Result of GENSCAN for
pF1KE2021
GENSCAN 1.0 Date run: 7-Nov-116 Time: 16:07:32 Sequence gi568815586r:110274147_110503729 : 229583 bp : 44.81% 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 + 7644 7761 118 2 1 98 90 210 0.988 22.56 1.02 Intr + 8567 8649 83 0 2 110 78 53 0.934 5.86 1.03 Intr + 17874 17978 105 2 0 103 115 42 0.996 8.81 1.04 Intr + 22453 22591 139 0 1 94 105 241 0.999 26.44 1.05 Intr + 48846 48926 81 1 0 66 99 31 0.490 1.61 1.06 Intr + 52244 52329 86 0 2 46 84 90 0.949 3.94 1.07 Intr + 53407 53871 465 0 0 89 90 356 0.990 29.22 1.08 Intr + 58451 58539 89 1 2 113 65 40 0.993 2.97 1.09 Intr + 59035 59137 103 1 1 79 107 48 0.991 5.98 1.10 Intr + 59866 59997 132 0 0 59 70 69 0.888 3.04 1.11 Intr + 65357 65575 219 1 0 37 55 163 0.845 6.40 1.12 Intr + 66513 66848 336 2 0 43 89 480 0.910 39.32 1.13 Intr + 68082 68302 221 2 2 120 82 363 0.999 36.00 1.14 Intr + 69086 69288 203 2 2 25 68 166 0.995 7.23 1.15 Intr + 70740 70825 86 1 2 69 38 68 0.907 -0.56 1.16 Intr + 71103 71236 134 2 2 42 92 99 0.599 5.14 1.17 Intr + 71855 71972 118 2 1 99 100 115 0.990 14.27 1.18 Intr + 72055 72270 216 0 0 71 18 288 0.226 18.80 1.19 Intr + 75223 75477 255 0 0 77 64 62 0.196 0.34 1.20 Intr + 76146 76186 41 2 2 124 73 38 0.189 2.92 1.21 Term + 80688 80895 208 0 1 27 39 154 0.147 1.21 1.22 PlyA + 80939 80944 6 1.05 2.35 PlyA - 85707 85702 6 1.05 2.34 Term - 96277 96078 200 2 2 -22 37 168 0.508 -1.74 2.33 Intr - 97010 96786 225 0 0 112 71 80 0.601 6.66 2.32 Intr - 98051 97933 119 1 2 76 70 25 0.166 -0.39 2.31 Intr - 100187 100002 186 1 0 110 45 316 0.298 28.30 2.30 Intr - 102070 101920 151 2 1 107 102 103 0.999 12.82 2.29 Intr - 103471 103247 225 2 0 105 83 101 0.959 9.26 2.28 Intr - 107802 107606 197 2 2 108 116 41 0.989 7.96 2.27 Intr - 108814 108697 118 2 1 124 51 94 0.566 8.82 2.26 Intr - 112323 112181 143 2 2 -2 115 69 0.917 0.60 2.25 Intr - 113746 113593 154 2 1 87 85 56 0.659 4.33 2.24 Intr - 114477 114366 112 0 1 66 48 70 0.729 0.75 2.23 Intr - 121074 120955 120 0 0 46 106 52 0.913 3.49 2.22 Intr - 122284 122120 165 1 0 73 91 84 0.547 7.36 2.21 Intr - 127312 127207 106 0 1 57 81 44 0.512 0.82 2.20 Intr - 129674 129381 294 1 0 29 86 234 0.587 13.42 2.19 Intr - 131462 131330 133 0 1 84 74 40 0.625 1.90 2.18 Intr - 131825 131715 111 0 0 79 91 34 0.677 3.15 2.17 Intr - 134389 134308 82 1 1 75 115 66 0.944 7.21 2.16 Intr - 162058 161964 95 2 2 60 116 30 0.906 2.68 2.15 Intr - 162537 162411 127 0 1 77 95 41 0.980 3.95 2.14 Intr - 163006 162938 69 1 0 120 86 -20 0.562 0.38 2.13 Intr - 166242 166166 77 1 2 77 94 140 0.995 12.73 2.12 Intr - 171405 171306 100 0 1 77 89 21 0.518 0.78 2.11 Intr - 179725 179597 129 1 0 38 86 139 0.995 9.59 2.10 Intr - 181536 181440 97 2 1 70 107 61 0.997 6.21 2.09 Intr - 181784 181669 116 2 2 96 81 104 0.991 9.75 2.08 Intr - 183488 183364 125 0 2 47 47 74 0.890 -0.50 2.07 Intr - 185716 185549 168 2 0 76 68 210 0.929 17.72 2.06 Intr - 191068 190960 109 1 1 83 119 163 0.619 18.76 2.05 Intr - 194841 194581 261 0 0 58 52 225 0.455 13.58 2.04 Intr - 217976 217889 88 1 1 104 9 66 0.008 0.27 2.03 Intr - 219085 218850 236 1 2 60 92 121 0.916 6.19 2.02 Intr - 222057 221866 192 0 0 23 49 151 0.181 4.39 2.01 Init - 228202 228143 60 1 0 81 49 86 0.107 5.48 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 154695 154851 157 2 1 80 53 130 0.805 8.85 S.002 Term - 161071 161009 63 1 0 72 49 42 0.834 -3.41 S.003 Init - 186234 186207 28 0 1 34 89 1 0.855 -5.44 S.004 Sngl + 186842 187090 249 1 0 75 41 356 0.997 24.68 S.005 Term - 190393 190383 11 2 2 108 40 12 0.925 -3.24 S.006 Intr + 212179 212280 102 0 0 95 32 101 0.837 5.57 S.007 Term + 212388 212558 171 2 0 58 54 93 0.826 0.73 S.008 Term - 217976 217859 118 1 1 104 42 71 0.966 2.11 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815586r:110274147_110503729|GENSCAN_predicted_peptide_1|1145_aa MENAHTKTVEEVLGHFGVNESTGLSLEQVKKLKERWGSNGKTLLELVIEQFEDLLVRILL LAACISFVLAWFEEGEETITAFVEPFVILLILVANAIVGVWQERNAENAIEALKEYEPEM GKVYRQDRKSVQRIKAKDIVPGDIVEIAVGDKVPADIRLTSIKSTTLRVDQSILTGESVS VIKHTDPVPDPRAVNQDKKNMLFSGTNIAAGKAMGVVVATGVNTEIGKIRDEMVATEQER TPLQQKLDEFGEQLSKVISLICIAVWIINIGHFNDPVHGGSWIRGAIYYFKIAVALAVAA IPEGLPAVITTCLALGTRRMAKKNAIVRSLPSVETLGCTSVICSDKTGTLTTNQMSVCRM FILDRVEGDTCSLNEFTITGSTYAPIGEVHKDDKPVNCHQYDGLVELATICALCNDSALD YNEAKGVYEKVGEATETALTCLVEKMNVFDTELKGLSKIERANACNSGAPEGVIDRCTHI RVGSTKVPMTSGVKQKIMSVIREWGSGSDTLRCLALATHDNPLRREEMHLEDSANFIKYE TNLTFVGCVGMLDPPRIEVASSVKLCRQAGIRVIMITGDNKGTAVAICRRIGIFGQDEDV TSKAFTGREFDELNPSAQRDACLNARCFARVEPSHKSKIVEFLQSFDEITAMTGDGVNDA PALKKAEIGIAMGSGTAVAKTASEMVLADDNFSTIVAAVEEGRAIYNNMKQFIRYLISSN VGEVVCIFLTAALGFPEALIPVQLLWVNLVTDGLPATALGFNPPDLDIMNKPPRNPKEPL ISGWLFFRYLAIGCYVGAATVGAAAWWFIAADGGPRVSFYQLSHFLQCKEDNPDFEGVDC AIFESPYPMTMALSVLVTIEMCNALNSLSENQSLLRMPPWENIWLVGSICLSMSLHFLIL YVEPLPLIFQITPLNVTQWLMVLKISLPVILMDETLKFVARNYLEPGKECVQPATKSCSF SACTDGISWPFVLLIMPLVAEGPAISVACCHPVPPLASLSFAQKTNNHTYPNWDTTLQNA DDPFWRKLSLELSELPGKQGIWPTSLTTAAPTSPRTGASALTEQYWSNRFLNHFAEIKKG LLGEMADSRDGTENVQYVPEEYQSTRKEGLKNSNQRCGYVKGTQEPTEKATTAEECEQQN KAVLD >gi568815586r:110274147_110503729|GENSCAN_predicted_CDS_1|3438_bp atggagaacgcgcacaccaagacggtggaggaggtgctgggccacttcggcgtcaacgag agtacggggctgagcctggaacaggtcaagaagcttaaggagagatggggctccaacgga aaaaccttgctggaacttgtgattgagcagtttgaagacttgctagttaggattttatta ctggcagcatgtatatcttttgttttggcttggtttgaagaaggtgaagaaacaattaca gcctttgtagaaccttttgtaattttactcatattagtagccaatgcaattgtgggtgta tggcaggaaagaaatgctgaaaatgccatcgaagcccttaaggaatatgagcctgaaatg ggcaaagtgtatcgacaggacagaaagagtgtgcagcggattaaagctaaagacatagtt cctggtgatattgtagaaattgctgttggtgacaaagttcctgctgatataaggttaact tccatcaaatctaccacactaagagttgaccagtcaattctcacaggtgaatctgtctct gtcatcaagcacactgatcccgtccctgacccacgagctgtcaaccaagataaaaagaac atgctgttttctggtacaaacattgctgctgggaaagctatgggagtggtggtagcaact ggagttaacaccgaaattggcaagatccgggatgaaatggtggcaacagaacaggagaga acaccccttcagcaaaaactagatgaatttggggaacagctttccaaagtcatctccctt atttgcattgcagtctggatcataaatattgggcacttcaatgacccggttcatggaggg tcctggatcagaggtgctatttactactttaaaattgcagtggccctggctgtagcagcc attcctgaaggtctgcctgcagtcatcaccacctgcctggctcttggaactcgcagaatg gcaaagaaaaatgccattgttcgaagcctcccgtctgtggaaacccttggttgtacttct gttatctgctcagacaagactggtacacttacaacaaaccagatgtcagtctgcaggatg ttcattctggacagagtggaaggtgatacttgttcccttaatgagtttaccataactgga tcaacttatgcacctattggagaagtgcataaagatgataaaccagtgaattgtcaccag tatgatggtctggtagaattagcaacaatttgtgctctttgtaatgactctgctttggat tacaatgaggcaaagggtgtgtatgaaaaagttggagaagctacagagactgctctcact tgcctagtagagaagatgaatgtatttgataccgaattgaagggtctttctaaaatagaa cgtgcaaatgcctgcaactcaggtgctcctgaaggtgtcattgacaggtgcacccacatt cgagttggaagtactaaggttcctatgacctctggagtcaaacagaagatcatgtctgtc attcgagagtggggtagtggcagcgacacactgcgatgcctggccctggccactcatgac aacccactgagaagagaagaaatgcaccttgaggactctgccaactttattaaatatgag accaatctgaccttcgttggctgcgtgggcatgctggatcctccgagaatcgaggtggcc tcctccgtgaagctgtgccggcaagcaggcatccgggtcatcatgatcactggggacaac aagggcactgctgtggccatctgtcgccgcatcggcatcttcgggcaggatgaggacgtg acgtcaaaagctttcacaggccgggagtttgatgaactcaacccctccgcccagcgagac gcctgcctgaacgcccgctgttttgctcgagttgaaccctcccacaagtctaaaatcgta gaatttcttcagtcttttgatgagattacagctatgactggcgatggcgtgaacgatgct cctgctctgaagaaagccgagattggcattgctatgggctctggcactgcggtggctaaa accgcctctgagatggtcctggcggatgacaacttctccaccattgtggctgccgttgag gaggggcgggcaatctacaacaacatgaaacagttcatccgctacctcatctcgtccaac gtcggggaagttgtctgtattttcctgacagcagcccttggatttcccgaggctttgatt cctgttcagctgctctgggtcaatctggtgacagatggcctgcctgccactgcactgggg ttcaaccctcctgatctggacatcatgaataaacctccccggaacccaaaggaaccattg atcagcgggtggctctttttccgttacttggctattggctgttacgtcggcgctgctacc gtgggtgctgctgcatggtggttcattgctgctgacggtggtccaagagtgtccttctac cagctgagtcatttcctacagtgtaaagaggacaacccggactttgaaggcgtggattgt gcaatctttgaatccccatacccgatgacaatggcgctctctgttctagtaactatagaa atgtgtaacgccctcaacagcttgtccgaaaaccagtccttgctgaggatgcccccctgg gagaacatctggctcgtgggctccatctgcctgtccatgtcactccacttcctgatcctc tatgtcgaacccttgccactcatcttccagatcacaccgctgaacgtgacccagtggctg atggtgctgaaaatctccttgcccgtgattctcatggatgagacgctcaagtttgtggcc cgcaactacctggaacctggtaaagagtgtgtgcagcctgccaccaaatcctgctcgttc tcggcatgcaccgatgggatttcctggccgtttgtgctgctcataatgcccctggtggct gaaggcccagccatcagtgtcgcttgttgccaccccgtgcctcccttggcctctctgagc tttgcccagaagaccaacaatcatacataccctaactgggacaccactctgcagaatgca gatgatccattctggaggaagctgtcccttgagctcagtgagctcccaggcaagcagggc atctggccgacttccctcacaacagctgctcccacatcccctcggactggagcttcagcc ctgactgagcaatactggagtaaccgcttcctaaaccattttgcagaaattaaaaaaggg ctccttggagaaatggctgattctagagatgggacagaaaacgtacagtacgtgcctgaa gaataccaaagcaccagaaaggaagggctcaaaaacagcaatcaaagatgtggttatgtg aaaggaacacaggagccaactgaaaaagccacaacagccgaagaatgtgagcaacaaaat aaagcagtattggactag >gi568815586r:110274147_110503729|GENSCAN_predicted_peptide_2|1629_aa MAAIRPKKQARKARLSSTAQLVLVLGDLHIPHRCNSLPAKFKKLLVPGKIQHILCTGNLC TKESYDYLKTLAGDVHIVRGDFDENLNYPEQKVVTVGQFKIGLIHGHQVIPWGDMASLAL LQRQFDVDILISGHTHKFEAFEHENKFYINPGSATGAYNALETNIIPSFVLMDIQASTVV TYVYQLIGDDVKRAALQKSYAPSSRTPDPGRASPRRRDREPCAGAAVPASLPRQHACVRL LVFRRGGSDAGFSPLRSRSDTARTASGERGGQIRDPGVTSTYCATMVQHCEALNRSVQVV NLDPAAEHFNYSVMADIRELIEVDDVMEDDSLRFGPNGGLVFCMEYFANNFDWLENCLGH VEDDYILFDCPGQIELYTHLPVMKQLVQQLEQWEFRVCGVFLVDSQFMVESFKFISGILA ALSAMISLEIPQVNIMTKMDLLSKKAKKEIEKFLDPDMYSLLEDSTSDLRSKKFKKLTKA ICGLIDDYSMVRFLPYDQSDEESMNIVLQHIDFAIQYGEDLEFKEPKAYHSSLMDPDTKL IGNMALLPIRSQFKGPAPRETKDTDIVDEAIYYFKANVFFKNYEIKNEADRTLIYITLYI SECLKKLQKCNSKSQGEKEMYTLGITNFPIPGEPGFPLNAIYAKPANKQEDEVMRAYLQQ LRQETGLRLCEKVFDPQNDKPSKWLKTDTARSPRKPTGPSQTLWVTLTVEGKVEWTNGLL KTHLTKLSLQLKKDSVKDRAPKLTNQAGSHTPPPIPLEAALKNIAHYLSIPPPKIFAAAT LYDYFVLFFLLTTTTGAGTRVSFYSGTSVVTSCLGVVPRVDPMDPGDAAILESSLRILYR LFESVLPPLPAALQSRMNVIDHVRDMAAAGLHSNVRLLSSLLLTMSNNNPTLGYSHFSTL RITHQLKAQWLCAISTHMLIECVEEKYQLLVYHADSLFHDKEYRNAVSKYTMALQQKKAL SKTSKVRPSTGNSASTPQSQCLPSEIEVKYKMAECYTMLKQDKDAIAILDGIPSRQRTPK INMMLANLYKKAGQERPSVTSYKEVLRQCPLALDAILGLLSLSVKGAEVASMTMNVIQTV PNLDWLSVWIKAYAFVHTGDNSRAISTICSLEKKSLLRDNVDLLGSLADLYFRAGDNKNS VLKFEQAQMLDPYLIKGMDVYGYLLAREGRLEDVENLGCRLFNISDQHAEPWVVSGCHSF YSKRYSRALYLGAKAIQLNSNSVQALLLKGAALRNMGRVQEAIIHFREAIRLAPCRLDCY EGLIECYLASNSIREAMVMANNVYKTLGANAQTLTLLATVCLEDPVTQEKAKTLLDKALT QRPDYIKAVVKKAELLSREQKYEDGIALLRNALANQSDCVLHRILGDFLVAVNEYQEAMD QYSIALSLDPNDQKSLEGMQKMEKEESPTDATQEEDVDDMEGSGEEGDLEGSDSEAAQWA DQEQWFGMHPAESPCALQAPAAQHLLGRILILCSSSPRVTARLEEAAEGVPWKSIEKPAR GELEVPNSCRPDPRGPLGVNSAAVRGWEEPASKGLTCGFLRSQPYTGLPVAGQGLRGAAS QSLGGTTTVENSLAIQKFKQYYYPRIQCSTSGCTPEEVKAGTPKDCTSMSTQHCPQQQKV ETTHVSLDE >gi568815586r:110274147_110503729|GENSCAN_predicted_CDS_2|4890_bp atggctgccatccgccctaaaaagcaggctcggaaggcgcgcctcagctcgacggcccag ttggtgttggtattaggagatctgcacatcccacaccggtgcaacagtttgccagctaaa ttcaaaaaactcctggtgccaggaaaaattcagcacattctctgcacaggaaacctttgc accaaagagagttatgactatctcaagactctggctggtgatgttcatattgtgagagga gacttcgatgagaatctgaattatccagaacagaaagttgtgactgttggacagttcaaa attggtctgatccatggacatcaagttattccatggggagatatggccagcttagccctg ttgcagaggcaatttgatgtggacattcttatctcgggacacacacacaaatttgaagca tttgagcatgaaaataaattctacattaatccaggttctgccactggggcatataatgcc ttggaaacaaacattattccatcatttgtgttgatggatatccaggcttctacagtggtc acctatgtgtatcagctaattggagatgatgtgaaacgggcggctctgcagaagagctac gctccgtccagtcggaccccggaccctggccgggcatctccgcggcgccgagaccgcgag ccgtgtgcgggagcagctgtcccagcatccctcccccgacagcacgcgtgcgtcaggctg ctggtattccggagaggcggctcggatgctggcttctcgcccctccgaagccgttcggac actgcccgaacagcttcgggagagcggggcgggcagatccgcgaccccggagttacgagc acctactgtgccaccatggtccagcactgtgaagccctcaaccggtctgtccaagttgta aacctggatccagcagcagaacacttcaactactccgtgatggctgacatccgggaactg atcgaggtggatgatgtaatggaggatgattctctgcgattcggtcccaacggaggattg gtattttgcatggagtactttgccaataattttgactggctggagaactgtcttggccat gtagaggacgactatatcctttttgattgtccaggtcagattgagttgtacactcacctg cctgtgatgaaacagctggtccagcagctcgagcagtgggagttccgagtctgtggagtt tttcttgttgattctcagttcatggtggagtcattcaagtttatttctggcatcttggca gccctgagtgccatgatctctctagaaattccgcaagtcaacatcatgacaaaaatggat ctgctgagtaaaaaagcaaaaaaggaaattgagaaatttttagatccagacatgtattct ttattagaagattctacaagtgacttaagaagcaaaaaattcaagaaactgactaaagct atatgtggactgattgatgactacagcatggttcgatttttaccttacgatcagtcagat gaagaaagcatgaacattgtattgcagcatattgattttgccattcaatatggagaagac ctagaatttaaagaaccaaaggcttaccactcttctctcatggatcctgataccaaactc atcggaaacatggcactgttgcctatcagaagtcaattcaaaggacctgcccccagagag acaaaagatacagatattgtggatgaagccatctattacttcaaggccaatgtcttcttc aaaaactatgaaattaagaatgaagctgataggaccttgatatatataactctctacatt tctgaatgtctgaagaaactgcaaaagtgcaattccaaaagccaaggtgagaaagaaatg tatacgctgggaatcactaattttcccattcctggagagcctggttttccacttaacgca atttatgccaaacctgcaaacaaacaggaagatgaagtgatgagagcctatttacaacag ctaaggcaagagactggactgagactttgtgagaaagttttcgaccctcagaatgataaa cccagcaagtggctgaagactgacactgcccgatcacctcggaagcctacaggaccatca cagacgctttgggtaactcttacagtggaaggaaaggtagaatggactaatggtctttta aaaacacacctcaccaagctcagcctccaacttaaaaaggactctgtcaaggatagagcc ccaaaactcaccaaccaagcaggttcccacacaccacccccaatcccacttgaagcagcc ctgaaaaacatcgcccattatctctccataccacccccaaaaattttcgctgccgcaaca ctttacgactatttcgttttattcttcttgttaacgaccacgacaggagcagggactcga gtttctttttattcgggcacttcagtagttacctcttgcttgggggtggtgccgcgtgtg gacccgatggaccccggcgacgccgccattttggagtcttccctaaggatcctctaccgg cttttcgagtcagtgctgccgccgctgcccgcggctttgcagagcaggatgaatgtgata gaccacgtgcgggacatggcggccgcggggctgcactccaacgtgcggctcctcagcagc ttgttacttacaatgagtaataacaacccgactctcgggtactcccacttttctaccctt cgcatcacccaccaattgaaagcgcagtggctgtgcgcaataagcactcacatgcttatt gagtgtgttgaggaaaagtaccagcttttggtgtatcatgcagattctctctttcatgat aaggaatatcggaatgctgtgagtaagtataccatggctttacagcagaagaaagcgcta agtaaaacttcaaaagtgagaccttcaactggaaattctgcatctactccacaaagtcag tgtcttccatctgaaattgaagtgaaatacaaaatggctgaatgttatacaatgctaaaa caagataaagatgccattgctatacttgatgggatcccttcaagacaaagaactcccaaa ataaacatgatgctggcaaacctgtacaagaaggctggtcaggagcgcccttcagtcacc agctataaggaggtgctgaggcagtgcccattagcccttgatgccattctaggcttgttg tccctttctgtaaaaggggcagaggtggcatccatgacaatgaatgtgatccaaaccgtg cctaacttggactggctctctgtgtggatcaaagcgtatgcttttgtgcacactggtgac aactcaagagcaatcagtaccatctgttcactagagaaaaaatccttattgcgagataac gtggacctattgggaagcttggcagatctgtacttcagagctggagacaataaaaactct gtcctcaagtttgaacaggcacagatgttggatccttatctgataaaaggaatggatgta tatggctacctactggcacgagaagggcggctagaggatgttgagaaccttggatgccgc cttttcaatatctctgatcagcatgcagaaccgtgggtggtttctggctgtcacagcttc tatagcaaacgctactcccgggccctctatttaggagccaaggccattcagctgaacagt aatagtgttcaagctctgctacttaagggagcagcacttaggaacatgggcagagtccaa gaagcaataatccactttcgggaggccatacggctcgcaccttgtcgcttagattgttat gaaggtcttatcgaatgttacttagcctccaacagtattcgagaagcaatggtaatggct aacaacgtttacaaaactctgggagcaaatgcacagacccttacccttttagccaccgtt tgtcttgaagacccagtgacacaggagaaagccaaaacattattagataaagccctgacc caaaggccagattacattaaggctgtggtgaaaaaagcagaactacttagcagagaacag aaatatgaagatggaattgctttgctgaggaacgcactggctaatcagagtgactgtgtc ctgcatcggatcctaggagatttccttgtagctgtcaatgagtatcaggaggcaatggac cagtatagtatagcactaagtttggaccccaatgaccagaagtctctagaggggatgcag aagatggagaaggaggagagtcccacggatgccactcaggaggaggatgtggacgacatg gaagggagtggggaagaaggggacctggagggcagcgacagtgaggcggcccagtgggct gaccaggagcagtggttcggcatgcaccctgctgagagcccctgtgctctccaggctcct gcagcccagcacctgctaggacggatcctcattctctgcagctccagccccagggtgaca gccaggttggaagaggcggctgaaggtgttccctggaaaagtattgagaaacctgcgaga ggggagctcgaagttcccaacagctgcaggcctgaccccagagggcccttgggagttaac tctgcagctgtccgtgggtgggaggaaccggcctccaaaggcctcacctgtggcttcctg cgttcccagccctacactggcttacctgtggcaggccagggcctgcgcggagctgcttcc cagagcttaggtggcacaaccactgtggagaacagtctggcgattcagaaattcaaacag tactactaccctaggatccagtgttccacctccgggtgtacacccgaagaagtgaaagct ggaacgccaaaagattgcacgtccatgtccacgcagcactgtccacagcagcaaaaggtg gaaacaacccacgtgtccttagatgagtag