Śmietana Przemysław, Śmietana Natalia, Eljasik Piotr, Lisiecki Sławomir, Sobczak Małgorzata, Panicz Remigiusz
Department of Environmental Ecology, Institute of Marine and Environmental Sciences, University of Szczecin, Szczecin, Poland.
Faculty of Food Sciences and Fisheries, West Pomeranian University of Technology Szczecin, Szczecin, Poland.
Front Physiol. 2025 Apr 2;16:1567862. doi: 10.3389/fphys.2025.1567862. eCollection 2025.
Sex-specific behaviours of freshwater crayfish are key elements in sustaining species persistence and successful conquering of new habitats in freshwater ecosystems. However, to date, information on molecular mechanisms that underpin the anatomy and physiology of crayfish sexes in successful mating behaviour was scarcely presented. In this study, females and males were sampled in spring and autumn to assess the impact of sexes and seasons on body parameters and activity of (), (), (), (), and () genes related to the functioning of muscles in chelae. Comparison of body parameters showed significant differences in the weight and size of individuals in two seasons, underlining that large chelae are essential for males in mating behaviours and male-male competitive interactions. The gene expression analysis showed that activities of the five genes in the chelae muscle of were influenced by the season- and sex-specific drivers. Multivariate analyses specifically identified the key genes (e.g., in males from spring) that were directly involved in metabolisms of chelae muscles of males and females collected in spring and autumn. The study, for the first time, described the direct impact of two key seasons and sexes on the anatomical features and molecular mechanisms that shaped the behaviour of .
淡水小龙虾的性别特异性行为是维持物种存续以及成功占领淡水生态系统新栖息地的关键因素。然而,迄今为止,关于小龙虾在成功交配行为中性别解剖学和生理学基础的分子机制的信息却鲜有报道。在本研究中,于春季和秋季采集雌雄小龙虾样本,以评估性别和季节对与螯肌功能相关的()、()、()、()和()基因的身体参数及活性的影响。身体参数比较显示,两个季节的个体体重和大小存在显著差异,这突出表明大螯对雄性在交配行为和雄雄竞争互动中至关重要。基因表达分析表明,这五个基因在螯肌中的活性受季节和性别特异性驱动因素的影响。多变量分析具体确定了关键基因(如春季雄性中的),这些基因直接参与了春季和秋季采集的雌雄小龙虾螯肌的代谢。该研究首次描述了两个关键季节和性别对塑造小龙虾行为的解剖特征和分子机制的直接影响。