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Control of western corn rootworm <i>via</i> RNAi traits in maize: lethal and sublethal effects of <i>Sec23</i> dsRNA

Ana M. VélezDepartment of Entomology University of Nebraska‐Lincoln Lincoln NE USAElane FishilevichCorteva Agriscience Indianapolis IN USAMurugesan RangasamyCorteva Agriscience Indianapolis IN USAChitvan KhajuriaDepartment of Entomology University of Nebraska‐Lincoln Lincoln NE USADavid McCaskillCorteva Agriscience Indianapolis IN USAAdriano E PereiraDepartment of Entomology University of Nebraska‐Lincoln Lincoln NE USAPremchand GandraCorteva Agriscience Indianapolis IN USAMeghan FreyCorteva Agriscience Indianapolis IN USASarah E. WordenCorteva Agriscience Indianapolis IN USAShannon L. WhitlockCorteva Agriscience Indianapolis IN USAWendy LoCorteva Agriscience Indianapolis IN USAKarl D. SchnelleCorteva Agriscience Indianapolis IN USAJamie LutzCorteva Agriscience Indianapolis IN USAKenneth E. NarvaCorteva Agriscience Indianapolis IN USABlair D. SiegfriedEntomology and Nematology Department, Charles Steinmetz Hall University of Florida Gainesville FL USA
2019en
ABI

Аннотация

Abstract Background RNA interference (RNAi) triggered by maize plants expressing RNA hairpins against specific western corn rootworm (WCR) transcripts have proven to be effective at controlling this pest. To provide robust crop protection, mRNA transcripts targeted by double‐stranded RNA must be sensitive to knockdown and encode essential proteins. Results Using WCR adult feeding assays, we identified Sec23 as a highly lethal RNAi target. Sec23 encodes a coatomer protein, a component of the coat protein (COPII) complex that mediates ER‐Golgi transport. The lethality detected in WCR adults was also observed in early instar larvae, the life stage causing most of the crop damage, suggesting that WCR adults can serve as an alternative to larvae for dsRNA screening. Surprisingly, over 85% transcript inhibition resulted in less than 40% protein knockdown, suggesting that complete protein knockdown is not necessary for Sec23 RNAi‐mediated mortality. The efficacy of Sec23 dsRNA for rootworm control was confirmed in planta ; T 0 maize events carrying rootworm Sec23 hairpin transgenes showed high levels of root protection in greenhouse assays. A reduction in larval survival and weight were observed in the offspring of WCR females exposed to Sec23 dsRNA LC 25 in diet bioassays. Conclusion We describe Sec23 as RNAi target for in planta rootworm control. High mortality in exposed adult and larvae and moderate sublethal effects in the offspring of females exposed to Sec23 dsRNA LC 25 , suggest the potential for field application of this RNAi trait and the need to factor in responses to sublethal exposure into insect resistance management programs. © 2019 Society of Chemical Industry

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