The Nucleosome Remodeling and Deacetylase Complex NuRD Is Built from Preformed Catalytically Active Sub-modules

The nucleosome remodeling deacetylase (NuRD) complex is a highly conserved regulator of chromatin structure and transcription. Structural studies have shed light on this and other chromatin modifying machines, but much less is known about how they assemble and whether stable and functional sub-modul...

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Autores principales: Zhang, W., Aubert, A., Gomez de Segura, J.M., Karuppasamy, M., Basu, S., Murthy, A.S., Diamante, A., Drury, T.A., Balmer, J., Cramard, J., Watson, A.A., Lando, D., Lee, S.F., Palayret, M., Kloet, S.L., Smits, A.H., Deery, M.J., Vermeulen, M., Hendrich, B., Klenerman, D., Schaffitzel, C., Berger, I., Laue, E.D.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2016
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4942838/
https://www.ncbi.nlm.nih.gov/pubmed/27117189
http://dx.doi.org/10.1016/j.jmb.2016.04.025
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author Zhang, W.
Aubert, A.
Gomez de Segura, J.M.
Karuppasamy, M.
Basu, S.
Murthy, A.S.
Diamante, A.
Drury, T.A.
Balmer, J.
Cramard, J.
Watson, A.A.
Lando, D.
Lee, S.F.
Palayret, M.
Kloet, S.L.
Smits, A.H.
Deery, M.J.
Vermeulen, M.
Hendrich, B.
Klenerman, D.
Schaffitzel, C.
Berger, I.
Laue, E.D.
author_facet Zhang, W.
Aubert, A.
Gomez de Segura, J.M.
Karuppasamy, M.
Basu, S.
Murthy, A.S.
Diamante, A.
Drury, T.A.
Balmer, J.
Cramard, J.
Watson, A.A.
Lando, D.
Lee, S.F.
Palayret, M.
Kloet, S.L.
Smits, A.H.
Deery, M.J.
Vermeulen, M.
Hendrich, B.
Klenerman, D.
Schaffitzel, C.
Berger, I.
Laue, E.D.
author_sort Zhang, W.
collection PubMed
description The nucleosome remodeling deacetylase (NuRD) complex is a highly conserved regulator of chromatin structure and transcription. Structural studies have shed light on this and other chromatin modifying machines, but much less is known about how they assemble and whether stable and functional sub-modules exist that retain enzymatic activity. Purification of the endogenous Drosophila NuRD complex shows that it consists of a stable core of subunits, while others, in particular the chromatin remodeler CHD4, associate transiently. To dissect the assembly and activity of NuRD, we systematically produced all possible combinations of different components using the MultiBac system, and determined their activity and biophysical properties. We carried out single-molecule imaging of CHD4 in live mouse embryonic stem cells, in the presence and absence of one of core components (MBD3), to show how the core deacetylase and chromatin-remodeling sub-modules associate in vivo. Our experiments suggest a pathway for the assembly of NuRD via preformed and active sub-modules. These retain enzymatic activity and are present in both the nucleus and the cytosol, an outcome with important implications for understanding NuRD function.
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spelling pubmed-49428382016-07-18 The Nucleosome Remodeling and Deacetylase Complex NuRD Is Built from Preformed Catalytically Active Sub-modules Zhang, W. Aubert, A. Gomez de Segura, J.M. Karuppasamy, M. Basu, S. Murthy, A.S. Diamante, A. Drury, T.A. Balmer, J. Cramard, J. Watson, A.A. Lando, D. Lee, S.F. Palayret, M. Kloet, S.L. Smits, A.H. Deery, M.J. Vermeulen, M. Hendrich, B. Klenerman, D. Schaffitzel, C. Berger, I. Laue, E.D. J Mol Biol Article The nucleosome remodeling deacetylase (NuRD) complex is a highly conserved regulator of chromatin structure and transcription. Structural studies have shed light on this and other chromatin modifying machines, but much less is known about how they assemble and whether stable and functional sub-modules exist that retain enzymatic activity. Purification of the endogenous Drosophila NuRD complex shows that it consists of a stable core of subunits, while others, in particular the chromatin remodeler CHD4, associate transiently. To dissect the assembly and activity of NuRD, we systematically produced all possible combinations of different components using the MultiBac system, and determined their activity and biophysical properties. We carried out single-molecule imaging of CHD4 in live mouse embryonic stem cells, in the presence and absence of one of core components (MBD3), to show how the core deacetylase and chromatin-remodeling sub-modules associate in vivo. Our experiments suggest a pathway for the assembly of NuRD via preformed and active sub-modules. These retain enzymatic activity and are present in both the nucleus and the cytosol, an outcome with important implications for understanding NuRD function. Elsevier 2016-07-17 /pmc/articles/PMC4942838/ /pubmed/27117189 http://dx.doi.org/10.1016/j.jmb.2016.04.025 Text en © 2016 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
Zhang, W.
Aubert, A.
Gomez de Segura, J.M.
Karuppasamy, M.
Basu, S.
Murthy, A.S.
Diamante, A.
Drury, T.A.
Balmer, J.
Cramard, J.
Watson, A.A.
Lando, D.
Lee, S.F.
Palayret, M.
Kloet, S.L.
Smits, A.H.
Deery, M.J.
Vermeulen, M.
Hendrich, B.
Klenerman, D.
Schaffitzel, C.
Berger, I.
Laue, E.D.
The Nucleosome Remodeling and Deacetylase Complex NuRD Is Built from Preformed Catalytically Active Sub-modules
title The Nucleosome Remodeling and Deacetylase Complex NuRD Is Built from Preformed Catalytically Active Sub-modules
title_full The Nucleosome Remodeling and Deacetylase Complex NuRD Is Built from Preformed Catalytically Active Sub-modules
title_fullStr The Nucleosome Remodeling and Deacetylase Complex NuRD Is Built from Preformed Catalytically Active Sub-modules
title_full_unstemmed The Nucleosome Remodeling and Deacetylase Complex NuRD Is Built from Preformed Catalytically Active Sub-modules
title_short The Nucleosome Remodeling and Deacetylase Complex NuRD Is Built from Preformed Catalytically Active Sub-modules
title_sort nucleosome remodeling and deacetylase complex nurd is built from preformed catalytically active sub-modules
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4942838/
https://www.ncbi.nlm.nih.gov/pubmed/27117189
http://dx.doi.org/10.1016/j.jmb.2016.04.025
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