Effects of recB21, recF143, and uvrD152 on recombination in lambda bacteriophage-prophage and Hfr by F- crosses.

The effects of the mutation pairs recB21 recF143 and recB21 uvrD152 on the frequency of genetic recombination were investigated in lambda phage-prophage crosses under homoimmune conditions. To prevent recombinants from being formed by the phage red system, these experiments were performed with phages and prophages carrying red and gam mutations. Both spontaneous and damage-induced recombination was measured, the phages being either undamaged or treated with trimethylpsoralen and 360-nm light to cross-link the phage DNA. Control and damaged phages were allowed to infect lysogenic host cells under conditions in which phage gene expression was repressed and phage DNA replication was blocked by lambda immunity. Although the double mutations recB21 recF143 and recB21 uvrD152 reduced recombination in Hfr by F- crosses to 0.3 to 0.02% of the wild-type controls, the presence of these pairs of mutations in the host lysogens had relatively little effect on the results of the phage-prophage crosses. In the latter system, recB21 recF143 reduced spontaneous and damaged-induced recombination by less than threefold whereas recB21 uvrD152 increased it to three times the wild-type level, the increase being attributable to the uvrD mutation. Evidently, the gene products of recB,C uvrD, and recF wee not needed for lambda phage-prophage recombination under repressed conditions.