GENSCAN 1.0 Date run: 10-Mar-117 Time: 18:07:00 Sequence gi568815583r:50461681_50763047 : 301367 bp : 39.70% C+G : Isochore 1 ( 0 - 43 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 3399 3511 113 2 2 79 59 128 0.505 8.73 1.02 Term + 5025 5115 91 0 1 107 38 196 0.998 12.71 1.03 PlyA + 5432 5437 6 1.05 2.00 Prom + 7338 7377 40 -6.95 2.01 Init + 9208 9233 26 0 2 114 47 -13 0.150 -3.75 2.02 Intr + 9953 10115 163 2 1 34 47 167 0.156 6.26 2.03 Intr + 15169 15313 145 0 1 74 50 117 0.970 5.43 2.04 Intr + 15596 15819 224 0 2 25 91 201 0.866 11.02 2.05 Intr + 19801 20385 585 0 0 81 121 752 0.999 69.72 2.06 Intr + 22595 22681 87 1 0 39 106 96 0.970 5.75 2.07 Intr + 28121 28201 81 1 0 49 93 87 0.947 4.22 2.08 Intr + 28583 28845 263 1 2 69 55 304 0.999 20.56 2.09 Intr + 31021 31233 213 1 0 112 99 110 0.999 11.41 2.10 Intr + 32390 32600 211 2 1 76 69 200 0.999 14.89 2.11 Intr + 34168 34404 237 0 0 54 111 61 0.745 1.89 2.12 Intr + 35409 35551 143 2 2 75 55 32 0.531 -3.17 2.13 Intr + 36916 37048 133 1 1 91 89 57 0.857 5.83 2.14 Term + 37223 37408 186 1 0 81 49 149 0.894 6.81 2.15 PlyA + 38016 38021 6 -0.45 3.41 PlyA - 38361 38356 6 1.05 3.40 Term - 39157 39089 69 1 0 110 40 53 0.002 -0.34 3.39 Intr - 58363 58291 73 0 1 34 68 96 0.021 0.69 3.38 Intr - 61302 61274 29 0 2 67 89 58 0.044 -0.20 3.37 Intr - 68249 68117 133 1 1 74 89 50 0.234 3.43 3.36 Intr - 77171 77029 143 2 2 114 86 14 0.519 2.03 3.35 Intr - 79584 79369 216 0 0 26 57 149 0.434 3.38 3.34 Intr - 82113 81918 196 2 1 47 115 87 0.216 5.80 3.33 Intr - 84817 84793 25 2 1 135 50 26 0.047 -0.33 3.32 Intr - 112799 112594 206 1 2 25 94 167 0.888 8.92 3.31 Intr - 113039 112957 83 2 2 82 94 34 0.898 0.92 3.30 Intr - 113455 113172 284 2 2 117 89 91 0.801 8.31 3.29 Intr - 130946 130231 716 1 2 79 97 414 0.976 31.55 3.28 Intr - 132069 131937 133 1 1 129 26 142 0.997 10.88 3.27 Intr - 137616 137442 175 0 1 90 95 91 0.821 8.59 3.26 Intr - 143464 143186 279 1 0 67 115 58 0.885 3.15 3.25 Intr - 145648 145520 129 1 0 44 87 74 0.867 2.87 3.24 Intr - 148044 147901 144 0 0 63 92 90 0.989 6.46 3.23 Intr - 148281 148126 156 0 0 34 103 65 0.511 1.89 3.22 Intr - 149641 149413 229 0 1 82 69 63 0.746 0.75 3.21 Intr - 151149 150869 281 0 2 44 108 264 0.905 19.35 3.20 Intr - 152161 152027 135 1 0 17 94 71 0.556 0.44 3.19 Intr - 152583 152443 141 0 0 83 79 69 0.969 5.13 3.18 Intr - 158118 158065 54 0 0 66 110 37 0.792 1.96 3.17 Intr - 162620 162486 135 2 0 34 93 110 0.910 5.94 3.16 Intr - 166569 166469 101 1 2 72 84 59 0.830 2.81 3.15 Intr - 169809 169737 73 0 1 39 121 32 0.815 -0.34 3.14 Intr - 171312 171189 124 2 1 89 89 70 0.998 6.87 3.13 Intr - 172876 172702 175 2 1 111 110 119 0.999 14.48 3.12 Intr - 175913 175742 172 2 1 115 94 61 0.999 7.99 3.11 Intr - 177868 177744 125 2 2 53 58 100 0.999 2.88 3.10 Intr - 181873 181660 214 1 1 64 95 163 0.991 11.97 3.09 Intr - 187205 187007 199 1 1 104 95 122 0.871 12.93 3.08 Intr - 225064 224697 368 1 2 8 53 319 0.006 13.42 3.07 Intr - 225759 225669 91 2 1 34 92 58 0.005 -0.12 3.06 Intr - 264697 264641 57 0 0 76 97 42 0.014 0.98 3.05 Intr - 274522 274421 102 0 0 94 80 92 0.824 7.37 3.04 Intr - 285948 285815 134 0 2 88 87 43 0.677 2.72 3.03 Intr - 286522 286433 90 1 0 79 99 22 0.752 1.67 3.02 Intr - 287190 287008 183 0 0 74 94 105 0.962 8.76 3.01 Intr - 288066 287956 111 0 0 67 92 71 0.965 5.06 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815583r:50461681_50763047|GENSCAN_predicted_peptide_1|67_aa MTDKNISLIIMDARRMQDYQDSCILHSLSVPEEAISPGGTGRSGSRTAAVAFKDAGKTPM EPEIAIH >gi568815583r:50461681_50763047|GENSCAN_predicted_CDS_1|204_bp atgacggataaaaacatcagcttgattataatggatgctcgaagaatgcaggattatcag gattcctgtattttacattctctcagtgttcctgaagaagccatcagtccaggaggaacc ggtcggtcaggaagccgcacagcagccgtggcttttaaagatgctggaaaaacacccatg gagccggagatagcaattcactga >gi568815583r:50461681_50763047|GENSCAN_predicted_peptide_2|898_aa MPSRTLVFIVTASWIEAHLPDDSKDTWKKRGNVEYVVLLDWFSSAKDLQIGTTLRSLKDA LFKWESKTVLRNEPLVLEGGYENWLLCYPQYTTNAKVTPPPRRQNEEVSISLDFTYPSLE ESIPSKPAAQTPPASIEVDENIELISGQNERMGPLNISTPVEPVAASKSDVSPIIQPVPS IKNVPQIDRTKKPAVKLPEEHRIKSESTNHEQQSPQSGKVIPDRSTKPVVFSPTLMLTDE EKARIHAETALLMEKNKQEKELRERQQEEQKEKLRKEEQEQKAKKKQEAEENEITEKQQK AKEEMEKKESEQAKKEDKETSAKRGKEITGVKRQSKSEHETSDAKKSVEDRGKRCPTPEI QKKSTGDVPHTSVTGDSGSGKPFKIKGQPESGILRTGTFREDTDDTERNKAQREPLTRAR SEEMGRIVPGLPSGWAKFLDPITGTFRYYHSPTNTVHMYPPEMAPSSAPPSTPPTHKAKP QIPAERDREPSKLKRSYSSPDITQAIQEEEKRKPTVTPTVNRENKPTCYPKAEISRLSAS QIRNLNPVFGGSGPALTGLRNLGNTCYMNSILQCLCNAPHLADYFNRNCYQDDINRSNLL GHKGEVAEEFGIIMKALWTGQYRYISPKDFKITIGKINDQFAGYSQQDSQELLLFLMDGL HEDLNKADNRKRYKEENNDHLDDFKAAEHAWQKHKQLNESIIVALFQGQFKSTVQCLTCH KKSRTFEAFMYLSLPLASTSKCTLQDCLRLFSKEEKLTDNNRFYCSHCRARRDSLKKIEI WKLPPVLLVHLKRFSYDGRWKQKLQTSVDFPLENLDLSQYVIGPKNNLKKYNLFSVSNHY GGLDGGHYTAYCKNAARQRWFKFDDHEVSDISVSSVKSSAAYILFYTSLGPRVTDVAT >gi568815583r:50461681_50763047|GENSCAN_predicted_CDS_2|2697_bp atgcccagccggactttagtttttatagtcactgctagttggattgaagcacacctgcca gatgattctaaagacacatggaagaagagggggaatgtggagtatgtggtacttcttgac tggtttagttctgccaaagatttacagattggaacaactctccggagtctgaaagatgca cttttcaagtgggaaagtaaaactgtcctgcgcaatgagcctttggttttagagggaggc tatgaaaactggctcctttgttatccccagtatacaacaaatgctaaggtcactccaccc ccacgacgccagaatgaagaggtgtctatctcattggattttacttatccctcattggaa gaatcaattccttctaaacctgctgcccagacgccacctgcatctatagaagtagatgaa aatatagaattgataagtggtcaaaatgagagaatgggaccactgaatatatcaactcca gttgaaccagttgctgcttctaaatctgatgtttcacccataattcagccagtgcctagt ataaagaatgttccacagattgatcgtactaaaaaaccagcagtcaaattgcctgaagag catagaataaaatctgaaagtacaaaccatgagcaacaatctcctcagagtggaaaagtt attcctgatcgttccaccaagccagtagttttttctccaactctcatgttaacagatgaa gaaaaggctcgtattcatgcagaaactgctcttctaatggaaaaaaacaaacaagaaaaa gaacttcgggaaaggcagcaagaggaacagaaagagaaactgaggaaggaagaacaagaa caaaaagccaaaaagaaacaagaagctgaagaaaatgaaattacagagaagcaacaaaaa gcaaaagaagaaatggagaagaaagaaagtgaacaggccaagaaagaagataaagaaacc tcagcaaagaggggcaaagaaataacaggagtaaaaagacaaagtaaaagtgaacatgaa acttctgatgccaagaaatctgtagaagatagggggaaaaggtgtccaaccccagaaata cagaaaaagtcaacaggagatgtgccccatacatctgtgacaggggattcaggttcaggc aagccatttaagattaaaggacaaccagaaagtggaattctaaggacaggaacttttaga gaggatacagacgataccgaaagaaataaagctcaacgagaacctttgacaagagcacga agtgaagaaatggggaggatcgtaccaggactgccttcaggctgggccaagtttcttgac ccaatcactggaacctttcgttattatcattcacccaccaacactgttcatatgtaccca ccggaaatggctccttcatctgcacctccttccacccctccaactcataaagccaagcca cagattcctgctgagcgggatagggaaccttccaaactgaagcgctcctactcctcccca gatataacccaggctattcaagaggaagagaagaggaagccaacagtaactccaacagtt aatcgggaaaacaagccaacatgttatcctaaagctgagatctcaaggctttctgcttct cagattcggaacctcaatcctgtttttggaggttctggaccagctcttactggacttcgt aacttaggaaatacttgttatatgaactcaatattgcagtgcctatgtaacgctccacat ttggctgattatttcaaccgaaactgttatcaggatgatattaacaggtcaaatttgttg gggcataaaggtgaagtggcagaagaatttggtataatcatgaaagccctgtggacagga cagtatagatatatcagtccaaaggactttaaaatcaccattgggaagatcaatgaccag tttgcaggatacagtcagcaagattcacaagaattgcttctgttcctaatggatggtctc catgaagatctaaataaagctgataatcggaagagatataaagaagaaaataatgatcat ctcgatgactttaaagctgcagaacatgcctggcagaaacacaagcagctcaatgagtct attattgttgcactttttcagggtcaattcaaatctacagtacagtgcctcacatgtcac aaaaagtctaggacatttgaggccttcatgtatttgtctctaccactagcatccacaagt aaatgtacattacaggattgccttagattattttccaaagaagaaaaactcacagataac aacagattttactgcagtcattgcagagctcgacgggattctctaaaaaagatagaaatc tggaagttaccacctgtgcttttagtgcatctgaaacgtttttcctacgatggcaggtgg aaacaaaaattacagacatctgtggacttcccgttagaaaatcttgacttgtcacagtat gttattggtccaaagaacaatttgaagaaatataatttgttttctgtttcaaatcactac ggtgggctggatggaggccactacacagcctattgtaaaaatgcagcaagacaacggtgg tttaagtttgatgatcatgaagtttctgatatctccgtttcttctgtgaaatcttcagca gcttatatcctcttttatacttcattgggaccacgagtaactgatgtagccacataa >gi568815583r:50461681_50763047|GENSCAN_predicted_peptide_3|2160_aa TAAQEAILHASGNGTTKDYCMLYNPYWTALPSTLENATSISLMNLTSTPLCNLSDIPPVG IKSKAVVVPWGSCHFLEKARIAQKGGAEAMLVVNNSVLFPPSGNRSEFPDVKILIAFISY KDFRDMNQTLGDNITVKMYSPSWPNFDYTMVVIFVIAVFTVALGGYWSGLVELIACRGKN MEVRLIFLSGLCIAVAVVWAVFRNEDRMVRVSWLNSQLDLLEIMKSKINGKVDRYILHQG NNPVFGAEGVVYACMWSPGGVGRTIMKDSASAASAGAELVLRRFPWAFLVRRPLLPPPET LPDRWLQAAEEEEVELLPFRSPPREENGTGPTQARAGNGSGVAGGKGETWQASVWGAAFH AAKDPRIALRLPDLSSRDGCFCGRLVKQHACFTASLAMKYSDVKLGDHFNQAIEEWSVEK HTEQSPTDAYGVINFQGGSHSYRAKYVRLSYDTKPEVILQLLLKEWQMELPKLVISVHGG MQKFELHPRIKQLLGKGLIKAAVTTGAWILTGGVNTGVAKHVGDALKEHASRSSRKICTI GIAPWGVIENRNDLVGRDVVAPYQTLLNPLSKLNVLNNLHSHFILVDDGTVGKYGAEVRL RRELEKTINQQRIHARIGQGVPVVALIFEGGPNVILTVLEYLQESPPVPVVVCEGTGRAA DLLAYIHKQTEEGGNLPDAAEPDIISTIKKTFNFGQNEALHLFQTLMECMKRKELITVFH IGSDEHQDIDVAILTALLKGTNASAFDQLILTLAWDRVDIAKNHVFVYGQQWLVGSLEQA MLDALVMDRVAFVKLLIENGVSMHKFLTIPRLEELYNTKQGPTNPMLFHLVRDVKQGNLP PGYKITLIDIGLVIEYLMGGTYRCTYTRKRFRLIYNSLGGNNRRSGRNTSSSTPQLRKSH ESFGNRADKKEKMRHNHFIKTAQPYRPKIDTVMEEGKKKRTKDEIVDIDDPETKRFPYPL NELLIWACLMKRQVMARFLWQHGEESMAKALVACKIYRSMAYEAKQSDLVDDTSEELKQY SNDFGQLAVELLEQSFRQDETMAMKLLTYELKNWSNSTCLKLAVSSRLRPFVAHTCTQML LSDMWMGRLNMRKNSWYKVILSILVPPAILLLEYKTKAEMSHIPQSQDAHQMTMDDSENN FQNITEEIPMEVFKEVRILDSNEGKNEMEIQMKSKKLPITRKFYAFYHAPIVKFWFNTLA YLGFLMLYTFVVLVQMEQLPSVQEWIVIAYIFTYAIEKVREIFMSEAGKVNQKIKVWFSD YFNISDTIAIISFFIGFGLRFGAKWNFANAYDNHVFVAGRLIYCLNIIFWYVRLLDFLAV NQQAGPYVMMIGKMVANMFYIVVIMALVLLSFGVPRKAILYPHEAPSWTLAKDIVFHPYW MIFGEVYAYEIDELFLTEEDQKKLHDFEEQCVEMYFNEKDDKFHSGSEERIRVTFERVEQ MCIQIKEVGDRVNYIKRSLQSLDSQIGHLQDLSALTVDTLKTLTAQKASEASKVHNEITR ELSISKHLAQNLIDDGPVRPSVWKKHGVVNTLSSSLPQGDLESNNPFHCNILMKDDKDPQ CNIFGQDLPAVPQRKEFNFPEAGSSSGALFPSAVSPPELRQRLHGVELLKIFNKNQKLGS SSTSIPHLSSPPTKFFVSTPSQPSCKSHLETGTKDQETVCSKATEGDNTEFGAFVGEPVT VYRLEESSPNILNNSMSSWSQLGLCAKIEFLSKEEMGGGLRRAVKVQCTWSEHDILKSGH LYIIKSFLPEVVNTWSSIYKEDTVLHLCLREIQQQRAAQKLTFAFNQMKPKSIPYSPRFL EVFLLYCHSAGQWFAVEECMTGEFRKYNNNNGDEIIPTNTLEEIMLAFSHWTYEYTRGEL LVLDLQDDFDIYHVLDCSEVATAFAYLMTDMWLGDSDCVSPEIFWSALGNLYPAFTKKMQ QDAQEFLICVLNELHEALKKYHYSRRRSYEKGSTQRCCRKWITTETSIITQLFEEQLNYS IVCLKCEKCTYKNEVFTVFSLPIPSKYECSLRDCLQCFFQQDALTWNNEIHCSFCETKQE TAVRASISKAPKIIIFHLKRFDIQGTTKRKLRTDIHYPLTNLDLTPYICSIFRKYPKYNL CAVVEFQYYAEKKWHKQLLWPARILDVVNSAAINMRVQNHFGDLDGGHYTAFCKNSVTQA >gi568815583r:50461681_50763047|GENSCAN_predicted_CDS_3|6483_bp acagccgctcaggaagcaatcttgcatgcgtctggaaatggcacaaccaaggactactgc atgctttataacccttattggacagctcttccaagtaccctagaaaatgcaacttccatt agtttgatgaatctgacttccacaccactatgcaacctttctgatattcctcctgttggc ataaagagcaaagcagttgtggttccatggggaagctgccattttcttgaaaaagccaga attgcacagaaaggaggtgctgaagcaatgttagttgtcaataacagtgtcctatttcct ccctcaggtaacagatctgaatttcctgatgtgaaaatactgattgcatttataagctac aaagactttagagatatgaaccagactctaggagataacattactgtgaaaatgtattct ccatcgtggcctaactttgattatactatggtggttatttttgtaattgcggtgttcact gtggcattaggtggatactggagtggactagttgaattgattgcatgtcgtggcaaaaac atggaagtgagacttatttttctctctggactgtgcatagcagtagctgttgtttgggct gtgtttcgaaatgaagacagaatggtgagagtatcatggttgaactcgcagctggacctt ttggaaataatgaaaagcaaaataaatggaaaggtggataggtacatattacatcaaggg aacaacccagtttttggtgcagaaggtgtggtgtatgcgtgtatgtggtcacccggagga gttggtcgcacaattatgaaagactcggcttctgctgctagcgccggagctgagttagtt ctgagaaggtttccctgggcgttccttgtccggcggcctctgctgccgcctccggagacg cttcccgatagatggctacaggccgcggaggaggaggaggtggagttgctgcccttccgg agtccgccccgtgaggagaatggtactggacccacgcaggcccgggcggggaatggttct ggggttgcgggcggtaaaggagagacttggcaggcaagtgtgtggggagccgcgttccat gcggcgaaggaccctcgaattgccttgaggcttccggatttgtcctctcgggacgggtgt ttttgtggtcgcttggtcaagcaacatgcttgttttactgcaagtcttgccatgaaatac tcagatgtgaaattgggtgaccattttaatcaggcaatagaagaatggtctgtggaaaag catacagaacagagcccaacggatgcttatggagtcataaattttcaagggggttctcat tcctacagagctaagtatgtgaggctatcatatgacaccaaacctgaagtcattctgcaa cttctgcttaaagaatggcaaatggagttacccaaacttgttatctctgtacatgggggc atgcagaaatttgagcttcacccacgaatcaagcagttgcttggaaaaggtcttattaaa gctgcagttacaactggagcctggattttaactggaggagtaaacacaggtgtggcaaaa catgttggagatgccctcaaagaacatgcttccagatcatctcgaaagatttgcactatc ggaatagctccatggggagtgattgaaaacagaaatgatcttgttgggagagatgtggtt gctccttatcaaaccttattgaaccccctgagcaaattgaatgttttgaataatctgcat tcccatttcatattggtggatgatggcactgttggaaagtatggggcggaagtcagactg agaagagaacttgaaaaaactattaatcagcaaagaattcatgctaggattggccagggt gtccctgtggtggcacttatatttgagggtgggccaaatgttatcctcacagttcttgaa taccttcaggaaagcccccctgttccagtagttgtgtgtgaaggaacaggcagagctgca gatctgctagcgtatattcataaacaaacagaagaaggagggaatcttcctgatgcagca gagcccgatattatttccactatcaaaaaaacatttaactttggccagaatgaagcactt catttatttcaaacactgatggagtgcatgaaaagaaaggagcttatcactgttttccat attgggtcagatgaacatcaagatatagatgtagcaatacttactgcactgctaaaaggt actaatgcatctgcatttgaccagcttatccttacattggcatgggatagagttgacatt gccaaaaatcatgtatttgtttatggacagcagtggctggttggatccttggaacaagct atgcttgatgctcttgtaatggatagagttgcatttgtaaaacttcttattgaaaatgga gtaagcatgcataaattccttaccattccgagactggaagaactttacaacactaaacaa ggtccaactaatccaatgctgtttcatcttgttcgagacgtcaaacagggaaatcttcct ccaggatataagatcactctgattgatataggacttgttattgaatatctcatgggagga acctacagatgcacctatactaggaaacgttttcgattaatatataatagtcttggtgga aataatcggaggtctggccgaaatacctccagcagcactcctcagttgcgaaagagtcat gaatcttttggcaatagggcagataaaaaggaaaaaatgaggcataaccatttcattaag acagcacagccctaccgaccaaagattgatacagttatggaagaaggaaagaagaaaaga accaaagatgaaattgtagacattgatgatccagaaaccaagcgctttccttatccactt aatgaacttttaatttgggcttgccttatgaagaggcaggtcatggcccgttttttatgg caacatggtgaagaatcaatggctaaagcattagttgcctgtaagatctatcgttcaatg gcatatgaagcaaagcagagtgacctggtagatgatacttcagaagaactaaaacagtat tccaatgattttggtcagttggccgttgaattattagaacagtccttcagacaagatgaa accatggctatgaaattgctcacttatgaactgaagaactggagtaattcaacctgcctt aagttagcagtttcttcaagacttagaccttttgtagctcacacctgtacacaaatgttg ttatctgatatgtggatgggaaggctgaatatgaggaaaaattcctggtacaaggtcata ctaagcattttagttccacctgccatattgctgttagagtataaaactaaggctgaaatg tcccatatcccacaatctcaagatgctcatcagatgacaatggatgacagcgaaaacaac tttcagaacataacagaagagatccccatggaagtgtttaaagaagtacggattttggat agtaatgaaggaaagaatgagatggagatacaaatgaaatcaaaaaagcttccaattacg cgaaagttttatgccttttatcatgcaccaattgtaaaattctggtttaacacgttggca tatttaggatttctgatgctttatacatttgtggttcttgtacaaatggaacagttacct tcagttcaagaatggattgttattgcttatatttttacttatgccattgagaaagtccgt gagatctttatgtctgaagctgggaaagtaaaccagaagattaaagtatggtttagtgat tacttcaacatcagtgatacaattgccataatttctttcttcattggatttggactaaga tttggagcaaaatggaactttgcaaatgcatatgataatcatgtttttgtggctggaaga ttaatttactgtcttaacataatattttggtatgtgcgtttgctagattttctagctgta aatcaacaggcaggaccttatgtaatgatgattggaaaaatggtggccaatatgttctac attgtagtgattatggctcttgtattacttagttttggtgttcccagaaaggcaatactt tatcctcatgaagcaccatcttggactcttgctaaagatatagtttttcacccatactgg atgatttttggtgaagtttatgcatacgaaattgatgaacttttcttaacagaagaagat caaaagaaacttcatgattttgaagagcagtgtgttgaaatgtatttcaatgaaaaagat gacaaatttcattctgggagtgaagagagaattcgtgtcacttttgaaagagtggaacag atgtgcattcagattaaagaagttggagatcgtgtcaactacataaaaagatcattacaa tcattagattctcaaattggccatttgcaagatctttcagccctgacggtagatacatta aaaacactcactgcccagaaagcgtcggaagctagcaaagttcataatgaaatcacacga gaactgagcatttccaaacacttggctcaaaaccttattgatgatggtcctgtaagacct tctgtatggaaaaagcatggtgttgtaaatacacttagctcctctcttcctcaaggtgat cttgaaagtaataatccttttcattgtaatattttaatgaaagatgacaaagatccccag tgtaatatatttggtcaagacttacctgcagtaccccagagaaaagaatttaattttcca gaggctggttcctcttctggtgccttattcccaagtgctgtttcccctccagaactgcga cagagactacatggggtagaactcttaaaaatatttaataaaaatcaaaaattaggcagt tcatctactagcataccacatctgtcatccccaccaaccaaattttttgttagtacacca tctcagccaagttgcaaaagccacttggaaactggaaccaaagatcaagaaactgtttgc tctaaagctacagaaggagataatacagaatttggagcatttgtaggggagcctgtcaca gtgtatcgtttggaagagagttcacccaacatactaaataacagcatgtcttcttggtca caactaggcctctgtgccaaaatagagtttttaagcaaagaggagatgggaggaggttta cgaagagctgtcaaagtacagtgtacctggtcagaacatgatatcctcaaatcagggcat ctttatattatcaaatcttttcttccagaggtggttaatacatggtcaagtatttacaaa gaagatacagttctgcatctctgtctgagagaaattcaacaacagagagcagcacaaaag cttacgtttgcctttaatcaaatgaaacccaaatccataccatattctccaaggttcctt gaagttttcctgctgtattgccattcagcaggacagtggtttgctgtggaagaatgtatg actggagaatttagaaaatacaacaataataatggagatgagattattccaactaatact ctggaagagatcatgctagcctttagccactggacttacgaatatacaagaggggagtta ctggtacttgatttgcaagatgacttcgatatctaccacgtcctcgattgcagtgaagtt gccactgcttttgcctatctgatgacagacatgtggctgggagactcagactgtgtctca ccagaaatattctggtcagctcttggcaacctctacccagcatttacgaaaaagatgcaa caagatgctcaggaattcttgatttgtgtcctaaatgaacttcatgaagctctaaaaaag taccactactcccggagaagatcatatgagaaaggatctactcagagatgctgcaggaag tggattaccactgagacatccatcatcacccagctgtttgaagagcagctcaattatagc atcgtatgtttaaagtgtgagaaatgcacctacaagaacgaagtcttcactgtcttctca ctccccattccatccaaatatgaatgctcccttcgggactgtctccaatgtttttttcaa caagacgcactgacctggaacaacgaaattcactgctccttttgtgaaaccaagcaagaa actgctgtgagggccagtatttccaaagcaccaaaaataattattttccacctaaaaagg tttgacattcagggtacaacaaaaaggaagctgagaacggatattcattacccactcact aacttggacctcactccttatatttgctcaattttccggaaatatcctaaatacaacctc tgtgcagtggtggaattccagtactatgctgaaaagaagtggcacaagcagctactatgg ccagctcgtatcttggatgtcgtgaatagtgctgcaataaacatgagggtgcagaaccat tttggtgatttggatggtggccactacactgctttctgcaagaattcagtcacccaggcc tga