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Fragmentation chemistry of [Met-Gly]•+, [Gly-Met]•+, and [Met-Met]•+ radical cations.

Journal of the American Society for Mass Spectrometry (2013-02-27)
Justin Kai-Chi Lau, Seydina Lo, Junfang Zhao, K W Michael Siu, Alan C Hopkinson
RÉSUMÉ

Radical cations [Met-Gly](•+), [Gly-Met](•+), and [Met-Met](•+) have been generated through collision-induced dissociation (CID) of [Cu(II)(CH3CN)2(peptide)](•2+) complexes. Their fragmentation patterns and dissociation mechanisms have been studied both experimentally and theoretically using density functional theory at the UB3LYP/6-311++G(d,p) level. The captodative structure, in which the radical is located at the α-carbon of the N-terminal residue and the proton is on the amide oxygen, is the lowest energy structure on each potential energy surface. The canonical structure, with the charge and spin both located on the sulfur, and the distonic ion with the proton on the terminal amino group, and the radical on the α-carbon of the C-terminal residue have similar energies. Interconversion between the canonical structures and the captodative isomers is facile and occurs prior to fragmentation. However, isomerization to produce the distonic structure is energetically less favorable and cannot compete with dissociation except in the case of [Gly-Met](•+). Charge-driven dissociations result in formation of [b(n) - H](•+) and a(1) ions. Radical-driven dissociation leads to the loss of the side chain of methionine as CH3-S-CH=CH2 producing α-glycyl radicals from both [Gly-Met](•+) and [Met-Met](•+). For [Met-Met](•+), loss of the side chain occurs at the C-terminal as shown by both labeling experiments and computations. The product, the distonic ion of [Met-Gly](•+), NH3 (+)CH(CH2CH2SCH3)CONHCH(•)COOH dissociates by loss of CH3S(•). The isomeric distonic ion NH3 (+)CH2CONHC(•)(CH2CH2SCH3)COOH is accessible directly from the canonical [Gly-Met](•+) ion. A fragmentation pathway that characterizes this ion (and the distonic ion of [Met-Met](•+)) is homolytic fission of the Cβ-Cγ bond to lose CH3SCH2(•).

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Sigma-Aldrich
Met-Gly