Biochemical systems involving a high number of components with intricate interactions often lead to complex models containing a large number of parameters. Although a large model could describe in detail the mechanisms that underlie the system, its very large size may hinder us in understanding the key elements of the system. Also in terms of parameter identification, large models are often problematic. Therefore, a reduced model may be preferred to represent the system. Yet, in order to efficaciously replace the large model, the reduced model should have the same ability as the large model to produce reliable predictions for a broad set of testable experimental conditions. We present a novel method to extract an “optimal” reduced model fro...
The complexity of dynamic mathematical models due to large number of parameters is a major obstacle ...
International audienceCellular processes such as metabolism, decision making in development and diff...
In this study, a class of dynamic models based on metabolic reaction pathways is analyzed, showing t...
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: 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...
Many complex kinetic models in the field of biochemical reactions contain a large number of species ...
Modelling of biochemical systems usually focuses on certain pathways, while the concentrations of so...
Ordinary differential equation models have become a standard tool for the mechanistic description of...
Mathematical models of biological processes have various applications: to assist in understanding th...
Mathematical models of biological processes have various applications: to assist in understanding th...
A major problem when designing mathematical models of biochemical processes to analyze and explain e...
The complexity of biochemical systems, stemming from both the large number of components and the int...
The complexity of dynamic mathematical models due to large number of parameters is a major obstacle ...
International audienceCellular processes such as metabolism, decision making in development and diff...
In this study, a class of dynamic models based on metabolic reaction pathways is analyzed, showing t...
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: 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...
Many complex kinetic models in the field of biochemical reactions contain a large number of species ...
Modelling of biochemical systems usually focuses on certain pathways, while the concentrations of so...
Ordinary differential equation models have become a standard tool for the mechanistic description of...
Mathematical models of biological processes have various applications: to assist in understanding th...
Mathematical models of biological processes have various applications: to assist in understanding th...
A major problem when designing mathematical models of biochemical processes to analyze and explain e...
The complexity of biochemical systems, stemming from both the large number of components and the int...
The complexity of dynamic mathematical models due to large number of parameters is a major obstacle ...
International audienceCellular processes such as metabolism, decision making in development and diff...
In this study, a class of dynamic models based on metabolic reaction pathways is analyzed, showing t...