AI Article Synopsis
- Drosophila melanogaster larvae transition from foraging to wandering stages to find dry locations for pupation, but this shift causes dehydration stress due to decreased food intake.
- Researchers identified a gene called CG14686 (Desi) that shows increased expression in these wandering larvae, particularly under dry conditions, and its expression adjusts based on humidity.
- Desi is a protein found mainly in the larvae's epidermal cells, and its ability to enhance resistance to desiccation is evident, as larvae with reduced Desi expression experience more weight loss and higher mortality in dry environments compared to controls.
Article Abstract
Suitable alterations in gene expression are believed to allow animals to survive drastic changes in environmental conditions. Drosophila melanogaster larvae cease eating and exit moist food to search for dry pupation sites after the foraging stage in what is known as the wandering stage. Although the behavioral change from foraging to wandering causes desiccation stress, the mechanism by which Drosophila larvae protect themselves from desiccation remains obscure. Here, we identified a gene, CG14686 (designated as Desiccate (Desi)), whose expression was elevated during the wandering stage. The Desi expression level was reversibly decreased by transferring wandering larvae to wet conditions and increased again by transferring them to dry conditions. Elevation of Desi expression was also observed in foraging larvae when they were placed in dry conditions. Desi encoded a 261-amino acid single-pass transmembrane protein with notable motifs, such as SH2 and PDZ domain-binding motifs and a cAMP-dependent protein kinase phosphorylation motif, in the cytoplasmic region, and its expression was observed mainly in the epidermal cells of the larval integuments. Overexpression of Desi slightly increased the larval resistance to desiccation stress during the second instar. Furthermore, Desi RNAi larvae lost more weight under dry conditions, and subsequently, their mortalities significantly increased compared with control larvae. Under dry conditions, consumption of carbohydrate was much higher in Desi RNAi larvae than control larvae. Based on these results, it is reasonable to conclude that Desi contributes to the resistance of Drosophila larvae to desiccation stress.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2998084 | PMC |
| http://dx.doi.org/10.1074/jbc.M110.168864 | DOI Listing |
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