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R2TP-like quaternary chaperones: a comprehensive overview to understand the dynamic R2SP complex

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Santo, Paulo, E | Chagot, Marie-Eve | Gizardin-Fredon, Hugo | Ley, Marie | Chenuel, Thomas | Deslignière, Evolène | Plassart, Laura | Paiva, Ana, C F | Sousa, Pedro, M F | Bertrand, Edouard | Charpentier, Bruno | Verheggen, Céline | Quinternet, Marc | Meyer, Philippe | Bandeiras, Tiago, M | Cianférani, Sarah | Plisson-Chastang, Célia | Manival, Xavier

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The human R2SP complex belongs to the R2TP-like quaternary chaperone family and consists of RUVBL1, RUVBL2, SPAG1 and PIH1D2. R2SP is crucial for the correct assembly of motile cilia (SPAG1 null mutations cause Primary Ciliary Dyskinesia) and the organization of the synaptic zone. RUVBL1/2 ATPases are the powerhouse of this molecular machinery, while SPAG1 and PIH1D2 would be adaptors that interact with specific clients to promote their quaternary assembly. Despite these functional data, little is known about the structure of R2SP and the precise mode of action of these R2TP-like complexes. We have combined biochemical and structural approaches (NMR, structural mass spectrometry and cryo-EM) to investigate the 3D organization of the human R2SP complex, its mode of assembly and ATPase activity. Our study reveals a three-dimensional structure similar to that of the canonical R2TP complex, but also highlights differences in the mode of action of its RUVBL1/2 ATPase core as well as the binding of its adaptors SPAG1 and PIH1D2.

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