Result of GENSCAN for
pF1KE0351
GENSCAN 1.0 Date run: 3-Nov-116 Time: 14:46:09 Sequence gi568815583r:41968718_42194459 : 225742 bp : 47.93% 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 Init - 3777 3542 236 0 2 61 86 643 0.963 57.01 1.00 Prom - 5647 5608 40 -5.46 2.24 PlyA - 5885 5880 6 1.05 2.23 Term - 15257 15037 221 0 2 92 47 311 0.999 24.60 2.22 Intr - 15902 15719 184 2 1 101 99 259 0.999 27.66 2.21 Intr - 16211 16093 119 0 2 12 42 44 0.321 -7.62 2.20 Intr - 17351 17118 234 0 0 31 25 172 0.276 2.86 2.19 Intr - 18658 18455 204 2 0 137 86 195 0.473 23.37 2.18 Intr - 19439 19332 108 0 0 55 72 83 0.926 3.66 2.17 Intr - 20835 20698 138 1 0 96 30 276 0.998 23.04 2.16 Intr - 21518 21404 115 2 1 120 77 179 0.999 20.02 2.15 Intr - 21787 21633 155 2 2 52 105 129 0.370 10.79 2.14 Intr - 24242 24016 227 1 2 122 15 269 0.307 20.63 2.13 Intr - 26779 26643 137 1 2 89 95 207 0.999 20.87 2.12 Intr - 28542 28407 136 2 1 76 90 257 0.987 25.27 2.11 Intr - 30844 30807 38 1 2 115 40 29 0.824 -2.14 2.10 Intr - 31283 31200 84 2 0 73 89 84 0.872 7.02 2.09 Intr - 31565 31387 179 0 2 109 39 176 0.784 14.44 2.08 Intr - 33979 33732 248 0 2 68 55 52 0.588 -3.00 2.07 Intr - 36261 36221 41 0 2 113 105 86 0.998 9.82 2.06 Intr - 37404 37273 132 0 0 109 94 162 0.999 19.74 2.05 Intr - 39148 39012 137 2 2 55 100 130 0.993 11.19 2.04 Intr - 41508 41362 147 1 0 26 105 48 0.477 0.51 2.03 Intr - 45040 44968 73 1 1 118 66 65 0.884 6.28 2.02 Intr - 50752 50720 33 1 0 109 75 10 0.356 0.22 2.01 Init - 52313 52218 96 2 0 77 100 27 0.471 2.76 2.00 Prom - 53696 53657 40 -7.56 3.00 Prom + 57265 57304 40 -2.66 3.01 Init + 61622 61705 84 1 0 109 19 99 0.764 5.92 3.02 Term + 65950 66051 102 0 0 127 54 66 0.964 5.38 3.03 PlyA + 66156 66161 6 1.05 4.03 PlyA - 66172 66167 6 1.05 4.02 Term - 67917 67393 525 0 0 52 40 213 0.621 7.16 4.01 Init - 68579 68511 69 2 0 102 81 15 0.513 3.25 4.00 Prom - 70804 70765 40 -4.46 5.00 Prom + 70932 70971 40 -2.26 5.01 Init + 80785 80877 93 0 0 82 57 97 0.209 6.38 5.02 Intr + 88843 88945 103 0 1 1 89 85 0.042 -0.35 5.03 Term + 94822 94916 95 2 2 81 50 57 0.103 -0.81 5.04 PlyA + 98273 98278 6 1.05 6.26 PlyA - 98670 98665 6 -0.45 6.25 Term - 100224 99998 227 1 2 120 51 364 0.999 32.84 6.24 Intr - 101378 101192 187 2 1 76 93 162 0.996 14.76 6.23 Intr - 102166 102000 167 2 2 70 65 223 0.993 17.88 6.22 Intr - 102600 102406 195 1 0 52 71 164 0.997 10.49 6.21 Intr - 102834 102727 108 1 0 101 47 102 0.995 7.66 6.20 Intr - 103194 103057 138 1 0 78 100 190 0.993 19.64 6.19 Intr - 103675 103558 118 1 1 92 54 116 0.913 8.64 6.18 Intr - 111042 110820 223 2 1 124 91 307 0.997 32.73 6.17 Intr - 112416 112280 137 0 2 84 65 142 0.995 10.87 6.16 Intr - 112897 112762 136 0 1 96 25 245 0.729 19.57 6.15 Intr - 113117 113080 38 2 2 30 95 6 0.957 -7.44 6.14 Intr - 113672 113562 111 2 0 65 101 76 0.962 7.18 6.13 Intr - 114617 114481 137 0 2 115 59 195 0.999 19.59 6.12 Intr - 115062 114999 64 0 1 96 94 45 0.998 4.19 6.11 Intr - 116421 116379 43 2 1 75 91 43 0.975 1.54 6.10 Intr - 116814 116774 41 0 2 91 92 90 0.981 6.72 6.09 Intr - 117627 117496 132 0 0 78 94 205 0.995 20.94 6.08 Intr - 118719 118583 137 1 2 54 67 125 0.529 7.29 6.07 Intr - 118983 118911 73 0 1 74 56 52 0.541 -0.42 6.06 Intr - 121851 121758 94 2 1 131 -13 59 0.208 0.07 6.05 Intr - 124225 124201 25 2 1 134 59 59 0.648 4.68 6.04 Intr - 126094 125920 175 1 1 106 61 62 0.740 4.81 6.03 Intr - 128226 128109 118 2 1 84 95 18 0.164 2.57 6.02 Intr - 152748 152511 238 1 1 43 61 179 0.386 7.37 6.01 Init - 155827 155752 76 1 1 52 44 70 0.559 0.25 6.00 Prom - 155985 155946 40 -6.66 7.00 Prom + 158774 158813 40 -1.66 7.01 Init + 162664 162774 111 0 0 64 37 51 0.309 -2.08 7.02 Term + 165385 165600 216 0 0 73 38 168 0.908 7.44 7.03 PlyA + 166485 166490 6 1.05 8.41 PlyA - 169216 169211 6 1.05 8.40 Term - 173487 173267 221 1 2 132 47 382 0.991 35.70 8.39 Intr - 173997 173811 187 0 1 13 110 211 0.985 15.06 8.38 Intr - 175427 175261 167 0 2 55 83 177 0.973 13.58 8.37 Intr - 175927 175733 195 2 0 84 98 84 0.997 8.39 8.36 Intr - 176965 176858 108 2 0 78 94 117 0.980 11.56 8.35 Intr - 177186 177049 138 1 0 77 113 183 0.989 20.14 8.34 Intr - 177524 177410 115 2 1 89 51 149 0.988 11.32 8.33 Intr - 178629 178407 223 2 1 98 78 278 0.974 25.93 8.32 Intr - 179045 178909 137 2 2 49 119 49 0.982 3.47 8.31 Intr - 181131 180996 136 2 1 -2 98 124 0.981 4.97 8.30 Intr - 181424 181387 38 2 2 87 105 40 0.987 2.66 8.29 Intr - 181769 181656 114 2 0 96 94 62 0.997 8.24 8.28 Intr - 182060 181891 170 0 2 86 109 190 0.999 20.57 8.27 Intr - 184037 183971 67 2 1 93 113 34 0.995 4.88 8.26 Intr - 184625 184583 43 1 1 98 89 48 0.775 4.14 8.25 Intr - 184943 184903 41 2 2 75 105 50 0.967 2.42 8.24 Intr - 185503 185375 129 1 0 110 99 165 0.991 20.69 8.23 Intr - 185741 185605 137 0 2 89 100 140 0.854 15.59 8.22 Intr - 186872 186800 73 2 1 57 66 105 0.811 4.18 8.21 Intr - 192112 192058 55 0 1 100 82 57 0.958 5.28 8.20 Intr - 193056 192965 92 0 2 93 99 120 0.985 12.39 8.19 Intr - 193449 193315 135 0 0 122 73 173 0.992 19.96 8.18 Intr - 193764 193615 150 0 0 32 77 155 0.900 9.16 8.17 Intr - 194678 194633 46 1 1 145 76 67 0.869 9.61 8.16 Intr - 195011 194909 103 0 1 106 83 57 0.999 6.23 8.15 Intr - 195769 195641 129 2 0 64 101 66 0.975 6.17 8.14 Intr - 196396 196279 118 1 1 49 81 124 0.990 7.84 8.13 Intr - 197099 197001 99 2 0 50 95 48 0.800 2.01 8.12 Intr - 197515 197442 74 2 2 139 105 36 0.995 9.53 8.11 Intr - 197932 197846 87 2 0 37 106 131 0.999 9.74 8.10 Intr - 198196 198055 142 1 1 79 70 271 0.992 24.33 8.09 Intr - 198820 198677 144 1 0 87 84 184 0.970 18.38 8.08 Intr - 201104 201007 98 0 2 86 96 67 0.401 7.03 8.07 Intr - 205135 205006 130 1 1 64 92 223 0.724 20.57 8.06 Intr - 209621 209501 121 1 1 92 92 55 0.984 6.80 8.05 Intr - 209853 209733 121 1 1 108 86 4 0.759 1.75 8.04 Intr - 215983 215800 184 1 1 115 72 223 0.999 22.76 8.03 Intr - 219139 219041 99 1 0 84 111 76 0.999 9.81 8.02 Intr - 222843 222779 65 1 2 82 115 66 0.994 7.14 8.01 Intr - 223381 223349 33 2 0 96 92 35 0.878 2.89 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:41968718_42194459|GENSCAN_predicted_peptide_1|79_aa MFSWMGRQAGGRERAGGADAVQTVTGGLRSLYLRKVLPLEEAYRFHEFHSPALEDADFEN KPMILLVGQYSTGKTTFIS >gi568815583r:41968718_42194459|GENSCAN_predicted_CDS_1|237_bp atgttcagctggatggggcggcaggcgggcgggcgcgaacgcgctggcggcgcggacgcg gtgcagacggtgacgggcgggctgcgctcgctctacctgcgcaaggtgctgccgctggag gaggcgtaccgcttccacgagttccactcgcctgcgctggaggacgccgacttcgagaac aagcccatgatcctgctggtgggccagtacagcaccggcaagaccaccttcatcagn >gi568815583r:41968718_42194459|GENSCAN_predicted_peptide_2|1061_aa MLLRQMHARVSHSLPDPCQAEDSRPSATCALKAPQTSWDGLLREGLSPCHLLTVRVIRMK NVRQADMQPVGIELAPCLQAPSVPETDLKGVVQARGGGASVLEKPREGFKRAEQVPVSQT DCFVSLWLPTASQKKLRTRTISNCPNPEWNESFNFQIQSRVKNVLELSVCDEDTVTPDDH LLTVLYDLTKLCFRKKTHVKFPLNPQGMEELEVEFLLEESPSPPETLVTNGVLVVIIFLG SCSSRGHGWLLLSGEQDQGRKQWAQLGLCPILTSAGVRLNEASQMGHRQHWGTSWGFCTE GGVKDLLVMVNESFENTQRVRPCLEPCCPTSACFQTAACFHYPKYFQSQVHVEVPKSHWS CGLCCRSRKKGPISQPLDCLSDGQVMTLPVGESYELHMKSTPCPETLDVRLGFSLCPAEL EFLQKRKVVVAKALKQVLQLEEDLQEDEVPLIAIMATGGGTRSMTSMYGHLLGLQKLNLL DCASYITGLSGATWTMATLYRDPDWSSKNLEPAIFEARRHVVKDKLPSLFPDQLRKFQEE LRQRSQEGYRVTFTDFWGLLIETCLGDEVDQDPGTLRDCPKLRIQSRPLSGGGQPEGVVP MPLVPFQSDLAGVSWGRYSSPRNECKLSDQRAALSCGQNPLPIYLTINVKDDVSNQDFRE WFEFSPYEVGLQKYGAFIPSELFGSEFFMGRLVKRIPESRICYMLGLWSSIFSLNLLDAW NLSHTSEEFFHRWTREKVQDIEDEPILPEIPKCDANILETTVVIPGSWLSNSFREILTHR SFVSEFHNFLSGLQLHTNYLQNGQFSRWKVPLSIGCQGTRCVGNGKAWLSDTVLDGFPNQ LTESANHLCLLDTAFFVNSSYPPLLRPERKADLIIHLNYCAGSQTKATWFQSPFQATHHI HPSLCLDANTNERAFVHFTWGSSLQLEPLKQTCEYCTVQNIPFPKYELPDENENLKECYL MENPQEPDAPIVTFFPLINDTFRKYKAPGVERSPEELEQGQVDIYGPKTPYATKELTYTE ATFDKLVKLSEYNILNNKDTLLQALRLAVEKKKRLKGQCPS >gi568815583r:41968718_42194459|GENSCAN_predicted_CDS_2|3186_bp atgctcctgaggcagatgcacgccagggtctcccactccctgccagacccatgccaagca gaagacagcaggccctcggccacctgtgccttgaaggctccccagacttcatgggatggt ttgctgagggaggggctgtctccatgccacctgttgacagtgagggtcatccggatgaaa aatgtccggcaggctgatatgcaaccagtaggtatagagctggcaccctgcctgcaggct cccagcgtaccggagacagacctgaagggtgtggtccaggcccggggtgggggggccagt gttctggaaaagccaagggaagggttcaagagggctgagcaggttcctgtgagccagaca gactgttttgtgagcctctggctgcccaccgcctctcagaagaagctgaggacaaggacc atctccaactgcccaaatccagagtggaatgaaagcttcaacttccagatccagagccga gtgaagaacgtgctagagttgagtgtctgtgatgaagacacagtgacaccagatgaccat ctcctgacagttctctatgacctcaccaagctctgtttccgaaagaaaacccacgtgaag tttccactcaacccgcagggcatggaagagctggaggtggagttcctgctggaggagagt ccctctccacctgagaccctcgtcaccaatggcgtgctggtggtaattatcttcctgggt tcctgtagctccagaggccacggctggctgctgctctcaggggaacaggaccaagggaga aaacagtgggcccagcttggtctctgtcctatcctgacctctgcaggagttagactaaac gaggccagccaaatggggcacaggcagcactggggcacgagctggggcttctgtacagag ggaggagtgaaggacctcctggtgatggtgaacgaatcctttgagaacacccagcgtgtc cggccctgcttggaaccctgctgcccaacctctgcctgcttccaaaccgctgcctgcttc cactaccccaagtacttccagtcccaggtgcacgtggaagtgcccaagagtcactggagc tgtgggctttgctgccgctctcgcaagaagggccccatcagccagcccctcgactgcctt tccgatggtcaggtgatgaccctgcctgtgggtgagagttatgaattacacatgaagtct acaccctgccctgagacactggacgtgcggctgggcttcagcctgtgcccagcagagctg gagtttctgcagaagcggaaggtcgtggtggccaaggccctgaagcaggtgctgcagctg gaggaagacctgcaggaggacgaggtgccgctgatagccatcatggccactgggggtgga acaagatccatgacctccatgtatggccacctgctggggctgcagaagctgaacctcctg gactgtgccagctacatcaccggtctatcaggggccacctggaccatggctaccttgtac cgtgaccctgactggtcctccaaaaacttggagcctgctatctttgaggctcggagacat gtggtaaaggacaagctaccctccctgttcccagaccagctccgcaaattccaggaggag ctccggcagcgcagccaggaaggctacagggtcacctttacagacttctggggcctgctg atagagacctgcctgggggacgaggtagaccaagaccctgggactctgagagactgtcct aaactgcggatccagtcccggcccctgtctggtggtgggcagcccgagggggtggtgcct atgccattggtgccctttcagagtgatttggctggtgtcagctggggccgatacagcagc ccgagaaatgaatgcaaactgtcagatcagcgtgctgctttgagctgcggccagaacccc ctgcccatctacctcaccatcaatgtcaaggatgatgtaagcaaccaggacttcagagag tggttcgagttctccccctacgaggtgggcctgcagaagtatggggccttcatcccctcc gagctcttcggctccgagttcttcatggggcggctggtgaagaggatcccggagtctcga atctgctacatgctaggcctgtggagcagcatcttctccctgaacctgctggatgcctgg aacctgtcacacacctcggaggagtttttccacaggtggacaagggagaaagtgcaggac atcgaagacgagccgatcctgcctgaaatccccaaatgtgatgctaacatcctggagacc acggtagtgatcccagggtcatggctgtccaattctttccgagaaatccttacccatcgg tccttcgtgtctgagtttcacaacttcctgtctgggctgcagctgcacaccaactacctc cagaatggccagttctctaggtggaaagtgcctctgtccattggctgtcagggcaccagg tgtgttggtaacgggaaggcttggctttcagacacagtgctagatggtttcccaaaccag ctgaccgagtccgcgaaccacctgtgcctgctggacactgcgttctttgtcaactccagc tacccgcccctcctcaggccagagcgaaaagccgacctcatcatccacctcaactactgt gctgggtcccagacaaaggcaacctggttccagtcgcccttccaggctacccaccacatc cacccaagtctgtgtttggatgcgaacaccaacgaaagggcttttgtccattttacttgg ggaagcagcttgcaactggagcccctgaaacaaacctgtgagtactgcactgtgcagaac atccccttccccaaatacgagctgccagatgagaatgaaaatctcaaggaatgctacctg atggagaacccccaggaacccgatgcccccatcgtgactttcttcccactcatcaatgac actttccgaaaatacaaggcaccaggtgtagagcgaagccctgaggagctggagcagggc caggtggacatttatggtcccaaaactccctatgccaccaaggagctgacatacacagag gccacctttgacaagctggtgaaactctcagagtataacatcctgaataataaggacact ctcctccaggctctgcggctcgcagtggagaagaagaagcgcctgaagggccagtgtccc tcctag >gi568815583r:41968718_42194459|GENSCAN_predicted_peptide_3|61_aa MGLLEQVVACKTPQINAYPSLSARNSHQDYMNIEKEREEEVSFELLVAIFVTMWKDSALK S >gi568815583r:41968718_42194459|GENSCAN_predicted_CDS_3|186_bp atggggctcctggagcaagtggtagcctgcaaaacgccccagatcaatgcctatccctct ttatctgcgaggaacagccaccaggattatatgaatattgagaaagagagagaagaagag gtcagctttgagttattggtggccatctttgtcaccatgtggaaggactcagccttaaaa agttga >gi568815583r:41968718_42194459|GENSCAN_predicted_peptide_4|197_aa MGEPGKGTTSSHSDLQDWQPGLKGRSRVVWMAGPGPAFGSVRLGGHPDAGWTWGRGPEQR RAEPPPEAQEPGILGDGSNGCPAGWSPKRHRSHFQTRAPEAHPQFPLLGLLLPVQEQHRS GPSSTSGPCSPQSRCSPAALLLCQRATWPSPIAAAPRAVGCRGGCRPPPRTLPAAAGDGS GRSRWSAAAIIRNSLNV >gi568815583r:41968718_42194459|GENSCAN_predicted_CDS_4|594_bp atgggtgagcctggaaaaggtaccacaagttcccattctgatctacaggactggcagcct ggcctgaaggggcggtccagggtggtgtggatggcaggccctggcccagcctttgggagt gtcaggctaggcggtcacccagatgcagggtggacctggggacgcggccctgagcagcgc cgagcagagcctccacccgaggcacaggaacccggcatcctcggcgatggcagcaatggc tgccccgctggctggtccccaaagcggcaccgctcccactttcagacccgggccccagaa gcgcatccccagttccccctcctggggctcctgctcccagtgcaagagcagcaccgctct gggcccagttccacttcagggccctgctctccccagtcgcgctgctccccagctgcgctg ctcctctgccagcgggcgacctggcccagccccatcgccgcggcccccagggcggtgggc tgcagaggaggctgtcggcctcctccccgcaccctccctgctgcggccggtgatggcagc ggccgctccagatggtccgccgctgccatcattaggaacagcttaaatgtctaa >gi568815583r:41968718_42194459|GENSCAN_predicted_peptide_5|96_aa MEDRVIPKQPSVTCVMDAVVGMKWDLLDPDKGCDILLTSRSDRPFPDDVARTAYTFSTSA GRTCFKFFLLAHINEASCHIVTTPWIGPCGKERRVA >gi568815583r:41968718_42194459|GENSCAN_predicted_CDS_5|291_bp atggaggaccgggtcatccccaagcagccctcagttacctgtgtgatggatgctgtggta ggtatgaagtgggaccttctggatccagacaagggttgtgacatcctcctgacgtcgagg agcgaccgccccttcccggatgatgtggctcgcacagcttacactttctccacctccgct ggccgtacctgcttcaagttcttcttgcttgctcacatcaatgaagccagctgccatatt gtgaccaccccgtggataggcccatgtggcaaggaacggagggtggcctag >gi568815583r:41968718_42194459|GENSCAN_predicted_peptide_6|1045_aa MTRSRTLTTPNAGEDMEQQELPLINAAKTDTESAIRHPGAQLTADGKLIIQDPFCPEKDN SYLLKWTHILYVDYLSGFLHLSKHDNPTTYTMSNLHMTVHNSNLETLRLSSSGGYPRVTH RAMVFHLFQTLFENLIKAIDLSSLPQGNQLPATTPGTRLPPPGCIFCPETPGLEEVLRLQ VLEPCQRFLEMLVDPASWGRGAGRQCQQTTGAPVLAGNRAGLLISLFLSKRDFGMKDVKL FSGEASTCWQLTVRVLEARNLRWADLLSEADPYVILQLSTAPGMKFKTKTLTDTSHPVWN EAFRFLIQSQVKNVLELSIYDEDSVTEDDICFKVLYDISEVLPGKLLRKTFSQSPQGEEE LDVEFLMEETSDRPENLITNKVIVARELSCLDVHLDSTGSTAVVADQDKLELELVLKGSY EDTQTSFLGTASAFRFHYMAALETELSGRLRSSRSNGWNGDNSAGYLTVPLRPLTIGKEV TMDVPAPNAPGVRLQLKAEGCPEELAVHLGFNLCAEEQAFLSRRKQVVAKALKQALQLDR DLQEDEVPVVGIMATGGGARAMTSLYGHLLALQKLGLLDCVTYFSGISGSTWTMAHLYGD PEWSQRDLEGPIRYAREHLAKSKLEVFSPERLASYRRELELRAEQGHPTTFVDLWALVLE SMLHGQVMDQKLSGQRAALERGQNPLPLYLSLNVKENNLETLDFKEWVEFSPYEVGFLKY GAFVPPELFGSEFFMGRLMRRIPEPRICFLEAIWSNIFSLNLLDAWYDLTSSGESWKQHI KDKTRSLEKEPLTTSGTSSRLEASWLQPGTALAQAFKGFLTGRPLHQRSPNFLQGLQLHQ DYCSHKDFSTWADYQLDSMPSQLTPKEPRLCLVDAAYFINTSSPSMFRPGRRLDLILSFD YSLSAPFEALQQTELYCRARGLPFPRVEPSPQDQHQPRECHLFSDPACPEAPILLHFPLV NASFKDHSAPGVQRSPAELQGGQVDLTGATCPYTLSNMTYKEEDFERLLRLSDYNVQTSQ GAILQALRTALKHRTLEARPPRAQT >gi568815583r:41968718_42194459|GENSCAN_predicted_CDS_6|3138_bp atgactagatccagaacactaacgacaccaaatgctggcgaagacatggagcaacaggaa cttccactcattaatgctgcaaagactgacaccgagtctgcaataaggcacccaggagct caactgaccgctgatggcaagctgattatacaggaccccttctgtcctgaaaaggacaat tcatacttactgaaatggacacacattctgtatgtggattacctttccggcttcctgcac ctcagcaagcacgacaatccaacgacttacacaatgtctaatctacatatgactgtgcat aacagcaacttagaaaccctgcggctctcttcaagtggggggtatccacgtgtgacccat cgagcaatggttttccatctttttcaaactctttttgagaatctgattaaagctatagac ctgagctctctgcctcaggggaaccagcttcctgccaccactcctgggactcgtctgcct ccccctggctgcatcttctgtcctgaaactccaggtctggaagaggtgctccgcctgcag gtcctggagccctgccagaggtttctggagatgctggttgacccagcctcttggggaaga ggggcagggcgccagtgccagcagacgacaggggcaccggtgctagcagggaacagggcg ggtctgctcatttccctcttcctgtcaaagagggactttggcatgaaggatgtgaagctg ttttctggggaggcctctacctgctggcagctcacagtgagggtcctggaggcgcggaac ctgcgctgggctgacctgttgagtgaggccgacccttacgtgatcctacagctgtcgacc gcacctggaatgaagtttaagaccaagacgctcaccgacaccagtcatcctgtgtggaat gaggccttccgtttccttatccaaagtcaggtcaagaatgttctggagcttagcatctat gatgaggactcagtcacggaggatgacatctgcttcaaggttctctatgacatctcagaa gtcctccctggcaagctgctccggaaaaccttctcccagagtccccagggagaggaggag ctggatgtggagttcctgatggaagaaacgtcagatcgcccagaaaacctcatcaccaac aaagtcattgtggcccgagagctgtcatgcctggatgtgcatctggacagcacagggagc accgctgtggttgcagatcaggacaagctggagctggagctggtgctgaaggggtcctat gaggacacacagacatccttcctgggcacagcctctgccttccgcttccactacatggca gccctagagacagagctgagcgggcgcctgaggagctccagaagcaatggctggaatggg gacaactcagctgggtacctcactgtgcccctgaggcccttgaccattgggaaggaggtg actatggatgttcctgctccaaatgccccaggagtgaggctgcagctcaaggcagagggc tgccctgaggagctggccgtgcacctgggcttcaatctctgtgcagaggagcaggccttc ctgagcaggaggaagcaggtggtggccaaggccctgaagcaggccctgcagctggacaga gacctgcaggaggatgaggtacccgttgtgggcatcatggccacaggaggaggtgcccgg gccatgacctcactctacggccacctattggccttgcagaagctgggcctcctagactgt gtgacctacttcagtggcatctctggctctacgtggacaatggcccacctgtacggggac cctgagtggtcgcagagggacctggagggacctatcagatacgcccgggagcacctggcc aagagcaagctggaggtcttttccccagagcgcctggcgagctaccgccgggagctggag ctgcgggctgagcagggccaccccacgacctttgtggacctgtgggcgctagtgctggag tccatgctgcacggccaggtgatggatcagaagctgtcaggacagagagccgccctggaa cggggtcagaaccctctgcccctctacttgagcctcaatgtcaaagagaacaatctggag acactggacttcaaggagtgggttgagttctccccctatgaggtcggtttcctgaagtac ggggccttcgtccctcctgagctcttcggctccgagttcttcatgggacggctgatgagg aggatcccggagccccggatctgctttctggaagccatctggagcaacattttctccctg aacctgctggatgcctggtatgacctcaccagttctggggagtcctggaaacagcacatc aaggacaagaccaggagcttagagaaggagcccctgaccacctcggggacctcctcgcgg ctggaggcctcgtggctgcagccaggcacggcgctggcccaggcatttaaaggcttcctg acaggcaggcccctccaccagcgcagccccaacttcctccagggcctccagctgcaccag gactactgtagccacaaagacttctccacctgggcagactaccagcttgactccatgccc agccagctgacccccaaggagccccggctctgcctggtggacgccgcctacttcatcaac accagctctccctccatgttccggccaggccgcaggctggacctcatcctctccttcgac tactccctatctgcgcccttcgaggcactgcagcagacggagctgtactgccgggcccgg gggctgcccttcccccgggtggaacccagccctcaggaccagcaccagccaagggaatgc cacctcttctcagaccccgcctgccccgaggccccgatcctgctgcacttcccgctggtc aatgcctccttcaaggaccactcagcccccggtgtccagcgcagccccgcagagctccag ggtggccaagtggatctcaccggggccacctgcccctacaccctgtccaacatgacctac aaggaggaagacttcgagcgcctgctgcggctcagtgactacaacgtgcagaccagccag ggtgccatcctgcaggccctgaggaccgcgctgaagcaccggactctagaggcgaggcct ccaagggcacagacctga >gi568815583r:41968718_42194459|GENSCAN_predicted_peptide_7|108_aa MGWQSLKPVLPTCFHVKALLESEGIDVVHWGKHTSLQASHHYHGMAKDTQPGAITAQGMQ GTLSEMRLQPTVTKYIKKAASMKERQQRTYPQGIQSQNNQKNVLKYIR >gi568815583r:41968718_42194459|GENSCAN_predicted_CDS_7|327_bp atgggctggcagtcccttaagcctgtacttcccacctgtttccatgtgaaggcactcctg gaaagtgaaggcatcgatgtggtacactggggtaaacatacaagtctgcaggccagccat cattaccacggcatggccaaggacacgcagccaggagccatcacagcccagggcatgcaa ggaactctctcagagatgaggttacaaccaacagtcaccaaatacataaagaaggcagca tccatgaaagagaggcaacaaagaacctacccccaaggaatccagtcacagaacaatcag aaaaacgtgttaaaatacatacgctaa >gi568815583r:41968718_42194459|GENSCAN_predicted_peptide_8|1554_aa XPADVASPESGSCNRFEVTLEKSNKNFSKKIQQHTETGEEVLRMCVAVKKKLQLYFWKDR EFHELQVDGKGSIKELFPTGKQLEPLVAPLADGKVAVGQDDLTVVLNEEGICTQKCALNW TDIPVAMEHQPPYIIAVLPRYVEIRTFEPRLLVQSIELQRPRFITSGGSNIIYVASNHFV WRLIPVPMATQIQQLLQDKQFELALQLAEMKDDSDSEKQQQIHHIKNLYAFNLFCQKRFD ESMQVFAKLGTDYRKQLQYPNPLPVLSGAELEKAHLALIDYLTQKRSQLVKKLNDSDHQS STSPLMEGTPTIKSKKKLLQIIDTTLLKCYLHTNVALVAPLLRLENNHCHIEESEHVLKK AHKYSELIILYEKKGLHEKALQVLVDQSKKANSPLKGHERTVQYLQHLGTENLHLIFSYS VWVLRDFPEDGLKIFTEDLPEVESLPRDRVLGFLIENFKGLAIPYLEHIIHVWEETGSRF HNCLIQLYCEKVQGLMKEYLLSFPAGKTPVPAGEEEGELGEYRQKLLMFLEISSYYDPGR LICDFPFDGLLEERALLLGRMGKHEQALFIYVHILKDTRMAEEYCHKHYDRNKDGNKDVY LSLLRMYLSPPSIHCLGPIKLELLEPKANLQAALQVLELHHSKLDTTKALNLLPANTQIN DIRIFLEKVLEENAQKKRFNQVLKNLLHAEFLRVQEERILHQQVKCIITEEKVCMVCKKK IGNSAFARYPNGVVVHYFCSKERETYPYYDLQVKVLRATNIRGTDLLSKADCYVQLWLPT ASPSPAQTRIVANCSDPEWNETFHYQIHGAVKNVLELTLYDKDILGSDQLSLLLFDLRSL KCGQPHKHTFPLNHQDSQELQVEFVLEKSQVPASEVITNGVLVAHPCLRIQGTLRGDGTA PREEYGSRQLQLAVPGAYEKPQLLPLQPPTEPGLPPTFTFHVNPVLSSRLHVELMELLAA VQSGPSAELEAQTSKLGEGGILLSSLPLGQEEQCSVALGEGQEVALSMKVEMSSGDLDLR LGFDLSDGEQEFLDRRKQVVSKALQQVLGLSEALDSGQVPVVAVLGSGGGTRAMSSLYGS LAGLQELGLLDTVTYLSGVSGSTWCISTLYRDPAWSQVALQGPIERAQVHVCSSKMGALS TERLQYYTQELGVRERSGHSVSLIDLWGLLVEYLLYQEENPAKLSDQQEAVRQGQNPYPI YTSVNVRTNLSGEDFAEWCEFTPYEVGFPKYGAYVPTELFGSELFMGRLLQLQPEPRICY LQGMWGSAFATSLDEIFLKTAGSGLSFLEWYRGSVNITDDCQKPQLHNPSRLRTRLLTPQ GPFSQAVLDIFTSRFTSAQSFNFTRGLCLHKDYVAGREFVAWKDTHPDAFPNQLTPMRDC LYLVDGGFAINSPFPLALLPQRAVDLILSFDYSLEAPFEVLKMTEKYCLDRGIPFPSIEV GPEDMEEARECYLFAKAEDPRSPIVLHFPLVNRTFRTHLAPGVERQTAEEKAFGDFVINR PDTPYGMMNFTYEPQDFYRLVALSRYNVLNNVETLKCALQLALDRHQARERAGA >gi568815583r:41968718_42194459|GENSCAN_predicted_CDS_8|4665_bp ntgccagcagatgtagcatcacctgaaagcggcagttgcaacagatttgaagtgacacta gagaaatccaataagaacttctccaaaaagattcagcagcacacagagaccggtgaggag gtgttacggatgtgtgtggcagtaaaaaagaagctgcagctctatttctggaaggacagg gaatttcatgaattgcaggtggatggaaaggggtccatcaaagagctctttccaacagga aaacagctggagcccttagttgcacctctggcagatggaaaagtggctgtgggccaggat gatctcaccgtggtactcaatgaggaagggatctgcacacagaaatgtgccctgaactgg acggacataccagtggccatggagcaccagcctccctacatcattgcagtgttgcctcga tatgttgagatccgaacatttgaaccgaggcttctggtccaaagcattgaattgcaaagg ccccgtttcattacctcaggaggatcaaacattatctatgtggccagcaatcattttgtt tggagactcatccctgtccccatggcaacccaaatccaacaacttctccaggacaagcag tttgaattggctctgcagctcgcagaaatgaaagatgattctgacagtgaaaagcagcaa caaattcatcacatcaagaacttgtatgccttcaacctcttctgccagaagcgttttgat gagtccatgcaggtctttgctaaacttggcacagactacagaaagcagttgcagtatccc aacccattgcctgtgctctccggggctgaattggagaaggctcacttagctctgattgac tacctgacacagaaacgaagtcaattggtaaagaagctgaatgactctgatcaccagtca agcacctcaccgctcatggaaggcactcccaccatcaaatccaagaagaagctgctacaa atcatcgacaccaccctgctcaagtgctatctccatacaaatgtggccctggtggccccc ttgctacgcctggagaacaatcactgccacatcgaggagagcgagcacgtgctaaagaag gctcacaagtacagtgagcttatcatcctgtatgagaagaaggggctccacgagaaagct ctgcaggtgctcgtggaccagtccaagaaagccaactcccctctgaaaggccacgagagg acagtgcagtatctgcagcatctgggcacagaaaacctgcatttgattttctcctactca gtgtgggtgctgagagacttcccagaagatggcctgaagatatttactgaagatctcccg gaagtggagtctctgccacgtgatcgagtcctcggcttcttaatagagaattttaagggt ctggctattccttatctggaacacatcatccatgtttgggaggagacaggctctcggttc cacaactgcctgatccagctatactgtgagaaggtgcaaggtctgatgaaggagtatctc ctgtccttccctgcaggcaaaaccccagtcccagctggagaggaagagggtgagctggga gaataccggcaaaagctcctcatgttcttggagatttccagctactatgatccaggccgg ctcatctgtgattttccctttgatggcctcttagaagaacgagctctcctgttggggcgc atggggaaacatgaacaagctcttttcatttatgtccacatcttgaaggatacaaggatg gctgaggagtactgccacaaacactatgaccgaaacaaagatggcaacaaagatgtgtat ctgtccctgcttcggatgtacctgtcgccccccagcattcactgcctggggccaatcaag ctggaactactggagccaaaagccaacctccaggccgctctgcaggtcctcgagctacac cacagcaaactggacaccaccaaggccctcaaccttctgccagcaaacactcagatcaat gacatacgcatcttcctggaaaaggtcttggaagaaaatgcacaaaagaaacggttcaat caagtgctcaagaaccttctccatgcagaattcctgagggtccaggaagagcggatttta caccagcaggtgaagtgcatcatcacagaggagaaggtgtgcatggtgtgtaagaagaag attgggaacagtgcatttgcaagataccccaatggagtggtcgtccattacttctgttcc aaagagcgggaaacctacccatactatgacctccaggtgaaggtgctgagggccacaaac atccggggcacagacctgctgtccaaagccgactgctatgtgcaactgtggctgcccacg gcgtccccaagccctgcccagactaggatagtggccaactgcagtgaccccgagtggaat gagaccttccactaccagatccatggtgctgtgaagaacgtcctggagctcaccctctat gacaaggacatcctgggcagcgaccagctctctctgctcctgtttgacctgagaagcctc aagtgtggccaacctcacaaacacaccttcccactcaaccaccaggattcacaagagctg caggtggaatttgttctggagaagagccaggtgcctgcatctgaagtcatcaccaacggg gttctggtggctcacccctgtctgagaatccagggcacgctccggggagatgggacagcc ccacgggaagagtacggctctaggcagctccagctggcagtgcctggagcctacgagaag ccacagctcttgcccctgcagcctcccacagagccaggcctcccacccacctttaccttc cacgtgaacccagtgctgagctccaggctacacgtggagctgatggagctgctggcagct gtgcagagtggccccagcgcagagttggaggctcagaccagcaagctgggcgaggggggc atcctgctctcctctctgcccctaggccaggaggaacagtgttctgtggccctgggggag ggccaggaggtggctctgagcatgaaggtggaaatgagctccggggacctagacctacgc cttggctttgacctctctgacggggagcaggagtttctggacaggaggaagcaggtcgtg tccaaggccctgcagcaagtgctgggattgagtgaggctctggacagtggccaggtgcct gtagtggctgtgttgggttccgggggtggaacccgagccatgtcttctctgtacggcagc ctggcagggttgcaggagctcggccttctagacactgtgacctacctgagtggggtctct gggtctacctggtgcatctccacactctacagggacccagcctggtcccaggtggccttg cagggccccattgagcgtgcccaggttcacgtctgcagcagtaagatgggagctttgtcc acggagcggctacagtactacactcaggaactgggggtccgggagcgcagtggccacagc gtgtccctcatcgacctctggggcctccttgttgagtatctcctgtaccaggaggagaac cctgccaagctgtctgaccaacaggaggcggtccgccagggtcagaacccttaccccatt tacaccagtgtcaacgtccgcaccaacttgagtggggaagattttgcagagtggtgcgag ttcacgccctatgaggttggcttccccaagtacggggcttatgttcccaccgagctcttc ggctcagaactcttcatgggacgattgctgcagctccagcctgaaccccggatctgttac ctgcaaggtatgtggggcagcgcctttgccaccagcctggatgagatcttcctaaagacc gccggctcgggcctcagcttcctggagtggtacagaggcagtgtgaatatcacagacgac tgccagaagcctcagctgcacaacccctcgaggctgcgaacgaggctcctcaccccacag gggcccttctcccaggctgtgctggacatattcacctcccgcttcacttccgcccagagc tttaacttcacccggggtctctgcttgcacaaggactatgtggctggcagggagttcgtg gcctggaaagacacacacccggacgccttccccaaccagctcacccccatgcgggactgc ctgtacctggtggacggaggctttgccatcaactctccgttcccactggctctgctgcct cagagagcagtggacctcattctgtcctttgactattccttggaagccccttttgaggtc ttgaagatgacagagaagtactgcctggaccgaggaatccccttccctagcatcgaggtg ggccctgaggacatggaggaggcccgtgagtgctatctgtttgccaaggctgaggacccc cgctcccccattgtgctgcacttccccctggttaaccgtaccttccgcacacacctggcc ccaggtgtggagcgacaaacagctgaggagaaggcctttggggactttgtcatcaacagg ccagacaccccctatggcatgatgaacttcacctatgagccccaggacttttatcggctg gtggccctcagtcgatacaacgtcctgaacaacgtggagaccttgaagtgcgccctccag ctggctctggaccggcaccaggctcgggagagggcaggggcctga