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  • Cellular Basis of Bitter-Driven Aversive Behaviors in Drosophila Larva.

Cellular Basis of Bitter-Driven Aversive Behaviors in Drosophila Larva.

eNeuro (2020-03-30)
Jaekyun Choi, Seungyun Yu, Min Sung Choi, Sooin Jang, I Joon Han, G Larisa Maier, Simon G Sprecher, Jae Young Kwon
초록

Feeding, a critical behavior for survival, consists of a complex series of behavioral steps. In Drosophila larvae, the initial steps of feeding are food choice, during which the quality of a potential food source is judged, and ingestion, during which the selected food source is ingested into the digestive tract. It remains unclear whether these steps employ different mechanisms of neural perception. Here, we provide insight into the two initial steps of feeding in Drosophila larva. We find that substrate choice and ingestion are determined by independent circuits at the cellular level. First, we took 22 candidate bitter compounds and examined their influence on choice preference and ingestion behavior. Interestingly, certain bitter tastants caused different responses in choice and ingestion, suggesting distinct mechanisms of perception. We further provide evidence that certain gustatory receptor neurons (GRNs) in the external terminal organ (TO) are involved in determining choice preference, and a pair of larval pharyngeal GRNs is involved in mediating both avoidance and suppression of ingestion. Our results show that feeding behavior is coordinated by a multistep regulatory process employing relatively independent neural elements. These findings are consistent with a model in which distinct sensory pathways act as modulatory circuits controlling distinct subprograms during feeding.

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Sigma-Aldrich
Harmaline, ≥95%
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Quinine hydrochloride dihydrate, suitable for fluorescence, BioReagent, ≥98.0% (NT)
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Theobromine, ≥98.0%
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N-Phenylthiourea, ≥98%
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L-Ascorbic acid, reagent grade, crystalline
Sigma-Aldrich
(−)-Lobeline hydrochloride, 98%
Sigma-Aldrich
Gallic acid, 97.5-102.5% (titration)