您的位置: 专家智库 > >

国家自然科学基金(s30400300)

作品数:1 被引量:11H指数:1
发文基金:国家自然科学基金更多>>
相关领域:生物学更多>>

文献类型

  • 1篇中文期刊文章

领域

  • 1篇生物学

主题

  • 1篇SALT
  • 1篇H^+
  • 1篇HALOPH...
  • 1篇SALINE...
  • 1篇PYROPH...
  • 1篇VACUOL...

传媒

  • 1篇Journa...

年份

  • 1篇2011
1 条 记 录,以下是 1-1
排序方式:
Cloning of a Vacuolar H^+-pyrophosphatase Gene from the Halophyte Suaeda corniculata whose Heterologous Overexpression Improves Salt,Saline-alkali and Drought Tolerance in Arabidopsis被引量:11
2011年
Salt,saline-alkali conditions,and drought are major environmental factors limiting plant growth and productivity.The vacuolar H+-translocating inorganic pyrophosphatase(V-H+-PPase) is an electrogenic proton pump that translocates protons into vacuoles in plant cells.Expression of V-H+-PPase increases in plants under a number of abiotic stresses,and is thought to have an important role in adaptation to abiotic stress.In this work,we report the isolation and characterization of the gene,ScVP,encoding a vacuolar inorganic pyrophosphatase(V-H+-PPase) from the halophyte,Suaeda corniculata.Semiquantitative reverse transcription-polymerase chain reaction analysis showed that ScVP was induced in roots,stems and leaves under treatment with salt,saline-alkali and drought.Compared with wild-type(WT) Arabidopsis,transgenic plants overexpressing ScVP accumulated more Na+ in leaves and roots,and showed increased tolerance to high salinity,saline-alkali and drought stresses.The germination percentage of transgenic Arabidopsis seeds was higher than that of WT seeds under the abiotic stresses.The root length of transgenic plants under salt stress was longer than that of WT plants.Furthermore,the rate of water loss during drought stress was higher in WT than in transgenic plants.Collectively,these results indicate that ScVP plays an important role in plant tolerance to salt,saline-alkali and drought stress.
Liang LiuYing WangNan WangYuan-Yuan DongXiu-Duo FanXiu-Ming LiuJing YangHai-Yan Li
关键词:SALTSALINE-ALKALI
共1页<1>
聚类工具0