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The Photosystems : structure, function, and molecular biology /

Detalles Bibliográficos
Clasificación:	Libro Electrónico
Otros Autores:	Barber, J. (James), 1940-
Formato:	Electrónico eBook
Idioma:	Inglés
Publicado:	Amsterdam ; New York : New York, NY, USA : Elsevier ; Sole distributors for the USA and Canada, Elsevier Science Pub. Co., �1992.
Colección:	Topics in photosynthesis ; v. 11.
Temas:	Photosynthesis. Photosynthesis Photosynth�ese. SCIENCE > Life Sciences > Botany. Photosynthese Molekularbiologie Aufsatzsammlung Photosystem Fotosynthese. Photosyst�emes.
Acceso en línea:	Texto completo

Tabla de Contenidos:

Front Cover
The Photosystems: Structure, Function and Molecular Biology
Copyright Page
Table of Contents
Foreword
Preface
List of contributors
Dedication
Chapter 1. An introduction to plant and bacterial photosystems
1.1. INTRODUCTION
1.2. QUINONE TYPE REACTION CENTRES: A COMPARISON BETWEEN PURPLE BACTERIAL REACTION CENTRES AND PHOTOSYSTEM II
1.3. Fe-S TYPE REACTION CENTRES: A COMPARISON BETWEEN PLANT AND BACTERIAL SYSTEMS
1.4. FINAL COMMENT
1.5. REFERENCES
Chapter 2. Thermodynamics of light energy conversion
2.1. INTRODUCTION2.2. DO THE LAWS OF THERMODYNAMICS RESTRICT THE EFFICIENCY OF CONVERSION OF LIGHT ENERGY INTO WORK OR FREE ENERGY?
2.3. FORMULATION OF THE FIRST AND SECOND LAWS OF THERMODYNAMICS FOR SYSTEMS CONTAINING RADIATION
2.4. THERMODYNAMIC ENERGY YIELD FOR LIGHT ENERGY CONVERSION, em
2.5. EFFECTIVE RADIATION TEMPERATURE
2.6. EXPRESSION OF THE MAXIMUM ENERGY YIELD em IN TERMS OF SPECTRAL RADIANCE
2.7. RADIATION TEMPERATURE
2.8. DEPENDENCE OF em ON THE PROPERTIES OF THE RADIATION AND CONVERTER
2.9. MAXIMUM ENERGY YIELD em FOR A TOTALLY ABSORBING CONVERTER IRRADIATED BY PLANCKIAN RADIATION FROM AN EXTERNAL SOURCE2.10. THE 'CARNOT FORMULA' FOR em
2.11. THRESHOLD (TWO-LEVEL) PHOTOCONVERTERS
2.12. ENERGY EFFICIENCY OF PHOTOSYNTHESIZING SYSTEMS
2.13. MAXIMUM ENERGY YIELD OF PHOTOSYNTHESIS AT VERY LOW LIGHT INTENSITIES
2.14. CONCLUDING REMARKS
2.15. REFERENCES
Chapter 3. Energy transfer and trapping in photosystem II
3.1. INTRODUCTION
3.2. BASIC PRINCIPLES OF LIGHT ABSORPTION AND TRANSFORMATION INTO ELECTROCHEMICAL FREE ENERGY IN PSII
3.3. ANTENNA SYSTEMS IN O2-EVOLVING PHOTOSYNTHETIC ORGANISMS3.4. TRAPPING OF EXCITATION ENERGY IN PSII REACTION CENTERS
3.5. BIOMIMETIC SYSTEMS
3.6. CONCLUDING REMARKS
3.7. ACKNOWLEDGEMENTS
3.8. REFERENCES
Chapter 4. The molecular biology of photosystem II
4.1. INTRODUCTION
4.2. IDENTIFICATION, ORGANIZATION AND EXPRESSION OF CHLOROPLAST PSII GENES
4.3. IDENTIFICATION, ORGANIZATION AND EXPRESSION OF NUCLEAR PSII GENES
4.4. THE LIGHT-HARVESTING SYSTEM OF PHOTOSYSTEM II
4.5. GENETICS OF PSII
4.6. SUMMARY
4.7. ACKNOWLEDGEMENTS
4.8. REFERENCESChapter 5. Oxygen evolution
5.1. INTRODUCTION
5.2. A KINETIC MODEL
5.3. A STRUCTURAL MODEL
5.4. THE MANGANESE CLUSTER
5.5. THE OXIDATION OF WATER
5.6. ROLE OF Ca2+ AND Cl
5.7. PERSPECTIVES
5.8. ACKNOWLEDGEMENTS
5.9. REFERENCES
Chapter 6. Protein engineering of photosystem II
6.1. INTRODUCTION
6.2. COMPARISON BETWEEN PHOTOSYSTEM II AND THE REACTION CENTER FROM PURPLE BACTERIA
6.3. OTHER PHOTOSYSTEM II COMPONENTS
6.4. ACKNOWLEDGEMENTS
6.5. REFERENCES

The Photosystems : structure, function, and molecular biology /

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