The Ninth Sir Hans Krebs Lecture. Compartmentation and communication in living systems. Ligand conduction: a general catalytic principle in chemical, osmotic and chemiosmotic reaction systems.
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Molecular system bioenergics of the heart: experimental studies of metabolic compartmentation and energy fluxes versus computer modelinggamma-Glutamyl transpeptidase in the yeast Saccharomyces cerevisiae and its role in the vacuolar transport and metabolism of glutathione.Mutations in a bacterial mechanosensitive channel change the cellular response to osmotic stressThe mitochondrial carrier family of transport proteins: structural, functional, and evolutionary relationshipsThe mechanism of proton translocation driven by the respiratory nitrate reductase complex of Escherichia coliThe drive to life on wet and icy worldsA chemically explicit model for the molecular mechanism of the F1F0 H+-ATPase/ATP synthases.Computer-aided analyses of transport protein sequences: gleaning evidence concerning function, structure, biogenesis, and evolutionSequencing of a gene encoding a member of the mitochondrial carrier family of transport proteins from Aspergillus nidulans.Topological analysis of the aerobic membrane-bound formate dehydrogenase of Escherichia coli.Application of the principles of systems biology and Wiener's cybernetics for analysis of regulation of energy fluxes in muscle cells in vivo.Effect of diethylpyrocarbonate on lactose/proton symport in Escherichia coli membrane vesicles.Vectorial metabolism and the evolution of transport systems.Energy metabolism, thyroid calorigenesis, and oxidative stress: functional and cytotoxic consequences.Modular organization of cardiac energy metabolism: energy conversion, transfer and feedback regulation.Simultaneous measurements of proton motive force, delta pH, membrane potential, and H+/O ratios in intact Escherichia coli.Coordination of ubiquinol oxidase and cytochrome cbb(3) oxidase expression by multiple regulators in Rhodobacter capsulatus.Gleanings of a chemiosmotic eye.THE ROLE OF THE QUINONE POOL IN THE CYCLIC ELECTRON-TRANSFER CHAIN OF RHODOPSEUDOMONAS SPHAEROIDES: A MODIFIED Q-CYCLE MECHANISMATP-driven active transport in right-side-out bacterial membrane vesicles.Yeast mitochondrial interactosome model: metabolon membrane proteins complex involved in the channeling of ADP/ATPAn investigation of mitochondrial inner membranes by rapid-freeze deep-etch techniques.ATP-driven sodium pump in Streptococcus faecalis.Phosphate/hexose 6-phosphate antiport in Streptococcus lactis.Properties and function of the proton-translocating adenosine triphosphatase of Clostridium perfringensMechanism of active transport: free energy dissipation and free energy transductionCardiac system bioenergetics: metabolic basis of the Frank-Starling law.Relationship between phosphorylation potential and electrochemical H+ gradient during glycolysis in Streptococcus lactis.Structural characterization and regulatory element analysis of the heart isoform of cytochrome c oxidase VIa.Anion-exchange mechanisms in bacteria.In bacteria which grow on simple reductants, generation of a proton gradient involves extracytoplasmic oxidation of substrateBinding energy, conformational change, and the mechanism of transmembrane solute movementsMetabolic compartmentation - a system level property of muscle cells: real problems of diffusion in living cells.The role of biomacromolecular crowding, ionic strength, and physicochemical gradients in the complexities of life's emergence.Reconstitution of active transport in proteoliposomes containing cytochrome o oxidase and lac carrier protein purified from Escherichia coli.Translocation pathway in the catalysis of active transport.Geometric catalysis of membrane fission driven by flexible dynamin rings.From water and ions to crowded biomacromolecules: in vivo structuring of a prokaryotic cell.Stoichiometry of cotransport systems.The IncP plasmid-encoded cell envelope-associated DNA transfer complex increases cell permeability
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The Ninth Sir Hans Krebs Lecture. Compartmentation and communication in living systems. Ligand conduction: a general catalytic principle in chemical, osmotic and chemiosmotic reaction systems.
description
1979 nî lūn-bûn
@nan
1979 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1979 թվականի մարտին հրատարակված գիտական հոդված
@hy
1979年の論文
@ja
1979年論文
@yue
1979年論文
@zh-hant
1979年論文
@zh-hk
1979年論文
@zh-mo
1979年論文
@zh-tw
1979年论文
@wuu
name
The Ninth Sir Hans Krebs Lectu ...... chemiosmotic reaction systems.
@ast
The Ninth Sir Hans Krebs Lectu ...... chemiosmotic reaction systems.
@en
The Ninth Sir Hans Krebs Lectu ...... chemiosmotic reaction systems.
@nl
type
label
The Ninth Sir Hans Krebs Lectu ...... chemiosmotic reaction systems.
@ast
The Ninth Sir Hans Krebs Lectu ...... chemiosmotic reaction systems.
@en
The Ninth Sir Hans Krebs Lectu ...... chemiosmotic reaction systems.
@nl
prefLabel
The Ninth Sir Hans Krebs Lectu ...... chemiosmotic reaction systems.
@ast
The Ninth Sir Hans Krebs Lectu ...... chemiosmotic reaction systems.
@en
The Ninth Sir Hans Krebs Lectu ...... chemiosmotic reaction systems.
@nl
P2860
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P1476
The Ninth Sir Hans Krebs Lectu ...... chemiosmotic reaction systems.
@en
P2093
P Mitchell
P2860
P356
10.1111/J.1432-1033.1979.TB12934.X
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P577
1979-03-01T00:00:00Z