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拟南芥的同源异型盒基因ATK1在幼苗的茎尖以及成熟植株的花和花序茎中表达。

The homeobox gene ATK1 of Arabidopsis thaliana is expressed in the shoot apex of the seedling and in flowers and inflorescence stems of mature plants.

作者信息

Dockx J, Quaedvlieg N, Keultjes G, Kock P, Weisbeek P, Smeekens S

机构信息

Department of Molecular Cell Biology, University of Utrecht, The Netherlands.

出版信息

Plant Mol Biol. 1995 Jul;28(4):723-37. doi: 10.1007/BF00021196.

DOI:10.1007/BF00021196
PMID:7647303
Abstract

The homeodomain is a DNA-binding domain present in a large family of eukaryotic regulatory proteins. Homeodomain proteins have been shown to play key roles in controlling developmental programs in various organisms. Here we report the isolation and characterisation of a homeobox gene from Arabidopsis thaliana designated ATK1. The gene was isolated using as a probe the homeobox domain of the KN1 gene from maize. The homeodomain of ATK1 is highly homologous to the homeodomain of the KN1 gene of maize (81%) but shows only poor homology outside the homeodomain. Therefore ATK1 is probably not the Arabidopsis homologue of the KN1 gene from maize. It contains the four invariant amino acid residues present in the recognition helix 3 of all other homeodomain proteins. Outside the homeodomain a region rich in aspartate and glutamate residues is found suggesting that ATK1 is a transcriptional activator. The gene contains four introns which is similar in the KN1 gene of maize and the Osh1 gene of rice. Primer extension reveals the presence of two transcription initiation sites. The leader sequence of the genuine transcript is 342 nucleotides long and contains two upstream open reading frames. ATK1 is strongly expressed in the shoot apex of seedlings, while in mature plants the gene is primarily expressed in flowers and inflorescence stems. Such an expression pattern is reminiscent of that of the KN1 gene of maize and therefore ATK1 could similarly be involved in determining cell fate.

摘要

同源异型结构域是存在于一大类真核生物调节蛋白中的一种DNA结合结构域。已表明同源异型结构域蛋白在控制各种生物体的发育程序中起关键作用。在此,我们报告了从拟南芥中分离和鉴定的一个同源异型框基因,命名为ATK1。该基因是用玉米KN1基因的同源异型框结构域作为探针分离得到的。ATK1的同源异型结构域与玉米KN1基因的同源异型结构域高度同源(81%),但在同源异型结构域之外仅显示出较弱的同源性。因此,ATK1可能不是玉米KN1基因在拟南芥中的同源物。它包含所有其他同源异型结构域蛋白的识别螺旋3中存在的四个不变氨基酸残基。在同源异型结构域之外,发现了一个富含天冬氨酸和谷氨酸残基的区域,这表明ATK1是一种转录激活因子。该基因含有四个内含子,这与玉米的KN1基因和水稻的Osh1基因相似。引物延伸显示存在两个转录起始位点。真实转录本的前导序列长342个核苷酸,并且包含两个上游开放阅读框。ATK1在幼苗的茎尖中强烈表达,而在成熟植株中,该基因主要在花和花序茎中表达。这种表达模式让人联想到玉米KN1基因的表达模式,因此ATK1可能同样参与细胞命运的决定。

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The HAT4 gene of Arabidopsis encodes a developmental regulator.拟南芥的HAT4基因编码一种发育调节因子。
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An upstream open reading frame represses expression of Lc, a member of the R/B family of maize transcriptional activators.
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Evolution, diversification, and expression of KNOX proteins in plants.植物中KNOX蛋白的进化、多样化及表达
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10
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