Plant Biochemistry, Sixth Edition examines the molecular mechanisms of photosynthesis and highlights and expands this view to all facets facilitating plant life. It delivers the fundamental knowledge of plant biochemistry and explains the biological processes of life, including growth, development, senescence, and interactions between organisms and the environment, with chemical reactions. This book is suitable for advanced undergraduates and graduate students in plant physiology, plant pathology, plant cell biology, and other plant sciences, researchers in industries actively involved in…mehr
Plant Biochemistry, Sixth Edition examines the molecular mechanisms of photosynthesis and highlights and expands this view to all facets facilitating plant life. It delivers the fundamental knowledge of plant biochemistry and explains the biological processes of life, including growth, development, senescence, and interactions between organisms and the environment, with chemical reactions. This book is suitable for advanced undergraduates and graduate students in plant physiology, plant pathology, plant cell biology, and other plant sciences, researchers in industries actively involved in agribusiness, other biotechnology enterprises, and researchers in agronomy, agriculture, plant development and related areas. Covering a broad spectrum of topics in plant biochemistry, this book explores photosynthesis, energy metabolism, carbohydrate synthesis, photorespiration, starch biosynthesis and degradation, sulfate assimilation and nitrogen and nitrate assimilation and biosynthesis of plant proteins. The new edition delineates areas of latest and future research and includes a new and cutting-edge chapter on chlorophyll degradation.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Birgit Piechulla's current research focus is to understand the biosynthesis and regulation of volatile organic compounds of bacteria and plants (flowers) and to elucidate the underlying molecular and cellular mechanisms and reactions, including signal transduction, in the mVOC receiver. She published 112 peer-reviewed publications, 25 book articles and non-peer-reviewed articles (Researchgate h-index 37). Her book, Plant Biochemistry, co-written with H.W. Heldt has been published in German, English, Russian, Japanese, Indian, Chinese and Turkish. From 1998 - 2013 she was co-editor of Plant Biology, board member of the Deutsche Botanische Gesellschaft (DBG) (2009-2016), board member of the Society of Biochemistry and Molecular Biology (GBM) (2008-2016), councilor of the Int. Society of Chemical Ecology (ISCE) (2014- 2017), and she held several academic positions within the university, including Vice Rector for Science at the University of Rostock (2,5 years, 2013-2015).
Inhaltsangabe
1. Leaf Cells Consist of Several Metabolic Compartments 2. Solar Power and Photosynthesis Are the Basis of Life on Earth 3. Photosynthesis Is an Electron Transport Process 4. Adenosine Triphosphate Is Generated by Photosynthesis 5. Mitochondria Are the Power Station of the Cell 6. The Calvin_Benson_Bassham Cycle Catalyzes Photosynthetic CO2 Assimilation 7. Photorespiratory Pathway Recycles Phosphoglycolate 8. Photosynthesis Needs the Consumption of Water 9. Polysaccharides Are Storage and Transport Forms of Carbohydrates Produced by Photosynthesis 10. Nitrate Assimilation Is Essential for the Biosynthesis of Organic Matter 11. Nitrogen Fixation Enables Plants to Use the Nitrogen in the Air for Growth 12. Products of Nitrogen Fixation and Nitrate Assimilation Are Deposited 13. Sulfate Assimilation Enables the Synthesis of Sulfur-Containing 14. Phloem Transport Distributes Photoassimilates to Various Sites of Consumption and Storage 15. Lipids Are Membrane Constituents and Function as Carbon Stores 16. Special Metabolites Fulfill Specific Biological and Ecological Functions in Plants 17. A Large Diversity of Isoprenoids Has Multiple Functions in Plants 18. Phenylpropanoids Comprise a Multitude of Plant-Specialized Metabolites and Cell Wall Components 19. Multiple Signals Regulate the Growth and Development of Plant Organs and Enable Their Adaptation to Environmental Conditions 20. A Plant Cell Has Three Different Genomes 21. Biosynthesis, Processing, and Degradation of Plant Proteins 22. Biotechnology Alters Plants to Meet the Requirements of Agriculture, Nutrition, and Industry
1. Leaf Cells Consist of Several Metabolic Compartments 2. Solar Power and Photosynthesis Are the Basis of Life on Earth 3. Photosynthesis Is an Electron Transport Process 4. Adenosine Triphosphate Is Generated by Photosynthesis 5. Mitochondria Are the Power Station of the Cell 6. The Calvin_Benson_Bassham Cycle Catalyzes Photosynthetic CO2 Assimilation 7. Photorespiratory Pathway Recycles Phosphoglycolate 8. Photosynthesis Needs the Consumption of Water 9. Polysaccharides Are Storage and Transport Forms of Carbohydrates Produced by Photosynthesis 10. Nitrate Assimilation Is Essential for the Biosynthesis of Organic Matter 11. Nitrogen Fixation Enables Plants to Use the Nitrogen in the Air for Growth 12. Products of Nitrogen Fixation and Nitrate Assimilation Are Deposited 13. Sulfate Assimilation Enables the Synthesis of Sulfur-Containing 14. Phloem Transport Distributes Photoassimilates to Various Sites of Consumption and Storage 15. Lipids Are Membrane Constituents and Function as Carbon Stores 16. Special Metabolites Fulfill Specific Biological and Ecological Functions in Plants 17. A Large Diversity of Isoprenoids Has Multiple Functions in Plants 18. Phenylpropanoids Comprise a Multitude of Plant-Specialized Metabolites and Cell Wall Components 19. Multiple Signals Regulate the Growth and Development of Plant Organs and Enable Their Adaptation to Environmental Conditions 20. A Plant Cell Has Three Different Genomes 21. Biosynthesis, Processing, and Degradation of Plant Proteins 22. Biotechnology Alters Plants to Meet the Requirements of Agriculture, Nutrition, and Industry
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