GENSCAN 1.0 Date run: 5-Nov-116 Time: 09:08:59 Sequence gi568815597r:23284341_23524633 : 240293 bp : 46.24% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.12 PlyA - 1627 1622 6 1.05 1.11 Term - 26726 26114 613 1 1 95 42 461 0.752 36.16 1.10 Intr - 26982 26861 122 0 2 70 66 95 0.999 4.79 1.09 Intr - 29362 29213 150 1 0 92 97 82 0.999 9.86 1.08 Intr - 34348 34143 206 2 2 53 94 166 0.999 12.62 1.07 Intr - 37323 37188 136 0 1 95 98 73 0.998 9.14 1.06 Intr - 39392 39216 177 2 0 24 84 96 0.747 2.92 1.05 Intr - 49291 49178 114 1 0 32 107 69 0.640 3.84 1.04 Intr - 53521 53414 108 1 0 83 93 45 0.924 4.98 1.03 Intr - 54268 54150 119 2 2 82 110 104 0.999 12.18 1.02 Intr - 56680 56512 169 1 1 55 75 109 0.037 5.82 1.01 Init - 60506 60444 63 2 0 80 37 99 0.066 3.16 1.00 Prom - 66103 66064 40 -2.66 2.43 PlyA - 69272 69267 6 1.05 2.42 Term - 78881 77629 1253 0 2 76 43 1045 0.995 90.55 2.41 Intr - 82828 82702 127 1 1 -14 97 101 0.825 1.05 2.40 Intr - 83725 83633 93 1 0 109 115 26 0.581 7.56 2.39 Intr - 97191 97103 89 1 2 112 100 59 0.716 9.19 2.38 Intr - 100077 100002 76 0 1 119 31 70 0.916 3.49 2.37 Intr - 103079 102933 147 2 0 95 110 245 0.988 27.83 2.36 Intr - 109681 109539 143 2 2 30 78 295 0.944 22.77 2.35 Intr - 110705 110508 198 0 0 81 100 30 0.696 2.82 2.34 Intr - 113261 113145 117 0 0 88 51 103 0.811 7.04 2.33 Intr - 113615 113452 164 1 2 91 93 154 0.997 15.82 2.32 Intr - 124386 124324 63 2 0 78 98 33 0.220 1.13 2.31 Intr - 133050 132909 142 1 1 86 66 148 0.917 11.81 2.30 Intr - 133669 133564 106 1 1 77 66 161 0.970 12.59 2.29 Intr - 134799 134737 63 0 0 108 75 76 0.960 7.21 2.28 Intr - 138494 138291 204 2 0 96 43 96 0.937 5.30 2.27 Intr - 140344 140225 120 1 0 42 89 162 0.354 12.39 2.26 Intr - 146785 146695 91 0 1 92 74 10 0.321 -0.00 2.25 Intr - 147578 147356 223 0 1 72 77 95 0.406 3.99 2.24 Intr - 148932 148737 196 0 1 85 77 93 0.942 6.89 2.23 Intr - 149353 149085 269 2 2 100 98 166 0.528 16.05 2.22 Intr - 150029 149914 116 1 2 106 75 180 0.999 18.59 2.21 Intr - 150278 150193 86 2 2 35 80 110 0.999 3.52 2.20 Intr - 151688 151511 178 1 1 49 94 192 0.978 15.82 2.19 Intr - 152314 152220 95 1 2 65 75 65 0.999 1.66 2.18 Intr - 152704 152571 134 2 2 103 73 164 0.999 16.76 2.17 Intr - 152980 152790 191 0 2 109 67 252 0.999 24.43 2.16 Intr - 153257 153084 174 1 0 86 69 191 0.779 16.05 2.15 Intr - 154494 154400 95 0 2 70 -23 163 0.528 2.16 2.14 Intr - 154890 154821 70 2 1 65 89 28 0.831 -0.22 2.13 Intr - 156877 156762 116 1 2 15 114 97 0.693 4.25 2.12 Intr - 157133 157047 87 2 0 78 60 107 0.991 7.07 2.11 Intr - 157390 157315 76 0 1 39 92 99 0.990 4.92 2.10 Intr - 157931 157846 86 2 2 79 58 77 0.989 2.42 2.09 Intr - 158272 158161 112 0 1 70 94 97 0.992 8.88 2.08 Intr - 167188 167139 50 1 2 107 101 45 0.982 5.18 2.07 Intr - 168431 168357 75 2 0 73 109 33 0.888 3.61 2.06 Intr - 171686 171541 146 0 2 105 81 205 0.955 21.50 2.05 Intr - 171854 171782 73 2 1 77 111 67 0.999 6.88 2.04 Intr - 199812 199665 148 2 1 76 78 325 0.082 30.54 2.03 Intr - 215380 215350 31 2 1 63 95 29 0.004 -1.71 2.02 Intr - 221845 221745 101 0 2 125 45 59 0.968 5.05 2.01 Init - 222319 222282 38 1 2 98 80 111 0.982 8.79 2.00 Prom - 222870 222831 40 -7.96 3.07 PlyA - 224529 224524 6 -0.45 3.06 Term - 225808 225540 269 2 2 82 48 299 0.934 20.96 3.05 Intr - 232187 231995 193 2 1 138 96 160 0.995 20.87 3.04 Intr - 234768 234676 93 0 0 61 78 140 0.913 10.46 3.03 Intr - 236731 236548 184 0 1 64 -24 189 0.784 5.09 3.02 Intr - 237716 237497 220 0 1 137 59 473 0.938 46.66 3.01 Intr - 240148 240043 106 1 1 98 80 29 0.875 2.89 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 56668 56512 157 1 1 55 75 117 0.924 7.17 S.002 Init + 60389 60519 131 1 2 110 49 140 0.855 9.95 S.003 Init + 180586 180659 74 0 2 71 82 79 0.839 6.14 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597r:23284341_23524633|GENSCAN_predicted_peptide_1|658_aa MTERGPNAWLWACLGGTPAAGQHNKMANQVNGNAVQLKEEEEPMDTSSVTHTEHYKTLIE AGLPQKVAERLDEIFQTGLVAYVDLDERAIDALREFNEEGALSVLQQFKESDLSHVQNKS AFLCGVMKTYRQREKQGSKVQESTKGPDEAKIKALLERTGYTLDVTTGQRKYGGPPPDSV YSGVQPGIGTEVFVGKIPRDLYEDELVPLFEKAGPIWDLRLMMDPLSGQNRGYAFITFCG KEAAQEAVKLCDSYEIRPGKHLGVCISVANNRLFVGSIPKNKTKENILEEFSKVTEGLVD VILYHQPDDKKKNRGFCFLEYEDHKSAAQARRRLMSGKVKVWGNVVTVEWADPVEEPDPE VMAKVKVLFVRNLATTVTEEILEKSFSEFGKLERVKKLKDYAFVHFEDRGAAVKAMDEMN GKEIEGEEIEIVLAKPPDKKRKERQAARQASRSTAYEDYYYHPPPRMPPPIRGRGRGGGR GGYGYPPDYYGYEDYYDDYYGYDYHDYRGGYEDPYYGYDDGYAVRGRGGGRGGRGAPPPP RGRGAPPPRGRAGYSQRGAPLGPPRGSRGGRGGPAQQQRGRGSRGSRGNRGGNVGGKRKA DGYNQPDSKRRQTNNQQNWGSQPIAQQPLQQGGDYSGNYGYNNDNQEFYQDTYGQQWK >gi568815597r:23284341_23524633|GENSCAN_predicted_CDS_1|1977_bp atgaccgaaagaggcccgaacgcgtggctatgggcgtgtctggggggaacgccggccgcg gggcagcataataaaatggctaatcaggtgaatggtaatgcggtacagttaaaagaagag gaagaaccaatggatacttccagtgtaactcacacagaacactacaagacactgatagag gcaggcctcccacagaaggtggcagaaagacttgatgaaatatttcagacaggattggta gcttatgtcgatcttgatgaaagagcaattgatgctctcagggaatttaatgaagaagga gctctgtctgtactacagcagttcaaggaaagtgacttatcacatgttcagaacaaaagt gcatttttatgtggagttatgaagacctacaggcagagagagaaacaggggagcaaggtg caagagtccacaaagggacctgatgaagcgaagatcaaggccttgcttgagagaactggt tatactctggatgtaaccacaggacagaggaagtatggtggtcctccaccagacagtgtg tactctggcgtgcaacctggaattggaacggaggtatttgtaggcaaaataccaagggat ttatatgaggatgagttggtgcccctttttgagaaggccggacccatttgggatctacgt cttatgatggatccactgtccggtcagaatagagggtatgcatttatcaccttctgtgga aaggaagctgcacaggaagccgtgaaactgtgtgacagctatgaaattcgccctggtaaa caccttggagtgtgcatttctgtggcaaacaacagactttttgttggatccattccgaag aataagactaaagaaaacattttggaagaattcagtaaagtcacagagggtttggtggac gttattctctatcatcaacccgatgacaaaaagaagaatcgggggttctgcttccttgaa tatgaggatcacaagtcagcagcacaagccagacgccggctgatgagtggaaaagtaaaa gtgtggggaaatgtagttacagttgaatgggctgaccctgtggaagaaccagatccagaa gtcatggctaaggtaaaagttttgtttgtgagaaacttggctactacggtgacagaagaa atattggaaaagtcattttctgaatttggaaaactcgaaagagtaaagaagttgaaagat tatgcatttgttcattttgaagacagaggagcagctgttaaggctatggatgaaatgaat ggcaaagaaatagaaggggaagaaattgaaatagtcttagccaagccaccagacaagaaa aggaaagagcgccaagctgctagacaggcctccagaagcactgcgtatgaagattattac taccaccctcctcctcgcatgccacctccaattagaggtcggggtcgtggtggggggaga ggtggatatggctaccctccagattactacggctatgaagattactatgatgattactat ggttatgattatcacgactatcgtggaggctatgaagatccctactacggctatgatgat ggctatgcagtaagaggaagaggaggaggaaggggagggcgaggtgctccaccaccacca agggggaggggagcaccacctccaagaggtagagctggctattcacagaggggggcacct ttgggaccaccaagaggctctaggggtggcagagggggtcctgctcaacagcagagaggc cgtggttcccgtggatctcggggcaatcgtgggggcaatgtaggaggcaagagaaaggca gatgggtacaaccagcctgattccaagcgtcgtcagaccaacaaccaacagaactggggt tcccaacccatcgctcagcagccgcttcagcaaggtggtgactattctggtaactatggt tacaataatgacaaccaggaattttatcaggatacttatgggcaacagtggaagtag >gi568815597r:23284341_23524633|GENSCAN_predicted_peptide_2|2053_aa MVATRLASLLAPGFLKGLAAHTLPPTLYISGSNCSPQTSSSSITWKYPSTDPGRENSSTL APAMPEQFSVAEFLAVTAEDLSSPAGAAAFAAKMPRYRGAALAREEILEGDQAILQRIKK AVRAIHSSGLGHVENEEQYREAVESLGNSHLSQNSHELSTGFLNLAVFTREVAALFKNLI QNLNNIVSFPLDSLMKGQLRDGRQDSKKQLEKAWKDYEAKMAKLEKERDRARVTGGIPGE VAQDMQRERRIFQLHMCEYLLKAGESQMKQGPDFLQSLIKFFHAQHNFFQDGWKAAQSLF PFIEKLAASVHALHQAQEDELQKLTQLRDSLRGTLQLESREGQEHLSRKNSGCGYSIHQH QGNKQFGTEKVGFLYKKSDGIRRVWQKRKCGVKYGCLTISHSTINRPPVKLTLLTCQVRP NPEEKKCFDLVTRECLRVRLVRDTSPCGPSGFGGGSLGSGKASSISVGQKPPSLPTDNRT YHFQAEDEHECEAWVSVLQNSKDEALSSAFLGEPSAGPGSWGSAGHDGEPHDLTKLLIAE VKSRPGNSQCCDCGAADPTWLSTNLGVLTCIQCSGVHRELGVRFSRMQSLTLDLLGPSEL LLALNMGNTSFNEVMEAQLPSHGGPKPSAESDMGTRRDYIMAKYVEHRFARRCTPEPQRL WTAICNRDLLSVLEAFANGQDFGQPLPGPDAQAPEELVLHLAVKVANQASLPLVDFIIQN GGHLDAKAADGNTALHYAALYNQPDCLKLLLKGRALVGTVNEAGETALDIARKKHHKECE ELVRTRGGKGPLTLSLSLLSPQPSEPPSLCFWQLEQAQAGTFAFPLHVDYSWVISTEPGS DSEEDEEEKRCLLKLPAQAHWASGRLDISNKTYETVASLGAATPQGESEDCPPPLPVKNS SRTLVQGCARHASGDRSEVSSLSSEAPETPESLGSPASSSSLMSPLEPGDPSQAPPNSEE GLREPPGTSRPSLTSGTTPSEMYLPVRFSSESTRSYRRGARSPEDGPSARQPLPRRNVPA LLLPLCPSPRRASRANMGQEEELLRIAKKLEKMVARKNTAKATQPSLSGPRVSSSVKWEE EMVSFGDGFLWKCPELSPEKMQVWPQGPCSMEPVYSHVCAWALGSVWEGALDLLKKLHSC QMSIQLLQTTRIGVAVNGVRKHCSDKEVVSLAKVLIKNWKRLLDSPGPPKGEKGEEREKA KKKEKGLECSDWKPEAGLSPPRKKREDPKTRRDSVDSKSSASSSPKRPSVERSNSSKSKA ESPKTPSSPLTPTFASSMCLLAPCYLTGDSVRDKCVEMLSAALKADDDYKDYGVNCDKMA SEIEDHILELCRGCGCLHRLAAPIQVSLLYMALPSNSFVFLIFFGSGDQENEAVFPELLQ RVEGVGGSEACLGCSVWTETLWLVARDDFLPELKSTDMKYRNRVRSRISNLKDPRNPGLR RNVLSGAISAGLIAKMTAEEMASDELRELRNAMTQEAIREHQMAKTGGTTTDLFQCSKCK KKNCTYNQVQTRSADEPMTTFVLCNECGNRWKVSSLEDAEKPFKFCCLSGFVVLLMEQPA MNKRCLLAAFPALSPWRRTLVLEMAATLLMAGSQAPVTFEDMAMYLTREEWRPLDAAQRD LYRDVMQENYGNVVSLDFEIRSENEVNPKQEISEDVQFGTTSERPAENAEENPESEEGFE SGDRSERQWGDLTAEEWVSYPLQPVTDLLVHKEVHTGIRYHICSHCGKAFSQISDLNRHQ KTHTGDRPYKCYECGKGFSRSSHLIQHQRTHTGERPYDCNECGKSFGRSSHLIQHQTIHT GEKPHKCNECGKSFCRLSHLIQHQRTHSGEKPYECEECGKSFSRSSHLAQHQRTHTGEKP YECNECGRGFSERSDLIKHYRVHTGERPYKCDECGKNFSQNSDLVRHRRAHTGEKPYHCN ECGENFSRISHLVQHQRTHTGEKPYECNACGKSFSRSSHLITHQKIHTGEKPYECNECWR SFGERSDLIKHQRTHTGEKPYECVQCGKGFTQSSNLITHQRVHTGEKPYECTECEKSFSR SSALIKHKRVHTD >gi568815597r:23284341_23524633|GENSCAN_predicted_CDS_2|6162_bp atggtggccacacgcctggccagcctgctggctcctggcttcctgaaaggtcttgctgcc cacactctccctcccaccctctacatcagtgggtccaactgtagtcctcagaccagcagc agcagtatcacctggaaatatccttccacagatcctggaagagagaacagctccacgctc gcgcccgccatgccggagcagttcagcgtcgccgagttcctggccgtcaccgcggaggac ctcagctccccggctggggccgccgccttcgccgccaagatgccccggtaccgaggggcg gcgctggcgcgggaggagatcttggaaggagaccaagccatcctgcagagaataaagaag gctgtgcgggcaatccatagctccggccttggccatgtggagaatgaagagcagtaccga gaggccgtggaatccttaggcaacagccacctgtcccagaacagccatgagctgtccaca ggcttcctaaacttggccgtgttcacccgcgaggttgctgcgctcttcaagaacctgatt cagaacttgaacaacattgtctctttccccctggacagtctgatgaaggggcagctgagg gacggtcgacaggattccaaaaaacagctggagaaggcatggaaggactatgaagccaaa atggccaagctggagaaggagcgcgatcgggccagggtgacaggagggatccctggggag gtggcccaggacatgcagagagagcggcgcatcttccagctgcacatgtgtgagtatctg ctcaaagccggggagagccagatgaagcaaggtcctgacttccttcagagcctcatcaag ttcttccacgcccagcacaactttttccaagatggctggaaggctgcccagagcctgttc cccttcatcgagaagctggcggcctcagtacatgcactccatcaggcccaggaggacgag ctacagaagctgacccagctccgggactccctccgagggacactgcagcttgagagcaga gagggacaggaacacctgagccggaagaactcaggatgtggctatagcatccaccagcac caaggcaacaagcagtttgggacggagaaagtgggctttctatacaagaaaagtgacgga attcgaagagtctggcagaaaaggaagtgtggagtcaagtatggctgcctgaccatctca cacagcacgataaaccggcccccggtgaagctgaccctgctgacgtgccaagtgaggcca aaccctgaggagaaaaagtgcttcgacctggtgacccgtgagtgcttgagagtccgactt gtcagggacacatctccatgtggccccagcggctttggtgggggctccctgggctccggg aaggccagcagcatttctgtgggtcagaagcccccttctctcccgacagacaaccggacg taccactttcaggcagaggacgagcacgagtgtgaggcgtgggtgtcagtgttgcagaac agcaaggacgaagccctgagcagcgccttcctcggggagcccagcgctggcccggggtcc tgggggtccgccggccatgatggggagccgcacgacctcacaaagctgctcatcgcggag gtgaagagcaggcctgggaatagccagtgctgcgactgcggggctgcagaccccacgtgg ctcagcaccaacctgggcgtgctcacctgcatccagtgctcgggcgtccaccgcgaactg ggcgtgcgcttttcgcgcatgcagtcactcaccttggacctgctgggcccctccgagttg ttgctggccttgaacatgggaaacacgagcttcaatgaggtcatggaggcccagctaccc tcacacggcggccctaaaccctcagctgagagtgacatgggcacccgcagggactacatt atggccaagtatgtggagcataggtttgcacgccggtgcacacctgagcctcagcgactc tggacagccatttgcaacagggacctcctgtcggtactggaggcctttgccaatgggcag gactttggacagccgctgccagggcctgatgcacaggcacctgaagaactcgtcttgcat ttggctgtcaaagtcgccaaccaggcttccctgcctctggtggatttcatcatccagaac ggtggtcacctggatgccaaggctgctgacgggaacacggctctgcactacgcagcactc tacaaccagcccgactgcctcaagctgctgctgaaggggagagctttggttggcacagta aatgaagcaggcgagacagctctggacatagccaggaagaagcaccacaaggagtgtgag gagctggtgaggactcggggaggcaaggggcccctgactctttctctctccctgctgagc ccccaaccctctgaaccaccaagcctttgtttttggcagctggagcaggcccaggcgggg acctttgccttccctctacatgtggactactcctgggtaatttccacagagcctggctct gacagtgaggaggatgaggaagagaagcgctgcttgctgaagctcccggcccaggctcac tgggccagtgggaggctggacatcagcaacaagacctatgagactgtcgccagcctggga gcagccacccctcagggcgagagtgaggactgtcccccgcccttgccagtcaaaaactct tctcggactttggtccaagggtgtgcaagacatgccagtggagatcgttctgaagtctcc agcctgagttcagaggcccctgagacccctgagagcctgggcagtccagcctcctcctcc agtctgatgagccccttggaacctggggatcccagccaagccccacccaactctgaagag ggcctccgagagcccccaggcacctccagacccagcctgacatccgggaccaccccttcg gagatgtacctccccgtcagattcagctccgagagcactcgctcctatcggcggggggcg cggagccctgaagatggtccctcagccaggcagcctctgcccagaaggaacgtgccggcc ctactgctgcccctgtgcccctcgccccgccgggcgtcgcgggccaacatgggccaggaa gaggagctgctgaggatcgccaaaaagctggagaagatggtggccaggaagaacacggca aaagccactcaaccttccctttctggacctcgagtttcctcttctgtgaaatgggaagag gaaatggtgtcttttggagatggattcctgtggaagtgcccagagctgtcccctgaaaag atgcaagtctggccgcagggtccctgcagcatggagccagtttacagccacgtctgcgcc tgggctctcggcagtgtctgggaaggggccctggaccttctgaagaagctgcacagctgc cagatgtccatccagctactacagacaaccaggattggagttgctgttaatggggtccgc aagcactgctcagacaaggaggtggtgtccttggccaaagtccttatcaaaaactggaag cggctgctagactcccctggacccccaaaaggagaaaaaggagaggaaagagaaaaggca aagaagaaggaaaaagggcttgagtgttcagactggaagccagaagcaggcctttctcca ccaaggaaaaaacgagaagaccccaaaaccaggagagactctgtggactccaagtcttct gcctcctcctctccaaaaagaccatcggtggaaagatcaaacagcagcaaatcaaaagcg gagagccccaaaacacctagcagccccttgacccccacgtttgcctcttccatgtgtctc ctggccccctgctatctcacaggggactctgtccgggacaagtgtgtggagatgctgtca gcagccctgaaggcggacgatgattacaaggactatggagtcaactgtgacaagatggca tcagaaatcgaagatcatatccttgaactgtgccggggctgtgggtgtctgcaccgtcta gcagcacccatccaagtctctttattgtatatggctcttcccagcaacagctttgtcttc ctgatcttctttggctcaggagaccaagaaaatgaggctgtgttccccgagctcctccag agggtggagggagtgggaggctcggaagcctgcctaggatgcagtgtttggacagaaact ctgtggttggtggccagggatgacttcctgccggagctcaagagcacggacatgaagtac cggaaccgcgtgcgcagccgcataagcaacctcaaggaccccaggaaccccggcctgcgg cggaacgtgctcagtggggccatctccgcagggcttatagccaagatgacggcagaggaa atggccagtgatgaactgagggagttgaggaatgccatgacccaggaggccatccgtgag caccagatggccaagactggcggcaccaccactgacctcttccagtgcagcaaatgcaag aagaagaactgcacctataaccaggtgcagacacgcagtgctgatgagcccatgactacc tttgtcttatgcaatgaatgtggcaatcgctggaaggtctcctccttggaggatgccgag aaacctttcaaattttgttgcctttctggttttgtagttctgctgatggaacagccagcc atgaacaagcgctgtctgctagctgcttttcctgctctctctccctggaggcgaaccctt gtgctcgagatggcagccaccctgctcatggctgggtcccaggcacctgtgacgtttgaa gatatggccatgtatctcacccgggaagaatggagacctctggacgctgcacagagggac ctttaccgggatgttatgcaggagaattatggaaatgttgtctcactagattttgagatc aggagtgagaacgaggtaaatcccaagcaagagattagtgaagatgtacaatttgggact acatctgaaagacctgctgagaatgctgaggaaaatcctgaaagtgaagagggctttgaa agcggagataggtcagaaagacaatggggagatttaacagcagaagagtgggtaagctat cctctccaaccagtcactgatctacttgtccacaaagaagtccacacaggcatccgctat catatatgttctcattgtggaaaggccttcagtcagatctcagaccttaatcgacatcag aagacccacactggagacagaccctataaatgttatgaatgtggaaaaggcttcagtcgc agctcacaccttattcagcatcaaagaacacatactggggagaggccttatgactgtaac gagtgtgggaaaagttttggaagaagttctcacctgattcagcatcagacaatccacact ggagagaagcctcacaaatgtaatgagtgtggaaaaagtttctgccgtctctctcaccta atccaacaccaaaggacccacagtggtgagaaaccctatgagtgtgaggagtgtgggaaa agcttcagccggagctctcacctagctcagcaccagaggacccacacgggtgagaaacct tatgaatgtaacgaatgtggccgaggcttcagtgagagatctgatctcatcaaacactat cgagtccacacaggggagaggccctacaagtgtgatgagtgtgggaagaatttcagtcag aactccgaccttgtgcgtcatcgcagagcccacacgggagagaagccataccactgtaac gaatgtggggaaaatttcagccgcatctcacacttggttcagcaccagagaactcacact ggagagaagccatatgaatgcaatgcttgtgggaaaagcttcagccggagctctcatctc atcacacaccagaaaattcacactggagagaagccttatgagtgtaatgagtgttggcga agctttggtgaaaggtcagatctaattaaacatcagagaacccacacaggggagaagccc tacgagtgtgtgcagtgtgggaaaggtttcacccagagctccaacctcatcacacatcaa agagttcacacgggagagaaaccttatgaatgtaccgaatgtgagaagagtttcagcagg agctcagctcttattaaacataagagagttcatacggactaa >gi568815597r:23284341_23524633|GENSCAN_predicted_peptide_3|354_aa AKRKLDLEGIGRPVVPEFPTPKGKCIRVDGLPSPKTPKSPGEKTRYDTSLGLLTKKFIYL LSESEDGVLDLNWAAEVLDVQKRRIYDITNVLEGIQLIRKKAKNNIQWVGRGMFEDPTRP GKQQQLGQELKELMNTEQALDQLIQSCSLSFKHLTEDKANKRYPPWLGEGDIRAVGNFKE QTVIAVKAPPQTRLEVPDRTEDNLQIYLKSTQGPIEVYLCPEEVQEPDSPSEEPLPSTST LCPSPDSAQPSSSTDPSIMEPTASSVPAPAPTPQQAPPPPSLVPLEATDSLLELPHPLLQ QTEDQFLSPTLACSSPLISFSPSLDQDDYLWGLEAGEGISDLFDSYDLGDLLIN >gi568815597r:23284341_23524633|GENSCAN_predicted_CDS_3|1065_bp gccaaaaggaagctggatctggaggggattgggaggcccgtcgtccctgagttcccaacc cccaaggggaagtgcatcagagtggatggcctccccagccccaaaacccccaaatccccc ggggagaagactcggtatgacacttcgctggggctgctcaccaagaagttcatttacctc ctgagcgagtcagaggatggggtcctggacctgaactgggccgctgaggtgctggacgtg cagaagcggcgcatctatgacatcaccaacgtgctggaaggcatccagctcatccgcaag aaggccaagaacaacatccagtgggtaggcaggggaatgtttgaagaccccaccagacct gggaagcagcaacagctggggcaggagctgaaggagctgatgaacacggagcaggccttg gaccagctcatccagagctgctctctgagcttcaagcacctgactgaggacaaggccaac aagagatatcctccttggttgggggaaggtgatatccgtgctgttggcaactttaaggag cagacagtgattgccgtcaaggcccctccgcagacgagactggaagtgcccgacaggact gaggacaacctgcagatatatctcaagagcacccaagggcccatcgaagtctacctgtgc ccagaggaggtgcaggagccggacagtccttccgaggagcctctcccctctacctccacc ctctgccccagccctgactctgcccagcccagcagcagcaccgaccctagcatcatggag cccacagcatcctcagtgccagcaccagcgccaaccccccagcaggccccaccgcctcca tccctggtccccttggaggctactgacagcctgctggagctgccgcacccactcctgcag cagactgaggaccagttcctgtccccgaccctggcgtgcagctcccctctgatcagcttc tccccatccttggaccaggacgactacctgtggggcttggaggcgggtgagggcatcagc gatctcttcgactcctacgaccttggggacctgttgattaattga