Non-Equilibrium Thermodynamic Sensitivity of Oxidative Phosphorylation

Non-Equilibrium Thermodynamic Sensitivity of Oxidative Phosphorylation

A new method was developed to analyse the dynamic properties of oxidative phosphorylation, in particular the sensitivity of the phosphate potential with respect to fluctuating cellular ATP utilization. This treatment is based on the eigenvalue sensitivity analysis of an experimentally supported non-...

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Bibliographic Details
Published in:Proceedings of the Royal Society. B, Biological sciences Vol. 244; no. 1311; pp. 197 - 202
Main Author: Stucki, Jörg W.
Format: Journal Article
Language:English
Published: London The Royal Society 22-06-1991
Subjects:
Adenosine Triphosphate - metabolism
Direct power generators
Economic fluctuations
Eigenvalues
Energy conversion efficiency
Kinetics
Liver
Mathematics
Mitochondria - metabolism
Models, Theoretical
Oxidative Phosphorylation
Phosphates
Ratios
Thermodynamics
Time Factors
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Summary:A new method was developed to analyse the dynamic properties of oxidative phosphorylation, in particular the sensitivity of the phosphate potential with respect to fluctuating cellular ATP utilization. This treatment is based on the eigenvalue sensitivity analysis of an experimentally supported non-equilibrium thermodynamic model of oxidative phosphorylation. Such an analysis allows direct access to the kinetic information, while circumventing the awkward conventional numerical integration of a set of nonlinear differential equations. This procedure revealed, for the parameters characteristic for liver of starved rats in vivo, that the sensitivity of oxidative phosphorylation to a fluctuating ATP utilization is minimal at a degree of coupling q = 0.95. This means that the phosphate potential is highly buffered with respect to fluctuating energy demands at that degree of coupling. This value of q agrees well with the degree of coupling qecf, at which net ATP production of oxidative phosphorylation – at optimal efficiency – occurs in the most economic way. This simultaneous maximization of kinetic stability and economic thermodynamic efficiency at the same degree of coupling appears to be a coincidence.
Bibliography:ark:/67375/V84-B37B81S6-K
istex:D92EEF568213D041E55D840B9331E0FABFE6E0C7
This text was harvested from a scanned image of the original document using optical character recognition (OCR) software. As such, it may contain errors. Please contact the Royal Society if you find an error you would like to see corrected. Mathematical notations produced through Infty OCR.
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ISSN:0962-8452
1471-2954
DOI:10.1098/rspb.1991.0070