© 2017 IEEE. Constraint-based methods, such as the flux balance analysis (FBA), are widely used to model cellular growth processes without relying on knowledge of regulatory features. Regulation is instead substituted by an optimization problem to maximize a biological objective such as biomass accumulation. A recent extension to these methods is called dynamic enzyme-cost FBA (deFBA). This fully dynamic modeling method allows to predict optimal enzyme levels and reaction fluxes under changing environmental conditions. However, this method was designed for well-defined deterministic settings in which dynamics of the environment are exactly known. In this letter, we present a theoretical framework called the robust deFBA which extends the de...
Over the past decade, the constraint-based approach to metabolic modeling has become an important to...
Metabolic models are typically characterized by a large number of parameters. Traditionally, metabol...
Understanding cellular regulation of metabolism is a major challenge in systems biology. Thus far, t...
The regulation of metabolic activity by tuning enzyme expression levels is crucial to sustain cellul...
Living cells can be modelled by successively imposing known constraints that limit their behaviour, ...
© 2016 American Automatic Control Council (AACC). Common sensors for bioreactors can only measure ex...
Constraint-based optimization, such as flux balance analysis (FBA), has become a standard systems-bi...
One of the most relevant topics in the field of systems biology is the study of metabolic networks, ...
Mathematical models for the growth, survival, inactivation and product formation of microbial organi...
Microbial cells evolved a remarkable ability to adapt to environmental conditions, or to withstand o...
Genome-scale, constraint-based models (GEM) and their derivatives are commonly used to model and gai...
<div><p>Motivation</p><p>Genome-scale metabolic networks can be modeled in a constraint-based fashio...
Genome-scale stoichiometric modeling methods, in particular Flux Balance Analysis (FBA) and variatio...
International audienceThe Constraint-based modelling is a widely used approach to analyze genotype-p...
Motivation: Genome-scale metabolic networks can be modeled in a constraint-based fashion. Reaction s...
Over the past decade, the constraint-based approach to metabolic modeling has become an important to...
Metabolic models are typically characterized by a large number of parameters. Traditionally, metabol...
Understanding cellular regulation of metabolism is a major challenge in systems biology. Thus far, t...
The regulation of metabolic activity by tuning enzyme expression levels is crucial to sustain cellul...
Living cells can be modelled by successively imposing known constraints that limit their behaviour, ...
© 2016 American Automatic Control Council (AACC). Common sensors for bioreactors can only measure ex...
Constraint-based optimization, such as flux balance analysis (FBA), has become a standard systems-bi...
One of the most relevant topics in the field of systems biology is the study of metabolic networks, ...
Mathematical models for the growth, survival, inactivation and product formation of microbial organi...
Microbial cells evolved a remarkable ability to adapt to environmental conditions, or to withstand o...
Genome-scale, constraint-based models (GEM) and their derivatives are commonly used to model and gai...
<div><p>Motivation</p><p>Genome-scale metabolic networks can be modeled in a constraint-based fashio...
Genome-scale stoichiometric modeling methods, in particular Flux Balance Analysis (FBA) and variatio...
International audienceThe Constraint-based modelling is a widely used approach to analyze genotype-p...
Motivation: Genome-scale metabolic networks can be modeled in a constraint-based fashion. Reaction s...
Over the past decade, the constraint-based approach to metabolic modeling has become an important to...
Metabolic models are typically characterized by a large number of parameters. Traditionally, metabol...
Understanding cellular regulation of metabolism is a major challenge in systems biology. Thus far, t...