Add to ORKGRhodobacter sphaeroides can swim toward a wide range of attractants (a process known as taxis), propelled by a single rotating flagellum. The reversals of motor direction that cause tumbles in Eschericia coli taxis are replaced by brief motor stops, and taxis is controlled by a complex sensory system with multiple homologues of the E. coli sensory proteins. We tethered photosynthetically grown cells of R. sphaeroides by their flagella and measured the response of the flagellar motor to changes in light intensity. The unstimulated bias (probability of not being stopped) was significantly larger than the bias of tethered E. coli but similar to the probability of not tumbling in swimming E. coli. Otherwise, the step and impulse responses were ...
We examined the changes in swimming behaviour of the bacterium Rhodobacter sphaeroides in response t...
Bacteria use chemotaxis to migrate towards environments that are better for growth. Chemoreceptors d...
The work in this thesis reports the first discovery of flagellum-independent motility in Rhodobacter...
Rhodobacter sphaeroides can swim toward a wide range of attractants (a process known as taxis), prop...
AbstractRhodobacter sphaeroides can swim toward a wide range of attractants (a process known as taxi...
ABSTRACT Rhodobacter sphaeroides can swim toward a wide range of attractants (a process known as tax...
Chemotaxis is one of the best-characterized signalling systems in biology. It is the mechanism by wh...
The control of the flagellar motor in Rhodobacter sphaeroides was investigated. Unlike most flagella...
Perceiving and responding to the environment is key to survival. Using the prokaryotic equivalent of...
Prokaryotic taxis, the active search of motile cells for the best environmental conditions, is one o...
Microorganisms have various mechanisms at their disposal to react to (changes in) their ambient ligh...
AbstractThe ΔΨ of R. sphaeroides, grown under high light to reduce the levels of light-harvesting ba...
Bacteria swim towards improving conditions by controlling flagellar activity via signals (CheY) sent...
It is well known that Escherichia coli achieves chemotaxis by modulating the bias of the flagellar m...
AbstractThe rotation rate of the unidirectional stop/start motor of Rhodobacter sphaeroides was inve...
We examined the changes in swimming behaviour of the bacterium Rhodobacter sphaeroides in response t...
Bacteria use chemotaxis to migrate towards environments that are better for growth. Chemoreceptors d...
The work in this thesis reports the first discovery of flagellum-independent motility in Rhodobacter...
Rhodobacter sphaeroides can swim toward a wide range of attractants (a process known as taxis), prop...
AbstractRhodobacter sphaeroides can swim toward a wide range of attractants (a process known as taxi...
ABSTRACT Rhodobacter sphaeroides can swim toward a wide range of attractants (a process known as tax...
Chemotaxis is one of the best-characterized signalling systems in biology. It is the mechanism by wh...
The control of the flagellar motor in Rhodobacter sphaeroides was investigated. Unlike most flagella...
Perceiving and responding to the environment is key to survival. Using the prokaryotic equivalent of...
Prokaryotic taxis, the active search of motile cells for the best environmental conditions, is one o...
Microorganisms have various mechanisms at their disposal to react to (changes in) their ambient ligh...
AbstractThe ΔΨ of R. sphaeroides, grown under high light to reduce the levels of light-harvesting ba...
Bacteria swim towards improving conditions by controlling flagellar activity via signals (CheY) sent...
It is well known that Escherichia coli achieves chemotaxis by modulating the bias of the flagellar m...
AbstractThe rotation rate of the unidirectional stop/start motor of Rhodobacter sphaeroides was inve...
We examined the changes in swimming behaviour of the bacterium Rhodobacter sphaeroides in response t...
Bacteria use chemotaxis to migrate towards environments that are better for growth. Chemoreceptors d...
The work in this thesis reports the first discovery of flagellum-independent motility in Rhodobacter...