一种双模生物传感器，其特点是使用单原子 Fe 纳米酶用于蔬菜中多种农药的检测。

A dual-mode biosensor featuring single-atom Fe nanozyme for multi-pesticide detection in vegetables.

机构信息

College of Agriculture Engineering and Food Science, Shandong University of Technology, No. 266 Xincun Xilu, Zibo 255049, Shandong Province, China.

出版信息

Food Chem. 2024 Mar 30;437(Pt 2):137882. doi: 10.1016/j.foodchem.2023.137882. Epub 2023 Nov 2.

DOI:10.1016/j.foodchem.2023.137882

PMID:37948799

Abstract

The single-atom iron nanozyme (SA-Fe-NZ) exhibits high catalytic activity and excellent electron transfer efficiency in biosensors. However, the binding of bioreceptors to the surface of SA-Fe-NZ results in a decrease in the catalytic activity of the nanozyme due to its toxic effects. We utilized the toxic effects and excellent electrochemical properties of the SA-Fe-NZ to successfully construct a smartphone-assisted dual-mode biosensor. The complex formed by the binding of organophosphorus pesticides (OPs) to the aptamer exhibited toxic effects and inhibited the catalytic activity of the nanozyme, preventing the colorimetric substrate from being catalyzed. Simultaneously, the aptamers labeled with electrochemical signal molecules approached the electrode surface, causing a change in the electrochemical signal. The results demonstrated that the constructed broad-spectrum aptamer biosensor exhibited a low limit of detection of 3.55 fM and a wide linear range of 10-10 M, allowing for qualitative and quantitative detection of multiple OPs in vegetables.

摘要

单原子铁纳米酶（SA-Fe-NZ）在生物传感器中表现出高催化活性和优异的电子转移效率。然而，由于其毒性作用，生物受体与 SA-Fe-NZ 表面的结合会导致纳米酶的催化活性降低。我们利用 SA-Fe-NZ 的毒性作用和优异的电化学性质，成功构建了一种智能手机辅助的双模生物传感器。有机磷农药（OPs）与适配体结合形成的复合物表现出毒性作用，抑制了纳米酶的催化活性，阻止了比色底物的催化。同时，带有电化学信号分子标记的适配体接近电极表面，导致电化学信号发生变化。结果表明，所构建的广谱适配体生物传感器具有低至 3.55 fM 的检测限和 10-10 M 的宽线性范围，可定性和定量检测蔬菜中的多种 OPs。

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一种双模生物传感器，其特点是使用单原子 Fe 纳米酶用于蔬菜中多种农药的检测。

A dual-mode biosensor featuring single-atom Fe nanozyme for multi-pesticide detection in vegetables.

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