Add to ORKGIntegral feedback control is a basic engineering strategy for ensuring that the output of a system robustly tracks its desired value independent of noise or variations in system parameters. In biological systems, it is common for the response to an extracellular stimulus to return to its prestimulus value even in the continued presence of the signal-a process termed adaptation or desensitization. Barkai, Alon, Surette, and Leibler have provided both theoretical and experimental evidence that the precision of adaptation in bacterial chemotaxis is robust to dramatic changes in the levels and kinetic rate constants of the constituent proteins in this signaling network [Alon. U., Surette, M. G., Barkai. N. & Leibler, S. (1998) Nature (London) 3...
Eukaryotic chemotactic signaling networks which regulate the cell’s ability to sense the gradient of...
Bacteria move towards favourable and away from toxic environments by changing their swimming pattern...
Adaptability is an essential property of many sensory systems, enabling maintenance of a sensitive r...
ABSTRACTThe signaling apparatus mediating bacterial chemotaxis can adapt to a wide range of persiste...
AbstractThe bacterial chemotaxis network features robust adaptation implemented by negative integral...
Abstract Homeostasis is a recurring theme in biology that ensures that regulated variables robustly...
AbstractOrganisms have the property to adapt to a changing environment and keep certain components w...
AbstractA general “multi-stage” regulation model, based on linearly connected regulatory units, is f...
Bacteria move towards favourable and away from toxic environments by changing their swimming pattern...
<div><p>Inputs to signaling pathways can have complex statistics that depend on the environment and ...
For control in biomolecular systems, the most basic objective of maintaining a small error in a targ...
PMCID: PMC3088647This is an open-access article distributed under the terms of the Creative Commons ...
AbstractThe chemotaxis network of the bacterium Escherichia coli is perhaps the most studied model f...
Chemotaxis is a fundamental cellular process by which cells sense and navigate in their environment...
Adaptability is an essential property of many sensory systems, enabling maintenance of a sensitive r...
Eukaryotic chemotactic signaling networks which regulate the cell’s ability to sense the gradient of...
Bacteria move towards favourable and away from toxic environments by changing their swimming pattern...
Adaptability is an essential property of many sensory systems, enabling maintenance of a sensitive r...
ABSTRACTThe signaling apparatus mediating bacterial chemotaxis can adapt to a wide range of persiste...
AbstractThe bacterial chemotaxis network features robust adaptation implemented by negative integral...
Abstract Homeostasis is a recurring theme in biology that ensures that regulated variables robustly...
AbstractOrganisms have the property to adapt to a changing environment and keep certain components w...
AbstractA general “multi-stage” regulation model, based on linearly connected regulatory units, is f...
Bacteria move towards favourable and away from toxic environments by changing their swimming pattern...
<div><p>Inputs to signaling pathways can have complex statistics that depend on the environment and ...
For control in biomolecular systems, the most basic objective of maintaining a small error in a targ...
PMCID: PMC3088647This is an open-access article distributed under the terms of the Creative Commons ...
AbstractThe chemotaxis network of the bacterium Escherichia coli is perhaps the most studied model f...
Chemotaxis is a fundamental cellular process by which cells sense and navigate in their environment...
Adaptability is an essential property of many sensory systems, enabling maintenance of a sensitive r...
Eukaryotic chemotactic signaling networks which regulate the cell’s ability to sense the gradient of...
Bacteria move towards favourable and away from toxic environments by changing their swimming pattern...
Adaptability is an essential property of many sensory systems, enabling maintenance of a sensitive r...