Download This PaperSensitive Electrochemical Sequential Enzyme Biosensor for Glucose and Starch Based on Glucoamylase- and Glucose Oxidase- Controllably Co-Displayed Yeast Recombinant
22 Pages Posted: 22 Mar 2022
Abstract
The sequential enzyme biosensors hold significant importance in measuring species which are usually hard to process with single-enzyme-based biosensors. However, sequential enzyme electrodes experience critical issues such as low catalytic efficiency, insensitivity and poor reproducibility. In this work, yeast surface co-displaying sequential enzymes of glucoamylase (GA) and glucose oxidase (GOx) with controllable ratios through the specific cohesion-dockerin protein interaction was explored, by which starch hydrolyzed by GA into glucose is the rate-limiting step. The modified electrodes were prepared by immobilizing yeast-GA&GOx whole-cell and reduced graphene oxide (RGO) on glassy carbon electrode (GCE), for which the direct electron transfer between the electrode and recombinant GOx was arrived. Interestingly, the current responses of sensors to starch and glucose are dependent on the displayed enzyme composition, of which the yeast-GA&GOx(2:1) is highest. Thereafter, sequential enzyme sensor yeast-GA&GOx(2:1)/RGO/GCE was developed. Based on reduction detection at negative potential without interference, the sensor is stable and capable of assaying glucose (linear range: 2.0–100 mg/L) or starch (linear range, 50–3500 mg/L), separately. Coupled with yeast-GOx/RGO/GCE glucose sensor, both glucose and starch in real samples can be detected satisfactorily. This work provides new ideas for the development of other sequential enzyme electrodes for potential applications.
Keywords: Sequential enzyme biosensor, Controllably displaying enzyme, Whole-cell catalyst, glucose, Starch
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