Pleiotropic effects resulting from mutations in genes for ribosomal proteins: analysis of revertants from streptomycin dependence

In order to study the functions of the individual ribosomal proteins and their interaction, a group of revertants from streptomycin dependence to independence was analyzed. Reversion from dependence resulted from a number of different mutational events, all resulting in altered ribosome function. The mutants selected for study exhibited extensive pleiotropy—in addition to the elimination of the requirement for streptomycin for growth, the strains differed from the dependent parent and each other in growth rate, level of streptomycin resistance, effect of antibiotics on viability, rate of subunit assembly in vivo, affinity of isolated ribosomes for streptomycin and functionality of ribosomes in various cell-free assays.There appear to be strong correlations between the level of resistance to streptomycin in growing cells and the ability of the isolated ribosomes to bind streptomycin, the effect of antibiotic on cell-free protein synthesis programmed with natural message (but not poly(U)) and the degree of translational fidelity. There seems to be no relation between level of antibiotic resistance and the overall growth rate, the presence of a defect in ribosome assembly or the ribosomal protein altered by the mutation. Mutations in genes for 30 S proteins S4 and S5 can result in the same phenotype, while different changes in S4 in otherwise isogenic strains result in widely varying phenotypes.The wide variety of effects resulting from single mutational events suggests that each of these changes in a ribosomal protein changes the conformation of the ribosome or its ability to undergo configurational changes.