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Division of labor at the eukaryotic replication fork.


ABSTRACT: DNA polymerase delta (Pol delta) and DNA polymerase epsilon (Pol epsilon) are both required for efficient replication of the nuclear genome, yet the division of labor between these enzymes has remained unclear for many years. Here we investigate the contribution of Pol delta to replication of the leading and lagging strand templates in Saccharomyces cerevisiae using a mutant Pol delta allele (pol3-L612M) whose error rate is higher for one mismatch (e.g., T x dGTP) than for its complement (A x dCTP). We find that strand-specific mutation rates strongly depend on the orientation of a reporter gene relative to an adjacent replication origin, in a manner implying that >90% of Pol delta replication is performed using the lagging strand template. When combined with recent evidence implicating Pol epsilon in leading strand replication, these data support a model of the replication fork wherein the leading and lagging strand templates are primarily copied by Pol epsilon and Pol delta, respectively.

SUBMITTER: Nick McElhinny SA 

PROVIDER: S-EPMC2654179 | biostudies-literature | 2008 Apr

REPOSITORIES: biostudies-literature

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Division of labor at the eukaryotic replication fork.

Nick McElhinny Stephanie A SA   Gordenin Dmitry A DA   Stith Carrie M CM   Burgers Peter M J PM   Kunkel Thomas A TA  

Molecular cell 20080401 2


DNA polymerase delta (Pol delta) and DNA polymerase epsilon (Pol epsilon) are both required for efficient replication of the nuclear genome, yet the division of labor between these enzymes has remained unclear for many years. Here we investigate the contribution of Pol delta to replication of the leading and lagging strand templates in Saccharomyces cerevisiae using a mutant Pol delta allele (pol3-L612M) whose error rate is higher for one mismatch (e.g., T x dGTP) than for its complement (A x dC  ...[more]

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2020-03-28 | GSE138056 | GEO