Result of GENSCAN for
pF1KE3836
GENSCAN 1.0 Date run: 16-Jul-119 Time: 16:03:16 Sequence gi568815586f:57028965_57312552 : 283588 bp : 50.96% C+G : Isochore 2 (43 - 51 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.26 Intr - 295 168 128 1 2 77 53 234 0.471 18.28 1.25 Intr - 623 471 153 2 0 132 54 150 0.487 16.27 1.24 Intr - 908 776 133 1 1 72 116 161 0.999 17.95 1.23 Intr - 1375 1246 130 2 1 80 78 97 0.488 7.65 1.22 Intr - 2210 2072 139 2 1 73 -12 147 0.566 3.24 1.21 Intr - 7417 7343 75 1 0 66 115 115 0.999 11.71 1.20 Intr - 8127 7978 150 0 0 113 64 138 0.999 14.26 1.19 Intr - 8677 8584 94 0 1 97 74 143 0.999 13.77 1.18 Intr - 9105 8905 201 2 0 83 111 163 0.521 16.50 1.17 Intr - 9674 9448 227 2 2 65 61 227 0.999 14.48 1.16 Intr - 10045 9845 201 1 0 50 62 305 0.989 23.58 1.15 Intr - 10310 10248 63 2 0 77 84 67 0.942 4.11 1.14 Intr - 12324 12220 105 0 0 98 21 177 0.964 12.41 1.13 Intr - 12595 12468 128 2 2 64 78 64 0.339 3.40 1.12 Intr - 14194 14104 91 1 1 87 -24 194 0.451 7.67 1.11 Intr - 14394 14276 119 1 2 94 110 102 0.989 13.18 1.10 Intr - 15039 14892 148 0 1 50 30 207 0.975 10.91 1.09 Intr - 15245 15142 104 0 2 57 94 144 0.999 11.79 1.08 Intr - 17686 17588 99 2 0 76 27 152 0.758 7.98 1.07 Intr - 17962 17899 64 1 1 55 55 68 0.680 -1.51 1.06 Intr - 18143 18097 47 0 2 90 59 92 0.893 4.63 1.05 Intr - 18443 18339 105 0 0 49 76 140 0.994 9.09 1.04 Intr - 18757 18663 95 0 2 42 81 94 0.999 3.71 1.03 Intr - 19140 19025 116 0 2 86 73 112 0.974 8.75 1.02 Intr - 19379 19246 134 0 2 79 73 126 0.768 10.56 1.01 Init - 24409 24277 133 1 1 78 47 51 0.425 0.30 1.00 Prom - 24533 24494 40 -3.36 2.00 Prom + 24829 24868 40 -4.46 2.01 Sngl + 24883 25194 312 0 0 71 48 205 0.964 10.73 2.02 PlyA + 25755 25760 6 1.05 3.07 PlyA - 26208 26203 6 1.05 3.06 Term - 31095 30915 181 2 1 91 43 168 0.997 9.68 3.05 Intr - 31981 31808 174 0 0 25 92 149 0.952 8.05 3.04 Intr - 34365 34155 211 1 1 84 62 200 0.784 14.97 3.03 Intr - 41929 41710 220 1 1 101 83 145 0.962 13.17 3.02 Intr - 43948 43824 125 2 2 61 90 -12 0.482 -3.40 3.01 Init - 49781 49622 160 2 1 121 55 195 0.274 17.49 3.00 Prom - 54141 54102 40 -4.36 4.00 Prom + 54269 54308 40 -6.16 4.01 Init + 55144 55161 18 0 0 70 91 22 0.233 -0.77 4.02 Intr + 59939 60078 140 1 2 81 38 61 0.237 -0.34 4.03 Intr + 62161 63034 874 1 1 118 78 838 0.730 77.14 4.04 Intr + 63484 63617 134 0 2 119 94 148 0.999 17.94 4.05 Intr + 63953 64004 52 2 1 99 87 42 0.922 4.11 4.06 Intr + 64099 64231 133 0 1 79 96 77 0.989 7.82 4.07 Intr + 64443 64634 192 1 0 74 94 165 0.580 15.16 4.08 Term + 65648 65757 110 0 2 120 55 60 0.884 4.57 4.09 PlyA + 66487 66492 6 1.05 5.23 PlyA - 66499 66494 6 1.05 5.22 Term - 67797 67608 190 2 1 130 42 -43 0.310 -7.78 5.21 Intr - 68014 67886 129 0 0 77 97 108 0.716 10.41 5.20 Intr - 68169 68104 66 2 0 117 81 25 0.863 2.72 5.19 Intr - 69633 69541 93 2 0 79 83 72 0.966 4.88 5.18 Intr - 69938 69828 111 1 0 108 50 68 0.956 4.49 5.17 Intr - 70114 70051 64 2 1 86 113 54 0.993 5.48 5.16 Intr - 70476 70330 147 1 0 67 49 210 0.999 15.21 5.15 Intr - 70939 70803 137 0 2 83 77 238 0.999 22.41 5.14 Intr - 71126 71032 95 2 2 145 117 133 0.999 20.66 5.13 Intr - 73532 73209 324 2 0 132 30 301 0.581 24.67 5.12 Intr - 73957 73865 93 1 0 53 77 171 0.999 12.66 5.11 Intr - 75622 75500 123 1 0 94 66 140 0.999 13.18 5.10 Intr - 75849 75762 88 2 1 70 81 108 0.976 8.27 5.09 Intr - 76375 76187 189 0 0 88 68 118 0.995 8.50 5.08 Intr - 76635 76504 132 2 0 95 66 73 0.979 5.56 5.07 Intr - 77375 77227 149 2 2 97 31 146 0.977 8.83 5.06 Intr - 77616 77564 53 1 2 73 105 -13 0.940 -2.47 5.05 Intr - 77867 77729 139 2 1 60 81 101 0.935 6.64 5.04 Intr - 78350 78267 84 2 0 66 72 75 0.929 3.72 5.03 Intr - 78779 78641 139 1 1 86 59 115 0.860 8.87 5.02 Intr - 79335 79199 137 0 2 96 105 130 0.685 14.87 5.01 Init - 90001 89972 30 1 0 86 71 11 0.142 -1.02 5.00 Prom - 90969 90930 40 -5.86 6.00 Prom + 94149 94188 40 -6.26 6.01 Init + 100001 100067 67 1 1 82 113 265 0.999 27.63 6.02 Intr + 103064 103156 93 0 0 127 51 7 0.616 0.84 6.03 Intr + 109495 109617 123 2 0 88 78 56 0.940 5.16 6.04 Intr + 112410 112547 138 1 0 121 94 87 0.996 13.04 6.05 Intr + 114715 114834 120 2 0 95 95 100 0.998 11.87 6.06 Intr + 116008 116136 129 2 0 110 76 202 0.903 21.87 6.07 Intr + 116263 116526 264 2 0 87 84 415 0.991 38.48 6.08 Intr + 125244 125406 163 1 1 71 64 291 0.978 24.03 6.09 Intr + 125515 125737 223 1 1 75 81 432 0.998 39.33 6.10 Intr + 127130 127319 190 1 1 88 83 382 0.997 36.86 6.11 Intr + 127813 127956 144 2 0 67 70 165 0.601 12.85 6.12 Intr + 129438 129674 237 1 0 86 68 493 0.999 44.69 6.13 Intr + 130861 131041 181 2 1 112 92 268 0.999 28.53 6.14 Intr + 131929 132151 223 1 1 94 86 273 0.999 25.83 6.15 Intr + 133353 133554 202 2 1 91 77 245 0.999 22.56 6.16 Intr + 133894 134019 126 2 0 100 51 171 0.999 15.25 6.17 Intr + 136841 136981 141 0 0 92 78 222 0.999 21.92 6.18 Intr + 137120 137245 126 0 0 125 64 244 0.912 26.35 6.19 Intr + 137966 138082 117 0 0 89 83 157 0.999 15.74 6.20 Intr + 138480 138560 81 1 0 95 95 41 0.971 5.11 6.21 Intr + 140176 140343 168 2 0 65 47 226 0.994 16.12 6.22 Intr + 144204 144386 183 1 0 96 72 261 0.983 25.06 6.23 Intr + 144816 145016 201 1 0 78 77 352 0.948 32.36 6.24 Intr + 146496 146741 246 1 0 108 72 300 0.992 27.83 6.25 Intr + 146945 147142 198 0 0 101 45 519 0.999 48.22 6.26 Intr + 148077 148281 205 1 1 109 68 289 0.999 27.26 6.27 Intr + 148463 148627 165 2 0 109 76 214 0.999 21.38 6.28 Intr + 149395 149639 245 1 2 84 82 362 0.999 32.34 6.29 Intr + 149926 150057 132 2 0 83 58 140 0.999 11.12 6.30 Intr + 150365 150592 228 0 0 61 19 595 0.794 47.74 6.31 Intr + 150818 150992 175 0 1 99 52 286 0.999 25.10 6.32 Intr + 151083 151177 95 0 2 108 59 149 0.999 13.61 6.33 Intr + 151366 151515 150 2 0 101 68 268 0.991 26.23 6.34 Intr + 151703 151843 141 0 0 91 69 242 0.999 22.92 6.35 Intr + 152193 152327 135 1 0 99 56 132 0.999 11.64 6.36 Intr + 154415 154546 132 0 0 103 93 155 0.974 18.12 6.37 Intr + 154811 154945 135 0 0 84 99 271 0.977 28.34 6.38 Intr + 155121 155250 130 1 1 89 72 268 0.998 25.05 6.39 Intr + 155362 155488 127 1 1 114 57 184 0.899 18.58 6.40 Intr + 155875 156026 152 0 2 51 94 264 0.999 22.26 6.41 Intr + 156117 156241 125 0 2 132 100 288 0.999 34.63 6.42 Intr + 156567 156944 378 1 0 113 61 837 0.999 78.44 6.43 Intr + 158303 158492 190 0 1 124 55 267 0.997 25.64 6.44 Intr + 161841 162045 205 0 1 92 73 399 0.984 38.00 6.45 Intr + 162356 162548 193 1 1 114 68 400 0.995 39.67 6.46 Intr + 163881 164006 126 1 0 89 78 120 0.943 11.75 6.47 Intr + 164212 164340 129 2 0 68 64 219 0.981 18.17 6.48 Intr + 164602 164721 120 2 0 105 79 189 0.973 20.17 6.49 Intr + 164935 165048 114 2 0 37 73 190 0.996 12.82 6.50 Intr + 165390 165539 150 1 0 92 80 205 0.976 20.23 6.51 Intr + 165613 165735 123 2 0 106 73 158 0.999 16.66 6.52 Intr + 166021 166137 117 2 0 73 79 140 0.998 12.04 6.53 Intr + 166307 166435 129 0 0 115 68 149 0.613 16.27 6.54 Intr + 166694 166816 123 0 0 78 77 238 0.999 22.26 6.55 Intr + 166899 167039 141 1 0 91 86 215 0.995 21.92 6.56 Intr + 167123 167313 191 0 2 138 91 332 0.999 37.80 6.57 Intr + 168018 168201 184 2 1 80 85 245 0.999 22.76 6.58 Intr + 168335 168420 86 0 2 41 81 237 0.986 17.84 6.59 Intr + 168581 168700 120 1 0 56 94 189 0.984 16.99 6.60 Intr + 169192 169379 188 0 2 114 71 251 0.993 24.49 6.61 Intr + 169501 169706 206 1 2 65 57 487 0.502 42.14 6.62 Intr + 170248 170436 189 2 0 107 101 353 0.995 38.06 6.63 Intr + 170913 171061 149 1 2 87 94 118 0.999 12.25 6.64 Intr + 171478 171571 94 0 1 81 78 208 0.997 18.64 6.65 Intr + 171735 171851 117 1 0 108 79 176 0.999 19.14 6.66 Intr + 172070 172189 120 0 0 112 78 193 0.985 21.17 6.67 Intr + 172533 172655 123 1 0 72 73 189 0.999 16.36 6.68 Intr + 172816 172941 126 2 0 80 77 221 0.998 20.85 6.69 Intr + 173457 173573 117 1 0 113 54 264 0.999 25.94 6.70 Intr + 174217 174323 107 2 2 114 64 174 0.999 17.53 6.71 Intr + 174425 174557 133 1 1 70 62 311 0.999 26.92 6.72 Intr + 175446 175565 120 1 0 53 69 268 0.999 21.87 6.73 Intr + 175663 175785 123 2 0 76 77 198 0.999 18.06 6.74 Intr + 176145 176285 141 1 0 81 85 211 0.951 20.42 6.75 Intr + 176387 176521 135 0 0 96 97 224 0.999 24.64 6.76 Intr + 176594 176713 120 0 0 96 50 270 0.999 24.47 6.77 Intr + 177509 177777 269 0 2 102 92 432 0.986 42.25 6.78 Intr + 179074 179252 179 0 2 46 35 395 0.988 28.72 6.79 Intr + 179747 179853 107 2 2 145 72 94 0.999 13.36 6.80 Intr + 180119 180235 117 0 0 122 55 279 0.999 28.44 6.81 Intr + 180728 180904 177 0 0 120 81 286 0.999 30.99 6.82 Intr + 181065 181205 141 1 0 58 68 194 0.999 14.72 6.83 Intr + 181343 181516 174 0 0 82 72 193 0.999 17.01 6.84 Intr + 181754 181915 162 0 0 67 84 250 0.999 22.45 6.85 Intr + 182212 182386 175 2 1 93 89 158 0.997 15.40 6.86 Intr + 182523 182624 102 0 0 98 81 102 0.992 9.79 6.87 Intr + 182786 182850 65 2 2 116 55 93 0.997 7.16 6.88 Intr + 182963 183053 91 0 1 135 96 72 0.998 11.75 6.89 Intr + 183153 183297 145 0 1 104 86 284 0.995 30.08 6.90 Term + 183451 183591 141 0 0 95 49 218 0.999 16.53 6.91 PlyA + 184366 184371 6 1.05 7.00 Prom + 185425 185464 40 -8.66 7.01 Init + 188006 188062 57 1 0 73 116 65 0.922 7.20 7.02 Intr + 195914 196735 822 1 0 118 75 775 0.115 70.82 7.03 Intr + 200773 200847 75 0 0 49 94 57 0.531 2.11 7.04 Intr + 201839 202036 198 1 0 106 59 129 0.764 11.35 7.05 Intr + 202517 202596 80 1 2 99 78 96 0.999 8.05 7.06 Intr + 202749 202949 201 0 0 106 81 273 0.999 26.80 7.07 Intr + 203247 203328 82 0 1 86 92 162 0.878 16.04 7.08 Intr + 203489 203611 123 1 0 82 73 235 0.967 22.18 7.09 Intr + 203740 203879 140 0 2 91 71 238 0.984 21.66 7.10 Intr + 204216 204381 166 0 1 91 47 233 0.953 19.46 7.11 Intr + 204599 204698 100 1 1 106 115 136 0.958 17.78 7.12 Intr + 204785 204940 156 0 0 109 77 271 0.998 28.08 7.13 Intr + 205039 205146 108 2 0 114 105 151 0.999 19.66 7.14 Term + 205270 205397 128 2 2 103 49 106 0.999 6.64 7.15 PlyA + 205745 205750 6 1.05 8.17 PlyA - 205949 205944 6 -3.64 8.16 Term - 206655 206599 57 0 0 100 46 91 0.783 3.79 8.15 Intr - 206845 206785 61 0 1 126 77 74 0.998 8.84 8.14 Intr - 207432 207301 132 2 0 76 88 28 0.568 1.36 8.13 Intr - 207717 207629 89 0 2 129 63 100 0.996 10.37 8.12 Intr - 213946 213743 204 1 0 81 44 110 0.877 5.30 8.11 Intr - 214946 214887 60 2 0 95 81 152 0.988 14.13 8.10 Intr - 215261 215124 138 2 0 70 96 179 0.999 17.56 8.09 Intr - 215402 215351 52 1 1 111 80 70 0.997 7.41 8.08 Intr - 215658 215573 86 0 2 80 49 94 0.992 3.32 8.07 Intr - 216001 215952 50 2 2 69 116 77 0.996 7.00 8.06 Intr - 216247 216181 67 1 1 78 101 90 0.997 7.78 8.05 Intr - 217937 217840 98 0 2 56 56 121 0.442 5.43 8.04 Intr - 219234 219162 73 0 1 85 84 102 0.999 8.48 8.03 Intr - 219839 219742 98 0 2 42 78 133 0.999 7.43 8.02 Intr - 220344 220077 268 0 1 88 69 318 0.919 27.01 8.01 Init - 220672 220607 66 1 0 60 84 23 0.851 0.17 8.00 Prom - 222839 222800 40 -4.86 9.23 PlyA - 223042 223037 6 -0.45 9.22 Term - 226149 225809 341 1 2 116 36 420 0.990 34.30 9.21 Intr - 227179 227026 154 1 1 43 97 29 0.697 -1.05 9.20 Intr - 227547 227450 98 1 2 74 110 28 0.574 3.33 9.19 Intr - 229173 229026 148 0 1 146 49 -37 0.583 -1.99 9.18 Intr - 230095 229926 170 2 2 113 109 152 0.994 19.47 9.17 Intr - 237867 237767 101 2 2 110 110 18 0.773 5.95 9.16 Intr - 239493 239339 155 0 2 112 78 59 0.855 6.17 9.15 Intr - 240118 239958 161 2 2 109 39 173 0.965 14.21 9.14 Intr - 240485 240359 127 2 1 100 99 66 0.994 9.15 9.13 Intr - 241030 240788 243 1 0 94 99 95 0.902 8.89 9.12 Intr - 251566 251394 173 2 2 89 109 87 0.989 10.56 9.11 Intr - 255092 254860 233 1 2 64 67 221 0.911 15.02 9.10 Intr - 260076 260045 32 0 2 81 92 36 0.543 0.23 9.09 Intr - 263703 263608 96 0 0 50 107 44 0.758 2.71 9.08 Intr - 266543 266435 109 1 1 63 72 108 0.920 6.99 9.07 Intr - 267587 267447 141 1 0 86 73 117 0.998 9.47 9.06 Intr - 268423 268364 60 0 0 77 108 17 0.573 0.45 9.05 Intr - 269204 269126 79 0 1 78 85 53 0.998 2.61 9.04 Intr - 270514 270388 127 1 1 101 94 101 0.999 12.25 9.03 Intr - 271217 271131 87 2 0 80 96 26 0.862 2.77 9.02 Intr - 276699 276676 24 0 0 101 76 24 0.564 0.72 9.01 Init - 281464 281300 165 1 0 60 97 94 0.516 7.13 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 195914 196783 870 1 0 118 43 839 0.875 75.04 S.002 Init - 208121 208065 57 2 0 55 84 59 0.862 3.51 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815586f:57028965_57312552|GENSCAN_predicted_peptide_1|1061_aa MEYYAAIKNDEFMSFVGTWMKLETIILSERSQGQKTKHCMFSLIGSVAPLDMPLLEGSVG VEDLVLLEPLVEESLLKNLQLRYENKEIYTYIGNVVISVNPYQQLPIYGPEFIAKYQDYT FYELKPHIYALANVAYQSLRDRDRDQCILITGESGSGKTEASKLVMSYVAAVCGKGEQVN SVKEQLLQSNPVLEAFGNAKTIRNNNSSRFGKYMDIEFDFKGSPLGGVITNYLLEKSRLV KQLKGERNFHIFYQLLAGADEQLLKALKLERDTTGYAYLNHEVSRVDGMDDASSFRAVQS AMAVIGFSEEEIRQVLEVTSMVLKLGNVLVADEFQASGIPASGIRDGRGVREIGEMVGLN SEEVERALCSRTMETAKEKVVTALNVMQAQYARDALAKNIYSRLFDWIVNRINESIKAKG PGLVCRGGLSSDLSFSPLQVGIGEKKKVMGVLDIYGFEILEDNSFEQFVINYCNEKLQQV FIEMTLKEEQEEYKREGIPWTKVDYFDNGIICKLIEHNQRGILAMLDEECLRPGVVSDST FLAKLNQLFSKHGHYESKVTQNAQRQYDHTMGLSCFRICHYAGKVTYNVTSFIDKNNDLL FRDLLQAMWKAQHPLLRSLFPEGNPKQASLKRPPTAGAQFKSSVAILMKNLYSKSPNYIR CIKPNEHQQRGQFSSDLVATQARYLGLLENVRVRRAGYAHRQGYGPFLERYRLLSRSTWP HWNGGDREGVEKVLGELSMSSGELAFGKTKIFIRSPKTLFYLEEQRRLRLQQLATLIQKI YRGWRCRTHYQLMRKSQILISSWFRGNMARKNYRKYFRSEAALTLADFIYKSMVQKFLLG LKNNLPSTNVLDKTWPAAPYKCLSTANQELQQLFYQWKATPVPPSSQCKRFRDQLSPKQV EILREKLCASELFKGKKASYPQSVPIPFCGDYIGLQGNPKLQKLKGGEEGPVLMAEAVKK VNRGNGKTSSRILLLTKGHVILTDTKKSQAKIVIGLDNVAGVSVTSLKDGLFSLHLSEMS SVGSKGDFLLVSEHVIELLTKMYRAVLDATQRQLTVTVTEN >gi568815586f:57028965_57312552|GENSCAN_predicted_CDS_1|3183_bp atggaatactatgcagccataaaaaatgatgagtttatgtcctttgtagggacatggatg aagctggaaaccatcattctcagcgaacgatcgcaaggacaaaaaaccaaacactgcatg ttctcactgataggatcagtggcccctctggacatgcctctcctggaaggttctgtgggg gtggaggatcttgtcctcctggaacccttggtggaggagtcactgctcaagaatcttcag cttcgctatgaaaacaaggagatttatacctacattgggaatgtggtgatctcagtgaat ccctatcaacagcttcccatctatgggccagagttcattgccaaatatcaagactatact ttctatgagctgaagccccatatctacgcattggcaaatgtggcgtaccagtcactgagg gacagggaccgagaccagtgtatcctcatcacaggcgagagtggatcagggaagactgag gccagcaagctggtgatgtcttatgtggctgccgtctgtgggaaaggagagcaggtgaac tctgtgaaggagcagctgctacagtctaacccagtgctggaggcttttggcaatgccaag accattcgcaacaacaattcctcccgatttggaaaatacatggatattgaatttgacttc aagggatcccccctcggtggtgtcatcacaaactatctgcttgagaaatcccgattagtg aagcagctcaaaggagaaaggaacttccacatcttctatcagctgctggctggagcagat gaacagctgctgaaggccctgaagcttgagcgggatacaactggctatgcctatctgaat catgaagtatccagagtggatggcatggacgacgcctccagcttcagggctgtacagagt gcaatggcagtgattgggttctcggaggaggagattcgacaagtgctagaggtgacatcc atggtgctaaagctggggaacgtgttggtggctgatgagttccaggccagtgggatacca gcaagtggcatccgtgatgggagaggtgttcgggagattggggagatggtgggcttgaat tcagaagaagtagagagagctttgtgctcgaggaccatggaaacagccaaggaaaaggtg gtcactgcactgaatgttatgcaggctcagtatgctcgggacgccctggctaagaacatc tacagccgcctctttgactggatagtgaatcgaatcaatgagagcatcaaggcaaaagga cctggcctggtgtgcagagggggcctgtcctcagatttatctttctctcctcttcaggtg ggcatcggggaaaagaagaaggtaatgggagtccttgatatctacggttttgagatatta gaggataatagctttgagcaatttgtgatcaactactgcaatgagaagctgcagcaggtg ttcatagagatgaccctgaaagaagagcaagaggaatataagagagaaggcataccgtgg acaaaggtggactactttgataatggcatcatttgtaagctcattgagcataatcagcga ggtatcctggccatgttggatgaggagtgcctgcggcctggggtggtcagtgactccact ttcctagcaaagctgaaccagctcttctccaagcatggccactacgagagcaaagtcacc cagaatgcccagcgtcagtatgaccacaccatgggcctcagctgcttccgcatctgccac tatgcgggcaaggtgacatacaacgtgaccagctttattgacaagaataatgacctactc ttccgagacctgttgcaggccatgtggaaggcccagcaccccctccttcggtccttgttt cctgagggcaatcctaagcaggcatctctcaaacgccccccgactgctggggcccagttc aagagttctgtggccatcctcatgaagaatctgtattccaagagccccaactacatcagg tgcataaagcccaatgagcatcagcagcgaggtcagttctcttcagacctggtggcaacc caggctcggtacctgggactgctggagaacgtacgggtgcgacgggcaggctatgcccac cgccagggttatgggcccttcctggaaaggtaccgattgctgagccggagcacctggcct cactggaatgggggagaccgggaaggtgttgagaaggtcctgggggagctgagcatgtcc tcgggggagctggcctttggcaagacaaagatcttcattagaagccccaagactcttttc tacctcgaagaacagaggcgcctgagactccagcagctggccacactcatacagaagatt taccgaggctggcgctgccgcacccactaccaactgatgcgaaagagtcagatcctcatc tcctcttggtttcggggaaacatggcccgaaagaattatcgcaaatatttccggtcagag gctgccctcaccttggcagatttcatctacaagagcatggtacagaaattcctactgggg ctgaagaacaatttgccatccacaaacgtcttagacaagacatggccagccgccccctac aagtgcctcagcacagcaaatcaggagctgcagcagctcttctaccagtggaaggcaact cctgtccctccttcctcacagtgcaagaggttccgggatcagctgtccccgaagcaggta gagatcctgagggaaaagctctgtgccagtgaactgttcaagggcaagaaggcttcatat ccccagagtgtccccattccattctgtggtgactacattgggctgcaagggaaccccaag ctgcagaagctgaaaggcggggaggaggggcctgttctgatggcagaggccgtgaagaag gtcaatcgtggcaatggcaagacttcttctcggattctcctcctgaccaagggccatgtg attctcacagacaccaagaagtcccaggccaaaattgtcattgggctagacaatgtggct ggggtgtcagtcaccagcctcaaggatgggctctttagcttgcatctgagtgagatgtca tcggtgggctccaagggggacttcctgctggtcagcgagcatgtgattgaactgctgacc aaaatgtaccgggctgtgctggatgccacgcagaggcagcttacagtcaccgtgactgag aan >gi568815586f:57028965_57312552|GENSCAN_predicted_peptide_2|103_aa MGKDFMSKTPKAMATKAKIDKWDRIKLKSFCTAKETTIRVNRQPTEWEKILAIYSSDKGL ISRIYNELQQINKKKTNNPIKEWAKDMNRHFSKEDIYAAKTYT >gi568815586f:57028965_57312552|GENSCAN_predicted_CDS_2|312_bp atgggcaaggacttcatgtctaaaacaccaaaagcaatggcaacaaaagccaaaattgac aaatgggatcgaataaaactaaagagcttctgcacagcaaaagaaactaccatccgagtg aacaggcaacctacagaatgggagaaaattcttgcaatctactcatctgacaaagggcta atatccagaatctacaatgaactccaacaaattaacaagaaaaaaacaaacaaccccatc aaagagtgggcgaaagatatgaacagacacttctcaaaagaagacatttatgcagccaaa acttacacatga >gi568815586f:57028965_57312552|GENSCAN_predicted_peptide_3|356_aa MAGGMKVAVSPAVGPGPWGSGVGGGGTVRLLLILSGCLVYGTGTARAAAAKGAAETDVNV VMLQESQVCEKRASQQFCYTNVLIPKWHDIWTRIQIRVNSSRLVRVTQVENEEKLKELEQ FSIWNFFSSFLKEKLNDTYVNVGLYSTKTCLKVEIIEKDTKYSVIVIRIGFMSFAVCYKY GPLENERSINLLTWTLQLMGLCFMYSGIQIPHIALAIIIIALCTKNLEHPIQWLYITCRK VCKGAEKPVPPRLLTEEEYRIQGEVETRKALEELREFCNSPDCSAWKTVSRIQSPKRFAD FVEGSSHLTPNEVSVHEQEYGLGSIIAQDEIYEEASSEEEDSYSRCPAITQNNFLT >gi568815586f:57028965_57312552|GENSCAN_predicted_CDS_3|1071_bp atggcgggaggaatgaaagtggcggtctcgccggcagttggtcccgggccctggggctcg ggagtcgggggcggtgggacagtgcggctactcttgatcctctccggctgcttggtctac ggcacaggtaccgcccgggcagcagctgccaagggggcagctgaaactgatgtaaatgtg gtcatgcttcaggaatcccaagtttgtgaaaagcgtgccagccaacaattctgttacaca aatgtgcttatcccaaaatggcatgatatatggacacggatacagatccgagtaaatagt tccagattggttcgagtcacccaggtggagaatgaggagaaactgaaggagctagagcag tttagtatctggaactttttttcctcctttttaaaagagaaattgaatgacacctatgtt aacgtgggtctatacagcacaaaaacctgcctcaaagttgagattatagagaaggacacc aagtacagtgtcattgtgatccggattggattcatgagttttgcagtatgttacaagtat gggcccttggagaatgaacgaagtatcaacctgctgacctggaccttgcagctgatgggc ctgtgtttcatgtattctggcatccagataccacatattgcccttgccattatcatcatt gctctttgtactaagaacctggaacaccctattcagtggctgtacatcacctgcagaaag gtgtgtaagggagcagaaaagcctgttccccctcgtctcctgacagaagaagaatatcgg atacaaggagaggtagaaacccgaaaggctttagaggagctccgagaattttgtaacagt ccagactgctctgcttggaagactgtttctcgaatccagtctccaaaaagatttgctgac tttgtggaaggctcttcccacctcacgccaaatgaagtttctgtccatgagcaggagtat ggattagggagcattattgcccaggatgaaatctatgaggaagcatcctctgaggaggag gactcatattctcggtgtcctgctatcacacagaacaactttctaacctag >gi568815586f:57028965_57312552|GENSCAN_predicted_peptide_4|550_aa MRHHAQSLSRGVSAAERPQRPPPRPPPPPPPPALPTPSARQPGSQRSSGPRSLPSARAMA LPRTLGELQLYRVLQRANLLSYYETFIQQGGDDVQQLCEAGEEEFLEIMALVGMATKPLH VRRLQKALREWATNPGLFSQPVPAVPVSSIPLFKISETAGTRKGSMSNGHGSPGEKAGSA RSFSPKSPLELGEKLSPLPGGPGAGDPRIWPGRSTPESDVGAGGEEEAGSPPFSPPAGGG VPEGTGAGGLAAGGTGGGPDRLEPEMVRMVVESVERIFRSFPRGDAGEVTSLLKLNKKLA RSVGHIFEMDDNDSQKEEEIRKYSIIYGRFDSKRREGKQLSLHELTINEAAAQFCMRDNT LLLRRVELFSLSRQVARESTYLSSLKGSRLHPEELGGPPLKKLKQEVGEQSHPEIQQPPP GPESYVPPYRPSLEEDSASLSGESLDGHLQAVGSCPRLTPPPADLPLALPAHGLWSRHIL QQTLMDEGLRLARLVSHDRVGRLSPCVPAKPPLAEFEEGLLDRCPAPGPHPALVEGRRSS VKVEAEASRQ >gi568815586f:57028965_57312552|GENSCAN_predicted_CDS_4|1653_bp atgcgccaccacgcccagtctctaagccgcggcgtctccgcggccgagaggccccagcgc ccgcctccccggcccccgcccccacccccgcccccggctctgcccacgccctccgcccgc cagcccggcagccagcgcagctccgggcctcgctccctgcccagtgcccgagccatggca ctgcctcggacgctgggggagctgcagctgtaccgggtcctgcagcgcgccaacctcctt tcctactatgagaccttcatccagcagggaggggacgacgtgcagcagctgtgtgaggcg ggtgaggaggagtttctggagatcatggcacttgtgggcatggccaccaagcccctccat gtccggcgcctgcagaaggcactgagagagtgggccaccaatccagggctcttcagtcaa ccagtgcctgctgttcccgtctccagcatcccgctcttcaagatctctgagactgcgggt acccggaaagggagcatgagcaatgggcatggcagcccaggggaaaaggcaggcagtgcc cgcagttttagccccaagagcccccttgaacttggagagaagctatcaccactgcctggg ggacctggggcaggggacccccggatctggccaggccggagcactccagagtcggacgtt ggggcaggaggagaagaggaggctggctcgccccccttctccccccctgcagggggagga gtccctgaggggactggggctggggggctggcagcaggtgggactgggggtggtccagac cgactggagccagagatggtacgcatggtggtggaaagtgtggagaggatcttccggagc ttcccaaggggggatgctggggaggtcacatccctgctaaagctgaataagaagctggca cggagcgttgggcacatctttgagatggatgataatgacagccagaaggaagaggagatc cgcaaatacagcatcatctatggccgtttcgactctaagcggcgggagggcaagcagctc agcctgcacgagctcaccatcaacgaggctgctgcccagttctgcatgagggacaacacg ctcttattacggagagtggagctcttctctttgtcccgccaagtagcccgagagagcacc tacttgtcctccttgaagggctccaggcttcaccctgaagaactgggaggccctccactg aagaagctgaaacaagaggttggagaacagagtcaccctgaaatccagcagcctccccca ggccctgagtcctatgtacccccataccgccccagcctggaggaggacagcgccagcctg tctggggagagtctggatggacatttgcaggctgtggggtcatgtccaaggctgacgccg ccccctgctgacctgcctctggcattgccagcccatgggctatggagccgacacatcctg cagcagacactgatggacgaggggctgcggctcgcccgcctcgtctcccacgaccgcgtg ggccgcctcagcccctgtgtgcctgcgaagccacctctcgcagagttcgaggaagggctg ctggacagatgtcctgccccaggaccccatcccgcgctggtggagggtcgcaggagcagc gtgaaagtggaggctgaggccagccggcagtga >gi568815586f:57028965_57312552|GENSCAN_predicted_peptide_5|903_aa MANLSFCEVKATSKSQIMSLWGLVSKMPPEKVQRLYVDFPQHLRHLLGDWLESQPWEFLV GSDAFCCNLASALLSDTVQHLQASVGEQGEGSTILQHISTLESIYQRDPLKLVATFRQIL QGEKKAVMEQFRHLPMPFHWKQEELKFKTGLRRLQHRVGEIHLLREALQKGAEAGQVSLH SLIETPANGTGPSEALAMLLQETTGELEAAKALVLKRIQIWKRQQQLAGNGAPFEESLAP LQERCESLVDIYSQLQQEVGAAGGELEPKTRASLTGRLDEVLRTLVTSCFLVEKQPPQVL KTQTKFQAGVRFLLGLRFLGAPAKPPLVRADMVTEKQARELSVPQGPGAGAESTGEIINN TVPLENSIPGNCCSALFKNLLLKKIKRCERKGTESVTEEKCAVLFSASFTLGPGKLPIQL QALSLPLVVIVHGNQDNNAKATILWDNAFSEMDRVPFVVAERVPWEKMCETLNLKFMAEV GTNRGLLPEHFLFLAQKIFNDNSLSMEAFQHRSVSWSQFNKVILLPFGPPTPKLFIPGAL RACSASMQGPSTGFSTVPPQEILLGRGFTFWQWFDGVLDLTKRCLRSYWSDRLIIGFISK QYVTSLLLNEPDGTFLLRFSDSEIGGITIAHVIRGQDGSPQIENIQPFSAKDLSIRSLGD RIRDLAQLKNLYPKKPKDEAFRSHYKPEQMGKDGRGYVPATIKMTVERDQPLPTPELQMP TMVPSYDLGMAPDSSMSMQLGPDMVPQVYPPHSHSIPPYQGLSPEESVNVLSAFQEPHLQ MPPSLGQMSLPFDQPHPQGLLPCQPQEHAVSSPDPLLCSDVTMVEDSCLSQPVTAFPQGT WIGEDIFPPLLPPTEQDLTKLLLEGQGESGGGSLGAQPLLQPSHYGQSGISMSHMDLRAN PSW >gi568815586f:57028965_57312552|GENSCAN_predicted_CDS_5|2712_bp atggctaacttgtccttctgtgaagtaaaggcaacctccaagtcccagatcatgtctctg tggggtctggtctccaagatgcccccagaaaaagtgcagcggctctatgtcgactttccc caacacctgcggcatcttctgggtgactggctggagagccagccctgggagttcctggtc ggctccgacgccttctgctgcaacttggctagtgccctactttcagacactgtccagcac cttcaggcctcggtgggagagcagggggaggggagcaccatcttgcaacacatcagcacc cttgagagcatatatcagagggaccccctgaagctggtggccactttcagacaaatactt caaggagagaaaaaagctgttatggaacagttccgccacttgccaatgcctttccactgg aagcaggaagaactcaagtttaagacaggcttgcggaggctgcagcaccgagtaggggag atccaccttctccgagaagccctgcagaagggggctgaggctggccaagtgtctctgcac agcttgatagaaactcctgctaatgggactgggccaagtgaggccctggccatgctactg caggagaccactggagagctagaggcagccaaagccctagtgctgaagaggatccagatt tggaaacggcagcagcagctggcagggaatggcgcaccgtttgaggagagcctggcccca ctccaggagaggtgtgaaagcctggtggacatttattcccagctacagcaggaggtaggg gcggctggtggggagcttgagcccaagacccgggcatcgctgactggccggctggatgaa gtcctgagaaccctcgtcaccagttgcttcctggtggagaagcagcccccccaggtactg aagactcagaccaagttccaggctggagttcgattcctgttgggcttgaggttcctgggg gccccagccaagcctccgctggtcagggccgacatggtgacagagaagcaggcgcgggag ctgagtgtgcctcagggtcctggggctggagcagaaagcactggagaaatcatcaacaac actgtgcccttggagaacagcattcctgggaactgctgctctgccctgttcaagaacctg cttctcaagaagatcaagcggtgtgagcggaagggcactgagtctgtcacagaggagaag tgcgctgtgctcttctctgccagcttcacacttggccccggcaaactccccatccagctc caggccctgtctctgcccctggtggtcatcgtccatggcaaccaagacaacaatgccaaa gccactatcctgtgggacaatgccttctctgagatggaccgcgtgccctttgtggtggct gagcgggtgccctgggagaagatgtgtgaaactctgaacctgaagttcatggctgaggtg gggaccaaccgggggctgctcccagagcacttcctcttcctggcccagaagatcttcaat gacaacagcctcagtatggaggccttccagcaccgttctgtgtcctggtcgcagttcaac aaggtcattctcctgccctttggacctcccacccccaagctcttcatccctggggcactc agggcctgctcagcctccatgcagggaccttccactggattctccacagtgccccctcag gagatcctgctgggccgtggcttcaccttttggcagtggtttgatggtgtcctggacctc accaaacgctgtctccggagctactggtctgaccggctgatcattggcttcatcagcaaa cagtacgttactagccttcttctcaatgagcccgacggaacctttctcctccgcttcagc gactcagagattgggggcatcaccattgcccatgtcatccggggccaggatggctctcca cagatagagaacatccagccattctctgccaaagacctgtccattcgctcactgggggac cgaatccgggatcttgctcagctcaaaaatctctatcccaagaagcccaaggatgaggct ttccggagccactacaagcctgaacagatgggtaaggatggcaggggttatgtcccagct accatcaagatgaccgtggaaagggaccaaccacttcctaccccagagctccagatgcct accatggtgccttcttatgaccttggaatggcccctgattcctccatgagcatgcagctt ggcccagatatggtgccccaggtgtacccaccacactctcactccatccccccgtatcaa ggcctctccccagaagaatcagtcaacgtgttgtcagccttccaggagcctcacctgcag atgccccccagcctgggccagatgagcctgccctttgaccagcctcacccccagggcctg ctgccgtgccagcctcaggagcatgctgtgtccagccctgaccccctgctctgctcagat gtgaccatggtggaagacagctgcctgagccagccagtgacagcgtttcctcagggcact tggattggtgaagacatattccctcctctgctgcctcccactgaacaggacctcactaag cttctcctggaggggcaaggggagtcggggggagggtccttgggggcacagcccctcctg cagccctcccactatgggcaatctgggatctcaatgtcccacatggacctaagggccaac cccagttggtga >gi568815586f:57028965_57312552|GENSCAN_predicted_peptide_6|4575_aa MLTPPLLLLLPLLSALVAAAIDGPPALRVGSLLLGHLGAAEWYCRKAPDLVVLAPKTCSP KQFACRDQITCISKGWRCDGERDCPDGSDEAPEICPQSKAQRCQPNEHNCLGTELCVPMS RLCNGVQDCMDGSDEGPHCRELQGNCSRLGCQHHCVPTLDGPTCYCNSSFQLQADGKTCK DFDECSVYGTCSQLCTNTDGSFICGCVEGYLLQPDNRSCKAKNEPVDRPPVLLIANSQNI LATYLSGAQVSTITPTSTRQTTAMDFSYANETVCWVHVGDSAAQTQLKCARMPGLKGFVD EHTINISLSLHHVEQMAIDWLTGNFYFVDDIDDRIFVCNRNGDTCVTLLDLELYNPKGIA LDPAMGKVFFTDYGQIPKVERCDMDGQNRTKLVDSKIVFPHGITLDLVSRLVYWADAYLD YIEVVDYEGKGRQTIIQGILIEHLYGLTVFENYLYATNSDNANAQQKTSVIRVNRFNSTE YQVVTRVDKGGALHIYHQRRQPRVRSHACENDQYGKPGGCSDICLLANSHKARTCRCRSG FSLGSDGKSCKKPEHELFLVYGKGRPGIIRGMDMGAKVPDEHMIPIENLMNPRALDFHAE TGFIYFADTTSYLIGRQKIDGTERETILKDGIHNVEGVAVDWMGDNLYWTDDGPKKTISV ARLEKAAQTRKTLIEGKMTHPRAIVVDPLNGWMYWTDWEEDPKDSRRGRLERAWMDGSHR DIFVTSKTVLWPNGLSLDIPAGRLYWVDAFYDRIETILLNGTDRKIVYEGPELNHAFGLC HHGNYLFWTEYRSGSVYRLERGVGGAPPTVTLLRSERPPIFEIRMYDAQQQQVGTNKCRV NNGGCSSLCLATPGSRQCACAEDQVLDADGVTCLANPSYVPPPQCQPGEFACANSRCIQE RWKCDGDNDCLDNSDEAPALCHQHTCPSDRFKCENNRCIPNRWLCDGDNDCGNSEDESNA TCSARTCPPNQFSCASGRCIPISWTCDLDDDCGDRSDESASCAYPTCFPLTQFTCNNGRC ININWRCDNDNDCGDNSDEAGCSHSCSSTQFKCNSGRCIPEHWTCDGDNDCGDYSDETHA NCTNQATRPPGGCHTDEFQCRLDGLCIPLRWRCDGDTDCMDSSDEKSCEGVTHVCDPSVK FGCKDSARCISKAWVCDGDNDCEDNSDEENCESLACRPPSHPCANNTSVCLPPDKLCDGN DDCGDGSDEGELCDQCSLNNGGCSHNCSVAPGEGIVCSCPLGMELGPDNHTCQIQSYCAK HLKCSQKCDQNKFSVKCSCYEGWVLEPDGESCRSLDPFKPFIIFSNRHEIRRIDLHKGDY SVLVPGLRNTIALDFHLSQSALYWTDVVEDKIYRGKLLDNGALTSFEVVIQYGLATPEGL AVDWIAGNIYWVESNLDQIEVAKLDGTLRTTLLAGDIEHPRAIALDPRDGILFWTDWDAS LPRIEAASMSGAGRRTVHRETGSGGWPNGLTVDYLEKRILWIDARSDAIYSARYDGSGHM EVLRGHEFLSHPFAVTLYGGEVYWTDWRTNTLAKANKWTGHNVTVVQRTNTQPFDLQVYH PSRQPMAPNPCEANGGQGPCSHLCLINYNRTVSCACPHLMKLHKDNTTCYEFKKFLLYAR QMEIRGVDLDAPYYNYIISFTVPDIDNVTVLDYDAREQRVYWSDVRTQAIKRAFINGTGV ETVVSADLPNAHGLAVDWVSRNLFWTSYDTNKKQINVARLDGSFKNAVVQGLEQPHGLVV HPLRGKLYWTDGDNISMANMDGSNRTLLFSGQKGPVGLAIDFPESKLYWISSGNHTINRC NLDGSGLEVIDAMRSQLGKATALAIMGDKLWWADQVSEKMGTCSKADGSGSVVLRNSTTL VMHMKVYDESIQLDHKGTNPCSVNNGDCSQLCLPTSETTRSCMCTAGYSLRSGQQACEGV GSFLLYSVHEGIRGIPLDPNDKSDALVPVSGTSLAVGIDFHAENDTIYWVDMGLSTISRA KRDQTWREDVVTNGIGRVEGIAVDWIAGNIYWTDQGFDVIEVARLNGSFRYVVISQGLDK PRAITVHPEKGYLFWTEWGQYPRIERSRLDGTERVVLVNVSISWPNGISVDYQDGKLYWC DARTDKIERIDLETGENREVVLSSNNMDMFSVSVFEDFIYWSDRTHANGSIKRGSKDNAT DSVPLRTGIGVQLKDIKVFNRDRQKGTNVCAVANGGCQQLCLYRGRGQRACACAHGMLAE DGASCREYAGYLLYSERTILKSIHLSDERNLNAPVQPFEDPEHMKNVIALAFDYRAGTSP GTPNRIFFSDIHFGNIQQINDDGSRRITIVENVGSVEGLAYHRGWDTLYWTSYTTSTITR HTVDQTRPGAFERETVITMSGDDHPRAFVLDECQNLMFWTNWNEQHPSIMRAALSGANVL TLIEKDIRTPNGLAIDHRAEKLYFSDATLDKIERCEYDGSHRYVILKSEPVHPFGLAVYG EHIFWTDWVRRAVQRANKHVGSNMKLLRVDIPQQPMGIIAVANDTNSCELSPCRINNGGC QDLCLLTHQGHVNCSCRGGRILQDDLTCRAVNSSCRAQDEFECANGECINFSLTCDGVPH CKDKSDEKPSYCNSRRCKKTFRQCSNGRCVSNMLWCNGADDCGDGSDEIPCNKTACGVGE FRCRDGTCIGNSSRCNQFVDCEDASDEMNCSATDCSSYFRLGVKGVLFQPCERTSLCYAP SWVCDGANDCGDYSDERDCPGVKRPRCPLNYFACPSGRCIPMSWTCDKEDDCEHGEDETH CNKFCSEAQFECQNHRCISKQWLCDGSDDCGDGSDEAAHCEGKTCGPSSFSCPGTHVCVP ERWLCDGDKDCADGADESIAAGCLYNSTCDDREFMCQNRQCIPKHFVCDHDRDCADGSDE SPECEYPTCGPSEFRCANGRCLSSRQWECDGENDCHDQSDEAPKNPHCTSQEHKCNASSQ FLCSSGRCVAEALLCNGQDDCGDSSDERGCHINECLSRKLSGCSQDCEDLKIGFKCRCRP GFRLKDDGRTCADVDECSTTFPCSQRCINTHGSYKCLCVEGYAPRGGDPHSCKAVTDEEP FLIFANRYYLRKLNLDGSNYTLLKQGLNNAVALDFDYREQMIYWTDVTTQGSMIRRMHLN GSNVQVLHRTGLSNPDGLAVDWVGGNLYWCDKGRDTIEVSKLNGAYRTVLVSSGLREPRA LVVDVQNGYLYWTDWGDHSLIGRIGMDGSSRSVIVDTKITWPNGLTLDYVTERIYWADAR EDYIEFASLDGSNRHVVLSQDIPHIFALTLFEDYVYWTDWETKSINRAHKTTGTNKTLLI STLHRPMDLHVFHALRQPDVPNHPCKVNNGGCSNLCLLSPGGGHKCACPTNFYLGSDGRT CVSNCTASQFVCKNDKCIPFWWKCDTEDDCGDHSDEPPDCPEFKCRPGQFQCSTGICTNP AFICDGDNDCQDNSDEANCDIHVCLPSQFKCTNTNRCIPGIFRCNGQDNCGDGEDERDCP EVTCAPNQFQCSITKRCIPRVWVCDRDNDCVDGSDEPANCTQMTCGVDEFRCKDSGRCIP ARWKCDGEDDCGDGSDEPKEECDERTCEPYQFRCKNNRCVPGRWQCDYDNDCGDNSDEES CTPRPCSESEFSCANGRCIAGRWKCDGDHDCADGSDEKDCTPRCDMDQFQCKSGHCIPLR WRCDADADCMDGSDEEACGTGVRTCPLDEFQCNNTLCKPLAWKCDGEDDCGDNSDENPEE CARFVCPPNRPFRCKNDRVCLWIGRQCDGTDNCGDGTDEEDCEPPTAHTTHCKDKKEFLC RNQRCLSSSLRCNMFDDCGDGSDEEDCSIDPKLTSCATNASICGDEARCVRTEKAAYCAC RSGFHTVPGQPGCQDINECLRFGTCSQLCNNTKGGHLCSCARNFMKTHNTCKAEGSEYQV LYIADDNEIRSLFPGHPHSAYEQAFQGDESVRIDAMDVHVKAGRVYWTNWHTGTISYRSL PPAAPPTTSNRHRRQIDRGVTHLNISGLKMPRGIAIDWVAGNVYWTDSGRDVIEVAQMKG ENRKTLISGMIDEPHAIVVDPLRGTMYWSDWGNHPKIETAAMDGTLRETLVQDNIQWPTG LAVDYHNERLYWADAKLSVIGSIRLNGTDPIVAADSKRGLSHPFSIDVFEDYIYGVTYIN NRVFKIHKFGHSPLVNLTGGLSHASDVVLYHQHKQPEVTNPCDRKKCEWLCLLSPSGPVC TCPNGKRLDNGTCVPVPSPTPPPDAPRPGTCNLQCFNGGSCFLNARRQPKCRCQPRYTGD KCELDQCWEHCRNGGTCAASPSGMPTCRCPTGFTGPKCTQQVCAGYCANNSTCTVNQGNQ PQCRCLPGFLGDRCQYRQCSGYCENFGTCQMAADGSRQCRCTAYFEGSRCEVNKCSRCLE GACVVNKQSGDVTCNCTDGRVAPSCLTCVGHCSNGGSCTMNSKMMPECQCPPHMTGPRCE EHVFSQQQPGHIASILIPLLLLLLLVLVAGVVFWYKRRVQGAKGFQHQRMTNGAMNVEIG NPTYKMYEGGEPDDVGGLLDADFALDPDKPTNFTNPVYATLYMGGHGSRHSLASTDEKRE LLGRGPEDEIGDPLA >gi568815586f:57028965_57312552|GENSCAN_predicted_CDS_6|13728_bp atgctgaccccgccgttgctcctgctgctgcccctgctctcagctctggtcgcggcggct atcgacggtcctccagctctgcgtgtgggctcattgctcttggggcatctgggtgcagct gaatggtactgcaggaaggcccctgacttggtagtgctggcccctaagacttgcagcccc aagcagtttgcctgcagagatcaaataacctgtatctcaaagggctggcggtgcgacggt gagagggactgcccagacggatctgacgaggcccctgagatttgtccacagagtaaggcc cagcgatgccagccaaacgagcataactgcctgggtactgagctgtgtgttcccatgtcc cgcctctgcaatggggtccaggactgcatggacggctcagatgaggggccccactgccga gagctccaaggcaactgctctcgcctgggctgccagcaccattgtgtccccacactcgat gggcccacctgctactgcaacagcagctttcagcttcaggcagatggcaagacctgcaaa gattttgatgagtgctcagtgtacggcacctgcagccagctatgcaccaacacagacggc tccttcatatgtggctgtgttgaaggatacctcctgcagccggataaccgctcctgcaag gccaagaacgagccagtagaccggccccctgtgctgttgatagccaactcccagaacatc ttggccacgtacctgagtggggcccaggtgtctaccatcacacctacgagcacgcggcag accacagccatggacttcagctatgccaacgagaccgtatgctgggtgcatgttggggac agtgctgctcagacgcagctcaagtgtgcccgcatgcctggcctaaagggcttcgtggat gagcacaccatcaacatctccctcagtctgcaccacgtggaacagatggccatcgactgg ctgacaggcaacttctactttgtggatgacatcgatgataggatctttgtctgcaacaga aatggggacacatgtgtcacattgctagacctggaactctacaaccccaagggcattgcc ctggaccctgccatggggaaggtgtttttcactgactatgggcagatcccaaaggtggaa cgctgtgacatggatgggcagaaccgcaccaagctcgtcgacagcaagattgtgtttcct catggcatcacgctggacctggtcagccgccttgtctactgggcagatgcctatctggac tatattgaagtggtggactatgagggcaagggccgccagaccatcatccagggcatcctg attgagcacctgtacggcctgactgtgtttgagaattatctctatgccaccaactcggac aatgccaatgcccagcagaagacgagtgtgatccgtgtgaaccgctttaacagcaccgag taccaggttgtcacccgggtggacaagggtggtgccctccacatctaccaccagaggcgt cagccccgagtgaggagccatgcctgtgaaaacgaccagtatgggaagccgggtggctgc tctgacatctgcctgctggccaacagccacaaggcgcggacctgccgctgccgttccggc ttcagcctgggcagtgacgggaagtcatgcaagaagccggagcatgagctgttcctcgtg tatggcaagggccggccaggcatcatccggggcatggatatgggggccaaggtcccggat gagcacatgatccccattgaaaacctcatgaacccccgagccctggacttccacgctgag accggcttcatctactttgccgacaccaccagctacctcattggccgccagaagattgat ggcactgagcgggagaccatcctgaaggacggcatccacaatgtggagggtgtggccgtg gactggatgggagacaatctgtactggacggacgatgggcccaaaaagacaatcagcgtg gccaggctggagaaagctgctcagacccgcaagactttaatcgagggcaaaatgacacac cccagggctattgtggtggatccactcaatgggtggatgtactggacagactgggaggag gaccccaaggacagtcggcgtgggcggctggagagggcgtggatggatggctcacaccga gacatctttgtcacctccaagacagtgctttggcccaatgggctaagcctggacatcccg gctgggcgcctctactgggtggatgccttctacgaccgcatcgagacgatactgctcaat ggcacagaccggaagattgtgtatgaaggtcctgagctgaaccacgcctttggcctgtgt caccatggcaactacctcttctggactgagtatcggagtggcagtgtctaccgcttggaa cggggtgtaggaggcgcaccccccactgtgacccttctgcgcagtgagcggccccccatc tttgagatccgaatgtatgatgcccagcagcagcaagttggcaccaacaaatgccgggtg aacaatggcggctgcagcagcctgtgcttggccacccctgggagccgccagtgcgcctgt gctgaggaccaggtgttggacgcagacggcgtcacttgcttggcgaacccatcctacgtg cctccaccccagtgccagccaggcgagtttgcctgtgccaacagccgctgcatccaggag cgctggaagtgtgacggagacaacgattgcctggacaacagtgatgaggccccagccctc tgccatcagcacacctgcccctcggaccgattcaagtgcgagaacaaccggtgcatcccc aaccgctggctctgcgacggggacaatgactgtgggaacagtgaagatgagtccaatgcc acttgttcagcccgcacctgcccccccaaccagttctcctgtgccagtggccgctgcatc cccatctcctggacgtgtgatctggatgacgactgtggggaccgctctgatgagtctgct tcgtgtgcctatcccacctgcttccccctgactcagtttacctgcaacaatggcagatgt atcaacatcaactggagatgcgacaatgacaatgactgtggggacaacagtgacgaagcc ggctgcagccactcctgttctagcacccagttcaagtgcaacagcgggcgttgcatcccc gagcactggacctgcgatggggacaatgactgcggagactacagtgatgagacacacgcc aactgcaccaaccaggccacgaggccccctggtggctgccacactgatgagttccagtgc cggctggatggactatgcatccccctgcggtggcgctgcgatggggacactgactgcatg gactccagcgatgagaagagctgtgagggagtgacccacgtctgcgatcccagtgtcaag tttggctgcaaggactcagctcggtgcatcagcaaagcgtgggtgtgtgatggcgacaat gactgtgaggataactcggacgaggagaactgcgagtccctggcctgcaggccaccctcg cacccttgtgccaacaacacctcagtctgcctgccccctgacaagctgtgtgatggcaac gacgactgtggcgacggctcagatgagggcgagctctgcgaccagtgctctctgaataac ggtggctgcagccacaactgctcagtggcacctggcgaaggcattgtgtgttcctgccct ctgggcatggagctggggcccgacaaccacacctgccagatccagagctactgtgccaag catctcaaatgcagccaaaagtgcgaccagaacaagttcagcgtgaagtgctcctgctac gagggctgggtcctggaacctgacggcgagagctgccgcagcctggaccccttcaagccg ttcatcattttctccaaccgccatgaaatccggcgcatcgatcttcacaaaggagactac agcgtcctggtgcccggcctgcgcaacaccatcgccctggacttccacctcagccagagc gccctctactggaccgacgtggtggaggacaagatctaccgcgggaagctgctggacaac ggagccctgactagtttcgaggtggtgattcagtatggcctggccacacccgagggcctg gctgtagactggattgcaggcaacatctactgggtggagagtaacctggatcagatcgag gtggccaagctggatgggaccctccggaccaccctgctggccggtgacattgagcaccca agggcaatcgcactggatccccgggatgggatcctgttttggacagactgggatgccagc ctgccccgcattgaggcagcctccatgagtggggctgggcgccgcaccgtgcaccgggag accggctctgggggctggcccaacgggctcaccgtggactacctggagaagcgcatcctt tggattgacgccaggtcagatgccatttactcagcccgttacgacggctctggccacatg gaggtgcttcggggacacgagttcctgtcgcacccgtttgcagtgacgctgtacgggggg gaggtctactggactgactggcgaacaaacacactggctaaggccaacaagtggaccggc cacaatgtcaccgtggtacagaggaccaacacccagccctttgacctgcaggtgtaccac ccctcccgccagcccatggctcccaatccctgtgaggccaatgggggccagggcccctgc tcccacctgtgtctcatcaactacaaccggaccgtgtcctgcgcctgcccccacctcatg aagctccacaaggacaacaccacctgctatgagtttaagaagttcctgctgtacgcacgt cagatggagatccgaggtgtggacctggatgctccctactacaactacatcatctccttc acggtgcccgacatcgacaacgtcacagtgctagactacgatgcccgcgagcagcgtgtg tactggtctgacgtgcggacacaggccatcaagcgggccttcatcaacggcacaggcgtg gagacagtcgtctctgcagacttgccaaatgcccacgggctggctgtggactgggtctcc cgaaacctgttctggacaagctatgacaccaataagaagcagatcaatgtggcccggctg gatggctccttcaagaacgcagtggtgcagggcctggagcagccccatggccttgtcgtc caccctctgcgtgggaagctctactggaccgatggtgacaacatcagcatggccaacatg gatggcagcaatcgcaccctgctcttcagtggccagaagggccccgtgggcctggctatt gacttccctgaaagcaaactctactggatcagctccgggaaccataccatcaaccgctgc aacctggatgggagtgggctggaggtcatcgatgccatgcggagccagctgggcaaggcc accgccctggccatcatgggggacaagctgtggtgggctgatcaggtgtcggaaaagatg ggcacatgcagcaaggctgacggctcgggctccgtggtccttcggaacagcaccaccctg gtgatgcacatgaaggtctatgacgagagcatccagctggaccataagggcaccaacccc tgcagtgtcaacaacggtgactgctcccagctctgcctgcccacgtcagagacgacccgc tcctgcatgtgcacagccggctatagcctccggagtggccagcaggcctgcgagggcgta ggttcctttctcctgtactctgtgcatgagggaatcaggggaattcccctggatcccaat gacaagtcagatgccctggtcccagtgtccgggacctcgctggctgtcggcatcgacttc cacgctgaaaatgacaccatctactgggtggacatgggcctgagcacgatcagccgggcc aagcgggaccagacgtggcgtgaagacgtggtgaccaatggcattggccgtgtggagggc attgcagtggactggatcgcaggcaacatctactggacagaccagggctttgatgtcatc gaggtcgcccggctcaatggctccttccgctacgtggtgatctcccagggtctagacaag ccccgggccatcaccgtccacccggagaaagggtacttgttctggactgagtggggtcag tatccgcgtattgagcggtctcggctagatggcacggagcgtgtggtgctggtcaacgtc agcatcagctggcccaacggcatctcagtggactaccaggatgggaagctgtactggtgc gatgcacggacagacaagattgaacggatcgacctggagacaggtgagaaccgcgaggtg gttctgtccagcaacaacatggacatgttttcagtgtctgtgtttgaggatttcatctac tggagtgacaggactcatgccaacggctctatcaagcgcgggagcaaagacaatgccaca gactccgtgcccctgcgaaccggcatcggcgtccagcttaaagacatcaaagtcttcaac cgggaccggcagaaaggcaccaacgtgtgcgcggtggccaatggcgggtgccagcagctg tgcctgtaccggggccgtgggcagcgggcctgcgcctgtgcccacgggatgctggctgaa gacggagcatcgtgccgcgagtatgccggctacctgctctactcagagcgcaccattctc aagagtatccacctgtcggatgagcgcaacctcaatgcgcccgtgcagcccttcgaggac cctgagcacatgaagaacgtcatcgccctggcctttgactaccgggcaggcacctctccg ggcacccccaatcgcatcttcttcagcgacatccactttgggaacatccaacagatcaac gacgatggctccaggaggatcaccattgtggaaaacgtgggctccgtggaaggcctggcc tatcaccgtggctgggacactctctattggacaagctacacgacatccaccatcacgcgc cacacagtggaccagacccgcccaggggccttcgagcgtgagaccgtcatcactatgtct ggagatgaccacccacgggccttcgttttggacgagtgccagaacctcatgttctggacc aactggaatgagcagcatcccagcatcatgcgggcggcgctctcgggagccaatgtcctg acccttatcgagaaggacatccgtacccccaatggcctggccatcgaccaccgtgccgag aagctctacttctctgacgccaccctggacaagatcgagcggtgcgagtatgacggctcc caccgctatgtgatcctaaagtcagagcctgtccaccccttcgggctggccgtgtatggg gagcacattttctggactgactgggtgcggcgggcagtgcagcgggccaacaagcacgtg ggcagcaacatgaagctgctgcgcgtggacatcccccagcagcccatgggcatcatcgcc gtggccaacgacaccaacagctgtgaactctctccatgccgaatcaacaacggtggctgc caggacctgtgtctgctcactcaccagggccatgtcaactgctcatgccgagggggccga atcctccaggatgacctcacctgccgagcggtgaattcctcttgccgagcacaagatgag tttgagtgtgccaatggcgagtgcatcaacttcagcctgacctgcgacggcgtcccccac tgcaaggacaagtccgatgagaagccatcctactgcaactcccgccgctgcaagaagact ttccggcagtgcagcaatgggcgctgtgtgtccaacatgctgtggtgcaacggggccgac gactgtggggatggctctgacgagatcccttgcaacaagacagcctgtggtgtgggcgag ttccgctgccgggacgggacctgcatcgggaactccagccgctgcaaccagtttgtggat tgtgaggacgcctcagatgagatgaactgcagtgccaccgactgcagcagctacttccgc ctgggcgtgaagggcgtgctcttccagccctgcgagcggacctcactctgctacgcaccc agctgggtgtgtgatggcgccaatgactgtggggactacagtgatgagcgcgactgccca ggtgtgaaacgccccagatgccctctgaattacttcgcctgccctagtgggcgctgcatc cccatgagctggacgtgtgacaaagaggatgactgtgaacatggcgaggacgagacccac tgcaacaagttctgctcagaggcccagtttgagtgccagaaccatcgctgcatctccaag cagtggctgtgtgacggcagcgatgactgtggggatggctcagacgaggctgctcactgt gaaggcaagacgtgcggcccctcctccttctcctgccctggcacccacgtgtgcgtcccc gagcgctggctctgtgacggtgacaaagactgtgctgatggtgcagacgagagcatcgca gctggttgcttgtacaacagcacttgtgacgaccgtgagttcatgtgccagaaccgccag tgcatccccaagcacttcgtgtgtgaccacgaccgtgactgtgcagatggctctgatgag tcccccgagtgtgagtacccgacctgcggccccagtgagttccgctgtgccaatgggcgc tgtctgagctcccgccagtgggagtgtgatggcgagaatgactgccacgaccagagtgac gaggctcccaagaacccacactgcaccagccaagagcacaagtgcaatgcctcgtcacag ttcctgtgcagcagtgggcgctgtgtggctgaggcactgctctgcaacggccaggatgac tgtggcgacagctcggacgagcgtggctgccacatcaatgagtgtctcagccgcaagctc agtggctgcagccaggactgtgaggacctcaagatcggcttcaagtgccgctgtcgccct ggcttccggctgaaggacgacggccggacgtgtgctgatgtggacgagtgcagcaccacc ttcccctgcagccagcgctgcatcaacactcatggcagctataagtgtctgtgtgtggag ggctatgcaccccgcggcggcgacccccacagctgcaaggctgtgactgacgaggaaccg tttctgatcttcgccaaccggtactacctgcgcaagctcaacctggacgggtccaactac acgttacttaagcagggcctgaacaacgccgttgccttggattttgactaccgagagcag atgatctactggacagatgtgaccacccagggcagcatgatccgaaggatgcaccttaac gggagcaatgtgcaggtcctacaccgtacaggcctcagcaaccccgatgggctggctgtg gactgggtgggtggcaacctgtactggtgcgacaaaggccgggacaccatcgaggtgtcc aagctcaatggggcctatcggacggtgctggtcagctctggcctccgtgagcccagggct ctggtggtggatgtgcagaatgggtacctgtactggacagactggggtgaccattcactg atcggccgcatcggcatggatgggtccagccgcagcgtcatcgtggacaccaagatcaca tggcccaatggcctgacgctggactatgtcactgagcgcatctactgggccgacgcccgc gaggactacattgaatttgccagcctggatggctccaatcgccacgttgtgctgagccag gacatcccgcacatctttgcactgaccctgtttgaggactacgtctactggaccgactgg gaaacaaagtccattaaccgagcccacaagaccacgggcaccaacaaaacgctcctcatc agcacgctgcaccggcccatggacctgcatgtcttccatgccctgcgccagccagacgtg cccaatcacccctgcaaggtcaacaatggtggctgcagcaacctgtgcctgctgtccccc gggggagggcacaaatgtgcctgccccaccaacttctacctgggcagcgatgggcgcacc tgtgtgtccaactgcacggctagccagtttgtatgcaagaacgacaagtgcatccccttc tggtggaagtgtgacaccgaggacgactgcggggaccactcagacgagcccccggactgc cctgagttcaagtgccggcccggacagttccagtgctccacaggtatctgcacaaaccct gccttcatctgcgatggcgacaatgactgccaggacaacagtgacgaggccaactgtgac atccacgtctgcttgcccagtcagttcaaatgcaccaacaccaaccgctgtattcccggc atcttccgctgcaatgggcaggacaactgcggagatggggaggatgagagggactgcccc gaggtgacctgcgcccccaaccagttccagtgctccattaccaaacggtgcatcccccgg gtctgggtctgcgaccgggacaatgactgtgtggatggcagtgatgagcccgccaactgc acccagatgacctgtggtgtggacgagttccgctgcaaggattcgggccgctgcatccca gcgcgttggaagtgtgacggagaggatgactgtggggatggctcggatgagcccaaggaa gagtgtgatgaacgcacctgtgagccataccagttccgctgcaagaacaaccgctgcgtg cccggccgctggcagtgcgactacgacaacgattgcggtgacaactccgatgaagagagc tgcacccctcggccctgctccgagagtgagttctcctgtgccaacggccgctgcatcgcg gggcgctggaaatgcgatggagaccacgactgcgcggacggctcggacgagaaagactgc accccccgctgtgacatggaccagttccagtgcaagagcggccactgcatccccctgcgc tggcgctgtgacgcagacgccgactgcatggacggcagcgacgaggaggcctgcggcact ggcgtgcggacctgccccctggacgagttccagtgcaacaacaccttgtgcaagccgctg gcctggaagtgcgatggcgaggatgactgtggggacaactcagatgagaaccccgaggag tgtgcccggttcgtgtgccctcccaaccggcccttccgttgcaagaatgaccgcgtctgt ctgtggatcgggcgccaatgcgatggcacggacaactgtggggatgggactgatgaagag gactgtgagccccccacagcccacaccacccactgcaaagacaagaaggagtttctgtgc cggaaccagcgctgcctctcctcctccctgcgctgcaacatgttcgatgactgcggggac ggctctgacgaggaggactgcagcatcgaccccaagctgaccagctgcgccaccaatgcc agcatctgtggggacgaggcacgctgcgtgcgcaccgagaaagcggcctactgtgcctgc cgctcgggcttccacaccgtgcccggccagcccggatgccaagacatcaacgagtgcctg cgcttcggcacctgctcccagctctgcaacaacaccaagggcggccacctctgcagctgc gctcggaacttcatgaagacgcacaacacctgcaaggccgaaggctctgagtaccaggtc ctgtacatcgctgatgacaatgagatccgcagcctgttccccggccacccccattcggct tacgagcaggcattccagggtgacgagagtgtccgcattgatgctatggatgtccatgtc aaggctggccgtgtctattggaccaactggcacacgggcaccatctcctaccgcagcctg ccacctgctgcgcctcctaccacttccaaccgccaccggcgacagattgaccggggtgtc acccacctcaacatttcagggctgaagatgcccagaggcatcgccatcgactgggtggcc ggaaacgtgtactggaccgactcgggccgagatgtgattgaggtggcgcagatgaagggc gagaaccgcaagacgctcatctcgggcatgattgacgagccccacgccattgtggtggac ccactgagggggaccatgtactggtcagactggggcaaccaccccaagattgagacggca gcgatggatgggacgcttcgggagacactggtgcaggacaacattcagtggcccacaggc ctggccgtggattatcacaatgagcggctgtactgggcagacgccaagctttcagtcatc ggcagcatccggctcaatggcacggaccccattgtggctgctgacagcaaacgaggccta agtcaccccttcagcatcgacgtctttgaggattacatctatggtgtcacctacatcaat aatcgtgtcttcaagatccataagtttggccacagccccttggtcaacctgacagggggc ctgagccacgcctctgacgtggtcctttaccatcagcacaagcagcccgaagtgaccaac ccatgtgaccgcaagaaatgcgagtggctctgcctgctgagccccagtgggcctgtctgc acctgtcccaatgggaagcggctggacaacggcacatgcgtgcctgtgccctctccaacg ccccccccagatgctccccggcctggaacctgtaacctgcagtgcttcaacggtggcagc tgtttcctcaatgcacggaggcagcccaagtgccgctgccaaccccgctacacgggtgac aagtgtgaactggaccagtgctgggagcactgtcgcaatgggggcacctgtgctgcctcc ccctctggcatgcccacgtgccggtgccccacgggcttcacgggccccaaatgcacccag caggtgtgtgcgggctactgtgccaacaacagcacctgcactgtcaaccagggcaaccag ccccagtgccgatgcctacccggcttcctgggcgaccgctgccagtaccggcagtgctct ggctactgtgagaactttggcacatgccagatggctgctgatggctcccgacaatgccgc tgcactgcctactttgagggatcgaggtgtgaggtgaacaagtgcagccgctgtctcgaa ggggcctgtgtggtcaacaagcagagtggggatgtcacctgcaactgcacggatggccgg gtggcccccagctgtctgacctgcgtcggccactgcagcaatggcggctcctgtaccatg aacagcaaaatgatgcctgagtgccagtgcccaccccacatgacagggccccggtgtgag gagcacgtcttcagccagcagcagccaggacatatagcctccatcctaatccctctgctg ttgctgctgctgctggttctggtggccggagtggtattctggtataagcggcgagtccaa ggggctaagggcttccagcaccaacggatgaccaacggggccatgaacgtggagattgga aaccccacctacaagatgtacgaaggcggagagcctgatgatgtgggaggcctactggac gctgactttgccctggaccctgacaagcccaccaacttcaccaaccccgtgtatgccaca ctctacatggggggccatggcagtcgccactccctggccagcacggacgagaagcgagaa ctcctgggccggggccctgaggacgagataggggaccccttggcatag >gi568815586f:57028965_57312552|GENSCAN_predicted_peptide_7|811_aa MRLLPEWFLLLFGPWLLRKAVSAQIPESGRPQYLGLRPAAAGAGAPGQQLPEPRSSDGLG VGRAWSWAWPTNHTGALARAGAAGALPAQRTKRKPSIKAARAKKIFGWGDFYFRVHTLKF SLLVTGKIVDHVNGTFSVYFRHNSSSLGNLSVSIVPPSKRVEFGGVWLPGPVPHPLQSTL ALEGVLPGLGPPLGMAAAAAGPGLGGSLGGALAGPLGGALGVPGAKESRAFNCHVEYEKT NRARKHRPCLYDPSQVCFTEHTQSQAAWLCAKPFKVICIFVSFLSFDYKLVQKTRVGGWT SCDFRVAMLYFSLFWAARPLQRCGQLVRMAIRAQHSNAAQTQTGEANRGWTGQESLSDSD PEMWELLQREKDRQCRGLELIASENFCSRAALEALGSCLNNKYSEGYPGKRYYGGAEVVD EIELLCQRRALEAFDLDPAQWGVNVQPYSGSPANLAVYTALLQPHDRIMGLDLPDGGHLT HGYMSDVKRISATSIFFESMPYKLNPKTGLIDYNQLALTARLFRPRLIIAGTSAYARLID YARMREVCDEVKAHLLADMAHISGLVAAKVIPSPFKHADIVTTTTHKTLRGARSGLIFYR KGVKAVDPKTGREIPYTFEDRINFAVFPSLQGGPHNHAIAAVAVALKQACTPMFREYSLQ VLKNARAMADALLERGYSLVSGGTDNHLVLVDLRPKGLDGARAERVLELVSITANKNTCP GDRSAITPGGLRLGAPALTSRQFREDDFRRVVDFIDEGVNIGLEVKSKTAKLQDFKSFLL KDSETSQRLANLRQRVEQFARAFPMPGFDEH >gi568815586f:57028965_57312552|GENSCAN_predicted_CDS_7|2436_bp atgcggctgctcccggaatggttcctcttgctctttggcccgtggctccttaggaaggcc gtcagtgcccagataccagagtccggaaggccgcagtacctggggctgcgccccgccgcg gccggagcgggtgcccccggccagcagctcccagagccaaggtcttcggacggcctaggc gtgggccgcgcctggagctgggcctggccgaccaaccacacgggggcgctggcccgggca ggggcagccggggcgttgcccgcgcagcgcaccaagaggaagccgtccatcaaggcggcg cgcgccaaaaagatcttcggctggggggacttctactttcgggtgcataccctcaagttt tcgctgctggtgaccggcaagatcgtggaccatgtgaacggtaccttcagtgtgtatttc cgccacaactcgtccagcctgggcaacctcagtgtcagcatcgtgccgccctccaagcgt gtcgagttcggaggagtctggctgcccgggcctgtcccccaccctctgcagtctacgctc gccctggagggggtgcttcctgggctggggcccccgctggggatggcagcagcagcggcg gggcccgggcttgggggctccctcgggggcgcactggcggggccgcttgggggcgcgttg ggagtgcctggggccaaagagtcacgcgctttcaattgccacgtggagtatgagaagaca aaccgcgcgcgcaagcaccgaccgtgcctgtacgacccgtcgcaggtgtgcttcaccgag cacacgcagagccaggccgcctggctctgtgccaagcccttcaaagtcatctgtatcttc gtctctttcctcagctttgactacaaactggtgcagaagaccagagttggtggctggacc tcctgcgacttccgagttgcgatgctgtacttctctttgttttgggcggctcggcctctg cagagatgtgggcagctggtcaggatggccattcgggctcagcacagcaacgcagcccag actcagactggggaagcaaacaggggctggacaggccaggagagcctgtcggacagtgat cctgagatgtgggagttgctgcagagggagaaggacaggcagtgtcgtggcctggagctc attgcctcagagaacttctgcagccgagctgcgctggaggccctggggtcctgtctgaac aacaagtactcggagggttatcctggcaagagatactatgggggagcagaggtggtggat gaaattgagctgctgtgccagcgccgggccttggaagcctttgacctggatcctgcacag tggggagtcaatgtccagccctactccgggtccccagccaacctggccgtctacacagcc cttctgcaacctcacgaccggatcatggggctggacctgcccgatgggggccatctcacc cacggctacatgtctgacgtcaagcggatatcagccacgtccatcttcttcgagtctatg ccctataagctcaaccccaaaactggcctcattgactacaaccagctggcactgactgct cgacttttccggccacggctcatcatagctggcaccagcgcctatgctcgcctcattgac tacgcccgcatgagagaggtgtgtgatgaagtcaaagcacacctgctggcagacatggcc cacatcagtggcctggtggctgccaaggtgattccctcgcctttcaagcacgcggacatc gtcaccaccactactcacaagactcttcgaggggccaggtcagggctcatcttctaccgg aaaggggtgaaggctgtggaccccaagactggccgggagatcccttacacatttgaggac cgaatcaactttgccgtgttcccatccctgcaggggggcccccacaatcatgccattgct gcagtagctgtggccctaaagcaggcctgcacccccatgttccgggagtactccctgcag gttctgaagaatgctcgggccatggcagatgccctgctagagcgaggctactcactggta tcaggtggtactgacaaccacctggtgctggtggacctgcggcccaagggcctggatgga gctcgggctgagcgggtgctagagcttgtatccatcactgccaacaagaacacctgtcct ggagaccgaagtgccatcacaccgggcggcctgcggcttggggccccagccttaacttct cgacagttccgtgaggatgacttccggagagttgtggactttatagatgaaggggtcaac attggcttagaggtgaagagcaagactgccaagctccaggatttcaaatccttcctgctt aaggactcagaaacaagtcagcgtctggccaacctcaggcaacgggtggagcagtttgcc agggccttccccatgcctggttttgatgagcattga >gi568815586f:57028965_57312552|GENSCAN_predicted_peptide_8|532_aa MTEKEVLESPKPSFPAETRQSGLQRLKQLLRKGSTGTKEMELPPEPQANGEAVGAGGGPI YYIYEEEEEEEEEEEEPPPEPPKLVNDKPHKFKDHFFKKPKFCDVCARMIVLNNKFGLRC KNCKTNIHEHCQSYVEMQRCFGKIPPGFHRAYSSPLYSNQQYACVKDLSAANRNDPVFET LRTGVIMANKERKKGQADKKNPVAAMMEEEPESARPEEGKPQDGNPEGDKKAEKKTPDDK HKQPGFQQSHYFVALYRFKALEKDDLDFPPGEKITVIDDSNEEWWRGKIGEKVGFFPPNF IIRVRAGERVHRVTRSFVGNREIGQITLKKDQIVVQKGDEAGGYVKVYTGRKVPSENGGQ TANRLSRRHPCGAPYANVIICICKYANTPALVRAAGGEEQEGVGKGAEGDEEFGDLRADP IIPMIGLICLGMGSAALYLLRLALRSPDVCLARPEMRNPRLSRPGCHDDAAQPAVGLGFW VPLSPHQSTGVVAGWDRKNNPEPWNRLSPNDQYKFLAVSTDYKKLKKDRPDF >gi568815586f:57028965_57312552|GENSCAN_predicted_CDS_8|1599_bp atgacagaaaaggaggtgctggagtcccctaagccctccttcccagcagagactcggcaa agtgggctacagcggctaaagcagttactcaggaagggttctacagggacaaaggagatg gaacttcccccagagccccaggccaatggggaggcagtgggagctgggggtgggcccatc tactacatctatgaggaagaggaagaggaagaagaggaggaggaggagccacccccagaa cctcctaagctggtcaacgataagccccacaaattcaaagatcacttcttcaagaagcca aagttctgtgatgtctgtgcccggatgattgttctcaacaacaagtttgggcttcgctgt aagaactgcaaaaccaacatccatgaacactgtcagtcctatgtggaaatgcagagatgc ttcggcaagatcccacctggtttccatcgggcctatagttccccactctacagcaaccag cagtacgcttgtgtcaaagatctctctgctgccaatcgcaatgatcctgtgtttgaaacc ctgcgcactggggtgatcatggcaaacaaggaacggaagaagggacaggcagataagaaa aatcctgtagcagccatgatggaggaggagccagagtcggccagaccagaggaaggcaaa ccccaggatggaaaccctgaaggggataagaaggctgagaagaagacacctgatgacaag cacaagcagcctggcttccagcagtctcattactttgtggctctctatcggttcaaagcc ctggagaaggacgatctggatttcccgccaggagagaagatcacagtcattgatgactcc aatgaagaatggtggcgggggaaaatcggggagaaggtcggatttttccctccaaacttc atcattcgggtccgggctggagaacgtgtgcaccgcgtgacgagatccttcgtggggaac cgcgagatagggcagatcactctcaagaaggaccagatcgtggtgcagaaaggagacgaa gcgggcggctacgtcaaggtctacaccggccgcaaggtaccgagtgagaacggagggcag acagctaaccggctctcgcggagacacccctgcggagcaccgtatgcaaatgttattatt tgcatatgcaaatatgcaaatacgccggccctggtcagggcggcaggtggcgaggagcag gaaggtgtggggaagggagcagaaggagacgaggagtttggggacctgagagcggaccca atcatcccgatgatcggcttaatctgcctgggcatgggcagcgctgcgctttacttgctg cgactcgcccttcgcagccccgacgtctgcttggcccgccctgaaatgcggaacccgcgc ctctcccggccgggttgccatgacgacgccgctcagccagcggtgggcttgggcttttgg gtacctctaagtcctcaccagagcactggggttgtggccggctgggacagaaagaacaac ccggagccctggaaccgcctgagccccaatgaccaatacaagttccttgcagtttccact gactataagaagctgaagaaggaccggccagacttctaa >gi568815586f:57028965_57312552|GENSCAN_predicted_peptide_9|1007_aa MSNSNTTQETLEIMKESEKKLVEESVNKNKFISKTPSKEEIEKECEDTSLRQETQDYEFL FDKSNSKLKLVRSLAVCEESSTPFADGPLETQDIIQLHISCPSDKEEEKSTKDVSEKEDK DKNKEKIPRKMLSRDSSQEYTDSTGIDLHEFLVNTLKKNPRDRMMLLKLEQEILEFINDN NNQFKKFPQMTSYHRMLLHRVAAYFGMDHNVDQTGKAVIINKTSNTRIPEQRFSEHIKDE KNTEFQQRFILKRDDASMDRDDNQIRVPLQDGRRSKSIEEREEEYQRVRERIFARETGQN GYLNDIRGNREGLSRTSSSRQSSTDSELKSLEPRPWSSTDSDGSVRSMRPPVTKASSFSG ISILTRGDSIGSSKGGSAGRISRPGMALGAPEVCNQVTSSQSVRGLLPCTAQQQQQQQQQ QLPALPPTPQQQPPLNNHMISQADDLSNPFGQMSLSRQGSTEAADPSAALFQTPLISQHP QQTSFIMASTGQPLPTSNYSTSSHAPPTQQVLPPQGYMQPPQQIQVSYYPPGQYPNSNQQ YRPLSHPVAYSPQRGQQLPQPSQQPGLQPMMPNQQQAAYQGMIGVQQPQNQGLLSSQRSS MGGQMQGLVVQYTPLPSYQVPVGSDSQNVVQPPFQQPMLVPVSQSVQGGLPAAGVPVYYS MIPPAQQNGTSPSVGFLQPPGSEQYQMPQSPSPCSPPQMPQQYSGVSPSGPGVVVMQLNV PNGPQPPQNPSMVQWSHCKYYSMDQRGQKPGDLYSPDSSPQANTQMSSSPVTSPTQSPAP SPVTSLSSVCTGLSPLPVLTQFPRPGGPAQGDGRYSLLGQPLQYNLSICPPLLHGQSTYT VHQADILMQGSQCCLHGMRVVFQMLKGQSGLKHGNRGKRQALKSASTDLGTADVVLGRVL EVTDLPEGITRTEADKLFTQLAMSGAKIQWLKDAQGLPGGGGGDNSGTAENGRHSDLAAL YTIVAVFPSPLAAQNASLRLNNSVSRFKLRMAKKNYDLRILERASSQ >gi568815586f:57028965_57312552|GENSCAN_predicted_CDS_9|3024_bp atgtctaacagtaacactactcaagagaccctggaaataatgaaagaatcagaaaaaaaa ctggtggaagaatctgtaaacaaaaacaagtttatatctaagactccaagtaaggaagaa attgagaaagaatgtgaagataccagtttgcgtcaggagacacaggattatgagttcctt tttgacaagtctaattccaagctaaagttggtgcgtagcctggcagtgtgtgaggagtcc tccaccccatttgctgatgggccattagaaacccaggatataattcaattgcacatcagt tgcccttctgacaaggaggaagaaaagtccacaaaagatgtctctgaaaaggaagacaag gacaaaaacaaagaaaagatcccaaggaagatgctgtccagagactccagccaggaatat acggactccactggaatagacctacatgaatttcttgtaaatacactgaaaaagaaccca agggacagaatgatgctgctaaaattagaacaggagattctggaatttattaatgacaac aataatcagttcaagaagttccctcagatgacctcatatcaccggatgctattacaccgg gtagctgcctattttgggatggaccacaatgttgatcaaactgggaaagctgtcatcatc aacaaaactagtaacacaagaatccctgaacagaggttctcagaacatataaaggatgag aagaatacagaatttcaacagaggttcattctcaagagagatgatgccagtatggaccga gatgataaccagatcagagttccattgcaggatggaaggaggagcaagtcaatagaagag agagaggaggaatatcaaagggtccgagagagaatatttgcccgagagactggccagaac ggatatctaaatgacatcagggggaaccgtgaaggactgagccgcacctcaagcagccgc cagagcagcacagacagcgaactcaaatccctggagccacgcccttggagcagcacagac tctgatggctctgtccggagcatgcgaccccctgtcaccaaagctagcagcttcagtgga atctctatccttacccgaggtgacagcatcggcagcagtaaaggcggcagtgcgggaagg atctccaggccaggtatggcactaggtgccccagaagtgtgcaaccaggtcacctcatcc cagtctgtccgggggcttctcccttgtactgcccagcagcaacagcagcagcagcagcag caacttcctgctctcccacccacgcctcagcaacagccacccttgaataatcacatgatc tcacaggcagatgacctcagcaacccctttggacaaatgagccttagtcgccaaggttct actgaagcagctgacccatctgcagctctattccagaccccacttatctcccagcaccct cagcagactagcttcatcatggcttccacgggtcagcccctccccacttccaactattcc acctctagccatgcaccacctactcagcaagttctgccaccccaggggtacatgcagccc cctcaacagatccaggtttcttactatccccctggacaatatcctaactccaaccagcaa tatcgacctctctctcacccggtggcctatagcccccaacgtggtcagcagctgcctcag ccatcccagcagcctggtttacagcccatgatgcctaaccagcagcaggcggcttaccaa ggcatgattggggtccagcagccacagaaccagggcctgctcagcagccagaggagcagc atggggggccagatgcaaggcctggtggttcagtacactccactgccttcttaccaagtt ccagtgggtagtgactcgcaaaatgtggtccagccgcctttccagcaacccatgctggtc cctgtgagccagtctgtgcaaggaggcctcccagcagcgggggtaccagtgtactatagc atgatcccacctgctcagcagaacggtacgagcccttctgtagggtttctgcaaccccct ggctctgagcagtaccagatgcctcagtctccctctccctgcagtccaccacagatgcca cagcagtactcaggagtgtcaccttctggaccaggtgtagtggtcatgcagctgaatgtc cctaatggaccccagccccctcagaacccatccatggtccagtggagtcattgtaaatac tacagcatggaccagcgggggcagaagcctggagacctgtacagtcctgacagcagcccc caggccaacacacaaatgagcagcagccctgtcacatctcctacccagtctccagcaccc tctcctgtcaccagcctcagcagtgtctgcacaggactcagtcccctgcctgtcctcaca cagttcccccggcctgggggtccagcacagggtgatgggcgctactcccttttgggccag ccattacagtacaatctgtccatctgccctcccttgctccatggccagtcaacttacacg gtgcaccaggcagacattctgatgcaaggcagtcaatgttgtttacatgggatgagagtc gtctttcaaatgttgaagggacagagtggactgaagcatggaaaccggggcaagagacaa gcactcaaatctgcctccactgacctggggacagcagatgttgtcctggggcgggtgctg gaggtgacagatctccctgagggcatcacccgtactgaggcggacaaactcttcacgcag ctcgccatgtctggcgccaagatccagtggctcaaggatgctcaggggctgcctggaggg ggtgggggggacaacagtgggactgctgagaatggccgccactcggacctcgctgccttg tacaccattgtggctgtgttccccagccccctggctgcccaaaatgcctcccttcgtctc aacaactccgtgagtcgcttcaaacttcgaatggccaaaaagaactatgacctgaggatc ctggagcgagccagctcccaataa