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章文华——南京农业大学——植物生理与分子生物学;逆境信号转导;作物抗逆性分子遗传改良

生物技术 时间:2019-11-21 21:58:49 作者:莫敖坤
【http://www.globalcon.cn - 中国农业科技网】

导师姓名:章文华         导师类别:博士生导师  

姓名: 章文华       性别: 男       出生年月:

所在院校: 南京农业大学       所在院系: 生命科学学院

职称: 教授       招生专业: 植物学

研究领域: 植物生理与分子生物学;逆境信号转导;作物抗逆性分子遗传改良

联系方式

E-Mail: whzhang@njau.edu.cn       电话: 025-*******       邮编: 0

地址:

个人简介

  任职:
  “Plant Signaling Behavior” 编委, “植物生理与分子生物学学报”常务编委,“云南植物研究”编委。中国植物生理学会会员,美国植物生物学会会员。
  受教育和工作经历:
  1983,8-1987,7 南京农业大学 学士
  1987,9-1990,7 南京农业大学 硕士
  1998,9-2001,7 南京农业大学 博士
  2000,2-2000,7 日本香川大学 进修
  2001,10-2004,6 美国 Kansas State University, 博士后
  1990,8-2001,10 南京农业大学 助教,讲师,副教授
  2004,6-至今 南京农业大学 教授,博导
  研究成果:
  发现并证明植物叶片中存在由磷脂酶Da1和磷脂酸转导的脱落酸信号途径:ABA?PLDa1?PA?ABI1。阐明PA-ABI1结合的生理意义是抑制ABI1,促进ABA诱导的气孔关闭。证实植物遭受氧化胁迫时,PLDd被激活,生成磷脂酸,降低细胞编程性死亡。在植物耐盐机理研究方面,发现磷脂信号参与盐和一氧化氮诱导的液泡膜质子泵激活。在PNAS, Science, Plant Cell, Planta等期刊上发表SCI论文22篇。

著作及论文

  近期代表论文:
  1. Mishra G*, Zhang W*, Deng F, Zhao J, Wang X. A bifurcating pathway directs abscisic acid effects on stomatal closure and opening in Arabidopsis. Science, 2006,312: 264-266. (*Authors contributed equally to this work)
  2. Zhang Y, Wang L, Liu Y, Zhang Q, Wei Q, Zhang W*. Nitric oxide enhances salt tolerance in maize seedlings through increasing activities of proton-pump and Na+/H+ antiport in the tonoplast. Planta, 2006, 224:545-555. (*corresponding author)
  3. Wang X, Devaiah S P , Zhang W, Welti R. Signaling functions of phosphatidic acid Progress in Lipid Research, 2006,,45: 250-278 (IF 11.4)
  4. Zhang W*, Yu L, Zhang Y, Wang X*. Phospholipase D in the signaling networks of plant response to abscisic acid and reactive oxygen species. Biochimica Biophysica Acta-Molecular and Cell Biology of Lipids, 2005, 1736: 1-9. (*corresponding authors)
  5. Zhang W, Qin C, Zhao J, Wang X. Phospholipase Dα1-derived phosphatidic acid interacts with ABI1 phosphatase 2C and regulates abscisic acid signaling. Proc. Natl. Acad. Sci. USA, 2004, 101, 9508-9513.
  6. Li W, Li M, Zhang W, Welti R, Wang X. The plasma membrane-bound phospholipase Dd enhances freezing tolerance in Arabidopsis thaliana. Nature Biotechnology, 2004, 22: 427-433. (IF 22.4)
  7. Zhang W, Wang C, Qin C, Wood T, Olafsdottir G, Welti R, Wang X. The oleate-stimulated phospholipase D, PLDd, and phosphatidic acid decrease H2O2-induced cell death in Arabidopsis. Plant Cell, 2003, 15: 2285-2295.
  8. Zhang W, Chen Q, Yu B, Liu Y. Tonoplast H+-ATPase activity in barley roots is regulated by ATP and pyrophosphate contents under salt stress. Journal of Plant Physiology and Plant Molecular Biology, 2004, 30: 45-52.
  9. Zhang W, Chen Q, Liu Y. Relationship between H+-ATPase activity and fluidity of tonoplast in barley roots under NaCl stress. Acta Botanica Sinica, 2002, 44: 292-296.
  10. Zhang W, Liu Y. Relationship between tonoplast H+-ATPase activity, ion uptake and calcium in barley roots under NaCl stress. Acta Botanica Sinica, 2002, 44: 667-672.
  11. Liang Y, Zhang W, Chen Q, Ding R. Effects of silicon on H+-ATPase and H+-PPase activity, fatty acid composition and fluidity of tonoplast vesicles from roots of salt-stressed barley (Hordeum vulgare L.). Environmental and Experimental Botany, 2005, 53, 29-37.
  12. Liang YC, Zhang WH, Chen Q, Liu YL and Ding RX. Effect of exogenous silicon (Si) on H+-ATPase activity, phospholipids and fluidity of plasma membrane in leaves of salt-stressed barley (Hordeum vulgare L.). Environmental and Experimental Botany, 2006,57,212-219
  13. Liu H, Liu Y, Yu B, Liu Z, Zhang W. Increased polyamines conjugated to tonoplast vesicles correlate with maintenance of the H+-ATPase and H+-PPase activities and enchanced osmotic stress tolerance in wheat. Journal of Plant Growth Regulation, 2004, 23: 156-165
  14. Liu HP, Yu BJ, Zhang WH, Liu YL. Effect of osmotic stress on the activity of H+-ATPase and the levels of covalently and noncovalently conjugated polyamines in plasma membrane preparation from wheat seedling roots. Plant Science, 2005, 168: 1599-1607.
  15. Su GX, An ZF, Zhang WH, Liu YL. Light promotes the synthesis of lignin through the production of H2O2 mediated by diamine oxidases in soybean hypocotyls. Journal of Plant Physiology. 2005 , 162: 1297-1303.
  16. Su GX, Zhang WH, Liu YL. Involvement of Hydrogen Peroxide Generated by Polyamine Oxidative Degradation in the Development of Lateral Roots in Soybean. Journal of Integrative Plant Biology, 2006, 48: 426-432100-104.

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