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姓名:赵明月 性别:女 出生年月:1994.07 学历:博士研究生毕业 学位:博士 |
专业技术职务: 学术头衔: 所属院系:茶学系 |
个人简介 | ||
赵明月,女,汉族,1994年7月生,中共党员,2022年6月获安徽农业大学农学博士学位,2022年7月-2025年7月于安徽农业大学茶树种质创新与资源利用全国重点实验室开展博士后工作。围绕茶树香气代谢调控及抗寒机制开展系统性研究,首次揭示香气糖苷化通过动态调节次生代谢流增强茶树低温适应性的分子机制,阐明挥发性香气物质介导茶树个体间低温信号传导的新模式,为植物代谢-抗逆协同调控理论提供重要补充。相关成果在Plant Biotechnology Journal, New Phytologist, Plant Journal, Journal of Integrative Plant Biology, Advances Science, Plant Cell等植物学权威期刊发表论文23篇(第一/共同第一作者7篇),总引900余次,其中2篇入选ESI全球前1%高被引论文。 主持国家自然基金青年项目(2023,32302606)、安徽省自然基金青年项目(2023,305172998015)、中国博士后科学基金第17批特别资助(2024, 2024T170005)、中国博士后科学基金第72批面上项目(2022,2022M720193)、安徽省高校自然科学研究项目(2021, YJS20210209)。入选2023年安徽省青年拔尖人才计划;以主要完成人审请并授权发明专利4项,获中国茶叶学会科技创新一等奖;受邀在第七届国际园艺研究大会、第二届全国茶树生物学大会等学术会议作报告。 | ||
教育工作经历 | ||
· 2013.09—2017.06 武夷学院,农学学士 · 2017.09—2022.06 安徽农业大学,农学博士 · 2022.07—2025.06 安徽农业大学,生物学博士后 · 2025.08—至今湖南农业大学园艺学院茶学系专任教师 | ||
导师类别和招生专业 |
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研究方向 | ||
· 茶树次生代谢与分子育种 | ||
主讲课程 | ||
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代表成果 | ||
1. Zhao, Mingyue.#;Wang, Jingming.#; Hao, Xinyuan.#; Jin, Jieyang.#; Tang, Junwei.; Wang, Yueyue.; Zhang, Mengting.; Jing, Tingting.; Schwab, Wilfried.; Gao, Ting.*; Wang, Xinchao.*; Song, Chuankui.*Natural variation ofCsUGT71A60determines growth and cold tolerance via regulating cytokinin glycosylation inCamellia sinensis.Plant Biotechnology Journal, 2025-05-08. 23 (7) , 2809-2823 2. Zhao, Mingyue.;Zhang, Na.; Gao, Ting.; Jin, Jieyang.; Jing, Tinging.; Wang, Jingming.; Wu, Yi.; Wan, Xiaochun.; Schwab, Wilfried.; Song, Chuankui.*Sesquiterpene glucosylation mediated by glucosyltransferaseUGT91Q2is involved in the modulation of cold stress tolerance in tea plants.New Phytologist, 2020-01-09,226(2): 362-372. 3. Zhao, Mingyue.;Jin, Jieyang.; Wang, Jingming.; Gao, Ting.; Luo, Yu.; Jing, Tingting.; Hu, Yutong.; Pan, Yuting.; Lu, Mengqian.; Schwab, Wilfried.; Song, Chuankui.*Eugenol functions as a signal mediating cold and drought tolerance viaUGT71A59-mediated glucosylation in tea plants.Plant Journal, 2022-02-10,109(6): 1489-1506. 4. Zhao, Mingyue.#;Wang, Lu.#; Wang, Jingming.; Jin, Jieyang.; Zhang, Na.; Lei, Lei.; Gao, Ting.; Jing, Tingting.; Zhang, Shangrui.; Wu, Yi.; Wu, Bin.; Hu, Yunqing.; Wan, Xiaochun.; Schwab, Wilfried.; Song, Chuankui.*Induction of priming by cold stress via inducible volatile cues in neighboring tea plants.Journal of Integrative Plant Biology, 2020-05-15.62(10): 1461-1468. 5. Zhao, Mingyue.;Cai, Binbin.; Jin, Jieyang.; Zhang, Na.; Jing, Ting.; Wang, Jingming.; Pan, Yuting.; Zhou, Zixiang.; Zhao, Yifan.; Feng, Yingying.; Yu, Feng.; Zhang, Mengting.; Li, Yating.; Liu, Zhonghua.*;Song, Chuankui*.Cold stress induced glucosyltransferaseCsUGT78A15involved in the formation of eugenol glucoside inCamellia sinensis.Horticultural Plant Journal, 2021-01-12,6(6): 439-449. 6. Jin, J.;Zhao, M.; Yu, K.; Zhang, M.; Wang, J.; Hu, Y.; Guo, D.; Wang, K.; Wang, Q.; Cui, J.; Liu, Y.; Jing, T.; Schwab, W.; Song, C.Squalene acts as a feedback signaling molecule in facilitating bidirectional communication between tea plants.Science Advances, 2025-02-21.11(3): eabc1234. 7. Zhao, M.; Jin, J.; Gao, T.; Zhang, N.; Jing, T.; Wang, J.; Ban, Q.; Schwab, W.; Song, C.*Glucosyltransferase CsUGT78A14 Regulates Flavonols Accumulation and Reactive Oxygen Species Scavenging in Response to Cold Stress inCamellia sinensis.Frontiers in Plant Science, 2019,10: 1661-1675. 8. Wang, J.#;Zhao, M.#;Gao, T.; Feng, Y.; Wang, F.; Pan, Y.*Promoter and coding sequence diversity ofCsCCD1may contribute to the differential accumulation of floral β-ionone in fresh tea leaves.Horticultural Plant Journal, 2023-08-27,9(4): 837-847. 9. Jin, J.;Zhao, M.; Jing, T.; Wang, J.; Lu, M.; Pan, Y.(Z)-3-Hexenol integrates drought and cold stress signaling by activating abscisic acid glucosylation in tea plants.Plant Physiology, 2023-07-28,193(3): 1491-1507. 10. Jin, J.;Zhao, M.; Gao, T.; Jing, T.; Zhang, N.; Wang, J.; Zhang, X.; Huang, J.; Schwab, W.; Song, C.Amplification of early drought responses caused by volatile cues emitted from neighboring tea plants.Horticulture Research, 2021-12-18,8: 243. 11. Jin, J.;Zhao, M.; Jing, T.; Zhang, M.; Lu, M.; Yu, G.; Wang, J.; Guo, D.; Pan, Y.; Hoffmann, T.; Schwab, W.; Song, C.Volatile compound-mediated plant-plant interactions under stress with the tea plant as a model.Horticulture Research, 2024-03-22,10: uhad143. 12. Lu, M.; Zhao, Y.; Feng, Y.; Tang, X.; Zhao, W.; Yu, K.; Pan, Y.; Wang, Q.; Cui, J.; Zhang, M.; Jin, J.; Wang, J.;Zhao, M.; Schwab, W.; Song, C.2,4-Dihydroxybenzoic acid, a novel SA derivative, controls plant immunity viaUGT95B17-mediated glucosylation: A case study inCamellia sinensis.Advanced Science, 2023-12-17.11(5): e2307051. 13. Wang, J.; Hu, Y.; Guo, D.; Gao, T.; Liu, T.; Jin, J.;Zhao, M.; Yu, K.; Tong, W.; Ge, H.; Pan, Y.; Zhang, M.; Lu, M.; Jing, T.; Du, W.; Tang, X.; Zhao, C.; Zhao, W.; Bao, Z.; Schwab, W.; Xia, E.; Song, C.Evolution and functional divergence of glycosyltransferase genes shaped the quality and cold tolerance of tea plants.Plant Cell, 2024-10-29.37 (1): koae268. 专利: 1. 宋传奎;赵明月;张娜;王婧铭;多肽、核酸及其在合成橙花叔醇糖苷上的应用, 2020-12-29,中国, CN201911253751.3 2. 宋传奎;赵明月;王婧铭;荆婷婷;张娜;靳洁阳;巫毅;张尚蕊;蔡彬彬;吴彬;胡芸青;余凤;周子翔;冯莹莹;张孟婷;赵一凡;茶树糖基转移酶基因UGT91Q2在提高植物抗寒性上的应用, 2020-11-27,中国, CN201911252617.1 3. 宋传奎;王婧铭;赵明月.茶树类胡萝卜素裂解双加氧酶CsCCD4及其在催化合成β-紫罗酮上的应用,2021-01-12,中国,CN202010048765.8. 4. 宋传奎;许淼晶;荆婷婷;张娜;靳洁阳;赵明月;一种茶树蔗糖合酶CsSUS587、制备方法及应用,2022=07-19,中国,CN201910314683.0. 通讯地址 | ||
· 地址:湖南省长沙市芙蓉区湖南农业大学岳麓山实验室5号楼311 · 邮箱:mingyuezhao721@163.com |