The iron–sulfur helicase DDX11 promotes the generation of single-stranded DNA for CHK1 activation

The iron–sulfur (FeS) cluster helicase DDX11 is associated with a human disorder termed Warsaw Breakage Syndrome. Interestingly, one disease-associated mutation affects the highly conserved arginine-263 in the FeS cluster-binding motif. Here, we demonstrate that the FeS cluster in DDX11 is required...

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Autores principales: Simon, Anna K, Kummer, Sandra, Wild, Sebastian, Lezaja, Aleksandra, Teloni, Federico, Jozwiakowski, Stanislaw K, Altmeyer, Matthias, Gari, Kerstin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Life Science Alliance LLC 2020
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7032568/
https://www.ncbi.nlm.nih.gov/pubmed/32071282
http://dx.doi.org/10.26508/lsa.201900547
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author Simon, Anna K
Kummer, Sandra
Wild, Sebastian
Lezaja, Aleksandra
Teloni, Federico
Jozwiakowski, Stanislaw K
Altmeyer, Matthias
Gari, Kerstin
author_facet Simon, Anna K
Kummer, Sandra
Wild, Sebastian
Lezaja, Aleksandra
Teloni, Federico
Jozwiakowski, Stanislaw K
Altmeyer, Matthias
Gari, Kerstin
author_sort Simon, Anna K
collection PubMed
description The iron–sulfur (FeS) cluster helicase DDX11 is associated with a human disorder termed Warsaw Breakage Syndrome. Interestingly, one disease-associated mutation affects the highly conserved arginine-263 in the FeS cluster-binding motif. Here, we demonstrate that the FeS cluster in DDX11 is required for DNA binding, ATP hydrolysis, and DNA helicase activity, and that arginine-263 affects FeS cluster binding, most likely because of its positive charge. We further show that DDX11 interacts with the replication factors DNA polymerase delta and WDHD1. In vitro, DDX11 can remove DNA obstacles ahead of Pol δ in an ATPase- and FeS domain-dependent manner, and hence generate single-stranded DNA. Accordingly, depletion of DDX11 causes reduced levels of single-stranded DNA, a reduction of chromatin-bound replication protein A, and impaired CHK1 phosphorylation at serine-345. Taken together, we propose that DDX11 plays a role in dismantling secondary structures during DNA replication, thereby promoting CHK1 activation.
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spelling pubmed-70325682020-02-27 The iron–sulfur helicase DDX11 promotes the generation of single-stranded DNA for CHK1 activation Simon, Anna K Kummer, Sandra Wild, Sebastian Lezaja, Aleksandra Teloni, Federico Jozwiakowski, Stanislaw K Altmeyer, Matthias Gari, Kerstin Life Sci Alliance Research Articles The iron–sulfur (FeS) cluster helicase DDX11 is associated with a human disorder termed Warsaw Breakage Syndrome. Interestingly, one disease-associated mutation affects the highly conserved arginine-263 in the FeS cluster-binding motif. Here, we demonstrate that the FeS cluster in DDX11 is required for DNA binding, ATP hydrolysis, and DNA helicase activity, and that arginine-263 affects FeS cluster binding, most likely because of its positive charge. We further show that DDX11 interacts with the replication factors DNA polymerase delta and WDHD1. In vitro, DDX11 can remove DNA obstacles ahead of Pol δ in an ATPase- and FeS domain-dependent manner, and hence generate single-stranded DNA. Accordingly, depletion of DDX11 causes reduced levels of single-stranded DNA, a reduction of chromatin-bound replication protein A, and impaired CHK1 phosphorylation at serine-345. Taken together, we propose that DDX11 plays a role in dismantling secondary structures during DNA replication, thereby promoting CHK1 activation. Life Science Alliance LLC 2020-02-18 /pmc/articles/PMC7032568/ /pubmed/32071282 http://dx.doi.org/10.26508/lsa.201900547 Text en © 2020 Simon et al. https://creativecommons.org/licenses/by/4.0/This article is available under a Creative Commons License (Attribution 4.0 International, as described at https://creativecommons.org/licenses/by/4.0/).
spellingShingle Research Articles
Simon, Anna K
Kummer, Sandra
Wild, Sebastian
Lezaja, Aleksandra
Teloni, Federico
Jozwiakowski, Stanislaw K
Altmeyer, Matthias
Gari, Kerstin
The iron–sulfur helicase DDX11 promotes the generation of single-stranded DNA for CHK1 activation
title The iron–sulfur helicase DDX11 promotes the generation of single-stranded DNA for CHK1 activation
title_full The iron–sulfur helicase DDX11 promotes the generation of single-stranded DNA for CHK1 activation
title_fullStr The iron–sulfur helicase DDX11 promotes the generation of single-stranded DNA for CHK1 activation
title_full_unstemmed The iron–sulfur helicase DDX11 promotes the generation of single-stranded DNA for CHK1 activation
title_short The iron–sulfur helicase DDX11 promotes the generation of single-stranded DNA for CHK1 activation
title_sort iron–sulfur helicase ddx11 promotes the generation of single-stranded dna for chk1 activation
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7032568/
https://www.ncbi.nlm.nih.gov/pubmed/32071282
http://dx.doi.org/10.26508/lsa.201900547
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