Titlebook: Reactive Oxygen Species and Antioxidant Systems in Plants: Role and Regulation under Abiotic Stress; M. Iqbal R. Khan,Nafees A. Khan Book

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Responses, Adaptation, and ROS Metabolism in Plants Exposed to Waterlogging Stress,etabolic activities, which includes reduction in stomatal conductance, CO. assimilation rate, photosynthesis rate, and nutritional imbalance resulting in crop yield loss. However, plant develops different morphological, anatomical, and physiological adaptive features, for instance, formation of adve

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Role of Reactive Oxygen Species in Water-Deficit Stress Response,er-deficit stress in warming globe, it becomes inevitable to comprehend and dissect the role of oxidation-induced metabolic alterations. Reactive oxygen species?(ROS), such as singlet oxygen, hydrogen peroxide, superoxide anion, and hydroxyl radicals which are produced in low level at intercellular

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Production of Antioxidant and Oxidant Metabolites in Tomato Plants Infected with , Under Saline Conroxidase, catalase, malondialdehyde, anthocyanin and phenol contents in tomato plants (. Mill. cv. Ailsa Craig) inoculated with . under various NaCl concentrations (50, 100, 200 and 250?mmol l.). . alone resulted in increases in oxidant (malondialdehyde and phenol) and antioxidant metabolites (proli

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Book 2017t adaptation to abiotic stresses involving physiological, biochemical and molecular processes. The chapters are much focused on the current climate issues and how ROS metabolism can manipulate with antioxidant system to accelerate detoxification mechanism. It will enhance the mechanistic understandi

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Role of Reactive Oxygen Species in Water-Deficit Stress Response,oxic substance which can damage cellular components such as lipids, proteins, and DNA. Plants have evolved its antioxidant systems to restrict ROS accumulation as general stress signaling process. This oxidative stress plays a major role in plant water-deficit responses in terms of oxidative damage and related redox signaling.

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