以钾离子通道基因 SK 和 SH 为靶标控制害虫的新方法：功效和生物安全性。

Targeting the potassium ion channel genes SK and SH as a novel approach for control of insect pests: efficacy and biosafety.

机构信息

School of Natural and Environmental Sciences, Newcastle University, Newcastle-upon-Tyne, UK.

Department of Agricultural Sciences, Laboratory of Entomology "E. Tremblay", University of Napoli "Federico II", Portici, Italy.

出版信息

Pest Manag Sci. 2019 Sep;75(9):2505-2516. doi: 10.1002/ps.5516. Epub 2019 Jul 29.

DOI:10.1002/ps.5516

PMID:31207012

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6771844/

Abstract

BACKGROUND

Potassium ion channels play a critical role in the generation of electrical signals and thus provide potential targets for control of insect pests by RNA interference.

RESULTS

Genes encoding the small conductance calcium-activated potassium channel (SK) and the voltage-gated potassium channel (SH) were knocked down in Tribolium castaneum by injection and oral delivery of dsRNA (dsTcSK and dsTcSH, respectively). Irrespective of the delivery mechanism a dose-dependent effect was observed for knockdown (KD) of gene expression and insect mortality for both genes. Larvae fed a 400 ng dsRNA mg diet showed significant gene (P < 0.05) knockdown (98% and 83%) for SK and SH, respectively, with corresponding mortalities of 100% and 98% after 7 days. When injected (248.4 ng larva ), gene KD was 99% and 98% for SK and SH, causing 100% and 73.4% mortality, respectively. All developmental stages tested (larvae, early- and late-stage pupae and adults) showed an RNAi-sensitive response for both genes. LC50 values were lower for SK than SH, irrespective of delivery method, demonstrating that the knockdown of SK had a greater effect on larval mortality. Biosafety studies using adult honeybee Apis mellifera showed that there were no significant differences either in expression levels or mortality of honeybees orally dosed with dsTcSK and dsTcSH compared to control-fed bees. Similarly, there was no significant difference in the titre of deformed wing virus, used as a measure of immune suppression, between experimental and control bees.

CONCLUSION

This study demonstrates the potential of using RNAi targeting neural receptors as a technology for the control of T. castaneum. © 2019 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.

摘要

背景

钾离子通道在电信号的产生中起着关键作用，因此为通过 RNA 干扰控制害虫提供了潜在的目标。

结果

通过注射和口服 dsRNA（分别为 dsTcSK 和 dsTcSH），在赤拟谷盗中敲低了编码小电导钙激活钾通道（SK）和电压门控钾通道（SH）的基因。无论传递机制如何，两种基因的表达和昆虫死亡率都观察到剂量依赖性的敲低（KD）效应。摄食含 400ng dsRNA·mg 饮食的幼虫表现出 SK 和 SH 的显著基因（P<0.05）敲低（分别为 98%和 83%），分别在 7 天后死亡率达到 100%和 98%。当注射（248.4ng·幼虫）时，SK 和 SH 的基因 KD 分别为 99%和 98%，分别导致 100%和 73.4%的死亡率。测试的所有发育阶段（幼虫、早期和晚期蛹和成虫）对两种基因均表现出 RNAi 敏感反应。LC50 值对于 SK 低于 SH，与传递方法无关，表明 SK 的敲低对幼虫死亡率的影响更大。使用成年蜜蜂 Apis mellifera 进行的生物安全研究表明，与对照喂养的蜜蜂相比，口服 dsTcSK 和 dsTcSH 的蜜蜂在表达水平或死亡率方面均没有显着差异。同样，在实验和对照蜜蜂之间，变形翼病毒的滴度（用于衡量免疫抑制的指标）也没有显着差异。

结论

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9b26/6771844/363521badd4e/PS-75-2505-g001.jpg

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以钾离子通道基因 SK 和 SH 为靶标控制害虫的新方法：功效和生物安全性。

Targeting the potassium ion channel genes SK and SH as a novel approach for control of insect pests: efficacy and biosafety.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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