GENSCAN 1.0 Date run: 5-Nov-116 Time: 07:06:42 Sequence gi568815588f:68856226_69082809 : 226584 bp : 43.20% 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 + 1551 1639 89 2 2 103 94 46 0.260 5.02 1.02 Intr + 10509 10584 76 0 1 61 60 30 0.036 -2.98 1.03 Intr + 25999 26053 55 0 1 102 30 57 0.106 -0.15 1.04 Intr + 28035 30393 2359 1 1 59 90 935 0.223 78.15 1.05 Intr + 36691 36712 22 1 1 81 74 3 0.026 -4.25 1.06 Intr + 45115 45246 132 0 0 112 91 76 0.089 11.14 1.07 Intr + 50486 50782 297 1 0 103 64 212 0.994 17.37 1.08 Intr + 54082 54157 76 0 1 62 91 40 0.693 0.79 1.09 Intr + 54876 55021 146 1 2 41 84 45 0.326 -0.60 1.10 Intr + 56937 57054 118 2 1 55 87 55 0.878 2.14 1.11 Intr + 57166 57351 186 2 0 67 36 222 0.503 14.56 1.12 Intr + 57834 57979 146 1 2 47 100 10 0.449 -1.90 1.13 Intr + 63607 63756 150 0 0 65 111 48 0.490 5.16 1.14 Intr + 77974 78135 162 0 0 101 91 99 0.993 11.67 1.15 Intr + 79781 79854 74 1 2 110 85 43 0.966 4.40 1.16 Intr + 90127 90429 303 1 0 78 39 187 0.091 8.51 1.17 Intr + 99769 100087 319 1 1 90 52 126 0.727 5.16 1.18 Intr + 103581 104024 444 2 0 50 88 441 0.863 33.90 1.19 Intr + 109152 109269 118 2 1 85 82 58 0.887 4.94 1.20 Intr + 110793 110978 186 1 0 56 84 253 0.982 21.36 1.21 Intr + 112751 112896 146 0 2 91 84 40 0.999 3.90 1.22 Intr + 113976 114125 150 2 0 13 77 122 0.774 3.96 1.23 Intr + 115666 115827 162 0 0 61 95 36 0.766 1.77 1.24 Intr + 118445 118518 74 1 2 81 91 33 0.993 1.10 1.25 Intr + 121304 121463 160 2 1 23 79 159 0.770 8.49 1.26 Intr + 122617 122751 135 0 0 69 95 70 0.930 6.56 1.27 Intr + 126364 126528 165 0 0 76 26 230 0.263 15.76 1.28 Intr + 132328 132526 199 0 1 78 97 98 0.270 8.62 1.29 Intr + 132630 133033 404 1 2 34 94 692 0.268 58.55 1.30 Intr + 144199 144297 99 0 0 114 87 -4 0.315 2.41 1.31 Intr + 148821 148900 80 2 2 70 113 64 0.998 5.45 1.32 Intr + 149507 149690 184 2 1 97 121 102 0.998 14.19 1.33 Intr + 159316 160134 819 0 0 137 49 581 0.072 50.72 1.34 Intr + 166745 167001 257 1 2 -1 41 458 0.010 28.44 1.35 Term + 167204 167522 319 2 1 -20 48 414 0.956 20.95 1.36 PlyA + 168665 168670 6 1.05 2.04 PlyA - 170189 170184 6 1.05 2.03 Term - 205766 205493 274 1 1 32 40 217 0.806 6.24 2.02 Intr - 205950 205917 34 1 1 86 88 46 0.500 1.68 2.01 Intr - 213460 213307 154 1 1 58 55 87 0.328 2.05 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 159316 160191 876 0 0 137 36 563 0.928 48.58 S.002 Init + 166751 167001 251 1 2 72 41 453 0.873 35.94 S.003 Init + 199875 199916 42 2 0 77 98 47 0.855 5.02 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815588f:68856226_69082809|GENSCAN_predicted_peptide_1|2936_aa MHWAARLEPEVVVGKGGGGLGMRVGEGSFRHTHSPGATQSTAALLAVAGDKHCIGNFISE PCQKKSCINKFDKGIAIPSEDILYTTLGTLIKERKIYHTGEGYFIVTPQTYFITNTTTQE NKRMLPSDESRLMPASMTYLVSMESCAESAQENAAPISHCQSCQCFRDMHTQDVQEAPVA AEVTRKSHRGLGESVSWVQNGAVSVSAEHHICESTKPLPYTRDKEKGKKFGFSLLWRSLS RKEKPKTEHSSFSAQFPPEEWPVRDEDDLDNIPRDVEHEIIKRINPILTVDNLIKHTVLM QKYEEQKKYNSQGTSTDMLTIGHKYPSKEGVKKRQGLSAKPQGQGHSRRDRHKARNQGSE FQPGSIRLEKHPKLPATQPIPRIKSPNEMVGQKPLGEITTVLGSHLIYKKRISNPFQGLS HRGSTISKGHKIQKTSDLKPSQTGPKEKPFQKPRSLDSSRIFDGKAKEPYAEQPNDKMEA ESIYINDPTVKPINDDFRGHLFSHPQQSMLQNDGKCCPFMESMLRYEVYGGENEVIPEVL RKSHSHFDKLGETKQTPHSLPSRGASFSDRTPSACRLVDNTIHQFQNLGLLDYPVGVNPL RQAARQDKDSEELLRKGFVQDAETTSLENEQLSNDDQALYQNEVEDDDGACSSLYLEEDD ISENDDLRQMLPGHSQYSFTGGSQGNHLGKQKVIERSLTEYNSTMERVESQVLKRNECYK PTGLHATPGESQEPNLSAESCGLNSGAQFGFNYEEEPSVAKCVQASAPADERIFDYYSAR KASFEAEVIQDTIGDTGKKPASWSQSPQNQEMRKHFPQKFQLFNTSHMPVLAQDVQYEHS HLEGTENHSMAGDSGIDSPRLFEAYFTVVVATVPGGRRRWPVMPGKLLWGDIMELEAPLE ESESQKKERQKSDRRKSRHHYDSDEKSETRENGVTDDLDAPKAKKSKMKEKLNGDTEEGF NRLSDEFSKSHKSRRKDLPNGDIDEYEKKSKRVSSLDTSTHKSSDNKLEETLTREQKEGA FSNFPISEETIKLLKVKTFGPVYEGKDLIAQARTGTGKTFSFAIPLIERLQRNQETIKKS RSPKVLVLAPTRELANQVAKDFKDITRKLSVACFYGGTSYQSQINHIRNGIDILVGTPGR IKDHLQSGRLDLSKLRHVVLDEVDQMLDLGFAEQVEDIIHESYKTDSEDNPQTLLFSATC PQWVYKVAKKYMKSRYEQVDLVGKMTQKAATTVEHLAIQCHWSQRPAVIGDVLQVYSGSE GRAIIFCETKKNVTEMAMNPHIKQNAQCLHGDIAQSQREITLKGFREGSFKVLVATNVAA RGLDIPEVDLVIQSSPPQGITFKRVGVPSTMDLVKSKSMDAIRQSGMIPTGYSQCQPNYL KLKNIMMETHLLIPDRGVAGQVVDQAGQAGQVVDLAAGQVDRVDKEVAQEVDKMVEDEVG IEIDQEVGATNGVLTEYLIVNLPVCLLDQGPQVVNSLNPTTVTGRCFEFTTRKAAFPVLP ASPGSALLREVTRAGWTQGGELPLPLHAVEKTGRPGQPALKMPGKLRSDAGLESDTAMKK GETLRKQTEEKEKKEKPKSDKTEEIAEEEETVFPKAKQVKKKAEPSEVDMNSPKSKKAKK KEEPSQNDISPKTKSLRKKKEPIEKKVVSSKTKKVTKNEEPSEEEIDAPKPKKMKKEKEM NGETREKSPKLKNGFPHPEPDCNPSEAASEESNSEIEQVLVLAPTRELANQVSKDFSDIT KKLSVACFYGGTPYGGQFERMRNGIDILVGTPGRIKDHIQNGKLDLTKLKHVVLDEVDQM LDMGFADQVEEILSVAYKKDSEDNPQTLLFSATCPHWVFNVAKKYMKSTYEQVDLIGKKT QKTAITVEHLAIKCHWTQRAAVIGDVIRVYSGHQGRTIIFCETKKEAQELSQNSAIKQDA QSLHGDIPQKQREITLKGFRNGSFGVLVATNVAARGLDIPEVDLVIQSSPPKGIKFKRIG VPSATEIIKASSKDAIRLLDSVPPTAISHFKQSAEKLIEEKGAVEALAAALAHISGATSV DQRSLINSNVGFVTMILQCSIEMPNISYAWKELKEQLGEEIDSKVKGMVFLKGKLSNQNW KDHGKDMEASGDSGKAVEASGDSGTETEDSEDSGKAVEAREDSDQEVATKGQSGDKLTAA GGGEGGGNTLIDNFISMRMVAVVIAASSHWSLPSVLRFSGRVILVPIPQRPQRVESQVCE KFQAALALSRVELHKNPEKEPYKSKYSARALLEEVKALLGPAPEDEDERPEAEDGPGAGD HALGLPAEVVEPEGPVAQRAVRLAVIEFHLGVNHIDTEELSAGEEHLVKCLRLLRRYRLS HDCISLCIQAQNNLGILWSEREEIETAQAYLESSEALYNQYMKEVGSPPLDPTERFLPEE EKLTEQERSKRFEKVYTHNLYYLAQVYQHLEMFEKAAHYCHSTLKRQLEHNAYHPIEWAI NAATLSQFYINKDNIGELDLDKQSELRALRKKELDEEESIRKKAVQFGTGELCDAISAVE EKVSYLRPLDFEEARELFLLGQHYVFEAKEFFQIDGYVTDHIEVVQDHSALFKVLAFFET DMERRCKMHKRRIAMLEPLTVDLNPQYYLLVNRQIQFEIAHAYYDMMDLKVAIADRLRDP DSHIVKKINNLNKSALKYYQLFLDSLRDPNKVFPEHIGEDVLRPAMLAKFRVARLYGKII TADPKKELENLATSLEHYKFIVDYCEKHPEAAQEIEVELELSKEMHGMVIYWDDMEKIWH HTFYNELHVAFEEYPVLLTKGPLNPKANHEKMAQIMLETFNTPPMHVAIQVVLYLYSSGH TTGIVMDSGDRRWPHGSSWEKSYELSDGQVITSSNKRFHCPEALFQPSFLGMESCGIYKT TFKSIVKCDVDIHKDLYANTVLSGSTTMYPGIALQDAEGDHCPGSQHEEDQDHCSF >gi568815588f:68856226_69082809|GENSCAN_predicted_CDS_1|8811_bp atgcactgggctgccaggctggagcctgaggtggtggtgggaaagggaggaggtggcctg ggcatgagggttggtgaagggagcttcaggcacactcacagccctggtgcaacacagtct actgcagcattactggctgtggcgggggacaagcattgtatagggaactttatatcagaa ccctgccagaagaagtcctgcatcaacaaatttgataagggcattgcaattccatcggaa gatattctttataccactctgggaacgctgattaaagaaaggaagatttatcacactgga gaaggatacttcatagttactcctcagacttacttcattacaaatacaaccacccaggaa aataagagaatgctgccatcagatgaaagtcgcctgatgccagcttccatgacatatctg gtgagcatggagagctgtgcagagtcagcccaagagaatgctgcccccatatcccactgt cagtcttgccagtgtttccgggacatgcacactcaggatgttcaggaagcaccagttgct gcagaagtgactaggaagagtcacagaggtcttggggaatccgtatcttgggtacagaat ggggcagtttcagtgtctgcggagcaccacatttgtgagagcaccaaacctttaccatac acaagagataaagaaaaaggcaagaagtttggttttagtctcttatggcgcagcttatct agaaaggagaagcccaaaacagaacacagcagtttctctgctcagttcccacctgaagaa tggcccgtccgagatgaagatgacttggacaatatccctcgagatgttgaacatgagata atcaaacgaattaaccccattttgactgttgacaatttaatcaaacacactgtcctaatg caaaaatacgaagaacagaaaaaatataatagccagggcacttccactgacatgctgaca atcgggcataagtatccttcaaaagagggggttaagaaaaggcagggtctgtctgcaaaa cctcaagggcagggccattctcgaagggatagacacaaagccaggaatcagggaagtgag tttcagccaggaagcattagactggagaaacaccccaagctccctgctacacagcccatc cccagaattaaaagcccaaatgaaatggtaggtcagaaaccacttggtgagattacaaca gtgctaggttcccatttgatttacaaaaagcgaatcagtaatcctttccagggtttgtct caccgaggaagcacaatatccaaagggcacaaaattcagaagacgagtgatctgaaaccc agccagactggaccaaaggaaaagcctttccaaaagcctaggtccttggattcctcaaga atctttgatggtaaagccaaagagccatatgctgaacaacctaatgataaaatggaagca gaatccatttacataaatgaccctactgtcaaacccatcaatgatgacttcagaggtcac ctcttcagtcaccctcaacagagcatgttgcaaaatgatggtaaatgctgtccctttatg gaaagcatgttgagatatgaagtgtatggtggagaaaatgaggtaattcctgaagtcttg aggaaaagtcattcccactttgacaaattaggggagaccaaacagactccgcatagtctg ccatcacgaggtgcctccttttcagaccgaacaccctctgcttgtagattagtggataac acaatacaccagtttcaaaatcttggccttttggattacccagttggcgtgaacccttta agacaagctgcaagacaagacaaagactcagaagaattattgagaaaaggatttgtccag gatgcagagactacaagcctagaaaatgaacagctttctaacgatgaccaggccttgtat cagaatgaagtggaagatgatgatggtgcctgtagttcattatatctagaggaggatgac atttctgagaatgacgacttacgtcaaatgctgcctggccacagtcagtattccttcaca ggtggaagccagggaaatcatttaggaaaacaaaaagtgattgagagatctctgaccgag tacaacagcacaatggagagggttgagtctcaggtgcttaaaagaaatgaatgctacaaa cccactgggctgcatgctaccccaggtgaaagccaagaacctaacctctctgctgaaagt tgtggcctaaattcaggggcccagtttggttttaactacgaagaagaacccagtgttgct aaatgtgtacaggcctcagcacctgctgatgaaagaatctttgattactatagcgcaaga aaagccagttttgaagctgaagtcatacaagacactattggtgacacaggaaagaagcca gctagctggagtcagagtcctcagaatcaggaaatgagaaaacatttcccacaaaagttc caacttttcaacacttcacatatgccagtgttggctcaggatgtccaatatgaacacagt cacttggaagggacagaaaatcacagcatggcaggagatagtggaatagattctccacgg ctttttgaagcttattttactgtggttgtggccactgtgcccggagggaggcggcggtgg ccagtaatgcctgggaaactcctctggggggacattatggagctggaagcacccttggag gagtccgagagccagaagaaggagaggcaaaagagtgacagaaggaagtcaaggcaccat tatgactcggatgagaaatcagaaacaagagaaaatggtgttacagatgacctggatgct cccaaggccaaaaaatctaaaatgaaagagaagctaaatggagacactgaagaaggattt aatagactttcagatgaattctccaaatctcataagtcaagaagaaaagatctaccaaat ggagatatagatgaatatgaaaaaaaatcaaagcgagtatcatctttagatacttctact cataaatcaagtgataataaactagaggagaccttaacacgtgaacagaaagaaggagcc ttctccaattttcctatttctgaagagactataaagcttctgaaagttaagacctttggt cctgtatatgaaggaaaagatttaatagctcaagcacggacaggaacaggaaagacattc tcttttgccatccccttaattgaaagactccaaagaaatcaagaaacaattaaaaaaagc cgctcaccaaaggtacttgttttggctccaacaagggaactggcaaaccaagtagccaaa gacttcaaagatataactaggaaactcagcgtggcgtgtttttatggtggaacatcatat caaagccaaattaatcatattcgaaatggtattgacatcttggttggaacacctggtcgt atcaaagaccatctgcagagtggccgattggatctttctaaactgcgacatgttgtgctt gatgaagtggatcagatgttagatttaggtttcgctgaacaagttgaagatattattcat gaatcctacaaaactgattctgaagacaatcctcagactttacttttttctgcaacttgc ccacagtgggtatacaaagttgcaaaaaaatacatgaaatccagatatgaacaggttgac cttgttggaaaaatgactcaaaaggctgcaactactgtggaacatttggccatccagtgt cattggtctcagaggccagcagttattggagatgtccttcaagtctacagtgggtctgaa gggagggctattattttctgtgagaccaagaagaatgtaactgaaatggccatgaatcca cacataaaacagaatgcccagtgtttacatggggacattgcacagtcacaaagagaaatt acactaaaaggcttcagagaaggtagttttaaagttttggtggcaaccaatgtggctgcc cgtggtttggacattcctgaagttgacctggtgattcaaagttctcctcctcagggaatt acttttaaacgtgtaggtgttccttctacaatggatttagttaaatctaaaagcatggat gccatcaggcagagtggcatgattccgactggatactctcagtgccagccaaattacctg aaattgaagaatattatgatggaaacacatcttctaattccagacagaggagtggctggt caagtggtcgatcaggccggtcaggccggtcaggtggtcgatctggcggccggtcaggta gacagagtcgacaaggaagtcgctcaggaagtcgacaagatggtagaagacgaagtggga atagaaatcgatcaagaagtgggggccacaaacggagttttgactgagtatttgatagtt aatctaccagtgtgccttctagaccaagggccgcaagtggtcaattcactaaatccaacc acagtcacaggccgctgctttgaatttaccacgcggaaagcagcttttcctgtgcttcct gcttcccccggaagtgccttgctacgggaagtgacgagagccgggtggacccagggtggg gaactacctcttcctctccacgcggttgagaagaccggtcggcctgggcaacctgcgctg aagatgccgggaaaactccgtagtgacgctggtttggaatcagacaccgcaatgaaaaaa ggggagacactgcgaaagcaaaccgaggagaaagagaaaaaagagaagccaaaatctgat aagactgaagagatagcagaagaggaagaaactgttttccccaaagctaaacaagttaaa aagaaagcagagccttctgaagttgacatgaattctcctaaatccaaaaaggcaaaaaag aaagaggagccatctcaaaatgacatttctcctaaaaccaaaagtttgagaaagaaaaag gagcccattgaaaagaaagtggtttcttctaaaaccaaaaaagtgacaaaaaatgaggag ccttctgaggaagaaatagatgctcctaagcccaagaagatgaagaaagaaaaggaaatg aatggagaaactagagagaaaagccccaaactgaagaatggatttcctcatcctgaaccg gactgtaaccccagtgaagctgccagtgaagaaagtaacagtgagatagagcaggtactg gttcttgcacctacaagagagttggcaaatcaagtaagcaaagacttcagtgacatcaca aaaaagctgtcagtggcttgtttttatggtggaactccctatggaggtcaatttgaacgc atgaggaatgggattgatatcctggttggaacaccaggtcgtatcaaagaccacatacag aatggcaaactagatctcaccaaacttaagcatgttgtcctggatgaagtggaccagatg ttggatatgggatttgctgatcaagtggaagagattttaagtgtggcatacaagaaagat tctgaagacaatccccaaacattgcttttttctgcaacttgccctcattgggtatttaat gttgccaagaaatacatgaaatctacatatgaacaggtggacctgattggtaaaaagact cagaaaacggcaataactgtggagcatctggctattaagtgccactggactcagagggca gcagttattggggatgtcatccgagtatatagtggtcatcaaggacgcactatcatcttt tgtgaaaccaagaaagaagcccaggagctgtcccagaattcagctataaagcaggatgct cagtccttgcatggagacattccacagaagcaaagggaaatcaccctgaaaggttttaga aatggtagttttggagttttggtggcaaccaatgttgctgcacgtgggttagacatccct gaggttgatttggttatacaaagctctccaccaaagggaattaagttcaaacgaataggt gttccttctgcaacagaaataataaaagcttccagcaaagatgccatcaggcttttggat tccgtgcctcccactgccattagtcacttcaaacaatcagctgagaagctgatagaggag aagggagctgtggaagctctggcagcagcactggcccatatttcaggtgccacgtccgta gaccagcgctccttgatcaactcaaatgtgggttttgtgaccatgatcttgcagtgctca attgaaatgccaaatattagttatgcttggaaagaacttaaagagcagctgggcgaggag attgattccaaagtgaagggaatggtttttctcaaaggaaagctgagcaaccagaactgg aaggaccacgggaaggatatggaggcttcaggggacagcgggaaggcagtcgaggcttca ggggacagcgggacggaaacagaagattcagaggacagcgggaaggcagtagaggcccga gaggacagcgatcaggaggtggcaacaaaaggtcaatctggagataaactcaccgctgca gggggcggggaaggaggtgggaacacgctcattgacaacttcatttccatgagaatggtt gctgtggtgattgctgcgtcttcccattggtcattgccgagcgtattgcggttctccggg agggttatattggttcccattccacagcggccgcaacgtgtcgagagccaggtctgcgag aaattccaggcggcgctcgctctgtcgcgggtggaactgcataaaaatccggagaaggaa ccatacaagtccaaatacagcgcccgggcgctactggaagaggtcaaggcgctgctcggc cctgcgcctgaggacgaggatgagcggcctgaggccgaggacggcccgggtgccggtgac cacgccctggggctgccggctgaggtggtggagcccgaggggcccgtcgcccagcgagcg gtgaggctggcagtcatcgagttccacctcggggtgaaccacatcgacacggaggagctg tcggcgggggaggagcacctggtgaaatgcctgcggctgctgcgcaggtaccggctctcg cacgactgcatctctctctgcatccaggcgcagaataacctgggtatcttgtggtctgaa agagaagaaattgaaactgcacaggcttacctagagtcatcagaagcactatataatcag tatatgaaagaggttgggagtcctcctcttgatcctactgagcgttttcttcctgaagaa gagaaacttactgaacaagagagatcaaaaagatttgaaaaggtttatactcataaccta tattacctagctcaagtctaccagcatctggaaatgtttgagaaggctgctcactattgc catagtacactaaaacgccagcttgagcacaatgcctaccatcctatagagtgggctatc aatgctgctaccttgtcacagttttacatcaataaggacaacataggagagcttgatctt gataaacagtctgaacttagagctttaaggaaaaaagaactagatgaggaggaaagcatt cggaaaaaagctgtgcagtttggaaccggtgaactgtgtgatgccatctctgcagtagaa gagaaagtgagctacttgagacctttagattttgaagaagccagagaacttttcttattg ggtcagcactatgtctttgaggcaaaagagttctttcagattgatggttatgtcactgac catattgaagttgtccaagaccacagtgctctgtttaaggtgcttgcattctttgaaact gacatggagagacggtgcaagatgcataaacgcagaatagccatgctagagcccctaact gtagacctgaatccacagtattatctgttggtcaacagacagatccagtttgaaattgca catgcttactatgatatgatggatttgaaggttgccattgctgacaggctaagggatcct gattcacacattgtaaaaaaaataaataatcttaataagtcagcactgaagtactaccag ctcttcttagactccctgagagacccaaataaagtattccctgagcatataggggaagat gttcttcgccctgccatgttagctaagtttcgagttgcccgtctctatggcaaaatcatt actgcagatcccaagaaagagctggaaaatttggcaacatcattggaacattacaaattt attgttgattactgtgaaaagcatcctgaggccgcccaggaaatagaagttgagctagaa cttagtaaagagatgcacggcatggtcatctactgggatgacatggagaagatctggcac cacaccttctacaatgagctgcatgtggctttcgaggagtaccctgtgctgctgaccaaa ggccccctgaatcccaaggccaaccatgagaagatggcccagattatgttggagaccttc aacaccccacccatgcacgtggccatccaggtcgtgctgtacctgtactcctctggccat accactggcatcgtgatggactctggcgacaggagatggccccacgggtcctcctgggag aagagctatgagctgtcagatggccaggtcatcaccagcagcaacaagcggttccactgc cccgaggcgctcttccagccttctttcctgggcatggaatcctgtggcatctacaaaact accttcaaatccatcgtgaagtgtgacgtggacatccacaaagacctgtacgccaacaca gtgctatctggcagcaccaccatgtaccctggcatcgctctgcaggatgcagagggggat cactgccctggctcccagcatgaggaggatcaagatcattgctccttctga >gi568815588f:68856226_69082809|GENSCAN_predicted_peptide_2|153_aa AGETGIKATHCLGPMSPGCPNPFATLGHLRPVLVRGCQHVTSSRPGLSDLQVLKVFGKKN KWRRSSRPSDLVGISSDLQKLLVWWAPDTWCFCCLGAAEDPEPCLSSTLTEAAKYRKYTR SKGKHALQRRPLITIVYVGSNGTEFAARVFFLS >gi568815588f:68856226_69082809|GENSCAN_predicted_CDS_2|462_bp gcaggggagacaggaatcaaggccactcactgcctgggcccaatgtcccctggatgtccc aacccttttgctaccctgggccatctacgaccagttctggtgcgaggatgccagcatgta acctccagtaggccagggctgtcggatctccaggtgctaaaagtttttggcaagaaaaac aagtggaggaggagcagccgcccgtcagacctggtggggatcagcagtgacctgcagaag ttgctggtgtggtgggcaccggatacctggtgtttctgctgcctcggtgctgctgaggac ccagagccctgcctgagcagcacgctcacagaggcagcgaagtacaggaagtacacaagg tcaaaaggaaaacacgctctccagagacgtcctctgatcactatcgtgtacgttgggtcg aatggaacagaatttgctgctagagtgtttttcctctcctaa