张杰研究组

植物免疫调控与微生物识别研究组

组长:张杰 博士 研究员 博士生导师

研究方向
1. 植物免疫激活的分子机制;2. 病原微生物的致病机理

 

研究内容和意义

研究组以农作物重要病害为研究对象,研究植物免疫受体对微生物的识别和免疫激活机制,病原微生物逃逸和操控植物免疫识别和信号传导的机理,为植物抗病性改良提供靶标和策略指导。

 

组长介绍

课题组长:张杰 研究员 博士生导师
电话:010-64806135
电子邮件:zhangjie#im.ac.cn(请将#换成@

通讯地址:北京市朝阳区北辰西路1号院3号,
中国科学院微生物研究所
邮编:100101

学习经历
1998-2002
武汉大学,学士
2002-2007
中国科学院上海生命科学研究院植物生理生态研究所,博士

工作经历
2018/12- 中国科学院微生物研究所,研究组长
2011/11-2018/11 中国科学院微生物研究所,青年研究组长

2008/10-2011/10 北京生命科学研究所,研究助理

2007/11-2008/09 美国Columbia University/Baylor College of Medicine,访问学者

获奖情况
2019年 国家优秀青年科学基金
2017年 中国科学院青年创新促进会优秀会员
2013年 中国科学院青年创新促进会会员
2010年 北京市博士后杰出英才
学术兼职
2019/07-至今 中国植生学会植物微生物分子互作专业委员会副主任
2019/07-至今 中国植生学会青年工作委员会委员
2017/10-至今 中国植物保护学会青年工作委员会委员
 

 

研究队伍(请将#换成@

工作人员
孙丽璠 助理研究员 sunlf#im.ac.cn
杨晓彤 实习研究员 yangxt#im.ac.cn

在读研究生
硕士生 赵培辰2016级
硕士生 韩婷婷2017级
硕士生 叶子芩2018级
硕士生 武晓云2019级
硕士生 汪昱伶2020级
已培养学生
硕士生 杨帆 2013级
硕士生 邢海影 2014级
硕士生 王凯伦 2015级

发表论文 (# indicates first author; * indicates corresponding author)

  1. L Sun, J Qin, W Rong, Hao Ni, H Guo and J Zhang*, Cellophane surface-induced gene, VdCSIN1, regulates hyphopodium formation and pathogenesis via cAMP-mediated signaling in Verticillium dahliae, Molecular Plant Pathology, 2019, 20, 323-333.  
  2. J Zhang, S Dong, W Wang, J Zhao, X Chen, H Guo, C he, Z He, Z Kang, Y Li, Y Peng, G Wang, X Zhou, Y Wang*, and J Zhou*, Plant immunity and sustainable control of pests in China: Advances, opportunities and challenges (in Chinese), Scientia Sinica Vitae, 2019, 49, 1-29. 
  3. S Mei, Z Wang, J Zhang*, and W Rong*, First report of leaf blight on Stenotaphrum secundatum caused by Nigrospora osmanthi in China, Plant Disease Notes, 2019, 1031783-1783. 
  4. F Gao, B Zhang, J Zhao, J Huang, P Jia, S WangJ Zhang, J Zhou, and H Guo, Deacetylation of chitin oligomers increases virulence in soil-borne fungal pathogens, Nature Plants, 2019, 5, 1167-1176 
  5. J Qin, K Wang, L Sun, H Xing, S Wang, L Li, S Chen,  H Guo* and J Zhang*, The plant specific transcription factors CBP60g and SARD1 are targeted by a Verticillium secretory protein VdSCP41 to modulate immunity, eLife, 2018, doi: 10.7554/eLife.34902.   
  6. J Qin#, X Zhou#, L Sun, K Wang, F Yang, H Liao, W Rong, J Yin, H Chen, X Chen* and Jie Zhang*, The Xanthomonas effector XopK harbours E3 ubiquitin-ligase activity that is required for virulence, New Phytologist, 2018, 220, 219-231.  
  7. X Zhou, L Jia, H Wang, P Zhao, W Wang, N Liu, S Song, Y Wu, L Su, J Zhang, N Zhong*, and G Xia*, The potato transcription factor StbZIP61 regulates dynamic biosynthesis of salicylic acid in defense against Phytophthora infestans infection, The Plant Journal, 2018, 95, 1055-1068.  
  8. L Sun, J Qin, K Wang, J Zhang*, Expansion of pathogen recognition specificity in plants using pattern recognition receptors and artificially designed decoys, Science China Life Sciences, 2017, 9, 797-805.  
  9. S Wang, H Xing, C Hua, H Guo* and J Zhang*, An improved single-step cloning strategy simplifies the Agrobacterium tumefaciens-mediated transformation (ATMT)-based gene disruption method for Verticillium dahliae, Phytopathology, 2016, 106, 645-652.  
  10. Y Li#, L Han#, H Wang, J Zhang, S Sun, D Feng, C Yang, Y Sun, N Zhong*, and G Xia*, The thioredoxin GbNRX1 plays a crucial role in homeostasis of apoplastic reactive oxygen species in response to Verticillium dahliae infection in cotton, Plant Physiology, 2016, 170, 2392-2406.  
  11. S Kang, F Yang, L Li, HChen, S Chen, and J Zhang*, The Arabidopsis transcription factor BRASSINOSTEROID INSENSITIVE1-ETHYL METHANESULFONATE-SUPPRESSOR1 is a direct substrate of MITOGEN-ACTIVATED PROTEIN KINASE6 and regulates immunity, Plant Physiology, 2015, 167, 1076-1086.  
  12. F Feng, F Yang, W Rong, X Wu, J Zhang, S Chen, C He*, and J Zhou*, A Xanthomonas uridine 5’-monophosphate transferase inhibits plant immune kinases, Nature, 2012, 485, 114-118.  
  13. Z Zhang, Y Wu, M Gao, J Zhang, Q Kong, Y Liu, H Ba, J Zhou, and Y Zhang*, Disruption of PAMP-induced MAP kinase cascade by a Pseudomonas syringae effector activates plant immunity mediated by the NB-LRR protein SUMM2, Cell Host Microbe, 2012, 11, 253-263.  
  14. T Xiang, N Zong, J Zhang, J Chen, M Chen and J Zhou*, BAK1 is not a target of the Pseudomonas syringae effector AvrPto, Molecular Plant Microbe Interactions, 2011, 24, 100-107.  
  15. J Zhang*, and J Zhou, Plant immunity triggered by microbial molecular signatures, Molecular Plant, 2010, 3, 783-793.  
  16. J Zhang#, W Li#, T Xiang, Z Liu, K Laluk, X Ding, Y Zou, M Gao, X Zhang, S Chen, Tesfaye Mengiste, Yuelin Zhang, and Jian-min Zhou*, Receptor-like cytoplasmic kinases integrate signaling from multiple plant immune receptors and are targeted by a Pseudomonas syringae effector, Cell Host Microbe, 2010, 7, 290-301.  
  17. J Zhang#, H Lu#, X Li, Y Li, H Cui, C Wen, X Tang, Z Su, and J Zhou*, Effector-triggered and pathogen-associated molecular pattern–triggered immunity differentially contribute to basal resistance to Pseudomonas syringae, Molecular Plant Microbe Interactions, 2010, 23, 940-948.  
  18. L Chen#, H Wang#, J Zhang, L Gu, N Huang, J Zhou, and J Chai*, Structural basis for the catalytic mechanism of phosphothreonine lyase, Nature Structural Molecular Biology, 2008, 15, 101-102.  
  19. T Xiang#, N Zong#, Y Zou#, Y Wu, J Zhang, W Xing, Y Li, X Tang, L Zhu, J Chai, and J Zhou*, Pseudomonas syringae effector AvrPto blocks innate immunity by targeting receptor kinases, Current Biology, 2008, 18, 74-80. 
  20. J Zhang, F Shao, Y Li, H Cui, Li Chen, H Li, Y Zou, C Long, L Lan, J Chai, S Chen, X Tang, and J Zhou*, A Pseudomonas syringae effector inactivates MAPKs to suppress PAMP-induced immunity in plants, Cell Host Microbe, 2007, 1, 175-185.  
  21. H Li#, H Xu#, Y Zhou#, J Zhang, C Long, S Li, S Chen, J Zhou, and F Shao*, The phosphothreonine lyase activity of a bacterial type III effector family, Science, 2007, 315, 1000-1003.  
  22. X Li, H Lin, W Zhang, Y Zou, J Zhang, X Tang, and J Zhou*, Flagellin induces innate immunity in nonhost interactions that is suppressed by Pseudomonas syringae effectors, Proceedings of the National Academy of Sciences, 2005, 102, 12990-12995.