Result of GENSCAN for
pF1KE9423
GENSCAN 1.0 Date run: 6-Nov-116 Time: 08:08:14 Sequence gi568815579r:14643418_14874307 : 230890 bp : 44.41% C+G : Isochore 2 (43 - 51 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.08 Intr - 858 691 168 0 0 100 80 83 0.779 8.84 1.07 Intr - 3948 3764 185 1 2 69 98 84 0.980 7.01 1.06 Intr - 7787 7668 120 0 0 93 91 49 0.897 6.17 1.05 Intr - 11748 11565 184 0 1 54 82 105 0.970 5.86 1.04 Intr - 15133 15096 38 2 2 81 105 -3 0.301 -1.32 1.03 Intr - 18701 18546 156 0 0 119 90 17 0.689 4.98 1.02 Intr - 20123 20001 123 0 0 141 55 11 0.675 3.66 1.01 Init - 20252 20204 49 2 1 80 58 52 0.709 0.51 1.00 Prom - 22674 22635 40 -7.86 2.00 Prom + 25669 25708 40 -2.56 2.01 Init + 25796 25910 115 1 1 87 34 61 0.610 0.97 2.02 Intr + 27993 28143 151 1 1 62 75 69 0.687 2.22 2.03 Intr + 33343 33727 385 1 1 64 88 333 0.923 25.75 2.04 Intr + 34842 35166 325 2 1 0 88 304 0.361 16.95 2.05 Intr + 46569 46691 123 1 0 19 50 115 0.151 1.36 2.06 Intr + 50034 50077 44 1 2 97 77 -2 0.357 -2.44 2.07 Intr + 51593 51716 124 1 1 49 74 143 0.941 9.16 2.08 Intr + 52149 52244 96 1 0 123 97 -40 0.495 0.38 2.09 Intr + 55782 55864 83 1 2 69 95 66 0.805 4.76 2.10 Intr + 61637 61753 117 1 0 90 115 65 0.920 10.06 2.11 Intr + 63269 63356 88 1 1 112 105 53 0.866 8.94 2.12 Intr + 71965 72053 89 2 2 131 96 34 0.988 8.19 2.13 Intr + 72695 72821 127 1 1 66 82 145 0.994 11.95 2.14 Intr + 73577 73672 96 0 0 30 99 66 0.720 1.88 2.15 Intr + 74240 74316 77 0 2 97 74 35 0.818 2.23 2.16 Intr + 74811 75734 924 2 0 83 47 837 0.162 70.53 2.17 Intr + 80523 80689 167 2 2 68 50 105 0.128 3.46 2.18 Term + 92565 92670 106 0 1 42 42 107 0.065 -0.62 2.19 PlyA + 93732 93737 6 1.05 3.04 PlyA - 93744 93739 6 1.05 3.03 Term - 94634 94626 9 2 0 101 44 0 0.205 -4.91 3.02 Intr - 100113 100003 111 0 0 105 107 66 0.874 10.78 3.01 Init - 100366 100199 168 1 0 66 81 291 0.959 23.73 3.00 Prom - 104444 104405 40 -1.36 4.30 PlyA - 104480 104475 6 1.05 4.29 Term - 108254 107955 300 2 0 70 37 341 0.659 22.42 4.28 Intr - 109109 108912 198 2 0 67 67 186 0.642 13.95 4.27 Intr - 111710 111537 174 2 0 93 94 142 0.998 15.44 4.26 Intr - 112427 112237 191 0 2 93 67 202 0.717 17.90 4.25 Intr - 112928 112821 108 0 0 60 95 91 0.931 7.26 4.24 Intr - 121193 121016 178 2 1 70 96 187 0.996 17.19 4.23 Intr - 121980 121903 78 0 0 137 110 106 0.999 17.45 4.22 Intr - 122153 122107 47 0 2 107 109 11 0.999 3.23 4.21 Intr - 122387 122241 147 0 0 137 86 149 0.999 19.81 4.20 Intr - 122964 122818 147 1 0 97 25 107 0.978 5.51 4.19 Intr - 123692 123561 132 0 0 123 80 211 0.640 24.42 4.18 Intr - 129080 128925 156 0 0 104 116 212 0.953 25.58 4.17 Intr - 130637 130521 117 0 0 141 44 58 0.990 7.14 4.16 Intr - 130889 130839 51 0 0 130 84 12 0.934 3.88 4.15 Intr - 133510 133309 202 1 1 72 123 80 0.099 8.76 4.14 Intr - 143073 143035 39 0 0 89 92 24 0.004 1.32 4.13 Intr - 143331 143199 133 2 1 67 59 59 0.000 1.55 4.12 Intr - 144021 143896 126 2 0 79 31 77 0.000 0.89 4.11 Intr - 148993 148960 34 2 1 70 88 4 0.000 -4.12 4.10 Intr - 156732 155804 929 2 2 99 11 396 0.009 23.87 4.09 Intr - 183402 183312 91 1 1 95 103 38 0.387 5.05 4.08 Intr - 184837 184200 638 0 2 91 15 409 0.415 25.64 4.07 Intr - 191839 191657 183 0 0 99 105 27 0.892 4.40 4.06 Intr - 198472 198096 377 1 2 104 30 292 0.031 18.81 4.05 Intr - 206085 205917 169 2 1 25 40 291 0.013 17.95 4.04 Intr - 209540 209163 378 1 0 71 22 367 0.048 22.48 4.03 Intr - 211522 211435 88 2 1 101 96 62 0.983 7.33 4.02 Intr - 221311 220644 668 0 2 64 6 384 0.020 19.18 4.01 Intr - 223818 223738 81 2 0 75 115 31 0.543 3.25 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 148255 148419 165 0 0 95 38 115 0.824 5.12 S.002 Init - 193085 193078 8 2 2 114 91 0 0.908 3.40 S.003 Term - 209540 209090 451 1 1 71 36 429 0.943 30.66 S.004 Init - 214713 214698 16 0 1 110 87 10 0.905 3.54 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815579r:14643418_14874307|GENSCAN_predicted_peptide_1|341_aa MGFQYVGQAALELLTSASCAKCPPNASCVNNTHCTCNHGYTSGSGQKLFTFPLETCNDIN ECTPPYSVYCGFNAVCYNVEGSFYCQCVPGYRLHSGNEQFSNSNENTCQDTTSSKTTEGR KELQKIVDKFESLLTNQTLWRTEGRQEISSTATTILRDVESKVLETALKDPEQKVLKIQN DSVAIETQAITDNCSEERKTFNLNVQMNSMDIRCSDIIQGDTQGPSAIAFISYSSLGNII NATFFEEMDKKDQVYLNSQVVSAAIGPKRNVSLSKSVTLTFQHVKMTPSTKKVFCVYWKS TGQGSQWSRDGCFLIHVNKSHTMCNCSHLSSFAVLMALTSQ >gi568815579r:14643418_14874307|GENSCAN_predicted_CDS_1|1023_bp atggggtttcagtatgttggccaggctgctcttgaactcctgacctcagcttcctgtgct aagtgccccccaaatgcttcctgtgtcaataacactcactgcacctgcaaccatggatat acttctggatctgggcagaaactattcacattccccttggagacatgtaacgacattaat gaatgtacaccaccctatagtgtatattgtggatttaacgctgtgtgttacaatgtcgaa ggaagtttctactgtcaatgtgtcccaggatatagactgcattctgggaatgaacaattc agtaattccaatgagaacacctgtcaggacaccacctcctcaaagacaaccgagggcagg aaagagctgcaaaagattgtggacaaatttgagtcacttctcaccaatcagactttatgg agaacagaagggagacaagaaatctcatccacagctaccactattctccgggatgtggaa tcgaaagttctagaaactgccttgaaagatccagaacaaaaagtcctgaaaatccaaaac gatagtgtagctattgaaactcaagcgattacagacaattgctctgaagaaagaaagaca ttcaacttgaacgtccaaatgaactcaatggacatccgttgcagtgacatcatccaggga gacacacaaggtcccagtgccattgcctttatctcatattcttctcttggaaacatcata aatgcaactttttttgaagagatggataagaaagatcaagtgtatctgaactctcaggtt gtgagtgctgctattggacccaaaaggaacgtgtctctctccaagtctgtgacgctgact ttccagcacgtgaagatgacccccagtaccaaaaaggtcttctgtgtctactggaagagc acagggcagggcagccagtggtccagggatggctgcttcctgatacacgtgaacaagagt cacaccatgtgtaattgcagtcacctgtccagcttcgctgtcctgatggccctgaccagc cag >gi568815579r:14643418_14874307|GENSCAN_predicted_peptide_2|1078_aa MEYYAAIRKNEIMPLAATWMELEDIILSELTQKQKIKYSAQHLLVFLIFHLPLKRTFVII ILGPLENSGYYPHIKILILINICKVSFTISILQTALCRGGDDDDGDNNGCGGDGGNHGSG RSDGGAIGGGGDDEGRDDGDDDDGCDDGEDDESDGDGSSDGDGYIMVIFSEMVVMMVIEG DSCSEGDCCGDGDEGCDSSGDNDGVKIAKVVVILVVENGCSGDGGHHGSGSSDGGGRGRG GDDGSDDGGDDDGCDGAEGDESDDGGSSNGGGNITVMFSEMVVMMVIDGDSCSEGDCCDG DEGCDSSGDEDGSENSGGGGYVDSGGYPGHNSLSHSHFRSRRPRDRKRKCARRRPTAAEL CCAARRGRTPTETSNPGSSVMESVTFEDVAVEFIQEWALLDSARRSLCKYRMLDQCRTLA SRGTPPCKPSCVSQLGQRAEPKATERGILRATGVAWESQLKPEELPSMQDLLEEASSRDM QMGPGLFLRMQLVPSIEERETPLTREDRPALQEPPWSLGCTGLKAAMQIQRVVIPVPTLG HRNPWVARDSAVPARDPAWLQEDKVEEEAMAPGLPTACSQEPVTFADVAVVFTPEEWVFL DSTQRSLYRDVMLENYRNLASVADQLCKPNALSYLEERGEQWTTDRGVLSDTCAEPQCQP QEAIPSQDTFTEILSIDVKGEQPQPGEKLYKYNELEKPFNSIEPLFQYQRIHAGEASCEC QEIRNSFFQSAHLIVPEKIRSGDKSYACNKCEKSFRYSSDLIRHEKTHTAEKCFDCQECG QAFKYSSNLRRHMRTHTGEKPFECSQCGKTFTRNFNLILHQRNHTGEKPYECKDCGKAFN QPSSLRSHVRTHTGEKPFECSQCGKAFREHSSLKTHLRTHTREKPYECNQCGKPFRTSTH LNVHKRIHTGEKLYECATCGQVLSRLSTLKSHMRTHTGEKPYVCQECGRAFSEPSSLRKH ARTHSGKKPYACQECGRAFGQSSHLIVHDADIQGDRSAVHLGLHLVFGHSAGGPSCYALA YLFTIINTLQGVSIFWCTAFSVNRVTKIWATAGRPYAESLMSTLQGMEDFRFLQELNA >gi568815579r:14643418_14874307|GENSCAN_predicted_CDS_2|3237_bp atggaatactatgcagccataagaaagaatgaaatcatgcccttagcagcaacatggatg gagctggaggacattatcctaagtgaactcactcagaagcagaaaatcaaatattcagca cagcatcttctcgtcttcctgatcttccacctccctcttaagaggacctttgtgattatt atattaggccccctggaaaattcagggtactacccccatattaagattcttatcttaatc aacatctgcaaagtttcttttaccatctcgattttgcagactgctctttgtcgtggtggt gatgatgatgatggtgataataacggttgtggtggtgatggtggtaatcatggtagtggc aggagtgatggtggagctataggtggtggtggtgacgatgaaggaagggatgatggtgat gatgacgatggttgcgatgatggtgaagatgatgaaagtgacggtgatggtagtagcgat ggtgatggttacattatggtgatattttcagagatggtggtgatgatggtgattgaaggt gacagctgcagtgaaggtgattgttgtggtgatggtgacgaaggctgtgatagcagtggt gataatgatggggtgaaaatagcaaaggtggtggttatattggtagtggagaatggttgc agtggtgatggtggtcatcatggtagtggcagtagcgatggtggtggtagaggtcgtggt ggtgatgacggaagtgatgatggtggtgatgatgatggttgcgatggggctgaaggtgac gaaagtgacgacggtggtagtagcaatggtggtggtaacatcacagtgatgttttcagag atggtggtgatgatggtgattgatggtgacagttgtagtgaaggtgactgttgtgatggt gatgaaggctgtgatagcagtggtgatgaagatgggagtgaaaatagtggcggtggtggt tatgttgatagtggaggctaccctggccacaacagcctgagccacagccacttccgttcc cggcggccccgagaccggaagcggaagtgcgcgcggcggcggccgacggcggctgagctg tgctgcgcggcgcggcgcgggagaacaccgactgagacctcaaaccctggctccagtgtc atggaatccgtcacctttgaggatgtggccgtggagttcatccaggagtgggcattgctg gacagcgcacggaggagcctgtgcaaatacaggatgcttgaccagtgcaggaccctggcc tccaggggaactccaccatgcaaacccagttgtgtctcccagctggggcaaagagcagag ccaaaggcaacagaacgagggattctccgtgccacaggtgttgcctgggaatctcaactt aaacccgaagagttgccttctatgcaggatcttttggaagaagcatcctccagggacatg caaatggggccggggctgttcctgaggatgcagctggtgccctccatagaagagagggag acaccattgactcgagaggaccggccagctctccaggagccgccttggtctctgggatgc acgggactgaaggccgctatgcagattcagagggtggtgataccagtgcctactctgggc caccgcaacccatgggtggccagggattctgctgtgcctgcacgtgaccctgcctggctt caggaggacaaagtggaggaagaagctatggctcctgggctgccaaccgcctgttcacag gaaccagtcacctttgcagatgtggctgtggtgttcaccccagaagaatgggtgtttctg gactctactcagaggagcctgtatagagatgtgatgctggagaactacaggaacctggcc tctgtggctgatcaactgtgcaaacccaatgcgttgtcttatttggaagaaagaggagag cagtggaccactgacaggggcgtcctctcagacacctgtgcagaacctcagtgtcaaccc caagaggcaattcctagccaagatacttttacagagatcctgtccattgatgtgaaaggg gagcaacctcagcctggagaaaaactctataaatataatgaacttgagaaaccttttaac agcattgaaccacttttccagtaccagagaattcatgctggagaggcatcctgtgaatgt caagagattagaaattccttcttccagagtgcccacctaattgtgcccgagaaaatccgt agtggggataaatcctatgcatgtaacaaatgtgaaaaatccttcagatacagctctgac cttatcaggcatgagaagactcatactgcagagaagtgctttgactgtcaagaatgtggg caagccttcaaatattcctcgaatctccggcgacacatgagaacccataccggagagaag ccatttgaatgtagtcagtgtgggaaaaccttcacgaggaactttaacctgattttgcac cagagaaaccacacaggagagaagccctacgagtgtaaagattgtgggaaagccttcaat cagccatcatccctcaggagccacgtgagaactcacactggagagaagccctttgaatgc agccagtgtgggaaagccttcagggaacactcttcactgaagacacatctgcgaacccat accagagagaaaccatatgaatgcaaccagtgtggcaagcccttccggacgagcactcat ctgaacgtgcacaagaggatacacacaggggagaaactgtatgagtgcgcgacttgcggt caggtcttgagtcgtctttcaaccctgaagagtcacatgcgaactcacactggagagaag ccctatgtgtgccaggaatgtgggcgagccttcagtgagccctcatccctcaggaaacat gcaaggactcacagtggcaagaagccctatgcatgccaggaatgcgggcgagcctttggt cagtcttcacatcttattgtacatgatgctgacattcaaggtgacagatcagctgttcat cttgggctgcacctggtgtttgggcattctgcaggtgggcccagttgctatgctcttgcc tatctcttcaccatcatcaacaccctgcagggtgtctccatcttttggtgtactgccttt tcagtcaacagagtgaccaagatatgggccacagctggccgtccatatgctgagagtttg atgagcacattgcagggcatggaagatttccggtttctgcaggaattgaatgcctag >gi568815579r:14643418_14874307|GENSCAN_predicted_peptide_3|95_aa MLAFKATAQLFILGCTWCLGILQVGPAARVMAYLFTIINSLQGVFIFLVYCLLSQQVREQ YGKWSKGIRKLKTESEMHTLSSSAKADTSKPSTLV >gi568815579r:14643418_14874307|GENSCAN_predicted_CDS_3|288_bp atgctggcatttaaagcgacagctcagctgttcatcctgggctgcacgtggtgtctgggc atcttgcaggtgggtccggctgcccgggtcatggcctacctcttcaccatcatcaacagc ctgcagggtgtcttcatcttcctggtgtactgcctcctcagccagcaggtccgggagcaa tatgggaaatggtccaaagggatcaggaaattgaaaactgagtctgagatgcacacactc tccagcagtgctaaggctgacacctccaaacccagcacgctagtttga >gi568815579r:14643418_14874307|GENSCAN_predicted_peptide_4|2053_aa XASISTNNHSGRNSHFHMEAFLSENQSRNINQVKAGNETQISEFLLLGFSEKQELQPFLF GLFLSMYLVTVLGNLLIILAAISDSCLHTPMYFFLSNLSFVDICFASTMVPKMLVNIQTQ SKVITYAGCITQMCFFVLFIVLDSLLLTVMAYDQFVAICHPLHYTVIMSPQLCGLLVLVS WIMSVLNSMLQSLVTLQLSFCTDLEIPHFFCELNEMIHLACSDTFVNNMVMHFAAVLLDG GPLVGILYSYYRASVSIINHPGRNSYIHMDDTFLPENPSGHINKMKPGNDTRISEFLLLG LSAEPELQPFFFGLFLSMYLVTVLGNLLIILATISDSHLHTPMYFFLSNLSFADISFVST TVPKMLVNIQTQSRVITYAGCITQMCFFLLFAVLDSLLLAVMAYDRLATEQDSVSKKKKE KKKEEEEEEEEEEEEEEEEEEEEEEEEEEEEEKKRKKRKMPKSHHKMKSWNNTIILEFLL LGISEEPELQAFLFGLFLSMYLVTVLGNLLIILATISDSHLHTPMYFFLSNLSFVDICFV STTVPKMLVNIQTHNKVITYAGCITQMCFFLLFVGLDNFLLTVMAYDRHPWVEWNIIVSF EVLSLAQRQMLDSFLLPSLLSRASVSTINHPVRNLHLHKELFLGEIPSCHFNQMEPGNDT QISEFLLLGFSQEPGLQPFLFGLFLSMYLVTVLGNLLIILATISDSHLHTPMYFFLSNLS FADICVTSTTIPKMLMNIQTQNKVITYIACLMQMYFFILFAGFENFLLSVMAYDRFVAIC HPLHYMVIMNPHLCGLLVLASWTMSALYSLLQILMVVRLSFCTALEIPHFFCELNQVIQL ACSDSFLNHMVIYFTVALLGGAGHEIVLSSLGHHVFVSAMSTVSAILPGIVRYFIPMETG NQTHAQEFLLLGFSATSEIQFILFGLFLSMYLVTFTGNLLIILAICSDSHLHTPMYFFLS NLSFADLCFTSTTVPKMLLNILTQNKFITYAGCLSQIFFFTSFGCLDNLLLTVMAYDRFV AVCHPLHYTVIMNPQLCGLLVLGSWCISVMGSLLETLTVLRLSFCTEMEIPHFFCDLLEV LKLACSDTFINNVVIYFATGVLGVISFTGIFFSYYKIVFSILRISSAGRKHKAFSTCGSH LSVVTLFYGTGFGVYLSSAATPSSRTSLVASVMYTMVTPMLNPFIYSLRNTDMKRALGRL LRGWVPRIEYKHRPPHWDLNFAPCKCVVSDFRYRKQGFPVPTLLLTKTSRFRFLRHGAAE LVLGMGKSEHAWTEGGPQSGPPPLFSDSPHLTKKPVYQERVEPAPSVGRQGELHRQFRGG PWASGCPPPLLYKVLASGQPAQLPSLRRRDSPVPLTLSPAAPAGSSAGTMGGRVFLVFLA FCVWLTLPGAETQDSRGCARWCPQDSSCVNATACRCNPGFSSFSEIITTPMETCDDINEC ATLSKVSCGKFSDCWNTEGSYDCVCSPGYEPVSGAKTFKNESENTCQDVDECQQNPRLCK SYGTCVNTLGSYTCQCLPGFKLKPEDPKLCTDVNECTSGQNPCHSSTHCLNNVGSYQCRC RPGWQPIPGSPNGPNNTVCEDVDECSSGQHQCDSSTVCFNTVGSYSCRCRPGWKPRHGIP NNQKDTVCEDMTFSTWTPPPGVHSQTLSRFFDKVQDLGRDYKPGLANNTIQSILQALDEL LEAPGDLETLPRLQQHCVASHLLDGLEDVLRGLSKNLSNGLLNFSYPAGTELSLEVQKQV DRSVTLRQNQAVMQLDWNQAQKSGDPGMGKLLAEAPLVLEPEKQMLLHETHQGLLQDGSP ILLSDVISAFLSNNDTQNLSSPVTFTFSHRSVIPRQKVLCVFWEHGQNGCGHWATTGCST IGTRDTSTICRCTHLSSFAVLMAHYDVQEEDPVLTVITYMGLSVSLLCLLLAALTFLLCK AIQNTSTSLHLQLSLCLFLAHLLFLVAIDQTGHKVLCSIIAGTLHYLYLATLTWMLLEAL YLFLTARNLTVVNYSSINRFMKKLMFPVGYGVPAVTVAISAASRPHLYGTPSRLVQILTI LIFSGITMAIART >gi568815579r:14643418_14874307|GENSCAN_predicted_CDS_4|6162_bp nnagcttccatctccaccaacaaccattcagggaggaattcacacttccacatggaggct tttctttcagaaaaccagtcaagaaacatcaaccaggtgaaagcagggaatgagacacaa atttcagaatttcttcttctaggattttcagagaaacaagaattgcagcccttcctcttt gggctgttcctgtccatgtacctggtcactgtgctcgggaacctgctcatcatcctggcc gcaatctcagactcctgcctccacacccccatgtacttctttctctccaacctgtccttc gtagatatctgttttgcctccaccatggtcccaaagatgttggtgaacatccagacacag agcaaagtcattacctatgcaggttgcatcacccagatgtgcttttttgtactctttata gtgttggacagcttactcctgaccgtgatggcctatgaccagtttgtggccatctgtcac cccctgcactacacggtcatcatgagccctcagctctgtggactgctggttctggtgtcc tggatcatgagtgtcctaaactccatgttacaaagcttagtgacattgcagttgtccttc tgcacagacttggaaatccctcactttttctgtgaacttaatgagatgatccaccttgcc tgttctgacacctttgtgaacaacatggtgatgcattttgcagctgtgctgctggacggt ggtcctctcgttgggatcctttattcttactacagagcttcagtttccatcatcaaccat ccagggaggaattcatacatccacatggacgacaccttccttccagaaaatccatcaggt cacatcaacaagatgaaaccagggaatgatacacgaatttcagaatttcttcttctagga ctttcagcagaaccagaattgcagcccttcttctttgggctgttcctgtccatgtacctg gtcaccgtgctcgggaacctgctcatcatcctggccacaatctcagactcccacctccac acccccatgtacttcttcctctccaacctgtcctttgcagatatcagttttgtgtctacc actgtcccgaagatgctggtgaatatccagacgcagagcagagtcatcacctatgcaggc tgcatcacccagatgtgctttttcctactatttgcagtgttggacagccttctcctagct gtgatggcctatgatcgcctggcaacagagcaagactctgtctcaaaaaaaaaaaaagag aagaagaaagaagaagaagaagaagaagaagaagaagaagaagaagaagaagaagaagaa gaagaagaagaagaagaagaagaagaagaagaagaaaagaagaggaagaaaagaaaaatg ccaaagtcacatcacaagatgaaatcatggaacaatacaataattttagaatttcttctc ctgggaatttcagaggaaccagaattgcaggccttcctctttgggctgttcctgtccatg tacctggtcactgtgctcgggaacctgctcatcatcctggccacaatctcagactcccac ctccacacccccatgtacttcttcctctccaacctgtccttcgtagacatctgttttgtc tctaccactgtcccgaagatgctggtgaacatccagacacacaacaaagtcatcacctat gcaggctgcatcacccagatgtgctttttcttactctttgtaggattggataacttcctt ctgaccgtgatggcctatgaccggcacccctgggttgaatggaatatcattgtttctttt gaagtcctaagtctagctcagagacagatgcttgactctttcctgctgcctagtctgctg agcagagcttcagtctccaccatcaatcatccagtgaggaatttgcacttacacaaggaa ctcttcctcggagagatcccctcctgtcacttcaatcaaatggaaccaggaaatgataca caaatttcagaatttcttcttctgggattttcacaagaacctggactgcaacccttcctc tttgggctgttcctgtccatgtacctggtcactgtgctcgggaacctgctcatcatcctg gccacaatctcagactcccacctccacacccccatgtacttcttcctctccaacctgtcc tttgctgacatttgtgttacttccaccaccattccaaaaatgctgatgaacatccagaca cagaacaaagtcatcacctacatagcctgcctcatgcagatgtattttttcatactcttt gctggatttgaaaacttcctcctgtccgtgatggcctatgaccggtttgtggccatctgt caccccctgcactacatggtcattatgaaccctcacctctgtggactgctggttctagca tcctggaccatgagtgctctgtattccttgctacaaatcttaatggtagtacggctgtcc ttctgcacagccttagaaatcccccactttttctgtgaacttaatcaggtcatccaactt gcttgttctgatagctttcttaatcacatggtgatatattttacagttgcgctgctgggt ggagctggtcatgagattgtgttgtcctcattaggacatcatgtctttgtcagtgccatg tccacagtatctgccatactccctggcatagtacgttattttatccccatggaaacagga aatcaaacacatgcccaagaatttctcctcctgggattttcagcaacgtcagagattcag ttcattctctttgggctgttcctctccatgtacctagtcactttcaccgggaacctgctc atcatcctggccatatgctcagactcccacctccacacccccatgtacttcttcctctcc aacctgtcttttgctgacctctgttttacctccacgactgtcccaaagatgttactgaat atactgacacagaacaaattcataacatatgcaggctgtctcagtcagattttttttttc acttcatttggatgcctggacaatttactcttgaccgtgatggcctatgaccgcttcgtg gccgtctgtcaccccctgcactatacggtcatcatgaacccccagctctgtggactgctg gttctggggtcctggtgcatcagtgtcatgggttccctgctcgagaccttgactgttttg aggctgtccttctgcaccgaaatggaaattccacactttttttgtgatctacttgaagtc ctgaagctcgcctgttctgacaccttcattaataacgtggtgatatactttgcaactggc gtcctgggtgtgatttccttcactggaatatttttctcttactataaaattgttttctct atactgaggatttcctcagctgggagaaagcacaaagcgttttccacctgtggttcccac ctctcagtggtcaccttgttctatggcacgggctttggggtctatctcagttctgcagcc acaccatcttctaggacaagtctggtggcctcagtgatgtacaccatggtcacccccatg ctgaaccccttcatctacagcctgaggaacacggacatgaagagggccctggggagactc ctcagaggctgggtgccaaggatcgaatataagcacaggcccccgcactgggacctcaat ttcgctccctgcaaatgtgtggtctctgacttccggtatcggaagcaaggatttccggtt cccacgctcctgttgacaaaaacttcccgttttcgttttttgaggcatggagctgctgaa ctagttttaggaatggggaaatcagagcatgcgtggacagagggaggaccacagagtgga ccacccccactcttctcagattcccctcatttgaccaaaaagcccgtctaccaggagcgc gtggagccagcgccatctgtgggccgccaaggggagctgcaccgccagttccggggaggg ccctgggccagcggctgtccgccccccctcctttataaagtcctggcctcgggacagccc gcacagctgcccagcctgcggagacgggacagccctgtcccactcactctttcccctgct gctcctgccggcagctcagctggaaccatgggaggccgcgtctttctcgtctttctcgca ttctgtgtctggctgactctgccgggagctgaaacccaggactccaggggctgtgcccgg tggtgccctcaggactcctcgtgtgtcaatgccaccgcctgtcgctgcaatccagggttc agctctttttctgagatcatcaccacccccatggagacttgtgacgacatcaacgagtgt gcaacactgtcgaaagtgtcatgcggaaaattctcggactgctggaacacagaggggagc tacgactgcgtgtgcagcccaggatatgagcctgtttctggggcaaaaacattcaagaat gagagcgagaacacgtgtcaagatgtggacgaatgtcagcagaacccaaggctctgtaaa agctacggcacctgcgtcaacaccctcggcagctacacgtgccagtgcctgcctggcttc aagctcaaacctgaggacccgaagctctgcacagatgtgaatgaatgcacctccggacaa aacccatgccacagctccacccactgcctcaacaacgtgggcagctatcagtgccgctgc cgcccgggctggcaaccgattccggggtcccccaatggcccaaacaataccgtctgtgaa gatgtggacgagtgcagctccgggcagcatcagtgtgacagctccaccgtctgcttcaac accgtgggttcatacagctgccgctgccgcccaggctggaagcccagacacggaatcccg aataaccaaaaggacactgtctgtgaagatatgactttctccacctggaccccgccccct ggagtccacagccagacgctttcccgattcttcgacaaagtccaggacctgggcagagac tacaagccaggcttggccaataacaccatccagagcatcttacaggcgctggatgagctg ctggaggcccctggggacctggagaccctgccccgcttacagcagcactgtgtggccagt cacctgctggatggcctagaggatgtcctcagaggcctgagcaagaacctttccaatggg ctgttgaacttcagttatcctgcaggcacagaattgtccctggaggtgcagaagcaagta gacaggagtgtcaccttgagacagaatcaggcagtgatgcagctcgactggaatcaggca cagaaatctggtgacccagggatgggcaagttgctggctgaggcccctctggtcctggaa cctgagaagcagatgcttctgcatgagacacaccagggcttgctgcaggacggctccccc atcctgctctcagatgtgatctctgcctttctgagcaacaacgacacccaaaacctcagc tccccagttaccttcaccttctcccaccgttcagtgatcccgagacagaaggtgctctgt gtcttctgggagcatggccagaatggatgtggtcactgggccaccacaggctgcagcaca ataggcaccagagacaccagcaccatctgccgttgcacccacctgagcagctttgccgtc ctcatggcccactacgatgtgcaggaggaggatcccgtgctgactgtcatcacctacatg gggctgagcgtctctctgctgtgcctcctcctggcggccctcacttttctcctgtgtaaa gccatccagaacaccagcacctcactgcatctgcagctctcgctctgcctcttcctggcc cacctcctcttcctcgtggcaattgatcaaaccggacacaaggtgctgtgctccatcatc gccggtaccttgcactatctctacctggccaccttgacctggatgctgctggaggccctg tacctcttcctcactgcacggaacctgacggtggtcaactactcaagcatcaacagattc atgaagaagctcatgttccctgtgggctacggagtcccagctgtgacagtggccatttct gcagcctccaggcctcacctttatggaacaccttcccggttagtgcaaattctcacaatc cttatcttctccggcataaccatggccattgctagaacctag