The relationship between the spoT gene, the synthesis of stable RNA, ribosomal proteins, and the ββ′ subunits of RNA polymerase following a nutritional shiftup of Escherichia coli

Abstract

The level of ppGpp and rates of synthesis of stable RNA, ribosomal protein, and the β and β′ subunits of RNA polymerase were measured following a nutritional shiftup in Escherichia coli strains, NF 929 (spoT+) and NF 930 (spoT'−). In the spoT+ strain, ppGpp levels decreased 50% within 2 min following shiftup, and the rates of synthesis of stable RNA, ribosomal proteins, and the β and β′ subunits of RNA polymerase increased with little or no lag. In contrast, in the spoT− strain, ppGpp levels transiently increased 40% during the first 6 min following shiftup. An inhibition in the rate of stable RNA synthesis and a delay in the increased synthesis of ribosomal proteins and β and β′ subunits occurred concurrently with the transient increase in ppGpp. In addition, the DNA-dependent synthesis in vitro of the β and β′ subunits of RNA polymerase was inhibited by physiological levels of ppGpp. Because of the timing and magnitude of the changes in ppGpp levels in the spoT− strain versus the timing when the new rates of stable RNA, ribosomal protein, and β and β′ subunits synthesis are reached, it is concluded that ppGpp is not the sole element regulating the expression of these genes.