Adaptation is the essential process by which an organism becomes better suited to its environment. The benefits of adaptation are well documented, but the cost it incurs remains poorly understood. Here, by analysing a stochastic model of a minimum feedback network underlying many sensory adaptation systems, we show that adaptive processes are necessarily dissipative, and continuous energy consumption is required to stabilize the adapted state. Our study reveals a general relation among energy dissipation rate, adaptation speed and the maximum adaptation accuracy. This energy-speed-accuracy relation is tested in the Escherichia coli chemosensory system, which exhibits near-perfect chemoreceptor adaptation. We identify key requirements for th...
Living organisms from single cells to humans need to adapt continuously to respond to changes in the...
<div><p>In simple organisms like <i>E.coli</i>, the metabolic response to an external perturbation p...
Signal processing in neurons is constrained by internal noise and energy consumption. Neural systems...
Adaptation is the essential process by which an organism becomes better suited to its environment. T...
Adaptation is the essential process by which an organism becomes better suited to its environment. T...
<div><p>Biological sensory systems react to changes in their surroundings. They are characterized by...
Biological sensory systems react to changes in their surroundings. They are characterized by fast re...
Eukaryotic adaptation pathways operate within wide-ranging environmental conditions without stimulus...
Sensory systems often exhibit an adaptation or desensitization after a transient response, making th...
Abstract. We show that a rate of conditional Shannon entropy reduction, characterizing the learning ...
Adaptation of the chemotaxis sensory pathway of the bacterium Escherichia coli is integral for detec...
Adaptation of the chemotaxis sensory pathway of the bacterium Escherichia coli is integral for detec...
AbstractThe chemotaxis network of the bacterium Escherichia coli is perhaps the most studied model f...
<div><p>Eukaryotic adaptation pathways operate within wide-ranging environmental conditions without ...
The chemotaxis network of the bacterium Escherichia coli is perhaps the most studied model for adapt...
Living organisms from single cells to humans need to adapt continuously to respond to changes in the...
<div><p>In simple organisms like <i>E.coli</i>, the metabolic response to an external perturbation p...
Signal processing in neurons is constrained by internal noise and energy consumption. Neural systems...
Adaptation is the essential process by which an organism becomes better suited to its environment. T...
Adaptation is the essential process by which an organism becomes better suited to its environment. T...
<div><p>Biological sensory systems react to changes in their surroundings. They are characterized by...
Biological sensory systems react to changes in their surroundings. They are characterized by fast re...
Eukaryotic adaptation pathways operate within wide-ranging environmental conditions without stimulus...
Sensory systems often exhibit an adaptation or desensitization after a transient response, making th...
Abstract. We show that a rate of conditional Shannon entropy reduction, characterizing the learning ...
Adaptation of the chemotaxis sensory pathway of the bacterium Escherichia coli is integral for detec...
Adaptation of the chemotaxis sensory pathway of the bacterium Escherichia coli is integral for detec...
AbstractThe chemotaxis network of the bacterium Escherichia coli is perhaps the most studied model f...
<div><p>Eukaryotic adaptation pathways operate within wide-ranging environmental conditions without ...
The chemotaxis network of the bacterium Escherichia coli is perhaps the most studied model for adapt...
Living organisms from single cells to humans need to adapt continuously to respond to changes in the...
<div><p>In simple organisms like <i>E.coli</i>, the metabolic response to an external perturbation p...
Signal processing in neurons is constrained by internal noise and energy consumption. Neural systems...