梁祥修

发布者:生命科学学院发布时间:2021-11-17浏览次数:7248

梁祥修

首聘教授(博士生导师)

所属单位:植物学系

Emailliangxiangxiu@scau.edu.cn



研究方向

长期从事植物-微生物互作研究以第一作者和通讯作者(含共同)Cell Host MicrobeCell ResearchAnnual Review of Plant BiologyeLifeEMBO ReportsNew PhytologistJIPB期刊发表SCI论文多篇。

个人研究主要关注于:
1.植物免疫与代谢通路的交互调控机制

2.微生物对(药用)植物有效次生代谢产物积累的调控

3.植物对病原微生物的识别及免疫抗性激活机制


教育经历

2004.9-2008.6  烟台大学                  生物科学专业            理学学士

2008.9-2011.6  兰州大学                  细胞生物学专业           理学硕士

2009.9-2011.5  中国科学院动物研究所          联合培养研究生

2011.9-2015.6  中国科学院遗传与发育生物学研究所  遗传学专业             理学博士


工作经历 

2015.8-2018.5       中国科学院      微生物研究所             博士后

2018.7-2021.9       中国农业大学     植物保护学院           副教授(博导)

2021.10-          华南农业大学    生命科学学院         首聘教授(博导)


主要学术及社会兼职

1.Faculty Opinions助理会员

2.中国植物学会植物细胞生物学专业委员会委员 

3.中国遗传学会细胞遗传学分会委员

4.国家南药科技创新联盟常务副理事长

5.广东省植物学会监事

6.New Crops、《农业生物技术学报》、《广东农业科学》青年编委

7.担任Plant Cell、Plant Physiology、New Phytologist、PLoS Pathogens, Journal of Integrative Plant Biology等国内外期刊审稿人


科研项目

1.广东省自然科学基金杰出青年项目         (2024-2027)            主持

2.国家自然科学基金委面上项目            (2023-2026)            主持

3.国家自然科学基金委青年科学基金项目     (2021-2023)            主持

4.华南农业大学高层次人才引进启动经费     (2021-2026)            主持

5.华南农业大学“双一流学科建设和提升专项”   (2022-2025)               主持

6.参与科技部重大研究计划、国家自然科学基金重点和国际合作项目、“十四五”广东省农业科技创新十大主攻方向“揭榜挂帅”等科研项目。


论文发表

第一/通讯作者论文(#第一作者,*通讯作者)

1. Bao Y, Zhang Q, Zhu H, Pei Y, Zhao Y, Li Y, Ji P, Du D, Peng H, Xu G, Wang X, Yin Z, Ai G, Liang X*(共同通讯), Dou D*. (2024). Metformin blocks BIK1-mediated CPK28 phosphorylation and enhances plant immunity. Journal of Advanced Research. 10.1016/j.jare.2024.02.025. (IF 10.7)

2. Chen R, Ma D, Bao Y, Wang W, Du D, Chen X, Dou D*, Liang X*. (2024). Joint application of plant immunity-inducing elicitors and fungicides to control Phytophthora diseases. Phytopathology Research. In Press (IF 3.4)

3. Zhang Q, Wang D, He Z, Bao Y, Wang X, Xu G, Yang J, Dou D*, Feng X*, Liang X*. (2024). A Pair of Soybean Malectin-like Domain-containing Receptor-like Kinases Jointly Regulate Pattern-triggered Immunity by Forming Hetero-oligomers. Phytopathology Research. In Press (IF 3.4)

4. Ma M#, Li M#, Zhou R, Yu JB, Wu Y, Zhang X, Wang J, Zhou JM*, Liang X*. (2023). CPR5 positively regulates pattern-triggered immunity via a mediator protein. Journal of Integrative Plant Biology. 65(7):1613-1619. (IF 11.4)

5. Bao Y, Li Y, Chang Q, Chen R, Wang W, Zhang Q, Chen S, Xu G, Wang X, Cui F, Dou D*, Liang X*. (2023). A pair of G-type lectin receptor-like kinases modulates nlp20-mediated immune responses by coupling to the RLP23 receptor complex. Journal of Integrative Plant Biology. 65(5):1312-1327. (IF 11.4)

6. Li Y, Zhang Q, Gong L, Kong J, Wang X, Xu G, Chen X, Dou D, Liang X*. (2022). Extra-large G proteins regulate disease resistance by directly coupling to immune receptors in Nicotiana benthamiana. Phytopathology Research 4: 49. (IF 3.4)

7. Ma M, Wang W, Fei Y, Cheng HY, Song B, Zhou Z, Zhao Y, Zhang X, Li L, Chen S, Wang J, Liang X*(共同通讯), Zhou JM*. (2022). A surface receptor-coupled G protein regulates plant immunity through nuclear protein kinases. Cell Host Microbe. 30(11):1602-1614.e5. (IF 30.3) (入选当期Featured Article”,Cell Host Microbe配发专文导读)

8. Zhao Y, Shi Y, Jiang G, Wu Y, Ma M, Zhang X, Liang X*(共同通讯), Zhou JM*. (2022). Rice extra-large G proteins play pivotal roles in controlling disease resistance and yield-related traits. New phytologist. 234(2): 607-617 (IF 9.4).

9. Zhang Q, Chen S, Bao Y, Wang D, Wang W, Chen R, Li Y, Xu G, Feng X, Liang X*(共同通讯), Dou D*. (2022). Functional diversification analysis of soybean Malectin/Malectin-like domain-containing receptor-like kinases in immunity by transient expression assays. Frontiers in Plant Science. 13: 938876. (IF 5.6)

10. Liang X*(共同通讯) Zhang J*. (2022). Regulation of plant responses to biotic and abiotic stress by receptor-like cytoplasmic kinases. Stress Biology. 2:25.

11. Liang X#*(共同通讯), Bao Y# , Zhang M, Du D, Rao S, Li Y, Wang X, Xu G, Zhou Z, Duan W, Ai G, Lu J, Zhou JM, Dou D*. (2021). A Phytophthora capsici RXLR effector targets and inhibits the central immune kinases to suppress plant immunity. New phytologist. 232(1):264-278. (IF 9.4)

12. Wang D#, Liang X#(共同一作), Bao Y, Yang S, Zhang X, Yu H, Zhang Q, Xu G, Feng X*, Dou D*. (2020). A malectin-like receptor kinase regulates cell death and pattern-triggered immunity in soybean. EMBO Reports. 21:e50442. (IF 7.7)    

13. Liang X, Zhou JM. (2018). Receptor-like cytoplasmic kinases: Central players in plant receptor kinase-mediated signaling. Annual Review of Plant Biology. 69: 267-299. (高被引论文) (IF 23.9)

14. Liang X#, Ma M#, Zhou Z, Wang J, Yang X, Rao S, Bi G, Li L, Zhang X, Chai J, Chen S, Zhou JM. (2018). Ligand-triggered de-repression of Arabidopsis heterotrimeric G proteins coupled to immune receptor kinases. Cell Research. 5: 529-543. (Cell Research配发Research highlight专文评述) (IF 44.1)

15. Liang X, Zhou JM. (2018). The secret of fertilization in flowering plants unveiled. Science Bulletin. 63: 408-410. (Invited commentary) (IF 18.9)

16. Liang X#, Ding P#, Lian K, Wang J, Ma M, Li L, Li M, Zhang X, Chen S, Zhang Y*, Zhou JM*. (2016). Arabidopsis heterotrimeric G proteins regulate immunity by directly coupling to the FLS2 receptor. eLife. 5: e13568. (Facluty 1000推荐) (IF 7.7)

其它论文:

1. Li W, Li P, Deng Y, Situ J, He Z, Zhou W, Li M, Xi P, Liang X, Kong G, Jiang Z. (2024). A plant cell death-inducing protein from litchi interacts with Peronophythora litchii pectate lyase and enhances plant resistance. Nature Communications. 15(1):22. (IF 16.6)

2. Su J#, Wang Y#, Bai M#, Peng T, Li H, Xu HJ, Guo G, Bai H, Rong N, Sahu SK, He H, Liang X, Jin C, Liu W, Strube ML, Gram L, Li Y, Wang E, Liu H*, Wu H*. (2023). Soil conditions and the plant microbiome boost the accumulation of monoterpenes in the fruit of Citrus reticulata 'Chachi'. Microbiome. 11(1):61. (IF 15.5)

3. Wang J, Grubb LE, Wang J, Liang X, Li L, Gao C, Ma M, Feng F, Li M, Li L, Zhang X, Yu F, Xie Q, Chen S, Zipfel C, Monaghan J, Zhou JM. (2018). A regulatory module controlling homeostasis of a plant immune kinase. Molecular Cell. 69: 1-12. (IF 16.0)  

4. Zhang M, Chiang YH, Toruño TY, Lee D, Ma M, Liang X, Lal NK, Lemos M, Lu YJ, Ma S, Liu J, Day B, Dinesh-Kumar SP, Dehesh K, Dou D, Zhou JM, Coaker G. (2018). The MAP4 kinase SIK1 ensures robust extracellular ROS burst and antibacterial immunity in plants. Cell Host Microbe. 24: 379-391. (IF 30.3)

5. Couto D, Niebergall R, Liang X, Bücherl CA, Sklenar J, Macho AP, Ntoukakis V, Derbyshire P, Altenbach D, Maclean D, Robatzek S, Uhrig J, Menke F, Zhou JM, Zipfel C. (2016). The Arabidopsis Protein Phosphatase PP2C38 Negatively Regulates the Central Immune Kinase BIK1. PLoS Pathogens. 12: e1005811. (IF 6.7)  

6. Li L, Li M, Yu L, Zhou Z, Liang X, Liu Z, Cai G, Gao L, Zhang X, Wang Y, Chen S, Zhou JM. (2014). The FLS2-associated kinase BIK1 directly phosphorylates the NADPH oxidase RbohD to control plant immunity. Cell Host Microbe. 15: 329-38. (高被引论文) (IF 30.3)