反转运蛋白
细胞内
细胞内pH值
细胞生物学
平衡
突变体
生物
离子运输机
内吞作用
化学
液泡
钠氢反转运蛋白
转运蛋白
生物化学
生物物理学
钠
基因
膜
细胞质
细胞
有机化学
作者
Dong‐Ha Oh,Sang Yeol Lee,Ray A. Bressan,Dae‐Jin Yun,Hans J. Bohnert
出处
期刊:Louisiana State University - LSU Digital Commons
日期:2010-02-01
被引量:154
摘要
A mutation of AtSOS1 (Salt Overly Sensitive 1), a plasma membrane Na +/H+-antiporter in Arabidopsis thaliana, leads to a salt-sensitive phenotype accompanied by the death of root cells under salt stress. Intracellular events and changes in gene expression were compared during a non-lethal salt stress between the wild type and a representative SOS1 mutant, atsos1-1, by confocal microscopy using ion-specific fluorophores and by quantitative RT-PCR. In addition to the higher accumulation of sodium ions, atsos1-1 showed inhibition of endocytosis, abnormalities in vacuolar shape and function, and changes in intracellular pH compared to the wild type in root tip cells under stress. Quantitative RT-PCR revealed a dramatically faster and higher induction of root-specific Ca2+ transporters, including several CAXs and CNGCs, and the drastic down-regulation of genes involved in pH-homeostasis and membrane potential maintenance. Differential regulation of genes for functions in intracellular protein trafficking in atsos1-1 was also observed. The results suggested roles of the SOS1 protein, in addition to its function as a Na+/H+ antiporter, whose disruption affected membrane traffic and vacuolar functions possibly by controlling pH homeostasis in root cells.
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