Abstract

Nucleic acid amplification and detection plays an increasingly important role in genetic analysis of clinical samples, medical diagnostics and drug discovery. We present a new quantitative PCR method that allows versatile and flexible nucleic acid target quantification. One of the PCR primers is modified by an oligonucleotide “tail” fluorescently labeled at the 5|[prime]| end. An oligonucleotide complementary to this tail, carrying a 3|[prime]|-quencher (“anti-primer”), is included in the PCR along with the two primers. Following primer extension, the reaction temperature is lowered such that the anti-primer hybridizes to and quenches the fluorescence of only the free primer and not the double-stranded PCR product, allowing real-time fluorescent quantification of the latter. This anti-primer-based quantitative real-time PCR (aQRT-PCR) allows simplex or multiplex quantification or single-nucleotide polymorphism genotyping in clinical samples of widely differing quality (e.g., fresh samples, formalin-fixed paraffin-embedded samples and plasma-circulating DNA) and provides a practical alternative to existing, more expensive approaches. The process of aQRT-PCR takes 1.5–2 h.