Mapping pH-induced protein structural changes under equilibrium conditions by pulsed oxidative labeling and mass spectrometry.

Mass spectrometry (MS)-based protein conformational studies are a rapidly growing field. The characterization of partially disordered conformers is of particular interest because these species are not amenable to classical high-resolution techniques. Such equilibrium intermediates can often be populated by exposure to mildly acidic pH. Hydroxyl radical (·OH) introduces oxidative modifications at solvent-accessible side chains, while buried sites are protected. ·OH can be generated by laser photolysis of H2O2 (fast photochemical oxidation of proteins–FPOP). The resulting labeling pattern can be analyzed by MS. The characterization of partially disordered intermediates usually involves comparative measurements under different solvent conditions. It can be challenging to separate structurally induced labeling changes from pH-mediated “secondary” effects. The issue of secondary effects in FPOP has received little prior attention. We demonstrate that with a proper choice of conditions (e.g., in the absence of ...