FB2026_02 , released June 18, 2026
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Citation
Kon, N., Wang, H.T., Kato, Y.S., Uemoto, K., Kawamoto, N., Kawasaki, K., Enoki, R., Kurosawa, G., Nakane, T., Sugiyama, Y., Tagashira, H., Endo, M., Iwasaki, H., Iwamoto, T., Kume, K., Fukada, Y. (2021). Na+/Ca2+ exchanger mediates cold Ca2+ signaling conserved for temperature-compensated circadian rhythms.  Sci. Adv. 7(18): eabe8132.
FlyBase ID
FBrf0248823
Publication Type
Research paper
Abstract
Circadian rhythms are based on biochemical oscillations generated by clock genes/proteins, which independently evolved in animals, fungi, plants, and cyanobacteria. Temperature compensation of the oscillation speed is a common feature of the circadian clocks, but the evolutionary-conserved mechanism has been unclear. Here, we show that Na+/Ca2+ exchanger (NCX) mediates cold-responsive Ca2+ signaling important for the temperature-compensated oscillation in mammalian cells. In response to temperature decrease, NCX elevates intracellular Ca2+, which activates Ca2+/calmodulin-dependent protein kinase II and accelerates transcriptional oscillations of clock genes. The cold-responsive Ca2+ signaling is conserved among mice, Drosophila, and Arabidopsis The mammalian cellular rhythms and Drosophila behavioral rhythms were severely attenuated by NCX inhibition, indicating essential roles of NCX in both temperature compensation and autonomous oscillation. NCX also contributes to the temperature-compensated transcriptional rhythms in cyanobacterial clock. Our results suggest that NCX-mediated Ca2+ signaling is a common mechanism underlying temperature-compensated circadian rhythms both in eukaryotes and prokaryotes.
PubMed ID
PubMed Central ID
PMC8087402 (PMC) (EuropePMC)
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Secondary IDs
    Language of Publication
    English
    Additional Languages of Abstract
    Parent Publication
    Publication Type
    Journal
    Abbreviation
    Sci. Adv.
    Title
    Science advances
    ISBN/ISSN
    2375-2548
    Data From Reference
    Genes (7)