Ghaffari Akram, Gharechahi Javad, Nakhoda Babak, Salekdeh Ghasem Hosseini
Department of Molecular Physiology, Agricultural Biotechnology Research Institute of Iran, Karaj, Iran.
J Plant Physiol. 2014 Jan 1;171(1):31-44. doi: 10.1016/j.jplph.2013.07.014. Epub 2013 Oct 3.
Salinity is one of the major environmental limiting factors that affects growth and productivity of rice (Oryza sativa L.) worldwide. Rice is among the most sensitive crops to salinity, especially at early vegetative stages. In order to get a better understanding of molecular pathways affected in rice mutants showing contrasting responses to salinity, we exploited the power of 2-DE based proteomics to explore the proteome changes associated with salt stress response. Our physiological observations showed that standard evaluation system (SES) scores, Na+ and K+ concentrations in shoots and Na+/K+ ratio were significantly different in contrasting mutants under salt stress condition. Proteomics analysis showed that, out of 854 protein spots which were reproducibly detected, 67 protein spots showed significant responses to salt stress. The tandem mass spectrometry analysis of these significantly differentially accumulated proteins resulted in identification of 34 unique proteins. These proteins are involved in various molecular processes including defense to oxidative stresses, metabolisms, photosynthesis, protein synthesis and processing, signal transduction. Several of the identified proteins were emerged as key participants in salt stress tolerance. The possible implication of salt responsive proteins in plant adaptation to salt stress is discussed.
盐度是影响全球水稻(Oryza sativa L.)生长和生产力的主要环境限制因素之一。水稻是对盐度最敏感的作物之一,尤其是在营养生长早期阶段。为了更好地了解对盐度表现出不同反应的水稻突变体中受影响的分子途径,我们利用基于双向电泳的蛋白质组学技术来探索与盐胁迫反应相关的蛋白质组变化。我们的生理观察表明,在盐胁迫条件下,对照突变体的标准评价系统(SES)评分、地上部Na+和K+浓度以及Na+/K+比率存在显著差异。蛋白质组学分析表明,在可重复检测到的854个蛋白点中,有67个蛋白点对盐胁迫表现出显著反应。对这些显著差异积累的蛋白质进行串联质谱分析,鉴定出34种独特的蛋白质。这些蛋白质参与了各种分子过程,包括对氧化应激的防御、代谢、光合作用、蛋白质合成与加工、信号转导。其中一些已鉴定的蛋白质成为耐盐胁迫的关键参与者。文中还讨论了盐响应蛋白在植物适应盐胁迫中的可能作用。
