Abstract
To take advantage of the high specificity of enzymatic catalysis along with the high efficiency of electrochemical cofactor regeneration, a bacterial surface displayed enzyme-nanomaterial hybrid bioelectrocatalytic system is herein developed. A cofactor-dependent xylose reductase, capable of reducing xylose to xylitol, is displayed on the surface of Bacillus subtilis, followed by the attachment of copper nanomaterials via the binding of His-tagged enzyme with the nickel ion. This hybrid system can regenerate NADPH with a highest efficiency of 71.6% in 4 h without the usage of extra electron mediators, and 2.35 mM of xylitol can be synthesized after a series of optimization processes. This work opens up new possibilities for the construction and application of bioelectrocatalytic systems with enzyme-nanomaterial hybrids.
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