Ethanol exposure increases mutation rate through error-prone polymerases

Ethanol exposure increases mutation rate through error-prone polymerases

Whereas the toxic effects of ethanol are well-documented, the underlying mechanism is obscure. This study uses the eukaryotic model S. cerevisiae to reveal how exposure to sublethal ethanol concentrations causes DNA replication stress and an increased mutation rate.

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Autores principales: Karin Voordeckers, Camilla Colding, Lavinia Grasso, Benjamin Pardo, Lore Hoes, Jacek Kominek, Kim Gielens, Kaat Dekoster, Jonathan Gordon, Elisa Van der Zande, Peter Bircham, Toon Swings, Jan Michiels, Peter Van Loo, Sandra Nuyts, Philippe Pasero, Michael Lisby, Kevin J. Verstrepen
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2020
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Science
Q
Acceso en línea:https://doaj.org/article/df587fed078742dfbc9ad32716f400df
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spelling oai:doaj.org-article:df587fed078742dfbc9ad32716f400df2021-12-02T16:17:53ZEthanol exposure increases mutation rate through error-prone polymerases10.1038/s41467-020-17447-32041-1723https://doaj.org/article/df587fed078742dfbc9ad32716f400df2020-07-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-17447-3https://doaj.org/toc/2041-1723Whereas the toxic effects of ethanol are well-documented, the underlying mechanism is obscure. This study uses the eukaryotic model S. cerevisiae to reveal how exposure to sublethal ethanol concentrations causes DNA replication stress and an increased mutation rate.Karin VoordeckersCamilla ColdingLavinia GrassoBenjamin PardoLore HoesJacek KominekKim GielensKaat DekosterJonathan GordonElisa Van der ZandePeter BirchamToon SwingsJan MichielsPeter Van LooSandra NuytsPhilippe PaseroMichael LisbyKevin J. VerstrepenNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-16 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Karin Voordeckers
Camilla Colding
Lavinia Grasso
Benjamin Pardo
Lore Hoes
Jacek Kominek
Kim Gielens
Kaat Dekoster
Jonathan Gordon
Elisa Van der Zande
Peter Bircham
Toon Swings
Jan Michiels
Peter Van Loo
Sandra Nuyts
Philippe Pasero
Michael Lisby
Kevin J. Verstrepen
Ethanol exposure increases mutation rate through error-prone polymerases
description Whereas the toxic effects of ethanol are well-documented, the underlying mechanism is obscure. This study uses the eukaryotic model S. cerevisiae to reveal how exposure to sublethal ethanol concentrations causes DNA replication stress and an increased mutation rate.
format article
author Karin Voordeckers
Camilla Colding
Lavinia Grasso
Benjamin Pardo
Lore Hoes
Jacek Kominek
Kim Gielens
Kaat Dekoster
Jonathan Gordon
Elisa Van der Zande
Peter Bircham
Toon Swings
Jan Michiels
Peter Van Loo
Sandra Nuyts
Philippe Pasero
Michael Lisby
Kevin J. Verstrepen
author_facet Karin Voordeckers
Camilla Colding
Lavinia Grasso
Benjamin Pardo
Lore Hoes
Jacek Kominek
Kim Gielens
Kaat Dekoster
Jonathan Gordon
Elisa Van der Zande
Peter Bircham
Toon Swings
Jan Michiels
Peter Van Loo
Sandra Nuyts
Philippe Pasero
Michael Lisby
Kevin J. Verstrepen
author_sort Karin Voordeckers
title Ethanol exposure increases mutation rate through error-prone polymerases
title_short Ethanol exposure increases mutation rate through error-prone polymerases
title_full Ethanol exposure increases mutation rate through error-prone polymerases
title_fullStr Ethanol exposure increases mutation rate through error-prone polymerases
title_full_unstemmed Ethanol exposure increases mutation rate through error-prone polymerases
title_sort ethanol exposure increases mutation rate through error-prone polymerases
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/df587fed078742dfbc9ad32716f400df
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