Correlation between genetic loci and structural differences in the capsid proteins of polyoma virus plaque morphology mutants.

Two plaque morphology variants of polyoma virus (A-2 and 208) showed marked differences in agarose gel electrophoresis of the whole particles, isoelectric focusing of the major capsid protein VP1 (45,000 daltons) and three tryptic peptides (A, B and C) of VP1. No major difference in apparent molecular weight on NaDodSO₄ gels, amino acid composition or carbohydrate detectable by Schiff staining was revealed between the capsid proteins of the two viruses.Correlations have been made between phenotype, portions of the primary amino acid sequence of VP1 and the physical map of polyoma virus DNA by analysis of this protein from large plaque A-2 virus, minute plaque 208 virus and large plaque 208 virus selected after marker rescue with a fragment of polyoma virus DNA generated by the Hpa II restriction enzyme. The interrelationship of these properties was established by taking advantage of the observations of Miller, Cooke and Fried (1976)that heterozygous markers present on heteroduplex DNA are found in 100% of selected progeny and in only 50% of unselected progeny.All five marker rescued isolates selected for large plaque morphology showed only two A-2-specific characters, the absence of peptide C in tryptic maps of VP1 and the aggregation of VP1 on isoelectric focusing. The other four characters which distinguish A-2 and 208 were present or absent in 40–60% of the five isolates, which is close to the expected 50% for unselected markers. Three of the four A-2-specific characters (the presence of peptide A, absence of peptide B and isoelectric point of VP1) have been found to occur coordinately in the marker rescued isolates. The fourth character (electrophoretic mobility of virus particles in agarose gels) segregated independently.The techniques used in this study should find wide application in correlating primary amino acid sequence, nucleotide sequence and phenotype in other systems.