Result of GENSCAN for
pF1KE0922
GENSCAN 1.0 Date run: 5-Nov-116 Time: 07:40:01 Sequence gi568815593r:151001451_151240248 : 238798 bp : 48.16% 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 + 4328 4360 33 2 0 92 107 18 0.428 1.44 1.02 Intr + 4796 4887 92 2 2 72 40 93 0.391 2.54 1.03 Intr + 6946 7019 74 2 2 55 110 30 0.299 1.03 1.04 Intr + 10384 10520 137 0 2 111 93 26 0.291 4.77 1.05 Term + 17320 17368 49 1 1 56 53 33 0.017 -6.62 1.06 PlyA + 17477 17482 6 1.05 2.00 Prom + 18688 18727 40 -4.06 2.01 Init + 19205 19291 87 1 0 112 113 215 0.978 25.04 2.02 Intr + 23890 24006 117 0 0 102 -16 203 0.088 11.96 2.03 Intr + 25467 25567 101 2 2 30 89 37 0.208 -3.09 2.04 Intr + 25982 26081 100 2 1 48 115 91 0.494 7.91 2.05 Term + 26459 26680 222 1 0 80 36 362 0.983 27.12 2.06 PlyA + 29301 29306 6 1.05 3.69 PlyA - 30533 30528 6 1.05 3.68 Term - 31331 31308 24 2 0 71 48 7 0.129 -6.78 3.67 Intr - 32349 32158 192 0 0 49 105 254 0.868 22.89 3.66 Intr - 33617 33552 66 2 0 115 100 72 0.998 10.20 3.65 Intr - 34257 34132 126 0 0 111 110 279 0.981 33.28 3.64 Intr - 35471 35340 132 2 0 93 94 116 0.869 13.54 3.63 Intr - 37775 37647 129 2 0 87 98 270 0.999 28.79 3.62 Intr - 41221 41063 159 1 0 64 15 263 0.975 16.78 3.61 Intr - 41511 41446 66 0 0 110 90 109 0.998 12.40 3.60 Intr - 44500 44411 90 1 0 83 92 124 0.989 12.49 3.59 Intr - 48497 48374 124 1 1 88 91 52 0.973 6.09 3.58 Intr - 50809 50715 95 1 2 142 115 147 0.999 21.56 3.57 Intr - 55507 55316 192 1 0 87 94 283 0.994 28.49 3.56 Intr - 58945 58868 78 1 0 88 101 106 0.988 11.65 3.55 Intr - 60762 60677 86 1 2 106 84 34 0.970 4.34 3.54 Intr - 62297 62163 135 0 0 54 75 171 0.998 12.94 3.53 Intr - 63638 63510 129 0 0 -31 71 170 0.169 4.07 3.52 Intr - 65975 65873 103 2 1 71 52 62 0.182 0.65 3.51 Intr - 71116 70956 161 2 2 70 94 69 0.136 5.41 3.50 Intr - 76251 76148 104 2 2 16 69 130 0.559 3.72 3.49 Intr - 76738 76650 89 1 2 61 100 82 0.810 5.47 3.48 Intr - 79868 79430 439 1 1 56 102 201 0.852 11.82 3.47 Intr - 85714 85635 80 1 2 84 109 -43 0.018 -4.25 3.46 Intr - 93296 93261 36 2 0 111 113 2 0.255 3.46 3.45 Intr - 93645 93455 191 1 2 -7 89 106 0.330 0.50 3.44 Intr - 96870 96826 45 1 0 127 50 26 0.238 1.08 3.43 Intr - 100057 100009 49 1 1 91 65 64 0.404 2.65 3.42 Intr - 102242 102120 123 2 0 67 94 163 0.881 15.58 3.41 Intr - 103853 103795 59 0 2 78 116 66 0.798 7.00 3.40 Intr - 107100 107005 96 1 0 65 21 205 0.799 11.48 3.39 Intr - 108396 108303 94 0 1 52 78 63 0.986 1.24 3.38 Intr - 109194 109177 18 0 0 141 97 23 0.966 5.31 3.37 Intr - 115730 115677 54 2 0 90 110 62 0.889 7.78 3.36 Intr - 116387 116308 80 0 2 105 113 65 0.920 9.97 3.35 Intr - 117940 117850 91 1 1 57 96 203 0.545 17.57 3.34 Intr - 120810 120697 114 0 0 122 77 156 0.936 18.54 3.33 Intr - 121561 121467 95 2 2 25 90 186 0.994 12.18 3.32 Intr - 122917 122836 82 1 1 115 64 134 0.893 12.91 3.31 Intr - 125030 124952 79 1 1 83 55 52 0.856 0.95 3.30 Intr - 126789 126731 59 0 2 101 80 93 0.996 7.48 3.29 Intr - 128079 127957 123 0 0 89 82 247 0.962 24.98 3.28 Intr - 129839 129781 59 0 2 117 100 90 0.483 11.70 3.27 Intr - 131121 131026 96 1 0 92 77 173 0.994 16.58 3.26 Intr - 131737 131644 94 1 1 114 94 61 0.999 8.84 3.25 Intr - 133033 132977 57 1 0 87 97 99 0.964 9.78 3.24 Intr - 134885 134806 80 0 2 58 77 184 0.953 13.57 3.23 Intr - 135871 135781 91 1 1 128 81 160 0.999 18.87 3.22 Intr - 137341 137228 114 1 0 75 103 161 0.998 16.94 3.21 Intr - 137997 137903 95 1 2 87 86 87 0.716 8.08 3.20 Intr - 138793 138703 91 1 1 147 60 172 0.820 19.87 3.19 Intr - 146476 146434 43 0 1 100 110 50 0.445 6.64 3.18 Intr - 172587 172482 106 1 1 104 75 22 0.006 1.77 3.17 Intr - 177744 177630 115 0 1 49 83 37 0.040 -0.68 3.16 Intr - 178650 178504 147 0 0 81 95 14 0.231 1.83 3.15 Intr - 180512 180455 58 1 1 118 78 1 0.169 0.99 3.14 Intr - 181474 181407 68 1 2 79 113 2 0.212 -0.50 3.13 Intr - 182164 182008 157 0 1 83 5 169 0.341 8.11 3.12 Intr - 182991 182894 98 0 2 62 65 110 0.977 4.91 3.11 Intr - 184091 183972 120 2 0 97 14 173 0.855 11.49 3.10 Intr - 184674 184573 102 0 0 77 96 41 0.906 4.17 3.09 Intr - 186009 185936 74 1 2 83 94 24 0.833 1.63 3.08 Intr - 197634 197547 88 0 1 87 116 85 0.988 10.74 3.07 Intr - 200238 200132 107 1 2 98 111 54 0.996 8.63 3.06 Intr - 204025 203950 76 1 1 92 109 54 0.500 6.99 3.05 Intr - 214236 214178 59 1 2 101 42 34 0.008 -1.30 3.04 Intr - 219287 219166 122 1 2 52 80 84 0.034 4.14 3.03 Intr - 221791 221701 91 2 1 110 77 -15 0.051 -1.35 3.02 Intr - 222770 222473 298 2 1 64 98 164 0.063 11.45 3.01 Init - 235828 235823 6 1 0 87 85 10 0.075 0.91 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 63645 63510 136 0 1 56 71 153 0.819 10.70 S.002 Init + 211314 211439 126 2 0 50 70 141 0.837 8.66 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815593r:151001451_151240248|GENSCAN_predicted_peptide_1|128_aa XWDLVWLSDLRRRSLKWQRSQVPGVNKQAVYSQQQSRDSQLEDFSQGPDLNGRSMNKQKV VGEARNQLTRHSHWKLALLPLIWARNPSAPPSLMTASITCAAVLIGCPSPTRLVNTNLKR QQNNMERA >gi568815593r:151001451_151240248|GENSCAN_predicted_CDS_1|387_bp nnctgggacttagtgtggctgagcgacctaaggaggcgatcccttaagtggcagaggagc caggttcctggggttaataagcaggctgtttatagccagcagcagtcacgggacagccag ctggaagactttagccagggccctgacttgaatgggaggagcatgaacaaacagaaagtt gtaggagaagcaagaaaccagcttactcgccactcccactggaagctggccctgctgcca ctgatctgggctaggaatccgtctgcgccaccttccctgatgacagcatccatcacctgt gcagccgtgttaattggctgtccttcccccaccagactggtaaatacgaaccttaaaaga caacagaacaacatggagagggcctga >gi568815593r:151001451_151240248|GENSCAN_predicted_peptide_2|208_aa MARLLQASCLLSLLLAGFVSQSRGQEKSKMDCHGGISGTIYEYGALTIDGEEYIPFKQYA GKYVLFVNEELAPFGLVILGFPCNQFGKQEPGENSEILPTLKYVRPGGGFVPNFQLFEKG DVNGEKEQKFYTFLKNSCPPTSELLGTSDRLFWEPMKVHDIRWNFEKFLVGPDGIPIMRW HHRTTVSNVKMDILSYMRRQAALGVKRK >gi568815593r:151001451_151240248|GENSCAN_predicted_CDS_2|627_bp atggcccggctgctgcaggcgtcctgcctgctttccctgctcctggccggcttcgtctcg cagagccggggacaagagaagtcgaagatggactgccatggtggcataagtggcaccatt tacgagtacggagccctcaccattgatggggaggagtacatccccttcaagcagtatgct ggcaaatacgtcctctttgtcaacgaagagcttgcaccattcggtctggtcattctgggc tttccctgcaaccaatttggaaaacaggaaccaggagagaactcagagatccttcctacc ctcaagtatgtccgaccaggtggaggctttgtccctaatttccagctctttgagaaaggg gatgtcaatggagagaaagagcagaaattctacactttcctaaagaactcctgtcctccc acctcggagctcctgggtacatctgaccgcctcttctgggaacccatgaaggttcacgac atccgctggaactttgagaagttcctggtggggccagatggtatacccatcatgcgctgg caccaccggaccacggtcagcaacgtcaagatggacatcctgtcctacatgaggcggcag gcagccctgggggtcaagaggaagtaa >gi568815593r:151001451_151240248|GENSCAN_predicted_peptide_3|2332_aa MKKDSGHLPLVAAPLALRATLRPRSSGIYGGRPPQLRLKTALPGSVSGSRRQPQPAGAER AAGPGSQAPLGAPELGSGVREPPEEDGLQTQQAEQLQTPEKGALELGQGPGDNSQVSCSE TSCPLGSDEPRRVPGMMSELSIPEGCGYSSIVPSRTSEKGLSTAAKAGPQVTGNPALSFT TTLTLSAEEQGMKRQEPEPEQPPRPEPHELGPLNGDTAITVQLCASEEAERHQKDITRIL QQHEEEKKKWAQQVEKERELELRDRLDEQQRVLEGKNEEALQVLRASYEQEKEALTHSFR EASSTQQETIDRLTSQLEAFQAKMKRVEESILSRNYKKHIQDYGSPSQFWEQELESLHFV IEMKNERIHELDRRLILMETVKEKNLILEEKITTLQQENEDLHVRSRNQVVLSRQLSEDL LLTREALEKEVQLRRQLQQEKEELLYRVLGANASPAFPLAPVTPTEDCLKARVGVGGSVD KPRKSEWGRFRSSEVTVFLHFHSQMGEEGCYLLKGEEEEEFYYQKCFGNIKKSKVKLGRL RPLSLLHVPVYFESPRQAPVKFQLFQEVLLQMPQVLQVGNIPFSTAVLQMFEFHGNIQAP SSGPPSPCSAVPGAQRVPNLRESGLPYTWVSGFCCEPETMAKPAQGAKYRGSIHDFPGFD PNQDAEALYTAMKGFGSDKEAILDIITSRSNRQRQEVCQSYKSLYGKDLIADLKYELTGK FERLIVGLMRPPAYCDAKEIKDAISGIGTDEKCLIEILASRTNEQMHQLVAAYKDAYERD LEADIIGDTSGHFQKMLVVLLQGTREEDDVVSEDLVQQDVQDLYEAGELKWGTDEAQFIY ILGNRSKQHLRLVFDEYLKTTGKPIEASIRGELSGDFEKLMLAVVKCIRSTPEYFAERLF KAMKGLGTRDNTLIRIMVSRSELDMLDIREIFRTKYEKSLYSMIKNDTSGEYKKTLLKLS GGDDDAAGQFFPEAAQVAYQMWELSAVARVELKGTVRPANDFNPDADAKALRKAMKGLGT DEDTIIDIITHRSNVQRQQIRQTFKSHFGRDLMTDLKSEISGDLARLILGLMMPPAHYDA KQLKKAMEGAGTDEKALIEILATRTNAEIRAINEAYKEDYHKSLEDALSSDTSGHFRRIL ISLATGHREEGGENLDQAREDAQVAAEILEIADTPSGDKTSLETRFMTILCTRSYPHLRR VFQEFIKMTNYDVEHTIKKEMSGDVRDAFVAIVQSVKNKPLFFADKLYKSMKGAGTDEKT LTRIMVSRSEIDLLNIRREFIEKYDKSLHQAIEGDTSGDFLKALLALCGDETTVTSTERK QLAQAHQRRTTNQAVWRADFEPNSPDLNSDPTWHPILGDKTSSLENQAVNEIKPWKTSEV PGEGFLDTGFEKPECWDLPKKHSEPRSLHRDSRPWCTHPRILLPFPRWPQAFDRGFRRWE CGKAPRRPGTVAPGKSLLEGKAAEGTRDTAGPRNRRQPVFTSLGPTPGGRGPARSARRDW ASGLPVSGDFPRGGAARPGPRHFLVLGPGALPPSRSPRSATGGRSLARAAAPSLDSGLDA ASGALCPQAPRPRVRKELALPSRNFWSNGEMCYECDLKGIVCQASDPVDGGGASAAGPGC SLSTPGEEHMIQCLADLGDHRGERRASGNRTGSSLTVASAGCPRNCFGEEVGEIWIAKVG QLESLGSSEDWEYKDVQSTLLPQEVPSQMGNARTSQTHAVPGGKPRRGPYRIYDPGGSVP SGEASAAFERLVKENSRLKEKMQGIKMLGELLEESQMEATRLRQKAEELVKDNELLPPPS PSLGSFDPLAELTGKDSNVTASPTAPACPSDKPAPVQKPPSSGTSSEFEVVTPEEQNSPE SSSHANAMALGPLPREDGNLMLHLQRLETTLSVCAEEPDHGQLFTHLGRMALEFNRLASK VHKNEQRTSILQTLCEQLRKENEALKAKLDKGLEQRDQAAERLREENLELKKLLMSNGNK EGASGRPGSPKMEGTGKKAVAGQQQASVTAGKVPEVVALGAAEKKVKMLEQQRSELLEVN KQWDQHFRSMKQQYEQKITELRQKLADLQKQVTDLEAEREQKQRDFDRKLLLAKSKIEME EASVTAGPCRTDKEQLTAEAKELRQKVKYLQDQLSPLTRQREYQEKEIQRLNKALEEALS IQTPPSSPPTAFGSPEGAGALLRKQELVTQNELLKQQVKIFEEDFQRERSDRERMNEEKE ELKKQVEKLQAQVTLSNAQLKAFKDEEKAREALRQQKRKAKASGERYHVEPHPEHLCGAY PYAYPPMPAMVPHHGFEDWSQIRYPPPPMAMEHPPPLPNSRLFHLSSATAPP >gi568815593r:151001451_151240248|GENSCAN_predicted_CDS_3|6999_bp atgaagaaggattctggtcacctgcctctggtggcggcgccgctggccctgcgggctaca ctgaggccccgctcttcgggtatttacggcgggcggccgccccagctcaggctcaagaca gcgcttccaggttcagtttcagggtctcgccggcagccccagccggcgggcgcggagcgg gcagcggggcccggatcgcaggctcctctgggggccccggagttgggaagcggcgtccgg gagcccccggaggaggatgggctgcagacacagcaggctgagcagctgcaaacccccgaa aaaggggccttggagctgggtcagggcccaggggacaattctcaggtttcttgcagtgag accagctgccccttggggtctgacgagcccagaagagtaccaggaatgatgtctgaactc tccattcccgaaggctgtggctatagctccatagttccaagcaggacctctgagaagggg ctcagcacagctgccaaagctgggcctcaggtgacaggcaatcccgccctctcttttaca accacccttacactgtctgctgaagaacaggggatgaagcgccaagaaccagaaccagaa cagccacccagaccagagccccatgaattaggtcccctcaatggggacacagctataact gtccagctctgtgcatcagaggaggctgagcggcaccagaaggatataaccagaattctc cagcaacatgaggaggaaaagaagaaatgggcacaacaggtggagaaggaaagggagcta gagcttcgagacagactggatgagcagcaaagggtcctggaaggaaagaatgaagaggcc ctgcaagtcctccgggcctcatatgaacaggagaaagaagcgcttacccactctttccgg gaggccagttctacccagcaggagaccatagacagactgacctcacagctggaggctttc caggccaaaatgaagagggtggaggagtccattctgagccgaaactataagaaacatatc caggattatgggagccccagccagttctgggagcaggagctggagagcttacactttgtc atcgagatgaagaatgagcgtattcatgagctggacaggcggctgatcctcatggaaaca gtgaaagagaaaaatctgatattggaggaaaaaattacgaccctgcaacaggaaaatgag gacctccatgtccgaagccgcaaccaggtggtcctgtcaaggcagctgtcagaagacctg cttctcacgcgtgaggccctggagaaggaggtgcagctgcggcgacagctccagcaggag aaggaggagctgttgtaccgggtccttggggccaatgcctcgcctgccttccctctggcc cctgtcactcccactgaggattgtctgaaggccagagtaggggttggggggagtgtggac aaaccccgcaaatcagagtggggaaggtttagaagttcagaggtgactgtgtttctccat ttccacagccaaatgggggaagagggatgctacctcctcaaaggagaggaagaggaagaa ttttactaccaaaagtgttttggaaacattaagaaaagcaaagtgaaattgggtagactc cgaccactgagtctgttacatgtacctgtgtattttgaatctccaagacaggctcctgtc aaattccagctcttccaggaagtcctcttacaaatgcctcaggtcctccaggttggtaat ataccttttagcacagccgttctccagatgtttgaatttcatgggaatatacaggcaccc tccagtggaccaccttccccctgcagtgctgttccaggggctcaaagagtccccaacctt cgggaatcgggccttccctacacctgggtcagtggattctgctgcgaaccggagaccatg gccaaaccagcacagggtgccaagtaccggggctccatccatgacttcccaggctttgac cccaaccaggatgccgaggctctgtacactgccatgaagggctttggcagtgacaaggag gccatactggacataatcacctcacggagcaacaggcagaggcaggaggtctgccagagc tacaagtccctctacggcaaggacctcattgctgatttaaagtatgaattgacgggcaag tttgaacggttgattgtgggcctgatgaggccacctgcctattgtgatgccaaagaaatt aaagatgccatctcgggcattggcactgatgagaagtgcctcattgagatcttggcttcc cggaccaatgagcagatgcaccagctggtggcagcatacaaagatgcctacgagcgggac ctggaggctgacatcatcggcgacacctctggccacttccagaagatgcttgtggtcctg ctccagggaaccagggaggaggatgacgtagtgagcgaggacctggtacaacaggatgtc caggacctatacgaggcaggggaactgaaatggggaacagatgaagcccagttcatttac atcttgggaaatcgcagcaagcagcatcttcggttggtgttcgatgagtatctgaagacc acagggaagccgattgaagccagcatccgaggggagctgtctggggactttgagaagcta atgctggccgtagtgaagtgtatccggagcaccccggaatattttgctgaaaggctcttc aaggctatgaagggcctggggactcgggacaacaccctgatccgcatcatggtctcccgt agtgagttggacatgctcgacattcgggagatcttccggaccaagtatgagaagtccctc tacagcatgatcaagaatgacacctctggcgagtacaagaagactctgctgaagctgtct gggggagatgatgatgctgctggccagttcttcccggaggcagcgcaggtggcctatcag atgtgggaacttagtgcagtggcccgagtagagctgaagggaactgtgcgcccagccaat gacttcaaccctgacgcagatgccaaagcgctgcggaaagccatgaagggactcgggact gacgaagacacaatcatcgatatcatcacgcaccgcagcaatgtccagcggcagcagatc cggcagaccttcaagtctcactttggccgggacttaatgactgacctgaagtctgagatc tctggagacctggcaaggctgattctggggctcatgatgccaccggcccattacgatgcc aagcagttgaagaaggccatggagggagccggcacagatgaaaaggctcttattgaaatc ctggccactcggaccaatgctgaaatccgggccatcaatgaggcctataaggaggactat cacaagtccctggaggatgctctgagctcagacacatctggccacttcaggaggatcctc atttctctggccacggggcatcgtgaggagggaggagaaaacctggaccaggcacgggaa gatgcccaggtggctgctgagatcttggaaatagcagacacacctagtggagacaaaact tccttggagacacgtttcatgacgatcctgtgtacccggagctatccgcacctccggaga gtcttccaggagttcatcaagatgaccaactatgacgtggagcacaccatcaagaaggag atgtctggggatgtcagggatgcatttgtggccattgttcaaagtgtcaagaacaagcct ctcttctttgccgacaaactttacaaatccatgaagggtgctggcacagatgagaagact ctgaccaggatcatggtatcccgcagtgagattgacctgctcaacatccggagggaattc attgagaaatatgacaagtctctccaccaagccattgagggtgacacctccggagacttc ctgaaggccttgctggctctctgtggtgatgaaacaactgtcacttccacagagaggaag caactggcccaggcccatcagaggaggacaaccaaccaggctgtgtggagggcagacttc gagcccaacagccctgacttgaactctgatcctacttggcatcctattctgggagacaag actagctccttggagaaccaggcagtaaatgagatcaagccttggaaaacgagtgaagtc cccggggaaggctttctggatacgggctttgaaaaaccagagtgctgggatttgcccaag aagcacagtgagccgaggagccttcatagggacagccgcccctggtgcacacaccctcgt attctcctgcccttccccaggtggccccaggccttcgacaggggcttccggcgctgggag tgcggcaaggcgccgcgcaggcccgggacggtggccccagggaagtcgctcctagagggg aaggccgccgaagggacgagagacaccgcgggcccccggaaccgcaggcagccggtgttt acctcgctcggtcccaccccaggcggccgcgggcccgcccggagcgcgcggcgcgattgg gcgagtggcctgccagtctccggggactttcccaggggtggggcggcccggccaggcccc cggcacttcctcgtcctcggcccgggtgccctgcccccgtccaggagccctaggagtgct acggggggccggagccttgcccgggccgctgccccgtccctggattcggggctggacgca gcaagcggggcgctgtgtccccaagctccccgtcctcgggtgcgtaaggagctggctttg ccttccaggaacttttggtcaaatggggagatgtgctatgagtgtgacctgaaaggcatt gtgtgccaagcatccgatccagtggatggtggtggtgccagtgccgctggtccgggctgc tccttgagcacccctggtgaagagcacatgattcagtgcttggcagacctgggggaccac agaggggagagaagggccagtggaaacagaactgggagcagcctaactgtagccagtgct ggctgccccaggaattgttttggggaggaagttggtgagatctggattgctaaagttggc cagctggagtccctgggctcctcagaggactgggaatacaaagatgtgcaaagtacgctc ctgcctcaggaagttcccagccagatgggcaatgcccgcaccagtcagacacatgctgta ccaggtggcaagcctcggagaggaccgtaccggatctacgaccctgggggcagcgtgccc tcaggagaggcatccgcagcttttgagcgcctagtgaaggagaattcccggctgaaggaa aaaatgcaagggataaagatgttaggggagcttttggaagagtcccagatggaagcgacc aggctccggcagaaggcagaggagctagtgaaggacaacgagctgctcccaccaccttct ccctccttgggctccttcgaccccctggctgagctcacaggaaaggactcaaatgtcaca gcatctcccacagcccctgcatgccccagtgacaagccagcaccagtccagaagcctcca tccagtggcacctcctctgaatttgaagtggtcactcctgaggagcagaattcaccagag agcagcagccatgccaatgcgatggcgctgggccccctgccccgtgaggacggcaacctg atgctgcacctgcagcgcctggagaccacgctgagtgtgtgtgccgaggagccggaccac ggccagctcttcacccacctgggccgcatggccctggagttcaaccgactggcatccaag gtgcacaagaatgagcagcgcacctccattctgcagaccctgtgtgagcagcttcggaag gagaacgaggctctgaaggccaagttggataagggcctggaacagcgggatcaggctgcc gagaggctgcgggaggaaaatttggagctcaagaagttgttgatgagcaatggcaacaaa gagggtgcgtctgggcggccaggctcaccgaagatggaagggacaggcaagaaggcagtg gctggacagcagcaggctagtgtgacggcaggtaaggtcccagaggtggtggccttgggc gcagccgagaagaaggtgaagatgctggagcagcagcgcagtgagctgctggaagtgaac aagcagtgggaccagcatttccggtccatgaagcagcagtatgagcagaagatcactgag ctgcgtcagaagctggctgatttgcagaagcaggtgactgacctggaggccgagcgggag cagaagcagcgtgactttgaccgcaagctcctcctggccaagtccaagattgaaatggag gaggcaagtgtgactgctggtccctgcagaaccgacaaggagcagctgacagcagaggcc aaggagctgcgccaaaaggtcaagtacctgcaggatcagctgagcccactcacccgacag cgtgagtaccaggaaaaggagatccagcggctcaacaaggccctggaggaagcactgagc atccaaaccccgccatcatctccaccaacagcatttgggagcccagaaggagcaggggcc ctcctaaggaaacaggagctggtcacgcagaatgagttgctgaaacagcaggtgaagatc ttcgaggaggacttccagagggagcgcagtgatcgtgagcgcatgaatgaggagaaggaa gagctgaagaagcaagtggagaagctgcaggcccaggtcaccctgtcaaatgcccagcta aaagcattcaaagatgaggagaaggcaagagaagccctcagacagcagaagaggaaagca aaggcctcaggagagcgttaccatgtggagccccacccagaacatctctgcggggcctac ccctacgcctacccgcccatgccagccatggtgccacaccatggcttcgaggactggtcc cagatccgctacccccctccccccatggccatggagcacccgcccccactccccaactcg cgcctcttccatctgtcctctgccacagccccaccttag