The Molecular Characterization and Gene Expressions of Trehalase in Bumblebee, Bombus lantschouensis (Hymenoptera: Apidae)

IF 0.7 4区农林科学 Q4 ENTOMOLOGY

Sociobiology Pub Date : 2021-11-19 DOI:10.13102/sociobiology.v68i4.5443

Jiamin Qin, Feng Liu, Jie Wu, Shaoyu He, M. Imran, Wen-Jing Lou, H. Li-Byarlay, Shudong Luo

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引用次数: 1

Abstract

Trehalose provides the main energy source for the physiological activities of insects, especially in adverse conditions. Trehalase is the only enzyme that hydrolyzes trehalose, therefore it is important to clarify the distribution and expression of trehalase under adverse conditions such as high temperatures and starvation. Here, we have cloned the trehalase genes and investigated their expression in different tissues, at multiple development stages, and with the treatments of high temperature and starvation in Bombus lantschouensis, which is considered to be one of the most commercially viable native species in China. The results suggest that the membrane-bound (BlTre-2) cDNA has an open reading frame of 1986 nucleotides, which encodes a protein of 662 amino acids, and two putative transmembrane domains. qRT-PCR analysis indicated that BlTre-2 was expressed in 10 tissues and at nine development stages, with the highest expression in general in 30-day-old workers, and in ovarian tissue in particular. The expression of BlTre-1 for 15-day-old workers which were exposed to a pre-treatment of 45°C increased over the first 5 h and subsequently decreased over time. In contrast the expression of BlTre-2 consistently decreased over time. The highest expression levels of BlTre-1 and BlTre-2 were observed the newly emerged adult workers when starved for 16-20 h. These results indicate that BlTre-2 may be part of the carbohydrate metabolism of the bumblebee, and that BlTre-1 is a key gene regulating energy metabolism and providing trehalose when exposed to a high temperature. Both BlTre-1 and BlTre-2 may balance trehalose and provide energy when B. lantschouensis is starved.

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大黄蜂海藻糖酶的分子特征及基因表达(膜翅目:蜂科)

海藻糖是昆虫生理活动的主要能量来源，尤其是在不利条件下。海藻糖是唯一水解海藻糖的酶，因此澄清海藻糖在高温和饥饿等不利条件下的分布和表达是重要的。在这里，我们克隆了海藻糖酶基因，并研究了它们在不同组织、不同发育阶段以及高温和饥饿处理下的表达。结果表明，膜结合（BlTre-2）cDNA具有1986个核苷酸的开放阅读框，编码662个氨基酸的蛋白质，以及两个假定的跨膜结构域。qRT-PCR分析表明，BlTre-2在10个组织和9个发育阶段表达，在30天大的工人中表达最高，尤其是在卵巢组织中。暴露于45°C预处理的15天大工人的BlTre-1的表达在最初的5小时内增加，随后随着时间的推移而降低。相反，BlTre-2的表达随着时间的推移而持续下降。当饥饿16-20小时时，新出现的成年工人观察到BlTre-1和BlTre-2的最高表达水平。这些结果表明，BlTre-2可能是大黄蜂碳水化合物代谢的一部分，并且BlTre-1是调节能量代谢并在暴露于高温时提供海藻糖的关键基因。BlTre-1和BlTre-2都可以平衡海藻糖，并在B.lantschouensis饥饿时提供能量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Sociobiology 生物-昆虫学

CiteScore

1.60

自引率

11.10%

发文量

审稿时长

3 months

期刊介绍： SOCIOBIOLOGY publishes high quality articles that significantly contribute to the knowledge of Entomology, with emphasis on social insects. Articles previously submitted to other journals are not accepted. SOCIOBIOLOGY publishes original research papers and invited review articles on all aspects related to the biology, evolution and systematics of social and pre-social insects (Ants, Termites, Bees and Wasps). The journal is currently expanding its scope to incorporate the publication of articles dealing with other arthropods that exhibit sociality. Articles may cover a range of subjects such as ecology, ethology, morphology, population genetics, physiology, toxicology, reproduction, sociobiology, caste differentiation as well as economic impact and pest management.