FeO@Au 纳米粒子与 Au@Ag 核壳纳米粒子偶联用于玉米赤霉烯酮的灵敏检测。

Development of FeO@Au nanoparticles coupled to Au@Ag core-shell nanoparticles for the sensitive detection of zearalenone.

机构信息

State Key Laboratory of Food Nutrition and Safety, Tianjin University of Science & Technology, Tianjin, 300457, China; Tianjin Key Laboratory of Risk Assessment and Control Technology for Environment and Food Safety, Tianjin Institute of Environmental and Operational Medicine, Tianjin, 300050, China.

State Key Laboratory of Food Nutrition and Safety, Tianjin University of Science & Technology, Tianjin, 300457, China.

出版信息

Anal Chim Acta. 2021 Oct 2;1180:338888. doi: 10.1016/j.aca.2021.338888. Epub 2021 Jul 27.

DOI:10.1016/j.aca.2021.338888

PMID:34538331

Abstract

Agricultural products are frequently contaminated by mycotoxins; thus, the accurate detection of mycotoxins is important to food safety. Zearalenone (ZEN), a mycotoxin produced by certain Fusarium and Gibberella species, is a group III carcinogen. We developed a universal surface-enhanced Raman scattering (SERS) aptasensor for the detection of ZEN. The SERS biosensor consists of two functional nanomaterials: sulfhydryl (SH)-ZEN aptamer complementary DNA-modified FeO@Au was used as a capture probe and SH-ZEN aptamer-modified Au@Ag core-shell nanoparticles served as reporter probes. In the absence of ZEN, the highest Raman signal was obtained owing to the SERS effects of FeO@Au and Au@Ag core-shell nanoparticles. Conversely, the addition of ZEN triggered the release of Au@Ag core-shell nanoparticles from FeO@Au, leading to a decrease in SERS intensity after magnetic separation. Hybridization of the ZEN aptamer and its complementary strand generated a strong SERS signal from the reporter probe. Moreover, preferential binding of the ZEN aptamer to ZEN was observed. The signal intensity in SERS decreased linearly when the capture probes released the reporter. For ZEN detection, a linear range from 0.005 to 500 ng mL, with an R of 0.9981, was obtained. The detection limit was 0.001 ng mL. The SERS aptasensor showed excellent performance for analytical applications with real-world samples (beer and wine). This study presents a new model for the detection of mycotoxins based on simple changes in aptamers.

摘要

农产品经常受到真菌毒素的污染；因此，准确检测真菌毒素对食品安全很重要。玉米赤霉烯酮（ZEN）是某些镰刀菌和赤霉菌产生的一种真菌毒素，属于 III 类致癌物。我们开发了一种用于检测 ZEN 的通用表面增强拉曼散射（SERS）适体传感器。SERS 生物传感器由两种功能纳米材料组成：巯基（SH）-ZEN 适体互补 DNA 修饰的 FeO@Au 用作捕获探针，SH-ZEN 适体修饰的 Au@Ag 核壳纳米粒子作为报告探针。在没有 ZEN 的情况下，由于 FeO@Au 和 Au@Ag 核壳纳米粒子的 SERS 效应，获得了最高的拉曼信号。相反，添加 ZEN 会触发 Au@Ag 核壳纳米粒子从 FeO@Au 中释放出来，从而导致磁分离后 SERS 强度降低。ZEN 适体与其互补链杂交会从报告探针中产生强烈的 SERS 信号。此外，观察到 ZEN 适体对 ZEN 的优先结合。当捕获探针释放报告探针时，SERS 信号强度呈线性下降。对于 ZEN 检测，获得了从 0.005 到 500ng mL，R 为 0.9981 的线性范围。检测限为 0.001ng mL。SERS 适体传感器对啤酒和葡萄酒等实际样品的分析应用表现出优异的性能。该研究提出了一种基于适体简单变化的真菌毒素检测新模型。

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FeO@Au 纳米粒子与 Au@Ag 核壳纳米粒子偶联用于玉米赤霉烯酮的灵敏检测。

Development of FeO@Au nanoparticles coupled to Au@Ag core-shell nanoparticles for the sensitive detection of zearalenone.

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