Result of GENSCAN for
pF1KE2211
GENSCAN 1.0 Date run: 7-Nov-116 Time: 00:41:39 Sequence gi568815595r:48462789_48663124 : 200336 bp : 54.43% C+G : Isochore 3 (51 - 57 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Intr + 957 1093 137 0 2 96 103 83 0.968 11.32 1.02 Intr + 1253 1344 92 0 2 78 83 67 0.998 5.41 1.03 Intr + 1794 1874 81 2 0 83 105 56 0.990 7.13 1.04 Intr + 2043 2295 253 2 1 100 121 331 0.999 35.14 1.05 Intr + 2699 2751 53 0 2 89 34 86 0.782 2.42 1.06 Intr + 3236 3359 124 1 1 79 69 47 0.797 2.56 1.07 Term + 3842 4812 971 0 2 103 47 882 0.869 78.32 1.08 PlyA + 4834 4839 6 1.05 2.08 PlyA - 5107 5102 6 1.05 2.07 Term - 6398 6319 80 0 2 88 53 103 0.976 5.02 2.06 Intr - 6785 6573 213 0 0 57 105 148 0.943 12.61 2.05 Intr - 7066 6940 127 1 1 14 65 142 0.873 5.26 2.04 Intr - 14167 14032 136 0 1 37 62 73 0.355 0.68 2.03 Intr - 16469 16389 81 1 0 86 110 127 0.126 13.95 2.02 Intr - 38505 38370 136 1 1 72 75 102 0.111 7.43 2.01 Init - 41306 41231 76 2 1 91 77 204 0.984 18.80 2.00 Prom - 42137 42098 40 -4.01 3.03 PlyA - 43455 43450 6 -0.45 3.02 Term - 46284 46198 87 0 0 90 45 83 0.891 2.16 3.01 Init - 48747 48637 111 0 0 97 71 104 0.910 9.77 3.00 Prom - 52972 52933 40 -5.51 4.18 PlyA - 53656 53651 6 1.05 4.17 Term - 53936 53799 138 2 0 80 37 66 0.327 -1.03 4.16 Intr - 54801 54727 75 0 0 115 64 18 0.385 2.31 4.15 Intr - 59262 59198 65 1 2 45 69 90 0.715 1.73 4.14 Intr - 60811 60749 63 2 0 91 91 66 0.867 6.38 4.13 Intr - 61042 60913 130 1 1 107 64 243 0.876 24.57 4.12 Intr - 62881 62777 105 1 0 82 92 243 0.831 25.01 4.11 Intr - 72870 72724 147 0 0 34 10 204 0.340 8.14 4.10 Intr - 73675 73468 208 0 1 102 78 362 0.970 36.20 4.09 Intr - 75831 75710 122 0 2 78 95 267 0.997 26.20 4.08 Intr - 76522 76466 57 1 0 91 89 50 0.017 4.97 4.07 Intr - 76983 76909 75 0 0 16 100 100 0.016 4.21 4.06 Intr - 80858 80792 67 1 1 80 101 53 0.331 5.20 4.05 Intr - 87172 87076 97 2 1 86 100 117 0.986 12.27 4.04 Intr - 87446 87330 117 0 0 114 60 209 0.906 21.64 4.03 Intr - 88146 88021 126 1 0 82 72 24 0.695 1.36 4.02 Intr - 89553 89492 62 2 2 96 71 1 0.453 -1.93 4.01 Init - 94104 93893 212 0 2 81 65 224 0.966 15.65 4.00 Prom - 96467 96428 40 -8.68 5.02 PlyA - 98874 98869 6 1.05 5.01 Sngl - 100336 99998 339 1 0 86 52 254 0.993 15.96 5.00 Prom - 101032 100993 40 -2.51 6.103 PlyA - 101308 101303 6 -1.95 6.102 Term - 101634 101618 17 1 2 97 54 16 0.617 -2.22 6.101 Intr - 102192 101995 198 1 0 34 80 180 0.832 11.64 6.100 Intr - 102413 102321 93 0 0 78 81 160 0.981 14.73 6.99 Intr - 102774 102622 153 1 0 76 100 47 0.584 5.26 6.98 Intr - 102880 102848 33 2 0 111 94 46 0.986 6.18 6.97 Intr - 103602 103479 124 0 1 13 89 129 0.859 6.16 6.96 Intr - 103775 103722 54 2 0 60 113 63 0.889 5.66 6.95 Intr - 103949 103872 78 2 0 118 109 25 0.992 7.84 6.94 Intr - 104235 104119 117 0 0 140 116 80 0.999 17.17 6.93 Intr - 104402 104340 63 2 0 89 100 115 0.999 12.21 6.92 Intr - 104848 104786 63 1 0 99 87 68 0.989 7.21 6.91 Intr - 104975 104922 54 2 0 100 101 14 0.919 3.56 6.90 Intr - 105103 105050 54 1 0 117 87 43 0.990 6.76 6.89 Intr - 105382 105302 81 1 0 122 97 101 0.996 14.73 6.88 Intr - 105746 105711 36 2 0 93 111 45 0.985 6.24 6.87 Intr - 106658 106587 72 2 0 56 87 76 0.938 4.40 6.86 Intr - 106860 106804 57 0 0 121 101 33 0.971 7.47 6.85 Intr - 107127 107092 36 0 0 87 97 15 0.689 1.24 6.84 Intr - 107546 107487 60 2 0 105 87 14 0.834 2.42 6.83 Intr - 107712 107677 36 0 0 63 100 34 0.668 1.04 6.82 Intr - 107922 107851 72 0 0 90 89 26 0.877 3.00 6.81 Intr - 108180 108073 108 0 0 103 76 52 0.963 6.48 6.80 Intr - 108372 108313 60 0 0 95 115 6 0.860 3.42 6.79 Intr - 109257 109213 45 0 0 85 76 40 0.704 1.59 6.78 Intr - 109383 109339 45 0 0 79 100 40 0.855 3.39 6.77 Intr - 109633 109592 42 1 0 86 131 36 0.962 6.62 6.76 Intr - 109951 109796 156 1 0 61 35 96 0.722 2.32 6.75 Intr - 110268 110233 36 0 0 114 89 -6 0.637 1.04 6.74 Intr - 110448 110386 63 0 0 119 89 42 0.972 6.81 6.73 Intr - 110560 110528 33 1 0 84 100 23 0.792 2.00 6.72 Intr - 110769 110725 45 0 0 107 113 24 0.975 5.89 6.71 Intr - 110937 110902 36 0 0 98 117 54 0.990 8.24 6.70 Intr - 111518 111474 45 2 0 65 117 16 0.710 1.29 6.69 Intr - 111762 111700 63 0 0 48 131 48 0.797 4.51 6.68 Intr - 111933 111889 45 0 0 106 72 41 0.913 3.39 6.67 Intr - 112077 112009 69 0 0 93 86 78 0.994 7.97 6.66 Intr - 112338 112276 63 0 0 128 53 52 0.971 5.11 6.65 Intr - 112454 112419 36 2 0 86 80 37 0.757 1.64 6.64 Intr - 112751 112551 201 2 0 104 72 36 0.913 3.60 6.63 Intr - 112960 112838 123 1 0 111 83 144 0.994 17.49 6.62 Intr - 113114 113079 36 2 0 63 98 57 0.886 3.14 6.61 Intr - 113508 113461 48 0 0 73 105 34 0.873 2.96 6.60 Intr - 113647 113612 36 1 0 102 94 26 0.769 3.54 6.59 Intr - 113769 113734 36 0 0 97 113 13 0.853 3.64 6.58 Intr - 113983 113888 96 1 0 91 109 48 0.986 7.91 6.57 Intr - 114239 114204 36 2 0 84 98 7 0.538 0.24 6.56 Intr - 115593 115533 61 2 1 68 92 40 0.273 1.63 6.55 Intr - 116489 116409 81 1 0 101 82 69 0.969 6.85 6.54 Intr - 116616 116581 36 2 0 128 100 50 0.977 8.06 6.53 Intr - 116727 116692 36 2 0 126 109 32 0.973 6.96 6.52 Intr - 116880 116800 81 2 0 79 96 79 0.961 7.05 6.51 Intr - 117026 116974 53 2 2 118 90 13 0.951 2.69 6.50 Intr - 117269 117243 27 2 0 96 95 21 0.833 2.40 6.49 Intr - 117556 117419 138 1 0 106 75 72 0.603 8.87 6.48 Intr - 118138 118094 45 1 0 90 100 11 0.616 1.59 6.47 Intr - 118369 118334 36 1 0 83 97 47 0.805 4.04 6.46 Intr - 118552 118472 81 1 0 131 58 22 0.799 3.83 6.45 Intr - 118695 118660 36 0 0 140 81 8 0.845 4.24 6.44 Intr - 118844 118785 60 2 0 130 35 52 0.820 3.52 6.43 Intr - 118971 118918 54 0 0 83 114 3 0.764 2.06 6.42 Intr - 119155 119123 33 1 0 101 121 39 0.959 7.40 6.41 Intr - 119570 119535 36 2 0 141 89 -2 0.917 4.14 6.40 Intr - 119725 119690 36 1 0 88 98 45 0.923 4.44 6.39 Intr - 119865 119821 45 0 0 116 81 33 0.949 4.49 6.38 Intr - 120260 120225 36 2 0 116 64 7 0.399 0.04 6.37 Intr - 120383 120339 45 2 0 128 115 15 0.985 7.29 6.36 Intr - 120640 120605 36 1 0 96 87 22 0.766 1.84 6.35 Intr - 120827 120768 60 2 0 118 109 -5 0.933 4.02 6.34 Intr - 121165 121112 54 1 0 109 93 42 0.957 6.46 6.33 Intr - 121273 121247 27 1 0 82 114 24 0.900 3.20 6.32 Intr - 121587 121510 78 0 0 90 56 74 0.960 4.64 6.31 Intr - 121768 121697 72 1 0 122 123 45 0.998 11.50 6.30 Intr - 121981 121946 36 1 0 113 94 19 0.938 3.94 6.29 Intr - 122157 122122 36 0 0 110 107 5 0.919 3.54 6.28 Intr - 122328 122248 81 0 0 109 105 21 0.986 6.23 6.27 Intr - 122831 122769 63 2 0 99 96 69 0.977 8.21 6.26 Intr - 123068 123042 27 2 0 117 101 25 0.977 5.50 6.25 Intr - 123458 123286 173 0 2 32 36 148 0.741 4.18 6.24 Intr - 123690 123544 147 1 0 98 95 124 0.958 14.82 6.23 Intr - 123901 123775 127 1 1 123 68 81 0.971 10.36 6.22 Intr - 124320 124184 137 1 2 105 36 62 0.980 3.50 6.21 Intr - 124548 124402 147 1 0 84 80 73 0.950 6.82 6.20 Intr - 124766 124632 135 0 0 124 72 69 0.995 9.95 6.19 Intr - 125151 125005 147 1 0 84 107 120 0.998 14.22 6.18 Intr - 125616 125494 123 1 0 76 76 56 0.834 4.26 6.17 Intr - 126207 126082 126 1 0 100 86 97 0.895 11.86 6.16 Intr - 126682 126539 144 2 0 77 105 125 0.984 13.86 6.15 Intr - 127568 127425 144 0 0 69 36 163 0.986 9.96 6.14 Intr - 127796 127671 126 0 0 103 49 44 0.483 3.16 6.13 Intr - 128028 127885 144 1 0 108 84 154 0.989 17.76 6.12 Intr - 128804 128676 129 0 0 109 72 195 0.999 21.17 6.11 Intr - 129034 128861 174 2 0 108 81 274 0.664 29.13 6.10 Intr - 129226 129110 117 2 0 76 65 104 0.918 7.84 6.09 Intr - 129460 129314 147 2 0 87 85 108 0.998 11.12 6.08 Intr - 129679 129563 117 2 0 65 89 67 0.686 5.44 6.07 Intr - 129911 129782 130 2 1 64 55 228 0.999 17.87 6.06 Intr - 130150 129987 164 2 2 81 75 124 0.989 10.61 6.05 Intr - 130475 130314 162 0 0 80 80 245 0.999 23.36 6.04 Intr - 130661 130544 118 2 1 81 76 96 0.536 8.24 6.03 Intr - 130908 130749 160 2 1 91 53 123 0.997 9.60 6.02 Intr - 131760 131580 181 1 1 71 113 259 0.999 26.14 6.01 Init - 132371 132287 85 2 1 65 64 200 0.998 14.24 6.00 Prom - 135344 135305 40 -10.12 7.15 PlyA - 136234 136229 6 1.05 7.14 Term - 136404 136340 65 1 2 128 48 133 0.994 11.64 7.13 Intr - 136805 136617 189 0 0 103 97 45 0.957 6.98 7.12 Intr - 136922 136847 76 2 1 79 115 128 0.883 14.18 7.11 Intr - 137363 137275 89 0 2 69 34 111 0.993 3.99 7.10 Intr - 137779 137694 86 0 2 66 101 76 0.812 6.66 7.09 Intr - 138052 137892 161 1 2 49 103 166 0.964 13.50 7.08 Intr - 138330 138187 144 0 0 80 89 214 0.900 21.69 7.07 Intr - 138679 138564 116 2 2 70 69 114 0.615 8.37 7.06 Intr - 140855 140776 80 1 2 70 105 93 0.999 8.89 7.05 Intr - 141643 141445 199 2 1 67 94 207 0.993 18.13 7.04 Intr - 141992 141863 130 2 1 75 87 190 0.890 18.37 7.03 Intr - 143068 142982 87 1 0 73 100 80 0.997 8.36 7.02 Intr - 146514 146374 141 0 0 101 113 201 0.954 24.96 7.01 Init - 146832 146764 69 0 0 85 85 122 0.481 10.60 7.00 Prom - 148427 148388 40 -3.21 8.03 PlyA - 148509 148504 6 1.05 8.02 Term - 158239 158054 186 1 0 81 47 100 0.768 3.01 8.01 Init - 158968 158675 294 1 0 83 83 320 0.916 26.19 8.00 Prom - 159229 159190 40 -7.20 9.55 PlyA - 161389 161384 6 1.05 9.54 Term - 162747 162610 138 0 0 8 47 116 0.390 -2.23 9.53 Intr - 163566 163430 137 1 2 55 97 129 0.965 11.30 9.52 Intr - 163897 163843 55 1 1 106 79 108 0.999 10.74 9.51 Intr - 164284 164088 197 2 2 58 73 254 0.188 20.55 9.50 Intr - 165753 165627 127 0 1 84 20 222 0.997 15.76 9.49 Intr - 165926 165834 93 2 0 81 76 183 0.999 17.06 9.48 Intr - 166923 166854 70 2 1 140 105 39 0.999 10.48 9.47 Intr - 167190 167084 107 0 2 80 76 187 0.999 16.21 9.46 Intr - 167369 167274 96 2 0 82 105 160 0.985 17.81 9.45 Intr - 167727 167650 78 0 0 90 105 50 0.992 7.14 9.44 Intr - 167932 167819 114 1 0 52 80 114 0.977 8.15 9.43 Intr - 168352 168205 148 0 1 42 41 259 0.890 17.35 9.42 Intr - 168518 168436 83 2 2 129 84 131 0.999 15.73 9.41 Intr - 169013 168861 153 2 0 81 14 237 0.995 16.38 9.40 Intr - 169256 169092 165 2 0 137 73 216 0.995 25.67 9.39 Intr - 169608 169457 152 1 2 111 64 151 0.827 15.39 9.38 Intr - 169880 169848 33 0 0 114 75 3 0.548 0.28 9.37 Intr - 170296 170186 111 2 0 105 106 165 0.999 20.85 9.36 Intr - 170602 170463 140 0 2 109 84 85 0.999 10.82 9.35 Intr - 170847 170689 159 2 0 102 64 145 0.951 13.12 9.34 Intr - 177771 176886 886 1 1 121 89 585 0.148 52.96 9.33 Intr - 178736 178536 201 0 0 39 87 193 0.860 14.08 9.32 Intr - 179221 179063 159 2 0 70 45 118 0.621 6.17 9.31 Intr - 179679 179570 110 2 2 60 9 108 0.960 0.53 9.30 Intr - 180096 179948 149 0 2 96 94 251 0.999 26.04 9.29 Intr - 180295 180179 117 1 0 98 105 22 0.985 6.07 9.28 Intr - 180892 180766 127 0 1 93 62 120 0.870 11.09 9.27 Intr - 181507 181428 80 1 2 53 74 53 0.955 -0.76 9.26 Intr - 182040 181928 113 1 2 95 89 150 0.887 16.40 9.25 Intr - 182421 182247 175 0 1 67 68 249 0.963 20.83 9.24 Intr - 182861 182574 288 2 0 65 55 381 0.539 30.48 9.23 Intr - 183080 182954 127 1 1 57 59 99 0.999 5.09 9.22 Intr - 183469 183302 168 0 0 50 48 154 0.961 7.18 9.21 Intr - 184140 183975 166 1 1 74 78 66 0.919 3.73 9.20 Intr - 185208 185053 156 1 0 82 100 136 0.999 14.69 9.19 Intr - 185673 185478 196 0 1 100 32 144 0.945 9.51 9.18 Intr - 186140 185931 210 2 0 55 59 347 0.999 28.13 9.17 Intr - 186427 186333 95 2 2 83 85 99 0.994 9.28 9.16 Intr - 187793 187692 102 0 0 118 92 63 0.864 10.35 9.15 Intr - 188287 188104 184 1 1 74 72 105 0.983 7.38 9.14 Intr - 188691 188571 121 2 1 65 91 50 0.984 4.00 9.13 Intr - 188930 188789 142 0 1 68 110 98 0.978 9.92 9.12 Intr - 189260 189089 172 2 1 114 99 83 0.999 12.03 9.11 Intr - 189765 189649 117 0 0 128 75 74 0.855 11.27 9.10 Intr - 190399 190214 186 1 0 95 41 86 0.849 5.00 9.09 Intr - 191000 190831 170 0 2 105 89 67 0.984 8.68 9.08 Intr - 191215 191090 126 2 0 97 83 187 0.991 20.26 9.07 Intr - 191664 191501 164 2 2 68 96 280 0.917 26.93 9.06 Intr - 192413 192256 158 2 2 88 53 178 0.969 13.62 9.05 Intr - 192606 192518 89 1 2 125 81 74 0.888 10.59 9.04 Intr - 193063 192948 116 0 2 87 63 208 0.951 18.79 9.03 Intr - 193577 193352 226 0 1 81 49 418 0.998 34.77 9.02 Intr - 194560 193910 651 2 0 110 105 1201 0.999 116.51 9.01 Init - 199843 196099 3745 1 1 93 94 5072 0.777 494.68 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Intr - 16533 16389 145 1 1 55 110 121 0.860 10.85 S.002 Term + 35393 35609 217 2 1 47 49 142 0.815 3.14 S.003 Init - 76573 76466 108 1 0 69 89 198 0.979 16.17 S.004 Init - 171003 170936 68 0 2 56 96 10 0.910 -0.86 S.005 Init + 172349 172466 118 1 1 88 82 54 0.955 5.36 S.006 Term - 177771 176882 890 1 2 121 42 595 0.844 51.30 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815595r:48462789_48663124|GENSCAN_predicted_peptide_1|570_aa XFQCVFQVLPKCLSPETPLPSVLLAVELLSLLADHDQLAPQLCSHSEGCLLLLLYMYITS RPDRVALETQWLQLEQEVVWLLAKLGVQSPLPPVTGSNCQCNVEVVRALTVMLHRQWLTV RRAGGPPRTDQQRRTVRCLRDTVLLLHGLSQKDKLFMMHCVEVLHQFDQVMPGVSMLIRG LPDVTDCEEAALDDLCAAETDVEDPELPVTGMMAPVHCATSRPQLWILEGLWGPPGAGEW VWGGTDGGSAAGTYPTMGSQALPPGPMQTLIFFDMEATGLPFSQPKVTELCLLAVHRCAL ESPPTSQGPPPTVPPPPRVVDKLSLCVAPGKACSPAASEITGLSTAVLAAHGRQCFDDNL ANLLLAFLRRQPQPWCLVAHNGDRYDFPLLQAELAMLGLTSALDGAFCVDSITALKALER ASSPSEHGPRKSYSLGSIYTRLYGQSPPDSHTAEGDVLALLSICQWRPQALLRWVDAHAR PFGTIRPMYGVTASARTKPRPSAVTTTAHLATTRNTSPSLGESRGTKDLPPVKDPGALSR EGLLAPLGLLAILTLAVATLYGLSLATPGE >gi568815595r:48462789_48663124|GENSCAN_predicted_CDS_1|1713_bp nngttccagtgtgtgttccaagtgctgccaaagtgcctcagcccagagacacccctgcct agcgtgctgctggctgttgagctcctctccctgctggcggaccacgaccagctggcacct cagctctgttcccactcagaaggctgcctcctgctgctgctgtacatgtacatcacatca cggcctgacagagtggccttggagacacaatggctccagctggaacaagaggtggtgtgg ctcctggctaagcttggtgtgcagagccccttgcccccagtcactggctccaactgccag tgtaatgtggaggtggtcagagcgctcacggtgatgttgcacagacagtggctgacagtg cggagggcagggggacccccaaggaccgaccagcagaggcggacagtgcgctgtctgcgg gacacggtgctgctgctgcacggcctatcgcagaaggacaagctcttcatgatgcactgc gtggaggtcctgcatcagtttgaccaggtgatgccgggggtcagcatgctcatccgaggg cttcctgatgtgacggactgtgaagaggcagccctggatgacctctgtgccgcggaaacc gatgtggaagaccccgagctgcctgtcactggtatgatggccccggtgcattgtgccacc agcaggccacagctgtggatcttggaaggcctctggggtcccccgggagcaggggagtgg gtgtgggggggaacggatggtggctcagcagcaggtacgtacccaaccatgggctcgcag gccctgcccccggggcccatgcagaccctcatctttttcgacatggaggccactggcttg cccttctcccagcccaaggtcacggagctgtgcctgctggctgtccacagatgtgccctg gagagcccccccacctctcaggggccacctcccacagttcctccaccaccgcgtgtggta gacaagctctccctgtgtgtggctccggggaaggcctgcagccctgcagccagcgagatc acaggtctgagcacagctgtgctggcagcgcatgggcgtcaatgttttgatgacaacctg gccaacctgctcctagccttcctgcggcgccagccacagccctggtgcctggtggcacac aatggtgaccgctacgacttccccctgctccaagcagagctggctatgctgggcctcacc agtgctctggatggtgccttctgtgtggatagcatcactgcgctgaaggccctggagcga gcaagcagcccctcagaacacggcccaaggaagagctatagcctaggcagcatctacact cgcctgtatgggcagtcccctccagactcgcacacggctgagggtgatgtcctggccctg ctcagcatctgtcagtggagaccacaggccctgctgcggtgggtggatgctcacgccagg cctttcggcaccatcaggcccatgtatggggtcacagcctctgctaggaccaagccaaga ccatctgctgtcacaaccactgcacacctggccacaaccaggaacactagtcccagcctt ggagagagcaggggtaccaaggatcttcctccagtgaaggaccctggagccctatccagg gaggggctgctggccccactgggtctgctggccatcctgaccttggcagtagccacactg tatggactatccctggccacacctggggagtag >gi568815595r:48462789_48663124|GENSCAN_predicted_peptide_2|282_aa MTAPVPAPRILLPLLLLLLLTPPPGARGEVCMASRGLSLFPESCPDFCCGTCDDQYCCSD VLKKFVWSEESVPASVEPVEQLGSALRFRPGYNDPMSGCACGTCSVSPAAAVVCIALGLV CRVLGVPCCLLPQAILPMHREEQLFGRFGATLAVGLTIFVLSVVTIIICFTCSCCCLYKT CRRPRPVVTTTTSTTVVHAPYPQPPSVPPSYPGPSYQGYHTMPPQPGMPAAPYPMQYPPP YPAQPMGPPAYHETLAGGAAAPYPASQPPYNPAYMDAPKAAL >gi568815595r:48462789_48663124|GENSCAN_predicted_CDS_2|849_bp atgactgcgccggtccccgcgccgcggatcctgttgccgttgctgttgctgctgctgcta acgccgcctccgggtgcacgtggtgaggtgtgtatggcttcccgtggactcagcctcttc cccgagtcctgtccagatttctgctgtggtacctgtgatgaccaatactgctgctctgac gtgctgaagaaatttgtgtggagcgaggaaagcgtgcctgccagtgtagagccggtggag cagctgggctcggcgctgaggtttcgccctggctacaacgaccccatgtcagggtgtgca tgtgggacctgttctgttagcccagctgccgccgtggtgtgcatagcactgggcctcgtg tgccgtgtgcttggcgtgccctgctgcctcctgccccaggctattttgcccatgcatcga gaagagcagctctttggcaggttcggagcgaccttggccgttggcctgaccatctttgtg ctgtctgtcgtcactatcatcatctgcttcacctgctcctgctgctgcctttacaagacg tgccgccgaccacgtccggttgtcaccaccaccacatccaccactgtggtgcatgcccct tatcctcagcctccaagtgtgccgcccagctaccctggaccaagctaccagggctaccac accatgccgcctcagccagggatgccagcagcaccctacccaatgcagtacccaccacct tacccagcccagcccatgggcccaccggcctaccacgagaccctggctggaggagcagcc gcgccctaccccgccagccagcctccttacaacccggcctacatggatgccccgaaggcg gccctctga >gi568815595r:48462789_48663124|GENSCAN_predicted_peptide_3|65_aa MEHPIANAKALSVAMPSQKTQKRLVGLEKRDEEEEDQAWTSTAFSSNQADDKSDTPISLG ICYHS >gi568815595r:48462789_48663124|GENSCAN_predicted_CDS_3|198_bp atggagcatcccatagccaatgcaaaggctctgagtgtggctatgcccagtcaaaaaaca cagaagaggctggtggggctggagaagagagacgaggaggaggaagaccaggcctggact tccactgcttttagctccaaccaggcagatgacaagtcggacacccccatttccctgggc atctgctaccattcctga >gi568815595r:48462789_48663124|GENSCAN_predicted_peptide_4|621_aa MGCRGLRRGGAQGAGPRVARGGPAAGLEAAQSDSSRPRDGVPTGIDTEPPEEDLDAIQQW AARSARLPARWACLGPGHRLHALSPKGSRCRVPEHQRCARPQGPKGLRYHRASSAVSDQS REKSVISEVTRIEVCMTNCPTLIVMVGLPARGKTYISKKLTRYLNWIGVPTREFNVGQYR RDVVKTYKSFEFFLPDNEEGLKIRKQCALAALRDVRRFLSEEGGHVAVFDATNTTRERRA TIFNFGEQNGYKTFFVESICVDPEVIAANIVQVKLGSPDYVNRDSDEATEDFMRRIECYE NSYESLDEDLDRDLSYIKIMDVGQSYVVNRVADHIQSRIVYYLMNIHVTPRSIYLCRHGE SELNLKGRIGGDPGLSPRGREFAKSLAQFISDQNIKDLKVWTSQMKRTIQTAEALGVPYE QWKVLNEIDAGVCEEMTYEEIQDNYPLEFALRDQDKYRYRYPKGESYEDLVQRLEPVIME LERQENVLVICHQAVMRCLLAYFLDKAAEQLPYLKCPLHTVLKLTPVAYGCKVESIFLNV AAVNTHRDRPQVCVGILRSASTPMFTLTEEELCCPGCVRAEDGCRWAASGWFGVASSYVS AFSNYAKVSEGEATLQDSGGD >gi568815595r:48462789_48663124|GENSCAN_predicted_CDS_4|1866_bp atgggctgtcgcggcttgaggaggggcggggcccaaggggcgggacctcgggtggcccga ggtggcccggctgctgggttggaagcggcgcagtccgactcatcccggccccgggatggc gtccccacgggaattgacacagaaccccctgaagaagatctggatgccatacagcaatgg gcggcccgctctgcacgcttgccagcgcggtgggcctgcctggggccaggccaccgcctc catgccctgagtcccaagggcagtcggtgccgagttcctgagcaccagcgctgtgccagg ccccagggccctaaagggctcagataccacagggcttcttctgctgtaagtgatcagtct agagagaagagtgtcattagtgaggtgaccaggattgaggtgtgcatgaccaactgccca actctcattgtcatggtgggcctgcccgccaggggcaagacctacatctccaagaagctg actcgatacctgaactggattggtgtgcccactcgggagttcaatgttggccagtatcgc cgggacgtggtcaagacctacaaatcttttgaattttttctccccgacaatgaagagggc ctgaaaatcaggaagcagtgtgccctggcagccctccgtgacgtccggcggttccttagt gaggaggggggacatgtggcggtttttgatgccacaaacaccacccgagaacggagagcg accatctttaattttggagaacagaatggctacaagaccttttttgtcgagtccatctgt gtggatcctgaggtcatagctgccaacatcgtgcaagtgaaactgggcagccctgactat gtcaaccgcgacagtgatgaggctacggaggacttcatgaggcgcattgagtgctatgag aactcctacgagtcgctagatgaggacctggatagggacctgtcctatatcaagatcatg gatgtgggccagagctacgtggtgaaccgtgtggctgaccacatccagagccgcatcgta tattacctcatgaacatccacgtgaccccccgctccatctacctctgccggcacggggag agcgagctcaacctcaagggccggattggcggggacccaggactgtcccctcggggcagg gagtttgccaagagtctagcccagttcatcagtgaccaaaatatcaaggatctgaaggtc tggacaagccagatgaagaggacaatccagacggctgaggcactgggtgtgccctatgaa cagtggaaggtcctcaacgagatcgatgcgggcgtctgtgaggaaatgacctacgaggaa attcaggataattatccactggagttcgccctgcgggaccaggacaagtaccggtaccgg taccctaaaggggagtcctacgaggacctggtccagagactggagcctgtcatcatggag ctggagaggcaagagaatgtgctggtcatctgccaccaggctgtgatgcgctgcctgctg gcctacttcctcgacaaggcagcagaacagctgccctacctcaagtgtccgctgcacaca gtcctgaagctgactcctgtggcatatggttgtaaagtggagtccatattcctgaacgtg gctgctgtgaacacgcaccgggacaggcctcaggtctgtgttgggatccttcgttcagct tccacccccatgttcactctcactgaagaggaattatgctgccctggatgtgtcagggca gaggatggctgtcgctgggctgcttctgggtggtttggggtggccagcagctatgtttct gccttctccaactatgccaaggtgtctgagggagaggcaactttgcaggattcaggtggt gactaa >gi568815595r:48462789_48663124|GENSCAN_predicted_peptide_5|112_aa MTRCALLLLMVLMLGRVLVVPVTPIPTFQLRPQNSPQTTPRPAASESPSAAPTWPWAAQS HCSPTRHPGSRIVLSLDVPIGLLQILLEQARARAAREQATTNARILARVGHC >gi568815595r:48462789_48663124|GENSCAN_predicted_CDS_5|339_bp atgaccaggtgtgctctgctgttgctgatggtcctgatgttgggcagagtcctggttgtc ccagtgacccctatcccaaccttccagctccgccctcagaattctccccagaccactccc cgacctgcggcctcagagagcccctcagctgctcccacatggccgtgggctgcccagagc cactgcagccccacccgccaccctggctcgcgcattgtcctatcgctggatgtccccatc ggcctcttgcagatcttactggagcaagcccgggccagggctgccagggagcaggccacc accaacgcccgcatcctggcccgtgtcggccactgctga >gi568815595r:48462789_48663124|GENSCAN_predicted_peptide_6|2760_aa MTLRLLVAALCAGILAEAPRVRAQHRERVTCTRLYAADIVFLLDGSSSIGRSNFREVRSF LEGLVLPFSGAASAQGVRFATVQYSDDPRTEFGLDALGSGGDVIRAIRELSYKGGNTRTG AAILHVADHVFLPQLARPGVPKVCILITDGKSQDLVDTAAQRLKGQGVKLFAVGKDRAGV TGIKNADPEELKRVASQPTSDFFFFVNDFSILRTLLPLVSRRVCTTAGGVPVTRPPDDST SAPRDLVLSEPSSQSLRVQWTAASGPVTGYKVQYTPLTGLGQPLPSERQEVNVPAGETSV RLRGLRPLTEYQVTVIALYANSIGEAVSGTARTTALEGPELTIQNTTAHSLLVAWRSVPG ATGYRVTWRVLSGGPTQQQELGPGQGSVLLRDLEPGTDYEVTVSTLFGRSVGPATSLMAR TDASVEQTLRPVILGPTSILLSWNLVPEARGYRLEWRRETGLEPPQKVVLPSDVTRYQLD GLQPGTEYRLTLYTLLEGHEVATPATVVPTGEGSVGWARPELPVSPVTDLQATELPGQRV RVSWSPVPGATQYRIIVRSTQGVERTLVLPGSQTAFDLDDVQAGLSYTVRVSARVGPREG SASVLTVRREPETPLAVPGLRVVVSDATRVRVAWGPVPGASGFRISWSTGSGPESSQTLP PDSTATDITGLQPGTTYQVAVSVLRGREEGPAAVIVARTGPEKSQLVSGEATVAELDGLE PDTEYTVHVRAHVAGVDGPPASVVVRTAPEPVGRVSRLQILNASSDVLRITWVGVTGATA YRLAWGRSEAPEAPPALGTLHVVQRGEHSLRLRWEPVPRAQGFLLHWQPEGGQEQSRVLG PELSSYHLDGLEPATQYRVRLSVLGPAGEGPSAEVTARTESPRVPSIELRVVDTSIDSVT LAWTPVSRASSYILSWRPLRGPGQEVPGSPQTLPGISSSQRVTGLEPGVSYIFSLTPVLD GVRGPEASVTQTPVCPRGLADVVFLPHATQDNAHRAEATRRVLERLVLALGPLGPQAVQV GLLSYSHRPSPLFPLNGSHDLGIILQRIRDMPYMDPSGNNLGTAVVTAHRYMLAPDAPGR RQHVPGVMVLLVDEPLRGDIFSPIREAQASGLNVVMLGMAGADPEQLRRLAPGMDSVQTF FAVDDGPSLDQAVSGLATALCQASFTTQGQKGEPGEMGRTGAPGPQGPPGSATAKGERGF PGADGRPGSPGRAGNPGTPGAPGLKGSPGLPGPRGDPGERGPRGPKGEPGAPGQVIGGEG PGLPGRKGDPGPSGPPGPRGPLGDPGPRGPPGLPGTAMKGDKGDRGERGPPGPGEGGIAP GEPGLPGDSEDGAPGLPGQPGSPGEQGPRGPPGAIGPKGDRGFPGPLGEAGEKGERGPPG PAGSRGLPGVAGRPGAKGPEGPPGPTGRQGEKGEPGRPGDPAVVGPAVAGPKGEKGDVGP AGPRGATGVQGERGPPGLVLPGDPGPKGDPGDRGPIGLTGRAGPPGDSGPPGEKGDPGRP GPPGPVGPRGRDGEVGEKGDEGPPGDPGLPGKAGERGLRGSPGSSGPKGDRGEPVSRAGV LGSEGMEGPLALLPVCLHTRGLEVQGPPGPPGRLVDTGPGAREKVLGSVGGGESLGTADK RVLEGPRVILASLEPLGKGALKGFGDPQAHRGTQVSEAQQEKRVTGVPLGWMAGADWMGN QEPLGPLGRIDLFPQGKPGEDGKPGLNGKNGEPGDPGEDGRKGRDGPKGERGAPGILGPQ GPPGLPGPVGPPGQGFPGVPGGTGPKGDRGETGSKGEQGLPGERGLRGEPGSVPNVDRLL ETAGIKASALREIVETWDESSGSFLPVPERRRGPKGDSGEQGPPGKEGPIGFPGERGLKG DRGDPGPQGPPGLALGERGPPGPSGLAGEPGKPGIPGLPGRAGGVGEAGRPGERGERGEK GERGEQGRDGPPGLPGTPGPPGPPGPKVSVDEPGPGLSGEQGPPGLKGAKGEPGSNGDQG PKGDRGVPGIKGDRGEPGPRGQDGNPGLPGERGMAGPEGKPGGHGDPGPPGAPGLAGPAG PQGPSGLKGEPGETGPPGRGLTGPTGAVGLPGPPGPSGLVGPQGSPGLPGQVGSPGLPGP VGPKGEPGPTGAPGQVIFDPDFHPLQQLLCLTHKPVSKCHGGGRGAPGGLAGDLVGEPGA KGDRGLPGPRGEKGEAGRAGEPGDPGEDGDPGVGVPGSPGPPGPPGVKGDLGLPGLPGAP GVVGFPGQTGPRGEMGQPGPSGERGLAGPPGREGIPGPLGPPGPPGSVGPPGASGLKGDK GDPGVGLPGPRGERGEPGIRGPPGSRGERGEKGDSAVILGPPGPRGAKGDMGERGPRGLD GDKGPRGDNGDPGDKGQPGAAGIPGDPGSPGKDGVPGIRGEKGDVGFMGPRGLKGERGVK GACGLDGEKGDKGEAGPPGRPGLAGHKGEMGEPGVPGQSGAPGKEGLIGPKGDRGFDGQP GPKGDQGEKGERGTPGIGGFPGPSGNDGSAGPPGPPGSVGPRGPEGLQGQKGERGPPGER VVGAPGVPGAPGERGEQGRPGPAGPRGEKGEAALTSLYYVPYVLPVGHGFFMVPVVFCSQ EDDIRGFVRQEMSQHCACQGQFIASGSRGLAGMAAHGDFRALRPLLLAPGPLPSYAADTA GSQLHAVPVLRVSHAEEEERVPPEDDEYSEYSEYSVEEYQDPEAPWDSDDPCSLPLDEGS CTAYTLRWYHRAVTGSTEACHPFVYGGCGGNANRFGTREACERRCPPRVVQSQGTGTAQD >gi568815595r:48462789_48663124|GENSCAN_predicted_CDS_6|8283_bp atgacgctgcggcttctggtggccgcgctctgcgccgggatcctggcagaggcgccccga gtgcgagcccagcacagggagagagtgacctgcacgcgcctttacgccgctgacattgtg ttcttactggatggctcctcatccattggccgcagcaatttccgcgaggtccgcagcttt ctcgaagggctggtgctgcctttctctggagcagccagtgcacagggtgtgcgctttgcc acagtgcagtacagcgatgacccacggacagagttcggcctggatgcacttggctctggg ggtgatgtgatccgcgccatccgtgagcttagctacaaggggggcaacactcgcacaggg gctgcaattctccatgtggctgaccatgtcttcctgccccagctggcccgacctggtgtc cccaaggtctgcatcctgatcacagacgggaagtcccaggacctggtggacacagctgcc caaaggctgaaggggcagggggtcaagctatttgctgtgggtaaggaccgagcaggagtg acagggatcaagaatgctgaccctgaggagctgaagcgagttgcctcacagcccaccagt gacttcttcttcttcgtcaatgacttcagcatcttgaggacactactgcccctcgtttcc cggagagtgtgcacgactgctggtggcgtgcctgtgacccgacctccggatgactcgacc tctgctccacgagacctggtgctgtctgagccaagcagccaatccttgagagtacagtgg acagcggccagtggccctgtgactggctacaaggtccagtacactcctctgacggggctg ggacagccactgccgagtgagcggcaggaggtgaacgtcccagctggtgagaccagtgtg cggctgcggggtctccggccactgaccgagtaccaagtgactgtgattgccctctacgcc aacagcatcggggaggctgtgagcgggacagctcggaccactgccctagaagggccggaa ctgaccatccagaataccacagcccacagcctcctggtggcctggcggagtgtgccaggt gccactggctaccgtgtgacatggcgggtcctcagtggtgggcccacacagcagcaggag ctgggccctgggcagggttcagtgttgctgcgtgacttggagcctggcacggactatgag gtgaccgtgagcaccctatttggccgcagtgtggggcccgccacttccctgatggctcgc actgacgcttctgttgagcagaccctgcgcccggtcatcctgggccccacatccatcctc ctttcctggaacttggtgcctgaggcccgtggctaccggttggaatggcggcgtgagact ggcttggagccaccgcagaaggtggtactgccctctgatgtgacccgctaccagttggat gggctgcagccgggcactgagtaccgcctcacactctacactctgctggagggccacgag gtggccacccctgcaaccgtggttcccactggtgagggctctgtgggctgggccagacca gagctgcctgtgagccctgtaacagacctgcaagccaccgagctgcccgggcagcgggtg cgagtgtcctggagcccagtccctggtgccacccagtaccgcatcattgtgcgcagcacc cagggggttgagcggaccctggtgcttcctgggagtcagacagcattcgacttggatgac gttcaggctgggcttagctacactgtgcgggtgtctgctcgagtgggtccccgtgagggc agtgccagtgtcctcactgtccgccgggagccggaaactccacttgctgttccagggctg cgggttgtggtgtcagatgcaacgcgagtgagggtggcctggggacccgtccctggagcc agtggatttcggattagctggagcacaggcagtggtccggagtccagccagacactgccc ccagactctactgccacagacatcacagggctgcagcctggaaccacctaccaggtggct gtgtcggtactgcgaggcagagaggagggccctgctgcagtcatcgtggctcgaacgggc ccagagaaatcccagttggtttctggggaggccacggtggctgagctggatggactggag ccagatactgagtatacggtgcatgtgagggcccatgtggctggcgtggatgggccccct gcctctgtggttgtgaggactgcccctgagcctgtgggtcgtgtgtcgaggctgcagatc ctcaatgcttccagcgacgttctacggatcacctgggtaggggtcactggagccacagct tacagactggcctggggccggagtgaagcgcctgaggctccgccagccctggggacgctt cacgtggtgcagcgcggggagcactcgctgaggctgcgctgggagccggtgcccagagcg cagggcttccttctgcactggcaacctgagggtggccaggaacagtcccgggtcctgggg cccgagctcagcagctatcacctggacgggctggagccagcgacacagtaccgcgtgagg ctgagtgtcctagggccagctggagaagggccctctgcagaggtgactgcgcgcactgag tcacctcgtgttccaagcattgaactacgtgtggtggacacctcgatcgactcggtgact ttggcctggactccagtgtccagggcatccagctacatcctatcctggcggccactcaga ggccctggccaggaagtgcctgggtccccgcagacacttccagggatctcaagctcccag cgggtgacagggctagagcctggcgtctcttacatcttctccctgacgcctgtcctggat ggtgtgcggggtcctgaggcatctgtcacacagacgccagtgtgcccccgtggcctggcg gatgtggtgttcctaccacatgccactcaagacaatgctcaccgtgcggaggctacgagg agggtcctggagcgtctggtgttggcacttgggcctcttgggccacaggcagttcaggtt ggcctgctgtcttacagtcatcggccctccccactgttcccactgaatggctcccatgac cttggcattatcttgcaaaggatccgtgacatgccctacatggacccaagtgggaacaac ctgggcacagccgtggtcacagctcacagatacatgttggcaccagatgctcctgggcgc cgccagcacgtaccaggggtgatggttctgctagtggatgaacccttgagaggtgacata ttcagccccatccgtgaggcccaggcttctgggcttaatgtggtgatgttgggaatggct ggagcggacccagagcagctgcgtcgcttggcgccgggtatggactctgtccagaccttc ttcgccgtggatgatgggccaagcctggaccaggcagtcagtggtctggccacagccctg tgtcaggcatccttcactactcagggccagaagggggaacctggagagatgggcaggacc ggtgctcccggcccccaggggccccctggaagtgccactgccaagggcgagaggggcttc cctggagcagatgggcgtccaggcagccctggccgcgccgggaatcctgggacccctgga gcccctggcctaaagggctctccagggttgcctggccctcgtggggacccgggagagcga ggacctcgaggcccaaagggggagccgggggctcccggacaagtcatcggaggtgaagga cctgggcttcctgggcggaaaggggaccctggaccatcgggcccccctggacctcgtgga ccactgggggacccaggaccccgtggccccccagggcttcctggaacagccatgaagggt gacaaaggcgatcgtggggagcggggtccccctggaccaggtgaaggtggcattgctcct ggggagcctgggctgccgggtgactctgaggatggagctccaggcctcccaggacaacct gggtctccgggtgagcagggcccacggggacctcctggagctattggccccaaaggtgac cggggctttccagggcccctgggtgaggctggagagaagggcgaacgtggacccccaggc ccagcgggatcccgggggctgccaggggttgctggacgtcctggagccaagggtcctgaa gggccaccaggacccactggccgccaaggagagaagggggagcctggtcgccctggggac cctgcagtggtgggacctgctgttgctggacccaaaggagaaaagggagatgtggggccc gctgggcccagaggagctaccggagtccaaggggaacggggcccacccggcttggttctt cctggagaccctggccccaagggagaccctggagaccggggtcccattggccttactggc agagcaggacccccaggtgactcagggcctcctggagagaagggagaccctgggcggcct ggccccccaggacctgttggcccccgaggacgagatggtgaagttggagagaaaggtgac gagggtcctccgggtgacccgggtttgcctggaaaagcaggcgagcgtggccttcggggc agccctggatcatctggacccaagggtgaccgtggggagccggtgagtagggctggtgtc ctgggctcagaagggatggagggtcccctggcgctgctgccagtgtgccttcacacaagg ggtctggaggtccagggtcccccaggacccccgggacggctggtagacacaggacctgga gccagagagaaggtattagggtctgtgggtggaggggagagcctggggaccgcggacaag agggtcctcgagggcccaagggtgatcctggcctccctggagcccctggggaaaggggca ttgaagggtttcggggacccccaggcccacagggggacccaggtgtccgaggcccagcag gagaaaagggtgaccggggtccccctgggctggatggccggagcggactggatgggaaac caggagccgctgggccctctgggccgaattgatctgttcccacagggaaagccaggcgag gatggcaaacctggcctgaatggaaaaaacggagaacctggggaccctggagaagacggg aggaagggtcgtgatggccccaagggtgagcgtggagctcctggtatccttggaccccag gggcctccaggcctcccagggccagtgggccctcctggccagggttttcctggtgtccca ggaggcacgggccccaagggtgaccgtggggagactggatccaaaggggagcagggcctc cctggagagcgtggcctgcgaggagagcctggaagtgtgccgaatgtggatcggttgctg gaaactgctggcatcaaggcatctgccctgcgggagatcgtggagacctgggatgagagc tctggtagcttcctgcctgtgcccgaacggcgtcgaggccccaagggggactcaggcgaa cagggccccccaggcaaggagggccccatcggctttcctggagaacgcgggctgaagggc gaccgtggagaccctggccctcaggggccacctggtctggcccttggggagaggggcccc cccgggccttccggccttgccggggagcctggaaagcctggtattcccgggctcccaggc agggctgggggtgtgggagaggcaggaaggccaggagagaggggagaacggggagagaaa ggagaacgtggagaacagggcagagatggccctcctggactccctggaacccctgggccc cccggaccccctggccccaaggtgtctgtggatgagccaggtcctggactctctggagaa cagggaccccctggactcaagggtgctaagggggagccgggcagcaatggtgaccaaggt cccaaaggagacaggggtgtgccaggcatcaaaggagaccggggagagcctggaccgagg ggtcaggacggcaacccgggtctaccaggagagcgtggtatggctgggcctgaagggaag ccgggtggtcatggagaccctggaccacctggtgccccgggtcttgctggccctgcagga ccccaaggaccttctggcctgaagggggagcctggagagacaggacctccaggacggggc ctgactggacctactggagctgtgggacttcctggaccccccggcccttcaggccttgtg ggtccacaggggtctccaggtttgcctggacaagtggggtcaccaggtctgcctggccct gtcggacctaaaggagaacctggccccacgggggcccctggacaggtgatctttgaccct gacttccaccccctgcagcaactcctctgcctcacccacaagcctgtttccaaatgccat gggggtggcaggggagcccctggaggccttgctggagacctggtgggtgagccgggagcc aaaggtgaccgaggactgccagggccgcgaggcgagaagggtgaagctggccgtgcaggg gagcccggagaccctggggaagatggtgacccaggagtcggggtcccgggctcccctggg cctcctggccctccaggtgtgaagggagatctgggcctccctggcctgcccggtgctcct ggtgttgttgggttcccgggtcagacaggccctcgaggagagatgggtcagccaggccct agtggagagcggggtctggcaggccccccagggagagaaggaatcccaggacccctgggg ccacctggaccaccggggtcagtgggaccacctggggcctctggactcaaaggagacaag ggagaccctggagtagggctgcctgggccccgaggcgagcgtggggagccaggcatccgg gggccccctggcagcaggggagagcgtggggagaagggagactcagctgtgatcctgggg cctccaggcccacggggtgccaagggggacatgggtgaacgagggcctcggggcttggat ggtgacaaaggacctcggggagacaatggggaccctggtgacaagggtcaacctggtgca gcagggatccctggtgacccgggatccccaggaaaggatggagtgcctggtatccgagga gaaaaaggagatgttggcttcatgggtccccggggcctcaagggtgaacggggagtgaag ggagcctgtggccttgatggagagaagggagacaagggagaagctggtcccccaggccgc cccgggctggcaggacacaaaggagagatgggggagcctggtgtgccgggccagtcgggg gcccctggcaaggagggcctgatcggtcccaagggtgaccgaggctttgacgggcagcca ggccccaagggtgaccagggcgagaaaggggagcggggaaccccaggaattgggggcttc ccaggccccagtggaaatgatggctctgctggtcccccagggccacctggcagtgttggt cccagaggccccgaaggacttcagggccagaagggtgagcgaggtccccccggagagaga gtggtgggggctcctggggtccctggagctcctggcgagagaggggagcaggggcggcca gggcctgccggtcctcgaggcgagaagggagaagctgcactgacgtccctgtattatgtg ccctatgtccttcctgtgggccatgggttctttatggtccctgtggtcttctgctcccag gaggatgacatccggggctttgtgcgccaagagatgagtcagcactgtgcctgccagggc cagttcatcgcatctggatcacgggggttggctgggatggctgcccatggtgacttcagg gccctgaggcccctgctcttggctccaggacccctccctagttatgctgcagacactgcc ggctcccagctccatgctgtgcctgtgctccgcgtctctcatgcagaggaggaagagcgg gtaccccctgaggatgatgagtactctgaatactccgagtattctgtggaggagtaccag gaccctgaagctccttgggatagtgatgacccctgttccctgccactggatgagggctcc tgcactgcctacaccctgcgctggtaccatcgggctgtgacaggcagcacagaggcctgt cacccttttgtctatggtggctgtggagggaatgccaaccgttttgggacccgtgaggcc tgcgagcgccgctgcccaccccgggtggtccagagccaggggacaggtactgcccaggac tga >gi568815595r:48462789_48663124|GENSCAN_predicted_peptide_7|543_aa MAASVVCRAATAGAQVLLRARRSPALLRTPALRSTATFAQALQFVPETQVSLLDNGLRVA SEQSSQPTCTVGVWIDVGSRFETEKNNGAGYFLEHLAFKGTKNRPGSALEKEVESMGAHL NAYSTREHTAYYIKALSKDLPKAVELLGDIVQNCSLEDSQIEKERDVILREMQENDASMR DVVFNYLHATAFQGTPLAQAVEGPSENVRKLSRADLTEYLSTHYKAPRMVLAAAGGVEHQ QLLDLAQKHLGGIPWTYAEDAVPTLTPCRFTGSEIRHRDDALPFAHVAIAVEGPGWASPD NVALQVANAIIGHYDCTYGGGVHLSSPLASGAVANKLCQSFQTFSICYAETGLLGAHFVC DRMKIDDMMFVLQGQWMRLCTSATESEVARGKNILRNALVSHLDGTTPVCEDIGRSLLTY GRRIPLAEWESRIAEVDASVVREICSKYIYDQCPAVAGYGRSLGLPFHLCSRTAAQLTEQ PVKAPSSSPQSPGCQGVLAQKTCPSSSLTACQGAFINTLHPSGPIEQLPDYNRIRSGMFW LRF >gi568815595r:48462789_48663124|GENSCAN_predicted_CDS_7|1632_bp atggcggcgtccgtggtctgtcgggccgctaccgccggggcacaagtgctattgcgcgcc cgccgctcgccggccctgctgcggacgccagccttgcggagtacggcaaccttcgctcag gcgctccagttcgtgccggagacgcaggttagcctgctggacaacggcctgcgtgtggcc tccgagcagtcctctcagcccacttgcacggtgggagtgtggattgatgttggcagccgt tttgagactgagaagaataatggggcaggctactttttggagcatctggctttcaaggga acaaagaatcggcctggcagtgccctggagaaggaggtggagagcatgggggcccatctt aatgcctacagcacccgggagcacacagcttactacatcaaggcgctgtccaaggatctg ccgaaagctgtggagctcctgggtgacattgtgcagaactgtagtctggaagactcacag attgagaaggaacgtgatgtgatcctgcgggagatgcaggagaatgatgcatctatgcga gatgtggtctttaactacctgcatgccacagcattccagggcacacctctagcccaggct gtggaggggcccagtgagaatgtcaggaagctgtctcgtgcagacttgaccgagtacctc agcacacattacaaggcccctcgaatggtgctggcagcagctggaggagtggagcaccag caactgttagacctcgcccagaagcacctcggtggcatcccatggacatatgcagaggac gctgtgcccactcttactccatgccgcttcactggcagtgagatccgccaccgtgatgat gctctaccttttgcccacgtggccattgcagtagagggtcctggctgggccagcccggac aatgtggccttgcaagtggccaatgccatcatcggccactatgactgcacttatggtggt ggcgtgcacctgtccagcccactggcttcaggtgctgtggccaacaagctatgccagagt ttccagaccttcagcatctgctatgcagagacgggcttgctgggtgcacactttgtctgt gaccgaatgaaaatcgatgacatgatgttcgtcctgcaagggcagtggatgcgcctgtgt accagtgccacggagagtgaggtggcccggggcaaaaacatcctcagaaatgccctggta tctcatctagatggcactactcctgtgtgtgaggacatcggacgcagcctcctgacctat ggccgccgcatccccctggctgaatgggaaagccggattgcggaggtggatgccagtgtg gtacgtgagatctgctccaagtacatctatgaccagtgcccagcagtggctggatatggc cgttctcttggcctccccttccacctctgctcccgcactgctgctcagcttacagagcag ccagttaaggccccaagcagctctccccagtcccctggctgccagggagttcttgctcag aaaacctgtcccagcagttccttgactgcctgccaaggtgccttcatcaataccctgcac ccgtcaggccccattgagcagctcccagactacaaccggatccgtagcggcatgttctgg ctgcgcttctag >gi568815595r:48462789_48663124|GENSCAN_predicted_peptide_8|159_aa MLHVLASLPLLLLLVTSASTHAWSRPLWYQVGLDLQPWGCQPKSVEGCRGGLSCPGYWLG PGASRIYPVAAVMITTTMLMICRKILQGRRRSQATKGEHPQVTTEPCGPWKRRAPISDHT LLRGVLHMLDALLVHIEGHLRHLATQRQIQIKGTSTQSG >gi568815595r:48462789_48663124|GENSCAN_predicted_CDS_8|480_bp atgctgcatgtgctggcctcgctgcctttgctgctcctgctggtgacgtctgcctccacc cacgcctggtcgagacccctctggtaccaggtggggctggacttgcagccctgggggtgt cagccaaagagtgtggagggctgtaggggtggcctgagctgtcctggctactggctgggc cctggagcaagccgcatctaccccgtggctgcggtcatgatcaccaccacgatgctgatg atctgccgcaagatactgcaggggcggcggcgctcacaggccaccaagggtgagcatccg caggtgaccactgagccctgcggaccctggaaacggcgggccccaatctcagaccacacc ctgctccgtggggtcctgcacatgctggatgccctcctggtccacatcgaaggccaccta cgtcatctagccacccagcggcaaatccaaataaaggggacttccacccagagtgggtga >gi568815595r:48462789_48663124|GENSCAN_predicted_peptide_9|4115_aa MARRPPWRGLGGRSTPILLLLLLSLFPLSQEELGGGGHQGWDPGLAATTGPRAHIGGGAL ALCPESSGVREDGGPGLGVREPIFVGLRGRRQSARNSRGPPEQPNEELGIEHGVQPLGSR ERETGQGPGSVLYWRPEVSSCGRTGPLQRGSLSPGALSSGVPGSGNSSPLPSDFLIRHHG PKPVSSQRNAGTGSRKRVGTARCCGELWATGSKGQGERATTSGAERTAPRRNCLPGASGS GPELDSAPRTARTAPASGSAPRESRTAPEPAPKRMRSRGLFRCRFLPQRPGPRPPGLPAR PEARKVTSANRARFRRAANRHPQFPQYNYQTLVPENEAAGTAVLRVVAQDPDAGEAGRLV YSLAALMNSRSLELFSIDPQSGLIRTAAALDRESMERHYLRVTAQDHGSPRLSATTMVAV TVADRNDHSPVFEQAQYRETLRENVEEGYPILQLRATDGDAPPNANLRYRFVGPPAARAA AAAAFEIDPRSGLISTSGRVDREHMESYELVVEASDQGQEPGPRSATVRVHITVLDENDN APQFSEKRYVAQVREDVRPHTVVLRVTATDRDKDANGLVHYNIISGNSRGHFAIDSLTGE IQVVAPLDFEAEREYALRIRAQDAGRPPLSNNTGLASIQVVDINDHIPIFVSTPFQVSVL ENAPLGHSVIHIQAVDADHGENARLEYSLTGVAPDTPFVINSATGWVSVSGPLDRESVEH YFFGVEARDHGSPPLSASASVTVTVLDVNDNRPEFTMKEYHLRLNEDAAVGTSVVSVTAV DRDANSAISYQITGGNTRNRFAISTQGGVGLVTLALPLDYKQERYFKLVLTASDRALHDH CYVHINITDANTHRPVFQSAHYSVSVNEDRPMGSTIVVISASDDDVGENARITYLLEDNL PQFRIDADSGAITLQAPLDYEDQVTYTLAITARDNGIPQKADTTYVEVMVNDVNDNAPQF VASHYTGLVSEDAPPFTSVLQISATDRDAHANGRVQYTFQNGEDGDGDFTIEPTSGIVRT VRRLDREAVSVYELTAYAVDRGVPPLRTPVSIQVMVQDVNDNAPVFPAEEFEVRVKENSI VGSVVAQITAVDPDEGPNAHIMYQIVEGNIPELFQMDIFSGELTALIDLDYEARQEYVIV VQATSAPLVSRATVHVRLVDQNDNSPVLNNFQILFNNYVSNRSDTFPSGIIGRIPAYDPD VSDHLFYSFERGNELQLLVVNQTSGELRLSRKLDNNRPLVASMLVTVTDGLHSVTAQCVL RVVIITEELLANSLTVRLENMWQERFLSPLLGRFLEGVAAVLATPAEDVFIFNIQNDTDV GGTVLNVSFSALAPRGAGAGAAGPWFSSEELQEQLYVRRAALAARSLLDVLPFDDNVCLR EPCENYMKCVSVLRFDSSAPFLASASTLFRPIQPIAGLRCRCPPGFTGDFCETELDLCYS NPCRNGGACARREGGYTCVCRPRFTGEDCELDTEAGRCVPGVCRNGGTCTDAPNGGFRCQ CPAGGAFEGPRCEVAARSFPPSSFVMFRGLRQRFHLTLSLSFATVQQSGLLFYNGRLNEK HDFLALELVAGQVRLTYSTGESNTVVSPTVPGGLSDGQWHTVHLRYYNKPRTDALGGAQG PSKDKVAVLSVDDCDVAVALQFGAEIGNYSCAAAGVQTSSKKSLDLTGPLLLGGVPNLPE NFPVSHKDFIGCMRDLHIDGRRVDMAAFVANNGTMAGCQAKLHFCDSGPCKNSGFCSERW GSFSCDCPVGFGGKDCQLTMAHPHHFRGNGTLSWNFGSDMAVSVPWYLGLAFRTRATQGV LMQVQAGPHSTLLCQLDRGLLSVTVTRGSGRASHLLLDQVTVSDGRWHDLRLELQEEPGG RRGHHVLMVSLDFSLFQDTMAVGSELQGLKVKQLHVGGLPPGSAEEAPQGLVGCIQGVWL GSTPSGSPALLPPSHRVNAEPGCVVTNACASGPCPPHADCRDLWQTFSCTCQPGYYGPGC VDACLLNPCQNQGSCRHLPGAPHGYTCDCVGGYFGHHCEHRMDQQCPRGWWGSPTCGPCN CDVHKGFDPNCNKTNGQCHCKEFHYRPRGSDSCLPCDCYPVGSTSRSCAPHSGQCPCRPG ALGRQCNSCDSPFAEVTASGCRVLYDACPKSLRSGVWWPQTKFGVLATVPCPRGALGAAV RLCDEAQGWLEPDLFNCTSPAFRELSLLLDGLELNKTALDTMEAKKLAQRLREVTGHTDH YFSQDVRVTARLLAHLLAFESHQQGFGLTATQDAHFNENLLWAGSALLAPETGDLWAALG QRAPGGSPGSAGLVRHLEEYAATLARNMELTYLNPMGLVTPNIMLSIDRMEHPSSPRGAR RYPRYHSNLFRGQDAWDPHTHVLLPSQSPRPSPSEVLPTSSSIENSTTSSVVPPPAPPEP EPGISIIILLVYRTLGGLLPAQFQAERRGARLPQNPVMNSPVVSVAVFHGRNFLRGILES PISLEFRLLQTANRSKAICVQWDPPGLAEQHGVWTARDCELVHRNGSHARCRCSRTGTFG VLMDASPRERLEGDLELLAVFTHVVVAVSVAALVLTAAILLSLRSLKSNVRGIHANVAAA LGVAELLFLLGIHRTHNQVQDQGQGTCVLMTLLAQEAWGQNSGSELVCTAVAILLHYFFL STFAWLFVQGLHLYRMQVEPRNVDRGAMRFYHALGWGVPAVLLGLAVGLDPEGYGNPDFC WISVHEPLIWSFAGPVVLVIVMNGTMFLLAARTSCSTGQREAKKTSALRTLRSSFLLLLL VSASWLFGLLAVNHSILAFHYLHAGLCGLQGLAVLLLFCVLNADARAAWMPACLGRKAAP EEARPAPGLGPGAYNNTALFEESGLIRITLGASTVSSVSSARSGRTQDQDSQRGRSYLRD NVLVRHGSAADHTDHSLQAHAGPTDLDVAMFHRDAGADSDSDSDLSLEEERSLSIPSSES EDNGRTRGRFQRPLCRAAQSERLLTHPKDVDGNDLLSYWPALGECEAAPCALQTWGSERR LGLDTSKDAANNNQPDPALTSGDETSLGRAQRQRKGILKNRLQYPLVPQTRGAPELSWCR AATLGHRAVPAASYGRIYAGGGTGSLSQPASRYSSREQLDLLLRRQLSRERLEEAPAPVL RPLSRPGSQECMDAAPGRLEPKDRGSTLPRRQPPRDYPGAMAGRFGSRDALDLGAPREWL STLPPPRRTRDLDPQPPPLPLSPQRQLSRDPLLPSRPLDSLSRSSNSREQLDQVPSRHPS REALGPLPQLLRAREDSVSGPSHGPSTEQLDILSSILASFNSSALSSVQSSSTPLGPHTT ATPSATASVLGPSTPRSATSHSISELSPDSEPRDTQALLSATQAMDLRRRDYHMERPLLN QEHLEELGRWGSAPRTHQWRTWLQCSRARAYALLLQHLPVLVWLPRYPVRDWLLGDLLSG LSVAIMQLPQGLAYALLAGLPPVFGLYSSFYPVFIYFLFGTSRHISVESLCVPGPVDTGT FAVMSVMVGSVTESLAPQALNDSMINETARDAARVQVASTLSVLVGLFQVGLGLIHFGFV VTYLSEPLVRGYTTAAAVQVFVSQLKYVFGLHLSSHSGPLSLIYTVLEVCWKLPQSKVGT VVTAAVAGVVLVVVKLLNDKLQQQLPMPIPGELLTLIGATGISYGMGLKHRFEVDVVGNI PAGLVPPVAPNTQLFSKLVGSAFTIAVVGFAIAISLGKIFALRHGYRVDSNQELVALGLS NLIGGIFQCFPVSCSMSRSLVQESTGGNSQVAGAISSLFILLIIVKLGELFHDLPKAVLA AIIIVNLKGMLRQLSDMRSLWKANRADLLIWLVTFTATILLNLDLGLVVAVIFSLLLVVV RTQMPHYSVLGQVPDTDIYRDVAEYSEAKEVRGVKVFRSSATVYFANAEFYSDALKQRCG VDVDFLISQKKKLLKKQEQLKLKQLQKEEKLRKQAGPLLSACLAPQQVSSGDKMEDATAN GQEDSKAPDGSTLKALGLPQPDFHSLILDLGALSFVDTVCLKSLKNIFHDFREIEVEVYM AACHSPVVSQLEAGHFFDASITKKHLFASVHDAVTFALQHPRPVPDSPVSPSLAVSSDVK QLEPELLLRNNLLSGIPEKVQGSVGANGQSLEDTE >gi568815595r:48462789_48663124|GENSCAN_predicted_CDS_9|12348_bp atggcgaggcggccgccgtggcggggcctcgggggacggtcgacccccatactcctgctc cttctcctctctttgttccccctcagccaggaggagctggggggcggtgggcaccagggc tgggacccaggcttagctgccactacggggccaagggcgcatatcggtggcggagcctta gctctttgtccggagtcttccggggtccgggaggatggggggcctggcctgggggtcagg gagcctatcttcgtggggctccgagggagaaggcaaagcgcccggaatagtcgagggccc cctgagcagccgaatgaggagctggggattgaacacggcgtccagccattgggcagccgc gaacgagagacaggacagggaccagggtctgtgttatactggcgcccagaggtctcctct tgcgggcggacaggacctttgcaaagaggtagtctgtcaccaggggctctgtcctcaggg gtcccgggctcggggaacagctcgcccctcccttcagactttttgattcggcaccacggt cccaagccggtgtcctcccagcggaacgctgggacaggctcccgcaaaagagtgggcacc gcgcgctgctgtggggaattatgggcaacagggagcaagggtcagggcgagagagccacg acatccggagcagaaaggacagccccccggcggaactgtcttccaggggcctcgggatct ggccccgagctggattcagcaccacgcacggcgaggacagctcctgcatcaggttcagca ccccgcgagtctcggacagctcccgagccggcgcccaagcgcatgcgctcccggggtctc ttccgctgccgcttcctcccgcagcgccccgggccgcgtcccccgggactcccggcccgt cctgaagccaggaaagtaacctcggcgaaccgggcacgctttcgtcgcgccgcaaaccgc cacccgcagtttccgcagtacaactaccagacgctggtgccggagaatgaggcagcaggc accgcggtgctacgcgtggttgctcaggacccggacgccggcgaggccgggcgcctagtc tactcgctggcggcactcatgaacagccgctcgctggagctgttcagcatcgacccgcag agcggccttatccgtacggcggcagctctggaccgcgagagcatggagcgtcactacctg cgtgtgaccgcgcaggaccacgggtcgccgcgcctctcggccaccacgatggtggccgtg acagtagccgaccgcaacgaccactcgccggtttttgagcaagcgcagtaccgggagacc cttcgcgagaatgtggaggagggctaccctatcctgcagctgcgtgccactgacggcgac gcgccccccaacgccaacctgcgctaccgcttcgtggggccgccagctgcgcgcgctgca gctgccgccgccttcgagattgatccacgctccggcctcatcagcaccagcggccgagtg gaccgcgagcacatggaaagctatgagctggtggtggaagccagcgaccagggccaggaa cccgggccgcgctcggccactgtgcgcgtacacataactgtgctagacgagaacgacaat gctcctcagttcagcgagaagcgctacgtggcgcaggtgcgcgaggatgtgcgcccccac acagtcgtgctgcgcgtcacggccactgaccgggacaaggacgccaacggattggtgcac tacaacatcatcagtggcaatagccgtggacactttgccatcgacagcctcactggcgag atccaggtggtggcacctctggacttcgaggcagagagagagtatgccttgcgcatcagg gcgcaggatgctggccggccaccgctgtccaacaacacgggcctggccagcatccaggtg gtggacatcaatgaccacattcctatttttgtcagcacgcccttccaagtttctgtcttg gaaaatgctcccttgggtcactcagtcatccacattcaggcagtcgatgcagaccatggg gagaatgccagattggagtactccctaactggtgtggcacctgatactccttttgtgata aacagcgccactggctgggtctctgtgagtggtcccctggaccgtgagtctgtggagcat tacttctttggtgtggaggctcgagaccatggctcacccccactctctgcctcagccagt gtcaccgtgactgtgctggacgttaatgacaatcggcctgagttcacaatgaaggagtac cacctacgactgaatgaggatgcagctgtgggcaccagtgtggtcagcgtgaccgcagta gaccgtgatgccaacagtgccatcagctaccagatcacaggcggcaacacccggaatcgc tttgccatcagcacccaggggggtgtgggtctggtgactctggctctgccactggactac aagcaggaacgctacttcaagctggtactaactgcatctgaccgtgcccttcatgatcac tgctatgtgcacatcaacatcacagatgccaacactcatcggccggtctttcaaagtgcc cactactcagtgagtgtgaatgaagatcggccaatgggtagcaccatagtggtcatcagt gcctctgatgatgacgtgggtgagaatgctcgtatcacctatctcctggaggacaacctg ccccagttccgcattgatgcagactcaggagccattacattacaggccccattagactat gaggaccaggtgacctacaccctggctatcacagctcgggacaatggcatcccacagaag gcagacactacttatgtggaggtgatggtcaatgacgtgaatgacaatgctccacaattt gtggcctcccactatacagggctggtctctgaggatgccccacctttcaccagtgtcctg cagatctcagccactgaccgggatgctcatgccaatggccgggtccagtacactttccag aatggtgaagatggggatggagattttaccattgagcccacctctggaattgtccgtaca gtaaggcggctagaccgggaggcagtatcagtgtatgagttgactgcctacgcagtggac agaggtgtgcccccactccggactccagtcagtatccaggtgatggtgcaggatgtgaac gacaatgcacctgtcttcccagctgaggagtttgaggtgcgggtgaaagagaatagcatt gtgggctcagtggtggcccagatcactgcagtggaccctgacgaaggccccaatgcccat ataatgtaccagatcgtggaggggaacatccctgagctgttccaaatggacatcttctct ggagaactgacggcactcattgacctagactatgaggctcgccaagaatatgtgattgtg gtgcaggccacatctgctcctttggtcagccgggccactgtgcacgtccgcctggttgac cagaatgacaacagccctgtgctcaacaacttccagatcctcttcaacaactatgtatcc aaccgttcagacaccttcccgtcgggcattattgggcgcatcccagcttatgaccccgat gtctccgaccacctcttctactcctttgagcgtggcaatgagctgcagctgctggtagtc aaccagaccagtggggagctgcgactcagccgaaagctagacaataaccgcccactggtg gcctccatgttggtgactgtcacagatggcctgcacagcgtgacggcgcagtgtgtgctg cgcgtggtcatcatcacggaggagttgctggccaacagcctgaccgtgcgccttgagaac atgtggcaggagcgcttcctgtcaccgctgctgggccgcttcctcgagggcgtggctgcg gtgctcgctacgcccgctgaggacgtcttcatcttcaacatccagaacgacacagacgta gggggcaccgtgctcaatgtgagtttctcggcgctagctccacgtggggccggggcgggc gctgcagggccctggttcagctccgaggagctgcaggagcagttgtacgtgcgccgggcg gcgctggcggctcgctccctgctcgacgtactgcccttcgacgacaacgtgtgcctgcga gagccctgtgagaactacatgaaatgcgtgtccgtgctccgctttgactcgtccgcgccc ttcctggcctcggcctccacgctgttccgacccatccagcccatcgctggcctgcgctgc cgctgcccgcccggattcacgggagacttttgcgagaccgagctcgacctctgctactcc aacccatgtcgcaacggcggagcctgcgcgcggcgcgagggaggctacacgtgcgtctgc cgcccgcgcttcaccggagaggactgcgagctggacaccgaggccggccgctgcgtgccg ggcgtctgccgcaacgggggcacctgcaccgacgcgcccaacggcggctttcgctgccag tgcccggcaggcggcgccttcgagggcccgcgctgcgaggtggctgcgcgctccttcccg cccagttcgttcgtcatgtttcgcggcctgcggcagcgattccaccttacgctgtccctc tcgttcgcgacagtgcagcagagcgggctgctcttctacaacgggcgcctgaacgagaag cacgacttcctggccctggaactcgtggctggccaagtgcggctcacatattccacgggt gaatccaacaccgtggtcagccccacagttccagggggcttgagtgacgggcaatggcat acagtgcatctgagatactacaacaagccccggacagatgccctagggggtgcacagggc ccctccaaggacaaggtggctgtgctaagcgtggatgattgtgatgtggccgtggctctg cagtttggtgctgagattggcaactactcatgcgcggctgctggtgtgcaaacaagctcc aagaagtccctggacctgacgggccctcttcttctgggaggtgtccccaacctccccgag aacttccccgtatcccataaggacttcatcggctgtatgcgggacctgcacattgatggc cgccgagtggacatggcggcttttgtcgcaaataatggcaccatggcaggctgccaagcc aagctacacttttgtgactcaggcccctgcaagaacagtggcttctgctcggagcgctgg ggcagcttcagctgcgactgccctgtgggcttcggcggcaaagactgtcagcttactatg gcccatccccaccatttccgtggcaacggcacactgagctggaactttggaagtgacatg gctgtgtctgtgccatggtacctggggctggcatttcggacacgggcaacgcagggggtc ctgatgcaagtgcaggctgggccacacagcacgctcctttgccagctagatcgggggtta ctgtctgtgacagtgaccaggggctcgggccgtgcttcccatctccttctggaccaggtg actgtcagtgatggccggtggcacgatctgcggctggagttgcaggaggaaccaggtggc cggcggggccaccatgtccttatggtctcactggactttagcctcttccaggacaccatg gcggtggggagtgagctgcagggcctgaaggtaaagcagctccacgtgggaggcctgccc cccggcagtgcagaggaggctcctcagggtctggttggctgcatccagggggtgtggctc ggctccacaccctctggctccccggccctgctaccccccagccaccgagtgaatgcggag cctggctgtgttgtgaccaacgcctgtgcctctgggccctgcccacctcacgcagactgc cgggacctctggcagaccttttcttgcacctgccagccaggttactacggcccaggctgt gtggatgcctgcctcctgaacccctgtcagaaccagggatcatgccggcacctgccagga gccccccatggctatacctgtgactgtgtgggtggctatttcgggcaccactgtgagcac aggatggaccagcagtgcccacggggctggtgggggagcccaacctgtggcccctgcaac tgtgatgttcacaaaggttttgatcccaactgcaacaagacaaatgggcagtgtcactgc aaggagttccactaccgaccgcggggcagtgactcttgcctcccatgtgactgctaccct gtgggctccacctcgcgctcatgtgcaccccacagcgggcagtgcccctgtcgcccagga gcccttggccgccagtgcaacagctgtgacagtcccttcgcagaggtgacagccagcggc tgccgggtgctctatgatgcctgccctaagtccctgagatctggtgtgtggtggccccag acaaagtttggcgtcctggccacagtgccctgtccccggggggccctgggtgctgctgtg cggctgtgtgatgaggcccagggttggctggagcccgacctcttcaactgtacctcccct gcctttcgagagctcagtctgctgctggatggcctagagctgaacaagacggcactggat accatggaggccaagaagctggctcagcggctacgggaggtgactggccacactgaccac tattttagccaagatgttcgagtcactgcccgcctgctggcccacctgctggccttcgag agccatcagcagggcttcgggctgacagccacacaggatgcccacttcaatgagaatctg ctgtgggccggctctgcactgcttgccccagagacaggggacttgtgggcggcgctgggg cagcgggcccctgggggctccccaggcagcgcgggactggtgaggcacctggaggagtat gcagccacactcgcaaggaatatggaactcacatacctgaatcccatggggctggtgacg cctaatatcatgctcagcattgaccgcatggagcaccccagttctccccggggggcccgt cgctaccctcgctaccatagcaacctctttcgaggccaggatgcctgggatcctcacacc catgtgctgctgccttcccagtccccacggccatccccatctgaagttctgcccacaagc agcagcatagaaaactccaccacctcaagtgtggtccccccaccagccccgccagagcca gagcctgggatctccattatcattctcctcgtttaccgcaccttagggggactgctccct gcccagttccaggcagaacgccgaggtgccaggcttcctcagaaccccgtcatgaactcc ccggtggtcagcgtggctgtgttccacggacgcaacttcctaaggggaatcctggagtcc cccatcagcctagagtttcgcctgctacagacagcgaatcggagcaaggcgatctgtgtg cagtgggacccacctggcctggcggagcagcatggtgtgtggacagcacgggactgcgag ctggtgcacaggaatgggtcccacgcacggtgtcgctgcagccggacagggacctttggg gtcctcatggatgcctctccccgtgagaggctggagggcgacctggagctgctggctgtg ttcacccacgtggtcgtggctgtgtctgtggctgcgctggtgctgactgcagccatcctg ctgagcctgcgcagcctcaagtccaatgtgcgtgggatccatgccaatgtggcagccgcc ctgggggtggcagagctcctcttcctgctggggattcacaggacccacaatcaggtgcag gatcagggccagggaacttgtgtcctgatgaccctactggcccaggaggcctggggccaa aactcagggtcagagctggtgtgcactgcagtcgccatcctcctgcactacttcttcctc agcaccttcgcgtggctcttcgtgcaggggctgcacctctaccgcatgcaggttgagcca cgcaacgtggaccgcggcgccatgcgcttctaccatgccctgggctggggcgtccctgct gtgctgctgggccttgctgtgggcctggaccctgagggctatgggaaccctgacttctgc tggatctcagtccacgagcccctcatctggagctttgctggccctgttgtcctggtcata gtgatgaacgggaccatgtttctcctcgctgcccgcacatcctgctccacagggcagagg gaggccaagaagacctctgcactcaggacccttcgcagctccttcctgctgcttctgctg gtcagtgcctcctggctctttgggctcctggcagtcaaccacagcatcctagccttccac tacctccatgctggactctgcggcctccagggcctggcggtgctgctgctcttctgtgtc ctaaatgcagatgctcgggctgcctggatgccagcctgtctgggcaggaaggcagcgcct gaggaggcaaggccagcacctgggctgggacctggggcctacaacaacacggctctcttt gaggagagtggcctcatccgcatcactctgggcgcctccaccgtctcctctgtgagcagt gcccgctccggccggacccaggaccaggacagccagcggggccgcagctacctcagggac aatgtcctggttcgacatggctcagccgctgaccacactgaccacagcctccaggctcat gctggccccactgacctggacgtggccatgttccatcgagatgctggcgcagactccgac tctgacagtgacctgtccttggaggaggagaggagtctctccattccatcttcagaaagc gaggacaatggccggacgcgggggcgcttccaacggccactctgccgagcagcccagagt gagaggctcctcacccaccccaaagatgtggatggcaatgacctcctgtcctactggcca gccctgggggagtgcgaggcagccccctgtgctctgcagacttggggctctgaaaggcgc ctggggctggacaccagcaaggatgcagctaacaacaaccagccagacccggccctgacc agtggggatgagacttctctgggccgggcccagcgccagaggaaaggcatcctgaagaac cggttgcaatacccactggtgccacagacccgaggtgcccctgagctgtcctggtgccgt gcagccaccttgggccaccgtgctgtgccagctgcctcttacggtcgcatctatgctggc gggggcacgggcagcctttcacagccagccagccgctactcttctagagaacagctggac ctgctcctccggcggcaactgagccgtgagcgactagaggaagcccctgcccctgttcta cgtcccctgagccggccagggtcccaggaatgcatggatgctgcaccaggccgactggag cccaaagatcggggcagcaccctgccacggaggcagccacctcgggactaccctggcgcc atggctggccgcttcgggtcacgggatgcgctcgacttaggggcacctcgagagtggttg agcacgctgcctccgccccgccgcacccgggaccttgacccacagcccccacctctgccc ctgtctccccagcggcaactctcaagggaccccctcttgccatcccggccgctggactct ctgtctaggagctcgaactctcgggagcagctggaccaggtgcctagccggcacccctca cgagaagcccttgggccactcccgcagctgctcagagctagggaggactcggtcagtggc cccagccatggcccctccacagaacagttggacattctttcctccatccttgcctctttc aactcctcggccctctcctctgtgcaatcttcaagcacacccttgggccctcacaccact gccacaccttctgccacagcctctgtgcttgggccctccacgccacgttctgccacgtct cacagcatctcggagctgtcgccagactcagaaccgagggacacacaggcactgctgtct gcaacacaagcaatggacctgcggaggcgagactaccacatggaacggccgctgctgaac caggagcatttggaggagctggggcgctggggctcagcacctaggacccaccagtggcgg acctggttgcagtgctcccgtgctcgggcctatgcccttctgctccaacacctcccggtt ttggtctggttaccccggtatcctgtgcgtgactggctcctgggtgacctgttatccggc ctgagtgtggccatcatgcagcttccgcagggcttggcctacgccctcctggctggattg ccccccgtgtttggcctctatagctccttctaccctgtcttcatctacttcctgtttggc acttcccggcacatctccgtggagagcctctgtgtcccgggaccagtagacacagggacc tttgctgtcatgtctgtgatggtgggcagtgtgacagaatccctggccccgcaggccttg aacgactccatgatcaatgagacagccagagatgctgcccgggtacaggtggcctccaca ctcagtgtcctggttggcctcttccaggtggggctgggcctgatccacttcggcttcgtg gtcacctacctgtcagaacctcttgtccgaggctataccacagctgcagctgtgcaggtc ttcgtctcacagctcaagtatgtgtttggcctccatctgagcagccactctgggccactg tccctcatctatacagtgctggaggtctgctggaagctgccccagagcaaggttggcacc gtggtcactgcagctgtggctggggtggtgctcgtggtggtgaagctgttgaatgacaag ctgcagcagcagctgcccatgccgatacccggggagctgctcacgctcatcggggccaca ggcatctcctatggcatgggtctaaagcacagatttgaggtagatgtcgtgggcaacatc cctgcagggctggtgcccccagtggcccccaacacccagctgttctcaaagctcgtgggc agcgccttcaccatcgctgtggttgggtttgccattgccatctcactggggaagatcttc gccctgaggcacggctaccgggtggacagcaaccaggagctggtggccctgggcctcagt aaccttatcggaggcatcttccagtgcttccccgtgagttgctctatgtctcggagcctg gtacaggagagcaccgggggcaactcgcaggttgctggagccatctcttcccttttcatc ctcctcatcattgtcaaacttggggaactcttccatgacctgcccaaggcggtcctggca gccatcatcattgtgaacctgaagggcatgctgaggcagctcagcgacatgcgctccctc tggaaggccaatcgggcggatctgcttatctggctggtgaccttcacggccaccatcttg ctgaacctggaccttggcttggtggttgcggtcatcttctccctgctgctcgtggtggtc cggacacagatgccccactactctgtcctggggcaggtgccagacacggatatttacaga gatgtggcagagtactcagaggccaaggaagtccggggggtgaaggtcttccgctcctcg gccaccgtgtactttgccaatgctgagttctacagtgatgcgctgaagcagaggtgtggt gtggatgtcgacttcctcatctcccagaagaagaaactgctcaagaagcaggagcagctg aagctgaagcaactgcagaaagaggagaagcttcggaaacaggcagggccccttttgtct gcatgtctggctccccagcaggtgagctcaggagataagatggaagatgcaacagccaat ggtcaagaagactccaaggccccagatgggtccacactgaaggccctgggcctgcctcag ccagacttccacagcctcatcctggacctgggtgccctctcctttgtggacactgtgtgc ctcaagagcctgaagaatattttccatgacttccgggagattgaggtggaggtgtacatg gcggcctgccacagccctgtggtcagccagcttgaggctgggcacttcttcgatgcatcc atcaccaagaagcatctctttgcctctgtccatgatgctgtcacctttgccctccaacac ccgaggcctgtccccgacagccctgtttcgccctcactcgctgtctcctcagatgtgaaa cagttggaaccagagctgcttctcaggaataatttgctctcaggaatacccgagaaggta cagggcagcgtgggtgccaatgggcagtccctggaggatacagagtga