Abstract
The eukaryotic genome is primarily replicated by two DNA polymerases, Pol ε and Pol δ, that function on the leading and lagging strands, respectively. Previous studies have established recruitment mechanisms whereby Cdc45-Mcm2-7-GINS (CMG) helicase binds Pol ε and tethers it to the leading strand, and PCNA (proliferating cell nuclear antigen) binds tightly to Pol δ and recruits it to the lagging strand. The current report identifies quality control mechanisms that exclude the improper polymerase from a particular strand. We find that the replication factor C (RFC) clamp loader specifically inhibits Pol ε on the lagging strand, and CMG protects Pol ε against RFC inhibition on the leading strand. Previous studies show that Pol δ is slow and distributive with CMG on the leading strand. However, Saccharomyces cerevisiae Pol δ-PCNA is a rapid and processive enzyme, suggesting that CMG may bind and alter Pol δ activity or position it on the lagging strand. Measurements of polymerase binding to CMG demonstrate Pol ε binds CMG with a Kd value of 12 nM, but Pol δ binding CMG is undetectable. Pol δ, like bacterial replicases, undergoes collision release upon completing replication, and we propose Pol δ-PCNA collides with the slower CMG, and in the absence of a stabilizing Pol δ-CMG interaction, the collision release process is triggered, ejecting Pol δ on the leading strand. Hence, by eviction of incorrect polymerases at the fork, the clamp machinery directs quality control on the lagging strand and CMG enforces quality control on the leading strand.
Highlights
The eukaryotic genome is primarily replicated by two DNA polymerases, Pol e and Pol δ, that function on the leading and lagging strands, respectively
We and others have shown that S. cerevisiae Pol δ–PCNA is rapid, over 100 bp/s, and its processivity varies depending on ionic strength [12, 13]
We have shown previously that a reconstituted 31 protein system consisting of CMG, Pol e, Pol δ, Pol α, replication factor C (RFC), PCNA, and replication protein A (RPA), a total of 31 distinct polypeptides, recapitulates the cellular findings that Pol e
Summary
RFC Underlies Quality Control of Pol e on the Lagging Strand. We have shown previously that a reconstituted 31 protein system consisting of CMG, Pol e, Pol δ, Pol α, RFC, PCNA, and RPA, a total of 31 distinct polypeptides, recapitulates the cellular findings that Pol e. Polymerase quality control reactions are not needed for bacterial replisomes, because identical polymerases extend both the leading and lagging strand While investigating these eukaryotic quality control processes we noticed that RFC sometimes inhibits Pol e, a paradoxical observation because Pol e has been shown to be stimulated by PCNA [12]. To understand this perplexing phenomenon we titrated RFC into reactions containing PCNA and primed ssDNA, and compared results using either Pol e or Pol δ (Fig. 1).
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