GENSCAN 1.0 Date run: 3-Nov-116 Time: 12:44:00 Sequence gi568815590r:22015703_22229170 : 213468 bp : 55.13% 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 + 3048 3107 60 2 0 71 110 34 0.651 5.10 1.02 Intr + 9397 9604 208 0 1 46 84 131 0.516 7.67 1.03 Intr + 9734 9819 86 0 2 139 90 -3 0.996 5.04 1.04 Intr + 9945 10070 126 2 0 54 62 147 0.987 10.08 1.05 Intr + 17428 17521 94 0 1 142 115 13 0.901 9.44 1.06 Intr + 18407 18573 167 0 2 71 81 261 0.971 23.89 1.07 Intr + 18808 18842 35 0 2 105 88 43 0.976 3.51 1.08 Intr + 20791 20824 34 1 1 95 113 17 0.954 3.61 1.09 Intr + 25860 25964 105 2 0 64 36 89 0.014 2.21 1.10 Intr + 27443 27479 37 1 1 102 96 16 0.030 2.12 1.11 Intr + 27753 27805 53 1 2 88 94 14 0.029 1.12 1.12 Intr + 30412 30589 178 0 1 16 77 300 0.064 21.71 1.13 Intr + 30825 30931 107 1 2 82 100 193 0.986 20.33 1.14 Intr + 32254 32543 290 0 2 112 18 477 0.868 39.69 1.15 Intr + 33758 33892 135 2 0 87 76 65 0.870 5.39 1.16 Term + 35168 35306 139 2 1 78 48 93 0.837 2.04 1.17 PlyA + 36640 36645 6 1.05 2.00 Prom + 45656 45695 40 -0.01 2.01 Init + 51174 51230 57 2 0 38 39 139 0.845 3.30 2.02 Intr + 51825 51980 156 2 0 89 78 341 0.919 33.92 2.03 Intr + 53314 53358 45 0 0 116 105 -2 0.906 3.39 2.04 Intr + 53717 53816 100 1 1 79 82 15 0.935 0.18 2.05 Intr + 54179 54235 57 0 0 125 78 58 0.978 7.85 2.06 Intr + 54480 54632 153 1 0 85 49 205 0.992 16.86 2.07 Intr + 56624 56748 125 0 2 107 64 155 0.157 15.81 2.08 Intr + 58028 58133 106 1 1 126 76 55 0.154 8.39 2.09 Intr + 64478 64542 65 0 2 86 90 13 0.854 0.23 2.10 Intr + 64710 64758 49 2 1 134 94 9 0.849 4.84 2.11 Intr + 64916 65043 128 0 2 145 74 0 0.888 5.20 2.12 Intr + 65103 65168 66 2 0 95 100 6 0.810 2.09 2.13 Intr + 65411 65491 81 1 0 83 80 109 0.966 9.93 2.14 Term + 65648 65761 114 1 0 57 45 160 0.965 7.47 2.15 PlyA + 69155 69160 6 1.05 3.00 Prom + 70202 70241 40 -3.21 3.01 Init + 73552 73596 45 0 0 94 77 148 0.999 12.93 3.02 Intr + 78738 78816 79 2 1 110 80 196 0.973 20.62 3.03 Intr + 80635 80807 173 2 2 41 59 305 0.821 23.08 3.04 Intr + 81814 81918 105 0 0 59 94 144 0.815 13.01 3.05 Intr + 82015 82137 123 0 0 104 55 183 0.996 17.89 3.06 Intr + 82366 82638 273 0 0 91 23 195 0.501 11.57 3.07 Intr + 82721 82917 197 1 2 66 90 255 0.991 22.23 3.08 Intr + 83246 83354 109 2 1 123 101 90 0.999 14.59 3.09 Intr + 83582 83658 77 1 2 57 86 125 0.996 8.01 3.10 Intr + 84002 84191 190 2 1 83 77 220 0.993 20.51 3.11 Intr + 84892 85037 146 0 2 77 95 230 0.998 22.19 3.12 Intr + 85142 85270 129 2 0 66 75 240 0.999 20.81 3.13 Intr + 85738 85828 91 1 1 62 105 158 0.997 15.40 3.14 Intr + 86006 86149 144 1 0 85 70 121 0.636 10.99 3.15 Intr + 86473 86607 135 0 0 80 73 75 0.493 6.47 3.16 Intr + 86826 86926 101 2 2 96 73 144 0.999 13.11 3.17 Term + 87091 87229 139 1 1 104 52 192 0.811 14.94 3.18 PlyA + 88656 88661 6 1.05 4.25 PlyA - 90066 90061 6 1.05 4.24 Term - 92193 91598 596 1 2 123 44 545 0.996 48.71 4.23 Intr - 92644 92431 214 1 1 69 80 252 0.918 21.31 4.22 Intr - 94241 93437 805 1 1 72 99 575 0.241 49.12 4.21 Intr - 94651 94549 103 2 1 52 35 60 0.114 -3.17 4.20 Intr - 97154 97052 103 2 1 96 91 27 0.168 4.05 4.19 Intr - 100726 100598 129 1 0 91 109 41 0.970 7.90 4.18 Intr - 101337 101173 165 0 0 72 49 146 0.913 9.77 4.17 Intr - 103363 103248 116 2 2 113 77 71 0.829 9.17 4.16 Intr - 103581 103462 120 1 0 101 100 141 0.999 17.57 4.15 Intr - 104224 104058 167 0 2 40 101 100 0.579 6.62 4.14 Intr - 104471 104402 70 0 1 73 89 70 0.961 4.33 4.13 Intr - 104805 104640 166 0 1 107 94 -37 0.942 -1.15 4.12 Intr - 105256 105014 243 1 0 111 94 266 0.986 27.73 4.11 Intr - 105526 105363 164 2 2 60 65 72 0.512 2.31 4.10 Intr - 105992 105911 82 2 1 0 84 73 0.506 -2.19 4.09 Intr - 106906 106791 116 2 2 70 110 107 0.971 11.77 4.08 Intr - 107177 107088 90 0 0 128 84 70 0.986 11.06 4.07 Intr - 108111 107947 165 1 0 86 91 90 0.518 9.55 4.06 Intr - 109802 109609 194 1 2 135 61 174 0.791 19.06 4.05 Intr - 110524 110206 319 2 1 64 -6 175 0.683 1.26 4.04 Intr - 112127 111335 793 2 1 95 116 365 0.554 31.70 4.03 Intr - 113508 112857 652 2 1 44 113 345 0.259 25.14 4.02 Intr - 114901 114726 176 1 2 65 115 209 0.994 20.55 4.01 Init - 116147 115878 270 2 0 56 94 147 0.663 7.23 4.00 Prom - 120333 120294 40 -6.40 5.10 PlyA - 122336 122331 6 1.05 5.09 Term - 122850 122785 66 0 0 128 46 117 0.999 9.73 5.08 Intr - 123091 122937 155 2 2 90 78 216 0.854 21.10 5.07 Intr - 123359 123224 136 2 1 107 85 148 0.982 17.05 5.06 Intr - 123827 123528 300 2 0 90 68 309 0.628 26.57 5.05 Intr - 124381 124261 121 0 1 116 75 217 0.999 24.20 5.04 Intr - 124546 124470 77 1 2 118 60 18 0.997 0.81 5.03 Intr - 124844 124734 111 2 0 90 68 38 0.875 3.08 5.02 Intr - 124995 124905 91 2 1 93 57 71 0.676 5.00 5.01 Init - 125780 125749 32 2 2 98 59 51 0.838 0.52 5.00 Prom - 129206 129167 40 -2.21 6.09 PlyA - 131150 131145 6 1.05 6.08 Term - 133275 132458 818 1 2 91 50 1370 0.749 127.27 6.07 Intr - 135951 135787 165 1 0 100 82 136 0.946 14.65 6.06 Intr - 136298 136129 170 1 2 77 91 236 0.999 22.91 6.05 Intr - 138337 138266 72 0 0 90 61 137 0.992 10.22 6.04 Intr - 138511 138440 72 0 0 53 76 92 0.919 3.52 6.03 Intr - 138929 138858 72 1 0 110 12 116 0.968 5.22 6.02 Intr - 139761 139690 72 2 0 95 8 108 0.850 2.52 6.01 Init - 140840 140635 206 2 2 110 76 321 0.999 29.40 6.00 Prom - 142098 142059 40 -6.10 7.00 Prom + 143849 143888 40 -1.51 7.01 Init + 146127 146168 42 2 0 85 117 55 0.354 8.55 7.02 Intr + 146872 147030 159 0 0 71 81 259 0.637 24.20 7.03 Intr + 147378 147500 123 2 0 57 94 172 0.999 15.99 7.04 Intr + 147734 147844 111 1 0 38 89 174 0.985 13.58 7.05 Term + 148181 148339 159 1 0 48 48 111 0.689 1.35 7.06 PlyA + 148751 148756 6 1.05 8.00 Prom + 148758 148797 40 -13.84 8.01 Init + 149704 149851 148 0 1 100 88 459 0.999 45.32 8.02 Intr + 157900 158013 114 2 0 114 115 151 0.984 21.32 8.03 Intr + 160447 160611 165 2 0 80 93 66 0.582 6.75 8.04 Intr + 160831 160948 118 2 1 99 88 169 0.999 18.03 8.05 Intr + 161259 161437 179 0 2 82 96 362 0.899 36.48 8.06 Intr + 162150 162255 106 1 1 114 75 160 0.985 17.07 8.07 Intr + 164003 164127 125 2 2 121 71 154 0.937 17.73 8.08 Intr + 164666 164781 116 0 2 115 102 83 0.897 13.07 8.09 Intr + 169007 169082 76 1 1 50 67 25 0.098 -3.82 8.10 Intr + 173134 173249 116 2 2 99 59 81 0.588 6.97 8.11 Intr + 176347 176449 103 0 1 114 82 196 0.991 21.85 8.12 Intr + 178356 178472 117 1 0 84 79 165 0.999 16.14 8.13 Intr + 178743 178888 146 1 2 94 92 224 0.994 23.91 8.14 Intr + 179022 179217 196 2 1 33 46 441 0.998 33.91 8.15 Intr + 179760 179885 126 1 0 112 96 226 0.990 26.96 8.16 Intr + 180978 181138 161 1 2 121 95 301 0.991 34.32 8.17 Intr + 181538 181718 181 1 1 76 68 392 0.957 35.96 8.18 Intr + 182652 182758 107 1 2 95 60 1 0.361 -1.57 8.19 Intr + 185416 185497 82 0 1 128 53 19 0.582 2.11 8.20 Intr + 186101 186226 126 0 0 110 102 320 0.937 36.76 8.21 Intr + 191152 191279 128 2 2 93 95 176 0.987 19.70 8.22 Intr + 191601 191814 214 2 1 118 84 395 0.999 40.91 8.23 Intr + 193743 193993 251 1 2 97 60 566 0.999 52.39 8.24 Intr + 195892 196022 131 0 2 92 -16 214 0.020 11.40 8.25 Intr + 196129 196157 29 1 2 83 85 24 0.018 -0.16 8.26 Intr + 198845 199023 179 0 2 94 105 61 0.241 8.56 8.27 Term + 201699 201794 96 2 0 54 44 62 0.159 -3.33 8.28 PlyA + 202301 202306 6 1.05 9.05 PlyA - 204042 204037 6 1.05 9.04 Term - 206185 205651 535 0 1 33 50 985 0.540 83.32 9.03 Intr - 208680 208524 157 1 1 37 80 283 0.806 21.98 9.02 Intr - 211323 211149 175 0 1 96 60 282 0.999 26.23 9.01 Intr - 212684 212491 194 0 2 88 100 328 0.660 33.73 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 20936 20980 45 1 0 87 55 40 0.839 -1.91 S.002 Init + 30466 30589 124 0 1 108 77 244 0.902 25.59 S.003 Intr + 56624 56743 120 0 0 107 61 161 0.842 16.27 S.004 Term + 58028 58113 86 0 2 126 47 65 0.842 4.31 S.005 Init + 61429 61498 70 0 1 102 81 49 0.857 6.76 S.006 Init + 189550 189601 52 0 1 77 94 48 0.815 5.57 S.007 Term + 195892 196026 135 0 0 92 47 212 0.979 15.83 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815590r:22015703_22229170|GENSCAN_predicted_peptide_1|617_aa MPTFTSRIQHSSVSTSQNNQVPSSRERPLSTCRCLLVSGILQSRVRVREQGLTRAPSLQL PGQPASLPGAMNLSSASSTEEKAVTTVLWGCELSQERRTWTFRPQLEGKQSCRLLLHTIC LGEKAKEEMHRVEILPPANQEDKKMQPVTIASLQASVLPMVSMVGVQLSPPVTFQLRAGS GPVFLSGQERYEASDLTWEEEEEEEGEEEEEEEEDDEDEDADISLEEQSPVKQVKRLVPQ KQASVAKKKKLEKEEEEIRASVRDKSPVKKGGNSMELSVHRSPGPRIPPLILKTQEGFCI PTMKQVLTAADSLLSNSDLRDGAWSGWKQVEVMAQGENHPSPNFNQYVRDQGAMTDQLSR RQIREYQLYSRTSGKHVQVTGRRISATAEDGNKFAKLIVETDTFGSRVRIKGAESEKYIC MNKRGKLIGKPSGKSKDCVFTEIVLENNYTAFQNARHEGWFMAFTRQGRPRQASRSRQNQ REAHFIKRLYQGQLPFPNHAEKQKQFEFVGSAPTRRTKRTRRPQPLTVLQVCVWGVELGG HKTRLFSALAFNLVEGEVFLAGTTPPPRHPTRWVFRLWKSVQLIPPELVVTSKMLKGRSH KNRSLMMALQRRFNMHI >gi568815590r:22015703_22229170|GENSCAN_predicted_CDS_1|1854_bp atgcccaccttcaccagtcgtattcaacacagttctgtaagtactagccagaacaaccag gtcccctccagccgcgagcgacccctcagtacctgccgatgcctgctggtctctggcatc ctccagtcgagggtcagggtcagggagcaaggcctcacgcgggcgccctccttgcagctg cccggccagcccgcttctctgcccggagccatgaatctcagtagcgccagtagcacggag gaaaaggcagtgacgaccgtgctctggggctgcgagctcagtcaggagaggcggacttgg accttcagaccccagctggaggggaagcagagctgcaggctgttgcttcatacgatttgc ttgggggagaaagccaaagaggagatgcatcgcgtggagatcctgcccccagcaaaccag gaggacaagaagatgcagccggtcaccattgcctcactccaggcctcagtcctccccatg gtctccatggtaggagtgcagctttctcccccagttactttccagctccgggctggctca ggacccgtgttcctcagtggccaggaacgttatgaagcatcagacctaacctgggaggag gaggaggaagaagaaggggaggaggaggaagaggaagaggaagatgatgaggatgaggat gcagatatatctctggaggagcaaagccctgtcaaacaagtcaaaaggctggtgccccag aagcaggcgagcgtggctaagaaaaaaaagctggaaaaagaagaagaggaaataagagcc agcgttagagacaagagccctgtgaaaaagggagggaacagcatggagctctctgttcac cggtctccaggacctcggattccacctttaatcctgaaaacccaggaaggcttctgtatc cctacaatgaagcaggtgcttacagctgctgattctctgctgtcaaactcagacttgagg gatggagcctggagcggttggaagcaggtggaggtgatggctcagggggagaatcacccg tctcctaattttaaccagtacgtgagggaccagggcgccatgaccgaccagctgagcagg cggcagatccgcgagtaccaactctacagcaggaccagtggcaagcacgtgcaggtcacc gggcgtcgcatctccgccaccgccgaggacggcaacaagtttgccaagctcatagtggag acggacacgtttggcagccgggttcgcatcaaaggggctgagagtgagaagtacatctgt atgaacaagaggggcaagctcatcgggaagcccagcgggaagagcaaagactgcgtgttc acggagatcgtgctggagaacaactatacggccttccagaacgcccggcacgagggctgg ttcatggccttcacgcggcaggggcggccccgccaggcttcccgcagccgccagaaccag cgcgaggcccacttcatcaagcgcctctaccaaggccagctgcccttccccaaccacgcc gagaagcagaagcagttcgagtttgtgggctccgcccccacccgccggaccaagcgcaca cggcggccccagcccctcacggtcctccaggtgtgcgtgtggggagtggaactcgggggc cataaaacccgcctcttcagtgcgctggcttttaatcttgtcgagggggaggtcttcctc gcagggacaaccccccccccccgccaccccaccaggtgggtcttcaggctctggaagtct gttcagctcattccccctgaactggtggtgacttcgaagatgctaaaaggaagaagccac aagaatagatccctaatgatggcacttcagaggagatttaacatgcacatctag >gi568815590r:22015703_22229170|GENSCAN_predicted_peptide_2|433_aa MERLQKVRGAAPGRGRRGRAKMDNQVLGYKDLAAIPKDKAILDIERPDLMIYEPHFTYSL LEHVELPRSRERSLSPKSTSPPPSPEVWADSRSPGIISQASAPRTTGTPRTSLPHFHHPE TSRPDSNIYKKPPIYKQRESVGGSPQTKHLIEDLIIESSKFPAAQPPDPNQPAKIETDYW PCPPSLAVVETEWRKRKASRRGAEEEEEEEDDDSGEEMKALRERQREELSKVTSNLGKMI LKEEMEKSLPIRRKTRSLPDRTPFHTSLHQGTSKSSSLPAYGRTTLSRLQSTEFSPSGSE TGSPGLQVSASWRGTGRAAEAGSWHPKVSGEGGCGATELPGEEEEAGNGEGQRGRMDRGN SLPCVLEQKIYPYEMLVVTNKGRTKLPPGVDRMRLERHLSAEDFSRVFAMSPEEFGKLAL WKRNELKKKASLF >gi568815590r:22015703_22229170|GENSCAN_predicted_CDS_2|1302_bp atggaacggctgcagaaggtgcgcggcgccgccccgggccggggccgccgagggcgggcc aagatggacaatcaggtgctgggctacaaggacctggctgccatccccaaggacaaggcc atcctggacatcgagcggcccgacctcatgatctacgagcctcacttcacttattccctc ctggaacacgtggagctgcctcgcagccgcgagcgctcgctgtcacccaaatccacatcc cccccaccatccccagaggtgtgggcggacagccggtcgcctggaatcatctctcaggcc tcggcccccagaaccactggaaccccccggaccagcctgccccatttccaccaccctgag acctcccgcccagattccaacatctacaagaagcctcccatctataagcagagagagtcc gtgggaggcagccctcagaccaagcacctcatcgaggatctcatcatcgagtcatccaag tttcctgcagcccagcccccagaccccaaccagccagccaaaatcgaaaccgactactgg ccatgccccccgtctctggctgttgtggagacagaatggaggaagcggaaggcgtctcgg aggggagcagaggaagaggaggaggaggaagatgacgactctggagaggagatgaaggct ctcagggagcgtcagagagaggaactcagtaaggttacttccaacttgggaaagatgatc ttgaaagaagagatggaaaagtcattgccgatccgaaggaaaacccgctctctgcctgac cggacacccttccatacctccttgcaccagggaacgtctaaatcttcctctctccccgcc tatggcaggaccaccctgagccggctacagtccacagagttcagcccatcagggagtgag actggaagcccaggcctgcaggtgagtgcctcctggaggggaacaggcagagcagcagaa gctgggtcctggcacccgaaagtgtcaggggaaggggggtgtggggccacagagttgcct ggtgaagaagaagaagccgggaacggagagggccagagggggaggatggaccgggggaac tccctgccctgtgtgctggagcagaagatctatccctatgaaatgctagtggtgaccaac aaggggcgaaccaagctgccaccgggggtggatcggatgcggcttgagaggcatctgtct gccgaggacttctcaagggtatttgccatgtcccctgaagagtttggcaagctggctctg tggaagcggaatgagctcaagaagaaggcctctctcttctga >gi568815590r:22015703_22229170|GENSCAN_predicted_peptide_3|751_aa MLSRLGALLQEAVGAREPSIDLLQAFVEHWKGITHYYIESTDESTPAKKTDIPWRLKQML DILVYEEQQQAAAGEAGPCLEYLLQHKILETLCTLGKAEYPPGMRQQVFQFFSKVLAQVQ HPLLHYLSVHRPVQKLLRLGGTASGSVTEKEEVQFTTVLCSKIQQDPELLAYILEGKKIV GRKKACGEPTALPKDTTSHGDKDCSHDGAPARPQLDGESCGAQALNSHMPAETEELDGGT TESNLITSLLGLCQSKVLAAEMERLGKSRVALKAQENLLLLVSMASPAAATYLVQSSACC PAIVRHLCQLYRSMPVFLDPADIATLEGISWRLPSAPSDEASFPGKEALAAFLGWFDYCD HLITEAHTVVADALAKAVAENFFVETLQPQLLHVSEQSILTSTALLTAMLRQLRSPALLR EAVAFLLGTDRQPEAPGDNPHTLYAHLIGHCDHLSDEISITTLRLFEELLQKPHEGIIHS LVLRNLEGRPYVAWGSPEPESYEDTLDLEEDPYFTDSFLDSGFQTPAKPRLAPATSYDGK TAVTEIVNSFLCLVPEEAKTSAFLEETGYDTYVHDAYGLFQECSSRVASWGWPLTPTPLD PHEPERPFFEGHFLRVLFDRMSRILDQPYSLNLQVTSVLSRLALFPHPHIHEYLLDPYIS LAPGCRSLFSVLVIGDLMQRIQRVPQFPGKLLLVRKQLTGQAPGEQLDHQTLLQGVVVLE EFCKELAAIAFVKFPPHDPRQNVSPAPEGQV >gi568815590r:22015703_22229170|GENSCAN_predicted_CDS_3|2256_bp atgctgagccggctcggggcgctgctgcaggaagccgtgggggcgcgcgagcccagcatt gacctgctgcaggccttcgtggagcactggaagggcatcacgcactactacatcgagagc acagatgaaagcacccccgccaagaagacagacattccctggcggctgaagcagatgctg gatatcctggtgtatgaagagcagcagcaggcggccgcgggtgaggcagggccctgcctg gagtacctgctgcagcacaagatcctggagactctctgcacgctgggcaaggccgagtac cccccaggcatgcggcagcaggtgttccagttcttcagcaaggttctggcgcaggtgcag caccccctgctgcattacctcagcgtccacaggcctgtgcagaaactcctccgacttggt gggactgcttccggatccgttacagaaaaggaggaggtgcagttcaccaccgtcctctgc tccaagatccagcaggacccagagctgctcgcctacatcctggaaggtaaaaagattgta ggtaggaagaaagcatgcggagaacccactgccctgcctaaggacacaaccagccacggg gacaaggactgctcccacgatggtgctcctgccaggccccagctggacggggagtcctgt ggggcccaggccttgaacagccacatgcctgctgagaccgaggagctggacggtgggacc acagagagcaacctgattacctccctgcttgggctgtgccagagcaaggtgctggcagca gagatggagaggttggggaagagtcgggtggccttgaaggcccaggagaacctgctgctc ctggtgagcatggcctccccagcagctgccacctacctggtacagagcagcgcctgctgc cctgcgatcgtccggcacctttgccagttgtaccggtccatgcctgtcttcctggacccc gcagacattgccaccttagagggcatcagctggaggttacccagtgccccgtctgatgag gcttccttccctggcaaggaggccttggctgccttcttgggctggtttgattactgcgac cacctcatcacagaggcacacacggtggttgcggacgccttggcgaaggctgtggctgag aacttcttcgtggagaccctgcagccccagctcctgcacgtgtccgagcagagcatcttg acctccaccgccctcctcacagccatgctgcgccagcttcgctcccctgcgctgctgcgg gaggccgtggctttcctcctgggcacagaccggcagcctgaagcccccggggacaacccc cacaccctgtatgctcatctcatcgggcattgtgaccacctctctgatgagatcagcatc accacactccggctgtttgaggagctgctgcagaagccccacgaggggatcatccacagc ctggtcctgcgcaaccttgagggccgcccttacgtggcctggggctcaccagagcctgag agctatgaggacaccctagacctggaggaagacccctacttcaccgacagcttcctggat tccggctttcaaactcccgcaaagcctcgcctagctcctgctaccagttacgatggcaaa acagcagtgaccgagatcgtcaacagtttcctgtgcctggtccccgaggaagccaagacc tctgccttcctggaggagacaggctatgacacatacgtccacgatgcttatggcctgttc caggagtgcagctcccgcgtcgcctcctggggctggcctctgacccccacacctttggac ccccatgagcccgagcgacctttcttcgagggccacttcctccgagtgctgtttgaccgc atgtcccggattctggatcagccatacagcctgaacctgcaggtgacctcggtcctgtcc cggcttgccctcttcccccacccccatattcatgagtacctgctggatccgtacatcagc ctggcccccggctgcaggagcctattctccgtgttggtgatcggggacttgatgcagaga atccagagggtaccccagttcccaggcaagctgctcctggtgcgcaagcagttgacgggc caggctcctggggagcagctggaccaccagaccctcctccagggcgtggtggtgctggag gagttctgcaaggagctggctgccattgccttcgtcaagtttcccccacatgatcctcgc cagaacgtctccccagccccggaagggcaggtctga >gi568815590r:22015703_22229170|GENSCAN_predicted_peptide_4|2005_aa MGASPAPGLEAPGTLGMGQTLTARGLEPVSELIWAHDLSRHLAKSRPLDQGQTQAQALPE VLGRNPLCPWALEEVWEGFGVEDGKEQLGQSAPAAPGEGERERAEQTERENASSPAGREA PELAHGEQAPGAGHDDRHRPRRDRPVKPRDPPLGEPHEGRRVMESTPSFLKGTPTWEKTA PENGIVRQEPGSPPRDGLHHGPLCLGEPAPFWRGVLSTPDSWLPPGFPQGPKDMLPLVEG EGPQNGERKVNWLGSKEGLRWKEAMLTHPLAFCGPACPPRCGPLMPEHSGGHLKSDPVAF RPWHCPFLLETKILERAPFWVPTCLPPYLVSGLPPEHPCDWPLTPHPWVYSGGQPKVPSA FSLGSKGFYYKDPSIPRLAKEPLAAAEPGLFGLNSGGHLQRAGEAERPSLHQRDGEMGAG RQQNPCPLFLGQPDTVPWTSWPACPPGLVHTLGNVWAGPGDGNLGYQLGPPATPRCPSPE PPVTQRGCCSSYPPTKGGGLGPCGKCQEGLEGGASGASEPSEEVNKASGPRACPPSHHTK LKKTWLTRHSEQFECPRGCPEVEERPVARLRALKRAGSPEVQGAMGSPAPKRPPDPFPGT AEQGAGGWQEVRDTSIGNKDVDSGQHDEQKGLCPGWEFVGPFAFLGYCTCGLCRNSLALL TFRRPPSTLGLSPHVTQPVVSLSPQWSYPKSTLAGSCTCVRTIAPAAQSLGLNTPDNLFA RLPVHVTASSDSLLSLASPLGGELQQEEDTATNSSSEEGPGSGPDSRLSTGLAKHLLSGL GDRLCRLLRREREALAWAQREGQGPAVTEDSPGIPRCCSRCHHGLFNTHWRCPRCSHRLC VACGRVAGTGRAREKAGFQEQSAEECTQEAGHAACSLMLTQFVSSQALAELSTAMHQVWV KFDIRGHCPCQADARVWAPGDAGQQKESTQKTPPTPQPSCNGDTHRTKSIKEETPDSAET PAEDRAGRGPLPCPSLCELLASTAVKLCLGHERIHMAFAPVTPALPSDDRITNILDSIIA QVVERKIQEKALGPGLRAGPGLRKGLGLPLSPVRPRLPPPGALLWLQEPQPCPRRGFHLF QEHWRQGQPVLVSGIQRTLQGNLWGTEALGALGGQVQALSPLGPPQPSSLGSTTFWEGFS WPELRPKSDEGSVLLLHRALGDEDTSRLGLLGMTPYPDRVENLAASLPLPEYCALHGKLN LASYLPPGLALRPLEPQLWAAYGVSPHRGHLGTKNLCVEVADLVSILVHADTPLPAWHRA QKDFLSGLDGEGLWSPGSQVSTVWHVFRAQDAQRIRRFLQMVCPAGAGALEPGAPGSCYL DAGLRRRLREEWGVSCWTLLQAPGEAVLVPAGAPHQVQGLVSTVSVTQHFLSPETSALSA QLCHQGPSLPPDCHLLYAQVGHNALEDIFGLFVNRSESMFICSSTVPENAAGPVLRWGEG GKAELGEEQALATTTPTLLSTRQVLHAGISFKAGVYVPHPTGHVTFITLWWNEKKGIWDM INSGNAIVCLRQQRDSGSRGRPRASVTSPDCRVTVAYPGGATRPAGKMTSPSELLQTSAR SGSWRAGGGWETSRAHGTDRRQKPGGVRWAPDPCPPSSRAAPGGPAPSVNAAGRPIRAGR GAAQPISGQSSRALPRSRALPRSRELPARCRRDWERAPQRTLARGSAQSVCEDPARRPPG DPMASEGLAGALASVLAGQGSSVHSCDSAPAGEPPAPVRLRKNVCYVVLAVFLSEQDEVL LIQEAKRECRGSWYLPAGRMEPGETIVEALQREVKEEAGLHCEPETLLSVEERGPSWVRF VFLARPTGGILKTSKEADAESLQAAWYPRTSLPTPLRAHDILHLVELAAQYRQQARHPLI LPQELPCDLVCQRLVATFTSAQTVWVLVGTVGMPHLPVTACGLDPMEQRGGMKMAVLRLL QECLTLHHLVVEIKGLLGLQHLGRDHSDGICLNVLVTVAFRSPGIQDEPPKVRGENFSWW KVMEEDLQSQLLQRLQGSSVVPVNR >gi568815590r:22015703_22229170|GENSCAN_predicted_CDS_4|6018_bp atgggcgcctctccagcccctggcctggaagcaccaggaaccctggggatggggcagacc ctcacagcccggggtctggagccggtgtcggagctcatctgggcccatgacctctccaga catttggcaaaatcaaggcccttagaccagggacagacccaagcccaggccctcccagag gtcctaggacgcaaccctttgtgcccttgggctctggaagaggtttgggaagggtttggg gtggaagatggcaaagagcagcttggccagagcgcccccgccgccccgggggaaggagag cgcgagcgcgctgagcagacagagcgggagaacgcgtcctcgcccgccggccgggaggcc ccggagctggcccatggggagcaggcgcccggtgccggccacgacgaccgccaccgcccg cgccgcgaccggccggtgaagcccagggacccccctctgggagagccccatgagggcagg agagtgatggagagtacgcccagcttcctgaagggcaccccaacctgggagaagacggcc ccagagaacggcatcgtgagacaggagcccggcagcccgcctcgagatggactgcaccat gggccgctgtgcctgggagagcctgctcccttttggaggggcgtcctgagcaccccagac tcctggcttccccctggcttcccccagggccccaaggacatgctcccacttgtggagggc gagggcccccagaatggggagaggaaggtcaactggctgggcagcaaagagggactgcgc tggaaggaggccatgcttacccatccgctggcattctgcgggccagcgtgcccacctcgc tgtggccccctgatgcctgagcatagtggtggccatctcaagagtgaccctgtggccttc cggccctggcactgccctttccttctggagaccaagatcctggagcgagctcccttctgg gtgcccacctgcttgccaccctacctagtgtctggcctgcccccagagcatccatgtgac tggcccctgaccccgcacccctgggtatactccgggggccagcccaaagtgccctctgcc ttcagcttaggcagcaagggcttttactacaaggatccgagcattcccaggttggcaaag gagcccttggcagctgcggaacctgggttgtttggcttaaactctggtgggcacctgcag agagccggggaggccgaacgcccttcactgcaccagagggatggagagatgggagctggc cggcagcagaatccttgcccgctcttcctggggcagccagacactgtgccctggacctcc tggcccgcttgtcccccaggccttgttcatactcttggcaacgtctgggctgggccaggc gatgggaaccttgggtaccagctggggccaccagcaacaccaaggtgcccctctcctgag ccgcctgtcacccagcggggctgctgttcatcctacccacccactaaaggtgggggtctt ggcccttgtgggaagtgccaggagggcctggaggggggtgccagtggagccagcgaaccc agcgaggaagtgaacaaggcctctggccccagggcctgtccccccagccaccacaccaag ctgaagaagacatggctcacacggcactcggagcagtttgaatgtccacgcggctgccct gaggtcgaggagaggccggttgctcggctccgggccctcaaaagggcaggcagccccgag gtccagggagcaatgggcagtccagcccccaagcggccaccggacccttttccaggcact gcagaacagggggctgggggttggcaggaggtgcgggacacatcgatagggaacaaggat gtggactcgggacagcatgatgagcagaaaggcctctgccctggctgggaatttgttggc cccttcgccttcttgggttactgcacctgtggcctgtgtcgaaactctctggcccttctc accttccggcgccctccgtccacgttgggattgtctcctcatgtcacgcagccagtggta tcactaagccctcagtggagctatccaaagtctacactggctggatcctgcacttgtgtc aggacgatcgccccagctgcccaaagccttgggctcaacacaccagacaacctcttcgct cggctgccggtccatgtcacggcatcctcagactccctgctcagcctggcatcgcctctg ggaggggagctgcagcaggaggaagacacagccaccaactccagctctgaggaaggccca gggtccggccctgacagccggctcagcacaggcctcgccaagcacctgctcagtggtttg ggggaccgactgtgccgcctgctgcggagggagcgggaggccctggcttgggcccagcgg gaaggccaagggccagccgtgacagaggacagcccaggcattccacgctgctgcagccgt tgccaccatggactcttcaacacccactggcgatgtccccgctgcagccaccggctgtgt gtggcctgtggtcgtgtggcaggcactgggcgggccagggagaaagcaggctttcaggag cagtccgcggaggagtgcacgcaggaggccgggcacgctgcctgttccctgatgctgacc cagtttgtctccagccaggctttggcagagctgagcactgcaatgcaccaggtctgggtc aagtttgatatccgggggcactgcccctgccaagctgatgcccgggtatgggcccccggg gatgcaggccagcagaaggaatcaacacagaaaacgcccccaactccacaaccttcctgc aatggcgacacccacaggaccaagagcatcaaagaggagacccccgattccgctgagacc ccagcagaggaccgtgctggccgagggcccctgccttgtccttctctctgcgaactgctg gcttctaccgcggtcaaactctgcttgggccatgagcgaatacacatggccttcgccccc gtcactccggccctgcccagtgatgaccgcatcaccaacatcctggacagcattatcgca caggtggtggaacggaagatccaggagaaagccctggggccggggcttcgagctggcccg ggtctgcgcaagggcctgggcctgcccctctctccagtgcggccccggctgcctccccca ggggctttgctgtggctgcaggagccccagccttgccctcggcgtggcttccacctcttc caggagcactggaggcagggccagcctgtgttggtgtcagggatccaaaggacattgcag ggcaacctgtgggggacagaagctcttggggcacttggaggccaggtgcaggcgctgagc cccctcggacctccccagcccagcagcctgggcagcacaacattctgggagggcttctcc tggcctgagcttcgcccaaagtcagacgagggctctgtcctcctgctgcaccgagctttg ggggatgaggacaccagcaggttgggcctgctgggcatgaccccctaccctgacagggtg gagaacctagctgccagtctgccacttccggagtactgcgccctccatggaaaactcaac ctggcttcctacctcccaccgggccttgccctgcgtccactggagccccagctctgggca gcctatggtgtgagcccgcaccggggacacctggggaccaagaacctctgtgtggaggtg gccgacctggtcagcatcctggtgcatgccgacacaccactgcctgcctggcaccgggca cagaaagacttcctttcaggcctggacggggaggggctctggtctccgggcagccaggtc agcactgtgtggcacgtgttccgggcacaggacgcccagcgcatccgccgctttctccag atggtgtgcccggccggggcaggcgccctggagcctggcgccccaggcagctgctacctg gatgcagggctgcggcggcgcctgcgggaggagtggggcgtgagctgctggaccctgctc caggcccccggagaggccgtgctggtgcctgcaggggctccccaccaggtgcagggcctg gtgagcacagtcagcgtcactcagcacttcctctcccctgagacctctgccctctctgct cagctctgccaccagggacccagccttccccctgactgccacctgctttatgcccaggtg ggtcacaatgcccttgaggacatatttggtctctttgtaaacagaagtgaatcaatgttc atttgttccagcactgttcctgagaatgcagccggaccagtgctgaggtggggtgaagga ggaaaggccgagctgggagaggagcaggcgctcgccacaaccacccccaccctgctctcc acgcgccaggtcctgcacgctggaatctccttcaaggcaggggtttatgtcccccacccc acgggccatgtgacatttataactctttggtggaatgagaagaaaggtatttgggatatg atcaactccggcaatgccattgtgtgtttacggcaacagcgggacagtggttccaggggg cggccccgggcctccgtgacgtcaccggattgtcgcgtcaccgtcgcctaccccggcggc gcaacgcgccctgcaggaaagatgacgtcaccgtcggagctcctgcagaccagtgcgcgc tcggggagttggcgagcgggtggcggctgggagacgtcccgagcgcacgggactgacagg cggcagaagccgggcggggtccgctgggctccggacccgtgcccccccagttccagggcg gccccgggcggccccgccccctcggtgaatgccgcgggccggccaatccgggcaggccgc ggcgccgcgcagcctatcagcggccagagctcgcgtgcgcttccgcgttcgcgtgcgctt ccgcgttctcgtgagctcccggcccgctgccgcagggactgggagcgggctccgcagcgc actctagcccgcggctcggctcagtcggtctgcgaggatccggcccgccgccccccgggg gacccgatggcctcggagggcctggcgggggcgctggcttccgtgctggctggccagggg tccagcgtgcacagctgcgactcggcgccggccggggagccgccggcgcccgtgcggctg cggaagaacgtgtgctacgtggtgctggccgtgttcctcagcgagcaggatgaggtgcta ctgatccaggaggccaagagggagtgccgggggtcgtggtacctgcctgcggggagaatg gagccaggggagaccatcgtggaggcgctgcagcgggaggtgaaggaggaggcggggctg cactgtgagcccgagacactgctgtccgtggaggagcggggcccctcctgggtccgcttc gtgttcctcgctcgccccacaggtggaattctcaagacttccaaggaggccgatgcggag tccctgcaggctgcctggtacccacggacctccctgcccactccgctgcgagcccatgac atcctgcacctggttgaactagccgcccagtatcgccagcaagccaggcaccctctcatt ctgccccaagagctaccctgtgatctggtctgccagcggctcgtggctacctttaccagc gcccagacagtgtgggtgttagtgggcacagtggggatgcctcacttgcctgtcactgcc tgtggcctcgaccctatggagcagaggggtggcatgaagatggccgtcctgcggctgctg caggagtgtctgaccctgcaccacttggtggtggagatcaaggggttgcttggactgcag cacctgggccgagatcacagtgatggcatctgtttgaatgtgctggtgaccgtggctttt cggagcccagggatccaggatgaacccccaaaagttcggggtgagaacttctcttggtgg aaggtgatggaggaagacctgcaaagccagctcctccagcggcttcagggatcctctgtt gtcccagtgaacagatag >gi568815590r:22015703_22229170|GENSCAN_predicted_peptide_5|362_aa MVSWMICRLVVLVFGMLCPAYASYKAVKTKNIREYVSVGVWGQGCVAHPEWSGEGERMGP VQEGVDRGQAIGVPVEDLVRWMMYWIVFALFMAAEIVTDIFISWFPFYYEIKMAFVLWLL SPYTKGASLLYRKFVHPSLSRHEKEIDAYIVQAKERSYETVLSFGKRGLNIAASAAVQAA TKVLWAPSPPAAPIPPLRPFGLIQLLCQGAQRWQPGSRGEKVTGGYWQKRGAGVRPSFLA LALSSQGALAGRLRSFSMQDLRSISDAPAPAYHDPLYLEDQVSHRRPPIGYRAGGLQDSD TEDECWSDTEAVPRAPARPREKPLIRSQSLRVVKRKPPVREGTSRSLKVRTRKKTVPSDV DS >gi568815590r:22015703_22229170|GENSCAN_predicted_CDS_5|1089_bp atggtgtcctggatgatctgtcgcctggtggtgctggtgtttgggatgctgtgtccagct tatgcttcctataaggctgtgaagaccaagaacattcgtgaatatgtgagcgtgggggtt tgggggcaaggctgtgtggcacatcctgagtggagtggggagggagagagaatgggccct gttcaagagggtgtagatagagggcaggccatcggggtgcctgtggaagatctggtgcgg tggatgatgtactggattgtttttgcactcttcatggcagcagagatcgttacagacatt tttatctcctggttccctttctactatgagatcaagatggccttcgtgctgtggctgctc tcaccctacaccaagggcgccagcctgctttaccgcaagtttgtccacccgtccctgtcc cgccatgagaaggagatcgacgcgtacatcgtgcaggccaaggagcgcagctacgagacc gtgctcagcttcgggaagcggggcctcaacattgccgcctccgctgctgtgcaggctgcc accaaggtgctctgggcccccagccctccagcagcccccatcccacccctaaggcccttt gggctcattcagctcctctgccagggagcccagagatggcagccggggagcaggggtgag aaggtgacgggggggtattggcagaagcgtggagctggagtcagaccttccttcctggct ctggcactgagcagtcagggggcgctggccggcaggctgcggagcttctccatgcaggac ctgcgctccatctctgacgcacctgcccctgcctaccatgaccccctctacctggaggac caggtgtcccaccggaggccacccattgggtaccgggccgggggcctgcaggacagcgac accgaggatgagtgttggtcagatactgaggcagtcccccgggcgccagcccggccccga gagaagcccctaatccgcagccagagcctgcgtgtggtcaagaggaagccaccggtgcgg gagggcacctcgcgctccctgaaggttcggacgaggaaaaagactgtgccctcagacgtg gacagctag >gi568815590r:22015703_22229170|GENSCAN_predicted_peptide_6|548_aa MAGLRARGGPGPGLLALSALGFCLMLQVSAKRPPKTPPCPPSCSCTRDTAFCVDSKAVPR NLPSEVISLTLVNAAFSEIQDGAFSHLPLLQFLLLNSNKFTLIGDNAFTGLSHLQYLFIE NNDIWALSKFTFRGLKSLTHLSLANNNLQTLPRDIFRPLDILNDLDLRGNSLNCDCKVKW LVEWLAHTNTTVAPIYCASPPRFQEHKVQDLPLREFDCITTDFVLYQTLAFPAVSAEPFL YSSDLYLALAQPGVSACTILKWDYVERQLRDYDRIPAPSAVHCKPMVVDSQLYVVVAQLF GGSYIYHWDPNTTRFTRLQDIDPQRVRKPNDLEAFRIDGDWYFAVADSSKAGATSLYRWH QNGFYSHQALHPWHRDTDLEFVDGEGKPRLIVSSSSQAPVIYQWSRTQKQFVAQGEVTQV PDAQAVKHFRAGRDSYLCLSRYIGDSKILRWEGTRFSEVQALPSRGSLALQPFLVGGRRY LALGSDFSFTQIYQWDEGRQKFVRFQELAVQAPRAFCYMPAGDAQLLLAPSFKGQTLVYR HIVVDLSA >gi568815590r:22015703_22229170|GENSCAN_predicted_CDS_6|1647_bp atggcggggctgcgggccagggggggcccggggccggggctgctggcgctctccgcgctc ggcttctgcctcatgctgcaagtcagcgctaagaggccccccaagacgcccccctgcccg cccagctgctcttgcaccagggacaccgccttctgcgtggactcaaaggcggtgcccagg aacctgccctcggaggtcatctccctgaccctggtgaatgccgccttctcagagatccag gatggagcgttctcccacctcccgctgctgcagttcttgttactcaactccaacaagttt acactgattggagacaacgccttcacaggactgtcgcacctgcagtatctcttcattgag aacaatgacatctgggcactatccaagttcaccttccgaggactcaagtccttgactcac ctctcgctggccaacaataacctgcagacactgcccagagacatcttccggcccctggac atcctgaatgacttggacctgcggggcaactcactcaactgtgactgcaaggtgaagtgg ttggtggagtggctggcacacaccaacaccacggtggcacccatctactgcgccagcccg ccccgcttccaggagcacaaggtgcaggacctgccgctgcgggagttcgattgcatcacc acagattttgtgttgtaccagaccctggccttcccagcagtgtcggctgagcccttcctc tactccagtgacctctatttggctctggcccagccaggagtcagtgcctgcaccatcctg aagtgggactatgttgagcggcagcttcgagactatgatagaatcccagccccctctgca gtgcactgcaagccgatggtggtggacagccagctgtacgtggtcgtggcccagctgttt ggcggctcttacatttaccactgggatcccaacaccacgcgcttcaccaggctgcaagac attgacccgcagcgcgtgcgcaagcctaacgacctagaagccttccgcatcgacggtgac tggtactttgccgtggctgacagctccaaggcaggcgccaccagcctctaccgctggcac cagaatggcttctactcccaccaggcactgcacccctggcaccgtgacaccgacctggag tttgtggacggcgagggcaagccacggctgattgtgtccagcagctcccaggcacccgtc atctatcagtggagtcgcacccagaagcagtttgtggcccagggtgaggtgacccaggtg cctgatgcccaagctgtgaaacactttcgtgccggccgcgacagctacctgtgcctcagc cgctacattggcgactccaagatcctgcgctgggagggtacccgcttctcggaggtgcag gccctgccctcccggggctcgctggccctgcagcccttccttgtgggtggccgccgctac ctggcactgggcagtgatttctccttcacccagatctaccagtgggatgagggacgacag aagtttgtacggttccaggagctggctgtgcaggctcctcgggccttctgctacatgcct gctggggacgcccagctactcctggcccccagcttcaagggacagacgctggtgtataga cacattgtggtggatctcagtgcctag >gi568815590r:22015703_22229170|GENSCAN_predicted_peptide_7|197_aa MDVGSKEVLMESPPDYSAAPRGRFGIPCCPVHLKRLLIVVVVVVLIVVVIVGALLMGLHM SQKHTEMVLEMSIGAPEAQQRLALSEHLVTTATFSIGSTGLVVYDYQQLLIAYKPAPGTC CYIMKIAPESIPSLEALTRKVHNFQMECSLQAKPAVPTSKLGQAEGRDAGSAPSGGDPAF LGMAVSTLCGEVPLYYI >gi568815590r:22015703_22229170|GENSCAN_predicted_CDS_7|594_bp atggatgtgggcagcaaagaggtcctgatggagagcccgccggactactccgcagctccc cggggccgatttggcattccctgctgcccagtgcacctgaaacgccttcttatcgtggtg gtggtggtggtcctcatcgtcgtggtgattgtgggagccctgctcatgggtctccacatg agccagaaacacacggagatggttctggagatgagcattggggcgccggaagcccagcaa cgcctggccctgagtgagcacctggttaccactgccaccttctccatcggctccactggc ctcgtggtgtatgactaccagcagctgctgatcgcctacaagccagcccctggcacctgc tgctacatcatgaagatagctccagagagcatccccagtcttgaggctctcactagaaaa gtccacaacttccagatggaatgctctctgcaggccaagcccgcagtgcctacgtctaag ctgggccaggcagaggggcgagatgcaggctcagcaccctccggaggggacccggccttc ctgggcatggccgtgagcaccctgtgtggcgaggtgccgctctactacatctag >gi568815590r:22015703_22229170|GENSCAN_predicted_peptide_8|1211_aa MPGVARLPLLLGLLLLPRPGRPLDLADYTYDLAEEDDSEPLNYKDPCKAAAFLGDIALDE EDLRAFQVQQAVDLRRHTARKSSIKAAGNTSTPSCQSTNGQPQRGACGRWRGRSRSRRAA TSRPERVWPDGVIPFVIGGNFTGSQRAVFRQAMRHWEKHTCVTFLERTDEDSYIVFTYRP CGCCSYVGRRGGGPQAISIGKNCDKFGIVVHELGHVVGFWHEHTRPDRDRHVSIVRENIQ PGQEYNFLKMEPQEVESLGETYDFDSIMHYARNTFSRGIFLDTIVPKYEVNGVKPPIGQR TRLSKGDIAQARKLYKCPACGETLQDSTGNFSSPEYPNGYSAHMHCVWRISVTPGEKVPL SLLYSQENGGFKRLSKSTQVYTDRAKAASKDEGKRALVLSTAAEQNCLAGPGRPRGGVVE GIILNFTSLDLYRSRLCWYDYVEVRDGFWRKAPLRGRFCGSKLPEPIVSTDSRLWVEFRS SSNWVGKGFFAVYEAICGGDVKKDYGHIQSPNYPDDYRPSKVCIWRIQVSEGFHVGLTFQ SFEIERHDSCAYDYLEVRDGHSESSTLIGRYCGYEKPDDIKSTSSRLWLKFVSDGSINKA GFAVNFFKEVDECSRPNRGGCEQRCLNTLGSYKCSCDPGYELAPDKRRCEAACGGFLTKL NGSITSPGWPKEYPPNKNCIWQLVAPTQYRISLQFDFFETEGNDVCKYDFVEVRSGLTAD SKLHGKFCGSEKPEVITSQYNNMRVEFKSDNTVSKKGFKAHFFSGGLNGDQQPLAQPLSA DPPGPGDLPFFVNHSALHPGKRGQLCSPLGDAPTSSNSECRKETGPPNKDECSKDNGGCQ QDCVNTFGSYECQCRSGFVLHDNKHDCKEAGCDHKVTSTSGTITSPNWPDKYPSKKECTW AISSTPGHRVKLTFMEMDIESQPECAYDHLEVFDGRDAKAPVLGRFCGSKKPEPVLATGS RMFLRFYSDNSVQRKGFQASHATECGGQVRADVKTKDLYSHAQFGDNNYPGGVDCEWVIV AEEGYGVELVFQTFEVEEETDCGYDYMELFDGYDSTAPRLGRYCGSGPPEEVYSAGDSVL VKFHSDDTITKKGFHLRYTSTKFQDTLHSRKPQDLQGQWPGDSMVEEGTLAPPPVSQHLR SPGGLAEVPWGPELMISIRMGKAGMQLPRPYTPSPSSQVKAQTCLTGVVEGTPGGVTVSE TGLSQVAPDIH >gi568815590r:22015703_22229170|GENSCAN_predicted_CDS_8|3636_bp atgcccggcgtggcccgcctgccgctgctgctcgggctgctgctgctcccgcgtcccggc cggccgctggacttggccgactacacctatgacctggcggaggaggacgactcggagccc ctcaactacaaagacccctgcaaggcggctgcctttcttggggacattgccctggacgaa gaggacctgagggccttccaggtacagcaggctgtggatctcagacggcacacagctcgt aagtcctccatcaaagctgcaggaaacacttctacccccagctgccagagcaccaacggg cagcctcagaggggagcctgtgggagatggagaggtagatcccgtagccggcgggcggcg acgtcccgaccagagcgtgtgtggcccgatggggtcatcccctttgtcattgggggaaac ttcactggtagccagagggcagtcttccggcaggccatgaggcactgggagaagcacacc tgtgtcaccttcctggagcgcactgacgaggacagctatattgtgttcacctatcgacct tgcgggtgctgctcctacgtgggtcgccgcggcgggggcccccaggccatctccatcggc aagaactgtgacaagttcggcattgtggtccacgagctgggccacgtcgtcggcttctgg cacgaacacactcggccagaccgggaccgccacgtttccatcgttcgtgagaacatccag ccagggcaggagtataacttcctgaagatggagcctcaggaggtggagtccctgggggag acctatgacttcgacagcatcatgcattacgctcggaacacattctccaggggcatcttc ctggataccattgtccccaagtatgaggtgaacggggtgaaacctcccattggccaaagg acacggctcagcaagggggacattgcccaagcccgcaagctttacaagtgcccagcctgt ggagagaccctgcaagacagcacaggcaacttctcctcccctgaataccccaatggctac tctgctcacatgcactgcgtgtggcgcatctctgtcacacccggggagaaggtaccatta tccctactgtacagccaagagaatggaggcttcaagcgcttgagtaaatctacccaagtt tacacagacagagccaaggctgcttctaaggatgaaggaaagcgggcgcttgtcctcagc acagctgctgagcagaactgcctggcaggcccaggaaggccacgtggaggagtggtggag ggtatcatcctgaacttcacgtccctggacctgtaccgcagccgcctgtgctggtacgac tatgtggaggtccgagatggcttctggaggaaggcgcccctccgaggccgcttctgcggg tccaaactccctgagcctatcgtctccactgacagccgcctctgggttgaattccgcagc agcagcaattgggttggaaagggcttctttgcagtctacgaagccatctgcgggggtgat gtgaaaaaggactatggccacattcaatcgcccaactacccagacgattaccggcccagc aaagtctgcatctggcggatccaggtgtctgagggcttccacgtgggcctcacattccag tcctttgagattgagcgccacgacagctgtgcctacgactatctggaggtgcgcgacggg cacagtgagagcagcaccctcatcgggcgctactgtggctatgagaagcctgatgacatc aagagcacgtccagccgcctctggctcaagttcgtctctgacgggtccattaacaaagcg ggctttgccgtcaactttttcaaagaggtggacgagtgctctcggcccaaccgcgggggc tgtgagcagcggtgcctcaacaccctgggcagctacaagtgcagctgtgaccccgggtac gagctggccccagacaagcgccgctgtgaggctgcttgtggcggattcctcaccaagctc aacggctccatcaccagcccgggctggcccaaggagtacccccccaacaagaactgcatc tggcagctggtggcccccacccagtaccgcatctccctgcagtttgacttctttgagaca gagggcaatgatgtgtgcaagtacgacttcgtggaggtgcgcagtggactcacagctgac tccaagctgcatggcaagttctgtggttctgagaagcccgaggtcatcacctcccagtac aacaacatgcgcgtggagttcaagtccgacaacaccgtgtccaaaaagggcttcaaggcc cacttcttctcaggtggtctcaatggtgatcagcagcccctggcccagcctctctcagct gatcctccgggtccaggagatctccccttctttgtgaatcactcagcccttcaccctggg aaaagaggccagctctgcagccccctcggggacgcccccaccagctcaaattccgagtgc agaaaagaaaccggaccccccaacaaggacgagtgctccaaggataacggcggctgccag caggactgcgtcaacacgttcggcagttatgagtgccaatgccgcagtggcttcgtcctc catgacaacaagcacgactgcaaagaagccggctgtgaccacaaggtgacatccaccagt ggtaccatcaccagccccaactggcctgacaagtatcccagcaagaaggagtgcacgtgg gccatctccagcacccccgggcaccgggtcaagctgaccttcatggagatggacatcgag tcccagcctgagtgtgcctacgaccacctagaggtgttcgacgggcgagacgccaaggcc cccgtcctcggccgcttctgtgggagcaagaagcccgagcccgtcctggccacaggcagc cgcatgttcctgcgcttctactcagataactcggtccagcgaaagggcttccaggcctcc cacgccacagagtgcgggggccaggtacgggcagacgtgaagaccaaggacctttactcc cacgcccagtttggcgacaacaactaccctgggggtgtggactgtgagtgggtcattgtg gccgaggaaggctacggcgtggagctcgtgttccagacctttgaggtggaggaggagacc gactgcggctatgactacatggagctcttcgacggctacgacagcacagcccccaggctg gggcgctactgtggctcagggcctcctgaggaggtgtactcggcgggagattctgtcctg gtgaagttccactcggatgacaccatcaccaaaaaaggtttccacctgcgatacaccagc accaagttccaggacacactccacagcaggaagccccaggacctgcagggccaatggcct ggtgattccatggtagaggaaggtacacttgctcctcctcctgtgtcccagcacctcagg tcccctgggggcttagctgaggtcccctggggtcctgagctcatgataagcattcgcatg ggaaaagccgggatgcagctgccccgaccctacactcccagccccagtagccaggtcaag gcacagacgtgcttaactggtgttgtggaggggacccctgggggtgtcactgtgtctgaa acaggactgtcccaggtagcccctgacatacactag >gi568815590r:22015703_22229170|GENSCAN_predicted_peptide_9|353_aa XPTGDNPDGSMELLSTPHSIEINNITCDSFRISWAMEDSDLERVTHYFIDLNKKENKNSN KFKHRDVPTKLVAKAVPLPMTVRGHWFLSPRTEYSVAVQTAVKQSDGEYLVSGWSETVEF CTGAGPRLTYRIWDLADYAKEHLAQLQEKAEQIAGRMLRFSVFYRNHHKEYFQHARTHCG NMLQPYLKDNSGSHGSPTSGMLHGVFFSCNTEFNTGQPPQDSPYGRWRFQIPAQRLFNPS TNLYFADFYCMYTAYHYAILVLAPKGSLGDRFCRDRLPLLDIACNKFLTCSVEDGELVFR HAQDLILEIIYTEPVDLSLGTLGEISGHQLMSLSTADAKKDPSCKTCNISVGR >gi568815590r:22015703_22229170|GENSCAN_predicted_CDS_9|1062_bp ntccccacaggagacaaccctgacgggagcatggagctgctgtccacgccccacagcatt gagatcaacaacatcacctgcgactccttccgcatctcctgggccatggaggacagtgac ctggagagggtcacccattacttcattgaccttaacaagaaggagaataagaattccaac aagttcaagcaccgggacgtccccaccaagctcgtggccaaggcagtgccgctgcccatg acggtgagaggccactggttcctgagcccccgcacggagtacagtgtggccgtgcagacg gcagtgaagcagagcgatggggagtacctggtgtccggctggagcgagacggtggagttc tgcactggggctggccctcggctcacctaccgcatctgggatcttgcagattatgccaag gagcacctggctcagcttcaggagaaagctgagcagatcgcaggccgcatgctccgcttc tccgtcttctaccgcaaccatcacaaggagtacttccagcatgccaggacccactgcggg aacatgctgcagccttacctgaaggacaacagtggcagccacggctcccccaccagcggt atgctccacggggtcttcttcagctgcaacacggagttcaacacgggccagcccccgcag gactccccctacggccgctggcgcttccagatcccagctcagcgcctcttcaatcccagc accaacctctactttgcggacttctactgcatgtacacggcctaccactacgccatcctg gtgctggcgcccaaaggctccctgggggaccgcttctgccgcgaccgcctgcccctcctg gacattgcttgcaacaagttcctgacctgcagcgtggaggatggggagctggtcttccgc cacgcccaggacctcatcctggagatcatctacactgagcccgtcgacctgtccctgggc accctgggggagatcagtgggcaccagctcatgagtctgtctactgccgatgccaagaag gaccccagctgcaagacctgcaacatcagcgtgggccgctag