Background: Double-stranded RNA (dsRNA) is a potent initiator of gene silencing in a diverse group of organisms that includes plants, Caenorhabditis elegans, Drosophila and mammals. We have previously shown and patented that mechanical inoculation of in vitro-transcribed dsRNA derived from viral sequences specifically prevents virus infection in plants. The approach required the in vitro synthesis of large amounts of RNA involving high cost and considerable labour.
Double-stranded RNA (dsRNA) is an inducer molecule of the RNA silencing (RNA interference, RNAi) pathway that is present in all higher eukaryotes and controls gene expression at the posttranscriptional level. This mechanism allows the cell to recognize aberrant genetic material in a highly sequence specific manner. This ultimately leads to degradation of the homologous target sequence, rendering the plant cell resistant to subcellular pathogens. Consequently, dsRNA-mediated resistance has been exploited in transgenic plants to convey resistance against viruses. In addition, it has been shown that enzymatically synthesized specific dsRNA molecules can be applied directly onto plant tissue to induce resistance against the cognate virus. This strongly implies that dsRNA molecules are applicable as efficacious agents in crop protection, which will fuel the demand for cost-effective dsRNA production methods. In this chapter, the different methods for dsRNA production-both in vitro and in vivo-are described in detail.
SUMMARY A comparative analysis of the synergistic interaction between PVX and either PVY or TEV potyviruses was performed in Nicotiana benthamiana and N. tabacum plants. In each PVX/potyvirus combination, doubly infected plants developed much more severe symptoms than singly infected ones. However, while PVX accumulation increased in doubly infected N. tabacum plants compared with singly infected plants, the accumulation of PVX did not vary drastically in doubly infected N. benthamiana plants with respect to single infected ones. These findings suggest that the relationship between viral titre enhancement and synergism in PVX/potyvirus infections is host dependent. Since PVX and potyviruses contain suppressors of a plant antiviral defence system mediated by gene silencing, differences observed in the response of these two related hosts to PVX/potyvirus interactions might reflect the effect of these viruses on host specific antiviral defences.
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