Cry1Ac公司
生物
苏力菌棉花
棉铃虫
苏云金杆菌
棉铃虫
抗性(生态学)
棉属
有害生物分析
四斯潘宁
突变
转基因作物
生物技术
铃夜蛾属
遗传学
基因
农学
转基因
植物
生殖器鳞翅目
幼虫
细菌
细胞
作者
Fang Guan,Bofeng Hou,Xiaoguang Dai,Sitong Liu,Juanjuan Liu,Yan Gu,Lin Jin,Yihua Yang,Jeffrey A. Fabrick,Yidong Wu
摘要
Abstract BACKGROUND Transgenic crops producing insecticidal proteins derived from Bacillus thuringiensis (Bt) are used globally to kill key insect pests and provide numerous benefits, including improved pest management, increased profits, reduced insecticide use, and increased biological control. Unfortunately, such benefits are rapidly being lost by the evolution of Bt resistance by pests. RESULTS The main strategy to delay resistance relies on the use of non‐Bt refuge plants to produce sufficient susceptible insects that mate with rare resistant insects emerging from Bt crops, essentially diluting and/or removing resistance alleles from pest populations. A key assumption for the success of this refuge strategy is that inheritance of resistance is recessive. In China, dominant resistance to Cry1Ac Bt cotton by the cotton bollworm Helicoverpa armigera is increasing and is associated with a mutation in the tetraspanin HaTSPAN1 gene, conferring more than 125‐fold resistance. Here, we used amplicon sequencing to test the hypotheses that the HaTSPAN1 mutation either arose from a single event and spread or that the mutation evolved independently several times throughout northern China. From three laboratory strains and 28 field populations sampled from northern China, we identified six resistant and 50 susceptible haplotypes. Phylogenetic analysis indicates that the HaTSPAN1 mutation arose from at least four independent origins and spread to their current distributions. CONCLUSION The results provide valuable information about the evolutionary origins of dominant resistance to Cry1Ac Bt cotton in northern China and offer rationale for the rapid increase in field‐evolved resistance in these areas, where the implementation of additional practical resistance management is needed. © 2020 Society of Chemical Industry
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