基于三聚体 DNA 支架制备的银纳米簇的新型电致化学发光用于生物硫醇的无标记检测。

Novel electrochemiluminescence of silver nanoclusters fabricated on triplex DNA scaffolds for label-free detection of biothiols.

机构信息

Materials Genome Institute, Shanghai University, 200444 Shanghai, China.

Laboratory of Chemical Biology, Division of Biological Inorganic Chemistry, State Key Laboratory of Rare Earth Resource Utilization, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, 130022 Changchun, China.

出版信息

Biosens Bioelectron. 2017 Dec 15;98:378-385. doi: 10.1016/j.bios.2017.07.016. Epub 2017 Jul 6.

DOI:10.1016/j.bios.2017.07.016

PMID:28709087

Abstract

Electrochemiluminescence (ECL) of metal nanoclusters and their application have been widely reported due to the good biocompatibility, fascinating electrocatalytic activity and so on. Using DNA as synthesis template opens new opportunities to modulate the physical properties of AgNCs. Triplex DNA has been reported for the site-specific, homogeneous and highly stable silver nanoclusters (AgNCs) fabrication from our recent research. Here we further explore their extraordinary ECL properties and applications in biosensor utilization. By reasonable design of DNA sequence, AgNCs were obtained in the predefined position of CG.C sites of triplex DNA, and the ECL emission at a low potential was observed with this novel DNA template. Finally, a simple and label-free method was developed for biothiols detection based on the enhanced catalytic reaction and a robust interaction between the triplex-AgNCs and cysteine, by influencing the microenvironment provided by DNA template.

摘要

电化学发光 (ECL) 的金属纳米簇及其应用由于良好的生物相容性、迷人的电催化活性等而得到了广泛的报道。使用 DNA 作为合成模板为调节 AgNCs 的物理性质开辟了新的机会。我们最近的研究报道了三聚体 DNA 可用于从定点、同质和高度稳定的银纳米簇 (AgNCs) 制造。在这里，我们进一步探索了它们在生物传感器利用中的非凡 ECL 特性和应用。通过合理的 DNA 序列设计，在三聚体 DNA 的 CG.C 位点获得了 AgNCs，并且观察到了该新型 DNA 模板在低电势下的 ECL 发射。最后，基于三聚体-AgNCs 与半胱氨酸之间的增强催化反应和强相互作用，通过影响 DNA 模板提供的微环境，开发了一种简单且无标记的生物硫醇检测方法。

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基于三聚体 DNA 支架制备的银纳米簇的新型电致化学发光用于生物硫醇的无标记检测。

Novel electrochemiluminescence of silver nanoclusters fabricated on triplex DNA scaffolds for label-free detection of biothiols.

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