Many microorganisms exhibit nutrient preferences, exemplified by the ‘hierarchical’ consumption of certain carbon substrates. Here, we systematically investigate under which physiological conditions hierarchical substrate utilization occurs and its mechanisms of implementation. We show utilization hierarchy of Escherichia coli to be ordered by the carbon-uptake flux rather than the identity of the substrates. A detailed study of glycerol uptake finds that it is fully suppressed if the uptake flux of another glycolytic substrate exceeds a threshold, which is set to the influx obtained when grown on glycerol alone. Below this threshold, limited glycerol uptake is ‘supplemented’ such that the total carbon uptake is maintained at the threshold....
The yeast Saccharomyces cerevisiae can show different metabolic phenotypes (e.g. fermentation and re...
Making the right choice for nutrient consumption in an ever-changing environment is a key factor for...
The phosphotransferase system (PTS) plays a pivotal role in the uptake of multiple sugars in Escheri...
Many microorganisms exhibit nutrient preferences, exemplified by the 'hierarchical' consumption of c...
Bacteria grown on a mixture of carbon substrates exhibit two utilization patterns: hierarchical util...
The recognition of carbon sources and the regulatory adjustments to recognized changes are of partic...
The recognition of carbon sources and the regulatory adjustments to recognized changes are of partic...
Bacteria grown on a mixture of carbon substrates exhibit two utilization patterns: hierarchical util...
Regulation of metabolic operation in response to extracellular cues is crucial for cells' survival. ...
Central carbon metabolism is highly conserved across microbial species, but can catalyze very differ...
The metabolism of microorganisms is regulated through two main mechanisms: changes of enzyme capacit...
In this work we study the preferential use of carbon sources in the bacterium Escherichia coli. To t...
Microbes survive in a variety of nutrient environments by modulating their intracellular metabolism....
Carbon catabolite repression (CCR) in bacterial cells leads to their selective consumption of a sing...
A key challenge for living systems is balancing utilization of multiple elemental nutrients, such as...
The yeast Saccharomyces cerevisiae can show different metabolic phenotypes (e.g. fermentation and re...
Making the right choice for nutrient consumption in an ever-changing environment is a key factor for...
The phosphotransferase system (PTS) plays a pivotal role in the uptake of multiple sugars in Escheri...
Many microorganisms exhibit nutrient preferences, exemplified by the 'hierarchical' consumption of c...
Bacteria grown on a mixture of carbon substrates exhibit two utilization patterns: hierarchical util...
The recognition of carbon sources and the regulatory adjustments to recognized changes are of partic...
The recognition of carbon sources and the regulatory adjustments to recognized changes are of partic...
Bacteria grown on a mixture of carbon substrates exhibit two utilization patterns: hierarchical util...
Regulation of metabolic operation in response to extracellular cues is crucial for cells' survival. ...
Central carbon metabolism is highly conserved across microbial species, but can catalyze very differ...
The metabolism of microorganisms is regulated through two main mechanisms: changes of enzyme capacit...
In this work we study the preferential use of carbon sources in the bacterium Escherichia coli. To t...
Microbes survive in a variety of nutrient environments by modulating their intracellular metabolism....
Carbon catabolite repression (CCR) in bacterial cells leads to their selective consumption of a sing...
A key challenge for living systems is balancing utilization of multiple elemental nutrients, such as...
The yeast Saccharomyces cerevisiae can show different metabolic phenotypes (e.g. fermentation and re...
Making the right choice for nutrient consumption in an ever-changing environment is a key factor for...
The phosphotransferase system (PTS) plays a pivotal role in the uptake of multiple sugars in Escheri...