一种基于 DNA 修饰金包覆磁性纳米粒子作为可分散电极的无校准 miRNA 检测方法。

A calibration-free approach to detecting microRNA with DNA-modified gold coated magnetic nanoparticles as dispersible electrodes.

机构信息

School of Chemistry and Australian Centre for NanoMedicine, University of New South Wales, Sydney 2052, Australia.

出版信息

Anal Methods. 2022 Dec 1;14(46):4861-4866. doi: 10.1039/d2ay01782b.

Abstract

Gold coated magnetic nanoparticles (Au@MNPs), modified with DNA sequences give dispersible electrodes that can detect ultralow amounts of microRNAs and other nucleic acids but, as with most other sensors, they require calibration. Herein we show how to adapt a calibration free approach for electrochemical aptamer-based sensors on bulk electrodes to microRNA (miR-21) detection with methylene blue terminated DNA modified Au@MNPs. The electrochemical square wave voltammetry signal from the DNA-Au@MNPs when collected at a bulk electrode under magnetic control, decreases upon capture of miR-21. We show that the square wave voltammogram has concentration dependent and independent frequencies that can be used to give a calibration free signal.

摘要

金包覆磁性纳米粒子（Au@MNPs）经 DNA 序列修饰后得到可分散电极，可检测超低浓度的 microRNAs 和其他核酸，但与大多数其他传感器一样，它们需要校准。在此，我们展示了如何将无校准方法从体相电极上的基于电化学适体的传感器适配到用终止于亚甲基蓝的 DNA 修饰的 Au@MNPs 检测 microRNA（miR-21）。在磁控下在体相电极上收集时，DNA-Au@MNPs 的电化学方波伏安信号在捕获 miR-21 时会降低。我们表明，方波伏安图具有浓度相关和独立的频率，可用于提供无校准信号。

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一种基于 DNA 修饰金包覆磁性纳米粒子作为可分散电极的无校准 miRNA 检测方法。

A calibration-free approach to detecting microRNA with DNA-modified gold coated magnetic nanoparticles as dispersible electrodes.

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