Crucial role of a takeout protein in white-backed planthopper Sogatella furcifera (Horváth) orientation towards its host rice plants.
IF 3.8
1区 农林科学
Q1 AGRONOMY
Ming He,Gui-Jun Long,Hong-Yan Feng,Ya-Qin Zhao,Yang-Yuntao Zhou,Meng-Qi Zhang,Yun-Feng Ma,Lang-Lang Gong,J Joe Hull,Moises J Zotti,Youssef Dewer,Peng He,Guy Smagghe
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Abstract
The takeout (TO) gene family impacts diverse physiological and behavioral functions in insects, yet specific olfactory-associated roles for the family have yet to be fully elucidated. To provide insights into TO function in rice planthoppers, the genomes of three rice planthoppers (white-backed planthopper, brown planthopper and small brown planthopper) were searched for TO homologs and their degree of conservation assessed via chromosomal localization, exon-intron boundaries, phylogenetic relationships and protein domains/motifs. We performed a tissue-specific expression analysis of the 20 TO genes in the white-backed planthopper (WBPH, Sogatella furcifera) and found that SfTO17 is enriched in adult antennae. RNAi-mediated knockdown of SfTO17 impaired WBPH olfaction and reduced host-seeking responses following exposure to rice plants. The binding profile of β-ionone, hexyl benzoate and benzyl benzoate with recombinant SfTO17 was evaluated via competitive fluorescence binding assays. Conformational prediction of SfTO17 coupled with molecular docking analyses revealed several amino acid residues potentially critical for odorant binding. This study demonstrates the olfactory function of SfTO17 in WBPH and highlights its potential as a target for controlling this rice pest. © 2024 Society of Chemical Industry.
白背飞虱(Sogatella furcifera (Horváth))对寄主水稻植物定向的关键性作用。
外卖(TO)基因家族对昆虫的各种生理和行为功能都有影响,但该家族与嗅觉相关的具体作用尚未完全阐明。为了深入了解 TO 在水稻跳虫中的功能,我们在三种水稻跳虫(白背跳虫、褐跳虫和小褐跳虫)的基因组中搜索了 TO 同源物,并通过染色体定位、外显子内含子边界、系统发生关系和蛋白质结构域/结构调整评估了它们的保守程度。我们对白背飞虱(WBPH,Sogatella furcifera)中的20个TO基因进行了组织特异性表达分析,发现SfTO17在成虫触角中富集。RNAi- 介导的 SfTO17 基因敲除损害了 WBPH 的嗅觉,并降低了暴露于水稻植物后的宿主寻找反应。通过竞争性荧光结合试验评估了β-酮、苯甲酸己酯和苯甲酸苄酯与重组SfTO17的结合情况。通过对 SfTO17 的构象预测和分子对接分析,发现了几个可能对气味剂结合至关重要的氨基酸残基。这项研究证明了 SfTO17 在 WBPH 中的嗅觉功能,并强调了其作为控制这种水稻害虫的靶标的潜力。© 2024 化学工业协会。
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