<p><a>Native
mass spectrometry, particularly in conjunction with gas-phase ion mobility
spectrometry measurements, has proven useful as a structural biology tool for
evaluating the stoichiometry, conformation, and topology of protein complexes. Here,
we demonstrate the combination of trapped ion mobility spectrometry (TIMS) and
surface-induced dissociation (SID) on a Bruker SolariX XR 15 T FT-ICR mass spectrometer
for structural analysis of protein complexes. We successfully performed SID on
mobility-selected protein complexes, including streptavidin tetramer and cholera
toxin B with bound ligand. Additionally, TIMS-SID was employed on a mixture of
peptides bradykinin desR1 and desR9 to mobility separate and identify the
individual peptides. Importantly, results show that native-like conformations
can be maintained throughout the TIMS analysis. The TIMS-SID spectra are
analogous to SID spectra acquired using quadrupole mass selection, indicating
little measurable, if any, structural rearrangement during mobility selection.
Mobility parking was used on the ion or mobility of interest and 50 to 200 SID
mass spectra were averaged. High quality TIMS-SID spectra were acquired over a
period of 2-10 minutes, comparable to or slightly longer than SID coupled with
ion mobility on various instrument platforms in our laboratory. The ultrahigh
resolving power of the 15 T FT-ICR allowed for the identification and relative
quantification of overlapping SID fragments with the same nominal <i>m/z</i>
based on isotope patterns and shows promise as a platform to probe small mass
differences, such as protein-ligand binding or post-translational modifications.
These results represent the potential of TIMS-SID-MS for the analysis of both
protein complexes and peptides.</a></p>
Surface-induced dissociation of protein complexes on a cyclic ion mobility spectrometer
