Optimization of methyl propionate production catalysed by Mucor miehei lipase

Abstract

Lipase from Mucor miehei was used to catalyse the esterification reaction between propionic acid and methyl alcohol in modified organic media. Small-scale model studies were performed in order to define the optimal conditions. The specific activity of immobilized lipase, adsorbed onto hydrophilic supports, compared to free lipase, showed that enzyme activity was altered by immobilisation. Non-polar solvents were shown to be less harmful for the biocatalyst than solvents with higher polarity. Diethyl ether was used as the cosolvent of hexane to improve the solubility of substrates in the organic phase thus increasing contact with enzyme. An optimal ratio of 90/10 (v/v) was determined for a hexane/diethyl ether mixture. The mass of enzyme preparation must be high enough to display optimal diffusion of the reagents and hydration of the catalytic sites. Increased substrate concentrations were stimulatory up to a point after which inhibition and enzyme destabilisation, in repeated runs, occurred. Water saturation of the organic medium greatly lowered the biosynthetic activity of the enzyme. It was possible to reach a 96% methyl propionate biosynthesis yield after 2.30 h reaction, underlining the free-enzyme operational capacity in a quasi-anhydrous modified organic medium.