» Open Access-BTK 1994

Gnaiger E, Gellerich FN, Wyss M (1994) Innsbruck Univ Press

Abstract: Erwin Schrödinger's 'What is Life?' is one of the most influential books of the last century in the biological sciences. It continues to provoke discussions and stimulate interdisciplinary developments in biophysics. Starting with reflections on Schrödinger's famous account of negative entropy in living systems, an international group of scientists presents the latest advancements on the dynamics and control of metabolic processes. This volume of Modern Trends in BioThermoKinetics develops for the first time the explicit link between thermodynamics, metabolic control, bioenergetics and clinical applications.

• O2k-Network Lab: AT_Innsbruck_Gnaiger E

Labels: MiParea: Respiration, mt-Awareness 

Coupling state: OXPHOS 

HRR: Oxygraph-2k, Theory 

CONTENTS: Full Papers

• OROBOROS Oxygraph applications

Preface

Margreiter R, Innsbruck: p 13

Gnaiger E, Gellerich FN, Innsbruck: p 14

Trends in Bioenergetics. An Introduction.

Oberkofler G, Goller P. Innsbruck: p 19

"German Ideology" as seen by Erwin Schrödinger in Letters to Hans Thirring. From Their Correspondence (1946-1949).

Part 1. What is Negative Entropy? From World Views to Bioenergetics

Götschl J. Graz: p 23

Erwin Schrödinger's World View. The Role of Physics and Biology in his Philosophical System.

Wagensberg J. Barcelona: p 32

Science, Art and Revelation.

Azzone GF. Padova: p 38

Negentropy and Historical Arrow of Time - Thermodynamical and Informational Aspects of the Darwinian Revolution.

Lantos CP. Buenos Aires: p 45

Negative Entropy: Another Approach.

Welch GR. New Orleans: p 48

Schrödinger's What is Life?: The Biophysical Legacy 50 Years Later.

Ho MW. London: p 50

What is Schrödinger's Negentropy?

Gnaiger E. Innsbruck: p 62

Negative Entropy for Living Systems. Controversy between Nobel Laureates Schrödinger, Pauling and Perutz.

Kushmerick MJ. Seattle: p 71

A Paradigm for Energy Balance in Muscle Function.

Lloyd D. Cardiff: p 77

A Controlled Chaotic Attractor Controls Life.

Azzone GF. Padova: p 81

Disease as Instability, Error and Entropy.

Part 2. Control and Regulation: Theory, Models, and Experi­ment

Kholodenko BN, Westerhoff HV, Cascante M. Moscow, Amsterdam. Barcelona: p 88

The Macro- and Microworld of Control Theory.

Hofmeyr JHS, Cornish-Bowden A. Stellenbosch, Marseille: p 91

How Should we Quantify Metabolic Regulation?

Westerhoff HV, Jensen PR, Rohwer JM, Kholo­denko BN. Amsterdam, Lyngby, Moscow: p 95

Control and Regulation: The Best of Both Worlds.

Heinrich R, Klipp E, Stephani A, Wilhelm T. Berlin: p 99

Evolutionary Optimization of Enzymes on the Basis of Kinetic and Thermodynamic Principles.

Schuster S, Hilgetag C, Fell DA. Berlin, Oxford: p 103

Detecting Elementary Modes of Functioning in Metabolic Networks.

Part 3. Coupling and Mechanisms in the Regulation of Electron, ATP and Ion Fluxes

Luvisetto S, Canton M, Schmehl I, Azzone GF. Padova: p 122

Leaks and Slips during Mitochondrial Electron Trans­fer.

Brand MD, Chien LF, Diolez PH. Cambridge, Bordeaux: p 125

Experimental Discrimination between Proton Leak and Redox Slip during Mitochondrial Electron Transport.

Canton M, Luvisetto S, Schmehl I, Azzone GF. Padova: p 129

Permeability of the Inner Mitochondrial Membrane and Respiration.

Schmehl I, Canton M, Luvisetto S, Azzone GF. Padova: p 133

The Uncoupling Mechanism of the Anesthetic Bupivacaine.

Leverve X, Fontaine E, Espié P, Keriel C, Guérin B, Rigoulet M. Grenoble, Bordeaux: p 137

Influence of the Mechanism of Change in ATP Synthase-ATPase. Stoichiometry on the Control of Oxidative Phosphorylation in situ.

Ouhabi R, Boue-Grabot M, Mazat JP. Bordeaux: p 141

ATP Synthesis in Permeabilized Cells: Assessment of the ATP/O Ratios In Situ.

Fitton V, Ouhabi R, Guérin B, Rigoulet M. Bordeaux: p 145.

Permeabilized Spheroplasts as a Tool for Studying the Mechanistic Stoichiometry of Yeast Oxidative Phosphory­la­tion.

Manon S, Roucou X, Guérin M. Bordeaux: p 150

Investigations upon the Effect of Monovalent Cations on Oxidative Phosphorylation in Yeast Mitochondria.

Sparagna G, Gunter KK, Sheu SS, Gunter TE. Rochester: p 154

Can Mitochondria Sequester Calcium from Physiological Calcium Pulses?

Ichas F, Jouaville LS , Sidash, SS J.-P. Mazat, E.L. Holmuhamedov. Bordeaux, Pushchino, Kalamazoo: p 159

Mitochondrial Calcium Spiking: The Physiological Face of Permeability Transition.

Dauncey MJ, Clausen T, Harrison AP. Cambridge, Århus: p 163

Developmental regulation of Na+,K+- and Ca2+-ATPases in muscle.

Siegenbeek van Heukelom J et al. Amsterdam, Moscow: p 169

What is controlling the cell membrane potential?

Part 4. The Microenvironment of Mitochondria and Cells: Diffusion Gradients, Shuttles and Signals

Saks VA, Vasilyeva EV, Khuchua ZA, Belikova YO, Aliev MK, Kesvatera T, Tiivel T, Anflous K, Ventura-Clapier R, Keriel C, Fontaine E, Leverve X. Tallinn, Moscow, Paris, Grenoble: p 178

ADP Diffusion Gradients and Metabolic Oscillatory Signals to Mitochondria in Heart and Liver Cells.

Gellerich FN, Laterveer FD, Gnaiger E, Nicolay K. Utrecht, Innsbruck: p 181*

Effect of Macromolecules on ADP-Transport into Mitochondria.

Laterveer FD, Gellerich FN, Gnaiger E, Nicolay K. Utrecht, Innsbruck: p 186*

Macromolecules Increase the Channeling of ADP from Mitochondrially Associated Hexokinase to the Mitochondrial Matrix.

Méndez G, Gnaiger E. Innsbruck, Buenos Aires: p 191*

How does Oxygen Pressure Control Oxygen Flux in Isolated Mitochondria? A Methodological Approach by High-Resolution Respirometry and Digital Data Analysis.

Soboll S, Conrad A, Gruwel M. Düsseldorf: p 195

Determination of Creatine Kinase Fluxes with Purified Creatine Kinase and Isolated Mitochondria using 31P Nuclear Magnetic Resonance.

Hoerter JA, Gillet B, Mateo P, Lechene P, Beloeil JC. Chatenay Malabry, Gifs/Yvette: p 199

Oscillations of Intracellular pH or High Energy Phosphate Content Cannot be Detected by Gated NMR during the Cardiac Cycle of an Isovolumic Perfused Rat Heart.

Part 5. The Impact of Bioenergetics on Cellular, Physiological and Biotechnological Processes

Gnaiger E, Wyss M. Innsbruck: p 207

Chemical Forces in the Cell: Calculations for the ATP System.

Jeneson JAL, Jubrias SA, Kushmerick MJ. Utrecht, Seattle: p 213

The Flow-Force Relation of Oxidative Phosphorylation in Human Forearm Muscle is Sigmoidal.

Mejsnar J, Marsík F. Praha: p 215

Muscular Contraction, Dissipation and Schrödinger's Negative Entropy.

Jensen PR, Rohwer JM, Michelsen O, Westerhoff HV. Lyngby, Amsterdam: p 218

Modelling of Oxidative Phosphorylation in E. coli.

Fishov I. Beer-Sheva: p 221

Do Oscillations Control the Bacterial Cell Cycle?

Kemp RB, Hoare S, Schmalfeldt M, Bridge CMC, Evans PM, Gnaiger E. Aberystwyth, Innsbruck. p 226

A Thermochemical Study of the Production of Lactate by Glutaminolysis and Glycolysis in Mouse Macrophage Hybridoma Cells.

Larsson C, Nilsson A, Gustafsson L. Göteborg: p 232

Catabolic Capacity of Carbon- or Nitrogen-Starved Cultures of Saccharomyces cerevisiae.

Krumschnabel G, Wieser W. Innsbruck: p 238

Energy Allocation and Material Flux in Fish Hepatocytes under Stress.

Marx A, de Graaf AA, Wiechert W, Eggeling L, Sahm H. Jülich: p 240

Carbon Flux in Lysine Producing Strain Corynebacterium glutamicum MH20-22B: Analysis by 13C-NMR of Amino Acids and Metabolite Balancing.

Zentgraf B. Furtwangen: p 244

• Remarks on Biocalorimetry and Biothermodynamics Aimed at Characterization of the Physiological State.

Part 6. The Impact of Bioenergetics on Clinical and Pathologi­cal Problems

Petronilli V, Nicolli A, Costantini P, Colonna R, Bernardi P. Padova: p 259

The Permeability Transition Pore. Pathophysiology of a Cyclosporin A-sensitive Mitochondrial Channel.

Gellerich FN, Steinlechner R, Wyss M, Eberl T, Müller LC, Skladal D, Sperl W, Dapunt O, Margreiter R, Gnaiger E. Innsbruck: p 263*

Mitochondrial Function in the Atrial Appendage of the Human Heart. Characterization by High-Resolution Respirometry.

Skladal D, Sperl W, Schranzhofer R, Krismer M, Gnaiger E, Margreiter R, Gellerich FN. Innsbruck: p 268*

Preservation of Mitochondrial Functions in Human Skeletal Muscle during Storage in High Energy Preservation Solution (HEPS).

Mazat JP, Letellier T, Malgat M, Jouaville S, Morkuniene R. Bordeaux, Kaunas: p 272

Application of Control Analysis to the Study of Metabolic Diseases in Mitochondria. Metabolic Expression of Mitochondrial DNA Mutations.

Kuznetsov AV, Clark JF, Winkler K, Kunz WS. Magdeburg, Oxford: p 275*

Change in Flux Control Coefficient of Cytochrome c Oxidase in Copper Deficient Mottled Brindled Mice.

Oexle K, Oberle J, Hübner C: p 278

Insulin-Dependent Diabetes Mellitus in MELAS-Mitochondriopathy: Discussion of Possible Causal Relations.

Jeneson JAL, Westerhoff HV. Utrecht, Amsterdam: p 280

Simulation of the Flow-Force Relation of Oxidative Phosphor­ylation in Complex I Deficiency.

Steinlechner R, Eberl T, Margreiter R, Gnaiger E. Innsbruck: p 283*

Oxygen Dependence of Cellular Respiration in Endothelial Cells: A Sensitive Toxicological Test.

T. Eberl, R. Steinlechner, W. Salvenmoser, B. Abendstein, M. Rhomberg, Schröcksnadel H, Schmid T, Gnaiger E, Margreiter R. Innsbruck: p 288*

Endothelial Cell Cultures as a Model for Organ Preservation Studies.

Knoblechner A, Steinlechner R, Schirmer M, Gellerich FN, Margreiter R, Konwalinka G, Gnaiger E. Innsbruck: p 294*

The Effect of 2-Chlorodeoxyadenosine on Endogenous Respiration of a Human Lymphoma Cell line (U-937).

Part 7. Computer Software for Bioenergetics and Metabolic Control Analysis

Mendes P, Kell DB. Aberystwyth: p 302

Simultaneous Estimates of Single-Enzyme Kinetic Parameters for Multi-Enzymatic Systems Using Artificial Neural Networks.

Wiechert W. Jülich: p 305

Design of a Software Framework for Flux Determination by 13C NMR Isotope Labelling Experiments.

Announcements

• Oroboros. Grinzens-Innsbruck, Austria download pdf 316
• Acknowledgements for Financial Support 318

• Index

Subject Index 319

Author Index 325

Addresses of Participants 329