GENSCAN 1.0 Date run: 3-Nov-116 Time: 09:59:33 Sequence gi568815581r:19676352_19967417 : 291066 bp : 44.76% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.64 Intr - 2555 2362 194 0 2 122 49 130 0.271 11.71 1.63 Intr - 3688 3601 88 1 1 108 90 36 0.999 5.34 1.62 Intr - 5110 5016 95 2 2 90 107 108 0.999 12.58 1.61 Intr - 5319 5187 133 0 1 110 71 129 0.976 13.62 1.60 Intr - 26323 26254 70 0 1 113 75 60 0.356 6.38 1.59 Intr - 26816 26741 76 0 1 98 30 39 0.646 -2.33 1.58 Intr - 27827 27719 109 2 1 80 82 95 0.976 7.96 1.57 Intr - 28343 28302 42 2 0 113 75 24 0.735 2.04 1.56 Intr - 29152 29085 68 2 2 86 91 107 0.999 9.42 1.55 Intr - 30410 30297 114 0 0 84 79 114 0.997 10.52 1.54 Intr - 31492 31395 98 0 2 86 75 177 0.982 15.85 1.53 Intr - 32048 31951 98 2 2 36 99 80 0.947 2.71 1.52 Intr - 33881 33711 171 2 0 82 81 27 0.285 1.54 1.51 Intr - 36394 36352 43 0 1 122 94 1 0.972 2.34 1.50 Intr - 37622 37474 149 2 2 66 85 226 0.357 19.13 1.49 Intr - 38985 38765 221 1 2 86 78 241 0.890 20.92 1.48 Intr - 44286 44239 48 1 0 107 66 25 0.012 0.85 1.47 Intr - 47803 47680 124 1 1 18 87 105 0.010 3.56 1.46 Intr - 51969 51817 153 0 0 122 55 10 0.019 1.37 1.45 Intr - 55579 55418 162 1 0 90 31 74 0.016 2.07 1.44 Intr - 62102 61972 131 0 2 132 100 84 0.902 14.41 1.43 Intr - 62777 62645 133 2 1 22 92 183 0.574 12.32 1.42 Intr - 63323 63157 167 0 2 77 98 405 0.999 40.08 1.41 Intr - 64126 63985 142 1 1 106 82 270 0.999 28.13 1.40 Intr - 64859 64742 118 1 1 27 87 197 0.641 13.97 1.39 Intr - 65861 65653 209 2 2 41 97 328 0.992 26.88 1.38 Intr - 66279 66194 86 1 2 66 113 171 0.997 16.94 1.37 Intr - 67112 66881 232 2 1 83 57 545 0.951 48.25 1.36 Intr - 68783 68617 167 0 2 105 42 345 0.899 31.28 1.35 Intr - 79377 79239 139 0 1 -11 74 173 0.801 6.04 1.34 Intr - 79808 79665 144 2 0 74 80 126 0.954 10.88 1.33 Intr - 81952 81786 167 2 2 63 85 31 0.604 -0.02 1.32 Intr - 85637 85572 66 0 0 63 81 138 0.896 9.48 1.31 Intr - 101365 101230 136 1 1 37 101 134 0.938 9.74 1.30 Intr - 104278 104121 158 2 2 68 46 154 0.961 8.93 1.29 Intr - 104753 104635 119 1 2 88 86 119 0.999 11.81 1.28 Intr - 105716 105538 179 2 2 35 47 178 0.952 7.12 1.27 Intr - 107554 107346 209 2 2 104 60 160 0.929 13.60 1.26 Intr - 109693 109586 108 2 0 72 110 34 0.628 4.26 1.25 Intr - 119374 119271 104 0 2 66 82 83 0.976 5.32 1.24 Intr - 119931 119744 188 0 2 53 98 100 0.933 5.99 1.23 Intr - 123224 123144 81 2 0 97 91 38 0.844 4.83 1.22 Intr - 125571 125426 146 1 2 20 106 68 0.404 1.80 1.21 Intr - 132915 132853 63 1 0 88 103 3 0.200 0.49 1.20 Intr - 134087 134027 61 2 1 121 75 17 0.289 2.01 1.19 Intr - 148831 148743 89 2 2 88 100 14 0.099 2.29 1.18 Intr - 170559 170386 174 1 0 79 67 221 0.857 19.01 1.17 Intr - 173054 173018 37 2 1 60 88 19 0.424 -3.06 1.16 Intr - 173423 173391 33 2 0 102 92 5 0.257 0.72 1.15 Intr - 191239 190977 263 2 2 61 99 210 0.102 16.61 1.14 Intr - 197259 197124 136 0 1 85 13 78 0.011 0.14 1.13 Intr - 214216 213617 600 1 0 118 65 240 0.837 17.41 1.12 Intr - 232925 232830 96 2 0 68 116 83 0.776 9.31 1.11 Intr - 233627 233575 53 0 2 86 84 24 0.493 0.43 1.10 Intr - 243767 243685 83 1 2 62 76 50 0.134 0.48 1.09 Intr - 248166 248057 110 0 2 63 102 73 0.175 5.28 1.08 Intr - 260079 259869 211 2 1 74 81 109 0.477 7.72 1.07 Intr - 263498 263362 137 2 2 80 89 133 0.988 11.97 1.06 Intr - 264659 264536 124 1 1 91 88 23 0.970 3.19 1.05 Intr - 265559 265475 85 0 1 72 89 45 0.920 1.88 1.04 Intr - 271154 271056 99 0 0 130 87 75 0.989 11.68 1.03 Intr - 272232 272051 182 2 2 22 38 88 0.349 -3.29 1.02 Intr - 282220 282076 145 2 1 111 25 82 0.495 3.54 1.01 Init - 286570 286489 82 1 1 115 106 24 0.974 8.03 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Intr - 169026 168953 74 1 2 49 101 53 0.809 1.83 S.002 Term - 228879 228739 141 0 0 95 54 69 0.850 2.13 S.003 Term - 259500 259327 174 0 0 16 44 151 0.819 1.26 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815581r:19676352_19967417|GENSCAN_predicted_peptide_1|2816_aa MDSFSSSRTATLKKQPSHMEAAHFGDLGRSCLDYQTQETKSSLSKTLEQVLHDTIVLPYF IQFMELRRMEHLVKFCYVNLCGHDFFFLGLQFLLSESRILGAAVIAAVAALMLPGSRRRE RNKTKQPRGFPPLSLIRIEQDAVNTFTKYISPDAAKPIPITEAMRNDIIARICGEDGQVD PNCFVLAQSIVFSAMEQEHFSEFLRSHHFCKYQIEVLTSGTVYLADILFCESALFYFSEY MEKEDAVNILQFWLAADNFQSQLAAKKGQYDGQEAQNDAMILYDKYFSLQATHPLGFDDV VRLEIESNICREGGPLPNCFTTPLRQAWTTMEKVTQNFKRIKLQEVLLVELIKYKSSVKK ASIKILKNFDEAIIVDAASLDPESLYQRTYAGKMTFGRVSDLGQFIRESEPEPDVRKSKG SMFSQAMKKWVQGNTDEAQEELAWKIAKMIVSDIMQQAQYDQPLEKSTKLLQLCSVFVES PTITIVPGPDFNPNSHIIMDIRTDPHDCISLIHLTVTTFPHISVFPVSHHDHTWFIDGSS TRPNHHSPAKAGYAIVSSTSIIEATALPASTTSQQAKLIALTWALTLAKGLHVNIYTDSK YAFRILHHHAVTWAERNFLTTQESSIIIASLIKTLLKVALLPKEAGVIHCKGHQKASDVI AQGNAYADKTHAHQCPDEEVRAVDNSVLNRIGEPSFFSIPFHSPFGHDLIRQAGTSPVSA PVSRHESPPGPGAAAAPDPPHAGALRARGAAVLIPAPHCAARPSAVCPGGAAMEVVGDFE YSKRDLVGHGAFAVVFRGRHRQELPNSVFLVMEYCNGGDLADYLQAKGTLSEDTIRVFLH QIAAAMRILHSKGIIHRDLKPQNILLSYANRRKSSVSGIRIKIACPVPVPMYSGSVSGSS CGSSPSCRFASPPVICQWGLLADVLQMNSWCVEGPDSNHILLSVSMNLTTLDTSYLQWYE GPTPAPWASSGRDHAPQYQQTQHRQLDEGSPLGLLGLTHLPLWLVPFLSNSVSAAVGILR AMTPGVETPQTTAPFKIPKTQASSNLLALVTRHGPAEEQSKDGNEPRECAHCLLVQGSER QRAEQQSKAVFGRSVSTGKLSDQQGKTPICRHQGSTDSLNTERPMDIGTAASSKAVLFTV GSPPHSAAAPTCTHMFLRTRTTSVGPSNSGGSLCAMSGRVCVGSPPGPGFGSSPPGAEAA PSLRYVPYGASPPSLEGLITFEAPELPEETLMEREHTDTLRHLNVMLMFTECVLDLTAMR GGNPELCTSAVSLYQIQESVVVDQISQLSKDWGRVEQLVLYMKAAQLLAASLHLAKAQIK SGKLSPSTAVKQVVKNLNERYKFCITMCKKLTEKLNRFFSDKQRFIDEINSVTAEKLIYN CAVEMVQSAALDEMFQQTEDIVYRYHKAALLLEGLSRILQDPADIENVHKLEPGLTEAEE EEEEEEEEKEEQGVPRPEMPSSWALYILRVLWAFALWRPLPRMREQSRPFHIFQHLCHVN RKLDIGELVISKESPGPAQDTPQVAFSHEAVKAHGQLVVIQRIAHGVVAVLQQEGQLDQR VPPEAHVIPELLEAIQDGLSQVTPPATRPLAGCGQVVNGIFKGAMSKISEAVKRARAAFS SGRTRPLQFRIQQLEALQRLIQEQEQELVGALAADLHKNEWNAYYEEVVYVLEEIEYMIQ KLPEWAADEPVEKTPQTQQDELYIHSEPLGVVLVIGTWNYPFNLTIQPMVGAIAAGNSVV LKPSELSENMASLLATIIPQYLDKDLYPVINGGVPETTELLKERFDHILYTGSTGVGKII MTAAAKHLTPVTLELGGKSPCYVDKNCDLDVACRRIAWGKFMNSGQTCVAPDYILCDPSI QNQIVEKLKKSLKEFYGEDAKKSRDYGRIISARHFQRVMGLIEGQKVAYGGTGDAATRYI APTILTDVDPQSPVMQEEIFGPVLPIVCVRSLEEAIQFINQREKPLALYMFSSNDKETEA SGWVLVQVIKKMIAETSSGGVAANDVIVHITLHSLPFGGVGNSGMGSYHGKKSFETFSHR RSCLVRPLMNDEGLKVRYPPSPAKSRREDCAHLWVPPAGSRGGDCARGAHLDGSVFGRTC RVMRQEQVNLRMAAATEEEILKTPTGLGLSSFIPKGNRNCLGRRGSHTQSSCPGTGPGLA GQAAAGNREPQGECVQTCGSQRQLHIREGGLEECLANDSLVPKVKAVATLGFCSFGSSFP KEVLDMRVGDLSGHWCGALKAGEACLAGLGCVGTCGPESDLAAVLQFLFQVLTFMIYIVS TVFCGHLGKVELASVTLAVASFGSPNKKHVGVILQRGALVLLLCCLPCWALFLNTQHILL LFRQDPDVSRLTQDYVMIFIPGLPPSASLFDLQLSDACYDWQFCVLDSPTRLSSLSDSVA SMAPGGMFGARELGREEVRVKKITWPQVLSGVVGNCVNGVANYALVSVLNLGVRGSAYAN IISQFAQTVFLLLYIVLKKLHLETWAGWSSQCLQDWGPFFSLAVPSMLMICVEWWAYEIG SFLMGLLSVVDLSAQAVIYEVATVTYMRHSHRLAYAAHVTRIPLGLSIGVCVRVGMALGA ADTVQAKRSAVSGVLSIVGISLVLGTLISILKNQLGHIFTNDEDVIALVSQVLPVYSVFH VFEAICCVYGGVLRGTGKQAFGAAVNAITYYIIGLPLGILLTFVVRMRIMGLWLGMLACV FLATAAFVAYTARLDWKLAAEEAKKHSGRQQQQRAESTATRPGPEKAVLSSVATGSSPGI TLTTYSRSECHVDFFRTPEEAHALSAPTSRLSVKQLVIRRGAALGAASATLMVGLT >gi568815581r:19676352_19967417|GENSCAN_predicted_CDS_1|8448_bp atggactccttttcaagtagcaggacagccacacttaagaagcagccaagccacatggag gccgctcattttggtgacctgggcagatcttgtctggactaccagactcaagagaccaaa tcaagcctttctaagacccttgaacaagtcttgcacgacactattgtcctcccttacttc attcaattcatggaacttcggcgaatggagcatttggtgaaattttgctatgtcaacctc tgtggccacgacttcttcttcttgggactgcagtttctcttgtcagaaagtaggattctt ggagctgctgtcattgctgctgtggctgctctgatgctgcctgggagtcgaaggagagaa aggaacaaaacaaaacaacccaggggatttcctccactctctttgatccgtatagaacaa gatgcagtgaatacttttaccaaatatatatctccagatgctgctaaaccaataccaatt acagaagcaatgagaaatgacatcatagcaaggatttgtggagaagatggacaggtggat cccaactgtttcgttttggcacagtccatagtctttagtgcaatggagcaagagcacttt agtgagtttctgcgaagtcaccatttctgtaaataccagattgaagtgctgaccagtgga actgtttacctggctgacattctcttctgtgagtcagccctcttttatttctctgagtac atggaaaaagaggatgcagtgaatatcttacaattctggttggcagcagataacttccag tctcagcttgctgccaaaaagggccaatatgatggacaggaggcacagaatgatgccatg attttatatgacaagtacttctccctccaagccacacatcctcttggatttgatgatgtt gtacgattagaaattgaatccaatatctgcagggaaggtgggccactccccaactgtttc acaactccattacgtcaggcctggacaaccatggagaaggtaacccagaacttcaaacgt atcaaactacaagaagttttattggtagaactcataaaatataagtccagtgtgaaaaaa gccagtattaaaatactgaaaaattttgatgaagcgataattgtggatgcggcaagtctg gatccagaatctttatatcaacggacatatgccgggaagatgacatttggaagagtcagt gacttggggcaattcatccgagaatctgagcctgaacctgatgtaaggaaatcaaaagga tccatgttctcacaagctatgaagaaatgggtgcaaggaaatactgatgaggcccaggaa gagctagcttggaagattgctaaaatgatagtcagtgacattatgcagcaggctcagtat gatcaaccgttagagaaatctacaaagctccttcagctatgctcagtctttgttgagtct cccacaattacaattgttcctggcccagacttcaatccgaactcccacattattatggat atcagaactgacccccatgactgtatctctctgatccacctgacagtcaccacatttccc catatttccgtctttcctgtttctcaccatgatcacacttggtttattgatggcagttcc accaggcctaatcaccactcaccagcaaaggcaggctatgctatagtatcctccacatct atcattgaggctactgctctgcccgcctccactacctctcagcaagccaaactcattgcc ttaacttgggccctcactcttgcaaagggactacacgtcaatatttatactgactctaaa tatgccttccgtatcctgcaccaccatgctgttacatgggcagaaagaaatttcctcact acacaagagtcctccatcattattgcctccttaataaaaacgcttcttaaagtcgcttta cttccaaaggaagctggagtcattcactgcaagggccatcaaaaggcatcagatgtcatc gctcagggcaacgcttatgctgataagacacatgctcaccagtgcccagatgaggaagta agagctgtggacaacagtgtgctgaacagaattggggaacccagcttcttctcgatcccc tttcatagtccttttggacatgaccttatcagacaggctggaacttccccagtttccgct ccggtctctcggcatgagagtccgcccgggcccggggctgcggctgccccagacccgccg cacgctggcgcgctccgggcccgcggagccgcggtgctgatacctgcgccgcactgcgcc gcccgcccgtccgctgtgtgccccgggggcgcggccatggaggtggtgggtgacttcgag tacagcaagagggatctcgtgggacacggggccttcgccgtggtcttccgggggcggcac cgccaggaattacccaactctgtctttttggtgatggagtattgcaatggtggagacctc gcagattatttgcaagcgaaagggactctcagtgaagacacgatcagagtgtttctgcat cagattgctgctgccatgcgaatcctgcacagcaaaggaatcatccacagagatctcaaa ccacagaacatcttgctgtcctatgccaatcgcagaaaatcaagtgtcagtggtattcgc atcaaaatagcttgcccagttccagtgcccatgtattctggttctgtctctggaagctcc tgtggcagctctccatcttgtcgttttgcttctccaccagtgatatgccagtggggactg ctggcagacgtgcttcaaatgaattcttggtgtgtggagggccctgatagtaaccacatt ctgctctctgtttctatgaatttgactactttagatacctcatatctgcagtggtacgaa ggtccaacaccagccccatgggcttcctccggccgggatcatgctccccagtaccagcag acacagcacagacagttggacgaaggctctccactgggtcttctaggccttactcacctt cccctttggttggtaccattcctgagcaattcagtcagtgctgctgtgggcatcctcagg gccatgactccaggagtagaaactcctcagaccacagctcctttcaaaatccctaaaact caagcatcttccaacctgttagccttggttactcgtcatgggcctgctgaagaacagtcg aaagatgggaatgagccacgggaatgtgcccattgcctcttagtgcaaggaagtgagagg cagcgggccgagcagcagagcaaggcagtgtttggcagatctgtcagtaccgggaagtta tcagatcaacaaggaaagactcctatatgtcgacatcagggcagcacagacagtttaaat acagaacgaccaatggatataggtacagcagcaagttccaaggctgtcctcttcactgta gggtctcctccacacagtgcggcagcccccacttgtacccacatgttccttcgaacaaga acaacctcagtggggcccagcaactccgggggctctctttgtgccatgagtggccgcgtg tgcgtggggtccccgcctggcccaggcttcggctcttcccctccaggagcagaggcagct cccagcctgagatacgtgccttacggtgcttcaccccccagcctagaggggctcatcacc tttgaagcccctgaactgccggaggagacgctgatggagcgggaacacacagacacctta cgccatctgaatgtgatgctgatgttcactgagtgtgtgctggacctgacagccatgagg ggaggaaaccctgagctgtgcacatctgctgtgtccttgtaccagatccaggagagtgtg gtggtggaccagatcagtcagctgagcaaagactgggggcgggtggagcagctggtgttg tacatgaaagcagcacagctgcttgcggcttctctgcatcttgccaaagcccagatcaag tccgggaaactgagcccatccacagctgtgaaacaagttgtcaagaatctgaacgaacga tataaattctgcatcaccatgtgcaagaaacttacagaaaagctgaatcgattcttctct gacaaacagaggtttattgatgaaatcaacagtgtgactgcagagaaactcatctataat tgtgctgtagaaatggttcagtctgcagccctggatgagatgtttcagcagaccgaagat attgtttatcgctatcataaggcagcccttcttttggaaggcctaagtaggattctacag gaccctgcagatattgaaaatgtgcataaattggagcccgggctcactgaggccgaggag gaggaggaggaggaggaggaggagaaggaggagcaaggggtcccaaggcctgaaatgcca tcatcttgggctctgtacatccttcgtgtgctctgggcctttgccctgtggagacctctc ccaaggatgagggagcagagccggcccttccatatcttccagcatctctgccatgtaaac agaaaactagacattggagagctggtaatcagcaaagagagccctggcccagcacaggac acgccccaggtggcgttttcacatgaggcggtcaaagcacatggccagctcgttgtcatc cagcgcattgcacatggtgtggttgcggtgctccagcaggagggccagctggaccagagg gtccctcccgaagcccatgttatccctgagttgctggaggccatccaggacggcttgtct caggtgacaccccctgctaccaggcccctggctggctgtggccaggtggtcaatggcatc ttcaaaggcgccatgagcaagatcagcgaggccgtgaagcgcgcccgcgccgccttcagc tcgggcaggacccgtccgctgcagttccggatccagcagctggaggcgctgcagcgcctg atccaggagcaggagcaggagctggtgggcgcgctggccgcagacctgcacaagaatgaa tggaacgcctactatgaggaggtggtgtacgtcctagaggagatcgagtacatgatccag aagctccctgagtgggccgcggatgagcccgtggagaagacgccccagactcagcaggac gagctctacatccactcggagccactgggcgtggtcctcgtcattggcacctggaactac cccttcaacctcaccatccagcccatggtgggcgccatcgctgcagggaactcagtggtc ctcaagccctcggagctgagtgagaacatggcgagcctgctggctaccatcatcccccag tacctggacaaggatctgtacccagtaatcaatgggggtgtccctgagaccacggagctg ctcaaggagaggttcgaccatatcctgtacacgggcagcacgggggtggggaagatcatc atgacggctgctgccaagcacctgacccctgtcacgctggagctgggagggaagagtccc tgctacgtggacaagaactgtgacctggacgtggcctgccgacgcatcgcctgggggaaa ttcatgaacagtggccagacctgcgtggcccctgactacatcctctgtgacccctcgatc cagaaccaaattgtggagaagctcaagaagtcactgaaagagttctacggggaagatgct aagaaatcccgggactatggaagaatcattagtgcccggcacttccagagggtgatgggc ctgattgagggccagaaggtggcttatgggggcaccggggatgccgccactcgctacata gcccccaccatcctcacggacgtggacccccagtccccggtgatgcaagaggagatcttc gggcctgtgctgcccatcgtgtgcgtgcgcagcctggaggaggccatccagttcatcaac cagcgtgagaagcccctggccctctacatgttctccagcaacgacaaggagactgaggcc agtggctgggtcctggtgcaggtgattaagaagatgattgcagagacatccagtggtggg gtggcggccaacgatgtcatcgtccacatcaccttgcactctctgcccttcgggggcgtg gggaacagcggcatgggatcctaccatggcaagaagagcttcgagactttctctcaccgc cgctcttgcctggtgaggcctctgatgaatgatgaaggcctgaaggtcagataccccccg agcccggccaagagcagaagggaagattgcgcccacctatgggttcctccagcaggcagt cgtggcggggactgcgctcgaggagctcaccttgatgggagcgtcttcggcaggacctgc agggttatgcggcaggaacaagttaacctcagaatggcggcggctacagaggaggaaatt ttgaaaacaccaactgggcttggcctgagctccttcattcctaaaggcaacagaaattgt ttgggcaggagaggcagccacacgcaaagcagctgccctggcacagggccaggccttgca ggacaggcagctgctggcaatcgtgagccccagggtgaatgtgtccagacctgtggctct cagcgccagctgcacatcagagagggaggtttagaagaatgcctggcaaatgattctctg gtgcccaaagtcaaagcagtggctacccttggattttgtagctttgggtcctccttcccc aaagaggtcctcgatatgcgcgtaggtgacctctcggggcactggtgcggggccctcaaa gctggagaggcctgtcttgcagggctcggctgtgtgggcacctgtggccccgagtctgac ctggccgctgtcctccagttcctgttccaggtgctgacttttatgatctacatcgtgagc actgtgttctgcgggcacctgggcaaggtggagctggcatcggtgaccctcgcggtggcc agcttcggcagccccaacaagaagcacgtgggcgtgatcctgcagcggggcgcgctggtc ctgctcctctgctgcctcccttgctgggcgctcttcctcaacacccagcacatcctgctg ctcttccggcaggacccggacgtgtccaggttgacccaggactatgtaatgattttcatt ccaggacttccgcccagtgcttcactgtttgacttgcagcttagtgatgcctgttacgac tggcagttctgtgtgctagacagccctaccaggctcagctcactttctgacagtgtagcc tccatggcaccagggggaatgtttggggcaagggagctgggcagggaagaggtcagggtg aagaagatcacctggccccaagtcctcagtggtgtggtgggcaactgtgtcaacggtgtg gccaactatgccctggtttctgtgctgaacctgggggtcaggggctccgcctatgccaac atcatctcccagtttgcacagaccgtcttcctccttctctacattgtgctgaagaagctg cacctggagacgtgggcaggttggtccagccagtgcctgcaggactggggccccttcttc tccctggctgtccccagcatgctcatgatctgtgttgagtggtgggcctatgagatcggg agcttcctcatggggctgctcagtgtggtggatctctctgcccaggctgtcatctacgag gtggccactgtgacctacatgagacacagccatcgtcttgcttatgcagcccatgtcact cggattcccttggggctcagcatcggggtctgtgtccgagtggggatggctctgggggct gcggatactgtgcaggccaagcgctcggccgtctcgggcgtgctcagcatagttggcatt tccctggtcctgggcaccctgataagcatcctgaaaaatcagctggggcatatttttacc aatgatgaagatgtcattgccctggtgagccaggtcttgccggtttatagtgtctttcac gtgtttgaggccatctgttgtgtctatggcggagttctgagaggaactgggaagcaggcc tttggtgccgctgtgaatgccatcacatattacatcatcggcctaccactgggcatcctt ctgacctttgtggtcagaatgagaatcatgggcctctggctgggcatgctggcctgtgtc ttcctggcaactgctgcctttgttgcttatactgcccggctggactggaagcttgctgca gaggaggctaagaaacattcaggccggcagcagcagcagagagcagagagcactgcaacc agacctgggcctgagaaagcagtcctatcttcagtggctacaggcagttcccctggcatt accttgacaacgtattcaaggtctgagtgccacgtggacttcttcaggactccagaggag gcccacgccctttcagctcctaccagcagactatcagtgaaacagctggtcatccgccgt ggggctgctctgggggcggcgtcagccacactgatggtggggctcacg