This paper describes an amperometric biosensor utilizing an engineered l-glutamate oxidase for glutamate monitoring in microbial fermentation processes. We designed a general immobilization strategy that utilized a chitin-binding domain (ChBD-tag) as a biotether to further immobilize l-glutamate oxidase (GLOX) in an oriented manner on a screen-printed Prussian blue nanocube microchip (PB/SPC) with the biopolymer chitosan. The improved l-glutamate biosensor exhibited an enhanced sensitivity of 53.4 µA L mmol-1 cm-2 and a linear range from 25 µmol/L to 300 µmol/L with a detection limit of 9 µmol/L, and retained 95 % of its initial activity after two weeks of usage. In addition, the as-prepared biosensor was applied for real-time monitoring of food ingredient l-glutamate concentration during the fermentation process, which was in good agreement with that of high-performance liquid chromatography (HPLC). Above all, the l-glutamate biosensor prepared by this method had high analytical performance, and could fully realize real-time and high-efficiency monitoring in glutamate fermentation.
Keywords: Chitin-binding domain; Oriented immobilization; Prussian blue nanocubes; l-Glutamate biosensor; l-Glutamate fermentation.
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