GENSCAN 1.0 Date run: 2-Nov-116 Time: 21:00:01 Sequence gi568815597r:16150673_16415418 : 264746 bp : 48.88% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.10 Intr - 291 220 72 1 0 136 66 66 0.648 8.58 1.09 Intr - 2450 2441 10 2 1 101 116 0 0.371 -2.07 1.08 Intr - 3068 2872 197 0 2 111 31 70 0.657 2.73 1.07 Intr - 5319 5176 144 1 0 -32 113 188 0.178 9.55 1.06 Intr - 6592 6456 137 0 2 127 80 81 0.401 11.41 1.05 Intr - 14493 14414 80 0 2 53 100 48 0.177 0.85 1.04 Intr - 14682 14624 59 1 2 92 78 23 0.164 0.30 1.03 Intr - 33849 33785 65 2 2 106 84 56 0.403 5.36 1.02 Intr - 34168 33994 175 2 1 110 41 8 0.166 -2.70 1.01 Init - 37394 37349 46 2 1 54 -57 226 0.392 5.54 1.00 Prom - 42138 42099 40 -5.26 2.00 Prom + 42759 42798 40 -6.36 2.01 Sngl + 44688 44972 285 2 0 54 47 205 0.951 8.54 2.02 PlyA + 45742 45747 6 1.05 3.31 PlyA - 47453 47448 6 1.05 3.30 Term - 48072 47915 158 1 2 95 45 131 0.994 7.60 3.29 Intr - 48582 48478 105 1 0 45 89 72 0.889 3.19 3.28 Intr - 51189 51110 80 2 2 90 62 42 0.849 0.99 3.27 Intr - 51902 51744 159 1 0 125 64 271 0.999 27.50 3.26 Intr - 54247 54087 161 1 2 132 64 185 0.998 19.29 3.25 Intr - 54504 54415 90 0 0 64 93 101 0.976 8.39 3.24 Intr - 54753 54679 75 0 0 82 83 161 0.999 14.71 3.23 Intr - 54995 54866 130 1 1 56 67 95 0.971 4.90 3.22 Intr - 55411 55259 153 0 0 74 9 393 0.999 29.19 3.21 Intr - 55668 55508 161 0 2 122 57 241 0.999 23.19 3.20 Intr - 56538 56276 263 1 2 118 64 431 0.995 40.91 3.19 Intr - 56926 56850 77 0 2 91 55 29 0.975 -0.94 3.18 Intr - 57105 57003 103 1 1 112 81 97 0.968 10.63 3.17 Intr - 57553 57272 282 2 0 99 76 260 0.998 23.29 3.16 Intr - 58411 57971 441 2 0 106 76 91 0.201 3.13 3.15 Intr - 59585 59468 118 2 1 125 78 -3 0.540 2.44 3.14 Intr - 66551 66455 97 1 1 -27 80 126 0.473 0.31 3.13 Intr - 67634 67404 231 1 0 5 26 273 0.308 9.69 3.12 Intr - 68533 68393 141 0 0 -17 68 197 0.891 6.67 3.11 Intr - 70215 70091 125 0 2 100 76 83 0.953 7.68 3.10 Intr - 70465 70328 138 1 0 52 65 118 0.835 6.56 3.09 Intr - 74817 74560 258 0 0 123 49 208 0.814 18.06 3.08 Intr - 75450 75322 129 0 0 126 16 93 0.566 6.79 3.07 Intr - 77420 77250 171 2 0 87 83 88 0.976 8.34 3.06 Intr - 77776 77669 108 1 0 52 77 43 0.398 0.08 3.05 Intr - 81625 81424 202 0 1 66 43 303 0.684 22.89 3.04 Intr - 81974 81838 137 2 2 55 7 191 0.400 7.07 3.03 Intr - 82345 82221 125 2 2 91 93 113 0.993 12.40 3.02 Intr - 83092 82940 153 2 0 126 117 246 0.999 31.34 3.01 Init - 86070 85959 112 0 1 104 111 152 0.694 19.48 3.00 Prom - 89772 89733 40 -9.06 4.12 PlyA - 90425 90420 6 1.05 4.11 Term - 101113 99998 1116 1 0 84 35 465 0.922 32.84 4.10 Intr - 101732 101616 117 2 0 88 102 -14 0.559 0.66 4.09 Intr - 103059 102963 97 2 1 100 47 29 0.924 0.01 4.08 Intr - 105149 105039 111 1 0 94 101 71 0.990 8.49 4.07 Intr - 106087 105934 154 2 1 87 111 67 0.832 8.03 4.06 Intr - 144245 144111 135 0 0 105 110 59 0.977 10.34 4.05 Intr - 155247 155131 117 1 0 95 98 75 0.995 9.64 4.04 Intr - 164763 164497 267 1 0 76 79 297 0.690 25.10 4.03 Intr - 178177 178036 142 1 1 121 57 -23 0.012 -2.17 4.02 Intr - 186657 186576 82 2 1 73 100 63 0.031 5.64 4.01 Init - 218858 218617 242 2 2 97 63 292 0.012 24.95 4.00 Prom - 220320 220281 40 -5.46 5.00 Prom + 226980 227019 40 -4.96 5.01 Init + 229408 229421 14 0 2 92 98 0 0.007 1.05 5.02 Intr + 242559 242810 252 0 0 61 109 391 0.728 35.05 5.03 Term + 244366 244468 103 1 1 140 36 51 0.981 2.85 5.04 PlyA + 245678 245683 6 1.05 6.10 PlyA - 247990 247985 6 1.05 6.09 Term - 248150 248093 58 1 1 120 46 1 0.762 -3.74 6.08 Intr - 248849 248672 178 0 1 82 94 219 0.992 20.88 6.07 Intr - 250220 250048 173 1 2 41 77 260 0.893 19.79 6.06 Intr - 253172 253055 118 0 1 66 87 122 0.989 9.42 6.05 Intr - 253367 253296 72 0 0 113 80 100 0.999 11.08 6.04 Intr - 254432 254295 138 0 0 93 101 242 0.999 26.44 6.03 Intr - 258531 258446 86 2 2 87 100 100 0.930 10.56 6.02 Intr - 259371 258929 443 0 2 96 58 253 0.859 15.35 6.01 Intr - 261626 261572 55 1 1 73 54 69 0.432 0.98 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Sngl - 218858 218478 381 2 0 97 32 354 0.984 26.87 S.002 Term - 234238 234111 128 2 2 89 48 95 0.966 4.04 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597r:16150673_16415418|GENSCAN_predicted_peptide_1|329_aa MNIIIIVIAIIVIIMRWGKTRLCRQQVGTCPERLCCLAEVVAGSTGHAEPWWHHGLSPQL ARTPGSGGFWGLGRKRPMHSLSQQIEAAVTLAAPQASTQACSQTVRTQEGGDTWQVGIVL FLSPLDPEEELRAVKHLIRNSQRDVWTRFPRVGTKARGQDVHIRQRRPTYLGSRSRASKR GWGQRGRGVRVCGSRARGDRTESEKRGMELQAARACFALLWGCALAAAAAAQGKEGYTWL PTWLLLGHQQPLNLPSFLQMGKLREARALANQGLLDRGPDLSIPLLGCQSQGPACFVVGV MKWEVVLLDFAAAGGELGWLTHPYGKGVX >gi568815597r:16150673_16415418|GENSCAN_predicted_CDS_1|987_bp atgaatatcatcatcatcgtcatcgccatcatcgtcatcatcatgaggtggggcaaaaca aggctctgcagacagcaagtggggacatgccctgagaggctgtgctgcttggctgaggtg gtggctggcagcactggtcatgcagagccttggtggcaccatggactcagcccacagctg gctcggactcctggatccggtggcttctggggtctgggcaggaaaaggccgatgcactcg ttgagtcagcagatcgaggctgctgtcaccctggcagctccacaggcctccacgcaggcc tgcagccaaactgtcaggactcaggaagggggtgacacctggcaggtgggtattgtttta tttttatccccacttgacccggaagaagagctcagggcagtgaagcacctcatccgaaac tcccagagagatgtctggacccgcttcccaagagtaggcaccaaggcgagaggccaagat gtccacatccggcagagaagacccacgtacctgggtagcaggtcccgggcatcaaagcga ggatggggtcagagaggaagaggcgtgcgggtgtgcgggagccgggctcggggggatcgg accgagagcgagaagcgcggcatggagctccaggcagcccgcgcctgcttcgccctgctg tggggctgtgcgctggccgcggccgcggcggcgcagggcaaggaaggctatacttggttg cccacgtggctcctgttaggtcatcaacagccactgaatctgccctcatttttacaaatg gggaaactgagggaggcccgagcccttgccaaccagggccttctggacagaggaccagac ctgagcatcccgcttcttggctgccagagccaaggccctgcctgctttgtggttggtgtc atgaaatgggaagtggtactgctggactttgctgcagctggaggggagctcggctggctc acacacccgtatggcaaaggggtatnn >gi568815597r:16150673_16415418|GENSCAN_predicted_peptide_2|94_aa MRKTSDKPKLRDSPQTRTSEIVKVMKTKETLRNCHRPQKTKTRQLNAMWDPGLDPGTEKD ISGKTGEIRIKSGVELIAVYQCWFLSFDYCTVVT >gi568815597r:16150673_16415418|GENSCAN_predicted_CDS_2|285_bp atgagaaaaacatcagataaacccaaattgagggatagtccacagaccagaacttctgaa attgtcaaggtcatgaaaaccaaggagacactgagaaactgtcacagaccacagaagact aagacacggcaactaaacgcaatgtgggatcctggattggatcctggaacagaaaaggac attagtgggaaaactggtgaaatccgaatcaagtctggagttgagttaatagcagtgtac cagtgttggtttcttagttttgactactgtaccgtagtcacgtaa >gi568815597r:16150673_16415418|GENSCAN_predicted_peptide_3|1560_aa MARPPVPGSVVVPNWHESAEGKEYLACILRKNRRRVFGLLERPVLLPPVSIDTASYKIFV SGKSGVGKTALVAKLAGLEVPVVHHETTGIQTTVVFWPAKLQASSRVVMFRFEFWDCGES ALKKFDHMLLACMENTDAFLFLFSFTDRASFEDLPGQLARIAGEAPGVVRMVIGSKFDQY MHTDVPERDLTAFRQAWELPLLRVKSVPGRRLADGRTLDGRAGLADVAHILNGLAEQLWH QDQTAMTPPTGRRLCLAPCGGIYVPDSRGTFSETGKPALIKVGQSGVRPLLTVPLTPRWV RLRARLGGEAATPAAAGERRLRQRRWRENFQRNLEEGLFELPGYQVPGSDLNSCQLLYPY WACWGYWHKYQPLDQPLDKLSCLFDHPGTVFFSIFMSFWGHGLPGALEAGSATLAHHWDC SDFQDQEAMPSSAPHHWDCSDFQDQEVMPSSALHHWDCSDFQDQEECPHLQFAALALQMT QNPVTGLKEPYFQPHSCLSHLLTSSAAILTVLCVVMIFLVSVIIYHGIISIAMFHTGNSV LMTQANVLWGNGGPKALSKVLCVCQQQCGPGGCHIQVTQQLIIIMVGKQLLNHMEEFVGL GGGPGPDTPCLPELQFGFITIFVGAFLLAPLFTLLNNRVEIGLDAHKFLCKYQRPMAGRG WTSGSDCSCWRPWYTLRYKASRDVGVNLALFYWKLLAVHVHLGFIIAFEGLMNQTLCLGG ISPSQLGRERASPAGTAKQHQQRAWAQRGPGGWQSKRGMDCGPPATLQPHLTGPPGTAHH PVAVCQQESLSFAELPALKPPSPVCLDLFPVAPEELRAPGSRWSLGTPAPLQGLLWPLSP GGSDTEITSGGMRPSRAGSWPHCPGAQPPALEGPWSPRHTQPQRRASHGSEKKSAWRKMR VYQREEVPGCPEAHAVFLEPGQVVQEQALSTEEPRVELSGSTRVSLEGPERRRFSASELM TRLHSSLRLGRNSAARALISGSGTGAAREGKASGMEARSVEMSGDRVSRPAPGDSREGDW SEPRLDTQEEPPLGSRSTNERRQSRFLLNSVLYQEYSDVASARELRRQQREEEGPGDEAE GAEEGPGPPRANLSPSSSFRAQRSARGSTFSLWQDIPDVRGSGVLATLSLRDCKLQEAKF ELITSEASYIHSLSVAVGHFLGSAELSECLGAQDKQWLFSKLPEVKSTSERFLQDLEQRL EADVLRFSVCDVVLDHCPAFRRVYLPYVTNQAYQERTYQRLLLENPRFPGILARLEESPV CQRLPLTSFLILPFQRITRLKMLVENILKRTAQGSEDEDMATKAFNALKELVQECNASVQ SMKRTEELIHLSKKIHFEGKIFPLISQARWLVRHGELVELAPLPAAPPAKLKLSSKAVYL HLFNDCLLLSRRKELGKFAVFVHAKMAELQVRDLSLKLQGIPGHVFLLQLLHGQHMKHQF LLRARTESEKQRWISALCPSSPQEDKEVISEGEDCPQVQCVRTYKALHPDELTLEKTDIL SVRTWTSDGWLEGVRLADGEKGWVPQAYVEEISSLSARLRNLRENKRVTSATSKLGEAPV >gi568815597r:16150673_16415418|GENSCAN_predicted_CDS_3|4683_bp atggccagacctcccgtgcccggttcggtggttgtcccaaactggcacgagagtgccgag ggcaaggagtacctggcttgcattctgcgcaagaaccgccggcgggtgtttgggctgctt gagcggccagtgctgctgccgcctgtgtccattgacactgccagctacaagatctttgtg tccgggaagagtggtgtgggcaagacggcgctggtggccaagctggctggcctggaggtg cctgtggtgcaccacgagaccaccggcatccagaccaccgtggtattttggccagccaag ctgcaggccagcagccgtgtcgtcatgtttcgttttgagttctgggactgtggagagtct gcactcaaaaagttcgatcatatgctgctggcttgcatggagaacacagatgccttcctc ttcctcttctccttcactgaccgtgcctcctttgaagacctccctggacagctggcccgc atagcaggtgaggcccctggtgtcgtcaggatggtcatcggctccaaatttgaccagtac atgcacacggacgtgcccgagcgggacctcacagccttccggcaggcctgggagctgccc ctgctacgggtgaagagtgtgccggggcggcggctggctgatgggcgcacactggacggg cgggctgggctggccgacgttgcccacatactcaatggccttgctgagcagctgtggcac caggaccagacggcgatgacgccaccgacaggacgacgactgtgtctcgcgccctgcggc ggcatttatgtgccggactctaggggtacattttctgagacgggaaaacctgcattgata aaagtgggacagagcggggtcagaccgctcctaactgtccccctgaccccgcgatgggtt agacttcgtgctcgcctgggaggagaagctgcgacccccgcggcggcgggagagaggcga ctccggcagcggcgctggcgcgagaattttcagcggaacctggaggagggcctctttgaa ctgcctgggtaccaggtacccggttcagatctcaactcttgccaattgctgtacccatac tgggcttgctggggatactggcacaagtaccagcccctggaccagcctttggacaaactg agctgcctctttgaccacccaggaaccgtgttcttcagcatcttcatgtccttctggggc catggccttcctggagcactggaagcagggagtgccaccttggcccaccactgggactgc agtgacttccaggaccaggaggcaatgcccagttcagccccccaccactgggactgcagc gacttccaggaccaggaggtgatgcccagttcagccctccaccactgggactgcagcgac ttccaggaccaggaggagtgcccacatctacagtttgctgccctggccctgcagatgacc cagaacccagtgacaggcttgaaggagccctacttccaaccgcacagctgcctttcccac ctactcaccagctctgcagccatcctcactgtgctctgtgtggtgatgattttcctggta tctgtcataatttaccatggcatcatcagcattgcaatgttccacactggcaactctgtg ctcatgacccaagcgaatgtcctttggggcaatggaggccccaaagccctgagtaaggtg ctctgtgtctgccaacaacagtgcggtcctggtggctgccacattcaggtcacccagcag ctcatcatcatcatggtgggcaaacagctgctcaaccacatggaagaatttgttgggctg ggaggtggccccgggcctgacactccctgcctgccagagctgcagtttgggttcatcacc atctttgtgggagccttcctgctggcacccctgttcactctgctcaacaaccgggtagag attggactggacgcccacaagttcctgtgcaagtaccagcgaccaatggctgggcgcggc tggacatctggatctgactgctcctgctggaggccatggtacaccttgagatacaaggcc tctcgcgacgtgggggtgaacctcgccctcttctactggaagctgctggctgtgcatgtg catctgggtttcattatcgccttcgagggtttgatgaatcaaactctttgtctgggtggg atctcccccagccagctgggcagagagagggcttcccctgccggaacagccaaacagcat cagcagcgggcctgggcccagagagggccaggtgggtggcagagcaaaagaggaatggac tgtgggccacctgctaccctccagccccacctgactgggccacctggcactgcccaccac cctgtagcagtgtgccagcaggagagtctgtcctttgcagagctgcccgccctgaagccc ccgagcccagtgtgtctggaccttttccctgttgccccagaggagcttcgggctcctggc agccgctggtccctggggacccctgcccctctccaagggttgctatggccattatcccca ggaggctcagatacagagatcaccagcggggggatgcggcccagcagggctggcagctgg ccacactgtcctggtgcccagcccccagctctggagggaccctggagtccccgacacaca cagccacagcgccgggccagccacggctcggagaagaagtctgcctggcgcaagatgcgg gtgtaccagcgtgaagaggtccccggctgccccgaggcccacgctgtcttcctagagcct ggccaggtagtgcaagagcaggccctgagcacagaggagcccagggtggagttgtctggg tccacccgagtgagcctcgaaggtcctgagcggaggcgcttctcggcatcggagctgatg acccggctgcactcttctctgcgcctggggcggaattcagcagcccgggcactcatctct gggtcaggcaccggagcagcccgggaagggaaagcatctggaatggaggctcgaagtgta gagatgagcggggaccgggtgtcgcggccagcccctggtgactcacgagagggcgattgg tccgagcccaggctagacacacaggaagagccgcctttggggtccaggagcaccaacgag cggcgccagtctcgattcctccttaactccgtcctctatcaggaatacagcgacgtggcc agcgcccgcgaactgcggcggcagcagcgcgaggaggagggcccgggggacgaggccgag ggcgcagaggaggggccggggccgccgcgggccaacctctcccccagcagctccttccgg gcgcagcgctcggcgcgaggctccaccttctcgctgtggcaggatatccccgacgtacgc ggcagcggcgtcctggccacgctgagcctgcgggactgcaagctgcaggaggccaagttt gagctgatcacctccgaggcctcctacatccacagcctgtcggtggctgtgggccacttc ttaggctctgccgagctgagcgagtgtctgggggcgcaggacaagcagtggctgttttcc aaactgcccgaggtcaagagcaccagcgagaggttcctgcaggacctggagcagcggctg gaggcagatgtgctgcgcttcagcgtgtgcgacgtggtgctggaccactgcccggccttc cgcagagtctacctgccctatgtcaccaaccaggcctaccaggagcgcacctaccagcgc ctgctcctggagaaccccaggttccctggcatcctggctcgcctggaggagtctcctgtg tgccagcgtctgccccttacctccttccttatcctgcccttccagaggatcacccgcctc aagatgttggtggagaacatcctgaagcggacagcacagggctctgaagacgaagacatg gccaccaaggccttcaatgcgctcaaggagctggtgcaggagtgcaatgctagtgtacag tccatgaagaggacagaggaactcatccacctgagcaagaagatccactttgagggcaag attttcccgctgatctctcaggcccgctggctggttcggcatggagagttggtagagctg gcaccactgcctgcagcaccccctgccaagctgaagctgtccagcaaggcagtctacctc cacctcttcaatgactgcttgctgctctctcggcggaaggagctagggaagtttgccgtt ttcgtccatgccaagatggctgagctgcaggtgcgggacctgagcctgaagctgcagggc atccccggccacgtgttcctcctccagctcctccacgggcagcacatgaagcaccagttc ctgctgcgggcccggacggaaagtgagaagcagcgatggatctcagccttgtgcccctcc agcccccaggaggacaaggaggtcatcagtgagggggaagattgcccccaggttcagtgt gttaggacatacaaggcactgcacccagatgagctgaccttggagaagactgacatcctg tcagtgaggacctggaccagtgacggctggctggaaggggtccgcctggcagatggtgag aaggggtgggtgccccaggcctatgtggaagagatcagcagcctcagcgcccgcctccga aacctccgggagaataagcgagtcacaagtgccaccagcaaactgggggaggctcctgtg tga >gi568815597r:16150673_16415418|GENSCAN_predicted_peptide_4|859_aa MASVKKPVVKGGKKKKQVLKFTLECTHPVEDGIMDAANFEQFLQERIKVNGKAENLGGGM ATIERSKSKINVTSEVPFSKSVDTSYILMVTEDLDTQGPQTGSAGIIKGTSLLCGSTGFS RLILYISCPPRFCRFTKEPWFLLLENGIRKNFWVLAVEWNVMASSSDSEDDSFMAVDQEE TVLEGTMDQDEEPHPVLEAEETRHNRSMSELPEEVLEYILSFLSPYQEHKTAALVCKQWY RLIKGVAHQCYHGFMKAVQEGNIQWESRTYPYPGTPITQRFSHSACYYDANQSMYVFGGC TQSSCNAAFNDLWRLDLNSKEWIRPLASGSYPSPKAGATLVVYKDLLVLFGGWTRPSPYP LHQPERFFDEIHTYSPSKNWWNCIVTTHGPPPMAGHSSCVIDDKMIVFGGSLGSRQMSND VWVLDLEQWAWSKPNISGPSPHPRGGQSQLFKDAWLLHMHSGPWAWQPLKVENEEHGAPE LWCHPACRVGQCVVVFSQAPSGRAPLSPSLNSRPSPISATPPALVPETREYRSQSPVRSM DEAPCVNGRWGTLRPRAQRQTPSGSREGSLSPARGDGSPILNGGSLSPGTAAVGGSSLDS PVQAISPSTPSAPEGYDLKIGLSLAPRRGSLPDQKDLRLGSIDLNWDLKPASSSNPMDGM DNRTVGGSMRHPPEQTNGVHTPPHVASALAGAVSPGALRRSLEAIKAMSSKGPSASAALS PPLGSSPGSPGSQSLSSGETVPIPRPGPAQGDGHSLPPIARRLGHHPPQSLNVGKPLYQS MNCKPMQMYVLDIKDTKEKGRVKWKVFNSSSVVGPPETSLHTVVQGRGELIIFGGLMDKK QNVKYYPKTNALYFVRAKR >gi568815597r:16150673_16415418|GENSCAN_predicted_CDS_4|2580_bp atggcttctgtgaaaaagcctgtggtgaaggggggcaaaaaaaagaagcaggttctgaag ttcactcttgaatgcactcaccccgtagaagatggaatcatggatgctgccaattttgag cagtttttgcaagaaaggatcaaagtgaacggaaaagctgagaaccttggtggagggatg gcgaccattgaaaggagtaagagcaagatcaacgtgacatccgaggtgcctttctccaaa agtgttgataccagctacattttaatggttactgaagaccttgatactcaaggtccccaa actggcagtgctggcatcatcaagggcacttccttactttgtggcagtactggattctcc aggctcatcttatatatttcctgtcctcctagattctgccgtttcaccaaggagccctgg tttcttttattggagaacggtattagaaagaacttctgggtgctagctgttgagtggaat gtcatggccagctcctcggacagtgaagatgacagtttcatggctgtggaccaggaagaa actgtgctggaagggacaatggatcaagatgaggagccccacccagtattggaggctgag gagactagacataataggtccatgtcggagctgccagaagaggttttggagtatatcctg tcctttctctcaccgtatcaggaacacaaaactgcggcccttgtctgcaaacagtggtat cgacttatcaaaggtgtagcccatcagtgttatcatggtttcatgaaggctgtccaggaa ggaaacattcagtgggagagccgtacctatccttatcctggaaccccaatcactcagcgc ttctcgcacagtgcatgctattatgatgctaatcagtctatgtatgtgtttggaggctgt acccagagcagctgcaatgctgctttcaatgacctctggagacttgacctaaacagcaaa gagtggatccgacctttggcttcagggtcctatccttcccccaaagctggagcaactctg gtcgtgtacaaggacttgctagtgctgtttggtggctggacgcggccaagcccttatccc ctacaccagccagagagattctttgatgaaatacacacttactcaccctctaaaaattgg tggaactgcattgtgacaacccatgggccacctcccatggctggccactcctcctgtgtg atagatgataaaatgattgtctttggtggctctttaggatcccggcaaatgagcaatgat gtctgggtccttgaccttgagcagtgggcgtggtccaagccgaacatctctggccccagt cctcatcctcgaggtggccaatctcagctattcaaggatgcttggttgttgcacatgcat tctggtccttgggcctggcagccactcaaggtagaaaatgaagagcatggggccccagaa ctgtggtgccatccagcttgccgggtgggacagtgtgtggtggtcttcagccaggctcct agtgggagagccccactcagccccagtttgaactctcgcccatcacctatcagtgccact cctccagctctcgttcctgaaacccgagagtaccgctctcagtctccagtaagaagcatg gatgaagctccttgtgttaacggccgctggggaacactgagacccagggctcaaaggcag actccttcaggttcccgggaagggagcctttccccagccagaggagacggctctcctatc ctcaatggtgggagtttgtctccaggaacggcagctgtgggtggctcttctttggacagt cctgtacaggccatatctccaagtactccatctgctcctgaaggatacgacctgaaaata ggactttctttggccccccgacgaggatcactaccagatcagaaagatctgagattagga tccatagatctgaattgggatctgaaacccgcttccagtagtaatcccatggatggcatg gacaataggacagttgggggaagtatgagacaccctcctgaacagacaaatggtgtgcat accccacctcacgtggccagtgcccttgcaggggccgtctccccaggtgccctgcgtcgg agtctggaagccatcaaagcgatgtcctccaaaggcccctcggcctctgcagcactaagt cctcctcttgggtcttctccaggctctcctgggagccagagtttgagcagtggagaaaca gtgcccatccctcgcccagggcctgcccaaggagatggacattccttacctcccattgct cgccgcctgggccaccaccctccacagtccctaaatgttggcaaacccctataccagagt atgaactgcaagcccatgcagatgtacgtgctggacattaaagacaccaaggagaagggg cgggtcaaatggaaagtatttaatagcagttctgtggttggacctcctgaaaccagcctg cataccgtggtacaaggcaggggtgaactcatcatatttggaggactcatggacaagaaa cagaatgtgaagtactatccaaaaacaaacgccttgtactttgtacgagcaaagagataa >gi568815597r:16150673_16415418|GENSCAN_predicted_peptide_5|122_aa MDNKQKSKSPPKVPIVIQDDSLPAGPPPQIRILKRPTSNGVVSSPNSTSRPTLPVKSLAQ REAEYAEARKRILGSASPEEEQEKPILDRPTRISQPEDSRQPNNVIRQPLGPDGSQGFKQ RR >gi568815597r:16150673_16415418|GENSCAN_predicted_CDS_5|369_bp atggacaataaacagaaatccaaatctcctcccaaagtgcccattgtgattcaggacgat agccttcccgcggggccccctccacagatccgcatcctcaagaggcccaccagcaacggt gtggtcagcagccccaactccaccagcaggcccacccttccagtcaagtccctagcacag cgagaggccgagtacgccgaggcccggaagcggatcctgggcagcgccagccccgaggag gagcaggagaaacccatcctcgacaggccaaccaggatctcccaacccgaagacagcagg cagcccaataatgtgatcagacagcctttgggtcctgatgggtctcaaggcttcaaacag cgcagataa >gi568815597r:16150673_16415418|GENSCAN_predicted_peptide_6|440_aa XHPRRDVKEDIWYSEGQRNEVRDIGERREPDRAQQQPQKPAVAAGTQSLGNFRQGFMKCL LEVEKMEASHRRASKARSQTAQKSPRTLTPVPTSAPSLPQTPASVPASGPSWARLPAPGP EPAPMGAPVPTSMPCPVLLGPALDLGWRRMELLHQSSERTLSYAKARQEPEEQSLQKLYQ NREKSEEQLTLKQEEAFRSYFEIFNGPGEVDAQSLKNILLLMGFSVTLAQVEDALMSADV NGDGRVDFKDFLAVMTDTRRFFCSVEQNALSDMAPHNPHTLLFEILSLLVEMLALPEAVL EEITNYYQKKLKEGTCKAQEMEAAVGRLRLQKLPYNPQQEESSEVPERKVLSILSRLKQQ NYAPNLQSPYAQVPCILLCPQLDKKMVRRQPSNHYALDQCTPPGLDPDIRSPFFQSGSQG NREHNSDSRKWLSSVPARTH >gi568815597r:16150673_16415418|GENSCAN_predicted_CDS_6|1323_bp nnacacccaagaagagatgtcaaggaggacatctggtattcggaaggacaaagaaatgag gtgagggacattggagagaggcgggagccagaccgtgcgcagcagcagcctcagaagccc gcggtggctgcagggacacagagcctcgggaacttccggcagggcttcatgaagtgcttg ctggaggtggagaaaatggaggcctcccatcggagagcctcgaaggcccggtcccagaca gcccagaagtcgcccaggaccctgaccccggtgcccacctcagctccaagcctgcctcag acccctgcctcggtccctgccagcggcccatcgtgggcccggctgccagctcctgggcca gaacctgcccccatgggagccccggtccccacctccatgccttgccctgtcctgctgggc cctgccctggacctgggctggagaaggatggaactcttgcaccagagcagcgagagaacc ctgagctacgccaaggcgcggcaggagccggaagagcagagcctccaaaagctttatcaa aaccgggagaagtccgaggagcaactgaccctgaagcaagaggaagccttccgcagctac tttgagatcttcaatggtcctggtgaggtggatgcacagagcctgaagaatatcctgctc ctaatgggcttctctgtgacgctggcccaggtggaggacgccctgatgagtgctgatgtc aatggagatggtcgtgtggacttcaaagacttcttggctgtgatgacagacaccaggcgc ttcttctgctctgtggaacagaacgccctgtcggacatggctccccacaacccccacact ctactctttgagatcctgtccctgctggtagagatgctggccttaccagaggcagtctta gaggaaatcacaaactactaccagaaaaagctgaaggaaggcacctgcaaggcccaggag atggaagcggccgtaggccggctgcggttgcagaagcttccctacaacccccagcaagaa gagagctcagaagttccagaacgaaaggtcctcagtatcctgagccggctgaagcagcag aactatgctcccaacctgcagagcccctatgcccaggtgccctgcatcctgctctgccca cagctggacaagaagatggtccgtaggcagccgagcaaccactatgcactagaccagtgc acaccccctggcctggatcctgacatccgcagccccttcttccagtcaggatctcaagga aacagggaacacaactctgacagcagaaagtggctcagctctgtgccagctcgaacccac tga