拟南芥中特定阶段的生物钟调节元件。

Phase-specific circadian clock regulatory elements in Arabidopsis.

作者信息

Michael Todd P, McClung C Robertson

机构信息

Department of Biological Sciences, Dartmouth College, Hanover, NH 03755, USA.

出版信息

Plant Physiol. 2002 Oct;130(2):627-38. doi: 10.1104/pp.004929.

DOI:10.1104/pp.004929

PMID:12376630

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC166592/

Abstract

We have defined a minimal Arabidopsis CATALASE 3 (CAT3) promoter sufficient to drive evening-specific circadian transcription of a LUCIFERASE reporter gene. Deletion analysis and site-directed mutagenesis reveal a circadian response element, the evening element (EE: AAAATATCT), that is necessary for evening-specific transcription. The EE differs only by a single base pair from the CIRCADIAN CLOCK ASSOCIATED 1-binding site (CBS: AAAAAATCT), which is important for morning-specific transcription. We tested the hypothesis that the EE and the CBS specify circadian phase by site-directed mutagenesis to convert the CAT3 EE into a CBS. Changing the CAT3 EE to a CBS changes the phase of peak transcription from the evening to the morning in continuous dark and in light-dark cycles, consistent with the specification of phase by the single base pair that distinguishes these elements. However, rhythmicity of the CBS-containing CAT3 promoter is dramatically compromised in continuous light. Thus, we conclude that additional information normally provided in the context of a morning-specific promoter is necessary for full circadian activity of the CBS.

摘要

我们已经定义了一个最小的拟南芥过氧化氢酶3（CAT3）启动子，它足以驱动荧光素酶报告基因在傍晚特异性的昼夜节律转录。缺失分析和定点诱变揭示了一个昼夜节律响应元件，即傍晚元件（EE：AAAATATCT），它是傍晚特异性转录所必需的。EE与昼夜节律相关1结合位点（CBS：AAAAAATCT）仅相差一个碱基对，而CBS对早晨特异性转录很重要。我们通过定点诱变将CAT3 EE转化为CBS，来检验EE和CBS决定昼夜节律相位的假说。在持续黑暗和明暗循环条件下，将CAT3 EE改变为CBS会使转录峰值的相位从傍晚转变为早晨，这与区分这些元件的单个碱基对决定相位的情况一致。然而，在持续光照条件下，含有CBS的CAT3启动子的节律性会受到显著影响。因此，我们得出结论，对于CBS的完整昼夜节律活性而言，通常在早晨特异性启动子背景下提供的额外信息是必要的。

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