Figure 2.

Top view of the head of a Helicoverpa zea male moth stained histologically to highlight the regions of the male moth brain involved with pheromone and other odorant signal processing and odor-quality discrimination. The anterior face of the moth is looking up toward the top of the figure. Sex pheromone information comes into the antennal lobe glomeruli of the macroglomerular complex (MGC) from the antenna. General odorant information comes from the antenna into the ordinary glomeruli (Ord) of the antennal lobe. Inhibitory GABA-ergic local interneurons form a network cross-linking all the antennal lobe glomeruli and help shape the relative levels of excitation emerging from each glomerulus via projection interneurons. The axons of these projection interneurons project in a single tract to the back of the brain to synapse first with neuropil in the mushroom body (MB) before continuing on to synapse with neurons in the lateral protocerebrum (LP). Axons of other projection neurons that also carry relative levels of excitation from antennal lobe glomeruli project in a second, different tract directly to the LP, bypassing the MB. The LP is where behavior-initiating descending interneurons synapse to send command signals to motor centers. Adapted from Lee et al. [11].

Baker Journal of Biology 2009 8:16   doi:10.1186/jbiol122
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