GENSCAN 1.0 Date run: 2-Nov-116 Time: 22:40:51 Sequence gi568815592f:31882108_32014845 : 132738 bp : 52.36% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.25 Intr - 678 592 87 2 0 93 91 103 0.600 10.68 1.24 Intr - 902 787 116 2 2 85 61 77 0.979 4.45 1.23 Intr - 1332 1255 78 0 0 86 100 148 0.999 16.04 1.22 Intr - 1843 1699 145 0 1 114 109 230 0.995 28.49 1.21 Intr - 2452 2285 168 0 0 86 105 256 0.999 26.68 1.20 Intr - 2692 2538 155 1 2 118 42 249 0.999 22.68 1.19 Intr - 2909 2784 126 2 0 135 75 190 0.784 23.78 1.18 Intr - 4575 4474 102 0 0 104 76 182 0.999 19.47 1.17 Intr - 4790 4668 123 2 0 96 75 145 0.986 15.29 1.16 Intr - 4994 4888 107 0 2 84 76 199 0.993 18.73 1.15 Intr - 5552 5470 83 1 2 98 56 144 0.988 11.98 1.14 Intr - 5854 5672 183 0 0 93 105 127 0.998 14.32 1.13 Intr - 6169 5934 236 1 2 138 84 154 0.995 17.02 1.12 Intr - 6399 6256 144 0 0 63 101 175 0.940 17.29 1.11 Intr - 6640 6492 149 2 2 91 59 216 0.998 19.46 1.10 Intr - 6963 6862 102 1 0 91 51 114 0.991 8.65 1.09 Intr - 7235 7121 115 2 1 113 78 159 0.994 17.92 1.08 Intr - 7495 7361 135 1 0 67 90 292 0.999 28.57 1.07 Intr - 10455 10300 156 0 0 78 100 189 0.998 19.82 1.06 Intr - 10627 10587 41 2 2 120 107 20 0.994 5.53 1.05 Intr - 10803 10719 85 0 1 115 82 120 0.997 13.99 1.04 Intr - 14409 14156 254 1 2 109 109 4 0.548 2.29 1.03 Intr - 14717 14499 219 0 0 116 72 171 0.973 17.10 1.02 Intr - 14882 14816 67 2 1 130 105 56 0.963 10.47 1.01 Init - 15570 15529 42 0 0 107 64 147 0.959 12.57 1.00 Prom - 16135 16096 40 -5.31 2.03 PlyA - 16992 16987 6 1.05 2.02 Term - 19218 17819 1400 1 2 94 42 2128 0.391 200.72 2.01 Init - 20245 20155 91 1 1 98 77 139 0.391 12.41 2.00 Prom - 37816 37777 40 1.19 3.00 Prom + 44647 44686 40 -3.11 3.01 Init + 45646 45691 46 0 1 103 91 64 0.994 7.11 3.02 Intr + 45848 46057 210 0 0 84 64 69 0.864 3.51 3.03 Intr + 46625 46810 186 0 0 99 84 157 0.957 16.58 3.04 Intr + 51503 51676 174 0 0 126 78 168 0.970 20.03 3.05 Intr + 51760 51858 99 2 0 127 96 81 0.999 13.38 3.06 Intr + 52059 52192 134 1 2 69 32 173 0.979 10.67 3.07 Intr + 53816 53954 139 1 1 82 102 214 0.975 22.74 3.08 Intr + 55212 55352 141 1 0 33 64 165 0.981 9.43 3.09 Intr + 57124 57213 90 2 0 61 80 108 0.969 7.76 3.10 Intr + 60852 60992 141 1 0 67 92 166 0.992 15.73 3.11 Intr + 61118 61212 95 0 2 90 76 44 0.888 3.58 3.12 Intr + 61309 61420 112 0 1 91 82 144 0.996 14.56 3.13 Intr + 61537 61702 166 2 1 46 51 192 0.925 10.83 3.14 Intr + 61810 61886 77 1 2 112 101 5 0.966 3.85 3.15 Intr + 62028 62119 92 1 2 57 78 37 0.889 -0.19 3.16 Intr + 62620 62746 127 0 1 75 96 32 0.435 3.46 3.17 Intr + 64418 64559 142 0 1 70 77 140 0.464 11.02 3.18 Intr + 64916 65085 170 2 2 22 78 228 0.475 15.31 3.19 Intr + 65241 65414 174 1 0 79 55 161 0.644 12.33 3.20 Intr + 65635 65736 102 2 0 81 36 140 0.997 8.75 3.21 Intr + 65838 65974 137 1 2 53 39 249 0.999 17.30 3.22 Intr + 66267 66405 139 2 1 100 77 133 0.968 13.94 3.23 Intr + 66723 66854 132 1 0 110 41 108 0.998 9.42 3.24 Intr + 67136 67237 102 0 0 127 92 117 0.999 16.65 3.25 Intr + 67313 67450 138 0 0 125 62 141 0.982 16.14 3.26 Intr + 67868 68040 173 0 2 102 61 6 0.904 -0.52 3.27 Intr + 68179 68296 118 0 1 101 82 120 0.964 13.24 3.28 Intr + 68512 68665 154 2 1 28 94 224 0.954 16.64 3.29 Intr + 68761 68837 77 1 2 111 69 32 0.972 3.25 3.30 Intr + 68947 69137 191 2 2 -40 100 242 0.469 12.43 3.31 Intr + 69234 69366 133 2 1 95 78 121 0.987 12.52 3.32 Intr + 69448 69497 50 2 2 120 89 40 0.981 6.19 3.33 Term + 69768 69923 156 2 0 80 49 97 0.996 3.25 3.34 PlyA + 69956 69961 6 -1.75 4.12 PlyA - 70066 70061 6 -5.12 4.11 Term - 70291 70194 98 2 2 136 50 168 0.999 16.23 4.10 Intr - 71580 71464 117 1 0 122 88 -39 0.553 0.44 4.09 Intr - 71724 71622 103 0 1 119 103 145 0.999 19.35 4.08 Intr - 72027 71973 55 2 1 110 31 79 0.999 3.87 4.07 Intr - 72335 72191 145 0 1 81 78 72 0.999 5.35 4.06 Intr - 72785 72448 338 1 2 78 73 397 0.635 32.92 4.05 Intr - 72989 72952 38 2 2 85 50 24 0.991 -4.15 4.04 Intr - 73186 73112 75 1 0 61 88 71 0.954 4.61 4.03 Intr - 74731 74586 146 2 2 109 105 164 0.998 20.71 4.02 Intr - 74903 74834 70 2 1 107 68 59 0.959 5.05 4.01 Init - 76339 76265 75 1 0 94 100 134 0.998 16.24 4.00 Prom - 76530 76491 40 -14.08 5.00 Prom + 76585 76624 40 -9.45 5.01 Init + 77089 77107 19 0 1 76 73 0 0.324 -2.49 5.02 Intr + 77190 77293 104 1 2 104 75 128 0.951 13.49 5.03 Intr + 78113 78230 118 1 1 53 75 26 0.489 -1.66 5.04 Intr + 78559 78633 75 2 0 110 116 59 0.971 10.88 5.05 Intr + 78934 78987 54 2 0 102 96 33 0.930 4.94 5.06 Intr + 79089 79279 191 1 2 81 81 -15 0.809 -3.07 5.07 Intr + 79440 79568 129 2 0 79 80 117 0.989 11.40 5.08 Intr + 79802 79947 146 1 2 114 72 160 0.999 16.59 5.09 Intr + 80332 80478 147 1 0 69 89 302 0.999 28.26 5.10 Intr + 80607 80691 85 0 1 84 94 161 0.974 16.62 5.11 Intr + 80878 80984 107 0 2 116 72 99 0.999 10.61 5.12 Intr + 81306 81452 147 0 0 140 98 70 0.999 13.06 5.13 Intr + 81530 81626 97 2 1 99 94 92 0.999 11.41 5.14 Intr + 81806 82018 213 1 0 129 96 203 0.980 24.64 5.15 Intr + 82125 82235 111 2 0 92 52 133 0.833 11.18 5.16 Intr + 83676 83906 231 2 0 128 89 302 0.999 32.80 5.17 Intr + 84602 84739 138 1 0 67 116 192 0.994 21.07 5.18 Intr + 84897 85034 138 2 0 74 99 129 0.897 13.77 5.19 Intr + 85166 85270 105 1 0 123 94 72 0.978 12.21 5.20 Intr + 85608 85755 148 2 1 88 100 19 0.905 3.42 5.21 Intr + 85849 85975 127 2 1 102 -3 237 0.575 16.24 5.22 Intr + 86221 86431 211 1 1 74 91 156 0.511 13.94 5.23 Intr + 86579 86689 111 1 0 -10 90 212 0.893 12.68 5.24 Intr + 86764 86982 219 0 0 109 91 224 0.997 23.83 5.25 Intr + 87173 87313 141 1 0 118 101 186 0.999 23.96 5.26 Term + 87408 87608 201 2 0 86 42 184 0.999 11.31 5.27 PlyA + 87632 87637 6 -3.44 6.07 PlyA - 87728 87723 6 1.05 6.06 Term - 87917 87770 148 1 1 128 39 57 0.988 2.49 6.05 Intr - 88096 88002 95 1 2 94 94 97 0.996 10.16 6.04 Intr - 88271 88236 36 2 0 82 86 26 0.552 0.74 6.03 Intr - 88718 88609 110 0 2 108 59 75 0.687 7.10 6.02 Intr - 89040 88805 236 2 2 94 109 186 0.999 19.16 6.01 Init - 89568 89213 356 0 2 60 72 282 0.989 20.42 6.00 Prom - 90277 90238 40 -13.57 7.00 Prom + 90285 90324 40 -0.91 7.01 Init + 90543 90663 121 2 1 49 62 218 0.251 14.61 7.02 Intr + 96668 96891 224 0 2 58 36 109 0.396 1.07 7.03 Intr + 97307 97446 140 1 2 100 57 81 0.923 5.97 7.04 Intr + 98344 98441 98 1 2 103 63 50 0.951 4.15 7.05 Intr + 98547 98694 148 1 1 109 105 138 0.954 17.40 7.06 Intr + 100198 100396 199 1 1 131 91 11 0.919 5.58 7.07 Intr + 100611 100812 202 2 1 134 84 98 0.997 13.38 7.08 Intr + 101022 101092 71 1 2 108 105 117 0.999 14.79 7.09 Intr + 101171 101259 89 1 2 115 44 137 0.999 11.27 7.10 Intr + 101478 101560 83 0 2 99 81 83 0.987 8.48 7.11 Intr + 101731 101827 97 2 1 41 90 148 0.987 9.87 7.12 Intr + 101966 102071 106 2 1 123 97 80 0.999 13.12 7.13 Intr + 102169 102301 133 0 1 93 94 139 0.975 15.72 7.14 Intr + 109085 109200 116 0 2 166 9 35 0.924 4.07 7.15 Intr + 109300 109479 180 0 0 84 2 132 0.645 4.78 7.16 Intr + 109625 109807 183 1 0 102 54 124 0.855 10.90 7.17 Intr + 109940 110125 186 1 0 53 55 244 0.728 18.00 7.18 Intr + 110279 110437 159 1 0 76 76 287 0.999 27.00 7.19 Intr + 110689 110815 127 0 1 103 33 55 0.946 2.26 7.20 Intr + 110983 111057 75 2 0 95 82 80 0.996 8.08 7.21 Intr + 111318 111515 198 1 0 75 78 267 0.943 24.24 7.22 Intr + 111607 111718 112 2 1 75 45 222 0.999 16.54 7.23 Intr + 111809 111879 71 2 2 90 59 52 0.993 1.82 7.24 Intr + 112138 112277 140 2 2 126 46 230 0.998 23.29 7.25 Intr + 112391 112600 210 1 0 129 53 220 0.977 22.23 7.26 Intr + 112680 112896 217 2 1 73 92 71 0.995 4.60 7.27 Intr + 112998 113087 90 1 0 89 75 85 0.992 7.76 7.28 Intr + 113223 113432 210 1 0 81 18 152 0.839 6.91 7.29 Intr + 113612 113687 76 0 1 66 93 129 0.999 10.27 7.30 Intr + 113848 114004 157 1 1 109 80 83 0.977 10.13 7.31 Intr + 114100 114216 117 0 0 131 103 164 0.999 23.37 7.32 Intr + 114322 114493 172 0 1 108 78 146 0.986 15.63 7.33 Intr + 114722 114954 233 0 2 114 30 149 0.955 9.72 7.34 Intr + 115037 115204 168 1 0 63 66 269 0.788 22.86 7.35 Intr + 115598 115657 60 1 0 37 100 52 0.574 0.72 7.36 Intr + 116707 116800 94 0 1 22 72 155 0.971 7.34 7.37 Intr + 116898 117084 187 1 1 75 56 347 0.844 29.47 7.38 Intr + 117199 117289 91 1 1 63 70 139 0.845 10.10 7.39 Intr + 117380 117454 75 1 0 110 109 66 0.999 11.11 7.40 Intr + 118946 119048 103 1 1 74 105 170 0.999 17.55 7.41 Intr + 119214 119303 90 1 0 101 76 -2 0.539 0.36 7.42 Intr + 119389 119487 99 2 0 86 73 146 0.991 13.48 7.43 Intr + 119670 119753 84 1 0 90 -1 90 0.596 0.59 7.44 Intr + 120016 120148 133 2 1 117 79 178 0.999 20.01 7.45 Term + 120292 120433 142 1 1 131 55 224 0.462 21.11 7.46 PlyA + 120538 120543 6 -1.95 8.00 Prom + 121997 122036 40 -10.31 8.01 Init + 123582 123783 202 2 1 62 100 326 0.999 28.22 8.02 Intr + 123881 123970 90 0 0 111 67 78 0.997 8.46 8.03 Intr + 124098 124405 308 1 2 41 94 270 0.702 19.61 8.04 Intr + 124513 124614 102 0 0 113 46 139 0.999 13.07 8.05 Intr + 124703 124804 102 1 0 98 72 44 0.953 4.67 8.06 Intr + 124906 124992 87 0 0 84 81 132 0.984 12.76 8.07 Intr + 125162 125338 177 1 0 118 -48 135 0.489 3.53 8.08 Intr + 125639 125742 104 1 2 44 62 132 0.915 5.67 8.09 Intr + 125826 125929 104 0 2 43 84 151 0.997 10.52 8.10 Term + 126027 126292 266 1 2 94 45 367 0.999 29.01 8.11 PlyA + 126319 126324 6 -10.54 9.13 PlyA - 126338 126333 6 1.05 9.12 Term - 126608 126507 102 2 0 94 49 78 0.999 3.08 9.11 Intr - 127092 126929 164 1 2 78 94 291 0.999 28.91 9.10 Intr - 127331 127170 162 0 0 67 115 309 0.928 31.96 9.09 Intr - 127520 127424 97 2 1 91 52 90 0.986 5.78 9.08 Intr - 127765 127614 152 2 2 83 68 233 0.989 21.19 9.07 Intr - 127990 127858 133 1 1 159 49 14 0.999 5.32 9.06 Intr - 128240 128110 131 0 2 133 49 148 0.999 16.32 9.05 Intr - 128477 128334 144 0 0 71 91 150 0.942 14.36 9.04 Intr - 128715 128596 120 1 0 96 72 184 0.475 18.57 9.03 Intr - 129168 129046 123 1 0 98 26 113 0.568 7.16 9.02 Intr - 129755 129420 336 0 0 88 110 320 0.999 30.24 9.01 Intr - 130365 130045 321 1 0 86 81 463 0.748 41.78 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 38523 38463 61 0 1 86 110 26 0.825 5.48 S.002 Init + 64115 64178 64 1 1 93 99 48 0.816 5.72 S.003 Init + 131305 131432 128 0 2 55 105 216 0.806 17.77 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815592f:31882108_32014845|GENSCAN_predicted_peptide_1|1073_aa MAAAAGAAAAAAAEGEAPAEMGALLLEKETRGATERVHGSLGDTPRSEETLPKATPDSLE PAGPSSPASVTVTVGDEGADTPVGATPLIGDESENLEGDGDLRGGRILLGHATKSFPSSP SKGGSCPSRAKMSMTGAGKSPPSVQSLAMRLLSMPGAQGAAAAGSEPPPATTSPEGQPKV HRARKTMSKPGNGQPPVPEKRPPEIQHFRMSDDVHSLGKVTSDLAKRRKLNSGGGLSEEL GSARRSGEVTLTKGDPGSLEEWETVVGDDFSLYYDSYSVDERVDSDSKSEVEALTEQLSE EEEEEEEEEEEEEEEEEEEEEEEDEESGNQSDRSGSSGRRKAKKKWRKDSPWVKPSRKRR KREPPRAKEPRGVNGVGSSGPSEYMEVPLGSLELPSEGTLSPNHAGVSNDTSSLETERGF EELPLCSCRMEAPKIDRISERAGHKCMATESVDGELSGCNAAILKRETMRPSSRVALMVL CETHRARMVKHHCCPGCGYFCTAGTFLECHPDFRVAHRFHKACVSQLNGMVFCPHCGEDA SEAQEVTIPRGDGVTPPAGTAAPAPPPLSQDVPGRADTSQPSARMRGHGEPRRPPCDPLA DTIDSSGPSLTLPNGGCLSAVGLPLGPGREALEKALVIQESERRKKLRFHPRQLYLSVKQ GELQKVILMLLDNLDPNFQSDQQSKRTPLHAAAQKGSVEICHVLLQAGANINAVDKQQRT PLMEAVVNNHLEVARYMVQRGGCVYSKEEDGSTCLHHAAKIGNLEMVSLLLSTGQVDVNA QDSGGWTPIIWAAEHKHIEVIRMLLTRGADVTLTDNVSERLVEEENICLHWASFTGSAAI AEVLLNARCDLHAVNYHGDTPLHIAARESYHDCVLLFLSRGANPELRNKEGDTAWDLTPE RSDVWFALQLNRKLRLGVGNRAIRTEKIICRDVARGYENVPIPCVNGVDGEPCPEDYKYI SENCETSTMNIDRNITHLQHCTCVDDCSSSNCLCGQLSIRCWYDKDGRLLQEFNKIEPPL IFECNQACSCWRNCKNRVVQSGIKVRLQLYRTAKMGWGVRALQTIPQGTFICD >gi568815592f:31882108_32014845|GENSCAN_predicted_CDS_1|3219_bp atggcggcggcggcgggagctgcagcggcggcggccgccgagggggaggcccccgctgag atgggggcgctgctgctggagaaggaaaccagaggagccaccgagagagttcatggctct ttgggggacacccctcgtagtgaagaaaccctgcccaaggccacccccgactccctggag cctgctggcccctcatctccagcctctgtcactgtcactgttggtgatgagggggctgac acccctgtaggggctacaccactcattggggatgaatctgagaatcttgagggagatggg gacctccgtgggggccggatcctgctgggccatgccacaaagtcattcccctcttccccc agcaaggggggttcctgtcctagccgggccaagatgtcaatgacaggggcgggaaaatca cctccatctgtccagagtttggctatgaggctactgagtatgccaggagcccagggagct gcagcagcagggtctgaaccccctccagccaccacgagcccagagggacagcccaaggtc caccgagcccgcaaaaccatgtccaaaccaggaaatggacagcccccggtccctgagaag cggccccctgaaatacagcatttccgcatgagtgatgatgtccactcactgggaaaggtg acctcagatctggccaaaaggaggaagctgaactcaggaggtggcctgtcagaggagtta ggttctgcccggcgttcaggagaagtgaccctgacgaaaggggaccccgggtccctggag gagtgggagacggtggtgggtgatgacttcagtctctactatgattcctactctgtggat gagcgcgtggactccgacagcaagtctgaagttgaagctctaactgaacaactaagtgaa gaggaggaggaggaagaggaggaagaagaagaagaggaagaggaggaggaagaggaagaa gaagaggaagatgaggagtcagggaatcagtcagataggagtggttccagtggccggcgc aaggccaagaagaaatggcgaaaagacagcccatgggtgaagccgtctcggaaacggcgc aagcgggagcctccgcgggccaaggagccacgaggagtgaatggtgtgggctcctcaggc cccagtgagtacatggaggtccctctggggtccctggagctgcccagcgaggggaccctc tcccccaaccacgctggggtgtccaatgacacatcttcgctggagacagagcgagggttt gaggagttgcccctgtgcagctgccgcatggaggcacccaagattgaccgcatcagcgag agggcggggcacaagtgcatggccactgagagtgtggacggagagctgtcaggctgcaat gccgccatcctcaagcgggagaccatgaggccatccagccgtgtggccctgatggtgctc tgtgagacccaccgcgcccgcatggtcaaacaccactgctgcccgggctgcggctacttc tgcacggcgggcaccttcctggagtgccaccctgacttccgtgtggcccaccgcttccac aaggcctgtgtgtctcagctgaatgggatggtcttctgtccccactgtggggaggatgct tctgaagctcaagaggtgaccatcccccggggtgacggggtgaccccaccggccggcact gcagctcctgcacccccacccctgtcccaggatgtccccgggagagcagacacttctcag cccagtgcccggatgcgagggcatggggaaccccggcgcccgccctgcgatcccctggct gacaccattgacagctcagggccctccctgaccctgcccaatgggggctgcctttcagcc gtggggctgccactggggccaggccgggaggccctggaaaaggccctggtcatccaggag tcagagaggcggaagaagctccgtttccaccctcggcagttgtacctgtccgtgaagcag ggcgagctgcagaaggtgatcctgatgctgttggacaacctggaccccaacttccagagc gaccagcagagcaagcgcacgcccctgcatgcagccgcccagaagggctccgtggagatc tgccatgtgctgctgcaggctggagccaacataaatgcagtggacaaacagcagcggacg ccactgatggaggccgtggtgaacaaccacctggaggtagcccgttacatggtgcagcgt ggtggctgtgtctatagcaaggaggaggacggttccacctgcctccaccacgcagccaaa atcgggaacttggagatggtcagcctgctgctgagcacaggacaggtggacgtcaacgcc caggacagtggggggtggacgcccatcatctgggctgcagagcacaagcacatcgaggtg atccgcatgctactgacgcggggcgccgacgtcaccctcactgacaacgtgagtgagcgt ttggttgaggaggagaacatctgcctgcactgggcctccttcacgggcagcgccgccatc gccgaagtccttctgaatgcgcgctgtgacctccatgctgtcaactaccatggggacacc cccctgcacatcgcagctcgggagagctaccatgactgcgtgctgttattcctgtcacgt ggggccaaccctgagctgcggaacaaagagggggacacagcatgggacctgactcccgag cgctccgacgtgtggtttgcgcttcaactcaaccgcaagctccgacttggggtgggaaat cgggccatccgcacagagaagatcatctgccgggacgtggctcggggctatgagaacgtg cccattccctgtgtcaacggtgtggatggggagccctgccctgaggattacaagtacatc tcagagaactgcgagacgtccaccatgaacatcgatcgcaacatcacccacctgcagcac tgcacgtgtgtggacgactgctctagctccaactgcctgtgcggccagctcagcatccgg tgctggtatgacaaggatgggcgattgctccaggaatttaacaagattgagcctccgctg attttcgagtgtaaccaggcgtgctcatgctggagaaactgcaagaaccgggtcgtacag agtggcatcaaggtgcggctacagctctaccgaacagccaagatgggctggggggtccgc gccctgcagaccatcccacaggggaccttcatctgcgan >gi568815592f:31882108_32014845|GENSCAN_predicted_peptide_2|496_aa MGSRDWGAGPSERASARHLARTRKLAAGLGGLPTPATMASGVEVLRFQLPGHEAATLRNM NQLRAEERFCDVTIVADSLKFRGHKVILAACSPFLRDQFLLNPSSELQVSLMHSARIVAD LLLSCYTGALEFAVRDIVNYLTAASYLQMEHVVEKCRNALSQFIEPKIGLKEDGVSEASL VSSISATKSLLPPARTPKPAPKPPPPPPLPPPLLRPVKLEFPLDEDLELKAEEEDEDEDE DVSDICIVKVESALEVAHRLKPPGGLGGGLGIGGSVGGHLGELAQSSVPPSTVAPPQGVV KACYSLSEDAEGEGLLLIPGGRASVGATSGLVEAAAVAMAARGAGGSLGAGGSRGPLPGG FSGGNPLKNIKCTKCPEVFQGVEKLVFHMRAQHFIFMCPRCGKQFNHSSNLNRHMNVHRG VKSHSCGICGKCFTQKSTLHDHLNLHSGARPYRCSYCDVRFAHKPAIRRHLKEQHGKTTA ENVLEASVAEINVLIR >gi568815592f:31882108_32014845|GENSCAN_predicted_CDS_2|1491_bp atgggcagccgggattggggggcgggcccgagtgagcgggcctccgcgcggcacttggca cgcacgcgcaaactggccgcggggcttggagggttgcccacccccgccacaatggcctct ggggtggaagtcctgcgcttccagctgcccggccacgaggccgcaacgctacggaacatg aaccagctccgggcagaggagcggttctgcgacgtgaccattgtggccgacagcctcaag tttcgaggccacaaggtcatcttggccgcctgctcacccttcctgcgggaccagttcctg ctgaaccccagctcggagctgcaggtctccctgatgcacagtgcacgcatcgtggccgac ttgctcctctcctgctacacgggcgccttggaattcgctgttagggacatcgtcaactac cttacagccgcctcctacctgcagatggagcacgtggtggagaaatgccggaatgccctc agccagttcattgagcccaaaataggcctcaaagaggatggggtcagtgaggctagcctt gtgagcagcatcagcgccaccaagtccctcctccctccagccaggaccccaaagccagcc ccgaagcccccacccccacctcctctaccccctccactcctgcggccagtgaagctggag ttcccactggatgaagacttggagctgaaagccgaggaagaggatgaggatgaggatgag gacgtgtctgacatctgcatcgtcaaggtggagtcggccctggaggtggcacaccggctc aaaccccctggaggcctgggagggggtctgggcattggaggctccgtgggtggccacctt ggggagctggcccagagcagcgttccccccagcactgtagccccaccgcagggtgtggtg aaggcctgctatagcctgtcggaagatgcagaaggggagggcctgctgttgattcccgga ggccgggccagcgtgggggccacctcgggcctggtggaagcagcagcggtggccatggct gcccggggggcggggggcagcctgggggcggggggcagccggggacccctgcctgggggc ttctcaggtggaaaccccttaaagaacatcaagtgcaccaagtgcccggaagtgttccag ggcgtggagaagctggtcttccacatgcgggcgcagcacttcatcttcatgtgccctcgc tgtggcaagcagttcaaccacagcagcaacctcaaccgccacatgaacgtgcatcgtggt gtcaagtcacactcgtgcggcatctgcggcaagtgcttcacacagaagtccacccttcac gaccacctcaacctgcactcgggagcgcggccctaccgctgctcctactgcgacgtgcgc ttcgcccacaagcctgccattaggcggcacctcaaggagcaacacggcaagaccacggcc gagaacgtgctggaggccagtgtggccgagattaacgtcctcatccgctag >gi568815592f:31882108_32014845|GENSCAN_predicted_peptide_3|1438_aa MGPLMVLFCLLFLYPGLADSAPSCPQNVNISGGTFTLSHGWAPGSLLTYSCPQGLYPSPA SRLCKSSGQWQTPGATRSLSKAVCKPVRCPAPVSFENGIYTPRLGSYPVGGNVSFECEDG FILRGSPVRQCRPNGMWDGETAVCDNGAGHCPNPGISLGAVRTGFRFGHGDKVRYRCSSN LVLTGSSERECQGNGVWSGTEPICRQPYSYDFPEDVAPALGTSFSHMLGATNPTQKTKES LGRKIQIQRSGHLNLYLLLDCSQSVSENDFLIFKESASLMVDRIFSFEINVSVAIITFAS EPKVLMSVLNDNSRDMTEVISSLENANYKDHENGTGTNTYAALNSVYLMMNNQMRLLGME TMAWQEIRHAIILLTDGKSNMGGSPKTAVDHIREILNINQKRNDYLDIYAIGVGKLDVDW RELNELGSKKDGERHAFILQDTKALHQVFEHMLDVSKLTDTICGVGNMSANASDQERTPW HVTIKPKSQETCRGALISDQWVLTAAHCFRDGNDHSLWRVNVGDPKSQWGKEFLIEKAVI SPGFDVFAKKNQGILEFYGDDIALLKLAQKVKMSTHARPICLPCTMEANLALRRPQGSTC RDHENELLNKQSVPAHFVALNGSKLNINLKMGVEWTSCAEVVSQEKTMFPNLTDVREVVT DQFLCSGTQEDESPCKDTYLQIYGVLEHPEDSRPKDCQEGRVQRFEGNECGQWPKAETGQ AAARPHDFENGEYWPRSPYYNVSDEISFHCYDGYTLRGSANRTCQVNGRWSGQTAICDNG AGYCSNPGIPIGTRKVGSQYRLEDSVTYHCSRGLTLRGSQRRTCQEGGSWSGTEPSCQDS FMYDTPQEVAEAFLSSLTETIEGVDAEDGHGPGEQQKRKIVLDPSGSMNIYLVLDGSDSI GASNFTGAKKCLVNLIEKVASYGVKPRYGLVTYATYPKIWVKVSEADSSNADWVTKQLNE INYEDHKLKSGTNTKKALQAVYSMMSWPDDVPPEGWNRTRHVIILMTDGLHNMGGDPITV IDEIRDLLYIGKDRKNPREDYLDVYVFGVGPLVNQVNINALASKKDNEQHVFKVKDMENL EDVFYQMIDSYPKGCCHLGMKCSEFSAHSPSLPDESQSLSLCGMVWEHRKGTDYHKQPWQ AKISVIRPSKGHESCMGAVVSEYFVLTAAHCFTVDDKEHSIKVSVGGEKRDLEIEVVLFH PNYNINGKKEAGIPEFYDYDVALIKLKNKLKYGQTIRPICLPCTEGTTRALRLPPTTTCQ QQKGLRGHLLSDKGNGEMTVVGAAEVTQSIRPEEELLPAQDIKALFVSEEEKKLTRKEVY IKNGDKKGSCERDAQYAPGYDKVKDISEVVTPRFLCTGGVSPYADPNTCRGDSGGPLIVH KRSRFIQVGVISWGVVDVCKNQKRQKQVPAHARDFHINLFQVLPWLKEKLQDEDLGFL >gi568815592f:31882108_32014845|GENSCAN_predicted_CDS_3|4317_bp atgggcccactgatggttcttttttgcctgctgttcctgtacccaggtctggcagactcg gctccctcctgccctcagaacgtgaatatctcgggtggcaccttcaccctcagccatggc tgggctcctgggagccttctcacctactcctgcccccagggcctgtacccatccccagca tcacggctgtgcaagagcagcggacagtggcagaccccaggagccacccggtctctgtct aaggcggtctgcaaacctgtgcgctgtccagcccctgtctcctttgagaatggcatttat accccacggctggggtcctatcccgtgggtggcaatgtgagcttcgagtgtgaggatggc ttcatattgcggggctcgcctgtgcgtcagtgtcgccccaacggcatgtgggatggagaa acagctgtgtgtgataatggggctggccactgccccaacccaggcatttcactgggcgca gtgcggacaggcttccgctttggtcatggggacaaggtccgctatcgctgctcctcgaat cttgtgctcacggggtcttcggagcgggagtgccagggcaacggggtctggagtggaacg gagcccatctgccgccaaccctactcttatgacttccctgaggacgtggcccctgccctg ggcacttccttctcccacatgcttggggccaccaatcccacccagaagacaaaggaaagc ctgggccgtaaaatccaaatccagcgctctggtcatctgaacctctacctgctcctggac tgttcgcagagtgtgtcggaaaatgactttctcatcttcaaggagagcgcctccctcatg gtggacaggatcttcagctttgagatcaatgtgagcgttgccattatcacctttgcctca gagcccaaagtcctcatgtctgtcctgaacgacaactcccgggatatgactgaggtgatc agcagcctggaaaatgccaactataaagatcatgaaaatggaactgggactaacacctat gcggccttaaacagtgtctatctcatgatgaacaaccaaatgcgactcctcggcatggaa acgatggcctggcaggaaatccgacatgccatcatccttctgacagatggaaagtccaat atgggtggctctcccaagacagctgttgaccatatcagagagatcctgaacatcaaccag aagaggaatgactatctggacatctatgccatcggggtgggcaagctggatgtggactgg agagaactgaatgagctagggtccaagaaggatggtgagaggcatgccttcattctgcag gacacaaaggctctgcaccaggtctttgaacatatgctggatgtctccaagctcacagac accatctgcggggtggggaacatgtcagcaaacgcctctgaccaggagaggacaccctgg catgtcactattaagcccaagagccaagagacctgccggggggccctcatctccgaccaa tgggtcctgacagcagctcattgcttccgcgatggcaacgaccactccctgtggagggtc aatgtgggagaccccaaatcccagtggggcaaagaattccttattgagaaggcggtgatc tccccagggtttgatgtctttgccaaaaagaaccagggaatcctggagttctatggtgat gacatagctctgctgaagctggcccagaaagtaaagatgtccacccatgccaggcccatc tgccttccctgcacgatggaggccaatctggctctgcggagacctcaaggcagcacctgt agggaccatgagaatgaactgctgaacaaacagagtgttcctgctcattttgtcgccttg aatgggagcaaactgaacattaaccttaagatgggagtggagtggacaagctgtgccgag gttgtctcccaagaaaaaaccatgttccccaacttgacagatgtcagggaggtggtgaca gaccagttcctatgcagtgggacccaggaggatgagagtccctgcaaggacacgtacctg cagatctacggggtcctggagcaccctgaagactcaagaccaaaagactgtcaggaaggc agagtgcagaggtttgagggcaatgagtgtgggcagtggcctaaggcagaaacagggcag gcggcagcaagaccacacgacttcgagaacggggaatactggccccggtctccctactac aatgtgagtgatgagatctctttccactgctatgacggttacactctccggggctctgcc aatcgcacctgccaagtgaatggccgatggagtgggcagacagcgatctgtgacaacgga gcggggtactgctccaacccgggcatccccattggcacaaggaaggtgggcagccagtac cgccttgaagacagcgtcacctaccactgcagccgggggcttaccctgcgtggctcccag cggcgaacgtgtcaggaaggtggctcttggagcgggacggagccttcctgccaagactcc ttcatgtacgacacccctcaagaggtggccgaagctttcctgtcttccctgacagagacc atagaaggagtcgatgctgaggatgggcacggcccaggggaacaacagaagcggaagatc gtcctggacccttcaggctccatgaacatctacctggtgctagatggatcagacagcatt ggggccagcaacttcacaggagccaaaaagtgtctagtcaacttaattgagaaggtggca agttatggtgtgaagccaagatatggtctagtgacatatgccacataccccaaaatttgg gtcaaagtgtctgaagcagacagcagtaatgcagactgggtcacgaagcagctcaatgaa atcaattatgaagaccacaagttgaagtcagggactaacaccaagaaggccctccaggca gtgtacagcatgatgagctggccagatgacgtccctcctgaaggctggaaccgcacccgc catgtcatcatcctcatgactgatggattgcacaacatgggcggggacccaattactgtc attgatgagatccgggacttgctatacattggcaaggatcgcaaaaacccaagggaggat tatctggatgtctatgtgtttggggtcgggcctttggtgaaccaagtgaacatcaatgct ttggcttccaagaaagacaatgagcaacatgtgttcaaagtcaaggatatggaaaacctg gaagatgttttctaccaaatgatcgactcctacccaaaaggctgctgccatttgggaatg aagtgttccgagttttcagcacattctccttctctgccagatgaaagccagtctctgagt ctctgtggcatggtttgggaacacaggaagggtaccgattaccacaagcaaccatggcag gccaagatctcagtcattcgcccttcaaagggacacgagagctgtatgggggctgtggtg tctgagtactttgtgctgacagcagcacattgtttcactgtggatgacaaggaacactca atcaaggtcagcgtaggaggggagaagcgggacctggagatagaagtagtcctatttcac cccaactacaacattaatgggaaaaaagaagcaggaattcctgaattttatgactatgac gttgccctgatcaagctcaagaataagctgaaatatggccagactatcaggcccatttgt ctcccctgcaccgagggaacaactcgagctttgaggcttcctccaactaccacttgccag caacaaaaagggcttaggggacatctactgagtgacaaaggcaatggggagatgacagtg gtgggagcagctgaagtgacgcagtctattcgtccagaggaagagctgctccctgcacag gatatcaaagctctgtttgtgtctgaggaggagaaaaagctgactcggaaggaggtctac atcaagaatggggataagaaaggcagctgtgagagagatgctcaatatgccccaggctat gacaaagtcaaggacatctcagaggtggtcacccctcggttcctttgtactggaggagtg agtccctatgctgaccccaatacttgcagaggtgattctggcggccccttgatagttcac aagagaagtcgtttcattcaagttggtgtaatcagctggggagtagtggatgtctgcaaa aaccagaagcggcaaaagcaggtacctgctcacgcccgagactttcacatcaacctcttt caagtgctgccctggctgaaggagaaactccaagatgaggatttgggttttctataa >gi568815592f:31882108_32014845|GENSCAN_predicted_peptide_4|419_aa MLVIPPGLSEEEEALQKKFNKLKKKKKALLALKKQSSSSTTSQGGVKRSLSEQPVMDTAT ATEQAKQLVKSGAISAIKAETKNSGFKRSRTLEGKLKDPEKGPVPTFQPFQRSISADDDL QESSRRPQRKSLYESFVSSSDRLRELGPDGEEAEGPGAGDGPPRSFDWGYEERSGAHSSA SPPRSRSRDRSHERNRDRDRDRERDRDRDRDRDRERDRDRDRDRDRDRERDRDRERDRDR DREGPFRRSDSFPERRAPRKGNTLYVYGEDMTPTLLRGAFSPFGNIIDLSMDPPRNCAFV TYEKMESADQAVAELNGTQVESVQLKVNIARKQPMLDAATGKSVWGSLGHSFWFPHTSLG FLEMIEVRVCAEAMGMGRKISDPLSVRAVQNSPKGCHRDKRTQIVYSDDVYKENLVDGF >gi568815592f:31882108_32014845|GENSCAN_predicted_CDS_4|1260_bp atgttggtgataccccccggactgagcgaggaagaggaggctctgcagaagaaattcaac aagctcaagaaaaagaaaaaggcattgctggctctgaagaagcaaagtagcagcagcaca accagccaaggtggtgtcaaacgctcactatcagagcagcctgtcatggacacagccaca gcaacagagcaggcaaagcagctggtgaagtcaggagccatcagtgccatcaaggctgag accaagaactcaggcttcaagcgttctcgaacccttgaggggaagttaaaggaccccgag aagggaccagtccccactttccagccgttccagaggagcatatctgctgatgatgacctg caagagtcatccagacgtccccagaggaaatctctgtatgagagctttgtgtcttctagt gatcgacttcgagaactaggaccagatggagaagaggcagagggcccaggggctggtgat ggtccccctcgaagctttgactggggctatgaagaacgcagtggtgcccactcctcagcc tcccctccccgaagccgcagccgggaccgcagccatgagaggaaccgggacagagaccga gatcgggagcgggatcgagaccgggatcgagacagagacagagagcgggacagggatcgg gatcgggatcgagatcgagaccgggaacgggacagggatcgggagcgggatcgagaccga gaccgagagggtcctttccgcaggtcggattcattccctgaacggcgagcccctaggaaa gggaatactctctatgtatatggagaagacatgacacccacccttctccgtggggccttc tctccttttggaaacatcattgacctctccatggacccacccagaaactgtgccttcgtc acctatgaaaagatggagtcagcagatcaggccgttgctgagctcaacgggacccaggtg gagtctgtacagctcaaagtcaacatagcccgaaaacagcccatgctggatgccgctact ggcaagtctgtctggggctccctcggccattccttttggttcccccacacatccttgggt ttcctagagatgatcgaggtcagagtgtgtgcggaggctatgggaatgggaaggaaaatt tcagatcctctgtcagttagagctgtccagaacagccctaagggttgccaccgggacaag aggacccagattgtctacagtgatgacgtctacaaggaaaaccttgtggatggcttctag >gi568815592f:31882108_32014845|GENSCAN_predicted_peptide_5|1170_aa METERLVLPPPDPLDLPLRAVELGCTGHWELLNLPGAPESSKMAEEDGSLVSFGCPGSPS PIRPTGPKTPNHRPDTGLQRGGMDEPTITDLNTREEAEEEIDFEKDLLTIPPGFKKGMDF APKDCPTPAPGLLSLSCMLEPLDLGGGDEDENEAVGQPGGPRGDTVSASPCSAPLARASS LEDLVLKEASTAVSTPEAPEPPSQEQWAIPVDATSPVGDFYRLIPQPAFQWAFEPDVFQK QAILHLERHDSVFVAAHTSAGKTVVAEYAIALAQKHMTRTIYTSPIKALSNQKFRDFRNT FGDVGLLTGDVQLHPEASCLIMTTEILRSMLYSGSDVIRDLEWVIFDEVHYINDVERGVV WEEVLIMLPDHVSIILLSATVPNALEFADWIGRLKRRQIYVISTVTRPVPLEHYLFTGNS SKTQGELFLLLDSRGAFHTKGYYAAVEAKKERMSKHAQTFGAKQPTHQGGPAQDRGVYLS LLASLRTRAQLPVVVFTFSRGRCDEQASGLTSLDLTTSSEKSEIHLFLQRCLARLRGSDR QLPQVLHMSELLNRGLGVHHSGILPILKEIVEMLFSRGLVKVLFATETFAMGVNMPARTV VFDSMRKHDGSTFRDLLPGEYVQMAGRAGRRGLDPTGTVILLCKGRVPEMADLHRMMMGK PSQLQSQFRLTYTMILNLLRVDALRVEDMMKRSFSEFPSRKDSKAHEQALAELTKRLGAL EEPDMTGQLVDLPEYYSWGEELTETQHMIQRRIMESVNGLKSLSAGRVVVVKNQEHHNAL GVILQVSSNSTSRVFTTLVLCDKPLSQDPQDRGPATAEVPYPDDLVGFKLFLPEGPCDHT VVKLQPGDMAAITTKVLRVNGEKILEDFSKRQQPKFKKDPPLAAVTTAVQELLRLAQAHP AGPPTLDPVNDLQLKDMSVVEGGLRARKLEELIQGAQCVHSPRFPAQYLKLRERMQIQKE MERLRFLLSDQSLLLLPEYHQRVEVLRTLGYVDEAGTVKLAGRVACAMSSHELLLTELMF DNALSTLRPEEIAALLSGLVCQSPGDAGDQLPNTLKQGIERVRAVAKRIGEVQVACGLNQ TVEEFVGELNFGLVEVVYEWARGMPFSELAGLSGTPEGLVVRCIQRLAEMCRSLRGAARL VGEPVLGAKMETAATLLRRDIVFAASLYTQ >gi568815592f:31882108_32014845|GENSCAN_predicted_CDS_5|3513_bp atggagacagagcgacttgtgctaccccctccagatcccctggacctaccccttcgggcc gtggagctcggatgcacggggcactgggagctgctgaacttgcctggagctccagagagt agcaaaatggcagaggaagacggatccctggtctcttttggctgtcctgggagccccagt cccatccgacctacaggcccaaagacacccaaccacaggccagatactgggttacaaaga ggggggatggatgaacccaccataacagatctgaacacacgggaggaggctgaggaggag atagactttgagaaagatcttcttactattccacctggtttcaagaaaggcatggacttt gcaccaaaagattgtccaactccagctcctggactactaagccttagctgtatgttggag cctctggatttgggtgggggtgacgaggatgagaatgaggcagtgggacagccaggaggt cccagaggggacactgtttcagcctctccctgcagtgctcccctggcccgagcaagcagc ttggaagacctagtgttgaaggaagcgtccacagctgtatccaccccagaggccccagag cctccatctcaggagcagtgggccatccctgtggacgccacctcccctgttggtgatttc tatcgcctcattccccagccagccttccagtgggcatttgagccagatgtgtttcagaaa caggccatcctgcacttggaacggcatgactctgtctttgtcgcagctcacacatctgca ggaaaaacagttgtggctgaatatgccattgccctggcccagaaacacatgacacgcacc atctacacttcgcccatcaaggccctgagcaaccagaagttccgggacttccgaaacaca ttcggggatgtggggctgctcaccggggatgtacagctgcatccggaggcctcctgcctc atcatgaccacagagatccttcgctccatgctgtacagtggctcagatgttattcgggac ctggagtgggtcatctttgatgaggttcactatatcaacgatgtcgagcgtggggtcgtg tgggaggaggtgcttatcatgctacctgaccacgtttctatcatccttctgagtgccacc gtccccaacgcccttgagtttgctgactggattgggcggctgaagcgtcgtcagatctat gtgattagcactgtaacccgccccgtgcccctggagcactatcttttcacagggaacagc tccaagacccagggggagctctttttgttgctggactcccgaggagccttccatacaaaa gggtactatgcagctgtggaggccaagaaggagagaatgagcaaacacgcccagaccttt ggggccaagcagcccacacatcaggggggccctgcacaggaccgcggagtgtacctgtcc ctcctggcctccctccgcacacgtgcccagttgcccgtggtggtgttcaccttctcccgg ggccgctgtgatgagcaggcctcaggcctcacctcccttgacctcaccaccagttcggag aagagcgagatccacctcttcctgcagcgctgccttgctcgcctccgtggctctgaccgc cagctgccccaggtcctgcacatgtcagagctcctgaatcgcggcctgggtgtgcaccat agcggcatcctgcccatcctcaaggagatcgtggagatgctcttcagccgtggcctggtc aaggtcttgtttgccacagagacctttgccatgggagtaaacatgcctgctcgtacagta gtgtttgactccatgcgcaaacacgatggctccaccttccgggacctgctccctggggag tatgtgcagatggcaggccgggcagggcggaggggcctggaccccacaggcaccgttatc ctgctctgcaagggccgagtgcccgagatggcagacctgcaccgcatgatgatggggaag ccgtcccagctgcagtcccagttccgcctcacgtacactatgatcctcaacttgctgcga gtggatgccctcagggtggaggacatgatgaagaggagcttctctgagtttccctcccgc aaagacagcaaggcccatgaacaggccctggctgaactgaccaagaggctgggagctttg gaggagcctgacatgactggccaactggtcgacctgcctgaatattacagctggggggag gaactgacagagacccagcacatgatccagcgacgcatcatggagtctgtgaacgggctg aagtctctctcagcaggaagggtggtggttgtgaagaatcaggagcatcacaacgcattg ggagtgatcctacaggtctcctcgaactccaccagcagagtattcacaaccctggtcttg tgtgataagcccttgtcccaggacccacaggacagggggccagccactgcagaggtgccc tatccagatgacctcgtgggattcaagctgttcctgcctgaagggccttgtgaccacacc gtggtcaagctccagccaggagatatggctgccatcaccaccaaggtgctccgggtgaat ggggagaagatcttggaggacttcagcaagaggcagcagccaaaattcaagaaggatcct ccccttgcagccgtgaccactgctgtccaggaactgctgcgtctggctcaggcccaccca gccggacctcccaccctcgaccctgtcaatgacctgcagctcaaagatatgtcagttgta gagggtgggctccgggcccggaagctggaggagctgatccagggggctcagtgtgtacac agcccccgttttcctgcccagtacctgaagctgcgggagcgaatgcagatacagaaggag atggagcggctgcgcttcctactgtcggatcagtcattgctgctgcttcctgagtaccat cagcgagtagaggtgctccgaaccctgggttatgtggacgaggcgggcactgtgaagctg gcagggcgggtggcttgtgccatgagcagccatgagttgctcctcactgagctcatgttt gacaatgcactgagcaccctgcggcctgaggagattgctgccttgctctctggcctggtc tgccagagccctggggacgctggggatcagctcccaaacaccctcaagcagggaatagaa cgtgtccgggctgtggccaagcggattggtgaggtccaggtggcttgtggcctgaaccag acggtggaggaatttgtgggggagctgaattttgggctggttgaggttgtatatgagtgg gcccggggcatgcccttctccgagttggcagggctctcagggacccctgagggcctggtg gtccgctgcattcagcgcctggctgagatgtgtcgctcactgcggggggcagcccgcctg gtaggagagcctgtgctgggtgccaagatggagacagcggctaccttgctacggcgggac atcgtatttgcggccagcctctacacccagtga >gi568815592f:31882108_32014845|GENSCAN_predicted_peptide_6|326_aa MDPRGTKRGAEKTEVAEPRNKLPRPAPSLPTDPALYSGPFPFYRRPSELGCFSLDAQRQY HGDARALRYYSPPPTNGPGPNFDLRDGYPDRYQPRDEEVQERLDHLLCWLLEHRGRLEGG PGWLAEAIVTWRGHLTKLLTTPYERQEGWQLAASRFQGTLYLSEVETPNARAQRLARPPL LRELMYMGYKFEQYMCADKPGSSPDPSGEVNTNVAFCSVLRSRLGSHPLLFSGETFPTMK MFEYVRNDRDGWNPSVCMNFCAAFLSFAQSTVVQDDPRLVHLFSWEPGGPVTVSVHQDAP YAFLPIWYVEAMTQDLPSPPKTPSPK >gi568815592f:31882108_32014845|GENSCAN_predicted_CDS_6|981_bp atggatcccagggggaccaagagaggagctgagaagacagaggtagctgagcctcggaac aaactacctcgtccagcaccttctctgcccacagaccctgccctctactctgggcccttt cctttctaccggcgcccttcggaactgggctgcttctccctggatgctcaacgccagtac catggagatgcccgagccctgcgctactatagcccaccccccactaacggtccaggcccc aactttgacctcagagacggatacccggatcgataccagccccgggacgaggaggtccag gaaaggctggaccacctgctgtgctggctcctggaacaccgaggccggttggaggggggt ccaggctggctggcagaggccatagtgacgtggcgggggcacctgacaaaactgctgacg acaccgtatgagcggcaggagggctggcagctggcagcctcccggttccagggaacacta tacctgagtgaagtggagacaccgaacgctcgggcccagaggcttgctcggccaccgctc ctccgggagcttatgtacatgggatacaaatttgagcagtacatgtgtgcagacaaacct ggaagctccccagacccctctggggaggttaacaccaacgtggccttctgctctgtgcta cgcagccgcctgggaagccaccctctgctcttctcaggggagacctttcctaccatgaag atgtttgaatatgtcaggaatgaccgtgacggctggaatccctctgtgtgcatgaacttc tgtgccgccttccttagctttgcccagagcacggttgtccaggatgaccccaggctcgtt catctcttctcttgggagcctggcggcccagtcaccgtgtctgtacaccaagatgcacct tacgccttcctgcccatatggtatgtggaagctatgactcaggacctcccatcacccccc aagactccctctcccaaatag >gi568815592f:31882108_32014845|GENSCAN_predicted_peptide_7|2021_aa MQLFPRGLFEDALPPIVLRSQVYSLVPDRTVADRQLVRGVVFPLLRENAPILANKISLPE SAQSIAEHLTLIRLFSLSSLWRQKELQEQGEIRIVQLGFDLDAHGIIFTEDYRTRVLKAC DGRPYAGAVQKFLASVLPACGDLSFQQDQMTQTFGFRDSEITHLVNAGVLTVRDAGSWWL AVPGAGRFIKYFVKGRQAVLSMVRKAKYRELLLSELLGRRAPVVVRLGLTYHVHDLIGAQ LVDWLLLFSPSVVHLGVPLSVGVQLQDVPRGQVVKGSVFLRNPSRNNVPCSPKVDFTLSS ERDFALLSLQVPLKDAKSCGLHQLLRGPEVQLVAHSPWLKDSLSRTTNIQGINLLFSSRR GHLFLQTDQPIYNPGQRVRYRVFALDQKMRPSTDTITVMVENSHGLRVRKKEVYMPSSIF QDDFVIPDISEPGTWKISARFSDGLESNSSTQFEVKKYVLPNFEVKITPGKPYILTVPGH LDEMQLDIQARYIYGKPVQGVAYVRFGLLDEDGKKTFFRGLESQTKLVNGQSHISLSKAE FQDALEKLNMGITDLQGLRLYVAAAIIESPGGEMEEAELTSWYFVSSPFSLDLSKTKRHL VPGAPFLLQALVREMSGSPASGIPVKVSATVSSPGSVPEVQDIQQNTDGSGQVSIPIIIP QTISELQLSVSAGSPHPAIARLTVAAPPSGGPGFLSIERPDSRPPRVGDTLNLNLRAVGS GATFSHYYYMILSRGQIVFMNREPKRTLTSVSVFVDHHLAPSFYFVAFYYHGDHPVANSL RVDVQAGACEGKLELSVDGAKQYRNGESVKLHLETDSLALVALGALDTALYAAGSKSHKP LNMGKVFEAMNSYDLGCGPGGGDSALQVFQAAGLAFSDGDQWTLSRKRLSCPKEKTTRKK RNVNFQKAINEKLGQYASPTAKRCCQDGVTRLPMMRSCEQRAARVQQPDCREPFLSCCQF AESLRKKSRDKGQAGLQRALEILQEEDLIDEDDIPVRSFFPENWLWRVETVDRFQILTLW LPDSLTTWEIHGLSLSKTKGLCVATPVQLRVFREFHLHLRLPMSVRRFEQLELRPVLYNY LDKNLTVSVHVSPVEGLCLAGGGGLAQQVLVPAGSARPVAFSVVPTAAAAVSLKVVARGS FEFPVGDAVSKVLQIEARGPTPKPMPWSVPIFYNSDPTLSLELKLKVLGESALAGQAVVL CDLTTMFSLRQKEGAIHREELVYELNPLDHRGRTLEIPGNSDPNMIPDGDFNSYVRVTAS DPLDTLGSEGALSPGGVASLLRLPRGCGEQTMIYLAPTLAASRYLDKTEQWSTLPPETKD HAVDLIQKGYMRIQQFRKADGSYAAWLSRDSSTWLTAFVLKVLSLAQEQVGGSPEKLQET SNWLLSQQQADGSFQDPCPVLDRSMQGGLVGNDETVALTAFVTIALHHGLAVFQDEGAEP LKQRVEASISKANSFLGEKASAGLLGAHAAAITAYALTLTKAPVDLLGVAHNNLMAMAQE TGDNLYWGSVTGSQSNAVSPTPAPRNPSDPMPQAPALWIETTAYALLHLLLHEGKAEMAD QASAWLTRQGSFQGGFRSTQDTVIALDALSAYWIASHTTEERGLNVTLSSTGRNGFKSHA LQLNNRQIRGLEEELQFSLGSKINVKVGGNSKGTLKVLRTYNVLDMKNTTCQDLQIEVTV KGHVEYTMEANEDYEDYEYDELPAKDDPDAPLQPVTPLQLFEGRRNRRRREAPKVVEEQE SRVHYTVCIWRNGKVGLSGMAIADVTLLSGFHALRADLEKLTSLSDRYVSHFETEGPHVL LYFDSVPTSRECVGFEAVQEVPVGLVQPASATLYDYYNPERRCSVFYGAPSKSRLLATLC SAEVCQCAEGKCPRQRRALERGLQDEDGYRMKFACYYPRVEYGFQVKVLREDSRAAFRLF ETKITQVLHFTKDVKAAANQMRNFLVRASCRLRLEPGKEYLIMGLDGATYDLEGHPQYLL DSNSWIEEMPSERLCRSTRQRAACAQLNDFLQEYGTQGCQV >gi568815592f:31882108_32014845|GENSCAN_predicted_CDS_7|6066_bp atgcagctgttcccgcgaggcctgtttgaggacgcgctgccgcccatcgtgctgaggagc caggtgtacagccttgtgcctgacaggaccgtggccgaccggcagctggtgaggggcgtc gtttttcctttactaagagaaaatgcccccatattggcaaacaaaatctccctgcctgag agcgcccagagtatagcagagcatcttaccctgatacgcctcttttcactctcttctctg tggagacagaaggagcttcaagagcagggggagatcagaatcgtccagctgggcttcgac ttggatgcccatggaattatcttcactgaggactacaggaccagagtcctcaaggcctgt gatggccgaccgtatgctggggcagtgcagaaatttctagcttcagtacttccagcctgt ggggaccttagtttccagcaggaccaaatgacacagacctttggcttcagggactcagaa atcacgcatctggtgaatgctggagtcctcaccgtccgagatgctgggagctggtggcta gctgtgcctggagctgggagattcatcaagtactttgttaaagggcgccaggctgtcctt agcatggtccggaaggcaaagtaccgggaactgctcctatcagagctcctgggccggcgg gcgcctgtcgtggtgcggcttggcctcacctaccatgtgcacgacctcattggggcccag ctagtggactggttgctcttgttctctccttctgtggttcatctgggggtccccctatcg gtgggggtgcagctccaggatgtgccccgaggacaggtagtgaaaggatcagtgttcctg agaaacccatctcgtaataatgtcccctgctccccaaaggtggacttcacccttagctca gaaagagacttcgcactcctcagtctccaggtgcccttgaaagatgcgaagagctgtggc ctccatcaactcctcagaggccctgaggtccagctggtggcccattcgccatggctaaag gactctctgtccagaacgacaaacatccagggtatcaacctgctcttctcctctcgccgg gggcacctctttttgcagacggaccagcccatttacaaccctggccagcgggttcggtac cgggtctttgctctggatcagaagatgcgcccgagcactgacaccatcacagtcatggtg gagaactctcacggcctccgcgtgcggaagaaggaggtgtacatgccctcgtccatcttc caggatgactttgtgatcccagacatctcagagccagggacctggaagatctcagcccga ttctcagatggcctggaatccaacagcagcacccagtttgaggtgaagaaatatgtcctt cccaactttgaggtgaagatcacccctggaaagccctacatcctgacggtgccaggccat cttgatgaaatgcagttagacatccaggccaggtacatctatgggaagccagtgcagggg gtggcatatgtgcgctttgggctcctagatgaggatggtaagaagactttctttcggggg ctggagagtcagaccaagctggtgaatggacagagccacatttccctctcaaaggcagag ttccaggacgccctggagaagctgaatatgggcattactgacctccaggggctgcgcctc tacgttgctgcagccatcattgagtctccaggtggggagatggaggaggcagagctcaca tcctggtattttgtgtcatctcccttctccttggatcttagcaagaccaagcgacacctt gtgcctggggcccccttcctgctgcaggccttggtccgtgagatgtcaggctccccagct tctggcattcctgtcaaagtttctgccacggtgtcttctcctgggtctgttcctgaagtc caggacattcagcaaaacacagacgggagcggccaagtcagcattccaataattatccct cagaccatctcagagctgcagctctcagtatctgcaggctccccacatccagcgatagcc aggctcactgtggcagccccaccttcaggaggccccgggtttctgtctattgagcggccg gattctcgacctcctcgtgttggggacactctgaacctgaacttgcgagccgtgggcagt ggggccaccttttctcattactactacatgatcctatcccgagggcagatcgtgttcatg aatcgagagcccaagaggaccctgacctcggtctcggtgtttgtggaccatcacctggca ccctccttctactttgtggccttctactaccatggagaccacccagtggccaactccctg cgagtggatgtccaggctggggcctgcgagggcaagctggagctcagcgtggacggtgcc aagcagtaccggaacggggagtccgtgaagctccacttagaaaccgactccctagccctg gtggcgctgggagccttggacacagctctgtatgctgcaggcagcaagtcccacaagccc ctcaacatgggcaaggtctttgaagctatgaacagctatgacctcggctgtggtcctggg ggtggggacagtgcccttcaggtgttccaggcagcgggcctggccttttctgatggagac cagtggaccttatccagaaagagactaagctgtcccaaggagaagacaacccggaaaaag agaaacgtgaacttccaaaaggcgattaatgagaaattgggtcagtatgcttccccgaca gccaagcgctgctgccaggatggggtgacacgtctgcccatgatgcgttcctgcgagcag cgggcagcccgcgtgcagcagccggactgccgggagcccttcctgtcctgctgccaattt gctgagagtctgcgcaagaagagcagggacaagggccaggcgggcctccaacgagccctg gagatcctgcaggaggaggacctgattgatgaggatgacattcccgtgcgcagcttcttc ccagagaactggctctggagagtggaaacagtggaccgctttcaaatattgacactgtgg ctccccgactctctgaccacgtgggagatccatggcctgagcctgtccaaaaccaaaggc ctatgtgtggccaccccagtccagctccgggtgttccgcgagttccacctgcacctccgc ctgcccatgtctgtccgccgctttgagcagctggagctgcggcctgtcctctataactac ctggataaaaacctgactgtgagcgtccacgtgtccccagtggaggggctgtgcctggct gggggcggagggctggcccagcaggtgctggtgcctgcgggctctgcccggcctgttgcc ttctctgtggtgcccacggcagccgccgctgtgtctctgaaggtggtggctcgagggtcc ttcgaattccctgtgggagatgcggtgtccaaggttctgcagattgaggccaggggccca acacccaaaccaatgccttggtctgttcccatcttctacaattctgatccaactctgtcc ctggagttgaaactcaaagttctgggggagtctgcgctagcagggcaggctgtagtcctg tgtgacctcacaaccatgttttccctgagacagaaggaaggggccatccatagagaggag ctggtctatgaactcaaccccttggaccaccgaggccggaccttggaaatacctggcaac tctgatcccaatatgatccctgatggggactttaacagctacgtcagggttacagcctca gatccattggacactttaggctctgagggggccttgtcaccaggaggcgtggcctccctc ttgaggcttcctcgaggctgtggggagcaaaccatgatctacttggctccgacactggct gcttcccgctacctggacaagacagagcagtggagcacactgcctcccgagaccaaggac cacgccgtggatctgatccagaaaggctacatgcggatccagcagtttcggaaggcggat ggttcctatgcggcttggttgtcacgggacagcagcacctggctcacagcctttgtgttg aaggtcctgagtttggcccaggagcaggtaggaggctcgcctgagaaactgcaggagaca tctaactggcttctgtcccagcagcaggctgacggctcgttccaggacccctgtccagtg ttagacaggagcatgcaggggggtttggtgggcaatgatgagactgtggcactcacagcc tttgtgaccatcgcccttcatcatgggctggccgtcttccaggatgagggtgcagagcca ttgaagcagagagtggaagcctccatctcaaaggcaaactcatttttgggggagaaagca agtgctgggctcctgggtgcccacgcagctgccatcacggcctatgccctgacactgacc aaggcgcctgtggacctgctcggtgttgcccacaacaacctcatggcaatggcccaggag actggagataacctgtactggggctcagtcactggttctcagagcaatgccgtgtcgccc accccggctcctcgcaacccatccgaccccatgccccaggccccagccctgtggattgaa accacagcctacgccctgctgcacctcctgcttcacgagggcaaagcagagatggcagac caggcttcggcctggctcacccgtcagggcagcttccaagggggattccgcagtacccaa gacacggtgattgccctggatgccctgtctgcctactggattgcctcccacaccactgag gagaggggtctcaatgtgactctcagctccacaggccggaatgggttcaagtcccacgcg ctgcagctgaacaaccgccagattcgcggcctggaggaggagctgcagttttccttgggc agcaagatcaatgtgaaggtgggaggaaacagcaaaggaaccctgaaggtccttcgtacc tacaatgtcctggacatgaagaacacgacctgccaggacctacagatagaagtgacagtc aaaggccacgtcgagtacacgatggaagcaaacgaggactatgaggactatgagtacgat gagcttccagccaaggatgacccagatgcccctctgcagcccgtgacacccctgcagctg tttgagggtcggaggaaccgccgcaggagggaggcgcccaaggtggtggaggagcaggag tccagggtgcactacaccgtgtgcatctggcggaacggcaaggtggggctgtctggcatg gccatcgcggacgtcaccctcctgagtggattccacgccctgcgtgctgacctggagaag ctgacctccctctctgaccgttacgtgagtcactttgagaccgaggggccccacgtcctg ctgtattttgactcggtccccacctcccgggagtgcgtgggctttgaggctgtgcaggaa gtgccggtggggctggtgcagccggccagcgcaaccctgtacgactactacaaccccgag cgcagatgttctgtgttttacggggcaccaagtaagagcagactcttggccaccttgtgt tctgctgaagtctgccagtgtgctgaggggaagtgccctcgccagcgtcgcgccctggag cggggtctgcaggacgaggatggctacaggatgaagtttgcctgctactacccccgtgtg gagtacggcttccaggttaaggttctccgagaagacagcagagctgctttccgcctcttt gagaccaagatcacccaagtcctgcacttcaccaaggatgtcaaggccgctgctaatcag atgcgcaacttcctggttcgagcctcctgccgccttcgcttggaacctgggaaagaatat ttgatcatgggtctggatggggccacctatgacctcgagggacacccccagtacctgctg gactcgaatagctggatcgaggagatgccctctgaacgcctgtgccggagcacccgccag cgggcagcctgtgcccagctcaacgacttcctccaggagtatggcactcaggggtgccag gtgtga >gi568815592f:31882108_32014845|GENSCAN_predicted_peptide_8|513_aa MLLLGLLLLLPLLAGARLLWNWWKLRSLHLLPLAPGFLHLLQPDLPIYLLGLTQKFGPIY RLHLGLQDVVVLNSKRTIEEAMVKKWADFAGRPEPLTLGATFGGFPNPPGHWKLLGGISS GEEAGVEEAEEGQALGFLGQFPPSSPQLLLQTSWCLRTTRTCRWSLLWKAHKKLTRSALL LGIRDSMEPVVEQLTQEFCERMRAQPGTPVAIEEEFSLLTCSINCYLTFGDKIKEDNLMP AYYKCIQEVLKTWSHWSIQIVDVIPFLRFFPNPGLRRLKQAIEKRDHNEEKQLRQHKESL VAGQWRDMMDYMLQGVAQPSMEEGSGQLLEGHLHMAAVDLLIGGTETTANTLSWAVDRAR LPLLNATIAEVLRLWPVVPLALPHRTTRPSSISGYDIPEGTVIIPNLQGAHLDETVWERP HEFWPDRFLEPGKNSRALAFGCGARVCLGEPLARLELFVVLTRLLQAFTLLPSGDALPSL QPLPHCSVILKMQPFQVRLQPRGMGAHSPGQNQ >gi568815592f:31882108_32014845|GENSCAN_predicted_CDS_8|1542_bp atgctgctcctgggcctgctgctgctgctgcccctgctggctggcgcccgcctgctgtgg aactggtggaagctccggagcctccacctcctgcctcttgccccgggcttcttgcacctg ctgcagcccgacctccccatctatctgcttggcctgactcagaaattcgggcccatctac aggctccaccttgggctgcaagatgtggtggtgctgaactccaagaggaccattgaggaa gccatggtcaaaaagtgggcagactttgctggcagacctgagccacttaccttgggagcc accttcgggggcttccccaatcctccaggtcactggaagctcttggggggcatatcttca ggagaagaagcaggtgttgaggaggcagaagaaggtcaggccctcggcttccttggtcag ttcccaccctccagcccccagctcctcctgcagacaagctggtgtctaagaactacccgg acctgtcgttggtctctgctctggaaagcccacaagaagctcacccgctcagccctgctg ctgggcatccgtgactccatggagccagtggtggagcagctgacccaggagttctgtgag cgcatgagagcccagcccggcacccctgtggccattgaggaggaattctctctcctcacc tgcagcatcaactgttacctcaccttcggagacaagatcaaggaggacaacttaatgcct gcctattacaaatgtatccaggaggtgttaaaaacctggagccactggtccatccaaatt gtggacgtgattccctttctcaggttcttccccaatccaggtctccggaggctgaagcag gccatagagaagagggaccacaacgaggagaagcagctgaggcagcacaaggagagcctg gtggcaggccagtggagggacatgatggactacatgctccaaggggtggcgcagccgagc atggaagagggctctggacagctcctggaagggcacttgcacatggctgcagtggacctc ctgatcggtggcactgagaccacagcaaacaccctctcctgggccgtggaccgtgcacgg ctgcccttgctcaatgccaccatcgccgaggtgctgcgcctgtggcccgttgtgccctta gccttgccccaccgcaccacacggcccagcagcatctccggctacgacatccctgagggc acagtcatcattccgaacctccaaggcgcccacctggatgagacggtctgggagaggcca catgagttctggcctgatcgcttcctggagccaggcaagaactccagagctctggccttc ggctgcggtgcccgcgtgtgcctgggcgagccgctggcgcgcctggagctcttcgtggtg ctgacccgactgctgcaggccttcacgctgctgccctccggggacgccctgccctccctg cagcccctgccccactgcagtgtcatcctcaagatgcagcctttccaagtgcggctgcag ccccgggggatgggggcccacagcccaggccagaaccagtga >gi568815592f:31882108_32014845|GENSCAN_predicted_peptide_9|661_aa XPEEDTPAPELAPEAPEPPEEPRLGVLTVTDTTPDSMRLSWSVAQGPFDSFVVQYEDTNG QPQALLVDGDQSKILISGLEPSTRYRFLLYGLHEGKRLGPLSAEGTTGLAPAGQTSEESR PRLSQLSVTDVTTSSLRLNWEAPPGAFDSFLLRFGVPSPSTLEPHPRPLLQRELMVPGTR HSAVLRDLRSGTLYSLTLYGLRGPHKADSIQGTARTLSPVLESPRDLQFSEIRETSAKVN WMPPPSRADSFKVSYQLADGVPDGPTQLRALNLTEGFAVLHWKPPQNPVDTYDVQVTAPG APPLQAETPGSAVDYPLHDLVLHTNYTATVRGLRGPNLTSPASITFTTGLEAPRDLEAKE VTPRTALLTWTEPPVRPAGYLLSFHTPGGQNQEILLPGGITSHQLLGLFPSTSYNARLQA MWGQSLLPPVSTSFTTGGLRIPFPRDCGEEMQNGAGASRTSTIFLNGNRERPLNVFWDME TDGGGWLVFQRRMDGQTDFWRDWEDYAHGFGNISGEFWLGNEALHSLTQAGDYSMRVDLR AGDEAVFAQYDSFHVDSAAEYYRLHLEGYHGTAGDSMSYHSGSVFSARDRDPNSLLISCA VSYRGAWWYRNCHYANLNGLYGSTVDHQGVSWYHWKGFEFSVPFTEMKLRPRNFRSPAGG G >gi568815592f:31882108_32014845|GENSCAN_predicted_CDS_9|1986_bp nccccagaagaggacacaccagccccagagttagccccagaggcccctgagcctcctgaa gagccccgcctaggagtgctgaccgtgaccgacacaaccccagactccatgcgcctctcg tggagcgtggcccagggcccctttgattccttcgtggtccagtatgaggacacgaatggg cagccccaggccttgctcgtggacggcgaccagagcaagatcctcatctcaggcctggag cccagcacccgctacaggttcctcctctatggcctccatgaagggaagcgcctggggccc ctctcagctgagggcaccacagggctggctcctgctggtcagacctcagaggagtcaagg ccccgcctgtcccagctgtctgtgactgacgtgaccaccagttcactgaggctcaactgg gaggccccaccgggggccttcgactccttcctgctccgctttggggttccatcaccaagc actctggagccgcatccgcgtccactgctgcagcgcgagctgatggtgccggggacgcgg cactcggccgtgctccgggacctgcgttccgggactctgtacagcctgacactgtatggg ctgcgaggaccccacaaggccgacagcatccagggaaccgcccgcaccctcagcccagtt ctggagagcccccgtgacctccaattcagtgaaatcagggagacctcagccaaggtcaac tggatgcccccaccatcccgggcggacagcttcaaagtctcctaccagctggcggacgga gttcctgacggtcccacacagttgcgtgcactgaacttgaccgagggattcgccgtgctg cactggaagcccccccagaatcctgtggacacctatgacgtccaggtcacagcccctggg gccccgcctctgcaggcggagaccccaggcagcgcggtggactaccccctgcatgacctt gtcctccacaccaactacaccgccacagtgcgtggcctgcggggccccaacctcacttcc ccagccagcatcaccttcaccacagggctagaggcccctcgggacttggaggccaaggaa gtgaccccccgcaccgccctgctcacttggactgagcccccagtccggcccgcaggctac ctgctcagcttccacacccctggtggacagaaccaggagatcctgctcccaggagggatc acatctcaccagctccttggcctctttccctccacctcctacaatgcacggctccaggcc atgtggggccagagcctcctgccgcccgtgtccacctctttcaccacgggtgggctgcgg atccccttccccagggactgcggggaggagatgcagaacggagccggtgcctccaggacc agcaccatcttcctcaacggcaaccgggagcggcccctgaacgtgttttgggacatggag actgatgggggcggctggctggtgttccagcgccgcatggatggacagacagacttctgg agggactgggaggactatgcccatggttttgggaacatctctggagagttctggctgggc aatgaggccctgcacagcctgacacaggcaggtgactactccatgcgcgtggacctgcgg gctggggacgaggctgtgttcgcccagtacgactccttccacgtagactcggctgcggag tactaccgcctccacttggagggctaccacggcaccgcaggggactccatgagctaccac agcggcagtgtcttctctgcccgtgatcgggaccccaacagcttgctcatctcctgcgct gtctcctaccgaggggcctggtggtacaggaactgccactacgccaacctcaacgggctc tacgggagcacagtggaccatcagggagtgagctggtaccactggaagggcttcgagttc tcggtgcccttcacggaaatgaagctgagaccaagaaactttcgctccccagcgggggga ggctga