Protein arginylation is a unique and under-explored posttranslational modification, which governs many biological functions and the fate of affected proteins. Since ATE1 was discovered in 1963, a central tenet of protein arginylation is that arginylated proteins are destined for proteolysis. However, recent studies have shown that protein arginylation controls not only the half-life of a protein but also various signaling pathways. Here, we introduce a novel molecular tool to elucidate protein arginylation. This new tool, termed R-catcher, is derived from the ZZ domain of p62/sequestosome-1, an N-recognin of the N-degron pathway. The ZZ domain, which has been shown to strongly bind N-terminal arginine, has been modified at specific residues to increase specificity and affinity for N-terminal arginine. R-catcher is a powerful analysis tool allowing researchers to capture the cellular arginylation patterns under various stimuli and conditions, thereby identifying potential therapeutic targets in numerous diseases.
Keywords: Arginylation; Pull-down; R-catcher.
© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.