Label-Free Detection of Doxorubicin in Lake Water by an Electrochemical Aptamer Biosensor

Songjia Luo, Lu Wang, Hao Qu, Lei Zheng
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Abstract

The application of electrochemical sensors to the detection of real samples is hampered by the fact that the electrode surface is often prone to adsorption of other substances that cause a non-specific current response. In addition, electroactive substances in the actual sample are prone to redox reactions on the electrode surface and affect the detection of target molecules. In this paper, we constructed a novel DOX sensor with excellent selectivity using an aptamer-modified gold electrode and used it for the label-free rapid detection of DOX in lake water. DOX molecules in solution can be captured by the aptamers immobilised on the surface of the gold electrode, followed by the DOX molecules getting electrons on the surface of the electrode and undergoing a reduction reaction. Aptamers give electrochemical sensors excellent sensitivity and selectivity. Finally, the electrochemical aptamer biosensor was successfully applied to detect DOX in lake water with a detection limit of 30 nmol/L and a detection range of 30 nmol/L–10 μmol/L.
利用电化学 Aptamer 生物传感器无标记检测湖水中的多柔比星
电化学传感器在实际样品检测中的应用受到以下事实的阻碍:电极表面通常容易吸附其他物质,从而导致非特异性电流反应。此外,实际样品中的电活性物质也容易在电极表面发生氧化还原反应,影响目标分子的检测。本文利用aptamer修饰的金电极构建了一种具有优异选择性的新型DOX传感器,并将其用于湖水中DOX的无标记快速检测。溶液中的 DOX 分子可被固定在金电极表面的适配体捕获,随后 DOX 分子在电极表面获得电子并发生还原反应。适配体使电化学传感器具有出色的灵敏度和选择性。最后,电化学适配体生物传感器被成功应用于检测湖水中的 DOX,检测限为 30 nmol/L,检测范围为 30 nmol/L-10 μmol/L。
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