A Genomics-Based Screen for Yeast Mutants With an Altered Recombination/End-Joining Repair Ratio

A Genomics-Based Screen for Yeast Mutants With an Altered Recombination/End-Joining Repair Ratio

Thomas E. Wilson^a
^a Department of Pathology, University of Michigan Medical School, Ann Arbor, Michigan 48109-0602

Corresponding author: Thomas E. Wilson, University of Michigan Medical School, 1301 Catherine Rd., M4214 Med Sci I, Box 0602, Ann Arbor, MI 48109-0602., wilsonte{at}umich.edu (E-mail)

Communicating editor: L. S. SYMINGTON

We recently described a yeast assay suitable for genetic screeningin which simple religation nonhomologous end-joining (NHEJ)and single-strand annealing (SSA) compete for repair of an I-SceI-createddouble-strand break. Here, the required allele has been introducedinto an array of 4781 MATa deletion mutants and each strainscreened individually. Two mutants (rad52 and srs2) showed aclear increase in the NHEJ/SSA ratio due to preferential impairmentof SSA, but no mutant increased the absolute frequency of NHEJsignificantly above the wild-type level. Seven mutants showeda decreased NHEJ/SSA ratio due to frank loss of NHEJ, whichcorresponded to all known structural/catalytic NHEJ components(yku70, yku80, dnl4, lif1, rad50, mre11, and xrs2); no new mutantsin this category were identified. A clearly separable and surprisinglylarge set of 16 other mutants showed partial defects in NHEJ.Further examination of these revealed that NEJ1 can entirelyaccount for the mating-type regulation of NHEJ, but that thisregulatory role was distinct from the postdiauxic/stationary-phaseinduction of NHEJ that was deficient in other mutants (especiallydoa1, fyv6, and mck1). These results are discussed in the contextof the minimal set of required proteins and regulatory inputsfor NHEJ.

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