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Abiotic stresses such as high temperature, low-temperature, drought, and salinity limit crop productivity worldwide. Understanding plant responses to these stresses is essential for rational engineering of crop plants. In Arabidopsis, the signal transduction pathways for abiotic stresses, light, several phytohormones and pathogenesis have been elucidated. A significant portion of plant genomes (most studies are Arabidopsis and rice genome) encodes for proteins involves in signaling such as receptor, sensors, kinases, phosphatases, transcription factors and transporters/channels. Despite…mehr
Abiotic stresses such as high temperature, low-temperature, drought, and salinity limit crop productivity worldwide. Understanding plant responses to these stresses is essential for rational engineering of crop plants. In Arabidopsis, the signal transduction pathways for abiotic stresses, light, several phytohormones and pathogenesis have been elucidated. A significant portion of plant genomes (most studies are Arabidopsis and rice genome) encodes for proteins involves in signaling such as receptor, sensors, kinases, phosphatases, transcription factors and transporters/channels. Despite decades of physiological and molecular effort, knowledge pertaining to how plants sense and transduce low and high temperature, low-water availability (drought), water-submergence and salinity signals is still a major question before plant biologists. One major constraint hampering our understanding of these signal transduction processes in plants has been the lack or slow pace of application of molecular genomic and genetics knowledge in the form of gene function. In the post-genomic era, one of the major challenges is investigation and understanding of multiple genes and gene families regulating a particular physiological and developmental aspect of plant life cycle. One of the important physiological processes is regulation of stress response, which leads to adaptation or adjustment in response to adverse stimuli. With the holistic understanding of the signaling pathways involving not only one gene family but multiple genes or gene families, plant biologists can lay a foundation for designing and generating future crops that can withstand the higher degree of environmental stresses (especially abiotic stresses, which are the major cause of crop loss throughout the world) without losing crop yield and productivity. Therefore, in this proposed book, we intend to incorporate the contribution from leading plant biologists to elucidate several aspects of stress signaling by functional genomic approaches.
Dr. Girdhar Pandey serves as Associate Professor for the Department of Plant Molecular Biology at the University of Delhi South Campus. Dr. Pandey has published and contributed to widely praised books on plant genetics and genomics, including GTPases: Versatile Regulators of Signal Transduction in Plants (Springer, 2015), Abiotic Stress Adaptation in Plants: Physiological, Molecular and Genomic Foundation (Springer, 2010), and Biotechnology in Sustainable Biodiversity and Food Security (Science Publishers, Inc., 2003).
Inhaltsangabe
Role of Plant Mediator Complex in Stress Response.- Towards understanding the transcriptional control of abiotic stress tolerance mechanisms in food legumes.- Insights into the small RNA mediated networks in response to abiotic stress in plants.- The Role of Long Non-coding RNAs in abiotic stress tolerance in plants.- Molecular physiology of heat Stress Responses in Plants.- The Omics of cold stress responses in plants.- Drought stress responses and signal transduction in plants.- Physiological and molecular mechanisms of flooding tolerance in plants.- Salt Adaptation Mechanisms of Halophytes: Improvement of Salt Tolerance in Crop Plants.- UV-B Photoreceptors, their role in photosignaling, physiological responses and abiotic stress in plants.- Analysis of signaling pathways during heavy metal toxicity: A functional genomic perspective.- Nitrogen and Stress.- Signaling pathways in eukaryotic stress, aging and senescence: Common and distinct pathways.- Designing climate smart future crops employing signal transduction components.- Abiotic Stress in Crops: Candidate Genes, Osmolytes, Polyamines and Biotechnological Intervention.- Abiotic stress tolerance and sustainable agriculture: A functional genomic perspective.
Role of Plant Mediator Complex in Stress Response.- Towards understanding the transcriptional control of abiotic stress tolerance mechanisms in food legumes.- Insights into the small RNA mediated networks in response to abiotic stress in plants.- The Role of Long Non-coding RNAs in abiotic stress tolerance in plants.- Molecular physiology of heat Stress Responses in Plants.- The Omics of cold stress responses in plants.- Drought stress responses and signal transduction in plants.- Physiological and molecular mechanisms of flooding tolerance in plants.- Salt Adaptation Mechanisms of Halophytes: Improvement of Salt Tolerance in Crop Plants.- UV-B Photoreceptors, their role in photosignaling, physiological responses and abiotic stress in plants.- Analysis of signaling pathways during heavy metal toxicity: A functional genomic perspective.- Nitrogen and Stress.- Signaling pathways in eukaryotic stress, aging and senescence: Common and distinct pathways.- Designing climate smart future crops employing signal transduction components.- Abiotic Stress in Crops: Candidate Genes, Osmolytes, Polyamines and Biotechnological Intervention.- Abiotic stress tolerance and sustainable agriculture: A functional genomic perspective.
Role of Plant Mediator Complex in Stress Response.- Towards understanding the transcriptional control of abiotic stress tolerance mechanisms in food legumes.- Insights into the small RNA mediated networks in response to abiotic stress in plants.- The Role of Long Non-coding RNAs in abiotic stress tolerance in plants.- Molecular physiology of heat Stress Responses in Plants.- The Omics of cold stress responses in plants.- Drought stress responses and signal transduction in plants.- Physiological and molecular mechanisms of flooding tolerance in plants.- Salt Adaptation Mechanisms of Halophytes: Improvement of Salt Tolerance in Crop Plants.- UV-B Photoreceptors, their role in photosignaling, physiological responses and abiotic stress in plants.- Analysis of signaling pathways during heavy metal toxicity: A functional genomic perspective.- Nitrogen and Stress.- Signaling pathways in eukaryotic stress, aging and senescence: Common and distinct pathways.- Designing climate smart future crops employing signal transduction components.- Abiotic Stress in Crops: Candidate Genes, Osmolytes, Polyamines and Biotechnological Intervention.- Abiotic stress tolerance and sustainable agriculture: A functional genomic perspective.
Role of Plant Mediator Complex in Stress Response.- Towards understanding the transcriptional control of abiotic stress tolerance mechanisms in food legumes.- Insights into the small RNA mediated networks in response to abiotic stress in plants.- The Role of Long Non-coding RNAs in abiotic stress tolerance in plants.- Molecular physiology of heat Stress Responses in Plants.- The Omics of cold stress responses in plants.- Drought stress responses and signal transduction in plants.- Physiological and molecular mechanisms of flooding tolerance in plants.- Salt Adaptation Mechanisms of Halophytes: Improvement of Salt Tolerance in Crop Plants.- UV-B Photoreceptors, their role in photosignaling, physiological responses and abiotic stress in plants.- Analysis of signaling pathways during heavy metal toxicity: A functional genomic perspective.- Nitrogen and Stress.- Signaling pathways in eukaryotic stress, aging and senescence: Common and distinct pathways.- Designing climate smart future crops employing signal transduction components.- Abiotic Stress in Crops: Candidate Genes, Osmolytes, Polyamines and Biotechnological Intervention.- Abiotic stress tolerance and sustainable agriculture: A functional genomic perspective.
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