GENSCAN 1.0 Date run: 8-Nov-116 Time: 04:54:01 Sequence gi568815595r:184160160_184361285 : 201126 bp : 51.55% 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 + 3498 3567 70 0 1 89 82 108 0.923 9.98 1.02 Intr + 4108 4229 122 0 2 87 81 71 0.999 6.10 1.03 Intr + 4333 4442 110 1 2 100 31 110 0.999 6.93 1.04 Intr + 4637 4772 136 0 1 110 75 135 0.742 14.53 1.05 Intr + 4954 5047 94 1 1 67 55 86 0.735 3.67 1.06 Intr + 5263 5332 70 0 1 77 92 148 0.924 13.35 1.07 Intr + 5967 6106 140 1 2 66 69 237 0.895 20.29 1.08 Intr + 6287 6398 112 1 1 100 -2 143 0.700 6.96 1.09 Intr + 6667 6816 150 2 0 111 75 181 0.999 19.75 1.10 Intr + 7421 7552 132 0 0 116 89 168 0.999 20.82 1.11 Intr + 7739 7906 168 0 0 62 39 430 0.955 35.93 1.12 Intr + 9847 10062 216 2 0 84 116 253 0.990 26.70 1.13 Term + 10160 10596 437 0 2 108 53 544 0.952 48.73 1.14 PlyA + 10698 10703 6 1.05 2.00 Prom + 13424 13463 40 -3.31 2.01 Init + 16835 16908 74 1 2 97 100 77 0.999 10.29 2.02 Intr + 18698 18963 266 2 2 94 77 483 0.999 45.49 2.03 Intr + 20010 20092 83 1 2 116 80 97 0.999 11.55 2.04 Intr + 20690 20825 136 1 1 53 100 204 0.999 18.75 2.05 Intr + 20926 21067 142 2 1 81 36 163 0.818 10.32 2.06 Intr + 21537 21656 120 0 0 90 35 179 0.668 12.91 2.07 Intr + 21753 21888 136 0 1 88 78 190 0.637 19.08 2.08 Intr + 21992 22089 98 1 2 80 81 135 0.999 11.31 2.09 Intr + 22598 22709 112 2 1 86 64 118 0.651 10.08 2.10 Term + 23323 23457 135 0 0 45 37 242 0.652 13.13 2.11 PlyA + 23913 23918 6 1.05 3.00 Prom + 25628 25667 40 -1.71 3.01 Init + 26049 26121 73 2 1 95 119 189 0.999 23.88 3.02 Intr + 26348 26495 148 0 1 60 31 311 0.976 22.40 3.03 Intr + 26637 26716 80 0 2 84 93 33 0.771 3.09 3.04 Intr + 27238 27284 47 2 2 80 85 34 0.960 0.92 3.05 Intr + 27505 27602 98 0 2 9 65 173 0.981 6.41 3.06 Intr + 27702 27824 123 0 0 46 66 140 0.995 7.81 3.07 Intr + 27982 28248 267 1 0 69 94 227 0.981 18.59 3.08 Intr + 28602 28682 81 0 0 120 68 121 0.996 12.55 3.09 Intr + 28770 28829 60 0 0 110 117 29 0.986 6.34 3.10 Intr + 28929 28985 57 0 0 82 95 18 0.567 0.39 3.11 Intr + 29096 29118 23 2 2 89 101 3 0.896 -0.63 3.12 Intr + 29229 29284 56 1 2 93 109 58 0.899 7.59 3.13 Intr + 29398 29598 201 0 0 71 64 484 0.947 44.30 3.14 Intr + 29696 29772 77 1 2 108 68 117 0.999 10.51 3.15 Intr + 30840 30884 45 0 0 98 100 59 0.986 6.11 3.16 Intr + 30964 31096 133 1 1 115 79 156 0.992 18.55 3.17 Intr + 32442 32530 89 2 2 61 71 49 0.918 -0.23 3.18 Intr + 32646 32737 92 0 2 105 105 143 0.956 17.84 3.19 Intr + 32943 33075 133 1 1 25 81 143 0.999 7.51 3.20 Intr + 33206 33293 88 2 1 115 96 143 0.999 18.27 3.21 Term + 33381 33539 159 2 0 139 49 237 0.999 23.15 3.22 PlyA + 34663 34668 6 1.05 4.00 Prom + 60267 60306 40 -2.31 4.01 Init + 68326 68450 125 0 2 93 -6 91 0.439 -0.04 4.02 Intr + 69890 70010 121 2 1 91 96 53 0.818 7.40 4.03 Intr + 70352 70508 157 1 1 112 89 176 0.987 20.20 4.04 Intr + 70588 70758 171 2 0 98 96 223 0.999 24.53 4.05 Intr + 73019 73238 220 0 1 116 47 224 0.955 18.99 4.06 Intr + 73417 73574 158 1 2 115 94 87 0.985 12.17 4.07 Intr + 74107 74238 132 2 0 111 69 138 0.999 15.32 4.08 Intr + 74472 74596 125 1 2 89 86 104 0.991 11.11 4.09 Intr + 74994 75164 171 2 0 63 30 213 0.881 13.65 4.10 Intr + 75993 76103 111 2 0 126 76 81 0.978 11.78 4.11 Intr + 76184 76392 209 1 2 85 80 215 0.647 18.80 4.12 Intr + 76479 76590 112 0 1 82 89 23 0.979 2.68 4.13 Intr + 77067 77252 186 2 0 92 86 209 0.991 21.50 4.14 Intr + 78144 78315 172 2 1 85 70 50 0.861 2.93 4.15 Intr + 78401 78562 162 0 0 50 73 157 0.401 10.86 4.16 Intr + 79314 79424 111 1 0 92 111 13 0.634 4.85 4.17 Intr + 79530 79877 348 1 0 112 84 134 0.720 11.29 4.18 Intr + 80713 80769 57 2 0 91 91 3 0.379 0.25 4.19 Intr + 80865 80948 84 1 0 116 87 -21 0.373 0.89 4.20 Intr + 81028 81245 218 2 2 80 73 97 0.591 6.15 4.21 Term + 81331 81879 549 0 0 140 49 565 0.999 52.50 4.22 PlyA + 82152 82157 6 1.05 5.10 PlyA - 82284 82279 6 1.05 5.09 Term - 82517 82355 163 1 1 92 45 137 0.997 7.52 5.08 Intr - 82796 82654 143 2 2 35 81 160 0.985 9.66 5.07 Intr - 83466 83373 94 2 1 71 115 2 0.994 1.67 5.06 Intr - 83837 83632 206 2 2 58 94 253 0.940 21.42 5.05 Intr - 84562 84442 121 0 1 91 80 70 0.999 7.50 5.04 Intr - 85199 85039 161 2 2 123 47 109 0.993 9.60 5.03 Intr - 85456 85309 148 0 1 131 113 203 0.999 27.85 5.02 Intr - 85653 85554 100 1 1 88 56 169 0.992 13.37 5.01 Init - 88781 88586 196 2 1 84 84 299 0.998 26.17 5.00 Prom - 89246 89207 40 -10.40 6.00 Prom + 89255 89294 40 -11.71 6.01 Init + 89320 89441 122 0 2 50 41 125 0.237 3.62 6.02 Intr + 89502 89731 230 0 2 15 80 294 0.446 19.34 6.03 Intr + 97314 97597 284 1 2 91 78 463 0.911 43.28 6.04 Term + 98129 98416 288 1 0 119 54 143 0.996 9.72 6.05 PlyA + 98572 98577 6 -3.74 7.03 PlyA - 99076 99071 6 1.05 7.02 Term - 99899 99571 329 0 2 57 49 231 0.065 11.32 7.01 Init - 101126 100958 169 2 1 89 85 358 0.893 35.27 7.00 Prom - 107334 107295 40 -3.81 8.00 Prom + 112001 112040 40 -0.71 8.01 Init + 115995 116033 39 2 0 94 92 59 0.976 7.28 8.02 Intr + 116322 116408 87 2 0 59 64 112 0.971 6.56 8.03 Intr + 116733 116868 136 2 1 145 92 41 0.942 10.85 8.04 Intr + 117092 117307 216 0 0 90 97 237 0.908 23.80 8.05 Intr + 117766 117890 125 2 2 96 97 130 0.999 15.51 8.06 Intr + 118008 118154 147 2 0 70 64 139 0.871 10.64 8.07 Intr + 118333 118398 66 0 0 103 78 28 0.082 2.89 8.08 Intr + 123626 123814 189 1 0 55 75 250 0.408 20.70 8.09 Intr + 124804 124946 143 0 2 54 70 127 0.812 7.16 8.10 Intr + 125319 125433 115 0 1 58 86 195 0.907 17.25 8.11 Intr + 127678 127788 111 0 0 70 68 156 0.728 12.88 8.12 Intr + 129278 129376 99 1 0 88 61 159 0.997 14.01 8.13 Intr + 129482 129559 78 1 0 51 84 128 0.997 8.94 8.14 Intr + 130096 130199 104 0 2 99 44 57 0.999 1.87 8.15 Intr + 130398 130508 111 0 0 104 36 193 0.999 15.70 8.16 Intr + 130634 130701 68 2 2 77 97 127 0.999 11.54 8.17 Intr + 130881 131071 191 1 2 11 82 387 0.849 30.23 8.18 Intr + 131185 131280 96 0 0 100 69 121 0.999 12.11 8.19 Intr + 131903 132070 168 1 0 106 48 188 0.323 17.26 8.20 Intr + 139000 139242 243 0 0 84 81 225 0.007 19.63 8.21 Intr + 139692 139748 57 2 0 72 84 117 0.909 9.27 8.22 Intr + 140121 140285 165 2 0 71 93 163 0.999 15.77 8.23 Intr + 141378 141499 122 2 2 92 110 160 0.999 18.40 8.24 Intr + 141688 141912 225 1 0 51 109 305 0.999 26.53 8.25 Intr + 142211 142369 159 2 0 76 22 173 0.798 9.12 8.26 Intr + 142520 142664 145 2 1 65 78 219 0.799 19.39 8.27 Intr + 142843 142903 61 0 1 52 79 102 0.999 4.50 8.28 Intr + 143161 143307 147 2 0 116 27 174 0.999 14.82 8.29 Intr + 143484 143590 107 1 2 52 81 96 0.997 5.73 8.30 Intr + 143788 143915 128 0 2 57 82 87 0.998 4.98 8.31 Intr + 144145 144232 88 1 1 91 105 62 0.999 8.67 8.32 Intr + 145609 145771 163 0 1 112 68 99 0.998 10.36 8.33 Intr + 145895 145996 102 0 0 85 62 99 0.991 7.65 8.34 Intr + 146191 146336 146 2 2 49 29 217 0.976 12.41 8.35 Intr + 146592 146675 84 2 0 111 97 79 0.999 11.61 8.36 Intr + 147198 147366 169 2 1 30 89 136 0.956 7.93 8.37 Intr + 147455 147549 95 0 2 75 103 76 0.978 7.98 8.38 Intr + 147731 147857 127 1 1 146 79 90 0.999 14.66 8.39 Intr + 148290 148408 119 1 2 117 94 134 0.997 17.59 8.40 Term + 148549 148731 183 0 0 96 42 138 0.999 7.86 8.41 PlyA + 148871 148876 6 1.05 9.00 Prom + 150921 150960 40 -3.61 9.01 Init + 154329 154678 350 2 2 19 15 262 0.427 6.70 9.02 Intr + 155604 155697 94 0 1 110 91 33 0.599 6.27 9.03 Intr + 155973 156059 87 2 0 110 94 10 0.635 4.46 9.04 Intr + 157162 157338 177 0 0 84 94 41 0.645 4.93 9.05 Intr + 157558 157657 100 0 1 116 115 34 0.996 9.08 9.06 Intr + 159530 159642 113 0 2 70 113 77 0.767 9.00 9.07 Intr + 160471 160563 93 0 0 93 84 66 0.912 7.36 9.08 Intr + 160768 160834 67 0 1 77 111 62 0.999 6.37 9.09 Intr + 161123 161944 822 0 0 83 116 413 0.533 35.66 9.10 Intr + 162203 162291 89 0 2 31 94 105 0.961 5.59 9.11 Intr + 162385 162571 187 0 1 87 85 177 0.999 17.08 9.12 Intr + 162662 162795 134 0 2 108 96 161 0.999 19.77 9.13 Intr + 162924 163082 159 2 0 125 117 -9 0.988 6.40 9.14 Intr + 163249 163434 186 0 0 74 84 241 0.816 22.70 9.15 Intr + 163621 163818 198 0 0 130 49 375 0.792 37.87 9.16 Intr + 164042 164188 147 1 0 66 93 252 0.846 24.44 9.17 Intr + 164719 164955 237 0 0 45 75 237 0.984 16.44 9.18 Intr + 165110 165214 105 1 0 82 49 210 0.999 17.41 9.19 Intr + 165321 165480 160 2 1 129 70 161 0.972 18.47 9.20 Intr + 165692 165792 101 0 2 77 97 104 0.954 10.53 9.21 Intr + 166368 166470 103 2 1 123 80 92 0.995 12.15 9.22 Intr + 166722 166824 103 1 1 64 78 17 0.764 -1.97 9.23 Intr + 167057 167289 233 2 2 81 97 244 0.998 22.55 9.24 Intr + 167427 167545 119 1 2 104 30 136 0.957 10.09 9.25 Intr + 167671 167843 173 0 2 89 55 202 0.958 16.26 9.26 Intr + 168472 168597 126 1 0 67 111 138 0.999 14.30 9.27 Intr + 168750 168831 82 0 1 91 101 40 0.996 5.74 9.28 Intr + 171313 171447 135 0 0 100 92 193 0.999 22.17 9.29 Intr + 171569 171650 82 1 1 65 41 71 0.580 -0.19 9.30 Intr + 171787 171927 141 2 0 77 63 154 0.931 12.63 9.31 Term + 174568 174749 182 2 2 109 55 316 0.999 28.49 9.32 PlyA + 174876 174881 6 1.05 10.00 Prom + 176565 176604 40 -4.91 10.01 Init + 181589 181658 70 1 1 83 68 115 0.998 8.18 10.02 Intr + 181907 182089 183 0 0 105 45 182 0.999 15.88 10.03 Intr + 182585 182701 117 0 0 69 94 231 0.999 22.74 10.04 Term + 184336 184811 476 2 2 122 46 531 0.996 47.73 10.05 PlyA + 185955 185960 6 -1.75 11.23 PlyA - 186058 186053 6 1.05 11.22 Term - 186641 186447 195 2 0 83 52 231 0.974 16.73 11.21 Intr - 186862 186776 87 1 0 53 78 51 0.704 1.26 11.20 Intr - 191958 191854 105 0 0 103 97 128 0.997 16.11 11.19 Intr - 192172 192134 39 1 0 91 94 56 0.883 5.41 11.18 Intr - 192690 192578 113 1 2 71 105 107 0.985 11.30 11.17 Intr - 192988 192874 115 1 1 109 115 40 0.999 9.32 11.16 Intr - 193263 193091 173 1 2 96 94 77 0.998 9.28 11.15 Intr - 193636 193503 134 0 2 74 81 238 0.990 22.50 11.14 Intr - 194155 193942 214 2 1 28 34 337 0.634 20.60 11.13 Intr - 194499 194389 111 1 0 65 109 172 0.990 17.85 11.12 Intr - 194814 194745 70 0 1 66 97 61 0.999 4.05 11.11 Intr - 195370 195215 156 1 0 68 86 220 0.856 20.52 11.10 Intr - 195619 195535 85 0 1 42 91 122 0.999 8.22 11.09 Intr - 196935 196834 102 2 0 96 81 194 0.998 19.29 11.08 Intr - 197107 197023 85 2 1 115 68 128 0.999 12.88 11.07 Intr - 197328 197203 126 1 0 122 81 250 0.995 28.86 11.06 Intr - 197539 197461 79 1 1 77 80 84 0.999 6.12 11.05 Intr - 197697 197620 78 0 0 130 94 8 0.973 5.84 11.04 Intr - 197936 197803 134 0 2 99 78 134 0.993 14.37 11.03 Intr - 198151 198023 129 2 0 56 88 89 0.977 6.87 11.02 Intr - 198654 198523 132 1 0 74 100 136 0.995 14.52 11.01 Intr - 198972 198816 157 0 1 93 81 151 0.952 15.00 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Sngl - 99933 99571 363 0 0 78 49 356 0.923 25.11 S.002 Term + 118333 118440 108 0 0 103 49 71 0.907 3.51 S.003 Term - 178707 178583 125 1 2 103 45 100 0.838 6.05 S.004 Init - 179048 179024 25 2 1 70 113 16 0.814 1.99 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815595r:184160160_184361285|GENSCAN_predicted_peptide_1|652_aa XVVKEEISDDNAKLPCFNGRVVSWLVSAEGSHPDPAPFCADNPSELPPPMERTGGIGDSR PPSFHPHAGGGSQENLDNDTETDSLVSAQRERPRRRDGPEHATRLNGTAKGERRREPGGY DSSSTLMSSELETTSFFDSDEDDSTSRFSSSTEQSSASRLMRRHKRRRRKQKVSRIERSS SFSSITDSTMSLNIITVTLNMEKYNFLGISIVGQSNERGDGGIYIGSIMKGGAVAADGRI EPGDMLLQVNEINFENMSNDDAVRVLREIVHKPGYGWNGALGKGLGEPIRPIDPAAWVSH TAAMTGTFPAYGMSPSLSTITSTSSSITSSIPDTERLDDFHLSIHSDMAAIVKAMASPES GLEVRDRMWLKITIPNAFIGSDVVDWLYHNVEGFTDRREARKYASNLLKAGFIRHTVNKI TFSEQCYYIFGDLCGNMANLSLHDHDGSSGASDQDTLAPLPHPGAAPWPMAFPYQYPPPP HPYNPHPGFPELGYSYGGGSASSQHSEGSRSSGSNRSGSDRRKEKDPKAGDSKSGGSGSE SDHTTRSSLRGPRERAPSERSGPAASEHSHRSHHSLASSLRSHHTHPSYGPPGVPPLYGP PMLMMPPPPAAMGPPGAPPGRDLASVPPELTASRQSFRMAMGNPSEFFVDVM >gi568815595r:184160160_184361285|GENSCAN_predicted_CDS_1|1959_bp nnagtggtgaaggaggagatctcggatgacaatgccaagctaccatgcttcaatggccgg gtggtgtcctggctggtgtcagctgagggctcacacccagacccagcccccttctgtgct gataacccatcggagctgccaccacctatggagcgcacgggaggcatcggggactcccga cccccatccttccaccctcatgctggtgggggcagccaggagaacctggacaatgacaca gagacggactctttggtgtctgcccagcgagagcggccacgccggagggatggcccagag catgcaacccggctaaatggaactgcgaagggggaacggcggcgagaaccagggggttat gatagctcatccacccttatgagcagtgagctggagaccaccagcttctttgactcagat gaggatgactccaccagcaggttcagcagctccacagaacagagcagtgcctcacgcctg atgagaagacacaagcggcggcggcggaagcagaaggtttctcggattgagcggtcctcg tccttcagcagcatcacggactccaccatgtcactcaacatcatcacggtcactctcaac atggaaaaatataacttcttgggcatctccattgtgggccaaagcaacgagcgtggtgac ggcggcatctacattggctctatcatgaagggtggggccgtggctgctgatggacgcatc gagccaggagatatgttgttacaggtaaacgagatcaactttgagaacatgagtaatgac gatgcagtccgggtactgcgggagattgtgcacaaaccggggtatggatggaatggggca ctgggcaaggggcttggcgagcccatccggcccattgaccctgcggcctgggtctcccac actgcagccatgaccggcaccttccctgcatacggcatgagcccctccctgagcaccatc acctccaccagctcctccatcaccagttccatccctgacacagagcgcctagacgacttc cacttgtccatccacagtgacatggctgccatcgtaaaagccatggcctcccctgaatca gggttggaggtccgtgaccgcatgtggctcaagattaccatccctaatgctttcatcggc tcagatgtggtggactggctgtaccacaatgtggaaggcttcacggaccggagggaggcc cgcaagtatgccagcaacctgctgaaagctggcttcatccgccataccgtcaacaagatc accttctccgagcagtgctactacatcttcggtgacctctgcggcaacatggccaacctg tctctccacgatcacgatggctccagtggcgcctctgaccaggacacactggcccctttg ccgcacccgggggccgccccttggcccatggctttcccgtaccagtacccgccacccccg cacccatacaacccgcacccgggcttcccggagctgggctacagctacggcgggggcagc gccagcagtcagcacagcgaaggcagtcggagcagtggctccaaccgtagcggcagcgat cggaggaaggagaaggacccgaaggccggggactccaagtccgggggcagcggcagcgaa tcggaccacaccacacgcagcagcctgcgggggccgcgggagcgggcgcccagcgagcgc tcagggccggcggccagcgagcacagccaccgcagccaccattccctggccagcagcctt cgcagccaccacacacacccgagctacggtcctcccggagtgccccctctctacggcccc cccatgctgatgatgcccccgccgcccgcggccatggggcccccaggagcccctccgggc cgcgacctggcctcagtgcccccggaactgaccgccagcagacagtccttccgcatggcc atgggaaaccccagtgagttctttgtggatgtgatgtga >gi568815595r:184160160_184361285|GENSCAN_predicted_peptide_2|433_aa MIGGLFIYNHKGEVLISRVYRDDIGRNAVDAFRVNVIHARQQVRSPVTNIARTSFFHVKR SNIWLAAVTKQNVNAAMVFEFLYKMCDVMAAYFGKISEENIKNNFVLIYELLDEILDFGY PQNSETGALKTFITQQGIKSQTKEEQSQITSQVTGQIGWRREGIKYRRNELFLDVLESVN LLMSPQGQVLSAHVSGRVVMKSYLSGMPECKFGMNDKIVIEKQGKGTADETSKSGKQSIA IDDCTFHQCVRLSKFDSERSISFIPPDGEFELMRYRTTKDIILPFRVIPLVREVGRTKLE VKVVIKSNFKPSLLAQKIEVRIPTPLNTSGVQVICMKGKAKYKASENAIVWKIKRMAGMK ESQISAEIELLPTNDKKKWARPPISMNFEVPFAPSGLKVRYLKVFEPKLNYSDHDVIKWV RYIGRSGIYETRC >gi568815595r:184160160_184361285|GENSCAN_predicted_CDS_2|1302_bp atgattggaggcttattcatctataatcacaagggggaggtgctcatctcccgagtctac cgagatgacatcgggaggaacgcagtggatgcctttcgggtcaatgttatccatgcccgg cagcaggtgcgcagccccgtcaccaacattgctcgcaccagcttcttccacgttaagcgg tccaacatttggctggcagcagtcaccaagcagaatgtcaacgctgccatggtcttcgaa ttcctctataagatgtgtgacgtgatggctgcctactttggcaagatcagcgaggaaaac atcaagaacaattttgtgctcatatatgagctgctggatgagattctagactttggctac ccacagaattccgagacaggcgcgctgaaaaccttcatcacgcagcagggcatcaagagt cagacaaaagaagagcagtcacagatcaccagccaggtaactgggcagattggctggcgg cgagagggtatcaagtatcgtcggaatgagctcttcctggatgtgctggagagtgtgaac ctgctcatgtccccacaagggcaggtgctgagtgcccatgtgtcgggccgggtggtgatg aagagctacctgagtggcatgcctgaatgcaagtttgggatgaatgacaagattgttatt gaaaagcagggcaaaggcacagctgatgaaacaagcaagagcgggaagcaatcaattgcc attgatgactgcaccttccaccagtgtgtgcgactcagcaagtttgactctgaacgcagc atcagctttatcccgccagatggagagtttgagcttatgaggtatcgcacaaccaaggac atcatccttcccttccgggtgatcccgctagtgcgagaagtgggacgcaccaaactggag gtcaaggtggtcatcaagtccaactttaaaccctcactgctggctcagaagatcgaggtg aggatcccaaccccactgaacacaagcggggtgcaggtgatctgcatgaaggggaaggcc aagtacaaggccagcgagaatgccatcgtgtggaagatcaagcgcatggcaggcatgaag gaatcgcagatcagcgcagagattgagcttctgcctaccaacgacaagaagaaatgggct cgaccccccatttccatgaactttgaggtgccattcgcgccctctggcctcaaggtgcgc tacttgaaggtgtttgaaccgaagctgaactacagcgaccatgatgtcatcaaatgggtg cgctacattggccgcagtggcatttatgaaactcgctgctag >gi568815595r:184160160_184361285|GENSCAN_predicted_peptide_3|709_aa MATCAEILRSEFPEIDGQVFDYVTGVLHSGSADFESVDDLVEAVGELLQEVSGDSKDDAG IRAVCQRMYNTLRLAEPQSQGNSQVLLDAPIQLSKITENYDCGTKLPGLLKREQSSTVNA KKLEKAEARLKAKQEKRSEKDTLKTSNPLVLEEASASQAGSRKESRLESSGKNKSYDVRI ENFDVSFGDRVLLAGADVNLAWGRRYGLVGRNGLGKTTLLKMLATRSLRVPAHISLLHVE QEVAGDDTPALQSVLESDSVREDLLRRERELTAQIAAGRAEGSEAAELAEIYAKLEEIEA DKAPARASVILAGLGFTPKMQQQPTREFSGGWRMRLALARALFARPDLLLLDEPTNMLDV RAILWLENYLQTWPSTILVVSHDRNFLNAIATDIIHLHSQRLDGYRGDFETFIKSKQERL LNQQREYEAQQQYRQHIQVFIDRFRYNANRASQVQSKLKMLEKLPELKPVDKESEVVMKF PDGFEKFSPPILQLDEVDFYYDPKHVIFSRLSVSADLESRICVVGENGAGKSTMLKLLLG DLAPVRGIRHAHRNLKIGYFSQHHVEQLDLNVSAVELLARKFPGRPEEEYRHQLGRYGIS GELAMRPLASLSGGQKSRVAFAQMTMPCPNFYILDEPTNHLDMETIEALGRALNNFRGGV ILVSHDERFIRLVCRELWVCEGGGVTRVEGGFDQYRALLQEQFRREGFL >gi568815595r:184160160_184361285|GENSCAN_predicted_CDS_3|2130_bp atggcgacttgcgccgaaatcctgcggagcgagttccccgaaattgacggacaagtcttc gactacgtgaccggcgtcttgcacagcggcagcgcggacttcgagtctgtggatgacctg gtggaagctgtaggggaactattgcaagaggtgtccggggacagcaaggatgacgcgggc atcagggccgtgtgccagcgcatgtacaacactctgcgtctggctgagccacaaagccag ggaaatagccaggtgctactggacgcccctatccagttgtcaaagataacggagaactac gactgtggaaccaaacttccaggactgctaaagagggaacagtcctcgacagtgaatgca aagaagttagagaaggccgaggctcgacttaaggcaaagcaggagaagcgctcagagaag gacacgctcaagaccagcaaccctctagtcttagaagaggcatcagccagccaggcaggc agcagaaaggagagtcggttggaatcatctggcaagaacaaatcctatgatgtgcgaatt gagaactttgatgtgtcttttggcgatagagtactgctggctggagcggatgtgaacctg gcatggggccgccgttacgggctggtggggcggaatgggttggggaagacaacgttactg aagatgctggccacccggagtctgcgggttccagcccacatttccctgctgcacgttgag caagaggttgctggagatgacactcctgccctgcagagtgtgctggagagtgacagtgtg cgagaggatttgctacggagggagcgggagctcactgcccagattgctgctggcagggcg gagggctctgaagctgcagagctggcagaaatctatgccaaactggaggagattgaggct gacaaggcacctgccagggcatcagtcattctcgctgggcttggctttacccctaaaatg cagcagcagcccacccgggagttctcaggtggctggaggatgaggctggccctggcccgg gccctctttgctaggccagatcttctgctgttagatgaacctacaaacatgctggatgtc agggccatcctgtggctggagaattacctgcagacgtggccctccaccatcctagtcgtc tcccacgaccgcaacttcttgaatgccatcgccacagacatcatccacctgcacagccag cggctagatggttaccggggagactttgagaccttcatcaagagtaagcaggagcggctg ctcaaccagcagcgtgaatatgaggcgcagcagcagtatcgccagcacatccaggttttc attgaccggtttcgctacaatgccaacagggcctctcaagtgcagagtaaactcaagatg ctggagaagctgcctgagctgaagcctgtggacaaggaatcagaggtcgtaatgaagttc cctgatgggtttgagaagttctcgccgccaattctgcagctagatgaggtggatttctac tacgatccgaagcacgtcatcttcagtcgcctctctgtgtctgctgatctcgagtctcgc atctgtgtggttggagagaatggggctgggaagtctaccatgctgaagctgcttttgggg gacctggcacctgttcggggcatcagacacgctcacaggaatctgaagattggctatttc agccagcaccatgtggagcagctggacctaaacgtcagtgctgtggaactgctggcacgc aagtttcctgggcggcctgaggaggagtaccgtcaccagctgggtcggtatggcatctcc ggagaactggccatgcgtcctcttgccagcctgtctgggggccagaagagccgagtggcc tttgctcagatgactatgccctgccccaacttctacattctggatgaacccacaaaccac ctggacatggagaccattgaggctctgggccgtgccctcaacaatttcaggggtggtgtg attctggtgtcccacgatgagcgctttatcaggctggtgtgccgggagttgtgggtatgc gaaggaggcggcgtcacccgtgtggaaggaggatttgaccagtaccgcgccctcctccag gaacagttccgccgcgaaggcttcctctag >gi568815595r:184160160_184361285|GENSCAN_predicted_peptide_4|1232_aa MGPTRKLTSYWLSSIPSSPQALSAESQYGICQKAYMDDPQTWAGGLRGDSGPLNLRLPGA SSISTRAASDSWRPRGAPGGRQGRPPGAMPGLYCPSSWTPLPLTDSWVRACANGPCLSVR ARLTYRNPQPQPVDGVFVYPLAEAEVVSGFEAEAAGRRVSFQLQSRRRSQAACCRALGPG LGTPTPRRCAQGHLVLDLAQARSTLVLPTGIIAAAGTMTVTLHSSRELPSRPDGVLHVAL PTVLTPLAPPGPPGPPRPPGLCDDSPTSCFGVGSLQEEGLAWEELAAPRDVFSGPARCPA PYTFSFEMLVTGPCLLAGLESPSHALRADAPPHASSAATICVTLAEGHHCDRALEILLHP SEPHQPHLMLEGGSLSSAEYEARVRARRDFQRLQRRDSDGDRQVWFLQRRFHKDILLNPV LALSFCPDLSSKPGHLGTATRELLFLLDSSSVAHKARGGVDAIVLAVKSLPPQTLINLAV FGTLVQPLFPESRPCSDDAVQLICESIETLQVPSGPPDVLAALDWAVGQPQHRAYPRQLF LLTAASPMAATTHRTLELMRWHRGTARCFSFGLGPTCHQLLQGLSALSRGQAYFLRPGQR LQPMLVQALRKALEPALSDISVDWFVPDTVEALLTPREIPALYPGDQLLGYCSLFRVDGF RSRPPGGQEPGWQSSGGSVFPSPEEAPSAASPGTEPTGTSEPLGTGTVSAELSSPWAARD SEQTGTDALTDPVTDPGPNPSDTAIWRRIFQSSYIREQYVLTHCSASPEPGPGSTGSSRA NQVPGRPRKPSLGAILDGPSPEPGQQLGQGLDDSGNLLSPAPMDWDMLMEPPFLFTAVPP SGELAPPAVPPQAPRCHVVIRGLCGEQPMCWEVGVGLETLWGPGDGSQPPSPPVREAAWD QALHRLTAASVVRDNEQLALRGGAETTADRAVDATTREVLPGALQVCSSEPAEPPGTPPA SHSHLDAAPLPTVVYSKGLQRGSPAGAWDSDQNGNSKRALGDPATPTEGPRRPPPRPPCR LSMGRRHKLCSPDPGQANNSEGSDHDYLPLVRLQEAPGSFRLDAPFCAAVRISQERLCRA SPFAVHRASLSPTSASLPWALLGPGVGQGDSATASCSPSPSSGSEGPGQVDSGRGSDTEA SEGAEGLGGTDLRGRTWATAVALAWLEHRCAAAFDEWELTAAKADCWLRAQHLPDGLDLA ALKAAARGLFLLLRHWDQNLQLHLLCYSPANV >gi568815595r:184160160_184361285|GENSCAN_predicted_CDS_4|3699_bp atgggcccgactcgaaagctcacttcctactggctgtcctccatccccagctctcctcaa gctctctctgcagaatctcagtatggcatctgccaaaaagcttacatggatgatccccaa acatgggccgggggcctccggggggattcgggccctttaaacctccgccttcccggagca tcttccatctccacccgcgccgcttccgacagctggcggccgcggggggccccggggggc cggcagggccggcctcccggcgccatgcccggcctgtactgcccctccagctggacgccg ctgccgctcacggactcctgggtccgggcctgcgccaacggcccctgcctcagcgtgcgg gcccggctcacctaccgcaacccgcagccgcagccggtggacggcgtgttcgtgtacccg ctggccgaggccgaggtggtgtccggcttcgaggccgaggccgccggacggcgcgtctcc ttccagctgcagagccggcgccgctcgcaggccgcctgctgccgcgctctgggcccgggg ctggggaccccgacgccccgccgctgcgcgcagggtcatcttgtcttggatctggcccag gcccggtccacgttggtgctgcccacaggcattatcgccgcggctggcaccatgacggtg accctgcacagcagccgggagctgccctcaaggcctgacggggtgctgcatgtggccctg cccactgtgctcaccccgctggccccgccaggcccgccggggccccccaggcctccgggg ctctgtgacgacagccccaccagctgcttcggggtgggcagccttcaggaggaagggctg gcctgggaggagctggctgcccctcgggacgtgttctcaggccctgcccgctgccctgcc ccatataccttctccttcgagatgctggtgactgggccatgcctgcttgcaggcctggag agcccctctcatgctctgcgggcagatgccccccctcatgccagctctgcagccaccatc tgtgtcacactggcagagggccaccactgtgaccgggccttggagatcctgctgcacccc agtgagccccatcagccacacctgatgctggagggcggcagcctgagctcagcagaatat gaggcccgggtgagggcccgccgagattttcagaggctacagcgaagggacagtgatggg gaccggcaggtgtggttcctgcagcgacgcttccacaaggacatcctgctgaaccccgtg ctggcgctgagcttctgcccagacctgagctccaagcccggacacctggggacagctact cgggagctactcttccttttggatagcagcagcgtggcacacaaggcccgtgggggtgtg gatgccattgttttggctgtgaagtccctcccgccccagacgcttatcaacctggccgtg tttgggacgttggtgcagccactcttcccagagagccggccttgcagtgatgatgctgtg cagctgatctgcgagagcattgagaccctgcaggttccgagtgggcccccagacgtgctg gctgctctggactgggccgtggggcagccccagcacagggcctaccctcggcagctgttc ctgctcactgctgcctcacccatggccgccactacccaccgaaccctggagctcatgagg tggcacagggggacagccagatgcttctcctttgggctggggcccacctgccaccagctg ctccagggtttatctgccctcagcagaggccaggcctacttcctgaggcctgggcagagg ctgcagcccatgctggtacaggctctgcggaaggcactggagcctgctttgagtgacatc tctgtggactggtttgtgcccgacactgtggaggcactgctgaccccccgggagatccca gcactctaccctggggaccagctgctcggttactgctcactcttcagggtggatggcttc cggtcccgcccaccagggggccaagagcctggctggcagagctcgggtgggtccgtgttt ccatccccagaagaggccccgtctgctgccagccctggcactgagcccactggcacctca gagccactgggaacaggcactgtctcagcagaactgtccagcccatgggctgccagggac tcggagcagacaggtactgatgctctgacagacccagtcacggatcctggacccaacccc tctgacacagccatatggcgccgcatctttcagtcctcgtacattcgggagcagtatgtg ctcacccactgctctgccagccccgagccaggcccaggctccacaggcagcagccgggca aaccaagtccccggccgaccccggaaaccctctttgggtgcaatactagatggcccaagt cctgagccaggccaacagttgggacaaggcctggatgactcaggaaacctgctctcccca gcccctatggactgggacatgctgatggaaccacccttcttattcacggctgtgcctcct agtggggagttggcccctccagcagtgcctccccaggctccacgctgccatgtggtgatc cggggcctgtgtggggagcagcccatgtgctgggaggtgggtgttgggctggagacactg tggggacctggagatggctcacagcctccctcacctcctgtaagagaagctgcttgggac caagcactccatcggctgacagcagcctctgtggtccgggacaatgagcagctggccctc cgaggaggggcagagaccacagctgaccgggctgtggatgctactactagggaggtcctg cctggggccctgcaggtgtgcagctcagagcccgctgagcccccaggaacccctcctgcc tctcacagccatctagatgcagctcctctgcccactgttgtctactctaaaggacttcag agaggctctccagcaggcgcctgggactcggaccaaaatggcaactccaagcgtgctttg ggggaccctgccactcccacggaaggtcctcgccgcccacctccccgtcctccctgtcgg ctcagcatgggccgccgtcacaaactctgtagccctgacccgggccaggccaacaacagt gaaggcagcgaccatgactacctgcccttggtgcggctgcaggaggcaccaggctccttc cgcctggacgcgcccttctgcgccgctgtgcgcatctcgcaggagcgcctctgccgtgcc tcgccctttgccgtgcaccgcgccagcctcagccccacctcggcctcattgccctgggca cttctgggccctggtgttggccagggtgacagtgccacggcctcctgcagcccgtccccc agctcgggctctgaggggccaggccaggtggacagtgggcggggctcagacaccgaggcc tccgagggggcggaagggctgggcggcaccgacctgcggggccggacctgggccactgcc gtagcactcgcctggctggagcaccgatgcgccgctgccttcgacgagtgggaactgaca gcggccaaggctgattgctggctgcgggcccagcacttgcctgacggccttgacctggcc gccctcaaggccgcagcccgagggctcttcctgctactgcgccactgggaccaaaacctg cagctacacctgctgtgctacagcccagcgaacgtgtga >gi568815595r:184160160_184361285|GENSCAN_predicted_peptide_5|443_aa MAAGLRKRGRSGSAAQAEGLCKQWLQRAWQERRLLLREPRYTLLVAACLCLAEVGITFWV IHRVAYTEIDWKAYMAEVEGVINGTYDYTQLQGDTGPLVYPAGFVYIFMGLYYATSRGTD IRMAQNIFAVLYLATLLLVFLIYHQTCKVPPFVFFFMCCASYRVHSIFVLRLFNDPVAMV LLFLSINLLLAQRWGWGCCFFSLAVSVKMNVLLFAPGLLFLLLTQFGFRGALPKLGICAG LQVVLGLPFLLENPSGYLSRSFDLGRQFLFHWTVNWRFLPEALFLHRAFHLALLTAHLTL LLLFALCRWHRGKYLVAAEGSLQKEGSTPAPYTQPYPLNCGKIVSTLFTSNFIGICFSRS LHYQFYVWYFHTLPYLLWAMPARWLTHLLRLLVLGLIELSWNTYPSTSCSSAALHICHAV ILLQLWLGPQPFPKSTQHSKKAH >gi568815595r:184160160_184361285|GENSCAN_predicted_CDS_5|1332_bp atggcggctgggctgcggaaacgcggccggtccggttccgcggcccaggcagagggactc tgcaagcaatggctgcagcgcgcctggcaagagcggcgcctgctgctgcgggagccgcgc tacacgctgctggtggccgcctgcctctgcctggcggaggtgggcatcaccttctgggtc attcacagggtggcatacacagagattgactggaaggcctacatggccgaggtagaaggc gtcatcaatggtacctatgactatacccaactgcagggtgacaccggaccacttgtgtac ccagctggtttcgtgtacatctttatggggttgtactatgccaccagccgaggcactgac atccgcatggcccagaacatctttgctgtgctctacctggctaccttgctgcttgtcttc ttgatctatcaccagacctgcaaggtacctcccttcgtctttttcttcatgtgctgcgcc tcttaccgtgtccactccatctttgtgctgcggctcttcaatgacccagtggccatggtg ctgctcttcctcagtatcaacctcctgctggcccagcgctggggctggggttgctgcttt ttcagcctggcagtctctgtgaagatgaatgtgctgctcttcgcccctgggttactgttt cttctcctcacacagtttggcttccgtggggccctccccaagctgggaatctgtgctggc cttcaggtggtgctggggctgcccttcctgctggagaaccccagcggctacctgtcccgc tcctttgaccttggccgccagtttctgttccactggacagtgaactggcgcttcctccca gaggcgctcttcctgcatcgagccttccacctggccctgttgactgcccacctcaccctg ctcctgctgtttgccctctgcaggtggcacaggggaaagtatcttgtcgctgctgaggga tccctccaaaaggaaggttccaccccagccccttacacccaaccatatcctttaaattgt gggaagatcgtttctaccctcttcacctccaacttcattggcatctgcttcagccgctcc ctccactaccagttctacgtctggtatttccacacactgccctacctcctgtgggccatg cctgcacgctggctcacacacctgctcaggttgttggtgctggggctcatcgagctctcc tggaacacatacccttccacatcctgcagctctgctgccctgcacatatgccatgccgtc atcctgctgcagctctggctgggcccgcagcctttccccaagagcacccaacacagcaag aaagcccactga >gi568815595r:184160160_184361285|GENSCAN_predicted_peptide_6|307_aa MTWQYSRRIQGLDDSFPSRRILRRALSKGRKFHVFVLSNCRAGGSGCPAVESMASPGAGR APPELPERNCGYREVEYWDQRYQGAADSAPYDWFGDFSSFRALLEPELRPEDRILVLGCG NSALSYELFLGGFPNVTSVDYSSVVVAAMQARHAHVPQLRWETMDVRKLDFPSASFDVVL EKGTLDALLAGERDPWTVSSEGVHTVDQVLSEVSRVLVPGGRFISMTSAAPHFRTRHYAQ AYYGWSLRHATYGSGFHFHLYLMHKGGKLSVAQLALGAQILSPPRPPTSPCFLQDSDHED FLSAIQL >gi568815595r:184160160_184361285|GENSCAN_predicted_CDS_6|924_bp atgacttggcagtacagccggaggattcagggtctggacgatagttttcccagccggagg attcttcgaagagcgcttagtaaaggacggaagttccacgtgtttgtgttgagcaactgc agggccggcggctctggctgcccggcggttgagagcatggcctctccaggggcaggtagg gcgcctccggagttaccggagcggaactgcgggtaccgcgaagtcgagtactgggatcag cgctaccaaggcgcagccgattctgccccctacgattggttcggggacttctcctccttc cgtgccctcctagagccggagctgcggcccgaggaccgtatccttgtgctaggttgcggg aacagtgccctgagctacgagctgttcctcggaggcttccctaatgtgaccagtgtggac tactcatcagtcgtggtggctgccatgcaggctcgccatgcccatgtgccgcagctgcgc tgggagaccatggatgtgcggaagctggacttccccagtgcttcttttgatgtggtgctc gagaagggcacgctggatgccctgctggctggggaacgagatccctggaccgtgtcctct gaaggtgtccacactgtggaccaggtgttgagtgaggtgagccgcgtgcttgtccctgga ggccggtttatctcaatgacttctgctgccccccactttcggaccagacactatgcccaa gcctattatggctggtccctgaggcatgctacctatggcagcggtttccacttccatctc tacctcatgcacaagggcgggaagctcagtgtggcccagctggctctgggggcccaaatc ctctcaccccccagacctcccacctcaccttgcttccttcaggactcagatcatgaggac ttccttagtgccattcagctctga >gi568815595r:184160160_184361285|GENSCAN_predicted_peptide_7|165_aa MSEILPYSEDKMGRFGADPEGSDLSFSCRLQDTNSFFAGNQAKRPPKLGQIGRAKRGARG RGLQGRAAAAARHSGAVRFSTTAAAVAAARTRPEPAAALMHFKTSGRSPTPHTGTDTETR GPQPPARPLPHGSPAPPPSGQSGLQTGRPPVSDRARPGMFGCVLA >gi568815595r:184160160_184361285|GENSCAN_predicted_CDS_7|498_bp atgtccgagatcctgccctacagcgaagacaagatgggccgcttcggcgcagaccccgag ggctccgacctctccttcagctgccgcctgcaggacaccaactccttcttcgcgggcaac caggccaagcgaccccccaagctgggccagatcggccgagccaagcgaggcgcccgcggg cgggggctgcagggccgtgccgccgccgccgccaggcactccggagctgtccgcttcagc accacggcggccgcggtagcggcggcgcggacccgcccggaacccgccgccgcgctcatg cactttaaaacctcgggccgcagccccaccccgcacaccggaacggacacggagacccgc ggcccccagcccccggcccgccccctcccgcacggctcccctgccccgcccccctccggc cagtctggtctgcagaccgggcggccgccggtgtcggaccgcgcgcggccagggatgttt ggctgcgtacttgcatga >gi568815595r:184160160_184361285|GENSCAN_predicted_peptide_8|1707_aa MNVALQELGAGSNMVEYKRATLRDEDAPETPVEGGASPDAMEVGFQKGTRQLLGSRTQLE LVLAGASLLLAALLLGCLVALGVQYHRDPSHSTCLTEACIRVAGKILESLDRGVSPCEDF YQFSCGGWIRRNPLPDGRSRWNTFNSLWDQNQAILKHLLENTTFNSSSEAEQKTQRFYLS CLQVERIEELGAQPLRDLIEKIGGWNITGPWDQDNFMEVLKAVAGTYRATPFFTVYISAD SKSSNSNVIQVDQSGLFLPSRDYYLNRTANEKVLTAYLDYMEELGMLLGGRPTSTREQMQ QVLELEIQLANITVPQDQRRDEEKIYHKMSISELQALAPSMDWLEFLSFLLSPLELSDSE PVVVYGMDYLQQVSELINRTEPSILNNYLIWNLVQKTTSSLDRRFESAQEKLLETLYGTK KSCVPRWQTCISNTDDALGFALGSLFVKATFDRQSKEIAEGMISEIRTAFEEALGQLVWM DEKTRQAAKEKADAIYDMIGFPDFILEPKELDDVYDGYEISEDSFFQNMLNLYNFSAKVM ADQLRKPPSRDQWSMTPQTVNAYYLPTKNEIVFPAGILQAPFYARNHPKALNFGGIGVVM GHELTHAFDDQGREYDKEGNLRPWWQNESLAAFRNHTACMEEQYNQYQVNGERLNGRQTL GENIADNGGLKAAYNAYKAWLRKHGEEQQLPAVGLTNHQLFFVGFAQVWCSVRTPESSHE GLVTDPHSPARFRVLGTLSNSRDFLRHFGCPVGSPMNPGQLCEAGSGGGGAPRPTRASWS GKKGGASGCARSGPAVAAEMEEGGRDKAPVQPQQSPAAAPGGTDEKPSGKERRDAGDKDK EQELSEEDKQLQDELEMLVERLGEKDTSLYRPALEELRRQIRSSTTSMTSVPKPLKFLRP HYGKLKEIYENMAPGENKRFAADIISVLAMTMSGERECLKYRLVGSQEELASWGHEYVRH LAGEVAKEWQELDDAEKVQREPLLTLVKEIVPYNMAHNAEHEACDLLMEIEQVDMLEKDI DENAYAKVCLYLTSCVNYVPEPENSALLRCALGVFRKFSRFPEALRLALMLNDMELVEDI FTSCKDVVVQKQMAFMLGRHGVFLELSEDVEEYEDLTEIMSNVQLNSNFLALARELDIME PKVPDDIYKTHLENNRFGGSGSQVDSARMNLASSFVNGFVNAAFGQDKLLTDDGNKWLYK NKDHGMLSAAASLGMILLWDVDGGLTQIDKYLYSSEDYIKSGALLACGIVNSGVRNECDP ALALLSDYVLHNSNTMRLGSIFGLGLAYAGSNREDVLTLLLPVMGDSKSSMEVAGVTALA CGMIAVGSCNGDVTSTILQTIMEKSETELKDTYARWLPLGLGLNHLGKGEAIEAILAALE VVSEPFRSFANTLVDVCAYAGSGNVLKVQQLLHICSEHFDSKEKEEDKDKKEKKDKDKKE APADMGAHQGVAVLGIALIAMGEEIGAEMALRTFGHLLRYGEPTLRRAVPLALALISVSN PRLNILDTLSKFSHDADPEVSYNSIFAMGMVGSGTNNARLAAMLRQLAQYHAKDPNNLFM VRLAQGLTHLGKGTLTLCPYHSDRQLMSQVAVAGLLTVLVSFLDVRNIILGKSHYVLYGL VAAMQPRMLVTFDEELRPLPVSVRVGQAVDVVGQAGKPKTITGFQTHTTPVLLAHGERAE LATEEFLPVTPILEGFVILRKNPNYDL >gi568815595r:184160160_184361285|GENSCAN_predicted_CDS_8|5124_bp atgaacgtcgcgctgcaggagctgggagctggcagcaacatggtggagtacaaacgggcc acgcttcgggatgaagacgcacccgagacccccgtagagggcggggcctccccggacgcc atggaggtgggattccagaaggggacaagacagctgttaggctcacgcacgcagctggag ctggtcttagcaggtgcctctctactgctggctgcactgcttctgggctgccttgtggcc ctaggggtccagtaccacagagacccatcccacagcacctgccttacagaggcctgcatt cgagtggctggaaaaatcctggagtccctggaccgaggggtgagcccctgtgaggacttt taccagttctcctgtgggggctggattcggaggaaccccctgcccgatgggcgttctcgc tggaacaccttcaacagcctctgggaccaaaaccaggccatactgaagcacctgcttgaa aacaccaccttcaactccagcagtgaagctgagcagaagacacagcgcttctacctatct tgcctacaggtggagcgcattgaggagctgggagcccagccactgagagacctcattgag aagattggtggttggaacattacggggccctgggaccaggacaactttatggaggtgttg aaggcagtagcagggacctacagggccaccccattcttcaccgtctacatcagtgccgac tctaagagttccaacagcaatgttatccaggtggaccagtctgggctctttctgccctct cgggattactacttaaacagaactgccaatgagaaagtgctcactgcctatctggattac atggaggaactggggatgctgctgggtgggcggcccacctccacgagggagcagatgcag caggtgctggagttggagatacagctggccaacatcacagtgccccaggaccagcggcgc gacgaggagaagatctaccacaagatgagcatttcggagctgcaggctctggcgccctcc atggactggcttgagttcctgtctttcttgctgtcaccattggagttgagtgactctgag cctgtggtggtgtatgggatggattatttgcagcaggtgtcagagctcatcaaccgcacg gaaccaagcatcctgaacaattacctgatctggaacctggtgcaaaagacaacctcaagc ctggaccgacgctttgagtctgcacaagagaagctgctggagaccctctatggcactaag aagtcctgtgtgccgaggtggcagacctgcatctccaacacggatgacgcccttggcttt gctttggggtccctcttcgtgaaggccacgtttgaccggcaaagcaaagaaattgcagag gggatgatcagcgaaatccggaccgcatttgaggaggccctgggacagctggtttggatg gatgagaagacccgccaggcagccaaggagaaagcagatgccatctatgatatgattggt ttcccagactttatcctggagcccaaagagctggatgatgtttatgacgggtacgaaatt tctgaagattctttcttccaaaacatgttgaatttgtacaacttctctgccaaggttatg gctgaccagctccgcaagcctcccagccgagaccagtggagcatgaccccccagacagtg aatgcctactaccttccaactaagaatgagatcgtcttccccgctggcatcctgcaggcc cccttctatgcccgcaaccaccccaaggccctgaacttcggtggcatcggtgtggtcatg ggccatgagttgacgcatgcctttgatgaccaagggcgcgagtatgacaaagaagggaac ctgcggccctggtggcagaatgagtccctggcagccttccggaaccacacggcctgcatg gaggaacagtacaatcaataccaggtcaatggggagaggctcaacggccgccagacgctg ggggagaacattgctgacaacggggggctgaaggctgcctacaatgcttacaaagcatgg ctgagaaagcatggggaggagcagcaactgccagccgtggggctcaccaaccaccagctc ttcttcgtgggatttgcccaggtgtggtgctcggtccgcacaccagagagctctcacgag gggctggtgaccgacccccacagccctgcccgcttccgcgtgctgggcactctctccaac tcccgtgacttcctgcggcacttcggctgccctgtcggctcccccatgaacccagggcag ctgtgtgaggcgggctctggaggaggaggggcgccgcgaccgacgcgcgcgagttggtct gggaaaaagggcggtgcgagcgggtgcgcgcgcagcgggccggcagtggcggcggagatg gaggagggaggccgggacaaggcgccggtgcagccccagcagtctccagcggcggccccc ggcggcacggacgagaagccgagcggcaaggagcggcgggatgccggggacaaggacaaa gaacaggagctgtctgaagaggataaacagcttcaagatgaactggagatgctcgtggaa cgactaggggagaaggatacatccctgtatcgaccagcgctggaggaattgcgaaggcag attcgttcttctacaacttccatgacttcagtgcccaagcctctcaaatttctgcgtcca cactatggcaaactgaaggaaatctatgagaacatggcccctggggagaataagcgtttt gctgctgacatcatctccgttttggccatgaccatgagtggggagcgtgagtgcctcaag tatcggctagtgggctcccaggaggaattggcatcatggggtcatgagtatgtcaggcat ctggcaggagaagtggctaaggagtggcaggagctggatgacgcagagaaggtccagcgg gagcctctgctcactctggtgaaggaaatcgtcccctataacatggcccacaatgcagag catgaggcttgcgacctgcttatggaaattgagcaggtggacatgctggagaaggacatt gatgaaaatgcatatgcaaaggtctgcctttatctcaccagttgtgtgaattacgtgcct gagcctgagaactcagccctactgcgttgtgccctgggtgtgttccgaaagtttagccgc ttccctgaagctctgagattggcattgatgctcaatgacatggagttggtagaagacatc ttcacctcctgcaaggatgtggtagtacagaaacagatggcattcatgctaggccggcat ggggtgttcctggagctgagtgaagatgtcgaggagtatgaggacctgacagagatcatg tccaatgtacagctcaacagcaacttcttggccttagctcgggagctggacatcatggag cccaaggtgcctgatgacatctacaaaacccacctagagaacaacaggtttgggggcagt ggctctcaggtggactctgcccgcatgaacctggcctcctcttttgtgaatggctttgtg aatgcagcttttggccaagacaagctgctaacagatgatggcaacaaatggctttacaag aacaaggaccacggaatgttgagtgcagctgcatctcttgggatgattctgctgtgggat gtggatggtggcctcacccagattgacaagtacctgtactcctctgaggactacattaag tcaggagctcttcttgcctgtggcatagtgaactctggggtccggaatgagtgtgaccct gctctggcactgctctcagactatgttctccacaacagcaacaccatgagacttggttcc atctttgggctaggcttggcttatgctggctcaaatcgtgaagatgtcctaacactgctg ctgcctgtgatgggagattcaaagtccagcatggaggtggcaggtgtcacagctttagcc tgtggaatgatagcagtagggtcctgcaatggagatgtaacttccactatccttcagacc atcatggagaagtcagagactgagctcaaggatacttatgctcgttggcttcctcttgga ctgggtctcaaccacctggggaagggtgaggccatcgaggcaatcctggctgcactggag gttgtgtcagagccattccgcagttttgccaacacactggtggatgtgtgtgcatatgca ggctctgggaatgtgctgaaggtgcagcagctgctccacatttgtagcgaacactttgac tccaaagagaaggaggaagacaaagacaagaaggaaaagaaagacaaggacaagaaggaa gcccctgctgacatgggagcacatcagggagtggctgttctggggattgcccttattgct atgggggaggagattggtgcagagatggcattacgaacctttggccacttgctgagatat ggggagcctacactccggagggctgtacctttagcactggccctcatctctgtttcaaat ccacgactcaacatcctggataccctaagcaaattctctcatgatgctgatccagaagtt tcctataactccatttttgccatgggcatggtgggcagtggtaccaataatgcccgtctg gctgcaatgctgcgccagttagctcaatatcatgccaaggacccaaacaacctcttcatg gtgcgcttggcacagggcctgacacatttagggaagggcacccttaccctctgcccctac cacagcgaccggcagcttatgagccaggtggccgtggctggactgctcactgtgcttgtc tctttcctggatgttcgaaacattattctaggcaaatcacactatgtattgtatgggctg gtggctgccatgcagccccgaatgctggttacgtttgatgaggagctgcggccattgcca gtgtctgtccgtgtgggccaggcagtggatgtggtgggccaggctggcaagccgaagact atcacagggttccagacgcatacaaccccagtgttgttggcccacggggaacgggcagaa ttggccactgaggagtttcttcctgttacccccattctggaaggttttgttatccttcgg aagaaccccaattatgatctctaa >gi568815595r:184160160_184361285|GENSCAN_predicted_peptide_9|1694_aa MCSAAQIARRGSAPCAGHVGAPAAPAEKRWPPSGICAGSRKWLWTTSVRLRGARPRGLKE TEGKAAMSGPDPAPPPPPPASAAIRAGTGHPAPPPRRPGPAARPRAPARQGPDPRPTCWG DPDVAPNEMNKAPQSTGPPPAPSPGLPQPAFPPGQTAPVVFSTPQATQMNTPSQPRQHFY PSRAQPPSSAASRVQSAAPARPGPAAHVYPAGSQVMMIPSQISYPASQGAYYIPGQGRST YVVPTQQYPVQPGAPGFYPGASPTEFGTYAGAYYPAQGVQQFPTGVAPTPVLMNQPPQIA PKRERKTIRIRDPNQGGKDITEEIMSGARTASTPTPPQTGGGLEPQANGETPQVAVIVRP DDRSQGAIIADRPGLPGPEHSPSESQPSSPSPTPSPSPVLEPGSEPNLAVLSIPGDTMTT IQMSVEESTPISRETGEPYRLSPEPTPLAEPILEVEVTLSKPVPESEFSSSPLQAPTPLA SHTVEIHEPNGMVPSEDLEPEVESSPELAPPPACPSESPVPIAPTAQPEELLNGAPSPPA VDLSPVSEPEEQAKEVTASMAPPTIPSATPATAPSATSPAQEEEMEEEEEEEEGEAGEAG EAESEKGGEELLPPESTPIPANLSQNLEAAAATQVAVSVPKRRRKIKELNKKEAVGDLLD AFKEANPAVPEVENQPPAGSNPGPESEGSGVPPRPEEADETWDSKEDKIHNAENIQPGEQ KYEYKSDQWKPLNLEEKKRYDREFLLGFQFIFASMQKPEGLPHISDVVLDKANKTPLRPL DPTRLQGINCGPDFTPSFANLGRTTLSTRGPPRGGPGGELPRGPAGLGPRRSQQGPRKEP RKIIATVLMTEDIKLNKAEKAWKPSSKRTAADKDRGEEDADGSKTQDLFRRVRSILNKLT PQMFQQLMKQVTQLAIDTEERLKGVIDLIFEKAISEPNFSVAYANMCRCLMALKVPTTEK PTVTVNFRKLLLNRCQKEFEKDKDDDEVFEKKQKEMDEAATAEERGRLKEELEEARDIAR RRSLGNIKFIGELFKLKMLTEAIMHDCVVKLLKNHDEESLECLCRLLTTIGKDLDFEKAK PRMDQYFNQMEKIIKEKKTSSRIRFMLQDVLDLRGSNWVPRRGDQGPKTIDQIHKEAEME EHREHIKVQQLMAKGSDKRRGGPPGPPISRGLPLVDDGGWNTVPISKGSRPIDTSRLTKI TKPGSIDSNNQLFAPGGRLSWGKGSSGGSGAKPSDAASEAARPATSTLNRFSALQQAVPT ESTDNRRVVQRSSLSRERGEKAGDRGDRLERSERGGDRGDRLDRARTPATKRSFSKEVEE RSRERPSQPEGLRKAASLTEDRDRGRDAVKREAALPPVSPLKAALSEEELEKKSKAIIEE YLHLNDMKEAVQCVQELASPSLLFIFVRHGVESTLERSAIAREHMGQLLHQLLCAGHLST AQYYQGLYEILELAEDMEIDIPHVWLYLAELVTPILQEGGVPMGELFREITKPLRPLGKA ASLLLEILGLLCKSMKVEYTLGEESEAPGQRALPSEELNRQLEKLLKEGSSNQRVFDWIE ANLSEQQIVSNTLVRALMTAVCYSAIIFETPLRVDVAVLKARAKLLQKYLCDEQKELQAL YALQALVVTLEQPPNLLRMFFDALYDEDVVKEDAFYSWESSKDPAEQQGKGVALKSVTAF FKWLREAEEESDHN >gi568815595r:184160160_184361285|GENSCAN_predicted_CDS_9|5085_bp atgtgctcggcggcgcagatcgcccggcgcggctccgccccctgcgccggtcacgtgggg gcgccggctgcgcctgcggagaagcggtggccgccgagcgggatctgtgcggggagccgg aaatggttgtggactacgtctgtgcggctgcgtggggctcggccgcgcggactgaaggag actgaaggtaaagccgccatgtccgggcccgacccggcccccccaccccctccccccgca tccgccgccatccgggccgggaccggccaccctgcgccgccgccccggcgccctggcccc gcggcccgacccagggccccggcccgccagggtcccgatccccggcccacgtgctggggg gaccctgatgtggcaccaaatgaaatgaacaaagctccacagtccacaggccccccaccc gccccatcccccggactcccacagccagcgtttcccccggggcagacagcgccggtggtg ttcagtacgccacaagcgacacaaatgaacacgccttctcagccccgccagcacttctac cctagccgggcccagcccccgagcagtgcagcctcccgagtgcagagtgcagcccctgcc cgccctggcccagctgcccatgtctaccctgctggatcccaagtaatgatgatcccttcc cagatctcctacccagcctcccagggggcctactacatccctggacaggggcgttccaca tacgttgtcccgacacagcagtaccctgtgcagccaggagccccaggcttctatccaggt gcaagccctacagaatttgggacctacgctggcgcctactatccagcccaaggggtgcag cagtttcccactggcgtggcccccaccccagttttgatgaaccagccaccccagattgct cccaagagggagcgtaagacgatccgaattcgagatccaaaccaaggaggaaaggatatc acagaggagatcatgtctggggcccgcactgcctccacacccacccctccccagacggga ggcggtctggagcctcaagctaatggggagacgccccaggttgctgtcattgtccggcca gatgaccggtcacagggagcaatcattgctgaccggccagggctgcctggcccagagcat agcccttcagaatcccagccttcgtcgccttctccgaccccatcaccatccccagtcttg gaaccggggtctgagcctaatctcgcagtcctctctattcctggggacactatgacaact atacaaatgtctgtagaagaatcaacccccatctcccgtgaaactggggagccatatcgc ctctctccagaacccactcctctcgccgaacccatactggaagtagaagtgacacttagc aaaccggttccagaatctgagttttcttccagtcctctccaggctcccacccctttggca tctcacacagtggaaattcatgagcctaatggcatggtcccatctgaagatctggaacca gaggtggagtcaagcccagagcttgctcctcccccagcttgcccctccgaatcccctgtg cccattgctccaactgcccaacctgaggaactgctcaacggagccccctcgccaccagct gtggacttaagcccagtcagtgagccagaggagcaggccaaggaggtgacagcatcaatg gcgccccccaccatcccctctgctactccagctacggctccttcagctacttccccagct caggaggaggaaatggaagaagaagaagaagaggaagaaggagaagcaggagaagcagga gaagctgagagtgagaaaggaggagaggaactgctccccccagagagtacccctattcca gccaacttgtctcagaatttggaggcagcagcagccactcaagtggcagtatctgtgcca aagaggagacggaaaattaaggagctaaataagaaggaggctgttggagaccttctggat gccttcaaggaggcgaacccggcagtaccagaggtggaaaatcagcctcctgcaggcagc aatccaggcccagagtctgagggcagtggtgtgcccccacgtcctgaggaagcagatgag acctgggactcaaaggaagacaaaattcacaatgctgagaacatccagcccggggaacag aagtatgaatataagtcagatcagtggaagcctctaaacctagaggagaaaaaacgttac gaccgtgagttcctgcttggttttcagttcatctttgccagtatgcagaagccagaggga ttgccacatatcagtgacgtggtgctggacaaggccaataaaacaccactgcggccactg gatcccactagactacaaggcataaattgtggcccagacttcactccatcctttgccaac cttggccggacaacccttagcacccgtgggcccccaaggggtgggccaggtggggagctg ccccgtgggccggctggcctgggaccccggcgctctcagcagggaccccgaaaagaacca cgcaagatcattgccacagtgttaatgaccgaagatataaaactgaacaaagcagagaaa gcctggaaacccagcagcaagcggacggcggctgataaggatcgaggggaagaagatgct gatggcagcaaaacccaggacctattccgcagggtgcgctccatcctgaataaactgaca ccccagatgttccagcagctgatgaagcaagtgacgcagctggccatcgacaccgaggaa cgcctcaaaggggtcattgacctcatttttgagaaggccatttcagagcccaacttctct gtggcctatgccaacatgtgccgctgcctcatggcgctgaaagtgcccactacggaaaag ccaacagtgactgtgaacttccgaaagctgttgttgaatcgatgtcagaaggagtttgag aaagacaaagatgatgatgaggtttttgagaagaagcaaaaagagatggatgaagctgct acggcagaggaacgaggacgcctgaaggaagagctggaagaggctcgggacatagcccgg cggcgctctttagggaatatcaagtttattggagagttgttcaaactgaagatgttaaca gaggcaataatgcatgactgtgtggtcaaactgcttaagaaccatgatgaagagtccctt gagtgcctttgtcgtctgctcaccaccattggcaaagacctggactttgaaaaagccaag ccccgaatggatcagtatttcaaccagatggaaaaaatcattaaagaaaagaagacgtca tcccgcatccgctttatgctgcaggacgtgctggatctgcgagggagcaattgggtgcca cgccgaggggatcagggtcccaagaccattgaccagatccataaggaggctgagatggaa gaacatcgagagcacatcaaagtgcagcagctcatggccaagggcagtgacaagcgtcgg ggcggtcctccaggccctcccatcagccgtggacttccccttgtggatgatggtggctgg aacacagttcccatcagcaaaggtagccgccccattgacacctcacgactcaccaagatc accaagcctggctccatcgattctaacaaccagctctttgcacctggagggcgactgagc tggggcaagggcagcagcggaggctcaggagccaagccctcagacgcagcatcagaagct gctcgcccagctactagtactttgaatcgcttctcagcccttcaacaagcggtacccaca gaaagcacagataatagacgtgtggtgcagaggagtagcttgagccgagaacgaggcgag aaagctggagaccgaggagaccgcctagagcggagtgaacggggaggggaccgtggggac cggcttgatcgtgcgcggacacctgctaccaagcggagcttcagcaaggaagtggaggag cggagtagagaacggccctcccagcctgaggggctgcgcaaggcagctagcctcacggag gatcgggaccgtgggcgggatgccgtgaagcgagaagctgccctacccccagtgagcccc ctgaaggcggctctctctgaggaggagttagagaagaaatccaaggctatcattgaggaa tatctccatctcaatgacatgaaagaggcagtccagtgcgtgcaggagctggcctcaccc tccttgctcttcatctttgtacggcatggtgtcgagtctacgctggagcgcagtgccatt gctcgtgagcatatggggcagctgctgcaccagctgctctgtgctgggcatctgtctact gctcagtactaccaagggttgtatgaaatcttggaattggctgaggacatggaaattgac atcccccacgtgtggctctacctagcggaactggtaacacccattctgcaggaaggtggg gtgcccatgggggagctgttcagggagattacaaagcctctgagaccgttgggcaaagct gcttccctgttgctggagatcctgggcctcctgtgcaaaagcatgaaggtggagtatacc ctgggagaggagtcggaagcccctggccagagggcactcccctccgaggagctgaacagg cagctggagaagctgctgaaggagggcagcagtaaccagcgggtgttcgactggatagag gccaacctgagtgagcagcagatagtatccaacacgttagttcgagccctcatgacggct gtctgctattctgcaattatttttgagactcccctccgagtggacgttgcagtgctgaaa gcgcgagcgaagctgctgcagaaatacctgtgtgacgagcagaaggagctacaggcgctc tacgccctccaggcccttgtagtgaccttagaacagcctcccaacctgctgcggatgttc tttgacgcactgtatgacgaggacgtggtgaaggaggatgccttctacagttgggagagt agcaaggaccccgctgagcagcagggcaagggtgtggcccttaaatctgtcacagccttc ttcaagtggctccgtgaagcagaggaggagtctgaccacaactga >gi568815595r:184160160_184361285|GENSCAN_predicted_peptide_10|281_aa MLPKSRRALTIQEIAALARSSLHGISQVVKDHVTKPTAMAQGRVAHLIEWKGWSKPSDSP AALESAFSSYSDLSEGEQEARFAAGVAEQFAIAEAKLRAWSSVDGEDSTDDSYDEDFAGG MDTDMAGQLPLGPHLQDLFTGHRFSRPVRQGSVEPESDCSQTVSPDTLCSSLCSLEDGLL GSPARLASQLLGDELLLAKLPPSRESAFRSLGPLEAQDSLYNSPLTESCLSPAEEEPAPC KDCQPLCPPLTGSWERQRQASDLASSGVVSLDEDEAEPEEQ >gi568815595r:184160160_184361285|GENSCAN_predicted_CDS_10|846_bp atgctgcccaagtcccggcgagccctaactatccaggagatcgctgcgctggccaggtcc tccctgcatggtatttcccaggtggtgaaggaccacgtgaccaagcctaccgccatggcc cagggccgagtggctcacctcattgagtggaagggctggagcaagccgagtgactcacct gctgccctggaatcagccttttcctcctattcagacctcagcgagggcgaacaagaggct cgctttgcagcaggagtggctgagcagtttgccatcgcggaagccaagctccgagcatgg tcttcggtggatggcgaggactccactgatgactcctatgatgaggactttgctggggga atggacacagacatggctgggcagctgcccctggggccgcacctccaggacctgttcacc ggccaccggttctcccggcctgtgcgccagggctccgtggagcctgagagcgactgctca cagaccgtgtccccagacaccctgtgctctagtctgtgcagcctggaggatgggttgttg ggctccccggcccggctggcctcccagctgctgggcgatgagctgcttctcgccaaactg ccccccagccgggaaagtgccttccgcagcctgggcccactggaggcccaggactcactc tacaactcgcccctcacagagtcctgcctttcccccgcggaggaggagccagccccctgc aaggactgccagccactctgcccaccactaacgggcagctgggaacggcagcggcaagcc tctgacctggcctcttctggggtggtgtccttagatgaggatgaggcagagccagaggaa cagtga >gi568815595r:184160160_184361285|GENSCAN_predicted_peptide_11|872_aa MYGRYTQDLGAFAKEEAARIRLGGPEPWKGPPSSRAAPELLEYGRSRCARCRVCSVRCHK FLVSRVGEDWIFLVLLGLLMALVSWVMDYAIAACLQAQQWMSRGLNTSILLQYLAWVTYP VVLITFSAGFTQILAPQAVGSGIPEMKTILRGVVLKEYLTLKTFIAKVIGLTCALGSGMP LGKEGPFVHIASMCAALLSKFLSLFGGIYENESRNTEMLAAACAVGVGCCFAAPIGGVLF SIEVTSTFFAVRNYWRGFFAATFSAFIFRVLAVWNRDEETITALFKTRFRLDFPFDLQEL PAFAVIGIASGFGGALFVYLNRKIVQVMRKQKTINRFLMRKRLLFPALVTLLISTLTFPP GFGQFMAGQLSQKETLVTLFDNRTWVRQGLVEELEPPSTSQAWNPPRANVFLTLVIFILM KFWMSALATTIPVPCGAFMPVFVIGAAFGRLVGESMAAWFPDGIHTDSSTYRIVPGGYAV VGAAALAGAVTHTVSTAVIVFELTGQIAHILPVMIAVILANAVAQSLQPSLYDSIIRIKK LPYLPELGWGRHQQYRVRVEDIMVRDVPHVALSCTFRDLRLALHRTKGRMLALVESPESM ILLGSIERSQVVALLGAQLSPARRRQHMQERRATQTSPLSDQEGPPTPEASVCFQVNTED SAFPAARGETHKPLKPALKRGPSVTRNLGESPTDDIAPWGLMFGNTGSAESAGIALRSLF CGSPPPEAASESDADLEGEMSPEEILEWEEQQLDEPVNFSDCKIDPAPFQLVERTSLHKT HTIFSLLGVDHAYVTSIGRLIGIVTLKELRKAIEGSVTAQGVKVRPPLASFRDSATSSSD TETTEVHALWGPHSRHGLPREGSPSDSDDKCQ >gi568815595r:184160160_184361285|GENSCAN_predicted_CDS_11|2619_bp atgtatggccggtacactcaggaccttggggcctttgccaaagaggaagctgctcggatt cgcctgggagggcctgaaccctggaaaggtcccccttcctctcgggctgccccagagctc ttggaatatggacggagccgttgcgcccgatgccgcgtctgttctgtccgctgccacaag ttcctagtatccagggttggtgaagattggatcttcctggtcctgctggggcttctcatg gcattggtcagctgggtcatggactatgccattgctgcctgtctgcaagcccagcagtgg atgtcccggggcttgaacaccagcatcttgctccagtacctggcctgggtcacctaccct gttgtcctcatcactttctcagccggattcacacagatcctggcccctcaggctgtcggc tctggcatccctgagatgaagaccatcttgcggggagtggtgctgaaagaatacctcaca ctcaagacctttatagctaaggtcattgggctgacctgcgccctaggcagcgggatgccg cttggcaaagagggcccttttgtgcatatcgcaagcatgtgtgctgcccttctcagcaag ttcctctccctctttgggggtatctatgagaatgaatcccggaacacagagatgctggct gccgcctgtgccgtgggggtgggctgctgcttcgcggcacctattggaggcgtcctcttc agcatcgaggtcacctccaccttctttgcagtgcggaactactggcggggcttcttcgct gccaccttcagtgccttcatcttccgggtcttggcagtctggaaccgggatgaagagact attacagccctcttcaaaacccgattccggctcgacttcccctttgacctgcaggagctg ccagcctttgctgtcattggtattgctagtggcttcggtggagccctctttgtctacctg aaccggaagattgtccaggtgatgcggaagcagaaaaccatcaatcgcttcctcatgagg aaacgcctgctcttcccggctctggtgaccctgctcatctccacgctgaccttcccccct ggctttggacagttcatggctggacagctctcacagaaagagacgctggtcaccctgttt gacaatcggacgtgggtccgccagggcctggtggaggagctagaaccacccagcacctca caggcctggaacccaccacgtgccaacgtcttcctcaccctggtcatcttcattctcatg aagttctggatgtctgcactggccaccaccatcccagttccctgtggggccttcatgcct gtctttgtcattggagcagcatttgggcgtctggtgggtgaaagcatggctgcctggttc ccagatggaattcatacggacagcagcacctaccggattgtgcctgggggctacgctgtg gtcggggcagctgcgctggcaggagcggtgacacacacagtgtccacggctgtgatcgtg ttcgagctcacaggccagattgcccacatcctgcctgtcatgatcgccgtcatcctggcc aacgctgtcgcccagagtctgcagccctccctctatgacagcatcatccgaatcaagaaa ctgccctacctgcctgagctcggctggggccgccaccagcagtaccgggtgcgtgtggag gacatcatggtgcgggatgttccccatgtggccctcagctgcaccttccgggacctgcgt ttggcactgcacaggaccaagggccgaatgctggccctagtggagtcccctgagtccatg attctgctgggctccatcgagcgttcacaggtggtggcattgttgggggcccagctgagc ccagcccgccggcggcagcacatgcaggagcgcagagccacccagacctctccactatct gatcaggagggtccccctacccctgaggcttctgtctgcttccaggtgaacacagaagac tcagccttcccagcagcccggggggagacccacaagcccctaaagcctgcactcaagagg gggcccagtgtcaccaggaacctcggagagagtcccacagatgacattgccccctggggc cttatgtttgggaacacagggagcgcagagtcggcaggcatcgccctccggagcctcttc tgtggcagtccaccccctgaggctgcttcggagagtgacgcggacctggaaggcgagatg agccctgaagagattctggagtgggaggagcagcaactagatgaacctgtcaacttcagt gactgcaaaattgatcctgctcccttccagctggtggagcggacctctttgcacaagact cacactatcttctcactgctgggagtggaccatgcttatgtcaccagtattggcagactc attggaatcgttactctaaaggagctccggaaggccatcgagggctctgtcacagcacag ggtgtgaaagtccggccgcccctcgccagcttccgagacagtgccaccagcagcagtgac acggagaccactgaggtgcatgcactctgggggccccactcccgtcatggcctcccccgg gagggcagcccttccgacagcgacgacaaatgccaatga