Circular dichroism studies on coat proteins of some strains and mutants of tobacco mosaic virus

Abstract

1. 1. Tobacco mosaic virus (TMV) protein has in near ultraviolet a complex but well resolved circular dichroism (CD) spectrum at room temperature. There are seven positive bands at 248, 252, 257, 265, 274, 281 and 291 nm, and a negative one at 296 nm. The CD spectrum is pH-dependent. The shape of the pH-dependence curves and the comparison with CD spectra of model compounds suggest that the bands at 248, 252 and 257 nm are mainly caused by phenylalanyl, those at 265, 274 and 281 nm by tyrosyl, and those at 291 and 296 nm by tryptophanyl side chains. 2. 2. Only insignificant changes of the tertiary structure seem to occur between pH 6.5 and 8.5. Changes in ellipticity of TMV protein during the pH-induced polymerization reaction suggest that: (1) tyrosyl residues are involved in the binding of subunits, (2) phenylalanyl residues seem to be transferred to a less rigid environment, and (3) tryptophanyl residues are not essential for the reaction. 3. 3. The proteins of several TMV strains and mutants studied have similar far ultraviolet CD spectra and apparently do not differ significantly in their structure. Their near ultraviolet CD spectra are, however, different. Replacements involving aliphatic amino acids do not change considerably the near ultraviolet CD spectra. On the other hand, replacements involving aromatic amino acids have a great effect on the spectra rendering possible identification of CD bands and recognition of the aromatic amino acid residues responsible for optical activity.