Mechanistically distinct roles for Sgs1p in checkpoint activation and replication fork maintenance.
The RecQ helicase Sgs1p forms a complex with the type 1 DNA topoisomerase Top3p that resolves double Holliday junctions resulting from Rad51-mediated exchange. We find, however, that Sgs1p functions independently of both Top3p and Rad51p to stimulate the checkpoint kinase Rad53p when replication forks stall due to dNTP depletion on ... hydroxyurea. Checkpoint activation does not require Sgs1p function as a helicase, and correlates with its ability to bind the Rad53p kinase FHA1 motif directly. On the other hand, Sgs1p's helicase activity is required together with Top3p and the strand-exchange factor Rad51p, to help stabilise DNA polymerase epsilon at stalled replication forks. In this function, the Sgs1p/Top3p complex acts in parallel to the Claspin-related adaptor, Mrc1p, although the sgs1 and mrc1 mutations are epistatic for Rad53p activation. We thus identify two distinct pathways through which Sgs1p contributes to genomic integrity: checkpoint kinase activation requires Sgs1p as a noncatalytic Rad53p-binding site, while the combined Top3p/Sgs1p resolvase activity contributes to replisome stability and recovery from arrested replication forks.
Mesh Terms:
Cell Cycle, Cell Cycle Proteins, DNA Helicases, DNA Replication, DNA Topoisomerases, Type I, Hydroxyurea, Immunoprecipitation, Phosphorylation, Protein-Serine-Threonine Kinases, RecQ Helicases, Saccharomyces cerevisiae Proteins, Two-Hybrid System Techniques
Cell Cycle, Cell Cycle Proteins, DNA Helicases, DNA Replication, DNA Topoisomerases, Type I, Hydroxyurea, Immunoprecipitation, Phosphorylation, Protein-Serine-Threonine Kinases, RecQ Helicases, Saccharomyces cerevisiae Proteins, Two-Hybrid System Techniques
EMBO J.
Date: Jan. 26, 2005
PubMed ID: 15616582
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