Degradation of Escherichia coli DNA: evidence for limitation in vivo by protein X, the recA gene product.

Overview

DNA is more extensively degraded after it is damaged in recA mutants of E. coli than in wild type cells. All data presented here are consistent with the recA gene product, protein X, being an inhibitor of nalidixic acid induced degradation of the bulk DNA (but not of newly replicated DNA). Production of protein X also is correlated with appearance of various "S.O.S." repair functions. Evidence was obtained by comparing the rates of protein X synthesis and solubilization of uniformly-labeled DNA in intact cells, incubated in the presence of nalidixic acid. A set of mutants at the lexA locus produced protein X at different rates and degraded their DNA at rates which were inversely correlated to their rates of protein X production. A low concentration of rifampicin quite specifically inhibited protein X production by wild type E. coli, and allowed more rapid DNA degradation. After the DNA was damaged by the incubation of cells in the presence of nalidixic acid, cells preloaded with protein X degraded their DNA more slowly. We propose that protein X could protect DNA against degradation by binding to single-stranded regions, thereby inhibiting nuclease action.