GENSCAN 1.0 Date run: 5-Nov-116 Time: 15:10:09 Sequence gi568815583f:90775741_90981875 : 206135 bp : 50.37% 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 + 7082 7188 107 2 2 74 84 49 0.265 2.96 1.02 Intr + 9181 9341 161 2 2 76 92 74 0.349 6.31 1.03 Intr + 22450 22597 148 0 1 45 106 50 0.920 2.31 1.04 Intr + 27781 27980 200 2 2 86 75 187 0.999 16.27 1.05 Intr + 28427 28619 193 1 1 83 94 93 0.999 8.47 1.06 Intr + 33397 33519 123 2 0 72 92 63 0.971 5.66 1.07 Term + 35465 35679 215 0 2 92 44 102 0.641 3.59 1.08 PlyA + 36350 36355 6 1.05 2.08 PlyA - 36421 36416 6 1.05 2.07 Term - 41384 41292 93 2 0 113 43 59 0.538 1.73 2.06 Intr - 42805 42547 259 0 1 88 61 84 0.639 3.17 2.05 Intr - 43229 43191 39 1 0 88 70 58 0.497 1.34 2.04 Intr - 43595 43458 138 1 0 48 48 110 0.495 2.58 2.03 Intr - 46556 46287 270 1 0 100 91 135 0.857 11.66 2.02 Intr - 49711 49530 182 1 2 13 36 159 0.519 1.87 2.01 Init - 50076 50023 54 0 0 115 52 61 0.669 4.81 2.00 Prom - 52154 52115 40 -7.16 3.00 Prom + 54624 54663 40 -4.66 3.01 Init + 60934 60979 46 0 1 63 85 44 0.449 0.58 3.02 Intr + 62340 62474 135 1 0 108 68 5 0.440 1.04 3.03 Intr + 65414 65544 131 0 2 76 105 95 0.921 10.41 3.04 Intr + 69510 69641 132 2 0 69 44 57 0.074 0.24 3.05 Intr + 95683 95865 183 0 0 76 110 47 0.068 5.68 3.06 Intr + 100007 100177 171 1 0 -20 96 212 0.006 11.34 3.07 Intr + 100515 100613 99 2 0 84 89 116 0.999 11.61 3.08 Intr + 100722 100817 96 2 0 131 92 113 0.999 16.21 3.09 Intr + 101156 101323 168 1 0 58 85 269 0.900 23.74 3.10 Intr + 101395 101471 77 0 2 67 110 66 0.994 5.01 3.11 Intr + 101787 101875 89 0 2 71 105 116 0.995 11.21 3.12 Intr + 102392 102564 173 0 2 62 94 287 0.980 26.36 3.13 Intr + 103024 103236 213 0 0 112 78 447 0.999 45.01 3.14 Intr + 103704 103804 101 2 2 97 108 97 0.999 11.51 3.15 Intr + 103931 104034 104 2 2 114 100 156 0.999 19.22 3.16 Intr + 104127 104244 118 1 1 141 61 250 0.999 27.12 3.17 Intr + 104354 104533 180 2 0 81 49 278 0.999 22.18 3.18 Intr + 104951 105075 125 2 2 106 39 147 0.999 11.83 3.19 Intr + 105190 105300 111 2 0 74 52 133 0.979 8.65 3.20 Term + 105546 106138 593 1 2 67 45 692 0.998 57.49 3.21 PlyA + 107691 107696 6 -1.95 4.00 Prom + 108183 108222 40 -10.35 4.01 Init + 109306 109518 213 0 0 74 94 232 0.597 21.14 4.02 Intr + 109672 109845 174 0 0 83 105 337 0.998 35.04 4.03 Intr + 111221 111317 97 1 1 128 83 215 0.986 24.58 4.04 Intr + 111447 111630 184 1 1 87 69 251 0.948 21.95 4.05 Intr + 113566 113703 138 1 0 66 94 249 0.993 22.88 4.06 Intr + 113777 113896 120 2 0 114 44 147 0.920 12.51 4.07 Intr + 114100 114222 123 1 0 93 101 151 0.999 16.60 4.08 Intr + 114352 114538 187 1 1 110 97 262 0.999 28.99 4.09 Intr + 114661 114744 84 0 0 87 109 57 0.994 7.72 4.10 Intr + 115242 115451 210 2 0 78 76 344 0.924 31.31 4.11 Intr + 115760 115936 177 1 0 141 105 117 0.852 18.82 4.12 Intr + 116318 116371 54 1 0 140 100 72 0.990 12.78 4.13 Intr + 116814 117085 272 2 2 89 90 101 0.817 6.74 4.14 Intr + 117360 117454 95 0 2 3 84 219 0.999 12.61 4.15 Intr + 117551 117674 124 0 1 73 117 176 0.999 18.64 4.16 Intr + 117914 118071 158 2 2 87 34 150 0.999 9.15 4.17 Intr + 118196 118318 123 0 0 135 98 137 0.999 19.96 4.18 Term + 119676 119818 143 1 2 113 54 207 0.495 17.89 4.19 PlyA + 120012 120017 6 1.05 5.00 Prom + 120782 120821 40 -7.36 5.01 Init + 126519 127247 729 2 0 54 61 295 0.949 18.20 5.02 Intr + 128450 128599 150 1 0 52 100 151 0.993 13.06 5.03 Intr + 129511 129768 258 0 0 64 110 412 0.990 38.66 5.04 Intr + 129839 129983 145 1 1 19 94 295 0.943 23.06 5.05 Intr + 130105 130234 130 2 1 59 32 216 0.986 12.85 5.06 Intr + 130630 130757 128 1 2 28 111 138 0.999 10.42 5.07 Intr + 131000 131173 174 0 0 90 74 130 0.947 11.71 5.08 Intr + 131569 131755 187 2 1 109 55 212 0.999 18.75 5.09 Intr + 133587 133764 178 0 1 95 64 298 0.999 28.02 5.10 Intr + 134350 134552 203 0 2 43 81 202 0.988 13.08 5.11 Intr + 134761 134943 183 1 0 65 75 124 0.995 7.70 5.12 Intr + 135107 135221 115 2 1 83 77 157 0.946 14.55 5.13 Intr + 135371 135498 128 1 2 38 91 60 0.602 0.78 5.14 Intr + 135645 135810 166 0 1 64 94 191 0.974 17.26 5.15 Intr + 136303 136539 237 0 0 134 93 407 0.974 43.61 5.16 Intr + 136802 136924 123 1 0 48 63 241 0.954 18.38 5.17 Intr + 137137 137251 115 0 1 56 99 126 0.966 10.52 5.18 Intr + 137533 137666 134 2 2 85 62 319 0.999 29.36 5.19 Intr + 137874 138015 142 2 1 128 101 143 0.999 19.53 5.20 Intr + 140383 140516 134 2 2 105 77 225 0.921 23.46 5.21 Intr + 142454 142648 195 1 0 89 105 32 0.825 4.61 5.22 Intr + 142821 143015 195 2 0 50 113 178 0.878 16.11 5.23 Term + 143895 144047 153 2 0 131 49 66 0.926 4.92 5.24 PlyA + 145429 145434 6 1.05 6.05 PlyA - 155206 155201 6 1.05 6.04 Term - 155665 155535 131 2 2 56 43 151 0.997 5.74 6.03 Intr - 156204 155964 241 0 1 59 71 317 0.999 24.22 6.02 Intr - 156370 156315 56 2 2 122 93 41 0.999 6.70 6.01 Init - 156800 156689 112 2 1 89 60 230 0.989 20.67 6.00 Prom - 158225 158186 40 -8.56 7.00 Prom + 158242 158281 40 -11.33 7.01 Init + 158301 158403 103 2 1 44 92 76 0.968 2.10 7.02 Intr + 158599 158809 211 2 1 91 94 92 0.781 8.07 7.03 Intr + 159204 159360 157 0 1 99 20 52 0.799 -0.49 7.04 Intr + 159804 159965 162 2 0 128 81 289 0.989 32.37 7.05 Intr + 160206 160242 37 2 1 121 97 45 0.992 6.54 7.06 Intr + 160545 160720 176 1 2 66 95 215 0.734 19.66 7.07 Intr + 163991 164083 93 1 0 78 75 127 0.995 10.56 7.08 Intr + 164566 164733 168 0 0 78 77 178 0.795 15.84 7.09 Intr + 166697 166865 169 1 1 81 92 175 0.834 16.72 7.10 Intr + 167172 167342 171 1 0 93 100 201 0.999 21.71 7.11 Intr + 169152 169323 172 1 1 47 80 201 0.716 14.20 7.12 Intr + 170874 171174 301 0 1 104 69 524 0.994 48.84 7.13 Intr + 172056 172150 95 2 2 105 87 63 0.935 6.66 7.14 Intr + 172402 172543 142 1 1 101 32 240 0.998 20.06 7.15 Intr + 172914 173054 141 2 0 95 100 275 0.998 29.95 7.16 Intr + 173576 173703 128 1 2 108 99 160 0.999 18.58 7.17 Intr + 173914 173980 67 1 1 128 98 57 0.996 9.61 7.18 Intr + 174414 174527 114 2 0 63 87 185 0.999 16.54 7.19 Intr + 174760 174875 116 0 2 38 107 186 0.619 14.75 7.20 Intr + 177189 177306 118 0 1 76 78 166 0.980 14.87 7.21 Intr + 177415 177570 156 0 0 70 49 287 0.981 23.21 7.22 Intr + 177719 177972 254 1 2 108 42 310 0.257 24.63 7.23 Intr + 180961 181160 200 1 2 30 60 226 0.089 12.99 7.24 Intr + 181373 181763 391 0 1 118 99 348 0.995 32.68 7.25 Intr + 181864 181985 122 1 2 74 89 83 0.984 7.14 7.26 Intr + 184160 184258 99 0 0 103 100 45 0.983 7.28 7.27 Intr + 184588 184758 171 2 0 14 94 130 0.454 6.11 7.28 Intr + 185285 185314 30 0 0 97 98 34 0.817 3.40 7.29 Term + 185878 186029 152 2 2 24 44 206 0.565 7.87 7.30 PlyA + 187352 187357 6 1.05 8.11 PlyA - 187728 187723 6 1.05 8.10 Term - 191462 191391 72 2 0 83 54 75 0.775 1.51 8.09 Intr - 193883 193707 177 2 0 87 33 172 0.770 11.72 8.08 Intr - 194774 194664 111 2 0 86 96 86 0.984 9.78 8.07 Intr - 198506 198396 111 2 0 59 92 80 0.957 6.08 8.06 Intr - 198991 198845 147 1 0 90 89 135 0.642 14.23 8.05 Intr - 201031 200936 96 1 0 41 85 91 0.948 4.31 8.04 Intr - 203554 203418 137 2 2 64 57 110 0.987 5.79 8.03 Intr - 204649 204502 148 1 1 62 53 145 0.999 8.21 8.02 Intr - 205293 205144 150 0 0 82 95 141 0.947 14.56 8.01 Intr - 205929 205759 171 0 0 53 84 55 0.468 1.74 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 100001 100177 177 1 0 84 96 256 0.977 23.26 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815583f:90775741_90981875|GENSCAN_predicted_peptide_1|382_aa XFSMSFNRHNLKYYVLPKKPKKVAFDCLEWIRKHHPYDSGIIYCLSRRECDTMADTLQRD GLAALAYHAGLSDSARDEVQQKWINQDGCQDYKTRDVTDDVKSIVRFVQEHSSSQGMRNI KHVGPSGRFTMNMLVDIFLGSKSAKIQSGIFGKGSAYSRHNAERLFKKLILDKILDEDLY INANDQAIAYVMLGNKAQTVLNGNLKVDFMETENSSSVKKQKALVAKVSQREEMVKKCLG ELTEVCKSLGKVFGVHYFNIFNTVTLKKLAESLSSDPEVLLQIDGVTEDKLEKYGAEVIS VLQKYSEWTSPAEDSSPGISLSSSRGPGRSAAEELDEEIPVSSHYFASKTRNERKRKKMP ASQRSKRRKTASSGSKAKGYVL >gi568815583f:90775741_90981875|GENSCAN_predicted_CDS_1|1149_bp nngtttagcatgagctttaacagacataatctgaaatactatgtattaccgaaaaagcct aaaaaggtggcatttgattgcctagaatggatcagaaagcaccacccatatgattcaggg ataatttactgcctctccaggcgagaatgtgacaccatggctgacacgttacagagagat gggctcgctgctcttgcttaccatgctggcctcagtgattctgccagagatgaagtgcag cagaagtggattaatcaggatggctgtcaggattataaaacaagagatgtgactgacgat gtgaaaagtattgtaagatttgttcaagaacatagttcatcacaaggaatgagaaatata aaacatgtaggtccttctggaagatttactatgaatatgctggtcgacattttcttgggg agtaagagtgcaaaaatccagtcaggtatatttggaaaaggatctgcttattcacgacac aatgccgaaagactttttaaaaagctgatacttgacaagattttggatgaagacttatat atcaatgccaatgaccaggcgatcgcttatgtgatgctcggaaataaagcccaaactgta ctaaatggcaatttaaaggtagactttatggaaacagaaaattccagcagtgtgaaaaaa caaaaagcgttagtagcaaaagtgtctcagagggaagagatggttaaaaaatgtcttgga gaacttacagaagtctgcaaatctctggggaaagtttttggtgtccattacttcaatatt tttaataccgtcactctcaagaagcttgcagaatctttatcttctgatcctgaggttttg cttcaaattgatggtgttactgaagacaaactggaaaaatatggtgcggaagtgatttca gtattacagaaatactctgaatggacatcgccagctgaagacagttccccagggataagc ctgtccagcagcagaggccccggaagaagtgccgctgaggagctcgacgaggaaataccc gtatcttcccactactttgcaagtaaaaccagaaatgaaaggaagaggaaaaagatgcca gcctcccaaaggtctaagaggagaaaaactgcttccagtggttccaaggcaaaggggtat gttttgtga >gi568815583f:90775741_90981875|GENSCAN_predicted_peptide_2|344_aa MEQGAALVWEARASQEPTCSGGLKGSSSTARVGAKAEEAPRASEGCKGCQHAVTSHHVLS AADRPPPEPLAVCDDAEPLWETKDEGEENALPKTSVLKFSAAVVCIHLGLAASGPPGDPV EMHTSGAHSRLAASEAMAQPALQVTEANTSLRTTALALAFSAGTDVLHRRHRTLCGAVDP GTFPGVTEPSVGPWNPAPSQASPNPLWGRGTTQLRERGPAEKPFREAEQQLPARERAGLG LWEPPKDRVGLGASEQFQTAAGVGEAAVSQEEREGLDHSLRFLFWRKATAQRCWLIILQP LSLEPAAEAGSFEQPWELLEAQPATLRDKLHLQKERVDEVRAQQ >gi568815583f:90775741_90981875|GENSCAN_predicted_CDS_2|1035_bp atggagcagggagcagcgctcgtctgggaggctcgggcctcgcaggagcccacgtgcagc ggtgggctgaagggctcctcaagcacggccagagtgggcgccaaggccgaggaggcaccg agagcgagcgagggctgcaagggctgccagcacgctgtcacctctcaccatgtcctgtcc gctgccgaccggccgcctcctgaaccccttgctgtctgtgatgacgcagaaccactatgg gaaaccaaggatgaaggagaggagaatgccttgcccaagacctcagtgctaaaattctcg gcagctgtggtttgtattcacctggggctggcagcatcgggaccaccaggagacccggtg gaaatgcacacctctggggcgcactccagacttgctgcatcggaagccatggcacaacca gctctccaggtgactgaggctaacacaagtttgagaactactgccctggcccttgctttc tcggctgggactgacgttctgcacaggcgtcaccgaaccctctgtggggccgtggatccc ggcaccttcccaggcgtcaccgaaccctctgtggggccgtggaacccggcaccttcccag gcgtcaccgaaccctctgtggggccgtggaaccacacagttgagggagcgtgggccagcc gagaagcctttccgagaagcagagcagcagctcccagccagagaaagagccgggctggga ctctgggagcctccaaaggacagggtgggcctcggggcctcagagcagttccagacggct gcaggagtgggagaagcagcagtttctcaagaagagcgagaaggcttggaccacagcctc cgcttcctcttctggagaaaagccacagctcagcgatgctggctgataattctgcagcct ctgtccctggagcctgcagcagaggctgggagtttcgaacagccctgggagctcctggag gcacagcctgcgaccctgagggataagctccatctccagaaggaacgagtggatgaggtc agagcccagcagtga >gi568815583f:90775741_90981875|GENSCAN_predicted_peptide_3|1014_aa MLVPVLILSPCLVGIEPWEVSPHTNSTSSYESTPKSYPLGTAAKAASGQSPSTTSPLPET APSTLHERGLENVVCSDKDLRQATGYSAAEKSKPPGLCTRAFCPGKHRPTRSPTPGLVEK NAAPAEGFLREMTQPEHSDATSTFYGLKEPEAAGAPEGPAGPPRGAGRAGAHGAGNAGPQ SGPGGMGGRGAPEPPRRSPGKVSPPGLPRLRPWLLWVVAATGTLVLLAADAQGQKVFTNT WAVRIPGGPAVANSVARKHGFLNLGQIFGDYYHFWHRGVTKRSLSPHRPRHSRLQREPQV QWLEQQVAKRRTKRDVYQEPTDPKFPQQWYLSGVTQRDLNVKAAWAQGYTGHGIVVSILD DGIEKNHPDLAGNYVRKSGREAVIPAEDPGASFDVNDQDPDPQPRYTQMNDNRHGTRCAG EVAAVANNGVCGVGVAYNARIGGVRMLDGEVTDAVEARSLGLNPNHIHIYSASWGPEDDG KTVDGPARLAEEAFFRGVSQGRGGLGSIFVWASGNGGREHDSCNCDGYTNSIYTLSISSA TQFGNVPWYSEACSSTLATTYSSGNQNEKQIVTTDLRQKCTESHTGTSASAPLAAGIIAL TLEANKNLTWRDMQHLVVQTSKPAHLNANDWATNGVGRKVSHSYGYGLLDAGAMVALAQN WTTVAPQRKCIIDILTEPKDIGKRLEVRKTVTACLGEPNHITRLEHAQARLTLSYNRRGD LAIHLVSPMGTRSTLLAARPHDYSADGFNDWAFMTTHSWDEDPSGEWVLEIENTSEANNY GTLTKFTLVLYGTAPEGLPVPPESSGCKTLTSSQACVVCEEGFSLHQKSCVQHCPPGFAP QVLDTHYSTENDVETIRASVCAPCHASCATCQGPALTDCLSCPSHASLDPVEQTCSRQSQ SSRESPPQQQPPRLPPEVEAGQRLRAGLLPSHLPEVVAGLSCAFIVLVFVTVFLVLQLRS GFSFRGVKVYTMDRGLISYKGLPPEAWQEECPSDSEEDEGRGERTAFIKDQSAL >gi568815583f:90775741_90981875|GENSCAN_predicted_CDS_3|3045_bp atgcttgtcccagtcctgatcctaagcccctgcctcgttggcattgagccttgggaagtg tcaccccacaccaactccaccagctcctacgaaagcacccccaaatcataccctctaggc accgcagcaaaagcagcttcagggcaatcccccagcacaacctcaccccttcctgagact gctccctccacccttcatgaacgggggctggaaaatgtggtctgctctgataaggatttg cgtcaggctactggctactcagcagccgagaagagcaagcctccaggcctctgcacgcgt gccttctgcccgggtaaacacagacccacacggagccccactccaggcctggtcgaaaaa aatgctgctccagctgaaggctttctcagagaaatgactcagcctgagcactcagatgca acttccacgttttatggactgaaggagccggaggcagcgggcgccccagaaggccccgca gggccgccgcgcggggccggacgcgctggggcccacggcgctgggaacgcgggcccgcag tcgggcccgggcggcatgggcggccgaggggcgcccgagccgccgcggcggtcgcctgga aaagtttccccgccagggctccccaggctgaggccctggttgctatgggtggtagcagca acaggaaccttggtcctgctagcagctgatgctcagggccagaaggtcttcaccaacacg tgggctgtgcgcatccctggaggcccagcggtggccaacagtgtggcacggaagcatggg ttcctcaacctgggccagatcttcggggactattaccacttctggcatcgaggagtgacg aagcggtccctgtcgcctcaccgcccgcggcacagccggctgcagagggagcctcaagta cagtggctggaacagcaggtggcaaagcgacggactaaacgggacgtgtaccaggagccc acagaccccaagtttcctcagcagtggtacctgtctggtgtcactcagcgggacctgaat gtgaaggcggcctgggcgcagggctacacagggcacggcattgtggtctccattctggac gatggcatcgagaagaaccacccggacttggcaggcaattatgtgaggaagtcggggagg gaggccgtgatccctgctgaggatcctggggccagttttgatgtcaatgaccaggaccct gacccccagcctcggtacacacagatgaatgacaacaggcacggcacacggtgtgcgggg gaagtggctgcggtggccaacaacggtgtctgtggtgtaggtgtggcctacaacgcccgc attggaggggtgcgcatgctggatggcgaggtgacagatgcagtggaggcacgctcgctg ggcctgaaccccaaccacatccacatctacagtgccagctggggccccgaggatgacggc aagacagtggatgggccagcccgcctcgccgaggaggccttcttccgtggggttagccag ggccgaggggggctgggctccatctttgtctgggcctcggggaacgggggccgggaacat gacagctgcaactgcgacggctacaccaacagtatctacacgctgtccatcagcagcgcc acgcagtttggcaacgtgccgtggtacagcgaggcctgctcgtccacactggccacgacc tacagcagtggcaaccagaatgagaagcagatcgtgacgactgacttgcggcagaagtgc acggagtctcacacgggcacctcagcctctgcccccttagcagccggcatcattgctctc accctggaggccaataagaacctcacatggcgggacatgcaacacctggtggtacagacc tcgaagccagcccacctcaatgccaacgactgggccaccaatggtgtgggccggaaagtg agccactcatatggctacgggcttttggacgcaggcgccatggtggccctggcccagaat tggaccacagtggccccccagcggaagtgcatcatcgacatcctcaccgagcccaaagac atcgggaaacggctcgaggtgcggaagaccgtgaccgcgtgcctgggcgagcccaaccac atcactcggctggagcacgctcaggcgcggctcaccctgtcctataatcgccgtggcgac ctggccatccacctggtcagccccatgggcacccgctccaccctgctggcagccaggcca catgactactccgcagatgggtttaatgactgggccttcatgacaactcattcctgggat gaggatccctctggcgagtgggtcctagagattgaaaacaccagcgaagccaacaactat gggacgctgaccaagttcaccctcgtactctatggcaccgcccctgaggggctgcccgta cctccagaaagcagtggctgcaagaccctcacgtccagtcaggcctgtgtggtgtgcgag gaaggcttctccctgcaccagaagagctgtgtccagcactgccctccagggttcgccccc caagtcctcgatacgcactatagcaccgagaatgacgtggagaccatccgggccagcgtc tgcgccccctgccacgcctcatgtgccacatgccaggggccggccctgacagactgcctc agctgccccagccacgcctccttggaccctgtggagcagacttgctcccggcaaagccag agcagccgagagtccccgccacagcagcagccacctcggctgcccccggaggtggaggcg gggcaacggctgcgggcagggctgctgccctcacacctgcctgaggtggtggccggcctc agctgcgccttcatcgtgctggtcttcgtcactgtcttcctggtcctgcagctgcgctct ggctttagttttcggggggtgaaggtgtacaccatggaccgtggcctcatctcctacaag gggctgccccctgaagcctggcaggaggagtgcccgtctgactcagaagaggacgagggc cggggcgagaggaccgcctttatcaaagaccagagcgccctctga >gi568815583f:90775741_90981875|GENSCAN_predicted_peptide_4|891_aa MGFSSELCSPQGHGVLQQMQEAELRLLEGMRKWMAQRVKSDREYAGLLHHMSLQDSGGQS RAISPDSPISQSWAEITSQTEGLSRLLRQHAEDLNSGPLSKLSLLIRERQQLRKTYSEQW QQLQQELTKTHSQDIEKLKSQYRALARDSAQAKRKYQEASKDKDRDKAKDKYVRSLWKLF AHHNRYVLGVRAAQLHHQHHHQLLLPGLLRSLQDLHEEMACILKEILQEYLEISSLVQDE VVAIHREMAAAAARIQPEAEYQGFLRQYGSAPDVPPCVTFDESLLEEGEPLEPGELQLNE LTVESVQHTLTSVTDELAVATEMVFRRQEMVTQLQQELRNEEENTHPRERVQLLGKRQVL QEALQGLQVALCSQAKLQAQQELLQTKLEHLGPGEPPPVLLLQDDRHSTSSSEQEREGGR TPTLEILKSHISGIFRPKFSLPPPLQLIPEVQKPLHEQLWYHGAIPRAEVAELLVHSGDF LVRESQGKQEYVLSVLWDGLPRHFIIQSLDGSRPLRMEAADPGSPALQNLYRLEGEGFPS IPLLIDHLLSTQQPLTKKSGVVLHRAVPKDKWVLNHEDLVLGEQIGRVPQRGSNSQRAWV RGPNTGAPHPGVGSRMGRKRRRELRDWEGRGRSPRPFQGNFGEVFSGRLRADNTLVAVKS CRETLPPDLKAKFLQEARILKQYSHPNIVRLIGVCTQKQPIYIVMELVQGGDFLTFLRTE GARLRVKTLLQMVGDAAAGMEYLESKCCIHRDLAARNCLVTEKNVLKISDFGMSREEADG VYAASGGLRQVPVKWTAPEALNYGRYSSESDVWSFGILLWETFSLGASPYPNLSNQQTRE FVEKGGRLPCPELCPDAVFRLMEQCWAYEPGQRPSFSTIYQELQSIRKRHR >gi568815583f:90775741_90981875|GENSCAN_predicted_CDS_4|2676_bp atgggcttctcttccgagctgtgcagcccccagggccacggggtcctgcagcaaatgcag gaggccgagcttcgtctactggagggcatgagaaagtggatggcccagcgggtcaagagt gacagggagtatgcaggactgcttcaccacatgtccctgcaggacagtgggggccagagc cgggccatcagccctgacagccccatcagtcagtcctgggctgagatcaccagccaaact gagggcctgagccgcttgctgcggcagcacgcagaggatctgaactcagggcccctgagc aagctgagcctgctcatccgggaacggcagcagcttcgcaagacctacagcgagcagtgg cagcagctgcagcaggagctcaccaagacccacagccaggacattgagaagctgaagagc cagtaccgagctctggcacgggacagtgcccaagccaagcgcaagtaccaggaggccagc aaagacaaggaccgtgacaaggctaaggacaagtatgtgcgcagcctgtggaagctcttt gctcaccacaaccgctatgtgctgggcgtgcgggctgcgcagctacaccaccagcaccac caccagctcctgctgcccggcctgctgcggtcactgcaggacctgcacgaggagatggct tgcatcctgaaggagatcctgcaggaatacctggagattagcagcctggtgcaggatgag gtggtggccattcaccgggagatggctgcagctgctgcccgcatccagcctgaggctgag taccaaggcttcctgcgacagtatgggtccgcacctgacgtcccaccctgtgtcacgttc gatgagtcactgcttgaggagggtgaaccgctggagcctggggagctccagctgaacgag ctgactgtggagagcgtgcagcacacgctgacctcagtgacagatgagctggctgtggcc accgagatggtgttcaggcggcaggagatggttacgcagctgcaacaggagctccggaat gaagaggagaacacccacccccgggagcgggtgcagctgctgggcaagaggcaagtgctg caagaagcactgcaggggctgcaggtagcgctgtgcagccaggccaagctgcaggcccag caggagttgctgcagaccaagctggagcacctgggccccggcgagcccccgcctgtgctg ctcctgcaggatgaccgccactccacgtcgtcctcggagcaggagcgagaggggggaagg acacccacgctggagatccttaagagccacatctcaggaatcttccgccccaagttctcg ctccctccaccgctgcagctcattccggaggtgcagaagcccctgcatgagcagctgtgg taccacggggccatcccgagggcagaggtggctgagctgctggtgcactctggggacttc ctggtgcgggagagccagggcaagcaggagtacgtgctgtcggtgctgtgggatggtctg ccccggcacttcatcatccagtccttggatggctcacgccccctcagaatggaggctgct gaccccgggtcccctgccctgcagaacctgtaccgactggaaggggaaggctttcctagc attcctttgctcatcgaccacctactgagcacccagcagcccctcaccaagaagagtggt gttgtcctgcacagggctgtgcccaaggacaagtgggtgctgaaccatgaggacctggtg ttgggtgagcagattggacgggttccccagcgagggtcaaactcccagagagcctgggtg aggggtccgaacacgggggcccctcacccaggggtaggaagcagaatgggtaggaagcgg agaagagaactgcgggactgggaaggccgtggtaggagcccaagaccgtttcaggggaac tttggcgaagtgttcagcggacgcctgcgagccgacaacaccctggtggcggtgaagtct tgtcgagagacgctcccacctgacctcaaggccaagtttctacaggaagcgaggatcctg aagcagtacagccaccccaacatcgtgcgtctcattggtgtctgcacccagaagcagccc atctacatcgtcatggagcttgtgcaggggggcgacttcctgaccttcctccgcacggag ggggcccgcctgcgggtgaagactctgctgcagatggtgggggatgcagctgctggcatg gagtacctggagagcaagtgctgcatccaccgggacctggctgctcggaactgcctggtg acagagaagaatgtcctgaagatcagtgactttgggatgtcccgagaggaagccgatggg gtctatgcagcctcagggggcctcagacaagtccccgtgaagtggaccgcacctgaggcc cttaactacggccgctactcctccgaaagcgacgtgtggagctttggcatcttgctctgg gagaccttcagcctgggggcctccccctatcccaacctcagcaatcagcagacacgggag tttgtggagaaggggggccgtctgccctgcccagagctgtgtcctgatgccgtgttcagg ctcatggagcagtgctgggcctatgagcctgggcagcggcccagcttcagcaccatctac caggagctgcagagcatccgaaagcggcatcggtga >gi568815583f:90775741_90981875|GENSCAN_predicted_peptide_5|1433_aa MPSKRETAKKSLCLVHSLAGNIEQARKGKGLEECAVPTGGSTPLPEGRNDRDLRLPGPEP GEAAENAPRYASAETEAGVSTTARSCAYSSRIPKKFSRASLLRFRSWPGPARAGAAAHCS PAERAREEPGGDRGGQSSCQLRRAHAGRGGRRGCPRPARCWARQLQRLADPRGAGAAERA GGPGPSGSAAAARGAGGYGWAGARLRLRRCLHAGRRPRACESRQLGRLGPERRGGRALTV TGRVCVEASMKLKKQVTVCGAAIFCVAVFSLYLMLDRVQHDPTRHQNGGNFPRSQISVLQ NRIEQLEQLLEENHEIISHIKDSVLELTANAEGPPAMLPYYTVNGSWVVPPEPRPSFFSI SPQDCQFALGGRGQKPELQMLTVSEELPFDNVDGGVWRQGFDISYDPHDWDAEDLQVFVV PHSHNDPGWIKTFDKYYTEQTQHILNSMVSKLQEDPRRRFLWAEVSFFAKWLVGNGQLEI ATGGWVMPDEANSHYFALIDQLIEGHQWLERNLGATPRSGWAVDPFGYSSTMPYLLRRAN LTSMLIQRVHYAIKKHFAATHSLEFMWRQTWDSDSSTDIFCHMMPFYSYDVPHTCGPDPK ICCQFDFKRLPGGRINCPWKVPPRAITEANVAERAALLLDQYRKKSQLFRSNVLLVPLGD DFRYDKPQEWDAQFFNYQRLFDFFNSRPNLHVQAQFGTLSDYFDALYKRTGVEPGARPPG FPVLSGDFFSYADREDHYWTGYYTSRPFYKSLDRVLEAHLRGAEVLYSLAAAHARRSGLA GRYPLSDFTLLTEARRTLGLFQHHDAITGTAKEAVVVDYGVRLLRSLVNLKQVIIHAAHY LVLGDKETYHFDPEAPFLQVVGWEEAEPMMVLPFRLTEFQDDTRLSHDALPERTVIQLDS SPRFVVLFNPLEQERFSMVSLLVNSPRVRVLSEEGQPLAVQISAHWSSATEAVPDVYQVS VPVRLPALGLGVLQLQLGLDGHRTLPSSVRIYLHGRQLSVSRHEAFPLRVIDSGTSDFAL SNRYMQVWFSGLTGLLKSIRRVDEEHEQQVDMQVLVYGTRTSKDKSGAYLFLPDGEAKPY VPKEPPVLRVTEGPFFSEVVAYYEHIHQAVRLYNLPGVEGLSLDISSLVDIRDYVNKELA LHIHTDIDSQGIFFTDLNGFQVQPRRYLKKLPLQANFYPMPVMAYIQDAQKRLTLHTAQA LGVSSLKDGQLEVILDRRLMQDDNRGLGQGLKDNKRTCNRFRLLLERRTVGSEVQDSHST SYPSLLSHLTSMYLNAPALALPVARMQLPGPGLRSFHPLASSLPCDFHLLNLRTLQAEHC LWAEALLHLRSLKALRPLPWALSVIQEDTLPSAETALILHRKGFDCGLEAKNLGFNCTTS QGKVALGSLFHGLDVVFLQPTSLTLLYPLASPSNSTDVYLEPMEIATFRLRLG >gi568815583f:90775741_90981875|GENSCAN_predicted_CDS_5|4302_bp atgcccagtaaaagggaaacagccaagaaaagtctgtgtcttgttcactcgctggcagga aacatagagcaggcacggaaaggaaagggactcgaggaatgcgctgtaccgacaggaggc agcacccctttgcccgaggggcgcaacgacagagacctaaggctacctgggccggagccg ggtgaggccgcggagaacgcaccccgctacgcgtctgccgagacggaggcgggcgtttcg accactgcccgatcatgcgcttactcaagtaggattccgaaaaaattcagtcgcgcgtcc ctcctgaggttccgcagctggccaggcccggcccgggctggtgcggctgcgcactgcagc ccagcggagcgggcccgggaggagccgggcggggaccgcggcggccagagctcctgtcag ctccgccgggcacacgcaggccggggcgggcggcgcggctgtccccgccccgcacgctgc tgggcccggcagcttcagaggctggcggacccgcgcggggccggcgcagcggagcgcgcc ggcggcccggggcccagcgggagcgcggcagcggcgcgcggagcagggggctacgggtgg gcgggcgcccgccttcgcctgcgtcgctgcctgcacgcgggccgccgtccccgggcgtgt gagagccggcagctcggccgactgggcccggagcggcgcggaggccgggcgctgacggta acgggccgggtgtgtgtggaggccagtatgaagctgaaaaagcaggtgacagtgtgtggg gctgccatcttctgtgtggcagtcttctcgctctacctcatgctggaccgagtgcaacac gatcccacccgacaccagaatggtgggaacttcccccggagccaaatttctgtgctgcag aaccgcattgagcagctggagcagcttttggaggagaaccatgagattatcagccatatc aaggactccgtgctggagctgacagccaacgcagagggcccgcccgccatgctgccctac tacacggtcaatggctcctgggtggtgccaccggagccccggcccagcttcttctccatc tccccgcaggactgccagtttgctttggggggccggggtcagaagccagagctgcagatg ctcactgtgtcggaggagctgccgtttgacaacgtggatggtggtgtgtggaggcaaggc ttcgacatctcctacgacccgcacgactgggatgctgaagacctgcaggtgtttgtggtg ccccactctcacaatgacccaggctggatcaagacctttgacaagtactacacagagcag acccaacacatcctcaatagcatggtgtctaagctgcaggaggacccccggcggcgcttc ctctgggcagaggtctccttcttcgccaagtggctggtgggaaacgggcagctggagatt gcgacaggaggctgggtgatgccagatgaggccaattcccactactttgcattgattgac cagctcatcgaaggacaccagtggctggagagaaatcttggtgcaaccccccgctctggc tgggcagtggacccctttggatacagctccaccatgccttacctgctgcgccgtgccaac ctcaccagcatgctgattcagagagtgcactatgccatcaagaagcactttgctgccacc cacagcctagagttcatgtggaggcagacatgggactcggactccagcacagacatcttc tgtcacatgatgcccttctacagctatgacgtcccccatacctgtggcccagatcccaag atctgctgccaatttgatttcaaacgcctgcctggtgggcgcatcaactgcccttggaag gtgccaccccgggccatcacagaggccaacgtggcagagagggcagccctgcttctggac caataccggaagaagtcccagctgttccgaagcaacgtcctcctggtgcctcttggagat gacttccgatatgacaagccccaggagtgggatgcccagttcttcaactaccaacggctc tttgacttcttcaacagcaggcctaacctccatgtgcaggcccagtttggcactctttct gactattttgatgccctgtacaagaggacaggggtggagccaggggcccggcctccaggg tttcctgtgctgagcggggatttcttctcctatgcggaccgggaggatcattactggaca ggctattacacttcccggcccttctacaagagcttagaccgagtcctggaagcccacctg cggggggcagaggttctgtacagcctggctgcagctcacgctcgccgctctggtctggct ggccggtacccactgtctgatttcaccctcctgacggaagctcggcgcacattggggctc ttccagcatcacgatgccatcactggcacggccaaggaggctgtggtggtggactatggg gtcaggcttctgcgctcccttgtcaacctgaagcaggtcatcattcatgcagcccactat ctggtgctgggggacaaggagacctaccactttgaccctgaggcgcccttcctccaagtg gtggggtgggaggaggctgagcccatgatggttcttcccttccggctcactgaattccag gatgacactcgcttaagtcacgacgccctcccagagcgcacggtgatccagctggattcc tcgcccaggtttgtggtcctattcaacccactggaacaggagcgattcagcatggtgtcc ctgctggtcaactctccccgcgtgcgtgtcctttcggaggagggtcagcccctggccgtg cagatcagcgcacactggagctctgccaccgaggcggtccctgacgtctaccaggtgtct gtgcctgtccgcctgccagccctgggcctgggcgtgctgcagctacagctgggcctggat gggcaccgcacgctgccctcctctgtgcgcatctacctgcacggccggcagctgtccgtc agcaggcacgaagcgtttcctctccgtgtcattgactctggcaccagcgacttcgccctc agcaaccgctacatgcaggtctggttctcaggccttactgggctcctcaagagcatccga agggtggatgaggagcacgagcagcaggtggacatgcaggtccttgtctatggcacccgt acgtccaaagacaagagtggagcctacctcttcctgcccgatggcgaggccaagccctac gtccccaaggagccccccgtgctgcgtgtcactgaaggccctttcttctcagaggtggtt gcgtactatgagcacattcaccaggcggtccggctttacaatctgccaggggtggagggg ctgtctctggacatatcatccctggtggacatccgggactacgtcaacaaggagctggcc ctgcacatccatacagacatcgacagccagggtatcttcttcacagacctcaatggcttt caggtgcagccccgacggtatctgaagaagctccccctccaggccaacttctaccccatg ccagtcatggcctatatccaggacgcacagaagcgcctcacgctgcacactgcccaggcc ctgggtgtctctagcctcaaagatggccagctggaggtgatcttggaccggcggctgatg caggatgacaaccggggcctaggccaagggctcaaggacaacaagagaacctgcaaccgt ttccgcctcctgctagagcggcgaaccgtgggcagtgaggtccaagatagccactctacc agctacccatccctcctcagccacctgacctccatgtacctgaacgccccggcgctcgct ctgcctgtagccaggatgcagctcccaggccctggtctgcgctcatttcatcctctggct tcctcactgccctgtgacttccacctgctcaacctacgtacgctccaggctgagcactgc ctctgggcagaggcgctgctgcatctccgatctctgaaagccctgcgcccacttccctgg gcactgtctgtcatccaggaggacaccctaccctcggcggagaccgcactcatcttacac cgcaagggttttgactgcggcctggaggccaagaacttgggcttcaactgcaccacaagc caaggcaaggtagccctgggcagccttttccatggcctggatgtggtattccttcagcca acctccttgacgttactgtaccctctggcctccccgtccaacagcactgacgtctatttg gagcccatggagattgctacctttcgcctccgcttgggttag >gi568815583f:90775741_90981875|GENSCAN_predicted_peptide_6|179_aa MGSEAAQLLEAADFAARKHRQQRRKDPEGTPYINHPIGVARILTHEAGITDIVVLQAALL HDTVEDTDTTLDEVELHFGAQVRRLVEEVTDDKTLPKLERKRLQVEQAPHSSPGAKLVKL ADKLYNLRDLNRCTPEGWSEHRVQEYFEWAAQVVKGLQGTNRQLEEALKHLFKQRGLTI >gi568815583f:90775741_90981875|GENSCAN_predicted_CDS_6|540_bp atgggctctgaggcggcgcagctgctggaggctgccgacttcgcggctcgcaagcaccgg cagcagcggcggaaggaccccgaggggaccccctacatcaaccaccccatcggtgtggca cggatcctgacccacgaggcgggaatcactgacattgtggtgttacaggcggccctgctc catgacacggtggaggacacagacaccaccctggatgaggtggagctacactttggggca caagtgcggcgcctggtggaggaggtaacagatgacaagactctgcccaagctggagaga aagaggctgcaggtggagcaagcgccccacagtagccccggggccaaactggtgaagctg gcagacaagctgtacaatctgagggacctgaatcgctgcaccccagagggatggtcagaa catcgagtccaggaatacttcgagtgggcagcgcaggtggtgaaggggcttcagggaaca aaccggcaactggaagaggctctaaagcatctgttcaagcagcgggggctgacaatctga >gi568815583f:90775741_90981875|GENSCAN_predicted_peptide_7|1471_aa MGIQRRSGPLLTGLSVGLLLLFSWVTLVQPTSLSALVHHPHLCQTTRDVHGRHYPGFFCP RLSDSPEEAYCCHLQAAGGSCCTRAEFEALYQVNLSALPPPPILRGPGPLLVLGLYNLLV VTLMTVDLVHFCCGRGRSLGWSHRRPPSGSSAASSLQASSVEQLRKEGNELFKCGDYGGA LAAYTQALGLDATPQDQAVLHRNRAACHLKLEDYDKAETEASKAIEKDGGDVKALYRRSQ ALEKLGRLDQAVLDLQRCVSLEPKNKVFQEALRNIGGQIQEKVRYMSSTDAKVEQMFQIL LDPEEKGTEKKQKASQNLVVLAREDAGAEKIFRSNGVQLLQRLLDMGETDLMLAALRTLV GICSEHQSRTVATLSILGTRRVVSILGVESQAVSLAACHLLQVMFDALKEGVKKGFRGKE GAIIVDPARELKVLISNLLDLLTEVGVSGQGRDNALTLLIKAVPRKSLKDPNNSLTLWVI DQGLKKILEVGGSLQDPPGELAVTANSRMSASILLSKLFDDLKCDAERENFHRLCENYIK SWFEGQGLAGKLRAIQTVSCLLQGPCDAGNRALELSGVMESVIALCASEQEEEQLVAVEA LIHAAGKAKRASFITANGVSLLKDLYKCSEKDSIRIRALVGLCKLGSAGGTDFSMKQFAE GSTLKLAKQCRKWLCNDQIDAGTRRWAVEGLAYLTFDADVKEEFVEDAAALKALFQLSRL EERSVLFAVASALVNCTNSYDYEEPDPKMVELAKYAKQHVPEQHPKDKPSFVRARVKKLL AAGVVSAMVCMVKTESPVLTSSCRELLSRVFLALVEEVEDRGTVVAQGGGRALIPLALEG TDVGQTKAAQALAKLTITSNPEMTFPGERIYEVVRPLVSLLHLNCSGLQNFEALMALTNL AGISERLRQKILKEKAVPMIEGYMFEEHEMIRRAATECMCNLAMSKEVQDLFEAQGNDRL KLLVLYSGEDDELLQRAAAGGLAMLTSMRPTLCSRIPQVTTHWLEILQALLLSSNQELQH RGAVVVLNMVEASREIASTLMESEMMEILSVLAKGDHSPVTRAAAACLDKAVEYGLIQPN QDGDQAAAGRGRCSGMAEERPGAWFGFGFCGFGQELGSGRGRQVHSPSPLRAGVDICRVS ASWSYTAFVTRGGRLELSGSASGAAGRCKDAWASEGLLAVLRAGPGPEALLQVWAAESAL RGEPLWAQNVVPEAEGEDDPAGEAQAGRLPLLPCARAYVSPRAPFYRPLAPELRARQLEL GAEHALLLDAAGQVFSWGGGRHGQLGHGTLEAELEPRLLEALQGLVMAEVAAGGWHSVCV SETGDIYIWGWNESGQLALPTRNLAEDGETVAREATELNEDGSQVKRTGGAEDGAPAPFI AVQPFPALLDLPMGSDAVKASCGSRHTAVVTRTGELYTWGWGKYGQLGHEDTTSLDRPRR VEYFVDKQLQVKAVTCGPWNTYVYAVEKGKS >gi568815583f:90775741_90981875|GENSCAN_predicted_CDS_7|4416_bp atgggcatccagagaaggtcaggccccttgctgacaggcctatctgtggggctactgctg ctcttcagctgggtgacccttgtccagccaacctctctctcagctctggtccaccaccct cacttgtgccagaccacccgggatgtccatggccgtcactaccctggtttcttttgccct cgtctgtctgattctccagaggaagcctactgctgccacctgcaggctgcagggggctcc tgctgcacccgggctgaatttgaggccctgtaccaagtcaatctgtccgctcttccgccc ccgcccatcctcaggggcccaggcccgctcctagtgctgggcctctacaacctactggtt gtgaccctgatgaccgtagacctcgtgcacttctgctgcggtcggggccggagtctgggc tggagccaccgcaggcctccctctgggtcctccgccgcgagctccctgcaggccagctca gtggagcagctgcggaaggagggcaatgagctgttcaaatgtggagactacgggggcgcc ctggcggcctacactcaggccctgggtctggacgcgacgccccaggaccaggccgttctg caccggaaccgggccgcctgccacctcaagctggaagattacgacaaagcagaaacagag gcatccaaagccattgaaaaggatggtggggatgtcaaagcactctaccggcggagccaa gccctagagaagctgggccgcctggaccaggctgtccttgacctgcagagatgtgtgagc ttggagcccaagaacaaagttttccaggaggccttgcggaacatcgggggccagattcag gagaaggtgcgatacatgtcctcgacggatgccaaagtggaacagatgtttcagatactg ttggacccagaagagaagggcactgagaaaaagcaaaaggcttctcagaacctggtggtg ctggccagggaggatgctggagcggagaagatcttccggagtaatggggttcagctcttg caacgtttactggacatgggagagactgacctcatgctggcggctctgcgtacgctggtt ggcatttgctctgagcatcagtcacggacagtggcaaccctgagcatactgggaactcgg cgagtagtctccatcctgggcgtggaaagccaggctgtgtccctggctgcctgccacctg ctgcaggttatgtttgatgccctcaaggaaggtgtcaaaaaaggcttccgaggcaaagaa ggtgccatcattgtggatcctgcccgggagctgaaggtcctcatcagtaacctcttagat ctgctgacagaggtgggggtctctggccaaggccgagacaatgccctgaccctcctgatt aaagcggtgccccggaagtctctcaaggaccccaacaacagcctcaccctctgggtcatc gaccaaggtctgaaaaagattttggaagtggggggctctctacaggaccctcctggggag ctcgcagtgaccgcaaacagccgcatgagcgcctctattctcctcagcaagctctttgat gacctcaagtgtgatgcggagagggagaatttccacagactttgtgaaaactacatcaag agctggtttgagggccaagggctggccgggaagctacgggccatccagacggtgtcctgc ctcctgcagggcccatgtgacgctggcaaccgggccttggagctgagcggtgtcatggag agtgtgattgctctgtgtgcctctgagcaggaggaggagcagctggtggccgtggaggct ctgatccatgcagccggcaaggctaagcgggcctcattcatcactgccaatggtgtctcg ctgctgaaggacctatataagtgcagcgagaaggacagcatccgcatccgggcgctagtg ggactctgtaagctcggttcggctggagggactgacttcagcatgaagcagtttgctgaa ggctccactctcaaactggctaagcagtgtcgaaagtggctgtgcaatgaccagatcgac gcaggcactcggcgctgggcagtggagggcctggcttacctgacctttgatgccgacgtg aaggaagagtttgtggaggatgcggctgctctgaaagctctgttccagctcagcaggttg gaggagaggtcagtgctctttgcggtggcctcagcgctggtgaactgcaccaacagctat gactacgaggagcccgaccccaagatggtggagctggccaagtatgccaagcagcatgtg cccgagcagcaccccaaggacaagccaagcttcgtgcgggctcgggtgaagaagctgctg gcagcgggtgtggtgtcggccatggtgtgcatggtgaagacggagagccctgtgctgacc agttcctgcagagagctgctctccagggtcttcttggctttagtggaagaggtagaggac cgaggcactgtggttgcccagggaggcggcagggcgctgatcccgctggccctggaaggc acggacgtggggcagacaaaggcagcccaggcccttgccaagctcaccatcacctccaac ccggagatgaccttccctggcgagcggatctatgaggtggtccggcccctcgtctccctg ttgcacctcaactgctcaggcctgcagaacttcgaggcgctcatggccctaacaaacctg gctgggatcagcgagaggctccggcagaagatcctgaaggagaaggctgtgcccatgata gaaggctacatgtttgaggagcatgagatgatccgccgggcagccacggagtgcatgtgt aacttggccatgagcaaggaggtgcaggacctcttcgaagcccagggcaatgaccgactg aagctgctggtgctgtacagtggagaggatgatgagctgctacagcgggcagctgccggg ggcttggccatgcttacctccatgcggcccacgctctgcagccgcattccccaagtgacc acacactggctggagatcctgcaggccctgcttctgagctccaaccaggagctgcagcac cggggtgctgtggtggtgctgaacatggtggaggcctcgagggagattgccagcaccctg atggagagtgagatgatggagatcttgtcagtgctagctaagggtgaccacagccctgtc acaagggctgctgcagcctgcctggacaaagcagtggaatatgggcttatccaacccaac caagatggagaccaggcggcggccggcagagggcgctgctcgggcatggcggaggagcgg ccgggggcctggttcggcttcggtttctgcggcttcgggcaggagctgggctccggacgc gggcgccaggtgcacagccccagtccgctgcgggcgggcgtcgacatctgccgcgtgagc gcgagctggagctacaccgctttcgtgacccgtggaggccgcttggagctgtcgggctca gccagcggcgcggcgggccgctgcaaggacgcgtgggcctcggaggggctcctcgcggtg ctgcgcgccgggccggggccggaggcgttactgcaggtctgggcggccgaatcggcgctg cgtggggagccattgtgggcccagaatgtggtgcccgaggccgaaggggaagacgatccg gccggtgaggcccaggctgggaggctacccctgctgccctgcgcccgtgcctacgtgagc ccgcgggcgcccttctaccggcctctggctccggagctgcgggcacgccagctggagctg ggcgccgagcacgcgttgctgctggacgctgctggccaggtgttctcctggggcgggggc aggcatggacagctgggccatgggaccctggaggcagagctggagccacggctgttggag gcgttgcagggcctagtcatggctgaggtggccgcggggggctggcattctgtgtgtgtg agtgagactggggatatttatatctggggctggaatgaatcagggcagctggccctgccc accaggaacctggcagaggatggagagactgtcgcaagggaagccacagaactgaatgaa gatggttctcaggtgaagagaacgggtggggctgaggatggagcccctgcccccttcata gctgtccagcccttcccggcattactggatctccccatgggctcagatgcagtcaaggcc agctgtggatcccggcacacagctgtggtgacacgaacaggggagctctacacctggggc tggggtaaatatggacagctgggccacgaggacaccaccagcttggatcggcctcgccgt gtggaatactttgtagataagcaactccaagtaaaggctgtcacctgtgggccgtggaac acctacgtgtatgctgtggagaaagggaagagctga >gi568815583f:90775741_90981875|GENSCAN_predicted_peptide_8|439_aa ASRREEFVSIKRQIILCMEALDHTPDTSFERDVVCEDEDAFCLSLENIATLQKLLRQLEM QKSQNEAVCEGLRTQIRELWDRLQIPEEEREAVATIMSGSKAKVRKALQLEVDRLEELKM QNMKKVIEAIRVELVQYWDQCFYSQEQRQAFAPFCAEDYTESLLQLHDAEIVRLKNYYEV HKELFEGVQKWEETWRLFLEFERKASDPNRFTNRGGNLLKEEKQRAKLQKMLPKLEEELK ARIELWEQEHSKAFMVNGQKFMEYVAEQWEMHRLEKERAKQERQLKNKKQTETEMLYGSA PRTPSKRRGLAPNTPGKARKLNTTTMSNATANSSIRPIFGGTVYHSPVSRLPPSGSKPVA ASTCSGKKTPRTGRHGANKENLELNGSILSGGYPGSAPLQRNFSINSVASTYSEFARELS KASKSDATSGILNSTNIQS >gi568815583f:90775741_90981875|GENSCAN_predicted_CDS_8|1320_bp gcttctaggcgtgaggagtttgtcagtataaagagacagatcatactgtgtatggaagca ttagaccacaccccagacacaagctttgaaagagatgtggtgtgtgaagacgaagatgcc ttttgtttgtctttggagaatattgcaacactacaaaagttgctacggcagctggaaatg cagaaatcacaaaatgaagcagtgtgtgaggggctgcgtactcaaatccgagagctctgg gacaggttgcaaatacctgaagaagaaagagaagctgtggccaccattatgtctgggtca aaggccaaggtccggaaagcgctgcaattagaagtggatcggttggaagaactgaaaatg caaaacatgaagaaagtgattgaggcaattcgagtggagctggttcagtactgggaccag tgcttttatagccaggagcagagacaagcttttgcccctttctgtgctgaggactacaca gaaagtctgctccagctccacgatgctgagattgtgcggttaaaaaactactatgaagtt cacaaggaactctttgaaggtgtccagaagtgggaagaaacctggaggcttttcttagag tttgagagaaaagcttcagatccaaatcgatttacaaaccgaggaggaaatcttctaaaa gaagaaaaacaacgagccaagctccagaaaatgctgcccaagctggaagaagagttgaag gcacgaattgaattgtgggaacaggaacattcaaaggcatttatggtgaatgggcagaaa ttcatggagtatgtggcagaacaatgggagatgcatcgattggagaaagagagagccaag caggaaagacaactgaagaacaaaaaacagacagagacagagatgctgtatggcagcgct cctcgaacacctagcaagcggcgaggactggctcccaatacaccgggcaaagcacgtaag ctgaacactaccaccatgtccaatgctacggccaatagtagcattcggcctatctttgga gggacagtctaccactcccccgtgtctcgacttcctccttctggcagcaagccagtcgct gcttccacctgttcagggaagaaaacaccccgtactggcaggcatggagccaacaaggag aacctggagctcaacggcagcatcctgagtggtgggtaccctggctcggcccccctccag cgcaacttcagcattaattctgttgccagcacctattctgagtttgcgcgagaactttca aaggcttccaaatctgatgctacttctggaatcctcaattcaaccaacatccagtcctga