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李瑞熙
副教授
0755-88018413
lirx@sustech.edu.cn

个人简介
 李瑞熙,2011年于北京大学获得博士学位,2011年至2016年在美国加州大学河边分校从事博士后研究。2016年底加入南方科技大学担任助理教授,2023年通过国际评审晋升为长聘副教授。实验室以模式植物拟南芥为研究对象,研究植物细胞内膜转运途径在协调植物生长发育和环境适应性过程中的调控作用,并关注植物细胞内膜系统与无膜结构的互作关系。近五年作为通讯作者(含共同)在Developmental Cell、Plant Cell、Nature Communications、Molecular Plant、Autophagy、Plant Physiology、Plant Journal 和 Current Opinion in Plant Biology等国际知名刊物发表论文,多项通讯作者成果获同行专家专文亮点评述。主持国自然面上项目3项、广东省面上项目1项和深圳市面上项目5项;作为核心成员参与广东省“珠江人才”创新团队(广创青年团队);先后入选深圳市高层次人才和国家特聘教授(青年)。

 

研究领域

1.  植物液泡运输和自噬调控的细胞学机制。

2.  植物内膜蛋白多聚化和相分离在调控囊泡分选和自噬进程中的重要作用。

3.  研究植物细胞内膜系统对RNA颗粒动态变化的调控机制和生理学功能。

4.  植物细胞内膜转运途径与转录途径协同调控植物逆境胁迫应答机制。

 

学习经历

• 2005年至2011年,北京大学,博士研究生。

• 2001年至2005年,中国农业大学,本科。

 

工作经历

• 2023年— 至今,南方科技大学生命科学院,长聘副教授

• 2016年—2023年,南方科技大大学生命科学院,助理教授

• 2011年至2016年,美国加州大学河边分校植物系,博士后研究。


教学课程: 

• 生命科学概论 - 本科生

• 分子生物学 - 本科生

 

获奖情况及荣誉

• 2023年,获得教育部特聘教授(青年)称号

• 2022 年,南方科技大学生命科学院“卓越教学奖”

• 2017年,获得深圳市高层次人才称号

• 2016 年,国际生长素大会,旅行资助奖。

• 2012 年,加州大学河边分校植物细胞生物系最佳博士后

• 2010年,全国青年学术论坛学术报告二等奖。

• 2002, 2003, 2004年,国家一等奖学金。

• 2003年,杜邦奖学金。

 

Representative publications at SUSTech:

2026 

· Peng J, Agudo-Canalejo J, González-Fuente J*, Chodasiewicz M*, Van Damme D*, Daskalakis V*, González-Fuente m, Gao R, Filippidi E*, Gu Y, Guo H, He S*, Huang K*, Huang S*, Jang GJ*, Jia M*, Knorr R*, Lai X*, Li R*, Liang Q, Liu C, Liu X, Miao Y*, Ouyang M, Quan X, Solis-Miranda J, Strader L, Üstün S*, Wang S, Wang W*, Wang Z*, Xiong Y, Xu C, Xu G, Ye H, Zhao C*, Zhu P*, Zhu Y, Gutierrez-Beltran B*, Moschou P*, Fang X*. (2026) A practical guide to investigating biomolecular condensates: a comment from the plant community. Science China Life Sciences, in revision.

· Yang L, Luo W, Huang T, Wang S, Cao Z, Jiang D, Pang L, Liu JX, He S, and Li R*. (2026) The ARLA1A-NAC089 module controls ER-phagy and coordinates with the UPR to maintain cellular homeostasis in plant. Developmental Cell, accepted.

2025

· He Y, Li R*. (2025) Interplay between membrane system and biomolecular condensates in plant. Journal of Experimental Botany, 77(1):5-15.

· Pang L, Huang Y, He Y, Jiang D, Li R*. (2025) The adaptor protein AP-3β disassembles heat-induced stress granules via 19S regulatory particle (RP) in Arabidopsis. Nature Communications, 16(1):2039.

2024

· Li R*, Pang L. (2024) An interplay between biomolecular condensates and SNARE proteins regulates plant autophagy. Autophagy, 20 (12): 2833-2835.

· Jiang D#, He Y#, Li H, Dai L, Sun B, Yang L, Pang L, Cao Z, Liu Y, Gao J, Zhang Y, Jiang L, Li R*. (2024) A condensates-to-VPS41-associated phagic vacuoles conversion pathway controls autophagy degradation in plants. Developmental Cell, 59(17):2287-2301. Highlighted by Developmental Cell (https://www.cell.com/developmental-cell/fulltext/S1534-5807(24)00488-X).

· He Y, Li R*. (2024) Electron microscopy analysis of membraneless condensates in plant cells. Methods in Molecular Biology (Plant Protein Secretion), 2481: 199-205.

· Zhuang X*, Li R*, Jiang L*. (2024) A century journey of organelles research in the plant endomembrane system. Plant Cell, 36(5):1312-1333.

2023

· Li R*, Pang L. (2023) Comparing the effects of proteins with IDRs on membrane system in yeast, mammalian cells, and the model plant Arabidopsis. Current Opinion in Plant Biology, 74:102375.

2022

· Pang L, Ma Z, Zhang X, Huang Y, Li R, Miao Y, Li R*. (2022) The small GTPase RABA2a recruits SNARE proteins to regulate the secretory pathway in parallel with the exocyst complex in Arabidopsis. Molecular Plant, 15(3):398-418. Highlighted by Molecular Plant (https://www.cell.com/molecular-plant/fulltext/S1674-2052(22)00051-X) and Faculty 1000 Prime (https://facultyopinions.com/prime/ 741197076).

· Jiang D, He Y, Zhou X, Cao Z, Pang L, Zhong S, Jiang L and Li R*. (2022) Arabidopsis HOPS subunit VPS41 carries out plant-specific roles in vacuolar transport and vegetative growth. Plant Physiology, 189(3):1416-1434. Highlighted by Plant Physiology (https://academic.oup.com/plphys/article/189/3/1186/6572818).

· Jin Z, Li T, Zhou Y, Huang Y, Ning C, Xu J, Hicks G, Raikhel N, Xiang Y and Li R*. (2022) The small molecule RHP1 promotes root hair tip growth by acting upstream of the RHD6-RSL4-dependent transcriptional pathway and ROP signaling in plants. The Plant Journal, 110(6):1636-1650.

· Li R*, Drakakaki G, Miao Y, Fu Y and Li X. (2022) Editorial: Coordination of plant endomembrane system with developmental signals and environmental stimuli. Frontiers in Plant Science, 13:977333.

· Liu Y, Mu C, Du D, Yang Y, Li L, Xuan W, Kircher S, Palme K, Li X*, Li R*. (2022) Alkaline stress reduces root waving by regulating PIN7 vacuolar translocation. Frontiers in Plant Science, 13:1049144.

2017

· Li R, Rodriguez Furlan C, Wang J, Van de Ven W, Gao T, Raikhel N and Hicks G. (2017) Different endomembrane trafficking pathways exist to establish apical and basal polarities. The Plant Cell, 29(1):90-108. Highlighted by The Plant Cell (https://academic.oup.com/plcell/article/29/1/1/6099028).

 

Co-authored papers at SUSTech:

· Liao Y, Li X, Ma W, Lin X, Kuang J, Zheng X, Li Z, Qiao F, Liu C, Zhou J, Li F, Li R, Kang BH, Li H, Gao C. (2025) The plant retromer components SNXs bind to ATG8 and CLASP to mediate autophagosome movement along microtubules. Molecular Plant, 18(3):416-436.

· Huang J, Du J, Liu Y, Lu L, Xu Y, Shi J, Liu Q, Li Q, Liu Y, Chen Y, Du M, Zhao Y, Huo L, Wang W, Ding C, Wei L, Wu J, Yuan YW, Chen J, Li R, Cui F, Zhang X. (2025) RH3 enhances antiviral defense by facilitating small RNA loading into Argonaute 2 at endoplasmic reticulum-chloroplast membrane contact sites. Nature Communications, 16(1):1953.

· Chen C, Zhang Y, Cai J, Qiu Y, Li L, Gao C, Gao Y, Ke M, Wu S, Wei C, Chen J, Xu T, Friml J, Wang J, Li R, Chao D, Zhang B, Chen X, Gao Z. (2023) Multi-copper oxidases SKU5 and SKS1 coordinate cell wall formation using apoplastic redox-based reactions in roots. Plant Physiology, 192(3):2243–2260.

· Ke M, Ma Z, Wang D, Sun Y, Wen C, Huang D, Chen Z, Yang L, Tan S, Li R, Friml J, Miao Y and Chen X. (2020) Salicylic acid regulates PIN2 auxin transporter hyperclustering and root gravitropic growth via Remorin-dependent lipid nanodomain organization in Arabidopsis thaliana. New Phytologist, 229(2):963-978.

· Jin H, Pang L, Fang S, Li R, Zhu ZQ. (2018) High ambient temperature antagonizes ethylene-induced exaggerated apical hook formation in etiolated Arabidopsis seedlings. Plant Cell & Environment, 41(12):2858-2868.