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拟南芥ABI3 对 ABA 响应的 Em 启动子的调控:ABA 反应元件和 RY 元件的作用。

Regulation of the ABA-responsive Em promoter by ABI3 in the moss Physcomitrella patens: role of the ABA response element and the RY element.

机构信息

Department of BioScience, Tokyo University of Agriculture, Tokyo Japan.

出版信息

Plant Signal Behav. 2010 Sep;5(9):1061-6. doi: 10.4161/psb.5.9.11774. Epub 2010 Sep 1.

DOI:10.4161/psb.5.9.11774
PMID:20448474
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3115069/
Abstract

The plant-specific transcription factor ABSCISIC ACID INSENSITIVE3 (ABI3) or the maize ortholog VIVIPAROUS1 (VP1) is known to regulate seed maturation and germination in concert with the phytohormone abscisic acid (ABA) but is also evolutionarily conserved among land plants including non-seed plants. An ABI3/VP1 ortholog (PpABI3A) from the moss Physcomitrella patens can activate ABA-responsive gene promoters in the moss and angiosperms; however, it failed to fully complement the phenotypes of the Arabidopsis abi3-6 mutant, suggesting that some aspects of ABI3/VP1 functions have diverged during the evolution of land plants. To gain insights into the evolution of ABI3/VP1 function, we performed a comparative analysis of the regulatory elements required for ABI3 activation in Physcomitrella using a wheat Em gene promoter, which is induced by ABA and ABI3/VP1 both in Physcomitrella and in angiosperms. Elimination of either the ACGT core motif in the ABA response element (ABRE) or the RY element, to which ABI3/VP1 binds directly, resulted in a drastic reduction of the ABA response in Physcomitrella. Arabidopsis ABI3 could effectively activate the Em promoter either in an ABRE- or RY-dependent manner, as observed in angiosperms. On the other hand, PpABI3A failed to activate an Em promoter lacking the RY element but not the ABRE. These results suggest that RY-mediated transcriptional regulation of ABI3/VP1 is evolutionarily conserved between the moss and angiosperms, whereas angiosperm ABI3/VP1 has evolved to activate ABA-inducible promoters via the ABRE sequence independently from the RY element.

摘要

植物特异性转录因子脱落酸不敏感 3(ABI3)或玉米同源物胎生 1(VP1)已知与植物激素脱落酸(ABA)一起调节种子成熟和萌发,但在包括非种子植物在内的陆地植物中也具有进化保守性。来自苔藓Physcomitrella patens 的 ABI3/VP1 同源物(PpABI3A)可以激活苔藓和被子植物中 ABA 响应基因启动子;然而,它未能完全补充拟南芥 abi3-6 突变体的表型,这表明 ABI3/VP1 功能的某些方面在陆地植物的进化过程中已经发生了分歧。为了深入了解 ABI3/VP1 功能的进化,我们使用小麦 Em 基因启动子在 Physcomitrella 中对激活 ABI3 所需的调节元件进行了比较分析,该启动子被 ABA 和 ABI3/VP1 在 Physcomitrella 和被子植物中诱导。在 ABA 反应元件(ABRE)中消除 ACGT 核心基序或 ABI3/VP1 直接结合的 RY 元件会导致 Physcomitrella 中 ABA 反应的急剧减少。拟南芥 ABI3 可以有效地以 ABRE 或 RY 依赖的方式激活 Em 启动子,正如在被子植物中观察到的那样。另一方面,PpABI3A 无法激活缺乏 RY 元件但不缺乏 ABRE 的 Em 启动子。这些结果表明,RY 介导的 ABI3/VP1 转录调节在苔藓和被子植物之间具有进化保守性,而被子植物 ABI3/VP1 已经进化为通过 ABRE 序列而不是 RY 元件激活 ABA 诱导的启动子。

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本文引用的文献

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The B2 domain of VIVIPAROUS1 is bi-functional and regulates nuclear localization and transactivation.脱落酸不敏感蛋白1的B2结构域具有双重功能,可调节核定位和反式激活。
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Plant J. 2006 Jun;46(6):1032-44. doi: 10.1111/j.1365-313X.2006.02764.x.
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