Testing Odor Response Stereotypy in the Drosophila Mushroom Body
melanogaster
Genetic Markers
570
Patch-Clamp Techniques
Neuroscience(all)
specificity
system
Synaptic Transmission
MOLNEURO
Animals, Genetically Modified
Neurons, Efferent
bodies
map
Animals
Neurons, Afferent
mammalian olfactory-bulb
Evoked Potentials
Mushroom Bodies
Behavior, Animal
short-term-memory
representations
Association Learning
Olfactory Pathways
organization
antennal lobe
wiring
Smell
Synapses
Drosophila
Stereotyped Behavior
SYSNEURO
DOI:
10.1016/j.neuron.2008.07.040
Publication Date:
2008-09-25T08:40:01Z
AUTHORS (3)
ABSTRACT
The mushroom body is an insect brain structure required for olfactory learning. Its principal neurons, the Kenyon cells (KCs), form a large cell population. The neuronal populations from which their olfactory input derives (olfactory sensory and projection neurons) can be identified individually by genetic, anatomical, and physiological criteria. We ask whether KCs are similarly identifiable individually, using genetic markers and whole-cell patch-clamp in vivo. We find that across-animal responses are as diverse within the genetically labeled subset as across all KCs in a larger sample. These results combined with those from a simple model, using projection neuron odor responses as inputs, suggest that the precise circuit specification seen at earlier stages of odor processing is likely absent among the mushroom body KCs.
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