绿桃蚜(半翅目:蚜科)对白菜和辣椒植物的转录和生理可塑性。

Jun Wu, Zhan-Feng Zhang, He-He Cao, Tong-Xian Liu
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摘要

寄主植物的防御性代谢物和营养限制是昆虫食草动物定殖的两大障碍。绿桃蚜(GPA)Myzus persicae(Sulzer)广泛定殖具有不同营养和防御特性的植物。然而,青桃蚜如何适应不同植物的营养和防御特性在很大程度上仍是未知数。为了弄清这个问题,我们首先研究了取食甘蓝和辣椒的 GPA 的表现和转录组。青桃蚜取食甘蓝时的体重和繁殖力均低于取食辣椒时。转录组分析发现了 824 个差异表达基因(DEGs),在《京都基因与基因组百科全书》排名前 20 位的通路中,有 13 个与营养代谢、能量代谢和解毒有关。具体来说,我们发现有 160 个 DEGs 与蛋白质和氨基酸、糖类和脂类以及异生物物质的代谢有关,其中 86 个在白菜喂养的 GPA 中上调。14个胰蛋白酶B基因在白菜喂养的GPA中强烈上调,并在溶酶体通路和2个主导基因本体术语肽酶活性和蛋白水解中富集。此外,白菜喂养的 GPA 上调了糖和脂质的消化,而下调了脂质的生物合成过程。此外,55 个代谢解毒酶基因在两种宿主的 GPA 之间有差异表达,GPA 的解毒酶活性确实随宿主的变化而变化。然后,我们发现与辣椒相比,白菜对 GPA 的氨基酸营养质量较低。我们的研究结果表明,宿主对氮营养代谢、糖和脂代谢以及代谢解毒的调整在 GPA 对不同宿主植物的适应过程中起着至关重要的作用。
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Transcriptional and physiological plasticity of the green peach aphid (Hemiptera: Aphididae) to cabbage and pepper plants.

Defensive metabolites and nutrient restriction of host plants are 2 major obstacles to the colonization of insect herbivores. The green peach aphid (GPA) Myzus persicae (Sulzer) broadly colonizes plants with diverse nutritional and defensive traits. However, how GPA adapts to nutritional and defensive traits within different plants remains largely unknown. To elucidate this, we first investigated the performances and transcriptomes of GPA feeding on cabbage Brassica oleracea and pepper Capsicum annuum. The green peach aphid had lower weight and fecundity when feeding on cabbage than on pepper. The transcriptomic analysis found 824 differentially expressed genes (DEGs), and 13 of the top 20 Kyoto Encyclopedia of Genes and Genomes pathways are related to nutrient metabolism, energy metabolism, and detoxification. Specifically, we found 160 DEGs associated with the metabolism of protein and amino acids, sugar and lipids, and xenobiotic substances, 86 upregulated in cabbage-fed GPA. Fourteen cathepsin B genes were strongly upregulated in cabbage-fed GPA, and were enriched in lysosome pathway and 2 dominated gene ontology terms peptidase activity and proteolysis. In addition, cabbage-fed GPA upregulated sugar and lipid digestion, while downregulated lipid biosynthesis processes. Furthermore, 55 metabolic detoxification enzyme genes were differentially expressed between GPA on 2 hosts, and detoxification enzyme activities of GPA indeed changed accordingly to the host. Then, we found that cabbage has lower amino acids nutrition quality for GPA compared to pepper. Our results suggested that adjustment of nitrogen nutrient metabolism, sugar and lipid metabolism, and metabolic detoxification in a host-specific manner play crucial roles in the adaptations of GPA to different host plants.

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