Studies on the recombination genes of bacteriophage T4: suppression of uvsX and uvsY mutations by uvsW mutations.

Genes uvsW, uvsX and uvsY are dispensable for T4 growth but are implicated in recombination and in the repair of damaged DNA. We found that large-plaque mutants arose efficiently from small-plaque uvsX and uvsY mutants at 42 degrees and were pseudorevertants containing a new mutation in uvsW. Using reconstructed double mutants, we confirmed that a mutation in uvsW partially increases the burst size and UV resistance of uvsX and uvsY mutants. At 41 degrees the uvsW mutation completely restores the arrest in DNA synthesis caused by mutations in genes uvsX, uvsY and 46, but at 30 degrees it only partially restores DNA synthesis in a gene 46 mutant and does not restore DNA synthesis in uvsX and uvsY mutants. Restored DNA synthesis at 41 degrees was paralleled by the overproduction of single-stranded DNA and gene 32 protein. Based on these findings, we propose that the uvsW gene regulates the production of single-stranded DNA and we discuss the phenotype of uvsW mutants and their suppression of some uvsX and uvsY phenotypes. Infection of restrictive cells with am uvsW mutants revealed a defect in the synthesis of a protein of molecular weight 53,000 daltons, suggesting that this protein is the uvsW gene product.