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Structure of SWI/SNF chromatin remodeller RSC bound to a nucleosome

Author

Listed:
  • Felix R. Wagner

    (Department of Molecular Biology)

  • Christian Dienemann

    (Department of Molecular Biology)

  • Haibo Wang

    (Department of Molecular Biology)

  • Alexandra Stützer

    (Bioanalytical Mass Spectrometry)

  • Dimitry Tegunov

    (Department of Molecular Biology)

  • Henning Urlaub

    (Bioanalytical Mass Spectrometry
    University Medical Center Göttingen, Institute of Clinical Chemistry, Bioanalytics Group)

  • Patrick Cramer

    (Department of Molecular Biology)

Abstract

Chromatin-remodelling complexes of the SWI/SNF family function in the formation of nucleosome-depleted, transcriptionally active promoter regions (NDRs)1,2. In the yeast Saccharomyces cerevisiae, the essential SWI/SNF complex RSC3 contains 16 subunits, including the ATP-dependent DNA translocase Sth14,5. RSC removes nucleosomes from promoter regions6,7 and positions the specialized +1 and −1 nucleosomes that flank NDRs8,9. Here we present the cryo-electron microscopy structure of RSC in complex with a nucleosome substrate. The structure reveals that RSC forms five protein modules and suggests key features of the remodelling mechanism. The body module serves as a scaffold for the four flexible modules that we call DNA-interacting, ATPase, arm and actin-related protein (ARP) modules. The DNA-interacting module binds extra-nucleosomal DNA and is involved in the recognition of promoter DNA elements8,10,11 that influence RSC functionality12. The ATPase and arm modules sandwich the nucleosome disc with the Snf2 ATP-coupling (SnAC) domain and the finger helix, respectively. The translocase motor of the ATPase module engages with the edge of the nucleosome at superhelical location +2. The mobile ARP module may modulate translocase–nucleosome interactions to regulate RSC activity5. The RSC–nucleosome structure provides a basis for understanding NDR formation and the structure and function of human SWI/SNF complexes that are frequently mutated in cancer13.

Suggested Citation

  • Felix R. Wagner & Christian Dienemann & Haibo Wang & Alexandra Stützer & Dimitry Tegunov & Henning Urlaub & Patrick Cramer, 2020. "Structure of SWI/SNF chromatin remodeller RSC bound to a nucleosome," Nature, Nature, vol. 579(7799), pages 448-451, March.
  • Handle: RePEc:nat:nature:v:579:y:2020:i:7799:d:10.1038_s41586-020-2088-0
    DOI: 10.1038/s41586-020-2088-0
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    Citations

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    Cited by:

    1. Marios G. Koliopoulos & Reyhan Muhammad & Theodoros I. Roumeliotis & Fabienne Beuron & Jyoti S. Choudhary & Claudio Alfieri, 2022. "Structure of a nucleosome-bound MuvB transcription factor complex reveals DNA remodelling," Nature Communications, Nature, vol. 13(1), pages 1-14, December.
    2. Luka Bacic & Guillaume Gaullier & Jugal Mohapatra & Guanzhong Mao & Klaus Brackmann & Mikhail Panfilov & Glen Liszczak & Anton Sabantsev & Sebastian Deindl, 2024. "Asymmetric nucleosome PARylation at DNA breaks mediates directional nucleosome sliding by ALC1," Nature Communications, Nature, vol. 15(1), pages 1-10, December.
    3. Li Wang & Jiali Yu & Zishuo Yu & Qianmin Wang & Wanjun Li & Yulei Ren & Zhenguo Chen & Shuang He & Yanhui Xu, 2022. "Structure of nucleosome-bound human PBAF complex," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
    4. Sofía Muñoz & Andrew Jones & Céline Bouchoux & Tegan Gilmore & Harshil Patel & Frank Uhlmann, 2022. "Functional crosstalk between the cohesin loader and chromatin remodelers," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    5. Dominik Laubscher & Berkley E. Gryder & Benjamin D. Sunkel & Thorkell Andresson & Marco Wachtel & Sudipto Das & Bernd Roschitzki & Witold Wolski & Xiaoli S. Wu & Hsien-Chao Chou & Young K. Song & Chao, 2021. "BAF complexes drive proliferation and block myogenic differentiation in fusion-positive rhabdomyosarcoma," Nature Communications, Nature, vol. 12(1), pages 1-16, December.
    6. Gang Ren & Wai Lim Ku & Guangzhe Ge & Jackson A. Hoffman & Jee Youn Kang & Qingsong Tang & Kairong Cui & Yong He & Yukun Guan & Bin Gao & Chengyu Liu & Trevor K. Archer & Keji Zhao, 2024. "Acute depletion of BRG1 reveals its primary function as an activator of transcription," Nature Communications, Nature, vol. 15(1), pages 1-16, December.

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