DNA four-way junction-driven dual-rolling circle amplification sandwich-type aptasensor for ultra-sensitive and specific detection of tumor-derived exosomes

适体 滚动圆复制 微泡 纳米技术 化学 外体 DNA 指数富集配体系统进化 生物分析 检出限 生物传感器 胶体金 组合化学 材料科学 纳米颗粒 分子生物学 色谱法 生物 生物化学 核糖核酸 基因 聚合酶 小RNA
作者
Zhuyang Zhao,Sha Yang,Xiaoqi Tang,Liu Feng,Zishan Ding,Zhiguo Chen,Xing Luo,Ruijia Deng,Jing Sheng,Shuang Xie,Kai Chang,Ming Chen
出处
期刊:Biosensors and Bioelectronics [Elsevier BV]
卷期号:246: 115841-115841 被引量:30
标识
DOI:10.1016/j.bios.2023.115841
摘要

There is an urgent need to accurately quantify tumor-derived exosomes, which have emerged as promising non-invasive tumor diagnostic biomarkers. Herein, a bispecific-aptamer sandwich-type gold nanoparticle-modified electrochemical aptasensor was developed based on a four-way junction (4-WJ)-triggered dual rolling circle amplification (RCA)-assisted methylene blue (MB)/G-quadruplex strategy for extremely specific and sensitive exosome detection. This aptamer/exosome/aptamer sandwich-type design contained a CD63-specific aptamer and a cancerous mucin-1 (MUC1) protein-specific aptamer. The CD63 aptamer modified on a gold electrode captured exosomes, and then the sandwich-type aptasensor was formed with the addition of the MUC1 aptamer. The MUC1 aptamer's 3′-end sequence facilitated the formation of 4-WJ, assisted by a molecular beacon probe and a binary DNA probe. Subsequently, a dual-RCA reaction was triggered by binding to two cytosine-rich circle DNA templates at both ends of 4-WJ. Ultimately, dual-RCA products containing multiple G-quadruplex conformations were generated with the assistance of K+ to trap abundant MB indicators and amplify electrochemical signals. The aptasensor exhibited high specificity, sensitivity, repeatability, and stability toward MCF-7-derived exosomes, with a detection limit of 20 particles/mL and a linear range of 1 × 102 to 1 × 107 particles/mL. Moreover, it showed excellent applicability in clinical settings to recover exosomes in normal human serum. Our aptasensor is anticipated to serve as a versatile platform for detecting various specific aptamer-based targets in biomedical and bioanalytical applications.
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