GENSCAN 1.0 Date run: 2-Nov-116 Time: 20:08:16 Sequence gi568815586r:119590149_119884052 : 293904 bp : 43.79% 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 + 3617 3886 270 1 0 62 101 351 0.974 31.54 1.02 Intr + 4962 5054 93 2 0 55 60 73 0.457 1.36 1.03 Intr + 32614 32889 276 0 0 71 41 107 0.150 2.01 1.04 Intr + 39588 39724 137 2 2 101 100 214 0.933 23.27 1.05 Intr + 55612 55702 91 1 1 87 47 28 0.021 -1.40 1.06 Intr + 56587 56646 60 0 0 124 82 9 0.043 2.83 1.07 Intr + 78088 78255 168 0 0 113 86 310 0.471 33.44 1.08 Intr + 82153 82316 164 0 2 79 86 105 0.999 8.17 1.09 Intr + 83816 83909 94 2 1 98 63 122 0.984 10.67 1.10 Intr + 84192 84342 151 2 1 96 75 90 0.740 8.24 1.11 Intr + 86389 86522 134 2 2 61 94 148 0.924 13.06 1.12 Intr + 89785 89853 69 0 0 111 90 46 0.987 6.48 1.13 Term + 90100 90177 78 0 0 86 49 114 0.960 5.06 1.14 PlyA + 90647 90652 6 -3.74 2.50 PlyA - 90844 90839 6 -0.45 2.49 Term - 91052 90879 174 2 0 65 53 164 0.571 8.36 2.48 Intr - 100306 100003 304 0 1 62 100 384 0.656 33.59 2.47 Intr - 102488 102454 35 2 2 65 50 82 0.548 -0.88 2.46 Intr - 105328 105202 127 0 1 19 71 93 0.598 1.38 2.45 Intr - 107690 107511 180 1 0 39 91 141 0.962 8.48 2.44 Intr - 107906 107828 79 0 1 32 98 66 0.830 0.61 2.43 Intr - 110677 110597 81 2 0 83 84 66 0.825 5.31 2.42 Intr - 111604 111476 129 2 0 90 113 101 0.990 13.47 2.41 Intr - 111810 111702 109 0 1 86 53 179 0.999 14.06 2.40 Intr - 114307 114215 93 1 0 93 106 182 0.991 20.66 2.39 Intr - 118170 118031 140 1 2 70 121 117 0.999 13.38 2.38 Intr - 120238 120103 136 1 1 129 64 103 0.964 12.14 2.37 Intr - 120521 120392 130 1 1 51 95 92 0.512 6.90 2.36 Intr - 121257 121218 40 1 1 85 61 12 0.299 -4.52 2.35 Intr - 122547 122443 105 1 0 55 94 82 0.421 5.69 2.34 Intr - 123146 123055 92 1 2 114 94 75 0.985 10.34 2.33 Intr - 123500 123320 181 0 1 95 81 179 0.986 16.83 2.32 Intr - 124186 124049 138 2 0 75 103 109 0.999 11.54 2.31 Intr - 128261 128097 165 0 0 78 83 160 0.997 14.43 2.30 Intr - 128713 128551 163 1 1 31 97 209 0.541 15.65 2.29 Intr - 130437 130330 108 0 0 56 113 91 0.973 8.88 2.28 Intr - 131301 131161 141 0 0 57 94 114 0.991 9.45 2.27 Intr - 138458 138354 105 2 0 26 105 153 0.998 11.21 2.26 Intr - 140482 140347 136 0 1 89 82 212 0.989 21.27 2.25 Intr - 144209 144016 194 2 2 23 75 253 0.907 15.79 2.24 Intr - 145209 145012 198 0 0 117 80 413 0.909 42.95 2.23 Intr - 152316 152263 54 0 0 88 74 72 0.771 4.98 2.22 Intr - 162099 161902 198 0 0 124 90 300 0.998 33.35 2.21 Intr - 167397 167223 175 2 1 47 78 204 0.998 15.24 2.20 Intr - 168552 168443 110 0 2 55 103 94 0.855 6.68 2.19 Intr - 170907 170791 117 0 0 99 78 196 0.847 20.36 2.18 Intr - 177034 176939 96 1 0 129 37 73 0.988 6.51 2.17 Intr - 180762 180637 126 0 0 74 93 104 0.996 10.38 2.16 Intr - 182762 182622 141 2 0 123 83 269 0.999 30.45 2.15 Intr - 185691 185638 54 0 0 54 121 95 0.997 8.58 2.14 Intr - 186260 186210 51 2 0 82 69 62 0.875 2.80 2.13 Intr - 186694 186524 171 1 0 70 61 86 0.933 4.24 2.12 Intr - 192489 192370 120 0 0 64 96 124 0.997 11.49 2.11 Intr - 193903 193760 144 1 0 84 39 168 0.998 11.98 2.10 Intr - 194917 194812 106 0 1 118 63 81 0.986 8.82 2.09 Intr - 213241 213058 184 2 1 95 80 133 0.171 12.05 2.08 Intr - 232825 232672 154 1 1 55 93 59 0.615 2.75 2.07 Intr - 235220 235017 204 2 0 24 103 198 0.787 14.30 2.06 Intr - 242716 242623 94 0 1 62 53 146 0.913 8.47 2.05 Intr - 244080 243938 143 0 2 53 123 85 0.338 7.65 2.04 Intr - 260127 260026 102 0 0 105 105 1 0.720 3.87 2.03 Intr - 267550 267375 176 2 2 93 91 151 0.982 15.56 2.02 Intr - 279053 278912 142 2 1 82 84 131 0.961 12.03 2.01 Intr - 286033 285925 109 0 1 81 92 82 0.774 8.19 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815586r:119590149_119884052|GENSCAN_predicted_peptide_1|594_aa SLATSRRPEPQTTQTVRSSALPAPPASPMSQYAPSPDFKRALDSSPEANTEDDKTEEDVP MPKNYLWLTIVSCFCPAYPINIVALVFSIMEHPSEPHQEGDERLLGPRLIDCSSWPGGGG GQIYPWAALFPSTRGENGFRKGFVGRGASTLNTERGFSSVFQANSSPIPRFTQGLPYMSL ERRRVTYKMPEWQQVMNVGQDSPVACTQIPFSQSLNSYNDGDYEGARRLGRNAKWVAIAS IIIGLLIIGISCAVHFTRNVEFPSLHPHWFTDAPKLSAPGTVTKCLLPQGPLSLLWVHLD DPEKSPYFKTPIMGNTSSERAALERHGGHKTPRRDSSGGTKDGDRPKILMDSPEDADLFH SEEIKAPEKEEFLAWQHDLEVNDKAPAQARPTVFRWTGGGKEVYLSGSFNNWSKLPLTRS HNNFVAILDLPEGEHQYKFFVDGQWTHDPSEPIVTSQLGTVNNIIQVKKTDFEVFDALMV DSQKCSDVSGMNTVILYHMRAELSSSPPGPYHQEPYVCKPEERFRAPPILPPHLLQVILN KDTGISCDPALLPEPNHVMLNHLYALSIKDGVMVLSATHRYKKKYVTTLLYKPI >gi568815586r:119590149_119884052|GENSCAN_predicted_CDS_1|1785_bp agcctcgccacaagccggcggccagagccccagaccacacagaccgtgcgctcctccgcc ctcccggcgccgccggcctcgcccatgtctcagtacgcccctagcccggacttcaagagg gctttggacagcagtcccgaggccaacactgaagatgacaagaccgaggaggacgtgccc atgcccaagaactacctgtggctcaccatcgtctcgtgtttttgccctgcgtaccccatc aacatcgtggctttggtcttttccatcatggaacacccgagcgaaccccaccaggagggc gacgagcgcctgctaggccctcgccttattgactgcagcagctggcccgggggtggcggc gggcagatctacccgtgggcagcccttttcccaagtaccaggggagaaaatggattcaga aaaggatttgtggggagaggagcttccacacttaatactgaaagaggcttttcatctgtt tttcaagccaacagcagccccattcccagattcactcaaggtctcccttacatgtccctg gaaagaaggagggtcacatacaagatgccagagtggcagcaggtgatgaacgtggggcag gattcacctgtggcttgcacccaaatccccttcagccagtctctgaacagctacaacgat ggagactacgaaggagccaggcggcttgggcggaatgctaagtgggtagccatcgcctcc atcatcattggccttctcatcatcggcatttcttgtgcagttcacttcacaaggaatgta gaatttcccagtttgcacccacactggttcactgatgcacccaagctgtctgctcctgga actgtgaccaagtgtttactcccccagggacccttgtcattactttgggtccacctggat gatccagaaaaatctccttattttaagacccccatcatgggcaataccagcagtgagcgc gccgcgctggagcggcatggtggccataagacgccccggagggacagctcggggggcacc aaggacggggacaggcccaagatcctgatggacagccccgaagacgccgacctcttccac tccgaggaaatcaaggcaccagagaaggaggaattcctggcctggcagcatgatctggaa gtgaatgataaagctcccgcccaggctcggccaacggtgtttcgatggacggggggcgga aaggaagtttacttatctgggtccttcaacaactggagtaaacttcccctcaccagaagc cacaataactttgtagccatcctggatctgccggaaggagagcatcagtacaagttcttt gtggatggtcagtggacgcacgacccttccgagcccatagtaaccagccagcttggcaca gttaacaacatcattcaagtgaagaaaactgactttgaagtatttgatgctttaatggtg gattcccaaaagtgctccgatgtgtctggtatgaacacagttattttataccacatgcgt gcagagctgtccagttctcccccaggaccctaccatcaggagccctacgtctgcaaaccc gaagagcgctttcgggcaccccctattctccccccacatctcctccaggtcatcctgaac aaggacacggggatttcctgtgatccagctttgcttcctgagcccaatcacgtcatgctg aaccacctatacgcgctgtctatcaaggatggagtgatggtgctcagcgcaacccaccgg tacaagaagaagtacgtcaccaccttgttatacaagcccatatga >gi568815586r:119590149_119884052|GENSCAN_predicted_peptide_2|2151_aa XASGEMLKFKYGARNPLDAGAAEPIASRASRLNLFFQGKPPFMTQQQMSPLSREGILDAL FVLFEECSQPALMKIKHVSNFVRKYSDTIAELQELQPSAKDFEVRSLVGCGHFAEVQVVR EKATGDIYAMKVMKKKALLAQEQVSFFEEERNILSRSTSPWIPQLQYAFQDKNHLYLVME YQPGGDLLSLLNRYEDQLDENLIQFYLAELILAVHSVHLMGYVHRDIKPENILVDRTGHI KLVDFGSAAKMNSNKMVNAKLPIGTPDYMAPEVLTVMNGDGKGTYGLDCDWWSVGVIAYE MIYGRSPFAEGTSARTFNNIMNFQRFLKFPDDPKVSSDFLDLIQSLLCGQKERLKFEGLC CHPFFSKIDWNNIRNSPPPFVPTLKSDDDTSNFDEPEKNSWVSSSPCQLSPSGFSGEELP FVGFSYSKALGILGRSESVVSGLDSPAKTSSMEKKLLIKSKELQDSQDKCHKMEQEMTRL HRRVSEVEAVLSQKEVELKASETQRSLLEQDLATYITECSSLKRSLEQARMEVSQEDDKA LQLLHDIREQSRKLQEIKEQEYQAQVEEMRLMMNQLEEDLVSARRRSDLYESELRESRLA AEEFKRKATECQHKLLKAKDQGKPEVGEYAKLEKINAEQQLKIQELQEKLEKAVKASTEA TELLQNIRQAKERAERELEKLQNREDSSEGIRKKLVEAEERRHSLENKVKRLETMERREN RLKDDIQTKSQQIQQMADKILELEEKHREAQVSAQHLEVHLKQKEQHYEEKIKVLDNQIK KDLADKETLENMMQRHEEEAHEKGKILSEQKAMINAMDSKIRSLEQRIVELSEANKLAAN SSLFTQRNMKAQEEMISELRQQKFYLETQAGKLEAQNRKLEEQLEKISHQDHSDKNRLLE LETRLREVSLEHEEQKLELKRQLTELQLSLQERESQLTALQAARAALESQLRQAKTELEE TTAEAEEEIQALTAHRDEIQRKFDALRNSCTVITDLEEQLNQLTEDNAELNNQNFYLSKQ LDEASGANDEIVQLRSEVDHLRREITEREMQLTSQKQTMEALKTTCTMLEEQVMDLEALN DELLEKERQWEAWRSVLGDEKSQFECRVRELQRMLDTEKQSRARADQRITESRQVVELAV KEHKAEILALQQALKEQKLKAESLSDKLNDLEKKHAMLEMNARSLQQKLETERELKQRLL EEQAKLQQQMDLQKNHIFRLTQGLQEALDRADLLKTERSDLEYQLENIQVLYSHEKVKME GTISQQTKLIDFLQAKMDQPAKKKKGLFSRRKEDPALPTQVPLQYNELKLALEKEKARCA ELEEALQKTRIELRSAREEAAHRKATDHPHPSTPATARQQIAMSAIVRSPEHQPSAMSLL APPSSRRKESSTPEEFSRRLKERMHHNIPHRFNVGLNMRATKCAVCLDTVHFGRQASKCL ECQVMCHPKCSTCLPATCGLPAEYATHFTEAFCRDKMNSPGLQTKEPSSSLHLEGWMKVP RNNKRGQQGWDRKYIVLEGSKVLIYDNEAREAGQRPVEEFELCLPDGDVSIHGAVGASEL ANTAKAGRFGVLLILKLLETSASRCLLFFFSFTYEKKLLGNSLLKLEGDDRLDMNCTLPF SDQVVLVGTEEGLYALNVLKNSLTHVPGIGAVFQIYIIKDLEKLLMIAGEERALCLVDVK KVKQSLAQSHLPAQPDISPNIFEAVKGCHLFGAGKIENGLCICAAMPSKVVILRYNENLS KYCIRKEIETSEPCSCIHFTNYSILIGTNKFYEIDMKQYTLEEFLDKNDHSLAPAVFAAS SNSFPVSIVQVNSAGQREEYLLCFHEFGVFVDSYGRRSRTDDLKWSRLPLAFAYREPYLF VTHFNSLEVIEIQARSSAGTPARAYLDIPNPRYLGPAISSGAIYLASSYQDKLRVICCKG NLVKESGTEHHRGPSTSRRFWYPQEVLEAVPQATKGQLYNQMYSQIHCPENGSFPRSVAR QLLNPVVVMRKQLSPNKRGPPTYNEHITKRVASSPAPPEGPSHPREPSTPHRYREGRTEL RRDKSPGRPLEREKSPGRMLSTRRERSPGRLFEDSSRGRLPAGAVRTPLSQVNKGRGQSA SQVFTVNTVTYYDWNKKLDNLPANWSVLRIIQLNGEIRQQVEKSVLRTDYC >gi568815586r:119590149_119884052|GENSCAN_predicted_CDS_2|6456_bp nncgccagtggggagatgttgaagttcaaatatggagcgcggaatcctttggatgctggt gctgctgaacccattgccagccgggcctccaggctgaatctgttcttccaggggaaacca ccctttatgactcaacagcagatgtctcctctttcccgagaagggatattagatgccctc tttgttctctttgaagaatgcagtcagcctgctctgatgaagattaagcacgtgagcaac tttgtccggaagtattccgacaccatagctgagttacaggagctccagccttcggcaaag gacttcgaagtcagaagtcttgtaggttgtggtcactttgctgaagtgcaggtggtaaga gagaaagcaaccggggacatctatgctatgaaagtgatgaagaagaaggctttattggcc caggagcaggtttcattttttgaggaagagcggaacatattatctcgaagcacaagcccg tggatcccccaattacagtatgcctttcaggacaaaaatcacctttatctggtcatggaa tatcagcctggaggggacttgctgtcacttttgaatagatatgaggaccagttagatgaa aacctgatacagttttacctagctgagctgattttggctgttcacagcgttcatctgatg ggatacgtgcatcgagacatcaagcctgagaacattctcgttgaccgcacaggacacatc aagctggtggattttggatctgccgcgaaaatgaattcaaacaagatggtgaatgccaaa ctcccgattgggaccccagattacatggctcctgaagtgctgactgtgatgaacggggat ggaaaaggcacctacggcctggactgtgactggtggtcagtgggcgtgattgcctatgag atgatttatgggagatcccccttcgcagagggaacctctgccagaaccttcaataacatt atgaatttccagcggtttttgaaatttccagatgaccccaaagtgagcagtgactttctt gatctgattcaaagcttgttgtgcggccagaaagagagactgaagtttgaaggtctttgc tgccatcctttcttctctaaaattgactggaacaacattcgtaactctcctccccccttc gttcccaccctcaagtctgacgatgacacctccaattttgatgaaccagagaagaattcg tgggtttcatcctctccgtgccagctgagcccctcaggcttctcgggtgaagaactgccg tttgtggggttttcgtacagcaaggcactggggattcttggtagatctgagtctgttgtg tcgggtctggactcccctgccaagactagctccatggaaaagaaacttctcatcaaaagc aaagagctacaagactctcaggacaagtgtcacaagatggagcaggaaatgacccggtta catcggagagtgtcagaggtggaggctgtgcttagtcagaaggaggtggagctgaaggcc tctgagactcagagatccctcctggagcaggaccttgctacctacatcacagaatgcagt agcttaaagcgaagtttggagcaagcacggatggaggtgtcccaggaggatgacaaagca ctgcagcttctccatgatatcagagagcagagccggaagctccaagaaatcaaagagcag gagtaccaggctcaagtggaagaaatgaggttgatgatgaatcagttggaagaggatctt gtctcagcaagaagacggagtgatctctacgaatctgagctgagagagtctcggcttgct gctgaagaattcaagcggaaagcgacagaatgtcagcataaactgttgaaggctaaggat caagggaagcctgaagtgggagaatatgcgaaactggagaagatcaatgctgagcagcag ctcaaaattcaggagctccaagagaaactggagaaggctgtaaaagccagcacggaggcc accgagctgctgcagaatatccgccaggcaaaggagcgagccgagagggagctggagaag ctgcagaaccgagaggattcttctgaaggcatcagaaagaagctggtggaagctgaggaa cgccgccattctctggagaacaaggtaaagagactagagaccatggagcgtagagaaaac agactgaaggatgacatccagacaaaatcccaacagatccagcagatggctgataaaatt ctggagctcgaagagaaacatcgggaggcccaagtctcagcccagcacctagaagtgcac ctgaaacagaaagagcagcactatgaggaaaagattaaagtgttggacaatcagataaag aaagacctggctgacaaggagacactggagaacatgatgcagagacacgaggaggaggcc catgagaagggcaaaattctcagcgaacagaaggcgatgatcaatgctatggattccaag atcagatccctggaacagaggattgtggaactgtctgaagccaataaacttgcagcaaat agcagtctttttacccaaaggaacatgaaggcccaagaagagatgatttctgaactcagg caacagaaattttacctggagacacaggctgggaagttggaggcccagaaccgaaaactg gaggagcagctggagaagatcagccaccaagaccacagtgacaagaatcggctgctggaa ctggagacaagattgcgggaggtcagtctagagcacgaggagcagaaactggagctcaag cgccagctcacagagctacagctctccctgcaggagcgcgagtcacagttgacagccctg caggctgcacgggcggccctggagagccagcttcgccaggcgaagacagagctggaagag accacagcagaagctgaagaggagatccaggcactcacggcacatagagatgaaatccag cgcaaatttgatgctcttcgtaacagctgtactgtaatcacagacctggaggagcagcta aaccagctgaccgaggacaacgctgaactcaacaaccaaaacttctacttgtccaaacaa ctcgatgaggcttctggcgccaacgacgagattgtacaactgcgaagtgaagtggaccat ctccgccgggagatcacggaacgagagatgcagcttaccagccagaagcaaacgatggag gctctgaagaccacgtgcaccatgctggaggaacaggtcatggatttggaggccctaaac gatgagctgctagaaaaagagcggcagtgggaggcctggaggagcgtcctgggtgatgag aaatcccagtttgagtgtcgggttcgagagctgcagagaatgctggacaccgagaaacag agcagggcgagagccgatcagcggatcaccgagtctcgccaggtggtggagctggcagtg aaggagcacaaggctgagattctcgctctgcagcaggctctcaaagagcagaagctgaag gccgagagcctctctgacaagctcaatgacctggagaagaagcatgctatgcttgaaatg aatgcccgaagcttacagcagaagctggagactgaacgagagctcaaacagaggcttctg gaagagcaagccaaattacagcagcagatggacctgcagaaaaatcacattttccgtctg actcaaggactgcaagaagctctagatcgggctgatctactgaagacagaaagaagtgac ttggagtatcagctggaaaacattcaggttctctattctcatgaaaaggtgaaaatggaa ggcactatttctcaacaaaccaaactcattgattttctgcaagccaaaatggaccaacct gctaaaaagaaaaagggtttatttagtcgacggaaagaggaccctgctttacccacacag gttcctctgcagtacaatgagctgaagctggccctggagaaggagaaagctcgctgtgca gagctagaggaagcccttcagaagacccgcatcgagctccggtccgcccgggaggaagct gcccaccgcaaagcaacggaccacccacacccatccacgccagccaccgcgaggcagcag atcgccatgtccgccatcgtgcggtcgccagagcaccagcccagtgccatgagcctgctg gccccgccatccagccgcagaaaggagtcttcaactccagaggaatttagtcggcgtctt aaggaacgcatgcaccacaatattcctcaccgattcaacgtaggactgaacatgcgagcc acaaagtgtgctgtgtgtctggataccgtgcactttggacgccaggcatccaaatgtctc gaatgtcaggtgatgtgtcaccccaagtgctccacgtgcttgccagccacctgcggcttg cctgctgaatatgccacacacttcaccgaggccttctgccgtgacaaaatgaactcccca ggtctccagaccaaggagcccagcagcagcttgcacctggaagggtggatgaaggtgccc aggaataacaaacgaggacagcaaggctgggacaggaagtacattgtcctggagggatca aaagtcctcatttatgacaatgaagccagagaagctggacagaggccggtggaagaattt gagctgtgccttcccgacggggatgtatctattcatggtgccgttggtgcttccgaactc gcaaatacagccaaagcaggcaggtttggagtcctacttatccttaagctgttagaaaca tcagcctcacgatgtcttctgtttttcttttctttcacctatgaaaagaaactgcttgga aactccctgctgaaactggaaggtgatgaccgtctagacatgaactgcacgctgcccttc agtgaccaggtggtgttggtgggcaccgaggaagggctctacgccctgaatgtcttgaaa aactccctaacccatgtcccaggaattggagcagtcttccaaatttatattatcaaggac ctggagaagctactcatgatagcaggagaagagcgggcactgtgtcttgtggacgtgaag aaagtgaaacagtccctggcccagtcccacctgcctgcccagcccgacatctcacccaac atttttgaagctgtcaagggctgccacttgtttggggcaggcaagattgagaacgggctc tgcatctgtgcagccatgcccagcaaagtcgtcattctccgctacaacgaaaacctcagc aaatactgcatccggaaagagatagagacctcagagccctgcagctgtatccacttcacc aattacagtatcctcattggaaccaataaattctacgaaatcgacatgaagcagtacacg ctcgaggaattcctggataagaatgaccattccttggcacctgctgtgtttgccgcctct tccaacagcttccctgtctcaatcgtgcaggtgaacagcgcagggcagcgagaggagtac ttgctgtgtttccacgaatttggagtgttcgtggattcttacggaagacgtagccgcaca gacgatctcaagtggagtcgcttacctttggcctttgcctacagagaaccctatctgttt gtgacccacttcaactcactcgaagtaattgagatccaggcacgctcctcagcagggacc cctgcccgagcgtacctggacatcccgaacccgcgctacctgggccctgccatttcctca ggagcgatttacttggcgtcctcataccaggataaattaagggtcatttgctgcaaggga aacctcgtgaaggagtccggcactgaacaccaccggggcccgtccacctcccgcagattt tggtacccacaggaagtcctggaagcagtcccccaggccaccaagggacaactgtacaac caaatgtacagtcagatccactgccctgagaatgggtcttttccacggagcgtcgctagg cagctgctcaaccctgttgtggtcatgcggaagcagctcagccccaacaagcgaggccca cccacgtacaacgagcacatcaccaagcgcgtggcctccagcccagcgccgcccgaaggc cccagccacccgcgagagccaagcacaccccaccgctaccgcgaggggcggaccgagctg cgcagggacaagtctcctggccgccccctggagcgagagaagtcccccggccggatgctc agcacgcggagagagcggtcccccgggaggctgtttgaagacagcagcaggggccggctg cctgcgggagccgtgaggaccccgctgtcccaggtgaacaagggaagagggcagagtgcc tctcaagttttcacggttaacactgtcacctattatgactggaataaaaagctggacaac ctgccagctaactggtcagtcctgaggatcatccagctgaatggagaaatccggcagcag gttgaaaagtctgttctgagaacagattattgctga