<div><p>In simple organisms like <i>E.coli</i>, the metabolic response to an external perturbation passes through a transient phase in which the activation of a number of latent pathways can guarantee survival at the expenses of growth. Growth is gradually recovered as the organism adapts to the new condition. This adaptation can be modeled as a process of repeated metabolic adjustments obtained through the resilencings of the non-essential metabolic reactions, using growth rate as selection probability for the phenotypes obtained. The resulting metabolic adaptation process tends naturally to steer the metabolic fluxes towards high growth phenotypes. Quite remarkably, when applied to the central carbon metabolism of <i>E.coli</i>, it follow...
Contains fulltext : 172832.pdf (publisher's version ) (Open Access)A central chall...
Growth rate is a near-universal selective pressure across microbial species. High growth rates requi...
Organisms have to continuously adapt to changing environmental conditions or undergo developmental t...
In simple organisms like E. coli, the metabolic response to an external perturbation passes through ...
In simple organisms like E.coli, the metabolic response to an external perturbation passes through a...
Bacteria in changing environments must constantly adapt to grow and survive. The adaptive response t...
The regulation of metabolic activity by tuning enzyme expression levels is crucial to sustain cellul...
<div><p>The most powerful genome-scale framework to model metabolism, flux balance analysis (FBA), i...
Microbes are capable of physiologically adapting to diverse environmental conditions by differential...
Understanding the organization of reaction fluxes in cellular metabolism from the stoichiometry and ...
A grand challenge of systems biology is to predict the kinetic responses of living systems to pertur...
Understanding the organization of reaction fluxes in cellular metabolism from the stoichiometry and ...
The recognition of carbon sources and the regulatory adjustments to recognized changes are of partic...
Flux balance analysis, based on the mass conservation law in a cellular organism, has been extensive...
Abstract Background Flux Balance Analysis (FBA) is a ...
Contains fulltext : 172832.pdf (publisher's version ) (Open Access)A central chall...
Growth rate is a near-universal selective pressure across microbial species. High growth rates requi...
Organisms have to continuously adapt to changing environmental conditions or undergo developmental t...
In simple organisms like E. coli, the metabolic response to an external perturbation passes through ...
In simple organisms like E.coli, the metabolic response to an external perturbation passes through a...
Bacteria in changing environments must constantly adapt to grow and survive. The adaptive response t...
The regulation of metabolic activity by tuning enzyme expression levels is crucial to sustain cellul...
<div><p>The most powerful genome-scale framework to model metabolism, flux balance analysis (FBA), i...
Microbes are capable of physiologically adapting to diverse environmental conditions by differential...
Understanding the organization of reaction fluxes in cellular metabolism from the stoichiometry and ...
A grand challenge of systems biology is to predict the kinetic responses of living systems to pertur...
Understanding the organization of reaction fluxes in cellular metabolism from the stoichiometry and ...
The recognition of carbon sources and the regulatory adjustments to recognized changes are of partic...
Flux balance analysis, based on the mass conservation law in a cellular organism, has been extensive...
Abstract Background Flux Balance Analysis (FBA) is a ...
Contains fulltext : 172832.pdf (publisher's version ) (Open Access)A central chall...
Growth rate is a near-universal selective pressure across microbial species. High growth rates requi...
Organisms have to continuously adapt to changing environmental conditions or undergo developmental t...