Identification of disulfide bridges in a cardiotoxic peptide by electrospray ionization

Characterisation of botulinum toxins type C, D, E, and F by matrix-assisted laser desorption ionisation and electrospray mass spectrometry

In a follow-up of the earlier characterisation of botulinum toxins type A and B (BTxA and BTxB) by mass spectrometry (MS), types C, D, E, and F (BTxC, BTxD, BTxE, BTxF) were now investigated. Botulinum toxins are extremely neurotoxic bacterial toxins, likely to be used as biological warfare agent. Biologically active BTxC, BTxD, BTxE, and BTxF are comprised of a protein complex of the respective neurotoxins with non-toxic non-haemagglutinin (NTNH) and, sometimes, specific haemagglutinins (HA). These protein complexes were observed in mass spectrometric identification. The BTxC complex, from Clostridium botulinum strain 003-9, consisted of a 'type C1 and D mosaic' toxin similar to that of type C strain 6813, a non-toxic non-hemagglutinating and a 33 kDa hemagglutinating (HA-33) component similar to those of strain C-Stockholm, and an exoenzyme C3 of which the sequence was in full agreement with the known genetic sequence of strain 003-9. The BTxD complex, from C. botulinum strain CB-16, consisted of a neurotoxin with the observed sequence identical with that of type D strain BVD/-3 and of an NTNH with the observed sequence identical with that of type C strain C-Yoichi. Remarkably, the observed protein sequence of CB-16 NTNH differed by one amino acid from the known gene sequence: L859 instead of F859. The BTxE complex, from a C. botulinum isolated from herring sprats, consisted of the neurotoxin with an observed sequence identical with that from strain NCTC 11219 and an NTNH similar to that from type E strain Mashike (1 amino acid difference with observed sequence). BTxF, from C. botulinum strain Langeland (NCTC 10281), consisted of the neurotoxin and an NTNH; observed sequences from both proteins were in agreement with the gene sequence known from strain Langeland. As with BTxA and BTxB, matrix-assisted laser desorption/ionisation (MALDI) MS provided provisional identification from trypsin digest peptide maps and liquid chromatography-electrospray (tandem) mass spectrometry (LC-ES MS) afforded unequivocal identification from amino acid sequence information of digest peptides obtained in trypsin digestion.

Mass spectrometric investigations on Conus peptides

Molecular masses and primary structure determination of Conus peptides, such as alpha-, mu- and omega-conotoxins, conantokins and conopressins, were accurately measured by state-of-the-art mass spectrometric techniques using only 1-2 pmole quantities. Soft ionization of Conus peptides under electrospray, matrix-assisted laser desorption and continuous flow frit-FAB conditions produced their corresponding singly and multiply charged molecular ions which can be detected by mass spectrometric analysis. The molecular masses of Conus peptides were obtained by the deconvolution of the multiply charged pseudo-molecular ions. Mixture analysis without chromatographic separation can be accomplished by this approach. The ions formed during collision-induced dissociation of either singly or multiply charged ions of any reduced and derivatized peptide provided the corresponding sequences of the amino acids. Preliminary investigations indicate that the developed techniques and procedures could be applied in order to characterize the peptides present in unknown Conus venoms from the Bay of Bengal region.