Single-molecule analysis reveals cooperative stimulation of Rad51 filament nucleation and growth by mediator proteins

Homologous recombination (HR) is an essential DNA double-strand break (DSB) repair mechanism, which is frequently inactivated in cancer. During HR, RAD51 forms nucleoprotein filaments on RPA-coated, resected DNA and catalyzes strand invasion into homologous duplex DNA. How RAD51 displaces RPA and as...

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Autores principales: Belan, Ondrej, Barroso, Consuelo, Kaczmarczyk, Artur, Anand, Roopesh, Federico, Stefania, O’Reilly, Nicola, Newton, Matthew D., Maeots, Erik, Enchev, Radoslav I., Martinez-Perez, Enrique, Rueda, David S., Boulton, Simon J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7941204/
https://www.ncbi.nlm.nih.gov/pubmed/33421363
http://dx.doi.org/10.1016/j.molcel.2020.12.020
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author Belan, Ondrej
Barroso, Consuelo
Kaczmarczyk, Artur
Anand, Roopesh
Federico, Stefania
O’Reilly, Nicola
Newton, Matthew D.
Maeots, Erik
Enchev, Radoslav I.
Martinez-Perez, Enrique
Rueda, David S.
Boulton, Simon J.
author_facet Belan, Ondrej
Barroso, Consuelo
Kaczmarczyk, Artur
Anand, Roopesh
Federico, Stefania
O’Reilly, Nicola
Newton, Matthew D.
Maeots, Erik
Enchev, Radoslav I.
Martinez-Perez, Enrique
Rueda, David S.
Boulton, Simon J.
author_sort Belan, Ondrej
collection PubMed
description Homologous recombination (HR) is an essential DNA double-strand break (DSB) repair mechanism, which is frequently inactivated in cancer. During HR, RAD51 forms nucleoprotein filaments on RPA-coated, resected DNA and catalyzes strand invasion into homologous duplex DNA. How RAD51 displaces RPA and assembles into long HR-proficient filaments remains uncertain. Here, we employed single-molecule imaging to investigate the mechanism of nematode RAD-51 filament growth in the presence of BRC-2 (BRCA2) and RAD-51 paralogs, RFS-1/RIP-1. BRC-2 nucleates RAD-51 on RPA-coated DNA, whereas RFS-1/RIP-1 acts as a “chaperone” to promote 3′ to 5′ filament growth via highly dynamic engagement with 5′ filament ends. Inhibiting ATPase or mutation in the RFS-1 Walker box leads to RFS-1/RIP-1 retention on RAD-51 filaments and hinders growth. The rfs-1 Walker box mutants display sensitivity to DNA damage and accumulate RAD-51 complexes non-functional for HR in vivo. Our work reveals the mechanism of RAD-51 nucleation and filament growth in the presence of recombination mediators.
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spelling pubmed-79412042021-03-16 Single-molecule analysis reveals cooperative stimulation of Rad51 filament nucleation and growth by mediator proteins Belan, Ondrej Barroso, Consuelo Kaczmarczyk, Artur Anand, Roopesh Federico, Stefania O’Reilly, Nicola Newton, Matthew D. Maeots, Erik Enchev, Radoslav I. Martinez-Perez, Enrique Rueda, David S. Boulton, Simon J. Mol Cell Article Homologous recombination (HR) is an essential DNA double-strand break (DSB) repair mechanism, which is frequently inactivated in cancer. During HR, RAD51 forms nucleoprotein filaments on RPA-coated, resected DNA and catalyzes strand invasion into homologous duplex DNA. How RAD51 displaces RPA and assembles into long HR-proficient filaments remains uncertain. Here, we employed single-molecule imaging to investigate the mechanism of nematode RAD-51 filament growth in the presence of BRC-2 (BRCA2) and RAD-51 paralogs, RFS-1/RIP-1. BRC-2 nucleates RAD-51 on RPA-coated DNA, whereas RFS-1/RIP-1 acts as a “chaperone” to promote 3′ to 5′ filament growth via highly dynamic engagement with 5′ filament ends. Inhibiting ATPase or mutation in the RFS-1 Walker box leads to RFS-1/RIP-1 retention on RAD-51 filaments and hinders growth. The rfs-1 Walker box mutants display sensitivity to DNA damage and accumulate RAD-51 complexes non-functional for HR in vivo. Our work reveals the mechanism of RAD-51 nucleation and filament growth in the presence of recombination mediators. Cell Press 2021-03-04 /pmc/articles/PMC7941204/ /pubmed/33421363 http://dx.doi.org/10.1016/j.molcel.2020.12.020 Text en © 2021 The Authors http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Belan, Ondrej
Barroso, Consuelo
Kaczmarczyk, Artur
Anand, Roopesh
Federico, Stefania
O’Reilly, Nicola
Newton, Matthew D.
Maeots, Erik
Enchev, Radoslav I.
Martinez-Perez, Enrique
Rueda, David S.
Boulton, Simon J.
Single-molecule analysis reveals cooperative stimulation of Rad51 filament nucleation and growth by mediator proteins
title Single-molecule analysis reveals cooperative stimulation of Rad51 filament nucleation and growth by mediator proteins
title_full Single-molecule analysis reveals cooperative stimulation of Rad51 filament nucleation and growth by mediator proteins
title_fullStr Single-molecule analysis reveals cooperative stimulation of Rad51 filament nucleation and growth by mediator proteins
title_full_unstemmed Single-molecule analysis reveals cooperative stimulation of Rad51 filament nucleation and growth by mediator proteins
title_short Single-molecule analysis reveals cooperative stimulation of Rad51 filament nucleation and growth by mediator proteins
title_sort single-molecule analysis reveals cooperative stimulation of rad51 filament nucleation and growth by mediator proteins
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7941204/
https://www.ncbi.nlm.nih.gov/pubmed/33421363
http://dx.doi.org/10.1016/j.molcel.2020.12.020
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