Comparison of Quenching Efficiencies in Long Triple-Labeled and Double-Labeled TaqMan Oligodeoxynucleotide Probes

Although triple labeling of molecular beacons has been documented to improve quenching efficiencies and studies generally assume similar benefits at long TaqMan probes, a limited number of works have studied this issue in TaqMan probes. We therefore prepared a series of long triple-labeled oligodeoxynucleotide probes with 6-carboxyfluorescein as a fluorophore at the 5'-end and BlackBerry (BBQ-650) or azaphthalocyanine quenchers at the 3'-end and in the intrastrand position and systematically compared their quenching efficiencies with those of the corresponding double-labeled probes including important control probes. A model polymerase chain reaction (PCR) assay enabled the determination of the quenching efficiencies of static and Förster resonance energy transfer (FRET) quenching in the target probes. The type of probe had no effect on the static quenching ability. Importantly, FRET quenching of double-labeled probes with a quencher at the 3'-end showed a statistically insignificant difference from the control probe without any quencher, indicating the need to shift the quencher closer to the fluorophore in long probes. Shortening the distance between the fluorophore and the quencher played a key role in FRET quenching, whereas the introduction of an additional quencher only slightly improved the quenching efficiency. BBQ-labeled probes had lower quenching efficiencies than azaphthalocyanine probes. The methodologies and relationships described above seem, however, to be universal and applicable to any quencher.