Result of GENSCAN for
pF1KE6221
GENSCAN 1.0 Date run: 8-Nov-116 Time: 11:13:12 Sequence gi568815581r:10581122_10797507 : 216386 bp : 44.57% 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 + 10743 10817 75 1 0 108 55 50 0.463 3.19 1.02 Term + 12303 12337 35 1 2 103 49 47 0.454 0.05 1.03 PlyA + 13187 13192 6 1.05 2.04 PlyA - 14747 14742 6 1.05 2.03 Term - 17732 17610 123 2 0 67 44 79 0.410 -0.22 2.02 Intr - 18950 18858 93 2 0 26 92 86 0.387 2.96 2.01 Init - 33230 33165 66 2 0 48 42 136 0.856 6.07 2.00 Prom - 44334 44295 40 -2.76 3.47 PlyA - 45908 45903 6 1.05 3.46 Term - 47558 47532 27 2 0 94 52 68 0.977 1.87 3.45 Intr - 48613 48476 138 1 0 100 96 188 0.999 21.46 3.44 Intr - 48816 48670 147 0 0 100 89 103 0.755 12.03 3.43 Intr - 49075 48971 105 1 0 109 111 156 0.999 20.41 3.42 Intr - 49337 49167 171 2 0 64 61 417 0.959 36.74 3.41 Intr - 50615 50490 126 2 0 70 77 224 0.999 20.38 3.40 Intr - 50895 50692 204 0 0 62 94 424 0.998 39.80 3.39 Intr - 51663 51355 309 0 0 79 42 504 0.999 41.41 3.38 Intr - 52594 52470 125 2 2 72 105 189 0.999 19.30 3.37 Intr - 53061 52896 166 0 1 41 68 200 0.979 12.83 3.36 Intr - 53902 53719 184 0 1 73 70 226 0.999 19.09 3.35 Intr - 54442 54246 197 1 2 92 25 354 0.996 27.71 3.34 Intr - 54732 54614 119 1 2 86 81 96 0.999 8.88 3.33 Intr - 56814 56688 127 0 1 110 107 150 0.999 19.35 3.32 Intr - 57311 56910 402 2 0 76 23 815 0.535 68.42 3.31 Intr - 57842 57752 91 1 1 106 91 73 0.939 9.40 3.30 Intr - 58068 57923 146 0 2 29 21 160 0.997 2.48 3.29 Intr - 58353 58177 177 0 0 70 105 184 0.999 18.42 3.28 Intr - 58681 58439 243 1 0 61 61 422 0.996 34.49 3.27 Intr - 59130 58875 256 2 1 55 49 406 0.890 30.85 3.26 Intr - 59348 59212 137 2 2 75 27 144 0.978 6.37 3.25 Intr - 59565 59442 124 2 1 74 90 130 0.999 12.39 3.24 Intr - 60081 59964 118 1 1 100 93 97 0.999 10.92 3.23 Intr - 60251 60164 88 2 1 77 94 31 0.910 2.14 3.22 Intr - 61189 61119 71 2 2 84 90 27 0.918 1.40 3.21 Intr - 61602 61296 307 0 1 59 95 438 0.798 37.62 3.20 Intr - 61875 61684 192 0 0 44 77 460 0.831 40.19 3.19 Intr - 63379 63230 150 1 0 76 68 101 0.993 7.26 3.18 Intr - 63581 63463 119 0 2 80 92 54 0.996 5.18 3.17 Intr - 64724 64586 139 2 1 112 82 270 0.999 28.84 3.16 Intr - 64911 64808 104 1 2 91 105 215 0.999 23.39 3.15 Intr - 66159 66061 99 1 0 44 66 110 0.835 4.48 3.14 Intr - 66305 66242 64 2 1 56 89 98 0.970 4.99 3.13 Intr - 67528 67436 93 1 0 49 59 127 0.933 6.06 3.12 Intr - 68564 68456 109 1 1 58 75 156 0.997 11.59 3.11 Intr - 69280 69253 28 2 1 93 113 10 0.995 1.17 3.10 Intr - 70537 70391 147 2 0 -4 105 320 0.689 24.71 3.09 Intr - 71442 71232 211 0 1 88 87 352 0.701 33.59 3.08 Intr - 73951 73740 212 2 2 80 86 326 0.728 30.23 3.07 Intr - 100132 100093 40 1 1 143 101 -39 0.106 0.70 3.06 Intr - 105721 105606 116 2 2 93 73 105 0.933 9.67 3.05 Intr - 110843 110751 93 0 0 45 63 96 0.862 2.74 3.04 Intr - 111840 111643 198 1 0 59 82 166 0.928 12.42 3.03 Intr - 116183 115940 244 2 1 34 33 150 0.332 1.17 3.02 Intr - 116495 116375 121 1 1 49 -11 160 0.469 2.70 3.01 Init - 116913 116819 95 0 2 73 97 22 0.977 1.72 3.00 Prom - 117293 117254 40 -4.86 4.00 Prom + 121851 121890 40 -5.06 4.01 Init + 123806 124406 601 1 1 50 63 364 0.979 25.55 4.02 Intr + 125317 125433 117 2 0 72 80 87 0.970 6.74 4.03 Term + 129713 130023 311 0 2 121 34 130 0.925 6.12 4.04 PlyA + 130083 130088 6 1.05 5.05 PlyA - 131283 131278 6 1.05 5.04 Term - 144488 144343 146 0 2 64 55 49 0.517 -2.73 5.03 Intr - 145143 145083 61 0 1 124 75 26 0.862 3.21 5.02 Intr - 147939 147910 30 0 0 92 89 38 0.831 2.63 5.01 Init - 148730 148659 72 2 0 103 71 173 0.991 16.98 5.00 Prom - 152678 152639 40 -1.86 6.00 Prom + 153311 153350 40 -7.96 6.01 Init + 153798 153803 6 2 0 80 103 0 0.389 1.67 6.02 Intr + 155421 155442 22 2 1 68 116 4 0.353 -1.68 6.03 Intr + 155481 155517 37 1 1 86 113 22 0.511 1.82 6.04 Intr + 158201 158385 185 2 2 142 53 52 0.692 6.53 6.05 Intr + 173154 173241 88 1 1 49 106 48 0.194 1.73 6.06 Intr + 186744 186814 71 0 2 108 80 47 0.419 4.73 6.07 Intr + 188808 188936 129 1 0 93 86 17 0.427 2.67 6.08 Intr + 214550 214711 162 0 0 21 80 104 0.004 2.85 6.09 Intr + 215152 215352 201 2 0 98 62 51 0.006 2.76 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815581r:10581122_10797507|GENSCAN_predicted_peptide_1|36_aa XEVFQNVEGPHTLHTGTYRGYPTLQGLLNFDTIDKL >gi568815581r:10581122_10797507|GENSCAN_predicted_CDS_1|111_bp nctgaggtctttcagaatgtagaaggacctcatacgcttcacactgggacctacagaggc tacccaactctccaagggcttctcaactttgatactattgacaagttgtag >gi568815581r:10581122_10797507|GENSCAN_predicted_peptide_2|93_aa MTDRGYRPLSDISGTVIQQIFLYLFDLPHIFEDKLHENKTCSYHRNQKNAWNILSKPYAI FTHSSRIICSFPSIKMSAKIYLLVKFNLQEKSC >gi568815581r:10581122_10797507|GENSCAN_predicted_CDS_2|282_bp atgacggaccgtggctaccgaccgctcagtgacatcagcggcaccgtcattcagcagata tttctgtacttatttgacctgcctcacatatttgaagacaagctccatgagaacaaaact tgttcatatcaccggaaccagaagaatgcctggaatatactcagcaaaccatatgctata ttcactcactcctcaaggatcatctgctcctttccaagtattaagatgtcagcgaaaatc taccttctggtgaaatttaatctgcaggagaagagctgctga >gi568815581r:10581122_10797507|GENSCAN_predicted_peptide_3|2292_aa MGRFLFQRCKGVNILALPLGRQDEVDKVGQTSATNERDGQSDSFRLPEEAERYRKSRGGS KETRSPRLMAMLHCEAATPVVAEGPRRLHAPLEARGECTPGTLLVLVAAVGQPSGHIPLG RNLRHYSASPKVVLSLRALPGSWNFILHFPCLAELEKERQRHIGKPLLGGPFSLTTHTGE RKTDKDYLGQWLLIYFGFTHCPDVCPEELEKMIQVVDEIDSITTLPDLTPLFISIDPERD TKEAIANYVKEFSPKLVGLTGTREEVDQVARAYRVYYSPGPKDEDEDYIVDHTIIMYLIG PDADTMSSDTEMEVFGIAAPFLRKSEKERIEAQNQPFDAKTYCFVVDSKEEYAKGKIKSS QDGKVTVETEDNRTLVVKPEDVYAMNPPKFDRIEDMAMLTHLNEPAVLYNLKDRYTSWMI YVSEGFRRGFPGALDMRAGEGGRGLFCVTVNPYKWLPVYNPEVVEGYRGKKRQEAPPHIF SISDNAYQFMLTDRENQSILITGESGAGKTVNTKRVIQYFATIAATGDLAKKKDSKMKGT LEDQIISANPLLEAFGNAKTVRNDNSSRFGKFIRIHFGTTGKLASADIETYLLEKSRVTF QLKAERSYHIFYQILSNKKPELIELLLITTNPYDYPFISQGEILVASIDDAEELLATDSA IDILGFTPEEKSGLYKLTGAVMHYGNMKFKQKQREEQAEPDGTEVADKTAYLMGLNSSDL LKALCFPRVKVGNEYVTKGQTVDQVHHAVNALSKSVYEKLFLWMVTRINQQLDTKLPRQH FIGVLDIAGFEIFEYNSLEQLCINFTNEKLQQFFNHHMFVLEQEEYKKEGIEWTFIDFGM DLAACIELIEKVSSSIPTPMGIFSILEEECMFPKATDTSFKNKLYDQHLGKSNNFQKPKV VKGRAEAHFSLIHYAGTVDYSVSGWLEKNKDPLNETVVGLYQKSSNRLLAHLYATFATAD ADSGKKKVAKKKGSSFQTVSALFRENLNKLMSNLRTTHPHFVRCIIPNETKTPGAMEHSL VLHQLRCNGVLEGIRICRKGFPNRILYGDFKQRYRVLNASAIPEGQFIDSKKACEKLLAS IDIDHTQYKFGHTKVFFKAGLLGTLEEMRDDRLAKLITRTQAVCRGFLMRVEFQKMVQRR ESIFCIQYNIRSFMNVKHWPWMKLFFKIKPLLKSAETEKEMATMKEEFQKTKDELAKSEA KRKELEEKLVTLVQEKNDLQLQVQAESENLLDAEERCDQLIKAKFQLEAKIKEVTERAED EEEINAELTAKKRKLEDECSELKKDIDDLELTLAKVEKEKHATENKVKNLTEELSGLDET IAKLTREKKALQEAHQQALDDLQAEEDKVNSLNKTKSKLEQQVEDLESSLEQEKKLRVDL ERNKRKLEGDLKLAQESILDLENDKQQLDERLKKKDFEYCQLQSKVEDEQTLGLQFQKKI KELQARIEELEEEIEAERATRAKTEKQRSDYARELEELSERLEEAGGVTSTQIELNKKRE AEFLKLRRDLEEATLQHEAMVAALRKKHADSVAELGEQIDNLQRVKQKLEKEKSEFKLEI DDLSSSMESVSKSKVLRGANLEKICRTLEDQLSEARGKNEEIQRSLSELTTQKSRLQTEA GELSRQLEEKESIVSQLSRSKQAFTQQTEELKRQLEEENKAKNALAHALQSSRHDCDLLR EQYEEEQEGKAELQRALSKANSEVAQWRTKYETDAIQRTEELEEAKKKLAQRLQDSEEQV EAVNAKCASLEKTKQRLQGEVEDLMVDVERANSLAAALDKKQRNFDKVLAEWKTKCEESQ AELEASLKESRSLSTELFKLKNAYEEALDQLETVKRENKNLEQEIADLTEQIAENGKTIH ELEKSRKQIELEKADIQLALEEAEAALEHEEAKILRIQLELTQVKSEIDRKIAEKDEEIE QLKRNYQRTVETMQSALDAEVRSRNEAIRLKKKMEGDLNEIEIQLSHANRQAAETLKHLR SVQGQLKDTQLHLDDALRGQEDLKEQLAIVERRANLLQAEVEELRATLEQTERARKLAEQ ELLDSNERVQLLHTQNTSLIHTKKKLETDLMQLQSEVEDASRDARNAEEKAKKAITDAAM MAEELKKEQDTSAHLERMKKNLEQTVKDLQHRLDEAEQLALKGGKKQIQKLETRIRELEF ELEGEQKKNTESVKGLRKYERRVKELTYQSEEDRKNVLRLQDLVDKLQVKVKSYKRQAEE AVSEIGADCGRQTVLFPVDEQANAHLTKFRKAQHELEEAEERADIAESQVNKLRAKTRDF TSSRMVVHESEE >gi568815581r:10581122_10797507|GENSCAN_predicted_CDS_3|6879_bp atgggtcggtttctatttcaaagatgtaaaggagtcaacattctggcacttcctcttggc cggcaggacgaggttgacaaagtcggccagacaagcgccaccaacgagcgggacggacag agcgactccttccgacttccggaggaagcggaacgctaccggaaatcgcggggagggtca aaggagacccggtctccgaggctcatggcgatgctgcactgcgaggccgccacccccgtg gtcgcagaagggccccggagactccacgcgcccctcgaagcccggggtgagtgcacacct ggaacccttctggtgctcgtcgcggctgtcggccagcccagcggccacatcccacttggt cgtaacctcagacactactccgcctcccctaaagttgtccttagcttgcgcgccttacct gggtcatggaatttcatcctacatttcccgtgccttgcggagttagagaaggaacggcag cgacacatcggcaagcctttacttgggggaccgttttccctcacaactcatactggggag cgtaaaactgacaaggactacttgggtcagtggttattgatttattttggcttcactcat tgccctgatgtctgtccagaagaactagaaaagatgattcaagtcgtggatgaaatagat agcattacaactctgccagatctaactccacttttcatcagcattgacccagagagggac acaaaagaagccatcgcaaattatgtgaaagaattttctcccaaactggttggcttgact ggcacgagagaagaggtcgatcaagtggccagagcatacagagtgtattacagccctggc cccaaggacgaagatgaagactacatagtggatcacacaataataatgtacttgattgga ccagatgctgacaccatgagtagtgacactgaaatggaagtgttcggcatagctgctcct ttcctccggaagtcagaaaaggagaggatcgaggctcagaaccagccctttgatgccaag acgtattgcttcgtggtggactcaaaggaagaatatgccaaggggaaaatcaagagttct caggatgggaaggtcactgtggaaactgaggacaacaggaccctggtggtcaaaccagag gatgtgtacgccatgaacccccccaagttcgacaggatcgaagacatggccatgctgacg cacctgaatgagccagccgtgctgtacaacctgaaggaccgttacacatcttggatgatc tatgtcagcgagggctttcgacgtggtttccctggggcattagatatgcgggcaggggag ggaggcagaggcctcttctgtgtcactgtcaacccctacaagtggctgccggtgtacaac cccgaggtggtggaaggctaccgaggcaaaaagcgccaggaggccccaccccacatcttc tccatctctgacaacgcctatcagttcatgctgactgatcgtgaaaaccagtccattctg atcaccggagaatccggggcaggaaagactgtgaacaccaaacgggtcatccagtacttt gcaacaattgcagctactggggacctggccaagaagaaggactccaaaatgaaggggact ctggaagatcaaatcatcagtgccaatcccctgctggaggcctttgggaacgccaagact gtgaggaatgacaactcctcccgttttggcaagttcatccgaatccattttggaaccact gggaagctggcctctgcagatattgaaacttatcttctggaaaaatcaagagtcactttc cagctgaaggctgaaagaagctaccacatcttctaccagattctttctaacaagaagcct gagctcatagagctgctgcttattacgaccaacccttacgactacccgttcattagccag ggggagatcctggtggccagcatagatgatgcagaggagctgctggctacagacagcgcc attgacatcctgggcttcaccccagaagagaaatctgggctctacaagctgacgggagcc gtgatgcactacgggaacatgaagttcaagcagaagcagcgagaggagcaggccgagccg gatggcacagaagtggctgacaaaacagcctatctgatgggcctgaactcttcggacctc ctaaaagctttgtgctttcctagagtgaaagttgggaatgagtacgttaccaaaggtcaa actgtggatcaggttcaccatgctgtgaatgctctttcaaaatcagtttatgaaaagttg ttcttgtggatggtcactcgcattaaccagcaactggatacgaagcttccaagacaacac ttcattggtgttttggacattgcaggctttgaaatctttgagtataacagcctggagcag ctgtgcatcaacttcaccaatgagaaactgcaacagtttttcaaccaccacatgttcgtg ctggagcaggaggagtacaagaaggaaggcatcgagtggacgttcattgacttcgggatg gacctggctgcctgcatcgagctcatcgagaaggtatccagttccatccccacccctatg ggcatcttctccatcctggaagaggagtgcatgttccccaaggcaacagacacctccttc aagaacaagctgtatgaccagcatcttggaaagtccaacaacttccagaagcccaaggtg gtcaaaggcagggccgaggctcacttctcactgatccactatgcgggcaccgtggactac agtgtctcaggttggctggagaagaacaaggaccctctgaacgagactgtggttgggctg taccagaagtcttccaacaggctcctggcacacctctatgccacgtttgccacggcggat gctgacagtggaaagaagaaagttgccaagaagaagggttcttccttccaaactgtctct gcccttttcagggaaaacctgaacaagctgatgtcaaatttaagaactactcaccctcat tttgtgcgttgtataattcccaatgaaaccaaaactccaggggctatggaacacagcctt gttctgcaccagctgcggtgtaacggtgtcctggagggcatccgcatctgcaggaaaggg ttcccaaacaggattctctatggcgattttaaacaaagataccgagtgctgaatgccagt gcaatccctgagggacaattcattgacagcaagaaagcctgtgaaaagcttctggcatcc attgatattgaccacactcagtacaaatttggacataccaaggtgttcttcaaggctggc ttgctgggaaccctggaagagatgcgggatgaccgcctggccaaactaatcacccggaca caagctgtgtgcagagggttcctcatgcgtgtggaattccagaagatggtgcagaggagg gagtccatcttctgcatccagtacaacattcgctcattcatgaacgtcaagcactggccc tggatgaaactcttcttcaagatcaagcccctcctcaagagtgcagagactgagaaagag atggccaccatgaaggaagaattccagaaaaccaaagatgaactcgccaagtcggaggca aaaaggaaggagctagaggaaaaactggtgactctggtccaagagaagaatgacctgcag ctccaagtacaagctgaaagcgaaaatttgttggatgctgaggaaagatgcgatcagctg atcaaagccaaattccagctcgaggccaagatcaaggaggtgacagagagagctgaagat gaggaggagatcaatgctgagctgacggccaagaagaggaaactggaggatgaatgctca gagctcaagaaagacattgatgaccttgagttgaccctggccaaggttgagaaggagaag catgccacagagaacaaggttaaaaaccttactgaggaactctctgggttagatgaaaca attgcaaagttaaccagagagaagaaggccctccaagaggcgcaccagcaggccttggat gacctccaagctgaagaagacaaagtcaattctttgaacaaaaccaagagcaaactggaa cagcaagtggaagacctggaaagctccctagaacaagaaaagaagctccgagtagacctg gaaaggaacaaaaggaaattggaaggagacttgaagcttgctcaagagtccatattagat ctggagaatgacaagcaacagctggacgaaaggctcaagaagaaagattttgaatattgt caacttcaaagcaaagtggaagatgagcagacactgggcctccagtttcagaagaaaatc aaagagttgcaggctcgaattgaggagctggaagaggagatagaggcggagagggccacc cgcgcgaagacagagaaacagcgcagcgactatgcccgggagctggaggagctgagcgag cggctggaggaggcgggaggcgtcacctccacgcagatagagctcaacaagaagcgggag gcggagttcctgaagctgcgcagggacctggaggaggccacactgcagcacgaagccatg gtggccgcgctgaggaagaagcatgcggatagtgtggccgagcttggggagcagattgac aacctgcagcgggtcaagcagaagctggagaaggagaagagcgagttcaagctggagatc gatgacctctccagcagcatggagagtgtgtcgaaatctaaggtgctgcgcggggcaaat ctggaaaaaatctgccgaaccctggaggatcagttaagtgaggccaggggcaagaatgag gaaattcagaggagcctgagcgagctgaccacacagaagtctcgtttgcagaccgaggct ggtgagctgagtcgtcagctggaagaaaaagaaagcatagtatcccaactttccaggagc aagcaagcctttacccagcaaacagaagagctcaagaggcagctggaggaagagaacaag gccaagaacgccctggcgcacgccctgcagtcctcccgccacgactgtgacctgctgcgg gaacagtatgaggaggagcaggaaggcaaagctgagctgcagagggcgctgtccaaggcc aatagtgaggttgcccagtggagaaccaaatacgagacggacgccatccagcgcacagaa gagctggaggaggccaagaaaaaacttgctcagcgccttcaagattccgaggaacaggtt gaggcagtgaatgctaaatgtgcttcactggagaagaccaagcagaggctgcaaggagag gtggaggatctgatggttgatgttgaaagagccaattccttggccgccgctctggacaag aagcagaggaactttgacaaggtgttggcagagtggaagacaaagtgtgaggagagccaa gcagagctggaggcatccctgaaggagtcccgctccttgagcactgagctcttcaaactg aaaaatgcctacgaggaagccttagatcaacttgaaactgtgaaacgggaaaataagaac ttagagcaggagatagcagatctcacagaacaaattgctgaaaatggcaaaaccatccat gaactggagaaatcaagaaagcagattgagctggaaaaggctgatatccagctggctctc gaggaagcagaggctgctcttgagcatgaagaagccaagatcctccgaatccagcttgaa ttgacacaagtgaaatcagaaattgatagaaagatcgccgagaaggatgaagagatcgag cagctgaagaggaactaccagagaacagtggaaaccatgcagagcgccctggacgccgag gtgcggagcaggaatgaagccatccggctcaagaagaagatggagggggacctgaatgaa atcgagatccagctgagccacgccaaccgccaggcggcggagaccctcaaacacctcagg agtgtccagggacagctgaaggatacgcagctccacctggatgatgccctccggggccag gaggacctgaaggagcagctggcgattgtggagcgcagagccaacctgctgcaggccgag gtggaggagctgcgggctactctggagcagacggagagggcccggaaactggcggaacag gagctcctggactccaacgagagggtgcagctgctgcatacccagaacaccagcctcatc cacaccaagaagaagctggagacagacctcatgcagctccagagtgaggtagaagatgcc agcagggatgcaaggaacgctgaggagaaggccaagaaggccatcacggacgctgccatg atggcggaggagctgaagaaggagcaggacaccagcgcccaccttgagcggatgaagaag aacctggaacagacggtgaaggacctgcagcatcgtctagatgaggccgagcagctggcg ctgaagggcgggaagaagcagatccagaaactggagaccaggatccgagagctggagttt gaacttgagggagagcagaagaagaacacagagtctgttaagggcctgaggaagtatgag cggagggtcaaggagctgacgtaccagagtgaagaggacaggaagaatgtgctgagattg caggatctggtggataaactgcaagtgaaagtcaagtcctacaagaggcaggcggaggag gctgtaagtgagataggtgctgactgcggcaggcagaccgtgctgtttcccgtggatgaa caagccaatgctcatctcaccaaattccgaaaggctcagcatgagctggaggaggccgag gaacgtgcggatatcgcagaatctcaagtcaacaagctccgcgctaagactcgagacttc acctccagcaggatggtggtccacgagagtgaagagtga >gi568815581r:10581122_10797507|GENSCAN_predicted_peptide_4|342_aa MDDKPNPEALSDSSERLFSFGVIADVQFADLEDGFNFQGTRRRYYRHSLLHLQGAIEDWN NESSMPCCVLQLGDIIDGYNAQYNASKKSLELVMDMFKRLKVPVHHTWGNHEFYNFSREY LTHSKLNTKFLEDQIVHHPETMPSEDYYAYHFVPFPKFRFILLDAYDLSVLGVDQSSPKY EQCMKILREHNPNTELNSPQGLSEPQFVQFNGGFSQEQLNWLNEVLTFSDTNQEKVVIVS HLPIYPDASDNVCLAWNYRDALAVIWSHECVVCFFAGHTHDGGYSEDPFGVYHVNLEGVI ETAPDSQAFGTVHVYPDKMMLKGRGRVPDRIMNYKKERAFHC >gi568815581r:10581122_10797507|GENSCAN_predicted_CDS_4|1029_bp atggatgataaacccaatcctgaagccctaagtgacagttcagagcgtcttttctccttt ggcgtcatcgcagatgttcaatttgcagacttagaagatggctttaatttccaaggaacc aggcggcgatactacagacatagtcttcttcacttacagggtgccattgaagactggaat aatgaaagcagcatgccctgttgtgtccttcagcttggagatatcatcgatggatataat gcacagtataatgcatccaaaaagtccctagaacttgttatggacatgttcaagaggctt aaagttccagttcatcatacatggggaaaccatgaattctataacttcagtagagagtat ttaacacactctaaacttaacactaagtttctagaagatcagattgtacatcatcctgag accatgccttcagaagattattatgcttatcattttgtaccattccctaaattccggttc attttacttgatgcatatgacttgagtgtcttgggcgtggatcagtcttctccaaaatac gagcagtgtatgaagatattgagggagcacaatccaaatacggaactgaatagtcctcaa ggactttctgagccccagtttgtccagtttaatggaggattcagccaagaacagctaaac tggttgaatgaagtgctaacattctctgacacaaaccaagaaaaggtggtgattgtgagc catcttcccatttacccggacgcctctgacaatgtgtgcctggcctggaactacagagat gccctggcagtcatttggtctcatgagtgtgtggtgtgtttctttgctggtcacacccat gatggtggctactctgaggatccttttggtgtataccacgtcaacctagaaggagttatt gaaacagctccagacagccaagcctttggcacagttcatgtctatcctgacaaaatgatg ttgaaagggagaggcagagttccagatagaattatgaattacaagaaagaaagagccttc cattgttag >gi568815581r:10581122_10797507|GENSCAN_predicted_peptide_5|102_aa MAPALWRACNGLMAAFFALAALVQVNDPDAEVWVVVYTIPAVLTLLVGLNPEVTVALQPP IHIFTMPRPVEYGLCFFTLPKSQNAVAGSDCLSVCADPNHCG >gi568815581r:10581122_10797507|GENSCAN_predicted_CDS_5|309_bp atggcgccagcgctgtggcgggcctgcaacggactcatggccgccttcttcgcgctggcg gccttggtgcaggtaaatgacccagatgcagaggtgtgggtggtggtgtacacaatccct gcagtactgaccctgcttgttggacttaaccctgaagtcacagtggccctgcagcccccc attcacatcttcacgatgccacgtccagtggaatatggactgtgtttcttcactctacca aagtctcagaatgcagttgctggctctgattgcttgtccgtttgtgctgatccaaatcac tgtggctga >gi568815581r:10581122_10797507|GENSCAN_predicted_peptide_6|301_aa MQTMPQISEVAPDIPGYKQYPRWIQGTHLSTKDIAVNETDNSHLMFLCEAYLPAPLTAYG SGVKNQHLNLVCKALRTQSTAQPVTSVLPAEGVGFFLRSLSLSFARSLLCDLGSCGAIAE EKLLEQRAPCPGMLHLVPSVPSFDLWQRLAPKWALSLERIWPAFDTSTQQAGVFLVVLKA PSRAPDKNLLATQALHKQLAQQQRCQIWCRDAGLVMESGTCQKPGITAILGHPRKADAYL SLLSGFCLNLHLGCDHRFIFVYHVSILFSSLLTFSPPLTVLLNVLYPFSKNSHLSTVMPA X >gi568815581r:10581122_10797507|GENSCAN_predicted_CDS_6|903_bp atgcagactatgccacaaatttcagaagtagcacctgacatacctggatataaacaatat ccaagatggatccaaggcactcatctaagcactaaggatatagcagtgaacgaaacagac aactcccacctgatgttcttgtgtgaagcttaccttccagcacccctcactgcctatggc tctggggttaaaaaccaacatttgaacctggtctgcaaagccctgcgtactcagagcact gcccagcctgtcacttccgtgctgccagcagagggcgtgggattcttcctgaggagcctg agtctcagctttgccaggtccttgctgtgtgaccttggctcctgtggggctattgcagag gagaaacttctggaacagagagctccttgtccagggatgctgcatctggtaccttcagta ccttcctttgatctctggcaaaggctggctcccaagtgggcgctgtccctagagagaatc tggcctgcatttgacaccagtactcagcaggctggcgttttcctagttgtcttgaaagcc cccagcagggctcctgataaaaacctgctagctactcaggcccttcataaacagctggca caacagcagcgatgtcagatctggtgcagggatgctgggcttgtgatggagtctggaacc tgccagaagcctggcatcacagccattctcggacatcctcgcaaagccgatgcctacctc tctctgctctctggattctgcctcaacctccaccttggatgtgatcacaggttcatcttc gtctatcacgtcagcatcctcttttcctctctgctgactttctctcctccacttaccgtc ttgctcaatgttctatatcccttctctaagaattcccaccttagcacggttatgccagca gnn