Background: In this paper we propose a model reduction method for biochemical reaction networks governed by a variety of reversible and irreversible enzyme kinetic rate laws, including reversible Michaelis-Menten and Hill kinetics. The method proceeds by a stepwise reduction in the number of complexes, defined as the left and right-hand sides of the reactions in the network. It is based on the Kron reduction of the weighted Laplacian matrix, which describes the graph structure of the complexes and reactions in the network. It does not rely on prior knowledge of the dynamic behaviour of the network and hence can be automated, as we demonstrate. The reduced network has fewer complexes, reactions, variables and parameters as compared to the or...
In recent work, attempts have been made to link the structure of biochemical networks to their compl...
Flux balance (or constraint-based) analysis has been the mainstay for understanding metabolic networ...
A dynamical system obtains a wide variety of kinetic realizations, which is advantageous for the ana...
Background: In this paper we propose a model reduction method for biochemical reaction networks gove...
Motivation: The current trend in dynamical modelling of biochemical systems is to construct more and...
We propose a new approach to the model reduction of biochemical reaction networks governed by variou...
An exact arithmetic toolbox for a consistent and reproducible structural analysis of metabolic netwo...
Abstract-In this paper we propose a model-order reduction method for chemical reaction networks gove...
Objectives: The dynamic modeling of biochemical networks constitutes a major challenge in systems bi...
Kinetic models provide the means to understand and predict the dynamic behaviour of en-zymes upon di...
Many complex kinetic models in the field of biochemical reactions contain a large number of species ...
F2C2: a fast tool for the computation of flux coupling in genome-scale metabolic networks Abdelhalim...
Motivation: Metabolic pathways are complex systems of chemical reactions taking place in every livin...
The slow-scale linear noise approximation: an accurate, reduced stochastic description of biochemica...
© The Institution of Engineering and Technology.In systems biology, one is often interested in ...
In recent work, attempts have been made to link the structure of biochemical networks to their compl...
Flux balance (or constraint-based) analysis has been the mainstay for understanding metabolic networ...
A dynamical system obtains a wide variety of kinetic realizations, which is advantageous for the ana...
Background: In this paper we propose a model reduction method for biochemical reaction networks gove...
Motivation: The current trend in dynamical modelling of biochemical systems is to construct more and...
We propose a new approach to the model reduction of biochemical reaction networks governed by variou...
An exact arithmetic toolbox for a consistent and reproducible structural analysis of metabolic netwo...
Abstract-In this paper we propose a model-order reduction method for chemical reaction networks gove...
Objectives: The dynamic modeling of biochemical networks constitutes a major challenge in systems bi...
Kinetic models provide the means to understand and predict the dynamic behaviour of en-zymes upon di...
Many complex kinetic models in the field of biochemical reactions contain a large number of species ...
F2C2: a fast tool for the computation of flux coupling in genome-scale metabolic networks Abdelhalim...
Motivation: Metabolic pathways are complex systems of chemical reactions taking place in every livin...
The slow-scale linear noise approximation: an accurate, reduced stochastic description of biochemica...
© The Institution of Engineering and Technology.In systems biology, one is often interested in ...
In recent work, attempts have been made to link the structure of biochemical networks to their compl...
Flux balance (or constraint-based) analysis has been the mainstay for understanding metabolic networ...
A dynamical system obtains a wide variety of kinetic realizations, which is advantageous for the ana...