Target-triggered entropy-driven amplification system-templated silver nanoclusters for multiplexed microRNA analysis.

Fengyun Li, Gen Li, Shijie Cao, Boshi Liu, Xiaoliang Ren, Ning Kang, Feng Qiu

Biosensors & bioelectronics 2021 Jan 15

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MicroRNAs (miRNAs) are important biomarkers for the diagnosis, prognosis, and treatment of human diseases. Sensitive and selective detection of multiple miRNAs simultaneously will greatly facilitate the early and accurate diagnosis of cancers. Herein, a novel entropy-driven amplification system-templated silver nanoclusters sensing platform was developed for the multiplexed analysis of tumor-associated miRNAs. The sensing platform was constructed by coupling target-triggered entropy-driven catalysis with luminescence adjustable DNA-templated silver nanoclusters (Ag NCs). In the presence of target miRNA, the sensing platform initiates the branch migration and strand displacement of the complex, which has a six-base cytosine loop for stabilizing the luminous Ag NCs. The target is cyclically generated for new catalysis while turning off the fluorescence of Ag NCs; this is accompanied by a significantly amplified optical readout. In this study, two different complex-stabilized Ag NCs systems were proposed, the yellow-emitting Ag NCs and red-emitting Ag NCs biosensors enabled the analysis of miRNA-141 and miRNA-155 with detection limits of 6.1 pM and 8.7 pM, respectively. Impressively, owing to the excellent selectivity, flexibility, and narrow-band excitation of the platform, the multiplexed synchronous detection of miRNA-141 and miRNA-155 were achieved in buffer, biological cell lysates and human serum samples with satisfactory results. The simple, flexible, and convenient strategy provides a powerful tool for multiple biomarkers analysis and related clinical applications. Copyright © 2020 Elsevier B.V. All rights reserved.

Citation

Fengyun Li, Gen Li, Shijie Cao, Boshi Liu, Xiaoliang Ren, Ning Kang, Feng Qiu. Target-triggered entropy-driven amplification system-templated silver nanoclusters for multiplexed microRNA analysis. Biosensors & bioelectronics. 2021 Jan 15;172:112757