石河子大学并校二十周年学术活动暨农学院2016年系列学术讲座(十)

发布者:绿洲生态发布时间:2016-08-26浏览次数:281

报告题目I:培育抗旱耐高温耐盐碱的棉花新品种

报告题目II:植物油及页岩油和页岩气:一个关于两个豆类植物-蓖麻和瓜尔豆的故事

报 告 人:张红  教授  美国德州理工大学

时间:2016年7月5日上午10:00~12:30

地点:农学院主楼(绿1)201会议室

主办:石河子大学农学院、新疆生产建设兵团绿洲生态农业重点实验室

  

报告人简介

张红,  美国德州理工大学教授。1982年四川大学生物系毕业,获理学学士学位,1989年于美国密西根州立大学获得遗传学博士学位。1989-1994年在哈佛大学医学院开展博士后研究。1995年入职德州理工大学,2008年获聘全职教授。目前主要开展植物抗逆分子生物学及植物遗传工程研究。

近年来的主要科研论文:

  1. Pehlivan, N., Sun, L., Jarrett, P., Yang, X., Mishra, N., Chen, L., Kadioglu,  A., Shen, G., and Zhang, H. (2016). Co-overexpressing a plasma membrane  sodium/proton antiporter and a vacuolar membrane sodium/proton antiporter  significantly improves salt tolerance in transgenic Arabidopsis plants. Plant  Cell & Physiology, in press.

  2. Wei, J., Qiu, X., Chen, L., Hu, R., Chen, J., Sun, L., Li, L., Zhang, H., Lv,  Z., and Shen, G. (2015). The E3 ligase AtCHIP positively regulates Clp  proteolytic subunit homeostasis. J. Exp. Bot.  66, 5809-5820

  3. Chen, J., Hu, R., Zhu, Y., Shen, G., Zhang, H. (2014). Arabidopsis  thaliana phosphotyrosyl phosphatase activator is essential for protein  phosphatase 2A holoenzyme assembly and plays important roles in hormone  signaling, salt stress response, and plant development.Plant Physiol . 166,  1519-1534.

  4. Hu, R., Zhu, Y., Shen, G., and Zhang, H. (2014). TAP46 plays a positive role  in the abscisic acid insensitive 5-regulated gene expression in  Arabidopsis.Plant Physiol., Vol. 164, pp.721-734.

  5. Qin, H., Gu, Q., Zhang, J., Sun, L., Kuppu, S., Zhang, Y., Burow, M., Payton,  P., Blumwald, E., and Zhang, H. (2011). Regulated overexpression of IPT in  peanut significantly improves drought tolerance and increases yield under field  conditions. Plant Cell Physiol . 52, 1904-1914.

  6. Passapula, V., Shen, G., Kuppu, S., Paez-Valencia, J., Mendoza, M., Hou, P.,  Chen, J., Qiu, X., Zhu, L., Zhang, X., Auld, D., Blumwald, E., Zhang, H.,  Gaxiola, R., and Payton, P. (2011). Expression of an Arabidopsis vacuolar  H+-pyrophosphatase gene AVP1 in cotton improves drought- and salt-tolerance and  increases fiber yield in the field conditions. Plant Biotech. J . 9, 88-99

  7. Shen, G., Kuppu, S., Venkataramani, S., Wang, J., Yan, J., Qiu, X., and  Zhang, H. (2010). AKR2A is an essential molecular chaperone for peroxisomal  membrane-bound ascorbate peroxidase 3 in Arabidopsis. Plant Cell 22, 811-831