Add to ORKGThe first basalar muscle (b1) is one of 17 small muscles in flies that control changes in wing stroke kinematics during steering maneuvers. The b1 is unique, however, in that it fires a single phase-locked spike during each wingbeat cycle. The phase-locked firing of the b1’s motor neuron (mnb1) is thought to result from wingbeat-synchronous mechanosensory input, such as that originating from the campaniform sensilla at the base of the halteres. Halteres are sophisticated equilibrium organs of flies that function to detect angular rotations of the body during flight. We have developed a new preparation to determine whether the campaniform sensilla at the base of the halteres are responsible for the phasic activity of b1. Using intracellular ...
Flies display a sophisticated suite of aerial behaviours that require rapid sensory–motor processing...
SummaryAt the onset of each flight bout in flies, neural circuits in the CNS must rapidly integrate ...
The fruit fly Drosophila melanogaster relies on feedback from multiple sensory modalities to control...
The first basalar muscle (B1) is 1 of 17 small steering muscles in flies that control changes in win...
The halteres of Dipteran insects play an important role in flight control. They are complex mechanos...
Flies execute their remarkable aerial maneuvers using a set of wing steering muscles, which are acti...
Of the 17 muscles responsible for flight control in flies, only the first basalar muscle (b1) is kno...
Determining how the motor patterns of the nervous system are converted into the mechanical and behav...
As flies navigate their environment in search of food or mates, they execute sharp turns known as sa...
The wing blades of most flies contain a small set of distal campaniform sensilla, mechanoreceptors t...
During locomotion, animals rely on multiple sensory modalities to maintain stability. External cues ...
Dipterous insects (the true flies) have a sophisticated pair of equilibrium organs called halteres t...
We used a combination of high speed video and electrophysiological recordings to investigate the rel...
Insects demonstrate some of the most masterful flying abilities in the animal kingdom, while also ba...
The wing blade of the blowfly Calliphora vomitoria (L.) carries an array of campaniform sensilla whi...
Flies display a sophisticated suite of aerial behaviours that require rapid sensory–motor processing...
SummaryAt the onset of each flight bout in flies, neural circuits in the CNS must rapidly integrate ...
The fruit fly Drosophila melanogaster relies on feedback from multiple sensory modalities to control...
The first basalar muscle (B1) is 1 of 17 small steering muscles in flies that control changes in win...
The halteres of Dipteran insects play an important role in flight control. They are complex mechanos...
Flies execute their remarkable aerial maneuvers using a set of wing steering muscles, which are acti...
Of the 17 muscles responsible for flight control in flies, only the first basalar muscle (b1) is kno...
Determining how the motor patterns of the nervous system are converted into the mechanical and behav...
As flies navigate their environment in search of food or mates, they execute sharp turns known as sa...
The wing blades of most flies contain a small set of distal campaniform sensilla, mechanoreceptors t...
During locomotion, animals rely on multiple sensory modalities to maintain stability. External cues ...
Dipterous insects (the true flies) have a sophisticated pair of equilibrium organs called halteres t...
We used a combination of high speed video and electrophysiological recordings to investigate the rel...
Insects demonstrate some of the most masterful flying abilities in the animal kingdom, while also ba...
The wing blade of the blowfly Calliphora vomitoria (L.) carries an array of campaniform sensilla whi...
Flies display a sophisticated suite of aerial behaviours that require rapid sensory–motor processing...
SummaryAt the onset of each flight bout in flies, neural circuits in the CNS must rapidly integrate ...
The fruit fly Drosophila melanogaster relies on feedback from multiple sensory modalities to control...