Abstract
Development of methodologies for optically triggered protein degradation enables the study of dynamic protein functions, such as those involved in cell signaling, that are difficult to be probed with traditional genetic techniques. Here, we describe the design and implementation of a novel light-controlled peptide degron conferring N-end pathway degradation to its protein target. The degron comprises a photocaged N-terminal amino acid and a lysine-rich, 13-residue linker. By caging the N-terminal residue, we were able to optically control N-degron recognition by an E3 ligase, consequently controlling ubiquitination and proteasomal degradation of the target protein. We demonstrate broad applicability by applying this approach to a diverse set of target proteins, including EGFP, firefly luciferase, the kinase MEK1, and the phosphatase DUSP6 (also known as MKP3). The caged degron can be used with minimal protein engineering and provides virtually complete, light-triggered protein degradation on a second to minute time scale.
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