How does melatonin control seasonal reproductive cycles?

Reproduction, nutrition, developpement Pub Date : 1988-01-01 DOI:10.1051/rnd:19880305

J Arendt, A M Symons, J English, A L Poulton, I Tobler

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引用次数: 29

Abstract

The pineal gland is essential for the perception of photoperiod change in many species. Information about photoperiod length is conveyed through pineal secretion of the methoxyindole melatonin. Melatonin, suitably administered in physiological quantities is equipotent with artificial photoperiod in the induction of photoperiodic responses. Most experimental work suggests that it is the duration of high night time melatonin secretion (positively correlated with the length of the natural or artificial dark phase) which conveys the photoperiodic signal. Continuous release implants induce short day effects in ewes, entirely comparable to daily feeding of melatonin or short photoperiod. A minimum duration of secretion rather than a specific duration is therefore probably critical to short day effects. There appears to be a seasonal variation in sensitivity to short day melatonin effects (induction of early oestrus) which can be shifted to an earlier time of year following one oestrus advance the previous year. Short duration melatonin is read as a long day even secreted with 22 hour periodicity, suggesting a lack of circadian variation in sensitivity to melatonin.

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褪黑素如何控制季节性生殖周期?

松果体对许多物种的光周期变化的感知是必不可少的。关于光周期长度的信息是通过松果体分泌甲氧基吲哚褪黑素来传递的。褪黑素，适当地给予生理数量，在诱导光周期反应与人工光周期是等效的。大多数实验工作表明，传递光周期信号的是高夜间褪黑激素分泌的持续时间(与自然或人工暗相的长度呈正相关)。连续释放植入物在母羊中诱导短日效应，完全可与每日喂食褪黑素或短光周期相媲美。因此，最短的分泌时间而不是特定的持续时间可能对短日效应至关重要。对短日褪黑激素效应的敏感性似乎有季节性变化(诱导早发情)，这可以在前一年提前一次发情后转移到一年中的较早时间。短时间褪黑素被解读为漫长的一天，甚至以22小时的周期分泌，这表明对褪黑素的敏感性缺乏昼夜变化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Reproduction, nutrition, developpement

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