一个塑料时钟：果蝇的昼夜节律如何对环境线索做出反应。

A plastic clock: how circadian rhythms respond to environmental cues in Drosophila.

作者信息

Dubruille Raphaelle, Emery Patrick

机构信息

Department of Neurobiology, University of Massachusetts Medical School, 364 Plantation Street, Worcester, MA 01605, USA.

出版信息

Mol Neurobiol. 2008 Oct;38(2):129-45. doi: 10.1007/s12035-008-8035-y. Epub 2008 Aug 27.

DOI:10.1007/s12035-008-8035-y

PMID:18751931

Abstract

Circadian clocks synchronize the physiology and behavior of most animals with the day to night cycle. A fundamental property of the molecular pacemakers generating circadian rhythms is their self-sustained nature: they keep oscillating even under constant conditions, with a period close to, but not exactly, 24 h. However, circadian pacemakers have to be sensitive to environmental cues to be beneficial. They need to be reset every day to keep a proper phase relationship with the day to night cycle, and they have to be able to adjust to seasonal changes in day length and temperature. Here, we review our current knowledge of the molecular and neural mechanisms contributing to the plasticity of Drosophila circadian rhythms, which are proving to be remarkably sophisticated and complex.

摘要

昼夜节律时钟使大多数动物的生理和行为与昼夜循环同步。产生昼夜节律的分子起搏器的一个基本特性是它们的自我维持性：即使在恒定条件下，它们也会持续振荡，周期接近但不完全是24小时。然而，昼夜节律起搏器必须对环境线索敏感才能发挥作用。它们需要每天重置，以与昼夜循环保持适当的相位关系，并且必须能够适应白昼长度和温度的季节性变化。在这里，我们回顾了我们目前对果蝇昼夜节律可塑性的分子和神经机制的了解，事实证明这些机制非常复杂。

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一个塑料时钟：果蝇的昼夜节律如何对环境线索做出反应。

A plastic clock: how circadian rhythms respond to environmental cues in Drosophila.

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