生物
毒力
蜡螟
绿僵菌
微生物学
RNA沉默
寄主(生物学)
基因
后转座子
病毒学
遗传学
RNA干扰
植物
核糖核酸
生物病虫害防治
基因组
转座因子
作者
Yulong Wang,Xiangyun Xie,Qin Li,Deshui Yu,Zhangxun Wang,Bo Huang
标识
DOI:10.1111/1751-7915.13748
摘要
Summary The slow lethality of fungal biopesticides to insects restrains their widespread application as a strategy of pest control. In this study, unary, binary and ternary transgenic Metarhizium robertsii were created by integrating genes that encode the scorpion neurotoxin Bjα IT, the cuticle‐degrading protease Pr1A, and a double‐stranded RNA (dsRNA) that targets host gnbp3 , individually or collectively under a constitutive promoter to enhance virulence. Compared with the parental wild type, all unary transgenic strains had increased virulence against four insect species, Tenebrio molitor , Locusta migratoria , Plutella xylostella and Galleria mellonella , whereas the binary transgenic strain expressing both pr1A and Bjα IT had increased virulence to T. molitor and L. migratoria , with no change in virulence against P. xylostella and G. mellonella . Importantly, all ternary transgenic strains simultaneously expressing pr1A , Bjα IT, and the dsRNA specific to host gnbp3 exhibited the highest increase in insect‐specific virulence. This finding highlights a novel strategy for genetic engineering of dsRNAs that target genes associated with the host immune response alongside virulence genes to maximize fungal virulence and lethality against insect pests.
科研通智能强力驱动
Strongly Powered by AbleSci AI