Synthesis of unmethylated deoxyribonucleic acid in a dnaB temperature-sensitive mutant of Escherichia coli starved for methionine.

Strain CRT 266, a polyauxotrophic dnaB temperature-sensitive mutant of Escherichia coli K, was investigated for residual deoxyribonucleic acid (DNA) synthesis when returned to the permissive temperature in the absence of protein synthesis. In the presence of methionine, a delayed extra-initiation occurs as well as an erratic long-lasting synthesis. In the absence of methionine, there is no evidence for extra-initiation, whereas the long-lasting synthesis is only slightly depressed. A direct role of methionine independent of protein synthesis in the extra-initiation process is postulated. The largest residual syntheses, with or without methionine, are obtained when (i) bacteria are first grown in a rich medium, (ii) bacteria are shifted to the nonpermissive temperature for 2 h in the same medium, and (iii) bacteria are then starved for aminoacid for 20 h at the permissive temperature. Under these conditions, DNA extracted from methionine-starved cells appears to be a mixture of half-methylated and unmethylated products. The possibility of the occurence of a few methyl groups on the so-called unmethylated DNA is discussed.