The vast majority of eukaryotic proteins are subjected to N-terminal (Nt) acetylation. This reaction is catalyzed by a group of N-terminal acetyltransferases (NATs), which co- or post-translationally transfer an acetyl group from Acetyl coenzyme A to the protein N-terminus. Nt-acetylation plays an important role in many cellular processes, but the functional consequences of this widespread protein modification are still undefined for most proteins. Several in vitro acetylation assays have been developed to study the catalytic activity and substrate specificity of NATs or other acetyltransferases. These assays are valuable tools that can be used to define substrate specificities of yet uncharacterized NAT candidates, assess catalytic impairment of pathogenic NAT variants, and determine the potency of chemical inhibitors. The enzyme input in acetylation assays is typically acetyltransferases that have been recombinantly expressed and purified or immunoprecipitated proteins. In this chapter, we highlight how cell lysates can also be used to assess NAT catalytic activity and impairment when used as input in a previously described isotope-based in vitro Nt-acetylation assay. This is a fast and highly sensitive method that utilizes isotope labeled 14C-Ac-CoA and scintillation to detect the formation of Nt-acetylated peptide products.
Keywords: (14)C-ac-CoA; Catalytic activity; Cell lysate; In vitro acetylation assay; N-terminal acetyltransferase; Peptide acetylation.
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