The Smc5/6 complex regulates the yeast Mph1 helicase at RNA-DNA hybrid-mediated DNA damage

RNA-DNA hybrids are naturally occurring obstacles that must be overcome by the DNA replication machinery. In the absence of RNase H enzymes, RNA-DNA hybrids accumulate, resulting in replication stress, DNA damage and compromised genomic integrity. We demonstrate that Mph1, the yeast homolog of Fanco...

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Autores principales: Lafuente-Barquero, Juan, Luke-Glaser, Sarah, Graf, Marco, Silva, Sonia, Gómez-González, Belén, Lockhart, Arianna, Lisby, Michael, Aguilera, Andrés, Luke, Brian
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2017
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5760084/
https://www.ncbi.nlm.nih.gov/pubmed/29281624
http://dx.doi.org/10.1371/journal.pgen.1007136
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author Lafuente-Barquero, Juan
Luke-Glaser, Sarah
Graf, Marco
Silva, Sonia
Gómez-González, Belén
Lockhart, Arianna
Lisby, Michael
Aguilera, Andrés
Luke, Brian
author_facet Lafuente-Barquero, Juan
Luke-Glaser, Sarah
Graf, Marco
Silva, Sonia
Gómez-González, Belén
Lockhart, Arianna
Lisby, Michael
Aguilera, Andrés
Luke, Brian
author_sort Lafuente-Barquero, Juan
collection PubMed
description RNA-DNA hybrids are naturally occurring obstacles that must be overcome by the DNA replication machinery. In the absence of RNase H enzymes, RNA-DNA hybrids accumulate, resulting in replication stress, DNA damage and compromised genomic integrity. We demonstrate that Mph1, the yeast homolog of Fanconi anemia protein M (FANCM), is required for cell viability in the absence of RNase H enzymes. The integrity of the Mph1 helicase domain is crucial to prevent the accumulation of RNA-DNA hybrids and RNA-DNA hybrid-dependent DNA damage, as determined by Rad52 foci. Mph1 forms foci when RNA-DNA hybrids accumulate, e.g. in RNase H or THO-complex mutants and at short telomeres. Mph1, however is a double-edged sword, whose action at hybrids must be regulated by the Smc5/6 complex. This is underlined by the observation that simultaneous inactivation of RNase H2 and Smc5/6 results in Mph1-dependent synthetic lethality, which is likely due to an accumulation of toxic recombination intermediates. The data presented here support a model, where Mph1’s helicase activity plays a crucial role in responding to persistent RNA-DNA hybrids.
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spelling pubmed-57600842018-01-26 The Smc5/6 complex regulates the yeast Mph1 helicase at RNA-DNA hybrid-mediated DNA damage Lafuente-Barquero, Juan Luke-Glaser, Sarah Graf, Marco Silva, Sonia Gómez-González, Belén Lockhart, Arianna Lisby, Michael Aguilera, Andrés Luke, Brian PLoS Genet Research Article RNA-DNA hybrids are naturally occurring obstacles that must be overcome by the DNA replication machinery. In the absence of RNase H enzymes, RNA-DNA hybrids accumulate, resulting in replication stress, DNA damage and compromised genomic integrity. We demonstrate that Mph1, the yeast homolog of Fanconi anemia protein M (FANCM), is required for cell viability in the absence of RNase H enzymes. The integrity of the Mph1 helicase domain is crucial to prevent the accumulation of RNA-DNA hybrids and RNA-DNA hybrid-dependent DNA damage, as determined by Rad52 foci. Mph1 forms foci when RNA-DNA hybrids accumulate, e.g. in RNase H or THO-complex mutants and at short telomeres. Mph1, however is a double-edged sword, whose action at hybrids must be regulated by the Smc5/6 complex. This is underlined by the observation that simultaneous inactivation of RNase H2 and Smc5/6 results in Mph1-dependent synthetic lethality, which is likely due to an accumulation of toxic recombination intermediates. The data presented here support a model, where Mph1’s helicase activity plays a crucial role in responding to persistent RNA-DNA hybrids. Public Library of Science 2017-12-27 /pmc/articles/PMC5760084/ /pubmed/29281624 http://dx.doi.org/10.1371/journal.pgen.1007136 Text en © 2017 Lafuente-Barquero et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Lafuente-Barquero, Juan
Luke-Glaser, Sarah
Graf, Marco
Silva, Sonia
Gómez-González, Belén
Lockhart, Arianna
Lisby, Michael
Aguilera, Andrés
Luke, Brian
The Smc5/6 complex regulates the yeast Mph1 helicase at RNA-DNA hybrid-mediated DNA damage
title The Smc5/6 complex regulates the yeast Mph1 helicase at RNA-DNA hybrid-mediated DNA damage
title_full The Smc5/6 complex regulates the yeast Mph1 helicase at RNA-DNA hybrid-mediated DNA damage
title_fullStr The Smc5/6 complex regulates the yeast Mph1 helicase at RNA-DNA hybrid-mediated DNA damage
title_full_unstemmed The Smc5/6 complex regulates the yeast Mph1 helicase at RNA-DNA hybrid-mediated DNA damage
title_short The Smc5/6 complex regulates the yeast Mph1 helicase at RNA-DNA hybrid-mediated DNA damage
title_sort smc5/6 complex regulates the yeast mph1 helicase at rna-dna hybrid-mediated dna damage
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5760084/
https://www.ncbi.nlm.nih.gov/pubmed/29281624
http://dx.doi.org/10.1371/journal.pgen.1007136
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