GENSCAN 1.0 Date run: 4-Nov-116 Time: 08:57:53 Sequence gi568815588r:102130517_102332080 : 201564 bp : 45.32% 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 + 2553 2705 153 2 0 115 94 143 0.776 15.59 1.02 Intr + 7334 7522 189 1 0 125 83 160 0.999 18.98 1.03 Intr + 8103 8249 147 2 0 32 65 205 0.986 13.03 1.04 Intr + 8363 8464 102 1 0 102 86 72 0.998 8.77 1.05 Intr + 8584 10455 1872 0 0 132 45 957 0.440 83.13 1.06 Intr + 10460 10494 35 1 2 89 69 -17 0.367 -6.48 1.07 Intr + 11109 11488 380 0 2 73 97 211 0.448 15.11 1.08 Intr + 12529 12582 54 2 0 115 100 78 0.999 10.65 1.09 Intr + 13734 13791 58 1 1 73 110 26 0.993 1.24 1.10 Intr + 14504 14574 71 2 2 75 94 97 0.996 7.83 1.11 Intr + 16156 16876 721 2 1 113 105 251 0.482 19.79 1.12 Intr + 17856 18005 150 0 0 110 89 -4 0.367 1.18 1.13 Intr + 18112 18178 67 1 1 76 73 31 0.628 -0.69 1.14 Intr + 18301 18422 122 0 2 56 98 131 0.836 10.19 1.15 Intr + 18662 18813 152 2 2 113 97 249 0.999 28.11 1.16 Intr + 19410 19509 100 1 1 69 76 89 0.583 4.97 1.17 Intr + 21852 22014 163 0 1 -25 68 234 0.458 10.08 1.18 Intr + 26503 26558 56 0 2 106 82 54 0.996 4.38 1.19 Intr + 26673 26812 140 0 2 31 95 176 0.858 12.71 1.20 Intr + 26915 27039 125 0 2 59 41 159 0.999 8.60 1.21 Intr + 27533 27698 166 1 1 100 84 151 0.999 15.43 1.22 Intr + 28677 28792 116 1 2 71 47 197 0.480 14.07 1.23 Intr + 28917 29052 136 2 1 69 62 119 0.926 7.54 1.24 Intr + 29380 29508 129 2 0 89 105 125 0.999 14.97 1.25 Intr + 29717 29827 111 0 0 22 110 80 0.932 3.95 1.26 Intr + 29936 30577 642 0 0 79 62 749 0.979 63.39 1.27 Intr + 31040 31146 107 0 2 110 106 96 0.999 13.53 1.28 Intr + 31317 31409 93 2 0 104 100 63 0.998 9.26 1.29 Intr + 31595 31723 129 1 0 98 49 119 0.222 9.89 1.30 Intr + 40158 40338 181 2 1 125 88 69 0.867 10.04 1.31 Term + 46117 46172 56 2 2 33 44 89 0.263 -3.28 1.32 PlyA + 49002 49007 6 1.05 2.00 Prom + 50620 50659 40 -4.56 2.01 Init + 56222 56295 74 1 2 103 95 38 0.533 6.54 2.02 Term + 61640 61724 85 2 1 37 46 120 0.315 -0.17 2.03 PlyA + 65968 65973 6 1.05 3.00 Prom + 82393 82432 40 -2.76 3.01 Init + 96045 96133 89 2 2 84 77 126 0.764 11.21 3.02 Intr + 97110 97241 132 0 0 88 110 133 0.983 15.26 3.03 Intr + 97901 98052 152 2 2 95 109 78 0.999 10.41 3.04 Term + 98309 98736 428 0 2 77 49 598 0.996 50.27 3.05 PlyA + 99054 99059 6 -1.75 4.05 PlyA - 99262 99257 6 1.05 4.04 Term - 100585 99998 588 1 0 160 53 919 0.990 90.12 4.03 Intr - 101274 101072 203 1 2 88 67 459 0.951 42.80 4.02 Intr - 101576 101447 130 2 1 112 103 108 0.634 14.97 4.01 Init - 104343 104338 6 0 0 82 80 0 0.195 -0.43 4.00 Prom - 106364 106325 40 -9.16 5.00 Prom + 107261 107300 40 -4.06 5.01 Init + 113000 113155 156 1 0 60 80 139 0.685 10.21 5.02 Term + 115128 115238 111 2 0 77 47 102 0.821 3.56 5.03 PlyA + 116503 116508 6 1.05 6.00 Prom + 122025 122064 40 -5.46 6.01 Init + 128423 128518 96 1 0 103 119 104 0.973 15.31 6.02 Intr + 129534 129600 67 2 1 108 111 7 0.894 3.48 6.03 Intr + 173752 173829 78 2 0 75 44 67 0.019 0.52 6.04 Term + 176433 176536 104 1 2 42 32 126 0.541 0.84 6.05 PlyA + 177731 177736 6 1.05 7.03 PlyA - 177920 177915 6 1.05 7.02 Term - 185285 185233 53 0 2 62 49 110 0.453 2.09 7.01 Init - 194390 194366 25 2 1 80 92 12 0.200 0.49 7.00 Prom - 195512 195473 40 -1.56 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): >gi568815588r:102130517_102332080|GENSCAN_predicted_peptide_1|2240_aa MAARRGRRDGVAPPPSGGPGPDPGGGARGSGWGSRSQAPYGTLGAVSGGEQVLLHEEAGD SGFVSLSRLGPSLRDKDLEMEELMLQDETLLGTMQSYMDASLISLIEDFGSLGESRLSLE DQNEVSLLTALTEILDNADSENLSPFDSIPDSELLVSPREGSSLHKLLTLSRTPPERDLI TPVDPLGPSTGSSRGSGVEMSLPDPSWDFSPPSFLETSSPKLPSWRPPRSRPRWGQSPPP QQRSDGEEEEEVASFSGQILAGELDNCVSSIPDFPMHLACPEEEDKATAAEMAVPAAGDE SISSLSELVRAMHPYCLPNLTHLASLEDELQEQPDDLTLPEGCVVLEIVGQAATAGDDLE IPVVVRQVSPGPRPVLLDDSLETSSALQLLMPTLESETEAAVPKVTLCSEKEGLSLNSEE KLDSACLLKPREVVEPVVPKEPQNPPANAAPGSQRARKGRKKKSKEQPAACVEGYARRLR SSSRGQSTVGTEVTSQVDNLQKQPQEELQKESGPLQGKGKPRAWARAWAAALENSSPKNL ERSAGQSSPAKEGPLDLYPKLADTIQTNPIPTHLSLVDSAQASPMPVDSVEADPTAVGPV LAGPVPVDPGLVDLASTSSELVEPLPAEPVLINPVLADSAAVDPAVVPISDNLPPVDAVP SGPAPVDLALVDPVPNDLTPVDPVLVKSRPTDPRRGAVSSALGGSAPQLLVESESLDPPK TIIPEVKEVVDSLKIESGTSATTHEARPRPLSLSEYRRRRQQRQAETEERSPQPPTGKWP SLPETPTGLADIPCLVIPPAPAKKTALQRSPETPLEICLVPVPALLLLVLSHLLGLPGHG APQTEPTKVEVKPVPASPHPKHKVSALVQSPQMKALACVSAEGVTVEEPASERLKPETQE TRPREKPPLPATKAVPTPRQSTVPKLPAVHPARLRKLSFLPTPRTQGSEDVVQAFISEIG IEASDLSSLLEQFEKSEAKKECPPPAPADSLAVGNSGGVDIPQEKRPLDRLQAPELANVA GLTPPATPPHQLWKPLAAVSLLAKAKSPKSTAQEGTLKPEGVTEAKHPAAVRLQEGVHGP SRVHVGSGDHDYCVRSRTPPKKMPALVIPEVGSRWNVKRHQDITIKPVLSLGPAAPPPPC IAASREPLDHRTSSEQADPSAPCLAPSSLLSPEASPCRNDMNTRTPPEPSAKQRSMRCYR KACRSASPSSQGWQGRRGRNSRSVSSGSNRTSEASSSSSSSSSSSRSRSRSLSPPHKRWR RSSCSSSGRSRRCSSSSSSSSSSSSSSSSSSSSRSRSRSPSPRRRSDRRRRYSSYRSHDH YQRQRVLQKERAIEERRVVFIGKIPGRMTRSELKQRFSVFGEIEECTIHFRVQGDNYGFV TYRYAEEAFAAIESGHKLRQADEQPFDLCFGGRRQFCKRSYSDLDSNREDFDPAPVKSKF DSLDFDTLLKQAQKNLRSRAASTTVVTRIAWRMADAGIRRVVPSDLYPLVLGFLRDNQLS EVANKFAKATGATQQDANASSLLDIYSFWLKSAKVPERKLQANGPVAKKAKKKASSSDSE DSSEEEEEVQGPPAKKAAVPAKRVGLPPGKAAAKASESSSSEESSDDDDEEDQKKQPVQK GVKPQAKAAKAPPKKAKSSDSDSDSSSEDEPPKNQKPKITPVTVKAQTKAPPKPARAAPK IANGKAASSSSSSSSSSSSDDSEEEKAAATPKKTVPKKQVVAKAPVKAATTPTRKSSSSE DSSSDEEEEQKKPMKNKPGPYSSVPPPSAPPPKKSLGTQPPKKAVEKQQPVESSEDSSDE SDSSSEEEKKPPTKAVVSKATTKPPPAKKAAESSSDSSDSDSSEDDEAPSKPAGTTKNSS NKPAVTTKSPAVKPAAAPKQPVGGGQKLLTRKADSSSSEEESSSSEEEKTKKMVATTKPK ATAKAALSLPAKQAPQGSRDSSSDSDSSSSEEEEEKTSKSAVKKKPQKVAGGAAPSKPAS AKKGKAESSNSSSSDDSSEEEEEKLKGKGSPRPQAPKANGTSALTAQNGKAAKNSEEEEE EKKKAAVVVSKSGSLKKRKQNEAAKEAETPQAKKIKLQTPNTFPKRKKGEKRASSPFRRV REEEIEVDSRVADNSFDAKRGAAGDWGERANQVLKFTKGKSFRHEKTKKKRGSYRGGSIS VQHNLKELRIEENKCQASALEVDTSKWQRKYRVFQEISLPNRNLSIQQKFIHSENMSGCH APGNYLLNYLVELSADMFIR >gi568815588r:102130517_102332080|GENSCAN_predicted_CDS_1|6723_bp atggcggcgcgccggggacggagagacggagtcgcgccgcccccgagtgggggccccggt ccggaccctggcgggggagcccgcggcagtggttggggaagtcgaagccaagcgccgtat gggactttgggcgctgtgagcggcggcgagcaggtgctgctgcatgaggaggcgggtgat tctggctttgtcagtctctctcggctgggcccatctctgagggacaaggacctggaaatg gaggagctaatgctgcaggatgagacactgctggggaccatgcagagctacatggatgcc tcccttatctccctcattgaggattttgggagccttggagagagcaggttatctctggag gaccagaatgaagtgtcgctgctcacggctctgacggagatcttggacaatgcagattct gagaacctttctccatttgacagcattcctgattcggagctgcttgtgtcaccccgggag ggctcctctctgcacaagctgcttactctctctcggacacccccagaacgtgacctcatc accccagttgacccactggggcccagtacaggcagcagtagagggagtggggttgaaatg tctcttccagatccctcttgggacttctccccaccctctttcttagagacctcttccccc aagcttcctagctggagacccccaagatcaagaccacgctggggccaatccccacctccc cagcagcgcagtgatggagaagaagaggaggaggtggccagcttcagtggccagattctt gccggggagcttgacaactgtgtgagcagtatcccggacttccccatgcatttggcctgc cctgaggaggaagataaagcaacagcagcagagatggcagtgccagcagctggtgatgag agcatctcctccctgagtgagctggtgcgggccatgcacccatactgcctgcccaacctc acccacctggcatcacttgaggatgagcttcaggagcagccagatgatttgacactgcct gagggctgcgtagtgctggagattgtggggcaggcagccacagctggcgatgacctggag atcccagttgtggtgcgacaggtctctcctggaccccggcctgtgctcctggatgactcg ctagagactagttctgccttgcagctgcttatgcctacactggagtcagagacagaggct gctgtgcccaaggtaaccctctgctctgagaaagaggggttgtcattgaactcagaggag aagctggactcagcctgcttattgaagcccagggaggtcgtggagccggtggtgcccaag gagcctcagaacccacctgccaatgcagcaccaggttcccagagagctcgaaagggcagg aagaagaagagcaaggagcagccagcagcctgtgtggaaggctatgccaggaggctgagg tcatcttctcgcgggcagtctactgtaggtacagaagtgacctctcaggtagacaacttg cagaaacagcctcaggaagaacttcaaaaagagtctgggcctctccagggtaaggggaag ccccgggcttgggctcgggcctgggcagctgccttggagaattctagccctaagaacttg gagagaagtgctggacaaagtagtcctgctaaagaaggccctctagacctctacccaaag ctggctgacactatccaaaccaatcctataccaacccatctctcattggtcgactctgcc caagccagccccatgccagttgactctgttgaagctgatcccactgcagttggccctgtt ctagctggccctgtacctgttgaccctgggttggttgaccttgcttcaaccagctcagaa ctggttgagcctctcccggctgagccagtgctgatcaacccagtcctggctgactcagca gcagttgaccctgcagtggttcccatctcagataacttgccaccagttgatgctgtcccg tctggcccagcaccagttgatctagcactggttgaccctgttcctaatgacctgactcca gttgacccagtgctagttaagtccagaccaactgatcccagacgtggtgcagtgtcatca gccctggggggttcagcaccccagctcctcgtggagtcagagtccttggacccaccaaag accatcatccctgaagtcaaagaggttgtggattctctgaaaattgaaagtggtaccagt gctacaacccatgaagccagacctcggcctctcagcttatctgagtaccggcgacgaagg cagcaacgccaagcagaaacagaagagagaagtccacagcccccaactgggaagtggcct agccttccagagactcccacagggctggcagacatcccttgtcttgtcatcccaccagcc ccagccaagaagacagctctgcagagaagccctgaaacaccccttgagatttgccttgtg cctgtcccagccctgcttctcctagtcctgagccaccttcttgggctacctggccatgga gctcctcagacagagcctaccaaggtggaggtcaagccagtgcctgcatctccccatccg aaacacaaggtgtctgccctggtgcaaagtccccagatgaaggctctagcatgtgtgtct gctgaaggtgtgactgttgaggagcctgcatcagagaggctaaagcctgagacccaagag accaggcccagggagaagccccccttgcctgctaccaaggctgttcccacaccaaggcag agcactgtccccaagctgcctgctgtccacccagcccgtctaaggaagctgtccttcctg cctaccccacgtactcagggttctgaagatgtggtacaggctttcatcagtgagattgga attgaggcatcggacctgtccagtctgctggagcagtttgagaaatcagaagccaaaaag gagtgtcctcctccggctcctgctgacagcttggctgtaggaaactcaggcggcgttgac attccccaggagaagaggcccctagaccggttacaagccccagaactggccaacgtggca gggctcacccctccagctacccctccccaccagttatggaagcccctggctgctgtctca ctgctggccaaagccaaatctcctaagtccaccgcccaggagggaaccctgaagcctgaa ggagttacggaggccaaacatccagctgcagttcgcctccaagaaggggtccatggccct agtcgagtccatgtgggctctggggaccatgactattgtgtccggagcaggaccccccca aaaaagatgcctgccctagtcattccagaggtgggctcccgatggaatgtcaagcgccat caggacatcaccatcaaacctgtcttgtccttgggcccagctgcccctccgcccccatgc atagctgcctcccgggagccgcttgatcacaggactagcagtgagcaggcagatccctca gcaccctgccttgccccatccagcttgctgtcccctgaggcctcaccctgccggaatgac atgaacactaggactccccctgaaccctcagccaagcagcggtcaatgcgctgttaccga aaagcctgcaggtcagccagcccctcaagccagggctggcagggccgccgaggccgcaac agccgttctgtcagctctgggtccaaccggactagcgaagcatcttcctcatcctcatca tcgtcttcctcatcccgatctcggtccaggtccctctcccccccacacaagaggtggcga aggtccagctgtagttcctctggacgttctcgaagatgctcttcctcttcttcgtcatca tcttcctcttcgtcttcctcatcctcatcatccagttctcgaagccgctcacgatcccca tccccccgccggagaagtgacaggaggcggcggtacagctcttatcgttcacatgaccat taccaaaggcaaagagtgctacaaaaggagcgtgcaatagaagaaagaagggtggtcttc attggaaagatacctggccgcatgactcgatcagagctgaaacagaggttctccgttttt ggagagattgaggagtgcaccatccacttccgtgtccaaggggacaactacggcttcgtc acttatcgctatgctgaggaggcatttgcagccattgagagtggccacaagctgcggcag gcagatgagcagccctttgatctctgctttgggggccgaaggcagttctgcaagaggagc tattctgatcttgactccaaccgggaagactttgacccagcacctgtaaagagcaaattt gattctcttgactttgacacattgttgaaacaggcccagaagaacctcaggagtcgtgct gcgtcgacaacggtagtgacgcgtattgcctggaggatggcggacgccggcattcgccgc gtggttcccagcgacctgtatcccctcgtgctcggcttcctgcgcgataaccaactctca gaggtggccaataagttcgccaaagcgacaggagctacacagcaggatgccaatgcctct tccctcttagacatctatagcttctggctcaagtctgccaaggtcccagagcgaaagtta caggcaaatggaccagtggctaagaaagctaagaagaaggcctcatccagtgacagtgag gacagcagcgaggaggaggaggaagttcaagggcctccagcaaagaaggctgctgtacct gccaagcgagtcggtctgcctcctgggaaggctgcagccaaagcatcagagagtagcagc agtgaagagtccagtgatgatgatgatgaggaggaccaaaagaaacagcctgtccagaag ggagttaagccccaagccaaggcagccaaagctcctcctaagaaggccaagagctctgat tctgattctgactcaagctccgaggatgagccaccaaagaaccagaagccaaagataaca cctgtgacagttaaagctcagactaaagcccctcccaaaccagctcgagcagcacctaaa atagccaatggtaaagcagccagtagcagcagtagcagcagcagcagcagtagcagtgat gactcagaggaggagaaggcagcagccacccccaagaagactgtacctaaaaagcaagtt gtggccaaggccccagtgaaagcagctaccacccctacccggaagagttctagcagtgag gattcctccagtgacgaggaagaggagcaaaaaaaacccatgaaaaataaaccaggtccc tacagttcagtccccccgccttctgctcccccaccaaagaagtctctgggaacccagcct cccaagaaggctgtggagaagcagcagcctgtggaaagcagtgaagacagcagtgatgag tctgattcaagttctgaagaagagaagaaacccccaactaaggcagtagtctctaaagca accactaaaccacctccagcaaagaaagcagcagagagctcttcagacagctcagactct gacagctctgaggatgatgaagctccttctaagccagctggtaccaccaagaattcttca aataagccagctgtcaccaccaagtcacctgcagtgaagccagctgcagcccccaagcaa cctgtgggcggtggccagaagcttctgacgagaaaggctgacagcagctccagtgaggaa gagagcagctccagtgaggaggagaagacaaagaagatggtggccaccactaagcccaag gcgactgccaaagcagctctatctctgcctgccaagcaggctcctcagggtagtagggac agcagctctgattcagacagctccagcagtgaggaggaggaagagaagacatctaagtct gcagttaagaagaagccacagaaggtagcaggaggtgcagccccttccaagccagcctct gcaaagaaaggaaaggctgagagcagcaacagttcttcttctgatgactccagtgaggaa gaggaagagaagctcaagggcaagggctctccaagaccacaagcccccaaggccaatggc acctctgcactgactgcccagaatggaaaagcagctaagaacagtgaggaggaggaagaa gaaaagaaaaaggcggcagtggtagtttccaaatcaggttcattaaagaagcggaagcag aatgaggctgccaaggaggcagagactcctcaggccaagaagataaagcttcagacccct aacacatttccaaaaaggaagaaaggagaaaaaagggcatcatccccattccgaagggtc agggaggaggaaattgaggtggattcacgagttgcggacaactcctttgatgccaagcga ggtgcagccggagactggggagagcgagccaatcaggttttgaagttcaccaaaggcaag tcctttcggcatgagaaaaccaagaagaagcggggcagctaccggggaggctcaatctct gtccagcataatctcaaggagctcaggattgaggagaacaaatgccaggcttccgccttg gaagtggatacttccaagtggcagaggaagtacagagtatttcaagaaattagcctgcca aacagaaatttatccattcagcaaaaattcatccattcagaaaatatgagtggctgccat gcgccaggaaattacctccttaattacctggtagaattgtcagcagacatgttcatccga tga >gi568815588r:102130517_102332080|GENSCAN_predicted_peptide_2|52_aa MVSPNHPPDCLGRIAFEIGHLHPDSTRLKPSSLAILVVSVIGFQCGEQQDLD >gi568815588r:102130517_102332080|GENSCAN_predicted_CDS_2|159_bp atggtcagccccaaccatcctcctgattgccttggaagaatagccttcgaaattggacat ctgcatccagatagcacccgattaaagccttcttccttggcaatacttgtcgtctcagtc attggctttcagtgtggcgagcagcaggacctggactga >gi568815588r:102130517_102332080|GENSCAN_predicted_peptide_3|266_aa MNVSHEVNQLFQPYNFELSKDMRPFFEEYWATSFPIALIYLVLIAVGQNYMKERKGFNLQ GPLILWSFCLAIFSILGAVRMWGIMGTVLLTGGLKQTVCFINFIDNSTVKFWSWVFLLSK VIELGDTAFIILRKRPLIFIHWYHHSTVLVYTSFGYKNKVPAGGWFVTMNFGVHAIMYTY YTLKAANVKPPKMLPMLITSLQILQMFVGAIVSILTYIWRQDQGCHTTMEHLFWSFILYM TYFILFAHFFCQTYIRPKVKAKTKSQ >gi568815588r:102130517_102332080|GENSCAN_predicted_CDS_3|801_bp atgaatgtctcacatgaagtaaatcagctgttccagccctataacttcgagctgtccaag gacatgaggccctttttcgaggagtattgggcaacctcattccccatagccctgatctac ctggttctcatcgctgtggggcagaactacatgaaggaacgcaagggcttcaacctgcaa gggcctctcatcctctggtccttctgccttgcaatcttcagtatcctgggggcagtgagg atgtggggcattatggggactgtgctacttaccgggggcctaaagcaaaccgtgtgcttc atcaacttcatcgataattccacagtcaaattctggtcctgggtctttcttctcagcaag gtcatagaactcggagacacagccttcatcatcctgcgtaagcggccactcatctttatt cactggtaccaccacagcacagtgctcgtgtacacaagctttggatacaagaacaaagtg cctgcaggaggctggttcgtcaccatgaactttggtgttcatgccatcatgtacacctac tacactctgaaggctgccaacgtgaagccccccaagatgctgcccatgctcatcaccagc ctgcagatcttgcagatgtttgtaggagccatcgtcagcatcctcacgtacatctggagg caggatcagggatgccacaccacgatggaacacttattctggtccttcatcttgtatatg acctatttcatcctctttgcccacttcttctgccagacctacatcaggcccaaggtcaaa gccaagaccaagagccagtga >gi568815588r:102130517_102332080|GENSCAN_predicted_peptide_4|308_aa MQSPPSMEFGLLSEAEARSPALSLSDAGTPHPQLPEHGCKGQEHSDSEKASASLPGGSPE DGSLKKKQRRQRTHFTSQQLQELEATFQRNRYPDMSTREEIAVWTNLTEARVRVWFKNRR AKWRKRERSQQAELCKGSFAAPLGGLVPPYEEVYPGYSYGNWPPKALAPPLAAKTFPFAF NSVNVGPLASQPVFSPPSSIAASMVPSAAAAPGTVPGPGALQGLGGGPPGLAPAAVSSGA VSCPYASAAAAAAAAASSPYVYRDPCNSSLASLRLKAKQHASFSYPAVHGPPPAANLSPC QYAVERPV >gi568815588r:102130517_102332080|GENSCAN_predicted_CDS_4|927_bp atgcagagccctccctccatggagttcggcctgctcagcgaggcagaggcccggagccct gccctgtcgctgtcagacgctggcactccgcacccccagctcccagagcacggctgcaag ggccaggagcacagcgactcagaaaaggcctcggcttcgctgcccggcggctccccagag gacggttcgctgaaaaagaagcagcggcggcagcgcacgcacttcaccagccagcagcta caggagctagaggcgaccttccagaggaaccgctaccccgacatgagcacgcgcgaggag atcgccgtgtggaccaacctcaccgaggcccgcgtgcgggtgtggttcaagaaccggcgc gccaaatggcggaagcgcgagcgcagccagcaggccgagctatgcaaaggcagcttcgcg gcgccgctcggggggctggtgccgccctacgaggaggtgtaccccggctactcgtacggc aactggccgcccaaggctcttgccccgccgctcgccgccaagacctttccattcgccttc aactcggtcaacgtggggcctctggcttcgcagcccgtcttctcgccacccagctccatc gccgcctccatggtgccctccgccgcggctgccccgggcaccgtgccagggcctggggcc ctgcagggcctgggcgggggcccccccgggctggctccggccgccgtgtcctccggggcc gtgtcctgcccttatgcctcggccgccgccgccgccgcggctgccgcctcttccccctac gtctatcgggacccgtgtaactcgagcctggccagcctgcggctcaaagccaaacagcac gcctccttcagctaccccgctgtgcacgggccgcccccggcagccaaccttagtccgtgc cagtacgccgtggaaaggcccgtatga >gi568815588r:102130517_102332080|GENSCAN_predicted_peptide_5|88_aa MNFWRYVEVDIGEQKFLAHLEDFPIGFPGPLNLRQAQDTNSQFSNEEENGFEETGSFSSP ICYQSRESCSETPPGCGLDMSSGCRSWD >gi568815588r:102130517_102332080|GENSCAN_predicted_CDS_5|267_bp atgaatttctggaggtatgtagaagtagatattggcgagcagaaatttttggcccactta gaggattttccaatcggctttccaggacctctcaatctgagacaggcccaggacaccaac tctcagttttcaaatgaagaggaaaatggctttgaggaaacaggctccttctcttctccc atctgctaccagagccgggagagctgctcggagacgcctccggggtgcgggctggacatg agcagcggctgccggtcctgggactag >gi568815588r:102130517_102332080|GENSCAN_predicted_peptide_6|114_aa MVDKNIYIIQGEINIVVGAIKRNARWSTHTPLDEERDPLLHSFGHLKEVLNSITAKEVLT VMGHIVCNFENITTCKDFECRIYEKVCNDHGKPAKNLLAMDKWEKLLNLADIKL >gi568815588r:102130517_102332080|GENSCAN_predicted_CDS_6|345_bp atggtggataagaatatttacatcattcaaggggagattaacattgtggttggggccatc aaacgaaatgcccgatggagcacccatacaccactggatgaagaacgggatcctctgctg catagtttcggtcatctaaaggaggttttaaacagtataacagctaaagaggtcctcaca gtcatgggccacatcgtatgtaattttgaaaacattacaacatgcaaagacttcgaatgc cggatctatgagaaggtctgtaatgaccatggaaagccagccaagaatctccttgccatg gacaaatgggagaagttactaaatttagcggacattaagctgtaa >gi568815588r:102130517_102332080|GENSCAN_predicted_peptide_7|25_aa MEIQKDQPAGVPNPKAMDHYQSVAH >gi568815588r:102130517_102332080|GENSCAN_predicted_CDS_7|78_bp atggagattcaaaaagatcagccagcaggggtccccaaccccaaggccatggaccactac cagtctgtggcccattag