GENSCAN 1.0 Date run: 8-Nov-116 Time: 05:58:48 Sequence gi568815588f:68801385_69046627 : 245243 bp : 43.44% 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 Init + 10821 10881 61 2 1 71 56 56 0.165 2.11 1.02 Intr + 21202 21356 155 2 2 43 20 134 0.141 1.89 1.03 Intr + 25788 25992 205 2 1 4 41 177 0.763 3.37 1.04 Intr + 26127 26885 759 1 0 82 92 884 0.434 79.64 1.05 Term + 66430 66644 215 2 2 98 48 96 0.482 3.99 1.06 PlyA + 66790 66795 6 1.05 2.00 Prom + 73179 73218 40 -5.06 2.01 Init + 76283 76400 118 1 1 75 67 31 0.268 0.10 2.02 Intr + 82876 85234 2359 2 1 59 90 935 0.223 78.15 2.03 Intr + 91532 91553 22 2 1 81 74 3 0.026 -4.25 2.04 Intr + 99956 100087 132 1 0 112 91 76 0.089 11.14 2.05 Intr + 105327 105623 297 2 0 103 64 212 0.994 17.37 2.06 Intr + 108923 108998 76 1 1 62 91 40 0.693 0.79 2.07 Intr + 109717 109862 146 2 2 41 84 45 0.326 -0.60 2.08 Intr + 111778 111895 118 0 1 55 87 55 0.878 2.14 2.09 Intr + 112007 112192 186 0 0 67 36 222 0.503 14.56 2.10 Intr + 112675 112820 146 2 2 47 100 10 0.449 -1.90 2.11 Intr + 118448 118597 150 1 0 65 111 48 0.490 5.16 2.12 Intr + 132815 132976 162 1 0 101 91 99 0.993 11.67 2.13 Intr + 134622 134695 74 2 2 110 85 43 0.966 4.40 2.14 Intr + 144968 145270 303 2 0 78 39 187 0.091 8.51 2.15 Intr + 154610 154928 319 2 1 90 52 126 0.728 5.16 2.16 Intr + 158422 158865 444 0 0 50 88 441 0.863 33.90 2.17 Intr + 163993 164110 118 0 1 85 82 58 0.887 4.94 2.18 Intr + 165634 165819 186 2 0 56 84 253 0.982 21.36 2.19 Intr + 167592 167737 146 1 2 91 84 40 0.999 3.90 2.20 Intr + 168817 168966 150 0 0 13 77 122 0.774 3.96 2.21 Intr + 170507 170668 162 1 0 61 95 36 0.766 1.77 2.22 Intr + 173286 173359 74 2 2 81 91 33 0.993 1.10 2.23 Intr + 176145 176304 160 0 1 23 79 159 0.770 8.49 2.24 Intr + 177458 177592 135 1 0 69 95 70 0.930 6.56 2.25 Intr + 181205 181369 165 1 0 76 26 230 0.263 15.76 2.26 Intr + 187169 187367 199 1 1 78 97 98 0.270 8.62 2.27 Intr + 187471 187874 404 2 2 34 94 692 0.268 58.55 2.28 Intr + 199040 199138 99 1 0 114 87 -4 0.315 2.41 2.29 Intr + 203662 203741 80 0 2 70 113 64 0.998 5.45 2.30 Intr + 204348 204531 184 0 1 97 121 102 0.998 14.19 2.31 Intr + 214157 214975 819 1 0 137 49 581 0.072 50.72 2.32 Intr + 221586 221842 257 2 2 -1 41 458 0.010 28.44 2.33 Term + 222045 222363 319 0 1 -20 48 414 0.956 20.95 2.34 PlyA + 223506 223511 6 1.05 3.03 PlyA - 225030 225025 6 1.05 3.02 Term - 240238 240174 65 2 2 44 53 79 0.585 -1.95 3.01 Init - 240360 240288 73 0 1 73 84 70 0.846 6.33 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 214157 215032 876 1 0 137 36 563 0.928 48.58 S.002 Init + 221592 221842 251 2 2 72 41 453 0.873 35.94 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815588f:68801385_69046627|GENSCAN_predicted_peptide_1|464_aa MGHFAQPESVLVHFEIFLVFGVKLQTFAVSVTAHKGSAYPKSEQQQHLLQRAKEQSIHGM EGDPSQLPLLAGPGRRRVSPPWGLLALQFARRMDAVRFSRELRGAPGLGKTPERAPGGRG ARDLEAAGSRGHRQGAELGPASAADPRAVGRSSRRASGVVAAALAEALRCGLPAAGESMA RPVQLAPGSLALVLCRLEAQKAAGAAEEPGGRAVFRAFRRANARCFWNARLARAASRLAF QGWLRRGVLLVRAPPACLQVLRDAWRRRALRPPRGFRIRAVGECGTRRGGASRPVQLAPG SLALVLCRLEAQKAAGAAEEPGGRAVFRAFRRANARCFWNARLARAASRLAFQGWLRRGV LLVRAPPACLQVLRDAWRRRALRPPRGFRIRAVDLYIHSSSVRKPGTIFLYRTKKPHKAA SANLHSFSEELLKQTQISLMPVRPLSYFYPDASKLPFLFTTGIA >gi568815588f:68801385_69046627|GENSCAN_predicted_CDS_1|1395_bp atgggccacttcgcacagccagagtctgttcttgttcacttcgagatcttcctggttttt ggagtgaagctgcagaccttcgcagtgagtgttacagctcataaaggcagtgcctaccca aagagtgagcagcagcaacatttattgcaaagagcaaaagaacaaagcatccacggcatg gaaggggacccaagccagttgccactactggcagggccaggtcgaaggcgagtctccccg ccctggggactcctggcgctgcagttcgcacggcggatggacgcagtcaggttctccagg gagctgcgaggagccccaggacttggaaaaaccccagagcgcgcccctgggggaagggga gctcgggacctcgaggcggctggaagtcgagggcatcgccagggggccgagttgggcccg gccagcgccgcggacccgcgcgcagtcggccgatcctcccgccgagcgagcggcgtcgta gccgccgcgctcgccgaggccctgcgttgcgggctcccggccgccggcgaaagcatggcc cggcccgtgcagctggcgccgggctcgctggcgctagtgctgtgccggctggaggcgcag aaggcggcgggggccgcggaggagcctggtgggcgcgcggtgttccgcgctttccgtcgc gccaacgcgcgctgcttctggaacgcgcggctggcgcgcgccgcctcgcggctggccttc cagggctggctgcggcggggggtgctgctggtgcgcgcgccccccgcctgcctgcaggtg ctgcgcgatgcctggcggcgccgggccctgcggccgccgcgcggcttccgcatcagggcg gtgggtgagtgcgggacccggaggggaggggcgtcccggcccgtgcagctggcgccgggc tcgctggcgctagtgctgtgccggctggaggcgcagaaggcggcgggggccgcggaggag cctggtgggcgcgcggtgttccgcgctttccgtcgcgccaacgcgcgctgcttctggaac gcgcggctggcgcgcgccgcctcgcggctggccttccagggctggctgcggcggggggtg ctgctggtgcgcgcgccccccgcctgcctgcaggtgctgcgcgatgcctggcggcgccgg gccctgcggccgccgcgcggcttccgcatcagggcggtggacctctacatccatagttcc tcagttcggaaaccagggacaatatttctctaccgcactaaaaagccgcataaggcggct agtgctaaccttcactccttttctgaggagctgctgaagcagactcaaataagcctcatg cctgttcgacccttgtcttatttttaccctgatgcttctaagctcccctttttattcacc acggggattgcttaa >gi568815588f:68801385_69046627|GENSCAN_predicted_peptide_2|2902_aa MGSHLQADTAGTPDDMLIFSLSVFSPTPPPSSQCLVLRKGIAIPSEDILYTTLGTLIKER KIYHTGEGYFIVTPQTYFITNTTTQENKRMLPSDESRLMPASMTYLVSMESCAESAQENA APISHCQSCQCFRDMHTQDVQEAPVAAEVTRKSHRGLGESVSWVQNGAVSVSAEHHICES TKPLPYTRDKEKGKKFGFSLLWRSLSRKEKPKTEHSSFSAQFPPEEWPVRDEDDLDNIPR DVEHEIIKRINPILTVDNLIKHTVLMQKYEEQKKYNSQGTSTDMLTIGHKYPSKEGVKKR QGLSAKPQGQGHSRRDRHKARNQGSEFQPGSIRLEKHPKLPATQPIPRIKSPNEMVGQKP LGEITTVLGSHLIYKKRISNPFQGLSHRGSTISKGHKIQKTSDLKPSQTGPKEKPFQKPR SLDSSRIFDGKAKEPYAEQPNDKMEAESIYINDPTVKPINDDFRGHLFSHPQQSMLQNDG KCCPFMESMLRYEVYGGENEVIPEVLRKSHSHFDKLGETKQTPHSLPSRGASFSDRTPSA CRLVDNTIHQFQNLGLLDYPVGVNPLRQAARQDKDSEELLRKGFVQDAETTSLENEQLSN DDQALYQNEVEDDDGACSSLYLEEDDISENDDLRQMLPGHSQYSFTGGSQGNHLGKQKVI ERSLTEYNSTMERVESQVLKRNECYKPTGLHATPGESQEPNLSAESCGLNSGAQFGFNYE EEPSVAKCVQASAPADERIFDYYSARKASFEAEVIQDTIGDTGKKPASWSQSPQNQEMRK HFPQKFQLFNTSHMPVLAQDVQYEHSHLEGTENHSMAGDSGIDSPRLFEAYFTVVVATVP GGRRRWPVMPGKLLWGDIMELEAPLEESESQKKERQKSDRRKSRHHYDSDEKSETRENGV TDDLDAPKAKKSKMKEKLNGDTEEGFNRLSDEFSKSHKSRRKDLPNGDIDEYEKKSKRVS SLDTSTHKSSDNKLEETLTREQKEGAFSNFPISEETIKLLKVKTFGPVYEGKDLIAQART GTGKTFSFAIPLIERLQRNQETIKKSRSPKVLVLAPTRELANQVAKDFKDITRKLSVACF YGGTSYQSQINHIRNGIDILVGTPGRIKDHLQSGRLDLSKLRHVVLDEVDQMLDLGFAEQ VEDIIHESYKTDSEDNPQTLLFSATCPQWVYKVAKKYMKSRYEQVDLVGKMTQKAATTVE HLAIQCHWSQRPAVIGDVLQVYSGSEGRAIIFCETKKNVTEMAMNPHIKQNAQCLHGDIA QSQREITLKGFREGSFKVLVATNVAARGLDIPEVDLVIQSSPPQGITFKRVGVPSTMDLV KSKSMDAIRQSGMIPTGYSQCQPNYLKLKNIMMETHLLIPDRGVAGQVVDQAGQAGQVVD LAAGQVDRVDKEVAQEVDKMVEDEVGIEIDQEVGATNGVLTEYLIVNLPVCLLDQGPQVV NSLNPTTVTGRCFEFTTRKAAFPVLPASPGSALLREVTRAGWTQGGELPLPLHAVEKTGR PGQPALKMPGKLRSDAGLESDTAMKKGETLRKQTEEKEKKEKPKSDKTEEIAEEEETVFP KAKQVKKKAEPSEVDMNSPKSKKAKKKEEPSQNDISPKTKSLRKKKEPIEKKVVSSKTKK VTKNEEPSEEEIDAPKPKKMKKEKEMNGETREKSPKLKNGFPHPEPDCNPSEAASEESNS EIEQVLVLAPTRELANQVSKDFSDITKKLSVACFYGGTPYGGQFERMRNGIDILVGTPGR IKDHIQNGKLDLTKLKHVVLDEVDQMLDMGFADQVEEILSVAYKKDSEDNPQTLLFSATC PHWVFNVAKKYMKSTYEQVDLIGKKTQKTAITVEHLAIKCHWTQRAAVIGDVIRVYSGHQ GRTIIFCETKKEAQELSQNSAIKQDAQSLHGDIPQKQREITLKGFRNGSFGVLVATNVAA RGLDIPEVDLVIQSSPPKGIKFKRIGVPSATEIIKASSKDAIRLLDSVPPTAISHFKQSA EKLIEEKGAVEALAAALAHISGATSVDQRSLINSNVGFVTMILQCSIEMPNISYAWKELK EQLGEEIDSKVKGMVFLKGKLSNQNWKDHGKDMEASGDSGKAVEASGDSGTETEDSEDSG KAVEAREDSDQEVATKGQSGDKLTAAGGGEGGGNTLIDNFISMRMVAVVIAASSHWSLPS VLRFSGRVILVPIPQRPQRVESQVCEKFQAALALSRVELHKNPEKEPYKSKYSARALLEE VKALLGPAPEDEDERPEAEDGPGAGDHALGLPAEVVEPEGPVAQRAVRLAVIEFHLGVNH IDTEELSAGEEHLVKCLRLLRRYRLSHDCISLCIQAQNNLGILWSEREEIETAQAYLESS EALYNQYMKEVGSPPLDPTERFLPEEEKLTEQERSKRFEKVYTHNLYYLAQVYQHLEMFE KAAHYCHSTLKRQLEHNAYHPIEWAINAATLSQFYINKDNIGELDLDKQSELRALRKKEL DEEESIRKKAVQFGTGELCDAISAVEEKVSYLRPLDFEEARELFLLGQHYVFEAKEFFQI DGYVTDHIEVVQDHSALFKVLAFFETDMERRCKMHKRRIAMLEPLTVDLNPQYYLLVNRQ IQFEIAHAYYDMMDLKVAIADRLRDPDSHIVKKINNLNKSALKYYQLFLDSLRDPNKVFP EHIGEDVLRPAMLAKFRVARLYGKIITADPKKELENLATSLEHYKFIVDYCEKHPEAAQE IEVELELSKEMHGMVIYWDDMEKIWHHTFYNELHVAFEEYPVLLTKGPLNPKANHEKMAQ IMLETFNTPPMHVAIQVVLYLYSSGHTTGIVMDSGDRRWPHGSSWEKSYELSDGQVITSS NKRFHCPEALFQPSFLGMESCGIYKTTFKSIVKCDVDIHKDLYANTVLSGSTTMYPGIAL QDAEGDHCPGSQHEEDQDHCSF >gi568815588f:68801385_69046627|GENSCAN_predicted_CDS_2|8709_bp atgggcagccacctgcaggcggacacagcagggacaccagatgacatgctgattttctct ctttcagtgttctcccccaccccacctccaagttcacagtgcctggttttaagaaaaggc attgcaattccatcggaagatattctttataccactctgggaacgctgattaaagaaagg aagatttatcacactggagaaggatacttcatagttactcctcagacttacttcattaca aatacaaccacccaggaaaataagagaatgctgccatcagatgaaagtcgcctgatgcca gcttccatgacatatctggtgagcatggagagctgtgcagagtcagcccaagagaatgct gcccccatatcccactgtcagtcttgccagtgtttccgggacatgcacactcaggatgtt caggaagcaccagttgctgcagaagtgactaggaagagtcacagaggtcttggggaatcc gtatcttgggtacagaatggggcagtttcagtgtctgcggagcaccacatttgtgagagc accaaacctttaccatacacaagagataaagaaaaaggcaagaagtttggttttagtctc ttatggcgcagcttatctagaaaggagaagcccaaaacagaacacagcagtttctctgct cagttcccacctgaagaatggcccgtccgagatgaagatgacttggacaatatccctcga gatgttgaacatgagataatcaaacgaattaaccccattttgactgttgacaatttaatc aaacacactgtcctaatgcaaaaatacgaagaacagaaaaaatataatagccagggcact tccactgacatgctgacaatcgggcataagtatccttcaaaagagggggttaagaaaagg cagggtctgtctgcaaaacctcaagggcagggccattctcgaagggatagacacaaagcc aggaatcagggaagtgagtttcagccaggaagcattagactggagaaacaccccaagctc cctgctacacagcccatccccagaattaaaagcccaaatgaaatggtaggtcagaaacca cttggtgagattacaacagtgctaggttcccatttgatttacaaaaagcgaatcagtaat cctttccagggtttgtctcaccgaggaagcacaatatccaaagggcacaaaattcagaag acgagtgatctgaaacccagccagactggaccaaaggaaaagcctttccaaaagcctagg tccttggattcctcaagaatctttgatggtaaagccaaagagccatatgctgaacaacct aatgataaaatggaagcagaatccatttacataaatgaccctactgtcaaacccatcaat gatgacttcagaggtcacctcttcagtcaccctcaacagagcatgttgcaaaatgatggt aaatgctgtccctttatggaaagcatgttgagatatgaagtgtatggtggagaaaatgag gtaattcctgaagtcttgaggaaaagtcattcccactttgacaaattaggggagaccaaa cagactccgcatagtctgccatcacgaggtgcctccttttcagaccgaacaccctctgct tgtagattagtggataacacaatacaccagtttcaaaatcttggccttttggattaccca gttggcgtgaaccctttaagacaagctgcaagacaagacaaagactcagaagaattattg agaaaaggatttgtccaggatgcagagactacaagcctagaaaatgaacagctttctaac gatgaccaggccttgtatcagaatgaagtggaagatgatgatggtgcctgtagttcatta tatctagaggaggatgacatttctgagaatgacgacttacgtcaaatgctgcctggccac agtcagtattccttcacaggtggaagccagggaaatcatttaggaaaacaaaaagtgatt gagagatctctgaccgagtacaacagcacaatggagagggttgagtctcaggtgcttaaa agaaatgaatgctacaaacccactgggctgcatgctaccccaggtgaaagccaagaacct aacctctctgctgaaagttgtggcctaaattcaggggcccagtttggttttaactacgaa gaagaacccagtgttgctaaatgtgtacaggcctcagcacctgctgatgaaagaatcttt gattactatagcgcaagaaaagccagttttgaagctgaagtcatacaagacactattggt gacacaggaaagaagccagctagctggagtcagagtcctcagaatcaggaaatgagaaaa catttcccacaaaagttccaacttttcaacacttcacatatgccagtgttggctcaggat gtccaatatgaacacagtcacttggaagggacagaaaatcacagcatggcaggagatagt ggaatagattctccacggctttttgaagcttattttactgtggttgtggccactgtgccc ggagggaggcggcggtggccagtaatgcctgggaaactcctctggggggacattatggag ctggaagcacccttggaggagtccgagagccagaagaaggagaggcaaaagagtgacaga aggaagtcaaggcaccattatgactcggatgagaaatcagaaacaagagaaaatggtgtt acagatgacctggatgctcccaaggccaaaaaatctaaaatgaaagagaagctaaatgga gacactgaagaaggatttaatagactttcagatgaattctccaaatctcataagtcaaga agaaaagatctaccaaatggagatatagatgaatatgaaaaaaaatcaaagcgagtatca tctttagatacttctactcataaatcaagtgataataaactagaggagaccttaacacgt gaacagaaagaaggagccttctccaattttcctatttctgaagagactataaagcttctg aaagttaagacctttggtcctgtatatgaaggaaaagatttaatagctcaagcacggaca ggaacaggaaagacattctcttttgccatccccttaattgaaagactccaaagaaatcaa gaaacaattaaaaaaagccgctcaccaaaggtacttgttttggctccaacaagggaactg gcaaaccaagtagccaaagacttcaaagatataactaggaaactcagcgtggcgtgtttt tatggtggaacatcatatcaaagccaaattaatcatattcgaaatggtattgacatcttg gttggaacacctggtcgtatcaaagaccatctgcagagtggccgattggatctttctaaa ctgcgacatgttgtgcttgatgaagtggatcagatgttagatttaggtttcgctgaacaa gttgaagatattattcatgaatcctacaaaactgattctgaagacaatcctcagacttta cttttttctgcaacttgcccacagtgggtatacaaagttgcaaaaaaatacatgaaatcc agatatgaacaggttgaccttgttggaaaaatgactcaaaaggctgcaactactgtggaa catttggccatccagtgtcattggtctcagaggccagcagttattggagatgtccttcaa gtctacagtgggtctgaagggagggctattattttctgtgagaccaagaagaatgtaact gaaatggccatgaatccacacataaaacagaatgcccagtgtttacatggggacattgca cagtcacaaagagaaattacactaaaaggcttcagagaaggtagttttaaagttttggtg gcaaccaatgtggctgcccgtggtttggacattcctgaagttgacctggtgattcaaagt tctcctcctcagggaattacttttaaacgtgtaggtgttccttctacaatggatttagtt aaatctaaaagcatggatgccatcaggcagagtggcatgattccgactggatactctcag tgccagccaaattacctgaaattgaagaatattatgatggaaacacatcttctaattcca gacagaggagtggctggtcaagtggtcgatcaggccggtcaggccggtcaggtggtcgat ctggcggccggtcaggtagacagagtcgacaaggaagtcgctcaggaagtcgacaagatg gtagaagacgaagtgggaatagaaatcgatcaagaagtgggggccacaaacggagttttg actgagtatttgatagttaatctaccagtgtgccttctagaccaagggccgcaagtggtc aattcactaaatccaaccacagtcacaggccgctgctttgaatttaccacgcggaaagca gcttttcctgtgcttcctgcttcccccggaagtgccttgctacgggaagtgacgagagcc gggtggacccagggtggggaactacctcttcctctccacgcggttgagaagaccggtcgg cctgggcaacctgcgctgaagatgccgggaaaactccgtagtgacgctggtttggaatca gacaccgcaatgaaaaaaggggagacactgcgaaagcaaaccgaggagaaagagaaaaaa gagaagccaaaatctgataagactgaagagatagcagaagaggaagaaactgttttcccc aaagctaaacaagttaaaaagaaagcagagccttctgaagttgacatgaattctcctaaa tccaaaaaggcaaaaaagaaagaggagccatctcaaaatgacatttctcctaaaaccaaa agtttgagaaagaaaaaggagcccattgaaaagaaagtggtttcttctaaaaccaaaaaa gtgacaaaaaatgaggagccttctgaggaagaaatagatgctcctaagcccaagaagatg aagaaagaaaaggaaatgaatggagaaactagagagaaaagccccaaactgaagaatgga tttcctcatcctgaaccggactgtaaccccagtgaagctgccagtgaagaaagtaacagt gagatagagcaggtactggttcttgcacctacaagagagttggcaaatcaagtaagcaaa gacttcagtgacatcacaaaaaagctgtcagtggcttgtttttatggtggaactccctat ggaggtcaatttgaacgcatgaggaatgggattgatatcctggttggaacaccaggtcgt atcaaagaccacatacagaatggcaaactagatctcaccaaacttaagcatgttgtcctg gatgaagtggaccagatgttggatatgggatttgctgatcaagtggaagagattttaagt gtggcatacaagaaagattctgaagacaatccccaaacattgcttttttctgcaacttgc cctcattgggtatttaatgttgccaagaaatacatgaaatctacatatgaacaggtggac ctgattggtaaaaagactcagaaaacggcaataactgtggagcatctggctattaagtgc cactggactcagagggcagcagttattggggatgtcatccgagtatatagtggtcatcaa ggacgcactatcatcttttgtgaaaccaagaaagaagcccaggagctgtcccagaattca gctataaagcaggatgctcagtccttgcatggagacattccacagaagcaaagggaaatc accctgaaaggttttagaaatggtagttttggagttttggtggcaaccaatgttgctgca cgtgggttagacatccctgaggttgatttggttatacaaagctctccaccaaagggaatt aagttcaaacgaataggtgttccttctgcaacagaaataataaaagcttccagcaaagat gccatcaggcttttggattccgtgcctcccactgccattagtcacttcaaacaatcagct gagaagctgatagaggagaagggagctgtggaagctctggcagcagcactggcccatatt tcaggtgccacgtccgtagaccagcgctccttgatcaactcaaatgtgggttttgtgacc atgatcttgcagtgctcaattgaaatgccaaatattagttatgcttggaaagaacttaaa gagcagctgggcgaggagattgattccaaagtgaagggaatggtttttctcaaaggaaag ctgagcaaccagaactggaaggaccacgggaaggatatggaggcttcaggggacagcggg aaggcagtcgaggcttcaggggacagcgggacggaaacagaagattcagaggacagcggg aaggcagtagaggcccgagaggacagcgatcaggaggtggcaacaaaaggtcaatctgga gataaactcaccgctgcagggggcggggaaggaggtgggaacacgctcattgacaacttc atttccatgagaatggttgctgtggtgattgctgcgtcttcccattggtcattgccgagc gtattgcggttctccgggagggttatattggttcccattccacagcggccgcaacgtgtc gagagccaggtctgcgagaaattccaggcggcgctcgctctgtcgcgggtggaactgcat aaaaatccggagaaggaaccatacaagtccaaatacagcgcccgggcgctactggaagag gtcaaggcgctgctcggccctgcgcctgaggacgaggatgagcggcctgaggccgaggac ggcccgggtgccggtgaccacgccctggggctgccggctgaggtggtggagcccgagggg cccgtcgcccagcgagcggtgaggctggcagtcatcgagttccacctcggggtgaaccac atcgacacggaggagctgtcggcgggggaggagcacctggtgaaatgcctgcggctgctg cgcaggtaccggctctcgcacgactgcatctctctctgcatccaggcgcagaataacctg ggtatcttgtggtctgaaagagaagaaattgaaactgcacaggcttacctagagtcatca gaagcactatataatcagtatatgaaagaggttgggagtcctcctcttgatcctactgag cgttttcttcctgaagaagagaaacttactgaacaagagagatcaaaaagatttgaaaag gtttatactcataacctatattacctagctcaagtctaccagcatctggaaatgtttgag aaggctgctcactattgccatagtacactaaaacgccagcttgagcacaatgcctaccat cctatagagtgggctatcaatgctgctaccttgtcacagttttacatcaataaggacaac ataggagagcttgatcttgataaacagtctgaacttagagctttaaggaaaaaagaacta gatgaggaggaaagcattcggaaaaaagctgtgcagtttggaaccggtgaactgtgtgat gccatctctgcagtagaagagaaagtgagctacttgagacctttagattttgaagaagcc agagaacttttcttattgggtcagcactatgtctttgaggcaaaagagttctttcagatt gatggttatgtcactgaccatattgaagttgtccaagaccacagtgctctgtttaaggtg cttgcattctttgaaactgacatggagagacggtgcaagatgcataaacgcagaatagcc atgctagagcccctaactgtagacctgaatccacagtattatctgttggtcaacagacag atccagtttgaaattgcacatgcttactatgatatgatggatttgaaggttgccattgct gacaggctaagggatcctgattcacacattgtaaaaaaaataaataatcttaataagtca gcactgaagtactaccagctcttcttagactccctgagagacccaaataaagtattccct gagcatataggggaagatgttcttcgccctgccatgttagctaagtttcgagttgcccgt ctctatggcaaaatcattactgcagatcccaagaaagagctggaaaatttggcaacatca ttggaacattacaaatttattgttgattactgtgaaaagcatcctgaggccgcccaggaa atagaagttgagctagaacttagtaaagagatgcacggcatggtcatctactgggatgac atggagaagatctggcaccacaccttctacaatgagctgcatgtggctttcgaggagtac cctgtgctgctgaccaaaggccccctgaatcccaaggccaaccatgagaagatggcccag attatgttggagaccttcaacaccccacccatgcacgtggccatccaggtcgtgctgtac ctgtactcctctggccataccactggcatcgtgatggactctggcgacaggagatggccc cacgggtcctcctgggagaagagctatgagctgtcagatggccaggtcatcaccagcagc aacaagcggttccactgccccgaggcgctcttccagccttctttcctgggcatggaatcc tgtggcatctacaaaactaccttcaaatccatcgtgaagtgtgacgtggacatccacaaa gacctgtacgccaacacagtgctatctggcagcaccaccatgtaccctggcatcgctctg caggatgcagagggggatcactgccctggctcccagcatgaggaggatcaagatcattgc tccttctga >gi568815588f:68801385_69046627|GENSCAN_predicted_peptide_3|45_aa MCTAASKTVGFMRIQNRSALGHGEGVDEDGKEMLELVLQLLFILL >gi568815588f:68801385_69046627|GENSCAN_predicted_CDS_3|138_bp atgtgcactgctgcttccaagacagtgggcttcatgcgtatccagaacaggagtgcactg ggccacggggagggagtggatgaagatggaaaagagatgttggaacttgtcctgcagctc ctcttcattcttctgtga