Fluorescent Glycan Fingerprinting of SARS2 Spike Proteins

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Abstract

Glycosylation is the most common post-translational modification and has myriad biological functions. However, glycan analysis and research has always been a challenge. Here, we would like to present new techniques of glycan fingerprinting based on enzymatic fluorescent labeling and gel electrophoresis. The method is illustrated on SARS-2 spike (S) glycoproteins. SARS-2, a novel coronavirus and the causative agent of COVID-19 pandemic, has devastated the world since the end of 2019. To obtain the N-glycan fingerprint of a S protein, glycans released from the protein are first labeled through enzymatic incorporation of fluorophore-conjugated sialic acid or fucose, and then separated on acrylamide gel through electrophoresis, and finally visualized with a fluorescent imager. To identify the labeled glycans of a fingerprint, glycan standards and glycan ladders that are enzymatically generated are run alongside the samples as references. By comparing the mobility of a labeled glycan to that of a glycan standard, the identity of glycans maybe determined. Due to lack of enzyme for broad O-glycans releasing, O-glycans on the RBD protein are labeled with fluorescent sialic acid and digested with trypsin to obtain labeled glycan peptides that are then separated on gel. Glycan fingerprinting could serve as a quick way for global assessment of the glycosylation of a glycoprotein.

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