| Description |
1 online resource (355 pages) |
| Contents |
Cover -- Title Page -- Copyright Page -- Contents -- List of Contributors -- Preface -- Chapter 1 Salicylic Acid: A Regulator of Plant Growth and Development -- Introduction -- Salicylic Acid and Plant Growth -- Salicylic Acid and Photosynthesis -- Salicylic Acid and Respiration -- Salicylic Acid and Abiotic and Biotic Stress -- Conclusions -- References -- Chapter 2 Salicylic Acid-Mediated Regulation of Plant Biology: An Omics Approach -- Introduction -- Programmed Cell Death (PCD) -- SA as a Plant Growth Regulator -- SA and Stresses -- Resistance of Plants to Diseases -- Proteome Analysis -- Transcriptome Analysis -- Genome Analysis -- Conclusion -- Note -- References -- Chapter 3 Regulation of Plant Primary Metabolism by Salicylic Acid Under Abiotic Stress -- Introduction -- Primary Metabolism Regulation -- Respiration -- Photosynthesis -- Flowering -- Seed Germination -- Senescence -- Plant Growth -- Pathogenesis -- Nutrient Uptake -- SA Mediation and Abiotic Stress Tolerance Regulation -- Salinity Stress Tolerance Regulation -- Drought Stress Tolerance Control -- Temperature Constraint Tolerance Monitoring -- Heavy Metals Pressure Tolerance Balancing -- Conclusion -- References -- Appendix 3.A -- Appendix 3.B -- Chapter 4 Regulation of Plant Secondary Metabolism by Salicylic Acid Under Abiotic Stress -- Introduction -- Biosynthesis Pathway of Different Secondary Metabolites in Plants -- The Biosynthesis of SMs in Plants Exposed to Abiotic Stresses -- Elicitation of Secondary Metabolites by Exogenously Applied Salicylic Acid Under Abiotic Stress -- Conclusion and Future Prospects -- References -- Chapter 5 How Does Salicylic Acid Regulate Mineral Nutrition in Plants Under Abiotic Stress? An Update -- Introduction -- Salicylic Acid and Regulation of Mineral Nutrition |
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Salicylic Acid-Induced Metal Stress Tolerance and Mineral Nutrient Homeostasis in Plants -- Salicylic Acid-Induced Salinity Stress Tolerance and Mineral Nutrient Homeostasis in Plants -- Salicylic Acid-Induced Drought Stress Tolerance and Mineral Nutrient Homeostasis in Plants -- Salicylic Acid-Induced Temperature Stress Tolerance and Mineral Nutrient Homeostasis in Plants Temperature Stress -- Conclusion and Future Prospects -- References -- Chapter 6 Seed Germination to Fruit Maturation Under Stressful Environment: Roles of Salicylic Acid -- Introduction -- Plant Face to Environmental Stress -- Salicylic Acid as Plant Growth Regulator -- Biosynthesis and Metabolism -- Role of Salicylic Acid -- Function of Salicylic Acid in Plant During Stressful Factors -- Biotic Factors -- Abiotic Factors -- Conclusion -- References -- Appendix 6.A -- Appendix 6. B -- Chapter 7 Role of Salicylic Acid on Postharvest Physiology of Plants -- Introduction -- Biosynthesis and Metabolism of Salicylic Acid -- Preharvest Factors Affecting Postharvest Quality -- Physiological Roles of Salicylic Acid on Plants -- Effect of Salicylic Acid on Ethylene Production -- Effect of Salicylic Acid on Heat Production -- Effect of Salicylic Acid on Respiration -- Effect of Salicylic Acid on Fruit Ripening -- Effect of Salicylic Acid on Senescence -- Effect of Salicylic Acid on Postharvest Diseases -- Effect of Salicylic Acid on Chilling Injury -- Effect of Salicylic Acid on Oxidative Stress -- Effect of Salicylic Acid on Maintaining Bioactive Compounds -- Effect of Salicylic Acid on the Decay of Harvested Fruits -- Conclusion -- References -- Chapter 8 Salicylic Acid-Mediated Physiological and Molecular Mechanism in Plants Under Metal(loid) Stress -- Introduction -- Sources of Metalloids and Their Availability to the Plants -- Metal(loid) Uptake and Their Bioavailability |
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Effects of Metalloids in Plants and Tolerance of Plants to Stress -- Phytohormones Used for Ameliorating the Metalloid Stress -- Physiological Roles of Salicylic Acid in Plants Under Metal/Metalloid Stress -- SA and its Roles in Photosynthesis Under Metal or Metalloid Stress -- Omics-Based Strategies for SA-Induced Metalloid Tolerance in Plants -- Conclusion -- References -- Chapter 9 Salicylic Acid-Mediated Physiological and Molecular Mechanisms in Plants Under Heat Stress -- Introduction -- Salicylic Acid History and Biosynthesis -- Heat-Stress Threshold -- Physiological Mechanisms Mediated by SA Under HS -- Plant Water Relation (PWR) -- Osmolyte Accumulations -- Cell Membrane Thermostability -- Hormonal Changes -- Photosynthesis and ATP Production -- Molecular Mechanisms Mediated by Salicylic Acid Under Heat Stress -- Antioxidant Defense -- Heat Shock Proteins (HPSs) -- Signaling -- Conclusion and Future Prospects -- References -- Chapter 10 Salicylic Acid-Mediated Physiological and Antioxidant Enzyme Activity Mechanisms in Plants Under Chilling Stress -- Introduction -- Effect of Chilling and Salicylic Acid (SA) on Growth Factors -- Effects of Chilling and Salicylic Acid on Cell Membrane -- Effects of Chilling and Salicylic Acid on Antioxidant Enzyme Activities -- Conclusion -- References -- Chapter 11 Salicylic Acid-Mediated Physiological and Molecular Mechanisms in Plants Under Abiotic Stress -- Introduction -- Stress Hormones -- Background of Salicylic Acid -- Biosynthesis of Salicylic Acid in Plants -- Salicylic Acid in Plants Under Metals/Metalloids -- Salinity Stress -- Drought Stress -- Cold Stress -- Epigenetics Functions in Salicylic Acid -- Conclusion and Future Prospects -- Conflict of Interest -- Acknowledgements -- References -- Chapter 12 Salicylic-Acid Mediated Physiological and Molecular Mechanisms in Plants Under Drought Stress |
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Introduction -- Adversities of Drought Stress -- Role of SA in Photosynthesis and Sugars Biosynthesis under Drought Stress -- Changes in ROS and Enzymatic Antioxidants in Plants Subjected to Drought Stress and Role of SA -- Role of SA on Polyphenols Biosynthesis -- Role of SA on Osmolytes Accumulation -- Role of SA on Mineral Nutrients Uptake and Accumulation -- Interaction of SA with Polyamines and Other Phytohormones in Plants Subjected to Drought Stress -- Role of SA on Induction of Gene Expression Under Drought -- Conclusions -- References -- Chapter 13 ROS Regulation by Salicylic Acid Under Abiotic Stress -- Introduction -- Abiotic Stress in Plants and Activation of ROS Signaling -- ROS Scavenging in Plants Under Abiotic Stress -- ROS Signaling in Plants -- SA and ROS Interaction -- SA Mediated Regulation of ROS Level (ROS Homeostasis) -- SA-Mediated ROS Detoxification (Activation of Antioxidant Defense System) -- Conclusion and Future Perspective -- References -- Chapter 14 Regulation of Photosynthesis by Salicylic Acid Under Optimal and Suboptimal Conditions -- Introduction -- Salicylic Acid (SA) and Regulation of Photosynthesis -- Salicylic Acid-Mediated Regulation of Photosynthesis Under Optimal Conditions -- Salicylic Acid-Mediated Regulation of Photosynthesis Under Suboptimal Conditions -- Salicylic Acid as a Stress Factor for Plants -- Effect of Lower Levels of Salicylic Acid on Plants -- Effect of Elevated Levels of Salicylic Acid on Plants -- Conclusion -- References -- Chapter 15 Regulation of Abiotic Stress by Salicylic Acid at Gene Level: An Update -- Introduction -- Biosynthesis of Salicylic Acid -- Metabolism of Salicylic Acid -- Glycosylation -- Methylation -- AA Conjugation -- Sulfonation -- Salicylic Acid Receptors in Plants -- Salicylic Acid Transport in Plants -- Long-Distance Transport -- Intracellular Transport |
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Implication of Salicylic Acid in Plants' Abiotic Stress Tolerance -- Drought, Osmotic, and Salt Stress -- Extreme Temperatures -- UV Lights and Ozone Stress -- Metallic Stresses -- Conclusion -- Acknowledgements -- Author Contributions -- References -- Chapter 16 Salicylic Acid and its Crosstalk with Other Plant Hormones Under Stressful Environments -- Introduction -- Salicylic Acid Biosynthesis in Plants -- Role of Salicylic Acid in Plants -- Function of SA Under Biotic Stress Conditions (Pathogen Defense Pathway) -- Function of SA Under Abiotic Stress Conditions -- Crosstalk of Salicylic Acid with Other Plant Hormones Under Stressful Environments -- Crosstalk with Jasmonic Acid (JA) -- Crosstalk with Absiscic Acid (ABA) -- Crosstalk with Gibberellic Acid (GA) -- Crosstalk with Ethylene (ET) -- Crosstalk with Auxin (IAA) -- Crosstalk with Cytokinin (CK) -- Crosstalk with Brassinosteroids (BRs) -- Crosstalk with Melatonin -- Crosstalk with Polyamines (PAs) -- Crosstalk with Strigolactones (SLs) -- Conclusion and Perceptions -- References -- Chapter 17 Post-translational Modifications Mediated by the Phytohormone Salicylic Acid in Plants Growing Under Environmental Challenges -- Introduction -- SA Biosynthetic and Signaling Pathways -- SA-Induced Responses During Abiotic Stress -- The Dual Role of SA in Redox Homeostasis During Abiotic Stress -- Proteome Modifications Mediated by SA -- SA-Mediated PTMs on NPR Proteins -- Regulation of Hormone-Related Signal Transduction Pathways by SA-Induced PTMs -- How to Identify New PTMs Induced by SA -- Immunofluorescence -- Proximity Ligation Assay -- Förster Resonance Energy Transfer -- Bio-Ubiquitin System -- Perspectives -- Acknowledgments -- References -- Index -- EULA |
| Notes |
Description based on publisher supplied metadata and other sources |
| Form |
Electronic book
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| Author |
Bhardwaj, Renu
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Kumar, Vinod
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Zheng, Bingsong
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Tripathi, Durgesh K
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| ISBN |
1119671108 |
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9781119671107 |
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1119671086 |
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9781119671084 |
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1119671094 |
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9781119671091 |
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