Summary
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1.
Single unimodal (olfactory) or multimodal (olfactory and mechanosensory) neurons in the antennal lobe of the deutocerebrum of the American cockroach were characterized functionally by microelectrode recording, and their morphological types and positions in the brain were established by dye injection. Thus individual, physiologically identified neurons of known shape could be mapped in reference to the areas of soma groups, glomeruli, tracts and their projection regions in the brain.
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2.
All of these neurons send processes to deutocerebral glomeruli, i.e., the regions in which the axons of antennal sensory cells terminate. Output neurons have axons that leave the deutocerebrum whereas local interneurons are anaxonic.
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3.
An output neuron innervates only one glomerulus, sending its axon into the calyces of the corpora pedunculata (CP) in the protocerebrum, where by multiple branching they reach many CP neurons. The same axons send collaterals into the lateral lobe of the protocerebrum. Because of this arrangement, each deutocerebral glomerulus is represented individually and separately in the two projection regions. The fine structure of the endings of the deutocerebral axons in the protocerebrum is described. In the CP calyces they form microglomeruli with typical divergent connectivity.
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4.
A local interneuron innervates many glomeruli without sending processes to other parts of the brain.
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5.
Unimodal olfactory and multimodal neurons can be either output neurons or local interneurons; multimodal information is sent to the protocerebrum directly, in parallel with the unimodal information.
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6.
At least one glomerulus — the macroglomerulus of the male deutocerebrum — is specialized so as to provide an exclusive topographic representation of certain olfactory stimuli not represented elsewhere (female sexual pheromone).
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Supported by the Deutsche Forschungsgemeinschaft, SFB 4, Projects B3 and G2
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Ernst, K.D., Boeckh, J. A neuroanatomical study on the organization of the central antennal pathways in insects. Cell Tissue Res. 229, 1–22 (1983). https://doi.org/10.1007/BF00217877
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DOI: https://doi.org/10.1007/BF00217877