2020
DOI: 10.1098/rsif.2020.0053
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Thermodynamic modelling of synthetic communities predicts minimum free energy requirements for sulfate reduction and methanogenesis

Abstract: Microbial communities are complex dynamical systems harbouring many species interacting together to implement higher-level functions. Among these higher-level functions, conversion of organic matter into simpler building blocks by microbial communities underpins biogeochemical cycles and animal and plant nutrition, and is exploited in biotechnology. A prerequisite to predicting the dynamics and stability of community-mediated metabolic conversions is the development and calibration of appr… Show more

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Cited by 24 publications
(13 citation statements)
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“…An important potential result of combining control theory with energy-based modelling is to identify performance/energy trade-offs. This is important to both evolutionary theory [28] and synthetic biology [29].…”
Section: Discussionmentioning
confidence: 99%
“…An important potential result of combining control theory with energy-based modelling is to identify performance/energy trade-offs. This is important to both evolutionary theory [28] and synthetic biology [29].…”
Section: Discussionmentioning
confidence: 99%
“…However, despite a considerable amount of research on the application of thermodynamics to microbial systems, there are relatively few examples of direct application to the anaerobic digestion process itself. Oh and Martin used principles of thermodynamic equilibrium with chemical activity and fugacity together with a stoichiometric model to study energetic requirements of methanogensis [158], and recently Delattre et al have proposed a kinetic-thermodynamic model to characterise a synthetic anaerobic tri-culture community performing sulphate reduction and methanogenesis [159]. Despite this, it is certain that as more consistent approaches are developed and theory more widely understood, appropriate thermodynamic models will be developed and tested for application to AD systems with the aim to improve performance and understand energetic limitations of different metabolic pathways.…”
Section: Thermodynamic Modellingmentioning
confidence: 99%
“…However, despite the considerable amount of research on the application of thermodynamics to microbial systems, there are relatively few examples of direct application to the anaerobic digestion process itself. Oh and Martin used principles of thermodynamic equilibrium with chemical activity and fugacity together with a stoichiometric model to study energetic requirements of methanogensis [154], and recently Delattre et al have proposed a kinetic-thermodynamic model to characterise a synthetic anaerobic tri-culture community performing sulphate reduction and methanogenesis [155]. Despite this, it is certain that as more consistent approaches are developed and theory more widely understood, appropriate thermodynamic models will be developed and tested for application to AD systems with the aim to improve performance and understand energetic limitations of different metabolic pathways.…”
Section: Thermodynamic Modellingmentioning
confidence: 99%