Perilla seed oil (PSO) is a major source of α-linolenic acid (ALA). In order to better separate ALA from PSO and to improve its purity and yield, a purification method for ALA that combines urea complexation (UC) with rapid preparative reversed-phase liquid chromatography (RP-RPLC) has been studied. Within the selected ranges of conditions, four one-factor experiments were found to have significant effects on the purity and yield of ALA from PSO. A response surface methodology (RSM) has been applied to optimize UC for separating and purifying ALA from PSO, which yielded optimal parameters of 95% ethanol/urea (w/w) = 5:1, urea/esterified fatty acids (E-FAs) (w/w) = 2:1, complexation time 16.3 h, and complexation temperature 17 °C. The optimal purity and optimal yield of the one-time purification ALA (OTP-ALA) obtained by UC thereby reached 86.977 ± 0.082% and 34.696 ± 0.948 %, respectively. Two-time purification conditions of OTP-ALA by RP-RPLC were also determined, and the purity of the two-time purification ALA (TTP-ALA) was increased to 99.200 ± 0.061%, corresponding to a yield of 53.888 ± 0.904 %. The effect of different added amounts of α-tocopherol on the oxidation stability of TTP-ALA has also been studied. Accelerated oxidation tests showed that the addition of α-tocopherol effectively inhibited the oxidation of TTP-ALA by reducing the peroxide value (PV). of ALA separation and purification in PSO (triglycerides refers to the collective term for all fatty acid glycerides in PSO). • An improved method for purification of ALA from perilla seed oil was developed. • RSM has been used to optimize the separation of ALA from perilla seed oil. • The combined use of the two methods results in ALA purity exceeding 99.2 %. • Add an appropriate amount of α-tocopherol improved the oxidation stability of ALA.
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