An Allele of RFA1 Suppresses RAD52-Dependent Double-Strand Break Repair in Saccharomyces cerevisiae

An Allele of RFA1 Suppresses RAD52-Dependent Double-Strand Break Repair in Saccharomyces cerevisiae

Julianne Smith^a and Rodney Rothstein^a
^a Department of Genetics and Development, Columbia University College of Physician and Surgeons, New York, New York 10032-2704

Corresponding author: Rodney Rothstein, Department of Genetics and Development, Columbia University College of Physicians and Surgeons, 701 West 168th St., New York, NY 10032-2704., rothstein{at}cuccfa.ccc.columbia.edu (E-mail)

Communicating editor: M. LICHTEN

An allele of RFA1, the largest subunit of the single-strandedDNA-binding complex RP-A, was identified as a suppressor ofdecreased direct-repeat recombination in rad1 rad52 double mutants.In this study, we used two LEU2 direct-repeat assays to investigatethe mechanism by which the rfa1-D228Y allele increases recombination.We found that both intrachromatid and sister chromatid recombinationare stimulated in rfa1-D228Y strains. In a rad1 rad52 background,however, the majority of the increased recombination is causedby stimulation of deletion events by an intrachromatid recombinationmechanism that is likely to be single-strand annealing. Studiesin which an HO endonuclease cut was introduced between the twoleu2 copies indicate that the rfa1-D228Y mutation partiallysuppresses the rad52 defect in recovering recombination products.Furthermore, molecular analysis of processing and product formationkinetics reveals that, in a rad52 background, the rfa1-D228Ymutation results in increased levels of recombinant productsand the disappearance of large single-stranded intermediatescharacteristic of rad52 strains. On the basis of these results,we propose that in the absence of wild-type Rad52, the interactionof RP-A with single-stranded DNA inhibits strand annealing,and that this inhibition is overcome by the rfa1-D228Y mutation.

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