Citrullination and homocitrullination are key post-translational modifications (PTMs) that affect protein structures and functions. Although they have been linked to various biological processes and disease pathogenesis, the underlying mechanism remains poorly understood due to a lack of effective tools to enrich, detect, and localize these PTMs. Herein, we report the design and development of a biotin thiol tag that enables derivatization, enrichment, and confident identification of these two PTMs simultaneously via mass spectrometry. We perform global mapping of the citrullination and homocitrullination proteomes of mouse tissues. In total, we identify 691 citrullination sites and 81 homocitrullination sites from 432 and 63 proteins, respectively, representing the largest datasets to date. We discover novel distribution and functions of these two PTMs. We also perform multiplexing quantitative analysis via isotopic labeling techniques. This study depicts a landscape of protein citrullination and homocitrullination and lays the foundation for further deciphering their physiological and pathological roles.
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