Protein termini are critical for protein functions. They are often more accessible than internal regions and thus are frequently subjected to various modifications that affect protein function. Protein termini also contribute to regulating protein lifespan. Recent studies have revealed a series of degradation signals located at protein C-termini, termed C-degrons or C-end degrons. C-degrons have been implicated as underlying a protein quality surveillance system that eliminates truncated, cleaved and mislocalized proteins. Despite the importance of C-degrons, our knowledge of them remains sparse. Here, we describe an established framework for the characterization of C-degrons by Global Protein Stability (GPS) profiling assay, a fluorescence-based reporter system for measuring protein stability in cellulo. Furthermore, we apply an approach that couples GPS with random peptide libraries for unbiased and context-independent characterization of C-degron motifs. Our methodology provides a robust and efficient platform for analyzing the degron potencies of C-terminal peptides, which can significantly accelerate our understanding of C-degrons.
Keywords: C-degrons; C-end degrons; Global protein stability assay; Protein C-termini; Protein degradation; Protein lifespan.
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