Evidence for the existence of protomers in the assembly of encephalomyocarditis virus.

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Two capsid precursor subunits, which sediment on glycerol gradients at 13S and 14S, respectively, have been identified in cytoplasmic extracts of encephalomyocarditis virus-infected HeLa cells. The 13S subunit, which was detected after a 10-min pulse label with -3H-labeled amino acids, contained only capsid precursor chain A (mol wt 100,000). When the 10-min pulse label in such cells was chased for 20 min, the A-containing 13S subunit in the cytoplasmic extracts was replaced by a 14S subunit containing equimolar proportions of three chains: epsilon, gamma, and alpha. This (epsilon, gamma, alpha)-containing 14S subunit could be dissociated into 6S subunits with the same polypeptide composition. The sedimentation properties and the polypeptide stoichiometry of these three precursor subunits, when compared with those of the 13S, (beta, gamma, alpha)(5), and 5S, (beta, gamma, alpha), subunits derived by acid dissociation of purified virions, suggest the following structural assignments: 13S, (A)(5); 14S, (epsilon, gamma, alpha)(5), 6S, (epsilon, gamma, alpha). The molecular weights of the individually isolated capsid chains were determined by gel filtration in 6 M guanidine hydrochloride to be: epsilon, 36,000; alpha, 32,000; beta, 29,500; gamma, 26,500; and delta, 7,800. With the exception of the delta-chain, these values are in reasonable agreement with the values previously determined by electrophoresis on sodium dodecyl sulfatepolyacrylamide gels. These data support the hypothesis that picornavirus capsids are assembled from identical protomers according to the following scheme: (A) leads to (A)(5) leads to (epsilon, gamma, alpha)(5) leads to (delta, beta, gamma, alpha)60-n(epsilon, gamma, alpha)n where n is the number of immature protomers per virion.

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