利用 AuNRs 阵列和嵌入 DNA 酶的 DNA 水凝胶构建的新型 SERS 开关传感器超灵敏检测食品中的链霉素。

Ultra-sensitive detection of streptomycin in foods using a novel SERS switch sensor fabricated by AuNRs array and DNA hydrogel embedded with DNAzyme.

机构信息

Key Laboratory of Food Processing Technology and Quality Control in Shandong Province, College of Food Science and Engineering, Shandong Agricultural University, Tai'an 271018, People's Republic of China.

School of Chemical Sciences, The University of Auckland, Auckland 1142, New Zealand.

出版信息

Food Chem. 2022 Nov 1;393:133413. doi: 10.1016/j.foodchem.2022.133413. Epub 2022 Jun 7.

DOI:10.1016/j.foodchem.2022.133413

PMID:35751206

Abstract

Detrimental health effects caused by the intake of food contaminated with streptomycin have drawn concerns on effective monitoring using sensitive and selective methods. In this work, a DNA hydrogel surface enhanced Raman spectroscopy (SERS) sensor was successfully developed for the ultrasensitive determination of streptomycin residues in foods. The sensor used a DNA hydrogel containing DNAzyme (Pb-DNAzyme), triggering release of the Raman reporter 4-mercaptobenzonitrile, which was detected using a gold nanorods (AuNRs) array. The linear range of the sensor was 0.01-150 nM and the limit of detection was 4.85 × 10 nM. Tests conducted with four streptomycin structural analogues confirmed the sensor was specific. Milk and honey samples spiked with streptomycin were analysed, resulting in standard recoveries in the range 98.2-117.3%. These findings demonstrated that such a sensor can be used for ultrasensitive detection of streptomycin in foods.

摘要

摄入被链霉素污染的食物会对健康造成有害影响，因此人们关注使用敏感和选择性方法进行有效监测。在这项工作中，成功开发了一种用于食品中链霉素残留的超灵敏检测的 DNA 水凝胶表面增强拉曼光谱（SERS）传感器。该传感器使用含有 DNA 酶（Pb-DNAzyme）的 DNA 水凝胶，触发拉曼报告分子 4-巯基苯甲腈的释放，并用金纳米棒（AuNRs）阵列进行检测。该传感器的线性范围为 0.01-150 nM，检测限为 4.85×10 nM。对四种链霉素结构类似物的测试证实了该传感器具有特异性。对添加链霉素的牛奶和蜂蜜样品进行了分析，结果表明标准回收率在 98.2-117.3%范围内。这些发现表明，这种传感器可用于食品中链霉素的超灵敏检测。

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利用 AuNRs 阵列和嵌入 DNA 酶的 DNA 水凝胶构建的新型 SERS 开关传感器超灵敏检测食品中的链霉素。

Ultra-sensitive detection of streptomycin in foods using a novel SERS switch sensor fabricated by AuNRs array and DNA hydrogel embedded with DNAzyme.

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