哺乳动物生物钟中的每日电沉默

Daily electrical silencing in the mammalian circadian clock.

作者信息

Belle Mino D C, Diekman Casey O, Forger Daniel B, Piggins Hugh D

机构信息

Faculty of Life Sciences, A. V. Hill Building, University of Manchester, Manchester M13 9PT, UK.

出版信息

Science. 2009 Oct 9;326(5950):281-4. doi: 10.1126/science.1169657.

DOI:10.1126/science.1169657

PMID:19815775

Abstract

Neurons in the brain's suprachiasmatic nuclei (SCNs), which control the timing of daily rhythms, are thought to encode time of day by changing their firing frequency, with high rates during the day and lower rates at night. Some SCN neurons express a key clock gene, period 1 (per1). We found that during the day, neurons containing per1 sustain an electrically excited state and do not fire, whereas non-per1 neurons show the previously reported daily variation in firing activity. Using a combined experimental and theoretical approach, we explain how ionic currents lead to the unusual electrophysiological behaviors of per1 cells, which unlike other mammalian brain cells can survive and function at depolarized states.

摘要

大脑视交叉上核（SCN）中的神经元控制着日常节律的时间，人们认为它们通过改变放电频率来编码一天中的时间，白天放电频率高，夜晚放电频率低。一些SCN神经元表达关键的时钟基因——周期蛋白1（per1）。我们发现，在白天，含有per1的神经元维持电兴奋状态但不放电，而非per1神经元则呈现出先前报道的放电活动的每日变化。我们采用实验与理论相结合的方法，解释了离子电流如何导致per1细胞出现异常的电生理行为，与其他哺乳动物脑细胞不同，per1细胞能够在去极化状态下存活并发挥功能。

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哺乳动物生物钟中的每日电沉默

Daily electrical silencing in the mammalian circadian clock.

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