Molecular control of circadian behavioral rhythms.

Recent progress in hormone research Pub Date : 1999-01-01

M W Young

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Abstract

Several genes have been recognized in Drosophila that regulate circadian rhythms. Homologues of these genes have now been found in mice and humans, suggesting a mechanism that is conserved throughout the animal kingdom. For some of these genes and their products, molecular oscillations are produced in certain cells of the Drosophila and mammalian brain. Two genes, period and timeless, are transcribed with a circadian rhythm that is regulated by activities derived from their encoded proteins, PER and TIM. Nuclear localization of these proteins downregulates per and tim transcription by suppressing the activities of two transcription factors, dCLOCK and dBMAL1. Cycles in this feedback regulation are promoted by events that regulate the accumulation, physical interaction, and nuclear translocation of PER and TIM proteins. PER and TIM must physically associate to enter the nucleus and their cytoplasmic interaction is delayed by a kinase encoded by the clock gene, double-time. This kinase directs PER phosphorylation, which leads to PER degradation. Effects of the kinase are blocked once PER is complexed to TIM. These interactions prolong the interval of per and tim transcription by ensuring that PER/TIM complexes from only after TIM has accumulated for several hours.

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昼夜行为节律的分子控制。

在果蝇中已经发现了几个调节昼夜节律的基因。这些基因的同源物现在已经在老鼠和人类身上被发现，这表明一种机制在整个动物界都是保守的。对于其中一些基因及其产物，果蝇和哺乳动物大脑的某些细胞会产生分子振荡。有两个基因，周期基因和永恒基因，其转录具有昼夜节律，受其编码蛋白PER和TIM的活动调节。这些蛋白的核定位通过抑制两个转录因子dCLOCK和dBMAL1的活性来下调per和tim的转录。这种反馈调节的周期是由调节PER和TIM蛋白的积累、物理相互作用和核易位的事件促进的。PER和TIM必须物理结合才能进入细胞核，它们的细胞质相互作用被时钟基因编码的激酶延迟，双时间。该激酶指导PER磷酸化，从而导致PER降解。一旦PER与TIM络合，激酶的作用就会被阻断。这些相互作用延长了per和tim的转录间隔，确保了per / tim复合体只在tim积累了几个小时之后才开始。

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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Recent progress in hormone research

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