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Quantitative assessment of epoxide formation in oil and mayonnaise by 1H-13C HSQC NMR spectroscopy

Vincent J.P. Boerkamp, Donny Merkx, Jianli Wang, Jean‐Paul Vincken, Marie Hennebelle, John van Duynhoven

2022Food Chemistry38 citationsDOIOpen Access PDF

Abstract

Lipid oxidation is detrimental for the quality of oil-based foods. Historically, lipid oxidation research focussed on hydroperoxides and aldehydes, but a third class, the epoxides, have been proposed to resolve observed mechanistic anomalies. Here, we developed a 2D 1H-13C HSQC NMR spectroscopic method to quantify epoxides in food in a reproducible (relative standard deviation ≤11.6 %) and sensitive (LoQ 0.62 mmol/kg oil) manner. Lipid hydroperoxides, aldehydes, and epoxides generated in rapeseed oil and mayonnaise were quantified over time by NMR. Epoxides accounted at most for 10–40 % of the products. They were formed after hydroperoxide accumulation, most likely primarily via alkoxyl radical intermediates, which limits their potential as an early oxidation marker. As 99 % and ∼60 % of the epoxide signal intensities were assigned in a fatty acid and sub-structure specific manner, respectively, our quantitative HSQC method will enable unravelling and quantitative modelling of lipid oxidation mechanisms.

Topics & Concepts

Heteronuclear single quantum coherence spectroscopyChemistryRapeseedEpoxideCarbon-13 NMRLipid oxidationOrganic chemistryFatty acidProton NMRNuclear magnetic resonance spectroscopyFood scienceAntioxidantCatalysisAdvanced Chemical Sensor TechnologiesEdible Oils Quality and AnalysisMetabolomics and Mass Spectrometry Studies
Quantitative assessment of epoxide formation in oil and mayonnaise by 1H-13C HSQC NMR spectroscopy | Litcius