Background: Models of biochemical systems are typically complex, which may complicate the discovery of cardinal biochemical principles. It is therefore important to single out the parts of a model that are essential for the function of the system, so that the remaining non-essential parts can be eliminated. However, each component of a mechanistic model has a clear biochemical interpretation, and it is desirable to conserve as much of this interpretability as possible in the reduction process. Furthermore, it is of great advantage if we can translate predictions from the reduced model to the original model. less thanbrgreater than less thanbrgreater thanResults: In this paper we present a novel method for model reduction that generates redu...
ix, 93 leaves ; 29 cmModelling a chemical or biochemical system involves the use of differential equ...
Background: Given the complex mechanisms underlying biochemical processes systems biology researcher...
International audienceCellular processes such as metabolism, decision making in development and diff...
Background: Models of biochemical systems are typically complex, which may complicate the discovery ...
BACKGROUND: Models of biochemical systems are typically complex, which may complicate the discovery ...
The complexity of full-scale metabolic models is a major obstacle for their effective use in computa...
Biochemical systems involving a high number of components with intricate interactions often lead to ...
Biochemical systems involving a high number of components with intricate interactions often lead to ...
BACKGROUND: Systems biology models tend to become large since biological systems often consist of co...
Modelling of biochemical systems usually focuses on certain pathways, while the concentrations of so...
Many complex kinetic models in the field of biochemical reactions contain a large number of species ...
Kinetic models of biochemical systems used in the modern literature often contain hundreds or even t...
International audienceGenome-scale metabolic models for new organisms include thousands of reactions...
ix, 93 leaves ; 29 cmModelling a chemical or biochemical system involves the use of differential equ...
Background: Given the complex mechanisms underlying biochemical processes systems biology researcher...
International audienceCellular processes such as metabolism, decision making in development and diff...
Background: Models of biochemical systems are typically complex, which may complicate the discovery ...
BACKGROUND: Models of biochemical systems are typically complex, which may complicate the discovery ...
The complexity of full-scale metabolic models is a major obstacle for their effective use in computa...
Biochemical systems involving a high number of components with intricate interactions often lead to ...
Biochemical systems involving a high number of components with intricate interactions often lead to ...
BACKGROUND: Systems biology models tend to become large since biological systems often consist of co...
Modelling of biochemical systems usually focuses on certain pathways, while the concentrations of so...
Many complex kinetic models in the field of biochemical reactions contain a large number of species ...
Kinetic models of biochemical systems used in the modern literature often contain hundreds or even t...
International audienceGenome-scale metabolic models for new organisms include thousands of reactions...
ix, 93 leaves ; 29 cmModelling a chemical or biochemical system involves the use of differential equ...
Background: Given the complex mechanisms underlying biochemical processes systems biology researcher...
International audienceCellular processes such as metabolism, decision making in development and diff...