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The combination of transformed and constrained Gibbs energies

descriptionPublicationkeyboard_double_arrow_right Article , Journal 01 Aug 2009Publisher:Elsevier BVJournal:Mathematical Biosciences, volume 220, pages 81-88 (issn: 0025-5564,

Authors: Koukkari; Pertti; Blomberg, Peter;

doi: 10.1016/j.mbs.2009.04.004

pmid: 19427873

The combination of transformed and constrained Gibbs energies

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Abstract

Gibbs free energy is the thermodynamic potential representing the fundamental equation at constant temperature, pressure, and molar amounts. Transformed Gibbs energies are important for biochemical systems because the local concentrations within cell compartments cannot yet be determined accurately. The method of Constrained Gibbs Energies adds kinetic reaction extent limitations to the internal constraints of the system thus extending the range of applicability of equilibrium thermodynamics from predefined constraints to dynamic constraints, e.g., adding time-dependent constraints of irreversible chemical change. In this article, the implementation and use of Transformed Gibbs Energies in the Gibbs energy minimization framework is demonstrated with educational examples. The combined method has the advantage of being able to calculate transient thermodynamic properties during dynamic simulation.

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Keywords

Biochemical Phenomena, Glucose-6-Phosphate, Gibbs energy minimization, Biochemical thermodynamics, Glyceric Acids, Phosphates, Phosphoenolpyruvate, Adenosine Triphosphate, Pressure, Computer Simulation, Constrained Gibbs energy, Transformed Gibbs energy, Osmolar Concentration, Fructosephosphates, Glucosephosphates, Temperature, Water, Hydrogen-Ion Concentration, Adenosine Diphosphate, Glucose, Models, Chemical, Legendre transform, Thermodynamics, Algorithms

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