Repeated water deficit events trigger adjustments in enzymatic antioxidant system in oil palm

IF 2.2 4区 生物学 Q2 PLANT SCIENCES
Wagner Romulo L. Lopes Filho, Flavio Henrique S. Rodrigues, Rosane Patrícia F. Chaves, Roberto L. Cunha, Lucas C. Costa, Hugo A. Pinheiro
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Abstract

Plants are able to reprogram their metabolism to cope with drought stress based on previous signals of water deficit events. Recently, we reported that oil palm seedlings exposed to three water deficit cycles attenuate oxidative damage on the photosynthetic machinery when compared to those facing drought conditions for the first time. However, the mechanism underlying the photosynthetic apparatus maintenance at either single or repeated events of drought stress is not well understood. Herein, oil palm seedlings were investigated for their photosynthesis acclimation upon single (1WD) and repeated (3WD) events of drought by assessing leaf gas exchange, chlorophyll fluorescence, and biochemical variables when predawn leaf water potential of stressed plants reached about –1.7 MPa (Day 7) and 2.5 MPa (Day 28). Plants of 1WD treatment exhibited higher chlorophyll degradation, higher membrane lipid peroxidation, and lower photosystem II activity than both control and 3WD plants. In contrast, 3WD plants exhibited low hydrogen peroxide coupled with upregulation of the enzymatic antioxidant system. The outcomes suggest that the acclimation of oil palm plants to repetitive water deficit events is related to the adjustments in antioxidant enzyme activities to attenuate oxidative damage to the photosynthetic machinery.

Abstract Image

反复缺水事件引发油棕酶抗氧化系统的调整
植物能够根据之前的缺水事件信号重新规划新陈代谢,以应对干旱胁迫。最近,我们报告说,与首次面临干旱条件的油棕幼苗相比,暴露于三个缺水周期的油棕幼苗减轻了光合机械的氧化损伤。然而,人们对单次或多次干旱胁迫下光合装置的维持机制还不甚了解。本文研究了油棕幼苗在单次(1WD)和多次(3WD)干旱事件中的光合作用适应性,方法是在受胁迫植株黎明前叶片水势达到约-1.7 MPa(第7天)和2.5 MPa(第28天)时评估叶片气体交换、叶绿素荧光和生化变量。与对照和 3WD 植物相比,1WD 处理的植物表现出更高的叶绿素降解度、更高的膜脂过氧化度和更低的光系统 II 活性。相比之下,3WD 植物的过氧化氢含量较低,同时酶抗氧化系统上调。研究结果表明,油棕植物对反复缺水事件的适应与抗氧化酶活性的调整有关,以减轻对光合机械的氧化损伤。
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来源期刊
CiteScore
4.20
自引率
7.70%
发文量
32
期刊介绍: The journal does not publish articles in taxonomy, anatomy, systematics and ecology unless they have a physiological approach related to the following sections: Biochemical Processes: primary and secondary metabolism, and biochemistry; Photobiology and Photosynthesis Processes; Cell Biology; Genes and Development; Plant Molecular Biology; Signaling and Response; Plant Nutrition; Growth and Differentiation: seed physiology, hormonal physiology and photomorphogenesis; Post-Harvest Physiology; Ecophysiology/Crop Physiology and Stress Physiology; Applied Plant Ecology; Plant-Microbe and Plant-Insect Interactions; Instrumentation in Plant Physiology; Education in Plant Physiology.
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