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Recurrent mismatch binding by MutS mobile clamps on DNA localizes repair complexes nearby
Recurrent mismatch binding by MutS mobile clamps on DNA localizes repair complexes nearby
by Weninge, Keith R. , Case, Brandon C. , Erie, Dorothy A. , Hao, Pengyu , LeBlanc, Sharonda J. , Hingorani, Manju M. , Elston, Timothy C.
in Adenosine Triphosphatases - metabolism / Adenosine Triphosphate - metabolism / Base Pair Mismatch / Biochemistry / Biological Sciences / Clamps / Conformation / Deoxyribonucleic acid / DNA / DNA - chemistry / DNA - genetics / DNA - metabolism / DNA Mismatch Repair / DNA repair / Fluorescence resonance energy transfer / Genomes / Hydrolysis / Mismatch repair / Models, Molecular / Multiprotein Complexes - metabolism / MutL Proteins - chemistry / MutL Proteins - metabolism / MutS DNA Mismatch-Binding Protein - chemistry / MutS DNA Mismatch-Binding Protein - metabolism / Repair / Structure-Activity Relationship
2020
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Recurrent mismatch binding by MutS mobile clamps on DNA localizes repair complexes nearby
by Weninge, Keith R. , Case, Brandon C. , Erie, Dorothy A. , Hao, Pengyu , LeBlanc, Sharonda J. , Hingorani, Manju M. , Elston, Timothy C.
in Adenosine Triphosphatases - metabolism / Adenosine Triphosphate - metabolism / Base Pair Mismatch / Biochemistry / Biological Sciences / Clamps / Conformation / Deoxyribonucleic acid / DNA / DNA - chemistry / DNA - genetics / DNA - metabolism / DNA Mismatch Repair / DNA repair / Fluorescence resonance energy transfer / Genomes / Hydrolysis / Mismatch repair / Models, Molecular / Multiprotein Complexes - metabolism / MutL Proteins - chemistry / MutL Proteins - metabolism / MutS DNA Mismatch-Binding Protein - chemistry / MutS DNA Mismatch-Binding Protein - metabolism / Repair / Structure-Activity Relationship
2020
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Recurrent mismatch binding by MutS mobile clamps on DNA localizes repair complexes nearby
Recurrent mismatch binding by MutS mobile clamps on DNA localizes repair complexes nearby
by Weninge, Keith R. , Case, Brandon C. , Erie, Dorothy A. , Hao, Pengyu , LeBlanc, Sharonda J. , Hingorani, Manju M. , Elston, Timothy C.
in Adenosine Triphosphatases - metabolism / Adenosine Triphosphate - metabolism / Base Pair Mismatch / Biochemistry / Biological Sciences / Clamps / Conformation / Deoxyribonucleic acid / DNA / DNA - chemistry / DNA - genetics / DNA - metabolism / DNA Mismatch Repair / DNA repair / Fluorescence resonance energy transfer / Genomes / Hydrolysis / Mismatch repair / Models, Molecular / Multiprotein Complexes - metabolism / MutL Proteins - chemistry / MutL Proteins - metabolism / MutS DNA Mismatch-Binding Protein - chemistry / MutS DNA Mismatch-Binding Protein - metabolism / Repair / Structure-Activity Relationship
2020

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Recurrent mismatch binding by MutS mobile clamps on DNA localizes repair complexes nearby
Recurrent mismatch binding by MutS mobile clamps on DNA localizes repair complexes nearby
Journal Article

Recurrent mismatch binding by MutS mobile clamps on DNA localizes repair complexes nearby

Weninge, Keith R.,
Case, Brandon C.,
Erie, Dorothy A.,
Hao, Pengyu,
LeBlanc, Sharonda J.,
Hingorani, Manju M.,
Elston, Timothy C.
2020
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Overview
DNA mismatch repair (MMR), the guardian of the genome, commences when MutS identifies a mismatch and recruits MutL to nick the error-containing strand, allowing excision and DNA resynthesis. Dominant MMR models posit that after mismatch recognition, ATP converts MutS to a hydrolysis-independent, diffusive mobile clamp that no longer recognizes the mismatch. Little is known about the postrecognition MutS mobile clamp and its interactions with MutL. Two disparate frameworks have been proposed: One in which MutS–MutL complexes remain mobile on the DNA, and one in which MutL stops MutS movement. Here we use singlemolecule FRET to follow the postrecognition states of MutS and the impact of MutL on its properties. In contrast to current thinking, we find that after the initial mobile clamp formation event, MutS undergoes frequent cycles of mismatch rebinding and mobile clamp reformation without releasing DNA. Notably, ATP hydrolysis is required to alter the conformation of MutS such that it can recognize the mismatch again instead of bypassing it; thus, ATP hydrolysis licenses theMutS mobile clamp to rebind the mismatch. Moreover, interaction with MutL can both trap MutS at the mismatch en route to mobile clamp formation and stop movement of the mobile clamp on DNA. MutS’s frequent rebinding of themismatch, which increases its residence time in the vicinity of the mismatch, coupled with MutL’s ability to trap MutS, should increase the probability that MutS–MutL MMR initiation complexes localize near the mismatch.
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Publisher
National Academy of Sciences
Subject

Adenosine Triphosphatases - metabolism

/ Adenosine Triphosphate - metabolism

/ Base Pair Mismatch

/ Biochemistry

/ Biological Sciences

/ Clamps

/ Conformation

/ Deoxyribonucleic acid

/ DNA

/ DNA - chemistry

/ DNA - genetics

/ DNA - metabolism

/ DNA Mismatch Repair

/ DNA repair

/ Fluorescence resonance energy transfer

/ Genomes

/ Hydrolysis

/ Mismatch repair

/ Models, Molecular

/ Multiprotein Complexes - metabolism

/ MutL Proteins - chemistry

/ MutL Proteins - metabolism

/ MutS DNA Mismatch-Binding Protein - chemistry

/ MutS DNA Mismatch-Binding Protein - metabolism

/ Repair

/ Structure-Activity Relationship

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