Use of lipases in multiphasic systems solely composed of substrates

Abstract

Three lipase‐catalyzed reactions have been investigated in relation to specificity and water dependence. The reactions in question include: the synthetic reaction between oleic acid and glycerol; the enzymatic hydrolysis of triolein; and alcoholysis/glycerolysis transesterification reactions. All reactions were carried out under solventfree conditions. In each case, the medium composition and reaction conditions were optimized in order to work at elevated substrate concentrations and to minimize the production of by‐products. Different lipase preparations have been tested in each reaction. In the synthetic reaction, the effective removal of produced water was found to be vital for the production of triolein. With water removal and glycerol amounts not higher than required by the stoichiometry of the reaction, 95% of the available oleic acid was converted to triolein in 48 hr. The production of triolein was also found to be dependent on the availability of the 1,2‐diglyceride to react with oleic acid. In the hydrolysis reaction, best conversion yields of triolein towards monoolein, diolein and free fatty acid were obtained when water was considered simply as a substrate of the reaction. In glycerolysis reactions, the reaction of triolein to give monoolein and diolein followed much the same pattern as for hydrolysis, when water was replaced by glycerol. It was shown again that near stoichiometric amounts of substrates led to the best conversion to mono‐ and diglycerides. A small excess of glycerol was found to be very inhibitory to the reaction. All possible isomers were formed during the reaction. Conversely, in alcoholysis reactions between triolein and stearyl alcohol the specificity of the lipase was upheld. Excess alcohol in this instance was found to be beneficial.