Highly Sensitive Biosensing Applications of a Magnetically Immobilizable Covalent G-Quadruplex-Hemin DNAzyme Catalytic System

Yun Chen; Dehui Qiu; Xiaobo Zhang; Yuan Liu; Mingpan Cheng; Jianping Lei; Jean Louis Mergny; Huangxian Ju; Jun Zhou

doi:10.1021/acs.analchem.1c04842

Highly Sensitive Biosensing Applications of a Magnetically Immobilizable Covalent G-Quadruplex-Hemin DNAzyme Catalytic System

Yun Chen
, Dehui Qiu
, Xiaobo Zhang
, Yuan Liu
, Mingpan Cheng
, Jianping Lei
, Jean Louis Mergny
, Huangxian Ju
, Jun Zhou

Nanjing University

Research output: Contribution to journal › Article › peer-review

Abstract

G-quadruplex/hemin (G4/hemin) DNAzymes are biosensing systems, but their application remains limited by an overall low activity and a rather high level of unwarranted background reactions. Here, these issues were addressed through the rational design of F3T-azaC-hemin, a G4-based construct in which the hemin is covalently linked to the G4 core and its binding site flanked with a nucleotide activator, here d(T-azaC). This design led to a G4-DNAzyme whose performances have been ca. 150-fold increased compared to the parent G4-based system. The utility of F3T-azaC-hemin was demonstrated here through the ultrasensitive chemiluminescent detection of miRNA-221. The limit of detection (LOD) has been decreased to the femtomolar range, making it a new and highly efficient molecular tool in the biosensing technology field.

Original language	English
Pages (from-to)	2212-2219
Number of pages	8
Journal	Analytical Chemistry
Volume	94
Issue number	4
DOIs	https://doi.org/10.1021/acs.analchem.1c04842
Publication status	Published - 1 Feb 2022

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title = "Highly Sensitive Biosensing Applications of a Magnetically Immobilizable Covalent G-Quadruplex-Hemin DNAzyme Catalytic System",

abstract = "G-quadruplex/hemin (G4/hemin) DNAzymes are biosensing systems, but their application remains limited by an overall low activity and a rather high level of unwarranted background reactions. Here, these issues were addressed through the rational design of F3T-azaC-hemin, a G4-based construct in which the hemin is covalently linked to the G4 core and its binding site flanked with a nucleotide activator, here d(T-azaC). This design led to a G4-DNAzyme whose performances have been ca. 150-fold increased compared to the parent G4-based system. The utility of F3T-azaC-hemin was demonstrated here through the ultrasensitive chemiluminescent detection of miRNA-221. The limit of detection (LOD) has been decreased to the femtomolar range, making it a new and highly efficient molecular tool in the biosensing technology field.",

author = "Yun Chen and Dehui Qiu and Xiaobo Zhang and Yuan Liu and Mingpan Cheng and Jianping Lei and Mergny, \{Jean Louis\} and Huangxian Ju and Jun Zhou",

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doi = "10.1021/acs.analchem.1c04842",

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AU - Chen, Yun

AU - Qiu, Dehui

AU - Zhang, Xiaobo

AU - Liu, Yuan

AU - Cheng, Mingpan

AU - Lei, Jianping

AU - Mergny, Jean Louis

AU - Ju, Huangxian

AU - Zhou, Jun

PY - 2022/2/1

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AB - G-quadruplex/hemin (G4/hemin) DNAzymes are biosensing systems, but their application remains limited by an overall low activity and a rather high level of unwarranted background reactions. Here, these issues were addressed through the rational design of F3T-azaC-hemin, a G4-based construct in which the hemin is covalently linked to the G4 core and its binding site flanked with a nucleotide activator, here d(T-azaC). This design led to a G4-DNAzyme whose performances have been ca. 150-fold increased compared to the parent G4-based system. The utility of F3T-azaC-hemin was demonstrated here through the ultrasensitive chemiluminescent detection of miRNA-221. The limit of detection (LOD) has been decreased to the femtomolar range, making it a new and highly efficient molecular tool in the biosensing technology field.

U2 - 10.1021/acs.analchem.1c04842

DO - 10.1021/acs.analchem.1c04842

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JO - Analytical Chemistry

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IS - 4

ER -

Highly Sensitive Biosensing Applications of a Magnetically Immobilizable Covalent G-Quadruplex-Hemin DNAzyme Catalytic System

Abstract

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