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AAA+ protease-adaptor structures reveal altered conformations and ring specialization

Sora Kim, Fei Xue, Robert T. Sauer, Tania A. Baker

2022Nature Structural & Molecular Biology29 citationsDOIOpen Access PDF

Abstract

ClpAP, a two-ring AAA+ protease, degrades N-end-rule proteins bound by the ClpS adaptor. Here we present high-resolution cryo-EM structures of Escherichia coli ClpAPS complexes, showing how ClpA pore loops interact with the ClpS N-terminal extension (NTE), which is normally intrinsically disordered. In two classes, the NTE is bound by a spiral of pore-1 and pore-2 loops in a manner similar to substrate-polypeptide binding by many AAA+ unfoldases. Kinetic studies reveal that pore-2 loops of the ClpA D1 ring catalyze the protein remodeling required for substrate delivery by ClpS. In a third class, D2 pore-1 loops are rotated, tucked away from the channel and do not bind the NTE, demonstrating asymmetry in engagement by the D1 and D2 rings. These studies show additional structures and functions for key AAA+ elements. Pore-loop tucking may be used broadly by AAA+ unfoldases, for example, during enzyme pausing/unloading.

Topics & Concepts

Signal transducing adaptor proteinCrystallographyBiophysicsAAA proteinsChemistrySubstrate (aquarium)ProteaseRing (chemistry)Protein structureStereochemistryBiologyEnzymeBiochemistrySignal transductionATPaseEcologyOrganic chemistryBacterial Genetics and BiotechnologyRNA and protein synthesis mechanismsSignaling Pathways in Disease
AAA+ protease-adaptor structures reveal altered conformations and ring specialization | Litcius