Effect of a double-structured microporous polymer support on the catalytic activity, stability and aggregation behavior of immobilized enzymes

A double-structured microporous polymer composite support consisting of a microporous skeleton for protection of immobilized enzymes and a gel-like polymer bearing different functionalities has been synthesized for immobilization of various enzymes. Among three approaches based on two types of interactions (physical and chemical), we found that under our experimental conditions the covalent bonding between amine moieties of enzymes and epoxide groups of the support was the best, with enzyme leaching being reduced to as low as zero for nine enzymes and catalytic activities increased by factors of 1–4 for two lipases. The improvement in catalytic activity could be attributed to the amphiphilic soft gel which might create a kind of lipid–water interface or microenvironment in aqueous solution, favoring the interfacial activation of certain lipases. Furthermore, the thermal and operational stability, and reusability of all the enzymes could be enhanced to varying degrees. We also found that enzyme aggregates of different sizes could be formed on the spherical support surface at quite low enzyme concentrations, which might also influence the final catalytic activities of the immobilized enzymes. © 2015 Society of Chemical Industry