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bZIP型转录因子HBP-1a(17)碱性区域中保守的丝氨酸残基:在DNA结合中的重要性及磷酸化的可能靶点

Conserved Ser residues in the basic region of the bZIP-type transcription factor HBP-1a(17): importance in DNA binding and possible targets for phosphorylation.

作者信息

Meshi T, Moda I, Minami M, Okanami M, Iwabuchi M

机构信息

Department of Botany, Graduate School of Science, Kyoto University, Japan.

出版信息

Plant Mol Biol. 1998 Jan;36(1):125-36. doi: 10.1023/a:1005934332530.

DOI:10.1023/a:1005934332530
PMID:9484468
Abstract

HBP-1a(17) is representative of a group of plant bZIP-type transcription factors which includes HBP-1a proteins and G-box-binding factors. We found kinase activity in wheat nuclear extract that phosphorylated HBP-1a(17). Experiments using recombinant HBP-1a(17) derivatives as substrates revealed that all three of the Ser residues in the basic region, Ser-261, Ser-265, and Ser-269, were phosphorylated in a Ca(2+)-stimulated manner. DNA-binding analysis of mutants with a Ser-to-Glu change, prepared to mimic the phosphorylated proteins, indicated that introduction of a negative charge at position 265 or 269 prevents HBP-1a(17) from binding DNA not only in the homodimer of mutants but also in heterodimers with a wild-type protein. It is therefore suggested that the phosphorylation regulates the function of HBP-1a(17) at least at the level of DNA binding. Since Ser-265 and Ser-269 are highly conserved among the plant bZIP-type factors known to date, a common Ca(2+)-mediated regulatory mechanism may exert an effect on the bZIP-type factors through phosphorylation of these conserved Ser residues.

摘要

HBP-1a(17)是一组植物bZIP型转录因子的代表,该组包括HBP-1a蛋白和G盒结合因子。我们在小麦核提取物中发现了能使HBP-1a(17)磷酸化的激酶活性。以重组HBP-1a(17)衍生物为底物的实验表明,碱性区域的所有三个丝氨酸残基,即Ser-261、Ser-265和Ser-269,均以钙(2+)刺激的方式被磷酸化。对模拟磷酸化蛋白而制备的丝氨酸突变为谷氨酸的突变体进行的DNA结合分析表明,在位置265或269引入负电荷不仅会阻止HBP-1a(17)在突变体同二聚体中结合DNA,还会阻止其在与野生型蛋白形成的异二聚体中结合DNA。因此,有人提出磷酸化至少在DNA结合水平上调节HBP-1a(17)的功能。由于Ser-265和Ser-269在迄今已知的植物bZIP型因子中高度保守,一种常见的钙(2+)介导的调节机制可能通过这些保守丝氨酸残基的磷酸化对bZIP型因子产生影响。

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