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Merck

Quantification of mRNA using real-time RT-PCR.

Nature protocols (2007-04-05)
Tania Nolan, Rebecca E Hands, Stephen A Bustin
ABSTRACT

The real-time reverse transcription polymerase chain reaction (RT-qPCR) addresses the evident requirement for quantitative data analysis in molecular medicine, biotechnology, microbiology and diagnostics and has become the method of choice for the quantification of mRNA. Although it is often described as a "gold" standard, it is far from being a standard assay. The significant problems caused by variability of RNA templates, assay designs and protocols, as well as inappropriate data normalization and inconsistent data analysis, are widely known but also widely disregarded. As a first step towards standardization, we describe a series of RT-qPCR protocols that illustrate the essential technical steps required to generate quantitative data that are reliable and reproducible. We would like to emphasize, however, that RT-qPCR data constitute only a snapshot of information regarding the quantity of a given transcript in a cell or tissue. Any assessment of the biological consequences of variable mRNA levels must include additional information regarding regulatory RNAs, protein levels and protein activity. The entire protocol described here, encompassing all stages from initial assay design to reliable qPCR data analysis, requires approximately 15 h.

MATERIALS
Product Number
Brand
Product Description

Roche
PCR Nucleotide Mix, solution, sufficient for 500 reactions (11581295001), sufficient for 5,000 reactions (11814362001), sufficient for 2,500 reactions (04638956001)
Sigma-Aldrich
Enhanced Avian Reverse Transcriptase [eAMV RT], For reverse transcription at higher temperatures & rare mRNAs
Sigma-Aldrich
SYBR® Green JumpStart Taq ReadyMix for High Throughput qPCR, SYBR® Green qPCR reagent, passive reference dye included
Sigma-Aldrich
TRI Reagent®, For processing tissues, cells cultured in monolayer or cell pellets
Sigma-Aldrich
JumpStart Taq ReadyMix for Quantitative PCR, For probe-based real-time PCR