Protein N-termini provide useful information for the understanding of posttranslational processing of proteins. The majority of proteins undergo N-terminal processing, such as proteolytic truncation or modifications like acetylation. Multiple methods currently exist for the enrichment of N-terminal peptides for proteomic analyses. Here, we report a novel, simple, and straightforward N-terminomic strategy, based on charge reversal of internal peptides followed by their removal through strong cation exchange chromatography. Our initial proof-of-concept study shows the feasibility of this technique, yielding over 3000 identifications of protein N-termini. We further show the application of this strategy in investigating the N-terminome of mouse embryonic fibroblasts cells deficient for both cathepsin B and L in comparison to wild type) control cells. Finally, we demonstrate that this workflow can be used in combination with a gel-based strategy, allowing preseparation of proteins and thus providing an estimate of the molecular weight of the identified cleavage products.
Keywords: N-terminomics; Proteases; Proteolysis; TAILS; Technology.
© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.