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W3102051271 abstract "Engineering systems modeling and analysis based on the bond graph approach has been applied to biomolecular systems. In this context, the notion of a Faraday-equivalent chemical potential is introduced which allows chemical potential to be expressed in an analogous manner to electrical volts thus allowing engineering intuition to be applied to biomolecular systems. Redox reactions, and their representation by half-reactions, are key components of biological systems which involve both electrical and chemical domains. A bond graph interpretation of redox reactions is given which combines bond graphs with the Faraday-equivalent chemical potential. This approach is particularly relevant when the biomolecular system implements chemoelectrical transduction - for example chemiosmosis within the key metabolic pathway of mitochondria: oxidative phosphorylation. An alternative way of implementing computational modularity using bond graphs is introduced and used to give a physically based model of the mitochondrial electron transport chain To illustrate the overall approach, this model is analyzed using the Faraday-equivalent chemical potential approach and engineering intuition is used to guide affinity equalisation: a energy based analysis of the mitochondrial electron transport chain." @default.
W3102051271 created "2020-11-23" @default.
W3102051271 creator A5085191745 @default.
W3102051271 date "2017-04-01" @default.
W3102051271 modified "2023-09-23" @default.
W3102051271 title "Bond Graph Modeling of Chemiosmotic Biomolecular Energy Transduction" @default.
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W3102051271 doi "https://doi.org/10.1109/tnb.2017.2674683" @default.
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