Photocontrollable DNA Walker-Based Molecular Circuit for the Tunable Detection of MicroRNA-21 Using Metal–Organic Frameworks as Label-Free Fluorescence Tags

Tunable detection of microRNA is crucial to meet the desired demand for sample species with varying concentrations in clinical settings. Herein, we present a DNA walker-based molecular circuit for the detection of miRNA-21 (miR-21) with tunable dynamic ranges and sensitivity levels ranging from fM t...

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Veröffentlicht in:	Analytical chemistry (Washington) 2023-11, Vol.95 (45), p.16744-16753
Hauptverfasser:	Dong, Jiang Xue, Zhang, Sai Mei, Li, Yan Lei, Zhang, Xu, Fan, Ya Jie, Su, Ming, Wang, Zhen Guang, Li, Hui, Shen, Shi Gang, Gao, Zhong Feng, Wei, Qin, Xia, Fan
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Sprache:	eng
Schlagworte:	Biosensors Charge transfer Deoxyribonucleic acid Diagnosis DNA Fluorescence Labels Metal-organic frameworks MicroRNAs miRNA Nanoparticles Ribonucleic acid RNA Tags Zirconium
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container_title	Analytical chemistry (Washington)
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creator	Dong, Jiang Xue Zhang, Sai Mei Li, Yan Lei Zhang, Xu Fan, Ya Jie Su, Ming Wang, Zhen Guang Li, Hui Shen, Shi Gang Gao, Zhong Feng Wei, Qin Xia, Fan
description	Tunable detection of microRNA is crucial to meet the desired demand for sample species with varying concentrations in clinical settings. Herein, we present a DNA walker-based molecular circuit for the detection of miRNA-21 (miR-21) with tunable dynamic ranges and sensitivity levels ranging from fM to pM. The phosphate-activated fluorescence of UiO-66-NH2 metal–organic framework nanoparticles was used as label-free fluorescence tags due to their competitive coordination effect with the Zr atom, which significantly inhibited the ligand-to-metal charge transfer. To achieve a tunable detection performance for miR-21, the ultraviolet sensitive o-nitrobenzyl was induced as a photocleavable linker, which was inserted at various sites between the loop and the stem of the hairpin probe to regulate the DNA strand displacement reaction. The dynamic range can be precisely regulated from 700- to 67,000-fold with tunable limits of detection ranging from 2.5 fM to 36.7 pM. Impressively, a Boolean logic tree and complex molecular circuit were constructed for logic computation and cancer diagnosis in clinical blood samples. This intelligent biosensing method presents a powerful solution for converting complex biosensing systems into actionable healthcare decisions and will facilitate early disease diagnosis.
doi_str_mv	10.1021/acs.analchem.3c03913
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To achieve a tunable detection performance for miR-21, the ultraviolet sensitive o-nitrobenzyl was induced as a photocleavable linker, which was inserted at various sites between the loop and the stem of the hairpin probe to regulate the DNA strand displacement reaction. The dynamic range can be precisely regulated from 700- to 67,000-fold with tunable limits of detection ranging from 2.5 fM to 36.7 pM. Impressively, a Boolean logic tree and complex molecular circuit were constructed for logic computation and cancer diagnosis in clinical blood samples. 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subjects	Biosensors Charge transfer Deoxyribonucleic acid Diagnosis DNA Fluorescence Labels Metal-organic frameworks MicroRNAs miRNA Nanoparticles Ribonucleic acid RNA Tags Zirconium
title	Photocontrollable DNA Walker-Based Molecular Circuit for the Tunable Detection of MicroRNA-21 Using Metal–Organic Frameworks as Label-Free Fluorescence Tags
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