Background: MNAzymes (nucleic acid enzymes formed from multiple partial enzymes) can be linked to PCR to provide a highly specific method for target detection and quantification. We investigated the feasibility of multiplexing MNAzyme quantitative PCR (qPCR) methods.
Methods: We combined MNAzyme components with PCR primers and standard qPCR reagents to perform MNAzyme qPCR and reverse-transcription qPCR (RT-qPCR) assays with a set of universal reporter probes. Assays were performed on single targets and in multiplex formats that combined up to 5 different targets in a single reaction.
Results: A comparison of 3 targets amplified in single and triplex formats showed no significant differences with respect to detection limit or amplification efficiency. Likewise, we successfully converted single-target assays for 11 transcripts of interest to triplex assays containing 2 reference transcripts without having to optimize or modify the conditions. A quintuplex RT-qPCR that simultaneously quantified 5 transcripts with 5 universal probes produced high amplification efficiencies and r(2) values for all transcripts. Despite the large numbers of oligonucleotides in the reactions, we observed no false-positive signals, owing to the requirement of 4 target-specific binding events to produce a signal. A quadruplex assay that combined MNAzymes with methylation-specific PCR to measure epigenetic biomarkers of prostate cancer was capable of detecting a single methylated DNA allele in a background of 1000-10 000 unmethylated alleles. The MNAzyme qPCR was compatible with a rapid-cycling protocol.
Conclusions: MNAzymes offer a flexible and unique approach to qPCR that is specific, sensitive, and easily multiplexed. The universal nature of MNAzyme reporter probes removes the need for target-specific probes, thereby making the development of new assays easier and cheaper.
© 2012 American Association for Clinical Chemistry