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Structural insights into ATP hydrolysis by the MoxR ATPase RavA and the LdcI-RavA cage-like complex

Matthew Jessop, Benoît Arragain, Roger Miras, Angélique Fraudeau, Karine Huard, Maria Bacia‐Verloop, Patrice Catty, Jan Félix, Hélène Malet, Irina Gutsche

2020Communications Biology33 citationsDOIOpen Access PDF

Abstract

The hexameric MoxR AAA+ ATPase RavA and the decameric lysine decarboxylase LdcI form a 3.3 MDa cage, proposed to assist assembly of specific respiratory complexes in E. coli. Here, we show that inside the LdcI-RavA cage, RavA hexamers adopt an asymmetric spiral conformation in which the nucleotide-free seam is constrained to two opposite orientations. Cryo-EM reconstructions of free RavA reveal two co-existing structural states: an asymmetric spiral, and a flat C2-symmetric closed ring characterised by two nucleotide-free seams. The closed ring RavA state bears close structural similarity to the pseudo two-fold symmetric crystal structure of the AAA+ unfoldase ClpX, suggesting a common ATPase mechanism. Based on these structures, and in light of the current knowledge regarding AAA+ ATPases, we propose different scenarios for the ATP hydrolysis cycle of free RavA and the LdcI-RavA cage-like complex, and extend the comparison to other AAA+ ATPases of clade 7.

Topics & Concepts

ATP hydrolysisATPaseAAA proteinsNucleotideCrystallographyBiologyBiophysicsBiochemistryCell biologyChemistryEnzymeGeneEnzyme Structure and FunctionBacteriophages and microbial interactionsRNA and protein synthesis mechanisms