RECQ-like helicases Sgs1 and BLM regulate R-loop–associated genome instability

Sgs1, the orthologue of human Bloom’s syndrome helicase BLM, is a yeast DNA helicase functioning in DNA replication and repair. We show that SGS1 loss increases R-loop accumulation and sensitizes cells to transcription–replication collisions. Yeast lacking SGS1 accumulate R-loops and γ-H2A at sites...

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Autores principales: Chang, Emily Yun-Chia, Novoa, Carolina A., Aristizabal, Maria J., Coulombe, Yan, Segovia, Romulo, Chaturvedi, Richa, Shen, Yaoqing, Keong, Christelle, Tam, Annie S., Jones, Steven J.M., Masson, Jean-Yves, Kobor, Michael S., Stirling, Peter C.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Rockefeller University Press 2017
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5716281/
https://www.ncbi.nlm.nih.gov/pubmed/29042409
http://dx.doi.org/10.1083/jcb.201703168
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author Chang, Emily Yun-Chia
Novoa, Carolina A.
Aristizabal, Maria J.
Coulombe, Yan
Segovia, Romulo
Chaturvedi, Richa
Shen, Yaoqing
Keong, Christelle
Tam, Annie S.
Jones, Steven J.M.
Masson, Jean-Yves
Kobor, Michael S.
Stirling, Peter C.
author_facet Chang, Emily Yun-Chia
Novoa, Carolina A.
Aristizabal, Maria J.
Coulombe, Yan
Segovia, Romulo
Chaturvedi, Richa
Shen, Yaoqing
Keong, Christelle
Tam, Annie S.
Jones, Steven J.M.
Masson, Jean-Yves
Kobor, Michael S.
Stirling, Peter C.
author_sort Chang, Emily Yun-Chia
collection PubMed
description Sgs1, the orthologue of human Bloom’s syndrome helicase BLM, is a yeast DNA helicase functioning in DNA replication and repair. We show that SGS1 loss increases R-loop accumulation and sensitizes cells to transcription–replication collisions. Yeast lacking SGS1 accumulate R-loops and γ-H2A at sites of Sgs1 binding, replication pausing regions, and long genes. The mutation signature of sgs1Δ reveals copy number changes flanked by repetitive regions with high R-loop–forming potential. Analysis of BLM in Bloom’s syndrome fibroblasts or by depletion of BLM from human cancer cells confirms a role for Sgs1/BLM in suppressing R-loop–associated genome instability across species. In support of a potential direct effect, BLM is found physically proximal to DNA:RNA hybrids in human cells, and can efficiently unwind R-loops in vitro. Together, our data describe a conserved role for Sgs1/BLM in R-loop suppression and support an increasingly broad view of DNA repair and replication fork stabilizing proteins as modulators of R-loop–mediated genome instability.
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spelling pubmed-57162812018-06-04 RECQ-like helicases Sgs1 and BLM regulate R-loop–associated genome instability Chang, Emily Yun-Chia Novoa, Carolina A. Aristizabal, Maria J. Coulombe, Yan Segovia, Romulo Chaturvedi, Richa Shen, Yaoqing Keong, Christelle Tam, Annie S. Jones, Steven J.M. Masson, Jean-Yves Kobor, Michael S. Stirling, Peter C. J Cell Biol Research Articles Sgs1, the orthologue of human Bloom’s syndrome helicase BLM, is a yeast DNA helicase functioning in DNA replication and repair. We show that SGS1 loss increases R-loop accumulation and sensitizes cells to transcription–replication collisions. Yeast lacking SGS1 accumulate R-loops and γ-H2A at sites of Sgs1 binding, replication pausing regions, and long genes. The mutation signature of sgs1Δ reveals copy number changes flanked by repetitive regions with high R-loop–forming potential. Analysis of BLM in Bloom’s syndrome fibroblasts or by depletion of BLM from human cancer cells confirms a role for Sgs1/BLM in suppressing R-loop–associated genome instability across species. In support of a potential direct effect, BLM is found physically proximal to DNA:RNA hybrids in human cells, and can efficiently unwind R-loops in vitro. Together, our data describe a conserved role for Sgs1/BLM in R-loop suppression and support an increasingly broad view of DNA repair and replication fork stabilizing proteins as modulators of R-loop–mediated genome instability. The Rockefeller University Press 2017-12-04 /pmc/articles/PMC5716281/ /pubmed/29042409 http://dx.doi.org/10.1083/jcb.201703168 Text en © 2017 Chang et al. http://www.rupress.org/terms/https://creativecommons.org/licenses/by-nc-sa/4.0/This article is distributed under the terms of an Attribution–Noncommercial–Share Alike–No Mirror Sites license for the first six months after the publication date (see http://www.rupress.org/terms/). After six months it is available under a Creative Commons License (Attribution–Noncommercial–Share Alike 4.0 International license, as described at https://creativecommons.org/licenses/by-nc-sa/4.0/).
spellingShingle Research Articles
Chang, Emily Yun-Chia
Novoa, Carolina A.
Aristizabal, Maria J.
Coulombe, Yan
Segovia, Romulo
Chaturvedi, Richa
Shen, Yaoqing
Keong, Christelle
Tam, Annie S.
Jones, Steven J.M.
Masson, Jean-Yves
Kobor, Michael S.
Stirling, Peter C.
RECQ-like helicases Sgs1 and BLM regulate R-loop–associated genome instability
title RECQ-like helicases Sgs1 and BLM regulate R-loop–associated genome instability
title_full RECQ-like helicases Sgs1 and BLM regulate R-loop–associated genome instability
title_fullStr RECQ-like helicases Sgs1 and BLM regulate R-loop–associated genome instability
title_full_unstemmed RECQ-like helicases Sgs1 and BLM regulate R-loop–associated genome instability
title_short RECQ-like helicases Sgs1 and BLM regulate R-loop–associated genome instability
title_sort recq-like helicases sgs1 and blm regulate r-loop–associated genome instability
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5716281/
https://www.ncbi.nlm.nih.gov/pubmed/29042409
http://dx.doi.org/10.1083/jcb.201703168
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