研究组主要从事植物病害互作分子机制相关研究。利用转录组、蛋白质组学等多组学技术,对水稻抗病信号调控分子机理、激素信号参与免疫调控分子机理、以及环境因素对水稻抗病信号影响等进行深入研究。为水稻抗病精准分子育种、绿色防控提供科学依据。
韩国国立庆尚大学 植物微生物相互作用 With Certificate of Graduation for Doctorate Study Doctoral degree
韩国国立庆尚大学 植物微生物相互作用 Post graduate diploma Master's Degree in Science
苏州大学 生物技术专业 UNDERGRADUATE EDUCATION
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南京农业大学 教师
德国马普植物分子育种研究所 博士后
韩国国立庆尚大学 博士后
植物抗病分子机制
Bacillus cereus NJ01 induces SA- and ABA-mediated immunity against bacterial pathogens through the EDS1-WRKY18 module,Cell Reports,2024,
Zhao Xiaozhen,Wang Yiming,Yuan Bingqin,Zhao Hanxi,Wang Yujie,Tan Zheng,Wang Zhiyuan,Wu Huijun,Li Gang,Song Wei,Gupta Ravi,Tsuda Kenichi,Ma Zhonghua,Gao Xuewen,Gu Qin.Temporally-coordinated bivalent histone modifications of BCG1 enable fungal invasion and immune evasion,NATURE COMMUNICATIONS,2024,15(1)(co-first author)
Immune‐enriched phyllosphere microbiome in rice panicle exhibits protective effects against rice blast and rice false smut diseases,iMeta,2024,
Suppression of ETI by PTI priming to balance plant growth and defense through a MPK3/MPK6-WRKYs-PP2Cs module,Molecular Plants,2023,
Multidimensional gene regulatory landscape of a bacterial pathogen in plants,Nature Plants,2020,
Apoplastic proteases: Powerful weapons against pathogen infection in plants,Plant Communications,2020,
【Patent】OsFID基因在提高植物对真菌性病害抗性中的应用,202310134353.X,2024
Ryohei Thomas Nakano(外),Nobuaki Ishihama(外),王一鸣,Junpei Takagi(外),Tomohiro Uemura(外),Paul Schulze-Lefert (外),Hirofumi Nakagami(外),Apoplastic fluid preparation from Arabidopsis thaliana leaves upon interaction with a non-adapted powdery mildew pathogen[Compile]Humana press,2020
