Result of GENSCAN for
pF1KB4102
GENSCAN 1.0 Date run: 3-Nov-116 Time: 21:25:57 Sequence gi568815595r:48574547_48785807 : 211261 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.68 Intr - 175 131 45 1 0 106 72 41 0.899 3.39 1.67 Intr - 319 251 69 1 0 93 86 78 0.988 7.97 1.66 Intr - 580 518 63 1 0 128 53 52 0.969 5.11 1.65 Intr - 696 661 36 0 0 86 80 37 0.755 1.64 1.64 Intr - 993 793 201 0 0 104 72 36 0.913 3.60 1.63 Intr - 1202 1080 123 2 0 111 83 144 0.994 17.49 1.62 Intr - 1356 1321 36 0 0 63 98 57 0.886 3.14 1.61 Intr - 1750 1703 48 1 0 73 105 34 0.873 2.96 1.60 Intr - 1889 1854 36 2 0 102 94 26 0.769 3.54 1.59 Intr - 2011 1976 36 1 0 97 113 13 0.853 3.64 1.58 Intr - 2225 2130 96 2 0 91 109 48 0.986 7.91 1.57 Intr - 2481 2446 36 0 0 84 98 7 0.538 0.24 1.56 Intr - 3835 3775 61 0 1 68 92 40 0.273 1.63 1.55 Intr - 4731 4651 81 2 0 101 82 69 0.969 6.85 1.54 Intr - 4858 4823 36 0 0 128 100 50 0.977 8.06 1.53 Intr - 4969 4934 36 0 0 126 109 32 0.973 6.96 1.52 Intr - 5122 5042 81 0 0 79 96 79 0.961 7.05 1.51 Intr - 5268 5216 53 0 2 118 90 13 0.951 2.69 1.50 Intr - 5511 5485 27 0 0 96 95 21 0.833 2.40 1.49 Intr - 5798 5661 138 2 0 106 75 72 0.603 8.87 1.48 Intr - 6380 6336 45 2 0 90 100 11 0.616 1.59 1.47 Intr - 6611 6576 36 2 0 83 97 47 0.805 4.04 1.46 Intr - 6794 6714 81 2 0 131 58 22 0.799 3.83 1.45 Intr - 6937 6902 36 1 0 140 81 8 0.845 4.24 1.44 Intr - 7086 7027 60 0 0 130 35 52 0.820 3.52 1.43 Intr - 7213 7160 54 1 0 83 114 3 0.764 2.06 1.42 Intr - 7397 7365 33 2 0 101 121 39 0.959 7.40 1.41 Intr - 7812 7777 36 0 0 141 89 -2 0.917 4.14 1.40 Intr - 7967 7932 36 2 0 88 98 45 0.923 4.44 1.39 Intr - 8107 8063 45 1 0 116 81 33 0.949 4.49 1.38 Intr - 8502 8467 36 0 0 116 64 7 0.399 0.04 1.37 Intr - 8625 8581 45 0 0 128 115 15 0.985 7.29 1.36 Intr - 8882 8847 36 2 0 96 87 22 0.766 1.84 1.35 Intr - 9069 9010 60 0 0 118 109 -5 0.933 4.02 1.34 Intr - 9407 9354 54 2 0 109 93 42 0.957 6.46 1.33 Intr - 9515 9489 27 2 0 82 114 24 0.900 3.20 1.32 Intr - 9829 9752 78 1 0 90 56 74 0.960 4.64 1.31 Intr - 10010 9939 72 2 0 122 123 45 0.998 11.50 1.30 Intr - 10223 10188 36 2 0 113 94 19 0.938 3.94 1.29 Intr - 10399 10364 36 1 0 110 107 5 0.919 3.54 1.28 Intr - 10570 10490 81 1 0 109 105 21 0.986 6.23 1.27 Intr - 11073 11011 63 0 0 99 96 69 0.977 8.21 1.26 Intr - 11310 11284 27 0 0 117 101 25 0.977 5.50 1.25 Intr - 11700 11528 173 1 2 32 36 148 0.741 4.18 1.24 Intr - 11932 11786 147 2 0 98 95 124 0.958 14.82 1.23 Intr - 12143 12017 127 2 1 123 68 81 0.971 10.36 1.22 Intr - 12562 12426 137 2 2 105 36 62 0.980 3.50 1.21 Intr - 12790 12644 147 2 0 84 80 73 0.950 6.82 1.20 Intr - 13008 12874 135 1 0 124 72 69 0.995 9.95 1.19 Intr - 13393 13247 147 2 0 84 107 120 0.998 14.22 1.18 Intr - 13858 13736 123 2 0 76 76 56 0.834 4.26 1.17 Intr - 14449 14324 126 2 0 100 86 97 0.895 11.86 1.16 Intr - 14924 14781 144 0 0 77 105 125 0.984 13.86 1.15 Intr - 15810 15667 144 1 0 69 36 163 0.986 9.96 1.14 Intr - 16038 15913 126 1 0 103 49 44 0.483 3.16 1.13 Intr - 16270 16127 144 2 0 108 84 154 0.989 17.76 1.12 Intr - 17046 16918 129 1 0 109 72 195 0.999 21.17 1.11 Intr - 17276 17103 174 0 0 108 81 274 0.664 29.13 1.10 Intr - 17468 17352 117 0 0 76 65 104 0.918 7.84 1.09 Intr - 17702 17556 147 0 0 87 85 108 0.998 11.12 1.08 Intr - 17921 17805 117 0 0 65 89 67 0.686 5.44 1.07 Intr - 18153 18024 130 0 1 64 55 228 0.999 17.87 1.06 Intr - 18392 18229 164 0 2 81 75 124 0.989 10.61 1.05 Intr - 18717 18556 162 1 0 80 80 245 0.999 23.36 1.04 Intr - 18903 18786 118 0 1 81 76 96 0.536 8.24 1.03 Intr - 19150 18991 160 0 1 91 53 123 0.997 9.60 1.02 Intr - 20002 19822 181 2 1 71 113 259 0.999 26.14 1.01 Init - 20613 20529 85 0 1 65 64 200 0.998 14.24 1.00 Prom - 23586 23547 40 -10.12 2.15 PlyA - 24476 24471 6 1.05 2.14 Term - 24646 24582 65 2 2 128 48 133 0.994 11.64 2.13 Intr - 25047 24859 189 1 0 103 97 45 0.957 6.98 2.12 Intr - 25164 25089 76 0 1 79 115 128 0.883 14.18 2.11 Intr - 25605 25517 89 1 2 69 34 111 0.993 3.99 2.10 Intr - 26021 25936 86 1 2 66 101 76 0.812 6.66 2.09 Intr - 26294 26134 161 2 2 49 103 166 0.964 13.50 2.08 Intr - 26572 26429 144 1 0 80 89 214 0.900 21.69 2.07 Intr - 26921 26806 116 0 2 70 69 114 0.615 8.37 2.06 Intr - 29097 29018 80 2 2 70 105 93 0.999 8.89 2.05 Intr - 29885 29687 199 0 1 67 94 207 0.993 18.13 2.04 Intr - 30234 30105 130 0 1 75 87 190 0.890 18.37 2.03 Intr - 31310 31224 87 2 0 73 100 80 0.997 8.36 2.02 Intr - 34756 34616 141 1 0 101 113 201 0.954 24.96 2.01 Init - 35074 35006 69 1 0 85 85 122 0.481 10.60 2.00 Prom - 36669 36630 40 -3.21 3.03 PlyA - 36751 36746 6 1.05 3.02 Term - 46481 46296 186 2 0 81 47 100 0.768 3.01 3.01 Init - 47210 46917 294 2 0 83 83 320 0.916 26.19 3.00 Prom - 47471 47432 40 -7.20 4.57 PlyA - 49631 49626 6 1.05 4.56 Term - 50989 50852 138 1 0 8 47 116 0.390 -2.23 4.55 Intr - 51808 51672 137 2 2 55 97 129 0.965 11.30 4.54 Intr - 52139 52085 55 2 1 106 79 108 0.999 10.74 4.53 Intr - 52526 52330 197 0 2 58 73 254 0.188 20.55 4.52 Intr - 53995 53869 127 1 1 84 20 222 0.997 15.76 4.51 Intr - 54168 54076 93 0 0 81 76 183 0.999 17.06 4.50 Intr - 55165 55096 70 0 1 140 105 39 0.999 10.48 4.49 Intr - 55432 55326 107 1 2 80 76 187 0.999 16.21 4.48 Intr - 55611 55516 96 0 0 82 105 160 0.985 17.81 4.47 Intr - 55969 55892 78 1 0 90 105 50 0.992 7.14 4.46 Intr - 56174 56061 114 2 0 52 80 114 0.977 8.15 4.45 Intr - 56594 56447 148 1 1 42 41 259 0.890 17.35 4.44 Intr - 56760 56678 83 0 2 129 84 131 0.999 15.73 4.43 Intr - 57255 57103 153 0 0 81 14 237 0.995 16.38 4.42 Intr - 57498 57334 165 0 0 137 73 216 0.995 25.67 4.41 Intr - 57850 57699 152 2 2 111 64 151 0.827 15.39 4.40 Intr - 58122 58090 33 1 0 114 75 3 0.548 0.28 4.39 Intr - 58538 58428 111 0 0 105 106 165 0.999 20.85 4.38 Intr - 58844 58705 140 1 2 109 84 85 0.999 10.82 4.37 Intr - 59089 58931 159 0 0 102 64 145 0.951 13.12 4.36 Intr - 66013 65128 886 2 1 121 89 585 0.148 52.96 4.35 Intr - 66978 66778 201 1 0 39 87 193 0.860 14.08 4.34 Intr - 67463 67305 159 0 0 70 45 118 0.621 6.17 4.33 Intr - 67921 67812 110 0 2 60 9 108 0.960 0.53 4.32 Intr - 68338 68190 149 1 2 96 94 251 0.999 26.04 4.31 Intr - 68537 68421 117 2 0 98 105 22 0.985 6.07 4.30 Intr - 69134 69008 127 1 1 93 62 120 0.870 11.09 4.29 Intr - 69749 69670 80 2 2 53 74 53 0.955 -0.76 4.28 Intr - 70282 70170 113 2 2 95 89 150 0.887 16.40 4.27 Intr - 70663 70489 175 1 1 67 68 249 0.963 20.83 4.26 Intr - 71103 70816 288 0 0 65 55 381 0.539 30.48 4.25 Intr - 71322 71196 127 2 1 57 59 99 0.999 5.09 4.24 Intr - 71711 71544 168 1 0 50 48 154 0.961 7.18 4.23 Intr - 72382 72217 166 2 1 74 78 66 0.919 3.73 4.22 Intr - 73450 73295 156 2 0 82 100 136 0.999 14.69 4.21 Intr - 73915 73720 196 1 1 100 32 144 0.945 9.51 4.20 Intr - 74382 74173 210 0 0 55 59 347 0.999 28.13 4.19 Intr - 74669 74575 95 0 2 83 85 99 0.994 9.28 4.18 Intr - 76035 75934 102 1 0 118 92 63 0.864 10.35 4.17 Intr - 76529 76346 184 2 1 74 72 105 0.983 7.38 4.16 Intr - 76933 76813 121 0 1 65 91 50 0.984 4.00 4.15 Intr - 77172 77031 142 1 1 68 110 98 0.978 9.92 4.14 Intr - 77502 77331 172 0 1 114 99 83 0.999 12.03 4.13 Intr - 78007 77891 117 1 0 128 75 74 0.855 11.27 4.12 Intr - 78641 78456 186 2 0 95 41 86 0.849 5.00 4.11 Intr - 79242 79073 170 1 2 105 89 67 0.984 8.68 4.10 Intr - 79457 79332 126 0 0 97 83 187 0.991 20.26 4.09 Intr - 79906 79743 164 0 2 68 96 280 0.917 26.93 4.08 Intr - 80655 80498 158 0 2 88 53 178 0.969 13.62 4.07 Intr - 80848 80760 89 2 2 125 81 74 0.888 10.59 4.06 Intr - 81305 81190 116 1 2 87 63 208 0.951 18.79 4.05 Intr - 81819 81594 226 1 1 81 49 418 0.998 34.77 4.04 Intr - 82802 82152 651 0 0 110 105 1201 0.999 116.51 4.03 Intr - 87999 84341 3659 2 2 122 94 4991 0.002 491.80 4.02 Intr - 88727 88554 174 1 0 108 90 12 0.000 2.97 4.01 Init - 98002 97878 125 1 2 66 55 101 0.094 4.21 4.00 Prom - 98215 98176 40 -2.51 5.33 PlyA - 99320 99315 6 1.05 5.32 Term - 99498 99364 135 0 0 65 48 100 0.585 2.03 5.31 Intr - 100201 100022 180 1 0 101 13 307 0.592 25.08 5.30 Intr - 104190 104018 173 1 2 81 46 276 0.580 22.88 5.29 Intr - 104423 104307 117 0 0 97 48 164 0.574 14.24 5.28 Intr - 104637 104509 129 1 0 73 75 196 0.999 17.97 5.27 Intr - 104911 104831 81 2 0 131 95 74 0.787 12.51 5.26 Intr - 105167 105029 139 2 1 31 72 220 0.968 15.24 5.25 Intr - 105341 105255 87 2 0 94 80 84 0.993 8.86 5.24 Intr - 105683 105513 171 2 0 119 95 242 0.978 28.65 5.23 Intr - 107234 106741 494 0 2 106 100 494 0.946 45.71 5.22 Intr - 107630 107499 132 0 0 37 83 89 0.894 4.42 5.21 Intr - 108006 107771 236 2 2 69 90 158 0.924 11.96 5.20 Intr - 108466 108357 110 1 2 136 81 202 0.996 23.88 5.19 Intr - 111299 111091 209 0 2 47 109 342 0.122 31.52 5.18 Intr - 114227 113747 481 2 1 154 50 846 0.094 80.59 5.17 Intr - 115167 114992 176 1 2 34 94 192 0.628 14.58 5.16 Intr - 115622 115577 46 2 1 90 2 24 0.362 -7.53 5.15 Intr - 116936 116726 211 1 1 105 90 89 0.852 10.24 5.14 Intr - 118633 118408 226 2 1 110 105 157 0.858 17.17 5.13 Intr - 118792 118724 69 2 0 76 86 37 0.786 1.95 5.12 Intr - 120875 120544 332 1 2 72 115 293 0.454 26.23 5.11 Intr - 148702 148629 74 1 2 83 34 49 0.129 -2.30 5.10 Intr - 150033 149926 108 0 0 71 93 36 0.375 3.38 5.09 Intr - 153846 153739 108 0 0 3 80 110 0.019 2.68 5.08 Intr - 164420 164336 85 1 1 21 78 75 0.313 0.12 5.07 Intr - 165973 165869 105 0 0 127 85 -4 0.002 3.03 5.06 Intr - 177172 177043 130 2 1 65 42 187 0.072 12.06 5.05 Intr - 177771 177630 142 0 1 56 82 107 0.998 7.34 5.04 Intr - 181898 181833 66 2 0 147 96 23 0.956 8.59 5.03 Intr - 190532 190458 75 2 0 88 109 113 0.981 13.61 5.02 Intr - 198562 198409 154 0 1 109 105 91 0.996 13.49 5.01 Intr - 208546 208440 107 1 2 82 70 135 0.008 10.61 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 59245 59178 68 1 2 56 96 10 0.910 -0.86 S.002 Init + 60591 60708 118 2 1 88 82 54 0.955 5.36 S.003 Term - 66013 65124 890 2 2 121 42 595 0.844 51.30 S.004 Init - 88085 84341 3745 2 1 93 94 5072 0.926 494.68 S.005 Intr + 91095 91176 82 2 1 87 86 45 0.818 3.91 S.006 Init - 111261 111091 171 0 0 50 109 333 0.877 31.01 S.007 Term - 114227 113727 501 2 0 154 49 854 0.904 82.97 S.008 Term - 177172 177039 134 2 2 65 43 191 0.927 10.86 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815595r:48574547_48785807|GENSCAN_predicted_peptide_1|1985_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 PKGDR >gi568815595r:48574547_48785807|GENSCAN_predicted_CDS_1|5955_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 cccaaaggagacagg >gi568815595r:48574547_48785807|GENSCAN_predicted_peptide_2|543_aa MAASVVCRAATAGAQVLLRARRSPALLRTPALRSTATFAQALQFVPETQVSLLDNGLRVA SEQSSQPTCTVGVWIDVGSRFETEKNNGAGYFLEHLAFKGTKNRPGSALEKEVESMGAHL NAYSTREHTAYYIKALSKDLPKAVELLGDIVQNCSLEDSQIEKERDVILREMQENDASMR DVVFNYLHATAFQGTPLAQAVEGPSENVRKLSRADLTEYLSTHYKAPRMVLAAAGGVEHQ QLLDLAQKHLGGIPWTYAEDAVPTLTPCRFTGSEIRHRDDALPFAHVAIAVEGPGWASPD NVALQVANAIIGHYDCTYGGGVHLSSPLASGAVANKLCQSFQTFSICYAETGLLGAHFVC DRMKIDDMMFVLQGQWMRLCTSATESEVARGKNILRNALVSHLDGTTPVCEDIGRSLLTY GRRIPLAEWESRIAEVDASVVREICSKYIYDQCPAVAGYGRSLGLPFHLCSRTAAQLTEQ PVKAPSSSPQSPGCQGVLAQKTCPSSSLTACQGAFINTLHPSGPIEQLPDYNRIRSGMFW LRF >gi568815595r:48574547_48785807|GENSCAN_predicted_CDS_2|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:48574547_48785807|GENSCAN_predicted_peptide_3|159_aa MLHVLASLPLLLLLVTSASTHAWSRPLWYQVGLDLQPWGCQPKSVEGCRGGLSCPGYWLG PGASRIYPVAAVMITTTMLMICRKILQGRRRSQATKGEHPQVTTEPCGPWKRRAPISDHT LLRGVLHMLDALLVHIEGHLRHLATQRQIQIKGTSTQSG >gi568815595r:48574547_48785807|GENSCAN_predicted_CDS_3|480_bp atgctgcatgtgctggcctcgctgcctttgctgctcctgctggtgacgtctgcctccacc cacgcctggtcgagacccctctggtaccaggtggggctggacttgcagccctgggggtgt cagccaaagagtgtggagggctgtaggggtggcctgagctgtcctggctactggctgggc cctggagcaagccgcatctaccccgtggctgcggtcatgatcaccaccacgatgctgatg atctgccgcaagatactgcaggggcggcggcgctcacaggccaccaagggtgagcatccg caggtgaccactgagccctgcggaccctggaaacggcgggccccaatctcagaccacacc ctgctccgtggggtcctgcacatgctggatgccctcctggtccacatcgaaggccaccta cgtcatctagccacccagcggcaaatccaaataaaggggacttccacccagagtgggtga >gi568815595r:48574547_48785807|GENSCAN_predicted_peptide_4|4186_aa MGPPSKRLSEVEAATFHRKPMGGKYGVLVGDALLTAYCQKARISHSTPSQSYENAHGHQN FRPKSGTRFRTSGQEGGTRDLEGQKKAGRRSWDSALEGGSQEELGGGGHQGWDPGLAATT GPRAHIGGGALALCPESSGVREDGGPGLGVREPIFVGLRGRRQSARNSRGPPEQPNEELG IEHGVQPLGSRERETGQGPGSVLYWRPEVSSCGRTGPLQRGSLSPGALSSGVPGSGNSSP LPSDFLIRHHGPKPVSSQRNAGTGSRKRVGTARCCGELWATGSKGQGERATTSGAERTAP RRNCLPGASGSGPELDSAPRTARTAPASGSAPRESRTAPEPAPKRMRSRGLFRCRFLPQR PGPRPPGLPARPEARKVTSANRARFRRAANRHPQFPQYNYQTLVPENEAAGTAVLRVVAQ DPDAGEAGRLVYSLAALMNSRSLELFSIDPQSGLIRTAAALDRESMERHYLRVTAQDHGS PRLSATTMVAVTVADRNDHSPVFEQAQYRETLRENVEEGYPILQLRATDGDAPPNANLRY RFVGPPAARAAAAAAFEIDPRSGLISTSGRVDREHMESYELVVEASDQGQEPGPRSATVR VHITVLDENDNAPQFSEKRYVAQVREDVRPHTVVLRVTATDRDKDANGLVHYNIISGNSR GHFAIDSLTGEIQVVAPLDFEAEREYALRIRAQDAGRPPLSNNTGLASIQVVDINDHIPI FVSTPFQVSVLENAPLGHSVIHIQAVDADHGENARLEYSLTGVAPDTPFVINSATGWVSV SGPLDRESVEHYFFGVEARDHGSPPLSASASVTVTVLDVNDNRPEFTMKEYHLRLNEDAA VGTSVVSVTAVDRDANSAISYQITGGNTRNRFAISTQGGVGLVTLALPLDYKQERYFKLV LTASDRALHDHCYVHINITDANTHRPVFQSAHYSVSVNEDRPMGSTIVVISASDDDVGEN ARITYLLEDNLPQFRIDADSGAITLQAPLDYEDQVTYTLAITARDNGIPQKADTTYVEVM VNDVNDNAPQFVASHYTGLVSEDAPPFTSVLQISATDRDAHANGRVQYTFQNGEDGDGDF TIEPTSGIVRTVRRLDREAVSVYELTAYAVDRGVPPLRTPVSIQVMVQDVNDNAPVFPAE EFEVRVKENSIVGSVVAQITAVDPDEGPNAHIMYQIVEGNIPELFQMDIFSGELTALIDL DYEARQEYVIVVQATSAPLVSRATVHVRLVDQNDNSPVLNNFQILFNNYVSNRSDTFPSG IIGRIPAYDPDVSDHLFYSFERGNELQLLVVNQTSGELRLSRKLDNNRPLVASMLVTVTD GLHSVTAQCVLRVVIITEELLANSLTVRLENMWQERFLSPLLGRFLEGVAAVLATPAEDV FIFNIQNDTDVGGTVLNVSFSALAPRGAGAGAAGPWFSSEELQEQLYVRRAALAARSLLD VLPFDDNVCLREPCENYMKCVSVLRFDSSAPFLASASTLFRPIQPIAGLRCRCPPGFTGD FCETELDLCYSNPCRNGGACARREGGYTCVCRPRFTGEDCELDTEAGRCVPGVCRNGGTC TDAPNGGFRCQCPAGGAFEGPRCEVAARSFPPSSFVMFRGLRQRFHLTLSLSFATVQQSG LLFYNGRLNEKHDFLALELVAGQVRLTYSTGESNTVVSPTVPGGLSDGQWHTVHLRYYNK PRTDALGGAQGPSKDKVAVLSVDDCDVAVALQFGAEIGNYSCAAAGVQTSSKKSLDLTGP LLLGGVPNLPENFPVSHKDFIGCMRDLHIDGRRVDMAAFVANNGTMAGCQAKLHFCDSGP CKNSGFCSERWGSFSCDCPVGFGGKDCQLTMAHPHHFRGNGTLSWNFGSDMAVSVPWYLG LAFRTRATQGVLMQVQAGPHSTLLCQLDRGLLSVTVTRGSGRASHLLLDQVTVSDGRWHD LRLELQEEPGGRRGHHVLMVSLDFSLFQDTMAVGSELQGLKVKQLHVGGLPPGSAEEAPQ GLVGCIQGVWLGSTPSGSPALLPPSHRVNAEPGCVVTNACASGPCPPHADCRDLWQTFSC TCQPGYYGPGCVDACLLNPCQNQGSCRHLPGAPHGYTCDCVGGYFGHHCEHRMDQQCPRG WWGSPTCGPCNCDVHKGFDPNCNKTNGQCHCKEFHYRPRGSDSCLPCDCYPVGSTSRSCA PHSGQCPCRPGALGRQCNSCDSPFAEVTASGCRVLYDACPKSLRSGVWWPQTKFGVLATV PCPRGALGAAVRLCDEAQGWLEPDLFNCTSPAFRELSLLLDGLELNKTALDTMEAKKLAQ RLREVTGHTDHYFSQDVRVTARLLAHLLAFESHQQGFGLTATQDAHFNENLLWAGSALLA PETGDLWAALGQRAPGGSPGSAGLVRHLEEYAATLARNMELTYLNPMGLVTPNIMLSIDR MEHPSSPRGARRYPRYHSNLFRGQDAWDPHTHVLLPSQSPRPSPSEVLPTSSSIENSTTS SVVPPPAPPEPEPGISIIILLVYRTLGGLLPAQFQAERRGARLPQNPVMNSPVVSVAVFH GRNFLRGILESPISLEFRLLQTANRSKAICVQWDPPGLAEQHGVWTARDCELVHRNGSHA RCRCSRTGTFGVLMDASPRERLEGDLELLAVFTHVVVAVSVAALVLTAAILLSLRSLKSN VRGIHANVAAALGVAELLFLLGIHRTHNQVQDQGQGTCVLMTLLAQEAWGQNSGSELVCT AVAILLHYFFLSTFAWLFVQGLHLYRMQVEPRNVDRGAMRFYHALGWGVPAVLLGLAVGL DPEGYGNPDFCWISVHEPLIWSFAGPVVLVIVMNGTMFLLAARTSCSTGQREAKKTSALR TLRSSFLLLLLVSASWLFGLLAVNHSILAFHYLHAGLCGLQGLAVLLLFCVLNADARAAW MPACLGRKAAPEEARPAPGLGPGAYNNTALFEESGLIRITLGASTVSSVSSARSGRTQDQ DSQRGRSYLRDNVLVRHGSAADHTDHSLQAHAGPTDLDVAMFHRDAGADSDSDSDLSLEE ERSLSIPSSESEDNGRTRGRFQRPLCRAAQSERLLTHPKDVDGNDLLSYWPALGECEAAP CALQTWGSERRLGLDTSKDAANNNQPDPALTSGDETSLGRAQRQRKGILKNRLQYPLVPQ TRGAPELSWCRAATLGHRAVPAASYGRIYAGGGTGSLSQPASRYSSREQLDLLLRRQLSR ERLEEAPAPVLRPLSRPGSQECMDAAPGRLEPKDRGSTLPRRQPPRDYPGAMAGRFGSRD ALDLGAPREWLSTLPPPRRTRDLDPQPPPLPLSPQRQLSRDPLLPSRPLDSLSRSSNSRE QLDQVPSRHPSREALGPLPQLLRAREDSVSGPSHGPSTEQLDILSSILASFNSSALSSVQ SSSTPLGPHTTATPSATASVLGPSTPRSATSHSISELSPDSEPRDTQALLSATQAMDLRR RDYHMERPLLNQEHLEELGRWGSAPRTHQWRTWLQCSRARAYALLLQHLPVLVWLPRYPV RDWLLGDLLSGLSVAIMQLPQGLAYALLAGLPPVFGLYSSFYPVFIYFLFGTSRHISVES LCVPGPVDTGTFAVMSVMVGSVTESLAPQALNDSMINETARDAARVQVASTLSVLVGLFQ VGLGLIHFGFVVTYLSEPLVRGYTTAAAVQVFVSQLKYVFGLHLSSHSGPLSLIYTVLEV CWKLPQSKVGTVVTAAVAGVVLVVVKLLNDKLQQQLPMPIPGELLTLIGATGISYGMGLK HRFEVDVVGNIPAGLVPPVAPNTQLFSKLVGSAFTIAVVGFAIAISLGKIFALRHGYRVD SNQELVALGLSNLIGGIFQCFPVSCSMSRSLVQESTGGNSQVAGAISSLFILLIIVKLGE LFHDLPKAVLAAIIIVNLKGMLRQLSDMRSLWKANRADLLIWLVTFTATILLNLDLGLVV AVIFSLLLVVVRTQMPHYSVLGQVPDTDIYRDVAEYSEAKEVRGVKVFRSSATVYFANAE FYSDALKQRCGVDVDFLISQKKKLLKKQEQLKLKQLQKEEKLRKQAGPLLSACLAPQQVS SGDKMEDATANGQEDSKAPDGSTLKALGLPQPDFHSLILDLGALSFVDTVCLKSLKNIFH DFREIEVEVYMAACHSPVVSQLEAGHFFDASITKKHLFASVHDAVTFALQHPRPVPDSPV SPSLAVSSDVKQLEPELLLRNNLLSGIPEKVQGSVGANGQSLEDTE >gi568815595r:48574547_48785807|GENSCAN_predicted_CDS_4|12561_bp atggggccccccagcaagaggctctcagaagttgaagcagcaacattccataggaaaccc atgggaggaaagtatggggtcctggtgggggatgccctgctcaccgcttactgtcagaag gccaggatttcacacagtaccccctcccagagctatgagaacgctcatgggcaccaaaat ttcagaccaaaatccgggacacggttcagaactagtggtcaggaagggggaacaagagat ctggaaggacagaaaaaggctgggagacggagctgggacagcgccctagaaggagggagc caggaggagctggggggcggtgggcaccagggctgggacccaggcttagctgccactacg gggccaagggcgcatatcggtggcggagccttagctctttgtccggagtcttccggggtc cgggaggatggggggcctggcctgggggtcagggagcctatcttcgtggggctccgaggg agaaggcaaagcgcccggaatagtcgagggccccctgagcagccgaatgaggagctgggg attgaacacggcgtccagccattgggcagccgcgaacgagagacaggacagggaccaggg tctgtgttatactggcgcccagaggtctcctcttgcgggcggacaggacctttgcaaaga ggtagtctgtcaccaggggctctgtcctcaggggtcccgggctcggggaacagctcgccc ctcccttcagactttttgattcggcaccacggtcccaagccggtgtcctcccagcggaac gctgggacaggctcccgcaaaagagtgggcaccgcgcgctgctgtggggaattatgggca acagggagcaagggtcagggcgagagagccacgacatccggagcagaaaggacagccccc cggcggaactgtcttccaggggcctcgggatctggccccgagctggattcagcaccacgc acggcgaggacagctcctgcatcaggttcagcaccccgcgagtctcggacagctcccgag ccggcgcccaagcgcatgcgctcccggggtctcttccgctgccgcttcctcccgcagcgc cccgggccgcgtcccccgggactcccggcccgtcctgaagccaggaaagtaacctcggcg aaccgggcacgctttcgtcgcgccgcaaaccgccacccgcagtttccgcagtacaactac cagacgctggtgccggagaatgaggcagcaggcaccgcggtgctacgcgtggttgctcag gacccggacgccggcgaggccgggcgcctagtctactcgctggcggcactcatgaacagc cgctcgctggagctgttcagcatcgacccgcagagcggccttatccgtacggcggcagct ctggaccgcgagagcatggagcgtcactacctgcgtgtgaccgcgcaggaccacgggtcg ccgcgcctctcggccaccacgatggtggccgtgacagtagccgaccgcaacgaccactcg ccggtttttgagcaagcgcagtaccgggagacccttcgcgagaatgtggaggagggctac cctatcctgcagctgcgtgccactgacggcgacgcgccccccaacgccaacctgcgctac cgcttcgtggggccgccagctgcgcgcgctgcagctgccgccgccttcgagattgatcca cgctccggcctcatcagcaccagcggccgagtggaccgcgagcacatggaaagctatgag ctggtggtggaagccagcgaccagggccaggaacccgggccgcgctcggccactgtgcgc gtacacataactgtgctagacgagaacgacaatgctcctcagttcagcgagaagcgctac gtggcgcaggtgcgcgaggatgtgcgcccccacacagtcgtgctgcgcgtcacggccact gaccgggacaaggacgccaacggattggtgcactacaacatcatcagtggcaatagccgt ggacactttgccatcgacagcctcactggcgagatccaggtggtggcacctctggacttc gaggcagagagagagtatgccttgcgcatcagggcgcaggatgctggccggccaccgctg tccaacaacacgggcctggccagcatccaggtggtggacatcaatgaccacattcctatt tttgtcagcacgcccttccaagtttctgtcttggaaaatgctcccttgggtcactcagtc atccacattcaggcagtcgatgcagaccatggggagaatgccagattggagtactcccta actggtgtggcacctgatactccttttgtgataaacagcgccactggctgggtctctgtg agtggtcccctggaccgtgagtctgtggagcattacttctttggtgtggaggctcgagac catggctcacccccactctctgcctcagccagtgtcaccgtgactgtgctggacgttaat gacaatcggcctgagttcacaatgaaggagtaccacctacgactgaatgaggatgcagct gtgggcaccagtgtggtcagcgtgaccgcagtagaccgtgatgccaacagtgccatcagc taccagatcacaggcggcaacacccggaatcgctttgccatcagcacccaggggggtgtg ggtctggtgactctggctctgccactggactacaagcaggaacgctacttcaagctggta ctaactgcatctgaccgtgcccttcatgatcactgctatgtgcacatcaacatcacagat gccaacactcatcggccggtctttcaaagtgcccactactcagtgagtgtgaatgaagat cggccaatgggtagcaccatagtggtcatcagtgcctctgatgatgacgtgggtgagaat gctcgtatcacctatctcctggaggacaacctgccccagttccgcattgatgcagactca ggagccattacattacaggccccattagactatgaggaccaggtgacctacaccctggct atcacagctcgggacaatggcatcccacagaaggcagacactacttatgtggaggtgatg gtcaatgacgtgaatgacaatgctccacaatttgtggcctcccactatacagggctggtc tctgaggatgccccacctttcaccagtgtcctgcagatctcagccactgaccgggatgct catgccaatggccgggtccagtacactttccagaatggtgaagatggggatggagatttt accattgagcccacctctggaattgtccgtacagtaaggcggctagaccgggaggcagta tcagtgtatgagttgactgcctacgcagtggacagaggtgtgcccccactccggactcca gtcagtatccaggtgatggtgcaggatgtgaacgacaatgcacctgtcttcccagctgag gagtttgaggtgcgggtgaaagagaatagcattgtgggctcagtggtggcccagatcact gcagtggaccctgacgaaggccccaatgcccatataatgtaccagatcgtggaggggaac atccctgagctgttccaaatggacatcttctctggagaactgacggcactcattgaccta gactatgaggctcgccaagaatatgtgattgtggtgcaggccacatctgctcctttggtc agccgggccactgtgcacgtccgcctggttgaccagaatgacaacagccctgtgctcaac aacttccagatcctcttcaacaactatgtatccaaccgttcagacaccttcccgtcgggc attattgggcgcatcccagcttatgaccccgatgtctccgaccacctcttctactccttt gagcgtggcaatgagctgcagctgctggtagtcaaccagaccagtggggagctgcgactc agccgaaagctagacaataaccgcccactggtggcctccatgttggtgactgtcacagat ggcctgcacagcgtgacggcgcagtgtgtgctgcgcgtggtcatcatcacggaggagttg ctggccaacagcctgaccgtgcgccttgagaacatgtggcaggagcgcttcctgtcaccg ctgctgggccgcttcctcgagggcgtggctgcggtgctcgctacgcccgctgaggacgtc ttcatcttcaacatccagaacgacacagacgtagggggcaccgtgctcaatgtgagtttc tcggcgctagctccacgtggggccggggcgggcgctgcagggccctggttcagctccgag gagctgcaggagcagttgtacgtgcgccgggcggcgctggcggctcgctccctgctcgac gtactgcccttcgacgacaacgtgtgcctgcgagagccctgtgagaactacatgaaatgc gtgtccgtgctccgctttgactcgtccgcgcccttcctggcctcggcctccacgctgttc cgacccatccagcccatcgctggcctgcgctgccgctgcccgcccggattcacgggagac ttttgcgagaccgagctcgacctctgctactccaacccatgtcgcaacggcggagcctgc gcgcggcgcgagggaggctacacgtgcgtctgccgcccgcgcttcaccggagaggactgc gagctggacaccgaggccggccgctgcgtgccgggcgtctgccgcaacgggggcacctgc accgacgcgcccaacggcggctttcgctgccagtgcccggcaggcggcgccttcgagggc ccgcgctgcgaggtggctgcgcgctccttcccgcccagttcgttcgtcatgtttcgcggc ctgcggcagcgattccaccttacgctgtccctctcgttcgcgacagtgcagcagagcggg ctgctcttctacaacgggcgcctgaacgagaagcacgacttcctggccctggaactcgtg gctggccaagtgcggctcacatattccacgggtgaatccaacaccgtggtcagccccaca gttccagggggcttgagtgacgggcaatggcatacagtgcatctgagatactacaacaag ccccggacagatgccctagggggtgcacagggcccctccaaggacaaggtggctgtgcta agcgtggatgattgtgatgtggccgtggctctgcagtttggtgctgagattggcaactac tcatgcgcggctgctggtgtgcaaacaagctccaagaagtccctggacctgacgggccct cttcttctgggaggtgtccccaacctccccgagaacttccccgtatcccataaggacttc atcggctgtatgcgggacctgcacattgatggccgccgagtggacatggcggcttttgtc gcaaataatggcaccatggcaggctgccaagccaagctacacttttgtgactcaggcccc tgcaagaacagtggcttctgctcggagcgctggggcagcttcagctgcgactgccctgtg ggcttcggcggcaaagactgtcagcttactatggcccatccccaccatttccgtggcaac ggcacactgagctggaactttggaagtgacatggctgtgtctgtgccatggtacctgggg ctggcatttcggacacgggcaacgcagggggtcctgatgcaagtgcaggctgggccacac agcacgctcctttgccagctagatcgggggttactgtctgtgacagtgaccaggggctcg ggccgtgcttcccatctccttctggaccaggtgactgtcagtgatggccggtggcacgat ctgcggctggagttgcaggaggaaccaggtggccggcggggccaccatgtccttatggtc tcactggactttagcctcttccaggacaccatggcggtggggagtgagctgcagggcctg aaggtaaagcagctccacgtgggaggcctgccccccggcagtgcagaggaggctcctcag ggtctggttggctgcatccagggggtgtggctcggctccacaccctctggctccccggcc ctgctaccccccagccaccgagtgaatgcggagcctggctgtgttgtgaccaacgcctgt gcctctgggccctgcccacctcacgcagactgccgggacctctggcagaccttttcttgc acctgccagccaggttactacggcccaggctgtgtggatgcctgcctcctgaacccctgt cagaaccagggatcatgccggcacctgccaggagccccccatggctatacctgtgactgt gtgggtggctatttcgggcaccactgtgagcacaggatggaccagcagtgcccacggggc tggtgggggagcccaacctgtggcccctgcaactgtgatgttcacaaaggttttgatccc aactgcaacaagacaaatgggcagtgtcactgcaaggagttccactaccgaccgcggggc agtgactcttgcctcccatgtgactgctaccctgtgggctccacctcgcgctcatgtgca ccccacagcgggcagtgcccctgtcgcccaggagcccttggccgccagtgcaacagctgt gacagtcccttcgcagaggtgacagccagcggctgccgggtgctctatgatgcctgccct aagtccctgagatctggtgtgtggtggccccagacaaagtttggcgtcctggccacagtg ccctgtccccggggggccctgggtgctgctgtgcggctgtgtgatgaggcccagggttgg ctggagcccgacctcttcaactgtacctcccctgcctttcgagagctcagtctgctgctg gatggcctagagctgaacaagacggcactggataccatggaggccaagaagctggctcag cggctacgggaggtgactggccacactgaccactattttagccaagatgttcgagtcact gcccgcctgctggcccacctgctggccttcgagagccatcagcagggcttcgggctgaca gccacacaggatgcccacttcaatgagaatctgctgtgggccggctctgcactgcttgcc ccagagacaggggacttgtgggcggcgctggggcagcgggcccctgggggctccccaggc agcgcgggactggtgaggcacctggaggagtatgcagccacactcgcaaggaatatggaa ctcacatacctgaatcccatggggctggtgacgcctaatatcatgctcagcattgaccgc atggagcaccccagttctccccggggggcccgtcgctaccctcgctaccatagcaacctc tttcgaggccaggatgcctgggatcctcacacccatgtgctgctgccttcccagtcccca cggccatccccatctgaagttctgcccacaagcagcagcatagaaaactccaccacctca agtgtggtccccccaccagccccgccagagccagagcctgggatctccattatcattctc ctcgtttaccgcaccttagggggactgctccctgcccagttccaggcagaacgccgaggt gccaggcttcctcagaaccccgtcatgaactccccggtggtcagcgtggctgtgttccac ggacgcaacttcctaaggggaatcctggagtcccccatcagcctagagtttcgcctgcta cagacagcgaatcggagcaaggcgatctgtgtgcagtgggacccacctggcctggcggag cagcatggtgtgtggacagcacgggactgcgagctggtgcacaggaatgggtcccacgca cggtgtcgctgcagccggacagggacctttggggtcctcatggatgcctctccccgtgag aggctggagggcgacctggagctgctggctgtgttcacccacgtggtcgtggctgtgtct gtggctgcgctggtgctgactgcagccatcctgctgagcctgcgcagcctcaagtccaat gtgcgtgggatccatgccaatgtggcagccgccctgggggtggcagagctcctcttcctg ctggggattcacaggacccacaatcaggtgcaggatcagggccagggaacttgtgtcctg atgaccctactggcccaggaggcctggggccaaaactcagggtcagagctggtgtgcact gcagtcgccatcctcctgcactacttcttcctcagcaccttcgcgtggctcttcgtgcag gggctgcacctctaccgcatgcaggttgagccacgcaacgtggaccgcggcgccatgcgc ttctaccatgccctgggctggggcgtccctgctgtgctgctgggccttgctgtgggcctg gaccctgagggctatgggaaccctgacttctgctggatctcagtccacgagcccctcatc tggagctttgctggccctgttgtcctggtcatagtgatgaacgggaccatgtttctcctc gctgcccgcacatcctgctccacagggcagagggaggccaagaagacctctgcactcagg acccttcgcagctccttcctgctgcttctgctggtcagtgcctcctggctctttgggctc ctggcagtcaaccacagcatcctagccttccactacctccatgctggactctgcggcctc cagggcctggcggtgctgctgctcttctgtgtcctaaatgcagatgctcgggctgcctgg atgccagcctgtctgggcaggaaggcagcgcctgaggaggcaaggccagcacctgggctg ggacctggggcctacaacaacacggctctctttgaggagagtggcctcatccgcatcact ctgggcgcctccaccgtctcctctgtgagcagtgcccgctccggccggacccaggaccag gacagccagcggggccgcagctacctcagggacaatgtcctggttcgacatggctcagcc gctgaccacactgaccacagcctccaggctcatgctggccccactgacctggacgtggcc atgttccatcgagatgctggcgcagactccgactctgacagtgacctgtccttggaggag gagaggagtctctccattccatcttcagaaagcgaggacaatggccggacgcgggggcgc ttccaacggccactctgccgagcagcccagagtgagaggctcctcacccaccccaaagat gtggatggcaatgacctcctgtcctactggccagccctgggggagtgcgaggcagccccc tgtgctctgcagacttggggctctgaaaggcgcctggggctggacaccagcaaggatgca gctaacaacaaccagccagacccggccctgaccagtggggatgagacttctctgggccgg gcccagcgccagaggaaaggcatcctgaagaaccggttgcaatacccactggtgccacag acccgaggtgcccctgagctgtcctggtgccgtgcagccaccttgggccaccgtgctgtg ccagctgcctcttacggtcgcatctatgctggcgggggcacgggcagcctttcacagcca gccagccgctactcttctagagaacagctggacctgctcctccggcggcaactgagccgt gagcgactagaggaagcccctgcccctgttctacgtcccctgagccggccagggtcccag gaatgcatggatgctgcaccaggccgactggagcccaaagatcggggcagcaccctgcca cggaggcagccacctcgggactaccctggcgccatggctggccgcttcgggtcacgggat gcgctcgacttaggggcacctcgagagtggttgagcacgctgcctccgccccgccgcacc cgggaccttgacccacagcccccacctctgcccctgtctccccagcggcaactctcaagg gaccccctcttgccatcccggccgctggactctctgtctaggagctcgaactctcgggag cagctggaccaggtgcctagccggcacccctcacgagaagcccttgggccactcccgcag ctgctcagagctagggaggactcggtcagtggccccagccatggcccctccacagaacag ttggacattctttcctccatccttgcctctttcaactcctcggccctctcctctgtgcaa tcttcaagcacacccttgggccctcacaccactgccacaccttctgccacagcctctgtg cttgggccctccacgccacgttctgccacgtctcacagcatctcggagctgtcgccagac tcagaaccgagggacacacaggcactgctgtctgcaacacaagcaatggacctgcggagg cgagactaccacatggaacggccgctgctgaaccaggagcatttggaggagctggggcgc tggggctcagcacctaggacccaccagtggcggacctggttgcagtgctcccgtgctcgg gcctatgcccttctgctccaacacctcccggttttggtctggttaccccggtatcctgtg cgtgactggctcctgggtgacctgttatccggcctgagtgtggccatcatgcagcttccg cagggcttggcctacgccctcctggctggattgccccccgtgtttggcctctatagctcc ttctaccctgtcttcatctacttcctgtttggcacttcccggcacatctccgtggagagc ctctgtgtcccgggaccagtagacacagggacctttgctgtcatgtctgtgatggtgggc agtgtgacagaatccctggccccgcaggccttgaacgactccatgatcaatgagacagcc agagatgctgcccgggtacaggtggcctccacactcagtgtcctggttggcctcttccag gtggggctgggcctgatccacttcggcttcgtggtcacctacctgtcagaacctcttgtc cgaggctataccacagctgcagctgtgcaggtcttcgtctcacagctcaagtatgtgttt ggcctccatctgagcagccactctgggccactgtccctcatctatacagtgctggaggtc tgctggaagctgccccagagcaaggttggcaccgtggtcactgcagctgtggctggggtg gtgctcgtggtggtgaagctgttgaatgacaagctgcagcagcagctgcccatgccgata cccggggagctgctcacgctcatcggggccacaggcatctcctatggcatgggtctaaag cacagatttgaggtagatgtcgtgggcaacatccctgcagggctggtgcccccagtggcc cccaacacccagctgttctcaaagctcgtgggcagcgccttcaccatcgctgtggttggg tttgccattgccatctcactggggaagatcttcgccctgaggcacggctaccgggtggac agcaaccaggagctggtggccctgggcctcagtaaccttatcggaggcatcttccagtgc ttccccgtgagttgctctatgtctcggagcctggtacaggagagcaccgggggcaactcg caggttgctggagccatctcttcccttttcatcctcctcatcattgtcaaacttggggaa ctcttccatgacctgcccaaggcggtcctggcagccatcatcattgtgaacctgaagggc atgctgaggcagctcagcgacatgcgctccctctggaaggccaatcgggcggatctgctt atctggctggtgaccttcacggccaccatcttgctgaacctggaccttggcttggtggtt gcggtcatcttctccctgctgctcgtggtggtccggacacagatgccccactactctgtc ctggggcaggtgccagacacggatatttacagagatgtggcagagtactcagaggccaag gaagtccggggggtgaaggtcttccgctcctcggccaccgtgtactttgccaatgctgag ttctacagtgatgcgctgaagcagaggtgtggtgtggatgtcgacttcctcatctcccag aagaagaaactgctcaagaagcaggagcagctgaagctgaagcaactgcagaaagaggag aagcttcggaaacaggcagggccccttttgtctgcatgtctggctccccagcaggtgagc tcaggagataagatggaagatgcaacagccaatggtcaagaagactccaaggccccagat gggtccacactgaaggccctgggcctgcctcagccagacttccacagcctcatcctggac ctgggtgccctctcctttgtggacactgtgtgcctcaagagcctgaagaatattttccat gacttccgggagattgaggtggaggtgtacatggcggcctgccacagccctgtggtcagc cagcttgaggctgggcacttcttcgatgcatccatcaccaagaagcatctctttgcctct gtccatgatgctgtcacctttgccctccaacacccgaggcctgtccccgacagccctgtt tcgccctcactcgctgtctcctcagatgtgaaacagttggaaccagagctgcttctcagg aataatttgctctcaggaatacccgagaaggtacagggcagcgtgggtgccaatgggcag tccctggaggatacagagtga >gi568815595r:48574547_48785807|GENSCAN_predicted_peptide_5|1695_aa EQLSQVLDAMFERIVKADEHVIDQGDDGDNFYVIERGTYDILVTKDNQTRSVGQYDNRGS FGELALMYNTPRAATIVATSEGSLWGLVSERMKIVDVIGEKIYKDGERIITQGEKADSFY IIESGEVSILIRSRTKSNKDGGNQEVEIARCHKGQYFGELALVTNKPRAASAYAVGDVKC LVMDVQAFERLLGPCMDIMKRNISHYEEQLVKMFGSSVDLGNLGQTALSQGTKVTVYSAI SQDPAIPFLARSSNSRKEGRLLPPPPLEVLFGDQRPISARGLKTYILEPSLMLTTAGVMS QTSKKAVEQFSKRIPNETIRQIPQSDNRLAFISHITQAVSQTLDIQQNLHTPYRPQSSGK FCRCYIAYFDDHSLPSDEFQRLFMFRASWPEQAKEPRREGHTDKQQTEDVLAAGLRCLPH LPAICARRMSPAFRAMDVEPRAKGVLLEPFVHQVGGHSCVLRFNETTLCKPLVPREHQFY ETLPAEMRKFTPQYKAVLIFVKFADEFGASGNIETKELGVVSVRFEEDEDRNLCLIAYPL KGDHGIVDIVDNSDCEPKSKLLRWTTNKKHHVLETEKTPKDWVRQHRKEEKMKSHKLEEE FEWLKKSEVLYYTVEKKGNISSQLKHYNPWSMKCHQQQLQRMKENAKHRNQYSILCSRAS LHLRTFLVHTAEKQTFKEQKFILLENLTSRYEVPCVLDLKMGTRQHGDDASEEKAANQIR KCQQSTSAVIGVRVCGMQVYQAGSGQLMFMNKYHGRKLSVQGFKEALFQFFHNGRYLRRE LLGPVLKKLTELKAVLERQESYRFYSSSLLVIYDGKERPEVVLDSDAEDLEDLSEESADE SAGAYAYKPIGASSVDVRMIDFAHTTCRLYGEDTVVHEGQDAGYIFGLQSLIDIVTEITL ATFPAPALPGLMYRALYAFRSAEPNALAFAAGETFLVLERSSAHWWLAARARSGETGYVP PAYLRRLQGLEQDVLQAIDRAIEAVHNTAMRDGGKYSLEQRGVLQKLIHHRKETLSRRGP SASSVAVMTSSTSDHHLDAAAARQPNGVCRAGFERQHSLPSSEHLGADGGLYQVCGEDIV EKGDPTSIFQIPLPSSQIPPQPRRAAPTTPPPPVKRRDREALMASGSGGHNTMPSGGNSV SSGSSVSSTSLDTLYTSSSPSEPGSSCSPTPPPVPRRGTHTTVSQVQPPPSKASAPEPPA EEEVATGTTSASDDLEALGTLSLGTTEEKAAAEAAVPRTIGAELMELVRRNTGLSHELCR VAIGIIVGHIQASVPASSPVMEQVLLSLVEGKDLSMALPSGQVCHDQQRLEVIFADLARR KDDAQQRSWALYEDEGVIRCYLEELLHILTDADPEVCKKMCKRNEFESVLALVAYYQMEH RASLRLLLLKCFGAMCSLDAAIISTLVSSVLPVELARDMQTDTQDHQKLCYSALILAMVF SMGEAVPYAHYEHLGTPFAQFLLNIVEDGLPLDTTEQLPDLCVNLLLALNLHLPAADQNV IMAALSKHANVKIFSEKLLLLLNRGGEGPGICADDPVRIFKHEPQPPHSVLKFLQDVFGS PATAAIFYHTDMMALIDITVRHIADLSPGDKLRMEYLSLMHAIVRTTPYLQHRHRLPDLQ AILRRILNEEETSPQCQMDRMIVREMCKEFLRPWPSCCFESGILETGHPSWSLMEQDDGT EKANDRISFLCKNVD >gi568815595r:48574547_48785807|GENSCAN_predicted_CDS_5|5088_bp gaacagctttctcaagttctcgatgccatgtttgaaaggatagtcaaagctgatgagcat gtcattgaccaaggagatgatggagacaacttttatgtcatagaacggggaacttatgac attttagtaacaaaagataatcaaacccgctctgttggtcaatatgacaaccgtggcagt tttggagaactagctctgatgtacaacaccccgagagctgctaccattgttgctacctca gaaggctccctttggggactggtgtcagaacgaatgaagattgtggatgtaataggagag aagatctataaggatggagaacgcataatcactcagggtgaaaaggctgatagcttttac atcatagagtctggcgaagtgagcatcttgattagaagcaggactaaatcaaacaaggat ggtgggaaccaggaggtcgagattgcccgctgccataaggggcagtactttggagagctt gccctggtcaccaacaaacccagagctgcctcagcttatgcagttggagatgtcaaatgc ttagttatggatgtacaagcattcgagaggcttctggggccctgcatggacatcatgaag aggaacatctcacactatgaggaacagctggtgaagatgtttggctccagcgtggatctg ggcaacctcgggcaaactgcactgagccaggggacaaaggtcactgtgtactctgctata agccaggatccagcaataccctttctggctaggtcctccaactcccggaaggaggggaga ctcttgccccctccacctttggaggtcctctttggggatcagaggcccatctctgccagg ggcctgaagacctacatcctggagcccagtctcatgctgacaactgctggtgtcatgagc cagacctccaagaaggcagtagagcagttctctaagcggatccccaatgaaactatcagg cagattccccagtccgataacagactggcctttattagtcatatcacccaagcagtttct cagactcttgatattcagcaaaaccttcacaccccttaccgtcctcaatcttcaggaaag ttttgtcgttgctatattgcttactttgatgaccattccttgccttctgatgagtttcaa cgtcttttcatgttcagagcatcctggccagaacaagccaaggagccaagacgagaggga cacacggacaaacaacagacagaagacgtactggccgctggactccgctgcctcccccat ctccccgccatctgcgcccggaggatgagcccagccttcagggccatggatgtggagccc cgcgccaaaggcgtccttctggagccctttgtccaccaggtcggggggcactcatgcgtg ctccgcttcaatgagacaaccctgtgcaagcccctggtcccaagggaacatcagttctac gagaccctccctgctgagatgcgcaaattcactccccagtacaaagctgttttgatattt gttaagtttgcagatgagtttggggcctctggcaacatagagactaaggaactgggtgtg gtatctgtgcgctttgaagaagatgaagacaggaacttgtgtctaatagcatatccattg aaaggggaccatggaattgtggacattgtagataattcagactgtgaaccaaaaagtaag ctcctaaggtggacaacaaacaaaaaacatcatgtcttagaaacagaaaagacccctaag gactgggtgcgtcagcaccgtaaagaggagaaaatgaagagccataagttagaagaagaa tttgagtggctaaagaaatctgaagtcttgtactacactgtagagaagaaggggaatata agttcccagcttaaacactataacccttggagcatgaaatgtcaccagcaacagttacag agaatgaaggagaatgcaaagcatcggaaccagtacagtatcctttgttcacgggcatct ctgcatttgaggacctttttagtgcacacagctgagaagcagacgtttaaagagcaaaaa tttatcttactggaaaacctgacttcccgctacgaggtgccttgtgtccttgacctcaag atgggcacacgacaacatggtgatgatgcttcagaggagaaggcagccaaccagatccga aaatgtcagcagagcacatctgcagtcattggtgtgcgtgtgtgtggcatgcaggtgtac caagcaggcagtgggcagctcatgttcatgaacaagtaccatggacggaagctatcggtg cagggcttcaaggaggcacttttccagttcttccacaatgggcggtacctgcgccgtgaa ctcctgggccctgtgctcaagaagctgactgagctcaaggcagtgttggagcgacaggag tcctaccgcttctactcaagctccctgctggtcatttatgatggcaaggagcggcccgaa gtggtcctggactcagatgctgaggatttggaggacctgtcagaggaatcagctgatgag tctgctggtgcctatgcctacaaacccatcggcgccagctctgtagatgtgcgcatgatc gactttgcacacaccacctgcaggctgtatggcgaggacaccgtggtgcatgagggccag gatgctggctatatcttcgggctccagagcctgatagacattgtcacagagataaccctt gccaccttccctgcacctgccctgcccggcctcatgtaccgcgcgctgtacgcgttccgc tcggcggagcccaacgcgctggcgttcgccgcgggcgagaccttcctggtgctagagcga agcagcgcgcactggtggctggccgcgcgggcgcgcagtggtgagacgggctacgtgccg ccagcctacctgcgccgcctgcagggcctggagcaggatgtcctccaggccattgaccgg gccatcgaggctgtacacaacacagccatgcgggatggtggcaagtacagcctggaacag cgtggagtcctccagaagctgatccaccaccggaaagagaccctgtcacgcagaggccct tcagcctccagtgttgcagttatgacctcatcaaccagtgaccaccacttggatgctgct gcagccaggcagcccaatggggtgtgtcgagctgggttcgagcggcagcacagcctaccc agttctgagcatcttggggcagatggaggcctctaccaggtgtgtggggaggacatcgtg gagaagggagatcctacttccatcttccagatcccacttccatcttcccagatcccacca cagcctcgccgagcagcacccaccacaccgcccccaccagtgaagcgccgagaccgcgag gccctgatggcctctgggagtggtggccacaacaccatgccctccgggggtaactctgtg tccagcggctcctcagtcagcagcacctccctggacacgctctataccagctccagccca tctgaaccaggctccagctgctcacccacacccccacctgtgccccgccgaggcacccac accaccgtgtcccaagtccagccccctccctccaaggcatcagcacctgaaccccctgca gaagaagaagtggcaactggtacaacctcagcctctgatgacctggaagccctgggtaca ctgagcctggggaccacagaggagaaggcagcagctgaggcggctgtgcccaggaccatt ggggccgagctgatggagctggtgcggagaaacactggcctgagccacgaattatgccgg gtggccatcggcatcatagtgggtcacatccaggcctcggtgccggccagctcaccagtc atggagcaggtcctcctctcactcgtagagggcaaggacctcagcatggccctgccctca gggcaggtctgccacgaccagcagaggctggaggtgatctttgcagacctggctcgccgg aaggacgacgcccagcagcgcagttgggcactatatgaggatgagggtgtcatccgctgc tacctagaggagctgctgcatattctgactgatgcagaccctgaagtttgcaagaaaatg tgcaagagaaacgagttcgagtctgtcctggccttggtggcctattaccaaatggaacac cgagcatcactgcggctgctgctcctcaagtgctttggcgccatgtgcagcctggatgca gccatcatctccacgcttgtgtcatccgtgctgcctgtagagctggcgagggacatgcag acagacacgcaggaccaccagaaactctgttactctgccctcatcctggccatggtcttc tccatgggagaggcagtgccctatgcacactatgagcacctgggcacgcctttcgcccag ttcctactgaacatcgtcgaggatgggctgcccttggacaccacagagcagctgccggac ctctgcgtgaacctgcttctggctctcaacctgcacctgccagctgctgaccagaatgtc atcatggctgccctgagcaaacacgccaatgtcaagatcttctccgagaagctgttgttg ctcctgaacagagggggtgagggcccgggaatctgcgcggatgaccctgtgcgcatcttc aaacatgagccacagccaccacactctgtcctcaagttcctgcaggacgtgtttggcagc ccggccacagctgccatcttctaccacacagacatgatggctctcattgacatcactgtg cggcacatcgcagacctgtcaccaggagacaagctgcgcatggagtacctctccctgatg catgctatagtccgcaccacaccctacctgcagcaccgccaccggctacccgacctgcag gccatactgcgacgcatcctgaatgaggaggagacctcaccccagtgccagatggaccgc atgattgtccgagagatgtgcaaggaattcctgaggccttggccaagctgctgctttgaa agcgggatcttggagacaggccatccatcctggagcctcatggaacaggatgatggcact gagaaagccaatgaccgaatctcttttctctgtaaaaatgtagactga