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Molecular and cellular basis of sodium sensing in Drosophila labellum

Title
Molecular and cellular basis of sodium sensing in Drosophila labellum
Author(s)
Asefa, Wayessa RahelWoo, Jin-NyeongKim, Seon YeongChoi, HyungjunSung, HayeonChoi, Min SungChoi, MinkookYoon, Sung-EunKim, Young-JoonSuh, Byung-ChangKang, KyeongjinKwon, Jae Young
Issued Date
2024-07
Citation
iScience, v.27, no.7
Type
Article
Keywords
BITTER TASTESALT-TASTERECEPTORS
Abstract
Appropriate ingestion of salt is essential for physiological processes such as ionic homeostasis and neuronal activity. Generally, low concentrations of salt elicit attraction, while high concentrations elicit aversive responses. Here, we observed that sugar neurons in the L sensilla of the Drosophila labellum cf. responses to NaCl, while sugar neurons in the S-c sensilla do not respond to NaCl, suggesting that gustatory receptor neurons involved in NaCl sensing may employ diverse molecular mechanisms. Through an RNAi screen of the entire Ir and ppk gene families and molecular genetic approaches, we identified IR76b, IR25a, and IR56b as necessary components for NaCl sensing in the Drosophila labellum. Co-expression of these three IRs in heterologous systems such as S2 cells or Xenopus oocytes resulted in a current in response to sodium stimulation, suggesting formation of a sodium-sensing complex. Our results should provide insights for research on the diverse combinations constituting salt receptor complexes. © 2024 The Author(s)
URI
http://hdl.handle.net/20.500.11750/57153
DOI
10.1016/j.isci.2024.110248
Publisher
Cell Press
Related Researcher
  • 서병창 Suh, Byung-Chang
  • Research Interests Molecular mechanisms of epilepsy and sensory pain transmission; Signaling mechanism of ion channel regulation and membrane excitability; 분자전기생리; 간질 및 통증의 분자적 기전 연구
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Appears in Collections:
Department of Brain Sciences Laboratory of Brain Signal and Synapse Research 1. Journal Articles

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