视交叉上核中细胞时钟的同步

Synchronization of cellular clocks in the suprachiasmatic nucleus.

作者信息

Yamaguchi Shun, Isejima Hiromi, Matsuo Takuya, Okura Ryusuke, Yagita Kazuhiro, Kobayashi Masaki, Okamura Hitoshi

机构信息

Division of Molecular Brain Science, Department of Brain Sciences, Kobe University Graduate School of Medicine, Kobe 650-0017, Japan.

出版信息

Science. 2003 Nov 21;302(5649):1408-12. doi: 10.1126/science.1089287.

DOI:10.1126/science.1089287

PMID:14631044

Abstract

Individual cellular clocks in the suprachiasmatic nucleus (SCN), the circadian center, are integrated into a stable and robust pacemaker with a period length of about 24 hours. We used real-time analysis of gene expression to show synchronized rhythms of clock gene transcription across hundreds of neurons within the mammalian SCN in organotypic slice culture. Differentially phased neuronal clocks are topographically arranged across the SCN. A protein synthesis inhibitor set all cell clocks to the same initial phase and, after withdrawal, intrinsic interactions among cell clocks reestablished the stable program of gene expression across the assemblage. Na+-dependent action potentials contributed to establishing cellular synchrony and maintaining spontaneous oscillation across the SCN.

摘要

视交叉上核（SCN）作为昼夜节律中心，其中的单个细胞时钟被整合为一个稳定且强大的起搏器，其周期长度约为24小时。我们利用基因表达的实时分析，在器官型切片培养中展示了哺乳动物SCN内数百个神经元中时钟基因转录的同步节律。不同相位的神经元时钟在SCN中呈拓扑排列。一种蛋白质合成抑制剂使所有细胞时钟达到相同的初始相位，撤去该抑制剂后，细胞时钟之间的内在相互作用重新建立了整个集群中基因表达的稳定程序。钠离子依赖性动作电位有助于在SCN中建立细胞同步性并维持自发振荡。

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视交叉上核中细胞时钟的同步

Synchronization of cellular clocks in the suprachiasmatic nucleus.

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