Differential expression of vitellogenin in the brain of Solenopsis invicta workers based on social and nutritional context

IF 1.6 4区农林科学 Q2 ENTOMOLOGY

Physiological Entomology Pub Date : 2024-09-18 DOI:10.1111/phen.12467

Chloe Hawkings, Cecilia Tamborindeguy

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Abstract

Vitellogenin (Vg) has been recognized as a co-opted gene involved in social colonies where it is associated with reproduction in the queen and task transitions in workers. The Solenopsis invicta genome harbours four Vg genes, Vg1, Vg2, Vg3 and Vg4, and this study explored the regional expression of these genes in the brain and head of the worker caste in different subcaste and social contexts. Transcriptomic analyses of the worker brain while in the presence or absence of brood revealed differential expression of genes involved with social behaviours. Among these, we found higher expression of Vg2 and Vg3 in the brains of workers in the absence of brood. The influence of brood on expression of Vg between worker castes was also investigated. RT-qPCR revealed higher expression of Vg in the head of workers in the absence of brood. Further studies demonstrated that Vg was also differentially expressed in the heads of workers conducting specific tasks and differing between subcastes. Nurses maintained higher Vg expression than foragers. We conclude worker Vg expression may be linked to the brood and/or nutritional state. Vg expression changes when workers are deprived of protein suggesting it is regulated by nutritional signalling and the presence of brood.

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卵黄素（Vg）已被认为是一种参与社会性群体的共用基因，它与蜂后的繁殖和工蜂的任务转换有关。Solenopsis invicta基因组中含有四个Vg基因：Vg1、Vg2、Vg3和Vg4，本研究探讨了这些基因在不同亚种姓和社会环境下工蜂大脑和头部的区域表达。工蜂大脑转录组分析显示，在有无雏鸟的情况下，与社会行为有关的基因表达存在差异。其中，我们发现无雏鸡时工蜂大脑中 Vg2 和 Vg3 的表达较高。我们还研究了育雏对不同工蜂种群间 Vg 表达的影响。RT-qPCR 结果显示，在没有育雏的情况下，工蜂头部的 Vg 表达量较高。进一步的研究表明，在执行特定任务的工蚁头部，Vg的表达也存在差异，而且不同子种群之间也存在差异。护理人员的 Vg 表达量高于饲养人员。我们的结论是，工蜂Vg的表达可能与育雏和/或营养状况有关。当工蜂缺乏蛋白质时，Vg的表达会发生变化，这表明它受营养信号和雏鸟存在的调节。

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来源期刊

Physiological Entomology 生物-昆虫学

CiteScore

2.80

自引率

6.70%

发文量

审稿时长

>12 weeks

期刊介绍： Physiological Entomology broadly considers “how insects work” and how they are adapted to their environments at all levels from genes and molecules, anatomy and structure, to behaviour and interactions of whole organisms. We publish high quality experiment based papers reporting research on insects and other arthropods as well as occasional reviews. The journal thus has a focus on physiological and experimental approaches to understanding how insects function. The broad subject coverage of the Journal includes, but is not limited to: -experimental analysis of behaviour- behavioural physiology and biochemistry- neurobiology and sensory physiology- general physiology- circadian rhythms and photoperiodism- chemical ecology