Energy dependent proteolysis is essential for all life, but uncontrolled degradation leads to devastating consequences. In bacteria, oligomeric AAA+ proteases are responsible for controlling protein destruction and are regulated in part by adaptor proteins. Adaptors are regulatory factors that shape protease substrate choice by either restricting or enhancing substrate recognition in several ways. In some cases, protease activity or assembly itself requires adaptor binding. Adaptors can also alter specificity by acting as scaffolds to tether particular substrates to already active proteases. Finally, hierarchical assembly of adaptors can use combinations of several activities to enhance the protease's selectivity. Because the lifetime of the constituent proteins directly affects the duration of a particular signaling pathway, regulated proteolysis impacts almost all cellular responses. In this review, we describe recent progress in regulated protein degradation, focusing on fundamental principles of adaptors and how they perform critical biological functions, such as promoting cell cycle progression and quality control.
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