通过单个实时PCR曲线即时评估cDNA拷贝的绝对初始数量。

Instant evaluation of the absolute initial number of cDNA copies from a single real-time PCR curve.

作者信息

Swillens Stéphane, Goffard Jean-Christophe, Maréchal Yoann, de Kerchove d'Exaerde Alban, El Housni Hakim

机构信息

Institut de Recherche Interdisciplinaire, Faculté de Médecine, Université Libre de Bruxelles, CP 602, Belgium.

出版信息

Nucleic Acids Res. 2004 Mar 29;32(6):e56. doi: 10.1093/nar/gnh053.

DOI:10.1093/nar/gnh053

PMID:15054124

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC390378/

Abstract

Amplification of a cDNA product by quantitative PCR (qPCR) is monitored by a fluorescent signal proportional to the amount of produced amplicon. The qPCR amplification curve usually displays an exponential phase followed by a non-exponential phase, ending with a plateau. Contrary to prevalent interpretation, we demonstrate that under standard qPCR conditions, the plateau can be explained by depletion of the probe through Taq polymerase- catalysed hydrolysis. Knowing the probe concentration and the fluorescence measured at the plateau, a specific fluorescence can thus be calculated. As far as probe hydrolysis quantitatively reflects amplicon synthesis, this, in turn, makes it possible to convert measured fluorescence levels in the exponential phase into concentrations of produced amplicon. It follows that the absolute target cDNA concentration initially engaged in the qPCR can be directly estimated from the fluorescence data, with no need to refer to any calibration with known concentrations of target DNA.

摘要

通过定量PCR（qPCR）对cDNA产物进行扩增时，会通过与产生的扩增子量成比例的荧光信号进行监测。qPCR扩增曲线通常呈现一个指数期，随后是非指数期，最后以平台期结束。与普遍的解释相反，我们证明在标准qPCR条件下，平台期可以通过Taq聚合酶催化水解导致探针耗尽来解释。已知探针浓度和平台区测得的荧光，因此可以计算出特定的荧光。由于探针水解定量反映了扩增子的合成，这反过来又使得将指数期测得的荧光水平转换为产生的扩增子浓度成为可能。由此可见，无需参考任何已知浓度靶DNA的校准，就可以直接从荧光数据中估计最初参与qPCR的绝对靶cDNA浓度。

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