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The Chemical Cycle Kinetics Close to the Equilibrium State and Electrical Circuit Analogy

Paško Županović ; Faculty of Natural Sciences, Mathematics and Education, University of Split, Teslina 12, 21000 Split, Croatia
Davor Juretić ; Faculty of Natural Sciences, Mathematics and Education, University of Split, Teslina 12, 21000 Split, Croatia


Puni tekst: engleski pdf 195 Kb

str. 561-571

preuzimanja: 978

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Sažetak

A free-energy transducing macromolecule, interacting with ligands, and cycling through discrete states, can be described by Hill’s diagram. Close to equilibrium, where linear flux-force relationships hold, we develop a method of the construction of the electrical circuit corresponding to Hill’s diagram. The method of mesh fluxes is used to form a general linear theory. Thevenin’s theorem is used to find the efficiency of free-energy transduction. Maximal power transfer conditions are then found, too. A much more elegant proof of Jeans’s 1923 theorem is then derived. We show that this theorem is equivalent to maximum entropy production principle for steady state linear electrical circuits. It follows that fluxes in the corresponding steady state enzymatic cycle kinetics (in the linear range for fixed ligand concentrations) distribute themselves so as to make the entropy production maximal. Prigogine’s minimum entropy production theorem refers to the very special steady state and is much more restricted in its application than the maximum entropy production theorem.

Ključne riječi

Hill’s diagram; Kirchhoff’s rules; maximum entropy production; Thevenin’s theorem

Hrčak ID:

102975

URI

https://hrcak.srce.hr/102975

Datum izdavanja:

30.11.2004.

Posjeta: 1.552 *