Details
Rhizobiology: Molecular Physiology of Plant Roots
Signaling and Communication in Plants
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171,19 € |
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| Verlag: | Springer |
| Format: | |
| Veröffentl.: | 07.12.2021 |
| ISBN/EAN: | 9783030849856 |
| Sprache: | englisch |
| Anzahl Seiten: | 500 |
Dieses eBook enthält ein Wasserzeichen.
Beschreibungen
<p>This book discusses the recent advancements in the role of various biomolecules in regulating root growth and development. Rhizobiology is a dynamic sub discipline of plant science which collates investigations from various aspects like physiology, biochemistry, genetic analysis and plant–microbe interactions. The physiology and molecular mechanisms of root development have undergone significant advancements in the last couple of decades. Apart from the already known conventional phytohormones (IAA, GA, cytokinin, ethylene and ABA), certain novel biomolecules have been considered as potential growth regulators or hormones regulating plant growth and development. Root phenotyping and plasticity analysis with respect to the specific functional mutants of each biomolecule shall provide substantial information on the molecular pathways of root signaling.</p>Special emphasis provides insights on the tolerance and modulatory mechanisms of root physiology in response to light burst, ROS generation, agravitrophic response, abiotic stress and biotic interactions.<br><br>Root Apex Cognition: From Neuronal Molecules to Root-Fungal Networks and Suberin in Monocotyledonous Crop Plants: Structure and Function in Response to Abiotic Stresses” are available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.<div><br></div><div>Chapters “Root Apex Cognition: From Neuronal Molecules to Root-Fungal Networks and Suberin in Monocotyledonous Crop Plants: Structure and Function in Response to Abiotic Stresses” are available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.<br><br><p></p><p> <br></p></div>
Root apex cognition: from molecules to root-fungal networks.- Root architectural plasticity in changing nutrient availability.- Molecular physiology of nitrate sensing by roots.- Root zones work in concert in exploring heterogeneous environments and conferring tip growth.- Role of Arbuscular mycorrhizal fungi in root development with a new dimension in the root web network.- Ally or foe: Role of soil microbiota in shaping root architecture in plants.- Role of miRNAs in shaping root architecture in higher plants.- Rooting the right way: The role of glucose signaling in regulating root development in plants.- Plant hormonal crosstalk: a nexus of root development.- Dynamic pool of nitric oxide in rhizosphere modulates root architecture, nutrient acquisition and stress tolerance in plants.- Role of nitric oxide as a double edged sword in root growth and development.- Role of plant auxin and their interplay in root development.- Interaction of cytokinin and ethylene in the regulation of primary root growth and development.- Role of brassinosteroids in root growth and development.- Precise role of strigolactones and its crosstalk mechanisms in root development.- Crosstalk of Jasmonates with phytohormones accompanying root growth, development and microbe-interaction.- Jasmonates: A thorough insight into the mechanism of biosynthesis, signaling and action in root growth and development.- Serotonin and Melatonin: Role in rhizogenesis, root development and Signaling.- Suberin in monocotyledonous crop plants: structure and function in response to abiotic stresses.- Hitting hard times: Effect of abiotic stress on root physiology.- An approach in updating plant metabolomics in roots to tolerate anaerobic submergence stress.- Role of heavy-metal resistant bacteria isolated from rhizosphere in bioremediation and plant development.- Understanding the regulation of root development towards crop improvement towards environmental stresses.- In vitro biosynthesis of natural products inplant roots.
<p><b>Dr. Soumya Mukherjee </b>has accomplished his doctorate studies from the Department of Botany, University of Delhi. He has been as Ex-Faculty (adhoc) of Ramjas College, University of Delhi. Currently, he is employed as Faculty in the Department of Botany, Jangipur College, University of Kalyani, West Bengal. Dr. Mukherjee has worked as CSIR Research Fellow in the area of abiotic stress physiology of plants. He has published both research and review articles in various peer-reviewed international journals (SCOPUS and SCI indexed). He has contributed various chapters (plant physiology, abiotic stress signaling) and popular articles in various books published from national and international publishers. He has authored e-learning module in Plant Physiology and Biochemistry published as an effort of National Mission on Education through ICT (MHRD Project undertaken by University of Delhi). He is Subject Reviewer of some peer-reviewed international journals on plant science (Acta physiologia plantarum, Journal of Plant Physiology, Plos One, Plant signaling and Behaviour, BMC plant biology, Scientific reports). He has presented brief research works in international- and state-level conferences in India and Abroad. Currently, he is focussed on undergraduate teaching to Botany and Life Science students in various fundamental aspects areas of Plant Physiology and Plant Anatomy. He continues to work with research interests in salt-stress physiology associated with the aspects of hormone signaling and biomolecular cross talk in plants.</p><p><b>Professor FRANTIŠEK BALUŠKA</b> is Lecturer and Researcher at the Institute of Cellular and Molecular Botany at Bonn University, Germany. He obtained Full Professor title at the Comenius University Bratislava (Slovakia) in 2008. His main interest is plant cell biology, especially root apices, as related to the cytoskeleton, endocytosis, vesicle trafficking and polarity. He has investigated root apices for more than twenty years andmade original contribution to the root apex organization by the discovery of a transition zone interpolated between the apical meristem and the rapid cell elongation region. František Baluška is also interested in the response of roots to environmental factors such as light and gravity, as well as in the emerging field of plant neurobiology. Finally, he is interested in the conceptual analysis of the cell theory. He published more than eighty research papers and edited several books. František Baluška founded and acts as Editor-in-Chief for two Taylor & Francis journals: Plant Signaling & Behavior and Communicative & Integrative Biology<br></p>
<p>This book discusses the recent advancements in the role of various biomolecules in regulating root growth and development. Rhizobiology is a dynamic sub discipline of plant science which collates investigations from various aspects like physiology, biochemistry, genetic analysis and plant–microbe interactions. The physiology and molecular mechanisms of root development have undergone significant advancements in the last couple of decades. Apart from the already known conventional phytohormones (IAA, GA, cytokinin, ethylene and ABA), certain novel biomolecules have been considered as potential growth regulators or hormones regulating plant growth and development. Root phenotyping and plasticity analysis with respect to the specific functional mutants of each biomolecule shall provide substantial information on the molecular pathways of root signaling.</p><p>Special emphasis provides insights on the tolerance and modulatory mechanisms of root physiology in response to light burst, ROSgeneration, agravitrophic response, abiotic stress and biotic interactions.<br><br>Root Apex Cognition: From Neuronal Molecules to Root-Fungal Networks and Suberin in Monocotyledonous Crop Plants: Structure and Function in Response to Abiotic Stresses” are available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.</p>
Presents extensive summaries on the role of various biomolecules and their cross talk in root development and signaling Provides recent updates on hydrogen sulphide, strigolactone, and alkamide signaling in roots Mentions about neurotransmitters and root signaling
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