GENSCAN 1.0 Date run: 3-Nov-116 Time: 13:55:15 Sequence gi568815584f:73048020_73319286 : 271267 bp : 44.19% 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 Init + 8274 8360 87 2 0 95 97 8 0.526 3.04 1.02 Intr + 10496 10686 191 1 2 63 100 51 0.423 2.18 1.03 Intr + 12837 12859 23 0 2 115 94 -15 0.226 -1.01 1.04 Intr + 20400 20561 162 1 0 97 28 81 0.175 2.95 1.05 Intr + 23608 23728 121 2 1 106 111 -52 0.125 -1.55 1.06 Intr + 28300 28349 50 1 2 91 93 58 0.503 4.92 1.07 Intr + 39982 40142 161 2 2 55 63 120 0.281 5.91 1.08 Intr + 48896 49081 186 1 0 59 52 223 0.997 15.69 1.09 Intr + 51361 51414 54 0 0 43 96 47 0.529 0.18 1.10 Intr + 51648 51731 84 2 0 102 62 52 0.939 4.02 1.11 Intr + 55173 55459 287 2 2 85 116 407 0.963 39.34 1.12 Intr + 57840 58062 223 0 1 19 107 285 0.962 21.63 1.13 Intr + 58177 58266 90 0 0 52 95 81 0.952 5.39 1.14 Intr + 59807 59880 74 1 2 78 103 105 0.985 9.20 1.15 Intr + 61323 61473 151 0 1 63 90 123 0.995 10.16 1.16 Intr + 62812 63136 325 0 1 57 79 219 0.989 13.25 1.17 Intr + 63509 63783 275 0 2 31 65 259 0.978 15.16 1.18 Intr + 64133 64231 99 1 0 111 96 -2 0.902 3.21 1.19 Intr + 66267 66314 48 2 0 115 115 10 0.969 5.28 1.20 Term + 71694 71786 93 2 0 122 41 57 0.931 2.23 1.21 PlyA + 72764 72769 6 1.05 2.00 Prom + 76258 76297 40 -2.26 2.01 Init + 88418 88564 147 1 0 78 35 173 0.022 9.09 2.02 Intr + 92896 92911 16 0 1 103 85 0 0.011 -3.68 2.03 Intr + 99948 100087 140 1 2 103 92 97 0.117 11.78 2.04 Intr + 122778 123028 251 2 2 91 49 250 0.775 17.64 2.05 Intr + 125547 125688 142 0 1 77 105 101 0.948 11.06 2.06 Intr + 131237 131321 85 1 1 51 41 111 0.732 2.09 2.07 Intr + 150012 150110 99 1 0 92 95 0 0.207 1.18 2.08 Intr + 158367 158457 91 1 1 81 61 46 0.128 0.25 2.09 Intr + 160805 160896 92 2 2 73 115 33 0.555 4.14 2.10 Intr + 163750 163923 174 2 0 30 53 96 0.247 0.21 2.11 Intr + 169107 169225 119 1 2 112 87 23 0.791 4.78 2.12 Intr + 171485 171643 159 1 0 42 50 129 0.385 4.68 2.13 Term + 173051 173098 48 1 0 72 39 43 0.138 -4.90 2.14 PlyA + 173920 173925 6 1.05 3.00 Prom + 176022 176061 40 -3.26 3.01 Init + 191760 191813 54 2 0 72 109 193 0.902 19.09 3.02 Intr + 196625 196740 116 1 2 110 75 70 0.978 7.15 3.03 Intr + 197617 197677 61 1 1 86 88 10 0.926 -0.46 3.04 Intr + 198054 198156 103 2 1 108 89 161 0.978 17.95 3.05 Intr + 201965 202095 131 0 2 89 100 170 0.998 18.71 3.06 Intr + 202888 203011 124 0 1 118 59 148 0.991 15.06 3.07 Intr + 203467 203547 81 2 0 105 72 173 0.994 17.01 3.08 Intr + 203645 203817 173 0 2 91 84 314 0.988 30.96 3.09 Intr + 203999 204122 124 1 1 36 64 118 0.991 4.36 3.10 Intr + 204630 204756 127 1 1 70 81 186 0.990 15.84 3.11 Intr + 205735 205942 208 1 1 81 55 104 0.618 5.48 3.12 Intr + 206494 206676 183 0 0 67 75 42 0.543 0.78 3.13 Intr + 206858 206999 142 1 1 64 86 85 0.933 5.83 3.14 Intr + 210960 211040 81 1 0 78 94 42 0.322 3.41 3.15 Intr + 211381 211526 146 2 2 76 94 30 0.581 2.40 3.16 Intr + 213137 213275 139 1 1 101 101 96 0.607 12.24 3.17 Intr + 214331 214808 478 0 1 86 94 199 0.836 12.41 3.18 Intr + 215626 215763 138 1 0 74 94 88 0.758 7.58 3.19 Intr + 216192 216341 150 0 0 49 43 165 0.752 7.38 3.20 Intr + 216537 216707 171 0 0 116 110 16 0.884 5.66 3.21 Intr + 217351 217488 138 1 0 85 15 145 0.983 6.48 3.22 Intr + 218482 218609 128 1 2 54 38 153 0.991 7.22 3.23 Intr + 218704 218812 109 2 1 74 103 22 0.912 1.64 3.24 Intr + 220538 220704 167 2 2 119 91 218 0.979 24.80 3.25 Term + 224476 224645 170 2 2 121 50 93 0.991 6.84 3.26 PlyA + 226583 226588 6 1.05 4.08 PlyA - 227216 227211 6 1.05 4.07 Term - 229274 228559 716 0 2 91 47 265 0.542 16.36 4.06 Intr - 231405 231262 144 1 0 94 90 68 0.881 7.85 4.05 Intr - 234486 234340 147 1 0 81 81 100 0.806 8.81 4.04 Intr - 239295 239091 205 0 1 69 82 192 0.956 15.47 4.03 Intr - 244855 244715 141 1 0 102 79 100 0.983 11.05 4.02 Intr - 249266 249192 75 2 0 68 116 43 0.923 4.81 4.01 Intr - 268403 268371 33 2 0 116 106 41 0.799 7.12 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Sngl + 88418 88672 255 1 0 78 42 223 0.929 9.81 S.002 Init + 122554 122574 21 0 0 70 98 17 0.858 0.62 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815584f:73048020_73319286|GENSCAN_predicted_peptide_1|927_aa MVSFKKCGGFITKGKGNGCCMNISNKLSKCTPGKRKTSISSPRSAAVFAACASRRLGTQS PWRATGRNLEPVERTRNLDPRRSRRQYRFLSGGFLLKCFARSETYSDYQLYYQEGTNPSF DVLSVCRMLYFQIPLVVLTLDDQFFGTDVLLPVYDCCSKNVFSTSFESPSHGNPSTPTRD PTPAVSRISSTCTSRDPNDSCTNEHYGSCSNSFGFCEYKEPESTLRALRLLHDLQIGEKK LLVKVDAKTKAQLDEWKAKKKASNGNARPETVTNDDEEALDEETKRRDQMIKGAIEVLIR EYSSELNAPSQESDSHPRKKKKEKKEDIFRRFPVAPLIPYPLITKEDINAIEMEEDKRDL ISREISKFRDTHKKLEEEKGKKEKERQEIEKERRERERERERERERRERERERERERERE KEKERERERERDRDRDRTKERDRDRDRERDRDRDRERSSDRNKDRSRSREKSRDRERERE REREREREREREREREREREREREREREREKDKKRDREEDEEDAYERRKLERKLREKEAA YQERLKNWEIRERKKTREYEKEAEREEERRREMAKEAKRLKEFLEDYDDDRDDPKYYRGS ALQKRLRDREKEMEADERDRKREKEELEEIRQRLLAEGHPDPDAELQRMEQEAERRRQPQ IKQEPESEEEEEEKQEKEEKREEPMEEEEEPEQKPCLKPTLRPISSAPSVSSASGNATPN TPGDESPCGIIIPHENSPDQQQPEEHRPKIGLSLKLGASNSPGQPNSVKRKKLPVDSVFN KFEDEDSDDVPRKRKLVPLDYGEDDKNATKGTVNTEEKRKHIKSLIEKIPTAKPELFAYP LDWSIVDSILMERRIRPWINKKIIEYIGEEEATLVDFVCSKVMAHSSPQSILDDVAMVLD EEAEVFIVKMWRLLIYETEAKKIGLVK >gi568815584f:73048020_73319286|GENSCAN_predicted_CDS_1|2784_bp atggtttcttttaaaaaatgtggagggttcattactaaaggcaaggggaatggatgctgc atgaacatcagcaacaaattgtctaagtgcacgccgggcaagaggaagacctccatcagc tcgccgcgcagcgcggctgtatttgcggcctgtgcgagtaggcgcttgggcactcagtct ccctggcgagcgacgggcagaaatctcgaaccagtggagcgcactcgtaacctggatccc agaaggtcgcgaaggcagtaccgtttcctcagcggcgggtttcttctgaaatgttttgct agatctgagacttattcagactaccagctgtattatcaggaaggaacaaatccaagtttt gacgtattgtcagtgtgccgcatgttgtattttcaaattcctttagtggttttaacatta gatgaccaattctttggcactgatgtgcttttgccagtgtacgactgctgcagtaagaat gtcttttccacctcatttgaatcgccctcccatgggaatcccagcactcccaccagggat cccacccccgcagtttccaggatttcctccacctgtacctccagggaccccaatgattcc tgtaccaatgagcattatggctcctgctccaactccttcggattctgtgagtacaaggag ccagaatctaccctccgtgcactcagattattacatgacctgcaaattggagagaaaaag ctactcgttaaagttgatgcaaagacaaaggcacagctggatgaatggaaagcaaagaag aaagcttctaatgggaatgcaaggccagaaactgtcactaatgacgatgaagaagccttg gatgaagaaacaaagaggagagatcagatgattaaaggggctattgaagttttaattcgt gaatactccagtgagctaaatgccccctcacaggaatctgattctcaccccaggaagaag aagaaggaaaagaaggaggacattttccgcagatttccagtggccccactgatcccttat ccactcatcactaaggaggatataaatgctatagaaatggaagaagacaaaagagacctg atatctcgagagatcagcaaattcagagacacacataagaaactggaagaagagaaaggc aaaaaggaaaaagaaagacaggaaattgagaaagaacggagagaaagagagagggagcgt gaaagggaacgagaaaggcgagaacgggaacgagaaagggaaagagaacgtgaacgagaa aaggagaaagaacgggagcgggaacgagaacgggatagggaccgtgaccggacaaaagag agagaccgagatcgggatcgagagagagatcgtgaccgggatagagaaaggagctcagat cgtaataaggatcgcagtcgatcaagagaaaaaagcagagatcgtgaaagggaacgagag cgggaaagagagagagagagagaacgagagcgagaacgagaacgggagcgagagagagag cgagagagggaacgggagcgagaaagagaaaaagacaaaaaacgggaccgagaagaagat gaagaagatgcatacgaacgaagaaaacttgaaagaaaactccgagagaaagaagctgct tatcaagagcgccttaagaattgggaaatcagagaacgaaagaaaacccgggaatatgag aaagaagctgaaagagaagaagaaagaagaagagaaatggccaaagaagctaaacgacta aaagaattcttagaagactatgatgatgatagagatgaccccaaatattacagaggaagt gctcttcagaaaaggttgcgtgatagagaaaaggaaatggaagcagatgaacgagatagg aagagagagaaggaggagcttgaggaaatcaggcagcgccttctggcagaagggcatcca gatccagatgcagagctccagaggatggaacaagaggctgagaggcgcaggcagccacaa ataaagcaagagccagaatcagaagaggaggaagaagaaaagcaagaaaaagaagaaaaa cgagaagaacccatggaagaggaagaggagccagagcaaaagccttgtctgaaacctact ctgaggcccatcagctctgctccatctgtttcctctgccagtggcaatgcaacacctaac actcctggggatgagtctccctgtggtattattattcctcatgaaaactcaccagatcaa cagcaacctgaggagcataggccaaaaataggactaagtcttaaactgggtgcttccaat agtcctggtcagcctaattctgtgaagagaaagaaactacctgtagatagtgtctttaac aaatttgaggatgaagacagtgatgacgtaccccgaaaaaggaaactggttcccttggat tatggtgaagatgataaaaatgcaaccaaaggcactgtaaacactgaagaaaagcgtaaa cacattaagagtctcattgagaaaatccctacagccaaacctgagctcttcgcttatccc ctggattggtctattgtggattctatactgatggaacgtcgaattagaccatggattaat aagaaaatcatagaatatataggtgaagaagaagctacattagttgattttgtttgttct aaggttatggctcatagttcaccccagagcattttagatgatgttgccatggtacttgat gaagaagcagaagtttttatagtcaaaatgtggagattattgatatatgaaacagaagcc aagaaaattggtcttgtgaagtaa >gi568815584f:73048020_73319286|GENSCAN_predicted_peptide_2|520_aa MTTTVRVLGRGLGQAAPGSAVSHRKQNSGWSGRNLSYEPRRQRGGGEAYVDVWIEPQEAL FSVKQYFYTVAPMTELPAPLSYFQNAQMSEDNHLSNTVRSQNDNRERQEHNDRRSLGHPE PLSNGRPQGNSRQVVEQDEEEDEELTLKYGAKHVIMLFVPVTLCMVVVVATIKSVSFYTR KDGQLIYTPFTEDTETVGQRALHSILNAAIMISVIVVMTILLVVLYKYRCYKASATHITI TTGLCEDWAYENGEKRKRMPDLVAVLCPKGPLRMLVETAQERNETLFPALIYSSTMVWLV NMAEGDPEAQRRVSKNSKYNAESRSLSASCCHQPAVYSSHGTQAVHAKGCLQAHGTERES QDTVAENDDGGFSEEWEAQRDSHLGPHRSTPESRAAVQELSSSILAGEDPEERGVKLGLG DFIFYSVLVGKASATASGDWNTTIACFVAILIWTVSLGAETTRFEGRGQGDMIGPEVAVP HQQLDAWSQDDFTDTANSQDYRYQEDISYKNLTSRVVCEY >gi568815584f:73048020_73319286|GENSCAN_predicted_CDS_2|1563_bp atgacgacaacggtgagggttctcgggcggggcctgggacaggcagctccggggtccgcg gtttcacatcggaaacaaaacagcggctggtctggaaggaacctgagctacgagccgcgg cggcagcggggcggcggggaagcgtatgtagatgtgtggatcgaacctcaagaggctttg ttttctgtgaaacagtatttctatacagttgctccaatgacagagttacctgcaccgttg tcctacttccagaatgcacagatgtctgaggacaaccacctgagcaatactgtacgtagc cagaatgacaatagagaacggcaggagcacaacgacagacggagccttggccaccctgag ccattatctaatggacgaccccagggtaactcccggcaggtggtggagcaagatgaggaa gaagatgaggagctgacattgaaatatggcgccaagcatgtgatcatgctctttgtccct gtgactctctgcatggtggtggtcgtggctaccattaagtcagtcagcttttatacccgg aaggatgggcagctaatctataccccattcacagaagataccgagactgtgggccagaga gccctgcactcaattctgaatgctgccatcatgatcagtgtcattgttgtcatgactatc ctcctggtggttctgtataaatacaggtgctataaggcttctgccacccacattaccatc accacaggattgtgtgaggactgggcatacgagaatggagaaaagcggaaaagaatgccg gatttagtggctgttttgtgtccgaaaggtccacttcgtatgctggttgaaacagctcag gagagaaatgaaacgctttttccagctctcatttactcctcaacaatggtgtggttggtg aatatggcagaaggagacccggaagctcaaaggagagtatccaaaaattccaagtataat gcagaaagtaggagcctgtctgcctcctgctgccatcaacctgctgtctatagctcccat ggcacccaggctgttcatgccaaagggtgcctgcaggcccacggcacagaaagggagtca caagacactgttgcagagaatgatgatggcgggttcagtgaggaatgggaagcccagagg gacagtcatctagggcctcatcgctctacacctgagtcacgagctgctgtccaggaactt tccagcagtatcctcgctggtgaagacccagaggaaaggggagtaaaacttggattggga gatttcattttctacagtgttctggttggtaaagcctcagcaacagccagtggagactgg aacacaaccatagcctgtttcgtagccatattaatttggactgtgtccctcggtgcagaa actaccagatttgagggacgaggtcaaggagatatgataggcccggaagttgctgtgccc catcagcagcttgacgcgtggtcacaggacgatttcactgacactgcgaactctcaggac taccgttaccaagaggatatttcttataagaacctaacttcaagagtagtgtgcgagtac tga >gi568815584f:73048020_73319286|GENSCAN_predicted_peptide_3|1213_aa MRLLLLVPLLLAPAPGSSAPKVRRQSDTWGPWSQWSPCSRTCGGGVSFRERPCYSQRRDG GSSCVGPARSHRSCRTESCPDGARDFRAEQCAEFDGAEFQGRRYRWLPYYSAPNKCELNC IPKGENFYYKHREAVVDGTPCEPGKRDVCVDGSCRVVGCDHELDSSKQEDKCLRCGGDGT TCYPVAGTFDANDLSRGYNQILIVPMGATSILIDEAAASRNFLAVKNVRGEYYLNGHWTI EAARALPAASTILHYERGAEGDLAPERLHARGPTSEPLVIELISQEPNPGVHYEYHLPLR RPSPGFSWSHGSWSDCSAECGGGHQSRLVFCTIDHEAYPDHMCQRQPRPADRRSCNLHPC PETKRWKAGPWAPCSASCGGGSQSRSVYCISSDGAGIQEAVEEAECAGLPGKPPAIQACN LQRCAAWSPEPWGECSVSCGVGVRKRSVTCRGERGSLLHTAACSLEDRPPLTEPCVHEDC PLLSDQAWHVGTWGLCSKSCSSGTRRRQVICAIGPPSHCGSLQHSKPVDVEPCNTQPCHL PQEVPSMQDVHTPASNPWMPLGPQESPASAAPIPATPAVGLRAPRLQTQSSRVLPRWPHG ISRASVARLPWGPLSAEQVHNTHQPQAQQNEPSECRGSQFGCCYDNVATAAGPLGEGCVG QPSHAYPVRCLLPSAHGSCADWAARWYFVASVGQCNRFWYGGCHGNANNFASEQECMSSC QGSLHGPRRPQPGASGRSTHTDGGGSSPAGEQEPSQHRTGAAVQRKPWPSGGLWRQDQQP GPGEAPHTQAFGEWPWGQELGSRAPGLGGDAGSPAPPFHSSSYRISLAGVEPSLVQAALG QLVRLSCSDDTAPESQAAWQKDGQPISSDRHRLQFDGSLIIHPLQAEDAGTYSCGSTRPG RDSQKIQLRIIGLCPHPIHHSHLVSPGLMTGGDMAVLSEAELSRFPQPRDPAQDFGQAGA AGPLGAIPSSHPQPANRLRLDQNQPRVVDASPGQRIRMTCRAEGFPPPAIEWQRDGQPVS SPRHQLQPDGSLVISRVAVEDGGFYTCVAFNGQDRDQRWVQLRVLGELTISGLPPTVTVP EGDTARLLCVVAGESVNIRWSRNGLPVQADGHRVHQSPDGTLLIYNLRARDEGSYTCSAY QGSQAVSRSTEVKVVSPAPTAQPRDPGRDCVDQPELANCDLILQAQLCGNEYYSSFCCAS CSRFQPHAQPIWQ >gi568815584f:73048020_73319286|GENSCAN_predicted_CDS_3|3642_bp atgcggctgctcctgctcgtgccgctgctgctggctccagcgcccgggtcctcggctccc aaggtgaggcggcagagtgacacctggggaccctggagccagtggagcccctgcagccgg acctgtggagggggtgtcagcttccgggagcgcccctgctactcccagaggagagatgga ggctccagctgcgtgggccccgcccggagccaccgctcttgtcgcacggagagctgcccc gacggcgcccgggacttccgggccgagcagtgcgcggagttcgacggagcggagttccag gggcggcggtatcggtggctgccctactacagcgccccaaacaagtgtgaactgaactgc attcccaagggggagaacttctactacaagcacagggaggctgtggttgatgggacgccc tgcgagcctggcaagagggatgtctgtgtggatggcagctgccgggttgtcggctgtgat cacgagctggactcgtccaagcaggaggacaagtgtctgcggtgtgggggtgacggcacg acctgctaccccgtcgcaggcacctttgacgctaatgacctcagccgaggctacaaccag atcctcatagttcccatgggtgccaccagcatcctcatcgacgaggctgctgccagcagg aacttcctggctgtgaagaatgttcgtggggaatactacctcaatgggcactggaccatc gaggcggcccgggccctgccagcagccagcaccatcctgcattacgagcggggtgctgag ggggacctggcccctgagcgactccatgcccggggccccacctcggagcccctggtcatc gagctcatcagccaggagcccaaccccggtgtgcactatgagtaccacctgcccctgcgc cgccccagccccggcttcagctggagccacggctcatggagtgactgcagcgcggagtgt ggcggaggtcaccagtcccgcctggtgttctgcaccatcgaccatgaggcctaccccgac cacatgtgccagcgccagccacggccagctgaccggcgttcctgcaatcttcacccttgc ccggagaccaagcgctggaaggcagggccatgggcaccctgctcagcctcctgtggagga ggctcccagtcccgctccgtgtactgcatctcgtctgacggggccggcatccaggaggcc gtggaggaggctgagtgtgccgggctgcctgggaagccccctgccattcaggcctgtaac ctgcagcgctgtgcagcctggagcccggagccctggggagagtgttctgtcagttgtggc gttggcgtccggaagcggagcgttacttgccggggtgaaaggggttctttgctccatacc gcagcgtgctccttggaagaccggccacctctgactgagccctgtgtgcatgaggactgc cccctcctcagtgaccaggcctggcatgttggcacctggggtctatgctccaagagctgc agctcgggcactcggaggcgacaggtcatctgtgccattgggccgcccagccactgcggg agcctgcagcactccaagcctgtggatgtggagccttgtaacacgcagccctgtcatctc ccccaggaggtccccagcatgcaggatgtgcacacccctgccagcaacccctggatgccg ttgggccctcaggagtcccctgcctcagcagcccccataccagcaacccctgcggtcggg ctcagggccccacgactgcagacacagtcctcacgggtgctgccccgatggccacacggc atctctcgggcctcagtggcaaggctgccctggggccccctgtcagcagagcaggtccac aacacccaccagccccaggcccagcagaatgagcccagtgagtgccggggctcccagttt ggctgttgctatgacaacgtggccactgcagccggtcctcttggggaaggctgtgtgggc cagcccagccatgcctaccccgtgcggtgcctgctgcccagtgcccatggctcttgcgca gactgggctgcccgctggtacttcgttgcctctgtgggccaatgtaaccgcttctggtat ggcggctgccatggcaatgccaataactttgcctcggagcaagagtgcatgagcagctgc cagggatctctccatgggccccgtcgtccccagcctggggcttctggaaggagcacccac acggatggtggcggcagcagtcctgcaggcgagcaggaacccagccagcacaggacaggg gccgcggtgcagagaaagccctggccttctggtggtctctggcggcaagaccaacagcct gggccaggggaggccccccacacccaggcctttggagaatggccatgggggcaggagctt gggtccagggcccctggactgggtggagatgccggatcaccagcgccacccttccacagc tcctcctacaggattagcttggcaggtgtggagccctcgttggtgcaggcagccctgggg cagttggtgcggctctcctgctcagacgacactgccccggaatcccaggctgcctggcag aaagatggccagcccatctcctctgacaggcacaggctgcagttcgacggatccctgatc atccaccccctgcaggcagaggacgcgggcacctacagctgtggcagcacccggccaggc cgcgactcccagaagatccaacttcgcatcataggtctctgtccccaccccatccaccac tcacaccttgtttctcctggcctcatgacagggggtgacatggccgtgctgtctgaggct gagctgagccgcttccctcagcccagggacccagctcaggactttggccaagcgggggct gctgggcccctgggggccatcccctcttcacacccacagcctgcaaacaggctgcgtttg gaccagaaccagccccgggtggtggatgccagtccaggccagcggatccggatgacctgc cgtgccgaaggcttcccgcccccagccatcgagtggcagagagatgggcagcctgtctct tctcccagacaccagctgcagcctgatggctccctggtcattagccgagtggctgtagaa gatggcggcttctacacctgtgtcgctttcaatgggcaggaccgagaccagcgatgggtc cagctcagagttctgggggagctgacaatctcaggactgccccctactgtgacagtgcca gagggtgatacggccaggctattgtgtgtggtagcaggagaaagtgtgaacatcaggtgg tccaggaacgggctacctgtgcaggctgatggccaccgtgtccaccagtccccagatggc acgctgctcatttacaacttgcgggccagggatgagggctcctacacgtgcagtgcctac caggggagccaggcagtcagccgcagcaccgaggtgaaggtggtctcaccagcacccacc gcccagcccagggaccctggcagggactgcgtcgaccagccagagctggccaactgtgat ttgatcctgcaggcccagctttgtggcaatgagtattactccagcttctgctgtgccagc tgttcacgtttccagcctcacgctcagcccatctggcagtag >gi568815584f:73048020_73319286|GENSCAN_predicted_peptide_4|486_aa ERKFFKGFFGKTGKKAVKAVLWVSADGLRVVDEKTKDLIVDQTIEKVSFCAPDRNFDRAF SYICRDGTTRRWICHCFMAVKDTGERLSHAVGCAFAACLERKQKREKECGVTATFDASRT TFTREGSFRVTTATEQAEREEIMKQMQDAKKVPEVEGEAESISSLCSQITNAFSTPEDPF SSAPMTKPVTVVAPQSPTFQANGTDSAFHVLAKPAHTALAPVAMPVRETNPWAHAPDAAN KEIAATCSGTEWGQSSGAASPGLFQAGHRRTPSEADRWLEEVSKSVRAQQPQASAAPLQP VLQPPPPTAISQPASPFQGNAFLTSQPVPVGVVPALQPAFVPAQSYPVANGMPYPAPNVP VVGITPSQMVANVFGTAGHPQAAHPHQSPSLVRQQTFPHYEASSATTSPFFKPPAQHLNG SAAFNGVDDGRLASADRHTEVPTGTCPVDPFEAQWAALENKSKQRTNPSPTNPFSSDLQK TFEIEL >gi568815584f:73048020_73319286|GENSCAN_predicted_CDS_4|1461_bp gaaaggaagttcttcaaaggcttctttggaaaaactggaaagaaagcagttaaagcagtt ctgtgggtctcagcagatggactcagagttgtggatgaaaaaactaaggacctcatagtt gaccagacgatagagaaagtttctttctgtgccccagacaggaactttgatagagccttt tcttacatatgccgtgatggcaccactcgtcgctggatctgtcactgcttcatggctgtc aaggacacaggtgaaaggttgagccatgcagtaggctgtgcttttgcagcctgtttagag cgcaagcagaagcgggagaaggaatgtggagtgactgctacttttgatgctagtcggacc acttttacaagagaaggatcattccgtgtcacaacagccactgaacaagcagaaagagag gagatcatgaaacaaatgcaagatgccaagaaagtgccagaagtagaaggggaggcagag agcatcagctccctgtgctcacagatcaccaatgccttcagcacacctgaggaccccttc tcatctgctccgatgaccaaaccagtgacagtggtggcaccacaatctcctaccttccaa gctaatggcactgactcagccttccatgtgcttgctaagccagcccatactgctctagca cccgtagcaatgcctgtgcgtgaaaccaacccttgggcccatgcccctgatgctgctaac aaggaaattgcagccacatgttcggggaccgagtggggtcaatcttctggtgctgcctct ccaggtctcttccaggccggtcatagacgtactccctctgaggccgaccgatggttagaa gaggtgtctaagagcgtccgggctcagcagccccaggcctcagctgctcctctgcagcca gttctccagcctcctccacccactgccatctcccagccagcatcacctttccaagggaat gcattcctcacctctcagcctgtgccagtgggtgtggtcccagccctgcaaccagccttt gtccctgcccagtcctatcctgtggccaatggaatgccctatccagcccctaatgtgcct gtggtgggcatcactccctcccagatggtggccaacgtatttggcactgcaggccaccct caggctgcccatccccatcagtcacccagcctggtcaggcagcagacattccctcactac gaggcaagcagtgctaccaccagtcccttctttaagcctcctgctcagcacctcaacggt tctgcagctttcaatggtgtagatgatggcaggttggcctcagcagacaggcatacagag gttcctacaggcacctgcccagtggatccttttgaagcccagtgggctgcattagaaaat aagtccaagcagcgtactaatccctcccctaccaaccctttctccagtgacttacagaag acgtttgaaattgaactttaa