“第二代”荧光 RNA 基传感器。

"Second-generation" fluorogenic RNA-based sensors.

机构信息

Department of Chemistry, University of Massachusetts, Amherst, MA 01003, USA.

出版信息

Methods. 2019 May 15;161:24-34. doi: 10.1016/j.ymeth.2019.01.008. Epub 2019 Jan 17.

DOI:10.1016/j.ymeth.2019.01.008

PMID:30660865

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6589113/

Abstract

A fluorogenic aptamer can specifically interact with a fluorophore to activate its fluorescence. These nucleic acid-based fluorogenic modules have been dramatically developed over the past decade, and have been used as versatile reporters in the sensor development and for intracellular imaging. In this review, we summarize the design principles, applications, and challenges of the first-generation fluorogenic RNA-based sensors. Moreover, we discuss some strategies to develop next-generation biosensors with improved sensitivity, selectivity, quantification property, and eukaryotic robustness. Using genetically encoded catalytic hairpin assembly strategy as an example, we further introduce a standard protocol to design, characterize, and apply these fluorogenic RNA-based sensors for in vitro detection and cellular imaging of target biomolecules. By incorporating natural RNA machineries, nucleic acid nanotechnology, and systematic evolution approaches, next-generation fluorogenic RNA-based devices can be potentially engineered to be widely applied in cell biology and biomedicine.

摘要

荧光适体能够特异性地与荧光团相互作用，从而激活其荧光。在过去的十年中，基于核酸的荧光适体模块得到了极大的发展，并被用作传感器开发和细胞内成像的多功能报告分子。在这篇综述中，我们总结了第一代基于 RNA 的荧光传感器的设计原则、应用和挑战。此外，我们还讨论了一些策略，用于开发具有改进的灵敏度、选择性、定量特性和真核细胞稳健性的下一代生物传感器。我们进一步以基因编码的催化发夹组装策略为例，介绍了一种标准的设计、表征和应用基于 RNA 的荧光传感器的方案，用于体外检测和细胞内目标生物分子的成像。通过整合天然 RNA 机制、核酸纳米技术和系统进化方法，下一代基于 RNA 的荧光器件可以被设计用于细胞生物学和生物医学的广泛应用。

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