Add to ORKGIn most animals, the brain controls the body via a set of descending neurons (DNs) that traverse the neck. DN activity activates, maintains or modulates locomotion and other behaviors. Individual DNs have been well-studied in species from insects to primates, but little is known about overall connectivity patterns across the DN population. We systematically investigated DN anatomy in Drosophila melanogaster and created over 100 transgenic lines targeting individual cell types. We identified roughly half of all Drosophila DNs and comprehensively map connectivity between sensory and motor neuropils in the brain and nerve cord, respectively. We find the nerve cord is a layered system of neuropils reflecting the fly’s capability for two largely...
Visual motion detection is of major importance for flies as they use the optic flow generated by the...
Drosophila larval crawling is an attractive system to study patterned motor output at the level of a...
Two central questions in neuroscience are how the brain is capable of both generating the diversity ...
In most animals, the brain controls the body via a set of descending neurons (DNs) that traverse the...
More than 30 years of studies into Drosophila melanogaster neurogenesis have revealed fundamental in...
More than 30 years of studies into Drosophila melanogaster neurogenesis have revealed fundamental in...
<p>Because the interactions between feedforward influences are inextricably linked during many motor...
The means by which brains transform sensory information into coherent motor actions is poorly unders...
To understand neural circuits that control limbs, one must measure their activity during behavior. U...
Rapid and efficient escape behaviors in response to noxious sensory stimuli are essential for protec...
Neurons originate from neural stem cells and then synapse with stereotyped partners to form neuronal...
In most animals, the brain makes behavioral decisions that are transmitted by descending neurons to ...
The vast majority of the adult fly ventral nerve cord is composed of 34 hemilineages, which are clus...
It is difficult to answer important questions in neuroscience, such as: “how do neural circuits gene...
Drosophila is a marvelous system to study the underlying principles that govern how neural circuits ...
Visual motion detection is of major importance for flies as they use the optic flow generated by the...
Drosophila larval crawling is an attractive system to study patterned motor output at the level of a...
Two central questions in neuroscience are how the brain is capable of both generating the diversity ...
In most animals, the brain controls the body via a set of descending neurons (DNs) that traverse the...
More than 30 years of studies into Drosophila melanogaster neurogenesis have revealed fundamental in...
More than 30 years of studies into Drosophila melanogaster neurogenesis have revealed fundamental in...
<p>Because the interactions between feedforward influences are inextricably linked during many motor...
The means by which brains transform sensory information into coherent motor actions is poorly unders...
To understand neural circuits that control limbs, one must measure their activity during behavior. U...
Rapid and efficient escape behaviors in response to noxious sensory stimuli are essential for protec...
Neurons originate from neural stem cells and then synapse with stereotyped partners to form neuronal...
In most animals, the brain makes behavioral decisions that are transmitted by descending neurons to ...
The vast majority of the adult fly ventral nerve cord is composed of 34 hemilineages, which are clus...
It is difficult to answer important questions in neuroscience, such as: “how do neural circuits gene...
Drosophila is a marvelous system to study the underlying principles that govern how neural circuits ...
Visual motion detection is of major importance for flies as they use the optic flow generated by the...
Drosophila larval crawling is an attractive system to study patterned motor output at the level of a...
Two central questions in neuroscience are how the brain is capable of both generating the diversity ...