EnzyMed, A Division of Albany Molecular Research, Inc., 2501 Crosspark Road, Suite C-150, Iowa City, IA 52242, USA
Abstract:
The synthetic potential of amine oxidases was examined in different reaction systems, ranging from aqueous solutions to organic solvents with low water content. Substantial conversion was achieved in biphasic systems, which eliminated the product inhibition observed in the aqueous system. The conversion was particularly high in the more hydrophobic solvents. The use of low water systems was studied using amine oxidase immobilized on celite and pre-equilibrated in a salt hydrate environment to reach a constant water activity. Addition of water in the solvent was shown to be unnecessary, with significant conversion being attained through the water supplied by pre-equilibration of the immobilized enzyme at aw=0.55. The use of organic solvent-containing reaction systems thus presents a convenient method for oxidising poorly water-soluble amines using amine oxidases.