陈小林：男，1981年生，教授，博士生导师，湖北荆门人，农业微生物资源发掘与利用全国重点实验室固定研究人员，华中农业大学植物科学技术学院教师。在植物病理教研室从事教学和科研工作，主讲本科生《微生物学》和《分子植物病理学》，以及研究生《植物病原真菌致病分子机制》等课程。长期从事植物真菌病害研究工作(稻瘟菌引起的稻瘟病和尖孢镰刀菌引起的根腐病等)，担任中国植物保护学会青年委员会委员，植物病理学报青年编委会委员，湖北省植物病理学会理事。

主要聚焦真菌致病机制，真菌-植物互作机制，真菌绿色杀菌剂开发，真菌病害生防技术开发等研究。综合运用功能基因组学，分子遗传学，分子细胞生物学，修饰蛋白组学，表观修饰组学等手段，从翻译后修饰和表观遗传调控的新角度，深入揭示了真菌侵染结构形成，以及真菌-植物互作的分子机理，包括：

1）揭示了翻译后修饰调控稻瘟菌附着胞形成和免疫逃避的分子机制（包括糖基化修饰、泛素/类泛素化修饰、磷酸化修饰、脂化修饰、新型酰化修饰、氧化还原修饰等）

2）阐明了多种RNA修饰调控稻瘟菌附着胞功能的分子机制（包括m1A修饰、m6A修饰、m5C修饰、s2U修饰、去腺苷化修饰等）

3）构建了稻瘟菌翻译后修饰调控网络图谱和RNA修饰调控网络图谱

4）鉴定了多种翻译后修饰和RNA修饰关键酶作为靶标用于新型杀菌剂开发

5）提出了多种基于翻译后修饰和RNA修饰研究的病害防控新策略

6）提出了基于人工智能开发杀菌剂的平台设计新模式（AIFD）

7）提出了基于植物内生菌工程化改造的生物防治新模式（EEPI）

相关研究为其它非模式病原真菌和非模式寄主植物提供了借鉴，为开发新型杀菌剂提供了候选靶标，提出了真菌病害防控的新策略和新途径，同时也为培育抗病品种提供了理论依据和应用基础。

以通讯作者或第一作者在Ann Rev Phytopathol (2021), Trends in Microbiology (2025)，Nature Communications (2025), Nucleic Acids Research (2025), Advanced Science (2024), Developmental Cell (2024), The Plant Cell (2014), New Phytologist (2018, 2021, 2022, 2024, 2025a, 2025b), Plant Biotechnol Journal (2021), PLOS Pathogens (2020), PLOS Genetics (2017), ACS Appl Mater Interfaces (2019), Environ Microbiol (2020a, 2020b), Mol Plant Pathol (2017, 2019, 2021, 2022, 2023)等期刊发表论文46篇（截止2025.12.31），先后主持国家自然科学基金5项（青年基金1项，面上项目4项）。

(课题组常年招收博士后，请发送简历至chenxiaolin@mail.hzau.edu.cn)

学习工作经历：

2000.9-2004.6：华中农业大学植物保护系，本科

2004.9-2011.6：中国农业大学植物病理学专业，硕博连读

2011.7-2014.10：中国农业大学作物遗传育种专业，博士后

2014.10-2015.3：北京市农林科学院，科研助理

2015.3-2021.11：华中农业大学，副教授

2019.10-2020.8：英国The Sainsbury Laboratory，访问学者

2021.12-至今：华中农业大学，教授

当前主要研究方向(以稻瘟菌-水稻互作系统为模式系统/尖孢镰刀菌-多种寄主互作为应用系统)：

1）植物病原真菌致病过程的翻译后修饰和表观遗传调控机制

2）真菌-植物互作过程的翻译后修饰和表观遗传调控机制

3）内生菌-病原菌-植物三者互作机制及其应用技术开发

4）合成生物学驱动的植物内生菌工程化设计和开发(EEPI平台)

5）人工智能驱动的新型绿色真菌杀菌剂设计和开发(AIFD平台)

科研项目

1. 国家重点研发计划项目子课题，水稻抗/感稻瘟病相关重要微生物组和代谢化合物鉴定及作用机制，课题编号：2022YFA1304402-03，项目年限：2022/12-2026/11（子课题主持）

2. 国家自然科学基金面上项目，ERF2介导的棕榈酰化修饰调控稻瘟菌附着胞功能的分子机制研究. 课题编号：32272476, 项目年限：2023/1-2026/12（主持）

3. 国家自然科学基金面上项目，O-GlcNAc糖基化修饰调控稻瘟菌致病过程的分子机制研究. 课题编号：32072365, 项目年限：2021/1-2024/12（主持）

4. 国家自然科学基金面上项目，SUMO化修饰调控稻瘟菌MAPK信号途径的分子机制研究，课题编号：31871909，项目年限：2019/1-2022/12（主持）

5. 国家自然科学基金青年项目，GPI锚定修饰在稻瘟菌致病过程中的作用和机理研究，课题编号：31601585，项目年限：2017/1-2019/12（主持）

6. 国家自然科学基金面上项目，稻瘟菌酸性pH信号途径的鉴定及其在致病过程中的作用研究，课题编号：31571952，项目年限：2016/1-2019/12（主持）

教学研究与教学改革

华中农业大学襄阳书院项目制实验教学课程建设，2024，主持

华中农业大学实践创新课程提升计划“双百案例”课程，水稻病害研究案例，2022，主持

华中农业大学全英文课程，分子植物病理学，2021，主持

华中农业大学植科院教改项目，新形势下本科“分子植物病理学”课程改革与创新，2019，主持

华中农业大学精品实践课程建设，普通植物病理学实验精品课程，2016，参加

教改论文：陈小林*，董五辈，郑露，杨龙，现代农业背景下植物病理专业“分子植物病理学”课程改革与创新. 教育教学论坛. 2020. 39: 193-194.

发明专利

陈小林，郑静，李洪烨，葡萄糖酸促进水稻生长和/或抗稻瘟病的应用及其方法，专利号：ZL202411281180.5

陈小林，张紫薇，宁国贵，何燕红，赵景，防治植物灰霉病的杀菌组合物及其制备方法，专利申请号：202311457777.6

陈小林，郑静，李洪烨，一株栖稻假单胞菌及其应用，专利申请号：202510806260.6

教学获奖

1. 2017年华中农业大学教学质量优秀二等奖

2. 2015年植物科学技术学院教学质量优秀奖

出版教材

《月季病虫害图鉴与防控手册》，宁国贵/王继华主编，湖北科学技术出版社，2023年出版，副主编

《百合病虫害图鉴与防控手册》，宁国贵/何燕红主编，湖北科学技术出版社，2024年出版，参编

《农业植物病理学(第三版)》，黄俊斌/侯明生主编，“十四五”普通高等教育本科规划教材，国家级精品资源共享课配套教材，科学出版社，2025年1月出版，参编

《农业植物病理学实验实习指导(第二版)》，侯明生/蔡丽主编，科学出版社"十四五"普通高等教育本科规划教材，国家级精品资源共享课配套教材，科学出版社，2021年11月出版，参编

《中国植物保护百科全书(植物病理卷)》，陈剑平/陈万权主编，中国林业出版社，2022年6月出版，参编

本科生培养

1. 指导本科生获得华中农业大学学士学位论文创新奖(2019,2020)

2. 指导本科生获得华中农业大学优秀本科毕业论文(2020)

3. 指导本科生获得华中农业大学本科生SRF项目(2017,2018,2019,2021)

4. 指导本科生获得华中农业大学本科生省创项目(2021,2024)

5. 指导本科生获得华中农业大学本科生国创项目(2023)

6. 指导本科生获得华中农业大学本科生科技创新专项(2017,2024)

7. 指导本科生获得湖北省大学生生物实验技能竞赛一等奖(2024)

8. 指导本科生获得全国大学生生命科学竞赛二等奖(科学探究类)(2024)

研究生培养

1. 指导研究生获得华中农业大学优秀博士毕业论文(2022)

2. 指导研究生获得华中农业大学优秀硕士毕业论文(2018,2019)

3. 指导博士研究生获得国家奖学金(2019,2020,2021,2023,2024,2025)

4. 指导硕士研究生获得国家奖学金(2024,2025)

5. 指导研究生获得华中农业大学科研创新奖(2018)

6. 指导研究生获得农业微生物学国家重点实验室年度优秀研究生(2021,2022,2024)

代表性学术论文与著作（*表示通讯作者，#表示共同作者）：

1.     Hu H.#, Li Y.#, Lv Z.#, Qu Z., Zhou Z.*, Chen X.L.* 2025. RNA modifications in plant pathogenic fungi: from epitranscriptomics to antifungal strategies. Trends Microbiol. 7:S0966-842X(25)00221-5.

2.     Hu H., Qin M., Zhang J., Jiang J., Su Z., Guan L., Qu Z., Liu C., Cai X., Ren Z., Duan Y., Zhang D., Liu H., Zheng L., Huang J., Chen X.L.* 2025. H2S-mediated protein S-sulfhydration modulates infectivity and autophagy in the rice blast fungus. Nat Commun. 16(1):6222.

3.     Zhang X.#, He R.#, Li Y.#, Ren S.#, Xiang S., Zheng J., Qu Z., Zhou S., Zhou Z.*, Chen X.L.* 2025. tRNA thiolation optimizes appressorium-mediated infection by enhancing codon-specific translation in Magnaporthe oryzae. Nucleic Acids Res. 7;53(1):gkae1302.

4.     Liu C.#, Hu H.#, Cai X., Jiang J., Zheng J., Jiang Z., Kong Y., Zhu J., Ren Z., Su J., Chen S., Liu H., Zheng L., Huang J., Chen X.L.* 2025. Sumoylation-dependent control of Pmk1 phosphorylation during Magnaporthe oryzae infection. New Phytol. 248(2):817-834.

5.     Lv Z.#, Hu H.#, Li Y., Zhou Z.*, Chen X.L.* 2025. tRNA modification in plant pathogenic fungi: roles, mechanisms, and implications for pathogenicity. New Phytol. 247(2):527-532.

6.     Li F.#, Hu H.#, Zhang J., Jiang J., Su Z., Xie Y., Huang J., Liu C., Liu H., Zheng L., Huang J., Sun W.*, Chen X.L.* 2025. Nucleoside derivatives target Magnaporthe oryzae appressoria function and nucleotide metabolism for fungal disease control. J Agric Food Chem. 73(26):16229-16241.

7.     He R.#, Lv Z.#, Li Y.#, Ren S., Jiaqi Cao, Zhu J., Zhang X., Wu H., Wan L., Xu S., Chen X.L.*, Zhou Z.P.* 2024. tRNA-m1A methylation regulates the infection of Magnaporthe oryzae by supporting ergosterol biosynthesis. Developmental Cell. 22:S1534-5807(24)00485-4.

8.     Hu H.#, He W.#, Qu Z., Dong X., Ren Z., Qin M., Liu H., Zheng L., Huang J., Chen X.L.* 2024. De-nitrosylation coordinates appressorium function for infection of the rice blast fungus. Advanced Science, 11(26):e2403894.

9.     Ren Z., Dong X., Guan L., Yang L., Liu C., Cai X., Hu H., Lv Z., Liu H., Zheng L., Huang J., Wilson R.A., Chen X.L.* 2024. Sirt5-mediated lysine desuccinylation regulates oxidative stress adaptation in Magnaporthe oryzae during host intracellular infection. New Phytologist, 242(3), 1257–1274.

10.  Ren Z.#, Tang B.#, Xing J., Liu C., Cai X., Hendy A., Kamran M., Liu H., Zheng L., Huang J., Chen X.L.* 2022. MTA1-mediated RNA m6 A modification regulates autophagy and is required for infection of the rice blast fungus. New Phytologist, 235(1):247-262.

11.  Tang B., Liu C., Li Z., Zhang X., Zhou S., Wang G.L., Chen X.L.*, Liu, W.D.* 2021. Multilayer regulatory landscape during pattern-triggered immunity in rice. Plant Biotechnology Journal, 19(12):2629-2645.

12.  Liu W.D.*, Triplett L.*, Chen X.L.* 2021. Emerging roles of posttranslational modifications in plant-pathogenic fungi and bacteria. Annual Review of Phytopathology, 2021(59). 59:99-124.

13.  Liu C.Y., Talbot N.J.*, Chen X.L.* 2021. Protein glycosylation during infection by plant pathogenic fungi. New Phytologist. 230(4):1329-1335.

14.  Chen X.L., Liu C.Y., Tang B.Z., Ren Z.Y., Wang G.L. and Liu W.D.* 2020. Quantitative proteomics analysis reveals important roles of N-glycosylation on ER quality control system for development and pathogenesis in Magnaporthe oryzae. PLOS Pathogens, 16(2):e1008355.

15.  Li S.J.#, Song Z.Y.#, Liu C.Y., Chen X.L.*, Han H.Y.* 2019. Biomimetic mineralization-based CRISPR/Cas9 ribonucleoprotein nanoparticles for gene editing. ACS Applied Materials & Interfaces. 11(51):47762-47770.

16.  Liu C.Y.#, Li Z.G.#, Xing J.J., Yang J., Wang Z., Zhang H., Chen D., Peng Y.L., Chen X.L.* 2018. Global analysis of sumoylation function reveals novel insights into development and appressorium-mediated infection of the rice blast fungus. New Phytologist. 219:1031-1047.

17.  Li L.W.#, Chen X.L.#, Zhang S.P., Yang J., Chen D., Liu M.X., Zhang H.F., Zheng X.B., Wang P., Peng Y.L.*, Zhang Z.G.* 2017. MoCAP proteins regulated by MoArk1-mediated phosphorylation coordinate endocytosis and actin dynamics to govern development and virulence of Magnaporthe oryzae. PLoS Genetics, 13(5):e1006814.

18.  Chen X.L., Shi T., Yang J., Chen D., Xu X.W., Xu J.R., Talbot N.J., Peng Y.L* 2014. N-glycosylation of effector proteins by an alpha-1,3-mannosyltransferase is required to evade host innate immunity by the rice blast fungus. Plant Cell, 26:1360-1376.

其它通讯或第一作者论文（*表示通讯作者，#表示共同作者）

1.     胡虹，陈小林∗ 2025. 植物病原真菌致病过程的翻译后修饰调控. 植物病理学报. 55(4): 606-621.

2.     Chen D., Ju M., Xie J., Chen X.L.*, Peng J.* 2024. Current progress on pathogenicity-related genes in Fusarium oxysporum f. sp. cubense tropical race 4. Phytopathology Research. (2024) 6:53.

3.     Hu H., Liu T., Xie X., Li F., Liu C., Jiang J., Li Z., Chen X.L.* 2024. GPI anchoring controls cell wall integrity, immune evasion and surface localization of ChFEM1 for infection of Cochlibolus heterostrophus. Journal of Integrative Agriculture, 24(11):4310-4323.

4.     Chen D., Cai X., Xing J., Chen S., Zhao J., Qu Z., Li G., Liu H., Zheng L., Huang J., Chen X.L.* 2023. A lipid droplet associated protein Nem1 regulates appressorium function for infection of Magnaporthe oryzae. aBIOTECH. 4(2):108-123.

5.     Chen D., Kamran M., Chen S., Xing J., Qu Z., Liu C., Ren Z., Cai X, Chen X.L.*, Xu, J.* 2023. Two nucleotide sugar transporters are important for cell wall integrity and full virulence of Magnaporthe oryzae. Molecular Plant Pathology, 24(4):374-390.

6.     Zhang X., Li D., Zhu J., Zheng J., Li H., He Q., Peng J., Chen S., Chen X.L.*, Wang W.* 2023. RNAPII Degradation Factor Def1 Is Required for Development, Stress Response, and Full Virulence of Magnaporthe oryzae. J Fungi. 9(4):467.

7.     Wang W.#*, Cai X.#, Chen X.L.* 2022. Recent Progress of Deubiquitinating Enzymes in Human and Plant Pathogenic Fungi. Biomolecules, 12(10):1424.

8.     Nie Y., Li G., Li J., Zhou X., Zhang Y., Shi Q., Zhou X.*, Li H.*, Chen X.L.*, Li,Y.* 2022. A novel elicitor MoVcpo is necessary for the virulence of Magnaporthe oryzae and triggers rice defense responses. Frontiers in Plant Science, 13:1018616.

9.     Tang B., Zhang Z., Zhao X., Xu Y., Wang L., Chen X.L.*, Wang W.* 2022. Multi-omics analysis reveals a regulatory network of ZmCCT during maize resistance to gibberella stalk rot at the early stage. Frontiers in Plant Science, 13:917493.

10.  Liu C.Y., Liu T., Lv ZW, Qin M.Y., Qu Z.G., Zhang Z.W., Li F.Y., Chen D., Zhang X.R., Chen X.L.*, Shen M.* 2022. A calcineurin regulator MoRCN1 is important for asexual development, stress response and plant infection of Magnaporthe oryzae. Frontiers in Plant Science, 13:925645.

11.  Cai, X., Xiang, S., He, W., Tang, M., Zhang, S., Chen, D., Zhang, X., Liu, C., Li, G., Xing, J., Li, Y.*, Chen X.L.*, Nie Y.* 2022. Deubiquitinase Ubp3 regulates ribophagy and deubiquitinates Smo1 for appressorium-mediated infection by Magnaporthe oryzae. Molecular Plant Pathology, 23(6):832-844.

12.  Chen D.#, Hu H.#, He W., Zhang S., Tang M., Xiang S., Liu C., Cai X., Hendy A., Kamran M, Liu H., Zheng L., Huang J., Chen X.L.*, Xing J.* 2022. Endocytic protein Pal1 regulates appressorium formation and is required for full virulence of Magnaporthe oryzae. Molecular Plant Pathology, 23(1):133-147.

13.  Zhang X.R.#, Zhang Z.H.#, Chen X.L.* 2021. The redox proteome of thiol proteins in the rice blast fungus Magnaporthe oryzae. Frontiers in Microbiology. 12:648894.

14.  Zhang X.R., Chen X.L.* 2021. The emerging roles of ubiquitin-like protein Urm1 in eukaryotes. Cellular Signalling. 81 (2021):109946.

15.  Li X.H., Zhao H.J., Chen X.L.* 2021. Screening of marine bioactive antimicrobial compounds for plant pathogens. Marine Drugs. 2021, 19:69.

16.  Cai X., Yan J., Liu C., Xing J., Ren Z., Hendy A., Zheng L., Huang J., Chen X.L.* 2020. Perilipin LDP1 coordinates lipid droplets formation and utilization for appressorium-mediated infection in Magnaporthe oryzae. Environmental Microbiology, 22(7):2843-2857.

17.  Liu C.Y., Xing J.J., Cai X., Hendy A., He W.H., Yang J., Huang J.B., Peng Y.L., Ryder L., Chen X.L.* 2020. GPI7-mediated glycosylphosphatidylinositol (GPI) anchoring regulates appressorial penetration and immune evasion during infection of Magnaporthe oryzae. Environmental Microbiology, 22(7):2581-2595.

18.  Cai X.#, Wang Z.#, Hou Y.X., Liu C., Hendy A., Xing J., Chen X.L.* 2020. Systematic characterization of the ubiquitin-specific proteases in Magnaporthe oryzae. Phytopathology Research, 8 (2020).

19.  Wang L.Y.#, Cai X.#, Xing J.J., Liu C.Y., Hendy A., Chen X.L.* 2019. URM1-mediated ubiquitin-like modification is required for oxidative stress adaptation during infection of the rice blast fungus. Frontiers in Microbiology, 10:2039.

20.  Chen F.F., Ma R.J., Chen X.L.* 2019. Advances of metabolomics in fungal pathogen–plant interactions. Metabolites, 2019(9):169.

21.  Hendy A., Xing J.J., Chen X.Y., Chen X.L.* 2019. The farnesyltransferase β-subunit RAM1 regulates localization of RAS proteins and appressorium-mediated infection in Magnaporthe oryzae. Molecular Plant Pathology, 20(9):1264-1278.

22.  Chen X.L., Xie X., Liu C.Y., Zeng L.R., Zhou X.P., Luo F., Wang G.L.*, Liu W.D.* 2018. Proteomic analysis of ubiquitinated proteins in rice (Oryza sativa) after treatment with PAMP elicitors. Frontiers in Plant Science, (2018)9:707.

23.  Wang Z., Zhang H., Liu C.Y., Xing J.J., Chen X.L.* 2018. A deubiquitinating enzyme Ubp14 is required for development, stress response, nutrient utilization, and pathogenesis of Magnaporthe oryzae. Frontiers in Microbiology, (2018)9:769.

24.  Yuan J.L., Wang Z., Xing J.J., Yang Q.Y., Chen X.L.* 2018. Genome-wide Identification and characterization of circular RNAs in the rice blast fungus Magnaporthe oryzae. Scientific Reports, (2018)8:6757.

25.  Chen X.L.* 2018. Infection process observation of Magnaporthe oryzae on barley leaves. Bio-protocol, Vol 8, Iss 08. doi: 10.21769/BioProtoc.2833.

26.  Chen X.L.#*, Shen M.#, Yang J., Xing Y.F., Chen D., Li Z.G., Zhao W.S., Zhang Y. 2017. Peroxisomal fission is induced during appressorium formation and is required for full virulence of the rice blast fungus. Molecular Plant Pathology, 18(2):222-237.

27.  Chen X.L.*, Wang Z., Liu C.Y. 2016. Roles of peroxisomes in the rice blast fungus. BioMed Res Int, 2016:9343417.

28.  Chen X.L., Yang J., and Peng Y.L.* 2011. Large-scale insertional mutagenesis in Magnaporthe oryzae by Agrobacterium tumefaciens-mediated transformation. Methods in Molecular Biology, 722:213-224.

参与作者论文

1.     Wang J, Chen MM, Xu HJ, Wang YJ, Yang SR, Liu N, Chen XL, Peng YL, Fan J. MoOrp-mediated PtdIns4P transportation is essential for autophagy and pathogenicity in Magnaporthe oryzae. Autophagy. 2025 Dec;21(12):2771-2791.

2.     Xu Q, Ma X, Wei X, Chen Z, Duan Y, Ju Y, Wang Z, Chen J, Zheng L, Chen XL, Huang J, Zhang J, Chen X. Histone H4K8hib modification promotes gene expression and regulates rice immunity. Mol Plant. 2025 Jan 6;18(1):9-13.

3.     Sun P, Zhao J, Sha G, Zhou Y, Zhao M, Li R, Kong X, Sun Q, Li Y, Li K, Bi R, Yang L, Qin Z, Huang W, Wang Y, Gao J, Chen G, Zhang H, Adnan M, Yang L, Zheng L, Chen XL, Wang G, Ishikawa T, Li Q, Xu JR, Li G. Inhibitor of cardiolipin biosynthesis-related enzyme MoGep4 confers broad-spectrum anti-fungal activity. Plant Cell Environ. 2024 Nov;47(11):4259-4274.

4.     Zhao J, Chen Y, Ding Z, Zhou Y, Bi R, Qin Z, Yang L, Sun P, Sun Q, Chen G, Sun D, Jiang X, Zheng L, Chen XL, Wan H, Wang G, Li Q, Teng H, Li G. Identification of propranolol and derivatives that are chemical inhibitors of phosphatidate phosphatase as potential broad-spectrum fungicides. Plant Commun. 2024 Jan 8;5(1):100679.

5.     Duan Y, Wang Z, Fang Y, Pei Z, Hu H, Xu Q, Liu H, Chen XL, Luo C, Huang J, Zheng L, Chen X. A secreted fungal laccase targets the receptor kinase OsSRF3 to inhibit OsBAK1-OsSRF3-mediated immunity in rice. Nat Commun. 2024 Sep 10;15(1):7891.

6.     Duan Y, Li P, Zhang D, Wang L, Fang Y, Hu H, Mao Q, Zhou X, Zhao P, Li X, Wei J, Tang J, Pan L, Liu H, Chen X, Chen XL, Hsiang T, Huang J, Zheng L. S-palmitoylation of MAP kinase is essential for fungal virulence. mBio. 2024 Dec 11;15(12):e0270424.

7.     Chen X, Liu C, Wang H, Liu Q, Yue Y, Duan Y, Wang Z, Zheng L, Chen XL, Wang Y, Huang J, Xu Q, Pan Y. Ustilaginoidea virens-secreted effector Uv1809 suppresses rice immunity by enhancing OsSRT2-mediated histone deacetylation. Plant Biotechnol J. 2024 Jan;22(1):148-164.

8.     Duan Y, Yang G, Tang J, Fang Y, Wang H, Wang Z, Liu H, Chen XL, Huang J, Chen J, Xu Q, Zheng L, Chen X. Ustilaginoidea virens secreted effector UvSec117 hijacks OsWRKY31-OsAOC module to suppress jasmonic acid-mediated immunity in rice. Plant Biotechnol J. 2024 Dec;22(12):3342-3344.

9.     Zhou Y, Zhao J, Yang L, Bi R, Qin Z, Sun P, Li R, Zhao M, Wang Y, Chen G, Wan H, Zheng L, Chen XL, Wang G, Li Q, Li G. Doxorubicin inhibits phosphatidylserine decarboxylase and confers broad-spectrum antifungal activity. New Phytol. 2023 Jul;239(1):255-270.

10.  Peng Z, Fu Y, Wang F, Liu Q, Li Y, Zhang Z, Yin L, Chen XL, Xu J, Deng H, Xing J. Genetic Variation of Magnaporthe oryzae Population in Hunan Province. J Fungi (Basel). 2023 Jul 23;9(7):776.

11.  Bi R, Li R, Xu Z, Cai H, Zhao J, Zhou Y, Wu B, Sun P, Yang W, Zheng L, Chen XL, Luo CX, Teng H, Li Q, Li G. Melatonin targets MoIcl1 and works synergistically with fungicide isoprothiolane in rice blast control. J Pineal Res. 2023 Sep;75(2):e12896.

12.  Li R, Bi R, Cai H, Zhao J, Sun P, Xu W, Zhou Y, Yang W, Zheng L, Chen XL, Wang G, Wang D, Liu J, Teng H, Li G. Melatonin functions as a broad-spectrum antifungal by targeting a conserved pathogen protein kinase. J Pineal Res. 2023 Jan;74(1):e12839.

13.  Mei J, Li Z, Zhou S, Chen XL, Wilson RA, Liu W. Effector secretion and stability in the maize anthracnose pathogen Colletotrichum graminicola requires N-linked protein glycosylation and the ER chaperone pathway. New Phytol. 2023 Nov;240(4):1449-1466.

14.  Chen X, Duan Y, Ren Z, Niu T, Xu Q, Wang Z, Zheng L, Wang Y, Chen XL, Huang J, Pan Y. Post-Translational Modification β-Hydroxybutyrylation Regulates Ustilaginoidea virens Virulence. Mol Cell Proteomics. 2023 Aug;22(8):100616.

15.  Yan Y, Tang J, Yuan Q, Liu C, Chen XL, Liu H, Huang J, Bao C, Hsiang T, Zheng L. Mitochondrial prohibitin complex regulates fungal virulence via ATG24-assisted mitophagy. Commun Biol. 2022 Jul 14;5(1):698.

16.  Zhao J, Sun P, Sun Q, Li R, Qin Z, Sha G, Zhou Y, Bi R, Zhang H, Zheng L, Chen XL, Yang L, Li Q, Li G. The MoPah1 phosphatidate phosphatase is involved in lipid metabolism, development, and pathogenesis in Magnaporthe oryzae. Mol Plant Pathol. 2022 May;23(5):720-732.

17.  Chen X, Pei Z, Liu H, Huang J, Chen XL, Luo C, Hsiang T, Zheng L. Host-induced gene silencing of fungal-specific genes of Ustilaginoidea virens confers effective resistance to rice false smut. Plant Biotechnol J. 2022 Feb;20(2):253-255.

18.  Chen X, Duan Y, Qiao F, Liu H, Huang J, Luo C, Chen XL, Li G, Xie K, Hsiang T, Zheng L. A secreted fungal effector suppresses rice immunity through host histone hypoacetylation. New Phytol. 2022 Sep;235(5):1977-1994.

19.  Chen X, Li X, Duan Y, Pei Z, Liu H, Yin W, Huang J, Luo C, Chen XL, Li G, Xie K, Hsiang T, Zheng L. A secreted fungal subtilase interferes with rice immunity via degradation of SUPPRESSOR OF G2 ALLELE OF skp1. Plant Physiol. 2022 Sep 28;190(2):1474-1489.

20.  Chen X, Xu Q, Duan Y, Liu H, Chen XL, Huang J, Luo C, Zhou DX, Zheng L. Ustilaginoidea virens modulates lysine 2-hydroxyisobutyrylation in rice flowers during infection. J Integr Plant Biol. 2021 Oct;63(10):1801-1814.

21.  Chen X, Li P, Liu H, Chen XL, Huang J, Luo C, Li G, Hsiang T, Collinge DB, Zheng L. A novel transcription factor UvCGBP1 regulates development and virulence of rice false smut fungus Ustilaginoidea virens. Virulence. 2021 Dec;12(1):1563-1579.

22.  Chen X, Pei Z, Peng L, Qin Q, Duan Y, Liu H, Chen XL, Zheng L, Luo C, Huang J. Genome-Wide Identification and Functional Characterization of CCHC-Type Zinc Finger Genes in Ustilaginoidea virens. J Fungi (Basel). 2021 Nov 10;7(11):947.

23.  Peng Z, Li L, Wu S, Chen XL, Shi Y, He Q, Shu F, Zhang W, Sun P, Deng H, Xing J. Frequencies and Variations of Magnaporthe oryzae Avirulence Genes in Hunan Province, China. Plant Dis. 2021 Dec;105(12):3829-3834.

24.  Mei J, Ning N, Wu H, Chen XL, Li Z, Liu W. Glycosylphosphatidylinositol Anchor Biosynthesis Pathway-Related Protein GPI7 Is Required for the Vegetative Growth and Pathogenicity of Colletotrichum graminicola. Int J Mol Sci. 2022 Mar 10;23(6):2985.

25.  Chen X, Liu H, Chen XL, Huang J, Hsiang T, Zheng L. ATAC-Seq Data for Genome-Wide Profiling of Transcription Factor Binding Sites in the Rice False Smut Fungus Ustilaginoidea virens. Mol Plant Microbe Interact. 2021 Jul;34(7):830-834.

26.  Chen X, Pei Z, Li P, Li X, Duan Y, Liu H, Chen XL, Zheng L, Luo C, Huang J. Quantitative Proteomics Analysis Reveals the Function of the Putative Ester Cyclase UvEC1 in the Pathogenicity of the Rice False Smut Fungus Ustilaginoidea virens. Int J Mol Sci. 2021 Apr 15;22(8):4069.

27.  Chen X, Li X, Li P, Chen XL, Liu H, Huang J, Luo C, Hsiang T, Zheng L. Comprehensive identification of lysine 2-hydroxyisobutyrylated proteins in Ustilaginoidea virens reveals the involvement of lysine 2-hydroxyisobutyrylation in fungal virulence. J Integr Plant Biol. 2021 Feb;63(2):409-425.

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31.  Li C., Yang J., Zhou W., Chen X.L., Huang J.G., Cheng Z.H., Zhao W.S., Zhang Y. Peng Y.L.* 2014. A spindle pole antigen gene MoSPA2 is important for polar cell growth of vegetative hyphae and conidia, but is dispensable for pathogenicity in Magnaporthe oryzae. Current Genetics, 60(4): 255-263.

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