To adapt to their environments, animals must generate behaviors that are closely aligned to a rapidly changing sensory world. However, behavioral states such as foraging or courtship typically persist over long time scales to ensure proper execution. It remains unclear how neural circuits generate persistent behavioral states while maintaining the flexibility to select among alternative states when the sensory context changes. Here, we elucidate the functional architecture of a neural circuit controlling the choice between roaming and dwelling states, which underlie exploration and exploitation during foraging in C. elegans. By imaging ensemble-level neural activity in freely-moving animals, we identify stereotyped changes in circuit activi...
SummaryAnimals track fluctuating stimuli over multiple timescales during natural olfactory behaviors...
The ability of a single neural circuit to produce qualitatively distinct behaviors is typically attr...
Understanding the neural circuits and genes that underlie behavior is a fundamental question in the ...
To adapt to their environments, animals must generate behaviors that are closely aligned to a rapidl...
Foraging animals optimize feeding decisions by adjusting both common and rare behavioral patterns. H...
Foraging animals dynamically adjust their behavioral patterns over time to optimize feeding in their...
The brain has persistent internal states that can modulate every aspect of an animal’s mental experi...
SummaryForaging animals have distinct exploration and exploitation behaviors that are organized into...
Many animals use their olfactory systems to learn to avoid dangers, but how neural circuits encode n...
To accommodate complex and changing environmental conditions, animals have evolved mechanisms to mod...
The ability to efficiently locate food is critical for survival. Thus, animals modify their foraging...
Changes in an animal's behavior and internal state are accompanied by widespread changes in activity...
The need to acquire information about the variability in the world is paramount to optimal behavior ...
SummaryMany animals use their olfactory systems to learn to avoid dangers, but how neural circuits e...
The motivational state of an animal sets its behavioral priorities and modulates its motor performan...
SummaryAnimals track fluctuating stimuli over multiple timescales during natural olfactory behaviors...
The ability of a single neural circuit to produce qualitatively distinct behaviors is typically attr...
Understanding the neural circuits and genes that underlie behavior is a fundamental question in the ...
To adapt to their environments, animals must generate behaviors that are closely aligned to a rapidl...
Foraging animals optimize feeding decisions by adjusting both common and rare behavioral patterns. H...
Foraging animals dynamically adjust their behavioral patterns over time to optimize feeding in their...
The brain has persistent internal states that can modulate every aspect of an animal’s mental experi...
SummaryForaging animals have distinct exploration and exploitation behaviors that are organized into...
Many animals use their olfactory systems to learn to avoid dangers, but how neural circuits encode n...
To accommodate complex and changing environmental conditions, animals have evolved mechanisms to mod...
The ability to efficiently locate food is critical for survival. Thus, animals modify their foraging...
Changes in an animal's behavior and internal state are accompanied by widespread changes in activity...
The need to acquire information about the variability in the world is paramount to optimal behavior ...
SummaryMany animals use their olfactory systems to learn to avoid dangers, but how neural circuits e...
The motivational state of an animal sets its behavioral priorities and modulates its motor performan...
SummaryAnimals track fluctuating stimuli over multiple timescales during natural olfactory behaviors...
The ability of a single neural circuit to produce qualitatively distinct behaviors is typically attr...
Understanding the neural circuits and genes that underlie behavior is a fundamental question in the ...