GENSCAN 1.0 Date run: 8-Nov-116 Time: 12:14:45 Sequence gi568815578r:2558754_2764005 : 205252 bp : 46.46% 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 + 214 280 67 0 1 76 93 89 0.718 7.48 1.02 Intr + 491 626 136 0 1 1 40 81 0.374 -5.77 1.03 Intr + 3105 3257 153 0 0 103 99 212 0.653 22.99 1.04 Intr + 13426 13516 91 1 1 74 93 144 0.834 13.50 1.05 Intr + 20393 20474 82 1 1 60 87 71 0.903 3.41 1.06 Intr + 21197 21303 107 0 2 133 94 -39 0.900 1.13 1.07 Intr + 24166 24268 103 0 1 51 42 144 0.909 5.85 1.08 Intr + 26772 26962 191 1 2 29 78 138 0.633 6.20 1.09 Intr + 36072 36214 143 2 2 75 97 217 0.971 20.45 1.10 Intr + 38398 38545 148 1 1 76 61 178 0.950 14.14 1.11 Intr + 43360 43548 189 0 0 28 94 90 0.503 3.38 1.12 Intr + 51666 51845 180 2 0 92 93 129 0.991 13.86 1.13 Intr + 53438 53587 150 1 0 96 68 87 0.995 7.86 1.14 Intr + 54441 54569 129 2 0 128 28 140 0.768 12.89 1.15 Intr + 57384 57451 68 2 2 132 105 51 0.997 8.90 1.16 Intr + 58319 58558 240 2 0 82 61 330 0.997 26.36 1.17 Intr + 65518 65643 126 1 0 101 81 174 0.829 17.79 1.18 Intr + 77173 77251 79 1 1 45 89 46 0.043 -0.05 1.19 Intr + 78721 78838 118 0 1 58 121 113 0.955 11.64 1.20 Intr + 82381 82558 178 2 1 97 60 61 0.104 3.18 1.21 Intr + 93977 94178 202 2 1 48 94 306 0.982 26.49 1.22 Intr + 94526 94640 115 1 1 93 115 148 0.998 18.02 1.23 Intr + 95661 95822 162 1 0 13 78 151 0.989 6.55 1.24 Intr + 95996 96194 199 0 1 102 103 189 0.999 20.21 1.25 Intr + 96572 96759 188 2 2 72 52 329 0.987 27.03 1.26 Intr + 96842 96993 152 0 2 75 74 169 0.972 14.08 1.27 Intr + 97181 97281 101 1 2 130 81 109 0.866 13.31 1.28 Intr + 97648 97796 149 1 2 69 60 127 0.675 7.88 1.29 Intr + 97997 98142 146 0 2 37 82 171 0.807 11.40 1.30 Intr + 98328 98465 138 2 0 48 78 160 0.983 11.66 1.31 Term + 99176 99541 366 1 0 122 39 413 0.999 34.40 1.32 PlyA + 99620 99625 6 1.05 2.13 PlyA - 99660 99655 6 1.05 2.12 Term - 100084 99998 87 1 0 69 43 146 0.996 5.86 2.11 Intr - 100832 100772 61 1 1 68 113 70 0.993 6.24 2.10 Intr - 101040 100946 95 0 2 117 47 93 0.996 6.86 2.09 Intr - 101423 101277 147 2 0 73 89 190 0.987 18.03 2.08 Intr - 101612 101510 103 1 1 61 94 101 0.978 8.18 2.07 Intr - 101837 101704 134 2 2 94 56 163 0.978 13.14 2.06 Intr - 102076 101944 133 0 1 58 78 102 0.678 6.85 2.05 Intr - 102216 102156 61 1 1 122 92 68 0.999 8.39 2.04 Intr - 104813 104693 121 2 1 30 76 174 0.992 10.47 2.03 Intr - 105061 104907 155 2 2 109 113 166 0.986 20.99 2.02 Intr - 105252 105172 81 1 0 84 85 43 0.645 3.21 2.01 Init - 111807 111789 19 0 1 91 76 27 0.113 0.93 2.00 Prom - 118802 118763 40 -2.46 3.00 Prom + 119428 119467 40 -4.46 3.01 Init + 121738 121753 16 0 1 63 57 17 0.160 -3.44 3.02 Intr + 123306 123697 392 1 2 -56 69 595 0.313 37.64 3.03 Term + 130073 130162 90 1 0 88 44 67 0.301 0.02 3.04 PlyA + 130463 130468 6 1.05 4.00 Prom + 130499 130538 40 -5.36 4.01 Init + 134081 134395 315 1 0 93 44 450 0.880 36.43 4.02 Intr + 134908 135029 122 0 2 94 99 208 0.953 21.79 4.03 Intr + 146824 146980 157 1 1 102 35 310 0.780 27.11 4.04 Intr + 147221 147284 64 1 1 99 101 79 0.999 8.59 4.05 Intr + 147456 147511 56 1 2 106 109 81 0.998 10.70 4.06 Intr + 149194 149267 74 0 2 133 94 83 0.999 11.60 4.07 Intr + 150821 150889 69 2 0 111 92 132 0.998 14.20 4.08 Intr + 189796 189877 82 1 1 53 94 109 0.992 7.64 4.09 Intr + 190648 190765 118 0 1 121 77 219 0.999 24.14 4.10 Intr + 190867 191000 134 2 2 113 64 265 0.959 26.96 4.11 Intr + 191094 191220 127 2 1 118 110 187 0.973 24.15 4.12 Intr + 192947 193035 89 0 2 78 73 136 0.994 10.79 4.13 Intr + 193169 193234 66 1 0 128 80 103 0.999 12.60 4.14 Intr + 193333 193510 178 0 1 120 73 268 0.778 27.99 4.15 Intr + 193604 193792 189 0 0 114 81 223 0.879 23.76 4.16 Intr + 196874 197071 198 0 0 15 109 168 0.030 10.92 4.17 Intr + 197103 197223 121 1 1 72 -6 54 0.594 -6.05 4.18 Term + 200515 200632 118 1 1 127 49 85 0.549 6.51 4.19 PlyA + 201300 201305 6 1.05 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 68624 68413 212 0 2 85 48 113 0.811 4.46 S.002 Init + 93510 93910 401 2 2 55 77 187 0.980 8.46 S.003 Init + 196876 197071 196 0 1 86 109 256 0.939 24.59 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815578r:2558754_2764005|GENSCAN_predicted_peptide_1|1531_aa MKIAGPRGGVAAGSPLQRLVAPVSSAGNVALVQETFKDATSSEILELGGFICFASFVPLP LAPTSTCGSSSLASSASGGESLSEEELAQILEQVEEKKKLIATMRSKPWPMAKKLTELRE AQEFVEKYEGALGKGKGKQLYAYKMLMAKKWVKFKRDFDNFKTQCIPWEMKIKDIESHFG SSVASYFIFLRWMYGVNLVLFGLIFGLVIIPEDVYVIPEEPSVMLQELAGKAPLDDKFMY FSSNTGSYGLGFDQGYNYLEAELKKIRFQAHSHGYWQISEDTISSLLTWLLAGLRKSASN LTYVAVPKVQGYIKYSALFYGYYNNQRTIGWLRYRLPMAYFMVGVSVFGYSLIIVIRSMA SNTQGSTGEGESDNFTFSFKMFTSWDYLIGNSETADNKYASITTSFKESIVDEQESNKEE NIHLTRFLRVLANFLIICCLCGSGYLIYFVVKRSQQFSKMQNVSWYERNEVEIVMSLLGM FCPPLFETIAALENYHPRTGLKWQLGRIFALFLGNLYTFLLALMDDVHLKLANEETIKNI THWTLFNYYNSSGWNESVPRPPLHPADVPRGSCWETAVGIEFMRLTVSDMLVTYITILLG DFLRACFVRFMNYCWCWDLEAGFPSYAEFDISGNVLGLIFNQGMIWMGSFYAPGLVGINV LRLLTSMYFQCWAVMSSNVPHERVFKASRSNNFYMGLLLLVLFLSLLPVAYTIMSLPPSF DCGPFSGKNRMYDVLQETIENDFPTFLGKIFAFLANPGLIIPAILLMFLAIYYLNSVSKS LSRANAQLRKKIQVLREVEKSHKSVKGKATARDSEDTPKSSSKNATQLQLTKEETTPPSA SQSQAMDKKAQGPGTSNSASRTTLPASGHLPISRPPGIGPDSGHAPSQTHPWRQGLGLGL GLRLRLRLPWERVPADAEVALTLAPRLPFQVLLHVLFEHAVGYALLALKEVEEISLLQPQ VEESVLNLGKFHSIVRLVAFCPFASSQVALENANAVSEGVVHEDLRLLLETHLPSKKKKV LLGVGDPKIGAAIQEELGYNCQTGGVIAEILRGVRLHFHNLVKGLTDLSACKAQLGLGHS YSRAKVKFNVNRVDNMIIQSISLLDQLDKDINTFSMRVREWYGYHFPELVKIINDNATYC RLAQFIGNRRELNEDKLEKLEELTMDGAKAKAILDASRSSMGMDISAIDLINIESFSSRV VSLSEYRQSLHTYLRSKMSQVAPSLSALIGEAVGARLIAHAGSLTNLAKYPASTVQILGA EKALFRALKTRGNTPKYGLIFHSTFIGRAAAKNKGRISRYLANKCSIASRIDCFSGFVTH THPEVPTSVFGEKLREQVEERLSFYETGEIPRKNLDVMKEAMVQAEEAAAEITRKLEKQE KKRLKKEKKRLAALALASSENSSSTPEECEEMSEKPKKKKKQKPQEVPQENGMEDPSISF SKPKKKKSFSKEELMSSDLEETAGSTSIPKRKKSTPKEETVNDPEEAGHRSGSKKKRKFS KEEPVSSGPEEAVGKSSSKKKKKFHKASQED >gi568815578r:2558754_2764005|GENSCAN_predicted_CDS_1|4596_bp atgaagatcgcgggtccgcgcgggggagtggccgcgggctctccactccagcgcctcgtg gcacccgtttcctctgctggaaatgtggcactggtccaggagaccttcaaggatgctacc agctctgaaattctggagcttggaggttttatttgttttgcctcctttgttccattacca ttggcaccaactagcacgtgtgggtcatcctccttggcctccagtgcctctggtggggag tccctgtccgaggaggaactggcccagatcctggagcaggtggaagaaaaaaagaagctc attgccaccatgcggagcaagccctggcccatggcgaagaagctgacagagctcagggag gcccaggaatttgtggagaagtatgaaggtgccttgggaaaggggaaaggcaagcaacta tatgcctacaagatgctgatggccaagaaatgggtcaaatttaagagagactttgataat ttcaagactcaatgtatcccctgggaaatgaagatcaaggacattgaaagtcactttggt tcttcagtggcatcgtatttcatctttctccgatggatgtatggagttaaccttgtcctt tttggcttaatatttggtctagtcataatcccagaggatgtctacgtgatccctgaggaa ccctcagttatgctgcaggagctggctggcaaggccccactggatgacaagtttatgtac ttctcttccaacactggatcctacggtctaggttttgaccaaggctacaattatcttgag gctgaactgaagaagatccgcttccaagctcactcacatggctactggcagatctcagaa gatacaatttcaagcttactcacgtggcttctggcaggcctcagaaaatctgcttccaac cttacttatgtggctgttcccaaggttcagggctatatcaagtactctgcactcttctat ggctactacaacaaccagaggaccatcgggtggctgaggtaccggctgcctatggcttac tttatggtgggggtcagcgtgttcggctacagcctgattattgtcattcgatcgatggcc agcaatacccaaggaagcacaggcgaaggggagagtgacaacttcacattcagcttcaag atgttcaccagctgggactacctgatcgggaattcagagacagctgataacaaatatgca tccatcaccaccagcttcaaggaatcaatagtggatgaacaagagagtaacaaagaagaa aatatccatctgacaagatttcttcgtgtcctggccaactttctcatcatctgctgtttg tgtggaagtgggtacctcatttactttgtggttaagcgatctcagcaattctccaaaatg cagaatgtcagctggtatgaaaggaatgaggtagagatcgtgatgtccctgcttggaatg ttttgtccccctctgtttgaaaccatcgctgccctggagaattaccacccacgcactgga ctgaagtggcagctgggacgcatctttgcactcttcctggggaacctctacacatttctc ttggccctgatggatgacgtccacctcaagcttgctaatgaagagacaataaagaacatc actcactggactctgtttaactattacaactcttctggttggaacgagagtgtcccccga ccacccctgcaccctgcagatgtgccccggggttcttgctgggagacagctgtgggcatt gaattcatgaggctgacggtgtctgacatgctggtaacgtacatcaccatcctgctgggg gacttcctacgggcttgttttgtgcggttcatgaactactgctggtgctgggacttggag gctggatttccttcatatgctgagtttgatattagtggaaatgtgctgggtttgatcttc aaccaaggaatgatctggatgggctccttctatgctccaggcctggtgggcattaatgtg ctgcgcctgctgacctccatgtacttccagtgctgggcggtgatgagcagcaacgtaccc catgaacgcgtgttcaaagcctcccgatccaacaacttctacatgggcctcctgctgctg gtgctcttcctcagcctcctgccggtggcctacaccatcatgtccctcccaccctccttt gactgcgggccgttcagtgggaaaaacagaatgtacgatgtcctccaagagaccattgaa aacgatttcccaaccttcctgggcaagatctttgctttcctcgccaatccaggcctgatc atcccagccatcctgctgatgttcttggccatttactacctgaactcagtttccaaaagc ctttcccgagctaatgcccagctgaggaagaaaatccaagtgctccgtgaagttgagaag agtcacaaatctgtaaaaggcaaagccacagccagagattcagaggacacacctaaaagc agctccaaaaatgccacccagctccaactcaccaaggaagagaccactcctccctctgcc agccaaagccaggccatggacaagaaggcgcagggccctgggacctccaattctgccagc aggaccacactgcctgcctctggacaccttcctatatctcggccccctggaatcggacca gattctggccacgccccatctcagactcatccgtggagacagggcctgggcctgggcctg ggcctgcgcctgcgcctgcgcctgccctgggaacgggttccggcagacgctgaggttgcg ttgacgctcgcgccccggctcccgttccaggtgctgttgcacgtgctgtttgagcacgcg gtcggctacgcgctgctggcgctgaaggaagtggaggagatcagtctgctgcagccgcag gtggaggagtctgtgctcaacctgggcaaattccacagcatcgttcgtctggtggccttt tgtccctttgcctcatcccaggttgccttggaaaatgccaacgccgtgtctgaaggggtt gttcatgaggacctccgcctgctcttggagacccacctgccgtccaaaaagaagaaagta ctcttgggagttggggatcccaagattggtgccgcaatacaggaggagttagggtacaac tgccagactggaggagtcatagctgagatcctgcgaggagttcgtctgcacttccacaat ctggtgaagggtctgaccgatctgtcagcttgtaaagcacagctggggctgggacacagc tattcccgtgccaaagttaagtttaatgtgaaccgggtggacaatatgatcatccagtcc attagcctcctggaccagctggataaggacatcaataccttctctatgcgtgtcagggag tggtacgggtatcactttccggagctggtgaagatcatcaacgacaatgccacatactgc cgtcttgcccagtttattggaaaccgaagggaactgaatgaggacaagctggagaagctg gaggagctgacaatggatggggccaaggctaaggctattctggatgcctcacggtcctcc atgggcatggacatatctgccattgacttgataaacatcgagagcttctccagtcgtgtg gtgtctttatctgaataccgccagagcctacacacttacctgcgctccaagatgagccaa gtagcccccagcctgtcagccctaattggggaagcggtaggtgcacgtctcatcgcacat gctggcagcctcaccaacctggccaagtatccagcatccacagtgcagatccttggggct gaaaaggccctgttcagagccctgaagacaaggggtaacactccaaaatatggactcatt ttccactccaccttcattggccgagcagctgccaagaacaaaggccgcatctcccgatac ctggcaaacaaatgcagtattgcctcacgaatcgattgcttctctggctttgtcacccac acacatccagaggtgcccacgagtgtattcggggagaagcttcgagaacaagttgaagag cgactgtccttctatgagactggagagataccacgaaagaatctggatgtcatgaaggaa gcaatggttcaggcagaggaagcggctgctgagattactaggaagctggagaaacaggag aagaaacgcttaaagaaggaaaagaaacggctggctgcacttgccctcgcgtcttcagaa aacagcagtagtactccagaggagtgtgaggagatgagtgaaaaacccaaaaagaagaaa aagcaaaagccccaggaggttcctcaggagaatggaatggaagacccatctatctctttc tccaaacccaagaaaaagaaatctttttccaaggaggagttgatgagtagcgatcttgaa gagaccgctggcagcaccagtattcccaagaggaagaagtctacacccaaggaggaaaca gttaatgaccctgaggaggcaggccacagaagtggctccaagaaaaagaggaaattctcc aaagaggagccggtcagcagtgggcctgaagaggcggttggcaagagcagctccaagaag aagaaaaagttccataaagcatcccaggaagattag >gi568815578r:2558754_2764005|GENSCAN_predicted_peptide_2|398_aa MDLVLACAGLRREPWGMERSEYLGRGARCIAEPGSVLPPQLYLYFSPLPPIEAEDVRVEG SFPVTMLPGDGVGPELMHAVKEVFKAAAVPVEFQEHHLSEVQNMASEEKLEQVLSSMKEN KVAIIGKIHTPMEYKGELASYDMRLRRKLDLFANVVHVKSLPGYMTRHNNLDLVIIREQT EGEYSSLEHESARGVIECLKIVTRAKSQRIAKFAFDYATKKGRGKVTAVHKANIMKLGDG LFLQCCEEVAELYPKIKFETMIIDNCCMQLVQNPYQFDVLVMPNLYGNIIDNLAAGLVGG AGVVPGESYSAEYAVFETGARHPFAQAVGRNIANPTAMLLSASNMLRHLNLEYHSSMIAD AVKKVIKVGKVRTRDMGGYSTTTDFIKSVIGHLQTKGS >gi568815578r:2558754_2764005|GENSCAN_predicted_CDS_2|1197_bp atggatttggttctggcctgcgctggtctccgccgggaaccctggggcatggagaggtct gagtacctcggccgcggcgcacgctgcatcgcggagccaggatccgtgctcccgccccag ctctatctttacttctcccctcttcccccaattgaggccgaggacgtgagggtggagggc tcctttcccgtgaccatgcttccgggagacggtgtggggcctgagctgatgcacgccgtc aaggaggtgttcaaggctgccgctgtcccagtggagttccaggagcaccacctgagtgag gtgcagaatatggcatctgaggagaagctggagcaggtgctgagttccatgaaggagaac aaagtggccatcattggaaagattcataccccgatggagtataagggggagctagcctcc tatgatatgcggctgaggcgtaagttggacttatttgccaacgtagtccatgtgaagtca cttcctgggtatatgactcggcacaacaatctagacctggtgatcattcgagagcagaca gaaggggagtacagctctctggaacatgagagtgcaaggggtgtgattgagtgtttgaag attgtcacacgagccaagtctcagcggattgcaaagttcgcctttgactatgccaccaag aaggggcggggcaaggtcactgctgtccacaaggccaacatcatgaaacttggggatggg ttgttcctgcagtgctgtgaggaagttgctgaactgtaccccaaaatcaaatttgagaca atgatcatagacaactgctgcatgcagctggtgcagaatccttaccagtttgatgtgctt gtgatgcccaatctctatgggaacattattgacaatctggctgctggcctggttggggga gctggtgtggtccctggtgagagctatagtgcagaatacgcagtctttgagacgggtgcc cggcacccatttgcccaggcagtgggcaggaatatagccaatcccacggccatgctgctg tcggcttccaacatgctgcggcatcttaatcttgagtatcactccagcatgatcgcagat gcggtgaagaaggtgatcaaagttggcaaggtgcggactcgagacatgggcggctacagc accacaaccgacttcatcaagtctgtcatcggtcacctgcagactaaagggagctag >gi568815578r:2558754_2764005|GENSCAN_predicted_peptide_3|165_aa MADVGGRKKGEEGRRRRRRRRKKKRGEEGDEGEEADEGEEGEEGEEGEEEGEEKKKKKRK RKKKKRKKKRKKKRKKKRKKRKKKRKKRKKKKKKKKKKKKKKKKKKKKRKRKKTEFPIYS LAQNMGVRHPTFCSNKLEHFAPPHPPNSFLMEKMQQLERDNIQRN >gi568815578r:2558754_2764005|GENSCAN_predicted_CDS_3|498_bp atggcagatgttggaggaagaaagaagggagaagaagggagaaggagaaggagaagaaga agaaagaagaagagaggggaagaaggggacgaaggggaagaagcggatgaaggggaagaa ggggaagaaggagaagaaggggaagaagaaggggaagaaaagaagaagaagaagaggaag aggaagaagaagaagaggaagaagaagaggaagaagaagaggaagaagaagaggaagaag aggaagaagaagaggaagaagaggaagaagaagaagaagaagaagaagaagaagaagaag aagaagaagaagaagaagaagaagaggaagaggaagaagacagaatttcccatatacagc ttggcacagaatatgggagtccgtcatccaacattttgttcaaataaattggagcacttc gccccaccccacccaccaaattcctttctcatggagaagatgcagcagttggaacgggac aatatacaaaggaactaa >gi568815578r:2558754_2764005|GENSCAN_predicted_peptide_4|758_aa MARARGQAPGSGGRRRPRRGGAGTGPRGESAGLLLLLLQVLPPGATAGPGRRGTRGAGAG GGGVCWPGAAPAFPRDARLLLLLPPLPPLSPPPPSSAPAASASRMDALPRSGLNLKEEPL LPAGLGSVRSWMQGAGILDASTAAQSGVGLARAHFEKQPPSNLRKSNFFHFVLAMYDRQG QPVEVERTAFIDFVEKDREPGAEKTNNGIHYRLRLVYNNGLRTEQDLYVRLIDSMSKQAI IYEGQDKNPEMCRVLLTHEIMCSRCCDRKSCGNRNETPSDPVIIDRFFLKFFLKCNQNCL KNAGNPRDMRRFQVVVSTTVSVDGHVLAVSDNMFVHNNSKHGRRARRLDPSEAATPCIKA ISPGEGWTTGGATVIVIGDNFFDGLQVVFGNVLVWSELITPHAIRVQTPPRHIPGVVEVT LSYKSKQFCKGCPGRFVYTALNEPTIDYGFQRLQKVIPRHPGDPERLPKEVLLKRAADLA EALYGVPGSNQELLLKRAADVAEALYSTPRAPGPLAPLAPSHPHPAVVGINAFSSPLAIA VGDATPGPEPGYARSCSSASPRGFAPSPGSQQSGYGGGLGAGLGGYGAPGVAGLGVPGSP SFLNGSTATSPFAIMPSSPPLAAASSMSLPAAAPTTSVFSFSPVNMISAVKQRSAFAPVL RPPSSPPQACPRAHGEGLPGRKGPCGAAGLQGPALSTSHQCLMLANLLFLEDGEQGALLG SAAVPMEPGLEVPLGFTATPRMVAQTDAGPGPWADLNP >gi568815578r:2558754_2764005|GENSCAN_predicted_CDS_4|2277_bp atggcccgggcccgaggccaggccccggggagcggcgggcggcggcggccgcggcggggc ggcgcgggaaccgggccccggggggagtcggccgggctgctgctgctgctgctccaggtg ctgccgcccggggctacggcagggccgggacgccggggcacgcggggcgctggcgctggc ggcggcggcgtctgctggcccggcgcggccccagcctttccccgggacgcgcggctgctg ctgctcctgccgccgctgccgccactgtcgccgccgccgccgagctccgcgcccgcagcc tccgcctcccggatggacgctctgccccgcagcgggctgaacctgaaggaggagccgctg ctgcccgccggcctgggctcagtgcgctcctggatgcagggcgcgggcatcctggacgcc agcaccgcggcgcagagtggcgtgggtctggcacgagcacattttgagaagcagcctccc tccaacctcaggaaatccaacttcttccacttcgtgctggccatgtacgaccggcagggg cagcccgtggaggtggagcgcacagccttcatcgacttcgtggaaaaggaccgagagccc ggggcggaaaagactaacaatgggatccattaccgcctccggctggtgtataacaatgga ctgcggacagagcaagacctctacgtgcgtctcatcgactccatgtccaaacaggccatc atctatgaggggcaggacaagaaccccgaaatgtgccgagtgctgctcacccatgagatc atgtgcagccggtgctgtgaccggaagagctgtggcaaccggaatgagacgccctcagac cccgtcatcattgacaggttcttcctcaagttcttcctcaaatgcaaccagaactgcctg aagaatgcggggaatcccagagacatgcgccgcttccaggtggtggtgtccacgacggtg agcgtggacggacacgtgctggccgtgtccgacaacatgtttgtgcacaacaactccaag catggccgcagggcgcgccgcctggacccctccgaagctgccaccccctgcatcaaggcc atcagccccggggagggctggaccacgggcggcgccaccgtcattgtcatcggcgacaac ttcttcgacgggttgcaggtcgtgttcggaaacgtgctcgtgtggagcgagctcatcacg ccccacgccatccgggtgcagacgcccccgcggcacatccccggggtggtggaggtgacc ctctcctacaagtccaagcagttttgcaagggatgccccggccgctttgtctacacagct ctgaacgagcccaccattgactacggattccagaggctacagaaagtcattcccagacac cccggagaccccgagaggctgcccaaggaagtgctgctgaagcgggcggccgacttggca gaagccctgtacggagtgcccggcagtaaccaggagctgctcctgaagcgcgcggcggac gtggccgaggctctgtacagcaccccccgcgcacccgggccgctcgcacccctggccccg agccacccacaccccgccgtcgtgggcatcaacgccttcagcagcccgctggccatcgcc gtcggggacgccaccccggggcccgagccgggctacgcgcgcagctgcagcagcgcgtcc ccccgcgggttcgcgcccagccccggctcgcagcagagcggctacggcggcggcctcgga gctggcctgggcggctacggcgcgccgggcgtggccggcctcggcgtgcctgggtccccc agcttcctcaatggctccaccgccacctcgcccttcgccatcatgccctctagccccccg ctggcggctgcctcctccatgtccctcccggccgctgcccccaccaccagcgtgttctcc ttctcgcctgtcaacatgatctccgccgtcaaacagaggagcgccttcgcccccgtgctg cgccccccaagctccccaccccaggcctgccccagagcccacggagaggggcttccagga aggaagggcccttgtggagcagctgggctacaggggcctgctctgtccacatctcaccag tgcctcatgctggctaacctgctcttcttggaggacggagagcagggagctctgctgggg tctgcagctgttcccatggagcccggactggaggtccctctgggattcacagccacaccc cggatggtggcacagacagatgcagggccagggccatgggcggacctcaacccgtga