Nitric oxide in developing plant stress resilience /

Nitric Oxide in Developing Plant Stress Resilience presents a strong focus on genetics and molecular mechanisms, examining crosstalk with other signaling molecules and the role this plays in the alleviation of oxidative damage. Abiotic stress negatively impacts plants productivity and alters the met...

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Bibliographic Details
Corporate Author:	ScienceDirect (Online service)
Other Authors:	Khan, M. Iqbal R.
Format:	eBook
Language:	English
Published:	Amsterdam : Academic Press, 2023.
Series:	Plant gasotransmitters and molecules with hormonal activity.
Subjects:	Plants > Effect of stress on. Nitric oxide. Plantes > Effets du stress sur. Nitric oxide Plants > Effect of stress on Electronic books.
Online Access:	Connect to the full text of this electronic book

Table of Contents:

Front Cover
Nitric Oxide in Developing Plant Stress Resilience
Nitric Oxide in Developing Plant Stress Resilience
Copyright
Contents
List of contributors
1
Nitric oxide: its biosynthesis and mode of action
1. Introduction
2. Biosynthesis of NO in plants
2.1 Enzymatic biosynthesis of NO in plants
2.1.1 NR and NOS enzymes involvement
2.1.2 Polyamine-associated NO production
2.1.3 Hydroxylamine-derived NO production
2.2 Non-enzymatic NO production
2.3 Role of enzymatic NO biosynthesis in adaptation to stressful condition
2.3.1 NO and hemoglobin
3. Biosynthesis of NO in different plant species
3.1 Biosynthesis of NO in fruit and woody plants
3.2 Biosynthesis of NO in herbaceous plants
4. NO mode of action in plants
5. Conclusion
References
2
Nitric oxide biosynthesis under stressful environments
1. Introduction
2. Synthesis of nitric oxide: oxidative and reductive pathways under abiotic stress
2.1 Oxidative pathway
2.2 Reductive pathway
3. Conclusion
References
3
Emerging role of nitric oxide in combating abiotic stresses in crops
1. Introduction
2. Role of NO in combating abiotic stresses
2.1 Drought
2.2 Salinity
2.3 Temperature
2.4 Heavy metals
2.5 UV-B radiations
3. Crosstalk of NO with plant growth regulators under abiotic stresses
4. Conclusion and future perspectives
References
Further reading
4
Nitric oxide strengthens defense system in plants
1. Introduction
2. NO-mediated plant defense
2.1 Nitric oxide as a cellular antioxidant
2.2 NO as a signaling molecule
3. Conclusion and future perspectives
References
Further reading
5
Nitric oxide as a modulator of oxidative stress and antioxidative metabolism in plants
1. Introduction
2. Biosynthesis of nitric oxide.
3. Regulation of oxidative stress by NO
3.1 NO and Cr stress
3.2 NO and Cd stress
3.3 NO and Pb stress
3.4 NO and Cu stress
3.5 NO and Ni stress
4. Modulation of antioxidative system by NO under stress
5. Modulation of antioxidative system by NO in heavy metal stressed plants
6. Molecular modulation of stress by NO in plants
6.1 Genes encoding defense processes
6.2 Genes encoding hormonal metabolic activity
6.3 Nutrient-encoding genes
6.4 Genes encoding programmed cell death (PCD) in plants
7. Conclusion
References
6
Cross-talk of NO between RNS, ROS, and RSS under abiotic stress
1. Introduction
2. Reactive nitrogen species in plants
2.1 NO and RNS interaction
3. Reactive oxygen species in plants
3.1 NO and ROS interaction
4. Reactive sulfur species in plants
4.1 NO and RSS interaction
5. Conclusion
References
7
Role of nitric oxide in regulation of biotic and abiotic stresses tolerance in plants
1. Introduction
2. Potential nitric oxide sources in plants
3. Regulatory role of nitric oxide in plants
3.1 Role of nitric oxide in differentiation of plant tissues
3.2 Role of nitric oxide in flowering and pollination of plants
3.3 Role of nitric oxide in seed maturation
3.4 Role of nitric oxide in plant senescence and programmed cell death
4. Nitric oxide cross-talk with phytohormones under different environmental stress conditions
4.1 Cross-talk of nitric oxide with auxin
4.2 Cross-talk of nitric oxide with cytokinins
4.3 Cross-talk of nitric oxide with gibberellins
4.4 Cross-talk of nitric oxide with abscisic acid
4.5 Cross-talk of nitric oxide with ethylene
4.6 Cross-talk of nitric oxide with salicylic acid
4.7 Cross-talk of nitric oxide with jasmonates
4.8 Cross-talk of nitric oxide with brassinosteroids.
4.9 Cross-talk of nitric oxide with melatonin
5. Regulation of nitric oxide in biotic stress (interaction by pathogens)
6. Regulation of nitric oxide in abiotic stress
7. Conclusion
References
Further reading
8
Nitric oxide: a key player in reinforcement of photosynthetic efficiency under abiotic stress
1. Introduction
2. Biosynthesis and cell signaling properties of nitric oxide in plants
3. Nitric oxide: buffering and conditional release as stress response in plants
4. Photosynthetic responses of plants under abiotic stress
4.1 Heavy metal stress-induced consequences on photosynthesis
4.2 Extreme temperature fringes pose a threat to photosynthetic ability of plant
4.3 Light-induced stress sinking photosynthesis
4.4 Impact of drought stress on photosynthesis
5. Nitric oxide-driven photosynthetic parameters in plants
6. Nitric oxide mediated up-regulation of photosynthesis in plants under heat and heavy metal stress
7. Crosstalk of nitric oxide with phytohormones (abscisic acid and salicylic acid) in enhancing photosynthesis under stressed ...
8. Nitric oxide's interplay with signaling molecules such as H2S, sulfur (S), and Ca2+ in mediating photosynthesis
9. Conclusion
References
9
Regulatory role of nitric oxide in plants and its crosstalk with phytohormones
1. Introduction
2. Bioactivity of NO in plants
3. Metabolism of NO in plants
4. Signaling hub: NO under stress
5. NO signaling under abiotic stress
5.1 NO and heavy metal stress
5.2 NO and salinity stress
5.3 NO and temperature stress
5.4 NO and drought stress
6. The interplay of NO with phytohormones
6.1 Auxins
6.2 Gibberellins
6.3 Abscisic acid
6.3.1 1 interaction at the level of stomatal regulation
6.3.2 Proline: a common osmolyte modulated by both NO and ABA.
6.3.3 NO-ABA interactions in leaf senescence and fruit ripening
6.4 Melatonin
6.5 Salicylic acid
6.6 Jasmonic acid
6.7 Brassinosteroids
6.8 Ethylene
7. Conclusion and future perspective
References
10
Nutrients homeostasis and nitric oxide in plants
1. Introduction
2. Nitric oxide in mineral nutrients homeostasis
2.1 Nitric oxide in nitrogen homeostasis
2.2 Nitric oxide in phosphorus homeostasis
2.3 Nitric oxide in potassium homeostasis
2.4 Nitric oxide in sulfur homeostasis
2.5 Nitric oxide in iron homeostasis
2.6 Nitric oxide in other mineral nutrients homeostasis
3. Conclusion
References
11
The role of nitric oxide in systemic responses of plants
1. Introduction
2. Nitric oxide
the signaling molecule
2.1 The role of NO in systemic acquired resistance (SAR)
2.2 The role of NO in induced systemic resistance (ISR)
3. Conclusions and future perspectives
Author contributions
Conflicts of interest
Acknowledgments
References
12
Nitric oxide mediated post-translational modifications and its significance in plants under abiotic stress
1. Introduction
2. Nitric oxide as a signaling molecule and secondary messenger
3. Nitration: a type of post-translational modification
3.1 Tyrosine nitration
3.1.1 Selectivity of tyrosine nitration
3.2 Nitration of other biomolecules
4. S-nitrosylation: a type of posttranslational modification
4.1 Selectivity of S-nitrosylation
5. Nitric oxide action in plants under abiotic stress
5.1 Salinity stress
5.2 Temperature
5.3 Light
5.4 Heavy-metal stress
6. Case study: nitric oxide-mediated regulation of ascorbate-glutathione cycle
7. Conclusion
References
13
Omics approaches to manipulate nitric oxide responses
1. Introduction
2. Genome editing and NO in plants.
3. Genomic studies and NO plant response
3.1 NO and transcriptional changes during plant development
3.2 NO and transcriptional studies during postharvest
4. Proteomic studies and NO plant responses
4.1 Proteomic and NO treatment in abiotic stresses
4.2 Proteomic and NO treatment in postharvest
5. Metabolomic and NO in plants
6. Conclusion
References
14
Advances and future prospect of nitric oxide in agriculture: warrior against adverse climatic conditions
1. Introduction
2. Nitric oxide donors for controlling seed vigor and dormancy
3. Nitric oxide donors for controlling salt/drought stress
4. Extreme temperatures and NO application
5. Response in form of gene-expression on the application of NO
6. Conclusion and future prospects of NO in agriculture
References
15
Advances and future prospect of nitric oxide in agriculture
1. Introduction
2. NO applications in agriculture
2.1 Seed germination
2.2 Roots development
2.3 Flowering and fruit setting
2.4 Postharvest applications
3. NO and abiotic stresses on agricultural crops
3.1 Drought stress and NO treatments
3.2 Salinity and NO treatments
3.3 Heat stress and NO treatments
3.4 Heavy metals and NO treatments
4. Conclusion
References
16
Cross-talk between ROS, RNS, RCS, and RSS in plants under abiotic stresses
1. Introduction
2. Biosynthesis and signaling of reactive species under abiotic stresses
2.1 Reactive oxygen species
2.2 Reactive nitrogen species
2.3 Reactive sulfur species
2.4 Reactive carbonyl species
3. Molecular cross-talk of reactive species under abiotic stress in plants
3.1 ROS and RNS
3.2 ROS and RSS
3.3 ROS, RNS, RCS, and RSS
4. Conclusion and future prospects
References
Index
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