GENSCAN 1.0 Date run: 3-Nov-116 Time: 08:44:02 Sequence gi568815596r:96153811_96365381 : 211571 bp : 47.08% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Intr + 3320 3536 217 0 1 87 87 57 0.293 3.06 1.02 Intr + 3774 3860 87 0 0 79 82 26 0.266 0.19 1.03 Intr + 5650 5822 173 1 2 101 44 127 0.266 9.19 1.04 Intr + 9684 9805 122 1 2 85 93 22 0.043 2.61 1.05 Term + 20758 20769 12 0 0 134 35 6 0.055 -1.90 1.06 PlyA + 21394 21399 6 1.05 2.11 PlyA - 21407 21402 6 1.05 2.10 Term - 33104 32920 185 0 2 114 48 273 0.997 23.61 2.09 Intr - 33491 33407 85 2 1 112 103 36 0.812 6.89 2.08 Intr - 38658 38559 100 2 1 92 105 9 0.779 3.11 2.07 Intr - 39350 39268 83 2 2 64 80 76 0.969 2.84 2.06 Intr - 39542 39432 111 2 0 110 76 28 0.743 4.38 2.05 Intr - 41197 41148 50 2 2 86 109 69 0.999 7.20 2.04 Intr - 41739 41531 209 2 2 117 83 137 0.777 14.82 2.03 Intr - 49850 49780 71 2 2 137 53 108 0.420 10.18 2.02 Intr - 50365 50320 46 0 1 89 2 0 0.285 -10.09 2.01 Init - 54624 54335 290 0 2 80 64 579 0.730 49.29 2.00 Prom - 56715 56676 40 -7.46 3.06 PlyA - 57901 57896 6 1.05 3.05 Term - 63895 63833 63 1 0 86 44 71 0.880 0.39 3.04 Intr - 64786 64587 200 2 2 13 61 169 0.538 5.77 3.03 Intr - 68193 68111 83 2 2 46 80 99 0.514 4.18 3.02 Intr - 69160 68978 183 0 0 30 73 106 0.449 2.20 3.01 Init - 70585 70578 8 1 2 103 58 0 0.431 -1.00 3.00 Prom - 77928 77889 40 -1.66 4.06 PlyA - 78861 78856 6 1.05 4.05 Term - 83565 83521 45 0 0 122 42 64 0.613 2.41 4.04 Intr - 84361 84023 339 1 0 48 92 116 0.186 3.67 4.03 Intr - 84739 84594 146 2 2 104 56 57 0.183 4.10 4.02 Intr - 86640 86546 95 2 2 27 46 85 0.060 -2.19 4.01 Init - 87586 87483 104 1 2 81 59 44 0.085 0.51 4.00 Prom - 92215 92176 40 -4.16 5.04 PlyA - 94727 94722 6 1.05 5.03 Term - 100305 99998 308 1 2 93 38 491 0.996 39.88 5.02 Intr - 101187 101023 165 1 0 84 102 199 0.975 20.83 5.01 Init - 111571 111328 244 1 1 60 100 263 0.973 20.60 5.00 Prom - 111849 111810 40 -16.83 6.00 Prom + 112018 112057 40 -10.64 6.01 Init + 112541 112679 139 1 1 107 86 204 0.999 21.60 6.02 Intr + 113511 113659 149 1 2 82 65 137 0.987 10.75 6.03 Intr + 113815 113926 112 0 1 123 100 43 0.995 8.95 6.04 Intr + 114026 114114 89 0 2 109 94 84 0.995 10.79 6.05 Intr + 114647 114848 202 1 1 91 100 218 0.993 22.16 6.06 Intr + 115458 115545 88 1 1 14 91 27 0.867 -5.37 6.07 Term + 117301 117541 241 1 1 107 49 226 0.916 16.10 6.08 PlyA + 120291 120296 6 1.05 7.47 PlyA - 120549 120544 6 1.05 7.46 Term - 121345 121202 144 1 0 128 47 200 0.999 17.81 7.45 Intr - 121539 121447 93 0 0 61 113 116 0.995 11.56 7.44 Intr - 123175 123094 82 0 1 119 96 83 0.988 11.84 7.43 Intr - 123431 123271 161 2 2 73 99 336 0.999 31.99 7.42 Intr - 123905 123729 177 2 0 90 105 196 0.815 21.62 7.41 Intr - 124140 123997 144 0 0 79 75 84 0.987 6.68 7.40 Intr - 124548 124427 122 1 2 78 94 228 0.996 22.61 7.39 Intr - 124901 124737 165 0 0 111 73 368 0.988 37.53 7.38 Intr - 125188 124999 190 1 1 104 56 331 0.999 30.66 7.37 Intr - 125749 125641 109 0 1 82 86 145 0.999 13.99 7.36 Intr - 128112 128004 109 1 1 102 77 155 0.998 15.14 7.35 Intr - 129542 129391 152 1 2 73 111 245 0.999 25.11 7.34 Intr - 129903 129725 179 0 2 75 92 237 0.986 21.52 7.33 Intr - 130194 130003 192 0 0 130 91 248 0.992 28.99 7.32 Intr - 130775 130548 228 2 0 100 39 443 0.984 38.67 7.31 Intr - 131530 131370 161 2 2 95 80 247 0.999 24.31 7.30 Intr - 132674 132501 174 0 0 84 110 166 0.999 18.31 7.29 Intr - 133067 132878 190 2 1 104 65 321 0.999 30.56 7.28 Intr - 133350 133196 155 1 2 90 100 170 0.998 18.19 7.27 Intr - 133747 133629 119 0 2 84 62 242 0.999 21.31 7.26 Intr - 134159 134053 107 2 2 44 75 115 0.998 4.81 7.25 Intr - 134936 134853 84 2 0 103 94 94 0.997 11.52 7.24 Intr - 135307 135227 81 1 0 92 105 92 0.999 11.13 7.23 Intr - 135569 135417 153 2 0 77 83 215 0.894 20.17 7.22 Intr - 136186 135989 198 1 0 38 96 404 0.900 35.75 7.21 Intr - 136704 136516 189 0 0 59 97 190 0.998 16.78 7.20 Intr - 137005 136874 132 1 0 120 92 72 0.999 11.64 7.19 Intr - 137692 137582 111 1 0 109 94 128 0.999 16.08 7.18 Intr - 138090 137941 150 0 0 69 100 109 0.998 10.56 7.17 Intr - 139285 139162 124 0 1 50 41 123 0.976 4.39 7.16 Intr - 139699 139506 194 1 2 60 69 167 0.810 10.29 7.15 Intr - 141848 141678 171 2 0 90 105 352 0.997 37.24 7.14 Intr - 142881 142726 156 0 0 87 100 256 0.977 26.91 7.13 Intr - 143260 143123 138 1 0 97 67 100 0.999 9.46 7.12 Intr - 143726 143553 174 2 0 70 100 178 0.896 17.34 7.11 Intr - 143910 143827 84 0 0 98 75 37 0.914 3.42 7.10 Intr - 144610 144474 137 2 2 83 63 132 0.999 10.49 7.09 Intr - 144892 144793 100 1 1 93 61 100 0.579 7.48 7.08 Intr - 145157 145005 153 2 0 70 86 248 0.999 23.07 7.07 Intr - 145342 145187 156 1 0 82 93 57 0.961 5.81 7.06 Intr - 145617 145519 99 0 0 51 101 167 0.887 14.61 7.05 Intr - 147243 147188 56 1 2 92 105 85 0.933 9.30 7.04 Intr - 147906 147714 193 0 1 41 106 227 0.997 18.87 7.03 Intr - 149520 149349 172 2 1 35 109 285 0.994 25.25 7.02 Intr - 151058 150895 164 2 2 72 89 189 0.999 16.17 7.01 Init - 151627 151583 45 1 0 117 74 66 0.897 8.78 7.00 Prom - 160611 160572 40 -5.16 8.00 Prom + 164808 164847 40 -4.56 8.01 Sngl + 172798 174489 1692 0 0 72 41 1392 0.818 128.00 8.02 PlyA + 176139 176144 6 1.05 9.00 Prom + 178435 178474 40 -5.36 9.01 Init + 182020 182182 163 0 1 79 66 79 0.454 2.69 9.02 Intr + 187904 188084 181 0 1 93 94 134 0.850 13.43 9.03 Intr + 188240 188330 91 2 1 68 82 61 0.978 3.50 9.04 Intr + 188946 189038 93 2 0 92 69 75 0.986 6.16 9.05 Intr + 189356 189494 139 1 1 45 82 191 0.999 14.24 9.06 Intr + 190295 190419 125 0 2 89 78 135 0.913 12.90 9.07 Intr + 198021 198210 190 2 1 97 115 49 0.917 7.66 9.08 Intr + 199496 199587 92 0 2 97 48 41 0.945 0.71 9.09 Intr + 200373 200578 206 2 2 52 72 332 0.231 26.00 9.10 Intr + 201100 201176 77 1 2 25 121 60 0.139 2.16 9.11 Intr + 206333 206439 107 0 2 55 76 41 0.127 -0.47 9.12 Intr + 206778 206900 123 2 0 20 98 56 0.149 0.58 9.13 Intr + 210671 210781 111 1 0 70 103 98 0.416 10.08 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 11391 11171 221 0 2 38 83 145 0.881 7.10 S.002 Intr - 172283 172120 164 1 2 96 49 136 0.979 10.12 S.003 Init - 172480 172410 71 1 2 93 -4 66 0.894 -1.53 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815596r:96153811_96365381|GENSCAN_predicted_peptide_1|203_aa XSFPVTLAERGGSLLGALQLCEALRDLLSHGSCCHAAASKQAPPSWMSPSVLTPGILISP SLQIWKLRLREGKAEGTGYRKPLGLSSAISYLPKEPLGPGDSPKKKNGLVVQCKNDYNIL TLFYQEVESNSPQHIKDTGQPSLWHRCFLTHPAQTPTVPGLIKAPTQYWCLPEASEWALA GSLSPHLAQAWPAVLADGQLDLM >gi568815596r:96153811_96365381|GENSCAN_predicted_CDS_1|612_bp ngaagcttccccgtcaccctggcggagcgtggtggctccctcttgggtgccctgcagctc tgtgaagccctcagggacttgctgtcccatgggagctgctgtcatgcagctgcttccaag caggctccaccctcttggatgtctccctctgtcctcaccccagggattctcatcagccct tctttacagatatggaaactgaggctcagagagggaaaggcagaaggaacaggttacaga aaaccactgggcttatcctcagccatctcctacctccccaaggagcccttggggcctggg gacagcccaaaaaagaagaatggccttgtggtacagtgcaaaaatgactacaacattttg acgctcttctatcaagaggtggagtccaattctccacaacacatcaaggacacaggacag cccagcctgtggcacaggtgctttctcacacatcctgcccagacgcccacggttcctggc ctcatcaaggcacccacccaatactggtgcctccctgaagccagcgagtgggccttggcg ggttcgctttccccacacctggctcaggcctggcctgcagtgttggctgatggacagctg gacttgatgtaa >gi568815596r:96153811_96365381|GENSCAN_predicted_peptide_2|409_aa MLPRRLLAAWLAGTRGGGLLALLANQCRFVTGLRVRRAQQIAQLYGRLYSESSRRVLLGR LWRRLHGRPGHASALMAALAGVFVWDEERIQEEELQSYSRASALPVAGSTAGVCPVSVEP DFDNNLEFEEEENYVKSINEMKRLEEMSNMFQSSGVQHHPPEPKAQTEGNEDSEGKEQRW EMVMDKKHFKLWRRPITGTHLYQYRVFGTYTDVTPRQFFNVQLDTEYRKKWDALVIKLEV IERDVVSGSEVLHWVTHFPYPMYSRDYVYVRRYSVDQENNMMVLVSRAVEHPSVPESPEF VRVRSYESQMVIRPHKSFDENGFDYLLTYSDNPQTVFPRYCVSWMVSSGMPDFLEKLHMA TLKAKNMEIKVKDYISAKPLEMSSEAKATSQSSERKNEGSCGPARIEYA >gi568815596r:96153811_96365381|GENSCAN_predicted_CDS_2|1230_bp atgctcccgcggaggctgctggccgcctggctggcggggacgcggggcgggggcctgctg gcgcttctggccaatcagtgccgcttcgtcacgggcctgcgcgtgcggcgcgcgcagcag atcgcgcagctctacggccgcctctactccgagagctcacgccgcgttctcctcggccgc ctctggcgccggctgcacggccgtcctggccatgcctctgccttgatggcggcgttagcc ggcgtcttcgtttgggacgaggagaggatccaggaggaggagttgcagagctattctcgt gcctcagccttgccagtggctgggtctacagcgggggtgtgtcccgtatcagtagaacct gactttgacaataacttggaatttgaagaggaggagaattatgtgaaatctattaatgag atgaagcggttggaagaaatgtcaaatatgtttcagagctctggagtccagcaccaccct ccagaaccaaaagcccaaacagaagggaatgaagattcagagggcaaagagcaacgttgg gaaatggtgatggataagaaacactttaagctgtggcggcgcccaattacaggcacccac ctttaccagtaccgagtttttggaacctacacagatgtgacacctcggcagttcttcaat gttcagctggacacagagtatagaaaaaaatgggatgccctggtaatcaagctggaggtg attgagagggatgtggttagtggttccgaggttcttcactgggtaacccattttccttat ccaatgtactcacgggattatgtttatgttcggcggtatagtgtggatcaggaaaacaac atgatggtgttggtgtcgcgtgctgtggagcatccgagtgtgccagagtctccagaattc gtcagggtcagatcatatgaatcccaaatggttatccgtccccacaagtcatttgatgag aatggctttgactacttactaacatacagtgacaatccccaaacggtgtttcctcgctac tgtgttagttggatggtttccagtggcatgccagatttcctggagaagctgcacatggcc actctgaaagccaagaatatggagattaaagtaaaggactacatctcagctaagcctctg gaaatgagtagtgaagccaaggccaccagccagtcctctgagcgaaagaacgagggcagc tgtggccctgctcggattgagtatgcttga >gi568815596r:96153811_96365381|GENSCAN_predicted_peptide_3|178_aa MPGAITLIAWPKVPFLGIREAKNPRSENKRLATTLEAAHHHLGSSKNKDPPGNILVTTKG PPKQALELMTQYFNNWNWVYDNIIDQNESKLKVPLIDPDLNLYTNGNSFVEKGLQKAGYA VVSDNGIPESNLLTPGTSAQLAELIALTRTPELGEEKRNRSCKTTNRSSNGAPDAVHD >gi568815596r:96153811_96365381|GENSCAN_predicted_CDS_3|537_bp atgcccggagctataacactcatcgcatggcccaaggttccattccttgggatccgtgag gccaagaaccccaggtcagagaacaagaggcttgccaccaccttggaagcggcccaccac caccttgggagctctaagaacaaggacccccccggtaacattttggtgaccacgaaggga cctccaaagcaggccttagaactgatgacccagtactttaacaattggaactgggtctac gacaacataatagatcagaatgaaagcaaattgaaggttcccttgattgatcccgacctc aacttgtatactaatggaaattcctttgtagaaaaaggacttcaaaaagcggggtatgca gtggtcagtgataatggaatacctgaaagtaatctcctcactccaggaactagtgctcag ctggcagaactaatagccctcactcggacaccagaattaggagaagaaaaaaggaatcga agctgtaaaactacaaatcgttcttcaaatggagccccggatgcagtccatgactaa >gi568815596r:96153811_96365381|GENSCAN_predicted_peptide_4|242_aa MVALNQRKPPLVLQECSPLSESSGILYPACSSPPSPLLDDKNRCFHEEFLNSEEITCYEE QSHILRRSTSAEPLATTPFSGYGCCTCAFIISKGQEYKDIFLLAPTVQLQPHLFLWDIAP YWLLIRVYTVPWKVVTPPYLVSSSLSWHLSYAFNSPFLLFVQASIFWVVQNVTGPVIPWS RAIVMPPSPCNERALGSDVMLRGNLCQWVKHSVSPQIVALAEALQAEKTPDQPIKAVTSS HE >gi568815596r:96153811_96365381|GENSCAN_predicted_CDS_4|729_bp atggtagccctcaaccagagaaagcctcctttagtcctgcaggagtgcagccccctcagc gagagcagtgggattttataccctgcatgcagctcacccccaagccccctccttgatgac aaaaacagatgcttccatgaggagtttttgaattcggaagaaattacctgctacgaggaa cagtctcacatactgaggagaagcacctcagctgagcccctggccaccacacccttttca ggctatggctgctgcacctgtgcatttatcatcagcaaggggcaagagtacaaagacata ttccttctggctcccactgtgcaactgcagccccatctcttcctgtgggacatagcgcct tattggttgttgattagagtgtacactgtgccctggaaggtagtaacccctccttacttg gtatcatcgtctctgagctggcatctcagctacgccttcaacagcccatttcttctcttc gttcaagccagtatcttctgggtggtgcagaatgtgacaggaccagtgatcccatggtca cgtgccattgtcatgcctccttcgccttgcaatgaacgggcccttgggtctgatgtgatg ttacgtgggaacctatgtcagtgggtaaaacactcagtaagccctcagatagtggcgttg gctgaggccctgcaggcagaaaagacccctgatcaacccatcaaggcagttactagtagc catgaatga >gi568815596r:96153811_96365381|GENSCAN_predicted_peptide_5|238_aa MYAPGGAGLPGGRRRRSPGGSALPKQPERSLASALPGALSITALCTALAEPAWLHIHGGT CSRQELGVSDVLGYVHPDLLKDFCMNPQTVLLLRVIAAFCFLGILCSLSAFLLDVFGPKH PALKITRRYAFAHILTVLQCATVIGFSYWASELILAQQQQHKKYHGSQVYVTFAVSFYLV AGAGGASILATAANLLRHYPTEEEEQALELLSEMEENEPYPAEYEVINQFQPPPAYTP >gi568815596r:96153811_96365381|GENSCAN_predicted_CDS_5|717_bp atgtacgcccccggaggcgcagggctgcccggcgggcgccggcggaggagcccgggaggc agcgctctgcccaagcagccggagcgtagcctggcctcggccctgcctggcgccctgtct atcacggcgctgtgcactgccctcgccgagcccgcctggttgcacatccacggaggcacc tgttcgcgccaggagctgggggtctccgacgtgttgggctatgtgcacccggacctgctg aaagatttctgcatgaatccccagacagtgctgctcctgcgggtcatcgccgccttctgt ttcctgggcatcctgtgtagtctctccgctttccttctggatgtctttgggccgaagcat cctgctctgaagatcactcgtcgctatgccttcgcccatatcctaacggttctgcagtgt gccaccgtcattggcttttcttattgggcttctgaactcatcttggcccagcagcagcag cataagaagtaccatggatcccaggtctatgtcaccttcgccgttagcttctacctggtg gcaggagctggtggagcctcaatcctggccacggcagccaacctcctgcgccactacccc acagaggaagaggagcaggcgctggagctgctctcagagatggaagagaacgagccctac ccggcggaatatgaggtcatcaaccagttccagccaccccctgcttacacaccctaa >gi568815596r:96153811_96365381|GENSCAN_predicted_peptide_6|339_aa MKDSLVLLGRVPAHPDSRCWFLAWNPAGTLLASCGGDRRIRIWGTEGDSWICKSVLSEGH QRTVRKVAWSPCGNYLASASFDATTCIWKKNQDDFECVTTLEGHENEVKSVAWAPSGNLL ATCSRDKSVWVWEVDEEDEYECVSVLNSHTQDVKHVVWHPSQELLASASYDDTVKLYREE EDDWVCCATLEGHESTVWSLAFDPSGQRLASCSDDRTVRIWRQYLPGNEQGVACSGSDPS WKCICTLSGFHSRTIYDIAWCQLTGALATACGDDAIRVFQEDPNSDPQQPTFSLTAHLHQ AHSQDVNCVAWNPKEPGLLASCSDDGEVAFWKYQRPEGL >gi568815596r:96153811_96365381|GENSCAN_predicted_CDS_6|1020_bp atgaaggactcgctggtgctgctgggccgtgtcccggcgcacccggactcccgctgctgg ttcctggcctggaaccccgcggggaccctgctggcctcgtgcggcggcgaccggagaatc cgcatctggggcacggagggtgacagctggatctgcaagtctgtcctttctgaaggccac cagcgcaccgtgcggaaggtagcctggtccccctgcggtaattacctggcctctgccagc tttgatgctaccacttgcatttggaagaagaaccaggatgactttgagtgtgtaaccact ctcgagggccatgaaaatgaggtcaagtcagtggcttgggccccatctggcaacctcctg gccacttgcagccgagataagagcgtttgggtctgggaagttgatgaagaggatgagtat gaatgtgtcagtgttctcaactcccacacacaggatgtcaagcatgtggtttggcaccca agtcaggagctcttagcttctgccagctatgatgacacagtgaagctgtaccgggaggaa gaggatgactgggtatgctgtgccacccttgagggccatgaatccactgtgtggagcttg gcctttgacccgagtggccagcgcctggcgtcttgtagtgatgaccgtactgtgcgtatc tggcgtcagtatctaccaggcaatgaacaaggggtggcatgcagcggctctgaccccagt tggaaatgtatctgtactttgtccggcttccactcaaggaccatttatgacattgcttgg tgtcagctgacaggggctctggccacagcttgtggggatgacgcgatccgcgtgtttcag gaggatcccaactcggatccacagcagcccaccttctccctgacagcccacttgcatcag gcccattcccaggatgtcaactgtgtggcctggaaccccaaggagccagggctactggcc tcctgcagtgatgatggggaggtggccttctggaagtatcagcggcctgaaggcctctga >gi568815596r:96153811_96365381|GENSCAN_predicted_peptide_7|2188_aa MADVTARSLQYEYKANSNLVLQADRSLIDRTRRDEPTGEVLSLVGKLEGTRMGDKAQRTK PQMQEERRAKRRKRDEDRHDINKMKGYTLLSEGIDEMVGIIYKPKTKETRETYEVLLSFI QAALGDQPRDILCGAADEVLAVLKNEKLRDKERRKEIDLLLGQTDDTRYHVLVNLGKKIT DYGGDKEIQNMDDNIDETYGVNVQFESDEEEGDEDVYGEVREEASDDDMEGDEAVVRCTL SANMYVDEILVWCASELNIPEFFPLESPHKKVGYGLSSRTWLQGGGKVIEAGRDLLVASG ELMSSKKKDLHPRDIDAFWLQRQLSRFYDDAIVSQKKADEVLEILKTASDDRECENQLVL LLGFNTFDFIKVLRQHRMMILYCTLLASAQSEAEKERIMGKMEADPELSKFLYQLHETEK EDLIREERSRRERVRQSRMDTDLETMDLDQGGEALAPRQVLDLEDLVFTQGSHFMANKRC QLPDGSFRRQRKGYEEVHVPALKPKPFGSEEQLLPVEKLPKYAQAGFEGFKTLNRIQSKL YRAALETDENLLLCAPTGAGKTNVALMCMLREIGKHINMDGTINVDDFKIIYIAPMRSLV QEMVGSFGKRLATYGITVAELTGDHQLCKEEISATQIIVCTPEKWDIITRKGGERTYTQL VRLIILDEIHLLHDDRGPVLEALVARAIRNIEMTQEDVRLIGLSATLPNYEDVATFLRVD PAKGLFYFDNSFRPVPLEQTYVGITEKKAIKRFQIMNEIVYEKIMEHAGKNQVLVFVHSR KETGKTARAIRDMCLEKDTLGLFLREGSASTEVLRTEAEQCKNLELKDLLPYGFAIHHAG MTRVDRTLVEDLFADKHIQVLVSTATLAWGVNLPAHTVIIKGTQVYSPEKGRWTELGALD ILQMLGRAGRPQYDTKGEGILITSHGELQYYLSLLNQQLPIESQMVSKLPDMLNAEIVLG NVQNAKDAVNWLGYAYLYIRMLRSPTLYGISHDDLKGDPLLDQRRLDLVHTAALMLDKNN LVKYDKKTGNFQVTELGRIASHYYITNDTVQTYNQLLKPTLSEIELFRVFSLSSEFKNIT VREEEKLELQKLLERVPIPVKESIEEPSAKINVLLQAFISQLKLEGFALMADMVYVTQSA GRLMRAIFEIVLNRGWAQLTDKTLNLCKMIDKRMWQSMCPLRQFRKLPEEVVKKIEKKNF PFERLYDLNHNEIGELIRMPKMGKTIHKYVHLFPKLELSVHLQPITRSTLKVELTITPDF QWDEKVHGSSEAFWILVEDVDSEVILHHEYFLLKAKYAQDEHLITFFVPVFEPLPPQYFI RVVSDRWLSCETQLPVSFRHLILPEKYPPPTELLDLQPLPVSALRNSAFESLYQDKFPFF NPIQTQVFNTVYNSDDNVFVGAPTGSGKTICAEFAILRMLLQSSEGRCVYITPMEALAEQ VYMDWYEKFQDRLNKKVVLLTGETSTDLKLLGKGNIIISTPEKWDILSRRWKQRKNVQNI NLFVVDEVHLIGGENGPVLEVICSRMRYISSQIERPIRIVALSSSLSNAKDVAHWLGCSA TSTFNFHPNVRPVPLELHIQGFNISHTQTRLLSMAKPVYHAITKHSPKKPVIVFVPSRKQ TRLTAIDILTTCAADIQRQRFLHCTEKDLIPYLEKLSDSTLKETLLNGVGYLHEGLSPME RRLVEQLFSSGAIQVVVASRSLCWGMNVAAHLVIIMDTQYYNGKIHAYVDYPIYDVLQMV GHANRPLQDDEGRCVIMCQGSKKDFFKKFLYEPLPVESHLDHCMHDHFNAEIVTKTIENK QDAVDYLTWTFLYRRMTQNPNYYNLQGISHRHLSDHLSELVEQTLSDLEQSKCISIEDEM DVAPLNLGMIAAYYYINYTTIELFSMSLNAKTKVRGLIEIISNAAEYENIPIRHHEDNLL RQLAQKVPHKLNNPKFNDPHVKTNLLLQAHLSRMQLSAELQSDTEEILSKAIRLIQACVD VLSSNGWLSPALAAMELAQMVTQAMWSKDSYLKQLPHFTSEHIKRCTDKGVESVFDIMEM EDEERNALLQLTDSQIADVARFCNRYPNIELSYEVVDKDSIRSGGPVVVLVQLEREEEVT GPVIAPLFPQKREEGWWVVIGDAKSNSLISIKRLTLQQKAKVKLDFVAPATGAHNYTLYF MSDAYMGCDQEYKFSVDVKEAETDSDSD >gi568815596r:96153811_96365381|GENSCAN_predicted_CDS_7|6567_bp atggcggatgtaaccgcccgtagtctgcaatacgagtacaaggcgaactcgaatcttgtg ctccaagctgaccgttctctcattgaccggacccgccgggatgaacccacaggagaggtg ctgtcccttgttgggaagctggagggcacccgtatgggagacaaggctcaacggaccaaa ccgcagatgcaggaggaaagaagagccaagcgaagaaagcgtgatgaggaccggcatgac atcaacaagatgaagggttatactctgctgtcggagggcattgatgagatggtgggcatc atctacaagcccaaaactaaagagactcgggagacctatgaggtgctactcagcttcatc caggctgctcttggggaccagccacgtgatatcctttgtggggcagctgatgaagttcta gctgttctaaagaatgaaaagctgcgggacaaggaaaggcgaaaggagattgacctgctg ctgggtcaaacagatgataccagataccatgtgctagtgaacctgggcaaaaagatcaca gactatggtggagataaggaaatccaaaatatggatgacaacattgatgagacatacggt gtgaatgtgcagtttgagtctgatgaggaggaaggtgatgaagacgtatacggggaggtt cgagaagaggcatctgatgatgacatggaaggggacgaggctgtcgtgcgctgcaccctc tcggctaatatgtatgttgatgaaatcttagtctggtgtgcttctgaactcaatattcca gagttttttcctctggaaagtcctcacaagaaggtgggctatggattgtcaagtagaact tggttgcagggtggtggcaaagtgatcgaggctggcagagacctgctcgtagcctcaggt gaactgatgagttccaagaagaaggatttgcaccctcgggatattgatgcattttggctg cagcggcagctcagtcgtttctatgatgatgccatcgtgtcgcagaagaaggcagatgaa gtattggagattttgaagacggccagtgatgatcgggaatgtgaaaatcagctggttctg ctgcttggtttcaacacctttgatttcattaaagtgttgcggcagcacaggatgatgatt ttatactgtaccttgctggccagtgcacaaagtgaagctgaaaaggaaaggattatggga aagatggaagctgacccagagctatccaagttcctctaccagcttcatgaaaccgagaag gaggatctgatccgagaggaaaggtcccggagagagcgagtgcgtcagtctcgaatggac acagatctggaaaccatggatctcgaccagggtggagaggcactggctccacggcaggtt ctggacttggaggacctggtttttacccaagggagccactttatggccaataaacgctgt cagcttcctgatggatccttccgtcgccagcgtaagggctatgaagaggtgcatgtgcct gctctgaagcccaagccctttggctcagaagaacaactgcttccagtggaaaagctgcca aagtatgcccaggctgggtttgagggcttcaaaacactgaatcggatccagagtaagctc taccgtgctgcccttgagacggatgagaatctgctgctgtgtgctcctactggtgctggg aagaccaacgtggccctgatgtgcatgctccgagagattgggaaacacataaacatggac ggcaccatcaatgtggatgacttcaagattatctacattgcccccatgcgctccttggtg caggagatggtgggcagctttggaaagcgcctggccacttatggcatcactgttgctgaa ctgactggggaccaccagctgtgcaaagaagagatcagtgccactcagatcatcgtctgc acccccgagaagtgggacatcatcacccgcaagggtggtgagcgcacctacacccagctg gtgcggctcatcattctggatgagattcatcttctccacgatgacagaggtcctgtctta gaagctttagtggccagggccatccgaaacattgagatgacccaagaggatgtccgactc attggtctcagtgccaccctacccaactatgaagatgtagccacctttctacgtgttgac cctgccaagggtctcttttactttgacaacagcttccgtccagtgcctctggaacagaca tatgtgggtatcacagagaaaaaagctatcaagcgtttccagatcatgaatgaaatcgtc tatgaaaaaatcatggaacatgctggaaaaaatcaggtgctggtgtttgtccactcccgg aaggagactggaaagacagccagggccatccgggacatgtgcctagaaaaggacactctg ggtctgtttctgagggagggctcagcctccacagaagtcctgcgaacagaagctgagcag tgcaagaacctagagctgaaggatcttctgccttatggctttgctattcatcacgcaggc atgaccagggttgaccgaacactcgtggaggatctttttgctgataaacatattcaggtt ttagtttccacagcaactctagcttggggtgtgaatctccctgcacatacagtcatcatc aaaggcacccaggtgtacagtccagagaaggggcgttggacagaactgggagcactggac attctgcagatgctgggacgtgccggaagaccccagtatgacaccaagggtgaaggcata ctcatcacatctcatggggagctacagtactacctgtccctcctcaatcaacaacttcct attgaaagccagatggtttcaaagcttcctgacatgctcaatgcagaaatcgtgctagga aatgtccagaatgccaaggatgcggtgaactggctgggctatgcctacctctatatccga atgctgcgatccccaaccctctatggcatctctcatgatgacctcaagggagatcccctg ctggaccagcgccgactagatctggttcatacagctgccctgatgctggacaagaacaat ctggtcaagtacgacaagaagacgggcaacttccaggtgacagaactgggccgtatagcc agccactactacatcaccaatgatacagtgcagacttacaaccagctgctgaagcccacc ctgagtgagattgagcttttcagggtcttctcattgtcctctgagttcaagaacatcaca gtgagagaggaggagaagctggagctgcagaagttgctggagagggtgcctatccctgta aaggagagcattgaggaacccagtgctaagatcaacgttcttctgcaagccttcatctca cagctgaaattggagggctttgcactgatggctgacatggtgtatgtcacacagtcggct ggccggttgatgcgagcgatatttgaaattgtcctgaaccgaggttgggcacagcttaca gacaagaccctgaacctctgcaagatgatcgacaaacgcatgtggcagtccatgtgtcct ctgcgccagttccggaaactccctgaggaagtagtgaagaagattgagaagaagaatttc ccctttgagcgtctgtacgacctgaatcataatgagattggggagcttatccgcatgcca aagatggggaagaccatccacaaatatgtccatctgtttcccaagttggagttgtcagtg cacctgcagcctatcacacgctccaccctgaaggtggagctgaccatcacgccagacttc cagtgggatgaaaaggtgcatggttcatccgaggctttttggattctggtggaggatgtg gacagcgaggtgattctgcaccatgagtattttctcctcaaggccaagtacgcccaggac gagcacctcattacattcttcgtgcctgtctttgaaccgctgccccctcagtacttcatc cgagtggtgtctgaccgctggctctcttgtgagacccagctgcctgtctccttccggcac ctgatcttgccggagaagtacccccctccaaccgaacttttggacctgcagcccttgccc gtgtctgctctgagaaacagtgcctttgagagtctttaccaagataaatttcctttcttc aatcccatccagacccaggtgtttaacactgtatacaacagtgacgacaacgtgtttgtg ggggcccccacgggcagcgggaagactatttgtgcagagtttgccatcctgcgaatgctg ctgcagagctcggaggggcgctgtgtgtacatcacccccatggaggccctggcagagcag gtatacatggactggtacgagaagttccaggacaggctcaacaagaaggtggtactcctg acaggcgagaccagcacagacctgaagctgctgggcaaagggaacattatcatcagcacc cctgagaagtgggacatactttcccggcgatggaagcagcgcaagaacgtgcagaacatc aacctcttcgtggtggatgaggtccaccttatcgggggcgagaatgggcctgtcttagaa gtgatctgctcccgaatgcgctacatctcctcccagattgagcggcccattcgcattgtg gcactcagctcttcgctctccaatgccaaggatgtggcccactggctgggctgcagtgcc acctccaccttcaacttccatcccaatgtgcgtcccgtccccttggagctgcacatccag ggcttcaacatcagccatacacaaacccgcctgctctccatggccaagcctgtgtaccat gctatcaccaagcactcgcccaagaagcctgtcattgtctttgtgccgtctcgcaagcag acccgcctcactgccattgacatcctcaccacctgtgcagcagacatccaacggcagagg ttcttgcactgcaccgagaaggatctgattccgtacctggagaagctaagtgacagcacg ctcaaggaaacgctgctaaatggggtgggctacctgcatgaggggctcagccccatggag cgacgcctggtggagcagctcttcagctcaggggctatccaggtggtggtggcttctcgg agtctctgctggggcatgaacgtggctgcccacctggtaatcatcatggatacccagtac tacaatggcaagatccacgcctatgtggattaccccatctatgacgtgcttcagatggtg ggccacgccaaccgccctttgcaggacgatgaggggcgctgtgtcatcatgtgtcagggc tccaagaaggatttcttcaagaagttcttatatgagccattgccagtagaatctcacctg gaccactgtatgcatgaccacttcaatgctgagatcgtcaccaagaccattgagaacaag caggatgctgtggactacctcacctggacctttctgtaccgccgcatgacacagaacccc aattactacaacctgcagggcatctcccatcgtcacttgtcggaccacttgtcagagctg gtggagcagaccctgagtgacctggagcagtccaagtgcatcagcatcgaggacgagatg gacgtggcgcctctgaacctaggcatgatcgccgcctactattacatcaactacaccacc attgagctcttcagcatgtccctcaatgccaagaccaaggtgcgagggcttatcgagatc atctccaatgcagcagagtatgagaacattcccatccggcaccatgaagacaatctcctg aggcagttggctcagaaggtcccccacaagctgaataaccctaagttcaatgatccgcac gtcaagaccaacctgctcctgcaggctcacttgtctcgcatgcagctgagtgctgagttg cagtcagatacggaggaaatccttagtaaggcaatccggctcatccaggcctgcgtggat gtcctttccagcaatgggtggctcagccctgctctggcagctatggaactggcccagatg gtcacccaagccatgtggtccaaggactcatacctgaagcagctgccacacttcacctct gagcatatcaaacgttgcacagacaagggagtggagagtgttttcgacatcatggagatg gaggatgaagaacggaacgcgttgcttcagctgactgacagccagattgcagatgtggct cgcttttgtaaccgctaccctaatatcgaactatcttatgaggtggtagataaggacagc atccgcagtggcgggccagttgtggtgctggtgcagctggagcgagaggaggaagtcaca ggccctgtcattgcgcctctcttcccgcagaaacgtgaagagggctggtgggtggtgatt ggagatgccaagtccaatagcctcatctccatcaagaggctgaccttgcagcagaaggcc aaggtgaagttggactttgtggccccagccactggtgcccacaactacactctgtacttc atgagtgacgcttacatgggatgtgaccaggagtacaaattcagcgtggatgtgaaagaa gctgagacagacagtgattcagattga >gi568815596r:96153811_96365381|GENSCAN_predicted_peptide_8|563_aa MTTDSYSPTSPDAEASMAVISLLFLAVMYVVHHPLMVSDRMDLDTLARSRQLEKRMSEEM RLLEMEFEERKRAAEQRQKAENFWTGDTSSDQLVLGKKDMGWPFQADGQEGPLGWMLGNL WNTGLFCLFLVFELLRQNMQHEPAFDSSSEEEEEEVRVVPVTSYNWLTDFPSQEALDSFY KHYVQNAIRDLPCTCEFVESFVDDLIEACRVLSRQEAHPQLEDCLGIGAAFEKWGTLHET QKFDILVPIVPPQGTMFVLEMRDPALGRRCGCVLVESECVCKREKLLGDVLCLVHHHRDP SAVLGKCSSSIKAALCTGFHLDVCKTVQWFRNMMGNAWALVAHKYDFKLSLPPSTTSCKL RLDYRSGRFLSIHLVLGVQREDTLVYLVSQAPDQEQLTSVDWPESFVACEHLFLKLVGRF APENTCHLKCLQIILSLRQHQSLPHGASRPILTSYHFKTALMHLLLRLPLTDWAHNMLSQ RLQDILWFLGRGLQQRSLHHFLIGNNFLPLTIPIPKTFRNAEPVNLFQHLVLNPKAHSQA VEEFQNLLTQVKTLPHAPLAAAP >gi568815596r:96153811_96365381|GENSCAN_predicted_CDS_8|1692_bp atgaccactgactcctactctcctacttctccagatgcagaggcctccatggctgtgata agcctgctgttcttggcagtgatgtatgttgttcaccaccctctgatggtcagtgatcgg atggacctggacacattagccaggagtcggcagctggagaagcgaatgagtgaggagatg cgcctgctagagatggagtttgaagagagaaagcgagccgctgagcagaggcagaaggca gagaacttctggacaggagacacatccagtgaccagttagtgctggggaagaaagacatg gggtggccgttccaggccgatggccaggaagggcctctgggctggatgctgggaaacctg tggaacactggcctcttttgcctttttctcgtctttgagctcctgcgacagaacatgcag catgaaccggcctttgattccagcagtgaggaggaggaggaggaagtccgtgttgtccct gtcacctcttacaactggcttactgacttcccctcccaggaggccctggactccttttac aaacactatgtccaaaatgccatccgtgacctgccctgcacctgtgagtttgtggagagt tttgtggatgatctcattgaggcctgtcgggtgctcagccgccaagaggctcacccacaa ttggaagactgcctgggcatcggggctgcctttgagaaatggggaaccctccatgagacc cagaaatttgatatcctggtgcccattgtccccccacagggcaccatgtttgtcctggag atgagggacccagccctgggccgccgctgtggctgtgtgctggtggagtcagaatgtgtg tgcaagcgtgagaaactcctaggggacgtgctgtgcctggtgcaccaccacagggacccc tcggcagtcttggggaagtgtagtagctccatcaaggcagctctctgcaccggcttccac ctagacgtgtgcaagactgtgcagtggttccggaacatgatgggcaatgcctgggccctt gtggcccacaagtatgactttaaactcagtctcccaccgtctaccacctcctgcaagctc cggctggactatcgctcaggccgctttctctcaatccacttggtcctgggggtgcaacga gaagacaccttggtctacctggtgagtcaggctcctgaccaggagcagctcaccagtgtg gactggcctgagtcctttgtggcctgtgagcacctgttcctgaagctggtggggcgcttt gcccccgagaacacctgtcacctcaagtgcctccagatcattttaagtctccggcagcat cagagcttaccccatggagcatcccgccccatcctcacttcttaccattttaaaacagct ctcatgcacctcttgctacggctgcccctcacggactgggcccacaacatgctctctcag cggctccaggacattctctggttcttgggccgtggcctccagcaaaggtccctccatcat ttcctcattggtaacaattttctgcccctgaccatcccaatccctaagacatttaggaat gctgagccggtcaatctcttccaacacctggtgctcaaccccaaggcacattcacaggca gtggaagagttccaaaaccttctgacccaggtgaaaactctgcctcatgccccactggct gcagcaccttga >gi568815596r:96153811_96365381|GENSCAN_predicted_peptide_9|566_aa MGPPGPGEPGGREARREGPLAKQYFGRAGLAGWPGRGERICSARVLALRLTAEAERVFPM PLPRKAPLNIPGTPVLEDFPQNDDEKERLQRRRSRVFDLQFSTDSPRLLASPSSRSIDIS ATIPKFTNTQITEHYSTCIKLSTENKITTKNAFGLHLIDFMSEILKQKDTEPTNFKVAAG TLDASTKIYAVRVDAVHADVYRVLGGLGKDAPSLEEVEGHVADGSATEMGTTKKAVKPKK KHLHRTIEQNINNLNVSEADRKCEIDPMFQKTAASFDECSTAGVFLSTLHCQDYRSELLF PSDVQTLSTGEPLELPELGCVEMTDLKAPLQQCAEDRQICPSLAGFQFTQWDSETHNESV SALVDKFKKNDQVFDINAEVDESDCGDFPDGSLGDDFDANDEPDHTAVGDHEEFRSWKEP CQVQSCQEHAPFVHIAYSVAVGDSKPPIYHLKEDAPSQSENKKKSTKKDFEIDFEDDIDF DVYFRKTKAATILTKSTLENQNWRATTLPTDFNYNVDTLVQLHLKPGTRLLKMAQGHRVE TEHYEEIEDYDYNNPNDTSNFCPGLQ >gi568815596r:96153811_96365381|GENSCAN_predicted_CDS_9|1698_bp atgggacctcccggcccaggtgagccgggcggtcgggaggcgcggcgggaagggccccta gcgaagcagtacttcgggcgggcagggctggcgggctggcctgggcggggagagaggata tgctcagctcgggtcttggccctgcggctgacagcagaggccgagcgtgtgttcccgatg cccctgcccaggaaggcgcctctcaatattcctggcaccccagtcctcgaagactttcct cagaatgacgatgagaaggagcggctgcagcggaggcgctcgagggtctttgatctgcag ttcagcactgactcacctcgcttattggcctccccctccagcaggagtattgacatttca gctactatccccaagtttacaaacacgcagattacggaacattactccacctgtatcaaa ctgtccactgaaaataaaatcactaccaagaatgcttttggtttgcacttgattgatttt atgtcagagattcttaaacagaaagacaccgaaccaaccaactttaaagtggctgcgggt actctggatgccagcaccaagatctatgctgtgcgcgtggatgccgtccatgccgatgta tacagagtccttggggggctgggcaaagatgcaccgtctttggaagaagtagaaggccat gttgctgatggaagtgctactgaaatgggaacaaccaaaaaggctgtaaagccaaagaag aagcacttacacagaactattgagcagaacataaacaacctcaatgtctccgaagcagat cggaagtgtgagattgatcccatgtttcagaagacagcagcctcatttgatgagtgcagc acagcaggggtgtttctgtccactctccactgccaggactacagaagtgaactgctgttt ccctctgatgtccagactctctccacgggagaacctctcgagttgccagagttaggttgt gtagaaatgacagatttaaaagcgcccttgcagcagtgtgcagaagatcgccagatctgc ccttccctggccgggttccagtttacacagtgggacagtgaaacacataatgagtctgtg tcggccctggtagacaagtttaagaagaatgaccaggtatttgacatcaatgctgaagtt gacgagagtgactgtggagacttccccgatgggtccctgggggatgactttgatgccaac gatgaacctgaccacaccgcagttggggatcatgaagagttcaggagctggaaggagccc tgccaggttcagagctgccaagagcatgctccctttgtacacattgcttatagtgtggct gttggtgactctaagccaccaatttaccacctgaaagaagatgctccttcccaatcagaa aacaaaaagaagagtacaaaaaaagattttgaaattgactttgaagatgatattgacttt gatgtatattttagaaaaacaaaggctgctactattctgaccaagtccactttggagaac cagaattggagagctaccacccttcctacagatttcaactacaatgttgacactctggtc cagcttcacctcaaaccaggcaccaggttacttaagatggcccagggccatagggtagag actgagcattatgaagaaattgaagactatgattacaacaaccctaacgacacctccaac ttttgccctggattacag