Bifurcating Fragmentation Behavior of Gas-Phase Tryptic Peptide Dications in Collisional Activation

Collision-activated dissociation (CAD) of tryptic peptides is a cornerstone of mass spectrometry-based proteomics research. Principal component analysis of a database containing 15,000 high-resolution CAD mass spectra of gas-phase tryptic peptide dications revealed that they fall into two classes with a good separation between the classes. The main factor determining the class identity is the relative abundance of the peptide bond cleavage after the first two N-terminal residues. A possible scenario explaining this bifurcation involves trans- to cis-isomerization of the N-terminal peptide bond, which facilitates solvation of the N-terminal charge on the second backbone amide and formation of stable b2 ions in the form of protonated diketopiperazines. Evidence supporting this scenario is derived from statistical analysis of the high-resolution CAD MS/MS database. It includes the observation of the strong deficit of a3 ions and anomalous amino acid preferences for b2 ion formation.

Graphical AbstractStatistical analysis supports the hypothesis that the dominant b2+ ions in CAD of peptide dications are protonated diketopiperazines.Figure optionsDownload high-quality image (46 K)Download as PowerPoint slide