Verfügbarkeit: Photosynthetic protein complexes

Photosynthetic protein complexes: a structural approach

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Weitere Verfasser:	Fromme, Petra (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim WILEY-VCH 2008
Schlagworte:	Photosynthesis > Molecular aspects Proteins Multiproteinkomplex Photosynthese Aufsatzsammlung
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XXVII, 360 S. Ill., graph. Darst.
ISBN:	9783527317301

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adam_text	IX Contents Preface XVII List of Contributors XIX Abbreviations XXV 1 Overview of Photosynthesis 1 Petra Fromme and Ingo Crotjohann 1.1 Introduction to Photosynthesis: The Main Energy Source for Our Planet 1 1.2 The Protein Complexes of Oxygenic Photosynthesis 3 1.2.1 Photosystem II 3 1.2.2 The Cytochrome bj" Complex 4 1.2.3 The Soluble Electron Transfer Proteins: Plastocyanin and Cytochrome c6 7 1.2.4 Photosystem I 7 1.2.5 Ferredoxin, Flavodoxin, and FNR 8 1.3 From Water to NADPH: Overview of the Electron Transfer Chain in Oxygenic Photosynthesis 9 1.4 Coupling of Electrochemical Potential to ATP Synthesis 11 1.5 Anoxygenic Photosynthesis 13 1.6 The Antenna Systems 14 1.6.1 The Core Antenna Systems of the Photosystems 14 1.6.2 LHC-I and LHC-II, the Antenna Systems of Higher Plants 35 1.6.3 The Phycobilisomes 16 1.6.4 Chlorosomes 18 1.6.5 LH1 and LH2 18 2 Structure and Function of Cyanobacterial Photosystem I 23 Norbert Krauß 2.1 Introduction 23 2.2 Structural Overview 25 2.3 The Protein Subunits 27 2.3.1 The Core Subunits PsaA and PsaB 27 X Contents 2.3.2 The Stremai Ridge: PsaC, PsaD and PsaE 30 2.3.2.1 Subunit PsaC 31 2.3.2.2 Subunit PsaD 32 2.3.2.3 Subunit PsaE 32 2.3.3 The Small Membrane-Integral Subunits 33 2.3.3.1 Subunits PsaL, Psal, PsaM 34 2.3.3.2 Subunits PsaF, PsaJ, PsaX 35 2.4 The Electron Transfer Chain 37 2.4.1 The First Pair of Chlorophylls 39 2.4.2 The Second and Third Pairs of Chlorophylls 41 2.4.3 The Pair of Phylloquinones 43 2.4.4 The First [4Fe4S] Cluster, Fx 46 2.4.5 The Terminal [4Fe4S] Clusters, FA and FB 46 2.5 The Core Antenna System 47 2.5.1 The Antenna Chlorophylls 48 2.5.2 The Caiotenoids 51 3 A Glimpse into the Atomic Structure of Plant Photosystem I 65 Alexey Amunts, Omri Droty, and Nathan Nelson 3.1 Introduction 65 3.2 The General Architecture of Plant PSI 66 3.3 The Core Complex 68 3.4 Light-Harvesting Complex of Higher Plants 70 3.5 Interaction with Electron Donors and Acceptors 71 3.6 The Modality of PSI 75 4 Structure and Function of Photosystem II 83 Jian-Ren Shen, Takahiro Hertmi, and Nobuo Kamiya 4.1 Introduction S3 4.2 The Structure of Protein Subunits 85 4.2.1 Overall Structure 85 4.2.2 Structure of the Dl and D2 Reaction Center Subunits 85 4.2.3 Structure of the CP47 and CP43 Subunits 87 4.2.4 Structure of the LMM Subunits 89 4.2.5 Structure of the Extrinsic Proteins 90 4.3 The Electron Transfer Chain (ETC) 91 4.3.1 Overview 91 4.3.2 The Photosystem II Reaction Center Chlorophylls (P680) 93 4.3.3 The Quinone Acceptors and Non-Haem Iron 94 4.3.4 The МгцСа Cluster 95 4.3.5 Carotenoids and the Secondary Electron Transfer Pathway 97 4.3.6 Location and Possible Functions of Lipids 98 4.4 The Energy Transfer Pathways 99 4.4.1 The Location of Chlorophylls and the Energy Transfer Pathways within CP47 and CP43 99 Contents XI 4.4.2 The Energy Transfer from CP47 and CP43 to PSII-RC 101 4.5 Concluding Remarks and Perspectives 101 5 Current Models and Mechanism of Water Splitting 107 Robert M. McCarrwk and R. David Britt 5.1 Introduction 107 5.1.1 Photosystem II 107 5.2.1 The Oxygen-Evolving Complex 108 5.2 The Structure of the OEC 109 5.2.1 Early Spectroscopie Results from Chloroplast Membranes 109 5.2.2 Spectroscopie Studies of Isolated PSII 111 5.2.3 The Dimer of Dimers Structure 112 5.2.4 The Monomer Trimer or "Dangler" Structure 114 5.2.5 Х -Ray Diffraction and XAS of PSII Crystals 115 5.2.6 Quantum Mechanical Structural Models 117 5.3 Mechanisms of Water Oxidation 128 5.3.1 Energetic Considerations 118 5.3.2 S State Advancement 119 5.3.3 Water Binding and Proton Release 121 5.3.4 Hydrogen Atom Abstraction Model (Babcock Model) 123 5.3.5 Brudvig/Pecoraro Mechanisms for Water Oxidation 125 5.3.6 Messinger Mechanism 127 5.3.7 Agreement between Proposed Mechanisms and Spectroscopie Data 129 6 Supercomplexes of Photosystems I and II with External Antenna Complexes in Cyanobacteria and Plants 137 Jan P. Dekker and Egbert J. Boekema 6.1 Introduction 137 6.2 Supercomplexes with Proteins from the LHC Superfamily 138 6.2.1 PSII-LHC-II Supercomplexes 139 6.2.2 PSI-LHC-I Supercomplexes 142 6.2.3 PSI-LHC-I-LHC-II Supercomplexes 145 6.3 Supercomplexes with Proteins from the Core Complex Family 147 6.3.1 PSI-IsiA and PSI-Pcb Supercomplexes 348 6.3.2 PSII-Pcb Supercomplexes 150 7 Cytochrome b6f Complex, Colon Structure, Spectroscopy, and Function of Heme cn and и -Side Electron and Proton Transfer Reactions 155 William A. Cramer, Danas Baniulis, Eiki Yamashita, Huamin Zhang, Anna I. Zatsman, and Mike P. Hendrich 7.1 Structure of the Cytochrome b6 ƒ Complex; Comparison with the Cytochrome bct Complex 155 XII Contents 7.1.1 Principle Features of the Structure 155 7.1.2 Difference in Prosthetic Group Content of bcx and bef Complexes 157 7.1.3 Symmetry and Asymmetry 158 7.1.4 Questions about Structure-Function at the Outset 259 7.1.5 Evolution: cyt befvs bą 160 7.2 Electron and Proton Transfer Pathways 161 7.2.1 The Q-Cycle and Modifications 161 7.2.2 Question of Obligatory Application of the Q-Cycle Model to the bef Complex 162 7.2.3 Production of Superoxide and Other ROS 263 7.3 Stromal η -Side Electron Transfer: Properties and Function of Heme cn 164 7.3.1 Application of Novel EPR Analysis 264 7.3.2 EPR Spectra of ^/Complex 164 7.3.3 Low-Field Spectra 264 7.3.4 Novel Properties of Heme cn 167 7.3.5 Plastoquinone as a Ligand of Heme cn 26S 7.3.6 Functions and Unwanted Functions of Heme cn 269 7.4 Stromal n-Side Proton Uptake Pathway 269 8 Plastocyanin and Cytochrome c6: the Soluble Electron Carriers between the Cytochrome b^f Complex and Photosystem I 282 Antonio Díaz-Quintana, Manuei Hervás, José A. Navarro, and Miguel A. De la Rosa 8.1 Introduction 181 8.2 An Evolutionary Proposal 282 8.3 General Features of Pc and Cyt c6 Structures 284 8.4 Reaction Mechanisms 287 8.4.1 Kinetic Models 287 8.4.2 Nature of the Interaction Forces 188 8.5 Evolution of Pc and Cyt c6 292 8.5.1 Evolution of the Reaction Mechanisms 191 8.5.2 Increase in Specificity and Efficiency 292 8.5.3 Role of the Soluble Proteins in Driving the Interactions 292 8.6 Structural Analysis of the Transient Complexes 292 8.7 Concluding Remarks 296 9 The Structure of the H+-ATP Synthase from Chloroplaste 202 Bettina Böttcher and Peter Gräber 9.1 Introduction 202 9.2 The Structure of CF, 204 9.3 The Structure of CFo 206 9.4 The Structure of CF0Fi 208 9.5 Structure and Function of CF0F, 209 Contents XIII 10 Structure of the Light-Harvesting Complex II 217 Zhenfeng Liu and Wenrui Chang 10.1 Introduction 217 10.2 Crystal Packing: A Novel Type of Membrane Protein Crystal 218 10.3 LHC-II Trimer and Monomer 220 10.3.1 LHC-II Trimer 220 10.3.2 LHC-II Monomer 223 10.4 Chlorophylls: Identity, Binding and Interactions 225 10.4.1 Identification of Chlorophylls 225 10.4.2 Chlorophyll Binding Sites 225 10.4.3 Interactions between Chlorophylls 227 10.5 Carotenoids 229 10.6 Mechanism of Excitation Energy Transfer and the Role of LHC-II in Non-photochemical Quenching 231 10.6.1 Mechanism of Excitation Energy Transfer 231 10.6.2 The Role of LHC-II in Non-photochemical Quenching 234 10.7 Summary 238 11 Structure of the Phycobilisome Antennae in Cyanobacteria and Red Algae 243 Noam Adir 11.1 Introduction 243 11.1.1 Photosynthetic Antennas 243 11.1.2 Photosynthetic Organisms that Utilize the Phycobilisome 244 11.2 Basic Structural Characteristics of the Phycobilisome Component Proteins 244 11.2.1 Isolation of Phycobilisomes and Phycobiliproteins 247 11.2.2 Crystallization of Phycobilisomes 248 11.2.3 Х -Ray Structures of PB Ps 248 11.2.3.1 Allophycocyanin 249 11.2.3.2 Phycocyanin 251 11.2.3.3 Phycoerythrocyanin 253 11.2.3.4 Phycoerythrin 254 11.2.3.5 Crytophyte Phycoerythrin 255 11.2.3.6 Linker Proteins 255 11.2.4 Phycobiliprotein Post-translational Modifications 257 11.2.4.1 Bilin Lyases 257 11.2.4.2 Methylation of ßAsn72 258 11.2.4.3 Phosphorylation and Glycosylation of Linker Proteins 258 11.3 Self Assembly and Disassembly of the Phycobilisome 259 11.3.1 Phycobilisome Assembly 259 11.3.2 Phycobilisome Disassembly 262 11.4 Phycobilisome Function 263 11.4.1 Phycobilisome Binding to PSII and PSI 263 XIV Contents 11.4.2 Energy Transfer within the Phycobilisome 11.5 Final Remarks 266 265 12 12.1 12.2 12.3 12.4 12.5 12.6 12.7 12.8 12.9 13 13.1 13.2 13.3 13.3.1 13.3.2 13.3.3 13.3.4 13.3.5 13.3.6 13.4 13.4.1 13.4.2 13.4.3 13.4.4 13.4.5 13.5 13.5.1 13.5.2 13.5.3 13.5.4 13.5.5 13.5.6 13.5.7 13.5.8 13.6 13.7 Reaction Centers from Purple Bacteria 275 James P. Allen cmdJoAnn C. Williams Introduction 275 The Overall Structure 276 Bacteriochlorophyll Dimer 278 Bacteriochlorophyll and Bacteriopheophytin Monomers Primary Quinone, Secondary Quinone, and Non-heme Iron 282 Carotenoid 283 Electron Transfer 283 Evolution from Anoxygenic to Oxygenic Photosynthesis Biotechnological Applications 286 281 285 Anoxygenic Туре -l Photosystems and Evolution of Photosynthetic Reaction Centers 295 Martin F. Hohmann-Mamott and Robert E. Blankenship Introduction 295 The Photosynthetic Way of Life 296 The Photosystem of Heliobacteria 299 Reaction Center Core 300 External Subunit 301 Pigments 301 Electron Donor 302 Charge Separation 302 Charge Stabilization 302 The Photosystem of Green Sulfur Bacteria 302 Photosystem Center Core 303 External Subunits 303 Pigments 304 Charge Separation 304 Charge Stabilization 304 Photosystem I of Cyanobacteria and Plastids 305 Reaction Center Core 305 External Subunits 306 Light-Harvesting Systems 307 Interfacing with the Light-Harvesting System 308 Pigments 309 Electron Donors 310 Electron Acceptors 310 Charge Stabilization 311 The Ur-Reaction Center 312 Conclusions 317 Contents XV 14 The Structure of Purple Bacterial Antenna Complexes 325 Richard J. Cogdell, Alastair T. Cardiner, Mads Cabrielsen, June Southall, Aleksander W. Roszak, Neil W. Isaacs, Ritsuko Fujii, and Hideki Hashimoto 14.1 Introduction 325 14.2 Knowledge of the Structural Arrangements before the Determination of the Crystal Structure 326 14.3 The Х -Ray Crystal Structure of the LH2 Complex from Rps. acidophila strain 10050 327 14.4 The Structure of RC-LH1 Core Complexes 332 14.5 Energy Transfer 335 15 Ferredoxin and Flavodoxin Mediated Electron Transfer in Photosystem I 341 Raimund Fromme 15.1 Introduction 341 15.2 The Structure of Ferredoxin in Plants, Red Algae and Cyanobacteria 342 15.3 Ferredoxin in Different Organisms 342 15.4 Electron Transfer between Ferredoxin and Ferredoxin NADP+ Reducíase 344 15.5 Flavodoxin 345 15.6 Docking to Photosystem I 345 15.6.1 Subunit PsaC 346 15.6.2 Subunit PsaD 346 15.6.3 Subunit PsaE 347 Index 353
adam_txt	IX Contents Preface XVII List of Contributors XIX Abbreviations XXV 1 Overview of Photosynthesis 1 Petra Fromme and Ingo Crotjohann 1.1 Introduction to Photosynthesis: The Main Energy Source for Our Planet 1 1.2 The Protein Complexes of Oxygenic Photosynthesis 3 1.2.1 Photosystem II 3 1.2.2 The Cytochrome bj" Complex 4 1.2.3 The Soluble Electron Transfer Proteins: Plastocyanin and Cytochrome c6 7 1.2.4 Photosystem I 7 1.2.5 Ferredoxin, Flavodoxin, and FNR 8 1.3 From Water to NADPH: Overview of the Electron Transfer Chain in Oxygenic Photosynthesis 9 1.4 Coupling of Electrochemical Potential to ATP Synthesis 11 1.5 Anoxygenic Photosynthesis 13 1.6 The Antenna Systems 14 1.6.1 The Core Antenna Systems of the Photosystems 14 1.6.2 LHC-I and LHC-II, the Antenna Systems of Higher Plants 35 1.6.3 The Phycobilisomes 16 1.6.4 Chlorosomes 18 1.6.5 LH1 and LH2 18 2 Structure and Function of Cyanobacterial Photosystem I 23 Norbert Krauß 2.1 Introduction 23 2.2 Structural Overview 25 2.3 The Protein Subunits 27 2.3.1 The Core Subunits PsaA and PsaB 27 X Contents 2.3.2 The Stremai Ridge: PsaC, PsaD and PsaE 30 2.3.2.1 Subunit PsaC 31 2.3.2.2 Subunit PsaD 32 2.3.2.3 Subunit PsaE 32 2.3.3 The Small Membrane-Integral Subunits 33 2.3.3.1 Subunits PsaL, Psal, PsaM 34 2.3.3.2 Subunits PsaF, PsaJ, PsaX 35 2.4 The Electron Transfer Chain 37 2.4.1 The First Pair of Chlorophylls 39 2.4.2 The Second and Third Pairs of Chlorophylls 41 2.4.3 The Pair of Phylloquinones 43 2.4.4 The First [4Fe4S] Cluster, Fx 46 2.4.5 The Terminal [4Fe4S] Clusters, FA and FB 46 2.5 The Core Antenna System 47 2.5.1 The Antenna Chlorophylls 48 2.5.2 The Caiotenoids 51 3 A Glimpse into the Atomic Structure of Plant Photosystem I 65 Alexey Amunts, Omri Droty, and Nathan Nelson 3.1 Introduction 65 3.2 The General Architecture of Plant PSI 66 3.3 The Core Complex 68 3.4 Light-Harvesting Complex of Higher Plants 70 3.5 Interaction with Electron Donors and Acceptors 71 3.6 The Modality of PSI 75 4 Structure and Function of Photosystem II 83 Jian-Ren Shen, Takahiro Hertmi, and Nobuo Kamiya 4.1 Introduction S3 4.2 The Structure of Protein Subunits 85 4.2.1 Overall Structure 85 4.2.2 Structure of the Dl and D2 Reaction Center Subunits 85 4.2.3 Structure of the CP47 and CP43 Subunits 87 4.2.4 Structure of the LMM Subunits 89 4.2.5 Structure of the Extrinsic Proteins 90 4.3 The Electron Transfer Chain (ETC) 91 4.3.1 Overview 91 4.3.2 The Photosystem II Reaction Center Chlorophylls (P680) 93 4.3.3 The Quinone Acceptors and Non-Haem Iron 94 4.3.4 The МгцСа Cluster 95 4.3.5 Carotenoids and the Secondary Electron Transfer Pathway 97 4.3.6 Location and Possible Functions of Lipids 98 4.4 The Energy Transfer Pathways 99 4.4.1 The Location of Chlorophylls and the Energy Transfer Pathways within CP47 and CP43 99 Contents XI 4.4.2 The Energy Transfer from CP47 and CP43 to PSII-RC 101 4.5 Concluding Remarks and Perspectives 101 5 Current Models and Mechanism of Water Splitting 107 Robert M. McCarrwk and R. David Britt 5.1 Introduction 107 5.1.1 Photosystem II 107 5.2.1 The Oxygen-Evolving Complex 108 5.2 The Structure of the OEC 109 5.2.1 Early Spectroscopie Results from Chloroplast Membranes 109 5.2.2 Spectroscopie Studies of Isolated PSII 111 5.2.3 The Dimer of Dimers Structure 112 5.2.4 The Monomer Trimer or "Dangler" Structure 114 5.2.5 Х -Ray Diffraction and XAS of PSII Crystals 115 5.2.6 Quantum Mechanical Structural Models 117 5.3 Mechanisms of Water Oxidation 128 5.3.1 Energetic Considerations 118 5.3.2 S State Advancement 119 5.3.3 Water Binding and Proton Release 121 5.3.4 Hydrogen Atom Abstraction Model (Babcock Model) 123 5.3.5 Brudvig/Pecoraro Mechanisms for Water Oxidation 125 5.3.6 Messinger Mechanism 127 5.3.7 Agreement between Proposed Mechanisms and Spectroscopie Data 129 6 Supercomplexes of Photosystems I and II with External Antenna Complexes in Cyanobacteria and Plants 137 Jan P. Dekker and Egbert J. Boekema 6.1 Introduction 137 6.2 Supercomplexes with Proteins from the LHC Superfamily 138 6.2.1 PSII-LHC-II Supercomplexes 139 6.2.2 PSI-LHC-I Supercomplexes 142 6.2.3 PSI-LHC-I-LHC-II Supercomplexes 145 6.3 Supercomplexes with Proteins from the Core Complex Family 147 6.3.1 PSI-IsiA and PSI-Pcb Supercomplexes 348 6.3.2 PSII-Pcb Supercomplexes 150 7 Cytochrome b6f Complex, Colon Structure, Spectroscopy, and Function of Heme cn and и -Side Electron and Proton Transfer Reactions 155 William A. Cramer, Danas Baniulis, Eiki Yamashita, Huamin Zhang, Anna I. Zatsman, and Mike P. Hendrich 7.1 Structure of the Cytochrome b6 ƒ Complex; Comparison with the Cytochrome bct Complex 155 XII Contents 7.1.1 Principle Features of the Structure 155 7.1.2 Difference in Prosthetic Group Content of bcx and bef Complexes 157 7.1.3 Symmetry and Asymmetry 158 7.1.4 Questions about Structure-Function at the Outset 259 7.1.5 Evolution: cyt befvs bą 160 7.2 Electron and Proton Transfer Pathways 161 7.2.1 The Q-Cycle and Modifications 161 7.2.2 Question of Obligatory Application of the Q-Cycle Model to the bef Complex 162 7.2.3 Production of Superoxide and Other ROS 263 7.3 Stromal η -Side Electron Transfer: Properties and Function of Heme cn 164 7.3.1 Application of Novel EPR Analysis 264 7.3.2 EPR Spectra of ^/Complex 164 7.3.3 Low-Field Spectra 264 7.3.4 Novel Properties of Heme cn 167 7.3.5 Plastoquinone as a Ligand of Heme cn 26S 7.3.6 Functions and Unwanted Functions of Heme cn 269 7.4 Stromal n-Side Proton Uptake Pathway 269 8 Plastocyanin and Cytochrome c6: the Soluble Electron Carriers between the Cytochrome b^f Complex and Photosystem I 282 Antonio Díaz-Quintana, Manuei Hervás, José A. Navarro, and Miguel A. De la Rosa 8.1 Introduction 181 8.2 An Evolutionary Proposal 282 8.3 General Features of Pc and Cyt c6 Structures 284 8.4 Reaction Mechanisms 287 8.4.1 Kinetic Models 287 8.4.2 Nature of the Interaction Forces 188 8.5 Evolution of Pc and Cyt c6 292 8.5.1 Evolution of the Reaction Mechanisms 191 8.5.2 Increase in Specificity and Efficiency 292 8.5.3 Role of the Soluble Proteins in Driving the Interactions 292 8.6 Structural Analysis of the Transient Complexes 292 8.7 Concluding Remarks 296 9 The Structure of the H+-ATP Synthase from Chloroplaste 202 Bettina Böttcher and Peter Gräber 9.1 Introduction 202 9.2 The Structure of CF, 204 9.3 The Structure of CFo 206 9.4 The Structure of CF0Fi 208 9.5 Structure and Function of CF0F, 209 Contents XIII 10 Structure of the Light-Harvesting Complex II 217 Zhenfeng Liu and Wenrui Chang 10.1 Introduction 217 10.2 Crystal Packing: A Novel Type of Membrane Protein Crystal 218 10.3 LHC-II Trimer and Monomer 220 10.3.1 LHC-II Trimer 220 10.3.2 LHC-II Monomer 223 10.4 Chlorophylls: Identity, Binding and Interactions 225 10.4.1 Identification of Chlorophylls 225 10.4.2 Chlorophyll Binding Sites 225 10.4.3 Interactions between Chlorophylls 227 10.5 Carotenoids 229 10.6 Mechanism of Excitation Energy Transfer and the Role of LHC-II in Non-photochemical Quenching 231 10.6.1 Mechanism of Excitation Energy Transfer 231 10.6.2 The Role of LHC-II in Non-photochemical Quenching 234 10.7 Summary 238 11 Structure of the Phycobilisome Antennae in Cyanobacteria and Red Algae 243 Noam Adir 11.1 Introduction 243 11.1.1 Photosynthetic Antennas 243 11.1.2 Photosynthetic Organisms that Utilize the Phycobilisome 244 11.2 Basic Structural Characteristics of the Phycobilisome Component Proteins 244 11.2.1 Isolation of Phycobilisomes and Phycobiliproteins 247 11.2.2 Crystallization of Phycobilisomes 248 11.2.3 Х -Ray Structures of PB Ps 248 11.2.3.1 Allophycocyanin 249 11.2.3.2 Phycocyanin 251 11.2.3.3 Phycoerythrocyanin 253 11.2.3.4 Phycoerythrin 254 11.2.3.5 Crytophyte Phycoerythrin 255 11.2.3.6 Linker Proteins 255 11.2.4 Phycobiliprotein Post-translational Modifications 257 11.2.4.1 Bilin Lyases 257 11.2.4.2 Methylation of ßAsn72 258 11.2.4.3 Phosphorylation and Glycosylation of Linker Proteins 258 11.3 Self Assembly and Disassembly of the Phycobilisome 259 11.3.1 Phycobilisome Assembly 259 11.3.2 Phycobilisome Disassembly 262 11.4 Phycobilisome Function 263 11.4.1 Phycobilisome Binding to PSII and PSI 263 XIV Contents 11.4.2 Energy Transfer within the Phycobilisome 11.5 Final Remarks 266 265 12 12.1 12.2 12.3 12.4 12.5 12.6 12.7 12.8 12.9 13 13.1 13.2 13.3 13.3.1 13.3.2 13.3.3 13.3.4 13.3.5 13.3.6 13.4 13.4.1 13.4.2 13.4.3 13.4.4 13.4.5 13.5 13.5.1 13.5.2 13.5.3 13.5.4 13.5.5 13.5.6 13.5.7 13.5.8 13.6 13.7 Reaction Centers from Purple Bacteria 275 James P. Allen cmdJoAnn C. Williams Introduction 275 The Overall Structure 276 Bacteriochlorophyll Dimer 278 Bacteriochlorophyll and Bacteriopheophytin Monomers Primary Quinone, Secondary Quinone, and Non-heme Iron 282 Carotenoid 283 Electron Transfer 283 Evolution from Anoxygenic to Oxygenic Photosynthesis Biotechnological Applications 286 281 285 Anoxygenic Туре -l Photosystems and Evolution of Photosynthetic Reaction Centers 295 Martin F. Hohmann-Mamott and Robert E. Blankenship Introduction 295 The Photosynthetic Way of Life 296 The Photosystem of Heliobacteria 299 Reaction Center Core 300 External Subunit 301 Pigments 301 Electron Donor 302 Charge Separation 302 Charge Stabilization 302 The Photosystem of Green Sulfur Bacteria 302 Photosystem Center Core 303 External Subunits 303 Pigments 304 Charge Separation 304 Charge Stabilization 304 Photosystem I of Cyanobacteria and Plastids 305 Reaction Center Core 305 External Subunits 306 Light-Harvesting Systems 307 Interfacing with the Light-Harvesting System 308 Pigments 309 Electron Donors 310 Electron Acceptors 310 Charge Stabilization 311 The Ur-Reaction Center 312 Conclusions 317 Contents XV 14 The Structure of Purple Bacterial Antenna Complexes 325 Richard J. Cogdell, Alastair T. Cardiner, Mads Cabrielsen, June Southall, Aleksander W. Roszak, Neil W. Isaacs, Ritsuko Fujii, and Hideki Hashimoto 14.1 Introduction 325 14.2 Knowledge of the Structural Arrangements before the Determination of the Crystal Structure 326 14.3 The Х -Ray Crystal Structure of the LH2 Complex from Rps. acidophila strain 10050 327 14.4 The Structure of RC-LH1 Core Complexes 332 14.5 Energy Transfer 335 15 Ferredoxin and Flavodoxin Mediated Electron Transfer in Photosystem I 341 Raimund Fromme 15.1 Introduction 341 15.2 The Structure of Ferredoxin in Plants, Red Algae and Cyanobacteria 342 15.3 Ferredoxin in Different Organisms 342 15.4 Electron Transfer between Ferredoxin and Ferredoxin NADP+ Reducíase 344 15.5 Flavodoxin 345 15.6 Docking to Photosystem I 345 15.6.1 Subunit PsaC 346 15.6.2 Subunit PsaD 346 15.6.3 Subunit PsaE 347 Index 353
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spelling	Photosynthetic protein complexes a structural approach ed. by Petra Fromme Weinheim WILEY-VCH 2008 XXVII, 360 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Photosynthesis Molecular aspects Proteins Multiproteinkomplex (DE-588)4798068-0 gnd rswk-swf Photosynthese (DE-588)4045936-6 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Photosynthese (DE-588)4045936-6 s Multiproteinkomplex (DE-588)4798068-0 s DE-604 Fromme, Petra edt text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3070188&prov=M&dok_var=1&dok_ext=htm Inhaltstext Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016667992&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Photosynthetic protein complexes a structural approach Photosynthesis Molecular aspects Proteins Multiproteinkomplex (DE-588)4798068-0 gnd Photosynthese (DE-588)4045936-6 gnd
subject_GND	(DE-588)4798068-0 (DE-588)4045936-6 (DE-588)4143413-4
title	Photosynthetic protein complexes a structural approach
title_auth	Photosynthetic protein complexes a structural approach
title_exact_search	Photosynthetic protein complexes a structural approach
title_exact_search_txtP	Photosynthetic protein complexes a structural approach
title_full	Photosynthetic protein complexes a structural approach ed. by Petra Fromme
title_fullStr	Photosynthetic protein complexes a structural approach ed. by Petra Fromme
title_full_unstemmed	Photosynthetic protein complexes a structural approach ed. by Petra Fromme
title_short	Photosynthetic protein complexes
title_sort	photosynthetic protein complexes a structural approach
title_sub	a structural approach
topic	Photosynthesis Molecular aspects Proteins Multiproteinkomplex (DE-588)4798068-0 gnd Photosynthese (DE-588)4045936-6 gnd
topic_facet	Photosynthesis Molecular aspects Proteins Multiproteinkomplex Photosynthese Aufsatzsammlung
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