A new method has been developed to study the dissociation patterns of singly protonated peptides by using a quadrupole ion trap mass spectrometer. The new approach involves using boundary-activated dissociation to characterize the ease of dissociation of peptide ions. Insight can be gained into the effect of specific peptide sequences on the dissociation energetics of protonated peptides. Increased knowledge of the effects of specific sequences on the dissociation patterns of peptide ions should improve the ability to interpret complex spectra from tandem mass spectrometry (MS/MS) experiments. This method has confirmed the previously observed increase in the energy needed for the dissociation of peptide ions containing basic residues. In addition, this technique has revealed the effect of the location of proline residues on the dissociation energetics of peptides with this amino acid.