赖建彬

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赖建彬

性别：男
职称：教授
学历：博士
学科：

工作电话：
电子邮件：20141062@m.scnu.edu.cn
相关链接：https://www.scholat.com/laijianbin
简历更新：2025-04-27

个人简历

赖建彬，华南师范大学生命科学学院教授，博士生导师；入选2019年广东省特支计划科技创新青年拔尖人才；至今以通讯（含共同）作者在Trends in Plant Science、EMBO Journal、PNAS、Developmental Cell、Plant Cell、Molecular Plant、EMBO Reports、New Phytologist和Plant Physiology等国际重要期刊发表论文30篇；授权国家发明专利4件；主持国家自然科学基金项目4项和省市基金项目4项等；参与项目获2013年度高等学校科学研究优秀成果奖(科学技术)一等奖和2020年度广东自然科学奖二等奖；任广东省植物学会常务理事。

学习和工作经历：

2000年至2004年，中山大学生命科学学院，本科，获学士学位；

2004年至2009年，中山大学生命科学学院，硕博连读，获博士学位；

2009年至2013年，美国康奈尔大学分子医药系，博士后；

2014年至2019年，华南师范大学生命科学学院，副教授；

2020年至今，华南师范大学生命科学学院，教授

研究方向

1. 蛋白质修饰在植物逆境应答中的功能研究：以拟南芥、茄子和花生等植物为研究对象，探索植物蛋白质棕榈酰化和SUMO化等翻译后修饰在病害和高温等胁迫应答中的分子功能和调控机制，以提高作物的抗逆性。 2. 基于合成生物学提高植物抗逆性的研究：基于合成生物学策略，利用化学生物学、蛋白质修饰组学、微生物组学、代谢模块重构、基因编辑和人工智能等技术，从不同层面提高作物对病害和高温等逆境的抗性。

讲授课程

生物化学，本科生，必修课生物化学实验，本科生，必修课分子生物学实验，本科生，必修课现代仪器分析，本科生，必修课蛋白质修饰，研究生，选修课

承担课题

1. 2023 年国家自然科学基金面上项目（在研，主持）； 2. 2020年国家自然科学基金面上项目（已结题，主持）； 3. 2018 年国家自然科学基金面上项目（已结题，主持）； 4. 2015 年国家自然科学基金青年项目（已结题，主持）； 5. 2024年广东省自然科学基金面上项目（在研，主持）； 6. 2021年广东省自然科学基金青年项目（已结题，主持）； 7. 2016年广州市科技计划项目（已结题，主持）

论文专著

论文专著(#第一作者，*通讯作者)：

1. Li C, Cui S, Li Y, Liu X, Yan W, Zhu C, Sun B, Yang C*, Li T*, Lai J*. A pectin lyase-like protein from verticillium dahliae activates immunity in eggplant through translation regulation. Horticulture Research (2025), 12(6):uhaf050.

2. Huang J#, Huang J#, Wu J, Zhou M, Luo S, Jiang J, Chen T, Shao L, Lai J*, Yang C*. A synthetic biology approach for identifying de-SUMOylation enzymes of substrates. Journal of Integrative Plant Biology (2025), doi:10.1111/jipb.13838.

3. Zhang C#, Wu Y#, Liu J#, Song B#, Yu Z, Li JF*, Yang C*, Lai J*. SUMOylation controls peptide processing to generate damage-associated molecular patterns in Arabidopsis. Developmental Cell (2025), 60(5):696-705.e4.

4. Han D#, Lin C#, Xia S#, Zheng X#, Zhu C, Shen Y, Chen Y, Peng C, Wang C, He J, Lai J*, Yang C*. The Role of Carnosic Acid in the UV-B Stress Resistance Signalling Pathway in Arabidopsis thaliana. Plant, Cell & Environment (2024), 48(2):1232-1241.

5. Yu Z#, Wang J#, Zhang C, Zhan Q, Shi L, Song B, Han D, Jiang J, Huang J, Ou X, Zhang Z, Lai J*, Li QQ*, Yang C*. SIZ1-mediated SUMOylation of CPSF100 promotes plant thermomorphogenesis by controlling alternative polyadenylation. Molecular Plant (2024), 17(9):1392-1406.

6. Zhao Y#, Li Z#, Wang Z#, Huang L#, Li G, Liu X, Yuan M, Huang W, Ling L, Yang C*, He Z*, Lai J*. Improvement of plant resistance to geminiviruses via protein de-S-acylation. Stress Biology (2024), 25;4(1):23.

7. Li W#, Liu W#, Xu Z, Zhu C, Han D, Liao J, Li K, Tang X, Xie Q, Yang C*, Lai J*. Heat-induced SUMOylation differentially affects bacterial effectors in plant cells. The Plant Cell (2024), 36(6):2103-2116.

8. Li W#, Ye T#, Ye W#, Liang J, Wang W, Han D, Liu X, Huang L, Ouyang Y, Liao J, Chen T, Yang C*, Lai J*. S-acylation of a non-secreted peptide controls plant immunity via secreted-peptide signal activation. EMBO Reports, (2024), 25(2):489-505.

9. Liu X#, Chen Z#, Huang L#, Ouyang Y#, Wang Z, Wu S, Ye W, Yu B, Zhang Y, Yang C*, Lai J*. Salicylic acid attenuates brassinosteroid signaling via protein de-S-acylation. The EMBO Journal (2023), 42(13):e112998.

10. Lai R#, Li W#, Xu Z, Liu W, Zeng Q, Lin W, Jiang J, Lai J*, Yang C*. A robust method for identification of plant SUMOylation substrates in a library-based reconstitution system. Plant Communications, (2023), 4(4):100573.

11. Huang J, Huang J, Feng Q, Shi Y, Wang F, Zheng K, Huang Q, Jiang J, Luo S, Xie Y, Han D, Lai J*, Yang C*. SUMOylation facilitates the assembly of a Nuclear Factor-Y complex to enhance thermotolerance in Arabidopsis. Journal of Integrative Plant Biology, (2022), 65:692-702.

12. Jiang J, Ou X, Han D, He Z, Liu S, Mao N, Zhang Z, Peng CL, Lai J*, Yang C*. A diRNA-protein scaffold module mediates SMC5/6 recruitment in plant DNA repair. The Plant Cell, (2022), 34:3899-3914.

13. Huang W#, Zhao Y#, Liu X#, Ling L, Han D, Huang L, Gao C, Yang C*, Lai J*. ABA INSENSITIVE 5 confers geminivirus resistance via suppression of the viral promoter activity in plants. Journal of Plant Physiology, (2022), 275:153742.

14. Zheng XT#, Wang C#, Lin W#, Lin C, Han D, Xie Q, Lai J*, Yang C*. Importation of chloroplast proteins under heat stress is facilitated by their SUMO conjugations. New Phytologist, (2022), 235:173-187.

15. Lai R, Jiang J, Wang J, Du J, Lai J*, Yang C*. Functional characterization of three maize SIZ/PIAS-type SUMO E3 ligases. Journal of Plant Physiology, (2022), 268:153588.

16. Liu X#, Li M#, Li Y#, Chen Z, Zhuge C, Ouyang Y, Zhao Y, Lin Y, Xie Q, Yang C*, Lai J*. An ABHD17-like hydrolase screening system to identify de-S-acylation enzymes of protein substrates in plant cells. The Plant Cell, (2021), 33:3235-3249.

17. Han D, Lai J*, Yang C*. SUMOylation: A critical transcription modulator in plant cells. Plant Science, (2021), 310:110987.

18. Jiang J#*, Xie Y#, Du J, Yang C, Lai J*. A SUMO ligase OsMMS21 regulates rice development and auxin response. Journal of Plant Physiology, (2021), 263:153447.

19. Han D#, Chen C#, Xia S, Liu J, Shu J, Nguyen V, Lai J*, Cui Y*, Yang C*. Chromatin-associated SUMOylation controls the transcriptional switch between plant development and heat stress responses. Plant Communications, (2021), 2:100091.

20. Liu X#, Huang W#, Zhai Z, Ye T, Yang C*, Lai J*. Protein modification: A critical modulator in the interaction between geminiviruses and host plants. Plant, Cell & Environment, (2021), 44:1707-1715.

21. Wang F#, Liu Y#, Shi Y#, Han D#, Wu Y, Ye W, Yang H, Li G, Cui F, Wan S*, Lai J*, Yang C*. SUMOylation stabilizes the transcription factor DREB2A to improve plant thermotolerance. Plant Physiology, (2020), 183:41-50.

22. Zeng R#, Liu X#, Li H, Wu S, Huang W, Zhai Z, Li M, Lin Y, Xie Q, Yang C, Lai J*. Danger peptide signaling enhances internalization of a geminivirus symptom determinant in plant cells during infection. Journal of Experimental Botany, (2020), 71:2817-2827.

23. Zhou X, Du J, Liu Y, Yang C, Lai J*. Functional characterization of DiMMS21, a SUMO ligase from Desmodium intortum. Plant Physiology and Biochemistry, (2019), 141:206-214.

24. Jiang J#, Mao N#, Hu H, Tang J, Han D, Liu S, Wu Q, Liu Y, Peng C, Lai J*, Yang C*. A SWI/SNF subunit regulates chromosomal dissociation of structural maintenance complex 5 during DNA repair in plant cells. Proc Natl Acad Sci USA. (PNAS), (2019), 116:15288-15296.

25. Yu M, Meng B, Wang F, He Z, Hu R, Du J, Lai J*,Yang C*. A SUMO ligase AtMMS21 regulates activity of the 26S proteasome in root development. Plant Science, (2019). 280:314-320.

26. Zeng R#, Liu X#, Yang C*, Lai J*. Geminivirus C4: Interplaying with Receptor-like Kinases. Trends in Plant Science, (2018), 23:1044-1046.

27. Li H#, Zeng R#, Chen Z#, Liu X, Cao Z, Xie Q, Yang C, Lai J*. S-acylation of a geminivirus C4 protein is essential for regulating the CLAVATA pathway in symptom determination. Journal of Experimental Botany, (2018), 69:4459-4468.

28. Han W#, Han D#, He Z, Hu H, Wu Q, Zhang J, Jiang J, Qin G, Cui Y, Lai J*, Yang C*. The SWI/SNF subunit SWI3B regulates IAMT1 Expression via chromatin remodeling in Arabidopsis leaf development. Plant Science, (2018), 271:127-132.

29. Hu R, Zhu X, Xiang S, Zhang X, Liu Z, Zhu L, Cao Y, Yang C, Lai J*. Comparative proteomic analysis reveals diferential protein and energy metabolisms from two tobacco cultivars in response to cold stress. Acta Physiologiae Plantarum, (2018), 40:19.

30. Lai J#*, Jiang J#, Wu Q, Mao N, Han D, Hu H, Yang C*. The Transcriptional Coactivator ADA2b Recruits a Structural Maintenance Protein to Double-Strand Breaks during DNA Repair in Plants. Plant Physiology, (2018), 176:2613-2622.

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