GENSCAN 1.0 Date run: 6-Nov-116 Time: 21:32:23 Sequence gi568815589r:120805023_121026075 : 221053 bp : 43.85% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.10 PlyA - 505 500 6 1.05 1.09 Term - 13141 12884 258 1 0 83 34 199 0.989 9.55 1.08 Intr - 15957 15817 141 0 0 84 90 56 0.949 5.95 1.07 Intr - 16442 16333 110 0 2 27 100 11 0.751 -3.80 1.06 Intr - 19663 19472 192 2 0 84 77 193 0.764 17.26 1.05 Intr - 21885 21743 143 2 2 60 110 -4 0.491 -1.00 1.04 Intr - 24186 24077 110 0 2 104 89 39 0.508 4.68 1.03 Intr - 26923 26810 114 1 0 65 101 30 0.827 2.64 1.02 Intr - 27890 27812 79 1 1 69 51 69 0.602 0.85 1.01 Init - 37887 37715 173 0 2 95 66 318 0.973 27.21 1.00 Prom - 43805 43766 40 -1.96 2.17 PlyA - 44172 44167 6 1.05 2.16 Term - 53264 52922 343 1 1 73 42 373 0.932 25.18 2.15 Intr - 55163 55068 96 1 0 62 99 118 0.901 9.42 2.14 Intr - 56152 56067 86 1 2 134 64 67 0.917 7.52 2.13 Intr - 56983 56896 88 0 1 124 8 48 0.871 0.37 2.12 Intr - 57727 57566 162 0 0 89 52 299 0.955 25.49 2.11 Intr - 59094 59027 68 0 2 103 90 57 0.992 5.10 2.10 Intr - 60808 60688 121 0 1 76 95 145 0.999 14.50 2.09 Intr - 61074 61006 69 2 0 97 81 119 0.998 10.40 2.08 Intr - 61943 61848 96 1 0 129 94 137 0.999 17.52 2.07 Intr - 64308 64160 149 0 2 100 61 341 0.999 31.63 2.06 Intr - 64923 64823 101 1 2 107 88 115 0.999 13.23 2.05 Intr - 65516 65421 96 0 0 73 92 130 0.918 11.88 2.04 Intr - 69038 68957 82 2 1 110 101 49 0.991 7.61 2.03 Intr - 69734 69534 201 2 0 48 59 242 0.714 16.78 2.02 Intr - 71107 70930 178 0 1 69 15 41 0.222 -5.18 2.01 Init - 72445 72330 116 1 2 58 -14 250 0.798 9.48 2.00 Prom - 93536 93497 40 -2.66 3.35 PlyA - 95553 95548 6 1.05 3.34 Term - 100216 99998 219 1 0 125 46 315 0.998 28.04 3.33 Intr - 100636 100415 222 1 0 84 55 83 0.793 2.92 3.32 Intr - 104356 104208 149 2 2 80 86 277 0.967 26.65 3.31 Intr - 106491 106314 178 0 1 78 92 224 0.990 21.29 3.30 Intr - 108716 108306 411 2 0 78 96 558 0.639 49.98 3.29 Intr - 109232 109213 20 0 2 81 121 13 0.140 0.23 3.28 Intr - 120122 120008 115 2 1 97 34 82 0.127 3.72 3.27 Intr - 120791 120666 126 2 0 74 40 83 0.253 2.98 3.26 Intr - 122698 122667 32 2 2 55 80 44 0.003 -1.85 3.25 Intr - 124400 124119 282 0 0 95 82 143 0.004 11.79 3.24 Intr - 141756 141621 136 0 1 60 89 78 0.633 5.24 3.23 Intr - 147059 147002 58 1 1 98 27 32 0.119 -3.01 3.22 Intr - 148846 148708 139 2 1 88 111 30 0.835 4.82 3.21 Intr - 152346 152263 84 1 0 73 85 58 0.813 3.79 3.20 Intr - 156543 156460 84 1 0 81 92 19 0.711 1.39 3.19 Intr - 157754 157649 106 2 1 68 89 42 0.993 2.09 3.18 Intr - 157945 157871 75 1 0 113 111 5 0.969 5.01 3.17 Intr - 158716 158614 103 0 1 76 44 93 0.872 3.88 3.16 Intr - 164096 164039 58 0 1 58 99 40 0.623 0.04 3.15 Intr - 165229 165148 82 1 1 61 93 32 0.596 0.21 3.14 Intr - 166970 166908 63 2 0 77 103 82 0.991 7.51 3.13 Intr - 169909 169757 153 1 0 52 84 95 0.979 5.77 3.12 Intr - 171883 171678 206 2 2 70 92 60 0.631 3.52 3.11 Intr - 175232 175061 172 2 1 89 70 78 0.874 5.62 3.10 Intr - 176917 176822 96 1 0 89 103 56 0.989 7.41 3.09 Intr - 192752 192525 228 2 0 67 83 108 0.857 6.27 3.08 Intr - 194409 194335 75 0 0 83 65 32 0.305 0.11 3.07 Intr - 201036 200897 140 1 2 19 111 131 0.981 8.68 3.06 Intr - 209048 208851 198 0 0 38 102 58 0.464 1.52 3.05 Intr - 211361 211232 130 2 1 94 53 71 0.984 4.47 3.04 Intr - 212830 212621 210 1 0 71 115 135 0.995 13.61 3.03 Intr - 215157 214954 204 0 0 100 111 63 0.998 9.20 3.02 Intr - 218497 218373 125 2 2 90 68 77 0.743 6.20 3.01 Intr - 220558 220432 127 1 1 58 111 111 0.991 10.65 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Sngl + 123886 124251 366 0 0 51 55 288 0.978 15.90 S.002 Term - 189892 189803 90 1 0 123 49 55 0.907 2.82 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815589r:120805023_121026075|GENSCAN_predicted_peptide_1|439_aa MAAQALALLREVARLEAPLEELRALHSVLQAVPLNELRQQAAELRLGPLFSLLNENHRFF TLDEPNAIVKVTKPTIKTVTLIILIGRIVENSDAVTEILNNAELLKQIVYCIGGENLSVA KALIIEISSVSPESLNYCTTSGLVTQLLRELTGEDVLVRATCIEMVTSLAYTHHGRQYLA QEGVIDQISNIIVGADSDPFSSFYLPGFVKFFGNLAVMDSPQQICERYPIFVEKVFEMIE SQDPTMIGVAVDTVGILGSNVEGKQVLQKTGTRFERLLMRIGHQSKNAPVELKIRCLDAI SSLLYLPPEQQTDDLLRMTESWFSSLSRDPLELFRGISSQPFPELHCAALKVFTAIANQP WAQKLMFNSPGFVEYVVDRSVEHDKASKDAKYELVKALANSKTIAEIFGNPNYLRLRTYL SEGPYYVKPVSTTAVEGAE >gi568815589r:120805023_121026075|GENSCAN_predicted_CDS_1|1320_bp atggcagcccaggctttggcgctgctgagagaggtagcgaggctggaagcgccgctggag gagctacgcgcgcttcactccgtgctgcaggcagtgccgctcaacgagcttcgccagcaa gcggcggagctgcgcctcggcccgctcttctccctgcttaacgagaaccatagattcttt acactggatgaaccaaatgctattgtaaaggtcactaaaccaacaattaagacagtaact cttatcatcctgattggaagaattgttgaaaattctgatgctgttactgagattctaaat aatgctgaattactaaaacaaattgtttattgcattggtggagagaatctatctgtagca aaagcgctaattatagagatttcttccgtgtcaccagaatctttaaactactgtaccaca agtggattggtaacccagctcctgagagagctgactggtgaggatgtgttggtcagagcc acctgtatagaaatggtgacatcactggcatatactcatcatgggcgacaatatcttgct caagaaggagtaattgaccaaatttctaatataattgttggggcagattcagaccctttc tctagcttctatctgccaggattcgtgaagttttttggaaacctggctgtcatggatagt cctcaacagatctgtgagcgttatcctatctttgtggaaaaagtctttgaaatgatagaa agtcaggaccccactatgattggtgtagctgtagacacagttggaatcttgggatccaat gttgaaggaaaacaggttttacagaaaacaggaactcgctttgaacgcttgcttatgaga ataggacatcaatcaaagaatgccccagtggagctaaaaattagatgtttggatgcaatt tcatctcttctgtacttaccacctgagcagcagactgatgaccttctgaggatgacagaa tcctggttttcttctttatctcgggatccactggagctcttccgtggcattagtagtcag cccttccctgaactacactgtgctgccttaaaagtgtttacggccattgcaaaccaaccc tgggctcagaaacttatgtttaacagtccaggttttgtagaatatgtggtggaccggtct gtggagcatgacaaagcttcaaaggatgccaaatatgaactagtgaaagcacttgccaat tccaagacaattgcagaaatctttgggaacccaaattatttgaggctcagaacttacctg agtgaagggccatactatgtgaaacctgtttccacgacagcagtagaaggagccgaatga >gi568815589r:120805023_121026075|GENSCAN_predicted_peptide_2|683_aa MRARGAGGGGRGLAALRSPAAAGSNGEAGAAPANYISGTAPHILSFTHSLAQCRRHHPAQ SHRSTHTHHTETGTGLSPCEQIVTTPGAQRHGHKEETRCQGKLMENRALDPGTRDSYGAT SHLPNKGALAKVKNNFKDLMSKLTEGQYVLCRWTDGLYYLGKIKRVSSSKQSCLVTFEDN SKYWVLWKDIQHAGVPGEEPKCNICLGKTSGPLNEILICGKCGLGYHQQCHIPIAGSADQ PLLTPWFCRRCIFALAVRKGGALKKGAIARTLQAVKMVLSYQPEELEWDSPHRTNQQQCY CYCGGPGEWYLRMLQCYRCRQWFHEACTQCLNEPMMFGDRFYLFFCSVCNQGPEYIERLP LRWVDVVHLALYNLGVQSKKKYFDFEEILAFVNHHWELLQLGKLTSTPVTDRGPHLLNAL NSYKSRFLCGKEIKKKKCIFRLRIRVPPNPPGKLLPDKGLLPNENSASSELRKRGKSKPG LLPHEFQQQKRRVYRRKRSKFLLEDAIPSSDFTSAWSTNHHLASIFDFTLDEIQSLKSAS SGQTFFSDVDSTDAASTSGSASTSLSYDSRWTVGSRKRKLAAKAYMPLRAKRWAAELDGR CPSDSSAEGASVPERPDEGIDSHTFESISEDDSSLSHLKSSITNYFGAAGRLACGEKYQV LARRVTPEGKVQYLVEWEGTTPY >gi568815589r:120805023_121026075|GENSCAN_predicted_CDS_2|2052_bp atgcgcgcccgcggggcgggcgggggcgggcgggggctggcggcgctgcggagcccggcg gccgcgggctccaatggcgaggccggcgcggcccccgctaattacataagcgggacggcc ccgcacatacttagcttcacacactccctggcacaatgccgtagacatcatcctgcccag tctcacaggagtacacacacgcaccacacagaaacaggcactggactctctccctgtgaa cagatagtcacaacaccaggtgcccagcgccatggccacaaggaggagacccgatgtcag gggaagctgatggagaatcgagctctggatccagggactcgggactcctatggtgccacc agccacctccccaacaagggggccctggcgaaggtcaagaacaacttcaaagacttgatg tccaaactgacggagggccagtatgtgctgtgccggtggacagatggcctgtactacctc gggaagatcaagagggtcagcagctctaagcaaagctgcctcgtgactttcgaagataat tccaaatactgggtcctatggaaggacatacagcatgccggtgttccaggagaggagccc aagtgcaacatctgcctagggaagacatcagggccgctgaatgagatcctcatctgcggg aagtgtggcctgggttaccaccagcagtgccacatccccatagcgggcagtgctgaccag cccctgctcacaccttggttctgccgacgctgcatcttcgcactggctgtgcggaaaggc ggcgcgctgaagaagggcgccatcgccaggacgctgcaggccgtgaagatggtgctgtcc taccagcccgaggagctcgagtgggactcgccccatcgcaccaaccagcagcaatgctac tgctactgcggcgggcccggagaatggtacctgcggatgctgcaatgttaccggtgcagg cagtggttccacgaggcctgcacccagtgcctcaatgagcccatgatgtttggagaccgg ttttacctgttcttctgctccgtgtgtaaccagggcccagagtacatcgagaggctgccc ctgcgatgggtggatgtggttcacctggccctctataatctgggggtacagagcaagaag aagtactttgactttgaggagattctggcctttgtcaaccaccactgggagctcctgcag cttggcaagctcaccagcaccccagtgacagatcgaggaccacatctcctcaacgctctg aacagttataaaagccggttcctctgcggcaaggagatcaagaagaagaagtgcatcttc cgcctgcgcatccgcgtcccacccaacccgccagggaagctgctgcctgacaaaggactg ctgccaaatgagaacagcgcctcctctgagctgcgtaagagaggaaagagcaagcctggt ttgttgcctcacgaattccagcagcagaaaaggcgagtttatagaagaaaaagatcaaag tttttgctggaagatgctattcccagtagtgacttcacctcagcctggagcaccaaccac cacctggctagcatatttgacttcacgctggatgaaattcaaagtttaaaaagtgccagc tcaggccagaccttcttctcagatgtcgactccaccgacgctgccagcacctctggctct gcctccaccagcctctcctatgactccagatggacagtgggcagccgaaagaggaagctg gcagccaaggcatacatgcccctgcgggcaaagcggtgggcagctgagctggatggacgc tgcccctcggacagcagtgcagagggggcttcagtccccgagcggccagacgaaggcatt gacagccacacatttgagagcatcagtgaagatgactcatccctgtcccacctcaagtca tctatcaccaactactttggtgcagctgggcggttggcctgtggggagaagtaccaggtg ttggctcggagggtcacacctgagggcaaggttcagtacctggtggagtgggaagggacc accccttactga >gi568815589r:120805023_121026075|GENSCAN_predicted_peptide_3|1601_aa LINGIAQVTFDSETAVKELSYYSLEDLNNKYLYIAVTVIESTGGFSEEAEIPGIKYVLSP YKLNLVATPLFLKPGIPYPIKVDWVKTDAPDLPEENQAREGYRAIAYSSLSQSYLYIDWT DNHKALLVGEHLNIIVTPKSPYIDKITHYNYLILSKGKIIHFGTREKFSDASYQSINIPV TQNMVPSSRLLVYYIVTGEQTAELVSDSVWLNIEEKCGNQLQVFQFLEKSDLGCGAGGGL NNANVFHLAGLTFLTNANADDSQENAAKYKHSVVKKCCYDGACVNNDETCEQRAARISLG PRCIKAFTECCVVASQLRANISHKDMQLGRLRICVADTVKAKVFKDVFLEMNIPYSVVRG EQIQLKGTVYNYRTSGMQFLNQYDVRFYWGFSHSKAPMGPALRFCVKMSAVEGICTSESP VIDHQGTKSSKCVRQKVEGSSSHLVTFTVLPLEIGLHNINFSLETWFGKEILVKTLRVVG TLPVEARENSLYLTAFTVIGIRKAFDICPLVKIDTALIKADNFLLENTLPAQSTFTLAIS AYALSLGDKTHPQFRSIVSALKREALVKGNPPIYRFWKDNLQHKDSSVPNTGTARMVETT AYALLTSLNLKDINYVNPVIKWLSEEQRYGGGFYSTQDTINAIEGLTEYSLLVKQLRLSM DIDVSYKHKGALHNYKMTDKNFLGRPVEVLLNDDLIVSTGFGSGLATVHVTTVVHKTSTS EEVCSFYLKIDTQDIEASHYRGYGNSDYKRIVACASYKPSREESSSGSSHAVMDISLPTG ISANEEDLKALVEGVDQLFTDYQIKDGHVILQLNSIPSSDFLCVRFRIFELFEVGFLSPA TFTVYEYHRPDKQCTMFYSTSNIKIQKVCEGAACKCVEAYKVSITSITVENVFVKYKATL LDIYKTGEAVAEKDSEITFIKKVTCTNAELVKGRQYLIMGKEALQIKYNFSFRNLLSPTI ALLKDRPQCSNLNLMKAIDLSIPSNQDNQEYLELNKFQFIESLQQGRTHTMGTIRLLGGI LLSTKHAQVLHQMPGAPQAEELRTRVSVNWAHSARGAADPALRLSFPSQGSLAPPRGGLG SSSPGPRPCLAGFRRCGCVLHTPPEAPGLAAACGSPGVTPGQFPHPFLTLPDTAPLAVVE GEEATERHQLPQGKAIHTEESLEALKKVAKLNQASEKFKHDDKGGGCENSEERLWPWKGQ PGGVGCSFKGSPQSVQEHEVTSQTSHLNLLLGFMKQWKARLGCGLESGPMALEQNLSDLQ LQAAVEVAGDLEVDCYRAPCSESQEELALQHFMKEKLLAELEGKLRVFENIVAVLNKEVE ASHLALATSIHQSQLDRERILSLEQRVVELQQTLAQKDQALGKLEQSLRLMEEASFDGTF LWKITNVTRRCHESACGRTVSLFSPAFYTAKYGYKLCLRLYLNGDGTGKRTHLSLFIVIM RGEYDALLPWPFRNKEVPAVVDEAKLSKPEGVLQVIASTHLVSASVTPSAPNSQSHLTGA SEPSPASCWLEGTSDPHHGTAPEVHSEYQVTFMLLDQNNREHAIDAFRPDLSSASFQRPQ SETNVASGCPLFFPLSKLQSPKHAYVKDDTMFLKCIVETST >gi568815589r:120805023_121026075|GENSCAN_predicted_CDS_3|4806_bp ttgataaatggaattgctcaagtcacatttgattctgaaacagcagtcaaagaactgtca tactacagtttagaagatttaaacaacaagtacctttatattgctgtaacagtcatagag tctacaggtggattttctgaagaggcagaaatacctggcatcaaatatgtcctctctccc tacaaactgaatttggttgctactcctcttttcctgaagcctgggattccatatcccatc aaggtagattgggtcaaaactgatgctccagatcttccagaagaaaatcaggccagggaa ggttaccgagcaatagcatactcatctctcagccaaagttacctttatattgattggact gataaccataaggctttgctagtgggagaacatctgaatattattgttacccccaaaagc ccatatattgacaaaataactcactataattacttgattttatccaagggcaaaattatc cactttggcacgagggagaaattttcagatgcatcttatcaaagtataaacattccagta acacagaacatggttccttcatcccgacttctggtctattacatcgtcacaggagaacag acagcagaattagtgtctgattcagtctggttaaatattgaagaaaaatgtggcaaccag ctccaggtatttcaattcttagagaagagtgatctgggctgtggggcaggtggtggcctc aacaatgccaatgtgttccacctagctggacttaccttcctcactaatgcaaatgcagat gactcccaagaaaatgctgctaaatataaacattcagtagtgaagaaatgttgttacgat ggagcctgcgttaataatgatgaaacctgtgagcagcgagctgcacggattagtttaggg ccaagatgcatcaaagctttcactgaatgttgtgtcgtcgcaagccagctccgtgctaat atctctcataaagacatgcaattgggaaggctacgtatatgtgttgctgatactgtcaag gcaaaggtgttcaaagatgtcttcctggaaatgaatataccatattctgttgtacgagga gaacagatccaattgaaaggaactgtttacaactataggacttctgggatgcagttccta aaccagtatgatgtcaggttctactggggttttagccactccaaggcaccaatgggacct gccctcaggttctgtgttaaaatgtctgctgtggagggaatctgcacttcggaaagccca gtcattgatcatcagggcacaaagtcctccaaatgtgtgcgccagaaagtagagggctcc tccagtcacttggtgacattcactgtgcttcctctggaaattggccttcacaacatcaat ttttcactggagacttggtttggaaaagaaatcttagtaaaaacattacgagtggtgggt accttgcctgttgaagcccgagagaacagcttatatcttacagcctttactgtgattgga attagaaaggctttcgatatatgccccctggtgaaaatcgacacagctctaattaaagct gacaactttctgcttgaaaatacactgccagcccagagcacctttacattggccatttct gcgtatgctctttccctgggagataaaactcacccacagtttcgttcaattgtttcagct ttgaagagagaagctttggttaaaggtaatccacccatttatcgtttttggaaagacaat cttcagcataaagacagctctgtacctaacactggtacggcacgtatggtagaaacaact gcctatgctttactcaccagtctgaacttgaaagatataaattatgttaacccagtcatc aaatggctatcagaagagcagaggtatggaggtggcttttattcaacccaggacacaatc aatgccattgagggcctgacggaatattcactcctggttaaacaactccgcttgagtatg gacatcgatgtttcttacaagcataaaggtgccttacataattataaaatgacagacaag aatttccttgggaggccagtagaggtgcttctcaatgatgacctcattgtcagtacagga tttggcagtggcttggctacagtacatgtaacaactgtagttcacaaaaccagtacctct gaggaagtttgcagcttttatttgaaaatcgatactcaggatattgaagcatcccactac agaggctacggaaactctgattacaaacgcatagtagcatgtgccagctacaagcccagc agggaagaatcatcatctggatcctctcatgcggtgatggacatctccttgcctactgga atcagtgcaaatgaagaagacttaaaagcccttgtggaaggggtggatcaactattcact gattaccaaatcaaagatggacatgttattctgcaactgaattcgattccctccagtgat ttcctttgtgtacgattccggatatttgaactctttgaagttgggtttctcagtcctgcc actttcacagtgtacgaataccacagaccagataaacagtgtaccatgttttatagcact tccaatatcaaaattcagaaagtctgtgaaggagccgcgtgcaagtgtgtagaagcttat aaagttagcatcacatccatcactgtagaaaatgtttttgtcaagtacaaggcaaccctt ctggatatctacaaaactggggaagctgttgctgagaaagactctgagattaccttcatt aaaaaggtaacctgtactaacgctgagctggtaaaaggaagacagtacttaattatgggt aaagaagccctccagataaaatacaatttcagtttcaggaacctgctctcgccaacaatt gctttactaaaagacaggccccagtgcagcaacctgaatctaatgaaagctatagactta tcaattccctccaatcaagacaaccaggaatacctggaactgaacaagtttcagtttatt gagtctttgcaacaagggagaacacacaccatggggaccataaggcttctcgggggcatc ttactgagcactaaacacgcgcaggtgctgcaccagatgccaggagccccgcaagcggag gagctgcgtacacgcgtgtcagttaactgggcgcacagtgcccgtggcgccgcagacccg gccctcagactcagtttcccctcacagggatcgctcgccccgccccgcggcggtctgggg agcagcagccccgggccccggccctgccttgccggtttccgccggtgcggctgcgtcctt cacactccaccggaagctccgggcctggccgccgcctgtggcagccctggtgttacacca gggcagtttccacacccttttctcacactccctgacactgcccctctggctgtggtggaa ggagaggaagccacagaaaggcatcagctcccacaggggaaagccatccacaccgaggag agcctcgaggctcttaagaaggtggcaaagctgaatcaggcaagtgagaagttcaaacat gacgacaaaggaggaggctgtgagaatagcgaggagaggctgtggccgtggaaaggccag ccaggaggtgtcggctgctccttcaagggaagcccacagtctgtgcaagagcatgaggtc acctcccagacctcccacctaaacctgctgttggggttcatgaaacagtggaaggcccgg ctgggctgtggcctggagtctgggcccatggccctggagcagaacctgtcagacctgcag ctgcaggcagccgtggaagtggcgggggacctggaggtcgattgctaccgggcaccctgc tccgagagccaggaggagctggccctgcagcacttcatgaaggagaagcttctggctgag ctggaggggaagctgcgtgtgtttgagaacattgttgctgtcctcaacaaggaggtggag gcctcccacctggccctggccacctctatccaccagagccagctggaccgtgagcgcatc ctgagcttggagcagagggtggtggagcttcagcagaccctggcccagaaagaccaggcc ctgggcaagctggagcagagcttgcgcctcatggaggaggcctccttcgatggcactttc ctgtggaagatcaccaatgtcaccaggcggtgccatgagtcggcctgtggcaggaccgtc agcctcttctccccagccttctacactgccaagtatggctacaagttgtgcctgcggctg tacctgaatggagatggcactggaaagagaacccatctgtcgctcttcatcgtgatcatg agaggggagtatgatgcgctgctgccgtggcccttccggaacaaggaggttccagctgta gttgatgaagcaaaactttccaagccagagggggtgttacaggttattgcctccacccac cttgtcagtgcttcagtcacaccctctgcccccaacagccagtcacacttgactggggca tcagaaccttcccctgcttcctgctggctggagggaacatctgatcctcatcatggaaca gcccctgaagtgcactcagaataccaggtcaccttcatgctgctggaccagaacaaccgt gagcacgccattgacgccttccggcctgacctaagctcagcgtccttccagaggccccag agtgaaaccaacgtggccagtggatgcccactcttcttccccctcagcaaactgcagtca cccaagcacgcctacgtgaaggacgacacaatgttcctcaagtgcattgtggagaccagc acttag