GENSCAN 1.0 Date run: 3-Nov-116 Time: 21:46:36 Sequence gi568815586r:8968183_9215849 : 247667 bp : 38.54% C+G : Isochore 1 ( 0 - 43 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 + 12294 12460 167 0 2 96 95 86 0.247 8.78 1.02 Intr + 12522 12686 165 1 0 61 8 127 0.076 1.01 1.03 Intr + 19026 19115 90 1 0 76 35 82 0.036 0.75 1.04 Intr + 21485 21535 51 0 0 61 82 79 0.040 2.56 1.05 Intr + 24024 24128 105 1 0 76 110 39 0.342 4.17 1.06 Intr + 26937 27106 170 1 2 84 54 110 0.365 5.94 1.07 Intr + 40793 40893 101 1 2 68 116 -16 0.116 -2.81 1.08 Term + 43425 43536 112 0 1 79 49 95 0.626 1.75 1.09 PlyA + 43839 43844 6 1.05 2.02 PlyA - 46015 46010 6 1.05 2.01 Sngl - 59899 59345 555 1 0 78 32 563 0.996 45.57 2.00 Prom - 60157 60118 40 -2.95 3.02 PlyA - 60273 60268 6 -0.45 3.01 Sngl - 60907 60581 327 1 0 83 45 206 0.983 11.56 3.00 Prom - 63522 63483 40 -6.45 4.00 Prom + 66882 66921 40 -9.95 4.01 Init + 68165 68390 226 1 1 88 59 184 0.805 14.18 4.02 Term + 68509 68741 233 2 2 24 38 255 0.734 9.75 4.03 PlyA + 69325 69330 6 1.05 5.00 Prom + 72851 72890 40 -5.05 5.01 Sngl + 77938 78306 369 0 0 103 43 135 0.543 5.05 5.02 PlyA + 79049 79054 6 1.05 6.02 PlyA - 80350 80345 6 1.05 6.01 Sngl - 82912 82355 558 1 0 108 43 169 0.339 10.28 6.00 Prom - 93800 93761 40 -5.05 7.37 PlyA - 94533 94528 6 1.05 7.36 Term - 96782 96141 642 2 0 -14 45 335 0.862 12.18 7.35 Intr - 97447 97124 324 1 0 87 34 123 0.637 1.85 7.34 Intr - 97649 97510 140 0 2 80 39 98 0.886 3.36 7.33 Intr - 100042 100001 42 2 0 113 121 66 0.984 9.69 7.32 Intr - 100660 100558 103 1 1 86 100 113 0.993 11.13 7.31 Intr - 102396 102306 91 2 1 59 78 110 0.663 6.18 7.30 Intr - 104304 104177 128 0 2 66 110 32 0.931 1.76 7.29 Intr - 104689 104471 219 1 0 103 94 179 0.943 17.58 7.28 Intr - 106601 106378 224 0 2 60 77 229 0.997 15.92 7.27 Intr - 108754 108574 181 1 1 89 100 160 0.986 15.82 7.26 Intr - 109238 109164 75 2 0 85 43 133 0.987 7.29 7.25 Intr - 109675 109519 157 0 1 84 63 157 0.999 11.89 7.24 Intr - 111149 111062 88 0 1 113 95 80 0.999 9.31 7.23 Intr - 111633 111457 177 1 0 98 105 168 0.999 18.47 7.22 Intr - 111995 111912 84 0 0 100 92 98 0.992 10.27 7.21 Intr - 121069 121018 52 1 1 60 110 -21 0.612 -5.14 7.20 Intr - 121841 121720 122 0 2 94 100 86 0.820 9.69 7.19 Intr - 122300 122174 127 2 1 110 71 34 0.999 3.23 7.18 Intr - 123247 123019 229 0 1 68 90 267 0.998 21.85 7.17 Intr - 125397 125283 115 1 1 83 106 121 0.999 11.99 7.16 Intr - 126902 126791 112 2 1 106 52 66 0.954 3.83 7.15 Intr - 127518 127357 162 0 0 81 82 160 0.999 13.95 7.14 Intr - 130574 130425 150 2 0 103 109 91 0.999 12.14 7.13 Intr - 131341 131199 143 2 2 99 93 87 0.998 9.45 7.12 Intr - 133025 132962 64 2 1 121 79 48 0.995 4.57 7.11 Intr - 133492 133265 228 1 0 61 85 197 0.987 13.84 7.10 Intr - 136218 136057 162 0 0 66 110 108 0.947 10.05 7.09 Intr - 138163 138054 110 2 2 100 49 70 0.951 3.38 7.08 Intr - 138423 138309 115 0 1 81 72 185 0.994 15.30 7.07 Intr - 139462 139342 121 0 1 66 96 110 0.996 9.18 7.06 Intr - 141223 141139 85 2 1 27 76 106 0.991 1.26 7.05 Intr - 141768 141685 84 1 0 80 52 117 0.489 6.17 7.04 Intr - 142152 142132 21 1 0 132 115 -23 0.367 1.40 7.03 Intr - 144354 144195 160 0 1 74 80 171 0.995 13.54 7.02 Intr - 145361 145271 91 1 1 103 93 76 0.614 8.68 7.01 Init - 147667 147582 86 1 2 96 84 100 0.996 8.78 7.00 Prom - 151955 151916 40 -5.65 8.00 Prom + 154699 154738 40 -2.05 8.01 Init + 156080 156202 123 1 0 66 91 132 0.706 9.63 8.02 Intr + 156303 156436 134 2 2 26 61 147 0.630 4.32 8.03 Term + 157083 157254 172 0 1 23 43 119 0.277 -2.78 8.04 PlyA + 158372 158377 6 -1.75 9.40 PlyA - 158907 158902 6 1.05 9.39 Term - 159612 159362 251 1 2 71 42 341 0.405 22.68 9.38 Intr - 160505 159895 611 1 2 73 32 586 0.502 42.63 9.37 Intr - 167047 166774 274 2 1 17 41 284 0.011 12.27 9.36 Intr - 175267 175097 171 2 0 91 67 55 0.281 2.69 9.35 Intr - 181420 181379 42 2 0 75 110 41 0.822 2.29 9.34 Intr - 182564 182462 103 2 1 130 109 116 0.998 16.73 9.33 Intr - 183490 183422 69 1 0 102 94 32 0.921 3.66 9.32 Intr - 184128 184038 91 2 1 55 78 94 0.990 4.18 9.31 Intr - 184769 184642 128 2 2 67 110 97 0.997 8.36 9.30 Intr - 185161 184943 219 1 0 83 91 164 0.978 13.78 9.29 Intr - 186657 186434 224 1 2 60 82 169 0.750 10.42 9.28 Intr - 188195 188073 123 0 0 13 79 163 0.316 7.54 9.27 Intr - 189173 188993 181 2 1 92 100 129 0.602 13.02 9.26 Intr - 189659 189585 75 2 0 70 43 114 0.935 3.89 9.25 Intr - 190394 190238 157 1 1 111 61 122 0.999 10.89 9.24 Intr - 191843 191756 88 0 1 71 91 103 0.999 7.01 9.23 Intr - 192308 192132 177 0 0 88 119 101 0.996 12.17 9.22 Intr - 192934 192851 84 2 0 83 92 75 0.987 6.27 9.21 Intr - 194466 194415 52 0 1 69 110 32 0.981 1.06 9.20 Intr - 195607 195486 122 2 2 76 77 79 0.792 4.89 9.19 Intr - 197185 196929 257 0 2 95 98 305 0.847 28.36 9.18 Intr - 198017 197870 148 0 1 80 100 86 0.771 7.37 9.17 Intr - 200792 200687 106 2 1 27 83 133 0.988 5.57 9.16 Intr - 201409 201248 162 1 0 73 93 143 0.980 12.55 9.15 Intr - 212950 212801 150 1 0 123 70 97 0.944 10.84 9.14 Intr - 213935 213793 143 0 2 84 105 189 0.985 19.35 9.13 Intr - 216323 216213 111 0 0 31 68 94 0.364 1.13 9.12 Intr - 224074 224011 64 1 1 86 79 63 0.220 2.57 9.11 Intr - 224557 224330 228 1 0 89 99 192 0.987 17.54 9.10 Intr - 226056 225895 162 0 0 94 114 169 0.998 19.35 9.09 Intr - 228257 228148 110 0 2 76 110 57 0.975 5.78 9.08 Intr - 228503 228389 115 2 1 61 64 93 0.939 3.30 9.07 Intr - 228941 228830 112 1 1 78 92 37 0.939 2.56 9.06 Intr - 232266 232182 85 1 1 70 70 85 0.974 2.86 9.05 Intr - 232878 232710 169 0 1 125 52 130 0.940 11.70 9.04 Intr - 234258 234137 122 1 2 -1 107 119 0.372 4.19 9.03 Intr - 234502 234343 160 1 1 70 111 14 0.490 0.54 9.02 Intr - 235769 235586 184 1 1 97 74 85 0.321 6.87 9.01 Init - 240159 240077 83 0 2 74 103 55 0.507 4.55 9.00 Prom - 242628 242589 40 -8.85 10.02 PlyA - 242643 242638 6 1.05 10.01 Term - 243932 243575 358 1 1 100 55 176 0.947 8.50 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): >gi568815586r:8968183_9215849|GENSCAN_predicted_peptide_1|320_aa XLAVVSMRLKQQSPLTACKGSGWVRCMVHWVSMGLETCGAHMGTSSKGCVMALGLIEGVA EALALEGVQQCEFWAAPSAGVSILEDCGGPWQLRLWVFVAVGMAARVLSGTDSHIEALIL SVTVFGDGVFKEVIKVKSGYKELPTATQAQNDYGPQQKSSSSRPSCSCLVAIALGLLTAV LLSVLLYQWILCQGSNYSTCASCPSCPDRWMKYGNHCYYFSVEEKDWNSSLEFCLARDSH LLVITDNQEMSLLQVFLSEAFCWIGLRNNSGWRWEDGSPLNFSRNTNGTIIRKRKHLHKN QKSDEQSQYLVLTSYQQKRH >gi568815586r:8968183_9215849|GENSCAN_predicted_CDS_1|963_bp nngcttgcagtggtgtcaatgcgtttgaaacagcagtcacctcttactgcctgcaagggt agtggctgggtgaggtgcatggtgcactgggtcagcatgggactggagacttgtggggca catatgggcactagttctaaagggtgtgtcatggcattgggtctgatagagggtgtggct gaggctctagctttggagggggtgcagcagtgtgagttctgggcagctccatcggctggt gtcagcattcttgaagactgtgggggtccttggcagttaaggctgtgggtatttgtggca gtggggatggctgctagagtcctgagtggcacagattcacatattgaagccctaatcctc agtgtgactgtatttggagatggagtgtttaaggaagtaattaaggttaaatcaggttac aaggagttgcctacggcaacccaagcccagaatgactatggaccacagcaaaaatcttcc tcttccaggccttcttgttcttgccttgtggcaatagctttggggcttctgactgcagtt cttctgagtgtgctgctataccagtggatcctgtgccagggctccaactactccacttgt gccagctgtcctagctgcccagaccgctggatgaaatatggtaaccattgttattatttc tcagtggaggaaaaggactggaattctagtctggaattctgcctagccagagactcacac ctccttgtgataacggacaatcaggaaatgagcctgctccaagttttcctcagtgaggcc ttttgctggattggtctgaggaacaattctggctggaggtgggaagatggatcacctcta aacttctcaaggaatacaaatggaacaattatccgcaaaagaaagcaccttcataagaac caaaaatcagatgagcagtcacagtacctggttttaacatcatatcaacaaaagaggcac tga >gi568815586r:8968183_9215849|GENSCAN_predicted_peptide_2|184_aa MTDQGSGKKRDFAFVTFDNHDSVDKTVIQKYHTVNDHNCEVRKALSKQERASASSSQRGR NGSGNFGSGHGGGFGGSDNFGSGENFMVMVALVAAVVVVDMVAMGMAIMDLVMMEAILEV VEATMNFGNYNNQFSNFGPMKGRIFGVRSSGPCGGGGQCFAKPRNQGAYGGSSSSSSYGS GRRF >gi568815586r:8968183_9215849|GENSCAN_predicted_CDS_2|555_bp atgactgaccaaggcagtggcaagaaaagggactttgcctttgtaacctttgacaaccat gactccgtggataagactgtcattcagaaataccatactgtgaatgaccacaactgtgaa gttaggaaagcactgtcaaagcaagagagagctagcgcttcatctagccaaagaggtcga aatggttctggaaactttggtagtggtcatggaggtggttttggtgggagtgacaacttt ggtagtggagaaaacttcatggtcatggtggctttggtggcagctgtggttgtggtggat atggtggcaatggggatggctataatggatttggtaatgatggaagcaattttggaggtg gtggaagctacaatgaattttggcaattacaacaatcagttttcaaattttggacccatg aagggaagaatctttggagtcagaagctctggcccctgtggtggtggaggccaatgcttt gccaaaccacgaaaccaaggtgcctatggtggttctagtagcagcagcagctatggcagt ggcagaagattttaa >gi568815586r:8968183_9215849|GENSCAN_predicted_peptide_3|108_aa MSKSESPKEPDQRRKLFIGWLSFETTNESLKSHCEQWGTLTDCAVMRDPNTKVAGALGLS HMPLWRRWMRPRMQGHTSGWKICGTKESFLKRRFSKTRCPLNCEKYVC >gi568815586r:8968183_9215849|GENSCAN_predicted_CDS_3|327_bp atgtctaagtctgagtctcctaaagagcctgaccagcggaggaagctcttcattggatgg ttgagctttgaaacaaccaatgagagcctgaagagccattgtgagcaatggggaacgctc acggactgtgccgtaatgagagacccaaacaccaaggttgcaggggctttgggtttgtca catatgccactatggaggaggtggatgcggccacgaatgcaaggccacacaagtggatgg aagatttgtggaaccaaagagagctttctcaagagaagattctcaaagaccaggtgccca cttaactgtgaaaaatatgtttgttga >gi568815586r:8968183_9215849|GENSCAN_predicted_peptide_4|152_aa MATYGQTCMWPVWISSSYVNLGKAARDIFNKGFGLGLVKLDVRTKSRSAVGFSTSGSFNA DTGKAFEVLETKYKRSITGNKSGKIKSSCKRDCINLACDVNFDFAGPAIYASAVFGYEGW LAGYQMTTDSAKSKLTRNNCSGLPDGGLRASH >gi568815586r:8968183_9215849|GENSCAN_predicted_CDS_4|459_bp atggcgacctatgggcagacctgcatgtggccagtgtggatttcttcatcatatgttaac cttggcaaagctgccagagatatttttaacaaaggatttggtttggggttggtaaaactg gatgtgagaacaaagtcacgcagtgctgtgggattttcaacatctggttcatttaatgca gacactggaaaagcttttgaagtcttggagaccaaatataaacggtcaatcacaggaaac aaaagtggtaaaatcaagtcctcttgcaagagggactgcataaaccttgcttgtgatgtt aattttgattttgctggacctgcaatctatgcttcagctgtctttggttacgagggctgg cttgctgggtaccagatgaccactgacagtgccaagtcaaagctgacaaggaataactgt agtgggctaccggatgggggacttcgagcttcacactaa >gi568815586r:8968183_9215849|GENSCAN_predicted_peptide_5|122_aa MAHIYLCNMVWTWLRKESVSLKLKISQTESQREERLRIKEQNIQELWDNYEKYNIHIMGI AEGEEDKGTKGILEVIMTENFPKLPTDTKLQIQEVQRTPHRIHTKTSAPKHVMIKLQKVK DK >gi568815586r:8968183_9215849|GENSCAN_predicted_CDS_5|369_bp atggcacacatttacctatgtaacatggtctggacatggctgaggaaagaatcagtgagc ttgaaactgaaaatttcccaaactgaaagccaaagagaagaaaggctgagaataaaggaa cagaatatccaagaactatgggacaattatgaaaagtataatatacacataatgggaata gcagaaggagaagaagataagggaacaaaaggaatacttgaagtaataatgactgagaat tttccaaaattaccaacagacaccaaactacagatccaggaagttcagagaacaccacac aggatacataccaagacatctgcacctaagcatgttatgatcaaactgcagaaagtcaaa gacaaatag >gi568815586r:8968183_9215849|GENSCAN_predicted_peptide_6|185_aa MGGQEEALQVPTPVGGTGSLAPSLQALPDLKVGPYWGPAPFLPGLCLLPPFMAPKSSFQD PSQCQEQREARQWKQTPLSLRTGVWEGPSWAHEGAHCRDAQVLRQGSSHLANLKGGRFPR VPGSCLLRGARGPGLQLRIGQLQLHPKEQILPTPGPLREHREAHIHKRIWAAVAPPRRTG LLPAS >gi568815586r:8968183_9215849|GENSCAN_predicted_CDS_6|558_bp atgggtgggcaggaagaggcactacaagtccccactccagttggtgggactggcagcctg gcccccagccttcaggcccttcctgatctgaaggtggggccttactgggggcccgccccc ttcctcccaggactctgcctcctgccaccattcatggctcccaagtcctcattccaagat ccaagccagtgccaggagcagagagaggccaggcagtggaagcagacacccctgagcttg cgaacaggagtgtgggagggaccttcctgggcccatgagggtgcacactgcagagatgcc caggtcctgcgccaggggagctcccacctcgccaacttgaaaggggggaggttcccacgt gtccctggctcctgcctgctccgtggagcgcgaggcccaggtctgcagctgaggattggg cagctgcagctgcacccaaaagagcagatcctgcctactcccggccccctccgggagcac agggaggctcatatccacaagcgcatttgggcggctgtagccccacccaggaggacgggg ctcctgcctgcttcatag >gi568815586r:8968183_9215849|GENSCAN_predicted_peptide_7|1737_aa MGKNKLLHPSLVLLLLVLLPTDASVSGKPQYMVLVPSLLHTETTEKGCVLLSYLNETVTV PKSSSNEEVMFLTVQVKGPTQEFKKRTTVMVKNEDSLVFVQTDKSIYKPGQTDSTSIHSE PFQGSYKVVVQKKSGGRTEHPFTVEEFVLPKFEVQVTVPKIITILEEEMNVSVCGLYTYG KPVPGHVTVSICRKYSDASDCHGEDSQAFCEKFSGQLNSHGCFYQQVKTKVFQLKRKEYE MKLHTEAQIQEEGTVVELTGRQSSEITRTITKLSFVKVDSHFRQGIPFFGQVRLVDGKGV PIPNKVIFIRGNEANYYSNATTDEHGLVQFSINTTNVMGTSLTVRVNYKDRSPCYGYQWV SEEHEEAHHTAYLVFSPSKSFVHLEPMSHELPCGHTQTVQAHYILNGGTLLGLKKLSFYY LIMAKGGIVRTGTHGLLVKQEDMKGHFSISIPVKSDIAPVARLLIYAVLPTGDVIGDSAK YDVENCLANKVDLSFSPSQSLPASHAHLRVTAAPQSVCALRAVDQSVLLMKPDAELSASS VYNLLPEKDLTGFPGPLNDQDNEDCINRHNVYINGITYTPVSSTNEKDMYSFLEDMGLKA FTNSKIRKPKMCPQLQQYEMHGPEGLRVGFYESDVMGRGHARLVHVEEPHTETVRKYFPE TWIWDLVVVNSAGVAEVGVTVPDTITEWKAGAFCLSEDAGLGISSTASLRAFQPFFVELT MPYSVIRGEAFTLKATVLNYLPKCIRVSVQLEASPAFLAVPVEKEQAPHCICANGRQTVS WAVTPKSLGNVNFTVSAEALESQELCGTEVPSVPEHGRKDTVIKPLLVEPEGLEKETTFN SLLCPSGGEVSEELSLKLPPNVVEESARASVSVLGDILGSAMQNTQNLLQMPYGCGEQNM VLFAPNIYVLDYLNETQQLTPEIKSKAIGYLNTGYQRQLNYKHYDGSYSTFGERYGRNQG NTWLTAFVLKTFAQARAYIFIDEAHITQALIWLSQRQKDNGCFRSSGSLLNNAIKGGVED EVTLSAYITIALLEIPLTVTHPVVRNALFCLESAWKTAQEGDHGSHVYTKALLAYAFALA GNQDKRKEVLKSLNEEAVKKDNSVHWERPQKPKAPVGHFYEPQAPSAEVEMTSYVLLAYL TAQPAPTSEDLTSATNIVKWITKQQNAQGGFSSTQDTVVALHALSKYGAATFTRTGKAAQ VTIQSSGTFSSKFQVDNNNRLLLQQVSLPELPGEYSMKVTGEGCVYLQTSLKYNILPEKE EFPFALGVQTLPQTCDEPKAHTSFQISLSVSYTGSRSASNMAIVDVKMVSGFIPLKPTVK MVSNQTLSLFFTVLQDVPVRDLKPAIVKVYDYYETDEFAIAEYNAPCSKAESGGFYEPQR EEMHADWSMGSHEWAQGAAPQVTSLVCRLQALTSLRAVHAKERLQVSVQLSSDPSQPPSH ACWCPSSKGGRDGRGLAYQHCPERVHARPGCDSTQARPDLALSSEWVLTVERSQAAGVGT LEPAVGRGLCWASESTENVHSRGKARLARRSPQCREDPEDAPQAALLRASSQGPGMRRCR RCARWPHRCPGPQSGPRSHFSPWPRTLGPAPALCVRTPLRPGPSSALGPLSACPSVPDYT ASPPAGDSARSIVAASRAAGSGSTPGAGSKDCSPPPHSHSAAAAGESGDIGPGSGAVEAP GRGARRPTRQREDGGGAVGCFGVSRHRGREAQMSHSSHCGSRSCSAAAARPSLLQLA >gi568815586r:8968183_9215849|GENSCAN_predicted_CDS_7|5214_bp atggggaagaacaaactccttcatccaagtctggttcttctcctcttggtcctcctgccc acagacgcctcagtctctggaaaaccgcagtatatggttctggtcccctccctgctccac actgagaccactgagaagggctgtgtccttctgagctacctgaatgagacagtgactgtc ccaaagtcttcatccaatgaggaggtaatgttcctcactgtccaagtgaaaggaccaacc caagaatttaagaagcggaccacagtgatggttaagaacgaggacagtctggtctttgtc cagacagacaaatcaatctacaaaccagggcagacagattccactagtatacattcagag cccttccagggctcctacaaggtggtggtacagaagaaatcaggtggaaggacagagcac cctttcaccgtggaggaatttgttcttcccaagtttgaagtacaagtaacagtgccaaag ataatcaccatcttggaagaagagatgaatgtatcagtgtgtggcctatacacatatggg aagcctgtccctggacatgtgactgtgagcatttgcagaaagtatagtgacgcttccgac tgccacggtgaagattcacaggctttctgtgagaaattcagtggacagctaaacagccat ggctgcttctatcagcaagtaaaaaccaaggtcttccagctgaagaggaaggagtatgaa atgaaacttcacactgaggcccagatccaagaagaaggaacagtggtggaattgactgga aggcagtccagtgaaatcacaagaaccataaccaaactctcatttgtgaaagtggactca cactttcgacagggaattcccttctttgggcaggtgcgcctagtagatgggaaaggcgtc cctataccaaataaagtcatattcatcagaggaaatgaagcaaactattactccaatgct accacggatgagcatggccttgtacagttctctatcaacaccaccaatgttatgggtacc tctcttactgttagggtcaattacaaggatcgtagtccctgttacggctaccagtgggtg tcagaagaacacgaagaggcacatcacactgcttatcttgtgttctccccaagcaagagc tttgtccaccttgagcccatgtctcatgaactaccctgtggccatactcagacagtccag gcacattatattctgaatggaggcaccctgctggggctgaagaagctctccttctattat ctgataatggcaaagggaggcattgtccgaactgggactcatggactgcttgtgaagcag gaagacatgaagggccatttttccatctcaatccctgtgaagtcagacattgctcctgtc gctcggttgctcatctatgctgttttacctaccggggacgtgattggggattctgcaaaa tatgatgttgaaaattgtctggccaacaaggtggatttgagcttcagcccatcacaaagt ctcccagcctcacacgcccacctgcgagtcacagcggctcctcagtccgtctgcgccctc cgtgctgtggaccaaagcgtgctgctcatgaagcctgatgctgagctctcggcgtcctcg gtttacaacctgctaccagaaaaggacctcactggcttccctgggcctttgaatgaccag gacaatgaagactgcatcaatcgtcataatgtctatattaatggaatcacatatactcca gtatcaagtacaaatgaaaaggatatgtacagcttcctagaggacatgggcttaaaggca ttcaccaactcaaagattcgtaaacccaaaatgtgtccacagcttcaacagtatgaaatg catggacctgaaggtctacgtgtaggtttttatgagtcagatgtaatgggaagaggccat gcacgcctggtgcatgttgaagagcctcacacggagaccgtacgaaagtacttccctgag acatggatctgggatttggtggtggtaaactcagcaggtgtggctgaggtaggagtaaca gtccctgacaccatcaccgagtggaaggcaggggccttctgcctgtctgaagatgctgga cttggtatctcttccactgcctctctccgagccttccagcccttctttgtggagctcaca atgccttactctgtgattcgtggagaggccttcacactcaaggccacggtcctaaactac cttcccaaatgcatccgggtcagtgtgcagctggaagcctctcccgccttcctagctgtc ccagtggagaaggaacaagcgcctcactgcatctgtgcaaacgggcggcaaactgtgtcc tgggcagtaaccccaaagtcattaggaaatgtgaatttcactgtgagcgcagaggcacta gagtctcaagagctgtgtgggactgaggtgccttcagttcctgaacacggaaggaaagac acagtcatcaagcctctgttggttgaacctgaaggactagagaaggaaacaacattcaac tccctactttgtccatcaggtggtgaggtttctgaagaattatccctgaaactgccacca aatgtggtagaagaatctgcccgagcttctgtctcagttttgggagacatattaggctct gccatgcaaaacacacaaaatcttctccagatgccctatggctgtggagagcagaatatg gtcctctttgctcctaacatctatgtactggattatctaaatgaaacacagcagcttact ccagagatcaagtccaaggccattggctatctcaacactggttaccagagacagttgaac tacaaacactatgatggctcctacagcacctttggggagcgatatggcaggaaccagggc aacacctggctcacagcctttgttctgaagacttttgcccaagctcgagcctacatcttc atcgatgaagcacacattacccaagccctcatatggctctcccagaggcagaaggacaat ggctgtttcaggagctctgggtcactgctcaacaatgccataaagggaggagtagaagat gaagtgaccctctccgcctatatcaccatcgcccttctggagattcctctcacagtcact caccctgttgtccgcaatgccctgttttgcctggagtcagcctggaagacagcacaagaa ggggaccatggcagccatgtatataccaaagcactgctggcctatgcttttgccctggca ggtaaccaggacaagaggaaggaagtactcaagtcacttaatgaggaagctgtgaagaaa gacaactctgtccattgggagcgccctcagaaacccaaggcaccagtggggcatttttac gaaccccaggctccctctgctgaggtggagatgacatcctatgtgctcctcgcttatctc acggcccagccagccccaacctcggaggacctgacctctgcaaccaacatcgtgaagtgg atcacgaagcagcagaatgcccagggcggtttctcctccacccaggacacagtggtggct ctccatgctctgtccaaatatggagcagccacatttaccaggactgggaaggctgcacag gtgactatccagtcttcagggacattttccagcaaattccaagtggacaacaacaaccgc ctgttactgcagcaggtctcattgccagagctgcctggggaatacagcatgaaagtgaca ggagaaggatgtgtctacctccagacatccttgaaatacaatattctcccagaaaaggaa gagttcccctttgctttaggagtgcagactctgcctcaaacttgtgatgaacccaaagcc cacaccagcttccaaatctccctaagtgtcagttacacagggagccgctctgcctccaac atggcgatcgttgatgtgaagatggtctctggcttcattcccctgaagccaacagtgaaa atggtgtcaaatcagacactgagcttgttcttcacggttctgcaagatgtcccagtaaga gatctgaaaccagccatagtgaaagtctatgattactacgagacggatgagtttgcaatt gctgagtacaatgctccttgcagcaaagctgagtctgggggattttatgagcctcagagg gaggaaatgcatgctgattggtccatgggcagccatgagtgggcccagggagcagcacca caagttacctctctggtctgcaggcttcaagccctcaccagcttgagggctgttcatgcc aaggagcgcctgcaagtcagtgtccagctgtcttcagacccctctcagcctccctcccac gcttgttggtgcccaagttccaaagggggccgagacggcagggggctggcgtatcagcac tgtcctgagcgtgtgcacgctcggccaggctgtgacagtacccaggctcggcccgacctt gctctgagttcagagtgggtgctaacagtggagagaagccaggcagccggagtaggcacc ctggagcctgcagtgggcaggggactttgctgggcctctgagagcacagaaaatgtccac agccgcggcaaggcgcgtctagctcggcggtcaccccagtgccgggaggaccctgaagac gcgccccaggcggccctactcagagcctcctcccaaggcccaggaatgcggcgctgtcgg aggtgtgcgcggtggccacaccgctgtccgggtccccaaagcgggccccgctcccacttc tcgccttggccccgaaccctgggtccagccccagcgctttgtgtgcgaacaccgctccgc cccggacccagctccgccttggggcccctctctgcctgcccctccgtgcccgactacact gcttcccctccggcgggcgactcagcccggtccatcgtggcggcttccagggcggcaggc tccgggagtactcccggggccggctccaaggactgttcccctcctccccactcccactcc gcggcggcggcgggcgagagcggcgacatagggccagggtccggagcggtggaggctcct ggccggggagcacgtcgccccacccggcaacgcgaggatggtggcggcgcagtcggctgc tttggggtctcaaggcacaggggacgcgaggcacagatgtcccacagcagccactgcggc tcccgcagctgctccgccgccgctgcccgcccctccctgctgcagctggcgtga >gi568815586r:8968183_9215849|GENSCAN_predicted_peptide_8|142_aa MLAAVEPVGAPSLLSWGQSSPVPLQLPKPRLQTAASCSMEQHPDQWLQTWAYCSTEPERA RDKRETCPFPVGCAGDSLVQLRHPHSKAHLHLVLHLSGYLILIVHPSLVRVPHSSCHSSW MQDKSLSPAAEVSGQKIDTSKH >gi568815586r:8968183_9215849|GENSCAN_predicted_CDS_8|429_bp atgttggctgcagtggagccggtgggagctccgtcccttctgagttggggccagagctcc ccggtgccgctgcagctgcccaaaccgaggctgcagaccgcggcctcctgctctatggag cagcaccccgaccagtggctgcagacctgggcctactgctccactgagccagagagagcc cgggacaagcgggagacctgcccattcccagttggctgcgcgggagattccctggtgcag ctgcggcaccctcacagtaaagctcatcttcatcttgtccttcacttgtctgggtacctc attcttattgtgcacccttcacttgttcgtgtacctcattcttcctgtcattcttcctgg atgcaggacaagagcttgtcgccagccgcagaagtttctggccagaaaatcgacacctca aagcactag >gi568815586r:8968183_9215849|GENSCAN_predicted_peptide_9|1970_aa MRKDRLLHLCLVLLLILLSASDSNSTEPQYMVLVPSLLHTEAPKKGCVLLSHLNETVTVS ASLESGRENRSLFTDLVAEKDLFHCVSFTLPRISASSEVAFLSIQIKGPTQDFRKRNTVL VLNTQSLVFVQTDKPMYKPGQTASCLITQITCFIMSESYRRTTFPVRFRVVSVDENFRPR NELNPRRNRIAQWQSLKLEAGINQLSFPLSSEPIQGSYRVVVQTESGGRIQHPFTVEEFV LPKFEVKVQVPKIISIMDEKVNITVCGEYTYGKPVPGLATVSLCRKLSRVLNCDKQEVCE EFSQQLNSNGCITQQVHTKMLQITNTGFEMKLRVEARIREEGTDLEVTANRISEITNIVS KLKFVKVDSHFRQGIPFFAQVLLVDGKGVPIPNKLFFISVNDANYYSNATTNEQGLAQFS INTTSISVNKLFVRVFTVHPNLCFHYSWVAEDHQGAQHTANRVFSLSGSYIHLEPVAGTL PCGHTETITAHYTLNRQAMGELSELSFHYLIMAKGVIVRSGTHTLPVESGDSIHSNDHGS MTQGIGGSPLATVHAFALTVVLAWGWGTVKGSFALSFPVESDVAPIARMFIFAILPDGEV VGDSEKFEIENCLANKVDLSFSPAQSPPASHAHLQVAAAPQSLCALRAVDQSVLLMKPEA ELSVSSVYNLLTVKDLTNFPDNVDQQEEEQGHCPRPFFIHNGAIYVPLSSNEADIYSFLK GMGLKVFTNSKIRKPKSCSVIPSVSAGAVGQGYYGGLGVVERPYVPQLGTYNVIPLNNEQ SSGPVPETVRSYFPETWIWELVAVNSSGVAEVGVTVPDTITEWKAGAFCLSEDAGLGISS TASLRAFQPFFVELTMPYSVIRGEVFTLKATVLNYLPKCIRVRKMRVNRKGNVNFSVSAE AMQSLELCGNEVVEVPEIKRKDTVIKTLLVEAEGIEQEKTFSSMTCASGANVSEQLSLKL PSNVVKESARASFSVLGDILGSAMQNIQNLLQMPYGCGEQNMVLFAPNIYVLNYLNETQQ LTQEIKAKAVGYLITGYQRQLNYKHQDGSYSTFGERYGRNQGNTWLTAFVLKTFAQARSY IFIDEAHITQSLTWLSQMQKDNGCFRSSGSLLNNAIKGGVEDEATLSAYVTIALLEIPLP VTNPIVRNALFCLESAWNVAKEGTHGSHVYTKALLAYAFSLLGKQNQNREILNSLDKEAV KEDPEMEEGLCLEVEGKMVSRTKGDIDDSLIGGDAFTEVSQSEDNLVHWERPQRPKAPVG HLYQTQAPSAEVEMTSYVLLAYLTAQPAPTSGDLTSATNIVKWIMKQQNAQGGFSSTQDT VVALHALSRYGAATFTRTEKTAQVTVQDSQTFSTNFQVDNNNLLLLQQISLPELPGEYVI TVTGERCVYLQTSMKYNILPEKEDSPFALKVQTVPQTCDGHKAHTSFQISLTISYTGNRP ASNMVIVDVKMVSGFIPLKPTVKMLERSSSVSRTEVSNNHVLIYVEQVTNQTLSFSFMVL QDIPVGDLKPAIVKVYDYYETDESVVAEYIAPCSTDECPLYPHPPGSTSCLSEPSAPNST LPPSPPVTHSKTASTSQTTSAFLLLWEVARVEVMFIMFCQQFLQAVAEGLQLLPVREPFA VEKLGDEGHGGGHLAYPGGGSGVEGMQGGRGGAARERRGSAALPQQLSSPQGFLTEQRAD RKKGILPLKESRSPGACHSADLAGGQVAVRIFLALEQDAVGSDLLLRPPLAVSTHIAQLD FGTAAQSLDPHQLGLNAGLRSCSTVFQCGFHAELRLQLNLKTPEGTPPVRDSDLCIWSCS VWPATSQLRSSVWLVTRLQHLGHLLSYDRILASRVARDLGKTNAWSRIHLHTDLATRSTD FLVVVLLQVIQLLLQALDVRLQVSPGRGRNQVVVDVLRGDLGARQQPVGPAEDAGIAAAI APEEDEGTKWVEDTDRLRLRSPSGCWALGRRPRLQSARSRCPAPKGLSGQ >gi568815586r:8968183_9215849|GENSCAN_predicted_CDS_9|5913_bp atgcggaaagacagacttcttcatttatgtcttgtgctacttcttatcctgctttctgcc agtgactcaaactctacagaaccgcagtatatggtgctggtcccctccctgctccacact gaggcccctaagaagggctgtgtccttctgagccacctgaatgagacagtgactgtaagt gcttccttggagtctggcagggaaaacaggagcctcttcactgacctggtggcggagaag gacttattccactgtgtctccttcactctcccaaggatctcagcctcttcagaggtggca ttccttagcatccagataaaggggcctacgcaagatttcaggaagaggaacacagttctg gtactgaacacccaaagtctggtctttgtccagacagacaaacccatgtataaaccagga cagacagcctcctgtcttattacccaaattacctgctttatcatgtctgaatcttatcgg agaactacttttccagtaagattccgtgttgtctccgtggatgaaaattttcgccctcga aatgaactgaacccaagaagaaatcgaattgcacaatggcagagtctcaagctagaagct ggcatcaatcagttgtcctttcccctctcatcagagcccattcagggctcctacagggtg gtggtacagacagaatcaggtggaaggatacagcaccccttcaccgtggaggaatttgtg cttcccaagtttgaggtcaaagttcaggtgccaaagataatcagtatcatggatgaaaaa gtgaacataacagtctgtggagaatacacttatgggaagcctgtcccaggacttgcaact gtgagcctgtgtagaaaattatctcgtgttcttaattgtgacaagcaggaggtctgtgag gaattcagtcaacagcttaacagcaatggctgcatcacccaacaagtacacaccaaaatg ctccagattacaaatacgggctttgaaatgaagcttagagtggaagccaggatcagagaa gaggggacagacctggaagtcactgcaaacaggatcagtgaaatcacaaacattgtatcc aaactcaaattcgtgaaagtggattcacactttagacaaggaatccccttttttgcacag gtgcttctggtggatggaaaaggtgtgcccatccccaataaactcttcttcatctctgtg aatgacgccaattattactccaatgcaaccaccaatgagcagggtcttgcacagttttca atcaatactaccagtatctcggttaataaactttttgtccgggttttcactgtgcatccc aacttgtgttttcactattcatgggtagcagaagaccaccagggtgctcagcacactgca aatcgtgttttctccttaagtggaagttacattcacctggagcctgtggctggtaccctg ccctgtggccacacggagactatcacggcacactatacactgaatagacaggccatggga gagttatcggagctcagtttccattacctgatcatggctaagggagtcatcgtcagatct ggaacccacactctgcctgtggagtcaggagacagcattcatagcaatgatcatggcagt atgactcaggggattgggggatccccactagcaactgtgcatgcatttgcactgacggtg gtgttagcatgggggtggggcactgtgaaaggcagttttgccttatccttccctgtggag tcagacgttgcccccattgcacgaatgttcatctttgccattttaccagatggagaagtt gttggagactctgaaaaatttgagattgaaaactgtctagccaacaaggtggatttgagc ttcagcccagcacaaagtcccccagcctcacatgcccacctgcaagtagcagctgctccg cagtccctctgtgcccttcgtgctgtggaccaaagtgtgctgctcatgaagcctgaggct gagctctctgtgtcctcagtatataatctgctaactgtgaaggatctcaccaattttcct gacaatgtggaccagcaggaggaagaacaaggacactgtccccgtcctttcttcattcat aatggagccatctatgttcccttatcaagtaatgaagcagatatttatagcttcctcaag gggatgggattgaaggtgttcactaactcaaaaatccgaaaaccaaagtcgtgttcagtc atcccttccgtgtctgcaggagcagtaggtcaaggatactatggaggtctaggagtagta gagagaccatatgttcctcaattaggcacatataatgtgatacccttaaataatgaacaa agttcagggccagtccctgaaacggtgcgaagctattttcctgagacttggatctgggag ttggtggcagtgaactcatcaggtgtggctgaggtaggagtaacagtccctgacaccatc accgagtggaaggcaggggccttctgcctgtccgaagatgctggacttggtatctcttcc actgcctctctccgagccttccagcccttctttgtggagctcacaatgccttactctgtg attcgtggagaggtcttcacactcaaggccacggtcctaaactaccttcccaaatgcatc cgggtaaggaaaatgagggtgaacaggaaagggaatgtgaacttctcagtgagtgcagag gcaatgcagtccttagaactctgtggaaatgaggttgttgaggtccctgagattaaaaga aaagacacagtcatcaaaaccctgttggtggaggctgaaggtattgagcaagaaaagact ttcagttctatgacctgtgcctcaggtgctaatgtgtctgagcagttgtccttgaagctc ccatcaaatgtggtcaaagaatctgccagagcttctttctcagttctgggtgacatatta ggttctgctatgcaaaatatacaaaatctcctccagatgccatatggctgtggagaacag aacatggtcctatttgctcctaacatctatgtcttgaactatctgaatgaaacccagcag ctgacgcaggagatcaaggccaaggccgttggctatctcatcactggttaccagagacag ctgaactacaaacaccaagatggctcctacagcacctttggggaacgatatggcaggaac cagggcaacacttggctcacagcttttgtactgaagactttcgcccaggctcgatcctac atcttcattgatgaagcacacattacccaatctctcacgtggctctcccagatgcagaag gacaatggctgtttcaggagctctgggtcactgctcaacaatgccataaagggaggtgta gaagatgaagcgaccctctccgcctatgttactattgcccttctggaaattcctctccca gtcactaaccctattgttcgcaatgccctgttctgcctggagtcagcctggaatgtagca aaggaggggacccatgggagccatgtctacaccaaggcattgctggcctatgctttttcc ctactgggaaagcaaaatcagaatagagaaatactgaactcacttgataaggaagctgtg aaagaagatccagagatggaggaaggactgtgcctggaggtggaggggaagatggtcagt aggacaaagggtgacattgatgactcgcttattggtggagatgccttcactgaagtttcc caaagcgaagacaacctcgtccattgggagcgccctcagagacccaaggcaccagtgggg catctttaccaaacccaggctccctctgctgaggtggagatgacatcctatgtgctcctc gcttatctcacggcccagccagcccccacctcaggggacctgacctctgcaactaacatt gtgaagtggatcatgaagcagcagaacgcccaaggtggtttctcctccacccaggacaca gtggtggctctccatgccctgtccaggtatggagcagccactttcaccagaactgagaaa actgcacaggtcaccgttcaggattcacagaccttttctacaaatttccaagtagacaac aacaacctcctattactgcagcagatctcattgccagagctccctggagaatatgtcata acagtaactggggaaagatgtgtgtatcttcagacatccatgaaatacaatattcttcca gagaaagaggactccccatttgctttaaaagtgcagactgtgccccaaacttgcgatgga cacaaagcccacaccagctttcagatctcactgaccatcagttacacaggaaaccgtcct gcttccaatatggtgattgttgatgtaaagatggtatctggttttattcccctgaaacca acagtaaaaatgcttgaaagatctagctctgtgagccggacagaagtgagcaacaaccat gtcctcatttatgtggaacaggtgacaaatcagacgctaagtttttccttcatggttctg caagacatcccagtaggagacttgaagccagcaattgttaaagtctatgattactatgag acagatgagtctgtggttgctgagtatatcgccccctgcagcacagatgaatgccctctc tatcctcatccccctggatccacttcttgcctgtccgaaccctcagccccaaactccact cttcctccttctccacctgttactcattcaaaaactgcttcaaccagtcaaaccacctct gcctttctcctactctgggaagtggctagggtcgaagtgatgtttataatgttctgtcag cagttcctgcaggctgtggctgaaggtctgcagctgttgcccgttcgtgagccctttgct gtggagaaacttggagacgaaggacatggaggcggccatctcgcctaccctggtggtggc tctggggtagaagggatgcaaggaggcagaggtggggcggcccgggaacgccggggctcg gctgcgctgcctcagcagctgagcagcccccagggcttcctcacagagcagagggctgac aggaagaaagggatcctccctctgaaggagagcagaagcccaggagcctgccactcagcg gaccttgcaggtgggcaggttgctgtaaggatctttctggcgctcgagcaggatgcggtc ggcagtgatctcctgctcaggcctcctctggcagtcagcacacacattgcccagctggac ttcggcaccgctgctcagagcctggatccgcaccagctgggcctcaacgcaggcctccgt tcctgcagtacggtcttccaatgcggttttcatgctgagctgcgactgcagctcaatctc aagaccccggagggtacgccaccggtccgcgactcggacttgtgcatctggagctgctcc gtgtggccagcgacctcccagctcagatcctcagtctggctggtgaccaggcttcagcat cttgggcatctgctcagttatgaccgcatactggcttcacgtgttgcccgggatcttggc aagaccaatgcctggagcagaatccacctccacactgacctggccacccgcagcactgat ttcctcgttgtggttcttctccaggtgatccagctcctcctgcaggccttggatgtgcgt cttcaggtcagccctggccggggtaggaaccaagtggtcgtggatgttctgcgtggtgat cttggtgcccgtcagcagcctgtcggacctgcagaggacgctggcatcgccgctgccata gccccagaggaggatgagggcacaaagtgggtggaggacacagacaggctacggcttcgg agccccagtggatgctgggctctaggaaggcgcccccgactccaaagtgcacggagccgc tgcccagcccccaaaggactaagtggccaatga >gi568815586r:8968183_9215849|GENSCAN_predicted_peptide_10|119_aa XCNLDQHCLPRNLPSDPVGALLRTQRKPHSSTYLVTSLQSVDSKVDPHPSARPTDQGLGG SPIYPGNRQNLSLLEPQLTGLPTTDLTVDPAKPCDLALPPVDHNSGSNLVNPGNPTGGS >gi568815586r:8968183_9215849|GENSCAN_predicted_CDS_10|360_bp nnctgcaatctggaccagcactgtctgcctaggaacctacccagtgacccagtaggagcc ctcctaaggacccagaggaagccacattcatccacatatctcgtaactagcctacaatct gtggactctaaagtagaccctcatcccagtgccagacctactgaccaaggtctaggaggc agtccaatttacccagggaacagacagaatctaagcctactagagccccagttaacaggc ctgccaaccacagacctcactgttgacccagcaaaaccatgtgacctggctctacctcca gttgaccacaattctggaagcaatcttgtcaatcctgggaacccaacaggaggatcctga