Assessing N-terminal acetylation status of cellular proteins via an antibody specific for acetylated methionine

N-terminal acetylation is being recognized as a factor affecting protein lifetime and proteostasis. It is a modification where an acetyl group is added to the N-terminus of proteins, and this occurs in 80 % of the human proteome. N-terminal acetylation is catalyzed by enzymes called N-terminal acetyltransferases (NATs). The various NATs acetylate different N-terminal amino acids, and methionine is a known target for some of the NATs. Currently, the acetylation status of most proteins can only be assessed with a limited number of methods, including mass spectrometry, which although powerful and robust, remains laborious and can only survey a fraction of the proteome. We here present testing of an antibody that was developed to specifically recognize Nt-acetylated methionine-starting proteins. We have used dot blots with synthetic acetylated and non-acetylated peptides in addition to protein analysis of lysates from NAT knockout cell lines to assess the specificity and application of this anti-Nt-acetylated methionine antibody (anti-NtAc-Met). Our results demonstrate that this antibody is indeed NtAc-specific and further show that it has selectivity for some subtypes of methionine-starting N-termini, specifically potential substrates of the NatC, NatE and NatF enzymes. We propose that this antibody may be a powerful tool to identify NAT substrates or to analyse changes in N-terminal acetylation for specific cellular proteins of interest.