The repeatability and sensitivity of a simple, adaptable, semi-quantitative, real-time RT-PCR assay was investigated. The assay can be easily and rapidly applied to quantitate relative levels of any gene product without using standards, provided that amplification conditions are specific for the PCR product of interest. Using the LightCycler real-time PCR machine, a serial 10-fold dilution series (spanning four orders of magnitude) of a 379-bp cDNA template was amplified, and the PCR product was detected using SYBR Green I chemistry. The experiment was repeated on a subsequent day. The experimental design was such that the data lent itself to analysis using an appropriate method for testing repeatability. It was found that, within a single assay, for samples assayed in triplicate, a difference of 23% may be reliably detected. Furthermore, when all of the factors that contribute to variability in the assay are taken into account, such as day-to-day variation in pipetting and amplification efficiency, a 52% difference in target template can be detected using a sample size of 4. The assay was found to be linear over at least four orders of magnitude.
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