Cell biology of metals and nutrients
Plants are composed of 17 essential and at least 5 beneficial elements, and these must be taken up as metal or nutrient ions to allow for growth and cell division. Much effort has been devoted to studying the physiology and biochemistry of metals and nutrients in plants. The aspect of cell biology,...
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| Other Authors: | , |
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| Format: | Edited Volume |
| Language: | English |
| Published: |
Berlin, Heidelberg
Springer-Verlag Berlin Heidelberg
2010
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| Series: | Plant cell monographs
17 |
| In: |
Plant cell monographs (17)
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| DOI: | 10.1007/978-3-642-10613-2 |
| Subjects: | |
| Online Access: | Verlag, Volltext: https://doi.org/10.1007/978-3-642-10613-2 Resolving-System, lizenzpflichtig, Volltext: http://dx.doi.org/10.1007/978-3-642-10613-2 Cover: https://swbplus.bsz-bw.de/bsz333454413cov.jpg Verlag, Inhaltsverzeichnis: http://d-nb.info/997577916/04 
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| Author Notes: | edited by Rüdiger Hell, Ralf-Rainer Mendel |
Table of Contents:
- Role of Boron in Plant Growth and its Transport Mechanisms; Introduction: Specialty of B; Physiological Significance of B; B Essentiality in Plants and Animals; B Deficiency and Toxicity Symptoms in Plants; RG-II-B in Cell Wall and its Requirement for Plant Growth; Chemical Properties of B: Possible Binding Sites of B in Cell; Identification of RG-II-B Complex in Plant Cell Walls; Synthesis of RG-II and Physiological Roles of RG-II; A. thaliana MUR1 for Fucose Synthesis Essential for Efficient Formation of dRG-II-B; NpGUT1, Glucuronyltransferase 1, for Cell Adhesion and Attachment
- Changes in RG-II Properties in Response to B NutritionMolecular Mechanism of B Transport in Plants; Passive Diffusion; Channel-mediated B Transport for Facilitation; A. thaliana NIP5; 1, A Channel for Boric Acid for B Uptake Under B Limitation; A. thaliana NIP6; 1, for Preferential Distribution of B into Growing Shoot Tissues; Active B Transport System Under Limited Supply of B; A. thaliana BOR1, the First Borate Transporter Identified in the Biological Systems; BOR1 Degradation Via Endocytosis in Response to High B Supply; Active B Transport System Under Toxic Level of B
- Cellular B Distribution Under Adequate and Toxic Level of BBOR1 Homologs Involved in High B Tolerance Through B Efflux in Plants; Retranslocation of B; B Transport Mechanisms in Yeast and Mammals; Function of a BOR1 Homolog in S. cerevisiae; Function of a BOR1 Homolog in Animals; Conclusions and Foresights; References; Calcium: Not Just Another Ion; Introduction; Nutritional and Structural Functions of Ca2+; Nutritional Functions of Ca2+; Structural Functions of Ca2+; The Evolution of Ca2+ as a Signaling Molecule; Calcium Release in Response to Signals and Stimuli
- Calcium Responses to Abiotic, Biotic Factors and DevelopmentCalcium Responses to Hormones; Interconnection of Ca2+ Dynamics with other Second Messengers; Organelles and Ca2+; Calcium Signaling within the Nucleus; Calcium Regulation by the ER; Mitochondrial Calcium Dynamics; The Role of Chloroplasts in Cellular Calcium Homeostasis; Channels and Transporters shaping Ca2+ Signals; Influx of Ca2+; Voltage Dependent Channels; Ligand Gated Channels; Vacuolar and ER Ca2+ Channels; Efflux of Calcium; Calcium-Proton Antiporter; Phosphorylated-type ATPases; Signal Response Coupling of Calcium
- Differences in Salt and Mannitol ResponsesDifferences in Symbiotic Calcium Responses; Calcium Binding Proteins; Calmodulin; CDPKs; CBLs and CIPKs; Conclusions; References; Cell Biology of Copper; Introduction; Functions of Cu Proteins in Plants; Plastocyanin; Cytochrome c Oxidase; Cu/Zn Superoxide Dismutase; Ethylene Receptors; Phytocyanins; Laccase and Ascorbate Oxidase; Polyphenol Oxidase; Amine Oxidase; Other Roles of Cu in Plants; Cu Movement in and out of Root Cells; Cu Uptake; Cu Export and Intercellular Reallocation; Root to Shoot Cu Translocation; Excess Cu
- Intracellular Cu Delivery to Cu Protein Targets