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  • Book
    Soumen Bhattacharjee.
    Summary: This book highlights the latest advances made in the niche area of Reactive Oxygen Species and Redox processes in plants. It offers a valuable guide for researchers and students alike, providing insights into sensing, detox scavenging, the role in oxidative deterioration, and signaling associated with redox-regulatory processes in plants. The book also dramatically demonstrates how these amazingly resourceful molecular species and radicals are poised at the core of a sophisticated network of signaling pathways, and act as vital regulators of plants cell physiology and cellular responses to the environment. The molecular language associated with ROS-mediated signal transduction, which produces modulations in gene expression that determine plants stress acclamatory performance, is also discussed. The book subsequently provides information on current trends in redox proteomics and genomics, which include efforts to gain a fuller understanding of these redox players role in cellular processes, and to further the application of this knowledge to technology and agriculture. Given its scope and format, the book offers a valuable asset for students of Plant Sciences, Agriculture, and Molecular Biology, as well as readers engaged in research on and teaching ROS Biology.

    Intro; Dedication; Foreword; Preface; Acknowledgment; Contents; About the Author;
    1: ROS and Oxidative Stress: Origin and Implication; 1.1 Introduction; 1.2 Chemistry of ROS; 1.2.1 Superoxide Radical; 1.2.2 Perhydroxy Radical; 1.2.3 Hydrogen Peroxide; 1.2.4 Singlet Oxygen; 1.2.5 Hydroxyl Radical; 1.3 Generation of O2.−, H2O2, and OH. and Other ROS in Plant Cells; 1.3.1 Chloroplast and Peroxisome-Associated Generation of ROS; 1.3.2 Mitochondrial Generation of ROS; 1.3.3 Microsomal and Apoplastic Generation of ROS; 1.3.4 NADPH Oxidase (RBOH)-Induced Formation of ROS 1.3.5 Cell Wall and Other Enzymatic Sources of ROS1.4 Membrane Lipid Peroxidation: A Prospective Source of Oxyfree Radicals in Plant Cell; 1.5 Abiotic Stress and Production of ROS; 1.5.1 Generation of ROS Under Biotic Stress; 1.6 ROS Wave; 1.7 ROS Generation During Senescence; 1.8 Conclusion and Perspective; References;
    2: ROS and Antioxidants: Relationship in Green Cells; 2.1 Introduction; 2.2 Antioxidant Defense Machinery of Plant Cell; 2.2.1 Enzymatic Antioxidants; Superoxide Dismutase (SOD); Catalase (CAT); Ascorbate Peroxidase (APX) 2.4 ROS-Antioxidant Interaction at Metabolic Interface Determines Redox Signaling Under Environmental Stress 2.5 Antioxidant and Redox Sensing Under Environmental Stress; 2.6 Conclusion; References;
    3: ROS in Aging and Senescence; 3.1 Introduction; 3.2 Implication of ROS in Plant Senescence; 3.3 Implication of ROS and Oxidative Stress in Programmed Cell Death of Plant; 3.3.1 Tilting ROS Homeostasis to Induce Signaling During Senescence; 3.4 ROS Signaling Associated with Programmed Cell Death of Plants; 3.5 ROS Signal Communication During Cell Death; 3.6 Conclusion and Perspective 4.3.2 Abiotic Stress and Oxidative Modification of Proteins Reference
    s4: ROS and Oxidative Modification of Cellular Components; 4.1 Introduction; 4.2 Oxidative Modification of Membrane Lipid; 4.2.1 Mechanism of Membrane Lipid Peroxidation (MLPO); 4.2.2 Enzymatic and Nonenzymatic Membrane Lipid Peroxidation (MLPO) Works in Tandem in Plant Cell with Physiological Relevance; 4.2.3 MLPO Serves Other Physiological Purpose Apart from Oxidative Damage; 4.2.4 Some Secondary Products of MLPO Work as Reactive Lipid Species; 4.3 Oxidative Modification to Protein; 4.3.1 Mechanism of Oxidative Modification of Cellular Proteins
    Digital Access Springer 2019