Literature DB >> 28591576

Regulation of Rvb1/Rvb2 by a Domain within the INO80 Chromatin Remodeling Complex Implicates the Yeast Rvbs as Protein Assembly Chaperones.

Coral Y Zhou1, Caitlin I Stoddard1, Jonathan B Johnston2, Michael J Trnka2, Ignacia Echeverria3, Eugene Palovcak4, Andrej Sali5, Alma L Burlingame2, Yifan Cheng6, Geeta J Narlikar7.   

Abstract

The hexameric AAA+ ATPases Rvb1 and Rvb2 (Rvbs) are essential for diverse processes ranging from metabolic signaling to chromatin remodeling, but their functions are unknown. While originally thought to act as helicases, recent proposals suggest that Rvbs act as protein assembly chaperones. However, experimental evidence for chaperone-like behavior is lacking. Here, we identify a potent protein activator of the Rvbs, a domain in the Ino80 ATPase subunit of the INO80 chromatin-remodeling complex, termed Ino80INS. Ino80INS stimulates Rvbs' ATPase activity by 16-fold while concomitantly promoting their dodecamerization. Using mass spectrometry, cryo-EM, and integrative modeling, we find that Ino80INS binds asymmetrically along the dodecamerization interface, resulting in a conformationally flexible dodecamer that collapses into hexamers upon ATP addition. Our results demonstrate the chaperone-like potential of Rvb1/Rvb2 and suggest a model where binding of multiple clients such as Ino80 stimulates ATP-driven cycling between hexamers and dodecamers, providing iterative opportunities for correct subunit assembly.
Copyright © 2017 The Author(s). Published by Elsevier Inc. All rights reserved.

Entities:  

Keywords:  AAA+ ATPase; INO80; RuvBL1; RuvBL2; Rvb1; Rvb2; chaperone; chromatin remodeling; pontin; reptin

Mesh:

Substances:

Year:  2017        PMID: 28591576      PMCID: PMC5564220          DOI: 10.1016/j.celrep.2017.05.029

Source DB:  PubMed          Journal:  Cell Rep            Impact factor:   9.423


  43 in total

1.  A rat RuvB-like protein, TIP49a, is a germ cell-enriched novel DNA helicase.

Authors:  Y Makino; M Kanemaki; Y Kurokawa; T Koji; T a Tamura
Journal:  J Biol Chem       Date:  1999-05-28       Impact factor: 5.157

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Authors:  Alexander Leitner; Marco Faini; Florian Stengel; Ruedi Aebersold
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3.  Dodecameric structure and ATPase activity of the human TIP48/TIP49 complex.

Authors:  Teena Puri; Petra Wendler; Barbara Sigala; Helen Saibil; Irina R Tsaneva
Journal:  J Mol Biol       Date:  2006-11-11       Impact factor: 5.469

4.  RuvB-like ATPases function in chromatin decondensation at the end of mitosis.

Authors:  Adriana Magalska; Anna Katharina Schellhaus; Daniel Moreno-Andrés; Fabio Zanini; Allana Schooley; Ruchika Sachdev; Heinz Schwarz; Johannes Madlung; Wolfram Antonin
Journal:  Dev Cell       Date:  2014-10-23       Impact factor: 12.270

5.  Structural characterization by cross-linking reveals the detailed architecture of a coatomer-related heptameric module from the nuclear pore complex.

Authors:  Yi Shi; Javier Fernandez-Martinez; Elina Tjioe; Riccardo Pellarin; Seung Joong Kim; Rosemary Williams; Dina Schneidman-Duhovny; Andrej Sali; Michael P Rout; Brian T Chait
Journal:  Mol Cell Proteomics       Date:  2014-08-26       Impact factor: 5.911

6.  TIP49b, a new RuvB-like DNA helicase, is included in a complex together with another RuvB-like DNA helicase, TIP49a.

Authors:  M Kanemaki; Y Kurokawa; T Matsu-ura; Y Makino; A Masani; K Okazaki; T Morishita; T A Tamura
Journal:  J Biol Chem       Date:  1999-08-06       Impact factor: 5.157

7.  Alternative oligomeric states of the yeast Rvb1/Rvb2 complex induced by histidine tags.

Authors:  Kevin L Y Cheung; Jennifer Huen; Yoshito Kakihara; Walid A Houry; Joaquin Ortega
Journal:  J Mol Biol       Date:  2010-10-08       Impact factor: 5.469

8.  Substrate binding drives large-scale conformational changes in the Hsp90 molecular chaperone.

Authors:  Timothy O Street; Laura A Lavery; David A Agard
Journal:  Mol Cell       Date:  2011-04-08       Impact factor: 17.970

9.  RuvbL1 and RuvbL2 enhance aggresome formation and disaggregate amyloid fibrils.

Authors:  Nava Zaarur; Xiaobin Xu; Patrick Lestienne; Anatoli B Meriin; Mark McComb; Catherine E Costello; Gary P Newnam; Rakhee Ganti; Nina V Romanova; Maruda Shanmugasundaram; Sara T N Silva; Tiago M Bandeiras; Pedro M Matias; Kirill S Lobachev; Igor K Lednev; Yury O Chernoff; Michael Y Sherman
Journal:  EMBO J       Date:  2015-08-24       Impact factor: 11.598

10.  RELION: implementation of a Bayesian approach to cryo-EM structure determination.

Authors:  Sjors H W Scheres
Journal:  J Struct Biol       Date:  2012-09-19       Impact factor: 2.867
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Review 1.  Principles for Integrative Structural Biology Studies.

Authors:  Michael P Rout; Andrej Sali
Journal:  Cell       Date:  2019-05-30       Impact factor: 41.582

2.  A conserved Bcd1 interaction essential for box C/D snoRNP biogenesis.

Authors:  Sohail Khoshnevis; R Elizabeth Dreggors; Tobias F R Hoffmann; Homa Ghalei
Journal:  J Biol Chem       Date:  2019-09-19       Impact factor: 5.157

3.  Mechanistic insight into the assembly of the HerA-NurA helicase-nuclease DNA end resection complex.

Authors:  Zainab Ahdash; Andy M Lau; Robert Thomas Byrne; Katja Lammens; Alexandra Stüetzer; Henning Urlaub; Paula J Booth; Eamonn Reading; Karl-Peter Hopfner; Argyris Politis
Journal:  Nucleic Acids Res       Date:  2017-11-16       Impact factor: 16.971

4.  Assessing Exhaustiveness of Stochastic Sampling for Integrative Modeling of Macromolecular Structures.

Authors:  Shruthi Viswanath; Ilan E Chemmama; Peter Cimermancic; Andrej Sali
Journal:  Biophys J       Date:  2017-12-05       Impact factor: 4.033

5.  The nucleosomal acidic patch relieves auto-inhibition by the ISWI remodeler SNF2h.

Authors:  Nathan Gamarra; Stephanie L Johnson; Michael J Trnka; Alma L Burlingame; Geeta J Narlikar
Journal:  Elife       Date:  2018-04-17       Impact factor: 8.140

6.  The transcriptional coactivator RUVBL2 regulates Pol II clustering with diverse transcription factors.

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Journal:  Nat Commun       Date:  2022-09-28       Impact factor: 17.694

Review 7.  Branching the Tel2 pathway for exact fit on phosphatidylinositol 3-kinase-related kinases.

Authors:  Katsunori Sugimoto
Journal:  Curr Genet       Date:  2018-02-22       Impact factor: 3.886

8.  Genome information processing by the INO80 chromatin remodeler positions nucleosomes.

Authors:  Elisa Oberbeckmann; Nils Krietenstein; Vanessa Niebauer; Yingfei Wang; Kevin Schall; Manuela Moldt; Tobias Straub; Remo Rohs; Karl-Peter Hopfner; Philipp Korber; Sebastian Eustermann
Journal:  Nat Commun       Date:  2021-05-28       Impact factor: 14.919

Review 9.  AAA ATPases as therapeutic targets: Structure, functions, and small-molecule inhibitors.

Authors:  Gang Zhang; Shan Li; Kai-Wen Cheng; Tsui-Fen Chou
Journal:  Eur J Med Chem       Date:  2021-04-10       Impact factor: 7.088

Review 10.  Sophisticated Conversations between Chromatin and Chromatin Remodelers, and Dissonances in Cancer.

Authors:  Cedric R Clapier
Journal:  Int J Mol Sci       Date:  2021-05-25       Impact factor: 5.923
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