Many organisms respond to food deprivation by altering their pattern of movement, often in ways that appear to facilitate dispersal. While the behavior of the nematode C. elegans in the presence of attractants has been characterized, long-range movement in the absence of external stimuli has not been examined in this animal. Here we investigate the movement pattern of individual C. elegans over times of,1 hour after removal from food, using two custom imaging set-ups that allow us to track animals on large agar surfaces of 22 cm622 cm. We find that a sizeable fraction of the observed trajectories display directed motion over tens of minutes. Remarkably, this directional persistence is achieved despite a local orientation memory that decays ...
Many organisms-from bacteria to nematodes to insect larvae-navigate their environments by biasing ra...
Non-invasive recording in untethered animals is arguably the ultimate step in the analysis of neuron...
One of the fundamental problems in neuroscience is how behavior is generated from sensory input and ...
Many organisms respond to food deprivation by altering their pattern of movement, often in ways that...
<div><p>Many organisms respond to food deprivation by altering their pattern of movement, often in w...
Organisms move through the world by changing their shape, and here we explore the mapping from shape...
Organisms move through the world by changing their shape, and here we explore the mapping from shape...
<div><p>The nematode <i>Caenorhabditis elegans</i> provides a unique opportunity to interrogate the ...
The ability of an animal to locomote through its environment depends crucially on the interplay betw...
A central question in movement research is how animals use information and movement to promote encou...
Motile organisms actively detect environmental signals and migrate to a preferable environment. Espe...
In animal locomotion a tradeoff exists between stereotypy and flexibility: fast long-distance travel...
We investigated the neural representation of locomotion in the nematode C. elegans by recording popu...
The nematode Caenorhabditis elegans provides a unique opportunity to interrogate the neural basis of...
Many organisms—from bacteria to nematodes to insect larvae—navigate their environments by biasing ra...
Many organisms-from bacteria to nematodes to insect larvae-navigate their environments by biasing ra...
Non-invasive recording in untethered animals is arguably the ultimate step in the analysis of neuron...
One of the fundamental problems in neuroscience is how behavior is generated from sensory input and ...
Many organisms respond to food deprivation by altering their pattern of movement, often in ways that...
<div><p>Many organisms respond to food deprivation by altering their pattern of movement, often in w...
Organisms move through the world by changing their shape, and here we explore the mapping from shape...
Organisms move through the world by changing their shape, and here we explore the mapping from shape...
<div><p>The nematode <i>Caenorhabditis elegans</i> provides a unique opportunity to interrogate the ...
The ability of an animal to locomote through its environment depends crucially on the interplay betw...
A central question in movement research is how animals use information and movement to promote encou...
Motile organisms actively detect environmental signals and migrate to a preferable environment. Espe...
In animal locomotion a tradeoff exists between stereotypy and flexibility: fast long-distance travel...
We investigated the neural representation of locomotion in the nematode C. elegans by recording popu...
The nematode Caenorhabditis elegans provides a unique opportunity to interrogate the neural basis of...
Many organisms—from bacteria to nematodes to insect larvae—navigate their environments by biasing ra...
Many organisms-from bacteria to nematodes to insect larvae-navigate their environments by biasing ra...
Non-invasive recording in untethered animals is arguably the ultimate step in the analysis of neuron...
One of the fundamental problems in neuroscience is how behavior is generated from sensory input and ...