Breakthrough in Plant Protection: RNAi Pesticides Affect Only One Pest Species (Agriculture)

The detrimental impact of pesticides on non-target organisms is one of the most urgent concerns in current agriculture. Double-stranded RNAs (dsRNAs) represent the most species-specific class of pesticides to date, potentially allowing control of a target pest without effecting other species. The unprecedented target-specificity of dsRNA is due to its nucleotide sequence-specific mode of action that results in post-transcriptional gene silencing, or RNA interference (RNAi), in the target species. The development and field use of dsRNAs, via both the insertion of transgenes into the plant genome and the application of dsRNA sprays, is a rapidly growing area of research. Simultaneously, there exists the growing prospect of harnessing RNAi within integrated pest management schemes.

Using the pollen beetle (Brassicogethes aeneus) and its host crop oilseed rape (Brassica napus) as a model crop?pest system, a team of researchers collectively from Estonian University of Life Sciences, Ghent University and Maastricht University examined how RNAi efficacy depends on duration of dietary exposure to dsRNA. To this end, the authors applied dsRNA (specifically designed to induce RNAi in the pollen beetle) to oilseed rape flowers, and analyzed RNAi-induced mortality between insects chronically fed dsRNA and insects fed dsRNA for 3 days. Most notably, their data suggest that, with chronic dietary exposure to dsRNA, reduced dsRNA concentrations can be applied in order to achieve a similar effect compared to short-term (e.g. 3 days) exposure to higher concentrations. This observation has important implications for optimizing dsRNA spray approaches to managing crop pests. Specifically, while crop pest management is likely to benefit from successive dsRNA spray treatments, this may still be of economic benefit in practice because lower concentrations (e.g. 5?10 times lower) may be suitable for an equally effective outcome.

This work is timely, as dsRNA spray approaches are increasingly under consideration due to not only reduced biotechnology requirements, but also less legal restrictions in certain countries (e.g. member states of the European Union), compared to the engineering and cultivation of RNAi cultivars. The study adds new insights to the current discussion surrounding the potential benefits of genetically engineered crops. Transgenic RNAi cultivars continuously produce the species-specific dsRNA within the plant’s tissues, chronically exposing the target species to the pesticide as long as the pest continuously feeds on the crop. Thus, the authors highlight the need for research into the development and potential use of genetically engineered RNAi oilseed rape cultivars, given the enhanced RNAi efficacy resulting from chronic dsRNA feeding in the pollen beetle.

The work has been published, and is available online via Communications Biology (nature.com/commsbio) as of 6 April 2021.

The work was supported the Internalisation Programme DoRa (carried out by the Archimedes Foundation), institutional Research Funding projects IUT36-2 and PRG1056 of the Estonian Research Council, European ERA-NET C-IPM project “IPM4Meligethes” (project 3G0H0416), the European Union’s European Regional Development Fund (Estonian University of Life Sciences ASTRA project “Value-chain based bioeconomy”), the Special Research Fund (BOF) of Ghent University and the Research Foundation – Flanders (FWO-Vlaanderen).

Featured image: The harmfulness of pesticides to beneficial organisms is one of the most serious concerns in agriculture. Therefore scientists are eagerly looking for new, more environmentally friendly and species-specific solutions. Researchers at the Estonian University of Life Sciences, Ghent and the University of Maastricht took a long step forward in this regard. © Estonian University of Life Sciences


Reference: Willow J, Soonvald L, Sulg S, Kaasik R, Silva AI, Taning CNT, Christiaens O, Smagghe G, Veromann E (2021) RNAi efficacy is enhanced by chronic dsRNA feeding in pollen beetle. Communications Biology. DOI: 10.1038/s42003-021-01975-9


Provided by Estonian Research Council

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