The in vitro detection of defects in temperature sensitive RNA polymerases from mutants of Salmonella typhimurium

Abstract

Assay conditions are described which permit detection of cryptic temperature sensitive RNA polymerases in vitro. RNA polymerase was prepared from fifteen different temperature sensitive mutants of Salmonella typhimurium chosen at random from a larger group isolated by localized mutagenesis and uridine suicide techniques. The dependence of enzyme activity on temperature, ionic strength and pH was studied in vitro. Assays at higher ionic strength (0.23 M) and temperature (50°C) distinguish three classes of mutants (Table 2). Activity of seven mutant RNA polymerases (called Class 1) under these conditions was 1% to 5% that of the parental RNA polymerase. Five mutant RNA polymerases (called Class 2) had 18% to 64% of the parental activity and three were not distinguishable from the parental enzyme under these conditions. Mixing experiments showed that the defect in Class 1 mutant enzymes is a property of the enzymes and not due to a diffusible inhibitor. In one case the lesion was shown to reside in the core enzyme. Class 1 mutant RNA polymerases were shown to be irreversibly inactivated during the assay at higher temperature and ionic strength. This suggests that the Class 1 enzymes may be more thermolabile than the wild type enzyme or may fail to be protected from thermal denaturation by formation of a ternary complex with template and product. We conclude that the method used to isolate these mutants (Young et al., 1976) and the assay described here (Table 2) are efficient ways to isolate and detect temperature sensitive RNA polymerase mutants of Salmonella typhimurium.