Result of GENSCAN for
pF1KE5548
GENSCAN 1.0 Date run: 8-Nov-116 Time: 01:43:04 Sequence gi568815579f:17930827_18132026 : 201200 bp : 53.62% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 5595 5753 159 2 0 58 100 324 0.987 30.39 1.02 Intr + 11830 12019 190 0 1 120 52 351 0.978 34.38 1.03 Intr + 12435 12549 115 1 1 43 97 266 0.998 23.01 1.04 Intr + 12682 12885 204 1 0 78 63 384 0.574 33.74 1.05 Intr + 18148 18395 248 1 2 91 56 94 0.368 4.14 1.06 Intr + 19296 19451 156 1 0 63 60 49 0.460 0.09 1.07 Intr + 21475 21512 38 2 2 88 117 34 0.874 4.77 1.08 Intr + 22517 22601 85 1 1 31 85 69 0.701 0.79 1.09 Intr + 23735 23855 121 0 1 91 96 48 0.324 5.96 1.10 Intr + 40470 40611 142 0 1 75 93 -20 0.074 -1.94 1.11 Intr + 42982 43464 483 0 0 148 102 645 0.991 65.71 1.12 Intr + 44266 44361 96 0 0 101 82 68 0.930 8.21 1.13 Intr + 50883 51301 419 2 2 98 64 1052 0.942 97.19 1.14 Intr + 54486 54627 142 0 1 117 91 229 0.831 26.96 1.15 Intr + 57589 57699 111 0 0 82 76 191 0.998 18.38 1.16 Intr + 58890 59017 128 2 2 81 89 112 0.997 10.58 1.17 Intr + 62664 62733 70 0 1 121 113 111 0.991 16.58 1.18 Term + 67326 67580 255 2 0 145 49 230 0.723 20.72 1.19 PlyA + 67862 67867 6 1.05 2.00 Prom + 70193 70232 40 -4.71 2.01 Init + 70489 70747 259 0 1 88 78 571 0.161 51.39 2.02 Intr + 71776 71816 41 2 2 77 80 18 0.100 -1.67 2.03 Intr + 76903 77016 114 0 0 77 105 40 0.972 5.75 2.04 Intr + 77230 77361 132 0 0 65 85 53 0.933 4.05 2.05 Intr + 77410 77951 542 0 2 -11 105 542 0.777 38.30 2.06 Intr + 78145 78292 148 1 1 96 105 230 0.997 26.25 2.07 Intr + 78766 78868 103 0 1 71 69 111 0.986 7.75 2.08 Intr + 78957 79213 257 1 2 61 97 325 0.935 28.40 2.09 Intr + 79370 79532 163 1 1 108 98 236 0.985 26.66 2.10 Intr + 79746 79903 158 1 2 124 83 222 0.520 25.54 2.11 Term + 100304 100789 486 1 0 50 53 493 0.011 37.09 2.12 PlyA + 101250 101255 6 1.05 3.00 Prom + 102695 102734 40 -1.01 3.01 Sngl + 109650 109985 336 2 0 100 48 179 0.895 11.46 3.02 PlyA + 110288 110293 6 1.05 4.04 PlyA - 111009 111004 6 1.05 4.03 Term - 114396 114268 129 0 0 116 53 15 0.035 -0.71 4.02 Intr - 115751 115551 201 2 0 133 117 24 0.046 9.80 4.01 Init - 118235 118140 96 2 0 106 16 97 0.002 4.57 4.00 Prom - 118836 118797 40 -2.71 5.19 PlyA - 126415 126410 6 1.05 5.18 Term - 128116 128053 64 0 1 98 38 83 0.943 1.95 5.17 Intr - 129259 129081 179 1 2 97 56 221 0.733 19.03 5.16 Intr - 130371 130296 76 2 1 145 94 43 0.999 10.61 5.15 Intr - 131451 131355 97 1 1 67 93 111 0.993 9.07 5.14 Intr - 133184 133050 135 0 0 74 109 160 0.996 17.75 5.13 Intr - 135871 135716 156 2 0 46 98 145 0.942 11.79 5.12 Intr - 137700 137563 138 1 0 79 115 99 0.970 12.64 5.11 Intr - 138887 138720 168 0 0 110 30 84 0.879 5.23 5.10 Intr - 141523 141286 238 1 1 61 51 233 0.464 14.62 5.09 Intr - 142794 142691 104 1 2 60 97 61 0.802 4.59 5.08 Intr - 145042 144923 120 2 0 106 99 92 0.982 13.07 5.07 Intr - 145501 145324 178 1 1 61 75 100 0.852 6.01 5.06 Intr - 146829 146690 140 1 2 90 97 187 0.999 20.49 5.05 Intr - 150175 150006 170 0 2 106 71 140 0.995 14.21 5.04 Intr - 151450 151324 127 2 1 37 73 83 0.771 1.94 5.03 Intr - 152707 152606 102 2 0 71 52 53 0.383 0.65 5.02 Intr - 156106 155934 173 0 2 120 101 98 0.967 14.40 5.01 Init - 156997 156990 8 1 2 103 66 11 0.979 0.05 5.00 Prom - 164506 164467 40 -0.11 6.00 Prom + 164868 164907 40 -7.50 6.01 Init + 166893 167005 113 2 2 39 94 196 0.611 12.94 6.02 Intr + 172062 172114 53 0 2 67 81 31 0.073 -0.66 6.03 Intr + 173667 173788 122 1 2 67 32 92 0.276 2.22 6.04 Intr + 176761 176792 32 0 2 92 92 8 0.278 -0.99 6.05 Intr + 179176 179287 112 1 1 45 80 56 0.351 1.38 6.06 Intr + 179631 179795 165 2 0 78 25 160 0.435 9.37 6.07 Intr + 187229 187428 200 1 2 95 75 135 0.457 11.57 6.08 Intr + 190859 190947 89 2 2 144 100 59 0.999 12.81 6.09 Intr + 191024 191096 73 0 1 113 105 59 0.909 9.06 6.10 Intr + 192345 192548 204 0 0 51 80 139 0.766 8.24 6.11 Intr + 192754 192829 76 1 1 70 86 112 0.998 9.21 6.12 Intr + 193113 193322 210 2 0 88 38 397 0.900 34.33 6.13 Intr + 193439 193540 102 1 0 74 119 181 0.999 20.67 6.14 Intr + 193816 193948 133 0 1 93 98 135 0.999 15.72 6.15 Intr + 197574 197632 59 1 2 102 105 1 0.725 2.29 6.16 Intr + 198040 198125 86 0 2 73 92 92 0.920 7.22 6.17 Intr + 199668 199876 209 0 2 79 107 388 0.999 39.05 6.18 Intr + 201083 201159 77 0 2 110 -7 170 0.564 9.43 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 1840 1897 58 0 1 68 41 170 0.828 9.72 S.002 Sngl + 100262 100789 528 1 0 96 53 505 0.889 44.23 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815579f:17930827_18132026|GENSCAN_predicted_peptide_1|1053_aa MPKKFQGENTKSAAARARRAEAKAAADAKKQKELEDAYWKDDDKHVMRKEQRKEEKEKRR LDQLERKKETQRLLEEEDSKLKGGKAPRVATSSKVTRAQIEDTLRRDHQLREAPDTAEKA KSHLEVPLEENVNRRVLEEGSVEARTIEDAIAVLSVAEEAADRHPERRMRAAFTAFEEAQ LPRLKQENPNMRLSQLKQLLKKEWLRSPDNPMNQRAVPFNAPNPNLGYCRSPPPPNLHTI CPYPFRKLCGPSRKTPLSPACLAPHSPACGVYPRAPSSPPPAICRPPGLEQQPEVESGLG RGKRKGAERGEDERASKFTPGLEGSENSKPGRRAQRRGDSREEATLDGALKSPVGTGGRR DSGCGGRLRPARVSTKSPWLEQVAPEPSKVTIAPIPGPDLKGTGKAAAATLSPSQVVTSR TEGDSPFAVARRGDPCTLGPGTWGTPSACCCDHFKGDNTWPPPTPAQLVGKISQRSRVRN LPCKEKVSAGAQPLSHAGPRAACSEPNPCTQVVMNSHSYNGSVGRPLGSGPGALGRDPPD PEAGHPPQPPHSPGLQVVVAKSEPARPSPGSPRGQPQDQDDDEDDEEDEAGRQRASGKPS NVGHRLGHRRALFEKRKRLSDYALIFGMFGIVVMVTETELSWGVYTKESLYSFALKCLIS LSTAILLGLVVLYHAREIQLFMVDNGADDWRIAMTCERVFLISLELAVCAIHPVPGHYRF TWTARLAFTYAPSVAEADVDVLLSIPMFLRLYLLGRVMLLHSKIFTDASSRSIGALNKIT FNTRFVMKTLMTICPGTVLLVFSISSWIIAAWTVRVCERYHDKQEVTSNFLGAMWLISIT FLSIGYGDMVPHTYCGKGVCLLTGIMGAGCTALVVAVVARKLELTKAEKHVHNFMMDTQL TKRVKNAAANVLRETWLIYKHTRLVKKPDQARVRKHQRKFLQAIHQLRSVKIEQGKLNDQ ANTLTDLAKTQTVMYDLVSELHAQHEELEARLATLESRLDALGASLQALPGLIAQAIRPP PPPLPPRPGPGPQDQAARSSPCRWTPVAPSDCG >gi568815579f:17930827_18132026|GENSCAN_predicted_CDS_1|3162_bp atgcccaagaagttccagggtgagaacaccaagtcggcagcggcccgggcacgtagggca gaggccaaggcggccgctgatgccaagaagcagaaggagctggaggatgcctactggaag gacgacgacaaacacgtcatgaggaaggagcagcgcaaggaggagaaggagaagcggcgc ctcgaccagctggaacgtaagaaggagacgcagcgcctactggaggaggaggactccaag ctcaagggcggcaaggcgccgcgggtggccacgtccagcaaggtcacccgggcccagatc gaggacacgctgcgccgagaccatcagctcagggaggccccggacacagccgagaaagcc aagagccatctggaggtgccgctggaggagaacgtgaaccgccgcgtgctggaggagggc agcgtggaggcgcgcaccatcgaggacgccattgcagtgctcagcgtggcggaggaggcg gccgaccggcacccagaaagacgcatgcgggcagccttcacagcctttgaggaagcccag ctgccgcggctcaaacaagagaaccccaacatgcggctgtcgcagctgaaacagctgctc aagaaggagtggctccgctctcctgacaaccccatgaaccagcgggccgtgcccttcaat gcccccaaccctaatctgggctattgtcgttcccccccaccccccaatttacacaccatc tgtccctatccttttcgaaagctgtgcggaccctcgcggaagacgcctttgtctcccgcc tgcctagcgccccacagcccggcatgtggggtgtacccccgggccccgtcatcccctccc ccagccatctgccgtcctcctggccttgaacaacagcctgaagtcgagtccgggctaggc aggggaaagcgcaaaggggcggagagaggagaagatgaaagagcaagcaagttcacacca gggcttgagggcagtgagaacagtaaaccagggcgacgtgcccagagaaggggcgactct agggaagaggcgaccttggatggagccctgaagagccctgtgggaacaggggggcgcagg gactccggctgcggcggccgactccggccggctagggtcagcaccaagtccccctggctg gaacaggtggcccctgagccatccaaggtgaccattgccccgatcccaggtcctgatctc aaagggacaggaaaggcagcagcagccaccctctctcccagtcaagtggtcaccagcagg actgaaggggacagcccctttgcagtggctcggcgaggagacccctgcaccctagggcct ggcacatgggggacccctagtgcatgctgttgtgaccatttcaaaggggataacacttgg cctccacccacccctgcccagcttgttgggaaaatctcacaaaggagccgggtccggaat cttccctgcaaggagaaggtcagtgcaggagcccagccgctgagccatgccgggccccgg gcggcctgcagcgagcccaacccctgcacccaggtagtcatgaacagccacagctacaat ggcagcgtggggcggccgctgggcagcgggccgggcgccctgggacgagaccctccggac cctgaggccggccaccccccacaacccccgcacagcccgggcctccaggtggtagtggcc aagagtgagccagcccggccctcacccggcagcccccgggggcagccccaggaccaggac gatgacgaggatgatgaggaagatgaggccggcaggcagagagcctcggggaaaccctca aatgtgggccaccgcctgggccaccggcgggcgctcttcgagaagcggaagcgcctcagc gactatgccctcattttcggcatgtttggcatcgtcgtcatggtgacggagaccgagctg tcctggggggtgtacaccaaggagtctctgtactcattcgcactcaaatgcctcatcagc ctctccacggccatcctgctgggtctcgttgtcctctaccatgcccgggagatccagctg ttcatggtggacaacggggctgatgactggcgcatcgccatgacctgcgagcgcgtgttc ctcatctcgctagagctggcagtgtgcgccattcacccggtgcccggccactaccgcttc acgtggacggcgcggctggccttcacgtacgcgccctcggtggccgaggccgacgtggac gtgctgctgtccatccccatgttcctgcgcctctacctgctgggccgggtgatgctactg cacagcaaaatcttcacggacgcctcgagccgcagcatcggggccctcaacaagatcacc ttcaacacgcgcttcgtcatgaagacactcatgaccatctgccccggcaccgtgctgctg gtcttcagcatctcctcctggatcatcgcagcctggaccgtgcgcgtctgcgagaggtac cacgacaagcaggaagtgaccagcaacttcctgggggccatgtggctgatttccatcacc ttcctctccattggctacggcgacatggtgccccacacctactgcgggaagggtgtgtgc ctgctcactggcatcatgggagctggctgtaccgcgctcgtggtggctgtggtggctcgg aagctggagctcaccaaggctgagaagcacgtgcacaacttcatgatggacactcagctc accaagcgggtaaaaaacgccgctgctaacgttctcagggagacgtggctcatctacaaa cataccaggctggtgaagaagccagaccaagcccgggttcggaaacaccagcgtaagttc ctccaagccatccatcagctccggagtgtgaagatcgagcaagggaagctgaacgaccag gctaacacgcttaccgacctagccaagacccagaccgtcatgtacgaccttgtatcggag ctgcacgctcagcacgaggagctggaggcccgcctggccaccctggaaagccgcttggat gcgctgggtgcctctctacaggccctgcctggcctcatcgcccaagccatacgcccaccc ccgcctcccctgcctcccaggcccggccccggcccccaagaccaggcagcccggagctcc ccctgccggtggacgcccgtggccccctcggactgcgggtga >gi568815579f:17930827_18132026|GENSCAN_predicted_peptide_2|800_aa MRSGGVRSFALELARGPGGAYRGGERLCGRVLLEAAAPLRVRALEVKARGGAATHWLEGR SVGVNAVSSDYAAAETYLRRRQLLLRALRAIEVLGTQEPQRGKQAWNSHRLSGPQLGRES PAPNRAGHASSHVNEGRLSHAPCRAIGGVPSRGGEETVTPPPPALPYKSGADARRGDFLL RLRRHLELPVREFEARFRLSWVRTPDAMLFDKVKAFSVQLDGATAGVEPVFSGGQAVAGR VLLELSSAARVGALRLRARGRAHVHWTESRSAGSSTAYTQSYSERVEVVSHRATLLAPGT DGGPLLQHQLCASHHLDGGTSVSPGTPAQPLSRLLFLLPADTGETTTLPPGRHEFLFSFQ LPPTLVTSFEGKHGSVRYCIKATLHRPWVPARRARKVFTVIEPVDINTPALLAPQAGARE KVARSWYCNRGLVSLSAKIDRKGYTPGEVIPVFAEIDNGSTRPVLPRAAVVQTQTFMARG ARKQKRAVVASLAGEPVGPGQRALWQGRALRIPPVGPSILHCRVLHVDYALKVCVDIPGT SKLLLELPLVIGTIPLHPFGSRSSSVGSHASFLLDWRLGALPERPEAPPEYSEVVADTEE AALGQSPFPLPQDPDMSLEGPFFAYIQEFRYRPPPLYSELSAAVTALNSESNFAQAYARG ISRTKYWELIYEDSVDLITKLPCVAAKIYRNLYGEGSGIGAIDSNLDWSHSFTNMLGYTD HQFPELMHLYLTIHSDHEGGNVSAHTSHLVGSGLSDPYLSFAAAMNGLAGPLHGLANQEV LVWLTQLQKEVGKDVSDEKL >gi568815579f:17930827_18132026|GENSCAN_predicted_CDS_2|2403_bp atgcgctctgggggcgtgcgcagcttcgcgctggagctggcgcggggcccgggcggcgcc taccgcggcggggagcggctgtgcggccgggtgctgctggaggcggcggcgccgctgcgg gtgcgagcgctcgaggtgaaggcgcgcggcggggcggccacccactggttggagggtcgc agcgtgggcgtcaacgccgtatccagcgactacgcggccgcggagacctacctgcggcgt cggcagctgctgctccgagcgctgcgggcaatagaagttttgggcacacaagagccacag cgggggaaacaggcctggaacagtcataggctctctggccctcaactggggcgagagtcc cccgccccaaatcgggctggacatgcctcgagtcacgtcaacgaggggcggctgagccac gccccttgtcgcgctattggtggagtcccttcccggggcggggaagagacggtgacccca cccccccccgccctgccgtataaaagcggcgccgacgcacggcgcggggattttctgctc cggttgcgtcggcatcttgagctgccggttcgcgagttcgaggccaggttccgcctgtcg tgggttcgcaccccggacgcgatgctattcgacaaggtgaaagcgttctcggtgcagttg gacggcgcgaccgcgggcgtcgagcccgtgtttagcggcggccaggccgtggcgggccgg gtgctgctggagctgtcaagcgccgcgcgtgtgggtgccctgaggctgcgcgcgcggggc cgcgcccacgtgcactggaccgagtcgcgcagcgcgggctcgagcacggcttacacgcag agctacagtgaacgcgtggaggtcgtgagccaccgcgccacgctcctggcgccaggtacg gatggaggacccctgctccaacaccagttgtgtgcctcccaccacctggacggcggtacc tccgtcagccctgggaccccagcgcaaccgctcagtcgcctcctttttctcctacctgca gataccggggagaccacgacgctgcctcctgggcgccatgagttcctgttcagcttccag ctgcccccgaccctggtgacatccttcgagggcaaacacggtagtgtccgctactgtatc aaggccaccctgcaccggccctgggtcccagcacgccgggcaaggaaggtgttcactgtc atcgagcctgtggacatcaacacgccagccctgctggcacctcaagcgggggctcgggaa aaggttgcccgatcctggtactgtaaccgtggcctagtctccctttcggccaagatcgac cgcaagggctacaccccaggagaggtcatccctgtctttgccgagatcgacaacggctcc acacgtcctgtgctgcctcgggcagccgtggtgcagacacagacgttcatggcccgaggc gcccgaaagcagaaacgggcagtggtggccagcctcgcgggcgagccggtgggccccggg cagcgggcgctgtggcagggccgggcactgcggatccccccagtgggtccttccatcctg cactgccgcgttctacacgtggactacgcactcaaggtctgtgtggatatcccaggaacg tccaagctgctgctggagctgccactggtgatcggcaccattcccttgcacccttttggc agccgttcctccagcgtgggcagccacgccagcttcctgctggactggaggctgggggcc ttgccggagcggcctgaggctcctcctgagtactcggaggtggtagccgacactgaggag gcagccttggggcagagccccttcccgcttccgcaggaccccgacatgagccttgaaggc ccgttcttcgcctacatccaagagttccgctaccgcccgccacccctgtactctgagctc agtgcagctgttacagccctcaacagtgaaagtaactttgcccaagcatatgcacggggt atcagccgaaccaagtactgggagttgatttatgaagactctgtggatctaatcacaaag ctaccttgtgtcgcagcaaagatctaccgaaatctctatggagaaggcagtggtattggg gccattgactctaacctggactggtctcacagtttcaccaacatgttaggctatactgat catcagttccctgagctcatgcacctgtacctcactatccacagtgaccatgagggcggc aatgtaagtgcccataccagccacttggtgggcagtggcctttcagacccttacctgtcc tttgcagcagccatgaacgggctggcagggcctctccatggactggcaaatcaggaagtg cttgtctggctaacacagctgcagaaggaagttggcaaagatgtgtcagatgagaagtta tga >gi568815579f:17930827_18132026|GENSCAN_predicted_peptide_3|111_aa MAQLTELAGLSCSTVIAKAYPPISMSRSSMAQGIMEKVACSVLDTSNILVTSQSSLTPKD PTSHSTLCLVTHCQERGILLLGEVPPEPTLINELYGLGVDAIFGFSFKGNV >gi568815579f:17930827_18132026|GENSCAN_predicted_CDS_3|336_bp atggcccaacttacagaactggctggactcagctgttccactgtcattgccaaggcatat cctcccatatccatgtcccgatcatccatggcccagggaataatggagaaggtagcctgc tctgtgcttgacacctcaaacattttggtcaccagccaatcatctttgaccccaaaagac ccaacaagccactctacactatgcttggtgacccactgtcaggaaaggggcattcttttg cttggtgaagtgcccccagagcccacgctgatcaatgagctgtatgggctgggggtggat gccatctttggcttcagcttcaagggcaatgtttga >gi568815579f:17930827_18132026|GENSCAN_predicted_peptide_4|141_aa MAANGLGVLASDMKAPEVVHPSMGRNLLRLLQIPPPWYPESGLSFFCLEASVAPTFLRVK AKVLPPDLKALLGLTAPSPLPSPPCLIDLGHLSLLQAPPLYWGTFSQGGKTATAGFTSRW PKPQTGFGLQTTSGSDCLLLG >gi568815579f:17930827_18132026|GENSCAN_predicted_CDS_4|426_bp atggcggccaatggtctcggtgtgctggcctcagacatgaaggccccagaagtggtgcat ccctctatgggccggaatcttcttcggttgctccagatacccccaccctggtatcctgag tccggcttgtccttcttctgtctagaagcctctgtggctcccaccttcctcagagtaaaa gccaaagttctccccccagacctcaaggccctgcttggtctcacggcaccatcgcctctt ccctccccaccctgcttaatcgacttaggccacctcagcctcctccaagctcctccgctt tactgggggactttctcacagggaggaaaaacagcgacagctggtttcacaagtaggtgg cccaagccgcagaccggtttcggtttgcaaacaacttctggctctgactgcctgctgctg ggctga >gi568815579f:17930827_18132026|GENSCAN_predicted_peptide_5|790_aa MARLFSLLSFNVFRSGDGVAEPRRWQRGSPGAVGLYVDPMEPLVTWVVPLLFLFLLSRQG VQGQECHYVFIAFAAACRTSECCFQDPPYPDADSGSLPGSASGPRDLRCYRISSDRYECS WQYEGPTAGVSHFLRCCLSSGRCCYFAAGSATRLQFSDQAGVSVLYTVTLWVESWARNQT EKSPEVTLQLYNSVKYEPPLGDIKVSKLAGQLRMEWETPDNQVGAEVQFRHRTPSSPWKL GDCGPQDDDTGENNNSNDNNSCSKLALIEHLLYARSNAEFFCMPLTLPHSSVLDSFQIAE SCLCPLEMNVAQEFQLRRRQLGSQGSSWSKWSSPVCVPPVGLVLIAENPPQPQVRFSVEQ LGQDGRRRLTLKEQPTQLELPEGCQGLAPGTEVTYRLQLHMLSCPCKAKATRTLHLGKMP YLSGAAYNVAVISSNQFGPGLNQTWHIPADTHTEPVALNISVGTNGTTMYWPARAQSMTY CIEWQPVGQDGGLATCSLTAPQDPDPAGMATYSWSRESGAMGQEKCYYITIFASAHPEKL TLWSTVLSTYHFGGNASAAGTPHHVSVKNHSLDSVSVDWAPSLLSTCPGVLKEYVVRCRD EDSKQVSEHPVQPTETQVTLSGLRAGVAYTVQVRADTAWLRGVWSQPQRFSIEVQVSDWL IFFASLGSFLSILLVGVLGYLGLNRAARHLCPPLPTPCASSAIEFPGGKETWQWINPVDF QEEASLQEALVVEMSWDKGERTEPLEKTELPEGAPELALDTELSLEDGDRSPPGAPNPGE TEPDESLEPY >gi568815579f:17930827_18132026|GENSCAN_predicted_CDS_5|2373_bp atggcccgtcttttctccttgctcagcttcaatgtgttccggagtggggacggggtggct gaacctcgcaggtggcagagaggctcccctggggctgtggggctctacgtggatccgatg gagccgctggtgacctgggtggtccccctcctcttcctcttcctgctgtccaggcagggc gtgcaaggccaggaatgtcattatgtcttcattgcctttgcagctgcctgcagaaccagt gagtgctgttttcaggacccgccatatccggatgcagactcaggatctcttccaggctcg gcctcgggccctagggacctgagatgctatcggatatccagtgatcgttacgagtgctcc tggcagtatgagggtcccacagctggggtcagccacttcctgcggtgttgccttagctcc gggcgctgctgctacttcgccgccggctcagccaccaggctgcagttctccgaccaggct ggggtgtctgtgctgtacactgtcacactctgggtggaatcctgggccaggaaccagaca gagaagtctcctgaggtgaccctgcagctctacaactcagttaaatatgagcctcctctg ggagacatcaaggtgtccaagttggccgggcagctgcgtatggagtgggagaccccggat aaccaggttggtgctgaggtgcagttccggcaccggacacccagcagcccatggaagttg ggcgactgcggacctcaggatgatgatactggtgagaataataatagtaatgacaacaac agctgcagcaaattggcattaattgagcacctactgtatgccaggtccaatgctgaattt ttttgtatgcctcttaccctgccccatagttcagtattggattctttccaaattgcagag tcctgcctctgccccctggagatgaatgtggcccaggaattccagctccgacgacggcag ctggggagccaaggaagttcctggagcaagtggagcagccccgtgtgcgttccccctgtt ggtttggttctgattgcagaaaaccccccacagcctcaggtgagattctcggtggagcag ctgggccaggatgggaggaggcggctgaccctgaaagagcagccaacccagctggagctt ccagaaggctgtcaagggctggcgcctggcacggaggtcacttaccgactacagctccac atgctgtcctgcccgtgtaaggccaaggccaccaggaccctgcacctggggaagatgccc tatctctcgggtgctgcctacaacgtggctgtcatctcctcgaaccaatttggtcctggc ctgaaccagacgtggcacattcctgccgacacccacacagaaccagtggctctgaatatc agcgtcggaaccaacgggaccaccatgtattggccagcccgggctcagagcatgacgtat tgcattgaatggcagcctgtgggccaggacgggggccttgccacctgcagcctgactgcg ccgcaagacccggatccggctggaatggcaacctacagctggagtcgagagtctggggca atggggcaggaaaagtgttactacattaccatctttgcctctgcgcaccccgagaagctc accttgtggtctacggtcctgtccacctaccactttgggggcaatgcctcagcagctggg acaccgcaccacgtctcggtgaagaatcatagcttggactctgtgtctgtggactgggca ccatccctgctgagcacctgtcccggcgtcctaaaggagtatgttgtccgctgccgagat gaagacagcaaacaggtgtcagagcatcccgtgcagcccacagagacccaagttaccctc agtggcctgcgggctggtgtagcctacacggtgcaggtgcgagcagacacagcgtggctg aggggtgtctggagccagccccagcgcttcagcatcgaagtgcaggtttctgattggctc atcttcttcgcctccctggggagcttcctgagcatccttctcgtgggcgtccttggctac cttggcctgaacagggccgcacggcacctgtgcccgccgctgcccacaccctgtgccagc tccgccattgagttccctggagggaaggagacttggcagtggatcaacccagtggacttc caggaagaggcatccctgcaggaggccctggtggtagagatgtcctgggacaaaggcgag aggactgagcctctcgagaagacagagctacctgagggtgcccctgagctggccctggat acagagttgtccttggaggatggagacaggtctcctccaggagcacctaatccgggggag acagagccggatgagagcttggaaccctactaa >gi568815579f:17930827_18132026|GENSCAN_predicted_peptide_6|705_aa MAPGGGAWQAGAGPGAGLAARTPGPWTSRASCGAAGSSMGVLLLCYVFSKMGFPQAGSSG SPAASGPLQLAVGADGVTGCYGEHPDHDVGSLEPTKKELSLPRRGRGSGAPKPAASASLR QTGRHPRLPFPAARPSLPGRACAQKRTAASGEPSRAIGLAPPSRPELNPESPVLGPYSLR EPQPPSGDPDSATRRGGRQPRAPPSLSGSAGLLGPIPPPRPPFPASGGCGGTKGSSMSDP SYWTAVAAPGHRSRLAKGALLQRSKSCRSGNRKSLVVGTPSPTLSRPLSPLSVPTAGSSP LDSPRNFSAASALNFPFARSTDGELMALIPTTLYQSSSSSRERLHQLPFQPTPDELHFLS KHFRSSENVLDEEGGRSPRLRPRSRSLSPGRATGTFDNEIVMMNHVYRERFPKATAQMEG RLQEFLTAYAPGARLALADGVLGFIHHQIVELARDCLAKSGENLVTSRYFLEMQEKLERL LQDAHERSDSEEVSFIVQLVRKLLIIISRPARLLECLEFDPEEFYHLLEAAEGHAREGQG IKTDLPQYIIGQLGLAKDPLEEMVPLSHLEEEQPPAPESPESRALVGQSRRKPCESDFET IKLISNGAYGAVYLVRHRDTRQRFAIKKINKQNLILRNQIQQVFVERDILTFAENPFVVS MFCSFETRRHLCMVMEYVEGGDCATLLKNMGPLPVDMARLYFAET >gi568815579f:17930827_18132026|GENSCAN_predicted_CDS_6|2115_bp atggcacctggcggcggggcctggcaggccggggcggggccgggggcgggcctggcggcg cggactcccgggccatggacgagtcgagcctcctgcggcgccgcgggctccagtatgggg gtgctcctgctgtgctatgtcttctccaaaatgggatttcctcaagctgggtcatccggc agcccagcagcttccggccccctccaattggctgtaggggccgatggcgtcactggttgc tatggcgaacacccagatcacgacgtgggcagcctggagcccaccaaaaaggagctgagc ctgccacgccgaggacgtggctcgggggctcccaagccggcggcctcggcgtccctgcgg cagacagggcggcacccgcggctcccctttcccgctgcgcgaccctcgctgccgggccgg gcctgcgcgcagaaacgcaccgccgcctccggggagccctcccgggccatcggtctggcc ccgccctcacgtcctgagctgaacccagaatccccggtcttgggcccctactccctgagg gaaccgcagccgccatccggagatccggattcggccacacgaaggggcggccgccagccc cgtgcgcccccctccctgtccggctccgcggggctcctggggccgatcccaccgccgagg cctcccttcccggcctcgggcggctgcggcggcacaaagggaagcagcatgtccgacccc agctactggacggcggtggcggctcccggccatcggagccgcctggcaaaaggcgcgctg ctgcagcgctccaagagctgccgcagcgggaaccgcaagagcttggtggtaggaacgccc tccccgaccctctcccggcccctgtcgccattgtcggtcccaacggcaggcagcagcccc ttggatagtcctcggaatttctcggctgcctctgccctaaatttcccctttgcccggagc actgacggtgaactcatggctctgatccccaccactctctaccagtcaagctcatcctcc cgggaacgtctccaccagcttcccttccagccgacgccggacgagctgcacttcctgtcc aagcacttccgcagctcagagaatgtgcttgatgaggaaggcggccggtcaccccgcctc cgaccccgctctcgcagtctcagcccgggccgtgcaacggggaccttcgacaatgagatt gtcatgatgaatcacgtgtaccgggagaggttccccaaggccacagcacagatggagggc cgtctgcaggagttcctgacggcctacgcgcccggcgcccggctggcgctggctgatggc gtcttgggcttcatccaccaccagatcgtcgagctggcccgagactgcttggccaagtct ggcgagaacctcgtcacctcccgctacttcctagagatgcaggagaagctggagcggctt ctgcaggatgcccatgagcgttcggacagtgaggaggtcagcttcatcgtccagcttgtc cggaaactgctgatcatcatctcacggccagctcggctgctggagtgtctggagtttgac cctgaggaattttaccacctgctggaggcggctgagggccatgcgcgggagggccaaggc attaagactgaccttccacagtacatcattgggcagctgggcctggccaaggaccccctg gaggagatggtgccactgagtcacctcgaagaagaacagcccccagcacctgagtcccca gagagccgcgccctggtcggccagtcacggaggaagccatgcgaaagcgactttgagacc atcaaactcattagcaacggagcctatggggccgtctacctggtgcggcaccgtgacaca cggcagcgctttgccatcaagaagatcaacaaacagaacttgatcctgcgtaaccagatc cagcaggtctttgtggagcgtgacattctcacctttgccgagaacccctttgtggtcagc atgttctgctcctttgagacccggcgccacctatgtatggtcatggaatacgtggaaggc ggcgactgcgccacgctcctgaagaacatgggcccgctgcccgtggacatggcccgcctg tacttcgccgagacg