Cell
Volume 114, Issue 4, 22 August 2003, Pages 511-520
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Article
Linkage between ATP Consumption and Mechanical Unfolding during the Protein Processing Reactions of an AAA+ Degradation Machine

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Abstract

Proteolytic machines powered by ATP hydrolysis bind proteins with specific peptide tags, denature these substrates, and translocate them into a sequestered compartment for degradation. To determine how ATP is used during individual reaction steps, we assayed ClpXP degradation of ssrA-tagged titin variants with different stabilities in native and denatured forms. The rate of ATP turnover was 4-fold slower during denaturation than translocation. Importantly, this reduced turnover rate was constant during denaturation of native variants with different stabilities, but total ATP consumption increased with substrate stability, suggesting an iterative application of a uniform, mechanical unfolding force. Destabilization of substrate structure near the degradation tag accelerated degradation and dramatically reduced ATP consumption, revealing an important role for local protein stability in resisting denaturation. The ability to denature more stable proteins simply by using more ATP endows ClpX with a robust unfolding activity required for its biological roles in degradation and complex disassembly.

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