植物抗旱的分子机制研究

Plant drought tolerance molecular mechanism

  • 摘要: 干旱是影响植物生长发育最主要的逆境因子。植物在水分胁迫下会引起一系列分子反应和信号传递,干旱胁迫诱导基因表达一些重要的功能蛋白和调节蛋白以保护细胞不受水分胁迫的伤害。目前已研究证实相关蛋白有跨膜运输蛋白(水通道蛋白、ATP酶等)、水分胁迫调节剂(K+、Na+ 、蔗糖、脯氨酸、甜菜碱等)、运输或合成相关的酶、Lea蛋白、抗氧化作用相关的酶(SOD、CAT等)、水分胁迫蛋白、调控蛋白(蛋白激酶、转录因子)等。干旱胁迫诱导基因的活化至少涉及4条途径:植物细胞可能通过膨压变化或膜受体的构象变化感知水分胁迫,将胞外信号转为胞内信号,从而触发相应的信号途径,并可导致第二信使(Ca2+、IP3等)生成,在这原始信号被逐级传递放大的过程中,其中2条传递途径是依赖ABA的,另外2条传递途径是不依赖ABA的。通过基因表达调控已分析鉴定出一些水分胁迫有关的顺式作用元件(ABRE、DRE、Myc等)和转录因子(bzip、DREBP、MYC/MYB等)。

     

    Abstract: Drought affects plant growth most seriously. Molecular response and signal transduction are induced in water stress. Water-stress inducible gene expresses some important function protein and regulatory protein to protect plant cell from injury. The identified protein includes transmembrane channel protein,water regulator,transportor or synthetase,lea protein,antioxidant enzyme,water-stress protein,regulatory protein, etc.At least four independent signal transduction pathways exist among water-stress inducible gene expression. Plant cell percepts water stress by turger or receptor,than transforms extracellular signal to intracellular signal,and induces second messengers. Among the primary signal cascades,two pathways are ABA dependent and two ABA independent,some cis-acting elements and transcription factor are identified by gene expression and regulation

     

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