Surface-induced dissociation of protonated peptides: implications of initial kinetic energy spread

We report here surface-induced dissociation spectra of three multiply charged peptides: doubly protonated angiotensin I, doubly protonated renin substrate, and triply protonated melittin. For comparison, the collision-activated dissociation spectra of renin substrate and melittin are also presented.

Full understanding of the surface-induced dissociation (SID) of biological ions requires the determination of the energy channeling into the surface and the scattered ion kinetic and internal energies. Parent and fragment ion kinetic energy distributions were measured for Ðve peptide ions scattered

The grazing incidence surface-induced dissociation (GI-SID) of various protonated peptides with typical kinetic energies of 350 eV was investigated. Peptide ions were generated by matrix-assisted laser desorption/ ionization (MALDI) using delayed extraction. The collision target surfaces used were a

A statistical study of the fragmentation behaviour of 138 model peptides, containing 3-9 amino acid residues (n = 3-9) under high-energy collision conditions is presented. The aim was to identify characteristic patterns of ions in the spectra of peptides which can be translated into general rules to