DNA
基因组DNA
费斯特共振能量转移
分子生物学
核酸
生物
杂交探针
环介导等温扩增
荧光
基因
多重位移放大
聚合酶链反应
化学
遗传学
DNA提取
物理
量子力学
作者
Jeff G. Hall,Peggy S. Eis,Scott M. Law,Luis P. Reynaldo,James R. Prudent,David J. Marshall,Hatim T. Allawi,Andrea Mast,James E. Dahlberg,Robert Kwiatkowski,Monika de Arruda,Bruce Neri,Victor I. Lyamichev
标识
DOI:10.1073/pnas.140225597
摘要
The invasive signal amplification reaction has been previously developed for quantitative detection of nucleic acids and discrimination of single-nucleotide polymorphisms. Here we describe a method that couples two invasive reactions into a serial isothermal homogeneous assay using fluorescence resonance energy transfer detection. The serial version of the assay generates more than 10 7 reporter molecules for each molecule of target DNA in a 4-h reaction; this sensitivity, coupled with the exquisite specificity of the reaction, is sufficient for direct detection of less than 1,000 target molecules with no prior target amplification. Here we present a kinetic analysis of the parameters affecting signal and background generation in the serial invasive signal amplification reaction and describe a simple kinetic model of the assay. We demonstrate the ability of the assay to detect as few as 600 copies of the methylene tetrahydrofolate reductase gene in samples of human genomic DNA. We also demonstrate the ability of the assay to discriminate single base differences in this gene by using 20 ng of human genomic DNA.
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