Result of GENSCAN for
pF1KB4806
GENSCAN 1.0 Date run: 3-Nov-116 Time: 15:31:45 Sequence gi568815587r:8595462_8850700 : 255239 bp : 45.99% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.22 Intr - 23507 23261 247 2 1 66 80 215 0.843 15.53 1.21 Intr - 24074 23922 153 2 0 101 39 201 0.964 16.77 1.20 Intr - 24663 24589 75 0 0 58 95 38 0.698 1.21 1.19 Intr - 25111 24985 127 0 1 95 97 107 0.967 12.98 1.18 Intr - 25860 25571 290 0 2 77 96 75 0.699 3.24 1.17 Intr - 26358 26184 175 2 1 49 76 238 0.996 18.64 1.16 Intr - 27439 27355 85 2 1 67 92 87 0.549 5.88 1.15 Intr - 29090 28898 193 2 1 28 100 224 0.973 16.67 1.14 Intr - 29374 29252 123 1 0 75 115 1 0.728 2.28 1.13 Intr - 29767 29669 99 1 0 120 39 81 0.627 6.71 1.12 Intr - 43354 43193 162 1 0 102 79 22 0.400 2.87 1.11 Intr - 45478 44766 713 2 2 81 115 369 0.367 30.06 1.10 Intr - 47665 47548 118 1 1 59 85 13 0.542 -1.86 1.09 Intr - 50426 50280 147 2 0 89 99 139 0.999 15.53 1.08 Intr - 51100 50986 115 0 1 81 87 126 0.999 12.25 1.07 Intr - 52625 52509 117 1 0 124 69 95 0.997 10.78 1.06 Intr - 53087 52955 133 0 1 85 75 8 0.994 -1.10 1.05 Intr - 54426 54279 148 0 1 81 81 65 0.968 4.91 1.04 Intr - 62773 62692 82 0 1 58 99 82 0.801 5.94 1.03 Intr - 69052 68998 55 2 1 49 107 16 0.029 -2.36 1.02 Intr - 76637 76325 313 2 1 76 115 146 0.286 11.86 1.01 Init - 76813 76787 27 1 0 96 94 -10 0.502 -1.64 1.00 Prom - 81791 81752 40 -6.76 2.00 Prom + 81918 81957 40 -4.76 2.01 Init + 88029 88119 91 2 1 94 62 73 0.421 5.95 2.02 Intr + 88545 88620 76 1 1 82 92 126 0.956 10.97 2.03 Intr + 89257 89431 175 1 1 40 123 140 0.995 12.64 2.04 Intr + 90217 90336 120 0 0 114 -1 61 0.283 0.49 2.05 Intr + 93330 93519 190 2 1 28 117 114 0.617 7.46 2.06 Term + 96095 96249 155 0 2 71 33 73 0.182 -1.82 2.07 PlyA + 96401 96406 6 -0.45 3.22 PlyA - 97081 97076 6 1.05 3.21 Term - 98669 98635 35 0 2 108 46 19 0.586 -2.55 3.20 Intr - 100088 100002 87 0 0 97 106 93 0.995 11.94 3.19 Intr - 101205 100966 240 1 0 114 110 288 0.999 31.12 3.18 Intr - 102175 102064 112 1 1 139 81 148 0.947 19.15 3.17 Intr - 103513 103472 42 1 0 82 110 59 0.984 5.94 3.16 Intr - 103929 103752 178 2 1 78 64 135 0.603 10.02 3.15 Intr - 107259 107111 149 0 2 126 91 207 0.991 23.83 3.14 Intr - 107476 107357 120 1 0 86 47 58 0.579 2.19 3.13 Intr - 111764 111624 141 2 0 19 75 101 0.616 2.45 3.12 Intr - 112277 112182 96 2 0 77 55 79 0.855 3.71 3.11 Intr - 112393 112316 78 1 0 77 116 69 0.996 8.35 3.10 Intr - 115453 115384 70 0 1 93 105 43 0.979 5.68 3.09 Intr - 115770 115661 110 0 2 118 94 89 0.941 11.58 3.08 Intr - 117274 117090 185 2 2 49 100 278 0.991 24.61 3.07 Intr - 118581 118537 45 1 0 96 100 62 0.982 6.58 3.06 Intr - 119245 119149 97 1 1 92 80 51 0.981 4.28 3.05 Intr - 120357 120142 216 0 0 70 75 273 0.951 22.90 3.04 Intr - 122431 122280 152 2 2 133 93 122 0.999 17.08 3.03 Intr - 130748 130612 137 1 2 100 94 147 0.988 16.71 3.02 Intr - 135748 134489 1260 0 0 115 95 806 0.586 71.30 3.01 Init - 136553 136546 8 2 2 100 44 10 0.762 -2.42 3.00 Prom - 138122 138083 40 -3.86 4.00 Prom + 138634 138673 40 -7.66 4.01 Init + 139581 139611 31 2 1 76 44 9 0.107 -4.80 4.02 Intr + 143721 143881 161 1 2 64 45 179 0.808 10.91 4.03 Intr + 151663 151969 307 0 1 45 92 158 0.389 7.92 4.04 Intr + 155261 155284 24 0 0 55 119 41 0.376 1.90 4.05 Intr + 162834 162947 114 1 0 75 69 57 0.421 2.92 4.06 Intr + 163646 163682 37 0 1 85 78 27 0.065 -1.28 4.07 Intr + 166810 166885 76 1 1 90 95 16 0.024 2.02 4.08 Intr + 198860 198977 118 1 1 75 94 138 0.992 13.14 4.09 Intr + 199557 199729 173 1 2 52 77 69 0.266 1.86 4.10 Intr + 208279 208429 151 0 1 55 74 95 0.082 4.54 4.11 Intr + 219575 219732 158 0 2 70 11 75 0.001 -2.27 4.12 Intr + 232818 232997 180 2 0 101 20 109 0.477 5.46 4.13 Intr + 233274 233437 164 2 2 45 69 130 0.449 5.57 4.14 Intr + 242271 242411 141 0 0 40 72 112 0.070 4.27 4.15 Intr + 252198 252267 70 0 1 56 83 51 0.001 0.58 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): >gi568815587r:8595462_8850700|GENSCAN_predicted_peptide_1|1233_aa MARLSFWSQGVELARSTRCFSPEDISGKAPVLGTGMAVDMGMSFMGLPLAGQKHCPKSGQ MEAMVMTCSLCHQDLPGMGSHLLSCQHLLRKDCFQGLIQELGQIAKAHETVADDEKYEDW DIYRLRLTTTARLGKLLQSLRDKQKQEESTKLFLAGVSQNCSECKEKRAAHILCTYCNRW LCSSCTEEHRHSPVPGGPFFPRAQKGSPGVNGGPGDFTLYCPLHTQEVLKLFCETCDMLT CHSCLVVEHKEHRCRHVEEVLQNQRMLLEGVTTQVAHKKSSLQTSAKQIEDRIFEVKHQH RKVENQIKMAKMVLMNELNKQANGLIEELEGITNERKRKLEQQLQSIMVLNRQFEHVQNF INWAVCSKTSVPFLFSKELIVFQMQRLLETSCNTDPGSPWSIRFTWEPNFWTKQLASLGQ VPPPSIHPAHSFRQPPEMVPQQLGSLQCSALLPREKELACSPHPPKLLQPWLETQPPVEQ ESTSQRLGQQLTSQPVCIVPPQDVQQGAHAQPTLQTPSIQVQFGHHQKLKLSHFQQQPQQ QLPPPPPPLPHPPPPLPPPPQQPHPPLPPSQHLASSQHESPPGPACSQNMDIMHHKFELE EMQKDLELLLQAQQPSLQLSQTKSPQHLQQTIVGQINYIVRQPAPVQSQSQEETLQATDE PPASQGSKPALPLDKNTAAALPQASGEETPLSVPPVDSTIQHSSPNVVRKHSTSLSIMGF SNTLEMELSSTRLERPLEPQIQSSIPPVSDMQPETGSSSSSGRTSGSLCPRDGADPSLEN ALCKMESEDSTRFTDLLGQGPIVPGLDAPKDLAIPSELEEPINLSVKKPPLAPVVSTSTA LQQYQNPKGICLSFALECENFEQGALELDAKENQSIRAFNSEHKIPYVRLERLKICAASS GEMPVFKLKPQKNDQDGSFLLIIECGTESSSMSIKVSQDRLSEATQAPGLEGRKVTVTSL AGQRPPEVEGTSPEEHRLIPRTPGAKKGPPAPIENEDFCAVCLNGGELLCCDRCPKVFHL SCHVPALLSFPGGEWVCTLCRSLTQPEMEYDCENACYNQPGMRASPGLSMYDQKKCEKLV LSLCCNNLSLPFHEPVSPLARHYYQIIKRPMDLSIIRRKLQKKDPAHYTTPEEVVSDVRL MFWNCAKFNYPDSEVAEAGRCLEVFFEGWLKEIYPEKRFAQPRQEDSDSEEVSSESGCST PQGFPWPPYMQEGIQPKRRRRHMVKSYCQPAAX >gi568815587r:8595462_8850700|GENSCAN_predicted_CDS_1|3699_bp atggctagactctctttttggtcccagggagtggagctggctcgctctacacgctgcttc tcacctgaggatatcagtggaaaagccccagtcctgggcacaggcatggctgtggacatg ggcatgagctttatggggctgccactagctggccagaaacactgccctaagagtggacag atggaggccatggtaatgacctgctcattgtgccatcaggacctgccaggtatgggctct catctcctatcctgccagcatttgctccgtaaggactgcttccagggcttgatacaggag ctagggcagattgccaaggctcatgagactgttgcagatgatgaaaaatatgaggattgg gatatttatagactaaggttaacaactactgcccgtttgggaaaattgctgcagagcctt cgagataaacagaaacaggaggagtcaaccaagctctttcttgcaggagtatctcagaac tgctctgagtgcaaggagaagagggcagcacatatcctctgcacctactgcaatcgctgg ctgtgcagctcttgcacagaggaacaccgacacagccctgtccccgggggcccattcttt cctcgggcccagaagggatctccaggagtgaatggtggtcccggagacttcaccttgtat tgtcctctacacacacaggaagtactcaagctattctgtgagacatgtgatatgctcact tgccatagctgcctagtggtggaacacaaagaacacaggtgcagacatgttgaagaagtt ttgcaaaaccagaggatgcttctggaaggtgtgactacacaggtggcacataagaaatcc agtctacagacatctgcaaagcaaattgaggacaggatttttgaagtgaagcatcagcat aggaaggtggaaaaccagatcaaaatggccaagatggttctgatgaatgagctgaacaaa caggccaatgggctaatagaggaattagaggggattactaatgagagaaagcggaagctg gaacagcagttacagagcatcatggttctcaaccgtcagtttgagcatgtgcagaatttc atcaactgggctgtctgcagcaaaaccagtgtcccttttcttttcagcaaagagctgatt gtgtttcagatgcagcgattgctggagacaagttgtaacacagatcctggctccccttgg agtatcagattcacctgggagcctaacttctggaccaagcagctagcttctcttggccag gtccccccacccagcatacacccagcccacagcttcaggcagccccctgagatggtgccc cagcagctggggtctctgcagtgctctgccctgctgcccagggagaaagagctggcctgc agccctcatccaccaaagctgctgcagccctggctggaaacccagccccccgtggagcag gagagcacatcccagcggctggggcagcagctgacttcccagcccgtgtgcattgtcccc ccacaggatgttcagcaaggagcccatgcccagcccaccttacagacaccctctatccaa gtccagtttggccaccaccagaagctgaagctcagtcactttcagcagcagccacagcag cagctaccacctccaccaccacccctcccccatcccccacctccccttccccctccccca cagcagccacacccacctcttcctccatcccagcatctggcttctagtcagcacgagagc cctcctggccctgcctgttctcagaacatggacataatgcatcacaagtttgagctggag gaaatgcagaaggacttggagcttcttctccaggctcaacagcccagcctgcaactgagt cagaccaaatctcctcagcatcttcagcaaaccattgtggggcagatcaactacatcgtg aggcagccagcacctgtccagtcccagagccaggaggagaccctgcaggctacagatgag cccccagcatctcagggctcaaagccggctctccctcttgacaagaatactgctgctgcc ttgccccaggcgtctggggaagaaacccctctcagtgtccccccagtggacagcaccatc cagcactcctctccaaatgtggtgagaaagcactccacctcgctgagcatcatgggcttt tccaacactctggagatggagttgtcatctaccaggttggagaggcccctagagccacag atccagagtagcatccctccagtttctgacatgcagccagaaactgggtccagctccagt tctggccgaacttcagggagcctgtgtcccagagatggggctgatccctccctggagaat gctctgtgtaagatggaaagtgaggattccactcgcttcactgacttactgggacaaggt cccatagtccccggtctggatgctcccaaggacttggccatcccctcagaactggaggag ccaattaacctctctgtgaagaaacctccactggcgccagtggtcagcacgtctacagct ctgcagcagtaccagaacccaaaaggtatttgtttgtcttttgccttagagtgtgagaat tttgaacaaggagccctagagctggatgcaaaagagaaccagagcatcagagccttcaat agtgagcataagattccctatgtgcgactggagcgactcaagatctgtgctgcctcctca ggagagatgcctgtgttcaaactgaagccacagaagaatgatcaggatgggagcttcctg ctgatcatcgagtgtggcactgagtcctccagcatgtccattaaggtcagccaggacaga ctgtctgaggccacccaggccccaggtctggagggaagaaaggtcactgtcacttctttg gctgggcagcggccaccagaagtggagggcacatctcctgaagaacacagactcattcct cgaaccccaggagccaagaagggccccccagccccaatagagaatgaggacttctgtgct gtttgcctcaatggcggagagttactgtgctgtgaccgctgccccaaagtgttccacctc tcctgccatgtgccagccttgctcagcttcccagggggagagtgggtgtgtaccttgtgc cgcagcctgacccagcccgagatggagtacgactgtgagaatgcctgctataaccagcct ggaatgcgggcatctcctggcctaagcatgtatgaccagaagaagtgtgagaagctggta ttgtccttgtgctgcaataacctcagcctgcccttccatgaacctgtcagccccctggcc cggcattattaccagattatcaagaggcccatggacctgtcaatcatccggaggaagctg caaaagaaggacccagctcactataccaccccagaggaggtggtatcagatgtgcgcctc atgttctggaactgtgctaagttcaattatcctgactccgaggttgcagaggctggccgc tgcctggaagtgttctttgagggctggttgaaggagatctacccggagaaacggtttgcc cagccaaggcaggaggactcagactccgaggaggtgtctagtgagagtggatgttccact ccccagggcttcccgtggcctccctacatgcaggagggcatccaacccaagaggcggcga cgacatatggtaaagagttactgccagccagcagcagnn >gi568815587r:8595462_8850700|GENSCAN_predicted_peptide_2|268_aa MEYCGNAVMWNLKRCFTRNPKVIALLKTGIGKHRKHPGGRGNAGGLHHHRINFDKYHPGY FGKVGMKHYHLKRNQSFCPTVNLDKLWTLVSEQTRVNAAKNKTGAAPIIDVVRSGYYKVL GKGKLPKQPVIVKAKFFSRRAEEKIKSVGGACVLRLTSPRADSPRTDCKSEARAEAVQRP PGGSIGRVHQSARPDLSGVLTTQTGPWVLPRHLRTTSGCCALAMAITLWALAAYSKPLYA STDFLDWDQSCSHSSGETYRSGIHGRAY >gi568815587r:8595462_8850700|GENSCAN_predicted_CDS_2|807_bp atggagtactgtgggaatgctgtgatgtggaacctgaaaagatgtttcacccggaatcct aaagtaatcgcattgctgaaaaccggcatcggcaagcaccggaagcaccccggcggccgc ggtaatgctggtggtctgcatcaccaccggatcaacttcgacaaataccacccaggctac tttgggaaagttggtatgaagcattaccacttaaagaggaaccagagcttctgcccaact gtcaaccttgacaaattgtggactttggtcagtgaacagacacgggtgaatgctgctaaa aacaagactggggctgctcccatcattgatgtggtgcgatcgggctactacaaagttctg ggaaagggaaagctcccaaagcagcctgtcatcgtgaaggccaaattcttcagcagaaga gctgaggagaagattaagagtgttgggggggcctgtgtcctgcggctaactagcccaaga gcagacagcccacggacggactgcaagtcggaagcgcgggcggaagctgtgcagcgccca cctggtggctccatcggccgcgttcatcagtcagcacgacccgacctcagtggcgtcctc acaacacagaccggaccttgggtcttaccccggcacctgagaaccacttccggctgctgt gccttggccatggcaatcactctatgggcccttgcagcctattctaagccattatatgcc agtactgattttctggattgggaccagagctgcagccacagtagcggggagacataccgc tctggtattcacggaagggcatactag >gi568815587r:8595462_8850700|GENSCAN_predicted_peptide_3|1185_aa MKKSQSVSPPPVLSPPRSPIYPLSDSETSACRYPSHSSSRVLLKDRHPPAPSPQNPQDPS PDTSPPTCPFKTASFGYLDRSPSACKRDAQKESVQGAAQDVAGVAACLPLAQSTPFPGPA AGPRGVLLTRTGTRAHSLGIREKISAWEGRREASPRMSMCGEKREGSGSEWAASEGCPSL GCPSVVPSPCSSEKTFDFKGLRRMSRTFSECSYPETEEEGEALPVRDSFYRLEKRLGRSE PSAFLRGHGSRKESSAVLSRIQKIEQVLKEQPGRGLPQLPSSCYSVDRGKRKTGTLGSLE EPAGGASVSAGSRAVGVAGVAGEAGPPPEREGSGSTKPGTPGNSPSSQRLPSKSSLDPAV NPVPKPKRTFEYEADKNPKSKPSNGLPPSPTPAAPPPLPSTPAPPVTRRPKKDMRGHRKS QSRKSFEFEDASSLQSLYPSSPTENGTENQPKFGSKSTLEENAYEDIVGDLPKENPYEDV DLKSRRAGRKSQQLSENSLDSLHRMWSPQDRKYNSPPTQLSLKPNSQSLRSGNWSERKSH RLPRLPKRHSHDDMLLLAQLSLPSSPSSLNEDSLSTTSELLSSRRARRIPKLVQRINSIY NAKRGKKRLKKLSMSSIETASLRDENSESESDSDDRFKAHTQRLVHIQSMLKRAPSYRTL ELELLEWQERELFEYFVVVSLKKKPSRNTYLPEVSYQFPKLDRPTKQMREAEERLKAIPQ FCFPDAKDWLPVSEYSSETFSFMLTGEDGSRRFGYCRRLLPSGKGPRLPEVYCVISRLGC FGLFSKLTAPTGVSAASLDEKTTCDCERAGDRMQEQVPVLDEVERRRGISAALVYPFMRS LMESPFPAPGKTIKVKTFLPGAGNEAALLPTGWVFECYESRAVVRGMEKRGLLHSRVDER PGKEQVLELRRPMDSRLEHVDFECLFTCLSVRQLIRIFASLLLERRVIFVADKLSTLSSC SHAVVALLYPFSWQHTFIPVLPASMIDIVCCPTPFLVGLLSSSLPKLKELPVEEALMVNL GSDRFIRQMDDEDTLLPRKLQAALEQALERKNELISQDSDSDSDDECNTLNGLVSEVFIR FFVETVGHYSLFLTQSEKGERAFQREAFRKSVASKSIRRFLEVFMESQMFAGFIQDRELR KCRAKGLFEQRVEQYLEELPDTEQSGMNKFLRGLGNKMKFLHKKN >gi568815587r:8595462_8850700|GENSCAN_predicted_CDS_3|3558_bp atgaagaagtctcagtcagtctctccacctccagttctctccccaccaaggagtcccatc tacccgctcagtgatagtgaaacctcagcctgcaggtaccccagccactccagctcccgg gtgctcctcaaggaccggcaccccccagctccttcaccccagaatcctcaagatccctcc ccagatacttccccacccacctgtcccttcaagaccgccagcttcggttatttggacaga agcccttcggcgtgcaagagagacgcccaaaaggaaagtgtccaaggcgcagcccaggat gtagcaggggtcgctgcctgcctcccccttgcccagagcacgccattcccggggccagca gctggcccccggggcgtcttgctgacccgtaccggtacccgcgcccacagcctgggcatc cgggagaagatatcagcatgggaaggtcgccgagaggcgtcgcccaggatgagcatgtgt ggagagaagcgggagggctctgggagcgagtgggcggccagtgagggctgccccagcctg ggctgtcccagcgtggtgccgtccccctgcagctctgaaaagacctttgatttcaagggc ctccggaggatgagcaggaccttctccgagtgttcctacccagagactgaggaggaggga gaggcgctccctgtccgggactctttctaccggctggagaaacggctgggccggagtgag cccagcgccttcctcagggggcatggcagcaggaaggagagctcagcagtgctgagccgg atccagaaaattgaacaggtcctgaaggagcagccgggccgggggctcccccagctcccc agcagctgctacagcgtggaccgggggaaaaggaagactggaaccttgggctccttggag gagccggcagggggcgcgagtgtgagcgctggcagccgggcagtcggagtggctggtgtt gcgggggaggcgggcccacccccagagagggaaggcagtggttccactaagcccgggacc cctggaaatagccctagctcccagcggctgccatcgaagagttccctcgatcccgctgtg aaccctgtccccaaacccaagcgcacctttgaatacgaggctgacaagaaccccaagagt aagcccagtaatggtctacctccttcacccacacctgctgctccacctcccttgccctcc accccagccccgccagtcacccggagacccaagaaggacatgcgtggtcaccgcaagtcc cagagcagaaaatcctttgagtttgaggatgcatccagtctccagtccctgtacccctct tctcccactgagaatggtactgagaaccaacccaagtttggatccaaaagcactttagaa gaaaatgcctatgaagatattgtgggagatctgcccaaggagaatccatatgaggatgtg gacttaaagagccgaagagcaggacgaaaatcccagcaactgtctgagaactccttggac tctttgcacaggatgtggagtcctcaggacaggaagtacaacagcccgcccacacagctt tccctgaaacccaacagccagtccctgcgcagtgggaactggtcagaaaggaagagccac cggctgccacgattacccaagaggcacagccatgacgacatgctgctgctggctcagctg agtctgccgtcctcaccctccagcctcaatgaagacagcctcagcaccaccagcgagctg ctgtccagccgccgggcccgccgcattcccaagcttgtccaaagaattaactccatctac aatgccaagagaggaaagaagagattaaaaaagttgtctatgtccagcattgaaacagca tcactgagagatgaaaacagtgagagcgagagcgactctgatgacaggttcaaagcccac acacagcgcctggtccacatccagtcgatgctgaagcgcgcccccagctatcgcacgctg gagctggagctgctggagtggcaggagcgggagctttttgagtactttgtggtggtgtcc ctcaagaagaagccatcgcgaaacacctacctccccgaagtctcctaccagtttcccaag ctggaccgacccaccaagcagatgcgagaggcagaggaaaggctcaaagccattccccag ttttgcttccctgatgccaaggactggcttcctgtgtcagagtatagcagtgagaccttt tctttcatgctgactggggaagatggcagcagacgctttggctactgcaggcgcttactg ccaagtgggaaagggccccggttgccagaggtgtactgtgtcatcagccgccttggctgc ttcggcttgttttccaagctgacagctcccacaggagtatctgcagccagcttagatgag aaaaccacctgtgactgtgagcgagcgggagacagaatgcaggaacaagtaccagtccta gatgaggtggagcgccggcgtgggatctccgctgcattggtctatcctttcatgagaagt ctcatggagtcgcccttcccagccccagggaagaccatcaaagtgaagacattcctgcca ggtgctggcaatgaggcagccctcttgcccacaggctgggtgttcgagtgctacgagagc agagctgtagtccgagggatggagaagaggggtttactgcatagcagggtagacgagaga cctggaaaagagcaggtgttagagctgcggcggcccatggactcaaggctggagcacgtg gactttgagtgcctttttacctgcctcagtgtgcgccagctcatccgaatctttgcctca ctgctgctggagcgccgggtcatttttgtggcagataagctcagtaccctctccagctgc tcccacgcggtggtggccttgctctaccccttctcctggcagcacaccttcattcctgtc ctcccggcctccatgattgacatcgtctgctgtcccacccccttcctggttggcctgctc tccagctccctccccaaactgaaggagctgcctgtggaggaggcgctgatggtgaatctg ggatctgaccgattcatccgacagatggacgacgaagacacgttgttacctaggaagtta caggcagctctggagcaggctctggagaggaagaatgagctgatctcccaggactctgac agcgactccgacgatgaatgtaataccctcaatgggctggtgtcggaggtgtttatccgg ttctttgtggagaccgttgggcactactccctctttctgacacagagtgagaagggagag agggcctttcagcgagaggccttccgcaaatctgtggcctccaaaagcatccgccgcttt cttgaggtttttatggagtctcagatgtttgctggcttcatccaagacagggagctaaga aagtgtcgggcaaagggcctttttgagcagcgagtggagcagtacttagaagaactccca gacactgagcagagtggaatgaataagtttctccgaggtttgggcaacaaaatgaagttt ctccacaagaagaattaa >gi568815587r:8595462_8850700|GENSCAN_predicted_peptide_4|635_aa MNSQQLRLWKDFLAFLFVVYELKNNRERYTKHSVQPSIAVSPRSPLPLGTKATHWLGPGP ITFWLTNQQIANGFYVPGIVPGSRHTERHQSPCPQELYILTHSDFQHPPQAKVLKLKADT VCYFQVAMTQVLEFHSEEAVEEISRSSEKSPCCLPGLTAKVKSPESKPCKDDNAASSTTQ RTTGPQPQRNAHTTGSSESITNGSSKPFRQSPEALSKVQEGTDESHTVRYHVLKHTRCVP TPGPSHLLYPAPRTESKFPVSIRKIDDSCVDPPTWSFHPGDSTEATGAPALPASSSADWR GEAFPGRNATNPNEIKCPGWAFSKNQTSICLKTSTYLEISSRSDTDLMKTEVYRDELTRG PQIEEKPDYGPSELAAKPILCSKLHLEGYKGSICGSRGFYSCSHYQCPLTGLHHHRVIAR PLCRNGPAPTMTRFSQASSSKDKTPPLPSMKCLDTEQCTFNSTTRPLRLHQNSFRSPALG KAKPPAPQDAALLWFVFRGSNAAVSAGKLGGTLTKQKIPRCFAAVMSEFTQEGKLLQQRK LIRPDKSGEQRWKTGMRQETVEDKKVQEFEHSHEQNQQSINVELGHVSKHRRSLEATTSK DQSPHDGEIKARMADIDSQGNETDYASAGCKRNRN >gi568815587r:8595462_8850700|GENSCAN_predicted_CDS_4|1905_bp atgaattctcagcagctcaggctatggaaagacttcctcgcctttctctttgtggtgtat gagctgaagaacaacagagaaaggtacacgaagcactcggtgcagcccagtatcgccgtc agcccccgaagccctctcccactaggcacgaaagctacacactggctgggtcctggtccc atcactttctggttgactaatcaacaaatagctaatggcttctacgtgccaggcattgtt ccaggctctaggcacacagaaagacatcaaagtccttgccctcaagaattatatattctc acacactcagattttcagcacccaccacaagcaaaagttctcaaactcaaggctgataca gtctgttatttccaagttgcaatgacccaggtgctggagtttcatagtgaagaagctgtg gaggaaatcagcaggtcttcagagaagagcccctgctgcctgccaggtcttactgcaaaa gtgaaatctcctgagagcaagccctgcaaagacgacaatgccgcttcttccaccacacag agaaccactggccctcaaccacaaaggaacgcacacaccacgggatccagtgaaagcatt accaatggctcatctaagccatttcgtcagtctccagaggctctctcaaaggtccaagaa gggaccgatgagagccacactgtccgataccatgtgctcaaacacaccaggtgtgttcct accccagggccttcacacctgctgtaccctgcacctaggactgaatccaagttcccagtg agcatccgcaaaatagacgacagctgtgtggacccacccacgtggtccttccaccccggg gacagcactgaggctacaggagccccagccctgccagccagtagtagtgctgactggcgg ggggaagcttttcctggcagaaatgccaccaatcctaatgaaatcaagtgcccaggatgg gcattttccaaaaatcagacaagcatctgtttaaagacgagcacatacctggaaatctca tccagaagtgatacggatttgatgaaaacagaggtttacagagatgaactcaccagaggt ccacagatagaggaaaaaccagactatggaccctcagagctggctgcaaagcctattcta tgctctaagctgcatctggaagggtacaagggcagtatttgtggaagcagggggttttac agctgctcccattaccagtgcccactcacaggcctccaccaccaccgggtcattgccaga ccactgtgtaggaatggcccagctcccacgatgacaaggttctctcaggccagcagctcc aaggacaaaacacctcctctcccctccatgaagtgcctggacacagagcagtgcaccttc aacagcacaactcggccgttaaggctgcaccaaaattcattcaggagcccagccctgggc aaagcaaagcctcctgccccccaggatgcagcacttctctggtttgtcttcaggggctcc aatgcagctgtatctgcggggaagctggggggaacactgaccaaacagaagattccacgc tgctttgctgcggtcatgtctgagtttacccaagaggggaagctgctccaacagaggaag ttaattagaccagacaagagcggggagcagaggtggaagacagggatgagacaagaaact gtggaggacaaaaaggtacaagaatttgaacatagccatgaacagaaccaacaatcaata aatgtagagcttggacatgttagcaaacatcgaaggtctctggaagctacaacttccaag gaccaatctccgcatgatggagaaatcaaagccagaatggctgatattgattctcaaggc aatgaaacagactacgcaagtgctggctgcaaaagaaacagaaac