<strong>CHEM</strong> <strong>165</strong>,<strong>265</strong>/<strong>BIMM</strong> <strong>162</strong>/<strong>BGGN</strong> <strong>262</strong><strong>REFERENCE</strong> <strong>LISTS</strong>E. 3D Reconstruction from Electron Micrographs (Cont'd)Single Particles (Icosahedral) (Cont'd)Biological Results – Unstained, Vitrified Viruses (Cont’d)Yeager, M., J. A. Berriman, T. S. Baker and A. R. Bellamy (1994) Three-dimensional structure of the rotavirushaemagglutinin VP4 by cryo-electron microscopy and difference map analysis. EMBO Journal 13:1011-1018.Zhou, Z. H., B. V. V. Prasad, J. Jakana, F. J. Rixon and W. Chiu (1994) Protein subunit structures in theherpes simplex virus A-capsid determined from 400kV spot-scan electron cryomicroscopy. J. Mol. Biol.242:456-469.Butcher, S. J., D. H. Bamford and S. D. Fuller (1995) DNA packaging orders the membrane of bacteriophagePRD1. EMBO J. 14:6078-6086.Cheng, R. H., R. J. Kuhn, N. H. Olson, M. G. Rossmann, H.-K. Choi, T. J. Smith and T. S. Baker (1995)Three-dimensional structure of an enveloped alphavirus with T=4 icosahedral symmetry. Cell 80:621-630.Fuller, S. D., J. A. Berriman, S. J. Butcher and B. E. Gowen (1995) Low pH induces swiveling of theglycoprotein heterodimers in the Semiliki forest virus spike complex. Cell 81:715-725.Ilag, L. L., N. H. Olson, T. Dokland, C. L. Music, R. H. Cheng, Z. Bowen, R. McKenna, M. G. Rossmann, T. S.Baker and N. L. Incardona (1995) DNA packaging intermediates of bacteriophage φX174. Structure 3:353-363Marvik, O. J., T. Dokland, R. H. Nokling, E. Jacobson, T. Larsen and B. H. Lindquist (1995) <strong>The</strong> capsid sizedeterminingprotein sid forms an external scaffold an phage P4 procapsids. J. Mol. Biol. 251:59-75.Smith, T. J., R. H. Cheng, N. H. Olson, P. Peterson, E. Chase, R. J. Kuhn and T. S. Baker (1995) Putativereceptor binding sites on enveloped viruses as visualized by cryo-electron microscopy. Proc. Natl. Acad.Sci. USA 92:10648-10652.Speir, J. A., S. Munshi, G. Wang, T. S. Baker and J. E. Johnson (1995) Structures of the native and swollenforms of cowpea chlorotic mottle virus determined by X-ray crystallography and cryo-electron microscopy.Structure 3:63-78.Trus, B. L., F. L. Homa, F. P. Gooy, W. W. Newcomb, D. R. Thompson, N. Cheng, J. C. Brown and A. C.Steven (1995) Herpes simplex virus capsids assembled in insect cells infected with recombinantbaculoviruses: structural authenticity and localization of VP26. J. Virol. 69:7362-7366.Zhao, X., J. M. Fox, N. H. Olson, T. S. Baker and M. J. Young (1995) In vitro assembly of cowpea chloroticmottle virus from coat protein expressed in Escherichia coli and in vitro-transcribed viral cDNA. Virology207:486-494.Zhou, Z. H., J. He, J. Jakana, J. D. Tatman, F. J. Rixon and W. Chiu (1995) Assembly of VP26 in herpessimplex virus-1 inferred from structures of wild-type and recombinant capsids. Nat. Struct. Biol. 2:1026-1030.Belnap, D. M., N. H. Olson, N. M. Cladel, W. W. Newcomb, J. C. Brown, J. W. Kreider, N. D. Christensen andT. S. Baker (1996) Conserved features in papillomavirus and polyomavirus capsids. J. Mol. Biol. 259:249-263.Booy, F. P., B. L. Trus, A. J. Davison and A. C. Steven (1996) <strong>The</strong> capsid architecture of channel catfishvirus, an evolutionary distant herpesvirus, is largely conserved in the absence of discernable sequencehomology with herpes simplex virus. Virology 215:134-141.Böttcher, B. and R. A. Crowther (1996) Difference imaging reveals ordered regions of RNA in turnip yellowmosaic virus. Structure 4:387-394.Chipman, P. R., M. Agbandje-McKenna, S. Kajigaya, K. E. Brown, N. S. Young, T. S. Baker and M. G.Rossmann (1996) Cryo-electron microscopy studies of empty capsids of human parvovirus B19 complexedwith its cellular receptor. Proc. Natl. Acad. Sci. USA 93:7502-7506.Prasad, B. V. V., R. Rothnagel, C. Q.-Y. Zeng, J. Jakana, J. A. Lawton, W. Chiu and M. K. Estes (1996)Visualization of ordered genomic RNA and localization of transcriptional complexes in rotavirus. Nature382:471-473.40
<strong>CHEM</strong> <strong>165</strong>,<strong>265</strong>/<strong>BIMM</strong> <strong>162</strong>/<strong>BGGN</strong> <strong>262</strong><strong>REFERENCE</strong> <strong>LISTS</strong>E. 3D Reconstruction from Electron Micrographs (Cont'd)Single Particles (Icosahedral) (Cont'd)Biological Results – Unstained, Vitrified Viruses (Cont’d)Schoehn, G., P. Fender, J. Chroboczek and E. A. Hewat (1996) Adenovirus 3 penton dodecahedron exhibitsstructural changes of the base on fibre binding. EMBO J. 15:6841-6848.Shaw, A. L., S. K. Samal, K. Subramanian and B. V. V. Prasad (1996) <strong>The</strong> structure of aquareovirus showshow the different geometries of the two layers of the capsid are reconciled to provide symmetricalinteractions and stabilization. Structure 4:957-967.Thuman-Commike, P. A., B. Greene, J. Jakana, B. V. V. Prasad, J. King, P. E. Prevelige Jr. and W. Chui(1996) Three-dimensional structure of scaffolding containing phage p22 procapsids by electron cryomicroscopy.J. Mol. Biol. 260:85-98.Trus, B. L., F. P. Booy, W. W. Newcomb, J. C. Brown, F. L. Homa, D. R. Thomsen and A. C. Steven (1996)<strong>The</strong> herpes simplex virus procapsid: structure, conformational changes upon maturation, and roles of thetriplex proteins VP19c and VP23 in assembly. J. Mol. Biol. 263:447-462.Zlotnick, A., N. Cheng, J. F. Conway, F. P. Booy, A. C. Steven, S. J. Stahl and P. T. Wingfield (1996)Dimorphism of hepatitis B virus capsids is strongly influenced by the C-terminus of the capsid protein.Biochemistry 35:7412-7421.Böttcher, B., N. A. Kiselev, V. Y. Stel'mashchuk, N. A. Perevozchikova, A. V. Borisov and R. A. Crowther(1997) Three-dimensional structure of infectious bursal disease virus determined by electroncryomicroscopy. J. Virol. 71:325-330.•Böttcher, B., S. A. Wynne and R. A. Crowther (1997) Determination of the fold of the core protein of hepatitisB virus by electron microscopy. Nature 386:88-91. Better than 8Å resolution!!!Butcher, S. J., T. Dokland, P. M. Ojala, D. H. Bamford and S. D. Fuller (1997) Intermediates in the assemblypathway of the double-stranded RNA virus φ6. EMBO J. 16:4477-4487.Caston, J. R., B. L. Trus, F. P. Booy, R. B. Wickner, J. S. Wall and A. C. Steven (1997) Structure of L-A virus:A specialized compartment for the transcription and replication of double-stranded RNA. J. Cell Biol.138:975-985.•Conway, J. F., N. Cheng, A. Zlotnick, P. T. Wingfield, S. J. Stahl and A. C. Steven (1997) Visualization of a4-helix bundle in the hepatitis B virus capsid by cryo-electron microscopy. Nature 386:91-94. Better than10Å resolution!!!Grimes, J. M., J. Jakana, M. Ghosh, A. K. Basak, P. Roy, W. Chiu, D. I. Stuart and B. V. V. Prasad (1997) Anatomic model of the outer layer of the bluetongue virus core derived from x-ray crystallography and electroncryomicroscopy. Structure 5:885-893.Hewat, E. A., N. Verdaguer, I. Fita, W. Blakemore, S. Brookes, A. King, J. Newman, E. Domingo, M. G. Mateuand D. I. Stuart (1997) Structure of the complex of an Fab fragment of a neutralizing antibody with foot-andmouthdisease virus: positioning of a highly mobile antigenic group. EMBO J. 16:1492-1500.Kumar, A., V. S. Reddy, V. Yusibov, P. R. Chipman, Y. Hata, I. Fita, K. Fukuyama, M. G. Rossmann, L. S.Loesch-Fries, T. S. Baker and J. E. Johnson (1997) <strong>The</strong> structure of alfalfa mosaic virus capsid proteinassembled as a T=1 icosahedral particle at 4.0-Å resolution. J. Virol. 71:7911-7916.Lawton, J. A., M. K. Estes and B. V. V. Prasad (1997) Three-dimensional visualization of mRNA release fromactively transcribing rotavirus particles. Nat. Struct. Biol. 4:118-121.Lawton, J. A., C. Q.-Y. Zeng, S. K. Mukherjee, J. Cohen, M. K. Estes and B. V. V. Prasad (1997) Threedimensionalstructural analysis of recombinant rotavirus-like particles with intact and amino-terminal-deletedVP2: implications for the architecture of the VP2 capsid layer. J. Virol. 71:7353-7360.Luongo, C. L., K. A. Dryden, D. L. Farsetta, R. L. Margraf, T. F. Severson, N. H. Olson, B. N. Fields, T. S.Baker and M. L. Nibert (1997) Localization of a C-terminal region of λ2 protein in reovirus cores. J. Virol.71:8035-8040.41
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