Detecting potato viruses using direct reverse transcription quantitative PCR (DiRT-qPCR) without RNA purification: an alternative to DAS-ELISA

Abstract

Virus screening is obligatory to avoid the spread of plant viruses regionally and globally. Double-antibody sandwich (DAS)-ELISA is the standard for screening potato viruses owing to its high-throughput potential, robustness, and cost–benefit ratio. However, low virus titers present in dormant potato tubers may not be reliably detected by using DAS-ELISA. Virus enrichment for reliable virus detection by DAS-ELISA assay is time-consuming and can be avoided by switching to more sensitive molecular biological techniques. Therefore, we developed a TaqMan® qPCR-based one-step protocol, termed direct reverse transcription quantitative PCR (DiRT-qPCR) for detection of RNA potato viruses PVY, PLRV and PVS without sophisticated nucleic acid purification and providing a high-throughput potential. Compared with DAS-ELISA, DiRT-qPCR showed up to a 100,000,000-fold higher sensitivity depending on the virus species. We also compared the qualitative results of standard DAS-ELISA used in seed potato certification, performed by sampling leaves of at least 4-weeks-old cultivated tuber eye cuttings, to the 1.5 h long DiRT-qPCR protocol on dormant tubers. The DiRT-qPCR protocol achieved an agreement with the DAS-ELISA procedure of 92.8%, 84.1% and 82.3% for the detection of PLRV, PVY, and PVS, respectively. The investigated different virus species show different multiplication behavior in secondary infected potato tuber eye cuttings, which is assumed to be a reason for the remaining qualitative differences in the outcome of the DiRT-qPCR and DAS-ELISA comparison. In our opinion, DiRT-qPCR protocol can be used as a reliable, work- and resource-saving alternative to DAS-ELISA in qualitative directed virus detection, particularly because no RNA purification is needed and dormant potato tubers can be directly used.