洞穴鱼的时间生物学研究述评。

IF 2.1 Q3 CLINICAL NEUROLOGY
Vera V Pavlova, Viacheslav V Krylov
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引用次数: 1

摘要

洞穴鱼是一种脊椎动物,生活在极端的地下环境中,没有光线,温度变化,食物有限。这些鱼的昼夜节律在自然栖息地受到抑制。然而,它们可以在人工明暗循环和其他授时细胞中找到。洞穴鱼的分子生物钟有其独特之处。在Astyanax mexicanus中,由于光输入途径的过度激活,核心时钟机制在洞穴中被强直性抑制。在更古老的比目鱼和ruzzii中发现,缺乏功能性的光输入途径,而是通过定时摄食介导了昼夜节律基因的表达。在分子昼夜节律振荡器的功能中,不同的进化决定的不规则性可以预期在其他洞穴鱼类中。某些物种的独特性质是地表和洞穴形式的存在。由于易于维护和繁殖,洞穴鱼成为时间生物学研究的一个有希望的模型。与此同时,洞穴鱼种群之间昼夜节律系统的差异需要在进一步的研究中指出起源菌株。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Cavefishes in Chronobiological Research: A Narrative Review.

Cavefishes in Chronobiological Research: A Narrative Review.

Cavefish are vertebrates living in extreme subterranean environments with no light, temperature changes, and limited food. Circadian rhythms in these fish are suppressed in natural habitats. However, they can be found in artificial light-dark cycles and other zeitgebers. The molecular circadian clock has its peculiarities in cavefish. In Astyanax mexicanus, the core clock mechanism is tonically repressed in the caves due to the overactivation of the light input pathway. A lack of functional light input pathway but rather the entrainment of circadian genes' expression by scheduled feeding were revealed in more ancient Phreatichthys andruzzii. Different evolutionarily determined irregularities in the functioning of molecular circadian oscillators can be expected in other cavefish. The unique property of some species is the existence of surface and cave forms. Along with the ease of maintenance and breeding, it made cavefish a promising model for chronobiological studies. At the same time, a divergence of the circadian system between cavefish populations requires the strain of origin to be indicated in further research.

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来源期刊
Clocks & Sleep
Clocks & Sleep Multiple-
CiteScore
4.40
自引率
0.00%
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审稿时长
7 weeks
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