The brain represents sensory information in the coordinated activity of neuronal ensembles. Although the microcircuits underlying olfactory processing are well characterized in Drosophila, no studies to date have examined the encoding of odor identity by populations of neurons and related it to the odor specificity of olfactory behavior. Here we used two-photon Ca(2+) imaging to record odor-evoked responses from >100 neurons simultaneously in the Drosophila mushroom body (MB). For the first time, we demonstrate quantitatively that MB population responses contain substantial information on odor identity. Using a series of increasingly similar odor blends, we identified conditions in which odor discrimination is difficult behaviorally. We fou...
Animals can form associations between temporally separated stimuli. To do so, the nervous system has...
Natural odors are usually mixtures; yet, humans and animals can experience them as unitary percepts....
Although all sensory circuits ascend to higher brain areas where stimuli are represented in sparse, ...
To study the representation of olfactory information in higher brain centers, we expressed a green f...
Sensory stimuli are represented in the brain by the activity of populations of neurons. In most biol...
SummaryThe mushroom body is an insect brain structure required for olfactory learning. Its principal...
AbstractOdor-induced neural activity was recorded by Ca2+ imaging in the cell body region of the Dro...
Molecular and cellular studies have begun to unravel a neurobiological basis of olfactory processing...
AbstractAn understanding of the logic of odor perception requires a functional analysis of odor-evok...
Sensory systems face the challenge to represent sensory inputs in a way to allow easy readout of sen...
Many odor receptors in the insect olfactory system are broadly tuned, yet insects can form associati...
Odor-induced neural activity was recorded by Ca2+ imaging in the cell body region of the Drosophila ...
The Drosophila mushroom body (MB) is a higher olfactory center where olfactory and other sensory inf...
Learning and memory has been studied extensively in Drosophila, using behavioral, molecular and gene...
Animals use olfactory receptor neurons (ORNs) to detect odors and to get a representation of the olf...
Animals can form associations between temporally separated stimuli. To do so, the nervous system has...
Natural odors are usually mixtures; yet, humans and animals can experience them as unitary percepts....
Although all sensory circuits ascend to higher brain areas where stimuli are represented in sparse, ...
To study the representation of olfactory information in higher brain centers, we expressed a green f...
Sensory stimuli are represented in the brain by the activity of populations of neurons. In most biol...
SummaryThe mushroom body is an insect brain structure required for olfactory learning. Its principal...
AbstractOdor-induced neural activity was recorded by Ca2+ imaging in the cell body region of the Dro...
Molecular and cellular studies have begun to unravel a neurobiological basis of olfactory processing...
AbstractAn understanding of the logic of odor perception requires a functional analysis of odor-evok...
Sensory systems face the challenge to represent sensory inputs in a way to allow easy readout of sen...
Many odor receptors in the insect olfactory system are broadly tuned, yet insects can form associati...
Odor-induced neural activity was recorded by Ca2+ imaging in the cell body region of the Drosophila ...
The Drosophila mushroom body (MB) is a higher olfactory center where olfactory and other sensory inf...
Learning and memory has been studied extensively in Drosophila, using behavioral, molecular and gene...
Animals use olfactory receptor neurons (ORNs) to detect odors and to get a representation of the olf...
Animals can form associations between temporally separated stimuli. To do so, the nervous system has...
Natural odors are usually mixtures; yet, humans and animals can experience them as unitary percepts....
Although all sensory circuits ascend to higher brain areas where stimuli are represented in sparse, ...