LAUSR

Mass spectrometry (MS) has emerged as a powerful tool within the growing field of immunoproteomics, which aims to understand antibody-mediated immunity at the molecular-level based on the direct determination of serological antibody repertoire. To date, these methods have relied on the use of high-resolution bottom-up proteomic strategies that require effective sampling and characterization of low abundance peptides derived from the antigen-binding domains of polyclonal antibody mixtures. Herein, we describe a method that uses restricted Lys-C enzymatic digestion to increase the average mass of proteolytic IgG peptides (≥4.5 kDa) and produce peptides which uniquely derive from single antibody species. This enhances the capacity to discriminate between very similar antibodies present within polyclonal mixtures. Furthermore, our use of 193-nm ultraviolet photodissociation (UVPD) improves spectral coverage of the antibody sequence relative to conventional collision- and electron-based fragmentation methods. We apply these methods to both a monoclonal and an antibody mixture. By identifying from a database search of approximately 15 000 antibody sequences those which compose the mixture, we demonstrate the analytical potential of middle-down UVPD for MS-based serological repertoire analysis.