Temporal and Spatial Expression of Parasitism-Related Olfactory Genes in Larvae of the Ectoparasitoid Dastarcus helophoroides (Coleoptera: Bothrideridae)

IF 0.7 4区 农林科学 Q4 ENTOMOLOGY Journal of Entomological Science Pub Date : 2023-06-26 DOI:10.18474/JES22-64
Huayang Yin, Xiaojuan Li, Guang-ping Dong, Wan-lin Guo, Jianmin Fang, Hongjian Liu
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Abstract

Abstract Dastarcus helophoroides (Fairmaire) (Coleoptera: Bothrideridae) is an ectoparasitoid of the pine sawyer beetle, Monochamus alternatus Hope (Coleoptera: Cerambycidae). A sensitive and precise olfactory system is required for the accurate location of the coleopteran host by D. helophoroides neonates. Herein, we characterized the relative expression patterns of six representative olfactory-related genes at different stages of M. alternatus parasitism and in different body regions of D. helophoroides neonates. The genes encoding chemosensory protein 2 (DhelCSP2), odorant receptor 2 (DhelOR2), and ionotropic receptor 2 (DhelIR2) were significantly upregulated before parasitization was initiated, whereas the genes encoding odorant binding protein 8 (DhelOBP8), gustatory receptor 5 (DhelGR5), and sensory neuron membrane protein 1 (DhelSNMP1) were significantly upregulated 4–5 d after initiation of parasitism. In D. helophoroides neonates, four genes (DhelOBP8, DhelCSP2, DhelOR2, and DhelIR2) were significantly upregulated in the head compared with the thoracoabdominal region, and one gene (DhelGR5) was significantly upregulated in the thoracoabdominal area compared with the head. Double-stranded RNAs (dsRNAs) targeting the six olfactory-related genes were synthesized and delivered to D. helophoroides neonates via immersion. After dsRNA treatment, the transcript levels of four olfactory-related genes (DhelOBP8, DhelCSP2, DhelOR2, and DhelSNMP1) were significantly reduced compared with that of the controls. These results provide a basis for further functional explorations of D. helophoroides olfactory genes, which may lead to the development of improved biological pest control methods using D. helophoroides larvae.
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寄主嗅觉基因在寄主幼虫中的时空表达(鞘翅目:双翅蛾科)
摘要黑柄大蠊(Dastarcus helphoroides,Fairmaire)(鞘翅目:小蠊科)是松天牛Monochamus alternatus Hope(鞘翅目的:小蠊科)的外寄生蜂。需要一个灵敏而精确的嗅觉系统来准确定位鞘翅目宿主。在此,我们表征了六个具有代表性的嗅觉相关基因在交流分枝杆菌寄生的不同阶段和黑叶藻新生儿不同身体区域的相对表达模式。编码化学感受蛋白2(DhelCSP2)、气味受体2(Dhel OR2)和离子型受体2(DhelIR2)的基因在寄生开始前显著上调,而编码气味结合蛋白8(DhelOBP8)、味觉受体5(DhelGR5),和感觉神经元膜蛋白1(DhelSNMP1)在寄生开始后4-5天显著上调。在D.helphoroides新生儿中,与胸腹区相比,四个基因(DhelOBP8、DhelCSP2、DhelOR2和DhelIR2)在头部显著上调,一个基因(DhelGR5)在胸腹区与头部相比显著上调。合成了靶向6个嗅觉相关基因的双链RNA(dsRNA),并通过浸泡将其递送给黑叶藻D.helphoroides新生儿。dsRNA处理后,与对照组相比,四个嗅觉相关基因(DhelOBP8、DhelCSP2、DhelOR2和DhelSNMP1)的转录水平显著降低。这些结果为进一步探索三叶草嗅觉基因的功能提供了基础,这可能会导致利用三叶草幼虫开发改进的生物害虫防治方法。
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来源期刊
CiteScore
1.20
自引率
11.10%
发文量
40
审稿时长
>12 weeks
期刊介绍: The Journal of Entomological Science (ISSN 0749-8004) is a peer-reviewed, scholarly journal that is published quarterly (January, April, July, and October) under the auspices of the Georgia Entomological Society in concert with Allen Press (Lawrence, Kansas). Manuscripts deemed acceptable for publication in the Journal report original research with insects and related arthropods or literature reviews offering foundations to innovative directions in entomological research
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