AI Article Synopsis
- The first sprayable RNAi biopesticide, Ledprona, has been approved by the EPA to combat the Colorado potato beetle, highlighting the potential of RNAi technology in pest management.
- A study developed and evaluated an egg-soaking dsRNA delivery method for spider mites, finding it to be the most efficient and cost-effective way to administer dsRNAs compared to other methods.
- The research indicated that RNAi effectiveness varies by factors such as target genes, dsRNA concentration, mite species, and life stages, revealing that certain spider mite species are more sensitive to RNAi treatments.
Article Abstract
Recently, the first sprayable RNAi biopesticide, Ledprona, against the Colorado potato beetle, Leptinotarsa decemlineata, has been registered at the United States Environmental Protection Agency. Spider mites (Acari: Tetranychidae), a group of destructive agricultural and horticultural pests, are notorious for rapid development of insecticide/acaricide resistance. The management options, on the other hand, are extremely limited. RNAi-based biopesticides offer a promising control alternative to address this emerging issue. In this study, we i) developed an egg-soaking dsRNA delivery method; ii) evaluated the factors influencing RNAi efficiency, and finally iii) investigated the potential mode of entry of this newly developed egg-soaking RNAi method. In comparison to other dsRNA delivery methods, egg-soaking method was the most efficient, convenient/practical, and cost-effective method for delivering dsRNAs into spider mites. RNAi efficiency of this RNAi method was affected by target genes, dsRNA concentration, developmental stages, and mite species. In general, the hawthorn spider mite, Amphitetranychus viennensis, is more sensitive to RNAi than the two-spotted spider mite, Tetranychus urticae, and both of them have dose-dependent RNAi effect. For different life stages, egg and larvae are the most sensitive life stages to dsRNAs. For different target genes, there is no apparent association between the suppression level and the resultant phenotype. Finally, we demonstrated that this egg-soaking RNAi method acts as both stomach and contact toxicity. Our combined results demonstrate the effectiveness of a topically applied dsRNA delivery method, and the potential of a spray induced gene silencing (SIGS) method as a control alternative for spider mites.
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| http://dx.doi.org/10.1016/j.pestbp.2024.105905 | DOI Listing |
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