Add to ORKGJournal ArticleMany types of motile bacteria are capable of detecting and responding to changes in their environment. Phototactic, chemotactic and thermotactic movements in bacteria are similar to more complex behaviours seen in higher organisms, and constitute useful model systems for investigating the molecular events underlying sensory transduction phenomena. The best-studied of these systems is the chemotactic behaviour of Escherichia coli and Salmonella typhimurium. Extensive genetic and biochemical analyses of the chemotaxis machinery in these organisms has led to an intriguing picture of how bacteria detect and process sensory information. At the molecular level, the chemotactic apparatus of bacteria has proven to be surprisingly sop...
Most bacteria at certain stages of their life cycle are able to move actively; they can swim in a li...
Motility helps bacteria explore different environments and promotes the chances of their survival. M...
We describe some chemotactic behaviors of bacteria, that is, their movement response to changes in ...
Bacterial chemotaxis is a useful model for investigating in molecular detail the behavioral response...
SummaryBackgroundChemotaxis is the process by which organisms migrate toward nutrients and favorable...
Chemotaxis allows flagellated bacteria to navigate in complex chemical environments, following nutri...
Living cells sense and respond to constantly changing environmental conditions. Depending on the ty...
AbstractCells in a cloned population of coliform bacteria exhibit a wide range of swimming behaviors...
© 2011 Soyer and Goldstein; licensee BioMed Central Ltd. This is an Open Access article distributed ...
Cells in a cloned population of coliform bacteria exhibit a wide range of swimming behaviors--a form...
An optical trapping technique is implemented to investigate the chemotactic behavior of a marine bac...
Living cells sense and respond to constantly changing environmental conditions. Depending on the ty...
SummaryBackgroundChemotaxis is the process by which organisms migrate toward nutrients and favorable...
Cells in a cloned population of coliform bacteria exhibit a wide range of swimming behaviors--a form...
Most swimming bacteria are capable of following gradients of nutrients, signaling molecules and othe...
Most bacteria at certain stages of their life cycle are able to move actively; they can swim in a li...
Motility helps bacteria explore different environments and promotes the chances of their survival. M...
We describe some chemotactic behaviors of bacteria, that is, their movement response to changes in ...
Bacterial chemotaxis is a useful model for investigating in molecular detail the behavioral response...
SummaryBackgroundChemotaxis is the process by which organisms migrate toward nutrients and favorable...
Chemotaxis allows flagellated bacteria to navigate in complex chemical environments, following nutri...
Living cells sense and respond to constantly changing environmental conditions. Depending on the ty...
AbstractCells in a cloned population of coliform bacteria exhibit a wide range of swimming behaviors...
© 2011 Soyer and Goldstein; licensee BioMed Central Ltd. This is an Open Access article distributed ...
Cells in a cloned population of coliform bacteria exhibit a wide range of swimming behaviors--a form...
An optical trapping technique is implemented to investigate the chemotactic behavior of a marine bac...
Living cells sense and respond to constantly changing environmental conditions. Depending on the ty...
SummaryBackgroundChemotaxis is the process by which organisms migrate toward nutrients and favorable...
Cells in a cloned population of coliform bacteria exhibit a wide range of swimming behaviors--a form...
Most swimming bacteria are capable of following gradients of nutrients, signaling molecules and othe...
Most bacteria at certain stages of their life cycle are able to move actively; they can swim in a li...
Motility helps bacteria explore different environments and promotes the chances of their survival. M...
We describe some chemotactic behaviors of bacteria, that is, their movement response to changes in ...