User:Rdbrady/Dual Labeled Probes

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Dual Labeled Probes (DLPs) are hybridization probes which have been covalently bonded to a fluorophore and a FRET quencher. In general, DLPs begin in a quenched state with the fluorophore and quencher in close proximity. The specific type of probe determines how fluorescence is released. Dual labeled probes have uses in SNP genotyping, real time PCR, and other genomics applications.

Hydrolysis probes consist of a fluorophore covalently attached to the 5’-end of the oligonucleotide probe and a quencher at the 3’-end. They are designed such that they anneal within a DNA region amplified by a specific set of primers. As the Taq polymerase extends the primer and synthesizes the nascent strand, the 5' to 3' exonuclease activity of the polymerase degrades the probe that has annealed to the template. Degradation of the probe releases the fluorophore from it and breaks the close proximity to the quencher, thus relieving the quenching effect and allowing fluorescence of the fluorophore. Hence, fluorescence detected in the real-time PCR thermal cycler is directly proportional to the fluorophore released and the amount of DNA template present in the PCR. A typical hydrolysis probe can be divided in 3 parts: