The Saccharomyces cerevisiae Rdh54 protein is a member of the Swi2/Snf2 family of DNA translocases required for meiotic and mitotic recombination and DNA repair. Rdh54 interacts with the general recombinases Rad51 and Dmc1 and promotes D-loop formation with either recombinase. Rdh54 also mediates the removal of Rad51 from undamaged chromatin in mitotic cells, which prevents formation of nonrecombinogenic complexes that can otherwise become toxic for cell growth. To determine which of the mitotic roles of Rdh54 are dependent on Rad51 complex formation, we finely mapped the Rad51 interaction domain in Rdh54, generated N-terminal truncation variants, and characterized their attributes biochemically and in cells. Here, we provide evidence suggesting that the N-terminal region of Rdh54 is not necessary for the response to the DNA-damaging agent methyl methanesulfonate. However, truncation variants missing 75-200 residues at the N terminus are sensitive to Rad51 overexpression. Interestingly, a hybrid protein containing the N-terminal region of Rad54, responsible for Rad51 interaction, fused to the Swi2/Snf2 core of Rdh54 is able to effectively complement the sensitivity to both methyl methanesulfonate and excess Rad51 in rdh54 null cells. Altogether, these results reveal a distinction between damage sensitivity and Rad51 removal with regard to Rdh54 interaction with Rad51.
Keywords: Chromatin Remodeling; DNA Damage Response; DNA Recombinases; DNA Recombination; DNA Repair; DNA Translocases; DNA-Protein Interactions; Genomic Instability; Rad51.