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湖羊性早熟与精子发生的HPT轴磷酸化调控机制

石书骏安雪姣朱丽娜李乔张瑞陈政翰冯玉兰岳耀敬

中国草食动物科学2026，Vol.46Issue(3)：1-15,15.

中国草食动物科学2026，Vol.46Issue(3)：1-15,15.DOI:10.3969/j.issn.2095-3887.2026.03.005

湖羊性早熟与精子发生的HPT轴磷酸化调控机制

Phosphorylation Regulatory Mechanisms of the HPT Axis Governing Early Sexual Maturity and Spermatogenesis in Hu Sheep

石书骏 ¹安雪姣 ²朱丽娜 ²李乔 ²张瑞 ²陈政翰 ²冯玉兰 ³岳耀敬²

作者信息

1. 西北民族大学生物医学研究中心,生物工程与技术国家民委重点实验室,兰州 730030||西北民族大学生命科学与工程学院,兰州 730100||中国农业科学院兰州畜牧与兽药研究所,兰州 730050
2. 中国农业科学院兰州畜牧与兽药研究所,兰州 730050
3. 西北民族大学生物医学研究中心,生物工程与技术国家民委重点实验室,兰州 730030||西北民族大学生命科学与工程学院,兰州 730100
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摘要

Abstract

Hu sheep is a world-renowned multiparous breed characterized by exceptional germplasm traits,including precocious puberty,and high fecundity.However,the post-translational regulatory mechanisms orchestrating the highly efficient operation of their Hypothalamus-Pituitary-Testis(HPT)axis remain elusive.In this study,using Hu sheep and three introduced mutton sheep breeds(Southdown,Poll Dorset,and Suffolk)as research objects,we inte-grated histological analysis with 4D-DIA deep phosphoproteomics to systematically dissect the kinase signaling net-works driving male high fecundity.Histological observations revealed that the seminiferous tubule diameter in 6-month-old ram Hu sheep was significantly larger than that in the other mutton sheep breeds(P<0.001),exhibiting a more advanced maturation of the germinal epithelium.42 433 high-confidence phosphorylation sites were identified,and a comprehensive phosphoproteomic atlas of the ovine HPT axis was constructed.Meanwhile,this study uncovered that the Hu sheep HPT axis achieves systemic optimization of reproductive functions via tissue-specific phosphopro-teomic remodeling:the hypothalamus features high-intensity activation of MAPK cascades and phosphorylation of syn-aptic plasticity-related proteins,suggesting a mechanism to rapidly trigger precocious puberty by lowering the neuro-nal excitation threshold;the pituitary specifically activates a UBQLN2-centered ubiquitination quality control system and a cAMP-PKA-AMPK metabolic coupling network to adapt to the high-throughput load of hormone synthesis and secretion;the testis displays a distinct"nuclear-localized"regulatory signature,enhancing DNA repair capacity via con-formational activation of RAD23A,establishing strict cell cycle checkpoints through differential phosphorylation of CDK1/CDK2,and synergizing with Src family kinases to remodel blood-testis barrier homeostasis,thereby driving ef-ficient spermatogenesis while safeguarding genomic stability.This study elucidates the molecular regulatory mecha-nisms of the Hu sheep HPT axis from the dimension of phosphorylation,offering novel theoretical insights into high-fecundity traits in ruminants and providing potential precise targets for ovine molecular breeding.

关键词

湖羊/HPT 轴/精子发生/磷酸化蛋白质组学/4D-DIA/激酶网络

Key words

Hu sheep/HPT axis/spermatogenesis/phosphoproteomics/4D-DIA/kinase network

分类

农业科技

引用本文复制引用

石书骏,安雪姣,朱丽娜,李乔,张瑞,陈政翰,冯玉兰,岳耀敬..湖羊性早熟与精子发生的HPT轴磷酸化调控机制[J].中国草食动物科学,2026,46(3):1-15,15.

基金项目

中国农业科学院重大科技任务(CAAS-ZDRW202502) （CAAS-ZDRW202502）

中国农业科学院基本科研业务费(Y2024YJ08) （Y2024YJ08）

甘肃省农业农村厅种业攻关项目(GYGG-2024-6) （GYGG-2024-6）

中国草食动物科学

ISSN：2095-3887

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