Motor systems can be functionally organized into effector organs (muscles and glands), the motor neurons, central pattern generators (CPG) and higher control centers of the brain. Using genetic and electrophysiological methods, we have begun to deconstruct the motor system driving Drosophila larval feeding behavior into its component parts. In this paper, we identify distinct clusters of motor neurons that execute head tilting, mouth hook movements, and pharyngeal pumping during larval feeding. This basic anatomical scaffold enabled the use of calcium-imaging to monitor the neural activity of motor neurons within the central ner-vous system (CNS) that drive food intake. Simultaneous nerve- and muscle-recordings demonstrate that the motor ne...
Feeding is one of the most important behaviors for an animal’s survival. At a gross level, it is kno...
Throughout neuroscience, many model organisms are used to characterize human neurological systems. T...
<div><p>Rhythmic motor patterns underlying many types of locomotion are thought to be produced by ce...
<div><p>Motor systems can be functionally organized into effector organs (muscles and glands), the m...
Motor systems can be functionally organized into effector organs (muscles and glands), the motor neu...
Rhythmic motor patterns underlying many types of locomotion are thought to be produced by central pa...
Drosophila larval crawling is an attractive system to study patterned motor output at the level of a...
To study neuronal networks in terms of their function in behavior, we must analyze how neurons opera...
Many feeding behaviours are the result of stereotyped, organized sequences of motor patterns. These ...
Here we describe a set of straightforward laboratory exercises that integrate the study of genetics,...
The precise coordination of body parts is essential for survival and behavior of higher organisms. W...
To move the body, the brain must precisely coordinate patterns of activity among diverse populations...
We have established a preparation in larval Drosophila to monitor fictive locomotion simultaneously ...
An efficient strategy to explore the environment for available resources involves the execution of r...
How environmental stimuli are detected and processed by the brain to produce a behavioral output rem...
Feeding is one of the most important behaviors for an animal’s survival. At a gross level, it is kno...
Throughout neuroscience, many model organisms are used to characterize human neurological systems. T...
<div><p>Rhythmic motor patterns underlying many types of locomotion are thought to be produced by ce...
<div><p>Motor systems can be functionally organized into effector organs (muscles and glands), the m...
Motor systems can be functionally organized into effector organs (muscles and glands), the motor neu...
Rhythmic motor patterns underlying many types of locomotion are thought to be produced by central pa...
Drosophila larval crawling is an attractive system to study patterned motor output at the level of a...
To study neuronal networks in terms of their function in behavior, we must analyze how neurons opera...
Many feeding behaviours are the result of stereotyped, organized sequences of motor patterns. These ...
Here we describe a set of straightforward laboratory exercises that integrate the study of genetics,...
The precise coordination of body parts is essential for survival and behavior of higher organisms. W...
To move the body, the brain must precisely coordinate patterns of activity among diverse populations...
We have established a preparation in larval Drosophila to monitor fictive locomotion simultaneously ...
An efficient strategy to explore the environment for available resources involves the execution of r...
How environmental stimuli are detected and processed by the brain to produce a behavioral output rem...
Feeding is one of the most important behaviors for an animal’s survival. At a gross level, it is kno...
Throughout neuroscience, many model organisms are used to characterize human neurological systems. T...
<div><p>Rhythmic motor patterns underlying many types of locomotion are thought to be produced by ce...
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