GENSCAN 1.0 Date run: 3-Nov-116 Time: 03:43:10 Sequence gi568815576f:29380263_29590700 : 210438 bp : 47.95% 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 + 8168 8301 134 0 2 124 55 65 0.026 7.16 1.02 Intr + 17665 17848 184 0 1 2 53 145 0.019 1.76 1.03 Intr + 28241 28305 65 0 2 116 50 85 0.380 5.94 1.04 Intr + 29233 29376 144 0 0 42 95 83 0.223 4.88 1.05 Intr + 29915 29942 28 1 1 88 84 7 0.143 -2.01 1.06 Term + 32645 32802 158 0 2 77 45 41 0.052 -3.20 1.07 PlyA + 32933 32938 6 1.05 2.04 PlyA - 33186 33181 6 1.05 2.03 Term - 35210 35087 124 1 1 20 48 89 0.205 -4.04 2.02 Intr - 38998 38893 106 2 1 90 89 244 0.967 23.97 2.01 Init - 42899 42863 37 2 1 81 62 25 0.332 -0.63 2.00 Prom - 50162 50123 40 -5.26 3.00 Prom + 53257 53296 40 -4.56 3.01 Init + 58617 58902 286 2 1 95 100 142 0.632 13.34 3.02 Intr + 61280 61557 278 0 2 104 74 219 0.152 19.34 3.03 Intr + 64818 64940 123 2 0 56 79 53 0.181 1.98 3.04 Term + 68251 68388 138 0 0 49 54 110 0.311 1.66 3.05 PlyA + 70053 70058 6 1.05 4.00 Prom + 75963 76002 40 -3.26 4.01 Init + 76219 76277 59 0 2 66 78 46 0.121 2.18 4.02 Intr + 89300 89328 29 2 2 118 82 2 0.134 0.36 4.03 Term + 90088 90191 104 2 2 71 49 152 0.262 8.04 4.04 PlyA + 91342 91347 6 1.05 5.00 Prom + 96703 96742 40 -5.56 5.01 Init + 100001 100883 883 1 1 72 85 1866 0.648 177.32 5.02 Intr + 103113 103312 200 1 2 106 80 343 0.995 34.37 5.03 Intr + 105461 105585 125 1 2 105 94 204 0.999 22.08 5.04 Term + 108587 110441 1855 2 1 81 48 2692 0.658 249.86 5.05 PlyA + 111000 111005 6 1.05 6.29 PlyA - 111220 111215 6 1.05 6.28 Term - 131034 130840 195 0 0 58 55 277 0.208 18.81 6.27 Intr - 131874 131759 116 1 2 94 94 75 0.973 8.87 6.26 Intr - 136854 136767 88 0 1 100 91 161 0.999 17.14 6.25 Intr - 137104 137001 104 2 2 125 78 54 0.994 7.99 6.24 Intr - 138858 138744 115 0 1 59 87 121 0.930 9.12 6.23 Intr - 139842 139746 97 2 1 84 62 9 0.904 -2.09 6.22 Intr - 140837 140736 102 1 0 118 92 30 0.891 5.69 6.21 Intr - 145684 145576 109 2 1 139 34 148 0.416 13.84 6.20 Intr - 147915 147816 100 0 1 74 47 136 0.984 7.78 6.19 Intr - 148204 148071 134 2 2 101 48 139 0.706 11.56 6.18 Intr - 148977 148900 78 1 0 108 90 99 0.887 11.62 6.17 Intr - 151683 151452 232 0 1 63 61 151 0.405 7.25 6.16 Intr - 156476 156362 115 1 1 105 75 185 0.999 19.35 6.15 Intr - 159214 159068 147 0 0 98 64 192 0.999 17.15 6.14 Intr - 162694 162597 98 1 2 128 78 96 0.999 11.41 6.13 Intr - 163280 163167 114 2 0 114 52 79 0.990 7.54 6.12 Intr - 164341 164198 144 1 0 76 79 163 0.933 14.68 6.11 Intr - 168630 168499 132 0 0 53 61 54 0.335 0.04 6.10 Intr - 168896 168790 107 0 2 73 94 104 0.097 9.43 6.09 Intr - 178691 178608 84 0 0 62 109 40 0.906 3.29 6.08 Intr - 180566 180472 95 1 2 102 61 143 0.999 12.61 6.07 Intr - 180940 180909 32 1 2 101 119 47 0.999 6.03 6.06 Intr - 181384 181244 141 1 0 72 46 153 0.965 10.05 6.05 Intr - 181600 181530 71 2 2 116 95 53 0.863 7.70 6.04 Intr - 189025 188931 95 0 2 116 110 104 0.999 15.01 6.03 Intr - 189945 189900 46 1 1 114 68 82 0.999 6.27 6.02 Intr - 190270 190143 128 0 2 82 65 177 0.981 15.12 6.01 Init - 200820 200723 98 0 2 101 81 150 0.998 13.40 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 175737 175673 65 1 2 157 44 32 0.888 3.75 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815576f:29380263_29590700|GENSCAN_predicted_peptide_1|237_aa XPNSSRRPGSVRLGTKMSAASTSRSPGASGLPAARSPAAVTCRAECDRVAGKWEESMEGG VGIWLARGVSHIEQGKFPTQSSKLHLSELSVLWLIRSTLGSWWYEAGPIEDVQASAHGGV EENMTSDIPRSTSPKAPCGIPQQHQCTDCHYVLLDLVEDLSEYPSVHLEDLMTPEMAKER REDYLYRVCRAMLFHWVQERPLLESLWTWILSSWSYPQPHTVTGPYADAQEVTLNVW >gi568815576f:29380263_29590700|GENSCAN_predicted_CDS_1|714_bp ngtcccaatagctcccggcgccccggctcggttcggcttggcaccaaaatgtccgcggcc tccacctctcgctctcccggtgcgtccgggctgccggcggctcggagccccgcggctgtc acctgccgggcggaatgtgacagggtggctgggaagtgggaagaatccatggaagggggg gttggcatctggcttgcccgaggggtctcccacatcgagcagggcaaattccccacgcaa agcagcaagctgcacctgtcagagctctcagtgctgtggctcatccgctctaccctgggc agctggtggtacgaagctggtcccattgaagatgtgcaggcgtctgcacacggcggtgtg gaggagaatatgacatcagatattccccggtccacatcccccaaggctccttgtgggatt cctcagcagcaccaatgcactgactgtcactatgttctcctagatttggtcgaagatctc agtgaatacccatctgtccatcttgaagacctcatgacaccggagatggcaaaggagaga cgcgaagattacctctacagggtgtgcagggccatgctcttccactgggtgcaagagcgc cccctgctggaatccctctggacctggatattgtcctcatggtcatatccccagccccac acagtgactggcccttatgcagatgcccaggaagtaaccttaaatgtatggtag >gi568815576f:29380263_29590700|GENSCAN_predicted_peptide_2|88_aa MTDSKYFTTTKKGEIFELKAELNSDKKEKKKEAVKKVIASMTVGKDVRHLPRCNASSEQC MAGPRRGSVQWLNTGKELALGVQISGIR >gi568815576f:29380263_29590700|GENSCAN_predicted_CDS_2|267_bp atgactgactcaaaatatttcaccacgaccaagaaaggggagatcttcgagctgaaggca gagctcaacagtgacaagaaggagaagaagaaggaggcagtgaagaaagtgattgcatcg atgaccgtgggcaaagatgtcaggcatttgccccggtgcaatgcctcgtcagagcagtgc atggcaggcccccgcagaggatcagtgcagtggctgaacaccgggaaggaactggcgctt ggagtccagatatctggaatacggtag >gi568815576f:29380263_29590700|GENSCAN_predicted_peptide_3|274_aa MAALFQEASSCPVCSDYLEKPMSLECGCAVCFKCINSLQKEPHGEDLLCCCCSMVSQKNK IRPSWQLERLASHIKELEPKLKKILQMNPRMRKFQVDMTLDADTANNFLLISDDLRSVRS GCITQNRQDLAERFDVSICILGSPRFTCGRHYWEVDVGTSTEWDLGVCRESVHRKGRIHL TTERGFWTHENCLPNESVNGRAEEGALQEGTGYIVLFLCLSNIQKEPGTPPTGFFATSLP IFLAKAMSLPVEPQPDAPPAYDPLKSLDKVQSPL >gi568815576f:29380263_29590700|GENSCAN_predicted_CDS_3|825_bp atggctgcactcttccaagaagcaagcagctgtcccgtctgctcagactatctagagaaa ccaatgtccctggagtgtggatgcgctgtctgcttcaagtgcatcaattcactgcagaag gagccccatggggaggatctactttgctgttgctgttccatggtctctcagaagaacaaa atcaggcccagttggcagctagagaggctggcttcccacatcaaggaactggagcccaag ctgaagaagattctgcagatgaacccaaggatgcggaagttccaagtggatatgaccttg gatgccgacacagccaacaacttcctcctcatttctgacgacctcaggagcgtccgaagt gggtgcatcacacagaatcggcaagaccttgccgagagatttgacgtgtccatttgcatc ctgggctcccctcgctttacctgtggccgccactactgggaggtggacgtgggaacaagc acagaatgggacctgggagtctgcagagaatctgttcaccgcaaagggaggatccatctg accacagagcgtggattctggactcatgagaattgtttgccaaatgaatccgtgaatggt cgtgcagaagaaggtgcgctccaagagggcacaggctatattgttttattcctgtgtctc agcaatatccaaaaagagccaggcacacctccaacgggcttctttgccaccagcctcccc atcttcctggccaaagcaatgagccttccagtagagccccaaccagatgcccctcctgct tacgacccgctgaaatccctggataaagtgcaaagccctctctga >gi568815576f:29380263_29590700|GENSCAN_predicted_peptide_4|63_aa MRRPSSTPSYNSEEEPGSARSNLSQYSIVGRYDEGSHDSQGYGYLPAAPGDATDATPRRP RRG >gi568815576f:29380263_29590700|GENSCAN_predicted_CDS_4|192_bp atgcggagaccctcctccactccttcctacaactctgaagaagaacctggttctgcgagg tcaaacctttctcagtacagtatagtaggccgttacgatgagggaagccacgacagccaa ggctacggctaccttcctgcagcccctggggatgccactgatgcgacgccgcggcggcca aggcggggctga >gi568815576f:29380263_29590700|GENSCAN_predicted_peptide_5|1020_aa MMSFGGADALLGAPFAPLHGGGSLHYALARKGGAGGTRSAAGSSSGFHSWTRTSVSSVSA SPSRFRGAGAASSTDSLDTLSNGPEGCMVAVATSRSEKEQLQALNDRFAGYIDKVRQLEA HNRSLEGEAAALRQQQAGRSAMGELYEREVREMRGAVLRLGAARGQLRLEQEHLLEDIAH VRQRLDDEARQREEAEAAARALARFAQEAEAARVDLQKKAQALQEECGYLRRHHQEEVGE LLGQIQGSGAAQAQMQAETRDALKCDVTSALREIRAQLEGHAVQSTLQSEEWFRVRLDRL SEAAKVNTDAMRSAQEEITEYRRQLQARTTELEALKSTKDSLERQRSELEDRHQADIASY QEAIQQLDAELRNTKWEMAAQLREYQDLLNVKMALDIEIAAYRKLLEGEECRIGFGPIPF SLPEGLPKIPSVSTHIKVKSEEKIKVVEKSEKETVIVEEQTEETQVTEEVTEEEEKEAKE EEGKEEEGGEEEEAEGGEEETKSPPAEEAASPEKEAKSPVKEEAKSPAEAKSPEKEEAKS PAEVKSPEKAKSPAKEEAKSPPEAKSPEKEEAKSPAEVKSPEKAKSPAKEEAKSPAEAKS PEKAKSPVKEEAKSPAEAKSPVKEEAKSPAEVKSPEKAKSPTKEEAKSPEKAKSPEKEEA KSPEKAKSPVKAEAKSPEKAKSPVKAEAKSPEKAKSPVKEEAKSPEKAKSPVKEEAKSPE KAKSPVKEEAKTPEKAKSPVKEEAKSPEKAKSPEKAKTLDVKSPEAKTPAKEEARSPADK FPEKAKSPVKEEVKSPEKAKSPLKEDAKAPEKEIPKKEEVKSPVKEEEKPQEVKVKEPPK KAEEEKAPATPKTEEKKDSKKEEAPKKEAPKPKVEEKKEPAVEKPKESKVEAKKEEAEDK KKVPTPEKEAPAKVEVKEDAKPKEKTEVAKKEPDDAKAKEPSKPAEKKEAAPEKKDTKEE KAKKPEEKPKTEAKAKEDDKTLSKEPSKPKAEKAEKSSSTDQKDSKPPEKATEDKAAKGK >gi568815576f:29380263_29590700|GENSCAN_predicted_CDS_5|3063_bp atgatgagcttcggcggcgcggacgcgctgctgggcgccccgttcgcgccgctgcatggc ggcggcagcctccactacgcgctagcccgaaagggtggcgcaggcgggacgcgctccgcc gctggctcctccagcggcttccactcgtggacacggacgtccgtgagctccgtgtccgcc tcgcccagccgcttccgtggcgcaggcgccgcctcaagcaccgactcgctggacacgctg agcaacgggccggagggctgcatggtggcggtggccacctcacgcagtgagaaggagcag ctgcaggcgctgaacgaccgcttcgccgggtacatcgacaaggtgcggcagctggaggcg cacaaccgcagcctggagggcgaggctgcggcgctgcggcagcagcaggcgggccgctcc gctatgggcgagctgtacgagcgcgaggtccgcgagatgcgcggcgcggtgctgcgcctg ggcgcggcgcgcggtcagctacgcctggagcaggagcacctgctcgaggacatcgcgcac gtgcgccagcgcctagacgacgaggcccggcagcgagaggaggccgaggcggcggcccgc gcgctggcgcgcttcgcgcaggaggccgaggcggcgcgcgtggacctgcagaagaaggcg caggcgctgcaggaggagtgcggctacctgcggcgccaccaccaggaagaggtgggcgag ctgctcggccagatccagggctccggcgccgcgcaggcgcagatgcaggccgagacgcgc gacgccctgaagtgcgacgtgacgtcggcgctgcgcgagattcgcgcgcagcttgaaggc cacgcggtgcagagcacgctgcagtccgaggagtggttccgagtgaggctggaccgactg tcggaggcagccaaggtgaacacagacgctatgcgctcagcgcaggaggagataactgag taccggcgtcagctgcaggccaggaccacagagctggaggcactgaaaagcaccaaggac tcactggagaggcagcgctctgagctggaggaccgtcatcaggccgacattgcctcctac caggaagccattcagcagctggacgctgagctgaggaacaccaagtgggagatggccgcc cagctgcgagaataccaggacctgctcaatgtcaagatggctctggatatagagatagcc gcttacagaaaactcctggaaggtgaagagtgtcggattggctttggcccaattcctttc tcgcttccagaaggactccccaaaattccctctgtgtccactcacataaaggtgaaaagc gaagagaagatcaaagtggtggagaagtctgagaaagaaactgtgattgtggaggaacag acagaggagacccaagtgactgaagaagtgactgaagaagaggagaaagaggccaaagag gaggagggcaaggaggaagaagggggtgaagaagaggaggcagaagggggagaagaagaa acaaagtctcccccagcagaagaggctgcatccccagagaaggaagccaagtcaccagta aaggaagaggcaaagtcaccggctgaggccaagtccccagagaaggaggaagcaaaatcc ccagccgaagtcaagtcccctgagaaggccaagtctccagcaaaggaagaggcaaagtca ccgcctgaggccaagtccccagagaaggaggaagcaaaatctccagctgaggtcaagtcc cccgagaaggccaagtccccagcaaaggaagaggcaaagtcaccggctgaggccaagtct ccagagaaggccaagtccccagtgaaggaagaagcaaagtcaccggctgaggccaagtcc ccagtgaaggaagaagcaaaatctccagctgaggtcaagtccccggaaaaggccaagtct ccaacgaaggaggaagcaaagtcccctgagaaggccaagtccccagagaaggaagaggcc aagtcccctgagaaggccaagtccccagtgaaggcagaagcaaagtcccctgagaaggcc aagtccccagtgaaggcagaagcaaagtcccctgagaaggccaagtccccagtgaaggaa gaagcaaagtcccctgagaaggccaagtccccagtgaaggaagaagcaaagtcccctgag aaggccaagtccccagtgaaggaagaagcaaagacccccgagaaggccaagtccccagtg aaggaagaagctaagtccccagagaaggccaagtccccagagaaggccaagactcttgat gtgaagtctccagaagccaagactccagcgaaggaggaagcaaggtcccctgcagacaaa ttccctgaaaaggccaaaagccctgtcaaggaggaggtcaagtccccagagaaggcgaaa tctcccctgaaggaggatgccaaggcccctgagaaggagatcccaaaaaaggaagaggtg aagtccccagtgaaggaggaggagaagccccaggaggtgaaagtcaaagagcccccaaag aaggcagaggaagagaaagcccctgccacaccaaaaacagaggagaagaaggacagcaag aaagaggaggcacccaagaaggaggctccaaagcccaaggtggaggagaagaaggaacct gctgtcgaaaagcccaaagaatccaaagttgaagccaagaaggaagaggctgaagataag aaaaaagtccccaccccagagaaggaggctcctgccaaggtggaggtgaaggaagacgct aaacccaaagaaaagacagaggtagccaagaaggaaccagatgatgccaaggccaaggaa cccagcaaaccagcagagaagaaggaggcagcaccggagaaaaaagacaccaaggaggag aaggccaagaagcctgaggagaaacccaagacagaggccaaagccaaggaagatgacaag accctctcaaaagagcctagcaagcctaaggcagaaaaggctgaaaaatcctccagcaca gaccaaaaagacagcaagcctccagagaaggccacagaagacaaggccgccaaggggaag taa >gi568815576f:29380263_29590700|GENSCAN_predicted_peptide_6|1038_aa MAPRLCSISVTARRLLGGPGPRAGDVASAAAARFYSKDNEGSWFRSLFVHKVDPRKDAHS TLLSKKETSNLYKIQFHNVKPEYLDAYNSLTEAVLPKLHLDEDYPCSLVGNWNTWYGEQD QAVHLWRFSGGYPALMDCMNKLKNNKEYLEFRRERSQMLLSRRNQLLLEFSFWNEPQPRM GPNIYELRTYKLKPGTMIEWGNNWARAIKYRQENQEAVGGFFSQIGELYVVHHLWAYKDL QSREETRNAAWRKRGWDENVYYTGGTTMSSESSKKRKPKVIRSDGAPAEGKRNRSDTEQL SVHIWFSCSISKTNKPVLDMIIPTQRMYSSMICVSSFPDGQKKEGKYYSEEAEVDLRDPG RDYELYKYTCQELQRLMAEIQDLKSRGGKDVAIEIEERRIQSCVHFMTLKKLNRLAHIRL KKGRDQTHEAKQKVDAYHLQLQNLLYEVMHLQKEITKCLEFKSKHEEIDLVSLEEFYKEA PPDISKAEVTMGDPHQQTLARLDWELEQRKRLAEKYRECLSNKEKILKEIEVKKEYLSSL QPRLNSIMQEYLFMPFDQAHKQYETARHLPPPLYVLFVQATAYGQACGEYGAWVRTRGYG SSSCGRVNQLEAVPAQEISQSCPKPSDKTLSVAIEGSVDEAKALFKPPEDSQDDESDSDA EEEQTTVRTISSCGGIKQLHALGHACSQVPSSLEAEEKRRRPTLGVQLDDKRKEMLKRHP LSVMLDLKCKDDSVLHLTFYYLMNLNIMTVKAKVTTAMELITPISAGDLLSPDSVLSCLY PGDHGKKTPNPANQYQFDKVGILTLSDYVLELGHPYLWVQKLGGLHFPKEQPQQTVIADH SLSASHMETTMKLLKTRVQSRLALHKQFASLEHGIVPVTSDCQYLFPAKVVSRLVKWVTV AHEDYMELHFTKDIVDAGLAGDTNLYYMALIERGTAKLQAAVVLNPGYSSIPPVFQLCLN WKGEKTNSNDDNIRAMEGEVNVCYKELCGPWPSHQLLTNQLQRLCVLLDVYLETESHDDS VEGPKEFPQEKMCLRLFR >gi568815576f:29380263_29590700|GENSCAN_predicted_CDS_6|3117_bp atggctccgcggctgtgcagcatctctgtgacggcgcggcggctgctggggggcccgggg cctcgcgctggggacgttgcgtctgcagctgcggcgcgtttctattccaaggacaatgaa ggcagctggttccgctccctctttgttcacaaagtggatccccggaaggatgcccactcc accctgctgtccaagaaggaaaccagcaacctctataagatccagtttcacaatgtaaag cctgaatacctggatgcctacaacagcctcacggaggctgtgctgcccaagcttcacctg gatgaggactacccatgctcactcgtgggcaactggaacacgtggtatggggagcaggac caggcagtgcacctgtggcgattctcaggtggctacccagccctcatggactgcatgaac aagctcaaaaacaataaggagtacctggagttccgaagggagcggagccagatgctgctg tccaggagaaaccagctgctcctcgagttcagcttctggaatgagccacagcccagaatg ggtcccaacatctatgagctgaggacatacaagctcaagccaggaaccatgatcgagtgg gggaacaactgggctcgggccatcaagtaccggcaggagaaccaggaggcagtgggcggc ttcttctcacagataggagagctctacgtggtgcaccatctctgggcctataaagacctg cagtctcgggaggagactcgaaacgctgcctggaggaagagaggctgggatgaaaatgtc tactatacaggaggaacaaccatgtcatcagaatcgagcaaaaaacggaagcccaaagtg atccgaagcgatggagccccagctgaaggaaagcggaatcgatctgacaccgagcagctg agtgtccacatctggtttagctgcagcatctccaaaaccaacaagcctgtattagacatg attatacctacccagagaatgtattccagtatgatatgtgtctccagttttcctgatggt cagaagaaggaaggtaaatactacagtgaggaggccgaggtggatctgcgggaccctggc agagactatgagttatacaagtacacctgccaggagctacagaggctgatggctgagatc caagacctgaagagcaggggtggcaaggatgtggcaatagaaatagaagaacggaggatc cagagctgtgtgcatttcatgactctaaagaagcttaaccgattagcccacatcaggttg aagaaaggaagagatcagacccacgaggctaagcagaaagtagatgcctatcatctgcag ctccagaacctgttgtatgaggtgatgcacctacagaaggagatcaccaaatgtttggag tttaagtcaaagcatgaagaaattgatctggtcagtttagaggagttttataaggaggct ccaccagatatcagcaaggccgaagtcaccatgggagaccctcaccagcaaacactggca cgtctggactgggagctggagcagcggaaaaggctggcagagaagtaccgagagtgccta tctaacaaggagaagattctcaaggagattgaggtgaagaaggagtacctgagcagcctc cagccccgcctcaacagcatcatgcaggagtacctgtttatgccattcgaccaggctcac aagcagtatgagacagccagacacctgccgcctcccctctatgtcctctttgttcaggcc actgcgtatgggcaggcctgtggtgagtatggggcctgggtgaggacaaggggctatggg agcagcagctgtggccgagtgaatcagttggaagcagtacctgctcaggaaatttctcag tcctgcccgaagccctcagataagacgttatctgtggcaatcgaaggcagtgtggatgaa gccaaggctctgttcaaacctccagaggactcccaagatgacgagagtgactcagatgcc gaggaggagcagactacggtgagaaccatttcctcttgtgggggcatcaagcagctgcat gcactggggcatgcttgttcgcaggtgccgtcctccctagaagcagaagagaagcgccgg agacccacactgggggttcagttggacgacaaacgcaaggagatgctgaagaggcaccca ctgtctgtcatgctcgacctgaagtgcaaagatgacagtgtgcttcacctgactttctac tacctcatgaacctcaacatcatgacagtaaaagccaaagtgacaactgccatggagctg atcacccccatcagtgcaggtgacttgctgtctcctgactcagtcctgagttgcttgtat cctggggatcatggaaagaaaactccgaatccagccaatcagtatcagtttgataaagtt ggcatcctgactttgagcgactatgtacttgagctaggtcacccctatttgtgggtgcag aagctgggtggcctccacttccccaaagagcagccccagcaaacagtgattgctgaccac tcgctgagcgccagccacatggagaccaccatgaaacttctgaagaccagggtgcagtcc cgcctggccctccacaaacagtttgcatccctagaacatggcattgtgccagttaccagt gattgccagtacctcttccctgccaaggttgtctctcgcctggtgaaatgggtgacagtt gcccatgaggattacatggagctgcacttcaccaaagacattgtggatgcgggactggct ggggacaccaatctctactacatggcgctcatcgaaaggggcacagccaaactgcaggcc gctgtggtgttgaaccctggctactcctccatcccacctgttttccagctctgtttgaac tggaaaggggagaaaaccaacagcaacgatgacaacattcgggccatggagggcgaagtc aatgtgtgctacaaggagctgtgtggcccttggcccagccaccagctgttgaccaaccag ctgcagcggctgtgtgtgctgctggatgtttacctggagaccgagagccatgacgacagt gtggaggggcccaaggaatttccccaggagaagatgtgtctgcggctcttcaggtga