Advancements in Developing Abiotic Stress-Resilient Plants
portes grátis
Advancements in Developing Abiotic Stress-Resilient Plants
Basic Mechanisms to Trait Improvements
R. Khan, M. Iqbal; Reddy, Palakolanu; Gupta, Ravi
Taylor & Francis Ltd
06/2022
386
Dura
Inglês
9780367747725
15 a 20 dias
889
Descrição não disponível.
1. Physiological, Molecular, and Biochemical Responses of Rice to Drought Stress
2. Coordinated Functions of Reactive Oxygen Species Metabolism and Defense Systems in Abiotic Stress Tolerance
3. Nitric Oxide- Mediated Salinity Stress Tolerance in Plants: Signaling and Physiological Perspectives
4. S- Nitrosylation and Denitrosylation: A Regulatory Mechanism during Abiotic Stress Tolerance in Crops
5. Calcium Signaling Is a Hub of the Signaling Network in Response and Adaptation of Plants to Heat Stress
6. Functions of Polyamines in Abiotic Stress Tolerance in Plants
7. Decoding the Multifaceted Role of Glycine Betaine in Heavy Metal Stress Regulation
8. Abiotic stress and its role in altering the nutritional landscape of food crops
9. Plants transcription factors from halophytes and their role in salinity and drought stress tolerance
10. Plant abiotic stress tolerance on the transcriptomics atlas
11. Deciphering the molecular mechanism of salinity tolerance in halophytes using transcriptome analysis
12. Seed aging in crops: A proteomics perspective
13. Crop Proteomics: Towards Systemic Analysis of Abiotic Stress Responses
14. Metabolites and abiotic stress tolerance in plants
15. Genome editing for developing abiotic stress-resilient plants
16. Molecular breeding in rice for abiotic stress resilience: The story since 2004
17. Nanotechnology in developing abiotic stress resilience in crops: a physiological implication
2. Coordinated Functions of Reactive Oxygen Species Metabolism and Defense Systems in Abiotic Stress Tolerance
3. Nitric Oxide- Mediated Salinity Stress Tolerance in Plants: Signaling and Physiological Perspectives
4. S- Nitrosylation and Denitrosylation: A Regulatory Mechanism during Abiotic Stress Tolerance in Crops
5. Calcium Signaling Is a Hub of the Signaling Network in Response and Adaptation of Plants to Heat Stress
6. Functions of Polyamines in Abiotic Stress Tolerance in Plants
7. Decoding the Multifaceted Role of Glycine Betaine in Heavy Metal Stress Regulation
8. Abiotic stress and its role in altering the nutritional landscape of food crops
9. Plants transcription factors from halophytes and their role in salinity and drought stress tolerance
10. Plant abiotic stress tolerance on the transcriptomics atlas
11. Deciphering the molecular mechanism of salinity tolerance in halophytes using transcriptome analysis
12. Seed aging in crops: A proteomics perspective
13. Crop Proteomics: Towards Systemic Analysis of Abiotic Stress Responses
14. Metabolites and abiotic stress tolerance in plants
15. Genome editing for developing abiotic stress-resilient plants
16. Molecular breeding in rice for abiotic stress resilience: The story since 2004
17. Nanotechnology in developing abiotic stress resilience in crops: a physiological implication
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Horticulture;Horticultural Development;Abiotic Plants;Stress-resilient Plants;Abiotic Stress;Salinity Stress;Salt Stress;Abiotic Stress Tolerance;Drought Stress;Stress Tolerance;Heat Shock;Heavy Metal Stress;ABF;Abiotic Plant Stress Responses;Betaine Aldehyde Dehydrogenase;Salt Responsive Genes;Salt Tolerance;ROS Scavenge;Heat Stress;Reference Genome;Halogeton Glomeratus;Ascorbate GSH Cycle;GSNOR;Salinity Tolerance;Drought Tolerance;Aba Responsive Element;Non-enzymatic Antioxidants;Seed Germination;Protein Kinases
1. Physiological, Molecular, and Biochemical Responses of Rice to Drought Stress
2. Coordinated Functions of Reactive Oxygen Species Metabolism and Defense Systems in Abiotic Stress Tolerance
3. Nitric Oxide- Mediated Salinity Stress Tolerance in Plants: Signaling and Physiological Perspectives
4. S- Nitrosylation and Denitrosylation: A Regulatory Mechanism during Abiotic Stress Tolerance in Crops
5. Calcium Signaling Is a Hub of the Signaling Network in Response and Adaptation of Plants to Heat Stress
6. Functions of Polyamines in Abiotic Stress Tolerance in Plants
7. Decoding the Multifaceted Role of Glycine Betaine in Heavy Metal Stress Regulation
8. Abiotic stress and its role in altering the nutritional landscape of food crops
9. Plants transcription factors from halophytes and their role in salinity and drought stress tolerance
10. Plant abiotic stress tolerance on the transcriptomics atlas
11. Deciphering the molecular mechanism of salinity tolerance in halophytes using transcriptome analysis
12. Seed aging in crops: A proteomics perspective
13. Crop Proteomics: Towards Systemic Analysis of Abiotic Stress Responses
14. Metabolites and abiotic stress tolerance in plants
15. Genome editing for developing abiotic stress-resilient plants
16. Molecular breeding in rice for abiotic stress resilience: The story since 2004
17. Nanotechnology in developing abiotic stress resilience in crops: a physiological implication
2. Coordinated Functions of Reactive Oxygen Species Metabolism and Defense Systems in Abiotic Stress Tolerance
3. Nitric Oxide- Mediated Salinity Stress Tolerance in Plants: Signaling and Physiological Perspectives
4. S- Nitrosylation and Denitrosylation: A Regulatory Mechanism during Abiotic Stress Tolerance in Crops
5. Calcium Signaling Is a Hub of the Signaling Network in Response and Adaptation of Plants to Heat Stress
6. Functions of Polyamines in Abiotic Stress Tolerance in Plants
7. Decoding the Multifaceted Role of Glycine Betaine in Heavy Metal Stress Regulation
8. Abiotic stress and its role in altering the nutritional landscape of food crops
9. Plants transcription factors from halophytes and their role in salinity and drought stress tolerance
10. Plant abiotic stress tolerance on the transcriptomics atlas
11. Deciphering the molecular mechanism of salinity tolerance in halophytes using transcriptome analysis
12. Seed aging in crops: A proteomics perspective
13. Crop Proteomics: Towards Systemic Analysis of Abiotic Stress Responses
14. Metabolites and abiotic stress tolerance in plants
15. Genome editing for developing abiotic stress-resilient plants
16. Molecular breeding in rice for abiotic stress resilience: The story since 2004
17. Nanotechnology in developing abiotic stress resilience in crops: a physiological implication
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Horticulture;Horticultural Development;Abiotic Plants;Stress-resilient Plants;Abiotic Stress;Salinity Stress;Salt Stress;Abiotic Stress Tolerance;Drought Stress;Stress Tolerance;Heat Shock;Heavy Metal Stress;ABF;Abiotic Plant Stress Responses;Betaine Aldehyde Dehydrogenase;Salt Responsive Genes;Salt Tolerance;ROS Scavenge;Heat Stress;Reference Genome;Halogeton Glomeratus;Ascorbate GSH Cycle;GSNOR;Salinity Tolerance;Drought Tolerance;Aba Responsive Element;Non-enzymatic Antioxidants;Seed Germination;Protein Kinases