磁波动调节斑马鱼运动活动的昼夜节律：隐花色素会参与其中吗？

Magnetic Fluctuations Entrain the Circadian Rhythm of Locomotor Activity in Zebrafish: Can Cryptochrome Be Involved?

作者信息

Krylov Viacheslav V, Izvekov Evgeny I, Pavlova Vera V, Pankova Natalia A, Osipova Elena A

机构信息

Papanin Institute for Biology of Inland Waters, Russian Academy of Sciences, 152742 Borok, Russia.

Scientific and Technological Center of Unique Instrumentation, Russian Academy of Sciences, 117342 Moscow, Russia.

出版信息

Biology (Basel). 2022 Apr 13;11(4):591. doi: 10.3390/biology11040591.

DOI:10.3390/biology11040591

PMID:35453790

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9025847/

Abstract

In the 1960s, it was hypothesized that slow magnetic fluctuations could be a secondary zeitgeber for biological circadian rhythms. However, no comprehensive experimental research has been carried out to test the entrainment of free-running circadian rhythms by this zeitgeber. We studied the circadian patterns of the locomotor activity of zebrafish () under different combinations of light regimes and slow magnetic fluctuations, based on a record of natural geomagnetic variation. A rapid synchronization of activity rhythms to an unusual 24:12 light/dark cycle was found under magnetic fluctuations with a period of 36 h. Under constant illumination, significant locomotor activity rhythms with 26.17 h and 33.07 h periods were registered in zebrafish exposed to magnetic fluctuations of 26.8 h and 33.76 h, respectively. The results reveal the potential of magnetic fluctuations for entrainment of circadian rhythms in zebrafish and genuine prospects to manipulate circadian oscillators via magnetic fields. The putative mechanisms responsible for the entrainment are discussed, including the possible role of cryptochromes.

摘要

在20世纪60年代，有人提出慢磁波动可能是生物昼夜节律的次级授时因子。然而，尚未开展全面的实验研究来测试这种授时因子对自由运行的昼夜节律的调节作用。基于自然地磁变化记录，我们研究了斑马鱼在不同光照条件和慢磁波动组合下的运动活动昼夜模式。在周期为36小时的磁波动下，发现活动节律能快速同步到异常的24:12光/暗周期。在持续光照条件下，暴露于周期为26.8小时和33.76小时磁波动的斑马鱼分别记录到了周期为26.17小时和33.07小时的显著运动活动节律。结果揭示了磁波动调节斑马鱼昼夜节律的潜力以及通过磁场操纵昼夜振荡器的实际前景。文中讨论了负责调节的假定机制，包括隐花色素可能发挥的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f1de/9025847/3659c87c38cf/biology-11-00591-g001.jpg

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磁波动调节斑马鱼运动活动的昼夜节律：隐花色素会参与其中吗？

Magnetic Fluctuations Entrain the Circadian Rhythm of Locomotor Activity in Zebrafish: Can Cryptochrome Be Involved?

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