唐广飞,中国农业科学院植物保护研究所所聘研究员,硕士生导师。2020年博士毕业于浙江大学,博士论文获“浙江大学优秀博士学位论文提名论文”,2020-2022在中国农业科学院植物保护研究所从事博士后研究。2022年至今在中国农业科学院植物保护研究所工作。兼任中国植物保护学会青委会委员,曾任北京市博士后联谊会副理事长、中国农业科学院博士后联谊会理事长、中国农业科学院植物保护研究所博士后联谊会理事长。入选中国农业科学院“青年创新专项”及“青年英才计划”所级培育工程。
利澳平台注册开户的联系方式:tangguangfei@caas.cn
主要研究领域及成果:从事病原真菌灾变机制、真菌毒素合成调控及杀菌剂创制等研究。主持国家自然科学基金、中国农业科学院青年创新专项、国家重点研发计划子课题、中央级公益性科研院所基本科研业务费专项、国家重点实验室开放课题等科研项目。其中以第一或通讯作者在trends in plant science, genome biology、nucleic acids research及plos pathogens等杂志发表sci论文。
代表性论文(#共同第一作者,*共同通讯作者)
(1) zhang c#, wang y#, liu w*, tang g*. a novel point mutation (l837f) in osmosensor-like histidine kinase fgos1 drives potent fludioxonil resistance in fusarium graminearum. j agric food chem. 2025 aug.
(2) he y, li z, liu w*, tang g*. premature termination codon mutations in osmosensor-like histidine kinase fgos1 endow fusarium graminearum with fludioxonil resistance. pestic biochem physiol. 2025 aug.
(3) xia h, liu t, he y, guo q, wu h, tang g*. chromosome-level genome assembly of the rhizoctonia solani. sci data. 2025 jun 21;12(1):1053.
(4) jiang y#, xia h#, he y, wang y, liu w*, tang g*. effect of rna-binding protein nuclear accommodation of mitochondria 8-fgnam8 on deoxynivalenol production and virulence of mycotoxigenic fusarium graminearum. int j biol macromol. 2025 jul;318 (pt 3):144783.
(5) xia h, li x, liu w*, tang g*.the fvhog1 pathway is essential for stress responses, fungicide resistance, fumonisin b1 production and pathogenesis in fusarium verticillioides. crop health. 2025 jun 3, 14 .
(6) tang g, liu w. bivalent histone modifications: how phytopathogens evade plant immunity. trends plant sci. 2024 sep;29(9):943-945.
(7) tang g, xia h, huang y, guo y, chen y, ma z, liu w. liquid-liquid phase separation of h3k27me3 reader bp1 regulates transcriptional repression. genome biol. 2024 mar 11;25(1):67.
(8) huang y, chen j, xia h, gao z, gu q, liu w, tang g*. fvmbp1-swi6 complex regulates vegetative growth, stress tolerance, and virulence in fusarium verticillioides. j hazard mater. 2024 jul 15;473:134576.
(9) xia h, xia x, guo m, liu w, tang g*. the map kinase fvhog1 regulates fb1 synthesis and ca2 homeostasis in fusarium verticillioides. j hazard mater. 2024 jul 15;473:134682.
(10) tang g#, yuan j#, wang j, zhang yz, xie ss, wang h, tao z, liu h, kistler hc, zhao y, duan cg, liu w, ma z, chen y. fusarium bp1 is a reader of h3k27 methylation. nucleic acids res. 2021 oct 11;49(18):10448-10464.
(11) deng q, wu h, gu q, tang g*, liu w*. glycosyltransferase fvcpsa regulates fumonisin biosynthesis and virulence in fusarium verticillioides. toxins (basel). 2021 oct 11;13(10):718.
(12) tang g, xia h, liang j, ma z*, liu w*. spermidine is critical for growth,
development, environmental adaptation, and virulence in fusarium graminearum. front microbiol. 2021 nov 19;12:765398.
(13) tang g, chen a, dawood dh, liang j, chen y*, ma z. capping proteins regulate fungal development, don-toxisome formation and virulence in fusarium graminearum. mol plant pathol. 2020 feb;21(2):173-187.
(14) fu w#, wu n#, ke d, chen y, xu t*, tang g*. discovery of a species-specific novel antifungal compound against fusarium graminearum through an integrated molecular modeling strategy. pest manag sci. 2020 dec;76(12):3990-3999.
(15) tang g#, zhang c#, ju z, zheng s, wen z, xu s, chen y*, ma z. the mitochondrial membrane protein fgletm1 regulates mitochondrial integrity, production of endogenous reactive oxygen species and mycotoxin biosynthesis in fusarium graminearum. mol plant pathol. 2018 jul;19(7):1595-1611.
(16) tang g#, chen y#, xu jr, kistler hc, ma z*. the fungal myosin i is essential for fusarium toxisome formation. plos pathog. 2018 jan 22;14(1):e1006827.
