Molecular mechanisms of photosynthesis:
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Hoboken, NJ, USA
Wiley
2021
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| Ausgabe: | Third edition |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | This book is accompanied by a companion website: https://www.wiley.com/go/blankenship/molecularphotosynthesis3e |
| Beschreibung: | xvii, 328 Seiten Illustrationen, Diagramme |
| ISBN: | 9781119800019 |
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Contents Introduction to the third edition Acknowledgements xv About the companion website Chapter 1 The basic principles of phoiosynthetic energystorage 1.1 What is photosynthesis? 1.2 Photosynthesis is a solar energy storage process 1.3 Where photosynthesis takes place 1.4 The four phases of energy storage in photosynthesis References Chapter 2 Chapter 3 xiii PhotosyntheHc organisms and organelles xvii 1 1 3 4 5 9 11 2.1 Introduction 2.2 Classification of life 2.3 Prokaryotes and eukaryotes 2.4 Metabolic patterns among living things 2.5 Phototrophic prokaryotes 2.6 Photosynthetic eukaryotes References 11 12 14 15 16 21 24 History and early development of photosynthesis 27 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 3.10 3.11 Van Helmont and the willow tree Carl Scheele, Joseph Priestley, and the discovery of oxygen Ingenhousz and the role of light in photosynthesis Senebier and the role of carbon dioxide De Saussure and the participation of water The equation of photosynthesis Early mechanistic ideas of photosynthesis The Emerson and Arnold experiments The controversy over the quantum requirement of photosynthesis The red drop and the Emerson enhancement effect Antagonistic effects 27 28 29 29 29 30 31 32 35 35 37
Contents viļ_ 3.12 Early formulations of the Z scheme for photosynthesis 3.13 ATP formation 3.14 Carbon fixation References Chapter 4 Photosynthetic pigments; structure and spectroscopy Chemical structures and distribution of chlorophylls and bacteriochlorophylls 4.2 Pheophytins and bacteriopheophytins 4.3 Chlorophyll biosynthesis 4.4 Spectroscopic properties of chlorophylls 4.5 Carotenoids 4.6 Bilins References 37 39 39 39 41 4.1 Chapter 5 Antenna complexes and energy transfer processes 5.1 General concepts of antennas and a bit of history 5.2 Why antennas? 5.3 Classes of antennas 5.4 Physical principles of antenna function 5.5 Structure and function of selected antenna complexes 5.6 Regulation of antennas References Chapter 6 Chapter 7 41 47 48 51 55 58 59 61 61 62 64 65 73 84 87 Reaction centers and electron transport pathways in anoxygenic photoirophs 91 6.1 Basic principles of reaction center structure and function 6.2 Development of the reaction center concept 6.3 Purple bacterial reaction centers 6.4 Theoretical analysis of biological electron transfer reactions 6.5 Quinone reductions, the role of the Fe and pathways of proton uptake 6.6 Organization of electron transfer pathways 6.7 Completing the cycle - the cytochrome be complex 6.8 Membrane organization in purple bacteria 6.9 Electron transport in other anoxygenic phototrophic bacteria References 92 92 93 98 101 103 105 109 110 113 Reaction centers and electron transfer pathways in oxygenic photosynthetic organisms 7.1 7.2 Spatial distribution of electron transport components in thylakoids of oxygenic
photosynthetic organisms Noncyclic electron flow in oxygenic organisms 117 117 119
Contents 7.3 7.4 Photosystem II overall electron transfer pathway Photosystem II forms a dimeric supercomplex in the thylakoid membrane 7.5 The oxygen-evolving complex and the mechanism of water oxidation by Photosystem II 7.6 The structure and function of the cytochrome b6 f complex 7.7 Plastocyanin donates electrons to Photosystem I 7.8 Photosystem I structure and electron transfer pathway 7.9 Ferredoxin and ferredoxin-NADP reductase complete the noncyclic electron transport chain References Chapter 8 Chemiosmotic coupling and ATP synthesis Chemical aspects of ATP and the phosphoanhydride bonds 8.2 Historical perspective on ATP synthesis 8.3 Quantitative formulation of proton motive force 8.4 Nomenclature and cellular location of ATP synthase 8.5 Structure of ATP synthase 8.6 The mechanism of chemiosmotic coupling References I 119 120 123 128 130 131 134 139 145 8.1 Chapter 9 Carbon metabolism The Calvin-Benson cycle is the primary photosynthetic carbon fixation pathway 9.2 Photorespiration is a wasteful competitive process to carboxylation 9.3 The C4 carbon cycle minimizes photorespiration 9.4 Crassulacean acid metabolism avoids water loss in plants 9.5 Algae and cyanobacteria actively concentrate C02 9.6 Sucrose and starch synthesis 9.7 Other carbon fixation pathways in anoxygenic phototrophs References 145 147 148 150 150 153 157 159 9.1 Chapter 10 Genetics, assembly, and regulation of photosynthetic systems 10.1 10.2 10.3 10.4 10.5 Gene organization in anoxygenic photosynthetic bacteria Gene expression and regulation of purple photosynthetic bacteria Gene organization
in cyanobacteria Chloroplast genomes Pathways and mechanisms of protein import and targeting in chloroplasts 159 173 176 180 182 183 186 188 191 191 193 194 194 195
Contents 10.6 Gene regulation and the assembly of photosynthetic complexes in cyanobacteria and chloroplaste 10.7 The regulation of oligomeric protein stoichiometry 10.8 Assembly, photodamage, and repair of Photosystem II References Chapter 11 The use of chlorophyll fluorescence to probe photosynthesis 11.1 11.2 The time course of chlorophyll fluorescence The use of fluorescence to determine the quantum yield of Photosystem II 11.3 Fluorescence detection of nonphotochemical quenching 11.4 The physical basis of variable fluorescence References Chapter 12 Origin and evolution of photosynthesis 12.1 Introduction 12.2 Early history of the Earth 12.3 Origin and early evolution of life 12.4 Geological evidence for life and photosynthesis 12.5 The nature of the earliest photosynthetic systems 12.6 The origin and evolution of metabolic pathways with special reference to chlorophyll biosynthesis 12.7 Origin and evolution of photosynthetic pigments 12.8 Evolutionary relationships among reaction centers and other electron transport components 12.9 Do all photosynthetic reaction centers derive from a common ancestor? 12.10 The origin of linked photosystems and oxygen evolution 12.11 Origin of the oxygen-evolving complex and the transition to oxygenic photosynthesis 12.12 Antenna systems have multiple evolutionary origins 12.13 Endosymbiosis and the origin of chloroplaste 12.14 Most types of algae are the result of secondary endosymbiosis 12T5 Following endosymbiosis, many genes were transferred to the nucleus, and proteins were reimported to the chloroplast 12.16 Evolution of carbon
metabolism pathways References Chapter 13 Bioenergy applications and artificial photosynthesis 13.1 13.2 13.3 13.4 Introduction Solar energy conversion What is the efficiency of natural photosynthesis? Calculation of the energy storage efficiency of oxygenic photosynthesis 199 200 201 203 207 208 209 211 211 212 215 215 215 216 218 222 224 225 229 232 235 236 238 241 244 246 248 249 257 257 257 260 261
Contents 13.5 Why is the efficiency of photosynthesis so low? 13.6 How might the efficiency of photosynthesis be improved? 13.7 Artificial photosynthesis References I 262 263 264 268 Appendix 1 Light, energy, and kinetics 271 Index 313 |
| adam_txt |
Contents Introduction to the third edition Acknowledgements xv About the companion website Chapter 1 The basic principles of phoiosynthetic energystorage 1.1 What is photosynthesis? 1.2 Photosynthesis is a solar energy storage process 1.3 Where photosynthesis takes place 1.4 The four phases of energy storage in photosynthesis References Chapter 2 Chapter 3 xiii PhotosyntheHc organisms and organelles xvii 1 1 3 4 5 9 11 2.1 Introduction 2.2 Classification of life 2.3 Prokaryotes and eukaryotes 2.4 Metabolic patterns among living things 2.5 Phototrophic prokaryotes 2.6 Photosynthetic eukaryotes References 11 12 14 15 16 21 24 History and early development of photosynthesis 27 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 3.10 3.11 Van Helmont and the willow tree Carl Scheele, Joseph Priestley, and the discovery of oxygen Ingenhousz and the role of light in photosynthesis Senebier and the role of carbon dioxide De Saussure and the participation of water The equation of photosynthesis Early mechanistic ideas of photosynthesis The Emerson and Arnold experiments The controversy over the quantum requirement of photosynthesis The red drop and the Emerson enhancement effect Antagonistic effects 27 28 29 29 29 30 31 32 35 35 37
Contents viļ_ 3.12 Early formulations of the Z scheme for photosynthesis 3.13 ATP formation 3.14 Carbon fixation References Chapter 4 Photosynthetic pigments; structure and spectroscopy Chemical structures and distribution of chlorophylls and bacteriochlorophylls 4.2 Pheophytins and bacteriopheophytins 4.3 Chlorophyll biosynthesis 4.4 Spectroscopic properties of chlorophylls 4.5 Carotenoids 4.6 Bilins References 37 39 39 39 41 4.1 Chapter 5 Antenna complexes and energy transfer processes 5.1 General concepts of antennas and a bit of history 5.2 Why antennas? 5.3 Classes of antennas 5.4 Physical principles of antenna function 5.5 Structure and function of selected antenna complexes 5.6 Regulation of antennas References Chapter 6 Chapter 7 41 47 48 51 55 58 59 61 61 62 64 65 73 84 87 Reaction centers and electron transport pathways in anoxygenic photoirophs 91 6.1 Basic principles of reaction center structure and function 6.2 Development of the reaction center concept 6.3 Purple bacterial reaction centers 6.4 Theoretical analysis of biological electron transfer reactions 6.5 Quinone reductions, the role of the Fe and pathways of proton uptake 6.6 Organization of electron transfer pathways 6.7 Completing the cycle - the cytochrome be complex 6.8 Membrane organization in purple bacteria 6.9 Electron transport in other anoxygenic phototrophic bacteria References 92 92 93 98 101 103 105 109 110 113 Reaction centers and electron transfer pathways in oxygenic photosynthetic organisms 7.1 7.2 Spatial distribution of electron transport components in thylakoids of oxygenic
photosynthetic organisms Noncyclic electron flow in oxygenic organisms 117 117 119
Contents 7.3 7.4 Photosystem II overall electron transfer pathway Photosystem II forms a dimeric supercomplex in the thylakoid membrane 7.5 The oxygen-evolving complex and the mechanism of water oxidation by Photosystem II 7.6 The structure and function of the cytochrome b6 f complex 7.7 Plastocyanin donates electrons to Photosystem I 7.8 Photosystem I structure and electron transfer pathway 7.9 Ferredoxin and ferredoxin-NADP reductase complete the noncyclic electron transport chain References Chapter 8 Chemiosmotic coupling and ATP synthesis Chemical aspects of ATP and the phosphoanhydride bonds 8.2 Historical perspective on ATP synthesis 8.3 Quantitative formulation of proton motive force 8.4 Nomenclature and cellular location of ATP synthase 8.5 Structure of ATP synthase 8.6 The mechanism of chemiosmotic coupling References I 119 120 123 128 130 131 134 139 145 8.1 Chapter 9 Carbon metabolism The Calvin-Benson cycle is the primary photosynthetic carbon fixation pathway 9.2 Photorespiration is a wasteful competitive process to carboxylation 9.3 The C4 carbon cycle minimizes photorespiration 9.4 Crassulacean acid metabolism avoids water loss in plants 9.5 Algae and cyanobacteria actively concentrate C02 9.6 Sucrose and starch synthesis 9.7 Other carbon fixation pathways in anoxygenic phototrophs References 145 147 148 150 150 153 157 159 9.1 Chapter 10 Genetics, assembly, and regulation of photosynthetic systems 10.1 10.2 10.3 10.4 10.5 Gene organization in anoxygenic photosynthetic bacteria Gene expression and regulation of purple photosynthetic bacteria Gene organization
in cyanobacteria Chloroplast genomes Pathways and mechanisms of protein import and targeting in chloroplasts 159 173 176 180 182 183 186 188 191 191 193 194 194 195
Contents 10.6 Gene regulation and the assembly of photosynthetic complexes in cyanobacteria and chloroplaste 10.7 The regulation of oligomeric protein stoichiometry 10.8 Assembly, photodamage, and repair of Photosystem II References Chapter 11 The use of chlorophyll fluorescence to probe photosynthesis 11.1 11.2 The time course of chlorophyll fluorescence The use of fluorescence to determine the quantum yield of Photosystem II 11.3 Fluorescence detection of nonphotochemical quenching 11.4 The physical basis of variable fluorescence References Chapter 12 Origin and evolution of photosynthesis 12.1 Introduction 12.2 Early history of the Earth 12.3 Origin and early evolution of life 12.4 Geological evidence for life and photosynthesis 12.5 The nature of the earliest photosynthetic systems 12.6 The origin and evolution of metabolic pathways with special reference to chlorophyll biosynthesis 12.7 Origin and evolution of photosynthetic pigments 12.8 Evolutionary relationships among reaction centers and other electron transport components 12.9 Do all photosynthetic reaction centers derive from a common ancestor? 12.10 The origin of linked photosystems and oxygen evolution 12.11 Origin of the oxygen-evolving complex and the transition to oxygenic photosynthesis 12.12 Antenna systems have multiple evolutionary origins 12.13 Endosymbiosis and the origin of chloroplaste 12.14 Most types of algae are the result of secondary endosymbiosis 12T5 Following endosymbiosis, many genes were transferred to the nucleus, and proteins were reimported to the chloroplast 12.16 Evolution of carbon
metabolism pathways References Chapter 13 Bioenergy applications and artificial photosynthesis 13.1 13.2 13.3 13.4 Introduction Solar energy conversion What is the efficiency of natural photosynthesis? Calculation of the energy storage efficiency of oxygenic photosynthesis 199 200 201 203 207 208 209 211 211 212 215 215 215 216 218 222 224 225 229 232 235 236 238 241 244 246 248 249 257 257 257 260 261
Contents 13.5 Why is the efficiency of photosynthesis so low? 13.6 How might the efficiency of photosynthesis be improved? 13.7 Artificial photosynthesis References I 262 263 264 268 Appendix 1 Light, energy, and kinetics 271 Index 313 |
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| spelling | Blankenship, Robert E. Verfasser (DE-588)1276199325 aut Molecular mechanisms of photosynthesis Robert E. Blankenship, Tempe, AZ, USA Third edition Hoboken, NJ, USA Wiley 2021 xvii, 328 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier This book is accompanied by a companion website: https://www.wiley.com/go/blankenship/molecularphotosynthesis3e Photosynthesis Molecular aspects Photosynthesis Molecular biology Photosynthese (DE-588)4045936-6 gnd rswk-swf Molekularbiologie (DE-588)4039983-7 gnd rswk-swf Photosynthese (DE-588)4045936-6 s Molekularbiologie (DE-588)4039983-7 s DE-604 Erscheint auch als Online-Ausgabe 978-1-119-80011-8 Digitalisierung UB Regensburg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032841812&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
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| title | Molecular mechanisms of photosynthesis |
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