GENSCAN 1.0 Date run: 5-Nov-116 Time: 19:43:21 Sequence gi568815577f:43859682_44082389 : 222708 bp : 49.68% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Intr + 1927 2006 80 2 2 31 97 56 0.218 0.07 1.02 Intr + 4657 4870 214 0 1 101 18 151 0.458 7.69 1.03 Intr + 6933 7227 295 1 1 120 43 138 0.305 8.57 1.04 Intr + 7515 7665 151 0 1 3 92 75 0.145 -0.44 1.05 Intr + 22823 22934 112 1 1 105 99 40 0.033 6.75 1.06 Intr + 34303 34418 116 2 2 1 80 135 0.286 4.17 1.07 Term + 41189 41344 156 1 0 29 42 157 0.111 3.13 1.08 PlyA + 41781 41786 6 1.05 2.00 Prom + 41799 41838 40 -2.56 2.01 Init + 50485 50557 73 0 1 72 76 106 0.936 7.03 2.02 Term + 54419 54558 140 0 2 110 50 81 0.953 4.63 2.03 PlyA + 54776 54781 6 -0.45 3.15 PlyA - 54812 54807 6 1.05 3.14 Term - 57314 57181 134 0 2 71 47 125 0.945 4.95 3.13 Intr - 57623 57514 110 1 2 -6 88 117 0.784 2.23 3.12 Intr - 58635 57996 640 1 1 27 -3 506 0.230 26.52 3.11 Intr - 60385 60206 180 2 0 58 54 119 0.254 5.34 3.10 Intr - 62551 62442 110 0 2 110 62 -7 0.566 -1.17 3.09 Intr - 63529 63483 47 1 2 72 93 39 0.364 0.01 3.08 Intr - 64875 64782 94 2 1 60 68 67 0.739 1.87 3.07 Intr - 65579 65447 133 0 1 33 47 138 0.681 3.90 3.06 Intr - 66732 66424 309 1 0 72 -11 188 0.473 3.58 3.05 Intr - 68486 68368 119 1 2 92 50 40 0.349 0.71 3.04 Intr - 70435 70233 203 1 2 81 48 104 0.862 3.78 3.03 Intr - 71009 70829 181 1 1 105 61 27 0.344 1.57 3.02 Intr - 72874 72680 195 0 0 56 -27 181 0.130 1.93 3.01 Init - 73834 73299 536 1 2 41 36 363 0.669 20.73 3.00 Prom - 76000 75961 40 -12.30 4.00 Prom + 77923 77962 40 -9.46 4.01 Init + 80568 80650 83 2 2 63 105 177 0.358 15.36 4.02 Intr + 80723 80786 64 2 1 108 75 -38 0.329 -4.38 4.03 Intr + 82376 82445 70 1 1 96 50 38 0.326 -0.45 4.04 Intr + 83753 83809 57 0 0 105 77 52 0.091 4.66 4.05 Intr + 87504 87591 88 1 1 115 97 -17 0.221 0.93 4.06 Intr + 88593 88661 69 0 0 94 53 79 0.299 3.30 4.07 Intr + 89763 89874 112 0 1 18 84 34 0.317 -3.62 4.08 Intr + 90894 91028 135 2 0 68 72 97 0.563 6.86 4.09 Intr + 91368 91487 120 2 0 88 46 48 0.173 1.29 4.10 Intr + 96262 96396 135 0 0 30 68 120 0.949 4.96 4.11 Intr + 99953 100178 226 1 1 143 78 448 0.274 46.86 4.12 Intr + 108265 108434 170 2 2 106 72 265 0.967 26.37 4.13 Intr + 109437 109598 162 2 0 100 92 347 0.998 36.47 4.14 Intr + 110972 111125 154 1 1 71 96 239 0.999 22.65 4.15 Intr + 111707 111809 103 0 1 120 78 195 0.931 20.93 4.16 Intr + 118365 118440 76 0 1 64 121 110 0.942 11.42 4.17 Intr + 121308 121506 199 2 1 96 95 45 0.630 4.92 4.18 Intr + 121746 121832 87 1 0 69 20 95 0.330 0.74 4.19 Intr + 121905 122079 175 1 1 61 60 50 0.068 -1.50 4.20 Intr + 124009 124131 123 1 0 47 93 61 0.028 2.20 4.21 Intr + 133897 134048 152 1 2 86 48 100 0.105 5.61 4.22 Intr + 135940 136251 312 2 0 8 82 215 0.060 9.06 4.23 Intr + 139824 139923 100 1 1 137 97 37 0.840 8.67 4.24 Intr + 150809 150930 122 2 2 45 83 69 0.019 2.24 4.25 Term + 150974 151047 74 0 2 48 49 55 0.017 -4.33 4.26 PlyA + 151248 151253 6 1.05 5.00 Prom + 151255 151294 40 -8.76 5.01 Init + 152813 152879 67 1 1 70 76 173 0.997 15.53 5.02 Intr + 172410 172491 82 1 1 130 86 -10 0.001 1.70 5.03 Intr + 175054 175141 88 1 1 51 65 63 0.001 0.27 5.04 Intr + 192599 192795 197 1 2 107 111 131 0.927 15.51 5.05 Intr + 196017 196212 196 0 1 86 80 44 0.360 2.82 5.06 Intr + 199422 199533 112 2 1 10 84 244 0.318 16.15 5.07 Intr + 203857 204104 248 2 2 65 81 296 0.263 23.78 5.08 Intr + 211135 211178 44 0 2 99 68 -10 0.076 -4.86 5.09 Intr + 212555 212737 183 2 0 34 55 136 0.141 3.80 5.10 Intr + 213553 213736 184 1 1 99 47 58 0.727 2.59 5.11 Intr + 214643 214789 147 1 0 108 46 118 0.951 10.03 5.12 Intr + 215358 215472 115 2 1 56 80 59 0.877 1.92 5.13 Intr + 216871 216947 77 2 2 44 83 81 0.807 2.43 5.14 Intr + 220344 220446 103 2 1 46 110 129 0.249 10.65 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 135948 136251 304 2 1 58 82 219 0.915 15.74 S.002 Intr - 168008 167869 140 0 2 49 70 122 0.916 6.68 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815577f:43859682_44082389|GENSCAN_predicted_peptide_1|374_aa XEAAALWLHQGLEPGCLPLLPCVLADKVLGSAAGQVQGRGDGSRCPGAERAPRSGGDGVS ARGGSQGSPGATPTPATVKCRYSVASRVPTMNKSKGAAQFGVSLCLLQLASCIHFWLVLS IFLRTLSKKQLHAIDIQTEQGPLALEGVGALNILKVTSWSGRPLWSPYLCVALSWRICQG DALQQPEDCWVKGSVAGDLTQQGLSYLPEVVSRNGRAAFRLTSLELPPPQTRPGAESPRM LSLVKSEVCVIGGFIPGKSSVYETNIHGVCITVGVRCEPGGQVSDLLDSGLPRTFTLQKL SIWKCSEARHSEQASFRLLAFMLNKARRCRTAANPASSAKFTGTKFTVPSSQAKVTAIQK TQKKRKINGWKHPG >gi568815577f:43859682_44082389|GENSCAN_predicted_CDS_1|1125_bp ngagaagctgctgcgctgtggctgcatcagggcctagagccgggctgcctgcctctgctg ccctgtgtgctggcggataaggttctgggatcggccgctggccaggtgcaagggaggggg gacggcagccgctgtcctggggctgagagggctccgcggtctggaggggacggcgtcagc gcccgcgggggttcgcagggcagccccggggcgacccccacccccgccacggtcaagtgt cgatacagtgttgccagccgggtgccaactatgaataagtccaagggcgcggcacagttc ggcgttagcctgtgcctgttacaactcgcttcttgtatccatttctggttagtcttaagt atcttcttgaggacattgtctaaaaagcagctgcatgccattgacattcagacagaacag ggccccttggccttagaaggtgtaggggccttaaatattctgaaggtgacttcatggagt ggccgccctctgtggtcaccctacctgtgcgtggccctgtcctggcgtatctgccagggg gacgcgctgcagcagcctgaagactgctgggttaaaggcagtgtggccggtgatctgaca caacagggcttgagttacttgcccgaggttgtgtcacggaacggcagggccgcctttagg cttacatccctggaactcccacctccacagacccgtccgggtgctgaaagtccacggatg ctatccctggtcaaatcagaggtgtgtgttatcggaggtttcattcctggaaaatccagt gtctatgaaaccaacatacatggcgtttgcatcacagttggagtcagatgtgagcccgga gggcaggtgtctgacttgctggattcagggctgccacgaaccttcacgctgcaaaaactc agtatctggaagtgcagcgaagccaggcacagtgaacaagcttccttccggcttctggcg ttcatgctcaacaaagcccggagatgcaggacagcagcaaacccagcgtccagtgccaag ttcacaggcaccaagttcacagtgcccagcagccaagcaaaagtgactgccatacagaaa acccagaagaagaggaaaatcaatggttggaaacatccaggctag >gi568815577f:43859682_44082389|GENSCAN_predicted_peptide_2|70_aa METASLCAPGLFLGSACSALMAAKGSLLLCVVVEAHKENYAAQGYALMKKAVGTPLPARP GAPWGPYATI >gi568815577f:43859682_44082389|GENSCAN_predicted_CDS_2|213_bp atggagacggcctccctctgtgctcctggcctctttctggggagtgcgtgttcagccctg atggcagccaaaggcagcctgttgctctgtgtcgtggttgaggctcataaagaaaattat gctgcacaaggctatgcgctcatgaagaaggctgttggaacccccctgcctgcgaggcct ggggccccctggggtccttacgccacaatttga >gi568815577f:43859682_44082389|GENSCAN_predicted_peptide_3|996_aa MSRSSQEYDDIIDIPKPFPMEKTDGRALKKIHDKSKHRPLGLRQTKQLLHDKGNDRVKRR PARERKPCRPHARCRPSIHRVKGLRLNSKKANSKGPERLCLRRSHTDSQQVNEELFGIIN HQGEANRSHREVSFHAVQLAIIKKTNVTGVDENAEKRHLARCEGERASISVATTQTIWSI TPNSHTMEAAQVPTNRRMDSERAVRNAVLLFSHKEEGSPVTGNITDKRGRPDTKWIISQS QNDNPGVHPHLIPAFPSSRQKHPPTLTPPGLPTVDTHNQELQPLSSRGRACCPQGLREAQ RTGTTLWIRDFLNVKTGLDDVHRSARTRHPGFQEDSHSSPLSPARLGCRCSRERVCHLQP SVRCIYEVNETLGDFHVQQGSQLPVGRVVIPFLLRPGAASGWFSFPGHGAADAHALPAGP PRCPTCYLTWSPEKQLVQPRTAERRLSTPLAPVRYSRTLQISPLLEDRAEELESMSQAGV CVSGKSLQMTCTLVLTQREKASRSHRTTECSSGHKSLQARTAEAASSMAGSNHRRARDSA YGRSRQLSQRQRGERVLPGRKMDLLFVKVLAKAEPAPHGSGPGELCDKQQCPFLQHKEPW ALVVCWLRKALINASHTCSVRLPHKPGPPHAPRPPGDSSPSPGDNQDPVWRPPADSKHGD ADARMAPTHEESRFENTMEPKSRLQDLYTIWEENRDTHACVSKTTIDPHPKCCYELTLST WKVLATYNTHNTHNRRNTHNLHNPTPTTPTTPTTPTTPTTPTPTTPTTPITQHPQHNTHN THNTHNPNTHNPHNTNNPYNTNIHNTHNPHNTHNTTPPTPTPPTTPTTPTTPTPPTTPTT PATPTTPTTPTTLTTPTTPTTQHPQPPQHPQHNPHNTHNTHNTPTQFCRGRCQLDHPVDK AAKRVMRTPTCQPPPLAGQQKEEQRDRAGNRLTAPRGADVPWMEVTSKKADSEKQQTLPK KEQPEDLRYRHEHEAATNKTPTSPAIRSTPPKTRPK >gi568815577f:43859682_44082389|GENSCAN_predicted_CDS_3|2991_bp atgtcaagaagcagccaggagtatgatgacatcatcgatattcccaaacctttccccatg gagaaaacagatggcagagctttaaaaaagatacacgacaaaagcaaacatagaccactg ggattacggcaaactaaacagcttctgcatgacaaagggaacgacagggtaaagagacga cccgcaagggagagaaaaccctgcagaccacatgcccgatgcaggcccagcatccacagg gtaaaggggctcagactcaatagcaagaaagcaaacagcaaaggacccgaacggctgtgc ctcagaaggagccacaccgacagccagcaggttaacgaagagctgttcggcattattaac catcagggagaagcaaatcgaagccacagggaggtgtcatttcatgccgttcagttggct attatcaaaaagacgaatgtaacaggtgttgacgagaacgcagagaaaaggcacctggca cgctgtgagggagagagagcgtcaatcagtgtggccactacacaaaccatctggagcatc acccccaacagccacacgatggaggcagcccaggtgcccaccaacagacgaatggatagc gagcgtgcggtgcgtaacgccgtgttattattcagccataaggaagaaggaagtcctgtc actggcaacatcacagacaaacgtggtagacccgacactaagtggataatcagccagtca cagaacgacaacccaggtgtgcacccccacctcatccccgccttcccctcatcccgacag aaacacccacccaccctcaccccgccaggcctgcccactgtggacacccacaatcaggag ctgcagcctctgagttcacggggcagagcttgctgtccccaaggtctgagagaggcccag agaacagggacaacactgtggattcgtgacttcctgaacgtgaaaacggggctggatgat gtacacagaagtgccaggacaaggcaccctgggttccaggaggacagtcactcaagtcct ctctctccggcacgcctgggctgtcggtgctccagagaacgcgtctgtcacctgcagccc agtgtccgctgcatttatgaggttaatgagacactcggagacttccacgtccagcaagga tcacagcttccggtgggccgagtggttattccgtttctgctgcgtccgggagctgcgtcc ggctggttcagcttcccagggcacggggcagcagatgcgcatgccctccctgctggacca ccccgctgtcctacgtgttacctgacgtggtccccagagaaacagcttgttcagccaagg acggcagagcgaaggctcagcacccccttggcgccagtgcgttactcaagaacactccag atttcaccgctgctggaggacagggctgaggagctggagtccatgtcccaagcaggcgtc tgtgtctcaggcaaaagtctacagatgacctgtaccctggtgctgacccagcgggagaag gcaagccgcagccaccgtaccactgaatgctccagtggccacaagtctctgcaagccagg acggcagaagcagccagcagcatggctgggagcaaccacaggagggcccgggacagtgcc tacggccgctcacggcagctgagccagcgccagcgaggggagagagtcctgccagggagg aagatggatctgctgttcgtgaaagtgcttgcaaaggcagagcctgctcctcacgggagc ggacctggggagctgtgtgataagcagcagtgtcccttcctgcagcacaaggagccctgg gcactggtggtgtgctggctgagaaaggccctgataaatgcatcacacacgtgctctgtg cgactcccccacaagcctgggcctccacatgcaccaaggcccccgggtgactcatccccg tccccaggtgacaaccaggatcctgtctggagaccccccgcggactccaagcatggagat gcagacgcccgcatggcacccacacatgaggaaagccggtttgaaaacaccatggaacca aagtcccggctccaagatctttacactatttgggaagaaaacagagacacccatgcttgc gtcagcaagacaacaattgatccacacccaaagtgctgttatgaactaactctctccacc tggaaagttctggccacctacaacacccacaacacccacaaccgccgcaacacccacaac ctccacaacccaacacccacaactcccacaacacccacaactcccacaacacccacaact ccaacacccacaacccccacaacacccataacacaacacccacaacacaacacccacaac acccacaacacccacaaccccaacacccacaacccccacaacaccaacaacccctacaac accaacatccacaacacccacaacccccacaacacccataacacaacacccccaacaccc acaccccctacaacccccacaacacccacaacacccacaccccctacaacacccacaaca cccgcaacccctacaacccccacaacccccacaacactcacaactcctacaacacccaca acacaacacccacaacccccacaacacccacaacacaacccccacaatacccacaatacc cacaacaccccaacacagttctgccggggaagatgccaactcgaccacccggtagataag gcagcgaaacgagttatgcggacccccacctgccagcctcctccccttgcagggcagcag aaggaggagcagcgggaccgcgccggcaacaggctcacagcacccagaggggcggatgtg ccctggatggaggtgacgagcaagaaggctgacagcgagaagcaacagaccttacccaaa aaggagcagcctgaggatcttagatacagacacgagcacgaggcggccacaaacaagact ccaacttccccggctatccgctcaacaccaccaaaaactcgaccgaagtga >gi568815577f:43859682_44082389|GENSCAN_predicted_peptide_4|1055_aa MLSSYPACLFSGICVALLAVALAYYFYCPGPFSACQQTLPSPLQGNSWEVFSKLAVEFEA SSGGLRRGSVPTGFYRSPTVYQALAKPCTHSGFAVYTGSDAVADTTWGNNSRTLVFSSDS RGSCTFRHCLLTEGGKNDKGDDQRLAQATTSDGHKGVREWQRSKDCLGSPVTPIPPHSID RHSDEISVGHSHRIVPSCVMSESLQPRPRCSVASKGPQVLGSFLPQRLLTVTVELSPAPK SPGLTVVPSCAASTQGPPVPPPRRGQQRNQQVCCGARASASRSITADVLALKQASWDPGS SGPVWSDVCPWDGCPQRGAVHPLLSSAMGLLAFLKTQFVLHLLVGFVFVVSGLVINFVQL CTLALWPVSKQLYRRLNCRLAYSLWSQLVMLLEWWSCTECTLFTDQATVERFGKEHAVII LNHNFEIDFLCGWTMCERFGVLGSSKVLAKKELLYVPLIGWTWYFLEIVFCKRKWEEDRD TVVEGLRRLSDYPEYMWFLLYCEGTRFTETKHRVSMEVAAAKGLPVLKYHLLPRTKGFTT AVKCLRGTVAAVYDVTLNFRGNKNPSLLGILYGKKYEADMCVRRFPLEDIPLDEKEAAQW LHKLYQEKDALQEIYNQKGMFPGEQFKPARRPWTLLNFLSWATILLSPLFSFVLGVFASG SPLLILTFLGFVGAAPLAGALEDADERVPERVPSPPVCFWALRVTSPLCAHPRHNARPTT THQLAWGRTDTQPVPVVSSGAHPHPVIEGSLSVETQSVCIAPWGPWGNGSGRTLNLVAVP SAHLHLAFDLLVLSHSALIFLARGPATPCLRVCGVCTCFAPTGRFLQDSHEHLQCPRSKE GMLPGAEVATMTLAAHMLPDEEAGDQTKDTDHAQAGDQTKDTDHAQARDQTKDTDHAQAV QLVQSQVEITRAGAQRATSQWLQILVSDSWVLGELPFIHRALRLSSELDLDFDGWKECWS LAGAVPMIPTVSGCQSVSIGQFLCYIGQQVSLMLFLLVLEHKCLPHCGCSVNQGSPTARA TDTYRSGHTAGAAPHRWHYRLSSASCQVSSSAGFS >gi568815577f:43859682_44082389|GENSCAN_predicted_CDS_4|3168_bp atgctgagcagctacccggcctgcctcttctcagggatctgtgtggccctgctggcggtg gctttggcctattacttctactgccctggaccgttctctgcatgtcaacaaaccctgcct agccctttgcaggggaactcctgggaggtcttcagtaagttagctgtggaattcgaggcc tcaagtggtggcctgcgccgtggcagcgtacccacaggattttatcgatcacctactgta taccaggcactggctaagccctgcacgcacagtgggtttgcagtttacactggcagtgat gcagtggcagacacaacttggggaaataactctaggaccctggtctttagttccgattcc cgtggctcctgcaccttcagacactgcctcctcaccgagggagggaagaacgacaaaggt gatgaccagagactagcccaagccaccacctctgatggccacaagggtgtaagggagtgg caacgctctaaagactgtcttggaagtcctgtgacaccaatcccaccacattctattgat aggcattcggacgagatcagcgtgggccacagtcaccgcattgtgccctcatgcgtgatg tcagagagcctgcaaccgcgcccccgctgctcagtggcctccaaggggcctcaagtcctg ggctcgtttctgccccagcgtctgctgacagtaacagtggagctttccccagcacccaag agcccggggctcaccgtggtcccctcctgtgcagccagcacacaaggccctcccgtgcca ccacctcgcaggggccagcaacggaatcagcaggtctgctgtggagcccgggcatctgct tctcggagcatcacagctgatgtgctggccctcaagcaggcttcttgggaccctggttct tctgggccagtgtggagtgatgtgtgcccctgggacggctgtcctcagcgaggggccgtg cacccgctcctgagcagcgccatgggcctgctggccttcctgaagacccagttcgtgctg cacctgctggtcggctttgtcttcgtggtgagtggtctggtcatcaacttcgtccagctg tgcacgctggcgctctggccggtcagcaagcagctctaccgccgcctcaactgccgcctc gcctactcactctggagccaactggtcatgctgctggagtggtggtcctgcacggagtgt acactgttcacggaccaggccacggtagagcgctttgggaaggagcacgcagtcatcatc ctcaaccacaacttcgagatcgacttcctctgtgggtggaccatgtgtgagcgcttcgga gtgctggggagctccaaggtcctcgctaagaaggagctgctctacgtgcccctcatcggc tggacgtggtactttctggagattgtgttctgcaagcggaagtgggaggaggaccgggac accgtggtcgaagggctgaggcgcctgtcggactaccccgagtacatgtggtttctcctg tactgcgaggggacgcgcttcacggagaccaagcaccgcgttagcatggaggtggcggct gctaaggggcttcctgtcctcaagtaccacctgctgccgcggaccaagggcttcaccacc gcagtcaagtgcctccgggggacagtcgcagctgtctatgatgtaaccctgaacttcaga ggaaacaagaacccgtccctgctggggatcctctacgggaagaagtacgaggcggacatg tgcgtgaggagatttcctctggaagacatcccgctggatgaaaaggaagcagctcagtgg cttcataaactgtaccaggagaaggacgcgctccaggagatatataatcagaagggcatg tttccaggggagcagtttaagcctgcccggaggccgtggaccctcctgaacttcctgtcc tgggccaccattctcctgtctcccctcttcagttttgtcttgggcgtctttgccagcgga tcacctctcctgatcctgactttcttggggtttgtgggagcagccccactggctggcgcc cttgaggatgccgacgagagggtccccgagagggtccccagcccccctgtctgcttttgg gctcttagggtgacttccccactgtgtgcccaccccaggcacaatgccaggcccaccacg actcatcagctagcctggggccgaacagacacccagcctgtccctgtggtgagctccggc gcccacccacaccccgtaattgaggggtctctgtccgtggagacacagtccgtgtgcatc gccccgtggggcccctggggcaatggcagtggtagaacgctcaacttggttgcggtacca tcagcccacctgcatttggctttcgacttgcttgttctaagtcacagcgccctcatcttt ttagcaaggggccctgccacaccctgcctccgagtgtgtggggtctgtacctgctttgcc cccactggccgctttctccaggacagccatgaacatctccagtgtcctcggagcaaggaa ggaatgcttcctggagcagaagtggccacaatgacgctagcagcccacatgctacccgat gaggaagccggggaccagaccaaggacactgaccatgcccaagccggggaccagaccaag gacactgaccatgcccaagccagggaccagaccaaggacactgaccatgcccaagccgtc cagctagttcagagtcaagtggaaataaccagggcgggagcacagagagccacatcccag tggctccagatcctggtgtcggacagctgggtgcttggggaactgccgttcattcacagg gctttgcggctgagctcagaacttgatcttgactttgatgggtggaaggaatgctggagc ttggctggtgcggtgcccatgatacctactgtgagtggctgtcagtctgtttcaattggt caattcctgtgctatattggccagcaagtatctttaatgctcttcctccttgttcttgag cacaagtgtcttcctcattgtggctgctctgtaaatcagggctccccgaccgccagggcc acagacacataccggtcaggccacacagcaggagctgctccccatcgctggcattaccgc ctgagctccgcctcctgtcaggtcagcagcagcgctggattctcctag >gi568815577f:43859682_44082389|GENSCAN_predicted_peptide_5|615_aa MDASEEPLPPVIYTMENKPIVTCAGDQNLFTSVYPTLSQQLPREPMEWRRVDPESNDKCP CKRQKRRHRHRVEDLVKMEDTEVYKATVKDDLTKWQNVLKAHSSVDWLIVIVENDAKKKN KTNILPRTSIVDKIRNDFCNKQSDRCVVLSDPLKDSSRTQESWNAFLTKLRTLLLMSFTK NLGKFEDDMRTLREKRTEPGWSFCEYFMVQEELAFVFEMLQQFEDALVQYDELDALFSQY VVNFGAGDGANWLTFFCQPVKSWNGLILRKPIDMEKRESIQRREATLLDLRSYLFSRQCT LLLFLQRPWEVAQRALELLHNCVQELKLLEGCWWEKSAGTACVLLWRLSSRLLLFPADSV QRLVAERPSCPGCSCFCIQRPLPRLRCCGSWALSPFSVDASLPKALSFICAQGALQEFLW ESVSPALAAHHLLTGDLKSTGEHISPKLGHIMKSVPPEKKSALPLKSVSVPPGALDCWVF LSCLEVLQRIEGCCDRAQIDSNIAHTVGLWSYATEKLKSLGYLCGLVSEKGPNSEDLNRT VDLLAGLGAERPETANTAQSPYKKLKEALSSVEAFEKHYLTSSLLASDHHLTEEERKHFC QEILDFASQPSDSPX >gi568815577f:43859682_44082389|GENSCAN_predicted_CDS_5|1845_bp atggacgcctctgaggagccgctgccgccggtgatctacaccatggagaacaagcccatc gtcacctgtgctggagatcagaatttatttacctctgtttatccaacgctctctcagcag cttccaagagaaccaatggaatggagaagggtagaccctgaatccaatgacaagtgtcct tgtaagaggcagaagagaagacacagacacagggtagaagaccttgtgaagatggaggat accgaagtgtataaagctacagtaaaagatgacctcaccaagtggcagaatgttctgaag gctcatagctctgtggactggttaatagtgatagttgaaaatgatgccaagaaaaaaaac aaaaccaacatccttccccgaacctctattgtggacaaaataagaaatgatttttgtaat aaacagagtgacaggtgtgttgtgctctccgaccccttgaaggactcttctcgaactcag gaatcctggaatgccttcctgaccaaactcaggacattgcttcttatgtcttttaccaaa aacctaggcaagtttgaggatgacatgagaaccttgagggagaagaggactgagccaggc tggagcttttgtgaatatttcatggttcaggaggagcttgcctttgttttcgagatgctg cagcagttcgaggacgccctggtgcagtacgacgaactggacgccctcttctctcagtat gtggtcaacttcggggccggggatggtgccaactggctgacttttttctgccagccagtg aagagctggaacggattgatcctccgaaaacccatagatatggagaagcgggaatcgatc cagaggcgagaagccaccctgttagatctgcgcagttacctgttctctcgccagtgcacc ttgctgctcttcctgcagaggccgtgggaggtggcccagcgcgccctagagctgctgcac aactgcgtgcaggaactgaagctcttagaaggatgctggtgggagaagagtgctggcact gcctgtgttctgctgtggcgcctcagctctcggctgctgctgttccctgcggactcagtt cagcgcctggtcgcggagcggccctcgtgccctggctgctcttgcttctgcatccagcgt cctctgccgcggctccgctgctgtggctcctgggctttatctcccttctctgtggatgca tctttaccaaaagcactgtcctttatttgtgctcagggtgccttgcaagagttcttatgg gagtcagtttccccggcattggcagctcatcacctgttgactggtgatttgaagagcaca ggtgaacacatttcaccaaaactaggacacatcatgaagtcagtgccaccagagaaaaag tcagcattgccacttaaaagtgtctctgtcccacctggtgctctggactgctgggtgttt ctgagctgtctggaggtgttgcagaggatagaaggctgctgtgaccgggcacagatcgac tcaaacattgcccacactgtggggctatggagctatgccacagaaaagttaaagtccttg ggctatctatgtggacttgtgtcagagaaaggacctaactcagaagatctcaacaggaca gttgaccttttggcaggtttgggagctgagcgaccagaaacagccaacacagctcagagt ccttataagaaactgaaagaagcattatcgtcagtggaagcttttgaaaaacactactta accagcagcctcttagccagtgaccaccacctcactgaagaggagcgcaagcacttctgc caggagatacttgactttgccagccagccgtcagacagcccagnn