GENSCAN 1.0 Date run: 5-Nov-116 Time: 16:46:04 Sequence gi568815579r:1939616_2150851 : 211236 bp : 57.85% C+G : Isochore 4 (57 - 100 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.04 PlyA - 284 279 6 1.05 1.03 Term - 1561 1278 284 2 2 32 50 260 0.128 13.20 1.02 Intr - 4395 4201 195 1 0 68 13 96 0.054 0.70 1.01 Init - 4975 4825 151 1 1 74 96 81 0.588 5.85 1.00 Prom - 6670 6631 40 -5.75 2.11 PlyA - 6680 6675 6 1.05 2.10 Term - 8452 7814 639 1 0 76 52 296 0.951 20.20 2.09 Intr - 9392 9236 157 1 1 65 87 50 0.132 3.80 2.08 Intr - 10205 9815 391 0 1 48 33 219 0.003 7.49 2.07 Intr - 14336 14228 109 2 1 41 103 79 0.054 5.72 2.06 Intr - 16504 16300 205 0 1 113 47 23 0.092 1.12 2.05 Intr - 16718 16646 73 0 1 89 60 36 0.856 0.51 2.04 Intr - 17267 17151 117 0 0 80 51 116 0.978 8.71 2.03 Intr - 17534 17359 176 1 2 64 99 -41 0.311 -4.62 2.02 Intr - 18302 18029 274 0 1 97 77 102 0.477 7.85 2.01 Init - 19408 19297 112 1 1 57 23 74 0.387 -1.71 2.00 Prom - 19877 19838 40 -2.16 3.00 Prom + 20548 20587 40 -8.97 3.01 Init + 21463 21594 132 0 0 64 -15 94 0.278 -3.03 3.02 Intr + 21600 21758 159 2 0 41 68 110 0.608 5.68 3.03 Term + 23227 23394 168 0 0 56 41 222 0.864 13.14 3.04 PlyA + 23577 23582 6 1.05 4.00 Prom + 24997 25036 40 0.94 4.01 Init + 26662 26708 47 0 2 74 46 40 0.244 -1.36 4.02 Intr + 28136 28165 30 2 0 119 75 21 0.183 2.27 4.03 Intr + 28197 28226 30 0 0 119 75 21 0.182 2.27 4.04 Intr + 28258 28287 30 1 0 119 75 21 0.185 2.27 4.05 Intr + 28319 28348 30 2 0 119 75 21 0.170 2.27 4.06 Intr + 28488 28517 30 0 0 120 75 21 0.227 2.37 4.07 Intr + 28596 28625 30 0 0 120 75 14 0.386 1.67 4.08 Intr + 30121 30362 242 1 2 8 66 378 0.499 26.03 4.09 Intr + 38690 38730 41 0 2 109 97 28 0.554 4.88 4.10 Intr + 38827 38896 70 0 1 101 86 157 0.611 16.70 4.11 Intr + 38987 39135 149 0 2 79 66 353 0.984 33.34 4.12 Intr + 39244 39478 235 0 1 104 84 627 0.999 62.39 4.13 Intr + 39548 39633 86 0 2 111 86 93 0.999 12.10 4.14 Intr + 39704 39788 85 1 1 0 110 246 0.730 18.55 4.15 Intr + 39880 40028 149 2 2 71 82 473 0.661 46.14 4.16 Intr + 40137 40220 84 2 0 113 94 90 0.966 13.27 4.17 Intr + 40296 40402 107 2 2 80 80 196 0.847 18.18 4.18 Intr + 40553 40757 205 2 1 63 8 70 0.276 -3.08 4.19 Term + 42102 42296 195 2 0 55 48 116 0.242 2.68 4.20 PlyA + 42608 42613 6 -0.45 5.12 PlyA - 43149 43144 6 1.05 5.11 Term - 47034 46873 162 0 0 130 44 362 0.944 34.89 5.10 Intr - 47361 47215 147 0 0 123 91 369 0.999 42.32 5.09 Intr - 47638 47551 88 0 1 79 81 188 0.937 18.33 5.08 Intr - 48077 47885 193 0 1 124 75 431 0.998 45.16 5.07 Intr - 50586 50389 198 1 0 87 92 477 0.888 48.54 5.06 Intr - 51207 51102 106 0 1 64 82 256 0.885 23.55 5.05 Intr - 53561 53405 157 1 1 119 80 349 0.926 38.40 5.04 Intr - 57848 57729 120 1 0 100 34 270 0.145 23.58 5.03 Intr - 58686 58646 41 0 2 95 42 19 0.001 -3.84 5.02 Intr - 61292 61138 155 0 2 62 42 149 0.001 8.68 5.01 Init - 72190 72136 55 1 1 104 59 24 0.145 2.63 5.00 Prom - 72245 72206 40 -4.36 6.03 PlyA - 72549 72544 6 1.05 6.02 Term - 75588 75474 115 2 1 58 54 66 0.419 -0.83 6.01 Init - 76088 75682 407 2 2 85 80 676 0.874 60.83 6.00 Prom - 89335 89296 40 -0.76 7.25 PlyA - 89716 89711 6 1.05 7.24 Term - 93333 93217 117 0 0 91 47 36 0.033 -0.73 7.23 Intr - 100241 100016 226 1 1 110 48 322 0.647 29.61 7.22 Intr - 100562 100519 44 2 2 104 94 32 0.986 3.57 7.21 Intr - 101589 101425 165 0 0 102 84 272 0.994 29.55 7.20 Intr - 102148 101885 264 1 0 77 36 74 0.263 0.06 7.19 Intr - 102419 102225 195 2 0 121 80 410 0.999 44.32 7.18 Intr - 102907 102812 96 1 0 109 93 210 0.959 24.97 7.17 Intr - 103047 102992 56 1 2 92 96 69 0.950 7.94 7.16 Intr - 103255 103151 105 2 0 93 100 206 0.999 23.65 7.15 Intr - 103582 103509 74 0 2 105 67 223 0.999 22.10 7.14 Intr - 103967 103888 80 2 2 95 96 77 0.859 8.70 7.13 Intr - 106668 106571 98 1 2 92 86 210 0.996 22.09 7.12 Intr - 107076 106752 325 0 1 139 105 329 0.943 36.32 7.11 Intr - 111332 111186 147 2 0 115 100 12 0.932 6.72 7.10 Intr - 111616 111481 136 0 1 37 117 78 0.740 7.35 7.09 Intr - 120379 120262 118 2 1 49 96 17 0.001 -0.70 7.08 Intr - 125375 125179 197 1 2 97 60 97 0.955 8.07 7.07 Intr - 125713 125596 118 2 1 65 49 87 0.883 3.20 7.06 Intr - 131958 131542 417 1 0 86 80 138 0.018 8.12 7.05 Intr - 132154 132034 121 1 1 63 100 0 0.010 -0.06 7.04 Intr - 137398 137196 203 2 2 102 66 539 0.262 53.32 7.03 Intr - 138972 138525 448 0 1 36 97 1084 0.370 98.36 7.02 Intr - 139064 139040 25 1 1 93 97 1 0.231 0.65 7.01 Init - 149809 149628 182 1 2 91 88 91 0.510 8.22 7.00 Prom - 152495 152456 40 -7.04 8.00 Prom + 152828 152867 40 -1.26 8.01 Init + 157331 157547 217 1 1 88 70 498 0.995 45.02 8.02 Intr + 157637 157717 81 0 0 121 107 121 0.993 18.06 8.03 Intr + 157809 157880 72 1 0 63 61 222 0.999 17.53 8.04 Term + 158314 158516 203 2 2 99 49 212 0.668 16.93 8.05 PlyA + 161471 161476 6 1.05 9.00 Prom + 162950 162989 40 -5.45 9.01 Sngl + 164400 165035 636 2 0 50 48 554 0.992 43.84 9.02 PlyA + 165967 165972 6 1.05 10.38 PlyA - 166071 166066 6 -1.75 10.37 Term - 169010 168939 72 2 0 68 52 26 0.418 -4.19 10.36 Intr - 169151 169072 80 0 2 72 105 98 0.985 10.32 10.35 Intr - 169592 169471 122 1 2 111 107 80 0.976 13.51 10.34 Intr - 170343 170258 86 0 2 110 75 97 0.995 10.37 10.33 Intr - 170609 170521 89 0 2 94 91 199 0.999 21.65 10.32 Intr - 171281 171092 190 2 1 78 99 379 0.945 38.37 10.31 Intr - 171989 171670 320 0 2 88 101 117 0.488 9.95 10.30 Intr - 172213 172057 157 1 1 92 32 271 0.567 22.67 10.29 Intr - 172761 172363 399 0 0 41 82 205 0.461 11.22 10.28 Intr - 173352 173245 108 0 0 84 100 234 0.999 25.85 10.27 Intr - 173798 173721 78 2 0 97 107 15 0.964 5.20 10.26 Intr - 174687 174510 178 2 1 89 116 247 0.959 28.72 10.25 Intr - 175206 175133 74 0 2 70 78 169 0.996 13.45 10.24 Intr - 175803 175604 200 1 2 86 60 434 0.976 40.68 10.23 Intr - 175998 175854 145 0 1 77 60 105 0.995 7.64 10.22 Intr - 176663 176592 72 2 0 73 100 119 0.925 12.35 10.21 Intr - 177131 176990 142 1 1 73 88 308 0.999 30.84 10.20 Intr - 177752 177607 146 2 2 114 86 254 0.997 28.07 10.19 Intr - 177918 177784 135 0 0 26 50 93 0.427 1.25 10.18 Intr - 179217 178986 232 2 1 85 94 378 0.954 37.11 10.17 Intr - 181062 180970 93 2 0 89 59 38 0.700 1.24 10.16 Intr - 181477 181247 231 0 0 130 70 561 0.997 56.62 10.15 Intr - 181696 181548 149 1 2 69 62 400 0.996 35.72 10.14 Intr - 182264 182119 146 0 2 93 74 392 0.777 39.49 10.13 Intr - 183791 183743 49 2 1 111 74 67 0.965 6.99 10.12 Intr - 184349 184215 135 2 0 29 98 242 0.996 21.25 10.11 Intr - 186407 186388 20 0 2 103 91 -16 0.084 -2.35 10.10 Intr - 187586 187537 50 1 2 103 94 68 0.961 8.36 10.09 Intr - 189548 189475 74 2 2 97 109 117 0.900 14.05 10.08 Intr - 189842 189646 197 0 2 84 -5 281 0.900 18.75 10.07 Intr - 190922 190793 130 2 1 60 30 236 0.393 16.44 10.06 Intr - 192963 192856 108 0 0 111 105 155 0.000 21.15 10.05 Intr - 196789 196658 132 1 0 74 64 53 0.000 3.52 10.04 Intr - 197476 197396 81 1 0 109 98 153 0.015 19.39 10.03 Intr - 198192 198112 81 0 0 62 100 132 0.895 12.79 10.02 Intr - 199099 199004 96 1 0 88 92 137 0.995 15.47 10.01 Intr - 199992 199679 314 1 2 134 52 39 0.233 2.07 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 13396 13238 159 1 0 113 49 61 0.844 3.59 S.002 Term + 32499 32656 158 1 2 64 42 100 0.895 2.05 S.003 Term - 124473 124361 113 1 2 40 42 81 0.855 -1.65 S.004 Init - 131863 131542 322 1 1 55 80 167 0.937 10.32 S.005 Term - 153778 153722 57 1 0 69 55 66 0.932 -0.01 S.006 Intr - 154122 154027 96 0 0 122 80 29 0.955 6.87 S.007 Init + 191672 192280 609 1 0 72 56 405 0.999 31.39 S.008 Term + 196318 196519 202 1 1 64 49 307 0.961 22.23 S.009 Term - 197476 197216 261 1 0 109 52 247 0.972 19.73 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815579r:1939616_2150851|GENSCAN_predicted_peptide_1|209_aa MGKAVRPVPWPQGHHPSLSLLPLARRVTREAQVWESALGKHHLLLYPSRPEKVSQPHMLA CPLPPEARSPCQAVPGTRPQQHPQRCLHPPPALRQASVKALTDHEPLGAWGSSVGASASG GRQPYAPHCAAAATAPGARAADVTARGGANTRLGVSRAALRQRMAPRDGHGVLRPLRGRR AAARGGHRKRVAARARAGRKGGLTVSTPF >gi568815579r:1939616_2150851|GENSCAN_predicted_CDS_1|630_bp atggggaaggcggtgaggcccgtcccctggccgcagggccaccacccctcgctgtcactg ctcccactggcacggcgggtgaccagagaagcacaggtgtgggagtcagccctcgggaaa caccaccttctcctctacccaagcaggccagagaaagtcagccagccccacatgctggcc tgcccactgccacccgaggcccgcagcccctgccaggctgtgcccggcactcggccccaa cagcacccacagcgctgcctccatccaccacccgccctccgccaggcctcggtcaaggcc ttgacggaccatgagcccctgggggcctggggcagctcggtgggggcgtctgccagcggg gggcggcagccatacgcgccccactgcgcagccgcggccacggcgccgggggcgcgcgcc gccgacgtcacagcgcggggcggggccaacacccggctgggcgtttctcgcgccgctttg cgacaacggatggcgccgcgcgacggccacggcgttttgcggccgctacgaggccgccgg gccgctgcccgcgggggacaccgaaagcgcgtggccgcgagggcgcgcgcgggcaggaaa gggggtctaacggtttccacacccttctag >gi568815579r:1939616_2150851|GENSCAN_predicted_peptide_2|750_aa MEMQTGKPHGEFGEGTLRTQSQSSYPHSIPAAVALDGAPGGPKQWPCHTHSARRAPTPHK RRPPSSHPTNTAPAEHIPPTHGTHRAHTPVFPGEIWQLLKCRQTPSEAPLCPRLQSPGVL RTLQSLPVCRPCLALSTAGDPRGPIPPTNLRVAPFKPRSIRARPSKGGATTSLPSAESPP PPSFSLPGSSRLSPKFRNEPPGALWGVLLARRQKLLDGCLTAPTDVEQKAPNPHPSCTCT DDKPQPPEPVTASRHPCPMTWRQEDEKGAGPALRDPTLSGAGVKASPGCVPTLLRPANEQ AAPLASVLIQWSWLLWPRQKPTSPRRLHRRRPRGQPASENAAEPSQVAISKGKSPGQRSI GPKDRRNQVTGRGEWSSLCRDPVPKTRQGTQTVQVWMAVCGSSNGPTGSGPVTSGSTARS PPDRRITQPHGNRTRVLAAATRGCHANIYHRNKHVATHTPEHDSATNRSETRTRAMARMH RGCHTHPQREHDEDRGFHEHYFHCVKSKQGFSSFCFSPHVLVSSFPHCENAAPNTTHEGQ GLTSSSRVPAHEAFRGTGAVRPQEGEASARARGRADSWGPQDVTTPIAQGRGRGPRGSGG PRQLMGQPRSTQGSGSEPHTAPLSTAYRPDQRDGTARTHLCRRQRKRTPPLRSQALSQPT CRLQGSGWPARGQGPAGSPSAHPPSEELKGTPSKSEADTGQSVSSRWSRALPSGSRPGNC PQAEPGHQRQLPCPRTTGAEARGAQLPRTG >gi568815579r:1939616_2150851|GENSCAN_predicted_CDS_2|2253_bp atggagatgcagactgggaagccacatggggaatttggggaagggacgctcaggacccag agccaaagctcatacccacactcaataccggctgctgtggccctggacggggctccaggg ggccctaagcagtggccgtgccacacacacagtgcccgccgagcgcccaccccacataaa cggcgcccgcctagctcccaccccacaaacacggcgcccgccgagcacataccccccaca cacggcacccaccgagcacacaccccagtgtttccaggggagatctggcagctgctcaaa tgccgccagacgccctcagaggcccctctgtgcccacgtctgcagtcacccggggtcctg cgcaccctccagtctctgcctgtgtgccgcccctgccttgccctctccacagccggggac cccagaggcccaatcccgcccaccaatctccgggtggcaccgtttaagccacgcagcatc agggcacgaccgtcgaaggggggcgccaccaccagccttccctctgcagaatcccctcct cctccctccttctctcttccaggttcatcgaggctgagccctaaattccggaacgagcct cctggggctctctggggtgtcctcctggcccggagacagaagcttctggacggctgtctc acagcccccacggatgtggaacaaaaagcaccaaatccccatcccagctgcacctgcaca gatgacaagccccaacccccagaacctgtgacggcctctcggcacccctgccccatgacc tggaggcaggaggatgagaaaggggcaggccctgcactcagggacccaacgctgtcggga gctggggtgaaggccagcccgggctgtgtgccgaccctgctccgcccggccaacgagcag gctgccccgctggcgtctgttctgatacagtggtcttggctgttgtggcccaggcagaag ccaacctcaccgcgccgactgcaccggagacgcccacgaggacagccggcctctgagaac gcagctgagccgtcacaggtcgccatcagcaaaggcaagagtccaggccagagaagcatc gggccgaaggacaggagaaaccaagtcaccggaagaggggagtggtcgtcgctgtgcaga gatccagtccccaaaacccggcaggggacccaaacagtgcaggtatggatggccgtctgc ggctcctcaaatggtccaaccgggagtggccctgtgaccagcggttccaccgctagaagt ccacctgacagaagaatcacgcagccacacgggaaccggacacgggtgctcgcagcagcc acacgcggatgccatgcaaacatctatcacagaaataaacacgtggccacccacacgccg gaacacgactcagccacgaacaggagcgagactcggacgcgggccatggcgcggatgcac cgagggtgtcacactcaccctcaacgtgaacacgacgaggacagaggcttccatgagcat tacttccactgcgtgaagagcaaacagggtttctcttccttctgcttttctccacatgtt ctggtctccagcttccctcactgtgagaacgcagcacctaacacaacacacgagggccag ggtttaaccagctcatcccgggtcccggcccacgaagctttcagaggaaccggggctgtg cgcccacaggaaggagaggccagtgcccgggcacgaggacgagctgactcatgggggccc caggacgtcaccacacccattgcccagggccgcgggcgaggtccaaggggcagcggaggt ccccgacaactcatggggcagccacggtccacccagggctcaggcagcgagccccacaca gcgcccctctccacggcgtacaggcctgaccagcgtgatggcacagcacgcacacacctg tgcagacgccagcgcaaacgcacaccacccctgcggtcgcaagccctgtcccagcccacc tgcaggctccagggctctggctggcctgcacgtggccagggcccagctggatccccctcg gcgcacccaccctcagaggaactcaaaggcacacccagcaagtcagaggcagacacgggc cagtccgtgtcctcacgctggtcccgtgcgctgccctcaggctcccgtcctgggaactgt ccccaggcagagcctgggcatcagcgccagctgccctgccccaggaccactggagcagaa gcccgaggggcacaactgccgcggacaggatga >gi568815579r:1939616_2150851|GENSCAN_predicted_peptide_3|152_aa MVVLCGSPPVRPVGSRSGKTDGRAVTGTAQCDPSPGRRGCGILAGAVPVALMAVEGRGGG GPHGQNLAVAGGGLEAGSVVSAAACSPTQRRWVELPQVEWKPAATQKPVRRRRRGLQQPD GGYNPDGRQQRRRRSVALHALEHNPAMKRKKL >gi568815579r:1939616_2150851|GENSCAN_predicted_CDS_3|459_bp atggtggtcctctgcggaagtccccctgtccgtcccgttggcagccgcagtggaaagacg gatggacgggctgtgacagggacagcccagtgtgaccccagccctggccgtcgcggttgt ggcattctcgctggggctgttcccgtggctctcatggctgtggaggggcgtggagggggc ggtccccatggccagaacctggccgtggcgggtggaggacttgaggccggctcagtggtc agcgctgctgcttgttcccctacacagaggcgttgggtggagctgcctcaggtggagtgg aagcccgcagccacgcagaagcccgtgcgcagacgccgccgtggactccagcagccggac ggtggctacaacccagatggccgtcagcagaggaggaggcgtagtgtggccctccatgca ctggaacacaacccagccatgaaaaggaagaagctctga >gi568815579r:1939616_2150851|GENSCAN_predicted_peptide_4|624_aa MSGSLEEVGPRPERSLLPPTTLQFCRLPPTTLQFCRLPPTTLQFCRLPPTTLQFCRLPPT TLQFCRLPQTTLQFCSRVTVERPGYHKLMDFDKKGGKGETEEGRRMSKAGGGRSSHGIRS SGTSSGVLMVGPNFRVGKKIGCGNFGELRLGEALLGGKNLYTNEYVAIKLEPIKSRAPQL HLEYRFYKQLSATEGVPQVYYFGPCGKYNAMVLELLGPSLEDLFDLCDRTFTLKTVLMIA IQLITRMEYVHTKSLIYRDVKPENFLVGRPGTKRQHAIHIIDFGLAKEYIDPETKKHIPY REHKSLTGTARYMSINTHLGKEQSRRDDLEALGHMFMYFLRGSLPWQGLKADTLKERYQK IGDTKRATPIEVLCENFPEEMATYLRYVRRLDFFEKPDYDYLRKLFTDLFDRSGFVFDYE YDWAGKPLPTPIGTVHTDLPSQPQLRDKTQPHSKNQALNSTNGELNADDPTAGHSNAPIT APAEVEVADETKGERENRCSDTSDPGRVQPPESSPCSPLGRDLVRGPRGPPTAAQGQTLA GSQNADCRGRAWLRRPHPRDGRKHLHGGHDTVKGISSSSQKNSGNCRQVKTLAALAPAPP RAFSPDNTPYPAARVEDQYHRNML >gi568815579r:1939616_2150851|GENSCAN_predicted_CDS_4|1875_bp atgagcggaagtttggaagaagttggtcccaggcctgaaagatcactgctgcccccgacc acccttcagttctgcaggctgcccccgaccacccttcagttctgcaggctgcccccgacc acccttcagttctgcaggctgcccccgaccacccttcagttctgcaggctgcccccgacc acccttcagttctgcaggctgccccagaccacccttcagttctgcagcagagtcaccgtg gagaggccagggtatcacaaacttatggattttgacaagaaaggagggaaaggggagacg gaggagggccggagaatgtccaaggccggcgggggccggagcagccacggcatccggagc tcggggaccagctcgggggtcctgatggtgggccccaacttccgcgtcggcaagaagatc ggctgcggcaacttcggggagctccgcctaggtgaggccctgctcggtggaaagaatctc tatacaaatgaatacgtggctatcaaattggagccgatcaagtcccgggccccgcagctg cacctggagtaccggttctacaagcagctcagcgccacagagggcgtccctcaggtctac tacttcggtccgtgcgggaagtacaacgccatggtgctggagctgctggggcccagcctg gaggacctgttcgacctgtgcgaccggaccttcacgctcaagacggtgctgatgatcgcc atccagctgatcacgcgcatggagtatgtgcacaccaagagcctaatctaccgggacgtg aagcccgagaacttcctggtgggccgcccggggaccaagcggcagcatgccatccacatc atcgacttcgggctggccaaggagtacatcgaccccgagaccaagaagcacatcccgtac cgcgagcacaagagcctgacgggcacggcgcgctacatgagcatcaacacgcacctgggc aaggagcagagccgccgcgacgacctggaggcgctgggccacatgttcatgtacttcctg cgcggcagcctcccctggcaggggctcaaggccgacacgctcaaggagcggtaccagaag atcggggacaccaaacgcgccacgcccatcgaggtgctctgcgagaacttcccagaggag atggccacgtacctgcgctatgtgcggcgcctggacttcttcgagaagcccgactatgac tacctgcggaagctcttcaccgacctcttcgaccgcagtggcttcgtgttcgactatgag tacgactgggccgggaagcccctgccgacccccatcggcaccgtccacaccgacctgccc tcccagcctcagctccgggacaaaacccagccgcacagcaaaaaccaggcgttgaactcc accaacggggagctgaatgcggacgaccccacggccggccactccaacgccccgatcaca gcgcctgcagaggtggaggtggccgatgaaaccaaaggagaaagagaaaatcgctgcagc gacacaagtgaccctgggcgcgtgcagccccctgaatcttctccgtgcagccccttgggg cgcgaccttgtgcgaggccctcggggcccacccacagcggcccagggccagaccctggct ggaagccagaacgcagactgcaggggccgcgcctggctcaggcggccccacccccgggac ggcagaaaacatctccacgggggccacgacactgtgaagggaatcagcagtagctcccag aagaacagcggaaactgcaggcaggtgaagaccttggcagcactagccccggctccgccc cgtgccttctccccagacaacaccccatacccggcagcaagggtggaagaccagtaccac cgtaatatgttgtga >gi568815579r:1939616_2150851|GENSCAN_predicted_peptide_5|473_aa MKACVLVFILRAEEQEQEEHDVFKAHLHRVLHQSLVPVCGWVVFQCVGGRTVSVNGRWLF PPFGVGNRAAWGLFGHLVLVCLPQFVLAVGSAVFDAMFNGGMATTSTEIELPDVEPAAFL ALLKFLYSDEVQIGPETVMTTLYTAKKYAVPALEAHCVEFLKKNLRADNAFMLLTQARLF DEPQLASLCLENIDKNTADAITAEGFTDIDLDTLVAVLERDTLGIREVRLFNAVVRWSEA ECQRQQLQVTPENRRKVLGKALGLIRFPLMTIEEFAAGPAQSGILVDREVVSLFLHFTVN PKPRVEFIDRPRCCLRGKECSINRFQQVESRWGYSGTSDRIRFSVNKRIFVVGFGLYGSI HGPTDYQVNIQIIHTDSNTVLGQNDTGFSCDGSASTFRVMFKEPVEVLPNVNYTACATLK GPDSHYGTKGLRKVTHESPTTGAKTCFTFCYAAGNNNGTSVEDGQIPEVIFYT >gi568815579r:1939616_2150851|GENSCAN_predicted_CDS_5|1422_bp atgaaggcctgtgtccttgtgttcatattgagggctgaggagcaggagcaggaggagcac gacgtcttcaaggcgcatctgcaccgggtcctgcatcagagcctcgttcctgtttgtggc tgggtcgtgttccagtgcgtgggtggtcgcaccgtgtctgtcaatggacgctggttgttt cccccgttcggagttgggaatcgtgctgcttgggggctgttcggccatttggtcctcgtc tgtctccctcagttcgtgctggccgtgggcagcgccgtctttgatgccatgttcaacggg ggaatggccacaacatccacggagattgagctgcccgacgtggaacccgctgccttcctc gcactgctcaagtttctctactcggacgaggtgcagattggcccggagacggtgatgacc acgctatacaccgccaagaagtacgcggtgccagcgctcgaggcccattgcgtggagttc ctgaagaagaacctgcgagccgacaacgccttcatgctgctcacgcaggcgcgactcttc gatgaaccgcagctggccagcctgtgcctggagaacatcgacaaaaacactgcagacgcc atcaccgcggagggcttcaccgacattgacctggacacgctggtggctgtcctggagcgc gacacactgggcatccgtgaggtgcggctgttcaatgccgttgtccgctggtccgaggcc gagtgtcagcggcagcagctgcaggtgacgccagagaacaggcggaaggttctgggcaag gccctgggcctcattcgcttcccgctcatgaccatcgaggagttcgctgcaggtcccgca cagtcgggcatcctggtggaccgcgaggtggtcagcctcttcctgcacttcaccgtcaac cccaagccacgagtggagttcattgaccggccccgctgctgcctgcgtgggaaggagtgc agcatcaaccgcttccagcaggtggagagtcgctggggctacagcgggaccagtgaccgc atcaggttctcagtcaacaagcgcatcttcgtggtgggatttgggctgtatggatccatc cacgggcccaccgactaccaagtgaacatccagattattcacaccgatagcaacaccgtc ttgggccagaacgacacgggcttcagctgcgacggctcagccagcaccttccgcgtcatg ttcaaggagccggtggaggtgctgcccaacgtcaactacacggcctgtgccacgctcaag ggcccagactcccactacggcaccaaaggcctgcgcaaggtgacacacgagtcgcccacc acgggcgccaagacctgcttcaccttttgctacgcggccgggaacaacaatggcacatcc gtggaggacggccagatccccgaggtcatcttctacacctag >gi568815579r:1939616_2150851|GENSCAN_predicted_peptide_6|173_aa MAAGGSGGRASCPPGVGVGPGTGGSPGPSANAAATPAPGNAAAAAAAAAAAAAAPGPTPP APPGPGTDAQAAGAERAEEAAGPGAAALQREAAYNWQASKPTVQERFAFLFNNEVLCDVH FLVGKGLSSQRIPAHRPPHPSIPEPCTPLSPGPLHPCILRLRTQLGLHPGACT >gi568815579r:1939616_2150851|GENSCAN_predicted_CDS_6|522_bp atggcggcgggtgggagcggcgggcgtgcgtcgtgcccgccgggggtcggggtcggcccg ggcacggggggcagtcccgggcccagcgccaacgccgccgccaccccggcccccggcaac gcggccgccgccgccgccgccgccgccgccgccgccgccgcccctgggccgacgccgccc gccccgccgggccccgggacagacgcgcaggccgcgggcgcggagcgggcggaggaggcg gcgggcccgggggcggcggcgctgcagcgcgaggccgcgtacaactggcaggccagcaag cccaccgtgcaggagcgcttcgccttcctcttcaacaacgaggtgctgtgcgacgtgcac ttcctggtgggcaaggggctcagctcgcagcgcatccccgcgcacagacccccgcacccc tccatccccgagccctgcacccctctgtccccgggacccctgcacccctgcatcctcagg ctccgaacccaactcggcctgcaccccggggcctgcacctga >gi568815579r:1939616_2150851|GENSCAN_predicted_peptide_7|1318_aa MAPPQRVTHADVHSAESGNAALVADAADSELKDLSSSPDLYLLPPTLRRGNWPQLLDVQH GSAGELWGLKSRRAGVTKMSNPFLKQVFNKDKTFRPKRKFEPGTQRFELHKKAQASLNAG LDLRLAVQLPPGEDLNDWVAVHVVDFFNRVNLIYGTISDGCTEQSCPVMSGGPKYEYRWQ DEHKFRKPTALSAPRYMDLLMDWIEAQINNEDLFPTNVGTPFPKNFLQTVRKILSRLFRV FVHVYIHHFDRIAQMGSEAHVNTCYKHFYYFVKEFGLIDTKELEPLFCQNWPFPDAANFQ LNPFFCVAPGAARPKSMSSVYPRPLEELSVAFHHSGPSCLSPALSQTTQKSGHLWAPGMV TEEKHAVPVSPGFCQKIEQVQLTHCYCRSLKLPGLVLDPSRNHQVRHLEPPGEGPPSRAL KELHEIRNCLMKCISLYLEDEAQTPTPLSPPGLGMSPAARPRSFPGSRCGLAPVRHGIMF QCGWTIRPLLPGVQAVLSSRPPGIRPTHHWMGSCSREGRQENGSVCLAWKAAPALPHPPP GHCVLVALLPASGIPLSSDCRQRMDLPFRAGAEPQGGGACTLLLMPLRQSSVDGPMAAPG SWPDTHSPGSGGGPGRGVRAGGGGGAVPRAVRGAGSGLRDVGRRRHCGPGPSPTPGPLLG RPPPGRPPSGLPPGPRSPPPLAGPGQKMVQKKPAELQGFHRSFKGQNPFELAFSLDQPDH GDSDFGLQCSARPGEGPEGEEGTGQLLSLPWQWPAPAGGWGPAGQGHVLSPLGVPPGTDM PASQPIDIPDAKKRGKKKKRGRATDSFSGRFEDVYQLQEDVLGEGAHARVQTCINLITSQ EYAVKIIEKQPGHIRSRVFREVEMLYQCQGHRNVLELIEFFEEEDRFYLVFEKMRGGSIL SHIHKRRHFNELEASVVVQDVASALDFLHNKGIAHRDLKPENILCEHPNQVSPVKICDFD LGSGIKLNGDCSPISTPELLTPCGSAEYMAPEVVEAFSEEASIYDKRCDLWSLGVILYIL LSGYPPFVGRCGSDCGWDRGEACPACQGTCPAHPLSPGDLPPDHPLTLGDLPCVLPRPPG TYSVLPLTPGDLPGVPYSLMPSTGQCRPVCQFPEGFSGLPAQGKPQTGFRELRGGNMLFE SIQEGKYEFPDKDWAHISCAAKDLISKLLVRDAKQRLSAAQVLQHPWVQGCAPENTLPTP MVLQRNSCAKDLTSFAAEAIAMNRQLAQHDEDLAEEEAAGQGQPVLVRATSRCLQLSPPS QSKLAQRRQRASLSSAPVVLRGLPNILCTWFLLCTLQPPDLGSLLEVLPRSSGRVAAA >gi568815579r:1939616_2150851|GENSCAN_predicted_CDS_7|3957_bp atggcccctccccagagagtgacccacgccgatgtccacagtgcagagagtggaaacgct gccctagtggcagacgcagcagattcagaattgaaggatctgagttcaagcccagacttg taccttttacctcccaccctcaggcgaggcaactggcctcagcttctggacgtgcagcac gggtccgcgggagagctgtggggcttgaagtccaggagagcaggcgtcaccaagatgtcc aaccccttcctgaagcaagtcttcaacaaggacaagacattccgccccaagcgcaagttt gagccaggcacccagcgcttcgagctgcacaagaaggcgcaggcgtcgctgaacgccggg ctggacctgcggctggccgtgcagttgcccccgggcgaggacctgaacgactgggtggct gttcacgtggtggacttctttaaccgcgtcaacctcatctacggcaccatcagcgacggc tgcacggagcagtcctgccccgtcatgtcggggggccccaagtatgagtaccgctggcag gatgagcataagttccggaagcccacggcactctccgcgcccaggtacatggacctgctg atggactggatcgaggcgcagatcaacaacgaggacctcttccccaccaacgttggcact ccgtttcccaagaacttcctgcagacggtgcggaagatcctgtcgcggctgttccgcgtg ttcgtgcacgtctacatccaccactttgaccgcatcgcgcagatgggctccgaggcccac gtgaacacctgctacaagcacttctactatttcgtcaaggagttcggcctcatcgacacc aaggagctggagccactgttctgccagaattggcctttcccagatgctgcaaacttccag ttgaacccctttttctgtgtggcccctggggctgcgagaccaaaatccatgagttctgtg taccctagacctttggaagaattgtcagtggcctttcaccacagtggtccttcctgcctg agccctgcactgtcccagaccacacagaagtctggtcacctctgggcgcctgggatggtc accgaagagaagcacgctgtccccgtctctcctggcttctgccagaaaatcgaacaagtg caattaacacactgttactgccgaagcctgaaactcccaggacttgtccttgatccttcc agaaaccaccaggtccggcacttggagccccccggagagggacctcccagccgagccctc aaagaactccatgaaatcaggaactgcttgatgaaatgtatctccttgtacctggaagat gaagcccaaacacccacacctctgtctcccccagggctcgggatgtctccagcagcccgg ccacgcagcttcccaggttcacgctgtggcctggctccggttcgtcatgggataatgttc cagtgtggatggaccatccgtcccctcctgccgggtgttcaggccgtgctgtcctctcgg ccaccaggcatcaggcctacgcatcactggatgggatcctgctcccgggaaggccggcag gagaacggctccgtctgtctggcctggaaagcagctcccgcgctgccccacccgccgcca ggccactgcgtcctcgtggctctgctgccggcctcagggatccccctgagttctgactgc aggcagaggatggacctgccttttcgggcaggggctgaaccccagggaggtggggcatgc acgctgctcctgatgccactccgtcagagcagcgtggatggccccatggctgccccgggc tcctggccagacacccacagcccgggcagcggcggtggcccaggtagaggggtccgcgct ggcggcggcggcggcgctgttccccgcgcggtccgcggagcggggtccgggctgcgcgac gtggggcggcggcggcactgcggccccggcccaagcccgaccccgggtcccctcctcggc cgccccccgcccggccgcccgccctcgggcctccccccgggccctcggtcccctcccccg ctggcggggcccggacagaagatggtgcagaagaaaccagccgaacttcagggtttccac cgttcgttcaaggggcagaaccccttcgagctggccttctccctagaccagcccgaccac ggagactctgactttggcctgcagtgctcagcccgccctggtgaggggcccgagggggag gagggcacagggcagctgctgtcgctgccatggcagtggccagcccctgcaggggggtgg gggccggccggccagggccatgtcctgagccccctgggcgtgcctcctggaacagacatg cccgccagccagcccattgacatcccggacgccaagaagaggggcaagaagaagaagcgc ggccgggccaccgacagcttctcgggcaggtttgaagacgtctaccagctgcaggaagat gtgctgggggagggcgctcatgcccgagtgcagacctgcatcaacctgatcaccagccag gagtacgccgtcaagatcattgagaagcagccaggccacattcggagcagggttttcagg gaggtggagatgctgtaccagtgccagggacacaggaacgtcctagagctgattgagttc ttcgaggaggaggaccgcttctacctggtgtttgagaagatgcggggaggctccatcctg agccacatccacaagcgccggcacttcaacgagctggaggccagcgtggtggtgcaggac gtggccagcgccttggactttctgcataacaaaggcatcgcccacagggacctaaagccg gaaaacatcctctgtgagcaccccaaccaggtctcccccgtgaagatctgtgacttcgac ctgggcagcggcatcaaactcaacggggactgctcccctatctccaccccggagctgctc actccgtgcggctcggcggagtacatggccccggaggtagtggaggccttcagcgaggag gctagcatctacgacaagcgctgcgacctgtggagcctgggcgtcatcttgtatatccta ctcagcggctacccgcccttcgtgggccgctgtggcagcgactgcggctgggaccgcggc gaggcctgccctgcctgccaggggacctgccctgcgcaccctctaagtccaggggacctg ccccctgaccaccccctaaccctcggggacctgccctgtgtgctccccagacccccgggg acctactctgtactccccctaacccctggggacctgcccggtgtgccctactccctgatg ccatccacagggcagtgccgccctgtctgccagtttcccgaaggcttttcaggtttgcct gcccaagggaaaccccagacagggttcagagagctgagaggtggaaacatgctgtttgag agcatccaggagggcaagtacgagttccccgacaaggactgggcccacatctcctgcgct gccaaagacctcatctccaagctgctggtccgtgacgccaagcagaggctgagtgccgcc caagtcctgcagcacccctgggttcaggggtgcgccccggagaacaccttgcccactccc atggtcctgcagaggaacagctgtgccaaagacctcacgtccttcgcggctgaggccatt gccatgaaccggcagctggcccagcacgacgaggacctggctgaggaggaggccgcgggg cagggccagcccgtcctggtccgagctacctcacgctgcctgcagctgtctccaccctcc cagtccaagctggcgcagcggcggcaaagggccagtctgtcctcggccccagtggtcctg cggggcctccccaacatcctctgcacctggtttctcctctgcacccttcagcccccggat ctgggatcacttctggaggtgctccctaggagctcgggccgtgttgcagccgcatga >gi568815579r:1939616_2150851|GENSCAN_predicted_peptide_8|190_aa MALLLCLVCLTAALAHGCLHCHSNFSKKFSFYRHHVNFKSWWVGDIPVSGALLTDWSDDT MKELHLAIPAKITREKLDQVATAVYQMMDQLYQGKMYFPGYFPNELRNIFREQVHLIQNA IIESRIDCQHRCGKQGSVQAEGRAGGSSGPWRLRGALAALVRVSGIFQYETISCNNCTDS HVACFGYNCE >gi568815579r:1939616_2150851|GENSCAN_predicted_CDS_8|573_bp atggccctgctgctgtgcctggtgtgcctgacggcggcgctggcccacggctgtctgcac tgccacagcaacttctccaagaagttctccttctaccgccaccatgtgaacttcaagtcc tggtgggtgggcgacatccccgtgtcaggggcgctgctcaccgactggagcgacgacacg atgaaggagctgcacctggccatccccgccaagatcacccgggagaagctggaccaagtg gcgacagcagtgtaccagatgatggatcagctgtaccaggggaagatgtacttccccggg tatttccccaacgagctgcgaaacatcttccgggagcaggtgcacctcatccagaacgcc atcatcgaaagccgcatcgactgtcagcaccgctgtggtaagcaaggctccgtccaggct gaggggcgtgccggtggcagctcggggccctggaggctgaggggagccctggcggctctt gtacgtgtttcaggcatcttccagtacgagaccatctcctgcaacaactgcacagactcg cacgtcgcctgctttggctataactgcgagtag >gi568815579r:1939616_2150851|GENSCAN_predicted_peptide_9|211_aa MPRPHAQDPNTKAVSRHQHQDTNTQTPTPRHQLQDANTQTPTPRHQHSDSNTETPTLRPQ HRDTNTETPTPRCRNPDPNTEAPTPRRQHPDPNAKTPTRRPQHPDPNAETATLRRQHPDP NAKAPTPRRQHPDPNAEAPTPRCQHPDPNAKTPMPRPQHQDTNAQTPMPRHQHPDPNAKT PMPRPLAETNTKTPTCRPQHQGHQRTKVDGH >gi568815579r:1939616_2150851|GENSCAN_predicted_CDS_9|636_bp atgccaagaccccacgctcaagaccccaacaccaaggccgtgagcagacaccaacaccaa gacaccaacacccagaccccaacgccgaggcaccaactccaagacgccaacactcagacc ccaacgccaagacaccaacactcagactccaacaccgagacaccaacgctgagaccgcaa caccgagacaccaacactgagactccaacaccgagatgccgaaacccagaccccaacacc gaggcaccaactccaagacgccaacacccagaccccaacgccaagacaccaacacgcaga ccccaacacccagaccccaatgccgagaccgcaacactgagacgccaacacccagacccc aacgccaaggcaccaactccaagacgccaacacccagaccccaatgccgaggcaccaact ccaagatgccaacacccagaccccaacgccaagacaccaatgcccagaccccaacaccaa gacaccaatgcccagaccccaatgccaagacaccaacacccagaccccaacgccaagaca ccaatgccaaggccattggcagaaaccaacacgaagaccccaacgtgcagaccccaacac caaggccatcagcgtaccaaggtggacggacactag >gi568815579r:1939616_2150851|GENSCAN_predicted_peptide_10|1703_aa XGVGCLWGQHGIDSACLWCYVGRLTSACPLGTLSAILDLVPEFAWVRIVLDGVLETRAVS EQAQGDPDTPDTSPQNLSVVFTAVRVTLAEGGKAPHVRPPRSWQTAKYISQCIDEIKQEL KQDNIAVKANAVCKLTYLQMLGYDISWAAFNIIEVMSASKFTFKRIGYLAASQSFHEGTD VIMLTTNQIRKTARQRPRSRLSNVHVQGRDPVAVLSTPQCDLKSWAGGSQHAEGQDLSSP SQYDTGVALTGLSCFVTPDLARDLANDIMTLMSHTKPYIRKKAVLIMYKVFLKYPESLRP AFPRLKEKLEDPDPGVQSAAVNVICELARRNPKNYLSLAPLFFKLMTSSTNNWVLIKIIK LASTARECGLLTLCGAFPHPFGALTPLEPRLGKKLIEPLTNLIHSTSAMSLLYECVNTVI AGACHPTQGVLVPRGPELVSALAMVLTVVLTKLSVAVLISLSSGMPNHSASIQLCVQKLR ILIEDSDQNLKYLGLLAMSKILKTHPKSVQSHKDLILQCLDDKDESIRLRALDLLYGMVS KKNLMEIVKKLMTHVDKAEGTTYRDELLTKIIDICSQSNYQYITNFEWYISILVELTRLE GTRHGHLIAAQMLDVAIRVKAIRKFAVSQMSALLDSAHLLASSTQRNGICEVLYAAAWIC GEFSEGESVLPCLPSALGHLWRSQEIVDPVGTRTGRHLQEPHHTLEAMLRPRVTTLPGHI QAVYVQNVVKLYASILQQKEQAGEAEGAQAVTQLMVDRLPQFVQSADLEVQERDDDDRDG MKAGLSVAMWLYQGAHTSLCQGLSHPVSLKVAEWPSGQASCILQLVKHIQKLQAKDVPVA EEVSALFAGELNPVAPKAQKKVPVPEGLDLDAWINEPLSDSESEDERPRAVFHEEEQRRP KHRPSEADEEELARRREARKQEQANNPFYIKSSPSPQKRYQDTPGVEHIPVVQIDLSVPL KVPGKCLRCVGAAFVTWAVGCSRRPPRLPMSDQYVKLEEERRHRQKLEKDKRRKKRKEKE KKGKRRHSSLPTESDEDIAPAQQVDIVTEEMPENALPSDEDDKDPNDPYRALDIDLDKPL ADSEKLPIQKHRNTETSKSPEKDVPMVEKKSKKPKKKEKKHKEKERDKEKKKEKEKKAED LDFWLSTTPPPAPAPAPAPVPSTGELSVNTVTTPKDECEDAKTEAQGEEDDAEGQDQDKV HPHYGLGQSLVPVRGRVMFQCVDRSPSADPVPPRMGHTVLTHSSVDSHLGRFPFVVTQYA ALNICAVRVDVCVPSRMCTWAWGCCVKCGVLTGLPCMAPWSVGTVPRAALALAANQRRPQ PPLGLVWPELVPKSPKPKKKKHRKEKEERTKGKKKSKKQPPGSEEAAGEPVQNGAPEEEQ LPVRASMRERTEQIREEAEPGGGRGLALARSPTLGTPVVGCVVLGAGDPSSAPLKPLAPS ILGVVAFDLGYWAILESSLRRSSGPPRLMRLFYFQPESSYSLLAENSYVKMTCDIRGSLQ EDSQVTVAIVLENRSSSILKGMELSVLDSLNARMARPQGSSVHDGVPVPFQLPPGVSNEA QYVFTIQSIVMAQKLKGTLSFIAKNDEGATHEKLDFRLHFSCSSYLITTPCYSDAFAKLL ESGDLSMSSIKVDGIRMSFQNLLAKICFHHHFSVVERVDSCASMYSRSIQGHHVCLLVKK AFIPRGALWDLEGSRTVMAALLP >gi568815579r:1939616_2150851|GENSCAN_predicted_CDS_10|5112_bp ngtggggtgggttgtctctggggccagcatggcatcgactcggcttgtctctggtgctat gttgggcgcctcacgtctgcctgtcccttgggaaccttgtctgccattctggacctcgtg cctgagttcgcttgggtcagaattgtccttgatggtgttctggagacacgcgcagttagt gagcaggcccagggggatccagacacaccagacacatcccctcaaaacctgagtgtggtt ttcacagcagtgagagtcaccctggctgaaggtgggaaggccccacatgttcgtccacca aggagttggcaaacggcaaaatacatatctcagtgcattgatgagatcaagcaggagctg aagcaggacaacatagcggtgaaggcgaacgcggtctgcaagctgacgtatttacagatg ttgggatacgacatcagctgggccgccttcaacatcatagaagtgatgagtgcctccaag ttcaccttcaagcgaattggctacctcgctgcttcccagagctttcacgaaggcaccgac gtcatcatgctgaccaccaatcagatccgtaagaccgcacgtcagaggccacggtcccgg ctctccaatgtccatgtgcaagggcgggaccctgtggctgtgttgtcgaccccacagtgt gacctgaagtcctgggctgggggctcccagcacgccgagggacaggacttgagcagcccc agccagtacgacacaggtgttgcactgacgggtctgtcctgcttcgtcaccccagacctt gccagagacctggcaaatgacatcatgacactgatgtcacacaccaagccctacatcagg aagaaggctgtgctgatcatgtacaaggtgttcctgaagtaccccgagtcgctgcgccct gcctttccccggctgaaggagaagctggaggaccccgaccccggggttcagtcggctgcc gtcaatgtcatctgcgagctggccagacgcaaccctaagaactacctgtccctggccccg ctctttttcaagctgatgacgtcctccaccaacaactgggtcctcatcaagatcatcaag ctggcaagtactgcccgggaatgtggcctcctcaccctgtgtggggcattccctcaccct ttcggtgctcttactcctttggaaccgcggctgggcaagaagctgatcgagcccctcacc aatctcatccacagcacgtctgccatgtctctcctctatgaatgtgtgaacaccgtgatt gcaggcgcatgccaccccacccagggggtgctggtgccccgtggccctgagttggtgtcg gcgctggccatggtgctgaccgtggtgctgaccaagctgtctgttgcagtgctcatctcg ctgtcctccggcatgcccaaccacagcgccagcatccagctttgtgttcagaaattaagg atattgatcgaggactccgatcagaacttgaagtacctggggctgctggcaatgtccaag atcctgaagacccaccccaagtccgtgcagtcccacaaggacctcatcctgcagtgcctg gacgacaaggacgagtccatccggctgcgggccctggacctgctctatgggatggtgtcc aagaagaacctgatggagatcgtgaagaagctgatgacccacgtagacaaggcagagggt accacctaccgtgacgagctgctcaccaagatcattgacatctgcagccagtccaactac cagtacatcaccaacttcgagtggtacatcagcatcctggtggagctgacccggctggag ggcacacggcacggccacctcatcgccgcccaaatgctggacgtggccatccgcgtgaag gccatccgcaagttcgccgtgtcccagatgtctgcgctgcttgacagtgcacacctgctg gccagcagcacccagcggaacgggatctgtgaggtgctgtacgctgccgcctggatctgc ggggagttctcagaaggcgagtctgtgctgccctgtctgccctctgccctcgggcatctg tggcgttcccaggagattgtagatcccgtgggcactaggactgggaggcatctgcaggaa ccacaccacactttggaggccatgctgcggcccagagtcaccacgctgccaggccacatc caggccgtgtatgtgcagaacgtggtcaagctctacgcctccatcctgcagcagaaggag caggccggggaggcagagggcgctcaggccgtcacccagctcatggtggaccggctgccc cagtttgtgcagagcgcagacctggaggtgcaggagcgggatgatgacgacagagacggc atgaaggctgggctctctgtggctatgtggctgtaccagggggcccacacgtcactgtgc caggggctgagccaccccgtgtccctgaaggtggccgagtggccttccgggcaggcgtcc tgcatcctgcagctggtcaagcacatccagaagcttcaggccaaggacgtgcctgtggca gaggaggtcagcgctctctttgctggggagctgaacccagtggcccccaaggcccagaag aaggttccagtccccgaaggcctggacctggacgcctggatcaatgagccactctcggac agcgagtcagaggacgagaggcccagggccgtcttccacgaggaggagcagcggcgtccc aagcaccggccgtcggaggcggacgaggaagagctggctcggcgccgagaggcccggaag caggagcaggccaacaaccccttctacatcaagagctcgccatcgccacagaagcggtac caggacaccccgggcgtggagcacattcccgtggtgcagattgacctctccgtccccttg aaggttccaggcaagtgtctccggtgtgtcggcgccgcatttgtcacatgggctgtgggg tgctcccgccgccctccccggctgcctatgtcagatcagtatgtgaagctggaggaggag cggcggcaccggcagaagctggagaaggacaagaggaggaaaaagaggaaggagaaggag aagaagggcaagcgccgccacagctcgctgcccacggagagcgacgaggacatcgcccct gcccagcaggtggacatcgtcacagaggagatgcctgagaatgctctgcccagcgacgag gatgacaaagaccccaacgacccctacagggctctggatattgacctggataagccctta gccgacagcgagaaactgcctattcagaaacacagaaacaccgagacctcaaaatcccct gagaaggacgttcccatggtagaaaagaagagcaagaaacccaagaagaaagagaaaaaa cacaaagagaaagagagagacaaggagaagaagaaggagaaggagaagaaggctgaggac ctggacttctggctgtctaccaccccaccgcctgcccccgcccccgcccccgcccccgtt ccatccacgggggagctcagtgtgaacactgtcactaccccgaaggacgagtgtgaggac gccaagacggaggcgcagggcgaggaggacgatgccgaggggcaagaccaggacaaggtg catccacactatggcttgggtcagagcctggttcctgttcgtggccgggtcatgttccag tgcgtggacaggtcaccctctgctgaccccgttcctccgcggatgggccacactgtgctg acccactcatctgttgatagccacttgggccgcttcccctttgtggtgacacagtatgcc gctttgaacatctgcgcagtgcgcgtggatgtgtgtgttccctctcggatgtgcacatgg gcgtggggttgctgcgtcaagtgtggtgtcctcactggtttgccctgcatggctccctgg tcggtggggactgttccccgggctgctttggcgcttgccgccaaccagagacggccccag cctccgctgggcctggtctggcctgagcttgtcccgaaatctcccaagcctaagaagaag aagcacaggaaggagaaggaggagcggaccaaaggcaagaagaagtccaagaagcagcct ccaggcagcgaggaggcagcgggggagccggtgcagaatggcgcgccagaggaggagcag ctcccggtgagggcctccatgcgggagagaactgagcagattcgagaagaagccgagcct ggcgggggcaggggactggccctggcccgcagccccacattaggcacccccgtggtgggc tgtgtggtcctgggagccggggatccctcatcggctcctttgaagccccttgccccaagc attcttggagtcgtggcattcgacctggggtattgggccatactggagtcttcgctgaga cggagctcggggcccccaaggctgatgcgccttttctatttccagcctgagtccagctac tccctcctcgctgaaaattcctatgttaaaatgacctgtgacatccggggcagtctgcag gaggacagccaggtcactgtggccatcgtgctggagaacaggagcagcagcatcctcaag ggcatggagctcagcgtgctggactcactcaatgccaggatggcccggccgcagggctcc tccgtccacgatggcgtccccgtgcctttccagctgcccccaggcgtctccaacgaagcc cagtatgtgttcaccatccagagcatcgtcatggcgcagaagctcaaggggaccctgtcc ttcattgccaagaatgacgagggtgcgacccacgagaagctggacttcaggctgcacttc agctgcagctcctacttgatcaccactccctgctacagtgacgcctttgctaagttgctg gagtctggggacttgagcatgagctcaatcaaagtcgatggcattcggatgtccttccag aatcttctggcgaagatctgttttcaccaccatttttccgttgtggagcgagtggactcc tgcgcctccatgtacagccgctccatccagggccaccatgtctgcctcctggtgaaaaag gccttcatccccagaggcgcgctttgggacttagagggctcgaggacagtgatggcagca ctgctgccatga