Over-expression of CP9 and CP83 increases whitefly cell cuticle thickness leading to imidacloprid resistance

益达胺 亚科 生物 粉虱 基因 有害生物分析 新烟碱 昆虫 拉伤 系统发育树 抗性(生态学) 毒理 遗传学 杀虫剂 植物 生态学 解剖
作者
Chao He,Jinjin Liang,Jing Yang,Hu Xue,Mingjiao Huang,Buli Fu,Xuegao Wei,Shaonan Liu,Tianhua Du,Yao Ji,Cheng Yin,Peipan Gong,Jinyu Hu,He Du,Rong Zhang,Wen Xie,Shaoli Wang,Qingjun Wu,Xuguo Zhou,Xin Yang
出处
期刊:International Journal of Biological Macromolecules [Elsevier BV]
卷期号:233: 123647-123647 被引量:10
标识
DOI:10.1016/j.ijbiomac.2023.123647
摘要

Cuticular proteins (CPs) play an important role in protecting insects from adverse environmental conditions, like neonicotinoid insecticides, which are heavily used for numerous pests and caused environmental problems and public health concerns worldwide. However, the relationship between CPs and insecticides resistance in Bemisia tabaci, a serious and developed high insecticide resistance, is lacking. In this study, 125 CPs genes were identified in B. tabaci. Further phylogenetic tree showed the RR-2-type genes formed large gene groups in B. tabaci. Transcriptional expression levels of CPs genes at different developmental stages revealed that some CPs genes may play a specific role in insect development. The TEM results indicated that the cuticle thickness of susceptible strain was thinner than imidacloprid-resistance strain. Furthermore, 16 CPs genes (5 in RR-1 subfamily, 7 in RR-2 subfamily, 3 in CPAP3 subfamily and 1 in CPCFC subfamily) were activated in response to imidacloprid. And RNAi results indicated that CP9 and CP83 involved in imidacloprid resistance. In conclusion, this study was the first time to establish a basic information framework and evolutionary relationship between CPs and imidacloprid resistance in B. tabaci, which provides a basis for proposing integrated pest management strategies.
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