Enzymatic synthesis of glycerides from DHA-enriched PUFA ethyl ester by glycerolysis under vacuum

Abstract

Pseudomonas lipase immobilized on CaCO 3 powder was used for the glycerolysis of n−3 polyunsaturated fatty acid ethyl esters to prepare nutritionally valuable glycerides. The initial ethyl ester contained 65 or 99% docosahexaenoic acid ethyl ester (DHAEE) which is very unstable and readily oxidized. The process performance was intensified by: (1) using Pseudomonas lipase which has good specificity for docosahexaenoic acid (DHA), (2) shifting the reaction equilibrium by evaporation of the resulted ethanol under vacuum and (3) enhancing the enzyme operational stability by immobilization on CaCO 3 powder. Under these conditions, over 90% conversion of DHAEE was achieved in 5 h and the oxidative deterioration of DHA was avoided. The final product contained 53% partial glyceride and, thus, had good emulsifying power. The catalyst was reused 5 times showing a very good stability in this system. Other lipases were tried for this reaction and different glyceride compositions were obtained depending on the enzyme specificity for the 1(3)-position of glycerol.