Abstract
Detection of caliciviruses requires high mutation tolerance and throughput. The development of a rational simple, single tube reverse transcription-real-time quantitative PCR (QPCR) technique for human noroviruses (NV) is reported here. A dual-probe, triple-primer system (NM system) was used for simultaneous detection and preliminary differentiation of NV genogroups in fecal samples. The design was based on a comprehensive analysis of all 1140 NV sequences available in GenBank. A touch-down amplification protocol improved the frequency of detection. The final QPCR was evaluated with 71 fecal samples from outbreak and sporadic cases in Sweden (1997–2004), all calicivirus-positive by electron microscopy. Up to 56 (79 %) were positive. The method is more rational than NV detection methods described previously, and should be a developmental basis for large-scale routine methods for detection of NV.
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