Coping with dynamical reaction system topologies using deterministic P modules: a case study of photosynthesis
Autor: | Thomas Hinze |
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Rok vydání: | 2020 |
Předmět: |
Computer science
Applied Mathematics 020208 electrical & electronic engineering 0102 computer and information sciences 02 engineering and technology Network topology 01 natural sciences Chemical reaction Coping (joinery) Light intensity Computational Theory and Mathematics 010201 computation theory & mathematics Ordinary differential equation Theory of computation 0202 electrical engineering electronic engineering information engineering Reaction system Biological system Topology (chemistry) |
Zdroj: | Journal of Membrane Computing. 2:281-289 |
ISSN: | 2523-8914 2523-8906 |
Popis: | The topology of chemical reaction networks is commonly treated as a static structure. This might be sufficient if substrate concentrations and kinetic parameter values exclusively determine the behaviour of all considered reactions. In contrast, numerous phenomena observed in life sciences imply a different nature by dynamical composition of reaction schemes. Single reactions or functional groups of reactions (modules) become activated or deactivated by external signals such as light intensity while the system is in operation. In other scenarios, reactions emerge or disappear while modules can connect to each other or disconnect due to presence or absence of corresponding trigger signals. We capture dynamical reaction network structures by an extended version of deterministic P modules with evaluation of trigger signals which facilitates detailed in-silico simulation studies and hence an easier understanding and prediction of complex biological systems. A case study dedicated to photosynthesis in plants demonstrates its usefulness beyond pure employment of ordinary differential equations by consideration of events, non-differentiable external trigger signals, and thresholds which collaterally modify the underlying reaction scheme. |
Databáze: | OpenAIRE |
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