Real-time PCR for mRNA quantitation
- PMID: 16060372
- DOI: 10.2144/05391RV01
Real-time PCR for mRNA quantitation
Abstract
Real-time PCR has become one of the most widely used methods of gene quantitation because it has a large dynamic range, boasts tremendous sensitivity, can be highly sequence-specific, has little to no post-amplification processing, and is amenable to increasing sample throughput. However, optimal benefit from these advantages requires a clear understanding of the many options available for running a real-time PCR experiment. Starting with the theory behind real-time PCR, this review discusses the key components of a real-time PCR experiment, including one-step or two-step PCR, absolute versus relative quantitation, mathematical models available for relative quantitation and amplification efficiency calculations, types of normalization or data correction, and detection chemistries. In addition, the many causes of variation as well as methods to calculate intra- and inter-assay variation are addressed.
Comment in
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Comment on Wong and Medrano's "Real-time PCR for mRNA quantification" BioTechniques 39:75-85 (July 2005).Biotechniques. 2005 Oct;39(4):484; discussion 484-5. doi: 10.2144/000112029. Biotechniques. 2005. PMID: 16235559 No abstract available.
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