Add to ORKGBacteria are sometimes neither starving nor under nutrient-excess conditions. When growing with sub-optimal levels of nutrients, hungry bacteria express appropriate cellular responses. This review dis-cusses approaches to defining the hunger response in both molecular and growth kinetic terms. The gene expression changes unique to hunger conditions are described, using Escherichia coli as the primary example. Metabolite changes with hunger and starva-tion and the differing role of the stationary phase regulator RpoS also lead to the hypothesis proposed in this review that bacteria undertake distinct approaches to hunger and starvation. Indeed, an understanding of the difference between hunger and starvation and the incompatibility between h...
The starvation stress response of Salmonella typhimurium encompasses the genetic and physiologic cha...
All organisms are capable of sensing nutrients in their surroundings and producing proteins that met...
Bacteria can become dormant or form spores when they are starved for nutrients. Here, we find that n...
How do bacteria regulate their cellular physiology in response to starvation? Here, we present a det...
growth advantage in stationary phase (GASP); stress-induced mutations. Conditions that sustain const...
How do bacteria regulate their cellular physiology in response to starvation? Here, we present a det...
To respond to fluctuating conditions, microbes typically need to synthesize novel proteins. As this ...
Abstract Background The survival of bacteria largely depends on signaling systems that coordinate ce...
Metagenomics and advances in molecular biology methods have enhanced knowledge of microbial evolutio...
Bacteria frequently encounter nutrient fluctuations in natural environments, yet we understand littl...
<div><p>Microorganisms in nature are constantly subjected to a limited availability of resources and...
Background: Adaptive responses to nutrient limitation involve mutations that increase the efficiency...
International audienceGrowth restriction due to stasis and/or hyperosmolarity is a common situation ...
The study of adaptive microbial evolution in the laboratory can illuminate the genetic mechanisms of...
International audienceIt is interesting to speculate that the evolutionary drive for microbes to dev...
The starvation stress response of Salmonella typhimurium encompasses the genetic and physiologic cha...
All organisms are capable of sensing nutrients in their surroundings and producing proteins that met...
Bacteria can become dormant or form spores when they are starved for nutrients. Here, we find that n...
How do bacteria regulate their cellular physiology in response to starvation? Here, we present a det...
growth advantage in stationary phase (GASP); stress-induced mutations. Conditions that sustain const...
How do bacteria regulate their cellular physiology in response to starvation? Here, we present a det...
To respond to fluctuating conditions, microbes typically need to synthesize novel proteins. As this ...
Abstract Background The survival of bacteria largely depends on signaling systems that coordinate ce...
Metagenomics and advances in molecular biology methods have enhanced knowledge of microbial evolutio...
Bacteria frequently encounter nutrient fluctuations in natural environments, yet we understand littl...
<div><p>Microorganisms in nature are constantly subjected to a limited availability of resources and...
Background: Adaptive responses to nutrient limitation involve mutations that increase the efficiency...
International audienceGrowth restriction due to stasis and/or hyperosmolarity is a common situation ...
The study of adaptive microbial evolution in the laboratory can illuminate the genetic mechanisms of...
International audienceIt is interesting to speculate that the evolutionary drive for microbes to dev...
The starvation stress response of Salmonella typhimurium encompasses the genetic and physiologic cha...
All organisms are capable of sensing nutrients in their surroundings and producing proteins that met...
Bacteria can become dormant or form spores when they are starved for nutrients. Here, we find that n...