A Rapid FRET Real-Time PCR Protocol for Simultaneous Quantitative Detection and Discrimination of Human Plasmodium Parasites.

Abstract

Malaria is the most important parasitic disease worldwide, and accurate diagnosis and treatment without delay are essential for reducing morbidity and mortality, especially in P. falciparum malaria. Real-time PCR is highly sensitive and highly specific, therefore an excellent diagnostic tool for laboratory detection and species-specific diagnosis of malaria, especially in non-endemic regions where experience in microscopic malaria diagnostics is limited. In contrast to many other real-time PCR protocols, our new fluorescence resonance energy transfer-based real-time PCR (FRET-qPCR) allows the quantitative and species-specific detection of all human Plasmodium spp. in one run. Species identification is based on single nucleotide polymorphisms (SNPs) within the MalFL probe, detectable by melting curve analysis. A significant advantage of our FRET-qPCR is the short turn-around time of less than two hours, including DNA extraction, which qualifies it for routine diagnostics. Rapid and reliable species-specific malaria diagnosis is important, because treatment is species-dependent. Apart from first-line diagnosis, the quantitative results of our new FRET-qPCR can be helpful in therapy control, to detect early treatment failure. Graphic abstract.