Analysis of Aspergillus sp. lipase immobilization for the application in organic synthesis

Abstract

Nowadays, for the industrial implementations, especially in the area of organic synthesis, immobilized enzymes are preferred over their soluble forms. Present study aimed to find fast, cost-efficient, and effective way of lipase immobilization for the use in organic media. Lipase from Aspergillus sp. (Resinase A 2X) was immobilized utilizing cross-linking of enzyme aggregates, covalent immobilization on magnetite particles and adsorption-immobilization using pyrolyzed sugar industry waste product as a novel type of carrier. Covalently- and adsorption-immobilized preparations exhibited greater specific activities (5.61±0.18U/mg and 14.2±0.63U/mg, respectively) in organic reaction media than the soluble form of the enzyme (0.06±0.01U/mg). Enzyme immobilized on the sugar industry waste pyrolyis product was determined as a best way to hyperactivate Resinase A 2X and was chosen for the synthesis of flavor and fragrance compound 2-phenylethyl butanoate. Furthermore, in order to optimize 2-phenylethyl butanoate synthesis conditions, central compositional experimental plan was designed using RSM. It showed that in optimal reaction conditions (4.5h at 40.7°C, with 0.1M of substrate) conversion higher than 90% can be achieved. Studies of the operational stability showed enhanced reusability of adsorption-immobilized lipase (with each cycle, efficiency of the 2-PB synthesis diminished by 20–30%). The use of the sugar industry waste pyrolysis product as a carrier provides a novel, cheap, fast, cost-efficient and eco-friendly way of immobilization with some crucial points to be noted for the best productivity.