Separation-of-Function Mutations inSaccharomyces cerevisiae MSH2 That Confer Mismatch Repair Defects but Do Not Affect Nonhomologous-Tail Removal during Recombination

ABSTRACT Yeast Msh2p forms complexes with Msh3p and Msh6p to repair DNA mispairs that arise during DNA replication. In addition to their role in mismatch repair (MMR), the MSH2 and MSH3gene products are required to remove 3′ nonhomologous DNA tails during genetic recombination. The mismatch repair genes MSH6,MLH1, and PMS1, whose products interact with Msh2p, are not required in this process. We have identified mutations in MSH2 that do not disrupt genetic recombination but confer a strong defect in mismatch repair. Twenty-four msh2mutations that conferred a dominant negative phenotype for mismatch repair were isolated. A subset of these mutations mapped to residues in Msh2p that were analogous to mutations identified in human nonpolyposis colorectal cancer msh2 kindreds. Approximately half of the these MMR-defective mutations retained wild-type or nearly wild-type activity for the removal of nonhomologous DNA tails during genetic recombination. The identification of mutations in MSH2 that disrupt mismatch repair without affecting recombination provides a first step in dissecting the Msh-effector protein complexes that are thought to play different roles during DNA repair and genetic recombination.

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Requirement of Mismatch Repair Genes MSH2 and MSH3 in the RAD1-RAD10 Pathway of Mitotic Recombination in Saccharomyces cerevisiae

Genetics ◽

10.1093/genetics/142.3.727 ◽

1996 ◽

Vol 142 (3) ◽

pp. 727-736 ◽

Cited By ~ 5

Author(s):

Murat Saparbaev ◽

Louise Prakash ◽

Satya Prakash

Keyword(s):

Saccharomyces Cerevisiae ◽

Mismatch Repair ◽

Genetic Recombination ◽

Mitotic Recombination ◽

Mismatch Repair Genes ◽

Homologous Integration ◽

Linear Dna ◽

Dna Fragment ◽

Recombination Pathway ◽

Repair Genes

Abstract The RAD1 and RAD10 genes of Saccharomyces cerevisiae are required for nucleotide excision repair and they also act in mitotic recombination. The Rad1-Rad10 complex has a single-stranded DNA endonuclease activity. Here, we show that the mismatch repair genes MSH2 and MSH3 function in mitotic recombination. For both his3 and his4 duplications, and for homologous integration of a linear DNA fragment into the genome, the msh3Δ mutation has an effect on recombination similar to that of the rad1Δ and rad10Δ mutations. The msh2Δ mutation also reduces the rate of recombination of the his3 duplication and lowers the incidence of homologous integration of a linear DNA fragment. Epistasis analyses indicate that MSH2 and MSH3 function in the RAD1-RAD10 recombination pathway, and studies presented here suggest an involvement of the RAD1-RAD10 pathway in reciprocal recombination. The possible roles of Msh2, Msh3, Rad1, and Rad10 proteins in genetic recombination are discussed. Coupling of mismatch binding proteins with the recombinational machinery could be important for ensuring genetic fidelity in the recombination process.

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