Result of GENSCAN for
pF1KSDA1736
GENSCAN 1.0 Date run: 3-Nov-116 Time: 07:11:19 Sequence gi568815587r:46297453_46648380 : 350928 bp : 47.14% 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 Intr + 2483 2711 229 1 1 112 116 359 0.994 38.54 1.02 Intr + 10364 10548 185 0 2 98 99 207 0.962 22.31 1.03 Intr + 12537 12615 79 2 1 87 77 78 0.989 5.72 1.04 Intr + 13580 13737 158 0 2 98 85 143 0.999 14.73 1.05 Intr + 14873 15022 150 1 0 85 98 176 0.944 18.66 1.06 Intr + 15160 15218 59 0 2 98 72 81 0.975 5.18 1.07 Intr + 15399 15467 69 0 0 118 94 110 0.999 12.90 1.08 Intr + 18834 18933 100 0 1 110 78 122 0.928 13.51 1.09 Intr + 19909 20035 127 0 1 107 70 152 0.934 15.55 1.10 Intr + 22812 23076 265 1 1 74 75 330 0.975 26.87 1.11 Term + 23258 23294 37 2 1 119 47 56 0.981 1.41 1.12 PlyA + 25409 25414 6 1.05 2.00 Prom + 34462 34501 40 -9.26 2.01 Init + 35824 36035 212 0 2 100 110 287 0.950 28.36 2.02 Intr + 42023 42045 23 2 2 126 70 22 0.239 1.39 2.03 Intr + 44809 44876 68 2 2 81 32 70 0.336 -0.68 2.04 Intr + 47804 47917 114 1 0 108 3 109 0.016 5.04 2.05 Intr + 48716 48814 99 1 0 64 56 57 0.005 0.41 2.06 Intr + 50202 50368 167 2 2 16 99 333 0.037 25.96 2.07 Intr + 59866 60073 208 1 1 36 39 126 0.087 1.58 2.08 Intr + 64660 64728 69 0 0 113 59 14 0.192 0.38 2.09 Intr + 65546 65659 114 1 0 71 78 60 0.754 3.94 2.10 Intr + 67916 68043 128 1 2 96 37 39 0.587 -0.92 2.11 Intr + 68711 69532 822 2 0 51 46 706 0.817 53.24 2.12 Intr + 69839 69947 109 2 1 124 75 111 0.999 13.69 2.13 Intr + 70200 70412 213 2 0 44 77 192 0.854 12.61 2.14 Intr + 70550 70627 78 1 0 109 98 98 0.920 12.65 2.15 Intr + 72042 72098 57 2 0 67 107 90 0.995 7.88 2.16 Intr + 72489 72557 69 2 0 105 100 81 0.999 10.38 2.17 Intr + 73861 73932 72 0 0 88 73 121 0.960 10.20 2.18 Intr + 74035 74151 117 0 0 74 109 167 0.959 18.06 2.19 Intr + 74252 74323 72 1 0 121 60 79 0.993 8.00 2.20 Intr + 74623 74718 96 0 0 58 66 103 0.971 5.31 2.21 Intr + 74976 75058 83 2 2 93 88 88 0.997 7.74 2.22 Intr + 75165 75225 61 0 1 32 101 120 0.836 6.44 2.23 Intr + 75319 75432 114 0 0 148 86 180 0.999 24.44 2.24 Intr + 75509 75649 141 1 0 89 114 220 0.999 25.25 2.25 Intr + 76705 76783 79 0 1 87 36 164 0.983 10.22 2.26 Intr + 76947 77101 155 1 2 104 81 143 0.733 14.99 2.27 Intr + 77152 77214 63 0 0 96 77 123 0.567 10.91 2.28 Intr + 77314 77387 74 0 2 82 94 59 0.975 4.10 2.29 Intr + 77482 77593 112 1 1 113 97 188 0.985 22.58 2.30 Intr + 77980 78198 219 0 0 113 1 375 0.558 29.80 2.31 Intr + 78286 78499 214 0 1 83 76 328 0.910 29.39 2.32 Intr + 78614 78693 80 0 2 83 110 70 0.997 7.97 2.33 Intr + 78876 78945 70 2 1 89 113 75 0.767 8.85 2.34 Intr + 79072 79112 41 2 2 114 99 75 0.972 9.14 2.35 Intr + 79621 79760 140 0 2 115 117 21 0.986 6.96 2.36 Intr + 80746 80777 32 1 2 83 100 2 0.665 -1.33 2.37 Intr + 81285 81475 191 1 2 56 41 80 0.464 -0.60 2.38 Intr + 81539 81659 121 1 1 83 101 236 0.820 24.47 2.39 Intr + 81751 81784 34 2 1 119 106 64 0.994 8.58 2.40 Intr + 81921 82116 196 0 1 57 99 171 0.916 14.52 2.41 Term + 82379 82495 117 1 0 114 44 259 0.999 22.64 2.42 PlyA + 84232 84237 6 -5.32 3.00 Prom + 84503 84542 40 -16.88 3.01 Init + 84606 84681 76 2 1 68 59 236 0.999 17.95 3.02 Intr + 84842 85009 168 0 0 82 78 210 0.990 19.32 3.03 Intr + 85135 85296 162 2 0 63 82 253 0.874 22.15 3.04 Term + 85697 85785 89 0 2 44 48 64 0.351 -4.18 3.05 PlyA + 86326 86331 6 1.05 4.12 PlyA - 86367 86362 6 -0.45 4.11 Term - 89134 87666 1469 2 2 118 48 2594 0.725 249.22 4.10 Intr - 89542 89485 58 1 1 87 68 26 0.278 -1.04 4.09 Intr - 90802 90692 111 1 0 79 66 33 0.213 0.78 4.08 Intr - 93478 93174 305 2 2 103 38 141 0.446 6.91 4.07 Intr - 94908 94167 742 0 1 108 114 82 0.310 3.82 4.06 Intr - 98734 98698 37 0 1 102 96 46 0.537 5.06 4.05 Intr - 100491 100002 490 1 1 102 80 375 0.384 30.16 4.04 Intr - 111254 111061 194 1 2 128 97 135 0.950 17.54 4.03 Intr - 112916 112824 93 1 0 63 71 107 0.976 5.58 4.02 Intr - 120600 120461 140 0 2 107 89 122 0.923 13.46 4.01 Init - 121493 121416 78 2 0 71 60 25 0.881 -0.93 4.00 Prom - 122424 122385 40 -2.06 5.15 PlyA - 123056 123051 6 1.05 5.14 Term - 126926 126913 14 0 2 103 47 8 0.269 -3.44 5.13 Intr - 131647 131368 280 1 1 19 84 315 0.015 21.25 5.12 Intr - 136176 136022 155 1 2 91 96 61 0.924 6.99 5.11 Intr - 137585 137397 189 0 0 66 87 279 0.999 25.16 5.10 Intr - 146146 146036 111 2 0 71 115 104 0.964 11.75 5.09 Intr - 196256 196156 101 1 2 84 110 8 0.212 2.35 5.08 Intr - 196752 196672 81 2 0 104 116 42 0.251 7.35 5.07 Intr - 210918 210739 180 2 0 85 80 221 0.936 19.98 5.06 Intr - 215361 215275 87 2 0 56 94 42 0.043 0.69 5.05 Intr - 245736 244493 1244 0 2 111 99 606 0.297 51.30 5.04 Intr - 245946 245800 147 0 0 92 75 109 0.774 10.43 5.03 Intr - 246589 246523 67 0 1 54 111 18 0.987 -0.39 5.02 Intr - 248324 248152 173 2 2 57 117 179 0.994 16.44 5.01 Init - 250928 250794 135 2 0 95 116 107 0.944 14.37 5.00 Prom - 276698 276659 40 -2.46 6.00 Prom + 286599 286638 40 -2.46 6.01 Init + 296338 296687 350 0 2 81 63 229 0.346 14.61 6.02 Term + 301060 301069 10 1 1 107 37 6 0.231 -4.93 6.03 PlyA + 303215 303220 6 1.05 7.03 PlyA - 303864 303859 6 1.05 7.02 Term - 306457 306078 380 2 2 104 35 384 0.991 29.65 7.01 Init - 318785 318116 670 2 1 74 106 445 0.482 40.27 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 50208 50368 161 2 2 65 99 318 0.953 29.90 S.002 Term - 134979 134956 24 0 0 143 52 -12 0.818 -1.08 S.003 Init - 338968 338961 8 1 2 114 91 0 0.861 3.40 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815587r:46297453_46648380|GENSCAN_predicted_peptide_1|485_aa HFPEHLDHFTENMEDFSNDLFSSFFDDPVLDEKSPLLDMELDSPTPGIQAEHSYSLSGDS APQSPLVPIKMEDTTQDAEHGAWALGHKLCSIMVKQEQSPELPVDPLAAPSAMAAAAAMA TTPLLGLSPLSRLPIPHQAPGEMTQLPVIKAEPLEVNQFLKVTPEDLVQMPPTPPSSHGS DSDGSQSPRSLPPSSPVRPMARSSTAISTSPLLTAPHKLQGTSGPLLLTEEEKRTLIAEG YPIPTKLPLTKAEEKALKRVRRKIKNKISAQESRRKKKEYVECLEKKVETFTSENNELWK KVETLENANRTLLQQLQKLQTLVTNKISRPYKMAATQTGTCLMVAALCFVLVLGSLVPCL PEFSSGSQTVKEDPLAADGVYTASQMPSRSLLFYDDGAGLWEDGRSTLLPMEPPDGWEIN PGGPAEQRPRDHLQHDHLDSTHETTKYLSEAWPKDGGNGTSPDFSHSKEWFHDRDLGPNT TIKLS >gi568815587r:46297453_46648380|GENSCAN_predicted_CDS_1|1458_bp cactttcctgagcacctggaccactttacggagaacatggaggacttctccaatgacctg ttcagcagcttctttgatgaccctgtgctggatgagaagagccctctattggacatggaa ctggactcccctacgccaggcatccaggcggagcacagctactccctgagcggcgactca gcgccccagagcccccttgtgcccatcaagatggaggacaccacccaagatgcagagcat ggagcatgggcgctgggacacaaactgtgctccatcatggtgaagcaggagcagagcccg gagctgcccgtggaccctctggctgccccctcggccatggctgccgcggccgccatggcc accaccccgctgctgggcctcagccccttgtccaggctgcccatcccccaccaggccccg ggagagatgactcagctgccagtgatcaaagcagagcctctggaggtgaaccagttcctc aaagtgacaccggaggacctggtgcagatgcctccgacgccccccagcagccatggcagt gacagcgacggctcccagagtccccgctctctgcccccctccagccctgtcaggcccatg gcgcgctcctccacggccatctccacctccccactcctcactgcccctcacaaattacag gggacatcagggccactgctcctgacagaggaggagaagcggaccctgattgctgagggc taccccatccccacaaaactccccctcaccaaagccgaggagaaggccttgaagagagtc cggaggaaaatcaagaacaagatctcagcccaggagagccgtcgtaagaagaaggagtat gtggagtgtctagaaaagaaggtggagacatttacatctgagaacaatgaactgtggaag aaggtggagaccctggagaatgccaacaggaccctgctccagcagctgcagaaactccag actctggtcaccaacaagatctccagaccttacaagatggccgccacccagactgggacc tgcctcatggtggcagccttgtgctttgttctggtgctgggctccctcgtgccctgcctt cccgagttctcctccggctcccagactgtgaaggaagaccccctggccgcagacggcgtc tacacggccagccagatgccctcccgaagcctcctattctacgatgacggggcaggctta tgggaagatggccgcagcaccctgctgcccatggagcccccagatggctgggaaatcaac cccggggggccggcagagcagcggccccgggaccacctgcagcatgatcacctggacagc acccacgagaccaccaagtacctgagtgaggcctggcctaaagacggtggaaacggcacc agccccgacttctcccactccaaggagtggttccacgacagggatctgggccccaacacc accatcaaactctcctag >gi568815587r:46297453_46648380|GENSCAN_predicted_peptide_2|1747_aa MAEGQGGGGQRWDWAGGGRAAEEEVVRRRCRRGEEAQVAQPWPEGSRGTAAGPPVEERFR QLHLRKQVSYRDLQFLLITVSSPPHLESRDDIDSAKECKFKLFTAAGPSQRKAPMSPEPV VLSLGGQRPLAGPPLDPTPACPQVTALSIGYLRLTKAGKRAARTQEGRMKAKGRMEPRDG SPEARSSDSESASASSSGSERDAGPEPDKAPRRLNKRRFPGLRLFGHSFHEKAMENMERA IASSPERGLQVSLLGSSREERKVATQTKAVAIPLYPTKRSGLSQLEPVVSRCMWLHKVCG SRAEGVLGRQLQALALGLLEAPHPETEGQPFCCALGVEALRVTFTRTVWRGGGDQEHEKG ETEQSSTRKFLPSALQTYRHAHTQNPEGFAFGPSLLSRPPGGCEWAPGHRTDRGLIQLLM LPVSVPNSQPPAMETFFRRHFRGKVPGPGEGQQRPSSVGLPTGKARRRSPAGQASSSLAQ RRRSSAQLQGCLLSCGVRAQGSSRRRSSTVPPSCNPRFIVDKVLTPQPTTVGAQLLGAPL LLTGLVGMNEEEGVQEDVVAEASSAIQPGTKTPGPPPPRGAQPLLPLPRYLRRASSHLLP ADAVYDHALWGLHGYYRRLSQRRPSGQHPGPGGRRASGTTAGTMLPTRVRPLSRRRQVAL RRKAAGPQAWSALLAKAITKSGLQHLAPPPPTPGAPCSESERQIRSTVDWSESATYGEHI WFETNVSGDFCYVGEQYCVARMLVSARRGTPPPAGGASSRSPSGNVGLSPLPGTPAVGRP RMQKSVSRRKCAACKIVVHTPCIEQLEKINFRCKPSFRESGSRNVREPTFVRHHWVHRRR QDGKCRHCGKGFQQKFTFHSKEIVAISCSWCKQAYHSKVSCFMLQQIEEPCSLGVHAAVV IPPTWILRARRPQNTLKASKKKKRASFKRKSSKKGPEEGRWRPFIIRPTPSPLMKPLLVF VNPKSGGNQGAKIIQSFLWYLNPRQVFDLSQGGPKEALEMYRKVHNLRILACGGDGTVGW ILSTLDQLRLKPPPPVAILPLGTGNDLARTLNWGGGYTDEPVSKILSHVEEGNVVQLDRW DLHAEPNPEAGPEDRDEGATDRLPLDVFNNYFSLGFDAHVTLEFHESREANPEKFNSRFR NKMFYAGVSGVCTPACAHLFYHPCPCPPVSTRPQEPCRVLTAFSDFLMGSSKDLAKHIRV VCDGMDLTPKIQDLKPQCVVFLNIPRYCAGTMPWGHPGEHHDFEPQRHDDGYLEVIGFTM TSLAALQVGGHGERLTQCREVVLTTSKAIPVQVDGEPCKLAASRIRIALRNQATMVQKAK RRSAAPLHSEYVPPCHGCWEWSGTFSRQVVWCQAEGGTKAGPLLSPRLPALPDSQQPVPE QLRIQVSRVSMHDYEALHYDKEQLKEASVPLGTVVVPGDSDLELCRAHIERLQQEPDGAG AKSPTCQKLSPKWCFLDATTASRFYRIDRAQEHLNYVTEIAQDEIYILDPELLGASARPD LPTPTSPLPTSPCSPTPRSLQGDAAPPQERSRSEEALLQGLVTSAAREPTGCGVRGPSSG VLQRDPQRQLRSKMCERTRFRPVLVYPAVGQRLQELHRAGGDLMHRDEQSRTLLHHAVST GSKDVVRYLLDHAPPEILDAVEEKALNFLPFLMALGRQMGGSGDGMGYTASPCSPSGETC LHQAAALGQRTICHYIVEAGASLMKTDQQGDTPRQRAEKAQDTELAAYLENRQHYQMIQR EDQETAV >gi568815587r:46297453_46648380|GENSCAN_predicted_CDS_2|5244_bp atggccgaggggcagggcggcggagggcagcgctgggactgggctggcggcggccgggca gccgaggaggaggtggtgcggcggcgatgccggcgcggggaggaggcccaggtcgcgcag ccctggcccgagggttcccggggcacggccgctgggcccccggtggaggagcgtttccgc cagctgcacctacgaaagcaggtgtcttacagggacctgcagttcttgctgatcaccgtg tcctccccaccccacctggaaagcagagatgacattgacagcgccaaggagtgcaagttc aagctcttcacggcagctggccccagccagcggaaggcgcctatgagccctgagcctgtg gtcctcagcttgggcggccagcggcctctagcaggcccccccctcgaccccacccccgct tgtccgcaggtcacagccctaagcattggctatttgcggctgactaaggctggaaaacgg gctgccagaacccaagaggggaggatgaaagcgaagggccggatggagccgcgggacggt agccccgaggcccggagcagcgactccgagtcggcttccgcctcgtccagcggctccgag cgcgacgccggtcccgagccggacaaggcgccgcggcgactcaacaagcggcgcttcccg gggctgcggctcttcgggcacagttttcatgagaaagccatggagaacatggagcgggcg atagcatccagcccagaaaggggcctccaggtgtcactcttggggtcctctagagaggag aggaaggtggccacccaaaccaaggctgttgccatccccttgtacccaacaaagagaagt ggcctgagccagctggagcctgtggtcagccgttgcatgtggttacacaaggtctgtggg agcagagccgagggggttctggggaggcagctgcaggcccttgctctggggctgctggag gctccccacccggagaccgagggacagccattttgctgtgctcttggtgttgaagccctc agggtgacctttacacgtactgtgtggcgaggtggaggtgaccaagagcacgagaaaggt gagacagagcagtcgagcaccagaaagttcttaccatcagcacttcagacatacaggcac gcacacacccagaatccagaaggctttgcttttggcccaagcctattgtcacggccccct ggaggctgtgaatgggctcccggacacaggacagaccgtggcctgatccagctcctgatg ctcccggtctctgtgcccaacagccaaccgcctgccatggagactttctttaggagacat ttccgggggaaggtgccaggccctggagaggggcagcagcggcccagcagcgtggggctg cccacaggcaaggcccggcgtcgctcccccgctgggcaggcctcctcctcactggcacag cggcgccgctccagcgcccagctccagggctgcctcctgagttgcggggtgagggcccag ggttccagccgccggcgctccagcactgtgcccccttcctgcaacccccgcttcatcgtg gataaggtgctcactccacagcctaccaccgtgggggcccagcttctgggtgcacccctg ctgttgaccgggcttgtgggcatgaatgaggaggagggtgtccaggaggatgtggtagcc gaggcatcgagcgccatccagccaggcaccaagacaccagggccacccccacctcggggc gcccagccgctgttgcccctaccccgctacctgcgccgagcctcctcccacctgctcccc gcggatgccgtatatgaccacgctctctggggcctgcacggctactatcggcgcctcagc cagcggcggccctcaggccagcaccctggccctgggggccgaagagcctcaggcaccacc gccggcaccatgctgcccacccgtgtgcgcccactgtcccgcaggcgccaggtagcccta cggcgcaaggcggccggaccccaggcctggagcgccctgctcgcgaaagccatcaccaag tcgggcctccagcacctggccccccctccgcccacccctggggccccgtgcagcgagtca gagcggcagatccggagtacagtggactggagcgagtcagcgacatatggggagcacatc tggttcgagaccaacgtgtccggggacttctgctacgttggggagcagtactgtgtagcc aggatgctggtgagtgctcgtaggggcacgccgccccctgctggtggagccagtagccgc agcccttccgggaacgtgggattgagcccgctccctggcacccctgctgtgggccgcccc aggatgcagaagtcagtgtctcgaagaaagtgcgcagcctgcaagattgtggtgcacacg ccctgcatcgagcagctggagaagataaatttccgctgtaagccgtccttccgtgaatca ggctccaggaatgtccgcgagccaacctttgtacggcaccactgggtacacagacgacgc caggacggcaagtgtcggcactgtgggaagggattccagcagaagttcaccttccacagc aaggagattgtggccatcagctgctcgtggtgcaagcaggcataccacagcaaggtgtcc tgcttcatgctgcagcagatcgaggagccgtgctcgctgggggtccacgcagccgtggtc atcccgcccacctggatcctccgcgcccggaggccccagaatactctgaaagcaagcaag aagaagaagagggcatccttcaagaggaagtccagcaagaaagggcctgaggagggccgc tggagacccttcatcatcaggcccaccccctccccgctcatgaagcccctgctggtgttt gtgaaccccaagagtgggggcaaccagggtgcaaagatcatccagtctttcctctggtat ctcaatccccgacaagtcttcgacctgagccagggagggcccaaggaggcgctggagatg taccgcaaagtgcacaacctgcggatcctggcgtgcgggggcgacggcacggtgggctgg atcctctccaccctggaccagctacgcctgaagccgccaccccctgttgccatcctgccc ctgggtactggcaacgacttggcccgaaccctcaactggggtgggggctacacagatgag cctgtgtccaagatcctctcccacgtggaggaggggaacgtggtacagctggaccgctgg gacctccacgctgagcccaaccccgaggcagggcctgaggaccgagatgaaggcgccacc gaccggttgcccctggatgtcttcaacaactacttcagcctgggctttgacgcccacgtc accctggagttccacgagtctcgagaggccaacccagagaaattcaacagccgctttcgg aataagatgttctacgccggggtgagtggggtctgcacccccgcctgtgcccacctcttc taccacccgtgcccgtgcccacctgtgtccaccaggccccaggagccctgccgggtgctg acagctttctctgacttcctgatgggcagctccaaggacctggccaagcacatccgagtg gtgtgtgatggaatggacttgactcccaagatccaggacctgaaaccccagtgtgttgtt ttcctgaacatccccaggtactgtgcgggcaccatgccctggggccaccctggggagcac cacgactttgagccccagcggcatgacgacggctacctcgaggtcattggcttcaccatg acgtcgttggccgcgctgcaggtgggcggacacggcgagcggctgacgcagtgtcgcgag gtggtgctcaccacatccaaggccatcccggtgcaggtggatggcgagccctgcaagctt gcagcctcacgcatccgcatcgccctgcgcaaccaggccaccatggtgcagaaggccaag cggcggagcgccgcccccctgcacagcgagtacgtcccaccctgccacgggtgttgggag tggagcgggaccttctctcggcaagtggtttggtgccaggccgagggtggcaccaaggca gggcccttgctgagcccccgcttgccggccctgcccgacagccagcagccggtgccagag cagttgcgcatccaggtgagtcgcgtcagcatgcacgactatgaggccctgcactacgac aaggagcagctcaaggaggcctctgtgccgctgggcactgtggtggtcccaggagacagt gacctagagctctgccgtgcccacattgagagactccagcaggagcccgatggtgctgga gccaagtccccgacatgccagaaactgtcccccaagtggtgcttcctggacgccaccact gccagccgcttctacaggatcgaccgagcccaggagcacctcaactatgtgactgagatc gcacaggatgagatttatatcctggaccctgagctgctgggggcatcggcccggcctgac ctcccaacccccacttcccctctccccacctcaccctgctcacccacgccccggtcactg caaggggatgctgcaccccctcaagaaaggagcaggtcagaggaagcactgctccagggc ttggtcaccagtgctgccagagagcccacaggctgtggggtgagaggcccctcctccggt gtgctccagagagacccacagaggcaactcaggagtaagatgtgtgagcgcactcgtttc aggcctgtgctggtgtacccggctgtgggccagcgtctccaggagctgcaccgagctggg ggcgacctcatgcaccgagacgagcagagtcgcacgctcctgcaccacgcagtcagcact ggcagcaaggatgtggtccgctacctgctggaccacgcccccccagagatccttgatgcg gtggaggaaaaagccctgaacttcctgccctttctgatggcccttgggagacagatgggt ggatcaggggacgggatggggtacacagccagcccctgctcccccagcggggagacctgt ttgcaccaagcagcggccctgggccagcgcaccatctgccactacatcgtggaggccggg gcctcgctcatgaagacagaccagcagggcgacactccccggcagcgggctgagaaggct caggacaccgagctggccgcctacctggagaaccggcagcactaccagatgatccagcgg gaggaccaggagacggctgtgtag >gi568815587r:46297453_46648380|GENSCAN_predicted_peptide_3|164_aa MQHRGFLLLTLLALLALTSAVAKKKDKVKKGGPGSECAEWAWGPCTPSSKDCGVGFREGT CGAQTQRIRCRVPCNWKKEFGADCKYKFENWGACDGGTGTKVRQGTLKKARYNAQCQETI RVTKPCTPKTKAKAKAQRGQQGRGESARFSGEEAEDAQGCCDQD >gi568815587r:46297453_46648380|GENSCAN_predicted_CDS_3|495_bp atgcagcaccgaggcttcctcctcctcaccctcctcgccctgctggcgctcacctccgcg gtcgccaaaaagaaagataaggtgaagaagggcggcccggggagcgagtgcgctgagtgg gcctgggggccctgcacccccagcagcaaggattgcggcgtgggtttccgcgagggcacc tgcggggcccagacccagcgcatccggtgcagggtgccctgcaactggaagaaggagttt ggagccgactgcaagtacaagtttgagaactggggtgcgtgtgatgggggcacaggcacc aaagtccgccaaggcaccctgaagaaggcgcgctacaatgctcagtgccaggagaccatc cgcgtcaccaagccctgcacccccaagaccaaagcaaaggccaaagcccagcgaggccag cagggcaggggtgaatctgcccgcttctcaggtgaggaggctgaggatgcccagggctgc tgtgaccaggactag >gi568815587r:46297453_46648380|GENSCAN_predicted_peptide_4|1238_aa MVTGLPAKADAHWLAWSEESYGQSVLRVFNVLYPMPADQRRHVSINSARWLPEPGLGLAY GTNKGDLVICRPEALNSGVEYYWDQLNETVFTVHSNSRSSERPGTSRATWRTDRDMGLMN AIGLQPRNPATSVTSQGTQTLALQLQNAETQTEREVPEPGTAASGPGEGEGSEYGASGED ALSRIQRLMAEGGMTAVVQREQSTTMASMGGFGNNIIVSHRIHRSSQTGTEPGAAHTSSP QPSTSRGLLPEAGQLAERGLSPRTASWDQPGTPGREPTQPTLPSSSPVPIPVSLPSAEGP TLHCELTNNNHLLDGGSSRGDAAGPRGEPRNRACYRLGPPSSARAPTAPLLAGGPAGTQR RGWSSRPSTPTDPWRRSPPHPPAASRWGQTPAPRGQTASGATQGAEVPERRENSSGSREY GQGGGGSAAGPSCQLLPQPARGRRVPMTTRTPPPPGGQRPLLPCVAGRGRRPLCPSRELP ASPREGRGPPGSPTPRVLTPARRRRVTGPGRAARPRHDWLLPRDITRLGEKCERERESEP QRRELRAEQGPPLDTPSPPPALGPAARPAGPRGRASVPPSVWREGSWAEAAGTDPGATAF PEPWSECPRTEDLHPKPPHGRAEHPLRSRPGKRGVEDSGNTVPTPRGCRNCVLGAWREGG APESQGSFDHGGDMEEPPDGLGKHGPRGPPDPSPAAAPSLPLTHRRTELRIRPCLLGWRG CDGPACVCGAGHSPQLLLWLAPHHPDDLVDTAYPPLATNMANFTPVNGSSGNQSVRLVTS SSHNRYETVEMVFIATVTGSLSLVTVVGNILVMLSIKVNRQLQTVNNYFLFSLACADLII GAFSMNLYTVYIIKGYWPLGAVVCDLWLALDYVVSNASVMNLLIISFDRYFCVTKPLTYP ARRTTKMAGLMIAAAWVLSFVLWAPAILFWQFVVGKRTVPDNQCFIQFLSNPAVTFGTAI AAFYLPVVIMTVLYIHISLASRSRVHKHRPEGPKEKKAKTLAFLKSPLMKQSVKKPPPGE AAREELRNGKLEEAPPPALPPPPRPVADKDTSNESSSGSATQNTKERPATELSTTEATTP AMPAPPLQPRALNPASRWSKIQIVTKQTGNECVTAIEIVPATPAGMRPAANVARKFASIA RNQVRKKRQMAARERKVTRTIFAILLAFILTWTPYNVMVLVNTFCQSCIPDTVWSIGYWL CYVNSTINPACYALCNATFKKTFRHLLLCQYRNIGTAR >gi568815587r:46297453_46648380|GENSCAN_predicted_CDS_4|3717_bp atggtaacaggactaccagccaaggctgatgctcactggttggcctggtcagaggaaagt tatgggcagtccgtcctgagagttttcaacgtcctttatcccatgcctgccgaccagcgg agacatgtcagtatcaactctgcccgttggctgcctgagccagggcttggcttggcctat ggtactaacaaaggagacctggtgatctgccgaccagaggccttaaactctggtgttgag tactactgggaccagctgaacgagacggtcttcactgtccattccaacagcaggagcagc gagcggcctggaaccagcagagccacatggaggacagacagagacatggggctgatgaat gccattgggcttcagccccggaaccctgccacctcagtgacatctcagggcacccagact ctggcccttcagctgcagaatgccgaaacacagactgagagggaggtgccggagccaggg acagccgcctcaggtcctggtgaaggtgagggttcagagtatggtgccagtggagaagat gcgctcagcaggatccagaggctgatggcggagggcggcatgacagccgtggtgcagcgg gagcagagcaccaccatggcctccatgggcggcttcggcaacaacatcatcgtcagccac cgcattcaccgcagctctcagacgggcactgaacctggtgccgcccacacctcctcaccc cagccctccacctctcggggactgctcccagaggccgggcaactggcagagcgaggccta agcccccggacagcttcctgggaccagcctggtacccctgggcgggagccaacccagcca accctgccctcttcctcccctgtccccattcctgtttcccttcccagcgctgagggacca accctccactgcgagttgaccaataacaaccaccttctggatggtggcagcagcaggggg gacgctgcaggccctaggggagaaccacggaacagggcctgctacagactggggccacct tccagtgccagggccccgacggcgcccctcctcgcgggcggcccggccggcacgcagcgg cgcggctggagctcccggccctcgaccccgacggatccctggcggcgcagcccgccccac ccacccgcagcctcccgctggggtcagactcccgcgcctcgcggccaaaccgccagcggg gccacgcagggcgctgaggtcccggagaggcgcgaaaatagctcagggtcccgggagtat ggtcagggcggaggcgggagcgcggccggacccagctgccagctccttccccagcccgcg agggggcgccgcgtccccatgacaacgcggacacccccaccccccggagggcagcgcccc ctgctcccctgcgtcgctggccgtgggcggcgccctctgtgcccaagcagggagctgccg gccagcccccgagaggggcgcggaccgccggggtctccgacgcctcgggtgttgaccccc gcgcgtcgccgccgggtgaccggcccggggcgggcggcgcggccccgccacgattggctg cttcctcgtgacatcacgcggctcggggaaaagtgcgagcgtgagcgcgagtcggagcca cagcgccgggagctgcgggcggagcaggggccgcccctcgacaccccgtccccgcccccg gccctcggcccggccgcccgccccgccggcccgcggggccgcgcgtccgtcccgccgtct gtctggcgcgaggggagctgggcagaggcggcggggacagatccaggggccacagccttc ccagagccatggagtgaatgcccaagaaccgaagacctacaccccaaaccaccccacggg cgtgcggagcaccccctccggtctcgcccggggaagaggggtgtcgaggactcgggaaac acagtgcccacgcccagaggctgcaggaactgcgtgctaggggcttggagggagggcggg gcacccgagagccagggctccttcgaccacggcggagacatggaggagcctccagatggc ctaggaaaacacggccctcgaggcccgcccgaccctagcccggctgccgcgccctctctt cctctcacacacagacgcacagaactgcgtatccgaccatgcctgctgggctggcgtggc tgtgatgggcccgcgtgcgtctgtggagcgggccactctccacagctcctcctgtggctg gctcctcatcacccagatgacctggtggacacggcctacccacccctggcaaccaacatg gccaacttcacacctgtcaatggcagctcgggcaatcagtccgtgcgcctggtcacgtca tcatcccacaatcgctatgagacggtggaaatggtcttcattgccacagtgacaggctcc ctgagcctggtgactgtcgtgggcaacatcctggtgatgctgtccatcaaggtcaacagg cagctgcagacagtcaacaactacttcctcttcagcctggcgtgtgctgatctcatcata ggcgccttctccatgaacctctacaccgtgtacatcatcaagggctactggcccctgggc gccgtggtctgcgacctgtggctggccctggactacgtggtgagcaacgcctccgtcatg aaccttctcatcatcagctttgaccgctacttctgcgtcaccaagcctctcacctaccct gcccggcgcaccaccaagatggcaggcctcatgattgctgctgcctgggtactgtccttc gtgctctgggcgcctgccatcttgttctggcagtttgtggtgggtaagcggacggtgccc gacaaccagtgcttcatccagttcctgtccaacccagcagtgacctttggcacagccatt gctgccttctacctgcctgtggtcatcatgacggtgctgtacatccacatctccctggcc agtcgcagccgagtccacaagcaccggcccgagggcccgaaggagaagaaagccaagacg ctggccttcctcaagagcccactaatgaagcagagcgtcaagaagcccccgcccggggag gccgcccgggaggagctgcgcaatggcaagctggaggaggcccccccgccagcgctgcca ccgccaccgcgccccgtggctgataaggacacttccaatgagtccagctcaggcagtgcc acccagaacaccaaggaacgcccagccacagagctgtccaccacagaggccaccacgccc gccatgcccgcccctcccctgcagccgcgggccctcaacccagcctccagatggtccaag atccagattgtgacgaagcagacaggcaatgagtgtgtgacagccattgagattgtgcct gccacgccggctggcatgcgccctgcggccaacgtggcccgcaagttcgccagcatcgct cgcaaccaggtgcgcaagaagcggcagatggcggcccgggagcgcaaagtgacacgaacg atctttgccattctgctagccttcatcctcacctggacgccctacaacgtcatggtcctg gtgaacaccttctgccagagctgcatccctgacacggtgtggtccattggctactggctc tgctacgtcaacagcaccatcaaccctgcctgctatgctctgtgcaacgccacctttaaa aagaccttccggcacctgctgctgtgccagtatcggaacatcggcactgccaggtag >gi568815587r:46297453_46648380|GENSCAN_predicted_peptide_5|987_aa MKVVPEKNAVRILWGRERGARAMGAQRLLQELVEDKTRWMKWEGKGGSESWFTDSNNAIA SLAFHPTAQLLLIATANEIHFWDWSRREPFAVVKTASEMERVRLVRFDPLGHYLLTAIVN PSNQQGDDEPEIPIDGTELSHYRQRALLQSQPVRRTPLLHNFLHMLSSRSSGIQPSTERP RTSAYIRLRQRVSYPTAECCQHLGILCLCSRCSGTRVPSLLPHQDSVPPASARATTPSFS FVQTEPFHPPEQASSTQQDQGLLNRPSAFSTVQSSTAGNTLRNLSLGPTRRSLGGPLSSH PSRYHREIAPGLTGSEWTRTVLSLNSRSEAESMPPPRTSASSVSLLSVLRQQEGGSQASV YTSATEGRGFPASGLATESDGGNGSSQNNSGSIRHELQCDLRRFFLEYDRLQELDQSLSG EAPQTQQAQEMLNNNIESERPGPSHQPTPHSSENNSNLSRGHLNRCRACHNLLTFNNDTL RWERTTPNYSSGEASSSWQVPSSFESVPSSGSQLPPLERTEGQTPSSSRLELSSSASPQE ERTVGVAFNQETGHWERIYTQSSRSGTVSQEALHQDMPEESSEEDSLRRRLLESSLISLS RYDGAGSREHPIYPDPARLSPAAYYAQRMIQYLSRRDSIRQRSMRYQQNRLRSSTSSSSS DNQGPSVEGTDLEFEDFEDNGDRSRHRAPRNARMSAPSLGRFVPRRFLLPEYLPYAGIFH ERGQPGLATHSSVNRVLAGAVIGDGQSAVASNIANTTYRLQWWDFTKFDLPEISNASVNV LVQNCKIYNDASCDISADGQLLAAFIPSSQRGFPDEGILAVYSLAPHNLGEMLYTKRFGP NAISVSLSPMGRYVMVGLASRRILLHPSTEHMVAQVFRLQQAHGGETSMREGVMVAKKDV HMPKHPELADKNVPNLHVMKAMQSLKSRGYVKEQFAWRHFYWYLTNEGIQYLRDYLHLPP EIVPAILRRSRPETGRPRPKGLEGTNE >gi568815587r:46297453_46648380|GENSCAN_predicted_CDS_5|2964_bp atgaaggttgtcccagaaaagaatgctgtccggatactctgggggcgagaacggggtgct cgggccatgggagctcagcggcttctgcaggagctggtagaagataaaacccggtggatg aaatgggagggcaagggtggcagtgaaagctggttcacagatagcaacaatgccattgcc tccctggctttccaccctacggctcagctcctgctgattgccactgccaatgagatccac ttctgggactggagtcgacgggaaccctttgctgtggtgaagacagctagtgagatggaa cgggtccgtctggtgagatttgatccacttggacactacttactcacagcaattgttaac ccctctaatcaacagggtgatgacgaaccagagatccccatagatggaacagaattatcc cactaccgtcagcgtgccctcctgcaatcacagccagttcgccggacgcctctcctccac aatttcctgcacatgctgtcctcccgctcttctggcatccagccctccacggagcgcccc aggacttccgcttacatcaggctccgacagcgggtcagttaccccacagctgagtgctgc cagcaccttgggatcctgtgcctttgcagccgctgctctggcactcgagttccttccctc ttgccacaccaggacagtgtcccccctgcttctgccagagctactaccccttccttttct tttgtacagaccgagcccttccatcccccggagcaggcctcgtcaacgcagcaggaccag ggcctcctgaaccggccgtctgccttcagtacagtccagagcagcactgccggcaacacg ctccgcaacctcagtctgggtcctacccgccgctctttgggagggcctctgtctagccac ccttctaggtatcaccgagaaatagctcctgggttgacaggatctgagtggacccggaca gtactcagtctgaactcccgctctgaggcggaatccatgcccccgcccagaaccagtgcc tcttcggtgagtttgctgtctgtgctgagacagcaggaaggtggctctcaggcatctgtg tacacttcagccacagaagggaggggttttccggcatcagggttggcaactgagtcagat ggagggaatggctccagccaaaacaactcgggcagcattcgccatgagcttcagtgtgac ctgagacgcttctttctggagtatgaccggcttcaggagctggatcagagcctgagtggg gaagctccccagacccaacaggcccaggaaatgctcaacaataacattgaatctgagagg ccaggcccttcccaccagcccaccccacacagcagtgagaacaactccaacctgtcccgt ggccacctgaatcgctgtcgtgcttgccacaatctcctgaccttcaacaacgataccctg cgctgggaaagaaccacacctaactactcctctggcgaggctagttcctcttggcaggtc cccagctcctttgagagtgtgccatcaagtggcagccagttgccacctctcgagcggact gagggccaaacgcccagctccagcaggctggagttgagcagctctgctagtccgcaggag gagaggactgtgggggtggcctttaaccaggagacaggccactgggaaagaatttacacc cagtccagcagatctggaactgtgtcacaggaggccttacatcaggatatgcctgaggag agctctgaggaggattcactcaggaggaggctgctggaatcttccctcatttcattatcc cgttatgatggagcaggatccagagagcacccaatttacccagacccagcgagattatct cctgctgcatactacgcccagaggatgatccagtatctctcacggagagacagtattcgc cagcgctccatgcgctaccaacagaaccgtctccgttcttccacctcctcctcttcctca gacaaccagggtccatcagtagagggaaccgacttggaatttgaggactttgaggacaat ggtgacagatccaggcaccgagctccacgcaatgcccggatgtctgcaccttcgcttgga cgctttgtcccaaggcgtttcttgctgcctgagtacttgccttatgctgggatttttcat gaacgtggacagcctggcttggctactcactcttctgttaacagggtcctggcaggggca gtgatcggtgatggacagtctgctgtggccagtaacattgccaatactacctaccggctc cagtggtgggacttcactaagtttgacctccctgaaatcagtaatgcttccgtgaatgtg ctggtgcagaactgcaagatctacaatgatgccagctgtgacatttctgcagatggccag ctcctggcagctttcatccccagcagccagaggggctttcctgatgaaggcatcctggca gtgtactccctggccccccataacctgggcgaaatgctctacaccaagcgatttggtccc aatgccatttcggtgagcctgtccccaatgggcagatatgtaatggtgggcttggcctca cgaaggatcctgctgcacccctccacagagcacatggtggcccaggtcttcaggctgcaa caggcccatggtggagagacctccatgagggagggagtcatggtggccaagaaggatgtc cacatgcctaagcacccggagctggcagacaagaatgtgcccaaccttcatgtcatgaag gccatgcagtctctcaagtcccgaggctacgtgaaggaacagtttgcctggagacatttc tactggtaccttaccaatgagggtatccagtatctccgtgattaccttcatctgccccca gagattgtgcctgccatcctacgccgtagccgtccagagactggcaggcctcggcctaaa ggtctggagggaacaaatgaataa >gi568815587r:46297453_46648380|GENSCAN_predicted_peptide_6|119_aa MPGWASQAPPGPTCKADGSSVCSPANGLSHREKERGDRNKGRGPFYRPAGEGGLSAGPRG QLSPRPGAAAAQETSSKKTAQKITEYKNAPDIKGGTPKQSFKEPQPSAEKQLNSYSRFK >gi568815587r:46297453_46648380|GENSCAN_predicted_CDS_6|360_bp atgccgggctgggcctcccaggctcctcctgggcctacctgcaaggcagacgggagctcg gtttgcagtccagcgaacgggctgagccacagggaaaaagaaagaggagacaggaataaa ggaaggggtccgttctaccgaccggcaggagaaggcggcttgagcgcggggcctcgcgga caactcagccctcgacccggcgccgccgccgctcaggagacatcaagcaagaagacggcg caaaagatcaccgaatacaagaacgccccagacatcaaaggaggaacgcccaagcaatcg ttcaaggaaccacagccgagcgccgaaaaacagctcaactcctactcaaggtttaagtga >gi568815587r:46297453_46648380|GENSCAN_predicted_peptide_7|349_aa MAIPITVLDCDLLLYGRGHRTLDRFKLDDVTDEYLMSMYGFPRQFIYYLVELLGANLSRP TQRSRAISPETQVLAALGFYTSGSFQTRMGDAIGISQASMSRCVANVTEALVERASQFIR FPADEASIQALKDEFYGLAGMPGVMGVVDCIHVAIKAPNAEDLSYVNRKGLHSLNCLMVC DIRGTLMTVETNWPGSLQDCAVLQQSSLSSQFEAGMHKDSWLLGDSSFFLRTWLMTPLHI PETPAEYRYNMAHSATHSVIEKTFRTLCSRFRCLDGSKGALQYSPEKSSHIILACCVLHN ISLEHGMDVWSSPMTGPMEQPPEEEYEHMESLDLEADRIRQELMLTHFS >gi568815587r:46297453_46648380|GENSCAN_predicted_CDS_7|1050_bp atggctataccaataacagtgcttgactgtgacctcttgctatatggccgtggtcaccgg acattggaccgttttaagctggatgatgtgactgatgaatacttgatgtccatgtatggg tttccacggcagttcatttattacttggtggagctcttgggggcgaatctttctaggcct actcagcgatccagggctattagcccagagacacaggtccttgcagcattgggtttttat acctcaggttccttccagactcggatgggagatgccattggaatcagtcaggcgtctatg agtcgttgtgttgccaatgtcactgaagcacttgtggaaagggcctcacagttcattcgc tttccagctgatgaagcctccattcaggctctgaaggatgaattctatgggttggcaggg atgccaggggtgatgggggtggttgactgtatccatgtggccatcaaggcaccaaatgct gaagacctctcctatgtgaaccgaaaaggcctgcattctttaaactgcctgatggtgtgt gacattagagggacactaatgaccgtggagacaaactggcccggcagcctacaggactgt gctgtgctgcagcagtcttccctcagtagtcagtttgaagcgggtatgcacaaagatagc tggcttctgggtgacagttccttctttcttcgaacctggctcatgaccccacttcacatt cctgaaactccagcagaatatcgctataacatggcccattctgcaactcacagtgtgatt gagaagactttccgaaccctctgctcccgattccgctgcctggatggatccaagggggca ctgcagtactcaccagagaaatccagccatatcatcttggcctgttgtgtcctccacaac atctccctggagcatgggatggatgtttggtcctctccaatgacaggacccatggaacag cccccggaagaggagtatgagcacatggagtccctggacttagaggctgaccgtattcgt caggagctaatgctcactcattttagctaa