Abstract

To improve the biosensing performance of organophosphorus hydrolase (OPH), the novel bioinorganic hybrid catalysts were facilely explored by biomineralization and cell surface display technology. During biomineralization, cobalt phosphate crystals were deposited onto the surface of OPH-fused bacteria, and the inorganic crystals at middle of cell collapsed inwardly to form the final spindle morphology because of the lowest energy principle and the mechanics principle. OPH would show the allosteric effect from "inactive" form to "active" form, and the "active" form was "fixed" when OPH was embedded into cobalt phosphate. Therefore, the activity of mineralized OPH-fused cells was greatly enhanced about 3 times in comparison with original OPH-fused cells. Additionally, the stability of the novel hybrid catalysts was also significantly improved. Further, the as-synthesized bioinorganic hybrid catalysts were applied to sensitive paraoxon biosensing, which exhibited lower limit of detection than that of the original counterpart. Thus, this hybrid biocatalytic system would provide a model to develop a wide range of biocatalysts and find a wide range of applications in industrial catalysis, analytical chemistry, and environmental engineering.

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