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高志萍

高志萍 博士 副教授

 

主要科研域与方向

植物叶绿体细胞发育和基因调控研究。重点是围绕模式植物水稻叶片叶绿体光合作用的细胞生物学特性和相关光合基因的调控机理进行探索,特别是针对功能叶叶绿体整个生长周期过程所呈现的特性变化,从细胞生物学、蛋白质组学等水平进行全面的分析研究,试图为调控叶绿体细胞发育进程、提高作物光合作用效率提供有用的实验结果和理论依据。主持承担江苏省自然科学基金、江苏省高校自然科学研究项目、江苏省农业自主创新资金项目、江苏省优势学科项目等。

代表论文

  1. Gao ZP, Xu ML, Zhang HZ, Chen GX* (2021) Photosynthetic properties of the mid-vein and leaf lamina of field-grown, high-yield hybrid rice during senescence. Journal of Integrative Agriculture. (accepted)
  2. Jiang DX, Chu X, Li M, Hou JJ, Tong X, Gao ZP*, Chen GX* (2020) Exogenous spermidine enhances salt-stressed rice photosynthetic performance by stabilizing structure and function of chloroplast and thylakoid membranes.Photosynthetica, 58:61-71.
  3. Gao ZP, Shen WJ, Chen GX* (2018) Uncovering C4-like photosynthesis in C3vascular cells. Journal of Experimental Botany, 69: 3531-3540.
  4. Sheng WJ, Ye LH, Ma J, Yuan ZY, Zheng BG, Lv CG, Zhu ZQ, Chen X, Gao ZP*, Chen GX* (2016) The existence of C4 -bundle-sheath-like photosynthesis in the mid-vein of C3 rice. Rice, 9: 1-14
  5. Ma J, Lv CF, Xu ML, Chen GX, Lv CG, Gao ZP* (2016) Photosynthesis performance, antioxidant enzymes, and ultrastructural analyses of rice seedlings under chromium stress. Environ Sci Pollut Res, 23: 1768-1778
  6. Shen WJ, Chen GX, Xu JG, Zhen XH, Ma J, Zhang XJ,Lv CG, Gao ZP* (2015) High light acclimation of Oryza sativa L. leaves involves specific photosynthetic-sourced changes of NADPH/NADP+ in the mid-vein. Protoplasma,25277-87
  7. Shen WJ, Chen GX, Xu JG, Jiang Y, Liu L, Lv CF, Ma J, Lv CG, Chen X, Gao ZP* (2015) Overexpression of maize phosphoenolpyruvate carboxylase PEPC improves the drought tolerance in rice by stabilizing the function and structure of thylakoid membrane. Photosynthetica, 53: 436-446
  8. Zhen XH, Xu JG, Shen WJ, Zhang XJ, Zhang QJ, Lv CG, Chen GX, Gao ZP* (2014) Photosynthetic characteristics of flag leaves in rice white stripe mutant 6001 during senescence process. Rice Science,21:335-342
  9. Gao ZP, Yu QB, Ma Q, Zhao TT, Chen GX* and Yang ZN*(2011) A functional component of the transcriptionally active chromosome complex, Arabidopsis pTAC14, interacts with pTAC12/HEMERA and regulates plastid gene expression. Plant Physiol, 157: 1733-1745
  10. Gao ZP, Chen GX* and Yang ZN*(2012) Regulatory role of Arabidopsis pTAC14 in chloroplast development and plastid gene expression. Plant Signaling & Behavior, 7: 1354-1356

联系方式:

电话:13813924266  E-mail: ketty-1982@163.com, 08295@njnu.edu.cn