Ultrasensitive fluorometric glutathione assay based on a conformational switch of a G-quadruplex mediated by silver(I)

文献类型: 外文期刊

第一作者: Ji, Danyang

作者: Ji, Danyang;Meng, Hongmin;Ge, Jia;Zhang, Lin;Bai, Dongmei;Li, Jianjun;Qu, Lingbo;Li, Zhaohui;Wang, Hongqi;Li, Zhaohui

作者机构:

关键词: Methylmesoporphyrin IX;G-quadruplex;Fluorescence;Quenching;Stern-Volmer plot;Cell extracts

期刊名称:MICROCHIMICA ACTA ( 影响因子:5.833; 五年影响因子:5.357 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: The authors describe a silver(I) mediated fluorescent assay for glutathione (GSH). An allosteric oligonucleotide strand containing a G-rich sequence is used to produce a G-quadruplex, and N-methylmesoporphyrin IX (NMM) is chosen as the fluorescent probe. In the absence of Ag(I), the DNA strand is partially intramolecularly hybridized to form a hairpin structure wherein the G-rich sequence is partially caged. On addition of Ag(I), the hairpin is disrupted by forming C-Ag(I)-C base pairs. As a result, the G-rich sequence is released and folds into a G-quadruplex structure, which is able to bind NMM to generate strong fluorescence at 612 nm. However, in the presence of GSH, due to the strong binding ability between GSH and Ag(I), the C-Ag(I)-C structure is not formed. Hence, the DNA probe reverts back to its original structure and fluorescence is not increased. Based on these findings, a method was worked out that has a detection limit as low as 3.5 nM. Due to the inherent selectivity of the interaction between GSH and Ag(I), the method is highly selective over common potential interfering species. It was successfully applied to the fluorometric determination of GSH in cell extracts.

分类号: O65`O655

  • 相关文献

[1]Ultrasensitive detection of lead(II) using a turn-on probe based on the use of an aptamer and a water-soluble fluorescent perylene probe. Yan, Mengmeng,Zhu, Chao,Huang, Yafei,Yan, Jiao,Chen, Ailiang,Yan, Mengmeng,Zhu, Chao,Huang, Yafei,Yan, Jiao,Chen, Ailiang,Huang, Yafei,Yan, Jiao.

[2]A DNA nanomachine based on rolling circle amplification-bridged two-stage exonuclease III-assisted recycling strategy for label-free multi-amplified biosensing of nucleic acid. Xue, Qingwang,Lv, Yanqin,Cui, Hui,Liu, Jifeng,Gu, Xiaohong,Zhang, Shuqiu,Liu, Jifeng.

[3]Response of xanthophyll cycle and chloroplastic antioxidant enzymes to chilling stress in tomato over-expressing glycerol-3-phosphate acyltransferase gene. Sui, N.,Li, M.,Liu, X.-Y.,Wang, N.,Fang, W.,Meng, Q. -W.. 2007

[4]A simple aptamer-based fluorescent assay for the detection of Aflatoxin B-1 in infant rice cereal. Chen, Lu,Wen, Fang,Li, Ming,Guo, Xiaodong,Li, Songli,Zheng, Nan,Wang, Jiaqi,Chen, Lu,Chen, Lu,Wen, Fang,Li, Ming,Guo, Xiaodong,Li, Songli,Zheng, Nan,Wang, Jiaqi,Zheng, Nan,Wang, Jiaqi.

[5]Analysis of phase transformation simulation and prediction of phase distribution in high strength steel in hot stamping. Cui, Junjia,Li, Chunfeng,Lei, Chengxi,Xing, Zhongwen,Ma, Shumei.

[6]A simple and sensitive competitive bio-barcode immunoassay for triazophos based on multi-modified gold nanoparticles and fluorescent signal amplification. Zhang, Chan,Jiang, Zejun,Jin, Maojun,Chen, Ge,Cao, Xiaolin,Cui, Xueyan,Zhang, Yudan,Li, Ruixing,Wang, Jing,Zhang, Chan,Jiang, Zejun,Jin, Maojun,Chen, Ge,Cao, Xiaolin,Cui, Xueyan,Zhang, Yudan,Li, Ruixing,Wang, Jing,Du, Pengfei,Du, Pengfei,Du, Pengfei,Abd El-Aty, A. M.,Abd El-Aty, A. M.. 2018

[7]Modeling Leaf Image, Chlorophyll Fluorescence, Reflectance From SPAD Readings. Hu, Hao,Zheng, Kefeng,Zhang, Guangzhi. 2014

[8]Effect of a disulfide bond on mevalonate kinase. Chu, Xiusheng,Yu, Wenhua,Wu, Long,Liu, Xiaojun,Li, Nan,Li, Ding,Chu, Xiusheng. 2007

[9]A Turn on ESIPT Probe for Rapid and Ratiometric Fluorogenic Detection of Hg2+ and its Application in Live-Cell Imaging. Zhang, Di,Liu, Jihong,Yin, Haiyan,Wang, Hongqi,Li, Shufang,Wang, Min,Li, Man,Zhou, Ling,Zhang, Junfeng,Zhang, Di,Liu, Jihong,Yin, Haiyan,Wang, Hongqi,Li, Shufang,Wang, Min,Li, Man,Zhou, Ling,Zhang, Junfeng,Zhang, Di,Liu, Jihong,Yin, Haiyan,Wang, Hongqi,Li, Shufang,Wang, Min,Li, Man,Zhou, Ling,Zhang, Junfeng. 2016

[10]An ESIPT-Based Fluorescent Probe for Hydrazine Detection in Aqueous Solution and its Application in Living Cells. Ju, Zhiyu,Li, Dapeng,Li, Dandan,Wu, Changzeng,Xu, Zhihong,Zhang, Di. 2017

[11]A Label-Free Aptamer-Based Fluorescent Assay for Cadmium Detection. Luan, Yunxia,Lu, Anxiang,Chen, Jiayi,Fu, Hailong,Xu, Li,Luan, Yunxia,Lu, Anxiang,Chen, Jiayi,Fu, Hailong,Xu, Li. 2016

[12]Fast Separation Ultra-Performance Liquid Chromatography for Determination of Pre-Column Derivative Abamectin and Ivermectin Residues in Vegetable. Li, Qiwan,Liu, Hongcheng,Li, Qiwan,Shao, Jinliang,Zou, Yanhong,Liu, Hongcheng,Zhang, Ying,Liu, Lianliang. 2011

[13]Aptamer-Based Fluorescence Assay for Hg2+ Determination. Lei Zhao-Jing,Hu Qiu-Hui,Lei Zhao-Jing,Zhang Cun-Zheng,Liu Yuan,Zhang Qiang,Liu Xian-Jin. 2012

[14]A Turn-On Fluorescent Sensor for Selective and Sensitive Detection of Alkaline Phosphatase Activity with Gold Nanoclusters Based on Inner Filter Effect. Liu, Haijian,Li, Ming,Ren, Xueqin,Xia, Yining. 2017

[15]Study on the interaction between cyanobacteria FBP/SBPase and metal ions. Sun, Yao,Liao, Xun,Li, Ding,Feng, Lingling,Wang, Xiaofeng,Jin, Jing,Yi, Fan,Zhou, Li,Wan, Jian,Li, Jun.

[16]Biodegradation and chemical characteristics of hot-water extractable organic matter from soils under four different vegetation types in the Wuyi Mountains, southeastern China. Bu, Xiaoli,Ding, Jiumin,Wang, Limin,Huang, Wei,Ruan, Honghua,Bu, Xiaoli,Yu, Xingna,Ding, Jiumin,Wang, Limin. 2011

[17]Application of Au based nanomaterials in analytical science. Wang, Peilong,Su, Xiaoou,Tang, Zhiyong,Lin, Zhenyu.

[18]Superior fluorescent probe for detection of potassium ion. Chen, Zhengbo,Tan, Lulu,Hu, Liangyu,Luan, Yunxia.

[19]Characteristics of dissolved organic matter (DOM) and relationship with dissolved mercury in Xiaoqing River-Laizhou Bay estuary, Bohai Sea, China. Jiang, Tao,Wang, Dingyong,Gao, Jie,Li, Chuxian,Jiang, Tao,Skyllberg, Ulf,Tang, Jianhui,Bjorn, Erik,Green, Nelson W..

[20]A reusable and sensitive biosensor for total mercury in canned fish based on fluorescence polarization. Shen, Tongfei,Yue, Qiaoli,Jiang, Xiuxiu,Wang, Lei,Xu, Shuling,Li, Haibo,Liu, Jifeng,Gu, Xiaohong,Zhang, Shuqiu.

作者其他论文 更多>>

微信小程序