Evidence of Gas-phase Pyranose-to-furanose Isomerization in Protonated Peptidoglycans

04 August 2021, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Peptidoglycans are diverse co- and post-translational modifications of key importance in myriad biological processes. Mass spectrometry is employed to infer their biomolecular sequences and stereochemisties, but little is known about the critical gas-phase dissociation processes involved. Here, using tandem mass spectrometry (MS/MS and MSn), isotopic labelling and high-level simulations, we identify and characterize a facile isomerization reaction that produces furanose N-acetylated ions. This reaction occurs for both O- and N-linked peptidoglycans irrespective of glycosidic linkage stereochemistry (α/β). Dissociation of the glycosidic and other bonds thus occur from the furanose isomer critically altering the reaction feasibility and product ion structures.

Keywords

Tandem mass spectrometry
Carbohydrate
Glycan
Peptide
Mass Spectrometry
Labeling
DFT
Gas-phase
Structure

Supplementary materials

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Title
Supporting information: Evidence of Gas-phase Pyranose-to-furanose Isomerization in Protonated Peptidoglycans
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Supporting tables, figures, images
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