Electrospray tandem mass spectrometric studies of phosphopeptides and phosphopeptide analogues

Abstract

A set of synthetic phosphopeptides and phosphopeptide analogues was studied by tandem nano-electrospray mass spectrometry. The influence of the collision offset and of the charge state of the molecular ion on phosphate-specific fragmentation processes was investigated in detail. H--D exchange experiments and structural considerations support a six-centered transition being present in the neutral loss of H3PO4 from serine, threonine and homoserine phosphopeptides, where the C-alpha hydrogen of serine or threonine or the C-beta hydrogen of homoserine is transferred to the protonated phosphate group. Neutral loss of H3PO4 at moderate collision offset potential represents a very abundant fragmentation process for serine, threonine and homoserine phosphopeptides. The most specific feature for discrimination of these phosphopeptides from tyrosine phosphopeptides is the m/z 79:97 ratio in the negative ion product spectra, which is consistently elevated in tyrosine phosphopeptides as compared with serine, threonine and homoserine phosphopeptides. The fragment ions of methylphosphono- and H-phosphonopeptides can be explained by the same mechanisms as are applicable to phosphopeptides.