The circadian activity rhythm is reset by nanowatt pulses of ultraviolet light

机译：纳瓦级紫外线脉冲可重置昼夜活动节律

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摘要

The circadian pacemaker synchronizes to the Earth's rotation by tracking step-by-step changes in illumination that occur as the sun passes the horizon. While twilight progressions of irradiance and colour are considered important stimuli in this process, comparably less thought has been given to the possibility that ultraviolet A (UVA) radiation might actually play a more formative role given its evolutionary significance in shaping 24 h timekeeping. Here, we show that Drosophila activity rhythms can be phase-shifted by UVA light at an energy range seated well below that of the visible spectrum. Because the energy threshold for this resetting matches the incident amount of UVA on the human retina at twilight, our results suggest that UVA light has the potential to function as a similar time cue in people.

机译：昼夜节律起搏器通过跟踪太阳经过地平线时发生的照明的逐步变化，来与地球的自转同步。尽管在此过程中，照度和颜色的微弱变化被认为是重要的刺激因素，但鉴于紫外线A（UVA）辐射在塑造24小时计时方面的进化意义，因此相对较少地考虑了紫外线A（UVA）辐射实际上可能发挥更重要作用的可能性。在这里，我们显示了果蝇活动节律可以在远低于可见光谱的能量范围内被UVA光相移。由于此重置的能量阈值与黄昏时人体视网膜上UVA的入射量匹配，因此我们的结果表明UVA光具有在人体内充当类似时间提示的潜力。

著录项

期刊名称 Proceedings of the Royal Society B: Biological Sciences
作者
David C. Negelspach; Sevag Kaladchibachi; Fabian Fernandez;
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作者单位

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年(卷),期 2018(285),1884
年度 2018
页码 20181288
总页数 7
原文格式 PDF
正文语种
中图分类生物学;进化论、生物系统发育;
关键词
light circadian rhythms photostimulation ultraviolet;

机译：光;昼夜节律;节律;光刺激;紫外线;

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专利

1. The circadian activity rhythm is reset by nanowatt pulses of ultraviolet light [J] . Negelspach David C., Kaladchibachi Sevag, Fernandez Fabian Proceedings of the Royal Society. Biological sciences . 2018,第1884期

机译：昼夜活动节奏由紫外线的纳米缝脉冲重置
2. The circadian activity rhythm is reset by nanowatt pulses of ultraviolet light [J] . Negelspach David C., Kaladchibachi Sevag, Fernandez Fabian Proceedings of the Royal Society. Biological sciences . 2018,第1884期

机译：昼夜活动节奏由紫外线的纳米缝脉冲重置
3. Serotonin Increases the Phase Shift of the Circadian Locomotor Activity Rhythm in Mice after Dark Pulses in Constant Light Conditions [J] . Bartoszewicz Renata, Barbacka-Surowiak Grazyna Folia Biologica: A Quarterly Journal of Biological Research . 2007,第3a4期

机译：5-羟色胺增加了恒定光照条件下暗脉冲后小鼠昼夜运动活动节奏的相移
4. Light-induced resetting of circadian rhythms in humans [C] . J.J. Gooley International Symposium on the Science and Technology of Lighting . 2016

机译：浅色诱导人类昼夜节律的重置
5. Sleep /wake disruptions in forced early awakening of evening -type persons and resetting of their Circadian rhythms by dawn -simulated light treatment [D] . LaJambe, Cynthia Marie 2000

机译：通过黎明模拟的光疗，强迫晚上类型的人及早醒来的睡眠/苏醒干扰和恢复其昼夜节律
6. Resetting the circadian clock in cultured Xenopus eyecups: regulation of retinal melatonin rhythms by light and D2 dopamine receptors [O] . GM Cahill, JC Besharse 1991

机译：重置非洲爪蟾眼罩中的生物钟：通过光和D2多巴胺受体调节视网膜褪黑激素节律
7. Rapid Phase Resetting of a Mammalian Orcadian Rhythm by Brief Light Pulses [O] . Vijay Kumar Sharma, Maroli K. Chandrashekaren 1998

机译：通过简短的浅脉冲快速相位复位哺乳动物奥尔迪亚节奏
8. Circadian Activity Rhythm in the Horn Shark, 'Heterodontus francisci': Effect of Light Intensity. [R] . Finstad, W. O., Nelson, D. R. 1974

机译：角鲨中的昼夜节律活动，'Heterodontus francisci'：光强度的影响。

The circadian activity rhythm is reset by nanowatt pulses of ultraviolet light

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