Nicholas P Horan scite author profile

The Escherichia coli DNA replication machinery has been used as a road map to uncover design rules that enable DNA duplication with high efficiency and fidelity. Although the enzymatic activities of the replicative DNA Pol III are well understood, its dynamics within the replisome are not. Here, we test the accepted view that the Pol III holoenzyme remains stably associated within the replisome. We use in vitro single-molecule assays with fluorescently labeled polymerases to demonstrate that the Pol III* complex (holoenzyme lacking the β2 sliding clamp), is rapidly exchanged during processive DNA replication. Nevertheless, the replisome is highly resistant to dilution in the absence of Pol III* in solution. We further show similar exchange in live cells containing labeled clamp loader and polymerase. These observations suggest a concentration-dependent exchange mechanism providing a balance between stability and plasticity, facilitating replacement of replisomal components dependent on their availability in the environment.DOI: http://dx.doi.org/10.7554/eLife.23932.001

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A direct proofreader–clamp interaction stabilizes the Pol III replicase in the polymerization mode

Jergic

Horan

Elshenawy

et al. 2013

EMBO J

112

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Processive DNA synthesis by the aeh core of the Escherichia coli Pol III replicase requires it to be bound to the b 2 clamp via a site in the a polymerase subunit. How the e proofreading exonuclease subunit influences DNA synthesis by a was not previously understood. In this work, bulk assays of DNA replication were used to uncover a non-proofreading activity of e. Combination of mutagenesis with biophysical studies and single-molecule leading-strand replication assays traced this activity to a novel b-binding site in e that, in conjunction with the site in a, maintains a closed state of the aeh-b 2 replicase in the polymerization mode of DNA synthesis. The e-b interaction, selected during evolution to be weak and thus suited for transient disruption to enable access of alternate polymerases and other clamp binding proteins, therefore makes an important contribution to the network of protein-protein interactions that finely tune stability of the replicase on the DNA template in its various conformational states.

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Proofreading exonuclease on a tether: the complex between the E. coli DNA polymerase III subunits α, ε, θ and β reveals a highly flexible arrangement of the proofreading domain

Ozawa

Horan

Robinson

et al. 2013

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A complex of the three (αεθ) core subunits and the β2 sliding clamp is responsible for DNA synthesis by Pol III, the Escherichia coli chromosomal DNA replicase. The 1.7 Å crystal structure of a complex between the PHP domain of α (polymerase) and the C-terminal segment of ε (proofreading exonuclease) subunits shows that ε is attached to α at a site far from the polymerase active site. Both α and ε contain clamp-binding motifs (CBMs) that interact simultaneously with β2 in the polymerization mode of DNA replication by Pol III. Strengthening of both CBMs enables isolation of stable αεθ:β2 complexes. Nuclear magnetic resonance experiments with reconstituted αεθ:β2 demonstrate retention of high mobility of a segment of 22 residues in the linker that connects the exonuclease domain of ε with its α-binding segment. In spite of this, small-angle X-ray scattering data show that the isolated complex with strengthened CBMs has a compact, but still flexible, structure. Photo-crosslinking with p-benzoyl-L-phenylalanine incorporated at different sites in the α-PHP domain confirm the conformational variability of the tether. Structural models of the αεθ:β2 replicase complex with primer-template DNA combine all available structural data.

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Nicholas P Horan

Single-molecule visualization of fast polymerase turnover in the bacterial replisome

A direct proofreader–clamp interaction stabilizes the Pol III replicase in the polymerization mode

Proofreading exonuclease on a tether: the complex between the E. coli DNA polymerase III subunits α, ε, θ and β reveals a highly flexible arrangement of the proofreading domain

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