Dynamics of seminal fluid production after mating

IF 2.7 3区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Reproduction and Development Pub Date : 2024-01-25 DOI:10.1002/mrd.23732

Yvonne Kortsmit, Janine Mariën, Joris M. Koene, Yumi Nakadera

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Abstract

Seminal fluid proteins (SFPs) play vital roles for optimizing reproductive success in diverse animals. Underlining their significance, SFP production and transfer are highly plastic, e.g., depending on the presence of rivals or mating status of partners. However, surprisingly little is known about replenishing SFPs after mating. This is especially relevant in species that mate multiple times, as they continuously produce and use SFPs throughout their reproductive life. Here we examined the expression pattern of SFP genes after mating in the great pond snail, Lymnaea stagnalis. Our results show that two out of the six SFP genes investigated here were upregulated 1 week after mating. Surprisingly, most SFP genes did not change their expression immediately after mating. Even after 1 week, when supposedly seminal fluid is fully replenished, the expression of SFP genes is rather high. In addition, the difference with previous studies hints at the possibility that SFP production after mating is plastic and depends on the mating history of female-acting snails. Our results shed light on unexplored aspects of SFP production, thereby expanding the understanding of reproductive strategies in animals.

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交配后精液产生的动态变化

精液蛋白（SFP）对优化各种动物的繁殖成功率起着至关重要的作用。精液蛋白的产生和转移具有很强的可塑性，例如，取决于对手的存在或伴侣的交配状况，这一点凸显了其重要性。然而，令人惊讶的是，人们对交配后 SFP 的补充知之甚少。这对于多次交配的物种来说尤其重要，因为它们在整个生殖生活中会不断产生和使用 SFPs。在这里，我们研究了大塘螺交配后 SFP 基因的表达模式。我们的研究结果表明，在交配后一周，所研究的六个 SFP 基因中有两个基因的表达上调。令人惊讶的是，大多数 SFP 基因在交配后并没有立即改变其表达。即使在交配 1 周后，当精液得到充分补充时，SFP 基因的表达量也相当高。此外，与以往研究的不同之处还表明，交配后 SFP 的产生具有可塑性，取决于雌性蜗牛的交配史。我们的研究结果揭示了SFP产生的一些尚未探索的方面，从而拓展了对动物繁殖策略的认识。

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

Molecular Reproduction and Development 生物-发育生物学

CiteScore

5.20

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Molecular Reproduction and Development takes an integrated, systems-biology approach to understand the dynamic continuum of cellular, reproductive, and developmental processes. This journal fosters dialogue among diverse disciplines through primary research communications and educational forums, with the philosophy that fundamental findings within the life sciences result from a convergence of disciplines. Increasingly, readers of the Journal need to be informed of diverse, yet integrated, topics impinging on their areas of interest. This requires an expansion in thinking towards non-traditional, interdisciplinary experimental design and data analysis.