GENSCAN 1.0 Date run: 7-Nov-116 Time: 16:57:40 Sequence gi568815597r:109960736_110170612 : 209877 bp : 47.45% 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 + 491 545 55 1 1 79 58 90 0.388 4.55 1.02 Intr + 24055 24437 383 2 2 80 86 411 0.805 34.73 1.03 Intr + 48299 48410 112 1 1 70 96 70 0.856 5.95 1.04 Intr + 50479 50622 144 2 0 66 98 224 0.918 21.45 1.05 Intr + 51627 51727 101 1 2 99 101 47 0.981 6.93 1.06 Intr + 52162 52264 103 0 1 103 119 70 0.999 11.35 1.07 Intr + 54028 54122 95 2 2 80 45 73 0.999 1.88 1.08 Intr + 54690 54796 107 2 2 46 92 135 0.999 8.71 1.09 Intr + 55609 55725 117 1 0 120 69 168 0.999 17.68 1.10 Intr + 55932 55995 64 0 1 80 84 55 0.963 3.02 1.11 Intr + 56760 56848 89 2 2 147 99 99 0.999 15.67 1.12 Intr + 57211 57281 71 1 2 115 99 74 0.972 10.03 1.13 Intr + 57638 57732 95 0 2 113 79 72 0.999 8.48 1.14 Intr + 57817 57915 99 0 0 119 71 91 0.998 10.81 1.15 Intr + 58316 58384 69 1 0 88 91 4 0.509 0.08 1.16 Intr + 58813 58891 79 0 1 87 92 47 0.937 4.12 1.17 Intr + 59996 60116 121 0 1 93 91 39 0.633 4.25 1.18 Intr + 73821 74082 262 0 1 16 55 227 0.059 9.69 1.19 Intr + 77156 77225 70 1 1 76 64 108 0.671 5.95 1.20 Intr + 77948 78022 75 0 0 34 81 134 0.991 6.79 1.21 Intr + 78437 78571 135 0 0 84 67 156 0.991 13.64 1.22 Intr + 78660 78780 121 1 1 49 44 141 0.948 5.35 1.23 Intr + 79792 79968 177 1 0 71 94 62 0.367 4.13 1.24 Intr + 80801 80907 107 2 2 75 49 160 0.997 10.66 1.25 Intr + 80999 81126 128 0 2 82 85 70 0.943 6.50 1.26 Intr + 82353 82535 183 2 0 91 100 270 0.991 28.48 1.27 Intr + 82904 83121 218 1 2 110 109 265 0.968 28.10 1.28 Intr + 84280 84343 64 1 1 74 109 45 0.964 3.92 1.29 Intr + 85945 86016 72 0 0 94 98 57 0.991 6.90 1.30 Intr + 86807 86881 75 1 0 51 101 28 0.519 0.11 1.31 Intr + 87037 87134 98 0 2 86 78 107 0.993 8.31 1.32 Intr + 88326 88503 178 0 1 24 80 157 0.813 8.42 1.33 Intr + 88725 88825 101 2 2 71 64 123 0.997 7.11 1.34 Intr + 89608 89674 67 1 1 89 97 68 0.876 6.71 1.35 Intr + 90221 90325 105 1 0 97 115 -24 0.753 1.61 1.36 Intr + 90948 91152 205 2 1 104 81 325 0.999 32.17 1.37 Term + 92930 93177 248 0 2 95 54 333 0.993 26.55 1.38 PlyA + 93886 93891 6 -1.95 2.09 PlyA - 93975 93970 6 -0.45 2.08 Term - 94030 93992 39 1 0 133 47 28 0.215 0.39 2.07 Intr - 96757 96605 153 1 0 -11 70 121 0.289 0.67 2.06 Intr - 98491 98432 60 1 0 98 84 33 0.531 2.83 2.05 Intr - 99711 99484 228 0 0 53 82 63 0.375 0.27 2.04 Intr - 100306 100043 264 1 0 118 65 35 0.482 1.91 2.03 Intr - 100828 100700 129 1 0 90 110 202 0.996 23.49 2.02 Intr - 104168 103852 317 0 2 104 94 371 0.893 35.08 2.01 Init - 109877 109601 277 2 1 102 92 344 0.995 33.35 2.00 Prom - 116297 116258 40 -3.76 3.03 PlyA - 118390 118385 6 1.05 3.02 Term - 120765 120691 75 0 0 55 35 120 0.565 1.24 3.01 Init - 124142 123936 207 2 0 74 32 170 0.330 9.03 3.00 Prom - 130139 130100 40 -3.86 4.00 Prom + 130629 130668 40 -0.76 4.01 Init + 139719 139730 12 2 0 65 71 9 0.062 -2.98 4.02 Intr + 142684 142778 95 0 2 98 35 94 0.179 3.86 4.03 Intr + 145401 145597 197 0 2 99 93 73 0.184 7.96 4.04 Term + 151756 152324 569 2 2 58 41 771 0.696 63.98 4.05 PlyA + 155136 155141 6 1.05 5.02 PlyA - 157348 157343 6 1.05 5.01 Sngl - 159935 159723 213 2 0 57 42 258 0.051 11.35 5.00 Prom - 176455 176416 40 -4.96 6.04 PlyA - 177821 177816 6 1.05 6.03 Term - 182420 182252 169 1 1 103 50 93 0.648 4.35 6.02 Intr - 189827 189646 182 2 2 69 47 131 0.586 5.77 6.01 Init - 190364 190281 84 2 0 56 -5 172 0.518 3.52 6.00 Prom - 190949 190910 40 -3.76 7.00 Prom + 204078 204117 40 -5.76 7.01 Init + 206195 206480 286 1 1 59 94 457 0.658 40.64 7.02 Term + 208970 209025 56 0 2 69 42 68 0.397 -1.98 7.03 PlyA + 209751 209756 6 1.05 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 73903 74082 180 0 0 109 55 203 0.840 18.29 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597r:109960736_110170612|GENSCAN_predicted_peptide_1|1530_aa MEAKKSQAEGLHLASLLAAEVAARAGRSSELLFWFSCGRRRCPAALGCRTDKAWATAPQK PTQLDAGAGRRVGDRVSEGAARAGGRAPEGERGGGGGSAAGRAGRGMSMPDAMPLPGVGE ELKQAKEIEDAEKYSFMATVTKAPKKQIQFADDMQEFTKFPTKTGRRSLSRSISQSSTDS YSSAASYTDSSDDEVSPREKQQTNSKGSSNFCVKNIKQAEFGRREIEIAEQDMSALISLR KRAQGEKPLAGAKIVGCTHITAQTAVLIETLCALGAQCRWSACNIYSTQNEVAAALAEAG VAVFAWKGESEDDFWWCIDRCVNMDGWQANMILDDGGDLTHWVYKKYPNVFKKIRGIVEE SVTGVHRLYQLSKAGKLCVPAMNVNDSVTKQKFDNLYCCRESILDGLKRTTDVMFGGKQV VVCGYGEVGKGCCAALKALGAIVYITEIDPICALQACMDGFRVVKLNEVIRQVDVVITCT GNKNVVTREHLDRMKNSCIVCNMGHSNTEIDVTSLRTPELTWERVRSQVDHVIWPDGKRV VLLAEGRLLNLSCSTVPTFVLSITATTQALALIELYNAPEGRYKQDVYLLPKKMDEYVAS LHLPSFDAHLTELTDDQAKYLGLNKNGPFKPNYYREISWRKSRESCITAAVRELSWGCGA AKMEPAVGGPGPLIVNNKQPQPPPPPPPAAAQPPPGAPRAAAGLLPGGKAREFNRNQRKD SEGYSESPDLEFEYADTDKWAAELSELYSYTEGPEFLMNRKCFEEDFRIHVTDKKWTELD TNQHRTHAMRLLDGLEVTAREKRLKVARAILYVAQGTFGECSSEAEVQSWMRYNIFLLLE VGTFNALVELLNMEIDPSTYHSILFPHWSVLVRDITYLPSWRKMLTLKISCSNSAACSSA VRKPAISLADSTDLRVLLNIMYLIVETVHQECEGDKAEWRTMRQTFRAELGSPLYNNEPF AIMLFGMVTKFCSGHAPHFPMKKVLLLLWKTVLCTLGGFEELQSMKAEKRSILGLPPLPE DSIKVIRNMRAASPPASASDLIEQQQKRGRREHKALIKQDNLDAFNERDPYKADDSREEE EENDDDNSLEGETFPLERDEVMPPPLQHPQTDRLTCPKGLPWAPKVSDTNTVVGLPRPIH ESIKTLKQHKYTSIAEVQAQMEEEYLRSPLSGGEEEVEQVPAETLYQGLLPSLPQYMIAL LKILLAAAPTSKAKTDSINILADVLPEEMPNEVLRMLVAYPGNYVSSTTVLQSMKLGVDV NRHKEVIVKAISAVLLLLLKHFKLNHVYQFEYMAQHLVFANCIPLILKFFNQNIMSYITA KNSISVLDYPHCVVHELPELTAESLEAGDSNQFCWRNLFSCINLLRILNKLTKWKHSRTM MLVVFKSAPILKRALKVKQAMMQLYVLKLLKVQTKYLGRQWRKSNMKTMSAIYQKVRHRL NDDWAYGNDLDARPWDFQAEECALRANIERFNARRYDRAHSNPDFLPVDNCLQSVLGQRV DLPEDFQMNYDLWLEREVFSKPISWEELLQ >gi568815597r:109960736_110170612|GENSCAN_predicted_CDS_1|4593_bp atggaggctaagaagtcccaggctgaggggctgcatctggcgagtcttcttgctgcggag gtggcggcgcgggcaggtcggagctcggagctgctgttctggttctcttgtggccgccgt cgctgtccggctgccttgggctgccgaacagacaaggcgtgggccacagcacctcagaag ccgacgcagctcgacgcaggggccggcaggagggtgggcgatcgcgtgtcggagggcgcc gcgcgggcaggcgggcgggcgccagagggggaaagaggcgggggcggcgggtcagccgct ggccgggccggccggggaatgtcgatgcctgacgcgatgccgctgcccggggtcggggag gagctgaagcaggccaaggagatcgaggacgccgagaagtactccttcatggccaccgtc accaaggcgcccaagaagcaaatccagtttgctgatgacatgcaggagttcaccaaattc cccaccaaaactggccgaagatctttgtctcgctcgatctcacagtcctccactgacagc tacagttcagctgcatcctacacagatagctctgatgatgaggtttctccccgagagaag cagcaaaccaactccaagggcagcagcaatttctgtgtgaagaacatcaagcaggcagaa tttggacgccgggagattgagattgcagagcaagacatgtctgctctgatttcactcagg aaacgtgctcagggggagaagcccttggctggtgctaaaatagtgggctgtacacacatc acagcccagacagcggtgttgattgagacactctgtgccctgggggctcagtgccgctgg tctgcttgtaacatctactcaactcagaatgaagtagctgcagcactggctgaggctgga gttgcagtgttcgcttggaagggcgagtcagaagatgacttctggtggtgtattgaccgc tgtgtgaacatggatgggtggcaggccaacatgatcctggatgatgggggagacttaacc cactgggtttataagaagtatccaaacgtgtttaagaagatccgaggcattgtggaagag agcgtgactggtgttcacaggctgtatcagctctccaaagctgggaagctctgtgttccg gccatgaacgtcaatgattctgttaccaaacagaagtttgataacttgtactgctgccga gaatccattttggatggcctgaagaggaccacagatgtgatgtttggtgggaaacaagtg gtggtgtgtggctatggtgaggtaggcaagggctgctgtgctgctctcaaagctcttgga gcaattgtctacattaccgaaatcgaccccatctgtgctctgcaggcctgcatggatggg ttcagggtggtaaagctaaatgaagtcatccggcaagtcgatgtcgtaataacttgcaca ggaaataagaatgtagtgacacgggagcacttggatcgcatgaaaaacagttgtatcgta tgcaatatgggccactccaacacagaaatcgatgtgaccagcctccgcactccggagctg acgtgggagcgagtacgttctcaggtggaccatgtcatctggccagatggcaaacgagtt gtcctcctggcagagggtcgtctactcaatttgagctgctccacagttcccacctttgtt ctgtccatcacagccacaacacaggctttggcactgatagaactctataatgcacccgag gggcgatacaagcaggatgtgtacttgcttcctaagaaaatggatgaatacgttgccagc ttgcatctgccatcatttgatgcccaccttacagagctgacagatgaccaagcaaaatat ctgggactcaacaaaaatgggccattcaaacctaattattacagggaaatttcctggaga aaatcacgcgagagttgcatcacggcggctgtgcgcgagttaagctgggggtgtggagca gccaagatggagccggcagtcggcggtccgggcccactgatcgtgaacaacaaacagccc cagcccccgccacctccgccgccggcagccgcacagccaccacccggggcaccgcgggcc gccgcgggcctcctgcctgggggcaaagcccgcgagttcaaccgcaaccagcgcaaagac tcagagggctattcggagtcaccagacctggagtttgagtatgctgacacagacaagtgg gctgcagagctctcggagctttacagctacacggaagggccagaattcctgatgaatcga aaatgctttgaggaggacttccggatccatgtgacagacaagaagtggactgagctggat accaaccagcaccggacccatgccatgaggctcctggatggcttggaagtcactgccagg gagaagagactcaaggtggctcgagcaattctctatgttgctcaaggcacgtttggggag tgcagctcggaggcagaggtgcagtcctggatgcgctacaacatctttctcctcctggag gtgggcacgttcaatgctttggtggagcttctgaacatggaaatagatccaagcacgtat cacagcattttgtttccccattggtcagtacttgtcagggacatcacttatcttccttct tggaggaagatgctgactctcaaaatctcctgcagcaacagtgccgcctgcagcagtgct gtgaggaagcctgccatctccctggctgacagcacagacctcagggtcctgctcaacatc atgtacctgatagtggagaccgttcatcaggagtgtgagggtgacaaggctgagtggagg accatgcggcagaccttcagagccgagctgggctccccgctgtacaacaatgagccattt gccatcatgctgtttgggatggtgaccaaattttgcagtggtcacgcccctcactttccc atgaagaaagttctcttgctgctctggaagacagtattgtgcacgctaggcggctttgag gagctgcagagcatgaaggctgagaagcgcagcatcctgggcctccccccgcttcctgag gacagcatcaaagtgattcgcaacatgagagcagcctctccaccagcatctgcttcagac ttgattgagcagcagcagaaacggggccgccgagagcacaaggctctgataaagcaggac aacctagatgccttcaacgagcgggatccctacaaggctgatgactctcgagaagaggaa gaggagaatgatgatgacaacagtctggagggggagacgtttcccctggaacgggatgaa gtgatgcctcccccgctacagcacccacagactgacaggctgacttgccccaaagggctc ccgtgggctcccaaggtcagtgacacgaacacagtggtggggctgcccaggccaatccac gaaagcatcaagactctgaaacagcacaagtacacgtcgattgcagaggtccaggcacag atggaggaggaatacctccgctcccctctctcagggggagaagaagaagttgagcaagtc cctgcagaaaccctctaccaaggcttgctccccagcctgcctcagtatatgattgccctc ctgaagatcctgttggctgcagcacccacctcaaaagccaaaacagactcaatcaacatc ctagcggacgtcttgcctgaggagatgccaaatgaggtactgcgcatgctggtggcttac ccaggcaattatgtttccagcaccacagtgttgcagagcatgaagctgggggtggatgta aaccgccacaaagaggtcattgttaaggccatttctgctgtcctgctgctgctgctcaag cactttaagttgaaccatgtctaccagtttgaatacatggcccagcacctggtgtttgcc aactgcattcctttgatcctaaagttcttcaatcaaaacatcatgtcctacatcactgcc aagaacagcatttctgtcctggattaccctcactgcgtggtgcatgagctgccagagctg acggcggagagtttggaagcaggtgacagtaaccaattttgctggaggaacctcttttct tgtatcaatctgcttcggatcttgaacaagctgacaaagtggaagcattcaaggacaatg atgctggtggtgttcaagtcagcccccatcttgaagcgggccctaaaggtgaaacaagcc atgatgcagctctatgtgctgaagctgctcaaggtacagaccaaatacttggggcggcag tggcgaaagagcaacatgaagaccatgtctgccatctaccagaaggtgcggcatcggctg aacgacgactgggcatacggcaatgatcttgatgcccggccttgggacttccaggcagag gagtgtgcccttcgtgccaacattgaacgcttcaacgcccggcgctatgaccgggcccac agcaaccctgacttcctgccagtggacaactgcctgcagagtgtcctgggccaacgggtg gacctccctgaggactttcagatgaactatgacctctggttagaaagggaggtcttctcc aagcccatttcctgggaagagctgctgcagtga >gi568815597r:109960736_110170612|GENSCAN_predicted_peptide_2|488_aa MDPEHCAPFRVGPAPGPYVASGDEPPGPQGTPAAAPHLHPAPPRGPRLTRFPACGPLEPY LPEPAKPPAKYLQDLGPGPALNGGHFYEGPAEAEEKTSKAASFPQLPLDCRGGPRDGPSN LQGSPGPCLASLHLPLSPGLPDSMELAKNKSKKRRNRTTFSTFQLEELEKVFQKTHYPDV YAREQLALRTDLTEARVQVWFQNRRAKWRKRERYGKIQEGRNPFTAAYDISVLPRTDSHP QLQNSLWASPGSGSPGGPCLVSPEGIPSPCMSPYSHPHGSVAGFMGVPAPSAAHPGIYSI HGFPPTLGGHSFEPSSDGDYKSPSLVSLRTLSKSIVISPAKTAYLAHRSGNPGKWEENAA WTEALHDEMETKRESPMMGWSQPCFPSPPAGGALVSDTKEGVKAKAQRNPSPQRHIRAEL IREEGTSVTYHAIAFTCSYGCVSINCELERSERVWYPSNLDIQGIYHRAWPQQAFKDGKG RQLDKDKR >gi568815597r:109960736_110170612|GENSCAN_predicted_CDS_2|1467_bp atggaccccgagcactgcgcgcctttccgcgtggggcctgcacccggcccctatgtggcc tcgggggacgagcctccgggcccgcagggaacccccgccgctgcgcctcacctgcacccc gcgccgccccgcggcccgcggctgacccgctttccggcctgcgggcccctggagccctac ctcccagagccggccaagccgcccgccaagtacctgcaggacctcgggcccggcccggcc ctcaacggcggccacttctacgagggccccgcggaagctgaggagaagacctccaaagct gccagcttcccccagctgcccttggactgccgagggggccccagagacgggccctctaac ttgcaaggctccccaggcccctgcctggccagcctgcatcttcctctttccccgggactc cctgactccatggagttggccaagaacaagagcaagaagcgtcgtaaccgcacgaccttc agcacattccagctggaggagctggagaaggtcttccagaaaacccactatcctgatgtg tatgcccgggagcagctggccctgcgcacagacctgactgaggcccgggtacaggtctgg ttccagaaccgcagagccaagtggcggaagcgcgagcgttatgggaagatccaggagggg cggaaccccttcacggctgcctatgacatctctgtgctgccccgtactgacagccaccct cagctgcagaactccctgtgggccagtccaggatctgggagccctggaggcccctgcctt gtgtctccagagggcatcccctccccatgcatgtctccatattcccacccccatgggagt gtggctggcttcatgggggtgccagccccttctgcggctcaccctggcatctactccatc catggctttccccccaccctggggggccacagctttgagccttcctcagatggtgactat aagtctccaagcctcgtctcgctcaggactttgtccaagtccattgtcatctctccagct aagacagcttacttggctcatcgttcagggaacccaggaaaatgggaggagaacgccgcg tggactgaagctcttcatgatgagatggaaaccaaaagggagtctcccatgatggggtgg agtcagccctgcttcccctccccaccagcagggggcgcactggtgtctgacactaaggag ggtgtaaaggccaaggcacagagaaacccaagcccacaaagacacatcagggctgagctg attcgagaggaggggacgtctgttacctatcatgctattgcttttacttgctcttatggc tgtgtctccatcaactgcgagctcgagagaagtgagagagtgtggtatcctagtaacctg gatatccagggcatctaccacagggcctggccccaacaggccttcaaggatgggaaaggc aggcagcttgacaaggacaagcgttga >gi568815597r:109960736_110170612|GENSCAN_predicted_peptide_3|93_aa MALRKRKHTQALRRTSPVGRGNPMECGTSLLGSSLRLAAATRVGRELWRRVPGPPHSIRP LVPPPVGQSSVYSQIREADVFTPKLVPPVINAE >gi568815597r:109960736_110170612|GENSCAN_predicted_CDS_3|282_bp atggccttgagaaaacgaaagcacacgcaggcactgcgccgcacaagcccagtagggcgc gggaacccgatggaatgcggaacgtcgctgctcggcagctccctacggctggcggctgcg acccgcgtgggccgcgagttgtggcggcgggttccggggcccccccacagcatccgtcct cttgtcccaccgcccgtcggacagtcgagtgtttacagccaaatacgagaggccgatgtt tttacacccaagcttgtaccccctgtcatcaatgcagaataa >gi568815597r:109960736_110170612|GENSCAN_predicted_peptide_4|290_aa MCQQASFEYLVFRPIANARDSFRPAVIESGVHASAGARRCLCSDHDPEEEGRSMAGDLQE EGAGLHVRPCAQAPGWLGWCQLLDWLVRSPVTSSGHSRLQPGQLPEHGSLLIPLSPMFLT VKLLLGQRCSLKVSGQESVATLKRLVSRRLKVPEEQQHLLFRGQLLEDDKHLSDYCIGPN ASINVIMQPLEKMALKEAHQPQTQPLWHQLGLVLAKHFEPQDAKAVLQLLRQEHEERLQK ISLEHLEQLAQYLLAEEPHVEPAGERELEAKARPQSSCDMEEKEEAAADQ >gi568815597r:109960736_110170612|GENSCAN_predicted_CDS_4|873_bp atgtgtcagcaggcctcctttgagtaccttgtgttcaggccaattgcaaatgccagagat agcttcaggccagcagttattgaatctggggtccacgcttctgctggggccaggcgatgt ctgtgctcagaccacgaccccgaagaggagggcaggagtatggctggtgatctgcaggag gagggggctggtctccacgtgagaccttgtgcccaggccccaggctggcttggttggtgt cagctgctggactggctggtgaggtcaccagtgacatctagtggtcacagcaggctacag cccgggcagctcccagagcatggatccctcctgattccactcagcccgatgttcctcaca gtcaagctgctcctgggccagagatgcagtctgaaggtgtcagggcaagagagtgtagcc acgctgaagagactggtgtccaggcggctgaaggtgcctgaggagcagcagcacctgctt ttccgtggccagctcctggaggatgacaagcacctctctgactactgcattgggcccaat gcctctatcaatgtcatcatgcagcccttggagaagatggcgctaaaggaggcccaccag ccgcagacccagcccctgtggcaccagctgggactggtcctagctaaacactttgaacca caggatgccaaggccgtgctgcagctgctaaggcaggagcacgaggagcgcctgcagaag ataagcctggagcacctggagcagctggcccagtacctcctggcagaggagcctcacgtg gagccagctggagagagggagcttgaggcgaaggcacggcctcagagctcctgtgacatg gaggagaaggaggaggcagcagctgatcagtaa >gi568815597r:109960736_110170612|GENSCAN_predicted_peptide_5|70_aa MMLMVMVVVVMATVMVLVVRVVPVMVLVATVMVMVVVVMVMVVVVMVVVCGDGGGGGGDG GGGGDGGDGV >gi568815597r:109960736_110170612|GENSCAN_predicted_CDS_5|213_bp atgatgctgatggtaatggtggtggtggtgatggcgacggtgatggtgttggtggtgagg gtggtgccggtgatggtgttggtggcgacagtgatggtgatggtggtggtggtgatggtg atggtggtggtagtgatggtggtagtgtgtggtgatggtggtggcggtggtggtgatggt ggtggtggtggtgatggtggtgatggtgtttaa >gi568815597r:109960736_110170612|GENSCAN_predicted_peptide_6|144_aa MREGERAPGLRRQATAAGAARGARDERRRRLCGAERSWAERCAHCSLAFRKATLAAGRRD AGLTHARAGVNARLSGSERGSDGRRRRRGQWSGFQVQQVIFGGNLLSVRYCAKFSQLLAE SRGKVLQSAKDNLEDVKELNNFPL >gi568815597r:109960736_110170612|GENSCAN_predicted_CDS_6|435_bp atgcgcgaaggagagcgggccccggggctccgtcgccaggcaacggcggctggagcggcg agaggagcccgggacgagcgcaggcgccggctctgcggagcagaacggagctgggcggag cgctgcgcgcactgttccctcgctttccgaaaggccaccctggcggcggggcgccgtgac gcaggcttgactcacgcgcgggccggcgtcaatgcgaggctctcgggcagcgagcgaggc tctgatggccgacgtaggcggagagggcagtggtctgggtttcaagtccagcaagtcata tttgggggaaatctactgtccgtcaggtactgtgctaagttcagccagctcctggcagaa tccagaggaaaggttttacagtcagccaaggacaacttggaagatgtcaaggagctaaac aactttcctctgtag >gi568815597r:109960736_110170612|GENSCAN_predicted_peptide_7|113_aa MPKNSKVTQREHSSEHVTESVADLLALEEPVDYKQSVLNVAGEAGGKQKAVEEELDAEDR PAWNSKLQYILAQIGFSVGLGNIWRFPYLCQKNGGVLPAIRMNNFRLLKAVET >gi568815597r:109960736_110170612|GENSCAN_predicted_CDS_7|342_bp atgccgaagaacagcaaagtgacccagcgtgagcacagcagtgagcatgtcactgagtcc gtggccgacctgctggccctcgaggagcctgtggactataagcagagtgtactgaatgtg gctggtgaggcaggcggcaagcagaaggcggtggaggaggagctggatgcagaggaccgg ccggcctggaacagtaagctgcagtacatcctggcccagattggcttctctgtgggcctc ggcaacatctggaggttcccctacctgtgccagaaaaatggaggagtgctccccgctatt cggatgaacaactttaggctcctgaaagctgttgaaacataa