Photosynthesis : photobiochemistry and photobiophysics

Photosynthesis: Photobiochemistry and Photobiophysics is the first single-authored book in the Advances in Photosynthesis Series. It provides an overview of the light reactions and electron transfers in both oxygenic and anoxygenic photosynthesis. The scope of the book is characterized by the time frame in which the light reactions and the subsequent electron transfers take place, namely between <=10-12 and >=10-3 second. The book is divided into five parts: An Overview; Bacterial Photosynthesis; Photosystem II & Oxygen Evolution; Photosystem I; and Proton Transport and Photophosphorylation. In discussing the structure and function of various protein complexes, we begin with an introductory chapter, followed by chapters on light-harvesting complexes, the primary electron donors and the primary electron acceptors, and finally the secondary electron donors. The discussion on electron acceptors is presented in the order of their discovery to convey a sense of history, in parallel with the advancement in instrumentation of increasing time resolution. The book includes a large number of stereo pictures showing the three-dimensional structure of various photosynthetic proteins, which can be easily viewed with unaided eyes. This book is designed to be used as a textbook in a graduate or upper-division undergraduate course in photosynthesis, photobiology, plant physiology, biochemistry, and biophysics; it is equally suitable as a resource book for students, teachers, and researchers in the areas of molecular and cellular biology, integrative biology, microbiology, and plant biology.

Overview. 1. Photosynthesis: An Overview. Bacterial Photosynthesis. 2. The Bacterial Photosynthetic Reaction Center: Chemical Composition and Crystal Structure. 3. Light-Harvesting Pigment-Protein Complexes of Photosynthetic Bacteria. 4. The Primary Electron Donor (P) of Photosynthetic Bacteria. 5. The `Stable' Primary Electron Acceptor (QA) of Photosynthetic Bacteria. 6. The Secondary Electron Acceptor (QGBPY/YGBP) of Photosynthetic Bacteria. 7. The Early Electron Acceptors of Photosynthetic Bacteria - Bacteriochlorophyll and Bacteriopheophytin. 8. The Green Bacteria. I. The Light-Harvesting Complex, the Chlorosomes. 9. The Breen Bacteria. II. The Reaction Center - Photochemistry and Electron Transport. 10. The Secondary Electron Donor of Photosynthetic Bacteria - the Cytochromes. Photosystem II. 11. Photosystem II - Introduction. 12. The Light-Harvesting Chlorophyll-Protein Complexes of Photosystem II. 13. Role of Carotenoids in Photosynthesis. 14. Phycobiliproteins and Phycobilisomes. 15. The Primary Electron Donor of Photosystem II, P680, and Photoinhibition. 16. The Stable Primary Electron Acceptor QA and the Secondary Electron Acceptor QGBPY/YGBP. 17. The Transient Intermediate Electron Acceptor of Photosystem II, Pheophytin (). Oxygen Evolution. 18. Oxygen Evolution - Introduction. 19. Oxygen Evolution - The Role of Manganese. 20. Oxygen Evolution - UV Absorbance Changes associated with S-state Transitions. 21. Oxygen Evolution - Extrinsic Polypeptides and Inorganic Ionic Cofactors.22. The Electron Donor to P680+ EPR Spectroscopy. 23. The Electron Donor to P680+ Optical Spectroscopy. 24. Charge Recombination in Photosystem II and Thermoluminescence. Photosystem I. 25. Photosystem I Introduction. 26. Photosystem-I Membrane Thylakoids, Complexes and Crystals. 27. Light-Harvesting Chlorophyll-Protein Complexes of Photosystem I. 28. The Primary Electron Donor of Photosystem I P700. 29. The Membrane-Bound Iron-Sulfur Proteins (FeS-A and FeS-B): Secondary Electron Acceptors of Photosystem I. 30. P430: The Spectral Species Representing the Terminal Electron Acceptor of Photosystem I. 31. The Iron-Sulfur Center FeS-X of Photosystem I, the Photosystem-I Core Complex, and Interaction of the FeS-X Domain with FeS-A/FeS-B. 32. The Primary Electron Acceptor A0 of Photosystem I. 33. The Intermediate Electron Acceptor A1 of Photosystem I Phylloquinone (Vitamin K1). 34. Mobile Electron Carriers Plastocyanin and Ferredoxin, and Ferredoxin*NADP+*Reductase. Proton Translocation and Photophosphorylation. 35. The Interphotosystem Cytochrome-b6f Complex and the Homologous Cytochrome-bc1 Complex. 36. Proton Translocation and ATP Synthesis.