Author:
Corthals Kristina,Andersson Vilma,Churcher Allison,Reimegård Johan,Enjin Anders
Abstract
AbstractThe ability of animals to perceive and respond to sensory information is essential for their survival in diverse environments. While much progress has been made in understanding various sensory modalities, the sense of hygrosensation, which involves the detection and response to humidity, remains poorly understood. In this study, we focused on the hygrosensory, and closely related thermosensory, systems in the vinegar fly Drosophila melanogaster to unravel the molecular profile of the cells of these senses. Using a transcriptomic analysis of over 37,000 nuclei, we identified twelve distinct clusters of cells corresponding to temperature-sensing arista neurons, humidity-sensing sacculus neurons, and support cells relating to these neurons. By examining the expression of known and novel marker genes, we validated the identity of these clusters and characterized their gene expression profiles. We found that each cell type could be characterized by a unique expression profile of ion channels, GPCR signaling molecules, synaptic vesicle cycle proteins, and cell adhesion molecules. Our findings provide valuable insights into the molecular basis of hygro- and thermosensation. Understanding the mechanisms underlying hygro- and thermosensation may shed light on the broader understanding of sensory systems and their adaptation to different environmental conditions in animals.
Funder
Wenner-Gren Stiftelserna
Svenska Forskningsrådet Formas
Knut och Alice Wallenbergs Stiftelse
Vetenskapsrådet
Crafoordska Stiftelsen
Jeanssons Stiftelser
Lund University
Publisher
Springer Science and Business Media LLC
Cited by
2 articles.
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