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叶萌,博士,博士生导师,研究员,浙江省杰出青年科学基金获得者,中国农业科学院杰出青年英才、优秀青年英才;中国茶叶学会国际交流工作委员会副秘书长,中国园艺学会女科学家分会理事。
多年来从事茶树抗虫性状遗传解析与应用研究,当前主要研究领域为 (1)茶树抗虫性状机制解析与分子育种;(2)茶树-害虫-环境因子多元互作机制与生态调控;(3)次生代谢与茶树抗虫过程调控机理。以第一或通讯作者在Nature Plants、Science Advances、Plant Cell、Plant Biotechnology Journal等国际权威期刊发表论文30余篇。主持国家自然科学基金面上、青年基金、浙江省自然科学基金等多个科研项目。以第一完成人获得国家授权发明专利5件。担任Horticulture Research、Modern Agriculture、Beverage Plant Research、《园艺学报》、《茶叶学报》等期刊青年编委。获第五届中国茶叶学会女科技创新奖。
教育与工作经历:
2022- 中国农业科学院茶叶研究所,茶树资源与改良研究中心,茶树遗传育种创新团队,研究员
2019-2021 中国农业科学院茶叶研究所,茶树资源与改良研究中心,茶树遗传育种创新团队,专职研究员
2016-2018 瑞士伯尔尼大学 植物科学研究所,生物互作研究组,博士后
2011-2016 浙江大学 农业与生物技术学院,农学博士
本团队长期招聘优秀博士后,年薪30w+,待遇从优。请联系yemeng@caas.cn
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支持扩展名:.rar .zip .doc .docx .pdf .jpg .png .jpeg科研项目:
8. 中国农业科学院杰出青年英才项目,主持,420万元,2026-2030
7. 浙江省杰出青年科学基金(LR25C160002),主持,80万元,2025-2027
6. 国家自然科学基金面上项目(32372775),主持,50万元,2024-2027
5. 国家重点研发计划乡村产业共性关键技术研发与集成应用专项(2022YFD1602001),骨干参与,150万元,2022-2025
4. 中国农业科学院青年英才计划引进工程项目,主持,230万元,2021-2025
3. 浙江省农业新品种选育重大科技专项(2021C02067),参与,300万元,2021-2025
2. 国家自然科学基金青年科学基金项目(31901898),主持,24万元,2020-2022
1. 中国农业科学院茶叶研究所青年英才计划项目(1610212019001),主持,100万元,2019-2021
第一和通讯作者论文: (#共一,*通讯)
13. Hu L.*,Zhang K., Xu Y., Zheng X., Waterman J. M., Ouyang X., Wu Z., Shen Z., He Y., MaB., Robert C. A. M., Raaijmakers J. M., Ye M.*, Erb M.*,Xu J.* (2025) Herbivory-induced greenleaf volatiles increase plant performance through jasmonate-dependent plant-soil feedbacks. Nature Plants, 11(5): 1001-1017. 原文链接
12. Liu Y., Song Y., Luo Z., Wang L., Jin J., Jing T., Zhao M., Wang Q., Schwab W., Ye M.*, Song C.* (2025) Cold stress‐induced (Z)‐3‐hexenol and thymol enhance cold tolerance of tea plants by activating Ca2+ signaling. Plant Biotechnology Journal, 23(12): 5833-5848. 原文链接
11. Jiang Q., Ding C., Feng L., Wu Z., Liu Y., He L., Liu C., Wang L., Zeng J., Huang J.*, Ye M.* (2025) Two leucine-rich repeat receptor-like kinases initiate herbivory defense responses in tea plants. Horticulture Research, 12(1): uhae281. 原文链接
10. Liu Y., Yi M., He M., Zeng J., Wang X., Ye M.*, Ding C.* (2025) Pruning outweighs fertilization in shaping spring tea quality and yield through affecting soil microbiota during agronomic management. Industrial Crops and Products, 235: 121809. 原文链接
9. Ye M.*, Liu C., Li N., Yuan C., Liu M., Xin Z., Lei S., Sun X.* (2023) A constitutive serine protease inhibitor suppresses herbivore performance in tea (Camellia sinensis). Horticulture Research, 10(10): uhad178. 原文链接
8. Fu Q., Cao H., Wang L., Lei L., Di T., Ye Y, Ding C., Li N., Hao X., Zeng J., Yang Y., Wang X., Ye M.*, Huang J.* (2023) Transcriptome analysis reveals that ascorbic acid treatment enhances the cold tolerance of tea plants through cell wall remodeling. International Journal of Molecular Sciences 24(12): 10059. 原文链接
7. Ye M.*, Liu M., Erb M., Glauser G., Zhang J., Li X., Sun X.* (2021) Indole primes defense signaling and increases herbivore resistance in tea plants. Plant Cell & Environment 44(4): 1165-1177. 原文链接
6. Ye M.#, Kuai P.#, Hu L.#, Ye M., Sun H., Erb M., Lou Y.* (2020) Suppression of a leucine-rich repeat receptor-like kinase enhances host plant resistance to a specialist herbivore. Plant Cell & Environment 43(10): 2571-2585. 原文链接
5. Ye M., Glauser G., Lou Y., Erb M.*, Hu L.* (2019) Molecular dissection of early defense signaling underlying volatile-mediated defense regulation and herbivore resistance in rice. The Plant Cell 31(3): 687-698. 原文链接
4. Ye M.#, Veyrat N.#, Xu H., Hu L., Turlings T. C. J., Erb M.* (2018) An herbivore-induced plant volatile reduces parasitoid attraction by changing the smell of caterpillars. Science Advances 4(5): aar4767. 原文链接
3. Hu L.#, Ye M.#, Kuai P., Ye M., Erb M., Lou Y.* (2018) OsLRR-RLK1, an early responsive leucine-rich repeat receptor-like kinase, initiates rice defense responses against a chewing herbivore. New Phytologist 219(3): 1097-1111. 原文链接
2. Hu L.#, Ye M.#, Li R. and Lou Y.* (2016) OsWRKY53, a versatile switch in regulating herbivore-induced defense responses in rice. Plant Signaling & Behavior 11(4): e1169357. 原文链接
1. Hu L.#, Ye M.#, Li R., Zhang T., Zhou G., Wang Q., Lu J., Lou Y.* (2015) The rice transcription factor WRKY53 suppresses herbivore-induced defenses by acting as a negative feedback modulator of mitogen-activated protein kinase activity. Plant Physiology 169(4): 2907-921. 原文链接
2.冯玲佳, 刘毓婕, 何林彤, 王新超, 叶萌*. 芳樟醇合成调控机制及其生态功能研究, 园艺学报, 2025, 52(8): 2270-2290. 原文链接
1. 刘苗苗, 臧连生, 孙晓玲, 周忠实*, 叶萌*. 茶树WRKY转录因子CsWRKY17的克隆与表达分析. 茶叶科学, 2021, 41(5): 631-642. 原文链接
其他论文:
12. Dong X., Ding C.,Zhang X., Lei L., Chen Y., Fu Q., Yang Y., Hao Y., Ye M., Zeng J., WangX., Qian W., Huang J. (2025). Analysis of the two-component system gene family and the positive role of CsRR5in cold stress response in tea plants. Plant Physiology and Biochemistry,109739.
11. Kuai P., Lin N., Ye M., Ye M., Chen L., Chen S., Zu H., Hu L., Gatehouse A. M. R., Lou Y. (2024). Identification and knockout of a herbivore susceptibility gene enhances planthopper resistance and increases rice yield. Nature Food 5(10): 846-859.
10. Ye L., Xue H., Li N., Ye M., Huang J., Wang X., Wu J., Ding C. (2024). Genome-wide identification and expression analysis of Pseudo-response regulators (PRRs) in the tea plant Camellia sinensis (L.) O. Kuntze. Horticulturae 10(12): 1294.
9. 李娜娜, 王璐, 郝心愿, 丁长庆, 黄建燕, 叶萌, 曾建明, 杨亚军, 王新超. 2023年茶树遗传育种研究进展. 中国茶叶, 2024, 46(3): 1-11.
8. Lin S., Ye M., Li X., Xing Y., Liu M., Zhang J., Sun X. (2022). A novel inhibitor of the JA signaling pathway represses herbivore resistance in tea plants. Horticulture Research 9: uhab038.
7. van Doan, C., Züst, T., Maurer, C., Zhang, X., Machado, R., Mateo, P., Ye, M., Schimmel, B., Glauser, G., & Robert, C. (2021). Herbivore-induced plant volatiles mediate defense regulation in maize leaves but not in maize roots. Plant Cell & Environment 44(8), 2672–2686.
6. Huber, M., Roder, T., Irmisch, S., Riedel, A., Gablenz, S., Fricke, J., Rahfeld, P., Reichelt, M., Paetz, C., Liechti, N., Hu, L., Bont, Z., Ye, M., Huang, W., Robert, C. A., Gershenzon, J., & Erb, M. (2021). A beta-glucosidase of an insect herbivore determines both toxicity and deterrence of a dandelion defense metabolite. eLife 10, e68642.
5. Hu L., Ye M., Erb M. (2019) Integration of two herbivore-induced plant volatiles results in synergistic effects on plant defence and resistance. Plant Cell & Environment 42(3): 959-971.
4. GasmiL., Martínez-Solís M., Frattini A., Ye M., Collado M., Turlings T. C. J., Erb M., Herrero S. (2019) Can herbivore-induced volatiles protect plants by increasing the herbivores' susceptibility to natural pathogens? Applied and Environmental Microbiology 85(1): e01468-18.
3. Hu L., Mateo P., Ye M., Zhang X., Berset J. D., Handrick V., Radisch D., Grabe V., Köllner T. G., Gershenzon J., Robert C., Erb M. (2018) Plant iron acquisition strategy exploited by an insect herbivore. Science 361(6403): 694-697.
2. Hu L., Robert C., Cadot S., Zhang X., Ye M., Li B., Manzo D., Chervet N., Steinger T., van der Heijden M. G. A, Schlaeppi K., Erb M. (2018) Root exudate metabolites drive plant-soil feedbacks on growth and defense by shaping the rhizosphere microbiota. Nature Communications 9(1): 2738.
1. Zhang S., Li X., Sun Z., Shao S., Hu L., Ye M., Zhou Y., Xia X., Yu J. and Shi K. (2015) Antagonism between phytohormone signaling underlies the variation in disease susceptibility of tomato plants under elevated CO2 . Journal of Experimental Botany 66(7): 1951-1963.
发明专利:
5. 叶萌,丁长庆,黄建燕,畑での茶樹害虫の防除におけるインド-ルの使用及び使用方法,日本,发明专利,授权号:7731952,授权日2025-08-22
4. 叶萌,丁长庆,姜琦,茶树源转录因子CsWRKY71在提高植物抗虫性及制备植物抗虫品种中的应用,中国,发明专利,专利号:ZL202410252460.7,授权日2025-05-13
3. 叶萌,黄建燕,姜琦,茶树源基因CsWRKY23L及其编码蛋白在增强植物抗虫性中的应用,中国,发明专利,专利号:ZL202410252459.4,授权日2025-05-13
2. 娄永根,叶萌,胡凌飞,一种水稻源抗虫相关基因及其编码产物与应用,中国,发明专利,专利号:ZL201410347654.1,授权日2018-05-22
1. 娄永根,叶萌,胡凌飞,孙浩,水稻源抗虫相关基因OsLRR2及其编码产物与应用,中国,专利号:ZL201410516932.1,授权日2017-02-01
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