<div><p>Neural representations of odors are subject to computations that involve sequentially convergent and divergent anatomical connections across different areas of the brains in both mammals and insects. Furthermore, in both mammals and insects higher order brain areas are connected via feedback connections. In order to understand the transformations and interactions that this connectivity make possible, an ideal experiment would compare neural responses across different, sequential processing levels. Here we present results of recordings from a first order olfactory neuropile – the antennal lobe (AL) – and a higher order multimodal integration and learning center – the mushroom body (MB) – in the honey bee brain. We recorded projection...
Insects have a remarkable ability to identify and track odour sources in multi-odour backgrounds. Re...
A mushroom body extrinsic neuron, the Pe1 neuron, connects the peduncle of the mushroom body (MB) wi...
Olfactory stimuli are coded by a spatio-temporal pattern of activity at the primary level of sensory...
Neural representations of odors are subject to computations that involve sequentially convergent and...
abstract: Neural representations of odors are subject to computations that involve sequentially conv...
In their natural environment, many insects need to identify and evaluate behaviorally relevant odora...
In their natural environment, animals face complex and highly dynamic olfactory input. Thus vertebra...
Local networks within the primary olfactory centers reformat odor representations from olfactory rec...
Extracellular spiking activity and local field potentials (LFP) were recorded via tetrodes at the ou...
<div><p>(A) Schematic view of odor processing in the honeybee brain. Some 60,000 odorant receptor ce...
Strube-Bloss M, Rössler W. Multimodal integration and stimulus categorization in putative mushroom b...
The mushroom body (MB) in insects is known as a major center for associative learning and memory, al...
Local computation in microcircuits is an essential feature of distributed information processing in ...
To rapidly process biologically relevant stimuli, sensory systems have developed a broad variety of ...
Odor information is coded in the insect brain in a sequence of steps, ranging from the receptor cell...
Insects have a remarkable ability to identify and track odour sources in multi-odour backgrounds. Re...
A mushroom body extrinsic neuron, the Pe1 neuron, connects the peduncle of the mushroom body (MB) wi...
Olfactory stimuli are coded by a spatio-temporal pattern of activity at the primary level of sensory...
Neural representations of odors are subject to computations that involve sequentially convergent and...
abstract: Neural representations of odors are subject to computations that involve sequentially conv...
In their natural environment, many insects need to identify and evaluate behaviorally relevant odora...
In their natural environment, animals face complex and highly dynamic olfactory input. Thus vertebra...
Local networks within the primary olfactory centers reformat odor representations from olfactory rec...
Extracellular spiking activity and local field potentials (LFP) were recorded via tetrodes at the ou...
<div><p>(A) Schematic view of odor processing in the honeybee brain. Some 60,000 odorant receptor ce...
Strube-Bloss M, Rössler W. Multimodal integration and stimulus categorization in putative mushroom b...
The mushroom body (MB) in insects is known as a major center for associative learning and memory, al...
Local computation in microcircuits is an essential feature of distributed information processing in ...
To rapidly process biologically relevant stimuli, sensory systems have developed a broad variety of ...
Odor information is coded in the insect brain in a sequence of steps, ranging from the receptor cell...
Insects have a remarkable ability to identify and track odour sources in multi-odour backgrounds. Re...
A mushroom body extrinsic neuron, the Pe1 neuron, connects the peduncle of the mushroom body (MB) wi...
Olfactory stimuli are coded by a spatio-temporal pattern of activity at the primary level of sensory...