Separation of Biosynthetic Oligosaccharide Branch Isomers Using High-Performance Liquid Chromatography on a Porous Two-Dimensional Graphite Stationary Phase

Abstract

Oligomannosidic branch isomers (structures differing only in the branch location of a single residue) which are biosynthetic intermediates in yeast and higher eukaryotics have been separated using high-performance liquid chromatography (HPLC) on porous graphatized carbon (PGC) columns, a stationary phase of two-dimensional crystalline carbon. A mixture of two Man6GlcNAc isomers from IgM, which was determined from1H NMR analysis, was completely separated by PGC–HPLC. Mixtures of larger yeast oligomannosidic branch isomers were also chromatographically resolved using PGC–HPLC. Man10GlcNAc and Man11GlcNAc species from invertase expressed inPichia pastorisshowed three and five peak fractions, respectively, by PGC-HPLC in agreement with the number of isomeric forms from one- and two-dimensional1H NMR analyses of the individual sized fractions (Trimble, R.B., Atkinson, P.H., Tschopp, J.R., Townsend, R.R., and Maley, F. (1991)J. Biol. Chem.266, 22807–22817). Selected peak fractions were further analyzed to confirm assignments using matrix- assisted laser-desorption mass spectrometry after digestion with an α(1 → 2)-specific mannosidase (Aspergillus saitoi). PGC–HPLC should prove invaluable for the preparation of singular oligosaccharides to define exoglycosidase and glycosyl transferase branch specificity and for preparing standards to develop more sensitive methods for structural elucidation of oligosaccharides.