A universal real-time assay for the detection of Lyssaviruses

► Universal real-time PCR primer pair demonstrated to hybridize to and detect each of the known Lyssaviruses (including Rabies virus) with greater sensitivity than a standard pan- Lyssavirus hemi-nested RT-PCR typically used. ► Target sequences of bat derived virus species unavailable for analysis ( Aravan-, Khujand-, Irkut-, West Caucasian bat- and Shimoni bat virus) were synthesized to produce oligonucleotides and the synthetic DNA was used as a target for primer hybridization.

Rabies virus (RABV) is enzootic throughout most of the world. It is now widely accepted that RABV had its origins in bats. Ten of the 11 Lyssavirus species recognised, including RABV, have been isolated from bats. There is, however, a lack of understanding regarding both the ecology and host reservoirs of Lyssaviruses. A real-time PCR assay for the detection of all Lyssaviruses using universal primers would be beneficial for Lyssavirus surveillance. It was shown that using SYBR ^® Green, a universal real-time PCR primer pair previously demonstrated to detect European bat Lyssaviruses 1 and 2, and RABV, was able to detect reverse transcribed RNA for each of the seven virus species available to us. Target sequences of bat derived virus species unavailable for analysis were synthesized to produce oligonucleotides. Lagos Bat-, Duvenhage- and Mokola virus full nucleoprotein gene clones enabled a limit of 5–50 plasmid copies to be detected. Five copies of each of the synthetic DNA oligonucleotides of Aravan-, Khujand-, Irkut-, West Caucasian bat- and Shimoni bat virus were detected. The single universal primer pair was therefore able to detect each of the most divergent known Lyssaviruses with great sensitivity.