Structure and fragmentation of b2 ions in peptide mass spectra

Abstract

In a number of cases the b₂ ion observed in peptide mass spectra fragments directly to the a₁ ion. The present study examines the scope of this reaction and provides evidence as to the structure(s) of the b₂ ions undergoing fragmentation to the a₁ ion. The b₂ ion H-Ala-Gly⁺ fragments, in part, to the a₁ ion, whereas the isomeric b₂ ion H-Gly-Ala⁺ does not fragment to the a₁ ion. Ab initio calculations of ion energies show that this different behavior can be rationalized in terms of protonated oxazolone structures for the b₂ ions provided one assumes a reverse activation energy of ∼1 eV for the reaction b₂ → a₂; such a reverse activation energy is consistent with experimental kinetic energy release measurements. Experimentally, the H-Aib-Ala⁺ b₂ ion, which must have a protonated oxazolone structure, fragments extensively to the a₁ ion. We conclude that the proposal by Eckart et al. (J. Am. Soc. Mass Spectrom. 1998, 9, 1002) that the b₂ ions which undergo fragmentation to a₁ ions have an immonium ion structure is not necessary to rationalize the results, but that the fragmentation does occur from a protonated oxazolone structure. It is shown that the b₂ → a₁ reaction occurs extensively when the C-terminus residue in the b₂ ion is Gly and with less facility when the C-terminus residue is Ala. When the C-terminus residue is Val or larger, the b₂ → a₁ reaction cannot compete with the b₂ → a₂ fragmentation reaction. Some preliminary results on the fragmentation of a₂ ions are reported.