内心的四季:光周期诱导和编码的理论视角。

IF 1.9 4区 心理学 Q3 BEHAVIORAL SCIENCES
Christoph Schmal
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引用次数: 0

摘要

昼夜节律钟是一种内部计时装置,是为了适应自然界无处不在的 24 小时日照强度节律而进化而来的。昼夜节律系统的特性与光周期有关。昼夜节律的阶段随季节而变化。哺乳动物昼夜节律核心起搏器中的可塑性光周期依赖性重新排列产生了季节的内部表征。昼夜节律钟的输出通路调节光周期反应,如植物的开花时间或哺乳动物的冬眠。在此,我们回顾了季节诱导和光周期编码的概念。我们引入概念相位振荡器模型,因为它们的抽象程度较高,但对基本参数的直观解释允许对决定夹带特征的原理进行直接分析。这类模型的结果与更复杂的概念振幅-相位振荡器以及考虑到生物体、组织和细胞类型特异性细节的背景分子模型相关,并在此背景下进行了讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The seasons within: a theoretical perspective on photoperiodic entrainment and encoding.

The seasons within: a theoretical perspective on photoperiodic entrainment and encoding.

Circadian clocks are internal timing devices that have evolved as an adaption to the omnipresent natural 24 h rhythmicity of daylight intensity. Properties of the circadian system are photoperiod dependent. The phase of entrainment varies systematically with season. Plastic photoperiod-dependent re-arrangements in the mammalian circadian core pacemaker yield an internal representation of season. Output pathways of the circadian clock regulate photoperiodic responses such as flowering time in plants or hibernation in mammals. Here, we review the concepts of seasonal entrainment and photoperiodic encoding. We introduce conceptual phase oscillator models as their high level of abstraction, but, yet, intuitive interpretation of underlying parameters allows for a straightforward analysis of principles that determine entrainment characteristics. Results from this class of models are related and discussed in the context of more complex conceptual amplitude-phase oscillators as well as contextual molecular models that take into account organism, tissue, and cell-type-specific details.

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来源期刊
CiteScore
4.80
自引率
14.30%
发文量
67
审稿时长
1 months
期刊介绍: The Journal of Comparative Physiology A welcomes original articles, short reviews, and short communications in the following fields: - Neurobiology and neuroethology - Sensory physiology and ecology - Physiological and hormonal basis of behavior - Communication, orientation, and locomotion - Functional imaging and neuroanatomy Contributions should add to our understanding of mechanisms and not be purely descriptive. The level of organization addressed may be organismic, cellular, or molecular. Colour figures are free in print and online.
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