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光与脱落酸在植物基因表达调控中的相互作用。

The interaction of light and abscisic acid in the regulation of plant gene expression.

作者信息

Weatherwax S C, Ong M S, Degenhardt J, Bray E A, Tobin E M

机构信息

University of California, Los Angeles 90095-1606, USA.

出版信息

Plant Physiol. 1996 Jun;111(2):363-70. doi: 10.1104/pp.111.2.363.

DOI:10.1104/pp.111.2.363
PMID:8787022
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC157845/
Abstract

Extended dark treatments of light-grown plants of both Lemna gibba and Arabidopsis thaliana resulted in substantial increases in abscisic acid (ABA) concentrations. The concentration of ABA could be negatively regulated by phytochrome action in Lemna. As has been noted in other species, ABA treatment reduced Lemna rbcS and Lhcb RNA levels, which are positively regulated by phytochrome in many species. In view of these observations, the possibility that phytochrome effects on gene expression may be mediated primarily by changes in ABA was tested using a transient assay in intact plants. The phytochrome responsiveness of the Lemna Lhcb21 promoter was still apparent in the presence of exogenous ABA. Additionally, when 2-bp mutations were introduced into this promoter so that phytochrome responsiveness was lost, a response to exogenous ABA was still present. We conclude that phytochrome- and ABA-response elements are separable in the Lhcb21 promoter. We tested whether the effects of ABA on RNA abundance could be inhibited by treatment with gibberellin and found no evidence for such an inhibition. We have also found that the ABA-responsive Em promoter of wheat can be negatively regulated by phytochrome action. It is likely that this regulation is mediated at least in part by phytochrome-induced changes in ABA levels. Our results demonstrate that it is essential to take into account that dark treatments and the phytochrome system can affect ABA levels when interpreting studies of light-regulated genes.

摘要

对浮萍(Lemna gibba)和拟南芥(Arabidopsis thaliana)的光生植物进行延长黑暗处理,导致脱落酸(ABA)浓度大幅增加。在浮萍中,ABA浓度可能受光敏色素作用负调控。正如在其他物种中所观察到的,ABA处理降低了浮萍rbcS和Lhcb RNA水平,而在许多物种中这些水平受光敏色素正调控。鉴于这些观察结果,利用完整植物中的瞬时分析方法,测试了光敏色素对基因表达的影响可能主要由ABA变化介导的可能性。在外源ABA存在的情况下,浮萍Lhcb21启动子的光敏色素反应性仍然明显。此外,当在该启动子中引入2个碱基对突变以使光敏色素反应性丧失时,对外源ABA的反应仍然存在。我们得出结论,在Lhcb21启动子中,光敏色素反应元件和ABA反应元件是可分离的。我们测试了赤霉素处理是否能抑制ABA对RNA丰度的影响,未发现这种抑制的证据。我们还发现,小麦的ABA反应性Em启动子可受光敏色素作用负调控。这种调控可能至少部分是由光敏色素诱导的ABA水平变化介导的。我们的结果表明,在解释光调控基因的研究时,必须考虑到黑暗处理和光敏色素系统会影响ABA水平。

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Isolation and Characterization of Three Genes Negatively Regulated by Phytochrome Action in Lemna gibba.拟南芥光敏色素作用负调控的三个基因的分离和鉴定。
Plant Physiol. 1991 Aug;96(4):1237-45. doi: 10.1104/pp.96.4.1237.
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Abscisic Acid Control of rbcS and cab Transcription in Tomato Leaves.脱落酸对番茄叶片中rbcS和cab转录的调控
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Regulation by ABA of beta-Conglycinin Expression in Cultured Developing Soybean Cotyledons.ABA 对培养的发育中的大豆子叶中 β-伴大豆球蛋白表达的调控。
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cis-Acting Elements for Light Regulation of Pea Ferredoxin I Gene Expression Are Located within Transcribed Sequences.豌豆铁氧还蛋白I基因表达光调控的顺式作用元件位于转录序列内。
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