1. Academic Validation
  2. Fragmentation reactions of deprotonated peptides containing proline. The proline effect

Fragmentation reactions of deprotonated peptides containing proline. The proline effect

  • J Mass Spectrom. 2005 Sep;40(9):1173-86. doi: 10.1002/jms.891.
Alex G Harrison 1 Alex B Young
Affiliations

Affiliation

  • 1 Department of Chemistry, University of Toronto, Toronto, Canada. aharriso@chem.utoronto.ca
Abstract

The collision-induced dissociation (CID) fragmentation reactions of a variety of deprotonated Peptides containing proline have been studied in detail using MS(2) and MS(3) experiments, deuterium labelling and accurate mass measurements when necessary. The [M--H--CO(2)](-) (a(2)) ion derived from H-Pro-Xxx-OH Dipeptides shows an unusual fragmentation involving loss of C(2)H(4); this fragmentation reaction is not observed for larger Peptides. The primary fragmentation reactions of deprotonated Tripeptides with an N-terminal proline are formation of a(3) and y(1) ions. When proline is in the central position of Tripeptides, a(3), y(2) and y(1) ions are the primary fragmentation products of [M--H](-), while when the proline is in the C-terminal position, a(3)and y(1) ions are the major primary products. In the latter case, the a(3) ion fragments primarily to the ''b(2) ion; further evidence is presented that the ''b(2) ions have a deprotonated oxazolone structure. Larger deprotonated Peptides having at least two amino acid residues N-terminal to proline show a distinct preference for cleavage of the amide bond N-terminal to proline to form, mainly, the appropriate y ion. This proline effect is compared and contrasted with the similar proline effect observed in the fragmentation of protonated Peptides containing proline.

Figures
Products