Calibration-free assays on standard real-time PCR devices

Quantitative Polymerase Chain Reaction (qPCR) is one of central techniques in molecular biology and important tool in medical diagnostics. While being a golden standard qPCR techniques depend on reference measurements and are susceptible to large errors caused by even small changes of reaction effic...

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Bibliographic Details
Published in:Scientific reports 2017-03, Vol.7 (1), p.44854-44854, Article 44854
Main Authors: Debski, Pawel R., Gewartowski, Kamil, Bajer, Seweryn, Garstecki, Piotr
Format: Article
Language:English
Subjects:
639/638/11/872
639/638/11/876
Calibration
Humanities and Social Sciences
Molecular biology
multidisciplinary
Polymerase chain reaction
Quantitation
Science
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Summary:Quantitative Polymerase Chain Reaction (qPCR) is one of central techniques in molecular biology and important tool in medical diagnostics. While being a golden standard qPCR techniques depend on reference measurements and are susceptible to large errors caused by even small changes of reaction efficiency or conditions that are typically not marked by decreased precision. Digital PCR (dPCR) technologies should alleviate the need for calibration by providing absolute quantitation using binary (yes/no) signals from partitions provided that the basic assumption of amplification a single target molecule into a positive signal is met. Still, the access to digital techniques is limited because they require new instruments. We show an analog-digital method that can be executed on standard (real-time) qPCR devices. It benefits from real-time readout, providing calibration-free assessment. The method combines advantages of qPCR and dPCR and bypasses their drawbacks. The protocols provide for small simplified partitioning that can be fitted within standard well plate format. We demonstrate that with the use of synergistic assay design standard qPCR devices are capable of absolute quantitation when normal qPCR protocols fail to provide accurate estimates. We list practical recipes how to design assays for required parameters, and how to analyze signals to estimate concentration.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep44854