GENSCAN 1.0 Date run: 3-Nov-116 Time: 15:17:51 Sequence gi568815597r:21587191_21882957 : 295767 bp : 50.27% C+G : Isochore 2 (43 - 51 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.27 PlyA - 5272 5267 6 -0.45 1.26 Term - 7466 7436 31 1 1 124 48 34 0.421 0.33 1.25 Intr - 8553 8397 157 1 1 92 53 95 0.502 5.47 1.24 Intr - 10337 10256 82 2 1 43 75 19 0.419 -4.69 1.23 Intr - 10874 10771 104 0 2 106 92 87 0.959 10.79 1.22 Intr - 11312 11210 103 2 1 117 81 131 0.991 15.05 1.21 Intr - 12427 12304 124 0 1 47 85 213 0.997 17.49 1.20 Intr - 14607 14494 114 2 0 117 47 124 0.962 10.76 1.19 Intr - 15723 15614 110 0 2 49 90 152 0.700 10.58 1.18 Intr - 16722 16468 255 0 0 68 42 102 0.354 1.24 1.17 Intr - 19007 18876 132 2 0 85 73 291 0.960 28.14 1.16 Intr - 21160 21023 138 1 0 79 67 209 0.998 18.56 1.15 Intr - 21746 21660 87 2 0 -3 78 170 0.905 7.07 1.14 Intr - 22456 22385 72 1 0 77 100 21 0.773 1.80 1.13 Intr - 23085 22930 156 0 0 20 86 351 0.592 28.31 1.12 Intr - 24391 24262 130 0 1 2 68 233 0.912 13.40 1.11 Intr - 24626 24526 101 2 2 96 84 106 0.912 9.91 1.10 Intr - 24919 24836 84 1 0 102 69 183 0.999 17.82 1.09 Intr - 26039 25986 54 2 0 115 86 87 0.997 10.38 1.08 Intr - 26516 26438 79 1 1 104 100 82 0.999 10.55 1.07 Intr - 26899 26796 104 1 2 87 94 194 0.999 18.87 1.06 Intr - 30256 30116 141 1 0 64 98 225 0.572 21.65 1.05 Intr - 30782 30744 39 2 0 93 63 56 0.801 2.02 1.04 Intr - 32860 32825 36 1 0 137 94 44 0.997 8.36 1.03 Intr - 39207 39114 94 2 1 145 115 17 0.636 10.07 1.02 Intr - 39866 39731 136 0 1 107 65 22 0.044 1.43 1.01 Init - 48188 48161 28 2 1 64 92 37 0.021 1.47 1.00 Prom - 51408 51369 40 -6.66 2.00 Prom + 52343 52382 40 -8.46 2.01 Init + 61724 61951 228 1 0 93 78 151 0.456 12.98 2.02 Intr + 72295 72447 153 0 0 69 58 127 0.495 8.07 2.03 Intr + 76215 76422 208 2 1 59 36 164 0.974 6.95 2.04 Intr + 76564 76706 143 2 2 111 84 47 0.935 6.67 2.05 Term + 82036 82188 153 0 0 125 47 83 0.778 5.82 2.06 PlyA + 84017 84022 6 1.05 3.21 PlyA - 87681 87676 6 1.05 3.20 Term - 90169 90132 38 2 2 86 47 43 0.228 -2.50 3.19 Intr - 93644 93618 27 0 0 87 115 14 0.427 2.09 3.18 Intr - 100049 100001 49 2 1 116 98 81 0.853 10.15 3.17 Intr - 102909 102784 126 0 0 67 115 51 0.933 6.58 3.16 Intr - 108031 107876 156 1 0 72 94 108 0.998 10.01 3.15 Intr - 114412 114308 105 1 0 83 55 146 0.754 11.21 3.14 Intr - 116428 116322 107 2 2 101 79 56 0.984 5.93 3.13 Intr - 133976 133846 131 1 2 98 87 99 0.850 11.14 3.12 Intr - 134574 134460 115 1 1 81 63 103 0.988 6.61 3.11 Intr - 141529 141380 150 2 0 49 30 145 0.879 4.93 3.10 Intr - 142639 142514 126 2 0 59 103 27 0.608 1.95 3.09 Intr - 149435 149256 180 0 0 129 66 209 0.971 22.64 3.08 Intr - 159959 159877 83 1 2 77 85 133 0.688 11.18 3.07 Intr - 161081 160948 134 2 2 69 99 41 0.610 2.74 3.06 Intr - 164425 164317 109 0 1 77 61 8 0.394 -2.71 3.05 Intr - 165461 165337 125 2 2 46 75 98 0.778 3.68 3.04 Intr - 165929 165802 128 0 2 71 110 110 0.999 11.90 3.03 Intr - 169512 169356 157 0 1 78 98 96 0.995 9.18 3.02 Intr - 170593 170473 121 0 1 91 92 57 0.970 6.90 3.01 Init - 195767 195634 134 2 2 88 94 239 0.824 23.11 3.00 Prom - 219919 219880 40 -4.86 4.00 Prom + 220654 220693 40 -4.16 4.01 Init + 225262 225346 85 0 1 64 111 77 0.860 6.59 4.02 Intr + 227208 227708 501 1 0 54 93 740 0.761 64.05 4.03 Term + 228753 228916 164 1 2 79 47 149 0.353 8.00 4.04 PlyA + 230460 230465 6 -0.45 5.88 PlyA - 230674 230669 6 1.05 5.87 Term - 236298 236126 173 1 2 87 48 146 0.795 8.49 5.86 Intr - 236529 236426 104 2 2 -4 123 218 0.917 15.92 5.85 Intr - 237044 236931 114 1 0 83 91 162 0.839 15.56 5.84 Intr - 237186 237116 71 0 2 64 96 32 0.473 -0.42 5.83 Intr - 237425 237347 79 1 1 109 89 123 0.954 14.05 5.82 Intr - 237589 237514 76 2 1 118 78 102 0.997 10.77 5.81 Intr - 240729 240673 57 1 0 100 101 51 0.986 6.46 5.80 Intr - 240962 240840 123 0 0 83 75 51 0.907 3.86 5.79 Intr - 241236 241065 172 0 1 124 81 189 0.969 21.32 5.78 Intr - 241889 241645 245 0 2 101 94 364 0.991 35.52 5.77 Intr - 242414 242193 222 0 0 76 115 373 0.999 36.90 5.76 Intr - 242901 242803 99 1 0 79 100 128 0.987 13.18 5.75 Intr - 243900 243792 109 0 1 67 101 157 0.999 14.76 5.74 Intr - 244134 244025 110 1 2 94 60 190 0.928 16.80 5.73 Intr - 244372 244273 100 1 1 104 71 155 0.995 15.08 5.72 Intr - 244663 244462 202 0 1 48 94 158 0.331 11.69 5.71 Intr - 245416 245305 112 2 1 15 97 169 0.505 9.94 5.70 Intr - 246194 246078 117 0 0 64 89 202 0.976 18.34 5.69 Intr - 246424 246277 148 1 1 9 110 220 0.979 16.11 5.68 Intr - 246735 246626 110 1 2 85 115 64 0.987 8.80 5.67 Intr - 247755 247489 267 1 0 119 67 325 0.788 31.00 5.66 Intr - 248447 248350 98 1 2 116 97 41 0.999 7.45 5.65 Intr - 249780 249612 169 1 1 84 117 97 0.676 11.20 5.64 Intr - 251895 251635 261 1 0 115 121 363 0.999 39.76 5.63 Intr - 252360 252181 180 1 0 90 61 201 0.999 17.44 5.62 Intr - 252827 252632 196 2 1 92 64 243 0.999 21.29 5.61 Intr - 254095 253911 185 2 2 89 72 256 0.986 23.61 5.60 Intr - 254483 254349 135 0 0 79 89 258 0.998 25.54 5.59 Intr - 254952 254812 141 1 0 101 84 232 0.960 24.42 5.58 Intr - 255190 255049 142 1 1 110 84 108 0.661 12.53 5.57 Intr - 255731 255580 152 0 2 114 92 130 0.958 15.88 5.56 Intr - 256248 256107 142 0 1 77 105 98 0.998 10.33 5.55 Intr - 257109 256958 152 1 2 105 103 151 0.853 18.18 5.54 Intr - 259065 258918 148 0 1 107 93 181 0.997 20.31 5.53 Intr - 259409 259258 152 0 2 103 85 82 0.632 9.28 5.52 Intr - 260302 260164 139 1 1 92 117 223 0.999 25.64 5.51 Intr - 260650 260499 152 2 2 71 92 100 0.934 8.58 5.50 Intr - 260903 260768 136 2 1 107 93 189 0.995 21.44 5.49 Intr - 261604 261453 152 2 2 75 92 160 0.714 14.98 5.48 Intr - 261841 261703 139 1 1 117 74 178 0.960 19.34 5.47 Intr - 262097 262035 63 2 0 92 68 31 0.570 0.41 5.46 Intr - 263002 262851 152 2 2 106 91 171 0.980 19.08 5.45 Intr - 263308 263173 136 1 1 75 105 185 0.999 19.04 5.44 Intr - 264507 264356 152 1 2 82 80 188 0.970 17.28 5.43 Intr - 264736 264601 136 1 1 73 84 198 0.913 18.04 5.42 Intr - 265082 264898 185 0 2 63 92 113 0.544 8.71 5.41 Intr - 265642 265510 133 1 1 74 105 215 0.999 22.02 5.40 Intr - 265880 265729 152 0 2 53 80 155 0.945 11.08 5.39 Intr - 267153 267003 151 0 1 91 94 153 0.643 15.94 5.38 Intr - 267575 267421 155 0 2 78 91 96 0.840 8.69 5.37 Intr - 267793 267658 136 1 1 68 96 212 0.811 20.14 5.36 Intr - 268256 268114 143 0 2 55 94 16 0.794 -1.03 5.35 Intr - 268485 268333 153 1 0 57 81 213 0.978 17.54 5.34 Intr - 268722 268597 126 1 0 78 94 93 0.998 9.55 5.33 Intr - 270005 269825 181 2 1 114 48 325 0.998 30.54 5.32 Intr - 270195 270095 101 1 2 70 75 156 0.978 12.33 5.31 Intr - 272486 272376 111 0 0 84 105 110 0.999 12.65 5.30 Intr - 272812 272645 168 2 0 64 75 81 0.889 4.32 5.29 Intr - 273045 272987 59 2 2 120 89 57 0.976 7.53 5.28 Intr - 274653 274567 87 2 0 121 92 156 0.999 18.39 5.27 Intr - 274925 274798 128 2 2 98 34 187 0.999 13.78 5.26 Intr - 277023 276910 114 0 0 82 97 125 0.997 13.44 5.25 Intr - 277883 277653 231 2 0 65 109 352 0.987 32.97 5.24 Intr - 278175 278095 81 0 0 108 94 112 0.999 13.63 5.23 Intr - 278619 278527 93 0 0 127 101 130 0.995 18.36 5.22 Intr - 281778 281695 84 0 0 103 87 100 0.924 11.42 5.21 Intr - 282473 282276 198 2 0 113 91 -15 0.600 0.85 5.20 Intr - 283124 283023 102 2 0 60 93 51 0.551 3.17 5.19 Intr - 285187 284996 192 1 0 122 86 256 0.993 28.49 5.18 Intr - 285570 285430 141 0 0 106 85 97 0.993 11.75 5.17 Intr - 285901 285807 95 2 2 96 86 117 0.999 11.98 5.16 Intr - 286883 286735 149 1 2 48 78 67 0.573 1.58 5.15 Intr - 287343 287216 128 0 2 103 43 179 0.623 14.38 5.14 Intr - 287539 287426 114 1 0 98 111 148 0.999 18.74 5.13 Intr - 287812 287701 112 0 1 61 109 168 0.999 16.58 5.12 Intr - 288557 288439 119 2 2 82 39 210 0.999 14.76 5.11 Intr - 288852 288673 180 0 0 68 83 226 0.999 20.16 5.10 Intr - 289215 289039 177 0 0 83 98 147 0.999 15.32 5.09 Intr - 289462 289322 141 1 0 78 82 69 0.930 5.85 5.08 Intr - 291063 290996 68 1 2 100 107 99 0.985 11.62 5.07 Intr - 291301 291243 59 0 2 87 70 63 0.996 2.93 5.06 Intr - 291473 291387 87 1 0 81 78 123 0.996 9.69 5.05 Intr - 291931 291804 128 1 2 93 76 154 0.999 14.18 5.04 Intr - 293064 292917 148 2 1 108 105 118 0.999 15.74 5.03 Intr - 293369 293173 197 2 2 75 51 402 0.997 33.41 5.02 Intr - 293645 293466 180 2 0 77 90 311 0.986 30.26 5.01 Intr - 294312 294149 164 1 2 123 100 223 0.978 26.69 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 35223 35149 75 0 0 70 94 121 0.911 9.99 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597r:21587191_21882957|GENSCAN_predicted_peptide_1|896_aa MGEWVDDRVGKGVVWAESPGLDSGRSHADASFAAGQPCDLCAQLGPVCKVGIPVWRSDGQ NQHFPQALDLSRVNLVPSYTPSLYPKNTDLFEMIEKMQTEEDYIPYPSVHEFGGYWIEGT NHEITSIPETEPLQSPTTKVKLECNPTARIYRKHFLGKEHFNYYSLDAALGHLVFSLKYD VIGDQEHLRLLLRTKCRTYHDVIPISCLTEFPNVVQMAKLVCEDVNVDRFYPVLYPKASR LIVTFDEHVISNNFKFGVIYQKLGQTSEEELFSTNEESPAFVEFLEFLGQKVKLQDFKGF RGGLDVTHGQTGTESVYCNFRNKEIMFHVSTKLPYTEGDAQQLQRKRHIGNDIVAVVFQD ENTPFVPDMIASNFLHAYVVVQAEGGGPDGPLYKVSVTARDDVPFFGPPLPDPAVFRKGP EFQEFLLTKLINAEYACYKAEKFAKLEERTRAALLETLYEELHIHSQSMMGLGGDEDKME NGSGGGGFFESFKRVIRSRSQSMDAMGLSNKKPNTVSTSHSGSFAPNNPDLAKAAGISLL IPGKSASRFGRRGSAIGIGTVEEVVVRGAAGSGGCLHALFSARSQDGGHIGDVAPLPPGQ APGRAGWSGGSSDGTQHLLWGLSLIVPGKSPTRKKSGPFGSRRSSAIGIENIQEVQEKRE SPPAGQKTPDSGHVSQEPKSENSSTQSSPEMPTTKNRAETAAQRAEALKDFSRSSSSASS FASVVEETEGVDGEDTGLESVSSSGTPHKRDSFIYSTWLEDSVSTTSGGSSPGPSRSPHP DAGKLGDPACPEIKIQLEASEQHMPQLATALPRDLCPCIVGGFDGSVKGTWQLPVNPLIW PQGGAKGPLTGPDGDPGDGDESKSLYQDLTAGTVGRRVMRGSRGQERAGITVQHHG >gi568815597r:21587191_21882957|GENSCAN_predicted_CDS_1|2691_bp atgggggagtgggtagatgaccgagtggggaagggtgtggtgtgggcagagagtccgggc ttagactcaggcaggtctcatgcagatgctagctttgctgccggccagccgtgtgacctc tgtgcacagctgggtcctgtctgtaaagtgggaataccagtgtggaggagcgatgggcag aaccagcacttccctcaggcactagacctgtcacgagtgaacttagttccctcctatact ccttcactctaccctaagaacacagatctatttgagatgattgagaagatgcagacagag gaggactacattccatacccgagcgtgcacgagtttgggggctactggattgagggcacc aaccacgaaatcaccagcatccccgagacagagccactgcagtcgcccacaaccaaggtg aagctcgagtgcaaccccacagcccgcatctaccggaagcactttctcggcaaggagcat ttcaattactactcactggacgctgccctcggccaccttgtcttctcactcaagtacgat gtcatcggggaccaagagcacctgcggctgctgctcaggaccaagtgccggacataccat gatgtcatccccatctcctgcctcaccgagttccctaatgttgtccagatggcaaagttg gtgtgtgaagacgtcaatgtggatcggttctatcctgtgctctaccccaaggcttcccgg ctcatcgtcacctttgacgagcatgtcatcagcaataacttcaagtttggcgtcatttat cagaagcttgggcagacctccgaggaagaactcttcagcaccaatgaggaaagtcccgct ttcgtggagttccttgaatttcttggccagaaggtcaaactgcaggactttaaggggttc cgaggaggcctggacgtgacccacgggcagacggggaccgaatctgtgtactgcaacttc cgcaacaaggagatcatgtttcacgtgtccaccaagctgccatacacggaaggggacgcc cagcagttgcagcggaagcggcacatcgggaacgacatcgtggctgtggtcttccaggat gagaacactcctttcgtgcccgacatgatcgcgtccaacttcctgcatgcctacgtcgtg gtgcaggctgagggcgggggccctgatggccccctctacaaggtctctgtcactgcaaga gatgatgtgcccttctttggaccccccctcccggaccccgctgtgttcaggaaggggcct gagttccaggaatttttgctgacaaagctgatcaatgctgaatatgcctgctacaaggca gagaagtttgccaaactggaggagcggacgcgggccgccctcctggagacgctctatgag gaactacacatccacagccagtccatgatgggcttgggcggcgacgaggacaagatggag aatggcagtgggggcggcggcttctttgagtctttcaagcgggtcatccggagccgcagc cagtccatggatgccatggggctgagcaacaagaagcccaacaccgtgtccaccagccac agcgggagcttcgcgcccaacaaccccgacctggccaaggcggctggaatatcattgctt attcctgggaaaagtgcgagtagattcggacgccggggcagtgccataggcataggaacc gtggaagaggttgtcgtccgcggggccgccggctctggaggctgcctgcacgcgctgttc tctgctcgctctcaggacggaggccatattggggacgttgcccctctgcccccgggacag gccccagggcgtgcgggatggagtggcggcagctccgatggcactcagcacctgctttgg ggcctgtcactgattgtccctgggaagagccccacgaggaagaagtcgggcccgttcggc tcccgccgcagcagcgccattggcatcgagaacatacaggaggtgcaggagaagagggag agccctccggctggtcagaagaccccagacagcgggcacgtctcacaggagcccaagtcg gagaactcatccactcagagctccccagagatgcccacgaccaagaacagagcggagacc gcagcgcagagagcagaggcgctcaaggacttctcccgctcctcgtccagtgccagcagc ttcgccagcgtggtggaggagacggagggtgtggacggagaggacacaggcctggagagc gtgtcatcctcaggaacaccccacaagcgggactccttcatctatagcacgtggctggag gacagtgtcagcaccactagtgggggcagctccccaggcccctctcgatcaccccaccca gacgccggcaagttgggggaccctgcgtgtcccgagatcaagatccagctggaagcatct gagcagcacatgccccagctggccacggcccttccccgtgacctctgcccttgcattgtt ggaggatttgatgggagtgtgaaagggacttggcagttgccagtgaatcccctgatatgg ccacaaggcggcgccaagggaccacttacgggacccgatggggacccaggagacggggat gagtccaagtccctctaccaggatctcacagctgggacagtaggacgaagggtgatgagg ggcagccggggacaggagagggccggcatcacagttcagcaccacggttaa >gi568815597r:21587191_21882957|GENSCAN_predicted_peptide_2|294_aa MVPDGSRPAAGGYCRTHGPQTALSRGRKQQPEPSGGSPAGGEAAAGAASQAHVMLMPGKP GGTCLLGHQGATMYPEAPPHVSQLTRAHLRPPTVLSPPPPAGPVLSVRRSRGRTYAFRDL CDPDNSPGKTQEAGDGDISSGLVLAASRGSLTLPTFEQEESGLPWQFWHRACRQEEVPKV TLHQPPPPYPSSPESRTWLRQTHGSRGLEKVTASEVAQASDPHPLPPNPSLASRSTVSGE SEEQGRSPGGAHSPKGLGRGRPGLGTLVPAAAAAALLRCGRRSPPPQFGEGDVT >gi568815597r:21587191_21882957|GENSCAN_predicted_CDS_2|885_bp atggtgccagatgggagtcgcccagcagctggggggtactgcaggacccacggaccccag acagccctgagcaggggcaggaagcagcagccagagccgtcggggggctctcctgctgga ggtgaagcagcagcaggagcagccagccaggcccacgtgatgctgatgccagggaagccc ggaggcacctgcctgctggggcatcagggtgccacgatgtatcccgaggcgccgccgcac gtctcccagctcacaagggcgcacctgcgcccgcccactgtgctctcgccgccccctccc gcgggacccgttctctcggtgcgcagatcacggggccgcacctacgcgttccgggatctc tgtgatcctgacaacagccccgggaagacgcaagaggctggtgatggtgacatcagctca ggccttgtcctggcagcctctcgagggtccctgacgctgccaacttttgagcaagaagaa tcagggctgccctggcagttctggcaccgagcttgcaggcaggaagaagttcccaaggtc accctccatcagccacctccaccctacccctcgagccctgaatcaaggacctggctgcgg cagacacatggctcccgtggccttgagaaggtcacagcctctgaggtggctcaggcatct gatcctcacccactgcccccaaaccccagccttgccagcagatccaccgtctcaggggag tctgaggaacagggccgcagccctggcggggcgcactcacccaagggcctgggccggggg cgtcctgggctcggcactctggtgcccgcggccgccgctgcagctctgctcagatgcggc cggcgctcgccgccgccgcagttcggggagggggacgtcacatga >gi568815597r:21587191_21882957|GENSCAN_predicted_peptide_3|766_aa MAPRLQLEKAAWRWAETVRPEEVSQEHIETAYRIWLEPCIRGVCRRNCKGNPNCLVGIGE HIWLGEIDENSFHNIDDPNCERRKKNSFVGLTNLGATCYVNTFLQVWFLNLELRQALYLC PSTCSDYMLGDGIQEEKDYEPQTICEHLQYLFALLQNSNRRYIDPSGFVKALGLDTGQQQ DAQEFSKLFMSLLEDTLSKQKNPDVRNIVQQQFCGEYAYVTVCNQCGRESKLLSKFYELE LNIQGHKQLTDCISEFLKEEKLEGDNRYFCENCQSKQNATRKIRLLSLPCTLNLQLMRFV FDRQTGHKKKLNTYIGFSEILDMEPYVEHKGGSYVYELSAVLIHRGVSAYSGHYIAHVKD PQSGEWYKFNDEDIEKMEGKKLQLGIEEDLEPSKSQTRKPKCGKGTHCSRNAYMLVYRLQ TQEKPNTTVQVPAFLQELVDRDNSKFEEWCIEMAEMRKQSVDKGKAKHEEVKELYQRLPA GAVKALCKECVVERCRILRLKNQLNEDYKTVNNLLKAAVKGSDGFWVGKSSLRSWRQLAL EQLDEQDGDAEQSNGKMNGSTLNKELCPECREGLLCQQQRDLREYTQATIYVHKVVDNKK VMKDSAPELNVSSSETEEDKEEAKPDGEKDPDFNQSNGGTKRQKISHQNYIAYQKQVIRR SMRHRKVRGEKALLVSANQTLKELKIQIMHAFSVAPFDQNLSIDGKILSDDCATLGTLGV IPESVILLKADEPIADYAAMDDVMQVCMPEEGFKALLKVTAAQRLQ >gi568815597r:21587191_21882957|GENSCAN_predicted_CDS_3|2301_bp atggccccgcggctgcagctggagaaggcggcctggcgctgggcggagacggtgcggccc gaggaggtgtcgcaggagcacatcgagaccgcttaccgcatctggctggagccctgcatt cgcggcgtgtgcagacgaaactgcaaaggaaatccgaattgcttggttggtattggtgag catatttggttaggagaaatagatgaaaatagttttcataacatcgatgatcccaactgt gagaggagaaaaaagaactcatttgtgggcctgactaaccttggagccacttgttatgtc aacacatttcttcaagtgtggtttctcaacttggagcttcggcaggcactctacttatgt ccaagcacttgtagtgactacatgctgggagacggcatccaagaagaaaaagattatgag cctcaaacaatttgtgagcatctccagtacttgtttgccttgttgcaaaacagtaatagg cgatacattgatccatcaggatttgttaaagccttgggcctggacactggacaacagcag gatgctcaagaattttcaaagctctttatgtctctattggaagatactttgtctaaacaa aagaatccagatgtgcgcaatattgttcaacagcagttctgtggagaatatgcctatgta actgtttgcaaccagtgtggcagagagtctaagcttttgtcaaaattttatgagctggag ttaaatatccaaggccacaaacagttaacagattgtatctcggaatttttgaaggaagaa aaattagaaggagacaatcgctatttttgcgagaactgtcaaagcaaacagaatgcaaca agaaagattcgacttcttagccttccttgcactctgaacttgcagctaatgcgttttgtc tttgacaggcaaactggacataagaaaaagctgaatacctacattggcttctcagaaatt ttggatatggagccttatgtggaacataaaggtgggtcctacgtgtatgaactcagcgca gtcctcatacacagaggagtgagtgcttattctggccactacatcgcccacgtgaaagat ccacagtctggtgaatggtataagtttaatgatgaagacatagaaaagatggaggggaag aaattacaactagggattgaggaagatctagaaccttctaagtctcagacacgtaaaccc aagtgtggcaaaggaactcattgctctcgaaatgcatatatgttggtttatagactgcaa actcaagaaaagcccaacactactgttcaagttccagcctttcttcaagagctggtagat cgggataattccaaatttgaggagtggtgtattgaaatggctgagatgcgtaagcaaagt gtggataaaggaaaagcaaaacacgaagaggttaaggagctgtaccaaaggttacctgct ggagctgtgaaagccctgtgtaaggaatgtgtagtagaacgttgtcgcatattgcgtctg aagaaccaactaaatgaagattataaaactgttaataatctgctgaaagcagcagtaaag ggcagcgatggattttgggtggggaagtcctccttgcggagttggcgccagctagctctt gaacagctggatgagcaagatggtgatgcagaacaaagcaacggaaagatgaacggtagc accttaaataaagaactctgtccagaatgcagagaaggcttattgtgtcagcagcagagg gacctgcgtgaatacactcaagccaccatctatgtccataaagttgtggataataaaaag gtgatgaaggattcggctccggaactgaatgtgagtagttctgaaacagaggaggacaag gaagaagctaaaccagatggagaaaaagatccagattttaatcaaagcaatggtggaaca aagcggcaaaagatatcccatcaaaattatatagcctatcaaaagcaagttattcgccga agtatgcgacatagaaaagttcgtggtgagaaagcacttctcgtttctgctaatcagacg ttaaaagaattgaaaattcagatcatgcatgcattttcagttgctccttttgaccagaat ttgtcaattgatggaaagattttaagtgatgactgtgccaccctaggcacccttggcgtc attcctgaatctgtcattttattgaaggctgatgaaccaattgcagattatgctgcaatg gatgatgtcatgcaagtttgtatgccagaagaagggtttaaagcactgctgaaagtaact gcagcccagcggctccagtga >gi568815597r:21587191_21882957|GENSCAN_predicted_peptide_4|249_aa MEACCLLQLPQRLLLLGAAALTATALETADLAELCGQTWQGDGLLLRSHAASRRFYFVAP DTDCGLWVQAAAPGDRIRFQFRFFLVYSLTPAPPALNTSSPAPADPCAPGSYLQFYEGPP GAPRPLGSPLCGLNIPVPVASSGPFLGLRLVTRGRQPRVDFVGEVTSFRLGELGLKAGTG PSAEAMRDWGHSGGPGPCGAYFRCQNGRCIPSSLVCDPWGMDNCGDGSDQGSWSPADCRG QCGVWTGPY >gi568815597r:21587191_21882957|GENSCAN_predicted_CDS_4|750_bp atggaggcttgttgtcttctgcagttgccccaaaggttgctcttgctgggggcagccgcc ctgactgcaactgctttggagacagccgacctggcggaactgtgcgggcagacgtggcag ggggacgggctgctgctgcgctcgcacgccgcatcgcgcaggttctacttcgtggctccg gacaccgactgcgggctctgggtgcaggcggcagcccccggcgaccggatccgcttccag ttccgcttcttcctggtctacagcctgacccccgcgcccccggcgctcaacacctcctcc ccggccccggccgacccgtgcgcccccggctcctacctgcagttctacgagggcccgccg ggggcgccccggcccctggggtccccactgtgcggcctgaacatcccggtgcctgtggca tcctccggaccctttctaggcctgcgcctggtcacgagaggccgccagccccgcgtggac ttcgtgggcgaagtcacctctttccgtctgggtgagctggggctgaaggccgggacggga ccctctgcagaggccatgcgggactggggccacagtgggggccccggaccttgtggtgcc tacttccgctgccagaatggcaggtgcatcccctcaagcctcgtgtgtgacccctggggc atggacaactgtggcgatggcagtgaccagggctcctggtcaccagctgactgcagaggt cagtgcggggtgtggactgggccctactga >gi568815597r:21587191_21882957|GENSCAN_predicted_peptide_5|4023_aa XVNVTMPAQPGTPPLSSTQLQIDPSLHEFQLVDLSRRFLVHDSFWALPEQFLGNKVDSYG GSLRYNVRYELARGMLEPVQRPDVVLMGAGYRLLSRGHTPTQPGALNQRQVQFSEEHWVH ESGRPVQRAELLQVLQSLEAVLIQTVYNTKMASVGLSDIAMDTTVTHATSHGRAHSVEEC RCPIGYSGLSCESCDAHFTRVPGGPYLGTCSGCNCNGHASSCDPVYGHCLNCQHNTEGPQ CNKCKAGFFGDAMKATATSCRPCPCPYIDASRRFSDTCFLDTDGQATCDACAPGYTGRRC ESCAPGYEGNPIQPGGKCRPVNQEIVRCDERGSMGTSGEACRCKNNVVGRLCNECADGSF HLSTRNPDGCLKCFCMGVSRHCTSSSWSRAQLHGASEEPGHFSLTNAASTHTTNEGIFSP TPGELGFSSFHRLLSGPYFWSLPSRFLGDKVTSYGGELRFTVTQRSQPGSTPLHGQPLVV LQGNNIILEHHVAQEPSPGQPSTFIVPFREQAWQRPDGQPATREHLLMALAGIDTLLIRA SYAQQPAESRVSGISMDVAVPEETGQDPALEVEQCSCPPGYRGPSCQDCDTGYTRTPSGL YLGTCERCSCHGHSEACEPETGACQGCQHHTEGPRCEQCQPGYYGDAQRGTPQDCQLCPC YGDPAAGQRIGGEEGATAFLTRNLPPHSGLPTLVFWTQTATPPVMRAPQATVGVTVRGDS QVPGPIGCNCDPQGSVSSQCDAAGQCQCKAQVEGLTCSHCRPHHFHLSASNPDGCLPCFC MGITQQCASSAYTRHLISTHFAPGDFQGFALVNPQRNSRLTGEFTVEPVPEGAQLSFGNF AQLGHESFYWQLPETYQGDKNRTSLSEEQLRAAVTAGRIPEPPEGRDWAQRASQVDEAQR RMDAEIWQLLSSFAAQPQPPPQGLSPHPQPAAALRAAPPPSSSSSSSSSSASLSFSPGSQ FSLSYEGFSLLPGSLYYWQLPRAFLGDKVAAYGGKLRYTLSYTAGPQGSPLSDPDVQITG NNIMLVASQPALQGPERRSYEIMFREEFWRRPDGQPATREHLLMALADLDELLIRATFSS VPLAASISAVSLEVAQPGPSNRPRALEVEECRCPPGYIGLSCQDCAPGYTRTGSGLYLGH CELCECNGHSDLCHPETGACSQCQHNAAGEFCELCAPGYYGDATAGTPEDCQPCACPLTN PENMFSRTCESLGAGGYRCTACEPGYTGQYCEQCGPGYVGNPSVQGGQCLPETNQAPLVV EVHPARSIVPQGGSHSLRCQVSGSPPHYFYWSREDGRPVPSGTQQRHQGSELHFPSVQPS DAGVYICTCRNLHQSNTSRAELLVTEAPSKPITVTVEEQRSQSVRPGADVTFICTAKSKS PAYTLVWTRLHNGKLPTRAMDFNGILTIRNVQLSDAGTYVCTGSNMFAMDQGTATLHVQA SGTLSAPVVSIHPPQLTVQPGQLAEFRCSATGSPTPTLEWTGGPGGQLPAKAQIHGGILR LPAVEPTDQAQYLCRAHSSAGQQVARAVLHVHGGGGPRVQVSPERTQVHAGRTVRLYCRA AGVPSATITWRKEGGSLPPQARSERTDIATLLIPAITTADAGFYLCVATSPAGTAQARIQ VVVLSASDASPPPVKIESSSPSVTEGQTLDLNCVVAGSAHAQVTWYRRGGSLPPHTQVHG SRLRLPQVSPADSGEYVCRVENGSGPKEASITVSVLHGTHSGPSYTPVPGSTRPIRIEPS SSHVAEGQTLDLNCVVPGQAHAQVTWHKRGGSLPARHQTHGSLLRLHQVTPADSGEYVCH VVGTSGPLEASVLVTIEASVIPGASTTLTPIPTAAGPIPPVRIESSSSTVAEGQTLDLSC VVAGQAHAQVTWYKRGGSLPARHQVRGSRLYIFQASPADAGQYVCRASNGMEASITVTVT GTQGANLAYPAGSTQPIRIEPSSSQVAEGQTLDLNCVVPGQSHAQVTWHKRGGSLPVRHQ THGSLLRLYQASPADSGEYVCRVLGSSVPLEASVLVTIEPAGSVPALGVTPTVRIESSSS QVAEGQTLDLNCLVAGQAHAQVTWHKRGGSLPARHQHVNKHWSPLFSGAKSQSSLAWVHG SRLRLLQVTPADSGEYVCRVVGSSGTQEASVLVTIQQRLSGSHSQGVAYPVRIESSSASL ANGHTLDLNCLVASQAPHTITWYKRGGSLPSRHQIVGSRLRIPQVTPADSGEYVCHVSNG AGSRETSLIVTIQGSGSSHVPSVSPPIRIESSSPTVVEGQTLDLNCVVARQPQAIITWYK RGGSLPSRHQTHGSHLRLHQMSVADSGEYVCRANNNIDALEASIVISVSPSAGSPSAPGS SMPIRIESSSSHVAEGETLDLNCVVPGQAHAQVTWHKRGGSLPSHHQTRGSRLRLHHVSP ADSGEYVCRVMGSSGPLEASVLVTIEASGSSAVHVPAPGGAPPIRIEPSSSRVAEGQTLD LKCVVPGQAHAQVTWHKRGGNLPARHQVHGPLLRLNQVSPADSGEYSCQVTGSSGTLEAS VLVTIEPSSPGPIPAPGLAQPIYIEASSSHVTEGQTLDLNCVVPGQAHAQVTWYKRGGSL PARHQTHGSQLRLHLVSPADSGEYVCRAASGPGPEQEASFTVTVPPSEGSSYRLRSPVIS IDPPSSTVQQGQDASFKCLIHDGAAPISLEWKTRNQELEDNVHISPNGSIITIVGTRPSN HGTYRCVASNAYGVAQSVVNLSVHGPPTVSVLPEGPVWVKVGKAVTLECVSAGEPRSSAR WTRISSTPAKLEQRTYGLMDSHAVLQISSAKPSDAGTYVCLAQNALGTAQKQVEVIVDTG AMAPGAPQVQAEEAELTVEAGHTATLRCSATGSPAPTIHWSKLRSPLPWQHRLEGDTLII PRVAQQDSGQYICNATSPAGHAEATIILHVESPPYATTVPEHASVQAGETVQLQCLAHGT PPLTFQWSRVGSSLPGRATARNELLHFERAAPEDSGRYRCRVTNKVGSAEAFAQLLVQAG STPTVQVTPQLETKSIGASVEFHCAVPSDRGTQLRWFKEGGQLPPGHSVQDGVLRIQNLD QSCQGTYICQAHGPWGKAQASAQLVIQALPSVLINIRTSVQTVVVGHAVEFECLALGDPK PQVTWSKVGGHLRPGIVQSGGVVRIAHVELADAGQYRCTATNAAGTTQSHVLLLVQALPQ ISMPQEVRVPAGSAAVFPCIASGYPTPDISWSKLDGSLPPDSRLENNMLMLPSVRPQDAG TYVCTATNRQGKVKAFAHLQVPERVVPYFTQTPYSFLPLPTIKDAYRKFEIKITFRPDSA DGMLLYNGQKRVPGSPTNLANRQPDFISFGLVGGRPEFRPSYKPPIHSLLPRPAPRSRFD AGSGMATIRHPTPLALGHFHTVTLLRSLTQGSLIVGDLAPVNGTSQGKFQGLDLNEELYL GGYPDYGAIPKAGLSSGFIGCVRELRIQGEEIVFHDLNLTAHGISHCPTCRDRPCQNGGQ CHDSESSSYVCVCPAGFTGSRCEHSQALHCHPEACGPDATCVNRPDGRGYTCRCHLGRSG LRCEEGVTVTTPSLSGAGSYLALPALTNTHHELRLDVEFKPLAPDGVLLFSGGKSGPVED FVSLAMVGGHLEFRYELGSGLAVLRSAEPLALGRWHRVSAERLNKDGSLRVNGGRPVLRS SPGKSQGLNLHTLLYLGGVEPSVPLSPATNMSAHFRGCVGEVSVNGKRLDLTYSFLGSQG IGQCYDSSPCERQPCQHGATCMPAGEYEFQCLCRDGFKGDLCEHEENPCQLREPCLHGGT CQGTRCLCLPGFSGPRCQQGSGHGIAESDWHLEGSGGNDAPGQYGAYFHDDGFLAFPGHV FSRSLPEVPETIELEVRTSTASGLLLWQGVEVGEAGQGKDFISLGLQDGHLVFSSYFLGL DDCRYQLGSGEARLVSEDPINDGEWHRVTALREGRRGSIQVDGEELVSGRSPGPNVAVNA KGSVYIGGAPDVATLTGGRFSSGITGCVKNLVLHSARPGAPPPQPLDLQHRAQAGANTRP CPS >gi568815597r:21587191_21882957|GENSCAN_predicted_CDS_5|12072_bp ngtgtgaatgtgacaatgcctgcgcagcccggcacgccacccctctcctccacgcagctg cagatcgacccatccctgcacgagttccagctagtcgacctgtcccgccgcttcctcgtc cacgactccttctgggctctgcctgaacagttcctgggcaacaaggtggactcctatggc ggctccctgcgttacaacgtgcgctacgagttggcccgtggcatgctggagccagtgcag cggccggacgtggtcctcatgggtgccgggtaccgcctcctctcccgaggccacacaccc acccaacctggtgctctgaaccagcgccaggtccagttctctgaggagcactgggtccat gagtctggccggccggtgcagcgcgcggagctgctgcaggtgctgcagagcctggaggcc gtgctcatccagaccgtgtacaacaccaagatggccagcgtgggacttagcgacatcgcc atggataccaccgtcacccatgccaccagccatggccgtgcccacagtgtggaggagtgc agatgccccattggctattctggcttgtcctgcgagagctgtgatgcccacttcactcgg gtgcctggtgggccctacctgggcacctgctctggttgcaattgcaatggccatgccagc tcctgtgaccctgtgtatggccactgcctgaattgccagcacaacacggaggggccacag tgcaacaagtgcaaggctggcttctttggggacgccatgaaggccacggccacttcctgc cggccctgcccttgcccatacatcgatgcctcccgcagattctcagacacttgcttcctg gacacggatggccaagccacatgtgacgcctgtgccccaggctacactggccgccgctgt gagagctgtgcccccggatacgagggcaaccccatccagcccggcgggaagtgcaggccc gtcaaccaggagattgtgcgctgtgacgagcgtggcagcatggggacctccggggaggcc tgccgctgtaagaacaatgtggtggggcgcttgtgcaatgaatgtgctgacggctctttc cacctgagtacccgaaaccccgatggctgcctcaagtgcttctgcatgggtgtcagtcgc cactgcaccagctcttcatggagccgtgcccagttgcatggggcctctgaggagcctggt cacttcagcctgaccaacgccgcaagcacccacaccaccaacgagggcatcttctccccc acgcccggggaactgggattctcctccttccacagactcttatctggaccctacttctgg agcctcccttcacgcttcctgggggacaaggtgacctcctatggaggagagctgcgcttc acagtgacccagaggtcccagccgggctccacacccctgcacgggcagccgttggtggtg ctgcaaggtaacaacatcatcctagagcaccatgtggcccaggagcccagccccggccag cccagcaccttcattgtgcctttccgggagcaagcatggcagcggcccgatgggcagcca gccacacgggagcacctgctgatggcactggcaggcatcgacaccctcctgatccgagca tcctacgcccagcagcccgctgagagcagggtctctggcatcagcatggacgtggctgtg cccgaggaaaccggccaggaccccgcgctggaagtggaacagtgctcctgcccacccggg taccgtgggccgtcctgccaggactgtgacacaggctacacacgcacgcccagtggcctc tacctgggtacctgtgaacgctgcagctgccatggccactcagaggcctgcgagccagaa acaggtgcctgccagggctgccagcatcacacggagggccctcggtgtgagcagtgccag ccaggatactacggggacgcccagcgggggacaccacaggactgccagctgtgcccctgc tacggagaccctgctgccggccagaggatcgggggagaggaaggagccactgcgttcctg actagaaatctgcccccacactcagggctgcccacacttgttttctggacacagacggcc accccacctgtgatgcgtgctccccaggccacagtgggcgtcactgtgagaggagacagc caggtgccagggcccataggctgcaactgtgacccccaaggcagcgtcagcagccagtgt gatgctgctggtcagtgccagtgcaaggcccaggtggaaggcctcacttgcagccactgc cggccccaccacttccacctgagtgccagcaacccagacggctgcctgccctgcttctgt atgggcatcacccagcagtgcgccagctctgcctacacacgccacctgatctccacccac tttgcccctggggacttccaaggctttgccctggtgaacccacagcgaaacagccgcctg acaggagaattcactgtggaacccgtgcccgagggtgcccagctctcttttggcaacttt gcccaactcggccatgagtccttctactggcagctgccggagacataccagggagacaag aaccgcacatccctctcagaggagcagttgcgggcagccgtgacagctgggaggatccca gagcccccagagggcagggactgggcacagcgggcatcacaggtggacgaggctcagaga cggatggatgctgagatctggcagctcctgtccagctttgctgcccaaccccaaccccct ccccaggggctctctcctcatccccagcctgcagctgctctgcgagcagcacctcctcct tcttcttcctcctcctcctcctcttcctcagcttctctgtctttctcaccaggctctcag ttctctctctcctacgaaggcttctctctgcttcctggaagcctctattactggcagctg ccccgggccttcctgggggacaaggtggcggcctacggtgggaagttgcgatacaccctc tcctacacagcaggcccacagggcagcccactctctgaccccgatgtgcagatcacgggc aacaacatcatgctagtggcctcccagccagcgctgcagggccctgagaggaggagctac gagatcatgttccgagaggaattctggcgccggcccgatgggcagccggccacacgcgag cacctcctgatggcactggccgacctggatgagctcctgatccgggccacgttctcctcc gtgccgctggcggccagcatcagcgcagtcagcctggaggtcgcccagccggggccctca aacagaccccgcgccctcgaggtggaggagtgccgctgcccgccaggctacatcggtctg tcctgccaggactgtgcccccggctacacgcgcaccgggagtgggctctacctcggccac tgcgagctatgtgaatgcaatggccactcagacctgtgccacccagagactggggcctgc tcgcaatgccagcacaacgccgcaggggagttctgcgagctttgtgcccctggctactac ggagatgccacagccgggacgcctgaggactgccagccctgtgcctgcccactgaccaac ccagagaacatgttttcccgcacctgtgagagcctgggagccggcgggtaccgctgcacg gcctgcgaacccggctacactggccagtactgtgagcagtgtggcccaggttacgtgggt aaccccagtgtgcaagggggccagtgcctgccagagacaaaccaagccccactggtggtc gaggtccatcctgctcgaagcatagtgccccaaggtggctcccactccctgcggtgtcag gtcagtgggagcccaccccactacttctattggtcccgtgaggatgggcggcctgtgccc agcggcacccagcagcgacatcaaggctccgagctccacttccccagcgtccagccctcg gatgctggggtctacatttgcacctgccgtaatctccaccaatccaataccagccgggca gagctgctggtcactgaggctccaagcaagcccatcacagtgactgtggaggagcagcgg agccagagcgtgcgccccggagctgacgtcaccttcatctgcacagccaaaagcaagtcc ccagcctataccctggtgtggacccgcctgcacaacgggaaactgcccacccgagccatg gatttcaatggcatcctgaccattcgcaacgtccagctgagtgatgcaggcacctacgtg tgcaccggctccaacatgtttgccatggaccagggcacagccactctacatgtgcaggcc tcgggcaccttgtccgcccccgtggtctccatccatccgccacagctcacagtgcagccc gggcaactggcggagttccgctgcagcgccacagggagccccacgcccaccctcgagtgg acagggggccccggcggccagctccctgcgaaggcacaaatccacggcggcatcctgcgc ctgccagctgtcgagcccacggatcaggcccagtacttgtgccgagcccacagcagcgct gggcagcaggtggccagggctgtgctccacgtgcatgggggcggtgggcccagagtccaa gtgagcccagagaggacccaggtccacgcaggccgcaccgtcaggctgtactgcagggct gcaggcgtgcctagcgccaccatcacctggaggaaggaagggggcagcctcccaccacag gcccggtcagagcgcacagacatcgcgacactgctcatcccagccatcacgactgctgac gccggcttctacctctgcgtggccaccagccctgcaggcactgcccaggcccggatccaa gtggttgtcctttcagcctcagatgccagcccaccgccggtcaagattgagtcctcatcg ccttctgtgacagaagggcaaacactcgacctcaactgtgtggtggcagggtcagcccat gcccaggtcacctggtacaggcgagggggtagcctgcctccccacacccaggtgcacggc tcccgtctgcggctcccccaggtctcaccagctgattctggagaatatgtgtgccgtgtg gagaatggatcgggccccaaggaggcctccattactgtgtctgtgctccacggcacccat tctggccccagctacaccccagtgcccggcagcacccggcccatccgcatcgagccctcc tcctcacacgtggcggaagggcagaccctggatctgaactgcgtggtgcccgggcaggcc cacgcccaggtcacgtggcacaagcgtgggggcagcctccctgcccggcaccagacccac ggctcgctgctgcggctgcaccaggtgaccccggccgactcaggcgagtatgtgtgccat gtggtgggcacctccggccccctagaggcctcagtcctggtcaccatcgaagcctctgtc atccctggagcatctacaactctcactcccatccccactgctgcaggacccatcccacct gtcaggatcgagtcttcatcctccacagtggccgagggccagaccctggatctgagctgc gtggtggcagggcaggcccacgcccaggtcacatggtacaagcgtgggggcagcctccct gcccggcaccaggttcgtggctcccgcctgtacatcttccaggcctcacctgccgatgcg ggacagtacgtctgccgggccagcaacggcatggaggcctccatcacggtcacagtaact gggacccagggggccaacttagcctaccctgccggcagcacccagcccatccgcatcgag ccctcctcctcgcaagtggcggaagggcagaccctggatctgaactgcgtggtgcccggg cagtcccatgcccaggtcacgtggcacaagcgtgggggcagcctccctgtccggcaccag acccacggctccctgctgagactctaccaagcgtcccccgccgactcgggcgagtacgtg tgccgagtgttgggcagctccgtgcctctagaggcctctgtcctggtcaccattgagcct gcgggctcagtgcctgcacttggggtcacccccacggtccggatcgagtcatcgtcttcg caagtggccgaggggcagaccctggacctgaactgcctcgttgctggtcaggcccatgcc caggtcacgtggcacaagcgcgggggcagcctcccggcccggcaccagcatgtcaacaaa cactggtccccacttttctctggtgccaagtctcagtcgtccctggcatgggtgcatggc tcgaggctacgcctgctccaggtgaccccagctgattcaggggagtacgtgtgccgtgtg gtcggcagctcaggtacccaggaagcctcagtccttgtcaccatccagcagcgccttagt ggctcccactcccagggtgtggcgtaccccgtccgcatcgagtcctcctcagcctccctg gccaatggacacaccctggacctcaactgcctggttgccagccaggctccccacaccatc acctggtataagcgtggaggcagcttacccagccggcaccagatcgtgggctcccggctg cggatccctcaggtgactccggcagactcgggcgagtacgtgtgtcacgtcagtaacggt gcaggctcccgggagacctcgctcatcgtcaccatccagggcagcggttcctcccacgtg cccagcgtctccccaccgatcaggatcgagtcgtcttcccccacggtggtggaagggcag accttggatctgaactgcgtggtcgccaggcagccccaggctatcatcacatggtacaag cgtgggggcagccttccctcccgacaccagacccatggctcccacctgcggttgcaccaa atgtctgtggctgactcgggcgagtatgtgtgccgggccaacaacaacatcgatgccctg gaggcctccatcgtcatctccgtctcccctagcgccggcagcccctccgcccctggcagc tccatgcccatcagaattgagtcatcctcctcacacgtggccgaaggggagaccctggat ctgaactgcgtggtccccgggcaggcccatgcccaggtcacttggcacaagcgtgggggc agcctccccagtcaccatcagacccgcggctcacggctgcggctgcaccatgtgtccccg gccgactcgggtgaatacgtgtgccgggtgatgggcagctctggccccctggaggcctca gtcctggtcaccatcgaagcctctggctcaagtgctgtccacgtccccgccccaggtgga gccccacccatccgcatcgagccctcctcctcccgagtggcagaagggcagaccctggat ctgaagtgcgtggtgcccgggcaggcccacgcccaggtcacgtggcacaagcgtggagga aacctccctgcccggcaccaggtccacggcccactgctgaggctgaaccaggtgtccccg gctgactctggcgagtactcgtgccaagtgaccggaagctcaggcaccctggaggcatct gtcctggtcacaattgagccctccagcccaggacccattcctgctccaggactggcccag cccatctacatcgaggcctcctcttcacacgtgactgaagggcagactctggatctgaac tgtgtggtgcccgggcaggcccatgcccaggtcacgtggtacaagcgcgggggcagcctc cccgcccggcaccagacccatggctcccagctgcggctccacctcgtctcccctgccgac tcaggcgagtatgtgtgtcgtgcagccagcggcccaggccctgagcaagaagcctccttc acagtcaccgtcccgcccagtgaggggtcttcctaccgccttaggagcccggtcatctcc atcgacccgcccagcagcaccgtgcagcagggccaggatgccagcttcaagtgcctcatc catgacggggcagcccccatcagcctcgagtggaagacccggaaccaggagctggaggac aacgtccacatcagtcccaatggctccatcatcaccatcgtgggcacccggcccagcaac cacggtacctaccgctgcgtggcctccaatgcctacggtgtggcccagagtgtggtgaac ctcagtgtgcacgggccccctacagtgtccgtgctccccgagggccccgtgtgggtgaaa gtgggaaaggctgtcaccctggagtgtgtcagtgccggggagccccgctcctctgctcgt tggacccggatcagcagcacccctgccaagttggagcagcggacatatgggctcatggac agccacgcggtgctgcagatttcatcagctaaaccatcagatgcgggcacttatgtgtgc cttgctcagaatgcactaggcacagcacagaagcaggtggaggtgatcgtggacacgggc gccatggccccaggggcccctcaggtccaagctgaagaagctgagctgactgtggaggct ggacacacggccaccttgcgctgctcagccacaggcagccccgcgcccaccatccactgg tccaagctgcgttccccactgccctggcagcaccggctggaaggtgacacactcatcata ccccgggtagcccagcaggactcgggccagtacatctgcaatgccactagccctgctggg cacgctgaggccaccatcatcctgcacgtggagagcccaccatatgccaccacggtccca gagcacgcttcggtgcaggcaggggagacggtgcagctccagtgcctggctcacgggaca cccccactcaccttccagtggagccgcgtgggcagcagccttcctgggagggcgaccgcc aggaacgagctgctgcactttgagcgtgcagcccctgaggactcaggccgctaccgctgc cgggtcaccaacaaggtgggctcagccgaggcctttgcccagctgctcgtccaagcaggg tccacgcccaccgtgcaggtcacgcctcagctagagaccaagagcattggggccagcgtt gagttccactgtgctgtgcccagcgaccggggtacccagctccgttggttcaaggaaggg ggtcagctgcctccgggtcacagcgtgcaggatggggtgctccgaatccagaacttggac cagagctgccaagggacgtatatatgccaggcccatggaccttgggggaaggcccaggcc agtgcccagctggttatccaagccctgccctcggtgctcatcaacatccggacctctgtg cagaccgtggtggttggccacgccgtggagttcgaatgcctggcactgggtgaccccaag cctcaggtgacatggagcaaagttggagggcacctgcggccaggcattgtgcagagcgga ggtgtcgtcaggatcgcccacgtagagctggctgatgcgggacagtatcgctgcactgcc accaacgcagctggcaccacacaatcccacgtcctgctgcttgtgcaagccttgccccag atctcaatgccccaagaagtccgtgtgcctgctggttctgcagctgtcttcccctgcata gcctcaggctaccccactcctgacatcagctggagcaagctggatggcagcctgccacct gacagccgcctggagaacaacatgctgatgctgccctcagtccgaccccaggacgcaggt acctacgtctgcaccgccactaaccgccagggcaaggtcaaagcctttgcccacctgcag gtgccagagcgggtggtgccctacttcacgcagaccccctactccttcctaccgctgccc accatcaaggatgcctacaggaagttcgagatcaagatcaccttccggcccgactcagcc gatgggatgctgctgtacaatgggcagaagcgagtcccagggagccccaccaacctggcc aaccggcagcccgacttcatctccttcggcctcgtggggggaaggcccgagttccgccct tcttacaaaccccctatccactctctcctgccccggcctgccccacggagcaggttcgat gcaggctcaggcatggccaccatccgccatcccacaccactggccctgggccatttccac accgtgaccctgctgcgcagcctcacccagggctccctgattgtgggtgacctggccccg gtcaatgggacctcccagggcaagttccagggcctggatctgaacgaggaactctacctg ggtggctatcctgactatggtgccatccccaaggcggggctgagcagcggcttcataggc tgtgtccgggagctgcgcatccagggcgaggagatcgtcttccatgacctcaacctcacg gcgcacggcatctcccactgccccacctgtcgggaccggccctgccagaatggcggtcag tgccatgactctgagagcagcagctacgtgtgcgtctgcccagctggcttcaccgggagc cgctgtgagcactcgcaggccctgcactgccatccagaggcctgtgggcccgacgccacc tgtgtgaaccggcctgacggtcgaggctacacctgccgctgccacctgggccgctcgggg ttgcggtgtgaggaaggtgtgacagtgaccaccccctcgctgtcgggtgctggctcctac ctggcactgcccgccctcaccaacacacaccacgagctacgcctggacgtggagttcaag ccactcgcccctgacggggtcctgctgttcagcggggggaagagcgggcctgtggaggac ttcgtgtccctggcgatggtgggcggccacctggagttccgctatgagttggggtcaggg ctggccgttctgcggagcgccgagccgctggccctgggccgctggcaccgtgtgtctgca gagcgtctcaacaaggacggcagcctgcgggtgaatggtggacgccctgtgctgcgctcc tcgcccggcaagagccagggcctcaacctgcacaccctgctctacctggggggtgtggag ccttccgtgccactgtccccggccaccaacatgagcgctcacttccgcggctgtgtgggc gaggtgtcagtgaatggcaaacggctggacctcacctacagtttcctaggcagccagggc atcgggcaatgctatgatagctccccatgtgagcgccagccttgccaacatggtgccacg tgcatgcccgctggcgagtatgagttccagtgcctgtgtcgagatggattcaaaggagac ctgtgtgagcacgaggagaacccctgccagctccgtgaaccctgtctgcatgggggcacc tgccagggcacccgctgcctctgcctccctggcttctctggcccacgctgccaacaaggc tctggacatggcatagcagagtccgactggcatcttgaaggcagcgggggcaatgatgcc cctgggcagtacggagcctatttccacgatgatggcttcctcgccttccctggccatgtc ttctccaggagcctgcccgaggtgcccgagaccatcgagctggaggttcggaccagcaca gccagtggcctcctgctctggcagggtgtggaggtgggagaggccggccaaggcaaggac ttcatcagcctcgggcttcaagacgggcaccttgtcttcagctcatacttcttgggcctg gatgactgcaggtaccagctgggtagtggggaggcccgcctggtctctgaggaccccatc aatgacggcgagtggcaccgggtgacagcactgcgggagggccgcagaggttccatccaa gtcgacggtgaggagctggtcagcggccggtccccaggtcccaacgtggcagtcaacgcc aagggcagcgtctacatcggcggagcccctgacgtggccacgctgaccgggggcagattc tcctcaggcatcacaggctgtgtcaagaacctggtgctgcactcggcccgacccggcgcc ccgcccccacagcccctggacctgcagcaccgcgcccaggccggggccaacacacgcccc tgcccctcgtag