Functional nucleic acid-based biosensors for virus detection

Zijie Zhang , Bal Ram Adhikari , Payel Sen , Leyla Soleymani , Yingfu Li
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引用次数: 1

Abstract

A growing number of viruses pose significant threats to human health, impact agricultural production and compromise food safety. Minimizing the impact of viral infections demands for effective technologies that can deliver sensitive viral detection under various settings. Functional nucleic acids (FNAs) – natural or synthetic nucleic acid molecules with catalytic and/or binding properties – have been increasingly explored as key components for setting up diagnostic tests for viral detection. FNA-based viral biosensors offer distinct advantages, such as the ability to achieve sensitive viral detection in complex biological samples, ease of use, scalability, and cost-effectiveness. This mini-review will be dedicated to appraising progress made in recent years in FNA-based biosensors for diagnosing diverse human and animal viruses. We will first describe virus structures and potential biomarkers that can be utilized as the targets for FNA probe engineering. This is followed by reviewing the latest advances in two classes of FNAs - DNAzyme and DNA aptamers, with focuses on DNAzyme- and DNA aptamer-based biosensors that employ diverse signal transduction mechanisms to achieve sensitive viral detections. Finally, we will discuss current challenges in the field and suggest future research directions that can address these challenges.

Abstract Image

用于病毒检测的功能性核酸生物传感器
越来越多的病毒对人类健康构成重大威胁,影响农业生产,危害食品安全。最大限度地减少病毒感染的影响需要在各种环境下提供敏感病毒检测的有效技术。功能核酸(FNAs)——具有催化和/或结合特性的天然或合成核酸分子——作为建立病毒检测诊断测试的关键成分,越来越多地被探索。基于FNA的病毒生物传感器具有明显的优势,例如能够在复杂的生物样本中实现灵敏的病毒检测、易用性、可扩展性和成本效益。这篇小型综述将致力于评估近年来基于FNA的生物传感器在诊断各种人类和动物病毒方面取得的进展。我们将首先描述可作为FNA探针工程靶标的病毒结构和潜在生物标志物。随后回顾了两类FNAs——DNA酶和DNA适体的最新进展,重点介绍了基于DNA酶和脱氧核糖核酸适体的生物传感器,它们采用不同的信号转导机制来实现灵敏的病毒检测。最后,我们将讨论该领域当前的挑战,并提出可以应对这些挑战的未来研究方向。
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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CiteScore
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