GENSCAN 1.0 Date run: 3-Nov-116 Time: 02:42:41 Sequence gi568815588r:97257097_97501231 : 244135 bp : 47.84% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.04 Intr - 2532 2306 227 1 2 70 82 157 0.905 11.00 1.03 Intr - 6533 6324 210 0 0 82 105 141 0.998 14.08 1.02 Intr - 9029 8764 266 1 2 68 53 138 0.670 5.46 1.01 Init - 33288 33131 158 0 2 75 25 168 0.115 8.58 1.00 Prom - 41577 41538 40 -2.86 2.02 PlyA - 43015 43010 6 1.05 2.01 Sngl - 52862 52500 363 2 0 102 42 217 0.729 14.58 2.00 Prom - 54974 54935 40 -4.76 3.00 Prom + 60296 60335 40 -7.36 3.01 Sngl + 62358 63197 840 2 0 101 41 1038 0.956 96.15 3.02 PlyA + 64708 64713 6 1.05 4.04 PlyA - 64741 64736 6 1.05 4.03 Term - 77544 76775 770 1 2 98 48 962 0.300 86.77 4.02 Intr - 80712 80655 58 0 1 73 68 22 0.148 -2.84 4.01 Init - 85786 85703 84 1 0 53 58 127 0.641 7.02 4.00 Prom - 93219 93180 40 -6.96 5.36 PlyA - 94715 94710 6 1.05 5.35 Term - 95310 95209 102 0 0 88 42 90 0.843 2.68 5.34 Intr - 100100 100037 64 1 1 115 75 80 0.833 8.12 5.33 Intr - 101523 101441 83 0 2 43 80 157 0.784 8.84 5.32 Intr - 101914 101847 68 2 2 133 115 81 0.754 13.92 5.31 Intr - 103522 103450 73 1 1 113 100 120 0.999 14.68 5.30 Intr - 106807 106758 50 2 2 93 82 81 0.997 6.40 5.29 Intr - 109137 109012 126 1 0 55 86 160 0.968 13.15 5.28 Intr - 109525 109350 176 0 2 78 94 263 0.999 25.48 5.27 Intr - 109813 109646 168 0 0 101 94 329 0.997 33.86 5.26 Intr - 110134 109945 190 2 1 50 17 290 0.686 16.74 5.25 Intr - 110357 110228 130 2 1 68 23 65 0.741 -1.73 5.24 Intr - 112486 112329 158 2 2 69 89 237 0.945 21.63 5.23 Intr - 113178 113071 108 1 0 121 94 113 0.982 15.46 5.22 Intr - 113464 113359 106 1 1 18 100 102 0.993 4.19 5.21 Intr - 113700 113620 81 0 0 74 105 72 0.889 7.33 5.20 Intr - 113985 113827 159 0 0 82 72 270 0.990 24.98 5.19 Intr - 115070 114977 94 1 1 72 83 144 0.822 12.27 5.18 Intr - 115707 115640 68 0 2 2 92 84 0.999 -2.10 5.17 Intr - 116104 115950 155 2 2 60 99 175 0.444 15.59 5.16 Intr - 116641 116479 163 1 1 116 98 225 0.999 25.85 5.15 Intr - 116798 116734 65 0 2 83 110 75 0.738 7.64 5.14 Intr - 122318 122197 122 1 2 102 97 94 0.990 11.84 5.13 Intr - 122674 122532 143 1 2 79 80 84 0.966 5.85 5.12 Intr - 123817 123703 115 0 1 100 113 64 0.994 10.55 5.11 Intr - 124387 124290 98 1 2 70 94 69 0.936 4.51 5.10 Intr - 128161 128075 87 1 0 106 81 112 0.470 12.47 5.09 Intr - 128897 128799 99 2 0 83 89 109 0.975 10.81 5.08 Intr - 131283 131156 128 1 2 85 77 150 0.960 14.00 5.07 Intr - 131528 131393 136 2 1 110 59 125 0.948 11.94 5.06 Intr - 133443 133327 117 0 0 75 100 148 0.998 15.36 5.05 Intr - 133748 133643 106 1 1 127 40 118 0.999 11.12 5.04 Intr - 136664 136588 77 2 2 63 101 102 0.971 7.31 5.03 Intr - 139205 139122 84 2 0 80 105 81 0.975 9.02 5.02 Intr - 143438 143209 230 0 2 74 75 344 0.989 29.29 5.01 Init - 144135 143997 139 0 1 99 70 143 0.871 13.90 5.00 Prom - 156304 156265 40 -6.86 6.00 Prom + 157179 157218 40 -5.86 6.01 Init + 169212 169350 139 2 1 122 64 328 0.627 34.10 6.02 Intr + 173283 173557 275 1 2 69 86 311 0.991 26.26 6.03 Intr + 173859 174039 181 2 1 62 75 169 0.999 12.44 6.04 Term + 175259 175428 170 0 2 56 49 317 0.977 22.64 6.05 PlyA + 176324 176329 6 1.05 7.09 PlyA - 176961 176956 6 1.05 7.08 Term - 179455 179349 107 2 2 96 48 108 0.999 6.17 7.07 Intr - 180179 180095 85 2 1 48 94 102 0.554 6.19 7.06 Intr - 180654 180627 28 2 1 136 61 -19 0.577 -1.68 7.05 Intr - 184163 184075 89 2 2 153 111 46 0.985 12.17 7.04 Intr - 186215 186141 75 2 0 89 115 29 0.977 5.41 7.03 Intr - 188751 188636 116 1 2 75 45 179 0.784 12.47 7.02 Intr - 189124 188859 266 0 2 79 131 234 0.993 23.96 7.01 Init - 189289 189237 53 1 2 65 0 94 0.568 -2.90 7.00 Prom - 189935 189896 40 -7.76 8.00 Prom + 192162 192201 40 -6.06 8.01 Init + 194580 194822 243 2 0 82 89 473 0.998 42.53 8.02 Intr + 194994 195188 195 2 0 75 94 224 0.999 21.31 8.03 Intr + 195319 195407 89 0 2 100 94 81 0.987 8.67 8.04 Intr + 196522 196567 46 1 1 87 83 27 0.870 0.51 8.05 Intr + 196703 196750 48 1 0 106 80 47 0.913 4.58 8.06 Intr + 197618 197703 86 1 2 108 68 50 0.981 3.62 8.07 Intr + 198564 198687 124 0 1 85 70 81 0.903 6.59 8.08 Intr + 198878 198922 45 1 0 43 61 91 0.428 0.51 8.09 Intr + 199461 199514 54 2 0 89 83 19 0.400 0.68 8.10 Term + 199791 199886 96 2 0 57 43 67 0.437 -2.93 8.11 PlyA + 200248 200253 6 1.05 9.35 PlyA - 201248 201243 6 1.05 9.34 Term - 201623 201596 28 1 1 128 52 6 0.942 -1.45 9.33 Intr - 201783 201704 80 0 2 80 89 122 0.731 9.85 9.32 Intr - 202186 202127 60 1 0 114 103 42 0.993 7.23 9.31 Intr - 202430 202266 165 2 0 75 74 93 0.949 6.76 9.30 Intr - 202645 202563 83 2 2 84 127 8 0.913 3.66 9.29 Intr - 203136 202950 187 0 1 89 100 233 0.999 23.86 9.28 Intr - 203911 203811 101 2 2 120 82 64 0.999 8.83 9.27 Intr - 204526 204400 127 1 1 17 84 96 0.583 2.35 9.26 Intr - 204800 204732 69 2 0 101 101 42 0.955 6.18 9.25 Intr - 205023 204921 103 2 1 60 92 58 0.994 3.58 9.24 Intr - 205586 205487 100 0 1 88 80 96 0.999 7.97 9.23 Intr - 206917 206762 156 2 0 31 93 82 0.770 2.98 9.22 Intr - 208858 208709 150 2 0 73 78 123 0.917 9.93 9.21 Intr - 209063 208963 101 1 2 79 77 113 0.845 9.05 9.20 Intr - 209489 209408 82 0 1 51 77 74 0.986 1.30 9.19 Intr - 209805 209680 126 1 0 126 88 95 0.999 13.95 9.18 Intr - 210487 210409 79 1 1 46 100 56 0.982 1.72 9.17 Intr - 211310 211156 155 0 2 103 110 120 0.998 15.49 9.16 Intr - 212008 211840 169 1 1 75 38 61 0.565 -0.68 9.15 Intr - 212627 212550 78 2 0 69 105 8 0.547 0.35 9.14 Intr - 213107 213033 75 2 0 108 105 61 0.997 9.51 9.13 Intr - 213765 213679 87 0 0 90 90 72 0.645 7.77 9.12 Intr - 219648 219587 62 1 2 123 95 49 0.993 7.55 9.11 Intr - 219867 219739 129 1 0 101 11 220 0.999 16.27 9.10 Intr - 220308 220251 58 0 1 80 116 51 0.811 5.56 9.09 Intr - 220833 220759 75 0 0 115 94 43 0.949 7.31 9.08 Intr - 221293 221208 86 2 2 57 70 66 0.888 1.24 9.07 Intr - 223946 223846 101 1 2 117 79 -34 0.242 -1.65 9.06 Intr - 227055 227007 49 1 1 90 86 43 0.347 2.04 9.05 Intr - 241296 241177 120 1 0 66 96 175 0.991 16.57 9.04 Intr - 241727 241667 61 2 1 93 85 -2 0.926 -1.69 9.03 Intr - 242115 241895 221 1 2 102 37 113 0.832 5.62 9.02 Intr - 242736 242253 484 0 1 99 111 104 0.583 6.40 9.01 Intr - 243029 242933 97 1 1 21 81 90 0.442 1.61 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): >gi568815588r:97257097_97501231|GENSCAN_predicted_peptide_1|287_aa MQEQWQAFSTIGSGNGSLTGSGAQQTPCQIRRDGSQQRDGSQRRVCDSGKQQCDAICSFV ICNDSSLRGQPIIFNPDFFVEKLRHEKPEIFTELVVSNITRLIDLPGTELAQLMGEVDLK LPGGAGPASGFFRSLMSLKRKDLRVEGLFRVPGNSVRQQILRDALNNGTDIDLESGEFHS NDVATLLKMFLGELPEPLLTHKHFNAHLKIADLMQFDDKGNKTNIPDKDRQIEALQLLFL ILPPPNRNLLKLLLDLLYQTAKKQDKNKMSAYNLALMFAPHVLWPKN >gi568815588r:97257097_97501231|GENSCAN_predicted_CDS_1|861_bp atgcaggaacaatggcaagcctttagcacgatcgggagtggcaatgggagtctcactgga tcaggagcacagcagacaccctgccagatccggagggatgggagtcagcagcgggatggg agtcagcggcgggtctgcgacagcggcaaacagcagtgtgatgccatctgcagttttgtg atctgcaatgattcttcccttcgaggtcagcccattatctttaatcctgacttttttgtg gagaaactccgacatgagaaacctgagattttcactgagttggtggtcagcaatatcaca aggctcatcgatttacctggaactgagttggctcagctgatgggggaagtggaccttaag ttgcctggcggggctggcccagcatcaggattcttccggtctctcatgtctctcaagcga aaggacttgcgagtagagggtttgtttagagtaccgggtaatagtgtccgacagcagatt ttaagggatgctctcaataatggaactgacattgacttggaatcaggggaatttcactca aatgatgttgccactttgctgaagatgtttctaggagagttgccggagcctctgctgaca cataaacacttcaatgcacacctcaaaatcgctgatttgatgcagtttgatgataaagga aacaagaccaatataccagacaaggaccggcaaattgaggctctccagttgctcttcctc attctccctcctcctaatcgtaatttgctgaagttattgcttgatctcctataccagaca gcaaagaaacaagacaagaacaagatgtcagcctataaccttgcccttatgtttgcaccc catgtcctgtggccaaaaaat >gi568815588r:97257097_97501231|GENSCAN_predicted_peptide_2|120_aa MPPKFDPNKIKVVYLRCTGDEVGATSSLAPKISPLVLSLKKVGDAIAKATGDWKGLGITV KLNIQNRRAQIEVVPSASALIIKVLKEPPRDRRNRNTLNTVGISLLMRSSTLFDRGVTNL >gi568815588r:97257097_97501231|GENSCAN_predicted_CDS_2|363_bp atgccgccgaagttcgaccccaacaagattaaagtcgtatacctgaggtgcaccggggat gaagttggtgccacttcttcactggcccccaagatcagccccctggttctgtctctaaaa aaggttggtgatgccattgccaaggcaacaggtgactggaaaggcctggggattacagtg aaactgaacattcagaacagacgggcccagattgaggtggtgccttctgcctctgccctg atcatcaaagttctcaaggaaccaccaagagacagaagaaacagaaacacattaaacaca gtgggaatatcacttttgatgagatcatcaacattgtttgacagaggcgtcaccaatctt tag >gi568815588r:97257097_97501231|GENSCAN_predicted_peptide_3|279_aa MPCRREEEEEAGEEAEGEEEEEDSFLLLQQSVALGSSGEVDRLVAQIGETLQLDAAQHSP ASPCGPPGAPLRAPGPLAAAVPADKARSPAVPLLLPPALAETVGPAPPGVLRCALGDRGR VRGRAAPYCVAELATGPSALSPLPPQADLDGPPGAGKQGIPQPLSGPCRRGWLRGAAASR RLQQRRGSQPETRTGDDDPHRLLQQLVLSGNLIKEAVRRLHSRRLQLRAKLPQRPLLGPL SAPVHEPPSPRSPRAACSDPGASGRAQLRTGDGVLVPGS >gi568815588r:97257097_97501231|GENSCAN_predicted_CDS_3|840_bp atgccgtgccggagggaggaggaagaggaagccggcgaggaggcggagggggaggaagag gaggaggacagcttcctcctactgcagcagtcagtggcgctgggcagctcgggcgaggtg gaccggctggtggcccagatcggcgagacgctgcagctggacgcggcgcagcacagcccg gcctcgccgtgcgggcccccgggggcgccgctgcgggccccggggcccctggctgcggcg gtgccggcggacaaggccaggtccccggcggtgccgctgctgctgccgcccgcgttggcg gagactgtgggcccggcgccccctggggtcctgcgctgcgccctgggggaccgcggccgc gtgcggggccgcgctgcgccctactgcgtggccgagctcgccacaggccccagcgcgctg tccccactgccccctcaggccgaccttgatgggcctccgggagctggcaagcagggcatc ccgcagccgctgtcgggtccgtgccggcgaggatggctccggggcgccgccgcctcccgc cgcctgcagcagcgacgcgggtcccaaccagaaacccgcacaggcgacgacgacccgcac cggcttctgcagcagctagtgctctctggaaacctcatcaaggaggccgtgcgaaggctt cattcgcgacggctgcagttacgtgcaaagcttccccaacgcccgctcctgggacctctg tcggccccggtgcatgaacccccttcgcctcgcagccctcgcgcggcctgcagtgaccct ggcgcctccgggagggcgcagctcagaactggcgacggcgttcttgtgcctggcagctaa >gi568815588r:97257097_97501231|GENSCAN_predicted_peptide_4|303_aa MRSCDPSVDEISAGSEEILGVYLQESEMPGIIIQKGGKHYHFNSTEIPPRPRATKPPAKP AQLRVPGRGAMPCRREEEEEAGEEAEGEEEEDDSFLLLQQSVTLGSSGEVDRLVAQIGET LQLDAAQDSPASPCAPPGVPLRAPGPLAAAVPADKARPPAVPLLLPPASAETVGPAPSGA LRCALGDRGRVRGRAAPYCVAEVAAGPSALPGPCRRGWLRDAVTSRRLQQRRWTQAGARA GDDDPHRLLQQLVLSGNLIKEAVRRLQRAVAAVAATGPASAPGPGGGRSGPDRIALQPSG SLL >gi568815588r:97257097_97501231|GENSCAN_predicted_CDS_4|912_bp atgaggtcatgtgatccctctgtggatgagatcagcgctggctctgaggagatccttggt gtctacctgcaggaatctgaaatgccaggcatcatcatacagaaaggaggaaaacattac cattttaactctactgaaatccctccgcgcccgcgggcaaccaagcccccagcgaagccc gcacagctccgggtgccaggacggggggccatgccgtgccggagggaggaggaagaggaa gccggcgaggaggcggagggggaggaagaggaggacgacagcttcctcctgctgcagcag tcggtgacgctgggcagctcgggcgaggtggaccggctggtggcccagatcggcgagacg ctgcagctggacgcggcgcaggacagcccggcctcgccgtgcgcgcccccgggggtgccg ctgcgggccccggggcccctggctgcggcggtgccggcggacaaggcccggcccccggcg gtgccgctgctgctgccgcccgcttcggctgagacggtgggcccggcgccctctggggcc ctgcgctgcgccctaggggaccgcggccgcgtgcgcggacgcgctgcgccctactgcgtg gcggaggtcgccgcaggccccagcgcgctgccggggccgtgccggcgaggatggctcagg gacgcggtcacctcccgccgcttgcagcagcgccgatggacccaagccggggcacgcgcc ggcgacgacgacccgcatcggctcctccagcagctcgtgctctcgggaaacctcatcaag gaagccgtgcggagactccaacgagccgtcgccgcggttgcagccacgggccccgcaagc gcccctgggcccgggggaggccgcagcggacctgaccgcattgccctgcagccctcaggc tccttgctctga >gi568815588r:97257097_97501231|GENSCAN_predicted_peptide_5|1355_aa MGRSGKLPSGVSAKLKRWKKGHSSDSNPAICRHRQAARSRFFSRPSGRSDLTVDAVKLHN ELQSGSLRLGKSEAPETPMEEEAELVLTEKSSGTFLSGLSDCTNVTFSKVQRFWESNSAA HKEICAVLAAVTEVIRSQGGKETETEYFAALMTTMEAVESPESLAAVAYLLNLVLKRVPS PVLIKKFSDTSKAFMDIMSAQASSGSTSVLRWVLSCLATLLRKQDLEAWGYPVTLQVYHG LLSFTVHPKPKIRKAAQHGVCSVLKGSEFMFEKAPAHHPAAISTAKFCIQEIEKSGGSKE ATTTLHMLTLLKDLLPCFPEGLVKSCSETLLRVMTLSHVLVTACAMQAFHSLFHARPGLS TLSAELNAQIITALYDYVPSENDLQPLLAWLKVMEKAHINLEILKECVAPHMADIGSVTS SASGPAQSVAKMFRAVEEGLTYKFHAAWSSVLQLLCVFFEACGRQAHPVMRKCLQSLCDL RLSPHFPHTAALDQAVGAAVTSMGPEVVLQAVPLEIDGSEETLDFPRSWLLPVIRDHVQE TRLGFFTTYFLPLANTLKSKAMDLAQAGSTVESKIYDTLQWQMWTLLPGFCTRPTDVAIS FKGLARTLGMAISERPDLRVTVCQALRTLITKGCQAEADRAEVSRFAKNFLPILFNLYGQ PVAAGDTPAPRRAVLETIRTYLTITDTQLVNSLLEKASEKVLDPASSDFTRLSVLDLVVA LAPCADEAAISKLYSTIRPYLESKAHGVQKKAYRVLEEVCASPQGPGALFVQSHLEDLKK TLLDSLRSTSSPAKRPRLKCLLHIVRKLSAEHKEFITALIPEVILCTKEVSVGARKNAFA LLVEMGHAFLRFGSNQEEALQCYLVLIYPGLVGAVTMVSCSILALTHLLFEFKGLMGTST VEQLLENVCLLLASRTRDVVKSALGFIKVAVTVMDVAHLAKHVQLVGVIACISGVVQGFK ERIYVKYQVLLRRLKLSSCEGAQACVLKEAGLDHAASLGWTAVKGAQHGRLASLKAWCSV RQMEAIGKLSDDMRRHFRMKLRNLFTKFIRKFGFELVKRLLPEEYHRVLVNIRKAEARAK RHRALSQAAVEEEEEEEEEEEPAQGKGDSIEEILADSEDEEDNEEEERSRGKEQRKLARQ RSRAWLKEGGGDEPLNFLDPKVAQRVLATQPGPGRGRKKDHGFKVSADGRLIIREEADGN KMEEEEGAKGEDEEMADPMEDVIIRNKKHQKLKHQKEAEEEELEIPPQYQAGGSGIHRPV AKKAMPGAEYKAKKAKGDVKKKGRPDPYAYIPLNRSKLNRRKKMKLQGQFKGLVKAARRG SQEFNAITRCQTVCKGVFRKCRDDYSMFYFRYTLL >gi568815588r:97257097_97501231|GENSCAN_predicted_CDS_5|4068_bp atgggtcgctcgggaaagttgccttctggtgtctcagctaagttgaagcgctggaagaaa ggccacagcagcgacagcaaccccgccatctgccgccaccgtcaggccgcccgcagccgc ttcttcagccggccgtcaggaaggagtgacctgacagtcgatgctgtgaagttacataat gagctgcagtcagggtccttgcgcttgggcaaaagcgaagccccggagacgcccatggaa gaagaggcggagctggttctcaccgagaagtcctcgggtaccttcctgagtggcctttcc gactgcacaaacgtcaccttcagcaaagtacagcgcttctgggagtccaactcggctgcc cacaaggagatctgtgctgttctggctgctgtcactgaggtgattcgctcccagggaggg aaggagacggagactgagtacttcgctgctctgatgacaacaatggaagcagtggagtcc ccggagtccctggccgccgttgcttacctgctgaaccttgtcctgaagcgtgttcccagc cctgtgcttattaagaagttctctgatacctccaaagccttcatggatatcatgtcagct caggccagcagcggctccacctctgtcctccgatgggtcctttcctgcctggccaccctt ctgcggaagcaagacctggaggcctggggctaccccgtgacccttcaggtgtaccatggg ctgctgagcttcacggtgcatcccaagcccaagatccggaaggctgcccagcatggagta tgctcagtcctcaagggcagtgaattcatgtttgaaaaggcccctgcccatcatcctgct gccatttccactgccaagttctgcatccaggagattgagaagtctggaggctccaaggag gccaccaccacgctgcacatgctgacgctgctgaaggacctgctgccctgcttcccggaa ggcctggtgaagagctgcagtgagactctcctcagggtcatgaccttgagccatgtgctg gtgacagcctgtgccatgcaggcctttcacagcctcttccacgccaggcctggcctgagc accctgtcagcagagctcaacgcccagatcatcacggccctgtacgactatgttcccagt gagaatgatttacaacccctgctagcctggcttaaggtcatggagaaagcccacatcaac ctggagatcctgaaggaatgcgtggctccccacatggctgacattggctccgtgacctcc tcggcctcaggccctgcccaatctgttgccaagatgttcagggcagtggaggagggcctg acgtacaaattccatgcggcctggagctccgtgttgcagctgctgtgtgtcttcttcgag gcgtgtgggagacaggcccaccctgtgatgaggaagtgcctccagtccctgtgtgacctg cgcctctcccctcatttcccccacacggcggctcttgaccaggcagtgggggctgcggtg accagtatgggacctgaggtggtgctgcaggctgtgcctttggaaattgatggctctgag gagactctggatttcccacggagctggctgctgcctgtcatccgagaccatgttcaggaa acgcgacttggttttttcaccacctacttcttgcccctggctaacaccctgaagagcaaa gccatggacctggctcaggcaggcagcacagtggaatctaagatctacgacacactccag tggcagatgtggacactcctgcctgggttctgcacaaggcctacagatgtggccatctcc ttcaaagggctggcacggacgctgggcatggccatcagcgagcgtccagacctgagggtc accgtgtgccaggccctgcgcaccctcatcaccaagggctgccaggcagaggctgaccgt gctgaagtgagtcgctttgccaagaactttctgccgatcctcttcaacctgtatgggcag cccgtggcagccggggacactccagcccctcgccgggctgtgctggaaaccatcagaact tacctcaccatcactgacactcagttggtgaacagtctcctggaaaaagccagtgagaag gtgctcgaccctgccagctctgactttaccagattgtctgtcctggacctggtcgtggcc ttggctccgtgtgctgacgaagctgccatcagtaagctatactccaccatccggccctac ctagagagcaaggcccacggggtgcagaagaaggcctaccgagtgctggaggaggtgtgt gccagtcctcagggccccggggccctcttcgtgcagagccacctggaggacctgaagaag acactgctggactcgctgcggagcacctcctcacccgccaagaggccccgtttgaagtgc ctcctacacatcgtgaggaagctctcagctgaacacaaggagttcatcactgccctcatc ccagaggtgatcctgtgcaccaaggaggtgtcggtgggcgcacggaagaacgcttttgca ctgctcgtggagatgggccatgctttcctaaggtttggctcgaaccaggaagaggccctg cagtgctacctcgtcctgatctaccctggcctggtgggcgcggtgaccatggtcagctgc agcatcctggccctgacccacctccttttcgagtttaaaggtctgatggggaccagtaca gtggagcagctgctggagaatgtgtgcctgcttctggcctcccgcacccgtgacgtggtc aagtctgcactgggcttcatcaaggtggcagtgactgtcatggacgtggcgcacctggcc aaacatgtgcagctggtgggggtgatagcatgtatctcaggggtagtccaaggattcaag gagaggatatatgtcaagtaccaagtgctgttgagaagactaaagctctcatcctgcgag ggtgctcaggcctgtgtcctgaaggaggctgggcttgatcatgctgcgtccctgggctgg acagcagtaaagggggcgcagcatggaaggctcgcctccctgaaagcctggtgctctgtc cggcagatggaagccattgggaagctttcagatgacatgcggcggcacttccgcatgaag cttcggaacctgttcaccaagttcatccgcaagtttggatttgagctggtgaaaaggctg ttgcccgaggagtaccacagagtcctggtcaacatccggaaagctgaggcccgggccaag aggcaccgagccctgagccaggctgccgtggaggaggaagaagaggaggaggaggaggag gagcccgcccagggcaaaggtgacagcattgaggagattttagctgactcagaggacgag gaggacaatgaggaggaggaaagaagccgaggcaaggagcagcggaagctggcacgacag aggagccgggcatggctgaaagagggcggtggggacgagcccctcaacttcctggatccc aaggtggcccaacgagtcctggccacgcagccagggccaggccggggcaggaagaaggac cacggcttcaaggtgagcgccgatggccggctgatcataagggaggaggcagacggcaac aagatggaggaagaggaaggtgccaaaggcgaagatgaagagatggctgacccaatggaa gatgtgatcatcaggaataaaaagcaccagaagctcaagcaccagaaagaggctgaggag gaggagctggagataccccctcagtaccaagctggaggctctggcattcatcgccctgtg gccaagaaggctatgcctggggctgaatacaaggccaagaaagcaaaaggtgatgtgaag aagaaaggccggccggatccctatgcctacatccccctcaacagaagcaagctcaaccgc aggaagaagatgaagctgcagggacagttcaaaggcctggtgaaggctgcccggcgaggt tcccaggaatttaatgccatcactagatgccagaccgtgtgcaaaggagtatttagaaaa tgccgtgatgactactctatgttctattttcgatatacattattgtga >gi568815588r:97257097_97501231|GENSCAN_predicted_peptide_6|254_aa MAAYKLVLIRHGESAWNLENRFSGWYDADLSPAGHEEAKRGGQALRDAGYEFDICFTSVQ KRAIRTLWTVLDAIDQMWLPVVRTWRLNERHYGGLTGLNKAETAAKHGEAQVKIWRRSYD VPPPPMEPDHPFYSNISKDRRYADLTEDQLPSCESLKDTIARALPFWNEEIVPQIKEGKR VLIAAHGNSLRGIVKHLEGLSEEAIMELNLPTGIPIVYELDKNLKPIKPMQFLGDEETVR KAMEAVAAQGKAKK >gi568815588r:97257097_97501231|GENSCAN_predicted_CDS_6|765_bp atggccgcctacaaactggtgctgatccggcacggcgagagcgcatggaacctggagaac cgcttcagcggctggtacgacgccgacctgagcccggcgggccacgaggaggcgaagcgc ggcgggcaggcgctacgagatgctggctatgagtttgacatctgcttcacctcagtgcag aagagagcgatccggaccctctggacagtgctagatgccattgatcagatgtggctgcca gtggtgaggacttggcgcctcaatgagcggcactatgggggtctaaccggtctcaataaa gcagaaactgctgcaaagcatggtgaggcccaggtgaagatctggaggcgctcctatgat gtcccaccacctccgatggagcccgaccatcctttctacagcaacatcagtaaggatcgc aggtatgcagacctcacagaagatcagctaccctcctgtgagagtctgaaggatactatt gccagagctctgcccttctggaatgaagaaatagttccccagatcaaggaggggaaacgt gtactgattgcagcccatggcaacagcctccggggcattgtcaagcatctggagggtctc tctgaagaggctatcatggagctgaacctgccgactggtattcccattgtctatgaattg gacaagaacttgaagcctatcaagcccatgcagtttctgggggatgaagagacggtgcgc aaagccatggaagctgtggctgcccagggcaaggccaagaagtga >gi568815588r:97257097_97501231|GENSCAN_predicted_peptide_7|272_aa MGSKGRGFALTCRLPTPHARQRTRTRRQPILNHTRRRQRGPLKFRPRICPGVTWEMEFTR KDKEYQLTRVLLRNCAWVWPMRNRLRFHPGFGTAAIMAPPVRYCIPGERLCNLEEGSPGS GTYTRHGYIFSSLAGCLMKSSENGALPVVSVVRETESQLLPDVGAIVTCKVSSINSRFAK VHILYVGSMPLKNSFRGTIRLKFIRVSAQISLGDAQSNYLLTTAENELGVVVAHSESGIQ MVPISWCEMQCPKTHTKEFRKVARVQPEFLQT >gi568815588r:97257097_97501231|GENSCAN_predicted_CDS_7|819_bp atggggagcaagggccgaggcttcgcccttacctgccgcctgccgactccccacgccagg cagcggacccggacccgccgccagcccatcctcaaccacacgcgcaggcgccagcgtgga cctctgaagttccgcccccggatttgtcccggggtaacctgggaaatggagtttactcgc aaggataaagagtaccaattgacacgtgtcttactgcggaactgtgcctgggtttggcca atgagaaatcgacttcgttttcatcctggttttgggacagcggcaatcatggcgccacct gtgagatactgcatccccggcgaacgtctgtgtaacttggaggagggcagcccgggcagc ggcacctacacccgccacggctacatcttttcgtcgcttgccggctgtctgatgaagagc agcgagaatggcgcgcttccagtggtgtctgtagtgagagaaacagagtcccagttactg ccagatgtgggagctattgtaacctgtaaggtctctagcatcaattcacgctttgccaaa gtacacatcctgtatgtggggtccatgcctcttaagaactcttttcgaggaactatccgg ttgaaatttataagagtttccgcccagatctccttaggtgatgcacagtccaactacctg ctaaccaccgccgagaacgagctgggagtggtggtagcccacagtgagtcaggtatccag atggttcccatcagctggtgtgagatgcagtgccctaagacccacactaaagaattccgg aaagtagcccgagtacaacccgaattcttgcagacctaa >gi568815588r:97257097_97501231|GENSCAN_predicted_peptide_8|341_aa MRGQRSLLLGPARLCLRLLLLLGYRRRCPPLLRGLVQRWRYGKVCLRSLLYNSFGGSDTA VDAAFEPVYWLVDNVIRWFGVVFVVLVIVLTGSIVAIAYLCVLPLILRTYSVPRLCWHFF YSHWNLILIVFHYYQAITTPPGYPPQGRNDIATVSICKKCIYPKPARTHHCSICNSYGSW DLFREAYAAIEKMKQLDKNKLQAVANQTYHQTPPPTFSFRERMTHKSLVYLWFLCSSVAL ALGALTVWHAVLISRGETSIERHINKKERRRLQAKGRVFRNPYNYGCLDNWKWTFRSLAR NLKRPSKDQKCELDCVSHDSSTHSAPYVISRASKGSFSQNP >gi568815588r:97257097_97501231|GENSCAN_predicted_CDS_8|1026_bp atgcgaggccagcggagcctgctgctgggcccggcccgcctctgcctccgcctccttctg ctgctgggttacaggcgccgctgtccacctctactccggggtctagtacagcgctggcgc tacggcaaggtctgcctgcgctccctgctctacaactcctttgggggcagtgacaccgct gttgatgctgcctttgagcctgtctactggctggtagacaacgtgatccgctggtttgga gtggtgttcgtggtcctggtgatcgtgctgacaggctccattgtagctatcgcctacctg tgtgtcctgcctctcatcctccgaacctactcagtgccacgactctgctggcatttcttc tatagccactggaatctgatcctgattgtcttccactactaccaggccatcaccactccg cctgggtacccaccccagggcaggaatgatatcgccaccgtctccatctgtaagaagtgc atttaccccaagccagcccgaacacaccactgcagcatctgcaacagctatggaagttgg gaccttttccgggaggcttatgctgccattgagaaaatgaaacagctcgacaagaacaaa ctacaggcggttgccaaccagacttatcaccagaccccaccacccaccttctcctttcga gaaaggatgactcacaagagtcttgtctacctctggttcctgtgcagttctgtggcactt gccctgggtgccctaactgtatggcatgctgttctcatcagtcgaggtgagactagcatc gaaaggcacatcaacaagaaggagagacgtcggctacaggccaagggcagagtatttagg aatccttacaactacggctgcttggacaactggaagtggacctttagaagtttagctcga aaccttaaaaggccttcaaaggaccaaaagtgtgagctggactgtgtcagccacgactcg agcactcattctgctccctatgttatttcaagggcctccaagggcagcttttctcagaat ccttga >gi568815588r:97257097_97501231|GENSCAN_predicted_peptide_9|1301_aa XVGDGSIWNPDKFELSSLRYYSQRVLATPSKKETPRRPRGSKNPCGKNKDFFPRVLRCFA SRIPADTICSSIMTQSLEGATVLASLAPSSGDAWLPAPCPDGPASDPGRSCQASGALAPG LLPIRRPRCGLQTFPAPTPTRSYPVGESWSRSRLSARSCPNSAPPAARRWGAAPSGCGAA HRGNPSASTSGESIVAHAGSSASPHAPEAAGWSAAQRTAASRVNGSGRPASGAPRSPPGG ALSPSDGSAKTLRARGEREVADSPARSQAGPSPFRRLAVPAPPPPPAPVRVMAAAAAVEA AAPMGALWGLVHDFVVGQQEGPADQVAADVKSGNYTVLQVVEALGSSLENPEPRTRARAI QLLSQVLLHCHTLLLEKEVVHLILFYENRLKDHHLVIPSVLQGLKALSLCVALPPGLAVS VLKAIFQEVHVQVDRHTVYNIITNFMRTREEELKSLGADFTFGFIQVMDGEKDPRNLLVA FRIVHDLISRDYSLGPFVEELFEVTSCYFPIDFTPPPNDPHGIQREDLILSLRAVLASTP RFAEFLLPLLIEKVDSEVLSAKLDSLQTLNACCAVYGQKELKDFLPSLWASIRREVFQTA SERVEAEGLAALHSLTACLSRSVLRADAEDLLDSFLSNILQGNGAVAARKGNCRHHLCEP DMKLVWPSAKLLQAAAGASARACDSVTSNVLPLLLEQFHKHSQSSQRRTILEMLLGFLKL QQKWSYEDKDQRPLNGFKDQLCSLVFMALTDPSTQLQLVGIRTLTVLGAQPDLLSYEDLE LAVGHLYRLSFLKEDSQSCRVAALEASGTLAALYPVAFSSHLVPKLAEELRVGESNLTNG DEPTQCSRHLCCLQALSAVSTHPSIVKETLPLLLQHLWQVNRGNMVAQSSDVIAVCQSLR QMAEKCQQDPESCWYFHQTAIPCLLALAVQASMPEKEPSVLRKVLLEDEVLAAMVSVIGT ATTHLSPELAAQSVTHIVPLFLDGNVSFLPENSFPSRFQPFQDGSSGQRRLIALLMAFVC SLPRNVEIPQLNQLMRELLELSCCHSCPFSSTAAAKCFAGLLNKHPAGQQLDEFLQLAVD KVEAGLGSGPCRSQAFTLLLWLMGLLSDPELGPAAADGFSLLMSDCTDVLTRAGHAEVRI MFRQRFFTDNVPALVQGFHAAPQDVKPNYLKGLSHVLNRLPKPVLLPELPTLLSLLLEAL SCPDCVVQLSTLSCLQPLLLEAPQVMSLHVDTLVTKFLNLSSSPSMAVRIAALQCMHALT RLPTPVVIRALAKPLDDKKRLVRKEAVSARGEWFLLGSPGS >gi568815588r:97257097_97501231|GENSCAN_predicted_CDS_9|3906_bp nnagtaggagatgggtccatctggaatccagacaagtttgagctctcaagtctacgatat tattcccagcgggtccttgcaacaccctcaaagaaggaaactcccagacggccgagaggc tctaaaaacccctgcgggaaaaataaagatttctttcccagagtcctgcgctgctttgca agtcggattcccgcagacacgatctgcagctcgataatgacacagtctttggaaggagcg actgttctcgcctcgctcgctccgagttctggggacgcctggctgcccgcgccgtgcccc gacgggccggcgtccgaccccggccggagctgccaggccagcggcgccctcgcccccggc ctcctcccgatccgtcggccccgctgcggtctgcaaacatttcctgcccccacccccacc aggagctacccagttggagagagttggtcgcgcagccggctcagtgctcgcagttgcccc aactcagctcccccggccgcccggcgctggggagcggccccctctggctgcggagcagcc catcggggaaacccaagcgccagcaccagtggggagtccatcgttgcccatgctggctcc tcagccagtccccatgcaccggaggcggcggggtggtcggctgctcagcggacggcggcg tcccgggtcaatggctccggccgcccggcatcgggcgctccccgatctccccccgggggc gcgctcagccccagcgatggctccgccaaaactttgcgggccaggggagagagggaagtg gcagactccccagcacggtcccaggccggcccctctcccttccgccggctcgcggtgccc gcgccgccgccaccacccgccccagttcgcgttatggccgctgccgcggctgtggaggcg gcggcgcctatgggtgccctatggggcctcgtgcacgacttcgtcgtgggtcagcaagag ggccccgctgaccaggtggctgcagatgtgaaatctggcaactatacagtgttacaagtt gtggaagcccttgggtcctctctagagaatccagaaccccgaactcgggcacgagcaatc cagcttttgtcacaggtgctactccactgtcacaccttgctcctggagaaggaagtggta cacctgatactgttctatgagaaccggctgaaggaccatcatcttgtgatcccatctgtc ctgcagggtttgaaggcacttagcctgtgtgtggccctgcccccagggctggctgtttct gtgcttaaagccatcttccaggaagtgcatgtacaggtggaccgacacacagtctacaat atcatcaccaattttatgcgaacccgggaagaagagctaaagagcctaggagctgacttc acctttggcttcatccaggtgatggatggggaaaaggatccccgtaatcttctggtggcc ttccgcatcgtccatgacctcatctccagggactatagcctgggaccctttgtggaggag ttgtttgaagtgacatcctgttatttccctatcgattttacccctccacctaatgatccc catggtatccagagagaagacctcatcctgagtcttcgcgctgtgctggcttctacacca cgatttgctgagtttctgctgcccctgttgattgagaaagtggattctgaggttctgagt gccaagttggattctctacagactctgaatgcttgctgtgctgtgtatggacagaaggaa ctgaaggacttcctccccagcctttgggcttctatccgcagagaggtgttccagacggca agtgagcgggtggaggcagagggcctggcggccctccactccctgactgcgtgtttgtct cgctctgtgctgagggctgatgctgaggacctccttgactccttccttagcaacattcta cagggtaatggggccgtggcagccaggaaggggaactgcaggcaccacctgtgtgaaccg gacatgaaactggtgtggcctagtgccaagctgttgcaggcagctgcaggtgcatctgcc cgggcctgtgactctgtcaccagcaatgtactgcctttactgctggaacagttccacaag cacagtcagagcagccagcggcggacaatccttgaaatgctcctgggtttcttgaagctg cagcagaaatggagctatgaagacaaagatcaaaggcctctgaatggcttcaaggaccag ctgtgctcactggtattcatggctctaacagaccccagcacccagcttcagcttgttggc atccgtacactgacagtcttgggtgcccagccagatctcctatcttatgaggacttggag ctggcagtgggtcacctgtacagactgagcttcctgaaggaggattcccagagttgcagg gtggcagcactggaagcatcaggaaccctggctgctctctaccctgtggccttcagcagc cacctcgtacccaagctcgctgaggagctgcgtgtaggggagtcaaatttgactaacgga gatgagcccacccaatgctcccggcatctgtgctgtctgcaagccttgtcagctgtatca acacatcccagcatcgtcaaggagacactgcctctgctgctgcagcatctctggcaagtg aacagagggaatatggttgcacaatccagtgacgttattgctgtctgtcagagcctcaga cagatggcagaaaaatgtcagcaggaccctgagagttgctggtatttccaccagacagct ataccttgcctgcttgccttggctgtgcaggcctctatgccagagaaggagccctcagtt ctgagaaaagtactattggaggatgaggtgttggctgccatggtgtctgtcattggcact gctacaacccacctgagccctgagttagctgcccagagtgtgacacacattgtgcccctc ttcttggatggcaacgtgtcctttctgcctgaaaacagcttcccgagcagattccagcca ttccaggatggctcctcagggcagaggcggctgattgcactgcttatggcctttgtctgc tccctgcctcgaaatgtggaaatccctcagctgaaccaactcatgcgggagcttttggaa ctgagctgctgccacagctgccccttttcttccaccgctgctgccaagtgctttgcagga ctcctcaacaagcaccctgcagggcagcagctggatgaattcctacagctagctgtggac aaagtggaggctggcctgggctctgggccctgtcgtagtcaggccttcactcttcttctc tggctcatgggcctcctgagtgacccagaattaggtccagcagcagctgatggcttctct ctgctcatgtctgactgcactgatgtgctgactcgtgctggccatgccgaagtgcggatc atgttccgccagcggttcttcacagataatgtgcctgctttggtccagggcttccatgct gctccccaagatgtgaagccaaactacttgaagggtctttctcatgtacttaacaggctg cccaagcctgtactcttgccagagctgcccacgcttctttccttgctgctggaggccctg tcctgccctgactgtgtggtgcagctctccaccctcagctgccttcagcctcttctactg gaagcaccccaagtcatgagtcttcacgtggacaccctcgtcaccaagtttctgaacctc agctctagcccttccatggctgtccggatcgccgcactgcagtgcatgcatgctctcact cgcctgcccacccctgtggtgattcgggccttagccaaacccctggatgacaagaagaga ctggtgcgcaaggaagcagtgtcagccagaggggagtggtttctgttggggagccctggc agctga