Rhythmic cilia changes support SCN neuron coherence in circadian clock

Rhythmic cilia changes support SCN neuron coherence in circadian clock

The suprachiasmatic nucleus (SCN) drives circadian clock coherence through intercellular coupling, which is resistant to environmental perturbations. We report that primary cilia are required for intercellular coupling among SCN neurons to maintain the robustness of the internal clock in mice. Cilia...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2023-06, Vol.380 (6648), p.972-979
Hauptverfasser: Tu, Hai-Qing, Li, Sen, Xu, Yu-Ling, Zhang, Yu-Cheng, Li, Pei-Yao, Liang, Li-Yun, Song, Guang-Ping, Jian, Xiao-Xiao, Wu, Min, Song, Zeng-Qing, Li, Ting-Ting, Hu, Huai-Bin, Yuan, Jin-Feng, Shen, Xiao-Lin, Li, Jia-Ning, Han, Qiu-Ying, Wang, Kai, Zhang, Tao, Zhou, Tao, Li, Ai-Ling, Zhang, Xue-Min, Li, Hui-Yan
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Biological clocks
Cilia
Cilia - metabolism
Cilia - physiology
Circadian Clocks - genetics
Circadian Rhythm - physiology
Circadian rhythms
Gene expression
Gene Expression Regulation
Hedgehog protein
Hedgehog Proteins - genetics
Hedgehog Proteins - metabolism
Jet lag
Mice
Mice, Transgenic
Neurons
Signal Transduction
Signaling
Suprachiasmatic nucleus
Suprachiasmatic Nucleus Neurons - physiology
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