UID:
almafu_9960072250702883
Format:
1 online resource (362 p.)
ISBN:
1-281-01068-5
,
9786611010683
,
0-08-049376-9
Series Statement:
Advances in protein chemistry ; v. 63
Content:
This volume covers 2 major topics: Foundations and Membrane Protein Structures.Key Features* Foundations* Bioenergetic Processes* Channels and Receptors
Note:
Description based upon print version of record.
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Front Cover; Advances in Protein Chemistry; Copyright Page; CONTENTS; PREFACE; Chapter 1. Membrane Protein Assembly in Vivo; I. Introduction; II. Overview of Membrane Protein Assembly Pathways in Prokaryotic and Eukaryotic Cells; III. Membrane Protein Assembly in the ER; IV. Membrane Protein Assembly in Escherichia coli; V. Membrane Protein Assembly in Mitochondria; VI. Membrane Protein Assembly in Chloroplasts; VII. Membrane Protein Assembly in Peroxisomes; VIII. Conclusions; References; Chapter 2. Construction of Helix-Bundle Membrane Proteins; I. Introduction
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II. Transmembrane Helix StructureIII. Thermodynamic Studies; IV. The Contribution of Loops versus Transmembrane Helices; V. Forces That Stabilize Transmembrane Helix Interactions; VI. Conclusions; References; Chapter 3. Transmembrane ß-Barrel Proteins; I. Introduction; II. Structures; III. Construction Principles; IV. Functions; V. Folding and Stability; VI. Channel Engineering; VII. Conclusions; References; Chapter 4. Length, Time, and Energy Scales of Photosystems; I. Introduction; II. Overview of Length Scales in Bioenergetic Membranes; III. Managing Lengths in Natural Redox Protein Design
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IV. Managing Length and Size in Natural Light-Harvesting DesignV. Managing Distance in Electron Transfer; VI. Managing Proton Reactions in Photosynthesis; VII. Managing Diffusion in Photosynthesis; VIII. Summary; References; Chapter 5. Structural Clues to the Mechanism of Ion Pumping in Bacteriorhodopsin; I. Introduction; II. The Ground, or Resting, State; III. Early Photocycle Intermediates (K and L); IV. M Intermediates; V. Large-Scale Conformational Changes in the M, N, and O Intermediates; VI. Protonation Pathways in the M to N and the N to O Reactions; References
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Chapter 6. The Structure of Wolinella succinogenes Quinol: Fumarate Reductase and Its Relevance to the Superfamily of Succinate:Quinone OxidoreductasesI. Introduction; II. Overall Description of the Structure; III. The Hydrophilic Subunits; IV. Subunit C, the Integral Membrane Diheme Cytochrome b; V. General Comparison of Membrane-Integral Diheme Cytochrome b Proteins; VI. Relative Orientation of Soluble and Membrane-Embedded QFR Subunits; VII. The Site of Menaquinol Oxidation/Menaquinone Reduction; VIII. Electron and Proton Transfer and the Wolinella succinogenes Paradox
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IX. The "E-Pathway Hypothesis" of Coupled Transmembrane Electron and Proton TransferX. Concluding Remarks; References; Chapter 7. Structure and Function of Quinone Binding Membrane Proteins; I. Introduction; II. Structure of Cytochrome bc1 Complex from Bovine Heart Mitochondria; III. The Structure of Cytochrome bo3 Ubiquinol Oxidase from Escherichia coli; IV. Conclusion; References; Chapter 8. Prokaryotic Mechanosensitive Channels; I. Introduction; II. MscL: Structure and Mechanism; III. MscS and Other Prokaryotic Mechanosensitive Channels
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IV. What Makes a Mechanosensitive Channel Mechanosensitive?
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English
Additional Edition:
ISBN 0-12-034263-4
Language:
English
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