海藻糖积累通过调节干旱敏感型和耐旱型水稻品种的光合作用及活性氧-抗氧化平衡来增强耐旱性。
Trehalose accumulation enhances drought tolerance by modulating photosynthesis and ROS-antioxidant balance in drought sensitive and tolerant rice cultivars.
作者信息
Mohanan Akhil, Kodigudla Anjali, Raman Dhana Ramya, Bakka Kavya, Challabathula Dinakar
机构信息
Department of Life Sciences, School of Life Sciences, Central University of Tamil Nadu, Thiruvarur, Tamil Nadu 610 005 India.
Department of Microbiology, School of Life Sciences, Central University of Tamil Nadu, Thiruvarur, Tamil Nadu 610005 India.
出版信息
Physiol Mol Biol Plants. 2023 Dec;29(12):2035-2049. doi: 10.1007/s12298-023-01404-7. Epub 2023 Dec 28.
UNLABELLED
Trehalose being an integral part for plant growth, development and abiotic stress tolerance is accumulated in minute amounts in angiosperms with few exceptions from resurrection plants. In the current study, two rice cultivars differing in drought tolerance were used to analyse the role of trehalose in modulating photosynthesis and ROS-antioxidant balance leading to improvement in drought tolerance. Accumulation of trehalose in leaves of Vaisakh (drought-tolerant) and Aiswarya (drought-sensitive) rice cultivars was observed by spraying 50 mM trehalose and 100 µM validamycin A (trehalase inhibitor) followed by vacuum infiltration. Compared to stress sensitive Aiswarya cultivar, higher trehalose levels were observed in leaves of Vaisakh not only under control conditions but also under drought conditions corresponding with increased root length. The increase in leaf trehalose by treatment with trehalose or validamycin A corresponded well with a decrease in electrolyte leakage in sensitive and tolerant plants. Decreased ROS levels were reflected as increase in antioxidant enzyme activity and their gene expression in leaves of both the cultivars treated with trehalose or Validamycin A under control and drought conditions signifying the importance of trehalose in modulating the ROS-antioxidant balance for cellular protection. Further, higher chlorophyll, higher photosynthetic activity and modulation in other gas exchange parameters upon treatment with trehalose or validamycin A strongly suggested the beneficial role of trehalose for stress tolerance. Trehalose accumulation helped the tolerant cultivar adjust towards drought by maintaining higher water status and alleviating the ROS toxicity by effective activation and increment in antioxidant enzyme activity along with enhanced photosynthesis.
SUPPLEMENTARY INFORMATION
The online version contains supplementary material available at 10.1007/s12298-023-01404-7.
未标注
海藻糖是植物生长、发育和非生物胁迫耐受性的一个组成部分,在被子植物中含量极少,只有少数复苏植物为例外。在本研究中,使用两个耐旱性不同的水稻品种来分析海藻糖在调节光合作用和活性氧-抗氧化平衡从而提高耐旱性方面的作用。通过喷洒50 mM海藻糖和100 μM井冈霉素A(海藻糖酶抑制剂),然后进行真空渗透,观察到Vaisakh(耐旱)和Aiswarya(干旱敏感)水稻品种叶片中海藻糖的积累。与胁迫敏感的Aiswarya品种相比,不仅在对照条件下,而且在干旱条件下,Vaisakh叶片中海藻糖水平更高,且根长增加。用海藻糖或井冈霉素A处理后叶片中海藻糖的增加与敏感和耐受植物中电解质渗漏的减少密切相关。活性氧水平的降低表现为在对照和干旱条件下,用海藻糖或井冈霉素A处理的两个品种叶片中抗氧化酶活性及其基因表达的增加,这表明海藻糖在调节活性氧-抗氧化平衡以保护细胞方面的重要性。此外,用海藻糖或井冈霉素A处理后,叶绿素含量更高、光合活性更高以及其他气体交换参数的调节强烈表明海藻糖对胁迫耐受性具有有益作用。海藻糖的积累有助于耐受品种通过维持较高的水分状态来适应干旱,并通过有效激活和增加抗氧化酶活性以及增强光合作用来减轻活性氧毒性。
补充信息
在线版本包含可在10.1007/s12298-023-01404-7获取的补充材料。
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