多重位移放大
底漆(化妆品)
DNA聚合酶
放大器
DNA
分子生物学
环介导等温扩增
DNA钳
变性(裂变材料)
生物物理学
化学
聚合酶链反应
生物
生物化学
逆转录酶
DNA提取
基因
核化学
有机化学
作者
Gaolian Xu,Lin Hu,Zhong Hua-yan,Hongying Wang,Sei-ichi Yusa,Tristen C. Weiss,Paul J. Romaniuk,Sam Pickerill,Qimin You
摘要
CPA is a class of isothermal amplification reactions that is carried out by a strand displacement DNA polymerase and does not require an initial denaturation step or the addition of a nicking enzyme. At the assay temperature of 63°C, the formation of a primer-template hybrid at transient, spontaneous denaturation bubbles in the DNA template is favored over re-annealing of the template strands by the high concentration of primer relative to template DNA. Strand displacement is encouraged by the annealing of cross primers with 5′ ends that are not complementary to the template strand and the binding of a displacement primer upstream of the crossing primer. The resulting exponential amplification of target DNA is highly specific and highly sensitive, producing amplicons from as few as four bacterial cells. Here we report on the basic CPA mechanism – single crossing CPA – and provide details on alternative mechanisms.
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