GENSCAN 1.0 Date run: 3-Nov-116 Time: 20:56:23 Sequence gi568815597f:150387451_150607061 : 219611 bp : 46.13% 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 + 7574 7607 34 1 1 102 80 25 0.049 0.90 1.02 Intr + 22506 22655 150 1 0 33 89 56 0.098 0.33 1.03 Intr + 30146 30275 130 0 1 98 100 68 0.480 8.75 1.04 Intr + 53473 53573 101 1 2 101 80 -6 0.085 -0.35 1.05 Intr + 55781 55833 53 0 2 75 91 49 0.841 2.53 1.06 Intr + 56807 56927 121 1 1 64 90 68 0.656 4.67 1.07 Intr + 58776 58951 176 1 2 62 101 186 0.985 16.96 1.08 Intr + 69838 70120 283 0 1 92 76 198 0.444 15.99 1.09 Intr + 72781 72867 87 2 0 100 119 45 0.922 8.74 1.10 Intr + 77077 77277 201 2 0 70 88 105 0.979 7.96 1.11 Intr + 83111 85657 2547 0 0 117 59 859 0.673 73.25 1.12 Intr + 97595 97671 77 0 2 122 -20 70 0.003 -1.17 1.13 Intr + 100408 100604 197 0 2 82 92 59 0.597 3.91 1.14 Intr + 103222 103275 54 1 0 74 105 34 0.381 1.79 1.15 Intr + 103944 104061 118 0 1 105 81 142 0.997 15.67 1.16 Intr + 104148 104212 65 2 2 105 86 31 0.978 2.12 1.17 Intr + 104961 105039 79 0 1 124 69 46 0.962 5.85 1.18 Intr + 109032 109178 147 2 0 87 87 10 0.701 1.23 1.19 Intr + 109360 109458 99 0 0 76 86 43 0.898 3.21 1.20 Intr + 110080 110297 218 0 2 108 107 111 0.997 12.30 1.21 Intr + 111052 111214 163 1 1 86 37 148 0.893 9.48 1.22 Intr + 111447 111584 138 2 0 130 109 45 0.999 11.46 1.23 Intr + 111766 111843 78 0 0 73 121 109 0.994 12.45 1.24 Intr + 116885 116985 101 1 2 96 27 99 0.979 3.51 1.25 Intr + 117182 117283 102 2 0 89 81 43 0.883 2.99 1.26 Intr + 117456 117528 73 0 1 112 94 86 0.998 11.01 1.27 Intr + 118141 118255 115 0 1 93 99 111 0.914 12.72 1.28 Term + 119466 119614 149 1 2 73 52 132 0.994 6.16 1.29 PlyA + 119829 119834 6 1.05 2.00 Prom + 120124 120163 40 -9.16 2.01 Init + 120760 120829 70 0 1 87 105 82 0.992 9.10 2.02 Intr + 122081 122131 51 0 0 136 116 2 0.965 6.68 2.03 Intr + 122211 122312 102 1 0 109 116 -31 0.730 1.95 2.04 Intr + 122342 122384 43 0 1 62 44 12 0.537 -8.50 2.05 Intr + 122492 122552 61 2 1 78 105 69 0.345 6.34 2.06 Intr + 122672 122847 176 1 2 93 106 88 0.437 9.84 2.07 Intr + 122997 123115 119 0 2 44 96 32 0.768 -0.29 2.08 Intr + 123426 123748 323 1 2 109 79 172 0.986 13.98 2.09 Intr + 124007 124381 375 1 0 61 97 253 0.969 18.71 2.10 Intr + 124902 125122 221 2 2 104 92 229 0.999 22.00 2.11 Intr + 125275 125362 88 1 1 42 105 84 0.999 5.47 2.12 Term + 125787 126017 231 2 0 69 47 233 0.999 13.77 2.13 PlyA + 127519 127524 6 1.05 3.00 Prom + 149916 149955 40 -3.16 3.01 Init + 164839 164858 20 0 2 97 94 5 0.871 1.55 3.02 Intr + 165093 165150 58 0 1 119 105 8 0.863 4.49 3.03 Intr + 166541 166672 132 1 0 22 101 69 0.787 2.44 3.04 Intr + 166915 167017 103 0 1 105 100 110 0.985 13.65 3.05 Intr + 167979 168115 137 1 2 85 81 159 0.964 15.19 3.06 Intr + 168712 168916 205 0 1 98 80 139 0.997 12.87 3.07 Intr + 169171 169343 173 2 2 70 47 176 0.999 11.36 3.08 Intr + 169489 169600 112 0 1 119 94 20 0.954 5.65 3.09 Intr + 170044 170173 130 2 1 92 73 24 0.748 1.05 3.10 Intr + 170495 170699 205 2 1 74 109 207 0.989 20.60 3.11 Intr + 171023 171199 177 1 0 101 105 138 0.999 16.92 3.12 Intr + 171512 171715 204 1 0 118 99 31 0.985 6.60 3.13 Intr + 171837 172016 180 2 0 97 81 77 0.975 7.96 3.14 Intr + 172311 172455 145 2 1 31 63 93 0.978 0.96 3.15 Term + 172610 172746 137 0 2 111 48 117 0.995 8.18 3.16 PlyA + 178204 178209 6 1.05 4.04 PlyA - 181294 181289 6 1.05 4.03 Term - 190041 189925 117 0 0 118 38 94 0.504 5.94 4.02 Intr - 191041 190794 248 2 2 73 106 230 0.846 20.48 4.01 Init - 192080 191393 688 2 1 38 116 765 0.755 68.14 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Intr - 148518 148373 146 2 2 96 97 67 0.824 8.33 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597f:150387451_150607061|GENSCAN_predicted_peptide_1|1951_aa VIGKQVVFGYMILSKVVRNIFTEKGTFEQDLKVVIERAMRKTGEESSRTVSLTDREARTH PAAYPHRLNLFYLANDVIQNCKRKNAIIFRESFADVLPEAAALVKDPSVSKSVERIFKIW EDRNVYPEEMIVALREALTSTNPKAALKSKIVAEFRALIEELLLYKRSEDQIELKEKQLS TMRVDVCSTETLKCLKDKTGGKKFSKEFEEASSKLEEFVNGLDKQVKNGPSLTEALENAG IFYEAQYKEVKVVANAYKTFANRVNNLKKKLDQLKSTLPDPEESPVPSPSMDAPSPTGSE SPFQGMGGEESQSPTMESEKSATPEPVTDNRDVEDMELSDVEDDGSKIIALALPNLANVD LAKISSILSSLTSVMKNTGVSPASRPSPGTPTSPSNLTSGLKTPAPATTTSHNPLANILS KVEITPESILSALSKTQTQSAPALQGLSSLLQSVTGNPVPASEAASQSTSASPANTTVST IKGRNLPSSAQPFIPKSFNYSPNSSTSEVSSTSASKASIGQSPGLPSTTFKLPSNSLGFT ATHNTSPAAPPTEVTICQSSEVSKPKLESESTSPSLEMKIHNFLKGNPGFSGLNLNIPIL SSLGSSAPSESHPSDFQRGPTSTSIDNIDGTPVRDERSGTPTQDEMMDKPTSSSVDTMSL LSKIISPGSSTPSSTRSPPPGRDESYPRELSNSVSTYRPFGLGSESPYKQPSDGMERPSS LMDSSQEKFYPDTSFQEDEDYRDFEYSGPPPSAMMNLEKKPAKSILKSSKLSDTTEYQPI LSSYSHRAQEFGVKSAFPPSVRALLDSSENCDRLSSSPGLFGAFSVRGNEPGSDRSPSPS KNDSFFTPDSNHNSLSQSTTGHLSLPQKQYPDSPHPVPHRSLFSPQNTLAAPTGHPPTSG VEKVLASTISTTSTIEFKNMLKNASRKPSDDKHFGQAPSKGTPSDGVSLSNLTQPSLTAT DQQQQEEHYRIETRVSSSCLDLPDSTEEKGAPIETLGYHSASNRRMSGEPIQTVESIRVP GKGNRGHGREASRVGWFDLSTSGSSFDNGPSSASELASLGGGGSGGLTGFKTAPYKERAP QFQESVGSFRSNSFNSTFEHHLPPSPLEHGTPFQREPVGPSSAPPVPPKDHGGIFSRDAP THLPSVDLSNPFTKEAALAHAAPPPPPGEHSGIPFPTPPPPPPPGEHSSSGGSGVPFSTP PPPPPPVDHSGVVPFPAPPLAEHGVAGAVAVFPKDHSSLLQGTLAEHFGVLPGPRDHGGP TQRDLNGPGLSRVRESLTLPSHSLEHLGPPHGGGGCLPEDGPKIHGGSCDSDQLPCPGNL AVVSTPPRWLAERLGLFEELWAAQVKRLASMAQKEPRTIKISLPGGQKIDAVAWNTTPYQ LARQIRGPSTEYGFYHDFFLGKERTIRGSELPVLERICQELTAAARPFRRLEASRDQLRQ LFKDNPFKLHLIEEKVTGPTATVYGCGTLVDLCQGPHLRHTGQIGGLKLLSNSSSLWRSS GAPETLQRVSGISFPTTELLRVWEAWREEAELRDHRRIGKEQELFFFHELSPGSCFFLPR GTRVYNALVAFIRAEYAHRGFSEVKTPTLFSTKLWEQSGHWEHYQEDMFAVQPPGSDRPP SSQSDDSTRHITDTLALKPMNCPAHCLMFAHRPRSWRELPLRLADFGALHRAEASGGLGG LTRLRCFQQDDAHIFCTTDQLEAEIQSCLDFLRSVYAVLGFSFRLALSTRPSGFLGDPCL WDQAEQVLKQALKEFGEPWDLNSGDGAFYGPKIDVHLHDALGRPHQCGTIQLDFQLPLRF DLQYKGQAGALERPVLIHRAVLGSVERLLGVLAESCGGKWPLWLSPFQVVVIPVGSEQEE YAKEAQQSLRAAGLVSDLDADSGLTLSRRIRRAQLAHYNFQFVVGQKEQSKRTVNIRTRD NRRLGEWDLPEAVQRLVELQNTRVPNAEEIF >gi568815597f:150387451_150607061|GENSCAN_predicted_CDS_1|5856_bp gttattgggaaacaggtggtatttggttatatgattttaagtaaggtagtcaggaacata ttcactgagaaaggaacatttgagcaagatttaaaggtggtgattgaacgagccatgaga aaaacgggggaagaaagttccagaacagtgagcttaacagaccgtgaagcaaggactcac ccagctgcatatccccaccgtttgaatctcttttaccttgccaatgatgtcatacagaac tgtaaaaggaaaaatgcaatcatattccgtgaatcatttgctgatgtacttcctgaagca gctgctctagtgaaggatccatctgtctctaagtctgtagaacgaatctttaaaatctgg gaagatagaaatgtatacccagaagaaatgattgtggcattgagagaagctttgacatct acaaatccaaaagctgctctcaagtctaagatagttgctgaatttcgagccctaattgaa gagctgttgctatacaagcgctcagaagatcagatagaactgaaggaaaagcagttgtca actatgagggtggatgtgtgcagcacagaaactctcaaatgcttaaaagataaaacaggt gggaagaagttctccaaagaatttgaagaggcaagctccaagctggaagaatttgtgaat ggattagataagcaggtgaaaaacggaccctcattaacagaagcactggaaaatgctgga attttctatgaagcacaatacaaagaagtaaaagtggtggctaatgcatataaaaccttt gctaaccgagtaaacaatttaaagaagaagttggatcaattgaagtcaacccttccagat cctgaagaatcaccagttccttccccaagcatggacgctccctccccgactggttctgag tctccttttcagggaatgggaggtgaggaatcccagtcaccaaccatggagagtgagaaa tctgccacacctgaacctgtgacagataatcgtgatgtggaagacatggaactctcagat gtggaagatgatgggtcaaaaatcattgcattggctttgccaaacctggctaatgtggat ctggcaaagatcagttccatccttagcagtttaacatcagtcatgaaaaatactggggtc agtcctgcatcaagaccttctccaggaacgcccaccagccccagcaacctcaccagtggc ctgaaaacacctgcacctgccacgacaacatctcacaaccctctggcaaatatcctctcc aaggtggagatcaccccagagagcattctgtctgcactttccaaaacccagacacagtca gcccctgcactgcaaggcctgtcatctttacttcagagtgttactgggaacccagttcca gccagtgaagctgcctcacagagcacttcagcctcccctgccaacaccacagtctctacc ataaagggaagaaatctgccctccagtgcccaaccttttattcccaaaagcttcaactat tctcctaactcatcaacttctgaagtctcttcaacttcagccagcaaggcctcaattggg caaagcccagggctcccaagcactacttttaaactaccttccaactctttggggtttaca gctacccacaatactagccctgctgccccacctactgaagttaccatctgccaatcttca gaggtctccaagccaaagctggagtcagagtccacctccccaagcctggaaatgaagatt cacaacttcttaaaaggtaatcctggtttcagtggcttaaacttaaacatcccaatcctg agcagtttggggtccagcgccccatcagagagccatccctcagacttccagcgtggccct actagcacctcaatcgacaacattgatggaacccctgtacgggatgaacggagtgggaca cccacccaggatgagatgatggacaagcccacatccagcagtgtagatactatgtccctg ctttctaagatcattagccctggttcctcaacacccagcagtacaagatcaccaccccct gggagagatgaaagctacccccgagagctctccaattctgtatctacatatcgacccttt ggtctgggcagtgaatctccctataagcagccttctgatggaatggagagaccatcttcc ctgatggactcttcacaggaaaagttctacccagatacttctttccaagaagatgaggat taccgagattttgagtattcagggcctccaccctctgccatgatgaacctagagaagaaa ccagccaaatctatcctgaaatcaagcaagctgtctgataccaccgagtaccagccaatt ctgtccagttatagccacagagcccaagaatttggggtaaagtctgccttccctccatct gtaagggccctcctggactctagtgagaactgtgaccgtctctcatcttcccctgggcta tttggtgccttcagcgtaagagggaatgaacctgggtctgaccggtcaccatcaccgagt aagaatgattcatttttcacccctgactccaaccacaatagcttgtctcaatctaccact gggcatctcagtttgccacagaagcagtacccagactctcctcacccagtcccacatcgt tcccttttctctccgcagaacacccttgccgctcccacgggtcacccacccacgtcaggc gtggagaaagtcctggcctccaccatttccaccacgtcgacgattgaatttaagaatatg cttaaaaacgcctcacgtaagccctcagatgataagcattttggccaggctcccagcaag ggcactccaagtgatggtgtcagtctctcaaacctcacccaacccagcttgaccgccact gatcagcagcaacaagaagagcactaccgcatagaaacccgcgtctcctcctcctgctta gacttgcctgatagcacagaagaaaagggggcccctatagaaaccttgggttatcacagt gcatccaataggaggatgtcaggggagccgatccagaccgtagagtccatccgagttcct gggaagggaaatagaggacatgggcgtgaggcttcaagggtgggttggtttgatctgagc acatcaggtagctcttttgacaatggcccttcaagtgcctctgagttggcatcccttggg ggtgggggcagcggaggcctcactggctttaaaacagcaccatacaaggaacgggcacct caatttcaggagagtgtcggcagctttcgttccaacagtttcaactcaacatttgagcat catcttcccccatcccccttggaacatgggacacccttccagagagagccagtggggcca tcatctgccccacctgtccctcctaaggatcatggtggtatcttctctcgagatgcaccc actcatctaccctctgtggatctttcgaaccccttcacaaaggaggcagccctggcccat gctgccccaccccctcctcctggagagcacagtggaattcctttccctaccccacctcct cctccccctcctggggaacatagcagcagtggtgggagtggtgtccccttttctactcca ccccctcctccaccccctgttgaccactctggagttgtacccttcccagccccaccactg gcagagcacggagtggcaggggctgtggcagtatttcccaaggaccatagttccctcctt caagggaccctggctgagcattttggggtactcccaggacccagggaccacgggggcccc acccaacgggacctcaacggccctggccttagccgtgtacgagagagcctcaccctaccc tcccattctctggaacacctgggcccaccccatggaggaggagggtgtctaccagaagat ggacccaagatccatggaggctcctgtgactcagatcaactgccctgcccgggaaacctg gcagttgtgtcgacccctccacgctggttggcagagcggcttggcctttttgaggagctg tgggctgctcaggtaaagagattagcaagcatggcacagaaggaaccccggactattaag atatcacttcctggaggccagaaaattgatgctgtggcatggaacacaaccccctaccaa ctagcccggcagatcagaggtccaagtacagaatatggcttttaccatgatttcttcctg ggaaaggagaggacaatccggggctcagagctgcctgttttggagcggatttgccaggaa cttacagctgctgctcgacccttccggaggctagaggcttcacgggatcagcttcgccag ttgttcaaggataacccctttaagcttcacttgattgaggagaaagtgacaggtccaaca gcaacagtatatgggtgtggcacattggttgacctttgccagggcccccaccttcggcat actggacagattggaggactgaagctgctatcgaactcatcatccttatggaggtcttca ggggccccagagacactgcagagagtgtcagggatttccttccccacaacagaattgctg agggtctgggaagcatggagggaggaagcagaattgcgggaccaccggcgcattgggaag gaacaggagctcttcttcttccatgaactgagccctgggagctgcttcttcctgccacga gggacaagggtgtataatgcactagtggcgtttatcagggctgagtatgcccatcgtggt ttctccgaggtgaaaactcccacactgttttctacgaagctctgggaacagtcagggcac tgggagcattatcaggaagacatgtttgccgtgcagcccccaggctctgacaggcctccc agctcccagagtgacgattctaccaggcatatcacagatacactcgccctcaagcctatg aactgccctgcacactgcctgatgttcgcccaccggcccagatcctggcgggaactgccc ctgcgactagctgactttggggctctacaccgggccgaagcctctggtggtctgggggga ctgacccgactgcggtgcttccagcaggatgacgctcacatcttctgtacaacagatcag ctggaagcagagatccaaagctgtcttgatttcctccgttccgtctatgccgttcttggc ttctccttccgcctggcactgtccacccggccatctggcttcctgggggacccttgcctt tgggaccaggccgaacaggtccttaaacaggccctgaaggaatttggagaaccctgggac ctcaactctggagatggtgccttctatggacctaagattgacgtgcacctccacgatgcc ctgggccggccacatcagtgtgggacaattcagcttgacttccaactgcccctgagattt gacctccagtataaggggcaggcgggtgccctggagcgtccagtcctcattcaccgagca gtgctcggttctgtggaaagactgttgggagtgctggcagaaagctgcggggggaaatgg ccactgtggctgtccccgttccaggtggtggtcatccctgtggggagtgagcaagaggaa tacgccaaagaggcacagcagagcctgcgggctgcaggactggtcagtgacctggatgca gactctggactgaccctcagccggagaatccgccgggcccagcttgcccactacaatttt cagtttgtggttggccagaaagagcaaagtaagagaacagtgaacattcggactcgagat aatcgtcgccttggggagtgggacttgcctgaggctgtgcagcgactggtggagctacag aacacgagggtcccaaatgccgaagaaattttctga >gi568815597f:150387451_150607061|GENSCAN_predicted_peptide_2|619_aa MGTTARAALVLTYLAVASAASEGGFTATGQRQLRPEHFQEVGYAAPPSPPLSRSLPMDHP DSSQHGPPFEGQSQVTLQVSNLAYIPLFRRPPLSNRKSCYLPNSLLKRKEAVPLQKELPS LQHPNEQKEGKQLPLFFTHLYLMAFPQSMGFGADKTVGSATHQLYNLGQAFSARDGHPNM AFAYSFYPVDPPLPYQEEIIIHSMPREGTPAPFGDQSHPEPESWNAAQHCQQDRSQGGWG HRLDGFPPGRPSPDNLNQICLPNRQHVVYGPWNLPQSSYSHLTRQGETLNFLEIGYSRCC HCRSHTNRLECAKLVWEEAMSRFCEAEFSVKTRPHWCCTRQGEARFSCFQEEAPQPHYQL RACPSHQPDISSGLELPFPPGVPTLDNIKNICHLRRFRSVPRNLPATDPLQRELLALIQL EREFQRCCRQGNNHTCTWKAWEDTLDKYCDREYAVKTHHHLCCRHPPSPTRDECFARRAP YPNYDRDILTIDIGRVTPNLMGHLCGNQRVLTKHKHIPGLIHNMTARCCDLPFPEQACCA EEEKLTFINDLCGPRRNIWRDPALCCYLSPGDEQVNCFNINYLRNVALVSGDTENAKGQG EQGSTGGTNISSTSEPKEE >gi568815597f:150387451_150607061|GENSCAN_predicted_CDS_2|1860_bp atggggaccacagccagagcagccttggtcttgacctatttggctgttgcttctgctgcc tctgagggaggcttcacggctacaggacagaggcagctgaggccagagcactttcaagaa gttggctacgcagctcccccctccccacccctatcccgaagcctccccatggatcaccct gactcctctcagcatggccctccctttgagggacagagtcaagtgaccctccaggtttct aatctggcctatatcccacttttcaggaggccacccctctccaacaggaaaagctgctac ctgcccaactccctgctgaaaaggaaggaagctgtccccctccaaaaagagctgccctct ctccagcaccccaatgaacagaaggaaggtaagcagctccctctcttctttacccacctt tacctcatggccttcccccagagcatgggcttcggggcagacaagacggtgggctctgcc actcaccagttgtataaccttggccaggctttctctgctagagatggccatcccaacatg gcttttgcttactccttctacccagtagacccacctcttccatatcaggaggagataatc atccattccatgccgagagagggaacgccagctccatttggggaccagagccatccagaa cctgagtcctggaatgcagcccagcactgccaacaggaccggtcccaagggggctggggc caccggctggatggcttcccccctgggcggccttctccagacaatctgaaccaaatctgc cttcctaaccgtcagcatgtggtatatggtccctggaacctaccacagtccagctactcc cacctcactcgccagggtgagaccctcaatttcctggagattggatattcccgctgctgc cactgccgcagccacacaaaccgcctagagtgtgccaaacttgtgtgggaggaagcaatg agccgattctgtgaggccgagttctcggtcaagacccgaccccactggtgctgcacgcgg cagggggaggctcggttctcctgcttccaggaggaagctccccagccacactaccagctc cgggcctgccccagccatcagcctgatatttcctcgggtcttgagctgcctttccctcct ggggtgcccacattggacaatatcaagaacatctgccacctgaggcgcttccgctctgtg ccacgcaacctgccagctactgaccccctacaaagggagctgctggcactgatccagctg gagagggagttccagcgctgctgccgccaggggaacaatcacacctgtacatggaaggcc tgggaggatacccttgacaaatactgtgaccgggagtatgctgtgaagacccaccaccac ttgtgttgccgccaccctcccagccctactcgggatgagtgctttgcccgtcgggctcct taccccaactatgaccgggacatcttgaccattgacatcggtcgagtcacccccaacctc atgggccacctctgtggaaaccaaagagttctcaccaagcataaacatattcctgggctg atccacaacatgactgcccgctgctgtgacctgccatttccagaacaggcctgctgtgca gaggaggagaaattaaccttcatcaatgatctgtgtggtccccgacgtaacatctggcga gaccctgccctctgctgttacctgagtcctggggatgaacaggtcaactgcttcaacatc aattatctgaggaacgtggctctagtgtctggagacactgagaacgccaagggccagggg gagcagggctcaactggaggaacaaatatcagctccacctctgagcccaaggaagaatga >gi568815597f:150387451_150607061|GENSCAN_predicted_peptide_3|705_aa MENWTGRPWLYLLLLLSLPQLCLDQEHPGAWLPLLSNGPHASSLWSLFAPSSPIPRCSGE SEQLRACSQAPCPPEQPDPRALQCAAFNSQEFMGQLYQWEPFTEVQGSQRCELNCRPRGF RFYVRHTEKVQDGTLCQPGAPDICVAGRCLSPGCDGILGSGRRPDGCGVCGGDDSTCRLV SGNLTDRGGPLGYQKILWIPAGALRLQIAQLRPSSNYLALRGPGGRSIINGNWAVDPPGS YRAGGTVFRYNRPPREEGKGESLSAEGPTTQPVDVYMIFQEENPGVFYQYVISSPPPILE NPTPEPPVPQLQPGVWRPIFLCISRESGEELDERSCAAGARPPASPEPCHGTPCPPYWEA GEWTSCSRSCGPGTQHRQLQCRQEFGGGGSSVPPERCGHLPRPNITQSCQLRLCGHWEVG SPWSQCSVRCGRGQRSRQVRCVGNNGDEVSEQECASGPPQPPSREACDMGPCTTAWFHSD WSSKCSAECGTGIQRRSVVCLGSGAALGPGQGEAGAGTGQSCPTGSRPPDMRACSLGPCE RTWRWYTGPWGECSSECGSGTQRRDIICVSKLGTEFNVTSPSNCSHLPRPPALQPCQGQA CQDRWFSTPWSPCSRSCQGGTQTREVQCLSTNQTLSTRCPPQLRPSRKRPCNSQPCSQRP DDQCKDSSPHCPLVVQARLCVYPYYTATCCRSCAHVLERSPQDPS >gi568815597f:150387451_150607061|GENSCAN_predicted_CDS_3|2118_bp atggagaactggactggcaggccctggctgtatctgctgctgcttctgtccctccctcag ctctgcttggatcaggagcacccgggcgcctggctgcccctgctgagcaacggcccccat gccagctccctctggagcctctttgctcccagtagccctattccaagatgttctggggag agtgaacagctaagagcctgcagccaagcgccctgcccccctgagcagccagacccccgg gccctgcagtgcgcagcctttaactcccaggaattcatgggccagctgtatcagtgggag cccttcactgaagtccagggctcccagcgctgtgaactgaactgccggccccgtggcttc cgcttctatgtccgtcacactgaaaaggtccaggatgggaccctgtgtcagcctggagcc cctgacatctgtgtggctggacgctgtctgagccccggctgtgatgggatccttggctct ggcaggcgtcctgatggctgtggagtctgtgggggtgatgattctacctgtcgccttgtt tcggggaacctcactgaccgagggggccccctgggctatcagaagatcttgtggattcca gcgggagccttgcggctccagattgcccagctccggcctagctccaactacctggcactt cgtggccctgggggccggtccatcatcaatgggaactgggctgtggatccccctgggtcc tacagggccggcgggaccgtctttcgatataaccgtcctcccagggaggagggcaaaggg gagagtctgtcggctgaaggccccaccacccagcctgtggatgtctatatgatctttcag gaggaaaacccaggcgttttttatcagtatgtcatctcttcacctcctccaatccttgag aaccccaccccagagccccctgtcccccagcttcagccgggtgtctggcgccccattttc ctctgcatctcccgtgagtcgggagaggaactggatgaacgcagctgtgccgcgggtgcc aggcccccagcctcccctgaaccctgccacggcaccccatgccccccatactgggaggct ggcgagtggacatcctgcagccgctcctgtggccccggcacccagcaccgccagctgcag tgccggcaggaatttggggggggtggctcctcggtgcccccggagcgctgtggacatctc ccccggcccaacatcacccagtcttgccagctgcgcctctgtggccattgggaagttggc tctccttggagccagtgctccgtgcggtgcggccggggccagagaagccggcaggttcgc tgtgttgggaacaatggtgatgaagtgagcgagcaggagtgtgcgtcaggccccccgcag ccccccagcagagaggcctgtgacatggggccctgtactactgcctggttccacagcgac tggagctccaagtgctcagccgagtgtgggacgggaatccagcggcgctctgtggtctgc cttgggagtggggcagccctcgggccaggccagggggaagcaggagcaggaactgggcag agctgtccaacaggaagccggccccctgacatgcgcgcctgcagcctggggccctgtgag agaacttggcgctggtacacagggccctggggtgagtgctcctccgaatgtggctctggc acacagcgtagagacatcatctgtgtatccaaactggggacggagttcaacgtgacttct ccgagcaactgttctcacctccccaggccccctgccctgcagccctgtcaagggcaggcc tgccaggaccgatggttttccacgccctggagcccatgttctcgctcctgccaaggggga acgcagacacgggaggtccagtgcctgagcaccaaccagaccctcagcacccgatgccct cctcaactgcggccctccaggaagcgcccctgtaacagccaaccctgcagccagcgccct gatgatcaatgcaaggacagctctccacattgccccctggtggtacaggcccggctctgc gtctacccctactacacagccacctgttgccgctcttgcgcacatgtcctggagcggtct ccccaggatccctcctga >gi568815597f:150387451_150607061|GENSCAN_predicted_peptide_4|350_aa MFGLKRNAVIGLNLYCGGAGLGAGSGGATRPGGRLLATEKEASARREIGGGEAGAVIGGS AGASPPSTLTPDSRRVARPPPIGAEVPDVTATPARLLFFAPTRRAAPLEEMEAPAADAIM SPEEELDGYEPEPLGKRPAVLPLLELVGESGNNTSTDGSLPSTPPPAEEEEDELYRQSLE IISRYLREQATGAKDTKPMGRSGATSRKALETLRRVGDGVQRNHETAFQGMLRKLDIKNE DDVKSLSRVMIHVFSDGVTNWGRIVTLISFGAFVAKHLKTINQESCIEPLAESITDVLVR TKRDWLVKQRGWDGFVEFFHVEDLEGGIRNVLLAFAGVAGVGAGLAYLIR >gi568815597f:150387451_150607061|GENSCAN_predicted_CDS_4|1053_bp atgtttggcctcaaaagaaacgcggtaatcggactcaacctctactgtgggggggccggc ttgggggccggcagcggcggcgccacccgcccgggagggcgacttttggctacggagaag gaggcctcggcccggcgagagatagggggaggggaggccggcgcggtgattggcggaagc gccggcgcaagccccccgtccaccctcacgccagactcccggagggtcgcgcggccgccg cccattggcgccgaggtccccgacgtcaccgcgacccccgcgaggctgcttttcttcgcg cccacccgccgcgcggcgccgcttgaggagatggaagccccggccgctgacgccatcatg tcgcccgaagaggagctggacgggtacgagccggagcctctcgggaagcggccggctgtc ctgccgctgctggagttggtcggggaatctggtaataacaccagtacggacgggtcacta ccctcgacgccgccgccagcagaggaggaggaggacgagttgtaccggcagtcgctggag attatctctcggtaccttcgggagcaggccaccggcgccaaggacacaaagccaatgggc aggtctggggccaccagcaggaaggcgctggagaccttacgacgggttggggatggcgtg cagcgcaaccacgagacggccttccaaggcatgcttcggaaactggacatcaaaaacgaa gacgatgtgaaatcgttgtctcgagtgatgatccatgttttcagcgacggcgtaacaaac tggggcaggattgtgactctcatttcttttggtgcctttgtggctaaacacttgaagacc ataaaccaagaaagctgcatcgaaccattagcagaaagtatcacagacgttctcgtaagg acaaaacgggactggctagttaaacaaagaggctgggatgggtttgtggagttcttccat gtagaggacctagaaggtggcatcaggaatgtgctgctggcttttgcaggtgttgctgga gtaggagctggtttggcatatctaataagatag