基于适配体的生物传感器：从SELEX到生物医学诊断

IF 11.8 1区化学 Q1 CHEMISTRY, ANALYTICAL

Trends in Analytical Chemistry Pub Date : 2025-06-20 DOI:10.1016/j.trac.2025.118349

Stefen Stangherlin , Nathania Lui , Jung Heon Lee , Juewen Liu

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引用次数: 0

摘要

DNA适体具有优异的结合特性，稳定性，可编程结构和易于修饰，有望用于开发用于护理点和连续监测应用的生物传感器。在过去几年中，在为重要靶分子选择高质量适配体、对适配体结合的基本理解以及生物传感器的开发方面取得了重大进展，特别是在便携式传感器、连续体内监测和可穿戴设备方面。对于小分子靶标，基于文库固定化的选择已经产生了100多个具有明确二级结构的高质量短适配体。对于蛋白质靶标，工程多价适配体和慢速适配体可以更好地模拟抗体的结合特性，允许在复杂的样品基质中进行广泛的洗涤和结合。细胞selex的新方法也为针对罕见表面生物标志物的适配体的分离提供了见解。本文综述了这些研究进展，为今后基于适配体的生物传感器的研究和发展奠定了坚实的基础。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Aptamer-based biosensors: from SELEX to biomedical diagnostics

With excellent binding properties, stability, programmable structures, and ease of modification, DNA aptamers are promising for developing biosensors for both point-of-care and continuous monitoring applications. Over the last few years, significant progress has been made in the selection of high-quality aptamers for important target molecules, fundamental understanding of aptamer binding, and biosensor development, especially in the form of portable sensors, continuous in vivo monitoring and wearable devices. For small molecule targets, library-immobilization-based selection has yielded over 100 high-quality short aptamers with well-defined secondary structures. For protein targets, engineering polyvalent aptamers and slow off-rate aptamers can better mimic the binding properties of antibodies allowing extensive washing and binding in complex sample matrices. New methods in cell-SELEX have also provided insights into the isolation of aptamers against rare surface biomarkers. This review aims to capture these developments, which will build a solid foundation for future research and development in aptamer-based biosensors.

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来源期刊

Trends in Analytical Chemistry 化学-分析化学

CiteScore

20.00

自引率

4.60%

发文量

257

审稿时长

3.4 months

期刊介绍： TrAC publishes succinct and critical overviews of recent advancements in analytical chemistry, designed to assist analytical chemists and other users of analytical techniques. These reviews offer excellent, up-to-date, and timely coverage of various topics within analytical chemistry. Encompassing areas such as analytical instrumentation, biomedical analysis, biomolecular analysis, biosensors, chemical analysis, chemometrics, clinical chemistry, drug discovery, environmental analysis and monitoring, food analysis, forensic science, laboratory automation, materials science, metabolomics, pesticide-residue analysis, pharmaceutical analysis, proteomics, surface science, and water analysis and monitoring, these critical reviews provide comprehensive insights for practitioners in the field.