Correlation of co-ordinated amino acid substitutions with function in viruses related to tobacco mosaic virus.
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A. Lesk | A. Klug | D. Altschuh | A. Bloomer
[1] Keiichi Namba,et al. Structure of tobacco mosaic virus at 3.6 A resolution: implications for assembly. , 1986, Science.
[2] K. Namba,et al. Solving the phase problem in fiber diffraction. Application to tobacco mosaic virus at 3.6 Å resolution , 1985 .
[3] A M Lesk,et al. Helix movements and the reconstruction of the haem pocket during the evolution of the cytochrome c family. , 1985, Journal of molecular biology.
[4] T. Richmond,et al. Solvent accessible surface area and excluded volume in proteins. Analytical equations for overlapping spheres and implications for the hydrophobic effect. , 1984, Journal of molecular biology.
[5] P. Butler,et al. The current picture of the structure and assembly of tobacco mosaic virus. , 1984, The Journal of general virology.
[6] Y. Okada,et al. Nucleotide sequence of the coat protein cistron and the 3' noncoding region of cucumber green mottle mosaic virus (watermelon strain) RNA. , 1983, Virology.
[7] D. Altschuh,et al. Sequence and Antigenic Activity of the Region 93 to 113 of the Coat Protein of Strain U2 of Tobacco Mosaic Virus , 1981 .
[8] A. Lesk,et al. How different amino acid sequences determine similar protein structures: the structure and evolutionary dynamics of the globins. , 1980, Journal of molecular biology.
[9] R. Staden,et al. Protein disk of tobacco mosaic virus at 2.8 Å resolution showing the interactions within and between subunits , 1978, Nature.
[10] K. Holmes,et al. Structure of RNA and RNA binding site in tobacco mosaic virus from 4-Å map calculated from X-ray fibre diagrams , 1977, Nature.
[11] M. Taliansky,et al. The formation of phenotypically mixed particles upon mixed assembly of some tobacco mosaic virus (TMV) strains. , 1977, Virology.
[12] M. V. Regenmortel,et al. Antigenic relationships between strains of tobacco mosaic virus. , 1975 .
[13] A. Klug,et al. Structures and roles of the polymorphic forms of tobacco mosaic virus protein. IV. Control of mode of aggregation of tobacco mosaic virus protein by proton binding. , 1972, Journal of molecular biology.
[14] B. Lee,et al. The interpretation of protein structures: estimation of static accessibility. , 1971, Journal of molecular biology.
[15] J. C. Kendrew,et al. Structure and function of haemoglobin: II. Some relations between polypeptide chain configuration and amino acid sequence , 1965 .
[16] R. Franklin,et al. The radial density distribution in some strains of tobacco mosaic virus. , 1958, Virology.
[17] R. Matthews. Viral taxonomy for the nonvirologist. , 1985, Annual review of microbiology.
[18] T. Blundell,et al. Evolution and the tertiary structure of proteins. , 1984, Annual review of biophysics and bioengineering.
[19] C. Chothia. Principles that determine the structure of proteins. , 1984, Annual review of biochemistry.
[20] Y. Okada,et al. Molecular cloning and nucleotide sequence of the 30K and the coat protein cistron of TMV (tomato strain) genome. , 1983, Nucleic acids research.
[21] A. Gibbs. How ancient are the tobamoviruses? , 1980, Intervirology.
[22] K. Holmes. Protein-RNA interactions during TMV assembly. , 1979, Journal of supramolecular structure.
[23] Y. Otsuki,et al. Production of mixedly coated particles in tobacco mesophyll protoplasts doubly infected by strains of tobacco mosaic virus. , 1978, Virology.
[24] G. Bricogne,et al. The structure of the protein disk of tobacco mosaic virus to 5 Å resolution , 1976, Nature.
[25] D. Caspar,et al. ASSEMBLY AND STABILITY OF THE TOBACCO MOSAIC VIRUS PARTICLE. , 1963, Advances in protein chemistry.