Result of GENSCAN for
pF1KB5063
GENSCAN 1.0 Date run: 3-Nov-116 Time: 22:15:29 Sequence gi568815595r:48996032_49204733 : 208702 bp : 51.36% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.06 PlyA - 75 70 6 1.05 1.05 Term - 1503 1187 317 1 2 75 50 232 0.915 13.55 1.04 Intr - 2323 2151 173 0 2 84 84 252 0.789 24.50 1.03 Intr - 2578 2401 178 2 1 44 41 35 0.467 -6.11 1.02 Intr - 3392 3218 175 2 1 14 91 211 0.759 14.03 1.01 Init - 3496 3440 57 1 0 90 32 77 0.649 3.69 1.00 Prom - 4982 4943 40 -3.51 2.00 Prom + 5036 5075 40 -6.01 2.01 Init + 5118 5121 4 2 1 81 40 0 0.120 -5.41 2.02 Intr + 5407 5597 191 2 2 100 31 291 0.968 24.43 2.03 Intr + 6469 6565 97 0 1 85 101 88 0.956 9.88 2.04 Intr + 8067 8229 163 1 1 28 83 205 0.955 13.55 2.05 Intr + 8830 9139 310 1 1 61 65 289 0.810 20.76 2.06 Intr + 9687 9836 150 2 0 73 91 83 0.694 7.97 2.07 Intr + 10033 10156 124 0 1 93 100 160 0.997 18.36 2.08 Intr + 10656 10864 209 1 2 100 -37 306 0.048 18.62 2.09 Intr + 11296 11500 205 0 1 37 76 138 0.048 6.80 2.10 Intr + 15604 18085 2482 2 1 104 90 1510 0.915 141.19 2.11 Intr + 18179 18257 79 2 1 123 69 -16 0.726 0.05 2.12 Intr + 18368 18468 101 1 2 129 81 69 0.793 9.71 2.13 Intr + 18569 18687 119 2 2 83 84 26 0.885 2.31 2.14 Term + 18794 19257 464 0 2 141 51 254 0.998 22.60 2.15 PlyA + 19462 19467 6 -3.64 3.12 PlyA - 19482 19477 6 1.05 3.11 Term - 19676 19557 120 2 0 68 48 61 0.750 -1.12 3.10 Intr - 19841 19773 69 2 0 56 72 130 0.651 8.07 3.09 Intr - 20055 19942 114 0 0 101 77 57 0.982 7.05 3.08 Intr - 20309 20127 183 2 0 89 105 147 0.984 17.00 3.07 Intr - 20509 20398 112 0 1 89 99 78 0.612 9.88 3.06 Intr - 20816 20743 74 2 2 45 72 57 0.853 -1.50 3.05 Intr - 21325 21197 129 1 0 65 96 86 0.982 8.50 3.04 Intr - 21482 21403 80 0 2 117 53 34 0.986 2.57 3.03 Intr - 21838 21582 257 0 2 95 49 270 0.999 21.42 3.02 Intr - 22287 21992 296 0 2 127 88 295 0.972 29.75 3.01 Init - 22533 22369 165 0 0 119 80 251 0.924 25.00 3.00 Prom - 23368 23329 40 -7.50 4.00 Prom + 23837 23876 40 -8.97 4.01 Init + 26114 26190 77 1 2 98 93 102 0.963 10.27 4.02 Intr + 26315 26507 193 2 1 139 92 228 0.997 28.32 4.03 Intr + 26671 26737 67 0 1 96 52 88 0.997 4.97 4.04 Intr + 26845 26945 101 2 2 42 113 97 0.999 7.93 4.05 Term + 27025 27141 117 0 0 92 46 60 0.998 1.04 4.06 PlyA + 27322 27327 6 -4.04 5.16 PlyA - 28316 28311 6 1.05 5.15 Term - 28373 28352 22 1 1 128 48 28 0.771 0.87 5.14 Intr - 28547 28464 84 1 0 105 88 55 0.977 6.63 5.13 Intr - 28771 28628 144 0 0 120 105 130 0.999 17.81 5.12 Intr - 29009 28865 145 0 1 81 75 122 0.995 10.05 5.11 Intr - 29238 29095 144 1 0 83 94 175 0.997 18.36 5.10 Intr - 30035 29964 72 0 0 75 92 15 0.579 0.47 5.09 Intr - 30388 30293 96 2 0 94 116 119 0.997 15.78 5.08 Intr - 30578 30488 91 2 1 79 91 115 0.645 10.97 5.07 Intr - 30855 30656 200 1 2 75 85 290 0.998 26.99 5.06 Intr - 31016 30929 88 2 1 81 110 109 0.999 12.44 5.05 Intr - 31885 31679 207 1 0 81 90 194 0.996 18.70 5.04 Intr - 32291 32217 75 2 0 72 77 92 0.987 6.71 5.03 Intr - 32501 32400 102 2 0 99 89 5 0.852 2.57 5.02 Intr - 32775 32691 85 2 1 109 105 77 0.982 11.82 5.01 Init - 33319 33222 98 1 2 87 23 176 0.606 10.73 5.00 Prom - 34287 34248 40 -1.71 6.38 PlyA - 34363 34358 6 -3.84 6.37 Term - 34613 34421 193 1 1 55 50 189 0.704 9.02 6.36 Intr - 36242 36152 91 0 1 18 77 120 0.856 3.45 6.35 Intr - 36742 36591 152 0 2 82 97 152 0.999 15.82 6.34 Intr - 37197 37089 109 1 1 89 108 28 0.783 4.74 6.33 Intr - 48473 48359 115 2 1 77 91 82 0.988 7.92 6.32 Intr - 50548 50394 155 2 2 73 97 116 0.984 11.30 6.31 Intr - 51215 51038 178 2 1 89 64 127 0.986 10.41 6.30 Intr - 61859 60831 1029 2 0 124 89 927 0.687 87.87 6.29 Intr - 80970 80678 293 1 2 44 76 226 0.063 14.40 6.28 Intr - 97549 97219 331 1 1 45 62 134 0.010 2.26 6.27 Intr - 100048 100004 45 1 0 90 70 33 0.048 0.79 6.26 Intr - 102086 101961 126 2 0 67 44 214 0.961 16.28 6.25 Intr - 102227 102161 67 1 1 63 82 75 0.930 3.80 6.24 Intr - 102449 102322 128 2 2 115 74 81 0.999 9.38 6.23 Intr - 102661 102569 93 1 0 103 100 102 0.999 13.56 6.22 Intr - 102958 102854 105 1 0 91 84 133 0.975 14.11 6.21 Intr - 103222 103079 144 1 0 71 86 120 0.962 11.09 6.20 Intr - 103400 103313 88 1 1 92 47 105 0.992 7.27 6.19 Intr - 103616 103479 138 1 0 87 78 129 0.999 11.89 6.18 Intr - 103822 103730 93 0 0 79 93 110 0.999 10.18 6.17 Intr - 104060 103930 131 2 2 80 64 184 0.993 15.20 6.16 Intr - 104267 104159 109 1 1 91 59 42 0.999 2.39 6.15 Intr - 104427 104349 79 1 1 89 110 92 0.999 10.60 6.14 Intr - 104643 104544 100 0 1 31 52 125 0.999 3.38 6.13 Intr - 105410 105324 87 2 0 96 121 139 0.999 18.66 6.12 Intr - 105674 105589 86 0 2 81 89 53 0.999 4.74 6.11 Intr - 105868 105797 72 2 0 98 53 65 0.936 3.87 6.10 Intr - 106234 106174 61 1 1 66 81 88 0.999 4.70 6.09 Intr - 106441 106388 54 1 0 88 97 56 0.983 6.16 6.08 Intr - 107378 107314 65 0 2 79 99 98 0.972 8.93 6.07 Intr - 107675 107600 76 2 1 91 80 73 0.946 6.38 6.06 Intr - 108067 107832 236 2 2 118 68 204 0.827 19.34 6.05 Intr - 108440 108293 148 2 1 79 81 70 0.948 5.72 6.04 Intr - 108719 108586 134 0 2 19 80 157 0.619 8.87 6.03 Intr - 108994 108878 117 2 0 101 30 54 0.501 1.84 6.02 Intr - 109264 109109 156 2 0 96 -25 103 0.429 0.29 6.01 Init - 110593 110467 127 1 1 108 84 72 0.910 9.08 6.00 Prom - 111795 111756 40 -6.30 7.63 PlyA - 112039 112034 6 1.05 7.62 Term - 112497 112381 117 0 0 141 43 180 0.866 17.64 7.61 Intr - 113154 112951 204 0 0 65 28 173 0.979 8.92 7.60 Intr - 114331 114153 179 2 2 71 94 170 0.997 16.06 7.59 Intr - 114573 114413 161 2 2 82 68 266 0.999 24.14 7.58 Intr - 114832 114680 153 0 0 107 87 147 0.999 16.20 7.57 Intr - 115135 114919 217 2 1 89 85 267 0.999 24.59 7.56 Intr - 115334 115224 111 0 0 44 34 107 0.771 1.75 7.55 Intr - 115782 115469 314 2 2 84 116 166 0.994 15.38 7.54 Intr - 116017 115880 138 0 0 110 131 93 0.981 15.89 7.53 Intr - 116362 116253 110 1 2 39 53 201 0.835 11.28 7.52 Intr - 116598 116458 141 0 0 110 109 43 0.988 9.66 7.51 Intr - 118062 117961 102 0 0 106 55 114 0.987 10.77 7.50 Intr - 118253 118143 111 2 0 84 100 59 0.948 7.78 7.49 Intr - 118842 118732 111 0 0 89 70 125 0.697 11.88 7.48 Intr - 119086 118928 159 1 0 73 55 259 0.834 21.80 7.47 Intr - 119330 119197 134 0 2 75 53 133 0.998 9.37 7.46 Intr - 119608 119413 196 1 1 110 77 178 0.990 18.41 7.45 Intr - 119913 119693 221 1 2 98 89 108 0.829 10.45 7.44 Intr - 120131 120016 116 1 2 83 30 120 0.747 6.29 7.43 Intr - 120320 120249 72 1 0 110 94 47 0.975 6.52 7.42 Intr - 120576 120420 157 1 1 22 94 294 0.999 22.98 7.41 Intr - 120912 120690 223 0 1 74 81 98 0.764 5.93 7.40 Intr - 121330 121028 303 1 0 48 94 184 0.825 12.33 7.39 Intr - 121539 121406 134 1 2 114 105 40 0.990 9.17 7.38 Intr - 121754 121626 129 0 0 80 89 152 0.970 15.67 7.37 Intr - 123250 122991 260 0 2 66 81 183 0.931 13.04 7.36 Intr - 123635 123602 34 0 1 99 61 30 0.750 -0.83 7.35 Intr - 124605 124437 169 0 1 66 49 66 0.636 0.53 7.34 Intr - 124877 124725 153 2 0 56 109 17 0.545 1.38 7.33 Intr - 125331 125222 110 1 2 86 61 155 0.761 13.10 7.32 Intr - 125561 125402 160 2 1 75 90 247 0.999 23.67 7.31 Intr - 125829 125653 177 0 0 58 94 83 0.966 6.53 7.30 Intr - 126054 125913 142 2 1 105 94 160 0.999 19.16 7.29 Intr - 126339 126132 208 1 1 74 47 178 0.994 10.96 7.28 Intr - 127021 126673 349 1 1 117 58 305 0.998 25.89 7.27 Intr - 127342 127101 242 2 2 106 81 298 0.860 28.70 7.26 Intr - 127600 127416 185 0 2 119 92 142 0.999 17.65 7.25 Intr - 128069 127697 373 0 1 124 50 332 0.995 27.68 7.24 Intr - 128255 128159 97 2 1 99 77 8 0.817 0.88 7.23 Intr - 128581 128364 218 2 2 70 64 71 0.602 1.65 7.22 Intr - 128894 128670 225 0 0 79 84 54 0.596 2.58 7.21 Intr - 129138 128975 164 2 2 145 100 96 0.718 16.63 7.20 Intr - 129453 129222 232 1 1 73 100 83 0.683 5.36 7.19 Intr - 129859 129716 144 2 0 116 73 88 0.998 10.86 7.18 Intr - 130128 129936 193 0 1 83 66 197 0.984 16.59 7.17 Intr - 130466 130286 181 1 1 109 30 110 0.483 7.69 7.16 Intr - 132554 132427 128 2 2 90 94 42 0.999 4.98 7.15 Intr - 132788 132630 159 2 0 80 66 280 0.999 25.70 7.14 Intr - 133121 132989 133 1 1 11 64 84 0.958 -0.55 7.13 Intr - 133293 133214 80 0 2 39 100 105 0.958 5.64 7.12 Intr - 133685 133573 113 0 2 108 58 75 0.989 7.10 7.11 Intr - 133987 133808 180 2 0 77 35 208 0.987 14.76 7.10 Intr - 134388 134200 189 1 0 93 40 196 0.899 15.38 7.09 Intr - 134829 134709 121 0 1 77 64 60 0.873 3.07 7.08 Intr - 135121 134919 203 2 2 105 91 253 0.998 26.83 7.07 Intr - 135411 135348 64 0 1 99 70 65 0.992 4.58 7.06 Intr - 135692 135504 189 2 0 67 78 154 0.977 12.60 7.05 Intr - 136158 136085 74 1 2 87 46 49 0.724 0.22 7.04 Intr - 136374 136239 136 0 1 76 77 34 0.494 1.75 7.03 Intr - 136577 136460 118 1 1 83 64 146 0.678 12.67 7.02 Intr - 140324 140270 55 0 1 123 81 67 0.781 8.03 7.01 Init - 141882 141666 217 0 1 105 23 122 0.303 6.50 7.00 Prom - 144504 144465 40 -6.20 8.00 Prom + 144802 144841 40 -3.11 8.01 Init + 147518 147642 125 1 2 89 49 157 0.436 11.16 8.02 Term + 152319 152391 73 0 1 88 42 61 0.217 -0.83 8.03 PlyA + 152995 153000 6 -0.45 9.07 PlyA - 153818 153813 6 1.05 9.06 Term - 154083 153958 126 0 0 47 48 64 0.116 -3.11 9.05 Intr - 155230 155066 165 1 0 61 80 71 0.185 4.27 9.04 Intr - 157980 157822 159 0 0 97 62 75 0.091 6.50 9.03 Intr - 162269 162166 104 0 2 154 43 -12 0.067 1.29 9.02 Intr - 162784 162721 64 1 1 92 51 47 0.390 0.18 9.01 Init - 162984 162856 129 0 0 33 77 60 0.555 -0.43 9.00 Prom - 163686 163647 40 -6.10 10.02 PlyA - 163816 163811 6 -0.45 10.01 Sngl - 168177 166774 1404 0 0 55 37 1036 0.956 91.78 10.00 Prom - 169341 169302 40 -3.31 11.00 Prom + 173631 173670 40 -7.30 11.01 Init + 173774 173922 149 1 2 64 55 56 0.259 -0.57 11.02 Intr + 175552 175654 103 1 1 27 100 125 0.497 8.28 11.03 Intr + 176097 176217 121 2 1 60 72 11 0.559 -2.73 11.04 Intr + 176605 177114 510 2 0 160 105 271 0.887 29.53 11.05 Intr + 178208 178372 165 0 0 99 82 106 0.999 11.55 11.06 Intr + 178690 178935 246 2 0 79 89 286 0.865 25.76 11.07 Intr + 179031 179132 102 1 0 113 111 107 0.999 16.15 11.08 Term + 179574 179770 197 1 2 146 49 77 0.961 7.49 11.09 PlyA + 180352 180357 6 -3.94 12.05 PlyA - 180616 180611 6 -4.33 12.04 Term - 182000 181605 396 2 0 44 47 234 0.605 10.34 12.03 Intr - 182507 182451 57 2 0 80 87 89 0.872 7.57 12.02 Intr - 194107 193994 114 1 0 74 87 70 0.722 6.65 12.01 Init - 201261 201208 54 0 0 87 86 25 0.800 1.43 12.00 Prom - 202472 202433 40 0.59 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 10656 10876 221 1 2 100 55 313 0.951 26.73 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815595r:48996032_49204733|GENSCAN_predicted_peptide_1|299_aa MEQGLWLLVTLVMLWDDSRPWPYATTLATQMRLPNLLDHITAAEAIQQLVSWLLLLAWEC HPDARLFLCYLPLYALTEPEGEVHWKAGKAPEWEGGSEEAELRAEMWGKWESQATGLLLG DQCRCPATREFQATRQGVIYPSYSLCEAMQASCEPIMACYSYPWPAILHCGRFPLGHDLC ITAVANNGSRLDRPSVKVRFSRTNSTSSGPWDCNLYSRLEVLKTGPLPPAELEPTLQRWL QLDVTCVYNLFRGRHTGTYVLSGKMEACWLLVTTAYAWSQGHQNFRLAVRHWHPHQCQE >gi568815595r:48996032_49204733|GENSCAN_predicted_CDS_1|900_bp atggagcaggggctgtggctgctggtgacactggtgatgctgtgggatgacagcaggcca tggccctatgccacgacattggctacacagatgcgtctgcccaacttgctggaccacatc acagcagctgaggccatccagcagttggtcagctggctgctcctgcttgcctgggagtgc caccccgatgcccgcctcttcctctgctatttacccctgtatgccttgacagagccggag ggagaggtgcactggaaagctggcaaggcacctgagtgggagggcgggagtgaagaggca gagctgagggctgagatgtggggcaagtgggaaagccaggctacggggctgttgctaggc gaccagtgtcgttgcccagcaaccagagagttccaggccacgagacagggggtcatctac ccctcctacagcctgtgcgaggccatgcaggccagctgcgagcccatcatggcctgctac agctacccctggccagccatcctgcattgtggacgcttccccttgggccatgatctctgt atcactgctgtggccaacaacggctcccgcctggaccgcccatcagtgaaggtcaggttc tccaggaccaacagtacttcctctggcccctgggactgcaacctgtactccagactagag gtgctgaagacaggaccactgccccctgcagagctggagcccaccctgcaacgctggctg cagctggatgtcacatgtgtgtacaatctttttcgaggaaggcacacagggacctatgtg ttgagtgggaagatggaggcctgctggctgttggtaaccacggcctatgcctggagccag ggccaccaaaattttcgactggctgtgcgccattggcaccctcaccagtgccaagaatag >gi568815595r:48996032_49204733|GENSCAN_predicted_peptide_2|1565_aa MEIPGFLTDEECRLIIHLAQMKGLQRSQILPTEEYEEAMSTMQVSQLDLFRLLDQNRDGH LQLREVLAQTRLGNGWWMTPESIQEMYAAIKADPDGDGVLSLQEFSNMDLRDFHKYMRSH KAESSELVRNSHHTWLYQGEGAHHIMRAIRQRVLRLTRLSPEIVELSEPLQVVRYGEGGH YHAHVDSGPVYPETICSHTKLVANESVPFETSCRQVSPNWGLPSILRPGTPMTQAQPCTV GVPLGMGPGDHWVIPVSPWEHPQLGTCSVPPLPYSYMTVLFYLNNVTGGGETVFPVADNR TYDEMSLIQDDVDLRDTRRHCDKGNLRVKPQQGTAVFWYNYLPDGQGWVGDVDDYSLHGG CLVTRGTKWIANNWINVDPSRARQALFQQEMARLAREGGTDSQPEWALDRAYRDARLRAL LMGSAARWEGSFSREFSSLLSRGCLSTSRIDMDALEDYVWPRATSELILLPVTGLECVGD RLLAGEGPDVLVYSLDFGGHLRMIKRVQNLLGHYLIHGFRVRPEPNGDLDLEAMVAVFGS KGLRVVKISWGQGHFWELWRSGLWNMSDWIWDARWLEGNIALALGHNSVVLYDPVVGCIL QEVPCTDRCTLSSACLIGDAWKELTIVAGAVSNQLLVWYPATALADNKPVAPDRRISGHV GIIFSMSYLESKGLLATASEDRSVRIWKVGDLRVPGGRVQNIGHCFGHSARVWQVKLLEN YLISAGEDCVCLVWSHEGEILQAFRGHQGRGIRAIAAHERQAWVITGGDDSGIRLWHLVG RGYRGLGVSALCFKSRSRPGTLKAVTLAGSWRLLAVTDTGALYLYDVEVKCWEQLLEDKH FQSYCLLEAAPGPEGFGLCAMANGEGRVKVVPINTPTAAVDQTLFPGKVHSLSWALRGYE ELLLLASGPGGVVACLEISAAPSGKAIFVKERCRYLLPPSKQRWHTCSAFLPPGDFLVCG DRRGSVLLFPSRPGLLKDPGVGGKARAGAGAPVVGSGSSGGGNAFTGLGPVSTLPSLHGK QGVTSVTCHGGYVYTTGRDGAYYQLFVRDGQLQPVLRQKSCRGMNWLAGLRIVPDGSMVI LGFHANEFVVWNPRSHEKLHIVNCGGGHRSWAFSDTEAAMAFAYLKDGDVMLYRALGGCT RPHVILREGLHGREITCVKRVGTITLGPEYGVPSFMQPDDLEPGSEGPDLTDIVITCSED TTVCVLALPTTTGSAHALTAVCNHISSVRAVAVWGIGTPGGPQDPQPGLTAHVVSAGGRA EMHCFSIMVTPDPSTPSRLACHVMHLSSHRLDEYWDRQRNRHRMVKVDPETRYMSLAVCE LDQPGLGPLVAAACSDGADSGRILQLLAETFHHKRCVLKVHSFTHEAPNQRRRLLLCSAA TDGSLAFWDLTTMLDHDSTVLEPPVDPGLPYRLGTPSLTLQAHSCGINSLHTLPTREGHH LVASGSEDGSLHVFVLAVEMLQLEEAVGEAGLVPQLRVLEEYSVPCAHAAHVTGLKILSP SIMVSASIDQRLTFWRLGHGEPTFMNSTVFHVPDVADMDCWPVSPEFGHRCALGGQGLEV YNWYD >gi568815595r:48996032_49204733|GENSCAN_predicted_CDS_2|4698_bp atggaaatccccggcttcctgactgatgaagagtgtcggctcatcatccatctggcgcag atgaaggggttacagcgcagccagatcctgcctactgaagagtatgaagaggcaatgagc actatgcaggtcagccagctggacctcttccggctgctggaccagaaccgtgatgggcac cttcagctccgtgaggttctggcccagactcgcctgggaaatggatggtggatgactcca gagagcattcaggagatgtacgccgcgatcaaggctgaccctgatggtgacggagtgctg agtctgcaggagttctccaacatggaccttcgggacttccacaagtacatgaggagccac aaggcagagtccagtgagctggtgcggaacagccaccatacctggctctaccagggtgag ggtgcccaccacatcatgcgtgccatccgccagagggtgctgcgcctcactcgcctgtcg cctgagatcgtggagctcagcgagccgctgcaggttgttcgatatggtgaggggggccac taccatgcccacgtggacagtgggcctgtgtacccagagaccatctgctcccataccaag ctggtagccaacgagtctgtacccttcgagacctcctgccggcaagtatctcccaactgg gggctgccttcaatcctcagaccaggaacacccatgacacaggcacagccctgcactgtg ggcgtgccccttggcatggggccaggagatcactgggttatcccggtaagcccctgggag catccacaactggggacctgctcagtgccccccctgccttacagctacatgacagtgctg ttttatttgaacaacgtcactggtgggggcgagactgttttccctgtagcagataacaga acctacgatgaaatgagtctgattcaggatgacgtggacctccgtgacacacggaggcac tgtgacaagggaaacctgcgtgtcaagccccaacagggcacagcagtcttctggtacaac tacctgcctgatgggcaaggttgggtgggtgacgtagacgactactcgctgcacgggggc tgcctggtcacgcgcggcaccaagtggattgccaacaactggattaatgtggaccccagc cgagcgcggcaagcgctgttccaacaggagatggcccgccttgcccgagaagggggcacc gactcacagcccgagtgggctctggaccgggcctaccgcgatgcgcgcctgagggcgctg ttgatgggcagcgcggcgcgctgggaaggctcgttctcgcgagagttcagctcccttctt agccgtggctgcctcagcacctcgaggatcgacatggacgctctcgaggactacgtttgg ccgcgggcaacctcggagcttatactcctcccagtgacgggtctggagtgcgtgggggac cggctgttggcgggtgagggtcccgatgtcctggtgtacagcttggactttggtgggcat ctgcggatgataaagcgagtgcagaacctgcttggccactatcttatccatggcttccgg gtacggccagagcctaatggagaccttgacttggaggccatggtggctgtgtttggaagc aagggactccgagttgtgaaaattagctggggacagggccacttctgggagctttggcgc tctggcctgtggaacatgtctgactggatttgggatgcacgctggcttgagggaaatata gccttggccctgggccacaactcagtggtgctatatgaccctgtagtagggtgcatcctg caagaggtgccctgcacagacaggtgcaccctctcttcagcctgcctgattggagacgcc tggaaggagctgaccatagtggcaggtgctgtttccaaccagctcttggtctggtaccca gcaactgccttagcagacaacaaacctgtagcacctgaccgacgaatcagtgggcatgtg ggcatcatcttcagcatgtcatacctggaaagcaagggattgctggctacagcttcagaa gaccgaagcgttcgtatctggaaggtgggcgacctgcgagtgcctgggggtcgggtgcag aatattgggcactgctttgggcacagcgcccgtgtgtggcaggtcaagcttctagagaat taccttatcagtgcaggagaggattgtgtctgcttggtgtggagccatgaaggtgagatc ctccaggcctttcggggacaccagggacgtgggatccgggccatagctgcccatgagagg caggcctgggtgatcactgggggtgatgactcaggcattcggctgtggcacttggtaggg cgtgggtaccggggattgggggtctcggctctctgcttcaagtcccgtagtaggccaggt acactcaaggctgtgactctggctggctcttggcgactgctggcagtgactgatacaggg gccctgtatctctatgacgtcgaggtcaagtgctgggagcagctgctagaggataaacat ttccagtcctactgcctgctggaggcagctcctggtcccgagggcttcggattgtgtgct atggccaatggggaaggtcgtgtcaaggttgtccccatcaacactccaactgctgctgtg gaccagaccctgtttcctgggaaggtgcacagcttgagctgggccctgcgtggttatgag gagctcctgttgctggcatcgggccctggcggggtagtagcttgcctagagatctcagcc gcaccctctggcaaggccatctttgtcaaggaacgttgtcggtacctgctgcccccaagc aagcagagatggcacacatgcagtgccttcctacccccaggtgacttcctggtgtgtggt gaccgccggggctctgtgctgctattcccctccagaccaggtctgctcaaggaccctggg gtgggaggcaaggctcgggctggtgctggggcacctgtagtgggtagtggtagtagtggg ggtgggaatgctttcactgggttgggcccagtgtctaccctgccctctctgcacgggaag cagggtgtgacctcagtcacatgccatggtggctatgtgtataccacagggcgtgatgga gcctactaccagctgtttgtacgagacggccagctccagccagtcctaaggcagaagtcc tgtcgaggcatgaactggctagctgggctccgtatagtgcccgatgggagcatggttatc ctgggtttccatgccaatgagtttgtggtgtggaaccctcggtcacacgagaagctgcac atcgtcaactgtggtggagggcaccgttcgtgggcattctctgatactgaggcggccatg gcctttgcttacctcaaggatggggatgtcatgctgtacagggctctgggtggctgcacc cggccacacgtgattctccgggagggtctgcatggccgtgagatcacttgtgtaaagcgt gtgggcaccattaccctggggcctgaatatggagtgcccagcttcatgcagcctgatgac ctggagcctggcagtgaggggcccgacttgactgacattgtgatcacatgtagtgaggac actactgtctgtgtcctagcactccctacaaccacaggctcagcccacgcactcacagct gtttgtaaccatatctcctcggtacgtgctgtggctgtgtggggcattggcaccccaggt ggccctcaggatcctcagccaggcctgactgcccatgtggtgtctgcgggggggcgggct gagatgcactgcttcagcatcatggttactccggaccccagcaccccaagccgcctcgcc tgccatgtcatgcacctttcgtcccaccggctagatgagtattgggaccggcaacgcaat cggcatcggatggttaaggtagacccagagaccaggtacatgtcccttgctgtgtgtgaa cttgaccagcccggccttggcccccttgtggctgcagcctgtagtgatggggccgattct gggcggattctgcagctccttgctgaaaccttccaccataagcgatgtgtcctcaaggtc cactcctttacacacgaggcacccaaccagaggcggaggctcctcctgtgcagcgcagct actgatggcagcctggctttctgggatctcaccaccatgctagaccatgactccactgtc ctggagcctccagtggatcctgggcttccctaccggcttggcaccccctccctgactctc caggcccacagctgtggtatcaacagcctgcacaccttgcccacccgtgagggccaccat ctcgtggccagtggcagtgaagatggatccctccatgtcttcgtgcttgctgtggagatg ctacagctagaagaggctgtgggagaggctgggctggtaccccagctgcgtgtgctagag gaatactctgtcccctgtgcacatgctgcccatgtgacaggcctcaagatcctaagccca agcatcatggtctcagcctccattgatcaacggctgaccttctggcgtctggggcatggt gaacccaccttcatgaatagcactgtgttccatgtgcctgatgtggctgacatggactgc tggcctgtgagccctgagtttggccaccgttgtgcccttgggggtcaggggcttgaggtt tacaactggtatgactga >gi568815595r:48996032_49204733|GENSCAN_predicted_peptide_3|532_aa MATRRLGVGETLGALNAALGPGGPVWIKETRTRHLRSRDFLAPHRALQARFDDGQVPEHL LHALACLQGPGVAPVLRCAPTPAGLSLQLQRSAVFERVLSAVAAYATPASPASLGQRVLL HCPALRSSPCALRLSQLRTVLVADHLARALRAHGVCVRLVPAVRDPHMLTFLQQLRVDWP AASERASSHTLRSHALEELTSANDGRTLSPGILGRLCLKELVEEQGRTAGYDPNLDNCLV TEDLLSVLAELQEALWHWPEDSHPGLAGASDTGTGGCLVVHVVSCEEEFQQQKLDLLWQK LVDKAPLRQKHLICGPVKVAGAPGTLMTAPEYYELTDQPYTPSDPAWTEIFGVLSVATIK FEMLSTAPQSQLFLALADSSISTKGTKSGTFVMYNCARLATLFESYKCSMEQGLYPTFPP VSSLDFSLLHDEGEWLLLFNSILPFPDLLSRTAVLDCTAPGLHIAVRTEMICKFLVQLSM DFSSYYNRVHILGEPRPHLFGQMFVRLQLLRAVREVLHTGLAMLGLPPLSHI >gi568815595r:48996032_49204733|GENSCAN_predicted_CDS_3|1599_bp atggcgaccaggcgccttggggtcggggagacgctgggggccctcaacgcggccctgggg ccaggcggtccggtgtggatcaaggagacgcgcacccgccacctgcgttcccgagacttt ctggcaccgcaccgcgcgctgcaggcgcgcttcgatgacggccaggttccggagcatttg ctccatgccctcgcctgcctgcagggccccggtgtggccccggtgctgcgctgcgcgccg acccccgcgggtctgtctctccaactgcagcggtccgccgtcttcgagcgcgtcctcagc gccgtggccgcctatgccacgcccgcctcgcctgcctcgctgggccagcgcgtcttacta cactgcccagcactgcgcagctccccctgcgcactccgcttgagccagctgcgtacggtg ctcgtggccgatcacctggcgcgagccctgcgcgctcacggggtgtgcgtgcgcctagtg ccagctgtgcgggatccgcacatgctgaccttcctgcagcaactgcgggtggactggccc gctgcctcggagagagcttcctcccacaccctgaggagccacgcccttgaagaacttacc tctgctaatgacgggaggacactgtcccctggcatcctaggcagactgtgtctgaaggag ctggtggaagaacagggccgcacagctggctatgaccccaacctggacaactgtctggtg actgaggatctcctctctgtgctggctgagctgcaagaggctctatggcattggcccgag gacagccacccaggcctggctggggcctcagatactggtacaggcggctgcctggttgta catgttgttagctgtgaggaggagttccagcaacagaagttggacctgctttggcagaag ttggttgacaaggctccactcagacagaagcacctcatctgtggccctgtgaaagtagct ggtgcacctggcactctgatgactgcccctgagtactacgaactgactgaccaaccctat actccctcagacccagcctggacagagatctttggtgttctctctgtggccaccatcaag tttgagatgctgagcacagccccacagagtcagctcttcctggctctggctgacagcagt atctccacgaagggcacaaagagtggcacctttgtcatgtataattgtgcccgtcttgcc acactctttgagagttacaagtgtagtatggaacaaggtctgtaccccacttttcctcct gtgagcagtctggacttctcactgctacatgatgagggtgagtggttgttgctcttcaac agtatcctcccctttccggatctgctgagccggacagcagtgctggactgcacagccccg gggctccacattgctgtacgcacagagatgatatgcaagttcctggtacagctcagcatg gatttcagctcctactacaaccgggtacacatcctgggggagcctcgaccacacctcttt ggtcagatgttcgtccgcctgcagcttctgagagctgtgcgtgaggtgctccatactggc ctggctatgctgggtctccctccactgagccacatttaa >gi568815595r:48996032_49204733|GENSCAN_predicted_peptide_4|184_aa MATALALRSLYRARPSLRCPPVELPWAPRRGHRLSPADDELYQRTRISLLQREAAQAMYI DSYNSRGFMINGNRVLGPCALLPHSVVQWNVGSHQDITEDSFSLFWLLEPRIEIVVVGTG DRTERLQSQVLQAMRQRGIAVEVQDTPNACATFNFLCHEGRVTGAALIPPPGGTSLTSLG QAAQ >gi568815595r:48996032_49204733|GENSCAN_predicted_CDS_4|555_bp atggccaccgctctcgcgctacgtagcttgtaccgagcgcgaccctcgctgcgctgtccg cccgttgagcttccctgggccccgcggcgagggcatcggctctcgccggcggatgacgag ctgtatcagcggacgcgcatctctctgctgcaacgcgaggccgctcaggcaatgtacatc gacagctacaacagccgcggcttcatgataaacggaaaccgcgtgctcggcccctgcgct ctgctcccgcactcggtggtgcagtggaacgtgggatcccaccaggacatcaccgaagac agcttttccctcttctggttgctggagccccggatagagatcgtggtggtggggactgga gaccggaccgagaggctgcagtcccaggtgcttcaagccatgaggcagcggggcattgct gtggaagtgcaggacacgcccaatgcctgtgccaccttcaacttcctgtgtcatgaaggc cgagtaactggagctgctctcatccctccaccaggagggacttcacttacatctttgggc caagctgctcaatga >gi568815595r:48996032_49204733|GENSCAN_predicted_peptide_5|550_aa MADYLISGGTSYVPDDGLTAQQLFNCGDGLTYNDFLILPGYIDFTADQVVSMIRNWVLNI KDLTSALTKKITLKTPLVSSPMDTVTEAGMAIAMALTGGIGFIHHNCTPEFQANEVRKVK KYEQGFITDPVVLSPKDRVRDVFEAKARHGFCGIPITDTGRMGSRLVGIISSRDIDFLKE EEHDCFLEEIMTKREDLVVAPAGITLKEANEILQRSKKGKLPIVNEDDELVAIIARTDLK KNRDYPLASKDAKKQLLCGAAIGTHEDDKYRLDLLAQAGVDVVVLDSSQGNSIFQINMIK YIKDKYPNLQVIGGNVVTAAQAKNLIDAGVDALRVGMGSGSICITQEVAPKIPPDIKSHS PKCPSTVTGCYMLACGRPQATAVYKVSEYARRFGVPVIADGGIQNVGHIAKALALGASTV MMGSLLAATTEAPGEYFFSDGIRLKKYRGMGSLDAMDKHLSSQNRYFSEADKIKVAQGVS GAVQDKGSIHKFVPYLIAGIQHSCQDIGAKSLTQVRAMMYSGELKFEKRTSSAQVEGGVH SLHSYEKRLF >gi568815595r:48996032_49204733|GENSCAN_predicted_CDS_5|1653_bp atggccgactacctgattagtgggggcacgtcctacgtgccagacgacggactcacagca cagcagctcttcaactgcggagacggcctcacctacaatgactttctcattctccctggg tacatcgacttcactgcagaccaggtggtgagtatgatcaggaattgggtcctgaacatc aaggacctgacttctgctctgaccaagaaaatcactcttaagaccccactggtttcctct cccatggacacagtcacagaggctgggatggccatagcaatggcgcttacaggcggtatt ggcttcatccaccacaactgtacacctgaattccaggccaatgaagttcggaaagtgaag aaatatgaacagggattcatcacagaccctgtggtcctcagccccaaggatcgcgtgcgg gatgtttttgaggccaaggcccggcatggtttctgcggtatcccaatcacagacacaggc cggatggggagccgcttggtgggcatcatctcctccagggacattgattttctcaaagag gaggaacatgactgtttcttggaagagataatgacaaagagggaagacttggtggtagcc cctgcaggcatcacactgaaggaggcaaatgaaattctgcagcgcagcaagaagggaaag ttgcccattgtaaatgaagatgatgagcttgtggccatcattgcccggacagacctgaag aagaatcgggactacccactagcctccaaagatgccaagaaacagctgctgtgtggggca gccattggcactcatgaggatgacaagtataggctggacttgctcgcccaggctggtgtg gatgtagtggttttggactcttcccagggaaattccatcttccagatcaatatgatcaag tacatcaaagacaaataccctaatctccaagtcattggaggcaatgtggtcactgctgcc caggccaagaacctcattgatgcaggtgtggatgccctgcgggtgggcatgggaagtggc tccatctgcattacgcaggaagtggctcccaagatccctccagacataaagtcccacagc cccaaatgcccttctactgtcacgggttgctatatgctggcctgtgggcggccccaagca acagcagtgtacaaggtgtcagagtatgcacggcgctttggtgttccggtcattgctgat ggaggaatccaaaatgtgggtcatattgcgaaagccttggcccttggggcctccacagtc atgatgggctctctcctggctgccaccactgaggcccctggtgaatacttcttttccgat gggatccggctaaagaaatatcgcggtatgggttctctcgatgccatggacaagcacctc agcagccagaacagatatttcagtgaagctgacaaaatcaaagtggcccagggagtgtct ggtgctgtgcaggacaaagggtcaatccacaaatttgtcccttacctgattgctggcatc caacactcatgccaggacattggtgccaagagcttgacccaagtccgagccatgatgtac tctggggagcttaagtttgagaagagaacgtcctcagcccaggtggaaggtggcgtccat agcctccattcgtatgagaagcggcttttctga >gi568815595r:48996032_49204733|GENSCAN_predicted_peptide_6|1836_aa MASTVYHEVTREGSADLDLIEGAITRPVGLGDGATVNLLAASAVSKWAPENRRTYGAPGS VIPHILYDGVWMRDFLGFICSTVSMTTPKLWRQKRTNTFLPGPWQISPKALPPANTPSSS QFHGGGSKAPGKAVSGVSAMAALDSLSLFTSLGLSEQKARETLKNSALSAQLREAATQAQ QTLGSTIDKATGILLYGLASRLRDTRRLSFLVSYIASKKIHTEPQLSGWWCQGLTFQEAR LSLEFHEIRTLSVHFLEQRCHKLTGSFFSAALEYVRSHPLDPIDTVDFERECGVGVIVTP EQIEEAVEAAINRHRPQLLVERYHFNMGLLMGEARAVLKWADGKMIKNEVDMQVLHLLGP KLEADLEKKFKVAKARLEETDRRTAKDVVENGETADQTLSLMEQLRGEALKFHKPGENYK TPGYVVTPHTMNLLKQHLEITGGQVRTRFPPEPNGILHIGHAKAINFNFGYAKANNGICF LRFDDTNPEKEEAKFFTAICDMVAWLGYTPYKVTYASDYFDQLYAWAVELIRRGLAYVCH QRGEELKGHNTLPSPWRDRPMEESLLLFEAMRKGKFSEGEATLRMKLVMEDGKMDPVAYR VKYTPHHRTGDKWCIYPTYDYTHCLCDSIEHITHSLCTKEFQARRSSYFWLCNALDVYCP VQWEYGRLNLHYAVVSKRKILQLVATGAVRDWDDPRLFTLTALRRRGFPPEAINNFCARV GVTVAQTTMEPHLLEACVRDVLNDTAPRAMAVLESLRVIITNFPAAKSLDIQVPNFPADE TKGFHQVPFAPIVFIERTDFKEEPEPGFKRLAWGQPVGLRHTGYVIELQHVVKGPSGCVE SLEVTCRRADAGEKPKAFIHWVSQPLMCEVRLYERLFQHKNPEDPTEVPGGFLSDLNLAS LHVVDAALVDCSVALAKPFDKFQFERLGYFSVDPDSHQGKLVFNRTVTLKEDPGKELWPV GNRGFLERAPVTTPSFGARALISGGGAASRARRRLLLSRGPAAARCAGKVEDWVLSGLVT FPGIRGLGLERNQPALLSGLRFRSSVRGARLPVLLEECRYLRPKYENTISFEEYIRVKAR SVPQHRMKEFLDSLASKGPEALQEFQQTATTTMVYQQGGNCIYTDSTEVAGSLLELACPV TTSVQPQTQQEQQIQVQQPQQVQVQVQVQQSPQQVSAQLSPQLTVHQPTEQPIQVQVQIQ GQAPQSAAPSIQTPSLQSPSPSQLQAAQIQVQHVQAAQQIQAAEIPEEHIPHQQIQAQLV AGQSLAGGQQIQIQTVGALSPPPSQQGSPREGERRVGTASVLQPVKKRKVDMPITVSYAI SGQPVATVLAIPQGQQQSYVSLRPDLLTVDSAHLYSATGTITSPTGETWTIPVYSAQPRG DPQQQSITHIAIPQEAYNAVHVSGSPTALAAVKLEDDKEKMVGTTSVVKNSHEEVVQTLA NSLFPAQFMNGNIHIPVAVQAVAGTYQNTAQTVHIWDPQQQPQQQTPQEQTPPPQQQQQQ LQVTCSAQTVQVAEVEPQSQPQPSPELLLPNSLKPEEGLEVWKNWAQTKNAELEKDAQNR LAPIGRRQLLRFQEDLISSAVAELNYGLCLMTREARNGEGEPYDPDVLYYIFLCIQKYLF ENGRVDDIFSDLYYVRFTEWLHEVLKDVQPRVTPLGYVLPSHVTEEMLWECKQLGAHSPS TLLTTLMFFNTKYFLLKTVDQHMKLAFSKVLRQTKKNPSNPKDKSTSIRYLKALGIHQTG QKVTDDMYAEQTENPENPLRCPIKLYDFYLFKCPQSVKGRNDTFYLTPEPVVAPNSPIWY SVQPISREQMGQMLTRILVIREIQEAIAVANASTMH >gi568815595r:48996032_49204733|GENSCAN_predicted_CDS_6|5511_bp atggcgtccacagtgtaccatgaagtaaccagggaagggagtgcagatcttgatctcatt gagggagccatcactagacctgtaggacttggtgatggtgctacagtgaatctattggca gcatcagctgtgtccaagtgggcacctgaaaaccggcggacttatggggcccctggatcg gtcattccacacattctctacgatggagtctggatgagggatttcctgggcttcatttgt tcaactgtttccatgacaactccaaagctgtggcgtcaaaagcggacgaacaccttcctt ccaggtccgtggcaaatatctccaaaagccctgccgcctgccaacaccccttcaagttcc cagttccacggaggcggaagcaaagcccccggaaaggccgtttccggtgtctctgcaatg gcggctctagactccctgtcgctcttcactagcctcggcctgagcgagcagaaggcccgc gagacgctcaagaactcggctctgagcgcgcagctgcgcgaggccgctactcaggctcag cagaccctgggttccaccattgacaaagctaccgggatcctgttatatggcttggcctcc cgactcagggatacccggcgtctctccttccttgtaagctacatagccagtaagaagatc cacactgagccccagctaagcgggtggtggtgccagggcttaacttttcaggaggccaga ctatccttggagtttcatgagattaggaccctgtctgtccacttcttggagcagagatgc cacaaactcacgggctctttcttctcagctgcccttgagtatgtgcggagtcaccccttg gaccccatcgacactgtggacttcgagcgggaatgtggcgtgggtgtcattgtgacccca gagcagattgaggaggctgtggaggctgctattaacaggcaccggccccagctcctggtg gaacgttaccatttcaacatggggctgctgatgggagaggctcgggctgtgctgaagtgg gcagatggcaaaatgatcaagaatgaagtggacatgcaggtcctccaccttctgggcccc aagttggaggctgatctggagaagaagttcaaggtggcaaaagctcggctagaagaaaca gaccggaggacggcaaaggatgtggtggagaatggcgagactgctgaccagaccctgtct ctgatggagcagctccggggggaggcccttaagttccacaagcctggtgagaactacaag accccaggctatgtggtcactccacacaccatgaatctactaaagcagcacctggagatt actggtgggcaggtacgtacccggttcccgccagaacccaatggaatcctgcatattgga catgccaaagccatcaatttcaactttggctatgccaaggccaacaatggcatctgtttt ctgcgttttgatgacaccaaccctgagaaggaggaagcaaagttcttcacggccatctgt gacatggtagcctggctaggctacacaccttacaaagtcacatatgcgtctgactatttt gaccagctatatgcgtgggctgtggagctcatccgcaggggtctggcttatgtgtgccac cagcgaggagaggagctcaaaggccataatactctgccttcaccctggagagaccgtccc atggaggagtcactgctgctctttgaggcaatgcgcaagggcaagttttcagagggcgag gccacactacggatgaagctggtgatggaggatggcaagatggaccctgtagcctatcga gtcaagtatacaccacaccaccgcacaggggacaaatggtgcatctatcccacctacgac tacacacactgcctctgtgactccatcgagcacatcactcactcactctgcaccaaggaa ttccaggcccgacgctcttcctacttctggctttgcaatgcactggacgtctattgccct gtgcagtgggagtatggccgcctcaacctgcactatgctgttgtctctaagaggaagatc ctccagcttgtagcaactggtgctgtgcgggactgggatgacccacggctctttacactc acggccctgcgacggcggggcttcccacctgaggccatcaacaacttctgtgcccgggtg ggagtgactgtggcacaaaccacaatggagccacatcttctagaagcctgtgtgcgtgat gtgctgaatgacacagccccacgagccatggctgtgctggagtcactacgggtcatcatc accaactttcctgctgccaagtccttggacatccaggtgcccaacttcccagctgatgag accaaaggcttccatcaggttccctttgcacccattgtcttcattgagaggactgacttc aaggaggagccagagccaggatttaagcgcctggcttggggccagcctgtgggcctgagg catacaggctacgtcattgagctgcagcatgttgtcaagggccccagtggttgtgtagag agtctggaggtgacctgcagacgggcagatgctggagagaagccaaaggcctttattcac tgggtgtcacagcctttgatgtgtgaggttcgcctctatgagcgactattccagcacaag aaccctgaagatcctactgaggtgcctggtggatttttaagtgacctgaacctggcatca ctacacgtggtggatgcagcattagtggactgctctgtggccctggcaaaacccttcgac aagttccagtttgagcgtcttggatatttctccgtggatccagacagccatcagggaaag cttgtctttaaccgaactgtcacactgaaggaagacccaggaaaggagctgtggcccgtg ggcaaccgcggctttctggagcgcgcgcccgtgacgacccccagttttggggcgcgcgct ctgatatcgggtggcggtgctgcctcgagagcgcgcaggaggcttctgctgagcagaggg ccggccgcggctcgttgcgctgggaaggttgaggattgggtcctttctggtctggtgacg ttcccgggcatccgtggcctcggcctggagagaaaccaaccagctttgctgtctggcttg cggttccgctcctctgtgaggggggcgagattgcccgttctcctcgaagaatgccgttac ttgaggcccaagtacgagaacaccatctcctttgaagagtacatccgagtaaaggcacgg tctgtcccgcaacacaggatgaaggaatttctggactcactggcctctaaggggccagaa gcccttcaggagttccagcagacagccaccactaccatggtgtaccaacagggtgggaac tgcatatacacagacagcactgaagtggctgggtctttgcttgaacttgcctgtccagtc accaccagtgttcagccacaaacccagcaagaacagcagatccaggttcagcagccgcag caggttcaggtccaggtgcaggtacagcagtctccgcaacaggtctcggctcagctctcc ccacaactcaccgttcaccagcctactgagcaacccatccaggtccaggtgcagatccaa ggccaggcaccacagtcagcagccccctccattcagaccccgtctctgcagagtcccagt ccctcgcagctgcaagcagctcagatccaggtgcagcacgtgcaagcagcccagcagatc caggctgcagaaatcccggaggagcacatcccacatcagcaaatccaggctcagctggtg gctggccagtctcttgctggtggtcagcagatccaaatccagaccgtgggtgccctttcc ccaccaccatcccagcagggctcaccccgggaaggggagcggcgggttggcacggccagt gtcctccaaccagtgaagaagcgcaaagtggacatgcccatcactgtgtcctacgccatc tcagggcagccggtggccaccgtgctggccattccacagggccagcagcagagttatgtg tctttgaggccagacttactgacagtagacagtgcccacctgtacagtgccactgggacc attactagccctacaggagaaacctggaccatccctgtttattctgcccagccccggggg gaccctcagcagcagagcattacccacattgccattccccaggaagcctacaacgcagtt cacgtcagtggctcacccacagccctggcagctgttaagctggaggatgacaaggagaag atggtgggcaccacatctgtagtgaaaaactcccatgaagaggtagtgcagacccttgca aactctctctttccagcacagttcatgaatggcaacatccacattccagtggctgtgcag gctgtggcaggcacgtaccagaatacggctcaaactgtccatatatgggacccccaacag cagccgcagcagcaaactccccaggaacagacaccaccaccacagcagcagcagcagcaa ctccaagttacttgttcagctcaaactgtccaggttgctgaagttgaaccacagtcacag ccacagccttccccagaacttctgcttccaaattctttgaagccagaagaagggcttgaa gtatggaaaaactgggcccagaccaagaatgctgaactagagaaggatgctcagaacaga ttggcacccattgggaggcgccaactgctgcgattccaggaagatctcatctcctctgct gtggcagagttgaattatgggctctgtctaatgacacgggaagctcgaaatggagaaggt gaaccctatgacccagatgtgctctactatattttcctgtgtattcaaaagtatcttttt gaaaatggaagggtagatgacattttctccgatctttattatgttcggttcacggagtgg ctacatgaagttctgaaggatgttcagccccgggtcactccacttggctatgtcttgccc agccacgtgactgaggagatgctatgggagtgcaagcagcttggggctcactccccctcc accttgctgaccaccctcatgttctttaataccaagtacttcctattgaagacagtggac cagcacatgaagctggccttctccaaggtcttgcgacagacaaagaagaacccctctaat cccaaggataaaagcacgagtatccggtacttgaaggcccttggaatacaccagactggc cagaaagttacagatgacatgtatgcagaacagacggaaaatccagagaatccattgaga tgtcccatcaagctctatgatttctacctcttcaaatgcccccagagtgtgaaaggccgg aatgacaccttttacctgacacctgagccagtggtggcccccaacagcccaatctggtac tcagtccagcctatcagcagagagcagatgggacaaatgctgacgcggatcctggtgata agagaaattcaggaggccatcgcagtggccaatgcaagcactatgcactga >gi568815595r:48996032_49204733|GENSCAN_predicted_peptide_7|3395_aa MGESQETMAWTWCCRQHIPHLTHAHQLQQIQAIASSTGIQAQETWYWERGPWGMTAMTHM QAAVQIIQRFLMDKGVDTTSVELAVSAPSPRGSCYPATGDLLVGRADRLTASSTCGLNGP QPYCIVSHLQDEKKCFLCDSRRPFSARDNPHSHRIQNVVTSFAPQRRAAWWQSENGIPAV TIQLDLEAEFHFTHLIMTFKTFRPAAMLVERSADFGRTWHVYRYFSYDCGADFPGVPLAP PRHWDDVVCESRYSEIEPSTEGEVIYRVLDPAIPIPDPYSSRIQNLLKITNLRVNLTRLH TLGDNLLDPRREIREKYYYALYELVVRGNCFCYGHASECAPAPGAPAHAEGMVHGACICK HNTRGLNCEQCQDFYRDLPWRPAEDGHSHACRKCECHGHTHSCHFDMAVYLASGNVSGGV CDGCQHNTAGRHCELCRPFFYRDPTKDLRDPAVCRSCDCDPMGSQDGGRCDSHDDPALGL VSGQCRCKEHVVGTRCQQCRDGFFGLSISDRLGCRRCQCNARGTVPGSTPCDPNSGSCYC KRLVTGRGCDRCLPGHWGLSHDLLGCRPCDCDVGGALDPQCDEGTGQCHCRQHMVGRRCE QVQPGYFRPFLDHLIWEAEDTRGQVLDVVERLVTPGETPSWTGSGFVRLQEGQTLEFLVA SVPKAMDYDLLLRLEPQVPEQWAELELIVQRPGPVPAHSLCGHLVPKDDRIQGTLQPHAR YLIFPNPVCLEPGISYKLHLKLVRTGGSAQPETPYSGPGLLIDSVNNLLLPTPTKMAGPV LVLLPRVLVLEMFSGGDAAALERQATFERYQCHEEGLVPSKTSPSEACAPLLISLSTLIY NGALPCQCNPQGSLSSECNPHGGQCLCKPGVVGRRCDLCAPGYYGFGPTGCQACQCSHEG ALSSLCEKTSGQCLCRTGAFGLRCDRCQRGQWGFPSCRPCVCNGHADECNTHTGACLGCR DHTGGEHCERCIAGFHGDPRLPYGGQCRPCPCPEGPGSQRHFATSCHQDEYSQQIVCHCR AGYTGLRCEACAPGHFGDPSRPGGRCQLCECSGNIDPMDPDACDPHTGQCLRCLHHTEGP HCAHCKPGFHGQAARQSCHRCTCNLLGTNPQQCPSPDQCHCDPSSGQCPCLPNVQGPSCD RCAPNFWNLTSGHGCQPCACHPSRARGPTCNEFTGQCHCRAGFGGRTCSECQELHWGDPG LQCHACDCDSRGIDTPQCHRFTGHCSCRPGVSGVRCDQCARGFSGIFPACHPCHACFGDW DRVVQDLAARTQRLEQRAQELQQTGVLGAFESSFWHMQEKLGIVQGIVGARNTSAASTAQ LVEATEELRREIGEATEHLTQLEADLTDVQDENFNANHALSGLERDRLALNLTLRQLDQH LDLLKHSNFLGAYDSIRHAHSQSAEAERRANTSALAVPSPVSNSASARHRTEALMDAQKE DFNSKHMANQRALGKLSAHTHTLSLTDINELVCGAPGDAPCATSPCGGAGCRDEDGQPRC GGLSCNGAAATADLALGRARHTQAELQRALAEGGSILSRVAETRRQASEAQQRAQAALDK ANASRGQVEQANQELQELIQSVKDFLNQEGADPDSIEMVATRVLELSIPASAEQIQHLAG AIAERVRSLADVDAILARTVGDVRRAEQLLQDARRARSWAEDEKQKAETVQAALEEAQRA QGIAQGAIRGAVADTRDTEQTLYQVQERMAGAERALSSAGERARQLDALLEALKLKRAGN SLAASTAEETAGSAQGRAQEAEQLLRGPLGDQYQTVKALAERKAQGVLAAQARAEQLRDE ARDLLQAAQDKLQRLQELEGTYEENERALESKAAQLDGLEARMRSVLQAINLQLEVETKQ AAKAVAAAPGRGRGAPEPEPTCAGTGTESGLPGPEEGWLRRSRSRASPLMPAGPLRYACG QPPTWERTGGQRGQLRGRGGGGLGVQRLKLGRSSTGALICVVTKQPVRVKEKLSVPCWRI WPQRVAKIAGPGRKRRSPDPDAVADPGALWLSTKRLKMSGGASATGPRRGPPGLEDTTSK KKQKDRANQESKDGDPRKELLLDWRQSAEEVIVKLRVGVGPLQLEDVDAAFTDTDCVVRF AGGQQWGGVFYAEIKSSCAKVQTRKGSLLHLTLPKKVPMLTWPSLLKKPLGTQELVPGLR CQENGQELSPIALEPGPEPHRAKQEARNQKRAQGRGEVGAGAGPGAQAGPSAKRAVHLCR GPEGDGSRDDPGPRGDAPPFVADPATQVEADEQLCIPPLNSQTCLLGSEENLAPLAGEKA VPPGNDPVSPAMVRSRNPGKDDCAKEEMAVAADAATLVDGKEPESMVNLAFVKNDSYEKG PDSVVVHVYVKEICRDTSRVLFREQDFTLIFQTRDGNFLRLHPGCGPHTTFRWQVKLRNL IEPEQCTFCFTASRIDICLRKRQSQRWGGLEAPAARGAVGGAKVAVPTGPTPLDSTPPGG APHPLTGQEEARAVEKDKSKARSEDTGLDSVATRTPMEHVTPKPETHLASPKPTCMVPPM PHSPVSGDSVEEEEEEEKKVCLPGFTGLVNLGNTCFMNSVIQSLSNTRELRDFFHDRSFE AEINYNNPLGTGGRLAIGFAVLLRALWKGTHHAFQPSKLKAIVASKASQFTGYAQHDAQE FMAFLLDGLHEDLNRIQNKPYTETVDSDGRPDEVVAEEAWQRHKMRNDSFIVDLFQGQYK SKLVCPVCAKVSITFDPFLYLPVPLPQKQKVLPVFYFAREPHSKPIKFLVSVSKENSTAS EVLDSLSQSVHVKPENLRLAEVIKNRFHRVFLPSHSLDTVSPSDTLLCFELLSSELAKER VVVLEVQQVPSVPISKCAACQRKQQSEDEKLKRCTRCYRVGYCNQLCQKTHWPDHKGLCR PENIGYPFLVSVPASRLTYARLAQLLEGYARYSVSVFQPPFQPGRMALESQSPGCTTLLS TGSLEAGDSERDPIQPPELQLVTPMAEGDTGLPRVWAAPDRGPVPSTSGISSEMLASGPI EVGSLPAGERVSRPEAAVPGYQHPSEAMNAHTPQFFIYKIDSSNREQRLEDKGDTPLELG DDCSLALVWRNNERLQEFVLVASKELECAEDPGSAGEAARAGHFTLDQCLNLFTRPEVLA PEEAWYCPQCKQHREASKQLLLWRLPNVLIVQLKRFSFRSFIWRDKINDLVEFPVRNLDL SKFCIGQKEEQLPSYDLYAVINHYGGMIGGHYTACARLPNDRSSQRSDVGWRLFDDSTVT TVDESQVVTRYAYVLFYRRRNSPVERPPRAGHSEHHPDLGPAAEAAASQASRIWQELEAE EEPVPEGSGPLGPWGPQDWVGPLPRGPTTPDEGCLRYFVLGTVAALVALVLNVFYPLGLG PGQAPEVAPTRTAPERFAPPVDRPAPTYSNMEEVD >gi568815595r:48996032_49204733|GENSCAN_predicted_CDS_7|10188_bp atgggggagtcacaggaaaccatggcttggacatggtgttgtaggcaacatattccacat ctgacccacgcccaccagctgcagcaaatccaggccatagcaagctccacaggaatccag gcacaggagacatggtattgggaaaggggaccttggggcatgactgccatgacccacatg caagcagccgtgcagatcatccagcgcttcctcatggacaaaggtgtggacaccacaagt gtggagctggctgtcagtgccccttccccaaggggaagctgctaccccgccacgggcgac ctgctggtgggccgagctgacagactgactgcctcatccacttgtggcctgaatggcccc cagccctactgcatcgtcagtcacctgcaggacgaaaagaagtgcttcctttgtgactcc cggcgccccttctctgctagagacaacccacacagccatcgcatccagaatgtagtcacc agctttgcaccacagcggcgggcagcctggtggcagtcagagaatggtatccctgcggtc accatccagctggacctggaggctgagtttcatttcacacacctcattatgaccttcaag acatttcgccctgctgccatgctggtggaacgctcagcagactttggccgcacctggcat gtgtaccgatatttctcctatgactgtggggctgacttcccaggagtcccactagcaccc ccacggcactgggatgatgtagtctgtgagtcccgctactcagagattgagccatccact gaaggcgaggtcatctatcgtgtgctggaccctgccatccctatcccagacccctacagc tcacggattcagaacctgttgaagatcaccaacctacgggtgaacctgactcgtctacac acgttgggagacaacctactcgacccacggagggagatccgagagaagtactactatgcc ctctatgagctggttgtacgtggcaactgcttctgctacggacacgcctcagagtgtgca cccgccccaggggcaccagcccatgctgagggcatggtgcacggagcttgcatctgcaaa cacaacacacgtggcctcaactgcgagcagtgtcaggatttctatcgtgacctgccctgg cgtccggctgaggacggccatagtcatgcctgtaggaagtgtgagtgccatgggcacacc cacagctgccacttcgacatggccgtatacctggcatctggcaatgtgagtggaggtgtg tgtgatggatgtcagcataacacagctgggcgccactgtgagctctgtcggcccttcttc taccgtgacccaaccaaggacctgcgggatccggctgtgtgccgctcctgtgattgtgac cccatgggttctcaagacggtggtcgctgtgattcccatgatgaccctgcactgggactg gtctccggccagtgtcgctgcaaagaacatgtggtgggcactcgctgccagcaatgccgt gatggcttctttgggctcagcatcagtgaccgtctgggctgccggcgatgtcaatgtaat gcacggggcacagtgcctgggagcactccttgtgaccccaacagtggatcctgttactgc aaacgtctagtgactggacgtggatgtgaccgctgcctgcctggccactggggcctgagc cacgacctgctcggctgccgcccctgtgactgcgacgtgggtggtgctttggatccccag tgtgatgagggcacaggtcaatgccactgccgccagcacatggttgggcgacgctgtgag caggtgcaacctggctacttccggcccttcctggaccacctaatttgggaggctgaggac acccgagggcaggtgctcgatgtggtggagcgcctggtgacccccggggaaactccatcc tggactggctcaggcttcgtgcggctacaggaaggtcagaccctggagttcctggtggcc tctgtgccgaaggctatggactatgacctgctgctgcgcttagagccccaggtccctgag caatgggcagagttggaactgattgtgcagcgtccagggcctgtgcctgcccacagcctg tgtgggcatttggtgcccaaggatgatcgcatccaagggactctgcaaccacatgccagg tacttgatatttcctaatcctgtctgccttgagcctggtatctcctacaagctgcatctg aagctggtacggacagggggaagtgcccagcctgagactccctactctggacctggcctg ctcattgactcggtgaataatctcctcttgcccacaccaaccaagatggcagggcccgtg ctggtgctgctgccccgtgtcctggtgctagagatgtttagtgggggtgatgctgctgcc ctggagcgccaggccacctttgaacgctaccaatgccatgaggagggtctggtgcccagc aagacttctccctctgaggcctgcgcacccctcctcatcagcctgtccaccctcatctac aatggtgccctgccatgtcagtgcaaccctcaaggttcactgagttctgagtgcaaccct catggtggtcagtgcctgtgcaagcctggagtggttgggcgccgctgtgacctctgtgcc cctggctactatggctttggccccacaggctgtcaagcctgccagtgcagccacgagggg gcactcagcagtctctgtgaaaagaccagtgggcaatgtctctgtcgaactggtgccttt gggcttcgctgtgaccgctgccagcgtggccagtggggattccctagctgccggccatgt gtctgcaatgggcatgcagatgagtgcaacacccacacaggcgcttgcctgggctgccgt gatcacacagggggtgagcactgtgaaaggtgcattgctggtttccacggggacccacgg ctgccatatgggggccagtgccggccctgtccctgtcctgaaggccctgggagccaacgg cactttgctacttcttgccaccaggatgaatattcccagcagattgtgtgccactgccgg gcaggctatacggggctgcgatgtgaagcttgtgcccctgggcactttggggacccatca aggccaggtggccggtgccaactgtgtgagtgcagtgggaacattgacccaatggatcct gatgcctgtgacccccacacggggcaatgcctgcgctgtttacaccacacagagggtcca cactgtgcccactgcaagcctggcttccatgggcaggctgcccgacagagctgtcaccgc tgcacatgcaacctgctgggcacaaatccgcagcagtgcccatctcctgaccagtgccac tgtgatccaagcagtgggcagtgcccatgcctccccaatgtccagggccctagctgtgac cgctgtgcccccaacttctggaacctcaccagtggccatggttgccagccttgtgcctgc cacccaagccgggccagaggccccacctgcaacgagttcacagggcagtgccactgccgt gccggctttggagggcggacttgttctgagtgccaagagctccactggggagaccctggg ttgcagtgccatgcctgtgattgtgactctcgtggaatagatacacctcagtgtcaccgc ttcacaggtcactgcagctgccgcccaggggtgtctggtgtgcgctgtgaccagtgtgcc cgtggcttctcaggaatctttcctgcctgccatccctgccatgcatgcttcggggattgg gaccgagtggtgcaggacttggcagcccgtacacagcgcctagagcagcgggcgcaggag ttgcaacagacgggtgtgctgggtgcctttgagagcagcttctggcacatgcaggagaag ctgggcattgtgcagggcatcgtaggtgcccgcaacacctcagccgcctccactgcacag cttgtggaggccacagaggagctgcggcgtgaaattggggaggccactgagcacctgact cagctcgaggcagacctgacagatgtgcaagatgagaacttcaatgccaaccatgcacta agtggtctggagcgagataggcttgcacttaatctcacactgcggcagctcgaccagcat cttgacttgctcaaacattcaaacttcctgggtgcctatgacagcatccggcatgcccat agccagtctgcagaggcagaacgtcgtgccaatacctcagccctggcagtacctagccct gtgagcaactcggcaagtgctcggcatcggacagaggcactgatggatgctcagaaggag gacttcaacagcaaacacatggccaaccagcgggcacttggcaagctctctgcccatacc cacaccctgagcctgacagacataaatgagctggtgtgtggggcaccaggggatgcaccc tgtgctacaagcccttgtgggggtgccggctgtcgagatgaggatgggcagccgcgctgt gggggcctcagctgcaatggggcagcggctacagcagacctagcactgggccgggcccgg cacacacaggcagagctgcagcgggcactggcagaaggtggtagcatcctcagcagagtg gctgagactcgtcggcaggcaagcgaggcacagcagcgggcccaggcagccctggacaag gctaatgcttccaggggacaggtggaacaggccaaccaggaacttcaagaacttatccag agtgtgaaggacttcctcaaccaggagggggctgatcctgatagcattgaaatggtggcc acacgggtgctagagctctccatcccagcttcagctgagcagatccagcacctggcgggt gcgattgcagagcgagtccggagcctggcagatgtggatgcgatcctggcacgtactgta ggagatgtgcgtcgtgccgagcagctactgcaggatgcacggcgggcaaggagctgggct gaggatgagaaacagaaggcagagacagtacaggcagcactggaggaggcccagcgggca cagggtattgcccagggtgccatccggggggcagtggctgacacacgggacacagagcag accctgtaccaggtacaggagaggatggcaggtgcagagcgggcactgagctctgcaggt gaaagggctcggcagttggatgctctcctggaggctctgaaattgaaacgggcaggaaat agtctggcagcctctacagcagaagaaacggcaggcagtgcccagggtcgtgcccaggag gctgagcagctgctacgcggtcctctgggtgatcagtaccagacggtgaaggccctagct gagcgcaaggcccaaggtgtgctggctgcacaggcaagggcagaacaactgcgggatgag gctcgggacctgttgcaagccgctcaggacaagctgcagcggctacaggaattggaaggc acctatgaggaaaatgagcgggcactggagagtaaggcagcccagttggacgggttggag gccaggatgcgcagcgtgcttcaagccatcaacttgcagctagaagtcgaaacaaaacaa gccgctaaggcggtggcggcggcgccgggacgggggaggggcgcgccggaaccggaaccg acctgcgccggaaccggaacggagagcgggttgccagggcccgaagagggctggctgcgg cggtctcgctcgcgtgccagcccactgatgccggcagggccgttacgctatgcctgtggc cagcctcccacctgggagaggactggcggccagcgagggcaacttcgtgggagaggtggt ggcgggctcggggttcagaggctgaagctgggtcgcagctcgaccggggcgctgatctgt gtggtgactaagcagccagtgagagtgaaggaaaagctgtccgttccttgctggagaatt tggccacaaagagttgccaagatagctgggccaggaagaaagcgccgcagccctgaccca gacgctgttgccgaccccggggcactctggctgtcgaccaagcggctcaagatgtctggc ggggccagtgccacaggcccaaggagagggcccccaggactggaggacaccactagtaag aagaagcagaaggatcgagcaaaccaggagagcaaggatggagatcctaggaaagagttg ttgctcgattggaggcagagtgcagaagaggtgattgtcaagcttcgtgtgggagtaggt cccctgcagctggaggatgtagatgctgctttcacagatacagactgtgtggtgcggttt gcaggtggtcagcagtggggtggtgtcttctatgctgagataaaaagctcttgtgctaaa gtgcaaacccgcaagggcagtctcctgcacctgacactgcccaaaaaggtgcctatgctc acgtggccctccctcctgaagaaacctctagggacccaggagctggtgccggggctgcgg tgccaggagaatgggcaggaactgtctcccattgccctggagccaggccctgagccccac cgggctaagcaggaggcccggaaccagaagcgggcccagggccgtggtgaggtaggcgca ggggctggccccggggcccaggcagggcccagcgccaagagggctgtgcatctctgcaga gggccagagggggacgggtccagggatgaccctggaccccggggtgatgccccacccttc gtggctgacccagccacccaggttgaggctgatgaacagctttgcataccaccgctgaac tcccaaacctgcctcctgggctcagaggagaatttagcccctttggcaggagagaaagca gtgcctcccgggaatgacccagtctctccagccatggtccggagcagaaaccctgggaaa gatgactgtgccaaggaggagatggcagtggcagcagatgctgcaaccttggtggatggt aaagagcccgagtcgatggtgaacctggcgtttgtcaagaatgactcgtatgagaagggc ccggattcagtggtggtgcacgtgtacgtgaaggagatctgcagggacacctcaagagta cttttccgtgagcaggacttcacgctcatcttccagaccagggatggaaacttcctgagg ctgcacccgggctgtgggccccacaccaccttccgttggcaggtgaagctcaggaatctg attgagccagagcagtgcaccttctgtttcacggcttctcgcatcgacatctgccttcgt aagaggcagagtcagcgctgggggggcctggaggccccggctgcacgaggtgcagtgggt ggtgcaaaggttgccgtgccgacaggtccaacccctctggattcaaccccaccaggaggt gctccccaccccctgacaggccaggaggaggcccgggctgtggagaaggataaatccaag gcacgatctgaggacacagggctagacagtgtggcaacccgcacacccatggagcatgta accccaaagccagagacacacctggcctcgcccaagcctacatgcatggtgcctcccatg ccccacagcccagttagtggagacagcgtggaggaggaggaagaggaagagaagaaggtg tgtctgccaggcttcactggccttgtcaatttaggcaacacctgcttcatgaacagcgtc attcagtctctgtccaacactcgggaactccgggacttcttccatgaccgctcctttgag gctgagatcaactacaacaacccactagggactggtgggcgtctggccattggctttgcc gtgctgcttcgggcgctgtggaagggcacccaccatgccttccagccttccaagttgaag gccattgtggcgagtaaggccagccagttcacaggctatgcacagcatgatgcccaggag ttcatggctttcctgctggatgggctgcacgaggacctgaatcgcattcagaacaagccc tacacagagaccgtggattcagatgggcggcccgatgaggtggtagctgaggaagcatgg cagcggcacaagatgaggaatgactctttcatcgtggacctatttcaggggcagtacaag tcgaagctggtgtgccctgtgtgtgccaaggtctccatcacttttgacccgtttctttat ctgccggtgcccttgccacaaaagcaaaaggttctccctgtcttttattttgcccgagag ccccacagcaagcccatcaagttcctggtgagcgtcagcaaggagaactccactgcgagc gaagtattggactccctctctcagagtgttcatgtgaagcctgagaacctgcgtttggcg gaggtaattaagaatcgttttcatcgtgtgttcctaccctcccactcactggacactgtg tccccatctgatacgctcctctgctttgagctgctatcctcagagttggctaaggagcgg gtagtggtgctagaggtgcaacaggtgcccagcgtccccatctccaagtgtgcagcctgc cagcggaagcaacagtcggaggatgaaaagctgaagcgctgtacccggtgctaccgtgtg ggctactgcaaccagctctgccagaaaacccactggcctgaccacaagggcctctgccga cctgagaacattggctaccccttcctggtcagtgtacctgcctcacgcctcacttatgcc cgcctcgctcagttgctagagggctatgcccggtactctgtgagtgtattccagccaccc tttcagccaggccgcatggccttggagtctcagagccctggctgcaccacactgctctcc acaggttccctggaggctggggacagcgagagagaccccattcagccacctgagctccag ctggtgacccctatggctgagggggacacagggcttccccgggtgtgggcagcccctgac cggggtcctgtgcccagcaccagtggaatttcttctgagatgctggccagtgggcccatt gaggttggctccttgccagctggcgagagggtgtcccgacccgaagctgctgtgcctggg taccagcatccaagtgaagctatgaatgcccacacaccccagttcttcatctataaaatt gattcatccaaccgagagcagcggctagaggacaaaggagacaccccactggagctgggt gacgactgtagcctggctctcgtctggcggaacaatgagcgcttgcaggagtttgtgttg gtagcctccaaggagctggaatgtgctgaggatccaggctctgccggtgaggctgcccgg gccggccacttcaccctggaccagtgcctcaacctcttcacacggcctgaggtgctggca cccgaggaggcctggtactgcccacagtgcaaacagcaccgtgaggcctccaagcagctg ttgctatggcgcctgccaaatgttctcatcgtgcagctcaagcgcttctcctttcgtagt tttatctggcgtgacaagatcaatgacttggtggagttccctgttaggaacctggacctg agcaagttctgcattggtcagaaagaggagcagctgcccagctacgatctatatgctgtc atcaaccactatggaggcatgattggtggccactacactgcctgtgcacgcctgcccaat gatcgtagcagtcagcgcagtgacgtgggctggcgcttgtttgatgacagcacagtgaca acggtagacgagagccaggttgtgacgcgttatgcctatgtactcttctaccgccggcgg aactctcctgtggagaggccccccagggcaggtcactctgagcaccacccagacctaggc cctgcagctgaggctgctgccagccaggcttcccggatttggcaggagctggaggctgag gaggagccggtgcctgaggggtctgggcccctgggtccctgggggccccaagactgggtg ggccccctaccacgtggccctaccacaccagatgagggctgcctccggtactttgtcctg ggcaccgtggcggctttggtggccctcgtgctcaacgtgttctatcctctgggactaggc cctggccaggcccccgaggtggcccccacgcggacagcccctgaacgcttcgccccccct gtggatcggccagcccccacctacagcaacatggaggaggtggattag >gi568815595r:48996032_49204733|GENSCAN_predicted_peptide_8|65_aa MAVVHRMLAVPTVGVTGSRIMEIDIATLADRYGLFWGILLASLCRGVAACSWIKAESLYR TTTLQ >gi568815595r:48996032_49204733|GENSCAN_predicted_CDS_8|198_bp atggctgtggtgcacagaatgctggcagtgcccactgtgggggtcacaggcagcaggatc atggagattgatattgccacactggcagaccggtatggactcttctggggtatcctcctg gccagcctgtgtcgtggagtagcagcatgttcctggatcaaagcagaaagtctgtataga accacaaccctgcagtga >gi568815595r:48996032_49204733|GENSCAN_predicted_peptide_9|248_aa MYRYFVHNCPSLFLGIPPTPSHRVSDLVCDQHYSDIKPSTEGKVIFKVLDPAIPVEDPNN PEIQAASRWHQGISGCNTFLVKKSLLKTPSRRAQNQARRVHGLCICPHQSVHTVSAAKTC TRIIHDMQQSLGTPMPAGMNAMLYSAWPYLPQLKPNLARFSSKYKYQEGQKQKEIKAQTL GLTGRSERPDNYLEEESEQGWKDLEIQEPEDCQALVSVCAQFLPSSTHCAHLLPSEQLFQ VALLRAHS >gi568815595r:48996032_49204733|GENSCAN_predicted_CDS_9|747_bp atgtacagatactttgttcacaactgcccaagcctctttcttgggatccctcctacccct agccacagagtcagtgacctcgtctgtgaccagcattactcagacatcaagccttccact gagggcaaggtgattttcaaagttctggacccagccattccagtagaggatccaaacaac cctgagattcaggctgcctctaggtggcaccagggcatctctggatgtaacaccttcctt gtaaagaagtctttgttaaagactcctagtaggagagcccagaatcaggccaggagggta catgggctttgcatctgtccccaccagtcggtgcacactgtgagtgctgccaagacctgc accaggatcatccatgacatgcagcagagcctgggcacccccatgcctgctgggatgaat gccatgctctactctgcctggccatacctgccacagctgaagccaaacttggccaggttc tccagcaagtataagtatcaggagggtcagaagcagaaagaaatcaaagctcagacactg gggctcactggaagaagtgaacgtccagataactatttggaggaagagtctgagcagggt tggaaagacttggaaatccaggaacctgaagactgtcaggcattagtcagtgtctgtgcc caattcctgcccagcagcacccactgtgcccatctgctgccctcagagcagctgtttcag gtggccctgcttcgtgcacacagctag >gi568815595r:48996032_49204733|GENSCAN_predicted_peptide_10|467_aa MSVVVQHVEEKAVHSWSRISTAGKKALEEALLVFNPMSQDLSATEAQLVAFLQGLRDDGF QPTILRSGDVYGYSSCTANPPSQTKLQARAPNPTATSPPASAPRTAMRLPAGRATLLPMP LSGRLAKASTPALAKHATTNLLLSSLKQSSASHARGAAVGFPTHLYPGVYPAMRLSVVLE ALVPLKTPMPCLGAKHKAQSLQLSLADSPLKLRKSSGKGPGNPRPKAPRKTTSKGPKCLT RKGPGAGPRRGSGHQSKTNRATGSPSVRRMKGGSALGTKTAQAKVARTLAKAARAQAKVA RTQAKAAKARAKAKAAQVKAKAKAKAAQVKAKAKVMAAWAKAKAKAKAVRAKAKVARTQP RGRGRPKGSAKARTTRKGQKNRPETVGQKRKRAEEAKDLPPKKRTRLGPRSPKAWLGPGT AKLLKFRAIKVDRRSSDDEVRQRAQRILRVNLSPVIRLQPLLPYSAV >gi568815595r:48996032_49204733|GENSCAN_predicted_CDS_10|1404_bp atgagtgtggtggttcagcatgtggaggaaaaagctgtgcactcctggtcgcgcatctcc acggcagggaagaaggccctggaagaggcactgcttgtctttaacccaatgagccaggat ctcagtgccacagaggcccagcttgtggccttcctgcagggcctgcgagatgatggcttc caacctaccatcctgcgcagtggtgatgtctatggctatagttcatgcacagctaatccc ccaagccagacgaaactgcaagctcgtgcccctaacccaactgccacatcacctccagcc agtgctccccgaactgccatgcggttgcctgcaggtcgggccacactgcttcccatgccg ctatctggcagactggccaaagcatccacaccagcccttgccaagcatgctaccaccaac ctgctgctgagctctctgaagcaatcaagtgccagccatgcccggggtgcagcagtgggc ttccccacccacctttatccaggtgtctaccctgccatgcggctctctgttgtccttgag gccctggttccacttaagactcccatgccctgcttgggtgccaagcacaaggcacagtca ctgcagctctcacttgcagactctcctctgaaactgcggaaaagttcagggaagggtccg gggaaccctcggcccaaagctcccagaaaaaccacaagcaagggccccaagtgtctgact cgcaaaggccctggggctggaccccgacgaggctctgggcaccagagcaaaaccaacaga gccactgggtcccccagtgtccggcgaatgaaagggggctctgccctgggcaccaaaaca gcccaggccaaggtagctcgaacactggccaaagctgctcgtgcccaagccaaggtggct cgaacacaggccaaggctgctaaggcccgggccaaggccaaggcagcacaggtcaaggct aaggccaaagctaaggcagcacaggtcaaggccaaggccaaagtcatggcagcatgggcc aaggccaaggctaaagccaaggcagtacgggccaaggccaaggtggctcggacccagccc aggggcagaggcaggccaaagggatctgctaaggccagaactacaaggaagggccagaaa aaccgccctgagactgttgggcagaagaggaaaagggctgaggaggcaaaagatcttcct cccaagaagagaacacggcttgggccccgatctcctaaggcatggctagggcctggaaca gcaaagctgctgaagttccgtgccataaaggtagataggcggtcctcggatgatgaggtg cggcagcgggctcagcggatcctccgcgtgaacctgtcacctgtaatacggctccagcca ttgctgccatattcagcagtctga >gi568815595r:48996032_49204733|GENSCAN_predicted_peptide_11|530_aa MTFPRTIFGEEWQHIEVTSNKEVEPVRTDGFKSLTGVEEGETRETWGVGSAGAPPEPDFS PSQIPRQRRRNGGPRTLAASEHRRWEWFKLTLWNGPQDVVRILWSLTPDSRRGDPQAAQG TLEASEGKVPGLVIYLLWPWQNQDEALSCLPSEAYSLSRQHGLPLAVNTMSAGGGRAFAW QVFPPMPTCRVYGTVAHQDGHLLVLGGCGRAGLPLDTAETLDMASHTWLALAPLPTARAG AAAVVLGKQVLVVGGVDEVQSPVAAVEAFLMDEGRWERRATLPQAAMGVATVERDGMVYA LGGMGPDTAPQAQVRVYEPRRDCWLSLPSMPTPCYGASTFLHGNKIYVLGTPIPLTGGRQ GKLPVTAFEAFDLEARTWTRHPSLPSRRAFAGCAMAEGSVFSLGGLQQPGPHNFYSRPHF VNTVEMFDLEHGSWTKLPRSLRMRDKRADFVVGSLGGHIVAIGGLGNQPCPLGSVESFSL ARRRWEALPAMPTARCSCSSLQAGPRLFVIGGVAQGPSQAVEALCLRDGV >gi568815595r:48996032_49204733|GENSCAN_predicted_CDS_11|1593_bp atgacttttccaagaacaatttttggggaggagtggcagcacattgaggtgacaagtaac aaggaggtggagcctgtgaggacagatggcttcaagagtttgactggagtggaggaaggg gagactagagagacttggggtgttgggagtgccggagccccgccagagcccgacttcagc cccagccagatcccgcgtcaacggaggcggaacggcggaccccgtaccctggcagcatcg gagcaccggcggtgggaatggtttaaattaaccctgtggaatggcccccaggatgttgta aggatactctggagtctgacccctgacagcaggcgtggggacccccaggctgcccagggc accctggaagccagtgaaggcaaggtccctggactggtcatatacctcttgtggccctgg cagaatcaagatgaggccctgtcatgcctccccagtgaggcctacagtctgagcagacag catggcctgccactggcagtgaacaccatgtctgcaggaggtggccgggcctttgcttgg caagtgttcccccccatgcccacttgccgggtctatggcacagtggcacaccaagatggg cacctgctggtgttggggggttgtggccgggctggactgcccctggacactgctgagaca ctggacatggcctcgcacacatggctggcactggcacccctgcccactgcccgggctggt gcagctgcggtagttctgggcaagcaggtgctagtggtgggtggtgtggatgaggtccag agcccggtagctgctgtagaggccttcctgatggatgagggccgctgggagcgtcgggcc accctccctcaagcagccatgggggttgcaactgtggagagagatggtatggtgtatgct ctggggggaatgggccctgacacggccccccaggcccaggtacgtgtgtatgagccccgt cgggactgctggctttcgctaccctccatgcccacaccctgctatggggcctccaccttc ctgcacgggaacaagatctatgtcctgggtaccccaattccattgacagggggccgccag ggcaagctcccggtgactgcttttgaagcctttgatctggaggcccgtacatggacccgg catccaagcctacccagccgtcgggcctttgctggctgcgccatggctgaaggcagcgtc tttagcctgggtggcctgcagcagcctgggccccacaacttctactctcgcccacacttt gtcaacactgtggagatgtttgacctggagcatgggtcctggaccaaattgccccgcagc ctgcgcatgagggataagagggcagactttgtggttgggtcccttgggggccacattgtg gccattgggggccttggaaaccagccatgtcctttgggctctgtggagagctttagcctt gcacggcggcgctgggaggcattgcctgccatgcccactgcccgctgctcctgctctagt ctgcaggctgggccccggctgtttgttattgggggtgtggcccagggccccagtcaagcc gtggaggcactgtgtctgcgtgatggggtctga >gi568815595r:48996032_49204733|GENSCAN_predicted_peptide_12|206_aa MAWAWWLMPVIPALWEAKHNNGFYGHYRSQFKSESAREYHLAAKPQPPAVFLQRCQEPAQ RHFFSKHDNRTSFDKGIGRRKDLERLWQRHTFLRWAPCEIELRQQGPLESSYQADFRPGP GLSGLPQHLIHFVQVQPSHTRTTYQQNFCCPSQGGHYGSYKVGPQAPVTDVLPDLPGIPR PKLLQHYLHAGVSECLNWSRALNKDS >gi568815595r:48996032_49204733|GENSCAN_predicted_CDS_12|621_bp atggcctgggcatggtggctcatgcctgtaatcccagcactttgggaggccaagcacaac aatggcttctatgggcactacagaagccaattcaagagtgaaagtgctagagaataccac cttgcagccaagccccagcctccagcagtgttcctgcagcgatgtcaggagccggcgcag cgacacttcttctccaagcacgacaaccgtacttcctttgacaaaggaatcggaaggcgg aaggacctggagcgcctgtggcagcggcacaccttcctgcgctgggcaccctgtgagata gagttgcgccagcaggggcccctggaatcttcttaccaggctgatttcaggccaggccca ggactcagtggcctcccccagcacctcatccactttgtgcaggtccagccttcccatacc aggaccacctaccagcagaacttctgctgcccatcccagggtggccactatggcagctac aaggtagggccccaggcgccggtcactgacgtactgcctgacctcccagggatcccaaga cccaagctgctgcagcactaccttcatgctggggtctctgagtgtctaaactggtccaga gcattaaacaaggacagctga