Molecular Bioenergetics
Simulations of Electron, Proton, and Energy Transfer
Ralph A. Wheeler - Collection ACS Symposium Series
Résumé
Approximately 0.05% of all sunlight reaching the earth's surface is used by photosynthetic organisms to synthesize organic compounds. All other organisms use these compounds as energy sources for their metabolism and thus the conversion of light energy into biologically usable forms is critical to the viability of living organisms. Typically, energy is converted by organisms into cellular energy sources in the form of high-energy compounds such as ATP, ion gradients, or confor-mational energy of proteins or their cofactors. Bioenergetics encompasses the thermodynamics, kinetics, and molecular mechanisms of the processes important for biological energy storage and its use. Among the most elementary chemical reactions central to these processes are electron transfer, proton transfer, and proton-coupled electron transfer.
This volume grew out of an American Chemical Society (ACS) symposium titled Bioenergetics. The ACS Division of Computers in Chemistry sponsored the symposium, whose goal was to bring together scientists from different disciplines to discuss current achievements and future directions in molecular-level simulations of electron and proton transfer. This volume provides a sampling of recently developed simulation methods, as well as their applications to prototypical biochemical systems such as the photosynthetic reaction center and bacteriorhodopsin.
Sommaire
- Introduction to the Molecular Bioenergetics of Electron, Proton, and Energy Transfer
- A Quantum Chemical View of the Initial Photochemical Event in Photosynthesis
- Molecular Modeling and Simulation of a Reaction Center Protein
- Simulating Thermochemistry of p-Benzo-quinone Reduction and Binding of Ubiquinone in the Photosynthetic Reaction Center
- Problems Evaluating Energetics of Electron Transfer from QA to QB: The Light-Exposed and Dark-Adapted Bacterial Reaction Center
- Modeling the First Electron Transfer from QA to QB in Reaction Center Proteins from Rb sphaeroides
- Dynamics of Electron Transfer Pathways in Redox Proteins
- Ab Initio Calculations of Long-Distance Electron Tunneling in Proteins with the Method of Tunneling Currents
- Proton -Coupled Electron Transfer Reactions: A Theoretical Approach
- Proton Relay in Membrane Proteins
- Computer Simulation of Energy-Transducing Proteins and Peptide: Membrane Interactions
Caractéristiques techniques
| PAPIER | |
| Éditeur(s) | American Chemical Society |
| Auteur(s) | Ralph A. Wheeler |
| Collection | ACS Symposium Series |
| Parution | 31/12/2004 |
| Nb. de pages | 194 |
| Format | 16 x 23,5 |
| Couverture | Relié |
| Poids | 380g |
| Intérieur | Noir et Blanc |
| EAN13 | 9780841237209 |
| ISBN13 | 978-0-8412-3720-9 |
Avantages Eyrolles.com
Nos clients ont également acheté
Consultez aussi
- Les meilleures ventes en Graphisme & Photo
- Les meilleures ventes en Informatique
- Les meilleures ventes en Construction
- Les meilleures ventes en Entreprise & Droit
- Les meilleures ventes en Sciences
- Les meilleures ventes en Littérature
- Les meilleures ventes en Arts & Loisirs
- Les meilleures ventes en Vie pratique
- Les meilleures ventes en Voyage et Tourisme
- Les meilleures ventes en BD et Jeunesse
- Sciences Physique Physique fondamentale Physique - Chimie
- Sciences Physique Mécanique Mécanique des fluides
- Sciences Physique Mécanique Mécanique des solides
- Sciences Physique Echanges thermiques Thermodynamique
- Sciences Chimie Chimie organique
- Sciences Chimie Physique - Chimie
- Sciences Sciences de la vie Biologie Biochimie
- Sciences Etudes et concours Classes préparatoires et grandes écoles - Livres classes prépas scientifiques Chimie
