AI Article Synopsis
- Neural circuits in the brain help animals make decisions about food, mates, and responding to stimuli, with the subesophageal zone (SEZ) in insects playing a key role in controlling behaviors like feeding and movement.
- The study introduces a collection of split-GAL4 lines that accurately target 138 different SEZ cell types, covering about one third of all SEZ neurons, and categorizes these neurons into six morphological supergroups.
- Findings indicate that local SEZ interneurons exhibit complex processing capabilities, while SEZ projection neurons are more straightforward in conveying information to higher brain areas, enhancing understanding of the SEZ's anatomical organization and its impact on sensory processing and behavior.
Article Abstract
Neural circuits carry out complex computations that allow animals to evaluate food, select mates, move toward attractive stimuli, and move away from threats. In insects, the subesophageal zone (SEZ) is a brain region that receives gustatory, pheromonal, and mechanosensory inputs and contributes to the control of diverse behaviors, including feeding, grooming, and locomotion. Despite its importance in sensorimotor transformations, the study of SEZ circuits has been hindered by limited knowledge of the underlying diversity of SEZ neurons. Here, we generate a collection of split-GAL4 lines that provides precise genetic targeting of 138 different SEZ cell types in adult , comprising approximately one third of all SEZ neurons. We characterize the single-cell anatomy of these neurons and find that they cluster by morphology into six supergroups that organize the SEZ into discrete anatomical domains. We find that the majority of local SEZ interneurons are not classically polarized, suggesting rich local processing, whereas SEZ projection neurons tend to be classically polarized, conveying information to a limited number of higher brain regions. This study provides insight into the anatomical organization of the SEZ and generates resources that will facilitate further study of SEZ neurons and their contributions to sensory processing and behavior.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8445619 | PMC |
| http://dx.doi.org/10.7554/eLife.71679 | DOI Listing |
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