Litcius/Paper detail

Native Mass Spectrometry Meets Glycomics: Resolving Structural Detail and Occupancy of Glycans on Intact Glycoproteins

Siyun Chen, Di Wu, Carol V. Robinson, Weston B. Struwe

2021Analytical Chemistry25 citationsDOI

Abstract

Glycoproteins are inherently heterogeneous and therefore resolving structures in their entirety remains a major challenge in structural biology. Native mass spectrometry has transformed our ability to study glycoproteins, and despite advances in high-resolution instrumentation, there are comparatively a few studies demonstrating its potential with data largely limited to an overall measure of monosaccharide composition for all glycans across glycosylation sites for a given protein. Clearly, these readouts lack glycan topology information, namely, monosaccharide linkage and glycan branching. To address this deficiency, we developed a new approach that joins native mass spectrometry with glycan exoglycosidase sequencing, the combination of which provides remarkable glycoprotein structural details. We show how N-glycan branching, terminal fucosylation, LacNAc extensions, and N- and O-glycan occupancy (i.e., total number of glycans) can be directly characterized on intact glycoproteins with minimal sample preparation. Taken together, native exoglycosidase sequencing mass spectrometry (NES-MS) notably improves our ability to characterize protein glycosylation, addressing a significant need in structural biology that will enable new routes to understand glycoprotein function.

Topics & Concepts

ExoglycosidaseGlycanFucosylationChemistryGlycomicsGlycoproteinGlycomeGlycosylationMass spectrometryBiochemistryComputational biologyChromatographyBiologyGlycosylation and Glycoproteins ResearchCarbohydrate Chemistry and SynthesisGenomics and Phylogenetic Studies