王良省 | |||||||||||
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教师简介
王良省 博士,教授,博士生导师,植物生理学与生物化学国家重点实验室项目负责人(Principal Investigator)。2012年博士毕业于清华大学生命科学学院,2012 - 2016年在美国康奈尔大学博伊斯汤普逊研究所(Boyce Thompson Institute, Cornell University)从事植物单线态氧信号转导机理研究,2016 - 2020年在德国的慕尼黑大学生物系(Department of Biology, University of Munich)从事植物表观遗传学研究。2020年以“杰出人才”引进中国农业大学,任生物学院教授。 学习与工作经历 2001.09 - 2005.07,山东大学,生命科学学院,学士 2005.09 - 2008.07,清华大学,生命科学学院,硕士 2008.09 - 2012.07,清华大学,生命科学学院,博士 2012.09 - 2016.08,康奈尔大学,博伊斯汤普逊研究所,博士后 2016.09 - 2020.07,慕尼黑大学,生物系,博士后 2020.11 - 今,中国农业大学,生物学院,教授 研究方向 本实验室的主要研究方向为光合作用与逆境信号转导。植物光合作用受到逆境影响时,叶绿体中会产生大量的活性氧(主要是单线态氧,1O2),1O2的过量产生会损伤光合中心,降低光合作用,抑制植物生长甚至引起植株死亡。实验室以拟南芥和玉米为研究对象,以叶绿体为突破口,研究活性氧信号的感知、传递过程,挖掘植物响应活性氧胁迫的关键基因,解析植物应对活性氧胁迫的新途径、新机制。 主讲课程 联系方式 电话:010-62732958 邮件:wangls at cau.edu.cn 通讯地址:北京市海淀区圆明园西路2号,中国农业大学生物学院,100193 发表文章 #Equal Contribution, * Corresponding Author Articlesin peer-reviewed journals: 1. Wang L, Leister D, Kleine T* (2020). Chloroplast development and gunsignaling are independent of the RdDM pathway.Scientific Reports.10:15412 2. Wang L*, Leister D, Guan L, Zheng Y, Schneider K, Lehmann M, Apel K, Kleine T (2020).TheArabidopsisSAFEGUARD1 suppresses singlet oxygen-induced stress responses by protecting grana margins.PNAS.117 (12): 6918-6927. 3. Wang L*, Apel K (2019). Dose-dependent effects of1O2in chloroplasts are determined by its timing and localization of production.Journal of Experimental Botany. 70:29-40. 4. Lee K, Lehmann M, Paul MV,Wang L, Luckner M, Wanner G, Geigenberger P, Leister D, Kleine T* (2019).Lack of FIBRILLIN6 inArabidopsis thalianaaffects light acclimation and sulfate metabolism.New Phytologist. 16246. 5. Sun L, Wang L, Zheng Z, Liu D* (2018).Identification and characterization of an Arabidopsis phosphate starvation-induced secreted acid phosphatase as a vegetative storage protein. Plant Science. 277: 278-284. 6. Wang L, Liu D* (2018) Functions and regulation of phosphate starvation-induced secreted acid phosphatases in higher plants. Plant Science. 271: 108-116. 7. LeisterD,WangL, KleineT* (2017). Organellar gene expression and acclimation of plants to environmental stress.Frontiers in Plant Science. 8:387. 8. Wang L*, Liu D(2017). Analyses of root-secreted acid phosphatase activity in Arabidopsis. Bio-protocol. 7:7. 9. Wang D, Liu H, Zhai G, Wang L, Shao J, Tao Y* (2016). OspTAC2 encodes a pentatricopeptide repeat protein and regulates rice chloroplast development. Journal of Genetics and Genomics. 43: 601-608. 10. Wang L#, Kim C#, Xu X, Piskurewicz U, Dogra D, Singh S, Mahler H, Apel K* (2016).Singlet oxygen- and EXECUTER1-mediated signaling is initiated in grana margins and depends on the protease FtsH2. PNAS.113: E3792-E3800. 11. Chen S, Kim C, Lee J, Lee H, Fei Z, Wang L, Apel K* (2015). Blocking the QB-binding site of photosystem II by tenuazonic acid, a non–host-specific toxin of Alternaria alternata, activates singlet oxygen-mediated and EXECUTER-dependent signaling in Arabidopsis.Plant, Cell & Environment. 38:1069–1080. 12. Wang L, Lu S, Zhang Y, Liu D* (2014). Comparative genetic analysis of Arabidopsis purple acid phosphatases AtPAP10, AtPAP12, and AtPAP26 provides new insights into their roles in plant adaptation to phosphate deprivation. Journal of Integrative Plant Biology. 56: 299-314. 13. Wang L, Dong J, Gao Z, Liu D* (2012). The Arabidopsisgene HYPERSENSITIVE TO PHOSPHATE STARVATION 3 encodes ETHYLENE OVERPRODUCTION 1. Plant & cell physiology.53(6): 1093–1105. 14. Wang L, Liu D* (2012). Arabidopsis purple acid phosphatase 10 is a component of plant adaptive mechanism to phosphate limitation. Plant signaling & behavior.7:3 1-5. 15. Wang L#, Li Z#, Qian W, Guo W, Gao X, Huang L, Wang H, Zhu H, Wu JW, Wang D, Liu D* (2011). The Arabidopsis purple acid phosphatase AtPAP10 is predominantly associated with the root surface and plays an important role in plant tolerance to phosphate limitation. Plant Physiology. 157: 1283-1299. Articles in books: 1. Wang L*, Kleine T (2020). Singlet oxygen and protochlorophyllide detection in Arabidopsis thaliana.InReactive Oxygen Species: Methods and Protocols, Methods in Molecular Biology. Springer. pp 63-69 2. Wang L, Apel K* (2016) Chapter 39 Singlet Oxygen in Higher Plants.InSinglet Oxygen: Applications in Biosciences and Nanosciences, Vol 2. The Royal Society of Chemistry, pp 265-278. |
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