Unbalanced rRNA gene dosage and its effects on rRNA and ribosomal-protein synthesis

Abstract

The synthesis of rRNA was unbalanced by the introduction of plasmids containing rRNA operons with large internal deletions. Significant unbalanced synthesis was achieved only when the deletions affected both 16S and 23S RNA genes or when the deletions affected the 23S RNA gene alone. Although large imbalances in rRNA synthesis resulted from deletions affecting 16S and 23S RNA genes or only 23S RNA genes, excess 16S RNA and defective rRNA species were rapidly degraded. Large imbalances in the synthesis of regions of rRNA did not result in significantly unbalanced synthesis of ribosomal proteins. It therefore is probable that excess intact 16S RNA is degraded because ribosomal proteins are not available for packaging the RNA into ribosomes. Defective RNA species also may be degraded for this reason or because proper ribosome assembly is prevented by the defects in RNA structure. We propose two possible explanations for the finding that unbalanced overproduction of binding sites for feedback ribosomal protein does not result in significant unbalanced translational feedback depression of ribosomal protein mRNAs.