTTATTCCTACTGTACTTTTCACTATATACTGATTTTAAATTACAACTGCTGATTAGACAGCATAAAATTATTAGAAATAAAAAATGCATATATTATGCTTAATGTTGATTTTTTATATTAATAACAGTTAATTGTGATCTTGTGAAAGAAAATTATAATTAATTTATATTTGTTAAAATACACCTTCAAAAGAATTGGAACTTATTAGATAAACTTGTTCAAGTATACCAATACAAATACACAAAAAATAACAAAAGAGTTTTCAACAGCTAATAATTAACACTAAAACTGAAAATATCACAAAATATTATTTAAAAAATCTCTTGAGCTATCTAAAAAAGGGAGCATAAAATTATCATCATAAATATTAATTAGTTATAATGCTTATAATACTCAATAGAGTTTTTTTAATTGATAGGAAAAGATGAAATATTATATCACTAAAATCTAATACTTAATATTAATTAGAAAGCAAGGTATACGTTTTACTACCTATATATCGGTGTAATATTCTAAATTTTATGCGTTATTCAGCATAATAAATTTGTAATTTTCATCAGCTTTTGTATAAATTATCGCTTATCGCTTACTTCTATTAACATTTTAATAAAATTACTATAAAATAACATTATTAAAGATTATTGCAAATATTTAGCTAATACTAATATTGCACTAATCTTATTTCTTTATCATTAATCACATCACATGTAATAACGTTTTATCTTCATAATACTCTTAATATTTTTGAAACACGTTCAAGGAAGCTGATTTCATCACTCTCGATATCATCAATAAACGCGGAGACAAAAATCAAAATAAATCCTGATTACACATATAATTATAGATGTTTTTGTATTTTTATCTGAATTTAAAGATTAAGATTCTTAATAATTAATCTTCTAAAGTATGAGCTTAGAGACTTAAAAATAATGATGTAACAAAAACTATGTTGAAGTGATTATACATTAATTTTTTCATAATTATTATCACTATGGATTATTTACTGAAGTTTTATATTTTCCATATCCCAATCATGAGAAATAGTATTATACTTTAATAAATAAGGCTTAGTATCTACAGAATCGAGCGTGATATCTGCTATCATATCATTATGCGACGCGATAAGTTCATTATAGCCAAAATTAGCATAATAAGGTTGATAATTTCTAAATCTAACTGTTATAAATTTCTGTTTAGTAATAACAGGTAAGAATTTTACTAAATCATCAAGATTAGTTAAAGCTAAATCTTTCATTTCAAAAATTTGCAATCTATAAACATTTTTATAATCTTTATTAAAAAACGTCGGTATAGAGCTAAAACTACTACCAGCTTGAACGGACGCTACGCTTAAAGCTTTAAGCGGAATGCCTGATTTATTACTAAAATAATCATCGGATTCAAAAAATACTGCACCACCAAAATTTATCATCTTAGCAATTTTATTATTGTTTACATCATATAAATCTACCGACTGCTCTAACTTTTTTCCATCACGGAATATAGTAAGTTTAATAGTGACTCCTTTAAAATTATCCATTTCTCTATCAAATAATGCTAAATTGCCGCCAAGTTTCTTGATCATTTACTGCCCAAATAATATCACCTGCTTTTAAAGATTTTTGAGCAGGAGAACCAGATAAAACTGCCTTAACACTTATCACTCTATTTCTACTATCAGGAAATTTATTTATATATTTATACATTTCGTCTTTAGGAAAATTATGATGTCTAACTGCTTTATTTAACGAATATAGCTCGCTAATTATTCCTATATGTTTCCTGCTTGGCTGTTTATTATTTTTTAAACTTTTCAAAGTACGTGCTACATAATCACCGTGTAATGCTAAAGAATGAGTTTTACCGCCACCATATAATACTCCTATAGCCTCAATCTTATCATTTAATACAGGCGAACCACTAGCACCACCAGTAGTATTAAGGTTAATAACATAAGTACATTGGGGCATTAAACCTTCAATATGATAAAGATCGGATAAATAACCAGTATGGAAAGAAAAACCTTTCGCCTCTGTATTACCAACTACAAAAACCTTTTGATTTAATTTTGGAAGCTCACTAGTAAAAGCTATTTGTATTGCTGAAACCGGTATATCTTTACTCTCTACTTTCAAAATAGCATAATCTTGCCAAATATCGTAATAGATAAGTTTTGCTTCTGCCTGTTCACCGTTATAAAAAGTAACAAAATAAGTTCCGATAGATGCACCACCAACAACATGAGTATTAGTAATTATATAACCGTTATTCTTATCGTTAATAAATCCTGTTCCAGTCCAACTACTTGTATCATCATAAGCCGATACTGCAATTCTAGTCTCAATCGTTACGATTGCTTTTTTAGCTTTTTCAAATATTGCAGTGTTTTTATCAGAAGATGCTAAAACTATATTATTCGTAAAAACTAAATTAATAATAAATACAAGTTTTAGTAAAATCGGTAATTTTTTCATTTTTACCTCTTGTAAAATCACTTAAGCAGCACTATATCAAATAAAAAGTCATAATACAATAATTAAAGGGCTTGTTGAACACGATGTCATTTCCACAACAGCGACAATGCATTCTATGCATTGTTCTGGGGGCACAATTACAATTAGTGTCTCACATCGCAGCTTGTCCACGGTATTCAAAAAAACAACTTATAATTTATTTCTAGATCCTGGGAATAAATCACCGAATAAAGGAGATAAAACAGGTCCACACTGGAATAATATAGAATACAACGCTAATAATAAACAAAAAGAAAACGAGGAATATTATGGGAAAAGTAATAGGTATTGATCTTGGAACTACCAACTCTTGTGTTGCGGTAATGGAAGGGAAAGAACCAAAAGTAATAGATAATGCAGAAGGTGAGAGAACGACACCCTCAATAATCGCATTTGCTAACAGCGAAAGACTCGTTGGACAGCCTGCTAAAAGACAAGCGGTTACTAACCCTCGGAATACTATATATGCGGTAAAACGGTTAATAGGTAGAAATTTTACCGACCCAATGGTTAGAAAAGATCAAGGTTTAGTGCCATACAATATAGTTAAAGCAGATAACGGTGATGCATGGGTCGAAGCAGATAATCATAAATATTCACCTAGCCAAATTAGCGCTTTCATTTTACAAAAAATGAAAGAAACTGCTGAAAACTATTTAGGTGAAAAAGTAACGCAAGCAGTAATTACTGTACCTGCTTATTTCAATGATGCACAACGACAAGCAACAAAGGATGCTGGTAAAATAGCAGGTCTTGAGGTCCTTAGAATAATTAACGAACCAACTGCTGCCGCACTTGCTTATGGTTTTGAAAAATCATCAAGTAAGACTATTGCAGTATACGATCTTGGAGGCGGAACATTCGATGTTTCAATTCTCGAGATTTCTGACGGTGTTTTTGAAGTAAAATCAACAAACGGGGATACATTCCTTGGTGGAGAAGATTTTGATACAAGAATATTAAACCATTTAATAGAGGTATTCAAAAAAGAAAGTGGTATTGATTTAAGCAAAGATCCTTTAGCACTACAGCGTTTAAAAGAAGCAGCGGAAAAAGCTAAGAAAGAGCTATCTTCCACGTCGACTACTGATATTAATTTACCTTATATTACTGCTGATAGCACAGGACCAAAACATTTAAATATTAAATTTACTAGAGCAGAACTTGAAAAATTAGTAGATGATTTAATTGAGAAAACTATTGAACCTTGCCGTCAAGCTTTAAAGGATGCAGGTTTTAAGCCTAATGATATTCAAGAAGTAGTATTAGTAGGCGGTATGACTAGAATGCCGAAAGTACAAGAAGCCGTAAAAAAATTCTTTGGACGCGAACCACATAAAGGTGTTAATCCTGATGAAGTTGTAGCACTTGGTGCAGCTATTCAAGGAGGCGTGCTAAATAAAGAAGTAACGGATATATTATTATTAGATGTTACACCTTTATCACTCGGTATTGAAACCCTTGGTGGCGTATTTACAAGATTAATCGATCGCAATACCACTATTCCATCAAAAAAGAGTCAAGTATTTTCAACAGCTGATGATAATCAGCATGCTGTAACTATTAGAGTATTCCAAGGTGAACGTGAAATGGCGAAGGATAATAAATTACTTGGTCAGTTTAATCTCGAAGGTATACCACCTGCACCAAGAGGAGTCCCACAAATAGAAGTAACGTTTGACATTGATGCTAACGGGATAGTTCATGTTTCAGCTAAAGATAAAGCAAGCGGCAAAGAACAGAAGGTAACTATTCAAGCTTCTGGTGGTCTTAGCGATGCGGAAATTGAGCAAATGGTTAAAGATGCAGAGCATAATGCCGATGAAGACAAAAAGCGTAAAGAACTTATTGAAACAAAAAATGCGGCTGATAGTTTAGTTTATTCTACTGAAAAGACTTTAAGAGAGTATGGAGATAAATTATCATCTGAAGAAAAAGGAACAGTTGAAGAAGCACTAACTTCTTTAAAAGCGGCACTTGAGTCGGAAGATGCTTCTTTAATTAAAGAAAAGACTGGGAATTTAACAGCAGCTAACATGAAAATCGGTGAGGCAATGTATAAAACACAAACCGAAAATCAACATTCTGAAGCAAATACTGTTAACAATGAAAAAGTAGTAGATGCTGATTTTCAAGATGTAGATAAGAAATAGTGTTGTCACTCCGTTGTTTGCACACTAAATCCAGGTGATAAAAGCGTGCGTTTTTTACTGGATGACGTGGTTAAGCCATGGTATGACATCGTCGTATAAAACAACTATTATAACATAATTTCATGTCACAGGACTATTACCAAGTATTAGGAGTTAGTAAAACAGCTAGCCAAGCTGACATTAAAAAAGCTTACCTAAAGCTAGCTAAGCAATATCACCCTGATACCACTAATGCTAATGATGCCGAAAAGAAATTTAAAGAAATTAATGCTGCTTATGATGTTTTAAAAGACGAACAAAAAAGAGCCGCTTATGATCGTTTCGGGCATGATGCTTTTCAAAGCCAACAAGCGCGAGGAGGTGGAAATAATGGCAGTTTTCATCCGGATATTAATGATATATTTGGAGATTTCTTTAGTGACTTTATGGGCAGCGGTAGAAGAAAGCAAACATCAAGCAAGATTAGAGGATCGGATTTAAAATATGATTTAACAATTAAGCTAGAGGAAGCATTTCACGGTATAGAAAAAAATATTAGCTTCTCTAGCGAAGTAAAATGCGATACCTGTCACGGCACTGGTTCTGAGAAAGGTGAAACAATCACAACTTGCGATGCTTGCGGTGGTGTTGGAGCAACTAGAATTCAACAAGGATTCTTCACACTTGAACAAACTTGCCATAAATGCCAAGGTAATGGACAAATTATAAAAAATCCATGTAAAAAATGTCATGGCATGGGACGTTATCATAAACAACGTAATTTATCAATTAATATTCCTGCTGGTGTTGAGAACGGTACTAGAATAAGACATACAGGAGAAGGAGAAGCAGGTATTAGAGGAGGTAATAACGGTGATTTATATGTTGATATCGCAATAAAACCACATGATATTTATAAAGTAGATGGCGCAAATCTACATTGTAAATTACCTATTAGTTTTGTGCATGCTGCTCTTGGAGGCGAAATAGAAGTACCGGTAATTGAAGGTGGAAAAGTAAAATTAACAATCCCAGCAGGTACTCAAAACGGTGATCAATTAAGGTTGCGCAGTAAAGGTATGTCTAAAGTCAGATCTACGATTCGAGGTGATATGCTTACACATATTCATGTTGAAGTACCTAAAAATTTATCTAAAAAACAACGTGAATTACTAGAAGAATTTAAAAAAGAATCCATAAACGAAAAAGAAAATGATAGTAGCTTTTTTAATAAAATGAAAAGTATGTGGTCATGAATTTTGTTTAACTTTTCTATAGGAATTAAACATCTGTTCCTCCCAATATTATTATATCTGAAAGATTTATATATATTGAGTGCAAAATTATCTTATAAGTAATGCAATAATAGTGAAGCTTGTTCCTGTCAAATATTTGATAAATATAATAATGCATGTACAAGGCATAAAAATTACTCTAGAGAAACGGTGTTCTCATAAAGAAGCATAGTCAACTTAACAAAATAAAAATGATATTGGATACAAGAAATAAGCAAAATAGATATGTTCTATTGCTTATTATAATCAATCTAGCACTCAAATTTTGAGTTACAAGTATATGCTGTATTAGCAAGAATTAACGCGTTCACCTCAAATCTTAAATCTTAGTTACCTAAATCCTCACTGCTGAAGAATATTATAAGTTTTTGAGATTTTAAATTGAATCCTTGAAATTTTGTAAGCCTATATGTATATTTAGTTATTAACTTAATTTAAGTTCTTATGAAATTAACAAAATTATTGAGTGCCCTTTTAGTTATAGGGTTAGTTTTAGGTGGATGTAAAAGTAAAAAAGACAGTAATGATATAGTAGCACCTATCGCTACTCTTTATAATGAAGGTATTATATTATTGGACAAGAAAAAATATAAGAAAGCAGCAGAAGAATTTGGGAAAATATTTTATCAACATCCAGGTAATGAAATGACACCTCAAGCCGAATTAATGCAAGCTTATTCTTTATTCCTTGCAGCTCAATATGAAGAAGCAGTGGACATACTTAATATGTTCATTAATTTACATCCTGCAAACATAGATATTGCTTATGCATATTATCTTAAAGCGCTATCATATTACATGTTAATTTCAGATGTTAATCATGATCAATCTAGAACTTTTTTATCTAAGGATAGTTTTGAAGATGTAATAACAAAATTCCCTAATACTAAATATGCTATCGATTCATCTTTAAAAATTGACTTAGTTAATGATCATTTAGCAGGTAAAGAAATGATGATAGGGCGCTTTTACCTAAAGAAAAAGAACCCGATGGCAGCTATAAATAGATTTGAAGAGGTAATTGATAATTATCAAACTACTTATCACTCAGTAGAAGCACTTTACCGTTTAGTCGAAAGCTATATGATGCTTGGCTTGCATGATGAAGCAAAAAAATATACCTCAGTTCTAGGTTACAACTATCCTAATAGTAAATGGTATAGTTATGCGTACAGACTAGTCAAAAACTATCAAAATTAAACAGCATATGTTCTATAGTCTCTCAGTTAAAAACTTCATTCTGATAGACGAACTGGAAATTGAGTTTAGTAAAGGTTTGTGTGTTATTACCGGTGAAACAGGCGCTGGAAAATCTATTTTACTTGATGCCATTTTATTTTGTTTAGGTTATAAAACCTCAAATAATATAATAAAGCATGGCAAAGATTACACTGTTGTTAATATAATATTTTCTTTAAACGAAAAAATTAAAAAATTTCTAATCCAAAATTTTATTGAACCTGAAGAGTTATTGCTTGTGAAATGTCTGCAAAAAGCAGAAGGACGAAAAAGTTTTTTCATTAATAATCAAATAGTTACTAAAACACTTATAAAGCAATTAGCTAATTATTTATTCGAACTTCATGGACAAAATAATAATATTACACTTCTAGAAGCAAGTACGCAACGTGATATTTTAGATAGTTACGGTGATCTTTTAGAATTTCGTGTAAAACTTGCCAAATGTTATCAGATTTGGCAAAATACTCGGAAAGAAATTGAAGAAATAACAGTAAAGCAAAATGTAATAGAGCAAGAAATTGATTATTTGAACTTTGTAACAGAAGAATTAACTAAACTGAACATTCAAATAGGTGAAGAAGAAACATTAACAAATATACGGCAAGATTTGCAAAATAAAAACAAGGATTTACAGTTAATAAGAGATATTATAGCACAAATTAATAACCCTGAAATAAATATATCAATTAATAGAGCAGAGAAATTATTAGCAAGGCAACGCGATAATGATCGTTTTAAAGCTATCGCTACAAGTTTAGAGGAAGCATATAATAATTTAGAAGTAGCACGTCAAGAATTATCAAACCTCTTAGATAGTTTTACCTATGAGGAATATAATCTTGAAGAAACAGAAGAGAGATTATTTTTAATAAAAGCTATTAGCCGTAAATATAACGTGCCTGCAAATGAGTTAGGTAATTTTTTAGATAAATCTTTAGAGAAGCTGGTAATATTAAAAAATAAAATAGCAAATAGTCATAAATTACAAGCTCAAGAGGTGCTATTACAGGAACAATATTATAAATTAGCAAATGATTTATCTGCAAGGCGTCTTATTGCTGCGAAACATTTAGAAGAATCATTGAATCAAGAGTTAAAACAGCTTAAAATGGAGAAAGCAAATTTTAAGATTGAGATCAAAACTGCAATAGATCCTACTGCAAGCGGTAATGACGATATTGTGTTTAAAGCTTCTACTAACCCAGGAATGAAAGCAGAAGAAATTAATAAAATCGCTTCCGGTGGTGAATTATCACGGTTCATGCTTGCTTTAAAAACTTCTTTGTTTGATAAAATGATAAAACCATCTATTATATTTGATGAAATAGATGTCGGTATTGGTGGAGAGGCTGCAGATAAAGTAGGTGACCGGTTAAAAAAGCTTAGCTCGGTGACACAGGTAATAGTTATTACGCACCAGCCACAAGTAGCAGGTAAAGCGGACTTGCATATAAAAATCGAGAAAACACAGTTAGAACAAGAAACGAAAATCAAAGTGAAAGCTTTAAATCTAGCTGAAAGACAGAGAGAACTCGCTCGCATGATTTCAGGTAAAACAATTACCGATGCAAGTTTAAAAGTAGCAAAAGAATTATTATATCCAGTAGCTTGTCCACATGATCAAAAGTAAAGAAAGATGGATCAAATTTTTACACTTATCCTTTTTATAATTGGAGGGTAATTGTAAAACCACTGTATAACAAAGTAGTATTAATCTACATAAGGGTGACATAGTAGAGAAAAATTATGAACAGTAACTACACAGAACTAGAAAACAAATTTGCGACAATCTCGCATTTTAATAATATCTTGAGCATATTACACTGGGATGTTGCTGTAAATATGCCTATAAGTTCAAGTAAGAGCAGAACGAACGAAATAATCACTTTAACGTCGTTTGTCCATTCTATGTTCAAATCTCCTATTCTAAAGGAACTCATTAGTAAGGCAAAAGAAGAATCAAAAAACCTTAATGAATGGCAAAATAGTAATATTAGAGAAATTGAGAAAAAAATAACAGATGCAAACTGTATTGACGAGCAGCTAAATAAAAAATTAGTCGCTTCTACTACTACAGCTGAACTCGCTTGGAGAAAAGCAATAAAAAATAATGACTATAATTTATTTAAACCATACTTACAAAAAGTTTTGGATTATACCAAAGAAGTTGCTAAAATACGAGCGTCTATTTTAAATAGTGGATTATATGACTCATTAATAGATATGTTTGACCCAAGCAGAGAAAGTAGTGAAATTAAACAAGTTTTTTCAGTACTTAAAATAGCACTTCCAGAACTCATAAACAAAGTTTTAGAAAAACAGAAAAGCAACAAAGAACTAGTAAAGAACAGTGCACTAGAGCCTGAAATGCAAAAACTTATCGGGCAACGCATTATGCAAATAATGCAGTTTGATATGACAAAAGGCCGCTTAGACGAAGCTACTCATCCTTTTTGTCGGGGGACACCACATGATATACGTTTAACTACTAGATATAATAAATATAATTTCGTAAGTGGCTTAATGTGCATTATGCACGAAACAGGACATGCTTTATATGAGCAAAATTTGCCAGAAATTTATAAAGGACAACCAGTTGGGCTTGCAAAAGGTATGGCCTTTCATGAAAGCCAATCTTTATTTATGGAAATGCAAATAGGTAGATCAAGAGAATTTACAGAATTTTTAGCTAAATTACTTCAAGACGAATTCGCTCTTAAAGGAGAAGAATATTCAGCAGAAAATTTATATAGAAAAATTACAAGAGTTAAACCTGACTTTATAAGAGTTGAAGCAGATGAACTAACTTATCCGATGCATGTAATATTACGTTTTGAGATAGAGGAAATGCTTATCAATGACGTTTTAAATCTTGATGAATTACCAAAATTTTGGGATAGTAAGATGTACGAATACTTAGGTATTATACCAGTAAATTTTATCGATGGATGCCTGCAAGATATACACTGGTCACACGGGAATTTTGGTTACTTTCCAGCATATACAAACGGTGCAATTATTGCATCAATGATAATGCAAAAGATAAAAAAGAAACACAAAAATATAAAAGATGATATATTAAGGGGTGATTTTAGTAATTTAAATCATTATCTAAATAATAATTTGAGAAATTTCGGTTCGTTAAAAAATTCAGCCGATTTACTAAAAAGTGCTAGTGATGAGGAAAACATTAACCCTAATGTGTATGTAAGGTATCTAGAAGAGAAATATTTATAGGTTATATTCTGAGATCTTTTATGTCATTGTTGACACTCGGTAGGAATAGCAGACAGGATATAAAAGTGAGCTATTACATTTGCACAAAAAAATAAACAATACAAACAACAATATGGAAGAATATTTTAATAAAACAGGTTATTTATTTTCTGGGAATGCTGTCTTTGTTGAAGAACTATATAGACAATATTTAGCAAACCCAAATTCTGTTGATCAAACTTGGCAAGAATTTTTTGCCGATATTAAGGATAATAACGTAGTGCTTAATAAAAGTACTGCTAAAGTAATTAGCACTAATGTAACAAACAAAGAACTATTAAATAATAATTTATCTTCTGAAACATTAAATAATCTTAAGGCTAAAGAAATGATCAGTGCTTACCGCAGGAATGCTCATTATTTAGCAAATCTTGATCCGCTTGGTCTTGAGATACGCAAAACAAAAAATGATTTAAAACTTAATATAGAAGCTTTCGGTCTTGATAGTAGTCAGTTAGGAGAAAATATCAATATTATGGATGAATTTATTGGTACTTGGAATTGTAAATTATCCGAATTAGTTACAAAGCTCGATAAAGTTTATACAAGCTCTATAGGTGTAGAATTTGATCAAATAGAAAATGTAGAAGAAAAAAACTGGTTATATACTAAGCTAGAAACTGATATTACATTTACGTCTGAAGAAAAAAAATCTATTCTAAATGATTTGGTAGAAGTAGAATGCTTTGAACAGTTTTTACATATAAAATTTCCTGGTGCTAAACGTTTTTCAATTGAAGGTGGTGATGCTTCTATAGTCGCCATGAATAAAGCTATAGATTTATCTATGCATCAAGGCGTTGAAGAAATCGTCATTGGCATGGCACATAGAGGGAGGTTAAATACTCTAACTAAAGTAGTCGGCAAACCTTATAAAGAAGTTATTGCAAGCTTCATAAATGGAAACATATTTCCTGATGGACTAAATGTTTCTGGTGATGTAAAATATCATTTAGGCTATTCAGCAGATAGAGTCAGAGCAAATCAGAAGATACATTTATCTCTTGCTGATAATCCATCACATTTAGAAGCAATCAATTCTATAGTTGCAGGAAAAGTTAGAGCAAAGCAGGATATTTTTGTAGATACTAAACGCAGTAAAATTAAGGCTATTTTAGTGCATGGCGATGCTGCTTTTTGCGGTCAAGGTGTAGTAGCAGAGAGTTTATCCATGTCGCCTTTAACTGCTTATAATGTTGGGGGGATATTACATTTTGTCATTAATAATCAACTAGGTTTTACTGCAAATGCCGCTGATACTAGAGCTAGCAGATATTCTACTGAGTTTGCGAAAATCATATCTGCTCCGATTTTACATGTTAATGGTGATGATATAGAAGCAGTATTAAAAGCAACTGATATTGCTGTAGAATACAGGCAAAAATTCAGCAAAGATGTTGTAGTAGAAATTATTTGTTATCGAAAATACGGACATAATGAAGGCGATGAGCCGATGTATACTCAAAGCAAAATGTATAACATTATAAAAAGCAAACCAACTCCTGGAAGTATTTATGCGAATGAGTTAGTAAAAAATGGTATAATTGATAATAATTATTATGCGAAGTTAAAAGAAAAATTTAAAATAAGGCTAGATCAGGAATATGAACAAGCAAAAAGTTATAAGCAAGAAACACATTTTTTCGAAGGATACTGGAAAGGTATTTCTCGTATTCGAGGAAAAGATGCAATAACAGGAGTAAATTAAAAAATATTACAAGATTTAGGAACTAAATTATGCGAAATACCAAAAGATTTTGCGATTAATCCAAAACTTATAAGATTATTTGAAGTTCGCAAAACTACTTTAACAACTGATCAACCTATTGATTGGGCTACAGCAGAACAGCTAGCTTTTGCACATTTGCTTTGTTCAGGTATAAATATAAGACTAACCGGACAAGATTCAGCACGCGGTACTTTTTCACATCGTCATTCAATATTACACAACCAAATTGATGATACAACATATATACCGCTAAATAATTTATCTAAGACGCAAGCAAAATATGAGGTAGCTAATAGTAATTTATCTGAATATGCAGCACTTGGTTTTGAGTATGGTTATTCGCTAGCAAATCCAAAAAATTTAGTTTTATGGGAAGCACAATTTGGTGATTTTGCTAATGGGGCTCAGATCATTTTTGACCAATTTATTTCAAGTAGTGCTACTAAATGGCTTCGCATGAGTGGACTTGTTGTACTACTTCCACATGCATTCGAGGGGCAAGGCCCGGAGCATAGCTCAGCACGACTTGAGAGATTTTTACAACTCGCAGCTGAGGAAAATATGTATATTACATATCCAACTACTCCTGCGTCAATTTTCCATCTGCTACGTCGTCAAATACTTGAGAGTACACGCAAACCATTAATCGTAATGTCACCAAAATCATTATTACGTCATAAATATGCAGTATCTAAACTTGATGAACTAGGTGAAAATACTACTTTCATACCTATTTTAGATGAAGTCACTAAAATAGATACAAACAATGTCACTAAAGTAATTTTATGTAGCGGTAAAGTATATTACGATCTATTTGCAATGCGTACTAACAATAGTAATATAGTAATTATCAGGCTTGAACAATTATACCCTTTTGTAAAAAAACTTGTAGCATCGCTATTAAAAAAATATAATAAGGCACAAGCATTTATTTGGTGTCAAGAAGAACCAAAGAATATGGGCGCTTGGCATTATATAGCTACTCACTTAAATGATGCTCTAAAAGAAGCAGAGATTAACAACGAATTTAAATATGTTGGTAGAGAAGAATCAGCGTCTCCTGCAGTAGGTTCACTGCAAGTACATAATAAACAACAAGAAAAGTTATTAATGGAAGCATTAGGAGACGATATTATTAAAGAGAAATTATATTGACCGTTTTTAGGAGTAAAATAAATTATGAGTGTTAAAATTATAATACCATCGCTTGGGGAATCAGTAACAGAAGCAACTATTGCTAAATGGTATAAGAAATTAGGTGATTCAGTTAAAACTGATGAATTACTATTAGAAATCGAAACTGAAAAAGTGACTTTAGAAGTTAATGCTCCTTGCAACGGTACTATAGAGAAAATAGCAAAAACTGATGGTGCAAATGTAACAGTTGGCGAAGAAATAGGTGAAATCAATGAAGTTGTAGATACAGATACTGCTTGTACTAATAATAATTCTTATAAAAAGCAAGCAATTGTACAACACGATTCAGAACAGATTGTAGATAAACCTGCTTCTTCTAGTAATATTCTTGCTCCTTCAGTACAAAAATTAGTGACCGAAAACAAGCTTGATCCAAATAATATTAAAGGAACTGGTAGAGGTGGTAGAATTACTAAATGTGATGTGCTAGAAACCATAAACACTACACCTGTTACTATTGAGACTCCTGCACTAAATAAAACTAATGAAGAAAGAACACAACGCGTACGTATGTCACGCTTGCGTAAAACTATTGCACAGCGTTTAAAAGATTCACAAAATACTGCAGCTATTTTGACTACTTTTAACGAAATCGATATGTCAAAAGTCATTGCTTTGCGTAATCAATATAAAGAAGAGTTTGAGAAAAAGCATACTGTAAAACTTGGATTTATGTCATTTTTTGTTAAAGCAACAATTGAAGCTTTGAAGCTTATTCCATCAATAAATGCGGAAATAGATGGAGATGATTTATTATATAAGAACTATTACGATATAGGTGTTGCAGTAGGAACAGATCAAGGACTTGTTGTACCAGTTGTTAGGGATGCCGATAAAATGGGTTTTGCTGATGTAGAGCAAGCTATCGGAGATTTGGCAAAAAAAGCTCGTGAGGGGAAACTTTCTATGTCTGATTTGTCAGGTGGTACATTCTCAATTTCTAATGGAGGAGTATATGGCTCATTATTATCTACACCGATTATTAATCCTCCTCAATCAGGTATTCTAGGATTACATAAAACTGAGGAAAGAGCTGTAGTTATAGACGGTAAAATTGAAATACGTCCAATGATGTATATAGCCTTATCTTACGATCATCGTATAATTGATGGAAAAGAGGGAGTATCATTCTTGGTAAAAATTAAAAATCTTATTGAGAATCCTGAGAAGTTATTATTAAACTTGTAGTATATTAGTTTAATTTGAAAAATTTCCTAAGTTATTTTTCATTTTGAATCATCACGTGCATTAACTACGCTGCAGTGTAAAATATTAAAATGCCTTGTGCTTTACTAAATTATATGTAGTGACTGAGTCGTCTATATTAGTGTTTCACTTACTCGGAGTTATAAATAATGATAAAATGTACTCGTCGTATTAACTTTGATGCAGGACATAGAATTATAGGACATAAAAATAAATGTCAATTTCTGCACGGGCATCACTATGTTCTTGAGATAACTATAGCCGCCAATAAAACCGATACACTTGGTATGGTAATCGATTTTGGCTTAATTAAAAATTTAGCTAAAAAATGGATTGATGCAAATTTTGATCATAACTTAATATTACATCAAGACGATAAAGAAATGGGACAACAAATAGAGAATTATACAAGACAAAAAATATACTATATGCGCAATAATCCGACTGCAGAAAATATAGCAACACATTTAAAAAATGAAATTTTTCCTAAACTTTTCGTAAGTCAAAACTTTTTTGTAACGAGTCTCAAACTATATGAAACGCAGAATTGTTTTGTTGAGGTTTAGGTATATATCGCACTAAATAAAATGAAACATTCTGATACAAAAAACAACTTGCAAGAGATCAATGAATCTGTAAGCAGATCAGCAGTACATACAAAAATACATGAACATCCAAAGATTTACAAAGATAACATAGAGAATTTTTTAAGTTCATCAAGTATAAAAGATTACTGTTTAATTTTAACTACTACTAATGATTTGCAAATTGCCGAAAAAATCGCATCTATTTTGTTAGAATTAAATTTTGCTGCCTGCATTCAAATGGATAATATCAAAAGTTACTATAGATGGAATAATAAAATAATCGAGGACAATGAATATAGGCTTATCATTAAAACAAAATCTTATAATTATAATGCAATTGAACATAAAATTCTTGAAATGCATAATTATGCATTGCCGCAAATAATAAAAATAAATATTGACTATGGTTATCAACAATACTTAAAATGGATTGACCAAAATAGTAAATAAACTTATTGTTGAATAAATTTAATTAAGTAAATCAATTATGAAATTATGGCAAAAAGTTACCTTAGGGTTAATCTTAGGTATTATATTTGGTATATACTTACCACAATATGTTAATTATATTAAACCTATCGGTGACATTTTCTTACGTTTGATCAAAATGATCATTACACCTTTAATTTTCTTTAGCTTGGTTTCCGGTATCACTAGTATGAATGATACTTCTGCTCTTGGTAGAGTAGGAATGAAAGCAGTAGCGGCTTTTTTAGGTACGACTTTTTTTGCAACTATTTTTGGACTTACTATTGCACTAGTATTAAAGCCTGGAGTAGGTATACATATAGATTTTACTTCTTTAAGCACCACAGATAGAACTTCATTTAATATAATTGATTTTTTTGTAAATATTGTACCTGAGAATGCGGTTAGGGCTTTTGCAAACGGTAATGTGTTGCAAGTAGTATTTTTTGCCATTTTTGTTGGTATAACATTAAACAAAATGAAATCTATTGGTAAACCTATTACAGATTTAATTCATGCAATGTCAAAATTAATATTAAAAATGATATCATTTGTTATTAAATTATCTCCTTATGGTGCTTTTGCTTTAACAGGCTGGATTGTAGGAATGCAAGGATTTAGTGTAATGATTAGTTTATCAAAACTTGTTGTAGCAGTGGTTGTAGCGATGACATGCCAATATTTAGTTTTTGGCTTACTTATATATATATTTTGTCGTGTTTCACCTATACCTTTTTATTAAAAAAGTTTTGAATATCAGATACTTGCGTTTTCTACTTCAAGTAGCAAAGCAACTCTTGCAACTACTATGCAAGTTTGTCGTGAAAAACTTGGAATTTCAGAGTCTAGTACTTCGTTCGTACTTCCAATAGGGGCATCCATTAATATGGATGGCTTCGCAATAAATTTATCTCTTACTACTATATTCTTTGCTCAAATGATGGGAATAACACTTGCACCTCATGACTATTTAGTAATTATTCTTACATCAACACTTGGATCTATCGGCGGTGCAGGTATTCCTGGTGCTTCTTTAATAATGCTACCTATGGTTCTTTCTTCAGTGCATTTACCGATAGAAGGAGTAGCAATTATTGCAGGCATTGACCGAATACTTGATATGCTACGTACTACCATCAATATTACCGGCGATGCAACAATTACTATGATTATAGATAATAGCGAAGATACTTTAGATAAGAAAGTATATTTATCTTAATGATATTACTAACTCATACATGATATCGCGATTTTAAGCAACTATCAGCATTGTGACGTTATAAATTTTTAGTTATCGTACTATCACTTATTAGAATTCTCCAGGGTAAATATTAAAATGATTAATGCACGGGATTGCTTTTATGAATTTACTGCTAAAGCAAGAGCATGCTATAAGATTTGCTTCGCATATAACAACACCGAAGTCTTTGACTTTATAATACCTTCATACAGTGCTATGCAATTTTCTTACACTAACAGATTCATAAAATAAAATCAAAAATGGATATATTATCCTGTAAGTATACAAATAGCACTCATTACAAAATTAAAATATTAACATCTAGTTAAGCTAAAGTTTGCATTCAGTTAAATTGACGTCTCACTACTGCAGACTTAGCAGCTATTTCTCGATACATTAACACTATTATTCAACCCACAACTCATTTGCATATACTAATACGTTCATCGTACAAACTCTTGACTACTAACTGTGGACTTTTATTTTAGTAACTTACATGTAACTATATCTTCACATGCTATTTTAATAGCTAATAAGCAAATTAATAATTGACACTTCTTGTAATATTCATAATTACTAACTTTTTGAATAAAAAACTCATCTTTTTATAGTTATAGTAATATTAAATCTTACTTTTATTTAAATATAATATTCTCTAAATACTGTATTAAACTCTGATATAAAACATTATATTACCTTTATTAATTAACTTTAAGAGTTTTATGACTTGTATCATTTTAAGTTTTAACTTAATAAGTATAAATTTGAATGCACTTATTTGTTAACATTGAATTTGAATTATCAAATTGATAATCACTAAAATTTAACACGGTTAATAGATTTGATTTAGTTACGGTCCATCCAATATAGCTATGCAATCTTAATTCTTGCCATACTGAACTTTTTAGATTACTCGGATTGATAAAAATCTGTTTCAGATTGTTATTTAAAGTGTAAAATGTCTCCTAATTACATTCAACACTATTTGAGATATTATTTGTCCAAGCAGTATATTATTTACTATTATAGAGTTAGTAGTTTCTTAAAAATTGAAAACAAAAAATGATCGCATTTTTAAACAGAGCAAATTTATCAAGTATCTAAGCAAAGGTATTTGTTACATGAGAACTAGGACTATGATACAATATAAAGCTATATATGAAATAAATTTGTGCTCAAGCCAACAAGTGTTAATAGTAGTATAGAATACTACTACTAATAGTCACTCATAATGATTCTAGAATTTAAGATTTTGTAATGGATGATTTATGCTTTTTTGGATATCAACAAGTAATTAATTGTTAATTATCTAATCAATCTAGGAACTATGTAATTATGCAGCATTAAACCTTTATCAGTAAGATAGATATGTTCATCTAACTTAATTAATCCTTGGTTTTGATAATGTTGCAGGTTATTTATGTCTAAAATATTTTCTAATGCTGTGCTCAATCTCTGCTCTAATTTGGAAATCTTTATACCCTTTCTAAGACGTAAACCCATCATTAAGATTTCTTCTATTATTTCTTTATTTGTTAACTTAGAATGAGTTTGAATACCGACATTTTTTGTGCTAACAGCATCTAACCATTGTGCAGGATTATGCAACATCATAATTGCTAATACTGAATTTGAATTTTCAATTATTCTACTATGCGCTCCAGGACCTATACCTAAATAACTATTATAATTCCAATAAGTTAAATTATGCAAACATTCATGCCCTAGCCTAGCATAATTGGATATTTCATATCTAAAATACTTTTTAGATTCTAGATAATGATTTGTCCACTCATACATCTCAGCTGCTTCATCCGAAGTAGGCAAAATTAAATTACCGATTTTAAATAATTTATAAAATGGTGTACCTTTTTCAATAGTTAATTGATACAGTGCAATATGTGAGGTAGCCAGGTACATAGCTTGCTTTAACTCTTTTTCCCAATCTTTTAATGTCTGACCATTACGTGCATATATCAAATCAAACGATACTCTTGGAACAATTGTATTTGCTGCCTCAATTGTTTTTATGGCTTGCATAGAATCATGAGTTCTACCTAATTTTTTTAAATCGTCTTCTTTTAAGGATTGTACTCCAATAGAAACACGATTAATGCCAGCAGATTTAAACGCTTTAAGCTTCTCAGTTTCAAAGGATGTAGGATTAGTTTCTAGAGTTATCTCAGTTTTATTATCAATAATTCCTAGATTATTTATTTTATTTATTATCACTTCAACTATTAAAGGCTGCATTAGTGAAGGAGTGCCGCCACCTAAAAAAATAGATTTTATATATTTATTTTGAATAATAAACTTAAAATACTCAATTTCCTTTTCATAAGACTTAAGCCACTGATTATAATCTATAGTACTTACTATATGAGAATTAAAATCACAATACGGACATTTTGACAAACAAAACGGCCAATGAATGTAAATACTTAAATCATTAGCCATAACTCTCATATTTTTTGTTCTAATGCTAAGTTTAGATGCTCTGGACATAGATATTTAATTTTTATTATTTGCAGCTAACAATTATAATATTTTTAAATATAATACTGTTTCTACAAAAGCCTTATTAATTTTTGCTAAACAAGATCTCTAAATAGCAAATCAATTAGAAAGCTTTACAAAATTTAGCATTTTCTTTGATTTTATTCAATGTATATGATAAAAATCATTTTTATTTCAAGAACACTTGCAATAACATCTTTAATTTAATAGATATTATTAATAATGTAAAAAATTATATGCTATTTTACAATTATTTTATTAACCTTTGGTATTGACGCTATGGAAGATAATAATAAACAAATATATAACCCCAAAGAGACAAAATTTTTAGAAGAAGCTGCAGGAGCAGAAGCGCTAAAATGGGCGAAAGAGCGTACTAATAAAACAGAAAAAGCTTTGCAAGCAATGCAGGAATATAAACGGATTAAAAAAGAAATAGAATCTATTTTCTATGACCAAAGAAAAACTCTATATGGTGTTATACGTAAAGGTTATGTGTATAATTTTTGGATGGATGATAAAAATCCGCAAGGATTATGGCGTAGAACGTTAGTTGATAATTACTATAAAGATAAACCAAATTGGGAAGTACTAATCGATTTTGATAAATTATCTAAAAAAATCGGTAAAAAAGTAGCATATCGAGGTGTAAGTAATTGTGTCCAAAACCCTAATCGTTACTTAATTTCTATGTCATTTGGTGGTAAAGATGAGATGTTCTTTAGAGAATGGGATTTAGAAAAAAAAGATTTTGTTAAAAATGGCTTTGAACCGATAACAAGTTGTGGAAAATTATTAGAAGGAAAATTTACTTATCCTACTTGGGTCAACAAAGATACTATTATATTTAATCCAGTTTTGTATAAAGATGAAATAACTTCCTCTTTATATCCTAATTCGCTATACATATGGAAGAGAGGAGAAGCTATAGAGAAAGCTAGAAAACTTTTTGAAGTACCAAAAGAATATATACGTGTATCAGCTGATAAACTTTTATCAGATGCTATTTCTTCATCTTTAATATTTATATCTGCAGATAAAGATTTTTATAATTACGATAATTATATTTTAGATACTCAAGATAAGAACTTTAAATTACTAAAAATAAACATGCCATCAGATGCAACACTTCAAGGTTCTTTTAAAGAATATGTATTTTGGTTGCTGCGTTCTGATTGGAAATTTAAAAATCATAATATAAAAGCAGGCTCTCTGGTTGCATTACACTTCACAGATCTACTAAAAGCAGAGAGTGATAAAACTAGCCTAAAAATATTATTTACCCCAACAGAGAATGAAGTATTTAATTTCATAGGCACAACTAAAGATAGAGTATTTTTAGCAACTTACGATAATGTTGTTTCAAAAGTTGTAACATTTACTTTAGAAAATGAGCAATGGACAAAACCTGTAATCTTAAAGCTACCTTATCAGAATGCAATTTTTCGGATGTCTTCTTATGAAGATGAAGAAGAGGCATTAATTACTATAGAAAATGCGATAGTTCCACCAACTATCTATTTATGGGTAAAAACTCATGAGTTAAAAGTTATTCGCAAAGCTTTATACTCTTTTGATAGTGAAAATTATGTTTTAGAACAAAAAGAAGCTACAAGTTTTGATGGAGTTAAAATACCGTATTTTATTGTTTATAAGAAAGGGATAAAATTTGATGGTAAAAATCCAACATTACTTGAAGCATATGGTGGATTCCAGGTAATAAATTCTCCATATTTTTCACGAATTAAAAATGAAGTATGGGTTAAAAATGGTGGTGTGAGTGTTCTTGCTAATATCAGAGGTGGTGGAGAGTTTGGTCCTGAATGGCATAAGGCAGCTCAAGGGATAAAACGTCAAACAGCCTTTAATGATTTTTTTGCAGTATCAGAGGAGTTAATAAAGCAAAATATTACTAGTCCTGAATATTTAGGAATTAAAGGAGGGAGTAACGGCGGATTACTAGTCAGTGTTGCAATGACACAACGTCCTGAATTATTTGGCGCTATAGCATGTGAAGTACCTATACTTGATATGATACGTTATAAAGAATTTGGAGCAGGAAATTCATGGGTAACTGAATATGGTGATCCAGAAATTCCAAATGATTTATTACATATTAAAAAATATGCACCATTAGAGAATTTATCTTTAACACAAAAATACCCAACTGTGTTAATTACAGATTCAGTATTAGATCAGCGTGTACACCCATGGCATGGAAGAATTTTTGAGTATGTACTTGCGCAAAACCCAAATACTAAAACTTACTTTCTAGAAAGTAGAGATAGTGGACACAGTAGTGGTAGTGATTTAAAAGAGAGTGCAAATTATTTTATCAATCTCTATACATTTTTTGCAAACACTTTAAAATTGAAATTAATTAAATTTTAATTTAAAAAACATAGCATGTATTTGTCAATTTCATATAAATTGAGCGCAAAGTTAAGTTCTAGTTTAAAATATTTAAAAAATAGTCATACTTCTATTTCTACAATCGACAAGCCACTAGATGATACAGTGGCTTGCTGATACATAAAATAATTCCGTTTTACGAAAACAATTTACCAATTCCGCTGCGTAATAGATTTTTAGGATTCATTTTACTGGTTTTTTTCATCACGGCGCTTATTTGTTTATATTGTTTTAGCAAAATATTTACTTTTTGTACTGTCATACCTGCTCCCGCAGCAATACGTTTTCTACGAGATGCATTAATTATATCAGGATTTTTACGTTCTTTCAGGGTCATAGATAAAATAATCGCTTCTTGATGTTCAATTATTTTACTATTTAACTTTGATTGATCTATTTGATCAAAAATTTTACCACTGCCAGGTAACATGCTCAGTATACTTCCAAAACCTCCCAATTTTTTTATACTTCTCATTTGCTGAAGATAATCATTTAAATCAAACTTACCACTTTTTAACTTAATTGCCGTTTTTTCCGCTTCTTCTCTATCAACTATACTTGCCGCTTTTTTTACAAAAGAGATAATATCACCCATATCAAGTATTCTAGAAGCTAAACGTTCAGCATTGAACTCTTCTAAATCGGTTAGTTTTTCACCACTACTTAAAAATTTAATCGGCTTTTGAGTAAAATATTTTACACTAAGTGCTGCACCACCTTTCGTATCACCATCAATTCGCGATAAAATTAATCCTGAAATTTCTAATTTTTCACTAAAGGTTTTTGCTGTAATGACCGCATCCTGACCTGTCATACTATCAATTACTAGTAAAGTTTCTGTTGGATTCAATATCTTTTTTATTGCAAGAGCTTCTTCCATCATCACATTATCGATTTGTATACGCCCTGCAGTATCATAAATTACAACATCATAAGCAGAAATTTGAGCTTCACCAATAGCTCTTTTGACAATATCAAGAGGTTTCTCACCTTTAACAATTGGTAATGAATCAATATTGACTGAATTTGCAATTATAGCAAGTTGCTCTTGTGCAGCTGGTCTGTAAGTATCAAGAGAAACAAGCAAAACTTTTTTATTTTGATTTTTAAGTCGCAAAGCAAGTTTGCCACTTGCGGTAGTTTTACCGCCACCTTGTAAACCTACAATTAATAAATTAACTGGTGGTTTTGCATTTAAATTGAGTTTTGTTGTACTTTCAGTAGAAGCTAAGAGATTTATCATTTCTTCATGAATAATTTTAATTATCATCTGTCCCGGTGAAACAGATTTAATAACCTCCTGACCTAAAGCTTTTTGTTTAACTTCTTCTATAAAACCTTTTATCACTGGTAATGCAACATCTGACTCTAAAAGAGCTACTCTTACATCACGCATAGCAGTATCAATTTGGTTTTCTGTTAAAATTCCTGAATTGACTAGTTTATCAAAAATCTTAGTTAAATTTTGTGTTAAAGTTTTAAACATGCAAATAATTTATAAAGTTCTAATACAATATTGTGTTTTATCAATAAACAATATTGCGATAGCGGAATGAGTTTATTAATAAGTAATGCAATTTCTGCTTCAAATCTTCTTAACTTTTTTAAACGATGCGCTTAACCAGTATAACAGTATCAGTATTTATTGGAGTTTAATGCTATAATTTTGATTATTGAATAAATGATTATCTAAGAACTGTGCTTATTTTATAATAAAAATGTTCATTATAAAGAACACAGTGGTACTTTCAATACTAAAAAGTCAATATGTACCTTCATAATTTTTTTATTCTCAATAAAATTAAAAATATGTCTTTATTAAAATTAACCGATTTATCAACAATTTTGAATAATTCTGCTTATCTGCTTAAGTCCTTAGCTTTATTAAAATAAACCTGAATATTTTCAAAGTACTACTACTTTATAATAAAAACTTATTGCTTCTTTATATTCTTCAAGTAATTTAAGATTAAGAATGATAAGTTTTTATAGATTTATAAACATACTGAGTATTGAAAACTTAAAGTACATACGTGGCATTTTTGTATGATACACACTAATCATCTTATCATAAAGTTTTCTCTTATCTTTATAATTTTGACTGTTATGGAATTCATTAGTTTGCTTAAAATTAAATTTTATATCTTAAAACTTTACACTGTAAAAAACTCATTCACAACTAATATATAACTTGTTTTTAAGTCCAAATCATAATCAATGGTATTATATATTAACTTTTTAATATCAGTAAATTTTTGTAGTAAATACGCCGGATTCTTATTCAGTTTATTATAAATCTTATTTTCTAAATCTAGCAGATCAATATTAAAGTTAACAGATTTTTTAAGGATTCTATTCATTAATAAAAACAAATTTTCAATAAAACCTAACCATAATTCTCGGTCTTTAGTAGTAAAACGATTAATAAAATCTAACGTTTTATTATCTGCAATAGGTTGAATAAACTGAAGATATAAATCATTACTAACATTAGGTAAAGGAGATCTAATATTAACTTTAAAACATCTTGATCTAATTGTAGATATAATACTTGCAGCTCTTGAAGTAATCAAAAAAATGTAACTATTCTTTGGTGTATCTTCAAGAATTTTTAAACATGCATTTGCAGCATGCAAATTCATAAGATCAGCAGAATAAATTACAGCTACTTTATAACCTGAAATTGCAGACGTTTTATTTAAGAAGTCTTGTAATTTTCGTATTTGTTCAATAGAAATATTTTTAGCATTAGATGTATATGAATCTTTTCTAGCAACAAAATAATAATCAGGATTATTTTCAAGCGGGATGTTACTATTAAAAAACTTAATATATATGAACTCTTTTAAATCTTGTAAAGTTTGCTCTATATTCCATGCTTCAATAAGCCAACTATTATATAGTTTATTATATTTTAAATAAAACTCTAAAAGTTCAATGATCAATGGTTGTAATATTGTTATAAATTGTGTTTAAGAACTTATTGTATGATATTACTGATTTTGCTAATCTTACCCCGCAAGCTTGTAACGGGGTTTTAGAAATTATCAGTACTATACAATAAGTGAATGCTTTAATTACAAGCTTCTTTCAGTTTTCTTCCAGCTCTAAAAGTAGGTTGATTGTAAGCATCTATTTTCATTTTTGCTCCGGTTTTTGGATTACGCCCCTCACGTTCTTTTCTATGATGTATTTCGAATGAACCGAACCCTGTAAGATTCACATTATGCTTGCTCTTTATCGCACTAATAACACTCTCAATAACTAAATTAAGTGCTTTCTCGGCATCAGCTTTTGTTAATGTTTTATGCGCAGCATGCTTATTATTATGACCATGTTCAGTCATAAATGCTATAAATTCGGTTTTATTCAATTTTTTTTGTTCTTGTTTGTTATGTGTACTCATAATAACAACGCTCCTTTAATGGGTTATGGGTTAATATGTATTGATGATTTTATTAAAAATAAATACCAACTTCTGGTAAATATACATCAATATATTTTGATATGAGTTAATTATAACAAACTACCCACATACTGCAAATGCCAGTTATTTACAAAGTTTAAAATATATATGTTATTATATTAATTTATAGAAAAATGTAGCCATTTTACATCAGTAATACTGATCACATTATCTTAATCAAGTGATTAAAACCAAAAATTCATTATTACAACTCTAATTTATTGTCAGTAACAAATTATCAAAAACTAATTCTGTAAAAAATATAAATGTTTAATTACAAAACAATATATAGTTATATATAATTAAAAGATGAAAAACATCATACTTTATATTCAAACTAAATAACATATTAATAATGCGCTATTCGCATTAATTTAGAATCAAGTTTAAAAATTAAATCCAAATGTTATTGTCTACAATTTGTATTAAACGTCCAATATTTGCTATAGTTTTGAGTCTAATGATCGTAGCTCTCGGAGGAATTTTTTTTACCAAGCTACAAATTAGAGGCGCTCCAGATATTTCAGTGCCTATTATAAATGTTGAAGCGCATTATGCAGGTGCAGATGCATTATATATGGAACAAGAAATCACAACACGTATAGAAAAAGTTTTAAAGACTGTTAAAAATTTAGATTATATAACGTCTCAAAGTTCTACCGGCTCAAGTAGTATTACTTTATCATTTCGATTATCTACAGATATTGAATTAGCATTAAACGATGTTCGTTCTAAAATATCAGATATTAGTTATATGTTTCCACAAGATATGAAAGCCCCATCAGTTACGAAACTTGATACTGATAATTTCCCGAGCCTCTTCATAAGTATTGAAAGTGATCAATATAGCGATTTAGAATTAACACAGATAGTCTCAGATAATATACAAGCACAATTAGATAAACTTGAAAGTGTAGGTAAATCACAAATTTACGGCGGTAGGGAATATATAATGAGAATAGAACCAGATTTCAAAAAATTATATCAATATAAAATTTCTTTATTGGAGATTGAAGCCGCAATAAAAGAGCAAAATAAAGATTATCCAGCCGGAATGATTAAAACAAAAAGTAATAATTTTATAGTAACTCTTACAGGCTCTTTATCCGCACCGGAAGAATTCGGTAATATTATTCTAAAAGTACAAAACGGATGTATAATAAAATTACGAGATATAACAAAAATATCTTTAACTTCTCCTGATGAGGATATAATTTTCAGATATAATGGCAAAAACTCTATTGCTCTTGGTCTCATAAAAGAATCAAAAGCTAATATAATAGATTTATCAAATGAAGTAACTAAAGAATTAGAAAGAATTAAAGCATCAATTCCAAAAGGAATAAGCATTAGTATAGCATACGATGGGGCAAAACCTTTAAAAGCATCAATTTATGCAGTATTTAAAACAATGTTTGAAGCATTAATATTAGTAGTTTTAGTAACTTATTTGTTTCTTGCTTCTGCTAAAATTAGCTTAATTCCGTTTGTAACGATTCCTGTATCGTTGATCGGTACTTTTAGCATAATGTATGCTTTTGGATTTTCTATTAATGTATTTACACTCCTTGCTATGATACTTGCTATAGGTTTAGTTGTCGATGATGCAATAGTGATGCTTGAAAACATTTTTAGATATAATGAAATGGGGTATAAACCAATGGAAGCGGCTATGCTTGCTTCTAAAGAAATTGGCTTTGCAATAATCACTATGACTATTACACTTGCTGCCGTGTTTGTACCAATCGGTTTTATTGAAGGCTTTATCGGGAAATTATTTATTGAATTTGCTTGGACTTTAGCATTTTGCGTTTTGTTCTCAGGATTTGTTGCTGTCACTTTAACTCCTATGATGTCAAGTCATATGGTAACAAAACATAACACGAACTTAGCAAAATTCTTAGTAAGATTTCATGATATGCTACAATTCGTTCAAAATAGATATATTTATTATCTAAAGTTAGCTCTCGATAATTAAAAAAAATTCGTCATCATTATTTTATCATCATTTATAGTACTTATTATTAGTTTTAAATTAACTTAAAAAACTTTCGTACCACAAGAAGATGACGGATTTTTACAAGTTTTTCTTAAAGGGCCTGAAGGTGCTAGTTTAGAATCTTCTATTAAAGTAGTAAAAGAAGCAGAACAAATCCTTGCTAATTATAAAGATATATTCGGTTATCTTATGGTAATAGGTGTAGGAGGTAGTGAAAATGTTTTTGGGTTTATTCCATTAAAAGACTGGAGCGCACGTTCTCGCTCACAAAAAACTATTAAGAATATGTTAAATAAACAGTTTTCTAAAATACCTGGCATGTCGGTTTTCGCTATGGAGCCACGTTCAATGATTAGCGTGAATGCCACTAGTCCTATAGAATTTACTATTCAAACAAACCTTGAATATAAGGATTTAGATAAAATATCACAACAATTTATTGATATAATGAGAGCAAATCCCATTTTCTTAAACGTCAATAGAAATTTACAATCGGCAATGCCTACTATAAATATAGAAGTCAACCGTGATAAGGCTTATTTATACGGAATGGATTTAGCAAATATAGGTAAAACATTACAATATTTAATTGCAGGTCAACAAATTGGTGCTTTTAGAATGGGGAATAATTTATATAATGTGATATTACAATTTAATCAAAAAGATCGACAAGATATTAGCGATTTGAGTAAAATTTTAATTAGAACAAAAAATAATAATATGTTACCGCTTGAATCAATAGCTAATATTAGGGAAAAAATATCACTAAAATCATATTATCATTATAATAATTCAAAATCTGTTACTATTTCTTCCGATCTTGCTCCTGACGTCAAAATTAATGATGCAATTAACATAATCAATAAAATAGCCGCACAGTTACTTGATCCTAATAATACTATAATTGAATATATAGGAGAAATTAAACAAATGAAAGAGGTAGACAATAATATACTTATAACATTTGTATTTTCTCTTGTATTTATCTATTTGGTACTTGCAGCTCAATTTGAAAGCTTTACTGACCCTTTATTAATATTACTCGCTGTACCTTTCTCAATAACTGGCGGGGTGCTGACACTTTGGCTTGCCGGTAATAGTCTTAATATGTATAGTAATATTGGACTTATTACTTTAATTGGATTAGTTACTAAGAATGCTATTATGATAGTAGAATTTGCTAATCAGCTAAGAGCAAAAGGTTTAAATGTTCGAGAAGCGATAATAGAATCTTCAAAACTGCGCTTACGTCCGATTCTTATGACTACCGTTGCTGCTATCGTTGGAGCATTACCTTTAGTTTTTGCAGATGGTGCCGGTGCTGCTTCTCGTAATTCTATAGGTTTTGTAATAGTTGGTGGATTAAGTATCGGTACTATATTTACAATATTTGCTATACCTGTAATATACCAAACTTTTAAGAAGGATTAACAAAATATAATAATAAAATTTAGTAGACATATAGCTCAAAATAAGAAATGATTATTTTACATTTAATTCACAGGAGTTTAAATATGTTAATAAATACTTCTAATAATCTTCTTATTACTACTATACATTTATTATCTTCCATAGGAGCTATAAATTGGGGTTTAGTTGGGTTATTTAATTTTAATTTAGTTACACTTTTATTTGGCTCATTTCCAATTATTGTTACAATATTTTATATAATAATAGGCTTTTGTGGTGTATATTCTTTCTTATATTTAGGTAAGATATTTTGTAAACCAGGAATAAAAAACGTAAAATAAAGCTATATAAATATCAGTATCATACCGTTGCTTGACCACAGGAGTTATAAAACACTTGATACTGCAATCAGATCTAACATTGTAACAACCTTACCTGTGATATAAGACTTATTGCTGCTGTTTCAGTACGTAATATATTACTTCCTAAACTTATAGATTGTGTATTATTGTATAAGGCAAGAAGTTCTAACTCATCATTAGTAAACCCTCCCTCCGGTCCAATAATAATAGCTATATCCTTAGAAAGTAATGACGAAATGTGTAGTATAGAATGTTTTACTTTTTCATGTTCATTAGCATATAAAATCAGATTATTATTCTTTTTAAGATAATCTTTTAGTGTGATGGCTTGTTCAATAATCGGTGGATTAAGACGTTCTGATTGTTCTGTTGCCTCAATAACACATTTCATTAAACGCTCTATATTTACTGTTCTAAATTGACACCTCCTAGTAATTAATGGAATAATTTTAGTTATACCAAGTTGTGTAGCCATATTTATTGTAAGCATTAATTTATCTGACTTTATTATAGCAACAGCAAGGGTTAACGCAGATTCGATATAAGCTTTTTTTAACTGTTCTTTAAGTACAACAGAGAGGTTATTTTTACCTATTTGTGTAATTTGTGCTAAAAATTCTCCATCACTACCATTAAAGATACGTAATGAATCATGGATTTTAAGACGTAGTACCGTTTTAACATAATGAACATAATCACGTGCTAATTCTAGCTTGCTATTTTCTGCTAAATTACTATTAATATAGATACGATTATATTTCATATATACTTGGATGAACTTGAAAATTGGCTACATAGTCTTTGTAAGTACTATAATACTAAAGTGTTAAGTAACTCCTTATGTCCTCGACTTACAAACTCTTTGATCCTTTCCAAGTTGATTTTGGTATATCAACTCTTCATCTTCACAGGAGCTTTAATTATGGACAAGCAAAAAGTTAATAATAATATAGTAGAAGAAGAAAATTTATCAAAAGAAAAAGAAATTGGTGGTATTAAAGGTCTAGAACCAACAAGATATGGAGACTGGCAACATAAAGGTAAAGTTACGGATTTTTGATGTTATCATTTCAGCATACCAAAATTCTACCATATAAACCAAAAAAATTGTTTGATTTGGTTTGGGATATAAAATCTTATCCTCAATTCTTACCTTGGTGTGCTGCAGCTAGAATAATTTCAGAAAATAATCAAGAGGTTATTTCAGAATTAGTAATCCAATTAAAAGGCTTGTCAGAAAAATATAACTCTCGAGTCATCAATACAATAACAGATAATGGAATATATCTAATTGATACGGTAGCTATTTCAGGACCTTTTGAATATTTAAAAAGTACTTGGCAATTTATTCCCCACTCTACAGGAACTGAATTAAAATTCTTTATTAATTTTAAAATGACATCTGTAATACTAGATAAATTAATCGGCAGTTACTTTACCATAGCAACTGAAAAAATGATTTTAGCTTTTGAAAAGAGAGCAAAAGAGGTTATAAAATAAGTAGCTAATTAATTATTAAGTAGTATTAATATTAACGCTTGACATATGTTTTGAAATACCGTATTTTATGGTAACTAAATATAATAGGTTGAATGATATATGGAACAGTTTGAATTTGTGAATAAAACAGAAATTCCTACACATGCTATAAATAATACGGCATTTGCACATTTAGGAGTAAATCTTGCATATAAGACAGATGATACAAGTCGATATCTTGCAGCAGCATTAATGACAGATGGTAATCATTTAGTAGGGAGTGGCTTTGAAATACTTGCTGCTTCTTGTGATAGTTTAAATACAGCTCTATATGGTTATAAAGCTGTAGCCTTTATAAATAAGGAGACTAAAACCATTCATATTGCTAGTGCTGGTACAAAAGCAGATATAAATGACATATGGGATGATGCACTGATAACATTTCATTATGCTCCTAATAAATTAAAAATAGCACAAAAATTTGTTGATAACATAATTTCCAAAATAGGAGGGATTGATGAAGCTAGAGAATATACTTTTGATACTAGCGGCCATTCACTTGGAGCAATAATCGCGGATTTAACAGGAATAGAATTACATTCTCGTAATTTAAATTTTAATAAATCCGTAACATTTGATAGCCCAGGTTCACAAGAAGTAATTAAATACGCTATAAATCAGGATTTATTTACAGGAAAAGTAATAACTCCAATAGAAGAACTAGCTAAACATTCTGAGGTATATAATGCAAAACCTAATATTATTAATACTACCAATCAGCATGTGGGTCAAATAAACTTAGTGCTACCGAAAATAAATAATGAGAAGTCAAAATCATCAGAAGCTGTAGGATGGTTTAAATATTTATATAACATTTCAGGCTCTGCAGTTTATAAAGTTGCAGAATATCTAAATTTTAATAAGATGTTTGAAGGAATAAATAATCATAAACTAAAGTATTTTGCTGACTTACAAGATAGCGCTGTTATACCTATAGCAAATTGGGAAGAACAAATATTAGAAAATAACGCATATACTCAAAAACTTAAAACTATTCCATCTACTGGAAATGATGTATATTTACTTGATACAAATCGAATTACTGATAATGAATATACTAGTATAATTGGGATAGATGTATTTCATTGGGCATATAATGATTTGCAACAATCTTGTGCTATGGAAACAGTCGAACAAATTGGTAATTTAATACCAATTCTATGTTAGAGTATATTGTTTTCAGTATTACTAGGTTAGTACGCAGTGGAGCTAACACTATAGTGGAATTTTGTACTAACACTATTGATACTATTTCATATACAACTCATGAAAGTATAGAAGAACCTAACCTAAAGGAAAAGGATATTGAGGACGATTTAGTAGTAGTATCTCTAATTGGGAACTAAACTTTTATATTTTAATTTTTAATTATTGATAATATAGTTACTGTATATTAGTTGTAATATGGTTATAGATTTTTAAAATTTAGATATGTTGTAGAACACAATCCTAAACATATTAACAATAAAAAATGGTTAGACCTCACATATAAATATTTTAGATCTTTAAATCTATACAAACATTAAATGTCAATAAATAATTATTAGATCTTGGAATAACAAACTACTTCATGTTATCATGTCCACGCTGCTAAATATTTTTATAAAATCGTTGAATTTCTAAATATAGAAATTGGAAAGTGTATCTTGAATTGCTTGTAACTCGAGAGTAATAATTGCAGATTTAATCTTAATAAAAATATATTCTCATAATTTAATCTATCACTTCTAATAATTCTTCAAAATAGATAATTGAAAGAATTATCAAAATTTCTTTAACTGGAAATAATAAATCAAATAGAAGTGCTAATACCAAGATTACAAGGTGAAACATAATCTATTAATATTATTCAAAAACGGCACTATCACAATCAGAAGTATTATGTATCATATTTATATAATGCTGCAAATTTTGCTAAACAAAAAGTTAAAAAGAATTAATTGAATAGTTGCAGTCTTTAAGACAAAAATATAATAAGGATAAGTCAGCACATCATGATTAATTTTTGTAATTTAAAAGAGAATATTAATTCATAAATATTTCTTAAGCAGAAATACAAAAATATACTAAAAATACTCTAATTTTATATAATCAAGTAGTTAAAACTGAAAGCAGAGCTATTACAGTCATCTCTGAGAGAGATAATTATTATAAAGTATGTTAAATAAAAAAGATAACATTTTTAGATTAAATATTCATAACACTTCTTACATAACGTTGCTAATAAGCAGGTATTAGGATGCAACACAGGAATACTTGCTGCGTATTTGTATACTTTGAATACTTTAGGATGTAAGATTAGGAGCAACTAAAAAATTACATCTAGAAGAAAGGAAGCAAGTGATATAAGAAATCTATTATTTTTTATTTAGAGCAACTAAATAAATTTCTGTAGATTCACTGCGGCTAGATACAGGTTTAAAATGTTTTACAGTCCTAAATTCACGTTTTACTTTATTTAATAATGCTGTTTCTGCACCTCCACGAAAAATTTTAGCAATAAAATGACAAGATGGTTTTAGTACTTTTAACGCGAATTCAAAAGCTTGTTCACATAATAGTAAGGTTCTCATATGGTCTGTCGCTTTATGACCTATGGTATTAGATGCCATATCACTCATTACTATATCAGCCTTACCTTCTAAATTATGAATAATTAATTCTTCTGTATCTTTTTCAAAAAAGTCCTTTTGCAAAAACTCAACTCCAACAATAGGTTCAATTTCCAATAAATCGATAGAAATTATTTTATTATTTAGGTTATTATCTGAAGCTTTAATAAGCTTAGATGCTACTTGACTCCATCCACCAGGAGCTGCTCCTAGATCAACAATTTTCATGTTAGGAGTAAAAAGTCTAAACTTGTAATGGATTTCAAGTAGTTTATAAGCAGCTCTAGACCTAAAGCCTTCAAGACGCGCTTTTGCAACATACGGATCATTTAATTGGCGCCTAAGCCAATTACTAGAAGAGATGGGCCGTTTTTTAGAAGTTTTGACTCTAACGATTTTATTGCGATAACCACTTAAATTATTTGTCATGAAATTTTATTATTTTCTTGAGCTATTTTGTCTAATATTGAATTTACAAAACCAATCTCGTGTTCATTTAACAAATCATTTGCTATGTCTGTATATTCGTTTATTACTACTTTAGCAGGAGTAGTAGAACAAAATAATAACTCACATATACTAACACGCAATAAAGCGCGGAGTAAGATCGGCATATGTACAGAATCTTTAGCATTTGTTAAATGATTGTCGATAATTTCGTCTAATTTATTAATATTTTCAAATACTGACTTTACCAGCATTTTAAAATGACTTATACTTAATGATATCTTAAAATTCTTAGGTAAATCTATAGAATTATTACTATGATAACAAGCAAGTATATTTTGCATAATATCATACATATCATAGTTATTTTGCAATATGTTTTGATACAGAGCTTGCACTGCTGCAATACGTGCAATCGACTTTTTATTAATTTTATTTGTACTCATAGATAAAAGAAATTTATAATTTTTGTGATTGTGAGTAATTATTGCACCAAATGTCATACCGTAACTTGACGAAGGTATCCAGAAAAATTATCACTCATAATGACTAAATTATACCTATAACCTTGCAACTTATATCTTAAAATAATTTATTAGTAAACTTATAAAATTTTTATGCTCTCTTTAATTGGGTTTATTATAACCATCAGTATCTTAGTGTTTATCCATGAATTTGGTCATTATTGTATTGCTAGATATCTTGATGTAAAAGTGGAAGAGTTCTCGATAGGCTTTGGTAAAGAACTAATAGGTATTACTGACAGAAAAGGAGTTAGGTGGAAACTTTGCTTTATACCGCTAGGTGGTTATGTCAAGATCTATGGCTATGATAGTAGTACTAGAATCATTGATAAGACAAAAGAAGTGAATGAAGAAGTAACTTTTTATTCTAGATCTTGTTTAGCACGTTTTTCAATAGTTGCAGCAGGTCCGTTAATTAATTATTTGCTTGCCGTAATAATATTTACAAGTTTTTATTGTTACTTTGGCAAAGTAGAGATTCCTCCTATAATAGGCGATGTAGTAGCTGCATCACCAGCAGAAAGAGCAGGATTAAAAGAAGGTGATAAAATTGTTAAGGTTAATAATAAATATGTTAAGGATTTTGTAGATGTACAAAAAGAAATATTAATTAACGGTTTTAGTTCTTCTACTTTAACTATCGCAAGAAAAAGTGAAGAATTTAAAGTTAATATCAGGCCGCAAGAGATTATTATATCACATCCGGTAAAAAAGAAAATAGGAAAAACTTTTCGCATCGGTATTATAGCTAAAAATGAACCTATCCATACTAAAATAGGAATTTTCGGAGGAGTTTTGGAAGCTATAAATACTACTATAGATATTTCTACTTTAACTCTAAAAGCAATATCGCAAATGATTTTAGGAACACGTCCATTAGATGAGATAGGAGGGCCTATATCTATTGCTCAAGAGTCAGGCAAATCTATGGCAAGTGGAGCCCAAATGTATCTATTATTTATAGCAATGCTTTCGATTAATTTAGGGTTATTAAACTTACTACCTATACCGGTGCTTGATGGTGGACATTTGATATTTATACTCTATGAAGCAATCACTGGTAGATTACCTAATCCTAAAACTAGGAATATTTTACTACAATTAGGTGCAGTAATAATACTATTGCTTATTATAATCTCTATTTCCAACGATATAAAAAATTTGTTTTATTAAATTACAGATTTGCTTGCTCTAATTTATATTATCTACTATAGTTGAGTACGTTCATTATGTTTGAATGCACCTATTACCAAGTGACTTAACAACTTGCTCCAATATAGACAAAGACTGTATCACGAGAGTAAATCGCATTATGACTGTAGTCATGTACAATCCATGCTATAACAGCGCATTTAAACAGATCAATTAAAATTAAATCTTAAAGAAGGTTTTAGTAGGTGAAAATCATATCAATTAGTAAGTTAACAATTTTATTATTAACAATTTTTTATTATCATATTTCATTCGCTGACTATGTAATACGTAAAATAACTATAGAAGGTAATCATAGGGTTGAACGTTCTACCATTGAGAGCTATTTAAAACTTAATGTAGGGGAAACTTACAATAATTCTAAAGAAGATGAAGCAATAAAACGTTTATATGCCACTTCACTTTTTAGAAATATAAATATGTATATAACAAATGATGGTAATTTAATAGTCAATGTTACTGAAACGCCTTTTATAAGTAGTGTAGTATTTAGCGGTAATTCTAAAATCAAAACTAATATACTAGCTAAAGAAATTTATACAATGTCTGGTGAGTCTCTCAGTCAAGCTAAAATAGAATTAGATGTTAAAAAAATATTAGAAATATATAAACGTAGCGGACGTTTTTCTACTAAAGTCACACCTAAAATCAAAAGTTTAGAAAACAACAGAGTGAAGGTTATTTTTGATATAGCTGAAGGACCAAAAACCGTTATTAAATCTATTTATTTTAGCGGTAATGAACATTACAGCGATTCAGAACTAAAATCTATTGTCTTAACTAAAGAATCTCGTTGGTTTCGTTTTTTAGAAAGTAATGATACTTACGATCCTGATAGAGTAGAATATGATAAAGAATTACTAAGAGAGTTTTATCAATCTGTCGGTTTTGCAGATTTTAGAGTAATTTCGGCATCAGTAGCACTCAATGATACTAAAGAATATTTTACAATCACCTATTCCATTGAAGAGGGAGAAAAATATAGATTTGGTAATGTTACAATAGACAATAAATTAACTAATATAAATATAAAACAGCTTAATAAAATTGTTAATATTAAGCAAGGCAAAATCTTCAATATGAAAACAGTTGATGATATAGCTGAAAAAATCGGAGAATATTTTACAGCGAATGGGTATCCTGCAGTAAATGTTTATCCAGATATAAAGAAAAATGATAATCATACTGCAGATATTAAATTTATTATTGAGAAGGCCGATAAGGTTTATATTAATAAAATAAATATTATTAATAACCTTAAAACTGAAGACCATGTTATAAGAAGAGCATTTAAAATAGAAGAAGGTGATGTAATGAACCGTTCATATATTGAAAAAGGTGAGCGTAATCTTAGAAATTTAGATTATTTTGAAAAAGTATCAATTAGCTTAGCTCAGACTAAGGCTAAAGATAAATATGATGTTAATGTTGAAGTTGATGAAAAATCCACTTCTTCTATAGGTTTTGATTTAGGATATAATACTGCCGGCGGTTTATTCGGACGGTTTTCTTTTCTAGAGCGTAATTTAGTTGGTACCGGCAAACTACTTAACGCTGGTGTGCAGGTAAGTAAAAACAGTACAAGCTATTATGGATGTATTACTGACCCACACTTTTTAGATCGTGATTTATCACTTAGCGTTAATGCATTTAGAAACTATACCGGACGCGGTGCAAGTGTATTAAATACAACAGATCAAAGCTATAAGCTACACTCTATAGGAGTTAAAATCTCTCTTGGTTATGACATGAAAGAGGATTTAAGTCATGAAATAGATTATTTAATAAAACGTGACATTTTAAGTGCACCATCACCATCAAACTCAATATTCTTAAATGAACAAATGGGGAAATTAATTACTTCTGCTATAGGACATACTATTACTTATGATCAAACTGATAACAAAATTGTTCCCAAAAATGGTTATTTAGTAAGCGGGACGCAAGAATTCGCTGGCGTTGGAGGCGATAATAAATATATAAAACATGAAATTGAATGTAAATTTTATAAATCTTTTATAAATAACAAAGTTACTTTAAAACTATCTGCTGCAGGTGGTGATATGGCAGGTCTTGGAGGCAAAATGGTTAGAATCTCAGATCGTTTTAATTTAGGTGATTATAGTTTAAGAGGTTTTGCAAGCGGTGGTGTCGGGCCGCGTGTAAAAAACACTAATGAAGGACTTGGGGGTGAAAGATATTATACATTCTCAACAGAGCTTAATTTCCCTACTCCCGTACCTGAGGAATTTAATTTTACAGGTGCAGTCTTTATAGATTTAGGAAGTGTTTGGGGAGTAGGTCTAAATAAGAAACAATATAAAACTCCAAACGGCTTTTATAACGATCAATCTCTTAGAGCTTCCGTTGGTTTCGGCTTTATTTGGGTAACACGTTTTGCACCGATCAGAATGGATTGGGGATTCCCAATTAAGAAGAAACAGTACGATGATACACAGAACTTCCATTTAAGGTTTTCGACGCATTTATAAATATACTAATTCGTTACATAACTTCTCATATCATTCTTGAAAAAGCAAGAATCAAGTAAAACAACCTTATTGTTTTACATTACATAGTTTTTCTTATGAAATATTCCTAGTCTCAGAGGAATAATATATTTCAGCCTTGCCGATGTAGCTCAGCTGGTAGAGCGGTGCATTCGTAATGCGTAGGTCTGGGGTTCAAATCCCCACATTGGCACCATTTTTCAATAAAACTATAGCACTATTATATACGTGCTATACATGATATACTAATAATGTGTAGGAGACACATATTATCATAACTTTTAAAGATAAAATATTATATCTCATAAATCATTAATTAAAGTCCTTAAAAATCTAAGACACTACCGATGATTTTCAAAATGCTTGTAAATATGGTAATAAGTCAGGAATGAATTGGTGTTTAACTCTGTAATATTCGATATGTTGCTAACAATATATAATTATTAACATATCAAAAATAAACAAATGCTATTGTAAAAAAGGATTATCAATAAAAATTAATATAAATAAATTGTAAAAGATACGCTAAAAGTAGCTTAGTTAATCACGTATGGTGTAACAACCACTCTGATCTAATGGATCTTATAACTGGAATCTAAGGAATTAGCAAATTATGAAAAATAATACTAAAGAATTAATAGAAACAGCTTCTTAGCACTCCAAGCTTTAGGCATTTTAGCTTATAGCTTTAGCAATATAATTAATATTAACTATTTTGTTTAATAATTTAAAAGAGTAAAAATGATTTTATATAAAACTAAAGAGACATTAAAAAAGGTTACCTATACTCAAAAGAAGAAAGTCGACAAAATAATGTAAAGATACTTTTTAGTAATCAGATTTTAAACTAAAAAAATTATATTCACATCTATACATACTCTTTTTAGTGAATATAGCAATTATGATTATAATACCTGAACTAAAAACCTTATTAAAATGAGATACAAGACTTAAATCGCTGAATTATTTAGAAATTTTAATGGAGCTAAGAGTAAATGTAGTACATAAGAATGCTTTTGGCCGTGGTGATAGTAAAAAAAGATATCGTGGACCTTAGCATTTTTTGATTATTTTGATGATTTTATAACTACAAATGTATTGTACACGAAGACAATAAGCATTTTAAATTCTATTAAAAATAATAATACTTATATAAAAATGAAAACTTACTCCAAATTCTAGGTTGATGCATATCAGATTAAGTCATAAATCACTGTTTTTATTAATTCATTATGATCTTTTTTCTTGGAGGAATATAAATTGTTTCATCTTTAGGATCCGAAATCTTTTCTAAAAGTCCAATGAAACGGTCTTTATTAGGAACTAGCTTTACTATTGCCCACCCTTCTTCTATTTCTTTCTTGATGCGTTCTATATCAGCTTTATGCTCTGAAAAAGATATAACTTTTTGTGTTGGATTTTGCATATGATAAATCAATTATATGATTATTATTTATTATTTGCTAAATATCAATAAAACGATTACCTTATATTAGAGTTTGTTTATTCGAATAAATAGTTTAATTAAAAATGAAAATTTGTACAACAGCTTTTTGTTTTAAAAATGTATTTTATATCAATTATTAACTTTATTGAATTCGTAAATTTATGCCAAACAATGATTTGAAAACACCTCCACTTTCTAAAAAGCAATTATTGGCTTTTTTCGGTATGATTGTTGGCATGTTTATGTCAGTACTTGATATTCAAATTGTTGCTAGCTCATTATCTGTAATAGCTGCTGGTCTTGCTGCTTCAAGCGATGAACTTTCTTGGGTTCAAACATCGTACTTAATAGCTGAAGTTATCATTATTCCTATTACCGGATTTTTAGCAAGATTACTTTCGACCAGAATCTGTTATTTTATTGCAGCTTTAGGATTTACTATTATGAGTGTATTATGTTCGCTTGCAAATAATATTGAATCTATGATTATCTTTAGGGCATTACAAGGATTCTTTGGCGGCGCTATGATACCGCTAGTCTTTAGTACAGTTTATATCATTTTTCCTGCATCACAACGTCCTACAGTTACTATCTTAATTGGACTTGTCGTAACTGTTGCACCGACTTTAGGACCTACGCTCGGGGGATATATTACGGAGATTTTATCATGGCATTTTATGTTTTTATTAAACGTCATACCAGGTATTTTCGTATGCACTGTAGTATTCTTGTATGTGAATTTTGATAAACCAAATTATCAATTACTAAAAAATTTTGATTTTCTTGGTATATTATTAATGTCTTTAACTCTTGGATTATTACAGTATGTTTTAGAAGAAGGCAATAAAGAAGGTTGGCTTGACGATAATCTAATATTATTCTTAAGCATTACAGTAGCTTTAGGTTTTATTTTATTAATTATTCGAGAATTAACATTTATTAACCCAATTTTAGATTTAAAAACATTCCTTTATAAAGACTTTACTTTTGGCTGCATTTATTCATTCGTTATGGGTATCGGGTTATACGGTGCAGTATATATATTACCACTATTTCTCTTTACTATTGCTGAATATGATACATTACAAATTGGTGCTACTATGATGGTAACAGGTGTAGCGCAATTTTTATCCGCACCACTCGCAGGCAGAATGTTAGGGCTAGGTATAGATTTACGCATGATGCTTACTATAGGGCTAGGAGGATTCGCGCTTGGATGTCATTTGAATAGTTGTCTAACACCTGATTCTAAATTTGCTGCCTTTATACTTCCACAATTTGTTAGAGGGTTTTCCTTAATGTTTTGTTTTATACCGACTAATAATATAGCTCTTGGCAACATGCCCAAAGAAAAAGTAGGTAATGCTAGTGGGCTTTATAATCTTACTCGTAATTTAGGAGGAGCAGTAGGACTTGCAATAATCAGTACTATACTTAGTAACGATACTAAAATCTTCATGCAATATTTATCAGAAAATATATCGTATACTTCTATAATAGCATTAACGCGACTAGATTCCTATACTGAATTATTAAGCGGGAAAATTCTTAATCCTGAACAAGGATCATATTTGTTATTAGCAAACAAATTAAATAATGATGCTTTTGTAATTGCAATAAATAATATATTTAATATGATAGGATTATTATTTGTATTTATAATGCTACTAATACCTTTTACCTCAAATATTAAATTAACCGAAAATGTTAATGTTCACTAAAATTAAATTTATATTATATTTTCTTTGGTTATTATTAGAAATATGGAAATCAGCTTTCTTAGTAATCAAAATAATTTGGCAAAACAAGATCAAGATAGAGCCAATTTTTGAATGGATTGATGCAGAAGGACTACAAGAAATTGGTACAGTAATTTATGGTAATTCAATTACATTAACACCCGGTACAGTAACACTGGATATAAATAATAATATGTTATTAGTACATGCGCTTAATAAATCATCAATTACCGATCTAAAAAGTGGTAAAATGATTAAAAAAATCAAAACAGCTTAAAGTAGAAAAATGGCATCAGATATTAATGCTTTAAAGTATAAAAAAGTTTTGCTTAAAGTTTCAGGTGAAGCTTTAATGGGGAACAAACAATTTGGGCATGAATATGAGGTAATAAAAAAGATTGCCGAAGATATTAAAGAAGTCATTGATTTAGGATTAGAAGTGGCTATCGTAGTTGGTGGAGGGAACATTTACCGTGGGATTAATGCAGCACTCGTAGGTATGGACCGAGCTTCAGCAGATTATATAGGTATGCTTGCAACAGTGATGAATGCTTTAACTTTACAAAACGTGATGGAAAGCTTAGGCATCTATACAAGAGTGCTCTCAGCTATTCCTATGATGAGCGTGTGTGAACCTTATATTCGACGTAAAGCTAAAAGGCATATGGTAAAAAAACGTGTAGTAATTTTTGCTGGTGGTACTGGTAACCCATTTTGTACGACTGATAGTGCTGCAGTACTTCGTGCAATTGAAATGAATTGTGATATTTTATTAAAAGCAACACAGGTAGATGGAGTATATGATTCCGATCCTAAAAAAAATCCTAATGCTAAAAAATATTTCACTATTAGCTATAAAGATGTTATAAATAATCACCTGCAAGTGATGGATACGGCTGCTATTGCAGTTGCGAGAGAGAATAAATTACCTATAAGAGTATTTTCAATAAAAGAACATGGGAATTTTGCTAGAGTAATACAAGATAAAGGCCAATATACAACAATTGGGGAATAATATCACACTAATCCAGTAACTTTATTTCGTGTATTAGTGGAAAGCATATTAATTACTTTTTTGATACCGTACTCGAATAATGAGATAATACTTGGTTTGTTTCGCAAACGTAAAATGCACTAAATTATGCTTCTGAATCAACACAATAATATATTTGGTTTTTGTAATTAGTAATGATATAGATAAAATATGGATCAATAAAGATGGAAAAAGATAATTTAAAGAAAATTTTACAAGAGAAAATGGAGAAAGCTATTAAAGTTCTAGGTAATGAGCTAAAAGGGCTACGTACCGGTAGAGCTTCTATTAATTTTCTTGATAGCGTAACCGTAGAAGCTTACGGGAGTAAAATACCACTTTCACAAGTTGCCTCTCTCTCAACACCAGATGCACGGACAATTAATGTACAGGTTTGGGATAAATCTATGGTATCTTCAGTAGAAAAAGGAATTACAATAGCGAATCTAGGTTTAACTCATGCAACAGATGGTCAATTAATCAGATTACCGATACCGTCTCTAACTGAAGAAAGACGTAAAGAACTTGTAAAGCTTGCTCATAAATATGGTGAAGAGACTAAAATTTCATTACGCAATATTAGAAGAGATGGCATTGAAGAACTTAAAAAGTTAGAAAAGGATAATATTATTGTAAAAGATGAGTATCATAACTTATCTGAACAAATACAAAAGTTAACTGATGAATATAGCAGTAAAGTTGACTCAGCAATAAAACAAAAAGAACAAGAAATAATGACTGTTTAATGCGTATTTTAATTTTATAGCATAAAATGGTCTTTCGCAACCTATAGCTTAATAGTGTTGTATATAAAATAATAAAATACTAATTACTGCTATCAAGTCAATGTATAATGCATGCAATAATCTAAAACGAAAATAAATTGATACTATAAAAATTACTTGGAGTTTAATTCGAAAAATTATCTTAGAATCAGTAATAAATACAAGTTATTCATATTACTTACTAAATTATATGGATATCAAAAATTATTAAAAACTACTAAAATAGGTTAAAAAATCTTAAGATCATTATATGACAGAAGTTGTAGACATTTAAAAGTATTTGAATCAATCTGCAGTATCAATGAATATAAACTACAAGATATTATTTTTAATTAAAACATAAAAAAGAAATTTAACGACTGTTTTGATAATTAAGATAGTTTTAGAAAAATAACTAATTAGCTTTTATGACTTAATGAAATAAAATAGGATATAGAATATAGTATAACAACTGTATCCAAGTTCTAATTTTATCAGAATTACACAAGCAAATTTTTACGTAAAAATAATAAAACTATGATTACAAAAGAAGAAGCACAAAAAATAGCAAAATTAGCTAGATTAAAATTTGAAAAAGATATTGTAGAAAAATTTTCTACTCAGCTTAGTACTATTATGAATATGATCAATATTTTAAATGAAATAGATTGCAAAGATATAGAGCCTTTAACTTCAGTTTCGAATATGAATGCTAGGATGCGCGAAGATACAGTGACAAGTTCTGATTTATCAAACAAATTATTTGATAATGTCAGTGGAAATAGTGCTAAGCTTGCTAAAGAAGTAAAATATTTTATCACTCCAAAGGTTGTTGAATAATTATGACGGAACTAAACAAATTAACAGTAGCAGAAAGTGTAAAAGGTCTAAAAAATAAAGATTTTACAAGTAAAGAATTAGTTAATGCATATATTAAACAAATAGAGAAATATAAAAACCTTAATGCCTATGTTACTGAAACTTTTGATTTAGCTTTAAAACAGGCTGAAGCAGCCGATCAAAACTATGGTCAAAATAAAGCAAGAACACTTGAAGGTATACCGTTTGCCGTTAAAGATCTTTTTTGTACTAAAGGAATTAGAACTACAGCATGTTCTAATATATTAAAAAATTTTATACCTCATTATGAATCAAGTGTTACACAAAATATTTTTGATAAAGGCGGCGTGATACTCGGGAAAACCAATATGGATGAATTTGCGATGGGCTCAGCAAATATTACTAGTTGTTTCGGAAATGTAATTAGTCCTTGGAAAGCAAATGATGATAATAGTGATTTAGTTCCTGGCGGGTCTTCAGGTGGTTCAGCTGCAGCAGTTAGTGCCTTTATGGCTTCCGCTGCTCTTGGTAGCGATACTGGTGGCTCAGTACGTCAACCAGCAAGTTTTACGGGTTTAGTTGGATTTAAACCGACATATGGACGTTGCTCAAGATACGGTATGGTATCATTTGCTAGCTCACTTGATCAAGCCGGGATATTCACTAGAAGCGTTTTAGACAGTAGTATTATGCTTGAAGCTATGATGGGTTTTGACGAAAAAGATTCTACTTCAATTAACGCGCAAGTTCCAGAACTACAATCCGCTATAGGAAGTTCTATGAAAAATATGAAGATAGGAGTACCTCTTAGTCTTGGTGAAGGTGGTATTATTGAACACGATATTATGAAAATGTGGCATGATACTATAGAGCTACTTAAAAACGCTGGTGCGGAAATAGTAGATATTACACTGCCACATGCTAAATATGGTGTTGCAGTTTATTACGTAATAGCACCAGCTGAAGCTGCTTCAAATTTATCTAGATACGATGGTGTTAGATACGGTCTTCGAGTAGAATGTGAAAATATGACGCTTGATGAAATGTATGAAATGACTAGATCAGCCGGATTTGGAGAAGAAGTAAAACGCCGTATTATGCTTGGAACATATGTGCTATCATCTCATTGTATGGATGCGTATTATTTTAAAGCTCAAAAAGTACGTCGCTTAGTTGCAAACGACTTTAATAATGCTTTTGCAAAAGTTAATGCTATTTTATTACCAACAGCTCCATCTGCAGCATTTAAGATCGGTAAAAAACAAAATGACCCAACTATTATGTATTTAAATGATTTATTTACTATTCCTGCAAGTTTAGCCGGTTTACCTTGTGCATCAGTCCCTGCCGGATTATCAGCACGAGGATTGCCTCTTGGGATGCAGATTATTGGAAAACAATTAGATGAATATAACGTTTTGAAAGTAGCGTCTACAATTGAGACAGGCGTAAAACATATTAAATTTGAACCAGCAGGGTTCTAATAAAAGATAACAATTGAGTTTTAAAAGTTTAATTAATGTCTTTTGCTATGATATTAATTTGGAATCAAGAATAGAAAAAAGCTTTCCAAGCTTGATTTCTGCAGTATTTTTCAATTAGAAATTACCTTAGTAATTTCTAATTGAGTATTTTTTATAGGTTTTAAATTATGGAATATATTGAAGGGAATACGGGGAAATGGGAATATGTAATAGGACTTGAAATCCATGCTCAAATTTCCTCAAAATCTAAGCTTTTTTCAGGAAGTAGCACTCTTTTTGCAGCAAGTCCAAATTCACAAGTTTCCTATGTTGATGCAGCAATGCCAGGGATGTTACCTGTATTAAATAAACACTGTGTATACCAAGCAATTAAAACAGGACTTGTACTTAAAGCGAAAATAAATAAATATTCGGTATTTGATCGTAAAAATTATTTTTATGCAGATCTACCACAAGGATACCAAATTTCACAATTTTACTATCCTATAGTACAAGATGGCATGATAGAAATACCAACGAGTACTGGTGATCTTAAGACTATTCGTATTAACCGTTTGCATTTAGAGCAAGATGCTGGTAAATCTATTCATGATCAATCCCCATATTACAGCCTAATTGATTTGAACCGTGCTGGTATAGGGCTTATGGAGATTGTAACTGAACCTGATATATCATCACCGGAAGAAGCAGCTGAATTTGTAAAAAAACTAAGAAATTTGTTACGTTATATAGGCAGCTGTGACGGTGATATGGAAAAAGGCTCGATGCGTTGTGATGCTAATATTTCAGTAAGGCGGATCGGCGAGGCACTAGGTACAAGATGCGAAATTAAAAATATTAACTCCATCCGTAACATCATTAAAGCAATAGAATTTGAAGCTAAAAGACAAGTAGATTTACTTGAAAGCGGTGAAACAATAATCCAAGAAACACGCTTATTTAATGTAGATAGTTGCGAAACAAAAACTATGCGTTTAAAAGAAGAAGCACTCGATTACAGATATTTTCCTGATCCAGATTTATTACCACTTATTATTCCTGATGAGTTAATAAACGAGCTAAAAGCAAGTTTGCCTGAACTACCTGATCAAAAGATTGAAAAATATATAAAGAAATTTGGTTTAAGTCAATATGATGCTGGAATAATAGTATCAGATGAAGCTGTTGCTGAGTATTTTGAGAAAGCAGCAAATGAATGTAACCCTAAAATGCTCACTAATTGGCTAATTACTGAGTTATTTGGACAATTAAACAAAGCATCAATAGGAATACGTGAATGCAAAATTACTCCTAGTGACTTTGCAAAGTTAATAAAATTAATAGAACATGATACTATTTCTGGGAAAATTGCAAAAACCGTTTTTGAAATTATGTTTGAAACTGGTAAAGCACCAGATAAAATAGTAGAAGAAAAAAGACTTGTACAAATTTCAGATAATAAAATACTAAACACTGTAATTGACGAGGTAATAGCTGAAAATTCTAAATCAGTAAAGTGCTATAAAAGTGGTAAAGATAAATTATTTGGTTTTTTTGTAGGGCAGGTAATGAAAAAAACGGAATGTAAAGCTAATCCAACACTTGTCAACAAACTTTTAAAGGACAAATTAGATTCTTAATGTTAATCCAGTACAAAAAATAAATACAAAGAAAATTGTATAACATTTAGTATATTTTCTGCTTAAAAAGCTTTATATTCGCTTTTTGTTAGGAATCACATAAGTACTATACAATTAAACGTTACATTGTAATAGTTCATACACAAACTTAAAACATTATTTTTATGAAATTTCTGAAAATATTTTTACTATCTTTCTTATTAGTTTCTTGTGGAAAAAAAGAAACTGAAAAAACTTTAATAGTTGGTACTGCTGCAGATAATCCTCCTTATGAATTTATCCAGGATGGAGAGATAGTTGGGATTGATATTGATATTATCAAAGCAATAAGCCAACGTCTAAATAAAAAAATTATTATAAAAAACTTTGACTTTAACGGTTTACTTGCAGCATTGATTAGTGAGAACATTGATGTTGCAATTGCAGCACTTTCCGTTACACCAGAACGTTCTGAATATATTAGCTTTTCAGATAGTTATGCTAAGGCAAGATTTGCCATAATATATAGAACAGGGGATAATATACAAAATAGCAAAGATCTATATAATAAAATAGTAGGCGTGCAACTCGGTAGTGTTTTAGAAAAAAAAGCACAAGATTTATCACACAAAATGAATATTAAAGTTCATGCTTTAGCAAATCATTTAATGTTAGTTGAAGAATTAAAAGCCAAGGTTATAGATGCTATTATTTCTGAGGAATTTCAAGGCAAAAAATTAAAAGAAAACAATTCAAATTTAGAAACCTGTACTTTAGAAGAATTTTCATCCGCTTTTGCTATCGGTATGTCTAAACACTCAGGACTAATTAATGAAATTAATGACACAATAAATTCATTAAAAAAAGACGGAACCATTAATAAAATTATGAAAAAATGGCTAGGACAATAACAGAGGGTCAATTTAAGGATGCTATGAGCCGGTTTCCTCAAGGAGTTACTATTATAACTACAAATTGTAACAACGAACTTTTTGGCTTTACTGCTAGTTCTTTTACTTCCGTATCTTTAAAACCATCGTTAATATTATTTTGCCTCAATAAAAACTCTTGTAGTATAAATAGTTTTAAACAAAGTGATAAGTTTGCAGTGAGTATTTTAGCAGAGAATCAAATTGATATCTCAAAACATTTTGCTAAATCACAACCTAATAAATTTATAAAAATTGGCTATAAGCTTGGTAATAAAACCGATTGTCCTTTAATAAATGATGCAACTTGTCATATAGAATGTAATAAATATGCTTCTTACAATGCAGGTGATCATGTTATATTTATCGGCGAAGTAATAAATACCGCTATTAAAAATAATGTAAAGCCTCTATTATATTTTCATAAATCTTATACTAGACTTCTTGCATAAGCTACCCTATAAAGGGAAGTGGAAAAAAGACAAGTTCAATGCTAAATACTGCAATGTATATAGATAAGTGTAAATGAGCAGTTTGATATACAAATTACTTAGAGTGTAACTTATGTTCAAAGTCTAGTAGTTTAATAGAGCAATTGATACAAAGTATTACCGTGCTTAGGTAGTTTCTCCTGTATAATACACCTTGCTCTTTTACAAATTAAACTTTGTCTATATTATAATATTACCAATATGATAAATATCGGTCTTAGCGGTTCTACTGGCAAAATGGGGAAAACTATCATAGAAATAATAGATCAATTTAAAGATTGCCAAATTTCAGGAAAATTTAATAGTACTAATAACTTAAATGATTTAGATAATTTATGTAAAAATTCTGATGTCATCATAGATTTTTCTACACCTGAAGTATCAGAAAAATTAATTAATTATGCATTAAAACATAATACAAAATTAGTAATCGGGACAACAGGTCTAAAAGATCAACATTTTAAGCTTTTAGAAAAAGCAGCTCAAACTTTACCTGTGTTATATTCTGCAAATATGAGTATAGGAGCTAATTTGCTTAACTATCTAGCTAAAAAAATCACAAAAATACTTGATGAGTATGATGTTGAAATTCTAGAAATGCATCATCGTAATAAAAAAGATTCACCATCAGGCACTGCTCTTATGCTTGCTTCAACAATTGCAAGCGCAAAAGGATTTAATATAATATTTAATCGTGATAATAGAATAAAAAGTAAAAAAGAAATAGGTATTTCTTCACTGCGTGGGGGGAATGTACACGGTATACATGAAATATTTTTCCTAGGTAACGATGAAATCATCACTTTAAAACATGAAGCTCTAAATAAAAATTCTTTTGCTATTGGTGCAATTAAATCAGCTATTTGGATACAAAATAAACCTTCTGCTTTATATTCAATGCAAGATATTTATAAAGTATGATGAATATATCTTGAAAAAATACCTTTAAGAAACTAAATATAATAGATATAAGATTTAGAAGAAAAAACTATTCATATTTTTTTAAAATCTTATGTAGAAAAAAGAATTTAATTAGCTTTAAAATATCTTTACATATAGCATATAAACGACTATATTTTATTATGTAAATAACATAATCCTAAGGTTGCTTATGATCGATTATACAAAAACTCTAACTACTACCTCAAAAAATAAAACTTTTGATGAAGGCTTAAGAAGATACATGCTGAAAGTATATAATTATATGGCTTTAGCACTTTTATTAACCGGTGTAGCAGCTATAACGACTATATCAGTTGAGCCTATTTATCATTTAATGTTTCAAACAGGTTTCGGCACTATTATAATGTTTGCTCCACTCGGCATTGCTTTATATTTCTTTATGGGCTTCGGACGAATGAATCTCCAAACAGCTCAAATATTATTTTGGGTTTATGCAGGATTAACTGGTATGTCACTTTCATATTTAGCTCTGATTTATACCGGTACATCAATAGCTCGTACTTTCTTTATTTGCTCTTCCGTTTTTGGAGCAATGAGTTTATACGGTTATAGTACAAGTAGAGACTTAACATCCATGGGGTCATTTTTTGCTATGGGTCTTATAGGTCTTATTATTGCCTCATTAGTCAACTTGTTTTTAAAAAGTTCATCTCTTTCTTTTGCTACTTCTCTTATTGGCATAGTAGTATTTATGGGCTTAATTGCTTGGGATACGCAAAAAATTAAGTCTATGTATTACATAGCAGGAAACGATGAAGTAGGACAAAAGCTTTCCATTATGGCAGCATTTACTTTATATTTAGATTTTATCAATCTTTTCCTATATCTAATGAGATTTTTAGGCAATAGAAGAGATTAGTTTAGTTAATAACTTTCTGCAAAGTCATGAATTTATTCCATGACTTTGTTTTTGCATTATCATATCGCGATCAAATATATAACATTCGTTAATATAAGCATATTTATGTCTAAAGAAAAAATTACACGAGAATTATTACTACAACAAGAACTTTTTAAGGCTCTAAAAACTCACGATATAGCAGCTAATGCTAAAATATCTAGAATATGCAGAAGGATTGCAGGGTCTGTTATTGCACTTGCGAGGCAACAATCTCATACTACTGAAAATCTATATACGCACTATATTAATCAAGCTGCTTTCAACACTAAGGATTTAGCTAAAGTTACAACAATAATAAAAAACTTGTTTCCAGGAGATAAAAACAAGAAATTAAGGGAAATAATCGATACACCTCTTTTACAGAATTTAGTTATAGAAGGATCAATTGAACGAAAGATTGAATTAAATGATCCGCAATATAACACAAATTACAGAAAATTTGAAGAAATAATAGATCCTAATGAGACAAAAAAAGTAATTGATGCTATGTTACGTGATAAGAGAGTAGCACAACAAGATGAATTTGAGGAGACAGGGAAAAAAACAGCAGGAATCTCAGCTGGTTATGTTGCTAATGATAGTACTGGTAATACTTTTATTTTAAAACACTTTTATAAAACTCATGCTGCATGTAAAAAAATACAAGATCCTAAGGAACAGGACCAGGCTATTACTGATCGAAGAGATGGAGTGCAAGAATTAATAGGCTCTACCATGTATCAATTTTTATTACATGATCGCGCACCAAAAGAAGGTCTGGTAAATGCGGATGAACAACACCCTGATTCACTGTATGTACGTTCTAAATTTTTTGATAATGCTGTAACGCTAGCAGAATTTTGTGGTTTGTCAGGTCTCACTAGAGTTAGAATTAATGATAAAAATTTAAAAAGGTTAGAAGGCTTTGAAAAAGCTATAGCTGCTTGTCATATACTTGGAGATGGAGATTATCATGCTGGTAATTTAATGGTACAAAATGGCAAAACAATAACCAAAATTGATCATGGTCGCTCTTTTTTAGAATTTCATAAGGATTTTGCTAGTATGATTCAATCAACAGCTGAAATGTTTATACATCCACATGTTTGCTACAGTTATGCTATTAAAGCAGGTAATTTATCATTTAATATCGATAAGTATAGTGAAGCGTTAAATCAAATGATAAATCAATTTGATTTAAAACATATGGAAGCGATAGTTGATCAAAAACTTGATGAACTAAAGAAAGCTGGATTTGACCCAAACAAGATTCCGTTATCCATTAATATTAAAAATTTTGATGATTTAAAAAAATACTATAAAACTCATATAAAACAAAATATTATTAATATGCAAGAAGTTGCAAAAGGAGCTGAAATAGTAAAAAAATTCAGTAATGTTTTACCTTCATTTAAGAATGGTGGTTGGTTAGAGGCTTTCGCTAATTCACCGATAAAAGAACCACTACTCTATGCAATAGAAAATAACATTACAATTGAAGGTAAAGATGCTCAAGAGTGGGCGTATGAGAACAATTACCAAATTAAAACTGCTATAGGATTAACAAAAGAAACAATCAAGGAACAACAATGGAGCAAAGATTTTGAAGGTAAATGGCAAGAAAGAGAAGTTGAAATTCAAAGAGATAAAGTAGAAATACAACTTTCCGATCCTTTAAAGTCAATACGTATACAAGACAAATTTACAGCAGAAAAACTGGGCTCGCTAATTGTTAATTTTACAAAGCACACAACAACTAAAAATGTAACTGACAAAGAAGTAGCAAAATTCTATGATAATATAATGAAAGTGCTAAAAAAGAGCATTATCTTACCGAGCAAGATGTTGAAGCTATAAAGCAAGATTTGAAATATCATGATAATATCGAAAATACAACAAACCTATTAAATGCTAAAGATTTCAAATTAAATACTAAAGATACTATATATTACAAGGTAGGAAATTTTTGTGAAAAGATAGGTTTACGTAGTGTTGCAAATCATTGCATAAAAAAATCACGCCTAAAAATTTAAATAAAATTTATAATACAGAAAAAGTCATAGCGGAAAGTATAAAAATTGGTAATATACTAAAATATAACAAACAAGAAGGGTTCCAAACAAAAAGATTAGAAACTGTAAAGGGGATTGCAGTATCTCAATTACAAGCTAAGCAGGAAAGACAGCAACAAGGTAAGCATTATTGAGTGTAAGACTGAAAAAGGTATTTATTGTATTAATCATAGAGTTAGATTCTCATATCTTATCTTGAGCTAAAAATGAAACACTATTTGTACTGCTATCCAATACTATAACCAAGTGTTACTGTTTTAAATAGTTATATACGTATATTGTTTGTAAAGCAAATACAGTAACATAATCAATTGGCTCATACTATACACAGTACTGTTTGGGTATATATCATCACTATAAATTCGTATTCTTTTTATGTATTTTTCTAGAAGACGGTGATAGCATAATGCTGAGTTCTTTAAGAGCTTTCTCCTCTACATAGCTTGGGGCATTCATAAGCAAATCTTCTGCTTGCTGATTTAAAGGAAATGCAATTATTTCTCTTATGTTTGTAGCTTCTGCAAGAAGCATAACGATTCTGTCAATTCCTGGTGCTATTCCACCATGTGGTGGAGCACCAAACCTAAAGGCTTTAATCATAGCCCCAAATCTCTGCTCAACTTCCTCTGCACTATAACCTGCTATCGAAAATGCTTTATACATAATTTCTGGCTTATGATTTCTAATAGCACCACTTGAAAGCTCAATACCATTACAAACAATATCATATTGGTATGCAGTGAGTGCTAATAACTCTTCAGTTGTTTTAGCTTGCTCTAAAGCATCAATTCCACCTTGTGGCATAGAAAATGGATTATGACTAAAATCAATTTTTCCTGTTTCCTCATTTAATTCATAAAATGGGAAATCAGTGATCCAACAGAATTTAAAGCAATCTTTTTCAAGTAAATTAAGCTCTTCGCCTAATTTTATTCTAACCTTACCACACAGTTTTACAGCTTCGTCTTTTTTATCACTAACAAAAAATACAGCATCACCGTTACTTGTATTTGCAGTAGCTTTTAAAATTTCTAACTGCTGTCCTGTTAAAAATTTTGATAACGGCCCTTTTGCTTCACCGCTTTCACTAAACTGAATGTAGCCAAGACCTCTTGCCCCTTTAGATATTGCAAACTCTATCATTTTATCAAAAAAACTACGCGGTAATGAAGCAGCTTGAGGTGCAGGAATTGCATGAACTACACTGCCTTTTTTAATATTTTCCCTAAAGATTGTAAAATTAGAATCTCTAAATACCTCAGTTACATCAGAAATTATAATAGGATTACGCAAATCAGGCTTATCAGAGCCATATTTTAGCATAGATTCATTATATGGGATACGAACAAAAGGAGTATTTGATACTGTCTTATTTGTAAATTTAGTAAATAAATCATATAGCACAGGTTCAATAGTATTAAATATATCTTCTTGTGTAACAAATGACATTTCTAAATCTAATTGATAAAACTCGCCAGGTGATCTATCAGCTCTTGCATCTTCATCGCGGAAGCAAGGAGCAATTTGGAAATAACGATCAAAGCCTGCAACCATCAAGAGTTGCTTGAATTGCTGAGGTGCTTGCGGCAATGCATAAAACTTACCAGGATGTATTCTACTCGGTACTAAGAAATCTCTAGCTCCTTCAGGAGAACTAGAAGTTAGGATTGGCGTTTGTAATTCGGTAAAACCTCTTGCTATCATTAAGTGACGAATATGAGCAATAACTTGTGAACGGAGTATTATATTATTATGTAATTTCTCGCGTCTAAGATCTAAAAAACGATGTTTTAGCCGAGACTCTTCGGGAGCTTCTTTTTCATTATTAATAACAAAAGGTAGAGGGGAAGAAGCTGACTCAACAATACACTCCATAGCTAACACTTCAACATAACCTGTGGGAAGTTTATTATTAATCGTATCCAATGATCTTGCTACAACTGTCCCACTTACCGTAATTACCGACTCATAACACAAACGACTTGCATCGTACATCAGCTGCTGATTTTGATCGGTAAACACGATTTGAGTTATACCATAATGATCACGTAAATCTATAAAAACTAAATTACCATGATCTCTTCTTCTATGTACCCAACCAGATAACTTAACTTCTTGTCCAACATTTGATAATTGTAATTCATTACAATTATGAGTTCTATATTTATGCATTTTCTATGTATATTTCTTTCATTGTATACATATACATAAAATTATTAGCTTGTGCAAATAAAAACTAAAGTTTTACCTTGATATTGAAGCAGCTTTTGGCTTTGACTGAAGTTGATGATTATTTTGTTGTTGAGGTTTAACCTGATTCAACTCATTTTGGAACCATTCATATACTGCTCCAGTAGGGTTCTTAATCACCTTAGAGATATTTTCTACTAAATTTATTATTCCCTTAACTAAAGATAATACATCTTTTGCTATCTCACCTATAGTACTATTACCTGCCTGTAGTTTTTCTTGCTCTTGCTGCGACAAATTACTACGTATCTTATTCATTCTTGATTTAAGCTCATCTTGTTCTAACTCGTCCTTTGTAAAATATAACTTAAGTTTTTTATCAACTTCTTTCTGCTCTTGTGGCATTAAATTTTTATATTGATCAACAAGCTTATTAATTTTTTCTTGTTCTTCTGGTAATTTTGAAATATTTTCAGCAACATTTGACATTTGTTTCTCTTATAAGTTTAAACAGATTAATTTTGCACGTTATATTATATATACTTTATAACTTTATACAAGAAAAACTTTAATGAAATGAATATTACTTAGACCTCAGCTTTAATATCTAAAAAAACTAAGAAATTTCGTAATTCTTGACGTGCAAGTACATGTGAACTATTAAATACTCTATCATATTTTGCAGTTTTTAGATCAAGTAATGTAAGCCCTTGTAAAAATAACTCCCTATATATTACACGTTCACTAAATCCTTCTGCGAGTTTAAAGTTAATTCGTTTAGCAAGTGCAACTAATACAGCTCCTACACGTCTTTTATTTAATGCATCAAGATTACTTAAACGATTACGTAGTATTATCCAATCTATACTACCTCCATCACGGCTAGCACGTTCCATTTTCTGTTCCCAAATCATTTGACTATATATTGATGGGCTAATAATTTCATCTTTGCTATCCACTTTCGCTATTACGTCTAAATCTAAAAAACTATCATTAATTGGTGTAATAATTGTATCAGCGTAAGAATGAGCAATTCGCGATAAAGCAGTATAACTACCTGGGGTATCAATCACTATATAATCAGCATCCTTATTGTTTTTGAGTATCTGCTTAAAACTATTTATTTGTTCTTCTACATCACTTTGAAAGATATGAAAATGTTTTGGTACTAATACAGTATTAGTAGGATTTTGTTGATTGTATAAATCTCGATTTTTTAAATAGTTTGTTAAAGAACTTTGACGTGAATCGGCATCTATACTAATTACAGAATAATTTTGATAAAGCAATCCTATTATAAGATGCATAGAGCATGTAGTTTTACCTGCTCCACCTTTCTCATTACCTAAAACAAATATATAAGGTTTATTTATTATGTTCATAATTATAAAAATATAACGGAATCTGCTCTGTCACTTGACTACGATATCAGGTCTTTATTACAGTAGGTTTTGCGTTCTACACAAAAATACATTAATTATATTCCTTGATGAATTTCTCAAGTAATCTCACCCCATACCCAACTGCGCCCTTAGGGCAAAGTGCTGAAGCATTATTACTATTTGCAACACCTGCTATATCTAAATGAGCCCAATCTACTCCATCTTTAATAAAACGTTTAATAAAATGTGCAGCAGTACAGCTTCCAGCAGCGCCAGGTACGTTCCCAATATTTGCTATATCTGCTATATCTGAGTTAATCATTGCATCATAGTCATCATGAAGAGGCATTCTCCAAAGTTTTTCATTAACTGCTTCCCCTGCTTTTATTAACTTATCAGCTAATTCATCATTATTAGAAAAACACCCTGCATATGTGCTACCAAGTGCTACAGTTATTGCTCCTGTTAGAGTGGCAACGTCAATAACACATTTAGGATTAAATTTTTCTTGTACATACCAAACAGTATCAGCGAGTACTAAACGACCTTCAGCATCGGTATTTAAAACTTCAGCAGTTTGACCTGACATAGTAACTACGACATCACCAGGACGTTGTGCATTACCGGACTGCATGTTTTCAACCAGCCCTACAACACCAACTACATTAACAGGAACTTTTTGACTAGCAAGAGCAATTATAGTACCTACGACTGCTGCAGAACCTGCCATATCGTATCTCATTAAATGCATATTACTTGATGGTTTTAAGGAAATACCACCTGTATCAAAAATAACTCCTTTACCAACTAAAGCAAGAGTCGAATCATCTCTACTACCGCCTTTATATTCCATAACCACTAACTTTGACTCATTTTGCGAACCTTGCCCAACTCCAAGTAATGCGCCCATACCAAGATTTTTAATATCATGTTCACCTATAACATCAATATTTACTCCAAGCGGTTCAAGTATCTCAACTATTCTTTCTGCATAGACTTGCGGCGTTTTAATATTTGACGGTTCATTACTTATATCTCTTGTAAAAAATACTGCCTCAGCAATTAATTTTTTGACTTCAAATAATTTCATTGCTTCGGAATTATTATCGGTTAAAATTTCAATTGATTCTACTGCAAATTTTTCTACTTCTTTTAAGGTGGTTTTATATTTATGAAACCTATAAGAGGCAAGAAATGCACCACTAGCAATTAAAGATGTAAATGTTGGAGATGTAAATCTGTTTATTCTATTTATAATTTTTAAGCCGATAGTAGCAATTTTAGCACAAGTAGCATGTTGTAAAATTTTACCACCTAACTCTTCAATTTTTGCTTCAGTTAATTTTTCTACATTTCCTAACCCTACTATTATTAAATATTTAACTGCACAAGATTTAATAACAGATGGAACAACTGTAATTTGTCCATAATTACCACTAAATTGTAATTTATTCTGAATAGTCTTAGAAATTAATTCATAATGTTGTTGATCAAGTGCAATTAAATTATTATTAAGTTTTAATTGTTCATCAATAAAAACTATTAAACCTTGATTAGTAGATGATTCTTCATTAACAAAATTTATATTAAGCATACCTAATTCCTTATATTTTGAATTTTGATAATTTTATTTATATTGATCAAACTTTGCAAGTATTATAATCAACTTAAAATTAAATCTCATTAAGTAATATTTAATAATTACTCTATTAAGTAATACTATTCCGATATATCTTCTCATCTTGTAATGAAACAGCATGTGCATTAAACCAAGATATGAACAAAATTTATAATCGCACTACTAAATATGTTATACTTGTATTAACTAAAGTTATTATATATCACTAACATTTTATGTAATAAAGCTTGATAGAGCTTGTTACAGTATTTACACAGATTGTAGCTAATTATTGAAGATTGATCTAGCAATAGCCAAAATATTACACAACTGATTTAAAAAGGAATAGATATATACTACTATTGTCATAGAGCGATATAAAATTTAGCGGTAATATTACACTGTTTAAAATAGATTAGGTATCAGTAAATTATACAGGACTTTTTTTAGTTTCACATGACCCTTTAGATATTCTTTCTAAAACCTAAAAATACTGTTTTGAAACATTGAAAAACTACAACTATTACTCTTATAACAAGAGATATTATTACAGTAAACTTATTTATGTAGCAACTTTATATTATTTTCACAAGCACTAAAAACTTATATTAAATATTTTATTTAGTTACAGCCTTTAATATCAAAACACTTAAAAAGCTACGATATGAAGCGTCTTGAAAAAGATAAAAATTATTATCAAGTATCTTGATTAAGATACAAATATTTTATAACAGCACATAATTCCTATGAAATAAGAAAAAAAGCCTATAAAAACTAAGTTTTTATAGGCTTTTTACAATGTGTAGTAAGATTACTGACTAGCACAATACTTATAGCTATTAAAATGATTATTAAGTAAAACTAATTAATGTATTTTAAAGTTTATTTTGACAATAACAATATGAGATCTATTTACCGCTGAATATACACTCAATACTTTCTTCAATTACAAGGGTCAAGTATATTTTATACATTCTCTTCATCAAGCTTTACAGCTGCTTTACGCATTTTATCCATAAAGTAACCAGTGCCAGCAGGTACTAATCGCCCAACTATCACGTTTTCTTTTAGTCCTCGTAACTTATCTACTTTACCTGCAATCGCTGCTTCAGTTAAAACTCTAGTAGTCTCTTGGAATGATGCAGCAGAAATAAATGATCTAGTTTGTAGAGAAGCTTTAGTAATACCTTGTAATATTAATTGTGCTTCAGCAGGTTTTAAACCGTTTTTCATAGCTTTTGCATTTATTTCATCAAATTCATGCCTATCTATTTTTTCACCTACTAGTAATGTAGTGCCACCTGAATCTGTAACTTCTACTTTTTGTAACATCTGACGGATAATAACTTCTATGTGTTTATCATCAATTTTTACACCTTGTAGGCGATAAACAGCTTGAACCTCCTTAACAATATAATTTGCAAGCACTTCTACACCCATTACTTTTAAAATATCTTGCAGTACAGGATTACCATCAATTAATAAATCACCTTTTTTAACAAAGTCTCCTTCGTTCACTACAACATGCTTGCCTTTAGGTACCATATATTCAATAGACATTGTTCCATCAATTGGATGTATAATAATACGTCTCTTAGATTTATAGTCTTTACCGAATTCTACTCTACCATCAACCTCAGCGATCACTGCATGATCTTTAGGACGTCTTGCTTCTACAAGTTCAGCAACTCTTGGTAAACCACCGGTAATATCTTTAGTAGTGGTTGATTCTTTAGGTATACGTGCAATGATATCACCTACCGATATTTGTATTCCATCTTCTACACTTAACACTGCTCCAACCGGTAAGTAATATCTAGCTTCTAAACCATTTGATAAGGTTATAACTTCACCTTTAGAATCTAAAAGCTGTATACGCGGACGTAATTCTGCACCACGTGAATATTGCTTTGATTCAATAATAACTTTACTAGGTATCCCAGTAGCTTCATCAGTTACATCACGAATAGAAATACCCTCAACCATATCTTTGAATAAAACTTTACCTGACTTCTCTGTTATAATTGGTATAGTATAAGGATCCCATTCTGCTAGTTTTTGTGTTTTAATCACCATATCACCGTCATCAACAAGTAATCTAGCACCATATGGAATTTTATGACGAGCTTTTTCATTACCGTTATTATCAAGCAATAATAATTCACAATTACGACTCATAACAATTTTTCGTTCTTCGGAATTAATAACAACGTTACGACTTATAATTTTTACTTTTGCGTCATAGGATGCTTCTACGGAAGAAACTTCAGCACCTTTTGTTGCAGCTCCTCCTATATGAAAGGTTCTCATTGTAAGCTGTGTACCAGGTTCCCCAATAGATTGGGCCGCGATAACACCTATTGCCTCACCCTCTGATACTAATGTACCAGTAGCAAGATCCCTACCATAACATATGCTACATATACCGGTACTACTTTCACAGGTTAATACAGATTTAATCATAATTCTGTCAAGTCCAGCTGACTCAATTTGTTCCAGTTTTGATTCATTAATAAGCTCACCTTTATTGAGAATGAGATCATTAGTAACAGGATGAAATATATCGATAGCAGCAGTACGGCCTAAAATCTTTTCAGCTAAAGGCACTATAATTTCTCCGCCTTCAATAACGCTCTTCACTTCAATTCCTTTATCAGTACCACAATCTTTTTCAGTAATAATACAATCTTGTGCAACATCGACTAATTTCCTCGTTAAATAACCTGAACTTGCTGTTTTTAAAGCAGTATCTATTTGCCCTTTACGCATTCCATTAGCAGAATTAAAACACTCAAATTCAGTTAAGCCTTCCTTAAAGTTAGAGATAATAGGCGTTTGTATAATTTGACCGTTTGATTTCGTCATTAAACCTCGCATACCACCTAGCTGCTTAATCTGCTGGAAAGAACCCCTTGCTCCAGAAATAGCCATCATATATATAGCATTTATTTTCTGATGATTTGGATAATCATTAACTGGTGGCGTAGCAATCTCTTTCATCATATCGTTTGCTACTCTATCTGTACATCTTGACCAAGCATCAACTACTTTATTATATTTCTCTCCATAAGTAATTAAACCATTTGAATATTGTTGTTCAAATTCTTTTATCTCAAGTTGTGTTTCATTGATATGAGTACTCTTAGATTCTGGCACTACCATATCATCCATTCCAAAAGAAATACCTGAAGAGCAAGCATATTTAAAGCCTAATTTCATTAACTGATCAGCAAAAATAACTGTCGCTTTTTGACCACAGTGACGATAAACTAAATCTATAACTAATGATATATCTTTTTTAGTTAGCTGTTTATTAATAAACTTAAACTCTATATTAGGATTAGAAGGTAATAACTCACCGACCATTAACCTACCATATGTAGTATCAATGATAACAGGTACCATTTTACCTTCAGCATTTAACTGATCTCTGCGATATTTGATCTTTGTATGAATAGTGATAAATTTATTATATAACGCGTGTTCCATTTCAGCTAAATCTGAGAACATCATCCCTTCGCCTACTTCATTATCAAATGCAATAGTAAGATAATATAAACCAAGTACTATATCTTTATCTGGTACAATAATAGGACGTCCATTTGCAGGACTTAAGATATTATTTGTAGACATCATAAATACCCTAGCTTCAAGCTGTGCTTCAATCGATAATGGAATATGTACCGCCATCTGATCACCATCAAAATCCGCATTAAACGCAGCACAAACAAGCGGATGAAGCTGTATTGCTTTACCTTCGATTAATAGAGGTTCAAATGCTTGAATACCAAGCCTATGTAAAGTTGGAGCTCTATTCAGTAAAACCGGATGCTCTCTAATTACCTCTTCAAGTACATCCCAAACTTCAGGCTTTTCCGCTTCCACCATTCTTTTAGCAGCCTTAATAGTTGTAGCAATACCATACAACTCAAGCTTAGAATAAATAAACGGCTTAAATAGTTCTAGAGCCATTTTTTTAGGTAAACCGCATTGATGAAGTTTAAGCTCAGGCCCTACTACGATCACTGAACGTCCTGAATAATCAACCCTCTTACCGAGTAAATTCTGACGAAAACGACCTTGCTTACCTTTAAGCATATCACTTAATGACTTAAATGGGCGCTTATTAGCATTTTTTGCTGCTCTACCGCGACGACCATTGTCAAATAACGCATCCACAGCTTCTTGTAACATTCTTTTTTCATTTCTGACTATTATGTCAGGAGCTTTTGACTCTATTAATTTCTTTAAACGATTATTTCTATTAATTACCCTTCTATAAAGTTCATTTAAGTCTGAAGTAGCAAATCTTCCACCATCAAGCATAACAAGCGGTCTAATTTCAGGAGGGATCACAGGTAAAACATCCATAATCATCCATTCAGGCTTATTTTCTGACTCTAAAAAATCCTCGACTAATTTTAAACGCTTTACTAATTTTTTCTTTTTGACTTCTGAAGAAGTAATGTGTAATTCATCGTATAATTCTTGCTTTAACTTTGAAAAATCAAGCTCTTTAAGCATTTGTTGTATTACTTCTGCACCTATAGAAGCAGTAAATGCATCTTCACCATACTTATCTTTTGCTTTTTGTAATTCTTCTTCTGTCAAAAGTTCTCCTTTTTGTAAAATTGATAACCCTGGATCAACTACTACATAATTTTCAAAATAAAGAATCTTTTCCACATCTCGCATTGTCATATCAAGAAGCGTACTAATTCTCGAAGGAAGTGACTTTAAAAACCAAATATGAGCAACGGGAGCCGCAAGCTCAATATGTCCCATTCGTTCACGTCTTACTCTAGAAACTGTAACTTCAACACCACATTTCTCACATGTAATGCCACGGTTTTTCATCCGCTTATATTTACCGCAGAGACATTCATAATCTTTGACTGGACCAAAAATTCTTGCACAAAATAAACCGTCTTTCTCAGGTTTAAAAGTGCGATAATTAATCGTTTCAGGTTTTGTTACTTCACCAAAAGACCAAGAACGTACCTGATCAGGACTGGCTATATTAATCCTTATCTGGTCAAATTGTTGAGTATTACTTAATTGTCCATAAAAATTAACTACGCTCATAAATACTTTTCCCTAAAAATTACTCCTACTCTAAAATGTTACTCCATAGCTTAAATACAAAATAACATTATGGCTCACTACATTCATTTAGTTTGGCTTGCAATAACAATTTTTAAATTATACAACAAGACAAATTATGTACAACATATATACACTTTATTTACTTGGAGTTACTTCAAGCTTTACGTTGAGACATAAAGATCTAAATTCTTTTATCATAACATTAAAGGATTCAGGAATGCCTGATTCAAAATTATTTTCACCACGTACTATAGAATCATAAGTTTTGATCCTACCGTTTACATCATCTGACTTAACAGTTAACATTTCCTGTAACGTATAAGCTGCACCATAAGCTTGTAATGCCCAACATTCCATTTCGCCAAAACGTTGCCCACCAAAATGAGACTTACCTCCAAGCGGTTGCTGTGTTACTAAGCTATAAGGTCCTATAGAACGAGAGTGAATTTTATTATCGACTAAGTGATGTAATTTTAGCAAATATTTGTGTCCTACAGTTACTAAACGATCGAAATATTCACCAGTTCTACCATCAATTAATTTTACTTGTCCTGAAAGATCTTGGCCAGCAAGTTCCAACATATCTTTAACATCTTGAACTTTTGCACCATCAAATACAGGAGTTGCAAAATATACACCTTTACTTACTTTATTACAGAAAGAGATAATTTCTTCTTCTGATCCTTCAAGGATATAATTAATATCCTTGCCGTACAGCTCAAGTAAGAATTTCTTAATTTCCTCAATATCTATATGATTATCTTTATATTCCTTTACTAAGGTAGATATTTTTTTTGCTAAATTTATTGATGCCCATCCAAGATGGGTTTCTAAAATCTGTCCTATATTCATACGGGATGGGAGACCTAGAGGATTAAGCACTATATCTACGACAGTTCCATCTTCTAAAAATGGCATATCTTCTTCAGGTACGATACGTGAAATAACACCTTTATTTCCGTGTCTTCCTGCCATCTTATCCCCAGGCTGTAATTTATGCTTAGTGGCAATAAATACTTTTACTACTTTTAAAGCCCCTTGAGGTAAATCATCACCGCTTTGCAATTTCTCTACCTTAGTAGTAAATCTTTTATCGAGCGCATATTTTTTCTCATCATAATGAATTTTGATCTGCTCTATTTCATTCATTACATTTGCATCTTCTACTGTAATCTGCCAAAGCTGTCCTTTAGATAAACCTTTTAGCATTTCAGTAGTAATAGTTTGTCCTGCTGTTATTTGCTTAGGACCATTAATAATAACATGTCCTACTAAAAGCTTTTCAAGCCAACTAAAGACAAAATGCTCAATAATTTCTAACTCATCATCTCTGTCTTTTGCTAATTTTTCAATTTGTTGTTTTTCAATAGCAATAGCTCTCTGATCTTTTTCTACACCTCTACGAGAAAATATCCTTACTTCTACTACAGTGCCACTAACTCCAGAAGGTACATGCAGCGATGAATCTTTTACATCAAAAGCTTTTTCTCCAAAAATAGCACGTAGTAGTTTCTCTTCAGGGGTAATAGGAGATTCACTTTTTGGCGTTACTTTTCCAACTAAAATATCACCAGCTTTTACTTCTGCACCTACATAAATTATCCCGACTTCATCAAGATGACGCAACGCTTCTTCACTTACATTCGGTATATCGCGTGTAATTTCTTCAGGACCAAGGCGTGTATCTCTAGCTATTACTTCAAACTCTTCAATATGAATTGATGTAAACACATCCTCTTTTACTATACGTTCAGATATTAAAATTGAATCTTCAAAATTATAACCGTTCCAAGGTAAGAAAGCCACAAGTACATTTCTACCTAAAGCAATTTCACCATTATCTGTACTAGGACCATCAGCTATAATATCATTTTTCTTAACATAATGACCGACCTTAACTAAAGGCTTTTGATTTATACAAGTATTATGATTCGATTTTTGGAATTTTAATAAATTATAAATATCAACAGAAGGAGACCCATCAACTTTTTGTTCTAAAGTTCTAATCACAATTCTATTTGAGTCTACCCGTTCAACAATACCATCATGTAATGCAAGCACCGAAGCACCAGAATCTTTAGCCACTACCCCTTCAACTCCAGTACCTACAAAAGGTGCTTCAGTTTTAATTAAAGGAACAGCTTGCCTTTGCATATTTGACCCCATCAAAGCACGGTTCGCATCATCATTTTCTAAAAAAGGTATAAGAGAAGCTGCAACCGATACTACCTGCATAGGCGTTACATCAATGAAATCCACCTCATCCGGTTCTACCATTACAAAATTTCCACCCTCAACACGGCAATTAATGAACTCTCCTTGCAGTTTTCCATCTTGATCAACTTTAGAATTTGCTTGCCCTATTTTGTATTTACCTTCCTCAATGGCAGAAAGATATACTACCTCATCAGTTACATATCCATTTTTAACTCTTCTATACGGACTCTCTATAAAACCATGTTTATTTATTCTAGCATAAGTAGCCATAGAGTTTATTAAACCAATATTCTGACCTTCCGGTGTTTCAATAGGACAAATACGACCGTAATGAGTAGGATGTACGTCACGTACCTCAAAACCTGCTCGATCTCGACTAAGACCTCCAGGCCCAAGGGCTGAAAGTCTTCTTTTATGAGTTATCTCAGATAATGGATTTGTTTGATCCATAAATTGGGATAATTGCGAGGTACTAAAAAATTCTTTTACTACCGAAACTAAAATTTTAGAATTTACTAAATCATGAGGCATTACGGTATCAACATCACCTGCTGACATCCTTTCAATTACAGATTTTTCCATCCGTACTAAACCTATTCTAAATTGATTTTCTATCAATTCACCAACCGATCTAACCCTTCTATTACCTAAATGGTCAATATCATCTATAATACCTTTACCATCTTTAAGCTCGACTAAAATCCTTACAATATTTTTAATATCATCAATTGTTAGAACTGTAACTTCTTCAGAAATATTCAATTCTAACCTAGAATTCATTTTTATTCGCCCAACTTCTGAAAGATCATATCTTTCTGCATCAAAGAATAAATTATAAAATAGGCTTTCTGCTGCTTCAATATTAGCAGGTTCGCCTGGTCTTAAAACTCGAAAAATGTCACATAATGCTGCCTCACGGTCCTGATTTTTATCAGCGAACAAGGTGTTTCTTATATATGAACCTGATTGAGGATTGATTACTAATACGTTAACATTTTTAATTTTAAGATCATTAATAACTTTTAACATATCAGAAGTAATCATTTCACCAATTTTAGCTAAAACTTCATCACTTGCAGGATCTCTTAAATCTTCAGATAGATATTTACCGATTAAAGTTTCATGAGTTACTAAAATATTATTAAGACCTACACCAAAATATTTTTGAGCCAAACGCGGTGTAATTTTTTGTCCTGCTTTCAGTAAAACATTTCCTGTATCTGCATCCACTAAATCACTTGTTAAACGATGAGCAGTAATATGCTGAGGTATAAATTTAACAGACCACCCTTTATTTTTTACAAACTTATAAGTTACTGAATTATAATAAAATTTTATAATTTCTTCAGTACTCATACCAATAGCTCTTAGTAAAGTAGTAGCATAAAGCTTCCTTTTTCTATCAATCCTAAAATAAATAATATCTTTAGCATCGAATTCGAAATCAAGCCAAGATCCTCTATATGGAATAACACGAGCAGAATATAAAAGCTTGCCGGAAGAGTGCACTTTTCCTTCATCATGATAAAAGAATACACCTGGTGAGCGATGCATTTGTGATACAACTACTCTTTCCGTACCGTTGATAATAAAAGTACCATTTTTAGTCATTAATGGAATATCGCCCATATATACTTCTTGCTCTTTAATTCCTTTAATTTCTCTAGTACCTGTATCTTCGTCTATATCCCAAATACTTAATCTTAAAGTAACTTTAAGAGGAGCTGCATAACTTAAACTTCTTTGACTACACTCGTCTACATCATATTTTGGAGTATCAAATTCATATTTGACAAATTCTAAATTTGCAATATTTGAGGAATCTGAAATAGGAAAAATTGAGTTTAATATAGATTGTAAACCTTTGTTTTTTCTTTCAGAATCTTTAATATTTAACTGTAGAAAATTTTTCTCATATGAATTTTTTTGAATTTCAATCAAATTCGGTATATCTGCTACTAAATTTATGTGACCAAAATTCTTTCTTATTCTTCTATTATGTGACAAGGGTTGTGATTCTATATTATCCCTTAATGAAACCATATAATCTCCTAACTGATAAATTACTGCCCGTATTTAAGTTTGATTAGGCTCTATGCACTCTTAATAAATAACCATAATTATGGTTCCTTGTAGCTGTAAATCATAAGATTTTTTTGAAAAAGTAACATTATCTCAAAAATCGTATTAATTTTCGCTTTAAAATATTGCCTAATATAATATTAATCAAAAGTGTTCAAACCTAGGTTCTATATAAAATTTAAATTATTATATTTTAAACAGTAAAGCTTTTGTTGGGATAGATACCTATTTCCAATAAATTACTTATAATTTATAATAAATAAAAATACTGTTTTAATTTTTTAACATAGATAAATTAAAGAAACCTAATTTCTTGCTTAGATCTTGCGTTGTTTCTGCGAACATTTCTAAAAAAGATTTGATTTTAGTTTTGAGTGATTTTTTAATTTTCACTAAAAATCAATTATAAATGTTCACAGAACCTAGAACATTTTAATAATTTTTCTATACGTATGATAAGTTAACAAAATTATTATTAATAAGATTTTTAATGTAAAAGCTTTATCCTATTGAAAAACAATAATTTAAATTACCTTATAAAATAATTTTTAAATAAAAAAGCCTTATTCAAATTTAATCACTAAAATAAGGCTTTTTAGATTTTAAGAAGTTAATTTAAATCTATAAAATATTTGTAATATAAAAAACATTAGATTCCTGTAAAGAAAGTTTAATTTAATATTAATAAGGTTAAAATCTGAAGATTTTAGGAATAAAAATCACTACTCCAACAAGAACATTATTAATATTTACTTTAAACATCTAAAAATATAAATAATTTAACTTTTCTGTACAGAGCCTAGTGCAAAAATAATTATTTTAATTCAACTTTTGCTCCTGCAGCTTCTAACTTACTTTTGATTTCTTCTGCTTCTGCTTTTTTTACATTGTTTTTAATTGACTTTGGAGCTTCATCAACTAATTTCTTAGCTTCAATTAAACCAAGACCTGTTATATCTTTTACAATTTTAATTACTTCAACTTTTTTGTCACCAGTAGCAGTTAACACTACTTCAAACTCAGTTTTTTCAGTAACTGCTTCTGCTAAAGGAGCTGCAACACCAGCAGACGCTACAGTTATAGGAGCTGCAGCAGATACTCCCCATTTCTCCTCTAGCATTTTCACAAGCTCCGCTGCTTGCATCAATGTTAATGATGATAATTGTTCTTCAATTTTAGCTAAATCAGCCATAATGTTTCCCCTTTTTTTTTATTGAGCGATTACTAAATCAGGTATTTTAACATTAATTAAATTCCTCTGTACTACAAATTATGAGATTTTTTAAAAAAAGAATAATCTGCATATAAAAAATCTTGTTAATTTTTACTATAAAAGCTCTTTAATTATTAATGAAAATCACTGGTGCAGTAACCTTTAAATTAATGTTTAATAGCATGTGCGTGTATTACTCTTGCTATACTCGAAGACGTAGCTTGTAAAACACCTACAACCTTAGTAGCCGGTGCTTGTAGCAATCCAACAATTTTACCTCTAAGCTCATACAATGAAGGTAGCTTAGAAAGTTCTTTTATTGAATATGCATCTAATATATGATTATCAACTATTCCACCGATAATCTTAAGATTATCATTCGAGTTAGCAAAATTAACTACTAATCTTGCCATCTCAACCGGTTCTTTAGAATAAACAATAGCAGTAGGTCCAGCAAATAAATTAGTAATACTATCAAGCCCAGTTTGCTTTGCAGCTATTTTTGCTAAAGTATTTTTAACTACTTTAAAGCCTGCTTCTTTAGATTTTAGTTCTTCTCTAAGAGAACTCACTTGACTAACAGTTAATCCATGATAATGAGTAATAATTACCGACGGCGATTCCTTATAAATATTTACAATATCTTCTACTGCTACCGGTTTTTCTGATCTTAACACCTTTTAATGCTCCTTCTTTTTAACACATTTTTTAATAAAATTGAAACTGATACAAATGCTTAAATAACAAAATTTGTGCTATAAAAACTATGATATACTAGTTAAATCTATTTGTACCGATGCTCCCATAGTAGAAGATAAATATATTGCTTTTAAATAATTTCCTTTTAATCCAACCGGTTTTGCTTTAATTACTGCCCCAATAAATGCATTTAAATTTTTTAATAAATCTTGATCTGAAAAAGATAATTTTCCAAGTCCTGCATGAATTATACCTGCTTTCTCTGCTCTATATTCTACCTGACCACTCTTAGCATTTTTAATAGCATTTTTAATATCTAAAGTTACTGTACCAAGTTTAGGATTAGGCATTAACCCTTTTGGCCCTAAAATTCTTGCAACTGAACTTATCATCGACATCATATCAGGAGTAGCTATACATACATCGAAATTAATTTGCCCAGCTTTAATTTCATCAATAATATTTATTGAACCAACTAAATCTGCTCCAGCACTTTTAGCTTCTTCTTCTCTTTCTTCTTTACAAATAACAGCTACTCTTATTGTTTTACCAGTACCAGCAGGTAAATTAACTACACCACGTACAATTTGATCTGAATGCCTAGGATCAATTCCAAGCTTCATTACTATTTCTAAAGTTGGATCAAACTTAACATATGATGCTGATTTTAACTGTGCAACTGCATTTGTTAAATTATATAAAGTATCTGATTTTACTTTTTCTCTAGCTTCTCTTATTTTTTTACTGCCACTAATTTTGACGCAAATATCTTTATTTGACATAATTAATTCCCTACTACTTCAAGTCCCATAGATGCAGCACTACCACAAATAATTTTGGTTGCTGCTTCAATATTTTTTGTATTTAAATCAGATATTTTTAACTTTGCAATTTCACGACAATCATCTATGGTAACTTTACCAACCATGGCTTCTTTTTTAGTAGCGCTAGAACCTTTAGTAATTTTAGCATACTTCTTGAGAAAATAAGAAGCAGGTGGAGTTTTTACTTTAAAAGAAAAACTACTATCTTCATAAACAGTAATTACAGTAGGTAAAGGTACTCCTTTTTCCATACCGTTCGTAGCATCATTAAAATCTTTACAAAATGCTGCTATATTAACTTTTCTTTGCCCTAATGCAGGTCCTATAGGAGGAGCTGGAGTAGCCCCGGCAGCCGGAATTATTAAGTTAATATAACCCTTTATTGCTTTCTTAGACATTTATAAATATCCTTATTTTCCTTTTAAATTAATAAACTCTTACATTAGTCCTAATTAGACATAAAGAAGTTTTAAGTAATGAGCAACGAAATGTAGTTTTCACTTTTATTTAAAAATTTATTACTCTAATTTTTAATCACTTTTCTTTACTTGATTAAAATTTAGTTCTATTGGAGTTGCTTTGCCAAATATTGAAACTGAAACTTTTAATCTATTTCTTGCTTTATCTATTGCTTCTACTGTGCCCATAAAAGTTTCAAAAGGACCATCCGTAACAGTTACTATCTCACCAACTTCATATAATTTAGAATTCTTCGCTACTTTAGCTTCTGCTTCCAAATTATTGAAAATATTTTGTATTTCGCTTTCTGTAAGAGCTTTTGGCACAATTTTACTTCCTAAAAAGCCAGTCACTCCAGGTATATTTTTTACTAAATGCCATGATTTATCAGTCATATTCATTTTTATTAAAATATAACTTGGCATTAGTTTTTTTTCTACCTTGACATTTTTACCACGCTTAACTTCAGAAACTCCAAAAACAGGTATTAATATATCCTCAAAAAAATCTGTCATCTTTTGTTTAGCGATTTTTCTAAGAATATCCTCTTTAATGCGTTTCTCTGCTCCTGATGCAGTATGTACTACATACCACTGTTTTACATTATTTTTAGAAGCAGGTAATATATTATCTATAGTCTGTTCTGTCACAATTTATTCCTTATACTATTTACCAATAGTAAGCAAAAGCTGCATTATATTATGTATACTATAATCAAGCACCAAGCAAATTAAACTAAAAATAAAAACTGTTGCTACTACTACTAATGTTGAAGCAATCAACTCCTTTTTATTTGGCCAAAATACTTTATAAGTTTCTTGTTTAACTTGTTCAAAAAACTTATATATTTTATATTCTCTAAACATATCTTTTGTTAGGTAATTTACTTATAAAATTCTACTGCTAGATTTTATTGAAATAATGATCTAACATTGGAATTTCTTATATACTAGGAATATCTCTTATATATAAGGAGTTTTATAAAAACTCTCTATTTTACAATAAACTTTGGCAGGAGCGACAGGAATCGAACCCGCAACCTCCGGTTTTGGAGACCGGCGCTCTACCAATTGAGCTACACTCCTATCATATTTTTAATAATAAATCAATAAAATTTATTGATTTATTATTAAAATTTATAAACTGCACTTCTAATTTGCTATGGCAAAACAATATTTATTCCTGTAAGGCGTAACATTAATTATCTTCTTTACATTTTTCACCTAAATTACTTTTTAGCTTTAATCATATCCGCTACTTGACTCGGCACTTGATCATAATGTGAGAATATCATACTAAACTGCGCTCTCCCTTGAGATAAAGATCTAAGTGTATTAACATAACCAAACATTTCGGCTAAAGGAACATGCGCAGTGACTACTTGAGCATTTCCTCTTGGATCCATGTTTTGAATTTGCCCTCTACGACTATTTAAGTCACCTATAATATCACCCATATATTCATCAGGAGTAATTACTTCAACTTTCATAATAGGCTCAAGTAACTTAGGATTACCTTTTTGCATCCCTTCTCTAAACGCTCCTTTTGCAGCAATTTCAAAAGCGAGTACGCTAGAATCTACATCATGAAAAGCACCATCGACTAAAGTCGCTTTAAAATCAATCATAGGATAACCGGCAATAACACCGGTTTCTCTAATATTATTTAATCCTTTTTCAACACCTGGTATATATTCTTTAGGAACAGCACCACCAACAATTTTACTTTCAAAGACAAAAGTTTTATTTTTATCTTCATCTTTTAGATCTATTACGTCTTTAAGAGGTTCAAAAATAATTTTTACACGAGCAAATTGTCCTGCACCACCAGATTGTTTTTTATGAGTATAATCAATTTCGCAGGCTGTTGTTATAGTTTCACGATATGCTACTTGAGGAGCACCAATATTTGCTTCAACCTTAAACTCTCTTCTCATACGATCAATGATAATTTCTAAATGAAGTTCACCCATCCCTTTTATCACTGTTTGCCCTGTTTCATGATCAGTTGAAACCCTAAATGATGGATCTTCTGCTGCTAAACGAGAAAGTGCTAAGCCCATTTTTTCTTGATCTGCTGTTGACTTAGGTTCTACTGCAAGCTCAATTACTGGCTCTGGGAATTCCATTCTTTCTAAGACCACTTGTTTATCAATATCGGATAATGTATCACCAGTGCTAGTATCTTTAAGACCTGCTAAAGCTACTATATCACCTGCTGATGCTTCTTTTATATCTTCACGATTATTAGCATGCATTAATAACATTCTACCGATTTTTTCCCTTTTATTTTTTACAGTATTAATAACAGTCGCACCTGAAGTAATTTTACCTGAATATATTCTAATAAAAGTTAATGAACCGACAAAAGGATCATTCATAATTTTAAATGCTAAAGCAGAAAAAGGCTCAACTATAGAAATAGGAAAATCTTTTTCTTCACTTGTACTTACTTCTATACCTTTTACTATACCTATATCAATAGGCGAAGGTAAGAAATCGACTATGGCATCAAGTAAAGGTTGCACACCTTTATTTTTAAAAGCACTACCACATAAAATTGGATAAAATCTTGCTTCAATAGTACCTTTTCTTATTAAGATTTTAATTTGTTCTTCTGTTATTTCTGCCCCTGATAAATATTGTTCCATGATAGTGTCATCTAACTCAACAACCATATCAAGCAACCTAGCACGATATTCTGCAGCTTTATCTTGCATATCTGCGGGTATATCTTCTTCAAAATATTCAGCACCAAGTGATTCATCTTTCCAAATCACTGCTTTCATTTTTATAAGATTAACTATCCCCTTAAAATTTTCTTCAATACCAATAGGCAACTGAATAATAAGTGACCTCGCGCCTAAACGATCTTTGATCATTTCAACGCATCTATAAAAATCTGCCCCCATTCTATCCATTTTATTAACAAAACACATTCTGGGAACATTATATTTATCTGCCTGCCTCCAAACCGTTTCGGACTGTGGTTCAACCCCAGCTACACCATCAAATACTGCAACAGCACCGTCAAGAACACGCAGCGAACGCTCTACTTCAATTGTAAAGTCAACGTGACCTGGAGTATCAATAATATTAATTACTTTATCTTGCCATCTACAAGTAGTAGCAGCTGAGGTAATTGTTATACCACGTTCTTGCTCTTGTTCCATCCAATCCATAGTAGCACCACCTTCATGAACTTCACCTATTTTATGTGATTTACCAGTATAATATAAAATACGTTCGGTAGTTGTAGTTTTACCAGCATCAATGTGAGCACATATACCGATATTACGAATCTGTTCAAGTTTATTTATTTTACTCATTATACCCTACCTTATTTCATTTTTTTAGGGCTAAAATGAGAAAAAGCTTTATTAGCCTCAGCCATTTTATGAGTATCTTCTTTCTTCTTAATAGCGACGCCTCTATTATTAGAAGCTTCAAACAACTCTTCGGCAAGTTTATCAATCATCATTTTTTCAGAACGCTTTGATGCAGCATTAATAATCCAACGGCTAGCAAGAGCATATCCTCTCCTTTCATCGACATGAGTCGGAACTTGATAATTCGCTCCTCCAACCCTAACCGAAGTTACTTCTAAATGTGGTTTTACATTATGCATAGCATTATTAAAGGTTTGATATGGATCGACGCTATGCTTTTTTTCAATTTTATTCAAGGCTGAATAAACAATTTTCTCTGCAACAGCTTTCTTTCCTGCTTTCATAATATTATTGATAAACCTTGATAATAAAATACTATTATATTTCATATCAGGTAAAATTATCCGCTTTTCTGCAACATGACGACGTGACATTTATTTTTTCTCTCTATCTCTAACTAAATAAATTTATTTTTTTGTAGCGGCAACTTGTTTGCGATGAGCGCCGTAACGTGAACGACCTTGCTTACGCCCTTTAACTCCGGCAATATCATAAGCACCAAGAACAATATGATATTTTACCCCAGGAAGATCAGGAACCTGACCTCCTCTTACTAATACCCTATCATGTTCCTTTACACTATGCTTTTCACCAGGAATATATGCATTGACGGTTCTTTTATTACTTAGACGCACCGTTGCAATCTTACGAAGTGCAGAGTTAGGCTTTTTAGGGGTGACAGTTTTTACAACTAGACAAACACCGCTTTTAAAAGGGTTGGATTCTAAGGCAGGAGATTTAGTTTTGCGAGTTTTTGACTTTCTCCCAAAACGCACTAATTGATTATATGTCGGCATTAAAAAACACTCCAAAAAACTTACTTATATCACTGATTAAAGGGTAAAAATATACTTCACCCTTGACTCTCTTTAAATCATATCTAAATACAAATTATAAGAACTTGTAAATTACAGTAAACTTAAATTATAATTATTTTTCCTATAAAAGCAAGTATGTTTTAATTAACAATCATTTTTTTCTCAATTATTTTTGCTATAAAGCTGATTAATATAACTAAAATATAATAACAACACGCTGCAATAAGCATTGGAAAAAAATAATTATATGTTTCAATTGATACAATTTGTGCTCTACGCATTAAATCCATTTCTCCAAGCATAGAAATAATTGCTGATTCTTTGATCAAATTTACAAGCTCATTTACTAATGACGGGAAAATATTGTTAATAGCTTGCGGCAGGATTATATCTTTCATTATTAAAAATTTTGGAATCGCAAGAGCTTCAGCAGCTTCAAATTGCCCTTTATCAACAGTATTAATTCCAGCCCTGATTACTTCAGAAACATATGCGCCAGAATTCAGTGCAAAAGAAATAACCCCAGCCATAAACACATTAAATTTAATGTTTATGATATAAGGCGCAGCAAAATAAATAATACTTAATTGAACTAGTAAAGGTGTACCTCTAAAAATAGAAGTATAGAAATTTGCAAAAAGTCTTAAAACACGATTCTTATTTACCTTACAAATAGCAAGAAGCATCCCTATTACTAGACCTAATATAACAGCAATAACACTATATTTTAAAGTTACCAAAGTTCCCTCTATAATAAAAAGAATTTTTGGATAATATTTTAATAAATACATCAACATAAATTATTATATATTTTTTCTTCTCATAATCTGGATTAACTGCAGCAGCTAAAAAATTATACTTCCTGTGTATTGTTGTTAAGCTCAGTGATATAAATAAAATAATACTATATAATTAATTAATAAACCCTCTTCACTGGTGGAATTGCACTAATTGCATCGGTTAAAGTGGTTAATGTTACAGGTTTATAATCAAGAACGACTTTACCTGAGTCATCAATAGAGCTAAGAGTATGCTTAATCCAATCTCTATCATTACGGTCAGGATAATCTTCACGTGCATGAGCCCCTCTGCTTTCTTTTCTTGCAGCTGCTGAACATACTGTTACTAAGGCCTGATCAAGTAGATTATCTAACTCTAAGGCTTCTACTAAATCACTATTCCAAATTAAAGACTTATCATTAATTTTTATATCTTTATATCTATTTCTTATTTCACTAATCATGCCTACTCCTTCATCTAGTAACTTTTGCGTTCTAAATACTGAAACATGGCTTTGCATAGTTCTTTGCATTTTCAGTCTTAAATCTGCAACTAAAATATTGCCGTTAGCGTAACGGACCTTATCAAATCTATTTATAATTTTCTCAAGAGTTTCTTTTTGTAAAGGCTTATGAGGGCTTGCTGGTTTTATAAGCTCAGCAGCCTTTAATGCAGAACTTCTACCGAATACTACTAGATCAAGTAAAGAATTTGAGCCTAATCGGTTAGCACCATGTACCGATACGCAAGCTGCTTCACCGATTGCCATAATTCCATTGACTATACTATTATGATTTTTACCGTCTTTGATTATGACTTGCCCCTGATAATTAGTAGGTATCCCGCCCATATTATAATGTACCGTAGGAAGTACTGGTATCGGATCTTTAGTTACATCAACACCAGCAAAAATTTTAGCCGTCTCAGAGATACCTGGTAAACGTCTATGTAAAATTTCAGGCGATAAATGATTTAAATGCAAAAATACATGATCTTTATGCTCACCAACACCTCGTCCCTCTCTGATTTCTATAGTCATTGCTCTTGAGACTACGTCTCTTGAAGCTAAATCCTTCGCAGCAGGTGCATAACGCTCCATAAAACGCTCACCGTTTGCATTAACTAGATACCCCCCTTCGCCTCTAGCTCCTTCAGTAATAAGACAACCAGCCGAATATATACCAGTCGGATGAAACTGTACAAATTCCATATCTTGCAATGGAAGACCAGCTCTAATAACCATACCACCTCCATCACCAGTACAAGTATGAGCAGAAGTAGCAGAAAAATAAGCACGCCCGTATCCACCCGTTGCAAGCACTACATTATGCGCTCTAAAACAATGAAGACTACCATCATCTAAATTCCACGCAACTACACCTCGACATTCGCCATCTTCCATTAATAAATCAATAGCAAAATATTCAATAAAAAACTGTACTTTATGTTTTAGTGATTGCTGATATAAAGTATGCAGTATGGCATGCCCAGTACGATCTGCGGCAGCACATGTACGTTGAGCAGCTTTCCCTTTACCGTATTCCGTAGTCATTCCACCAAAAGGACGCTGATAAATTTTCCCATCTACTGTTCTTGAAAAAGGCACACCATAATGCTCTAACTCTAAAATAGCATCAGGAGCGTTTTTACACATATACTCGATAGCATCCTGATCACCTAACCAATCAGATCCTTTAACAGTATCATACATATGCCAACGCCAATCATCTTCACCCATATTGCCAAGAGCAGCACTAATACCACCCTGAGCAGCCACGGTATGACTACGAGTTGGGAATATCTTAGTGATACAAGCAGTATTTAGCCCTTCTTTAGCCATACCGAATGCAGAACGTAGTCCAGCTCCACCTGCACCTACAACTACTACGTCAAATTTATGATGAATTATATTATACGCTTTAGTCATTCAATTAATTTTTTACTTTTGATACGGTATATCTCTGTTAACACTTAACTTAAGCACATTATTAAGTAATTCAATACACAATAATGCTATTAATTGTTTTTCAATATTCCAGAACTGCTGGATAACAATTGTGTTATCCACTATAAAATATCGCTACTACAAAAGATACAATAGTCAAAATACAAAATAATTTCACTATTATAATCAATGTATTACGTAATTTGTGGCAATTTATATAGTCCTCAATTACTACACGCATCCCGAGTACTGAATGATACAATGAAATAGTAACGGTAATTAATAAAATTACTATATTAAAAGGCTTTTTAAATTCCCACATAATAATATTTATATCATTATTTTTGTTGGTGAACATAAAATATATTAACCAAAAAGAACATAAAGCTAATATCACACCAGTTACTCTTTGCAATAACCAATGATGCGAACCACTTTTAGAAAAACTGCTATTTTTAGCTTTTATAATTTCTGCCTTAAAATCATATATCATTAATTTTCTCTAAACATATTTTAAGTTGTAATACCATTAACATTATTGACTTTATTAAATGATTTTTATTTCATTTCAGAACAATCGCAAATATAAACATACTATTTTTAAAAAATTAAAAATTCGTTTTATCTCACTTTACACTGAATATACGTACTTTATACCCATAATAACATAGTTAATAATATAGAACATACTACTACACACCAACCTGTGATATTTACTGCTTTTATAGAAAAACCATAACCGATATCCCAAAACAAATGACGAATTCCGTTACACAAATGATAACACCAAGAGTAACTAAATGCTACTAAGCATATTTTTATAATACAGCAACTAGCAAGCTGTAAATAATTATTGTCATATTTACTCAGAATTAACCACCACACCAAGATTGATACCACAAAAAATAAAGCTACGCCAGTCATACGATGCAAAATTGATAACGTAGAACTGATTTGTGGCTTATATATAGTTAAATGTGGTGAAGTCGGACGCTTATTATAAATTTCTTGTTTTATTTTAGTCATAACTATTCAATATAAAAATAATAAAATTTAATACTATAGTGTCTTGACCATAGTATCAACTATAAAAAACTCTTAGTTTCAGAAAATTATTATATTTGTATTTCTTGGTTATGAAGATAAGTTACATGATGATATTACTATCTATGTAACCAATATCCTTCTGCAGGATATAAATCATCTGCGACTGCTCTCCTATCATCAAATACAAAACACTTACCTTGCCATAAATTATTCTTGTTGTGTGTATCTTCTAAATATTGCAATATTCCGCCTTTTAAATGATATACCTCATTATAGCCTATACTTTTAAGTAGACTTGTAGATTTTTCGCATCTAATACCGCCTGTACAAAACATAGCAATCTTCTTGCCTTGGAGTAGTGCATGATTTTGCTGAACCCAAGCAGGAAATTGCTTGAACGTTTCAGTGCGCGGATTAATTGCTGATTTAAAGGTACCTATATCTATTTCATACTCATTACGAGTATCTATTAAGATAACATTTTGTTTTGTAATAAATTCATCCCAATCTTTCGGTTCTATATAGTGCCCCTTAAATACATCAACATTCAAATCTTTAACATTCATCGCTATAATCTCTCTCTTAAGTCTTACTTTCAACTTCTGAAAAGGATGAACAGGACTATAATTTATTTTAACGTTCACATCTTTACTACCTGTTAGTGCTATCAATTGTTTAAGTACAATATTTACATTTTCATATGAGCCTGAAAAAGAACTATTAAAACCTTCATTAGCTAGCAAAATAGTACCTCTAATGTATTTTTTTTTACCGACAAGTAACAATTTGGGTATTAAATTCGCAGGTTCTATTATATTCACAAAACTATATGCACTTAAAATTGTAATTCTTTCATTCATAACTTTAATTTAATTTAAAATTGTTACTGCTTAGCTTAAGCACGTAGTCTAGAACACAATATGCAAAACAAGAGACCACAAGTAAGTCATAGTATGAAATTTAATCATGAAACCGATAACGGGATAAACACACTCGTATCACCCCTTTCAATTAAGAGCAAAATATTTTGTTTTTCTAATTTTTTAGCATTTTCATATAATACTTCTAACTTTCTTATATCATCGATGCTATCATGATTAATATTGGTTATTAAATCACCAAGCTTAAATACACTTTCTTCTTCATCAATATTAATTATAACGATTCCTGTTTTATCCTGAGGAATATCATATTTTTTTCTTAATTCTTCAGTTAAATTACTAAAAGTAATATTATTTTTAGTAATAGATAGATTATTTTCTTTTTTGTTTATTATTACTGCTTTATTAGTCTCTTCTGTAGAATCATTAATAACTTCTTCATTATCTGCAGTAACTTTAATTGGTAATTCAAGCTCTTGTGCATCACGTAGTATTTTTAATTTTACTTCTTGATTAATAGGGGTATCGGCTATAATTACACGTAACTTTTTAGTATTTTTAACTAATCTATCTCCAAACTTTATTATTATATCACCTTTTTTAATACCTGCTTTATAACCTGGACCATTTTCTTGTACTTTAGATACTAAAACACCATTAGTACCTTTAAACCCTAGAACTTCAGAAATTTCTTCAGTTAAATCTTGTATTGTTACTCCAAGGCGACCTCTACTTACTTTACCATCTTTTTTTAGACGTTCAATTATAGGCTTTGCAGTATTTGAAGGAATAGCAAAGCCGATACCTATATTAGTACCAAGTGGTGAGAAAATTGCCGTATTTACGCCAATTACTTTCTGATCCAAATTAAACATAGGACCACCAGAATTACCATTATTAATTGCAGCATCAGTTTGAATAAAATTATCAACTATATTGTCCGTATCTACATCAATATCACGCCCTTTAGAGGATATAATACCGCTTGTCACTGTACCGCCTAGGTTACCGAAAGGATTACCGATTGCAATAACCCAGTCGCCTACTCTTGCATCATTTGAATCTCCAAACTCAACAAAAGGCAGCGGTTCTTCACTATCTATTTTTAAAAGGGCTAAATCGGTTTTAGAATCACTACCTATTAATTTAGCTAAAAATTCTGTATTATCTGCAAGTTTTATATTAATTTTTTCTACATTTGCAATTACATGATAGTTTGTCACTATTAAACCATTAGGTGCAATAATAAATCCTGAACCAAGCGGAATACTTTTAGGAGTTTTTGCGATCTCTTCTAAATTCAGCGGTATATTAAGTTTTTCTAGAACATCACTCATGAAGCCTAAATGCTTATTTTCTTGCAAAAGATCTTTCTCAGAATTTTCGGACTTATCATTAACATATTCTATTGTTGAAATATTAACGACTGCAGGTATTAACGGCTCCACTATATCGGCAAAGCTATACCGTGCTGCTTCACTTATTTTCAAAGGAGCCGAATTTATTGCAGTAAATTCATTCTCTTCTTGATCTACTACTTTTAAAGCATTACTATTTTCTTTTGCTAGAATAATGTTATTAAACATTAAAACTATTACAATAAGAAATATTTTTAGATTAACCATATACTCCAAATAAAGACGACAGTAAATATACTACTTAGCTAAATTTAAATACTTAAAAACTTCAGCCTCAGGGGAAATCACAAAATTAGTATCCTCTTTCTTTAAAGCATTTTTATATACTAAAAGTGATCTATAAAATTTATAAAATTCTGGATCAACTGAATAAGCAGCATTATATATTTTTGCTGCCTTCTCATCACCATCACCTTTGATAATTTGCGCATCTCGATAAGCTTTAGCAAGTATTATTTTGCTTTCTTTATCTGCTTTTGAACGAATACGTACACTTTCTTCTTGTCCTTCCGCTCTAATTTGTGTTGCTTCTTTCTCACGCGCAGTTTGCATACGACGATAAATAGCCGCACTATTTTCTTTTGGTAAATCTGCTCTTAAAATTCTCACATCCACAACATCAATACCAAAACTTTTAGCTTCACCGTTCACCTGATTTAAGATATTTAGCATTACATTACTACGTTCTTGACTTAAAAGGCTACTTAGGGATATCTTACCTATAACCTTACGCATAGACGATTCAAGATTACGCGTCAACCTAATTTTTACACCTTGATAATCATGTACAGTCTTATAAAACATTATAGGATTATTAATTTGAAATTTAGCATAGGCATCAACAATAACTCGCTTACCGTCAGCAGCTGTTAATTCCTTTGCCTCAACTTCAACATCTAAAAGACGTTTATCAAAAAACTCTACATTTTGAATAAACGGGATTTTAATATTGAGCCCTGGATTTTCTATAGTTCTAATTGCTTCACCAAATTGGAATACTACCGCAGATTGACGCTGATCAACTGAAAATAAGGCACTAGCAATCAGCATCAACCCAAAAACAATTGTAAAAATTATATAATATATCTTTTGTTGCATTTAATATTCCTTATTATTTTATAATATCATACTAAAAAAGCCTTGTAAGAAGATCAACTTCAAAAAGAGCAAAGATCCAATGAGATAAAATCTTATCCTAAATGATGTGAACATCGTAGTACTTTAGCATGATATATCTAATTTCATCGATTAATAAGCATATGTGGAAGCAGTGCATTATTGATAATTGTCTTATTTGAACCACCTAATATCTCTTCTACTACTTCTAAATATAACCTATCTCTAGTCACTTGCCTACCTGTAGCATATTGTTTATAAATAGCATTAAACCTTTGACTATCACCTTCAGCTTTTGATATCACTTCTTCTCTATAACCTTCTGCTTCTTGTATAATCTTTGCAGCAGTACCTCTCGCTTCTGGCAAAATCTTATTATTATATGCTTGAGCTTGATTGATTTCTTTTTCTTTATCTGCTTTTGAAGTTTGTACATCTCTATAAGCATCTATTACTTCAGAAGGTGGCTCAGCTTTTAATAGCTGCACTTTCTCAATCATCACACCAGCATTATAACTATCAAGTATCTTTTGTGCTAACTTCTCTATTTTATAAGTAATCTCCTGCTTTTGATCAGATAATACCCAAGAAATAGGAGTATTACCTATTACTTCCCTAATAGAACTTTCTACTGTTGCTTTTACTGTTTCTTCAGGTCTTTGTACGTTAAAAATAAAATCTTCAAGATTACTAATATGCCACATTACATCACAATTTAAAGAAACGATATTTTCATCACCAGTAAGCATTATACTTTCACTAACAATATTTTTATCACCACCGCTACGCATAGAGCTATTTGTACGATAACCAATCTCAATCCGGCGTGATTGTTTAACTTTCTCAACTATTATATTTTCAAAAGGAGACGGAAAATGATAATTAAGCCCTGGGTAACCCTTGCGCACAAACCGTCCAAATCTTATTACTGCTGCTTCTTCACCTTCTTTTATTTCATAAATACCAGAAACAAGCCATAAAATAACCATAGCACCCACAGCTAAAATTATTGTTTTTGTATTGAAATTAAATGGAAATTGCAATTTATCAAAAGTAAATTGATTTTTACGCGGTCTTGTAAAGATGTTATCTTCTTTCTCAGAATCAAAATCTTTCCATGGTGACTTTTTTAAAATTGAGATATATTTTTTACTAAGCATTTGCTTTTTTATATTATTTTAAGATTAAGTGATTATATATATAATAGTATATAACGTCAAGTTACCAGCTTAAAGAGCTTTAAAAAGGAAATTTAATTATGGCGAATTTACATCAACAACAAATTATAGATAAAATTCAGAATATTACTTTTAAAGACGGTACTTTTTTAAATGAAGTGATATCAGATATTATAATTAAAGGTAATAATATCGGTTTCTCAATCGATATATCAGGCAAAAATAAGTTAGAAGCTGAAGAAATAAGACTTAAGGCTATTAATAAACTTAACAATATTAAGGAGGTAAATAAAATAACAATTGTTTTTACACAAAGTAAAACTATAGATAAAAAAGCTCAAAAACCAAAACATTTTGTAGAAAATGTAAAAAAAATTATCTTAGTAGCCTCAGGCAAAGGTGGAGTTGGAAAATCTACAATATCTGCGCTTATTGCTCAGCAGTTAAGTCTAGAAAATTATCGAGTTGGAATAGTAGATGCAGATATTTACGGTCCATCAATTCCACATATATTTGGGATTAATGGAATACCAAAAACTGTTGAAGGACGAATAGTACCGATACTTGCGCAAAATATCCAAATTATTTCTATAGGCTTTTTTGTTAAAGCACACTCAGCAATTATTTATCGTGGTCCTATGGCAAGTAAGATAATTTATCAATTATTATCTAATACAAGATGGAATAATTTAGATTATTTAATTATCGATATGCCACCAGGAACAGGTGATATTCATTTAAGTATTATAGAAAATTATCATTTAGATGGCGTAATAGTTGTAACAACACAGCAAAAAATATCAGAAATAGATGTGATACGTTCTATAGATTTATATCGAAAATTAGGATTACCTATACTCGGTATAATTGAGAATATGATATATATGCTTGAAAGCGATCACTGTGGGTATTTATCAAAGAAATATCATATTCCACTAATAGCTCAAATCCCAATTATGCCACAAATAGCAAATGCTTGCGATAAATCACTACCTCTTACCAACTTATTAACATTACCGTTAGAGAAATATTTATAATGAACATATGGGTTATTGCAGATGATAGAACAGGCAACACACATCAAGCTATTGCACTTGCTGCACAATTAACGGGAAAATATACCACAATCACGCTTGAATATAATTTCTTAGCTAAGCTACCAAATTTTTTACTACAATACTATCCTATTCATATAAAACGTGAATTATTACAAGATATTATAGATAAGTTACCACCTGATATGATAATTACTGCTGGGAGGAGAACAGCAGTTTTAGCATTTTATTTAAAAAAGAAATTTGAAAACATCAAGTTAGTACAAATAATGCAGCCTAATCTTCCTTACAATATATTTGATGCCATTATTCTTCCGTATCATGATTATCGTGACTTGCTATACTGTGGTCCTGCAAAGATACTAAGTAAAAATATCAAAAGTCATTGCAAAGTACTAAATTACTCTTCCCGTCAGCATGATATAGAAAAGATGATGAAAATCATCCCAATCAACGGGGCCCTCAACAACATAACTGCTAAATTTTCTGCTGCAAGTCTAGAACTACAAAAACATTATCCTCATCTCAAACAATTTACTGCCGTAATAATCGGTGGAAATAATAAAAGATTCAGTTTTAATGAAGATATAGCTATATTATTTTCTTCATTATTAAATAAAATATATAGTAATCAAGCAATACCTTTTCTCATTAGCTTCAGCAGGCGTACACCACAAATCGTAAAATCAATTATTAAAAATAATACTCATGCTTCTACAATGATTTATGACCCAAGTAAAGATACAGACTATAACAATCCATATATCGATATGCTTGCTAATGCAAAATATATAATATCTACCGCTGACTCAATTTCAATGTGTAGTGAAGCAGCTTCAAGCGGCAAACCTCTTTATATATTCTATCCACCAAACTTTAATTCATTAAAACATAAAATTTTTATAGAACAATTAGTAGAGCAGAAAATAGCAAGAATTTTTAATGAGTCTATAACAATGCTAGAGGAATATAGTTATAAACCTTTAAATGAAGCAAAAAAAGTAGCAGAAATTATTAAATTTGCATTAAAAATCAATAAATCTTAAGCTTAAAAAATTTTGTAAAGTTTTTATGACACTGAAATATTAATATTGAAAATAGGTAACAAAAAAATAGGACTAAGATCAACGTAAAGATTCAAAGATTGAATATTGTTCTTAAAAATTTATAGTTCTTAATTATCATGAAGAAGTTATAAATATATAACTGATATTATAGTCTATATATTGATATGCTTACTACTGTGTATAATATGTATTTAATATTGACTGAAAGCTAGAAGATGGAATATATAGCCAAATAAAAAATTTTTTAGTAAGTAAGTGTACTATATGCTGTACAAATTATCTATATGGTAATCTAAGAAGAAATTTCTATAGTAGTATTGTTAATAGATAACATCTATAATTAATGCGTTTTTAAATTTAAGCATTGTAATTTTCTATAATACATAGAACTGAAGAATACTTAGAGCATTTAGAGCATTTTCTTAAGCAAAACTAATTTTATTTATTCTTTGAGAACTCTTAAGAGTTTAGTAATGCCCTTAATATGTGTATCTAATATTATTAGATTTTATTTATTATCTAGATTCAACTTTTCATTTATAAATTCTATTATATCAATCTTTATTTCAACTATATTTGAACCAAATAAAGAACCTTTTGTTATGTCAATTAGTTTGTAATTTGTAAATTATCTTAATTTAATGAAGATTAAAGTGATCAATGGCTATTTTGTATATATAATATTAGTCAATTGTTCTTACTTGATAAGTATACATTGTTTGCAGTGTACAAAAGACTATTGATACGTTATATACGTACCATTCAAGCTTTTATAAAACGCTTTAAAAGAATCCTTCTGTATCGAGTATGCTGAACAAACTTGTAAATGCTCTATCTCTTCTTCATAAATTAATGTTCATCTTTAGGTGTATAATTACCACAATACATAACATAAAAAGCACTAAATTGAGTTATCTGTATACTAAGATAATCTTATTAGTAAGTGTAATTTATTCATTACTAAGCCCATTATTTTGGCGCTAAAACTTATTACATTAGCATTTGCACATAATCTAAAGGGTAAATTTAGTAAAAACACAAATACTTATAGTACTTTTAATACAAGTAGTAGATATATACTCAAGTCGTATAAATAAACAGCTTCCGCTTTCTTCTGTGCTTGCACATTTTGCTAGCCGTCTCTTTGCAGTAAGATTTTGAGCTCACTTATCATTGCGCTTGCATTAGTACTGATATTCCATTTGCTGTACAACTAATATTATTCTTTGTTGGATTCATTTTAATATTTTTTGGCAACTAAACATGTATATGCAAGTGCTACAGCATCAGCTTCATCAGAATTAGTAATTAAGTCAGTACCGGATATTAAATGTTTGATCATATACAAAATTTGCTCTTTTCCTGCATGACCATAGCCAGTTACAGTTTTTTTTACCGTATTTGGTTTAAATTCCTGCATATCCAAATTATACCTACCGATTAGCGACATTATAGCTCCTCTAGCATAGCCGAGCTTTAACGATGTAACGTTGTTAGTATTAACAAATGTTTCTTCTATTGCTGCAATATTTGGTTGATATTCCAATATTACTTTTTCTAATATGCTATTGATAAAAGCAAGTCTATTATGTATTTCATCTTTACTATGTGTTTTAATAGTACCACTAGCTAAATAGTGCAATTTTGTAGATTCTTTAGCTACTACCGCCCACCCAAGCTTTCCAAGTGCCGGATCAATTCCAAGTACTATCATAATTACATATATTGTGTAATTCCGTGGCTTATACACGGATTATATAAAATAATTCTAAACTAAAACCCTTGTATGAAAGTTTATAATGTTATATCTTCATATATTGATAAAACTCTTGGTTGTTCTCCCAAAATGCATGCACCTTAACAAACAAGAATAAATGCACCGGAACACAAAAGAACTGCTCCAGTTGTACACGGGATTTCACCCCTATATCTTTGATTTTAGCACCATTTTTACCGAGTATTATAGCTTTATAGTTCTCTCTTGAGATTACTATAACTTGATTAATCTTGATAGACTTATCTTTAAGCTCTTCGAACTTTTCAGTTTGCACTGTTAGTTTATATGGAAGTTCTTGCTGCAAATTTAAAAATAACTGCTCTCTTGTAATTTCTGCTGCAATAAAACGCATAGGTAAATTCGTTATATCGTCATCTGCATAAAGCCAAGGGGAAACTTTTGCTTTACTTTTTATATATTCCAGTAACACATCAACATTTTTACCCAATAAAGCAGATATAGGAAAGAGTAAACTCTTAGGATGAGTAATTTTTAAAAAAGCTTTAATGTCATTTAGATATTTTGATTCAATGTCTATTTTATTTAATAAAAATATCGGAACAATATTAAGTAAACAAAATTGATTTAAAATATTATGTGCTATATTATCAAGCGGTTTTAAACTATCAATAATGGATAAAACTAAATCAGCACTATATACACTAGACCATGCACATCTGACCATAGCTTTTTCTAACATTCCTTTCGGCTCAAATATACCAGGTGTATCATATAAAATTATCTGCGTATCTTTTAAAGTAACAATACCTGTAATAATAGACCTAGTAGTTTGTACTTTTGGAGTAACAATTGAAAGCTTCTCACCTATTATTCTATTTAATAAAGTTGACTTACCACTATTTGGTCGTCCTATTATACAAACTGAAATTGTTTTTTGAATTTGATTAGTCATTTAAGTCTATGTAATAAGCTTCGTGCAGCCTTTTTTTCAGCTTCTTTTATAGAATATCCTGTGCATGTTTGTTCATAATCTTTGACTTTTACTAGAACCGTAAAAATCGATGAATGTGCAGCTCCTTCTCTTTTTATAAGACGGTATATAGGTAAGTGATGGCTATTAGCTTGAGCCCATTCTTGCAAAGCAGTTTTAGGATCATAATCAGTTAAGTTCTGCACTTTCATGAATTCTGCCCATAATTTTTCTATAATATTATGAGTTATTTCAATATTACTATCAAGATATATAGCTGCAATCAAAGCTTCTGTTGCATTTTCTATATTATTAGGATTATCACGACCTCCTGCCACTTCTTCGCCATGAGTCATAATTATATAATCTTTTAAAGCTAACTTTGTACCGACAATACATATAGTTTCTTTACAAACTAAATATGATCTAATTTTAGCTAAATTTCCCTCTTTATAATTTTCAAAATTCTTAAATAAAATTTCTGTAATTAATAAATTTAATACGGCATCACCTAAAAACTCTAATCGTTCATAATCTTTATCATACTTGTATTCGTGATACTGTCTTAAAGATGGGTGACTCAACGCCTCTATTAAAAGCTCTTTATTTTTAAAACTATAACCAAGTAGCGTTTCTAACTTCTCAAATGATTCCATTATTCATCCACATTATAAAGATTTTTGAATATTCGACTTAATCTAACAGATTCAATCCATGGCTTTAACTTAAGTATTAGATTAATAATGCCTATATCATTATCCCACCAGGTTATTTTTGTTGAGAACCAAATAAATTGTGCTTTAGCAATAAAATTTTCAAATGGTACAAATCCAAGATTTACTCTACTATCATTTGACCGATCTCTATTATCACCTAAAAAGAAATATTGCCCTTCAGGGACATAAAAAACATCTGTATTACTATATCTATCACTAGGTATAACACCAAAAATAGGAGCAAGCTTATAAGAAAAATATGTTCTACCATTGGGCAATGTTTCTTTAAATTTTAAATATTTTATTCCATCTTCACCTATATAAGTCCCAACTTCTGTCCTTTCTATTTTTTTGTCATTAATATATATTACATCATCAATCAATTGAATTTTATCGCCTGGTAAACCTATTAAACGTTTTATATATCTAACACTCATATCGTTAGGTGGGCGGAAAACTACAATATCACCACGCTCCGGTTCACGTGCAAATACTCGTCCTTTAAAAAGATGAATAAAATCAAAAAAAGATAAAGAATAATTACTATAACCGTAGCTATATTTCGTAGAAAATATATAATCATTCTCAAGAATAGTTGCTTTCATAGACCCGGTCGGAACTGTAAATGGTTCCATAATAAGTATTCTAATAACTAAAGCAATACATATTACAAAAGCAAAAGAACCAAATTCCTGCTTAACTGTTTTATTACTGTTTATATTATCTCTGTTCATAAAAATTATTTATTATATTTTGTAAGCACTCAATTAAATTCCTAGCTAAAATCTGCATCGAATAATCTTTAATGTCATATGGCAACTTTATCACTCACAGGACACAATATATTATACGGTATGATATAAAAAAGTACGAGTTTCTAGAAATGCTCTATAGTACCAGACCTTAAGCGATACCAAAACTCTTTATCCTCTGCTCAATTTCATCTCTAAAATGCCGTATCAACCCTTGGATTGGCCAAGCTGCAGCATCCCCCAAAGCACAAATAGTATGTCCCTCTATTTCTTTCGTAACATTCAACAGAGTATCTATTTCATTTTTTTTTGCATTACCATTAACTAGGCGCATCATAACTCGCCACATCCAACCAGTACCCTCTCGACAAGGGGTACATTGCCCACATGATTCATGCATATAAAATTTACTTAGACGTGCTATTGCATAAATAATGTCAGTAGATTTATCCATAACAATAATACCACCTGTACCAAGTCCAGACCCTACTGTTCTTAAACTATCAAAATCCATCTCTACTTCACATAATGATTTAGGGAGTAAAGGTACAGAAGCACCACCTGGGATTATTGCTTTAAGATTATTCCATCCACCACGCACACCGCCAGCATATTTCTCAATCAATTCTTTTAATGGAACCCCCATTACTTCTTCAATATTGCAAGGCTTATTAACATGACCAGATATGCAAAAAACCTTAGTGCCAGTATTGTTAGGTTTACCGATTGCAGCAAACCAACTTGCTCCTCGTCTTAAAATTGTTGGCACTACTGCAATAGACTCAACATTATTTATAGTAGTTGGACAACCATATAAACCAAACCCAGCAGGAAAAGGTGGCTTAAGTCGTGGCATACCTTTTTTACCTTCTAAGCTCTCAAGTAACGCAGTTTCTTCACCGCAAATATAAGCACCTGCACCACGATGTAAATAAATATTACAATCGAAACCCGAACCACAAGCATTCTTGCCTATTAACCCTTCTTTATAAGCTTCATCTAAGGCACGCTGCATATTAGAAGCTTCATTATAAAATTCACCTCTAATATAAATATAACAAGTATTCGCTCCTATAGCAAAGCTTGCAATCAAACAACCTTCTATTAATTTGTGCGGTTCAAACCTTAATATATCACGATCTTTACAAGTACCAGGCTCAGATTCATCCGCATTTACTACTAAATAACAAGGCTTCTCTGAATTTTTAGGCATAAATGACCATTTCATACCAGTAGAAAACCCAGCACCACCGCGCCCTCTAAGCCCTGATTTCTTAACCTCATCAATAATGAAGTCTCTACCTTTATCAATCAATGCCTTAGTATTATACCAATCCCCTCGCTTTTGACTAGATTTCAAATCATAGCTTTGCTGCCCATACAAGTTAGTAAAAATTTTGTCTTCTTCTTTTAGCATAAAAATTCTCGTTATTGCTTTAATAAGTTCATGTTTAGTGCAGGTAAAGCAATACTTTGTTTAAACAGTAACTTGTCCACGGTATCGAAGGAAAAATAACTAAAAATACTAGTATTTTGAACTGAATCTAATGAACAAATTACGGTATAATTAGTTGTAAATTTTATCCTTTACCTTGTGTTATCACTTTTTTATTAAACTTCCTATTAGCAAACATTGTAAGTATTGGAGCAGAGATAAAAATTGATGAATAAGTACCAGCTATTATTCCAAAAAATACAAGTACGCTAAAACTATGAATCGCTTTACCACCGAAAAGAATAAGAGCTAAATTTGCAAGTAGTGTAGTAATTACTGTCAAAATAGTTCTGGATAAAGTCTCATTAATACTTAAATTAATAATTTCTGTGATATTTTTTTTATGGTATTTACGCAAATTTTCTCTAATCCTATCGTATATTACTACTGAATCATTAACAGAATAACCTATAATAGTTAATACTGCAGCAATAGTACTTAAATTAAAATCAAGCTTAGTCATACTCATAAACCCAAGAGCTAGTATTACGTCATGAACTAAAGCAATAAGTATACCAAAACCGAAATACCACTCAAAACGCACTCCAATATAAACCATAATCGCTAAGAAAGAGAATAGCATAGCCATAGCCCCTGCTTCTATTAGCTGTCTACCAACCTGCGGACCTACAAAATCTACCTTACGATATTCAAAATTATACGGAAAATTATTTCGTAAAGATGTCTTAATTATGTCAATATTTTTCATGAGATTCTCTTCACTACTACTACCAAATCTAATCGATAAATCACGTTCACTACCAAAATTTTGTAAGACAACCTCACCTATTTCAAGTGCACTTAGAACTGCTCGCATTTTTGGCAGATCAGGGGCTTGATCAAGTCTTACTTCAATCACTATACCTCCTACAAAATCAATACCGAAATTAAACTTATATATACTGATCCAAATCAAGCTAATGAGTGACAAAATAATCGAGAAACTATAACTTACTTTTTTAAAATTCATAAAATCAAAATCGATTTTATTTGGTACAAACCTTAAAGGATAAATTTGCATTATTATAATTATGTTGAATAAAAGTTATATTTGTATTATATAGTAAATTCAAAAAGGTTAAACGTTTTTTTATGTCAGCAGTAGTAGTGAAAGAACAATTAGAGCAATATATAAGTAAAATAGAAAGATTGGAAGAAGAAAAATCTGATTTAGCTCAAGAAGTAAAAGATATTTTCCAAGATGCTGCTTCTCATGGTTTTGATGTTAAAGCTATGAAAGCTATCTTGAAACTGAAGAAATTGGATAAAAATAAACTTGCAGAACAGGACGCGATGCTTGAACTTTATAGAGATACTTTAGGAATTTGATGCGTTATTATTAAGAAGAAAGTAGAACTATAAGATACCAGTTATATTACTGTAAAAAACTAGAATCTATCTAATCATCTCCTAGATTGATAACTTAGTTTCATATCTAACATACTAAGACACATGACGCAAGTAACTGCGATCCATATCTACTTAGTAATAAAAATCATGAAAATACAATACAGAACTTGATTATAATGGTAACATACAGTATATTTAAGATATTGCTGTCTTAGGTTTAGCACGACTGATTAATTTCTCTCGGATTCTAGCAGCCTTACCATTTCTATGTCTTAAATAATAAAGTTTAGCACGACGCACTACACCATATTTCACTACATCAATAGAGTGTACAATAGGTGAATAAGTCATAAAACGTCTTTCTACACCTTCACCATGACTAATTTTACGTACTAAAAAAGATGAGGTAATACCACGATTTCTCTTAGCAATTACTACACCTTCATAAGCTTGAAACCTTTCCGTTAATTTTTCTTTACCGTCTTTTTCAATTGCTTTATCAATAATTTTAACAGTTACCTTCACTGTATCGCCGGCTTCAAAATCAGGAATTTTTTTATTTGCAGTAAGCTTTGCAATATTTTCCTGTTCAAAGTTATCAATAATATTCATTATATACTCCTTAACTTTATAAATCTTTAAGTAACTCGGGACGCCGTAATTTAGTAATCATATGTGATTGCTCTTTCCGCCAATTATTAATTAGTCTATGGTTACCGGATAATAAAATACTCGGAACAGCTCGACCACGCCAAATTTTAGGTCTTGTATAGAGATCGCATTCAAGGCCGCCCTGAAATTCTCCATCTTTTTCAAAAGATTCAGAAGATAAGGTATTTTGGTTAATTAATACACCTGGCAACAGTCTAATTAAGCAATCAAGAATGGTAAGTGTTGGTATTTCTCCACCGGATAAAATGTAATCGCCTACACTAACTTCTGTAACATTATACTCTGCAATTACACGTTCGTCAATCCCTTCATAACGCCCACATAAGAATATGAGGTTTTTATTTTTTAACATCTCTTTAGCAAAGCTTTGTGTAAAAACACAACCACGAGGTGAAGGATAATAAATTTTAGCATTATGATTTAATGACAAAGCATTTTCTATAGCATTACCAAGTACATCAGGACGCATTATCAGCCCGTCACCGCCACCGTAAGCTTTATCATCAACATTTTTATGCTTAGTTAAACCAAAATCCCGAATATTGATAATATTATATGACCAAATATTGTTATGAAGTGCTTGACCTGCTAAAGAGTATCCAAGAGTGCCAGGGAACATTTCAGGGAAAACGGTTAGAATTGTAACATGAAGGATAGACATATGCTTAAAATAGTAGCAAGTACCAATTAATGCAATAAAATTATAATTGCATTATTGACTACACTTCATTAGTATATTTTTTTGTGGTCTAGCAGCAGCTGTAAATAGTAAATACTTTTGTAAACACATTTCATGAACTTGATTGCTTTAAAATTTTTGTAATCCTGCTTTCTTATAACAACTCTTTATTCTAGCCTCTTTATCTAAACTAATACTAACTGCTTTTGCTTGCTGCTCTATTTTTTGCTACTTTTTTTAGCTATCGCTGAATAAACATACTCTAGAATCTTTATTTATATCAATATATGTCGTCTTTTTAAAGATTTTACTGTTATTTTTGTTTGTATCAGAAAAATTTGATACAAAAATAGAGATATTAGAGTTATAAAAACTTCATCACTTCCTCAGCGATGATTAGTTCTTCGTTTGTCGGCACCACAAAAACTTTAATCTTACTACCTTTAGTACTTATTCGATGCTCGTTTTTTTGGTTTTTTTCATAATCTATTTTAATACCGAGCCATGAAAGTTTTTTGCTAATCATCTCACGTATTACAGGTGAATTTTGTCCAACACCAGCAGTAAAAATTAGGCAATCAATACCCTCAAGTGCAGCAATTAACTTACCTATTTCAAGTACAATACGATATACGAATAAATCGACTGCAAACTTAGAATCATGTGAGTTACTTGCAATCAAAGTACGCATATCAGAGCTTTCCCCAGACATACCTAGTAACCCCGATTTCTTATATAATAACTCAGTTATTTCGTTTATAGTCATTTTCTCATTATTGATAAGATATAATACTACTCCGGGATCAAGGTTACCAGGCCTTGTAGCCATCATAACACCATCAAGTACGCTAAACCCCATGGAACTTGTTAGACTAAGACCATTTTTAATAGCACATAGACTACTACCACTTCCTAAGTGCGCTATTATAGCCTTTGGAGGCAAATCTTCCATTGTAATTTCTTTAAAATGACTACTAACATATTGATACGATAACCCGTGAAAACCATAACGCATTATCCCCTTATCATAATATTGTTTCGGTAAACCAAAAGCTTTTGTAATAGGAGAATTAGTACAATGAAACGACGTATCAAAACATATTATATGTGATATGGCTTTATACTTTTGAAAAAATAAATCCAGTACCTGCAAATTATAAGGTTGATGCAATGGGCTTAAAGGTATTAATACTCTCAACTCTTTAATAACTTTTTTATTAACAACAACTGGTTTATTAAAATTTTTACCACCATGCACAATACGGTGACCGGTTGCAATTAAATTGAGAGCGCTTTGTTTTTTCCACCATTCTTCAAAAAGATTAATCATCATTTCAATAGGATCATCTTTAATACTGGTAGTAGATTCCTTTTGTTGATTGATATAAAATAATATTTTATTATTATTTTTTTCTAAAAAAATATTATAAATCTTATCATTAACTCTTTTATTCTGAATTGCAAAAATAGAAATTTTTAAACTAGATGAACCAGCATTAGCTATTAAAATTACATCTTTCATATTATTGACTTGCTTGAATTATGTAACTTCGCCTTAGTTTGATTATAGATAAATGATGCAAGTACACATGAAATAACACGCATATCAATTGGATCAGCTCTACTTGTTAAAATAATCGGTACACGTGCTCCAAGCACTATCCCTGCCATAACCGCTTGACCCAAATATTTTAGTTGCTTTGCAAGCATATTACCTGATTCAAGATCAGGGACTACTAATATATCTGCATTTCCTGAAACTGGAGAACTAATACCTTTTGCTTCTGCAGCAAATAAAGATATAGCATTATCAAACGCAAGTGGTCCGTCAACTACAGCATTCGTAATTTGTCCGCGATCTGCCATTTTCGATAAAGCTGCAGCATCAAGGGTTGTGGGAATTGCAGAGGTAACTGTCTCAACTGCTGATAATACTGCAACTCTAACCTGCTTATCTTCTTTTATTATATGCATTAAATCAATAGCATTCTGTACTATATCACGCTTATCTTCCAAAGTAGGACGAATATTAATAGCAGCATCAGTAATAATGAATGGTTTAGGAAAGGTAGCAACTGCCATTAAGAAAGCATGACTTATACGACGTTCGGTACGTAGACCATTCTCCTTATAAACTACTGCAGACATAAGCTCATCAGTATGAAGAGCTCCTTTCATAATAGCAGCAACTTCTCTTTTCTTAGCGAGTTCTACTGCTTTTTTTGCTGCTTCATGACTATGTTCTGCATTAATTACTTGATAATTCTCAAGATCAACATCATTAACTTTTGCGACTGATTCAATTTTATGTTGTGGGCCAATCAAAATCGGTTTTATTACATTAAATTGTGCTGCTCTCACTGCACCGAGTAGTGATTCTTTATCAATTGGATGTACTACAGCTGTTTTAATAGGCTTTAAGCCATCAGCTCTCAATAATAGATTAATGAAGTGCTTTGCTGCTTTATCAAAGTCAGAATCTTTGATTTCTGTAGGAGGAATATAAGTAGTACCTAATTTCTGAGCTAGAATTTCATCTAAAAAAGTCTCATTTATTATATGTTGTTTCTTCATAAATACCTGAATCAATTAATCAACTCAATTAGATAATATATAAGTTAGTTAATCAAGGAAAAATTGAAGCAGTTCTTTAATAACAATTTGTAAGTAAGTAGTATTACCGCAACAGATCTATTCAATATCATCGAGTAACTTGTATGCTAATAAGGGATAAGACACAGAATTATAGAAGATCACTTTACTTAAGACAGCGAATTCCCCTTCTCCCTAAATCATTCATTATTAATATTAAAGTTAAATTCTTTAAAAACTTCTTTCAGTTTAAGTGTTCATAAACATTTTATTATCCACTATATATCACAATCACTTTTAAAAAATTATTAGTTATACATAATTTGAAAAAGAGTAAGTACTCTCTGAGCAGAAGAGCATATACTGAAATAAGTAAGCTTTCGTTATATTACAAAGAGTACTAAATTCAGTAAATATATTACGTCATATTTTTCAAATGATCTTCTAATGTCCTTAGTTTTCTTCCTTCATTTAGTATTGGTTTCACATATTGCTCCATTTTAGCACTCGCTCTATATTTGTTAATCTTATCAATCTGAGCATTGACTTCATTCATAATAGCTTGCTTTCTATCCTCTATTTTATTTAACACTGCAGTACTATATTCATAATTTTTAACATCGGTATTAAAATTATTAATCTCTTCAGTAATTTTTTTATCTATTTCAGATCCTGTGTTTGTATCTTTAACTTTTTGCGCGATTAATGACGGCATTTCTTCAATGCTTATATTATCGCTTTTGAAATGATCTTTAAGTTCTTTATAAGTTTGTTCTAAATTTTCTTTAGCTTTCTCGTGTATAATATCATAATACTCTTGACGACGAGTGTATCGATCTACATCTATCAATTCTGCATATTTTTTATGAGCGTTATCTATCATATCACGCATCTGAGAATCAGTAGCTTTTTCACGCATAAATCTATCACCCATCATTACAGGTTCACCTTCCTCAAATAACCTACTATGCACATCATGAATAAGCTGTTTTTGAGCTAATCCTTGATAATATTCAACATCACTTTGTCTACCGGCTTTTTCTAGTTTTACTAGATATTCCGGTGATAATATATCTGCTTGAACAGCTATCGTTTCCTTATTAATATGCATTCGCAATTCTTCATATTCTCGTGCTTTTTCATCATCTTTTAATTTTTCACTATAAGTTCTCAATCTTGGATCGTTATATTCAAAATCATGCCATTCAGCACTGGTTAGATTACCCTCATAAGCATCACGTAAATCTTTACCTACTATTTTAGTTAAAGCTGCTCTTTTTATTCCGGTATAACCTGCATATATTTTTTCGCCTATACCTATACGCTTTTCTTCTTTTAATTTACGTTTTACATTAACACGATGCTCCATCTCTTGCCAACTTCTAAGCACTCCTATGTTCTTACCAAACAGCCCAATCCCTCGCCCTGACATCTCTTGGTGAGCCTGCTTATAAGCTTCTTGATAATCTTTAGTAAAGTTTGCCTCGCTAGCAAGCGCACGTAAGTTAGCATCTTTTAATAACTTATCAAGTTCTGTTTTTTGTTCTTTACTTAAAGCGGCGTAATCTTGCACATCATATTTATTTGCAGAAATTTTATCTCGGAGTTGAATAAATTTCATTTGCGATAATTCTTTTACTTTTAATTCATTCCTTTTAGGTAAATTCTTTAATAATCCTGAAATACCATCTTCATAATCCTTAATAGCATTCATTTTTACATCTTTAGAATCTATGCCATATTTTCGTTTAACCTCATTTTGTACAGCTTTGTTTGCTGAAGAACTGAGAGCTTGTTTTTCAAGCCTTTCCATCATCATATTTTCAAATTTCTCAGCAAAAAACATACTAGCCTGTTCTGTTCCTGCACTTATACGACTAGTTACAGGTGCACTTACAGCCTGAGCAACATAATTTAACGGTCTATTGATTTGCTGCGATAAAGATTCATAAGATTGTTGATTAACTTTTTGTATATCTGTTAAATTGCCTGAAGTACCTGCAATAAATTGTGCCGTAGATACAGCAGTATCATTAAATTTACTTAGTAAATAAATAGAAACAAAAATTAATAATATCCCATCAAGTTGAACAAACTTACCGTTTATAAAATTATTAATCCTTGTGGAATCTTTAACTAAATCTAAAAACGGTAATTCAATATAACGTTCATCTATACACTCATATGCAGCACAATGTTTACATTTATCATGGTCATTCTTACAAGAAGCATCTACTACTATATGATCATTAGGCACTAATATCTTTGCTTTGTGAAAATTATTTATACCACCTTTCATTGGCACAGGAAACCACCAATAAAATATCGAGTTACCAAGACTTGGATCTATATCCTCAAGAAAGCTACCGAATATTTCATTTATCGGACCTAAATTAGGAAAATCATGTTTACATACTCCAAAACCAAGTGTTGAATATATTTCAGTTCTAATGATCATTGAAATAAAAGCGATACCAGCAAATAAAATTATAGGCTGTAATGCATATGATATTAATTGCCTTAACCAATTCTCAAATAACGAACGAGTTATATTAAACAACATAAAACAAATAAATATCGGTCCCATAATTATAATCATACCGATAGTTATAAGCGCTGTTAGATATATAATAGTAGCTTTAAATATAAGGAAAAAAATAAAATATAGTGCTATTAAATATAGAATGATATATATAAAACCGAGCCAATCAACAAATAGTAAAGAAAATAATTTAGATAAAGTTTGAGTAGAAATAAGTAACCCAAGCAAACTTTGAGACCCTGGACCAGTAGCGGCAGCCTCATTAATTATTTGCAGTATTTGCTGAACACCATCAATAAAAAATACGAATAAATAATCATGAAAAAATGTCCAAGCTTTATCCGTACTTAATAATATTGAAATGATACTAATTTTAAATATTCTAATTATAAGTTCAACATGAGTAAGATTTATATTACCTATTAAAAATGATAAAACTGTAAACATTATATATAGAGTTAAAATAGCTGAGACACTTATCTTATAACCCGGTGTATCAATTATTTGTTGATACGTTTTCTTTATAATCCCATCTTTACCAAATAATACTTTTTTTATTAAATCTGTTAAAAATTGTAGCGGATCTGGCCTTGTATCACTAACTCCAGACTTTATTACTAATCTATATTGTCCACTATTATCATCATAAAATTTATCTATAATCTTAAAATAAAGAGGAGACTGGGCATATTTTGATTTATCTTCACCATTATATTGATAATTTATCCCACCTGCTTTCAAGAATTGTCCTGTACTACTAATACTATAAAATTCATAACCTACACTTGAAGTAAGTTCTCCTAAATGCTTTGTTATACCTTGCGGTCTACGCTGTGAATCAGGTGAAATATTAGGATCAGTATTTTTAGCTGCAATAAGAAAATAAAGACCCACACCATCTGTCATGATACATGGAGGATTACTAATCATTGCATCATTACGATTTTCTGGATTAGGAGTACACATATCAAATCTCGCATTATCCCAGAAAGTACATGGTTGTAGTTTAACGCAAAAAGGAGCCAAAGTAGTTGTGTTATTTTTTTGACCATACCATGGACACCATGCAGATAACTGACCTGAAGTATTTTTATCTCCAAGTATATAATTCCACGGTCTTACCATAATGGTTAAAGGATAACCATTTACTTTATAAGCACTATCACGCCATGGTGTAACTTGATCACCTTCATGTCTTGAAGTAATTTCTCCTGGATTATATCTAGAAGAAACATTGAATGTGATGAAACCGAAATCATCAGGGTCAATACAAGTATCGCCGGTACAACTAGAAAGCAACAATAGCAATATTAATAATGATGTAATAAAAATATTTTTTTTCATTTTAACTCGCTATCACGCGATTTGATCGCGGGTTCCATAAAAAATTTTAATAGCATATAATTGCATCCTAATATCAAGTCACGGGATAAGACTAAAAAATCTAGATTTTAGCTTCCACGTGATATATTATTCCCTCGCTCCTTCCTCTTTCTTCGTTATATCATTACGCTCGGAAAAGAATTTATTTGTAAATTCAACACCTCCTTCCGATTTTCTAGCTTTATAATTTTGATCAATTATCTTGTCTTTGAATACTCTAGCTGGAACCATTGAAGCATTTTTCATCGGCGTTGTTACCGAACCTATATCTTGCATCACGGCTCCTACAGGATCAGAACGCGCTTGATAATTTCCTGATATTCGTGCTGGTGTAACATTTGTAAGCATGCCAACTACTATATTAACAAAAGTTACTAAACCATATGACATCAAGCAATATGAATAAAATAATAAAGACGTAGTAAATAATACTAAGAAAGTATTAGCATTATTAGTAAAAATATTCGATCTACTAATTTCTGGAACATCAGGTACATAAAAAGGTATGCCTGGTAAAAACGGTAATGTAAAAGAGAAATTGATAGGAATACCAAGATTTGTTAAATCAAGTCCTATTTTTATAGGTATAAGAGTATCCCAACAAGCTCTAACTACCACTTTTAAAAGCTGCTCCGATAAAACCTGATCTATCAATAAAAAGAAAATCAATAATATTGTTGGCTGCACAACATAACTCAACAATGTTGATATCCAATTATCAAATAAACTTTTAGTTTTTTCAAATAACATTAATATTATAAAAAACGGTGCTAATGAAATCATAACCGTTATACCTATGAATGCAATAACATAACCTATTATCACTTCTAAAATAGCTCGAAAATAAGTAATAAGTGAATAAATTGTTATAATAGCGATAAATGCTAAACCATTATGTATTTGTAATAATTCAATAAAGAGTAATCCCCAAATTCTACCATTAGTATATTTATCAAATATAGGATCAATGAAACCAAAAATATTAGATCTAGAACTTGTAGCACCTACTACATTAGTTATAAAGAAATCAATACCATCAGTAAATACACTAAAGAAGTACGTATTAAAGAAATTCCAACTTTCTTCTCGAATTAAAAAAGCGACTATAGCTATTTTGCATATACGTGTTATGACTTCTATAGCAGTTAATTTTAATGCTCCTGCAACGAACATGAGACCAAATATAATAACATAAAGAGTTAATGCAGCTTTCACTATATTCTGTACTGCAGAATTTTTAATTAACTTAATATAAAAATTTTTACTAAAAGTCCTAAACTGATCCGTAATAGGTTTAATAGCCCCATTATATACTATATCAGAAAACCAAGTTGTACCGGTGTAATTAGCATAATTTACACTAACTACACCTTGTATATTACTATTAGGATTTACTACCCTTAACCATAAATAGCCATCTTTCGGTGCATCAGCTGCAAAATTATAATCTACCGGCGTACCACGAATAGATGGATCAGGTAATGTACCATCATATGTTATTAAATATTCTAAACTTATATTTTGTTGGACATCAGCACTAATTGAATTAGCCCCATTACCTATTTCAACAATCATCGAATAACGACCAAAATATAAAAAATTAGCTGACCAATCATTCTGATTTATATAATCTATAAAACTAGGGTAATTTAAAAAACGTCTAATCCAATCACTCATTAAAACTGAATTATTAAACATGTTACTCACTTGCCAATCACTAGTAAAATTCATAATACCATCCCTAGTCGCTTGATAATATATAAAGCTATTTCTACCTGACTTTACAAAACTCTGATCTCGTTCCTTAATAACCTGCCCACCTACTTTAATTATCATCCCTCTACCTTGATCATAATAGCAAGCAGGCCTAGTATTTATACCGGAGTGCTCAGGGCAAGAATTAATTAATCCCATGAAATTATGTATCGCACCTATCATCATGGGTTTGCCTACTAATGCTTCATTACTATTTATACTTTTATATTTTGTAGCTGCACCAGTACCGCTACACCCACTTGGTTTATCAGGATCTCTTGCAGCATCTATAATATCACATACCTCTTTTGCAGATGCGTAAATTATCCTATTATCAAAATTTCCAAGGTTACTTTGAGTATAAAGTGCAGAAGGAGCAAATATTGAACTATCAAGTTCTTCTGTTAAAATATTATCTAGAGTATTAGAGGTAAAAAAATTATCTTTACCAACTAAACTAATATTTACTACATCACCAGCCTTAACTTCAATTTTTACATTATTTTTAGAATAGTTAAAATATTTTATAGAATCAGACATCTTAGTAAATGAAAGTGCATCAAGATCTTTATCAGGCGGTATAGCCCCAGGTATTGAACTATTACTGTTAGTAACAAAACGAGGAAATCCTAAAGCTTCAAATTGTAATTTCGAATAATTATAAGTTTTAATAAAAACTTGAGGCGTACTAAATCTTGGATCAATTCTATATAATACTAGATATTTTCTAGGTTCAGTAGTAACACCTGCAATAGACCAATTTATTTTTAACAATTTACCTTTTTCAACAGTATGACCTGTTGATTGCCAAGCCCCTGCTTTAGATAAATTAATTCCTATATTACTTTCTTGAAAACTTGTAAATTCAGGGACTTCTAAACAACCGAATAAACCTTTTAATCCACTAAAACTAGTTGACATCCATGAAAAAGCATCATGAGCTTTAGCTGGCATTACAATAAACAAAACTAATAAAACTAAACTCTTGAGAATTTTCATAATTTTAAATTGTTATCCAACACGTCATTCCGTGGTTTTTATTTTTTTATTACGAAGAAATGACGTAAGTACAATTACTTACGTCATTTCAGGAGTGTGTGATTATTTCACATGACTGACACGCTCAGCTACTTAACGCATGATGTGTTACACTTTATAATTTATTTTAGAGTTTCTTCATTTGTGTTCTCACCAATTCTTTTTTTGTATTTTTTACTATTTTGCTCAGCATGTTCTAATGTCCTATTGCGTTGTTCTAATCTTGATTTTGCTCTGCCGGTAATACCTTGTCTTGTTCTATAATCCATTCCTATTTGACTTAATACTTTTTGTCCAGCATCATGAGACATTCTACCGCCAATTTGAGTAGCAGAAGGTCCTGCAGCACTAGTTAATTTTGCTACCATACGACCTGAAAATTCGACATAACCATACATACCATAAGCAATAATAACTAAAGCTACAATATTTTGCATATTTACTCCCATCATACCTGACATATAGTCCATTCCCCAAGGGGCAAACCAATTAATACAGAAGATAGGTACATTTAGTAATGCAATAGGTAAAATAGTACCAATAAATGGAATTTTGATCGGTAAAGTACATTTCCAACAAACGCTATAACCTAAAACAAAATCTAGATAAATGGTAAATAGCTGAGTTAACACTATAATACCTGCCATCATAACTACCGGTTCTATCATATAGCGGATCGTAAACCTTACCCAATTATCAAATAAATACCTAGTAAAATCAAATAATAAAAAACTAATAAATAAAGGTGCTATACCGATTAATATGCAAGTCGCCATAAATGCCATAATATAAACGGCAATAGCTCTCAATGTCGTAATAATTACTATGCAAATAGCAATAAAAGTAATTATAAAATATATAATACCACTAAGCCCAAGGGAAAGAAGTGAAAGTAATTGAGCAATAAAGGTTTGACTAAAAAATATTTTACTCATTATTGCATCTAAAAACATAAAAGGATTGGAAATAGTATTAGTAGAAGTAAATAAACTATATCCGCTCATATTAGCAATAATTGAGTCTGAAAAATTAGTAATTGCATCAAAAAGATAGTTATTGAAAAATTCAAAAGTATTACCGTTTATAAGTCCGCTAACCACTCCAATTTTTGCTATTCTAATTACTAACTCTTTTTGATTGATCTTAGCAAAACCAAGCAAGAACATTGCTCCGTAAGTCATCACATATAGGATTAAAATCGCTTTAATATAGGTAAAAAAGTTAGTGCAGGATGAATTATCAGTAGCTTTATAACATACCATATTTTTAAAAATAGAAGTAGCTGCATCTTGAACTTTAGTTTTAAATAACTGAAGTAATGGATTCATTACTTTAATAGTAAAACTGCCTACTTTTAATGATGTTGAGAAATGCACTTTATAGCTACCTTCACTATCTTTATAGTCCTTTAAATTATTACTAGGATCATTTAAGATTTTCATCCATATGTAACCAGACTCATTTGCGTTAAAGTGAGATTTGCCATCACTATCAACATTAATTCCTTGAGGTGAATAAGTTTTACCGCTAGTATTCGGATTTTCTGAAGACTTGACTATTATGTATTGCACTCGTCCACGATCATCAAAAATATCTTTAAAACTATTACCATTCTCTCTATAACATTTAGTCTGTTTAATATTTAAAACATATCCTCCAGTATTCTTACTAGCATCTTGTGAAGTAGGCGACCAAAGCCTATATTGTAAATAACTTTTTTCAATATTACTGTTAAAAGGTATATTATATATAACTTTATATAAATATTTACCGTTTTTATCTTTATATTCAGGCGGTTGTTCTGTCTCTGGAACAAACTTAGCAAATTCTAGTTTAGAAGGCAGCGCTTGACTGACAGAACCAATATCATTCATTTGATATATCAATCCGGTTGGACCTTTTCCGCCTTTACCATCTGCCGTATACCAAAATTTTCGATTTTTTTGAAAATCTCCGTCTTTACATATTCCTGAAGTACAACTTACCCCTCCTATATAATTTTTATCTTTAGGACTACGATTATTAACAATATCAGGACATTGACCGTTTGGAGGAATATTTACATTATTAGAACATTGAAGATCCTCATACTCTATTAATAAATTCTTACTCTTATCTGACCAACTAAATGTAAAACTACCATCGTCTTTATAAGCTTCTGGCATATTACTATAGTGATTGATCCAAGCAGGTAAGGAGTCACAAACCAAACTAGTACAACAATGAGAAGCAGCATTAGCCATATCACACACCCATGGGTCACTGTCTTCTTTATAAATACATCCAAAAACACAATAACATTCTTCACGATGCACATTACCCTTCCAATAATTTTGCTTCAATTCACAAGCAGTAACATATTTACCGGAATAAATAGAATATTTTCCACAAATCGGATAGTAAGAAGTTTTTCCTTGTGTACAATCTTTTGTAACCTTTACACCCTTAAAAACATCATCAACTGTTGCATCAGTATTAGCAAAATTAGGAGATACAGATACTAAAACTTTATCATTAGCGTATAATTCAGCGATATTACGCCATTCATTATTTTTTGCATCCATTATTAGAGAAATAGGTGGACTATTTGCATCTTGAACACGTGGGATTGGAATCATTTGACCGCTATCGTCTAGATTAGATTTACCGGGTCTTGTACGTTCAGTAAATTGTAAATTATTTTTTGGTAAATAAGCTAAACATAAACTAACCTGACCGAGCACTTGTAAATTTACCGATTGATTTTTTTCTACTAGTACCTGAGTATTTAACCATTCACCGTAACGATTAGGATCTGGAATAAGCTTAGTCGTGCCATCTGGCAACATCTTAGAAATATTTACATAATTAGCATTAGCATTAAGGGTTATAGTACTTGTTATTGAATCAGTACTTCCATTACCGTCCTTAGAATATCTCATATAACAGCCGTTACCTACTCTTACTGCTCCTATCATACCAAGTGCTGCAAAAATAAAGCAAACTAAAGTTGCTACTATAGCGAGTACTCCTAAAACTTTTAATAAGTTACTCTGCATACTCTATCATTTGCCTCCACCAGAACCGCTTGCTAAATCAGCTACCTCTCCGCCGGAACTATTTACAGCATCTTCACCTTGCTGCGCTCCATCTTTACGCTTATTACCAATATCTGGCTTATCTCCCAAAGACGACTTACCGTGTGCATGCACTGAAGCATCCTTCAGGAAAGCTGCTCCTTTTTTTACTAAATCAACAATTTTAGTTGGACTTGCCGTTACTGCATCCATATTAGGACCATTAGTTAAATCAGCAGCAAAGCGTCCTATAGATTTAGAGAAGTAATAAAAAATAACCGAAAATATTAATACACACAAAAGTTCTGCTAAAATAGATACAACATCTCGAACAATTGATTTTATTGGGAAAAGTATCAATAAATGTTCTTCCCAACCTTCACCGGCATAATATTTTAACATTTTATACCCAAAGCTTTCCTGACATTTATCTGCATCAATGCTAGGGAGCCTTAACTCAAAAGTACTAAATCTAATATCACCTTTTTCATAATCATATCTTAAGAATTCACAATTTTTAAATATTGCAGAATCATACATAGTTATTAATAAGGCTATAAAACCTGCTACTACCGCAGGTTGCAATGCGCATGAGATACATACTTTTAACCACCCATCAAAATAAGCTTTTGTACGAGTGAATAAAACCATAGGAATGAATATAGGTGAAATATATGTCATAACATAAATAGTAACCATACAAACTAAATAATGCGTAATAAAATACAACAGTATAGATAAAAATATTACAGAAAATACCATACCTGCCACAAGTATAATAACGTGGCCAGACATAAAGAATCCAAACATAACAGTAAAAAATCTAAGTGCTCCTGCTTTACTTAAATCGTGTGGCCTATCTTTTTTACCATCAGGATCAAAATTAGGTATAGGTTTATTATTACCGCTTGTACCATTACTGACTGGACGCCCTAAAATTCCATTCTTATCGATATTATACAGTAAATCTAAACCAAGATAATAACCTATACGACAATCAATCGCATCCCATAAACCATAAAATTTATAACCATCCTTATACTTTGTATTATCAAACTGACATAATCCTCTAGAACCTGCCGCATTAAATATCATACCTGCAAAGTCAGGTGCTGCTCCAGTCAAAAGAGGCAATCCATATTTTAACATACCGTTTTCTTTTACCGGCTGACCACCACTAAAATCTAAAGGTCCCAAACCTATAGAAAAATATACAACAAATAAGAATTTTATTATAAAAAGAGTTATTTTTTCAGTAGTTGCATATTCCTTATTAAGAGCCATATTAAAGGCAAAAAACATAGTATAAAGAATTAATGCCGCACCTACAATTCTCTTTAAATAACCTTGAAATGTAGCAAAAGATGCAAGATGAGTTATTCTAGAATTTTGATCTTGAGCACTACAACTACTTCCTGTAAAAAATATTTTATTAAGAGTTTCACTTAAACACTGCACTGCAAGACCAGAAAAATTAATTAATGATTGACTATAATTTGCTCCTGTATAACAACTTTTGCCTATATTACAATTCTCATCCTTAGGCTTAGTTGCAGTAGGAGTAACACTCAAAGATTTACATGCTACCGGCATAGGTCCCCTTGATGTGGGCATAGCTAAACATAGATCATTACCAAATTTTTTAACTGTTAAAACGATATTCTTTAATACAGTATTTGCGCCAAGATCAGGATTATTATCAGTACTTAAATCACTAATCTTCCTAGTGTCACCTTCATTTAAAGTATATATGGTACAAGGACTAGCGCTACCTTCTACATTTTTAAAACAAAACGTTATACTAGATGTAGATGGGTTACAATTTCCTCTTGGATCTTTCATATCAATACTACGAATTATATATCCATATGCCGTGTATGTTTCTAAATACCCATCTGAAGTAATTGGTAGATTAGAACATGATTCTCCAAATCCAGCAAAGCTTTCTAAGCTTACAGACGATATATAAACTATAATAAATATCTTTAAAACTTTAAGAGTTTTCATTAGAACTATTATCTCTTTTTTCTGTTACTACACCACTTTTAACTAACTCATCCCATACCTTTTCTGCATTTGCACGTCGTTCTGTTATTTTTACACCTGCTTGTTCTTGTACTCTTCCACCTCCACTTGCTACTAGTTCATTCCATGCTTTTTCTACTTTTACACGTTTATCACGAATCTCTGCATTTTCCCTTATCTGCTTTACTCCTATCGGATTATCATGTTCCTTTAAGTTAAAACTATAATCAATTAGTCCTGACCTTCTATTTGTATTATCGACTTTTTCTTGTGGTAACGTATTAGTATTATCGACTTTTATGTCTTTTGTTATATTTTTATTTTCTTCTACCTTTGATTTTTTTGACTTGTCCAGTTCATCAGCTAATTTATCAAATTGATTAGTGACACTATTATCCCTTTCTCTTATTTCAGTTACTACACCGCTATCAACCAACTCTTTCCATTTCTTTTCTGCATTAGTACGTCGCTCCGATGTTGCTTCGCTTTGTTGATCTCTTATTCTTCCTCTCCCACTTGCCACTAATTCGTTCCATGCTTTCTCTACTTCTACACGTTTATCACGAATCTCTGCATTTTCTCTTATCTGTTTTACTCCTATCGGATTATCATGTTCCTTTAAGTTAAAACTATAATCAATTAGTCCTAAAGCTTTACTTGCACTTTTAATTTTTTCTTGTGAACGCATAGTATTATTGATCTCTTTTTTACTTTCTCGATTATTGCTCACAATTTCCTTAATACTTGTAGGTTTAATATTATGTACAGATGTAGGAATAGTAGAACTAATGCTAGAATGCTGTGAAAAAGCTGTTGTAGGAGAATGAGGAGTAACAATATCTGATCTTACATCACTACTTACAGTTTTCGTAATAGAATTTGTTATCGAAGACGAATCTGTAGTAGTTGTTACTGTAGGTGTCGACGCACCTCTACTCACAGCAATATTATCACCAACAGCACTTCCACTTGAAGCTGTATTATCACTTACAAATCCTTTAGCTCCACCTAAATCACGCGCTCCTCCTCCACGGCTTGCCATCTGATCTATCCCCTTAGTTGCAGTACCAGCAGTAGAAAGCGCTGCCATAGCTGCCTTAAATATTGCTTGTGGCTTTATAGCAACATTATTAAGAGCAACTCCTTCCGTCATATCTGCAGCGAATTCAGCTAGTTGACTACTAAAATTATACATTAAATACAAAGTAAAACATGCAGTAACTAACGCAAGCAAAATATTTTTAATTTTCTCAAAAAGCACTTTTGGTGACATAAAAAACATACCAGGCCCCAAAACAACTCCTGATAAAAACTGAAACTTTGAAAGAAATTCATCAGTAGTGGTCTCACCAGGTTTACTATTAACTATTTCACTGATATTATCTTTTGCAAAGTTAAATGCCATATTAATAGGGTTATTTAACATATACCCTAAACTATTTTTACAACTCTCTACTGAATCTTTATCAGGATATTGTGATGTATCATCCCAATCATTATTAATGTAAAATATTAAAACATCTCTCTTAGACTTAAGCCCACCTTGAATTTTATCTTCTATACTATTATGAATTAACTTGCTCTTATATTGACATTTACCGTAAAAACCATAATCATATACTGCAAACATCGTAATCATAAAAGTGACTACTACCATAGGCTGTAGCAAGAATGAAATCATCAGCTTAACCCAGCTATCAAAATAATTTCGTGTATACGCAAATAAAAACATAGGCACAAAAAGAGGAGCTAGAATACCTAGTATGACTATAGATATCATACACATAATTGTTGCATTAACCATAAAGGCAGCAACAGAAATCACAAGTAATGGGTAAGAAAGTGCAAGTGATACCAACATCATATTACCAGAGATTATCGCTGGAATTAACAAATAAATATATGGGGGGGCACTAAAACTAAAAAAATCAAAATTTAAAAAATCATGGCTTCGATAAGTATTTTCTACAAGTAGAGTAGATAATATATCAAGTCCTAAATAATGAGCAACTCTACAATCTAATGCATCCCATAATGCAATATACGAAACACTTCCATCATAATGAATATTATTAAATTTACATAAACCAGACGGAGCAGCATTCATAACCCAACTTGCTAAACCATTTATACCGTTAAGTAAGAAAGGAAACGCCCACTGAATCATCCCATCTAACCGATCATACTGAGAACCATTAGCAGGATTTATATTAATTCCTATTGAAAAATAAGTGACGAATATTATTTTCAATATAAAATTTATATACTCACTTTTTGGCGGCACTTTACCTGCAAGTAATAACTTAAAACCAAAAAACATAACATATAAAGTTAGAAAAGCCGTAACTATTTTATACATACCTACTTGGAACTGAAATAATGCACTATCTTGTCTTGATGACAAATTAACAACTTGATCTACATTATCAAAACTACAAACATCTTTACTAATTAGTAATCTAGCAATCATTTGCTTGATACATTCTATAAGAGGAGAAGTCATGACTACTGCAGTTTTTGAAGCATTATAAGCTTTTTGATAACATCCTTCTCCTGCAGCACTACAGGAAACTAAGGCTAAAGGATCGCTAGGCGTATCATTTGTTGGATCTTTAATAAAATTCTTATCTTCTACATCAATAAAACTATTATATATGGATTTTGGAAACGGCTCTTTCATATATTTACAGCCTACTGGAACATCTCCTGTAAATCCTTTTGTTGAAACACATATTCTATCTCTATCTTGAATAACTTTCCAATATATTACAGGAAAGCCTACATCAAATGCAAAACCATCATCACCAGGTTTACCTCTATATGGAATATGATATTCCTTTTTTTTATTTTCCCACGCTTGCTTTATATCATCCCAAGGATCACTCCATGTTAAGACGGCTTTAGCAATAGCAAGTGCCGATTCTGCAACCGATTTTGCACGCGATACAATTAATTTAGCATTATTACATAAAGCAAAGCGTAACTCTGGATTTTTAGGATCAATTCTGTTTGCACGAGTACATTGACCTCCGGGGAAATTCCCAAAATCACTATCGTTAAATAAATCACTGTCGTTTATTTTCAGCTTTAAAAACGTATTCATGTATAAAACGGGAGATACAAGATTCATTACCGCAAAAGTAAAAAATGGAGCAACAATACATGTATGCGAAAATTCAGTACGCATTAAATCACCTACACCTTGTGTTTCACAAGTTAAGCCACTTAAAATATCTATAATGCTATCAAGAGTATCTTTAGCATGAATTTTAGTAACTAGACCTAAATTTAGGACAAAGCTTAGTACTAATGCTATAAGTATACTACGAGGGAATAATGCCATAACTATTTACTTACCTCGTATTGTAAAGATGTAATACCATAGATTATAAACACAGAAGAAGGATATAGTCTCTGAGACGAGATCCTACTAAATGGGTGCAGGATAATAAATAGGAATCTACAATGTTTTAACTGCTTCATAAAATATAGGTAACCACTTATCCGGATCATTGCCGTATTTATCTCTAATTTGATCAAGCAACATTACAGTTTCAACTCTGCCAGATAAAACACTAATTATATTATTCATACCTTCTAAGTTAACTTTAGCAACTACGGCATCTATTCCTTGTTTTATTAAAAAATAACGTGTAGTAGGATCGGTAGTTTTAATTAAAATATATTCGCGCTGACTTAACATAAATGCACTACGATAAATATCAGTAGCTTTTAAATTAGGTAAAAAAATCTGTGTGGCTGTTTGTTGAATCAACGTATCACTAATACTACTTTTTGCAGCATCTTCTACACTTTGTGTAGCAAATATAACAAAAGTATTTAATTTTCTCAACACTTTTAACCAATCTTTGATCTTAGGTGCAAATACTGGATTATCAATTAAAGCCCATGCCTCATCAAGTACTATCATAGTTTTTTGTCCATCTAAAGATATATTAATACGATGGAAAATATATAACAATACCGGTGCAAGACTTACAGGATCTTTAAGTAATTCCGTCATATCAAAACCAAATACTCTTGCTCTTTGTAAATCAATATCATCTATTTCATTGTCAAATATCTTAGCGTGCGAACCTTTACCAACCCACATTGCAATCCTACTTGCTAAACTATTTGGTGTATCAATACCAAGAAATGCAATAACGTTACTAAGACGTCTATCTTTTTTTTCTAATCTAAAATTGCCATTTACAGCTTGTGATAAGATTTTATTATCTTGCGCAGTTAAACTTTCACCGTTAGAAGTTACAAGCACGCGAAGCCACTCTAAAATAAACGTTCTATTCTCACTAGTATCTTCAAGATGCAAAGGATTAAAATTACATTTTAAACCAGGATCAATTACTGTATAAACTCCATTTAAAGCACGTATAAATATCTCTGCCCCTCGATCTTTATCAAAAAAGAACATACGAGGTTTGAATTTTTGTGCTTCAGCACATAAGAAATTCATAAGTACTGTTTTACCTGCACCAGTTGGACCTATAATTAGAGTATGCCCCACATCTCTAACATGAAAATTAAAATAAAACGGCGTACCTGAAGTTGTATCAAGCACTGTAACATATTCTCCCCAATGATTATCTCTAATTTTACCGAGTGGATAATTATGTTGCGAAGCAAAGCTAGCCATATTAAGAGTATTTATAGTAGATTTACGCACTATATAATCCATATTTCCAGGTAATTGACCCCAATAGCTAGGTTCCATGTTAACTTTTTCTCTTACTGGCTGAATTCCTGAATTAGAAAGCTCAACTGCTGCCATTGATAATATATCTTCTAAAGCTTTAATATTCTTTGCAGAACATAAAAGTGATAAATGATGATCTCCAAAACCAATATCGCCGCTAGTAGCCATATCAAGTGCTGTATTGATTTCAGCAATTTGTGAAGTAGCCTTATCCCCGGATTGTATCATTCTATTTTGTTGTAATTTCATTTTACCAATTGCTACCGTTCTATTAGCAAATACAAAGCTTTGAGTCATAACAAATTCAAAAGGCATTTGTAGAAATCCATCAAAAATTCCTGCAGAAGTATTAGGACCGTATTCAAGTATACTGATGATTCCAGCATATTTCTTGCCAAGCGGACTTCTTACTTCAATAGTACGAGAATCAAAAAATAATCGATGGGTAGGTAAATATTCATCAATAGTACCACGCGGTAATGCTATAGGGCCTGGTGAATCACCGCAATTAATTAAAGATGAAAGGAACTCTAAAATTTCACAATAGATACCTGATTGTGTTTGACGGACTCCAAGTAATTTTGCTCCATAACTTCTAAATGTATTAACCACTCTCGTTGACATTTCTTGAAGATTTTCTTTCATCTCTTTCATGTCATTTTCCCAAGCAGTTTTATTAGATTTCTGTCTAAGCTTCTTTAAAAAATACTCAACTATAGCAGCACCACCAGTATCAGGCTTATATAAAATACTAATATATAATTCATTAAAAAATGACCTAGCACCTGCATGTTTCTTACGCCACTCTGCCCCTAAATAAGTAATAAAATCATTAGGTACTTTTACGGTAGGATCATAAGTAAATTCTGTATCGTCAAATATTACTGCTTTACGTCTTCTAATAGTATGGAAATACATAACAATGTTTCCAGAAGCCATATTTTTAAGCAAAGCATTTCTAATATTCTTTTTAATGTCTAAATCTTCATCATCGGCAGTTTCAAAAGAAAATCCGTTGATTTTAATAACTTGTAATAAAGAATTATCTTTTGTTAAAATAGTATTACTATCCCAATGACACTTATAAGGGATAAAATGTGAAGTTGGTCTTTCTTGTTTAGATCTTAATTCTTTAGCTGCTCTAGTTCTAAATAACTTCATTACCGCACCTAATTTAACTATTTTTTGATTTATTGTACCAGTATACCTTTTTTAGGTCATGCTAAGCAACGGCGAAAATTTAGATTGTTATTATCCTCCTGTAGCTACGATCATGGGTTGTGTAGCATATACTTTGTCCTATGACACAGTTATTACATTACGGTATGACATAAAAAATTCAAATTTATATATTATACGAATTGGCTCCGTAGTAAAATTTATTAGGACATTGGCTAGTTCTTGACATTTTATTTAAATATAACTCTATAAATCTAGGCTCTTTAAAACATATAATATAAGCTACTAAATGCAAAGCACCAGCAATGAATAAAATCATAATGCCGTTATTCCAAATAAATACTATCATAGTCATTATCATATTTAACGCTGCAAACTTAATACTTACTCCAAATATCATTGTCGGTCTAGTTAAACCGACAAATAAAAGATCAGATGCTAATGTTCCTGACATAAAATCCTCTGTTAATTTTAAATATTATGGTTGAAAATAGTTCACTATTCACGAGATGTACACATAATCGTTAGTATTTTTCATCCTACTTCAATGAAATTATTATAACATTGAATATTAAAATTCGGTAATGAATATAGAAACAATTGTTATTACAATGAAGTTTACATTTAATAAATATGTGTTTTCCTGATCATACAAATGATACTATCACTGGTATGAAATTTAATACAATTTCTGTGTTAATCATAATAGGCTCACTTTTAAAACCAATAATTTACAACTTTTCGGTGAGATAATTTTGAATTTTTATTTATAGTGAATGAGTATGGCATCATAATATGTAAGTGCATTACTATAAGCTTGTTAACATAACTCAATTAAAATTACTATAATAATAGGATTATTTATATAGTATAGTAGCTTATTTTAGTAACTTTTTGACTAAAATTTTTGTCTATTTGTGATATTAAAGACAAACTGCACAAATTAATATGATTATGTACTATATATTAATATATCTCAAACTATCTAACAGATTCAATAAAAGCCGTAAATACAACCACTACTATATTGTATTAATTCTTTACCTTTGATGTTTAATGCATTGTGCAAAACTAGCTTTCAGTTCTCTCATACCTTCTTTATTCCTACTACTTACATATATAACATTACATAAGTAGTTTAAAGTTGCAAGAAAATTCTGTGCTTCGTAGTTAAGGTTTTCACGATCTGTAACTTTATCGGATTTAGTAAAAATAATTTGAAATTCTCTTTTATTTGCAAGTAATAACTCAGCTACCTTCTTATCGTTTTCTTTTATACCTCTTCTTGAATCGATCAATAAATTAACTAACATTAAATTATGACTATTTCGTAAATAATAAGTAATTAACCCTTCCCATTGTTCTTTGACTGATATAGGAACATTAGCAAAACCATAACCTGGAAGGTCAACGATAATAAGTTTATCTACAATATTAAAGAAATTGATTTGCCTAGTACGTCCCGGAGTATTAGAAACTTTCGCAAGACTTTTATTATTACATATCGTGTTTATTATGCTTGATTTACCGACATTCGACTTACCAACAAAAACAATTTCAGGTAATGAAAAATCAGGGATTTGATTTATATGAATAGCACCTGCTACAAATTTAGCTTGATGACGGAAAAGTTTACTATAATCAATCGATTTTTTATTATTTAGAGCTTTTCCATTATTAATCATATATAGCTTGTTAGATTTAATTTTATGTATTGTATTCAAACGAGATTATACACTATGTATGGCACGACACTAATATTCAGCACATCGCATTATCGTGTGAAATATTAAAATAAACTATGTAACCTAGTTCGCTTGACCTAAAAAGAATAAAATACCATGAACAATACACTTAGTGTAGTGGCAATAAAATTGATACACGTATCATTTATACTGAAACGTAAATTACATAGGCGCTATTATAGAAATATATCATCAAACTTCAAGACTACTATAATTGAACTAGAATGACATTAAATTGGTAGCGGGGGCTGGATTTGAACCAACGACCTTCAGGTTATGAGCCTGACGAGCTACCGAACTGCTCCACCCCGCAATAACTGAGAATTTAAAGATTTATCTGTATTATCAGAGTATTAGTAGACGATACGTAACTACTCTACTTAAACATTACAAAAGCTTTAAAGAATTAAACAAGTATAACAAAATGCTATTCTAACTAGCTTCTTTCTTGCTATCGAAAGAAAGACCCGCGAACCTTTTATTAAAATCACTAACACTTTTATTAGATTGATTTACTACATTTCCGGAATCCTTATTCCATGCTGGATGTTTTCTAAAATCAACATCCATTAAAATCTCACCTATAGGATGAGTAGACATTGTTTCAAAAATATTACTGCCTACTTTAATCAAAAGCTTTTTATATTCTGGATGTATACCGTTTTTCATAATGATTTCGCTGCTTTAATATGAATTATTTTTTGCTTAATAGCTCTAGCCGCACTAGATAAAATATCATCATTTGCTTTTAGAATATATGCATCAAAACCTCCAGCTTTTTCTACTGATCTAATACATCTAGCATTAACAGATAATCTATATACCTCATCTGTTATATCACTTCTAAACTTAATCGACCTTAAATTAGGCTCAAAACGTCTTCTAGTTTTACGTTGAGAATGTGATACATTATTACCATATAAAACACCAACACCTGTGAGTTCACACTTACGAGACATAAGTTAAATACCTTAAAATTTAATATAATTCAAATAAATTAAGAGTCATATATGAAGATCAACTTTAATAATACAAGGATCGCAACTTAAATACGTAACTTGTAGAAAGACAATGCAAACTTTTGAAGTTCACCTATATACAACAGATCTATACAGAATAAATAAAAAATATAAAATAATACTACTATAGTGTCAACAGATAATTGTTTTTTTATAGCTTAAATACTAGCTAATGCTTGATTTTATTAAATAACAGAAAAACTATTGCATAGGAAGCTAGTTCAATAATATAACTAGAGTGATCAAAGTCACTTTCAAGCTTTCATAAATATATTAATCATCTTACTCAAAAAAGATTCAGTACTAAGAAGAAAATTTATCATAAGCGAACATCAGCATTGGATAATGGAAGATTTAAAATGAGCAATCATCATATTGCTAACTACACAAAACTGAACAAATAACAGTAATTGTCGTGCTGAATATCAATTGATAGGATGCAAATAGCGAGTAACAAAAGATAAAGGATTAATAATGACAAGATTAGCTCTATGTACTACTGATAAAACGAAAAATTGTCAAGAAATTCAATAAAGCAATAGAATATACCAGTACTGTTTATTATGAAGTTATTCGTGTAAAATAGTATAAAATTGGTATTACTAATCAAGAAAAGATAAATACTTATAACATTCAACAATGCATTTCTGTTTTATTATAATAATCAATGCACTAAAGAACTGCATTAGCATTTGTGCGCAGGTTTACTTAAGCTAATTCTTAAACACATATAATAAGAAACTCTCCTTAATAATAATGAGAAGCTTATTTATAAGATTGCGTTAAATTGTCGTATCAAAGGTAATATTCGTAATAGTAACACAAGATAACTACTCTAATGTGAATATAAAATATATGACACCCGGTTACTCTCACATGAATTAGATTTGATCTAATAACCTATAAATTAATAGTCTTACACTTTACCATTAAAATGAAATACAAGAACTATTATTCAGTTTAGTCCTAATTTAATAAAAACATTATAATTTAACCAAATATCAACAAGACGATTCACTAAAATTTCAGAAGAAATTCTAGAAAATTAGTAAAAACATTTAAGAATGAAAACTGATTATTTATTATCTAACCATTTAAATATGTTAAAAAGTGTACGATCAGATAATAAAATAAATATATATTACTACCTAACTATAAACTAGGTAGTAATTTTGAGAAATTATGACTACACTAAAGTGTACAAAAAAGATTTTTCATAGCTATTCTTGTAAATAACAATGAATCAATAAAACTAAACAAATGATAAAATATAATACAATCTCTCTACTAATAAAAATAAAATTATCAAATAAAAATTGAATATAAAATATATGATACTTGCATATAATTAAATTAAGTTGCATTAACTAAAAAATTAATCAAAACAGTTAATTAATAACTTTAATCCAAAAACAAATAATTTGAAGTAATGCTTCACATGAAGTATCTAATACTAAATATACTTACTAATCTTTATGGTATTAATAATATGATTAATGTTAGATATAACGCCAAATTTTTTTGAATTATATTATGTATCATGGCGCGGAGTTATAGTTAGTTAAATTTGTAGAATTCAATTGATACTCAGTGTACGACATCACCAATAACTATATTTATCTTTATGCTGCATTTAGTGAAGCTATAAAAATAGGTATAATGTATTTATAAGTAAAATAGGCACAAGCCAAACCTAATATAGTACCGATAACAATTATACGGAACTTTGCAGGACTAAAAATTAAAATAACTATTCCAAGAATAATGACTATTTTGATTATATCATCTGTTTTATAAGAGTTAGAGTTTATAGAATAAACATTTTGATTTATACCTAGAAATATTATTATACTTAATAATACGTGCTTAAACATTTTATACCTCTATAGGACCCGTAGTTAATCCATTTATAAATTGTGTTAAATAAGGATTATCACTATTACGCATTTCCTCTTTGCTACCGTACCATTGAATTTTTCCATGATAAATCATCGCTATTTCTTTAGCTATTTTTTCAGTACTAATCATATCATGAGTTATAGTAATGGTAGTTGCACATAATTCTTCTTGGATTTTTATAATTAATTCATTGATCACATTTGCCATTATAGGGTCAAGTCCTGTTGTTGGTTCATCAAGAAATAAAATCGATGGTGTACTACAAATAGCCCTAGCAAGTGCTACTCTTTTTTGCATTCCTCCCGATAATTCGGAAGGATAAAGATCAAGTATTCTAGTAGATAAACCAACAGAATTAAGCTTTGCACCTGCAAGGTCGTTTTTTTCTTTCTTGGATAATTTTTTAGTATTGAAAGTAATATTATCACGTACATTTAAGGAGTCAAATAATGCTCCACCCTGAAACAAAAAACCTACACCTTTCATAATCTCAAATTTGTGTGTATTCGAGATATCTTGTATTTCTAAATTATCAATAAAAATTTGGCCTTTATCAGGTTTAATCAATCCTACTATACTTTTAATGAGTACAGATTTACCGCTACCGGAACCACCCAAAATCACTAACGAACTACCTTTTTTTACATCCAAATCTATTCCATCTAACACCTTATGATGAGCAAATGATTTATATAATGAACGAATTTTAATTTTAAATTCTTCCTTTGTTGACATATTTAAACTTTAAAAAATAGTTCAGTTATTAAATAGTTACTTATTAAAATAAGAATAGAGGAATTTACTACTGCCGAGGTAGTTGCTCTTCCCACTCCCTTAGCTCCTTTACCTGAATAGTAACCACTATAACAACTTATTATAGAAATAATAAACCCAAAAACAGTAGCTTTAATAAGACCGGAAATAACATCAATTGGTTCTAAATACTGAAAAGTACTTGTTAAATAAGCTGTACTATTAAAATCAAGTTTATATATCCCTACTAAATAACCACCCATCACACCAATGATATCACCGATTAAAACAAGACAAGGCATCGTAATAATAGCCGCTATTACTCTTGGACAAACTAAATATTTAATAGGATCAGTCGATAAAGTATATAACGCATCTACCTGCTCAGTTACTCTCATTGTTGCTATTTCAGCTGCAATTGATGCACCAACTCGTCCAGCTACTATTAATCCAGCTAAAACTGGTCCAAGTTCTCTAGTCAGCGACAATACTACTACCGTTGCAATAGAATTTTCAGCTGAGAAACGTGAAAATCCTGTATAACTTTGTAATGCAAGCACTGCACCTGAGAAGAAAGTTGTCATCGCAACAACTGGAAGCGAATGGAACCCGATAAATAATAATTGTCTAATTATTAAACTTAAATATAAAGGTGGTTTTATGATACTGCTAATGGCAATAAAACTAAATAGAGAAAAAATGCCTACACTTTGTGCAAACTTTATAGTATGTTTACCAACCAAATGAGCTATCTTTAATAACATTTATGTATATTTTTGATCACTTACTAAGTTTAATATCATTTTCTAGCGTATACTTAAATCCAGTAACCTATCATGTAATACAACGAATTTATACTGATCCTTTTTAAATTTTCTTGGACACACTGCCAAGCTACTGTATTACATAAGATATCTACGATATATACTTTCTCTTATATCTACTACCAAGGCTAGTCAATACCTCATATCCGATAGTCCCTATAATACTCGCTATTTTATCTGGCGTACAATAATTACCTATAATCTCTGCTTCCTGCCCAAGAAAAACCTCGGACGGTGGTAGATCTGTAACATCAATATTTATCAAATCCATCGATACACGCCCTACTATAGGAACTCTACAACTATTAATAAATACTTCACCTTGACTGCTAAAATTACGACTAAATCCATCGGCATAACCAAGTGGTAACGTTGCAATTACACTATCACGCTTAGTTGTAAAAGTCATATTATAACCGATATGACTATCTAGTGTCAAATTCTGTAAGTCAATTATAGGAGCCTTTAAAGTTACAGGATTCTGTAGACGTACAGTATAACTTCCTTTTAAAGGTAATTTGGGAGTCAATCTGACACTAACATCTGGACATTTATTTATACACGCTGTGGTAGTAAGAGCTGCTGTGTTGCTTTCAAATTCCTCTGTATAAGACAGATTAGACGAAACCTCTATTAAAGAATTAAGTCCGTATAAAGCCGCACCTGGCCTTGCTAAATCAAAATGATAATCCTGCCCTAAAAATATGCCACCGGAATTAGCAAAACTTGCCTTAACGTTTGGAAAATATTCCAAATAAACTTTAAATCTGTTTAATTGTATTAAATTATATGGATTACCAGTTTCTTCAGAAGCTGCTAAATGACTGATAATATATTGCAGATCTAAACCTTTTAATAAATCACGATCATTAATCAACTGTTCTATCTCATCAGAGTTTAAGCCAAAACGATTAAGCCCAGTATTAAAATGTAGATAACAAGGCAATATTTTTCCTTTTAAATTACTAAATTTTTGCCAGATTTCTATTTGGCTTAAATTATTTAGAACAGGAGTTAAATTATATTGTATAAGCTCTAAAGCATCATGTGTAAAAACTCCATTGAGAACTAAAATAGTTATATCATTATTTAGTACTTTACGTAAATTAATTCCCTCCTCGCTTGTAGCTACAAAAAAATACTGACAATTTTCTTTTATTAAAGCTTTAGCAATTTGCATCGCACCAAGCCCATAACCGTTAGCTTTAACTACAGCACCAACTAATGCAGTTTTACAAATATCTTGTAATAAACGATAATTATTCTTTATTGCAGATAGATTTATTTCTAGGGTACACAAGCTCATAGTATATACTCATTTTATAACACTATAATATTATGAAAATTTATAGATAAGTCAGATACTTCTAGAGTATCATTAACAAAAATCTGATCTACTACCAAATTTACAATTTTTTATAAATGGTAGGAAGAATTGATTACAAAAGCACTAACTGAATCACATGTTCTTTTAAAAATTTTTCTGCTTTTAATATTGTCATCAATGAATATAACTATACCTAGTATTGATATAATCTCAATTGATTGATACTCTTGTTTTTACTAATTTTATTTGATTGATAATTTCTTTTCAATAATGACAATTGCTACTTTAAAACGTAATAATGTTGGTTCAAGATTAGAAATAGCAATTTATATTGTAGTATAAACTCATATACTCCCATCTTTACAAATCGTCTATTAAATTAGAAAAAATTATTTATCTTAACACAACCAAAATAAGGTATAAAAATCACTCAATTTACTCTTTATTATTGCATCTACTAAAAAAATAACTTAATTAGACCATAATGAACTTACTTTAATGTAGAGTGTACTATGATGACATTATATTAAGAGAAATGCTTCTTTAATTTCTATTTTTATTACAGAATCATTAAATAATTCACATGGCTCAATAGTATAGCTCAATGATAACAATATTAACTACTAATCTACTAAGATTTTCATGAAGATCATGTTTAAAGTGCTTGATACAATAGTATCAGTTTTTATCAAGCCACTGTATAATACAAGAAAATGCTATATACACACTGTCGAAGACAAAATGATAAAAAATTTATATATTTAAGAATGATTTTCTAATTTTTGTATTAATACCTCAAAACCTTGATTTTTTAAAGTCTCAGTAAATTCGTCTTGTTGAGCTCCAATAAGACTTATACCTTCTGTAATTATATCTGAAATTTTAAAAAAATCTTTTCCATTTCCTTTCATTTCACGTACAAGATACTCTACTTTAATAGGATCTTGCTCTTTATTACTAATGATATTCATAGCAACCAAAAAATCAGTTGAACTTAAAGGACGGACACCTACTATTTTAGGATGTTCGCCTTTATAATCTTTTATTAAATCAGTATAAGATTTAGTAACATATTTAGAATAAACTTTAATAAATTCCTGAATCTGCAAACCTGATAAAGTTTTTATACCATTTCTTCCTAATGTATATTTAGCCATCCATTCAAAATCGAGATTCTGAGACATTAATTCACGTGCTTTAGAAATTTTGACACGCTCAGATAGTTTACTATCATTTAATATACTAGAAGCATCCTTGACTAAGTTAGTAACGTAATCGTGCAAACCAGAAGGCACTTTCTCAGTAGAATAAGAAGAAAACGTTATAGCTAATAGAAACAAACCTGTAATAATTTTTTGCATATAATCCTCTTTGATTTAATTAATTCTTGGGTTTAGGACATTTAAAATTTTCAGGATATTGAACCGATGCTTCACGAGCACGATGTAATGCTGATCTAATAGCTACATAAGGATCGGTAGAATTCTTCATTACATAATCACTAAATGGTAATACAATATATCGATCGGTTATCTTGCTAACTGCCAGTATCCATAAATCAAAATCATTATGAGTATAGTACATTAATGGATTAATAGCATAATTAGTAATTACTGAATCTGTCATATCTCTTGCGTTAGTACTACCGATTATCGGTAAGACTAAATAAGGACCTGGAGCAACACCATAATGTGCTAAGGTACTACCAAAAGTTTGACGATCAGACTGTAAACCTACTTTACTCGCAACGTCAAATAGCCCCCCTATACCAAGCGTCGTATTAATAAGAAACCGCCAAACGCTTTTCATAGTTTTATCGTAATTTAACTGTAATCCGTAATTTACTACAGTAAGCGGTGTATAGACATTACTAATAAAACTATTAACACGCGCTTTTATGTAATCATTAGTAATATTTTTATAACCTACAGCTAAAGGACGAAAGATTATATAATCTAATACCGAATTAAAAGCAAACACTTTACGGTTAAATTTTTCATATGGATCATAAACTTCTAAGCAACCGTTTTCATTTCTGCCACCATTATAGGTATATATGTCATTATCAACATATTCAAGATCAGCTCTTCCAAAAAGTGAGCATAGTATAATAGATAGTATAATTAAAATTTTCATTAATTTATGTTATTTTCTTACAAACAATAATACTATATTTATTGTTTTCCGCTAGTATTATTTCATCTGAAGTCAATATAGTAAAATTATTTTTTTGTAAAAAATTATTTACTTCATTTAAGTTAAAAATAAATTCTTTACGTTTTGCGGAAAATTGTGTCTTTACTGAATTCGGCAAACAAAGAGCAAAATATCCTTGTTTCTTAATACATGAGTATATTAAATTAAAATATTTAATTAAATTGTTAGTAAACGATAATCCGCAAAAACTAAGAATAATATCAAATTTATTAGAGTTTTGTTTTAAAAATTCATCAATAGCAATATTATATATATGATTGTAAATTTTAGTATTTTGATAAAATGTTGCTTGTATTTCATTCATGAAAGAAGAAATTTCTACACCTGTTAAAGTAAAACTTTCTGGAAAACGTTTTTGCACTTCATAACCTACAAGCCCTATATTGCTTCCAAGTTCTAAGATAGAGTAATTATCAGATAAATCTGATATATGCTTAAGTGTCTCATTAACAAACCTATATGGAAGATGGATATTTTTTTCATTATTAAAAATAGTAGGATAATATTGAGCAATTAAATCACGATATTGTGCCCAAATTTCTTGTGGTATTTCAGTAATAAACTGATAATTTTTTAAAAAATTTATAAAAATAGTTTTATATTTTTCATTAGATTTTTCTAAGTATACTGTAGCTTGTCTGTAGTTATTTTTTAAATAATAAATCAATCCAAGTTGATAATATACTTTAGAATCATTAGAATTAAAAAATTTATTAACTAGTTTAAATCTGAGTAATGCATCATTTAAATTACCCTTATATAAATGATCAAATCCAAGCTGATAATTAGTTTCAGCTAAATGAGAGAACTTATATTTACAATCATTTATATAATTTCTAAACTCTAAAATTTGATTTTTAATAAAATGCGGTATATTTATTATAGTTAAGTAATAATGTTTGATTATGTATTTTATTTTACCAAGCATAGTTTAATTACTAAATTCATATTATTTACACTATAATAAAGCATATCTTAATAAATTTTTAAATAAAATAATTTTATTGAGATTAAAATTGCTGTATTATCGTTTATTATTAATGTTATTCTAAAGTATATAAGAATCCGAATTCAGTATTTTAAGATTCTCAAAGCTCATTTTATGAATAACATCAAGAACTTATTAATACGTGCTCAAATTATGTCAATAATTTCTACGAGGCTAAATTCTATAAAGCCATCACCAACACTTGCAGTTGTAAAGAAAACACTTGAACTGAAAAAAGCAGGAGTGAACATTATAGCACTAGGTGCCGGTGAACCTGATTTTGATACGCCTGATAATATTAAGGAAGTGGCAATTACATCAATTAAAGACGGATTCACTAAATATACTAATGTTGATGGGATACCTCTTTTAAAGCAAGCAATAAAAAACAAATTCAAACGCGAAAATAATATAGATTACGAGCTTGATGAAATAATAGTAAGTACTGGTGGGAAACAAGTCATATATAATTTGTTTATGGCATCTTTAGATAAAGGTGATGAGGTAATTATTCCTGTGCCATATTGGGTTTCATATCCTGATATGGTTGCACTTAGCACAGGGACACCTGTTTTTGTAAATTGCGGAATTGAAAATAATTTCAAATTAAGTGTAGAAGCTCTAGAGCATTCAATTACGGATAAAACTAAGTGGCTTATTATTAATTCCCCTAGTAATCCTACAGGTGCGGGTTATAATTGTAAGGAATTAGAAAATATTGCTAAAACTTTAAGAAAATATCCTAATGTAAACATAATGTCAGATGATATTTACGAGCATATTACTTTTGATGATTTTAAATTTTATACATTAGCCCAAATAGCTCCTGACTTAAAAGAAAGAATATTTACTGTAAACGGAGTTTCTAAAGCTTATTCTATGACAGGTTGGCGTATAGGATACGGAGCAGGTTCTAAAGCCTTGATTAAAGCGATGACTATTATTCAGTCACAAAGTACTTCAAACCCTTGTTCAATAAGTCAAATGGCTGCTATTGAAGCGTTAAACGGCACTCAAGATTATATAAAGTCTAATGCTTTAAATTTTCAAAAAAAACGTGATCTTGCTTTATCAATTTTAGAAGAAGTCACATATTTTGAGTGCTATAAGCCGGAAGGGGCATTTTACTTATTTGTTAAATGTGATAAAATATTTGGCACTAAAACTAAATCAGGAAGAATTATTGCGAATAGCAATAATTTTTCCGAATATTTACTTGAAGAAGCAAAAGTTGCTGTAGTACCAGGTATTGCGTTCGGCTTAGATGGATATTTTAGAATCTCCTATGCCACTTCTATGCAAGAGCTAGAAGAGGCTTGTATTAGAATTAAGCATGCTTGTAATGCTTTATAATACTAAATTGCTATACCGCAGCTAACTGTGGACGTGGTAGCTAAAAATAAAATAATATGAATAATTATAAATATTTATATTGATACTGCGGTCAAACTGCGGTATTGCGCTGGCAAAATAAACAATGCGAAAAGCTCTTAAAAAATTTTTAAAAAATAGTAAATGCTTACTTAGCATAATTACTATTTTACTATATTGGTATTTACGCTTTGTTTATTTTACTTCAAGGCAGAAATTTATATTTTATGATAACAGAAATAAGGAAAAATTCTTAAACGAACAAGGTGTAATCTTTGCATTTTGGCATAATATGCTTGCATTAAGTCCTGCTATGTTTACAGGACATAGAAATGTCTATGCTTTAATATCACCACATTTAGATGGTAAAATTTTAAATGCTCTAGTAGGGAAATTTGGTTGCCAAGTTATAGTAGGTTCTACTAATAAGAATTCAATTGTAGCTTTACGTAATATTATAGGTAAATTATCACAAGGTGCAAATATAATAGTAACGCCGGACGGTCCTAAAGGACCTGTATATAAAGTAAATAGTGGCATTACTGAAATTGCTTACAGATATAACAAAAAACTGATTCCTATAGTTAGCTCTACTTCTAGATGTTTCAGATTAAAAAGTTGGGATAAATTAATAATACCAATACCGTTTGGTACCATTAAAATAATAGTTGGCTCACCTCTAGCACTTGTAGCAGATAAAGTAAAAAATCATCTAAATCTCGAAAAACAATTAAAAAGCTTAACAGAGAGCTTAAAGAAATGATGCTATTATATTATACTTTAAGCTTTATATTGTTACCTGTTTATTTTATCATAATTTTTATACGTTTATTAATCGGCAAAGAAGATATAAGACGCATACAAGAACGTTTTGCTATTGGTAAACAAAGGCAAAATAGTGCGTTAGATTTCATACAAATGTCTGTTAATAAAGAGGGATTTACAGACCACAAAACTACATCTTATGTAGACATGCATAGAAATGCAAGTCTAATGTATAAATTATCTTTAGAAAGAAGTTATGCACACAGTCTAGTATGGATTCATGCAGCCAGTGTCGGTGAAGTCATGACCGCTCTAACATTAATACATAATATAAGTAAACTAGCACCTAATGTTCGTTTTTTAATAACTTCTTGGACAAATGCTTCTGCTAAAATATTAAGTACTAAATTACCTAAAATAGCCACTCATCAATTTTTGCCTATAGATAATGTTATTTTTACTCGAAAATTTTTAAGAAATTGGCAACCTGATTTAGGCATTTTTATAGAATCGGAATTATGGCCTTGTACTATTAATGAGGGTGCAAAATATTGTAAATTGCTACTAATTAACGCACGTATTTCCAATAAATCATTTAAAGCTTGGCTAAAAAGAAAAAGATTTTTTCAGCTTATCATAAAAAATTTTAGTAAAATTATTGTGCAAAGTGAACGTGATTTACAAAAATTCAATGCACTTGGCATATCAGATGCAATGAATTTAGGCAATATTAAATTTGCCAATGAAAAACTTCTAGTTAATCAAGAAAAGTTATCAAAATTAATCTTACATTTAGACAACAGACGAGTTTTAGTATTTGCTAGCACTCACCCTGAAGATGAAGAAGTAATTTTACCAATAATCAACAATCTAAAAGAGCAGTTTATAGATTGCTATATTATCCTAATTCCAAGACATCCTGAGCGAATTAAATCAATTATCAATAATTGTAAGTTGCATCATTTATCCGCTACCGCTAAATCACAAAATGATTTACCTGTATTAAACAACGATCTTTATATAGTTGACAGGTTCGGTGAAATGGGACTGTTTTTTTCTGTAGCCACAATTTCTTTTATCGGTGGTTCTTTTAAACAAGGCGGACATAATATTTTAGAAGCGGCATATTTCTCTAATTGTATTATATTCGGTCCTGATATGAGTAAAAACACTGATATCGCTAAAGGCATATTACAAAATAACGCAGCTATCCAAATAAAAAATGGTAAAGATTTACTAAATACACTAACATCTCTACTTAATGCAAATAATGCTCTAAAACTTAAAACTTATCGTGAAAATGCTTTAAAATTTGTTGAGAATAATCAAAAAAAAATCCTAGATGAATATCTACAAATAATTAAGCAGTTTCTTCCATAATCAAAGCTCATCAATAAAAGTAAAATTTTTATAACATCATTTTTACTAAATCAGATAAGAGTTAATATTAGGTAGAGATGAAAGCACGTTATAATTATGATGGAATATTAAGGCAGTAATAGAGGAATAGAAAGAAGACCGTAGAAAAGTAGAATGTCAGAATGTATATTATAGTATGACTAAGAAGTCCTACCATTAGGAGACAGAATTGAATAGAAGCAAATAACAAAAAAGATATAAGAAGACTTGTAAAATGACTATATTATAGAAAGTATAAGTTATCTTAGCAAGTGATATCAAGTCATTAGATAATGACACAATAGAGATTGAACAAACTACAGATACTACTTTAGTTAATGAATAGTACTGGAAGTACTAAAATAATTAATCCTGATGTAAATGGCAAAACTCTAGTAAAATTTAGAGCCTAATATTACAACTATAAATAACAATTTGCTACTACTACATCAATAAACCTATTGAACTTCAAAGTTAAAACATGTAATGATGAGATTTCAAGAAGCAATAATAAAGATTCTTAATATATAAACAATTACTATGTAAATTGCATGTTTTAACATTAAGTCACGTATTTTTATAAAGTCATCTTTAGTACGCACAAGAAACTGCAAAAAACATTATCAAATTAAATCGAGAATCTATTGTCTACAGATTAGTTAGATTCACAATAGATGGACAACTTATTGAATAAGTATTTTGATTATATAAGAATAATTAAGCTATTATTATAGCTCTTTCCAGCATTATATCTGGCTTGTAGTATTGATCATGCAAGCTATTTATTATAAAAATGCCTATACATTTATAATCCAATTTAACACAAAAAATTAACGGAAATATAAAAGCAATAGCACTAGCACAGCCTAACTCTGCATACCATATAGAAGCTATCATAATATGATTAGTATTTTTTGCTTATACTACAAGCTCTCACCAAATGATAGAATTGCATTTTGTCTATACAATGAACAATGCTTATAAAGCATTTTTGTATTAATATCACGTGCGATTAGTAATAAATTTCGTAACAAAAATCCAAAAAAATAACTTAAATCAGAATGTTTAATTCAGCATTTGAATTGCTACGTTAACTACTCTAGATAATTTTCTCTCAATGATTATTTTGATATACACACAGAAATGACTTTGATGAATCTATAGAATAGATACATTAACACTGTGTAATAGCAGCTACTTCATCAGCAAAGTTTTTTTCTGCATGTTCTATACCTTCTCCAAGTGCATATCTAATAAATTTAGTAATTTTAATTTCTGCACTAAGTTCTTGTTCAGCATTTTTAATTACTTCTGCAACTGTAAGTTTTGGTTCAAATAAGAAATTTTGATGCAGTAATACAACTTCTGAAAAGAATTTACGTATTCTACCTTCTACCATTTTTTCTATAATATGATTAGGTTTACCTTCTTCTTTAGATTTTTCAAAAAATACTTTTTTTTCACGTTCTATGAGTGATTTATCTAAACTTAAAGTATCTATACTTTGTGGATTATTTCCTGCTACATGAACAGCAATTTGTTTAGCTAAAGCTTCTAATTTTACTTTATCTTTTGCATTAGATTCAAGCCCTACTAATACAGAAATTTTCCCTAAATGTGGTACAACTTCATTATGTACATATGAACCAATTGCTCCATTAGATATCTCTAATATATCCATACGACGTAATGTTAAATTTTCACCTATTATAGCGATATTGTCTATAATCTCTTCTTCAACTGATTTACCACTTTGCATTTTAGATATTTTAAGTGTATCTATATTTTGTGCAATTATTGCAAGATTCACAATATCTTTAACTAAATCCTGAAATTGCTTATTTCGAGCAACAAAATCTGTTTCAGAATTTACTTCAATGACTGCACTAATAAGCCCATCAACTTTTACAGCAGTTAAACCTTCAGAAGCAATGCGTCCGGATTTCTTGACAGCAGCAGCTAAACCTTTCTTACGAAGAAAATCAATAGCTTCCTCAAAATTACCACTGGTTTCTATTAACGCTTTTTTGCAATCCATCATACCTGCGCCGGTTTTTTCTCTTAATTCTTTGACCACTACAGCACTTATATTTATTTCACTCATACTTTAATTTTCTCCTTTATTTAGCTTAAGAATATGTAATCGTCATTGCAAGGAGAAGCAAAAAACCTTAACATGATAATCCAAGATATTTTAGATTATCATAAAGCCTTATGACTACTCGCAATGAGAACACTAATAATCCACACAATAACATTTATGTATTATCAGAATTGTTATTTTCACAGGCACCACCTAATGCTTGATCAAATTCTGTATTTGTCTCTTCATCAATATTTTGCGTTTTAGATAATTTTTTAGATTGTTTTAATTTAGAAACAGTTTTAGAAGAAGTTAAAGCTTTATCTGTATGATCCTGCATAGTGCCAATATCCACTCCTGAAACTTTCATTGATTCTTCAAGTCCTTGTAATGCTGCATCTGCAAATAAACTACAATAAAGTCTTATTGATCTTATAGAATCATCATTACCAGGAATTGGATAATCTACATTATCAGGGTTAGAATTAGTATCGACTACTGCAACTACAGGAATATTAAGCTTTACTGCCTCATTAATTGCGATATGCTCTTTATTAGTATCAATTACTACTAAAAGATCAGGTTTAGAATTAAGATTTCTAATACCTGCAAGAGATAAAAGTAATTTATCTTTCTTGCGACTCATATCCAGTATTTCTTTCTTAGTATAACAGATACGAGCTTCTTCACTTTCTAAGGTTTTTTCTAGCTTTTCTAATTTTTCTATCGAACATGCAATAGTTTTCCAGTTAGTTAACATACCCCCAAGCCATCTATTATTGACGTAATACTGCCCACATTTTTCTGCATATTCGGCTATAATATCACTTGCCTGTATTTTTGTACTTACAAATAATATTTTGCCATCTTTTTTTACGGTTTCATATATTGCATTCAAAGCCACGCTCATTAAAGCTGCACTTTGTCTTAAATCTATTATATGGACATCATCACGTTCACCATATATATAAGATGCCATCTTAGGGTTCCAACGTGAAGTCTTGTGACCGAAATGCACACCAGCATCTAATAATTCTTTAATGTTAATAGGTGATATTTTTGACATTTTAAATTCTCCTAATTGTTAGTTTATACCTCCGTAAGATATTGTGTATATTAATCTCATGACTTGACCAAAGTCTCCAAAAATAACTTAACTTTTAGATACCATGATCAAATCCTGATCAAGCCATAACATAATATGAAAGCTCTATACATGCACTAACATACATCTTACGTGTGAATTTTTACTTACGCTTTAGATAATCGTAATTGCAATGATTAATATCTACATGTAGCAGCTTTGTCATCCAGTTACTTGATCTCAGGATCCAGTATTAAATTTGTTCTGGATTCTGCGATCAATATCAACACTAAGCACTTTTTCAAGCCATACATTCAACATCTTATCTCAATGACAAAGAAAGTATAAGTCTAAAAATTATAGAGATATATTGTGTAATATACAAGCTTTTATTCTTTGCGCCAAATAGTAATATAGTTAGATTTATCTTCTAGAATTATTTTTTTCTCTAATAGCTGATTACGAATTTTATCAGCTAACAGCCAATTTTTTTGTTTTTTTGCTTTCAAACGTTTATTTATAAGTTCATTTATATAAAATTCATCAACATCACGATTAAACCACTCATATTGAGTCTTACGCATTAAACCAATAAAATTAGCGCAAGTAATAATAGCAGAAGCATTAAACTTTCTTTCTGCCTCAGTTTTAGAAATAAAAACACATTTAGCGTAGTCATTGATTATTTTTATGGCAAGGGGAGTATTCATATCATCAAATAAGCTTCGCATGAAATTAGACGGTAAATCTACTTTTTGTACATTAATGTGTTCTATAGCTCGATACCAATAATCTAAAGTTTTCTTAGCATCATCTATAGCTTTATCATTATAATCGAGTGGGCGCCTATAGTGACTACTTAATAAGAATAGTCGTACTACTTCTCCTTGAATTTGCTTATCCATTAAATCCCTTACTGTTATAAAATTACCAAGAGATTTGCTCATTTTGCTACCGTTTACAGTTAAAAAACCATTATGTATCCAATATTTGGCATAGGTAGAACTTGGAAAAGCACATCTACTTTGTGCAATCTCATTGGTATGATGTGGGAAAATTAAATCTGCTCCACCTCCATGAATATCAAAATTTTGCCCTAAATATTTATAGCTCATGGCTGAACATTCAATATGCCATCCAGGCCGACCAAGCCCCCAAGGACTTGTAAAATTTATATTTTCCGGCTCATTTTTCTTTGCTGGCTTCCATAATACAAAGTCCTGTGGGTTTTTTTTAGTTTTACTATTTTCTATACGAACTCCCTCAAACATTGCTTCTAAATTGCGATTAGATAATTCTGTATAATTTGGAGCTGATAAAACATCAAAATAAACATGATTATCAGCAATATATGCATGATCTTTTGCTATTAAGCGTTCTATTATTTCGATCATTACATCAATATGCTCTGTAGCTTTAGGCTCAATAGTTGGTAACATGCAACCTAAATATTCCATATTTATATGAAACTCTCGCGTAACTTTATCAGTCAAATCATTAATAGTAATACCGAGTAATTCAGCTCTATCAATAATTTTATCATCAACATCAGTGATGTTACGTACATATTTTACGGCCTTTTTACCGAAAATTTTTATAATTATACGATAAAGTAAATCATATACTACTACTGACCTACTATTACCTATATGAGGATTATCATAAACAGTCGGTCCACACACATACATTTTTATATTAGCAGGATCTTGAGGATTAAAAACCTCTTTAGTACGAGTCAGAGTGTTATATAAGTGAAGTTTCATTATTTACAAAAAATTGTTGATGGCATTATAATATGATGTATTAAGCACATTTTGTTTGAAAATTATTAGTCAATAAATTGAATATATAAATTAACAAATATTATATCTCATTTATAAAAAAAACAATTAATAGACATTTAAACTAAAAAATTCCAACTCAAAAATATGTTTTCACTTTTCTCATGTCAATATGTTTATGAACTAGTAGCTTTTAAATTAGTACTAGAGGAGAAAACTTTAAAGATCTAGTAAGTAAAACTATCACAAGAAAAAACATAACATAATTTTAGAAAATGTTACTCCAAATCAAAAAATTCCAAGAAACAGCTTTAGTTAAGTTTTACTCAAAAAAATGATCAAAAATATAAGGAAACAGATTGATCAAGTTTTGTGCGGTATAACTAAGATAATAGAATACAAGCAAGTGCTAAAATTTTTCATACAAAATAATGGATAAAACCAATAAGAAGCAGTAATAAATTTTGACACTAAAATAAGATTATAATATAGAAAAATACTAAATATAGTACAATAAACAGAGACATTAGATACAAAAAGCAGAAAGGAGTACTCTTAACAATAAATATGACACATGATTATTTAATCAGCACTGCAATTATTAACAAGAGATAAGACAATATATAGCGAATGAACATTTTTCTACAGGAGTGTAAAATAGGTTTAGTATATATTATGGGAATGAAGTCAATAAAATTTTTACAATTAAATAGCTCTACAAAAAAAAGAGCAAGAACAAAAATTTGATGCCGATACAAATGCAGCAATACACTACATCATATCAATAGCAATAAAAATGCTTAATTAGAATGCAAAAATAGATCTAAATTTTAAAAGCTATAATACAACAAACTTCTAAATAAGAATAATACTACTAAATTCCAAAATGCTCTAAAAAAGAGAACCCTCAAAAATGATAATTTGTATATAAAAAATTAAAGTATAAATAATAACGGAACATCTTCAAGGATACCTTTGATACATGTATAAAAAAATCCAAAACAAAATAATTAAACTTTAAATGATTAATAAATGTCTTAAAAAAGAAAACACTAAAATAAATTAATTAAGACTGAACAATACTGAAAATAGAAAATTAGATAAAAATAATATTGTACTAAATGCATTGAAATTGACAAACTAGAATAATTTAGGTAACACTTTAGACCCATATATAACATTGGTGTAAGTAAAGTATGATACAGAATACTAATTTGATACAAACAAACTTTAGCAAAATCTTTTGATCAAGACATTAGTAACAAAAAAATTAATACTTGTAATACTATGAAACTGTAAATAAAACTTTAGAAAAATGTTTAGAAGAGACTACTCCAGAGCAACAAGGGATGATCTTAGATGTATTGACTAATAATACAAGAATACGCAAAGCGCTTATAACAAAAATAGAAAGAGAGCAAAGGCAAGAACATAATCAAAAATTAAATAAAAATATAGCAGGCGATACTTTCGTAGATGCACTCAAGAAGGCACTTGTACATAGAACATCAAATCCAGAAACAATACAAAAATCATTAGAAAGAAGAAAAAAAGAAACACCAAAAAATTTGAATGTATGGGATAGGATTAGTCAGAATATTCCTAATCTAAATAATCAAAATGATAATCAAAATGGACAAGATGAAAATAATAAAGAATGGGAGGAGTCTAACCAAAATGCAGATTATTTGAATAATACTAATATTTACAGGATAACAAAAGCAAAACAGGATTTAGAGAAAGCAGTTAAAGAAACGATAAACAAATTTAGTGCAATGAGTACTCTCATAAAAGACAATACAATAAAAAATACAATGGCATACCAAAAATATTTAAAAGGAGCTGAAGATCAACTAGCTTTAGCAAAAGAAAAAGGAAAGGAGCTAATAGAAAATTCAGTCCAAACATTTAAAATAATACCCAAAAAGTATCAAGATGATATGAATGAGAATTGGCAAAATTATTTATCACCGTAAGAAATAATAGAACTTACTGCACTAAATGAACACACTAATACACTAACGAGTAACAAGAATAAATCTGGGTACTTCACATCAACTGCAGAAGCATTACAATGTAAAACAAAACAACAGGAATATTACACACTACTTTCAAAATTGAAAAAAATTGGCATTGAAAAACAACAAAAAAAACTTGTCAAGGACTATGTAGATGAAATGATCACAAATGCTAAACAGGCAGTAAAAAAAATTGAAAGAACTTTAGAGAAAGTAAATCAAAAAAAAGAAAATAAATACGAATTTTCAGAATCTAGTGCACTAATTTCTAAGGAAATACTAGATGCTCAAGCAAGATTAGAAAATGCTAAACAAAAAATCGAATTTATTAAATTAAAGCAAATAATTTCTGACAAGAGACAGGTGAATAGTTCTGATGAAGATTCAGATGATGATTCTAAAAAAAAATGCAATCAAACTAAAAGTAGAACTTGAAAATGCTCAAAAAGATATAAATCAAGCTAAGAAAAACTTAGAGAATGCTGAAGCAAAAAATGAAGCACTACAACGTCAAATAATACTGAATCATAACCAAAATGAAGTAAACAGCCACACAACCAAAAATCAGGAAAAATTCAAAACAGACAATGTAACAGAAGAATATCTAGAAGATATGGCGTTAATGTTTAAAAACTCAGAAGATACAGCAGAACAAAAAGAAGAAGTAAACTGTCAGCATCACGAAGAACAGAATAGACAAAAGCAAGAACATATAAACACAGAAGAAGAAGCCGTGCACAAAGAAAAGATCATACATATCACAGAAGAAACAGAGACAGAAGCATTTAAAAAAGAGATAGATTTATAGGCAAGTGAAGCTATGGATGTGTCATTCAAAACTGAAACAATAACAGAACAAGATGAAGCGACACAGAGACAACAAGTATCTGATGACACTAGTAGAAAAGTAGCAATCTTAGTTAAGGCAACTTCAACTCTTCACAAACCTGTTCATCACAATATTTTAAGTGATAGATTAAAGGTGACTGTCATAGGAGCAGGTGATGAAAAAACTAATGTAAACAGGGGGATATGGATTAGCGGCTTATACGGGGTTAACAAACAAGGAGTTTGGAAGAACATTCCAAAATATCAAGGTCGTACAACCGGTCTCACTATCGGGGCTGATGCTGAATTCATCAATAATCATGATGTTATTGGAATCGCTTATAGTAATCTAGAATCAAAAATTAAATATAATAAAAAACTAGGGAAAACAGCAGTGCATGGTCATCTTTTAAGTGTTTATGGTCTAAAAGAACTAGTTAAAGGTTTCTCATTGCAGGCTATAACATCTTATGGTCATAATTATATTAAGAATAAATCTAAAAATTTAAATAAAATAATTGGAAAATATCAAAATAATAATTTTCAAACTTTATTGAATTATAAATATCGTACAAAATACAATTTACATTTTATTCCTAGTATAGGTTTTAAATATGATTATTCAAGAGCTAGCAACTATAAAGAATATAATGTAGATATAGAAAATCTTATGATTCAAAAGAAATCAAATCAATCATTTGAAAGTAGCATTGGCGCTAAAATAGTTTCTAAGCCTATAATAAGCAAAAATAATATAATATTAACACTAAGTGCTCATGGTAATATTGAACGTCACTTCAATAATAAAAATACAAAAGTTAATGCAAAAGCAACTTTTAAAAAACAAACATTACAAGAAACTATCATTATACCGAAACAACCTAAACTTGGATATAACATCGGTAATAATATACTTATGAGTATAAAAAATATCAATGTGCTACTTGAGTATAATTATTATACTCATAAAAAATATCACAGCCATCAAGGACTTGTTAAGTTAAAAGTTAATTTGTAAAATAAAATAAGGATAAGTTTAGAATCTTATCCTTATTTATGAACCTATAATAGGTAAACTTATTATAAACAACTGAAAAATAATATCGAGGTATACTACTAAAGTTTAAATGATAGCTATAAGTACAAGATATCCTTTTTTAAATTGTTCAAAATAGTAAAATAAGCTTATAAATTTAAAAAATTTTATGAAAAGTAATATTTGAATCTATATACCAATTAGCAGATATCTCTTAATCTATAACTATTAAAACTACTAATTATAGCAAGCTGCAAAAACTAAAATTATCCTCATAAAACGCAACTATTAAACTGTTTGAAAAATTTAACGGATAAAAAATTGCTCATAAATTTAGGAATCTTCTATGGAAAAATTTTTAATATAATTATTTCCTAGAATAGGGATGTTCATTTTATATATATTGATGTCTAAAAGAATCTTTTTTCATGCGACTTTGTTGCAGTGTTTGATTTAAGCGATTCAGTAAAAAATGCTTATTTACAGAATATTTTTTTATTACTACATTGTTCTACTCTTCACAATGACTGTCATGATATCTGTATAACAATAAAAACAAGGTATACAATGATAAAAAATAAAGCTATCACTATTTAGCTATAGGTAAACTATTGTCTGCTTGATTTTCTTCAATTTCATTAATCTTAGAAACTAAATCAGATTGCTTTTTTGCGGAAAGATTAGCAAGTACTATTGCATTTATTAAAAATAATGTTGTAAGTATTATAGTACTTTTACTAAGAAAGTTACCAACCGTTTTAGCACTTACTACCCCCATATTGTTATCACCGCTTATACCACTAATGCCACCAGATCCACTACGCTGCATCAGAATCACTATAATTAGTAGTATTGAAATAGTAATATGTACAAAAAGAAATATGTCTATCATAAATATAAATATTTTTTTATGGTGCTACTAGTGGGAATTGAACCCACGGCCTCTTCATTACCAATGAAGTGCTCTACCCCTGAGCTATAGTAGCAAACTATATGAAAGAAAATTAAATTAACTTATTTCCGTTCGTTCTTTTTAGCTAAAAATTTATTATTTGTAAAAATATAAATTTTATTTCAAACTCTTTTTGCCACATATTTGATATTAAATCAAGAAGAATTTTTGATTCATTTACTTTGTCATATTTTCATATATTATCTAAACTTCTATCTTTGTAAAAAGATAAGGCAAATAATGCAAAAATACAGCTTAATATAACATAAAAAACTGCAAAGGTTACATGTCCTGTTTGTTGTACTAAATACTCAAAAATAAGAGGAGTAGTGCCACCAAAAATACTTGTAGCAGTATTATATGAAATAGAAAGCGCAGTGTTACGTATATTTGTAGGATAAAATTCTGCTTGTAATGCTGGTTCAGGACCAATATAGCTAGCCGCAAGTATAGTAAGTATAAATTGTGAAATAATTACACTTGTGAAATCACCATTCTCAAAATTTTTAAGTAAAAACGGCATTGTTACAATAATTATTATCAGATTAATTAGAAAAATTTTCTTTCGACCTATAATATCGGATAGATAACCGCTTAATAAAGTTACAACCATCATAATCACGTAACATATGCTAGCAAGATTATTTATCTCATTTTCAGTAAAATTACGACTAATTTTTAAAAATGATACTAAGTAAATAGTCGCAAGGTAAAATATTATCGAACCAGGCGCATTGATAAAAATTGAGATTAATATATCAAGCCAATGATTTATAATAACTTTCTTTAATGGTGAGTGTAAAATCTTTTGCTGATCTCTTAGATTTGTAAAACTTGGAGTTTCGTGTGTATTTTTTTTAATATAAAATGCTGCAAAAATAATAAAAACCCCAATCAAAAAAGGTATCCTCCAACCAAAATTATCAAATTGTGAAGCTGTTAACATATTCTTTACGATATAAAAAACAATAGAGCCAAATAACAAACCAGAGCATATACTAGACATTGCAATACTACAAATGAAACCTCGGTATTTATGGCTAGTATGCTCAATAACAAAGGAAATAGAGCCGGTCAAGGCACCTCCCATTGATAATCCTTGTAGAATTCGTACACAAATCATTACAATAGTTGCAGTTATACCGATAGTATTGTAAGTTGGTAAAATTCCTATTAATACGGTTGGGGCAGACATACAAAATAACGCACTAGTTAAGGCTACTTTGCGTCCGAATCTATCACCGATAACACCAAAAAATATGCCGCCCAACGGTCTTGCTAAATAACCTATAGCAAATACAGAAAAAACGTGTAATAAAGAAGTATTCACATCATCATTCGGGAAAAATTTTACTCCTATTATTGGCGCAAAATAACTAAATAATACATAATCATACCATTCAAAAGTATTAGCTATACTGCTTGAAAATACTAGCTTACTGCGATTCATGTTTGCTACTCATAGATTTTTTTTCGGAGTATATTATAAATAAAGTTGCAGGAATGATTATTACTGCTCCATGAACAGTGCTTTTATCTGGAAACTCGTTAAATATGAAATATGCTGCTATTGCTGAAATCACCAACTCTAAATATCTATAAGGAGCTGTAGCGGTTGCATCTACAATAGAAAAAGCTTTAAGCAGGAAGAATAATATAAAGCTTCCGCTACTACCAAGTACAAACAGTAACGCTAATTCAAAACTACTAGGAGTTATCCAATACTGCATCGCCACTGGTAGCGATACCATGGCAGTTACTATTGCAGAATAAAACAGCATACTCAACATTGATTCTTTTACAACAAATTTTTTATTAATAATATCAAGCATAGCAAATGAAATAGCAGCTAATATCAAATACAAAATTTCGGGGTTAAAATCCTTGGTATGTGGTTTAAGCATAACAACAAGCCCTATAAATCCTACTACAGTAACTACCCATCTTTGCCAAATAATATTTTCATTGAGAATGAATACAGCAAGTATTAAAGTAAATAAAGGAATAGCAAAACTTACGACGGTTGCAGTAGTAACTGGTGCTATGGTCAGACCGTAAGTCCAGGAAGTCATACCAAAGAATAATAATAATCCTCTTAATACATGAACAAAAGGACGACTTGTTTTTAAAGCATTTTTACCGTAATAAACAACAAAAGGTAGTAAAACTATGCTACTGAAAAAGAAACGAAAAAAAGCTACTTCAAAGCTATGTAAACGAGTCCCAAGATATTTCGACATCACATCATTTATACTACTAGTTACTAAACTAAGTAAAAACCAACATATGCCGTTTAAATATGTTTTTAATGCATCATTCATTATATAGTACTTATAATAATTTCTATAATTTCACTTAAATGTCTTGACTTTTAACATAAAAGAATTCTATCTTTTATGACATATAAACAAAAATTTTTATATAATAATACGGCAATAAATTTTAAGCAAGTAATAGGTTATAATTATATGTTAAGAATAGTAAAAAAATTATGGGTGATTTTGTTTATATCTAACATAAGTATTAATAGCTTTGCTAAAAATATTTACGATAATGTAGACGATGCTAACTATGACAGCACACAGTATTACGAAAATGAAGGCAGTTTACTTTTCAAGATGCGTCTAGGAGGTATTTTTGCAAGTGCTAAGCAAAAAGGACTACCGACACATAGCTCTATTCAAGCTGTTTCAGTAGGAGAAGTTGCAAAAAACGGTTATGGCGGTGATGCATCCACTACTATATTTTTTAATAATTATTTAGCTGCTGAATTATCACTTGGCTTTAATGTTTTACGTACTAAGTACACATCACTTGCAGCCGTTGCTCATAATTATGGTGTTGATAATGTAAAACTAGGAAAACACAAACCTATTTATATGATTCCTGCTACACTTACCGGCCAATTCCATATAGCTCCTTACGGCGGAATAAGACCCTATATAGGTATAGGTTATCACGGTTCTTATATGTTGACACAAGCTACTGGTCTTAAAATTAGAAACGGATACAACATAGTAGGACAAATAGGAGTAGATTTTTATGCTAAAGATGATACTTTAATCAATATGGACGTAAGACAATTTTTCTTAAAGCCTAAACTTGAATATAAACCAAATTTAGTAGGTAATAAAAAAGTTACTTCTAAAGTGAAACTTAATCCTTTAATAGTTTCAATAGGTATAGGATTTACTTTTTAGTTATTCTAAGAAAATTACGAAGTGATCTTAGAATTTTGTTATTATTTTTCAGTACACATTTACTCATAATGATGTTTCCAAATTAAATAAATTTACCTATGTCCCTACAAATTATCCAGTTATTATACTTACTTGCAGCTGTTTGCTTTATTCTGTCACTCAAATTCTTATCCTCACAGAAACAAGCACGTTTAGGTAGTATCATAGGTATTTTAGGAATGACGATAGCAGTTGGTATTACTTTTTGTCTACCAGATTTTACTCATAAATTACAGATTATAATAACTATATTAGTTGGCGGTATAATTGGCGGAATTATTGCATTAAAAATTTCTATGACAGCGATTCCTCAATTAGTAGCATGTTTTCACTCTTTTGTCGGTCTTGCTGCAGTATTTGTAGCGTACGCTACGATCCTTGCTCCTGAAAATTTTTCTATAGGAATATCAGGAAATTTACCAGTTAACTCATTAATAGAAATATCAATTGGAGTCTCTATCGGTGCTTTAACTTTTAGCGGTTCTATTGTAGCCTTTTTAAAGCTACAAGGTTTAATGAAAAGTAACACATTTAAATTCTATGGTCAACAATATATATGTTTATTCACAGCAATAATATTAGTTATTATAGTAGTAGCTTTTATTCGCTCAGAAAATATCTTCTTATTTAATCTAATAGTATTATTATCTCTGTTAAGCGGTATATTACTAATAATACCAGTAGGTAGTGCAGACATGCCTGTTATAGTATCTATGCTAAACTCTTATTCAGGTTTTGCCACAGCAGGTATAGGATTTACTCTTAGCAATAGCCTACTTATTATTACTGGATCATTAATCGGTAGTAGTGGAGCTATACTGAGCTATATAATGTGCAAAGCAATGAATCGCTCATTAATTAAGGTTATTTTTGGAGCATTTTTACCACCACCTACTGGAATTAATAAAGATATATGTGATGATAAAATAGCAAAAATAAGTACTCCTGAGGAGGCAGCACATTTATTACTTAATGCATCATCTGTGATAATTGTTCCAGGTTACGGCATGGCAGTAGCCCAGTCTCAACACAGCATAAAAGAGATGGTTGATATATTAGAACGGTCAGATATTAACGTACGTTTTGCCATACATCCAGTAGCAGGTAGAATGCCAGGCCATATGAATGTTTTACTTGCAGAAGCTAATATAGATTATGAAAAGGTACTTGAGCTTGAAGAGATTAATAGAGATTTCGCTATCACTGATGTAGTACTTGTGATTGGTGCAAATGATGTAACTAATCCTTCTGCTAAAAATGATCCCAATAGTCCAATTTACGGCATGCCAATACTCGACGTTGAAAAAGCTCGTACTATTTTGTTTATTAAGCGCTCTATGGCTTCAGGATATGCAGGTATAGCAAATGAACTGTTTTATCATAATAAAACTTTTATGTTATTTGGTGATGCTAAGAAAGTAGTTGATGAGATAGTTAAGTTTTTAAATGAAGATTGACTTAAACAAGTCTACTTGTTATAATTTCTGAAATTATTAAGTTAACAACAATTATAATGAATTCACAAAAAATATTACCTCTGCTGCCAAGGGCAACAGCTATATGGTTAATTGAAAATACTTCTTTAACTTTTAAACAAATTGCTGATTTTTGTGGCATTCATGAATTTGAAATAAAAGGTATGGCTGACGGTGAAGTAGCACAATCTATAAAAGGTTTAAATCCAATTGCGAATGGTCAGCTAACATTAGAGGAAATTGAACGTTGTAGTAAAGATCCTAACACTAATTTACAAATTTCATATAGTCCTGCTGATGAATTGATGCAAAATCAGAAAAAACATCGCGCTAAATATATTCCTATAGCAAGACGTCAAGATAAACCGGATGCGATATATTGGTTATTGTCTAATTATCCGAATATCCAGGACCATCAAATAATCAAATTAATAGGTACGACTAAAACTACTATAGATGCTATTAGAACTCGTAGCCATTGGAATATGCATTCTATTCGTCCTCGTGACCCCGTATTACTTGGTATCTGTAGTCAAATAGATCTCAATAAAATAGTAGAAACTCTCAAACTTACACAAAATACTATAAAAGAATTATAACTTTGACAAATGAATTTTAAAAAATGATTATTGCCTAATAAGTCGCTTATCGTTAGGTAAAGTATAACTTTTATCTGTAGAACGATAAGGACAAATATCAATTCCTCCACGCCTAGTATATACTATATAAATAGAAAGAAAATCAAGATTTATAGAGTTTTTTATATCTATAAAAATACGCTCAGCACACTGCTCTGCAAACTCATTAAAATTTCTAAAAGATATTAGATACCTTAGAAAAGAATCATATTTTAACTTTTTTCCTTTATATTTTATAACGATTGTACCCCAATCTGGTTGTCCGGTTACTAAGCAATTTGATTTAAATAAATTAGAATAAATCTCTTCTTCTACTAAAACATCTTCATACTCAATTAAACTATTATCTGGTGGACCGTAATTATTACACACTATATCTAAATTATCTATATTTTTACCGCTTGGAATACCAAATTCTATTTTGGTATTTATAGGAAATATTCGTCCTGTTACTTTAGCGTATGTAACATTACTTAGATCCTGCAAGATAATTCGTTCTAATTCTTCTATTGATTCAATAATAAAATTATTAAAAGAATTGAGATATAATTTAAATGATTTTGATTCTACTATATTTTCAGAATCCGCTGGTATATAAAAAGTCCCTATTCCAACCAATGGTTTACCATTCTTATTAAGACAAGATATCTCATATGTATTCCAAATATCTACACCGTAAAACGGAAGATGATTACTATCTATTCCAAGTACATTTCTATTATTTATACGTGGAATTTTAAATAATAAAGTTGCATCATAACTATCTTTATAAGTGTTTTTTTTACCGAGTAAAGAAGTTGATAAAGGCATTAATTATGCTCCTTGTGCTAAAAGTTCTTTTTGTTGTAATTCATCATATTCTTTTAGCATATAACCGCGCCCCCATACTGTGTCAATATAATCTCGACCACCAGCAGCATCACTTAATTTTTTACGAAGTTTACAAATAAATACGTCAATAATTTTCATTTCCGGTTCATCAACAGTACTATATAAGTGATTTAAGAACATTTCTTTAGTTAAGATAGTTCCTCTTCTTAGTATTAATAACTCTAAAATAGAATATTCTTTGTTTGTCAAATGTAATTTTTTTCCATCAACTTCTACACTTCTAGTATCAAGGTTTACACTAATCTTATCAAACCTAAATATTGATGCCGCATGTCCTTTAGAACGTCTAACTATAGCTTTAATTCTAGCAATTAATTCTTCTCGGACAAATGGTTTAGTTAAATAATCATCAGCACCTGAAGAGAAACTAGTAATTTTTTGATCTGTATCCGTTAAACTAGATAAAATTAAGATTGGGGTTTTTATTTTTGCCGCACGTAGTCTTAGTAATATCTCAAAACCATTAATATCTGGTAACATAAGGTCTAAAATTACTAGATCATAGATACCAACTTTACCAAGTCTTAAACCTTCTACACCAACTGAAGCTTTATCGCAAACTATCCCTTCTGAAGCTAAAGTAATCTCAATTAAGTTAGCCATTTCCGATTCATCTTCAATTAATAAAACTCTCATTATTTTTCTCCATAAAATTCAATTTTGATAATAATTTAGTTAATAATTATTAACTAAATTATAATTTTTTATCTAGTGCTTTATACGTTCATTAATAATATAAGTAAAGAATATTTAATCAAATTATAAAATTTTTACTATTAAATTCTACCTTTAATTGAAAAACAACAATATTATTGGATAATTAGGTAATTTTTTAATTTTGATGCTCTGACATTTTCTTATGATATAATGCTCCAAAATCAATAGGATCAATCATTAAAGGCTGGAATCCTGCATCTTGAGTACAACTAGCTATAATTTTTCTAGCAAATGGAAATATCATTGCTGGGCAATGAACAGATAATAAAATTGGATGTTGTTCAGAATCAATATTAATTAAATTAAATACTCCAGCATATTTTAATTCTATCTGAAATAATTTATATTTCTCATTTCTTGCAATTGCTTCAATATTTAACTCTACTTCATAGAAATTTTCTTCCGATAAATTAGTAATATTTATATCTAGCGATAAATCAATTTGAGGACGTTGATCTAAAGCCGCAAGAGAAGACGGTGCAGAAGGGTTCTCAAGAGATAAATCTTTTATATATTGTGCATTAACAGAAATATGAGGCATTGCCTCACTAGTATCAGTGTTTATTGTACTCATAAAAATCCTTATTAAAAATTTAACATAATTTTTAGAGCCTGTTCGCAATTTTATTTTGCCTAATAATTAAAAATTTTTAAAGCAAAAATTAATAAGATGTTTATCTTATTCAAAAAACTTCATAATTTCTCACTTAAAAAGATTTTAATTAGCTTTAAAATTAAGATCGCGAATAGGTTCCTACATAAAAAAGAAGTTATGTTAACGGTAAAGTTACGCCTACTTGTTTCATATATTTCCCTTGTCGTTCGGCATATGAAGTATCACAAATTTGATCACTCTTTAAAAATAAAAACTGACAAGCACCTTCATTTGCATATATTTTAGCGGGTAATGGAGTAGTATTAGAAAACTCTAAAGTTACATGTCCTTCCCATTCAGGCTCTAACGGTGTTACATTAACTATTATACCGCATCTTGCATAAGTGGACTTACCGACACAAATAACTAATACATCACGCGGTATTTTAAAATATTCTATAGTTCTACCAAGCGCAAAACTATTAGGCGGAATAATACACGCATCTACTTCTCTATCAACTAAATTATATTCACTGAAATTTTTTGGATCAACCGTAGTAGAATTGATATTGGTGAATATTTTAAATTCATTAGATACTCTAGCATCATAACCGTAAGAAGATAATCCATAAGAAATAATCTTTTCTTTATTATGAACTCTTACCTGTTTTGCTGCAAATGGTCTTATCATATTTTGATTCATAACAGCGTCTTTTATCCACTTATCTGACATAATAGCCATAATCAAAACTTTATTTAATTAATAAACTAATGATTATAACGCATAATTATTTACAATACAAAATTTTTCTTTAAAAAATCTAAAACTACTTCCATAAATATAGTGGTAATAATACAACGCTATATACTTAAAATTAAGAATTTAATAGTTTCTTATTGTCAATTCTGCAAAGTATATTATATTTTAGCGTAGTTGATTTAATTAACTAATCTAAAAGTTTATTTTGTATAGTAAATTTATTATTTAAATAATATGGAATTATTAAAGTGAAAAAATTATTATTAGCTGCAAGTATTGTTTATTTTGCATCGGCCTGTCTTGCCGAAGAAAAGACAACACCTTTTCTTTCTAACTCTGACACTAAAATCAAATTAGAAGGATTCTATTTATTTGAAAGTGGTTATATTAAACAGAATCATTTAATTTTATTTGATAAAAACGTAACTGATAACAGGAAAAAACTCGGATTTTACACAGAAGTAGCATTCGCTGCAACCATCACTAAAACTATCAATGATGTAATAGCAGGGGCTAAAATAGTACTCCAACCAACTACCAAAGCAAAAACCGCTGCGAGTTATAATGGATCTCATATTTTTATTGAAACTAGTTACGGTAAAGTAGAATTAGGTTCTCCTGTCGATGCTAGTGCAAAATTACGTGTTACCGGTAATAAAGTAACTGCAGGTACTGGAGGGTGGTATAGATATGCTCTACTGGACGGTCAGTATATGAGGTATAATGGTTTAAAACCAGATTTCGATACTAATGTTAACTTTTATCTTGAATCATACTCGAATTCTTTTGATCAAATCAATGAAAAAACTGAGAAAGCTAGAAGACTAAACTTTTTTACACCTAAAATGAAAGGTTTCCAAGCAGGTATCTCTTATACTCCTGATACAGCTAATACTGGTGGTAATAAAAATATAAATAATTTAACACTTCAAAGCTCAGGAAGAAACGGAATAAGTGTTTCGAGAACTGGTATAAAGACCTTTGCCTTAGGAAACGGTGAAACTATGACTATAAATCAAAATATTAGGGATGCATTTTCTGCTGGCTTAACTTATGAACATGCAATTAGTGAAGATGCAGACTTAAAATTATCAATGACCGGAGAATATGGTAAACCTGCTCGTCGTCTTATTCATTCTAAAGTCGACGGAACAACTAAAACAATAGAAGTATTAAATACCTATAAGCTTTCTAATTTAAAAGCATATAATCTTGGAGCTGTATTTACTTACGGAAATTTCTCTTGTGGTGCTTCTTATAGTAATTTAGGTAAAAGCTTAACTTCTAAGGAATATTATAAAGTCGGTCGTAATACATATTATTATAATGGAGCTGTTGCTTATGGACAAGGACCTATAAAAACAAGTCTTGCGTATCTTAAAGCTTCAAGATATAAAAACACTGTAAATGCTGTAAGTTTAGCTACCGAATATAAAATCATGCCTGGGTTATTACCATATGCTGAAATTTCGCATTTCCAAGCTAAAGGTAAACCTGTATATTATCCTGAAGCACCTAGTAAAACAACAAGAGGCACTGTTGGTCTTATAGGAACAAAACTTAAGTTTTAATCATTTATTCACGAATATTTATATGAATCAAGGCTTAGAGTAACCTAATGCCTTGATTATTTAATTATTTTAATTATACAAACTATTATATCATTATAATAGCTACCTATTAGATTATAGGTAGTTCTTAGATTTTAGGCGGAATAAATTGAAATAGATCTACACAGCATAAATTACATTAAGTACCATAAAGCATGTGATACTTATTATTTATTTTTTATTTACAAGCGAAGGATATACTCTTTTATATTTAGAAGATTAATAATCAGAATAATAATGTCAATTATAGTATGAGATACTACAATCTAGTGTATAAATAATTCGCTCTTGCACTACCATTATTATGGTGAAAATCTATTATTTTTAGGGAAGCCAATAGGCGGAAATGTACCGAAACCACCTCTTTTCCCTAAAAATGCAACAATATTTTTCTCAAGTTGTATTTTTGTGCCATCATTCCAACTTAAACCATCTTGTTTATTAAATATTTTAATATCTAAAAGTTTTGCATTCTTAAATCTTTGAAGTACTACACCTTGCCCTTTTTTCATTTCAGGTATTTCATCTATATTAAATACAAGTAATCTACGGCTTTCACCGATACAAGCAATACTATCACCATTGACAGGTAAGCATGCTATACATGAATATCCCTCCGGTATATTCATAATTTGCTTTCCTGTTTTTGTTTGAGCTATTACTTCGTTTGAATTAACTAAGAATCCCTTACCTATACTACTTGCAAGTAATAAAAGCTGATTAGGTTTATAAACTAAAATATTAGTAATGTCGTTATTACCTATATCCACAAGTAGTTTTATAGATACACCACCAGTGCCTTTACCTTTAGAAATATTATCTGCAAGCAAAGTAAAAAATCGACCTTTTGAACTAATTATTAATATTTTATCAGTTGTATAAGCTTCTATAATAAACTTCTCCGTATCACCTTCTTTATATTTAATAGTTGATAAATCGGTATTATGCCCTTTTAGTGAACGTACCCACCCCATTTTTGAGCAGATAATAGTAATAGGCTCTTTAGTAATGAAAGCAGTTATATCAACAACTTGATTCGTAAGATCTACTTCTTCAAAACTTGTACGCCTTGCTCCTATTATGGTATTTAATCCAAATTTCGTTTGTACTGCTTTGATTTCTTTTTTAACTATTTGCCATAGTTCTTTATGATTTTTTAAAATCTTTTCTAATATGGCTTGTTGTTTCTGCAAATTACTATGCTCATCAATAATTGCATGCTCTTCAAGTTTTTGGAGCGAACGAAGACGAGTATTTAATATTACTTCTACCTGTATTGCACTTATTTTAAAGCGCTCCATTATTATCGTTTTCGGTTCATCCTCTTCACGAATAATTTCAATTATCTCATCAAGGTTTAAATAAACTATTCTAAGCACTTTTAAAATTTCTAAACGCTGCTTGATTTTATTCAAAAGATAAGTTGACCTACGAATGATAATATTTTTTCTATGAACTAAAAATTCTTGTAGAATCTCTAAAATATTCATTACTCTTGGCACATTATTACTACCGATCACATTCATATTCAGCTGAATGCGACTTTCTAAATTAGTGAGCTTAAATAGAGACTCCATAACTATCTGTGGATCACAACTACGATCTCTTGGTTCTATAACCACCCTTATAATATCGGTTGATTCATCTCTAATACTGCTAATAAGCGGGATTTTTTTATCTTTTAGTAATATTGCTATTTGTTCTATAAGTTTTGATTTCTGAATCTGATAAGGTATTTCAGTTACAACTATCTGATATGTACCGTAACTTAGTTCCTCTTTTTCCCATCTACTTCTTACTCTAAAACTACCACGTCCAGTAGTATATGCAGCATTAATAACTTCAGCTTTATCAATAATTATGCCACCAGTTGGGAAATCAGGACCTTTGATAAAGTTCATTATATCGTTAATTCCAGCTTGCGGATTGTCAATTAAATACAATAAAGCATCACATAACTCATGTAAATTATGTGGTGGTATATTTGTTGCCATACCAACTGCTATACCTTCAGAACCGTTAGCAAGCAAATTAGGGAAGCTTGCCGGCATTATTACTGGCTCTAAATCAGAATCATCATAAGTAGAACGAAAGTCTACCGTATCTTTATCAATATCCTCCATTAATAACATGCATATTTCCGTCATACGTGATTCAGTATAACGCATAGCTGCTGCATTATCACCATCTATAGAGCCGAAATTACCCTGACCATCAATCAAAGGATAACGCAATGAAAAATGCTGTGCAAGTCGTACCAATGTATCATACACTGCCACATCACCGTGCGGGTGGTATTTACCTATTACATCACCAACCACTCTTGCACATTTCTTATATCCAGAATTAGGCTCAAGCCTTAGTTGTAGCATTGCATATAATAACCTACGATGTACAGGTTTGAGTCCGTCACGCACGTCAGGAAGCGAACGTGACATAATAGTGGATAATGCATAAGCAAGATAACGCTCTGATAAAGCATTACCAAAGTCAATATTTTCTATTTTAGCTTCTTTCATAAGTTATTTAATTTTGTTATTATAACTCCTGTATATACTCTTTACATAGAAAAATTTATTCATTTGATTGAGTAAAAATAGAATGTTTTTCTAGATAGCGTTGACAAGATAACACTAAATTATCATTTCAATACACAACTCTGCTTATTATATGCTAGTTTCTTACAAACCGCTTGAGCTTGACTAAGACTACTATATTCACCAGCTAAGATTAAGTAAAAAAATTTTCCATCATCATATTTAACTTTTTTTGTTGTGATCACAACATTTTTAAGAATTTTTGGAAATTTCTTTTTTATCTTTGCACCTTCTGCCATTGCTTCTGCTTCAGATTTTACCGAACCTAACTGTACTTTATAACCTGCATTACTTCTACAATTTTGAGCATTACTAACCTTATCCTTAATTACCTTTTCAAGCTTTATGATATTTAAATCAGTTGCATTTTTAGCATTATTATTTGACTCTATTAATGGAATAAGGGTTGACATCCGATCAAAAATTTTATCATTTTGACTTTGATTGCGAGAATCTATAATCATTGGTTGCTCAGGATCAGGCAGTAATTTTACAGTTTGAATATTTGTATCTTGAGTAATAAGATTTTCATATATATTACTATATACTGATGCTACTTGGTTATTTTCTATTATAGAGGGTCTTATTTTTGGAGGTAGATTATCAGGATAAATAGTAATTACTGGCTTGCTATTCTGATAATATTGATAACCAAAATAAATACCGGATATACATATCAAAGATACTAAACATATTTTACTATTATTGGTCATATTTCCAGTTGCACCACCATAATCTCATAATCAATTCAAGGAATGAAAGGATTAAATTAATGTTACATCGTAACCATAGGTTCTACACCTATCACCTCAAGACCACTCGCTATAATTTTTTGTATTACACTTGCAAGAGCAAGACGCGCTAAAGTTAATTCTTTATTGTTCTCAATGATAAATCTATAATCACTATTTTCTTTACCGAAATTCCACATAGAATGAAATTTTGAAGCTAAATTTATTAAGTAAAATGCGATACGATGAGGTTCAAAATATTTTACAGATGCTTCTAATGTTTTCGTCCACGCGGCTAAAAGTTTTATAATTTCAATTTCTTCTTCTGATGATAATAAAGATAAATTATACTTGCCTTCTTTGAAACTATTATAAGCTTCGGGCATTAATTCTCTAGCTTTTGATAAAATAGATTTTGTTCTTACATGAGCATATTGTACATAAAATATAGGATTTTCTCTTGACTGCTCTTTCACTTTTACTAAATCAAAATCAAGCGGTTTATCATTTTGTCTAGTCAACATCATAAATCTTATGATATCTTTACCTACTTCTTTGTTTACATCTTGCACACTCGCAAAACTCCCAAGACGTTTCGACATTTTAATCGGCACACCGTTTTCAACGAAATTTACCAATTGACAGATTTTAACATCTACTTTAACCTTCTCTTGACCTAGCGCCTTAACTATTGCTTCAATTCTTTTAACATATCCACTATGATCCGCACCGAGTACATAAATTAAGTGATTAGCTCCTCTATCTATTTTATCCTTAGCATATGCAAGATCGGACGCAAAATAAGACCAACTGCCATCAGCTTTTTCTATTGGACGATCTTGGCTATCACCGTAGTTGGTAGATTTAAACAACTTTTGCACTCTGTACTCCCAGTCCTCATGCACTTTACCTTTAGGAGCAGGTAATGTACCTTCATAAATTAGCCCCATACGCTCTAATAGTTTAACTGTTTTCTCTATCTCACCTTTATCATATAATGATTGCTCAGAGAAAAATACATCATGTTTAATCCCTAAATCTGCTAAATCTTTTCTATTTAAATCAAGCATTTTTTCTACAGCAAAACTTTTAATTATTTTGAACCTTTCAACATCATTCATAGTTAATAATTTATTGCCGTATTCTTTTGATAAAATTTCTCCAAGCGGAATTAAATACTCTCCAGGATATAAACCGACAGGGATAGTAATGGGTTCACCTAAAGCCTCTTTATAACGTAATAATACAGTACTAACTAAATCATTTATTTGCGATCCTGCATCATTAACATAATATTCTTTTGTAACTGAGTAACCTACTTTTTGCAAAATTCTTGCTAACACATCACCATATACTGCACCTCTAGCATGCCCTATATGCATTGGCCCCGTTGGATTTGCTGAAACGTACTCAATATTAATATTGCTATTTTTATCTATATCAATTTCAAAAAACTTTTCTTCGTGCTGTAAAATATCTTTTATTGCCGCCTGCCAACTTTCAGCTTTTATAGTGAAATTAATAAAACCAGGGCCTGCTATCTCTATACTTGCAATATACGGCAATGTTACAAGTACTTCTTTAAATTTTAAAGCTACTTCCCGAGGTGCAATACTTTCTTTAGAAGCAATAATCATTGCAATATTACTTGATAAATCCCCATTAAAACTATCCTTTGGTGTTTCAATAGTTGCAGTATTTGCTATTTCTTTATTATTATATAGTTTCTGACTTGCCGCAATTATATCTTGTTTTAATTGATTAAATATATTCATAATTAGTGTTAAATATTATTAAAATTCGGTGAGCAAAGTTGATTATATTCTTGTATTGCGAAACGATCAGTCATGCCTGCTATATAATCAGCAATAACTCGAGCTTTACTATATGTTTTATTAGAATCTATTAATATTTTCCAATTAGTAGGTAATAAATTAATATCATCCATATAAATCTTAAACAGACCTTGTACAATTTTAGTACATTTAATACTGATAGCTATCATTTTATTACTTTCATAAACTCGCTTATGTAAAAACTTCTTAATTTCATTAATACGCTCATTAGTTTTTTCAGTAAAATCCACTATCGGATAATGCAAATTACGTATCTCATCTATGTTAGTAATTTTTTCTTTATTTAAATTTTCTTTCGTTTGCCATAATAAATCAGTAATCAACTCATGTATTAACTTACGTACTACTTCATAAATAAGACAAGAAGGACTAATATCCTTAAATTTCGCCTTAAGTTCAAAAACATAGTTATCAATATATTGAAGTTCAGCAAGACTATCAAAGTCGATAATTTTAGCACCGATACTATCTTCCAAATCATGCGAAATATAACTAATATCATCAGCAAGTGATGCTACTTGAGCTTCTGCAGATGCATAAGTACTAAGCTCTAAATCATTTTGCTTATTATATTCTGCTACATATTCATTTATTGCACCTAATATAGGACCATTATGTTTTACGATTCCTTCTAAAACTTCCCATGTCAAATTGACTCCATTATAAGCAGCATATCTTTTTTCAAGTAGTGTTAGTATCTTTAAAGATTGAGAGTTATGTGAAAAGCCATGATATTCTTTCATACATTCATTTAAAGCTCTTTCACCTGCATGACCGAAAGGAGTATGACCTAGATCGTGAGCCAGTGCTATTGTCTCAGCTAAATCACTTGATAAATTTAAAGTATTAGCAACTGAACGAGCAACAGTTGAAACCTCTAAAGAATGCGTTAATCTATTTCTGTAATGATCTCCTTCGTGATTAATAAAAACCTGAGTTTTATATTGCAAACGCCTAAATGCATTGGTATGTATAATACGATCCCGATCACGTTCAAATTCATTTCTATAATATGTTGGGATCTCCTTATATAATCTTCCTCTACTTTTAAGAGGATCAGAAGCGTATGAAGCAAGCATAGTTATCCTTTGTTTTGTAAGGCATTGCCCATGTAGCTCCAATTTTTATTGCAGCTTAATCACAGTATAAAGCAACTTAAAATACAAGAATTTTAAAGATAAAAGTTGATTATCTAGCTTTACACTGTATCTAGTGTTTTAAGCCAAGGTATAATGAATATGGCAATTTCTAAACTACAAAACAACACCATCTTGAAAAATATTAAGATATATTATATAATTTATAAGATTTTTACAAGGTAATTTTAAATGACTATAACAATTACAGATAGAGCTTTTGAACGGATTTACGAATTAATAGAGCTCGAAAAAGATAAGAATTTAGTACTGAGAGTTTCTGTTGATAGTGGCGGTTGTTCAGGTCTTATGTATAATTATGAATTAGTCTCAAAAGATAATATAGAGAAGGATGATTATGTCTTTACAAGACATAATGCTACAATCATTATTGATTCTATTTCTCAAAAATTTATGCTGAATTGTACTCTTGATTTTATAGAAGAACTAGGCAGTTCATATTTCAATGTTAGTAATCCACAAGCTAAAGCAAAATGCGGTTGTGGTAATTCTTTTTCGGTATAGTACTTAATTTGAATTCTAAGCGATCATTACGCACTTGCATTGTTGTATTGATACAAAAACCATAATTGCGATCAGCAAATCGCTACTATAACTGTAAATAAGAAGTGATACTGAATTATCAAATTATCATTATTACAGAATTCTTATTCTGATTGGAAAATATCTACAATCCACAAGACCTTGCAAATTTGTTATTAAATTCTATCTTCAAGCATAATAGCGCAAGCAAAGTTAAACTTTTCATTATTAATCTTAGATTACACTTTTACTTTATCATTATAATGTAGTAAACCTACTTCATTAGCATTACATCATCTTAAGCATTACTATCTACATCAATATACACATCTTAATATTTAGATTTTATCATGCTTCATTCTGATATGTGCTGCAATTGACTCCTTATACTATCCCTCTGTAGATAGAATTTCAAAACCATTAGATTATCTATAACAAAAAGTATAATAAACAGAAATATAGTACAATCATTTAACTAAATTTGGAATTTTATTCGACTCTTATCATCTCATTTGCTTATAACTTAAGTATTAAATCACTTAAAAAGTTTATGCTATCATCTTCCTACTAATAAGTTATCAACAGATTCGTATAAAAGATCATATACTGTACTTTTGATAAGAATAGACCTCATCAAATTTAGCATATTTCTACTCATCTATTATAGTAATATAAATATTTATTTTTACTCTTGCACAATAGTGCTTTTGCACACAAGACACAGAATTTAGTATAGTAGCTCTTGATTTCTTGAAGATATACTGTGCCTCTATTAGAATAAATTAGGCATTTTAAAGTTTTGCTCTTAAAAAGAACATATATTAATTTTATATGTAAAATGCACAATATTATCTGCACTATTGTAAATATAATTTTTCTGACTAATATTATTTAAATAGAATTGCTTTTTACCCTTTGATATATTTCTAAATACGAGAGAGTGCTTCATATGCTTTAAAACAACACTAAGATCAACTATAATATACAACAACTATTATCTTTATAAGCTTTCATTTCATTACAATCTTCTGCAATCACTTTACAAAACCTGGTGTTATGTTAGTGCTTGAAAATTTTTAAAAGGTTAGCAATTTTGATATTAAATTTCATACTCAATATTTATTATTTTCTTTAAAAGATATTAAAAGAATATCCATAATTATGGAATAAATTAAAATTGTTAATTTCATAAAAAATTTTAATTGTACCATTAATTATACTATTAGTTATTAACGATAAATCTACTTATTGTGAAGTTTAGAGATGATAAACGCAAATTTTTATTATCATTTATACTGCAATTATTAAAATACTTTCTTAATAATTTAAATATAGAATACGTATTGTTATATAAATATAATATCTTTATTATATAAAGAATGCATCTTGTATTTGAAATGAATATATTATTAATATAATATTCTTCAAAAATAGTTAAATTTAGATTTTTTTTGTTCTAAAAATTATTACTGAATCAAACAATAATATGTTAGTGCTATTTATATTTTTAAGGAAATAATTTTATACTATTTCTTTTGTAATTTTATCATATTTTTTTAATTTGATAAGTATTGATTCTAAATTATCTAACTTAATCATACATGGACCATCACTTGGAGCATTATCAGGATCTTGGTGTACTTCCATATATATACCAGCTATACCTACAGAAATTGCAGCTTTTGCAAGTAATTCTACATATTTTCGTTCTCCTCCACTACTCCCTCCTCGCCCTCCAGGCTGTTGCACGGAATGTGTAGCATCAAAAACTACAGGTACATTTAGCTCAGACATTATTGCAAGACTACGCATATCAGATACCAAATTATTATAACCAAAACATGATCCACGCTCTGTAAATAAGATATCTTTTGCCCCAAAAACTTCTAGTTTTTTTTGTACATTTTTCATATCCCACGGCGCTAGAAATTGTCCTTTTTTTACTTTTACTATTTTACCTGTTTTCGCGGCTGCTTTAAGCAAATCAGTTTGTCTACATAAAAATGCTGGAATTTGTAAAATATCTACTACTTTAGCTGTTTCTATACATTGACTCTCTGAATGTACATCAGTAATAATAGGACAATCGAATTCAGATTTGACTTTTGATAAAATTTCCAAACCTTTTTCAATACCAAGTCCTCTAATTCCATTTATAGAAGTTCTATTAGCTTTATCAAAAGAAGATTTATAAATAAATGGGATCGAAAGCTTACTAGTTAATTTCATAAGTTTTTCTGCCATAAATAGCGCATGGTCTTTACCTTCAATCTGACAAGGTCCTGCAATTAGCACAAATTGTAAATCATTTCCTATTTTAATATTGTTAAGTTTCACTACTTTTTTCATAACTCTTATATTTAATTATTGAATGAGACACAAATTAGTGTTTCTCTATTAAATCAGGTACTATTTCATTTTCTATGAAGGCATTATTAATTATTAGCGTATAATATTTTTCTTTTATTGTTGTTAAATCATAATTACCATAATAATAACCCTCTAGGTTAATAATCCTTTTTAAATAAAAATTTATTTGTTCTGTTTCTAATGACTCATCTATATCTTTTATAAAAAACGACTTAATAAAAGATGCTTTTATTGTTTTTAATTTTTTAATAATAAAAAAAAGATCATGTGGTTTTGTTACCAATATCCATACAAATAAAATTAATAATATTTGTGTAAAAGACATATTTATATTAATTTCTTATGCTTATATTTCGGAGTAAAAATATTTTCACCATTAGTACTTAACATATATTCATGATAATCTTGATAATTTCCTTCAAACCATGTAGCATTATTTTCTTGATCATATGATATAATATGAGTTGCTATTCTATCTAAAAACCATCTGTCATGACTAATCACTAATACACAACCTGCAAAATCTAAAATAGCATCTTCAAGTGCTCTTAACGTATCAATATCTAAATCATTAGATGGCTCATCTAATAATATAACATTTGCTCCTTCTTTAAGTAATTTTGCCAAATGTACTCTGTTACGTTCTCCACCTGAAAGCTGTCCTACTTTTTTTTGTTGATCACCACCTCTAAAATTAAACGCCGCACAATAAGCTCTACTTTTAATTATTCTATTACCAAGTTGTAATTCATCTAGACCTTCTGAAATTTCTTCCCATATAGTCTTATTATCATCCAAATGATCCCTTGATTGATCAACATATCCTAATTTTACCGTTGGACCAATTTTAATAGAACCACTATCTGGCATTACTTTACCAGTAATAATATTAAATAATGTAGATTTTCCTGCTCCATTTGGTCCAATAATTCCTACAATAGCTCCACGTGGAACTTTAAAACTAAAATCTGATAATAATATTTTATTATTAAATTTTTTAGCTATATGTTCTGCTTCAATGACAAGATCACCTAAACGAGGTCCATTAGGTATAATTATTTGAGTAGGATCAATCTTATATTCTTGTTGTTTATTTAATAATTCTTGGTAAGCTGTAATACGCGCTTTATTTTTTGATTGTCTAGCTTTTGGAGTTTGACGTATCCATTCAAGTTCACGACTTAATTGTTTTTTTCTATCATCATCCTCTTTACTTTCTAAAGCTAATTTTTTTTGTTTCTGCTCAAGCCAAGAGCTGTAATTTGATTTCCATGGTATACAATTTCCACGATCTATTTCTAATATCCATTCTGTAACATTATCTAAAAAATAACGATCATGAGTAATTACTATTACAGTACCTTCATAATATTTTAAATAATCTTCAAGCCATGAAACTGATTCTGCATCTAAATGATTTGTAGGTTCATCAAGTAATAACATATCAGGCTTCTCTAAAAGCAATTTACATAAAGCAACTCGTCTTTTTTCTCCACCAGAAATTTTGTTAATCTCTGCTTCTTTTGGTGGACAGCGCAAAGCAAGCATTGCAATTTCTATTTCACGCTCTAAATTCCATCCATTACAATTATCTATTTTTTCTTGCAATTCTGCTTGTTTTTCAAAAAGCTGTTGCATTTCTTCATTAGTCATTTTATCAGTAAACTTATTACTAATATCATTAAACTCATCAATAAGTTTTGTCTTTTCACGAAGACCTTCTACGATATTATCGAAAACATTTTTAGTAGAATCAAGATACGGCTCTTGAGGTAAATATCCTACTTTTATACCAATTTTAGCTGTTGCTTTACCTTCAAACTCTTTATCAATACCAGCCATTATTTTTAATAAAGTCGATTTACCTGCTCCATTGGGACCTATTATACCGATTTTAGCTTTTGGTAAAAATGATAAGTTTGTTTCTTTTAAAATTTGTTTACCATTTATAATTTTGCTTAAACCAACCATTTCATAAACATATTGATATGACATAAATTTTGTTTCCTTATTATTTTACACTGCTATATTTACTACTAAGTATATACATTTATTATTCTATAGACATTAAATTTAAAATTAAACATTGTAATTTCTATAACGATTGAATATTTCTTTTTTAGTCTTGATGTAAAGAAAAAGCTTTTATAATTTAATATATTCATTTTAATTTAATTTTGATAATATTAAATCTAATTCTTCTAAGTTTTTATAATGAAACATTAATTTACCACCTAAGCGACAATTGTCTATTGTTATTTTTATACCAAATTTCTTGGATAAAGCTTTTACTAATAATTCTAAATCATTATCGATAACGTTATCTTTAACACAAAGCTTATCTACTTTATTATTGTTGTTAGAGGATTTTTTATACTCATTTTTATGCCATTGTCTTACTAATGCTTCTGTTTGACGTACATTCAAATCATGATTTATAATATGATCTGCTATTTCTTCTGCATATTCATGATTTATTAAACATCGAGCGTGTCCCATACTTAGTATATTTTCATTTAATTTATCTTGTATAGACTGCGGTAAATTATTAAGTCTTAACAAATTAGCTATATGACTACGACTTTTACCAAGTCTCTCAGCTAATTTTTCGACAGTATAATTAAAATTTTCTACTAAATATTTAAATCCACGAGCTTCTTCCATAACTGTTAAATCAGTTCTTTGTATATTCTCAATTAATGCTACTTCCATACTCTCTCTAGTATCAAAATTTTTTATAATAACTGGTATCTCTAAAACTTTTGCTAATTTACATGCACGCCAACGTCGTTCTCCTACTATAATTTGAAAATTATTATCAATGATAATAGGCTGTAATAAACCATTATTCAATATAGAATCTGCCAATTCTTTGATTTTATTATATTCAAAGTGTTTTCTAGGCTGATTCTCATTTGGTTTTATTTTATCAATATTTATTATTTGTACTATTTCTGATTCTATAGGAAGCACTTCTTCTCCAAGTAATGAAGACAATCCTCGCCCTAGCCCTTTATTTTTCACCATATCTTTCTAAGATTTCTTTTGTAAGTTCTATATATGCCACTGCTCCTGCACATTTATAATCATATAGAATAGCAGGTTTTCCGTATGAAGGAGCTTCAGATAATTTAATATTTCTTGGAATAACAGTTTTGAATACCAATTCTCCTAAACATTTTCTTACATCATCTTCTACTTGCTCAGTTAAACGATTTCGCTTATCATACATTGTAAATAATATACCAGCAATCTTTATCTTAGGATTTAATTTTTTTTCTACAATTTCAATTGTTTTTAATAAGTGACTTAAACCTTCTAATGAATAAAAATCACATTGCATTGGAATCAATACTTCATCACTTGCAACCAAAGCATTTACTGTTAATAAATTTAATGCAGGAGGACAATCAATAATTATATAATCATATAATATTTTTACTTCTTCCAAAAGCTTCATTAAAACATATTCGCGTTCTTTTAATGTCGTTAAATCTAATTCAGCAGCAGATAAATTAGTGTTTGAAGTAATTATTTCTAAATTTGGTATATTTGTAGCAATTATTGCATCTTTCAATTCTATTAAATTTGTTAATACCTGGTATATAGTATTTTTACGTTGTTGCTGAATAATTCCAAAACCAGTACTACTATTCCCCTGAGGATCAAGATCTATCACTAAAATTTTTTTATTAACAGAAGCAAAAGCTGTAGCTAAATTTACTGTAGTTGTAGTTTTAGCAACACCTCCTTTTTGATTAACAATAGAAATTATTTTCATATGATTTTTGTCAAATTATTAATTTCTAAAATTTTTCCTGATCCACAAGTAATACTTTGATGTATTAAATAATCAAATGACCATCTCTCTTTAGCTTCTACTATCTCAGTTAAATAACTTTTGCCTTTTAATAATAAAAATTTTTCTCGTACTGAAATATTTTGTGTATAATGAAATATTGTATTTAAGTTAGAGAAAGCTCTACACGTTAATATACTACAATCTATTTCTATTTTTTCTATTCTTTGATTAATTATTTGTATACTATTATTTGATATCTTTGATGCTTTCGCCAAAAAAATACATTTTCGTAAATCAGCTTCTATTAAACTTACTTTTGTTACACCTGCTATAGATAATACTATACCTGGAAAACCAGCACCACTTCCTATATCAATTAAGTGTATTTCTTTATTACTAATATATTGCATTAATTGTAATGAGTCTAAGATATGACGTTGCCAAAAATTAGGTATAGTATTATCTGATATAAGATTAATTGATTTATTCCATTTTTTAATTAAATTTTGAAAGATTTCTAACTTTTCAATTATTTCACTTTGAACTTTCATCGCTATATTTAGTTTTTAAATAAATTATAATAGCCGTAATTGATGCAGGTGTAATACCTGAAATGCGACGTGCTACTCCAATAGTAGCAGGTTTATGATAAGAAAGTTTTTCCTGTATTTCTAATGATATACTCGGTATTTTAAAATAGTCAATATTTTTAGGTATTAACTGTAATTCTTCACTTTGAAATAAATTAATATCTGCGTATTGTCTAGTTAAATATGAAGCATATTTTGCTTCAATATAAAGTAATTGTAAAATATTATTATTTTGTTTTTTAAGAATAGGAAAAATTTTAATAGCTTGTTCAACATTAAAACTAGGTATTTTAAATAAGTCTAATATTGTTTTATATTTACCATCCTGTGCGACCTGTATACCCATTTTAGCAAGTTTACTGGTAGTTAAAGACAAGTTATTTAATAATAATTTTGTTTTCTCTATATTTTTACATTTTTTTGTAAAAAATTTTTTCCGCTTTTCTGTGATAACTCCAATTTTTATCCCTAATTCAGTTAAACGTAAATCAGCGTTATCTGCTCTTAAAGACAATCTATATTCTGAACGAGAAGTAAACATACGATAAGGTTCTACAGTACCAAATGTTGTTAAATCATCAATCATTACTCCAATATAACTGGTTGCCCTTGTTAAGATAAATGGCGCTTGATCTTTTACTGATAAAGCAGCATTTATACCAGCGATTATACCCTGTCCAGCAGCTTCCTCATATCCTGTAGTACCATTAATTTGCCCAGCAAAATACAAGCCAGTTATTTTTTTTGTTTCTAGCGTAACATTTATTTCACGTGGATCAACATAATCATATTCTATAGCATAACCTGGCCGTAAAACTTGTGCATTTTCTAATCCTGGTATTGTTTTGATTAATTTGTATTGCACCTCTTCAGGCAAAGAAGTAGAAATACCATTTGGATAAATCGTATAATCCTCTAACCCTTCAGGTTCTAAAAATATACGATGTTCTAATTTTGTACTAAATTTAACTATTTTATCTTCAATAGAAGGACAATATCGTGGTCCTATTCCTTCTATTTGCCCTGAATACATTGCAGATTTATCCAGATTCTCACGAATAATATCATGAGTTTCTGAAGTTGTTTTTGTGATAAAGCAATTTATCTGAGGAACATCAATAACATCTGTTAACTCAGAAAAAGGACGAGGGATTTGATCTCCTTGTTGTAAAGCGGTTTTACTATAATCAATAGTACGCCCGTCAATTCTTGGTGGTGTACCTGTTTTTAAACGAGCAATCTTAAATCCTAGTCTTTTTAATGTATTGGATAATCCATACGAAGGCTCTTCATATATTCTACCGGCAGGCATTTTTATTGAACCTATATGAATAAAACCTGATAAAAAAGTACCAGTAGTTAATACAACTTTTTGACAAAAAATTTTGCTACCATTACTTAAAATCACAGCTTCAACTTTAGAAGATTTAATTTGTATATCTTCTACTTTAGCATATAATATATCTAAATTACGATAATTTGTTAATATTTGATACATCACTTTTTTATAAAGCTTCCGATCAGCTTGAGCTCTAGGCCCCCAAACTGCTGGGCCTCTAGTCTCATTTAGCATTTTATAATGTATACCAGATTTGTCTATAACAAAACCCATTAACCCATCAAGTGCATCAATTTCTTTAACTAATGTACCCTTTGCAATCCCACCTATTGCTGGATTACAAGACATTTCACCTAAATTTTCTGGTTTTAGCGTAATTAAGAGAGTATGTACTCCAAGACGCGCAGAAGCAGCTGCTGCTTCTACACCTGCATGTCCACCACCTATAATTATTACACCGTATTTTAGCATTAATTATTCTATAATTTCAGATTTGGAAAAGAAAAATTTGATTTCTCTTTTCGCACTATTTTCACTATCTGACCCATGAATACTATTAGCCTCAATTGATTCTCCTAAATCTTTTCTAATAGTTCCTTCTTTTGCTTCAGCAGGATTAGTTGCGCCCATAATGGTTCGATTTAAAGTGATAGCATCTTCTCCTTTAAGAACTTGAAGTACTACCGCTCCTGAAGTAATATATTCAACTAAGCTATTAAAAAACGGCCTTGCTCTATGTTCATCATAAAAACACTCAGCTTCATATTTAGTTAAAAATTTCATTTTCTGTGCTACTATTTTTAAGCCTGCATTTTCCAAATAAGTATTAACTTGTCCTATTTTATTCCTCTTGATCACATCAGGCTTAATCATTGAGAATGTATATTGTATTGTCATTTTTATAACCTTTATATATAATAAATTATTAGATTTACTGCATAAACTATCTTATAAAGAGGAATTTGAATTGGAGACATCACATGCCTCATACTGCAGTACATAGATATAAGTTATGATTCGATTTTATAGGCTCAAGATATAAATTTTAACACAGAGATTCTATTTTTCAGCTGAATGGTTCCATGTCAAAGCAAATAATACTCCCCCTAAAAGAGCAGAAATACTAAAAAATATAAATACTCCATTCCACCCGTAATTATCACTAATCCATCCTACTCCTACTCCCGCAATCGCAGCGCCTAAATAACCAAATAATCCTGATAATCCATTAGCAGTACCAACAGCTTGACGAGTACTAAAATCAGCAGCTGCTATACCTACAAGGAGCTGAGGTCCTGCAACAAAAAAGCCTATTAACGCAAGAATTAATATACTTAATAATTCACTTTGAATAGGGACTTTCCAAAACAAAACTAACAATAAGGTAAGCAATATCATACATATAGATGCAATAGGACCTCTACGACCTTGAAATAGCTTATCAGATAAAATACCTGCTATTAATGCTCCTGGAATACCTATCATCTCATATAAACCAATTTGTAAACCTGCATTTACAAAGCTTATATTACGTAAATCTTTTAAAAATGTTGGAGCCCAATAAATTACTCCAGAACGGATGATATAAACAAACATGTTTGCTAAACAAACATACCATATTAGCTTATTACAAAAGACCATCTTAAGTAATTGTTTAGTTAATAATCGCTCATAATTTCCTATAGCTTCAGGTGGATATTCTTTATATTCTTCTACTGTAGATAACCCAACTTCTTTTGGAGAATTACGTAACCTATTATATAAAAAAAGTGATGCTACACACGCAACTAAACCTGGAACAAAAAAAGCAGCTCTCCAATCAAATTTATCAATTAAATAACCGCAACTTATCATAGCGAGAGCACCACCTATTTGATTAGAAGTCGCACCAATAGCCCATTTAGTTCCAAGTTCTTTTGCAGCAAACCAGTGAGTGAGCATTTTTGTTGCAGGAGGCCATCCCATTGATTGAAACCAGTTACTGGCTATCCATAAAATTCCTATAAGCCATAAAAAATCTGAAAAACCTATTAGAATAGTAATAATCCCAACAAATAAAAGCCCTAAAACCATAAATATTCGCGCATTAACTTTATCGCTAATAAACCCATTACAAGCTTTACTAACTCCATACATAATAGATGCAGCAGTTAAGATCCAACCAATTTGTGTTTTAGTAACACCAAAATATTCTCTTATAGCAGGGGTAGCTATATTAAAATTCTGACGACAAAAATAAAAAGTCGCATAACCTATAACAATAGAATATAAAATCCTTATTCGCCAACTATTATATTTTTTTACATATGGCGACCTTGGCATTTTAATTTTAGACTCTATATTTGTCATATTATAAACTCTCCTCAACTATAAAAAGTAAGATTCAGGTTTTAGAAGCTTTTTTATATTTTTTTACAAATTCTATTTTTCATTTTTATTTACCAAAACTTGATACTCTTTATTTAAACCTTTAACTGCAAATATCCATAATATTACTATTATAAAGAATATAGAAGCAAAATAAGGAGTCGCCTCTATAAAACCAAATACAGGAAATAAAATAAAGAATGTAGATTGAATAATAGCACCGCCTGATTTACCGAGCCTTCCTCCGATAACTTCAACGGCAGCTTGCCCTTTGACTCGTAAATCCTTATCAAGTGGAATATACGCCATATTTTTAGTTGCATCAAATAAAGAATATTTTACACCTTTACTTAAAACATTTTGAATCATACCGATCATAACAGCAAGTGTTAAAGGACTTGAAGCAAGGATGCCGGTTAAATTCATTGCAATAACGCTATCAAAAAATATAAATGAAAAAAATGCCGCACCTGTTATGAACATCATTAATGGAGTGATCATAGCTGCAGTTAGCCATGATACTTTTCTTAAAATATTACTACCTATCAGCATAAAAGCAATTGCAACCCAACCCTGATAAAATTGGAACTGACCCATATATATGGTATAAGCCTCCTTTGTCGGATATAATTCTTTTACTTTGGATTTCCAAACACCTTCAACTAAATTTACTGAAACACCATAAGCAATAATTAATAATGCAATATAACCTACATATTTCGAAGTAAAGATCATTTTTAAACTTTCTATGAACGACAATTTAGCTTTAGTTTTTTTTTCTTTTACTAATGCTGGATCATATAGTCTAGGATCAGTTAGAACATTTTTATTCATCCATCTATATGTTAATATTATTAAGAAACTACTTGTTATCATTATAACAAATAAAGGTACAAATTTTAAATGTTCTGCAACTATTTGAGTTTTTTCGTGTAGAAAATATCCAATAACCACTGATGTTACAGGCAATGCTAAATTCGCAAGTAAACCAAACATTGAGTAGAAACGTTTAGCTTCAGCGATTTTAGTAATTTGATTAGCAAATTGCCAAAATAATAAACTAAGCATCATTGTTCCCCAAAGCTCGGCAATAGTATAAAAAGATGCAAAACTCCATTTACCAACTATTTTTATAAACCATTTGAAATTAGGATAAGCTAAACTTAAAGATTCTATAGTTTTATGATCAGGGTGGACTAAATCAGGATATGGGTAAAGAACAAAGGCAAATAATGCAAAATACCCTAAAAAAAATGAAGTAATAACATAAAATACGTTTTCTTGCTTTAAAATATCACATAGCTTAACATAAATTATCATAGCAATTACAGCAGAAGGTAGTACTATATATGTTTTTAAAAAACTTATCGATTCTGTACCTATATCTGTTACTACAAAACCGTCTTTAATTGAACGAAGAGTTGAGTAGTTTAATAAAATACAGAACATCATAAATGCAAGTGGCAAAAACTTCTTATTTTCATATTGTTCTATAGGCCAAATTATCTTTCTTAGTTCTGAAAGATAATTTTCACTTTTGGAAGTACTCATAATTAAATTTTCTATTTATTTGAAGATAAACATTATACTAAAATATATGATAGAAGTCAAACAAATTGATTTTTTCTAGAAAGAACTCAATAAACATTTTATTAACTATAGGATGTGAAAAAGAAAACAATTTTTACTTAATTTTGATTTCTATATATTAACTGTTAACTAACTAAATGAAAATTTAGTGAACTTTAAATTGTAAAGGCTTATTTGATATTTCTTGGGGTCAATATTCTTATGACAATACAAAATATTGAAGGTAAAATATTAAAATTTCATCCCATACAATGCAGTATTAATATAACTTTACAAAAATTATTTATAGCTATAAAAATAGCCTACTCCCATAAAAACACCAAATTTACATACTAAAGTGATCATTAAATGCAGCAATGATGAGTTAGATATTGTGCAAAAGATACAAGCAAATATATTTTGCAAAGAAAATACTAAAAAATTATTAGATATGAGAAGCTCTAATTTAGTTCCTTTAACGAGAATAGATTTTGAATCTTTTGATTCACACCTCATAAATCTTAGCAACGGAATTTATGCATTAGGCATGACACATATGCTATGCTTTACAAAAACTGTTAGTAAAGTAAACTCAATAATAAATAGCTTAGTTACTCTAGAAGAAGCAGCTTAAAATAAGCATCAAAATTACATTGTAATAATAGAGACTAGATTAATATATCGTAATAAAATTATTTTAGATGATATTTAGATGTAAATTACATTTTGCAATAAATATTGTAATATCATTTGCATAGCATTATTTTGTATATCATTACGCCAAAATTATGTAATCATTGATGAAGCAAACTATTAATTCTAATTAATATAATTTTTTCTAAAATGATGGTTTTGGTATACAGTGATAAAGTATAAACTTTTTAGTTTAAAAACTTTTTGAACAATCTTGTCACATATGCTACTAAATTTTTCTAAAAATTTATCGATTATTAATAAACTCTGCATCTTATTCTAAGACTTAATAGCTTACAGTAAATCATTAAAATAATGCTTGTTTGAGATCTCAAATCATCAATAATCATTAATAGTAGCAAATTCTCGGCCTAAGCTTATTATCGATTTAACTCAGAATTTCAGTCAATATATAGATAATATCCTTATCTTTAACGATATTATAAGTTCAATTTTTATGTACTTTTGTATATAATTTCTGCAATAAATCTAATTATATTTAGTTTTTGAACAAAAATTTAGCAATAACCTCTTTACACAGAAAGAATCTAGTACTTGTGTATTAGATATTAACTATCTAAAAAATGCATTGAAATAACGTTCATCTTATTTTCTCATTTTCATATTAATAACAAATCAGTAATATCAAAAACAGTACACGTAAGATGTATAATGATTTTTATAAAAATTGATTATAATAATATGCAGGAAAACTGTTATTTAATACATCTATTCCGGTTTCTCTTTTGATATTTAGATAATTTAACCATTTCGTTTGCACAATCACAAGCGGTAACTTAAATAGTATTTACTTTTTTAAAATATTTACAACCAACTCCTAGGACTAAAAGCTAATATACATATAATTCAGTAAATACTTGATAATTTTCTTGATAAATCCGTCTGAATATTTAATATTATACTATGCCAAAATATTGGATTAACTAAACAATATATAAGTAGTAAAATTTTACATTGAATGTGATACTTAAACTTGATATTCTTATCAAGAATAAGGCTTAAGGTTGATATGCTAAAAAAAATAATATTTGGAATAACTATTTCCCTTACTACAGGCTGCTTTGCAAATAGTACAGCTTCTAATTTATCAAAGAAAGATGTTGCAAAAACTAACGATGTTAATACACAAAAAATTATAGATGATTTTTCTGTTTACGCAGGTACTATAAAACCAGAAGTACGTGAAGAAATACAAAAATATAGGGTGGAAATAGTTGATATTAATAAAAAGAAACGTGAACTATATAACAGACTTTCAAAAGAGGCTCAAAGTTTTCTAGCAGAGCAACAAAAATATAAACAAAAACTATCTATTCCTAAATTACTTATAGAAAATGATCCAAAGAATAATACTGCTAATTCTAAAGATAATAATGACAAAGATATGAAATAAGTTTTCCATTACGAATCCTAAATTTCATCCCACTCAAGAATGATATTGGAAAATGCAGCAACGCAGCTTTTAACTAGGAGTTATATCTTCATAAATCTGCTCTACTACACCATCAAGCCCCATTAAAAAAGTATAAACTTTTAATTGTGGAAATTTTTCTCTTATTATATCACGTGCCTTATTTAAAATTTCTGCATGCGCTACTTTTTCTTTTTCCTTTGTATTCAGATGTTCATTCCCTATAAGTATATTATAAGCTCCACATTCTCTATGATCAAGAAACACAATTTGTTCAATATTATGTAATGCTTGTAAAATCTCAATAGTATCTTCTATAGTTTTTCCCCAATAAGTATATTTTTCGTTAACAAGTGCAAGTGATGCACCAGGCAGTGATACTTTATCAAAAGTATCTTCTAATCCTAATTGCTTCATTAATTTACTTGTTTCGTTTATTAATCTAAAATCGACACAACTAATCAAAATAGTAGAAGCTACTTTTAATGTTTTCAAGTGCTCCTTACTTGCTGCTACCTTTATAACCTTCTTATCTGCAATTACATTATTATGAGCAGCGTAAAGATTTAAACTAGACACAATAATAAAGCATGAAATTATATATTTCATATATATCATGAAATTCTCCTGCATAAAATACTCCTAAAAATATGTCTTACATGCTTTAAAATAAGAATAACCTGTAATAATTGTTAAAAAAGCAGCAATCCATAAAATTATTTCCCCTACTATATCTAAATAAATAATGCCTGAACCTTTTGAACCTAATATCAATATAGATAAAGCAAACATTTGTAAAAATGTTTTTAGCTTAGCAAGTCTTGATACAGGTACACTAACCTTTACTAGAGCTAAAAATTCCCGAAGACCACTAACTAAAAATTCTCGTGCTAAAATTAATAAGCAAGGTATCTCATCTACATTATCCTTCTTTAATAACATTATAGTAACACAACCTACTAATAGCTTATCTGCTATAGGATCAAACATCTTACCAAAACTAGTAACTAAATTATATTTTCTTGCAATATAACCATCAAAAAAATCTGTAATACTAGCTAAAACAAATAATAATGCCCCTAACTTACGTGCAAGTGAATTATTTATATAAAATAGTAATATAATAACAGGAATCACCATTATTCGAGCAATAGTTAAATAATTAGGTAAATTTTTATCTATTCTCATTAATTAAATTTATTAATATAATATTGTTGAATTATCGATAAAATATTATTCCAAGACCAATATATTAAAAGTCCTACAGGAAAACTACTAAACATAAATAAGAAAATTAACGGCATAAATTTCATTACCTGAGCTTGAATCGGATCTGCAAGTTCAGGACTCATTTTTTGATGTAAGAACATAGTAATAGCCATTAAAATAGGCCATGCTCCAATCATCAAAAATGATGGAGGTGCGAATGGTAATAAACCGAATAAATTAAAAATAGTAGTAGGGTCAGGGGAAGATAGATCTTTAATCCAACCGAAAAATGGTGCTTGCCGCATTTCAATAGTTACATACAATACTTTATATATAGAGAAAAATACTGGAATTTGAACAAGTATAGGTAAACAACCTGCAACCGGATTTACTTTTTCTTTTTTATATAAAGCCATAATTTCTTGATTTAAACGCGCCTTGTCATTATTGTATAAATTTTTTATCCTATCGATTTCCGGTTGTAAATTTTTCATTTTTTTCATCGAACGATAAGATTTATTGGCTAAAGTAAACATTAATAACTTAATTATAACTGTAACAATTAATATACTAATACCGAAATTACCAACATATCCATAGAAAAAATTCATAGCATAGAAAACAGGCTTGGTAATTATATAAAACCAGCCAAAATCAATAGCTCTATCAAATAGCTTAATATCATAGCTTTTTTCATATTCATCGAGCAAGTCTACTTTTTTTGCTCCAGCAAAAATTCTGCTTTTAATTGATAAATTTTCACCAGGCTTTATTACTTGTACCGGTGAAATAAAATCTACTTGATATCTTTCAGTACCTTGCTTAAGAGCATAATTAAAATTTGAGCTATAACGACTTGATTTATCAGGAATCAAAGAAGATAACCAATATTTATCAGTAATACCTATCCAATCAACCTTACTTAATGCAAATTTTGTGCTTTTCTTATCTTTAATATCATCATATGAGTATTCTTTAAGATTCTCGTCTATACAACCGATAGGTCCTTGATGTAATATATTTACAGCCTTCTCTAAAGAAATATATTTACGGTTTATTAAACCATAAGATTGGACTGGAAGTTCTTTGTCACTATTATTAATAATGGTTTGCTCTATTGTAAATAAATAATTTTTATCAACAGTGATAGTAACTAAAAATTTAATTCCATCTTCATTAATCCAAAATAAATTAACTGGTTTTTCAGGACTTAATACTTCACTATCACTATTCCATACAGTATTGCTATTAGGAAGTTTTACACTATTTAAATTACTAACTAAACCAATTTCCGCAAAATAGGCATTTTCTGTATTAGCTGGTGAAAACAATCTAACTGCAGGACTATTTTGAGATAAATCTTGTTTATATTTCTTTAATATTAAATCATCAAATCTAAGTCCTTTTAATGCGATGGATCCGGTAAGTGATTCAGATTCTATTTTAATACGTTGCACTTGACTTGCTTCTTGCACAGCAATATCAGATGCAGGTTCGGCTAAAGCTTTCAACTTCTGTTTATTTAAATTTTCTGATTTATGCATAGCAATTCTCTGTTGCTGCTTTTTTTGTTCAGGTTTCACAAAAAAATATTGCCAACCAAAAATTATACTTAAAGATAGTACAACAGCTGCGATTAAATTAATTATATTATTATTCATTATTAATTAGGTCTTAAATTTTGATATTTTTGAAGCTTAAAGCTTTTAAAGCATTTAGAGAAAATAATCAATATATATCTTGTATACCAAAAGTAGCGAATATCCAAAATGTACAATAATTCTCATATTATATTCTATAAAAATTTTATTATACTACTCCTACATTCTGAAATATTTTTAATTTAAATTCAGGGAGTATAGAAATTAAATGTTCAGAAATATTGTCCTGTATATTCTCATAACCTACTAAATTCACTTCTTTAACGAAGATATATATTTCTATCGGTAGACCAGTGATCGTAGGTTCAAGTTGTCTTACTAAAAAAGTAAAACCTTCAGTATAAACTTTGGGATTGTTTTTTAGATATTCCTTAATATATAATTTGAATAGTTTAATATTAGTTAAATCCTGCTCTTCTTTATCAAGAGTAATTTTATCTATTAAATCCTTTGAGATATAAGGAGATTTTTTTAGTTCTTTTAAAAGATTAATATCACAGAAATTAATAGTTGCCATATTAATATTGAATACTCTTTTTATTCGTCTTGCGCCTGATTCAGTAATACCTCTATAATTAGTGACGTTAGAATTTAAAATGCTATAAGTAGGAACTGTAGAAATAGATTGATCAAAATTCCTAATTGTTACTACAGAAATAGTAATTTTTTCAACTATTCCCTCAATTTCACCCACACGTACTAAATCCCCAATATTAATAATTTTTTGAGTAGTTAGTTGTAAACTTGCGAGTAATCCTAAAACAGTATCTTTGAAAACAAATGTTAAAAGAGCTGCAGCTGCACCTAAACTTGTTAAGAATTTACTAAGCGAAATATTTAATATATATGAAATAGTTACAATGACTGCGATAACTATGACAATAATTTTTAATATTTGAAAATACAAACTAAGTGGTGCATTTTTAGTAATGTTCTTGATCTTATTATGATACAAATCTGAAAATGCATCTATAAGCGTTAATAATAACATCGTTACAGATATACTAGTATATAAGATTACTACAGTATCTTTGATTCCAAGCAATACATGAGTTTTAAAAGAAATAGGATGAAAAATATTGCTCCAACATAAAAAGTAAAGTGCTAATAAAGTATGTAATAAATAACGAAATATTGGATATTTTTTTAGTATCCTTTCACAATCATCGTAATGATGTCTTGTTAAATAATTTTGTATAGGAATAAAAATTAATCTTTTAATTAAAAATATCACTGGCATAAGAGATGCCAACATAACAAACAATAATACTAACTCAGTACTAGAGGTATGATATAGATCCGTTAAGTATTGCATATTTTACCTATTATTATTATTATAAAATACAAATCATTTTTTTATTATTACTAAGAATTTTATTTTTATCAATAATTTTAACTCAAAAGCATTTGGTATTACTAAGCAAATATAAATACTGTCATTACAAAACAACTAAGCCATTGCATCAATCTATAAAAAACTGTATTAATTACTTTGTAATTTCCAGCAACTTAGATGTTAAATGAATTAAATAACTTATTTATGATATTGCCTAATATTAATCCAATTATTTTTTCTATAGGCCCATTTTCCATCTCTTGGTATTCTCTTGCGTATGTAGTAGGCATCTTGCTAGGATGGTTTTATGCAACCAAAATTATAGAAAAATTTAAGCCTGAAATTACCAAAAAACACATAGATGATTTCATTACTTATGCAATTATAGCCATAATAGTCGGAGGTAGATTAGGTTATGTTTTACTATATAACCCTTTGAAATATTTTACAAATCCAATAGAAATCCTTAAAACCTATGAAGGCGGCATGTCATTTCATGGTGCTACTATAGGAATAATTATGGCTGCTTATTTATTTTGTCAAAAATATAAGATTAATTTTTTGAGTCTCACGGATATAATAACAACTGTGGCACCTATTGGATTATTTTTAGGTAGAATAGCTAATTTTATTAATTGTGAATTATATGGCCGTATTACAAATTCGTCTTTTGGTATCATTTTTCCAAATAGCGATTTACAGCCACGTCACCCTAGTCAATTATATGAAGCTTTTTTTGAAGGTTTAATATTATTTTGCATCTTAACATATGCAGTATTTAGACATGATACTCTTAAAAAGCGAGGCTTAAATTCAGGAATATATTTAATATTTTATTCGCTTTTCAGAATAATTATTGAAATGTTTAGGGAGCCTGACATCCAGATTGGATTTATTTTAGATAGCTTAACCATGGGACAAATTTTATCTGCACCTATGTTACTTTTAGGAAGTTATTTAATATGTCGGTCGAATCCAAAATAAGACAATTAATTTATCAACACGGTTATATTACTTGTGATGTTCTAATGCAGGAAGTATTAAGCTCAAACCCTAATTCCTATTATAAGCAAGTAAAATCACTAGCTAGCGAAGGTGATTTTGTTACCGCACCTGAAATTTCACAGCTATTTGGTGAAATTATTGGATTATGGTGTATCAGAGAGTGGCAAAGAATCGGTAACCCCAAAAGTCTTAGTTTAGTTGAGCTTGGCCCTGGTCGAGGTCTATTAATGCGGGATTTACTACGTACTGCAAAATTAGTGCCAGAATTTTATAAAGCTTTATCAATTAAACTAATAGAAATTAATAAAAATTTTATTGCTCATCAAAAATCTAATTTACAAGATATTAATTTACCTATTAAACATTTAGCATTTATAGAAGAGATACCACAAAAACCTACTATAATAATAACAAATGAATTCTTTGATACTATGCCTATAAAGCAATATATTAAAGTCAAGGAATTATGGTATGAAAGAATATTTTTAGTACAACCAGTAGATGGAAGAATTAAATACGATAAAATAAGTATTAATAAGCGATTACAAGAATATCTACTACGTACTCATATTGAAGCAAAAGATGGAGCAATACTTGAAGAATCTTATAAGTCGATAGAAATTATAAAATTCATAGCTGAACATCTAAAAAAAGTAAGAGGTAGTTGCTTAATAATAGATTACGGATATGATATAGCCCCATATGATAGGACTAGATATCAATATAACCCAACATTACAAGCAGTAAGAAAGCATAAATATTGTCCAATTCTTGAGAATCTTGGAGAGGCTGATTTATCAGCGCATGTAGATTTTTACTCATTAAAAACAGTAGCTAAAAATAGCAAGATAAATGTAATAGATACAATATCACAACGAGATTTTTTAATACAAAACGGAATCTTATTACGTAAGCAAACATTGAAAGACAAGCTTAATGATAAACAAGTACTAATAATAGAAAAACAAATGGAAAGATTAATATTACCGGAACAAATGGGCAAACTATTTAAAGTATTGCAAATTATGAATTAAAAAAAAATTTAATTTGCATTAGAAAATTTTTTGAAAATAATGCATAATTGATGCTAATATAAATCTTATGCATTTTTACTACAAAATACCTAAAAATAGTAAATCAATTAAAAATGCACACAAAATCTTTAGTGCTGAGCATTTGATTACCATGGCCACGACGAGATGCTACTTCTACACATTTCAGCATAAATTAAAGTTCTTTTATAAGTGTTTTGCTTTTCCATGTAAGATACAAAGTAAGAATCATGTGATATATAGAACTAACATAAACTCGAGAATTCTCAAATTCATAATCAATATCTCGGTACTGAGTCGATCAATTTGTAGATTTTTAAATCAATTAACTTATTTTTTAGATCTGAAATATGTTGTAATATTTTTGGTATATTTTACTTAGTTTCTATATTCTTCATCATCACAATAATTTATTGTTACCATATGTCATAGCATTATAAATTATACTCCATGGCGTTCTGCAATTAAATTTTTTACTCTACCGATAGCTTTAGCGGGATTTAAGCCTTTCGGGCATGTTTTGGTACAGTTCATAATTGTATGACAACGGTAAAGTTTAAATGGATCTTCTAAAGCTTCAAGACGTGCACCTGTATTATCATCCCTTGAATCCGCAATCCATCTATATGCTTGCAGTAAAATCGCAGGACCTAAATATTTATCACCATTCCACCAATAACTAGGGCAAGAAGTAGAACAACAAGCACATAATATACACTCATATAAACCGTCAAGCTTTTCTCGGTCTTTAATTGACTGTAATCTTTCAGAGTTTGAAGGAGCAGGACTATCGTTTTTGAGCCAAGGTTCTATAGATTCATATTGTGCATAAAAATGGGACATATCAGGTACTAAATCTTTCACTACTTTCATATGAGGCAGTGGATATATTTTGATATCACCCGATATATCTTCTATCGGCTTAATACATGCTAAAGTATTAGTGCCGTCAATATTCATTGCACAACTACCGCAAATTCCTTCACGACAAGAACGTCTAAATGTTAGGGTAGAATCAATTTCATTTTTGATTTTAATTAGAGCATCTAAAACCATAGGTCCAGTTTTACTTAAATCTATCTCAAAACTATCGATAGTAGGATTCTCATCAAGATCAGGGTCGTATCGATAAACTTTGACCTTTCGAGGCTTTAGCATTTTCTGTTGTGCTTTATGCTCTCTACCTTTTTTTACTACTGAATTTGACGGTAATCTTAACTCTACCATTTAAATACTCTCTTAAAATTGATTTTATACATTTTGTCTATATCAGAAAAAAACACATTCAACAGTATTTGTTTATGATTTTCTTATGTCCCGTAAAAATCTATAAATTTATACATAAAAATGATAATTGTAATTATTTTTCACTACAAATTACAATTTTTCGCAATTTTAATAATTATTAATTATTTTAACTTTCGTATAAAAATACTCATACAAAAATAGCTAATAACAAAGTATACAAGATCTATGAAATAATATTTTCTTTTTTATCTTTAGTTGATTTTACTTTCTCATGCAAATTTTCTTTATCTATTTTTATAGTATGTGAATCATTAAAAGGAAATTTGTTTTCCTCTTCTGAATCTAAAGCTCTTCCACTAAGTAAATTTTTAATTTGCTGACCAGACAATGTTTCATATTCAATTAAAGCATTCGCTAATGTATGAAGTTGATCTATATGTTTTGTTAAAATATCTTTTGCGAATTCATAACCTTGCGTAATAATTCTTTTCACTTCAGCATCAATTAACTCTGCAGTAGCTTCCGAAATTTCATTACTTGATTGTCTACCATACATATCATCACTGTTTGAACCGTGGAATATTGGTCCTATTAAATCACTTAAACCTGCTTTTGTAACCATCGCCCTTGCAATATTAGTTGCACCTTTTATATCTGATGAAGCTCCTGATGTTACTTTATTTCTACCAAAAATAATTTCTTCTGCTACTCTTCCTGCCATATAAACTGCTATAGATGATTCCATCTGTTCACGATTCTGAGAATATTCATCAGTTTCAGGAAGTCTTTGTACCATACCAAGAGCATTACCACGTGGTATAATCGTAGCTTTATGAATAGGCGAGGCTGCAGGACAATAAAGCCCGACTAATGCGTGTCCTCCTTCATGATACGCAGTTAATCTTTTCTCCTTCTCTGACATTGCAATAGAGCGACGCACAACACCCATCAAAACCTTATCTTTTGCTTCTTCCATATCGTGCATATCTACTTCTTTTTTACCAAGCCTCGCAGCAATAAGCGCAGCTTCATTAACTAAATTAGCAAGTTCAGCACCGGAGAAACCAGGAGTTCCACGAGCAATAATTCGTGCTAGTACCGTACTATTATATTTAATTTTTTTTAAATGTACTTTTAGAATTTGCTCACGACCATTTATATCAGGGTTTGCAACAGCAATTTGACGATCAAATCTACCAGGACGCAGTAATGCACGATCAAGAACGTCTGGACGGTTTGTAGCTGCAATAATTACCACACCCTCGTTTGCCTCAAACCCATCCATTTCGACTAACATTTGGTTTAAGGTTTGCTCACGCTCATCATTGCCACCTCCCATACCAATACCTCTATGTCGCCCTACAGCATCGATCTCATCAATAAAGATAATACAAGGGGCATTACGTTTCCCCTGTTCAAACATATCGCGCACGCGGCTTGCGCCAACACCTACAAACATTTCAACAAAATCAGAACCAGATATACTAAAAAAAGGTACATTAGCCTCACCTGCAATTGCTTTCGCAAGAAGTGTCTTACCTGTACCAGGAGGGCCGATAAGTAAGCAACCTTTCGGTATTTTACCGCCAAGCTTTTGAAATTTACTTGGATCTCTTAAAAAATCGACTATTTCAGTTAATTCTTCTTTTGCTTCATCAATACCCGCAACATCTTTAAAGGTAATTTTTGGTCCTTTATCTGATAACAATCTAGCTTTAGATTTGCCAAACCCCATGGCTTTCCCGCCACCGTGCATTTGACGCATAAAGAAAACCCAAACACCTATTAATAAAAGCATCGGAAACCAAGAAATTAAAAATCCTAAAAAGGTATTCATTCTTGTTTCAAGCGGCACTACTTCAATATTAACGTCATTGCTAGTAAGACGATTTACTAAATCAGGATAATCAGGAGAATACGTACTAAAAGTAGAGCCGTCATTTGCAGTACCTTCAATTACTCTACCTTGAATTTTTACTGAATTAATGGTCTTTTCGTCAACTCGTGTCAAAAAATCTGAGAAAGTGATATTATTTCTTACACCAAGTAAACCATCAGATTGAAAAACATTAAAAAGTAATATTACAAAAATAAAAAGTGCTGCCCAAGCTAAAATACTTCTACCTTGATTATTCATCGATATAAAACCTAATAAAAATTTTATCGGTACTATAATTTAATACCGGGTTAGCAAAAATGGGTAAAACGAGATACAAAATTTGGAGCAAATGATACTTCAAAGTTCCACACGTCGTTATCATAATATGATATATGTGGTATTGCTATAACTTTTTCAAGTATTTTAATGATAGGTAAGGTAAATAAAATTGCATTGTGGTTTTTGCAGGATAAATTTTTTAAATGTTTTAAATCTAATTGTTTCTTTATAGCTTTATAATCTGCTAATGATAAATAAGTTATAACACAATCAGGAGTTTTTTGATTTTTGGTTATACAAAATCTATTATCCCAAATAACTGATTTATCTAATAAGATTTTACTCTTAGGTAATTTTTTGCCAAACTCTCTATATATGAGTAACTCATTTTGTATACGCTTAATTACACAACCATGAACTGTATTCTTAAAATTTATGTCTTGACTAATTAATTTCAAAATATGTGCTATTGAATAGAAACGTGCTGATCTAGATTGTCCACTAATCATTATCAGTAAAAAATTAATTATTTGTGCTTTTACTTCATTTAAAAACTTATCAAATTTAACTAAATCAAGAAATGTAAAACCATATTCAAAAATCTTAACTGCTTCAGCTATTGCCGATATTAATGCAGGCTTCAACTCATCTTCTATAAGCTTGTTAGTTTTAAGTTGTTGCAAACTTATCTCTGCTTTAATATAATTTTCTTCTTTAAATAATTTTTGCCTAATAATATTACGTCTATATTTATCTGATAAATTTGACTCATCTTCAAACCATTTGATTTTATGGTTGACTAAATACTCTACTAATTCACTCTTCGGAATATTATATAGTGGTCTAATTATTTGTATATTATTATACCAATGAATATTACTACTACTAAGCCCAAATATACCGCTATTACGCTCTAATCTTAAACAAAAATTTTCTACGTAATCATCTTCATGGTGAGCAGTTAAAAGTACTAATACATCGAGTTCTAAGCATAGATTTGTCATCAAATCATAGCGCCCCTCTCTTGCTCTTTCTTGTAAATTTGAAAAATTATTTTGATGATCAAAAGATAAATTATAATACTTGCGATTTAAATTACTACTGATAGTATGTATATAGTAATTCTCTTGCTTTGACTGTGGCCTTAAGTTATGATCAACTGATATAACAAATAATTCTATATTATTTTTTCTGGCCCAAATATTAGCAAGATAAAGTAGTGATATTGAATCACTACCACCAGAAACTGCAATCGCTATTTTAGATAATCCAAAATTACCTATTAGATTATTGATATTATATTCAAATTTTTCATATAACATAGGTATTGAAGGATGTTAGTATTGTAAAATATTCGTGAATACTGTGATCAAACATAGTATGTCATTAAACACATAGAATTGTTGCGTGGATCTGATATATATCAATTCAATTAAACAATAATAATGCTATATTTTGACAATAGTAACAATAAAGAAACTTATGCGGTTTCATCTACATCTTCTAAAGTTTCAGCTTTTTGTTCACGTAAATAATCTTGCGCTTCTGACTCTGATCTTGCAACAACAACCGTAACTATAGAAGTAAGCTCTGCATGGAGCCTTATTTCAACCGTATAAATTCCAGTAGATTTAATTTGTTTATCAAGAATAATATTTGAATGAGAGATATTATACGATATATTTTTAGATAACTTATCAGCTATATCTTTATTAGTAACTGAACCAAAAAGCTTACAGTCATCTGATGTTTGACGGATAAAAACTAATTGCTGATCTTTAATAATGGTATTAATTTTTTCTACTTCTTCTCTTACTTGCTTATCTTTCTCTTCAAATTCGTATTTTTGTTTAACTATTAATTCTTTATTAGACTTAGTAGCTCTAATAGCTAATTTTTGCGGTAAAAGATAATTACGACCAAACCCATCTGCCACTTTGAGTATGTCACCAATTTTACCTAATTTTCTTACAGGTTTTATTAAAATAACTTCCATGTATTATGCCTTTATTTAGCTTGAAATACAAAAGGTAACAATGCTAAAATCCTTGCAATTTTAATAGCATTATTTAGCTTTCTTTGTTTCTTTGCACAAACATTTGTGATCCTGCTTGGTAGCATTCTACCGCCTTCAGATACAAATTTTATTAAAAGCTCAGGATTTTTATAATCAATAACAGGTGCATTAGGTACAGAAAGAGGACATCCTTTACGTCTTCTAAAAAATACCTTTTTAGCAGCTTTATCTACTCCCTTGGAAGTAGCTGTTTCACTAGCATTATTACTTTTTAACATTCTTTAACCTTAATTCTTACAAATTTAATTATTAATCGTTACGTCAATTACCGGGGTGTTCTCTGTACTCTGATTTTTTAATATCGGCGAAGGTTCACTGCTAATTGAGTCTGCTTTAATTGTAAGAAATCTAATAATATTCTCATTAAGTTTCATTTTTCTTTCTAACTCTTCTTTTACATTACTGGTAATATCTATACCTAAAAAATAATAATGTCCTTTTTTATTATTACCAATTTTATAAGCTAAAGTTCTTAACCCCCAATATTCTTTTTTTATGATAGTCCCATTATTATCTTTAATGATTTTAGTAAAATCATCAACGATTTTATCTATATCGTTTAATGATACGTCCTGTCGTATAATAAAAACTGATTCATAAAAGCTCATAATATATAAGAATCTCCAATAAACAAACTTTAAAATAAAGGTATTTATAGCAACTAAAACTATTAAATTCAAGTATTATCTTCAAAAATTAAAAATCTTATTAATTTGTTGATGTTATACAAGGTTTACTGTAAACAATATTAATCAACAGATTATTTAAAAGTGTTTGATATTAAAAGAAATGACATAAAAAATTAAATAAACAAAGACAAAGGCTTAATAAGCATAAATAGAAGGATTTAATATATTAAAAGGCTGCAACTCTAGTCAGCAGCTTTCTATCATGATTATGAATTGTAGCATTACAAAAAATTAGCAATAAAAAGTTAATAAATTTGCTAAAATGTTTCAATAAATTATCACACAAGCAACTAAATTTAACAAAAAAAGATAATGTGTTATTTTTTAAAGCCTTACTTATTTGAACAGAACGTTAAAGAACTTATTAAAACATTCTAAGGAAATTTTAGAAAAATTTATAAACAGATATACCAAATCCTTTTTTGTGATACTGAGTATAGCAAGTATGCAAATCAATTTGAATATAAATAGATCTTTAAGTCTGATATTTAGGATTCATTAAAATGAAGGAATGAGATTAAGAAAAGAGCACTTGATTTTTAAATTTACTAGTTTTATCTAGCTTATTGTTTAAATTAAAGATAACAAGTGTTATCAAAATTTTCTTTGTATTTATGTATTAAGTATGTTAGTATCTAATTAAATTTATGTAACTAAATTAAGTTTATCGTTACCGCATTGTATATTTGATCACTAAAACTGTAAATGTTATGTTAAGTAAACTAAATAAACCTGCTTTATTTGCTTTAATATTTTATCCTGTTTTTATTATATCTCTTGTAGTTAAATATTCGTTTGATTATGGGATAGGATTAACTGAAATTATTTTCATAATTGCTAGTTATTATATTAATAATATTACCGTTGGGATTGGTTTACACAGATTATGGTCTCATAATGCATATAAAATAAATAAATATGCTGAGTTTGTTTTAGTTATGTTATCTGCAGGAACATTGCAAGGACCGGCTTTATCTTGGGCATCTAATCATTATAAACATCATGCTAAAACAGATACGGATCAAGATCCACATAGTCCTCTAAAGTTTGATAATAAGGTTTTAGGATTTCTTTGGTCACATATAGGGTGGATGCTAATAGGCAGCGGGAGTTATAAGTTTATTGATCGCATTACTTGGGCTAAGCTTGGTAAAAATAATTTACTAAAATGGCAATTAAAATATTATTGGAAGATAGCGGCTTTTATGAATATTGTAGTACCTTTATTTACAGGTTATTTAGTTGGTGGCACTATAAAATCAGCATACGCAGGATTCTTATTTATTGGACTTGGGAGATTCTTACAACAACAAGCAACATTTTGTGTTAATTCTCTATGCCACTTTGTCGGGAGTAAAAAATACTACAGAGGTACTGCTGGAGACATTTGGTGGATGGCATTATTCTTACTTGGTGAAAATTGGCATAATTATCATCATGCTTTTCCTTCAGATTATCGTAATGGTGTCAAGTGGTATCATTTTGATGTTCATAAATGGATAATATTTTTAATGAGTAAAATAGGTTTAGCTTCGGAGCTTGAACGTACTACAAAAGTACGTATACAGGCAAAAATGCAAGAAACTTTAAGCTATCTTAGTGAGAAACAAAAGCAAAAATTGAGTTTAATGCAAACTAAAATAGATAATTTATTAGAAAATCTATGCTTAAAAAGCAAAGAAATTGAAGAATCCTCTCTTGCTATTAAAGAACAACTAAAAAAATCTTTTGTAGAAATACAAGAATCACTTAAAAATTTAGCAGAGCAAGTAAGTTCTGCAACGCAAATAACAGAAAAACCTTCAGAAAAATTACTAAAAATAGTGAATAAAAAAATAATTGATGCTGAACAATCTATTTATAAACTGTATAATCAGTTGAATACCTTAAAGGTATAGTAGTTAAAATATAGGTACATAATAGACCTATCATTAGGATCTAATTTTTATCAAGCAATGGTTTGACACCATATATTTATCAATCCACACAACTAATACTTTTGCTAATACCAATTTTAATAAATGAAAAAAATTTTAGGTATAGAATCAAGCTGTGATGATACAGCTATTTCTATAATTACCGAAAGACGAAAAATCTTATCTAATATAATTATTTCACAAAATACAGAACATGCAGTTTTTGGAGGGGTAGTACCTGAAATTGCTGCACGTTCTCACTTATCGAATCTAGATCAAGCATTAAAAAATGTTTTAAAAAAAAGCAATACTGAATTAACAGAAATTAGTGCAATTGCTGCAACTTCCGGTCCAGGTTTAATAGGCGGTGTTATAGTTGGTTCAATGTTTGCAAGGTCACTAAGCAGTGCTTTAAAAAAACCATTTATTGCAATTAATCATCTAGAAGGTCATGCCTTAACAGCGAGACTCACCGATAATATTTCTTATCCTTATTTACTCTTATTAGCTTCTGGTGGACATTGTCAATTTGTAGCAGTTTTAGGACTCGGGAAATATAAAATTCTAGGGACTACTATAGATGATGCTGTAGGTGAAACATTTGACAAGGTTGCAAAAATGCTAAATTTATCTTTTCCAGGAGGGCCTGAAATTGAAAAAAGAGCTAAATTAGGCAATCCTCATAAATATAAATTTCCAAAACCTATAATTAACAGCGGTAATTGCAATATGTCCTTTTCAGGGCTTAAAACTGCTGTGCGTACTTTAATAATGAATTTAAAAGAAGTGAATGATTCTGTAATTAATGATATAGCAGCAAGTTTTCAATTTACCATAGGAGCGATTTTAAGTAGTAAGATGCAAGATGCTATTAGATTATATAAACAAATTTTAAATGATTATTATGAGGATATAAATCATCCTACAAAGCTAAATTTAAAAAGCTTTAGAAAAGATGAATTTAATTGGAAACCTTTGGAGTGTATAACAAGACCTAAATATAGGATACATATACAAAATTCGTATAGGTCAAACTTGTTAAATGATACTATAGTAATTGCAGGTGGTGTTGCTGCTAATAAATATTTACAAGAAATATTAAGTGATTGTACTCGCCCATATGGTTATCGTCTTATTGCACCACCTATGCATTTATGTACCGATAATGCTGCAATGATTGCATATGCAGGACTTGAGCGTTACAATAATAAACTATTTAGTCCTTTGGATTTCTGTCCAAAAGCAAAATGGAGTTTAGAGGATATATAATTTATACTTTTCATGAAACATGTTCATTATATACAAAGCATATGTATTTTATGCTAAAATAATTTTTAGAACTAATGTAGTAACGGTTAAAATTTAATATTGACAATACAATACTTCTCAATAGTTTAATATAAAAATATCAGCAGCTACTAAGAGGGAATTCATCTCGATTTTATATTCAATATAAATATTAGAGTTGTAACTCTTTAAAAGATTACATATTTAAATGATAAACCTCTGATTTGTGTTGAGATTTTAAACTTGGAATTGACTCATTTTGATCATGAGCAAGTATTACTAAAACACGTTGCATTTCATAGAATTTTATTCATTATTTCTTTGTAATCTTTCAACAATACTCTAGCAATAATACATCTTATTCGTTAAATTCTGTTAGCTCAGTACATTTATTTTAATATCTCTGCCGCTGTTTCTTAATCTATTACATCACAACTCTGTTCATTAGATTGTTATTTATTCCAACTTATTTTTTAGTGAGCATGGTATTGAAAAGTAATAAAAAACAGTAATGCAAACTATATACATTATGTAATAATTTAGTTATCATATAAAGTACAGCACTTAATCAATTATATTGATACTTAGCTCTTCCTTTTCTCTACGTATTTTTACTGTATTACCACTACTTATTTCACCTGCCAAAATCATCTTGGCTAAATTATTTTGTATTTCTCTCTGAATAAGACGTTTTAAAGGTCTTGCACCAAAACTTGGATCATAACCTTTTTCAGCTAAATAATTTAAAGCAGATTCATCAAATTCAAGAATAATATTCTGTTGTAACAAAATTTTCTTTAAGCTTCCAAGCTGGATCTTAACTATATCATGAATATTATTACGATTTAGACGATGAAATAATATAATTTCATCTAACCTATTTAGAAATTCTGGTTTGAATACTGCTCTCACATATTGCATAACCTCATCCCTTACTTTATATGTATCTTCACCCTCTTTCTGATTAACTAGTATCTCAGCACCTAAATTAGATGTTAAGACTATAATAGTATTTTTAAAATCAACCGTTATACCTTGACTATCTGTTAATCTTCCTTCATCAAGTATTTGTAACATAATATTAAATATATCTAGATGTGCTTTTTCAACTTCATCAAATAATATTACTTGATAAGGACGGCGTCTTACTGATTCTGTTAACACTCCACCTTGATCATATCCGATATAACCTGGTGGTGCTCCTATCAGACGAGAAATAGAATGCTTCTCCATATATTCTGACATATCTATACGGAGTAGAGCATTACGGTCATCGAATAAAAAGCCAGCTAACGCTTTAGTAAGCTCAGTTTTACCCACACCAGTAGGTCCTAAGAATAAGAATGAACCAAGAGGACGATTAATATCTTGAATCCCTGAACGTGATCTTCTAACCGCATCACTTACACCTTTAATTGCTTCATCCTGTCCTATAACTGATTCACACAGCTTCTGCTCAATCACAAGCAAACGCTCACGCTCACTCGATAGCATCGTATCAATTGGAATACCAGTAATACGTGAGATAATACTTGCTATATCGCTTTCCGATACAATTTCTTTTAACAGCCCTTTATTATCCATATTTTCAGCTTCCTGAAGCTTATTCATAATCTCAGGTATGATTCCGTATTTTAACTCACTCGCTTTAGCGAGATTAGCATCACGCTCAGCCCGTTCTAAATCGATTCTAGCTTGTTCTAATTCTTCTTTAAGTTTCTGAGCCTGCTGTAGTTTAGATTTTTCCGCCTGCCATTTAGTATTCATATCATATGATTTAGATTCTAACTTTTTGAGTTCCTCGGTTAAACTAGTAATTTTCTTTTTAGAATGTTCATCATTTTCCTTTTTAAGCGCTGCAAGCTCAATCTTTATCTGAATAATACGACGATCTAACTCGTCAAGCTCTTCAGGTTTACTTGACAATTCAATTTTCATACGACTACAAGCTTCATCAATCAAATCAATAGCTTTATCAGGTAAATAACGATCGGTAATATAACGATTCGATAACGTCGCTGCAGCAACTATTGCACTATCAGAAATTCGCACAGCATGATGAAGCTCATATTTTTCTTTAATTCCTCTTAGTATTGATATCGTATCTTCTACACTAGGCTCACCTACATAAACAGGTTGGAAACGACGAGCAAGCGCAGCATCTTTCTCTATATATTTACGATATTCATCTAAAGTAGTAGCACCTATACAGTGTAACTCACCACGGGCAAGCATAGGTTTTAATAAATTTGAGGCATCCATAGCACCATCAACTTTTCCAGTACCAACTAATAGATGCAATTCATCGATAAACAAAATAATTTCACCACTTGATTCTTTAATTTCACTAAGCACTGCTTTAAGACGTTTTTCAAATTCACCTCGATATTGAGCACCTGCTATTAATGCTCCTATATCAAGCTCAATAATACGACAGTTAATAAGTGTTTCAGGTACATCCTTACTAAATATACGTTGTGCAAGCCCCTCTATTATAGCAGTTTTACCAACTCCTGGCGCACCTATCAATACAGGATTGTTTTTCATACGTCGTGATAACACCTGCACTGCTCTTCTTATTTCTTCATCACGCCCGATAATCGGATCAAGCTTACCATTTTCAGCAAGCTCTGTTACATCTCTACCATATCTCTTTAGAGCATCATAATTATTTTCTGCAGATTCAGTATCTGCTTTTTTGCCTTTACGAAGATGTAAAATAGCTGTGGCTAGTTTTTTACTATTAATCCCATTATTCGTTAAAATTTTACCGGCTATAGTATTATCATAAGTTAATGCTTCAAATATACGCTCTATTGTTACAAAACTATCCCCGCTATCTTTAGCGATACTACTCGATTTTTCTAATACTTTCAGATCTTCAGCAGAATAATAAATTTGGCCACCTCCATCAACCTGAATTTTTGGTATTTTATTTAACTCTAGCTGCACTTGATCTTTTAATAAGTTTATATTACCTCCTATATTATTAATCAGGGCCTGAATTATACCTGTTTCTTCACTTAAAAGACTAGATAATAAATGCAAAGGTAATATCTGCTGATGATCATTTTTAATAGCAAGAGATTGATGATTAGCTATAACTGATTTAGCATGTGCAGTAAATTTATCAATATTCATATAAATAACATATTTTCATTAATAAAGTGCAATATTTTTAACTAGACTATTTTCATATAATGATTTTTAATTAAAATAACAAGAGATACATAACTGCATATAGAATATTATAATGCTTGAAATATTGAAAAATCAAAAAGAGATCTCAAAAAAATATGAAAGATAAAATTGATAATATTACTTTGATGAATTGCTAGGAAAAATTGTATTCAAAATGCTTATAAAAAATTAAATGTTACTAAAGATTTTATATGATATACATAATCATAGTAAATTTGTCAAAAGTTACAAAGTCCGATTACAAAGAAAATATTGCTTATATATAAATATACACATACATATGGCTCGATTTCAATGATATACAAAAAATGAACTTTATTCTAGGCTCAAAATTGATTGAAGATGATGTTACTCTTAAATACTAATACATTATTAGTTTATAAGATCTGGATACATCAATTATTGATCAGAGGAAAAACTATGAAAAGGTGTACACTGCAAAAAATTCTTTTTATATCTTTGGATAAAGAACATTAATATAAATAATATAACAGAAAAATAAGACAAAAGAAAAACATTAATTTGATAAATTAACCTCAGGAATAAATATTTTAAAATGTGTTCTAGTCTTAAAGTTAGAGAAAAACTTAAATGAACATTATCTCAAATATTTAATATACCGATATAAAATAACATGAATCTATAAAGCATTACTTTAAAAGTGTTATATTGCTCAGAAAACAGATAGTATTCCAGACTATGCAACAACCAGGTTAGTTAAAAAACAAAAAACCATTACAAAAAGTGGCAAAGAAACACTTACTACTATAATAAATTCACTGCTAAAACTAATTAAAATTAAATGAGGAAAAGAGATAGAGTATGAAAACAATCATCATAAAAAATATATCGCAATATTAAGCGATATGAAAGTTGTTAAATCGTTTAAAGTGATATTATGATTTTTTAAACACCACAACTAAACTTAAATTTAATAAAAGGCAAAATATTAGGTATGGAACAATAATGTCAGAAATTGCAATTGTAACAGGTGGCACTAGAGGGATAGGGAAAGCTACTGCTTTAGAATTAAAAAATAAGGATCTTACGGTAATTGCTAATTTTTTCAGTAATTATGATGCTGCTAAGGAAATGGAATCAAAATATGGTATAAGAACTAAATGCTGGAATGTTGCAGATTTGGAAGAATGTAAAAAAGCAGTAAATGAAATTGAAGAGGAATTTAAAAAATCAGTAAGTATTCTTGTTAACAATGCAGGTATTACCAAAGATAAAATGCTACATAGAATGAGTAATCAAGATTGGACCGACGTTATTAACGTTAATCTTCATTCTTGCTTTAATATGTCTAGCAGTGTAATGAAACAGATGCGCAACCAAAATTATGGTCGTATAGTAAATATCAGTTCAATTAATGCCCAAGCAGGACAGATTGGTCAAACTAATTACTCTGCTGCTAAAGCTGGGATCATTGGTTTTACTAAGGCTCTTGCACGTGAAACTGCTTCTAAAAATATCACAGTTAACTGCATAGCGCCAGGATATATTGCGACAGAAATGGTAAATACAGTACCTAAAGATATACTTACTAAAATAGTTAATAGTATTCCTAAAAAAAGACTAGGACAACCTGAAGAAATAGCTAGAGCAGTAGCATTTTTAGTTGATAAAAATGCAGGTTTTATAACAGGCGAGACTATTTCAATCAATGGTGGCCATAATATGATTTAAACAATTAATATAAATTAGAATTATAGCAAAGAAGTAAATACCTGAATCTAAAATAATAAAAGGCAAAAACGGACTACTACGCAGTGTAAAAATATTTTATGTTCCAATTGATTTTTTTAAACCACTATTGCAAAAAGTAATACTTTATTCATCAATCAGAAAAGCAGTTAAAGATTTGCTTAATAAAAATATTCTCCTGATAAATTTACCGTAAACGAACAAGATTGATTTATTCTTGACATATAAATATATAGATATCCTTGTTAGGAACAGCAAATTATCAATGAGTATCCGAATTGATTTTTTATGCGAGAGATAATTAAACATATGTATTAAAAATAAAAAACATTAGGTACAATAAATTCCTTGAAGACTGCTTATGTTATTGAAAACTTACTTCTTAGAAGAAGAGCTTTTAAAAGTAAAAACATAACTGAATGCACCAGAGCTTTTATTGAACTTAGCTATTCTATATTTAAACATAGATGATAAATCATAATGTACAGACAACAATTAATACAAGTTAGCAATAAACGAACGAAAAATGACTAGTATATATCACATCCTTGATCGTATTCCTGCTATTTATAAGCAAGACATGGAAATAGAGTATGAATATTTGGCCATGCAGTTAATCAAATCCGGTAAATTACGTATAGATACTAATGATTGTTGTAATTTTGCAAGATTTACCGATCCTGCACTTAATATAAACTTAATGATTAGTAAAGAAGAACTAACGAAACCACATTTAATACCTGAGACTACGAAGCTTTTCCAAAGCTTATACAAAAATTCTGCTTCAGATCAAAAAATAAATTCAATCTTTGATAATTTAAAAAAACAAATACAAAAGCTACAACCAGTTAAGAAAGAAGTAACTGAAATGTTGGCACGCCTTTTTGTACAATCTGCTCACCCAATCGTAATAAGGTGGCTTCTTCTTAATAAGACGGAAGTATTCCTTACATATTCACATAATATAGGTGATATGATGGATATTGTTAGCTGGCAACGAGTAGGTGGTAATAGCGGTATGCAAAGCACTAACGGTAAGGACGTAGCTATTTTTGTCTCATGCGGCGGTAATCCTTTTGCTGAAAACAATAAAGAGCATCCGAGTTATGGCGATGGCTTTGCTGCAGTAGCAAGACTTCAGATTATTGCAGCTCAAGAACTTGGACATTTTGCAGATATAAAAAGAGATGATAAAGGCAGACAACTAACGCGCCATGCAGCTAATTTTTCTGGTACTAAAGCTACAGATAAAGTACGCATTGCTAGAAAAAGTGATATAATACATTGTAATAATTTGTTTAATAAGCTCCTTAACGCAGGAATGAAAAAACAACTAGAGTATGAAACAAAACTTAAATTTTATAATACAAATAAAATCAACGGTGTAAAAGTTAATGCTATAAAATGCATGATTTTGATATATAAATTTCGGCTTTTAAATTATAGCAGTAAGAATAATCTAATATTTATAAGAAAATTTAAAACTTATAAATATATGGCATTAATGCTTGAGGCTATGTTTAAAGATATGCAAGATAATTTGTCACCAAACGCTGAAGTTTATAAAAATAAAAATCCTGAAATTGAAGAAGCTATAGCATGTATTGAAGCACTCGCTAGAGTGCCACAACAAACCATAAAATGGGGATATTTAACTACGAAAGAAACTATGCATCACCTCTATAAAATATATTATAATGAGGTTATACCTTCTTTAATTACTAGCTATAATTCTTTCACTGGTGAAAATTATAAACGTAATTTAAAAAAACCCAAAAGTAGCTTCTTTTCTAAAATCAATATCTTTAGTAACAAAAAGCTAATATTAAAACCGGTTAGGGAATTATAATCTATTTTAGTATGTAATTATTGTATTTTGTATTGATTAGAAAATTCTTTCATTATGCACTAAGTGGCGCAAGAATTATGACATAGATAACTTTATGGTATTTCCAGTTGCGTAGGCATGGTATAATTATCTTGTAAAAATTTAAACACGTGGTCTAATTTTAAACGCTAAAAATTATTATTAGGCCTTTGAGGACAGAGGTATGATTTACAAACTCAATAATGACTAATTATAGCTTTGAAAAATAACACATTATTAATCATCTATATTAGAAAGTTCATCCTGTAATTCTTTAGAAAACACATCTTCAATATCGTTAAGACTATTTGATTTCTTAAGGAAATTTTTAAAATCTTTATTTTTAAATATTTCAATAGATCCGAAAATATTGTTTAGCATTATAACTATAATTTTTCTACTTAATTCATCTAAATAATCAGTAGTAACAGAAAATTTCAGTACTCCTCCATATTTGTTCTGCTTGCTACTTATTACAAAGTCTTTTAAAGATTTACTTTGAAAATAATTTTCAGAAGTAAAGATCATTGTTATCAAAAATAGTACTAACGATATAGTACTACCTAAGACAAATCCTACTAATAGCCCTAGGAATCTATCAATAAAACCGTTTCGCATAAACGAAATTATAGCAAGAAATTTATAAACTATAAAAACACATAAAATTAAAGAAATAACATAAGATATAACACTGGTAATAATGATGCTTATAACCTCATTCTCAATATATTTCACGATTTGTGCAGAAATATATGGATATAAGAAATATCCTAACATTATAGAAGCAATAAAACCTAGTATTCTAGTTAAAAAACCGACTATACCTTGATATAAGCCAAAAAATGAGAAGAGAGTAATAATAGCAAAAATAGTAATATCAAAAAATGTGATCATTATTGTTGAATAATTGGATTTAAATATTATATACTAATTATTATAATTAAATTTTTATTTATGTGCGATAAAATTTTTCATAACTTATCCGGTAAAACACTCGTTGCGACACCGTATGTAATTACAAAAGGCATTTACCATAAATCCTTAATTTATATGTTATCACACACAGAAGAAGGAGCGATAGGATTAATATTTAACCGTTTAGTAAATCATGTAGATTTGAAGTCGTTTTTTAAAATAAAAGAGGATAAAATAACAAGCCAGGTTATGGTTCCTATATATCTTTGGTGGGCCTATAGAACATGAAAAAGGATTTTTTCTTCATTCTAGAGATTATAATAAAAATTTGTTATTGGATTTCCATAATGATTTAGCAGTAAGCTCTAATCTAGAAATTTCAGAAGATATAGCTTTTGGTAAAGGACCTAAAAATAGCTTATTCATTGTCGGTTATACAGCATGGAAACCAGGACAACTTGAAGAAGAATTAGAAAAAAATCTATGGCTGGTTATGGATTGTAGTAAAGAATTTATTTTTGCCGAGAATCCTGAAAATAAATGGCACAATGCATTAAAACATCTAGGCATTGATGAAATATATTTTTCATCACAAATAGGAAATGCTTAAATATTAGCCATTTTTTTATGATCCTAAATAATAATGACTTAAAATTTTCCCATCACTGCTAATTAAGTATACAAAATTAGAATGTTGTAATGCATACTCATTTGTTTTTACATCAAATATTTTGGATGTATAAAAGACCTTAAATTGCTGTGCTAATTGTTCAATATCTTGTACTCTTCCAGTTAAACCTATAAAATTACTATCTATTTTTTCTAAATATTTCTTTAATACCTCACTTGTATCATGTTCAGGATCTAAAGTAATAAAAACTACTTGTAATAAAATATTCTCTCTCTTCAAAATCTTAATAATATCTTCTACTCTTTTAAGTGCTTGATTATCATACAAGGAATACGTAGTGCCAAAATAAATCAAACTTAAATAACCTTGCAAATTTGTACTATCAAATTTTTTACCTTGTTGTTCTATAAGAGTAAATTTAATTTTAAGCGAATCATCCATATTACTAGTTTCCTTAAGCTTGGACGTAGTTAATGAAGAATAAAATAAATATAAAAATATTATGCCCGTGATCATAGCAATGGCTATAAAAATTTTTATAAAATACATTTGGTTTTTATTATTTCTCATAGTAATTATATTAATATTTATTTATAATAAAAACTTATTCTTATTATATATGCAATAAGAAATATCTTGTACTTTCACTATTAAATCATGATATCTAAAAAAGAAGAAATAATGTTAATAGAAAATATTATTAACTTATATTGATGAAACAATAGATCTATAATAAAGTAAAAATTTAAATCTTATAGCTACTCATAACTAATTTTCTAGAAAGTCATAGATATGAAAACTGAGACCGCTCAAAGAATTGTAAAATATAAGAACGTCAAAGATTAAACGCATGAAAGTTCTTATTTCATCATCCTAAACCTATTATCAATAAATTTTCCTTACAGAGAATGCGCAGTATGACTCCTAACCATTAATAATATAAAATACTAACCTTTCATTAACAATCTATAAAACTTACCAGTAATTTAACAATTTACTAAATTAAATAGATATATCAAAGTAGTGACAATAGTCCAATAAGCAAACAATAATAATTGTACATTTAAAATTATTAATGACAATAATAAAACATAATAGTTTTAGTGATGCATAAAAGTTAAAAATAAAAGGTTCTTTAAGTTAAGAAATAAAAAACTATTATCAATATTACATTATATAATTCCTATTATAATAATTAACGTTAGAAATAACACATATACAATTAGTACCAATAAAATTGGAATAAAACATAAAATAATTAAAGTTTTAAATATGTTTTTCATAAAACAGATAAATTGGAACCATATATTCAGTTCAAAGATCATGATAACTATAAGATATTTCTTAGAAAGAATTTTTAACCAACTATTAAAAACAACGGGATAAGAAAATAAATTAGAGCACATTCTAAATTGCCTAAAATATTCATCCAAAATCAATTTTAAAAAGAAAATTTTGTTATACTTAATTCTGTAAAATGATTTAATGATTAATTTAATAGCATTTAGATATAAATATAAAAAATCATTTAAGTAACAATAATTCAAAGATAAGAATTCATTTTTGCAAATTAAGTGAGATTATTGAAAAATTTATGAAGATACCACAAAAATATAATTGTAAACTTAAAAGTAATCAATAATATATAATTTTAAAATTTTTACACCATATTAACAATATACGGACTAAAAATTAAGAAGATATTAAATTATTTCAAACAAAGAGCTTTAAGAATTTTAATATATTTGCTATAAAATCTCGATAAAATAATATTTATAAGCTTTTATAATTATCTGATCATAAGCTATCTATTTACAACTTACTCATAAATCTATTAATGGTATAGTGATCAAGAAAAAAAGTTATACAAAGCTAAATTAGCAAAAATTTATTATTAACAAGTATAAAACTTTAAACAAAATGGCTGAACAAAACTATCTAAATAATTAATAGAATTATATACTGCTAACACTGTTTCTTAGGATGTTATTTGGGTAGATTTAAGAGCAGAAATTATATAAAAGCTTTAGAATATTTAAACTGCTACTCATATCTTATGCAAAAGAAGCTTAACAGCAGAACTTTAAAAAATAAAGCACACAGAAGATCTAAACCTTATTGAATATAATATTTATCTAAAGAGTTAACTTAAGCAAACAAAAATTTTGTAGAAAAACTAGAAGCTTACAGATAATAAGACAAATCGATCATAATGATTAAGACTTTAAAACATCTTTAGTTAAGTTTGATTAACCTCAATTCTATTTAAGAATATGATATATTTTGCATCCTTAAGAGGATTTAAATAAGAAAATTTAATATCTCTTAATACAATTTTTATAGACAAGTAGAAATGTGGTGCTAGTATAAAAATAGCTATATTTAACGATGAATTAGATTATGACAAATAATCAATTTTCTGAAGATACAAAAAAAATTGCTGATCAAATAAAAGATTCATTAATAGGTATTAGTGACAATCTTGTACTTGAGAGCAAAGAGGTAGAGGAAATTTTTGAAGAATTAAGCAAAAATGAAGAATTTGATTATGAGATAGAGCGAATACTTGCAATCTTAAATGAGCAAACTATGGATTTAACACAACTGCAAAGCAGAATTATCTTATTAATCCGTAAGTATTTAGATAAAACTAAAAACTTAAAGCTTAAAATGGATGAGAAGCTCATTAACAAGAATGTTGCTGAAGTCAGTAATTATTTAATGCATCAACATTCTAAAATAGTTAGAGATGCTAATAAAAACCTTGCAAAACCAAAAGACAAATTGCAAAGTTTAACTAAACAAGCTCGAATGGACTTAAAACGTTTAATAAAAAGCTTTGCCGTTTATCAGGTTTATATGTTCATGAATCCAAAAAGAATAGCAGGCGAAACGAAACTAATGAATTTCGCATATAACATGATAAAAGGCGGGATGAAGCTTGCTAAAAAATATGAGGGCGGTAAAGAAAAAGATATTAAATCATATTCACCTAGACTTATTAAAAAACTTGAAAAAGCTCATGCAGGCTTTAAAAAAAATAACAGTATATCAATTTAATTATTAAGAGCCTATACTAGGCTCAGATCAATTTAGTAATATATAGCAAGATTTCAACTTAAATTTTCCTATAATAGTACTCAAGAAAAACACCAGGTACAACCTGTAAAAATTAACATAAACATATGGTACTAACCACTTTTCATTCTACTGAAACAGATAATATAAACTATACGCGACAGCTAAGTACAAAAATTTTCTCAAGAAAACCAATTTAAACTATTGAGTACTCAGACCTATAAATACATGATATTATTAATCTAAATTAGCCGTTTAGTAAATTAAAATCACCTTTTAGTACATGAAAGAGTTTCTGTTTCTTATGAAACAAAAAAATATTAATGGATAAATAAAATACGGGACGTAGACGTAGCATATAAATAAGAAGAAACTAATTATAGTTTTTAATAATGCTATTTATTCCAGAGAATATACTATATTTTTATATAGCTGTAGTTTATTTTATTATACTATTAAAGCAATTTATTACGCAGATAAAGTTTGTTATAGATCATATTTTATAGTATATAAATAATAAATATATTAACTCCTAGTACTAGTAAATTTCTAATCGAGCTTTAAAAGATTGAACAAAAATTATATTAATCAAACTCTTATGATAAATGATCTACAAGAGTTATTGATCTAGATATCCTACTTTGATGATTATATAGGTTTACTTGTTGTAAAAATACCGCATCTCAATAATTTCAAGTTTAAGAATGCTTAGGGATGTTCTTGAATAACTTATAGAAGTAATAAAAAGGTGAAGAAGATATAGTCAATATTAATAGACTATCAAAGTAATAATTTAAAAAATACTTTATTACCTGTATTAACTTTGTGTTAAATAATCTAGATATATTAATTGTCAATTATAATTGGCAAATTATTACTACGCATTCATCAACTATCCAAACACAAAAATAAAATTTCTTGATTCCAATAAATCTCTGCTTTCTAGCTTAATATTACAAGAATAAAAAAGGTAGATTTGTATAGAAAATATTATTCTTAATAATGATAGAATTGGTTTTAGAAAAATTATTTATCAAAATTTATATATTTATAATTTACAAAAAATTAAGAAACTAGACTGTGATATATTGTGAGGATATTTAAAAAATCTTATATTTCTGTTTTATTCTAATGCATTACACAAAAAATAATAGTAATATTTAACAGAATATGATGAGGTATATTGTAAAACACAAAGGGCTGTATGTAATAAAGGTTATTGGTGCTATAAAGAGTTTAAATAGTTAATGAGGCGTAAACTTTTTAGTCTAAAACTAGAAAGATTTTTAACAATATAAATACTTAACTTTTACGTTTTTCTGAGAGTACAATCTTATTAAAATAAATAAATTATGATGGCAGTATATTTTTTTTCTTAATCTTTTAGCAGAATTGCATTCTAAATAGACAAAATATTATTAAATTTAAAATTACTAATATGCAACATGAAAATTTCTAGCACAAATATACAAAAAAGTATTATCATCACATTACCAATTTCCACACTATATTAAGTGTAATACATTCCAAATGTAAAAGAATAAATTGAAGAAAATTACTAAGAATTATGGCAGCATTTTACTGAAGGATGTTTAAGAAACTAGCTCATTTTGAATCTGAATTAGGCTCAACTCAAAAACTTGTTCAATGTACAATTTTTAGAGCATTTAATGTTTATTATCACTCCTGAGATAACAGACTCTAAAATTCAAGTATTACAAAAATTTTATAGAACTCCATATTATAGGACTTTACAATTTTTCATTGTTCATAGTACAGTATATCAATTGCATGACACAAGAATGTGCAAATTTGATTAATAATTCAAACTCAAAAGAACAAATATATATCAAGACACAGTAAAAAGCGCAGAACTACTATTGCAATTTCTATACAGAATAAATGCAATATATCAATAATTATACTATTATTCTTTCATAAAATGAAAAATATATTTCTACATTCCTTAACTCTTGAGAATTATCGTAATTTTAAAAACCTTGAACTAAAAACAGATAATACACCTATAATTTTAACAGGTGAAAATGGTAGCGGTAAAACTAATATTTTAGAAGCTATATCACTGTTCTATCCAGGCAGAGGCTTGAGGTCATCAAAACTTACCGATATATGTAAAACTTCAGAAGATTATTGTAAAGTTAAAACTCTATTGCAAAGCAAGCTAGGTCTTGCAGAGCTTAGTACACATATTAAACGCAGCTCAAATAGGCGAATAACCGAATATAACGCAAGTAAAATAGCTAATAACGAGTTAAGTAAATTTACTAATATGGTATGGCTAACTCCACAAATGGAAGGAATCTTTACAAGCAGCAGTACCGATAGAAGAAAATTTCTTGATAGAATAGTTTATAACTTTGATACAAAACATGCAGCACTATTAAATAAATATGAATATTACATGCATGAGAGAAATAAAATTTTAGCAGAAGATATAAGAGATAATAATTGGCTTAAAATTATTGAAGAAAAGATGGCTGATATTTCTAACAATATTGCTAATAATCGTTTAAAAACCATAAGATTTATACAGCAAGCAATAGATGACATTGAAAATGAATTTCCAAAAGCAGACTTATCAATTGATGGCATTATTGAACAAAAAATATTAAACGTAGAAGGAGATATTGTTAATTTTATTATTACAGAACTTTATAAAACAAGAAGTAAAGATAAACTACTTGGTCGTACTAGTTTTGGAATTCATAAAAGTGATTTTTTAGTAAAGCATCAGAAGAAAAATATCTTAGCCAAATTCTGTTCTACTGGTGAACAAAAAGCGATATTAATCGCAATAATCCTTGCTGAAATAAATTCAACTATCAAACTAACTAAAATAACGCCAATTTTACTTTTAGACGAGATCTTTGTGCATTTAGACGATAAAAGACGTCAATATTTAATGGGTTTTTTTAATGCTTTAAACATACAACTATGGGTTACTGCTACTGATCTAGATGGAATAGAAAATTTTGCAAATAAAGCCCAATTAATTAAGTTATAAAACATTTCCAGGAAAAGTATCGTCACGGTAAGCTGCTGGAAGGAGTTTTATAATCTAGAAAAATAATTTAAAATTCTGTACATCAGGATTTTTATTGTATTACTTCGTTAATTACTGATGTCATTTCCCATTACCCAGGCAGCAATAATTGCTTAAGAAGAATATAAGTCGCGCAATAATAACATTATATAAAAATATTGCTTAATTCTTTAAAAATCTTTAAAATTATTTTTTTATTTAAGAAAAATATATGATAAAAAAAACTAATAAAATATCCTATGATGAAGTACCTTATCCTCCATTTACTTTCAGTCATACCTACCCACCATATTTAAGAACTATAGGCAAGTTATTTGGGCTAAACCCTCCACCTCTTGAAACTGCTAAAATACTTGATATAGGTTGCGGAGTCGGTGTTAATCTACTTAATTTTGCTGAAACATATCCTAAATCACAATCTCTTGGTGTTGATTTATCAAAAACACAAATAGAAATTGGCAAAAAAACTATCAGTGATTCAAAAATAAAAAATGTCAGACTAAAAGCATTATCTATATTAGATCTTGATGAGTCATACGGGAAATTTGATTATATAGTTTGCCATGGGGTATATTCATGGGTATCTAAAGAAGTACAAGACAAAATACTAGAAGTATTGAATAAACTGCTAAATCCAAACGGTATAGCTTTTATAAGCTATAATACACTTCCAGGCTGGAATATGCAGAACACAATACGTGAAATGATGATGTTCCATTCAGAATCATTTAATACTAGCCATGATAAATTACAGCAATCTAAATTACTTTTAAAGTTTATCAATGACTCATTAGAAAATTCGACAACTCCTTATGCTAATTTCTTAAGAGAAGAAGCAAAATTAATATCTACATATGCTGATTCATACGTATTACATGAATATTTAGGCGAAATTAATACAGGTACATATTTTCATCAATTCATAGAGAAAGCTCAAAAAAACCATTTAAATTACTTAGGTGATACATCTATTACAGCAATGTTTATCGGTAATTTACCTACTAAGGCAGCAGAAAAACTACAAGCCATCAATGATATTGTGCGCACTGAACAATATATGGATTTTATTACTAATAGAAAATTCCGCTCAACATTGCTATGTCATCAAAATATACCGATAAACAGAAAAATTGAATTTGAGAATTTAAAAGATTTTTACACTACATTTAATATTAGACCAATAAGCTCTGAAAACAAAATTGATTTAAATAATGAACAAGAAAATATTAGCTTCTATTATGAAAATTTACCTGAGCCTTTTATTTCAACCACTTCAGCGATAATGAAAGCTATTTTATATGTATATGCCGAAAATATTAGCAATCCTATAAGATTAGAACAAGTAGCAAAAGAAGCTTTTAAAAAGCTTGGTAAATATCAATTACAAGACTTTTTAGCGATATTAGAACAGCATTTTATCACATTTATTTTTCAAGGTTATCTTAAAATATTTGAAACCAAGCCGCATGCCATAGCTACTATTACAGAAAAACCTAAAACAAGCCAATTTGTAAGATACCAAGCAAAACACGCACATTTTAATAATGTAACTAATATGTTGAGCGTCACTAATAGACTTAACGATATGATAGGTATACCAATACATGAAAAATATATTTTAGAAATGTTAGATGGCACGCATAATATTGATGATATTAAGAAAGGCATGATTGAAAAAATCAATTCAAAACTTTTAATTGCTTGTGATAATAAAGGACAAGCAGTAACTGATCCAAAATTATTAAAAGAATTTGTTGACTATATAGTTAATATCTCTCTTGAGAAATTCCGTATAAACTATCTGTTAATTGGATAAGTTCATTATAAGATTAGAGACCGAAAGTCACTACGAACATATGTAAATCTACATAGCAATCTCATGAAATAATAACAAGATCTTGAGATTGCTTAATCAATTTACCATTCTAAATATGGTGACGATTTGTTTTACTTAAAGTAAAATGAAGATTAGTGGACTAATGTCAATTTTAAAAGAGCAAATGAGTAGGACACAAGAAAGAGAATACATCTTATACTTATTTAAGCTCTAACTACAATCCGTAGTATATCTATGCAACTAATTTTTCACGCAATACCTCAACTAACTTATTAATGGCTTCGGTTGGATCAATGTTTTCAAGGATCGCAAGCTCACCTGCAAGTCTATTTAAAGCTGATTCATAGAGTGTTCTTTCACTGTAAGAACGATCATTATCAACATTTTTATGTAAATCACGTAATACTTCAGCTATAGCTACAATATTGCCCGAGTTAATTTTACCTTCATATTCTTGTGCTCTTCTACTCCACATTCTATTTCCTTGTTTCGGTTTACCTTGAAGAGTTGAATAGATTACATCTAGATCTTTTCTGCTTGCAACAGCTCTAAGGCCAACAACCGCAGCTCTATTAACAGGGACTTTTAATGTCATTTTATCCTGCGAAAAGGAAATTACATATACTTTAATTTCAGTATCTGCAATAGTATGATATTCTATATTTGTTATTTCACCAACTCCATGTGCAGGATAGACAATTCTTTGTCCTATTTTAAACTCGGATTTTTGTTCCGTTTTATGTTCGGATTGTGTTATATTTGCCATTATTAATTCCTCCGTGGTGCTTTTAATACCTAAAAGACTTAAAGTTAGACTACTATTTTTATAGCATAACATATTTTGCTTCTATTATAAAGTATATATTTTTATTGAAATAAAATTGATACACTCTTATTGTAGAATGGTTAATAGTCAAAAGGAATAAATATGAGAAATATTTTTATTGTCCTAATATTTTTATTTTTGAGTAACTGTTCAGAAGTAAAAGCACAAGATAAGAAATACGAAGGAAAACAAATAATAGTACAAGAACCTCTACAAAATAATAAAACTCCTCAAGAAACTAATCAGGAATCCATAAATTCTGCAACTAAATCAGTAGTTCATAATAATGATAATAATCAAACTGAAGAAGTACTAATACATGATTCACGTGAACAAAAAAAACCTGAAATAAGACCTACTAAAGTAACTTTTAAAATTGATGATAATGATATGGTTCTTGGTAATAAAAAATCAAATGTTATAGTAGTTGAGTATTTTTCTCCTACATGTCCACATTGTGCTTATTATCATCAAACAATTTTTCCAGAGCTTAAAAAAAAATATATAGATACTAATAAAATTGCATATGTGATTCGTGAATTTATTGCTACAAAACAAGATTTAGATGCTGCAATTCTAGCTCGCTGCAAGGGCGATATAAATAGTTTTATACAGTTTCATAATATTATATTACAACAACAAGATAAATGGGCATATAGCAATAAATATAGAGAATTATTAACTGATATAGGTCAACTTGGCGGCATCCCTCCGGAAGAATATAAACAATGTTTAAATAGTGATAAAATTACTGCAACGCTAATTGCGAATACTAATTTAGTAGCAAAAGCACCAAAATTTATAGGCACTCCTTCTTTCTTCGTGAACGGAGTGCAAACCGAAAATTATAGTATAGATAATATTTCTAAAGCAGTTGATAAAGCTTTAGATGATGAAACAAAAAAGCAAATAAATTTCTAATAATAACTTCATGCCGCGACTTGATTGCGATATAAAAATGTACTTTAATTAATGAATACAGAAAAACTAAAAGATATAAAAGCAAGAATTAAAGACTTTAAAAGTTATAAAACTTCTAATTCTAAGATTCAGCAAAAAATTAACCCATTCAGTATCGCTTTAGATTTAGTTTCAGGTACAATGGTAGGGCTCTTAATTGGAATATTAACTGATAAGTTCTTTAATTCTAAACCTTTATTTCTTATTATATTTACAATAATAGGAATGATTGCTGGATTTAACATTATAAGACGAAAGTAAGAAAATGACTCATAGTCCTTTAATACAATTTAATATCAAAAAATTGATAGATATTAAAATGTTTGGTTTTGATGTAAGCTTTACTAATTCGAGTATCTATATGTTACTTGCTACTACCTTATCTTTAACTTACTTGTACTTAGCGTTTTATAATCGAAAATTAATACCTTCTAGATTACAAGTGAGTGCTGAAATAGTTTATAACCTTGTAGCGGATATGTTAAATCAAAATATAGGAATTAAAGGACGTAAATTTATTCCGTTAGTTTTTAGTTTATTTATTTTTATTTTATTCTGTAATTTGCTTGGAATGACACCTTACAGTTTTACTGCTACTAGTCATATTATAGTTACTTTTACCTTGGCACTTCTAATATTTCTAACGGTCACTATAGTTGGGTTCATAAAACATGGCGTAAGTTTTTTAACTCTTTTTTTACCACACGGAACTCCTGTATGGTTAGCACCATTAATGATAGTAATTGAACTATTTACATATTTAGCAAGACCAGTTAGTTTATCATTGCGACTTGCTGCAAATATGATGGCTGGACATGTTCTGTTAAAAGTTATAGCAAGTTTTACCGTCTCATTAATGATTTACTTGAAATTTTTGCCAATACCTCTTATGGTGATACTAATTGGGTTTGAAATTTTTATTGCAATACTTCAAGCTTATATTTTTACTATTTTATCTTGTATGTATCTTAATGATGCTATTAATTTACACTAATTGTTATTTTGATTAATTAAAAGTTAGGTTTGTATGGACATTGTTTCTTTAAAATTTATTGGTATAGGATTTATGGCTATAGGCATGTATGGTGCAGCTTTAGGTGTTAGTAACATATTTAGCTCTCTACTTAGTGCAATAGCACGGAATCCTTCAGCTGCAGAAAACTTACAAAGAATGGCTCTGATAGGCGCAGGCCTTGCTGAAGCAATGGGACTTTTTTCCTTTGTAATTGCTATGTTACTTATTTTTTCTTAAAATTTAAATAAGATGCCTCAATTTGATATTGATACCTATTATTCACAAATTTTTTGGCTTATAGTTACTTTTGGCTTATTGTATATCCTTGTTTATAAATTTATAGCTCCAAATGCCGAAGAAATTTTTAATAATAGACAGAAAAACATTCAAGATAATATTACACAAGCCGCTGCTCTAACAGAAGAAATAGAAAAGCTAAACAAATATTATAGTGATATAGTTAACAAAACAAATACCGAAATAGATAATTTAAAAAAAGAAAAAATAGAATCTATAGAATCAGAATTTTTAATTAAAAAAAAGAATCTAGTACAAGATTTAACAAAATCTATCAATCAAAATATTGAAGATATAAATTTAGTTGCTAAACAATTTAGAACTAATAAAAGTGAAGCGATGATAAAACTTGCTGTTCATATTATTGAAAAAATAGCTGGAACTAAAGCAGACATGAATTTACTACAAAAAAATATAAAAATAAAATAATGAATTTCCTAGATGAAAGCTTCTGGCTTACCATTAGTTTTGTAATTTTTGTCTATTTAATTTATAGACCGGCAAAAAAAGCTATTTTAAATGCTTTGGATACTAAGATTTCAGAAATTCAAGAAAAAGTTCTAAAAGCTAAAAAATTAAAAGAAGATGCTGCTTTGCTCTTTGAACAAACCAAATTACAAATACAAAAATTAGAAACTTTACGCTCTCAAATGATAGAAGAAAGCGATAAAGCTACAAAACAAATCATTCAAGACAAAACTAAAGAAATGGAAGAATTTTTAGAACGTAAAAAAGCTGACGCTATACAGTTAATTCAAAATCAAAAATCAACTGCAAGTAAAGATCTGCAAGATGAATTTTGTGATGAGGTGATCACACTGGTTTCCAAATATTTTAGATCAGCTAAACTTTCAGAAAAAAGTATTGCTAAAAATTTAATGGATAAATCAGATTTTGTGCACAATGATAGCAAAGCTACATATCTACATTAACTTATAGTTTGCAGTTATATTAGGATTGTAATTAATACATACCAGTAATATCTAGCAATAAATGAAATATTTTTGTTTGTTAATTCATCAAGCCAGTTTTTTATACAAGAGAAGCGTTCTATTAATTGCCATTAGGAATTTTTTTTCAAAAAATTAATATTTTTTACATTTGCTAAAGCTCCTTTATTTTGCTCAATAGGGTTGTACCATCTATTTCCTAAAAGATTGAGCAATGTGATAAATGATGATCTTGCTTTTATTTTAGCAATTTGCAGAAGATTACTTAATTTACAATAAACTGTTCTTAATAGAAGTTGCAATATATAAAGAATCATTTTGAGTTATAGATAAAAACAATTTAAACGCTTTGTCCGTACTATTTACTAAAAGTTTAATACACTTATGTTATTATCCTGATAATTACTTTAATATACTGATTGATAAATCTTCAAATAGACTTGGCACTATTATTGAAGATTTTTAAATAACCAATCTTGATTTGGAACAACTATTTACTGAATGGATAAACTATACTTCTTTAGTACTATTTAAAACTTTATGTTTATATGTTACAAATTATACTGTGAATTATAATAATCTTAATACATCTTTACTAGATTAGATTCATTAACGATAAAGTCCTTAATATATGTTCTTACAATTTTGCTTTGTCTATTAGAAATCATTCCTTGAAAATATCGATGCTTATAAAGTAATATTTTAAATATTCAGAATATTTAATATATACCAAATTATTGACAATTTTTTAATGATTACAATAATAAACTATTTCTCGATTATCATTTTTACAAGTATTGTACCTTATTCTTTTAACAGCTACTACTTCATATAAGCTATACGAAAATATCTTCACTGCAAAAATACTTCTAATATAAATTACTAATATTGCATTCTTTAAATATTTAAAAATTCTACTATTTTTTTTAGTAATTATTAATTGTTACTAGTTTCTTCATCTATTGAAGGACTAATTTTAATTAATCTTAAAATTTCCTGTTTTAAGTCATCTCTTTTTTTTAACGTTATATTACTCTTTTTTTTGCTTTTAATTATTGCTTAACTAAACTCGAGATTTCATCTATCTATTTAACCGACTTTAATAGAATTTACTAATACACTTTGTATTTATTATACTACAGACTTGTTACAGAATGATAATGACATTTAAGTTGAAATTGATCTTGAGCAAATATTACATTTTTGACTTATATCTTTGAGCATGATCGTTTTCTAAATGCTTATAAAGCTCTAAAAACTACTATAACATTGTTATCAATATATCCCTTTCTATATAAGAATGCAAAATTTTTGTATTACTTACCCAGATATAAATATCTGACACTTTATCTATTGCTTTTCTAGTTTTATATTTTATAAGCTTTTAAACGTTTCGAAATCAAAACTTATATTATAGAATCAAGTAAATGATGGATTTGTAAAACAATTATGTTGGGCTCTGGTAATTTTACTATATGATATATGTTGATTGAAAATATTTATAAAATTCACCGCAGATAAATAACTTGTTATATTTAGAGTTTTTACTAAGAATTTTGTGCAAAAATATTCTTGAAAAACATGAATTATTGAACTTACTTACCTTTTCGCTTTTTTGGGCAATGAAAATCTCTAATATAAACTAAACTCTGCAAGCCATGAAAATTATATTTCAGAATATTTAATCATTGCACTTTTGTACGAACTTACATTACTACTAAAATTTATGTCTCTAATTGCATCAATGTTAAATAATTTAGATTTAGATGAATAAATAAAGAAGCTATTCACACTAGATTTGATAATCACTAACCAGATTTTAAAATACCTGTTTTAATAAATTAAATATACTAATAAGATCTAAGTTTAATTGGACTAAACTTTTGAACAAAACTTCTTAAAGAATTATCAAAAGTTATTAATTTAACTATTATTTTAAGTTAGCGTATTTAAGATAATGAGATTATAGGAAAATATAAAATGGTGACCCCTACGGGACTTGAACCCGTGTTCCCACCGTGAAAGGGTGGTGTCCTAACCGCTAGACGAAGGGGCCTTCTCACTTAAGTAGGCAGTATTATTTTAGTCATACTATGGTTATCTGACTTCTGACTATAAGTTAGAAGTTTTATACAATAACCTGGTAAATATTGCAAGTACAAAAATTATAGGTTTACCTTAATCTTAAGGCTACCTTGATGACTTCTATAATGTTTATTTAGATAATAATTATAATCCACAGCAATATTAGTATTATTGATACCACATATAATACCAGTTCCTAAATTATAGGATGTTTTCGGTTGCTTCGGTATTAGATAATCCTGTTTGAATATATTATCAAATATTTTAATAACTCTATTTATCCTTTGTGTTTTCTCTTTAAAATTATGTTCTACCGCTGTTTGAAATGTTAGACCTAAATTATTAAATTTTAGAACATCTATTAGAGATACTTTGACTTTAGCACCTAAAATTCCGGACAATATATTATTCTCTTTCATCGTAAGAGCTATTTCTTGTACGTTAATACCAGTTTCATTATATACACCATCTCGTGACTTTCCATACTTTAAGCCAATATTTGGAGTAATAATAATACTGTTTTTAACAAGATAATTATAATTCAGTAATGCTTCCGCATTATAACTATGATTATGATGTTTTACATGACTTTTGATTTGAGTATCACCGTATGAATAATTTATCTTATCTTTAATAAAATTTTTAGAAGCAGATACTAAAAGTTGCAGCGTGAAATTCTGTTGTAATTCTTTTTGTCCATAAATAGAAATAACTTTACTACCAATAAGCTCTTTATCATTATTTTTACCATTTTTAAATTTAAATACTGAATGAACATTACTATAAGCTATACCTATGATATTATTATTGATTTCAGCATCGAACCCGACAGTAGCACCTTTATTAATACCTCTATAACCTGTCATATTGTCTACACGTCCGTGATTATTAGTGCCGTACATACCACGCATCCATAAACCTCTTTTTATATTAGACTCTTCTTCAGCACTGGCTCCTACTACTACCATATTTATAGATGTATCTAATCTGTTACGAATCATATTATTGACAATAGTATTAATAACTTTTACTTGATTCAAAGTAGGAGCATTTTCTGAAATTTGTGTTTGCATTTCTTGTTTTGCTTCCTGTTCAAGCAGAATAGTTGTATCAACCTTATTCATTTTAATGTCGTACCAATCAGAATTGGATAATTGCTCTATTGTTTCTTCTTCCTTTTGAAAATCTGAATCATAATTTTTTTCATCTTTATTACAATCATCTAATGATAAATATTCATTTTTTTACAATCGCTTAATAATAATGTACTCTCATTACTTGATGCAGGTACAGGAAGTAACTTCTTATCTCCTGCGTTTTGAATACTAGCTTCTGTTTCTTCTTGTCCCTGTTCTTCTTCACTTCCTAATGACAAAGACTCTATAGATTGATCATTATTTGAATTTAACATTGCTTGTAATATTGATCCATCTAAAATATCTTCAGGATCCTCCTGGACTTTAGATTCACTAGAATTAATAACTGTTTCAGAAATCGCTGCACTCAACTGCTTAAGCGCTTCATTTATTTCTTCAAAAGAAACATCATTTGATTTTAATGGATCTGCTACTGAATCTATAGAATCATATATAGTGACTCCTTCTTCCAGCCCTTTAACATTCTTGGTGTTTTTATTGCTCATATCAATTAGCTTAGAACTTAACCTATCATCCGGAGTAGGACAACTATGCTCAGGTCCATATCTATAACCTACTCCTATATCTCCTGTATTATCCCATGATAAATCTTCATTACTCCCAAATATATTTACACTACTAGCTAAAGATGTATTTGTAATCGAATCTGTCTTTAGTGATCTGAATGAATTAATAATCTTTAGTTTATCGTATTCTTGAGTAAAGTAAGCTGCTACTACCTCTTCTTGATTTTTTGCCTGCTCACTTGGGTTTTGCTTTCTTTGTTCTATAGTCTGCTGGTATATTTCAGCAACCTCATTTACATAATCTTGTTGTACTCTAATTAGCATAGGCAATACTATATTTATATTAGGAGAAGTTTGCATTTGTTCTAATGTATTTTTGAGTTCATCAATACTTAATTGCTTTGTTTTATTTGAAAGTGTATATGATAAATTATATACATCTGATGTATTTGCACATCGTAGTTGATTTATACAATCATTAAGCGAACTGTTCGTATCACTCAATGAACTATGCAACAACTTTGGTAGTTCAATGCTAGAGTTTTGATGATGCTCATTACTAAACATGTCGTTAACATAAGAAGAAGGTGATAACACCGATTTATATTTAGTTTGCTTTAATTGTGATGATAAAGATCCATCTTCTATATCTTCTAGACTTTTAGTTTTTTTAAACTGTTGTGATTCTACAAGAACTGCTGAATCTAAACTATTAATAGAATTAATTTCCTGTTTATAATATTGCTTTCTATCCTTACCATACAGATCTTGTGTTAATTTAAAATTATTATGTTGACCAAACGACTTAGATGTATTTTCAAATACTCCTCTTGAATTAGTAGTATTTGAAATTTTTACGTCTTCTACTATTTTAGCTTCGGTCTCTTTCTCACTTAATAATACTATATTAGGATGCACTTCATCTATTTCTTTACCTAAAGTTTTGCTTGATAAAGTCCACAAATCCGAATCCATACTTTTATGGTTCTCTATTTCTTGACTTGGCAAAATTACTGTATAAATTTGCGGTTGAGCTTTACATGGTACTAAGTACCCATCTTCATCTTCCGACACAGTTCTATTAATGTCATTACTTAATTGCATTGTTGGCTTTGATGTTGGCAATGTATTAGGGATAGTAGGAAGAGTCCCCATTATAATATGATTACCTACTTGGTCTTGCAATTTTTTTAGCTTTGTTCTAGTTATTTTCTTTTTTGCATTATTAAAGATTTTTTTAACTTTTTCTTTTGTTTTATTTTCTTCAAATCTTTTTCTTGCTGATTTTTGTTGATTTGATTCTAATAAATCTCGCTGAGCTTCATCAATTCTTGCTTGCTGTGCTTGAAACGCATTAACTTTTGTTTCTGGAATATCTATTTCTTCAGATAACCTATCTGTGTCCTTGTTTTTAGTTGTCAAATCCTTTTTAAATTTTGCTATTTCTGAGAACTATCTTTATTCAAATCATACTTATTTTTTCCTGTCTTTTTGCTCCAGATACCTATGCTACTATTGAATTGATCTACTAGTGTTTTTTGATCTTTCGTACCTTTAATATCCTCTCTTACTTCAGATGATTTGATGCTTATCGTATCATCAACTCGTGGTATATTACTTACCATTTCTGGCTCAATTTCAATACTACTTTTAGGCAATACTACAGGTGCTGTTGGCATCAAAGAGATCATTGATTTACTATGCTGTACTATCTGCGGCTGCTCACTACTAAATGATAGTTTTCTTACTATCTTTAAATTTGTATTTATTGGTGTATTAAATCCTAAACTATAATTTGGTTTAAAATCTGGAGTGGGCTGATACGAAGTTACAGGTTTTAATGATGAAGCAGTAGAAACAGTAACAAAACTATTTGAATCTGTACTAACAGTAGTCGAAGATGCTGTTAGAATAATTTCTGGTTTTTGAGATATTGACTCTGTTGTATAAGTATTTGGATCTAACTCTTTTGATATTGTTTGAGAATCCAAATTATTCAGAAACTTATTTTCGCTGATTTTGAATTCTGGTGCTTGCATCTTTCTAACTTTATACAACGATTTGGTAGTTACATTAGCTAACTCTTCTGCCATGTCACTTTTATTGCTTGGTCCATTGTTAGATAAGTTATTTTTTTCTTGTGTTGTACTGATTGTATCTTCATATGATTGTGAAAATTCGAGTGATAATTTCTTACTTAATTCAGCACAAAATGCTTCTTGATCCATTCCCATAGCAATCCTTTCAACAGGAATTGCCATTACAGCTCCTACTGAAATAGAGGTAAGCAAAGAATATTTCAAAAATCTTGATTTTTTTAGTAAATTTTGTGCTGTTAACTTATTCATTATAGATATCTCGATTTAAATATAAGTTGTGTATTGTAATAAATAAGTTAATGAAAAGCAATATATTAATATTGTTTAATAATTATGTAATTTAATGTGTTTTTAAAACTTTTGATGGAAATTCAACAATACTCTAAATAATTGGAAGTATGATATAATTGTTATTTTTTGCTTGATTTTGAATTTTCATTCTAATACTTTCTATTAATCTTTCTTTTTAGAAACTTCTATTAGAAAAATATAAAACTTCTTAGCAAATATCATAACATCACTTACAGTAATTAATCAATTATTTCCAACTTACTTAAGTATCGACTAACCGCATTATCGTTCTATCTTTGCCTCTTACCAGTATTAGATGATTAGTTATATCCTAAATAGGATTCTGTATTGATAAAATAATCTTTCTATTTTATAGTTTAGTTTACTCTATGACAGTTATATTACTCTTTTTATTCGGCTTTTGTATAGGTAATTATATAAAAACTCAAATGATATGGAAACATATATTAAAAAAGAGAAATAAACTAGTAACTTGTTCTTATACCAATAATTGGTTGTACAACAAGATTTATTCACTTTAAAAGATATATTTTTTTACTACAAACAGAAAATTAATAAACACAATTAACAACGAAATTAAACTAGATCTTAATTACAAAGTTATAAATGTATATAGAGCTTTAATAACGATTATTATTTCTTTTAAAAGCACTGTTATACTTAACTTTTACAGTAAAAAGAATGTAGTTTAAAATCAAACCATGCAAATTATACATAAAACTTTAAAAATCTCTTCAAAAGAATATAAAAAAATCTTAAGCCTTTTAAATAAAAAAGGGCAATCAAGACTTATCGGCGGCTGTGTACGAGATGCTTTACTTGACAAAGACACATATGATATAGATATAGCTACTAATTTGATGCCAGGTGAAGCAATAAATATTTTATCTAGCGCCAATATAAAAATTATACCAACCGGTTTAAAATTTGGCACAATTACGGCTATTTTAAATAATGAAAAATTTGAAATTACAACTCTCAGAAAAGATATTGAATGTAACGGTAGACACGCTAAAGTAATATTCAGTAAAGATTTTGCTGAAGATGCAGCAAGACGAGATTTTACTATTAATGCTTTAAGCTATTGTCCATTTAAGAATGAGATATACGATTATTTTGACGGATTTAAGGATTTGCAGCGAGCAAAGGTTGTATTTATAGGAAAAGCATTCAATAGAATTAAAGAAGATTATTTGCGAATTCTACGCTTTTTCCGATTTTCTAGCTATTATGCAAATCAGCTTGATTATGAAAGCTTTAAAGCATGCGACACTCTAAAATATGGCTTAAAAACTTTATCACGAGAGCGAATAAAAAGCGAAATAGATAAAATTATTGTTTCAAAAAGAGCCACACAAATTTTAGAAGCTATGTTTAAAATAGGAATATTAGAACTAATATTCTCTATACAAAATTATGAAATAAAATTTTTTGAGCGAGCAAATAATTTTAAATTAGAATTAGCTACTAAATATGCACTCTTATTATATAATCAACAAAATTTAAACTTAAAGATTTTTCTAAATTGGAAATTCTCAAAACATGAAGCAATGCAAATATTATCGATACTAAACTTTCTTAATGATGCTGAATTTAACATAAAGAAAATTTGGTTTGAAAAGAAGAATTATAAGGAATATTTATTAGCAGCCTGCATCATCGATAAACTAGATTACTCACAAGTAAAAGAATTTATCCTTAAATATGATACATTATCACATCCAAAATTCGAATTAAATGGTAATGATTTGTTAAATTTGAATATAGAAAAAAAAGAAATAGGAGCGAAACTAGAATATCTAAAAAATTTTTGGATAGAGCATGATTTCAAACCTAGTAAATCTGAGCTATTGGAGAAATTATGAAAACTAATATGCTAACCAACAATTGTAAGGACAAAATTTTTATAAAAAAATCTCATACAATACTGAGATTGCTATATTTCTTTAAGTCACTCGCAATGATATTATTTTTTATATTCTTCAGCCTTACTAGTTATGCTAAACCTAAAATAGTGGTCAGTATTACACCAATTAGTAGTATATTGGCAATGCTTGTTAAAGATAAAGTTGATATAGAGAGTTTAGCAGTAAATAATGAGTGCCCTCATCACCATAATATAAAGCCAAGTGATATTACTAAGGTTAGAAATGCAGACATGGTTATTTATATAAATGAACAATTTGATGGTTTTACCGAGAAATTGATTAGTAATAATAACCAAAACATTATCAAAATCAGTGATATAAAATCTTTAACCACTATAAAAAATAATTGGCATATTTGGCTTGATCTTAATAATGCTAAGATTTTACTACAAGAATTTGCACAAATATTTATTAAAAATTTTCCTCAGTTACAAAAAGAGATTAATAATAACCTTCCAATAGCTCTTAAAGAATTAAATAAGCTACAAGATATTAAAAATAATGAATTTAGGACAATAAAAGATATAATTCTATTAAGTGATAGTAGCGAATACTTTTTTCTTAATACTAATATTAAAACTGCAAAACTATATAGAGAAAGTCAGAAAAGCCTCCGCTATATAAGCAAGCTAGAAGAATTAATTAAAGGATCTAATAACAAGTGTATTGTTTTAAGTAATAAACAAAAATCACAATTATACACAAAATTAAATGCCAAAACCAAAATAATAATATTAAATAGTGAAAACTGGAATGTAAAAAATATCAACTCAAACACTTTTCAGGATCAATATTTACAAATGATTAATCAAGTTAAAAAATGCATACATTAAATAGCAAAAAGGAAACAAAGAACTTCGCAAAACTTTTTGCACAAAACTTAAAACCAAATGATATAGTTTTACTTAATGGTGACCTTGGAGCCGGTAAAACATTTTTTTGTCGTGAAATTATTAAACATTTTTGCGGTAAAAATACGAATATTATAAGCCCAACTTTTAACTTGCTTCAAATATATAAAACACCTAAATTCAATATATATCACTATGATATGTACCGTATTAAATCGCCTGAGGAAATCTATGAGCTTGGTTTTGAAGAGGCATTAAACGGTAATTTAATTTTAATAGAATGGTCAGAAATTATTAAGCATTTACTCACACCTCCTTTAATTGAAGTAAATCTAAAAGTATTAGATAATAATAAACGTTTATGTAGCATTCACAAAGAAAATTTCTTGTTTGATTTCTTATAAATGTATCTTCTGTTCCCTATAAAGTTTGATATTTAAAGAGATAAAATCATACTAGAAAATTGAATTATAAATTTGTTGGTAAAAATTTGTTGGTAAAAATGCCTTTTCAATAGGAAGTAATTTTAATTCTGACAACATAGGCATAATTAAATCTATTCCAGCTTTTTCATTACTATTACCGTGCACCAATATAAAAGAACCGTCTTGAATTTTTTCACCTTTAGCAAGCCATGCATTACTGCCAAGCGGAATAAATCCAAAGTTTTTTAGTTTTGCTATTAATGTTTGATCAGAAACTAATCCAGGAAAACGGAAGAAAGGGGACGGTGCAATATTATAACTTACTAATATCTTGCCTACTTCTAATACTTCATTTTCAAAATCATCTTTATTAGAAAGAAGAAAATTATCTTCAAGTGGTTTATCTTTGAAGTAAGGATGACTAAATGAATGATTAACCCATGTTATTTGTAGATAACCATTTTCTTGTTGCTTTAATAACCATAAAAATTCCTCTGTATGCTTATTAATCCATAAACCTGAAACACATATAGTAATCGGTATAGCTTTCTTTAATTTTGTCGATAATTCTACAAGCTTTTTAAAAAAAACTTCTTCAAAGTTCTTAGAAGAAGGACACATATCAATTGTTAAGAACTGACCTTTCACTTTATACATGCTACTAGTAGCACCATAATTTTGTTGTACAGTAGAATTCATAAAAGTTGATGAATGCGAACTTTTGGAGTTAAGTTTGTGCTCATACACTATTGTATTGTCAGTAAACTTATTACTAAATTCATCCTGTTTGAAGCTTTGTAAACTTTGATCTATAAAGTTATATTTATTTAAAGCTTTAATATATGAAGTTTTATTTAATTTTATTAGCAGATTTTCTTTTTCTATCTTATTTGCAGGTAAAATTACCAATTCTTGTAGTACTATCTCAGTTTTAAAAGAATTCGGATCTACTAACACAAAATATGATTTTTTATTCTTTAAATAAGAACGAATAGCGATTTTTATTTTTTTATTTTCAGTAATTACAGGCAAAAATATCGGTTTATAATCAGTTATTATTGCTGCTTTTTCAACAGCATAACTTGAATTAAAAAACAATATTATAAAAATAAAACTTAAAATTCTTTTCATTTATTTGCATCCATAACACTCATATAAAATTCTGCAATTTTCTCTTTTACAGCTATAGGATCCTTCATTAAATTAACAGTACATCTAAACTCAGCAGAACTTGGTAAACCATTACTATACCAAATAATATGCTTACGTGCAATAGGTACGCCAACAGATTTGCCATAATAATCAATTATTGCATCATAATGTTTTGTTATTATATCTAGTTGCTCTGCTATAGAAGGAGCAGGTTTTTCTTTACCAGTTTTAAGATAATATGCAATTTGTGAAATAAGCCAAGGCTTTCCGTACACTCCTCTACCAACCATAATACCATCTGCACCGGATCTCTGTAATGCTTCTTTTGCTTTAGCAAAATTAGTTATGTCACCATTGGCAATAACTGGAATTTTTACTGCTTCTTTAACTGTTCGTATAAAATCCCAATTAGCATTGCCAGAATAAAACTGACATCTGGTTCTACCATGAACGGTAACCATCTGAACACCTGAGTTAGCAGCAATTTTAGCTAAAGTTGGAGCGTTTCTTGTATTATCATCCCAACCAATACGCATTTTAACCGTTACTGGAATCTTAACTGCTTTAACGGTCGCTTCAAAAATCTTAGCAGCTAACTGCTCGTCTCTCATTAAAGCTGAACCTGCATAACCACCTACTACCTTTTTCGCTGGACAACCAAAATTAAGATCGATAATTTTTGCTCCCATATCCTCATTCATTTTAGCAGCTTCAGCTATTACATCCGGCTCACATCCTGCTAACTGCACACATGCACTTGTAGGATCGTCATGCATGATAGCACATTTTTGCATTGATTGCCTAGATTTCATAATCATCGCTCTACTTGCTATCATTTCAGAAACTACAAGTCCTGCACCAAATCTTTTTACCAATTTTCTAAATTCTAAGTCCGTAACATCAGACATTGGAGCAAGGATCACATTTGAAGAAAGTTCTATATTACCGATTTTAATCATAAAAATAGTTATAAAATTAAGCATTATATCATAATTAAGCATTTATGTCTAATATTACTAATTAAAAGGATAGACAAAAGCTGATTAATCTATTATAAGTTTTAGTTATATTGCTTTACTTGAGTAAAATATCATTCCTAAGCTAGAAGCAAGAGTCCAGTAATGGATCATACACTGTGATCACAAGTCACGGTGTGGTACCATGATTTTTGAGAAATGCAATAATACCTTAGTCTCATACAATGATTATTTGATACTTATTTACTCTGCAAAAGCGGAAACAGATGAGCGCAGCATAATATAAAGCATCAGAAAACTTAGATGAATTATGTAACCAATTGCTTAAATTAAATGATATAATAAGGCCACGTAGCTCAGTCGGTAGAGCAAAGGACTGAAAATCCTTGTGTCGTTGGTTCAATTCCAACCGTGGCCACCATTAATTACTCCAAGTAATCAGTTTAAGTTAAAGCTCCAATCCCATAATAAATAAAAATTTTATTAATTTGTTGTAAGAATATGATGTATAAGCTTTTTAGCTCAATAATTTTTATTATGATGCCATTATAATTACACATAACTAATTACTACCCAATAAAATATTCTACAATAACGCGGTGGTTCAAAAGATTTTTTATGTTAGGTTTAAAGTTTCAAACTCTATTATAGATATAAAATCTACATAATCGTAATAAAACTGAGGTATCGTATCTATGAATACTAAGTAATCTCTAAATAAAAGAACTACACAAAAACCTTAGCTATTCAAAGATGAATCTCAAATAAATCAATATTATTAATTTAAATTTCTCACATTACATGTTCTACTTCAATTAATAACTTGAATCTCAAATTTAGTTTAAAATTACTATATTAGTATTTTTATAGTCAAGTCACTGTATGACACTGAACACGTTTTTGCCATATAAAACTTACAATTTTATTGCATAATAAAAGCATAACTTATATAATATCGCTAGTGATTAAGTCAGTTAAAGTTTATATGGTAAGTAGTAATTTTTATAAAAATCTAGGACCACGAAAACTAACGGCAATTGTAGATTTTTTACACGACATTATAGAGCCTACTAAAATTTATGAAGATATAGATATTTATGATATTAAAATTCTACAAGAAGCATCACCAAATGATATCAGCTTTTTAAGTAATCCGAAATATTCTGAATTTTTGAAAACTACCAAAGCGGCTGCTTGTATAGTGCCAAAAAATTTTACAGAAGAAGTAAATCAAAATACTGTTTTAATACACGCTGAGAATTCATATTTTGCTTACAGTAAATTAATAGATTTTTTCTATGCTCCTATTAAATCATATTCTACTAAAATAATGAAATCTGCTATTATTGCAGATTCAGCGACTATAGGAAAAAATTGTTATATAGGCCACAATGTAGTTATTGAAGACGATGTTATTATAGGTGATAATAGTATTATAGATGCAGGAACTTTCATAGGTAGAGGCGTAAATATCGGCAAAAATGCTAGAATAGAACAACATGTTTCAATAAACTATGCAATTATAGGCGACGACGTCGTAATATTAGTAGGCGCAAAAATTGGACAAGACGGGTTTGGTTTCTCTACTGAAAAAGGCGTACATCATAAAATATTTCATATAGGAATAGTTAAAATCGGCAATAATGTTGAAATTGGTAGCAACACTACTATTGATAGAGGTGCACTTCAAGATACTATTATAGAAGATTTATGCCGAATAGATAATTTAGTACAAATAGGGCATGGCGTAAAAATAGGAAAAGGATCTATTATCGTGGCACAGGCAGGTATAGCAGGAAGTAGCGCTATAGGAAAATATTGTGCTCTTGGAGGACAAGTAGGAATAGCTGGACATCTAAATATAGGTGACGGAACACAAGTAGCGGCACAAGGAGGTGTAGCTCAAAATATAGAGGAAGGTAAAATTGTAGGTGGGAGCCCTGCAGTTCCTATAATGGATTGGCATAGACAATCTATTATCATGAAACAATTAGTAAAGACTTCTAATAGTAAGTTAAAAAAGTAGTTTACTATAACTTTATTGTTGTATGAATCAATTTTTATTGTTATCTCATGGTTTAACCATTAGATCCAGAAAAATATATTTAATTGGGTCCCGTGAATAAATAATTGAATAACAGAGATAAAATTGCTCTATGCAATCAACGCGTTCTCGTAATAAAGGCAAATTTATATTAAACAAGAGACCTAGATAAATGATCATAGCTATTACCGAAATCATGGATTTGATACCTCATCGCTATCCTTTCTTATTAGTAGATAGAGTACTTAAAATCGATCCTAACAAATCAATAATAGGTATAAAAAATGTTACCGTTAACGAACCGCAGTTTACAGGACATTTTCCTGCAAGACCTGTTATGCCTGGAGTTCTAATGGTTGAATCTATGGCACAATTAGCTGCTATATTAGTTGCTAAATCTCTAGATTCTACTAAAAATAAAGAAGTGTTTTTAATGTCTATTGAAAATACAAAATTTCGTAGAATTGTCCAACCTGGAGATACTATGCATATCCACTCTGTTATTGATCAGCAAAGAGCTAACGTATGGAAGTTTTCAAGTAAGGTGATGGTCGAATGTGAAATAGCTGCAGAAAGCAAGTTTACCGCAATGATCAAAGATAAAATGTAAAAGGTAACAGTGTCAAATTCTAATATCCATACTACAGCTATAATTGCAGAAGGTGCAAAGTTTGGTAAAAATGTAAAAGTTGGACCGTATTGTATTATAGGTCCCGAAGTTGTGCTTCATGATAACGTTGAGCTAAAGTCTCATGTAGTAATTGATGGGATTACTGAAATCGGGGAAAATACAGTTATTTATCCTTTTGCATCGATTGGTCAACCTCCGCAAATCTTAAAATACGCTAATGAGAGATCAAGCACAATAATCGGCTCTAATAATACTATTAGAGAATATGTTACAGTACAAGCAGGAAGCAAAAGCGGTGGAATGATAACAAGAGTAGGGAATAATAATTTATTTATGGTTGGTGTTCATATAGGTCATGACTGCAAAATTGGCAATAACTTAGTATTTGCTAATTATGTAAGTTTAGCTGGCCATATTAAGGTAGGTGATTATGCAATAATTGGTGGACTATCTGCCGTACATCAATATACTAGAATCGGTGAATATTCGATGATAGGCGGACTATCACCAGTTGGCGCAGATGTAATACCGTTTGGACTTGTAAGTAGTAAACGCGCAGTGCTTGAGGGTTTAAATTTAATTGGTATGAATAGAAAAGGTTTTGATAAAGCAGATTCTTTAACTGCTTTAAATGCAGTAGAAGAAATCTTTTTAGGCGAAGGTAATTTTGTTGATCGTATAAAACAAGTTGCAGAGAAGTATAAAAATAATTCTATAGTAACCCAAATTATTGATTTTCTGAATCAAGATAGTAGTAGAGCATTTTGTCATTTTAAAAAATAAATTTATTTAACTAGGAATAGTAAATAAAGCATTACTATTAAAAGTATAATAATGATAAAGTATTATATATACGTGCAAGTAAGAAACTTGAAAAGCCAGCCTATTATTTACACCCGTTGCAAAAGCTGAATGATTAGTGAATTAATATTATAATCTTTAGTAAATAAGCTAAAAACATCAATACTTATTAAATAAAATTATGATGCTGATTTATAGTCAAAATATAAAAAAAAATTTGCTAAATGAGCGAAAAGAATAAAAATTTAGGTACAACCCAAGCTAATTTATATAAAAATTATTAAATTGTTATCTGAACAACTAGAAGAAATAATTGAATCTAATAGATGAATTAGTTGCTCATTTTCTCTTGTAAAGAATTTTGGCGCAATCGAGTTTTTAAGCTCTTAAAATCAATTATTTCTACATTTTGATTCTGCTCGCTACATGCAAAAATATATTTTTGCTTTCCTTTAACTTTTTGAATGCATTGTCCACAAATTCCTTTCATCATGCATTGCATTAATGAATTAACGTTAATTATTAATTCTGTATTTTCCCCAAATATTTTTAACTCTTGTAGTTCCTCAGCTATTTCAGGAGAAGTATTAATTATTACTATATCCACAGAAGTTAATTTATGCTTTTTTATATCAGGATAGGTAGCAAATATAACTTTATTTTTATTTTCTTTTAGAATTTTCAATAAACCTACATTACGATATTTGGAATCAATAATAATTATTTTTTTATTCTGAGGTATTTCTAGTGGGGAGCCTGTCGGTCCCATTAAAACTACTTTCTCATTTTCTGATAATGTTTTACATAAGCTAGTAGACTTACCAACTTCATAAACTATAAAGCTAATTAAACCTTTTTCTATATCGATATCGGCAGGACTTAAAGCTACAGGCTCTATTAACTTAGTAATATCTTTAGAATAATTTTGTAAACGAAAAAACTGTCCAAACTGAAAATTTTTAGCAGCAAGTGGTGAGTGAATTATAAGCTCAAAAGTTTTATCATTCAAAATATTTATTTTATTAATCCTAGAAGTTAGCAAATAATCAAGCTGTGTTATAAAACATGCGTAACTACCTTTAAAGCTAGGAACATTATCTATAAGTCTTTTGTTAATAACCTCATAACCTTCTTTTGCACTAGTAATGGCCTTCACTACACTACCAAAATATTTAGGATTACAATCACCGAAATAACTATATTTATCATAATCGAATTGAGTATTATTTTCTATACCAATTGCCATAATTACGGTTTTAGTTTTGATTAAGACAGTATTACTACTTGGCTTGACCGTAGGACACATATTAATATGGTATTTTTTATGTGTCCTACGGTCAAGCCAAGTAGTAATACTAAATTCTACAGATTCCACATGACCATATTTATCAATATTAATTCTTAAAGGCTGCATATTTTCTTTAAAATTAACACCAAGTGCTAATGTGTATATCAACTCTTCATGATTTAATTTATAAGCTGGCGAATCTTGCAATCTTCCACGATAATAAACAGTAGCTCCTCCAAGCTTATTAAAAACCTTTTTTAATTCTTCATTATTTTTAGCTTCTTTAAACAATTTTGCATGAGCAATAAATTCTTCAGCTATTTCCTTATCTTCTTCTGTTAAATCTTTTTCTATATAATTTTTGGCAAATTCCTCTACTTGCTTTTTATAGTAAAATAAACTTTCTGTTGCTACATCTAAAGAAGTAAGACCACCGCCTATTATCACAATCGGCATTCTAATCATCATATTAGTATTAGAATTTTGCAAAAATGCGCCTCCATTTTGCAAAGTCATCAAGAAATCAGAAGCTGTTCTTACTCCCTTAGCTTCAAAATTCTCTATATTCAAAATCTTTGGCTTACCTGCTCCAATACAAAAAGCTACATGATCAAAACTCAAATCTAAAGCTTGTTCTTTTGTGATATTAAAACCTAACGCTACTCCGTCATAATATTTGAAATTATTATTTCTCTCAAGTATTAGCCGCAGTATATCAAGGTTGTTTTTATCCCAACGAATAGTTATACCATATTCTGCTACCCCTCCAAATCCTTTTGGTATTCTTTCTGATAACAAATTTTTATATTCATGCCAAAATTTTACAGGTTTATGAATATTAAAAGATAAAGGGGTTATTTTCAAACCATCAATAGCTGTAACATTGTGACCTGATCGTAATAAATAATAGCTAAGACTAAAACCTGCGGGACCAAGACCGGTAACTAAAATATTATAATTTGTAGGTTCTTTCGGAAGTGGCGCATAAATATTAAGTGGATTCCAACGTGTAAGAAGTATATATATCTCCAAACCGTAAGGTAATTTAAGCGTTTCTTCTAAAATATTTGATTCTATTAAAGGAATATTTACTGGATCTTGCTTTTGATAAATACAAGCTTTAGAACAATCATTACAAATCCTATGACCTGTTGCTGCAACCATCGGATTATCAATAACAATAATAGCAAGAGCTGCTAGATTAAAACCTTGCGCTTTAATGTAATTCATTTCGGAAATTTTTTGTTTTAATGGACAACCAGTTGTCATCCTATAGCTTAACCTCGGAATCTTATCTACCGAGATCACACGATCAAAGTGTGGAATTACATCAAATCCCTTAGAACAGCTATCCTTATCCCGTTTATGGCAATAAATACAATAATGAGAATTGTTTAGAGCTTCATCTAGATTAAAAAAAGAATCCTTATAGTCAAAATCTACTCTCTCATTTTTTTGATATTTTAATATTTTTTTATCATCTATTAGATTTTTTTTATCTAATTTTTGTTGAAGGTTGAATAATATATCATTTTGTAAAAACAGATTTTTATTCCATGATGACAATGAATTATAATAACTAAAAACCCTATACGCAGCATACCTAGCTGCTATGTCTAATTCTAGAGAAAAACTTTCTTCATCCTGTTGCCATATAACAATTTGCTTTGCAAACTCTCGAGAAGTAAAATTCGTACCTATTAAATTAGTTATTTTTAAATATACATCTTCAAAATCAATATCTTTTATTTTCTCTAGAGGATATTTTTTTACTGCAACACGCTGAACAAATTTTCTTTTACATTCATAAATAATATCAAAATCTTTATGCTTCAGTCTTGATATCGTTACTTCTTTTGAAATACAAAATAACTCCGCTAAAAAATCGTCTAAATGAGGAGAAATTTTTAGCAAAAATTTGGAATAATCTTGTGGAATAATCGAGAGAGGAGTAGCTCTAAATAACATTAAATCTTTATGCAAAGATTTATCGGCTTTAAAGAGATAATCTAAAAATATTTGATCTAATTTTTTAAGTCCGGTTAAATCTAATTCATTAAAATCTAGATTAAAACCAAGTTTCATAAATAATAAATAACTCTTTTAGAAAATTGTCTATAAATTAAATAACTGATAAAAACAGTAATAAATGCAACTATAACAGACTTAATTATTAACATCATATCTGGTAACGATCCATTAATTACCAATACTTGTACAGGTCTTATAACTAAAAAGAATGGATTAAACTCAAAATATATCTTTTTAGACTCCGGAATTAGTGAATATGGATACACTATTGGTATACTCCAATAAATAACTCCAAGGATAACATTCAACATTTGCGGTATATCTCGAATATACGGCGTTAAAAATGCTACTGCAATAGAACCACTAATCACACATATTACTAATGGCAAAATTAATATAGGCATAAATATTATTTGCCAAGAGAATTTTTCTGGAAATAATAAAATAAAAGCAAAATACATTGCTGAAAATGAGCAAATTAAAGTATATAATTGTCCTAAACTATCCGCAATAGGAAAAAAAGTCTTAGAAATTCTAACTTTTTTTATTATTTGATCACGTGTAACTAAAGAACTTGCACAAATCGTTAAACTACTTACTATAAAACTCCATAAAGGAATGCCTCCAACTAAGTTCATTACCATAAACTCTCTTGGTTGTCTTAATAAGAAACCAAAAAAATATGAAATTACTATTATATGAATAAAAGGTTGAATTAAACTCCATAAAGATCCTAAAAAAGAATCTTTATTTTGCCTAACTATAGAAGCTTTAACTAGTAATGCTATTGCCCTCCAGTATTTTTTAGAAAAAAAATACTTTATCATTTATGAATTTCCTTATTACTTTGTTGTTTATAGATTTTAAATATTTCTGATGGTGTCCCATCATCTATAATATGACCGTCTTTTAATAAAATACATCTATCACAATTATCTTTTATAATTTCTTCTTGATGACTTACTATTATTGAAATAGGGGTATTTTTAAATTTATTCTTCATTAAATTAAGGGATTTCTCTATAAAATAGCTATCACCTGCTGCAAAAACTTCATCAAGTAATAGAATCTGTGGATTCTGAAATATCGATACAGAAAAAGCAAGGCGTGATAACATACCGGAACTATAAATTTTTATCGGTAAATCAATTTTACTACCAAGTTCTGAAAAATCTATAATTTCTTTTTCAATTTTTTTGCTATATTTATCTAGCATATTATTATATAGCATTAGCATTTTTATATTTTCACGACCTGTCTGTTCTTGTTCAAAACCGACTCCCATATCTATAATTGCAGCAATATCTCCATGAACTTTTACTATACCTGATTTTAATGGATATATTCCAGCAATCAGTTTTAGAAGTGAACTTTTACCTGAACCATTACTCCCAATAAAAGCTATTTTTTCTCCCTCATAACAAGAAAAATTAATATTGTTTAATATAGGTATAGTTGGAGAAAGAGAAACTCCTTTTTTCAAAAAGAAATGCTTTAAACCCTGTGCTCTTTTATGAACATCTATGCCTTCTACATAACCATCTGTTATCTCTATAAATACTTTTGAATGGTTAAGTAACATAAAATAAATATCAAATAGATTTATTAATCCAATCTAAAAGAGAATTTTTTTGTTGCAAACCTATTTTAGTATCTTTTTGTTCACCATTTTTAAACAACATTATCGTTGGAATGCTACGAATACCATATTCTGAAGGAGTTTTAGGATTTTCATCAATATTCATTTTGAGTACTTTTACTTTATCTTGTAATTCTTTACTGATTTCATCTATTATCGGTATTAACATTTTACATGGTCCACACCACTCTGCCCAAAAATCAACCATTACAGGTAAATCCGATTCTAGTACTTCATTTTTAAAAGAGCTATCTGTTACGTTATTTACCATATTTATCCTCTGTGTTGTATTGATATCATTGCTATCGAATTCAAGGAGTGTTGTAATTTCGTTATAACACGACATTAAGTTTTTAACTCATAACAACGAAAAGCAATAAATAAAATTATAAATTAGTCACTTCTACTTGTAAATAATGAAAAATCTTTTTATTTATGATATTTATTTTTTCTATTATAATATATTCGCATTATTAAAGCTGCTGTTTCCTCTATTGATCTGGTTGATACATCAATCACTGGCCAATTTCTTTGATTACAAATTTTTCTGACTTCTATGCACTCTCTTTGTACTATATTAAAATCTGTATAGCTTTTATTTTCATTAATTTGCAATAAATTTAATCTAGCTTCTCTTATCTCAATTAACCTATTTGGATTAATAACAAGTCCTACTACTAATTGATCTATATCCTTTTCTATAAAATCAGGAAATGGACAATTATAAACATAAGGAATATTTGCAGCTTTTAAACCATTATACGCTAAAAATACGGAAGTCGGTGTTTTAGAAGTTCTAGAAGGACCTATTAATATTATATCAGATTCTGATAATTCATTAATCATTTGTCCATCATCATGTCTTATAGCATAATCTATAGCATTGAGTGTATCAAAATAAGTTTTATCGAATTTATAATTATAATTTTGTTCTTTTTCTATTTCAATACCTGAAAAAACAGACATTTCTTTAATAATTTTACCTATTACAGAAATACATGGAATTTTTAATTCATAGCAAAATTTTGTTAAAGTTTTTCGGAGTTCTTGATCAGCAATTGTGTATAATACTATTCCATGTTTAGATTCTATTTTACTTAATACTTCATTTAGTAATTCACAATTTCTAATCATTGGCCAATGATACAATTTTTGTTTTATAGAAGTAAATTGAGCAAGAGCAGAATTTGCTGCATGTTTTGCAGTTTGCACAGAAGAGTCTGAAACCAAGTGAATAATTAGCTTTGTCATACTTTACACATGTAATTGTGGATAAAATTTTTAAAAACTTGTTATTTTTCCTATTAAAATCTATTTAAAATTCTCTCAAATCCTTATAAAATTAAGAAAATCTAGTACATTTTCTTTTAAAGAAACAGTTTGTGGATAAAATTGTGAATAAATATCACTTTTCTTTGAAAAGATAGTCTTTTCTAAACTAAAAATGAATCTTGCACTTAATTATCCACTTGTATAAATTAATTATAAATTTATGTGAATAATAATTAAAATACTGATTTTTTTAAGAAAATTTAAATGAAAATTTTGTTGATAACTATGTTTGAAACATTTAATTTACATAATTCTGTTTATAACAATATATAAATAATATATATTTAAATCTTTTAGTAGAATATGAAACAAATTTTAAATCCATTAAAAAATAGTAATAAAATACCTATTTGGTTTATGCGTCAAGCAGGTAGATATTTACCGGAATATAAAAAAGTGAGAGAAACAACAAAAAATTTTCTCGATTTTTGTTATGATGTTAACAAAGCAACTGAAGTAACATTACAACCAATAAGACGTTATGGACTTGATGCAGCTATTATTTTTTCTGATATATTAGTTTTACCTAATGCTCTTGGATGGGAAGTAGATTTTAAAGAAAACATAGGGCCTGTATTAAAGCAATTTAAATCACAAAAAGATTTTCAATATTTACAAAGAGATTCTAATAATAAATTAGAAAAGGTTTATAAAATAATAAAAAAAGTAAAAGAAAAATTACCTTCTAATACTTCTTTAATAGGGTTTGCAGGTAGTCCTTGGACAGTTATGAGTTACATGTTAGAAGGAAAAGGAAAACGTGATTTTAGAACAAGCAAAAAATTTATATATGAAAATAAAATACTTGCTAAAGATTTATTAAATTTTATTACAGAAAAAACATCTGATTATCTTATAAATCAAGTAAAATCTGGAGTAGATCTTTTAAAGATTTTTGATTCATGGTCAGGGGTACTTGCAGAAGATGATTTTACTGAATTTGTAATAGAGCCAACAAAAAAAATTATACTAAAAGTAAAAGAAGTTTTTGTAAAAACTCCTATAATTACTTTTCCTAAAGGTGCGGGATTATTATACGAAAAATTTATAGAAGAAGTACCGATAGATATTTTAGCTGTAGATCAAATGGTCCCTCTTGAGAAAATGAAAGAGTGGAGTAATAAAGTAATAATACAAGGTAACTTAGATCCGGTTATATTATTAACTAATAAAGAAATTATTAAAGAAAAAACTTATAAAATCCTTCAAGCAATGAAAGGAAAGAATTTTATTTTTAATTTAGGACATGGTATTTTGCCTGAAACACATCCAGAAAATGTAGAATTTTTGACACAATATGTTAGGTTATATGAACAAAAGAATAGCAATAGTACTTTTTAATTTAGGTGGTCCAGAAGATATTGAATATGTAAAACCTTTCTTATTTAATCTATTTTATGATAAAGCTATAATTAATTTACCAAATCCTTTACGTTATATTATTGCTAAAATAATTTCTATTACTAGAGAAAAAAAATCTCAAAAAATTTATTCTTTAATTGGTAGTAAATCTTATTTAATTCAGGAAACAGAAAAACAGAAATTAGCAATAACTGAAAAGTTAAAGGAATTCATAAAAGAAGATTTTATTATTTTTATAAATATGAGATATTCAACACCATTTGCTAAAGAAGTGATAGGTCAAATAAAAGAATATAATCCAAGTGAAATAATATTATTGCCATTATATCCTCAATTTTCAAGCACTACTACAGGATCATCGGTTAAAAATTTTTTACAAAATATTGATATTGATATTCCAATTAAAACAATTTGCTGTTACCCCATAGAAGAAGATTTTATAAAAGCTCATGTTTCCATAATAAAAGAAAAACTATACGATAAAAATTTTCGTATATTATTTTCTGCTCACGGATTACCTAAAAGAATAATAAAAGCAGGTGATCCTTATAGCTTTCAGATAAAAGAAACGGTGAATAAAATAGTAAAAGAATTAAATATAAAAGATCTAGATTATAAAATAACTTATCAAAGTAGAGTAGGACCTATAGAATGGTTAAAACCGAATACGGAAGACGAAATAGAACTAGCAGGAAAGTTAAAAAAAGACATAATTATTGTACCTATATCCTTTGTATCTGAGCATGTTGAAACACTAGTAGAACTTGATATTGAATATAAATTAATCGCAGATAAATATAAAATTCAATATACTAGAATCCCAACACTTGGAACAAATAAAATTTTTATTAATAGTTTGACAAATATATTGCTACGTTTTATTAATAATACTAATACCAATTTAGTTATGAGTAGCTCTAGTAAAAGAATATGTCCAAACAAATTTACTAAATGTTTATGTAACTTAACAAATTAATAAGGAAAATAATTGCAAGAAAAGAATGGAAAGTTACTACCTATGGTTTAAGTCAGCACATCTAATATCTGCTATATGTTGGATGGCTGGGCTTCTTTATTTACCTAGAATATATGTTTATCATACCAAAGCTAAAATAGGTAGTGAACTAGATAGTACTTTACAAGTAATGGAGCTAAAATTACTCAGATTCATTATGAATCCAGCAATGATTAGCACATTTATATTTGGTTTAATAAATGCTCATATTTACGGGTTTGTTGCTCTTGATACTTGGTTTCAATTTAAAATGTTTGCGGTATTGATTCTAGTTATATTTCATGGTTTACTTGCAAGATGGCGAAAAGATTTTGCAAAAGGTAAGAATGTTCATTCAAAAAAATTTTATCGCATAGTTAATGAAATTCCAGCTATATGTATGGTTATTGCAGTAATAATGGTTATAGTCAAACCATTTGACTAATTATTATATTAGTGTTTCAGCTTATAACTGGAATAAATAACAATTAATATAGTGCATGCTATATCTCTTTAGCAATACCAAATAATTGCTTCTATAAATTCTGCTTTTATATTAATTCAAAACTATTTTACTATAGCTCACTTTTAAGGTTTTTTGTTTATATTTATACTTATCTTCCTTAAAATTTTTACATAATAGGTATTTTTGGTAGTTAAATATTAAATATATAGGTTCATTACTTCTATTATACAATCTATTTTGGCTAAAAAAAACAGAAACGTTTAAACAAAAAACGATTAGTTAAAGTCAATATATGAAATAATTTAAAGTATTAAGTATACTGTACAAGATATGAGTTTAGTGAGAAATTGATTCAAAAAACTATTAAAAAAATCATTAAGTAACAAAAAAAAGAATTATGTTTAAAATTGGTTAGTATAAGCAGATTAAAGCAAAATTGATTTTTACAGTTCTTGCTGAATTACCTGTTAGTCAGGTAATGTAATAATAATGAAACAGGAATGGAATAAAATACTAGGCAGTATTAAAAATTGCTACTAATTAGTTACTATTCAAAAACTATAATTTGTAGCAGTAAATAGTAGTAAAAAGTTAATTAAACTTTACTACAGGTGGTAGTGACATTAATATTGCTTCAACATTTCCATCGGTCATTAAGCCGAATTTAGTACCGCGATCATATAGTAAATTAAATTCTACATATCTACCTCGCCTTATAAGTTGGTATTCTTTCTGTTCAGCTGTCCAAGGTAGAAATAACTTACTTCTAACAATTTCAGGATATACTGACAATAAAGCCTTACCTATGTCCTTTGTAAATGCAAAATCTTGTTCAAAATTACCGCTATTTAAGTAATCATAAAATATTCCTCCTACTCCTCTTGGCTCTTTTCTATGTCTTAGATAAAAATATTCGTCACATTGTTTTTTGAATTTAGGATAATAGCTAGAATCATACTTATCGCATGCTTCTTTAAAAGCTGTATGAAACTTTGCAGTTTCGTTTTCTTCTGGATAAAAAGGTGTTAAATCACCACCACCACCAAACCAGTTTTTAGAAGTTTCTATATAACGAGTATTGAAATGCATAGCAGGAATTAACGGAGATTTAAGATGAGCAACTACTGATATGCCTGTTGCAAAGAATTTTCCATCTAGCTCTGCTCCAAGAATCTCAGAGCGAAATTCTTGAGAGAATTCACCGAATACAGTGGATATATTAACACCGACTTTTTCAAATACTTCTCCTTTCATGAGAGACATAATACCGCATCCACCACCATTACGTTTCCAGCTTGTGCGTACAAACTTAGCCGGTTTTAAACCTTTTATCTGTGCATATTTTTCTTCGATTTTTTCAAATTCTTTGCACAACAAATCACGTAAATTAGTAAACCAATTACTTGTTATTTCTTTATTTTCTGTGTTCATAATTATTAAGTAACGATTTAATTACTTTCTTCATCGTATACATAATTATTAAAAATATGATGGCAATAATCATAATATAAAAAGCTGGAGCATAAAATAAACCTGTATGCTCCACAAGCCAACGAGAAATAATAGGCGAAGTTCCGCCGAATATCGCTATTGCAAAATTATAGCTAAAAGCAACGCCGGTAAATCTTTGTTCTGCTGTAAATAATGATATAACAAATATATAAGCAGTACCTGCTATACTTCCTGCGAGTATACCAAGTATTGTAAGAGCTATAATTTGTTGCCACATCTCTTTTGCTGACATTAGTAACATGGTCGGTAAAATTAATATCAAGATAGCAACACCAACAAGCATTGCCATTTTAAATTTTCCAATAATATCTGCAGTACCTCCGGCAAGCGGCATCGCTATCATAGCAACAAATGAACTATACGCTAAATATGATAAAGCAATAGTATTACTAAGATTCATTACATTATAATAAAAAACATTTATATATGTTTTTACTAAATACATAACGCTGCTAGCGATCGCACCTATGCAGATGGTTAAAAACATAGATATCCAAGCAGTTCTAATTACATTAGAAAAAGGGGCTTTCAGAACTTGTTTCTTTTTCTCAATCATTTTAAAAATCGGTGTTTCCGATACACGTAATCTAAAGTAAAATCCAGCAAAACCCATCAATCCACCAAGAAGAAAAGCAAAACGCCAAGCAAAATCTATATAAGAAAAATAACGTTCAATTATTATACCGATAAATGTTGCAATTAACGTACCTGCAATATTTGAGCCATGTACTAAACCTGCTGTAAATCCGTGTCTTAAGTTTTGGCGATGTTCAAGGATAAAAATAGCTGCTCCGGTTCCTTCACCGCTAATACATAATCCTTGAATAAGCCTCATTATAACTAAAGTTATAGGAGCATAAATTCCAATACTTGCATATGATGGTATGAGACCCATAATGAAGGTAGGAATAGTCATACCTAGCATCGAAATTATTAAAGCGACACGTCTACCGTATCTATCGCCGATATAACCAAATAATATGCCGCCTATTGGCCTTGTTAGAAAACCAACCGCAAATACTCCAAGGCTTAGAAGAATTCTAATGAATTCTGATTCACCTGGGAAAAAAATTTGTCCAATAATCAGTGAAAAAACTGAATATACCGTAAAATCATAATATTCGAGTACATTACCTGAAATAGCAGATAAAAAAATCAACTTAGATCTATTCATTGAATTTAAAATAAATTAATTACTAATTATTATTATAGACAATTTACATCATTTATAAAGTGTAAATATCATTTTAACTAAGAATAAGAAAGTTTTATTAGGAATGATTACAGGATAATGGTTTTAAGTATTTATAATCTAGTTTAGCACTTGTTAAATGTTTTATATTAAGATTCGTAACATCTTAAAAGTCTGAGTAGTCTTCCATATATCATAAATATTTTATGTTTATAGCAATGCTTAGATAAACCATACTACTTTTTTATATAAACTAAGTTTTGATTTTGTAAAGCTTTATCTTCTAAATCTAAGAATTTACCATTTTTTAATAATAATTTTATTAAATTTTCGTAGCTTATTAAGTGTTACATCCATCAACGTTAACGTTGACTCTATATTTGAATATGTTTAGTTTTGGCAGTATTTAGTTATGAACTAGTGAAGTGTTGATATAACTGTAACAAATAGCATTAACTGTAACAGTTAAGTTTAAGAATACCTTGTTTTGCTTCTACATATTTGAAAAAAAGTGATCCGATAAAGCGTATTAATAATCTGATTAAAGCTATTTCATATTTAATCAGTATTAAGTATTTTCTAGTATAGAATGATGTTATCAAGTCTATAAAAATTTGCTCATTTTTGGAAATGTATTGATACCATCAACATGCATAAATATATCCATTGTTCTATCTATAGAATTCTTTTATTTTTCTCTTAAATATAGAATGAATTTTATCAGGTTTTGCTGAAATTTTTACTACTTTCATCTTTTGCAAAACCATTAATAACTTTCTAATACTAAAGTTTTGTAAACACTATAGCTTCTAATCAGTTATAATGTTATTACATGAATTTATCACTGTATCTAAAAAATTAAAAAACTAGACCATGTAGTCAAGTCACGATATGAAACTTGTATTTTATTTAAAAGTAACTTAATATTAGATTTCTCTTAGAAATAATGTATAACTATGGAAATTGTTAATAGTCTTGATGTATCTGTCTCTTGTCATGGCAAAGAACCTCTATATGGTCATCCAAAAGTTTATTTAGAGATAGATAAAGAAAAAAATGAAATCATTTGCCCATATTGTAGTAAGAAATTTAAATTAGTAACAAAGTGACTATAAAATTTCTATCAGAAAGTACTATCAATAGAATTGCTGCTGGTGAAGTTATAGAAAGACCTGCATCAGTAGTAAAGGAATTAGTTGAAAATGCTATTGATGGAGGTAGTACTAAAATAGATATTATCTTAGAACGTGCTGGTAAAAATCTAATCATTGTTTCCGATGATGGTATAGGTATGACTGATAAAGAATTAGAAATAGCAGTTAAACGTCATACAACTTCTAAGCTTAATGAAAGCGATTTTTTTAATATTCATACTTTTGGTTTTAGGGGTGAAGCACTAGCGTCTATTGCTGCCATTAGTAAAATGCTAATTACTTCTAAGAAAAGAGAAGCTGATAAAGCATTTCAGATTAAATTAATTGGTGGTAATAAACAACAAATTACTGTTTCTGTTCATAATGAAGGTACTAAAATAGAGGTACGTGATTTATTTTTTGCAACACCTGCTCGTTTAAAGTTTTTAAGAAGCGATAAAACAGAACTTGCAGCAAGTATAGATATCGTTAAAAAAATCGCTCTAGCACATCCAAGAATTTCTTTTAATTTAATACATGACAACAAGAATCTTTTAAAACTTAAAGGTCAAAATAAAGATTCTGAAACTAATCTAAAACAGCGTATAATTGATGTAATAGGTGATGTTTTTATAAAAAATGCTGCTTATATAGATTTCAAAACACCTGATTTCTCTATTTGTGGATATAGTAGTATTCCAACATATAACAAAGCTTCAAGTGAAGACCAGTTTTTATTTATCAATAATAGACCGATAAAAGATAAATTACTACAAGTAGCTCTAAGAGTAGCATATCAGGATTATTTAGCTCGTGATCGTTATGCACTATGTGTTATATTCTTACAAATTGATCCGCAGCTTGTTGATGTTAACGTACATCCAGCAAAAGCAGAAGTTAGATTTCATGATCCGAATTATGTACGAAATATATTAATAGAAGCGATTAAAAATGCTTTAACAAATAAAAGTCAAATTACTGCGACTACTATCGGATCTGATAAAAATTCTTTAGTTAACAAAGAGCCTACGATACACAAAGCTACAAATGTTAATAGCAAAGCTAGCGAATATACTAGCTTTAATTTTAAGCGAAATACTGCTTATCATACATTACCGTATGGTAAAATAGAACAAGAAGTAGGAAAGTGTATAGAACACAATAATCAAAGTCATAAACAATATAAGTTTGGGGTAGCTAAAGCACAACTTCATACAACTTATATTATTTCGCAAACTGAAGATAGTATAGTAATTATTGATCAACATGCAGCATATGAACGTTTAGGATATGCAAAAATAAAATATTGTCTTAAAAATGGAGAATTAGTTAAACAACGTTTGCTTATTCCTGAGATAGTAGAGCTATCAAGCCAAAAAAAAGCAGATTGTTTATATGAAAATAGAGAAAAACTATTTAAACTTAGTTTAACTATAGAAAAATTCGGTGAGAAATCTATTATAGTAACTGAAATTCCAAATATCCTTGGAGATGTGAACGTACAAAAATTAATTCAAGATCTTGCTGATCATTTATCAGATTTTGCTAAGAATATGCCTTTAAAAGAGTTAATAGAACATGTGATAAAAATTTATATCTGTCATTACTCTATTAGAGCGGCACGAAAATTATCAGCAGATGAAATGAATTCATTACTGCGTCAGATGGAAAATATGTCGTTTTCAGCTCAATGTAATAACAATAGACCTACTTATATTGAGTTGAAGCTTAAGGATATTGAACTCTTGTTCAGATTGTAATTCTTTTTTAAGTAATAAGTTAGTATTAATTAAGTATATGCTGTTCTCTAATCGAGTATTTTACTTGACTATTCCCCAATTTTGTTTTATTCTACCTTCCTTAAGGAAAATAATATCTTAATTTAAGGTGTCATCTAATGGCAAAGAAAAATAAAAATGTTTTAGTAAGGCTAGTAAGTACTGCCGGCACAGGTGTTTTTTGGGTAAAAAAACGTAATCCAAGGACTCAAACTGAAAAACTTTCTTTTCGTAAGTATGATAAAGTAGTTAGGAAACATGTTCTTTTTAAAGAAGAAAAAATAAAATAAATATATGGCAGTAAAAATTCGTTTAGCTAGAGGTGGTGCTAAAAAGCGTCCTTTTTACCGTGTAGTGATAGCTAACGCAACAGCACCTCGTGATGGTGATTTTTTAGAAAAAGTTGGAACTTATAATCCAATGCTTGCTTCAGATAATAGTGAGCGTGTGATTTTAAAGAAAGATCGTATAGAATATTGGCTTGGCACTGGTGCTAAGCCAACTGAGCGAGTCGCAAAATTTATTGAGAAAGCTGGTGTTACTCTTCCTAAGAAGGTTAAAAAAGAAATGGAAGTTAAGGCAAAAAACCGTAAAGTTAGACCAAGTAAAAAGCAATCTAAAGAATCTTAGTTTATAGTGTTATAGGTATTTTCATCATTATGAGCAGATACCTTTATCCTGTGACTTGATTATGTGGTCAAGCAAATTTGAATATTGTAATTTCTCTAGAAGGTACCATCTTGTTAAGATACGGTACATAGTTTTCCTCTATAATATTAGCTTAGCCGGATTAGCTCAGTGGTAGAGCAACCGCCTTGTAAGCGGTAGGTCATCAGTTCAAATCCGATATCCGGCACCATCAAAATTTTTCTTGTTTCGTTATTCAATAGTTTTATTCACAGAATCTATTTAAAAAATATTTGCTGTTTTTAGTTGTTTCTCTTGATACTCTAGTTCTTAAATGAAACATAGAGTATTTTTTGATCAACGCAAAAGGTCTTACAAAGCAAATAATCATATAATATGCTTATCTCATTTAAAGTAATAAATTAATATTGTAGTAATAGATTTAACGAGTATAAACCAAAACCCTACACCAATGTTTCCTTGTAAATTTTACATGATAATGGAAATTGATATAATCAATATTGCAGTATTTAGCAAAATGTATTACATATAGAGCTGTAAGCTTTAAACTACAGGAATTTTAAACTCTAAAATGAAAGAAAATGGATTTTCATAATTAGTAATGTTTTTAGTGATTTAGATGTTGAAACCATAGCAATTTTAGATGCATTAATATTGGAAATGTTAATCTGAATTAATATGATACGATTTATAACTCTACAAAATCTTATGGATTATCAAGTTACTTTGAAATTAATGGAAGATTATGTTAACAAAGTAATTAACGATAATGAGCCGGAAATTGTTTATTTAGTAGAACATTCGGAAGTATATACAGCTGGCACTAATTATAAACAAGAAGAATTATTAAATTACGATGATATTCCAGTAATTTACACAGGACGTGGTGGTAAATTTACTTTTCATGGGCCAGGACAGCGCGTTATTTATCCAATTCTTAATTTAGCCTTGCCAAATCGACATAAAGATTTAAAGCTATATATAAAAATGCTTGAAGAATGGATTATTAATAGCTTAAATTATTTTGGGATTAAAGGATATCTTATTAAAGATAAAGTAGGAATCTGGATAAAAGTAAATAAAGGAGAATTTGCTAAAATTGCTGCAATAGGTGTTAGAGTAAGAAAATGGGTTACATACCACGGTATAGCTATAAATATTTCAACAGATTTATGTAAGTTTAATGGGATTATTCCTTGTGGACTTGAAAGTTCTTTAGTAACATCTTTAAATCAGTTAGGGATTTATGTTGAAATGTCTGAATTTGATAAAATTATTCAAACCGAATTTAATAAAATATTTAAATGATCAGAAAATTTTTACTCATAATTTTAGCAATTTTTACTCTTTGGGTCGGTGGTTTTGGTTATTATTTATATTTAATAAATTCTTATAAACTTAATAGTAATACTACTAATGCAATAATAGTATTTGCAGATGGGGGACATAAAATTGAAACTTGTATGGCTTTGCTTAAGGCAGGTTATGCGCCTATATTATTTATTACCGGTATAGAATCTACAGAGCGCTTTAAAAATTTGTTAATGAAACATAATGTTATAGAACAACAAGTAATACTTGCTCCAAATAAAATAATGTCTGAAGAAGATAATATTAAGGAAGCTATCAATTTTATTGTAACTTACAATCTTACTTTAATAACTTTAGTAGAGCATAATTATAATATACCTTTTATGCTGAATAAGCTTCAAAAAGCTATTCCTTCTTCTAATAATGTATATATAGTGCCATATCCTGTTTTTTCCAAACCAAAATATGATGTGTTATTAAAATCCTATCATCGTTATTTAATGAGTATAGTAAACTAAGCAATGCTTTGTGCTTAATTGATTTATTTTTAGTTATATGTTTTACAATCATGTCTGAAAATAGGTTTAAGTAAATTGGATAAGTCATTCTAAAGAGCTACAATAATGACATATCAAGTATCATCGTATTGTGGATTCTTTGCTTTTTTTGTATACCAATTCTTCATTTACTTGAAATGTATGCGTTTAATCTGACAAATCTCACTATTTTTCAAATTAAAATTTGTCTCACATCCTTAGGTGCTGCACTTTTTGCTAGTACAATATTTTAATAATGCGCTAAATAATTAGATATTACTGATGAAATATTGCTTGAAAATAAAAATAACATAATGCCTGTTACCTATATAAACTAAAATATTGAATAAAAATATTCTAAAATTATATCGGAATTCATTCATGAAGAGTGATAAAGTATTTACAAAAGAAAGAGTTAACTTTTAAAAAAGTAAGTATTAAATTTTCTATTATAGCTATAAAAAAGGTACTATGATGGTTCTGCATAAAATGCTGTGAATATATGGAATCACCATACTAATCTTAATAATTTGTTTAACTTTTTATAATTCTAAACAAATTGAATATATATGGTAATGTTTACTAAATAACTGTAATTGTATAAAAGTTGGTTTTATATTTCTTATTGTTAAAGTAAAAACAATAATTAATACATTTAACTGATTATATTTATATGTGATTTCTATGTTAGTTATAATAACATAAAGTTATTGAATTTATTAAAAAGTAATAAATTTATAGTAATAATTTTTTTTGTACTTTTATAAGTTTGTATAATTAAAAGAAGTAACATTATGTACACTCATTATTTAAAAAACTTAGTCAGCTTTAAGTCAGTAACGCCTAATAGTGCTGGAGCTATTGAATATATTGATGATTTGCTCAAGCAACACAGTTTTAAAACTGAAATAAAAATATTTGGTGATTCTAAAAAAGAGCAAGTCACTAACCTTTATGCTATTTTTGGTGGTAACGAGCCTAATATTTGCTTTGTTGGTCATGTAGATGTAGTACCGGCTGGCAATTATGAGTTTTGGCATAATTCTAATCCATTTAAATTTCATGAGCAAGATGGAAAGATATATGGAAGAGGTACGGTAGATATGAAAGGTGCCATAGCATGCTTTTTAGCTGCTAGTTTAAATTTTATAAAAAATAATACCGATTTTAAAGGTTCAATTAGTTTCTTGATTACTAGTGATGAAGAGGGAAAATCAAAACATGGTACTAAAGAAATGTTACAATATATTTATGATCAAAGATATAAGATAGATTTTGCCGTTGTTGGTGAACCCACTTGTGAAAAAGAAATAGGTGATACGATTAAGATCGGTAGAAGAGGAAGTGTTAACTTTAAATTAAATATAGTAGGTTTAGCTGGGCATGTAGCTTATCCTCATAAAGCAAATAATCCATTACCTTGCTTAATTAAAATATTGAATGAGTTAATAAATATAAAACTTGATGAAGGTACTGAATTTTTTCAAAATTCAAATCTTGAAGTAACAAATATTGATGTTGATAATGATACCTCAAATACCATTCCAGCAAGTGCAGCAGCACACTTTAATATACGTTTTAATAGTTTACATAATGTAGAAACTTTAAGGCAATTAATAGAGCAAATTATAAAACAATATTGTAAAGAATATAAAGTAGATTATAAGCTAGAATATAGTAGTTCTGCTGAAAGTTTTATTCAAAATCCTAACGATAATGATAAAATAAAAAAATTTGCTAATGTAATAGAGAGAACGTTAAAAATAAAATCTAAATTTTCTACAAGCGGTGGTACATCAGATGCAAGGTTTGTTAAAGATTATTGTTCCTTAGTAGAGTTCGGTTTATTATCTGATATGGCACATAAAATAAATGAATATACCAAAATTAGCGATTTACAAAAATTATATAATGTGTATTATAACTTTTTGATAGAAATACTTTGATGGCATTGTTGTGTAGATTGATATTGCAATAAGTTATATATTCATGTTGTTCTGAGGTTGCTTCGTTAATTGATATGTAATTTTTCGCAATGAAAATATGCGATATGCATCAATGTCTTATGACAAATATGTTATCATATGCGGATGTGATGGAACTGGTAGACATGCAAGATTTAGGTTCTTGTGCTGTGAGGCGTGGGGGTTCAAGTCCCTTCATCCGTACCACTTGATGAAGTTCCTCATAGAGGATAACATAAAATTTATGCAGCAATTTAGTATTTATCACACAAGCAACGAATTGTTTCTAAAAGCAATATTACGTCTTATAGAAAAATGTTATTACTCTAATTTTAAAAGTGTGATATTAACTACAGATGTACATCAACAAGAAATGCTCAATAAAAATCTTTGGACTTATTCACGTAAACAGTTTATACCTCATGGTAGTAAATTTGATCCGCAGCCTGCAAAACAACCTATTTATATTACAGATGAGTTACAAAATCCTAATAATGCTAGTGTTCTTGTTATTATTTCACCTACAGATATAGCAAAAATTTTACAAGTCAAAGAATATATAAAAGTCTTCAAAAGGATAATTATAATAACAGATTTACTGGAAAATTTAAAAGAATTAATTATTAAAATAAATAAATTTACTGGGCAGGAAAACAAAATAGATTGTTTTACTCAAAATCCTATTGGAACTTGGAATAAAATAGCATAATAAACTTATATTCTTTTATGTACTAATAAATATAATCCAATCGTTAAAGCAACAAGCAAATTGAAATAGCAAGCAAAAATAAAATCTAGATTTTTTGAGGCAAAATTTTGCAATATAAAATGAATTGCAGTAACAAACAATACTGTTAAGGCAGAAAATAATACTGGCATAAAAGTTGTTTTTTTACTATAAGGATATCTTAGAAAAACTGCAAGTGCTAAACAAGGTAATACAAAATTATATAAAGGCCAGATTATCCTTTGATGTGCTTCAGCAATTAATTTAATTTTTTTAGTAATAACTAAATCATGACTAGGGGTTAGTAATTCGCTTATATAATATTCGTTTGCTTCTTTATTATTTTGAGTCCTTTGTGATGTTAAAGAACTGTTATTTTGTAGCTTTATCATTAAAGAATCGAAAGTTAGCTGCGTTAAATTACCGTTTGCATCATATTCTTGTCTTAGACCTTTATTAAGTTCAAAAATTGGGTTGTTACCATATATATTAAGAGTACCTGAACCAGCAAATACTACTGATGGGTTATCAGCGTTGCGATTATCAAATATTATTATACCATTCATAATATTTCCTGTTAATTTTTTATCTATAAAGACAGTGATATTTTTTGTTATTTTATTAAAAGTTTTTTCTTCAATCATACTTGAGATATAATTATTTTTGATAAAATTTAAACGTGATTTTAAGTTTATATGAGATAATGGTAGGATCGTAGAAGAGATATAATAAGCGAGTAGCATAATTGTTAATGCAACATATAAAGCAGGTAATGCTAGTTGTATGTTATTAACTCCTGAAGTTTGTAATATAATTAATTGTCGCTCAACTTTTAAATTATTATAGATATAGAGAACAGCAATAACTGTTATTATTGGTAACAGAATAAATAATAAAGTAGGAAGCACTAAAACTACTAAATTGAAAAAGTCTATAACTTTTATACCTTTATCGAATAGATATAAAAGTTTTAATATTTGTGTTATCCACACTATACTAGTTACTGAAAAAGTAACTATTATAAGTAGTGGTAAGATATTTTTTATAAAATATTTTCGGTATAGTAACATATATTTTTGTATTAGTTTATTGATTTCATTTCCGCTTTGGATCGGAATCAAGTATATTTTAAAGCCTTATCTTATTTTCTAACCTATGATAAAGTGAAATACTTATTATATGATATTATGCCAACCTTTCTTATTATATTATTTGCAAAGATGTGATAAATTAATTTACCTATCACTATTGTTATAAATGCAATAATAATACCGTAGATTATATCACTTGGGTAATGCATAGCAAGGCTTATGCGAGATAAAGATACAAGTATAATAAAACAAATCATTAAGATTTTTATCGATAACCTTGTAGAGTTCCAAGCAAAATATGTTAACAAAATGCTAAGAGCTGCGTGGCTGCTTGGAAAGCTTGAAAGGCATCTTTCGTTTCCAGTATTTATTATGGTCACAAAACTATTTACAGGAAGACTGCAATAAGGGCGAGGTAAATTCACTGAAAATTTAAGAGTGGTAAAAATTAAACCGAATATCACGTATATTATACCGATTTCAACTAATTTATTATAACCATGCCAAAATTTATTTTGCTGTTCATTATCATTTTTAATTTTCTTTAATTGAATATAAAAATATATACAGTATAAAATATATATTAAGGCGAAATTAGCGATATTAAAACAAAATGAAATTATTTTTAAAAAATAAGGTGTAAATCCAATATTAGTAATTTTATTCAAAAATAAGAATATTTCTTGATTTAAGCCGTAAAAATTATAAAAAACTTCAAGCATCATTTTAAATATTTATGTTACAAGTAACAGTACTTGGGTGTGGAGCATCTATAGGCGTACCAGTGATTGGGTGCGAATGTAGTACTTGCACATCTCCTTCAAAGTACAATAAAAGGACTAGATCAGCAATATATATTAACGATGAAAATAGTCAAATATTAGTTGATTTCGGTTTTGATATTAGAAATCAACTCTTACGCGAAAAGATAAATAAGCTCGATTGTGCTATATTAACACATGGCCATTCCGATCATGTTAACGGTATAGATGACTTGCGAGTATTTACTTTTATGCAAGATAAGCCATTTGAGATATATACAGATTACAATAGTGTAGCACAGCTTCATGCAAAATTTGATTATCTATTTAACCTTTGTAAGTTACTTGCAACTAAATCTATTAATTTTTTTGATAAGATAAAAATTAATACTATAGAAGTACAGTTTTTTAGACAGCATCATGGTCCTATAGATAGCTTAGGTCTACGTATAGGTGATTTTGTTTATTCGCCTGATGTAATTGGCTTTCCTCCTGAATCAGAAAAATTTTTAAAAGATATAAAAATATGGATATTAGATTGTATGGATTACAGATCGAATCCGAACCATGCAGGACTTGATAAAGTTCTAGCATGGCGAGAAAAATATAATCCTGAGGAGATATTATTAACTAATATGAGACACACAATAGATTATCATGAGATTAAGAAAGTTCTTCCAAATAATGTTAAACCTCTTTATGACGGTTATAAATTTATGGTTTAATTTATGATTATTTTAGAAAAAGTTTCTAAACATTACGGTAAAAATTACGCAATTAAGAATATTGATTTAAATTTTACTACGAAGGAAACTACTGTAATCATTGGTCCTTCTGGAAGCGGTAAAACTACTTTGCTTAGAATTTTAAATAATTTAGAAGAACCAAGTAGTGGTACTTTTTTAGTAGATCAGCAGAAACTAATGCAAAAAGATAGAAGGAAGCTTTGTTTAAAAGTTGGTATGGTTTTCCAAAATTTTAATCTCTTCCCTCATTTTACTGTAGGAGAAAACCTAATGTATACACCGGTAAATGTTTTAAAACTGCCGAAAGAACAAGCCATTTCTATGGCAATTGAATTACTTACAAAATTTAAGTTAATACAAAAATTTTACGCATATCCGACAAGCTTATCAGGAGGGCAAAAACAGCGTATAGCAATAGCAAGAGCTTTAATGATGAAGCCAGAAATTTTGTTATTTGATGAACCTACTTCAGCGCTTGATCCTGAAAATATTAAAGATGTTATAGAGAATATAAATTTATTAAAAACTCAAATGAGTATGGTAGTGGTTACGCATCATTTGAAATTTGCAAAATTAATAGCGGATCGGATTATTTTTATGGATCAAGGACAAATTTTAGCAAATCAGCCTGCGAATGAGTTTTTTAAAAAACCGGCATCACATCGAGCTAGGTTATTTTTAGAAAATATAGGTGATTTGATGTGATAAGCGTATTTTATCATACTGAGCTTTCAGTAAAAACCCTTGTGTTTTTTACGATAAAATCATGTCATATAAGGAAACACAATTAATATTAATATCACCATTTTAAGTAATATTATTATCATAGTACAGTTTTGGTGCAGATATGAGTAAGAATATTAAAAAACTAAAAATCTTGAATTGTAAAAAAAATGTATTGCAAGGAAGCGAAATTGCAATTTTATATAAAGGTAAACAACGTTTAGAAATCAGAAACAATTATTACTGATAAAAGTTATTTCAGTAACGGCAATTACATTAATGATATATCAAGAAAATTTAGATTTTAAAAATTCACATTGCTATACTTAAAAAATTCTATTAATCTTAATTATTTAAAGGAGTAAAACAGATTATCAATTATTAGAAAAGATTAAAATTAAGCAAGTAATGAGTAACTTAAATCTTTTGATGTTGCTCAAAAACAACGTACTAGTTGTAAACTAGGAATACTATAAGTAACATAATTTTTAGTTTACTTAAAAATCAAGTTTAAATTCTACAATAGATAATTTACGTATAATGAAAACATATATAAATATTACCTCTAGGATATAATGTACAACTTGTTTATCTGTATTTTACAGCAATAATAGACATATAAGCGATAATAACTGCTGTCTGCATTGTTATCCAAAGGTTGTGCCTTTATCTGTAGATATAGATAGAATAATTGAGTCATATCATAACTTTTGTATCGGGTATTCTTAAAGCAAAGTGAGACTCAAATAAGTATTCTAACTCAGGGTATAATTTATTAGCTTTATACCAGATTATAGTGAACCAAGAATTGCGGTTTTAAATGTGCTAAGGCTTTTATCTAATTATACAGATTAAAATTATATCCTACGATAGAACTTTTTATACTTATCTTTCTTTACTTTTACTTATATATATGAATAAAAGACTCATAAAACTTATTTTTATTGTTTGTAGCACCGTAATTGTAACTGGTGTATTATACAAATATATTAATCAGAATTATCCAAAATTTTTTAAAGAGTCACAAAATATAGTGAGTTTTTATGCATTATTATTACTATTATTTAGTATAATTTACAGTACTTTTAGTAGAAAGGAAATACGTAGATTTTGTTTTCAATTAGCAATGTGGGCAGTAATTTTCTTAGTAATAATAACTGGTTATGCTTTTAGATTTGAACTTCATTACGCTTATCATAGAGTAATTTCTGCTTTAATCCCATCATATAAATGGTCTACCGAAGTTGGAGAAATTATTATAGCACGTAGTGGAGATGGGCATTTTTATATCAATGCTTGTGTAAATAACGTAAAAATAAAATTTATGGTAGATACTGGTGCAAGTGATATAGCTTTGACTAAAGAAGATGCACAGAAATTAGGATTTGACTTAAATAAATTAAAATATACTAGAACTTATCTAACGGCTAACGGCGAGAATAAGGCTGCACCTATAATCTTAAATAGTGTAGTAATCGGTACAGAATTTAAGAACATAAAAGGACATGTTGGGCTTGGTAATCTTGATATTTCATTGCTTGGTATGTCACTACTTGAGCGTTTCAAAGGTTTCAGAATTGACAAAGATTTATTGATATTGAATTATTAGACCTCATCGTCATTGTGAGTGGCCGCAATAGGTTTCTTTACAATCTCCTAAAAATCCTGAGATTAGTTTTCCATTCACAATGATGATTTAAGTAGTAAAGATGTAACTTAGAACGGTATTTTAAAGCCTGGTGGTAAGCTCATACCGTTTAAAGCTCCTGATAAAGAATTTTGTGAATCCTCATCACATTTTTGTTTAGCATCATTAAAGGCAACTTTAATTAAATCTTCAAGCATTTCTTTTTCTTCTGTTTTTAATAAAGATTCATCAATTGAAATCTTTTCAACTTCTCCTTTGCCAGTGATAATAATTTCAACCAGCATTCCGCCTGCTTTACCAGTATATCTTGTATTTGCCATTTGTTCTTGTGCTTCTTGCATTTTCTTTTGCATTGATTGTGCTTGTTTTAAAAACTGATTAAAATTTACCATAATTCTATCCTTTAATTTTTAGTAATATATCTGTAATTTTTACATTCGGAAAATGTTTTTTTATTAAACTAAAATCGTTACTTGTTTCAATCTTATTTATTAACTGACCCTTTAAGGTTTGTTTATTTTGCTCTTTTATTACTATAAATTCAGGCTTTTCTTTAGTAAAAGCAGCTAATAAATCTTCTATTTGTTTTTTTAGTTTGTGTGTAACTTCAAGACTATAGAGCTCTAATCTATTATCGCTGAGCTTTTTAAGTTCTGTATGATTGAGCAAAAAATAATATATATCTATCTCATTATTTTTATATAGATATTCAAGAAAATCTAAAATTTCAATTTTTTTTATTCCTGAATTATCTGCATTCATTATATTAGCATTAGAATCATTTAGTAGTGGCAGTGACGTTGAATATATAGATTTTATAACTAACATTTCCGTCTCTATTAGTTGATTATAGGAAATTTTTATTTCTGTAACTCCCTTATTATATATTTGCCATAAGATTGATAAGTGTGGTAAACTGATTTTATCTAATATGCTTTTAGTCCTATAATTAAATGATTCGTATATTGGTAAACTATAATTAGGTAATATTTTTACTTTGTTAAGATAAGCAATAAAATCTGCTACCGATTTTATAAAAGTCTCAAGATTAATCGAAAAACCATAATAAAGTTTATTGATTAAATTTATAGCTTTTTCTGTTTCTCTGCTAATTATATTTTCTATAAATTCTAATATAAATGAAGTGTCAACAAGTCCAAGCATTTGATTAATTATTTGAGGACTAATTATATTACCAGATTTTGCAGACATACTAGCTGCTTGATCTAAAATAGATACTGCATCACGTGCTGACCCTTCAGACTTATGAGCTATAATTCTTAATGCTTCTACATCAGCTATTAAATTTTCTTGTTTAGTTATATATTGAAGTAGTTTAAAGATTTCTTCAAAACTTAAACGTCTTAAATCATAACGTTGACATCTTGAGATAATAGTTGAAGGTACCTTTTGTACTTCAGTTGTTGCAAAAATAAATATTACGTGAGGTGGCGGTTCTTCTAAAGTTTTAAGAAGTGCGTTAAATGCTCCTTTAGAGAGCATATGCACTTCATCAATAATGAAGATTTTATGTTTACCTTGTAGAGGTTTATATTCAGCAGATTCTATAATTCGACGTATATCATCTATGCTAGTTTTACTTGCTGCGTCAATTTCAATTATATCTGGATGATTATGATTATTAAAACTGACACAATTTGTGCATTTTTCGCATGTTTTAATAGCCGTATTTTCAGTAATTAATGCAGAACAATTTACGGCTTTAGCAATAATACGAGCTGAGGTAGTTTTGCCAATACCTCTAATACCAGTTAAAAGATAACCTCCGACTAGTCTATCGTTTAAAATAGTATAGCTTAAAATTTTTACTAGTACTTCTTGCCCTTGCAGTTCAGTAAAATTGCTAGGACGATATTTCCTTGCAAAAGGAATATATTGATTAGATGAATTTTCTAGCACAATTATGATTGTTATTGATGTCGTTTTTGTCATTGCTGATAGTAAAGGAAGACGGTCTTCTTTATGAAGTAATAATAAACTTCTGAGATCACTTCGTCGCATTACTATAGAATTCCTATGGCAATGACTATTAATTGGTTAAGCAATGATACTAGTAATGACCCACAGAATCTTACCCTGGCTGCTTCTTTTCAGACCTGACCAACTAAGCAAGAGCAATGCCCACTACTAGCATAATTAACATAACCTTTTTACTTTGAAGAAACAACATATTTTTTTTCTATTTCTGATTTTATTAATCTTTCAGGTGGACTGAATATTTCAGGGTTTTTAAATTTAAATAAATCATCCGAAAATTTCTGTACTTTAGTTATTTTATCAAAAGTAATAGTTACTATATTATGGTCTTCAAATATTTTTAATTTTTCAATTTGTTTAATATTTTTATTAAAAGTAATTTCGCTACGTTTTTCTGTTCTAGTATGATAGATAGTAATATTAAAAATATTTCCTTTATTAATTACTGATTCAAAAACAAAATCCTTATCAAAATCCACATTATCTTCTAATAAAAAATTAAATATATTTTCACTAGGACTAATACGACTTACTTGTTCCATATCATAATCATACATCGATACGAAATTTTTAGTACCTATTATAACTAAAGGGAAAGGTGGATAATAATTGCATCTAAAATTATAAGGTTTTTGGATTAGCAATTTTCCTTTAACTATTTTACCGTAAGAATCTTCTTGAGTAAAATCTATCGCAACAGATTTTATCGTGCGTAGATAATTTTTAAACTCTGAGAGATGTATATTGTTATTTGCATATGCCTTAATAGAGCTTAAGCAAAAACAAATAACGGTTAAGAACAATATTTTTTTCATTTTTATTGTTTTGTATTTTAAATTATGTTTAAAATACTTTAATTATATTATTAAAACAAATATTTTATGAAAATCGTTGCTTTAAAAGAAAAAGTAAAAAATGAAACACGCACTGCTATAACACCTGAAGTAGCTGGATTACTGATTAAAAAGGGATATGCGGTGACTGTAGAAAAAGATATAGGGCTTTATGCCGGTTTTCTTGATGAAGAATATGTTGCAGTCGGCACTAAGATATCTTCAGTGCCGCTTGAAATTATTTCTGATGCTGATATTATATTAAAGGTACAACCTTCATCTGTTACAGATAAATATAGTGAGCTTGAATTCGCAAAGCAAGGAGCAATTGTTGTAGGATTATTATCACCATATTTAAATCATGAATATATAAAAGCAGCAGCTAAAAAAAATCTTACTACTTTTGCTATGGAATTCGTGCCAAGAATTACTAAAGCTCAAAATATGGATGCTTTATCTTCTCAAAGTAATTTAGTAGGTTATAGAGCGGTTATTGAAGCAAGCTATCATTATACTAAAGCTTTTCCAATGATGATTACAGCAGCAGGTACAATTTCAGCATGTAAAACTTTAGTGCTTGGTGTAGGTGTTGCTGGTCTTCAAGCTATTGCAACAGCAAAAAGGCTTGGTAGTATAGTTGCGGGATATGACGTAAGAATCGCTACTAAAGAACAGGTAGAAAGCTTAGGAGCTAAGTTTGTCTCTCCAGAATTACAGGAAGATTTGGAGGAAGAATCAGGTTATGCCTCAGAAAGTTCTGCAGATTACAAAGCTAAACAAGAGAAGTTTTTAGCTAAAATTATTAAAGGATATAATATAGTTATTACTACTGCACAAATTCCAGGGAAAAAAGCCCCGATGCTTGTTACGGACAAAATGATAGAATCTATGATGTATGGTTCAGTGATTGTTGATATATCGACTAGTACAGGCGGAAATGTAGAAGGTTCAGAGCCGGATAAAATTGTTACCAGGCACGGTGTTACCATAATAGGTTTATTAAATCTTGCATCCAAGATTGCTAGTGACAGCTCAAAGTTATATTCTAAGAATTTGTATAATTTTTTAACATATGCACTGCAAGACGGTCAATTTAATATGGATGATGAGTTAGTGCGTGATATGTTGATTACAAAAGATGGCAAGATTGTTAATTATATAATAAGAGAGAAATATGAATCAATTACCGATAATGGCTAAACAGGCTGCTGAAATTGCCTCTAATGCTCAAGAATTATCAAATAAGTTAAAAGATTTGGTAATAGATGCTAGTTGGCAAACAAACACAAATACTATAGATCCACTAGTGTTTGCTATAACTATTTTTGTATTAGCTTCTTTTGTCGGTTATTATGTTGTATGGAAAGTAACACCCGCACTTCATACTCCGCTTATGTCTATTACTAATGCTATTTCAGGTATTATAGTTATTAGTTCTATGATTGCTATAACAAGTAGTTCTGCTTTTGAGTTCTCCAGTCTACTTGGATCTTTTGCAACGTTGCTTGCTTCTATAAATATTTTTGGTGGGTTTATAGTAACAACAAGAATGCTTGAGATGTTTAAGAAGTAATGTCGTATTTTGTATTGATGAATACCACCATATTACTACATGAATAAACAACGTTGGTGACATTAAATTGCATTATAAATCCAGTTCTTTATATTCAACGGTAACTACTTCGTATGATTTTAATCCTTTTGGTGTTGTGACTTCTACAAAATCACCTACTGATTTTCCAATTAAAGCTTTGGCTATAGGAGAAGCGATTGAAACTCTTTTTTTAGTTATATCGGCTTCATATTCTCCTACAATAATATATGTTACTTCTTCTTCAGTATCGTCGTCGATTAAAGTAACAGTAGCTCCAAATTTTATGTTATCTCCCGATAATTTACAAATATCAATAATTTCTGCTCTTGCTGTCATATCTTCAAGCTCTTTAATACGCCCTTCTATAAATGCTTGTTTTTCACGTGCTGCTTCATATTCTGCATTCTCAGATAAATCGCCATGTTCTCGTGCTTCTGCTATATCTTCACTAATTTTTTTACGTTCTACGTGTTTTAAATGTTTAAGTTCATGTTCTAATTTTTTAAAACCTTTAGCGGTGATAGGAAATTTTGTATTCATAAATTATATTGTATAGATTTAGTAATTTTAGTATACTATTTTCAATAATATTGATTTCAGCAAGTATATTTGTAATAGTTAAATTTGTCAAATAAGCCTTTTTAATTATTTAGTGTTTCCCTAGATATAATAATTGTGATTGACTGTATATTTTGTTGTATTGTGGCAAGTGTCTAGATAACAATTAAAATACTCAAATTTGTATTTTTACATGGATCTCATAATAAATTACATGATGAAAACTGTATGTAGCAATAAATTAGTAATTTTATGAAAACCGAAGATTTTGACTTTGAGAAAAAGCGTAAAATTTTTCACATATCAGCTATAATATTCCCGATGTTTTATTTATTTGTTCCAAGAATCGCTATTGCGTTATTATTATTTATAATAACTTCTATTACATTATATTTAGATGTAATACGCCATAATAATGCAAAAATTAGAAAATTTGTAACTCGATTTTTTTCAAAAATTATAAGATTAAAGGAAAATAACGGTACTTTTGCTTTAAGCGGCATTAGTTTTATGATGTTAGGTTTTTTCTTAACTTCTATTCTTTTTCCTAAAAATTTAGTTATTTGTTCGTGGTTAATTTTAATTATTTCAGATTGTTTAGCGGCTCTTGTCGGTATTAAAATAGGAAGTAGTTTAAGTAATGGTAAATCAATAGCTGGTTCTTTTACTTTCTTCGTTTCTGCGCTTTTTATAAGTATATTAGTGTATTTCTATTTAGGATATAATACAAGTTTTGTTATTATCATTATAAGCTGTATAGGTGCTACGGCAGTTGAATTTTATTCAAAATATTTAAGAATTAATGATAATTTATCTATACCGCTTTCTTATTGTTTATCGACTACTATTTTTCCCTACATATTGTAATATAATGAGAGTTACACAAGAATTTTATGAGTTTTTAAGAAATCGCATTAACATATCTGATGTAGTAAGACAAAAATTAGCTTTAACTAGAAAATCTAGTAACTATGTAGGTTTATGTCCTTTTCATCAAGAAAAGACACCATCTTTTACTGTTAGTGATAGTAAGAGATTTTTCTATTGTTTTGGATGTAAAGCATCTGGTGATGTTATAAAATTTACTTCTAATATTAGTGGTCTGTCCTATAATGAATCTGCTATAAAGCTTGCAAACGATTATGGTATAGAGATACCGAAATTAACTGTAAAACAGAAAGAATTTTATGAAGAATCTGATAATATCTTAAATATTTTAGAGCTTGCTAATAAATTTTTTAGAACGCAATTAACTCCTGAAATACTAAATTATCTATACAAAAGAAATATTACTGAAACGACAATAAAAGAATTTTCAATAGGTTTTGCACCAAGAAATAATAAATTTGAAAAATTTTTTCTTGATAAGAAAATAGATATTACAAAGCTTGGTCAAGCAGGTTTAATTGGCAAGTGCAAAAATGGTAAAATATATAATCTATTTTCTAATCGTATTACTATTCCAATTAGAAATATTTACAATAAAATTGTAGGTTTTGGCGGCAGAGTATTAGGGAACGAGTTACCTAAATACTTAAATTCATTTGAAACTATAGTATTTCAAAAAAGTGACATTCTATACGGTGAACATAAAGCGATAAGCAGTAGCTATAAAAAAAATCGCTCGATTTTAGTAGAAGGTTATTTTGATGTTATAGCGCTACATCAAGCAGGTTTTAATGAAGTGGTTGCAAGTCTTGGTACTAGTGTTACCGAGAGTCACTTACATAAATTATGGCGTGCTGGTGATGAAATTATATTATGTCTTGATGGGGATAATGCAGGAATAAAAGCTAGTATAAGAACTATTAACTTAGCATTACCGCTTGTTAATAGTGAAAAGAAAATTTCTTTTATTAGGTTACCAAGCGGACTTGATCCTGATGATGCAGTAAATAAAAACGGTGCTGATTTTTTTGCAAAGCTTATAGATAAAAGAATAAGCTTATCAGAAATGATTTGGCATATTGAATATAGCGGCAAGAATTTTAGAACTGCAGAAGAAAAAGCTAATTTAGAGAAAAATTTAAAAGATTACTGCAATAAAATATCAGATAGTAATTTAAAAGCAAGTTATTACAGGTTTTTTAAGGATCAAATATGGCAAAATTTAGTCACGAAGCAGAAGAAAATTATAACTCCGAGCTCAAATTCAGTTCTTATAGCTTCAAGTCACTGCTATTCAGAGCTTGAAATGCTAGAACATGCTTTTTGTGCTTTGTTAATTAAGTTTCCTATAATGTTTGCAGAAAAAGATATTAGGGATTTCATCTTAAATTTAAATTTTAATAATAAATCGCTTGAAGAATTTCGTAATTGGTACTTAAATGAGATTATAGATAATAAAGTAAAAGAAAATGAAATTACTGCAATTGTGGAAAAAACTAGCTTTTTTGATATTTTTTTATTATTATCAAAAGCTGATAATTTGTTTTTAGATATCTCATTTAATAAAAATAATATCAGACTAGATTTATTATGGCAGTGGCTCTATAAAAAATATTATCTAATAAATTTACAACAGGAATACGCTATTAGCATAAACAGTAATCATGACTTTGAAAAAGTTTTGTTATATAAAAAAGAAATTATAAAGATTGTAAATGAGCTTCAAGTTTTAAACGAATCTTTTATTAATCAGACGATAACTTAAAAAGCATATAGGTATTTAATGAGCAATAGCAATATAGACAATGATCCAGCGAAAATAGATAGTTTACTTAAAAAAGCTAAATCTAAAAAGATACCGGTCACTTATGATGATATAAACAAAGCTCTCCCTCTTAATAAAAATCCTTCAATAAGGCAATTAGAAGAAGCTATATTAAAATTTTCTGATGCAGGAGTAGATATTTTAGAATCTAATGAAGATGATGAAATTAAGCTTGATATCGGAATGGATGAAGAATTTAAGCTATCTACCAATGTTGATAATGAATCTGAGGATGAGGTAGAGGAAGAAAATATAGGTAGTACTGATGATCCTGTGAGATTATATCTTAAGGATATGGGAGGCGTTGATCTTTTAACTCGTGAAAATGAAGTAGAAATAGCAAAAAGGATTGAGGAAGGACGTAAAACAATGACTGCTTCCTTATGCAGAAGTCCTATTGCTATGCGTTGTTTTATAGTATGGTATGAAGATTTAGTTAATGAAAAAATGTTACTACGTGATTTGATCGATTTAGAAGCTAACATGTTACATGATGAAGTGCACGAAAATGATGAAGAACATAATAGTGAAACTGAAGTAGAAGAGCATGAAGATAATCACTTATCTATGTCTAGAGTAGAAACGCAAATATTGCATAATATCATAGATCGTATGAAAAAGATTTCTTTTATATGTGAAGAGCTACTAATTGAAGCTAAAAAATGTTATGAAGAATCTTTTGAGCCGAAAGTTTTGCAAAATAGCAAAAAATATAATAATAATTTAGAATTATTAATAAATGAGGTTTCAGAAATACATTTTAATTCTAAAAGAACGGAAGAGATTCTAGGGAAAATGTATGGAATAAATCGTGATTTAATTAATAAAGAAACGGCTTTTTTAAAACTTGCTGAAAAATACGGAGTCACTCGTCAAAATTTCCTTGATGAATATATAGGATCGGTTATCAATGCGGCATGGAAAGAAAAAATGCTTAAAAATAAAAAAGTTGCTTGGAAAGAGTTGATTACTAAAGAATCGGATTATATAGATCAGATGATTAATGAATTATCAGTTATAGAATCTAATACCGGTCTTTTAGTTAATGATTTTAAAAAACTAGTGAATACTATTCAAAAAAGTGAAAGACAAACGCTGCAAGCGAAAAAAGATATGATAGAAGCAAATTTGCGTTTAGTCATATCGATTGCTAAAAAATATGCTAATAGAGGCCTACAGTTTTTAGATTTAATCCAAGAAGGTAATATAGGACTTATGAAAGCAGTAGATAAATTTGAATATCGTCGCGGTTATAAATTTTCTACTTATGCCACTTGGTGGATTAGACAAGCTATAACAAGAGCAATTGCAGATCAAGCAAGGACTATACGTATTCCTGTGCATATGATTGAAACAATTAATAAGATACTTCGTACTTCAAGACAAATGCTTAATGAGCTTGGATATGAACCAACGGCAACAGAAATTGCTAACCGTCTTTCAATGCCGCTTGATAAAGTGCGTAAAGTTATGAAAATAGCTAAAGAACCTATAAGTCTTGAGAATCCAGTGGGTGATGATAGTGATGGTGGTCAATTAGGTGATTTTATCGAAGATAAGAATGCAGTAGCACCGATTGATGCGGCAATTCAGTCAAATTTACGAGAAGTTACCACTAGAGTACTTGCGACACTTACGCCTCGTGAAGAAAGAGTACTGAGAATGCGTTTCGGTATAGGTATGAATACTGACCATACATTAGAAGAAGTAGGACAGCAATTTAAAGTAACTAGAGAACGTATAAGACAAATTGAGTCAAAGGCTTTAAGAAAGTTACAACATCCAATTAGATCAAAAAAACTTAATAGTTTTAGAAACGGTGGAAAACGTGGTGATGGTAACCCATCAGATTTACTAGAAGCATGATAATACTTAATACTGTCATTTTCTGTGGTTTTATCATGGGATATTGTATCATAGCAAGAATTCTGAGGTCCAATGATAAAGTCACAGGATGACAGTATGTATCGATATAAAATTACAATTGAATATTTAGGAACACATTTTGCAGGTTGGCAAAGACAAGCAGGAGTGCTTTCGGTACAGCAGATATTGGAAGAAGCTATTTATAAATTTTCAAGTGAACAGGTAACATTGTTTGGATCAGGGAGAACTGATGCTGGTGTACATGCTATAGGTCAAGTAGCACATTTTGATCTTTCAAAATATTTAGAACCTTACAAAATTATTAAAGCTATTAACTATTTTGTAAGACCGTATGATGTAGGAGTATGGAATTGTGAATTGGTCTCCAATAATTTTCATGCTAGATTTTCAGCTATCTCGCGGCATTATATATATAGAATTATTAATAGAACTTATCCATCCGTAATTGATTTTAATAGAGCATGGTGGATTAGTTCACCTTTAGATATTCTAGCAATGCAGAAAGCTGCTGCTTATCTATTAGGCAAACATGATTTTACTTCATTTAGATCTAGTTCATGTCAATCAAAATCACCTATTAAAACTTTAACTGAAATTAACATTATTAAAGAATACGAAGAAATAAAATTATATATCTCAGCTCCCTCATTTTTACATTATATGGTACGTAATATTGTAGGTAGTTTAGTACTTGTTGGTAAAAATATTTGGCAAGCAGAGCAAATTAAAAATGTTTTAGATGCAAGAGATAGAAAGATAGCTGGTCCTACTGCTCCTGCATTCGGGCTTTATTTTATAAAAGCAGAGTATTAATTTTTTTAAAAAGAATATCTTATAATATTAAAGAAAAATCTTTAATATTATTTATTCAAAAATTTTGAATCTTCCGTTACTAAATACTTTTCAGTGCTACTATAACAGTAGCTGTCTTATCGTAAGACGGAATAAGTGTAGACAATTAATCCTACACTTCACTTAGCAATTACGATAGCTAAAATCTTCTATATTTAAAATGATTTTGCAATTTAGATAAAGAAGTCTAATTGTAGAAAAGTAGACAAGAAAATCTGAGTAATTGAAATATTTTTTAAATGACAATTATTTACAAAGTTAATATACAGTAAGTACTATTGATAAGATAAATTCAATGGTTAAAATAAATTTTATTTTATAATCTTTTGATTATATAAAATATTTTTCTCAAAGTTCAAGCAATGAGTGATGTGTTTTTATTGATATCATATGAAATAATCGTAACAAAGCATCAGAAACATTACTATGTTACTATATAATCTTTAACTTTAATTTTTAAAGAACTATTGTTTAATATCAAGAAATGTACTTTAAATTTAATAAAGGAGTTAATATCTCACCTAATAACAAAAGGAAGTATATAAATGTTAAAAGAAATTAATAATAATTCTACAATTAATAATTGTAATACTTATACATAAGATATCATAAAGATTTCGTTCTTACTGCTTATCTAATAAATATTAGATAAGCAGTAATGCTAGGCTAGCAGAGTAATAATAAATATAATGTTTAGTTTATGTGCTAATCATGAAATGTCTTATAGATAGAAATATATATTGTTTACAAAAATACCTTTATTAAATGTCAAAATACTTATTGAAAATGTAGAATATATATGAGATTCATCAAGAAAAAATCTAATCTTATTGATGTGAATACATTTCTTTCATAATATTGTCTAAGTTAAATTATTATAGATATTTTGTTAAATATATCAGTAAAATAGCGAAGTGTTTATAAGGAAGCATTAAAATGTAAAATTAACAGAAATTTTTAGATTTTCAATCTATAAACCGTTTTAAATAAATAAACAATATATAAAAAATTTTAATCTTACAACAAAAGCGGTTATAGTACTAATTCTATTATTGTGTGATGAATCTGAATGTAAATTCTTAGTAGAAATTCTTAATACTAGCAATTCTTTTTTAATTGCAGGAGAAAAAACTATAGTCGCTCTTAAGTATATGCGGAATCTTGAAAAGATGATCAAAAAATGAAAGAAATAAATTGGTTATTAAACTTTTTTATTAAAGCATAATATAAAGAAAAAGCACAACAATTAATTCACTAACGAAACACAACATAAAATTTCTGTAGCTTGTGCTAAATAGCACAAGCAAGGTAGGAAAATATAGAGGAGGTTATTGAGTAATATGATGAAACTTAAAGTTATAAATAAAATTATTTAGTTATAAAATTGATCATTTAATAAGATGCTTCTTATTTCTTATTTTGTATACAATATATGTTTAAATTATTTTGCAGAAAATTTCTTAATACACCAGCATCAATTAGATATTAATTAACTCAAGTATCAATTGAATTAAATGTTTACAAAGCATTTGATTGTTATATGCCTTGATTTATAAATTATCATACAGCAATCATGATAATGTAGTAGATTTTGCTACTAAATAATAAATAGTAGAAGTACTTAGGAGATTGGACGGTATAATAATAATGACGCGTGGAGCAGATATAGTTTCTAAGATACATTGTTGAGCATGTATAGATTTCACCTCTTTATCATCCCGAACCTTGATCGTGGGATTCAAAAATACTAATAATTTTAGTATTTTCTGGAACTCGTGATTAATTTACTAGATTATAGATGTTGATACATGTCATAATAATAAATGTCAGGCATCTTATGTTACTATTAAGCTCCATAATTTTTTATTAATGTTAGTTAAGTTAATTATATCATTTCCTCCAGCTTGAGCAATGCTTGCTTGTCCACCTCCACCACTGCCGCCTAAGAATAAAGAAAGTTCTTTTGCAATTATACCTGCATTAAATTTATCCGTTATAGCTTTACTCACTGCAACCGTAATGGATAATTTATCAACCCCGTGGGCAATATATACCACTATTAAATTTTCTACTTTTTTTGTTAGATTTTCGGCAGCTTGACGTAATATTTTATTATTTATATTTCCTACTTCTTTATACAATAGCTTTATTCCTGTTATTTCTTTAGTTTGCTTTTTAATTTGCTCTATACTTAAATCTAAACTAGCTAAATGAGCTTTTTCTAATTCTTTCTCAAGTTCTTTGTTACGCTCTAAAATATTGATTACTTTGGTAATAAGCTCATTTTTATTAGTTTTGAAACTGCTTTCTATCGATTTAAGTAAACTATCTCTCTCTCTTATTAATTTAATTACGAATTCACCACAAACCGCTTCAATCCTACGAACACCTGCTGCTATAGCGCTTTCGCTTATAATTTTAAAAGAGCCAATATCTCCAGTACGTTTAACATGCGTACCGCAGCATAATTCTAAAGAAGTTTCACCTATTTTAACTACTCTTACTTCGGAGTCGTATTTCTCACCGAATAGTGCAATAGCTCCTTGCTTAATGGCGTCTTCGGTAAACATAACTGTAGTAGTTACTTCATGATTGTTTCTTATAATTTCATTTACCTGATCTTCAATTAGAGTGATTTCTTGGTTGGTTATGGCTTTAGAATGATTAATATCAAAGCGTAAATAAGTAGAAGTGACTAATGAACCTTTTTGTATAACTTGTTTACCGAGAATTTTATGCAGTACTGCGTGTAATATATGTGTTGCAGAGTGATGAATTCTTAAATTCTGCCTATATCTTATGTTTATATTTAAATTAGCATTTTCTCCTATGTTAATCTTTCCCTTTTTCAAAATACATTTATGTACTATAATAGAGCGTAAATATTTAAAAGTATCTATTACTTCTATCTCAGAACCTTGTGAAAATATCATCCCAATGTCACCCATTTGACCACCAGATTCTCCGTAAAAAGGAGTTTGATTGGCAATTAACAAAAATTGCGTATTTATTTCCTGAATATTATCAACTAAATTGTTATTTTTAATTAATGCAATTATTTTACATTCTGCTTCATTAAGTGTATATCCTAAAAATTCCGTACTACCGTATTGCTCTTTGATATCAAACCACAACTGATCAGTTTTTGACTCACCTGAGCCAAGCCAAGATTTTCTAGCACGTTCTTTTTGTGTAAGCATTAACTCTTCGAATCCTTTATGGTCAACAGTAATATCACGATTTTTTAGAATATCTTCGGTTAAATCAAGTGGGAATCCATACGTATCATATAATTTAAACGCTACTTCTCCTGATAATTTACTACCTTTTGTTAGTGTTTTTGTCTCTTCTGTAAGGAGTTTTAATCCACGTTCTAAGGTAGTTTTAAACCTAATTTCTTCTTGTTCTAGAATGCTGCTTATAAAACTTTCTGCTATCTTAAGTTCAGGATAAATATTGCCCATTAAATCAACAAGTTTTGGTAATAATTTATACATTAATGGCTCTTTTGCTCCAAGCATATGAGCATGACGCATAGCTCGTCTCATGATTCGACGAAGTACGTAACCACGTCCCTCATTTGAAGGGATAATGCCATCAGCTATTAAAAAGCTGCTTGCTCGTAAGTGGTCTGCTATAACTCGGTAAGAAAATTTAGCTTCTCCATCTACTTTTATTTTTACTATATTTTCAGTAAAATTAATTATTTCTTGAAATAAATCTATGTCATAATTGTTGTTAACATGCTGTAATACTGCAGTCATACGCTCGAGTCCCATACCGGTATCGATTGATTTTTTTGGTAACTCTATTCTAGTCTCTTTATTGATTTGTTCATATTGCATAAATACCATATTCCAAATTTCAATAAATCTATCGCAGTTTTCATCTTTAGTACCTGGAAGTCCTCCATATATTTCTTCTCCGTGATCGAAAAAAATTTCAGAACAAGGTCCACAAGGACCAGTATCACCCATAGACCAAAAATTATCGTTTGTTTTAATTCTGATTATACGATCATCCTTCAAACCTGCTATTTTTTTCCAATAAGAAGCTGCTGGATCATCAGTATGGTAAATTGTTACATAAAGCTTATCTTTTGGTAGCTCAAATTCTTTAGTTAATAAATCCCAAGTGTAATATATGGCTTGTTCTTTAAAATAGTCACCAAATGAAAAATTACCTAGCATTTCAAAAAAGGTGTGATGTCTTGCTGTATAACCGACATGCTCAAGGTCGTTATGTTTGCCTCCGGCTCTAAGAGATTTTTGACTAGTGACTGCTTTATTATAAGATCTTTTTTCTTGTCCTGTAAAAACATTTTTGAATTGTACCATGCCAGAATTAACAAACATTAAACTAGGGTCATTGTCCGGAATTAAAGAACTAGCTGGTACATGAGTATGATTATTTGCTTTAAAGTAAGTTATAAATTTACTTCTAACTTCTTCAGTGGTAAATTTAGTCATGGTAAGATATATTATTTAATGTTATTGCATTCTAACTGGAGTATTTTCGTCATGAGCTGGAAAATTGAAAATTGTGACGGGGCAACCTCGTATCAAAGTTCTGATATTGCCGTATCCTCTTACTGATATTTGTAATGACAGTTCTTATACCCATGCAGAAATGATGTCCAGTATTAAAATACACTGAATTATGATTAAAATAAATTTATTTATGAAAAATATTTCTGATTCGATCAAACTACATTTTCTTACTAAATTAAAAATATTTTCTTTTAAAAGAGAAAAGATAGTAGTGTTATTAGGTAATAAGGGTGTGTTTCTTAGTACTTTTTTAAATAATAAATTATTAGATCAATTATTTATTCCGACTCAGGGACAGATAGACTTAACTCCCTATAAAAACTTTTTGAGTAAATTTCCAAAAAGCGATGTTTATTTTTTACTTGATGGTAGCGAATGTAAGATGCGGTATGATCAAATACCTATATTACAATCAATAGTTAAAATTGATCCTATTGAACAATTTATCGAAGGTTATTTTAATAAAGAAGACATTATAGCACATTGTGTTTACGAAATTACTACTAAACCAAGTGAAATTTGGTCGACTTTAATTATGTCGTGTCCATTTGAAACCCCTTTAAGTGATATTATTTCATGCATTATAGATAAAAGATCGCTTGATTTAAAAGGAATTCACTTTTTAACATTAGAGTTAAAAGTTATTATAAATAAAATCGTTCAGAATATACAAAATGATAAATATAACGATTATTTTCAAGTATGTGTATATGTATCACAAACTAGCGGTATAAAATTTATTATCAAACATAAAAATAATATAATAACAATTAGAAATCTTGATTATCCATTTGACAAAACAACTAACTATGTTCAAGGTATTATAGAACAAGAAATTCATGATTTCTTTATATTATTTAAAAACTATATAAGTAATCTTGATCAAAGAGTTTGTATAATTCTTATAGTAGATGACGAGTTAAAATCTTTATTAGAATCAACAAATTTTGAAGATCGCAATGTAATCTTTATACCGGTTGATAATATATTAAACAAACAAACTCTAGAAAAAGAAAGATTTATAGATGCTAATATTAGTAGATTGTTTCTAGAATATAAGAGTTTCCCAGCGTACAATAATAATTTAAAATCAATAAAAAAACTAGTTACTATAAAAGATCTGACATTTAAATTATATACTACACTACTTATAGTATTATTGTTAATAGTTTGTATTATCAAATATAATACAAAACAGAATTATAAAGATATTAACTCTATTAATGAAAAATATTATGCAACAAATCAAGAATATGATAGTATAAAATATAAATATCCTTATATTAAAAATACTACCAGTCTAGCTGATTTATATGTAATAGAAAAGTTACTAGAAACGCCGGTACCTTTGCCATTTGATTTGCTTGAAAGGCTAATAATTAATTTAAATCCAGCTTTTAAATTAGAGGAGATCAAATGGGAATTAACAAATATAGATAATATTTTATTAATTTCTAAGAGACAGTTAATAATCAAATTAATACTTAAATATCATACTAATAATCTATCAATAGATGAATCACTCAAGCTGTTAGATGATCATATGCAAAACATAAAGAATAAATTATCTCATTTGCAGATAGATTATGTTATATATAAGGATAAAATACTTGATATATTTGGTAAGTTAGTAATTCCTTTATCTGTTAATGTAGTTGATTATAAGACGTAAGTGTACCATATTTATCTTATCTACGGTGTTCAGTAAAACAATAAAATACTAAAAACTATTAATATATCTGGACCTAATGATAAATCCACAGTATGACAAAATAAATTTTTGATTCTTGCTGCAACATGAATGAAAGTCTTACTAATAACCCAAGGTAAAAGTAATGTTTGAAAAATATATTATGTATTTAAAGAATCTTATATTCTTTCAATTTATTGTATATTTCTTCTTTATTTCTTTAACTATTTTGATAATAAAAAATTTCCAGCAAGAATACAGTAAATCTATTCTTGATAAACAAGTTGCACAAGAGAATTTGACAGAAGAAGTTTTAAAGCTTTATTCTGTCATTAACTCTAAAGAAGAAATATTGGAATCTTACAAAAAGTATGTAGCTTTAAGTGTCCCAAAAAATAGTGTAAGTTGCTTAAATTATCAAGAACTAATCCCTAGAATAAAAAGCTTAGGTAGTAAATATAATTTAGTAGAACCTATAGATGTCTCTATAAATTCAGTGTTTTTTAAAAATAATGTGCAGGTAATTGAAGGCGAAAATGAATCGATTCATGTAAATAATTATAGTATAAATATAAAATATGCGTGTGCAGACTTTTTGACTTTTCTAAAAATTTTCTCTGAAATTTATTCTTATATGCCTCCTAATACTCTTATCTCTTTTGTACGAGTACGTAATGAAGAAGTATTAACACCTAAGAATATATATAAACTTTCAGTAAATCACGCTCCTAATCTTATTTATACTAAGTTGATATTATATATCAGAGAATTATCCTCAAAGTAAACTAAAATGAATAATGCAATAGTACTTAATAATGTAAATACTAATTTATTTAAAAAAGATATTATTAATAATTTTGTTAACAATCTTACGAAATCTACTTGCTCTACTATTGCAAATATGCTTGCTATAGATTATACGCTGAGGCTAAATTCTAAACCGGAAGCTGAAAAATATATTAAAAAATGTGTTACTAGACTCAAAAGTTATTTAGGTATGCGGGTTATTAACGATGATAATTTTTCTGTAGCATTAGAGCTATTTGCGATAATGATTACTTATGAATACGAAAATGAGCAAAATAAGGATAATATTTTAGAACAATCACAAAATGTAATAGCAGCAAATCTTGTAGAAGTTTATTTTTCAGATGCAAAAATCACGAGTTCTGAAAAAGAAAAAATTAAAAATATATTTAAGACACTTTTAAAGGAGAAGAATTTTGACAAAATAATAAATTATGCAGAGTCGCACAAAAAATTATTTAAGATGTCTGTAATGTATGCAATGCAAAAATATAATAATATTGATCAAGCAACAATCTATATAAAAAAAGAATTTAATAAAATATTAGATATGTCTTTAGCATTTACACAAAAATGTAATATCTTTAAACAAACAACAGGAAAAATTGTAGGTGCTGTTTGTGCTTTATTAGTCGGAGCAATTAGTGTTGCAACTGCGGGAGCAGCTTTTTCTATAATAATTGTACCGACATTAATTTTTGCTATCCGATATGCCCCTGCGCTCGGAGAAAAAATTGGAGAGTTCATTTTAAATAATGATAATGTAATAAAGCTAGAACAAAGCAATATAGATGAGTTTATGAAAACATTACAAAATAATAAAGAAAATCTTTTATCTCAAGAAAAAGTAAAAAAAATTAAAAACAATATTACAGTTGTACCTCCTACAATTAATTCTAAATTAATTAAAAAAGTGGTTAATAATAAAAAAAACATAGATAGGATCTACTAAAATAGAGCTTGAAAATTTTCTATATCATCTTTGAAAATTATTGGATACTAAATGTTTAATGATATACGCTGTCCCTACTAGGGTAGAGATAGCTTGCTTTTTTAAAAGTTGATCCTCATCTATCTACTCTCTTATTTTATTTGGGTTATGTTTTTACTTGAGAAAGTACACTATTCCTTTTATTATCTTTTTAAATAAATAAAGTAACTGAATGAGAAAAATAATCATACCGGCAATGATAGGTAATGCTGCTGAGTGGTTTGATTATGCATTATATGCACAATTTGCCTATATTATAGGGCAGCATTTTTTTCCTAATTCTTCAATGCGTGATACCTTAACTTTCGCTGTATTTGCTGCAGGTTTTATAGTGCGGCCGCTTGGTGGTATTATTTTTGGTAATATTGGAGATAGGTTAGGTAGACGTGCAGCTTTAGTTATTGGTATCATAACTATGACAGTACCAACTGCTGGAATAGGGCTATTACCTAGTTATAACACTATTGGAATTGCTGCTCCAATTATTTTGACTATTATTAGACTTATCCAAGGTTTTTCTCTTGGAGGTGAGTTTAGCGGATGTATCTCATATATAGTCGAACATGCTGCGATTGAGAAGAGAGGGCTTGCAGGAAGTGCTTCGTTTGTTAGTATGTGCGGTGGGATGCTGCTTGGACTATTAACTGCGTCCGGTTTTTCTTATTTTATGTCTGACGATATTCTATTTGAATGGGGGTGGAGAGTACCTTTTATTGTAGGATTATTTATTGGTTCTATAGGTTTATATATCAGAAAAAATTTAGCAGAAAGTCCTATTTATAAAAAAGCTAAAGAGAGAGGAAGGTTAGCACGTTTCCCTTTACGTGAAACATTAACCCAATATCCAAAAGAACTAATGATCGCACTTGGTCTTTATATTACAGTTACTGCTCCTTTTTATACTTTGACGGTTTTTATTGGTAATTTTATGCAAACACTTGGTTATAGTAATCAGCAAAGCACTATTGTGAATAGTATAATATTAATTGTAATGATGATAGTCTTTCCTATATCTGCGTATGTTTCAGATAAGGTTGGGCGGCGTCCTGTATTAATATGTGCGATTATCTTGTTAATTTTGTTAGTTTATCCTATTTTTGTAGCCCTAGGATCAATGAATATTACTTTAGCTATAATCTCTCAAGTAATATTTGCCGGAATTATAGCTACTTATATGGGGCCTATCCCAACAGTTTTAGTTGAAATATTCCCGACTAGAGTAAGATTTACCGGTGTTGCACTTTCATACAACCTTGCAGCTGCTATATTTGGTGGCACTGCTCCAATGGTTGCAATGATTCTAACAAGAATTACTGGCGATAATTATGCTATTTCATATTATTTAATTGCACTTTCCTTGTTATCTTCTATATTTCTAAAATTTTATAAAGAAACATATAAGAAAAATTTAGTAAATTAATTTAGTAAATTAGATATAAATATGACTGAAGTTTTTGAAATACCTAATGGTGAAAATAAGGTTTTACTACATTGTTGTTGTGCTCCTTGTGTAGGTCCTATAATGGAAAAGATGATAGATAGTAGAATTGAGTATACGCTTTTTTTCTATAACCCTAATATTCACCCTAAAAAAGAATATGAGCTTCGTAAAAATGAAAATATTAAATTTGCAAAGAAGCATAATATAGAATTTATTGATGCAGATTATGATCCGCAAAATTGGTTTAGAAGAGCTAAAGGGATGGAATTTGAACAGGAGAGAGGTAAACGTTGCACAATGTGTTTTGATATGCGTTTTGAGCGTACGGCTTTATATGCTTATGAAAATGGTTTTAAAGTGATTACTAGTTCTCTTGGTATTTCTAGATGGAAAGATATAACACAAATTAATGAATCAGGAATTAGAGCGGCATCGCATTACGATGGAGTAACTTATTGGACTTATAATTGGCGTAAAAATGGTGGAGCAAGTCGCATTTATGAAATCGCTAAAGAAGAGCATTTTTATAAGCAAGAATTTTGTGGTTGTATTTATTCTTTGCGTGATACCAACGCTTGGAGAGTAGCAAATGATCGTCCTAAAATTGATATTGGTAAAGAGTATTATTAGAACTGCATATTATGTGAATAAATAATATTGATATTTAAAATTAACAATTTCATTTACAAAGATATGGAGATAATTACAGAACTTATATTTCATTATTAATATTTAATGAGTATTAGATAATGAATTAGATGTTCGAAGATCAAAAGGCAAAGCTAGACAATTTTAGTTCTAATATATTAACTTTTTATGAAAAAACTATCATTTCAACAAATTATTCTTATATTACAAAATTATTGGCAGGATTATGGTTGTGCGATATTACAGCCTTACGATGCACATGTTGGAGCAGGTACGTTCCACCCTGCAACGGTACTTAGATGCCTTGGTGACAAACCTTGGTTTATTGCATATGTTCAGCCATCAAGAAGACCAGGTGATAGCAGATACGGCATGCATCCGAATAGAATGCAACATTATTATCAGTTTCAAGTTATTTTAAAACCATCACCGGATAATATTCAAGATTTATATCTTAAAAGTTTAGAAAGTTTAGATTTAGATTTAAAAACTCATGATATCAGATTTGTTGAAGATGATTGGGAGTCGCCTACGCTTGGTGCCTCAGGGCTTGGTTGGGAAATATGGTGTGATGGTATGGAAGTATCGCAATTTACTTATATGCAGCAAATTGGTGGGATCGAGTGTTATCCTGTTGCTTGTGAAATCACTTATGGCTTAGAGAGACTTGCTTTATATATTCAAGGTATTGATGAAGTCAAAGAGCTTGATTGGAATGGACAAATAGGGGAGAAAGCTTTAAAATACGGTGAAGTAGATTTTGAAGCTGAACGGCAATTTTCAAAATATAATTTAGAATTTGCAGATAGTGAGATGTTGCTAAGACGTTTTAAAGACAGTGTAGAACAGTGCGAGAGGTTAGTGAAGGTGAACTTACCTATGCCGGCTTATGATGAATGCCTTAAAGCAAGTCATTACTTTAATCAATTAAATGCGTTAGGTGTAATTAGTGTAACTGAGCGTGCTTCTTATGTTTTAAGAGTACGTGATTTAGCTAGAATTTGTTGTATCAAGTGGCTGGAGTTAAGTAGTGAGTGAATTATTATTAGAGCTATTTAGTGAAGAAATACCTGCATTTATGCAAAAAAATGCTGAAGAGGGTTATTTAAAAATATTCACAAAAATTTTTGAGGAAAATGAAATATTTGCAAAAGTACAAGTATTCGCAGGACCACGTAGGATAACACTACATGCTACCCATGTGCCAAAGGTTATTTTGCCAAAAGAGGAAGAAATTAAAGGGCCGAGTATAGAAGCTCCGGAAATCGCGATTAACGGCTTTTGTAAAGCACATAATGTTAGTAAACTCGATCTTTCTACTAAATTAAGGAATAATAAGCTATATTATTTCTTTGTAAAAAAGACAAAACAAAGAGAAACAAAGGAGATTTTGCCAAAGATTATTATAGATGCTATTAATAAATATAGTTGGACAAAGTCGATGTTTTGGGGTTGTTATAAAATAAAATGGATAAGACCTTTGCGAAATATTTTATGTATATTTGACGGTGAAATATTACCACTGCGATTTGGGCATTTAAGCACTAATAATATTACGTATGGGCATCGTCTTACTAATAATAAAAAATTAGAAATAATAGATTTTGAAAATTATAGAAATAAGCTTTTGGAAAATAACGTTATTTTAGAAAGATTAAAGCGAGAAGAAATAATTAAGGTTGGCTTATTAGAGTTAGCAAATGCACAAAATCTAAATATAAAACAAGATGTGTGTTTAATAGAAGAAGTAACAGGGCTTAGCGAATTTCCTGTCGTATTACTTGGGAAAATACCGCAAAAATTCTTAGAATTACCTGAGGAAGTGATAGTCTCTGTGATGCGTACACATCAGAAATATTTTTGTCTATTTGATAAAAATGGAAGTTTTGCTCCATATTTTCTCTTTGTTATTAATGGTAGATTTGTAAATACTGAGCTCATTATTCAAGGAAACGAAAAAGTTTTATCAGCGAGGCTTGCTGATGCTTTATATTTTTATAAGAATGATATAGCTAAAACTTTAGAATCAAGATTAGATAAATTAAAATCTGTAATATTTCATACAAAGCTTGGTAGTTTAAAAGAAAAAGTCGATCGCATAACCGATATTTGTCGTTATATAGCTCCAGATAATATAGATTTAATTATGGCAGCTAAACTTTGTAAGAGTGATCTTGTTTCTGATATGGTTGGAGAATTTCCTGATTTACAGGGGATTATGGGCTATTATTATGCAAAGCATGAAGAGCTCAATGAAGAAGTCGCTAAAGCAATCAGAGATCATTATAAACCTCAAGGTTTAAACGATAATGTACCTAGCGGAAATGCTACACTACTTGCTTTAGCAGACAAGTTAGATAGTTTAGTAGGTTTGATTATAGTTGGTGAAACGCCAAACGGTTCAGGCGATCCATATGCCTTAAGGCGTCAAGCTCTTGGTATAATAAGAATAATAATTGAAAATAAATTAGAAATAAATTTTATTAATTTAATTAGTTTCTCTGTAAGTTTATACAAGGTTTCATCTAATAGTCATTTAGATTCAGTAATATCTTTCTTTGAAGAAAGAGCAAAATTTTACTTTAAAAATGATTATGATATTACATTAATTAATGCAGTCCTTGATTTAAATCTAGTGGATACCAAATTTAAGCTGGATACATTAAAAGAATTTTTAGTACAAGATGTAGGTAAGCAATTATTAAATGCTTATAAGCGAGTTAGCAATATAATGGGTAATCAGAAAATTACTGGCTTAGTTGATGCGAGTCTATTTAGTACGCAGTATGAAAAAGAATTATTTGAAGTAATTCAAAAAATTTCTCAACAAATTATAGTTATAATAGCTAATAAAGATTATCAGAAAGCATTAAATTTATTATCATCTCTATTAAAACCAATTACTAGCTTTTTTGATAACGTACTTGTTAATGATTCTGATCCAAAAATCGCTCAAAATCGTTTATCGTTGTTACAAAATACTTGTGAAGTATTTGATAAAGTAGCTAAGTTTTGTCGTTTGTAACTTCATTATCACATATGGTTTTGATATGTGAATTACTGCTACCTTTGTCATTCTGTAATTTTACTCATGGAATTCAGTTGATAATATTAGTATTTTAGTAATCGTTTGGATATTGTTGACAAGTCACAGTGTGACACTGAATTGAAACCAAGCCAAATTAATGATCAATAAAGCAGTGCAATTTATCAAATCCGGTAAAGTAGTTGTATTCCCAACTGAAACAGTTTATGGGATTGGTGCAGATGCAACAAATAATGAGGCGTGTTTAAAAATTTTTCAGTTTAAAAATCGTCCTGCTATTAATCCACTGATCGTGCATGTTACATCTATAGTGCAAGCAAAAGCTATAGGGGAATTTAATAAACTTGCTGAAAAAATAGCAAGCAAATTTTGGCCTGGACCATTATCTATAGTTGTCCCATTAAAAGATAATGTAAATATTGCGCCTAGTGTAACTGCAGGGCTAAATACCATAGCACTTCGGATCCCATCTTATCCTATAGCATTAGCGCTTATCAGACAATCAGTTGTACCTATAGCTGCACCAAGTGCTAATCCTTCAAATTATATTAGTCCTACTAACGCTGAGCATGTCACAAAACATTTTAAAGATAATCGTGAAATTTTTATTTTAGCTCCTGAAATCTATCAATGTGAATATGGTTTAGAGTCAACGATCATTGATACTACAACTGTTATTCCTACTATTCTTAGAGAAGGATTCATCACTTCTGAAATTTTAGAAGAGTTACTTGGAGTAAAAATTTTAAAAGCATCAGAAATAAATAGCATAGTAAAAGCTCCTGGAATGCTTAAAAAACACTATTCTCCCAATGTGCATGTTAGATTAAATGCTATAAATTTAAATGATAAAGAAATTGGATTAAATTTTGGCAATAGCAATCTTACAGGAAAATTTGCATTGAATTTAAGTACTGAAGGTAACATTATAGAAGCTGCAGCAAATCTTTATTCATATTTAAGAATTCTTGATGATTATGCAGTTAGTAATGATATAAACTGTATAGCAGTTGCTCCAGTGCCCTTAACGAATATTGGTGCTGCTATTAATGATCGGTTAAAGCGTGCTGCAAAATCATAAATTTTGCTGTTCTATTTGCATTAATAGCTTTTTGATGATATTTTGTGATGATATAATTATCATGTGGTTGTAAATAATCATCGTTATGAATAATTTCAAAATTACCGTTTTGTCTTATTAGTGCCATTGCTTCATAAAAATAATTTTCAATATCTGAAGCAAATACTAAATTACCGTTATTTTTTAGCTTATTTTGTAAAATTTTTAGACGTTCCTTATTAAAAATGCGTTTCTTCTTTTTTTTATTTTTTATCCATGGATCGGGAAATAAAATATAGATTCCATCTAAACTATTATTTGGTAAATCGTTTAATATTAAATCTAAATTATTAGGGAATAATAAAAAATTCGTGATGTTATGTTGAGCGGAATGTTTTAAAACGTTTGCTACTCCGTTTAAATATACCTCTACTCCGATAAAAAGTGTATCAGGATTAATTTTTGCTTGGTTAATGAGATGCTCACCCATACCAAAGCCTATCTCAAGAAATACCTTACGCTTTTCACTTTTAAATTTTTCTTTAGAAAATAAATATTTTGGTAATTCATTATCTAATAACTTTTGTTGCATTTTTGATAAGCTTTTGCCTATCCGCCTTGCATATGATCGATTTAGATTAATAGGTGAAATTTCTATTACTCTGTTGTGCGATTGTAAATCCCGATAAATATAATCAATATTATAGCCGTAATTCAAAAAGATCTTACTCACTTTAGCTGCTTGACTAAAGCCTATTTCGAGTATAATCTTACCGTTCGGTTTTAAGAATTGTTTAGCATTTTTAGCAATTATACTATAAGCTTCTAAACCGTCTTCTTCAGCAAATAATGCAATGGATGGCTCGTAATTGATTGTTTCAATCGCCATTTTTAGTTTTTCTGTATGCGATATATAAGGTGGGTTGCTAACTATAAAATCAAATTTTTGTTTGTCTAGCTTTTCAAACCAATTACTATGAATAATCTGAATACGATCAGTTACATTATATTTTATGCTATTACTTTTAGCAACTTTTATTGCATCGACACTTATATCGGTTGCAATTATGTTCGTATTTGGTAGTTCACATAATAAACTGATAGCAATGCAACCGCTACCTGTACCGAGTTCGAGTATGTTGTAAGACTGTGTAGTCAACACTGAGTCTAAGCTTTTTAATTTGGAGAACATGTGCAAGTTGTTGCGTGATACTACTAATCCTATGACCACATCTACCAAAACCTCTGTATCGATACGTGGGATTAATACATGCTTATTAACGATAAATTCACGCGAGTAAAATTCTTTAACACCTATAATATATGCTATTGGTTCGTGTGCTAATCTTCTCTCTAACAGTTTTTCAAAAGCTTCTATTTCAGCTTCACTCAATTGTTCATTAAGTTTAATAAGCAAATGCTCAATAGGTTTATTTGTAACATGCTGTAATAAAATACGCGCTTCTAATCCTGGTAAATTAATACCTATTTTATTTAATTTATCGTTAGCATTGCTAAGAATTTGCTTGATGGAATATTGCATTGGAGAGAGGTTTTTTGCCTATTGTTTGTTGTATAATTAAATGTGCTAAGGAAACGTTTATTATCTATACGGTATATTGATCTGAATATTTTTATTATAAGCTTTAACACGGATAATAGTACACATCATCTATTAAATTACTTAGTTAGAGGAGCTATTAAAGTAGAGTGGTAGTTTGCGTCTAATATTCTTATAGATATGTTTCTTGTTTTATCAACCTTACTACAGATTTTAAGATTTAAGCCAGAAAGCCCATTTTTCTAGATTAATTTTCATGATCAAGTTCTAATGAGAAAATTTGTATTAAGAATTTTTTTAATATACTAACTAATGTGCAATATGGAGTGCTCACAATCATCATAGTATCTTATGATATGTAAAGACAGAAATATATTATTCATTATAATTGAAATACAATTTATGTCAACCCATCTTTACTTAGATCTATATATCTATAGTAGCTAATCGGTTATGATCTCTTGCATATCTCTTGGTAGTTCACAAGAAAATGCCATAATATCATTACTAGTTGGATGTGTAAAACTTAAATACCAAGAATGAAGAGCTTGGCGTTTAAAAGCTATTAATTTAGCTTTTAGTTTAGGTGGTGAATTAATAATTTTACGGTTGTTATTACCATAAGTTTGGTCACCAACTACTGAATGCTTTAAATTACTTAACTGTACTCTGATTTGGTGCGTTCTCCCGGTACTAAGCTTGCATTCCACCATACTAAGAGTACCGCCGTAAAATAGCTCTAAAGTCTTGTAATACGTAACAGCTTTTTTGCCGCCGTATTTTAATATTGTCATTTTTTTTCGATTATTTCTATTACGACCTACATTATTCTTAATTATTCCTTCTAGTGGATTAATTACTCCCCAAACTAATGCTTTATATTTCCGTATTACCTGCCTTTGTTTTATCTGATTGGCAAGCAGAATATGTGTTTTATTATTTTTAGCAACAACCATTAAACCTGTAGTGTCTTTATCTAAACGATGTACTATGCCTGGTCTTTCTGCTGAACCAATATCTGATAGATACTTTGTATGGTGCAGTAATGCGTTAACAAGAGTATTATCGTGATGTCTTATACCTGGATGTACAGTCATACCTGCTGCTTTGTTAATTACTATCAAATCATCATCTTCATAAATTATATCAAGTGTTATATTTGCTGCTGTAATTTTTAGCTCTTCAGGCTCTTTAAAAGAAAATAATATAGTATCATTCTCCTTGACCAAAACATCAGAATCAGAAATAATCACACCATTAACTTGTACACAATAATTCTTAATAGCTTTTTGAACTTGATTTCTTGAGACCTTTTTCAGGAGTAATGATAAAGCTTTATCAAGCCTTGTGTTGTTTAGTTCCTTTGGTACATTATAGGTTAACATATTTTATTTTAAGATAATGAATGATATGTTTAAATGGTTAAATGCAATCGGTGTTGAATATTATTGCTACGAACACACACCACAATTAAAAATATCTCACAATACTGCAATCACTGAAAAAAAACAAGTTAAACTGATGCATACAACAGAAGCGGTATTTAATAATAATGTTCATGATAATATAACGTTATCAAGATCTCTTGCAGACAAAGCTAATAATATCGTAGAACTAAGAGAATCTCTACTAAATTTTAATGGTTGTGAACTTAAGAAGTTTGCTACTAATACAGTTTTCGGTGATGGTAATCCACAAGCTAACATTATGTTAATAGGCGAAGCTCCAGGGAATACTGAGGATTTAAAAGGAATACCTTTTTGCGGTGAAAGTGGTAATTTACTTGATAATATGTTGTATGCTATAGGTATTTCACGGAATAATTTTTATATTACTAATATGGTATTTTGGCGTCCTCCTGCTAATAGACAACCAACTCTAGAAGAAGTTGATATTTGCAGACCTTTCGTAGAAAAACATATTGCTCTAATTAATCCTAAGTTGCTTATTTTAGTCGGTAGCACTGCTGCAACGAGTTTACTTGGAAAAAATGCATGTATTACTAAAATTAGACAAGAATATTATTTTTATACAAATAAATATATATCAACTCCTATTCAAACTACTGCAATCTTTCACCCTGCATACTTACTTAGACAACCTATGCAAAAACGTACCTCTTGGTATGATCTACTAAAGATTAAGGAATATTTGGTGAATAATAGAGTCATTGCATAACTTGTATATCTAATACTATTATATGTTTTCTATGTATTTAAGCTTAATATGTGTATGACAAATACAATTTTTATAACAGCAAACTGTATTTAAGATTTGTTAGAAATTAGATCTCATAACACTGAGATTAGTGCACTTAGAATATGAATTTTTTAAATAAAATGAATGTCATATGAGCTTATGTTTTTTGTTAAAGGTTATATTAAATGCATATAATAAAGATACACAAGAAGAAATTTATCAATGAAATTGTTTGTGTTATGTGGTAAAGTTTACAGATTCTTTAAAAGAAAAATTGATAGTATGGTATATTGAAGTGTTAGTGCAATATTTCATGGATCAAAATAAGGAGTTATTTTTTGTTACTGTTTGTTATTGTTAATAAAGCTAATATAAAAATGTAATCTGAACTTTAACAATAATCTTTATCAAAGCTTTTAACTTATAGATGAAAGTAGAAGAGTATGCGTTTTTAATTTTCATGAACCTTACACGTTGAGCAAGATATCAAAAAAATTTATAAATCGTAATTCATTTCTAATTTCCTAAAATTAGGGTTATACTGACTGAATGAGGTATATACATTATGACTAATGGCAATAATAATAACTTAGAATTTGCAGAATTAAAAATTAGAGGTAAACTATTTAAGTTACCTATACTTAAAGCAAGTATCGGTAAAGATGTAATCGATATAAGTAGGGTATCTGCGGAAGCCGATTACTTTACTTATGATCCGGGTTTTATGTCTACTGCTTCTTGTCAATCTACTATCACATATATAGACGGTGATAAAGGCATATTATGGTATCGAGGATATGATATTAAAGACTTAGCTGAGAAAAGTGATTTTTTAGAAGTGGCATATTTGATGATTTATGGGGAGCTACCAAGTAGTGATCAGTATTGTAATTTTACTAAAAAGGTTGCTCATCATTCATTAGTGAATGAAAGATTACACTATTTATTTCAAACCTTTTGTAGTTCTTCTCATCCTATGGCTATTATGCTTGCAGCTGTTGGTTCTCTTTCAGCATTCTATCCTGATTTATTAAATTTTAATGAAACAGACTATGAACTTACCGCTATTAGAATGATTGCTAAGATACCTACTATCGCTGCAATGTCTTATAAATATTCTATAGGGCAACCGTTTATTTATCCTGATAATTCATTAGATTTTACCGAAAATTTTCTACATATGATGTTTGCAACTCCTTGTACTAAATATAAAGTAAATCCAATAATAAAAAATGCTCTTAATAAGATATTTATCTTACATGCAGACCATGAGCAGAATGCTTCTACTTCAACAGTTCGGATTGCTGGCTCATCAGGAGCTAATCCTTTTGCATGTATTAGCACTGGTATTGCATCACTTTGGGGGCCTGCTCACGGCGGGGCTAATGAAGCAGTGATAAATATGCTTAAAGAAATTGGCAGTTCTGAGAATATTCCTAAATATGTAGCTAAAGCTAAAGATAAGAATGATCCATTTAGGTTAATGGGTTTTGGTCATCGAGTATATAAAAGCTATGACCCGCGTGCCGCAGTACTTAAAGAAACTTGTAAAGAAGTATTAAATGAATTAGGTCAGTTAGACAATAATCCGCTGTTACAAATAGCAATAGAACTTGAAGCTCTCGCTCTTAAAGATGAATATTTTATTGAAAGAAAATTATATCCAAATGTTGATTTTTATTCAGGCATTATCTATAAAGCTATGGGTATACCGTCGCAAATGTTCACTGTACTTTTTGCAATAGCAAGAACCGTAGGTTGGATGGCACAATGGAAAGAAATGCACGAAGATCCTGAACAAAAAATCAGTAGACCTAGACAGCTTTACACTGGTTATCTACATAGAGAGTATAAGTGTATTGTAGAAAGAAAGTGACGCATTAAAATTGTATGCATTAGCAATTTAGTGATTTAGATGAAGCATTAAGAAAATCTAATTAATTCATCTAAAATTTTTTAGGAACATATATTAATAAAAAGATGTTTTTTATACTATCATTGTCCAATGTACTATAATTTTTATTTTTCAAACATTCCAAAACCTAGTAAAATTATAATATGAAGGTTGAATACTATTCAATAAATTCACATCTGTGGTTCTTTCAGAAAATTAAGAAGAAATTTATATTATAACTAACAACTTTTAAATTTTTAAACACTTATACGACTAACAAAGAAATTAAAATGCATTTTATTGATGAAGTTAAAATATATATAAAAGGTGGAAACGGCGGCAATGGTTGTATTAGTTTTCATCGTGAGAAATTTATTGATAGAGGTGGACCAGATGGTGGAGATGGTGGATTTGGTGGCAGTGTTATTTTTAGAAGTAATCACCATATTAATACACTAGTGAATTATCGATATCAACAACATTTTACCGCAGAAAACGGCGAAAACGGTAAAGGGTCAAATCGAAGTGGAAAATCAGGAAAATCATTAATTCTTGATGTTCCAGTCGGCACTCAAATTTTTTCTCAGGATGGCGATATATTATTGTATGATTTCACTGAAGATGAAAAAAGTTTTGAAATAATTAAAGGAGGATGTGGTGGTCTTGGTAACAGCCATTTCAAAACATCTGTTAATCAAGCACCAAGAAAGAGTACAGAAGGGGAAATTGCTGAAGAAATGTGGATTCATTTGAGACTAAAACTACTCTCTGATGTCGGACTTATTGGATTACCCAATGCCGGTAAATCTACTTTTTTATCTGTTGTAACGGCAGCAAAACCTAAGATTGCTGATTATCCATTTACTACTTTAGTGCCGAATCTTGGAGTTGTATATATTGATGATGAAGAGTTTGTGATAGCTGATATTCCAGGTTTGATTGCCGGAGCTCATCAAGGGTACGGACTAGGAGATAAATTCTTAAAGCATATAGAAAGATGTAATGTATTAATACATTTAATAGATGGTGCTAGTAATAATGTAATTGCAGATTATAATACGGTACGTTTTGAACTTGAGTCATATTCTGATTATCTAAAAAATAAAATCGAAATTATATGTCTTAATAAATGTGATGTTCTTGTTGATGAAGAAATACAAAAAAAAATAAAAAAGCTTCAAAAAGTTACTAATAAAGTAGTGCACCCTATCTCTACTTATAATAATCAAGGTGTGAATAAAATAGTTAAACTTGCTTTAGAGATTATAAAAAATCAAAAATACTAATATAGTATTAGCTAATCTACGATTACTAATCATGACTTAGTTGTATTATACAGTAATGAAAATTAATAAATTTTAAATTAAGCTAATACGTTGTTCTTCGGTTTCAAGATATTTCTCTAGTTCTTCCTTAGTATATCTCTTTTCTTTAAGTTGTATTTCATTATTAAATATATATTGTACAGTTTTATCTTCTAATGCAGGACCTTTAAGTCCCTCAATCGCTCTAGGATTATTTTTATAAAAATCAAATATCATATTTTCTTGTCCTGGAAAATTACGTGCTTGCTGCATAATAATTTTTTTGAAATCATCAGGCTCTAGTTGCAAATTTTTAAATTTTGCGTATTCAGCAAGTAATAAACCTATTCGTACACGACGTAGAGCTAATTTATTATAATATTCTGTTATTTCTTTAGAGGATTTACCGTTTAATAATGATCCATCATGTTTATTTTTATCAGTTTCAGACTTTAAAATATTTTTTTCTTGCTCTAATAAAGATTCAGGTACATCAAAATCTAACAATTTTTCTAACTTATCAAATAAGTTCATTTTCATTATAGTATTAATAGCTTCTTCTGATTCGTTTTCTATTTGTTTAGCAAAATGTGTACGTAATTCTTCAAGGCTATTACTTTGGAATTTTTTAGCAAACTCCTCATCAATAATAGTAGGTTCTGCAGTATGTACTGCTTTAATTTGTACTACAAAATGAGCATCTTTACCTGATAAATTTTTATCATGATAATTTTCAGGAAAAGTAACGTTAACATCTACTTCATTACCTGTTTTAGAACCTATTAATTGTTGTTCAAAACCTTGAATAAGGGTATTACTACCTATTACTACCTTAAAATCATTTAATTTGCCACCATCAAAAGCTCTATCCTTAATATATCCAATTGCATCAATAGTAACCTGATCACCATCTTTTATTTTTGTTTTACTTTCTTTAGTATAACATTTTGTTAATGCAGCAAGTTTTTCTAATTGTATTTCAACATCTTGAGAGTTTACTGCTAATTTTGGACGATCTAGTGAAATTTTCTTTAAATCCGGAATGGTAATTTTAGGCAACAACTCTATTTTTACTGTAAATTCTAAATCTTTATCGGGTTCGTTTTGTAATTCTTCAATTTTTGGTCTACCTATTATATTTAGATTATACTCTTTAATAATGTGATTTACTAAATTGTTAATTCTTTTTTCTATTATATCATGCCTAACAGAAGTACCGTATTTCTTCTTAACAATTGAAACAGGTACTTTACCAGCTCTAAAACCAGCTACTTTAACTTTTTTGGTTAAATCAAGTAATTCTTTTTGTATGTCATCATCTATCTCACTTAAAGGAGTAGAGATTCTTGCATGAAAATTCAATCCTTCGTTTTTTAATACGATAATTCCCATTTTAGTAATCCATTAATTCTATATATAGCGTGCAATCAAAATAAACTATAGAGCTGAAATATGCAATAGTTTTTGTATAATCCTATTAGGATTAAGCATTGCTAACTGTGAGTTTTACAAAATTCATATTTTCTGTTATATTAGTCATCTATTTTTGCAATTAGTAAATATTTAGTATAATGACTTAACAGAAATTGAACAATTTCTATAGAAGTAAGACCTTGCTGCTTATAATTTAAAATGCTTACAACAATTTTGTATTCATCAAATATTGGATCGGTATTAATATATAGTCAAAATCCTTTTTTATTACCTATAAGTTCTATTTTTTGCTAATACTTTTAGCACTGAGTAATCGTTCATCATTGTTTTCTAACTCTTTTTTCTTTGATTATTCCGTTAACTATCAACTATCTATATTGCTATTTTAGAATTCAAATCTTCTTAAGTAGAGGATTATGAGTGTCAAAAAGACATTGTAGTAATACTTTTTCTTTTTTATGATTCCTAACTTGAATAGAGTATTACATAAAAGTTTTGCAAAAAAATTATCTTAGTATTCTATGGTATTTTTTCAATAAACGCGATGATTTAGGAGTAAAAAAGTAAATAAATTTTGTATAATGTTTATGGCATTGTGTACCATTATTGTAATCATAAGTTTATTATTATGTAATTCCTAGATAGCAAAAGTAATTATATAGCAATTATGCAACAAAATTGGAATTATGTTATGCAATAAGGTGCAAACGTACTTCTTTGTTCAGTTCTTTTGCAGAAGATAATTCTATATCAAGCTCGTCAAATATATGTACTAAGGCTGTAGATAAATCATTAATCATTTTATCAGTATGTGCAGGTGTTGGGATGATACGTAGGCGTTCTGTACCTCGTGGTACTGTTGGAAAATTGATATGTTGAACGTAAATACCATATTCATTAAGGAGCATATTTGATACTTTTGTCGCTTTAATCGGGTCACCAATAATTATCGGTATTATATGACTTTCGTTTTTTAAGTAAGGTATATTAAAATGTTCAAAAGAGTTTTTAAGCTTTGTCACTACTTCTTGATGCTTTATGCGTTCTTCATTTGATTCTTTAAGATGTCTAATACTATGTGTGGCAGCAGTAGAAATTACTGGTGGGAGGGAAGTGGTAAAAATAAATCCTGGGGCAGTTAGTCTTATAGCGTCGATTAAATTATAGTTGCTAGTGATGTAACCACCGATAGTACCGTATGCTTTAGCAAGTGTCCCCTGGATTATATCAATTTGATTGCTACAATCGAGAAGCTCGGAAATGCCGCCCCCCTGCTTACCGTATAAACCAACTGTATGTACTTCATCGATAAATGTTAAAGCATTATATTTTTTAGCTAAGTTGATTATGTCCTTGATAGGTGAGAAAAAGCCGTCCATAGAGTAAGCTGATTCAAAAACAATAATTTTCGGTTTATTAATGTCAACTGATTGTAGAAGTTTTTCTAGGTGCTGAACATCTAAATGTCTATATACATACTTCTCAGCTCTTGAACTTTTAATGCCTGCAATTATTGATGCATGATTTAGTTCGTCTGAGAAAAATACTATATCAGGTATAATTTTAGCAAGGCTTGCAAGTGTTGTATCATTTGCAACAAAACCGGAGGTAAAAACTAAAGCTGTTTCTTTGCTATGTAAATCTGCGAGTTCTTTTTCGAGCTCAAGAATAGAAATATTATTACCACCGATATTGCGAGTTCCACCTGATCCTACACCGTATTTTAGCAATGCATCTATAGAAGCTTGCATTACTTTTACATGTTTACTCATACCTAAATAGTCATTAATACACCACATAACTATTTGTTTGTCTTCATACTCTGCAAAAGGAAAATTATCTGCTTGTCTTTTTAAAGACTTAAATTCCCGATATCTTCCTTCACTTTTAATTTTGTCTATATGTTTGTTAAATATAGTATCGTAATAAGACATTATTGGTTTGTTAGAAATTTTTATGTGAATTGTAAAATGTACTGTGTCATACTTGTTGCTTGAACACAGAAAATACCAATATTTCTATTGGATTCTGTGATTAATATAGCGGGACGACAACGGATTTTAACTATTTTACATTAAAATTAAAAAAGTTTAAAGTTATAATATAGCTTTTTGTAAAATATCATTTAATCTCTTTGAAAATGCTCCTGTATCAGCAACCGGTTCACCTTCTAAAATACAAGCTTGATCAAATATTAGATTTACCAATTCATTATTATTTTTATTATTTGCTTTTAGATCATTAAAAATTTTTTCTATAATTTTATTTTTAGGATTTAGTTCTAAATTTTTAGCAGAAGCATTTGCTATTTGTTTTTGCTCTATTAAAAAGCGTTCCATACGAATATCCATAGCAGTGTCGCTTACAGCAAGACAAGCAGGGCTTAAAGTAAGTTTTTTAGATATTTTTACTTCTTTTACTAACTCACCGAGTATTTCTTTAAAATAATCTGTTAGCAATTTATACTCATTATCGGATTTTTTACTATCTGTATTTTTATCCTTAGGTTGTGAAGTAGTCTGCTCTACATCTATATCACTTCTTGTCGCTGATTTAATGGCATATCCTTTATACTCACTATTAACGTTGACCCAGAAATCATCTACTGTATCGGTAAAAAGTAATACATCGATATTTTTATTTAATAATCCTTCAATTTGTGGACTTGAAAGTAATTTATCAGGATTATCACCGCTTAAATAATATATAGTATTCTGCCCTTCTTTAAAATTTGCTATATATTCGTCAATACTAATCATTTTATTATGTAATGCACTTCTAAATATGCACACCTCTAATAATTTCTCATGATCGGTTGTAGCCTCGCATAACCCCTCTTTTAAAGCGCCTCCGAAATTAGTCCAAAACTTATTATATTCTTCAGGTAATTCCTCTTTCTTTTTTCTAAGTTCACCAAGTACTCGCTTTGTAATAGCATTTTTGATTTTTTCAAGTACGTTATTATGCTGTAGTGATTCACGACTAATATTTAATGGCAAATCTTCTGAATCTACTACGCCTCGTAAAAATCTTAAATATGATGGGATTAAATCAATATTTTCATCAGAAATAAATACTCTTTTTATATATAATTTTACTCTCTTTTTGCGATCAGGATGAAATAAATCAAATGTTTTGCTTGAAGGGATAAAAAGCAGATTAGTAAATTCTATAGCTCCTTCGTTTTTATTATGCAAAGTAACCCATGGATCATCAACTGCATAAGATAAGCTTTTATAAAATTCTTTATATTGGTCTTCTGTAATCTCTGATTTCGGTCTTGTCCATAATGCAGATGCTGAATTAAGCTGGATTTCATTATTACCTGCTTCATCACAGAAATATATAGGCACTGCTATATGATCAGAATAGCTTTTAACTATGTGTTTTAATCTAAAATGATCAAGAAATGTAGTTTCTGACTTTTTGATATATAAAACAATTTCGGTACCCCTTGTAAATTCTTGTTCTGAATCTGCAACAATGTATTCGCCAAGGCCGTCTGATTCCCAAGTATGGACTTTACTCTCCCCAGCTTTTCTTGAGGTTACAGTAACCTTATCTGCTACCATAAAGCTTGAATAAAATCCAACACCGAATTGACCGATTAGCATATTATCTTTTTTGGAATCACCAGAGAGGTTTTTAAGAAAATTTGCTGTACCTGATCTTGCAATAGTACCAAGATTTTCAATTAAATCCTCTTTATTCATACCAATGCCATTATCACGTATAATAATCTGTCCATTATCCTTATCAACTTTTACTATAATTTTAAAATTGCTATCACCAGCTATTAATTCACTATTACTTTGCGATAAATAACGTAATTTATCACAAGCATCTGAAGCATTAGAAATTAATTCTCTCATAAAAATCTCTTTATTACTATAAAGAGAGTGAATCATTAAATTTAAAATTTTGCCAACCTCGGCATCAAATTTCTTTTTTTCTTGTGTCATACTAAACCAATTTATAAATTCTTGTTTTTAGATTTGTTACATAATAACACATATCTCTAGAGTAATCTCATGTCTTGTCAACGTTATCAAATATTTACCATATTTCTGGATACCGTAAGGAATATGAGACGACAGAAGAAAAATGTAATAAAACTATTTATTTAATATAGGCATTAATAATCAAATTTAAATAGTCTTCGTTAATATTTTTTATCAATATTGTTTTTAAGCTATGGGTATGACCTTTAATAATTTCTATACTACTACGTGATAATTCCCATTCTTTTGCTAGATAATGGATGATTCCTTCATTAGCTTTACCTTGTTCCGGCGTTGCTTTTATAGCTAATTTTATATATGGGATATTGTTAATAATTACAAAATTTCCAATTAGATTTTGTTTAGCATAGGGCTTTACTTTAACATTAATTAAAGCCTCATGCTTAAAACTGTTGTAGATATAAAATTTATTCATAGTTATTTTTAATTTATTACATTTTTATTATTTCTAATAAGAAAAGAATCCTTGCATAAAACTATTTAAGCTGATATAAGGTTTACTGTAAACTACGTGCACCCTTAGCTCAGCTGGATAGAGCAACAGATTTCTAATCTGTGGGTCAGAGGTTCGAATCCTTTAGGGTGCGCCATTCTTCATTTTTGTTATTTTTAAACATATCAAACTGCAGATACAACAAATAAAATAAAGCGTTTTTCCATTTTTAAAAAAAGTTTGATAAAACTAATTTTTGATTATTATTGCATCTAAACTAAGAAGTTTTCTTTTTTATTTTATAATAAATTGATGCTCTTATCAGAGGTATTATAATTAAGCAACCATCATGCCAGTTAAGCTCATTAAAAATTAAGCATAAAGTTTTTGCCGATTCTATGTATGGGAAACGCCTTTTTGATAAAAGAACCTGATTACGGTATATTAATTCGTTTTACTTCTAATAAAGCAATTATTGATGTCACAATTTTAGATATGATTAAATATTTCCGATAAGCAAGAAGTAACAGCTACCCTAGTAAATGATAACAAAATATAGGTCTAGAAATACATAGAACATGTACCATATTATATTGCAAAACTTATTTTTGGTTAGACAAAGATGTTGATAGTGTTATCGTAAAATATATTTCTTATGCAATAGTATAAATTATCCTAATAATAAAATGTAAAATTTAAAGGAAGTAAAGATATTACAAAGTAGTATTAATGATTAGAATTTATAATTCAATTTCATCAACAAGCAACATAACCTAACAAAGATTTAATTGAGAATGTATGCTTTAAGTAATGAAATTGGATAGTGATATATTGGACAAGATTCACTGATACAGCAAGCAGGAATACATAAAGTGGAGCTAAAATGTGAAATTAAACAAATAAAAGTGATATTAAAGTAACTATTACTTTAGTAGATAGTAGAAGAATTATTACATATCTTTAATTTTTAAACACAAAGGCAAATTATTAAATAAGTATCATATTACTGCTTTAGAAGAGTCAATATATACTGATTTTAATAACTTATGCATGCTAGATTTATTTACTCAACCCATTTTTATTATGTTGCTTTATAAATTTATAAAGTATATTTATTGTATGCTGTAATTTGTTATTATTTAAATAGACACATATGTAAATGTTATAGCAGTAAAAAGTTTAAAGATTTGAAAATTTCCAAAACTATTTGGTATAGCGTATAATATTAAGTGCAAAATCCACTATAGGTGCTTAGATAATTATTTGGATTAGACCACAACATATTAATAGACATGATAATAATAACATGAAATCTAATCATGCTTTGAATGGTATATCTTATAATAATTTGAAATATCATATATTATACGGTCTAATTTAGCATTTTGTTTTTAACTTGTTCAAGAGTACGGTTAATTTTGTTAGTATAATATATTGAAAATCAAAACATAATATATGTCATGTATAATCCATTATAATATGTTGCTGTTTTGTTATTAATTTTTGCTTTCTAAAAGGATTTTAAAATATTTTTATTATATCTCTATTAGTTTTTTCAAAAGTTTTAAGTAATTTATGCTTTGCACTAGCAAATTTAGGAATGTCTTGCAATTCATTTATTGCTAATGTTCTTACAACAGTAATAATGCACAAATGTATAACGCAAATTCAAGACATTAATAGTAAAAACTACTAATAAAAGCTACAAAACTTCCTATAGTAGCGGAAACCTGTAGATAAGGATATGTAGTAACCTCAGTTAGATAAACTTCTGTCCTTATTATATTATCATTGAGGATAGAACAATTTTACATTATTTTACAATAAAGGTAGAGGCTATCATCAGTAAGAAATAATGCATTTACTATGTATGGAGTGTCTCTATAATTATATAGTTGTGATAACTACTGTAGTTTTACTCTCATATGTATCGGTTTAATATCAAAAAACGAAAGGGTACAATACTATCAACGTACCTATTACAAATAAGATTTGGCACCTGCTTTTATATAATTGTTAAACTTTTTTATTCTTTGTCGTATCCTATATAACTCTAGTATCAAAAATTAAATTGTAATTATACTGTTTTGTATAAAAGTCAATGAAGGATTTTCTTATATAATTTTGCCTAATTACAAATTAGAGGAATATCTAATATATGTGGCCAAACTTTATCCCAACCTTTTGTATGAGAGATATTAGGCAAAGTATACTGTTTTACACATAGTGAGTTACTAGTTTTTACGTATTGTTCTGCTATGAAAGGTGGTACTTTTTTGTCATCCATGCCGGATAGATGTAATTGAGGGATATTATCCACCTGTTTTGCATAATTTATTGGGTTTAATGATTTAACTAAGTAACCGCGATAATTATGATATTTATCAAACTTTTCAGTATCTAAATTACCAGCAATGGTTATAATATCTTTAACATCACTATTTTGAGCTGCAATTAATATTGCAAGTCCTCCGCCACCGGAGAAGCCAATTAAACTAAATTTTTGTCCATTATTGATAATATTTATGACATTGTTAATTGAGTCTACGACTTCTTGTCCCATTCTTTTATCTAACCAATAATTACTAATGCATTTTGAGTTCATTTCTAAAGGAGTATATTGACAAGGGCGTGCTATATAAACAACATTCAATCTTTTATCAATTGTAGCAAGCTTTAAGAGCATGAGATTAACAGGGGTAGGGTTGTTAGAGTGAATGCCGTTATCGGTGAGGTGCCCATCACCTTCAATATAGAATACAAATGGTAGATGACTAGCGGTAATACGTTGAAAAGTTGTAAGAGTAAAATCGCCGCCATTTATTAACCTCATTTGAAAATTATTTTGAGTCGCTATCTCTTGTGCATGCTTGATCCTACTAGCGACATCATGAGTTGTAGAACATCCTAAGAGTAATATTGAAGTAACTAATAAAACAAATTTTGTCATAAAATTGTTTATGTGATGGATGTTTTTGTGTGATTTCTTTCTAATCTAATTTAGATCAAGCAATCTCAGGATCTTTGACTAGATTATAATGAAATCTAAGGTTGCTTGCAATGATTGTAAATAATTAAAACGGTATTTCGTCGTCTAAGTCGCTATGATCAAAAGAATGATTTTTAGTTTCAGGATACTTATATTCGTGATGTCCTGAACCTTGTGTATTCTGATTAGAGTTTTTGTGATCTAATAATATTAATTGTGAATTAAAGTTTTGTAATACAACTTCCGTTGTATATTTTTCTTGACCTGAATTATCATTCCACTTACGAGTTTGTAATGAACCTTCAATATATAATTTACTACCTTTTGTTACATAGCGTTCTACAATAGATACCAATCCTTCACTAAATATCACTACTCTATGCCATTCAGTTCGTTCTTTTCGTTCGCTTGTAATACGATCTTTCCAGGTTTCAGTTGTTGCTAAGGAGAGATTAATGATTTTTTTTCCTTCGCCTGTAGTTCTAATTTCTGGATCACGTCCTACATTACCTATTAATATTACTTTATTTAAACTACCTGCCATAGATTACTACCTATTTTAAATATTATTATTGCAATAATAAAATAAAAGAGCCTATAATACTACAGATTTTTTAAAAAATATCTCAAAATTTTGTAGTAAAGTGATTATGAACCAAGAATATATTAAGGTACGCGGTGCTAAAGAGCATAATCTAAAAAATATAAATGTTGATATTCCAAGGAATAAATTCGTTGTTATCACTGGTCTTAGCGGTTCAGGTAAATCTTCTTTAGCGTTTGATACTATTTATGCAGAAGGTCAAAGGCGATATGTAGAAAGTTTGTCTTCATATGCTAGACAATTCTTGCATTTACAAAATAAACCAAATGTTGAATCTATTTCTGGGTTATCGCCAGCTATTGCAATTGATCAAAAAACTACTTCCAAAAATCCTCGTTCTACTGTTGGGACTATAACTGAAATTTACGATTATCTTAGATTATTATATGCAAGAGTTGGAATTCCTTACTCTCCGGTAACAAGCCTTCCGATACATAGTCAAACAGTTGCTGAGATGGTAGATATAATTAACGAACTACCTAAAGGTACGAAAGTATATTTACTTGCTCCTATTGTTAGAGGACATAAGGGCGAGTTTAAGCGTGAAATTATGAATCTGAAAAAGCAAGGTTTCCAGAAATTAATAGTTAATGGGGAAGTTTGTGAAATTGATGATTTACCAAAACTGGATAAAAATAAGAAGCATAATATAGAGGTTATTGTTGATAGAATAGTTTTAGATGAGAATTTAGGTAATAGGCTTGCAGATAGTTTAGAGAGTTCATTAAATCTTGCCGATGGCATTACGTATTTAGAAATTGTGGAATTACCACAAGCAGTTAAGAGTCAGTTTGAAAAAAATCAGCGTATTACTTTTTCCGAAAAATATTCTTGTCCGGTATCAGGTTTTCAGCTTACTGAAATAGAACCTCGCATCTTTTCTTTTAATAGCCCTTTTGGAGCATGTCCTAAATGTGAAGGAATAGGTAAAGAATTTTTTTTTGACAGGGATTTAATAGTTCAGGATCAAAGAATTTCCATTAAAGATGGTGCAATAGTACCTTGGGGTAGTACATCTTCTAAATTTATCCTAGAGACATTAAAGGCTCTTGCCGATCATTATAAATTTTCTATTGAAGTACCTTTTATCAGTTTATCGCAAAGTGTTAAAGATATTTTATTTGAAGGTTCAGGAGAAGAGGAAATAAAGTTTGAATTTCATGATGGGTCTAAAACACAAATAATAAAACAACCTTTTGCTGGTATAATACCAAGTTTGCAGGAAAAGGACCGCACTATAGAATCTGTTTTAATTAAAGAAGAACTTGCTAAATTTAAGTCAGAGCATAAATGTACTGCTTGTTCAGGGTTTAGATTAAAAGATGAAGCATTATGCGTTAAAATAGCAAATCTTCATATAGGTGAAGTAGCAGGTATGAGTATTGCAGCCTTACAAAAATGGTTTATTCATTTAGAAGAAAAATTAAATCAAAAGCAATTATTTATTGCTAAGCGTATCCTGAAAGAAATTAATGAGAGATTAAAATTTCTTATGAATGTCGGTCTTGATTATCTAACATTATCACGAGAAGCAGGCACTTTATCAGGAGGTGAGAGTCAACGTATTCGTCTTGCATCTCAAATAGGCTCAGGTCTTAGCGGTGTTTTATATGTACTTGATGAGCCGTCTATAGGTCTTCATCAACGAGACAATACAAGATTAATCGCAACACTCAAAAGGCTTAGGGATCTCGGTAATACCGTTTTGGTAGTAGAGCATGATGAAGAAACAATGTATGAAGCAGACCACATTATTGATATAGGACCAGGAGCTGGTATTCACGGTGGTCGTGTTATTGCAGAAGGAAATGCTGAAAAAATAAAGCATTTTGAAGAAAGTATTACAGGTAGATATTTAAGCGGTCGTCAAACAATTAAAGTACCGTCTGAAACAAGGGTAGGGCATGATAATAGGGCAATTGAATTACTTGGAGCAGTATCTAATAATTTAGATAATGTTGATATCAAAATTCCACTAGGTACTTTTACTGCTATAACAGGAGTATCAGGAAGTGGTAAATCAAGCTTGATGATTCATACTTTATATAAGGCTGCTTTAAAGCATTTAGAGCCAACTAGCAAAGTATTTCCAGGTAAATATAGAGAATTAAAAGGACTTGAATATATTGATAAAATTATCGATATTAATCAATCTCCGATAGGTAGAACTCCGCGTTCAAATCCTGCAACTTATACAGGTGCATTTACTCATATTAGGGATTGGTTTGTAGAATTACCTGAGTCCAAAGCTAGAGGATATAAAGTTGGAAGATTTTCCTTTAACGTTAAAGGTGGCAGATGTGAAGCGTGCCAAGGTGACGGGCTAATTAAAATAGAGATGCATTTCTTGCCTGACGTATATGTAAAATGTGATATTTGTAACGGTCATAGATATAATAGAGAAACTCTTGAAATAAAATATAAAGGGAAATCTATTGCTGATATTTTGATGATGACAGTAGAAGATGCAATGCAATTTTTTGATAAAATTCCTTTGATTTATGAAAAATTAATTACCTTAAATGAGGTTGGGCTTGGCTATATAAAAATTGGTCAGTCTGCTACTACTCTTTCAGGAGGTGAGGCACAACGAGTTAAACTTGCTAAAGAATTATCAAGACGTTCAACTGGTAAAACGCTTTATATACTTGATGAACCAACTACAGGTCTACATATAGATGATATTAAGAAATTACTGAAAGTTTTACATAAACTTGTTGATATGGGTAATACCGTTTTAGTTATTGAACATAATCTAGATGTTATAAAAACAGCAGATTATATTATTGATGTTGGTCCTGAAGGCGGTGACAAAGGAGGTAAGATAGTTGTATGTGGTACTCCTACGGATATAGCTGCCTGTAAGGAAAGTCATACTGGTAGATATTTAAAGCAATATTTGATATAATATAAATTCAGGTTACTCTATGTTTACTATTTAGTATTTCCTTTAATACTAAATCCATTCAGAAGAACTAATCTAATCCTTACTGTTTTTTAAAAATTCTCAATATTTTATGGCTTTGCAGTATTAATTATACTTTTAAAAATTAATAATGCAAAATAATGCAAAAGTGAAAGTGAAGTTAATAAAGGTCTTAATAGACTAAAAGAAATAAGAGTAATACTATGGCTTTTGGATTTAAACTCATATAACTCAAAATGAAGCTGAAAATATTCGTTTTATGAAGATAGCTTTAATCAAATTAAAGAATTCTTAAGAATAAATGCAAAAAATTATCTGCATTCCATTTGTAGATTTGTAGGCACGTAGTATTCTAAAAGTATTAGATTAAAGAAGATTATCTATTTTAATAGGTAGAATATAAATTGCTTATAGATATACTATAATTCTTGTAATTTATGAGAGGACGAATGTGGTCGCAATGGTATAAAAAGCAAGTGTCGGTTTTTTATATCATTACTCATGATAAATGAAAAATAAATGCTCAATTATATGCGTGAATTGAAGTGTACTAAAATGTTTCTACTATTAGACTAGAAGGTCAAACAATAGAATTAAACTAAATGCTAATATAGTGCATCAACATTTTAATATTGAAATAATTCTATAATAGATTAACTGAGCTTTAACAAGATGATGAAATGTTGTGGATTAACCTAGGCGTTATTTTTGAGCAAATTTCAGGTATAGAAAATTAGAGACAAGAATTCTTTATAAAAAATTACTATAAATTTAGAAGTCTTAGCTTATAACGGTGTTAAAGAATTCTTTTTTATAAAAGAAAAATAGCTCTCATATAGCACAATCCATTTTTTCAAAAAAAATAGAGATCTCTTAATTCGATAATACGTGTCAAAATCCATTAAGAAGTAGAGTGATATGTGATGCATACATAATAAAATTTATGTATAATATAGATCTCTTGCATAACATCAAAAGTTTCTTTGAGAAATAAGTTATGCAAGATTCTAATGCTTATGGTCATGGTTGTGAGTATAAAAACCTAAAGAAGAAAGGGCGTTTGAAAATTCAGAATTAGGTGTTATTTCATGTGGTACCCCGCTACAACATATGTGACCATTTAAGCATATTACTTGATCGGAGTTTTTTATTACAGTAAATAAATCGTGTGAAATCATAAAAACCGTAATATTTAGTTTTTTGCGAATAAAATGAATAAGCTGGTAAAATTCTTGTTGGCTTGTTACATCTAAAGACTGTAATGGTTCATCTAAAATAATTAAGTCAGGATTATTAATTATTGAACATGCTAGAACTACTTTTTGAAATTGTCCACCTGAGAGTTTAGAAATTTCTTGTTTTTTTATGTGTTCAAGGTCAATAAACGAACTAATCTCTTTTATATTTTTATTAAAATGACTTGGTGCTAATAAATCTAAAAATTTTTTTACCGTAATAGGTATATCAGTGGTTAACCCAAACTTTTGTGGTACATATCCAATTTTTAATTTACGATCAATTATAACCTCACCGCTTGTAGGCTTTTCAAGTCCAAGCATTAATCGTACTATGGTAGTTTTACCTGCACCGTTCGGTCCGATTAAAGTAGTTATATTATTTTTTTTAACAATGAAACTAACTTTACTTATCGGTGTCTTATTACCGAATTTTTTAGATACGTTACGAAATTCGATTATAGGTTTTTGCATCTTTTAGTCCATTTCTTTCAACACGTATCTTGTCAACATAGCAAATTTAGTTCTGAGATGCACTGCAGTTAAGTTGTGGAATGATATTTTAATTCACAACTTGCCATTGCCCATCAGGTTGACGGCATGCATTACCATATGTTTTTTGTTGTTTTCCGCCTATTATAACTGTTTGAGTGTATTCACGGCAATATTGACCTGCACTGTTCCTATAAGTTTTATTAGGTGTGACGTAACCATGATTGCCGTTATCTGGATTGCGCCATTCTATGTTACTACCGCTAGGTGCAGATTCTAAAGCTCTTTGTGATGTTAGTTCTAGAAGTCTTCTATCCTGCTCATCCATACTTGCGCCGATTTGTCCACCAAGAACTGCCCCAAGTAATGCGCCTACACCTACTCCGACAAGTTGTCCTTTACCTTGACCGAATTGAGAACCAAGTAATGCACCTCCTGCGCCACCAAGAAGTGTACCGGTACCTTGTTTGTTCATACCACTCTGACCATTACAAGCTTGTAACATAGAAGCTGCAAGAGCTATAATCATTATTTTAGATAATAGTTTCATATAATCCTCTCTAATTATTATTTAAATAAGTATATGGTTTTTAGAATTTTGTAAAGTATAAAACTCATTGAATTTTATATTTTCTTTGTTAAACTTATAATATAAATTTAGAAGATTTGTTATGAATAATAGCCATCATCGATTAATAAAATCTGTATCTTATTTATCGGTTACTACAGCATTAATTATTTTAATTATAAAATTATATGCTTGGGTTGTTACCAGTTCACAATCAATACTTGCTTCTTTAATTGATTCGATGCTTGATATAACTTCCTCCTTTATTAATTTAGTAGCCTTAAGATTTGCATTGCAACCACCTGATCATTATCACAGGTTTGGGCATGAAAAAATGCAAGATTTAACTATTTTTTCTCAATCAATATTTTTCTTCGCTTCTGCCTTTTTTGTAGGATTTGCTTCGGTTAAATCTTTATTTATAAAAACAAAACCGGAGAATATTAGCGATGGTACTATTATAATGTATTTATGTATGTTCTTAACAATTATTTTAGTGCTTTATCAAACTTATGTAATTAAAAAAACAGGATCAGAAATAGTAAAAGCTGATAAACTTCATTATTTTACGGATTTACTAACTAATGTTATAGTCATTATCTCTATAAATTTAAGTGATTATTTTTGGTTTGTTGATCCATTATTTGGGGTAGTTATTTCGTTATATATATTTCACTCTTCTTACTCTTTATTTAAAAAGGCATTTAAAAATTTAGTTGATCATGAATTACCTGAACAAGATAGACAAAAAATTATCTCGATAGTTAATAATCACTCAGGTGTAAAAGGTATGCACGAAATGAAAACTAGGTATGCTGCTCAAAAAGCTTTTATTCAGTGCCATTTGGAAATGGATGGGAATATATCGCTTTATAGTGCTCATAAAATTAGCGATGAGATTGCTTTTGAAATATTGCAGAAATTCCCAGAAGCTGAAATAATTATTCACCAAGATCCTTTTGGTATTGAAGAACATGTAAATTACCGTGAATATATTGTTAGATAAAAAAACTTATTTTAATAATTTTTTCATGGAGCAAGCTTTAAAACAAGCACGGCTCGCTTTTGATAAAAATGAAGTCCCAGTTGGAGTAGTAATTGTATGTAGGTTGAATCAAAAAATCATTGTTAGTAGTCATAATAATATCGAAGAGAAAAAAAATCCCCTTTGTCATGCTGAAATTATTGCTATTAATACAGCATGTAATCTTATATCGTCTAAAAATTTAAATGATTACGATATTTATGTTACTTTAGAACCTTGTGCTATGTGTGCGTCTGCTATATCTCATAGCAGATTAAAACGTTTATTTTATGGAGCTTCTGACTCCAAACATGGAGCGGTTGAAAGTAATTTACGATATTTTAACAGTAATTCTTGTTTTTATAGGCCAGAAATATATAGTGGGATTCTTTCTGAACATTCTAGGTTCTTAATGCAAGAATTTTTTCAAAGGATACGATCTGCTATAGATTAAGCATTTTATCACAGAATAACTTGAAAATACTAATATTAGTATTTTTAGCTGTATCACATGATCAATGTCGCGGGATTACAAGTGAAAAACCTATCTACACATGCGAGAGCTTTGTAAAAATGTCTTCAAAGAAGTAATAAAAATATGCTAAAACTATTAACACCTTATTATTTTAATAAATTATCAAGGATTATAATACCTATATTAGCTGTTTCTACTCTTGTAATGATGATTATAGCGCTTTATTTAGCACTTATAGTTTCGCCTATAGATTATCAGCAAGGTGAATTTGTACGCATTATGTATGTTCATGTACCTGCTTCTTGGATGGCTCTTGGTATTTATGTTTTCATGGCAATATGTAGCTTTAGTTATTTAGTATGGAAAACAACTATTAGCTATTTGCTAGCCGTAGCATCTAGTGATATTGGAGCTATTTTTACTTTGATTAGCTTAGTAACAGGCTCTTTATGGGGGAAGCCTATATGGGGAACATGGTGGGTTTGGGATGCGCGACTGACATCGATGTTAATATTATTTTTATTATATCTCAGTTATATTATTATAGTAAATAGTGTAGATAATATAAGGAAAGCACAAAATCCTGCTTCTATTATTGCTCTTATTGGGCTTATTAATATACCGATAATAAAATTCTCAGTAAACATTTGGTACAGTCTACATCAACCTGCTAGTGTTTTAAGATTAGGGAGTCCAACTATTCATGCTTCAATGTTAAAGCCTTTAATTACTATGTTTATTAGTTTTATATTATATTTTCTATTAGTATTACTTTTAAGAACTGTTATATTAATCGACAAAATCAAAAATAGATAAAAACATGACTTATGTTGTAACTGATGAATGCGTAAAATGTAAATATACAGATTGCGTTGAAGTATGTCCCGTAGATTGTTTCTATGAGGGTGAATTTATGCTAGTTATCAACCCTGATGAATGTATAGATTGTGGTGTATGCGTTCCTGATTGTCCTATAGATGCTATTAAACCTGAATCACCTGAGTTAATAGAATGGGTAGAACGTGCAAAAGATTTTATAGAAAATCATGGATGGAAAAATATTACCAAAAAAAAATGCGCTTTGCCTGGTGCCGATAAATTTAAAGATGAGAAAGATAAATTTAATAAATACATCATAAAAAAAACATGAATTAATTACATGTGTTTATTTTGCAACAAAATTTAATAAAAGCTTTATTATATGAATCTAATCTCCCATTAAGTATAGCACTAAAAAATATAATATGTTATATATGCCATTAAGACATTAAGATGATGTTTAATTATTTAATTTGAGGTGATAATCATGAAAAAGTTACTTTTAATTGCTACTGCAAGTGCAACAATTTTATCTTCTAGTGTATCGTTTGCAGAGTGCATTGATAATGAATGGTATTTAAGAGCAGATGCAGGTGTAGCAATGTTTAATAAAGAACAAGATAAGGCAACAGGTGTTAAATTAAAATCTAATAAGGCTATTCCAATTGATTTGGGTATTGGTTATTATATTTCTGAAAATGTACGTGCTGATTTAACTTTAGGAACTACAATAGGTGGAAAACTCAAGAAATACGGAGCAGCAACTAATACACATTTTACTGGTACTAACGTTTCAGTGAGCCATAAGCCTACTGTTACACGTTTGCTTATTAACGGTTATGTAGACTTAACAAGTTTTGATATGTTTGATGTTTTCGTTGGTGGTGGTGTCGGTCCTGCATTAGTGAAAGAGAAAATTAGTGGGGTAAGCGGTCTTGCATCTAACACTAAAAATAAAACCAATGTATCATATAAGCTGATTTTCGGTACTTCTGCGCAAATTGCAGATGGTGTTAAAGTAGAGCTAGCATATAGCTGGATAAATGATGGTAAAACAAAAACTCATAATGTAATGTACAAAGGGGCAAGTGTGCAAACCGGTGGTATGCGTTATCAAAGTCATAACCTGACAGTAGGTGTAAGATTTGGTATATAATTATAACAAGAATATATAGTTTTAGTTAATAACTTAATGTCATACGATAGTTTTCTACGGTATCTAGAAATAAAAAAGATTAGGTGGAATTGAAAAAAATTGTAGGATCATTTCTTAGAAATATTGCTTAAAACTATTTTTAATCGAATTTAGATAAAAATTATTATCTAATCTCGTCTTTACTAACAATTAATAAAAATTTAAAGGAAAAATTTAATAATATGAAAAAATTACTTTTAATAGCTGCTACAAGTACAGCGCTTTTAACTTCTGGCATTTCATTTGCTGATCATGATATGAATTGTTCTGTAGATTCATCTACTAATACATCGATGTCATCATCTATAGAAAAGCAATGGTATTTAAAGCTTAATGCTGGTGGGGTTATGTTTAATAAAACAAAACCTAAAGGTAAAGATTTTAAATTAAAAACTAACACAGGTTTTATTGGTAATGTCGGTGTAGGTTATTATATAATGGATAATTTAAGAACCGATTTAACAATTGGAGCAGTAACAAGTGCTCATTTGAAGAAATCAACAACTGGAAAAAGTAGCGCAGGTAGTAGCTCAACTAAATCAATAAAACATAAGCCTACTATCGTAAGTGCGTTACTTAACGGTTATGTAGACTTCATCGATTTAAGTATGTTTAAAGTTTTTGCTGGTGCTGGTGTTGGGCTTGCAATGGTAAAAGAAAAAGTTACAGGAAAAGAAGCCATTGCGATTGTTAGTGATAAAAATACAACTTCTAAGGATCATAATCACAATACTAAAAATAAAACAAATTTTGTTTATCAATTATCTTTAGGTACTTCATTTGAACTAGCACAAGGTATTAAAGTAGAGCTAGCTTATGCTTGGATAGATTACGGTAAAACTAAAACCATTACTAAAACCATTCATGGGGTTCAGTATAAATATGGTGGAACACGTTATAAAGGTAGTAACTTAATGGCAGGATTAAGATTTGATATGTAATTAACTAAATTAATCTTTACATTTTTACAACACGCATTAATCCCAAAAAGGGTCTTTATTAATAAAGACCCATTTTGTTTATATCATTTGATATCATTCAATATTAGCATGCTTGTATGAGCATGGTGTATTACCCTGCGTCTTGCAATGTGTATAATAAAATTAAAAAAAATATTAGTTTCTTACTGTAATAAATTACGGAATAATGGCTATGGAATCGATCCACTCTTGTATTGCAAGTTCAATAATACTATTATCTTACCTTAGATTTTGCTTTATAAAACGTTACGTTCATTTGATGTATTGCTTCGAATCCTAAATAAATTTTAATACGTTCTAGAATAATATCTTGATAATAAGGTAATTCTGCTGCAGTAGCATTATCTTCTGCTTGTATCAACAGTATATTAATCTTTTGATTTTTATAAGTGTAAGTTTTAATTTTTAAAGGTAATGCTTTAGTGCTGAAGTTAAACCCCACTATTTTATGCCAGTTAATCATGATTTTAGGCAGTAAGGGATGTTGCTTTGCAAATATACGTCTAACTATTTTATCAATATCCTCTTTAATTAGTTTCATTTTAATAAACTGTGCATGGTTAAAGTTATTACAGCTATTGCAAGCATTATAGATATTACAGGAAAATTTAAAGATATAACTGATATGATCATTAAAAATATATTACAAATTGCTATAATCGATACTACTTGTTTATGAGATTTACCTTTTTGTACTGCTTTTTGAAAAAAATGCTTTAAATGAGGCTGCCAAATTTTTTCTTTATTTAGTAGTCGAATTAATATTGTTAGTACTGCATCAGTCATATAATATAAACTTGCAATAACACAAGCTATAAATAAATTAGTGCTTGTAAGAGCAAGCAGTAGTAAACAAAGACCCGTTAAGAATCCAAGGCTAATACTCCCAACATCTCCTAAAAATATTTTTGCTGGATGCCAATTAAATATTAAAAAACCGCAAGAACAACCAAGAATAATAACATTTACACTAGCTATAAAATATGGGTTATCAATAATCGAAAATTGTAAAAAACATAATACAAGCATAGTGCTAGATAGATGGATAGATTCTACACAACTCATACCATCTATACCATCCATAAAATTATATATATTGATAAAGCCACTTAAAGCTATAATCAAAATATTATGTATTAGTATATGTGAGTTTATTTGTGTAAAAAACAAAATAGCACAAGCTGCGCAAATTAAGTGAACTATTAAGCGAATTAGAATAGGTACAGCTTTTAAGTCATCTAAAAAAGAAATAGATGCAATTACTAATAATAAAGGTAATATTTTTATTGAATTAACAAGGTTATGACTCATAATATATTCAAAGCCACTCAAAGCAATCATCACAACAATTACAATAGCAAGACCACCCCCGCGAGGTGTTATCTTATTATGAGAGCGACGATTACTTGGCACATCAACCAAACCTATTGTAGGAAGATATTTTGTTAATATATATGTTAATATAGTGGTCGCAATAAAAGAAAAAATAAATAATGCACTATAGCTATTTATATTCATAGTAACATAATTAAATTTAATATTTATTATTACTGATCATTACATTATCATGTACCTTAATGTTTAAAGTGTGGTATTTCATTAATATTTTATTAGTCATATGAATATCAATATTAGAGCAAAATTAATATATTTCATTGGTGTTAAATTCTTCTCTTATTAAGATTAATTAAATCTGTAATATAAAAATTAACAAGTTAGTTTACGTCTTTATTAGTGATAGACGATAATAACAATACTTGAAGTAGTTCATAATGGGAAAAATTTTCTGATCATCGACACCTAAACGTTCTTTTGTGGTAATATATATATTAGATCATTATTTAATTCTATCATATTATTTTTAATATTTTTATCTTTATAAAGAAGTAAAATTTTCACATTATAGTTTGACCATGGGGTCCATAAACATAAGTTTAAAAGATTAAAATACTGTGGATCCATTTATCAAGTTTCTTAGTATGGAGGATAATCAAGTTTTTTAGGTGATAATGTAAATATTTCAAAGCCATCTTTAGTCACGCCTATAGTATGCTCAAATTGTGCCGATAATGATTTATCACGCGTGGTCACTGTCCATCCATCTAATTTACTTAATATAGTGTCATAATTACCTGCATTTATCATAGGTTCAACAGTAAAAAACATTCCTTCTTTTAACGTTAGACCTGTGCCGTTGCGGCCGTAATTTAATATTGAAGGTTTATCATGAAAAACTCTTCCAATACCGTGACCCGTATAATCTCTAACCACAGAATAATTATGTTTCTCGGCATAACTTTGAATTGCATACCCGATATCGCCGAGTTTAGCACCTGGTCTCACTACTTCAATTCCTTTCATCATTGCATCATAAGTTACTTGAATAAGACGCTTTGGTTTAATTGCTACGTCACCGACGTAATACATACGACTAGTATCACCATACCAGCCATCTAAAATTACCGTAACATCAATATTTACTATATCACCATTTTTTAATGGTTTATCATTTGGAATTCCGTGACAAACTACATGATTTATAGAAGTACAAATCGATTTTGGAAAGCCTTTGTAATTTAACGGTGCAGGAATTGCATTATGAGAAGTAATAAAATTATGACAAAGGTCATTCAAGCTATTAGTAGTGACATTAGGTTTGACGTGATCAGTAATAAAATCGAGTGTCTCTGCAGCTAATTTTCCTGCTGCCCGCATCTTTATAAAATCTTTTTCAGTGTGGATTTTTATAGTCATGAATTTTGGTTACTTTTACCTCAAGTACAAAAATATATTTTCATAATACAAAATGCTTCTTTTAATGTAAATAACTTCTCCATTTATTGAGAAGTCCTGTTGTATTATTTGATTTAGGTTTTAGATATATTTGTAATAATTATTTAACATGATGGGTTTAGTTAGGTTATTAGCTCTTCCTGTTTTAATTGTATATTTTGTCTATTTCTTTAAATTTTTTAGATGCAGTAGATATAGAATTGTAGTAAAACTTTTTCATTATTTCTGGCAGTTATATGACTATGATTTAGAAAAATTATATAAGCAAAATAAAATTTTTGTACAGATTAATCCTATATATATCTTTTTTATTTTGATTACTTCCTTTTTTAGCAAAAATTTTCTTTTTAAAGTTATTAGTCGTGTAATCTTTCATTTTTAGATACTTTTTAAAAGTTTTTACAAACCTAAATGTTATTGCAAAGTACCTTATAGTTTTTGTCAATTGAGTGATTCTTGTCTTTAATACTACCTTAAAAAGGAATATATCTATATTCTCTCTAATTTGTATTCCGAACTATGTTTAAATTTTCGTATAGATTCTTCTTTCTACACTTACAGTTTACTTAATTTATTAGTGCATTATAGTCAAATATTTAATTAAAATAAAAAAAGTTTTGCTTAGTCAATTATTCTAATATAATGTTTGCGTCTATTTTCAATAAAATCTTGAATAAAAAAGCATTTTTTATTCATACTTTTTAAATATGTTAATTACTTTTATAGCAGTAATAATTATTTCTTTATTGACAAGATTATTGAGTCTTATAGATTTAGATACTAAATGCATAATTTAGATTAATATTAAAAGCAATGCTATTTTACATAAATAAAATCCTTTCAAACAATAAGGTGCAAGCTGTTATCTTGTGGATAATAGGACTTGCTATTGTGATTGTTCTTATGTCATATAATATAGATGATCCGTCTTTTAACTCCGTTACAACAGAATATCCTAGTAATTTAATCGGAATCGTTGGTGCTTATTTATCAGATTTTTTATATCAATTTTTTGGATTAACTTCTTTTATTATACCTCTTGCTTGTTTTATTTGGGGAAGAAATTGTTGGTATGGAAGATATCGTAGCGCATTTATACGTATATTTGTAGTGTTACTTGCTCTTATTAGCAGTAGCACATTATTATCTAAGATTAAGCTAGAATTAATACCAGCGAGTGCAGGTGGTGCTATCGGAATAATAGTTTCCAATTTTTGTGAGCGATTTATAAATCAATTGTATTTATTATTAATATTCCCTACTTTTATTATATTAGTGGTTTTACTTGAAATTAAATTTACTGCTATAAGTAATTTTATGATTAAATTAAGTAAATTTTTAACCTATTGGATACTATTATTTTTTAATTATGTATTACCACGATTATCCTTAATAGGATTATTTCCTATTAAAAACAATGATAAGTTAAATATAACTTCTTTTTATCAAAAGCCTGCAAGTGGAAAAGTCAAATTCACTGAAGAAGCAAGTTTAATACCTGCAAATCCTATAAAATGTTTTATCAAACCTGTATGTACTAAGATATCTCAAAACCAAATAGCATCATTGCCACCTATTTCATTATTATGTGATCCTAAAAATAATCATGTAAAAGGAGCTTCTTCCTCAGAGCTTAAGCAAAAAGCCGAAGAGTTATTAACTGTATTGAATGATTTTGGAGTTAAAGGGCAGATAATTAATATTAATCAAGGACCAGTGGTTACTCAATATGAATTTGAGCCAGCAGCAGGAACTAAAACATCAAGGGTAGTAGGATTATCTGATGATATAGCACGCTCACTATCTGCTTTATCAACAAGGATAGCGGTGATACCAGGTAAAAACGTACTTGGTATTGAGCTTCCTAATAAGCAGCGCGAATTCTTTTGTTTAAAAGAGCTTATAGAGACAAATGAATATCAGGATAAATCAATTTTATTGCCGTTAGTATTGGGTAAAGATTTAGCTGGCAAACCACTAATTGCTGATCTTGCTAAAATGCCTCATTTATTAGTAGCAGGAACCACTGGTTCAGGTAAATCCGTTGGTATTAATGCGATGATAGTGTCACTTTTATACCGCTATACTCCTGAAGAATGCCGTTTTATCATGATTGACCCGAAAATGCTTGAATTATCAGCTTATGACGGAATACCACATTTGCTAACTCCTGTGGTAACAGAACCTTCTAAGGCAGTAATTGCTCTTAAATGGGCAGTGAAAGAAATGGAAAATCGCTATCGAATGATGAGCAATATAGGTGTTAAGAATATTGCAGGTTATAATGCAAAAATCTTAGAAGCGGTTAAAGAGAATAGAGTAATTGAGCGTCCTATTCAAACAGGTTTTGACCCTGAAACTGGTAAACCTATTTATGAAACAGTTACGATGAATATGGTAAAACTACCTTACATTGTGGTTATTGTTGATGAGATGGCAGATTTAATGTTAGTTTCTGGTAAGGATATTGAAATGCTGATTCAAAGGCTCGCTCAAATGGCGAGAGCAGCAGGTATTCATATTATCATGGCGACGCAAAGACCTTCTGTAGACGTTATTACCGGTGTCATTAAAGCAAATTTCCCAAGTCGGATTAGCTTTAAAGTTACCTCTAAAATTGATAGCCGAACGATTTTAGGTGAACAAGGTTCAGAGCAGTTATTAGGTATGGGTGATATGTTATTTATGGGTAACACTTCTAAGATCAGCAGGGTACACGGACCGTTTGTTAATGAAGCTGAAATTGCGAAAATTACAGAATATTTGAAAGAGACTAGTATGCCTGTATATATATCTGCAGTTACAGAGCAACCTGAAGAAAACTATAGTAGCATTGATATCGGTGACGGATCAATTGATGAGGTACTTTACAAAAAAGCAGTACAGATAGTGCGTAATGAACGTAAATCCTCCATTAGCTATATCCAAAGGTCACTTAGAATCGGCTATAATAAGGCTGCAAACTTAGTTGAAAAGATGGAAAAAGATGGGATAGTTTCGTCTCCTAACCATACAGGTAAAAGAGAGATATTACTACCTGAGATGTAATTATGTTATTCCAGTATTCTTAATTTAATTCTTAGCTCTTAGCTAGAAGTTAGGGTCTAGTCTTTTTTAGCTGTAACTCTGACTACACTTAATAATATTAGTATTCTAAGTTAGACCAGATTGCTATTGAAATAAAGTTAATAAAAGTTTTATGTAATGAAAAAATATTAATGCTACAGATCTACAGATGCAAAAGCGAACTTGGTTATCAAAATTTCTGATCTCACTATTAATAGAATATCTAGTAAATCATATGTTAATTTATAAAGATACGAATTAGTAAACACTGCGAAACATTTTGATAAAAGATTATGTTATGTCGTGGTTGATATAGTACAGAAGTACTATAATGATAGTGATTTAGATTTTAGTCAAGGTGTTTATGCCTAGTATATTAGGATTTAGTGGTTTGTATCGTTCTATAAAAGAGCAGTTCAGTGTAGGATTAATGATTCAATTTTTAATTGAATATGCTACCGATATTAATTATTTGGTCAATCAGGCTAGAATTTTATAAATTATATATTTTTGTACTGAAATTTATTATTCGAAGCTGGGGCTTATGAAGATTATTAATAATATTATCAATGTATAGATATTCAATTTATTTTTAATTGTATCCAAGTTTTGATTTATCATTATGTACTGCATTTCATAATCCTGTTCTTTATTTACTGGATCTAGAAAATACTGCAGTAAACTACATTAAAGATTAGAGGATTAACGCAATAACATTGAATAGTTTTTTGATTTATATTTTAATCAAATTTATTCATCTAATTATTAATTATAATAGACCAAAAGTTGTATTTAAGTTAATAAATATTTATGGTCTTAAACTCTATTATTCACGCCCTATACCATAGTAATAATACTTGGTATAAGTATTTTGTATCTCTCAGTACAGTATTAAGAGATATTGCAGAATTTGTATGGTATTATGAATGTAACAATAACAATAAATTAGTTGCTTTGCTGTTAAAGATCCTGAAGTCTAATAAAGCGTTTTATATGAGCAATCATATTATTGCTGTATATTTAGTAGATTGTATTATTTATGCTATAAATGTTGTGGATACTACTTAATGTAAGTCTAAGTTTCACTGGAAATATCCTAATGAGATTAATATACAAACAGGAAAAATTTAAATTTCACTAGTACTGATGTAATCATCATCATTTTGATTATACTACTGTTCATTATAAAAGTTTAGGTAATATAACTTGTGGATAGAGCATATTCTGCACTAATTATACACTCTCTAATTACTGAGGAAATATAGATTAGAGTATTAATCATATACAGATGCTTCTGTTACATTAACAAAACAGTTCAAGTAATCATTGTGGAAAGTATTCTTTTTCTTGAGTGATGCTAATAACTGCAATAAACTTCACTGATGCTAAATCAGTATTGACATTTAATAATCCAGTAACAGTAATATCTATACATAATATTTGTAATGCAAGTAACTGTGTAGTAACCTTTATCTATAATAGTAAATTGGAATATAGGTAATAATACAGAATTATTAGCAGTGAATATAGTTGCAACAATATATTATAGGAAGCTTAATTGTGAATTATTAGATTTGACTGCAGAGAGTATTTTGAGTTTAATAGTACTGACTGTCATAGAAAACTGTAATATTTGGTGGTTTAATTATTGTAAGAGTTACTATCTAATTTAAGATTTAATAAATGATAAGAATGATGATATTGAGATGTTGACATTTGAGTTATTCTTTTTTAAAGGAGTAATTATTAAAGAATTATGAGTCTCTCTATCTAAATCGTTTGTGCAGATGCAGTAATATTACTTTACTATCGTTGTAAATAAAACAAGTATTCATAATCTGAATTTGAACTTTTTTAGTATGCACTGAATTAAATCATAGTTGTGCATATAGAGAGTACAATGCATTTTGGCATTAACGGTAATTCAGGAAATACTGTATTATATAGGTACGTTTACCTTATTAAAGATTTTATCTTATTTCGCTTAAAGTGTAACGATAATGGCTTTGATCATGACTTACTATGAATAATATTCTAACTTTAATAGTTATATAGTAGGTAGCTGTACTACAATTTATTTTAATGACAAATTAAGTAACAATAGTATCTAGAAGTAGTGTTTTCTTCGATACTATTCATCTTAAATACTTTTTTTTGATATGGTATATAAGCTATAAGCATGAAATTTGTAGAAATAGTAGGTAGTTTAAAGCCTTTTTCCAGCAAAATAATGTTTAAAGTAATCGTTAATAATGACCAAAGATTTGTGATCACGTTATTTGTAGACGATATAACTTTAGAATTGAAGAGGTAGTAGCATTGAATTGCTCATATGTCCATTATATTCTTAATAACTGTTGTTTTATAATAAATGCACATTGTATATACAATACACGTCATAAAAACATAACAATATTATTGCTGTTCTATTTAGGCATAGAGCAAATACAAGAAGCGAATAAAAGTTATATTTCTCCTGGTAATGATGACGATATTGATTCTAAGTTTGCTGCATGAATAAGGCGACTTGTTGGTAATAAAACTTATAAGATGCTTAATAATATAATCTATTATAACTCTGATACAAACTAGTTGCACTTATAGGTTGTTATGATTTAGTTAATGATGATTTATTATTTGGTACTGTATATAACATGTATAAAGCTGAGGCAGTATCACAGTGCAAAAAGTATATTATCTTTATATAGTTTATATAATGTACCTTATGAGTATCTCCTTCGTGGAAGTAATAGCAACTTTTTTACAAAAAATAATAAAAGATCCTATATAGTTTGACTATAGAGATTTTTTTGCTTTATAATGTACTCATTGTGTATATTAGTACTAATACCCGTGGCTTGACCACCGGTATCCAGTCTTTTTTATGGACAACCTGATCAATCTACGTGGTGACACAAAATTATGTTGGATAATATTAGAAAAACTTCTGATAGTTTTATAATGCGAGTTTTATTCGCAATTATAGCTTTTGCTTTTGTCGGATTTGGTATTAAGGATATCTTAAACGTAAGAAGAAACAGTGATATTGTTATTTTTTCTCATGCGAAAAATATATCCAAACAGGATTTTTTGCAAGCAAAATCTTTAGAGATTAATGCTATCAGTAAGCAAATGGGCAAAAGTTTAATAGATGAAGAAATCACACAGTTGAATATTGATAACCGAATCCTAAAAAGGCTTATTTATAATAATATATTAGATTATTTAGTTAGCTATTATGACTTAGATCTAGGAGATGATACAGTCAAAATTTTAGTTAAAGAATCTCCGATGTTTAAAAATGAACAAGGTGTATTTGATATTGAAATTTTTAAAACTTATTTTAAAAATGCTTATATAGGTGAAGAAAAATATCTATTAAACTTTAAAGAAAAAGTTCTCAAAAATCTTATTGTAAGTACTTTTGCGAAAAGTTTCTATGTTCCTAAAGCAATGACTGACAATATAGTAGATTATATGGCTGAAAAAAGAGAAGTAGAATTAATACAACTAGATTTACAAAATAAACCAAAAGATTTACAAATACATACTCCTACCGATCAGCAATTAAAGGATTTTTACCAAGATAATAAAGCTGCATTTGAAGTACCTGAGAAGCGGAGTTTTTCTTATATTAAGGCTAATATTAAGGATTTTAAAATTTCAGTTACTCAAGATGAGTTGTTAGAATTTTATAATGAAAATAAAGATGAGTTTGGTGATCAAAGTTTTGAGGCAGTACAAACACAATTACATGATTTATTAAGAGCTAAAAAAATTGATATATTAAATATGGAGCTTGCTAAAAAGCTTGAAGATGAGATTGCATCAGGGGCAAGTTTGGTCGAAATTTCTGAAAAATATAAGTTACCAATACAGAATGTTAACTACGTCAGTTATGCAGAGTTGATTGGAGATAATATAATGGCTGACAATATCGCAGAAAGTGCTGATAGTATTTTTGAGCTTTCGGAAGGAGAATTATCTTATCCTATAGAAGCAGAGGATAAAAGTTATCTTATATTGGTAGAATTAAAATCTATTCAGCCTGCACAAATACCTAAATTTAATGCTATTAAAGATCAGGTAAATAAAGTTTGGATAAAGAGAAATATTGAAGATGTAAACTTTAAAATGATCAAGGATTTAGCAAAAGAATATAATGCAGATCCAGAGCAGATAAAAGATTTTAATGCTGTTGGAATAAAAATAAGTTAAAAAAACTATATTAGAATGGAAATAGAAAATGATCTAACATTGACGCCTGAGATATTATTATCAATTTTCAATACAAAAATAGGAAGTAATACACCTGTATTCCGAGTAGGAGATATAGTATATTTTGCACATATTAAATCTAGAAGTATTGATGAATTAACAGCTCAAAATATTCACGTCAATTTGGAAAAAAATATAATATATAATATTAAAAATTCTGTAATTGAGGAGCTAATTAACTATACAATTATGCAGAATGATATGAAGATAAAGTCTAATTTTACTAAGTAAGGTAAGTGCTAATTATATCTTTATAATTCCATATGTTGTATTCTAAGATACAGCCATGAAGTCTAGATATGACATCAGATGCAAATTTGAATAAATAAATTATGAGTTTTAGAGATTTACCGGAGTTTTTAAAATTTTTAGTAAAAAACGGTCAATTAAAGCGTATTTCTACCACAGTTAAAACTGATCTAGAAATTACTGAGATTAGCAGAAGAGTCTTAGCACAAGGTGGGCCTGCATTACTTTTTGAAAATGTTATAAAAGCTGATGGAAGTAAATCCACTATACCAGTAGTAACTAATCTTTATGCTAGTATCAAACGCATTTGTATAGGGCTTAATCTTAAGTCTCCAGCAGAATTAAGAGAACTTGGCGCTTTACTTGCATTTCTTAAGCAGCCACAAATACCAGAATCTTTTAAGGAAACATTGTCTATTTTACCATTGGCTAAGCGTATTTTTTCTATGTCACCTAAAACAATAGCAAAAGGAGCTTGTCATGAAGTAGTCATTGTTAAACCGAATATCAATATATTGCCAATTCAAAAATGTTGGCCTGAGGATATTTCACCTTTAATTACTTGGGGGATAGTAGTTACTAAAGGTCCAACAAAAGATAGGGTGGATCATTATAATCTTGGAATATATAGAATGCAGGTTGTGTCAGAAAATAAACTATTAATGCGTTGGTTGAAATTACGTGGTGGAGCAGAGCATCATAAACGTTGGAAGACAAAAAAGAAAGAGCTATTCCCTGCTGCTGTAGTGATTGGCGCAAATCCTGTGATCACTTTAGCGGCTGTTACGCCTATACCTGAGAATGTTTCAGAGTATAATTTTGCTGGTTTACTTGGTAATAAAAAAATAGAGCTGGTACAATGCAAGACTATTGATTTAAAAGTACCTGCACATAGTGAAATAGTGTTAGAAGGCTATGTAAGTTTGGCGGAATATTTACCAGAAGGTCCTTTTGGCGATCATACAGGATATTATAATGATGTTGAGGAATTCCCTATATTTACGGTGACTGCAATCACAATGAAGAAAAAACCTATATATTTAAGTACTTATACTGGAAAACCACCTGATGAACCTGCAATCTTAGGTGAAGCATTAAATGAAATTTTTATTCCTATATTGCACCAACAGTTTCCAGAAATAGTTGATTTTTGGTTTCCACCTGAAGGTTGTTCATATAGAGTTGTAGTAGTATCGATTAAAAAATCTTATCCTGGTCATGCTAAAAGAATAATGCTTGGGATTTGGTCTTACTTACGGCAATTTATGTATAATAAGTTTATTATAGTTGTAGATGATGATATTGATGTTCGTAATTGGCAAGAAGTTATTTGGGCAATAGCTACAAGAAGTGATCCAAAACGTGATACAAGTTTTATAGATAATTCTCCTATAGATTATTTGGATTTTGCATCGCCGAAGTCAGGGCTTGGTAGTAAGATGGGTATAGATGCAACAGATAAAATGTATCCTGAGACAAATAGAAAATGGGGTAAAAAAATAGAGATGTCCCAGGAAGTTATAGACAAGATTGATAGTATGTGGGATGGTTTAAATATATAATGTATATTCATTTAATCTTTCATTTTGAGAAATATCTTGGAGCTAAACATGTATAACATCACGCATGAGACTATAATCAACAATTTCAAAGAAATAGCTAATAAATATCAAGAGCTTATTTTACATTTCATGCAAGGTAAAGGTAGTATGATACCCAGGAGTTTAATTGATAGTGATAAAAACATAATTATAGTCTCTTGCATTATAGAACAGTTTTGTAAAAATCCTCAAAAATTTTGTCAGCTGAATATTGAATATATTGAGAAATTAAGAGAGCTTACAACGAATAGCTTTGCAAAATTTGTTGGTAACACGTCAAAAGATGTATTTTCTACGGATAATCGAGATAAAAGATTTAAAGATGCTTTATGGGAGGATAATGTTTATTTTCACTTTGTGAAGCAATATTACCTTCTTTCTGCAGAGTGGATTAAAAAGAATATAGAACAGTATGAGCTATCACATGATCTCAAACAACATTTAGAGTTTACAACTAAACATTTTATTGATGCTTTTGCACCTTCAAATTTTGCTTTTTGTAATCCAAAAGTTTTACGTGAGACATTAGAAAGCGGTGGACACAACTTAGTACAAGGATTAGAAAATTTTTTAAGAGATATAAAAAGTTCAGGTGATATATTAAATATTAACACTACAGATAAATCTGCTTTTAAACTCGGTCAAAATATTGCAGCAACAAAAGGAAAAATCATATTTCAAAATGATTTAATGCAATTAATATGCTATGAACCAAAGGAAAAAGTTCATAAAATTCCGATATTTATTATTCCACCATGCATAAATAAATATTATATACTCGATTTATCTTCGCATAATTCTTTAGTATCTTTTTTAGTAGAAAATAATTTTCAAGTTTTTCTAATTTCATGGGTTAATCCTGATACCTCCCTATCAAAGAAAGGCTTTGAGGATTACTTAAAAGAGGGTATTTTAGCGCCTTTTGAGTATGTAAAAAATCTTGGTTTTGCAAAAATTGATTTTGTCGGTTACTGCATGGGTGGTATGTTTCTTGCTATAATTATTGCTTACTTTAAAGTCAAAAGGATAGATTCTGTCCACAGTAGCACTTTTTTTACCACTTTACTTGATTATACTAATCCAGGTGAGCTTGGAATATTTTTGAATAAAAATACTATTAATTACATTAAGGAAGAGATAAAACTAAAAGGGTATTTTGATGGGAAATATTTATCAAATAGTTTTAGTTTGCTAAGGGCAAATGATTTAATTTGGACGTTTTTTGTTAATAATTATTTACTCGGTAAAAAACCAATGCCTTTTGATTTGCTATATTGGAATGCGGATTCGACTAACTTACCTGCCAAAATGTATGAGGAATATTTACACAATACATATTGTAATAATTTGTTAAAAGAATCGAATGCTTTAGAAGTACTGGGTACTAAAATAGATCTTGGAAACGTTGATTGTAACTCATTTTTTTTAGCAGCGAAAGAAGACCATATAACTCCATGGCGTTCAATATATGATGGAGTAAAATTATTAAACGGACGTAAGATTTTTTGTCTTACTGATTCAGGTCATGTAGCAGGTGTAGTTAACCATCCAGATAATGCTAAATATAATTATCGTCTTAATTATGACCTAAGTTTAAGTAGTAATGAGTGGTTTATGCAAGCGACAGAATATAAAGGTTCATGGTGGAATTATTGGATTGATTGGCTTATAAAAAATAATGATACTAAGATGTTAGTAGATTCTTTAGATTATCAGAATCTAGATGTTATTGAATCAGCTCCTGGTAGTTATGTAAGAAGATAGGAATCCGTTTTATTGTCATCATGTGCGACTTTCATCAATAGTTCTAGACTTCTTCTGTATTATTTATGGATATGGTTTCTGTATCAAGGAGCCAGAGTAAGATGCAGATCATTACTACTAATAATAAATAAATTATGAAGAGCAAAAATAATAAATTTATAGCAGTATCTATCTCCTTTATTTTGGGAATCGCTTTAGGTATTTATGTAGAGAGTACTTATTATTTTACTAATATAATAAATAGCAAATCATTTTCTTTATCTAATGCACAAATAAACTATTATAGTATTTCAGAACTTTCAAGAAGTAATGTGAGTACATGTTTTACTCCACCTGCCGGTTGTACTAAATTTATAGTGCAGCAGATAGAGAAAGCTGAAGAATCTATTTATATGCAGGCATATGGTATGAGCGATTCATTAATTACTACTGCACTTATTAATGCACAGATGCGAGGAGTAAAAGTGAGAATATTACTCGATCGTAGTAATTTAAAGCAGAAATTTTCTAAATTATATGAATTACAACAAGCAAAAATTGATGTTGGCATAGATACGGTACCTGGCATTGCCCATAATAAAGTTATAATTATTGATAAAAAGAAAGTAATAACTGGTTCGTTTAATTTCACGGTTTCTGCTGATAAACGTAATGCTGAAAATGTAATTCTTATAGAAGATCGGAAATTAGCAGAGTCTTATTTACAAAATTGGTTCAGTCGGAAAACAACGAGTAATGCAGTACATTTTTAGTATATCATACCACAACTTGATTGCGGTATGACAGGTGTTAGTGCCTTTTAAGCAGATTTGTTATTAAAGTTTTTTTGTACTTGTTCTGCAGTATTATGTATATTATTAGAAGCATTATGAATATTCTTGGTAATATGTTTATTTGCGGCTTCAAATATTTTATTTGAAGCTTCATAAGCAATATTTGCTAATTCCTTAGCATTGTCCATAGATGTTTCATAAATAGATTTTACACATTTTTGATGATATTCAGTAGCTTGTTTAAAATCTTTAGAATTTATTACTTCTTTAGTACTATTTAAAATAGTATTAATATTATTTTGTATAATCTCGGAATTTTTCTTAAACAAAGATTGCATACTTTCTGTAGAAATTTTGTTAGTGGTAAAAAAAATATTCATGGCTTTTTGAATTGTATTGGTGATAGATGAAAGATCTAGATTAGTGGTATTTTTTATAGAACTCATATAAAATTCTGGTTTCATATAGGATTTCATCAAATTTAAAAATTGTGTATTATTTAACATTATTAATTCTCCTAAATTAAATTTTATCTTTAAAAATTTTTTGTATTGTATTAGGTCTTATATTAGTAAATATAAACTCTCAATTCATGCTAACATTTATCAAATTATGAGTCAATAATTGTTAGTATTAAGATTAATATTTAAAAATAGTTAAGTTTTTATAAATGTTAGATATATCAATTCAAGAATTAATAAAACAGTGGCAAAAATATCTCATTTTGCAAAAAAATTACTCTAATAATACAGTAATTGCTTATAATAATGATCTTAAGCATTTCCTTGAGTTTATGAATTATTATAACTCAGAGCTTGTAACACTCAATCATATTAAAACTGCTGATATAAGACTAATACGTAGTTGGCTTGCAAAGCGTAAATGTGAAAATTTTACTGCTTCTTCAATTGCACGTGGTTTATCTACAGTTAAAAATTTTTATAAGTTTTTAGTAAAAACACTATTATTAAATAATCATATAATTTTTTCTATAAAATCTCCTAAAAAGGCTAAATTGTTACCAAAAGGTTTATCAGTAGATGATGTATTAATATCACTTGAACATATTGAAGAATACGGCAATGTTAAGTGGGTAGAACTTAGAAATAAAGCCCTAATTGTTCTTATATATGCTGCAGGTCTACGTATCTCAGAAGCATTATCAATTACAAAGCTTCATCTGCAAAATCTAGAATTTATAAAAATAATAGGTAAAGGTAGTAAAGAAAGAATAATCCCGTGGTTACCTCTTACTAAGAATTTAATTACCAAATATTTAGAAATATTACCGTATAAGTTAGATGAGAATGAACCTATATTTAGAGGAAGACAGGGTTAAAAATTACAACCGTCGGTATTTAATCGTGAATTAATTAAGTTAAAGCGTATCTATGGGTTACCTGAATATTTAACTGCTCATTCATTTAGACATAGTTTTGCTTCACATTTACTTGAGTATGGTGCAGATTTACGTTCTATTCAAGAGCTATTAGGTCATAAAAGTCTATCTACTACACAAAAATATACTCAAACAAGTATAAAACATTTAGAGGCTGTATATAATACAGCATATCCAATTAAAAAATAAAATTAATATTAATAATTCTTGCGTTAATTTTAAATTATATATTATTATTTTACAAACCTTATAATCTATAAAAGATAATATGAGATATTAATATGCTAGAAACACCTAAATTACCTATTGGATATAAACCTTCTAAAGATGAAGAATATATGTGTCCTAATCACCTGGAATATTTTAGACAAAAACTTTTAAGATGGAAAGAGGATTTATTAAAAGAATCTCAAGAAACTTTAAATCATTTAAAAGAAGAAAATTTAAAAGAATCAGATCTTAATGATTGTGCTACTCATGAAACAGAAAGAGCTTTTGAGTTGCGTAGTAGAAATAGATATTGTAAATTAATGAGTAAAATAGAAGAAGCATTGTCACGTATTAAAAATGGGGAATATGGTTATTGTGAAGAAACAGGTGCTCCAATAGGTATAAAAAGATTAGAAGCAAGGCCTATTGCGGCATTATGTATTGAAGCACAAGAGCGTCATGAAAATTATGAAAGAAGTCATTTAGATGAACCTGGAAATTAATTAGCTTTATTTACGTGTATCAAAAAGATTGCCTTTTTGCTATGATATACTTGGCTTACTCAAATGGTTTGTACTTGGATCCTTATACACGTTTGGGGTATTGTTTGAATATCTAAAACCTAAAGAAGTTAGAGCGTTTACAGTTTCAAATAAAGGTAACCCCATAATGTTTGAATATGAGCCAGAAATAAATGAAACGAACGCTTCTGCATAACCAGAAATTTTGCACCCGCCTGCTTTATCTATTCCTTCATCTAAAGAAGAATAAAAATTAATCTCCTCATCACTTAATTTTTTAAACTTAATAATAGTCTGAACTATTTTTTGTCTAAATGTAAGCTGGTTGTTCTCTTTTTTGATAATACATAAACCTGTATAGACACGATGACGGCGCCCAGATACCATCTTAATACAATGCTTGACCTCTTCATAAGTAGTAGCTTTTGGTAATATTCTTCTACCTACTGCAGTTACTGTATCAGCAGCTATAATTATAGATGATGTCTCTATTTGCGATGCAACTTTAATAGCTTTTTCGTAAGCAAGTCTTATTGCTAAGGGAGCAGGTAATTCACGCAAATTAGGTGTTTCGTCTATATATGCAGGAATAATTTGTGTAGGAATAATTTTGATTCTGTCTAATAGCTCAACTCTTGCAAGAGAGCCTGATGCTAATATGATTGGTAGGTTTTTTATATGCTGCTTCATAACTTATAAAGACTAGTGACGATGAATCACACGCCCTTTAGTTAAATCATAAGGCGTCATTTCTACTGTAACTTTATCTCCTAGTAATATTCTGATGCGATTTTTACGCATCCTACCGGAAGTATGAGCAATAATTATATGATCATTCTCAAGCTTTACTCTGAAAGTAGCATTCGGTAAAAGTTCAAGTACTGTTCCTGTAAACTGAATTAGATCATCTTTTGACATTGTAATTTTTGTTTGTATGGTCGGGGCGGAGAGATTCGAACTCCCGACCCTCTGGTCCCAAACCAGATGCGCTACCAGGCTGCGCTACGCCCCGAAAATTAATTATGTCTACACTATATACTCTATTATTCATAACAAATCAATTTGTTTATGTAAAAATTTATAGATTTTGCACAATATATATTGTGAGTAGGTATGCGTAGATAATGCAGATCTTGATTGTAAGGTACCATTGCAATCTAAAAAAATTCTTATTTAAAGCTATTTTTACTACTGTCGAAACTTTAAGTTTCTATCGCAATGACGTTTTTGTATTTCTAATTAACTATATATTTTTATAAGTAGCTAAATAAATTGGGTTTACTCTTCTGTTACTGAATTTTATATAGACTTTACTAAATTTTAAATATTCTATAGAAATACATTTGTTATATATGTTTTAGAATTAATGTTTTCAAAAAAATCTATAAGCAGTAGAACTATCTTATCCTATTTTAAATATAAAATAAAGCCCTTAATTTTATTATTAACTTAAAGTGGAATGATATACAAAAAGATTTAATTTTGGTTCTGTTTTGCTGTATATCAGATTCTTCTGAAATATAAGTATCACGCTAATATTGACTTACAAAAGATTTTTGACAATTCTCCAAAGATACAAAAGTATTTATTTACTGAATATTAGTCTCGAGTTTTTAATTTCGTACATTAACTCTTCAGACCATATTATTTCAAGTCAAAGAAAAATACTCTAAAAAGTTTAATACAAAAATATAGTTGTATGTACTCCTGCAATTATGCTTGCTAGCACTAGTTACTTTTCTGATGCCTTGGTGAATAGAAATGTTATCGCAGATAATTGAGTTTGATCTAGTGATACTAATCTAGATAAAAATGCAGAGCAGAAAATGTGTTGTTAATTATATTTCTGTGCATGCATATATATAAATACATTGTGTATTTATAATGTCCCTATAATATAGGACAAAATTATATAACACTTGATATATTGTAAATGTTAAATCAAATCTTTAACTAAAAGTTATATAATAATGTAATGTAAATTGATTAAAACACTATAGTGTGTTTAGGATTTCTTGGTCCTATTTCTAGAGCTAACTTTAATAACGCCAATTTAATATAGTGTTTGTTTTTAAATCTTGACCCAAAAATAAAGCAATACATTAAAAAATTAAGTATGGTAACATTACACTTTTAGTAATAATCTAAAATAATTTTGTTGATGCAATAAAAGCGCTTGTAGAGCTTGATTTCAATGCTATTGAAGTATATATAAAGTAGAAATAATAAAAACAGTTGTATGTGTTAAAACAGAAAATGAAATATATTGTAAAAGAGTTCAATAAGGGTTAAATGTTTATAATAATAAAAATGAAGCTATTACTAAACTTATGAAAGGTTAAATGGGTACAATATGATGGCATCATGCATTTAACACAAGGTTTTTTAGATGAGTACAAATATAAACGAAGCAAGAATATAAAGAGTAAATCTAGATAAATTAATAATGGAATAAAAATTTCAATACACTAATGAAGTGTTACTCAAAATTCTGATAGACTTAGAACAAAATCAAAAGTTAATATAAGATAAGAGAAAAATATAAAGACTATAAGAGTTGCTAGCTTTCAATATTTGTAACTATTTTAAGGTATTGAAATAGTTTTTATGCTGATTGAATGTAGTTTTTTATTTAATATTTCAGATAAGGCATTTTTTACTAATTTATGTTGATTAATTAAAGAAAGTCCATTAAATTGAGCATCTGATATTTCTAAAGCATAATGGTCTTGATCTCCTACTAAATCAGTAATTTTTATTACACTACTTGGAAAAGATTTTTTAAGTATTTTTTCTAACTCTTCTGCAGATATTGCCATTATTTTATCAAAATTAATTAAACTTTTTCTGTTAAAGAAAAGCTTCTTATGAATTTTTATTGTAGAATTTTAAACATTCATTGATAAACTCTACTCTTATGAATATAATAATTATTATATATAATATTCATTATTATGAAAAAAGAAACTGAAGAATTAAAATTATTTATTTTAGAATGTTTGATTGAGAAAAAAGCAGAAGATATTGAAGTAATTGATTTAAGAGGTAAAAATAAATTAGCCGATTATATTATATTTGCTAGCGGTCGTTCTACTAAAAATGTTGGAGCAATTGCTGAATATGTAGCTTTAGCATTAAAAAATAATGCCTGTATCAATAGTAATATTGAGGGACTTGGTAAATCAGAGTGGGTACTAATAGATGCAGGTGCTATTTTAATTAATATTTTTTATCCTGAAGTACGGGAGCATTTTAAGCTAGAAGAAATTTGGAAAAGATGAACGATCATATTCTTATTAACGTTATAATTTTACTCGGTACTGCAGTTTTTATAGTAGCTATACTTAAGCGTTTTAGGTTAAGCCCAGTACTTGGTTACTTAATTGCTGGAGCTGCAATAGGAGATCACGGTTTAAAAATTGTAACATATGACCAAACTAAGTTATTAGGTGAACTTGGTGTAGTGTTTTTATTATTTGCAATAGGACTTGAGTTATCTTTCGAGAGATTAAAAGCTATGAGACGATATGTATTTGGTCTTGGTAGTTTACAAGTTTTAACAACTGCTATAGTCATTGCTGGTGCGATGGTACTTATAGATGGTAATAGTAGTGCAGCTATTATTACCGGTGGTGGTCTTGCGCTTTCATCTACGGCGCTTGTTATGCAGGTTATTGACGAAAATCGTAGCCAGTCAACACAAATAGGAAGAATTTCTTTAGCTATCCTATTACTGCAAGATTTAGCTGTAGTGCCATTGCTTGTTATAGTACCGTTACTTGCCAGTAACAATAAAGCCTCCCTTGCAGTAGCGCTTGGCATTGCATTCTTAAAAGCCGTAACTGCCTTACTTACAATATTTATTGTTGGTCGTGTTCTACTTCGTCCTGTATTTTCATTTATTTCATCAGAAAGTAATAATACAAGTGAGCTACCTATTTCTATGACTTTGTTAATCGTACTTTCTGCTGCGTGGGCTACCGAAACATTTGGTTTATCTTTAGCTCTAGGCGCATTTGTTGCTGGAGTATTAGTTGCAGAAACCGAATTTAGATTGCAAGCAGAAGAAAGTATTTATCCTTTTAAAAGTTTGTTTTTAGGATTATTTTTCATGACGGTTGGTATGAATATTGATGCACTAGAAATGTATGAAAAAATATCTCATATTCTTACTTTATCTATTGCTTTAATATGTATAAAAACCTTAATCATAACAGCTTTTTGTATTTTATTCGGTTTTAATAAAGGAGTCGCTTTTTACTCAGGGTTATTATTATCGCAAGGAGGAGAGTTTGGTTTTATATTATTCAGTTTAGGCAAAGATAGTGGGGTATTGGAAGAAAGTACTGCCGATATATTATTACTTGTAGTTACTTTTACTATGGCACTTACTCCATTACTAGCAGCTTTAGGTAAAAAGATTGCTGAAAAAGTGGATAAAGGACTTGGTAAAACTCCGACTCAAATGATTGAGCTTGGAGCAAGAGATTTAACAAACCATATTATTATTGCTGGACTAGGAAATACTGGTAAAATGGTAGCAAGAGTTTTAGAAGCAGAAGGTATAAGTTATGTAATACTTGATTTAGATGATGATAGAGTTAAAGAAGAGTTATCAAACGGTCTACCAGTTTTTAAGGGTGATGTATCGCAAGCTGATACTTTAAAGGCTTTAGGTACTGAAAGAGCATTTGCTATAATACTTACTATGAATAATCAAGTCACTATCAAGAAATCTCTTAAAACAATTAGTAGTAATTATCAGGATATACCTGTAGTTGTTAAGTTAAAAAATTTAAAAAATGCTAGAGAATTTTATGATTTAGGTGCAACAACTATTATTCCAGAAAGTTATGAAACTGGATTACAAATAGGTGGCACAGTCCTAAAAAATATAGGTATTAGCGAGCAGGAAATTAATAGGATTAAAGTACAATTTAGGCTTGGTAATTATATAATAGCAAAAAAAGAGGATGCTTTATCTGAAGTTGAAGATAATGATTAAAATTTCAATTATTTTAATTATAATAATATTATCAACAACAATTAACGCAAATAATAAAAAATTGCCTATCCCAAGATTTGTTTCAATAAAATCTAATGAAGTAAATGCAAGGCGTGGTCCAACTACTAAGTCTGCTGTAGAATGGGTTTTTATTAAAAAAGGTGAACCTGTAGAAATTACTGCAGAGTATGAGCAATGGCGACAAGTCCGTGACATTAATGGTGAATGTGGTTGGATACATTCAAGTGTTTTATCAGCTAAAAGATCAGTGATTATTGCCTCTGATAAAGAAATAGAGCTTACTAAATCAGCCGATCCTAAAAGCAGAGTTATAGCAAAATTAATGCCCAAGGTGCGCTGCAGTTTAAAAAAATGCAAAGAAGAATTCTGCCAAGTTACATGTAAAGATTATAAAGGATGGATCTCAAAGAAAGCAATTTGGGGAGTATATCATCATAATGATAGATATTAAAAATGGATTTCTTGCATCACTTTTTGCTAAAGGAAGTTTATCGTTTAACTCTGTAACTTCGTATCATTAAGTTTTATATCAAGCTGCTCTTATAAGTTTTTTAGTGTTTCTTAAAGTATTGCTCTTGATAAGATGAAATTATGCAGTAGTCTCTAATATAGATGATAAATATTTGTTTATAATAGCTATAAAGAAATTAAAATTATATAGATGTGTCTTGACACAAAGCTATAGCAGGTTTATGTAGTGTTATTTTATTAGTTTTCTCAAATTGTAAATCTCAATGGAATCATGGATCAATAAAAAACTAAAGAGAAAAATTAAAAAGTGATTTAAAGCAGAATTAATGCATGAATGGATATCAAGACAGTCATTGCGAGGAGTAACACTATACTGAAGTTTAAGAAAAATAATAAAAATCTGAAATAATAATTTTTACTAGATTGCTTATTCAACTACTTCATATCATTCTTATAATGACGTTATTAATTTATTAATTAACCTGCCTTGAGTTACTTTACTTTATTTTAAATTTGATAAAATCATCTAAATGTAGTATAGAACTTTTTATAATATAATTGATGCACTTCAAAATTTGTTATTGTGTTATACAATACTGTGATGAGTATTGCTTTGAGAGCTTTTATATCTCTTTTTGTAATTGATTTTCGTATATTTTTGTAAAATTTATATAAAAAATTATGAGTAAAAAGCTTTATATTAAGACCTATGGATGTCAGATGAATGTTTATGATTCCGTTAAGATACAAGATTTACTTTATCCTTTCGGTTATGAATCTACGGAAGATATTAAAGAAGCTGATATTATTATTCTAAATACATGTCATATCAGAGAGAAAGCAGCTGAGAAAACTTATTCTGAACTTGGTCGTATTAAGAAACTACAAAATACGAGAAAGCAAGAAGGCTTAAATCCTGCAATAATAGTTGTAGCAGGTTGTGTTGCTCAGGCAGAGGGGGAAGAAATTTTTTCAAGAACTCCTTATGTGGATATTGTTGTTGGCCCACAATCTTATTATAATTTACCAGAATTAATCTCCAAAGTTGTTAGACATGAAAAACAATTAATCGATCTAGATTTCGTTGAAGAAGCAAAATTTGATAATTTACCGGAACAATTATATCCGCAAGGAGCTAGTAGCTTTATCTCTGTACAAGAGGGGTGTGATAAATTTTGTACTTTTTGTGTAGTACCTTATACAAGAGGTGCTGAATTTTCAAGAAGTGTAGAACAGGTTTACAGAGAATCATTAAAAGCAGTTAGCAACGATGCTAAAGAAATTATACTACTTGGACAAAATGTGAATGCTTATCACGGTAAAGGTCCTAAAGATCAAATATTTACTCTTGCCGATTTACTCAAATGTCTTGCACAAATTCCAAATTTAGCGAGATTGCGTTATATGACCTCACATCCTATAGATATGACAGATGATCTAATAAAACTGCACGGTACTGAGCCTAAATTAATGCCATTTTTACATCTACCTGTGCAATCAGGTTCAAATAAAATATTGAAAGCAATGAATCGAAAACACGATCGGGATTATTATTTTAATATAATTAATCGCTTAAGAGAAGCAAGATCCGATATAGTTTTATCTTCTGATTTTATTGTTGGGTTTCCTGGTGAGACAGAGCAAGATTTTGAGGATACTTTAGATTTAGTTCACAGAGTAAAATATGGTCAATGCTATTCATTTAAGTATAGCCCACGTCCAGGTACACCTGGTGCAATCAGAACTGACCAAATACCTGAACACATAAAATCCAAAAGATTAACTATATTGCAACAAGAACTCGCAACTCAGCAACTAGCTTTTAATCAAAGTTGTGTTGGTAGTACCATGAGAGTACTATTCGATCGTGATGGTAAATTTGAGGATCAAATAATAGGCAAAACTCCGTACATGCAGTCCGTATATATCCATAATCCTAATAAATCTCTACTTGGTAAAATAGTCGATGTAATCATTACTAAGGCTGCGCTTAATAGTTTAACCGGCGAAATATTATAAGTCATGTACAAATCATTATTTTTATGTTTAAAGATTTTTGCCGTTCTTATTTTAATAGGTTGTTCTGTTACTGCTTATATCATATATCACTATTCACATGATTTACCTGATTACTCACAGCTTGCACGTTATTATCCTCCATCTGTAACTCGTATTTATTCTCGTGACGGTAAATTAATTGAGGAATATGCTTTTGAACGCCGAGTATTTGTACCTATTAATAATGTACCGAGTTCATTAATAGAAAGTTTTATTGCAGCTGAGGATAAGAATTTTTATACCCATCCAGGTATCGATTTGCTTGGCATAGTTAGAGCAGCATTTTTAAATATATCTAATTATTTACATAATAGGCGTATGGAAGGAGCGTCTACGATTACTCAGCAAGTGGTTAAAAATTTTTTGCTCACTAATGAGGTTTCTCTTGAACGTAAGATTAAAGAAGTTATCATATCTTATATGATTTCGCGAATATTTACTAAGCATCAAATTTTAGAATTATACCTTAATCAAACATTCTTTGGTCGTGGTGCATACGGTGTTGCGGCAGCTGCACAAAATTATTTTAATAAATCTGTAGAGGAACTTACCATTGCAGAATCAGCGTTTATTGCAGCACTGCCTAAAGCTCCTTCCGAACTTAATCCAGATAAAAACTACTCTAGAGTGAAAGCGCGTCGCGATTATGTAATAGAACGTATGTTTGAAGATGGTTATATCACAAGAGATACTATGAAAGAAGCTATAGGTAGCCCAATAGTTTTACGTAAACGAGCTAAAGAAGAAACTGTTACAGCAGACTATTATGCTGAACAGGTTCGAGAAGAAGTGATTAGGATGTTAAATAGTAAGGAAGAATTTTATAGAGGAGGTCTTACTATTATTACTTCTTTAGATGCAAAGATGCAGCAATTAGCTGAGAATTCTCTAAGAAAAGGTCTGAGAGAGTTTGATAGAAAAAGTGGTTTTAGAAAGCCTATCGCTAATATTCCTCTTGATAATTGGCAAGAGGAGCTAAAAAAACTACCTACTCCTTCTTCTCTTTTAGAATATAAATTAGCTGTAGTCTTAGATGTTTCAGATAATCATGCAAAGATTGGACTTATAGATGGTAGTAAAGCTAAGATACCTATTGTTGAAATGCAATGGGCAAGAAGCAATCTTAAATCAGTGAAGACCTTGCTTAAAAAAGGTGATGTGATAGTGGTTGAGCCTATAAAAGATTGCTATGCTTTGCGTCAGATCCCTGAGGTTAACGGAGCTATTATGGTTATGAATCCGCATACCGGCCAGGTACTTGCAAGTGTTGGCGGTTATGATTTTTCTACAAGTAAATTTGATAGGGTAACTCAAGCACTTCGTCAACCAGGTTCTTTGAGTAAAACATTTGTGTATCTCGCAGCTCTTGAAAACGGCGTTAAGCCTAATCAGATTTTTAACGATGGACCTATTGAGATTATTCAAGGTCCAGGGATGCCTAGTTGGTGTCCTAAAAATTATGAAGGTCAGTTTTTAGGTGACATGACTATGCGTACCGGTTTTGAAAAATCCCGTAATCTTATAACAGTAAGAGTAGCAACTGCTGTAGGGCTTACAAAAATAGTTGATATAATTAAGCGATTTGGTATTAATAATGAACCAAAAAAAGTTTATTCTATGGTACTTGGTTCAATTGAAACCACACTTAGCAGAATAACTAATGCTTATGCAATTATTGCTAATGGTGGTAAAAAAGTTGAGCCTCATTTTGTTGAATTAATTCAAGACCGTAACGGTAAAATTATTTATAGACGAGATAATAGAGAATGTTTTTCTTGTAATATTGCGGATAGTGATTTAGATACTGCAATATTAGAAATACCGAAAGAAGATATATATAGAGTTACCGATGAAGCTAGTAATTATCAAATTACTTCATTTTTAACAGGAGCAATAGATAGTGGTACTGGTTATGCTGCGAGGAAGCTTGGCAAAATTATTGCTGGGAAAACTGGTACTAGTAACGATAGTAAGGATACATGGTTTATAGGCTTTACGCCTAAGATAGTAGTCGGGAGTTATGTTGGGTACGATACACCGAAAGAACTTGGAAAAAAAGCAACAGGCTCAAACGTAGTATTGCCGATTTTTATTGATTTTATGAATCACGCTTATAAGGACGAACCGTCGCTACCTTTTAAAGTTCCGGACTCAATTAAGCTAATCGCTGTAGATAGAATAACAGGTAAAATGATACCCAACGGCACTGTTATAGAAGCATTTAAAGTAAATAATATTCAGATGCTTGAGAATGATTATATGATTGATAATCATGATATTTTTGATTATGTGCCTGGTATGTTAGATCAATCGCAGGAAATTTACTAGTTCGTATTATTACGAAATGTATTATCGTAATTGTTAATAGCTAGCTGTATGCATTACATGTACCAGTTTTACCTAATTATTCTGTGCTTTATTGACATAAATATACTACTAAATAATATATTTTTTTTGATGCGTGAATAAGATAGTAGATAACACTGCGTATATTGTTGATCAACGCAACAAAGTTACTAACTAACTTAATTATCTTACTATCCTAATATCACTTACGATATCTTTTATAGATAAAGCTGATTGGTTAGTTAAAGATAATAGTGAATTGATTAAAAATGAAAATAACTACGAAATCAATTATGCTCTATGATCAACATTTAACATTACCATAACTTTAATGGATAATGATAATTGGTTTTTGATACAATTCATCCAAAATTAACTTGTAGTAGATAGTAAGTTTTATATCATAGAGCTTTGACAATAGTAGCATATTCTTCAAAACTTAATCAAGCATAATTTGTTTCGGTATTCTTATGTTTATTAGCAAAGCATTATATATTGCAAGTGTCCGTGATTAATTATGTAATTATTATTGTAACCCTTATATTATAAACGATACCGGTAATCAATTTTCCTCAAAAACTATACATTATTTTTAAGTCTTAAAGAAATGTTAAATATCTTATTTATTTAATATCTTAGATAGTTTGAAGCTTTGCAGTAAAACAGTTAGTGCTAATAAGTTTAGATAAGATAGAACCATATATCAAATAATTGAATAGTTTATAGACTAAAAAATGATATATTGATTAAAGATAATAAAACTTGTGCTTCTTATGAAGTAGTTGAAATACAAGTTAAAAGAATTGATAGATAAAACATTTAAAAAAATTTTATTTTTGAGAAACAACAAATCATGAAGTTTATATTTGTGCATTATGCTCTATGTGTTGTTAATTAGTAGAGTGTTATACTCTACAAGTGATGTTATTAAGCTATACTAGTATCTCTTTGAGATGTAACTGAGTTTTTTGTGTTTTTACTCTGTTAATGCAATAATAGCGTTACTCCCCTGACACTAAAACGCTATGGATGTTATATATGGCGTCGGCATCACTAATGGCGTCTCAGTATCACTGATTATCAAACATATTGTCTTGAGTATTATGAATTGTATTGAAAGCAGTATTAGTAAGTTTTACCACGCTATTATCAAATTTATTCTCATTTTTACTCAATTTTCGGTCTTATAAGAAAAAAGATTAAATAGAGCTAGTTATTGTGTTATTAAGCATATTAACAGTATTGCAGTTAAGTTTTTTATTCTTACTAAAATTTTTTTACTATTTTTAGTAGTATTCTCATATTAAATCCTTTATTTAAAATTTCATTCGAATTATTTCCTTTAAAATATTTCGTATCTTTTACTTTAATTTATAAAAATTGTTAGTTGCTGCAGTACAGTATATACTTAATAGTATAATTGAAAATTTTAGTATACATGTTGTAGATAAAATATATCACTATTTAATACTTCTATTCTTTTTTAGTACTTAATTTCCGTCATATTATTTTATGTATGGTAATTCAAGACAATCAAATGTTTTGTATTAGATAATTTTCTTAGTATTATCCTATTTGAAGCATATTAATTTAGCTATAATTATATTATTAATTAATAGTTAATTTATATATCATTTTGCTATTCCTTTGTATTTAAAAATTTTTAATTAAATAATTAATATATAATAGAAAATTATATAATTTAATATCGCTTGAAGTATCTAAAGAAATGTTATAAACTCAAAAAGTTCATAACAATTTGAGGATATATGCAATTAGTAAAAGCTTTAGAACAAATTTTAGCAGATAGTTATGTTTTATATTTCAAAACACAGAATTATCATTGGAATGTAGAAGGAGCAGAGTTTAGAAGTCTACATTTGCTATTTGAAGAGCAGTATAAAGATTTAGCTGAAAGCTTAGATGAAATTGCTGAAAGAATCAGAAGTTTAGGTACTAAAGTTCCAATATTCTCAAATTTAATAAAACTTGCATCTATAGATGGGACCAATCCAAGTGCAACAGCAAATGAAATGTTAAAAAGTTTAATAAAAGATCAAGATATTATTAGAGAGACATTATATAATGGGCTCAAAGTAGCGCAAGAAGAGCGTGATGAGTGTACAGCTGATATGATTATTGGACGCATTAAAGTGCATGAAAAGAATAGATGGATGTTGAAGAGTAGTTTACTTATTTAATTTGAAAAATTTGTATCGTTGTTTTATATTTTTTAGTTTTTAAGTACTAGTATGTATTGCAGTTAAGAAATATAAAACATTTAGCTCTTTTAAAGATCATCTACTAAATTCTATATATTTTTTCAGTAAAGGTTAAAATCAAGTGTTGATAAAGTTCTTTAAATGCTGAGGTTATCTCATTTTACCATAGATTTCACCTTTTTTGGAATAATTTATACCTTAAAATAGAACCAATAAAATAAAAATAAAATGGAAAAATACGATGTAGCGGTCATAGGCGGTGGTCCAGGTGGATATGTTGCAGCAATTAGAGCAGCACAATTAAAGTAAAAAGTTGTATTAATAGAAAAGGCCCATTTAGGAGGAGTATGCCTTAATTGGGGGTGCATACCAACTAAATCTCTTCTCAAATCTGCTGAAGTTTTTGAATATATAAAGCATGCTCAAGATTATGGGATTGATGTTGGTATTGCTGAAATCAATATTAAGAAAATAGTTGAGCGTTCAAGAAAGATTGCAAATACACTCGCATGTGGGGTTCAATTACTATTGTAAAAAAACAAAGTGACAATAATAGATGGAGTAGCAAGTTTTGGAGAAAATAAGGTAATAAATGTAAATGATAAACCTACAGTAAAAGCAGAAAATATTATTATAGCTACTGGCACAAGACCTAAGATTTTACAAGGTTTTGAGCCTGACATCAAACAAATATGGACATCAAAAGAAGCTATGATACCACAACATGTACCGAAATCTATGATTATTATCGGATCAGGTGCAATAGGTATAGAATTCGCATCATTTTATAATAGTATTGGTGTAGATGTTACCGTAATTGAGGCAAAGAATAGAATATTGCCTTCTGAAGATACAGAAATTGCTGGCATTGCTCATAAGAATTTTGAACAAAAAGGAATAAAAATTATTACAAATGCTAAGTTAATTAAACAAACAAAGTCACAAAATGAGATAGAAGTCGAGTTAGAGTTAGAAGGTAAAACACAGAAATTACAGGCTACAATCTTACTGATGGCAGTAGGTATTAGTGCAAATATAGAGAATTTAGGACTTGAAAAAACTAAAGTTGAAGTAGAAAACGGGTATATACTTACTAATGGGTTAATGCAAACTGCGGAATCAGGAATTTATGCTATAGGTGATGTAGCAGGAGTACCTTGCTTAGCTCATAAAGCAAGTCATGAGGGGATTATTGCAGCGGAAAGCATAGCGGGTTTAAACCCCAATGGTATTAATAAACATAATATTCCATACTGTATTTACTCTTCTCCACAAATAGCAAGTGTTGGTTTGACTGAAGAAATCGCCAAGGACCTAGGTTATGAGATTAAAATCGGAAGGTTTCCTTTTAGTGCTAATGGTAAGGCTTTAGTAAGCGGTAACAGTGATGGCTTGATTAAAACTATATTTGATGTTAAAACCGGTGAGTTATTAGGAGCGCATATGGTAGGATTGGAAGTAACAGAATTAATACAAGGATATGTTGTTTCAAAAAATTTAGAAGGAACGGAGCTGGATTTAATTAACACTATCTTCCCACATCCGACTTTATCTGAAATGATGCATGAATCAGTACTTGCTGCTTATGATATGGCAATACATATATAGTCAAAATAAATGGAAAGTAACATAATAATATCAACAGCAATGAAATACACATTTGAAATGGTAATTGTTCATCTCGAATGTGCATATCTAAAACTACTTTTAAGAGACAACAAGTTATATGAATAAAGATAATTTAATTCAAAATTATGCTGTAGCATTATTTAATAATGCTTTGCTTGATAATATTCAGGTTAAGATTTGTGAAGAAATTACTTTACTGAATAGTATTATTGAGGATAGTTTTGAGATTAAAAAATTCTTATTTTCACCTCTAGTTAATAAGATTGATAAAATCAATGTTTTTAATTCGTTAGTAAAAACTACTAATTTTAACAAAATAGTGAATAATTTTTTATTATTGTTGATAAAAAATTCTCGTACGCATATCTTATCAAATATAGTAGAAGTTTACAACAAGCTATTATATGAAAGTAGAAATATAAAAATAGTGCATGTTATTTCTACAAATGAATTACAACCTAAAGAACAAGAGTGGATTCAGTCTCGAATAGAAAAAGAATTACAGCACAAAACAGAACTATTCTTTGATATAGATAACACTATTATCGGCGGCATTGTAATTAAATATGATAATGTGTTGCGAGATTATTCAATAAAAGGTAGTTTAGAGAAAATAGCTAAGTGTTTGAAGAATGTTAAGATTTGTTAATGTATATAACTAAAGGCAAGAATTTTGATCTGCAAGCAGCTTTTATCTCGTATATGAAACCACGGGAGCCAATAAAAGTAACAATATTAGATCCCGTGGTTCATACATTGGATTATAACATGGAGACGTAAATTAAATGAAACTGAATCCTATTGAAGTAGCTGAAATATTACAAAAGGAAATAGCTAATATTAATTTCTTAAGTGAGCTTGAGGAAGTTGGTCAGGTAATTTCTGTTGGTGATGGTATAGCAAAAATTTACGGTCTCGCTAATGTCAAATCCGGTGAGGTAGTAGAATTTAAATCAGGTGTTAAGGGTCTTATTTTAAATTTAGAGAATGATAGCGTTGGTGCTGTAATTATCGGGGATTATAGTAAGGTAAAGCAAGGCGATAATGTAAAAAGAACTAAAGACGTTTTGAAAGTACTTGTAGGAAAAGCGTTACTTGGTCGTACAGTTGATGCTTTAGGTAATCCTATTGATGGTAAAGGCGATATTGTAAGTAAAGAGTACAGACATATCGAGATGAAAGCTCCGGGTATAATAGAAAGAATGAGTGTGAGTGAACCTGTGCAAACCGGCATCAAGGCTATAGATTCGTTAATCCCAATAGGTAGAGGGCAAAGAGAGTTAATAATCGGTGATAGGCAAACAGGGAAAACTGCTATCGCTGTTGATACTATTATTAATCAAAAACAAGCTCATTCACTTACTAATGAAAGTGATAAAATTTATTGTATTTATGTAGCGATTGGACAGAAGAGATCAAGTGTTGCACAAATCGTGAAGAAATTAGAGGATGCCGGAGCCATGGATTATACAATTGTTGTTTTGGCTACTGCATCAGAAGCTGCATCTCTTCAATTCATCGCTCCTTATTCTGCATGTAGTATGGGTGAATATTTTCGTGATAATGGTATGCATGCACTAATTATTTATGATGATTTAAGTAAGCACGCTGTTGCATATAGACAAATCTCGTTATTACTTAGAAGACCTCCAGGACGAGAAGCATATCCTGGTGATGTATTTTATTTGCATTCAAGATTGCTTGAGCGGGCTGCTAAAATGTCAAAGGAAAAAGGTGGTGGCTCACTTACTGCACTCCCTATAATTGAGACGCAGGCAGGTGATGTATCTGCATATATCCCAACAAATGTTATTTCAATTACTGATGGTCAAATCTTTTTAGAAAGTGACCTATTTTATAAAGGTATACGACCTGCAGTTAATGTCGGTATTTCGGTAAGTCGTGTTGGTTCTGCAGCACAAATAAAGGCTATGAAACAGGTGGCAGGTTCGGTAAAGTTAGAACTTGCTCAATTTAGGGAGCGTGAATCTTTTTCACAATTTGGATCAGATCTAGATCCTGCAACTAAAGCACAAATAGAGCATGGTAAAAGATTAGTTGAGATATTAAAACAAGATCAATATCATCCTTGTCCGGTAGAAGAACAAATAGTAAGTATTTATGTTGGCACTAAGAAATATTTAAATGATATACCTATTCAAAAGGTAAAAGAATTTGAAGAAGCAATGCTTGCTGAAATAAGGTTAAATAAAAAAGATATCTTAGAATCAATAAAAACCGAGCAGTGTATAACTGAGGAAATTGAGCAGAAATTAAAAGCATTTTTAGAAAATTTTATACAAGCCTACTGCGTAATGCTGTGACTTGATCACGGTATGCGGTAAAATTGAGTAAGATTGAGAATCGTAGATACAAGCTATGTGTTAACAATAGAAAACTAACAAACTATATGTCAAATTTAAAGCAATTAAGAACTAGAATTAAAAGTGTTAAATCTACACAAAAGATTACCAAAGCAATGCAACTAGTATCTGCTTCTAAGATGACAAAAATAAAGACTCAAATAGCTAATTCAAATTTTTATATTGAGGCTATTAATAAAATGATGTCCGATATATGCTCGATGACATCTTGTGAGCTATCTATTGAAGAGCAGAAATTTTTTAATACTATGCCAAGTAAGATAAATTTATTGATAGTTATGACGTCTGAGCGTGGTTTATGCGGAATGTTTAATTACAGTATAATTAAGCAGGTTAAAAATGATATTAAAGAATTAACAAATAAAGGTGAACAAATAAAACTTATAATTATTGGGAAAAAAGGTTATGAAGCACTAAAAAGACAATATGCTAATTACATCAATAGTTATTTTGAGTTCACAAAAATTCATTCAGAAAATCTGATTCTGCAAGTAAAGGAAAAAATTATGTGCGCAGTAAAAAATTTAGAAGTTAGTAACTGCATAATATATTTTAATAAATTTAAAAATGCAATGACTCAAATTCCTACTAAACAGAAGATTTTACCGATAGAAAAACATCAAGATTATTCTGTAGTAGCAAATGATTATTTTGAGTATGAGGGTAAAAATCTAATTTCTAATCTAATTAATTTATATGTGCATGCCAAAATAAATTATGCTTTACTACAAAATATCGTTAGTGAGGAAGGAGCAAGAATGACAGCTATGGAAAATGCAACGAATAACGCTAACGATTTAATAAGCAAGTTAGTATTAAAGTTAAATAGATCAAGACAAACTATTATTACTACGGAGTTAATAGAGATTATAGCCGGTGCGGAAGCAGTTTAGAGATAATGCTGTGTTATCCCGTGTTTATTGATCACGGGGGCCAGTCTTTTTTAATTTTTATGAATCCCGTGGTTTACACACGGGGTTATAAACCTTTACAGAAAAATCATGACACAAAATATTGGAAAAATTACTCAAGTTATTTCAGCAGTAGTGGATGTGAAATTTACTAATAACGGTAAGTTACCAGAAATTTTAAACGCACTTGAATGCTATAACGATAAACAAAGGATAGTACTAGAAGTAGCACAACATATAGGTGATGATACAGTGCGTTGTATTGCTATGGACTCTACTGAAGGGCTGATAAGGGGCTTAGAAGTAATAGATACAGGTAACCCTATTCGTATTCCTGTAGGTACTGAAACGCTTGGCCGTATTATGAATGTTCTGGGTGAACCGATTGATGGTAAAGGAGAGATTAAAAGCGCAACCATTTCTTCTATATATAAGCCTGCTCCTGATTTCATAAATCAGTCAACTGAGCGTGATATATTGGTCACTGGTATTAAAGTTGTTGATTTACTCGCTCCTTATGCTAAAGGTGGTAAAATAGGACTATTTGGTGGTGCTGGTGTTGGTAAAACTGTGTTAATTATGGAACTTATTAATAACGTAGCTAAAGCACATGGTGGTTATACTGTATTTGCAGGCGTTGGTGAGAGAACTCGAGAAGGTAATGATCTTTATCATGAAATGATTGCCTCAGGTGTTATTAACCTTGAAGAGCCTGAAAAGTCAAAAGTCGCTTTAGTTTATGGACAAATGAATGAGCCTCCTGGTGCAAGAGCAAGGGTTGCATTAAGTGGTCTGACTATTGCAGAGAGTTTTAGAGATATGAATGCAGGACAAGATGTATTGTTTTTTGTAGATAATATTTTCCGTTTTACTCAAGCAGGTTCTGAAGTATCTGCATTGCTCGGTAGGATCCCATCAGCGGTAGGATATCAACCTACTCTTGCAACTGATATGGGTGAACTACAAGAGCGTATCACTTCTACTAAACACGGATCAATAACTTCTGTGCAGGCTATATATGTACCGGCAGATGATTTAACTGATCCTGCTCCCTCTACTTCTTTTGCACATTTGGATGCGACAACGGTACTGAGTCGTCAGATAGCTGAGCTTGGGATTTACCCAGCGGTTGATCCGTTAGATAGTAATTCTCAGGTACTTGATCCGATGATTGTAGGGGAAAAACATTATGGCGTTGCAAGACAAGTGCAGCAGGTTTTACAAACTTATAAATCATTGCAAGATATAATTGCTATTTTAGGTATGGATGAGCTATCTGAAGAAGATAAATTAACAGTGTCGCGTGCTAGAAAAATACAGCGTTTTTTGTCACAGCCTTTCCATGTTGCTGAAGTATTTACTGGAGTTGAAGGCAAATTTGTAAATTTAGATGATACAATTGAAGGTTTTAAAGGACTTGTAGAGGGGCAATACGATGATTTACCTGAAGCAGCTTTTTATATGGTCGGCACTATAGACGAGGCTGTAGAGAAAGCAAAGATATTAAAAATATAGGTATTGTCATCCTGTGCTTAAATTATTGTAGTGACTGAAAGTAATAAATAGCAAGTCGTTTTTCTAGGTTATGTGCTTAAGTACGTTATGTGACATTAAGGATAAACAAAAACATGCATGAAACAATTCGAGTAAAAATAATTACACCTTCAAGTATTGCATTTGAAAAGCAATCTAAAATGGTAACAATGCCGGGTGAGGATGGTATGTTTGGAGTACTGCCACATCACGTTCCAATGATTGTGAATTTAAAAGCAGGTTTAGTGCAGATTTATATATATAATATTCATAACTACGAAAACACTTATCTTATTTCTGGCGGTGTCACTGAAATAACATCACATTATATTAATATAGTGACGGAAGTTGCCATTAATGTTACGAATTTAAGTGAATCAGAAATATCAACTCAGCGTTATGAACTTCAAAAACTTTTATCACATCAGCATTAATTTATTTGAAAAATCTACATTTTTGTGTAAAGTTAAGTATAAGTTTTAAGTTCTCATTAAGTAAGTTTGTAGCTAGATCCAGTCTTTTTTGACTTTTTGTATTCCATGCTCAAGAAACTAAAAGTAATTCCACTAAATCAAGTGAGAAACAAATGTCAAAAGTTCATAATTCAGAATATATAAAAGAGTTAGTAGTCGATAATACTTCATATAAAATTTACGATATAAATAAAGCAGCAAGTGATATCGGACTTCCTTTAAAAAAGCTCCCTTATAGTTTAAGAGTATTATTAGAAAACGTGCTACGCACCAATGGGAATAAGGAAAACTTACTTGTATTTAAAGAATGGTTAAAAACTAAAAAATCTAATACAGAGATAGATTTTATGCCTGCAAGAGTTTTAATGCAGGATTTTACTGGTGTGCCTGCTATTGTAGATTTAGCTGCTATGCGTGATGCTATGCAGAAAATAGGATGTAATCCGCTAAAAATTAATCCACTTATTCCTGTTGATTTAGTAATAGATCATTCCGTAAGCGTTGATTCTTACGGAAATAAGGAGTCATTTGATCAAAATGTTCACATGGAAATGAAACGCAATATCGAGCGTTATCAATTTCTTAAGTGGGGACAGCAGGCATTTAATAATTTTAAAGTAGTACCACCTGGTACAGGTATTTGTCATCAGGTGAATTTAGAATTTTTATCACAAGTCGTGTGGCATAATGATGGAACTGCTTACCCTGATAGTTTAGTTGGTACAGATAGCCATACAACTATGGTAAACGGTTTATCAGTTCTTGGTTGGGGAGTTGGAGGTATAGAGGCGGAATCTGCAATGCTTGGTCAACCTATTACTATGATCATACCAGAGGTAATTGGAGTAAAATTAATAGGAAAGTTAGCAGGAATGGCTACAGCAACTGATCTAGTGCTCACAATTACTGAGATATTGCGTAGTAAAAAAGTAGTAGGTAAATTTGTTGAGTTTTTCGGTAATGGGCTTAGAAACCTAACTATTTCAGATCGTGCTACTATTTCTAATATGTCACCTGAATATGGTGCTACTTGCGGATTTTTCCCGATTGATCAAGAAACTCTAAAATATCTAGAGGTAACAGGTAGAGAAATAACACAGATTAAATTAGTAGAGAAATATGCAATTGAGCAGAACCTTTGGTATAATTGTGAAGATACTCAAGAATATACTGAGGTTTTAGAGTTAGATTTATCTACTGTATATAGTTCACTTGCCGGTCCAAAACGTCCACAAGATCGAGTAAACTTAAACTGTGTAGCAAGTAATTTTCAAAATGAATTACCATACTTCGCTTTAGCAAATAAAGATATTGATAAAAAATATGCTGTAGCAAATCAGAATTATGCAATTGGTAATGGTGATGTGGTGATTGCCGCAATTACTAGTTGTACTAATACTTCTAATCCTAGCGTTATGATAGGTGCAGCACTTCTTGCTAAAAAAGCACTAGAGCACGGATTAAATGTAAAGCCTTGGGTTAAAACTTCACTTGCGCCTGGTTCAAAAGTCGTAACAGAATATTTGAAGCTTAGCGGTCTTGATAAATATTTAGATGCACTTGGGTTTAATCTTGTAGGTTATGGTTGTACTACTTGCATCGGTAATTCTGGCTCTTTAAATCCGGAAATAGAGAACACTATTAATAAAAACAGACTAGTTGTTGCTTCTGTTTTATCAGGTAATAGGAATTTTGAAGGTCGGATTAATCCGCTTACTAAAGCAAGCTATCTTGCTTCACCTATTTTAGTTGTGGCATATGCACTTAGTGGAACTCTTAATATAGATCTAACAAATACTCCCATAGGAGCAAATATTTATTTAAAAGATATTTGGCCAAGCCAAAAAGAGATAGATGAAGTTATTGCAAATTCAATTAATTCATCTATGTTTATAGAAAAATATGCTGATGTATTTAATGGCACAAAAGAGTGGCGCGATTTACAGATTACTACTGGCACTAATTATAATTGGGATAAGAATAGTACATATATTAATAATCCACCTTATTTTGATAATATAGGTAGCGAGCATAGTATAAAAGATATAAAATCTGCAAGAATTCTAGCAATTTTTGGTGATTCTATTACTACAGATCATATTTCGCCCGCAGGCAGCATTAGTAAAAATAGTCCTGCTGCTAAATATTTAATAAAACATCATATAGAGCCTTTAGATTTTAACTCTTATGGATCACGTAGAGGGAATCATGAAGTAATGATGCGTGGTACATTTGCTAATATTCGTATAAAAAATGAGATGTGTAATGGCGTAGAAGGCGGTTTCACTATAAATCAGTTGAGCGGTGTACAACAAACTATTTACGATACAGCTATGGATTATAAAGCTCATGATATACCGTTAGTGATTTTTGCAGGTAAAGAATATGGGAGTGGATCGTCTAGAGACTGGGCAGCAAAAGGTCCTGGATTGCTTGGTATAAAGGCAGTGATTGCCGAGAGCTTTGAACGAATACATCGCTCAAATTTAGTAGGAATGGGTATTCTCCCGTTAACTTTTACGGGCAAAAATACAAGATTAAATTTAAAGTTAGATGGTTCAGAAATTATTGATCTTATAGGTTTAAGTGAGAATATCAAACCTTATAATCTTGTTAAATGTGTGATAAAAAAACAAACTAATGAAATAAGTACAATCGATTTAATATTGCAAATATTTACGGAGAATGAGATAAATTATATAAAGCACGGTAGCATTATGCAGTTTGTGGTAGAGAGTTTGAAAGGATAGTGGTATCTGTGTGTATAGAAAATTTGCTCTATATCATCCTTATTGATTACATGTGAGTTGGAATTCAAAAAAATAACTTTAATCTTGATATAGGAAGTAAATATTTGTTTTACTAGATTTATCCTTTTGCAGGAGTGACATAAAATGCTGTGTGAATAAAGAGGTACAAGAATATGGATAAGCATCTTAAAGAATATACAGAAAGCGGTAAGAAAAATTTAATTGTAGTATATATATTATATTTATGTGGGGTTGTAGCTCCAATATTGCCGTTAGTTGGTGTATTTTTTGCATATCTTCACAAAGACAAAGGTGACAGTTTTGCTGTTAGTCATTACGTATTTTTATTTCGTACTTTTTGCCTTGTGGTACTTGGATGGATTATATGTTTCATATTTACATTTATCATTGTTGGAGTAGTACTATACTTTGCACTTGCTGTTTGGTATATACTCCGTGTTGCTATTGGTTTTAAATATATGATTGAGGACCAGGCATACCCAAACCCTATTACTTATTGGATAAAATAAGAATGATAAAACTTATTATAGACGGTTCTGAAATAGAAATATCAGAAGGTAGTACCGTTTATCAGGCCTGTATACAAGCAGGCAAAGAAATTCCTCATTTTTGTTATCATGCACGTCTAAAAATTGCCGGTAATTGCCGTATGTGTTTGGTTGAAATCGAAAAATCACAAAAGCCTGTAGCTTCGTGTGCTATGCCTGTAAGTAAAGGTATGGTCATTCACACCGATACGCCTATGGTAAAAAAAGCACGTGAAGGTGTCATGGAGTTTTTACTTATTAACCATCCTTTAGATTGTCCTATTTGTGATCAAGGTGGTGAATGTGATTTGCAGGACCAGGCTTTTAGATATGGCAAAGGCACTAATAGATTTCATGAAAATAAGAGATCCATTAAAGATAAATATATGGGACCTCTGATTAAAACAGCGATGACAAGATGTATACAATGTACAAGATGTATTAGATTAGCAAACGATATAGCAGGAATAGAAGAAATAGGAGCTATCAATCGTGGTGAGCATATGGAGGTAACTTCATATTTAGAACAAACTTTAGACTCGGAAATATCAGGGAATATGATCGATATTTGTCCTGTTGGTGCTTTAAACTCTAAGCCGTATGCTTTTAAAGCACGTAAATGGGAACTAAAACATACTGCTAGTATCGGTGTACATGATGCTGAAGGTTCTAATATTCGTATTGATAGTAGAGCTGATGAAATAATGAGAATATTACCTCGTGTTAATGAAGCAATAAATGAAGAATGGCTTTCTGATAAAAATCGCTTTTGTTATGATGGTTTGAAATATCAGCGTCTAGATCATCCTTATATAAGTAAAAACGGTAAGTTAGTAGAAGTTAGCTGGAGTGAAGCTTTTAAGACGATAATGGATAAAATCAAATCTGTAAAACCAGAGAAAATTGCTGCTATTGCTGGCTCTATTGTTTCTGTTGAAGCTATGTTTATGCTAAAAATATTATTGCAAAAACTTGGTTCTAATAATTACACTGTTAATCAGTTTAACTATAAAATAGATACAAGTGAGCGTGGGAACTACTTATTTAATACAACTATTGTTGGTGTAGAAAAGGCTGATTTATGTTTGCTAATCGGTGCGAATACAAGACAAATAGCACCTATATTAAATAGCAGAATAGGGCGAAGAGTGCGTATTGGTGCATTAAAAGTAGTAAGAATAGGTATAGGGCATAACCAAACTTATAAAATTCAGGATTTAGGGAATGATATTAAGATTATTGAGGATTTAGCAATTGGTACTCATGAATATACAAAAGCCTTTAAAGAAGCAAAATACCCAATGATTATAGTAGGTGATGGTGTATATGGACGAGATGACGGATATGCTGTATTGTCCCTTATTCATAAGGTAGTAGATAAGTATAATATGATGCGTGATGATTGGCAAGGCTTTAATATATTGCATAATCATGCTTCTATAGTTGGAGGTCTTGATATAGGTTTTAATACTACTATTAAGTTTGAAGGTATAAAACTTGCTTATCTACTTGGAGCAGATGCTATACCGTTTGATAAGCTGAAATCAGCTTTTATAATATATCAAGGACATCATGGGGATGTAGGTGCTATGAGTGCTGACGTAATTTTACCTGCAGCTGCTTATACTGAACAGAGCGGAATTTATGTAAATTTAGAAGGTAGACCGCAAATAGCACAAAAAGCAGTATCCACTGTAGGTGGAGCTAAAGAAGATATAGAAATTATTAAGGAGATTGCTGGTTATCTAAAAATCGATATAGGGATGGATAATTTGCAAGAAGTAAGAATAAGATTGGCTAAAGAATATAATGTATTCGCTAATATTGATAAAATTACAGTAAATAAATTTACTAAATTTATCTCTATAGATAAGTTATCAAAAGATCCTATAGCTGCAAGGCCTATTAATTATTACATGACTGATGTAATTAGCAAAAACTCAGTTACTATGGCTAAGTGCGTTGAAGCTCATGAAGAAAGAAAACGTGATGTGGCAAAGGTCTTTTATTGACTAAGCAATACAGTTAAAGATTCTGTAAATTAGCATTGTATTTATTTTTCTAGATTGAAATGTCCTTTCGTGCAATGAAGACTTGGTATCTACGTATGAAATGTTTAATTGCAATGATGATTAATTAAAAATCAAATAACATTATGATAGAATACTTTTGTGAGTATATGTTCCCATTAACTGTTATCGCTCTAAAGGTAGTTGCAATAACTATTCCTTTAATTTTATGCGTTGCATATTTAACATATGCAGAGCGTCGTGTTATTGGATTAATGCAGCTAAGACGAGGACCTAACGTTGTTGGACCATTTGGACTTTTACAACCTATTGCAGATGCAGTGAAGCTCTTATTCAAAGAGCCAATCATTCCAACCGATGCAGATAAAATATTATTTATTTTAGCACCTATTATAACTTTTGTATTAAGTTTAATCGGTTGGGCAGTCATACCATTTTCCAGTGGTGTAGTACTTGCAGATATTAATGTCGGTGTTTTGTATATTCTTGCGATATCTTCTTTAAGTGTTTACGGTATTATTATTGCTGGCTGGGCTAGTAATTCAAAATATGCTTTTTTAGGCGCTATACGCTCATCAGCCCAAATGATTTCTTATGAAGTATCTATGGGTCTGGTTATTATTACAGTTTTACTTACAACTGGTACGCTTAATTTAAGTGGAATTATTGAAGCACAAAAAACTTTGCCATGGTGGATTGATTTAATGCTACTACCTATGAGTATCGTGTTTTTTATCTCTGTACTTGCTGAAACAAATAGATTACCTTTTGATTTACCTGAAGCAGAATCAGAGCTAGTTGCTGGTTATAATGTTGAATATTCCTCTATGGGCTTTGCCTTATTTTTTCTAGGTGAATATGCTAATATGATATTAGTTAGTGCAATGACTACTACTCTCTTTTTAGGAGGTTACCTACCACCGTTTAATCTATCTTTCTTAGATTGTATTCCTGGATTCTTTTGGTTTGTATTTAAGGTTGGGTTCTTATTGTTTTGTTTTTTATGGATTAGAGCAACACTGCCAAGATATCGTTATGATCAGTTAATGCGTTTAGGTTGGAAGGTATTTTTGCCGTTTACATTATTTGGTGTTGTATTAGTGTCGAGTGTTCTTTTTTATACTGATAATTTACCGAGTGTGTAAAATTTATGATAAACTATTTAAAATCATTTTTTCTATATGAAATAATCCGAGGGATGACTTTGACTTTAAAGTATTTCTTTAAGCCAAAAGTGACTATAAATTATCCTTATGAAAAAAGTCCTGTTAGCCCTAGATTTAAGGGAGAACATGCACTTAGACGCTATGAGAACGGTGAAGAGCGTTGTATTGCTTGTAAGCTCTGTGAGGCAATTTGTCCTGCACAAGCTATAGTAATTGAGTCAGATGAGCGTGATGATGGTAGTAGGCGTACAACACGCTATGATATAGATATGACAAAATGTATTTATTGTGGGTTGTGTCAAGAAGCTTGCCCTGTAGATGCAATAGTTGAGGGACCTAATTTTGAGTTTGCAAGCTTAACACATACTGCACTTATTTATGATAAAGAAAGATTATTGAATAATGGTGATAAATGGGAGCAGGCACTAGCTAATAAACTGCATAAGGATTATCAATATAGATAAATTACTATGCTAAACAGATACAGATATTAAAAAATTAAAGAAAGTGTTTTTTAGAGTAAAGGTTTATTATACTTGTGCCATATAGATATTATTCAATAACTTAAAGTTCTGATCATTATTATTGATCTAGGTTTTTACATCGGAAATATTTGAATATTGGAAGCAACCTAAATCTATGAAACTTTTTAAATTTCTATCATGTACAGCAATTTTCCTTATTTTGGTAGATAATTGATCCTATAAATAACTTCACACAAAAAGCTATAACACTTTTAGTAGTACTTAATCCTACAGTTAATAATTAATATTTTCTTATACCTTGATAAAATAATATATCCAGTTGTAAATGTATGTTTTATAATAAGTATTCTTCTTGATTTTGATGCATTACACAGTAATAACAAGTATCACTGTATTATTTGTTCTAGCCTACACCTTTCAAAATTTAATACTTAGTTTCAGATGTTTTAATATTGCTCATGTGAATAATTAAAAACCAATGATATAATTGGTGTACCATAATATGCAATATCTAGATAATTTCTTATGTACTAACTTATTTTACTTTTCAAGACTTGTGAATTGTAGAAATATTAGAACATTTAGAATATCTAGGCTAGAAAAGTCCTAATGTGTTATTCTAATCAGTAAAAATCTATTTTAGGTAAAGTTTTAAGAATTTTTCAAATCGATTGAATATTTTTATACTTCTAACAAAATGATGTACCTTTTCATTTTCCATGCAAGTGTTTTTGATAATTTACGCATGAAATTTCTTTAGGCATTACTCACGTTAAAAAACTCTGTGTTGTATCTTTATTGTTTAGAATCAAAGTCTGAATCAATCTTCTAATCTTTCCTCAATAGTGATTAAACTTTTTTTGCTTTCAAGTTCTTATAGAATGTATTTTCTGAGAAAAGCTCAATCTCTTATTGTTAAAGCAAACAAGTACTTCTTTTTTATTCTTGAGCAAAGTAGTTTCTAATGTTGTCTTTGTACTAAAAAGCTACAATTTTATTTTTGTAAAAACTAAAATTTCATAAATTATCCCTAATTCAAGTTAATTTTCTCTTAGAGTAAGTATTCCTTAACTTTATTATTTTTTATTCTATTCACTATTATTACATGATTTATCCGAATAATAAGAGTAGATGATAAAGTACAATACTAACTAATGAGAACTATGAAAATTATATGATAATGGTTTATATGAGTAGTTTAAAAAAAGTTTTGAATCTATAAAATTAGTGATATAAATGGTATTATAAAAGTTACAATAATCAATTGTTTTCAATTTAGCTTGAAGTAAATCTTGTATTTTTTATTATATATTGGAAGTTTAAAAATAATAGTAATTACTTAAGCTGTAATATCTGTGCAGATTTTATAACATTTTCTTGATGTGAGGATAGAAGAATAATACCACCGCTATTTGCTTTCATGACAATTAAATTATTCAGTAAATCTTTATTTTCTTTGCTTAAGTTACTTTCAACTTCATCAAGTAACCATAAATCTGATTGGCATACAATAAGTCTTGCGATAGCTACAATTTTCTGTATTCCGCTAGATAAGTTATAGCATTTTTCATCTAGTAAATAGTCTAGTTTGAAGTAATGAATGGCAGCTGGTACGGTTTCAGTAGAATTATAAATTTCTGACCAAAATTTCAGATTTTCAAAAACAGTCATTTCGAGTTTTAGACCTAAATTATGCCCTATATAAGTGCAGTAAGGTTTAATGCAATTGTTGATATGACTATTTTTATAGTAGATATTACCGCTACTCGGTTGCATAATCCCGGCTATCATACGCAATAGCGAACTTTTTCCAGAACCATTAGCACCTTTTATATAAGTTATAGCAGAAGGAAGAAATGTAATACATAGATCAAATAAATTTCTTTTTTCTATGTTTAATTGTAATTGATTAAGTGATAACATATCCATGTAATACTGTGTACACTCCAAGATATCTCATAAAATTATTAGCAGTTACTCTTATGGATACCGTTGTATTACAATACAATGATATCTATTGGTTTTCACAATAAGTTTAATTTTCATTATGTTCATCTAATGTAACACTAGTTAATTTTGTATTATCTATTTTATTATTAATACCAAATCCTAAGTTTCTCATGAGTGTCTATTAAAGTTTGATTATGCAGGACTTATCAAATACATTTCCTATTATTAGTTGTTTAACTTTAATACATATTGTACTTTAGTATTTTTGTATTCTTTTTTTCATATAGACCTAACTTTTATATTCAATGATAGTATCCGTAATATTTAGTCAGTAGCTAAAATTTTATCAATAAATTTTCTACCGATAAATGAAATACATTTAAAATAGAATTCGGCATTAGACCAAAATAAATAATGAGTAGTATTAATGGTGCTATAGAGATTATTTCATATTTATATAAATCTCTGAAATGTTTAATTTCTGTATTGGTAATTTCACCAAGCATTACTTCTTTATATAATTTTAGCATGTAAACTGCTCCAAGTATTATACCAAGCGCTGCTATAAAAGCTGTCACTACATTTACCTTATAAATCCCAAGTAGGCTTAAAAATTCTCCAATAAATCCGCTGGTACTAGGTAATCCAATAGAGCTTAGCATTGCAATCATAAAAAATGTAGCAAGTATAGGCATTTTATTGGCTACACCACCATATTTAGCTATTTCTTTTGTATGCAATCTTTCATATAATGTACCAACTATTAAGAATAAGGATGAAGAAATGATACCATGACTAAGCATCTGAAATATTGCTCCACTAATTCCAATTTCGGTAAAGCTAAAAATGCCAATTGTAACATATCCCATATGTGCAATAGATGAATAAGCTATCATCTGCTTAATATCTTTTTGAGCAAGTGCAACGAGGGATGCATATATTATAGCAATAACACTAAGGTAAATTACGTAAATTGCAAATTCTTGTGAAGCATTAGGAAAAAGCGGTAGTAATACTCTTAAAAACCCGTAACCGCCGAGTTTTAGTAAAATACCAGCAAGAATAACTGAGCCAGTAGTCGGAGCTTGCACGTGTGCATCAGGTAGCCAAGTATGAAACGGAATCATCGGGGTTTTAATAGCAAAAGCAATAAAGATAGCCCACCATAAAATTTTTTGAGCAAATAATGGAATATTACCTATCAGTTCAAGAATATTTGTTAAATCAAAACTATGAATTTTGCTATAAATATAAATTAATGCAAGTAAAAAAAATACTGAACCGAAGAAAGTATATAAGAAAAATTTTAGAGCTGCATATATTCTATTATCACCGCCCCATACGCCGATAATAATATACATCGGTACTAATATTGCTTCAAAAAAGAGATAAAACAATAGTAAATTTATGGAAGTAAATGCTCCTATACATAAAGATTCCATTAATAAAAAGCATACTAAATATTCTTTGATATATTTTTTAATAGTAAATAAGCTTCCTATTATACAAATAAGAGTAAGAAAAGAAGTTAGAACTACAAAAAATATCGCAATACCGTCAACACCAACATGAAATTCAAGTCCAATCTTATCAAGCCAAGTGTAGCGTTCAACAAATTGATAAGTATTGTTTGAGACGTCAAACTCTATTAAAATATAGATAGTTGAGATGAATGTTAGCACTGAGCTAAGCATCGCCACATATATACTTAGTTTATCTGCTTTTTTATTTTGATTAAAAAATAGCAAAATATACAGCACGCTTATTAGCGGCAAAAAAATAGTGATAGATATAATAGGTAATTCTAACATATTATTCAAAATTTTGTAAATTGCTTTCCTTATTGCATTATGTTGTACAATAAGTGTAGTAATAATAAAAACTATAAATGCGCATTTTTATTTGATTATTTAATTAAATCACTATGTAGTGATCCTCACAATGAGGGGTTTAGTTTTGATCAGTATATATTTTTCAATACAAAATAACTAATTGTTACAACAATAAATGATACTATATATAAAGTATAATTAAAAATATATCCTGTTTGTATTTTGCATGTAACAGCACAAAAGTAATTAATAACTCGTGCAAAACCGTTAGGTCCAAAACGATCAATTATTTTTTGGTCACCAAAATAAAATAAATAGGTTAGGCAGTGAATAGGCTTAATAATTAAGTGATTATATATTTCATCGAAGTAATATTTATTACGTAATACGTTGGAAATGAAAACTAATATCATCTTACATTTTGACTTTGGAATCCAGTCTTTTTCTCTTTGATCAGATTCATTCGTTAATGTCTGATATGACAGAGAGCCCTTATATAAACAAATACCAATAATAATTCCAACAATGCCTACTGCCATAGGCAGTAATTTTATATATAAAGGATGATGGTTAATGAGTAGCTTATAAATATGTAAATTAAATAAGCTTTCATGAAAATAGCCATTTGGTTTATCCATAGAGAGTAAATAATAGCCTATCATACCACTAAAAAAGCTGCCTGCAACGAGTAATATAAGTGGATTATTCATTATTTTAGTAGGTTCGTGAGCATGTTTAAAAACATCTTTTTCTAGTTTAGTTTTGCCATGGAATACCAATATAATAATCTTCATTGAATAAATAGCGGTAAGTATTGCTGTAATTATACCAAAAATAAACATAAACGAACCGCTACTATACGTTGCTTCTAAAATTAAATCTTTAGAATAAAATCCTGATAAAGGATAAATCCCTATTAATGCAAGTGAACCAATTAAAAAATTGCCATAAGTAATAGGCATTTTATTTATTAGAGCCCCCATTTTAAAAATATTATGTTCATTAACTGCGTGTATTACGTTACCGGCTGATAAAAATAATAGTGCTTTAAAAAAAGCATGAGTTACTAAATGAAATATTGCGCTATTATATGAAGATACTCCGCACGCCATGAACATATAACCAAGTTGGCTACATGTAGAGTAAGCAATAATCTTCTTGATATCGCTTTGCATAATTGCAATGCTTGCTGCAAAAAGACACGTAATACCGCCTATTATTGTAATAAACTGTAGCACTATAGGGCTGTATTCAAACAAATACGAGCACCGAGCTACTAAGAATACACCTGCTGTTACCATAGTTGCTGCGTGAATAAGTGCTGATACCGGAGTTGGCCCTTCCATTGCATCAGGAAGCCACACATGTAAACCAATTTGTGCAGATTTGCCCATGCAACCTATGAATAATAATAAACAAATAATGTCTAGAATGGAAAAATGTACAAATATTTTTGTATTAGATAATAATTTTGCGGATGAAAATACATCTTTGTAATTTGCTGAACCATAATAAACAATAATCGTGATTATGCCTAAGATAAAGGCAAAATCGCTGACTCTATTTGTTATAAAAGCTTTTATTGCTGCTTTATTGGCTGATTCTTTTGAATGCCAAAATCCAATGAGTAAATATGAGCAAACTCCGACACCTTCCCAGCCGCAAAATAATTGTAAGAAATTATCAGCTGACACGAGCATTAACATAAAGAACGTAAATAAAGAAAGAAAAGACAAGAAGCGTATAATTCCCTTATCCTCGGCCATATACCCTAGTGAATAGATATGCACAACGCTTGACACAAATGTTACAGCTATAAACATTATACTAGTTAGCTGATCTATATAAATCGACCAATTTACTTGAAGATTTTTAAATTCAATCCATGGCAATAATTTAATATGGATTATCTTCCCGACTAAAGTCACATCACAAAATATTACTAAGGAGAATAATGCAGATAATGATAAAAAACTAATTGCAATTATCTTGGCTAATTTTTTATCTATGATATTTAAGAATAGCCCATTTATGATGCTAGATACAAGCGGTAATATAATGATCATTATAGCAAGATTTTGATGAATCATTATCCCCTCATCTTATTAATGTCGGTAATTTTAATTGAGCCTTTATTGCGGAAATATATTAGTAATATTGCAAGCCCGATTGCGGTTTCGGCAGCTGCTACTGTTAAGATTATAATACTAAAAATTTGTCCCGATAATTCTTGCATATATACAGAAAATGCAACAAAATTTATGTTAACAGCAAGTAACATTAACTCAATAGACATGAGTATATTGATAATATTTTTCCGATTCATAAATAATCCAAACATCCCAATAGTAAAAACTAAGCTGCTTAAAATTAAATAATGATTAAGCGAAATATATTCATTCATATTTAATATTTTCAACACCTTTATTTAAAATAGGCTTTGTCATTAGTATAACATTACTTTTATTATGAGATAGTTGTTTTCTAATATCTTGATGTTTTATTCTATCACGTTTTTTTAATGTTAACGTAATGCATGAAATCATAGCGACAAATAATATAAGTCCTGCTATTTGAAATGGTAGCATAAATTCTGTGTAAAGTACATTTCCTATTGCTTTAGTATTTGATATATTATTCGCTATAGCAAACGATATATTGGAACTGTAATTAATATTTTTAGTGCTAAGTATAATAGTTATTACTAAATCTGCAAACATAATTAAAGTGATAAAAATACTTAAAGATAGATTTTCTCTTAACTTTGTTATTGCCTGATTAAAATTTATATCCAGCATCATTATAACAAATAGAAATAATACCGCTACAGCTCCAACATAAATCACTATAAGTAGCATAGCTAAAAATTCTGCTCCAAGCAAAATCATCAACCCTGAGCCATTGATAAATGTAAAAATTAACCATAATACTGAATATACGGAATTTTTGCTTAAAACAACGCATAAACTGCTAATAATTATTAATGTTGTAAATAAATTAAAAAATATTGGCATGGTATACTCGTGGAATTTTAAAAATTTGCTGCGTCATCTTTGTAAGTCCTGAGCTTAGAAAGTGCAAATTTGCTATACCAGTAACGCATTAGAACAAAATTTCTCGATCATTGGCGTAAATAAACTTTCTAGTTCTTTGCGTATTTCTTCTTTATTTTCTATTTTTTGCCCCTCTCTACTTAAAGTTAATTCACCTTTTTCTACATGACCAAGTATAGCTTCAATTATTGCTTTTTTATCATTTCTACCATCCATATATCTAAGTGCAAATTTCTCAAAGAAATTAACGCCTATTGGTTCATGTTTTAAATTTGTAACCCACATAGAAGGTGTATACTTTGCTTGATATATCACCATTTGTGTTGTTTTGGGCTTATCAAGTACTGGTTTACTCCTATGCTTCTGATTTGTAATACTAATATAACCTTGTAGTACTAGCTTCATAGCATTATTTAAAAGCTCATTTTTGATTTCGTTTAATTTAGTATTATTTAGTTTTGTATTAGCTTCAGAAGTTACTTGCTTAAAACTTAATGGATTATTTAGATTCTCACTGAAAGTGTATAAAATAGCCTTCATATAAGGTGAAGTTGTTGACAAATTAGACTCTTTATTACCGTTTAAGAAAAATTGTAAATTTTCGGTAGCATTATTAAGGTCTACTTCTTTAAGTGGTTTTTCAGGAATTACATTAAATATTATATTAAATTTTTTTATATCATCATTATTAATATTTCTATTAATTTTTAGATCATTATGACATAGTAAAGTTGTTCTAAAACGACGATTTGTAATAAAATCCATATATTGTTCAGTTCTAACTATATCGTTTACTGCTTTTAACTGTTCTACTACTTTTGGCGGCATATTACCAAGATACATAGTTGAGATATTACAATCAGCTAAATATTGCAAATTATGCTTTCTTGCTTCATTCATAAATTCATGAAAGTAGAACTGAGCATTTTCTTCTTCTAGATGATCGTGACGTAAATAATGATCAGTTTGTTTCGCAAGTAGACCTGCCTCAGTTTTTAATACTTCTGCATAAGGAGTCTTAGAGTGCTCTAAGCTATCTTTAACAAAGTCTAACAACAATCTAGATTGAGCAATCCTATCACGAATATTTGTAAATGAACTAGAATGATAAAGCATCATATCCCGGATAGTGCGTACCATATTCCAACCAGGTAGCGTATTATAGCTAATATATGCTATTCCATTTGTGCTAAGATTCCTATTACACACTTTAAAAATTTTATCTCTAACAATTTTTGGTACCCAAGAAATTACACCATGACAAATTATATAATCAAATTTACCAAAAGAATCGTCAATATCGGTGATCGAACAGTGATGAAATTCTATATTTTTTAATCCTAATGCTCTAACATTTTTATTTGCTTCATCAATTTGTACCTTAGATAAATCGACTCCAACAAAATGAGCGTTTGGATAAAGAACCGCATGTGGTATTAAATTACCTCCTGCCGCGCAACCAAGCTCTAATATTTTTGAATTTTCAACTTCAGGAGCATTGATACCGAAAAGAGTTGCAAGTGTACTTAAGTGATAAGGATTGGTAATAGCATATGGGTAGCTTTCATATGGTACTTCATCATAAGGGTTATGATCGGCAACCGTACCCGTACCGTTTACCAAGGATTGTACAGAATTTATTGTCTTATCATGATTGTTAGTAGTCAAAGAAGAAGTAGTAGATTTGAGTGACATATTTTTTCCTTATATCATTGTATTATTGCTATCATCATATTAATCATAAGGATGACACCTTAGATTTCATAATATTTCACAGAATTGTTAGAATGGCAATCTATAAGTAAATCCTATACCAAATTCTCCAACCGATATAGTTTTTTTGATAGAATTTGCATTCATTAATTGTACCGTTTTCATATCAAGCGTATCATAATTAATTCTTACTCTATATGCAGTTTGTAATTTTGCAGTTGCATCTATACTTAAATCTGGAGTAATATGTTGTGCAATTCCAAGACCTGCTTGCCAAGTAACACAATTTTTACTCGTTCTGTGTACTTTAAAATAATCGTTATTTATAAGACTCCACTTAGAAGAGGTAGACTTAACTTTTACTCGTGTTATTCCTCCTCCAAGTATTATAAAAGGTGTGAAAGTTTTTATTTTTTCCAAATCATAAATAAGATTTAGCATATATATATTTGATACTATGGTAGTATTACCTATGGTTTTAGGAATAGTAAGGCCATTGATTAAATTTTTATGTTGTAATGAGTAATGTAGACGATATTTAGGTTGATAAGTTGCTGAAAATTCCATAGATATTTGTGGATATATTATATAGCCTATTTTCCCGCTATACATATTTGATTGTTTTAAAATTATTCCGGTATTTGAGTATTTATGTCGAAATTTACGAACTACCGGTTCAACTATTCCTATTGCTGCTCCCATATAGAATCCTGTTTCTTTTGCAAAAGCAATGTTATTATAAATGATTATAGTAATTAAAAATAATTTTAGTAGTTTATTCATTATTGTTGCTTACAAAATTAAAAAAACATTATATATCCCCTTTATTTATGGTCAATCATATTTTTTCTAATATGGAGGCAATGATACCAAATAGTAATGAAGAAATGGTTACAGTGAGTGATATATATGCCGGAATCTCTATATAATGATGAATAAATATTTTAAAGCCGATAAATATTAAAATTAAAGCCAAAGAATATTTTATATAGCTAAAACGTTCTACAATTTCTGATAAACAAAAGAATAATGATCTTAGTCCTAAAATAGCAAAAATATTTGAAGTATAAATTATATAAACATCATTAGTAATTGCGAATATTGCGGCTATGCTATCTATAGCAAAAACTAAATCTATTGTTTCTATCAGTATTAACGATACAAAAAGAGTACTAAAATATAATTTGTTATTACGTTTAATAACAAATTTCTGTCCTTCTAGATCATGGGTAATATTTAGATTTTTTATTATTGATTTGTAAATATAAGAATTTTGTATATCATAAGTTTTATGTGATACATTAAAAGTTTTTATACCTGTAGCAATAAGTATTACGGCCAAAATATATAATAACCAAGAAAATTTATGTATAAGCATAATACCACCGTAGATTATTATCGCTTTAAAGATTATTACTCCTATTATACCGAAAAATAAAACACGATGTTGATATGTAGAAGGAATATTAAAAAATTGAAAAATAATAGAGATAATAAAAATATTATCAAGGGCCATAGCTTTCTCAATGAGAAAACAAGTATAATATTCACGAGCATGATCTAAGCCCATATTATGGTAAACATAGATACCAAATAAGCAAGATATTATAAAATAAAAAAGACTCAAAAGTATACTTCCTTTAAAGCTTATTACTTTATTTTTCTTATGAATTATCCCTAAATCAAGAATTAGTAAAGCAGCGATTATCGTATAAAAAATAATCCAACTCATTTATTTATCTTTTCATTTTATATTGCATGTGGAAATATAGTCCTCCACCAGACATAACTCTTAGCTGGAATTTTATAATATTTTCTCCTTGTTTTAAATAAGGTTTAATATCAATAGGATTTTTTGCACTAATACGTTGATTATTAACTTTAGCTTGCAATGCTTGACCTTGATCTTTTCCATTGTTGCAATACCTTTTCTCATCTAGAGAATCAACGTTAGTAGGTAAGCTAAGTAGTTTTGTTCCATTGACGTATATTAATGTGCAATCATCGTACCATAAATCTTCCACTATAAAATACTCAATATCATCCATTATTGCATCTAAAGTTACTTTGAATACTACAGTATGTAATATTGTATTGTCCGGTTCATTTGATGCATTTATGAATGCTCCATCCTTTGGAAATGCCATAATGGTTCCATATCGTACTGGTTTTTTATTTAAGAAATAGTCACCTATTTTAGTAACAGGATTATAAGGTGTATCAGGTAATTGATTCGATGGAAAATCATTATACACAACTTGTATAGGTAATCCTGTAGATTTTCTACAGCCAACATTGTGACCTAAAGGTTCTAACTCTACAACTTTTCTATCAAAATATGATAAACAATGACGTTCTAAAGGTTTATTAGGATCAATAAGTATCCAATTTGTTGGACATTTTCCTTTGACAAGTTCGCCTATATCGCTTTCAGGCCATTCTGCATTACCGTGACTTTGACCTGAAGGAGCCTCAGCTGTGCTAGGAATTTTAGCACAAGTAGGCACTAATATAGGGGCACAAAGATTTAACTCTTGCCAAGTTTTATCTCTTACATCCTCAGTTTCAGCGTGATATGTCGGCTCAGGCGGAGTGTTTTCATCTCCTTTTGTATATGTTACTGTATAATATTTTGAAGGATCTACTGGTACTAGTATTGGTCCTATGCTAGGTTCTGGTTTGATTCTATCTTTATAATCTCTACTTAAAACACATATTGGAGTATTAGCATTATCGTTATTGGTATAGCATTTACTTGGAATCTTATTTATATTGCAAGTATAAATTGTAATACCTTTTCTTGGACCTGGTACTGTTTCTTCTATAGTGCAGAGCGTTAGATCTATATCTTTTTTACATAAGCCAAGATTTGGATATTTAGCGTTATATTTATTTTTAAAATCTTTACAATTTATAGTATCATTGTTATGTACTTTGGCAAGTACACAATTTATAGATTCATTATTGTAACCTGGGATAGGCGCTCCATCAGATAAAGTAGGACGTGGCATAGGATTACAATGTTGAAAATTTTTGGGCATTAAACATGCATGTGTTCCACCTTGGATATACTTACCGTTTATATACTCTAAATATTTTAAATATATAGCACTTAAGTCAGGGTTGCCCTTACTATCATAAGGTTCTTTATCGTCTTTATATTTACCGTGAATAGTCAATTGATTTAAGGCATTTGGTCCTGAAAATGGCATACCAATATATTTATCTTTTATAGGATTTTTAGGTATAAAGGCAACAGAAGAGCTATACTGATAACCTGCAAGCATTACTATACTTTCTGTATCAGTCGGGTTTTGAGGTGGAGGGCCGGCATATGATAACGGTGTTACAAGAGTACTTGTCTCATCTATTATATTGCTACCTTCTCTTACTTGTAATGAAGCAATGAATTGTGGTTTATAATAAGCATCGTTAGGATTGCTATTATTAGTACAAGTAATTCCTGCATATTGTTTCGCACATTCATATGCAGCTAAACTGTAAGAATGATTAACCCTTGGTACACAATCTATTAAATTAGCAGACTCAAATAAGCAAATATTATTAGGATTTTGCTTATCATCTTCTGTATTACTGATAGACACATAAAGTTTTCTATCTTTACCGTTATTGTCTTTTAATGTGAAATCCGTCTTTATAGGGATTAAGCTATTTGTATCTTGTTTTTGTACTTTAGGAAATTTTATACTTACATCCTTAAATTCACCTATATTAACTCCCCATACTTTTTGACATGTAGTTGAATTAGAACTTGGACAGTCTGGTATATCATCTATGTAATAATCGCGTGGTGTTTCTATATTTCCAATTTTCTGTGAATATACTATTCTAAAACCCTCATTACAACCATTAGCCGTAACGCTGCATGGTGTAGGAATTTCTGTATTAATACATGCAGCATTACCTGAAGTATTCTTACACGATTTAATTAAATCTTTAAAAGCCGTCTTAGTATGAGTAATTTTCGCTGAAGAAAAATCTATATTACGTAGCTCTACACACGTTTTTAGATCAGGCTTTGCACCTGTACAAAGGGGAACAAGATTGCTGAAACTAACACGTATTGTGTTATTAACTATATTATTTCTGACATTAATATTAGAAGGTACTACACAAGAAGGACTAGTAGAAGATTGGTCAAATATGCCACTGGCATTTTTTATGCTACATACATTATTAACACTAGGGTTAATGCTAATAGCATTTAAATTTGGGCAATATGGCGGTGGAAATGGTCCTAAAGGTAATTGAACGCAGCCAAAAGAATAACTATCTACAGCACTGTTTAAGGCTCCAAGCTTTTCAATCACTTTTATTATTAAATCAGGAAAAAAATTAAAAACCTCTCCTATCGCATTAAGTATAGATTGTAGTACTTTTATAAATTCTGAATTTGGATCTATCATGCCAAGAAGCTGCCCTAATAAACTTGGTAAACTGAATCCTTTTACAGTTTCAACTAAAAACTTTAATACTTTTGCAATAGGGCTAAGTTCATTAGTTTGATGAAGAGGTTGACGATTAGGATTCCAGTCCATTGGATCGAGATGTATACCGGAATCTGAGATAAGGTTCACAAGACCAGGATCGCTATAAGCACAAAGTTTAGGAGATTTTAAAGTAACTACTTGTCCATCTACACCGATGATCTTGTTATCACTTTCCGTATAACCTACTTTGTTAAGATGTACTCCTTCAGTATAACCTGGATCTGCATAGGAATGTGATGCATTTATTCCGGAAGGTGAATTCATCTCCGGTATGGCAACTCTAGCACATACTCTAGTAAGAGGTAAACCATAACCTGTAGGCCATAATACACATTCCCCATCCCAATTTAAAGTAGAGTTTTGGTGCCAACAAGCTGCTGCATTGCAGCTTTGAACTCTAATACGAATTTTTGGAGTAAAGTAGCTACTATCAGGTGCTTCTTCTGCACATCTATTGAGTAAGAAGCCGATAAATGTACCTGGGTAATCAAACTGTAATAAACAAGTATCATTATTGCGACCGTCGCTTTTATTCCAAGGAGGACATAATGTGCCTGGTTTAAAAGGGCCTCTTTTTACTTCATATTTGCTACCTTTATTCCAAATTTCTGTTCTATCGCTTTGTCCGCAATTACATGGATCGCTAAGACAAGTGATTATATCATCCCAAATAGATGCATATACATTAAATGAGAAAAATAAAAATAAACAAAATAGTAAATATTTTTTTAACACTTTGAGTATTCTTGATGCTCGTTGTTTTTATAATTCATAATAAACTATCGTCATCCCGTAAATTTGTAGCAGTTAAAATTTTTTACGTGAATAAGTTACGAGATAAAAGAGTTTAGTATATATTTAACGCATTATATAGATAATTAATCCAATTATCTGGAGGACCTGCATGTTCTTGAAGTATTTTTTTATAAATATCCATTTCCTCTTGTCTGCTTGATAAAATACGTACAATGCCTATTAAAGCGGCAATACTTAATTCAGAAGCAATTGATTCATTATCCTTATTAATTAAGAACATTCTTGCAGCAAGCATTAGCTGTGATAATTTTCGTATTTCCAATTCATTTAAACCTAAAATTTTATCTAAATCTTCTATTTTAACGTCAGAGGGTAGAATAATTTTAGTATTAATTAAATCAAGCCAAGGTTTTATAGTATATTTTGGATATGATTTAAGATAAATAAAATTGAAATTACTGACAAAAATACCGTTATTTTCTGATAAATTATTATAGATTAAATTTATATTATCATAATAAGATTCAGGCCTGTAAAGTTGATCAAAATTATCAGCAGCAAATATTTTAGGTTTTGTGCCAAGTAGGCTTAAATGATAACTTAAAGCATAAATTACTGCTGCACTAATACTTTGGTGTTTCTTTAAATTATGATTAAATTGTTCTAAAAATTTTCTCTCCATTGGATAAAATTGTTTAGAAAACGGTTCGTCAGAAAGTGTATATAAGTTAAATCCTATCACTTCGCCTTCTTTAATGCTAAGAGATGGCCCGTCAAATAACCCGTAATATAATTGTCCTTCAGTGAAAACTTTAAGTTTATCAAATATTTGTATTCCTCCTTCCTCTTTAAAATTTTCTAATTTTAAAATGTTAGAAAAAATACGCTTTTCTTTTTCAATTGATAAAATTTTATCTTTAAATTTTTCTAGAAAAGATATCTCGATTTCACTAAGCTGTGAAATATAATGACCACTTATTAATTTTAAAAATTCTAAAATGAAAGCTTGTGATTGTTCTGTATCATCTACTAAAAATGGATTAATAATTTGTTTTTCCGGTTCTAACCATTTACCTTCTATTGCTTCAATAAAAATTTGAGAATCATTATTATTAGAAATATAAATTATTGTTGGATCATATTTGGTTGATTCTGATATTAAAAAGTTCAATAATACAGTTTTGCCAGTTTTTTCTGTACCAAAGATACAAGTATTACCTTTATTCGTTTTATCATGAAAATTCATGAAATATGGCGTACCTTTTTCAGTTCGTAGCAAAGTTATAGCCCTGCCCCAGGGGTTATATTGATTACCGAGTGTAGTATTATGCAGAGCAGTAAAAGACGCAATATGTTCAACAGATAATGGTGATATTCTGCGTATAAACGAAAAGTTAGCCGGTAATTGTGACCAAAATATTTGCTCGATATTAATATCTTCCTTTACATGAATAATACCAAGCTTAAAGAGCTCTGTTGATGCTTTAGCTACAGCTTTAGCTAGTTTACTTTCATCTTCTTCTATAACGGCAATCGAAATTTGCTGGTTACAAAATTGAAAATCTAAATTAGTTTCATCAAGTTTATTAATTCCTTTGTAATTAAGTAAAATTGAGTCGTTAGTAATTTTTAAAATATGATCTTGACCATGCAATTTAGATATTATTTGTTTTTTGCTAACAAAGTAAAATATTTCAGTTATTATTAATTCAATCGGTAATTGTAAAAATTTATCAAGTGTATTAGAAGGAGTTTCTTGATATTCTTTTATAGATAATAAAGAAACGAATTTGTTATTTTTTGCATGATCTGTCACTATTATTTTATCTCCGCTAATTGTATAAATACTTCTACCTAATGCATCGGATAAATCTATTATAGGCACCAAACAATCATTATCGTTAAGATTAGCTATTCGATTATATAGAAATAAAGTATTAGAAAAAACATTATCATTTTCAAATATTATTCCGAGTTTTTCAGCCCCAAATTCATTTAAATCGTTTAAAATATTATTGGTGATATTTTCTAGTTTTTTAAAAGCTGAATCTAAATAGTTTTTTTCAAAATTAGCAATTAATTTATAAGATAATGAATTTATTAAAGAACTAAAATTTTTGATCTGAATTTTAGCAGAATCATGTACTATAGATATATATAAAGTATTAACGAATTTATCATTCCAATGGTTTTTTCTTTGCCATAAGGTATGTATATTGGCGGGTAATAATTTTTTATAAGGAGTGATATCGTCTAAGTTTTGTTTTTCTCGTATTGTGTGCAGCCAAAAAGCGAAATCATAATCAGTTACATGCTTTTTTATAGCAAGTCTAACCATTTCACGTAAATTTTGTATATTGTCGCTTATTTTCTCTGAGTTAATACCGTGTATTTTTACAATTTGTAGTAATTTACCATCTTTGGTAAGTAAAGTATTTTCATTATAATGACATGCTATAGGTATAAAATTAGGAGCATTATAATTATATATATCTTTATCAAATTTCCGTAAATCACTAAACACAAATAACCTGATTTAAATTATAGATTTTTTACTATATTATTGCACCGATACCTAGTCATCAAAAATTATCAGTTTTGAAGTAATCCAGTAAAAATTTTTAATTTACAGCGTTTTTATTCTTTTCCTGGATTGCAAAACGTAGTATATGATTGTTTGCAATGATGGTTTAGGTTTCTGATTGCTACTACATAGCTAATTTTACATTAAACTATTATACAAAAAACTTTACCTTATTATTTATATTTAATAAAGAATTATTCGCTATATGTAGTAATTTTTTGTAACCCGCCCATGTAATTTATTAAGACGTCAGGTATAGTTATTGATCCATCGTTATTCTGATAATTTTCAAGTATTGCAACTATAGTTCTACCGATAGGTAATCCTGAAGCATTTAAAGTATGTACTAATGTAGTTTCATTACTACCAAATTCCTTATATCTTGCTTTCATTCTACGTGCTTGAAAATCTCCACAATTAGAACAGCTAGCAATTTCACGATATTGATTTTGCCCAGGAAGCCATACTTCTATATCATAAGTTTTTTTTGCTGCAAATCCCATATCGCCAGTACAAAGTAGCATAACACGATACGGAAGATCGAGTTTTTTTAAAATAGTCTCTGATGCATTAGTTATATATTCATGCTCATTTTTTGATTCTTCAGGGGTAGTAATAGATACGAGTTCGACTTTACCAAACTGATGTAATCTAATCATCCCTCTTGTATCTCTACCGCTACTACCTGCTTCTGATCTAAAACATGTGGTGTAAGCAACGTAACGCATAGGTAATTTTTCTCTTTGTATAATAGTATCGGCGACTATATTTACTAAAGATACTTCTGCAGTTGGAATTAGTCTGTACCCATTTGTTGTTATAAAAGACTCTTCAGAAAACTTAGGTAGTTGTCCTGCATTATACATAGCCCTATCTCGAACTAAGAACGGAGGTGATATCTCAAAGAAGTCAAACTCTTTAGTATGAATGTCAATCATAAAATTAATTAAAGCACGTTCTAGCTTTGCTAAATCACCTTTTAATGTTACAAATCTAGATCCAGAAATTTTAGCTGTTTGTTCAAAATCCATTAAATTTAATTTTGTACCTAATTCAAAATGCTGTTTATTCAAAGCATTTTTATTTGTCTTGCCGTAAGCACGTACTAACTTATTCATACTTCCATCGATCCCGTAAGGTACTTCCTCGTCCGGAATATTAGGTAGCATATTTAATAGTTCATTTAATTCGTTATTATTATCTAGATTCTGTTCAAGTTCTGCTAACTTCTCATTTATATGGTTTACATCTCTTTGTAATTCTTCAAACTCTTCGCCACTTTTAGAGACCATATTACCTAAAATCTTTGATTTTACCTTACGTGCATGCTGAAATTCTTGAATTAAACTCGTAATTTTCCTTTTTTCTTGGTCGAGCATAGCAATTTTACTAGACATAGGTTCAATAAATCTTTGACTCAGTTTTTCATCGAATAATTCTTGATTTTCTCTAATCCATTTGATATTTAACATTTAGTGTCCTCGGTGTTTCTATAAAATTACATATAATTATTGAAGTTTCATATAATAAAAGTAGTGGTATTGCAAGAGCAAACTGGCTTAAAATGTCGGGAGGCGTTAATATTCCTGCAATAATAAAGTTAATTACTACAGCAATGCGTCTTTTTTTCTTAAGTGTTTGTGTCTTAACTATTTTTAGTATATTTAATACTATGATCACAATTGGTAGTTGAAAAGCAATGCCAAAAGCAATAATTAAATGAATAACTAAATTTAGATATTCGCTAATTCTTGCTTCTAAAATTATCGGTACTATCATATCACGTTTTTCAAAACTAAGAAAAAAATTCCAAGCTTTTGGCATAACAAAATAAAAAACAAAAATACTACCACACCAAAATAAGATAGGTGACATAAAAAGAATGAAAGCGATAATTTTTTTTTCATGACGGTATAACCCTGGACTGATAAATAAATAACACTCCAAAGCAATTATAGGTATAATAATAGTAAAGGCAGTAAAAGCCGAAAGTTTAATATAAGTAAAAAATGCTTCCGTAAGACCTGTATAAATTATATTTCGTACCGTATCGCCGCTTAGTTTAGCAAGTGGTTCTAATAAAAAACTATAAATATAATCGCTAAAATAATAGCAAATAGCAAATATAATTATAAAAGCAGTAAATATTCTAAGAAGTCTTATTTTAAATTCTAATAAATGTTCTTGAAAACTATATAACTTCATAATAAGTAAATAATGAAAAGTAGATAGGTGGAGTTTAATTTGGAAAATAGTAATCAGTCTATAATACGAGGAGTAGAGTGTATATTAATACATTACCAGTACTTATAGGACCTTGGTATCAATTTTTCATATTAAACAAGTATATCTGAATATTATAAACCATTTTTAATAATTGTCATATCTTTTTAGAATGATTCATAAAGTGTAGATTTTTTCTATATATTGTATAAAATATCGGTATAAATAACATGCTAAATAGAGTATTACATAAAAAGAATACAGACCAAGTAAGATGTTTCGCACAAATACCACCAAGACTAGCTAAAATAATACGACTCAGAGAGCTAAAAGAGGCGCTAATAGCATATTGTGTAGCAACAAATTCGCTATTACAAAGACTAGCAAAATAGATTGAGATAATAGTTCCTGCAAAGCCTGAACAAAAATTTTGTATTGTAATGGTTATTATAAATGTCTTGATATCATAGCCGATTGTCGCAAGAATCATAAACATGAGAGGTGACAATAATTGAATAACTCCGCCAATTAGGACACTATGAAATATTCCTATTTTTGCAGCTAAAATACCGCCTAAGGTACCTCCGACTATCATGATTAGTAACCCATAAGCTTTGTAAATAACGGCAATTTCATGAGTAGTAAAACTTAAATCTAGAAATAACGGTATACTCATAGCCATTGGTATGGAATCTGCAGCTTTATATAAAAAGACAAACAATATAATGAGCAATAAATATTGCTGTTCATTTTTAAATGATATAATACATTTTTTTATAACTTCAAAATATTGTTGTAAATCTATTAAAGTATTAGTTGTATGACGTTTTGTTTTAAGTTTCGGTTCTTTGATACATAATATGACTATAGGTCCAACCATAGTAATGAATAAAGCAAATTTATATACTGTATTCCAGCCGAAAATAATCGATGAATATAAAGAGCCAACGCTTCCAAGTAACATACCTAAACGAAACCCTATGCTACTAAAGGTAAAAACTATTGAAAGCTCTTCTTTAGATGTTGTGCGCTCAATCCTATATGCGTCCAGTACAATATCTTGTGTAGAACTGAAAAATGCAATAATAAATAAGATAATTGCAGTAATACATAAGTTATTACAAGGGCTTCTTTTTAAGAACCACATCATCGCGAGTATTAAAAATATTTGTGATACCAATGCCCAGCTACGCCTGTGACCTAATTTAACACCTTAAAAAGGTATAGAATATTTATCTATAAAAGGCGACCATATAACCTTTAAGCAATATGGAAAAGCGGCTAGTGATATCGCGCCTATTATATCAGTGGTGTATTTCGCTTCGGATAATTGATATGGAACTGTTAAAAAAATTAAATTGAACGTAAGACCAGAAATTAAGCCTAAAAGTAAAATACCAATTAAATATAATTTTTTGTACACGTAATATAGCTATTTATAGTGCATTTTTAATGAGTAAAGTGCTACTTTAGAAAATATTTTACCGACTACTGGTATTTTAGTTACAATAGTGCTTATTAAGAAAAAGGAAGGAATAACATTTCCTGTAACTGTAATGAATTGCTGCTTGGTATCAATATTACCTTTCATAGTAAAATCAAAGAATGGTCCATGTGCTTCTGTATCGAAAATTGTTATTATATTCCCTCTATAATTAAATTTACCAGTCATATCGTCAAATAAAATATTTTTATTATTAGTTATTGAACTAAGAAAACCGGGCAATGAAACAAAGGACACAAGCCGTGTTAAAAAAGGAGTATCGACTACCTTAAAATGTTTTATAGAAAATTTACCGTCTAAGATCGGCACTATTTCACCTTTTTTTACTTCATATCTTTTTGTATTTAATTTAATGTGAATCTGGCCGTTTTGCATAGTGGTATACATCCCAAGCCCATTAAGCAATGCTCCTGCATTATCTGATTCAATTAGCCATTGTTCAAAAGTGTCCTTAGCAGTAAGCGACATTTTAACTTTTTTATTCTCAATATTAGCATTGAGAAAACCATAAAAACACCGTACTTTATCACATTTAATTACTAAATCAAGATTAGTTAGAATTATATTATTCTTCAAAATTATTTTTGATATATTAGTTTTTAAATTAATATTATGTGTCGAATCTCCTTCTTTTTCTAGAAACTGCATCATATTAGCATTTGATAAATCTAATCCGCTTCCATAAAGTTCTGTATTAAGATTATGGTTATCTATAATTATTTTCCCTTTTAAGTCTGTATAATTATGTTTTACAGAGGCTAGATTAATATTATAAATATTTTCTTTAATTAAGACATTACCGTGAATTTTTAAATTATCATGTCCTGAAAGGTTAAATTCAATATTTCTGTCGGTATCATTTAATTTAGTATATAAATATAAATTCGCTCTTTTATATAATTTTTTATGAATAGATACTTTATCTATATAAAATTCTAAATTATCAAGATTAGAATGCACGGTAATAAAACTCTCATTATTATGTTGTTTTTTATACTCAAAATTTAAAATGGTGGTGCCTGAAATTAATTTTAACACCCCAAATCTTTGATTATTTGCTGTAATATTACTTTTTATTTTCAATAAACACTCATTATGTTTATCTGATATATCATGATCATAAATAAAACTACTTTCATAATTATTAATATTACCTTTACCACTAATATTTAATTTATTATCTTTTAAACTACCTTTTGCTTCACCGTTTTGTAATAGGACCTTATTGTCTAAGGTGTTAAAAGAGATATTTGTTAATGTTGATAAAACATTATATCTATTAGGGACATCTGGGCTAATAGGAATTATTAGCTCTATTATTGAATTTGCTGTCCCTTTGATTTTGCTCAGATCAATATTTTGAGCTTTAATCTTTTTATATGTATCACTTGGAACAAAAGCAATTAAGTCGTTAATTTCACCTTTAGCAGTAGCATTAAAAATAAATTGTGATTTATCCGGTCCTTCCCATTTGAAAGTCATAATACCATCTGAAATGAGACTTTTACCACTATATGCTTCATTAATTAGAAATTTTATTTCTCGTCCTGAAATTATTATATTAGTATCAATTTTAGTCAAAGGTGGTAGATCTTTATGATATTTATATTCAAAATTTGAGATATGTAAATTTGCTTTTAAATTATCTTCGACTAAAATAATTTTTTTAAATAAATTTTTATCTAATTTAATATTTAATTCTCCATTTTGTATAAAACCTTGTTTTATATGTTCTCGTAAATATGCAACTATAGGATTATCTGGAATAATTTTTTCAACTGTTTGATAAATTATTAAAGGCATATTTGCAGCAGCTGCACTTGTGTCGATACTTTTATCGGTTATTATACCATTTAGTAATAAATAAGCTTTATCCCCAAAGGTGAGTTTGCAATTAACTGTTTTTGGATGCCCTTTAGAGTGGGATATTTTATATGAGCATAAAGCATTGCCTAGAGGTAAGTTTGCGCCCTGTTCATCAGTTAAAATATCACTTTTGATTGAAGTTAATCGTATGTCAGTTAGAGAATCTTTTTTAATGATATTTAATGAATAATGACCAGTAGTTGAAGTATTTATAATCTCTTCATTGTTATTGGAGATTAAAGAAATTTTATCAATATTAAAATTTGCCTCTATTAACGAATTAGAAAAGAAATTTTTAAAATTCTAAAAAAGATTAAAATCTTTAATTTCTCCTCTAGCGTTATCTATAAGACTTAAGGAAATATATTCTATTGATAATCGATTTTCTTTAAATTCTAAATTATATAGTACAGCCTTTATATCATTTTTACTTAAATAAAATTCAATTATTTTTTTCAAAGGTGCATTTAAATGTCCTTTATTTACACTATACATTGTTAGCGCTATAGCAAAAGATAATGCAATCAGAATTATAAAAATACTAACAAAGGATTTTTTAATAAAATTCATTTGAGCTTGTAAATCTATTGAAATATGATAAAAGCTTTCTATACTCAGATAGAACTCCAAAAATTTGCTAAGTCATCCTAAAAAAGTACGCAGTACTAAATCTGAAGTAACAGCTTCAGCTTTTTATATTATGGATCTTTGGTTCTTTCTGAAGTTGATTCTTATACTACTCTTCATTTATTTGAGGTATACACTTGGAATATAACGTATAATTTAAAAATTTAATATAAAAATCACAAAAAATTATGAATATTACATTTATCGGTAGTGGATATGTTGGATTAGTTTCAGGTATTATTATGGGATATTTAGGTCATAATGTGACTTGCCTTGATAATGATGATGTTAAGATATCCAAATTAAATAAGAAAATATTACCGATTTATGAAGCTAAACTTGATGAATATCTTAAGCACGCTTTGGAATCTGATAGGTTAAAATTCACAAATATTTATAGCAATGAATTTAGAAATTTTGATGCAATATTTATTACAGTCGGCACACCTTCAAAAGAGTTAGGAGAAGCCGATTTAAAGTATGTTTATGATGCTGTTGATAAAGTATCAAAACATATAAATAAAGATTGTTTAATTGTCATCAAATCTACTGTCCCGCCAGGTAGTTGCAATAATATTATAGCTTATTTAAAAGCAAAAGGTTTTTCATTTAATGTTGCTTCTAATCCTGAATTTTTAAGAGAAGGCAGTGCTGTAGAAGATTTTTTATATCCTGATCGTATAGTTGTTGGTGTGAATAATAAAGAATCAGAAGCGCTATTGAGAAAAATTTATGCGCCTTTAATAGAACAAGGTGCAAAGTTTTTAGTAACCAATTTAGTAACGAGTGAGCTTATTAAATATGTTTCAAATAGTTTTTTAGCAACGAAAATTGCTTTTATTAATGAAATGGCTGATTTATGCGAAAAAATCGGCGCTAACATTAAAGATTTATCTCAAGGTGTAGGACTTGATCAAAGAATCGGTCGAAATTTTTTAAATGCAGGACCTGGTTTTGGTGGTTCGTGTTTCCCAAAAGATATTCTGGCATTAAATAATCTTGTTGAAAATCATAAGATCGATTGTAAGATTCTTAAGTCAGTAATAAAGAGTAATAAGCTGCGGCCAAGTAATATGGTAGCTAAAATAGCTACTTTGTTAGATGGAGATTTAAAAGGTAGAAATATAGCAATTTTAGGATTAACGTACAAAGCCGGAACAGACGATGTTAGAGCAAGTCCTGCAATCGAAATTATAACTATTTTATTAAATAAAGATGTATATGTTAAAGCATTTGATCCTATCGGTCTTGAAAATGCTAAAAAGAATTTGGAACATAAAAATTTATTATATTTTGCTTCAGCCGTTGAAGCATGTAAATCAGTGGATATTATAGTTATTGCAACTGAGTGGTCAGAATTTAAAGAACTTAATTGGCAAGAAATTTATAATTTAGTAAAATCACCGATGATCATTGACCTTAGAAATATACTAGATAATGAAGTAATGAAAAAAATCGGTTTTAGATATTATGCAGTTGGAAGTCAGATTTAACTAAATAAGCCAAGTTGTAATTAGATGTGTCTGATTGATCTAGTAATCTCAGGTTTTATACTGTTTGATTAGATTTTTAGGTTCTCTACGTTCTTGGACACTGAATACTTATTAAATTAATTTTAAAATGCAACCTGAATTTATACATTTAAGAACGCAAAGCTCTTATTCTTTCTTAGAAAGTGCCTTAACGATCGAAAAAGTTGTAGAACTTGCTTTATTACATAAAATGCCTGCTCTTTGTTTGTCAGATAGAGGTAACTTATTTGGCTCACTAGAGTTTTCATTATACGCAGTTAAAAAAAAACTGCAGCCAATCCACGGGGTTATTCTTAATATACAATATGATATAAACGCTTTTGCACAAATTTTGTTGATAGCTAAAGATGAAACCGGTTATAAAAATTTACTCAAACTGTCAAGCCTGACTTTTACTAAGAATGATCGTAAGATATGTGAGCACATTGGTTTTGAAGATTTAATCAAATATCAAGAGGGAGTAATAGCGTTATGTTGTTATACTGATGGTATTGTCGGAAAATGCTTGCTAGCTCGTAAGCAGGAACAAGCGATTCTGTTTGCTCGTAGATTACAGGCAATTTTAGGAGACCGTTTTTACTTTGAGATTATGAGACATGATTTACCAGAAGAACAGTTTATTGAGAATAGTTATATTCAGATAGCTTCTGAATTATCTATTCCAATTGTTGCTACTAATAAAGTGTTGTTTAGTGAAAAAAGCATGCATTATGCACATGATGTATTGTTATGTATATCAGAAGGTGTTACTAAGGAATATCCTGATCGTAAAACAGTTAGTGAGAATTGTTATTTTAAATCTCCTGCTGAAATGAGAAAATTGTTTTCTGATCTACCTAATGCAATTCAAAATACCATCAATTTAAGAGAACGTTGTTATTTTGCGGCACACCCAAATCCACCAATGCTGCCTAATTTTTCAACTCAAGATATTAGTGAAACATATTTAATTAGAAAATATGCAACAGAGGGGTTGCTTGCACGGCTGGTTACAAAGTTTAAAGCTGAAAATATTTCTCTAGAACATCAAGAAAAATTAAAAACTGAATATTTTACTCGTCTTAATTATGAGCTGGATATTATTTGTAATATGAATTTTGCCGGTTATTTTTTGATTGTATCAGATTTTATTAAATGGAGCAAAAAACAGGGTATTTTAGTAGGACCTGGTAGAGGTTCTGGAGCTGGATCAGTTGTTGCGTGGAGCTTACTTATTACTGACCTCGATCCGATTAAATTCGGTTTGTTATTTGAAAGATTTTTAAATCCTGAACGTATTTCAATGCCTGATTTTGATATTGATTTTTGTCAAGAAAGGAGAGAGGAAGTAATTAATTATGTACGTTCTAAATACGGTCCTAATAGAGTAGGACAAATTATAACTTTTGGTAAGATGCAGGCAAAAGCTGTAATTAAGGATGTTGCTCGTGTACTTAGCTTACCTTATAAATTGGCTGATTATCTCACTGAGCTTGTGCCTTTTAGTGCTATTAATCCAGTGAGTCTAGAACAGGCAATACGTGAAGTCCCAGAGCTTGCAAATGCTGCTAAAGGTAATGGACTATATAATTTAGAGGGTGATGCAGAGTTAATTAAGTTAGTGCTTGATACTTCGTTAATTCTTGAGGGACTACATAGACATTCCTCAACCCATGCTGCAGGAATCGTAATAGCAGGGACTGATTTAGTTGATATAGTACCTGTATATAAAGATGCTAACGCCGATATGTTGATTGTCGGTTATTCTATGAAATATTCCGAGATTGCTGGTTTAATCAAATTTGATTTTTTAGGACTCCAAACTTTAACAGTTATTACTAATTGTAAAAAATTACTTAAAGAGCAAGGTATAAAAATAGATTTTGACGATATGACATTTGATGATAAAAAGACTTACCAAATGTTATGTAAAGGTAAAGGAGTCGGGGTTTTCCAATTTGAAAGTATTGGTATGAAAGATGCACTTAGACGTCTTAAACCTGATTCTATACATGATTTGATAGCCCTTGGTGCGTTATACCGTCCCGGTCCCATGGAAAATATCCCTACATATATAGCTTGTAAACATAAATTACAGCAACCTGATTATTTACATAAATTATTAGAGCCGATATTGGAAGAAACATATGGAGTGGTAATATATCAAGAACAAGTACAAAGAATAGCACAGGTGCTAGCAGGGTATACACTCGGTGCAGCTGATTTGCTTCGTAGGGCCATGGGTAAGAAGATCAAAAAAGAAATGGAGGAGCAGGAAGAGATTTTTGTAAAAGGAGCAATTGCTAATAATATTTCACCGTCTCAAGCGAAATCTATTTTTTCTACCGTAGCTAAATTTGCTGGATATGGTTTTAATAAAGCTCATGCTGCAGCTTATGGTGTTATTTCATACCAAACTGCTTATCTTAAAGCTAATTATCCTGCTGAATTCTTAGTAGCATGTTTAAATCTTGAATTAAATAATCATGATAAAATTAATTTATTTCTGCAAGAAGCAAAAGATAATGGTATCAAAATTATTGCACCTAATATTAATATTTCTGAGGGGTATTTTAGTGTAAAGTCTTCAAACACTGTGATTACGCATAGCACAAAATCTGTAATATCTAGACTTAACTGTGATATTAAGAAAATTGCAAAAGATACTGCGGTTAAGCCGTTGTATTGCAAAGACGAAAGTACAATAATTTTCGCTTTAGGGGCTATTAAGGGTGTGACAGCGAATTTCGGTAAGTTAGTAACGGATGAACGAAAAGCAAGAGGAGCATTTAAATCAATTACTGATTTTATTGAAAGATTACCACCAAAATCTATTAACAGTAAATTGTTGGAAAATTTAATCAAGGCAGGTTGTTTTGATGAGTTGCATGATAATAGATTGCAATTATTTTTAAGTATTCCAAAATTGATTGCTTATTCAACGTCATATCATCAAGAGCAGGAATCTAATCAATTTAGCTTAATTAAAGTTTCTAGTTTAAGTCCAACTATTTTAGTATCAAGCGATTATGCAGATAAAAATACTTTAGCTTTTTATGAATTTGAGGCTATGGGTTTATTTCTCTCTAATCATCCTCTTACTGAATATCAGGGAATATTTAGTCGTTTAAATATCCTAAATACTCGGGATTTATATAATAAATTACCTAATGGTACTAACCGAGTAACGCTTGCTGGTGTAATACAAAAAAAGGATTCTCGCATGTCTGCAAGAGGTAGATTCGTAACTCTTGTTCTTTCTGATCCTGAAAATATCTTTGAACTTACTATTTTTAGTGAGGAAGTTTTAAAAGATTATGTACATTTACTTGATGTTAAAAGCTTAGTAGTCGTTAATTGTGATGTAGTTAAAGATGAAGGTGGAATAAAACTCACGGCCAAAAGCTTTTTATCAATTGAAGATGTAATGAATAATAGACAATTTGAACTACAACTTTACCCACAAAATTATGCAGAATTAGAGCAGATAATAACATTGCTTGCATCGCGCACTAGTAATGGATATCAAAGTAATGCTAAAGCTACAATCTATTTACAAAGCAAAGATGTAAAGCATTTTATCGCAAAAATTACATTATCTGAAACGTTTTTTCTTCAAGTGCAAGATTTTGAGGTATTAAATCAATATATTCGATGAATTCCATATATTCTAATTTTATTTCCATCATTGATTAATATTTATTTTAAAACTGCATTATTATTTTTTCTAAACTTAATATATTAGTTGATGTTTATTTGCTATTTACTGTGCTTCTTTTGATAAATTGATATTTTACTCAAGATTTGGATCTTTAATTCATCCTTTAAAATCATTAATTATGGATTGTAATACAATTTGTAATTTGTTCTTTAATTACTTCAATACTTATACAAACTGTCCTAATATTTGATATGTTTTTATTAATATCAATTTTTTACTAAATTTTATTTTCCTATTTTAAAATTAGTTTCATTCAAAAAGTTGGATACAAGCGAATTTTATATATTGTATCCAAGTTATTACTTACTTAAATATATCGACTTTATCTAATTGTTCCCATGTGAAATTTTCGTCTTCGCGACCGAAATGACCGTAAGTAGCTGTTTTTTGATAACATTGGGTATGAAGTTTAAGATTTTTAATGATTTTGCCGGGACGCATATCGAAATGCTCTGTTATGAGCTTAGTAGTTTGTTCATTACTTAATTTGCTAGTACCGAAAGTTTCAGCATAAACAGATACGGGATCAGCTACACCTATTGCATATGATATTTGTATTTCACAGCGATCTGCTAGTCCTGCTCCTACTATATTTTTAGCTATATAACGTGCCATGTAAGCAGCAGACCTATCTATTTTTGTTGGATCTTTTCCAGAAAAGCAACCACCACCGTGTTTTGCCATTCCTCCATAGCTGTCCACAATAATTTTTCTACCAGTTAAACCACAATCGGCAACAGGACCTCCTATAACAAACCTACCTGTTGGATTAATTAGGTATTTAGTATCTTTATGAAGTAAATTAGTTGGTAAGGTAGGCTTAATAATTTCTTCTATTACTGCTTCAATCAGGTCTTTTTGCTGTATTTCTGGATGATGCTGAGTTGATAAAACTACTGAATCAATAACAATAGGTTTATTATTTTCGTATCGTAGCGTGACTTGTGACTTTGCATCAGGCCTGAGCCAAGAAAGTATATTTTGTTTACGTAAATATGCTTGTCTTTTCATTAGTAGATGAGCATAGTAAATAGGTGCAGGCATTAAGCTTTTAGTTTCATTGCATGCATAACCGAAAACCATGCCTTGATCACCTGCTCCTATTTCTTCTTCATTATCAATACCCATAGCAATATCAGGTGATTGTTTGATGATAGACGAAATGACAGCACAACAACTACCATCAAATCCATAATTTGGATTATTATAGCCTATTTCTTGTATTTTATTGCGTACTACTTGTTCAATATCCACATAGGTATTAGTCGTAATTTCGCCGCCTACTAAAACTAAACCGGTTGTAACAAAGGTTTCACAAGCAACACGCCCATTAGGATCATGTTTTAAGATTTCGTCAAGTACTGCATCTGAAATTTGATCAGCAATTTTGTCCGGATGCCCTTCGGAAACCGATTCAGAAGTGAATACAAAATTTTTCATATATTATGCTCCTTTTTAAAATTCTTCAAATGTATATACATATAATGATTTTTATTTTATACGTTATTGTGTGTTGTACGCGTTGATACTAAAAATTATCATTTTGCGGAATCTATAACTCAGTCATTTAAAAAATCTGTAAATTATAATTGTCCACTTAATAGAATTTATTTGTCATCCTCTATGCAATGAGGGAAAAACGTAAACTACATAATGCATCACGTAAATAAAATAGTATACAACCTAGAAACAACGTTTTTATAGTGATTATATACATTTAGTGTATTTCTTTCCAGTTATTACCTGCTTTAATTTCGGTTATAATCGGTACATTCATATTAGTAGAATGTTCCATGATTTTTTTAATAATAGGAATTACGATTTCTACTTCAATCTCTGGAACTTCGAATAATAATTCATCATGAATTTGTAGTATTAGTCTTGTTTTTAGTTTGCGCTCTTCTATTTCTTTGTCTAGCTTGATCATAGCAATTTTAATTATATCGGCATTAGTTCCTTGAATTGGAGCATTAATAGCTGCACGCTCTGCAAATTGTTTTAGCTTTTTATCATGAATTAGAGGTATAAAACATTTCCTGCCAAAGAAATTGGTGACATAGCCATTTCTACTTGCGCAAGCTTTTGTTTGCGTCATATATTCTTGCACTCCTTTATATTCAGCAAAATATTGTTTAATATATTCGGATGCTGTACTGTTACTAACGTTTAATTGCTTAGCAAGGCCAAAAGCACTGATACCATAAATAATACCAAAATTTATTGCCTTTGCTTTACGTCTATGTTCGCTAGTCAGTTCATGTTTTTTTAAATTAAAAATCTGACAAGCGGTTTGAGTATGAATATCCTCTTTATTAATAAATGCTTGTTTTAGTACATCTATATTTGCAATATGGCTTAATATTCTGAGCTCAATTTGAGAATAATCGGCAGATATTAATTTATAACCCTCTTCTGCAATAAAGGCTTCTCTGATTTTATTGCCATCACTAGATCGAATAGGGACGTTTTGCAGATTAGGTTCTTGTGAGCTAAGTCTTCCTGTAGTGGTAGAAGTTTGTAAAAATGTTGTATGTATCCGCTTAGTTATATTATTTATTTGTTTTGGTAAACTATCAGTATAAGTATTTTTTAATTTTGTCAGTTGCCTCCATCTTAGTAATAAAGTGGCGATATGATATCCATCTTCACTAAGTTTTTTGAGTATTCCAGCTCTTGTTGAGTAAGAGCTTGTTTTAGCTAAAGTGTTACCGGAAGGTAATTGCATTTTTTTAAATAAAATCTCACCTAGTTGTTTTTGTGAACCGATATTAAATTTAGTTCCGCTAAGCGCAAAAATTTCTTCTTCAATTTTTAGAATTTCTGTTCCAAATTCATCAGATAAGCGATTTAAGTAATTAGCATCTACTTTAATACCTACTTTTTCCATTTTGTCTAAAATAAAACAGGTAGGTAAGTCAATTTCACGATATAGTCTAAAAGCTTTATTCTTTTGAAGTTCCAATAAAGTTTGTTTATAAAGTGAGATAAAGTTTATTACTATTCTTGCTGATTCATTAATTATATTGTCCTTTGTTAAAGTTTTTGTAAATAGATTTTTCTGTACTAAACCTGCCGATAACGCATATTGCATTAGTTCCAAATCTTCTATAGCTGTAATTTGATGAGATTGGTTTGCATAAAACTTTAATAAATGTTTCAGAGAGTAAGTAATTTTTTTAATGGATTTATTTGTTAGTAAATTTAAGATTATATGCGAAAACCAATCGTTATTATTTTTAATATTATAATTATTGTTTGTAATTTTAATAATATAGCTTTGGTTTTGCAGTGATAGAATCAATGCACGATTCTCTCCTTTCTGCTGTAGTAAATATATTCCAAATATCCCTATTCTCTCAGCTTCTTTAGCAAAATTTGCTAATTCACTAGCATTACTAATTTCTTTTGCTTCAGTTACTTTATTATCTACTATCTCTTCATGATCATTAATTTTAATATCGAATAAATTTTCTACTCTTTTGTATAAAGATTTAAAACCATATTCTTGTAAAAATCCTGTTAATTTTTTACTATTTGGAGGTGACCATTTTAAATTATTCAGATCAAAATCTAGATCAACATTAGAATCAAGACCAATTAACTTCCATGAAATTAATGCAGCTTCTCTTGCATTTTGTAAAGTTTTACGTTGTTTTATGCTTGAGATTTGGTCTAAAGAGTTAAATATATTTTCTACAGAACCAAATTTTGTTATAAGACTACTTGCCGTTTTTGGTCCAATAGATGGGACACCTGGAATATTATCTGATCTATCACCGATTAAAGCCATAACTTCACGTAATTTATCAGGAGTAGTACCAAATTTTGTAACAACATTATCCTCTGTAATATATTTACATTTTATAGGATCATATATTTTGATATTTTTACTCATTAACTGTAATAAATCTTTATCTGACGAGATAATTATTACCTCTTCACCAAGTGAAACTGTTTTAGTAGCAAAGGTTGCAATAATATCATCGGCTTCATAACCGTTTTTTTCTAGAATAGCAAATTTAAAGTTACTTGCAACATCACGAACTAAAGGTAATTGTGCAATTAAATCCTTAGGAGGTAGGGGGCGATTAGCTTTATAATTTTGATAAATCTTATGGCGAAAATTTTTGCCGCCGCTGTCAAACACTATCGCAACATATTGAGGCTTAAAGTCGCTCAGTAATTTTAGTAGCATTGAGGTGAAACCATAAAGAGCTCCAACAGGTTCACCTTTTGCTGAACTTAAAGACTTTTGTGCATAATATGCTCTAAAAACGAATCCGTATCCGTCTATAAGCAATAAGGTAATTTTTTTAGTCATTTTAGATTTTATTTATATAGGTCATATCATTTGCATTGTAGATTTCAGCTATTATATTGTATCTTGACCATGTATAGCGATGCTATGTTTGAATCCACGTGTTCAAGAGGATAGATGACATCTAGTCTGTTTTATGTTTTACACAGTAAAACCTTACAATCCTACTAGACTTCTAGAAAAATCATGTCTGTTAAATATTTTTAAGTCTTCTATCTTCTCGCCTATACCAATAAAATATACTGGTAAATTGAATTTCTGGACTGCTCCAACAAGTACTCCAGCTTTAGCACTACCATCTAGTTTAGTTACGATAAGTCCAGTCAAATTAGTAACATCATTAAAATATTCTATTTGGTTATAAGTATTTTGTCCTGTAATAGCATCAATTATTAAAATACTATGAGTTGGTGCATTTTCATCTAGCTTTTTTATAACTTTTACAATTTTTGAAAGTTCATCCATCAAATTTTTATTATTATGAAGTCTACCTGCGGTATCAATAAACAGTATATCGATATTTTGTTTTATCGATTCTTCAATAGCACGATAAGCAACACTCGCAGGGTCAGCTGATGCTTTACCAGTGATAAGTAGTGCATTTGCTCTATGCACCCAACTGCTTAGTTGATTGATAGCAGCTGCTCTAAAGGTATCACAAGCTGCCACTGCTACTTTTTTACCTTCTGCTGAATAGAGTGCAGAAAGCTTACCTATAGTTGTAGTTTTGCCTACTCCATTAACACCACAAACTAAAATTATATTTAATTTATTTTCACTTAAAGTAAAAGGAATTTCTGATTTTGATAGTTGCTGTTCTATTAATTTAGCAATTGCTTCTTTTACTGTATCACTATCTATTGTTTTATCAAATTTTACATTTTTAAATTCTTCAATTATATGCGTTACTACTGAAATACTAATATCACTTGAGATCAGCAGCTCTTCAAGTTCGTTTAGAGTTTCTTTATCTAGCTTTCTCTTGTAAAATATTTTGTCGATACCTGCAGAGATTGTATTAGAAGTTTTAGACAAACTTTGTTTTAATTTATTAAATATTGTAATCATATTAGCTAGTTTTTGTTTTATGTATGTTGGTGTTATTTTTACTTCATTATAATTCCATCATACAGTTATTATTGAGTGGAACAGAAAAATGTACTGTGTTACCATATGTAGATTGTTGATTAGGTGCATAAAAAATATTTAGTATTTTTGATCCCAATACAATACTTGTTAGATCCAAATAATTAATGTCTTTATCTCTGCTTCTTATTTTTGTTTTTGTGAGTGATGTTATTGAATCTACCTAAGTTTTTCACAAATTTTTGTAGCCCGTTAAGTTCTGTTCCATGTGTCTTAGTATATTCACGTACTGTTTCTATATCTTCTTTATGCGAATCATCTATTACTATTAATTCCTTCATCAAATTATTAGAATCAAACGTAATTTTTATTATCTTTTGTTTTTGAATTTTTGGATTGAGCCAAGCTCTTTGAGACATTACTCTCTCAACATAATACCAAGTATTTTGGGAATATTCCGGTACCATAGTAGGTGTACCTATTAACTCTACGACTTCCATTTTATTTAGTTTTTTAGATTCTAATTTTATAAGTTCTGCATCATCTATTGATGTTCCTCTATTTTCTATAGTTTTGCAGCTATTTAAGGTAAAAAATACTAATATACTAAAAATGTATGTTATAAAAGTTTTCATAAATTTAATTTTATCTAGATTTTATTAAAAGATTATAATATACTTCTTCACTAATTTGACAAATACTTTTTAATTTATTTAGCGAGGCTAATAATGGCAGTTCCAAAGAAAAAAACATCAAAATCAAAACGTAATATGAGACGTTCACATTTAGCACTTGGTAAAATTAATGTAATAGTTGATTCACACACCGGTGAATATAAGCTTCCACACCACATTTCTTTAGTAGATGGCACTTATAATAATCGTCAAGTAGTAACTAAAAAAATTGATACTGAAGAAGTAGCTTAAGTACTTAAAATTTATGACCTGTAAAATTATTGGCTCTGGTGGCTATCTTCCTCCAAAAATAATTAGTAATGACGAGCTAACAAAATTTGTTGATACTAATGATAAATGGATTAGGACAAGAACAGGTATCTTGCAACGGCATATAGCAGGTGATGCAGAGTATACGTCTCATTTAGCTTTTAAATCAGCACAGAAAGCTATAGAAGATGCTATGATATCAGTGGATGATATTGATTTAATTATTACATGTACTACCACGCCAGATAATAGTTTTCCTTCTGTTGCTACTAAACTGCATGGATATCTTGGTTTAACTAATATACCATCTTTTGATTTACAAGCAGTATGCGCAGGCTTTATTTATGGTTTGCAATTAGCGCATTCTCTTATTGTATCTGGTAAATATAAAACTATTTTGCTTATAGGAGCTGAGAAAATGACTTCGCTTTTAGATTGGAATGACCGGTCTACTTGTGTGTTATTTGGTGATGGAGCAGGTAGCGTAATATTACAGCGTAGTAATGATGACTCTGGTTTGATAGATAGTAATATCTTCTCAAGCGGTACTGATTATGAAATATTATACACAAGTGGTGGTACAAGTATGAATGGTACTAGCGGTAAAATAGTGATGCAGGGTCAAAAATTATTCCGTCATGCAATAGAAAAAATGCTTCAATCTATAGAAGATTTACTCTATGCTAATCAATTCAGTGTAAGTGATATTGATTATTTTATACCGCATCAAGCAAATATCCGTATTATCAATAAACTTGCTGAACTATTAAATATAGAAGAGCACAAAGTAGTAAAAACAGTAGAAAAACATGCTAATTGCTCTGCAGCTTCTATCCCACTTGCGTTGAGTGCTCTTAAAGAATCAGGGAAAATTAAAAAAGGTGATATTTTACTATTTTCAGCTATAGGTGCAGGTTTAACTTGGGGTGGTGCATTAATAAGATGGTGAATATGTTACTTTAATATTTTAAAAAATTTTCTATGTTATTTCATATTTTTAAGTACTAAATAATGTATACTCCTGTTATAAACTGTGATCCCTTTTATATTTTTCAAATTTCATATATTTTTTAATTCAAAGTATCCCAATTGTAAAAATGATATTTTTACCACATTTATATATGGGTAATTGCATTTTATAATATTTTAGCCTTTAAACTCATAAAATAATGATATATACTAACTCACATAGCTTTTAGTTAGTTTTTTATAACTAGCTAAAATGATGCGAATATTATAAATTATAATCTCAAGGAGTTTGATTATGAAAACAAAAATTACATTAGCTTTTCTTGCATTATTTATGCTTGCAGGGTGTAATACAACTAAAAAAACCACACAAATGGCCGGTATGGTGCATCAATGCGAAGAAACATCATTAATAAAAGATTTTGAGAAACATGCAGGTAATGCTGTATGGTTTGCTTTTGATAGTTCTTCTTTATCTCCAAAAGCTAAAGAAGAATTAGAAAGACAAGCTTGCTGGTTATCAAAACATCCTGAAGTTAAAGTTACTGTTGAAGGGCATTGTGATGAAAGAGGTACTAGAGAGTATAACTTAGCTTTAGGCGAAAGAAGGGCAGCAGCTGCAAAACAATTCTTAGCTAATAAAGGCATAGCTCATAATAGATTAAATACCATCTCTTATGGTAAAGATAAACCTGCTATGATTGGTAATACTGAAGAAGCTTTTTCTTATAACCGTAGAGCTGTAACAGTTTTACATAAATAAAATTATTTACTAATTTTATTTATTTTAAAAGGTCGAGTTTTATTACTCGACTTTTTCTTTATTATTTCATCATCTTGATATGCAAGTATTGATGTCTGAATACAGAGTATATTGTTATTGCTAGGAGTATGTTGCTCGTATTACTAAATATACGGAATATTTTAAACTGGATCACATTGTCAAGAAGCTACTGCATTATTCATCTGCGTGCAATCTCGTTAAATAATACAAAATTTCTGAGATTGTTTCGTTAATTACTTTGTTATTACTGTATATTATGAGTAAAAAACTTATCTACATAAAGAATATATCATTTTTATGAGATACATCAAAAATATAAAAATTTTACTAGACTTGACTAGATAATAATTATATAAATTTCACATAAAAAGGGGCTGTAGCTCAGTTGGTTAGAGCACGCCGCTCATAACGGTGTGGTCGTAGGTTCAAGTCCTACCAGCCCCACCACACGTATTCTTATTTAAATTCGTATTAGAACTGAATTTATAATGATTAATCTTAAAACACTATCTTTGTATCTTACTAAATTATATTCTAAGTGTTTCTTTATTATATTATTCCTTTTAATCGGACTATTAATTATCTCAAATATTTTTGACCTTTTGCAAAAATTCAAAAATATTTATGTTCCTTTTAGTTTTTTTTGGAGATTTATCTTATATAAGATTCCTTATTTACTCAGTCAAGTTTCTTCGTTAATAAGTTTTACTTCTATGTTATTTTTTCTTAGAAATCTAACAAAAAGTAATGAATTAACTGCGATATTATCTAGTGGTATTCATATTTGGCAAGTACTTATTATACCATGTATTGTAACTTTAATTTTAGGTATCATTTGTACGACTATATTGAATCCTATAAGTACTATAGGCTTACAAAAATATTCGTTATTAGAAGCAAAATTAACTAAAAAAGCCTTAAGTGAGTGTCTAATATCTGAATCAGGCTTATTGTTTTTTGAATCTTTAAATGAGCATAATCAAATTATTCAAACAAAATTTATTGATGTTGCTGAGAAAAAATTAAATAATATTACAATTTTATTTATTGATAATAATAATTCTTTTTTAAAGAGAATTGACGCATTATATGGTATTATTGACAATAAAAAATTATATCTCAACAGAGTTAAGGTCTCTACAAAAGATGAAATTAAGTCTTACAGCAATTTAACTATACAGACAAATCTATCAATTAATAGTTTAGTAAATAAATTTATGCGTCCTGAAATGGTTTCTATTTGGGCTTTACCTAAATTAATTAATGAATTATTAAATTCAGGTTTGTCGGCTATAAATTATCAAATTTATTATTACAAGCAATTATTTAAGCCTATAATGATGATGGCAACAGTAATTTTAGCAAGCTGTTTTATTAGTCTTAAACAGCGTTGTAATTCACAAGAAAAAATACTTATATTAGGTTTATTCTCAGGTTTTATAGCATATTCGTTATCAGAAATTTTATTAAAAATACTTACTTATAATAATTTATCTTTAATTGCTGCTATTTTATTACCTAGTATGCTAATATTTTTTATTAGTAACTTTATTATTTTACATTATAAGGAAATTTAATATATCTTTTCATTTAATTTGAAAAATGAAAAATTTGTTGTGTCGCGTCTAATTTTTGATCCTTACATAGTATCCTACACTGCTGTCAAAAATTCTGGTGCCACTCGCTTTTTATAAAATTAAATTTTAAGTTTTGATTTTCTATAGAACTGTTTTTTTATTCACAGTCTTATAGAAGTGTTTTTAAAATTTAGAGAGAAAAATACAATGATAATGAAGTTTTTGGAAGGTTTTTCTTCCGGTATGGCAATAGATCTTGGTACTGCCAATACTATTGTTTATCAAAAAAGTCGTGGAATTGTTCTAAGAGAACCTTCTGTTATTGCATTAATTAAAAAAGATGGAGCTTTTGTCCCATATGCTTATGGTCATGAGGCAAAAATGATGCTTGGTCGTACTCCTACAGATATTGAAGCAAAAAGACCTTTAAAAGATGGTGTTATAGCTGATTTTAAAGGTGCAGAGGAAATGATAAAGTATTTTATTAAAATGGTGCATAATCGTCGCTCTTTTTTTGGTCCAACAATTGTTATTTGTGTGCCTTCAGGGTCTACGCCTGTTGAGCGTCGTGCTATCCAAGAAGCAGCAGAAAGTGCAGGTGGTAGAGATGTCTATTTAATTGAAGAGCCTATGGCAGCAGCGATTGGAGCAGGGTTGCCTGTAACGGAAGCGACTGGTTCAATGATTGTTGATATTGGAGGAGGTACTACAGAAGTCGCAGTTTTGTCACTAGGTGGGATAGTATATGCACGGTCTGTAAGAGTCGGTGGTGATAAGATGGATGAAGCTATTATCTCATATATAAGAAGGCACTATAACCTACTGATAGGTGAGGCTACAGCCGAAAAGATAAAACAAGAAATAGGTACAGCTTATGTAGATGAAAATGCTGAGCCGAGAAAGATGGAAATTAAAGGACGTGATTTAATTTACGGTATTCCTAAAGAAATGATATTGAATGAAAGACAAATTGCTGATAGTCTCATTGAACCGGTCAGTCAAATTGTTGAAGCAGTAAAAGTAGCATTAGAGGCAACACCTCCTGAATTATCTTCAGATATAGTTGATAAGGGAATTGTTTTAACAGGTGGTGGCTCATTATTACGCAATCTTGATTTTGTTCTTAGTGAAGCAACTAAATTGCCTGTTATAGTTGCTGATGATGCACTCTCTTGTGTTGCACTTGGCACAGGTAAAGTACTTGAAGATTTTACAAAGCTAAAACATGTACTATTTAAACAGGATTAAAAATGGCTATACTTGCAAATAGAGTAAAAAATTCTTCAAATTCATTAGAATTAATACGAATAATATCAAATATTCTGAAGCGTTTTTGTGTTATATTTGGGTTTATATTGTCTATATATTTATTTTTTATTACACCTTAAAAAATATCTAGTATATCACTTGAAGTAACTGGTAGTATAGTATCTATAGGTTTAGCCATCTATAAAGATATATTTGAATATATAAATTTAGTAACACAAAAATTTATTTATTTTCAAGATTTAGAGCGGAAAAATATAGAACTTAAGCTTGAGATAGCAAGATTACAACATTTGCAAAGCGAAGTAGAATCGGTAAAAGCCGAAAATATTGCATTAAAAGATTTATTAATGATTGCTGAGGAAGAAGAATTTGAATATTTTACTACTAAATTACTGAGTGTATCTTTTAATCCCTTTTCTAGAACTGCTTTGATTGGCGCAGGTAAAAAGCAAGGTATTGAACCTGATCAAATCGTTGTTAATTCAGGTAAATTAATAGGAAAAGTAATAGAAGTAAGTAATAATTACTCTAAAGTAATGTTGATTAGTGATGTTAATTCTAGAATACCTATTAAAGCTAATTCTTCAAGAGAACAAGGTATTTTAGCAGGTAATAATAATAATAGTAAAATTTTATACTTACCTAACAATCATTTAGTACAAAAAGATGAGGAAATAGTAACCTCTGGACATGGTAATATTTATCCTGCAGGTATTTTAGTGGGCTATGTGTCTAAAGTTACGGAAAATGATGTAATAGTAACCTTAGCAGCTGATTTATCTAAAATGGAATTTGTACAAATATTATTGCCGAAGCAGTAATTCCTGTTTTTTAAAATGTTGTACTTTACATAATTACTGTAAAAACGTGTCTTTGTTTCATGGAACATTTTTATAATTCCTGTGGTGGTAAAAACCTAGCTTAAATAATTATATTTTACTACGAAATTATAAGTTCTTTATTCTAAATTACTGCTATAACGGAAATTAAGAGTATACAAAAGAATGATTCCAGCATTATAACCGAATATATTTATATTATAATCTATAAATTAAAATTTTATCAAAACTTCATCATCGCAAACATCACTGAAGTAATTATTTTTATTGAAGTCAAAATAAGAAGCTTTAAAGTTGATGATAGATTTGTATCTAATCAAAACAAGACTAGATGGTAATTATACCTTGAATGTTTTTAATTAGCCATGCTATATATTATCAACTTGGATTTGGTATTATAATTTCTTATAAATTATCTATAATAATAAAAATTTTTTTAGTATTATCCGTGTTGTTTCATCGCTTGATTTTTGCTACTGTTATCTTGTGATACAGTTAGAAGATCAATATATTTTTTAGTTGTTATATACTGTTAATAAGTTACGGTGTGATACCAAGTACGTTTCCTAATTCATATAACAAGGTTGGTAATACTCGATAAACTTTGTATGTATATATATAAATCGTTTATTTATTCAGAGGTTATTAATATGGCACTTGCTACTAAAGTAAAAGAATTTTTAGAAGAAAAATTAAAACAAGAAAAGATAGATCGTAAATATCTTGCTCAGGTCACTAATATCCCTTATACTACTGTTAGTAGAATTATGAGAGCAGAAGCTAATCGTGAATTTAATCCTGAAATAGATACTATTTTAAAAATAGCAAAATATTTTAATTGTACTATGGATGAGGTAATAAAAAGAAAAGTGCATAATAATTCATAAAGCTTTATACAAGTGAATTTTGTATTATTAATGCATTTGACCTATTACTTCCAGGGCTTTGCATTTTAAATTCATCTTGTCTAAATCTGCTGTCTCTATGAACTAAAACATAAAATATGAAATTCAAAAATAAAGGACTGATTATAATTTTATCTTCTCCTTCAGGTACTGGTAAGTCAAGTTTAGCTAAAGAATTATTGAAAATAGATAATAATTTACGTTTATCTATTTCAGTCACTACAAGGAAACCACGTTTAGGAGAAGTAGATGGTATAAACTATTACTTTAAAAGTGATCGAGAGTTTAAAACATTAGTTAAACAGAATAAATTCCTTGAATATGCTAAAATATACAATGATTATTATGGTACTCCTAAAGAATATGTTAAAATGTTATTAAAGCAAGGCTTTGATGTTTTATTCGATATTGATTGGCAAGGAGTCAGGAGTATTAAGAAAAATACTAATAATGTTATTACTATATTTATATTGCCTCCTAGTATTGAAATACTGGAACAACGCTTAAGAAATAGAGCGACAGATAATGAAGAAACAATCAAATTGCGTATGCAGTCGGCACAAAATGAAATATCGCACGCTAATGAGTATGACTATGTAGTTATTAACGATGATTTCAGTCAAACGCTTAAAAAAATACATGAGATTATAGTTGCAGAAAGAGCAAAGAATTTTGCTTACCATGAATATTAGCAGTAAGTTTTATTTTTTTGTTGAGCTTTATAATCATTATGCATGATCTAATCAACTGTTATATTGTAGATATTATATTGCCTTCTATATTTTGTTTTATCTTATCAACATATTATTATGTTATTGTCTCTTGAACTTGATAACTTTATCAAACTTCATTATATTCTTATTTGTGGCTCTTGTATTTGGTTAGTTGGTAGTATATCAAGTCATTAGTAATATTTCCGATGTTAAGATTGAAACTTTCACAAGGTTTGTGCTTTGACGCTTAAGATTATCGAGCTTAATAAGCTGTATTATAATTTTTCTAGCATGATGTTCATTGCTTTTATACTATTGTTGTACGACAAAATAATAAATGGTCAAATTAGTTTTTATATACATAACTAGTCGTTACTATACAATCATTTAATATTCCATTAAACTTAGATTCACCACAGCAGTTATGACCTATAAGACAAATCTTTATAATTCTTGTACAAAACTCAATAACATTACTTTACAATTAAAGCTTAAATGAATCCCTTGCATGTAATGAATTACTCTTATATCATAGTATGATAATAATTTATACTAAATCTTCTTAATTACTAAGCTAGCATTAGTACCGCCGAAGCCAAAAGAATTAGATAATACGTAATCTATTACAGTTTCTCTAGCTTTGAATTTTACTAAATCTATCTTAACATCATCTATAGGGTTTTCTAAGTTTAAGGTTGGTGGTGCAATCTGATCTCGAATTGTAAGAACTGAAAATATAAACTCAACACTTCCTGCTGCACCAAGCAAATGTCCTATTGATGATTTAGTAGAAGACATTAGAATTTTGGGATTCGATTCTAAAAATAATTTTTGTGTAGCGTCTAATTCGATCATGTCTCCAAGAGGAGTAGAAGTACCATGTGCATTAATATAATCAATCATACTAGGAGTTATATCAGCATCTTGTAATGCTTCACTCATTGCTCTATAAGCTCCTCTACCTTTAGGATGTGGAGCTGTCATATGGTATGCATCACCTGTAGAGCCGTATCCTATAACTTCACAATAAATTTTAGCTCCACGATTTATTGCATGCTCATATTCTTCTAAGACTACAATGCCTGCTCCCTCACCCATCACAAAACCACTTCGATCTTTATCCCAAGGTCTTGAGGCTTTTTCAGGATTATCGTTATATTTAGTACATAATGCTCTAGCAGCAACAAAACCTGCAATTCCGACAGGTGTAACTGGAGCCTCTGCACCGCCTGCGATCATAACATCGGCATAACCATGTTTTATCATACGCATAGCATCACCTATAGCATGTGCGCCTGTAGAGCAAGCTGTCACTGCTGCTTGATTCGGGCCACTAAAACCGTATTTTATAGAAACAAGACCAGATAAAAGGTTAATTAATGATGCCGGAATAAAGAAAGGGCTAACTTTGCCGTTATTTTCTTTATAAAGTTTAATAGAGGTATCTTCAATCATTTTAAGTCCACCGATTCCTGAACCTAATATCAGGCCGGTTCTATCACGAGATTTTTCATCTTTGGGTAACCAGCCGCTATCTTCAACTGCTTCGGTTGCGGCTGCGATTCCGTAATGGATAAATTTATCCATTTTACTTAGTCTATTAATATCATCTGCTTGTGTAAAATTTTCTAGTTTAAATCCATTTTGCTCAGAATTATCTATAACGCCAGCAATTTTACACGCAAGTTTAGAAGTGTCAAATTCTGTAATAGTTTTTATACCACTTACTCCGCCTACAATATTTTTCCAAGTTGAGCTAACATTAAGCCCAACAGGCGTAACAAGTCCAAGCCCAGTAATAACTACTCTTTTATTTATGTTTTGATTTGACATTTTTAATTATCTTAGGGATTTAATTTATGCAGATTAAGATTGGCGTTCTTTGATATATTTTATGACATCGGATACGGTTTTAATTTTAGTGGCTTCATCATCAGGGATATCAATACCGTATTCAACTTCTATTGCCATCATTAACTCTACGGTATCAAGGCTATCAGCTTTCAAATCTTCTATAAATCTTGAATCTGTAGTTATTATCGCTTTATCTTTATTTAGCTTCTCAGCAACCATTTCAATAACTTTCTGTTCGATCTTGTCCGTTGTACTCATAATTTTGAACTCCATAAATCATTTATTTTATATATTTTATAATAGCAATTATTCAACTATTAGATTTTATTTTCATTGCTATGAATATTTGAAATAAATATTCATAAGCATTTTCTCTTTAAAAGAACTTCTAGCACAAAAAATTATTTTTTGCTAGCATAAAATTTTATACCATTAACATACCACCGTTTACATGTAGAGTTTGACCAGTAATATATGATGCATTATTGCTTGCTAAAAATGCGACTGCGTATGCAACGTCTTCTGGTATACCATAAGTACCTAGTGGAATTTTTTGTACTATTGCTTCTCGTTGTTTTTCATTGAGTTTATCAGTCATATCTGATTTAATAAATCCTGGTGCTACTGCATTAACCGTAATCCCTCTAGTTGCAACTTCGTAAGATAGCGATTTGGTCATACCTATTAAACCTGCTTTAGAAGCGCAATAATTAGCCTGTCCTGGGTTACCTGCAATTCCTACTATTGAAGATATGTTAATAATGCGTCCATACCTTTTTTGTATCAATTTTTTTATTGCTTCACGATTTAAAATAAAATTGGCTTTCAAATTAATATCAATAACTTTGTCGAAATCTTGATCTTTCATTCTAATTGCGAGTGTATCACTAGTAATACCGGCATTACATACTAAAATATCTAAATTTGATGTTTTAGATATTAAATTACTACATTCTTCCTTATTCGCAAGATTACATACTTCTATGGTATAATTATCTTTTAAAGCATTGCCAAGTGATTTTAATTTTTCTTCATTACTACCGCTAATAATTACCTTGCTCCCGAGTTTATGTAGTAACCGCGCTATGGCACTTCCTATGCCACCTGAAGCACCTGTAATTAAGGAAGTTTTACCTGTTAAATCAATCATTTTATTCCTCCGTTTGATCAAGATTTATATTAGTAATTGCTGACGATTTTTCTCGTATTATTTTCTCAATTTCGTTGGAAATTTGTGGATGTTCTTTTAAATATTGTTTGACGTTTTCACGTCCTTGCCCTATGCGTATTTTATTGTAAGAAAACCACGACCCTGATTTCTCAATAATCTCAAGCTTAACACCAAGATCGATTATTTCACCTTCTTTTGAAATACCTGAACCATACATTATATCAAAATCTGCAGTTTTAAATGGGGGAGATACTTTGTTTTTGACTACTTTTACTTTAGTTTGGCTACCTATCACTTCTTCTTTATCTTTAATGGAGCCAATTCTTCTTATATCAATTCTAACAGAAGCATAGAATTTTAAAGCATTACCACCTGTTGTAGTTTCAGGGCTACCAAACATCACACCTATTTTCATCCTGATTTGGTTGATAAAAACAGTAATACAATTTGTACGATTAATTGATGCGGTAAGTTTACGAAGTGCTTGGCTCATTAATCTTGCTTGAGAAGCCATTTGAGCATCACCCATTTCACCTTCAATTTCTGATTTTGGTACTAAAGCTGCAACACTATCTATTATTATCATATCAATACCGCCTGAGCGAATTAACGTATCAGCAATTTCTAGAGCTTGTTCACCTGTATCAGGCTGTGAAATGATAAGCTCATCAATGTTTACGCCTAATTTTTTTGCATAAGCTGGGTCTAAGGCATGCTCTGCATCAATAAAAGCACATGTACCACCCTTCTTTTGAGATTCTGCAATTAAATGTAGTGTCAAAGTAGTTTTACCTGAGCTTTCAGGTCCAAAAATCTCGATAATTCTGCCTTTAGGTACACCTCCGATCCCAAGCGCTATATCTAGCCCAAGTGAGCCTGTTGATATTGCTTCTATATCAACATTTGGACGTTGCCCTAATTTCATTACGGAACCTTTCCCGTAGCTTTTTTCTATTTGTGCGAGTGCCGCAGCAATGGCTCTTTCCTTGTCTATATTTGACATAAATTTCTATATTATAAACTTATCAATTAAGATATAAGTTTGAGAAAGAAAAATCAAATTTTATTTATTGTGCGTATAAGATTAAATCTTCATTTCTTTACTATGTAAAAATTAGTTATGTTATTTATTAATTGATTTTTCTCATTGCTTTTCTATTAATTATATTATTTGCAAAAGATAGTTTTATTTAAATAATATGGTATCGCAATTTCCACACTATCTTACTACTATATATTTACATCTTATATTTAATTATTTTAAGCATTTGCTTAGTTTTAATATCGATTTATGCATATATAAGTCGTACATTCTGTAATGCTTATATAAGATTTGATTTAATAACCATATAATTTACAACATTATTGTATTGTCTAATTAATGCAGGTACATTATGAGATAGAGTATATTATTAATTATTTGAGACTTTTAGTTTAGATTATAATCGTAATCATAGTAACTATAGGACACTTTAATTATGAAGAGTGTTTGTGAAGCTTTTAAATTGGCAATTTACATTTTTTATCAATGCATATATTGCGTTACTAATTATTATTTTTTATAGTTTAGATTCCTGTATGATCTAATTCTAGTATAATGAACCATTTGATTGAATATGAAAATAATTTTTTCTCTATGTAAGATTTAGTTTAATGCATTAAAAAAAATGTTATCTCAATATTATAGTATTTACATAATGCTCTTAATTAATATTGTGTGACTAATAATTTTTACATAAAAGTAATTATCTATTAGTAGATTTTAGTATAGTACTTGTGTCTTAGAGTTTATAATGTCTCTTATATCATTAAGATTACAGTTGATCAAAGTCTTCAGTCGTTTAATGTTGATATGTGTGTTGCTTGTAGTAGTTTTTACTTTAATTGTATCTTTAGTTATATGATGTTTTCATACACGATCTAGCACCTTGTTAGTAATATTTAGGTAGTTTAATCTTTAGTACTATGTTTTACCTATAGAGATTTATTAATCGAATACTAAGTATTGTTAGTATAAGCAATAGTTTATGTATCTCTACTACCGTAACAGTTATTATGAATGTTGTAAGAAAGATTTGTAGATGCAGTGGCACTGTGTATGTTATTAGTAATACATACATAGTGTTTCTGTATCAATGGGGAGAAAATAGCTCATGATTAAATTTTTGTTACAGAATCATTTTTTCTCAACAATTACCACATTCATTTTCTCGCTTACCTACCCTTAGACTGCAACTTGGAGTATTTCAAATTAACATAATTTTGGTAGTTAGCGTAGCCCCAAAACTATCAAAAATACAACAACAGTATGTTTAAATCTGACAGTAACACTTAAATCATGAATATACCAAATATCTACAATAAAAGTTGAGGTAAGCAATACTCTAATTTTTTGTAAAGGATGCAACACAATAAAATAGCATTTTATAACCCCCAGTGATATTTAACTTTTAAAAAAATGCTGGTTTGTTTTTAATATCCTATTCAATTATCTCTAAGGGGCTATAAGCTTCAATAGCTAATAATGGTGTTGCGTAATTTAGCTCTTCAATCTCTTCGTAATGAGAGCTAAATATCTCCAATATTTCTTTAATACTTGCTTTATATTCTTCAGAGTCTGGATTTTCTGTGCGTATCATTGTGATTAACTTTGCAAAGTTGTTAATAGTAGTAAAGCTATCATTACCTTTAAGATTATCACATATTTCATGTAATATTTTGCTTACAGAAGCTAAGTTTAATGCGATAGCAGATGGTGAATTTAATTTTATAATTTCATTATTTAAATTAGTTAGTGATGATATTGAGGACTTAAATTCCTGCATAGATTTTGCTAATTTTATAATATCATTTAAATTATTTATTTTTATAATTTCATCCAATATAAATGCATTGTTCTTAAAATTTTCGTATAGTAGTGTTGAAAATTTTAATTGTTTGTTCTCTCTTACTAATTCTATATTTTCGTTTTTTATAATTTTTCCATTATAATTATCCCATACATATTTAGCTGTGTATCCTAAGATACTGCCTAGAGCTAATGTTCCTAATGCTACTACATAATAATAAGAGTTGCTATATTCATGGCAATTTGTATCATTGTTAGACTTTTCTGTAGTAGGCTCATCATAAGTTTTACCGAATTGATCTAAAATATACTTACCTATTTCCATAGGAGATATATTATCTAAATATAGTCCTAAGTGATTTAGAGTCTCTGCGAGAGTATTGATAAACGATGCACGAGGTATTAAAGTTTCTTTATAAGAATGATAATTTTGTAAAACACTAATAGCAGCTTCTTCAGTACATTGATTTAAACCTAAGAAATTAGCTCCATTAGTTGAGGTAATATCACCTTGCGAAAACATATAACCATTTGTTACTTTATAAATCTTGCCAAGAATATTAGCTGTACCGTTTTGATTATGTGTTACAGTTTGATCTAAAAGTAGATGCGTATTATTTTCTGTATCAGTAAAAATATTATTTATTGGAATATTTAAACCACTGCTGCACTCTTGGTGTAGTATTGAAAAATCATTTGGTGACTCAGTAAAAGATTGCATAATATTTTTCCAATTACAATCTGCATTATGCACTATATAACCTTTTCTAAAAACTCCTTCAACAGTACTATATACTGATGAGAATATAGTACTGCTTAATTTATGTATAATGTGGCGTATATTATAAGGTAACCACTTACAATTTCATTGTCAAATATGGTATAACGCATTTAAAGTTTACATTTATCGGTGCCATAATATTAGCCATCATTATTTAATAAAAATTATAAGATGTTGTGTTTAGAGCACATTAATGCTTTTGTCAAGATAAAAACAGAATTTTTTATTATGAAAGCAGATACGTGGTGTCACAATATAACTTGCTAATGTATCTAGCTTATTATTTCCATAAATGTGCGTTTTTTACTTGATTCTATAGTCAGGCAGTATGCACTAAGTCAGTTCTTGCGCCATGAAGTAATGCAAATGCCAATAAAGCATCACATTCATTTACCTATGCAGAAATTTTTAAAGATTTCGTTTAGTATTTCTTCTACATTAATAACGCCTGTAATAAGACCAATGCAGCGTACTGTCATTCTAATATCTTCAGTTGCGAGTACTAAATCATTGTCTAAGTTAAAATCTATTAAATGCGAGAGAGCTTGTTTTAAATAATGACGATGACGCTGATTTGTTATATAAGGGGTTTCTGTAACACCTGCCAGATTTTCAGCAATATTTTCAATATTTTTTAAAATATTTGAAAGAGCAATATTATTTTTTACTGAAACTCTTAAGCATTTATATCTATTTTCAATAGCAAAGGTTTTATTTGGCTCAATTAAATCAATTTTATTAATGATTACGATAGTATTTTCATCAATTAAACCTGTAATATCATTATTTATAGATGAATCTAATTTTTCGGCATCAAACATAACAATTTTAATATTTGCTGTTTTAGCAGAATTAATAGCTCTTTTTATACCTTCTTGCTCTATAATGTCAGTACTTTCTGTTCTTATACCTGCTGTATCTTGCAAAATAATAGGGTAGCCGCCAATGTCTAAATGTCCCTCTATTATATCTCTAGTAGTTCCTGCAATATTTGAGACAATTGCTATATTTCTTTGCATCAAGAAGTTTAATAAACTAGATTTACCTGTATTTGGTGGACCAATAATTGCAAGTTTAAGACCATTATTTAGTAATTCTCCTCGTCTGTTATCATTAAGATAATTAGATATTTCATTTACAATGTTTTTATGAGTGTTATTAACGTCATTAAGTATGCTCTCCGGTATATCTTCATCAGGGAAATCAATATAAGCTTCAAGTAGAGAGATAATCTTTAAAAGCTGATTACGCCACTTATTATATAATTCTTTAAGGCCTCCGTTTGCTTGTCTAACGGCTTGCCTATGCTGCATAATAGTTTCGGCATTAATTAAATCTGCTATTCCCTCTGCTGCTGTTAAATCGAATTTATTATTTAAAAAAGCTCTTTTTGTAAATTCTCCTGCTTCTGCTAAACGAATATCAGCTATATTTAATAATGTATTAATTAGCATTATAGAAATAGCTTTACTTCCGTGCGTATGAATCTCGACTACATCTTCGCCAGTAAAACTATTAGGTAGCTTAAAATAAACAACCATAGCATTGTCAATGAGCTCATTGGTTTCAGGTACAATAATTTGTTGATAATACATTAATCTTGGTTTAAAGTCTTTTCGACCTGTAAGTAATTGCAAAACCTCTAGGCTTTTAGGGCCTGAAATCCTAAAAACCGCTACTCCTGCTTTACCGAATGCGGAGCTTTGTGCAAATATCGTTTCCACTTATTTTCTATGCCTCTTGCTTAAGTTAGATATATAATATAATATAAAATATAATAACTTTATTATTATTCTAGAGAAAATCATGGTATCAAAAACATTAAACTTTAGACGTTTAAATTGTCAAATCCCGAATTATAAAACTAAAATTCTAGAACTAAGCAAGGAACGTGAGTCAAGTCCCATATATATAGATTTTATTCAGAAGTTTTTAAATTATATTCCTATAGATTATGATTTTGAGAATAGGGAAAAGTTATTTCAAAATTTTGCAGATGAAGCATTTAAATTTTTTCAGCAAAGGGTAGACAGAGCAAGAAAAATATCAATAACAAAGTCAGTTATCGAAAATGATCCAGCCATAAATATCTTGATATTATTGGATAATAAGCCACATATTGTTGATGTTATTATATGTTTGCTTAAAAACATGAATTTACAAGCTAAGTTTTTACTACATCCGGTAATAAACTGTATGCGAAATAGTCAAGGAGAATTAGAAAAAATATATGAAAATTCTGTATTGGATGAAAAATCAGAATTGATACTCCATTTAACAATTTTAGGAAATTTTGATGATAAAACTACTCAATTTTTAACTGAGGCTATAAATGAAAGATTAGAAGAGTTACAACAGAGCTATATACATTTACCACAATTGCTTACAAAATTACAAGATTTATCTAAGAATATAATTGATAATGACAAATTCAATTTTGGAGAGGCAAAAGAATTCTTAAATTGGTTACAAAACGATAATTTAGTTTTATTAGGGACTTTTGATTTTGAGGTAAAATCTTTAAAATTAAGCAATGAAATAGGAGTTGCAAAAATATGGCAAGAAGTAAGGGATGAAATTGATGATATTATAAAATGTTCTGCTAATACTTTATATCAAAATCAATTAATAATACTAGGTAAAGTAAATAGTATATCACTTATCCATTCAGATAATTTGATTGACTATATTCTAGTGAAAAAATTTGACTCTTCGGGTGAATATATTTCAGGAAGTATAATTTTCGGTATATATAATGCAAATATGTATTACTATTCAATAAGTAATATTCCAATCTTACGACAAAAGTTTAATTTTGTAATTGAGAAAGCTGGTTTTTCATTATCTGGTTATAATGCTGATAAATTAAGAATTTTAATTGAATCATTACCAAGAGCAGCATTAATACAGATTGATCAAAGTGATTTATATTGTATGTGTTTACATATGCTCTCAAGTATGATGAGTAAGAAACTTAAACTATTTATTCAATATGATTGGTCGAATTCTTTTCTTAATATTATAATTTTTCTACCAAGAGAACGTTTAACTGCCGAAATACACAATATGATAGATTGTTATTTATCGGAAAAATTTGGTAGTAAAATTTTATCCAATTATATAACAGAAGTAGCTGGTAATTTTTCTTATCTTTTTGTAACACTTGAAGCACAGGGTGTACATAAAATAAATTTTGAAGCAGAAATAATACAGCAAGATTTAGATCGTATATCTACACGTTGGAGTGAAGATTTTTATTTTAAACTTTCTAAAAAATTTGGCGAATATCAAGCAGGTATTAATTTAAAGATTTTTGATAATGTTTTTCCACCAGATTATAGACAAAAATTTTCTCCAGAAATAGCTTTAATAGATATTGAATATTTAAAGAACGCAAGCGAGTCACAAGCCTGTATGTTTAATTTAGTTTCTGTGAATGAAACAGAATTTTACTTAAAAATATATAGTCCAAAAGTAAAACTTGCACTTTCTAATATATTACCGTCAATAGAAAATTTAGGTTTTAAGGCGATTGATGAACAAACTTTTGCAATTAAAGAGGCAATGGAAATCAAAGAAAGTTGGATATATAATTTTATTTTAACTTCTATTGTACCGGTCAAAGATAATATTTCCGCATTAAAAATAAATGTTGAAGAAGCTTTAGACCAAATGGCACTTGGTATGCTTGCTAATGATTCTTTAAGTAAATTAATAGTGCTTGCAGGTTTTAATTGGAAGCAAGTTAAACTTATTAAAGCTTTAACAAGATATTTACATCAAACAGGATTTAGTTACGGTAAAGGTTATGTACAGTTAACATTACTAAAACATCCAGAATATACAAAAATGTTGGTAAATCTATTTGATATAAAATTTAATCCTAAACATCCAGATAACAATTATGATGCAATTCAAGATAAACTAAATAATTACTTAGTAACCGTTGAAATGAGTAGTGAAGATAAAGTACTACGTAGTATGCTCGGTATAGTTAATGCTATTACTCGCACAAATTATTATCAACCACATAAACATATTTTTTCATTTAAATTTGATTCTTCAAAAGTACCGAATTTACCTAAGCCGATTCCATTTGCTGAAGTATTTGTTTATTCTAGAAATTTTGAAGCTATTCATTTAAGAGGTGGACCAGTGTCACGTGGAGGACTACGATGGTCAGATAGAGCTGAAGATTATAGATTTGAGATTCTTGGACTGATGAAAGCACAAATGACTAAGAATTCAGTTATTGTACCTGTTGGATCTAAAGGCGGTTTTTATGTTAATTTTACTGAGGAAGGACTTACTCGTGATGAATATATGGAAAAAGTGGTAGAATGCTATAAGAATTTTCTTAGAGGTTTATTAGATATAACTGATAATATCATTGACGGTAAAGTAGTACATCCTAAAGATATGATTATTTATGATACACAAGATCCTTATTTAGTAGTTGCTGCTGATAAAGGTACAGCATCATTTTCAGATTATGCTAATAGCGTCGCAAAAGAATATAATTATTGGCTTGATGATGCTTTTGCTTCCGGTGGTTCTGCAGGTTACGATCATAAAAAAATGGCTATTACTTCTAAAGGAGCTTGGATTTCTGTAACTAATCACTTTAAAACCTTAGGTTTAGATGTCCAAAAAGACAATATTACTGTCGTAGGTATAGGAGATATGTCAGGTGACGTATTTGGTAATGGTATGCTAAGATCAAAGGCTATTAAGTTAGTTGCGGCCTTTAATCATAAACATATATTTATTGATCCTAATCCTAATCCTTTATTAAGTTTTAATGAGCGTTTACGTTTATTTAATTTAAATGGGTCTAATTGGTCCGATTATGATTCTACGCTTATTTCTAAAGGTGGAAATGTATTTGAACGTAGTAGTAAATTACTAAAATTATCACCAGAAATTAAAGAGTTACTTGATATAAATGCTAATGAGATGTCACCGGAAGAATTAATTAGAGCTATTTTAAAAGCCGATGTTGATTTACTGTGGAATGGAGGCATAGGTACTTATATTAAGGCTAAAACAGAAAATAATTTGGAAATCGGTGATAAAGCAAATGATAATCTTAGATGTAATGGTGAGGAAATTAGAGCAAAGGTTATAGCAGAAGGTGGTAACGTTGGTGTATCACAGAGAGGTAGAGTTGAATATGCTAAAAAAGGTGGGCGCATAAATGCTGATTTTATTGATAATTCAGCAGGTGTTGATTGTTCTGATCATGAGGTAAATATCAAGATTGCTTTAAGTAGCGCTGTAACATCAGGAAAAATTACCTTAGAAGAACGTAATAAACTTTTAATTGATATGACAAAGCAAGTTGAAGAGTTAGTATTACTTGATAATTATAAGCAAACCGAAGCAATAACGATTATGCAACTATCTCCTACTTTAACTGTTAATATACTTAGTCAATTTATAGATATTTTAGAAGAAGAAAAAGTATTAGAGCGAGATAATGAATTCTTACCTAGTGTAGAAGAATTGAATAGAAGAGCTACTAGTGGTGAAGTATTGACTCGTCCTGAGCTTTGTGTATTGCTCTCGTACAGTAAGAGAGCTGCTTATCATGAGTTAATTAATTCTACTTTTTTCCATGATAAATATTTTGATGCATACCTTATAGATTATTTCCCGAAAATGATGCAAAAAAAGTTTCGTAATGAAATTTTATCTCATCCTCTTAAATATGAGATTATTAAAACCGTTACCATAAATAAAATAATTAATCAGCTAGGAGGGCCGCTTATTAGTATTGTCAAGCTTGAGATTGGTGCTCCTCTTTGTGATATAATAAGATCATATACAATTATTTGTGAAATTTTTGCTCTCGATGATATATGGGAAACTATAAGTAATCTATCTACTCATGTAGATTACAATGTAAAAATTGATATGTTTACTGAAGTAACAAAATTAATGCGTAGGGGTATTTCATGGTTTATTAAAAATTCAAAACATCCTATTAATATTAGTGAAACTATAGAAGAGTTTAGAGGCCCTGCACAAAACTTAAGAAAAATGATAAGTACTTTATTAGTCGGCGAAGCTAAAGTAAGATTTGCAGAAAAATTAAATTATTATACAACTAGCGGTGTAGAGGAATCATTTGCTGCTACTATTGCTACATTCGACAATTTAATTTCAGTATTTGACATTATATATGTAACAAAAGAGACTGACGGCAATAATACTAAGATAGCAAAAGCTTATTTTGATATAAGCAATATGTTTAGTCTTGATTGGTTACGTAAAGTTTGTGATAAGCAATTAAATGATTCATTTTGGCGCCGTCTCGGTCTTCAATCGCTAAAAGATGATTTATATGACAAACAACGTAGATTATTAATAAAAATAATTAATAAATCTAAAACAACTATTGATTTAAATTTATGGATTGATAATAATAATAACTTAGTTAGCAATTTTCTTGATTTTATTAAAGAAATAAAAGCTCAAGAAACTATAGACTTAAATATAATTATTTTAGCAAATAAGAAATTTGAAATTTTCTTACAAAAACTTGAGTAAATTATGTCATCAATGCTTAAGCAAATTAGATTAGATGCCGGTAAAAGTTTAAATCAGGTATCTAGTGATTTAAAAATTAGTAAAAAATATTTAGTAGCTTTAGAAGAGGGTGATTTTGATGTTTTACCTGGTGAAGTATATGTGAGAGGTTACTTAAAATTATATTTAGATTATCTCAATGTGAAAGATCGCAATACAGCGCAGATAGAAGCAACAAAACAGAATGAATCTGAAAAATTATTAATTAATAAAAGAGCTACGGCATTGATAAATTATAAACGTAAAAAACAATTAGTACTTATATCGATTATGATGTTATCAATTATTATTGTAAGTCATCAATTCATAATTAATGTAACTAATTAATCTTAAGCAAAAATGGATAATAAAATATTAAAGAGATTAATGGAAGAAGTTGAGCATAAACTTGATGAATTATTGCAGGCGCAAACGCATAATCACAATGAAGTAAAAAAATTACAAAACGAAAATAAAAAATTAAAAGATAATTATATCAAAATCTTAGATCAAATTAAAATTTATATTAATGAACTTGAAGAAATAAAGAAACAGCAAAAATAATTATGCCAATTGTTACGGTAACATTAAATAATAAGAGTTTCCAATTATATTGTAATAATGGTGATGAAGAAAAAGTACTATCTTTAGCAGATAAATTGAATGATAAAATAGCAGAAATTAAACTTAGTAGTCCGACAGCCTCTTTTGATCTACTATTAGTTATGGCCTCTCTTAATGCTCAAGCTGAAATCGCTATCCTCACAGAAAAGCTTTATAAAAATGGCTTTCAGAATAATAATCACGAAGAAGAAAAATTTGCAGAAACCCTAACTACTATAGCAAGTTATCTAGAAAACCTTGCACGTAAAATGGAAAAGTGATATATTAGCTCTTGGCTGCTTGGTGCGTGAGCTTAATATTAACCTAGGACTACCACTAACTTTTAGGACATCGTCTCTGTCTAATACTCATTCAGTTTAGATATATGAAGTCCACCTTTACATCAAGGTCTTTGAAGGATTTTAAGTAACGGCCAAAGCGGTCATGTATACTCGTTGGATTTGGAAAAGAGTAAGGCGTCTTGCAGCTTATAACAGAAGCGTAAATACTAGTGCGTGAGTATTATAAGCTGCAAGACGCCTTACTCTTTTCCAAATCCAACTATGTCTATCTACTTTTCGTTTACTCACAATATATTTAAAATGAAACAAATAAAATCAAGAAATAAAGTTCTCGGTGCGTTTTTAGGCACTATCATTGAATATTATGACTATAGTTTATATGGTTTTTCAGCAGCAATTATTGCTGATAAATTCTTTTCAGCTTGTACTGATCCGTTAACAAAACTTGTAAATGTTTTTGCTGTTTATGCAGCAGCATATTTATCTAAGCCTATGGGGTCTTATGTTTTTGGACATATAGGTGATATATATGGTCGTAAAAAAGCGTTAAGTTTTACTGTAGTAGGTATTGTGATCCCTACTTTAATAATTGGTTTATTGCCTGATTATTCTTTGATAGGAGTTTGGAGTACAATAATTTTAGTTTTATGTCGCTTTATGCAAGGTATTTTTATTGGAGGGGAATATGATGGTGCAGCGATTTATGTTATTGAACATTTAGGTACAAAATACAGGTTTACTGCCTCAGCAATAACTAGATGTACTGGAGTAATGGGATTATTATGTGGAATCGCTGCAACTAATTTCTTTAATTCTCATATTTTTCCGGAGTGGAGTTGGCGTATTCCATTTTTGCTAAGTGTACCACTTGCATTAATCACTCTTTATTATCGTAGGAAATTTGATGAAACACCAGAATTTAAAAAAGCTAATTATAGTAATGATTCTATTGAAAAAATGAGTGCTATAATTAAAAAGCAATGGACAAATATTGTACGGTTAATATTTTTAGCAGGAGGTTTTGGAGCAACATATCAAATTGCGATCATTTTTATGAAGCAATATTTACCGATCGTATTACCTTCAGTTGCTATTATTATGAGTTCTTTTTCAGTGTTAATAGTAATATGTTTTGCTGTTTGCATGCCGATTGCTGGCCTTATTGCTGACCGATTAGGGGTGAATTTAGTATTAAAAATTGCATTTATATGTACTATTACAGCAAGTGTATTTTTTGTGATAGCAGTCAAATATCAAATGACTAATTTAGGTCTTGCAGTTAGTTTAATGTTAGCTGGATCAGTTGCGCCTTTTAATGCTCTAGCACATAGTATAGTTATTAAGTCTTTTGTAGTTAAAGAACGCTATCGTGTTATAAGTTTAGGACATAATATCGGTTCAATGTTAATGTCCGGTACTGCTAATTATATTTGTGCAAAGGTAATAAAATCGTTTGATTTTAACCTATTTCCAATTTTGTATCTTTGTATGTTTACGGTACTTGCTTATGCTATAAATATATTATTTAGTAAGAATGATTAAGAAAAACTTTTGTTTTTAATCAGTTATTTGAATTGTTTAGAGAACGTAATGCAATCAAAAAAATAATAAAAAATCTCAAAATTAGAATTTTTAATTAGATTGTTATGTACAATTTGTAGTTGCATATCTCAATAATGTGTTGATATCACACAATAATATCTCCTCAAAATGATGTGCACTTTAAAAGCATTTCAGTATTTTGGTTTAAATTATATGGATAATAAAAACTATTTTTCATTAATATTATTGTTTTTATAGTGTTTCATATTGCTAAAATAGTGTAAAGCTATATTAGCTAATTGAAATATGTATCACAACTAGTATAGAATTTTTAGAAAATAAACCTAAATGAGTAAATACATCTCCTTTATGATTCATTTGTAAAATATCTATCAGATAAATCCATGTTTTTTCTGTTCAAAAGAATATAGTGGTAATTCGAGTAATTATAAAAATCTCTATAATATTCACAAATATTCTTCTAGCTCATGAATGTTTGTCAGAGGTGCTAAATAAAATTCTATAGTGTCATTTAAAAACTTGATACAAGAGCATTTTGTGCGCTAAGACTTGCTGTATACTATACTCAGGCTTTATTCATTTTGTATGAAGTATCCAGAATTTAGATGTATTTCTTTATATACTTATCTCATATTTAATTGTCCTGATATCTAAGTGGTATTAATATTTATTTTAGATAAAACGATAAAATTAATATCAGGCTTTATGAATTTTTGTGGTTTTGCTATAAAAATACTAATATACTCCAACAATACTCGCTCGTTTAATTTTAACTTACATTATAAAGGTTACATGTCGTTATATATTATAACTCTAAGCTTAGAGCAATCATGCACTGTGATCTTTTGTCGTTAATCATTTGCAGTAAGTGATAGTTAAGTGTGAAAGTTATTTTGGTCGTTTTGTAATTAATTTTTATCAAAAGTCAGGGTTTAATTTTAGAATCAATATTCTATTCTTATTTAGATAGATCTTGCATCTGGTTTATGAGATCGTTTAATTGGTTTAGTATAAGATTTTGTTTCTTTAGTTGTTGGTTTATTTATAAATTGTTGAGTTTTTTCTCCTATTAACATTGCTTCTTGAAGTATATCTTTTGGTATCTTAGATGTAGATGAAGATATTTTTGAAGTTTGTTTTATTTCTAAAGTCATCTTGTGTTCTTTATTTATCTCCCTTCCTATTAATTTGTCTAGTGGTACATTTTTATAATCGGCAAGAGCGACAATCGCTCCCATATCAGGCATTTTTGTACGCCCATCTAGAAAATTTTTCCATGCTGTTTCATGTGTGCCTGTTTTCTCACTTAACTGATACGGGGTTATATTATCTGTTTCTAATATATTAAGTACAAATTTTTTAAAATTATTTCTCATTTCTTCTGGATTATCTTTATTTGTTACTGATGTATCGTTAATCCTATTACTTTCTGTTGACCTCATATCTTCACGCATTAATTTCCCCTTGTAAAATTTATTCCTAAAATTGATAGTAAAAAGAATTTCTAAATGATGGAATTTACTCTTTTTAAGAGGTTATCTATGAAATTATTTTATAATTAAAGTTTGTATAGCAAGAAAGAATAAGATTATACACTTCTATAGCAAGACTATCTTGCCATTATCATATAACAACAATAAAAAAATTTTTATAGATATCCTATAGATTTATTTATTAATATATAACGAATCAATATTAAATAGAAGATAAAATGTAATGCAATAATAAATTTAAGTGAATAAGTATTTAGGTTTATATATGACATTATATTATAAGTTATAAAACTTTCTGAAATAGACTATCATGTCTTTTCAAAATCTTTATAATTCTAAAAATAATCATTAATTAAAAATGTACAAAACCTAAGATATTTTAAAAAGATTATATAAATTAAAAATTGTTTTTTCTACATCTTTATCATTTATTAATAATGTAATTTTAACTTCTGATAACTGCATCATGTGAACATTTATATTATCTTGTGTTAACTGTGATAATATCATGGTAAGTAATTTGCAATCATTTTTAATTCCATAACCAATAAGAGAGATTGTCGCAATTTCGGTATCAAAAGTAAAATCTTGTATCTGCTTATTATTTTTGCACTTAGTAAGTAAAGTTTGTAAATTATTTTTATCAGTTAAATTCGTAATAAAATTATATTCTATATTATTTTCTATCTCTTGCATAAATTCAATACAATTATTATTATATGTAATCATATTTGCAACTTGCAAAAAACTTAAAGAAATACTATTTACAGATACTTTTAATAAATTTTTATTAGAAGTAATGCAACGAACAACACAATTTTCCATATTATACCTGTTTTGTAATGCTAATTCTATGGGTAATTTATATGTTGATCCACTAGCATCCTCAGGTATGTCTATTTTAGTGCTGTGTTTCGTATTTAGTGCAGATTCTTCCATATACGTGGATTTTACAAGAGGTATTGTATCCTTTGAAGTAATTAAAGTACCTTCTGTATTTGGTGAAAATGTTGAAAGAACGCGCATATCTATTTTATAGCGCATTACTAATTCTACTGCTCTAGGGTGTAATACTTTTGCTCCACTTGATGCTAGCTCTAACATTTCTAAAAAATCTATTTCTTTTATCCTCTTTGCATTTGGGATAATTCTTGGGTCTGCAGTAAATATTCCATCTACATCAGTATAAATATCACATCTATCAGCTTTCATAGCTGCAGCAATTAAGGCAGCAGTAGTATCGGATCCTCCTCTGCCTAAAGTAGTTACCCTATTTGATTTGTTAATTCCTTGAAAACCGGCTATTATAGGTATGATCTTTAGTTGTAAATATTTTTCTAGTAAATCTGTAGTAATGAATTCTACTAAAGCTTTACTATAATTGTTATTGGTGCGAATCGGTAATTGCCAAGCAAGTAATGATTGAGCCTTGATTTCTTCTTCTTGAAGAGCGAGTGCTAGTAATGAAGCAGTCACTATTTCACCGCTAGAAAGTGCTACATCATATTCTGCAAATTGAGACCTTTTGTTAAGGCTTGATACTTCATTACATAATGTAACAAGTTGATTAGTAACTCCAGCCATAGCTGAAACTACTACAATTACTTGGTTGTTTTTAGCTATTTCGGCTTTGATAATAGGAACGAGTTTTTTTATTCGCTCAACATTTGCAACGGATGTACCACCGAACTTTTGAATTATTAAGGCCATAGCTTATAATAGTAAGCCTAATAGAACATTCACCATTAATTGCTTTTTGTTCTTATCTAGCTTACTTACAGATATTATTGTGTGGAATTGCGTTCAACTACCATTCAATGATTTGAATGTTGGACTAGCTTTTCAATAAATATTTTTATCAACCACATAGCAATATGCATCATAATTTTGAAAAACACAAGATAATACCATGCAAAACATTTTGTGCTATGTAATATAGTATATGATTAAAGTGCAATACTTAAACATTTGCAATTTCTTTAACATTGACTATTTTATGACTCTGCTTAGTTAAAAACTCTACTCTACCTTCTATTAAAGAAAATATTGTATGATCTTTGCCAAGCCCTACATTTATGCCTGGGTGAATTTTTGTGCCGCGTTGTCTAACGATAATATTACCAGGTATTACATATTGTCCATCAGATTTTTTCACGCCTAGCCTTCGGCCAGCTGAATCTCTCCCGTTCCTGGAACTACCACCAGCTTTTTTGGTTGCCATCTTATAATTCCTTTTAAGTTATTATTATTGTTTAGTAATATCTAATATTTTTAATTCTGTTAATTCTTGACGGTGACCAGCTTTACGACGATAATTTTTTCTACGCTTTTTCTTAAAGGCTATAATTTTATTATCTTTCAGTTGGTTAGTAATTTCAGCCGTAACGATAGCACCTTTAACTATTGGAGTACCAATAAAAGAAGGTTTTGAATATTCTCCAATCATTAAAATTTGATCAAATTGAATTTTAGAACCAAGCTCTCCATCAATTTTTTCGACTTTAATAACACTATTTCTATCTACTTTATATTGCTTTCCACCTGCTTTTATAACTGCGAACATGAAAATTATCTCTTTAAAAATTTATAAATATTTATCGTATAATATTATTATACTAGAAATTAGTCAATGATCTTTTTAATAGACTTCTTGAATAACTTAATTTCTAAGGATGATATTTGATACAGCGTTCATGTTCTGTAGGGGTGTACTATTTTTATTCTTAAATCTCTGCTATTAGTTGTATTATTTAAGAATTCTAAAGTCTATTATCGATATCTATTAATACAAATATGATTGCGTATTGAGTTATCGCAGCAAATATTGCAGCAAGTAAATCATCAAGCATAATACCAATACTTCCCTTAATATTTTTATCAAACCAATTAATAGGCCAGGGTTTTACTATATCAAAAAATCGGAATAGACAAAAAGGTAATATAAAAAGTAATATAATATTTCTTGTTAATTGGCTATAATATTTCATTAAATGTGATTCATTAGCAAATAAAGCAGAAAAAAATACTAAAACAATAGTTAGCATTTGTCCTACTACTTCATCAATTACTACTTCTTTGGGATCTTGTAAATTTGTATAATTTAAATATATTTTAGTAAAATAAATACCAAACATTAAGAATATCAAACATATAATAAAGTTTATAATAAATATACTGACAAGTTGAGCTTCGCCAAGAGTAAGATTTGAGAAAGGAATAATTATTTTGTGATGAACAACAAAATATATTAAACTGTAAGTTACAGGAAAAGCAGCAATCGAACCAAAAGTGCCTGGACAATATTTTATTTTTCCTATGTAATAAAAAGTAGTAAAAAATTCTGAAAATTGTTTTTTAGTAAACATTTTTTAATTATTTTATTCTAGATTAGAGCTATAATATCTTATATAATAAAATTTTAACTTATACAGTAAAAATATATATTATGGGAATGAGCTTTAGCCATTTATTAATAGTTTTATTAATTATTTTTGTATTATTCGGTGCAGGTAAATTACCGCAAGTTATGTCTGATCTTGCAAAAGGTCTTAAAGCCTTCAAAGAAGGTATGAAAGATGATGGCAATGATAACGATAAAACGAATAATTAATTTTTAATATATCTCTTAATGACATACTAATGATACTGAATGTATTGTCTAGTCGATGTGGGCATAACATACAGGTAAAGCGTTAATCCTCTGTAATAGTAAAATATACGCCATTCTCTTTCCTAATAATATCATATCGTCTCTGAGCCACTCCATCAATGAAATGAATATTACCTGATAAACCTATATAAGGTTGTCTACTGTGCATTCTATTTAAAAATATTTCAGATACAAATTCATTGCCTATATAGTTTGCAGTCATCCGTCCTAAATCATAAGCAATAAGATGCATAAAACCCATATGGTTAATACCTAAGTCTTTTGCTCTATCTTGGACGTTGCTATTGAATAAATTTAAAGTACTGGTAAAGCTAATATCGATATTTTCAGAGTAATCAACATCAATACGATTATCACCTATTAAAATAGCTTTTTTATCTAAATTATATTTACGAATACTATCTGCTAGCAGGTTTAAATTTTTTGGATCATCGGATAAATAAATAACTGGTTTTGTTGTATCGCTCCGTTCATTTATAATATCCGCATTGTTTGAAATATTTCTTACAGCTTTTTCTATAGCTTCAGGATTATCCTCATAAAATTCAGTGTGTGATAATGATGAATTTTTTTGAATTAATATATTTTGCATTACTTGACTAATGGTTTGTGAATACTTTCCTTGAGGTAATAATGCCATAAAATCTTTATGGTGGTCACCATAATAATTGATTATGCGTATAAGTTGTTTCAAGGGAGCATGACCAAATACAAATAGCTTATCTTCTGCAAGCGCAGGATTATTTGACATAGTTATTATAATAATATCATTAGCTTTTGCTTTTTCAGTGATTAAAGACGTAAAGTTAGAATATAGAGGACCAAGGATAATCTTGGTTTTACGGGCTACTATTTTATCCATAGCAGCTAAAACATTTTGCTCATCTGAGCCGTCATAAGACGTAACATGTATATAAGATTTTACTGCATCGTTAAGTCCCATTTTAATAAGATCTTTATATTGTTTACCTACAACAGCATCAGGCCCTTGATTTGGCATTAAAATTGCTATCTCAATTTCTTTTTGTTCTTTTTTATGAATAGTAATCTCACCTTCATTATGGATTTGACAGGACGTTAAATATAACAAACTAAAAAATGATAGAAATATTAATAGTTTATGTTTTATATTAGCCATAAAATTACTTTTTGAAAAAAATTATGATTTTAAAATCTGGATTATATATTGTTTCAACACCGATAGGTAACTTTGAAGATATAACACTTCGTGCTATCTCAACTTTAAAAAATTCAGATATTATCTTATGCGAGGATACTAGAATATCACAAAAATTGCTAGCAAAACATTATATTCATACTAAATTACAAATTTATAATGATCATAGTGATTATAAAGATAGGGAATATATTATAAGTCTTATAAAAGCAGGTAATGTAGTAAGCTTAATTTCTGATGCAGGCACTCCTTTAATTTCTGATCCTGGTTATAAATTAGTTAGAGATTTGCGTAATCTTAACTATTATATAGAAGTAGTACCGGGAGTATCATCACCGATTACTGCCTTAACTTTATCTTCACTTCCTACAGATCGATTTTTATTTTCCGGGTTTTTACCTAAAACTATAGAAAGTAAGAAAAAGATTTTTGCTGAACTAGTAAATCTCAAGGCTACTTTGATTTTCTTTGATACAGCCTCTCGTTTGATAAACACGTTATTGTTAGCTAAAGAAATATTTGGCAATCGAGAAATATGTGTAGCTCGTGAGTTAACTAAAATATATCAAGAAACCAAAACAGGTGATATAGATGAAATAATAGAGTTTTATAAAAATAATATTTTAAAAGGTGAGATAGTATTGTTGATTTCAGGCAATGTACAAGTACAAAATAAACAAATAAATTTAGAAAAATTTATAGAATTTTGCTTAAGTAAAAACTTAAGTAGCAAAACCATTATAGAACTTGCTTATGATAAATTCAAAGATGTGTATAGTAAAAAAGAGATATATAGTGTAGTACATAAGAAAAAATTTACAGCTTAAAATGATAAGTTTTTGACAAAACATTTTGTAACATATGAACTTATCACTATACACTCATATTACACTTACTCTGAAATTTAGTATTAGCGCTCCTTTCTATTATAAATTTATAGCAAAAATTAATACGAGAGTTTAAAGCAACTTTAATAAGAGAATAAATATTTATTACTCTCAATTGTAAATATTTAAGTTATACTGATCAAGTGGTAGAAGTAATTATATCCTATAAAAAGAATTTTAAAATCGATAAACTATCTATATTTGATATAAAAAGCAAAAGTGAAAATTGTGGTAGGCATAATATAATATTTGAAATCTTAGTAACTGATGCAGCGTGTTACGGAAAAGATCTTTGTATTTTAAAATGTGTATATTGAGTAATTATAAGAAATATACATATTTGATTTTACAGTATTACAGATGATACTAAAAACATAAACATAAAAAGTGTTTGAGGTGATAAATTAAAATACATGTAGTAAAGAGAGAAATATAAAAAGCATTTATAGTATCTGATTGAAGAAGGAACAAGCAAAAGGAAAACAGAAAGTGATAAGTGATTAAAAAATAAAAGGTCGTTTGTGATATATAGTGAAGCTGAACAGATGTAACCTTTTAGGTTTATTTTTTGATGAATATTCAAGTTTTTATATTAAATTCTGCTTGTGATAATCGCCTTACATTATTATAAGGTCTTCTTAAGAATGTTATTACCAACTTGAGATTTTATAGTAAGCAAAAAGTTTTTAACTTGAAAATGTATTGATATAATATTCACAATATTCTTTAATAGGGCAGATGTTACAACCAGGTTTTCTAGCTTTACAAATATATCTTCCATGTAGAATTAACCAGTGATGTGCATATGTTAGCCATTTCTCGTCGATAATTTGTAACAGCTCTTTTTCTACTATTGCAGCAGTATTGCCTTTCGCGAGTCCAATCCTTTTGGATACTCTAAAAACATGTGTATCAACTGCCATTGTAGGCATAGCAAATAGGCAATTTAGTACAACGTTCGCAGTTTTCCTTCCAACACCTGGTAGTTTAACTAATTCCTTAAAATTATTTGGTATTGAAGTTTGATAATTTTTTATCAATATTTGACATAATGCGATAATATTTTTTGCTTTGCTATTAAATAACCCTATAGATTTTATATATTTTTTAAGCCCTTCTTCACCTAGTTCTAAAAATTTTTCTGGTGTATTATAAGTTTCAAATAAGTGTTTAGTCGCTAAATTTACTGATATATCGGTCGCGCGCGCCGATAATATTACCGCAACTAATAAGGTGAAGTCATTCTTATATATTAATTCAGTTTGTGGCTTTGGATTATTTTTGCTAAAAATCTCAAAAATTTTATTCATTATTTGTGCTTGCATATATTGCTATAGAAAGTGTATTTTAGAAAATAATATTTATATCAGGTTTTGAATGACTAAAAATAAAAATTTAGAATTTATACAAAATGCAATAAAAAAGAACAAAGTAGTATTGTTCATGAAAGGTACTAAGGAAATGCCTGCATGTGGGTTCTCAGGTACTGTAGTAGCTATTTTGAATAAATTAGGGGTAGAATTTAGTGATATTAATGTACTTTTTGATACTGCATTACGTGAAGATTTAAAAAAATTTAGCGACTGGCCTACATTTCCACAGTTATATATCAATGGTGTATTAGTAGGTGGGTGCGATATTGCTAAAGAGTTATACCAAAATGGTGAACTTGAGAAGATGCTTAAGGATGTAGTCGTTTAGTAAGTGCTACAGTATAGGCTCTTTGTTTTGTTTGCTATTGCTATTCATTTAATATACTCAACTTTAATATTAAAGTAATAAACATATGAAATAAAGTAAACCATGAACAAATATTTAGAATATCCAGAAGTAGAAAGTAAAGAGCTACCACCGCAGAAACTAGTAGTATTACTACACGGTGTTGGCTCAGATGGACACGATCTAATAGGACTTGTGCCTTATATAAAAAATGATTTACCAAATTGTCATTTTATTTCTCCGCATGGTATTGAGGATTACGATATGATGCCTTATGGTAGACAATGGTTCAGTTTGCGAGATCGTAGCCCTCATATTATAGCAAAGCTCATTGCAAATAATATTTCTAAACTTGAGGATATAATAAGAGAAAAACAGACAGAGTTAAATCTGACTAACAAAGATACTGTAATTATAGGGTTTTCTCAAGGTACTATTATTGGTTTATATTTAACTCTAATTCAACAAAAGCCGTTATTTTGTACTATAGGTTTTTCTGGTGCATTAATTCCACCTATGAAAGTTAATAATAAGCTTACTCCTATATGTTTGATTCATGGGGAATTAGACCAAGTTATCAATGTTAGTGAGATGTATAATGCGTCAAACTATTTATCTAAGTTAAATATAGAGCATAGTGGGCATAAATTAACTTCTCTTGCTCACTCAATAGATGGACGAGGGCTTGAAATTGCGATTAATTTTATCAATACATGTCATAATATTGTTTGATCACGGTATCTAGTCGTTTATTTTTCTTTGTACTGTAGTAACACATATACAGATAAATACTAAAAACATATGAGGATGCATGAATATTTTAAATAATAATTTATATGAAATGGATAAAGAAATTTATGAAATAATCAAGAATGAGAAGATTCGTCAAAATAATGTAATTGAGCTTATTGCATCAGAGAATTTTGTAAGTTCTGCTGTATTGGAAGCTCAAGGCTCGATTCTGACTAATAAATATGCGGAAGGGTATCCCAGTAAGCGTTTCTATAATGGTTGTGATGAAGTTGATAAAGCTGAAGTCTTGGCTATAGAGCGGATAAAGAAATTATTTAACTGTAAATATGCCAATGTGCAACCTCATTCAGGCTCGCAAGCAAACCAAACTGTGTATCTTGCTTTATTACAACCGTGTGATACAATTCTTGGTATGTCCTTAGATAGCGGTGGACATCTAACACATGGTGCGGCCCCTAATATATCTGGTAAATGGTTTAACACTGTTTCATATCATGTAGATCAAGAAACTTATTTAATTGATTATGATGAGGTTGAACGCTTAGCTGTGTTACATAATCCAAAATTGCTTATAGCAGGTTTTTCTGCATATCCGCGTAAGATTGATTTTGCAAAATTTAGAAAAATAGCAGATAAAGTTGGAGCATATCTTATGGCAGATATTGCTCATATTGCAGGGCTTGTTGCCACAGGTGAGCATCAAAGTCCTATTCCATATGCGCACGTAGTAACCTCTACAACTCATAAAACGCTTAGAGGGCCAAGGGGTGGCTTAATCTTATCTGATGATGAAGAGATAGGTAAAAAAATAAATTCTGCATTATTCCCAGGGTTGCAGGGTGGCCCGTTAATGCATATAATTGCTGCAAAAGCAGTAGCGTTTTTAGAAAATTTGCAGCCTGAATATAAAAATTATATAAAGCAGGTAATAAGTAACGCTAAAGCTTTAGCAATTAGCTTACAAGAAAGAGGTTATGATATATTAACAGGTGGTACTGACAATCATATTGTTTTAGTGGATTTGCGTAAAGACGGGATCACAGGTAAGTGTGCTGCAAATTCTTTAGATAGAGCAGGGATTACGTGTAATAAGAATGCTATTCCGTTTGATACAACTTCGCCTTTTATCACTTCTGGTATTCGTTTTGGTACTCCTGCATGTACTACTAAAGGCTTTAAAGAAAAGGATTTTGTATTAATTGGTCATATGGTAGCAGAGATTTTAGATGGCTTAAAGCATAATGAAGATAATAGTAAAACTGAACAGAAAGTATTAAGTGAAGTAAAAAAGCTAATGAAATTATTTCCGTTTTATGACTAATTTAAACAAAAGACCAGATTGGATCAAAGTAAAAGCTCCTAATTCTGTAGAGTATTATCAGACAAAAGATTTAATAAAGAATTTGAGATTAAATACTGTGTGTGAAGAAGCGGCTTGTCCTAATATTGGCGATTGTTGGTCGAGGAAACATGCAACTGTGATGATCTTAGGTGCGGTTTGTACTAGAGCTTGTAGATTTTGTAATGTTAAAACAGGTAGACCGGATTTACTTGATCCACACGAACCGCGAAGGTTAGCAGAAGCAGTGCAAAAGTTAAATCTGCAGCATGTAGTCATTACTTCTGTTGATCGTGATGATCTTGAAGATGGTGGAGCTTCACATTTTGCTGAGTGTATTAATGAAATTAGAAGGTCATCACCAAATACTACTATAGAGATTCTTACACCTGATTTTTTAAGAAAAGAAGGAGCAGTCGAAATAATAGCAAATGCAAAGCCTGATGTATTTAATCATAATGTCGAAACAGTACCATCTTTATATAAAACGATTAGACCTGGAGCTAGATATTATAATTCTTTAAGCTTACTTCACAATATCAAAAAATTATCTCCTGAAATTTTTACAAAATCTGGTATGATGGTAGGGCTTGGTGAAGAAATAAATGAAGTAGTGCAGGTTATGGATGATTTAAGAGAAGCAAATGTTGATTTTTTAACTATTGGGCAGTATCTGCAACCTACTAAAAGTCATGCTGAGATTAGAAAATATGTTACCCCTGAAGAATTTAAATACTTAGAGCGAATAGCAAAAACAAAAGGTTTCTTAATGGTTTCTGCAACTCCATTAACACGTTCTTCATACCATGCAGATAAGGATTTTCAAAAATTAAAAGGGAATTATAATATAAGACTTGCATCAATGTAATATGATTAGATGTGTTAAAGTAACATACCGTGATCAGATCTCGGTATTCACAAAATAATTCAAATGATACCGAGATCGCGTCGCGGTATGAAAACTAGTACCATGATAAACGTAGAAATTATAAGAAACTACAATAAATGGCGTGAGCATCGTAAAATAAATAAGGGCTTAATCAAAAAAATAACTCAAAATGTTTTAGTACGATTTGATAATTTTAGTAAAATAAAACAATTTGAATTATCAATTTTACTCACAAATACTGCAGAAATATTGACCTTAAATCAACAATTTCGTAGTATAGAAAAAGCTACTAATGTTCTTTCTTTCCCAAATAACGAATTAAATTGGCATAATTTATATTCTAAACTTGAATTTTTATATTACTCTGATTATATGCATTTAGGTGATATAGCATTTTGTTATGAGGTAATATATAATGAATCGTGCGAGCAACAAAAAACTTTTGAGAATCATTTTATTCATATGTTAATACATAGTATTTTACACTTAATTGGATTTGATCATCAAAATGATACAGATGCAAATATTATGGAAAGTTTAGAAATTGAAATATTATCATATTTCGGTATTCCTTCTCCTTATTAACTAAATTAAAAAATTTATGTTAAAATCTTCAAAGCACGAAGATTCTAGTAGTAAAAAAAATCAAAATAATAAATTAATTTTTATTGTACGACAATTATTCTATCTGATAAAACATTTTTTTAGCAAAACCAAAACGCCTGATAAATTTTTTGGTATTATAAAGCGTCTTAAAATTAATAGCCAAAAAATGTCTTTAGACGAGTTTAATATTTTAGCTAATTTATTGAAGCTGGAAGATAAAATTGTTGAAGATATCATGGTACCGCGTTCCGATATTATTGCAATAAAATTAACTACGAATCTAGAAGAATTAAGTGAGTCTATTAAGATAGCAGTCCCACATACACGCACACTTATATATGACGGTACTTTGGACAATGTAGTAGGATTCATTCATATAAAGGATTTATTTAAAGCATTGGCTACAAAGCAAAATAGTCCTTTAAAAAGACTTATACGTAAACATATAATTGCAGCTCCTTCTATGAAATTATTGGATTTGTTGGCAAAAATGCGTCGTGAGAGAACACATATTGCAATAGTTGTGGATGAGTATGGTGGTACTGATGGTTTAGTTACTATTGAAGATCTAATAGAAGAAATAGTAGGGCGAATAGATGATGAACATGATCAGCAGTTAGATAGCGCTAATTTTAAAGTTATTAATAATTCAACAATTATTGCGAATGCACGTATTGAAGTAGAATTGCTTGAAGAAATAATAGGTGAAAAGCTAAAAAATGATGATGATGAGTTTGATACAATAGGTGGACTCGTCTTGACTAGGGTCAGTAGTGTTCCAGCTATCGGTACTAGAATAGATATTTCAGAAAATATTGAAATTGAAGTAACAGATGCAACTCCTCGTTCTTTAAAACAAGTCAAAATTAGATTAAAAAACGGTTTGAATAGTGATAATTTAACATAAAATTTTTAGATTAGTTTATAAATTTTGTGATTCAATTGCAGTATTGATTCTATGTTCTAATTAATACTTTTTGTTGTGTATTTTTCTATGTCTGTAAGATTTTTGTATAAATGGCTTGTATTATAGTTTACTTTACCATTTGTTATTTCTTTAATATTAAGTATAAGCCAGTATTTATTGTAAATAATAATGACTACATATAATTTATAATATTATTGTAATTTGACTTGAAAATTTAATTTTGTCATTATGCATGAATTAAATATTTAATTTTGAAATTAGTAAAATGAGTATGAAAATACTTTTAGCAAAGGTACACAAATAGAAGGAAGAATTCTATTATTGAGTTTTCTTTATGCAATTAGTAAGAATTATACAGATAATACTACAAAAATATAAAAATTATGTATCAACGCCAAATTTATGTGTTATATACACTATCTAATAGGTGAAGTTGTTGCTATTAAACTTAAGGATCAGTTTCATAGATTTATTCAAGAGTAAAAAACTAAACTTTAATTACTTTCTTCTCACAGCATTTCTTAAAAGATGTTGAAAATATCTTCAAGGATCTCTAAATTTATTTAGATAATTTAGATACTAAAATTTTAGAAGAGATTGATTCATAACATTGATAGCTTTATGTTCTAGTTTTCTCGATAACAAGTGTTTTATCTGTATTGGTTTTAAAATGCATTCAGTATTATCTATTTTCTTCACTACTTTATCTTATTTATAGATTCTAAAATTATTATATCTAGTGAGCTGAAAATTTTATTTCAGGCTATTTTTTGATATTCAAAATATATTTTTCTTACTGCATAAATCCAAGCAAAGCATACGAACGTAAATACTACCATTAAAATCGGCGAGATTGAGGTAAAGGTCGCATTTGGCACTAAAGTAAAAATAATGGATTGTACAAGACCACTAGAGGATTTTCCAACTTTTGCACTTATAACATCAACTGCTGCTTTACCCTTTGTTTTAAGTTCATCATCAAGTGGTATATATAACATTTCTCTTGAAGTATCCCATATAGAATATTTAGTGCCTTTGGCTAAAATATTCTGAATACCGCCAATAGAAACAGCAAGTGCAAGAGGTGACATTAAAATCGCGCCATCAAATAATGATAAAATTTGTTGATCAAATACAATTAGTCCAAAGAACAAAACACCTGTCACCATTATTATCACTGGGGAAATAACTGCGGCTACAAACCAATTATGCATACGCATGACGTTATTACCGATAATTGTCATAACAATTATCGCAACGCCTGTCCAAAGTATATACAGACTATTGAATTCAGCGTAGGTATTTACAGTCGGATATAATTCCTTAATTTTTGCTTTCCATACTGCTTCGACTAAGTTTATAGCAAATCCGAAAGCTGCAGAACAAATTAAAAGTAGCCATAAATATTTTGATTTCACAATATATTTAAAGCTTTTAATTAGTCCCATCCGTTGTGCAGTTGATCTACTGCTTTTTGTTTTATGATAAAATAATGGATTAGTAAAAATGTACTTGCTAATAAACCTAACTAACAAACAACAAATGATTGCAACAATTGCTATAATCGTCGTTGATACTTGAACTAAAGTGATTTTACTATCTGAAATACTTATAAATTTCTTAATAATAGTATCTTCCGATGATAAATTCATCATTAAAAAGCCGACTAATATTAAGGAAGAATTACCGAATAGCGAAAAGAGAGTATAAAATCTTTTTGCTTCTTCGGTAGTAGTAAGTTCATTAGTAAACTGCCAAAATAATAATACGTAAAAAATATTAGGCCAAAGCTCGGCAAGACTATAATATACTATATAACCCCAATTACCTACTAATGAGATATACCACTTAAAATGAGGATATTTGTTCATCCAGTCTGATAGTGTATCAGGATGTACATGAAAAATATGAATATTAGGATAAATCACAAAGGCAAATAAAATAAAACAGCTTATAAAAAATGCACTTAAATAATAAAAGATTTTTTCAAATGTCAAATGATTGATCATTTTAGCATAAATAATAACAAACAAAGCAGCTACAGGTGTAACGCAGTAAACTTTAGCAAATCCTGCTATTTCTGCACTAATCTCAGAGATTAAAATACTATCCTTTAAGATTCGCAAAATATTTTGATTAAATAAAATACAAAACATTAAGGCGCTGATCGGAATAAATTTCCCAAGTTCATAATTATGCACAGGCCAAAATGCTGCTCTAAATTTGTTTTTAAACGATCGTGACGGTGAGGTACTTAGCATTATAAATCCCTAAGGACTAAAAAAAAAGTTAAGCACTTCAAGATTTTATGAAAAGATATTTCCCCTAAAACTTTAGAGCATATATACTGTTATTACATTCTGAAGGTGCTGAACTTAATACAATATATTCAGCTTTTTGTCAAGAATTTAGTGTACTCAGATAGGATTTTAAAAAGTTGTTTATTTGTACTCAAGTACTGTGACGCTCAAATATTATGTATATGCTCTGTTCTTCATATTAAGCTCTTAGCTCTTTTTAACGTTTATCTTCATTATGCTATTCTTTATTTAATTAGGATATACTCGAGATGTTAGATAATAATAAACTACAGGAATATTTTGACCTTTATAATAATTATACAAAGACAAATAATTTAGGTAATAAATATTTAAAATCAGGTGAAATAGTGATTCAAGCAGAGCATTATAGAGTATTGTATTACTCTGTGTCCTCATATGGCTTGTTAACAAAATCCAGTAATGGACAATATAAAAAGCTCGATGTACAATATAACACAAATACTTTTTTAATCATCCCATCTATTTTTAATTCACCGGAAATATTCTTTTTAGCTCGTGACAGAAGTTTTATTGATAATTTGAGAAGATACGGTGAAGTTTATTTAATAGATTGGCTACAGATTGAAGAATCTCAATATTGTTTAGACGACTATGTGAATGAAATAATTGAAGTGATAGATATTTTGAAAATTAAAGACATTAATTTAATAGGTCATTGTATCGGTGGTAATCTTGCAATAGCTGCAAATGTACTTATGCCTCAATTTATAAAAACTCTCACTTTACTTACCTGTCCCTGGGATTTTTCTCAATTTTTTTATATAAGAATGTTATATAGTTATTTAAAGCTAGATAGTAGTATAGTAAACTTATCAATAATACCTAAAATTCACATTCAAATTTTATTTTTTCTTTTATCTCCTGATTGCTTTAATACTAAATTAAAAAAAATTTTTTCTATCACTTCTGATAAAGAACAAGAATTAGCATTTAGAATAGAACATTGGCTGATGTCAGGGCATAATATTTCTAAAGGAGTTTATAATCAAATTATACAAAATATATTGTATGAAAATATGTTTATAAATCTAAAATGGAAAATTAATAATTTTATTATTGATCCAAGTTTAATTGATTGTTCTGTATATATAGTATCAGCAGAAAATGATCAGATAGTACCTAAATCTTCCATTTTAACTTTGCAAAAATTATTGCAAAACTCTAAACTGATAGAAGTAAAAGGTGGACATATTAGTTATTTGATAAATGATAAATTAGATAAATTATTGAAGGAGTATACATTATGACAAAACAGGTTTATATAACACATGCCAAAAGGACTGCATTCGGATCATTTATGGGTAGTCTTAGTACAATTCCAGCACCAATGTTAGCTGCTTATTTAATCAAGGATATACTGCAAAATAGTAAAATCGAGCCTGCTTTAGTAAATGAGGTAATACTTGGACAAGTAATAACAGGTGGTAGTGGACAGAATCCAGCAAGACAAACTCTGATTTATGCCGATATACCGCAAGAAGTTCCAGGTTATACTATTAATAAAGTATGTGGCTCAGGTCTTAAAAGTATAGCACTTGCAGCAAATTCAATTATTACATGCGATAATGAAATAGTTATAGCAGGTGGGCAGGAAAATATGTCGCTCGGTATGCACGGTAGTTATATCAGAGCAGGATCTAAATTCGGCGATATCAAAATGGTTGATCTCATGCAATATGATGGTTTAATAGATGTATTTTCAGGAGTATTTATGGGTATTACTGCCGAAAATATCGCGAAGCAGTTTAATATTAGTCGGCAAGAGCAGGACGCATTCGCCTTAAGTTCTCACAAGAAAGCTGCTAAAGCACAATTATCAGGAATTCTACAAGATGAAATCTTGCCTATAGAGGTAACAGTTAAAAAAAATACTAGTTTGTTTGATCATGATGAAACAGTAAGACATAATACAAGCATTGAAATTCTTAGTAAATTACGCCCTGCTTTTGATAAAAATGGTGTAGTTACAGCTGGTAACTCTTCCTCTATTAATGACGGTGCAGCATGTGTTCTGCTTGTTTCAGAAAAAGCTTTGAAGAAACATAATTTAACACCGTTAGCGCGTATTGTTTCTTGGGCTTCAGCTGGTGTTGATCCAAGAATTATGGGTACTGCACCTGTACCTGCATCTAAAAAAGCATTAAGTAAAGCAGGTTGGAGCGTTAATGATTTGGAAGTTATCGAGGTTAATGAGGCATTTGCAGCACAAAGTATTTATGTAAACCGTGAAATGAAATGGGATATAGAGAAGGTTAACATAAATGGTGGAGCAATAGCAATTGGTCATCCGATTGGTGCAAGTGGTGGACGTCTTCTTATAACTTTAATACACAACTTACGAAGAGCTAAGGCTAAAAAAGGCTTAGTGACTTTATGTATCGGTGGTGGTATTGGTATTTCTATGTGTGTTGAAGCAGTTTAAATGTATTTCCTAAATACATTATTAAAATGTGTTATTGTATTTTGATATGTAAAAATTAGATCCTACCTCAATCATTTTTTACTGCTTCTATATTATTACAAATACTCTTTAGCTTTTACCAAAAATATTTGTACCAACTTTATAAAATCCATAAGATCTATAAGAGTAGTGAGTTTAAAATACTTCAATAAATTATATTAACGCTTCTTGAGCTTAGCGTTATGGGAGATTATTGAATTATGAATTCCTAAAAATTATTAGAGAGTATAGAGATAAGAAGGTAATTTTAGTTGTAATAATATTTTTATTAAAAGACATCCTATTTAAAAATTCGACAAAGTTGAGCTCGGCATTGATCTTTGAAAACACGAAGTAACAGGTTATTTTCATATTACATTATTACAATTTATAAAGAATGTATAAAGATTATTAAAAAATTGATTGTAATATATTCTTATGTTTAAGAAAATAATTAAAGAATTTTGATATTGACATATTTGAATGCAACAATAATATTATTAGGATGTTTAATATTTTCTTGGTAAATATGCAATTAATATAATACACAATAAATTCTTAAATGTTGTTATAAATAATCTTGACATTTAATTTTTAAGATTTGTTAAAGCTTAAATCTCTTTTCTCTTTGATGATAAAGTCCTAGCTAGATAAAAAGAATTGATTAACTTTTTAGGTTGGCGGAGAGAGAGGGATTCGAACCCTCGATACGGTATGACCCGTATAACGGTTTAGCAAACCGCCGCCTTCGGCCACTCGGCCATCTCTCCTAATTATTACTTATGTTTTATATCATCTAATAAGCCAAATTTCTAGAGTTATTTAATAATTTTTCTAACTAAATAGCATCATTTCACGGTTTTATAGAAACTTCGATAATAAAAGCTTTTTATGTGAATCATTGAAAGTAGATCTACAAATAAACTAACAATCTAAATGTATTATTTTGTAATTTCAATAATTGTGTTATTATTAATATTTAAAACTTGCTCGGTTATGTAATCAATAGATTTGCTGTTATATATAACTACTTAATAATTATTATCCTAAAAATAGGAAATATAATTGAATCTCCCATGTCAAGATTATTAAATAATTTCTAATTTTAATAAAAATATTCCAAGTTATTGCTTGAATATATAAATTATTATAATCTTTATGAATCTAATTTATAATACGTCAAATAGTATACTAAGTTTCGTTCATCTAAATTTTGATAAATAGTAGAATCTACACAATAAAATTGATAAATTTGATATAATTAACTATATTCTCTATATATTAATCATCAGCATGATCTTTTAATATTTTAAGTTGTAAGGAATTTTAGTTTTAATATAATTTCATTTTTATCTGTAAAATTATTCCTCAAGCATATTTTAAATCAAACTATAGTATATGCATATTGGTAAGTTTGTATAGTTTTTATCAAAAGTAGTACTATACTACTAATACTATGAATAGTAAACTTTTCTATACTTAATCTTGATACAGAAATTTAAAACATCTTGCTTGAGCAAATGTAAATGCATAATTATTGCCTTTAAAAAACTAAATTATTCGATTATTAAATAGTAAGGTCAATAGTATTCTGAACAATTCTTGCGATTGCTTTCAAAAAGCTAAAATTGATTACAATATTAATTTCAAAATTTTATATTAGATGCATTATTTGTTGATGTTATCTAAAAAATTCTTTAGTTCCGCTAAATTTCTAATATTACTTAATTTATATGGATAATTAATTTTCCGGAGCATATTTGTGAGCACGTTTCCTGCTCCTATTTCTACTATATGGGTTACGTGTAGATGATTAAATAGCTTTAAAGTTTCACGCCATCTCACTCGTCCGCATATCTGCAGAATTAAATTTTGTTTTATTTCTAGAGGATTGATTGTGGGTTTTGCTGTATAATTTTGGATTATCGGTATTATAGGCTTATTAATTACAGCTTTATCAAGAGCTATGCTCATTTTTTCTTCTGCTGGTTTCATTAAACTACAGTGGAAAGGAGCGCTAACTTTTAGCCTGATTGCTTTGTAACCTAAATCTTTAATTATGCTGATTGCATGATTAATCGCTTCTACTTTACCGCTAATAATTATTTGTCCCTCAATGTTATCGTTGGCTATTTGACATAAATTTAATTTTTTTATATCTTCTAATAGTTCTACAAGTGTTTGAAGTGGAATATTGATACAAGCGGCCATAGCTCCTACACCTTCAGGGCATGCTTCTTGCATAGATGTACTACGTATATGTAGTAGTTTTGCTGTTGTTTCAAGATTAATACTTTCTGCACTACATAAAGCACTATATTCACCTAGTGAATGACCAGCAGCATAATCGCAAAGACTATCCAAATTTTTACCTGTTTCAGCTTTGATAATATTTATTATTGCCATAGATACTGCCATTAATGCCGGTTGTGCATTAGTAGTTAAGGTCAGTGCTTCAGAAGGTCCATTAAAAATTATATCAGTGAGTTTCCGGTTTAATACTTCATCAATTATTTGAAAAGTTTCTTTTGCCGGTTTAAGATTATCGTAAAAATCTTTGCCCATGCCGATTAATTGTGATCCTTGACCCGGAAATATAAAAGCTGTTTTCATATTGTTTATTATCACTTGAGTTTATTAAAATCAAACTATTTTAAGAATTTACAAACTTTTTTCAATTGTTACGCTATATGTATTTTTTAAAAGTATTAATTTCCACTAGCTATAAGTTAATTACTTTCAACTACTACTATAAATTAAACTAAGAAAATATCAATCTGGAAATAGTTATGAAGTTACAGAATATTTGTAACAACTGAGAAAATCGACTTGTGATCTGTTTCTCGCTAAAAAAGTTATTTGATAAAAGATTGAATATATTAACAAAGATCTGAAAAGCTATATAAGATTTAGTTATTTTTAATAATGTTATTGAAGTTGCATAAAATGCTTGCTTAGATGCAAAGTTATTAATTAAAAGAAAAAGACTAAAACTATTAAAATATTTTAGAAAAAAATGTATATGCCAGCTTATTTATGTTTATATATGTATAATACTAATTTATCATAATATATTACGTTATCTATTTTTAGAAATCATGGCTTTAGTATTATAACAATCTCTTAAATATTACTACTAAAACTCTATAAAGATCTTAATATATTAAGTATTTTTATCTTCCTTATGTAAATCATTTTTCTAAAAAATTCAAGATGTAAAGAAAGTCAAAGGAAAATTGTTATATAATTTTATTTAGATAAAAAAATTTTGCATAATCATTTTAAAATAAAACCCTTCAAAATCATAAGACTGACTGCTAGTTTATTTCAAGACAAGTTATGAGACATTACCTAAAAGTAACTGCTTTGTCTGAAAGTGCTTAAGTGTTAGACTCGAGATTTACCTAACCAAATAAAGCATTACAAAAGCTTATTAATTCTATTATAGATTATGCAGTTGAGGTGCTGATTTATATATTTTAGTGCAGTTATTTGATAATATGTAGTAAATAATTGTTACATAGAGTAGTCACTGTTAAATTGATTGTTTGTCATTGTTCAGTAAAGAATAATAGCTTTCATCCTTACTAGGAAATTGTATAGCTCTTTAAAAAGTGCTAAAATTCTAGTTTTACTTTTTATTATTTGATATAGCAGATACTAATTAAGCAATTTATCGAAAGTTTGTTTAGCTATTTTATACCAACAATTTTCAGGTATGGTATCTTTATTACTAAAACCGCATATAATGAGGTGATCTTGTGCTCTAGTCATTGCAACATAGAGTAATCTCATATATTCCTGCAAGTCTTTCAGTTTTTCGGATTCTTTTAGTTCTTGTAAAAATGCAGGAGTATCTTCAGAATTCAGTGAGAAAAACATTTGACCATTATCATCCCAAATAAATTTATTACTTCTTATAGGTAAAGTAGTAGAATCACATAATATCACAAATGGTGCTTCAAGCCCCTTAGAACCGTGAACTGTCATTACTCTTATTTTATCTGAATGTTCCATATCGCGTTTGATATAGATATCGTTATTTTCAAACCAAGCAATGAAGCCTTGGAGGGAATTATCTATAGAATTTGCATAGTCTTTACTTAATGTTAATAGATCATTTATCATATCATCGGTATTTTTACCGTAAATCGCTCGTAAATTTAATCTATTGACAAGCAAATCAAAAAAATTTTCTGCAGTTGCGATTTTATAAATTTCAATTATGGAATCTAACTTATGATATATATCTTTATGTGAAGATAAGACTTCCCATAAAGTATGATCAATTTTTTTTACAAGCAGCGTGTATAATTTTTGCTCACTTATCCCAATAATCGGTGATTTGAGTAAGCAAGCAAGATTTAAATCATCATCAGGTAATAACACAAATTTAGCTGCCGCAATTAAATCTAGTATAGGTAGATTTTCTTTTAGATTAATTCTATCGCTGATCTCAACTTTAAGCTTAGCTTTACTCAGCTCTTTAATTAGATTATGACTAAATTTGTCTCGTTTCCTTACTAATATCATGAAATCTTTTTCTGATATTCGGCTTGCGGTAGACGTTAATATTCCTTTACTTTTTATTTTCTCTTTTATAAAATTCACGATTTTGTCTATCAGTAAATCGGCAGCAGATTTAGCATTTTTATCATCTTCAGGCAATGTCCAAAAAAACTCTTTTTGTTTCTGATTTGTTAATAAAGGCCACACCGTTACACTACCTTGATGTATACGCAATGATGATATTAGAGGATTGTCCGCAAGAAATAAATTCGGGTAGTTAGACTTTATATTGTTCAAAACATTGTGAGTAAATTGTAAAATCTCTGGACATGATCTATATGAATATTCAAGTGTAATATTTTTGAATTTCTTATTATTACTTGTAAGGTTTATTTTTAGCTGATCATTTACTAAGTTGAAATTATGCAGATTAGCACCTTGAAATCTAAATATAGACTGTTTATCATCACCAACTATAAAAGTACTATTACTTGGTTTCTCTGCTACATTCAACTTTGTTATTAAAGTAGTGATAATATTCCACTGTGTAGGGCTTGTATCTTGCGCTTCATCAATCAGGATATGGTTTATTTCATTCTCAAATTTGTGAAACAACCACTCATGCGTAGTTTTATTATTGAGTAATTTTTCGGTGTAGTAAATTAGATCATCATAATCGAGTAAATTATTTTCTTCTTTATATGAATCGTATTTTTTTAAAAAAATATAAGCAAGTTTAGTAAGTAAATTTGTATGATATTTTAGTTCTTCTATACGACGTAACTCATCCAAATGATGAATTTTAGCGGTAATTTTTTCTAGTTCTGTCAATAATTGAGGATATTTTTTTGTTAATTCTTTTGATAAAAGCCTTTTTCGTTTTCCCCCATCTTTTGTAAAAAATAGCGTTTTCGGTGCTATTGCTAAGTCATATGCTGTAAATAAACTTGCTACTTTATCATATATATTATTTAATTGCTCTAACGCTAATCTTTTATTAGATATTTGTTCAGGAATTTGCTTATTTATGAATAATTTTTTGAATTTAATTTTTTGCTCAATGATTTCAGTGAAAATATCTTGTAGTGTTATTTCATGAAATCTATTAAGCAAAATTTGGATTACTTCATTATGCTCATCACTTAAGTAGATTTCATTTTTGATCTTTAAGAAGATATCTTGTAATTTAGTTTCTTCAAGAATTTTAAATTCTGGTGTTATGCCTGCTTCTAATGGAAAAGTTTTAAGAATTTTTTGACAAAAAGCATGAATTGTATAGATATTTAAAGGTTCATGACTATTTAATAATTTATAGTATAAAGTTTTTGTGTTTGCTATTTCTTGTGGTAAAGGTTTATTGCCGCTCATTAAAAAGAGTTCGTTTTCTAATTTTTCTGCATCACAAAGAGCTAGATATTTAAGTTTACTATTAATCCGTGCTTGCATTTCTATGGCTGCAGCATTAGTAAAAGTAAGACATAAAATATTTGTAGGTTCTGTGCCTGTTATTAACAGACGCAAAAATCGATCGATTAGTATTTTGGTTTTACCAGTACCTGCTGATGCCGATACCCAAACAGAAGTATTAGGATTGGATGCCTGTTGTTGTAGATTACTCATTTATGTATTGATTTTTTACTATTAGCTTAATCCATTTTATTAATTAGTTCAGTTTTTTTGATTATTTTTTTGCTCCAGAGATTTAAGTTGCTTATTAACAGGGACAGGTATATTACTACTATGACGATAAATCACGTATATTACGATTTAAAAAATAGCTAGACCAAACCATGTTATTGCATATTCTAAATGGTCATTTTTGATCAATGCTAAATGATTTAGCGAAAGCGGCAATAAAATATCTAAATTACTGATATCTTTTCCTTCTGCAATAATATAAAAATTCTCTAGATTTAATTTTAAAGCTTTAGATGCTTCTTTTAGATCTAATGTTAGCCATACATTATTTTTTATATCATTAGCTGGTAAGTAGCTGAGTGTTTTTTCAGATGGCATAATAACTCCGATAATTTCATGTATCTGATTATTTGTAGCCTTCATGATAATATTTTTATTGCGATTACTAAACCAACCCCGCACTACTAAGATAACTTGATCTGCTATAGTTTTAAAAGGAGTAACTAGATAGTATCCGTCTTTTTCCATAGCCATTAATCTTATACCATATAAATATATGTCTTTATTAGGTAAAAATTGACCTGTGATTTTTACTTTATGATAAAGTAAATTCTCTTGCACTTTTTCTAAATTAATTCCAGGTGAGATTATATGAGATTGTATTGAGTCCAAAAATAAATTTTTTTCTTTTAAACGACTAAGCTGCCAAAATCCTAAAGAGGTGAGTATTATAAAAGTTGTTAGTATAAGAAAATTTATTTTCATAGAGTAAAATCTAAAGCGTAATTATTAGTGCATTATAAGTAATTGACGCAACCATCTTGTGTCAAATCGATGAACTTGTTATAACCATTTATGGCTTCGCAATAAAGTCGCAGAGTGTATTATAATTAAGCCTGTATTAAAATCTTATCTATGAACTCTTTATGTTTTTGTAATTCTTCTTTAGTAGGCTTAACAACAATACCTCTTTTTATTTGCTGGACATCTACACACTTAACTGCCAAGTTGTTTATTTCATCAGGTTTATTAATCATCTTAAAAGTAGATTGTCTACCTCCTGTTAGTGCAACATACACTTCTGCAAGTAATGCTGCATCTTTTAAAGCTCCATGAAGTTGCCTACCTGAATTATCAACTTTAAATCTTTTACATAATGCATCAAGACTATATCTTGCTCCAGGAAACATATTCCTTGCCATAACTAGAGTATCTATAGTATTCGTTAGTTCCAAAAATTTAATTTCGGTTCTCTTTAATAAAGATAATTCATGATTTAGAAATTTAATATCGAAAGGAGCATTATGAATAATAAGTGTACTATCTGCTATAAACTTTAAAAAATCATTGGCTATTGTCTTAAACAGAGGTTTATCTTTTAAAAATTCTCCTGAGATACCGTGAATCTTATAAGCCTCAAAAGGCATATCGCGTTCAGGATTAATATAAAAATGAAAATGCTTGCCTGTTAATACCTTATTTACCATCTCAATTGCACCGATCTCAACAATTCGATGACCTTGTTGTGGATCAAGTCCCGTAGTTTCAGTATCTAAAATTATTTCTCTTAAACTCGACATTCTAAATCCTTTATTAGCTTTGTTATTTGTTTTTCCAAATCTAACATATCAACGCCGCTATTTATAGAAAAATCTGCTTTTGCAATTTTGCTCTCTTGTGATAGCTGGATTTCTTTGATTTTATTATAAATATTTATATCAAATTCAGCCCTTGTTATGGCTCGTTGCATTCTGATTTCTTCAGAGCAATATATTGTCACTACAAAATCAAAATATTGCTCAAATTTAGCTTCATAAAGTAGAGGTATTTCAGAGAAAGCTAATTTATAATTAGTATTTTCATTTTTAAATAAAATGAGTTTATCTATTAGTAATGGGTAAATAAAATTTTGTAGTTTTTCTCTAGCTATGTCGTTGTTGTAAATTAAATTACTGATTTTTCTAATATTGAAATACTCAAGTTCAGGAAGTATCTTTAAAATTTGAGTTTGCAAAACTATATCTTTATATAATTCCTTTATACATCTATCTGCACAAAAAGTTTTATATCCTTTTGCTGATAAATAATTTAAAATAAAAGTTTTGCCTGATGCATAGCTACCTGTAATACCTATTGCTAACATTTTGTTATAAAAATTTTATGTTTATTAGCGAGCTTTATAGTTAATTCTTCTTCGACTATAATTACGTTATTTTTTTGAATCGCTAATCCTTGATAATTATATTTAGCAAGATTTTTTATAGTATTAGGACCGATTGTTGGCATATCTAATCTATTATCTTGACCCAATTTTGGTATTTTTACTAATATACCCCCGTGAGATTTTTTACGTAAATCTGCACATCTTACTATTAAATTATCTGTCCCTTCAGCAGCCTCTATACCAAGTATATAGCCATTTTTAACTATAACAGATTGGGCTATGTCGAATAGACTTAGATGATTCAATACTTTTATTCCAAGCTCAATGTCATTTTTATCTGAATTTGTAATTGTGGTATTGGTTATAATATTTGAGTTACATTGTTGATTTTGATATATTTGGTTACTTGAAATTACTTTAAAACCGTAACTTTCAAAAAAATTTGCTACTATTTTTAATAAACTATCATCACCTCGAATTTTTTGCTCAACTATTTTAAAAAGTAATAATCTACCTATTTTATCTACAGCTAAATTTTTAAAATTTGGTCTATTAATTCCTCCTATAAAAATAATATTTTCTACATTATGATCCTGAAAATATCTTATAGCTTCACCAACCATACCAATTTTGAAAATTTTATATTCAAACTCTTTGATTTGTTCTATATTAGTTTCGTCTTTAATGGCTGCTATATAACACTTGCCACCTTGCTTTATATAATTACATGCTATTAAGTGAGGTAGTGAACCTCTGCCGGCTATCATTCCAAGATTTGGTAGCATAATTAAGTTTTTAATTGAGCATTCTAAACATTTATTATAAGCCAATTTTTAATATAAATCTAGAATTCTTATTTTACCTTTACATTTTAATTAAATTCAGGCATAATATTTGGTGCTAATATAGCTATAGTAATAAACGTAATTTAGAATAGAGGTTGCGGACTCGGGGGCAGTACCCGACGCCTCCACCAATACTCGATGAACTTCAAAAATTTGCTGCGTCGTCTTATTAAGTGCTGTGGTATTTATGTGTTCAGTAACTGCTGTTGCTCTTTGTATTGTTGACTCATTGTTCTTTTTGTAGTTGATTTTCGTATATTCTGTATGATTTTAATACAGCTTAAATATATGAGTATCATAAACAATTGATAAAATGAAAGAGTAATATTGAAAAAAGATAAGTAGTAATTTTTTTGGGGGCGAAATAGGATCGACGTGCCTAATAAAAAAGTTGCTTTTACTCGGTATGATTCCACCGGTGGTTTTTGCCATATGGATCAAAACAAAGAAACGCAAACGATAATCGTTATGTAGGTGTTCCAGCTTTAGCTGCAGCTTAAGCCTACGCGGCTGGGGATTTGCCGGGCAACAGAAAAATCCCATACGTATACTAGTGTAAAAATTGTATTGCATAAAAACTCTTGGTATCGTTATTGTGAGCTAACATAGAGAACATAGCAAGCTCATAAAGTAGTGTTTTTGAAATTGTTTAATTACAAAATTATAGTGTTTATTTGCAATGACCTAAACTGCTTAACTTAAATTTCATCTACCTATTTTTTACTAACTATGAATATTGAATATAAAAAATTTGTGAATGAATACATGCTAGAATTTGTGAAAAAAATTCTAACAAAAATTCAGCATGAAAATTTATATTGGGATCAATTAATATACATATCGTACAGGACCGATAACCCTGCTGTAATTTTACCTTCAAAAGTGAAACAGGCATACCCAAAGCAGATCACAATAGTATTGCAATATCAGTTTGAAAATTTAACGGTAAAAGATAATGGTTTTTCTTTAACGGTGAGTTTTGACGGTGTTAAAGAAATAATTTACATACCTTTTGATTCACTTATTAGCTTTGTTGATTCCAATAATAATTATAGCTTAACTTTTAATCAGTCATTAAATATACCAGAACATCAACAATATGAAAAGGAAATAAGTAATAATAAAAGTTATAAGACTTCATTATCTTTAAATCCAAATGTTATAATGTTAGATAAGTTTCGTAACTCTTCTAAACCTAAACCTAGTTAATATCGATAATATGGATTCCAAAGTAGTTATATATACTGATGGTGCATGTTCAGGTAATCCAGGTCCAGGAGGATGGGGAGCTTTATTACATTTTAATGATACTAGTAAAAAAATATTTGGATATGAGTTAGTTACGACTAATAATCGTATGGAAATGACTGCAGCACTTGAAGCGTTAAGGATTTTAAAAAAATCTTCTGTCGTTGAGATTTATACCGATAGCAAGTATTTGCAACATGGCATTACTGTTTGGATTCATAATTGGATAAAAAATAATTGGTGTAAAAGCAACAATGCCCCCGTTAAAAATGCTGATTTATGGCAAAAACTATACTCAGAATTGAGTAAACATACTATTATGTGGCAATGGGTCAAAGGTCATGCAAGTAATAGCGGTAATATTGCTGCCGATAAGCTTGCAGTGCAAGGACGAGAAACTGCTATGGAAATTTTAAAATGTCTTGGATAGATAAGTTTTTTATTACATTTTTTTATACAAAAGTAGGTGAAGATGAATTTTTGAATCAATATTATGAAAGTCGTAATAATATTGATTATTTAGGACGTTCACGGAGGTGTGTTATTTATAAAAATATAAATGAGTCGACAAAAATTCCGCCAAGTTGGTATTCTTGGTTACATCATTTAGTAAATGAGATACCAAAAAATGTTCAACTTTTTCCATGGCAACAAAATAATAAAATAACTAAGAAGCTGCCTAAAACATCAAATCTTAAATATAATAGATGGCAACCATAATGAATTAATAAAATATTTATAAACAATGCAACAGAACATCGTTGAAACAATTATCGGCTTTTTAGTCTTAATTATTGGTTTACTATTTTTGATTTTTGCCTACAAAACAGGTACTTCAATAATTACCTCAAGAGGTTATCAGGTAATTGCTAATTTTCAGAATGCAGAGGGGATAGCAGTAGGAAGTGACGTAATGATCTCAGGTATCAAAGTCGGTAGTGTCACGCAAATTACTCTAGATCCAGATAGATTTTATGCGAGTGTATATCTAAATATTAATGATGATGTTAAAATACCTAAGGATTCTAAAGCCCAAGTAGTCACTAGTGGATTACTTGGAGGTAAATATATTGCAATTATCCCTGGTAATGGTGATGAAAATTTATCAGCTAATGAAGAAATAAGATATACACAATCAGCAATTAATATTGAATCCTTAATTAATAAAATCGTTTATTCATTTGGTAATAAATAGCACAGTAATGTGCATTTTCTAAAAGATGAAGTATTAGTTCATCCTAAAAAACTAATACTATTGTCATTACAGCAATGTGTTGTTGCATAGAATCAAATCAGTAGATTTTTAGTCATAGTGTAAACAACTGATATGATATTTAGTATGTTTTACAAAAGTATACGTAACAATTACTTTACGTAAAAGTTTGTATAGAAATATGATGTATTACGGGTAAGTAGGAGTAATACACAATAATTAAATTTGACTGAATCTAGTTTAGATTCAGTTTTTATTATTTAAGCTATTGTAAAGTTTTGATAATAGTAGTATCGTATATTATAGGCAAAATAATTTGTTTAGCAAAATGTAAAATAATAAAGGATTAAATTATGAAAGAATCAAATTCAAACTCTGTTAAAGAAGATGTCGAAGGTATCAAAAAAGATATTGAAAGCTTAGTTTCAAGATTACGTAATTTAAAAGGTAAAACTGGAGATATTCTAGATGAACAATTAGGTAATTTATCATCCGTTATGGAACATTATAAGGATAAAGGCATAGAGAAAGGAAAAGCTAATTTAGCTGATTTATGTGAGTCTACACGTAATAACCCATTGCGGAATCTCGCTTATGCTTTTGGTGCAGGCGTATTGCTCGCTATTCTTATGAAATAGGTAGTTTAATGTTAAAATCTCTAATATATGAATTATTAAAAAGTAGCATTAAGCAAGAAGAGCACTATTATAGTAAAACATTTTTCTAATTTTTAAATATTTTAGGTTTAGTTTTCATCATTATTGCTAATTATTGTTATAGTTCAGATAGTATGAAATTTTATTTTCTGATGCAGATCGGAATAATTTCGGTTATATCTTCTATGGTCATTGAAGCTGTGCGGTGTTATTTAAAATACAAAAATAGATATCGTCATTTAGATTGTTTAAGATCAAACAGTGGAGTGTTAGTAGGGAGTATAAGTAAAACCTTGATTGACTTATTCTCAACTAAGACCTTAATAAGGTATTTGCCTACTATAATTCGCTATGTTCCAAGTACTGTAATAACTTTTATAATATGTACATATATTAAGCGAAAATTCTTAAAAAATTTCATGTATTATACTCGATGAACCTCAAAAATTAGGTATGGCTTCTTATAAGTTGACCTATTAGTATAAGATTTATTACTCGACTTATCGAATCTTTGCTTTTTTGAAGTTCATCTGCTCATACTATTTATTGTGCTTGGAACATTAAATTTATTAAGGTTTTTAAAGTAATCCTTGAGTTTCAAATAACACTTATTTAATTAATAAAGACAGTTTTATCGTTAAGTCCGCTCTTAAATTAATTATTGAATTTTTTTAATTTTTAGAAAAATCTATTTTAAAGTATATGAAAGTGTTTAAGCGGTACTTTAATCGTTTTTATATTATGCAAGTAAGATAGGTTAAAGATAGGGTGGAATATATAATACCCATTTTAGATATTAAACGCTTACGGATTTTGATAAAATCATCAAAAATAGTTTAAATAAATTCGTTTAATTGCTTCTCATTTTCAATTAGAGCATGTGATTATGATCTTGTATTTATATAATAAGCATTTTTATCTACTGCAGTTATTTTTGAATAAAAACACTTTTTGATAAAGATATGCAGATATTCTTTTAAAGACTTGTTAATAATTTGTGCTTTGTAATAAGATAATTGACACATCAAAATGATAACGGTGTCATATAAGACATGAAATTAAGATAGAGTATAAATATATATTTAAGTTGTACTTAATTTTCTTAGAACACTAATTTCTATTGACTGTTACATAAAACAGTATCTGTTTTTACAATTTGATTTTTTGTAAATAATTTATGATAACACATTGTGCTTGCTTATGAATAGGCACATTGGATATTTAAATCTCATGCTTTATATCTGTATCCCGATAGTACTAAAATGCGCTTTTTCACAATCTGCTCTACATATATCAAAAATCCCACACTTTCTTATTTAACTTGTTTATATTAAGTTTAGAAATTGTAATAATAAATAAAAATAATTTTTAACTTTCATCAAAATTACTTTCTATTTTATTATTTGTTTTTGATTTTTTGTTATTGTTGTGATTTATACTCTGTTGATTTTCCTTCCAGTTTATAGAATAGTAAATTTATATATTTCTTTTCTTGCATTTTAAGCCGTTTAATGTTTTTCATACTCATTCATCTATGATTAAAATGAGCAAGTTTCTTGTTATTTTCTCTACTTCAATTCTTGGACATTAATAGAGCGCAATTCTTATTTAAGAGAAGATATTATTAACAATAAGGAATAACTTATGTATAAAGAAAAAGTAGAAGAAAAATTCCATATTAGTTAAAGCTATTTACAAAATTTTAAAAAATTCTCGCAATACTCTTTGTGACAGGAGCTGATTAATAAAAATGTATATGAGTTTTAACGAGCGATTACTATTTTTCAGCAACACTTTATATATATTTAAATTAGTTGCAACAGCACAATATCTTAGATAATATATAAATATTATCAATACTTTTATTCCTATTAGGATCTTTAATCTTAATTGTTATATTAAAATATTAGTATGCTAAGATATTACTTTTAAAAATATTATTACTGGTGTCAAAATTTTCGTTTACTATTCATAGTCACTATAAAAAAGCTAGAAGCGGTGTGATTACCACTGCTCATGGTGAAATTCGTACACCAGCTTTTATGCCGGTTGGTACTAGAGGTGCAGTTAAGGCAATGTTGACTGAAGCAGTAGTTGAGACCGGAGCAGATATATTACTCGGCAATACTTATCACTTAATGTTGCAGCCAAGTGCTGAGCGTATAGCATATCTTGGTGGTTTGCATAAATTTATGAATTGGGATAAGCCTATACTAACTGATTCCGGTGGTTTTCAGGTAATGTCCTTATCAAAGTTATGCAAGATAACTGAAGAGGGAGTAAGTTTCAGATCTCATATTAACGGTAATAAATATATGTTAACGCCTGAGTATTCGACTGAAATACAATATCTACTTGGTAGTACAATCACTATGGCTCTTGATGAATGCACTCCTTATCCTTCAACTTTTGAAAAAGCTAAAACTTCTATGCATCTTACGACTAGATGGGCTAATAGATCACGTGATGCTTTTGTTAAGCGCGAAGGTTATGCGCAATTTGGTATTATTCAGGGAAGTGTTTATAAAGAATTGCGTGAACAATCGGTGAAAGATTTAGTAAAATGCGATTTTGAGGGTTATGCTATAGGAGGTCTTGCAGTAGGTGAGGGGCAGGAACTTATGTTTAGAGTTCTTGATTATGTTCCTGATTTTTTGCCGCAAAATAAACCACGTTATTTAATGGGTGTGGGGAAGCCTTCTGATATTATTGGTGCAGTTAGTAGAGGTATAGATATGTTTGACTGTGTAATCCCAACTCGTTCAGGTCGCAATGGTCAGGCTTTTACAAAATATGGTACAGTTAATATACGCAATAGCAAATATGCTGATGATAAAGAGCCACTTGAGCATGATTGTAAATGTCCTGCTTGCACTAATTACACGAAAGCTTATTTGCATCATTTAGTTAGAATCCGTGAGATACTTGGTCCTATGCTAATGACATGGCATAATTTAACATATTTTCAAAATCTTATGAGTCGTATTAGAACATATATTAAACTAGGTAAAGATTTCGATTTTGTACATTAAGAGTAAAAGTGTTTGTTTTATCGTGTGATCTAGCATAACTTGTTTTATTTCACTCACATTGAATTATTCTGTAGACCGGTAAAATCTACTGCAGTTTGTAACAAAGTAATTATTAAAAAATAACAATATTAATCATTATGCAGAATATTGATTTAATATCTGAACAAGAAGCAAAAAAATTATTAAAAGAACTCGCTGATAAAATAGCGATGTATAACCACGCTTATTATATAGAAGATAATCCGTTAGTCTCAGATTCAGAGTATGATCAGCTATTCAATATCAATCTTAAATTAGAGAATACATTTCCTCATTTAGTTTTAAGCAATAGTCCTAGCAAGAAAGTAGGTGCTAATATAACAAATAAATTTGCTAAAGTTATACATCAAGCACCTATGCTATCTCTTAGTAATGCTTTTGATGAAGATGATCTAAGAGATTTTTTAGAACGTATTAAAAATTTTTTACGTATTAATGAGTTTACTCCTATATTTTGTGAACCTAAAATAGATGGAGTGTCTTTTTCTGCTATTTATAAGAATGGGTTATTTATAACTGGAGCAACAAGAGGTGATGGATATGTTGGTGAAGATATAACGATGAATATTAAAACAATTAAAAACTTTCCGCATAAAATAGATAATGCTCCTGAGTTTTTAGAAGTACGCGGAGAAATTTATATTGAGAAACAAGATTTTTTAAATCTCAATAAAGAACAGGAAGCGCAGAACAGAGGTAAATTTGCTAATCCTCGTAATGCTGCAGCAGGCTCTATTCGTCAGCTTGATGTTGCTATTACAGCTCAAAGACCGCTCAAATATTTTATATATTCAGGAGGGGTAACTGAGCAGAATCTAGCGTCTACACAAGAGCAATTACTTACAAAATTAAAAGCATTAAGCTTTAGCGTTAACGAAATATCTAAGCTTGCAAGTTCTGAAGAAGAAATTTTTGCTTTTTATGAATATCTCAAAACAAATAGGCATAATTTACCTTATGAAATTGATGGTGTAGTATATAAGCTCAATAATTTTGCAATGCAAAATAGAATGGGATTTATTGCACGCTCTCCACGCTTTGCTATTGCTCATAAATTTCCTGCTATAATAGGACAAACAAAGTTACTATCTATTACGGTGCAAGTTGGTAGAACAGGTATGTTAACGCCTGTAGCAGAGCTTGATCCTATAGAAATAGGTGGGGTAGTTGTTAGTAGAGCAACACTACATAATTTCCAAGATATTGCACGAAAAGATGTGCGGATTAAGGATTATGTATTTTTGCAACGTGCTGGTGATGTTATTCCTCAAATCACAGGTGTTGATATAAGCAAACGTTCCAATGATACGGTAAAGTTTGATACTCCTGTATTTTGTCCATCATGTAATTCTAAATTGCGTTATGTGTCTGAAGATATTATTATACGCTGTGATAACGGTCTTAACTGTCCTGCTCAGAATTATGAGCGTATCTGTCATTTTGTATCAAAGAATGCCATGGATATTGAAGGACTTGGACGTAAACAAGTCGCATTTTTAATAGATAAGAGATTAATTAGTAACCCACTTGATATTTTCTTTTTAAAAGAGAAAAATGAAACCAACTTAATTAGATTAGAGAATATGGATGGTTGGGGTAAGAAATCAGTAGCAAATCTTTTTAAAAATATAGAAAAATCACAAAAAATTAGTTTGCAACGGTTTATATATGCTCTAGGTATTAGGCATATCGGTGAGCAAAACGCAAAATTACTTGCTCGAGAATTTGGGAGCTATAATAATTTTATAGCTCAAATGGAATTGCTTAGCAAAAACGATTCTGATATTTATCAAAAGCTAAATGATTTAGAAGGGATCGGTGATAAGATTCTAGTAGATATTGTTGAATTTTTTTACGTTAAAGAAAATACACAGCTTATCAAAAGACTTGGTTCAGTATTAAATATCGAAGATTATCAAGAGACTAGAGAACAAAACATTTTAACGGGTAAGATAGTAGTATTTACCGGTAGTTTATCAACGATATCTAGAGTCGAAGCTAAAGAAATAGCTGAAAAGCTTGGTGCTAAAGTTACAGCTAGCGTATCATTAAATACTGATTTAGTAATAGCAGGTGTGAATGGAGGAAGTAAGCTTAAAAAAGCTAAGGAGCTTAATATTAAAATTATTGATGAAGTAGAATGGCTTGCATTCATAAAAAATGCTTAGAAAAAGCAGTTTAGTTAGTGTAAGATAAAAATATTGGAGATATAGTTCAATATGATGTCAATGTGTTGATAAACTTATAGTAAGAAACTAATGCATTATTAGATTATAAAGATTCTTTTTAAGCAATGCACAAGTAAAACACGCATTAGGCAAGCAAAATGATTCAATAAATAATTTACTTTCTGCTAAATGAGATAATAGTTTTAACGTATAATAAAATTTTTATTTATTTTTGTATAAATTCAGAAGTCGTCTATTTTGTGATAATAATCAAAGAATTGGTTGTGTACTTTTTGATCTTACTAAAAACTATTATAGTTAATCATAATTAGCATTACTTATTTTAAGTAAGCGATCCTAAAAAACATTCATGATTAACTTAATTATGCATTTAATAAATGATTAGTTTTATTGCTAGTAAAGCTGCAGTTAGCACAAAGACATTATAACAATAAAGTCATATTTATTATGCAGTGAATTGTCTTATATAGTAGCATTTAGTGTTAATTAGTGTGTTAAAAGCACAAGAGAGCTCACGCACTAGAAAATCTTGTGCATTGTTAGATGCTTTTACATGGCTAGGTCTTTAGTATTTAAACCTAGATATAGTTTCTCAAATCTTAGCAAAAGATGCACGAATTAGTCAATTACTGTAAGCAATCAATCGTGTTTTTGTACTCTTATAACACTGCTATAAATAATAGAAGTTAGACGTCACTAATTAGGTTTCATTTTTATAATTAGAAAATTATTTAGACTAAATTATCTATTAAATTGTATGCTATATGGATCAAAGCAATTATGTAAGTCTCAAAAAACTATTCTCAACTATAAAATCTCGATGTGTATAGTGCTATTAAAGAAGAGAATAGAGGATTGATTTTTATTGATCTGCCTTTTGATTTCAAACACGAGTTTCAAAAATTATTGAAAGCACTCACAAAAACTACGAGTTCTTAATAACTATGTCTTAATTTTCTATCCTATCATTACATTTGTTAAGTCATTTTTGGCACAAAAAAAGATCGTATTTAAAAACTAGAATATAAGCTTTTAAATAGTAGTTAAAATATTATTAAGTGTGGATTAAGGTTATCCAACAATCAAAGGTAATATCAAGATGAATATTTTAAATTAAATATTGATTTTTGATGTCTTTTAAAAAATATATCTTTTCGTTTATAGTGTTGCTTATTCAAGGTTGAAATAATACTATATTATTTTCTACTACTTAATCCATAAAGGAAAAAATATAAAATCAGGGATACGGATTTAGTAATACAATATGACTTAACAAACAAGAATAGCAAATCTATATGTGCTAAAAACTTTAATAATTAATAACCAAAAAAAGATTTTGTTTCGACAATGTTATAATAAAAATCCAAAAATTTAATTAAGCAGAAGTAATAAAATAGCAAGTATAAAGTCAGTTTTAACACCACTAAATTCAAAATATAAATTTCTTTCGCAACAGGCCATTAGCTATTTTACACAAAAGAAAACTCATAGGAATAATATCTTGGCAGTTTAACTAAGTTGGATAAAATTATTAGAATGATACCTCTTTCTTATAATGATGGAATATAATCCGGAAATTACTAGTCATTATGGAATTATGAAAAGCAATTATAAAAAGAAAAGAGAACGAAATGTTCTCCTTGAGGTATTGATTACAAGCTAAAAAAGCAGTGTAGATATATGTCCCAGTTAGTGAAATTCTTGAAAAGATGTAAGAGTTAATAATTATGGGAATTGTATTGGGATTAAAATTTGTTACGAAATATGCTCATTTAAACGAAATATTAGTTAATGCAGGAAATAAAATTAAGTGAGGTTAATTTATCAGTATACAAGGAAAAACAGGTAATGATACGGAAGAACATTTGCATTTTACGATTATATTAGATAATAAAGCAATAAATATGTTTGACTTTATTTTTAATTGCTGTAAATCATAAACTATGATCAAACTTTTATATCCTCAATTTTGGCAGGAGCGAAACATTATAGCTTATTTGCTTTTGCCTATAAGCTTAATATATCAATTTTTAAGCTACTTACGAGCTAGTTTAGCATATCCAGTTATATTACCGGCTCAAGTTATTTGTGTTGGTAATTGTAGTGTAGGAGGCACAGGGAAGACTCAGATAGTAATTTATTTAGCCAAATTACTAAAAGCTAAAAATGTACCTTTTGTTATAATCACTAAGGCTTATGGTAGCCACATTAAAAGTACAACTATAATACAGAAAGGGCATACTGCATTAGAGGTAGGTGACGAGGGTATAATGCTCGCAAGGTATGGAACAGTTATTGCAGCTAAATATGTTAAAGATATTTTACCATTAATTAATGAGCTTAAGCCTGATGTAATAATAGTTGATGATTTTTTACAAAATCCTTATCTTCATAAAGATTTTACTATAGTTTCGGTAGATAGTCAGAGGCTTTTCGGTAATCGATTTCTAATTCCTGCTGGTCCTTTAAGACAAAACCCAAAGCAAGTCCTTGATGCAGCGGATTTAATTTTTTTAGTAAGTAGTAATCAAGATCAAATACCAAATGAACTTACTCCTTATATTGATAAACTAATCAATGCTCAAATAGTGCCTTCAAATAATATAGACAAAAATAAAAATTATTTTGCTTTTAGCGGTATTGGTAACCCGCAGCGTTTCTTTTTAACTTTAGAAAATTATAGATTAAATATAGTAGGATATAAGATTTTTCCTGATCATTATAATTATTTACAAGCAGATTTAGAAAATTTATATTCATTAGCTAAAGAGCATAACGCTATCTTAATTACTACAAGAAAAGATTATGTTAAATTTAATTATTTAAATGATGAGATTATTTGCTTAGATGTCGAATTATCTATCAACAATCCTGATTTATTAAATGAAAAAATTTTTAAAAAAGCTAAGATACTTAATTGAGTATTTTATCGTTATTATATTCCTGAAAGTAATCGGAATATTTGGTATAGATAAAGCGTCAGATATTTGTAGTTTTATAGCAAGAAAAGTCGGTATATTATTTGCTGTTAATAAAATTGCTAAACGTAATATTAAATCAGTATTCGGTGATATGTATGATGTTGAAAAAATCATAGATCAAACTTGGGATAATTTCGGTAGGTTTATCGGTGAATTTATATATGTTGATAAAATGGATGAATCTGAGTTAGAGAGTAGAATAGAAATAATAGGTAAAGAAAATATTAAAAAACTTGAAGATCAACCTTTTTTACTATTTAGCGGTCACTTTGCTAATTGGGATATTAGTCTTAAGGTTCTTAAGAAATATTATCCGAAAGTGGCTGTAATTTATCGGAAAGCAAATAACCCATATGTTAATAAGTTAGTTAATGAAAGTCGTGCAGGTGATAAATTGAGACTTATACCAAAAGGCTCTGAAGGTATTAGATCTTTAGTTAGGGCTATTAAAGAGGGTGAATCTATTGTTATGCTTGTTGATCAAAAAATGAATGATGGAATTGAAGTGCCATTTTTAGGGCGTCCATCTATGACTGCAAGCTCTATTGCGAAAATTGCTTTACAGTACAAATATCCGATTATACCTTGCCAAATTATTAGGACTAAAGGCAGTTATTTTAAAGTAATAGTTCATCCGCAATTAAAGTTTGAGCAAACCGGTGATAATAAAGTCGATTGCTATAATATTATGTTTAATATTAATCAAATTCTAGGGGAATGGGTAAAACAAAATCCTGCTCAATGGTTCTGGTTCCACAATAGATGGAAGAAATAATATGTGATGTAGGACAAAATAATCTATATTTCAATAATACTATTCTTTAATACAATGTCTTTATTATATAATTGACCAAAATCAGTGCAAGTAGTGTCATATTTGATGCATTCCCATTTCTTAGCGGATTCTAAGGCTTCGTTGTTATTATATTCCACCTTAGTTTGATTGTTAATTAATACTTGTTTTGGAAAAGTGCGTTTTTCTCGGTCTGTTTGTTCTTGTTGATCATTAGAATTAGTTATAATGGGAACCTTGATAAGGGATATTTGCCATAATGATTTATCAGCTATACTGTTATTACAATCCTCTGTATCTTTTTATGAAAAATCTCTGTTTCGAGATAAGATTATTCTCTTTTAGAGCCTTGAATGCCTTAGAAACAGAATTTCTATGTAATTTAAGCTCTTCTTGTAATTCTTTATAAGAAGTAACAATAGATGATGCAAGTGATGAGTTGACCTTTGTTAAGGTATTATCAGAATCGTCATAATTGTACTTACCAGTAGTAGATTTATAAATCTTAGTAAAAAAGATGCAGCATGATTACTTTAGATGTTGTAGAAATGCTACAATTAGCATTTAATTGTTTTAAGAATTGATAAGGTACTCTAATAAACATCTTAGTATTTTCAAGATGTTGTCTCTTGTCTTCTATGGTAGATAGAAAGGTTTTATCTATAGAATCTAGATTATATGACTGAGAATAATCAGTTCTGTTGAATCAAAAGATATCAAGATTGCATCCTTAATTTTAAATTTGTTCTTTAACTGCACTATTAAGATTAACTTAAGTGAAAATGCTGATTTTAAACTTGAGTTAAAATATAATCTTCTAATGATATTAGATGAGTTCCAAGCTATTGGGAATATTCCTTATGTTAAAGAGACAGTAGGCTACATTGCAGGCTATCAATTGCAGTTATTGACGATTTTTCAAAATGTATCCCAGCTGAACGAAATATACGGTATGCAAGGTAGAAAAACATTACTTTCTAACCATTCAGCATCATCTTGTTCCTAATGAGCAAGATGATGCTGAATACTTTTCAAATGAAATAGCTTATATTACGACACATTCTGTATCAGAAAGCAGAAGTCAAAGACTCAGAATATTATCTCACGCAGAATCCCCTAGTAAAGCAAAACGTCCATTAATGCTTCCTCAAGAATTAAAGCAAATGTCTTTTGGGGAAGAAATTGTCTTACTGAACGGTAAAAATCCAATCAAATGTGAAAAGGCTTTGTTTATGCATTAGCTCATTAGCTTGTCACCTACTCTGGAGCTCTATACTCAAGGCAATAAGATGCCAACTAAAGAGGCGCTGGTTTATTGCCTTGAGTAAGAAATGCATTAGCAATTGAAATGTTGTAAACAGAATAAAATACGAGTGATTTTTAACAAAAATCTATTGCTGAATTTAATTCACCAAGTGTATTTAAAATGTTAACATTTTTTTGTTCAAGTAATTGATAATTATTACTATATTCTTCAAATAATGCAGTAATAGGAACAATGTTTAGGAAATCACCAACTTGTTTGCATAGTAAATTAATGTTTCGAACATTTTCTATTGTAGAATCACTTAAAACCCTTGTTATCTTATCCGTTAATATTGGGATTTTATTATAAAAAGCCTGTATATCCGCACTTGAATCTAATCCACTGATATTTAAATCCTTAATATACTGCTTACCACTGATAATAACATTTAAACACCTATCTACTGTCGACTTAGCCTTAATATAATGATTGTTTAGAAATGCTCTTAACTCATTAAGGACTGGTGTACAATGAGCCATTTTTAACAATGTTAAATTAGGTATCAGACACTCTGGATTATTTTGATAATGCGAAGTAGAAGCTTTGAACTGATTTTGATCTATTCGCTCATACTCAGGAATCTGCATTTTGTGAGAATTATCAAAGAATTTTAGATTATCTTGGATAAATTTATTAGCTTCTGCAGTAATCTCGATCTCCTTTTTATTTTGAATTAGACCTAGAAATACATTTCTAGGTAATACATCTCCAAGATTTGGATTTAATAATTTTTGAAGTTCGTGAGTAACAATATCTACATCATCTCCAAAAATTTTATCCCATACTAAAAGATCAGATACTAATTTATTACCGTGACTAATTATTTTAGCGATTTGATCACCGTGAACATTTAATACTTTTTTTAATTTTTCATAAGTTTTGCATTCTGCCATTAGGAGTTGTTTTAAATGATCATGAACATTAATACTATAATCACGAATATTCTCGCCAATATTTGCAAAAGCGAGTAAAATTCCAGCTTCAGATTTTGCATTTATTTCTAATTGGTGATTATTGGCCGCTAAAAAACAAAATCTTTTTAAAGCTAGATCTTTAGTAGCTATTATATCCTCATCATTAACATTTAATTCTGATATATTTTGTACTATGGTAGATAATGTATTACTACCATTAATTACTTGTAATATTTTTTGTTTGTTAGATTCTAATATTACCGCTCCGCACATACCTATACTATCAAGGTGTTCGTCTTGCAAAGATACTAAAGAATTAATAAAAGTTTTATAGTTTACAAGATTAATACCACTTGCTACATATAATAATTCAATAAGCTCTACATCAATGCTGTTAAAGATATTTGTCCCAAAATTTCCACTAGCATATTCATATTTTAAATTTTTTCTATGATGAGTACTATCAGAGCCACAAGATTTATTATATAGCTTTTCTTGGAAAACCATATTAGCTAAACTTCCTACTTCCTTAATATCTAACTTAGATAGAGATTCTCTTATTAGAGATAGTAGCTTATCTTTTTCCTGAGCAGTTGGGCTATTAATTTTAATTGCATCATCTATATGAAATCTTGCTATATCTATAAGCGTAGGTATCATATTTGATTCATTTAACATTTTATCGAGAAATCGTGCTGAAGTTATCAGCTGAAAAACATCTTGTCCTGTATTACTCTGATGTGATAATTGTCCTTGCAATAAATCGTGATTGTGACATTTTAATAAATTTATAATGAATTTACTACATTCTAATAATTGTGCCCTAATTGCTTCCATTAACGGTGTGTCCTTATCTCTATCTTGATGAATCCAAGCATTAATAGGAATATTTTTCCTTTGCAGTAACTCCAATATCTCTAATGCTTTAAAATCATGTTTCCTGATATCCATGCCCGTGTTATGTCTATAGAAAAGATACATAATACCATTATTTCCATTGTCATTTGTAGCCATAGGATCAGCTCCGTGATCTAACAATAAGGTTATGATATCCTTTCTTAGATGTTCACAAGCCCTGATAAATAAGCTGCTATTATCCTTTTTTGATCGCTCATTAATTAATTCAGGATATTCAGCTATTAATTCATATAATTCTGATATTTTATTTTGTTCTACATATTTAAAAGCACTGATTCTTATATTGTCTGATATATTAGGCATAGTGATTTATTCAATTTTATTATAATGAGTATAGGTGGTCAAGGTAGTCATTATACTAATAAATATTGAATATACAAGCGTAATAGTAATTATTATGTGAATTAGTCAAATATTAGAACCTTAATGTATGCTTCTGCTTCATATTTTTGCTTATATTATTGATTTAGTAACATGTTTTTTATGATCGAATTCTTTTTTAGCTGTAATATGTGCTTTGATTCTTTCTCTAGAATTTAACTTAATTTCTTGAGTTTTAGTAAAAGATTCTTTGGTATTTGCATCCGATAATTCTATTTTTTGCTCTATAGAATGACTAAAATTTTCTATTTTCCATTGATTCCTATGTGTCTCTTTCTAATCCAAAATCTTTCCATCTTTGTTGATGCGTTTAAGACATGATGCTCTTATTCGTAAGGCTTTCGAGAACCCAATAGTAGTCAAAGAGTTTTTTGAGATGCATCTGTCTAGTCAGATTAAGGCTATGTTCTCTTCTCATACTCTTAAGATTAAAAAAGAAAGCTTTATTGAAGCAGATTTAAAGCACTCTAATATCTGATATTCTATTCTTAGCTAAGTTTAAAGATAATATTGGATATCTTTGGGTTCTATTAGAGAATCAAAGTACTCCTGAGAACTTCATGACTTTTAGGCTATTTAAGTATATGACGGATATTGCAGCAAGGCATTTAACTCTTAATCCTCAATCTAACATTTACCTTTACCAACTAGTATTTTACAATGGCCAAAAGAAATATAATGTTCCGAAGAATATTTGGGATCTATGTCAGTATAAAGAACTAATGCAAGATATTTGGACTAAAGATTATCAAATAATTAATGTCCATGATATTCCTGATGATGAACTAAAGAAAAAAGCGTGGGTAGGCATACTGCAATTCTTTATGCAACATATTTCACGAAAGAGATTTACTTAATAAAAGATTGTATGAGGTATCTGATCTATTACCAGAACTTGCTAAACTCAATATTGGTATTGATTACCTAGAACTGATATGAACCTATACATTGATTAAAATAGAACTAGAAAAAATATTAAAGTCGCATCTTAATAACCAGCAAGGAGAAAGACTTATGACTAGCTTAGCTCATCATTGGGAACAACAAGGTGTAGAAAAAGGTATACAACAAGGTATGCAGATTGGGGAAGCTACAGGTTTTCAGATTGGTAAAAACGAATGGAAATATGAAGTAGCTAAAAATATGTATAATGTTGGCTCTGATATCGCTTTCATCTCTAAAGTCACTGGACTCTCTATCGCTGAGCTCAACACTATTCTTAAATCTAAATCCTAACTATTCTTTTTGGAAAGTAGTAAGTTCTACTACTTTCAGCTATATCTTTACTTAGTCCCTTGTTTTAATTTTTTGCGTTTGCTGGTTGTCTATTTTACTAGACGATTCTTTTAACTTTTTTGTTTAATTCTTCTTGGAATTGCTCTATAGATGATATTGATTCTTGTTACAGATGCTAGCATTTGTAGTCTTCTTACCATATTCAGGTCTAATTACTTATAGCAAGATATGCACTATAATTATTTTTATTGAAAATCTATTATTTATCTATATAATGTATTTTTAATCTAAAAATTATATTCATAGATCATGCCACAATTATTAACACCACCTTTATCACCTCTTATAATTGCAGTACTTAATGGAAATATAGAATATACTAGTGAGTTATTACAAAATGGGGTAGATATAGATGTACGTGATAAGAACGGCAATTCTGCGTTACATATAGCCGCAAGTAAAGGATATACAAAAATTGCTACAATGCTTCTGTTATATGGAGCAACTATTGATGCACCTAATTTTGAGTTAGCCACACCTCTACATTATGCTGCTGCTAATAATTATAAAGATTTGACTCAATATCTTCTTAATATGAATGCGAATAAGTCAGCTGTTAATAAATATAACTAGTCTCCACAAGATTTGGCTAGATTATTCAATTCTCATGAAGTAATACCAATATTATGTACAACTGACAGTAGTGTATGTACCACACCGCAACAAAATCAAATAGTGTTAAGTTATAATATAGATATAGGTGGCATAACAGCTTTATCTATAATGACTGAATTAGCAACATCTCACAAAACAAAGATCGTTATTGCAAATTATCTTGAAATTGTTCCAACTATTGCTAATCCTAATTCTTTATTTATGTATATGTATGATGATATAAAACAATGCATTTATATCAATTTTAGTATACCAGAAACATTAAAGATATTTAGTGAGGCAAAAAACAATGCTCGTAAAGCTTTACAGAATAGCGATGGTTTGATCATACCTGGAAATGTCAATATGGTTGATGCTAGGTTATTTGGGGAAGTTATTAGTCCAAATGACGTGAAATTACATAACTTAGAACGTAATATTGCAGAAATGGCTTTGATTCATGTTGCAACTCAACGTGGTATTCCTATACTTGGTATTTGTGGTGGCATCAAATTCTTAATACTTATTTTGGTGGCAAGATCGGTAATAACAGTAAAGATCATAATCTATATGTAAATATTATTCCAAATTCTGAACTTTCACAAATAATTTTTGGTAAACCAAGTATGAGCATAGAAAAAGAAAAATTTTGGGCATCTCATAAGCAAGTTGTAAAAGAGATAGGAGGCACTAATCTCATCAACGGTAAGCATGATTTGTTTAAAGCTGTAGCTTATACCAGTGATGATATTGAAGCTGTAGAATCACAATTTGGGGTACCTATTATGGGATTACAATTTCATCCTGAAATGTCTATGTATAGCAATGCATTCACTTGCTCAGAGAAGGGAAGAGATAAGAAAATTTACTTATCATTTCAGCAATCAGTATGGTCCTTCCATAATAAACAAGTTTTACTGGCGGAATTTAAAAATAGTAAACATTATTCTAAAACTCAACACCCAACTGAAGATATCACTGAAAAACTTATTAATTATGAAAATAATAAATATAACAATAATATAATTGATATTTTTAACGAGACTTCAGTTGAGATTATAGGATATTCAAATGTAGAAATTCTCAATTAAATCTTAATTATTCTTTTTGGAAAGTAGTATAGGTCTACTACTTTATATCTTTATACATTGATGACATCACCTAATACACTGTTTACGTTCTTATGGTCAAGGTAACAACCTAATGATTCTCTTGATAATACTCAAAGTCTAGTTGTGCGTAATTTAAATCGCTATGTTCTATATTCACTGCCTTTGTCTTAAGTATTTCTATATCAGAATTTTGCTTTTTTGTTCTTATATAGAATCTTAGATGCAGTCACGTAAAACATTCTGTACAGTTATGTTTTGTAAAGTTAAGTTGCAATACCTTTTAAGGTTAGTTATAATTGAATTATTCCAATAATTGTATAGTTATGAATCTTTAAATATTTTACGTGACTAGCTCTTAATGTTTCCTCCTCCGCATGTACAGGGTTAGGATTTTATATAAAAAATCATTATCATTAGTAATACTAACTAAGTTATCCATATTTATAATAATCTTTTAAAATTAGTTCTAATTGAGGTATTATAACTAAATCTTTATTATCTATTTGATTAAGCTTGTTTGTTAACATTTCAAAAAAAATGGGTGGTACTTCTCAATATTTTATAATGCCATGATATATAAGATCGTTAATTGAAATATCTTTTAAGCATATCTCCTCAACTTTCAACATTTTCTTTGAAAGATTTATATCTTGAGTATGCATTACGACGTTCACAATATTTGTATTCTTGGCATATATTATACGCGTCCAAAAACGAACGGTTTTAGACAGATCTAATTCTAAAGTCCTAAAATCCTAAAATAAGATTATTGCACTTTTGGACAGTTATTTAGGACATCCTTTTTGGTATTATTTAGACTAGTTAAGTCTTGATGCTAAAGGTACGAAAAACACATGTTTTACTAAACTATCATCTATTTACAAATATCAAAAATAGGCTATTTATATACGACAAACACTGTCGTATTAGTTGATATTATGATAATCAGTAAAAGAGGGTGCTCTGCTGTACATGCTAGTTGGATATATAAGGGTTTCTAGTGAAAATGATCGTCAAGTGTTCGATCTACAATATGATGCTCTTATCAAAGAGAGTGTCGATCCAAGACATATTTTTCAAGATCAGGTAAGTGGAGCAAAAGATAATAGAAAAGGATTACAAGAGGCTCTTAGTTATTTACAAGATGGCGACTGTCTAATTGTATGGAAATTAGATAGACTCGGACGTTCATTGTCTCATCTCATTATACTTATTGATGGCTTCAAGCAAAAAAATATTGGTTTTAAATCCATAACTGAGCAAATGGATACTACAACGTCTCATGGTGAGTTCTTATTCAGTGTGTTTGTGGCTCTTGCCCAAAAGAACGCATTATGGCAGTGTTGAAAGCGGCTAAGCAAAGTTGGAAAACAGTAGGAAGACCAAGAGCAATATCACCTGAAAAAATGTAAGCAATTAGTGAAGGATTGAACTCCGGCACAAGCAAAGCTGCAATATGTCGGACATAACTATTCTTTATGATACTTTAGATGAGATACACCATTGTATGTAAGATTAAATCTTGACTTCAATGTGGTAAATCACTATTTGCTAATGCAGTCTTAATGTTATTAGCTTCGCGATGTTCCGCTATTTTTAACATCCTCTAAGTTACTAGCGGCATAGTAGGTTGTGCAGCAAGTGCATTTAATGTATCACGGGACATATTAGGTACGACTTCGTATAATAGCAATCGGTCTTGGTCTAATTCAACTGGCAGTAAATGGCTCTGTCAAAATAAGTGTGTAAAATTCTCAAAGGTTAGAAAATATAACAAAAAGAGAAATTACAATGAGACAGAAACAAAATACAACAATGAATCAAGCGATAGATTTATTGATCAATAATGATACAGTTGTATCAACTTTATTGAAGGAAGATGGTTTATTAAAAGAACTAACCAAGCGTCTTGTAGAGAAAACTCTACAGTCTGAGATAAATAATCATTTAGGATATAGTAAGTATAATCAAAGTGATGCCCAGAATTCACGTAATGGTTATAACACAAAGAATCTGATTACAAAGAATGGTGCTGTTGAGATTGAAGTGCTAAGAGATAGATAGTAGTTTTGTACTATCAGAATACTTGATGGTTTTGATGATAAAGTACTATCTTTGTGTGAAAAAGGGATTAGTTTATCAGATATAAAATTACAGATTCAGGAATTATATGGAGCTGAAGTAAGCGAGAGTTTAATTAGCCAAATCACAGATGATATAATAGAAGATGTTAAGCTATAGCAGAGCCGTCCATTAGATTCAGTATATGCTATAGTATTTTTTGATTGTTTAATAGTAAAAGTACGTCAGGATAAACGGATTATCAATAAATCGGTATATGTTGCATTAGATATTGATTTAGAAGGGCGGCAAGATATTTTGGGATTGTGGATAAGTGAGAATGAAGGAGCTAAGTTTTGGCTTGGTAATTTTACTGAGATGAAAAATAGAGGTATGCAAGACATACTGATAGCATGTAGCGATGACCTTGATGGTATGTCTGAAGCTATAGATGCTGTTTTTCCAAAGACGGAGCATCAATTATATATTTTGTACATCAAATTAGGAATAGTTTACGATATGTATCATATAAGGACCGGAAAAAGCTTGCTGGTTATTTAAAACCTATTTATACAGCTAGTACAGAAAAATAAGCACTTTCTCCGCTTTAGAGGCTTTTGAATCTAAATGGAATAAACAATATCCTCAAATGGCTAAATCTTGGTATGTGCACTGGGATAATTTAATGATTTTCTTAGGATACCCTGAAGAAATACGAAAAATAATTTATACACTGGAAAAGTTTACACACTTATTTTGGAACACTCCAGTAAATTGTTTTTATCCAGTTGATCCCATTCTTTTTTTGATAAATCAGAATTGCTATATTGTTTAGCAAATTTATGTGATGCGGCAAGGATTGGTCTGTTATTGATCATGTCTTGTACTTTTTGCCACTGAAATCCTTCTTTGGGCACAAGGGCCGTTGACATACCTTGTTTTTTGCCCATGTTATATTTTTCTTACTGTCATCTATTAGTACAACGTTAGATTTATTTATTATGCCTACTAATTCTATGGCTTTTTCTATAATGTTCGGTTTTAGCATTAGGACTACTTGGGCCCATAGGAAACCTCACTATTATATTGATACCCTCAAGTTGTATTCTAGTGAGTCCCAACTCTGCTAGAGCTGTAGAAATTGCATCAGGATATTGAGTAAAAGAAGTAATCGCTATATGATATCCTTGGTCTAATATATTCTCAAATGTTTTTTAAAGTCCTATCTTATCTCTTAAGCCACATATCATGATCTTTAAATAATCTGGAAGCTTCTTGTTTGACCAGCTGCTTATCATATCCTGGGTTTAGTTCTCCTGTCTGTACTATACAATTTACTACTATAGTGTTATCTTGTGTTATAGGTGCAACAGATGGTTCAAATCTTGAATATATTTAGTCAACCTCTACCTGTTTTTATCCAATGTTCCATATTGTATCCTGAAAATGTCCTTCTACTATAGTATTATCAAAATCAAATCAAAATAATTGTTTCATTTATTATCCTCATATTTATTATATATTGCTTACGCCAAACCTCATTATTTGATACTTTATCATCTATCCCCTCCAGTTACATGCCCTCTTTTCAGGCCTCCATGCCGCAACTCATATAGGGCTCAAGTACGCTTTCCACCTCATTTAACTCAATTCTTGCACTACCTTTTGCCCTGCTGCATAATCTAGTATTAGCTTTTCTAATTCCGGATTACTATAATCATGCGCACTAGATAAATACTAGTCAATATTTTCAATCAGGATTATCATACGCAAATGATGTGAGATATTGTTTAATACCGTAATATCTGCTCTCTATTATCATTGGTAATAACACCGTAACACATCACCATGACTCTTATTAGTATTTCTCGCAGCATCTTCATTACTATTTGCTATATCATCAGATGTCACTGTTATAGCTTTCTTATTTATAATGCTAGCATCATCACTACTATTATCTAAATCTAAGCTAACTTCTATTACTACCTCTGTATCTTCTGCTGCCTTCTCATGGGTTATAGCTTTAGTCTCTAATTCTATATATTTTACTAAATTATCACATAGCTTGTGTAATTGCTCTGTGTGATCTTCTATATATTGACGACCTACTGCCACTAAAGCTTCAATGTTTTTAAGGCTATTATTATCTAAACTCTTGTGTCTCCTTAGATAGGTAGCTTTACTTCTACAAACTCATCCTCTCTCGGTAAATCTACTATTACCTCTGCTTTGGAACTATCTTCACTGCTTTGCATTAAATGACTAACTAACTATCTTTAACAAGCAATCCTATAAGTCCATCAAATCCTATCTTCGATATTCAGTTGTTAGCCTCACGATCATTATCAAAGTTAAGGGATAATACAATTGTGTTATATGGTATTTTGGCATTCTCTTCCCTGATATGACAGTTCTTTAATATCTTGCGGCCTAATATGCCGGTCTATTAGCCCTAAGTCCTCCATCTGCATACGCATATAGCACGTCTTCTTGGTTCTCATAACCTTTAATTATTTTCTCTATTACTACATCTCATATAACTTATAACTAATATTATATAAGCTTAAAACTAAAAAGTATAATTAATACTTATGCAGTAATAATTAATACTTTATGAAAAATTAACGATGATTTTATGAATTAATATATAATTGAATAATTATTTTTTATGAAGTATACCTATTATTAACTTTTATAGTTTGATATAGCAAAATTAGTTTAAACTACTATTGTCGTTAATCTTTCCTTTGGTACTAATTAATGAGGGTGTTAGATTTTTTCATCTCAAAAATATCACATATACCTATACTGCACTCTCTTAACTACAGTATTACCAATCAATCTCTGTATAACGTGCGAGTAATTATTCCTGATGCACTCTGCCATAAACCTTGTTGGCATTATTAGCGTTATTATGTCAATTTTCCTACATTCTTTAGCCGCTGCTTTAGAAAACCAAATCGCATATATAGCTTCTCCTAGTTCTTCTCTTAAATCCTTTCTAATTTGAATCTATACTGTATTTTCTTCTATTTTATCTAATTCCTTACTGCTATATAAAATTCCAATATCTTTGCTACTACTAGAAATACTATCAGATTCTTTGATTTTCTAGTTCTTCTTTTCTTTTTACCTTTCCATCTACCTATTGCAGAATATCCTATATTCACTGTATTTACATCTTCAACTACCATCGCATAATACCCATTGATGCCATATACTGCTTCTAATTGCTCGCTTAAAGTTGCTATTTATCACTCGCTTAAATTGAGTCGGTTTGGTACTAACACAATAAAAACACTATTATCATGATTTGTTTTAAATTCTACCTGTGTTAGCATTTCATACACTACCTCTGCACTAAATTTTTCAGCTATCTTCTTCCTTACCTACATATCTTTGCTGGTATCAAACGAGTTTTCTATTTGGTTTAGGTATTTCTCATATTCTAGTAAGTTTTTCTCTATCTCTCCTATGTTACAGCTAAACCTAAATCTTGTATGATTTACTAGTGGTCCTTGATGTTTCTCATTCTTTAGAATCTTTGCCATATAGCTCAAGAATGTAAATTTGTTCTTAAATCTCTTCTCATTATATTTGATGTAGAACTTCAGTAATAACTGATTCATAGAATTATTGCTGAATTCTCTATTTGCTCTAAAGTTGAGAGAATCAACACCTTTTTTAGAAAGTGGGTAGAAATGCCTTAATTCCTTATATTCAGATATATCTTCGATGGTTCTTGCAGTAGACTCAGAGGTAGTATTAGACCAAAATGGTTTAGCCTTAATAGAACTTTCAAAAGAATTGTTATAAGATTCAGATGAAAACAAGCAAAGCTCGTTTTTCAAAAATTCTTTTTTAGCATCTATCTATAAGAGATGTAGTGTGCACATATTAAGAGCTCTTCTTTTTGTCTTATAAACTTCTTACTCTTATTAAAGTTGATCTTTATATTATTACACTTCATTTCACTTTGGAGTGTTACTCTATAGTACCTAATTTTTCCTTCTTGATGGTATTTTAACATTTAGCACAGATAAATTTGCTTAACTAATCAAGTAAAAACGTAGTTTTATTAAAAATTTATTTTTTGATACTCAGATAATCAACGTATTAAGGATATTGAATTCTAGTTTTAGTTTATTACAATTTTGTTCTGCGATTGGTCCATACATGCGTATCGTATTTCATAATATGATGTATTTTTCTTTTAAATCTATAATGACTTTTTACATATATACCTGTAAAGAAGTAATTTTTTCTAATGTAATAATAATATACAAAAATATTTTAAAATTGTTTTTCATAATTATTTATGATAACTTATTATAAGCACTAATCACTATAGTATTTGAAACTTTACATTAAAATAGTTGCAGTTTTTCTAAAATGCTGTCAATGATTACTGTAGAGAATTTTTATTTATAAAAAATGTCAGGCAGGAGTTCTTTGTTAAAAGTAATAACTTAGAAGAAATATGTTAAGGATAGTGAATACCAAAAATAGTAATATTAGAATTTAATAAAGGCATTATAGTTTGAGTAGAAAATTAAAGGTGATAAAGTATATAGATAAGCTCTTGTAAAAAACTTAAGTAAGAAAATTGAACAATAAAAATAAAATATAACATTTAATATTAAAGAATATATAAAATAAATGCTACCGTTAATTTTTGATTAATAAATAGTATTTTGCAGATTCACATCCCAAGAACTAAACAAAAGATAGTGAAGTGCAAACTAGATATAAAACCTAAAACGATACTTACTATCAGGTGGTGGCACCAAAGCGTTGGACAAGAATGTGAAAGATCAGAAATGTACGAAAGTTGAAGCATTAGCAAAATTTATAGGTTATAGCTTTATGTAAAAAGTAAAAATTGAAAATTATTAAAAATCCTGAAGTGCAAATAAATATTATTATGTAATTTATTAACGTAATATTCTACTGTTATTAATATTTTAGTTCTGGATATTTAAACAACATAATATATAAAATTGGTATTATTTATGACTATTACAAAAAACAAAATTTCACTTATGTTAAGTTCAAAATTGGGTTTTTCAAATAATTTGTGTGAAGCAATCGTTAATACGGTTTTTTCTAATATTTTAGAAATAGCAAAAGTGCAAAAATTAACTTTAAAAAATTTTGGTAGTTTTGAAGTTAAACAAAAAACCCCACGTCCTGGAATAAATTTTCATACTAAATCGCCAGTAATGATAGCATCAAAAAAGAATTTGCGTTTTACTCCTTCTGAAAAATTAAAAGCTTTAATTAATAAATCGATGTTATAAACTATTATTTTCCATATCAACGTATTAGGATAGATGTGAATTGAGTTAATATTATTATACCGTAAACTTTAATCGAGTGATCTATATAACTTATTGTATCAGATCTGGATTGCAACACACGTGGTGACGAAAAAAACTGAATATGTGCTTTTATCTAGGTGATTTTATGTAATAACACATGTATTTTAGAGTATATGATAAACAATAAACTCACAAAAAAATATTATGTTGCTAGTGAGGTGATAAGGATTTTAAATATTGCTTTACATAAATTAAGGTATCTAGAAACCAAAATACCTGGTTTATCTCATTATAAAATAAATAATAGAAAATATTATACTGCTCATGATATTGATCTGCTTCAAAAATTTTTGTTTGTAAGCCGAAGAGAGGAGTATCTAGAAGTACGTGGGTATCATAGGTCTGACAAAGACTATTTAGCAAATTTTTCAAATATACATTGTGCTTCAGACACATCTAGACAAAATGAATTTCAAGGTAAGAATTCAGAGTGTATATTAAACTTACATGTTCAGCAAAGGCAAGACTCGCAAAGTGCAGTTGTATTGAGCTTAATGGATAATACTGTATCGAGTAGAATCGATATATTACTTACAAACTTTCATAATTTATCTATTCAAATAAAAAAAATCTTGCTGATTTCTTGATGACTTTATAGTATTCGCTATATCATAATTTAAATGAGGATGCGATGAAAATAAGACAAACAGCAAAGCCGGTAATTATAGGCATATCTGGACCTGAATTAACTGATGCTGAACGCGAATTATTTGAAGAACATAATCCTTTAGGTATAATTTTATTCCGTCGTAATATTAGAAAGAATGAGAAAGGTGAGCAGGATAAAGCAGCACTTATAAAGCTTATAGCTGATATAAAAGAAGTATTAGGTGATAATACTATCATTGCTATAGATCAAGAAGGTGGTATGGTAAAAAGGCTTATTGCCCCAACTTTTTATGATGCTCCTGCCGCTCAAACTTTTACTGAATTACAAACGTGTAAATACAATTATAGCACAATAGCAAAAGAGTTAAGAGAAGTAGGTATTAATCTCGATTTTGCACCAGTAGCGGATTTAATACACGATGGAGCCGATAAGATAATCAGTGATAGAAGTTTTGGTAAGGAGCCGGAAATAGTCGTACCTTTATTTTTATCTGCTATAGCAGGGTTACAAGAAGAGAAAGTTACGGCTTGTATAAAACATATTCCAGGGCACGGTAGAGCTACGGTAGATAGCCATATAGAGTTGCCTATTATTGATACCAGCTTAAAAACACTAGAAGATACAGACTTTAAGGTATTTAAGGAGTTAGCTAAGTACGATTATATTAAGCTTGCTATGACAGCGCATGTAATTTATACAGCTCTTGATCCTGATAATCCTGCAACTTTATCTCAAATCGTTATTGATTATATTAAAAGTAATATTGGTTTCAAAGGGCTTATTATTTCCGATACAATAGAGATGCAAGCTTTAAGCGGTAGTATGGCAGATATTACTAAAGGAGCTTTAGATGCGGGAGTAGACATAGTACTTGAGTGTACCGGGGAATTTAATAAAATGTCTGAAGTTTTAGGTAGCGTTGCAGAAAATTCGATAGATAAATTTTCTGACTTATTCATTTCTTAATTCTATTTGTTCATTATCTAGTAACTCGTTTATTGGGCCCAGTAAATAACTCACAAGACTAATCTTATACTATTTGGATTTCATGAATAAATCGTAGAATAATATTCCAATATCAAGAGATTGTGTACGCACAATTATTTTATAGAATAGTACTTCTAATATTCTAAGTTAAATTAGACAATATTGTGCAGAAATTAATTTTTACTAAAGTTCTACTATAGGTAATATGTACAATTATAGGAGATATATAGAATTTATTTGGCATGAGGTGGATGTGATTTGCGAGACTCTGCTTAAAAAAGATTACAATAAAGTAGATATAGAACATGATATATATCCATCTTAAAGAGCATTATTCTGTTTTAAAAAAGATGAACAGAAAAGAAGCGCATATTTATTGAAAGACTTAATTGCATGTAGGATTTTAGTTCTAAAGATCTATGCTATAATGCTTTGTATGTACAATTCTCTGTATTCCGATTGTTTATACACCAAAGATTATATCAATATACCAAAAAGTAATGGATATCAGTCTCTTCATAATATAATACAGCTTTTGCACTCTAAACGTACGGTTAAAATAAAGATCAGACGTGAAGTATATAAATAAATATGCTGAGTTTGGTAGAGCAGCTCATTTATTATAAAAAGGAACAAGACCGTTATTTTAATATATTACTAATGATACAATACTTTCTAAAGCGTATCGAATGGTGCAGCAATTTGCACGATTAGAAGCGCAAATTGTAACATATGAAAAAAAGAGCATTATGTGTATTTGACTAAATACGATGAAATGGCAGCAATAGAAGGACTAATAATAAAGAGTATTGTGGTATAAGGCTTATCATTGTGACAAAGATTGTGTAGTCTAATAAAACTATTATATGTGACCGAGTGCGTTTAATCGCTGGAGTTGGTATCATTCTTGTACTATTTTATACCATTCCTTTGTATTAAGTATAGTCAAAATCAAAATTTATTTTTTAATTTTTAAATTTATTTGGTGTGATAGTATTGTAATCTTAGATAGTAATTTGTGTTCTTGAAATAAAATACTTGATCCCGTGTTTAAGATACGTAATGACATATGTAAAATTGATATACAAACTCATCATCGCAATAACTGATTATTATTTCATAACACCAATGTGATAAAAATATAACATTTATTAAAACTTTATTAAAAAACTACTGTGATGCTTGTAATTATGTACAATATATAGTACACTTAGCCCGTAGTTTAGAAACTATTGAAACAAAATATTAGGTTATTTCCTTATCAAGTGTGGGATATCTTGACTCGTATTTGATTAATTTGTTTTAATACTAGATACTAAATTTTAACTTAAATATAGGTAAAAATTATGGCTCAAAAACCAAATTTTCTTAAAAAAATAATTTCCGCAGGATTGGTAACTGCTTCCACGGCTACTATAGTAGCTGGTTTCTCTGGTGTAGCAATGGGTGCTGCTATGCAATATAATAGGACAACAAATGCAGCAGCTACAACCTTTGATGGTATAGGCTTTGATCAAGCTGCTGGTGCTAATATTCCTGTCGCTCCAAATTCAGTTATTACTGCTAATGCTAATAATCCTATTACTTTTAATACTCCAAACGGTCATTTAAATAGTTTATTTTTGGATACTGCAAATGATTTAGCAGTAACAATTAATGAGGATACTACCTTAGGATTTATAACAAATATTGCTCAGCAGGCTAAGTTCTTTAATTTTACTGTTGCTGCTGGTAAAATTCTTAACATAACAGGGCAGGGTATTACTGTTCAAGAAGCTTCTAATACAATAAATGCTCAAAATGCTCTTACAAAAGTGCATGGTGGCGCTGCTATTAACGCTAATGATCTTAGCGGGCTAGGATCAATAACCTTTGCTGCTGCGCCTTCTGTATTAGAATTTAATTTAATAAATCCTACAACTCAAGAAGCTCCTCTTACACTTGGTGCTAATTCTAAAATAGTTAATGGTGGTAATGGGACATTAAATATTACTAATGGATTTATTCAGGTTTCAGATAACACTTTTGCTGGTATTAAGACCATTAATATCGATGATTGTCAAGGTTTAATGTTTAATTCTACTCCTGATGCCGCTAATACTTTAAATTTACAAGCAGGTGGTAATACTATTAATTTTAATGGAATAGACGGTACTGGTAAATTAGTATTAGTCAGTAAGAATGGTGCTGCTACCGAATTTAATGTTACAGGAACTTTAGGTGGTAATCTAAAAGGTATTATTGAATTGAACACTGCAGCAGTAGCTGGTAAACTTATCTCTCAAGGAGGTGCTGCTAATGCAGTAATAGGTACAGATAATGGAGCAGGTAGAGCTGCAGGATTTATTGTTAGTGTTGATAATGGTAATGCAGCAACAATTTCTGGACAAGTTTATGCTAAAAACATGGTGATACAAAGTGCTAATGCAGGTGGACAAGTCACTTTTGAACACATAGTTGATGTTGGTTTAGGCGGTACCACCAACTTTAAAACTGCAGATTCTAAAGTTATAATAACAGAAAACTCAAACTTTGGTTCTACTAATTTTGGTAATCTTGACACACAGATTGTAGTCCCTGATACTAAGATTCTTAAAGGTAACTTCATAGGTGATGTAAAAAATAACGGTAATACTGCAGGTGTGATTACTTTTAATGCTAATGGTGCTTTAGTAAGTGCTAGTACTGATCCAAATATTGCAGTAACAAATATTAATGCAATTGAAGCAGAAGGGGCCGGGGTTGTAGAATTATCAGGAATACATATTGCAGAATTACGTTTAGGGAATGGTGGCTCTATCTTTAAACTTGCTGATGGCACAGTAATTAATGGTCCAGTTAACCAAAATGCTCTTATGAATAATAATGCTCTTGCAGCTGGTTCTATTCAGTTAGATGGGAGTGCTATAATTACCGGTGATATAGGTAACGGTGGTGTTAATGCTGCGTTACAACACATTACTTTAGCTAACGATGCTTCAAAAATATTAGCACTCGATGGCGCAAATATTATCGGGGCTAATGTTGGTGGTGCAATTCATTTTCAAGCTAACGGTGGTACTATTAAATTAACAAATACTCAAAATAATATTGTAGTTAATTTTGATTTAGATATAACTACTGATAAAACAGGTGTTGTTGATGCAAGTAGTTTAACAAATAATCAAACTTTAACTATTAATGGTAGTATCGGTACTGTTGTAGCTAATACTAAAACACTTGCACAATTAAACATCGGGTCAAGTAAAACAATATTAAATGCTGGCGATGTCGCTATTAACGAGTTAGTTATAGAAAATAATGGTTCAGTACAACTTAATCACAATACTTACTTAATAACAAAAACTATCAATGCTGCAAACCAAGGTCAAATAATCGTTGCCGCTGATCCTCTTAATACTAATACTACTCTTGCTGATGGTACAAATTTAGGTAGTGCAGAAAATCCACTTTCTACTATTCATTTTGCCACTAAAGCTGCTAATGCTGACTCTATATTAAATGTAGGTAAAGGAGTAAATTTATATGCTAATAATATTACTACTAACGATGCTAATGTAGGTTCTTTACACTTTAGGTCTGGTGGTACAAGTATAGTAAGTGGTACAGTTGGTGGACAGCAAGGTCATAAGCTTAATAATTTAATATTAGATAATGGTACTACTGTTAAGTTTTTAGGTGATACAACATTTAATGGTGGTACTAAAATTGAAGGTAAATCCATCTTGCAAATTAGCAATAATTATACTACTGATCATGTTGAATCTGCTGATAATACTGGTACATTAGAATTTGTTAACACTGATCCTATAACCGTAACATTAAATAAACAAGGTGCTTATTTTGGTGTTTTAAAACAAGTAATTATTTCTGGTCCAGGTAACATAGTATTTAATGAGATAGGTAATGTAGGAATTGTACATGGTATAGCAGCTAATTCAATTTCTTTTGAAAATGCAAGTTTAGGTACATCTTTATTCTTACCTAGTGGTACTCCATTAGATGTTTTAACAATTAAAAGTACCGTAGGTAATGGTACAGTAGATAATTTTAATGCTCCTATTGTAGTTGTATCAGGTATTGATAGTATGATCAATAACGGTCAAATCATCGGTGATAAAAAGAATATTATAGCTCTATCGCTTGGAAGTGATAACAGTATTACTGTTAATGCTAATACATTATATTCAGGTATCAGAACTACAAAAAATAATCAAGGTACTGTGACACTTAGTGGTGGTATGCCTAATAATCCTGGTACAATTTATGGTTTAGGTTTAGAGAATGGTAGTCCAAAGTTAAAACAAGTGACATTTACTACAGATTATAACAACTTAGGTAGTATTATTGCAAATAATGTAACAATTAATGATGATGTAACTCTTACTACAGGAGGTATAGCAGGGACAGATTTTGACGCTAAAATTACTCTTGGAAGTGTTAACGGTAACGCTAACGTAAGGTTTGTTGATAGTACATTTTCTGATCCTAGAAGTATGATTGTTGCTACTCAAGCTAATAAGGGTACTGTAACTTATTTAGGTAATGCATTAGTTAGTAATATCGGTAGTTTAGATACTCCTGTAGCTTCTGTTAGATTTACAGGTAATGATAGTGGGGCAGGATTACAAGGCAATATTTATTCACAAAATATAGATTTTGGTACTTATAATTTAACTATTCTAAATTCTAATGTCATTTTAGGTGGTGGTACTACTGCTATTAATGGTGAAATCGATCTTCTGACAAATAATTTAATATTTGCAAATGGTACTTCAACATGGGGTGATAATACTTCTATTAGTACAACGTTAAATGTATCAAGCGGTAATATAGGTCAAGTAGTCATTGCCGAAGATGCTCAAGTTAACGCAACAACTACAGGAACTACAACCATTAAAATACAAGATAATGCTAATGCAAATTTCAGTGGCACACAAGCTTATACTTTAATTCAAGGTGGTGCTAGATTTAATGGTACTTTAGGAGCTCCTAACTTTGCTGTAACAGGAAGTAATATTTTCGTAAAATATGAACTAATACGTGATTCTAACCAGGATTATGTATTAACACGTACTAACGATGTATTAAACGTAGTTACAACAGCTGTTGGAAATAGTGCAATTGCAAATGCACCTGGTGTAAGTCAGAACATTTCTAGATGCTTAGAATCAACAAATACAGCAGCTTATAATAATATGCTTTTAGCTAAAGATCCTTCTGATGTTGCAACATTTGTAGGAGCTATTGCTACAGATACAAGTGCGGCTGTAACTACAGTAAACTTAAATGATACACAAAAAACTCAAGATCTACTTAGTAATAGGCTAGGTACACTTAGATATCTAAGTAATGCTGAAACTTCTGATGTTGCTGGATCTGCAACAGGTGCAGTGTCTTCAGGTGATGAAGCGGAAGTATCTTATGGTGTATGGGCTAAACCTTTCTATAACATTGCAGAACAAGACAAAAAAGGTGGTATAGCTGGTTATAAAGCAAAAACTACTGGGGTTGTAGTTGGTTTAGATACTCTCGCTAGCGATAACCTAATGATTGGGGCAGCTATTGGGATCACTAAAACTGATATAAAACACCAAGATTATAAGAAAGGTGATAAAACTGATATTAATGGTTTATCATTCTCTCTATATGGTTCCCAACAGCTTGTTAAGAATTTCTTTGCTCAAGGTAATTCAATCTTTACCTTAAACAAAGTCAAAAGTAAAAGTCAGCGTTACTTCTTCGAGTCTAATGGTAAGATGAGCAAGCAAATTGCTGCTGGTAATTACGATAACATGACATTTGGTGGTAATTTAATATTTGGTTATGATTATAATGCAATGCCAAATGTATTAGTAACTCCAATGGCAGGACTTAGCTACTTAAAATCTTCTAATGAAAATTATAAAGAAACCGGTACAACAGTTGCAAATAAGCGCATTAATAGCAAATTTAGTGATAGAGTCGATTTAATAGTAGGGGCTAAAGTAGCTGGTAGTACTGTGAATATAACTGATATTGTGATATATCCGGAAATTCATTCTTTTGTGGTGCACAAAGTAAATGGTAAATTATCTAACTCTCAGTCTATGTTAGATGGACAAACTGCTCCATTTATCAGTCAACCTGATAGAACTGCTAAAACGTCTTATAATATAGGCTTAAGTGCAAACATAAAATCTGATGCTAAGATGGAGTATGGTATCGGTTATGATTTTAATTCTGCAAGTAAATATACTGCACATCAAGGTACTTTAAAAGTACGTGTAAACTTCTAATAATTATTTGTGATTTTAGTAAGTTTATAACTTGATTAAGAAAAAAAGCCCACTTTGAAAAAATGGGCTTTTTTTCTACTTATGTAATAAGGTCTTATTATATACATAGTATTGCAATCTAGAAAATCATTTAACAAAATTGTTTCCTCCCCCATGACTTCATACTGTGCTTTAGATGTAGTAAATACTACTCTAGACAATAATACTTACTCACATAATTTTATTACATGACTTATTTTAGTAATCCTTGCAAATGTAGGAATGAACATTTTTAGTATATCGCCTAGGGCGCTTTAGCTTATCGTTAATTAATAATAAAAAATAATTTTAGTCTTTTGATGCCAGTGGCAAATTGGATATACATTACGCTATGTAATCATATTAAGATCCTTAGAAATTATAATTTTCATTATTGTGCAATGCAATGCGTAATTATATTGCTTCATTTTTATCCTATACAATATATTCATTAACTTCTAATTGCTAGTACATAAATTTTACATTTGATAGTTTAAATAAATATTAAGCTATCAATACTGAGGTTAGATTAATGCTGATTTTAGAGGATATAAAGTAAATATTCAAAATATGTAGAGAAAGTATAGGATTTAATTATTGGTAGTATCATTGAAGATGTATATCATATAACTCAGATACTTTTTAATTAGGTCTGATGTTATATTCAATATATTTGAAAATAAAGCTCCGTAATTAATAAATTTTTTGATTCTAAAAATTGCAGATTATCATATTTCAGTACTATAAGGGAACATAAATAGAAGAACTTAGTAGTATACAAGAAAAAGATAAAAATCTCTAAGGATTAATCAGTTGTTATAATACTCTATATAAAATAGATTAAGATGATGATTTTTATAAATTTTGTAAATTTGCTTTGATCTCTATATTGCGCCTAATGAACCTAATTAGGTATTCGAAATAGATTATGGTTGAAAAAATATTCCAAATCAAGATATAGGAAATTAATAATTTCATAATATCTAGAAAGTTTAGTATTACTAATCTTTTAAATTTTATACCTATAAAGTTATTGAATGGATTCATTTTTGGCATTCAAACACTGGATAATATGCAGTAATAATATCTGAAATTTTAGAGTCAAAATAGTTAATTTTTTTGATAAAAATTGTCAAAAGATACATTTAATGAATTTTGCTTATACTTAATATTTAAAATGCATATATTATAGAACTTGGTAGTATGTAAAAATCAATTAAATTTTATATAAAAGTTAAGTATGTATTTTTAAATATAAAATGTAATGTAATTTTTGGTATTACTATATTCAATTTTAGCTAAGAAATCTAAGGTATGAAGAATAATAGAAGTATAGTAGATATAAGTAATTCGGCAACTATTTTTATGAAAAACTTAAATTGTTGAAATATTCAATTATGAAGCTTTGAGAATAATTGATAAGCATATAAATGTTAAAAATAAAAAACCTAAAGATTTATTTCTTACTAGTTTATATCTAATGAATATAGATATATTAATTAATTTAAGAAATATTAGGAAGCTATTTTTTATATATGGTATGAAGAAATCATGTAAAAAAGACAAGACACAATAGAGTTATGTTATCTTACCGAAGATCTATAATATTCAAAAAAAGCTAACACAATTTTCTTTAATGATCTAACTAGAGCTAATAAAAAAAGCATTTATTTCTTAATTAGATGCGTATTACTTCATAAAATGAGGATGCAATATATATGTTTATGAGACTGCTGAATATATTGTGATAAAAAAATGTATAAAGTCATATGTACTTTGCATCGACTAAATTTTATTTTACCTCAGCAATTTTTGCAATCTAATAATTAGATAAGAACACTTTTAGCTGATTTATCTGATAATCTTATAAAAATTTACAATCTTAAGTGAAATTAGTAAGAATTTTTTCTGATTAATGCAATAACAAAGCCGGCCGTAGTCAGAATAACTCCAATCCAAATAAAACTCATCATTGGCTTATAATATATTTTAGCATGAATTATCTTACCATCTATATTACTTAAAACGGCGTAAAGATCATATAATAAGTAAGAATGTATATCACTTTCTTGTGATAACTTCTGCTCAATTATATAAAATCTATTTTCTGGTTTTAATATAGTTATATTATTCTTATGATCTTCAAGCCAAAATTCAGCGATTTGTCTATAATAATTTTTCCCTTGAGCAAACTTAATATTTTGTAACGTTACTTTAAATGCGTTAAAAGTTTTACTTGTGCCAACTTCTCCAATGAAATCCATTTCACTTTGTAATAATGAATTCATGGTAATGCTAAAAGCAATGAGTGCAACACCAAAATGCCCTAGTATCATACTAGTGCTACTCGCTTTGAGACTATTTCTAAAGTAATTAGTTTTCACTAATAGATAATGAACATTATGGAGCATCAAAAATATAGATGTCATTATAGTTAAAATTGATATAACGCTAAATTTTATGTTTAATAATATGAAATAAGTAATTATTAGAGATAACATTAGCATTATAATATGTTTTTTTATAGAGCTATTAGTAGTAAATAATCCTATAGTACAAAGAATAGGTATAACAAATATAATAAAATTTTTAATAAAAAATTCTTCATTAATAATAATTGGCTTATCATTAAATAAAGCGTAAATTGTAGGGTAAAGTGTAGCACATATTAAGATGATAAGACTAAAAAGGAAGAATATATTACCTATGAGTATGGCTTTTTCTTTTATTGTCATATTGCAGTTTGAGTGGGTGTTCCAGTTAAAAGTATTATAAATTGTTTTTTCAATACTGCAATTATTAAGCCGTATGATAACATACAGTCCTCCAATTCCTATAATACAAAGTATTACAAGTAAGTATATCCATCTTTCAGATGAGAATGCAAAAGCGTGGATTGAATTAATAAAACCGGAACGTACTAAAAAAGTGCTAAATATTACTAATAAGAAAGTAATTATAGATAAAATTATAGTCCAGTGTTGCATTCTATTTGTTTTGGTAGTAACTATGATGGAATGATGCAACATAATGCCTGATAACCAAGGAAATAGTGAAATATTTTCTACTGGATCGAAAAACCATAATCCGCCCCAGTTGAGTTCTCTATATGCCCACCACGAACCAAGGCTAATTCCTATAGTAGTAAATAAGATACCGCATCCTGCAAATATTTTGAGGAGACGTATGGATGTAATACGGTCGCTTAATTGTGTTATCTTATAACCAGTAAAGTAGCCTGGCAGATTGTTATCAAGTCGCGATATGACAGCAATGAGAAATATAGCACAAACAATAGTAAACGGTACGGCGTAGCTAACATATCCTAAATAAAGTAAAGGTGGATGGATGCTCAAAGCAATATCTTGTAGCATTGGATTTAACCCTAACCCTTCTTTAGGAACAAAAGAAAACATATGAAATGGGTTAGAAGTAAAATAAATAAAACTGCTAAATAATAATTGTATAGCTGATAGAATAATAATAGATGAAAATTTCAACATCTTATCTTCAAGGCAAAATATATAACAGCAACTAACGATTTGTAATAAACAAAACCATAATAACATTGAGCCTTCATGGCTTGACCAACTACCTGATATTTTATATATTAAAGGTTTTAAAGTACTGGAGTGTAAGAAAACATTTTGTACTGAAAAGTCAGAAGTGATAAAAGCATATACTAAAGTACAAAATGCAAATATAGAACATAAGGAACTTGCATAAAAAGTGATAGCTTGTGTCATAACTTGGCTTGTGCATGGTATCCAGGGAAAAAATTTAAGACATATATTATTCCGATGATTTTTTTTGATCAAGTAGTCAAGCCAAGGTATGATCAATAGTGTTAATATTCCACTTAAGCACATTGTTGTTAGTAGTAAAAAATTACCAATTTTACTCACTGCTTATTGTTTCCTCAGTCATAGGTAATACAGTAATTTTGACACTATCAATCTTATTTGCAATTTTCTTTAAAATAATTATTTTAAAGTTAAATATTTTAATGACTTCTCCTTGATTTGGAATTCTAGCAATTTTATGGATTATTAATCCTGCTATAGTATTTGCATCTTCATCCGATAAATTCCAATCAAGTTCTCGGTTAATATCTCTAATAGTCGTAGTACCTTTTATAATGAACTCTGTATTAGATTCCTGAATAATTTCATTATTTAGTCTATCATGTTCATCGGTAATAGGTCCTACAATTTCTTCTATAACATCTTCGAGAGTAATAATACCTAGCAGAGTACCATATTCATCTACAACACAAGCGAAATGATTATTACGTTCTCTAAATGCGTGTAACTGGTCTACTACAAGTGCATTATCAGGGATAAACCAAGGTGGAGTTAGAAGTGTATTAATATCAACTTTTTTATCATCATTATTATTTTCATATAATGCTTTAAGTAAATCTTTTAGATTAAGAATGCCTATTATATTATCTCTATTATCTTGCCACAAAGGTATGCGTGTATGTGCACCAGATAATAAAGTTTTAATGATTAGTTCATAAGGTAGGTCTATATTCAGAGCTATAATATTGCTTCTGTGTGTCATAATTTCTGATACCGTCATATTTCGTATATCTAATATTCCACCGAGCATATTACGTTCGGATTTGTAAACTCCACCTTCTTGATGGTAATGCTCGATTACACCTCTTACTTCTTCGGTACCTGAGATTTGAGGATTTAAATTAATACGGAATATAAAGCAAAATATTTTTGTAATGTAATCAAGAGCAATATTAATAGGTTTGAAAAGCTTTAAAAATATTACTATAGTTGAAGACATTTTTAATGTTAGTTGTTCAGGTTTAGCAACGGCTATTGCTTTTGGTACTACCTCGGCAAAAACAATAATTATGAAAGCCATAACTCCGGATGCGACTATTGTTCCATTATTACCGAGTAAGCTAATAAAAAGAGTGGTCGCAATAGTGGTACAAATAGTATTAATTAAACTATTGCCTATTAATAAAGTACCTATGACTTTTTCATTTTTTTTAAGCACTTCTAAAACTGTTTTAGCACGCTTATTACCAGCGATTTTAAGTTTATGTATCTTCCCTGGGGAAGAAGCCGTAATAGCAGTTTCAGTAGCTGCAAATAAAGCAGATAGGGAGATCATTATTATAATAACAATCACAAGTATTGTAGTCATTCTTTGTTAGAATATAAATTAACTATAAATAATTATATTAATAATTATAGATTTTTCCTAATGATTTTTTAAAATATACTAATATGTATTGCAATACGTAATCCTATAAAAGCTGTGGTACTTTATTCAGTATATACTCTGGTCATTGTGAATTTCTTGTTATTTTAAAAATCGTATAGAAAGAAGTATATTAACTGCTTTTAATAAGAGTATATTGACTCATCTAAAATTATCATTTATCTGATAATACTGTACTAATGATTGTACTTGATTTCTGCTAAGCATTGGTTTTGAAAGTACTTAACACTTTCGGTGTTTGTTATTCGTCTCATCATTAATGTATTAGCTTTATACTGGTTTAAATTTCTACATTGTTCTTTTAGATTTTTAGTAGTTAAAATTTAAACCTTTAGCAGATTTTATTGCAGTACCTCATACTAAAGATTCATAAGCTTTTACTTATTGTTTAGTTTTTAGATCTGTATTCTTACACGAAGATAAACTTTATGAATATTTTGTTGCTTTTAGATTGAATGATTAACTATATACATCATTTCCAGAAAGTTTAGATTACTTTGCTAATCTTTACTGTAGTTTAATTTGTATTCTGTATTTATCTGTCTAATTATAGATTTGTTATTTAGTAATCACTAAGTTTCATCTAGCATGAAGAGTATCTTTTAGTATACCAGACTTTTCTCAAGATACTATTTTTTCTATATTTAATAGTATATATATCATATTCAGTATATAAATACTTGTTATAAATATCGATTTTGAACTTCATTGCCTTTAGTATTTAATGAGTGATGTTTTAAAGTGCTATTAGCGGTGTAATTAATTGGTTTTTGCTTGTATAGATGCTTAATTACATGTTTTGTATCATTTTTAGAGCGCTAAAAATCATGTAGTTAGTATTTTGAGTTCGAGATTCAAATTTTTGACTAATGTTACTGCTTAAAAACTATATTTTTAAAATAGTTAAAAATCCTTGTCAAAAATCCTTGAGGTTTTGATTGTTTCTCTTTATCCTGTACATATGATGTTATGTGTTCTACTTGTATATCCTTATTGCTATCATTTATCACTTTCTGTGTATTAAAATTAGAATCAATATGATTTTTCTGATCTTTATCTAAATCTTTTTTAAATTGTCTAGATATTTGTGATACATATTTTTTAAAGTTTTCAGCCGCATTATTTGGATCTTTTAGGATTTCATGAATTTCGAGTTTCAATCCGTAAATTTGATCTTCAGAAGTAATACCGAATTTAGCCGTTATAAGATTTGTTGCTTCATCTACAGAAATAGGCCAAGTTTCTATAATTTCTTTACTATCTTGATTTTTAGCTGTTTTTATTAGTTTGTCTACTTTTTTATATATTGTACTGGAGAGCCCATGATTAGTTTCATGATTATAGATAAGATTATTAAAAACAGATGTTACTAAACGTATATCTGTAATTGTAGTAGTTTTATCTTTTGGTACGATACCATCGGCTATAGATAAATTTTGATCTGCTTCATTTGTAAAAAAAACATGATCAACTTTTTCTATAATTTGTTTCCAATAAGATTTTAGTTCAGAATTTTGTGGTAATGCATTATATTTATCAAAAGTAATAGTAGTTTTTATATTTAAATTTTGTGCATTAATTAAATCTTGTGCACGGAAGATTGGTTTTACATTATTATTACTAATTTGAATATTGAAAATTGGTATTTTGCACTCTTTGTATGATTTTTCTAAGATTTCTGAAAAAATACGTTCTTTATCTGATATATGTGATTCTTTATTAACTTGAAGTGGGATAATGTGTAGTTTATTCAGAGCTTTCTGATTGTTTATTCTATCTAATATTCGATCTTTATTGCCAAATAAAAGAGTAAATATAATAGGCTCAGCCATGACTAACCTTTATTAAAAGAATATGTATTTCTATCAAAATTGCTCGTTGATTTATTATGTTGAGATACTTTGTATAAGATTTTTATAGAATAGGGTAGGATATTATACATATTTTAAAAAATCTTAGAATTTGGGACAAAAAAGTCAGATATTAAATCTTTCTAGCAATTTTCAAAGACTATACTTTTAATTATTAAAAATTTTGAGACTTAAATCAAGCTATATTTAATAATCCATGCTTTAGATTATATAATTTATCCATTTTATGTGCTAATTCATGGTTATGTGTTACCATAATAACTGTAGTATTTTGTTTTCTTGCGACTTTTAAAAATAAGTTAAAAACTTCATTTGTAGTGTTTGGATCTAAATTACCTGTTGGCTCATCAGCCAAAATAATTCTCGGCTTATTAATTAAGCTGCGAGCTATAGCTACCCTTTGTTGTTCTCCTCCCGATAATTCTCCGGGCATATTATAGAGTTTTTTTTCAAGTCCTAAATCATCTAATATCTTTGTTGCATCTTTTATTGCTTCTTTTTGATCAAGACCTCTAATAAGTCTTGGTATGATAACATTTTCAAGAGCGGTAAAATCTTTGAGTAAATGATGTTGTTGATAGATAAAACCTAAGTAATAAAGACGGATTAGATGATATTTCTTATACTTGATATTTGGTATTATGACTTGACCGTTTGTAGGCTTATCAAGCAAGCCTGCAATATGTAGTAAAGTTGATTTTCCACTACCTGAAGACCCGATGATAGCAATTAATTCACCTTCATTAGCTGTTAGATTAAGACCATCTAGTACTCTAACAATAGTGTTGCCTTGTTTATAATGTTTTGAGATCATTTTTAAAATGAGTACTATATTATTCATATCTTAAGGCATCCACTGGATTTAATTTTGAAGCTCTGTAAGAAGGATAAATTGTTGCAAGAAAGCACAATATTATAGATAAAGAGGTAATTAAAATAATATCATCAGTTTTGACTTTTGAAGGTAAACTATAAAGAAAATAAATAGCTGCCTCGAAAATTTTAATACCTGTGATACGCTCTAAATAATTTTTAATAGTTTGAATATTATAAGAAAAAGTAACACCAAGGATTACCCCTAATGTTGTGCCAAGTAATCCTATAAACATCCCGTTATAGATGAAAATAACCATTATTTGTTTGGTGCTTGCTCCCATAGTTCTAAGAATTGCAATATCTGAAGTTTTATCTTTCACAAGCATAAATAAGTTTGAAATAATATTAAATGCAGCAACCGTAATAATGAGTGATAGAATAGTAAACATAGCAGTACGCTCAACAGCAAGTGCACTTAAAAATTGTGAATTTAAAGTTTTCCAATTAAATACATATAAATTTGGGCCTAATAATGATTGTATTTTATATGAATATGTAATAGCTTGATCAGGATCTAGACTATTAATTTCAATTGAATTAATATCGTTACCAAGAGATAAGAAATTTTGTGCTGCAGTAAGCGGCATTAATATCGTTGTCAAATCATAATCATACATACCGCTATTGAAAATTGCAATAATTTGAAATTCTTTTGATCTTGGTATACTTCCAAAGGCAGTAGAAACTGAATTTGGTGAAATTAATCTCAACTTTTCCCCAACAGTTACACCTAAATTACTTGCTAATTGTTCTCCAAGTGCTATTACGTTTTTGCCATGAAAATTATCAAAACTACCAAAATTTACATTTTTAAAAATTCCATTTCTTAAACTTAAATCATTTAATTTTATACCTTTAACAAGCACACCGCTATTATTACTCTTACCAAGAGCTAGTGCTTGACCATGTGCAATGTATGTTACATGTTTTACATAATCTTGTTTTAGTAGTGTTGTCTTAATCTCTTCATAATTATCAATATTATCACCTTGCCGATTTATTACTATATCCCCATTTAATCCGATAATATTTTTAGTAAGTTCTAGATGAAAACCATTCATAACAGACATTACTACTATCAATGCTGCAACGCCAATCATGACTCCTACTAAAGAAAAGGCAGCAATAATAGAAACAAACTTTTCATTTTTCTTAGCTCTAAAATATCTAAAAGCTATATTGAAGCTAAAATTGTTATTGATCATTTTTGCACACCATGGTTTATTAAAAGAATCTAGTAAATAAGTTATCAGTATTTTATGTTATATTTCTGGGCTATGTGATTAGTCCAAGTCATGATAGGGTACGCTATGATGGCTACACTATCTCAGAAATTTCAAAAATTTTATCGTACTTAAATAATTTATGTAATGTTACTAACCCAAATAATGTAACTATGGATATAGTAATGCCAATAGGAGTAAAAGTACCGTCATATAAAAATCCTACTAATTGGAGCCCAAATGCAGTTAAAATCAATCTAGCGGCAGTAAAAATAGCCGTCATACGAGCTTTCCCGTTTGCAATAGCTTCTAAAAGCAACGGCCATAATATGTTAATTGGATATATCACACCAAGTGATAATAATAAAGTAACTATTGTTATTGTTAAAGGATTATTAATATTATATATAATTAATATGCTATTTCCTAGTAAGAATAATATTATAAATATAACTCCAAAATAGAAACAATTTTTAATCCCAAATTTTTTAAAGCAATAACCACTTGCAAAGCTCATTATTGAGAATAAAGCTGCCATTGCTCCTTGATAAAGACCAAAATATTCTAAAGTTACACCTAAATCTTGCATGTATAAAATAGGTGTAATTCCGATAAATATCCAATATCCTTGTGCAAGAAATATCATTGTAAGTATATAATATATAGCTTTAGGTGATTTAAAAATAGGTATATATTCTTTTAAAGAAACACTTATTTTTTTATTAATTTGTCCTTTTGGAATTAAAAATATACCAAGAATTAAACTAATCAAACCGACTGAAAGTAATAAAATAAAATTAGCACGCCACCCCCAAAATAAATTAACATAGCTACCTATAACAGGTGCTACTGCCATAGAAAGTGCAATAGTACCATTTAAAATGCCCATTAATTTTTGCTGTTCTTGTATCGAATAAATATCGGCGAGTACAACGTATACGAGTACTGCAACAGGTGCTATCCCGCATCCTTGAAAAAATCTGCCAAATAATATAATTTCATAATTGTTTGCAAATACACAAAATAAACTACCAAGATTAAAAATTAGTAGACCAATTATAATAATTGGTCTACGTCCGTACTTATCTCCTAAATTACCGACTATAAGTGAAGTAATACAATAAGAGATTAGATTCACTCCGAGTAGTAACTCTGTCATAAAAGTTGAAAGGTTAAATGTATCTTGTATTTCAGGAAAACTTGGGATAAATAAATCTATTTCTGATCCAGCAAGTATTTCCATGAAGATTACAGTAATAAGTAATTGCATAAGTCGTTGTTAGTTTTATGTTATTTCAAGCAAAGATTATTGTATCAGAAAGTCTGATCGATTGCATCTTCATCTATGTTATGCATTGTTGCATGATTTATTAATTTTTATGTTCTCTTCTGCGCTTGTGTAGAAAAATACAAGTATTTTTATTGTTTTTATTATGGAATGCATGAGCAAGCTAGATCATGATACGTTAGATTTTATCAATATACGAAACAACATCTTAGTAGTCATGCTAGTAAAGCAACACGACATATTAGTTTTTGATATTCTTATAGCACACAATAATTAATGTATTCTTTTTTACAAAAGCAAGAATAAATTAATATAGATAATTATCTAACAATTTTTTATTTATTAAGAGTTATATACATGACACGATAACAGGAAGATTAAAGGGAAGTGAAAGCAGAATTTCTAGCGATATATTAGAATTATTCCTAATATACGAGACTATTAATTAAATAAATTTTAAGGTTAATTCAATTTATTTCCTTAACAGTCCCATATCAATTTTTAAAAATATTATTGATTAATCCCTAAAGCTTGTTTTTGAGCATCAGTAGTATTCTCCATTACCCACTTTTGGACATCAGGACTTAACATATTATACTGATTTGCTGTTAAACTAGCAATCCAATCTTGTTGAGCGTTAGTACTCATAGCATGTATTTGAGTTGTTGTTACTGAAGCTGGGTCAGGCATTTGCATTGATGAAGCAAATACTGGGTTTGCGAAAGCTATAATTAATAAAATCTTTAATAAATTTTTCATTTTGTAAACCTTTTTGTTTTGTGTTTGTGATATTAATTATAACAAAGCCATGGTAGCTTTCAAGCTAAATTACATTAAAATTTAAATTTTTAATACTATAGTGCTTTCATTGTAACAAATATATCAATTATATATTCGATTAATTTCAACAATATCTATACTAAGTATACATTCTATTCTTAGTTTTCTGCATCCACATGGATCTTTTTAATTACTCTCTGTGTACCTAGATAGATATACTATTTTATATAGTTAATTGCTCTCGACAAATATTGCGATAGATTTCTGAGTTTTTGGATAAATCATAATGTGATCCTTCAGTAACCACCCCTCCTTTATCTATTACTAGAATATAATCAGCAGATTCTATGCTACTAATTCTGTGTGCAATTGATATAATAATGTTTCCTTTCATTATTTTTTATATAGCGTTTAATAATTTCTGTTCGCTCATTGTATCTAAAGCACTCATTGCTTCATCAAGAAGTAAAATTTTTGGTTTACGTAATAATGCTCTAGCGATAGCTATCCTTTGTTTTTGTCCACCGGATAATCTAACTCCTTTTTCACCTATTTTTGTATTGATGCCGTCATGCAGTTTAGTAGAAAATTCTTCTATTCCTGTGATTTTTATTATCTCATTTATTTCATAGTCACTTGCTTTATTATTACCGAATATAATATTTGATTTTATAGTGTCGGAAAAAATGCTCGCTTCTTGTGGGACATATGCAATGAATTTACGAATATCAGTAGGCTTTACAAAAGAGATATCTTGATTGTTAATAAGAATAGTGCCGTTTTCTTGACGATAAAAACGCAGTAATAATTGTATCAAAGTACTTTTTCCTGCACCTGATCTACCTACAATACCAACAAACTTATTAGAATTGATTTTCAAAGACATATTATTAATAACTTTTAAATTAGGTCTTGAATTATAGGTAAAATCTACATTTTTAAATTCTATTGATATTGCATCGGAATTATTTAATGCATAATAATTATTATGTACTATGGATGTTTTATCTATAATTGTAATTATTCTTTCAAGGGCTGTAGTAGGTAAATGCATTTCGCTTAGTAGTTCAAAAATACCGCCAGAGCTGACCCCTGCAATAATTGCATAATAAATAAACGATATAATTTGTCCTGCGGATAAATCTCCTTGTACTATATCTGATGCACCAATCCAAACAATTAAAGTAATTGTGAGAAATATCACAGCTATTGAAATTGCAAAGAATAAAGCACGAATTTTTAAACGTGTTTTGCAGTATATTAAATAGCTTTGTAGTTTAGTATCAAAATCAGCAATTTTATTTATTTGATGATTAAAAGCATAAATAACTCTAATATTATTAAAAGTTTCATCAATATCTGATACTAAAAGTGATTTAGATTCTAGAGCCTTTTTAGACAAAGCCTTAACATGTTTACCAAATTTAATTAAAGGTACTAATAAAATAGGAATAGTAATAATTACTATTGAAGCAAGTTTAAAGCTTTCAAAAAACATTAAAGTAATGCTACCGATTAACATTACAGAATTACGAATTAAAAAAGATAAGAAATTCACTATGAGTGTAGCTATTTGATCTATATCATTTGTAAGACGTGAAATGATATCGCCAATTTTTAATTCTTCATACTCTTCAATTTCATAATTAATTAAATTACTATAAGCTTCTTTGCGTATTTGATTAACTATCTTTTCAGCAACATTATTGATAAAATATGAGCGAAAAAAACTAGCTACACTTAAGATAACAATTAATAAACATATATATAATATAGATTTATTAACCGATAAAATATTATCTTCAGCTAAACCTCTATCGATTAAATCTCTAAAAATACTGCCGATGAGTAATAATGAAGCTGATACGCTAAGTAAGGAGATCATAACAATGATCAAGTCTTTTTTATAGAACCTTAAATATTTAGCTAGTCTATATAAAAGTTTGATATCCATAAGAAACTATAGGTCTATGGCTCGTTTTTTGTTATTTTCTGGATACTGGACACAGAATGAAAAATAGTGTGTTTTCCAATCTATGCAATAATGTCTTTTCACAATTACTAATAATTAGTAATCACATAACAACTGTAAAACATGGGGCGAGTGACGGGATTCGAACCCGTGGCCCTCAGAACCACAACCTGATGCTCTAACCAACTGAGCTACACTCGCCATAAAATTAACAATGTTAATCTAGATTATCAGAAGGATTTAGTCAAGAATATTATATAGAAAATATGAATTTATACAACAATCCTAAATGATTATGTTTCTCTAATTTTCATTATTACTAAAATTTAAAAACAAAAGGAAGCTTACATGATTTGCAGCGCGATGAGTGTATAGGTTTTTGGCAATCCACATGAAAAATACTGTAAGAATTACAAGAAGCTTGGACTTTAATGAAAGAAAGTTATATAAATGGTTATGAGTGTATTACTTTAGCAAAGTCTAGGCAATAGTTTCCGGTCTATGTTTAGCGTTGCTAAGCGTGTGTATCAAGCTTGAGTGGTCAACAATGAAAAAATCAGTTAATTTGCTTAGTGGCGGCACAGATTCTGCTACGGTTCTTGCAATAGCAAGTGAAATGTGCTATGAAATTTATGCTATGAGTTTTAATTATGGACAGCGTAATAATGCAGAATTGCGGAAAGTTAAAGAGCTTATAAAAAAATATAATGTTAAGCAGCATAAGATTGTTGATATAGATTTACGAGCTTTTGGAGGTTCTGCTTTAACCGATGATAATATAGATGTCCCATATTATCATGGGATAAACGCATTACCGGAAATTGTACCTGTTACTTATGTTCCTGCACGTAATACGATATTTTTAAGTTATGCGGTCGGTTTTGCAGAAGTAATAGGATCACAAGACATTTTTATAGGTGTTCACACAAGCGATTCAGCAAATTATCCTGATTGTTGCCCTGAGTATATTCAATCCTTTGAGAAAATGGTAAATTTAGCAACAAATATGGGAGTACAAGGTAAAAAAATTACTATTCATGCGCCTTTAATTGATATGACTAAAGAACAAATAATTAGAACTGGTCTGAAGCTGGGTGTAGATTACAAAAATACTATATCATGTTATTCACCTACTGAAGATGATTTATCTTGCGGTAATTGCCTTGCTTGTATTATAAGACTTGATGCTTTTAAAAAGAATAATATACAAGACCCAATTAAATATGTATGATAAACATTGGATATTTACATACCACTTTTCCTGTGTTTGATCTAGGAAATATAGTCCTAAGGGAATTAGCAGAAAGTGATGTACAAGATTATTTGTGTTATATGAGTAGGTCGGAAATGGGTCTTTATATAACCGAGAGTAATAGACCTAAAGACCTAGAAGAAGCTAGAAAAGAAATATTTTATTGGTCTAATTTATATACACTTCATAGAAGTTTTTATTGGGGGATTGCACTTAAAACTGATAATAAATTAATAGGTACTGCTGGTTTTAATATAATAAATCTAGAACATCATAGAGCAGAAATAAGTTATGATCTAGATCCTAATTTTTGGGGACAAGGTATTATGTTAAAATCTATAAAGAATATTTTAAAATTTGCGGATTGTATAGGTATTATACGAGTCCAAGCAACAGTAATTACAGATAATTTTCGTTCGGTTAATCTTCTTGAGAGATGTGGTTTTTCTAAGGAAGGAATCCTTAAAAAATACGAAATAATTGCCAATAAGCATAAAGACTATTATATGTACGCAAGAGTAGTATAAATTATACTTTCATTCCGCTACTTGGTAGCGGTATCTCAGGACGAAATCTTTAACACAACAACCCGCAATCAATAAGTGGGATTACAATATGTATAAACTTAAAAAAGAAAATTAATGGTAGTAGACGCTGATAAAAAAGAATTAATTTGTTCGTTTTGCAGTAAAAAACAACATGAAGTAAAAAAACTGATAGCAGGTCCTGCAGTATTTATTTGTGATGAATGTATAGATTTATGTACAGATATTATGAAAGAAGAGAGCAAAGTTGCTTTAAAGCAAATTACTGCTTCAATTCCAACACCGCAAAAAATATGTAAAATTTTAAATGATTACGTAGTTGGACAAGACCAAGCTAAAAAGATTTTAGCGGTAGCGGTTTACAATCATTATAAGAGACTTGAATATGTACAATCTGGCAATAATGATGTTGAGCTTAATAAGTCGAATATCTTACTGATTGGTCCTACTGGTTCAGGAAAAACTTTACTAGCTCAAACGCTCGCTAAAATTTTAGATGTACCTTTTACTATGGCAGATGCTACTTCTTTAACTGAAGCGGGTTATGTCGGTGAAGATGTTGAAAATATATTACTACGCTTATTAATATCAGCTGAATTTAATATAGCAAAAGCACAAAAGGGTATAATTTATATTGATGAGGTTGATAAAATCGCTCGTAAATCGGATAATCCTTCTATTACGCGAGATGTATCAGGTGAAGGAGTGCAACAGGCATTACTTAAAATTATGGAAGGAACAGTTGCTTCTGTACCTCCTCAAGGTGGTAGAAAACACCCACAACAAGATTTTGTACAGTTAGATACTTCAAATATCTTATTTATTTGTGGTGGCGCTTTTATGGGAATTGATCGCATTATTAGATCAAGAACTAATCATAGCTCTATAGGATTTGCAGCTAACATCAATATCGATAAAGAGAAAAGTAATAATGAAATTCTTAAGTCTCTAGAGATTGAAGATTTAACTAAATTTGGTTTAATTCCTGAGTTTATCGGTAGGTTACCAATTATTACTACTTTAGATGAGTTAGACAAAGAAGCTTTAATTACAATTCTCACTAAGCCTAAGAATGCTATAGTAAAACAATATCAGAAACAATTTGAGCTTGATGATGCTGATCTTGTAATTGACTATTCAGCTCTAGAAGCTATTGCTGAAAAAGCTTTAGTTAAGAAGACGGGTGCAAGAGGTTTACGTTCAATACTTGAACATCTTTTACTAGATAGTATGTATAAAGTTGCTGAGCTTAAAAAACAGCGTGTTACTATTACAAAAGAGGTGGTGGATGGCTTAATAGAACCGTGCATGACCTCTATCATTTCTACAAAATTAAATAAAAAGCAACCGATTATTGAGGATATACCTGCGTAAAGATTATTTTTGCTCCATGTCATTCATTTGAGGTATTGTTAGTTACATGGCACAATACATGTACCTTTTTTTAGTATTTTACAGTAGGTTTCACATTCAAGTTAGCTAGAATGGTAGCTGTGTAGCATTAACAAACATAGGATAATACTAATTTATTATCAATTATTATGAAAAATAATAATTAAACTACACTGATAGTCAGTGTCAGTAGGTATTTTGGAATACTTCAAGATGTATTGGAGGGGTAAGTTTAGATAAACCATAAATTAGAAAATTATCACCAAGTATGATTGAATAAGTGCAAGTTATATATTTCTTTTTCTTCAAATCACAGGTTTTATTTGCAAATTTTTACATAAAAATGCAATACAAATTTCTAGTACCCTTAAAATGTATACGCTATTATTTAATTATAGCAATTAATATGAGGTAAGCAATATTATTGAATATTTTAAAATATCAGACCAAGCGTCTCTATCAATAATATTGGTGTAATTAATAGAATAATATGTAAAGTAGCTTGCACATTATCCTATAAGTTGACATACTAGCATCATAATCAAAAGTACTAGGAATGATTCCCGCTATAAATATTCATAAGATATTTTTTTAAATAACCGATTAATAGTGCAATTTAGTATGCCATATATAATTATTGCAGGTTTAGTTACAAAACATTTTTACTAGTTTCTAGGAATTATAGAAATCAGGTGGATAAAACTTTTTTATCAGCAATATTAATAATTTGTATTAAAAATCTCATAATTTAGATCCTCTAATATTAGAGGAAATTTTTTAATGGTAACTAATTCATAATCTAACTATAATTTATCGATTTTCTTTCCCTTTATTAGTAAATAATTACTGTCAATATGCATAAACTATCACCTATTAATTAAGTAATAAAGTACAGCAATAGGTATCATGTAGTGATTTTCTGTATTTTAAATTTTTGTAAATATCAATTGCTTTTGAAGTTTAAGTATTGTTTTTTATAACTTATTCCTAGAGTTGCAATATAATAATACTTTTTACATTAGTATTTCAGTATTATTATATTTATTTTGTATTTCATAGTTCTGTAGTGCCTATTGTATATCACAATTATATATATACCTTTTGGTTGTAGGATTTTTTGTAGCTTCAGCATTCTCAGTATATTACTTATATAATCATTCTTTAATAATTCGAGTTAATCAATATTTATCTACTGTTACTAGTATTAAATTGATATGACTTAGATGCTGAAATTTTTATATCATTCATTAGATAATCTTCCAAATAAAAATATGTTATGTCCATAACTAATACTATTCTATATAATAAACCATCATGATACTTGTGTGCTTTTAATGTTATATCATAATAAAATTATTATAAATACTTGTATATAAAAGGATTGAAAAAATATTAATATGCTTGTATATCTCGTATTTTAACTTATTTATTTAATTAATTGAAATTATGAGTAATACACTAGCAGTTATTAGTAATAAACTAGAAGTAATGATGAAATATTATCATGATATATCAAATTTAGGCATAAGATTATATAAAACTACTAAAGCACTTGTGAGTTTTGATTTAGGTGAGGTATTTAAAATATGGTTCTGTGATAAAAATTTTAAGGATTTAAAGAAAATAGATCAAAGTGTTATTTATACTCAATATTTAGAAACAGTATTAAGTAAAATAGCTGCTACAGGGAAGTATCAAGATAAGCATATTAGTCATTCACAATGGATCAATTGTTTTGAAACGATAAATAATTACGATGATTTTTTACATACAAAACTCAAGAAGTTAATAGGAATCAAAAACAAGAATATAATTGATTCTATCCTAGATGATATCGGTGATATAAATTCACTAGAATTTAATATCATTTTTTCTAAAGTACAAGTATTTTTAAGTGATAATTTAGATAAATTTGAAAACTTAGTGCAAGTAGCAAAAAAAATTGATTCTATTGTATATCCTCTAACTAGAGAGTATTTTTTATACCGCTATCTAGCTAAATCAATATTAGTAGCGAAGACTTTAAGTTTACATTCCTATTCTGAAGCCGAATTTAATATAGTTAAAAAAACTCACTTAAATTTTACAAATTATCTTAATTCATTAGAGCAAAGTCTTACTAAAATAGAGAAAGCTACTAATAAATATAATGAAGAGCACAAAATTGCTTCTTGGTTAACTGCTAAATCAGATTTAGTTAGCAATCATTCAGGTAAAATAGCAGCTACTTATGCTACTCTTGTAGGTGGTGTAATCGCTTTACGTTCGTATGTAATTGATGAAAAAGATCCTTGGTATGAATTATGTGCTTTACCTTCTACTATTCTTGCTATGTTACAAATTTTAGCATCTTTTCCTGGCACAGTCTTATCAAATAGACAAACTAAAGAGATTAATAATAATATGTTTCAGGAATTAAAGAATAGTGACCAAAATGCACAGGATATCAAATTTTTATTTGATTGCACCCCAAGTTTTGCTAATGATCCTATAAATACAGCTGCAAGTTGCTTTAGGTATGCTTCTAATTTAGGTTTACAGCCTATTGATCTATTAAATAATGATATTGTTAATCGTATAATTTTATATACGGCTTTACGATGGTCAGCAGTTGCAGGAGTAGTAGAAGAACAAAGTAAAGTTACAAATTTTATGCAAACTAAATTAATTAAATTTTTGCATCATGAAATTGTACCTGCTTTAATTGAGAATAAGAAATTTACATCTAAAGAAATTAAACCATATTTTTATTTATTATATAAGCATTCTGCACAAGATAGGAATACGCAAATAAAACTGCAAACAATATATCATAAGCTTACTAACGAAGATATAGATTTGAACAATATTAAATTAGATATTAACACCTATTATGGATGGAAGAGTGTTGTTATGTGTTCGGCAATGACAACACTTATTTTAGATTATATCTGTTTTTATTTTCGTAATCAAGAATTAGCATTCTATGAAGATCCCATGTTTTATGCATCTACTTCTGTTAAATTTATGCGTCTTGCTTCTTTATTAGTATCAACATATTATGGCAATAAACTGATAGAAAATATTACAGGTGAAAAATTAGCTCATGATATGTTTTTTCAAAAATTTTACTATAATGATGCGGCAAGATTGACTGTAGCGATAGTACCATTAATAATGTTTGAGTCAATTAAAGATTTAAAACTTTTGAGTCTTGCAACTTTAATAGATGTTTTAACAACTGCTATATCGGATTTAAATGTTGGTAATGCCATTAGTAGTGCAGGCAAGAATATTGCTGAAAAAACTGCTACTACCCTTACTTGGCTTAATAAAATTGCATCAGGTACAAATGATGATACAAATGATGATATAGTTATTGATATTGCACATACAGAAGAATTACAACCACTAGGTTGTGTAGATATTTCTGATTGATTTTTGCTATTTTATGTGCTTTTTAGAGAAGATGAATAAGATTTTTGTTGGGATAACACGCCAAGCATAGTATAGGAGTAAAAAGTCGAGGGGGGGTGCATATTATTACTTCTAGAATTAGATGTTTCGAATAGGTCTAATGTGTAATTCCAATTCTAAATAATTTAATCTTCAGAATGCAGTGTCCAATGTATTTAAAAGCCTAGGTGAGCTATGGCTGTACTGCTTAAAGTATAAGAGTTTTTTTATTCATTATGAATTGCTACAGTAATATATTTTGCGTCAAACATTTTTGAGCACTTTTTAATTAAATACTTATTAATTGTTAATATTAAATATTTTTAATTGGTTGCATTATAGGTTATTTAATAAATTTGATTAGCTTTTCTTTGAGTATAATATAATGATTTTCTGAAGTTTGTACAATCTGATTGTAATATATAATTATCACATTTATCAATATTATTGTATCAATCTCCTTCTGAATAATCTTTAGTTATAATATTAGATATTACGTAATAAATAAGCTTGTAAAAGTTTCACGCTAATATATATCAAAACATATGTTTGATTTTGAAATAGTAATAACAAATTTTTCATTTTAGTCTAATTGTAGATTCAGTATTGAGATTACAGAGACAATTTATGAGATATCTTATTATGTAGCACATAGTTTTCATAGAGTGAAAATGCTAAGATGAAGAAATGAGCAAAATGCTGTTTATTTTTTGATATATTCAAGGTATTCTTATTTGTTAATTACTAACAGTTCTTCTACCATAACACAATAATAATGTTATAATTATTATGATCACTATAACAATTTGTACGTTTTTATGTCTATTGTAAAATCAATCCATGCCTTAATTAAACTTACACTTATAACATGTGTATTTTCTTTTTTAGGAGCTTTAATAATAGATATGGCTTACATAAAAAAATATTTTGACACCGCACCACTATGGAACATTAACATTTAATTATATATTATTCTTCTATTTGTGTTGGATTTTCTGCATCTACTTCAATAATTTCTGATTTAGAAGAAACAATCTGATAACGCTCTAAGGTAGCAGGCATCGCTTTATCTCCTGAATCAATACCAAGTTTTTGAATAGTTTTCACTCTTGACATTAAATTACGGTTAAACGAGGCAGCAAATTTATCATAATTAGTAACCATATTTTGTAGGTTATAACCAAATTTTTTGGAATAATCAGCTATAGTACCTATAGAACTTAACAATTTTCTAACTTCTGAAATTATTACCTTATAATTTTCTGACCGACGATTATCGGTAATTTGAAATTTTGCAAATGATAACATATTCATCAGTCCTGCAGGCCCTACCGGAAAAATATTACATCCCCAAGCTTTTTGTAAAAATTCAGGATTGGCTGCAATAACCTTTTCAACCGCTTGTTCAGTTGGCAAAAACATTAAAGTAATAACATTGTTAAAGTTGTGAGCCTTTTTGTTTAGAGTAGTTAAAATATTTTCAGCATAGTCTTTATTAGCGAGAGATTTCAAATGATAGTTCATAGTTTTACTAAGATTCACGCTATTATCCTGAGAGTCTACTAGAAACTTTGAAGCTTTGGAATCAATAACCATTAAATTGCCTGAAGGAAGAAAAATGATTGCATCAGGTCTTAGCTTGACACTATCTGATGTAGTGAGACCATATTGCATTATAAAATCTAAATTAGGACGTAATCCTGAAGATTTGAGGATATTCTCAAGTGTAATTTCAGAAAGCAACCCTGCCCCGATAGGCGAAAGTAGTGACTGTTTTATCAAATCAACTGTACTTTTTGATTGCTCAATATCTTTATTTAATGCCCCAACCATCGTAATTAATCGTTCAAGCTCACTATTAAATTTGCGAGAAGCGGTCGTGATATTTTGCTCGGCTAGCTCTCTTGCTGTATTATTTTCTATTTTATGAATTTCGATTAATTGTTTAGATAAATCCTTACCTAAATCAAATAACGCAGCTTTAGCTGATGTAAATGACTCTTCTCTTATTTTTTCTGAGTCCTTAATCATCTGCTCTTGATACTCTACTTTACACTTCAATTGCTCAATTTTTTGTAAATAAGCTATTTTTTCTTGATTCAGTAATCGATTATTATTATTAATTTCTAGATTCTGTTCCGACAAGAATTGTAACTGCCTTTTTAAGGTATGAGTTTTTATATAAAACCAAATTATTAAAACGCATAAAATAAGTAGTATAGTTGTAGTAAGTAGTAATAAACTAGGCATGTGTTTTATAATTTATGTGATCATTTTGTTATAAATATTGGAATGGTTATAATAAATTCAACATTTAATGATCATCTATATCCTTGTAAATACGAATAAATTTAGCTGAATTCACTATATTCACATGATCTTCTAAAGGTCCAAGCGGTTGAGCTGGCTTTAACAATTCTGGAGTAAGTATAAATTTAGTCTTTTTTTCAATATTTGATAAAAAAGGTAGATGTAAACTATGAGGACTGTATATTATTGCATATTTATCCCATTCTGGATATTGTCTATTTAAATTGCTTATAGGATCAGATGGACCATAGACTTCTATACTACCAAATTTATATTTTTTTAAAGGATATAATTCATGATCATAAAAGAAATGTTCCGGATACTTATCTCGAAGCATTATATTAGTATATATAAATTTGATTTTTTCTTTATGGACAATAAAAATATCTAAACAAGTTTTTTTGCATATATTATAAGCTCTCTCATAGGAAACAGTATAGCCGAGTTGCTCAAATTGTGGTAATATTTGTTGTAAATGTATTTCGTCTTCATGCATAATCCCGATATCTAAATCATCATCAAAAGGAATGATGCCTTGGTGTCTAACAGCTCCAAGCAGAGTGCCACTTTCTATCCAATACTTAATATTATTTTTAGTTAGTAACTCATGAGTATCTTTCATGAGCTGATAAAGGCTCAGTGCATTTTTTGGACTAATCCTATATTTTTTTACTTGTTCATCACTTAAGGTTACATATTGCCATTCATGTTGTAATATATAAGCATAAAATAATATACCTGCAAATATAATTAACATTAAGCCTATAATGTTTTTAAATGATAATACCGTATTTAATTTCATCACCTTTGAACCTGAAATTACATTTTCAATTCTGATTTAATATTTTCAAAAAAGATTTACTCTGTCTTCTAAAGGTCCAAGCGGTTGAGCTGGCTTTAACAATTCTGGAGTAAGTATAAATTTAGTCTTTTTTTCAATATTTGATAAAAAAGGTAGATGTAAACTATGAGGACTGTATATTATTGCATATTTATCCCATTCTGGATATTGTCTATTTAAATTGCCTATAGGATCAGATGGACCATAGACTTCTATACTACCAAATTTATATTTTTTTAAAGGATATAATTCATGATCATAAAAAAAGTCATTTGGATATTTATCATATATAACATGAATAAATTTATCCTTTTCCTTATGAAATAAAAAAATATCTAAGCATCTTTCTCCACAAATTACATAGATTTTATTATGTTTGACACGATATCCTAATTGCTCAAATTGTGGTAATATTTGTTGTAAATGTATTTCGTCTTCATGCATAATCCCGATATCTAAATCATCATCAAAAGGAATGATGCCTTGGTGTCTAACAGCTCCAAGCAGAGTGCCACTTTCTATCCAATACTTAATATTATTTTTAGTTAGTAACTCATGAGTATCTTTCATGAGCTGATAAAGGCTCAGTGCATTTTTTGGACTAATCCTATATTTTTTTACTTGTTCATCACTTAAGGTTACATATTGCCATTCATGTTGTAATATATAAGCATAAAATAATATACCTGCAAATATAATTAACATTAAGCCTATAATGTTTTTAAATGATAATAGATTTTGTGTATAACTTATTATTAAAGCTAATTTAGACGTTGATTTGGTACTTGAATCATTACATACGTTTTTGTATGCAGCAGCGTTGCATTCCTTGTATCCTTTAAATCCATCTCTATTAGTTATGTTATACAAAAAGTTTAATATTGACTTTAATTTGATCATCTTTTGCCTTAAATTGTATTTCTTCTGCTGATGTGACGTTTTTTAAATCTTCTACTAATTCTGTAGATAATACTATGCCACTAACTTCAAGCAATTTTATTGGTGCTTTTATAGATAGATTATACTCAGCTTTAAATTTTCTGACGATATCTAGTATTTCAAGCAGTCCTTCTGGTCCTTGTACATCGATTTCATAGTTTAAGTCACCATAATTAATCCAGTTACCTTGCATGTGAATAGAATTTTTGTTATATAATATTTGATATAGTTCTTCGGTAATATGAGGCATGAAAGGAGCAAATAGTTTCAGTAAGGTTTGCATAATATGATATAAAGTTAATATGCTACTATATTGTCCTTGTGGGTTTTTGTTCGCCTCGTCATAGCTTCTTGTTTTGCTTATTTCTAAATAATTATCACAAAATATAGACCAAAAGAATTTTTCTGTTAGATAAATAGCGTTTGCATATTCGTAATTTTGTAGTGCATTTGTAGCTAGTTTAACTAGTGCTACTAGCTTATTAATCATCCATTGATCAAATTCGTTAGTAATTTTCTCTTTTATATCAAACAAACTCACTTTTTTATCTTCACTTGTAAGTTTATCAAAATGTATAGAAACAAATTTAGCAGCATTCCATAGCTTGTTTACAAGTCTTTTCCCATTTTTCATTACGTCTTCTGAGTAAGCAGTGTCAGCTCCAAGTTTTGAATTTGCTGACCAATAACGTATTACGTCAGCACCATATCGTGCTAGCAATTTTTCAGGGACTAAAACATTGCCCTTCGATTTTGACATTTTACTGCGATCTTCAGCTAAACACCAACCGCTTACCATGATATTTTTCCATGGTAAAATATTTTGATGCAAATGCGATTTCAGGATTGTATAAAATGCCCAAGTCCTAATAATTTCATGTGCTTGTGGTCTTAAATCCATCGGAAATAATTTATCGTGTCTTACTTTATTAATTGCTAAATCTTCAGAGATGCCATAGGTAGAAAGTTGAGGTGAAACAGAACTTGTCGCCCAAGTATCCATAACATCTAAGTCAGGATCGACTTCCTCCTTACTATAACCTATAGGTAAATCTTTTAGTGGGTCAACAGGTAGTTGTGAGATATCAGCATATAAAATTTTACCTTCTTCGCCAATCCTTTTAGAGTACCAAATAGGAAACGGTACACCAAAATAACGTTGTCGACTGATGCACCAATCCCAGCTTAGAGAATTAATCCAATTCTCTAAGCGCATTTTCATATTTTTAGGATACCAGTTTAGTTCGTTTGTTCTTTTAAGTAATGCTTCTTTATGAGTTATCGTTTTAATAAACCATTGTGTGACGGTTAATATCTCAAGAGGAGCACCTGATCTCTCGGCACATTTTACGGTTTGTATAATTTCTTCTTGTTTAGTAAGTAAACTCTGTTCTTTTAAAATATCTATTATTTTTGTACGTGCTTCTTTAATTGTTAAGCCATCTATATCAAGTTTATGAGGGAAATTTATAGTCCCTTTTTTAGTGATAATGGTTTTTAATGGTAGATTATGTGACTTCCACCATGTAATATCTGTTTGATCACCAAATGTACAACACATTACCAGTCCTGTACCTTTATCTTGTTGTACTAAAGGATCAGCTAGGATTGGAACTTTCTCATTAAAGAGTGGCGTTATAGCTGATTTATCTGCTAGATGCTTATAACGCACATCGTCAGGGTGATAAAATACCGCTACGCACGCTGGTAATAACTCAGGTCTTGTAGTGGCTATAGTAAGCTGGTCTCCTTGCTCGGTTTTAAATGTAATATAATTCATAGAAGAGATTTTCTGCTTATCTTCAATATCTGCTTGAGCAAGAGCAGTACCATCTACAGTATCCCATAAAATTGGTTGATTAGCACGATAAACTTCTCCTTTATGTAGTAAATCAAGAAAAGACATTTGTGATATTTTCCGTGATAATGGACTGATAGTTTGGTACTCTAAACTCCAATCAACAGATAAAGCTATTTGTTTGAATAAACTTCTAAATTTTGCTTCTTCATTCTTTACAACTTCCAGGCAAATTTTTATAAACTCATCTCTCTCCATATTATAAGCTTTAATCTGCTTCTGCTTTTCAACAAGTCTCTCGGTTGGTAGTCCATTATCGTCAAAACCAATAGGATAAAAGATATTTTTACCTATCATACGTTGAAAACGTACAATAAAATCTGTTTGCGTATAGCTATAAATATGCCCAATATGTAATTGCCCTGACACAGTAGGTGGTGGCGTATCCACTATGTAGATTTCTGCTTTTGAAATATTTGGATCATACGCATAAATTTGTAGCTCTTGCCAAATGTTCTGCCACTTTTTCTCATTTTCGGTAAAATTGTAATGCTTTGGAAATTCTTTCATATTCTTTATTCGTGTTAAGAATATTATTATAAAGATTATGTATGATTATGACAAGATGTGTTGTTTCGCTTTGGTTTAGAGATTTAGCATTTGTACAGCATGTAACTTATCGTCGTTAAATTACTTTTTTATAATTGAATGCATAAAAGTTTCTTTAATATCTTTAACCTAATCAATCATAGAAATTTTTAGTCCTTGATTCTTTACTTGAGAACAAATTTGTTTTGCTATATTACCACTTTGTTATGTGCGCAATAAGTGTTCTTATTTTATACCATGACTCCTTCCAGCATATTTACATGTATATGCTATAGTTTTCATAATAATATTCTTATGTTGTGGTAATAGATGTTGATTCAATACTATGATAATAATTCTGATTATTTTTAAAGTATTATAATAATATATAATAAAAATGATTTAAGTTAAATAAAATATAACATTTTGCTTTATCCAATATTTTAGATAAATACTTTTTGTGACGATTTCATGATCTGAAATTAGTAAATAAACCCTCAGCTCAAGTAATTTATTGCTTTTCTATTGTCTTATGAAGAAATCGCTCAAATTTTTTTAGCATTATACACTTTTTTACAGTTGTAAATAACTAAATGCGGATATATTAGCATAAACTCAAAATCATCCAATAATCAATAATTGTAATTTATATCCTATTACACTATTGTTGTACTCTACAGTTAGATAGATGTACTAGCATTTAAAATGCTTAGGTAAATAATAAAAACTCCTTATAGCTGCTATTTGACTGTCATTATTATTTTTACTAATTAATCATGCTTGAGTTTTTAGCTATAAAAATCTAGTAGATTTATTTTTGTTGCGTATTTTATTTAAATTATCTGTATTTATTTAAACTTAATATGTTAATGCTAAATAAACTTTTAATTATCTTTAAATTAATGCGTGCAGATAAGCCGGTAGCTTATTTGCTAGATTTTTTTCCTGCTTTATTTGGATTATTGCTGGCAAATCCTTCTAACATGGAATTAGCTTATTTATTACCGTTATTTATTTTCGGTAGTATAACAGCTAGAAGTAGCGGATGTATTATTAACGATATATTTGATCGAAAATTTGATAAGTATGTTGAGAGGACTAAAAAACGACCTTTGGCCAGTGGTGCTGTATCTGTATTTTATGCTATTTTTATACTATTGATTCTTAGTATTATCTCGCTTAGTATTTTGCTACTTTTAAACAAAACAGCCATATATACTGGATTCTTTGCAGTAATAATGATTATTCTATACCCATTAATGAAACGTATTACTTACTTCCCGCAAATCTTTCTAGGTTTTACATTTAAACTAGGAGTATTAGTAGCTTATGGAGCAGTGCAGGATAAACTTGATACAGAAGCAATTATTATGTATTTAGCATGTTGCTTTTGGGCGATTGGATATGATACGATTTACGGATATATGGATATAAAAGATGATAAGAAAATAGGAGTAAAATCTTTAAGCATATATTTAGAGAATAAGAATCCTAAGTTTTGGCTTTATATATGTTATATAGGTTTTATATTGTTATTTATTCTAGCAACAAAAATTGCTAATTTTAATATCGATTATTTACCTGTTTTAGCTGCTTTAATTTTACTAATATTGCAAATAGCAACTCTTGATATCAAAAATCCTGTGAATTGTATAAAAAGATTTAGCGCTAATAATTATGTAGGTGTCCTTTTAATTATGGCGTTTTGTTAAATTCTGATTGTGAATTTTATATGTTTTATTGGATTATTGCTTTGTCATGCAGGATGTTGTAACTACTCTTTTAACTGCACATAAGGTTATCATTGAGACTATCGCTATATAAATTCCAATTGATAAGGAATTGTTGGTTATATGCCATAGCATTAGGCAAATTGATGATGTAAGGCGTCCTATTAGTGAAGCACCGATACTGCTTCCGATACCTACTAACATGTATTTGTCGTTAGTTTTAAATAGATTATTGAGCCAGCAGTTTAAAGGCGCTAAGAAGCTGACACCAAGTATTATAATCCAAATACGTACAAAATGAACGTACCATATAGATGCATTATTCAAGAATAACCATAAAGGAATTATGCTTAAACTCATTATAATAAGAGTACCATTTAGTATTTTATGATAATTTAATTTTTTTGTGAGATGACCTATTATTGGAATCATAACCATATCAAAAATCAGAAATTCAGTATTAAATTCCATCATTTTTGCAATAGATATATTTGTAATAAGTGGAATAAAACTATTCATAAAAACGAAAGGTACGCTGTAGCTCATATATGAGAACCCTACAGCAACACTAATACGTAAGATACTTAGTTTGTTGTTCCAAATTGTAGTTAGATCATTTAAAAATTTCATTTCTGCAAAAGTACACATTACCATAATATTATCACGTTGTTTGATCACGAGATCTAGATTATTGAGTGATTTGCTAGGTTCTGTAACCAAGTCGTTGAATACCATTGTCTCACTCTTTCTTAGAAAAGCACCTATAAATCCTGTAAGACCGCCGAATATAAAACATAATCTCCAATATTCATTATATTCCAGATTTAAAACTATGCTACTGATAAATGAAGCAAGAATAATACCTAACATAGTTGAGGTTTGATAAAGGTATGAAGCTTTAAACGCATTTTTTTCTTCTTTATTCTCTAAAATAACTAATTGAGCAATTGCGCATTCGCCTTCAGAATATATTCCTTGTAATATTCTAAGCACTACTAATAATAGCGGAGCAAACCATCCTATTTGTGCATGAGATGGTATTAAGCCTATCAAAACAGTAGTGTACGCAATTCCGATTAATGAATGAGATAAAGCAAAAATACTTCCATATTTTTTAGCAATAACGCCAAAGAAATAAGAACCTATAGGCCGTGTAAATAAAGACGTAGCAAGTACACTATAGGTAAGAATTAAGGCCACAACTTTATCATGATTCGGGTAAAAAAAACTTGCAAGTAGTGGTGCTAGAAATCCATAAAGTGCAGTATCGAAATGATCCATAGCATTACCGATTATGATGGAAAAATCCCTTTTGCTTAACGAATTGCTCATTTAAATAGATCACCATGTGTTTTAGTATGTTCTAAACTTAACTTCGTAATAATAAATAATTGCAGTGCTAAATATTAATTTTATTCAAGTAATTTTTTAAAGAAAAGTAATAAATAATATGCAATACCGTAGTCTTATAATTAATACGTTTGTGCCTTTATTATACTTTACCTCGTTTATTTTATACATAATTAAGCGTTCTTTATCAAAATGATTTAGCAAAAGTTTTAAAAATCAAAAATTAAGTTTTAAATGTAATTCTTGATCAGGAGAAGATATATCTAAGCCTTTTGCTTATTCTTCTCAGATTTTGATTGATTCTACATTTAATTTTTTCCTGTAATATTTTATTGTATATTGTTTCTTTTACCATATTCATGATAATATCATTATTTAAATCTATATTTATTGTAGATTTTAAAGTAAAGTATTTGCTAATAATTAAGTGGTTATTCAAGTAAGTATATCATGCAATTAAAAAATAATAGTAAATAATTTTTTTAAAGATATGATTATGCTTTAGTTTTTAAAATTGCAATTTTTAATGAACAAATTAACACAAGGCAAGTTTATTACCTTTGAGGGAGTGGATGGGATAGGCAAATCTACCCAATCTAAAATGCTCTATGAATATTTAAAATCTCAAAAAATTCCTGTTATTTTAACTCGTGAAGTTGGTGGTACTACTGTTGCTGAAAAAATGCGTGAAATTTTAGTGAATGAGGAATTATTACCGATGTCTGAGTTATTACAAGCTATGGCAGCACGTTATGATCATATGGCACGTAAGATTATTCCTGCACTAAAAGATGGATATATAGTAATATGTGATAGGTTTATTGATTCAACTGCATGTTATCAAGGATTAGAGCTAGAAAATGGTATAGATTTAGTGTATAGTTTGCACAAAACTTTGATGCCTTCTCTTATGCCAGATATTACGTTTTTTATTGATGTAGAACCGCATACTGCTATTAAGAGAGTGAATGCACGGAATATGAGTAATAAATTTGATATAAGAAGTATAGATTTTTATAAAAAAATCTATACTTGCTTTAAAGAATTAAGTAATAGATTTCCTGAGAGAATTAAAACAATTAAAGCTTCACATTTAAGCCCACTTGAAGTACATGAGTTAATACAAAAGCATTTATGAAAAATACTTACTATATTACTACCCCTATATATTATGTTAATGATGTTGCCCATATCGGTCACGCTTATACTAGTGTTGCAAGTGATGTTATTGCCCGTTTTATGCGTTTTTGCGGTAAGGATGTAATGTTTCTAACAGGTACTGATGAACATGGACAAAAAGTAGAAAAAGCAGCTATTAATCAAAATATTGATCCTCAAACATTTACTGATAAGACGTCACAAAATTTTCGTGATCTTATGGTTGCAATGAATATTTCTAATGATGATTTTATTAGAACAACTGAAAATAGACACAAAAAAGCTGTAGCCGTTTTTTGGAAGAAATTACTAGATAATGGTGCAATCTATGAAGGATTTTATGAGGGTTGGTATTCAGTGCGTGATGAGGCTTTTTATGATGAATCAGAGATAAATGAAGATAAATTAGCACCAACTGGAGCGCCTGTTGAATGGGTTAAAGAACCAAGCTATTTCTTTAATCTTGCAAAATGGCAAGATAAATTACTTGAGTTTTATGAGCTAAACCCTGATTTTGTCAGACCAATATCAAGGCGTAATGAAGTAATTAGCTTTATTAAATCAGGTCTAAAAGATTTATCCATATCACGCACTACTTTTCATTGGGGAATCAAAGTACCAAATAATAGAAAACATGTAATTTATGTTTGGCTAGATGCACTTGTTAATTATATTTCAGCACTTGGTTATCCTGATAAACAAAGTAATTATGCCAAGTTTTGGCCTGCTAATTTACAAATAGTAGGTAAGGATATATTGCGTTTTCATGCTGTATATTGGCCTGCTTTCTTAATGGCTGCGGAAATTCCACTGCCAAAGGCAATTATGGTACATGGTTGGTGGACTAATGAGGGACAGAAGATTTCTAAATCTCTGGGTAATACCATTGATCCGATTACATTAATCGATGAATTTGGTGTTGATCAGGTTAGGTATTTTCTTATGCGTGAAGTCATTTTTGGGGCAGATGCTAATTTTGCTCGTAATAATTTAATTACACGTATTAATAGTGAACTTTCAAATAAAATAGGTAATTTATTACATCGTATTGTATCTTTTGTTTATAAGAATAATGATGCTAAAGTTCCTTTGATTAAGTCAGGTGTTATAGATAAAATATATGAGCTCCCGATTTTAAAAACCGCAATTAAATTTGCTCAAGAGAATATTTTATTGATGGATAAAACAGAGATTAATAAAATTCTTGAAAATATTATTAATTTGGCTGAAGATGCAAATATCTATATTACTAATGAAGCGCCTTGGAATTTAAAAACAACTGATCCTGATAAGATGTTAGAGGTGTTATATTCTCTGTTAGAAGTACTACGTTATATTGCAATAATGCTTCAGCCTTTTGTACCAAATTCAGCAAATAAAATGTTAGATCAGTTAGGAGTATCTAAAGAAGAGAGATTATTTAAACATCTAGTACGTGATCATGCTTTAAAAGCAGGTAGTAATATTTTAGAGCCTAGTATAATTTTTCCAAAGTTTAACTAGTAATATTATGATTTGTACATGGTGTCGAGTAAAAAAGACTATTTTAAAAATTAAAAGCTCTAATTTATCGTTTTGAGTTAGATACCATAGTAAAGTCATACTATTACCCTTATTAATTGTATAATATGTTAATAGATTCACATTGTCATCTTAATTTACTTACTAATTTTTCATCCTGTGGTTCGATCACAATATCTAGTAAAAATATTAAAACAACTAATTCTAGTTGTTTTTTTGATACTAAAATGTATGATACGGTGTTTTTAGATTCTTTCATTCAAAGAGCATTAGAAAATAATGTACAATATATACAAACTATCTGCACTAAGCTTGAAGATTTACCTATTGTTTTAAAAATAGCTGAACAATATAAAAATGTTTTTGCAAGTGTTGGTGTGCATCCATGTGAGGTTAATGACAAGAAAAGACTAATTACGGATTTAGAAATAATAGAGCTTACCAACCATCAGAAAATTATCGGTATAGGGGAAACAGGACTTGATTATTATCACCAGCCTTATAATAAAAAATTACAACGAGATTCATTTATAGCACATATAAGTGCAGCATCAGCTACTAATCTACCTATTATTGTTCATACAAGAGAAGCAGATGAAGATACTATTGATATTTTAACATCAGCAATGCATAATAGCAAATTTTCAGGTTTAATACATTGCTTCGCCTCTTCAAAGAATCTAGCGGCAAAAATGTTAGATATAGGTTTATATATTTCAGTGTCAGGGATTATAACTTTTAAGAATGCAACAAATTTGCAAGAGATAGTTAAATATATACCACTTGATAGGTTATTAATAGAAACAGATTCTCCTTACTTAGCTCCTACTCCTATGCGCGGCAAACAAAATGAACCAGCATTTGTTAGATATGTTGCCGAGAAAGTTGCCGAACTCAAAAATATTACTTCACAAGAAGTAGAAAATGTTACTACTCATAACTTCAAAATATTATTTTCAAAATTTGAAAAGCAGGTTAGTTTAATTTAAAAAATTTGCTACGTTGTCTCTTACTGTTAATCCTCATTACTAGCGTGTATACTGTTGACATAAATTTGAAGATACATTGTTATTTTAAATTCAATTCTTCTTATCTTATCTGCTGATTTACTACTAATAGTATAAATTATACTTATATACTTAAAATCATCAAGATTGATAATTTAAAGTCACAAAAACATAGAAATATGATATTAGTTATTAACTTTAAATATTGTGGAATGGACATGATATAGTTTTATTTTAATAGTTGAAAATATTGATGCTTATTAGAAAAGATCAGATATCTATCTTATAGATTATTAGCAAAATATAATTAAAAAAATTAAAATATTGACACATTTTATAAAAACTAGTACTTGCTTGCATACTAAAACACGTAAATAAATTTTGCAGTAAAACAAAAATAAACGTCTATATAGACCATTATTATCACGTATCTATAAAAACTTAGTGGTGAATTTTAAAATTAATATTACTGAATGAGTTTTTGATGTTAAACTAAATATTATTAATTTTTTTAAATTTGGAGATTATGATGCATTGTGATTTAAGTACTAATTATACATATTATATTTTAGAGTGGCTTAGAGCACAAATTGCTCCAATGCATTTAGGTATAAAAATTCTAAAAGAATTATATGAACATGAGCCTCTAGAAGATAACGGTTTTGCAAGAATTATACATGCGTATTTAACGCTTTGCGAACGCATGACTAGAAAATATACAAAACCTGAATTTAATATTCTTGAAACAATTATTAATGATAAAACTTATAATATTAATGAACAAGTTATTTTTAAGAAACCTTTTTGTGAACTAAGGCATTTTCAAAAAATAGGTTTTAAAAAAGAACTACCTAAATTATTAATAGTAGCACCTATGGCAGGACATCATGCTACTTTACTTAGATCAACAGTGCATGCATTATTACCGTATACTGATATTTATATTACAGATTGGACAGAAGCCAATTATGTACCGCTTGAAGCAGGGCATTTTGATATGGATGATTATATTGATTACCTAATTGAGTTTATAAATTTTATGGGACAGAATATTCACACTATGGCAGTTTGCCAACCTACTGTTCCATTGCTTGCTGCCATTAGTTTAATGTCAGAAAATAATAGTCCAAATGTGCCGAGTTCGATGATTTTGATTGGTGGTCCTATCGATGCTAGAAAAAATCCAACTGTAGTTAATGAATTCGCACTCAGTAAAAGTTTGGAATGGTTCTGTGAGATGCTTACAATGCAGGTGCCACCAAACTATCCCGGATATGGTAGAAAAGTATATCCAGGGTTCCTACAACTTACCGGATTTATAAGTTTAAACTTATTACGTCATATAGATTCACATTTAGAATTATGGCAAAGTTTATTAAATTCTGATTATCAAAAAGCTGATTATATTATTAAATTTTATGATGAGTATTTATCAGGTATGGATATGCCAGCAGAATTTTACTTACAAACTATAGATGAAGTATTTCAACAATTTTCATTAGCAAGAGGTAAATTTATTTCTGAGAAGCGTCCGATTGATTTAAAACATATTACTAAATGTGCTTTACTTGGTATTGAAGGAGAATTAGATGATATTGCGGCAGTAGGTCAAACAAAAGCTGCTTTAAAACTTTGTGTAAATATATCTGAATCAATGAAAAGATATCATTTACAAAACGGTGTAGGGCATTATGGAGTATTTAGTGGAAGTAAATTTAAACAGTTTATAGTACCGCTTATTAAAGAGTTTATCTATGATTTTGATAAAACTAATGTCCAAAAATTGAAACTTAAGTAATATTGTAAGCAAATATTACATGCGTGGATCAATCATAAATATGTTACTATACGTGTCTTGACCTAAATACCTCAATGTTATGTAGGTAAAACTATTGATCTATGCTAAAAAAGCTTAATGTGCAAGCTTTTTTATGATAATGCTTGCAACGTTAAAGTACTTGATTCACACTGTTTATACTAAGAATGACAGTAAATAAAGAATCATTATGTTACTATATTTTTAATCATATATACATGTACAACACAAACTTTGGCTTTAAGAAAGTAGATTACACTAAAAAACAATGGTTAATAAATAACATTTTTTCTAGAGTAGCTGATAAGTATGATTTAATGAATGATTTAATGAGTATTGGCTTACATCGTCTGTGGAAAGATGAGTTTATTATGCAAATTCCAAATCTTAACTCTAATATATTAGATGTCGCTAGCGGTAGTGGCGATATTGCTTTAAAACTCGCTAAAAAAGCAAAAGATCGAGGTAATAATATTTCTCTAATTTTAAGTGACATAAATGAAGAGATGTTAAATAATGCTAAAAAGAAATCAATTGATCTAAATCTATTTCAGAACATTAAATTTATTGTAGCAAATGCTGAAGAGTTGCCATTCTCAGATAATAGTTTCGATTATTATACTATAGCATTTGGTATTAGAAACGTACCTGACATTAATAAAGCTTTGAAGGAAGCTTATAGGGTATTAAAGCCTATGGGGAAGTTTGTATGTCTTGAGTTTTCAAAAGTAAAAGAGGGCATCTTAAAAGATTTTTATAAATTCTACTCATTTAATATTATACCTAGTATAGGTCAAATAATCGCAGGCAATAAAGAAGCATATGAATATTTGGTCGAAAGTATAGCTTTATTCCCATCACAAGATGATTTTAGAATAATGATTAAAGAATCTGGTTTTGAAGAGGTACATTATAAAAATTTGAGTGGTGGAATAGTTGCTATTCACAGTGCATATAAAATATGATAAGTATTTTTTTAAATTTAATACGTATTTTCCGTATAGTCAGTAAAAAACAAATTCTCATTGATTCAAGAAGTCCTAAATATTTTAGATTTATAGGTTATATATTAGCTTTGTTTTTTGCTCCAAGTTCATTAATAAAAAAATCACGTGAAGATTACGGTAAACGTTTAACAGATTGTTTAACTGATCTTGGACCTATTTATATAAAATTTGGACAAACTCTTTCAACAAGAGCAGATTTAGTAGGAGCAGAGATAGCATGTTATTTAAGATTACTGCAAGATAAACTACCTCCTTTTGATGGAGCGGTGGCTCGAAAATTGATATATAAATCATTTATTGATCATTGTAAGGGTGAGAAAAGTGCCGATGCGATAATTTCGGAGCACAAACAAAATGTTGAAAAGCATTCTACAAATACTTGTAATGTATCTCTTCCTTTCCTACACTTCGACAACAATCCAATCGCTGCTGCCTCAATCTCACAAGTACATAAAGCACAACTTATAACTGGTGGATATGTAGCATTAAAAATTTTGCGTCCTGATATTCGGAAAAAATATAATAGAGATATTAAGTTACTATATTTTTTTGCAAAAATTATCTCAAAATTTTCTAAAGCAAAAAGGCTAAAACCTATTACAGTAATCGACAAATTCCATGAAACTATGAGATTTGAGCTTGATTTGAGGCTAGAAGCAGCAGCAGCTTCTGAGCTTAAGGATAATATGCGACATGATATTAACGTGATAATCCCTAAAATATATTGGGATTTAACGTCAGAAAATATACTAACTACTGAGTGGTTGGATGGAACTTCTATATATGATATTTCGCTTCTAAAAGAAATGAACTTAGAACCTAAAAAAATAGCTCAGGATTTTGCTGTAATGTTTTTCAATCAAGCTTACAGAGACGGCTTTTTTCATGCAGATTTACACGCAGGTAATATTTTAGTCAATAACCAAGGTAAGATTATTCTGCTTGATTTTGGTATTATGGGTAGACTTAAAGAAAAAGATCGTTTATCAGTTGCAGAAATTCTATTTGCCTTTTTAAAACGTGATTATAAATTAGTCGCTAAAGTACATTTAAGAGCAGGTTATATTCCTGCAAATACTGATTTAGATTTGTTCGCTGGAAGTTGTAGAGCAGTGACTGAACCTATAGTAGGAACACCAACAAAAAATATTTCAATTGGCAAGTTGTTGACGCATTTATTTAAAATCACGGAAGATTTCGGCATGGAAGTACAGCCAGATTTATTGATCTTACAAAAGACTTTAATAATGGTGGAAGGGATAGGAAGACAGTTAGACAGTAATGTTAATATGTGGCAGTTAGCTGAACCTTGGATTAAAAAATGGGCAGTAAAAAATCTAAGTCCTGAAGCGAAGTTATTACGTTTGATCAAGCACTACTTAAATAGTGTAAATGATATTACTTAAAATATGAGTTAATATCATATTTTATATTTCTTAAGCAATTTTTATAAAACTAATAGGTTTATTTATTAAGCATATATCTTGTTACGAACTTTTTTGTTGATTATAAAAATGATAAATTCGTATTGCCTCCTAGATTAAGGATCATAATACGAATATGCTAAAAGGTAACATAGAATAGGTCAAGTTTGAAAAATTAATTGCCGCAGATCTTCTGTAATACTACTAAAACTTATAAAAGAAGATATGGCTTAAAAATATCTTTATTGATTAATCAACGCGAGTAATATGATTGCTTCATTATGATTATAATCTATATATAACTAATCACGCATTAAATCAATTTTGCATTACACTCAATAACTATATTATATTGGTGATGTATGGTGCATGTAGGTTGAAACGTTAGTGTCTGTACTAGTAAAAATCTTTTTATGATTATAACTAGATTTATGAATATCAATATATAGAGTCTAGCTAATCATTTTATTATTTGGAGATCTTAAAATTGGTTTAAGTAATTATAATCACAAAACCATTGTAAGGTAATCTTGACTTGTACTTGTAAATGAAATCTCTTGCAATAACATTATTTTAGCTCACTCGTATTTAAACAGCTTCAATATATCTCATTTACTAAAAATATTTAATTTTATACATAAGGATTTTTGTTTTTTACGTAAGTAAATCTGATAGGAATACCATGCATATCAAAAGCATCACGCATATTGTTTACTAAATACCTAGTATAACTATCAGTAATTTTTCCTGGATTGTTGGAGAATAACTTGAAAGTAGGTGGGCGTGTTTTTATTTGTGTCATATATTTTATACGTACTCTTCTACCACATTTTTGTAGAGGCAATGGATGTATTTTTGTAGTAAAATCAAGCCATTTATTTAATTTGTTGGTTGTTATTTTCTTATTCCAAATTTTATAAATTTTAAGACAAGCATCTAAAACTTGCTCAATATTTTGTTTATTTATAGCTGAGATAAATAGAACTGGGACACCTTTAATTTGAGGTAGATGAGTATTTATCTGATAATAAAATTCTTTCTGAAACGCTTCTTTTTCAGATTCTTTAACTAAATCCCATTTATTAACTACTATAATTATACTTCTTCCCTCATTTACAATATGGCTTGCAATATTAAAATCTTGCTGTTTTACATGAGCTAAAGCATCAATCATTAAGATTACGGTATTAGCAAATTTAATAGAGTTAATAGTATCTGATGTCGATAATTTTTCTAAAGATGCTGTGATAGTAGATTTTTTACGGAGTCCTGCCGTATCAATCAATTTAATATGAGTATTTTTATATTGCCAATCAACTTCAATTGATTCACGCGTAATTCCTGCTTCAGGACCTGTTAATAATCTTTCATCATTAATAATAGCATTTATAAAAGTAGATTTTCCAGCGTTAGGTCTGCCACTAACTACTATCTGCAAACAATCTCCTCTGAACGGATCTGCTATATTTCGCTCAATTGATTCTTCTACAGATAATTTAGAAATAATTGCGTCATATAAATCAATTAATCCTATGCCATGCTCTGCAGAGATAATCACAATACTATCAAAGCCTAATTTGTAGTACTCTTTATCAAAATCAAAAGCTTTTTCACACTTATTAACTACCAATATACAATGCTTATTGTATTTGCGAACAAAGTTACTCAGTAGCTTATCATCAGGTAATACTCCACTTTTACCGTCAACCATAAAGCAAATTAGATCTGCCTCTAAAATTGCTTGAGTAGTTTGTCCCATTAACCTCTCTCCCATGTTATCAGGATTCTCTTCAAGTCCTGGGGTATCAATTAACAAAAATTCAAAAGAGCCAATTTTACCATCGGTATATTTTCTATCTCTAGTTACCCCTGGTAAATCATGAACGATAGCCTTTTTACGTATACTTAATCTATTAAAAAGTGTTGATTTGCCTACATTAGGACGACCAACTAAAGTAATGATTTTTTTAGTCATTATTAATATATTATTATGGTTAAGAGAAGAATTAATTCTCTGATAACTACATCTATTATAATAGGTGTATTTATTATTAATATGTTGTATATAAGCCAATTACAAAAAGCAATAACACTTATATTGAAGGTTGGTATCGAAACGGAATATGAAGATGTGTAGGCCCAAATCTTATTAGCCTGTATATAAAACATAAAATTGCCAATTGTACCGACAATAGTCATATATTTCTCATAAAATTTTATTAGTTTCCCTGACATATATTTTTTACAAAAAGTGTTTGATATAATGCTCATTGGTGTGGTGCATAGAGCAAAAACAAATTGTTTAGTGTTACAAGTTCTATTATAATAATAGAGTTTATCAACAGAATAAAAATAAATACCGAATAATTTTAGTATTTGATGCCAGATTTAGTAGACAAGCTATGGCAAAAACTTGCAATTATCGGTATATGATCTGAAGGTTTTTTTTGAGTCCTTAAATTATAATCCATATAGCATCTTTCTAAATAGTCAATTGTATTATTACAACCAAGAATCATATCAATTCTCATACCTTTATTTTGTTCAAAACATCCTGCTCTATAATCCCACCATGAAAATTCTTGTTTATCCGGATGCATTAATCTATACAAATCCTCAAATCCAGAATTAAGAATAGTACGCAATTTTTTTTGTTCAACCTCAGTACAACAAGTAGTTTCAGTGAGTACCTTAGAATATACGTCTATATCGAATGGTGCAATATTGAAGTCACCACCTATGATAGTTTTTTCGTAACAAGATTTTTTAGTAGATAGATAATTGATAAAATTATCATAAAATTTAAGCTTTTCTACAAATTTATTGCTACCGACAAATGAACCGTTAGGAGCATAGAGTGAGATGATATTACTATATCCTATAGGTGATGATAATTTTATTTCTAGGAATCTTGCTTGATCGTTGCAGTAATTATTCTGAAAGTCCTTAATGATTTGATCAGCTGGAAATTTTGAAATTATAGCAACGCCATTATATGATTTTTGTCCGTGAACATAAAAATGATAAGGTAAATCAGATAATTCATTAAAAGGAAATTTTTCTGTTTCACATTTTATCTCTTGTAATAATAAAATGTCCGGATTCTCTTTAGATAAAAAGTTACGCAATAAATTAAGTCTTGTTTTTATAGAGTTAATATTCCAAGTAGCTATTTTCATTTTATTTTTTCTAGGCTTTTTATCTTTTAATTTTTTATTATTGCATTCCCACTCAAGTAGATCATACTTATAGTCTACTAGTAATAAATGCTCCCAGATATTACTACAATTATTGAGTATTTTATTGTATGATAATTGGAACTACTACCGTAGCTATCTAATAATACGCTAAAAGCTATACTCCATAATACAGTGATTCCGATATTAACCTTATTAGTATTCTCTTAATTGAAGAGCCTTAATGATAAAATCTCGTAATATTGTACCGAAATGAGCAGTAATGAAAGCAAAGAATGGTACCCAAAAAGTTATAGTTTTCTAGATATCATTGCCACTCATATAATTATAAAAGTTGCTTGCCCAAATCCATAGCAAATTGCAACTACATTATTGAATAAATTTTTTATATTCGTTACTTGCGAGAAAATCATCGATATCAAAATTAAATTGTTTAACGATATTTGAGGTACGTTTTTGCTGAACATTAAATTTAGTAGAGTTTTAATATTTCATGGTATTCCTAATATATCACTGTTTATTGTATTATTGTACTGCCTGAAGTCTTCATTTTATACTGGAAATTCGATCACTAATGAAACTATCAATTTCTTGCTTAATTATTACGTTTATCAATTCAATATTATGTTATAATAATATATTGATTTCTTTCATTATATCAAAACTTCCTAAATTTATGCACTCCGTATACAGTACCTTGCTATTTCTAATCTAAGATTAAATAGACGTATTTGTGCGTTAGTTCATTAACATTTTGGAAATTTAACTTTGTGCAAAGTGATTCAATAATAAATAATGATAACTCTTCAAGACGAAATAAGCATTATTACTTCTATCAGAAGTAATAATGCTCCTGCTGTTATGTCAGTACTTTGAATATCGAATTGACATTGATACTAGTTATAATATATTTTTCTGCATCTTAAAGTTTTGTGCTGTCCATTTATGCCTATGCTTAAAGCATAAAAATTTTTAGTAATTAGAAGTATAAAAATAAAAAGCTTTACAATCTACATTGTATGTATTTTTTAGAATCAATATTTTACTAAATAATTTTAACTTAATTGGATCTCGTGTTCAAGTCATGGCATGATAATACTACATTAATTTCACCATCAAAAAATTTAATATTTAGACTCTGCTCATTTGTGGCGGCAGATTTAGAAGATAAGAAATTTCCTGCGTCTCCTTTAACTATAGCAAAACCTCGTTTTAATACGTTATGATAATCAAGGCTTGCAAGTAATGTACTGTTTAATTCTAGTTTATATTCAAAGTTTTTCAAGGTATTATTTACCGATTTGAATAGATACGCTGTTTGATGTGTTAATTCTAATATTTTGTAATTGATGATTTTAGCATAATTGATCCTTTCTTTAGAAAAAGATTTAATTTTTGTTTCTTTGAGAGCAATAAATCGTATTAAAACATCTAGCAAATTAAAACCGATTTCGTCTAGTAATTGCTGCCTATTATTTATATAATAGGAGAAATAGCTGTGTATTTTATCGTAATTTACTATACTTTGTTCGTGATATTTAATTAATCGGTTAGTATTATTAAATAATATTTTTTCATAAGATTGGATTGTATTATTCAAAATAGATCGTACAGGTACAGCAAATTCTGCTGCAGCAGTAGGTGTTGGGGCTCTTTTGTCTGCTGCTAGATCTATTAAAGTATAATCTGCTTCATGACCTACTGCAGAAATAATAGGAATTTTTGAGTTATAAGCAGCACGTACTAATATCTCATCGTTAAATGACCAAAGATCTTCTATAGAACCCCCACCTCTAGCAACAATTATCACACTTGGTTTATGTATCTCTTCTAAATTGTTAAATCCTTCAATTGCTTCCGCCATTTCATGGCCGGAATTTTCCCCTTGCACGCTAACCTGCCATATTATTATCCGCGTCGGAAAACGTTCACGAATACGATGAATAATATCTTTAATAACAGCTCCGGTTATTGAAGTGATAACGCCTATTTTATCAGGTAAAAAAGGTATAGGAATACGTTTCTTATTAAAGAGTCCTTCTTTTTCTAAACGGGTTTTGCGCTCATTAAGAATTTGTAGCATAGCTCCAAGTCCTGCAGGTTGCAAATTATCTACCGATAATTGATAGCGTGAATTACCTGAGTAACTTGAGAGTTTACCACCAATTACTACTTCCATGCCGTCATTTAAAGGAAATTTTATTTTAGCAAGAATAGGGCGCCAACAAGTACAAGCTAAAATGGCAGTATTTTCTTTTAAGTTAAAATAAGCATGACCTGAACTAGCTCTTTTTAAACCAGAAATTTCTCCTTTTACCTTAATATAGCCAAAATTATTTTCTAATAATTCTTTAATTTTATTAGAAATCTCACTAACTGAGAACTCTTTAGATGCTTGATTTGCAATGCAATTGTCTATCATGTTGATATTATTTCATCACGTGACTTTATTCATGGAATCTGTATTACACGTTTTGTCTAAGATACTATTGATTGTGTTGTGGATATACATAAAATAACCTTCCACTGTAAAAGAGCAAGTAAAATTTTAAATATTTGCTATATTAATAATAGCTTGCTATAGTTTTTAACTATTGAATATTTAGATAACATAATAAATGCGACTAATATACCTAATTATTATCGTACTATTACCTCTAGCTAGTTTTACTCAACAGTTTAAGCAAAATCAAAGCGTTAAATATAATCTAATTGCCGATTCCGTGTTCGTAGAGTATAATGAAAATAAGAATTTTATATATGCTAAAGGTAATATAAAAATTATTACTGATGAGTATTTATTGACAACAAATAATTTACTTTATGATGTAAAAAATGATATTTTATGGGCAGAAGGTAATATTCGTATTAAGGATAAACAAAACAGAATAATAGAGGGTGATAAAGCGGTTTTAAAAAATGAATTTAAGAAAGGTATTATATCTGAATTCATTTTGCTTGTCGGCGATCATAATCTCTTAATTGCTAAACTTGCGGAAAGAATAGATGAAAATAACCTTAAGTTGTATGGTGCTGAATTTACCCCTTGCGATGTTACTTGTAATAGCAAACCTATCTGGCAAATTGCGGCTAATGATACTTATATTAAGTCTGCAGAGCATAGAATAGTTTATAAAAACGTATTTTTTGAAGTATATGGTGTACCGATTTTTTACTTGCCATATTTTTTTCATCCGACTCCTTCTGCACCTGCAACTTCGGGATTATTAGTACCTGATGTTAAAAATAAAGGATTTGGTATTCCAATATATCTGCGTGCAAAACCTAATATTGATTTTACCCTTACTCCAAGAATTGCTAGTAAATATCAAACTTATGAGTTAGAAGCACGTTATCGTCTGAATGATACCGATAATATGAACTTTCAAGGTAGTTACGGGCAGTTACCTTATTTGCTTAAGAAAGACGGAAGTGTAGTAAAAAATAGAAAAGTCTCTTCTTATCATTATATAGCAAGCGGTAATTTTATTAGTAGAGATCAAACTTATGATTACGGTTTTAGAATAGAACGTACATCAGATAAAGCTTATTTAAAAAATTATTATAATAACTACTCTTCATATTTAACTTCTAAAATGTTTTTATATAAAATTCTTGGTGCTGATTATTTTGCGATAGAAGTATTAAGTTTTCAAGGATTGGGTAGTAATGATAGTAAATATACTGATCCGTTAGTATTCCCAAAAATCAATACAAAAAATGTTATACATCTTAATGATAATGGTGACAGCTATATCGTTGTTGAAAATAATACGTTAATGTATAAAGCAAGGATAGGAGAACAAGTGGCTCGTACATCTTTACAATTATCATTTATGCATAATGTACTAACTTCTTCAGGGCAAATTTTAAATTTTATAGCAAAAGATAGAGGTGATTTTTATCTTGCTAGAAGTTCTTATCTAGATAAGCAAAGAAAAAATCAAGCATTGCAAAGGAATATACCGGAATTGCAAACTTTATGGCGTTATCCGTTAGTAGGTAATATTAAAACGATAAATTTACTTATTGAGCCGATTGTTTCTTTTAGTATTGGACGTAAATTATCTAAGCAAGATAAACAATTTGTTATAATTGATCCTGTTAAGTATGAATTATCAGAGAAAAATATCTTTTTATCAAATCGTTATAGCGGTATTGATTGTTATGATTTTGGTAATAGATTAAGTTATGGCTTAAATGCTAGTATTCTTCAAGAAGATAATTATTTAAAATTATTTTTAGGACAGTCTCGTAATACACGATATAGTATAGATTTGCCTACTGATGATACAGAAAATGTAGGGCAGATATTAGGTAATCTTTCTAATAATTTAGAAGTGTTTTATAACTTCCGGCAAGATAGATATTTTAGGCCTATTAGAGATGAAGTTGGTGGTAATTTTAACTATAATAAGATTAACTTTTTAGGTAGTTTTATTCAGCTTACTAATCTTAAAAAATATTATTCTGTAGAAAGTATAAAAGTATCAAATAATAGAGTGCGACAATTTTATGGAGTCATAAATTATCAGTTAGCAGAAAATTGGACTATAGGCTTTGCGACACGCATTGATCTCTCTAGACGTTCTCCAAATCTATTTACTCGAACTATTAGAGTGACATATGCTAAAGATTGTGTTAGAATTACTACAAAGATTTATTCCGATTATCTAGCTGATGGGAGTAGAGGAATCAAAAAGACTACATCTTCCCCTACTGTTGCTGTTAGTTTAAAGGTTTTGAATATGTGAGTTTAGCATTGTGCTTGTGTGGATAGTTATTATTGTTAAGCAATTTAGAAATCCAGAAAAAGTAATATAAAGTGCTATTGAGAAATTTTGAACTGGATTGCTTAGTTAATTATTGCGTTATTTCCAATAAGTTAGTATCCATATAAATCTATTTAAATTATTACGTTATGTGAGTCGAGAAATATGCATAAATTATTATTAATCATTACTGTTTTTTTCACTTTTAATGTAGCACAAGCATCATTGACTAGTATAGTAGCCTCAGTAAATGATAAACCTATTACTCTTAATGAGTTCCATGCTAGAAAAAAAATGATTATGGCATTAAATAATATTGAAAATTTAACTGCTGATCAAGATAAGCAACTGAATGACTTAGCAATCAACAGCTTAATTGATGAATCTTTACTTTTTCAATATGCAGGTGATAGAGAAATCCCGCAAGACGAGATAGATAATGCTATTAAATCTATTGAAGATCGTAATAAAATGGCTCATGGTTCTCTGCTACAGTATCTAAAAAATAAATCTGTGAATCCTGAAAGTTTTATTTTGCAAATTAAATCTGAGTTGATTAAAATGAATATTTTATCAAGTTTATCACGATCAGTACAAGTAAGTAATAAAGAAATAGATGTTGCAATTTTATCTAGCGATCAAAAAGACGTAGAAATTTTAATGCAAGTATTCAGATCTAAAGATGGTAGTAATAAAGCATTTACGAAGATGAATCATTTAAAAAATCGGTTAAAAAAATGTTCTGATGTCAAAAGAACGCTTTACGATAAATTTGCTACTATGCAAATTATTACCAGTAAGCTTAGTAACATAGAAGGAGTAAAACAAACTATTGTAAAGGATTTAATACCTGATAAAGCTAGTAATGTTTTTGAAGTAAATAACAAGTTCGAAATAATATTAGTGTGCAGTAAAAAAATCTTAAATGTTAATGCAGATGAAAATAATTATGTAGTAAACTTCCTAACAAATAAAAAGATTTCGCAAAAAGCACAAAAAATATTTAAAAATATGCGTAAAAAAGCGGCTATAAGAATAATGTTCCCATCTTAGGTGTCAATATTAGGTTTTTGATAATGTTTTATTATTAATAGTTATTTTTATACTGGATTGCATGATTTTGGTTCTGCAATTTAATAATGAGTTTTGTTATTTATGTAAACGTTTAAAATAAATCCATGCTTCCTTCGATCGTAAAACATGCTACATCTCATAAAATTAATCCTCTGAAAAAACATGGACAAAATTTTATTTTTGATAGTAGCCTATGTGATAAAATTATACGGGCTAGTAATGTTTTAGAAAATAGTAATGTGATAGAAATAGGGCCGGGTATAGGAGGTTTAACTAGGTCAATTTTGCAGAAAAATCCTAAATCCTTAACCGTGATAGAAATTGATGAGCGCTGCATACCACTACTTAATGAGATTCAAGAATATTATCCTAATCTCAATATTATTAAACAAGATGTCCTTAAAATAAATTTAACTGATTTAATCTATGATAAAGTAACTGTAATTTCTAATTTACCATATCATATAGGTACTGAGTTAGTGATTAGATTGCTGAAAGAAGTGAAACTAATTACTAATATGACATTAATGTTGCAAAAGGAAGTAGTAGAACGTATTTGTGCTATACCTTCAACTAAAGCATATGGCAGATTATCGGTAATATGTCAGATATTAGCTAAAGTCGAAAAATGCTTTAATGTCGCACCTACTGCTTTCTATCCACATCCTAAAGTATATTCTGCAATAGTTAAAATAATACCTTTAGAAAATCCACCGTCTATTGCTTTGATAAATAAAGTTGAGCAAATAACAAAACTTGTTTTTGCAGGACGACGTAAAATGATCAAATCTTCACTAAGAAATCTCATACCTAATATACATGAAGTATTAACTCAGTTGAAAATCAACTGTAATGATCGCGCTGAAAATCTTACCCCTAAGGATTATTTAAGAATTGCTATGAAGTTATAAGTAAATAAAATTTAATTAGTAATTAAAAGCTTTTCAGTGAGCATTAATAAGATTTTTTTAGAAATAGTTATTCATTTTGTAAAATATTCTTAGAATTTGCAGAAAAAAAGAATTAAATTATCGGTCTAAATTCGTTTACTCATAACCTCAGATATAATAAGCTTTAATCATTCAGTTGATCTATTTTTTTTGGTTCTACCTCTCGCTGTAATTTATACTCTGCTGCTTTCTCTTCTATATAGTTAAAGAAGAAATAACAAAATGTTAAAAAGCTAGTTAAAATGATTGTAAAAGTTATTAATATTAATTTAAGTTCTTGTTTAGAGTTTTTAGCTTTTAATTGCTTTCTTTCCTCTTCATCAATTATAAACTCAGGTAATATATTGGATTCTTCTTTATTTTTCATGTGTTACCTTATCTTCAGTTCATTAAAAATTAATGATAGAGTTTAAATATCATTTAGGTAAATTACGATATTAAGATACTTAAAATATGTCAACAATTTTTAATCATTAGTTGTGATTTAATATAATATCAATGATTGATGATTTTCTAACAGATAAGTTGCGTTTTTATAGGTTAAAGATAGGGTGGAATATATAATACCCATTTTAGATATTAAACGCTTACGGATTTTGATAAAATCATCAAAAATAGTTTAAATAAATTCGTTTAATTGCTTCTCATTTTCAATTAGAGCATGTGATTATGATCTTGTATTTATATAATAAGCATTTTTATCTACTGCAGTTATTTTTGAATAAAAACACTTTTTGATAAAGATATGCAGATATTCTTTTAAAGACTTGTTAATAATTTGTGCTTTGTAATAAGATAATTGACACATCAAAATGATAACGGTGTCATATAAGACATGAAATTAAGATAGAGTATATATACCATTAGTATTTTGCTTTTTAAGCTATACTGCATTACTATATTGCTATGAAAAAGTTGATGTATTGTTTTCATAAATAATTAAATGCTTTTTTGTTGCAAGTGCTAAGATTTTTTTGAAATTTCTTGTAATAAAGGTTTTTAAATTAATTTCTTTAATCTTAAAAATATAAATATTAGATAATTAAAAATTAATGTGCTAGAATTAAAGCAAAGATCAATGATGTAGTTCTGAGTTATATGTATGGTACAATCACCGGTGAAATCGATGAATTTGGTTTCACATTTCATAATTAATTATTGTGAGAATATCGAGGTAATGTGCTGATTGTTTATGGGTTATAAACCATATTGGTTTGATAATATTATAAATATTGATATGGTAGAGGATGTAGTTATATTATACTTAGTTATCTAGAAGAGAGTTAGTTTTGGTATATGCTGTGAAAATTTATTGTAAATCAATATTTATGTATTCATAAATAATAAAATATAAGCACTAGCACAACACCAGTAAATAATATTTAGATTTTTGCATATCTAATATTCCTTGCTTTTCCCTTTTCAGTATACTTGTTATTTTATAGATCAAGTGTTATTACAGTTTTTATAGTGCATATTTGATAGTATGAGTATTATCAGGTTCTGAATTTTATAAGACTAAAGATTTGTTTATCTTTGTTAAATAAAGGCTATACATGTGTTTTAAAGTGTTTTCTATTTATTTAATAGAGATATCATAAGATTCAATTGCGATATAATAATTAAAAACTATATACACCTTACATATTCTCTAAAATTCTCTAAAATAATCAGGTTTAAGTTCAGGCGCTTTATTGTCAGTTGCAAGCTATTTATCATAATAACGAATGTTATTCAATAGATTTACAAACAATACGATTAAATGATTTTTATCAAAATAAAAATCTTAAACTTTTTAAAAGTGTTTAAAATATTCAACAGTATGTAACTATAAGAAAAAAAAATTATGGAAGCTATATAATTTGCTTAAAATTTAAAGAATAAAAGAAAATTTTAGTAATAAACTCAACAAAGATAGAAAAAAGCATTATAGAAATAACTTTTTATAAGGGAAACCGGAATATTAGAACTTCTAAGAAAGATTTAGAATTTTAGATCAAAATTTTATGTATAATATAACAGATAACAGTGCATTTTGGTATAGCACTGAAATTATTTAAGTGGTTAATATGTAACTACTGCACCAATCAGTTATCTTATAGTATTTGACCATAGCAAAGTCCTCCTTAAATACTCAACATGTTTAGTATACACATACACGTATTAACAGAAAAAGTACAAGTACTTAATAAGAGACAAAAGGGTTAATTTGGACTGTATTATAAGACAATAAATATTATCCCGATTTTTACGAGCATATTATTGCGTAAGAATTATTTGTATACTGCACATCAGTAATAATAAAGTATTTTTAAAATTGGAAAAATTGATGCTCACTAATTTAAAAGCTGTAGAATATAATGATTGAAACTCAAAAGGGAGTATATAGAAATTGGGAATATAAGGTACTTTTAAAGATGTTTATAGAAAAAGGTAGTGGCAAAAATGAAAAATAGTATTTGAGCAAAATATCTTGTCCCATGCCTCACTCAAGAATCTAAAACTTTTTAATTAGGAGTGAATACTAAATTGTTAGAGAAGAGATTAAGAGTATGAAGAAGATAATACTTAGCAATAATATTAGATATGGCAGCATATAATAATTAAGTTTTATCGAAGCAATGCTAAAGCTACTACTTAGTTGTGAATTTACATTTAATTATTGTGTTGGATTCTGAGAATAAAACTCTTGATGAAGTGCGTTTACTATCTTATGCATTAGTAAATTTGTCTAACATATGCTTTTAATGGTACCCGCGGCCGGACTTGAACCGGCAAGAGCTTACGCTCCACGGATTTTAAGTCCGTTATGTCTACCATTCCATCACGCGGGCAATTATTGATATTAAGACTTCATTTGCTCAGTGCAGAGATTAATAAAAAAAATATAAAAAAGCAAGTACTTTTATCGTTAATTATTAGTCTGATATGTAAAGCTAAGTAAAATAGTGAATTTACTCATTAATTTATTATATAATTAACTTAAATAGTGACAAATTAGTAATAATATGATAGATTAAATTGAGAAAGTAATACTTTCTATTGCATGTTATTGACATGTTTATTGACAAATATCTTAAGGTAAGGTAGTTTTGCATAATGAATTTATCACCTAATTATATTAGGTGAGGCTTAAAATTTGAGTTTCAGTTATTATAAGTGTGTATTTAAGTTCAAGTAAGTAATTTCTATCGAATAAAGGTTTTTATGGCTACAAATATAGTAGGTAAAGTTAAATGGTATAATTCTACAAAGAATTTTGGATTTATTGAACAGGATAATGGCGGGAAAGATGTATTTGTACATAAATCAGCTATAGACGCAGCAGGTTTACATAGCCTTGAAGAAGGACAAGAAGTAATTTTTGACATTGAAGAAAAACAAGGCAAAGCCTATGCTGTTAATCTCAGAGTTAAATAATACTAAAATCAGTTATCCTAAATTGTTTATAATTTGTGGTATCTTATAATTATCTTAAAATAGTAAATAATTTTTGTCTTATAATAACCTATAAGTATAGTAAATGGCATGTATATGTCCTGAATTTCATATATCATGCTGGTTTGAATAAGATTCTAAAATAGTTTCATTATTCATTATCGTTTTATATATTTAGTTGGTATCTTGTAATCTAGTTTAAGCATATTTTTTGATTCAAGATAATTATTATGTAGTTATTTTACTATAAACTTATTTTTTATATAAATAAATCTTATGGGATCATCATTTCTACTTTATTTCTATGAGAGAGCATTGCACATGTCCTGTTCTTATTAATCAATGTAGTATGTAAGCAGTTCTCATCAATAATATGCATATTTTGATTTAAAACTATATTGGATTATATAATGAAAAATTTTAATTTATCTAAAGAATTAATTATTGCTCTTGAGACAATGAATATAACTGAGCCAACTGAAATACAGAAGCAATCTATTCCAGTTGCAATGTCTGGGGCAGATATACTTGCTTCTAGCCAAACAGGGTCAGGAAAAACCCTTGCTTATTTATTACCTTTAATTGATGCATTTATTAAAAACAAAACTACTGCTTTAATTCTCGTGCCGACTAGAGAATTAGCAACGCAAATACACAGTACTTTAAATAAAGTAACTACAGCCTATAAAATGAATAGTGCAGTTTTAATAGGTGGTGAACCTATGTTTAAACAATTTATGCAATTAAAAAAAAATCCGAAAGTTATTATCGGTACACCAGGGCGTATTATCGAGCACTTAAATAGAAGAAGTTTAAAAATTGAGCATATAGGTATAATAGTGCTGGATGAAATGGATAGAATGCTTGATATGGGCATGAAAGAACAGCTAGAAGAAATTAATAAATTTTTGCCAGAAAAAAGACAAGTTTTAATGTTTTCTGCGACTATGCCAAAACATATTATTGCTGTTTCTCAAAAATATTTAAACAATCCAGTACGTATTATGGTAGGCGCAACTAATAAAGCAGCAGCAGAAATAAAACAAGAATTAATGCATGTTTCTAATAAAGAAAAATTTAGTGAATTAACTAAGCAACTTGGTAATAGAGTAGGATCGGTAATTATTTTTGTGAAGACTAAACGCTCTGCAGATCAATTGGCTAAAATGTTAAAATATGAAAATCATAAAGCAGAAGCTATACATGGTGATTTAAGTCAGAGTCAACGTGAAAGAGTAATTTTATCATTTCGTAAGTTAAATCATAGAATAATGGTAGCAACTGATGTAGCAGCACGTGGACTTGATATTCCTCATACACAGCATGTTATTAATTATGATTTACCTATGTGTCCTGAAGATTATTTACATAGGATAGGTAGAACTGGTAGAGCAGGTGCTATCGGACATGCACTGTCTTTTATTTCTCCTGATGATGTTGTTAGATGGCGTGCAATTGATCGTTTAGTAAATAAAGGTGAATCTACACCACGTAGTGCGTTCAGAAGTGATAAAAAAAAACGTAAAAGATCATTTGGTAAAAGAACTAGCATTTGTGACAGTAAGAAGTTTAATTCTTTTGATAGTAGTGGTAGAAGAACTTTTGACTGTAACAGGTATCGTAGTACGATTTGATCTAATTCATAACTCTATATTATTCACCATTTCATTGCTAATTTTTTGTTATAATTAAGTCATTTTATATAAGGAGGCTCAATTCATAAATTTTAAGTTTGCCCGATTTAAATCTATATTTAATATTTTATTTATATTAATAATTGCTTTTCCTGGTGGTTTAATTTATTTACTAACTGGTTCAACACTTTCTTTTTGGCTGCGAGAATCCGATTTTGATAAAATTACTATTGGACTTTTCGGTTTAGTTAATTTTATTCACATATTTAAGTTTTTATGGGGACCTTTACTTGAAAAAATAAGTTTTTCTACCTTAAGTAATAGAGGTTACAAGTATTGTTTAGTGATCACGCTGATTAATTGTATTTTTTGCGTATATGTTCTAACAAGTTTTAATCCTAATACTAATTTTATACCTTTTGTTTTGTGCTTAGTAGTTTTAGCGTTTTTTTCATCTATTTATGATATGTTAATTCAGTCTTCACAAATGTTATTGATTACCGATAAAAATTGGGGCATAAGTGAAGCGGCTTGTACTACTGGTTTTAGAATTGGTATACTTATTTCTGGTTCTGGAGCTTTATATTTGTCTACTATCATATCTTGGCAGGATGTTTATCGCACTATGGCAATTTTATGTATACCGTCGTTACTGTTAATTATATTCTATCCGCTTAAATTTAAAGATAAGATTATTGATAATGACTTTGATAGATTTTTAAATGCTTTTTATGACTTTATAAAGAAACCAAAATGTATAGTAATTATTAGTTTCATGCTTTTATATCGTCTTCAAGATAGTTTTCTCTCAATTATGCCTAATATGTTTTATCTCGACATTGGTTATACTAAACAAGATTTAGCTGTTGGTTATAAAGCCTTTGGTATGTGTGCTACTATCTTTGGTGGCGTTATAGGTGGATTTTTATGTAGAAAATATGAATATTCTTACTTACTTAAGAGAGTATTAATATATCATGCTTTATCTAGTTTATCTTTCATATATCTTTATTTTTTGAATCAGGATATTACAAGTCTTTATATAGCTGTCTTTTGTCAAGAATTTACTAAAGGGCTTACTATGTCACCATTTTTTTCTTATCAACTAAAATGTTGTAGTTCTAGATATTGCATAACTCAAATTGCTTTAATTACATCTATTACCAATGTTGGTACTATATTGATAGGTAGTATCTCAGGATATGCAGCTACTTATCTTGGATGGAGTTATTTTTTTATCGTAGCAGGATTATGTTTTATTCCTGCTTATATATTAATTCTATATTTACCTAAAACTATAAATAGTGTATAACCTAAATTATCATTTATCAACAAATTTATTACTGTAATTATGTTTATTCAAACTGAAGAAACTCCAAATCCTGATGCAATAAAATTTTTTCCTGGACAAGAAATAAGTGTTGATCAGCCGGTCTTTTTTAGTGAGCTTGCTGAAGTTAAAGGAAGAAGCGCACTTGCAGAATCGCTATTCCATATTAATAATGTGAAATCAGTTTTTCTGGGTAGTGATTTTATCACAGTAACTAAACAAGCTCGAGGTAATTGGCAAGTTATAAAGCCTGAAATTTTAATGGTTATTATGGATCATTTTATTTCAGGATTTCCTGTATTTAACGAAAATACTAAAATAGATGATGAAAAACATAATCTTGATATGCTTTCAGAAATAGAAAAGCAAATCATCGAGACTATTGAAACTAGAGTGCGTCCATTTGTTACTCAAGATGGTGGTGATATAATATATAAAGGTTTTGAAAGCGGTGTAGTGAAATTAGCACTTCGTGGTGCATGTCTTGGATGTCCTAGTTCTACTATTACCTTAAAAAACGGCATTGAATCAATGCTGAAACATTTTATACCAGAAGTGCAAGAAGTTAAAGCTGTAGAAGAGGATTTTAAGTAATTGTTATCTGTTTATTATTTAGTAATATCTTTATAAAAAAATGTTTAAAAAATAATTTAGCTTAAATACTCTAATTTAAAGCTGAAATTAGGCTTATTTTTACATAGTGTGACAATATATTATTTGTCGTGTTCATCACAAATTTTATACTTATATTTTTATCACTAAAAAAATTAGATAGCGTTTCTATTAAATAAGAGAGTTTGTGCTAAAGCTTATTTTATAACATTATTTTGATTGGATTCCTTTAAAAATCTAATTTGGCATAATGTATTATTCTATTAATATCTAAAGCCTATATTCTAATATCTACTGATACCTAAAAATTTTTTATGTATCTTCTTAAGATTTAAAAGTATCAATTTGATTTGTATAGCTCAAGAACTTTAAATATCTTTGATATAATCAAGATAAAACATAAATTTTTGTATCTACATAATCGATGAGTGATGCTATAGAATAATGCTTTTTATATTATTTGGAAGTTGTATTCTTCATTGGTAAATCTAATCACGTTTCTTTCTTAAAAACGCTGGTATGTCATGAATATCAGATTCTTTATTATCTTGATCTACAGTATTCACAATAACATTTTTGCGTTCTAAAGTTTGATTATTTGAAGTACGTAGCGACTCCCATATCTTCCCTAAAAATGATGATTTCTGTGAGTTATTTTCAGGTTTGTTGACAGCATTTACATGTAATCGTAGTTCTTGTTCATTTTCAGTATAATCTTGCTTTATTGAAGATTCATTAATTTCAATATTTTCAGTACTGTAGCTATTAAACGAAGGAATTGTTTCTATTTGTGTATGTTGTATTATAGACTCATTGTAAGTTTCTTCAGGAAGTGTATTGGTATTTTTATCTATTGCGAGTTTATATTTTGGTACTTTATCGGCATCAATACCTGTCGCAACAACTGATACTCTGATAATCCCTTTGAGTTCTGGATTAAATGTTGAACCAAAAATAATATTAGCATCAATGTTATCTACTTCTTCTCTAATTCTATTAGCAGCGTTATCCACTTCAAATAATGTCATGTCAGGACCGCCAGTAATATTGATTAATACACCTCTCGCACCGCACATTGAGCTATGATCTAGCAATGGATTTGAAATTGCAGATTCTGCTGCTTTAATAGCTCTATCTTCCCCACTATCTTCACCTGTACCCATCATTGCTTTACCCATTTCGCTCATTACTGCTTTAATGTCAGCAAAATCAAGATTAATCAGTCCAGGCATAATCATTAAATCTGTTACTCCTCTAACACCTGCATGTAATACGTCATCTGCCATTTTGAAAGCATCAGCAAATGTTGTTTGTTCGTTAGCGATACGGAATAGATTTTGGTTCGGTATTACAATTAAAGTATCAACGAATTGCTGTAGTTCAATAATTCCTTTATCAGCTGTTTTCATACGATGACCTCCTTCAAAGTGGAAAGGTTTAGTCACTACCCCAACCGTAAGGATGCCTAGTTCTTTCGCAATGCGTGCAATAATAGGTGCAGACCCAGTACCTGTACCACCTCCCATACCTGCTGTAATAAATACCATATTGCTATTTTCTAGTGAACTACGAATTTCATTTTCTGATTCTTGAGCAGCAAGCGCGCCAACCTCAGGTGATGCACCTGCACCAAGACCTCTAGTAGTAGAAACGCCTAATTGTATTTTGTTAATGCATAAAGAATGCTCAAGGGATTGTGCATCAGTATTCGCTACTACAAAATTAGCACCTTGTAGATTAGCATGAATCATATTATTTACTGCATTACTACCTGCACCTCCGACACCAAAAACAGTAATGGTCGGCTTTAATACTATATTTTCAGGAGCTTTTATATTTAAAACCATTATAATTTTTATATCATTAATGTTTTAAGTATAATCAAATATAAAGGCTATGTGAAGAAAAATTTAATTAATATATCAATTATTGCCTAGAAAAAGTTGAAAAAATTTCTATATCTTTCCTAGCTAAAAGAGTTCATAACAAAGCTTAATAAATCGAGTTATTAATTTTACAAATTTATTGTATATACTTATGTATTGCTGGATTGCTGTAGTAACATGGGTTTTTTATTATTTGGTGAAAGCGCTGTAGCATATTATACTCACAAATTATCAATTTGTTACAAGTCGTATATACATAAAATGCGTTTTTATCCTATATTAACATTAAAAGATATTTTTAGTCTCTAATCTAATATTAAGATTAGGAAATCATTTTTTCAGGTACTACTATTTTATCAAATTCTTCTTCTGATAAAAAATTGAGTTTTTTAGCTGCTTCTTTTAAAGTGATCCCATACTTATGTGCTTCTTTAGCAATTTTTGCAGCATTATCATAGCCTATATGTGGATTAAGAACTGTAACAAGCATTAGAGATTTATCACGTAAAGTATTAATGCGTGCTATATTGGGCTCTAATCCTTTAACACAGTGTGTAACAAAACTATTTACGCTATCAGATAATAGCTCTATAGATTGTAGGATATTGTATATTATCACTGGTTTAAATACGTTAAGTTCAAGATGCCCATTTGAGCCAGCAATAGTCACAGTCACATGATTACCCATCACCTGAGTGCACACCATTGTTAATGCTTCAACTTGTGTAGGGTTTACTTTACCTGGCATAATAGAAGAACCAGGTTCGTTTTCTGGTAAATGCAGTTCACCAAGACCGCATCTTGGACCGGAGCCGAGCAATCTTATATCATTTGCTATTTTCATTAAGCTAACTGCTATAGTATTAAGAGTTCCAGAAAATTCTACTAGTGCATCATGTGCTGCTAAACTTTCAAATTTATTAGGAGCAGTTTTAAATGGTTGTTGAGTAAACTCTGCAACTTTTTGAGCAAATTTTATATCAAAGCCTATTTTTGAATTAATACCTGTACCGACTGCTGTTCCGCCTTGAGCAAGTAGATAAACTTTTTTTAGTGCATCTTCTATGCGTTCTAAAGCATACTCTATTTGTGTAATATATCCTGAGAATTCCTGTTTAAGTGTTAAAGGAGTTGCATCCTGCAAGTGAGTGCGTCCTATTTTTATGATTTTATCCCAATCTTTTGACTTGTCTTGCAAATATGTAAGTAAATTATTCAAAGCTGGTATAAGCTGCTGTTTAGTTGCAAGTACAGTTGCTATATGCATAGCTGTTGGAAAAGAGTCGTTGGATGATTGCCCTTTATTAACATGATCGTTAGGATGTACTGGGAATTTACCACCTTTCTTACCAGTTAATTCTTCATTAGCAATAGATGCAATAACCTCGTTCATATTCATGTTTGTTTGTGTACCTGACCCTGTTTGCCAAACTACTAAAGGAAAATTATCTTCAAATTCGCCTGCTAGGATTCTATCAATTGCTTTATCTATACTTGTAGCTATTTTATATTCTAAATCACCAAACTCGTAATTAACCTGTGCAGCACATTTTTTTAAAATAGCAAGAGCACGAATTAAAATTTTTGGCATTTTTTGCTTGCTTATTTTAAAATTGTTTAAAGATCTTTGAGTTTGAGCACCCCAATAAAATTTTTCTTCTATTTGAATTTCTCCAAAAGAGTCACTTTCGATTCTGTAATTTTTCATAAATTGTACAATTTTTATCTATTTTTTATAAAATTATTACTTACTGTATTCAAGTCTAATTTTTTGCTTAATTTAGCAAAGCTGTAATATTCTCTGTTAAAGAAGCTTTTTAGATTCTTAGCAATAAAGATTAGATATACTTATTTATCATAAGATTAAGATTAAAACTATAAAATTTTTGCTAATGTACGTTAGATGATTCTATATATAGGTTTAGTAATTAATACTTACCTTGATATATCAAAGAAATTGTTTCAAGTTAGGTGTTGTTATTGCTTCTTCTCTAAGTACATTTAGAGATTTGTCTAAATTACTTTGCACAATTCTCAATAATAGTTATTGAATTATTAAAAATATTTATGTAATGAATGAAAAATTATAGAAGCAGCATTTGCAACATTAAGACTTTCTACACTCTTCGAAATAGGTATTTTAGCTAAATAATCACATGTTTCTTTAACTAATCTTCGCATACCTTTATCTTCCGCCCCAAATACTAATGCTATTTTGTCAGAAATTAATTTATCAGTAAAGTATTCCTTTGCATAACCTGTTACTCCGATAATCCAAAAGCCACGTTTTTTAAGATAATTCATATATGAGCATAAGTTAGTCACTTTAATGATAGGTATTAATTCTAAAGTGCCGCATGCTGCTTTCGCAATGCTACCGCTTTCATTTGGAGAATTATCTTGAGGTAATATTATAGCATTTATATAAAAAGCAGCTGCACTTCGAATAATTGCTCCAATATTTTGTGTATCTGTGATTTGATCTAAAATCACAATTTTACATTGTGGTTTATTAATATCTATGTCGTCTAGATTATAAGAAAAAATTGGTCTTACTTTTGCAGCTATGCCTTGATGTGTTTGGTGTTTCAGTAATTTAGATAAAATATAGTTATTAACAATTTCATAAGATCTAGTACCTATTAATTTTTTATTTATATCAAAAAATTCCTTAGTGCATAAAATATTTTCAATTTGACGTTTTGGATTATTGATAGCAGAAAGCACAGGATGTTTCCCATACATATAATAACTATTTTTATAATCAAGCTGTTTATTTTGCATCTTATTGAAAACCGTCATTAATTTGTTCTTGACAGAAATTACTATTTATTATAGAAAGTTACAACTAAATTAAATAAATGTGCAAGCTGCTATTTGTTTATTTGATGATTCGGCAAAGTTTATTAAGTCCTAATACTATATTTGTATTTTAAAGTGAATTACTCTATTTAATACAGTAAAGTTCTTTAGGAGGGGTGGCCGAGTGGTCAATGGCAGCAGACTGTAAATCTGCCCGCGTAAGCGTTCGAAGGTTCGAATCCTTCTCCCTCCACCACTTAATGGTTCAGGGAAATATATCTATTTAAAAGATAGATTTATATGTTATTTTTTATAATCTGAAAAATGATATAGCACTGTTATATATTTAATAGTGTCCAATGCGGGTGTAGCTCAATGGTAGAGTTCCAGCCTTCCAAGCTGGCTGTGTGGGTTCGATTCCCATCACCCGCTCCAGAGATAGTGGTAACAAATAAATTTAGCAAAAAAAATGCACTAATAACTTGTATTAAACCTAAAAATTGTAGAGAGTAATAATATGGCAAAAGCAAAATTTGAACGTACTAAACCGCATGTTAATATAGGTACGATTGGTCACGTAGACCACGGTAAAACTTCCTTAACCGCAGCAATAACTATAATACTTGCTAAAACAGGTGGAGCAAAAGCTACAGCGTATGATCAAATTGATGCTGCTCCTGAAGAAAAAGAAAGAGGTATTACTATTTCTACTGCGCACGTAGAATATGAGACTCAAAATAGGCACTATGCACACGTAGATTGTCCTGGACATGCTGATTATGTCAAGAATATGATAACTGGTGCCGCTCAGATGGATGGTGCTATATTAGTAGTTTCTGCTGCTGATGGTCCTATGCCTCAAACTAGAGAACATATATTACTGGCAAAACAGGTAGGTGTACCTGCTATGGTAGTATTTTTGAATAAAGTAGATATGGTAGATGATCCTGACCTATTAGAATTAGTTGAGATGGAAGTAAGAGAATTATTATCAAAATATGGTTTCCCTGGTAATGAAATACCTATTATTAAAGGTTCTGCACTTCAAGCTTTAGAAGGAAAACCTGAAGGTGAAAAAGCTATTAATGAGTTAATGAATGCAGTAGATAGCTATATACCTCAGCCTATAAGAGCTACAGATAAACCTTTTTTAATGCCAATAGAGGATGTATTTTCTATTTCAGGCAGAGGTACCGTTGTAACTGGTAGAGTGGAGTCAGGCATAATTAAGGTGGGTGAAGAAATTGAAATAGTAGGTCTAAAAAATACGCAAAAAACGACTTGTACAGGTGTAGAAATGTTCAGAAAATTACTTGATGAAGGACAATCTGGAGATAATGTCGGTATATTACTACGTGGTACAAAAAGAGAAGAAGTAGAAAGAGGACAAGTACTTGCAAAACCTGGGAGCATAAAACCGCATGATAAATTTGAAGCTGAAGTGTATGTGCTTAGTAAAGAGGAAGGTGGACGTCATACCCCATTTACTAATGATTATCGCCCACAGTTCTATTTTAGAACAACAGATGTTACCGGCACAATAAAATTGCCTTCTGATAAGCAGATGGTTATGCCTGGAGATAATGCTACTTTTTCAGTAGAATTAATTAAGCCGATTGCTATGCAAGAAGGGTTAAAATTCTCTATACGTGAAGGTGGTAGAACAGTAGGAGCCGGTATAGTAACTAAAATAAATAATTAATTTATTTTACAAATACCTATTATTAAAAAATAATAGGTATTTGTATTTTAATATCTGAAAAACATCTTGCTGTTTAAATATTAGGTTTAATGAATGAAAAATAAAATCAAAATTCGTTTAAAGTCGTTTGATCACCGTAGTCTTGACCAAGCTACAAAAGAGATAGTTAGTGCTGTTAAAAGAACATTTGCTACTATTAATGGTCCTATTCCTTTACCTAGAAAAATTGAAAGATTTACTGTCAATAGATCCCCTCATGTACATAAAAAGTCAAGAGAACAATTTGAAATTAGAAAGCATAAAAGATTATTAGTTATAGATGATCCAAATCCAGCAGTTGTTGATGCATTAAGTAAAGTTGATTTAGCAGCAGGTGTTGATGTAGTGATTGAATTAGAAAGTGGGGAATAAATGAGAACAGGTATAATTGCTCAAAAAGTTGGTATGACTAGTGTTTTTAATGATAAAGGCGAAAGAATTTCTTTAACTTTAGTAAAAGTTGATGATTGTCAAGTAGTTGGGCATAAAACTCTAGCAAAACATGGATATAATGCTTTGGTTATAGGTGTAAAAGATCAAAAAATATCTAAAGTTACTAAACCTATGAAACAAGTTTTTGCTAATGCTAAAATAGCTCCTAAAACTAAATTAAAAGAATTTAGAATTTCTGAAGATAATTTTATTGATATCGCATCAATTCTAGAAGTAGACCATTTTAGGGTGGGGCAATTTGTTGATATTACTGCGACTACTATAGGTAAAGGGTTTGCCGGTAGTATGAAAAGACATAATTTTAGAGGTCTTGAGGCTTCACATGGTGTTTCTATATCACATCGTTCACATGGTTCTACAGGCCAAAGACAAGATCCAGGAAAGGTTTTTAAAGGAAAAAAAATGGCTGGTCATATGGGATGTAATAAAGTTACTATTCAAAATTTAAAAATATTTGCTGTTGATACAAATCGTAAGCTGATTATGATTCAGGGTAGTATACCTGGTCACAAAAATTCGTATCTTTTAGTAAAAGATGCAATAAAAAAGGCTGCAATAACTATCGCATGAATATTTGATTAGATTGTTTTGATTCCAAGAGCTTTTTTTTACGAAATAAGGTGTTTACATTACATAAATACTATAAATATTTAGTGATTTATAGTGCAAAATAATTAAATTATCGTAAGTTTATTTAATAATAATCTCTTAGATGTTATTCAGATTTAGGATTTAAAATTAACAAAGCGTCATGCAATATTAAATGATTTATATAGAAGTTTTAGATAAGACTGCATAAGGTTAAATAAAGATGAAAACTAAAATATTAAGTCTTGCTAATGAAGAAGTTGGTGAGATTACTTTAAATAAAGATATATTTGCTGTTGAATTTATCAGAGATGATATAATAAAGCAGGTTATCGATTGGCAAAGAGCTAAAGCAATGTTTGGTAACCATAAAACTAAAACAGTATCTGAAGTATCAGGGACAACAAAAAAACCTTTTAAGCAAAAAGGTACAGGTAATGCACGACAAGGTTCTCTTAGGTCTGTACAGATGCGTGGTGGTGGTATATCACATGGACCTAAGGTACGGAGTCATGCAATAAAATTACCTAAAAAAGTACGAAAACTTGGTTTAATCCATGCTTTATCTGAGAAATATGCTGAAGAGAAATTATTAATAATAGATTCTTTAAAGTTAGATAAGCCTAAAACGTCTATTCTTGTAAATTTATTAAGTAAATTTCAAGGTCAGAGTTTTTTTGTAATTGATGGAAATAAAGTAGATATTAATTTTTCTTTAGCTACAAAAAATATTTATAATACGTTAATTGTCCCACAAATAGGAGCTAATGTTTATGATATCATACGACATGAGTATGTACTCTTATCACAAGAAGCGGTTAGCTTTTTAGAAGAGAGGTTAAGATGAGTGTATATAAATACTACGATTTAATTAGAAAACCTATTATTACGGAAAAAACTACAAGTATTTCTGAACAAAATAAATATACTTTTTATGTAAATAAGTTTGCTAAAAAATTGAGCCTTAAAAGGGCTATAGAAGCAATATTTAAAGTAAAAGTAAAAAAAGTTAATATTTTAAATATTAAAGGTAAGAAAAAACGATTTAAAGGAATTATAGGGACTCAAATCAATAGAAAAAAAGCTATTGTTACATTAGAAAAAGATCATAATATAGATTATGCCGGAGGAATTAAATAAATGGCTTTAAAAAATTTTAATCCAATTACTCCTTCTCTTAGAGAGCTAGTGCAAGTTGATAAAACGAATTTATGGAAAGGTAGACCTTTAAAAACTTTGACTAAAGGCATGTCAAAAACTGGTGGACGCAATCAGCAAGGAAGAATTACTTCTTGGCACAGAGGTGGTGGGCACAAAAAATTATATCGTGTTATTGATTTTAAAAGAAAGAAAATAGATATTTCTGCTATTGTTGAAAGAATAGAATATGATCCTAATAGGACTGCTTTTATTGCTTTAATAAAATATGATGATGGAGAATATTCTTATATTTTAGCACCGCAAAAATTATCTATAGGTGATAGAGTCATTTCAAGTCAAGCTGCTGATATCAAAATAGGAAATTGTTTGCCTTTAAAATCCATTCCTATCGGCACTACTTTACATAATGTTGAAATGAAAATTGGTAAAGGTGGACAAATTGCACGTTCTGCAGGTACTTCAGTAGAATTAGTTGGTAAAGATTCAGGGTACGCTCAGATTAAATTAAGATCAGGTGAATTTAGGTTAGTACCTTTAGATTGTAAAGCTACTATAGGTAGTATATCTAATCCGGATCAAAAAAATATTAATTTAGGTAAAGCAGGTAGAAATAGATGGCTTGGTTGGAGGCCACATGTTAGAGGTGTAGCAATGAATCCTGTGGATCACCCTCATGGAGGTGGTGAAGGAAAAACTTCAGGAGGTCGTCATCCTGTGACTCCTTGGGGATTCTCAACTAAAGGTAAGAAGACACGTAAAAATAAACGCACTTCAAAATTTATTGTAAAAAAAAGAAAATAGATTTTTAATTAATTAGGTATTGGTATGGCACGTTCAATATGGAAAGGGCCTTTTGTGGATGGTTATTTAATAAAGAAAGTTCAAAAATTAATGAAATCAGGTAAATCTGAAATGATTAAAACTTGGTCTAGAAGATCAACAATTTTACCTATTTTTGTAGGATTTACATTTTCTGTTCATAATGGCAATAAATTTATCCCGGTTTATATAAATGAAGAAATGGTTGGAAGAAAATTAGGTGAATTTGCTCCTACTAGAACATTTCATGGTCATGGAGCCGATAAAAAAGTTAAAAGAAAATAAAGATTTTGTATGATACAGAAAAATAAAAATTTTGCTACGGCAAAAGCTAAATCTATTAGAGTAAGCCCAAGGAAACTTAATTTAGTTGCGTCCTTTATTAGAAATATGAAAGTATCTGAAGCATTAGTACAATTAACTTTTTCTCCTAAAAGAATTGCAAAAATTGTAAAAGATTGTCTACAATCTGCTATTGCAAATGCTGAAAATAATTTAGGTTTAGACATAGATAGATTAATTATTACTAAAGCTACTGTAGGTAAGTCAGTAGTAATGAAAAGGATTATGCCAAGAGCAAAAGGCAGAGCAACTAGAATAAATAAGTTTTTTAGTAATCTTTATATAACTGTTACAGAAAAAGAGGATAATTAAAATGGGGCAGAAAGTTTGTGCACATGGTTTTAGAGTTGGACCTACTTTAATTAAAGATTGGGATTCAATCTTATATGCAGAAAAACATTATAAAACTCTTTTTATACAAGATCTTAAAATTAGAGATTTAATAAATAAGTGGTTTAATCAAGCTCAAATTAGTCGAGTTTTAATTGAACGTCCTTCTAATAAAAGTATTATAATTAATATTAATGCAAAAAAACCAAATATTATTATAGGTAAAAATGGTACTGAAATTGATAAGCTAAAAAAAGCTATAGAAAACATGACTTTTTTAAAAGAAGTTTATATCAATATTCATGAAGTTAGAAAATTTAATATAGATGCTGCTATAGTAGCTCAAACTATAGCAGCACAGCTTGAAAAAAGAGTTTCTTTTAGAAAAGCTATGAAAACAGCAATTCAGGCTTCATTTAAACAAGGTGGACAAGGTATAAGAGTAAGTTGTTCAGGGCGCCTTGGTGGTGCTGAGATTGCTAGAACCGAGTGGTATATAGAAGGTAGAATGCCATTACATACTTTAAGAGCTGATATTGATTATTCAACAGCTGAGGCTATAACAACTTATGGAGTTATAGGTGTTAAAGTGTGGATTTATAAAGGTGAATATAAAGAAAATAAAAGATATAATTAATTTTAAGTATTCAAATGTTAGCTCCAAAAAAACAAAAATTTAGAAAAGCTCATAAAGGTAGAGTTATGTCAAAAGCAAAAGCAGGTATGACACTTGCTTTTGGATCATTTGGTCTTAAATCTATAGATGGTTGGCGTGTTACTGCAAGACAAATAGAAGCAGGAAGAAAAGCTGCTACTAGATGTATGAAAAGGCAAGGTAGGTTATGGATTAGAATTTTTCCGGATGTGCCAGTTTCTAAGAAACCTGCTGAAGTAAGAATGGGTAAAGGTAAAGGTACACCTGAATTTTTTGCAGTTAGAGTTTCGCCTGGAAGAATTATGTTTGAAATTGAAGGAGTAGAAGAAAATATTGCACTTAGAGCTTTAGAACTTGCAAGTGCAAAATTACCTGTTAGAACAAGGATAGTGAGACGTTATGAATGATTTAAAATTATTAAGAAGTAAGTTGTCTACTGAAACAATAGAAGAGCTTTATAAAAACCTTAATCTTTTAAAAAAAGAGTTATTTAATTTAAGATTTCAACAAGCTTTAGGAGAGTTAAAAAATACTAGTAGGTTTTCGTTAGTCAAGAAGTCTATAGCACGTATTAAAACTGAATTAACAAAAAGATCTAATAGTGAGGAATATTAAAATGCCGAAAAGAGTGTTACAAGGCGTGGTTATAAGTTCAAAAACTGATAAGACAGTTACAGTAAAAGTAGAAAGAAAGTTTAAGCATCCTATTTATAAAAAATTCGTGAAAGTATCTAAAAAATATGCTGCTCATGATATAGAAAATAAATATAAAGAAGGAGATAAAGTTAGTATAGTTGAAAGTCGTCCTATCTCAAAAACAAAAACATGGGTAGTGCTAAATTTGGAATAACTTTTGACTTAATAATGTAAATTGTTTATTTTAACTCTCATGTATAAAAGGAAGTAGTTTATGATTCAAATGCAGAGCATTTTGGAAGTGGCAGATAATTCTGGTGCTAAAAAAGTTATGTGTATTAAAGTTTTAGGTGGCTCTCATCATATGATGGCAAAGCTTGGTGATGTTATAGTGGTATCTATTAAAGAAGCGATACCAGGTGGCAAGGTTAAAAAAGGTGATGTTTATAAAGGTGTGATCGTGCGTACAAAGACGGGAGTAGTCAGATCTGACGGTAGTACAATAAAATTTGATAAAAATGCATTAGTACTTTTGAATAAACAAGATGAGCCTATAGGAACCAGAGTGTTTGGTCCTGTTACAAGAGAACTTAGAGCAAAGAAATATGTTAGAATAATGTCGCTTGCAGAGGAAGTGTTATGATTAAATTAAAAGTAAAAAAAGGTGATGAAGTTGTTATTATTACTGGAAAGTATAAAGGCAAAAAAGGTAAGGTATTAAAAGTTTTTCCGGAAGAAAATACAGTAGTTGTTTCTGGAGTAAATTTAGTAAAAAAGCATACTAAACCTAATAAAATGAGTGAAGGCGGGATAATAACTCAGGAATCACCTATACATATCTCAAATATTGCACACATCGATCCAAAAACTGGTAATCCTACTAAAGTAGCTTTTAAATTCTTAGAAGATGGTTCTAAGGTTAGAGTTGCAAAAAAATCAGGGGAAATTATTGGGAAGGTAGGTAATAATGTTAAGGTTTAAAGAATTATATAAGCAAAAAATCATTGAAAGCTTAAAAAAAGAATTTTCTTTTAAAAATAAACATGAAATACCGAAAATTAAAAAAATTGTTATAAATATGGGCGTAGGGGAAGCAATAGCAGATTCCAAAGTAATTAATAATGCACTAAATGACCTTACTTTAATTTCAGGTCAAAAGCCAGTTGTAACTTTAGCAAGAAAATCTATCGCAACCTTTAAGTTACGTGAAAATATGAAAATAGGATGCAAGGTTACATTACGTAAAGATAGAATGTATGATTTTTTAGAAAGGTTAGTAATTGTTGCATTACCTCGTGTTAAAGAATTTCGTGGCTTTTCTTATAAGAGTTTTGATGGTAAAGGGAATTTTACTTTTGGATTAAAAGAGCAGATAGTTTTTCCTGAAATTAATTACGATAAAATCGATACAATAAGGGGTATGGATATTACAATCGTTACATCTGCTAAAACAGATCAAGAAAGTAAGTTTTTATTATCAGGATTTAATTTACCTTTTTATAATTAATTTTTAGAGTATATATAATGGCAAAAGTAAGTTCTATACAAAAGAACAAAAGTAGGCAGAAAAAATCACAAAGTTTACATAATAAACGGTCAGAACTAAAAAGTAAAATTTATGATAAAAGTCTTTCATTAGAACAGCGTTTTCCTTTGATAATTGCACTGGCACAATTACCTAGAAATTCATCATCTACTAGAATAAGAAATAGATGTGAGCTTACAGGTAGACCAAGGGGTGTTATAAGAAAATTTGGTATATCAAGGAATAAGCTTAGGGAATTAATTGGTAGAGGTTTAGTTCCTGGTGTAGTTAAGGCAAGTTGGTAAAGTGGATAGGTAAATAATATGTCAATGACTGATAATGTAGCAGATATGTTAACTAGAATTAGAAATGCTTATAAAAGTAAATTAATAAATGTTTCTTTTCCAAGTTCTAAAATTAAAACTTCAATTTTAGATGTATTGCAAAAAGAAGGTTATATAAAAGATTATGTAACTACTCAAAAAAATAATATCAGTTATACTGAAGTAGCTTTAAAATACTCTGTAAACGGTGAGGCTTCTATATGCGAAATTCATAGAGTATCAAAGCCTGGAAAAAGGGTATATTCTGCTATTAAAGATTTGAAAGGATATTATAATAATATGGGCATATATATTCTTTCTACTCCTTACGGTGTTATGTCTGATAGAGAAGCTCATATTAAAAATGTTGGTGGTGAAGTAATTTGTAAAGTATTTTAAGGTAAAAAATGTCACGTGTTGGAAAATTGCCGATTACTATACCTGAAGGTGTAAAAGTTGGTTTAAATGATTTAGAAGTAAAAATATCCGGTCCTAAAGGTGAATTATCGAAAACTTTTAAAGGTAATATAGCTATTATAATGGAAGAAAATAAGCTTGTAGTAAAACCTTTAGCTGTAAATAAAAATGCACGTGCTATGTGGGGTACTGCAAGGAGTATAATATGTAATATGATCACTGGAGTTAAAGAAGGTTTTAAATTAAAGCTTGAAATTAACGGTGTCGGTTATAGGGCAATGGTAAAAGGTAAATATTTAAATTTAATGCTTGCTAAAAGCCATAATACAAAAATTGAAATACCATCAAATATTAAAATAGATCTGCCTAAGCAGAATATTATTCTTCTTGAAGGGATAGATAAAGAAAAATTAGGACAATTCGCTTCAATTATTATAAAACAGAGACCACCTGAGCCTTATAAAGGAAAAGGCATTAAATTTGAAAATAAATTTATACAGCGTAAAGAAGGTAAGAAAAATTAAATTTAAGAGTTAAATATGCGTAGTGCTAAGCTAAAATTTGAAAAAAGGAAAAGTAGGATAAGATATAAAATATCTAAAACATCTAATAGAATGAGATTATCGATATTTAAATCGTGTCGACATATATATGCACAAATTATTGATGATTCTAAGTCTATAACAATTGCTGCTGCTTCAACTTTAGATAAAAAAATAAAAAAAATAAAAAAATCTCATTGTAATATTGAAAATGCTATCAAAGTTGGTAAAGAAATAGCAAAAAAAGCTGATTCTGCAGGTATAAAAGAAGTAGTATTTGATAGAGGTGGATATAAGTATCACGGTATTATAAAAGCTTTAGCTGATGCAGCTAGAGAGAAAATAAAATTTTAGGTTATAGGTTGTAATAATGTCTAAAGTTAAAAAAAATGAAGAGGCTTTAAGCGAGGTTTTAGTTGATGTCAATAGAGTTACCAAGGTAGTAAAAGGTGGTAGAAGATTTGCTTTTTCTGCTTATGTAGTTGTTGGTGATAAAGCTGGAAGAGTAGGGGCTGGACATGGGAAAGCTAAAGAAGTAAACGAAGCTCGGGGAAAGGCGAAACAAGCCGCTAAAAAGCGAATGATGAAGGTTCCATTATATCAAAATAGGACTATTCATCATGACGTTGTTGGTAAAAGTGGGGCTGCTAAAGTAATTTTAAGAAGAGCTAAAGCGGGTACAGGTGTTATAGCGGGTGGATCTATGAGAGCGATTTTTGATTCTTTAGGTGTACATGATATTGTTGCTAAATCAATAGGTTCAACTAATGTTTATGCAATGATTTCTGCAACATTTGATGCATTAAATAAGCTTGCCTCACCAAAATCTATTGCTATAAGAAGAGATAAAAAAGTACATGAAATATCTATCAAATCTTATATTCAAGTTAATGAATAAATGTTTCATAGGTAAGGTGAAGTTATGAATAATAAAATCAATAATATAAAAATTACTCAAATTAAAAGTGCTATAGGATGTAAGTATGATCAAAGATTTACATTAATTGGGCTTGGTTTAAATAAAATTAATAAGAGCGTTATTCTTAAAAATACTAATTCAATCAGAGGGATGGTTGAAAAAGTAAAACATTTATTAAAAATAGAAAATATGTAATTAGAGTTTTTAAATGAAATTAAATGAATTATATAATAATTTAGGTGCTAAAAAAAACAAAAAAAGAATAGCACGAGGTATTGGTAGTGGTAAAGGAAAAACTGCTGGTAGAGGAATTAAAGGTCAAAAATCTAGATCAGGTGTTGCAATAAAAGGTTTTGAAGGTGGTCAAACACCTATGATTAAAAGATTACCTAAAAGAGGTTTTAAGTGTATTTCAACTAAAAAATATAATATAATAAATATTTACAATATTGAAGAAGCATTAACCGATGGTCGTTTAAGTACTAATGATATTATTACCAAAGAAAAGTTACTCGAAGTTGGTTTAATTAATAATAAAAATTTAGTAAAGTTATTATCTATTTGTAGTGATGATTTTGCTTCTCCTTTATCATTAAAATTAGATGCTTATTCTTCTAAAGCTAAGTATTTAATTGAGAAAGTAGGTGGACAATTATTATAATATATGGGGCAAAATTTTTCTAAAAAATCCAGTAATGATTTAGTTAATCGCATTATTTTTACTCTTTTCATGCTAATCATATGTAGATTTGGGTCTTTTATACCTATACCAGGTATAGATTCAATTGCTTTAAATAGTGTAGCTGAAAAGAATCAATTTGGCATACTCGGGATGTTCAATATGCTATCTGGCGGGTCGTTAGGTAGAATGTCTATTTTTGCTTTAGCAATTATGCCATATATTACCGCATCAATTATTATCCAATTAATGTCGGTTGCATATAAACCTTTAGAAAATTTAAAAAAAGAAGGAGAAACTGGTAAACGAAAAATAAATCAGTTATCAAGGTATTTAACAGTTCTGCTTGCTTCTTTCCAAGCTTATGGTGTTGCTCTAAGTTTAGAATCAATGGTTACAAATACCGGTCCTGTAGTAATTTTAGCGGGGTTTTTCTTTAGAGTGACAACTGTGATTACTTTGGTTGTAGGCACAATTCTATTGATGTGGTTAGGAGAACAAATTACGCAACGTGGAATAGGCAATGGTACGTCTTTAATTATATTTATAGGTATAATTTCTGGAGTACCTAGTGCTATTATTAGTATGTTTGAATTATCAAGAAAAGGCGCATTGTCGCCTTTAATAGCAATAACTGTTTGTATCGGAGTAGTTTTATTAATCGCTATAATTATTTTTTTTGAAAAAGCACAAAGAAAATTATTGGTTCAGTATCCCAAAAGACAAGTAGGCAATAAAATTTATGGGGGAGAAGCGACTCATATGCCTCTTAAATTAAATACTTCTGGTGTAATACCACCAATATTTGCTAGTTCAATTTTACTATTTCCTACTACGCTTGCTAGTTTTTCTAATAGTAATTCAGATACTATGAGTATGCTTACTTATTACTTAGGTCATGGAAAACCAGTATATATTTTATTATATGTAGTATTAATTATGTTTTTTAGTTTTTTTTATACTGCAATTGTATTTAATTCTGAAGAAACTGCTAATAATTTAAGAAAATACGGTGCTTATATTCCTGGTAAAAGACCAGGAAAAAATACATCTGATTATTTTGATTATATACTTACAAGACTTACAGTGATAGGTGGGATATATTTAAGTGTAATATGTGTAATTCCGGAGCTATTAATGAATAAATATGTAATTTCTCTTTCTTTAGGAGGTACAAGTTTTTTAATTGTAGTGAATGTGGTACTTGATACTATGACTCAAATTCAAACTTACTTATTTAGTAGTAAGTATGAAGGTTTAATGAAAAAAATAAAATTAAAAAATTAAAAATGAGCTTAAATAGTGATAGTAATTTTTTTAGGTCCTCCAGGAGCTGGAAAGGGAACACAAGGCAAAAAGATAGCTAAAAAAATTGATTTACCACATATAGCAGTTGGTGATATATTTAGAACAATTATTAAAACATCAACTAGTGAAGCAGAATTAATTAATAATTATGTTAAGCAAGGTGCACTGATTCCTAATGAAATAGTTAATCAGGTAATCAAAGTTTTTTTATTATCCTCTAAATATAAAAATGGCTATATATTAGATGGATATCCTCGTAATTTAGAGCAAGCAAAATTCTTTGAAGCATTTATTCAAAAACCACAAATTAAAATAATATATTTTGATGTTGCAGATGAATTATTAATTAAAAGGGTCTTGGGAAGGTATAGTTGTAAAAATTGCGGTAAAATATATAACATTCATTTCTTGCAGCCTAAAATTGAGCACGTATGTGATGTTTGCAGTTCTAGTGTATTTGATTATAGGAAGGACGATAATAAAGAAGTAATAAAAAAAAGAATTAAAGTATATAAAACAGAAACATATCCATTAATAGATTATTATAAAAATAGTGGTAATTTTTATATAGTTAATGCAAATAAAAATGAACAAGAAATAGAAAACGATATACAGAAAATACTAAAAATAAATTGACTTCATCAAAGATTTTTATATTATTTTCTAGTTACTAGTAAAATTTGGAGATTATTTGTGGCAAGAATTGCAAGTGTTAATATTCCTGATAATAAACGTTTAGTTGTGAGTTTAACTTATATTTACGGTCTTGGTTCAACTATGGCAGCAGAGATTTGTAATAAAGCAAAAATATCAAAAGATAAAAAGGTTAAAGTGCTGACTGATCAAGAGTTAATAAGCTTACGTAATATTATTGAAAATGAGTATAAAGTTGAGGGTGATTTAAAGCGAGAAGTTACGCTTAATATTAAAAAGAAGAAAGATATAAGATGTTATCAAGGGCTTAGGCATATACGTAAGTTGCCTGTTAGGGGGCAGAATACACATTCTAATGCTCGAACTAGAAAAGGTAAAGCTATTGCGATAGCTGGAAAGAAAAAAACTGTAAAATAATAGTTTAAGTATAGAGTAAATAAATGAATCAGACTATTAAAGTTAAGAAAAAGAAAAAGACTATCACTCTTGGTGTTGTACATATCCGAGCGTCATTTAATAATACTATAGTAACATTTACTGATATTCAAGGTAATACTATTTCTTCTGCATCAGCAGGGGGCAATGGTTTTAAGGGTGCAAGAAAGGCAACGCCTTATGCAGCTCAAGTAACGATTGATAAAGCATCGGAAAAGGCAAAAGAATGTGGCCTAAAGACTATTTCTATTAGGATTGGAGGCCCTGGAGCACAGCGTGAATCAGCAATGCGTGCTTTATTCGGGCAAAATTTTGTGGTTACATCAATTTTAGATGTATCATCCATTGCTCATAATGGAGTAAGACCGCCAAAAAGAAGAAGAGTATAAGAGAATCATAGGTATTAAATGTTATCATTAAGTAAAAATTGGAATACTTTAATAAAGCCGAATAGAGTCACATATGAAAATTTCCCGGAAACCAATAATAAAGCTAAAATTATAGTTGAACCTTTAGAAAGAGGTTTTGGTTTAACACTTGGTAATGCTATGAGAAGAGTGTTATTATCTTCTTTACAAGGTGCGGCCATTACTTCTATAAAGATTCCTGCTATAGAGCATGAGTTTTCTTCTATACCTGGTGTACAAGAAGATGTATCAGAAGTGATTTTAAACATTAAGGGTATTGAAGTCAAAATGCATGTTTCGGAAAAACGTATCATAAAATTAAAAGCAATGGGGCCTTGTGTTGTAACAGCAGGTATGATTGATACAGGGCATGATGTAGAAATATTGAATCCGGATCATGTAATTTGTAATTTAGCTAAGAATAAGCAGCTTGAAATGGAGTTAACATGTAAGGTTGGTAAAGGATATGTACTTAGCACAAATAGCTATGAGGATAACTTACCTATTGGCGAAATAGCTATAGATGCTTTATTTAACCCAGTAAAAAGTGTTACTTATAAAGTCGAAAATACTAGGGTGGGTCAAGTTACTGATTATGATAAATTGATTATGTTTGTAGAAACTAACGGTGATGTATTACCTGAAATGGCTGTAGGATTAGCTGCACGTATTTTACAAGAGCAATTACAATTATTTATTGCTTTTGAAGAGCAAGAAGAGGATAAGCAAGTAAAAACTGATTCTTTACCATTTTCGCCATATTTACTTAAGAGAGTTGATGAATTGGAATTATCAGTTAGATCTGCAAATTGTTTAAAAAATGATAATATAATATATATAGGAGATCTAGTAAAAAGAACGGAATCCGATATGTTAAGAACTCCAAATTTTGGTAGAAAATCTTTAAATGAGATTAAGGAAATATTGGCAAAGTTTAATTTAAGATTTGGTATGGATGTACCAGATTGGCCACCAGAAAATATTCAAGAATTATCTAAACGTTATGAAGATTCTTATAATTAAGGACTAATAAAAATGCGACATAGAATTAAAGGTAGAAGGTTAAATGTAACAAGTAGTCATAGGCAATCAATGCTTGCTAACATGGCTGTATCACTTGTAATACATGAACAAATTAAAACTACTCTACCAAAAGCTAAAGAATTAAGACCTTACATTGAAGCTCTAATTACTAAAGCTAAAAAACCTGATTTAGCAGTGAGAAGAAGCGTTTTATCAAAAATAAAAGATAAAAGAGCAGTAGAAAAAATTATAAACATTTTAGGTGTCCGATATAAAGATAGACCTGGAGGTTATACTAGAATAGTAAAGTCTGGGTTCCGTTATGGTGATTTAGCACCGATAGCATATATTGAATTTGTAGATAGAGATATCAATGCTAAAGGCAATGTGCATCAAGATGCTAATGAAGAAATTAAAAATTAAAATATAAATGGACTAGGTAATGGCTAATCATTCTTCAGCAAAAAAAGTTGTTAGACAAACAGTAAAAAGAACGCTAATTAATAAAAAAAGATCTAGTGCAATAAAAACTTTTATAAAAAAAGTTATACATGAAATCAGTCGTGGTAATAAAGAAGATGCTAACCTAGCTTTATCTATTGCGCAGTCTAAGATAATGCAAGGTGTAAAAAAAAATATAATTAAATTAAATACCGCTTCAAGAAAAATTAGAAGATTATCAAAACAAATAAAAAATTTATACAAAAGTGAATAATTTTTCTAAAATTTTGCTAGATTAAATTTGTAAATTCTTATAAATAATTTGTACTAAAACATGGGCGATTAGCTCAGTTGGTAGAGTATCTCGTTTACACCGAGAATGTCGGCGGTTCGAGTCCGTCATCGCCCACCAATTGAAAATTTTTAGTATATCAATAAACACATCATTCGATCTTAAACTCAAGCTTAAATGTGACAATAGTTCAATCTATTAAATAAATAGTATTTTTGCATAATGGCTAAGTAATATTATTTAGTCATTTAATGTCATTACAAGAAAATGATAAAATAATTAATGAGATAATTTGTAATCCTAGAGGGTAGCAAATTTCAGTTCAATTTTATCATGAATGAGTGTAAATATAAAAATCATTATAATTAAGTTATTATAGAATACTTAAAACATAACTATAGAAACCTATTTAATACAACAAGATTTTAGTATTGCTTTTGATGAGCTACAACAAATCAACGAAAAGCTTTGCAAAATATTGTAAGGTTTTTTCATTGCTTGAAATCATTAAAGCTGGAGTAGATGACTCAGATAAAGTATATAACTAAAATGTTAATCTGGAATCGCTTATTGTATTAAGTCACTACAATTAGTTGAATTAAAAGTATAGATCAGTATTGTTTTATATTATCATAATATTTATGAACTAAATAGAATAAATGATTACTAATTGAGTTTGAATAAATAAACACATCAATGCTAATGCGATAAAAATCTTAATAAGAAATATTAAAATTTTGCTAAAAATAAATCAATACTTAGTTATGTTAATGAGAATAAGTCTGATGTTTTCAGTATCATAGAAATCTAAGTTATCATACACAACACAAATACAAGTTTTACAATAGACAAACGTTTAGTAATGTGACACTTTGCGTTAAATACAATCCTATTATTAATATAGTTTACATAGATGACATACATGGCACTATATTGTTCCTATCAAAAAAGTAGTCCATACGACTTACTTTTGCATAAGTAGAAATAGCCATAAGCCTATAAGAAAACGAAAATATAATAGTGGTATCATTTATATTTCTAACATATATTATCTTATATCAAACCGAGTAATAGAGATCCAAGGGCTCTAGATAAAGAAAAATACATAAATTAACTAGTATCCTATTCTATAGTGTATCTCGTAAAAAATTAAAATACTCTCAAAAAGTCTTTATATATTGTAAGCCTACAGTATGTTTTTATGATCTATTAAAATTTTTTTGTATGCATACACAATTTTTTCAAAAGGTTACTATATAGGAATGTTATGTTAGAATATTTTTAAGTAAAACAAAAAGTTATCATATTTTATTCTTATAGTTATTTAAAACTTCTTTTACTAATGAAATTGTTATTTTTCTTTTGGAAATTAAAGCAAAATAGTTAATATTTTCTAATATTTCTATGATTTTAGAATATTCCCTAGGCAAATTTACTAAAAGAAAATCTATTATTTGTTGAGATATTGTTACTGAAGAAATGGAAAAATGCTTAAATATTAGGATTTTAATTAATTCATCATCAGGTGCATTTAATAGAATACTTAGTACTGATTTGATACGTGAAGATAAATCTGGTAAAGTAAAATTATTGTTTTTATCTGATGAGGTAAGTAAAAGATATTTTTGTTTTTCATTAATAACATTAAATATATGAAGCAATGTCGGTTCTTGCCAGTTTTCAATATCTTCAATAATAAAAGTATTATATTTTTCTAGAATTTCTTCATTAAAAAAAATATCTTTAATAAGATATGCGTTGCTTAAATTTTGCCAGATTTTTGTTAAATAAGTTTTACCTGATGAAGAAGGTCCTTTAATTAATAAAGTAAACTTATAAGGATTTGCGCCAAAGCAATACTGCCAGTTTTTTATAATATTATAAGCTTGCGCATTAGAACTAGAAACGATAAATTCATCAGGATGATATTTATTAGAAGGAGTAAAATGAAATATATATTGCTGCACTATATAAGAATTTTTTAGACGTCTGTTCTATAGAACTTACTAGATTTATAAAATTTAATGAGATTCAAGAGTAAAATTTTTGTAATTCCTGCAATTGGTATAGCAAAAAATATTCCAATAATTCCAAATAAACTGCCGCAAGCAAAAATAGCGAATATAATCCAAAGAGGATGTAAACCTATTTTATCTCCGATAATTTTAGGGGTTAAAATATAAGATTCACCAATATTTCCAATGAGATAAATTATCATTATATATAGTAATTTGCTAGTTATGCCGAAAGTTAAATAGCCAATAATTAGAGTTAAAAGAAATGATATAAAAGTACCAAGCAAAGGAATAATAACTAAAAATCCTGTTAAAATGCCAAGTAAAAGAGCAAGATCGATACCTATTAAGGTAAATGCAATGCTATAGTAAGTAGATAACAATAAGCAAATATTTAGTTGTCCTCTTATGTAAGAAGATAATAAATTATTAATTGCCGATAATATTTCTAGGATTTTTGGTCTAGTTTTTATAGGTAATAATGATTCCATATTTGTAATAATTTTATCCCAATCACGTAGGAAATAGAATAATATTATAGGTATAAGTAAAAATAAAACAAATATGTTAATAGTAATAATTGTATAACGCCAAAAATTATTAGCAATACTGCCAAGTATAGTAAATATACTATTTATAAAATCACTCAAAGAATGCTTGATTTTATCAGCGATATCGGGTTCAATTGAATAAATTTTTCCCATAATTGGAGGTAATATTTCTGATTGTAAATAATTTTTATATTTTGGGATATTATTGATAAAAGTAAAAATTTGTCCATAAATTATTGGTATTAATATAGTGAATATTAAGAAAAATATACTCAAAAATATCAGATAAATTATGCTTGATGCTAATTTATTTGATATTTCAAGTTTTGATTCAATAAAATATATAGCAGGTTGTAGTAAGTAAGATATTATAAATGCAATAAAAAATGGTTTTATTGTATCCGTAATTAGCATAAAACCGCTTATAAAAAGTGTCAAGAAAACTAGCCAAAATACAGCGGTTCTATTCATATTCTTCTTCTCATTTTCTATATAAAGATCAGCTTCAAAAAGCGTAAAGAGTTTACAAGAGCAGGAATGCAGTACTTAGAATACTTCAGTTTTTGTAGAACTACAACGCAAATTCTTTCAGCTCTACCTTAGCATTAAGGTTTTTTAACTACTTGTACTGCAGCAGGTCGAAGTAGTCTATCCCTAATTTTATACCCTGATTGCATTAAAGTAATAATACTATTTGGTTCATGATCAGGATGTTCTATATGTGAAATTGCATTATGTAAATTATAGTCGAACATTGAACCTATTGCTGGCTTGATTTCTTCAATATGATGCTTATGAAAGATTTTATCTAACTCATCTTTAGTCATCTGCACACCGGAAATAATATTCGTGACTTCTACATCAGAATTTGCTGGTTTATGTGCTAATGCCCTTGCAAGATTATCACTAACATTTAGCAATTCTTTAGCAAATGTAGCAATTGCGTAATCTTTTGCTTCGTCACGGGCTTTTTCTAACCGCTTTCTTGTATTATCTATTTCTGCAGTAGTCCTAATTAGCTTATCTTTTAACTCTTCAATCTCGGCTTTTAAGCGTACTATTTCTTCGTTGTCTACTACTTGAGTTTCTACGTTAGGATTCTCTTCTTCTACATTATTGTTTTCTATATTATAGTCTTTCATAATATTTTTTATATTAGTGTTCTTTTTTAAGATATATATAGATATAATAAATTTTTTTTCAACGGTATAATCATGTAATTTGAAAAATTTGCTACGTTATTTTATTTTTCGTACTAAATATGTATGTTGTGATCAATAAAACATTTTGCTCTTTTTGAAATTTGCTTTCGTATACCGATTCTTTAATATTATTAGGAGTACAAATTATATTATGAGACAGTCAGGAAGAAAAAGCAACCAATTACGTCCTATTTCATTAGAATTATCTCCTCTGATTAATGCAGAAGGATCATGTCTGATTAAAATCGGTAATACGCATGTAATGTGTAGTGCTACTTGTGAAACTACTGTGCCTCCATTCTTAAGGGGGCAAAATCAAGGATGGATTACTGCTGAGTATGGTATGATCCCAGGGTCTACATCGCATCGTATAAAAAGAGAAGCTGCACTCGGAAAACAAGGTGGCAGAACTCAAGAGATACAGCGTTTGATAGGTAGGGCGATGCGATGTGTAATTAATTTGCAGAAACTCGGGGAGAGACAAATTATCATAGATTGTGACGTTATTAATGCAGATGGCGGTACTAGAACTGCGGCGATAACTGGAAGCTATGTAGCATTGCACCTAGCTATTAGATCGTTGATGAAAAAGAGGATTTTAAAAGTGAACCCGTTAATTAGTCAAATTGCCGCTATTTCTTGCGGTATATATAAAGGTAATGCGGTTCTAGATTTAGATTATTTAGAAGATAGTGATGCGGAAGTGGATAGTAATTTTGTTTTTGCATGTAATGGTAATTTAATTGAAGTACAAGGGACTGCAGAGAAAGAACCATTTTCTGAAGAGCAGTTTTTAGCAATGTTAAAACTTGCTAAAAGTGGAGTTGTAGAATTATTCAAACTACAAAATCAAGTGCTGATCGCGGCTGAATAATATGGATCTTCCATTCCCGTGTATGCATTGTAAAAAATGTTATACATTAGCATTTTAACACTGGATTACTTAATTAATAGTATACCTCTCTTAGACTAACACTACTACCGGGTCTACAATTAATTATTGACCATTACCTATTTACGTGATGTACTGATTAGCTTTAATTATAATTTGATTAATTGATATATTAATATTTCTACTACTTTGTACAAGTATTATCCTTATAATTTTAGTGTATATTTATTTCTTTAAATGTATGTAAAATTGTCAAATTTTTACTACAAAAATCTAACTTATAATTACAGTACAATTAAAATTTTTAAGCGTCAAATATTCTTATATACTAATCTTAATTTAGTGAATGGTTACTGTATATATTCAGATGTTAGTGGTCAAAATTAATCTAATGAATTTTTTTAATTTTAGTAAAGCAAAATATGGTCTTGCATTTATAAGTTGTACCAATTACAATTAATTGTTCAGTATTAAAATAATAATATTTTGTTGTATTTATTGCAACATTGATTTATTTGCAGATTTTATTCCATATTGCATAATATAAGCTCTTTCTTGCAAAATTTTTTGTTTTTTATACTTTGTAGTAAGAGGTATGTTTTCTGTACATTAGCATCAATTGTCAAGCGTGTTTTTGGTCGTTCTATTACTTGATTATACTAATATTTAGCATTTAAAATGGTTTTCTTGATACTGTAATCAAGTTAGGTATAATGCAATATGTAAATTGCTTTACAAAACAATGCAACATATATCTTGTAGAGCAAGTATTATAAGTGCTTGTTCTAGTGCTGTTATATGAAGCATTAAGTCAGTGAATGTCAAAAATATTGCATTAATTACTTATCTACAATATAAGCTATAAATTATCATCAATATGATAATTATCTAAAAATTATTCTCGTATAATATCGTCTTAGTTTAATATAATGCTTATCATAAAAAGTAACTAAGTACTAAACCAATGCTCTTAATTATGTTCTAGAATATTCTAGTAGGATAGAATTCTGAATGATAAACATAAACCATATTTTTTAAAGTCTTAGTAAAACTTTTTTTTAGAATATGCTTATCCTCAGGCTAAACTTCATAATAATAAACATGATATTTCATTCAATATTAGTTATGGCTTGTATATCTTGTAAGAAATTACGTTTGCTAAAATTGCCTACTATGCAAAACGTATTGTTAGATAAGCTTTGTAGATATGATGCTTAATAATGGCACAGAAGGTGTAGTACTTTGATAAATCATCTATGCTTGTTTCCGATATCATGGAAGAAACACTGAATCGTTGATGTAATTGGCTAAAGATCATGTTGGATTACTGGTGTAAACATTTTGTATTTAAAGCAACATCAATATTTGATACCAATCTATATTGGTTTATTATAGCAATTTTTGGAGTGTGCATTTTCCTTGGCTATTTTTATAGATAGGAATGATATGGTTTATTAATGGTATTTCCCTGTTTTACATCTTTATTAGTAATAATCTATATATATTAAGTAATTAAAAAGTGGCAAAGTAAAATTGCAAAATTATAATAACTTTTATGCTGTATCATTGTTTTACTACATATAAAGTGGTATTTATAATGATTTTTTGTACTTTAAAATAGAAGTAAAACTAAATATTAGATTAGTTGAGAGTATTTTGCAAAAAAATATATCTCTAATAAAAAAAATTTTTATTTTTCCCCCTTGAACTAACAAAAATAAAATATATATAGTATGTACATTTAAAGATTTAATAATTGGAGGTTAAAATGTCTTTTAAACCATTACATGATAGAATTGCAATAAAGCCTATCGAAAATGAAGAGAAAACTAAAGGTGGAATTATTATTCCAGATACAGCAAAAGAAAAACCAATGCAAGGTGAAATAGTAGCTGTAGGTAACGGTGTGCTTAATAAAAACGGTGAAATTCATCCTTTAGAGCTCAAAGTAGGCGATAAAGTTTTATACGGTAAATGGGCAGGTACCGAAATTGAAATAAAAGGAGAAAAATTAATCGTTATGAAAGAAAGCGATGTATTTGGTATTATTAATTAATTATTTTTAGGAGAAAAAATATGACAACGAAACTTATTAAACACGGTTCAAAAGCCCGTGAGCAAATGCTCGAAGGTATTGATATACTTGCAGATGCAGTAAAGGTGACTTTAGGTCCGAAAGGTAGAAATGTACTTATCGAGCAATCATTTGGTGCACCGAAAATTACAAAAGATGGTGTCACTGTTGCAAAATCGATTGAGTTAAAAGATAAAATTAAAAATGCAGGCGCTCAGCTATTAAAATCAGCTGCTACAAAAGCTGCAGAGGTAGCAGGTGATGGTACTACTACTGCTACGGTACTTGCTAGAGCTTTGGCTCGTGAAGGTAATAAGTTGGTTGCAGCAGGCTATAATCCTATGGATTTAAAGCGTGGTATGGATTTAGCAGTAAATGCAGTAGTAGAAGAAATTAAAAGATCTAGTAAAAAAATCAATAGCCAAGAAGAAATCGCGCAAGTTGGAACTATATCTTCAAATGGTGATAAAGAAATCGGCGAAAAAATTGCTAAGGCAATGGAGGAAGTCGGCAAAGAAGGCGTGATCACCGTTGAAGAGGCAAAGAATTTTAGCTTCGATGTTGAAGTTGTTAAAGGTATGATGTTTGATAGGGGTTATTTATCGCCATATTTTGTCACAAATTCTGAAAAAATGGTTGCCGAGCTTGAAAATCCTTTTATCTTACTATTTGAAAAGAAATTATCAAATTTACAACCGATGTTGCCTATACTCGAGGCTGTAGTGCAATCACAACGTCCGTTATTAATTATTGCTGAGGATGTTGAAGGTGAAGCACTTGCGACGCTTGTAGTCAATAGATTACGTGGTGGTTTAAAAGTGGCAGCAGTAAAAGCTCCTGGTTTTGGTGATAGAAGAAAAGCAATGATGGAAGATATTGCTATCCTCACTAAAGGTGAGCTTATTACTGAAGATTTGGGTATGAAGCTTGAAAATGTAAATATTAAAAATTTAGGTACAGCAAAAAGAGTTACAATTTCTAAAGAAAATACTGTAATTGTTGATGGTAACGGTGATAAGAAAAATATTGAAGATAGAGTATTGCAAATTAAATCTCAAATAGCTGAAACTACTTCTGATTATGATAAAGAAAAACTTCAAGAGCGTTTAGCTAAACTTTCCGGAGGAGTGGCAGTATTAAAGGTTGGCGGTGCTACCGAAGTTGAAGTGAAAGAGCGTAAAGATCGTGTTGAAGATGCACTTGCTGCTACCAGAGCAGCGGTTGAGGAAGGTGTTGTTGCTGGTGGCGGTGTAACGTTACTTCATGCTTCACAAACTTTAACAAAGCTTAAAGTAGAAAATAAAGATCAACAAGCTGGCATTGAAATAGTAATAGAAGCTTTAAAAGATCCACTAAAACAGATTGTTAAAAATGCCGGTGAAAACGGTGGTGTAGTAGTTGGTAAATTACTAGAACATAATGATAAAAATTATGGCTTTAATGCTCAAGATATGCAATATGTCGATATGATTAAAGCAGGAATTATTGATCCAGCTAAAGTAGTACGTACTGCACTTCAAGATGCTGCTTCTGTTGCTTCTTTAATTATTACCACAGAAACTTTAATTGTGGATGAACCTTCTGATAAAGAAGAACCAATGCCAATGCGTGGAGGCATGGGCGGCATGGGTGGCATGGGTGGTATGGACTTCTAAGTTTATAACTACTCAAGATAGGTTATGCAATAAGTCTAATAAACTATTCTTGTTGTATTGCTTCTCGTAAGAATTGTCGCCCCTAGACTTAGGGACCTAGTACAAATGGATACCGTTACTTAGAGATAGCACATTTGTACTGGGTTTCTCTACAAAAGTTTATGAGATGAACAATTATCTAGCTGTTCACGCATGCAATGCCTTCTAGTAATATATTAACAACGCTCTGTACAACACATTATACAGTTGCAGTAGTATACTGAAAAACTGATTTATGCAACAATGTGTTTTAAAGCTATTCTTTGCTTAATTCTTTTTAACACAAGTCTTCCTCAAATAATATAGATCTTATATAAATGATAGCAAATATTTTATAATTAATTATAATAGCTCAACCTTTGGAAAATGTGTGCAGTGATTTTACACTTTAATTATTAAGAATAAATTTGTTGAAGCTATAGGATTCATTTAATTGAAAAATTATTAATAAAAATTTCTAGCTTTTGATTATATTAAACTACGATAGTTAAAATTAGTAAGATTAAAATAATTATTTTTATTTTAAAAAATTTGATAATTTATACAGTTAAGTAATACTTTAATAAGATAATTTAAATTTTATGTGTAAAGCTTAAAAAAAAGATTAAAAGCAATCTGATAATATGCTTAGTATTAAAGAAAAAATAATAATGGTATAGTAGTATAGATTTTGCCATAAGCTTCATTTCCTTATTAATATCAACTAAAGCTTAGTTTTTATTAATATTACTAAAAAATAGTAAATTAATTAGAAATATTAATAGAATTTAATCAAATTTATTGCTTTAATTGGTGTTTAGTTATTCGTAAGTATAACTATTAACTGAATTAGTATAAATTAAGGAGGTAGTTTTGCTCCAAAGGGTTATTAAACATTTAAGTTATAATTTATCTAAACATGATATTGCGGCTCAAATAACAGGTAGGATAAAACATCCAATATCAATTTTATATAAATTATATCGTAAAGGTATAAAGTTAGAAGAATTAACAGATATTTTTGCGATAAGAATAGTAGTAATAGATGAAGAAAAATGTTATAAAGCTTTAAAAATAGTTCATGAACTTTATGATCATGAAAAGGATAAATTTAAAAATTATATCCTTAATCCTAAACCCAATGGCTATCAATCTTTACATACTATTATTATAACTGAGGATAATTATAAAATAGAGATACAAATACGTGATTATAATATGCATTATAATGCAGAAAGTGGTGACGCTGCACACTGGAAATATAAAAATAGTTTTTAGTTGATTTAAGCTTTTTTCTTTCTAAAGTAGTATTGCATCCTCTTTAATTTATTTTGTATTATTTTGAAGTTGAAAAAAGAAATTTCGTAAACCGATCGAAATATTGCCTTTTGTTCTGAAGGAAAATGTTGCTTGATAAAATTATTGCAAACATTTAATAGTTGTTGTTCTACGGTTCGTATTTCTAAATAAGCTGCTATGAGTAAGAAGCTTTCTATAGTTTCTTTTACTGTTTCTAAAGCCTTTTCTGTAGATTTAGCATTGATAGTTTGTAAATTATGCAGTCGATCAAATACTTTAATAAGTGCAATATCATATCTTTGTTCTTGGATTAATAAATTTAACATTTCACCGGAGCTAATTTTACCGTATGGCTTAATTCTTGTTAAACGTTCTACGTTATCTGCAATATTTTTATCAAAAATTTTGCTAATATCAGCATGTGTAAGTATTGTATCCTCAATAGTATCATGCAGAAGTGCTACATTCATCATATATGATTTGTAAAGTTTAGGAGCTTCAAGAGCTGTAAAATCTGCAAGCATGATTGCAACTTCTATAGGATGAGAATAATATGGCTCTCCTGATTGGCGCATTTGAGTAGCATGATATTTACGGGTATAATAAATGCCTTTTTCAACTTCTGTTATATCTATAGGTGAATCTACTATAGTATTCAAATATTCAATTCGACCAATTAATTTTTTACTATAATCACAAAATTCAAATTTTTTCTGCCAAATATCAATATCTTCCATAAACCTACTAATTATTTAAACTTAAAAGAGTATTTATATCCATACAATTAATATAAAATATTTTTATAAGAAAATTAATAATATTTTAGAAAGATATAATATTTATTTTTTAAATTTATCAGTAATTAATGGTGAAACACAAGTTAAACTATATCTTGATTTTTAAATAAAATTATATTTTTGTGTTTTTTACACAGCCACATTAATAAATTGAGTACATTACTCTCAATAATAGATAATCGCTTAAGTACAAATATAAAATAGTTAATAAAATATTCTTATTTATTCTCATATATTTCATTTTAAAATTAAAAATTTACTCACCATTATGAATTGTTATTATGCAATTTTTTTAATAAAATTTTATAAAATATTTATAATTTGTAACAATGACACTAAGAGATATGACGTTAAATGAACATGATTAAAACGAAAATCTAATTTGTATAATTTATTAGATGTTACAAAAATAAAACACTGTTTATGATCTAAATACACCTAAAATCACTTTTGACGTGAGTACAACAATATTGCTGTGATGTTAGAACGTATACAGTTTGCAAATATTTATGCATTTGTAGTTAAAAACAATTTAACAGAATATTTTTCACTACTAAAGTCTAAAAGTGCAAACATTTTGTGTTCGTTTTATATTTTGTTGAATCCAGTATTGAGTTATATAGTAATATCTTAAGATCATAATACTCTGAATACTTTGACATAGTTAAAAGATATTGTAATATTTCCTGTTAGGACTACAATCATTGGTTTACTACTGTACAAAAAAAGAAAATATTCAGATTGAAACAGGGATTACATTATAATTGTCTAATTAACGTGGTGAGAGTATTATAGTATTTGCTAAAACATATATGCTTGTGCTTTATTTAGGTGTTTTTATGGTAAAGATAAACTATAATTTTGCAGCAAAGTACTATGTATGTAATACTTCTTTTTCGATCACATAATAAGCTCCTTCCACAAATATATCTGTCGTGGTATACATTTCTAAATTGATACTCAAATTAAATGCACTCATTTTGTTGATGACACTACTTTGCTAATACTTGCGATTTGTAGTGGCATAATGATGCGTTATTAAAAGTATTAATACGTAACATTGTTAATACCAATATTGTAGTGATCTATTATAGAAATAATTGAAAAATAATTACCAAATAACTTTAATAGATTTTGATTTTGTATGTAGTTTTTTGTTCACAATGAATCTTTAAATTACATATTTTAGTAATAACTAATAAAACAAAGTTAAACAAGTACATCTCTTCTACTTTATCTATAAAATATGCTACTGGTTTCATTGTACTAATCTTTCTTTTAAAATTATTATGTATTACCACATTACTTCTTAATGTATGTTCATGAAATTTTGGTTGAGGTTTAAGTACAAACTTTTTGTAGATGCAGATGTACAGCTCATCTAAATCCTGATGAAAGTTAAAGATGCGCTTATAGAGTAAATGAATGAGATGTGTCCCAATTAAGTATAGAACAAATTTATAAAATGAACATATTATGTGCAATCTCAACATTTTTGAATTATAAACTAAAAATAGTCGAAAATAACCAAGCAATAAATGAATATTGTGTTGGCCCTAAAAACATTATTAGCATGCTTATGCATTATTTGATTCAGTACTAGGAAGGTAGATCATCATAATTAAAGTTAAAATTATAATAAAAATTAATAAATCAAATTTAAAATAAGTCTTTATCAGTCCATTTTTATACTATATTTTCTAAATTAGATTTGAGCTTTTGCTCTCTCTTTTGTTATTCGTTCTAAAATTATAGATAAAATCATGTTTAGATATTTTTGTATAGTTATAAAGTTTGAGACAATTTATGTATTTTTGTTTTACAACTGCTAAACTGTATGTATTGCGAATTTGAACATTTTAGTGAATTATTACGATTATCTTTAATCCTTGTATTTTTTGCTCCACATTGAAATTGAAATATATTGCCTAGTGTTTTGTTATAATAAGCAGAGTTGTGTTACTCATATTAAAATAAAAGCTCAGTATTTTTGTTGCAGTAATGAAAAATTTAGATTTTTTTGAAAAATTCAAAAATTCAGATTATTATAATATATAATTTTTAATCTTTTTAAAATATTTTCTTTTCCTAAAGTTTCTGCAATTTCAAAGACGCTAGGTGAAGCAGTCATACCAGTTATTAAAGCCCTTACTGGTTTCATAATATCATTTAGTTTTAAGCCATTGTAAATTGCTATTTCTTTAAATTTATTCTGTACGCATTCCTTATTAAATTGCTCAAGTTTGCTTAAGTTTTCTATAACTTGTTTGATTAAATCTTTATCGCAATTGTTTATTACTTCTTTCGCATCTTGACTGTAGATCATAGGTGAATCTACGAGATAAATGTAAGCAAGCTGTGCTAAATCTCTTAATGTTTCGCTTCTCACTATTAAGCTTGGCATTGCTTGTTTTATATAACTTACCTCTTTTTCACTAATCTTATAATTTTGTTTCAGAATCTCTACAGTTTTTGAAGTTAAGCTATCATTGTCCAGCATTCTTAAGTAATGAGAGTTAATACTATTCATCTTAGCAAAATCAAGTTTAGAAGGTGATTTACCAAGTGAAGCAAGATTAAACCATTCTATAGCTTGATTCATTGATATAATTTCATCATCACCGTGACTCCATCCGAGACGCAATAAATAATTACATAAACTTTCTGGTAAATATCCCATATCTTTATAAGCTTCAACGCCTAAAGCTCCGTGTCTTTTGGATAATTTTGTTCCATCTGCGCCATGAATTAACGGTATATGAGTCATATTTGGGACTTCATAACCGAAAGCATGATAAATAGCGATTTGCCTTGCTGCATTGGTTAAATGATCATCACCCCTAATAATATGCGTTATTCCCATATCATGATCATCTACTATAACGGCTAGCATGTAAGTAGCAGTTCCATCTGTTCTAATTAGTATCATATCGTCTATATGTGAGTTTTCGATTACTATCTCACCTTGTAAAGTATCATGTATTGTTATACTGCCTTCACGAGGTACTTTTAATCGTATTACCGGCTTTATATCAGCAGGGTAGGTAGATGGTCCTTTATCACGCCATTCGCTATTAAAAATAAAATGTTGTTTATCTTTTAAAGCTTGTTGTCGTTGTTTTGCTATTTCTTCTTGTCTAGTAAAACAATAATATGCTTTACCTTCTTTTAGTAATTTTAGTGCTGCCTCTTTATAAAGCGAATTACGTTTAGACTGGAATATAACTTCACCGTCCCAATTCAGCCCCAGCCATTTTAGACCTGAGAATATTGCTTCAACTGCCTCTTTAGTTGACCGTTTCTTATCAGTGTCTTCAATTCGAAGAAAAAACTTGCCATTATTATGTCTTGCAAACAAATAATTAAAAAGAGCGGTTCTCGCTGACCCTATATGTAAAAACCCAGTCGGTGACGGAGCGAATCTAGTAATTATGTTAGTCATTTATTATTATTATTTTAAATATATATAACTCAGAATATACTCAGAACTTTTTAAATTATAATTTGATTAGAGTATCTAGGAAAATAATTTGCAATATATACTGTTGAGATTTTACTAAATCACACGCTTAAGTTGTGGAATGCCATTACATGTACTGGAAAGTGAATTCATTTTCTTTTCCAAACACATAAAATAATTTACATCTATATCATTACTTAATTTCCATTCATTCTTAGCAAGATTAAATACTAAACCTTTCAGCTCTTTAATTTCAATATTAGTATCCGTAAGTATTTCATAAATTTCCGATGGTTTTACAAATTTGCTATAATCATGAGTATTTTTTGGCACCCAACCTAAAATATATTCAGCAACTATTATGCCAAATAAATAAGCTTTTTTAGTGCGGTTCATAGTAGAAATTATTGCTATACCATTTGGTTTAATATGTTGAACCAAATTTAGTATAAATTGCTGTATATTTGCTACATGTTCAATAACCTCAAGACAAATTACTACATCATATAGCTTATCGTTTTCTAATTCTTCTATAGTAGCTTGTAAATAATTTATCTTTAAGCCATTTTTCTGAGCATAAATAGTTGCCGTTTCAACATTACTTTTTAGTGCATCAATGGCCGTAACGTTAAAACCTTGCAATGCTAGAGGCGCTGCAATTAATCCACCACCACAACCGACATCTAATATTTGTAATTTAGAAATATCATTGTAATTTGATTTTATTTTTTCTATGATATATTCAATGCGAATATGGTTTATGCGGTGTAATATACCGAATTCCCCATTCTTATTCCACCAATTATGAGAAATTTTCTCAAATTTTTCTAATTCTTTTTTATTGATTGAAGACATAGTTGATGATTCTTTTTAATGTCATCACGTGTCTTAAACTTGATGACGCAACACACTATATATAATATACTCGTATGACTTTAATAATACTAGCCTTAATTTTAATTAGCTGTATATTTGCCCCACTAGGATGTATAGCACTATGGAAGCGATATATTTATTTTGGTGATGGACTTGCTCATAGTAGTTTTTTAGCGGCTAGCATAAGCATTATAGCCCATTTCCCATTAATATATTCAGGAATAATAGTTGCAATTCTTTTTTCATTTTTCGTGTTTTTTTTTAAAAATAATTCTGAGAAAAATGCAGTTATTAATTTAATTTCTAGCTTTATGCTAGCTGTCGCTTTGATTATTAATTATTTTACTTCTTTGCAGAATAATATAGTGCATTTGTTATTTGGTGATATTTTATCCGTATCTTTTAATGATTTGATTATACTCGTGGTAGTGCTTATAACTATAATAAGTTTTGTAGTCTATTTTTATAATCAAATTCTTCTTATAATTATCAATAGAGATATTGCAGTTATACAAGGCTTAAAGGTTAATATTATTGAGCTAATATTTTTACTTCTTCTCTCATTATCTGTATTTGCTGCTATAAAGATTGTTGGAGTACTTATGGTTACTGCTATTTTACTTATTCCTGCGATGATAGCCAGGTTTGTATCATATAGCCCGTCTCAGATGATTATAATATCAATTTTTATCTCTTTATTTATTAATTTTTGTGCTGCATTTAGCTCTTTCTACTTTGATTTACCGTTAACTCCATTGTTTATTATATTAGGTACATTGATTTATAGTGTGTTGTATTTAAAGCGATTCTTATGAGTTGACTAATATAACAAAAAATTGCTAAACCAATATGGTGCATTAATATTCGTGTAATATTTAACTGGTATGCTATATATTAGCATTATGGTAGGAATACTTATATTAAATCATCTAAGTAGTTATCAATATTTATATATTTAAGTTTTGATTCGCTTCTAAAGTAACTTTATCATGATGCGAAAATATTATTGCAAATTATTGAGTATCAAGAGTTATTAGGTAAGTAATTTCAAATAGCTTTAAATACTGTAATCAACACAAATAAAGGCAATATCGTAACTTAACTAATTTATCTAGTGAAAAATACTATATTTAGAAAGATATGAGGTGCAATAGTTTTTGGTTTTACCTATCAAGGTCACAACACTCAGAATGCGTGAAATCGCGTAGGTTTATATTTTTCATAATCTCAATATAATCAATTTTTCCACTTGCAAGCAGTGGTATTTCTGAATTGGTAATGATTAATTTTGGTAAATGTAATAAAGAAATTTGAGCGTTAGATAGCATATTTGTAAAGTTTTCTTGATTTATATCGGAACCTGTAGTAAGTAAAATAATTTTTTCCCCATGTCTTTTATCTTGCACAGAAATAGCAGCGTGCAATGAATCAGGATCGATTTCGCTTGCAAATTCTTCAATTCTTGTAAGAGATATCATTTCCTCTGCTATTTTAGCAAAGCGTTTTAAGCGTCCTAAAATTGTTATATATCCTTCAGAATCGATTTTGACTATATCTCCTGTATCGTACCATTCTTTATGACTACGTTGCCCTTCTAAGTCTAGGTAACCAAGCATGATGTTAGGGCCTTTGATTAATAAACGCCCCCCTTCATTTATACCTGCTACTTTTTCAAGTTTATAATTGATTTTTGGTAATAATCTTCCGACAGTGCCTGCTTTATTATGCATAGGGGTATTACACGCTATAATAGGTGCAGCTTCAGTAATTCCATATCCTTCAAAAATACGTATACCGTATTTATTAAGCCAAAATTGTCTTGTAGTTTCTTTTAATTTCTCGTTACCAGCAAATATATAGCGTAATGAAAAAAAATCATATGGGTGCGCGTAATTAGCATAACCCTTTAAAAAAGTATCGGTAGAAATTAATATAGTTGCTCCAATATCGTATATAGCTTCAGGAATACTGCGATAATTTAATGCATGAGGATATAAAAATAGTTTAATGCCGTTTAAAGTTGTAATAATTGCTCCACTAAGCCCAAAACAATGAAATAGTGGTAGTGCATTAAATACTATATCTTCAGGGCTAAAAGGTACTTTAGCGGTTATTTGATATCTATTAGTTTGTAAATTTCTGTGAGATAGTAATACTGCTTTAGGTTCTCCTTCAGTGCCAGAAGTAAAAATTATTACTGCCGGTTTTTCTTCATCACGATTATGACAAAAATAATTGTAATAAGTTTGAGTAAAATAACCTCCTATTTTGGCTTTGAGTTTTAGAGCTGTACTAATTTGATTTTTAAGATCTTCTAAATATATTATTTTAATTCCGAAATCTAACAAGTTAGTTATTAATTTATGTAAATTTGCTTTCTCAATAAATTCTTTTGACGTATAAACTACTTTAATTTGTGCAAGTTTACAGCAGTTAATAATAGTACCTATAGCGCTACTCCAGTTAATTATAGCAGGAACATAACCACTAGATTGCATAGCATAAAAAGTAATTAATGTATTTGTAGTATTCGGCAACATTAGGCCTAAATTCCTTCCAAAGATATTATTCTTTTTGATTAAGTCACCTAGGATAAAAGATTTGAATATTAAATCGCGATAAGTTACTGTATTTTTTTCAAAATCATCAACTATTTTTTTTTTAAATCCATGAATTTTAGCAGCTTCTATAAGAGATGAGAACAAAGTATTTTTATAATCTGAACTCTCAAACATCATGTCAGCCATAATATCATAAAGAGTCCTAGATATATAACTACGTCGTTCTTGATTACTTGCAGTATCCATATTAGCGAATTTTACTGGTGGTAACACTGTTATAGTAATTTTAGGAAATATTTTCTTTTTTAATATATTTTTTAATTTTGATAGATGTGTAAATTGAGTACCGTCTATTCTTACAGGTAAGAGTGTTGCATCGGCTTTATCGGCAATCATGCCAGGTCCTTCGTAGATTTTCATTAAAGAACCAGTAACACTTATTCTACCTTCCGGGAAAATAGCTATTTTCTGATCTTTTTGTACTTCTTTTACTAAAGTCTTGATAGCCATTGGATTACTTGGATCAACTGGCAAAGTTTTAGCCATATGCAAAAATGGTTTAATCCACCATATTTTTTGTATATCTGGACTAATAGCAAAAATCATCTCTTCTCGTAAGTAAGTAGCAATTAGCGGTGGATCGAGATATGAAATATGATTAGCAACAACAACTACTTTTTTGCCAGCTTTTTGAAAATTTTCAAATCCTTTAACTTCAACTTTATACATAAGATCAAAACAGATTTGAAATATTCTACGTAATAGCTTAAAAGGAATAATTTTAACTTCAGGTATTAGGCGGTAAATATATATAGTGACGACTATATTAGCTAGGCTAATAAATAATATAATCCAAGGTATAGTGAAATTTAGATAAAATAATAGAGATAGAATAATTGTTGATCCAACCATGAAAATGGAATTAATGAGGTTATTAGCTGCAATAATTCTGCTCCGATGAGCAGGATTCGCATAATGCTGTAATATTGCAAAAAGTGGAACGATATATAACCCGCCTATTATTGCTAAGAAAAATAAATCTATAACTATTCGCCAATTATGTCTTTTAGATAAAAATACAAAAATACTTTTTAGCTGAGTAGGTTCGTAGTTAACTGAACTAATTCTACTTGCGAAGAATAAATCAATACCGAAAATACTAATACCTAGAGCTGAAATAAATAGATATTTAACCGTAATCTCATTTTCAAATATTTTGCTACAGAGAAATGATCCTACTCCAACACCAAGAGAAAAAACAGCTAAAAATAAGTTAGCCACATTCTCATCAGCCTTAAAAGTTATCTTAGCAAGCAAAGGTATTTGTGAAATGATCGCAGCGCCAATAAACCAAAACCATGAAATACCGAGTATAGCTAAATATATCTGTTTTTTTGCTTTAGAATATTTAATCATACTTATACTTTCATCTATAATATTAAAATTTATTTTAATATTATGATTTGCATTGTCCGATTTTGGAGCAAAAAGGCTTGTAATAAAGCCAAGAAAAGCAATAATAATTAATGAATAAATTATAAAATTATTGCTGATTGTATAATAACTTCCTATTATAGTACCAATGAAAATACCTATAAAAGTACCAGCTTCAACAAATCCATTAGCTCCAAGTAATTCATCTTTATTTAGGTGATCAGGTAATACGCTATATTTGATTGGACCAAAAAAAGTAGAATGTATACCCATTAAGCCAATAGAACAGAACAGGATTAACAGATTATTATGATGAAATCCGTAAATTGCAAAGGCAATTATACCGATTTCATAAATCTTAAGAATTTTCATAAGATTAGCACGTTCGTATTTATCAGCAATTTGTCCTGCTATGCTTGCGAATATTATGAAAGGTAGTACAAAAGTAGCATTAGTAATTAAAACCAGTACATTATTATATTTACTTAGAGTTCCTGAAATGCCATAAGTTATAAGTATTACGAGAGCATTTTTTAATATATTATCATTAAGACAACCGAATAACTGTACTATAAAATTTGGTAAAAATCGTCTATCTTTAAAAAGATATAATTTGTTTGTGTCCATGATATTCAATAATTTAAAAAGCCAATTTTATTGGATTTTATCGTTCTGTCTTGGTATTTCAAAACATAGTTCAAAAATACGCGGCGTTGTGCTGTGGATTGTCCACTATATCACGAACGCAACTAAATACTAATAATTAGTGTTTTTAACGAGATTCCGTGAATAAATTACAGAATGACAGACGTAAAACTGATCCACGTAGATAATACTATACAGAGATGACATAGGACTCGTAATGCAGCCTAAACCCAACAAATATTATCAATTTATATTAATATGTCAAATTTAGATAAATATTTAATGAGGATTATTTAAATTTTTATTATAATATATGTTATTATTATTCTATATATCAAATATTATTAGATGCATCTATATGATTTTATAATGAATTTACTTATTTTATAAACGCATATTTATTGCTTATAAAAATTATTTTCTATTTTCTCATTTTTGATATAAGACCTAGTATCAATATTTTTTATTATTTTTTTCTTTCTGTACTTTCTTTCTTCTGTATAAATTCTTTTTTAAGAGAGTTGATAAATTAGCAAATTTAGCAAGTGATTTGACTTTTTTGAGTACTTCTTTTGTATCTTCTGTAGATGACATAATAATTATCTTTTTACTTTATTATTATTATATTATATTATTGGTATTTTGAAAAATAAAACTATTAATCTCGCTATGAATCAAAGTAATATAATCTCGCCTGAGTTATTAGATGAGAGAAAAAATATTGCAAGGCAAGGGGGCGGTGAAGCTAGGATCAACGCACAACATCAAAAAGGTAAGTTAACTGCACGTGAACGCATAGAAGTATTATTAGATCCAAATAGTTTTACTGAAACAGGAATGTTTGTATCGCATAGATGCGATAATTTTGGGATGCAGAATAAAAAGTTTTTAGGTGATGGTGTTGTAACTGGATACGGTACAATAAATGGTAGGTTGGTATTTATTTATAGCCAAGATTTTACTGTACTAGGAGGCTCTCTTGGTGAATATCATGCTAAAAAAATCTGTGATATTATCGACCAAGCTATAGCAACTGGTGCACCAGTCATCGGTATTAACGACTCAGGTGGCGCAAGAATTCAAGAAGGTGTTGATGCTCTTGCCGGATATGGTGAATTATTCCAGCGTAATGTTTTAGCTTCTGGTGTTATTCCACAAATTACCTTAATTATGGGACCTTGTGCTGGTGGTGCTGTTTATTCTCCTGCATTAACCGATTTTATATTCATGGTTAAGAATAGTTCTTATATGTTTGTAACCGGTCCTGATGTAGTAAAAACTGTTACAGGTGAAGAAGTAACTCAAGAAAAGCTTGGTGGAGCTAGAATGCATACTACTAAGAGTGGTGTTGCCGACCTTGCATTTAATAATGATATAGAAGCATTACTCGAAATTCGTAAATTCTTTAATTTTCTACCTTCATCTAATCGTAGCACTCTGCCTGTCCGGCCGACTGTTGATCCTGCTGATAGAGTAGATATGTCTCTGAGTACTTTAATACCTAACACTCCTAATAAGCCTTACGATATGAAAGAGCTTGTTGAACGTATTGTTGATGAAGGTGAATTTTTTGAATTACAGCCTGATTTTGCTAAGAATATTATTATCGGTTTTGGTTATATGGAAGGTTATCCTGTAGGATTTATCGCTAATCAACCATTGCATTTAGCAGGATGTCTGGATATAAATGCTTCAAGAAAAGCAGCTAGATTTATCAGATTTTGTGATGCTTTTAATATTTCCATAGTAAGCCTAGTTGACGTTCCTGGATTTTTGCCTGGTACATCTCAAGAACATGAAGGTATTATTAAACACGGGGCTAAGCTGTTATACGCTTATGCAGAAGCAACTGTGCCGAAGATTACAGTGATTACACGCAAGGCTTATGGAGGTGCTTATATAGTGATGAATTCAAAGCATCTTAGAGGTGATATAAACTATGCTTGGTTTAATTCTGAAATTGCTGTTATGGGTGCAGAGGGTGCGGCTGAGATAATATTTAAGGAAGAATGTAAAGACAATGAAGCTAAAAAGCAAAAAATCGATGAATATAGAAAAGTAGTCACATCACCTTTTGTTGCAGCATCTAGAGGATATTTAGATGATATTATAAGACCACAAAATACTAGATGGAGAATATGTAAGGCGTTAAATTTTTTACGTACTAAAAAAGTATCGTTACCTTGGAAGAAACATGATAATTTGCCGCTTTAGTCGCCATAATATGCTCCGTAACGAAACATAAGAAGATCGTCTGTAAAAGATCTAGTGGTTAGATATAGCGTGGTATTAGGATACAAAAAATTATGACAAAACCATTATTTGATAAAATTTTAATTGCTAACCGTAGTGAAATTGCAGTTAGGATAATTCGAACTCTCAAGAAAATGGGCATAGGGTCAGTTGCTGTATATTCTGAAGCTGATACTAATTCAATGTATGTACAGCATGCAGACGAGGCTTATTATATAGGTGATTCTCCTGCTACTGCAAGCTATTTATCTGTTAAAAACCTTATCTCAGCGATTCGTGAGAGTGGAGCAAGTGCTGTACACCCCGGATACGGTTTTTTATCGGAAAATCCAAATTTTGCTAATATTCTTAAAAGAGAAGGAGTAGTTTTAATAGGGCCAAGCGCTGGAACTATTAAGAAAATGGGTGATAAAATCGAAGCAAAGAAAATTGCAATAGAGGCTGGAGTGAGTACTGTTCCAGGTTATATGGGTACTATAAAAGATGTTAAACAAGCTATAGATATTGCTAAAGAAATTGGTTTTCCAGTAATAGTAAAAGCAACTGCCGGTGGTGGTGGACGTGGTATGAGAGTGGTGAATAATCCAGCTGAAATGGCAAATGCTTTTGAATCAGCAAAGCTTGAAGCTGCTAATAGTTTTAGTGATGATAGATTATTTATTGAGAAGTTAATTCAAACCCCGCGTCATATTGAGATTCAGCTAATTGCGGATCAATATGGCAATAGTGTATGTCTCGGAGAACGTGAATGTTCAATACAGCGTCACCATCAAAAAGTAATTGAAGAAGCACCAAGTTCTTTTATTACTGAAAATATACGGCATGAAATGTATCGACAAGTAATATCCTTGTCTCAAAAAGTTGGATATTATTCGGCTGGTACCGTTGAATTTATAGTTGACAGCAATAAAAATTTCTATTTTTTAGAAATGAATACTAGATTGCAAGTAGAACATCCTGTTACTGAGTTAATTACCGGTATAGATATCGTTGAAGAAATGATAAAAATTGCAGCAGGTAAGAAGTTATCATTTACCCAGGATGACATAAAATTAAAAGGTTGGGCATTTGAATCAAGAATTTGTGCTGAAAACCCAAGTCGAGGGTTTTTACCTTCTAGTGGTAGAATTATAGCTTATTCTGAACCTGCAAAGAGTCCTAATATCCGTATTGATACAGGGATTGGGCTTGGTGGTGAAGTAAGTATGTTTTATGACTCAATGATTGCAAAATTATGTACTTACGGTGAAACACGGGAGCAGGCAATTGAGGTAATGCGTTCTGCTTTAAGTTCTTATATAATTAATGGCATCGCTCATAATATTAGTTTCTTAGAAGCAGTAATGCTACATCCACGCTTTGTTAGCGGTGATATTTCTACTGCCTTTATTCAAGAAGAATATCCTGATGGTTTTTCTGGTGCTAGTCTTACTTCAGAAGTAACTACCGTATTTCTAGCAACTGCTATTTTTATTTATATATCGGAACAAAGACGCGCTTCATTAATTTCTGGTAATATTAATAATCAGGCTAACAAAATAGGTACAAGATGGGTAGTAACTATTGATGATAAACTATTCCCAGTATTAATTACACCTGTTGAAAATGGCTATAATATTCGTCACGAAAGTGATAGAATATATATTCGTAGTAATTGGAATTTAGGTAATGAACTTTTTACTGCTATGATTAACGGTAAGAAGACAAATGTAAAAATTGAAAATATTAGAACTGGTTATTTATTATCGCATGCCGGTATTAGTGTAAAAGCTTTTGTACGCTCTCCGCGTATATCAGAACTTGAAGCGTTGATGGTTTCAAAAGTAGTGTTAGAAGAAAATTCTGAACTACAAGCTCCTTTAAGTGGTCAGATTGCTGCAATAAAAGTGAAAGAAGGGCAAGAGGTGACTATAGGACAGGAAATTATGATTTTAACTGCTATGAAAATGGAAAATCTTATTTTAGCTGAAAGAGACGGAAAAATAGCTAAAATTTTTGTTAATGAAAAAGATAATGTTGTAAGAGGGAAAATATTATTAGAATTTGCTTGATATATTCGTCTAATTTTAAAATTGTAAAGTGTATTTTAATTTTTAAATTAACTAGTATCTATTATCTATTTAAGTCAAAATTTTCTCATAACATACTAAATACTACAGTAAGTATCGTTCAATATAAATAAATCTTGTTTGTGCTTCGAGAATATTATTCTATTAAGTTGAATTTAATACTCAATATATAAAACAATGATTTATTGGTCTTATTAGACAGTTTTAGAAATATCAAAATAATATTATGCTTTTTTGATAATAATAAAAGTTTATATATCAACATTATAACTTCTAGATATTTGTCCAGATTGTAAAAAGAACTACAGCAATTAAATAAAGTACTTTGATATAATATTAAATTACACAAAGCATAAGGATAACAAATTTATTGATTTTTTTATACGCTTCTATAGCTTCTTTATATTTACTTTATTGCTATGATAATTATTTGCTGACATCATATTTAGATTAACTATACTTTTTTATTAAATTTATAAAAATTTTTTATATTTTTGATCTACTGATAATACGTTTATATTTTTATGGACCGCTCATTTTCTTTTTTATTATGTTTGTATAAAGAGGAAGAAGCAATGTTTAGTGACTCAAAAAATGTATATTTGCTCCTTTTTAGTATTTTTGTATTAATTTCTATTGAATAAAATATGAACAATTTATAATCTCTTAACTTTAAGTTGTATTTGATTGTTCTCTAATGCTACTTTACTGACATAATCAGGTGTAAAATTTTTAGCAAACTCGCCTAAAGTTTGTTCTTTAATAAAGTCTCCATAATGATCAATGATCTTAGATAAATCAAACTCGCTTATTATCTCAATTAAAATCCTGTCAGTTATAGAGAAATCAGCTTCTTTTCGAGCATATTGTATAAATCGTACAATGTCTCTAGCGTAACCTTCTTCTATTAACTCAGATGTTAGCTCTAAATTAAGTATGAGTAAGCTACTGTTATTATCAAAATTTGCTGTTCCTTTAATATGTGAATATGGTTCTAAAATTAGCGTATATTCGTCACTATTTAAGATTTCCCCGCATATAGCTAAACCAAGAGTAGTAGCTTCCCATTCCCCTTTTTTAGCAGCATCTATAATTGCTTTCATTTTATGTGGTAGACGTTTACCAAGTATTGCGAAATTAAGAGATAATTTTTTGCGTGCATAATTCTCTAGATCATCACGGTATATTACCGTTTTAACATTGATTTCATCTTTAATTAAATCTTCAAAATCTTTGAGATTATTATTATGTTTACTAATAATAGTTATGCAAGCAAGTGGCTGCCTTACTCTGATATTTTCAGTGCTCCTAATAAATAGGCTATTACTGCAAATATCAAGGACGTTATCCATAGTGCTCACAAGTTCGTAATTTATTTCAAAATCTGAGAGCGTTGGGTAGTTGCAGAGATGTACTGACGTGTTGTAATCCTGTGTATCAGACATTGGATTTTGTACTATATGTTTACCTTCTGAAAGCAAGCAATTAAGTTGTGTGATGGCAGTATTATGTAATCCCTGATATATAGTTTCTGAAATCATAGGTATTAGTGCCGACATCGCAATAGTCATGATCTTTAAACATGAATATAGGGTATTATAAGCATTTTGCTTATCTGTATCTTTTTCGTTTTTCCAAAATCTAGCTCGGCTGCGCCTTATATACCAGTTATTTAATACTTCAAAAAACTCTGAAACTGCATGATAAGCCGTTTGTGTATCGAAATTATCTAAACTTTCTTCAATTTTATTTACTGCTATTTTAAGCTTAGATAATATATAAACATCAAGTACGTTTTGTGAAGCAAAGTTAAGTGTGCCTTTAAGCGAATCGGCGTTAGCATATATTGTAAAGAAATGGTATGCATTCCATATGGGTTTTATAAATAGACGAAGAGTATCAAATACCATCTTACCGTCTTTGTCTATTAACAGTTCTTGACCCTTAACAACATTTGAGGAAAGCATTGTAACTCTTAATGCGTCTGATCCGTATTTATCAAATAGCTCCAGCGGATCGGCATAATTGTTTAGACGTTTTGATAATTTTTGACCTGTAGCGTCTAAAATTACGCCGTGGCATATACAATTTAAAAATGGTGGACGATCAAATAAAGCTGTAGATAACACCATTAAAGTATAAAACCAACCACGTGTTTGAGATGAGTATTCAACTATAAAATCAGCAGGAAAATGCTCTACAAACCATTTTTTATTCTCAAAAGGGTAATGTACCTGTCCATATGGCATGGAGCCGCTTTCAAACCAGCAATCAAAGACATCATCTATTCTACGCATAGTCGACTTACCTGTTGGATCATCGGGATTTGTTCTAGTAAGTTCATCGATAAATGGACGATGCAAATCATTAATTTTAACACCAAAATCTTTCTCAATCTCTTCTATAGAACCGTAAACATCTATGCGTGGATATTTTGGATCATCGGATTTCCAAACTGGTAATGGGGTGCCCCAGAATCTATTACGGCTTATTGACCAATCACGAGCATTTTCAAGCCACTTACCAAATAAATTATCTTTAACGTTATGTGGAATCCAATTTATTTGCTGATTTAATTCAACCATTCTATCTTTAAACTTCGTAACCCTTACATACCATGATGGAACAGCTTTATATATAAGAGGCGTATCTGTGCGCCAGCAATGAGGATAATTATGAATATACTGCTCAGTTTTTATCCAATTTCCTTGTTCTTTCAGTTTTATTATTATTTTATCATTTGCATCGAATACTTGTACTCCCTCTAAATCAGGAATCTCTTTTGTAAACTTACCACTATTATCAACAGGGCAAACAAGTTCAATACCTTTCGATTCACAAAGTATTTGGTCATCTTCACCAAAGCCTGGAGCCATATGTACTATTCCTGTTCCGTCGCCTTCAACAACAAAGTCGCTAGCAAATATCTTAAAGCTATTTGGATGATTCTCAAAATAGTTGAATAAAGGTTTATAGCTTAATCCTTGAAGTTTTAAACCTTTAATTATCTCAAAATTTTCTTTACCACTAAGCCCTAATTCTTTTGCATATTTAGCGACTGATGAGGCAGCTATAATATAACAAACCTCATTTTTATCGACGAATGCATAATCAATATCACTACCAACTGCAAGTGCTAAATTTGCCGGAAGTGTCCAAGGAGTCGTCGTCCAAGCAAGAATTCTATATTCTTTAAAATTATCGCCTTCTTTCATATCTGACTTCTGCGATATAATGCCGTTGATAAGAGTAACCTCATTTAGCACAAAACTCACTGTTATTGCTTTATCCGTACGTTCACGATATGCATTATCAAGCCTTGTTTCAAAATTAGAAAGTGGTGTTTCGCATGCCCAAGAATATGGCATTACACGCATTGACTCATATAATAAGTCTTTATTATATAGTTCTTTGAATGCCCATAAAACGGATTCCATAAAATTTTTATCCATCGTTTTATAAGCGTTTTTAAAAGCTACCCATCTTGCTTGACGTGTGACGTATTGCTCCCACTCACTGGCATATTGCATGACAGAAGCTCTACAGTGATTATTGAATTTTTCAATACCAAAGTTGGTGATTGCAATACGTCCTGAAATACCAAGTTCTTTCTCTGATTGCATTTCAGCAGGTAAACCATGACAATCCCAGCCAAAACGACGCTCAACTTTCTTACCTTTTATAGTTTTGTATCTAGCGTATACGTCTTTAATAAAGCCAGTAAGCAAATGACCATAATGTGGCAAACCGTTTGCAAAAGGTGGTCCGTCATAAAAAATAAATTCTGATTCTCCATTCCTATAATCAATAGATTTTTGGAATATATTATTATTTTGCCAAAATTTGAGTATCTCTTGCTCTATAGCAGCGAAATCCACATTAGCGCTAACGTCTGGGTAATATTTAGTATTTGTCATTATTCTAGAAATTATTATAATTTGGTTTAATATAATAGATAATGACTAAGAGATAAATACATAATTTATACTAAACTAATAAATTTCAAGAGTGCAATGCACAATCAAGAACTTTCTAATGCTAAAGTTGTAATATTTTTGTATAAGGTATATTTAAAAGAAAATAACAATTTTTCTTTTTCAGTAATACGAAATTGATATTTTTGAAGATAATTTTTGTAGAAAAATATATTCAAATATTGAACACATGAATTTGTAATAAGTTAAATTAAAAGTTAATATTTGTTATTTTTGCTTGTGTTGCGTATTTTTGTAAAATTTGAAAAATCTAGTCGATGTAAACAATTCTAAAGCGAGATAAATCTATTTTTATTTAAAATTTTTTCATAAATATCATTACTAGAATATTTTATACTTATTTTTCTTATAATTACTATATCTCATACGTATAATACTTAATTTCTTGATTTTGTTTTTGATATTTTAAAAATGCATCAATAAATGATCCTGATTGATAATAGTATTGTTTTAATAATGATATTTTATGAAGAGTAAGAAGAGTTAATGTTTTATTATCTAATTAATGTTCATAGAACTTTTCTACGTAAACATTCTAATTATTGGGATATTTGAAGTGTCAAGTATTTTTTTTATTTGGACAGAAGTTTTTACTATATTTTTTATAGAGGTCTCAATAAATTGGTCAGTTTCAATATAATGTTCTGATTCATCTTGGATATAAAAAAGAATTGAGGAAATATAAACTGATAGTAATAGTCCTCTTTTAGTATAATAATTAAAATCAAGAGATTTGTCGCCGGCATAACGCCATATAGCATCACAGCTACGTACAGCAACTTTAATTCCTTGTATTGGGTTTAATGCAAAATAAGAAGCATTCTTACTATGAATAATAGGAATTAATGTTTTAACTCGAATCTTTACGGCTAAGGATATTTTTTCTCTTATTTTTTTAGGTTCTTCTATTGTCTTTAAGTTTTCTAACATTATTTTATCTAAATAGTCCTCAAAGAATTCTATTATTTCAGATAATCCGTCCGGGAAAATTATTAAAGCATAACCCTTTTCAAAACTACATTTCTCTTCTGCTTCTTCAAGTAGATTATTATTCCATTCATTAAACGGTAATAATTCTAGTAAAGATTGCACAAAGTTTATTTTTTTTATATTGTATTCTTCCTTGATGCTCATACTTGATACTCATATTTTAACCTTGACATATAAGTTAATTATAAGTTATAGTACAATAAACCACAATATCTTTTTAGGAGAGTAATTTTAGTGATACTAGTCAATGTTCACGCAGGAAATTGTGACAATACGCTTAAGAATTTTAAAAAAAAATTACAAAGAGAGCTTTATTTTCGTAAGATGAAAGAACAGCGTTATTATGAAACACCGTCAGCGAAGCGTGTTCGTAAAGCACAAGAAGCAGCAAGAAGAATAAGAAAATTTGCTCGAAAGAAAATGTATGAAGAGTAAAACCAAAAAGATTTTAATACTAAATTAAAGCTAGAAATATTTCTAGCTTTAGTGTTATATAGATTATATTGGTAATTTTCTATAGTTGTCCTATAATTTGATGTCATCCCCTAAAGTTTTCTAAGAGCTTTATTTATATCATTTTTTGGATCATTGTTTCTGTATGAATGATAAAGTAGGCATTATTCCAATGAGTTTTTTCTGTTATAAGAAACTGTTATAGCAATATGTCTATGCTTAGTGATTTAAAACAAAATTTGCGCTCTTATTTTTCTAGTAGAATACTAATTCTTGCTTTAGCAATAGCATCTATTATTTCAGTTTGTACTACTTTTTATGTGATATCTTTAGAAGCAAAGAATTTTAGTACGATCATTGGATTTTTATTAATTGATTTAGCAATTTTTTTGATTTTAGGTATTTTACTAACTCAAAAGTTTTTTACTAAAAACAATGATAATGATAGTTCTAAATTACAAAATCGTATTGTAATTGCATTTAGTTTAGTCGCTGCTATTCCCACTATAATTGTTTCTGTATTTTCTGTTTATTTTTTTAATCTTAGTGTTAAGGCATGGTTTGATAAGAAGATTTCTACAGTGCTTGATCAATCTGTAATAGTAGCTGAAACTTATATTGCTGAGCATAAAGTACAGCTCAAAGAAACAGCTTTAGCAGTTGCTGAAGATTTAAGCGATATGTATTACGATCTAATTCATAATCCTGCTTTATTTACTAAAACACTTAATACCGAAGCAGATATGCGTTCGCTTGATGAAGCGATAGTTTTAAATAAATCCACTAATACTATAGTAGCTAATAGTTATTTAAGTTTTTCATTATCATTTGCAACTATTCCAGCACACTTAATTAAAAAAGCTGATTTAGGGGAACCGGTGGAAGTAAAATCTGACCCAACTACAATCAGGATGTTAATTAAATTAAAAGAATATAATGATGTGTATTTATTAGTCGGTAGACTAGTAGATAATAAAATTATCGATCATATAGATGCAACTAACGGAGCAGCTGCCGAATATAATAGCCTTAAAAATGAAATAGATAATATACAGATTAAGTTTTCTATAATGTTTATCTTTATTGCATTATTACTCCTTTTTGTAGCTATAAATTTTGGTGTTTTATTTACTGCTAAAATAGTAAAACCGATTAAAAAATTAGTCACTGCAACCGACAAAGTTAAAGATGGTGATTTAACAGTGCAGGTGCCTGAAAATGAGGTAGATAAAGACGAAATAGGAACGCTTTATGCGGCATTTAATAGAATGATTAAGCAGCTTTCGCGTCAGCAGCGTGATTTAGTTATAGCACAGAGAGCTATGGCTTGGTCTGATGTTGCAAAAAAAGTAGCGCATGAAATCAAGAACCCATTAACTCCTATTTTACTTGCTTCTGAAAGGTTACTTAAGAAATTTAGTTCTGAAATTAATGAGAAGTCAGAATTTGAAAGTTATTTAAAAATGATTATTCGTCATACTAACGATATTAAAAATATAGTATCCGAATTTGTACTGTTTGCACGTCTTCCTGCTCCTAAATTTACAAAGAGTGAATTAGTGTATTTAGTAAAACATATTATTGAAGCGCGTAAATTACTTAATGATAATATTGTGTATACATACGATTCTAATGTAGATCAATTTGATTTTATGTGTGATGCTACACAAATAAATCAAGTGATGATTAATGTGTTAAAAAATGCCGAAGAGTCAATAGAAGGACAAGAATTTGGAAAAATAGATGTTATTTTAGATGCTAAAGATGATTTTATCAGTGTTATTGTAATGGATAACGGTAAAGGATTTCCACCTGAGCTCATAGGCAAAGCTACCGAAAGCTATGTAACAACCAGTAGTAAAGGTATGGGTGTAGGGCTTGCTATAGTCAAAAGAATAGTAGAAGAGCATTGTGGTGTTTTAGATATTGCAAACAGAGAAGATGAAGGTGCAATAATCGATATTAAATTTGATTTAAAAGAGCTGCATTTGAAGGTTAGACGTTCTGGTGGTTAGATCTTGGTTAATAAAGTAATAGAACCCAATAATTTACTGTGCAGTCTATATCATATGATGGTACAATACTTATTCTTTAAATCATTATGTGCATTTCAGTTTATTTAATTAATGTAACAATGATTATAATCACACACTAAAAGATCATTAGATTTTTGTCAGTGATAATACTAACTTGACCCCACGCTATTTTCTAGAGTATTACCGATGTTCTCAGAAAATTTACTTATAGTTCCAAAGAACTGATAATAGCTATTATGCAGTATAACTAAGATTATTGATATCAATATTTTTTACAATCTCAATTTATAATACATAAATTTTTACCATCATGTGCATATATGACACAACTTTAAAATGTCTTTAGTTAATTATGTTTTGCAAAGGTTTTTTATTTACAACTAACTGATTAATTTCCCCATCTTATAGATTATCTTATCTAACATAAATTGTATAAAAAAATCATACAGATACAGAGGAGTACAGTATTATTTAATCAGAAAATGCATTAAATTTAATGATATGTAAGGCTATGATCATTCAGTATATTTTTATTTCGAAAGAGTAGTGAGTACTAAATCATTAGCTTTATAGCGATGATATGAAAATCAAAATTACTAATTACATTTAAATTGTATTTCTTCACTTCTTAGTATTAATTTTATGATGTAATAAGGACTTAGAAAAAAGTTTTTAAGTATCTGTTACGAGGAATGTCTTTGAAATACAATTTGCTAATTGTACTAATTAAATAATTGCTGATCCTAAAAGTTATTATGTATGTCATTATATATTGTACTCGCATTATAATTTTTATGCAAAAGTTTTTGTGCTTGCGAGATATTGCAGAGCTCACTAACTACAACAGCGGAATAATTGTACTAAATATTTTAAATTAAGGTATGTCACTTTTTACTTGTCATGCGGAAAGCACAAGATTCAAAGTTATTGAAAGCTGGATCAGAATAAATGATAGAAAAAATTAATAAGCAGCAATAATGTGGATTTATTTTAACTCAGTATCTTGAATTATGCTTGAAATAATTTGATGATCCTAGTACTACTCATTGAGTAGTATTATAACTATATAAGGATTTACTAAATCAATAACTAAGATTAATAGTTTGTTTACGATCTTAATTTTAAAGCTAAGTAAGCTAAATTTTCAATCGTATCCAATTTTTTAATTCCATTTTTTTTGGAGACACCAAAAATCTTATTAATTTTTAGTGATCAATTAAAATAAGAGCATAAACATATTCTTAATAAAAAAATAAAATAATCTCGAAATTTTAGTTGACAGGTCTGATTATATTGCATATAACTGCAACTATACAAAGCGAAAGTCGCAGCTGTTTTTAAAAGTAAATAATTAGATATAGATAGTGACAGTAAAAATGTACACATCACAAAAGTGATAATTTACCTGTCAATTTTGAAAATAAAACTGACAGAATCAAACTTGAGAGTTTGATCCTGGCTCAGAACGAACGCTATCGGTATGCTTAACACATGCAAGTCGAACGGATTAACTAGAGCTCGCTTTAGTTAATTAGTGGCAGACGGGTGAGTAACACGTGGGAATCTACCCATCAGTACGGAATAACTTTTAGAAATAAAAGCTAATACCGTATATTCTCTACGGAGGAAAGATTTATCGCTGATGGATGGGCCCGCGTCAGATTAGGTAGTTGGTGAGGTAATGGCTCACCAAGCCGACGATCTGTAGCTGGTCTGAGAGGATGATCAGCCACACTGGGACTGAGACACGGCCCAGACTCCTACGGGAGGCAGCAGTGGGGAATATTGGACAATGGGCGAAAGCCTGATCCAGCAATACCGAGTGAGTGATGAAGGCCTTAGGGTTGTAAAGCTCTTTTAGCAAGGAAGATAATGACGTTACTTGCAGAAAAAGCCCCGGCTAACTCCGTGCCAGCAGCCGCGGTAAGACGGAGGGGGCTAGCGTTGTTCGGAATTACTGGGCGTAAAGAGTGCGTAGGCGGTTTAGTAAGTTGGAAGTGAAAGCCCGGGGCTTAACCTCGGAATTGCTTTCAAAACTACTAATCTAGAGTGTAGTAGGGGATGATGGAATTCCTAGTGTAGAGGTGAAATTCTTAGATATTAGGAGGAACACCGGTGGCGAAGGCGGTCATCTGGGCTACAACTGACGCTGATGCACGAAAGCGTGGGGAGCAAACAGGATTAGATACCCTGGTAGTCCACGCCGTAAACGATGAGTGCTAGATATCGGAGGATTCTCTTTCGGTTTCGCAGCTAACGCATTAAGCACTCCGCCTGGGGAGTACGGTCGCAAGATTAAAACTCAAAGGAATTGACGGGGGCTCGCACAAGCGGTGGAGCATGCGGTTTAATTCGATGTTACGCGAAAAACCTTACCAACCCTTGACATGGTGGTTACGGATTGCAGAGATGCTTTCCTTCAGTTCGGCTGGGCCACACACAGGTGTTGCATGGCTGTCGTCAGCTCGTGTCGTGAGATGTTGGGTTAAGTCCCGCAACGAGCGCAACCCTTATTCTTATTTGCCAGTGGGTAATGCCGGGAACTATAAGAAAACTGCCGGTGATAAGCCGGAGGAAGGTGGGGACGACGTCAAGTCATCATGGCCCTTACGGGTTGGGCTACACGCGTGCTACAATGGTGTTTACAGAGGGAAGCAATACGGTGACGTGGAGCAAATCCCTAAAAGACATCTCAGTTCGGATTGTTCTCTGCAACTCGAGAGCATGAAGTTGGAATCGCTAGTAATCGCGGATCAGCATGCCGCGGTGAATACGTTCTCGGGCCTTGTACACACTGCCCGTCACGCCATGGGAGTTGGTTTTACCTGAAGGTGGTGAGCTAACGCAAGAGGCAGCCAACCACGGTAAAATTAGCGACTGGGGTGAAGTCGTAACAAGGTAGCCGTAGGGGAACCTGCGGCTGGATTACCTCCTTAAAGACTAAATTAGTATATTAACTTATATTTATATAAGTAATTACTCAGTCCAAATATTTACTGTCACTATCTTTAACTAATTGTTCACTTTTAAATCTATACTCACTTTTTTCTTCTTAAGATCAATTTCATTTCTGGGGAAAAAGTATTAAAGTAATGAGTTATGTACTCATTAGACTTATTACATATCTTCTTGCTAAGACTTTATTCATAAAATCTAGTAATTTTTACATATTTTTATTAAAATTTTATATTTGCTTCATTCTCAAAATCTATAATAAAAATTGCTAAATTATGGCTAAAAATAATTTTGCAGCATTCATTTAATAACACCGGTTTATTTAAAAAAGATATATAAATATCATATTTTGATTTGCAGAAATTCTTTTCTGAAATTGTATGCTACTAAATACTAGTTAGATCTTAGAGTATGGTGCAATTATGTATGAATTATTTATTATTTTTGTATCCTTGCTGGAAGATAGTAATATTTATTGTTCTTGTACAAGATAAAATAATAAATAATTTTACTCAATAAATTCTTATAATATATTCTACTTATGCATGTATATATTCAAAGTTTAAAAAATTTTTAGCAATTTTATCTGATGTCCTAATTTAAATATATGCTGTTATTACTCATTTCTTTCTTCTTTTTAGCTATAAATTGTAAGATTTTTTCAAATAGTGCATTTTCTATGAAAATATTATCAATTTTTAGTGCTTTTTAAGCAATAATATATAAATTAATTATTTTAAATTCATAAAATATCTTAAAAAAATGAAATAAATATTTTACAATCATATTAAAAAATATTAAGGATAAATATATGCATTACTTAGGATATGGTGGTCTTTCTCTTGGTACAATACTTGCAATAGTAATATCATTTAATGCGAATAAATCAATATTATGGGCTATAATTCATGGGTTTTTCGGATGGTTTTATATTGTATATTATTTGTTATTGAAAAAATAAACTATTTTGATCACTTTCTACTAAAATGGTTCATATTTCAAGCGTCTGTACTTGTCTCATGTATTTATATATACTATGTAAGTATTTTTGTGTTTTCCTCAAGTTTTTAATGTAGATTATGTAAAAAACTAATAATATGGATCATTTACAAAAATAAAGGCTTTACTTTGCTTTAAAGTATCAAGTTTATTAATCGTTATAAACAAGAAAACATTTTGATATGCGCACTAATGAAGGAAGTATATATTTAATGACCCTACATTATAGATTGATTCAATATAACAGATGAAGCTTAAATATTAAATATAGAAATACCTATAGTAACTCCAATATAAAAATATTTTGCAATATTAATTTTTTATTAAAATTTTATAGTCTTATTTTAAATTCCATTATCTATTTATTAGCTCTAAATCTGCTCTTGACATTTTAAATAATTACCATATTATATGGTAATTATAATATTTTATAAGGTATGTAAATATGCAGAAAATATTAATTGAAGGTTATGATATAAGTAAGGATAATGCAAATCCTGATATCAAGGAAATTAGAAACTTAGATCACTTACCTTCGGCTAAAGCTTGTGAATATTTTATACATGCACATGGTGCAGAGTTTTTTTATCAAAATTCTCATTTAGGTTTATTAGGCAAGATTCAGTCATATTTTATGCCTGATCCTTCTTACTTATCGCTAACTATGTCATCTAATGGAGGTGCAACTCCTATGTTAGATATTACACTGCTTAATAAAATACAACGTAATACTCCTGCAAATCAATGTAATATTGTTCATATATTTTCTTGTTGTTCAGGTGCAGCTCAACATCATTTAGATTTTATAGAGGGGAATATTGTTTTATGCACTTATAATAAAGCCAGTGATAATAATGTTACACAATTAGCTAATAGTAATTATGAGACTAGAATAAAAAAACACTCTTCCCTGATAGAATATATACATGATAATTTTCATTTATTAGTTGCATCAGATTTTAGCATAAGTTATAAATTAGATAATGAAATTTATAATTTTTCTTTAAGTTCCGATAACATTAAAAACATGAAAAGCATAGAAGAGTTACCTGTTTTTTTATATAAAGAATATGGAACTTTTGTAAAGTTTTATCAAAATATTTATGCAAAATATCATGTATCATATCCAGAAATATTTAACATTAGTATAGGAACAAAACCGAAAGGATTAACATACGCTGATTTAGTAAGAGTATTTACTAGAGCTTTAACTTTAGAAACATATAATTTTAATAAATTTTCTCTAAGCAAGATAGAGAATCTGTTACATCAGAAAGGATTAAATACTGATTTTAGTGTAGATCAAGCGATAGAGCAAGAAAATTTTGAATTATTAACTTCTTTACTTAATTATGATAATACTAATATACAGTTCTATACTATTAATAAGA