Add to ORKGThe neural substrates that the fruitfly Drosophila uses to sense smell, taste and light share marked structural and functional similarities with ours, providing attractive models to dissect sensory stimulus processing. Here we focus on two of the remaining and less understood prime sensory modalities: graviception and hearing. We show that the fly has implemented both sensory modalities into a single system, Johnston's organ, which houses specialized clusters of mechanosensory neurons, each of which monitors specific movements of the antenna. Gravity- and sound-sensitive neurons differ in their response characteristics, and only the latter express the candidate mechanotransducer channel NompC. The two neural subsets also differ in their cen...
SummaryThe Drosophila auditory organ shares equivalent transduction mechanisms with vertebrate hair ...
Neurons allocated to sense organs respond rapidly to mechanical signals dictating behavioral respons...
Synopsis Apart from detecting sounds, vertebrate ears occasionally produce sounds. These spontaneous...
The dissection of the Drosophila auditory system has revealed multiple parallels between fly and ver...
Behavioral responses to wind are thought to play a critical role in controlling the dispersal and po...
Acoustic communication in drosophilid flies is based on the production and perception of courtship s...
SummaryTwo new studies in the fruit fly Drosophila demonstrate unexpected molecular, and mechanistic...
Proprioception is the ability to detect position in space. It is necessary for normal motor control ...
SummaryRecent work suggests that the auditory organ of Drosophila may serve as an excellent model sy...
Acoustic communication in drosophilid flies is based on the production and perception of courtship s...
Although many behavioral studies have shown the importance of antennal mechanosensation in various a...
SummaryThe idea that the NompC TRPN1 channel is the Drosophila transducer for hearing has been chall...
Natural stimuli contain information on multiple timescales, ranging from milliseconds to seconds, or...
In Drosophila, the paired giant descending neurons (GDNs), also known as giant fibers, and the paire...
Hearing is an important sensory modality for most animals to detect sound signals as they mate, look...
SummaryThe Drosophila auditory organ shares equivalent transduction mechanisms with vertebrate hair ...
Neurons allocated to sense organs respond rapidly to mechanical signals dictating behavioral respons...
Synopsis Apart from detecting sounds, vertebrate ears occasionally produce sounds. These spontaneous...
The dissection of the Drosophila auditory system has revealed multiple parallels between fly and ver...
Behavioral responses to wind are thought to play a critical role in controlling the dispersal and po...
Acoustic communication in drosophilid flies is based on the production and perception of courtship s...
SummaryTwo new studies in the fruit fly Drosophila demonstrate unexpected molecular, and mechanistic...
Proprioception is the ability to detect position in space. It is necessary for normal motor control ...
SummaryRecent work suggests that the auditory organ of Drosophila may serve as an excellent model sy...
Acoustic communication in drosophilid flies is based on the production and perception of courtship s...
Although many behavioral studies have shown the importance of antennal mechanosensation in various a...
SummaryThe idea that the NompC TRPN1 channel is the Drosophila transducer for hearing has been chall...
Natural stimuli contain information on multiple timescales, ranging from milliseconds to seconds, or...
In Drosophila, the paired giant descending neurons (GDNs), also known as giant fibers, and the paire...
Hearing is an important sensory modality for most animals to detect sound signals as they mate, look...
SummaryThe Drosophila auditory organ shares equivalent transduction mechanisms with vertebrate hair ...
Neurons allocated to sense organs respond rapidly to mechanical signals dictating behavioral respons...
Synopsis Apart from detecting sounds, vertebrate ears occasionally produce sounds. These spontaneous...