Unlike standard PCR, real-time PCR instruments measure the kinetics of product accumulation in each PCR reaction tube. Generally, no product is detected during the first few PCR cycles as the fluorescent signal is below the detection threshold of the instrument.

Most combinations of machine and fluorescence reporter are capable of detecting the accumulation of amplicons before the end of the exponential amplification phase. During this time the efficiency of PCR is often close to 100% giving a doubling of the quantity of product at each cycle. As product concentrations approach the nanogram per microlitre level the efficiency of amplification falls primarily because the amplicons re-associate during the annealing step. This leads to a phase during which the accumulation of product is approximately linear with a constant level of net synthesis at each cycle. Finally, a plateau is reached when net synthesis approximates zero.

Quantification in real-time PCR is done by measuring the number of cycles required for the fluorescent signal to reach a threshold level or the second derivative maximum of the fluorescence versus cycle curve. This cycle number is proportional to the number of copies of template in the sample. Real-time PCR quantification applications are discussed in detail in Bustin and Nolan (2009) Analysis of mRNA Expression by Real-Time PCR In: Real-Time PCR Logan, Edwards and Saunders, eds.; Wurmbach (2009) Validation of Array DataIn: Real-Time PCR Logan, Edwards and Saunders, eds.; and Wiseman (2009) Real-Time PCR: Application to Food Authenticity and Legislation In: Real-Time PCR Logan, Edwards and Saunders, eds.

Bibliography:

1. Real-Time PCR: Current Technology and Applications
2. Real-Time PCR in Microbiology: From Diagnosis to Characterization
3. PCR Troubleshooting: The Essential Guide
4. PCR Books

Labels: fluorescence, PCR instruments, PCR machines, quantitation, real-time pcr