通过脱落酸诱导的磷酸化作用使拟南芥 bHLH 转录因子单体化来抑制其功能。

Inhibition of the Arabidopsis bHLH transcription factor by monomerization through abscisic acid-induced phosphorylation.

机构信息

Department of Biology, Faculty of Sciences, Kyushu University, Fukuoka, 812-8581, Japan.

Division of Biological Science, Graduate School of Science, Nagoya University, Nagoya, 464-8602, Japan.

出版信息

Plant J. 2016 Sep;87(6):559-67. doi: 10.1111/tpj.13217. Epub 2016 Jul 19.

DOI:10.1111/tpj.13217

PMID:27227462

Abstract

We have demonstrated that the Arabidopsis basic helix-loop-helix (bHLH) transcription factor, ABA-responsive kinase substrate 1 (AKS1; also known as FLOWERING BHLH 3, FBH3), enhances K(+) channel expression in guard cells leading to stomatal opening. The expression is suppressed by ABA-induced phosphorylation of AKS1. Here we show that the phosphorylation results in the monomerization of AKS1 multimers and inhibits AKS1 binding to DNA. AKS1 forms homo-multimers which dissociate following phosphorylation. Replacement of a critical amino acid in the bHLH domain inhibited multimer formation and decreased the binding of AKS1 to DNA. The monomerization was elicited via phosphorylation at three serine residues, which is mediated by SNF1-related protein kinase 2.6 (SnRK2.6), in the vicinity of bHLH domain. Furthermore, ABA induced the phosphorylation-dependent release of AKS1 from DNA, thereby suppressing transcriptional activity in vivo. Our results document a mechanism that inhibits gene expression by phosphorylation of a bHLH transcription factor.

摘要

我们已经证明，拟南芥碱性螺旋-环-螺旋（bHLH）转录因子，ABA 响应激酶底物 1（AKS1；也称为开花 bHLH3，FBH3），通过增强保卫细胞中的 K+通道表达导致气孔开放。这种表达受到 ABA 诱导的 AKS1 磷酸化的抑制。在这里，我们表明磷酸化导致 AKS1 多聚体的单体化，并抑制 AKS1 与 DNA 的结合。AKS1 形成同源多聚体，磷酸化后会解离。在 bHLH 结构域中替换一个关键氨基酸会抑制多聚体形成并降低 AKS1 与 DNA 的结合。单体化是通过附近 bHLH 结构域中 SNF1 相关蛋白激酶 2.6（SnRK2.6）介导的三个丝氨酸残基的磷酸化引起的。此外，ABA 诱导 AKS1 从 DNA 上的磷酸化依赖性释放，从而抑制体内的转录活性。我们的研究结果记录了一种通过 bHLH 转录因子磷酸化抑制基因表达的机制。

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通过脱落酸诱导的磷酸化作用使拟南芥 bHLH 转录因子单体化来抑制其功能。

Inhibition of the Arabidopsis bHLH transcription factor by monomerization through abscisic acid-induced phosphorylation.

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