GENSCAN 1.0 Date run: 7-Nov-116 Time: 14:41:40 Sequence gi568815584f:24210665_24411738 : 201074 bp : 50.14% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.09 Intr - 928 747 182 2 2 -4 55 207 0.764 7.79 1.08 Intr - 1165 1016 150 2 0 38 80 224 0.932 16.73 1.07 Intr - 3935 3802 134 1 2 89 76 98 0.906 8.99 1.06 Intr - 4998 4888 111 2 0 78 116 50 0.986 6.29 1.05 Intr - 5133 5073 61 1 1 135 94 -5 0.882 2.59 1.04 Intr - 6559 6480 80 0 2 119 20 38 0.408 -0.71 1.03 Intr - 7551 7469 83 0 2 87 76 137 0.901 10.84 1.02 Intr - 7767 7720 48 0 0 71 59 65 0.627 0.78 1.01 Init - 9085 9083 3 1 0 73 66 0 0.242 -3.70 1.00 Prom - 10071 10032 40 -4.16 2.00 Prom + 20582 20621 40 -4.76 2.01 Init + 22590 22676 87 2 0 91 83 105 0.476 10.94 2.02 Intr + 22815 22934 120 2 0 94 97 89 0.994 11.09 2.03 Intr + 25073 25156 84 1 0 116 77 26 0.951 4.32 2.04 Intr + 25303 25476 174 0 0 106 80 193 0.816 20.44 2.05 Intr + 26407 26488 82 0 1 74 115 105 0.998 11.01 2.06 Term + 27582 28114 533 1 2 55 41 257 0.694 12.11 2.07 PlyA + 28551 28556 6 1.05 3.07 PlyA - 28954 28949 6 -1.75 3.06 Term - 29267 29133 135 2 0 100 44 31 0.895 -2.08 3.05 Intr - 29469 29400 70 2 1 92 113 54 0.868 7.48 3.04 Intr - 30647 30520 128 2 2 88 75 89 0.992 7.08 3.03 Intr - 31112 31011 102 2 0 99 94 110 0.998 13.07 3.02 Intr - 31330 31226 105 1 0 11 68 100 0.532 0.71 3.01 Init - 31668 31477 192 0 0 102 67 236 0.794 19.94 3.00 Prom - 36145 36106 40 -8.16 4.27 PlyA - 38470 38465 6 1.05 4.26 Term - 38877 38649 229 2 1 114 41 234 0.710 17.40 4.25 Intr - 43624 43488 137 1 2 79 92 207 0.894 19.57 4.24 Intr - 44160 44000 161 1 2 120 20 252 0.715 21.31 4.23 Intr - 44589 44308 282 1 0 58 95 384 0.973 33.49 4.22 Intr - 44853 44700 154 0 1 129 76 328 0.999 35.35 4.21 Intr - 45413 45325 89 0 2 91 78 124 0.942 11.39 4.20 Intr - 47724 47621 104 2 2 96 91 78 0.999 8.72 4.19 Intr - 48009 47871 139 1 1 99 93 267 0.670 27.82 4.18 Intr - 48585 48411 175 0 1 104 72 168 0.995 16.31 4.17 Intr - 49147 49040 108 1 0 112 89 113 0.979 14.28 4.16 Intr - 49394 49276 119 0 2 1 80 218 0.996 12.48 4.15 Intr - 50034 49786 249 1 0 84 99 398 0.985 37.91 4.14 Intr - 51219 51031 189 1 0 79 69 279 0.999 24.66 4.13 Intr - 51690 51370 321 1 0 77 78 209 0.130 14.63 4.12 Intr - 55853 55736 118 2 1 129 29 154 0.043 13.64 4.11 Intr - 56225 56112 114 2 0 116 88 65 0.855 9.94 4.10 Intr - 57294 57023 272 1 2 100 92 330 0.540 31.86 4.09 Intr - 57534 57446 89 2 2 118 54 121 0.809 11.31 4.08 Intr - 58162 58047 116 1 2 83 36 92 0.577 2.75 4.07 Intr - 58329 58247 83 1 2 81 64 46 0.804 0.86 4.06 Intr - 58499 58416 84 0 0 74 83 88 0.990 6.69 4.05 Intr - 59030 58827 204 0 0 98 86 253 0.977 25.27 4.04 Intr - 59476 59289 188 0 2 108 55 264 0.999 24.43 4.03 Intr - 59794 59670 125 1 2 78 43 164 0.833 10.28 4.02 Intr - 60283 60173 111 1 0 75 81 138 0.840 12.38 4.01 Init - 60451 60449 3 1 0 112 81 0 0.647 1.70 4.00 Prom - 65939 65900 40 -7.16 5.04 PlyA - 66112 66107 6 -0.45 5.03 Term - 67942 67755 188 2 2 64 50 145 0.475 5.95 5.02 Intr - 68763 68631 133 0 1 133 61 -10 0.307 1.02 5.01 Init - 75879 75751 129 0 0 67 64 82 0.339 3.85 5.00 Prom - 78835 78796 40 -0.66 6.09 PlyA - 79958 79953 6 1.05 6.08 Term - 80331 80195 137 1 2 109 40 31 0.666 -1.42 6.07 Intr - 80555 80475 81 0 0 117 89 98 0.854 12.41 6.06 Intr - 80961 80892 70 0 1 104 72 41 0.898 2.85 6.05 Intr - 81666 81520 147 0 0 96 52 179 0.804 15.53 6.04 Intr - 82120 81988 133 0 1 71 77 107 0.996 8.55 6.03 Intr - 86023 85845 179 1 2 94 94 81 0.448 8.02 6.02 Intr - 86217 86074 144 0 0 93 80 120 0.984 12.18 6.01 Init - 87316 87203 114 1 0 52 92 8 0.040 -2.19 6.00 Prom - 87733 87694 40 -10.45 7.00 Prom + 88095 88134 40 -13.43 7.01 Init + 88323 88464 142 2 1 76 62 111 0.066 7.60 7.02 Intr + 89391 89537 147 1 0 24 80 89 0.059 1.91 7.03 Intr + 89744 90193 450 0 0 115 119 195 0.901 18.57 7.04 Intr + 90948 91058 111 1 0 82 110 90 0.989 10.95 7.05 Intr + 91301 91442 142 0 1 97 80 68 0.997 6.31 7.06 Intr + 91568 91760 193 2 1 91 105 182 0.999 19.69 7.07 Intr + 92410 92550 141 0 0 51 105 72 0.525 5.75 7.08 Intr + 93068 93193 126 1 0 110 94 122 0.974 15.88 7.09 Intr + 93377 93613 237 1 0 93 72 151 0.875 11.81 7.10 Intr + 93829 93934 106 0 1 74 97 77 0.988 6.99 7.11 Term + 94274 94431 158 0 2 79 54 90 0.997 2.80 7.12 PlyA + 94502 94507 6 -6.84 8.06 PlyA - 94550 94545 6 1.05 8.05 Term - 95101 94969 133 0 1 100 49 39 0.925 -1.24 8.04 Intr - 95473 95283 191 1 2 19 71 200 0.911 9.78 8.03 Intr - 95859 95710 150 0 0 75 90 161 0.995 15.36 8.02 Intr - 96851 96707 145 1 1 92 106 129 0.999 15.38 8.01 Init - 97194 97154 41 0 2 107 62 25 0.902 1.52 8.00 Prom - 97539 97500 40 -11.04 9.00 Prom + 99144 99183 40 -11.92 9.01 Sngl + 100001 101077 1077 1 0 58 48 1385 0.616 128.61 9.02 PlyA + 101554 101559 6 1.05 10.00 Prom + 103938 103977 40 -8.86 10.01 Sngl + 104913 106046 1134 2 0 75 47 1528 0.710 141.94 10.02 PlyA + 107345 107350 6 1.05 11.37 PlyA - 107725 107720 6 1.05 11.36 Term - 107904 107752 153 0 0 90 50 206 0.999 14.92 11.35 Intr - 108114 107990 125 1 2 35 61 116 0.885 3.90 11.34 Intr - 108548 108434 115 2 1 40 72 189 0.590 12.52 11.33 Intr - 108772 108665 108 1 0 40 96 174 0.953 13.88 11.32 Intr - 109224 109078 147 0 0 117 52 164 0.993 16.13 11.31 Intr - 111560 111402 159 2 0 61 47 248 0.999 18.18 11.30 Intr - 112044 111960 85 2 1 73 111 89 0.999 9.52 11.29 Intr - 112424 112240 185 2 2 84 69 247 0.813 20.99 11.28 Intr - 112790 112680 111 2 0 112 81 15 0.899 3.78 11.27 Intr - 113535 113398 138 0 0 86 81 142 0.998 13.96 11.26 Intr - 113727 113643 85 2 1 113 77 102 0.996 11.42 11.25 Intr - 114810 114713 98 0 2 89 94 95 0.999 9.01 11.24 Intr - 115223 115154 70 1 1 80 64 115 0.796 7.48 11.23 Intr - 115501 115373 129 0 0 54 25 236 0.928 13.71 11.22 Intr - 115678 115635 44 1 2 97 85 29 0.892 0.54 11.21 Intr - 117540 117436 105 0 0 56 -3 124 0.578 0.51 11.20 Intr - 118684 118397 288 1 0 30 96 219 0.591 14.34 11.19 Intr - 118869 118737 133 2 1 150 65 166 0.999 21.15 11.18 Intr - 119354 119196 159 1 0 7 76 177 0.984 7.50 11.17 Intr - 119631 119504 128 0 2 33 76 190 0.953 11.78 11.16 Intr - 120692 120354 339 2 0 34 77 427 0.805 31.87 11.15 Intr - 121273 121124 150 1 0 69 76 264 0.998 23.66 11.14 Intr - 122019 121858 162 0 0 101 99 231 0.995 25.67 11.13 Intr - 122324 122127 198 2 0 71 94 223 0.693 20.75 11.12 Intr - 124018 123830 189 1 0 -23 84 335 0.097 21.78 11.11 Intr - 126796 126422 375 1 0 101 94 87 0.586 5.81 11.10 Intr - 127098 127031 68 1 2 97 113 68 0.822 8.82 11.09 Intr - 127376 127209 168 0 0 101 84 88 0.778 9.62 11.08 Intr - 127631 127585 47 1 2 84 47 -10 0.979 -7.45 11.07 Intr - 127903 127758 146 1 2 135 110 73 0.995 13.28 11.06 Intr - 128678 128351 328 1 1 23 82 464 0.563 35.00 11.05 Intr - 128933 128793 141 1 0 29 80 221 0.814 14.87 11.04 Intr - 132752 132702 51 1 0 122 50 33 0.627 0.92 11.03 Intr - 135389 135284 106 0 1 90 74 54 0.721 3.47 11.02 Intr - 136740 136576 165 1 0 127 92 -41 0.365 0.13 11.01 Init - 152547 152499 49 0 1 73 103 -13 0.075 -0.18 11.00 Prom - 153780 153741 40 -3.96 12.00 Prom + 157516 157555 40 -6.36 12.01 Init + 157677 157776 100 2 1 73 96 147 0.432 14.42 12.02 Intr + 158835 159930 1096 1 1 103 94 519 0.983 43.03 12.03 Intr + 161777 161939 163 2 1 107 98 120 0.926 14.88 12.04 Intr + 162507 162706 200 2 2 60 108 295 0.997 26.85 12.05 Intr + 163031 163203 173 2 2 76 42 261 0.999 19.89 12.06 Intr + 163662 163802 141 1 0 86 105 168 0.997 18.62 12.07 Intr + 164996 165051 56 0 2 73 66 54 0.997 0.40 12.08 Intr + 165311 165437 127 1 1 123 66 99 0.993 11.45 12.09 Intr + 165684 165881 198 1 0 82 33 121 0.455 5.32 12.10 Intr + 166044 166214 171 1 0 40 98 82 0.540 4.31 12.11 Intr + 172078 172174 97 2 1 59 83 55 0.259 1.17 12.12 Intr + 185184 185248 65 0 2 137 5 72 0.221 2.16 12.13 Intr + 188566 188780 215 2 2 115 92 256 0.728 27.13 12.14 Intr + 191858 191977 120 1 0 40 89 76 0.894 3.59 12.15 Intr + 197205 197863 659 2 2 76 127 694 0.988 62.74 12.16 Intr + 197988 199544 1557 0 0 76 59 566 0.921 40.86 12.17 Intr + 200412 200542 131 0 2 63 78 155 0.980 12.34 12.18 Intr + 200690 200839 150 0 0 108 70 87 0.828 9.03 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 55053 54951 103 2 1 84 48 131 0.885 6.45 S.002 Intr - 55853 55732 122 2 2 129 38 154 0.885 13.79 S.003 Init - 88442 88293 150 2 0 70 105 110 0.832 10.95 S.004 Init + 89291 89537 247 1 1 80 80 59 0.834 2.08 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815584f:24210665_24411738|GENSCAN_predicted_peptide_1|284_aa MTLTGKEIEIDIEPTDKVERIKERVEEKEGIPPQQQRLIYSGKQMNDEKTAADYKILGGS VLHLVLALRGGDYTLWPFWVDTHVDPPFHKSSDGTVRDRRGQDVRLYPEVPEVLKRLQSL GVPGAAASRTSEIEGANQLLELFDLFRYFVHREIYPGSKITHFERYAEIREEQGKKEKGP TPEEAIQKLKETEKILIKKQEFLEQKIQQELQTAKKYGTKNKRAALQALRRKKRFEQQLA QTDGTLSTLEFQREAIENATTNAEVLRTMELAAQSMKKAYQDMW >gi568815584f:24210665_24411738|GENSCAN_predicted_CDS_1|852_bp atgacgctgaccggaaaggagattgagattgacattgaacctacagacaaggtggagcga atcaaggagcgtgtggaggagaaagagggaatccccccacaacagcagaggctcatctac agtggcaagcagatgaatgatgagaagacagcagctgattacaagattttaggtggttca gtccttcacctggtgttggctctgagaggaggagattacactctctggcctttctgggtc gacacgcacgtagaccctccgttccataagagcagtgatggaactgtacgagataggcgg ggccaagacgtccgactgtacccagaggtgcctgaggtcctaaaacgattgcagagcctt ggggtgcccggtgcggctgcttcaaggacaagtgagatagaaggggccaaccagctactg gagctctttgacctcttcaggtactttgttcatcgggaaatctatccaggcagcaagatc acacactttgagaggtatgcggagataagggaggagcaggggaagaaggagaaagggcca acccctgaagaagcaatacagaaactgaaggagacagagaagatactgatcaagaaacag gaatttttggagcagaagattcaacaggagctacaaacagccaagaagtatgggaccaag aataagagagctgccctacaggctttgcggaggaagaaaagattcgaacagcagctggca caaactgacgggacattatccaccctggagtttcagcgtgaggccattgagaatgccact accaatgcagaagtccttcgtaccatggagcttgctgcccaaagcatgaagaaggcctac caggacatgtgg >gi568815584f:24210665_24411738|GENSCAN_predicted_peptide_2|359_aa MPHIDNDVKLDFKDVLLRPKRSTLKSRSEVDLTRSFSFRNSKQTYSGVPIIAANMDTVGT FEMAKVLCKFSLFTAVHKHYSLVQWQEFAGQNPDCLEHLAASSGTGSSDFEQLEQILEAI PQVKYICLDVANGYSEHFVEFVKDVRKRFPQHTIMAGNVVTGEMVEELILSGADIIKVGI GPGAGADFVMLGGMLAGHSESGGELIERDGKKYKLFYGMSSEMAMKKYAGGVAEYRYVWR PRSLVIVWRQNSWLLRGGWYSSQRSMVNRGSMLGSVEKSLGLRNPEGEDNKVFPTLRASE GKTVEVPFKGDVEHTIRDILGGIRSTCTYVGAAKLKELSRRTTFIRVTQQVNPIFSEAC >gi568815584f:24210665_24411738|GENSCAN_predicted_CDS_2|1080_bp atgcctcatattgacaacgatgtgaaactggacttcaaggatgtccttttgaggcccaaa cgcagtacccttaagtctcgaagtgaggtggatctcacaagatccttttcatttcggaac tcaaagcagacatactctggggttcccatcattgctgccaatatggatactgtgggcacc tttgagatggccaaggttctctgtaagttctctctcttcactgctgtccataagcactat agcctcgttcagtggcaagagtttgctggccagaatcctgactgtcttgagcatctggct gccagctcaggcacaggctcttctgactttgagcagctggaacagatcctggaagctatt ccccaggtgaagtatatatgcctggatgtggcaaatggctactctgaacactttgttgaa tttgtaaaagatgtacggaagcgcttcccccagcacaccatcatggcagggaatgtggta acaggagagatggtagaagagctcatcctttctggggctgacatcatcaaagtgggaatt gggccaggggcaggagctgacttcgtgatgctgggtggcatgctggctgggcacagtgag tcaggtggtgagctcatcgagagggatggcaagaagtacaagctcttctatggaatgagt tctgaaatggccatgaagaagtatgctgggggcgtggctgagtacaggtatgtgtggagg cccaggagcttagtaatagtatggaggcagaactcatggctgctgagagggggatggtac agttctcagagaagcatggtgaaccggggctcaatgctagggtctgtggaaaagtccctg ggcttaaggaatccagaaggagaagataataaagtttttcctactttaagagcctcagag ggaaagacagtggaagttccttttaaaggagatgtggaacataccatccgagacatccta ggagggatccgctctacgtgtacctatgtgggagcagctaagctcaaagagttgagcagg agaactaccttcatccgagtcacccagcaggtgaatccaatcttcagtgaggcgtgctag >gi568815584f:24210665_24411738|GENSCAN_predicted_peptide_3|243_aa MATPLVAGPAALRFAAAASWQVVRGRCVEHFPRVLEFLRSLRAVAPGLVRYRHHERLCMG LKAKVVVELILQGRPWAQVLKALNHHFPESGPIVRDPKATKQDLRKILEAQETFYQQVKQ LSEAPVDLASKLQELEQEYGEPFLAAMEKLLFEYLCQLEKALPTPQAQQVSLGQNISVIT IGDLVLDSDEEENGQGEGKESLENYQKTKFDTLIPTLCEYLPPSGHGAIPVSSCDCRDSS RPL >gi568815584f:24210665_24411738|GENSCAN_predicted_CDS_3|732_bp atggctacgcccctggtggcgggtcccgcagctctacgcttcgccgccgcggctagctgg caggttgtgcgcggacgctgcgtggaacattttccgcgagtactggagtttctgcgatct ctgcgcgctgttgcccctggcttggttcgctaccggcaccacgaacgcctttgtatgggc ctaaaggccaaggtggtggtggagctgatcctgcagggccggccttgggcccaagtcctg aaagccctgaatcaccactttccagaatctggacctatagtgcgggatcccaaggctaca aagcaggatctgaggaagattttggaggcacaggaaactttttaccagcaggtgaagcag ctgtcagaggctcctgtggatttggcctcgaagctgcaggaacttgaacaagagtatggg gaaccctttctggctgccatggaaaagctgctttttgagtacttgtgtcagctggagaaa gcactgcctacaccgcaggcacagcaggtttcgctggggcaaaacatctccgtcattacc ataggggacttggttttagactctgatgaggaagaaaatggccagggggaaggaaaggaa tctctggaaaactatcagaagacaaagtttgacaccttgatacccactctctgtgaatac ctacccccttctggccacggtgccatacctgtttcttcctgtgactgtagagacagttct agacctttgtga >gi568815584f:24210665_24411738|GENSCAN_predicted_peptide_4|1320_aa MHGRLKVKTSEEQAEAKRLEREQKLKLYQSATQAVFQKRQAGELDESVLELTSQILGANP DFATLWNCRREVLQQLETQKSPEELAALVKAELGFLESCLRVNPKSYGTWHHRCWLLGRL PEPNWTRELELCARFLEVDERNFHCWDYRRFVATQAAVPPAEELAFTDSLITRNFSNYSS WHYRSCLLPQLHPQPDSGPQGRLPEDVLLKELELVQNAFFTDPNDQSAWFYHRWLLGRAD PQDALRCLHVSRDEACLTVSFSRPLLVGSRMEILLLMVDDSPLIVEWRTPDGRNRPSHVW VSQDWCELSVEKSTVLQSELESCKELQELEPENKWCLLTIILLMRALDPLLYEKETLQYF QTLKASSVCRTDQGEAQQAGGRQLTCIPCPPHPLQAVDPMRATYLDDLRSKFLLENSVLK MEYAEDLTVLCHLEQLLLVTHLDLSHNRLRTLPPALAALRCLEVLQASDNAIESLDGVTN LPRLQELLLCNNRILPSGCLSDSMMDGPRSDVGRWGGNPLQPPTTPSPEPEPEPDGRSRR GGGRSFWARCCGCCSCRNAADDDWGPEPSDSRGRGSSSGTRRPGSRGSDSRRPVSRGSGV NAAGDGTIREGMLVVNGVDLLSSRSDQNRREHHTDEYEYDELIVRRGQPFHMLLLLSRTY ESSDRITLELLIGNNPEVGKGTHVIIPVGKGGSGGWKAQVVKASGQNLNLRVHTSPNAII GKFQFTVRTQSDAGEFQLPFDPRNEIYILFNPWCPEDIVYVDHEDWRQEYVLNESGRIYY GTEAQIGERTWNYGQFDHGVLDACLYILDRRGMPYGGRGDPVNVSRVISAMVNSLDDNGV LIGNWSGDYSRGTNPSAWVGSVEILLSYLRTGYSVPYGQCWVFAGVTTTVLRCLGLATRT VTNFNSAHDTDTSLTMDIYFDENMKPLEHLNHDSVWNFHVWNDCWMKRPDLPSGFDGWQV VDATPQETSSGIFCCGPCSVESIKNGLVYMKYDTPFIFAEVNSDKVYWQRQDDGSFKIVY VEEKAIGTLIVTKAISSNMREDITYLYKHPEGSDAERKAVETAAAHGSKPNVYANRGSAE DVAMQVEAQDAVMGQDLMVSVMLINHSSSRRTVKLHLYLSVTFYTGVSGTIFKETKKEVE LAPGASDRVTMPVAYKEYRPHLVDQGAMLLNVSGHVKESGQVLAKQHTFRLRTPDLSLTL LGAAVVGQECEVQIVFKNPLPVTLTNVVFRLEGSGLQRPKILNVGDIGGNETVTLRQSFV PVRPGPRQLIASLDSPQLSQVHGVIQVDVAPAPGDGGFFSDAGGDSHLGETIPMASRGGA >gi568815584f:24210665_24411738|GENSCAN_predicted_CDS_4|3963_bp atgcacggacgcctgaaggtgaagacgtcagaagagcaggcggaggccaaaaggctagag cgagagcagaagctgaagctataccagtcagccacccaggccgtattccagaagcgccag gctggtgagctggatgagtccgtgctggaactgacaagccagattctgggagccaaccct gattttgccaccctctggaactgccgacgagaggtgctccagcagctggagactcagaag tctcctgaagagttggctgctctggtgaaggcagaactgggcttcctggagagctgcctg cgggtgaaccccaagtcttatggtacctggcaccaccgatgctggctgctaggccgcctg cctgagcccaactggacccgagagctggagctctgtgcccgtttcctggaggtggatgag cggaactttcactgctgggactatcggcggtttgtggccacacaggcagccgtgccccct gcagaagagctagccttcactgacagcctcatcacccgaaacttctccaactactcttcc tggcattaccgctcctgtctcttgccccagctgcacccccagccggattctggaccacag gggcgcctccctgaggatgtgctgctcaaagagctggagctggtgcagaatgccttcttc actgaccccaatgaccagagtgcctggttttatcaccgttggctcctaggccgagctgac ccccaggatgcactgcgctgcctgcatgtgagccgggacgaggcctgtctgactgtctcc ttctctcggcccctcttagtgggctccaggatggagatcttgctgctcatggttgatgat tctcccctgattgtggagtggaggaccccagatggcaggaaccggcccagccatgtctgg gtatcccaggattggtgtgagctgtcagtggagaagtccacagtgctgcagtctgagctg gaatcctgtaaggagctgcaggagctggagcctgagaataaatggtgcctgcttaccatc atcctgctgatgcgggcactggaccccctgctgtatgagaaggagaccctgcagtacttc cagaccctcaaggcaagttctgtctgcagaacagaccagggggaggcccagcaggcagga ggcaggcagctgacatgcataccctgcccacctcatccactccaggccgtggaccccatg cgggcaacgtatctggatgacctgcgcagcaagttcttgctggagaatagcgtgctcaag atggagtatgccgaggatctgacagtgctctgccatctggaacagctgctcttggtcacc catcttgacttgtcacacaatcgcctccgaaccctgccacctgcactggctgccctgcgc tgccttgaggtgctgcaggccagtgataatgccatagagtccctggacggcgtcaccaac ctaccccggctgcaggagctgctactgtgcaacaaccgtatccttccttctgggtgcctt tcagacagcatgatggatgggccacgttccgatgtgggccgttggggtggcaaccccttg cagccccctaccacgccatctccagagccagagccagagccagacggacgctctcgcaga ggaggaggccgttccttctgggctcgctgctgtggctgctgttcatgccgaaatgcggca gatgacgactggggacctgaaccctctgactccaggggtcgagggtccagctctggcact cgaagacctggctcccggggctcagactcccgccggcctgtatcccggggcagcggtgtc aatgcagctggagatggcaccatccgagagggcatgctagtagtgaacggtgtggacttg ctgagctcgcgctcggaccagaaccgccgagagcaccacacagacgagtatgagtacgac gagctgatagtgcgccgcgggcagcctttccatatgctcctcctcctgtcccggacctat gaatcctctgatcgcatcacccttgagttactcatcggaaacaaccccgaggtgggcaag ggcacgcacgtgatcatcccagtgggcaaggggggcagtggaggctggaaagcccaggtg gtcaaggccagtgggcagaatctgaacctgcgggtccacacttcccccaacgccatcatc ggcaagtttcagttcacagtccgcacacaatcagacgctggggagttccagttgcccttt gacccccgcaatgagatctacatcctcttcaacccctggtgcccagaggacattgtgtac gtggaccatgaggattggcggcaggagtatgttcttaatgagtctgggagaatttactac gggaccgaagcacagattggtgagcggacctggaactacggccagtttgaccacggggtg ctggatgcctgcttatacatcctggaccggcgggggatgccatatggaggccgtggagac ccagtcaatgtctcccgggtcatctctgccatggtgaactccctggatgacaatggagtc ctgattgggaactggtctggtgattactcccgaggcaccaacccatcagcgtgggtgggc agcgtggagatcctgcttagctacctacgcacgggatattccgtcccctatggccagtgc tgggtctttgctggcgtgaccaccacagtgctgcgctgcctgggtctggccacccgtact gtcaccaacttcaactccgcccacgacacagacacatcccttaccatggacatctacttc gacgagaacatgaagcccctggagcacctgaaccatgattctgtctggaacttccatgtg tggaacgactgctggatgaagaggccggatctgccctcgggctttgatgggtggcaggtg gtggatgccacaccccaagagactagcagtggcatcttctgctgcggcccctgctctgtg gagtccatcaagaatggcctggtctacatgaagtacgacacgcctttcatttttgctgag gtgaatagtgacaaggtgtactggcagcggcaggatgatggcagcttcaagattgtttat gtggaggagaaggccatcggcacactcattgtcacaaaggccatcagctccaacatgcgg gaggacatcacctacctctataagcacccagaaggctcagacgcagagcggaaggcagta gagacagcagcagcccacggcagcaaacccaatgtgtatgccaaccggggctcagcggag gatgtggccatgcaggtggaggcacaggacgcggtgatggggcaggatctgatggtctct gtgatgctgatcaatcacagcagcagccgccgcacagtgaaactgcacctctacctctca gtcactttctatactggtgtcagtggtaccatcttcaaggagaccaagaaggaagtggag ctggcaccaggggcctcggaccgtgtgaccatgccagtggcctacaaggaataccggccc catcttgtggaccagggggccatgctgctcaatgtctcaggccacgtcaaggagagcggg caggtgctggccaagcagcacaccttccgtctgcgcaccccagacctctccctcacgtta ctgggagcagcagtggttggccaggagtgtgaagtacagattgtcttcaagaaccccctt cccgtcaccctcaccaatgtcgtcttccggctcgaaggctctgggttacagaggcccaag atcctcaacgttggggacattggaggcaatgaaacagtgacactgcgccagtcgtttgtg cctgtgcgaccaggcccccgccagctcattgccagcttggacagcccacagctctcccag gtgcacggtgtcatccaggtggatgtggccccagcccctggggatgggggcttcttctca gacgctggaggtgacagtcacttaggagagaccatccctatggcatctcgaggtggagct tag >gi568815584f:24210665_24411738|GENSCAN_predicted_peptide_5|149_aa MHKNGKRKFKRDLGRALTLSAAGGFKQKRKIIRFEFWKFTGAEPGSVLQARGNPHGPSSN FPSLTQKELGSREKRKNASIQTKCPRNADYLKTKEPECNSVPIQYHMTNLAQQSHQTPSS SIPPNYVQVTFDYESGICAHPTSLKKCHH >gi568815584f:24210665_24411738|GENSCAN_predicted_CDS_5|450_bp atgcacaaaaatggaaaaagaaaattcaagagggatctgggccgagcattaacactgtca gctgcaggaggatttaagcagaaacgtaaaatcatcagatttgaattttggaagttcact ggggctgagccaggaagtgtgctacaggcacgtggcaacccccatgggccatcaagcaat ttccccagcctgactcagaaggaactggggagcagggagaagagaaagaatgcaagcatt caaaccaagtgtccaaggaatgctgattatctgaagaccaaagaaccagagtgtaattct gtccctattcaataccacatgacaaatctggcccaacaatctcaccagacgccatcatcc agtattcctcccaattatgtgcaagtgaccttcgattatgagagtggcatctgtgctcat cccacgtcactgaaaaagtgccatcactag >gi568815584f:24210665_24411738|GENSCAN_predicted_peptide_6|334_aa MVNYKREICTEYSRGVGEHPDDIGEWLGKVVWESVLEEAQSLGGQCVPVVCDSSQESEVR SLFEQVDREQQGRLDVLVNNAYAGVQTPASSSPLIVPSITQPLTPPYLQIIHHPPCAFQT ILNTRNKAFWETPASMWDDINNVGLRGHYFCSVYGARLMVPAGQGLIVVISSPGSLQYMF NVPYGVGKAACDKLAADCAHELRRHGVSCVSLWPGIVQTELLKEHMAKEEVLQDPVLKQF KSAFSSAETTELSGKCVVALATDPNILSLSGKVLPSCDLARRYGLRDVDGRPVQDYLSLS SVLSHVSGLGWLASYLPSFLRVPKWIIALYTSKF >gi568815584f:24210665_24411738|GENSCAN_predicted_CDS_6|1005_bp atggtaaattataagagggagatatgcacagaatactctaggggtgttggggagcatcca gatgacataggagagtggctagggaaagtggtttgggaaagcgtcctggaggaggcacaa tccctcgggggccaatgtgtgcctgtggtgtgcgattcaagccaggagagtgaagtgcga agcctgtttgagcaagtggatcgggaacagcaagggcgtctagatgtgctggtcaacaat gcttatgcaggggtccagacccctgcatcttcatccccactcattgtcccttccattacc cagcccctcacacctccctaccttcagatcattcatcaccctccctgtgccttccagacg atcctgaacaccaggaataaggcattctgggaaacccctgcctccatgtgggatgatatc aacaacgtcggactcagaggccactacttttgctcagtgtatggggcacggctgatggta ccagctggccaggggctcatcgtggtcatctcctccccaggaagcctgcagtatatgttc aatgtcccctatggtgtgggcaaagctgcgtgtgacaagctggctgctgactgtgcccac gagctgcggcgccatggggtcagctgtgtgtctctgtggccggggattgtgcagacagaa ctgctgaaggagcatatggcaaaggaggaggtcctgcaggatcctgtgttgaagcagttc aaatcagccttctcatctgcggaaaccacagaattgagtggcaaatgtgtggtggctttg gcaacagatcccaatatcctgagcctgagtggtaaggtgctgccatcctgtgaccttgct cgacgctatggccttcgggatgtggacggccgccccgtccaagactatttgtctttgagc tctgttctctcacacgtgtccggcctgggctggctggcctcctacctgccctccttcctc cgtgtgcccaagtggattattgccctctacactagcaagttctaa >gi568815584f:24210665_24411738|GENSCAN_predicted_peptide_7|650_aa MAASDVNCGACFAELQGNATANTPGGTSHHTHLAIHGSCHDSQAKEAGRKRQPWPPPDGR SEPAPDSHPHLSPEALGYFRRALSALKEAPETGEERDLMVHNIMKEVETQALALSTNRTG SEMLQELLGFSPLKPLCRVWAALRSNLRTVACHRCGVHVLQSALLQLPRLLGSAAEEEEE EEEDGKDGPTETLEELVLGLAAEVCDDFLVYCGDTHGSFVVRTLLQVLGGTILESERARP RGSQSSEAQKTPAQECKPADFEVPETFLNRLQDLSSSFLKDIAVFITDKISSFCLQVALQ VLHRKLPQFCAHLCNAVIGYLSTRGSSVDGSPLLLFLRDQTSSRLLEQVLLVLEPPRLQS LFEEHLQGQLQTLAAHPIANFPLQRLLDAVTTPELLSPVFEELSPVLEAVLAQGHPGVVI ALVGACRRVGAYQAKVLQLLLEAFHCAEPSSRQVACVPLFATLMAYEVYYGLTEEEGAVP AEHQVAMAAARALGDVTVLGSLLLQHLLHFSTPGLVLRSLGALTGPQLLSLAQSPAGSHV LDAILTSPSVTRKLRRRVLQNLKGQYVALACSRHGSRVLDAIWSGAALRARKEIAAELGE QNQELIRDPFGHHVARNVALTTFLKRREAWEQQQGAVAKRRRALNSILED >gi568815584f:24210665_24411738|GENSCAN_predicted_CDS_7|1953_bp atggcggccagtgatgtaaactgtggcgcctgctttgcagagctgcaaggcaatgccacg gccaatacccctggaggcaccagtcaccacacacacttggccattcatgggagctgccat gactcacaggcaaaggaggcaggccgtaagcggcaaccctggccgcctccggatgggcgc tcggagccggctccagattcgcacccgcacctgagcccggaagctctgggatatttccgc cgggcgctgtcagcattgaaagaggctcccgagactggggaagaacgagatctgatggtg cacaatataatgaaggaagtagagactcaggccctagctttgtccacgaacaggactggc agtgagatgctgcaggaactgttgggattcagtcccttgaaaccgctttgtcgcgtgtgg gctgctctgcgctctaacttgcgcactgtggcctgtcaccgatgcggggtccatgtatta caaagtgctttgctacagctccctcgattgctggggagtgctgcagaggaggaggaggag gaggaggaggatggaaaggatggtcccacggagaccctggaggagctggtcctgggacta gccgctgaggtgtgtgatgattttcttgtctactgtggagacacacatggcagcttcgtg gtcagaactctgcttcaggtgttaggagggactattctggagtctgagagagccaggccc cgtggttcccaatcatctgaagcacagaagaccccagctcaggaatgtaagccagctgat tttgaagtccctgaaacctttttgaatcgccttcaggacctgagctcctcctttctgaag gacattgcagtgtttatcactgataagatctccagcttctgtcttcaagtggctttacag gttttacaccgcaaacttccccagttttgcgctcatctctgcaatgctgtgattggctac ctgagtactcgcggttcctcagtagatggcagtcccctactgctatttctccgagatcag acgagttccagactcctggagcaggtcctgctggtgttggagcccccaagactccagagc ctctttgaggagcacttgcaggggcagctgcagaccctggctgcacatcccattgccaac ttccctttgcagcgcttactggatgcagtcactacccctgagctgctgtcccctgtgttt gaggagctgagccctgtcttggaagctgtattggcccagggccacccaggggtagtcatt gccctggtgggggcctgtcgcagagttggggcctaccaagccaaggtcctacagctcttg ttggaggcattccactgtgcagagccctcatcccggcaagtggcctgtgtgcctctcttt gccactttgatggcttatgaggtgtactatggactgacggaggaggagggggcagtgcct gcagagcaccaggtggcaatggccgcagccagagccttgggggatgtgacagtccttggg tctctactgctccagcatctgctgcacttctccactcctggtcttgtacttcgaagtctg ggtgccttgacgggaccacagcttctgtcccttgcccaaagtcccgctggctctcatgtg ctcgatgccatcctgaccagcccctctgtgacgcgcaagctgcgccgccgtgtgctgcag aacctaaagggacaatatgtggctctggcctgtagtcgccatggcagccgtgtgctagat gccatctggagtggagcagccttgagggcccggaaggaaattgctgctgagcttggggag cagaaccaggagctgataagagaccctttcggccaccatgtggctcgaaatgtggccttg actaccttcctaaagcggcgagaggcttgggaacagcagcagggtgcggtggccaagcgg aggcgggcattgaactccatacttgaagactga >gi568815584f:24210665_24411738|GENSCAN_predicted_peptide_8|219_aa MEYLSALNPSDLLRSVSNISSEFGRRVWTSAPPPQRPFRVCDHKRTIRKGLTAATRQELL AKALETLLLNGVLTLVLEEDGTAVDSEDFFQLLEDDTCLMVLQSGQSWSPTRSGVLSYGL GRERPKHSKDIARFTFDVYKQNPRDLFGSLNVKATFYGLYSMSCDFQGLGPKKVLRELLR WTSTLLQGLGHMLLGISSTLRHAVEGAEQWQQKGRLHSY >gi568815584f:24210665_24411738|GENSCAN_predicted_CDS_8|660_bp atggagtacctctcagctctgaaccccagtgacttactcaggtcagtatctaatataagc tcggagtttggacggagggtctggacctcagctccaccaccccagcgacctttccgtgtc tgtgatcacaagcggaccatccggaaaggcctgacagctgccacccgccaggagctgcta gccaaagcattggagaccctactgctgaatggagtgctaaccctggtgctagaggaggat ggaactgcagtggacagtgaggacttcttccagctgctggaggatgacacgtgcctgatg gtgttgcagtctggtcagagctggagccctacaaggagtggagtgctgtcatatggcctg ggacgggagaggcccaagcacagcaaggacatcgcccgattcacctttgacgtgtacaag caaaaccctcgagacctctttggcagcctgaatgtcaaagccacattctacgggctctac tctatgagttgtgactttcaaggacttggcccaaagaaagtactcagggagctccttcgt tggacctccacactgctgcaaggcctgggccatatgttgctgggaatttcctccaccctt cgtcatgcagtggagggggctgagcagtggcagcagaagggccgcctccattcctactaa >gi568815584f:24210665_24411738|GENSCAN_predicted_peptide_9|358_aa MSVCYRPPGNETLLSWKTSRATGTAFLLLAALLGLPGNGFVVWSLAGWRPARGRPLAATL VLHLALADGAVLLLTPLFVAFLTRQAWPLGQAGCKAVYYVCALSMYASVLLTGLLSLQRC LAVTRPFLAPRLRSPALARRLLLAVWLAALLLAVPAAVYRHLWRDRVCQLCHPSPVHAAA HLSLETLTAFVLPFGLMLGCYSVTLARLRGARWGSGRHGARVGRLVSAIVLAFGLLWAPY HAVNLLQAVAALAPPEGALAKLGGAGQAARAGTTALAFFSSSVNPVLYVFTAGDLLPRAG PRFLTRLFEGSGEARGGGRSREGTMELRTTPQLKVVGQGRGNGDPGGGMEKDGPEWDL >gi568815584f:24210665_24411738|GENSCAN_predicted_CDS_9|1077_bp atgtcggtctgctaccgtcccccagggaacgagacactgctgagctggaagacttcgcgg gccacaggcacagccttcctgctgctggcggcgctgctggggctgcctggcaacggcttc gtggtgtggagcttggcgggctggcggcctgcacgggggcgaccgctggcggccacgctt gtgctgcacctggcgctggccgacggcgcggtgctgctgctcacgccgctctttgtggcc ttcctgacccggcaggcctggccgctgggccaggcgggctgcaaggcggtgtactacgtg tgcgcgctcagcatgtacgccagcgtgctgctcaccggcctgctcagcctgcagcgctgc ctcgcagtcacccgccccttcctggcgcctcggctgcgcagcccggccctggcccgccgc ctgctgctggcggtctggctggccgccctgttgctcgccgtcccggccgccgtctaccgc cacctgtggagggaccgcgtatgccagctgtgccacccgtcgccggtccacgccgccgcc cacctgagcctggagactctgaccgctttcgtgcttcctttcgggctgatgctcggctgc tacagcgtgacgctggcacggctgcggggcgcccgctggggctccgggcggcacggggcg cgggtgggccggctggtgagcgccatcgtgcttgccttcggcttgctctgggccccctac cacgcagtcaaccttctgcaggcggtcgcagcgctggctccaccggaaggggccttggcg aagctgggcggagccggccaggcggcgcgagcgggaactacggccttggccttcttcagt tctagcgtcaacccggtgctctacgtcttcaccgctggagatctgctgccccgggcaggt ccccgtttcctcacgcggctcttcgaaggctctggggaggcccgagggggcggccgctct agggaagggaccatggagctccgaactacccctcagctgaaagtggtggggcagggccgc ggcaatggagacccggggggtgggatggagaaggacggtccggaatgggacctttga >gi568815584f:24210665_24411738|GENSCAN_predicted_peptide_10|377_aa MASGNPWSSTLMRVSALTLQVLPTAMNTTSSAAPPSLGVEFISLLAIILLSVALAVGLPG NSFVVWSILKRMQKRSVTALMVLNLALADLAVLLTAPFFLHFLAQGTWSFGLAGCRLCHY VCGVSMYASVLLITAMSLDRSLAVARPFVSQKLRTKAMARRVLAGIWVLSFLLATPVLAY RTVVPWKTNMSLCFPRYPSEGHRAFHLIFEAVTGFLLPFLAVVASYSDIGRRLQARRFRR SRRTGRLVVLIILTFAAFWLPYHVVNLAEAGRALAGQAAGLGLVGKRLSLARNVLIALAF LSSSVNPVLYACAGGGLLRSAGVGFVAKLLEGTGSEASSTRRGGSLGQTARSGPAALEPG PSESLTASSPLKLNELN >gi568815584f:24210665_24411738|GENSCAN_predicted_CDS_10|1134_bp atggcgtcaggaaacccttggtcctctactctcatgcgtgtgtccgccctcactctccag gtcctcccgacggccatgaacactacatcttctgcagcacccccctcactaggtgtagag ttcatctctctgctggctatcatcctgctgtcagtggcgctggctgtggggcttcccggc aacagctttgtggtgtggagtatcctgaaaaggatgcagaagcgctctgtcactgccctg atggtgctgaacctggccctggccgacctggccgtattgctcactgctccctttttcctt cacttcctggcccaaggcacctggagttttggactggctggttgccgcctgtgtcactat gtctgcggagtcagcatgtacgccagcgtcctgcttatcacggccatgagtctagaccgc tcactggcggtggcccgcccctttgtgtcccagaagctacgcaccaaggcgatggcccgg cgggtgctggcaggcatctgggtgttgtcctttctgctggccacacccgtcctcgcgtac cgcacagtagtgccctggaaaacgaacatgagcctgtgcttcccgcggtaccccagcgaa gggcaccgggccttccatctaatcttcgaggctgtcacgggcttcctgctgcccttcctg gctgtggtggccagctactcggacatagggcgtcggctacaggcccggcgcttccgccgc agccgccgcaccggccgcctggtggtgctcatcatcctgaccttcgccgccttctggctg ccctaccacgtggtgaacctggctgaggcgggccgcgcgctggccggccaggccgccggg ttagggctcgtggggaagcggctgagcctggcccgcaacgtgctcatcgcactcgccttc ctgagcagcagcgtgaaccccgtgctgtacgcgtgcgccggcggcggcctgctgcgctcg gcgggcgtgggcttcgtcgccaagctgctggagggcacgggctccgaggcgtccagcacg cgccgcgggggcagcctgggccagaccgctaggagcggccccgccgctctggagcccggc ccttccgagagcctcactgcctccagccctctcaagttaaacgaactgaactag >gi568815584f:24210665_24411738|GENSCAN_predicted_peptide_11|1748_aa MNLLSVSMDLPVLDISYQDPSYKDIQGRNNEKETGQRVCLGLCSLKTVPLRPGLEISWKG DPRNQKGGSRKQQLNPVGAIINQNSERLSNLLKVKQPVIDRAEINPSPYKPPFYFHLYEF DYSRPSGAPAPLVSIEELENQELVGKGGFGTVFRAQHRKWGYDVAVKIVNSSLLECRKAI SREVKAMASLDNEFVLRLEGVIEKVNWDQDPKPALVTKFMENGSLSGLLQSQCPRPWPLL CRLLKEVVLGMFYLHDQNPVLLHRDLKPSNVLLDPELHVKLADFGLSTFQGGSQSGTGSG EPGGTLGYLAPELFVNVNRKASTASDVYSFGILMWAVLAGREVELPTEPSLVYEAVCNRQ NRPSLAELPQAGPETPGLEGLKELMQLCWSSEPKDRPSFQECLPKTDEVFQMVENNMNAA VSTVKDFLSQLRSSNRRFSIPESGQGGTEMDGFRRTIENQHSRNDVMVSEWLNKLNLEEP PSSVPKKCPSLTKRSRAQEEQVPQAWTAGTSSDSMAQPPQTPETSTFRNQMPSPTSTGTP SPGPRGNQPAPGLGAGEIMARLFSPRPPPSEDLFYETYYSLSQQYPLLLLLLGIVLCALA ALLAVAWASGRELTSDPSFLTTVLCALGGFSLLLGLASREQRLQRWTRPLSGLVWVALLA LGHAFLFTGGVVSAWDQVSYFLFVIFTAYAMLPLGMRDAAVAGLASSLSHLLVLGLYLGP QPDSRPALLPQLAANAVLFLCGNVAGVYHKALMERALRATFREALSSLHSRRRLDTEKKH QEHLLLSILPAYLAREMKAEIMARLQAGQGSRPESTNNFHSLYVKRHQGVRYEEEWLEGR GLWAKTLALLTQSALCSVLYADIVGFTRLASECSPKELVLMLNELFGKFDQIAKEHECMR IKILGDCYYCVSGLPLSLPDHAINCVRMGLDMCRAIRKLRAATGVDINMRVGVHSGSVLC GVIGLQKWQYDVWSHDVTLANHMEAGGVPGRVHITGATLALLAGAYAVEDAGMEHRDPYL RELGEPTYLVIDPRPTGLISSVPEIEFLGPSGGWREKEEVSVVFTVSPYVPQAEEEDEKG TAGGLLSSLEGLKMRPSLLMTRYLESWGAAKPFAHLSHGDSPVSTSTPLPLVLFLDTFCY RWTMIRLVTGVFPDAGVTARPRSPLEKTLASFSTQWSLDRSRTPRGLDDELDTGDAKFFQ VIEQLNSQKYGEQRGLGGPQALRQWKQSKDFNPLTLYFREKEMEKEYRLSAIPAFKYYEA CTFLVFLSNFIIQMLVTNRPPALAITYSITFLLFLLILFVCFSEDLMRCVLKGPKMLHWL PALSGLVATRPGLRIALGTATILLVFAMAITSLFFFPTSSDCPFQAPNVSSMISNLSWEL PGSLPLISVPYSMHCCTLGFLSCSLFLHMSFELKLLLLLLWLAASCSLFLHSHAWLSECL IVRLYLGPLDSRPGVLKEPKLMGAISFFIFFFTLLVLARQNEYYCRLDFLWKKKLRQERE ETETMENLTRLLLENVLPAHVAPQFIGQNRRNEDLYHQSYECVCVLFASVPDFKEFYSES NINHEGLECLRLLNEIIADFDELLSKPKFSGVEKIKTIGSTYMAATGLNATSGQDAQQDA ERSCSHLGTMVEFAVALGSKLDVINKHSFNNFRLRVGLNHGPVVAGVIGAQKPQYDIWGN TVNVASRMESTGVLGKIQVTEETAWALQSLGYTCYSRGVIKVKGKGQLCTYFLNTDLTRT GPPSATLG >gi568815584f:24210665_24411738|GENSCAN_predicted_CDS_11|5247_bp atgaatctactttctgtctctatggatttgcctgttctcgacatttcatatcaggatcct agctacaaagacattcaggggagaaacaatgaaaaggaaacaggccaaagggtgtgtctt gggttgtgttccctgaaaacagtgcccctgagacctggacttgagatttcctggaagggt gaccccaggaatcagaagggagggagcagaaaacaacaactcaatccagtaggtgctata attaaccaaaattcagagaggttgagtaacttgctaaaggtcaaacagccagtaattgac agagcagaaatcaaccccagcccctacaaaccaccattctactttcatctctatgaattt gactattctaggcccagcggtgcccccgcccccttggtgtccatcgaggaactggagaac caggagctcgtcggcaaaggcgggttcggcacagtgttccgggcgcaacataggaagtgg ggctacgatgtggcggtcaagatcgtaaactcctctctcctggagtgtaggaaggcgata tccagggaggtcaaggccatggcaagtctggataacgaattcgtgctgcgcctagaaggg gttatcgagaaggtgaactgggaccaagatcccaagccggctctggtgactaaattcatg gagaacggctccttgtcggggctgctgcagtcccagtgccctcggccctggccgctcctt tgccgcctgctgaaagaagtggtgcttgggatgttttacctgcacgaccagaacccggtg ctcctgcaccgggacctcaagccatccaacgtcctgctggacccagagctgcacgtcaag ctggcagattttggcctgtccacatttcagggaggctcacagtcagggacagggtccggg gagccagggggcaccctgggctacttggccccagaactgtttgttaacgtaaaccggaag gcctccacagccagtgacgtctacagcttcgggatcctaatgtgggcagtgcttgctgga agagaagttgagttgccaaccgaaccatcactcgtgtacgaagcagtgtgcaacaggcag aaccggccttcattggctgagctgccccaagccgggcctgagactcccggcttagaagga ctgaaggagctaatgcagctctgctggagcagtgagcccaaggacagaccctccttccag gaatgcctaccaaaaactgatgaagtcttccagatggtggagaacaatatgaatgctgct gtctccacggtaaaggatttcctgtctcagctcaggagcagcaataggagattttctatc ccagagtcaggccaaggagggacagaaatggatggctttaggagaaccatagaaaaccag cactctcgtaatgatgtcatggtttctgagtggctaaacaaactgaatctagaggagcct cccagctctgttcctaaaaaatgcccgagccttaccaagaggagcagggcacaagaggag caggttccacaagcctggacagcaggcacatcttcagattcgatggcccaacctccccag actccagagacctcaactttcagaaaccagatgcccagccctacctcaactggaacacca agtcctggaccccgagggaatcagccagccccggggctcggggctggggagatcatggcc cgcctcttcagcccccggccgccccccagcgaagacctcttctacgagacctactacagc ctgagccagcagtacccgctgctgctgctgctgctggggatcgtgctctgtgcgctcgcg gcgctgctcgcagtggcctgggccagcggcagggagctgacctcagacccgagcttcctg accactgtgctgtgcgcgctgggcggcttctcgctgctgctgggcctcgcttcccgggag cagcgactgcagcgctggacgcgtcccctgtccggcttggtatgggtcgcgctgctagcg ctaggccacgccttcctgttcaccgggggcgtggtgagcgcctgggaccaggtgtcctat tttctcttcgtcatcttcacggcgtatgccatgctgcccttgggcatgcgggacgccgcc gtcgcgggcctcgcctcctcactctcgcatctgctggtcctcgggctgtatcttgggcca cagccggactcacggcctgcactgctgccgcagttggcagcaaacgcagtgctgttcctg tgcgggaacgtggcaggagtgtaccacaaggcgctgatggagcgcgccctgcgggccacg ttccgggaggcactcagctccctgcactcacgccggcggctggacaccgagaagaagcac caggaacaccttctcttgtccatccttcctgcctacctggcccgagagatgaaggcagag atcatggcacggctgcaggcaggacaggggtcacggccagagagcactaacaatttccac agcctctatgtcaagaggcaccagggagtcaggtatgaggaagaatggctggaggggagg ggcctgtgggctaagaccctggccctgctgacacagtctgccctatgcagcgtgctgtat gctgacatcgtgggcttcacgcggctggccagcgagtgttcccctaaggagctggtgctc atgctcaatgagctctttggcaagttcgaccagattgccaaggagcatgaatgcatgcgg atcaagatcctgggggactgttactactgtgtctctgggctgccactctcactgccagac catgccatcaactgcgtgcgcatgggcctggacatgtgccgggccatcaggaaactgcgg gcagccactggcgtggacatcaacatgcgtgtgggcgtgcactcaggcagcgtactgtgt ggagtcatcgggctgcagaagtggcagtacgacgtttggtcacatgatgtcacactggct aaccacatggaggcaggcggtgtaccagggcgagtgcacatcacaggggctaccctggcc ctgctggcaggggcttatgctgtggaggacgcaggcatggagcatcgggacccctacctt cgggagctaggggagcctacctatctggtcatcgatccacggccaacaggcctgatctct tctgtgccagagattgagttcctgggtcctagtggggggtggagggagaaggaggaagtg tctgtggtctttactgtcagcccttatgtgccccaggcagaggaggaggatgagaagggc actgcaggaggcttgctgtcctcgcttgagggcctcaagatgcgtccatcactgctgatg acccgttacctggagtcctggggcgcagccaagccttttgcccacctgagccacggagac agccctgtgtccacctccacccctctcccgctggtgttgtttcttgacaccttttgctac cgctggaccatgatccgcttggtgacgggcgtcttcccagatgctggcgtcaccgctaga ccaaggagccctctggagaagaccctggcttccttcagcacccagtggagcctggatcgg agccgtaccccccggggactagatgatgaactggacaccggggatgccaagttcttccag gtcattgagcagctcaactcgcagaagtacggagaacaaagagggctgggggggccgcag gccctgagacagtggaagcagtcgaaggacttcaacccactgacactgtacttcagagag aaggagatggagaaagagtaccgactctctgcaatccccgccttcaaatactatgaagcc tgcaccttcctggtttttctctccaacttcatcatccagatgctagtgacaaacaggccc ccagctctggccatcacgtatagcatcaccttcctcctcttcctcctcatcctttttgtc tgcttctcagaggacctgatgaggtgtgtcctgaaaggccccaagatgctgcactggctg cctgcactgtctggcctggtggccacacgaccaggactgagaatagccttgggcaccgcc accatcctccttgtctttgccatggccattaccagcctgttcttcttcccaacatcatca gactgccctttccaagctcccaatgtgtcctccatgatttccaacctctcctgggagctc cctgggtctctgcctctcatcagtgtcccatactccatgcactgctgcacgctgggcttc ctctcctgctccctctttctgcacatgagcttcgagctgaagctgctgctgctcctgctg tggctggcggcatcctgctccctcttcctgcactcccatgcctggctgtcggaatgcctc atcgtccgcctctatctgggccccttggactccaggcccggagtgctgaaggagcccaaa ctgatgggtgctatctccttcttcatcttcttcttcaccctccttgtcctggctcgccag aatgagtactactgccgcctggacttcctgtggaagaagaagctgaggcaggagagggag gagacagagacgatggagaacctgactcggctgctcttggagaacgtgctccctgcacac gtggccccccagttcattggccagaaccggcgcaacgaggatctctaccaccagtcctat gaatgcgtttgtgtcctcttcgcctcagtcccagacttcaaggagttctactctgaatcc aacatcaatcatgagggcctagagtgtctgaggctgctcaatgagataattgctgatttt gatgagctgctctccaagcccaagttcagtggggtggagaagatcaagaccatcggcagc acctacatggcagccacaggcttaaatgccacctctggacaggatgcacaacaggatgct gaacggagctgcagccaccttggcactatggtggaatttgccgtggccctggggtctaag ctggacgtcatcaacaagcattcattcaacaacttccgcctgcgagtggggttgaaccat ggacccgtagtagctggagttattggggcccagaagccgcaatatgacatttggggcaac acagtgaacgtggccagccgcatggagagtacaggagtccttggcaaaatccaagtgact gaggagacagcatgggccctacagtccctgggctacacctgctacagccggggtgtcatc aaggtgaaaggcaaagggcagctctgcacctacttcctgaacacagacttgacacgaact ggacctccttcagctaccctaggctga >gi568815584f:24210665_24411738|GENSCAN_predicted_peptide_12|1807_aa MGAASCEDEELEFKLVFGEEKEAPPLGAGGLGEELDSEDAPPCCRLALGEPPPYGAAPIG IPRPPPPRPGMHSPPPRPAPSPGTWESQPARSVRLGGPGGGAGGAGGGRVLECPSIRITS ISPTPEPPAALEDNPDAWGDGSPRDYPPPEGFGGYREAGGQGGGAFFSPSPGSSSLSSWS FFSDASDEAALYAACDEVESELNEAASRFGLGSPLPSPRASPRPWTPEDPWSLYGPSPGG RGPEDSWLLLSAPGPTPASPRPASPCGKRRYSSSGTPSSASPALSRRGSLGEEGSEPPPP PPLPLARDPGSPGPFDYVGAPPAESIPQKTRRTSSEQAVALPRSEEPASCNGKLPLGAEE SVAPPGGSRKEVAGMDYLAVPSPLAWSKARIGGHSPIFRTSALPPLDWPLPSQYEQLELR IEVQPRAHHRAHYETEGSRGAVKAAPGGHPVVKLLGYSEKPLTLQMFIGTADERNLRPHA FYQVHRITGKMVATASYEAVVSGTKVLEMTLLPENNMAANIDCAGILKLRNSDIELRKGE TDIGRKNTRVRLVFRVHVPQGGGKVVSVQAASVPIECSQRSAQELPQVEAYSPSACSVRG GEELVLTGSNFLPDSKVVFIERGPDGKLQWEEEATVNRLQSNEVTLTLTVPEYSNKRVSR PVQVYFYVSNGRRKRSPTQSFRFLPASATPFGTDMDFSPPRPPYPSYPHEDPACETPYLS EGFGYGMPPLYPQTGPPPSYRPGLRMFPETRGPFPSQSDVHPLPAEGYNKVGPGYGPGEG APEQEKSRGGYSSGFRDSVPIQGITLEEDNLGVILFGMLADCRFTYNYISKLERVNKMKK EPTGGNSFLLIPSPQELHQSLTGAGGAAMLLSGGDPPAQEWFMVQTKSKPRVQRQRLQVQ RIFRVKLNAFQSRPDTPYFWLQLEGPRENMGKAKMEVELSLLHTNCEQYPESWLRSVPGV GSYGPTVKISGIVQEYLKGLCSPELWKEVRYPPILHCAFLGAQGLFLDCLCWSTLAYLVP GPPGSLMVGGLTESFIMTQNWLEELVGRLRWGPAPLLTPRGIWEAEVTRAFGALVWIRGD QHAGDLLQLPPAVQELLLSLVRDAAGKEDIIEWLSRFGISDSHSDPEVLICPPQQQKEAP AMVSVGESPGPFVDMGTLQNRGPENSKRLSSLGATGSLITAQSTPQEAANQLVRVGSNNQ DGMDSAQEEGTVQATSSQDSTNHTQALLKQRQVQKIEDKLLFQPPVSALGVCPPWKAWTP GPAFGPLWPGAIAATFWRINELHSLHLAWLLSQACFNFPFWQRPLGPIQLKLPGQNPLPL NLEWKQKELAPLPSAESPAGRPDGGLGGEAALQNCPRPEISPKVTSLLVVPGSSDVKDKV SSDLPQIGPPLTSTPQLQAGGEPGDQGSMQLDFKGLEEGPAPVLPTGQGKPVAQGGLTDQ SVPGAQTVPETLKVPMAAAVPKAENPSRTQVPSAAPKLPTSRMMLAVHTEPAAPEVPLAP TKPTAQLMATAQKTVVNQPVLVAQVEPTTPKTPQAQKMPVAKTSPAGPKTPKAQAGPAAT VSKAPAASKAPAAPKVPVTPRVSRAPKTPAAQKVPTDAGPTLDVARLLSEVQPTSRASVS LLKGQGQAGRQGPQSSGTLALSSKHQFQMEGLLGAWEGAPRQPPRHLQANSTVTSFQRYH EALNTPFELNLSGEPGNQGLRRVVIDGSSVAMVHGLQHFFSCRGIAMAVQFFWNRGHREV TVFVPTWQLKKNRRVRESHFLTKLHSLKMLSITPSQLENGKKITTYDYRCAGPQACPPGL RELGLAX >gi568815584f:24210665_24411738|GENSCAN_predicted_CDS_12|5421_bp atgggggcggccagctgcgaggatgaggagctggaatttaagctggtgttcggggaggaa aaggaggcccccccgctgggcgcggggggattgggggaagaactggactcagaggatgcc ccgccatgctgccgtctggccttgggagagccccctccctatggcgctgcacctatcggt attccccgacctccaccccctcggcctggcatgcattcgccaccgccgcgaccagccccc tcacctggcacctgggagagccagcccgccaggtcggtgaggctgggaggaccaggaggg ggtgctgggggtgctgggggtggccgtgttctcgagtgtcccagcatccgcatcacctcc atctctcccacgccggagccgccagcagcgctggaggacaaccctgatgcctggggggac ggctctcctagagattaccccccaccagaaggctttgggggctacagagaagcagggggc cagggtgggggggccttcttcagcccaagccctggcagcagcagcctgtcctcgtggagc ttcttctccgatgcctctgacgaggcagccctgtatgcagcctgcgacgaggtggagtct gagctaaatgaggcggcctcccgctttggcctgggctccccgctgccctcgccccgggcc tcccctcggccatggacccccgaagatccctggagcctgtatggtccaagccccggaggc cgagggccagaggatagctggctactcctcagtgctcctgggcccaccccagcctccccg cggcctgcctctccatgtggcaagcggcgctattccagctcgggaaccccatcttcagcc tccccagctctgtcccgccgtggcagcctgggggaagaggggtctgagccacctccacca cccccattgcctctggcccgggacccgggctcccctggtccctttgactatgtgggggcc ccaccagctgagagcatccctcagaagacacggcggacttccagcgagcaggcagtggct ctgcctcggtctgaggagcctgcctcatgcaatgggaagctgcccttgggagcagaggag tctgtggctcctccaggaggttcccggaaggaggtggctggcatggactacctggcagtg ccctccccactcgcttggtccaaggcccggattgggggacacagccctatcttcaggacc tctgccctacccccactggactggcctctgcccagccaatatgagcagctggagctgagg atcgaggtacagcctagagcccaccaccgggcccactatgagacagaaggcagccgtgga gctgtcaaagctgcccctggcggtcaccccgtagtcaagctcctaggctacagtgagaag ccactgaccctacagatgttcatcggcactgcagatgaaaggaacctgcggcctcatgcc ttctatcaggtgcaccgtatcacaggcaagatggtggccacggccagctatgaagccgta gtcagtggcaccaaggtgttggagatgactctgctgcctgagaacaacatggcggccaac attgactgcgcgggaatcctgaagcttcggaattcagacattgagcttcggaagggtgag acggacatcgggcgcaaaaacacacgtgtacggctggtgttccgggtacacgtgccccag ggcggcgggaaggtcgtctcagtacaggcagcatcggtgcccatcgagtgctcccagcgc tcagcccaggagctgccccaggtggaggcctacagccccagtgcctgctctgtgagagga ggcgaggaactggtactgactggctccaacttcctgccagactccaaggtggtgttcatt gagaggggtcctgatgggaagctgcaatgggaggaggaggccacagtgaaccgactgcag agcaacgaggtgacgctgaccctgactgtccccgagtacagcaacaagagggtttcccgg ccagtccaggtctacttttatgtctccaatgggcggaggaaacgcagtcctacccagagt ttcaggtttctgcctgcatcggcaaccccctttggcactgacatggacttctcaccaccc aggcccccctacccctcctatccccatgaagaccctgcttgcgaaactccttacctatca gaaggcttcggctatggcatgccccctctgtacccccagacggggcccccaccatcctac agaccgggcctgcggatgttccctgagactaggggccccttcccttcccagagtgatgtg catcccctacctgctgagggatacaataaggtagggccaggctatggccctggggagggg gctccggagcaggagaaatccaggggtggctacagcagcggcttccgagacagtgtccct atccagggtatcacgctggaggaagacaatcttggtgttattttatttgggatgctggcc gactgtagatttacttacaactacatttccaaactggaaagagttaataagatgaaaaag gagcctactggtggtaacagcttcctgctgatacctagccctcaagaactgcaccagtct cttacaggagcgggcggggcagccatgctcctgtctgggggcgatcctccggcgcaggaa tggttcatggtgcagacaaaatcgaagcctcgggtgcagcggcagcggctgcaagtgcag cgcatctttagggtcaagctgaacgccttccagagccgcccggacaccccctacttctgg ctacagctcgaggggccccgagagaacatgggcaaagccaagatggaagttgaactatct ttgctgcacactaactgtgagcagtaccctgagagttggttgcggtcagtgcctggagtt ggctcctatggacccactgttaaaatttcgggaattgtgcaagaatacctgaagggcctg tgcagcccagagctgtggaaagaggttcgctacccaccgatcctgcactgtgccttcctt ggggcccaaggcctcttcctggactgcctctgctggagcacccttgcctacctggtgcct ggcccccctggctccctgatggtgggcgggctgactgagtctttcatcatgacacagaac tggctggaggagctggtggggcgactgcgctggggccctgcccctctgctgaccccccgg gggatctgggaggctgaggtgacccgggcctttggggccctggtctggatccgtggtgac cagcatgcaggggacctactgcagctgcccccagcggtccaggagctgctgctgagcctg gtgcgggatgctgcgggcaaggaagacatcatcgagtggctcagccgcttcggcatctct gactcccactccgatccggaggttctaatctgccctccccagcagcagaaggaagcccca gccatggtgtccgtgggagagagtcctggaccctttgtggacatggggaccctccagaac aggggcccagaaaattcaaagagattatctagcctgggagccactgggtccctgatcaca gcccagagcacaccgcaggaggcagcaaaccagctggtacgggtcggttccaacaaccaa gatggtatggacagtgctcaagaggaagggacagtgcaagccaccagcagccaggactcc acgaaccacacacaagccttgttgaagcaaaggcaggtccagaagatagaagataaactc ctcttccaacctccagtatcagccctgggtgtgtgcccaccctggaaggcctggaccccg gggccagcctttgggccattgtggccgggggctattgctgcaaccttctggaggatcaat gagctgcattctctacatctggcctggctcctgtcccaggcgtgcttcaatttccccttc tggcagagacctctgggccccattcagttgaagctgccagggcagaatcctttgccctta aatctggagtggaagcagaaggagctggctcctctgcctagtgcagaaagcccagctggt agaccagatggggggctgggaggagaagcagccctgcagaattgcccaaggccagagatt tccccaaaagttacgagtttattggtggtccctgggagctcagatgtaaaagacaaagtt agctcggatctcccacagatagggccacccttgacctctacaccccaactacaggctgga ggtgagccgggggatcaagggagtatgcagttagattttaagggactggaagagggaccc gctccagtgctgccaacagggcaagggaagcccgtggctcaaggggggctgacagatcag tcagtacctggagctcaaacagtgcctgaaactctcaaagtgcccatggctgcagcagtg cccaaagctgaaaatccctccagaactcaagtgccatctgcagctcccaaactgcctaca tctcgaatgatgctggcagtgcacacagagcctgcagctcccgaagtgcctttggctcca acaaagccaacagctcaactgatggccacagctcaaaaaacagttgtgaatcaaccagtg ttggtagctcaagtggaacccacaactccaaaaactccccaggctcagaagatgcctgta gcaaaaacatcacctgcaggtcccaaaacacccaaagctcaagccgggcctgcagctaca gtttccaaagcacctgcagcttccaaagcacctgcagctcccaaagtacctgtgaccccc agagtctccagagctcccaaaacacctgcagctcagaaggtgcccacggatgcagggcca accttggatgtagccagacttctgagtgaggtccagcctacatcaagggctagtgtctcc ttactgaagggccaggggcaggctggaaggcagggtccccagtccagtggcaccttggcc ctcagcagtaagcaccagtttcagatggaggggctcctgggggcttgggagggggcccca aggcagccacctcgccacctgcaagcgaacagcacagtgaccagcttccagaggtaccac gaggccctgaatacacccttcgagctgaacctgtcaggggaacctggaaaccaggggttg cggcgagtggtcatcgatggcagcagtgtggccatggtgcatggcctgcagcacttcttc tcctgccgaggaattgccatggcagtgcagtttttctggaaccggggacaccgagaggtc actgtgtttgtacccacctggcagctgaagaagaaccggagggtgagagagagccacttt ctgacgaagctacactcgctcaagatgctttcaatcacaccctcccagcttgagaatggc aagaagatcaccacctacgattataggtgtgccggtccccaggcctgccctcctgggctc agggagttgggcctggctgnn