张可炜 - 山东大学 - 生命科学学院

个人简介

教育背景博士 2013-09-2017-07 山东大学细胞生物学硕士 1990-09-1993-07 山东大学植物学本科 1986-09-1990-07 山东大学植物学工作经历 2018-09至今山东大学教授 2000-10至2018-8 山东大学副教授 1995-07至2000-10 山东大学讲师 1993-07至1995-07 山东大学助教

研究领域

1.低磷胁迫下玉米高光合效率的分子机制研究 2.棉花耐盐耐旱等抗逆相关基因的克隆及应用

近期论文

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1.Zhang KW, Liu HH, Song JL, Wu W, Li KP, Zhang JR. Physiological and comparative proteome analyses reveal low-phosphate tolerance and enhanced photosynthesis in a maize mutant owing to reinforced inorganic phosphate recycling. BMC Plant Biology, 2016, 161: 129. 2.Zhang KW, Song JL, Chen XG, Yin TT, Liu CB, Zhang JR. Expression of theThellungiella halophilavacuolar H+-pyrophosphatase gene (TsVP) in cotton improves salinity tolerance and increases seed cotton yield in a saline field. Euphytica, 2016,211（2）:231-244. 3.Kewei Zhang, Hanhan Liu, Peiling Tao, Huang Chen. Comparative Proteomic Analyses Provide New Insights into Low Phosphorus Stress Responses in Maize Leaves. Plos one, 2014.9(5):e98215. 4.Kewei Zhang, Juan Wang, Lijun Lian, Wenju Fan, Ning Guo, Sulian Lv. Increased chilling tolerance following transfer of abetAgene enhancing glycinebetaine synthesis in cotton (Gossypium hirsutumL.). Plant Molecular Biology Reporter, 2012,30(5):1158-1171. 5.Kewei Zhang*, Ning Guo, Lijun Lian, Juan Wang, Sulian Lv, Juren Zhang Improved salt tolerance and seed cotton yield in cotton (Gossypium hirsutumL.) by transformation withbetAgene for glycinebetaine synthesis. Euphytica, 2011,181(1):1-16. 6.K. ZHANG*, Y. LI , L. LIAN. Pollen-mediated transgene flow in maize grown in the Huang-huai-hai region in China. Journal of Agricultural Science, 2011,149 (2):205-216. 7.Kewei Zhang, Juan Wang, Xiaorui Hu, Aifang Yang, Juren Zhang. Agrobacterium-mediated transformation of shoots apex of Kentucky bluegrass (Poa pratensisL.) and Production of Transgenic Plants CarryingbetAGene. Plant Cell, Tissue and Organ Culture, 2010,102(2): 135-143. 8. Sulian Lv,Kewei Zhang, Qiang Gao, Lijun Lian, Yingjie Song, Juren Zhang. Overexpression of an H+-PPase gene fromThellungiella halophilain cotton enhances salt tolerance and improves growth and photosynthetic performance. Plant and Cell Physiology, 2008, 49(8): 1150-1164. 9. Li KP, Xu CZ, Li ZX,Zhang KW, Yang AF, Zhang JR, Comparative proteome analyses of phosphorus responses in maize (Zea maysL.) roots of wild-type and low-P-tolerant mutant reveal root characteristics associated with P-efficiency. The Plant Journal, 2008,55:927-939. 10. Li KP, Xu CZ, Li ZX,Zhang KW, Yang AF, Zhang JR, Proteomic analysis of roots growth and metabolic changes under phosphorus deficit in maize (Zea maysL.) plants. Proteomics, 2007, 7: 1501-1512.