Assembly principles of the human R2TP chaperone complex reveal the presence of R2T and R2P complexes
- PMID: 34492227
- DOI: 10.1016/j.str.2021.08.002
Assembly principles of the human R2TP chaperone complex reveal the presence of R2T and R2P complexes
Abstract
R2TP is a highly conserved chaperone complex formed by two AAA+ ATPases, RUVBL1 and RUVBL2, that associate with PIH1D1 and RPAP3 proteins. R2TP acts in promoting macromolecular complex formation. Here, we establish the principles of R2TP assembly. Three distinct RUVBL1/2-based complexes are identified: R2TP, RUVBL1/2-RPAP3 (R2T), and RUVBL1/2-PIH1D1 (R2P). Interestingly, we find that PIH1D1 does not bind to RUVBL1/RUVBL2 in R2TP and does not function as a nucleotide exchange factor; instead, RPAP3 is found to be the central subunit coordinating R2TP architecture and linking PIH1D1 and RUVBL1/2. We also report that RPAP3 contains an intrinsically disordered N-terminal domain mediating interactions with substrates whose sequences are primarily enriched for Armadillo repeat domains and other helical-type domains. Our work provides a clear and consistent model of R2TP complex structure and gives important insights into how a chaperone machine concerned with assembly of folded proteins into multisubunit complexes might work.
Keywords: AAA+ proteins; ATPases; PAQosome; R2TP; RUVBL1/2; macromolecular complex assembly; molecular chaperones; protein folding.
Copyright © 2021 Elsevier Ltd. All rights reserved.
Conflict of interest statement
Declaration of interests The authors declare no competing interests. P.K. is a founder, director, and shareholder in Refeyn Ltd. G.Y. is a founder, consultant, and shareholder in Refeyn Ltd.
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