Result of GENSCAN for
pF1KE0560
GENSCAN 1.0 Date run: 5-Nov-116 Time: 01:44:51 Sequence gi568815581r:40692430_40899893 : 207464 bp : 39.82% C+G : Isochore 1 ( 0 - 43 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.23 PlyA - 34 29 6 1.05 1.22 Term - 2444 2321 124 1 1 94 49 115 0.689 5.08 1.21 Intr - 7232 7015 218 2 2 82 59 334 0.872 26.28 1.20 Intr - 7694 7569 126 2 0 51 80 137 0.998 9.16 1.19 Intr - 7954 7793 162 1 0 74 76 308 0.999 27.45 1.18 Intr - 8867 8711 157 1 1 98 75 277 0.999 26.49 1.17 Intr - 9504 9422 83 0 2 69 63 102 0.999 3.32 1.16 Intr - 11232 10650 583 2 1 99 94 441 0.433 37.55 1.15 Intr - 19606 19510 97 2 1 44 98 63 0.786 1.05 1.14 Intr - 19797 19645 153 1 0 106 52 44 0.599 1.72 1.13 Intr - 21165 21083 83 2 2 42 96 70 0.637 1.56 1.12 Intr - 26823 26606 218 0 2 40 96 280 0.938 20.38 1.11 Intr - 27347 27222 126 2 0 69 78 111 0.768 8.16 1.10 Intr - 38015 37752 264 2 0 24 50 243 0.096 10.89 1.09 Intr - 52918 52736 183 1 0 84 123 68 0.721 8.96 1.08 Intr - 55957 55917 41 2 2 60 59 39 0.325 -4.78 1.07 Intr - 56896 56829 68 0 2 98 86 57 0.934 4.13 1.06 Intr - 58168 57951 218 1 2 80 69 354 0.974 29.08 1.05 Intr - 58650 58525 126 0 0 69 72 167 0.987 13.16 1.04 Intr - 58897 58736 162 1 0 73 57 264 0.952 21.05 1.03 Intr - 61587 61431 157 2 1 6 94 200 0.995 11.49 1.02 Intr - 62039 61957 83 2 2 73 108 97 0.995 7.72 1.01 Init - 62842 62414 429 1 0 63 110 362 0.695 32.20 1.00 Prom - 66796 66757 40 -6.75 2.07 PlyA - 68290 68285 6 1.05 2.06 Term - 69341 69125 217 1 1 -19 42 329 0.684 13.23 2.05 Intr - 76667 76450 218 2 2 86 98 218 0.996 18.98 2.04 Intr - 77693 77325 369 2 0 82 76 431 0.892 35.68 2.03 Intr - 77980 77824 157 0 1 89 94 145 0.986 14.29 2.02 Intr - 78807 78725 83 0 2 74 50 128 0.999 5.12 2.01 Init - 79684 79244 441 1 0 98 110 366 0.996 35.91 2.00 Prom - 79922 79883 40 -6.75 3.09 PlyA - 80777 80772 6 1.05 3.08 Term - 84709 84570 140 2 2 40 43 205 0.881 8.34 3.07 Intr - 84873 84824 50 2 2 78 92 37 0.802 0.51 3.06 Intr - 85303 85086 218 1 2 51 52 330 0.795 22.08 3.05 Intr - 87198 87073 126 0 0 87 115 138 0.999 16.36 3.04 Intr - 87432 87271 162 0 0 47 93 283 0.999 23.95 3.03 Intr - 88027 87871 157 0 1 65 60 237 0.999 17.69 3.02 Intr - 88841 88759 83 2 2 67 106 92 0.999 6.42 3.01 Init - 90064 89621 444 1 0 84 110 292 0.589 27.06 3.00 Prom - 90151 90112 40 -4.95 4.13 PlyA - 90930 90925 6 1.05 4.12 Term - 100140 99998 143 1 2 81 37 143 0.884 5.61 4.11 Intr - 100781 100726 56 1 2 42 85 29 0.948 -4.30 4.10 Intr - 101617 101400 218 1 2 79 106 370 0.728 34.28 4.09 Intr - 104117 103963 155 0 2 56 33 128 0.328 2.97 4.08 Intr - 104612 104471 142 2 1 105 82 141 0.893 14.21 4.07 Intr - 104852 104691 162 2 0 109 100 242 0.999 26.75 4.06 Intr - 105962 105806 157 1 1 50 75 266 0.999 20.59 4.05 Intr - 106570 106488 83 1 2 87 106 79 0.997 7.12 4.04 Intr - 107420 107015 406 1 1 13 100 450 0.079 32.13 4.03 Intr - 111389 111268 122 2 2 60 84 108 0.090 5.97 4.02 Intr - 112705 112692 14 2 2 96 56 5 0.066 -8.32 4.01 Init - 114204 114072 133 0 1 99 49 151 0.923 12.65 4.00 Prom - 116237 116198 40 -3.45 5.15 PlyA - 118746 118741 6 1.05 5.14 Term - 124857 124707 151 2 1 53 36 88 0.402 -3.50 5.13 Intr - 126732 126358 375 2 0 37 82 1219 0.575 109.40 5.12 Intr - 127305 127088 218 0 2 21 94 305 0.604 20.78 5.11 Intr - 127745 127620 126 2 0 89 76 97 0.997 8.56 5.10 Intr - 127994 127833 162 2 0 88 98 260 0.999 26.25 5.09 Intr - 128238 128082 157 2 1 91 46 272 0.999 22.39 5.08 Intr - 128688 128606 83 0 2 100 100 110 0.999 10.92 5.07 Intr - 130183 129530 654 1 0 51 110 811 0.007 70.74 5.06 Intr - 134448 134302 147 0 0 51 59 88 0.230 1.71 5.05 Intr - 142619 142500 120 2 0 44 99 107 0.800 7.17 5.04 Intr - 143626 143365 262 0 1 42 103 68 0.076 0.27 5.03 Intr - 153502 153454 49 2 1 74 68 54 0.096 -1.18 5.02 Intr - 159432 159330 103 0 1 87 86 46 0.893 3.13 5.01 Init - 160249 160082 168 1 0 62 92 73 0.743 4.68 5.00 Prom - 166618 166579 40 -3.15 6.15 PlyA - 166740 166735 6 1.05 6.14 Term - 169329 169232 98 1 2 80 38 88 0.809 0.15 6.13 Intr - 170206 170136 71 0 2 102 91 56 0.965 5.21 6.12 Intr - 170914 170694 221 1 2 58 84 337 0.994 26.48 6.11 Intr - 171181 171056 126 1 0 92 66 113 0.995 9.46 6.10 Intr - 171522 171274 249 0 0 62 87 315 0.733 25.51 6.09 Intr - 172533 172377 157 2 1 100 76 318 0.996 30.89 6.08 Intr - 173808 173726 83 0 2 88 81 69 0.995 3.72 6.07 Intr - 174779 174191 589 1 1 47 116 426 0.039 33.00 6.06 Intr - 185936 185716 221 2 2 69 78 362 0.350 29.48 6.05 Intr - 187832 187671 162 2 0 59 91 215 0.999 18.15 6.04 Intr - 188341 188185 157 0 1 67 78 204 0.995 16.39 6.03 Intr - 190225 190143 83 1 2 77 50 119 0.974 4.52 6.02 Intr - 192778 192367 412 0 1 22 94 396 0.070 26.86 6.01 Intr - 203376 203314 63 2 0 111 84 54 0.223 4.21 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 107464 107015 450 1 0 73 100 419 0.856 37.56 S.002 Init - 130156 129530 627 1 0 77 110 811 0.989 77.59 S.003 Init - 174757 174191 567 1 0 79 116 438 0.848 38.81 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815581r:40692430_40899893|GENSCAN_predicted_peptide_1|1286_aa MSLRLSSASRRSCPRPTTGSLRLYGGGTSFGTGNSCGISGIGSGFSSAFGGSSSGGNTGG GNPCAGFTVNERGLLSGNEKVTMQNLNDRLASYLDSVHALEEANADLEQKIKGWYEKFGP GSCRGLDHDYSRYFPIIDDLKNQIIASTTSNANAVLQIDNARLTADDFRLKYENELALHQ SVEADVNGLRRVLDEITLCRTDLEIQYETLSEEMTYLKKNHKEEMQVLQCAAGGNVNVEM NAAPGVDLTVLLNNMRAEYEALAEQNRRDAEAWFNEKSASLQQQISEDVGATTSARNELT EMKRTLQTLEIELQSLLATKHSLECSLTETESNYCAQLAQIQAQIGALEEQLHQVRTETE GQKLEYEQLLDIKLHLEKEIETYCLLIGGDDGACKSGGYKSKDYGSGNVGSQVKDPAKAI VVKKVLEERRKVERHGQVPEEKGNIIGSLGRLKPCVPVSSKVRGLGCLTRSQSSYGMNYQ LSPLESRESNTGAVNGRDIDVLPYSVSYTGLDGLVVERNLGDWTLWRWHNFLAADDRWGF GFSSKAAAQNFSKLGRESGFYWAAGHGCKSVAEGGLESASLQTQISTDAEAVSSAKSEIM ELKQVLQSLQHELQSVLAMQSSPEGTLADTEAGYVAQLSEIKMYISILEEQICQIRGETE YQNTEYAQLQDIKTRLEVEIETYHRLLGGEGGLCRKHRGFCFWRILRKLTIMAEGEGEAG TKKTSTIACWDLLLTPPSQPPHHNRVLFLSPFLEGSGFIASIPTGSSPRSASYAQLKSAD SDQLCPPTVTALPWLLQGPLLLGAGGSSSARVSAGGSSFSSGSRCGLGGSSAQGFRGGAS SCSLSGGSSGAFGGSFGGGFGSCSVGGGFGGASGSGTGFGGGSSFGGVSGFGRGSGFCGS SRFSSGATGGFYSYGGGMGGGVGDGGLFSGGEKQTMQNLNDRLANYLDKVRALEEANTDL ENKIKEWYDKYGPGSGDGGSGRDYSKYYSIIEDLRNQIIAATVENAGIILHIDNARLAAD DFRLKYENELCLRQSVEADINGLRKVLDDLTMTRSDLEMQIESFTEELAYLRKNHEEEMK NMQGSSGGEVTVEMNAAPGTDLTKLLNDMRAQYEELAEQNRREAEERFNKQSASLQAQIS TDAGAATSAKNEITELKRTLQALEIELQSQLAMKSSLEGTLADTEAGYVAQLSEIQTQIS ALEEEICQIWGETKCQNAEYKQLLDIKTRLEVEIETYRRLLDGEGGEVYTRMMRMVDVAS ILTEMTNKKQGSQQAAQSKRLKYLKL >gi568815581r:40692430_40899893|GENSCAN_predicted_CDS_1|3861_bp atgtctcttcgactttccagtgcatccaggaggtcctgtcctcgtcccaccactggatca ctcagactctatggtgggggaaccagctttggtactggaaattcttgtggcatttcaggg attggaagtggcttctctagtgccttcggaggcagctcatcgggaggaaacacaggggga ggtaatccctgtgctggcttcactgtgaatgagcgggggctcctttctggcaatgagaag gtgaccatgcagaacctcaatgaccgcctggcatcctacctggacagtgtgcatgctctg gaggaggccaacgctgacctggagcagaagatcaagggctggtatgagaaatttgggcct ggctcttgccgtggtcttgatcatgactatagcagatatttcccaataattgatgacctt aaaaatcagatcatcgcatccaccaccagcaatgctaatgctgttctgcagatcgataat gccaggcttacagctgatgatttcagactcaagtatgaaaatgagctggctcttcaccag agtgtagaggctgatgtcaatgggttacgaagagttttggatgaaataaccctgtgcaga acagatctggagattcagtatgaaaccctgagtgaggagatgacttacctcaaaaagaac cataaagaggaaatgcaagttctgcagtgcgcagctggaggcaacgtgaacgtggagatg aacgcagcccccggggtggacctcacagttctgctgaacaacatgcgagctgagtacgaa gcccttgcagagcagaaccgcagggacgcggaggcctggttcaacgagaagagcgcctcc ctgcagcagcagatctctgaggatgtcggagccacaacctcagcccggaatgagctgact gaaatgaagcgcactcttcaaaccctggaaattgaacttcagtctctcctagccacgaaa cactccctggagtgctccttgacagagaccgagagcaactactgtgcgcagctggcgcag atccaggctcagatcggggccctggaggagcagctgcaccaggtcagaaccgagaccgag ggccagaagctggagtatgagcagctcctggacatcaagctccacctggaaaaagaaatt gagacctactgtctccttataggaggagatgatggagcctgtaagtctgggggttacaag tctaaagattatggatctggaaatgtgggaagtcaagtcaaagacccagccaaagccata gtggttaagaaagttcttgaggagaggagaaaagtagagagacatggacaggtccctgaa gagaaagggaacataataggctcgctgggaaggctaaagccctgtgttcctgtgtcctcc aaggtgaggggcctgggatgtctcaccagaagccagtcttcatatgggatgaactaccag ttatctccattagagagtagagagtcgaacactggagcagtcaatggcagagacatagac gtgctcccctacagcgtctcctacactggtctcgacggtttggtggtggaaaggaatttg ggtgattggaccttatggagatggcacaactttttagcagcagatgacagatggggtttt ggttttagcagcaaagcagcagcacaaaacttcagcaaactggggagagaatctgggttc tactgggcagcaggacatggttgcaagtctgtggcagaaggtggactggaaagtgcatcc ttgcagacacagatctccacggatgctgaagcagttagctcggccaagagtgagataatg gagctgaaacaagtcctccagtccctccagcatgaactgcagtctgtcttggccatgcaa agctccccagaaggaaccctggctgacacagaagctggctacgtggctcagctgtcagaa attaagatgtatatcagcatcctggaggagcagatctgccagatccggggcgagactgaa taccagaacacagagtatgcacaactgcaggacatcaagacacgcctggaggtggagatc gagacctaccaccgcctgctcggtggagagggagggctgtgcaggaagcatcgcggcttc tgcttctggagaatcctcagaaaacttacaatcatggcagaaggtgaaggggaagccggc acaaaaaagacaagcacaattgcttgctgggaccttctcctcactccacctagtcagcct ccacatcacaacagagtcctgttcctttctccctttctggaaggatctggcttcatagcc agtattcctactggctcttctccacgttctgcctcttatgcccagctcaaatctgcagac tctgatcagctctgcccacccacggtcacagctttgccatggcttctccagggccctctc ctcctaggggctggaggcagcagctcagccagggtgtctgctggtggaagcagcttcagc agtggaagcagatgtggtctggggggcagctcggcccagggcttccgaggaggagccagc agctgcagcctgagtggggggtctagcggtgcttttgggggcagctttggagggggcttt ggtagctgctcagtagggggtggttttgggggagcttcaggctctgggacaggatttggt gggggttctagctttggcggggtctctggatttggcaggggttctggattctgtgggagt tctagattcagcagtggtgctactggaggcttctacagctatggtggtggtatgggaggt ggtgttggcgatggggggcttttctctggaggggaaaagcaaaccatgcagaacctcaat gaccgcttggccaattacctagacaaggtcagagccctggaggaggctaacactgatctg gagaacaaaatcaaggagtggtatgacaaatatgggcctgggtctggagacggtggatcg ggaagagattatagcaaatactattcaataattgaagatctcagaaaccagatcattgct gccactgttgaaaatgctgggatcattttgcacattgacaatgccagattggctgctgat gacttcagactgaagtatgagaacgagctgtgtctccggcagagcgtggaggctgacatc aatggcctgcggaaagtcctggatgacctgactatgacccgctctgacctggagatgcag attgagagtttcaccgaggagctagcctacctgaggaagaaccacgaggaggaaatgaag aatatgcaaggaagctctggaggggaggtgaccgtagaaatgaatgctgcgccagggacc gacctgaccaaattactgaatgacatgagggcgcagtacgaggagctggctgagcaaaac cgccgagaggctgaggagcggttcaacaagcagagcgcatcactacaagcacaaatctcc actgatgctggggcagccacttctgccaagaatgagataacagaactaaaacgtaccctg caagccctggaaattgagcttcagtcccaactggccatgaaaagctccctggagggaacc ctggctgacacagaagctggctacgtggctcagctgtcagaaattcaaacgcagatcagt gccctggaggaggagatctgccagatctggggtgagactaaatgccagaacgcagagtac aagcaattgctggacatcaagacacgcctggaggtggagatcgagacctaccgccgcctg ctcgatggagagggaggggaagtatacacaagaatgatgagaatggtcgacgtggcatcc atcctcacagagatgacaaacaagaaacaaggttcacagcaggcagctcagagtaaacgg ctaaagtatttgaagctctaa >gi568815581r:40692430_40899893|GENSCAN_predicted_peptide_2|494_aa MSFRLSGGSRRICSRTGSGRLSGGGTGFVAGNVCVGSGARSSFSCTLEGISSGGSFCNSG GGLGSGACAGFLGNEHSLLSGNEKVTMQNLNDRLASYLDHVHALEEANADLEQKIKGWYE KCEPGSSREHDHDYSRYFSVIEDLKRQIISATICNASIVLQNDNARLTADDFRLKYENEL ALHHSVEADTSGLRRVLDELTLCTTDLEIQCETLSEELTYLKKSHEEEMEVLQYTAGGNV NVEMNATPGVDLTVLLNNMRAEYEDLAEQNRKDAEAWFNERVGLWQITKGLLRRQSGQSL TLSTITLQSATLQQQISDHEGAATAARNELTELKRNLQTLEIELQSLMAVKHSYECSLAE TEGNYCNQLQQIQDQIGVMEEQLQQIRTETEGQKLEYEQLLDVKIFLEKEIDIYCNLLDG EERDTEEATPTHTPGNGPSSTDLEMDSHPSASSMDQGSTDSPVNPETTQNPQLLQPLVTD LSTIDPTVDSAIAM >gi568815581r:40692430_40899893|GENSCAN_predicted_CDS_2|1485_bp atgtcttttcgactttctggtggatccaggaggatctgctcgcgaactgggtctggtagg ctgtccggtggaggaacaggcttcgtggctgggaatgtgtgtgttggatcgggagcaaga agcagcttttcttgtactcttgagggcatctcttctggaggaagcttctgcaatagcggt ggagggttgggaagtggtgcctgtgctggttttcttggcaatgagcacagcctcctctct gggaatgaaaaggtgaccatgcagaatctcaacgaccgcctggcatcctacctggaccat gtgcatgctctagaggaggccaacgcagacctggagcagaagatcaagggctggtacgag aaatgtgagcctggctcttcccgggaacacgatcatgactatagcagatacttctcagtc atagaagatcttaaaaggcagattatttctgcgaccatctgcaatgccagcattgttcta caaaatgacaatgccagactgaccgctgatgacttcaggctgaagtatgaaaatgagctg gctctgcaccacagtgttgaggccgacaccagtggtcttcgcagagtgttggatgaactg accctttgtacaaccgacctggagatacagtgtgagaccctcagtgaggaattgacctac ctcaaaaaaagtcatgaggaggaaatggaagtcttgcaatatacagctggggggaacgtg aacgtggagatgaatgcaaccccaggagtggacctaactgtcctgttgaacaacatgagg gctgagtatgaggacttggctgagcagaaccgcaaagatgctgaagcctggttcaacgag agggtaggtctatggcaaattacaaagggcttgctcaggagacaatcaggccagtcacta accctttcgacaattacacttcagagtgcaacgctgcaacaacagatttccgatcatgag ggagcagccacagcagccagaaatgagctgaccgaattaaaacgcaatctgcaaaccctg gaaatagaacttcagtccctcatggctgtgaaacattcctatgaatgctccttggctgag actgaaggaaattactgcaatcaactccagcaaattcaggatcagataggggtgatggag gaacaactgcaacagattcgaacagaaacagaaggccagaagctggagtatgaacagctt cttgatgtaaaaatatttttagaaaaagaaattgacatttattgcaacttactagatgga gaagaaagagacacagaagaagccacacccactcacacacctggtaatggcccatcatct acagatcttgaaatggactctcatcccagtgccagctctatggaccaaggttctacagac agtccagtcaacccagagactacacagaatccacagctactacagcccctggtaacagac ctatcaactatagaccccactgtggactcagcaatagccatgtga >gi568815581r:40692430_40899893|GENSCAN_predicted_peptide_3|459_aa MSVRFSSTSRRLGSCGGTGSVRLSSGGAGFGAGNTCGVPGIGSGFSCAFGGSSSAGGYGG GLGGGSASCAAFTGNEHGLLSGNEKVTMQNLNDRLASYLENVRALEEANADLEQKIKGWY EKFGPGSCRGLDHDYSRYFPIIDELKNQIISATTSNAHVVLQNDNARLTADDFRLKFENE LALHQSVEADINGLRRVLDELTLCRTDLEIQLETLSEELAYLKKNHEEEMKALQCAAGGN VNVEMNAAPGVDLTVLLNNMRAEYEALAEQNRRDAEAWFNEKSASLQQQISDDAGATTSA RNELIEMKRTLQTLEIELQSLLATKHSLECSLTETESNYCAQLAQIQAQIGALEEQLHQV RTETEGQKLEYEQLLDIKVHLEKEIETYCLLIDGEDGSCSKSKGYGGPGNQTKDSSKTTI VKTVVEEIDPRGKVLSSRVHTVEEKSTKVNNKNEQRVSS >gi568815581r:40692430_40899893|GENSCAN_predicted_CDS_3|1380_bp atgtctgtgcgcttttcttctacctccaggagacttggctcttgcgggggcactggctct gtgaggctctctagtgggggagcaggctttggggctggaaacacatgcggtgtgccaggc attggaagtggcttctcttgtgcttttgggggcagctcatctgcaggaggctatggcgga ggtctgggcgggggaagtgcttcctgtgctgccttcacagggaatgagcacggcctcctc tctggcaatgagaaggtgaccatgcagaacctcaacgaccgcttggcctcctacctggag aatgttcgagccctagaggaggccaacgctgacttggagcagaagatcaaggggtggtat gagaaatttggacctggttcttgccgtggccttgatcatgattacagcagatatttccca attattgacgaacttaagaaccagataatttctgcaactaccagtaatgcccatgttgtc ctgcaaaatgataatgcaagactaacagctgatgacttcagactaaagtttgaaaacgag ctagcgcttcaccagagcgtggaggcggacatcaatggtttgcgaagagtcctggatgag ctgaccttgtgcagaacggacctggagatccagctggaaactctcagtgaggagctcgct tacctcaagaagaatcatgaggaggaaatgaaagctcttcagtgcgcggctggaggcaac gtgaacgtggagatgaacgcggcccccggggtagacctcacggttctgctgaacaatatg cgagctgagtacgaagccctcgcagagcagaaccgcagggacgcggaggcctggttcaac gaaaagagcgcctcgctgcagcagcagatctctgacgacgctggcgccaccacctcagcc cggaatgagcttatcgagatgaaacgcactcttcaaacccttgagattgaacttcagtcc ctcttagcaacgaaacactccctggagtgctccttgacagagaccgagagtaactactgt gcacagctggcacagatccaggctcagatcggggccctggaggagcagctgcaccaggtc agaaccgagaccgagggccagaagctcgagtatgagcagctccttgacatcaaggtccac ctggaaaaagaaattgagacctactgcctcctgatagatggagaagatggctcctgttct aaatcaaaaggctatggaggcccaggaaatcaaacaaaagattcatctaaaaccaccatt gtcaaaacagttgttgaagagatagatcctcgtggcaaagttctctcatccagagttcac actgtggaagagaaatccaccaaagtcaacaacaagaatgaacagagggtgtcttcctga >gi568815581r:40692430_40899893|GENSCAN_predicted_peptide_4|596_aa MNRAEEWCSRNSCVRQRMKLLNYIKGLVHQLFSEQSSPAPCQEEAMYYQRFNHFHLRTAG TQAGEEVPPLASARRNPYVNEPCPLVEGEGSGAGSVRPLNGGAGFAGSSACGGSVAGSEF SCALGGGLGSVPGGSHAGGALGNAACIGFAGSEGGLLSGNEKVTMQNLNDRLASYLDNVR ALEEANAELERKIKGWYEKYGPGSCRGLDHDYSRYHLTIEDLKNKIISSTTTNANVILQI DNARLAADDFRLKYENELTLHQNVEADINGLRRVLDELTLCRTDQELQYESLSEEMTYLK KNHEEEMKALQCAAGGNVNVEMNAAPGVDLAVLLNNMRAEYEALAEQNRKDAEAWFNEKS ASLQQQISHDSGAATFARSQLTEMRRTLQTLEIQLQSLMATVGDSEGQGASITPASPDTD EDILEATCGFTRQRKRGYTPECHMGTVRLFIATESRAEKHSLECSLTETESNYCTQLAQI QAQIGALEEQLHQVRTETEGQKLEYEHLLDVKVHLEKEIETYCRLIDGDGNSCSKSKGFG SGSPGNSSKDLSKTTLVKTVVEELDQRGKVLSSRIHSIEEKTSKMTNGKTEQRVPF >gi568815581r:40692430_40899893|GENSCAN_predicted_CDS_4|1791_bp atgaacagagcagaggaatggtgtagcagaaacagctgtgtccgacaacggatgaagctg ctgaactacatcaagggcttggtgcaccagctcttttcagaacaatcatccccagcacct tgccaggaggaggctatgtattaccagaggtttaatcatttccacctgaggacagcaggg acccaggctggagaggaggttccgcccctggcatctgcgcggcgaaatccatatgtaaac gagccctgccccctggtggaaggagaagggtctggagctggatctgtcagacccctcaat ggaggtgcaggctttgcaggcagcagtgcatgtggtggctctgttgctggaagtgaattt tcctgtgccttgggagggggcttgggcagtgttcctggtgggagccatgctggtggtgcc cttggaaatgctgcttgtattggctttgctggaagcgaagggggactcctctctggaaat gagaaggtgaccatgcaaaatcttaatgaccgcttggcatcctacctggataatgtgcga gctctggaggaggcaaatgctgaattagagagaaaaatcaagggttggtatgaaaaatac ggacctggatcttgccgtggacttgatcatgactatagcagatatcacctaacaattgag gatcttaagaataagattatctcctccactactactaatgctaatgtcattctgcagatt gataatgccagactggctgctgatgatttcaggctaaagtatgaaaatgagctcaccctt caccaaaacgtagaggccgacatcaacggattacggcgagtcctggacgagctgacgctc tgcaggaccgaccaggagctgcaatatgagtctctgagtgaggagatgacatatctcaaa aagaaccacgaagaggagatgaaggctctgcagtgcgcggctgggggcaacgtgaacgtg gagatgaacgcggccccgggggtagacctcgcggttttgttgaacaacatgcgagcggag tacgaagcccttgcagagcagaaccgcaaggacgcggaggcctggttcaatgagaagagc gcctcgctgcagcaacagatctcccacgactcaggcgcagccactttcgcccggagccag ctcaccgagatgaggcgcaccctgcagaccctggagatccagctgcagtccctgatggcc acggtaggtgacagcgaagggcagggagccagcatcacaccagcatctcctgatactgat gaagacatattagaagccacatgtggtttcaccaggcagaggaagagagggtacacacct gaatgccacatgggcactgtcaggctcttcatcgccacagagtccagggcagagaaacac tccctggagtgctccttgacagagaccgagagcaactactgtacgcagctggcgcagatc caggctcagatcggggccctggaggagcagctgcaccaggtcagaaccgagaccgagggc cagaagctggagtatgagcatctcctcgatgtcaaggtccacttggaaaaagaaattgag acctactgccgcctgatagatggagatggaaattcatgctccaaatcaaagggctttgga tcaggaagccctgggaattcatctaaagatttatccaaaaccacactggtaaagacagtg gttgaagagctagatcaacgtggtaaagttctttcatcaaggattcactccattgaagaa aagacatctaaaatgaccaacggcaagacagaacaaagggttcctttctag >gi568815581r:40692430_40899893|GENSCAN_predicted_peptide_5|924_aa MEGVFTACRAEGDRTERWPVGRQELLKGKEGLSREENLMKVLVIIIMIICHLQGTQSWGD HFEKADPVTPLLKGLQRLPIVLGIKTKTQQEFETQDPEEPPSGNSTRCQSKVVLYHCVEA DSKGLRSVLDELTLNKTNLELKMESQTEKLNYLRNNHEEAGTTQNEFKVSVCQYLSRYGG GGYHYKRQSFHKTQSKELMGRHRLLLTIANRHEIAELRWTLQTLELELQAQWPLSSGQIN PMRIATISVLTTTQSSEAIKEEIDKLDNMKIKYHKQSHQFQYWALPGLNSITMSVRYSSS KHYSSSRSGGGGGGGGCGGGGGVSSLRISSSKGSLGGGFSSGGFSGGSFSRGSSGGGCFG GSSGGYGGLGGFGGGSFRGSYGSSSFGGSYGGIFGGGSFGGGSFGGGSFGGGGFGGGGFG GGFGGGFGGDGGLLSGNEKVTMQNLNDRLASYLDKVRALEESNYELEGKIKEWYEKHGNS HQGEPRDYSKYYKTIDDLKNQILNLTTDNANILLQIDNARLAADDFRLKYENEVALRQSV EADINGLRRVLDELTLTKADLEMQIESLTEELAYLKKNHEEEMKDLRNVSTGDVNVEMNA APGVDLTQLLNNMRSQYEQLAEQNRKDAEAWFNEKSKELTTEIDNNIEQISSYKSEITEL RRNVQALEIELQSQLALKQSLEASLAETEGRYCVQLSQIQAQISALEEQLQQIRAETECQ NTEYQQLLDIKIRLENEIQTYRSLLEGEGSSGGGGRGGGSFGGGYGGGSSGGGSSGGGHG GGHGGSSGGGYGGGSSGGGSSGGGYGGGSSSGGHGGSSSGGYGGGSSGGGGGGYGGGSSG GGSSSGGGYGGGSSSGGHKSSSSGSVGESSSKGPRHYPLYPKLMTGALFQWDGFPYSQGF ITCLAPNISTAQRLSIFVPVPLNA >gi568815581r:40692430_40899893|GENSCAN_predicted_CDS_5|2775_bp atggaaggtgtttttacagcttgcagagctgaaggagatagaactgaacgctggccagtg ggaagacaagaactgctcaagggaaaggaaggtctcagtagggaggagaacctgatgaaa gttttagtcatcattatcatgattatctgtcacctccagggtacacagagctggggggat cattttgaaaaagctgatccagtcactccattgcttaaaggccttcaaaggcttcctatt gtccttggaataaagaccaaaacccagcaagaatttgaaactcaagacccggaagaacct ccttctggaaactctaccagatgccagagtaaagttgtcctttatcactgtgttgaggct gatagcaagggcctgcgaagtgtcttagatgagttgactttgaacaagactaacctagag ttgaaaatggaaagccagacggagaagctgaattacctcagaaacaatcatgaagaggcg ggaactacacaaaatgaatttaaagtttcagtatgtcaatacttgtcaagatatggtggt ggtggctatcattataagagacagtcttttcataaaacacagagtaaagaactgatgggc aggcatcggcttctgctgacaattgccaaccggcatgagattgctgagctgaggtggact ctccagacactggaactggaactccaggcccaatggcctctgagctccggccaaattaac cccatgcgaatagcaactatatccgtcttaaccacgactcaaagttcagaagcaattaaa gaagaaattgataaactggacaacatgaaaataaaataccataagcaaagtcatcaattc caatattgggcactccctgggctaaacagcatcaccatgtctgttcgatacagctcaagc aagcactactcttcctcccgcagtggaggaggaggaggaggaggaggatgtggaggagga ggaggagtgtcatccctaagaatttctagcagcaaaggctcccttggtggaggatttagc tcaggggggttcagtggtggctcttttagccgtgggagctctggtgggggctgctttggg ggctcatcaggtggctatggaggattaggaggttttggtggaggtagctttcgtggaagc tatggaagtagcagctttggtgggagttatggaggcatctttggagggggcagtttcgga ggtggcagctttggtgggggcagctttggtggaggcggctttggtggaggcggctttgga ggaggctttggtggtggatttggaggagatggtggccttctctctggaaatgaaaaagta accatgcagaatctgaatgaccgcctggcttcctacttggacaaagttcgggctctggaa gaatcaaactatgagctggaaggcaaaatcaaggagtggtatgaaaagcatggcaactca catcagggggagcctcgtgactacagcaaatactacaaaaccatcgatgaccttaaaaat cagattctcaacctaacaactgataatgccaacatcctgcttcagatcgacaatgccagg ctggcagctgatgacttcaggctgaagtatgagaatgaggtagctctgcgccagagcgtg gaggctgacatcaacggcctgcgtagggtgctggatgagctgaccctgaccaaggctgac ctggagatgcaaattgagagcctgactgaagagctggcctatctgaagaagaaccacgag gaggaaatgaaagaccttcgaaatgtgtccactggtgatgtgaatgtggaaatgaatgct gccccgggtgttgatctgactcaacttctgaataacatgagaagccaatatgaacaactt gctgaacaaaaccgcaaagatgctgaagcctggttcaatgaaaagagcaaggaactgact acagaaattgataataacattgaacagatatccagctataaatctgagattactgaattg agacgtaatgtacaagctctggagatagaactacagtcccaactggccttgaaacaatcc ctggaagcctccttggcagaaacagaaggtcgctactgtgtgcagctctcacagattcag gcccagatatccgctctggaagaacagttgcaacagattcgagctgaaaccgagtgccag aatactgaataccaacaactcctggatattaagatccgactggagaatgaaattcaaacc taccgcagcctgctagaaggagagggaagttccggaggcggcggacgcggcggcggaagt ttcggcggcggctacggcggcggaagctccggcggcggaagctccggcggcggccacggc ggcggccacggcggcagttccggcggcggctacggaggcggaagctccggcggcggaagc tccggcggcggctacgggggcggaagctccagcggcggccacggcggcagttccagcggc ggctacggtggtggcagttccggcggcggcggcggcggctacgggggcggcagctccggc ggcggcagcagctccggcggcggatacggcggcggcagctccagcggaggccacaagtcc tcctcttccgggtccgtgggcgagtcttcatctaagggaccaagacactaccctctgtac cccaaattgatgacaggagccttgtttcaatgggatggatttccctatagtcaaggcttc ataacctgcttagcaccaaatattagcacagcccagaggctctccattttcgttcctgtg cctctaaatgcctaa >gi568815581r:40692430_40899893|GENSCAN_predicted_peptide_6|897_aa XAFHMPVLPIQAQITPPGKVWGCSLLESPMDFSRRSFHRSLSSSLQAPVVSTVGMQRLGT TPSVYGGAGGRGIRISNSRHTVNYGSDLTGGGDLFVGNEKMAMQNLNDRLASYLEKVRTL EQSNSKLEVQIKQWYETNAPRAGRDYSAYYRQIEELRSQIKDAQLQNARCVLQIDNAKLA AEDFRLKYETERGIRLTVEADLQGLNKVFDDLTLHKTDLEIQIEELNKDLALLKKEHQEE VDGLHKHLGNTVNVEVDAAPGLNLGVIMNEMRQKYEVMAQKNLQEAKEQFERQKESLEHT LEETKARYSSQLANLQSLLSSLEAQLMQIRSNMERQNNEYHILLDIKTRLEQEIATYRRL LEGEDVNCGHLPQAMDLSNNTMSLSVRTPGLSRRLSSQSVIGRPRGMSASSVGSGYGGSA FGFGASCGGGFSAASMFGSSSGFGGGSGSSMAGGLGAGYGRALGGGSFGGLGMGFGGSPG GGSLGILSGNDGGLLSGSEKETMQNLNDRLASYLDKVRALEEANTELENKIREWYETRGT GTADASQSDYSKYYPLIEDLRNKIISASIGNAQLLLQIDNARLAAEDFRMKYENELALRQ GVEADINGLRRVLDELTLTRTDLEMQIESLNEELAYMKKNHEDEGAQEDKSIQGPRKSQW TPVPLSLTCCPQELQSFRVGGPGEVSVEMDAAPGVDLTRLLNDMRAQYETIAEQNRKDAE AWFIEKSGELRKEISTNTEQLQSSKSEVTDLRRAFQNLEIELQSQLAMKKSLEDSLAEAE GDYCAQLSQVQQLISNLEAQLLQVRADAERQNVDHQRLLNVKARLELEIETYRRLLDGEA QGDGLEESLFVTDSKSQAQSTDSSKDPTKTRKIKTVVQEMVNGEVVSSQVQEIEELM >gi568815581r:40692430_40899893|GENSCAN_predicted_CDS_6|2694_bp nnggcctttcacatgccggtgcttcccatccaagcccagatcacacctccaggaaaggtc tgggggtgctccctcctggaatctccaatggatttcagtcgcagaagcttccacagaagc ctgagctcctccttgcaggcccctgtagtcagtacagtgggcatgcagcgcctcgggacg acacccagcgtttatgggggtgctggaggccggggcatccgcatctccaactccagacac acggtgaactatgggagcgatctcacaggcggcggggacctgtttgttggcaatgagaaa atggccatgcagaacctaaatgaccgtctagcgagctacctagaaaaggtgcggaccctg gagcagtccaactccaaacttgaagtgcaaatcaagcagtggtacgaaaccaacgccccg agggctggtcgcgactacagtgcatattacagacaaattgaagagctgcgaagtcagatt aaggatgctcaactgcaaaatgctcggtgtgtcctgcaaattgataatgctaaactggct gctgaggacttcagactgaagtatgagactgagagaggaatacgtctaacagtggaagct gatctccaaggcctgaataaggtctttgatgacctaaccctacataaaacagatttggag attcaaattgaagaactgaataaagacctagctctcctcaaaaaggagcatcaggaggaa gtcgatggcctacacaagcatctgggcaacactgtcaatgtggaggttgatgctgctcca ggcctgaaccttggcgtcatcatgaatgaaatgaggcagaagtatgaagtcatggcccag aagaaccttcaagaggccaaagaacagtttgagagacagaaagagtctttggagcacact ctagaggagaccaaggcccgttacagcagccagttagccaacctccagtcgctgttgagc tctctggaggcccaactgatgcagattcggagtaacatggaacgccagaacaacgaatac catatccttcttgacataaagactcgacttgaacaggaaattgctacttaccgccgcctt ctggaaggagaagacgtaaattgtggccaccttccccaggccatggatctctccaacaac accatgtcactctcagtgcgcacccccggactgtcccggcggctctcctcgcagagtgtg ataggcagacccaggggcatgtctgcttccagtgttggaagtggttatgggggaagtgcc tttggctttggagccagctgtgggggaggcttttctgctgcttccatgtttggttctagt tccggctttgggggtggctccggaagttccatggcaggaggactgggtgctggttatggg agagccctgggtggaggtagctttggagggctggggatgggatttgggggcagcccagga ggtggctctctaggtattctctcgggcaatgatggaggccttctttctggatcagaaaaa gaaactatgcaaaatcttaatgatagattagcttcctacctggataaggtgcgagctcta gaagaggctaatactgagctagaaaataaaattcgagaatggtatgaaacacgaggaact gggactgcagatgcttcacagagcgattacagcaaatattatccactgattgaagacctc aggaataagatcatttcagccagcattggaaatgcccagctcctcttgcagattgacaat gcgagactagctgctgaggacttcaggatgaagtatgagaatgaactggccctgcgccag ggcgtagaggccgacatcaatggcctgcgccgggtgctggacgagctgaccctgaccagg accgacctggagatgcagatcgagagcctgaacgaggagctggcctacatgaagaagaac cacgaggatgaaggggcccaagaggacaaaagtatccagggcccacgaaagtcacaatgg acccctgtgcccctctctctcacatgctgtccccaggagctccaaagcttccgggtgggc ggcccaggcgaggtcagcgtagaaatggacgctgcccccggagtggacctcaccaggctc ctcaatgatatgcgggcgcagtatgaaaccatcgctgagcagaatcggaaggacgctgaa gcctggttcattgaaaagagcggggagctccgtaaggagattagcaccaacaccgagcag cttcagtccagcaagagcgaggtcaccgacctgcgtcgcgcctttcagaacctggagatc gagctacagtcccagctcgccatgaagaaatccctggaggactccttggccgaagccgag ggcgattactgcgcgcagctgtcccaggtgcagcagctcatcagcaacctggaggcacag ctgctccaggtgcgcgcggacgcagagcgccagaacgtggaccaccagcggctgctgaat gtcaaggcccgcctggagctggagattgagacctaccgccgcctgctggacggggaggcc caaggtgatggtttggaggaaagtttatttgtgacagactccaaatcacaagcacagtca actgattcctctaaagacccaaccaaaacccgaaaaatcaagacagttgtgcaggagatg gtgaatggtgaggtggtctcatctcaagttcaggaaattgaagaactaatgtaa