Cross-linked enzyme aggregates (CLEAs): A novel and versatile method for enzyme immobilization (a review)

Abstract

The key to obtaining optimum performance of an enzyme is often a question of devising an effective method for its immobilization. This review describes a novel, versatile and effective methodology for enzyme immobilization, namely, as cross-linked enzyme aggregates (CLEAs). The method is exquisitely simple – involving precipitation of the enzyme from aqueous buffer followed by cross-linking of the resulting physical aggregates of enzyme molecules – and amenable to rapid optimization. It is applicable to a wide variety of enzymes, including cofactor-dependent oxidoreductases and lyases, and affords stable, recyclable catalysts with high retention of activity, sometimes higher than that of the free enzyme it was derived from. The enzyme does not need to be of high purity. Indeed, the methodology is essentially a combination of purification and immobilization in one step. The technique is also applicable to the preparation of combi-CLEAs, containing two or more enzymes, for use in one-pot, multi-step syntheses. For example, an oxynitrilase/nitrilase combi-CLEA was used for the one-pot synthesis of (S)-mandelic acid from benzaldehyde, in high yield and enantiomeric purity.