基于钯纳米团簇和核酸循环的双信号放大用于在微流控纸基分析装置上对微小RNA进行双模式检测

Double signal amplification based on palladium nanoclusters and nucleic acid cycles on a μPAD for dual-model detection of microRNAs.

作者信息

Yin Xuemei, Liang Linlin, Zhao Peini, Lan Feifei, Zhang Lina, Ge Shenguang, Yu Jinghua

机构信息

School of Chemistry and Chemical Engineering, University of Jinan, Jinan 250022, P. R. China.

出版信息

J Mater Chem B. 2018 Sep 28;6(36):5795-5801. doi: 10.1039/c8tb01552j. Epub 2018 Aug 30.

DOI:10.1039/c8tb01552j

PMID:32254986

Abstract

MicroRNAs (miRNAs) are a class of significant biomarkers; however, it is still a huge challenge to express them accurately. Herein, a fluorescent/colorimetric dual-model biosensor based upon the quenching effect of graphitic carbon nitride on palladium nanoclusters (Pd NCs) on the platform of a microfluidic paper-based analytical device was built for the detection of miRNAs. On the one hand, Pd NCs could catalyze a chromogenic reaction so that preliminary detection was achieved by the naked eye. On the other hand, the fluorescence analysis combined with nucleic acid cycle signal amplification was required to get precise result and the detection limit is 3 fM, which was superior to the previous method. What's more, this biosensor could be designed to detect other miRNAs via changing the corresponding aptamer sequences. Therefore, the as-constructed biosensor supplies a versatile platform to conduct point-of-care detection of miRNAs with outstanding performance.

摘要

微小RNA（miRNA）是一类重要的生物标志物；然而，准确表达它们仍然是一个巨大的挑战。在此，基于微流控纸基分析装置平台上石墨相氮化碳对钯纳米簇（Pd NCs）的猝灭作用，构建了一种用于检测miRNA的荧光/比色双模式生物传感器。一方面，Pd NCs可以催化显色反应，从而通过肉眼进行初步检测。另一方面，需要结合核酸循环信号放大的荧光分析来获得精确结果，检测限为3 fM，优于先前的方法。此外，通过改变相应的适配体序列，该生物传感器可设计用于检测其他miRNA。因此，构建的生物传感器为进行具有优异性能的miRNA即时检测提供了一个通用平台。

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基于钯纳米团簇和核酸循环的双信号放大用于在微流控纸基分析装置上对微小RNA进行双模式检测

Double signal amplification based on palladium nanoclusters and nucleic acid cycles on a μPAD for dual-model detection of microRNAs.

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