玉米转录因子不透明2在植物和酵母细胞中激活小麦谷蛋白启动子。

The maize transcription factor Opaque-2 activates a wheat glutenin promoter in plant and yeast cells.

作者信息

Holdsworth M J, Muñoz-Blanco J, Hammond-Kosack M, Colot V, Schuch W, Bevan M W

机构信息

Molecular Genetics Department, John Innes Centre, Norwich, UK.

出版信息

Plant Mol Biol. 1995 Nov;29(4):711-20. doi: 10.1007/BF00041162.

DOI:10.1007/BF00041162

PMID:8541498

Abstract

The promoter of the wheat low-molecular-weight glutenin (LMWG1D1) gene contains a cis element called the GCN4 like motif (GLM) which has low homology to one class of binding site for the maize endosperm-specific b-ZIP transcription factor Opaque-2 (O2). Previous work has shown that the GLM element interacts with the nuclear factor ESBFII during wheat endosperm development at the time of maximum transcription of the LMWG1D1 gene. In this paper we demonstrate that O2 binds to the GLM element and can activate high levels of transcription from the wheat GLM in transient assays in plant protoplasts and in yeast cells. Lower levels of O2 activation through the GLM element in yeast containing a defective GCN4 gene showed that GCN4 was necessary for high levels of O2 transcriptional activation, indicating that O2 may need to heterodimerise with GCN4 to activate transcription in yeast. These observations provide evidence that the GLM represents a new type of O2 DNA-binding site, and support a postulate that an O2 homologue may activate endosperm-specific expression of wheat storage protein genes.

摘要

小麦低分子量麦谷蛋白（LMWG1D1）基因的启动子含有一个名为GCN4类基序（GLM）的顺式元件，该元件与玉米胚乳特异性b-ZIP转录因子不透明-2（O2）的一类结合位点具有低同源性。先前的研究表明，在LMWG1D1基因转录量最高时的小麦胚乳发育过程中，GLM元件与核因子ESBFII相互作用。在本文中，我们证明O2能与GLM元件结合，并在植物原生质体和酵母细胞的瞬时试验中激活来自小麦GLM的高水平转录。在含有缺陷GCN4基因的酵母中，通过GLM元件的O2激活水平较低，这表明GCN4是高水平O2转录激活所必需的，这表明O2可能需要与GCN4异源二聚化才能在酵母中激活转录。这些观察结果提供了证据，表明GLM代表一种新型的O2 DNA结合位点，并支持一种假设，即O2同源物可能激活小麦贮藏蛋白基因的胚乳特异性表达。

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玉米转录因子不透明2在植物和酵母细胞中激活小麦谷蛋白启动子。

The maize transcription factor Opaque-2 activates a wheat glutenin promoter in plant and yeast cells.

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