Litcius/Paper detail

Paternò–Büchi Reaction Mass Spectrometry Enables Positional Assignment of Polymethylene-Interrupted Double Bonds in Food-Derived Lipids

Zhen Wang, Secilia Garza, Xu Li, Md Saydur Rahman, J. Thomas Brenna, Dong Hao Wang

2024Journal of Agricultural and Food Chemistry10 citationsDOI

Abstract

Fatty acids (FAs) containing polymethylene-interrupted (PMI) double bonds are a component of human foods; however, they present a significant analytical challenge for de novo identification. Covalent adduct chemical ionization and ozone-induced dissociation mass spectrometry (MS) methods enable unambiguous assignment of PMI-FA double bond positions, however, no method has been reported with electrospray ionization (ESI) platform using off-the-shelf systems. In the current work, we studied the Paternò–Büchi (PB) fragmentation patterns of PMI-FA and triacylglycerol (TG) by analyzing several known food sources. PB-MS/MS and MS 3 enabled complete double bond location assignments, including the isolated double bond in PMI-FA and triacylglycerols. Sea urchin (“uni”), oyster, pine nut, and ginkgo nut were characterized for their signature PMI-FA, 20:2(5 Z,11 Z ), 22:2(7 Z, 15 Z ), 18:3(5 Z,9 Z,12 Z ), and 20:3(5 Z,11 Z,14 Z ), respectively. Quantitative analyses of the relative abundance of these PMI-FA led to results similar to reference methods. 18:3(5 Z,9 Z,12 Z ) was enriched at the sn -1/ sn -3 position in pine nut major TG.

Topics & Concepts

Double bondChemistryAdductElectrospray ionizationMass spectrometryCovalent bondDissociation (chemistry)Fragmentation (computing)StereochemistryChromatographyOrganic chemistryBiologyEcologyMetabolomics and Mass Spectrometry StudiesAdvanced Chemical Sensor TechnologiesMeat and Animal Product Quality
Paternò–Büchi Reaction Mass Spectrometry Enables Positional Assignment of Polymethylene-Interrupted Double Bonds in Food-Derived Lipids | Litcius