Early Temporal Dynamics of Gonadal Development and Sexually Dimorphic Gene Expression During Sex Differentiation in Mandarin Fish (Siniperca chuatsi).

IF 2.8 3区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Marine Biotechnology Pub Date : 2025-06-16 DOI:10.1007/s10126-025-10478-1

Yi Rong, Yuanyuan Wang, Jinzhi Zhao, Lei Chen, Kuangxin Chen, Binbin Tao, Yanlong Song, Jianxiong Yin, Kewei Zeng, Wen Song, Wei Hu, Ji Chen

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Abstract

The mandarin fish (Siniperca chuatsi) is a significant freshwater aquaculture species in China, exhibiting sexual dimorphism during growth. However, the cellular and molecular mechanisms underlying early gonadal development and sex differentiation remain unclear. This study traces early gonadal development by examining changes in gonadal histology, germ cell morphologic and distributional changes, and the expression of key signaling molecules. H&E staining and immunofluorescence analysis revealed that oogonia and spermatogonia first appeared at 27 and 33 days post-fertilization (dpf), respectively, marking the onset of sex differentiation. By 51 and 57 dpf, oocytes and spermatocytes became more abundant, indicating the completion of sex differentiation. We examined the expression of female-biased (cyp19a, dmrt2 and foxl2a), male-biased (amh, dmrt1, gsdf and sox9), and meiotic genes (dmc1 and sycp3). In male gonads, the expression of amh was detected at 21-42 dpf, and it showed significantly higher expression after 42 dpf compared to females. Meanwhile, the expression of dmrt1 was significantly higher in male gonads than in female gonads at 30 to 33 dpf. The dmrt3 gene had high expression levels in both male and female gonads before 45 dpf, with a further increase observed after 51 dpf. The gsdf gene exhibited higher expression levels in male gonads between 27 and 42 dpf than at other time points. Additionally, Sox9 expression was significantly higher levels observed in males than in females at 33 dpf. In female gonads, cyp19a was consistently expressed from 21 to 42 dpf and was significantly higher than that in males after 42 dpf, dmrt2 expression was higher than that in males at 36-42 dpf, foxl2a expression was higher at 24-30 dpf and significantly higher than that in males at 36-45 dpf. At 27 dpf, the meiosis-related genes dmc1 and sycp3 were detected, with expression patterns aligning with germ cell development and sex differentiation. In conclusion, by characterizing germ cell morphology and analysing expression changes in sex-related genes, we confirmed that sex determination in mandarin fish occurs before 27 dpf. In females, sex differentiation progresses from 27 to 51 dpf, whereas in males, it occurs from 33 to 57 dpf.

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鳜鱼性腺发育的早期时间动态和性别分化过程中两性二态基因的表达。

鳜鱼（sininiperca chuatsi）是中国重要的淡水养殖物种，在生长过程中表现出性别二态性。然而，早期性腺发育和性别分化的细胞和分子机制尚不清楚。本研究通过检测生殖腺组织学、生殖细胞形态和分布的变化以及关键信号分子的表达来追踪早期性腺的发育。H&E染色和免疫荧光分析显示，卵原细胞和精原细胞分别在受精后27天和33天首次出现，标志着性别分化的开始。在51和57 dpf时，卵母细胞和精母细胞变得更加丰富，表明性别分化完成。我们检测了雌性偏倚基因（cyp19a、dmrt2和fox2a）、雄性偏倚基因（amh、dmrt1、gsdf和sox9）和减数分裂基因（dmc1和sycp3）的表达。在雄性性腺中，在21-42 dpf时检测到amh的表达，42 dpf后amh的表达明显高于雌性。同时，在30 ~ 33 dpf时，dmrt1在雄性性腺中的表达明显高于雌性性腺。dmrt3基因在45 dpf之前在男性和女性性腺中都有高表达水平，在51 dpf之后进一步增加。gsdf基因在27 ~ 42 dpf之间的男性性腺中的表达水平高于其他时间点。此外，在33 dpf时，Sox9在雄性中的表达水平明显高于雌性。在雌性性腺中，cyp19a在21 -42 dpf期间持续表达，且在42 dpf后显著高于雄性，dmrt2在36-42 dpf期间表达高于雄性，foxl2a在24-30 dpf期间表达高于雄性，在36-45 dpf期间表达显著高于雄性。在27 dpf时，检测到减数分裂相关基因dmc1和sycp3，其表达模式与生殖细胞发育和性别分化一致。总之，通过对生殖细胞形态特征和性别相关基因表达变化的分析，我们证实鳜鱼性别决定发生在27 dpf之前。在女性中，性别分化发生在27到51 dpf之间，而在男性中，发生在33到57 dpf之间。

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

Marine Biotechnology 工程技术-海洋与淡水生物学

CiteScore

4.80

自引率

3.30%

发文量

审稿时长

2 months

期刊介绍： Marine Biotechnology welcomes high-quality research papers presenting novel data on the biotechnology of aquatic organisms. The journal publishes high quality papers in the areas of molecular biology, genomics, proteomics, cell biology, and biochemistry, and particularly encourages submissions of papers related to genome biology such as linkage mapping, large-scale gene discoveries, QTL analysis, physical mapping, and comparative and functional genome analysis. Papers on technological development and marine natural products should demonstrate innovation and novel applications.