Result of GENSCAN for
pF1KE6650
GENSCAN 1.0 Date run: 8-Nov-116 Time: 15:07:55 Sequence gi568815584f:104601366_104803455 : 202090 bp : 57.50% C+G : Isochore 4 (57 - 100 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.04 Intr - 1634 1362 273 2 0 140 81 75 0.683 10.98 1.03 Intr - 1992 1972 21 0 0 116 75 -1 0.504 0.26 1.02 Intr - 2792 2603 190 1 1 75 -68 163 0.633 0.20 1.01 Init - 3502 3072 431 1 2 43 98 702 0.919 60.71 1.00 Prom - 4432 4393 40 -4.46 2.03 PlyA - 4515 4510 6 1.05 2.02 Term - 5594 5359 236 0 2 68 42 98 0.784 0.67 2.01 Init - 7627 7519 109 1 1 65 105 165 0.555 14.53 2.00 Prom - 11648 11609 40 0.84 3.04 PlyA - 13959 13954 6 1.05 3.03 Term - 16924 16688 237 1 0 72 53 168 0.457 8.86 3.02 Intr - 18912 18889 24 0 0 130 85 -20 0.154 1.25 3.01 Init - 24503 24501 3 2 0 113 81 0 0.167 1.86 3.00 Prom - 28086 28047 40 1.94 4.00 Prom + 29141 29180 40 -4.76 4.01 Init + 31501 31648 148 0 1 88 75 63 0.734 5.38 4.02 Intr + 31774 31830 57 2 0 79 92 35 0.600 3.00 4.03 Intr + 32953 32981 29 2 2 90 83 1 0.733 -1.24 4.04 Intr + 33272 33454 183 1 0 82 80 79 0.724 7.69 4.05 Intr + 38278 38358 81 0 0 75 65 41 0.522 1.49 4.06 Intr + 38770 38872 103 0 1 68 42 92 0.534 3.51 4.07 Intr + 39243 39331 89 1 2 60 66 13 0.219 -2.85 4.08 Intr + 40876 40938 63 0 0 90 47 68 0.251 2.96 4.09 Intr + 42258 42395 138 2 0 63 71 59 0.363 3.54 4.10 Term + 42994 43173 180 0 0 2 43 151 0.335 0.58 4.11 PlyA + 43843 43848 6 1.05 5.08 PlyA - 45059 45054 6 1.05 5.07 Term - 48761 48549 213 2 0 101 34 71 0.500 1.21 5.06 Intr - 49188 49139 50 1 2 75 103 0 0.600 -0.26 5.05 Intr - 50360 50241 120 0 0 19 65 119 0.470 4.34 5.04 Intr - 52247 51828 420 0 0 38 53 405 0.294 27.24 5.03 Intr - 52964 52943 22 2 1 108 92 11 0.453 1.74 5.02 Intr - 59300 59201 100 1 1 78 80 106 0.444 10.08 5.01 Init - 61365 61283 83 0 2 66 7 75 0.193 -2.20 5.00 Prom - 62578 62539 40 -1.66 6.00 Prom + 72103 72142 40 1.04 6.01 Init + 74981 75035 55 1 1 74 96 13 0.104 0.82 6.02 Intr + 77510 77682 173 0 2 114 94 6 0.174 4.66 6.03 Intr + 85677 85815 139 2 1 62 54 78 0.063 3.02 6.04 Intr + 86189 86274 86 0 2 75 69 33 0.160 0.80 6.05 Intr + 87572 87716 145 1 1 44 20 111 0.196 0.94 6.06 Intr + 88258 88374 117 2 0 63 114 77 0.924 9.41 6.07 Intr + 89585 89724 140 0 2 110 80 9 0.870 3.67 6.08 Intr + 89771 89937 167 1 2 13 47 107 0.503 -0.94 6.09 Intr + 90865 90900 36 1 0 86 94 15 0.345 0.41 6.10 Intr + 91598 91899 302 2 2 105 59 125 0.536 8.94 6.11 Intr + 92947 93115 169 2 1 67 64 104 0.855 6.10 6.12 Intr + 93614 93771 158 2 2 125 83 2 0.698 4.25 6.13 Intr + 93822 93895 74 1 2 82 78 13 0.377 -0.02 6.14 Intr + 94625 94676 52 1 1 99 37 50 0.232 0.62 6.15 Intr + 96578 96763 186 0 0 55 -3 140 0.292 2.47 6.16 Intr + 96868 96975 108 2 0 93 44 48 0.472 2.32 6.17 Intr + 98130 98233 104 1 2 32 92 27 0.359 -1.44 6.18 Intr + 99992 100391 400 1 1 113 84 1049 0.971 102.39 6.19 Intr + 101740 101855 116 2 2 72 86 249 0.999 24.44 6.20 Intr + 101930 102089 160 1 1 116 111 431 0.999 48.95 6.21 Intr + 102551 102584 34 0 1 124 101 69 0.993 10.21 6.22 Intr + 104670 104811 142 0 1 72 86 301 0.983 29.84 6.23 Intr + 105545 105686 142 1 1 106 77 219 0.993 23.71 6.24 Intr + 105888 106637 750 1 0 97 65 608 0.968 52.32 6.25 Intr + 107071 107222 152 2 2 57 59 218 0.985 16.87 6.26 Intr + 107306 107367 62 1 2 32 89 112 0.997 4.38 6.27 Intr + 107916 108018 103 0 1 93 94 131 0.999 15.54 6.28 Intr + 108255 108340 86 2 2 75 93 161 0.999 15.07 6.29 Intr + 108723 108823 101 0 2 103 87 210 0.997 23.32 6.30 Intr + 109572 109642 71 1 2 79 102 145 0.983 15.05 6.31 Intr + 109714 109821 108 0 0 93 64 257 0.983 25.45 6.32 Intr + 110264 110334 71 1 2 80 73 120 0.952 8.83 6.33 Intr + 111068 111238 171 2 0 97 44 316 0.531 28.36 6.34 Intr + 111399 111627 229 0 1 75 81 367 0.394 33.80 6.35 Intr + 111701 111944 244 1 1 69 81 218 0.998 17.51 6.36 Intr + 112080 112241 162 1 0 60 99 223 0.999 21.74 6.37 Intr + 112838 113491 654 0 0 89 88 753 0.944 68.69 6.38 Intr + 114165 114245 81 1 0 128 38 49 0.835 4.66 6.39 Intr + 114551 114652 102 0 0 56 69 56 0.707 1.81 6.40 Intr + 114798 115035 238 1 1 51 50 90 0.154 -0.59 6.41 Intr + 116344 116536 193 1 1 61 94 64 0.239 5.00 6.42 Term + 117430 117852 423 0 0 136 44 52 0.181 1.99 6.43 PlyA + 118223 118228 6 1.05 7.02 PlyA - 118798 118793 6 -5.21 7.01 Sngl - 120079 118844 1236 1 0 43 44 1295 0.026 116.78 7.00 Prom - 120173 120134 40 -6.94 8.00 Prom + 120883 120922 40 -1.36 8.01 Init + 122906 123097 192 1 0 92 80 400 0.884 38.72 8.02 Intr + 123534 123608 75 2 0 44 117 35 0.863 2.86 8.03 Intr + 124398 124493 96 2 0 101 56 60 0.539 5.47 8.04 Term + 124517 124759 243 1 0 62 55 88 0.036 -0.21 8.05 PlyA + 124789 124794 6 1.05 9.02 PlyA - 126544 126539 6 -3.94 9.01 Sngl - 128529 128011 519 0 0 108 49 584 0.976 52.54 9.00 Prom - 129150 129111 40 -8.50 10.00 Prom + 129236 129275 40 -6.84 10.01 Init + 130452 130627 176 2 2 76 39 121 0.790 3.27 10.02 Intr + 131420 131531 112 2 1 90 52 102 0.796 8.35 10.03 Intr + 133444 133584 141 0 0 49 34 94 0.179 1.83 10.04 Intr + 133655 133757 103 1 1 69 97 286 0.823 28.51 10.05 Intr + 137011 137073 63 2 0 107 100 64 0.993 9.33 10.06 Intr + 137963 138211 249 0 0 130 75 59 0.382 7.45 10.07 Intr + 138385 138451 67 2 1 81 100 37 0.750 3.31 10.08 Intr + 139236 139343 108 0 0 64 82 130 0.975 10.57 10.09 Intr + 139474 139555 82 1 1 84 67 69 0.999 5.19 10.10 Intr + 139752 139878 127 2 1 122 88 185 0.999 23.33 10.11 Intr + 140483 140637 155 0 2 116 92 219 0.999 26.08 10.12 Intr + 141702 141826 125 2 2 94 59 148 0.960 13.06 10.13 Intr + 143447 143544 98 2 2 87 91 136 0.928 14.62 10.14 Intr + 144871 145020 150 2 0 106 94 116 0.979 15.32 10.15 Intr + 148044 148138 95 1 2 71 85 7 0.763 -0.46 10.16 Intr + 148362 148418 57 2 0 95 99 25 0.935 4.52 10.17 Intr + 149185 149382 198 0 0 62 81 110 0.947 8.46 10.18 Intr + 149884 149982 99 0 0 61 97 26 0.802 2.27 10.19 Intr + 150365 150472 108 1 0 74 13 75 0.311 0.25 10.20 Intr + 150663 150727 65 2 2 95 93 -7 0.119 -0.84 10.21 Intr + 151767 151954 188 0 2 18 109 177 0.085 13.34 10.22 Intr + 154265 154459 195 0 0 77 105 153 0.761 16.50 10.23 Intr + 155239 155395 157 2 1 116 83 129 0.546 15.46 10.24 Intr + 156825 156920 96 0 0 54 77 72 0.149 2.99 10.25 Term + 158063 158120 58 2 1 91 54 70 0.170 1.96 10.26 PlyA + 158268 158273 6 1.05 11.19 PlyA - 160484 160479 6 1.05 11.18 Term - 169055 168976 80 0 2 65 54 97 0.919 2.84 11.17 Intr - 169482 169380 103 0 1 96 100 143 0.939 17.21 11.16 Intr - 171087 170760 328 2 1 94 85 263 0.445 23.58 11.15 Intr - 171727 171513 215 1 2 78 78 364 0.735 33.13 11.14 Intr - 172014 171886 129 0 0 113 53 190 0.999 20.07 11.13 Intr - 172215 172090 126 0 0 74 91 256 0.993 26.55 11.12 Intr - 172615 172547 69 1 0 108 75 148 0.966 16.03 11.11 Intr - 173638 173573 66 1 0 62 79 69 0.807 3.65 11.10 Intr - 173842 173711 132 1 0 81 81 393 0.971 39.92 11.09 Intr - 174434 174287 148 1 1 75 65 228 0.998 20.62 11.08 Intr - 175405 175294 112 2 1 47 88 225 0.993 19.01 11.07 Intr - 175977 175842 136 0 1 67 78 -34 0.108 -5.18 11.06 Intr - 176326 176204 123 1 0 110 91 73 0.784 11.76 11.05 Intr - 176958 176864 95 1 2 97 47 1 0.901 -2.26 11.04 Intr - 178851 178723 129 1 0 46 96 283 0.346 26.74 11.03 Intr - 180740 180643 98 1 2 100 71 18 0.645 2.12 11.02 Intr - 183852 183434 419 0 2 62 27 147 0.184 0.15 11.01 Init - 184450 184367 84 1 0 88 57 146 0.833 10.42 11.00 Prom - 187252 187213 40 -9.25 12.03 PlyA - 188214 188209 6 -0.45 12.02 Term - 190981 190868 114 1 0 54 55 92 0.574 2.00 12.01 Init - 194442 194119 324 0 0 20 117 180 0.736 9.65 12.00 Prom - 195387 195348 40 -2.36 13.00 Prom + 195540 195579 40 -10.90 13.01 Init + 195769 195903 135 0 0 87 90 59 0.895 4.27 13.02 Intr + 197213 197305 93 1 0 81 86 32 0.725 3.62 13.03 Intr + 199260 199335 76 2 1 58 83 25 0.862 -0.76 13.04 Term + 199816 201101 1286 2 2 91 44 1658 0.969 154.98 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 151837 151954 118 0 1 102 109 168 0.811 20.78 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815584f:104601366_104803455|GENSCAN_predicted_peptide_1|305_aa MRTRPGRGARDLPAPPLRSLPRPPRPAQPPAAFPPPLSPGPAMALNNFLFAQCACYFLAF LFSFVVVVPLSENGHDFRGRCLLFTEGMWLSANLTVQERERFTVQEWGPPAACRFSLLAS LLSLLLAAAHAWRTLFFLCKGHEGCCTVITQQAWTFLGGLSRATLARTGDNSQPGLGLAL SSPGPSDKANWGAPPGTIAPGKGRQMAVFTSCTQGHQSLDSGPTLNSGRYPEIQSLITPA KMLFPNKVTVTGTRGGTWAYLSGDTIQPTTLRFWMGVSRKLAVSLGGPRYCGAMGPNCVA GALLK >gi568815584f:104601366_104803455|GENSCAN_predicted_CDS_1|915_bp atgcgcacgcgtcccgggaggggcgcgcgggacctgccggcgccgccactgcgcagcctc ccgcggcctccccgcccggcgcagcctcccgcggccttcccgccgccgctctcgcccggg ccggccatggcgctcaacaatttccttttcgctcagtgcgcctgctacttcttggccttc ctgttcagcttcgtggtggtggtcccgctgtccgagaacggccacgacttccgcggccgc tgcctgctcttcaccgagggcatgtggctgagcgccaacctcacggtgcaggagcgcgag cgcttcacggtgcaggagtggggcccgccggccgcctgccgcttcagcctgctcgccagc ctcctgtctctgctgctggccgccgcgcacgcctggcgcacgctcttcttcctctgcaag ggacacgagggatgttgcactgtcatcacccagcaggcctggaccttcctgggcgggctc agccgggccacactcgccaggaccggcgacaactcccagcccggtctagggcttgcactg agctctccaggtcccagtgacaaggcgaactggggagccccacccggcaccatcgccccg ggaaagggacggcagatggctgttttcacttcctgcacgcagggacaccagtcactggat tcagggcccactctaaactcagggagatatcctgagatccagagcttaattacacctgca aagatgctatttccaaacaaagtcacagtcacgggtaccaggggtgggacttgggcatat ctttcgggggacaccattcaacccacgacactaaggttctggatgggggtcagtagaaag ctggctgtcagcctgggaggacccaggtactgtggggccatgggcccaaattgtgtggct ggagccctgctcaag >gi568815584f:104601366_104803455|GENSCAN_predicted_peptide_2|114_aa MMVGAAVTGLGALRTMRLVGSPDKTDQVVPANRREQESGSVTPPDVFKLVQLLDNEWMEL PLLPKLGEGVNFLSELPLGRIGDTPRVVKTLSGFSKRRVAVADLVAGLQGPTLK >gi568815584f:104601366_104803455|GENSCAN_predicted_CDS_2|345_bp atgatggttggagctgctgtcacaggactgggtgccctgagaacaatgcggctggtggga tccccagataagacagaccaggtggtgccagctaatcgtcgggagcaagagtctggaagt gtaacacccccagatgtgttcaaattggtccaactgctggataatgagtggatggaactt ccactcttgcccaagttaggggagggggtgaatttcctgagtgagctccctttggggaga attggggatactccaagagtggtaaaaaccctgagtggattctccaagagaagagtggcc gttgctgacctcgtggctggccttcaaggcccgactttaaagtga >gi568815584f:104601366_104803455|GENSCAN_predicted_peptide_3|87_aa MEWGFLSNELKLQPFLQGLWQTNPAEDLCGGFTAMVTSQSSLAQLPRKAHTMYTCTGVNM YKEKEKQNKYSHQRGPRASITGVLREE >gi568815584f:104601366_104803455|GENSCAN_predicted_CDS_3|264_bp atggagtggggatttttatcaaatgagctgaagcttcagcctttcctgcaagggctgtgg cagacaaatccagcagaggacctgtgcggaggcttcaccgcaatggtgacctcgcagtca agtcttgctcaacttccgaggaaagcccataccatgtacacttgtacaggtgtgaacatg tacaaggagaaagagaagcagaacaaatacagccaccagagaggacctagagcaagtata actggtgtcctcagagaggaatga >gi568815584f:104601366_104803455|GENSCAN_predicted_peptide_4|356_aa MGLHLCVMEEISSKAMRSGPGLFSPLSALNLCKAATLERLPAVPPDAPPDEGRQRVFADF LKPQQEGAGQLPFSDHSERGKLRLSKARQSDRALAWPPDPKICAPGEREERGKRILQRNP HAKGCVPLRQGPGVDMNTQHPLFTVFLNANPGDGGGVLPPGAPSMEVELRRPRVARVCRT SAVLPHGRIQGAEHKISDYPVMPTTCGVSKAQSCALPTLLIPSEDGPPSLKVSAQDSIRD PSRSERPRAHRLLTLWRDHRPKESQVPTPGGSTRGVQKEREEGGGIVGILPSYFALKMAN TAQSVRLPEAQPKADLSPGCPHSHPVQLGTCNLDLAAVSIGAIDSKVSARGLGTEH >gi568815584f:104601366_104803455|GENSCAN_predicted_CDS_4|1071_bp atgggtctccacctctgtgtcatggaagaaatctcttcaaaggccatgcgctcaggacct gggctcttttctcctctctctgccctcaacctttgcaaagcagcaaccctggagaggctg ccggctgtgcctcccgacgcgcctccagatgagggacgccagagggtctttgctgatttc ctgaaacctcagcaggaaggcgcagggcagctgcctttctcagaccactctgagagaggg aaactgaggctcagcaaggccagacaatctgaccgagcactggcctggcctcctgacccc aaaatctgtgcccctggggaaagagaagaaagaggtaaacgcattctacagcgcaatccc cacgccaaggggtgtgttcccctgcggcagggccctggggtggacatgaacacccagcat ccattattcaccgtgtttctcaacgccaaccccggggatgggggtggggtccttcctcct ggggctccttccatggaggtggagctccggcgccctcgtgtggcccgtgtgtgcaggacc tcagccgtgctgccccatgggaggatccagggagccgagcacaagatcagcgattaccca gtgatgcccaccacgtgcggggtctcaaaggcccagtcctgtgccctgcccaccctcctc atccctagtgaggatggccccccatccctgaaagtctcagcacaggactccatccgggat ccctcaaggtcggaacggccccgggcccacaggctcctcacgctctggagggatcacaga cctaaggagagccaggtccccaccccagggggctctaccaggggagttcaaaaagaaaga gaagaaggaggtggcattgtgggaatattaccatcgtacttcgccttgaagatggcaaat actgcccagtctgtgaggctccccgaggcccagccgaaagcagacctctccccgggctgc ccccacagccaccctgtgcaattgggcacctgcaacctggacttggcagcagtcagcatt ggagccatcgactcaaaagtctcagcacgtggattaggaactgagcactag >gi568815584f:104601366_104803455|GENSCAN_predicted_peptide_5|335_aa MPAEAWAQVTTQAERSHAREDPGKLVVQLLALAGAQGALKTPGGLWVLQAPLAGYSRNSP QVQFKFSGSLDTPGSPSRLARPGYTRFAQPPRQAWIHQVRPAASPGLDTPGSPSRLARPG YTRFAQPPRQAWIHQVRPAASPGLDTPGSPSRLARPGYTMFAQPPRQAWIHQVRPAAAPG LDTPGSSIREHLGCFYLRVLVNDAAVDTGCLVPVGRAVGLLLYLVLVTGPLLRPLLTDKT LPRFVPRFWGARFSVRLGGAARPLATCSCEQRRSVLAPKTQKAGGHSTRDSESFQQVVVT HGNRGYTEKSPSPSSGDASPMKTSFFCVTIFNQNV >gi568815584f:104601366_104803455|GENSCAN_predicted_CDS_5|1008_bp atgccagctgaagcctgggcgcaggtgaccacgcaggccgagaggtcccacgcccgcgaa gacccagggaagctggtggtgcagctcctggcgctggctggggcacagggagccctgaag acgcctgggggtctgtgggtgctgcaggcaccgctggctggttatagtcgcaacagcccc caggtacagttcaagttcagtggcagcctggatacaccaggttcgcccagccgcctcgcc cggcctggatacaccaggttcgcccagccgcctcgccaggcctggatacaccaggttcgc ccagccgcctcgcccggcctggatacaccaggttcgcccagccgcctcgcccggcctgga tacaccaggttcgcccagccgcctcgccaggcctggatacaccaggttcgcccagccgcc tcgccaggcctggatacaccaggttcgcccagccgcctcgcccggcctggttacaccatg ttcgcccagccgccgcgccaggcctggatacaccaggttcgcccagccgccgcgccaggc ctggatacaccaggttcatccatccgtgagcacctgggctgcttctaccttcgtgtgttg gtgaatgatgctgctgtggacacggggtgtctggtgcctgtgggccgggccgtgggtctg ctcctgtacctggtgctggtcactgggcccctcctgcggccacttctcactgacaaaacg ctgccccgctttgtccccaggttctggggcgcccgcttcagtgtccgtttggggggcgcg gcgcgccctctggcgacttgttcgtgtgaacaaagacgctcagtgctagcccctaaaacc caaaaagcaggaggacattccacgcgggatagtgagtcttttcaacaagtcgtcgtcacc catggaaacaggggctacacggaaaaaagcccgtccccttcatcgggagatgcatcccca atgaaaacttcctttttctgtgtaacaatttttaatcaaaatgtataa >gi568815584f:104601366_104803455|GENSCAN_predicted_peptide_6|2401_aa MSTVPFQQGHLFLWGRASALGTAAETEAQRGQVPSLHVAELGWSRDPRPQLKPPALTWEA APVGPEQVPRTNGPAQASGYLQLGAGTCVPGSEEGPTPRRGGSRQAMASRKQLRKPQAVA AGGTSPTSLQLNHIHPTFFTLLRPVLASLDQETDEAGQQRGGRENPPHCDTSAALMQLSP PTGEVRLPKTAETPSRVEGGATVRALRSAAVGAGCPQPLTRPRTERRPHHRPLAVASPGQ QQFSVLKARLVQWALPRPCPPIPGLSWALQPGKGDVASGDGPSGQVSAHFVEELTAVKRM THTAHVGTWKLLPEIDSAPSIKVQLLPGLEKLCGSCRLREGATWVLQERSFHRRVTGRGW GTLHLPQPQPLSVGNGMETQKEQMGTTGGLARLLAADQGLCRVRGTWEDAAKAPGPGALG RDPVLPCCDSVIPPHLLPVTWTQSEHPKVQSGRASIAKRHVAPTLRILFAQLGLTGSLAL AAWSRGQETLSRGWEDSCNVLAPSQPPNRRLREAFSEDRGGTWGLGGGISEYVWSGGRKP RWEDSGDELLATCPHCPADPLQGPDQALCPSQSLTTDLYTSLPATAMYETTIFIRDAASV SDWAGMGSGLSHGYWALQSLDGPALPQPELVPAVEKIAKNANSCACGEVATPYSRGWGAL RTHSCAVGTGTFQRIVPHSPVPLRSVNCGFLLESLQKWTPPPTQRSAAMRSQGSVRSSPG QGPEWVGRGGRKVLRIWLGKMSVKEGAQRKWAALKEKLGPQDSDPTEANLESADPELCIR LLQMPSVVNYSGLRKRLEGSDGGWMVQFLEQSGLDLLLEALARLSGRGVARISDALLQLT CVSCVRAVMNSRQGIEYILSNQGYVRQLSQALDTSNVMVKKQVFELLAALCIYSPEGHVL TLDALDHYKTVCSQQYRFSIVMNELSGSDNVPYVVTLLSVINAVILGPEDLRARTQLRNE FIGLQLLDVLARLRDLEDADLLIQLEAFEEAKAEDEEELLRVSGGVDMSSHQEVFASLFH KVSCSPVSAQLLSVLQGLLHLEPTLRSSQLLWEALESLVNRAVLLASDAQECTLEEVVER LLSVKGRPRPSPLVKAHKSVQANLDQSQRGSSPQNTTTPKPSVEGQQPAAAAACEPVDHA QSESILKVSQPRALEQQASTPPPPPPPPLLPGSSAEPPPPPPPPPLPSVGAKALPTAPPP PPLPGLGAMAPPAPPLPPPLPGSCEFLPPPPPPLPGLGCPPPPPPLLPGMGWGPPPPPPP LLPCTCSPPVAGGMEEVIVAQVDHGLGSAWVPSHRRVNPPTLRMKKLNWQKLPSNVAREH NSMWASLSSPDAEAVEPDFSSIERLFSFPAAKPKEPTMVAPRARKEPKEITFLDAKKSLN LNIFLKQFKCSNEEVAAMIRAGDTTKFDVEVLKQLLKLLPEKHEIENLRAFTEERAKLAS ADHFYLLLLAIPCYQLRIECMLLCEGAAAVLDMVRPKAQLVLAACESLLTSRQLPIFCQL ILRIGNFLNYGSHTGDADGFKISTLLKLTETKSQQNRVTLLHHVLEEAEKSHPDLLQLPR DLEQPSQAAGINLEIIRSEASSNLKKLLETERKVSASVAEVQEQYTERLQASGHLGLGLA GEAALIEASPRVVPARGSHGTVTCPCPQASISAFRALDELFEAIEQKQRELADYLCEDAQ QLSLEDTFSTMKAFRDLFLRALKDGQRHLSSGRHSHVGPALLRLREGDAQAHGAPEGCHA GVTGPHLPVQENKDRKEQAAKAERRKQQLAEEEARRPRGEDGKPVRKGPGKQEEVCVIDA LLADIRKGFQLRKTARGRGDTDGGSKAASMDPPRATEPVATSNPAGDPVGSTRCPASEPG LDATTASESRGWDLVDAVTPGPQPTLEQLEEGGPRPLERRSSWYVDASDVLTTEDPQCPQ PLEGAWPVTLGDAQALKPLKFSSNQPPAAGSSRQDAKDPTSLLGVLQAEADSTSEGLEDA VHSRGARPPAAGPGGDEDEDEEDTAPESALDTSLDKSFSEDAVTDSSGSGTLPRARGRAS KGTGKRRKKRPSRSQEGYLLNWCLLQAGRNLSAGPGHAGLERAVSSHPEAMGGSMEKQIT PRTPSLLGGDQPKVNQPAPPALLRASPVSVHHKYADRWAWGLGSRCTPEVCWCPSEARAV VTPEKLLRTACPRCWGTAFTLGSSFCFQGHLPSVALCWVGTFVAAALTTAAGVVSEPPLH EHHAVWLISTGGDLWNQPLQRGSVFAAPRPSVPPSPPFFHHASGPGPRPSERAQATGHAA ILPREALLGARLGLGPGNQNSVPYPAGALLEPSWGVVAGNPTGTSALPGLVPSWTACTCQ PPTCFLKATLAHTRMRPVQPAKGQSGGAASCQCPPQLCLPFSPARFNQNAMLCKSLLLGG G >gi568815584f:104601366_104803455|GENSCAN_predicted_CDS_6|7206_bp atgagcaccgttcccttccagcaaggccacctcttcctgtggggaagggcctcagcccta ggtacagctgcagaaactgaggctcaaaggggtcaagtcccttcactccatgtggcagag ctggggtggtcaagagaccccagaccccagctgaagcctcccgccctgacatgggaagcc gctcctgtggggcctgagcaggtgcccaggaccaacgggccagcccaggcatctgggtac ctgcagctgggggccggcacttgtgtacccggctccgaggaaggaccgacacccaggagg ggaggctccaggcaggccatggcttccaggaagcagctccggaagccgcaggcagtggct gcaggtgggacttctccaacctctctccaactaaatcacattcaccccaccttcttcacc ctgctccggcctgtgctggcctctctggaccaggagacagatgaggccggacagcagagg ggtggcagagaaaacccaccccattgcgacacctccgcggccctcatgcagctgtctcca ccaaccggcgaagtgcggctgcccaagaccgccgagaccccatcaagggtggaaggggga gccaccgtccgagccttgcggagcgcggcagtgggcgccggctgcccgcagcccctgacc cggccccggacggagcgccggccgcaccaccgccctctggccgttgcctcaccggggcag cagcaattttctgttctaaaagccaggttggtgcagtgggccctgcccaggccctgccct cccatccctggactgtcatgggccctgcagcccggcaaaggggatgtcgctagtggggac ggaccaagtggccaggtgagcgcccactttgtggaggagctgacggctgtcaagcgaatg acacacaccgcacatgtggggacgtggaagctcctacctgaaatagactctgcgccttcc atcaaagtgcagttacttcctgggttggaaaagttatgcggttcatgcaggctgcgggag ggtgcgacgtgggtcctgcaggagcgttcatttcacagaagggtgactggccgtggctgg ggcaccctccatctccctcagccccaacctctgtctgttggaaatggcatggagacccag aaggagcagatgggcaccactggaggcctggccaggctcctggccgccgatcaaggcctt tgcagggtcagagggacatgggaagatgctgccaaggcccctggccctggtgccctgggc agggaccctgtgctcccgtgctgtgacagcgttataccaccccacctgcttcctgtgacc tggacacagtctgagcaccccaaggtccaaagtgggagagcaagcattgccaagcggcat gttgcacccacgctgaggatcttgtttgcccagttgggcctgacgggctccctggcactg gctgcctggagcagaggtcaagagacgctgagcaggggctgggaagattcatgcaacgtc ctagctccgtcccagccgccaaacaggaggttgagagaggctttttctgaggacagagga gggacctggggcctcggaggaggcatctctgagtatgtctggtccggggggaggaaaccc aggtgggaggattctggtgacgagctcctggccacctgccctcattgcccagcagacccc ctgcaggggcctgatcaggccctgtgcccttcccagtccctaaccacagatctgtacacg tcactcccagccacagccatgtatgaaacgaccatattcatccgagatgcagcttcagtt agtgattgggcaggcatggggtctggcctgagccatgggtactgggccctgcagagcctg gatggtcctgccctgcctcagccagagctggtgccggctgtagaaaagattgcgaagaac gcaaattcctgtgcctgtggggaggtggccacgccctacagccggggctggggagctctg aggacacattcctgcgctgttggcactggcaccttccagcgtattgttccccatagcccc gtgcccctgagatcagtaaactgtggattccttctggaatccttgcagaagtggacacca ccccccactcagcggtcagcagcgatgagaagccaggggagcgtgaggagcagcccagga cagggcccagagtgggtgggcagaggtggccggaaggtcttgcgcatctggctcggcaag atgtcggtgaaggagggcgcacagcgcaagtgggcagcgctgaaggagaagctggggcca caggattcggaccccacggaggccaacctggagagcgcggaccccgagctgtgcatccgg ctgctccagatgccctctgtggtcaactactccggcctgcgcaagcgcctggagggcagc gacggcggctggatggtgcagttcctggagcagagcggcctggacctgctgctggaggcg ctggcgcggctgtcgggccgcggcgttgcacgtatctccgacgccctgctgcagctcacc tgcgtcagctgcgtgcgcgccgtcatgaactcgcggcagggcatcgagtacatcctcagc aaccagggctacgtgcgccagctctcccaggccctggacacatccaacgtgatggtgaag aagcaggtgtttgagctactggctgccctgtgcatctactctcccgagggccacgtgctg accctggacgccctggaccactacaagacggtgtgcagccagcagtaccgcttcagcatt gtcatgaacgagctctccggcagcgacaacgtgccctacgtggtcaccctgcttagcgtg atcaacgccgtcatcttgggccccgaggacctgcgcgcgcgcacccagctgcggaacgag tttatcgggctgcagctgctggacgtcctggctcgcctgcgagacctggaggatgccgac ctgctgatccagctggaggctttcgaggaggctaaggccgaggacgaggaggagctgctg cgagtctctggcggggtcgacatgagcagccaccaggaggtctttgcctccctgttccac aaggtgagctgctccccggtgtctgcccagctcctgtcggtgctgcagggcctcctgcac ctggagcccaccctccgctccagccagctgctctgggaggccctggagagcctcgtgaac cgggccgtgctcctggccagcgatgcccaggaatgcaccctggaggaagtggttgagcgg ctcctgtctgtcaaggggcgacccagaccgagccccctggtcaaggcccataaaagcgtc caggccaacctagaccagagccagaggggcagctccccgcaaaacactacaacccccaag cccagcgtggagggccagcagccagcagcagctgctgcctgcgagcccgtggaccacgcc cagagtgagagcatcctgaaagtttcgcagcccagagccctggagcagcaggcgtccacc ccacccccacccccacccccacccctgctccctggttccagtgccgagccccctccccct cccccaccaccccccctgcccagtgtgggggctaaggccctcccaacagcacccccgccc ccacccctgccaggcctgggggccatggcccccccagcacctcctctaccaccacccctg ccaggctcctgtgagttcctgcccccaccacctccaccactcccgggcttgggatgcccg cccccacccccacccctgctgcctggtatgggctggggccctcctccacccccacctcca ctactgccctgcacctgcagcccccccgtggcgggaggcatggaggaggtcatcgtggcc caggtggaccatggcttgggctcagcatgggtccccagccatcggcgggtgaacccaccc acactgcgcatgaagaagctgaactggcagaagctgccatccaacgtggcacgtgagcac aactctatgtgggcgtccctgagcagccccgacgccgaggctgtggagcccgacttctcc agcatcgagcgactattctccttccctgcagccaagcccaaggagcccaccatggtggcc ccccgggccaggaaggagcccaaggagatcactttcctcgatgccaagaagagcctgaac ctcaacatcttcctgaagcaatttaagtgctccaacgaggaggtcgctgctatgatccgg gctggagataccaccaagtttgatgtggaggttctcaaacaactccttaagctccttccc gagaagcacgagattgaaaacctgcgggcattcacagaggagcgagccaagctggccagc gccgaccacttctacctcctcctgctggccattccctgctaccagctgcgaatcgagtgc atgctgctgtgtgagggcgcggccgccgtgctggacatggtgcggcccaaggcccagctg gtgctggctgcctgcgaaagcctgctcaccagccgccagctgcccatcttctgccagctg atcctgagaattgggaacttcctcaactacggcagccacaccggtgacgccgacggcttc aagatcagcacattgctgaagctcacggagaccaagtcccagcagaaccgcgtgacgctg ctgcaccacgtgctggaggaagcggaaaagagccaccccgacctcctgcagctgccccgg gacctggaacagccctcgcaagcagcagggatcaacctggagatcatccgctcagaggcc agctccaacctgaagaagcttctggagaccgagcggaaggtgtctgcctccgtggccgag gtccaggagcagtacaccgagcgcctccaggcaagtgggcacctgggcctggggctggcg ggagaggctgccctgatagaggcctcaccccgggtggtgcccgcgcggggctctcacggg actgtcacgtgcccttgcccccaggccagcatctcggccttccgggcactggatgagctg tttgaggccatcgagcagaagcaacgggagctggccgactacctgtgtgaggacgcccag cagctgtccctggaggacacgttcagcaccatgaaggctttccgggaccttttcctccgc gccctgaaggatgggcagaggcacctttcgtcgggccgacacagccatgtgggccctgcg ctgctgcggctcagggagggggacgcccaggcccatggagcccctgagggatgccacgct ggggtgacggggccacatctgccagtgcaggagaacaaggaccggaaggagcaggcggcg aaggcagagaggaggaagcagcagctggcggaggaggaggcgcggcggcctcggggagag gacgggaagcctgtcaggaaggggcccgggaagcaggaggaggtgtgtgtcatcgatgcc ctgctggctgacatcaggaagggcttccagctgcggaagacagcccggggccgcggggac accgacgggggcagcaaggcagcctccatggatcccccaagagccacagagcctgtggcc accagtaaccctgcaggagatcccgtgggcagcacgcgctgtcccgcctctgagcccggc cttgatgctacaacagccagcgagtcccggggctgggaccttgtagacgccgtgaccccc ggccctcagcccaccctggagcagttggaggagggtggtccacggcccctggagaggcgt tcttcctggtatgtggatgccagcgatgtcctaaccactgaggatccccagtgcccccag cccttggagggggcctggccggtgactctgggagatgctcaggccctgaagcccctcaag ttctccagcaaccagccccctgcagccggaagttcaaggcaagatgccaaggatcccacg tccttgctgggcgtcctccaggccgaggccgacagcacaagtgaggggctggaggacgct gtccacagccgtggtgccagaccccctgcagcaggcccaggtggggatgaggacgaggac gaggaggacacggccccagagtccgcactggacacatccctggacaagtccttctccgag gatgcggtgaccgactcctcggggtcgggcacactccccagggcccggggccgggcctca aaggggaccgggaagcgaaggaagaagcgtccctccaggagccaggaaggttacctgctc aactggtgcctcctgcaggcaggacgcaacctcagtgctggccccgggcatgcgggcctc gagagggcagtgtcctcccaccccgaggccatgggtgggtctatggagaagcagattacc ccccgcacaccgagtcttctggggggcgaccagccaaaggtcaatcagccagcacctcca gccttgctcagagccagcccggtgtcggtgcatcacaaatatgctgaccgctgggcctgg ggcttaggctcaaggtgcacacctgaggtctgctggtgcccatcagaggcaagagcagtc gtgaccccggagaagcttctccggacagcttgtcctcgctgttggggcacggccttcacc ctgggttccagcttttgcttccagggtcatcttccgagtgtggctctctgctgggtgggg acgtttgtggcagcagcgctgaccacggctgcgggggtggtttctgaacctccactgcac gaacaccacgctgtctggttaataagcaccggtggtgacctgtggaaccaaccgctgcag cgcggttctgtgttcgccgcccctcgtccgagcgttcccccctcccctccctttttccat cacgcctcaggcccaggcccaaggccaagtgagagagcccaggccacaggacatgctgcc attctgccaagagaggctcttctgggggccaggctgggactgggccccggaaaccaaaac tccgtgccttacccagccggggccctcctggagccttcttggggtgttgtggctgggaac ccgacaggcaccagtgccctgccaggcctggtgccctcctggaccgcctgcacgtgccag cctcccacctgcttcctaaaggcaaccctggcccacacccgcatgcgcccggtgcagcct gccaagggccagtcggggggtgctgcgtcctgccagtgtccaccacagctctgcctgccc ttcagcccagcaaggtttaatcaaaatgcaatgctttgcaagtctttactgcttggaggt ggctga >gi568815584f:104601366_104803455|GENSCAN_predicted_peptide_7|411_aa MRLHRRPQQHPHEDDADVHSSIHTRLRRRPQQHPHEDDADVHSSIHTRLRRRPQQHPHET TQTSTAASTRGRRRRPQQHPHETTQTSIAASTRGRRRRPQQHRGRRRRPQQHPHETTQTS TAASTRDYADVHSSIHTRTTQTSTAASTGGRRRRPQQHPHEDDADVHSSIHTRTTQTSTA ASTRGRRRRPQQHPHETTQTSTAASTRGRRRRPQQHPHETTQTSTAASTRDDADVHSSIH TRRRRRPQQHPHEDDADVHSSIHTRTTQTSTAASTRGRRRRAQQHPHETTQTSTAASTRD YADVHSSIHTRLRRCPQQHPHEDDADVHSSIHTRLRRRPQQHPHEDDADVHSSIHTRTTQ TSTAASTRGLRKCPQQQDSQKPQTGSNPDVHGQKSRQTKCGPCMQWNVLQP >gi568815584f:104601366_104803455|GENSCAN_predicted_CDS_7|1236_bp atgagactacacagacgtccacagcagcatccacacgaggacgacgcagacgtccacagc agcatccacacgagactacgcagacgtccacagcagcatccacacgaggacgacgcagac gtccacagcagcatccacacgagactacgcagacgtccacagcagcatccacacgagact acgcagacgtccacagcagcatccacacgaggacgacgcagacgtccacagcagcatcca cacgagactacgcagacgtccatagcagcatccacacgaggacgacgcagacgtccacag cagcatcgaggacgacgcagacgtccacagcagcatccacacgagactacgcagacgtcc acagcagcatccacacgagactacgcagacgtccacagcagcatccacacgaggacgacg cagacgtccacagcagcatccacaggaggacgacgcagacgtccacagcagcatccacac gaggacgacgcagacgtccacagcagcatccacacgaggacgacgcagacgtccacagca gcatccacacgaggacgacgcagacgtccacagcagcatccacacgagacgacgcagacg tccacagcagcatccacacgaggacgacgcagacgtccacagcagcatccacacgagacg acgcagacgtccacagcagcatccacacgagacgacgcagacgtccacagcagcatccac acgagacgacgcagacgtccacagcagcatccacacgaggacgacgcagacgtccacagc agcatccacacgaggacgacgcagacgtccacagcagcatccacacgaggacgacgcaga cgtgcacagcagcatccacacgagactacgcagacgtccacagcagcatccacacgagac tacgcagacgttcacagcagcatccacacgagactacgcagatgtccacagcagcatcca cacgaggacgacgcagacgtccacagcagcatccacacgagactacgcagacgtccacag cagcatccacacgaggacgacgcagacgtccacagcagcatccacacgaggacgacgcag acgtccacagcagcatccacacgaggactacgcaaatgtccacagcagcaggattcacag aagccccaaactggaagcaacccagatgtccatggacagaagagcagacaaacaaaatgt ggtccctgcatgcaatggaatgtgcttcagccatga >gi568815584f:104601366_104803455|GENSCAN_predicted_peptide_8|201_aa MSGTRASNDRPPGAGGVKRGRLQQEAAATGSRVTVVLGAQWGDEGKGKVVDLLATDADII SRCQGLPGSPQGLQVVEGVKAACWVGVTPGALSVGQPRPLTLLRPLCSREAQAPPYELPA LGGLGPPQVLYTAFTWLRAPSCGDGSGSGHSLLCPPPSPPTAPLTRSCTREHGGCSRLEP IPHSGHQAAPARPPPPGHPIA >gi568815584f:104601366_104803455|GENSCAN_predicted_CDS_8|606_bp atgtcggggacccgagcctccaacgaccggccccccggcgcaggcggcgtcaagcggggg cggctgcagcaggaggcggcggcgaccggctcccgcgtgacggtggtgctgggcgcgcag tggggggacgagggcaaaggcaaggtggtggacctgctggccacggacgccgacatcatc agccgctgccagggcttacctggctccccgcaaggtctgcaggtggtggagggggtaaaa gctgcctgctgggtgggggtgaccccgggcgccctcagcgtggggcagccccggcccctg accctccttagacctctctgctcccgtgaggcccaggcccctccctatgagctgccagct ctgggcgggctggggcccccacaggtgctgtacacagcattcacctggctccgcgctccc agctgtggagatggttctggatctgggcactccctgctgtgccccccacccagtcccccc acagccccgctcactcgcagctgcacacgggagcacggaggatgcagcaggctggagccc atcccgcactccggccaccaggctgcccccgccaggccacccccaccaggccaccctata gcctga >gi568815584f:104601366_104803455|GENSCAN_predicted_peptide_9|172_aa MPTPRSSPRRRRHAPPHDADATLLPTTPTPRSSPRRRRHAPPHDADATLLPTTPTPRSSR RRRHAPPHDADATLLPTTPTPRSSPRRRRHAPPHDADATLLPTTPTPRSSPPRRRHAPPH DADATLLPHADATSSLPRRRHAADTCKASPHTGFVLAPHLHTAQMAHALPLH >gi568815584f:104601366_104803455|GENSCAN_predicted_CDS_9|519_bp atgccgacgccacgctcctccccacgacgccgacgccacgctcctccccacgacgccgac gccacgctcctccccacgacgccgacgccacgctcctccccacgacgccgacgccacgct cctccccacgacgccgacgccacgctcctccccacgacgccgacgccacgctcctcccga cgccgacgccacgctcctccccacgacgccgacgccacgctcctccccacgacgccgacg ccacgctcctccccacgacgccgacgccacgctcctccccacgacgccgacgccacgctc ctccccaccacgccgacgccacgctcctccccaccacgccgacgccacgctcctccccac gacgccgacgccacgctcctcccccacgccgacgctacctcctccctcccacgccgacgc catgctgctgacacgtgcaaggcgtctccacacacaggctttgtccttgctcctcacctc cacactgcccagatggcgcatgccctgcccctgcactga >gi568815584f:104601366_104803455|GENSCAN_predicted_peptide_10|1023_aa MVTGLGAQGRAAWNKQTLRGPLQQDPWTHLLGQQGPGKEKRETGGAGGTSASVQEEEALD LTPDCPQKAADAVVGMKVLHDPSGEELPHMCRGKDRAPDQTAALLPRCRMPTSQSRTDAS ELATKPDTPKSNSSALQGQTKPHGGNNAGHTVVVDGKEYDFHLLPSGIINTKAVSFIGNG VVIHLPGLFEEAEKNEKKGLKDWEKRLIISDRAHLGTFPTGVQGTAPPAPTIASRPCSYM ATEIREVPKAFLLHMAPLACTLPFSKSFKLGAGSGVTSPFAVFDFHQAVDGLQEVQRQAQ EGKNIGTTKKGIGPTYSSKAARTGLRICDLLSDFDEFSSRFKNLAHQHQSMFPTLEIDIE GQLKRLKGFAERIRPMVRDGVYFMYEALHGPPKKILVEGANAALLDIDFGTYPFVTSSNC TVGGVCTGLGIPPQNIGDVYGVVKAYTTRVGIGAFPTEQINEIGGLLQTRGHEWGVTTGR KRRCGWLDLMILRYAHMVNGFTALALTKLDILDVLGEVKVGVSYKLNGKRIPYFPANQEM LQKVEVEYETLPGWKADTTGARRWEDLPPQAQNYIRFVENHVGVAGLSQRDHHDRNELIT AQTKATGCLPKPRSKLLHSGKLPVSLQVNHQSDAGQFVPSDVWTCLEFVPSGRLTVLLAS GVELQTFTRSVTALKAVCLELFIPPGGFVALLASEVKLHTFPLDIKVLQIPTRLAGYRVP MGASTNLELDTGYRLLLARVLSSSLPGAGGSDCGARRAHAHPELTLTRKRHGEAHATGRV GSVPAGAGESRLCCDVTASLVRGWRPGSCVAPGPAAMPKRSCPFADVAPLQLKVRVSQRE LSRGVCAERYSQEVFEKTKRLLFLGAQAYLDHVWDEGCAVVHLPESPKPGPTGAPRAARG QMLIGPDGRLIRSLGQASEADPSGVASIACSSCVRAVDGKAVCGQCERALCGQCVRTCWG CGSVACTLCGLVECSPAAFGVLLMACTGPRLARPLQGSPAGCRWRCSDMYEKVLCTSCAM FET >gi568815584f:104601366_104803455|GENSCAN_predicted_CDS_10|3072_bp atggtgacaggactcggggctcagggccgggctgcctggaacaagcagaccctgaggggc cccctgcagcaggatccatggacccatctactgggccagcaggggccaggaaaggagaag agggagaccggtggggctggaggcaccagtgcgtctgtgcaagaggaggaagccctagac ctcacccctgactgcccccaaaaggcagcagatgcagtcgtgggcatgaaggtactccat gaccccagcggagaggaattaccacatatgtgccgaggcaaggacagagcccctgaccaa actgctgccctccttccaaggtgcaggatgcccacatcccagtcccgcacagacgcatca gagctggccaccaaaccagacaccccaaaatccaacagcagtgccctgcagggacagacg aagccccatgggggcaacaacgccggccacacggtggtggtggatgggaaagagtacgac ttccacctgctgcccagcggcatcatcaacaccaaggccgtgtccttcattggcaacggg gtggtcatccacttgccaggcttgtttgaggaagcagagaagaatgaaaagaaaggcctg aaggactgggagaagaggctcatcatctctgacagagcccaccttggtacgtttcccact ggagtacagggaacagcccctcctgcccccaccattgccagccggccctgctcctacatg gccaccgagatcagggaagtccccaaggccttcttgctccacatggctccattagcttgt acattacccttttcaaagagcttcaagttgggagctgggtcaggggtcactagcccattt gcagtgtttgattttcaccaggctgtcgacggacttcaggaagtgcagcgccaggcacaa gaggggaagaatataggcaccaccaagaagggaatcggaccaacctactcttccaaagct gcccggacaggcctccgcatctgcgacctcctgtcagattttgatgagttttcctccaga ttcaagaacctggcccaccagcaccagtcgatgttccccaccctggaaatagacattgaa ggccaactcaaaaggctcaagggctttgctgagcggatcagacccatggtccgagatggt gtttactttatgtatgaggcactccacggcccccccaagaagatcctggtggagggtgcc aacgccgccctcctcgacattgacttcgggacctacccctttgtgacttcatccaactgc accgtgggcggtgtgtgcacgggcctgggcatccccccgcagaacataggtgacgtgtat ggcgtggtgaaagcctataccacacgtgtgggcatcggggccttccccaccgagcagatc aacgagattggaggcctgctgcagacccgcggccacgagtggggagtgaccacaggcagg aagaggcgctgcggctggctcgacctgatgattctaagatatgctcacatggtcaacgga ttcactgcgctggccctgacgaagctggacatcctggacgtactgggtgaggttaaagtc ggtgtctcatacaagctgaacgggaaaaggattccctatttcccagctaaccaggagatg cttcagaaggtcgaagttgagtatgaaacgctgcctgggtggaaagcagacaccacaggc gccaggaggtgggaggacctgcccccacaggcccagaactacatccgctttgtggagaat cacgtgggagtcgcaggactctcccagagagaccatcatgataggaatgaactgatcact gctcagacaaaagccacaggctgcctgccaaagcctagaagcaagctgctgcactctgga aagctgccagtttctttacaagttaaccatcaatctgatgcagggcagtttgttccttct gatgtttggacgtgtttggagtttgttccttctggcagactcacggtcttgctggcttca ggagtggagctgcagaccttcacaaggagtgttacagctcttaaggcagtgtgtctggag ctgttcattcctcccggtgggtttgtggctttgctggcctcagaagtgaagctacacacc ttcccactagacataaaggttctccaaatccccaccagattagctggatacagagtgccc atgggtgcatctacaaaccttgagctagacacagggtaccgattgctgctggcccgggtg ctaagctcctcactgcctggggccggtggctccgattgcggggcccgccgagcccacgcc cacccggaactcacgctgacccgcaagcgccacggcgaagcccacgccacaggacgggtc ggttctgtacccgccggggcaggggagagccgcctctgctgtgacgtcacggcgtcgttg gtaaggggctggcggccggggagctgcgtagctcccggccccgcggccatgcccaagcgg agctgccccttcgcggacgtggccccgctacagctcaaggtccgcgtgagccagagggag ttgagccgcggcgtgtgcgccgagcgctactcgcaggaggtcttcgagaagaccaagcga ctcctgttcctcggggcccaggcctacctggaccacgtgtgggatgaaggctgtgccgtc gttcacctgccagagtccccaaagcctggccctacaggggccccgagggctgcacgtggg cagatgctgattggaccagacggccgcctgatcaggagccttgggcaggcctccgaagct gacccatctggggtagcgtccattgcctgttcctcatgcgtgcgagccgtggatgggaag gcggtctgcggtcagtgtgagcgagccctgtgcgggcagtgtgtgcgcacctgctggggc tgcggctccgtggcctgtaccctgtgtggcctcgtggaatgcagcccagcagcctttggc gtcctgctgatggcctgcactggcccacgcctggcccgtcctctgcagggctctccagct ggctgccggtggcgctgcagtgacatgtacgagaaagtgctgtgcaccagctgtgccatg ttcgagacctga >gi568815584f:104601366_104803455|GENSCAN_predicted_peptide_11|863_aa MVVPPARTMFLPGCVCRAEACSMVERKEAGRVGCGPLMGCRQRSRLLNVLEKVNGPPAAV GAMDVSAVGTTVAAVSWRPLPGPAGLTLLWRSSSVPPGTLPAAATTVSAKCLSSSFLRTG DFERMFRELRTWWPRGADTPGGSGGGQSRDVEGHQLALRGPPSPAHGAGPVAGGGDVGGG VELRGTYVRVCAHSGVCEIPGEYIKTWRPRYFLLKNDGTFIGYKERPQDVDQREAPLNNF SVALSPRLGLGASGIRERLGASSVPGGTWDRALLGAGPEPATEPQRLHTPLTHTSQGPAR SHSPQGVRAVGVAVPQMYVCPRCGCAPGVPVPQVWLCPRCACAPGVGVPQVWVCSRWLYF PECQLMKTERPRPNTFIIRCLQWTTVIERTFHVETPEEREEWTTAIQTVADGLKKQEEEE MDFRSGSPSDNSGAEEMEVSLAKPKHRVTMNEFEYLKLLGKGTFGKVILVKEKATGRYYA MKILKKEVIVAKDEVAHTLTENRVLQNSRHPFLTALKYSFQTHDRLCFVMEYANGGELFF HLSRERVFSEDRARFYGAEIVSALDYLHSEKNVVYRDLKLENLMLDKDGHIKITDFGLCK EGIKDGATMKTFCGTPEYLAPEVLEDNDYGRAVDWWGLGVVMYEMMCGRLPFYNQDHEKL FELILMEEIRFPRTLGPEAKSLLSGLLKKDPKQRLGGGSEDAKEIMQHRFFAGIVWQHVY EKKVRLLPAYSRARMLPTYPHSRMHVARSPDFPHTRPHLRSLLQSWYKEGLAAPTSAPGA QRLWHCRVPPGNWPGPHFLLPSELSPPFKPQVTSETDTRYFDEEFTAQMITITPPDQDDS MECVDSERRPHFPQFSYSASGTA >gi568815584f:104601366_104803455|GENSCAN_predicted_CDS_11|2592_bp atggtggtgccgcctgcccgcaccatgttcctcccggggtgtgtgtgtcgggctgaggcc tgctccatggtggagcggaaggaggcggggagggtgggttgcgggcccctcatgggctgc cgtcagcggagccgtctgctcaatgtgctggagaaggtaaatgggcccccggcagctgtc ggggcgatggatgtgtcggcagtggggaccacggtggccgctgtcagctggcgcccgctc ccagggcctgctgggctcactttgctgtggagaagcagctcggtgccgcctggcaccctg ccagccgctgccaccaccgtctctgcgaagtgtttatccagcagtttcctgagaactggg gactttgagagaatgttcagggagctgaggacgtggtggcctaggggggctgacacacct ggtggctcaggaggtggtcagtcccgggacgtggagggccaccagctggccctcaggggc ccacccagtcctgcccatggcgcgggccctgtggctgggggaggggacgtgggaggcggg gtggagctgcgtggcacgtatgtgcgtgtatgtgcacactcgggggtgtgcgagatccca ggggagtacatcaagacctggcggccacgctacttcctcctcaagaatgatggcaccttc attggctacaaggagcggccgcaggatgtggaccaacgtgaggctcccctcaacaacttc tctgtggcgctgtctcctcggttggggctgggggcttcagggatcagggagaggctgggt gccagcagcgtgcctggtggcacctgggacagggccttgctgggggctgggccagagcct gccacggagccccagcggctacacactccactcactcacacctctcagggccccgcacgt tcccacagccctcagggtgtacgtgctgtaggtgtggctgtgccccagatgtatgtgtgc cccaggtgtggctgtgccccaggtgtgcctgtgccccaggtgtggctgtgccccaggtgt gcctgtgccccaggtgtgggtgtgccccaggtgtgggtgtgctccaggtggctgtatttc ccagagtgccagctgatgaagacggagcggccccggcccaacaccttcatcatccgctgc ctgcagtggaccactgtcatcgaacgcaccttccatgtggagactcctgaggagcgggag gagtggacaaccgccatccagactgtggctgacggcctcaagaagcaggaggaggaggag atggacttccggtcgggctcacccagtgacaactcaggggctgaagagatggaggtgtcc ctggccaagcccaagcaccgcgtgaccatgaacgagtttgagtacctgaagctgctgggc aagggcactttcggcaaggtgatcctggtgaaggagaaggccacaggccgctactacgcc atgaagatcctcaagaaggaagtcatcgtggccaaggacgaggtggcccacacactcacc gagaaccgcgtcctgcagaactccaggcaccccttcctcacagccctgaagtactctttc cagacccacgaccgcctctgctttgtcatggagtacgccaacgggggcgagctgttcttc cacctgtcccgggagcgtgtgttctccgaggaccgggcccgcttctatggcgctgagatt gtgtcagccctggactacctgcactcggagaagaacgtggtgtaccgggacctcaagctg gagaacctcatgctggacaaggacgggcacattaagatcacagacttcgggctgtgcaag gaggggatcaaggacggtgccaccatgaagaccttttgcggcacacctgagtacctggcc cccgaggtgctggaggacaatgactacggccgtgcagtggactggtgggggctgggcgtg gtcatgtacgagatgatgtgcggtcgcctgcccttctacaaccaggaccatgagaagctt tttgagctcatcctcatggaggagatccgcttcccgcgcacgcttggtcccgaggccaag tccttgctttcagggctgctcaagaaggaccccaagcagaggcttggcgggggctccgag gacgccaaggagatcatgcagcatcgcttctttgccggtatcgtgtggcagcacgtgtac gagaagaaggtgcggctgctccccgcatattcacgcgcacgcatgctccccacatatcca cactcacgcatgcacgtggcacgctcgccagatttcccacacactcgccctcacctcagg agcctgctgcagtcctggtacaaggagggccttgctgcaccaacctcagcgcctggtgct cagaggctctggcactgccgggttccaccaggaaactggcctggtcctcatttcctcctc ccctcggagctcagcccacccttcaagccccaggtcacgtcggagactgacaccaggtat tttgatgaggagttcacggcccagatgatcaccatcacaccacctgaccaagatgacagc atggagtgtgtggacagcgagcgcaggccccacttcccccagttctcctactcggccagc ggcacggcctga >gi568815584f:104601366_104803455|GENSCAN_predicted_peptide_12|145_aa MWAGGSGRGAGAGRGEGGPAAAAGPSAAGGWPSARSAARRREQAAEHRALGTGHRAAAAR EARPRAAPPPAAASSPAPPSAGPRGCGAAGAGGRGPARPALAPGRGGPAGELLPASLLAF LEGSEDTGLFQGLARWRPRALPKGS >gi568815584f:104601366_104803455|GENSCAN_predicted_CDS_12|438_bp atgtgggcgggcggctccgggcgcggggcgggcgcggggcggggagagggcgggccggcg gcggcggcaggaccgagcgcggcaggcggctggcccagcgcacgcagcgcggcccgaaga cgggagcaggcggccgagcaccgagcgctgggcaccgggcaccgagcggcggcggcacgc gaggcccggccccgagcagcgcccccgcccgccgcggcctccagcccggccccgcccagc gccggcccgcggggatgcggagcggcgggcgccggaggccgcggcccggctaggcccgcg ctcgcgcccggacgcggcggcccggcgggggagctgctgccagcctctctcctggctttc ctggaaggcagcgaggacactgggctgttccagggtctggcacgctggcggcccagggca ctgcccaagggctcctga >gi568815584f:104601366_104803455|GENSCAN_predicted_peptide_13|529_aa MSHLGLPLGLSHLPTAPRGRVPGICPPSWALPCKDGGRNSGRKQRKVLEYPTITGHPEWA GKEGMQQKGLRGNLAKLHARQGRPGEGARASGDRRGARGGGGDDGGGMEFPEHGGRLLGR LRQQRELGFLCDCTVLVGDARFPAHRAVLAACSVYFHLFYRDRPAGSRDTVRLNGDIVTA PAFGRLLDFMYEGRLDLRSLPVEDVLAAASYLHMYDIVKVCKGRLQEKDRSLDPGNPAPG AEPAQPPCPWPVWTADLCPAARKAKLPPFGVKAALPPRASGPPPCQVPEESDQALDLSLK SGPRQERVHPPCVLQTPLCSQRQPGAQPLVKDERDSLSEQEESSSSRSPHSPPKPPPVPA AKGLVVGLQPLPLSGEGSRELELGAGRLASEDELGPGGPLCICPLCSKLFPSSHVLQLHL SAHFRERDSTRARLSPDGVAPTCPLCGKTFSCTYTLKRHERTHSGEKPYTCVQCGKSFQY SHNLSRHTVVHTREKPHACRWCERRFTQSGDLYRHVRKFHCGLVKSLLV >gi568815584f:104601366_104803455|GENSCAN_predicted_CDS_13|1590_bp atgagccacctggggctccctctgggactgtcccacctgcccactgctccccgaggaaga gttcctggtatctgtccaccatcctgggctctgccatgcaaggatggaggaaggaattca gggaggaagcagaggaaggtgctggaatatcccacaatcacaggacacccggaatgggct ggaaaggagggtatgcagcagaagggactgcgagggaacttagcgaagctccacgcgcgc cagggccgccctggggagggcgcgcgcgcgagcggcgaccggagaggagctcggggcggc ggaggtgatgacggcggcggcatggagttccctgagcacggcggacggctgctgggccgc ctgagacagcagcgcgagctgggcttcctatgcgactgcaccgtgctggtgggcgacgcg cgcttcccggcccaccgtgccgtgctggccgcgtgcagcgtctacttccatctcttctac agggaccggcccgcgggcagtcgcgacacggtgcggctcaacggcgacatcgtcacggcg cccgccttcggccgcctactggacttcatgtacgagggccgcctggacctgcgcagcctg cctgtggaggacgtcctggcagccgccagctacctgcacatgtatgacatcgtcaaggtc tgcaagggcaggctccaggagaaggatcgaagtctggacccggggaaccctgcccctggg gcagaacctgctcagccaccgtgcccctggcctgtctggaccgcggacctctgcccagct gcccgaaaggccaagctccccccgtttggggtcaaggctgccctccctcctcgagcatct gggcctcctccctgccaggtcccagaagagtcagaccaggccctggacctgtcgttgaag tctggcccaaggcaggagcgggtccacccaccgtgcgtcctccagacacccctctgcagc cagaggcagccaggggcccagccactggtgaaggacgaacgggactcactgtccgaacag gaggagagcagcagctctaggagcccccacagtcccccgaagccacctcctgttcctgca gccaagggcctggtggtgggcttgcagccgctgcccctcagcggagagggcagccgggag ctggagcttggtgcagggcgactggcgagtgaggacgagctggggcctggtgggcccctc tgcatctgcccgttgtgcagcaagctgtttcccagctcccacgtgctgcagctgcacctc agtgcccacttccgtgagcgagacagcacccgggcccggctctcacccgacggcgtggca cccacctgcccgctctgtgggaagaccttctcgtgcacatacacactgaagaggcacgag cggacacactcgggtgagaagccctatacgtgtgtgcagtgtggcaaaagttttcagtac tcccacaacctgagccggcacaccgtagtgcacactcgagagaagccgcatgcctgccgg tggtgtgagcgccgtttcacgcagtccggggacctctaccgccacgtccgcaagtttcac tgtggcctcgtcaagtcccttctggtgtga