Unwinding of Forked DNA Structures by UvrD

Overview

Journal J Mol Biol

Publisher Elsevier

Specialties Microbiology
Molecular Biology

Date 2006 Aug 8

PMID 16890954

Citations 14

Authors

Chris J Cadman

Steven W Matson

Peter McGlynn

Affiliations

Soon will be listed here.

Abstract

Many studies have demonstrated the need for processing of blocked replication forks to underpin genome duplication. UvrD helicase in Escherichia coli has been implicated in the processing of damaged replication forks, or the recombination intermediates formed from damaged forks. Here we show that UvrD can unwind forked DNA structures, in part due to the ability of UvrD to initiate unwinding from discontinuities within the phosphodiester backbone of DNA. UvrD does therefore have the capacity to target DNA intermediates of replication and recombination. Such an activity resulted in unwinding of what would be the parental duplex DNA ahead of either a stalled replication fork or a D-loop formed by recombination. However, UvrD had a substrate preference for fork structures having a nascent lagging strand at the branch point but no leading strand. Furthermore, at such structures the polarity of UvrD altered so that unwinding of the lagging strand predominated. This reaction is reminiscent of the PriC-Rep pathway of replication restart, suggesting that UvrD and Rep may have at least partially redundant functions.

Citing Articles

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Rep and UvrD Antagonize One Another at Stalled Replication Forks and This Is Exacerbated by SSB.

Liu X, Seet J, Shi Y, Bianco P ACS Omega. 2019; 4(3):5180-5196.

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Khan I, Suhasini A, Banerjee T, Sommers J, Kaplan D, Kuper J PLoS One. 2014; 9(11):e113293.

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Mycobacterium tuberculosis DinG is a structure-specific helicase that unwinds G4 DNA: implications for targeting G4 DNA as a novel therapeutic approach.

Thakur R, Desingu A, Basavaraju S, Subramanya S, Rao D, Nagaraju G J Biol Chem. 2014; 289(36):25112-36.

PMID: 25059658 PMC: 4155677. DOI: 10.1074/jbc.M114.563569.

UvrD Participation in Nucleotide Excision Repair Is Required for the Recovery of DNA Synthesis following UV-Induced Damage in Escherichia coli.

Newton K, Courcelle C, Courcelle J J Nucleic Acids. 2012; 2012:271453.

PMID: 23056919 PMC: 3465929. DOI: 10.1155/2012/271453.