GENSCAN 1.0 Date run: 3-Nov-116 Time: 14:52:18 Sequence gi568815591r:102478861_102666930 : 188070 bp : 54.00% C+G : Isochore 3 (51 - 57 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.29 PlyA - 868 863 6 1.05 1.28 Term - 4853 4732 122 0 2 90 54 178 0.775 13.54 1.27 Intr - 5029 4965 65 0 2 104 100 60 0.995 7.65 1.26 Intr - 6299 6179 121 0 1 122 89 179 0.990 21.46 1.25 Intr - 9738 9603 136 0 1 110 75 243 0.999 25.85 1.24 Intr - 12263 12126 138 2 0 93 86 291 0.973 30.57 1.23 Intr - 14425 14256 170 2 2 79 98 224 0.998 22.68 1.22 Intr - 15109 14965 145 1 1 69 101 309 0.999 30.67 1.21 Intr - 15815 15678 138 2 0 84 86 287 0.999 29.27 1.20 Intr - 16213 16021 193 0 1 108 69 298 0.998 29.92 1.19 Intr - 16668 16418 251 0 2 26 72 375 0.654 26.47 1.18 Intr - 17344 17280 65 2 2 82 100 37 0.907 3.23 1.17 Intr - 17759 17609 151 2 1 74 53 320 0.971 27.35 1.16 Intr - 18104 17987 118 1 1 -16 94 174 0.313 8.57 1.15 Intr - 21933 21839 95 0 2 62 91 170 0.417 13.96 1.14 Intr - 22367 22236 132 2 0 106 61 178 0.999 18.25 1.13 Intr - 24384 24303 82 2 1 69 85 146 0.997 12.54 1.12 Intr - 27964 27835 130 2 1 37 94 149 0.895 10.66 1.11 Intr - 30800 30739 62 1 2 120 110 29 0.999 7.17 1.10 Intr - 31432 31319 114 0 0 87 109 150 0.999 17.07 1.09 Intr - 33121 32996 126 0 0 112 29 199 0.549 16.70 1.08 Intr - 38915 38786 130 0 1 45 58 175 0.076 10.46 1.07 Intr - 46401 46239 163 0 1 114 92 35 0.001 6.56 1.06 Intr - 60668 60545 124 1 1 77 53 48 0.011 1.29 1.05 Intr - 60866 60746 121 0 1 66 105 177 0.993 17.26 1.04 Intr - 61231 61155 77 0 2 76 97 147 0.998 14.05 1.03 Intr - 62443 62233 211 2 1 63 99 144 0.999 11.50 1.02 Intr - 62802 62641 162 1 0 123 76 181 0.994 20.86 1.01 Init - 66056 66008 49 2 1 86 58 68 0.534 2.65 1.00 Prom - 71984 71945 40 1.09 2.00 Prom + 73495 73534 40 -2.61 2.01 Init + 74396 74555 160 1 1 82 94 54 0.699 5.36 2.02 Intr + 75499 75717 219 2 0 39 54 189 0.468 9.40 2.03 Intr + 77040 77270 231 1 0 50 54 223 0.443 13.37 2.04 Intr + 78304 78362 59 2 2 86 116 26 0.746 4.29 2.05 Intr + 79607 79692 86 1 2 94 65 5 0.115 -2.08 2.06 Intr + 81740 82133 394 2 1 80 105 373 0.084 33.42 2.07 Term + 83196 83300 105 2 0 114 43 85 0.999 5.31 2.08 PlyA + 84467 84472 6 1.05 3.05 PlyA - 84480 84475 6 1.05 3.04 Term - 87876 87844 33 0 0 76 43 35 0.418 -4.33 3.03 Intr - 89324 89150 175 1 1 71 76 316 0.826 29.16 3.02 Intr - 91064 90975 90 1 0 122 97 92 0.999 13.11 3.01 Init - 93661 93612 50 1 2 82 100 94 0.976 10.37 3.00 Prom - 101392 101353 40 -0.51 4.29 PlyA - 101525 101520 6 1.05 4.28 Term - 104032 103911 122 2 2 90 54 178 0.725 13.54 4.27 Intr - 104208 104144 65 2 2 104 100 60 0.996 7.65 4.26 Intr - 105478 105358 121 2 1 122 89 179 0.990 21.46 4.25 Intr - 108910 108775 136 1 1 110 75 243 0.999 25.85 4.24 Intr - 111436 111299 138 1 0 93 86 291 0.973 30.57 4.23 Intr - 113594 113425 170 0 2 79 98 224 0.998 22.68 4.22 Intr - 114278 114134 145 2 1 69 101 308 0.999 30.57 4.21 Intr - 114984 114847 138 0 0 84 86 287 0.999 29.27 4.20 Intr - 115382 115190 193 1 1 108 69 298 0.998 29.92 4.19 Intr - 115837 115587 251 1 2 26 72 375 0.578 26.47 4.18 Intr - 116509 116445 65 2 2 82 100 23 0.803 1.83 4.17 Intr - 116924 116774 151 2 1 74 53 320 0.970 27.35 4.16 Intr - 117269 117152 118 1 1 -16 94 174 0.335 8.57 4.15 Intr - 121094 121000 95 2 2 62 91 170 0.446 13.96 4.14 Intr - 121528 121397 132 1 0 106 61 178 0.999 18.25 4.13 Intr - 123545 123464 82 1 1 69 85 146 0.997 12.54 4.12 Intr - 127127 126998 130 0 1 37 94 159 0.998 11.66 4.11 Intr - 129962 129901 62 1 2 120 110 29 0.999 7.17 4.10 Intr - 130594 130481 114 0 0 87 109 150 0.999 17.07 4.09 Intr - 132282 132157 126 2 0 112 29 199 0.549 16.70 4.08 Intr - 137894 137765 130 0 1 33 58 177 0.041 9.46 4.07 Intr - 145491 145329 163 0 1 114 92 35 0.001 6.56 4.06 Intr - 159776 159653 124 1 1 77 53 48 0.010 1.29 4.05 Intr - 159974 159854 121 0 1 66 105 177 0.993 17.26 4.04 Intr - 160339 160263 77 0 2 76 97 164 0.998 15.75 4.03 Intr - 161554 161344 211 2 1 63 99 144 0.999 11.50 4.02 Intr - 161913 161752 162 1 0 122 76 181 0.996 20.76 4.01 Init - 165149 165101 49 2 1 86 58 68 0.533 2.65 4.00 Prom - 171077 171038 40 1.09 5.00 Prom + 172588 172627 40 -2.61 5.01 Init + 173489 173648 160 1 1 82 94 54 0.694 5.36 5.02 Intr + 174591 174809 219 1 0 39 54 191 0.500 9.60 5.03 Intr + 176124 176354 231 1 0 50 54 223 0.502 13.37 5.04 Intr + 177388 177446 59 2 2 86 116 26 0.778 4.29 5.05 Intr + 178691 178776 86 1 2 94 65 5 0.086 -2.08 5.06 Intr + 180830 181223 394 2 1 80 105 373 0.063 33.42 5.07 Term + 182286 182390 105 2 0 114 43 85 0.999 5.31 5.08 PlyA + 183554 183559 6 1.05 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 38850 38786 65 0 2 102 58 161 0.916 15.07 S.002 Init + 46613 46752 140 1 2 53 72 149 0.900 9.39 S.003 Init + 81609 82133 525 2 0 82 105 427 0.858 36.71 S.004 Init - 137829 137765 65 0 2 102 58 161 0.952 15.07 S.005 Init + 145703 145842 140 1 2 53 72 149 0.903 9.39 S.006 Init + 180699 181223 525 2 0 82 105 427 0.892 36.71 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815591r:102478861_102666930|GENSCAN_predicted_peptide_1|1196_aa MGFRRVGQAGLELLTSAAPEHISYVPQLSNDTLAGRLTLSTFTLEQPLGQFSSHNISDLD TIWLVVALSNATQSFTAPRTNQDIPAPANFSQRGYYLTLRANRVLYQTRGQLHVLRVGND THCQPTKIGCNHPLPGPGPYRVKFLVMNDEGPVAETKWSSDTRLQQAQALRAVPGPQSPG TVVIIAILSILLAVLLTVLLAVLIYTCSSPPAPAHLPSGHCAPPGGSIWDCKWVPPADTP VGEAPKEEPQLFSFKPSSGAASSRKPPGTISSLSGSSVSLVAPRVYSRDLDPRLWTPGFG LAVQRPPPATPDPGVWLPPSRHPAMAKRSSLYIRIVEGKNLPAKDITGSSDPYCIVKVDN EPIIRYRPHPQDRGALSLSSARALPAKGTATVWKTLCPFWGEEYQVHLPPTFHAVAFYVM DEDALSRDDVIGKVCLTRDTIASHPKGFSGWAHLTEVDPDEEVQGEIHLRLEVWPGARAC RLRCSVLEARDLAPKDRNGTSDPFVRVRYKGRTRETSIVKKSCYPRWNETFEFELQEGAM EALCVEAWDWDLVSRNDFLGKVVIDVQRLRVVQQEEGWFRLQPDQSKSRRHDEGNLGSLQ LEVRLRDETVLPSSYYQPLVHLLCHEVKLGMQGPGQLIPLIEETTSTECRQDVATNLLKL FLGQGLAKDFLDLLFQLELSRTSETNTLFRSNSLASKSVESFLKFALHVYLAPSWADTAG KRCKGGCREKVGSWSGTGGDRINVTCGGPQVAGMQYLHGVLGPIINKVFEEKKYVELDPS KVEVKDVGCSGLHRPQTEAEVLEQSAQTLRAHLGALLSALSRSVRACPAVVRATFRQLFR RVRERFPGAQHENVPFIAVTSFLCLRFFSPAIMSPKLFHLRERHADARTSRTLLLLAKAV QNVGNMDTPASRAKEAWMEPLQPTVHQGVAQLKDFITKLVDIEEKDELDLQRTLSLQAPP VKEGPLFIHRTKGKGPLMSSSFKKLYFSLTTEALSFAKTPSSKKSALIKLANIRAAEKVE EKSFGGSHVMQVIYTDDAGRPQTAYLQCKCVNELNQWLSALRKVSINNTGLLGSYHPGVF RGDKWSCCHQKEKTGQGCDKTRSRVTLQEWNDPLDHDLEAQLIYRHLLGVEAMLWERHRE LSGGAEAGTVPTSPGKVPEDSLARLLRVLQDLREAHSSSPAGSPPSEPNCLLELQT >gi568815591r:102478861_102666930|GENSCAN_predicted_CDS_1|3591_bp atggggtttcgccgtgttggccaggctggtctcgaactcctgacctcagctgccccagag cacatcagctatgtgccccagctctcaaacgacaccttggcggggaggctcaccctgtcc accttcacgctggagcagcctctaggccagttcagcagccacaacatctctgacttggat accatctggctggtggtggccctcagcaacgccacccagagcttcacggccccacggaca aaccaggacatccctgctcctgccaacttctcccagaggggctactatctcacactgagg gccaaccgggtgctgtaccagaccagaggccagctccatgtcctccgcgtcggcaatgat acccactgccaaccaacaaaaattggctgcaaccatcccctaccaggacccggcccctac agggtgaagttcctggtgatgaatgacgaaggacccgtggctgaaacaaagtggtccagc gacactcgcctgcagcaagcccaggcacttcgggctgtccccggcccccagagcccgggc accgtggtcatcatcgccatcctgtctatcctcctggccgtcctcctcacggtcctcctg gctgtgctcatatacacctgttcctccccgcccgcccctgcccaccttccaagcgggcac tgtgcaccccctggtggcagcatctgggattgcaagtgggtgccgcctgcggacacccca gtcggggaggcgcccaaggaggagccccagctcttctccttcaagcccagctcaggtgcc gcctcttccaggaagccccctgggaccatctccagtctcagtgggagcagtgtgtccttg gttgctcccagagtctatagcagagatctggacccaagactctggactcccggctttggg ctggcagtccagcgcccgccgcccgccaccccggaccccggtgtctggcttcccccgagc cggcaccccgcgatggccaagcgcagctcgctgtacatccgcatcgtggaggggaagaac cttcccgccaaggacatcactggcagcagcgacccctactgcatcgtgaaggtggacaat gagcccatcatcaggtaccgcccccacccccaggaccgaggggcgctcagcctctcatcg gcccgcgctctccccgcaaaggggacagccacagtgtggaagaccctgtgccccttctgg ggtgaggagtaccaagtgcacctgccgcccaccttccacgctgtggctttctatgtcatg gatgaggatgccctcagccgggacgacgttatcggaaaggtctgccttacaagggacacc atagcctctcaccctaagggtttcagcgggtgggcccacctgacagaggtcgaccccgac gaggaggtgcagggcgagatccacctgcggctggaagtgtggccaggggcccgggcctgc cggctacgctgctctgtgctggaggccagggatctggccccaaaggaccgcaatggcaca tctgaccccttcgtccgagtgcgctacaagggccggacacgggagacctcgatcgtgaag aagtcatgctacccacgctggaatgagacgtttgaatttgagctgcaggagggggccatg gaggcgctgtgcgtggaggcctgggactgggaccttgtcagccgaaacgacttcctgggc aaagtggtgattgatgtccagagactgcgggtggtgcagcaggaggagggctggttccgg ctgcagcccgaccagtccaagagccggcggcatgacgagggcaacctgggctccttgcag ctggaggtgcggctgcgggacgagacggtgctgccctccagctactaccagccactggtg cacctgctgtgccacgaggtcaagctgggcatgcagggcccagggcagctgatcccactc atcgaggagacaaccagcaccgagtgtcgccaggacgtggccacgaacctgctcaagctc ttcctggggcaggggctggccaaggacttcctggacctgctcttccagctggagctgagt cgcaccagtgagaccaacaccctgttccggagcaactctctggcctcaaagtccgtggag tcttttctgaagtttgccctgcatgtgtacctggccccctcctgggcggatacggcaggc aaacggtgcaagggcggctgccgggagaaggtgggcagctggagtgggactgggggagac aggatcaatgtgacctgcggtggtccccaggtggccgggatgcagtacctgcacggcgtc ctgggccccatcatcaacaaggtgtttgaggagaagaagtacgtggagctggaccccagc aaagtggaagttaaggatgtagggtgctccgggctgcaccgcccgcagaccgaggccgag gtgctggagcagagcgcgcagacgctgcgcgcccacctgggggccctgctgagcgcgctc agccgctcggttcgcgcgtgccccgccgtggtgcgcgccaccttccgccagctcttccgg cgcgtgcgcgagcgcttccccggcgcccagcacgagaatgtaccgttcatcgccgtcacc agcttcctgtgcctgcgcttcttctctcccgccatcatgtcgcccaagctcttccacctg cgggagcgccacgcggacgcccgcaccagccgcaccctgctcctgttggccaaggcagtc cagaacgtgggcaacatggacacgccggcttccagggccaaggaggcttggatggagccg ctgcagcccaccgtgcaccagggcgtggcgcagctgaaggacttcatcaccaagctcgtg gacatcgaggagaaggacgagctggacctgcagcggacgctgagtttgcaggcgccacct gtgaaggaggggccactcttcatccacaggaccaagggcaagggccccctcatgtcctcc tccttcaagaagctctacttctccctcactaccgaggccctcagcttcgcgaagacgccc agctccaagaaaagcgccctcatcaagttagccaacatccgggcagcggaaaaggttgag gaaaagagctttggcggctcgcacgtcatgcaggtcatctacacggacgacgccggcagg ccccagactgcctacctgcagtgcaagtgtgtgaatgagcttaaccagtggctgtctgcg ctgcggaaggtgagcatcaacaacaccggactgctgggctcctaccaccctggcgtcttc cgtggggacaagtggagctgctgccaccaaaaagagaagacaggtcagggctgcgataag acccggtcacgggtgaccctgcaggagtggaatgaccctcttgaccatgaccttgaggcc cagctcatctaccggcacctgctgggcgtggaggccatgctgtgggagaggcaccgggag ctgagcgggggcgcagaggcaggcacggtgcccacgagccctggcaaagtccccgaggac tcattggcccggctgctccgggtgctgcaggacctccgcgaggcccatagctccagcccg gccggctccccaccctcagagcccaactgcctcctggagctgcagacgtga >gi568815591r:102478861_102666930|GENSCAN_predicted_peptide_2|417_aa MDRTETRFRKRGQITGKITTSRQPHPQNEQSPQRSTSGYPLQEVVDDEMLGPSAPGVDPS PPCRSLGWKRKREWSDESEEEPEKELAPEPEETWVVEMLCGLKMKLKQQRVSPILPEHHK DFNSQLAPGVDPSPPHRSFCWKRKMEWWDESEESLEEEPRKVLAPEPEEIWVAEMLCGLK MKLKRRRVSLVLPEHHEAFNRLLEDPVIKRFLAWDKDLRVSDKYLLAMVIAYFSRAGFPS WQYQRIHFFLALYLANDMEEDDEDSKQNIFHFLYRKNRSRIPLLRKPWFQLGHSMNPRAR KNRSRIPLLRKRRFQLYRSTNPRARKNRSRIPLLRKRRFQLYRSMNSRARKNRSQIVLFQ KRRFHFFCSMSCRAWVSPEELEENTGPRGDVDFQRELYSNANGRHQAGGEEPFVQII >gi568815591r:102478861_102666930|GENSCAN_predicted_CDS_2|1254_bp atggacagaacggagactaggttccgtaagaggggacagattacgggaaagatcacgacc agccgtcaaccgcacccccagaatgagcagagtccccagcggagcacctcggggtacccc ctccaggaggtggtggatgatgaaatgttgggaccatcagcccctggggtagatcccagc cccccatgtaggtcccttggctggaaaaggaagagggagtggtcagatgaatctgaggag gagccggagaaggagctcgcccctgagcctgaggagacctgggtagtggagatgctgtgt gggctcaagatgaagctgaagcaacagcgagtgtcacccatcctccctgagcaccacaag gacttcaacagtcagcttgcccctggggtagatcccagccccccgcataggtccttttgc tggaaaaggaagatggagtggtgggacgaatctgaggagtcgttggaggaggagccacgg aaggtgctcgcccctgagcctgaggagatctgggtggcggagatgctgtgtggcctcaag atgaagctgaagcgacggcgagtgtcgctcgtgctccctgagcaccacgaggccttcaac aggctgcttgaggatcctgtcattaaaagattcttggcctgggacaaagatctgagggtg tcggacaagtatctcctggctatggtcatagcgtatttcagccgggccggcttcccctcc tggcaataccaacgcattcatttcttcctggctctctacctggccaatgacatggaggag gacgacgaggactccaaacaaaacatcttccacttcctgtataggaagaaccgctctcgc atacccttgctccgtaagccttggttccagttaggccattccatgaacccgagggccagg aagaaccgctctcgcatacccttgctccgtaagcgtcggttccagttataccgttccacg aacccgagggccaggaagaaccgctctcgcatacccttgctccgtaagcgtcggttccag ttataccgttccatgaactcgagggccaggaagaaccgctctcagatagtcctgttccag aaacgacggttccacttcttctgttccatgagctgcagggcttgggtttccccagaggag ttggaggagaacaccggacccaggggagatgtggattttcagcgggaactttattccaat gctaatggcagacaccaggcaggaggagaggaaccatttgtgcagatcatctag >gi568815591r:102478861_102666930|GENSCAN_predicted_peptide_3|115_aa MNAPPAFESFLLFEGEKITINKDTKVPNACLFTINKEDHTLGNIIKSQLLKDPQVLFAGY KVPHPLEHKIIIRVQTTPDYSPQEAFTNAITDLISELSLLEERFRSGMEKPLCNW >gi568815591r:102478861_102666930|GENSCAN_predicted_CDS_3|348_bp atgaacgcccctccagccttcgagtcgttcttgctcttcgagggcgagaagatcaccatt aacaaggacaccaaggtacccaatgcctgtttattcaccatcaacaaagaagaccacaca ctgggaaacatcattaaatcacaactcctaaaagacccgcaagtgctatttgctggctac aaagtcccccaccccttggagcacaagatcatcatccgagtgcagaccacgccggactac agcccccaggaagcctttaccaacgccatcaccgacctcatcagtgagctgtccctgctg gaggagcgcttccggtctggcatggaaaagcccctgtgcaactggtaa >gi568815591r:102478861_102666930|GENSCAN_predicted_peptide_4|1196_aa MGFRRVGQAGLELLTSAAPEHISYVPQLSNDTLAGRLTLSTFTLEQPLGQFSSHNISDLD TIWLVVALSNATQSFTAPRTNQDIPAPANFSQRGYYLTLRANRVLYQTRGQLHVLRVGND THCQPTKIGCNHPLPGPGPYRVKFLVMNDEGPVAETKWSSDTRLQQAQALRAVPGPQSPG TVVIIAILSILLAVLLTVLLAVLIYTCSSPPAPAHLPSGHCAPPGGSIWDCKWVPPADTP VGEAPKEEPQLFSFKPSSGAASSRKPPGTISSLSGSSVSLVAPRVYSRDLDPRLWTPGFG LAVQRPPPATPDPGVWLPPSRDPAMAKRSSLYIRIVEGKNLPAKDITGSSDPYCIVKVDN EPIIRYRPHPQDRGALSLSSARALPAKGTATVWKTLCPFWGEEYQVHLPPTFHAVAFYVM DEDALSRDDVIGKVCLTRDTIASHPKGFSGWAHLTEVDPDEEVQGEIHLRLEVWPGARAC RLRCSVLEARDLAPKDRNGTSDPFVRVRYKGRTRETSIVKKSCYPRWNETFEFELQEGAM EALCVEAWDWDLVSRNDFLGKVVIDVQRLRVVQQEEGWFRLQPDQSKSRRHDEGNLGSLQ LEVRLRDETVLPSSYYQPLVHLLCHEVKLGMQGPGQLIPLIEETTSTECRQDVATNLLKL FLGQGLAKDFLDLLFQLELSRTSETNTLFRSNSLASKSMESFLKFALHVYLAPSWADTAG KRCKGGCREKVGSWSGTGGDRINVTCGGPQVAGMQYLHGVLGPIINKVFEEKKYVELDPS KVEVKDVGCSGLHRPQTEAEVLEQSAQTLRAHLGALLSALSRSVRACPAVVRATFRQLFR RVRERFPGAQHENVPFIAVTSFLCLRFFSPAIMSPKLFHLRERHADARTSRTLLLLAKAV QNVGNMDTPASRAKEAWMEPLQPTVRQGVAQLKDFITKLVDIEEKDELDLQRTLSLQAPP VKEGPLFIHRTKGKGPLMSSSFKKLYFSLTTEALSFAKTPSSKKSALIKLANIRAAEKVE EKSFGGSHVMQVIYTDDAGRPQTAYLQCKCVNELNQWLSALRKVSINNTGLLGSYHPGVF RGDKWSCCHQKEKTGQGCDKTRSRVTLQEWNDPLDHDLEAQLIYRHLLGVEAMLWERHRE LSGGAEAGTVPTSPGKVPEDSLARLLRVLQDLREAHSSSPAGSPPSEPNCLLELQT >gi568815591r:102478861_102666930|GENSCAN_predicted_CDS_4|3591_bp atggggtttcgccgtgttggccaggctggtctcgaactcctgacctcagctgccccagag cacatcagctatgtgccccagctctcaaacgacaccttggcggggaggctcaccctgtcc accttcacgctggagcagcctctaggccagttcagcagccacaacatctctgacttggat accatctggctggtggtggccctcagcaacgccacccagagcttcacggccccacggaca aaccaggacatccctgctcctgccaacttctcccagaggggctactatctcacactgagg gccaaccgggtgctgtaccagaccagaggccagctccatgtcctccgcgtcggcaatgat acccactgccaaccaacaaaaattggctgcaaccatcccctaccaggacccggcccctac agggtgaagttcctggtgatgaatgacgaaggacccgtggctgaaaccaagtggtccagc gacactcgcctgcagcaagcccaggcacttcgggctgtccccggcccccagagcccgggc accgtggtcatcatcgccatcctgtctatcctcctggccgtcctcctcacggtcctcctg gctgtgctcatatacacctgttcctccccgcccgcccctgcccaccttccaagcgggcac tgtgcaccccctggtggcagcatctgggattgcaagtgggtgccgcctgcggacacccca gtcggggaggcgcccaaggaggagccccagctcttctccttcaagcccagctcaggtgcc gcctcttccaggaagccccctgggaccatctccagtctcagtgggagcagtgtgtccttg gttgctcccagagtctatagcagagatctggacccaagactctggactcccggctttggg ctggcagtccagcgcccgccgcccgccaccccggaccccggtgtctggcttcccccgagc cgggaccccgcgatggccaagcgcagctcgctgtacatccgcatcgtggaggggaagaac cttcccgccaaggacatcactggcagcagcgacccctactgcatcgtgaaggtggacaat gagcccatcatcaggtaccgcccccacccccaggaccgaggggcgctcagcctctcatcg gcccgcgctctccccgcaaaggggacagccacagtgtggaagaccctgtgccccttctgg ggtgaggagtaccaagtgcacctgccgcccaccttccacgctgtggctttctatgtcatg gatgaggatgccctcagccgggacgacgttatcggaaaggtctgccttacaagggacacc atagcctctcaccctaagggtttcagcgggtgggcccacctgacggaggtcgaccccgat gaggaggtgcagggcgagatccacctgcggctggaagtgtggccaggggcccgggcctgc cggctacgctgctctgtgctggaggccagggatctggccccaaaggaccgcaatggcaca tctgaccccttcgtccgagtgcgctacaagggccggacacgggagacctcgatcgtgaag aagtcatgctacccacgctggaatgagacgtttgaatttgagctgcaggagggggccatg gaggcgctgtgcgtggaggcctgggactgggaccttgtcagccgaaacgacttcctgggc aaagtggtgattgatgtccagagactgcgggtggtgcagcaggaggagggctggttccgg ctgcagcccgaccagtccaagagccggcggcatgacgagggcaacctgggctccttgcag ctggaggtgcggctgcgggacgagacggtgctgccctccagctactaccagccactggtg cacctgctgtgccacgaggtcaagctgggcatgcagggcccagggcagctgatcccactc atcgaggagacaaccagcaccgagtgtcgccaggacgtggccacgaacctgctcaagctc ttcctggggcaggggctggccaaggacttcctggacctgctcttccagctggagctgagt cgcaccagtgagaccaacaccctgttccggagcaactctctggcctcaaagtccatggag tcttttctgaagtttgccctgcatgtgtacctggccccctcctgggcggatacggcaggc aaacggtgcaagggcggctgccgggagaaggtgggcagctggagtgggactgggggagac aggatcaatgtgacctgcggtggtccccaggtggccgggatgcagtacctgcacggcgtc ctgggccccatcatcaacaaggtgtttgaggagaagaagtacgtggagctggaccccagc aaagtggaagttaaggatgtagggtgctccgggctgcaccgcccgcagaccgaggccgag gtgctggagcagagcgcgcagacgctgcgcgcccacctgggggccctgctgagcgcgctc agccgctcggttcgcgcgtgccccgccgtggtgcgcgccaccttccgccagctcttccgg cgcgtgcgcgagcgcttccccggcgcccagcacgagaatgtaccgttcatcgccgtcacc agcttcctgtgcctgcgcttcttctctcccgccatcatgtcgcccaagctcttccacctg cgggagcgccacgcggacgcccgcaccagccgcaccctgctcctgttggccaaggcagtc cagaacgtgggcaacatggacacgccggcttccagggccaaggaggcttggatggagccg ctgcagcccaccgtgcgccagggcgtggcgcagctgaaggacttcatcaccaagctcgtg gacatcgaggagaaggacgagctggacctgcagcggacgctgagtttgcaggcgccacct gtgaaggaggggccactcttcatccacaggaccaagggcaagggccccctcatgtcctcc tccttcaagaagctctacttctccctcactaccgaggccctcagcttcgcgaagacgccc agctccaagaaaagcgccctcatcaagttagccaacatccgggcagcggaaaaggttgag gaaaagagctttggcggctcgcacgtcatgcaggtcatctacacggacgacgccggcagg ccccagactgcctacctgcagtgcaagtgtgtgaatgagcttaaccagtggctgtctgcg ctgcggaaggtgagcatcaacaacaccggactgctgggctcctaccaccctggcgtcttc cgtggggacaagtggagctgctgccaccaaaaagagaagacaggtcagggctgcgataag acccggtcacgggtgaccctgcaggagtggaatgaccctcttgaccatgaccttgaggcc cagctcatctaccggcacctgctgggcgtggaggccatgctgtgggagaggcaccgggag ctgagcgggggcgcagaggcaggcacggtgcccacgagccctggcaaagtccccgaggac tcattggcccggctgctccgggtgctgcaggacctccgcgaggcccatagctccagcccg gccggctccccaccctcagagcccaactgcctcctggagctgcagacgtga >gi568815591r:102478861_102666930|GENSCAN_predicted_peptide_5|417_aa MDRTETRFRKRGQITGKITTSRQPHPQNEQSPQRSTSGYPLQEVVDDEMLGPSAPGVDPS PPCRSLGWKRKREWSDESEEEPEKELAPEPEETWVVEMLCGLKMKLKQQRVSSILPEHHK DFNSQLAPGVDPSPPHRSFCWKRKMEWWDESEESLEEEPRKVLAPEPEEIWVAEMLCGLK MKLKRRRVSLVLPEHHEAFNRLLEDPVIKRFLAWDKDLRVSDKYLLAMVIAYFSRAGFPS WQYQRIHFFLALYLANDMEEDDEDSKQNIFHFLYRKNRSRIPLLRKPWFQLGHSMNPRAR KNRSRIPLLRKRRFQLYRSTNPRARKNRSRIPLLRKRRFQLYRSMNSRARKNRSQIVLFQ KRRFHFFCSMSCRAWVSPEELEENTGPRGDVDFQRELYSNANGRHQAGGEEPFVQII >gi568815591r:102478861_102666930|GENSCAN_predicted_CDS_5|1254_bp atggacagaacggagactaggttccgtaagaggggacagattacgggaaagatcacgacc agccgtcaaccgcacccccagaatgagcagagtccccagcggagcacctcggggtacccc ctccaggaggtggtggatgatgaaatgttgggaccatcagcccctggggtagatcccagc cccccatgtaggtcccttggctggaaaaggaagagggagtggtcagatgaatctgaggag gagccggagaaggagctcgcccctgagcctgaggagacctgggtagtggagatgctgtgt gggctcaagatgaagctgaagcaacagcgagtgtcatccatcctccctgagcaccacaag gacttcaacagtcagcttgcccctggggtagatcccagccccccgcataggtccttttgc tggaaaaggaagatggagtggtgggacgaatctgaggagtcgttggaggaggagccacgg aaggtgctcgcccctgagcctgaggagatctgggtggcggagatgctgtgtggcctcaag atgaagctgaagcgacggcgagtgtcgctcgtgctccctgagcaccacgaggccttcaac aggctgcttgaggatcctgtcattaaaagattcttggcctgggacaaagatctgagggtg tcggacaagtatctcctggctatggtcatagcgtatttcagccgggccggcttcccctcc tggcaataccaacgcattcatttcttcctggctctctacctggccaatgacatggaggag gacgacgaggactccaaacaaaacatcttccacttcctgtataggaagaaccgctctcgc atacccttgctccgtaagccttggttccagttaggccattccatgaacccgagggccagg aagaaccgctctcgcatacccttgctccgtaagcgtcggttccagttataccgttccacg aacccgagggccaggaagaaccgctctcgcatacccttgctccgtaagcgtcggttccag ttataccgttccatgaactcgagggccaggaagaaccgctctcagatagtcctgttccag aaacgacggttccacttcttctgttccatgagctgcagggcttgggtttccccagaggag ttggaggagaacaccggacccaggggagatgtggattttcagcgggaactttattccaat gctaatggcagacaccaggcaggaggagaggaaccatttgtgcagatcatctag