Result of GENSCAN for
pF1KSDA0023
GENSCAN 1.0 Date run: 2-Nov-116 Time: 23:24:59 Sequence gi568815589f:131025705_131330734 : 305030 bp : 49.50% 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 + 581 885 305 0 2 86 71 669 0.598 61.31 1.02 Intr + 6341 6471 131 1 2 92 91 213 0.960 21.49 1.03 Intr + 10462 10628 167 1 2 125 66 266 0.973 27.70 1.04 Intr + 13160 13348 189 0 0 90 109 193 0.997 21.16 1.05 Intr + 13427 13544 118 0 1 119 94 104 0.993 13.62 1.06 Intr + 15933 16031 99 0 0 80 72 61 0.848 2.93 1.07 Intr + 19820 19956 137 2 2 79 90 77 0.951 7.21 1.08 Intr + 23316 23442 127 1 1 72 75 56 0.764 2.44 1.09 Intr + 26407 26471 65 1 2 91 41 130 0.906 6.96 1.10 Intr + 26787 26979 193 1 1 92 100 40 0.917 4.15 1.11 Intr + 27146 27261 116 2 2 72 77 120 0.927 9.39 1.12 Intr + 31225 31443 219 2 0 155 109 86 0.977 15.67 1.13 Intr + 35331 35519 189 1 0 92 107 88 0.899 10.66 1.14 Intr + 37596 37644 49 1 1 82 44 27 0.035 -4.56 1.15 Intr + 37954 38013 60 1 0 88 68 45 0.004 0.35 1.16 Intr + 39949 40155 207 1 0 3 59 398 0.851 26.59 1.17 Intr + 41047 41207 161 1 2 54 68 70 0.538 1.23 1.18 Intr + 41256 41501 246 1 0 76 66 352 0.692 29.23 1.19 Intr + 42374 42527 154 0 1 100 92 78 0.936 8.53 1.20 Intr + 43204 43346 143 1 2 77 74 90 0.963 6.50 1.21 Intr + 43968 44146 179 1 2 91 105 298 0.996 31.44 1.22 Intr + 45780 45921 142 2 1 130 92 56 0.999 10.13 1.23 Intr + 46926 47131 206 1 2 67 28 282 0.997 19.02 1.24 Intr + 47541 47617 77 2 2 123 105 50 0.992 8.51 1.25 Intr + 50127 50261 135 0 0 55 94 143 0.764 11.28 1.26 Intr + 51483 51630 148 0 1 105 53 163 0.982 14.74 1.27 Intr + 53415 53594 180 2 0 87 82 199 0.619 19.26 1.28 Intr + 56355 56457 103 2 1 97 102 53 0.714 7.35 1.29 Intr + 59820 60019 200 1 2 60 77 152 0.927 10.37 1.30 Intr + 61772 61918 147 1 0 58 87 168 0.721 14.13 1.31 Intr + 62014 62113 100 0 1 77 82 96 0.999 7.58 1.32 Intr + 65833 66079 247 2 1 91 45 344 0.228 26.92 1.33 Intr + 69127 69204 78 1 0 67 81 50 0.147 0.87 1.34 Intr + 70164 70341 178 0 1 58 76 8 0.082 -3.48 1.35 Intr + 70896 70956 61 2 1 27 102 69 0.163 0.51 1.36 Intr + 71098 71159 62 2 2 82 102 57 0.850 4.95 1.37 Intr + 85893 85959 67 2 1 94 121 102 0.997 12.58 1.38 Intr + 88873 88914 42 2 0 76 97 93 0.990 7.21 1.39 Intr + 92052 92214 163 1 1 112 62 147 0.913 13.53 1.40 Intr + 95186 95378 193 2 1 101 82 7 0.342 0.89 1.41 Intr + 96837 96940 104 2 2 106 89 42 0.944 5.07 1.42 Intr + 99868 100045 178 1 1 45 77 136 0.968 8.12 1.43 Intr + 101820 102015 196 2 1 76 97 97 0.993 8.39 1.44 Intr + 102628 102779 152 2 2 74 99 33 0.996 2.88 1.45 Intr + 103575 103773 199 2 1 42 105 147 0.986 10.72 1.46 Intr + 107402 107505 104 0 2 35 84 111 0.866 5.29 1.47 Intr + 109194 109300 107 2 2 83 89 139 0.999 12.51 1.48 Intr + 110236 110302 67 1 1 64 99 57 0.982 3.31 1.49 Intr + 113577 113703 127 2 1 115 89 127 0.999 15.75 1.50 Intr + 114845 115006 162 0 0 116 91 44 0.891 7.45 1.51 Intr + 118576 119050 475 2 1 120 106 121 0.889 9.22 1.52 Intr + 120018 120060 43 0 1 94 91 0 0.593 -0.86 1.53 Intr + 124620 124706 87 2 0 112 84 19 0.669 4.07 1.54 Intr + 124912 125061 150 0 0 87 68 117 0.991 9.96 1.55 Intr + 126032 126190 159 1 0 54 91 62 0.905 3.28 1.56 Intr + 133679 133782 104 1 2 69 63 89 0.971 3.47 1.57 Intr + 137287 137469 183 1 0 90 64 121 0.962 8.80 1.58 Intr + 138166 138251 86 1 2 59 91 56 0.616 2.46 1.59 Intr + 148351 148614 264 2 0 45 111 138 0.241 9.28 1.60 Intr + 149756 149917 162 0 0 104 98 55 0.987 8.05 1.61 Intr + 152607 152706 100 1 1 52 63 58 0.525 -1.13 1.62 Intr + 161585 161660 76 2 1 93 93 72 0.627 7.72 1.63 Intr + 163349 163427 79 1 1 77 82 20 0.644 -0.58 1.64 Intr + 171512 173311 1800 0 0 88 110 617 0.861 51.22 1.65 Intr + 175943 176013 71 0 2 107 99 54 0.987 7.30 1.66 Intr + 189508 189664 157 0 1 90 108 40 0.903 5.78 1.67 Intr + 197074 197226 153 2 0 124 78 55 0.957 8.14 1.68 Intr + 202456 202627 172 2 1 96 102 95 0.933 10.70 1.69 Intr + 204926 205065 140 2 2 42 99 52 0.684 1.81 1.70 Intr + 206580 206604 25 1 1 110 99 8 0.523 1.18 1.71 Intr + 206717 206856 140 2 2 96 55 20 0.550 -0.39 1.72 Intr + 208023 208211 189 1 0 40 68 95 0.019 2.26 1.73 Intr + 210259 210336 78 2 0 71 75 36 0.019 0.12 1.74 Intr + 214187 214316 130 0 1 89 33 78 0.002 2.15 1.75 Intr + 226602 226783 182 0 2 99 36 200 0.954 15.41 1.76 Term + 226991 227127 137 0 2 90 49 119 0.985 6.38 1.77 PlyA + 228195 228200 6 1.05 2.07 PlyA - 232395 232390 6 1.05 2.06 Term - 235646 235118 529 1 1 112 48 1233 0.166 115.43 2.05 Intr - 250431 250153 279 2 0 -4 84 469 0.187 33.89 2.04 Intr - 251239 250986 254 1 2 96 33 154 0.192 6.93 2.03 Intr - 251522 251447 76 1 1 45 66 88 0.328 1.82 2.02 Intr - 254716 254540 177 0 0 102 56 107 0.341 7.93 2.01 Init - 256208 256168 41 2 2 50 76 30 0.183 -2.32 2.00 Prom - 261237 261198 40 -5.36 3.00 Prom + 263982 264021 40 -4.36 3.01 Init + 264294 264744 451 2 1 93 92 757 0.996 72.68 3.02 Intr + 269972 270032 61 0 1 113 108 -21 0.084 0.19 3.03 Intr + 275727 275872 146 0 2 54 48 102 0.109 2.73 3.04 Intr + 282219 282579 361 1 1 93 32 689 0.742 58.08 3.05 Term + 285389 285563 175 2 1 41 49 143 0.675 2.93 3.06 PlyA + 296567 296572 6 1.05 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 39803 39921 119 1 2 16 61 188 0.856 8.57 S.002 Term + 207750 207937 188 1 2 151 38 67 0.836 5.65 S.003 Term - 210041 209977 65 0 2 89 49 67 0.908 0.95 S.004 Intr - 210529 210454 76 1 1 51 80 72 0.894 1.79 S.005 Term - 262344 262174 171 0 0 120 43 139 0.954 10.43 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815589f:131025705_131330734|GENSCAN_predicted_peptide_1|4173_aa XKAYEITYVRLKFHTSRPESFAIYKRSRADGPWEPYQFYSASCQKTYGRPEGQYLRPGED ERVAFCTSEFSDISPLSGGNVAFSTLEGRPSAYNFEESPGLQEWVTSTELLISLDRLNTF GDDIFKDPKVLQSYYYAVSDFSVGGRCKCNGHASECGPDVAGQLACRCQHNTTGTDCERC LPFFQDRPWARGTAEAAHECLPCNCSGRSEECTFDRELFRSTGHGGRCHHCRDHTAGPHC ERCQENFYHWDPRMPCQPCDCQSAGSLHLQCDDTGTCACKPTVTGWKCDRCLPGFHSLSE GGCRPCTCNPAGSLDTCDPRSGRCPCKENVEGNLCDRCRPGTFNLQPHNPAGCSSCFCYG HSKVCASTAQFQVHHILSDFHQGAEGWWARSVGGSEHPPQWSPNGVLLSPEDEEELTAPG TSSTRNFVLMGIVNATHEQTAASLVTQKFLGDQRFSYGQPLILTFRVPPGDSPLPVQLRL EGTGLALSLRHSSLSGPQDAGHPREVELRFHLQETSEDVAPPLPPFHFQRLLANLTSLRL RVSPGPSPAGPVFLTEVRLTSARPGLSPPASWVEICSCPTGYTGQFCESCAPGYKREMPQ GGPYASCVPCTCNQHGTCDPNTGICVCSHHTEGPSCERCLPGFYGNPFAGQADDCQPCPC PGQSACTTIPESREVVCTHCPPGQRAPDCGSPGLQTCTRPTHPSQDFQSCLLPYELSSPG SSGNVDLNAVGNCDPCLATACTGYTPPHVITGDDEDNGQEGDVDEDNGQDDNGDEGDDDE NNGQDDDDGGRDEEPELLEAQWLAQDHTAVGSHWGPVPGPPAQARAAPGKVEGRLLCFTP TLIPGRRCEVCDDGFFGDPLGLFGHPQPCHQCQCSGNVDPNAVGNCDPLSGHCLRCLHNT TGDHCEHCQEGFYGSALAPRPADKCMPCSCHPQGSVSEQMPCDPVTGQCSCLPHVTARDC SRCYPGFFDLQPGRGCRSCKCHPLGSQEDQCHPKTGQCTCRPGVTGQACDRCQLGFFGFS IKGCRACRCSPLGAASAQCHENGTCVCRPGFEGYKCDRCHDNFFLTADGTHCQQCPSCYA LVKEEAAKLKARLTLTEGWLQGSDCGSPWGPLDILLGEAPRGDVYQGHHLLPGAREAFLE QMMSLEGAVKAAREQLQRLNKGARCAQAGSQKTCTQLADLEAVLESSEEEILHAAAILAS LEIPQEGPSQPTKWSHLATEARALARSHRDTATKIAATAWRALLASNTSYALLWNLLEGR VALETQRDLEDRYQEVQAAQKALRTAVAEVLPEAESVLATVQQVGADTAPYLALLASPGA LALPERIVSLQPQKSRAEDLGLKAKALEKTVASWQHMATEAARTLQTAAQATLRQTEPLT KLHQEARAALTQASSSVQAATVTVMGARTLLADLEGMKLQFPRPKDQAALQRKADSVSDR LLADTRKKTKQAERMLGNAAPLSSSAKKKGREAEVLAKDSAKLAKALLRERKQAHRRASR LTSQTQATLQQASQQVLASEARRQELEEAERVGAGLSEMEQQIRESRISLEKDIETLSEL LARLGSLDTHQAPAQALNETQWALERLRLQLGSPGSLQRKLSLLEQESQQQELQIQGFES DLAEIRADKQNLEAILHSLPENCASWQGGAAAGWNAAAVEHLASNAVQQLSRRYPILHPE LRSSWSHGLVFPPGGLAPQLQLPDFSLLEMGMPSPISWSFENEMTGVRCKVPPGAGGSPA LAMSGELSNRFQGGKAFGLLKARQERRLAEINREFLCDQKYSDEENLPEKLTAFKEKYME FDLNNEGEIDLMSLKRMMEKLGVPKTHLEMKKMISEVTGGVSDTISYRDFVNMMLGKRSA VLKFDVKVGRKGAWHWEPFKKVPEGTLQSCSLATPVQAAERQRAALLSLTGAAEGFGGRS EAWGFGGKAGTFEEDKAFLHYPSYSVSLFLTQRGRQNQSGLFHAPEMRGQLRAAGAEGRK FAVERPGFRGQGRGRQRWLLRHTEGGAMGDEMDAMIPEREMKDFQFRALKKVRIFDSPEE LPKERSSLLAVSNKYGLVFAGGASGLQIFPTKNLLIQNKPGDDPNKIVDKVQGLLVPMKF PIHHLALSCDNLTLSACMMSSEYGSIIAFFDVRTFSNEAKQQKRPFAYHKLLKDAGGMVI DMKWNPTVPSMVAVCLADGSIAVLQVTETVKVCATLPSTVAVTSVLDVLWIGTYVFAIVY AAADGTLETSPDVVMALLPKKEEKHPEIFVNFMEPCYGSCTERQHHYYLSYIEEWDLVLA ASAASTEVSILARQSDQINWESWLLEDSSRAELPVTDKSDDSLPMGVVVDYTNQVEITIS DEKTLPPAPVLMLLSTDGVLCPFYMINQNPGVKSLIKTPERLSLEGERQPKSPGSTPTTP TSSQAPQKLDASAAAAPASLPPSSPAAPIATFSLLPAGGAPTVFSFGSSSLKSSATVTGE PPSYSSGSDSSKAAPGPGPSTFSFVPPSKASLAPTPAASPVAPSAASFSFGSSGFKPTLE STPVPSVSAPNIAMKPSFPPSTSAVKVNLSEKEGAHSQNEFSVISLAKSLQPAVAEKQGH QWKDSDPVMAGIGEEIAHFQKELEELKARTSKACFQVGTSEEMKMLRTESDDLHTFLLEI KETTESLHGDISSLKTTLLEGFAGVEEAREQNERNRDSGYLHLLYKRPLDPKSEAQLQEI RRLHQYVKFAVQDVNDVLDLEWDQHLEQKKKQRHLLVPERETLFNTLANNREIINQQRKR LNHLVDSLQQLRLYKQTSLWSLSSAVPSQSSIHSFDSDLESLCNALLKTTIESHTKSLPK VPASLSRSAFLSQRYYEDLDEVSSTSSVSQSLESEDARTSCKDDEAVVQAPRHAPVVRTP SIQPSLLPHAAPFAKSHLVHGSSPGVMGTSVATSASKIIPQGADSTMLATKTVKHGAPSP SHPISAPQAAAAAALRRQMASQAPAVNTLTESTLKNVPQVVNVQELKNNPATPSTAMGSS VPYSTAKTPHPVLTPVAANQAKQGSLINSLKPSGPTPASGQLSSGDKASGATPSTKESSQ PDAFSSGGGSKPSYEAIPESSPPSGITSASNTTPGEPAASSSRPVAPSGTALSTTSSKLE TPPSKLGELLFPSSLAGETLGSFSGLRVGQADDSTKPTNKASSTSLTSTQPTKTSGVPSG FNFTAPPVLGKHTEPPVTSSATTTSVAPPAATSTSSTAVFGSLPVTSAGSSGVISFGGTS LSAGKTSFSFGSQQTNSTVPPSAPPPTTAATPLPTSFPTLSFGSLLSSATTPSLPMSAGR STEEATSSALPEKPGDSEVSASAASLLEEQQSAQLPQAPPQTSDSVKKEPVLAQPAVSNS GTAASSTSLVALSAEATPATTGVPDARTEAVPPASSFSVPGQTAVTAAAISSAGPVAVET SSTPIASSTTSIVAPGPSAEAAAFGTVTSGSSVFAQPPAASSSSAFNQLTNNTATAPSAT PVFGQVAASTAPSLFGQQTGSTASTAAATPQVSSSGFSSPAFGTTAPGVFGQTTFGQASV FGQSASSAASVFSFSQPGFSSVPAFGQPASSTPTSTSGSVFGAASSTSSSSSFSFGQSSP NTGGGLFGQSNAPAFGQSPGFGQGGSVFGGTSAATTTAATSGFSFCQASGFGSSNTGSVF GQAASTGGIVFGQQSSSSSGSVFGSGNTGRGGGFFSGLGGKPSQDAANKNPFSSASGGFG STATSNTSNLFGNSGAKTFGGFASSSFGEQKPTGTFSSGGGSVASQGFGFSSPNKTGGFG AAPVFGSPPTFGGSPGFGGVPAFGSAPAFTSPLGSTGGKVFGEGTAAASAGGFGFGSSSN TTSFGTLASQNAPTFGSLSQQTSGFGTQSSGFSGFGSGTGGFSFGSNNSVCPGSVGVQQQ GLGFVDLLFSVAIWQEVPGLAFLRGVVQREKSTPANHSQEDCPVSVALRSQQSLHQPEHC VFKDGIRSHQRRVLINSIECAVVSLGPSALHIGKRLNADTHITLVIGASDGNIGIEAKLS SSGTGRDPGPSRRTPVPHEVFPDPTADRQHSLQEWGSGTRKGPAWVTEPSCKRKHRPGEP GDPGPPHRRGAGTRPLEELLAFTVSAWSLVNGRLPSGKLLLRDSDPGWKAVGPAFRPPSH DRTARRRFCEPGGGPHHAETVGAFILDFQPPEL >gi568815589f:131025705_131330734|GENSCAN_predicted_CDS_1|12522_bp nggaaggcttatgagatcacgtatgtgaggctgaagttccacaccagtcgccctgagagc tttgccatctacaagcgcagccgcgccgacggcccatgggagccctaccagttctacagc gcctcctgccagaagacctacggccggcccgagggccagtacctgcgccccggcgaggac gagcgcgtggccttctgcacctctgagttcagcgacatctccccgctgagtggcggcaac gtggccttctccaccctggagggccggcccagcgcctacaacttcgaggagagccctggg ctgcaggagtgggtcaccagcaccgaactcctcatctctctagaccggctcaacacgttt ggggacgacatcttcaaggaccccaaggtgctccagtcctactattatgccgtgtccgac ttctctgtgggcggcaggtgcaagtgcaacgggcatgccagcgagtgcggccccgacgtg gcaggccagttggcctgccggtgccagcacaacaccaccggcacagactgtgagcgctgc ctgcccttcttccaggaccgcccgtgggcccggggcaccgccgaggctgcccacgagtgt ctgccctgcaactgcagtggccgctccgaggaatgcacgtttgatcgggagctcttccgc agcacaggccacggcgggcgctgtcaccactgccgtgaccacacagctgggccacactgt gagcgctgtcaggagaatttctatcactgggacccgcggatgccatgccagccctgtgac tgccagtcggcaggctccctacacctccagtgcgatgacacaggcacctgcgcctgcaag cccacggtgactggctggaagtgtgaccgctgtctgcccgggttccactcgctcagtgag ggaggctgcagaccctgcacttgcaatcccgctggcagcctggacacctgtgacccccgc agtgggcgctgcccctgcaaagagaatgtggaaggcaacctatgtgacagatgtcgcccg gggacctttaacctgcagccccacaatccagctggctgcagcagctgtttctgctatggc cactccaaggtgtgcgcgtccactgcccagttccaggtgcatcacatcctcagcgatttc caccagggagccgaaggctggtgggccagaagtgtggggggctctgagcaccccccacaa tggagcccaaatggggtcctcctgagcccagaagacgaggaggagctcacagcaccaggt acctccagcaccaggaatttcgtgctcatgggcatcgtgaatgctacacatgagcagacg gcagcctctctggtcacacagaagttcctgggagaccagcggttcagctatgggcagccc ctcatactgaccttccgggtgccccccggggactccccactccctgtacagctgaggctg gaagggacaggcttggccctgtccctgaggcactctagcctgtctggcccccaggatgcc gggcatcccagggaggtagagctcaggttccacctgcaggagacctccgaggacgtggcc cctccactgccccccttccacttccagcggctcctcgccaacctgaccagcctccgcctc cgcgtcagtcccggccccagccctgccggtccagtgttcctgactgaggtccggctcaca tccgcccggccagggctttccccgccagcctcctgggtggagatttgttcatgtcccact ggctacacgggccagttctgtgaatcctgtgctccgggatacaagagggagatgccacag gggggtccctatgccagctgtgtcccctgcacctgtaaccagcatggcacctgtgacccc aacacagggatctgtgtctgcagccaccataccgagggcccatcctgtgaacgctgtttg ccaggtttctatggcaaccctttcgcgggccaagccgacgactgccagccctgtccctgc cctggccagtcggcctgtacgaccatcccagagagccgggaggtggtgtgtacccactgc cccccgggccagagagctcccgactgtggctcccctggcctgcagacatgcacgaggccc acccacccctcccaggacttccagagctgcctcctgccctatgagctgtcctcacctggt tccagcgggaatgtggacctcaatgctgtaggcaactgtgacccgtgtctggccactgcc tgcactggctacacaccaccacacgtgatcacgggtgatgatgaggataatggtcaagaa ggtgatgttgatgaagataatggtcaagatgacaatggtgatgaaggtgatgatgatgag aataatggtcaagatgatgatgatggaggaagagatgaggaacctgagctcctagaggcg cagtggcttgctcaggaccacacagctgtgggcagccactgggggccggtcccaggtcct cctgcccaagcccgtgctgctccggggaaggtggagggacgcttgctctgcttcacaccc accctcatccctgggcggcgctgtgaggtctgtgatgatggcttttttggggacccgctg gggctctttgggcacccccagccctgccaccagtgccagtgtagcgggaacgtggacccc aatgccgtgggcaactgtgaccccctgtctggccactgcctgcgctgcctgcacaacacc acgggtgaccactgtgagcactgtcaggaaggcttctacgggagcgccctggcccctcga cccgcagacaaatgcatgccttgcagctgtcacccacagggctcggtcagtgagcagatg ccctgcgacccagtgacaggccaatgctcctgcctgcctcatgtgactgcacgggactgc agccgctgctaccctggcttcttcgacctccagcctgggaggggctgccggagctgcaag tgtcacccactgggctcccaggaggaccagtgccatcccaagactggacagtgcacctgc cgcccaggtgtcacaggccaggcctgtgacaggtgccagctgggtttcttcggcttctcc atcaagggctgccgggcctgcaggtgctccccactgggcgctgcctcggcccagtgccac gagaacggcacatgcgtgtgcaggcctggcttcgagggctacaaatgtgaccgctgccac gacaacttcttcctcacggcagacggcacacactgccagcaatgtccgtcctgctacgcc ctggtgaaggaggaggcagccaagctgaaggccagactgactttgacggaggggtggctc caagggtccgactgtggcagtccctggggaccactagacattctgctgggagaggcccca aggggggacgtctaccagggccatcacctgcttccaggggctcgggaagccttcctggag cagatgatgagcctcgagggtgctgtcaaggccgcccgggagcagctgcagaggctgaac aagggtgcccgctgtgcccaggccggatcccagaagacctgcacccagctggcagacctg gaggcagtgctggagtcctcggaagaggagattctgcatgcagctgccattctcgcgtct ctggagattcctcaggaaggtcccagtcagccgaccaaatggagccacctggccacagag gcccgtgccctcgccaggagccacagagacaccgccaccaagatcgcagccactgcttgg agggccctgctcgcctccaacaccagctacgcgcttctctggaatctgctggagggaagg gtggccctagagacccagcgggacctggaggacaggtaccaggaggtccaggcggcccag aaagcactgaggacggctgtggcagaggtgctgcctgaagcggaaagcgtgttggccacc gtgcagcaagttggcgcagatacagccccgtacctggccttgctggcttccccgggagct ctggccctgcctgagcgcattgtctccctgcagcctcagaagtcccgggctgaagacctg ggcctgaaggcgaaggccctggagaagacagttgcatcatggcagcacatggccactgag gctgcccgaaccctccagactgctgcccaggcgacgctacggcaaacagaacccctcaca aagctgcaccaggaggccagagccgccctgacccaggcttcctcatctgtccaggctgcg acagtgactgtcatgggagccaggactctgctggctgatctggaaggaatgaagctgcag tttccccggcccaaggaccaggcggcattgcagaggaaggcagactccgtcagtgacaga ctccttgcagacacgagaaagaagaccaagcaggcggagaggatgctgggaaacgcggcc cctctttcctccagtgccaagaagaagggcagagaagcagaggtgttggccaaggacagt gccaagcttgccaaggccttgctgagggagcggaaacaggcgcaccgccgtgccagcagg ctcaccagccagacgcaagccacgctccaacaggcgtcccagcaggtgctggcgtctgaa gcacgcagacaggagctggaggaagctgagcgggtgggtgctgggctgagcgagatggag cagcagatccgggaatcgcgtatctcactggagaaggacatcgagaccttgtcagagctg cttgccaggctggggtcgctggacacccatcaagccccagcccaggccctgaacgagact cagtgggcactagaacgcctgaggctgcagctgggctccccggggtccttgcagaggaaa ctcagtctgctggagcaggaatcccagcagcaggagctgcagatccagggcttcgagagt gacctcgccgagatccgcgccgacaaacagaacctggaggccattctgcacagcctgccc gagaactgtgccagctggcaaggtggggccgctgccgggtggaatgcggcagctgttgaa catctggctagcaatgcagtccagcagctgagcagaaggtaccctatcctgcatcctgag ctccgctcttcctggagtcatgggctggtctttcctcctggtggccttgcgccccagctc cagcttcctgacttttctcttctggaaatgggaatgccaagtcctatttcatggagtttt gagaatgaaatgactggtgtacggtgcaaagtgcctcctggagccggcgggagccccgcg ctcgccatgtcgggcgagctcagcaacaggttccaaggagggaaggcgttcggcttgctc aaagcccggcaggagaggaggctggccgagatcaaccgggagtttctgtgtgaccagaag tacagtgatgaagagaaccttccagaaaagctcacagccttcaaagagaagtacatggag tttgacctgaacaatgaaggcgagattgacctgatgtctttaaagaggatgatggagaag cttggtgtccccaagacccacctggagatgaagaagatgatctcagaggtgacaggaggg gtcagtgacactatatcctaccgagactttgtgaacatgatgctggggaaacggtcggct gtcctcaagtttgatgtgaaggtgggaaggaaaggagcttggcattgggagcccttcaag aaggtaccagaaggaaccctccagtcctgctctctggccacacctgtgcaggcagctgag aggcagcgtgcagccctactgtcccttactggggcagcagagggcttcggaggcagaagt gaggcctggggttttgggggaaaggctgggacctttgaggaagataaagccttccttcac tacccatcatattcagtgtccctgttcctcactcagagaggaaggcagaaccagtcaggc ttatttcacgcgccggaaatgcgaggtcaactgcgcgccgctggcgctgaggggaggaag tttgctgtcgagcggcctgggttccgtgggcaaggccgtgggaggcagcgttggctgctt cgacacactgagggcggcgcgatgggagacgagatggatgccatgattcccgagcgggag atgaaggattttcagtttagagcgctaaagaaggtgagaatctttgactcccctgaggaa ttgcccaaggaacgctcgagtctgcttgctgtgtccaacaaatatggtctggtcttcgct ggtggagccagtggcttgcagatttttcctactaaaaatcttcttattcaaaataaaccc ggagatgatcccaacaaaatagttgataaagtccaaggcttgctagttcctatgaaattc ccaatccatcacctggccttgagctgtgataacctcacactctctgcgtgcatgatgtcc agtgaatatggttccattattgctttttttgatgttcgcacattctcaaatgaggctaaa cagcaaaaacgcccatttgcctatcataagcttttgaaagatgcaggaggcatggtgatt gatatgaagtggaaccccactgtcccctccatggtggcagtttgtctggctgatggtagt attgctgtcctgcaagtcacggaaacagtgaaagtatgtgcaactcttccttccacggta gcagtaacctctgttctggatgtgctgtggattggtacctacgtcttcgccatagtgtat gctgctgcagatgggaccctggaaacgtctccagatgtggtgatggctctactaccgaaa aaagaagaaaagcacccagagatatttgtgaactttatggagccctgttatggcagctgc acggagagacagcatcattactacctcagttacattgaggaatgggatttagtgctggca gcatctgcggcttcaacagaagttagtatccttgctcgacaaagtgatcagattaattgg gaatcttggctactggaggattctagtcgagctgaattgcctgtgacagacaagagtgat gactccttgcccatgggagttgtcgtagactatacaaaccaagtggaaatcaccatcagt gatgaaaagactcttcctcctgctccagttctcatgttactttcaacagatggtgtgctt tgtccattttatatgattaatcaaaatcctggggttaagtctctcatcaaaacaccagag cgactttcattagaaggagagcgacagcccaagtcaccaggaagtactcccactacccca acctcctctcaagccccacagaaactggatgcttctgcagctgcagcccctgcctctctg ccaccttcatcacctgctgctcccattgccactttttctttgcttcctgctggtggagcc cccactgtgttctcctttggttcttcatctttgaagtcatctgctacggtcactggggag cccccttcatattccagtggctccgacagctccaaagcagccccaggccctggcccatca accttctcttttgttcccccttctaaagcctccctagcccccacccctgcagcgtctcct gtggctccatcagctgcttcattctcctttggatcatctggttttaagcctaccctggaa agcacaccagtgccaagtgtgtctgctccaaatatagcaatgaagccctccttcccaccc tcaacctctgctgtcaaagtcaaccttagtgaaaaagaaggtgctcactctcaaaacgag ttctcagtaatttccttggcaaagtcacttcagcctgctgttgcagaaaagcagggacat cagtggaaagattcagatcctgtaatggctggaattggggaggagattgcacactttcag aaggagttggaagagttaaaagcccgaacttccaaagcctgtttccaagtgggcacttct gaggagatgaagatgctgcgaacagaatcagatgacttgcatacctttcttttggagatt aaagagaccacagagtcgcttcatggagatataagtagcctgaaaacaactttacttgag ggctttgctggtgttgaggaagccagagaacaaaatgaaagaaatcgtgactctggttat ctgcatttgctttataaaagaccactggatcccaagagtgaagctcagcttcaggaaatt cggcgccttcatcagtatgtgaaatttgctgtccaagatgtgaatgatgttctagacttg gagtgggatcagcatctggaacaaaagaaaaaacaaaggcacctgcttgtgccagagcga gagacactgtttaacaccctagccaacaatcgggaaatcatcaaccaacagaggaagagg ctgaatcacctggtggatagtcttcagcagctccgcctttacaaacagacttccctgtgg agcctgtcctcggctgttccttcccagagcagcattcacagttttgacagtgacctggaa agcctgtgcaatgctttgttgaaaaccaccatagaatctcacaccaaatccttgcccaaa gtaccagccagcctgtctcgatcagcctttctgtctcagagatattatgaagacttggat gaagtcagctcaacgtcatctgtctcccagtctctggagagtgaagatgcacggacgtcc tgtaaagatgacgaggcagtggttcaggcccctcggcacgcccccgtggttcgcactcct tccatccagcccagtctcttgccccatgcagcaccttttgctaaatctcacctggttcat ggttcttcacctggtgtgatgggaacttcagtggctacatctgctagcaaaattattcct caaggggccgatagcacaatgcttgccacgaaaaccgtgaaacatggtgcacctagtcct tcccaccccatctcagccccgcaggcagctgccgcagcagcactcaggcggcagatggcc agtcaggcaccagctgtaaacactttgactgaatcaacgttgaagaatgtccctcaagtg gtaaatgtgcaggaattgaagaataaccctgcaaccccttctacagccatgggttcttca gtgccctactccacagccaaaacacctcacccagtgttgaccccagtggctgctaaccaa gccaagcaggggtctctaataaattcccttaagccatctgggcctacaccagcatccggt cagttatcatctggtgacaaagcttcaggggcaacaccctccactaaagagtcaagccag ccggacgcattctcatctggtgggggaagcaaaccttcttatgaggccattcctgaaagc tcacctccctcaggaatcacatccgcatcaaacaccaccccaggagaacctgccgcatct agcagcagacctgtggcaccttctggaactgctctttccaccacctctagtaagctggaa accccaccgtccaagctgggagagcttctgtttccaagttctttggctggagagactctg ggaagtttttcaggactgcgggttggccaagcagatgattctacaaaaccaaccaataag gcttcatccacaagcctaactagtacccagccaaccaagacgtcaggcgtgccctcaggg tttaattttactgcccccccggtgttagggaagcacacggagccccctgtgacatcctct gcaaccaccacctcagtagcaccaccagcagccaccagcacttcctcaactgccgttttt ggcagtctgccagtcaccagtgcaggatcctctggggtcatcagttttggtgggacatct ctaagtgctggcaagactagtttttcatttggaagccaacagaccaatagcacagtgccc ccatctgccccaccaccaactacagctgccactccccttccaacatcattccccacattg tcatttggtagcctcctgagttcagcaactaccccctccctgcctatgtccgctggcaga agcacagaagaggccacttcatcagctttgcctgagaagccaggtgacagtgaggtctca gcatcagcagcctcacttctagaggagcaacagtcagcccagcttccccaggctcctccg caaacttctgactctgttaaaaaagaacctgttcttgcccagcctgcagtcagcaactct ggcactgcagcatctagtactagtcttgtagcactttctgcagaggctaccccagccacc acgggggtccctgatgccaggacggaggcagtaccacctgcttcctccttttctgtgcct gggcagactgctgtcacagcagctgctatctcaagtgcaggccctgtggccgtcgaaaca tcaagtacccccatagcctccagcaccacgtccattgttgctcccggcccatctgcagag gcagcagcatttggtaccgtcacttctggctcatccgtctttgctcagcctcctgctgcc agttctagctcagctttcaaccagctcaccaacaacacagccactgccccctctgccacg cccgtgtttgggcaagtggcagccagcaccgcaccaagtctgtttgggcagcagactggt agcacagccagcacagcagctgccacaccacaggtcagcagctcagggtttagcagccca gcttttggtaccacagccccaggggtctttggacagacaaccttcgggcaggcctcagtc tttgggcagtcggcgagcagtgctgcaagtgtcttttccttcagtcagcctgggttcagt tccgtgcctgccttcggtcagcctgcttcctccactcccacatccaccagtggaagtgtc tttggtgccgcctcaagtaccagtagctccagttccttctcatttggacagtcttctccc aacacaggaggggggctgtttggccaaagcaacgctcctgcttttgggcagagtcctggc tttggacagggaggctctgtctttggtggtacctcagctgccaccacaacagcagcaacc tctgggttcagcttttgccaagcttcaggttttgggtctagtaatactggttctgtgttt ggtcaagcagccagtactggtggaatagtctttggccagcaatcatcctcttccagtggt agcgtgtttgggtctggaaacactggaagagggggaggtttcttcagtggccttggagga aaacccagtcaggatgcagccaacaaaaacccattcagctcggccagtgggggctttgga tccacagctacctcaaatacctctaacctatttggaaacagtggggccaagacatttggt ggatttgccagctcgtcgtttggagagcagaaacccactggcactttcagctctggagga ggaagtgtggcatcccaaggctttgggttttcctctccaaacaaaacaggtggcttcggt gctgctccagtgtttggcagccctcctacttttgggggatcccctgggtttggaggggtg ccagcattcggttcagccccagcctttacaagccctctgggctcgacgggaggcaaagtg ttcggagagggcactgcagctgccagcgcaggaggattcgggtttgggagcagcagcaac accacatccttcggcacgctcgcgagtcagaatgcccccactttcggatcactgtcccaa cagacttctggttttgggacccagagtagcggattctctggttttggatcaggcacagga gggttcagctttgggtcaaataactcagtttgtcctggaagtgtgggggttcagcagcag ggtttgggttttgtggacttgctcttctctgtagcaatatggcaggaggtgccaggcctc gccttcttaagaggcgtggttcaaagagaaaagagcacgcctgccaatcacagccaagaa gattgccccgtttctgtggctctgagaagccagcagagcctccatcagccagaacactgt gtcttcaaggatggcatcagaagtcaccagcgtcgggtgttgataaacagcatcgaatgt gccgtggtctcacttggacctagcgccctccacatagggaagaggttgaatgctgacaca catatcacactggtaattggtgcttcagatggcaacatagggatagaggccaaattgagc tcctcagggacagggagagacccaggccccagcagacggaccccagtgccccacgaagtc ttccctgatcccacagctgaccggcagcactcacttcaggaatggggctcggggacccgc aaaggtccagcctgggtgacagagcccagctgcaagaggaagcaccgtcctggggagccc ggagacccaggcccccctcacaggcgaggggctggcacgcggcctctggaggaacttctg gccttcaccgtctccgcctggtcactcgtcaatggccggctgccttctggaaagctgctg ctgcgcgacagtgaccctgggtggaaggctgtgggacctgccttccggcctccgtcacat gaccgcacagcgaggaggcgcttctgtgaaccaggaggtggccctcaccacgcagaaact gtgggcgccttcatcttggacttccagcctccagaactgtga >gi568815589f:131025705_131330734|GENSCAN_predicted_peptide_2|451_aa MAPGIIPDISGKGIHRHFTRAWMRHEPSTYAEAAVGLCPTPTELRKMTSRRKGCVGKRQG RRGRELGKPPEPCGSRSPPTPPVRDGISGDVTGGYYSLVLGGRGEAGGGGRSAAPGPCTA AGSDSGEGTRRPCVGTSGPRPRVGADGDPRRAPPSPASGRSPELASWKPRVGARPEGAGT SAGALLYAMGCIQSIGGKARVFREGITVIDVKASIDPVPTSIDESSSVVLRYRTPHFRAS AQVVMPPIPKKETWVVGWIQACSHMEFYNQYGEQGMSSWELPDLQEGKIQAISDSDGVNY PWYGNTTETCTIVGPTKRDSKFIISMNDNFYPSVTWAVPVSESNVAKLTNIYRDQSFTTW LVATNTSTNDMIILQTLHWRMQLSIEVNPNRPLGQRARLREPIAQDQPKILSKNEPIPPS ALVKPNANDAQVLMWRPKYGQPLVVIPPKHR >gi568815589f:131025705_131330734|GENSCAN_predicted_CDS_2|1356_bp atggctcctggcattatccccgacatctcagggaaggggatacaccggcacttcacacgc gcgtggatgcgtcatgagccttccacatatgctgaggctgccgtgggtctgtgcccaaca cccacggagctccggaaaatgacgagcaggaggaagggctgtgtagggaagcggcagggc cggaggggccgcgagctggggaagccaccagaaccctgcggcagccgctcgccccccacc ccgcccgtccgggacggtatcagcggagatgtcacgggcggctattattcgctggtcctc ggcggccgcggcgaagcaggcggcggcggccggagcgcagccccgggaccctgcacggcg gccggcagcgacagcggcgaagggacgcggcgcccctgcgtggggacgtccggcccgcgc ccgcgagtgggcgccgacggggacccgcgccgcgctcccccgtcaccggcgagcggccgg agccctgagctcgcctcctggaagccgcgggtcggcgctcgccccgagggcgccgggacc tcggccggagcgctcctgtatgccatgggctgtattcagagcatcggaggcaaagccaga gtcttccgggaagggatcacggtgattgatgtgaaagcctccatcgaccccgtccccact agcatcgatgagtcctccagcgtggtgctccgctaccggacaccccacttccgggcctcg gcccaggtggtcatgccgcccatccccaagaaggagacttgggtagttggctggatccag gcgtgcagccacatggagttctacaaccagtacggcgagcagggcatgtccagctgggag ctccccgacctccaggagggcaagatccaagccatcagcgactcggatggggtgaactac ccctggtacggcaacaccacagagacctgcaccatcgtgggccccaccaagagggactcc aagttcatcatcagcatgaatgacaacttttaccccagcgtcacatgggccgtgcccgtc agcgagagcaacgtggccaagctcaccaatatctaccgggaccagagcttcaccacctgg ctggtggccaccaacacctccaccaacgacatgatcatcctgcagacgctgcactggcgc atgcagctcagcatcgaggtgaaccccaaccggcccctgggccagcgcgcccggctgcgg gagcccatcgcccaggaccagcccaaaatcctgagcaagaatgagcccatcccgcccagc gccctggtcaagcccaatgccaacgatgcccaggtcctcatgtggcggcccaagtacggg cagccgctggtggtgatcccgcccaagcaccggtga >gi568815589f:131025705_131330734|GENSCAN_predicted_peptide_3|397_aa MPASQSRARARDRNNVLNRAEFLSLNQPPKGGPEPRSSGRKASGPSAQPPPAGDGARERR QSQQLPEEDCMQLNPSFKGIAFNSLLAIDICMSKRLGVCAGRAASWASARSMVKLIGITG HGIPWIGGTILCLVKSSTLAGQEVLMNLLLAPGNLHSTLCLCGFDCSRDLKFWQLFGHPD PGWPPVTNHHHQEALLGLASLTCLEVVEVLEPGPDNFDPALLLDIMTVAGVQKLIKRRGP YETSPSLLDYLTMDIYAFPAGHASRAAMVSKFFLSHLVLAVPLRVLLVLWALCVGLSRVM IGRHHVTDVLSGFVIGYLQFRLVELVWMPSSTCQMLISAWAPGVVAPGGKEGTGTRCADM AVSTKQTRDLTLPGFPWTSSLSDTDVSLEPSLCIPFP >gi568815589f:131025705_131330734|GENSCAN_predicted_CDS_3|1194_bp atgccagcttcccagagccgggcccgtgcccgggaccgcaacaacgtcctcaaccgggct gagttcctgtccctgaaccagccccccaaggggggcccggagccccgcagctcgggcaga aaggcctcgggcccatcagcacagcccccacctgctggtgacggggccagagagcgacgc cagtcacagcagctgccagaggaggactgcatgcagctgaacccctccttcaagggcatc gccttcaactccctgctggccatcgatatctgtatgtccaagcggctgggggtgtgcgct ggccgggcggcgtcctgggccagtgcccgctccatggtcaagctcatcggcatcacgggc cacggcatcccctggatcggaggcaccatcctctgcctggtgaagagcagcacactggcc ggccaggaggtgctcatgaatctgctcctggcccctggcaacctccattctacactctgt ctctgtggatttgactgttctagggacctcaaattctggcagctgttcgggcacccagac cctggctggccaccagtcaccaaccaccaccaccaggaggccttgcttggcctggcctct cttacttgtcttgaggtggtggaggtcttggaacctgggccagacaattttgaccctgcc ctgctcctggacatcatgacggtggccggcgtgcagaagctcatcaagcggcgcggcccg tacgagacgagccccagcctcctggactacctcaccatggacatctacgccttcccggcc gggcacgccagccgcgccgccatggtgtccaagttcttcctcagccacctggtgctggcg gtgcccctgcgtgtgctgctggtgctctgggccctctgcgtgggcctgtcccgcgtgatg atcggccgccaccacgtcacggacgtcctctccggctttgtcatcggctacctccagttc cgtctggtggagctggtctggatgccctccagcacctgccagatgctcatctctgcctgg gctcctggcgttgttgcccctggtggcaaggaaggaactgggacacgatgtgctgacatg gccgttagcacaaagcagacccgggatctgactcttccaggctttccctggacttcatca ctctcagacaccgacgtgtctctagaaccatcactctgcatcccctttccatga