Exogenous Priming and Engineering of Plant Metabolic and Regulatory Genes
portes grátis
Exogenous Priming and Engineering of Plant Metabolic and Regulatory Genes
Stress Mitigation Strategies in Plants
Mishra, Avinash; Phan Tran, Lam-Son; Pandey, Sonika; Patel, Manish Kumar
Elsevier Science Publishing Co Inc
01/2025
525
Mole
9780443134906
Pré-lançamento - envio 15 a 20 dias após a sua edição
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Section 1: Rewiring stress responses in plants: Exogenous priming 1. Exogenous priming and abiotic stress challenges 2. Reprogramming crop stress memory: Exogenous priming 3. Natural compound priming induces abiotic stress Tolerance in plants: Possible mechanisms 4. Concepts and Possibilities in Priming-mediated Stress and Cross Tolerance in Plants 5. Exogenous Post-treatment Enhanced Chilling Tolerance in Fruits: An Overview 6. Seedling Pre-treatment Induced Tolerance to Salt and Drought Stress: current trends and future directions 7. Alterations in Plant Primary and Secondary Metabolism by Priming 8. Mannitol Priming Alleviates Stress Tolerance in Agricultural Crops 9. Exogenous Proline-mediated Stress Tolerance in Plants 10. Modulation of Abiotic Stress Tolerance in Plants by Exogenous Glycine Betaine 11. Hormones priming: regulator for stress tolerance in plants 12. Mechanisms of Seed Priming Involved in Abiotic and Biotic Stress Amelioration 13. Effect of fruits Priming on Molecular mechanisms regulating stress memory 14. Natural compound Priming for Multiple Stress Tolerance 15. An overview of the effect of seed priming-induced physiochemical and molecular processes in plants: abiotic stress tolerance 16. Epigenetic and chromatin-based plant stress adaption and memory 17. Plants and epigenetic memory for stress response and adaptation Section 2: Mitigating stress by engineering metabolic/regulatory genes 18. Mechanisms of Sensing of Abiotic Stress responses in plants 19. Genetic manipulation for stress tolerant plants: current status and challenges 20. Metabolic Genes: A Toolbox for Combating Salt and Drought Stress in Crop Improvement 21. Metabolic Genes: A Toolbox for Crop Improvement by Mitigating the Effects of Metal and Water Logging Stress 22. Drought Stress and the Effectiveness of Transcriptomics in Identifying Drought Tolerance Mechanisms in Plants 23. Regulatory Genes for the Improvement of Salt and Drought Tolerance 24. Regulatory Genes for Metal and Water Logging Relieving Stress 25. ROS and their role in stress tolerance 26. RNS and their role in stress tolerance 27. Transcription Factors: countering the effect of abiotic stress 28. Current approaches in horticultural crops to mitigate the effect of salt drought stress 29. Current methods for mitigating the effects of metal and water logging stress in industrial and horticulture crops 30. The use of CRISPR/Cas tools versus a transgenic technique 31. Crosstalk and Interaction among Salt Stress Tolerance Pathways 32. Plant gene networks involved in drought stress response and tolerance 33. Thermo-primed cellular networks for plant stress management 34. Coordinated epigenetic regulation in plants: a powerful tool for abiotic stress management
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ABA-dependent drought stress response; ABA-independent drought stress response; AFPs; Abiotic stress; Abiotic stress response; Abiotic stresses; Agricultural products; Agricultural science; Agricultural soil science; Agricultural sustainability; Agrobacterium-mediated; Agronomy; Agronomy discipline; Amino acid; Anaerobic respiration; Antioxidant enzymes; Aquaporins; Aquatic botany; Biochemistry; Biological substances; Biopriming processes; Biopriminig; Biotic and abiotic stress; Biotic stress; COR genes; CRISPR-Cas9; CRISPR/Cas9; Ca2+ Ca2+; Cell division; Cell signaling; Cellular mechanism; Cellular process; Chemical compound; Chloroplast; Chromatin; Chromatin remodeling; Cisgenesis; Climatic change; Cold priming; Cold stress; Cold tolerance; Combined stress; Compatible solutes; Copper oxide nanoparticles; Crop improvement; Crop tolerance; Crops; Cross-talk; Cross-tolerance; Crosstalk; DNA methylation; Defense response; Drought; Drought stress; Drought tolerance; Environmental science; Epigenetic modifications; Epigenetic regulation; Epigenetics; Ethylene; Experimental approach in biochemistry; Food products; Food technology; Freezing stress; Freezing tolerance; Gene editing; Gene expression; Gene stacking; Gene transformation; Genetic engineering; Genetics; Genome editing; Genome-editing system; Germination; Germination processes; Glycine betaine; H2O2; Heat metal tolerance; Heat shock factors (HSFs); Heat stress signaling; Heat tolerance; Histone modifications; Hormones priming; Horticulture; ICE-CBF; Intragenesis; Iron oxide nanoparticles; LEA (late embryogenesis abundant) proteins; Low temperature; MAPKs; Melatonin; Metabolic genes; Metabolic regulation; Metal toxicity; Methylatyion; MicroRNAs (miRNAs); Molecular approach; Molecular biology; Molecular genetics
Section 1: Rewiring stress responses in plants: Exogenous priming 1. Exogenous priming and abiotic stress challenges 2. Reprogramming crop stress memory: Exogenous priming 3. Natural compound priming induces abiotic stress Tolerance in plants: Possible mechanisms 4. Concepts and Possibilities in Priming-mediated Stress and Cross Tolerance in Plants 5. Exogenous Post-treatment Enhanced Chilling Tolerance in Fruits: An Overview 6. Seedling Pre-treatment Induced Tolerance to Salt and Drought Stress: current trends and future directions 7. Alterations in Plant Primary and Secondary Metabolism by Priming 8. Mannitol Priming Alleviates Stress Tolerance in Agricultural Crops 9. Exogenous Proline-mediated Stress Tolerance in Plants 10. Modulation of Abiotic Stress Tolerance in Plants by Exogenous Glycine Betaine 11. Hormones priming: regulator for stress tolerance in plants 12. Mechanisms of Seed Priming Involved in Abiotic and Biotic Stress Amelioration 13. Effect of fruits Priming on Molecular mechanisms regulating stress memory 14. Natural compound Priming for Multiple Stress Tolerance 15. An overview of the effect of seed priming-induced physiochemical and molecular processes in plants: abiotic stress tolerance 16. Epigenetic and chromatin-based plant stress adaption and memory 17. Plants and epigenetic memory for stress response and adaptation Section 2: Mitigating stress by engineering metabolic/regulatory genes 18. Mechanisms of Sensing of Abiotic Stress responses in plants 19. Genetic manipulation for stress tolerant plants: current status and challenges 20. Metabolic Genes: A Toolbox for Combating Salt and Drought Stress in Crop Improvement 21. Metabolic Genes: A Toolbox for Crop Improvement by Mitigating the Effects of Metal and Water Logging Stress 22. Drought Stress and the Effectiveness of Transcriptomics in Identifying Drought Tolerance Mechanisms in Plants 23. Regulatory Genes for the Improvement of Salt and Drought Tolerance 24. Regulatory Genes for Metal and Water Logging Relieving Stress 25. ROS and their role in stress tolerance 26. RNS and their role in stress tolerance 27. Transcription Factors: countering the effect of abiotic stress 28. Current approaches in horticultural crops to mitigate the effect of salt drought stress 29. Current methods for mitigating the effects of metal and water logging stress in industrial and horticulture crops 30. The use of CRISPR/Cas tools versus a transgenic technique 31. Crosstalk and Interaction among Salt Stress Tolerance Pathways 32. Plant gene networks involved in drought stress response and tolerance 33. Thermo-primed cellular networks for plant stress management 34. Coordinated epigenetic regulation in plants: a powerful tool for abiotic stress management
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
ABA-dependent drought stress response; ABA-independent drought stress response; AFPs; Abiotic stress; Abiotic stress response; Abiotic stresses; Agricultural products; Agricultural science; Agricultural soil science; Agricultural sustainability; Agrobacterium-mediated; Agronomy; Agronomy discipline; Amino acid; Anaerobic respiration; Antioxidant enzymes; Aquaporins; Aquatic botany; Biochemistry; Biological substances; Biopriming processes; Biopriminig; Biotic and abiotic stress; Biotic stress; COR genes; CRISPR-Cas9; CRISPR/Cas9; Ca2+ Ca2+; Cell division; Cell signaling; Cellular mechanism; Cellular process; Chemical compound; Chloroplast; Chromatin; Chromatin remodeling; Cisgenesis; Climatic change; Cold priming; Cold stress; Cold tolerance; Combined stress; Compatible solutes; Copper oxide nanoparticles; Crop improvement; Crop tolerance; Crops; Cross-talk; Cross-tolerance; Crosstalk; DNA methylation; Defense response; Drought; Drought stress; Drought tolerance; Environmental science; Epigenetic modifications; Epigenetic regulation; Epigenetics; Ethylene; Experimental approach in biochemistry; Food products; Food technology; Freezing stress; Freezing tolerance; Gene editing; Gene expression; Gene stacking; Gene transformation; Genetic engineering; Genetics; Genome editing; Genome-editing system; Germination; Germination processes; Glycine betaine; H2O2; Heat metal tolerance; Heat shock factors (HSFs); Heat stress signaling; Heat tolerance; Histone modifications; Hormones priming; Horticulture; ICE-CBF; Intragenesis; Iron oxide nanoparticles; LEA (late embryogenesis abundant) proteins; Low temperature; MAPKs; Melatonin; Metabolic genes; Metabolic regulation; Metal toxicity; Methylatyion; MicroRNAs (miRNAs); Molecular approach; Molecular biology; Molecular genetics
