A label-free ultrasensitive fluorescence detection of viable Salmonella typhimurium using enzyme-induced cascade two-stage isothermal amplification-driven assembly of DNA-scaffolded Silver-Nanocluster
The harm of Salmonella typhimurium(S.typhimurium)to public health mainly by contaminating fresh food and water emphasizes the urgent need for rapid detection techniques to help control the spread of the pathogen.In this assay,an newly designed capture probe complex that contained specific S.typhimurium-aptamer and hybridized signal target sequence was used for viable S.typhimurium recognition directly.In the presence of the target S.typhimurium,single-stranded target sequences were liberated and initiated the isothermal amplification,producing numerous DNA-scaffolded AgNC structures with a linker on the 3”-end.And then,the sensing system took innovative advantage of quadratic linker-induced isothermal amplification for the first time to release target sequence in succession,leading to the cyclic reuse of the target sequences and cascade signal amplification,thereby achieving the successive production of AgNC structures,generating significantly enhanced fluorescent signals to achieve highly sensitive detection of S.typhimurium down to 70 CFU/mL with a linear range from 102 to 107 CFU/mL.By coupling the cascade two-stage target sequences-recyclable toehold strand-displacement with aptamer-based target recognition successfully,it is the first report on a novel non-label,modification-free and DNA extraction-free ultrasensitive fluorescence biosensor for detecting viable S.typhimurium directly,which can discriminate from dead S.typhimurium.
Fluorescence biosensor Label-free S.typhimurium Aptamer Isothermal amplification AgNC
Peng Zhang Hui Liu Suzhen Ma Shuai Men Qingzhou Li Xin Yang Hongning Wang
School of Life Science,Sichuan University,Animal Disease Prevention and Food Safety Key Laboratory of Sichuan Province,Key Laboratory of Bio-Resources and Eco-Environment of Ministry of Education,”985 Project” Science Innovative Platform for Resource and Environment Protection of Southwestern,Chengdu 610065,China
国内会议
重庆
英文
1012-1025
2016-05-25(万方平台首次上网日期,不代表论文的发表时间)