Laser-induced dissociation/high-energy collision-induced dissociation fragmentation using MALDI-TOF/TOF-MS instrumentation for the analysis of neutral and acidic oligosaccharides.

Producing detailed mass spectrometric fragmentation data of native oligosaccharides for the purpose of basic structure elucidation has become a readily accessible tool since the availability of enhanced technical equipment. In this report, high-energy collision-induced dissociation (heCID) in combination with MALDI-TOF/TOF technology for analysis of native neutral and acidic oligosaccharides is described. By providing complementary data, heCID-MALDI-TOF/TOF adds a variety of valuable cross-ring fragmentation information to the information of glycosidic fragmentation obtained preferably by laser-induced dissociation (LID). We examined parameters influencing fragmentation behavior of both-acidic and neutral-compounds. Results show a dependency of the fragmentation pattern for the employed matrix as well as the laser intensity provided for the ionization of the analytes and the complexity of the analytes. Due to instrument-specific settings, protonated glycosidic ion series within spectra of sodiated compounds could also be identified. Furthermore, acquired spectra could be readily used to identify compounds by comparison to existing glycan databases such as GlycoSuiteDB and GlycosciencesDB. The results show a better scoring of heCID data sets in comparison to LID-derived data. heCID-MALDI-TOF/TOF analysis in combination with database search algorithms is demonstrated to be suitable for an initial identification/classification of carbohydrates.