VBiological complexity and limited quantitative measurements pose severe challenges to standard engineering methodologies for modelling and simulation of genes and gene products integrated in a functional network. In particular, parameter quantification is a bottleneck, and therefore parameter estimation, identifiability, and optimal experiment design are important research topics in systems biology. An approach is presented in which unmodelled dynamics are replaced by fictitious `dependent inputs'. The dependent input approach is particularly useful in validation experiments, because it allows one to fit model parameters to experimental data generated by a reference cell type (`wild-type') and then test this model on data generated by a va...
The large size of metabolic networks entails an overwhelming multiplicity in the possible steady-sta...
Experimental techniques in biology such as microfluidic devices and time-lapse microscopy allow trac...
An essential part of mathematical modelling is the accurate and reliable estimation of model paramet...
VBiological complexity and limited quantitative measurements pose severe challenges to standard engi...
Motivation: Cellular information processing can be described mathematically using differential equat...
Systems biology applies quantitative, mechanistic modelling to study genetic networks, signal transd...
Mathematical modelling offers a variety of useful techniques to help in understanding the intrinsic ...
Yeast molecular and cell biology has accumulated large amounts of qualitative and quantitative data ...
In this study, a parameter estimation method has been developed for models of biomedical pathways. T...
AbstractBiological measurements of intracellular regulation processes are typically noisy, and time ...
It is common when modelling biochemical networks to use qualitative information such as the general ...
Saccharomyces cerevisiae is known to exhibit sustained oscillations in chemostats operated under aer...
The large size of metabolic networks entails an overwhelming multiplicity in the possible steady-sta...
Recent advances in the availability and applicability of genetic tools for non-conventional yeasts h...
The large size of metabolic networks entails an overwhelming multiplicity in the possible steady-sta...
Experimental techniques in biology such as microfluidic devices and time-lapse microscopy allow trac...
An essential part of mathematical modelling is the accurate and reliable estimation of model paramet...
VBiological complexity and limited quantitative measurements pose severe challenges to standard engi...
Motivation: Cellular information processing can be described mathematically using differential equat...
Systems biology applies quantitative, mechanistic modelling to study genetic networks, signal transd...
Mathematical modelling offers a variety of useful techniques to help in understanding the intrinsic ...
Yeast molecular and cell biology has accumulated large amounts of qualitative and quantitative data ...
In this study, a parameter estimation method has been developed for models of biomedical pathways. T...
AbstractBiological measurements of intracellular regulation processes are typically noisy, and time ...
It is common when modelling biochemical networks to use qualitative information such as the general ...
Saccharomyces cerevisiae is known to exhibit sustained oscillations in chemostats operated under aer...
The large size of metabolic networks entails an overwhelming multiplicity in the possible steady-sta...
Recent advances in the availability and applicability of genetic tools for non-conventional yeasts h...
The large size of metabolic networks entails an overwhelming multiplicity in the possible steady-sta...
Experimental techniques in biology such as microfluidic devices and time-lapse microscopy allow trac...
An essential part of mathematical modelling is the accurate and reliable estimation of model paramet...