Doubling Throughput of a Real-Time PCR

The invention of polymerase chain reaction (PCR) in 1983 revolutionized many areas of science, due to its ability to multiply a number of copies of DNA sequences (known as amplicons). Here we report on a method to double the throughput of quantitative PCR which could be especially useful for PCR-based mass screening. We concurrently amplified two target genes using only single fluorescent dye. A FAM probe labelled olionucleotide was attached to a quencher for one amplicon while the second one was without a probe. The PCR was performed in the presence of the intercalating dye SYBR Green I. We collected the fluorescence amplitude at two points per PCR cycle, at the denaturation and extension steps. The signal at denaturation is related only to the amplicon with the FAM probe while the amplitude at the extension contained information from both amplicons. We thus detected two genes within the same well using a single fluorescent channel. Any commercial real-time PCR systems can use this method doubling the number of detected genes. The method can be used for absolute quantification of DNA using a known concentration of housekeeping gene at one fluorescent channel.