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Protomer Formation Can Aid the Structural Identification of Caffeine Metabolites

Helen Sepman, Sofja Tshepelevitsh, Henrik Hupatz, Anneli Kruve

2022Analytical Chemistry17 citationsDOIOpen Access PDF

Abstract

The structural annotation of isomeric metabolites remains a key challenge in untargeted electrospray ionization/high-resolution mass spectrometry (ESI/HRMS) metabolomic analysis. Many metabolites are polyfunctional compounds that may form protomers in electrospray ionization sources and therefore yield multiple peaks in ion mobility spectra. Protomer formation is strongly structure-specific. Here, we explore the possibility of using protomer formation for structural elucidation in metabolomics on the example of caffeine, its eight metabolites, and structurally related compounds. It is observed that two-thirds of the studied compounds formed high- and low-mobility species in high-resolution ion mobility. Structures in which proton hopping was hindered by a methyl group at the purine ring nitrogen (position 3) yielded structure-indicative fragments with collision-induced dissociation (CID) for high- and low-mobility ions. For compounds where such a methyl group was not present, a gas-phase equilibrium could be observed for tautomeric species with two-dimensional ion mobility. We show that the protomer formation and the gas-phase properties of the protomers can be related to the structure of caffeine metabolites and facilitate the identification of the structural isomers.

Topics & Concepts

ChemistryIon-mobility spectrometryElectrospray ionizationMass spectrometryDissociation (chemistry)ElectrosprayStructural isomerTandem mass spectrometryStereochemistryMethyl groupCollision-induced dissociationComputational chemistryChromatographyOrganic chemistryGroup (periodic table)Mass Spectrometry Techniques and ApplicationsMetabolomics and Mass Spectrometry StudiesAnalytical Chemistry and Chromatography