Simple colorimetric DNA detection based on hairpin assembly reaction and target-catalytic circuits for signal amplification

文献类型: 外文期刊

第一作者: Ma, Cuiping

作者: Ma, Cuiping;Li, Zhaoxin;Wang, Qingyin;Ma, Cuiping;Wang, Wenshuo;Cao, Lijie

作者机构:

关键词: Biosensors;Colorimetric detection;Hairpin assembly;Nanostructures;Signal amplification

期刊名称:ANALYTICAL BIOCHEMISTRY ( 影响因子:3.365; 五年影响因子:3.049 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: A simple strategy of colorimetric DNA detection is presented based on a hairpin assembly reaction and target-catalytic DNA circuits to achieve enzyme-free signal amplification. The method employed two hairpin species (H1 and H2), which were stable and unable to hybridize in the absence of target. In the presence of target, the target hybridized with hairpin H1 and the opened hairpin H1 hybridized with hairpin H2, allowing the target to be displaced. H1 and H2 were respectively attached to gold nanoparticles, allowing the duplex formed from H1 and H2 to be visualized with the naked eye. The displaced target again triggered the next round of strand exchange reaction to achieve signal amplification. The method may have a wide range of sensor applications because it is enzyme-free and simple to perform.

分类号: Q5

  • 相关文献

[1]Direct Electrochemical Tyrosinase Biosensor based on Mesoporous Carbon and Co3O4 Nanorods for the Rapid Detection of Phenolic Pollutants. Wang, Xue,Lu, Xianbo,Wu, Lidong,Chen, Jiping,Wang, Xue,Wu, Lidong. 2014

[2]In Vitro Response to Functionalized Self-Assembled Peptide Scaffolds for Three-Dimensional Cell Culture. Modepalli, Vengama N.,Li, Rui,Pavuluri, Sivapriya,Nicholas, Kevin R.,Barrow, Colin J.,Williams, Richard J.,Modepalli, Vengama N.,Pavuluri, Sivapriya,Nicholas, Kevin R.,Rodriguez, Alexandra L.,Nisbet, David R.,Li, Rui,Williams, Richard J.,Li, Rui. 2014

[3]Spectrophotometric and visual detection of the herbicide atrazine by exploiting hydrogen bond-induced aggregation of melamine-modified gold nanoparticles. Liu, Guangyang,Yang, Xin,Zhang, Yanxin,Zhou, Pan,Liu, Guangyang,Li, Tengfei,Yu, Hailong,Du, Xinwei,She, Yongxin,Wang, Jing,Wang, Shanshan,Jin, Fen,Jin, Maojun,Shao, Hua,Zheng, Lufei,Liu, Guangyang,Li, Tengfei,Yu, Hailong,Du, Xinwei,She, Yongxin,Wang, Jing,Wang, Shanshan,Jin, Fen,Jin, Maojun,Shao, Hua,Zheng, Lufei.

[4]A lateral flow assay for the determination of human tetanus antibody in whole blood by using gold nanoparticle labeled tetanus antigen. Liu, Juanzu,Li, Zhaohui,Meng, Hongmin,Zhang, Lin,Qu, Lingbo,Wang, Junyan,Wang, Hongqi,Li, Zhaohui,Qu, Lingbo. 2018

[5]Competitive colorimetric triazophos immunoassay employing magnetic microspheres and multi-labeled gold nanoparticles along with enzymatic signal enhancement. Du, Pengfei,Jin, Maojun,Chen, Ge,Zhang, Chan,Cui, Xueyan,Zhang, Yudan,Zhang, Yanxin,Zou, Pan,Jiang, Zejun,Cao, Xiaolin,She, Yongxin,Jin, Fen,Wang, Jing.

[6]Conjugated cationic polymer-assisted amplified fluorescent biosensor for protein detection via terminal protection of small molecule-linked DNA and graphene oxide. Zhang, Zhen,Xia, Xiaoyang,Xiang, Xia,Huang, Fenghong,Han, Ling.

[7]Sensitive detection of multiple mycotoxins by SPRi with gold nanoparticles as signal amplification tags. Hu, Weihua,Chen, Hongming,Zhang, Hilanhuan,He, Guangli,Li, Xin,Li, Chang Ming,Hu, Weihua,Chen, Hongming,Zhang, Hilanhuan,He, Guangli,Li, Xin,Li, Chang Ming,Hu, Weihua,Chen, Hongming,Zhang, Hilanhuan,He, Guangli,Li, Xin,Li, Chang Ming,Hu, Weihua,Zhang, Xiaoxing,Liu, Yang.

[8]Design of nuclease-based target recycling signal amplification in aptasensors. Yan, Mengmeng,Bai, Wenhui,Zhu, Chao,Huang, Yafei,Yan, Jiao,Chen, Ailiang,Yan, Mengmeng,Bai, Wenhui,Zhu, Chao,Huang, Yafei,Yan, Jiao,Chen, Ailiang,Huang, Yafei,Yan, Jiao.

[9]A bare-eye based one-step signal amplified semiquantitative immunochromatographic assay for the detection of imidacloprid in Chinese cabbage samples. Fang, Qingkui,Wang, Limin,Cheng, Qi,Cai, Jia,Wang, Yulong,Yang, Mingming,Hua, Xiude,Liu, Fengquan,Liu, Fengquan.

[10]Label-free DNA Y junction for bisphenol A monitoring using exonuclease III-based signal protection strategy. Chen, Junhua,Zhou, Shungui.

[11]Detection of Salmonella Typhimurium on Spinach Using Phage-Based Magnetoelastic Biosensors. Wang, Fengen,Horikawa, Shin,Wikle, Howard C., III,Du, Songtao,Liu, Yuzhe,Chin, Bryan A.,Hu, Jiajia,Chen, I-Hsuan. 2017

[12]Alternative Soaking Media for the FDA Procedure in the Detection of Salmonella from Tomatoes and Spinach Leaf using Phage Magnetoelastic Biosensors. Chen, I-Hsuan,Horikawa, Shin,Barbaree, James M.,Chin, Bryan A.,Hu, Jiajia,Wang, Fengen. 2016

[13]Beyond chemoreception: diverse tasks of soluble olfactory proteins in insects. Zhu, Jiao,Wang, Guirong,Iovinella, Immacolata,Dani, Francesca R.. 2018

[14]Nanomaterials-Based Electrochemical Sensors and Biosensors for Pesticide Detection. Xiang, Ling,Zhao, Chunjiang,Wang, Jihua,Xiang, Ling,Wang, Jihua.

[15]Recent Progress on Graphene-based Electrochemical Biosensors. Zhang, Yu,Shen, Jingjing,Li, Huihua,Wang, Linlin,Cao, Dashun,Feng, Xiaomiao,Ma, Yanwen,Wang, Lianhui,Zhang, Yu,Shen, Jingjing,Li, Huihua,Wang, Linlin,Cao, Dashun,Feng, Xiaomiao,Ma, Yanwen,Wang, Lianhui,Liu, Yuge.

作者其他论文 更多>>

微信小程序