Preparation and characterization of immobilized lipase on magnetic hydrophobic microspheres

Abstract

A novel magnetic poly(vinyl acetate (VAc)–divinyl benzene (DVB)) material (8–34 μm) was synthesized by copolymerization of vinyl acetate and divinyl benzene using oleic acid-stabilized magnetic colloids as magnetic cores. The magnetic colloids and the copolymer microspheres were characterized with transmission and scanning electron microscopes, respectively. Magnetization of the microspheres could be described by the Langevin function. All the observations indicated that the microspheres were superparamagnetic. Magnetic sedimentation of the microspheres was achieved within 3 min, over 300 times faster than the gravitational sedimentation. Candida cylindracea lipase (CCL) was immobilized to the porous carrier at up to 6750 IU/g carrier, remarkably higher than the previous studies. The pH and temperature dependencies of the immobilized CCL were investigated and the optimum temperature and pH for the immobilized CCL were determined. Activity amelioration of the immobilized CCL for the hydrolysis of olive oil was observed, indicating an interfacial activation of the enzyme after immobilization. Moreover, the immobilized CCL showed enhanced thermal stability and good durability in the repeated use after recovered by magnetic separations.