Characteristic NH and CO losses from sodiated peptides C-terminated by glutamine residues.

Rationale: Under certain conditions some amino acid (AA) residues undergo special reactions in the gas phase, generating characteristic neutral losses and product ions. Taking these special fragments into account and understanding the effect of AA residues on peptide cleavages will consummate database search algorithms and manual data interpretation in peptide sequencing by mass spectrometry (MS). In this study, the details of the characteristic NH and CO losses of glutamine (Gln) residues located at the C-terminus of peptides are presented.

Investigation of c ions formed by N-terminally charged peptides upon collision-induced dissociation.

Peptide fragments such as b and y sequence ions generated upon low-energy collision-induced dissociation have been routinely used for tandem mass spectrometry (MS/MS)-based peptide/protein identification. The underlying formation mechanisms have been studied extensively and described within the literature. As a result, the 'mobile proton model' and 'pathways in competition model' have been built to interpret a majority of peptide fragmentation behavior.

Characteristic neutral loss of CH3CHO from Thr-containing sodium-associated peptides.

A characteristic neutral loss of 44 Da is observed in the MS/MS spectra of Thr-containing sodiated peptides. A combination of tandem mass spectrometry and quantum chemical calculations calculated at the B3LYP/6-311G (d, p) level of ab initio theory is used to elucidate this fragmentation pathway. The high resolution mass spectrometry data indicate this neutral loss is acetaldehyde lost from the side chain of Thr rather than CO2.