Add to ORKGWe examined the changes in swimming behaviour of the bacterium Rhodobacter sphaeroides in response to stepwise changes in a nutrient (propionate), following the pre-stimulus motion, the initial response and the adaptation to the sustained concentration of the chemical. This was carried out by tethering motile cells by their flagella to glass slides and following the rotational behaviour of their cell bodies in response to the nutrient change. Computerised motion analysis was used to analyse the behaviour. Distributions of run and stop times were obtained from rotation data for tethered cells. Exponential and Weibull fits for these distributions, and variability in individual responses are discussed. In terms of parameters derived from the r...
Abstract: Bacteria can chemotactically migrate up attractant gradients by controlling run-and-tumble...
A mathematical model is developed to elucidate the effects of biophysical transport processes (nutri...
It is well known that Escherichia coli executes chemotactic motion in response to chemical cues by m...
We examined the changes in swimming behaviour of the bacterium Rhodobacter sphaeroides in response t...
We examined the changes in swimming behaviour of the bacterium Rhodobacter sphaeroides in response t...
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...
The motile behaviour of bacteria underlies many important aspects of their actions, including pathog...
Rhodobacter sphaeroides can swim toward a wide range of attractants (a process known as taxis), prop...
Rhodobacter sphaeroides can swim toward a wide range of attractants (a process known as taxis), prop...
Most bacteria at certain stages of their life cycle are able to move actively; they can swim in a li...
We revisit a recently proposed agent-based model of active biological motion and compare its predic...
Most bacteria at certain stages of their life cycle are able to move actively; they can swim in a li...
We developed a new set of software tools that enable the speed and response kinetics of large number...
At the macroscopic level and in the absence of interacting chemical gradients, the motility of a pop...
Abstract: Bacteria can chemotactically migrate up attractant gradients by controlling run-and-tumble...
A mathematical model is developed to elucidate the effects of biophysical transport processes (nutri...
It is well known that Escherichia coli executes chemotactic motion in response to chemical cues by m...
We examined the changes in swimming behaviour of the bacterium Rhodobacter sphaeroides in response t...
We examined the changes in swimming behaviour of the bacterium Rhodobacter sphaeroides in response t...
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...
The motile behaviour of bacteria underlies many important aspects of their actions, including pathog...
Rhodobacter sphaeroides can swim toward a wide range of attractants (a process known as taxis), prop...
Rhodobacter sphaeroides can swim toward a wide range of attractants (a process known as taxis), prop...
Most bacteria at certain stages of their life cycle are able to move actively; they can swim in a li...
We revisit a recently proposed agent-based model of active biological motion and compare its predic...
Most bacteria at certain stages of their life cycle are able to move actively; they can swim in a li...
We developed a new set of software tools that enable the speed and response kinetics of large number...
At the macroscopic level and in the absence of interacting chemical gradients, the motility of a pop...
Abstract: Bacteria can chemotactically migrate up attractant gradients by controlling run-and-tumble...
A mathematical model is developed to elucidate the effects of biophysical transport processes (nutri...
It is well known that Escherichia coli executes chemotactic motion in response to chemical cues by m...