Add to ORKGMuch recent progress has been made to understand the impact of proteome allocation on bacterial growth; much less is known about the relationship between the abundances of the enzymes and their substrates, which jointly determine metabolic fluxes. Here, we report a correlation between the concentrations of enzymes and their substrates in Escherichia coli. We suggest this relationship to be a consequence of optimal resource allocation, subject to an overall constraint on the biomass density: For a cellular reaction network composed of effectively irreversible reactions, maximal reaction flux is achieved when the dry mass allocated to each substrate is equal to the dry mass of the unsaturated (or “free”) enzymes waiting to consume it. Calcula...
Metabolism of living cells converts substrates into metabolic energy, redox potential and metabolic ...
The search for optimization principles in microbial metabolism, such as biomass or ATP yields or gro...
In metabolism, available free energy is limited and must be divided across pathway steps to maintain...
Much recent progress has been made to understand the impact of proteome allocation on bacterial grow...
Understanding the organization of reaction fluxes in cellular metabolism from the stoichiometry and ...
Understanding the organization of reaction fluxes in cellular metabolism from the stoichiometry and ...
Protein mass is a major constituent of bacterial cell dry weight. An exponentially growing cell dive...
Growth rate is a near-universal selective pressure across microbial species. High growth rates requi...
<div><p>Bacterial growth depends crucially on metabolic fluxes, which are limited by the cell’s capa...
Growth rate is a near-universal selective pressure across microbial species. High growth rates requi...
A modeling formalism has been developed recently, based on stoichiometry and linear optimization, th...
A substantial fraction of the bacterial cytosol is occupied by catalysts and their substrates. While...
Microbes may maximize the number of daughter cells per time or per amount of nutrients consumed. The...
Empirical kinetic models such as the Monod equation have been widely applied to relate the cell grow...
The growth rate should be a highly optimized process in bacteria since the battle for the conquest o...
Metabolism of living cells converts substrates into metabolic energy, redox potential and metabolic ...
The search for optimization principles in microbial metabolism, such as biomass or ATP yields or gro...
In metabolism, available free energy is limited and must be divided across pathway steps to maintain...
Much recent progress has been made to understand the impact of proteome allocation on bacterial grow...
Understanding the organization of reaction fluxes in cellular metabolism from the stoichiometry and ...
Understanding the organization of reaction fluxes in cellular metabolism from the stoichiometry and ...
Protein mass is a major constituent of bacterial cell dry weight. An exponentially growing cell dive...
Growth rate is a near-universal selective pressure across microbial species. High growth rates requi...
<div><p>Bacterial growth depends crucially on metabolic fluxes, which are limited by the cell’s capa...
Growth rate is a near-universal selective pressure across microbial species. High growth rates requi...
A modeling formalism has been developed recently, based on stoichiometry and linear optimization, th...
A substantial fraction of the bacterial cytosol is occupied by catalysts and their substrates. While...
Microbes may maximize the number of daughter cells per time or per amount of nutrients consumed. The...
Empirical kinetic models such as the Monod equation have been widely applied to relate the cell grow...
The growth rate should be a highly optimized process in bacteria since the battle for the conquest o...
Metabolism of living cells converts substrates into metabolic energy, redox potential and metabolic ...
The search for optimization principles in microbial metabolism, such as biomass or ATP yields or gro...
In metabolism, available free energy is limited and must be divided across pathway steps to maintain...