Electron‐induced dissociation (EID) for structure characterization of glycerophosphatidylcholine: determination of double‐bond positions and localization of acyl chains

Glycerophospholipids are a highly abundant and diverse collection of biologically relevant lipids, and distinction between isomeric and isobaric species is a fundamental aspect for confident identification. The ability to confidently assign a unique structure to a glycerophospholipid of interest is dependent on determining the number and location of the points of unsaturation and assignment of acyl chain position. The use of high‐energy electrons (>20 eV) to induce gas‐phase dissociation of intact precursor ions results in diagnostic product ions for localizing double‐bond positions and determining acyl chain assignment. We describe a high‐resolution, tandem mass spectrometry method for structure characterization of glycerophospholipids using electron‐induced dissociation (EID). Furthermore, the inclusion of nomenclature to systematically assign bond cleavage sites with acyl chain position and double‐bond location enables a uniform platform for lipid identification. The EID methodology detailed here combines novel application of an electron‐based dissociation technique with high‐resolution mass spectrometry that facilitates a new experimental approach for lipid biomarker discovery and validation. Copyright © 2015 John Wiley & Sons, Ltd.