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在刚毛感器中表达的气味结合蛋白6对寄主植物挥发物表现出优先结合亲和力。

The Odorant Binding Protein 6 Expressed in Sensilla Chaetica Displays Preferential Binding Affinity to Host Plants Volatiles in .

作者信息

Ma Long, Li Zhaoqun, Zhang Wanna, Cai Xiaoming, Luo Zongxiu, Zhang Yongjun, Chen Zongmao

机构信息

Jiangxi Key Laboratory of Bioprocess Engineering, College of Life Sciences, Jiangxi Science & Technology Normal University, Nanchang, China.

Tea Research Institute, Chinese Academy of Agricultural Sciences, Hangzhou, China.

出版信息

Front Physiol. 2018 May 17;9:534. doi: 10.3389/fphys.2018.00534. eCollection 2018.

DOI:10.3389/fphys.2018.00534
PMID:29867573
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5967201/
Abstract

The monophagous tea geometrid selectively feed on tea plants, requiring the specialized chemosensory system to forage for certain host. A deep insight into the molecular basis would accelerate the design of insect-behavior-modifying stimuli. In the present study, we focused on the odorant-binding protein 6 (EoblOBP6) with the high abundance in legs transcriptome of moths. qRT-PCR coupled with western blot analyses revealed the dual expression pattern of EoblOBP6 in antennae and legs. Cellular immunolocalization indicated that EoblOBP6 was predominantly labeled in the outer sensillum lymph of uniporous sensilla chaetica, which is not innervated by sensory neurons. No specific staining was observed in other sensillum types. The fluorescence competition assay showed a relatively narrow binding spectrum of recombinant EoblOBP6. EoblOBP6 could not only bind with intact tea plant volatiles benzaldehyde but also display high binding ability to nerolidol and α-farnesene which are tea plant volatiles dramatically induced by herbivore infestation. Besides, EoblOBP6 tightly bound to the aversive bitter alkaloid berberine. Taken together, EoblOBP6 displayed an unusual expression in sensilla chaetica, exhibited the potential involvement in olfaction and gustation, and may play a functional role in host location of female moths.

摘要

单食性茶尺蠖专一取食茶树,需要专门的化学感应系统来搜寻特定寄主。深入了解其分子基础将加速昆虫行为修饰刺激物的设计。在本研究中,我们聚焦于在蛾类腿部转录组中高丰度表达的气味结合蛋白6(EoblOBP6)。定量逆转录聚合酶链反应(qRT-PCR)结合蛋白质免疫印迹分析揭示了EoblOBP6在触角和腿部的双重表达模式。细胞免疫定位表明,EoblOBP6主要标记在单孔毛形感器的外部感器淋巴中,该感器未被感觉神经元支配。在其他感器类型中未观察到特异性染色。荧光竞争试验表明重组EoblOBP6的结合谱相对较窄。EoblOBP6不仅能与完整的茶树挥发物苯甲醛结合,还对由草食动物侵害显著诱导产生的茶树挥发物橙花叔醇和α-法尼烯具有高结合能力。此外,EoblOBP6与厌恶苦味生物碱黄连素紧密结合。综上所述,EoblOBP6在毛形感器中表现出异常表达,显示出其在嗅觉和味觉中的潜在参与,并且可能在雌蛾寄主定位中发挥功能作用。

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