Abstract
We investigated the dissociation and characterization of radical cations of glycylglycyltyrosine [GGY]•+, focusing on β-radical-induced N–Cα peptide bond cleavage reactions at the tyrosyl residue. By combining density functional theory (DFT) calculations with experimental studies utilizing low-energy collision-induced dissociation (CID) mass spectrometry and deuterium labeling on the two β-hydrogen atoms of the tyrosyl residue in [GGY]•+, we elucidated the intricacies of the β-radical structure and its origin. Unlike tryptophan-containing [GGW]•+, which forms canonical π-radical precursors, infrared multiphoton dissociation (IRMPD) spectroscopy results reveal that the β-radical [GGYβ•]+ isomerizes from the phenoxy-radical [GGYo•]+, with the radical localized on the β-carbon of the tyrosyl residue and the phenolic oxygen atom, respectively. The isomerization barriers from [GGYo•]+ to [GGYβ•]+ are <109 kJ mol−1.
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