![]()
个人信息
- 所在单位:动物科技学院(含无锡渔业学院)
- 学历:博士研究生毕业
- 学位:理学博士学位
- 教师英文名称: wangyue
- Zhang Kun-Huan,Jiao Le,Wang Yue,Sun Shao-Chen.Arf6 GTPase deficiency leads to porcine oocyte quality decline during aging,FASEB JOURNAL,2024,38(13)(参与作者)
- Xing Chunhua,Chen Shun,Wang Yue,Pan Zhennan,Zou Yuanjing,Sun Shaochen,Ren Zili,Zhang Yu.Glyphosate exposure deteriorates oocyte meiotic maturation via induction of organelle dysfunctions in pigs,JOURNAL OF ANIMAL SCIENCE AND BIOTECHNOLOGY,2022,13(1)(参与作者)
- Ji Yi-Ming,Zhang Kun-Huan,Pan Zhen-Nan,Ju Jia-Qian,Zhang Hao-Lin,Liu Jing-Cai,Wang Yue,Sun Shao-Chen.High-dose zearalenone exposure disturbs G2/M transition during mouse oocyte maturation,REPRODUCTIVE TOXICOLOGY,2022,110:172-179(参与作者)
- Pan Zhen-Nan,Liu Jing-Cai,Ju Jia-Qian,Wang Yue,Sun Shao-Chen.LRRK2 regulates actin assembly for spindle migration and mitochondrial function in mouse oocyte meiosis,JOURNAL OF MOLECULAR CELL BIOLOGY,2022,14(1)(参与作者)
- Lu Ping-Shuang,Wang Yue,Jiao Le,Sun Shao-Chen.Nivalenol affects Cyclin B1 level and activates SAC for cell cycle progression in mouse oocyte meiosis,CELL PROLIFERATION,2022,55(9)(参与作者)
- Wang Yue,Pan Zhen-Nan,Xing Chun-Hua,Zhang Hao-Lin,Sun Shao-Chen.Nivalenol affects spindle formation and organelle functions during mouse oocyte maturation,TOXICOLOGY AND APPLIED PHARMACOLOGY,2022,436(第一作者)
- Wang Yue,Xing Chun-Hua,Chen Shun,Sun Shao-Chen.Zearalenone exposure impairs organelle function during porcine oocyte meiotic maturation,THERIOGENOLOGY,2022,177:22-28(第一作者)
- 汪玥,Schatten Heide,Cui Xiang Shun,孙少琛.Editorial: Quality Control of Mammalian Oocyte Meiotic Maturation: Causes, Molecular Mechanisms and Solutions,FRONTIERS IN CELL AND DEVELOPMENTAL BIOLOGY,2021,9:-(第一作者)
- 邢春华,汪玥,刘京才,潘振楠,张浩琳,孙少琛,张羽.Melatonin reverses mitochondria dysfunction and oxidative stress-induced apoptosis of Sudan I-exposed mouse oocytes,ECOTOXICOLOGY AND ENVIRONMENTAL SAFETY,2021,225:-(参与作者)
- Wang Yue,Xing Chun-Hua,Zhang Hao-Lin,Pan Zhen-Nan,Sun Shao-Chen.Exposure to nivalenol declines mouse oocyte quality via inducing oxidative stress-related apoptosis and DNA damage,BIOLOGY OF REPRODUCTION,2021,105(6):1474-1483(第一作者)
