Saccharomyces cerevisiae Srs2 DNA Helicase Selectively Blocks Expansions of Trinucleotide Repeats

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American Society for Microbiology

RESUMO

Trinucleotide repeats (TNRs) undergo frequent mutations in families afflicted with certain neurodegenerative disorders and in model organisms. TNR instability is modulated both by the repeat tract itself and by cellular proteins. Here we identified the Saccharomyces cerevisiae DNA helicase Srs2 as a potent and selective inhibitor of expansions. srs2 mutants had up to 40-fold increased expansion rates of CTG, CAG, and CGG repeats. The expansion phenotype was specific, as mutation rates at dinucleotide repeats, at unique sequences, or for TNR contractions in srs2 mutants were not altered. Srs2 is known to suppress inappropriate genetic recombination; however, the TNR expansion phenotype of srs2 mutants was largely independent of RAD51 and RAD52. Instead, Srs2 mainly functioned with DNA polymerase delta to block expansions. The helicase activity of Srs2 was important, because a point mutant lacking ATPase function was defective in blocking expansions. Purified Srs2 was substantially better than bacterial UvrD helicase at in vitro unwinding of a DNA substrate that mimicked a TNR hairpin. Disruption of the related helicase gene SGS1 did not lead to excess expansions, nor did wild-type SGS1 suppress the expansion phenotype of an srs2 strain. We conclude that Srs2 selectively blocks triplet repeat expansions through its helicase activity and primarily in conjunction with polymerase delta.

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