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Mechanism of palmitoleic acid oxidation into volatile compounds during heating

Pengxun Gao, Yuxiang Bao, Shuo Wang, Liming Lei, Binchen Wang, Xiao Lin, Kunya Cheng, Yian Wang, Sufang Zhang, Liang Dong

2023Flavour and Fragrance Journal13 citationsDOI

Abstract

Abstract To better understand the mechanism of palmitoleic acid oxidation into volatile compounds during heating, volatile profiling was investigated by combining thermal‐desorption cryo‐trapping with gas chromatography–mass spectrometry. A total of 49 volatile compounds were detected and identified during this process, including aldehydes (18), ketones (14), alcohols (9), furans (3) and acids and ester (5). The forming temperature of each volatile was determined. Most of the volatiles with short carbon chains were generated at low temperatures, while those with long carbon chains were generated at high temperatures. Results of principal component analysis show that nearly all of the identified volatiles were considered as the characteristic ones of the high temperature points. Meanwhile, the oxidative products of the C7–C11 saturated and unsaturated aldehydes were also detected and identified during heating to intensively investigate the oxidative mechanism of palmitoleic acid during heating. Results demonstrated that only the C10 saturated and unsaturated aldehydes could continue to be oxidized during heating. Therefore, the oxidation reactions above the secondary level of lipids mainly occurred in the C10 saturated and unsaturated aldehydes.

Topics & Concepts

ChemistryPalmitoleic acidThermal oxidationMass spectrometryOrganic chemistryOxidative cleavageGas chromatographyDesorptionThermal desorptionChromatographyCatalysisFatty acidPalmitic acidAdsorptionSiliconAdvanced Chemical Sensor TechnologiesFree Radicals and AntioxidantsMetabolomics and Mass Spectrometry Studies
Mechanism of palmitoleic acid oxidation into volatile compounds during heating | Litcius