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napA启动子中复合元件之间的相互作用:B-box ABA应答复合体和RY/G复合体对于种子特异性表达均是必需的。

Interaction between composite elements in the napA promoter: both the B-box ABA-responsive complex and the RY/G complex are necessary for seed-specific expression.

作者信息

Ezcurra I, Ellerström M, Wycliffe P, Stålberg K, Rask L

机构信息

Department of Plant Biology, Swedish University of Agricultural Sciences, Uppsala.

出版信息

Plant Mol Biol. 1999 Jul;40(4):699-709. doi: 10.1023/a:1006206124512.

DOI:10.1023/a:1006206124512
PMID:10480393
Abstract

During seed maturation, the transcriptional activity of napin genes is regulated by developmental signals involving the transcriptional activator ABI3 and abscisic acid (ABA). To localize cis elements involved in the seed-specific activity of the napin napA promoter, a systematic analysis was performed focusing on two major element complexes, the B-box and RY/G. Substitution mutation analysis using promoter-reporter gene fusions in stable transgenic tobacco showed synergistic interactions between elements within these complexes. The distal part of the B-box shows similarities to abscisic acid response elements and the proximal portion contains a CA-rich element. In vitro studies involving Exonuclease III protection and electrophoretic mobility shift assays revealed binding by nuclear proteins to elements within the B-box. The distal and proximal parts of the B-box were found to bind distinct nuclear protein complexes. By gain-of-function analysis with a tetramer of the B-box fused to a truncated (-46) cauliflower mosaic virus (CaMV) 35S minimal promoter, it was demonstrated that the B-box mediates strong activity in seeds. Further, it was shown that the elements in the B-box constitute an ABA-responsive complex, since the B-box tetramer mediates ABA-responsiveness in vegetative tissues to a construct containing the CaMV virus 35S enhancer (-343 to -90). Thus, the seed-specific activity of the napA promoter relies on the combinatorial interaction between the RY/G complex and the B-box ABA-responsive complex during the ABA response in seed development.

摘要

在种子成熟过程中,napin基因的转录活性受发育信号调控,这些信号涉及转录激活因子ABI3和脱落酸(ABA)。为了定位napin napA启动子种子特异性活性所涉及的顺式元件,针对两个主要元件复合体B-box和RY/G进行了系统分析。利用稳定转基因烟草中的启动子-报告基因融合体进行的替代突变分析显示,这些复合体内的元件之间存在协同相互作用。B-box的远端部分与脱落酸反应元件相似,近端部分含有富含CA的元件。涉及核酸外切酶III保护和电泳迁移率变动分析的体外研究揭示了核蛋白与B-box内元件的结合。发现B-box的远端和近端部分结合不同的核蛋白复合体。通过将B-box四聚体与截短的(-46)花椰菜花叶病毒(CaMV)35S最小启动子融合进行功能获得分析,证明B-box介导种子中的强活性。此外,还表明B-box中的元件构成一个ABA反应复合体,因为B-box四聚体介导营养组织中对含有CaMV病毒35S增强子(-343至-90)的构建体的ABA反应。因此,napA启动子的种子特异性活性依赖于种子发育过程中ABA反应期间RY/G复合体与B-box ABA反应复合体之间的组合相互作用。

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