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W2039790017 abstract "Quasi steady-state enzyme kinetic models are increasingly used in systems modelling. The Michaelis Menten model is popular due to its reduced parameter dimensionality, but its low-enzyme and irreversibility assumption may not always be valid in the in vivo context. Whilst the total quasi-steady state assumption (tQSSA) model eliminates the reactant stationary assumptions, its mathematical complexity is increased. Here, we propose the differential quasi-steady state approximation (dQSSA) kinetic model, which expresses the differential equations as a linear algebraic equation. It eliminates the reactant stationary assumptions of the Michaelis Menten model without increasing model dimensionality. The dQSSA was found to be easily adaptable for reversible enzyme kinetic systems with complex topologies and to predict behaviour consistent with mass action kinetics in silico. Additionally, the dQSSA was able to predict coenzyme inhibition in the reversible lactate dehydrogenase enzyme, which the Michaelis Menten model failed to do. Whilst the dQSSA does not account for the physical and thermodynamic interactions of all intermediate enzyme-substrate complex states, it is proposed to be suitable for modelling complex enzyme mediated biochemical systems. This is due to its simpler application, reduced parameter dimensionality and improved accuracy." @default.
W2039790017 created "2016-06-24" @default.
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W2039790017 date "2015-01-01" @default.
W2039790017 modified "2023-10-16" @default.
W2039790017 title "A generalised enzyme kinetic model for predicting the behaviour of complex biochemical systems" @default.
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W2039790017 cites W1965435094 @default.
W2039790017 cites W1975444080 @default.
W2039790017 cites W1977318420 @default.
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W2039790017 doi "https://doi.org/10.1016/j.fob.2015.03.002" @default.
W2039790017 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4383669" @default.
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