基于目标循环放大和 Hg-ZnSe QDs 的无标记比率型生物传感器的构建及其用于测定 BChE 和有机磷的研究。

Construction of a Label-Free Ratiometric Biosensor Based on Target Recycling Amplification and Hg-ZnSe QDs for Assay of BChE and OPs.

机构信息

Department of Analytical Chemistry, College of Chemistry, Jilin University, Changchun 130012, China.

College of Medical Engineering & the Key Laboratory for Medical Functional Nanomaterials, Jining Medical University, Jining 272067, China.

出版信息

J Agric Food Chem. 2023 Aug 9;71(31):11884-11891. doi: 10.1021/acs.jafc.3c02902. Epub 2023 Jul 26.

DOI:10.1021/acs.jafc.3c02902

PMID:37554068

Abstract

Herein, we constructed a label-free ratiometric fluorescence biosensing strategy for the determination of butyrylcholinesterase (BChE) activity and organophosphorus (OPs) concentration. BChE promoted the hydrolysis of iodized -butyrylthiocholine (BTCh) into a reducing substance thiocholine, which can decompose CoOOH nanosheets (CoOOH NSs) to Co. Subsequently, the single-stranded DNA (ssDNA) on the surface of CoOOH NSs was released. Then, ssDNA hybridized with hairpin DNA (h-DNA) and triggered the target recycling amplification process, producing large amounts of G-quadruplex. After adding thioflavin T (ThT), the target BChE was converted into activatable G-quadruplex/ThT with an amplified yellow fluorescence signal. The addition of OPs could significantly inhibit the hydrolysis of BTCh by BChE and thus unable to produce the yellow fluorescence G-quadruplex/ThT complex. Throughout the entire process, the fluorescence intensity of Hg-ZnSe QDs as a reference signal remained unchanged at 630 nm. Furthermore, this work provided an effective approach for detecting the BChE activity in serum samples and OPs in fruits and vegetables.

摘要

在此，我们构建了一种无标记比率荧光生物传感策略，用于测定丁酰胆碱酯酶（BChE）活性和有机磷（OPs）浓度。BChE 促进碘化 - 丁酰硫代胆碱（BTCh）水解为还原物质硫代胆碱，硫代胆碱可将 CoOOH 纳米片（CoOOH NSs）分解为 Co。随后，CoOOH NSs 表面的单链 DNA（ssDNA）被释放。然后，ssDNA 与发夹 DNA（h-DNA）杂交，并引发目标循环放大过程，产生大量 G-四链体。加入硫黄素 T（ThT）后，目标 BChE 被转化为具有放大黄色荧光信号的活化 G-四链体/ThT。添加 OPs 可显著抑制 BChE 对 BTCh 的水解，从而无法产生黄色荧光 G-四链体/ThT 复合物。在整个过程中，Hg-ZnSe QDs 的荧光强度作为参考信号保持在 630nm 不变。此外，这项工作为检测血清样品中的 BChE 活性和水果、蔬菜中的 OPs 提供了一种有效方法。

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基于目标循环放大和 Hg-ZnSe QDs 的无标记比率型生物传感器的构建及其用于测定 BChE 和有机磷的研究。

Construction of a Label-Free Ratiometric Biosensor Based on Target Recycling Amplification and Hg-ZnSe QDs for Assay of BChE and OPs.

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