1LOCUS PX1CG 5386 bp ss-DNA circular PHG 16-JUN-2004 2DEFINITION Coliphage phi-X174, complete genome. 3ACCESSION J02482 M10348 M10379 M10714 M10749 M10750 M10866 M10867 M24859 4 V01128 5VERSION J02482.1 GI:216019 6KEYWORDS . 7SOURCE Enterobacteria phage phiX174 8 ORGANISM Enterobacteria phage phiX174 9 Viruses; ssDNA viruses; Microviridae; Microvirus. 10REFERENCE 1 (bases 1047 to 1094) 11 AUTHORS Ziff,E.B., Sedat,J.W. and Galibert,F. 12 TITLE Determination of the nucleotide sequence of a fragment of 13 bacteriophage phiX 174 DNA 14 JOURNAL Nature New Biol. 241 (106), 34-37 (1973) 15 PUBMED 4349156 16REFERENCE 2 (bases 2370 to 2421) 17 AUTHORS Robertson,H.D., Barrell,B.G., Weith,H.L. and Donelson,J.E. 18 TITLE Isolation and sequence analysis of a ribosome-protected fragment 19 from bacteriophage phiX 174 DNA 20 JOURNAL Nature New Biol. 241 (106), 38-40 (1973) 21 PUBMED 4572838 22REFERENCE 3 (bases 2370 to 2420) 23 AUTHORS Barrell,B.G., Weith,H.L., Donelson,J.E. and Robertson,H.D. 24 TITLE Sequence analysis of the ribosome-protected bacteriophase phiX174 25 DNA fragment containing the gene G initiation site 26 JOURNAL J. Mol. Biol. 92 (3), 377-393 (1975) 27 PUBMED 1095758 28REFERENCE 4 (bases 2365 to 2591) 29 AUTHORS Air,G.M., Blackburn,E.H., Sanger,F. and Coulson,A.R. 30 TITLE The nucleotide and amino acid sequences of the N (5') terminal 31 region of gene G of bacteriophage phiphiX 174 32 JOURNAL J. Mol. Biol. 96 (4), 703-719 (1975) 33 PUBMED 1081600 34REFERENCE 5 (bases 2263 to 2421) 35 AUTHORS Fiddes,J.C. 36 TITLE Nucleotide sequence of the intercistronic region between genes G 37 and F in bacteriophage phiX174 DNA 38 JOURNAL J. Mol. Biol. 107 (1), 1-24 (1976) 39 PUBMED 826639 40REFERENCE 6 (bases 1017 to 1081) 41 AUTHORS Sedat,J., Ziff,E. and Galibert,F. 42 TITLE Direct determination of DNA nucleotide sequences. Structure of 43 large specific fragments of bacteriophage phiX174 DNA 44 JOURNAL J. Mol. Biol. 107 (4), 391-416 (1976) 45 PUBMED 1003475 46REFERENCE 7 (bases 730 to 903) 47 AUTHORS Blackburn,E.H. 48 TITLE Transcription and sequence analysis of a fragment of bacteriophage 49 phiX174 DNA 50 JOURNAL J. Mol. Biol. 107 (4), 417-431 (1976) 51 PUBMED 826641 52REFERENCE 8 (bases 1017 to 1762) 53 AUTHORS Air,G.M., Blackburn,E.H., Coulson,A.R., Galibert,F., Sanger,F., 54 Sedat,J.W. and Ziff,E.B. 55 TITLE Gene F of bacteriophage phiX174. Correlation of nucleotide 56 sequences from the DNA and amino acid sequences from the gene 57 product 58 JOURNAL J. Mol. Biol. 107 (4), 445-458 (1976) 59 PUBMED 1088826 60REFERENCE 9 (bases 2395 to 2922) 61 AUTHORS Air,G.M., Sanger,F. and Coulson,A.R. 62 TITLE Nucleotide and amino acid sequences of gene G of omegaX174 63 JOURNAL J. Mol. Biol. 108 (3), 519-533 (1976) 64 PUBMED 1088827 65REFERENCE 10 (bases 4137 to 4207) 66 AUTHORS Mansfeld,A.D., Vereijken,J.M. and Jansz,H.S. 67 TITLE The nucleotide sequence of a DNA fragment, 71 base pairs in length, 68 near the origin of DNA replication of bacteriophage 0X174 69 JOURNAL Nucleic Acids Res. 3 (10), 2827-2844 (1976) 70 PUBMED 995652 71REFERENCE 11 (bases 4505 to 5374) 72 AUTHORS Brown,N.L. and Smith,M. 73 TITLE The sequence of a region of bacteriophage phiX174 DNA coding for 74 parts of genes A and B 75 JOURNAL J. Mol. Biol. 116 (1), 1-28 (1977) 76 PUBMED 592379 77REFERENCE 12 (bases 1 to 5375) 78 AUTHORS Sanger,F., Air,G.M., Barrell,B.G., Brown,N.L., Coulson,A.R., 79 Fiddes,C.A., Hutchison,C.A., Slocombe,P.M. and Smith,M. 80 TITLE Nucleotide sequence of bacteriophage phi X174 DNA 81 JOURNAL Nature 265 (5596), 687-695 (1977) 82 PUBMED 870828 83REFERENCE 13 (bases 5022 to 5132) 84 AUTHORS Brown,N.L. and Smith,M. 85 TITLE DNA sequence of a region of the phi X174 genome coding for a 86 ribosome binding site 87 JOURNAL Nature 265 (5596), 695-698 (1977) 88 PUBMED 859573 89REFERENCE 14 (bases 5346 to 5386; 1 to 159) 90 AUTHORS Smith,M., Brown,N.L., Air,G.M., Barrell,B.G., Coulson,A.R., 91 Hutchison,C.A. III and Sanger,F. 92 TITLE DNA sequence at the C termini of the overlapping genes A and B in 93 bacteriophage phi X174 94 JOURNAL Nature 265 (5596), 702-705 (1977) 95 PUBMED 859575 96REFERENCE 15 (sites) 97 AUTHORS Fiddes,J.C. 98 TITLE The nucleotide sequence of a viral DNA 99 JOURNAL Sci. Am. 237 (6), 54-67 (1977) 100 PUBMED 929160 101REFERENCE 16 (bases 1 to 5386) 102 AUTHORS Sanger,F., Coulson,A.R., Friedmann,T., Air,G.M., Barrell,B.G., 103 Brown,N.L., Fiddes,J.C., Hutchison,C.A. III, Slocombe,P.M. and 104 Smith,M. 105 TITLE The nucleotide sequence of bacteriophage phiX174 106 JOURNAL J. Mol. Biol. 125 (2), 225-246 (1978) 107 PUBMED 731693 108REFERENCE 17 (bases 1290 to 1302; 1340 to 1430; 1510 to 1570; 1600 to 1750) 109 AUTHORS Air,G.M., Coulson,A.R., Fiddes,J.C., Friedmann,T., Hutchison,C.A. 110 III, Sanger,F., Slocombe,P.M. and Smith,A.J. 111 TITLE Nucleotide sequence of the F protein coding region of bacteriophage 112 phiX174 and the amino acid sequence of its product 113 JOURNAL J. Mol. Biol. 125 (2), 247-254 (1978) 114 PUBMED 731694 115REFERENCE 18 (bases 4256 to 4317) 116 AUTHORS Langeveld,S.A., van Mansfeld,A.D., de Winter,J.M. and Weisbeek,P.J. 117 TITLE Cleavage of single-stranded DNA by the A and A* proteins of 118 bacteriophage phi X174 119 JOURNAL Nucleic Acids Res. 7 (8), 2177-2188 (1979) 120 PUBMED 160544 121REFERENCE 19 (bases 4248 to 4332) 122 AUTHORS Heidekamp,F., Langeveld,S.A., Baas,P.D. and Jansz,H.S. 123 TITLE Studies of the recognition sequence of phi X174 gene A protein. 124 Cleavage site of phi X gene A protein in St-1 RFI DNA 125 JOURNAL Nucleic Acids Res. 8 (9), 2009-2021 (1980) 126 PUBMED 6253953 127REFERENCE 20 (bases 436 to 490; 630 to 669; 930 to 979) 128 AUTHORS Takeshita,M., Kappen,L.S., Grollman,A.P., Eisenberg,M. and 129 Goldberg,I.H. 130 TITLE Strand scission of deoxyribonucleic acid by neocarzinostatin, 131 auromomycin, and bleomycin: studies on base release and nucleotide 132 sequence specificity 133 JOURNAL Biochemistry 20 (26), 7599-7606 (1981) 134 PUBMED 6173064 135REFERENCE 22 (bases 1064 to 1757) 136 AUTHORS Merville,M.P., Piette,J., Lopez,M., Decuyper,J. and van de Vorst,A. 137 TITLE Termination sites of the in vitro DNA synthesis on single-stranded 138 DNA photosensitized by promazines 139 JOURNAL J. Biol. Chem. 259 (24), 15069-15077 (1984) 140 PUBMED 6239864 141REFERENCE 23 (bases 2380 to 2512; 2593 to 2786; 2788 to 2947) 142 AUTHORS Air,G.M., Els,M.C., Brown,L.E., Laver,W.G. and Webster,R.G. 143 TITLE Location of antigenic sites on the three-dimensional structure of 144 the influenza N2 virus neuraminidase 145 JOURNAL Virology 145 (2), 237-248 (1985) 146 PUBMED 2411049 147REFERENCE 24 (bases 449 to 482; 504 to 598; 1047 to 1111) 148 AUTHORS Ueda,K., Morita,J. and Komano,T. 149 TITLE Sequence specificity of heat-labile sites in DNA induced by 150 mitomycin C 151 JOURNAL Biochemistry 23 (8), 1634-1640 (1984) 152 PUBMED 6232949 153COMMENT On Apr 28, 2004 this sequence version replaced gi:15535. 154 [8] intermittent sequences. 155 [15] review; discussion of complete genome. 156 Double checked with sumex tape. 157 Single-stranded circular DNA which codes for eleven proteins. 158 Replicative form is duplex, icosahedron, related to s13 & g4. [21] 159 indicates that mitomycin C reduced with sodium borohydride induced 160 heat-labile sites in DNA most preferentially at dinucleotide 161 sequence 'gt' (especially 'Pu-g-t'). 162 Bacteriophage phi-X174 single stranded DNA molecules were 163 irradiated with near UV light in the presence of promazine 164 derivatives, after priming with restriction fragments or synthetic 165 primers [22]. The resulting DNA fragments were used as templates 166 for in vitro complementary chain synthesis by E.coli DNA polymerase 167 I [22]. More than 90% of the observed chain terminations were 168 mapped one nucleotide before a guanine residue [22]. Photoreaction 169 occurred more predominantly with guanine residues localized in 170 single-stranded parts of the genome [22]. These same guanine 171 residues could also be damaged when the reaction was performed in 172 the dark, in the presence of promazine cation radicals [22]. 173FEATURES Location/Qualifiers 174 source 1..5386 175 /organism="Enterobacteria phage phiX174" 176 /mol_type="genomic DNA" 177 /db_xref="taxon:10847" 178 CDS join(3981..5386,1..136) 179 /function="viral strand synthesis" 180 /note="rf replication" 181 /codon_start=1 182 /transl_table=11 183 /product="A" 184 /protein_id="AAA32570.1" 185 /db_xref="GI:216020" 186 /translation="MVRSYYPSECHADYFDFERIEALKPAIEACGISTLSQSPMLGFH 187 KQMDNRIKLLEEILSFRMQGVEFDNGDMYVDGHKAASDVRDEFVSVTEKLMDELAQCY 188 NVLPQLDINNTIDHRPEGDEKWFLENEKTVTQFCRKLAAERPLKDIRDEYNYPKKKGI 189 KDECSRLLEASTMKSRRGFAIQRLMNAMRQAHADGWFIVFDTLTLADDRLEAFYDNPN 190 ALRDYFRDIGRMVLAAEGRKANDSHADCYQYFCVPEYGTANGRLHFHAVHFMRTLPTG 191 SVDPNFGRRVRNRRQLNSLQNTWPYGYSMPIAVRYTQDAFSRSGWLWPVDAKGEPLKA 192 TSYMAVGFYVAKYVNKKSDMDLAAKGLGAKEWNNSLKTKLSLLPKKLFRIRMSRNFGM 193 KMLTMTNLSTECLIQLTKLGYDATPFNQILKQNAKREMRLRLGKVTVADVLAAQPVTT 194 NLLKFMRASIKMIGVSNLQSFIASMTQKLTLSDISDESKNYLDKAGITTACLRIKSKW 195 TAGGK" 196 CDS join(4497..5386,1..136) 197 /function="shut off host DNA synthesis" 198 /codon_start=1 199 /transl_table=11 200 /product="A*" 201 /protein_id="AAA32571.1" 202 /db_xref="GI:216021" 203 /translation="MKSRRGFAIQRLMNAMRQAHADGWFIVFDTLTLADDRLEAFYDN 204 PNALRDYFRDIGRMVLAAEGRKANDSHADCYQYFCVPEYGTANGRLHFHAVHFMRTLP 205 TGSVDPNFGRRVRNRRQLNSLQNTWPYGYSMPIAVRYTQDAFSRSGWLWPVDAKGEPL 206 KATSYMAVGFYVAKYVNKKSDMDLAAKGLGAKEWNNSLKTKLSLLPKKLFRIRMSRNF 207 GMKMLTMTNLSTECLIQLTKLGYDATPFNQILKQNAKREMRLRLGKVTVADVLAAQPV 208 TTNLLKFMRASIKMIGVSNLQSFIASMTQKLTLSDISDESKNYLDKAGITTACLRIKS 209 KWTAGGK" 210 CDS join(5075..5386,1..51) 211 /function="capsid morphogenesis" 212 /codon_start=1 213 /transl_table=11 214 /product="B" 215 /protein_id="AAA32572.1" 216 /db_xref="GI:216022" 217 /translation="MEQLTKNQAVATSQEAVQNQNEPQLRDENAHNDKSVHGVLNPTY 218 QAGLRRDAVQPDIEAERKKRDEIEAGKSYCSRRFGGATCDDKSAQIYARFDKNDWRIQ 219 PAEFYRFHDAEVNTFGYF" 220 variation 23 221 /note="in am18 and am35 [14]" 222 /replace="t" 223 variation 25 224 /note="ts116 [14]" 225 /replace="c" 226 CDS 51..221 227 /codon_start=1 228 /transl_table=11 229 /product="K" 230 /protein_id="AAA32573.1" 231 /db_xref="GI:216023" 232 /translation="MSRKIILIKQELLLLVYELNRSGLLAENEKIRPILAQLEKLLLC 233 DLSPSTNDSVKN" 234 variation 57 235 /note="am6 [14]" 236 /replace="c" 237 variation 117 238 /note="am6 [14]" 239 /replace="a" 240 CDS 133..393 241 /note="DNA maturation" 242 /codon_start=1 243 /transl_table=11 244 /product="C" 245 /protein_id="AAA32574.1" 246 /db_xref="GI:216024" 247 /translation="MRKFDLSLRSSRSSYFATFRHQLTILSKTDALDEEKWLNMLGTF 248 VKDWFRYESHFVHGRDSLVDILKERGLLSESDAVQPLIGKKS" 249 mRNA 358..3975 250 /product="major transcript" 251 mRNA 358..991 252 /product="minor transcript" 253 CDS 390..848 254 /function="capsid morphogenesis" 255 /codon_start=1 256 /transl_table=11 257 /product="D" 258 /protein_id="AAA32575.1" 259 /db_xref="GI:216025" 260 /translation="MSQVTEQSVRFQTALASIKLIQASAVLDLTEDDFDFLTSNKVWI 261 ATDRSRARRCVEACVYGTLDFVGYPRFPAPVEFIAAVIAYYVHPVNIQTACLIMEGAE 262 FTENIINGVERPVKAAELFAFTLRVRAGNTDVLTDAEENVRQKLRAEGVM" 263 CDS 568..843 264 /function="cell lysis" 265 /codon_start=1 266 /transl_table=11 267 /product="E" 268 /protein_id="AAA32576.1" 269 /db_xref="GI:216026" 270 /translation="MVRWTLWDTLAFLLLLSLLLPSLLIMFIPSTFKRPVSSWKALNL 271 RKTLLMASSVRLKPLNCSRLPCVYAQETLTFLLTQKKTCVKNYVRKE" 272 CDS 848..964 273 /note="core protein; DNA condensation" 274 /codon_start=1 275 /transl_table=11 276 /product="J" 277 /protein_id="AAA32577.1" 278 /db_xref="GI:216027" 279 /translation="MSKGKKRSGARPGRPQPLRGTKGKRKGARLWYVGGQQF" 280 CDS 1001..2284 281 /note="major coat protein" 282 /codon_start=1 283 /transl_table=11 284 /product="F" 285 /protein_id="AAA32578.1" 286 /db_xref="GI:216028" 287 /translation="MSNIQTGAERMPHDLSHLGFLAGQIGRLITISTTPVIAGDSFEM 288 DAVGALRLSPLRRGLAIDSTVDIFTFYVPHRHVYGEQWIKFMKDGVNATPLPTVNTTG 289 YIDHAAFLGTINPDTNKIPKHLFQGYLNIYNNYFKAPWMPDRTEANPNELNQDDARYG 290 FRCCHLKNIWTAPLPPETELSRQMTTSTTSIDIMGLQAAYANLHTDQERDYFMQRYHD 291 VISSFGGKTSYDADNRPLLVMRSNLWASGYDVDGTDQTSLGQFSGRVQQTYKHSVPRF 292 FVPEHGTMFTLALVRFPPTATKEIQYLNAKGALTYTDIAGDPVLYGNLPPREISMKDV 293 FRSGDSSKKFKIAEGQWYRYAPSYVSPAYHLLEGFPFIQEPPSGDLQERVLIRHHDYD 294 QCFQSVQLLQWNSQVKFNVTVYRNLPTTRDSIMTS" 295 CDS 2395..2922 296 /note="major spike protein" 297 /codon_start=1 298 /transl_table=11 299 /product="G" 300 /protein_id="AAA32579.1" 301 /db_xref="GI:216029" 302 /translation="MFQTFISRHNSNFFSDKLVLTSVTPASSAPVLQTPKATSSTLYF 303 DSLTVNAGNGGFLHCIQMDTSVNAANQVVSVGADIAFDADPKFFACLVRFESSSVPTT 304 LPTAYDVYPLNGRHDGGYYTVKDCVTIDVLPRTPGNNVYVGFMVWSNFTATKCRGLVS 305 LNQVIKEIICLQPLK" 306 CDS 2931..3917 307 /function="adsorption" 308 /note="minor spike protein" 309 /codon_start=1 310 /transl_table=11 311 /product="H" 312 /protein_id="AAA32580.1" 313 /db_xref="GI:216030" 314 /translation="MFGAIAGGIASALAGGAMSKLFGGGQKAASGGIQGDVLATDNNT 315 VGMGDAGIKSAIQGSNVPNPDEAAPSFVSGAMAKAGKGLLEGTLQAGTSAVSDKLLDL 316 VGLGGKSAADKGKDTRDYLAAAFPELNAWERAGADASSAGMVDAGFENQKELTKMQLD 317 NQKEIAEMQNETQKEIAGIQSATSRQNTKDQVYAQNEMLAYQQKESTARVASIMENTN 318 LSKQQQVSEIMRQMLTQAQTAGQYFTNDQIKEMTRKVSAEVDLVHQQTQNQRYGSSHI 319 GATAKDISNVVTDAASGVVDIFHGIDKAVADTWNNFWKDGKADGIGSNLSRK" 320 misc_feature 3962 321 /note="transcription start site" 322 rep_origin 4306 323 /note="origin of viral strand synthesis" 324 misc_feature 4899 325 /note="transcription start site" 326ORIGIN 327 1 gagttttatc gcttccatga cgcagaagtt aacactttcg gatatttctg atgagtcgaa 328 61 aaattatctt gataaagcag gaattactac tgcttgttta cgaattaaat cgaagtggac 329 121 tgctggcgga aaatgagaaa attcgaccta tccttgcgca gctcgagaag ctcttacttt 330 181 gcgacctttc gccatcaact aacgattctg tcaaaaactg acgcgttgga tgaggagaag 331 241 tggcttaata tgcttggcac gttcgtcaag gactggttta gatatgagtc acattttgtt 332 301 catggtagag attctcttgt tgacatttta aaagagcgtg gattactatc tgagtccgat 333 361 gctgttcaac cactaatagg taagaaatca tgagtcaagt tactgaacaa tccgtacgtt 334 421 tccagaccgc tttggcctct attaagctca ttcaggcttc tgccgttttg gatttaaccg 335 481 aagatgattt cgattttctg acgagtaaca aagtttggat tgctactgac cgctctcgtg 336 541 ctcgtcgctg cgttgaggct tgcgtttatg gtacgctgga ctttgtggga taccctcgct 337 601 ttcctgctcc tgttgagttt attgctgccg tcattgctta ttatgttcat cccgtcaaca 338 661 ttcaaacggc ctgtctcatc atggaaggcg ctgaatttac ggaaaacatt attaatggcg 339 721 tcgagcgtcc ggttaaagcc gctgaattgt tcgcgtttac cttgcgtgta cgcgcaggaa 340 781 acactgacgt tcttactgac gcagaagaaa acgtgcgtca aaaattacgt gcggaaggag 341 841 tgatgtaatg tctaaaggta aaaaacgttc tggcgctcgc cctggtcgtc cgcagccgtt 342 901 gcgaggtact aaaggcaagc gtaaaggcgc tcgtctttgg tatgtaggtg gtcaacaatt 343 961 ttaattgcag gggcttcggc cccttacttg aggataaatt atgtctaata ttcaaactgg 344 1021 cgccgagcgt atgccgcatg acctttccca tcttggcttc cttgctggtc agattggtcg 345 1081 tcttattacc atttcaacta ctccggttat cgctggcgac tccttcgaga tggacgccgt 346 1141 tggcgctctc cgtctttctc cattgcgtcg tggccttgct attgactcta ctgtagacat 347 1201 ttttactttt tatgtccctc atcgtcacgt ttatggtgaa cagtggatta agttcatgaa 348 1261 ggatggtgtt aatgccactc ctctcccgac tgttaacact actggttata ttgaccatgc 349 1321 cgcttttctt ggcacgatta accctgatac caataaaatc cctaagcatt tgtttcaggg 350 1381 ttatttgaat atctataaca actattttaa agcgccgtgg atgcctgacc gtaccgaggc 351 1441 taaccctaat gagcttaatc aagatgatgc tcgttatggt ttccgttgct gccatctcaa 352 1501 aaacatttgg actgctccgc ttcctcctga gactgagctt tctcgccaaa tgacgacttc 353 1561 taccacatct attgacatta tgggtctgca agctgcttat gctaatttgc atactgacca 354 1621 agaacgtgat tacttcatgc agcgttacca tgatgttatt tcttcatttg gaggtaaaac 355 1681 ctcttatgac gctgacaacc gtcctttact tgtcatgcgc tctaatctct gggcatctgg 356 1741 ctatgatgtt gatggaactg accaaacgtc gttaggccag ttttctggtc gtgttcaaca 357 1801 gacctataaa cattctgtgc cgcgtttctt tgttcctgag catggcacta tgtttactct 358 1861 tgcgcttgtt cgttttccgc ctactgcgac taaagagatt cagtacctta acgctaaagg 359 1921 tgctttgact tataccgata ttgctggcga ccctgttttg tatggcaact tgccgccgcg 360 1981 tgaaatttct atgaaggatg ttttccgttc tggtgattcg tctaagaagt ttaagattgc 361 2041 tgagggtcag tggtatcgtt atgcgccttc gtatgtttct cctgcttatc accttcttga 362 2101 aggcttccca ttcattcagg aaccgccttc tggtgatttg caagaacgcg tacttattcg 363 2161 ccaccatgat tatgaccagt gtttccagtc cgttcagttg ttgcagtgga atagtcaggt 364 2221 taaatttaat gtgaccgttt atcgcaatct gccgaccact cgcgattcaa tcatgacttc 365 2281 gtgataaaag attgagtgtg aggttataac gccgaagcgg taaaaatttt aatttttgcc 366 2341 gctgaggggt tgaccaagcg aagcgcggta ggttttctgc ttaggagttt aatcatgttt 367 2401 cagactttta tttctcgcca taattcaaac tttttttctg ataagctggt tctcacttct 368 2461 gttactccag cttcttcggc acctgtttta cagacaccta aagctacatc gtcaacgtta 369 2521 tattttgata gtttgacggt taatgctggt aatggtggtt ttcttcattg cattcagatg 370 2581 gatacatctg tcaacgccgc taatcaggtt gtttctgttg gtgctgatat tgcttttgat 371 2641 gccgacccta aattttttgc ctgtttggtt cgctttgagt cttcttcggt tccgactacc 372 2701 ctcccgactg cctatgatgt ttatcctttg aatggtcgcc atgatggtgg ttattatacc 373 2761 gtcaaggact gtgtgactat tgacgtcctt ccccgtacgc cgggcaataa cgtttatgtt 374 2821 ggtttcatgg tttggtctaa ctttaccgct actaaatgcc gcggattggt ttcgctgaat 375 2881 caggttatta aagagattat ttgtctccag ccacttaagt gaggtgattt atgtttggtg 376 2941 ctattgctgg cggtattgct tctgctcttg ctggtggcgc catgtctaaa ttgtttggag 377 3001 gcggtcaaaa agccgcctcc ggtggcattc aaggtgatgt gcttgctacc gataacaata 378 3061 ctgtaggcat gggtgatgct ggtattaaat ctgccattca aggctctaat gttcctaacc 379 3121 ctgatgaggc cgcccctagt tttgtttctg gtgctatggc taaagctggt aaaggacttc 380 3181 ttgaaggtac gttgcaggct ggcacttctg ccgtttctga taagttgctt gatttggttg 381 3241 gacttggtgg caagtctgcc gctgataaag gaaaggatac tcgtgattat cttgctgctg 382 3301 catttcctga gcttaatgct tgggagcgtg ctggtgctga tgcttcctct gctggtatgg 383 3361 ttgacgccgg atttgagaat caaaaagagc ttactaaaat gcaactggac aatcagaaag 384 3421 agattgccga gatgcaaaat gagactcaaa aagagattgc tggcattcag tcggcgactt 385 3481 cacgccagaa tacgaaagac caggtatatg cacaaaatga gatgcttgct tatcaacaga 386 3541 aggagtctac tgctcgcgtt gcgtctatta tggaaaacac caatctttcc aagcaacagc 387 3601 aggtttccga gattatgcgc caaatgctta ctcaagctca aacggctggt cagtatttta 388 3661 ccaatgacca aatcaaagaa atgactcgca aggttagtgc tgaggttgac ttagttcatc 389 3721 agcaaacgca gaatcagcgg tatggctctt ctcatattgg cgctactgca aaggatattt 390 3781 ctaatgtcgt cactgatgct gcttctggtg tggttgatat ttttcatggt attgataaag 391 3841 ctgttgccga tacttggaac aatttctgga aagacggtaa agctgatggt attggctcta 392 3901 atttgtctag gaaataaccg tcaggattga caccctccca attgtatgtt ttcatgcctc 393 3961 caaatcttgg aggctttttt atggttcgtt cttattaccc ttctgaatgt cacgctgatt 394 4021 attttgactt tgagcgtatc gaggctctta aacctgctat tgaggcttgt ggcatttcta 395 4081 ctctttctca atccccaatg cttggcttcc ataagcagat ggataaccgc atcaagctct 396 4141 tggaagagat tctgtctttt cgtatgcagg gcgttgagtt cgataatggt gatatgtatg 397 4201 ttgacggcca taaggctgct tctgacgttc gtgatgagtt tgtatctgtt actgagaagt 398 4261 taatggatga attggcacaa tgctacaatg tgctccccca acttgatatt aataacacta 399 4321 tagaccaccg ccccgaaggg gacgaaaaat ggtttttaga gaacgagaag acggttacgc 400 4381 agttttgccg caagctggct gctgaacgcc ctcttaagga tattcgcgat gagtataatt 401 4441 accccaaaaa gaaaggtatt aaggatgagt gttcaagatt gctggaggcc tccactatga 402 4501 aatcgcgtag aggctttgct attcagcgtt tgatgaatgc aatgcgacag gctcatgctg 403 4561 atggttggtt tatcgttttt gacactctca cgttggctga cgaccgatta gaggcgtttt 404 4621 atgataatcc caatgctttg cgtgactatt ttcgtgatat tggtcgtatg gttcttgctg 405 4681 ccgagggtcg caaggctaat gattcacacg ccgactgcta tcagtatttt tgtgtgcctg 406 4741 agtatggtac agctaatggc cgtcttcatt tccatgcggt gcactttatg cggacacttc 407 4801 ctacaggtag cgttgaccct aattttggtc gtcgggtacg caatcgccgc cagttaaata 408 4861 gcttgcaaaa tacgtggcct tatggttaca gtatgcccat cgcagttcgc tacacgcagg 409 4921 acgctttttc acgttctggt tggttgtggc ctgttgatgc taaaggtgag ccgcttaaag 410 4981 ctaccagtta tatggctgtt ggtttctatg tggctaaata cgttaacaaa aagtcagata 411 5041 tggaccttgc tgctaaaggt ctaggagcta aagaatggaa caactcacta aaaaccaagc 412 5101 tgtcgctact tcccaagaag ctgttcagaa tcagaatgag ccgcaacttc gggatgaaaa 413 5161 tgctcacaat gacaaatctg tccacggagt gcttaatcca acttaccaag ctgggttacg 414 5221 acgcgacgcc gttcaaccag atattgaagc agaacgcaaa aagagagatg agattgaggc 415 5281 tgggaaaagt tactgtagcc gacgttttgg cggcgcaacc tgtgacgaca aatctgctca 416 5341 aatttatgcg cgcttcgata aaaatgattg gcgtatccaa cctgca 417// 418