Regulation of UvrD Helicase Activity by MutL

Yerdos A. Ordabayev; Binh Nguyen; Anita Niedziela-Majka; Timothy M. Lohman

doi:10.1016/j.jmb.2018.08.022

Regulation of UvrD Helicase Activity by MutL

Yerdos A. Ordabayev, Binh Nguyen, Anita Niedziela-Majka, Timothy M. Lohman

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Escherichia coli UvrD is a superfamily 1 helicase/translocase involved in multiple DNA metabolic processes including methyl-directed mismatch DNA repair. Although a UvrD monomer can translocate along single-stranded DNA, a UvrD dimer is needed for processive helicase activity in vitro. E. coli MutL, a regulatory protein involved in methyl-directed mismatch repair, stimulates UvrD helicase activity; however, the mechanism is not well understood. Using single-molecule fluorescence and ensemble approaches, we find that a single MutL dimer can activate latent UvrD monomer helicase activity. However, we also find that MutL stimulates UvrD dimer helicase activity. We further find that MutL enhances the DNA-unwinding processivity of UvrD. Hence, MutL acts as a processivity factor by binding to and presumably moving along with UvrD to facilitate DNA unwinding.

Original language	English
Pages (from-to)	4260-4274
Number of pages	15
Journal	Journal of Molecular Biology
Volume	430
Issue number	21
DOIs	https://doi.org/10.1016/j.jmb.2018.08.022
State	Published - Oct 19 2018

Keywords

DNA mismatch repair
SF1A helicase
processivity
protein assembly
single-molecule fluorescence

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title = "Regulation of UvrD Helicase Activity by MutL",

abstract = "Escherichia coli UvrD is a superfamily 1 helicase/translocase involved in multiple DNA metabolic processes including methyl-directed mismatch DNA repair. Although a UvrD monomer can translocate along single-stranded DNA, a UvrD dimer is needed for processive helicase activity in vitro. E. coli MutL, a regulatory protein involved in methyl-directed mismatch repair, stimulates UvrD helicase activity; however, the mechanism is not well understood. Using single-molecule fluorescence and ensemble approaches, we find that a single MutL dimer can activate latent UvrD monomer helicase activity. However, we also find that MutL stimulates UvrD dimer helicase activity. We further find that MutL enhances the DNA-unwinding processivity of UvrD. Hence, MutL acts as a processivity factor by binding to and presumably moving along with UvrD to facilitate DNA unwinding.",

keywords = "DNA mismatch repair, SF1A helicase, processivity, protein assembly, single-molecule fluorescence",

author = "Ordabayev, {Yerdos A.} and Binh Nguyen and Anita Niedziela-Majka and Lohman, {Timothy M.}",

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AU - Ordabayev, Yerdos A.

AU - Nguyen, Binh

AU - Niedziela-Majka, Anita

AU - Lohman, Timothy M.

PY - 2018/10/19

Y1 - 2018/10/19

N2 - Escherichia coli UvrD is a superfamily 1 helicase/translocase involved in multiple DNA metabolic processes including methyl-directed mismatch DNA repair. Although a UvrD monomer can translocate along single-stranded DNA, a UvrD dimer is needed for processive helicase activity in vitro. E. coli MutL, a regulatory protein involved in methyl-directed mismatch repair, stimulates UvrD helicase activity; however, the mechanism is not well understood. Using single-molecule fluorescence and ensemble approaches, we find that a single MutL dimer can activate latent UvrD monomer helicase activity. However, we also find that MutL stimulates UvrD dimer helicase activity. We further find that MutL enhances the DNA-unwinding processivity of UvrD. Hence, MutL acts as a processivity factor by binding to and presumably moving along with UvrD to facilitate DNA unwinding.

AB - Escherichia coli UvrD is a superfamily 1 helicase/translocase involved in multiple DNA metabolic processes including methyl-directed mismatch DNA repair. Although a UvrD monomer can translocate along single-stranded DNA, a UvrD dimer is needed for processive helicase activity in vitro. E. coli MutL, a regulatory protein involved in methyl-directed mismatch repair, stimulates UvrD helicase activity; however, the mechanism is not well understood. Using single-molecule fluorescence and ensemble approaches, we find that a single MutL dimer can activate latent UvrD monomer helicase activity. However, we also find that MutL stimulates UvrD dimer helicase activity. We further find that MutL enhances the DNA-unwinding processivity of UvrD. Hence, MutL acts as a processivity factor by binding to and presumably moving along with UvrD to facilitate DNA unwinding.

KW - DNA mismatch repair

KW - SF1A helicase

KW - processivity

KW - protein assembly

KW - single-molecule fluorescence

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ER -

Regulation of UvrD Helicase Activity by MutL

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Keywords

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