Alternative Mechanisms for Coordinating Polymerase Alpha and MCM Helicase

Overview

Journal Mol Cell Biol

Specialty Cell Biology

Date 2009 Nov 18

PMID 19917723

Citations 29

Authors

Chanmi Lee

Ivan Liachko

Roxane Bouten

Zvi Kelman

Bik K Tye

Affiliations

Soon will be listed here.

Abstract

Functional coordination between DNA replication helicases and DNA polymerases at replication forks, achieved through physical linkages, has been demonstrated in prokaryotes but not in eukaryotes. In Saccharomyces cerevisiae, we showed that mutations that compromise the activity of the MCM helicase enhance the physical stability of DNA polymerase alpha in the absence of their presumed linker, Mcm10. Mcm10 is an essential DNA replication protein implicated in the stable assembly of the replisome by virtue of its interaction with the MCM2-7 helicase and Polalpha. Dominant mcm2 suppressors of mcm10 mutants restore viability by restoring the stability of Polalpha without restoring the stability of Mcm10, in a Mec1-dependent manner. In this process, the single-stranded DNA accumulation observed in the mcm10 mutant is suppressed. The activities of key checkpoint regulators known to be important for replication fork stabilization contribute to the efficiency of suppression. These results suggest that Mcm10 plays two important roles as a linker of the MCM helicase and Polalpha at the elongating replication fork--first, to coordinate the activities of these two molecular motors, and second, to ensure their physical stability and the integrity of the replication fork.

Citing Articles

Stabilization of expandable DNA repeats by the replication factor Mcm10 promotes cell viability.

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Four decades of Eukaryotic DNA replication: From yeast genetics to high-resolution cryo-EM structures of the replisome.

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Ahmed S, Sasikumar J, Laha S, Das S Cancer Metastasis Rev. 2024; 43(4):1353-1371.

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An essential Noc3p dimerization cycle mediates ORC double-hexamer formation in replication licensing.

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