Studies on ribosomal protein biosynthesis in an RNA polymerase temperature sensitive E. coli mutant

Abstract

In E. coli strain XH56 the synthesis of all RNA species is blocked upon shifting the culture to the non-permissive temperature. The decay of specific messenger RNA species coding for individual ribosomal (r) proteins was followed by measuring the rate of r-protein synthesis by pulse labelling at various times after the shift. The half-lives of the average 30S r-protein and 50S r-protein mRNA species are identical (1.75 min) and shorter than those of the average messenger coding for total cell proteins (2.75 min). Most individual r-protein messengers have a half-life in the same range (1.50–2.00). Only a few r-protein messengers have significantly longer half-lives: S1 (2.80 min), S17 (3.29 min), L29 (2.30 min), L31 (2.30 min), L32 (2.33 min) and L16 (2.60 min). The results indicate that the degradation of most individual r-protein mRNA species is not specifically controlled. After a few min at the non-permissive temperature, all protein synthesis is blocked. The restart of r-protein synthesis was followed after shifting the culture back to the permissive temperature. The recovery of cell growth is very slow. During this period preferential r-protein synthesis was observed. Moreover differential rates of biosynthesis of r-proteins was obtained, it may be indicative of specific regulatory process(es).