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      Validation of kinetics similarity in qPCR

      research-article
      Author(s): 1 , * , 2 , 3 , 3 , 4
      Publication date (Electronic):
      Journal: Nucleic Acids Research
      Publisher: Oxford University Press

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          Abstract

          Quantitative real-time PCR (qPCR) is the method of choice for specific and sensitive quantification of nucleic acids. However, data validation is still a major issue, partially due to the complex effect of PCR inhibition on the results. If undetected PCR inhibition may severely impair the accuracy and sensitivity of results. PCR inhibition is addressed by prevention, detection and correction of PCR results. Recently, a new family of computational methods for the detection of PCR inhibition called kinetics outlier detection (KOD) emerged. KOD methods are based on comparison of one or a few kinetic parameters describing a test reaction to those describing a set of reference reactions. Modern KOD can detect PCR inhibition reflected by shift of the amplification curve by merely half a cycle with specificity and sensitivity >90%. Based solely on data analysis, these tools complement measures to improve and control pre-analytics. KOD methods do not require labor and materials, do not affect the reaction accuracy and sensitivity and they can be automated for fast and reliable quantification. This review describes the background of KOD methods, their principles, assumptions, strengths and limitations. Finally, the review provides recommendations how to use KOD and how to evaluate its performance.

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          Most cited references69

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          Inhibition and facilitation of nucleic acid amplification.

          I. WILSON (1997)
          Article 0 comments Cited 263 times – based on 0 reviews     Review now
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            Experimental validation of novel and conventional approaches to quantitative real-time PCR data analysis.

            S N Peirson (2003)
            Real-time PCR is being used increasingly as the method of choice for mRNA quantification, allowing rapid analysis of gene expression from low quantities of starting template. Despite a wide range of approaches, the same principles underlie all data analysis, with standard approaches broadly classified as either absolute or relative. In this study we use a variety of absolute and relative approaches of data analysis to investigate nocturnal c-fos expression in wild-type and retinally degenerate mice. In addition, we apply a simple algorithm to calculate the amplification efficiency of every sample from its amplification profile. We confirm that nocturnal c-fos expression in the rodent eye originates from the photoreceptor layer, with around a 5-fold reduction in nocturnal c-fos expression in mice lacking rods and cones. Furthermore, we illustrate that differences in the results obtained from absolute and relative approaches are underpinned by differences in the calculated PCR efficiency. By calculating the amplification efficiency from the samples under analysis, comparable results may be obtained without the need for standard curves. We have automated this method to provide a means of streamlining the real-time PCR process, enabling analysis of experimental samples based upon their own reaction kinetics rather than those of artificial standards.
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              Investigations on DNA intercalation and surface binding by SYBR Green I, its structure determination and methodological implications.

              Jürgen Bernhagen, Herwig Brunner, Hubert Zipper (2003)
              The detection of double-stranded (ds) DNA by SYBR Green I (SG) is important in many molecular biology methods including gel electrophoresis, dsDNA quantification in solution and real-time PCR. Biophysical studies at defined dye/base pair ratios (dbprs) were used to determine the structure-property relationships that affect methods applying SG. These studies revealed the occurrence of intercalation, followed by surface binding at dbprs above approximately 0.15. Only the latter led to a significant increase in fluorescence. Studies with poly(dA)* poly(dT) and poly(dG)* poly(dC) homopolymers showed sequence-specific binding of SG. Also, salts had a marked impact on SG fluorescence. We also noted binding of SG to single-stranded (ss) DNA, although SG/ssDNA fluorescence was at least approximately 11-fold lower than with dsDNA. To perform these studies, we determined the structure of SG by mass spectrometry and NMR analysis to be [2-[N-(3-dimethylaminopropyl)-N-propylamino]-4-[2,3-dihydro-3-methyl-(benzo-1,3-thiazol-2-yl)-methylidene]-1-phenyl-quinolinium]. For comparison, the structure of PicoGreen (PG) was also determined and is [2-[N-bis-(3-dimethylaminopropyl)-amino]-4-[2,3-dihydro-3-methyl-(benzo-1,3-thiazol-2-yl)-methylidene]-1-phenyl-quinolinium]+. These structure-property relationships help in the design of methods that use SG, in particular dsDNA quantification in solution and real-time PCR.
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                Author and article information

                Journal
                Journal ID (nlm-ta): Nucleic Acids Res
                Journal ID (publisher-id): nar
                Journal ID (hwp): nar
                Title: Nucleic Acids Research
                Publisher: Oxford University Press
                ISSN (Print): 0305-1048
                ISSN (Electronic): 1362-4962
                Publication date Collection: February 2012
                Publication date (Print): February 2012
                Publication date (Electronic): 19 October 2011
                Publication date PMC-release: 19 October 2011
                Volume: 40
                Issue: 4
                Pages: 1395-1406
                Affiliations
                1Labonnet Ltd., 2 Hamelacha St., Ramat-Hasharon, 47445, Israel, 2TATAA Biocenter, Odinsgatan 28, 411 03 Göteborg, Sweden, 3Biotechnology Institute, Academy of Science of the Czech Republic, Vídeňská 1083, 142 20 Prague 4, Czech Republic and 4Charles University, Medical Faculty Hospital in Pilsen, Dr. E. Beneše 13, 305 99 Pilsen – Bory, the Czech Republic
                Author notes
                *To whom correspondence should be addressed. Tel: +972 50 8424208; Fax: +972 77 4424640; Email: tzachi.bar@ 123456labonnet.com
                Article
                Publisher ID: gkr778
                DOI: 10.1093/nar/gkr778
                PMC ID: 3287174
                PubMed ID: 22013160
                SO-VID: c640dc5e-819c-49cd-a080-e37790794ed3
                Copyright © © The Author(s) 2011. Published by Oxford University Press.
                License:

                This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License ( http://creativecommons.org/licenses/by-nc/3.0), which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

                History
                Date received : 8 May 2011
                Date revision received : 2 September 2011
                Date accepted : 6 September 2011
                Page count
                Pages: 12
                Categories
                Subject: Survey and Summary

                ScienceOpen disciplines: Genetics
                Data availability:
                ScienceOpen disciplines: Genetics

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