Temperature-sensitive recA mutant of Escherichia coli K-12: deoxyribonucleic acid metabolism after ultraviolet irradiation.

Abstract

A mutant of Escherichia coli K-12 temperature sensitive for genetic recombination was investigated and found to carry a mutation that could be cotransduced with cysC and hence could be in the recA gene. To determine whether recA+ can complement this mutation, matings were carried out at 35 and 40 C between Hfr donors that transfer recA+ or recA1 early and recipients carrying wild-type or mutant alleles. It was found that recA+ but not recA1 complements this mutation in zygotic temporary partial diploids. The mutant allele was accordingly designated recA44. A transductant carrying recA44 behaved normally at low temperatures but more like recA- strains at high temperatures with respect to recombinant colony formation in Hfr matings, cell survival, and deoxyribonucleic acid (DNA) synthesis after ultraviolet irradiation, cellular DNA breakdown, and prophage induction when lysogenic for lambda. Alkaline sucrose sedimentation studies of DNA from recA44 cells showed that short DNA molecules synthesized immediately after ultraviolet irradiation increased in molecular weight during subsequent incubation at 32 C but not at 45 C. Hence, recA+ is required for this molecular weight increase. Cells exposed to ultraviolet light synthesized DNA that remained of low molecular weight during a 40-min incubation at 32 C. This material increased in molecular weight in recArut not in recA44 cells during subsequent incubation at 45 C. Thus, the availability of recA+ during the first 40 min at 32 C after irradiation did not obviate the need for recA+ in the subsequent phases of this post-replication repair process.