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定量动力学PCR的数学原理及标准曲线的应用

Mathematics of quantitative kinetic PCR and the application of standard curves.

作者信息

Rutledge R G, Côté C

机构信息

Natural Resources Canada, Canadian Forest Service, Laurentian Forestry Centre, 1055 du P.E.P.S., PO Box 3800, Sainte-Foy, Quebec G1V 4C7, Canada.

出版信息

Nucleic Acids Res. 2003 Aug 15;31(16):e93. doi: 10.1093/nar/gng093.

DOI:10.1093/nar/gng093
PMID:12907745
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC169985/
Abstract

Fluorescent monitoring of DNA amplification is the basis of real-time PCR, from which target DNA concentration can be determined from the fractional cycle at which a threshold amount of amplicon DNA is produced. Absolute quantification can be achieved using a standard curve constructed by amplifying known amounts of target DNA. In this study, the mathematics of quantitative PCR are examined in detail, from which several fundamental aspects of the threshold method and the application of standard curves are illustrated. The construction of five replicate standard curves for two pairs of nested primers was used to examine the reproducibility and degree of quantitative variation using SYBER Green I fluorescence. Based upon this analysis the application of a single, well- constructed standard curve could provide an estimated precision of +/-6-21%, depending on the number of cycles required to reach threshold. A simplified method for absolute quantification is also proposed, in which quantitative scale is determined by DNA mass at threshold.

摘要

DNA扩增的荧光监测是实时PCR的基础,通过该方法可以根据产生阈值量扩增子DNA的分数循环来确定目标DNA浓度。使用通过扩增已知量的目标DNA构建的标准曲线可以实现绝对定量。在本研究中,详细研究了定量PCR的数学原理,阐明了阈值法和标准曲线应用的几个基本方面。使用两对巢式引物构建五条重复的标准曲线,以检测使用SYBER Green I荧光的重现性和定量变异程度。基于该分析,根据达到阈值所需的循环数,应用一条构建良好的单一标准曲线可提供±6-21%的估计精度。还提出了一种简化的绝对定量方法,其中定量尺度由阈值处的DNA质量确定。

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