Urea Artifacts Interfere with Immuno-Purification of Lysine Acetylation.

Comprehensive analysis of post-translational modifications (PTMs) often depends on the purification of modified peptides prior to LC-MS/MS. The implementation of these enrichment methods requires thorough knowledge of the experimental conditions to achieve optimal selectivity and sensitivity. In this regard, large-scale analysis of lysine acetylation, a key PTM for multiple cellular processes, makes use of monoclonal pan-antibodies designed against this moiety. We report that the immuno-purification of lysine-acetylated peptides is hampered by the copurification of lysine carbamylated peptides, a frequent urea artifact. This specific interaction can be explained by the similar chemical structures of lysine acetylation and lysine carbamylation. As an alternative, we propose a sample preparation protocol based on sodium deoxycholate that eliminates these artifacts and dramatically improves the selectivity and sensitivity of this immuno-purification assay.