Local networks within the primary olfactory centers reformat odor representations from olfactory receptor neurons to second-order neurons. By studying the rules underlying mixture representation at the input to the antennal lobe (AL), the primary olfactory center of the insect brain, we recently found that mixture representation follows a strict elemental rule in honeybees: the more a component activates the AL when presented alone, the more it is represented in a mixture. We now studied mixture representation at the output of the AL by imaging a population of second-order neurons, which convey AL processed odor information to higher brain centers. We systematically measured odor-evoked activity in 22 identified glomeruli in response to fou...
The primary olfactory neuropil, the antennal lobe (AL) in insects, is organized in glomeruli. Glomer...
Major advances have been made during the past two years in understanding how honeybees process olfac...
Olfactory stimuli are coded by a spatio-temporal pattern of activity at the primary level of sensory...
Natural olfactory stimuli occur as mixtures of many single odors. We studied whether the representat...
When smelling an odorant mixture, olfactory systems can be analytical (i.e. extract information abou...
Insects have a remarkable ability to identify and track odour sources in multi-odour backgrounds. Re...
Animals typically perceive natural odor cues in their olfactory environment as a complex mixture of ...
In their natural environment, many insects need to identify and evaluate behaviorally relevant odora...
We investigated strategies involved in odour intensity coding by the primary olfactory centre of ins...
Airborne odorants rarely occur as pure, isolated stimuli. In a natural environment, odorants that in...
<div><p>Neural representations of odors are subject to computations that involve sequentially conver...
Neural representations of odors are subject to computations that involve sequentially convergent and...
An important component in understanding central olfactory processing and coding in the insect brain ...
<div><p>(A) Schematic view of odor processing in the honeybee brain. Some 60,000 odorant receptor ce...
SummaryOlfactory systems dynamically encode odor information in the nervous system. Insects constitu...
The primary olfactory neuropil, the antennal lobe (AL) in insects, is organized in glomeruli. Glomer...
Major advances have been made during the past two years in understanding how honeybees process olfac...
Olfactory stimuli are coded by a spatio-temporal pattern of activity at the primary level of sensory...
Natural olfactory stimuli occur as mixtures of many single odors. We studied whether the representat...
When smelling an odorant mixture, olfactory systems can be analytical (i.e. extract information abou...
Insects have a remarkable ability to identify and track odour sources in multi-odour backgrounds. Re...
Animals typically perceive natural odor cues in their olfactory environment as a complex mixture of ...
In their natural environment, many insects need to identify and evaluate behaviorally relevant odora...
We investigated strategies involved in odour intensity coding by the primary olfactory centre of ins...
Airborne odorants rarely occur as pure, isolated stimuli. In a natural environment, odorants that in...
<div><p>Neural representations of odors are subject to computations that involve sequentially conver...
Neural representations of odors are subject to computations that involve sequentially convergent and...
An important component in understanding central olfactory processing and coding in the insect brain ...
<div><p>(A) Schematic view of odor processing in the honeybee brain. Some 60,000 odorant receptor ce...
SummaryOlfactory systems dynamically encode odor information in the nervous system. Insects constitu...
The primary olfactory neuropil, the antennal lobe (AL) in insects, is organized in glomeruli. Glomer...
Major advances have been made during the past two years in understanding how honeybees process olfac...
Olfactory stimuli are coded by a spatio-temporal pattern of activity at the primary level of sensory...