Sensitive detection of microRNA by dynamic light scattering based on DNAzyme walker-mediated AuNPs self-assembly†

IF 3.5 3区 化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR
Haiyun Liu, Na Ren, Yi Gao, Tingfan Wu, Boren Sui, Zhen Liu, Bin Chang, Man Huang and Hong Liu
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Abstract

As an important biomarker, microRNAs (miRNAs) play an important role in gene expression, and their detection has attracted increasing attention. In this study, a DNAzyme walker that could provide power to perform autonomous movement was designed. Based on the continuous mechanical motion characteristics of DNAzyme walker, a miRNA detection strategy for the self-assembly of AuNPs induced by the hairpin probe-guided DNAzyme walker “enzyme cleavage and walk” was established. In this strategy, DNAzyme walker continuously cleaved and walked on the hairpin probe on the surface of AuNPs to induce the continuous shedding of some segments of the hairpin probe. The remaining hairpin sequences on the surface of the AuNP pair with each other, causing the nanoparticles to self-assemble. This strategy uses the autonomous movement mechanism of DNAzyme walker to improve reaction efficiency and avoid the problem of using expensive and easily degradable proteases. Secondly, using dynamic light scattering technology as the signal output system, ultra-sensitive detection with a detection limit of 3.6 fM is achieved. In addition, this strategy has been successfully used to analyze target miRNAs in cancer cell samples.

Abstract Image

基于DNAzyme walker介导的AuNPs自组装的动态光散射灵敏检测微小RNA。
miRNA作为一种重要的生物标志物,在基因表达中发挥着重要作用,其检测越来越受到关注。在这项研究中,设计了一种DNA酶助行器,它可以提供自主运动的动力。基于DNAzyme walker的连续机械运动特性,建立了发夹探针引导的DNAzyme walker“酶切割和行走”诱导AuNPs自组装的miRNA检测策略。在这种策略中,DNAzyme walker在AuNPs表面的发夹探针上连续切割和行走,以诱导发夹探针的某些片段的连续脱落。AuNP表面剩余的发夹序列相互配对,导致纳米颗粒自组装。该策略利用DNAzyme walker的自主运动机制来提高反应效率,避免使用昂贵且易于降解的蛋白酶的问题。其次,利用动态光散射技术作为信号输出系统,实现了检测极限为3.6fM的超灵敏检测。此外,该策略已成功用于分析癌症细胞样品中的靶miRNA。
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来源期刊
Dalton Transactions
Dalton Transactions 化学-无机化学与核化学
CiteScore
6.60
自引率
7.50%
发文量
1832
审稿时长
1.5 months
期刊介绍: Dalton Transactions is a journal for all areas of inorganic chemistry, which encompasses the organometallic, bioinorganic and materials chemistry of the elements, with applications including synthesis, catalysis, energy conversion/storage, electrical devices and medicine. Dalton Transactions welcomes high-quality, original submissions in all of these areas and more, where the advancement of knowledge in inorganic chemistry is significant.
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