Roasting flaxseed significantly improves the antioxidant activities and flavor of its oil; however, the effect of roasting on phospholipid molecules in flaxseed oil is limited. Herein, on the basis of phospholipidomics and quantum chemistry calculation, phospholipidome in raw, light, and dark roasted flaxseed oils and their changes were systematically explored and compared. Seventy individual phospholipid molecules were detected in raw and roasted flaxseed oils. After light roasting, major classes of phospholipid molecules including phosphatidylethanolamine, phosphatidylcholine, and phosphatidylinositol increased 11.43-, 36.62-, and 67.88-fold, respectively. PE exhibited 92.06 % reduction after dark roasting. The model reaction showed that the main reaction of PE was the Maillard reaction during roasting. Quantum chemistry calculation demonstrated that the reaction energy barriers of the Maillard reaction (96.81 kJ/mol) was much lower than the hydrolysis (188.84 kJ/mol) for PE. The study is expected to provide new insight into the change mechanism of PE during flaxseed processing.
Keywords: Density functional theory; Flaxseed oil; Maillard reaction; Phosphatidylethanolamine; Phospholipidome; Roasting.
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