Stable immobilization of aldehyde ketone reductase mutants containing nonstandard amino acids on an epoxy resin: Via strain-promoted alkyne-azide cycloaddition

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Abstract

To avoid random chemical linkage and achieve precisely directed immobilization, mutant enzymes were obtained and immobilized using an incorporated reactive nonstandard amino acid (NSAA). For this purpose, aldehyde ketone reductase (AKR) was used as a model enzyme, and 110Y, 114Y, 143Y, 162Q and 189Q were each replaced with p-azido-l-phenylalanine (pAzF). Then, the mutant AKR was coupled to the functionalized support by strain-promoted alkyne-azide cycloaddition (SPAAC). The effects of the incorporation number and site of NSAAs on the loading and thermal stability of the immobilized AKR were examined. The results show that the mutant enzymes presented better specific activity than the wild type, except for AKR-110Y, and AKR-114Y showed 1.16-fold higher activity than the wild type. Moreover, the half-life (t1/2) of the five-point immobilized AKR reached 106 h and 45 h, 13 and 7 times higher than that of the free enzyme at 30 °C and 60 °C, respectively. Comparison of these three types of enzymes shows that multi-point immobilization provides improved loading and thermal stability and facilitates one-step purification. We expect this platform to facilitate a fundamental understanding of precisely oriented and controllable covalent immobilization and enable bio-manufacturing paradigms for fine chemicals and pharmaceuticals.

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Li, H., Yin, Y., Wang, A., Li, N., Wang, R., Zhang, J., … Xie, T. (2020). Stable immobilization of aldehyde ketone reductase mutants containing nonstandard amino acids on an epoxy resin: Via strain-promoted alkyne-azide cycloaddition. RSC Advances, 10(5), 2624–2633. https://doi.org/10.1039/c9ra09067c

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