PhotosynthesisSpringer Science & Business Media, 31 mar 2001 - 763 páginas 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 =10sup-12/sup 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. |
Índice
An Overview | 1 |
The Secondary Electron Acceptor QB of Photosynthetic Bacteria Structure of the Binding Domain and Functional Properties of QA and QB I | 6 |
Bacterial Photosynthesis | 13 |
Oxygen Evolution | 20 |
146 | 21 |
Chemical Composition and Crystal Structure | 47 |
LightHarvesting PigmentProtein Complexes of Photosynthetic Bacteria 6585 | 65 |
LightHarvesting PigmentProtein Complexes of Photosynthetic Bacteria | 81 |
Oxygen Evolution | 323 |
Oxygen Evolution The Role of Manganese | 337 |
Oxygen Evolution UV Absorbance Changes associated with Sstate Transitions | 355 |
Oxygen Evolution | 365 |
Oxygen Evolution Extrinsic Polypeptides and Inorganic Ionic Cofactors | 377 |
The Electron Donor to Optical Spectroscopy | 397 |
Charge Recombination in Photosystem II and Thermoluminescence | 407 |
365375 | 418 |
8799 | 86 |
5 | 101 |
The Secondary Electron Acceptor of Photosynthetic Bacteria | 111 |
Evidence for a Secondary Quinone Electron Acceptor | 113 |
Electron Transfer between the Two Quinones Binary Oscillations | 114 |
Protonation of the Secondary Electron Acceptor | 117 |
Transmembrane Proton Pump and ATP Synthesis A Preliminary Overview | 127 |
7 | 129 |
Involvement of the Monomeric BChl in Photochemical Charge Separation | 137 |
The Green Bacteria I The LightHarvesting Complex the Chlorosomes 147158 | 147 |
Models for the Reaction CenterAntenna Complex of Green Bacteria | 149 |
Organization of Bacteriochlorophyllc Molecules in the Rod Elements of Chlorosomes | 150 |
Organization of Chlorophyll Molecules in the Reaction CenterAntenna Complex | 152 |
Pathway and Kinetics of Excitation Energy Transfer in Chlorosomes | 153 |
The BChl aProtein Complex the FMO Protein in the Reaction CenterAntenna Complex | 155 |
The Green Bacteria II The Reaction Center Photochemistry and Electron Transport I The Green Sulfur Bacteria II The Green Filamentous Bacteria III... | 159 |
The Secondary Electron Donor of Photosynthetic Bacteria the Cytochromes | 179 |
Cytochrome Electron Transfers in the Photosynthetic Bacteria can be Temperature Insensitive | 184 |
Tetraheme Arrangement in the ReactionCenter Complex of Rhodopseudomonas viridis | 186 |
A Reaction CenterCytochrome c Model System | 194 |
Photosystem II | 199 |
The LightHarvesting ChlorophyllProtein Complexes of Photosystem II | 215 |
Role of Carotenoids in Photosynthesis | 249 |
Phycobiliproteins and Phycobilisomes | 257 |
The Primary Electron Donor of Photosystem II P680 and Photoinhibition | 270 |
The Stable Primary Electron Acceptor of Photosystem II | 289 |
The Transient Intermediate Electron Acceptor of Photosystem II Pheophytin | 305 |
Photosystem I | 419 |
Photosysteml Membrane Complexes and Crystals | 431 |
LightHarvesting ChlorophyllProtein Complexes of Photosystem I | 444 |
III | 451 |
The Primary Electron Donor of Photosystem I P700 | 463 |
The Spectral Species Representing the Terminal Electron | 505 |
Structure of the PhotosystemII ReactionCenter Complex III Topics on Photosystem II and Oxygen Evolution 149 | 525 |
The IronSulfur Center FeSX of Photosystem I the Photosysteml Core | 527 |
The Primary Electron Acceptor of Photosystem I | 555 |
150 | 562 |
The Intermediate Electron Acceptor of Photosystem I | 579 |
IV | 597 |
152 | 603 |
Mobile Electron Carriers Plastocyanin and Ferredoxin | 605 |
Proton Transport and Photophosphorylation | 635 |
153 | 662 |
Proton Translocation and ATP Synthesis | 665 |
How to View the Stereograms | 739 |
| 747 | |
| 749 | |
| 751 | |
| 754 | |
| 757 | |
| 759 | |
| 760 | |
| 762 | |
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Términos y frases comunes
absorbance changes absorption absorption spectrum algae amino-acid amplitude bacterial reaction center bacteriochlorophyll band BChl BChl-a molecules Biochim Biophys Acta carotenoid Chapter charge separation chlorophyll chloroplasts chlorosomes chromophores cluster components containing core antenna core complex crystals cyanobacteria cytochrome decay difference spectrum dimer electron transfer electron-transfer emission energy transfer EPR signal excitation ferredoxin FeS-A FeS-B FeS-X flash fluorescence function green sulfur bacteria helices heliobacteria heme illumination interaction iron-sulfur proteins isolated kinetics light-harvesting complex light-induced manganese measured molecular mutant ofthe oxidation oxygen evolution oxygen-evolving photochemical photooxidation photosynthetic bacteria photosystem photosystem II phycobilisomes pigment plastocyanin plastoquinone polypeptide present primary donor primary electron acceptor primary electron donor proton PS-I complex PS-II reaction center purple bacteria quinone reaction-center reaction-center complex recombination redox potential reduced region residues S-state sample secondary electron sequence shown in Fig spectra spectroscopy sphaeroides spinach structure subunit temperature thylakoid membrane trimer ubiquinone viridis wavelength
Referencias a este libro
Introduction to Geomicrobiology, Volumen 10 Kurt O. Konhauser No hay ninguna vista previa disponible - 2006 |
Photosystem II: The Light-Driven Water:Plastoquinone Oxidoreductase T. Wydrzynski,Kimiyuki Satoh Vista previa restringida - 2006 |