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START 结构域介导拟南芥 GLABRA2 二聚化和周转,而不依赖于同源域 DNA 结合。

The START domain mediates Arabidopsis GLABRA2 dimerization and turnover independently of homeodomain DNA binding.

机构信息

Division of Biology, Kansas State University, Manhattan, Kansas 66506, USA.

Molecular, Cellular and Developmental Biology, Kansas State University, Manhattan, Kansas 66506, USA.

出版信息

Plant Physiol. 2022 Nov 28;190(4):2315-2334. doi: 10.1093/plphys/kiac383.

DOI:10.1093/plphys/kiac383
PMID:35984304
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9706451/
Abstract

Class IV homeodomain leucine-zipper transcription factors (HD-Zip IV TFs) are key regulators of epidermal differentiation that are characterized by a DNA-binding HD in conjunction with a lipid-binding domain termed steroidogenic acute regulatory-related lipid transfer (START). Previous work established that the START domain of GLABRA2 (GL2), a HD-Zip IV member from Arabidopsis (Arabidopsis thaliana), is required for TF activity. Here, we addressed the functions and possible interactions of START and the HD in DNA binding, dimerization, and protein turnover. Deletion analysis of the HD and missense mutations of a conserved lysine (K146) resulted in phenotypic defects in leaf trichomes, root hairs, and seed mucilage, similar to those observed for START domain mutants, despite nuclear localization of the respective proteins. In vitro and in vivo experiments demonstrated that while HD mutations impair binding to target DNA, the START domain is dispensable for DNA binding. Vice versa, protein interaction assays revealed impaired GL2 dimerization for multiple alleles of START mutants, but not HD mutants. Using in vivo cycloheximide chase experiments, we provided evidence for the role of START, but not HD, in maintaining protein stability. This work advances our mechanistic understanding of HD-Zip TFs as multidomain regulators of epidermal development in plants.

摘要

IV 类同源结构域亮氨酸拉链转录因子(HD-Zip IV TFs)是表皮分化的关键调节因子,其特征是 DNA 结合结构域 HD 与脂质结合结构域类固醇急性调节相关脂质转移(START)。先前的工作确定了拟南芥(Arabidopsis thaliana)HD-Zip IV 成员 GLABRA2(GL2)的 START 结构域对于 TF 活性是必需的。在这里,我们研究了 START 和 HD 在 DNA 结合、二聚化和蛋白质周转中的功能和可能的相互作用。HD 的缺失分析和保守赖氨酸(K146)的错义突变导致叶片毛状体、根毛和种子粘液的表型缺陷,与 START 结构域突变体观察到的表型缺陷相似,尽管各自的蛋白质仍定位于核内。体外和体内实验表明,虽然 HD 突变会损害与靶 DNA 的结合,但 START 结构域对于 DNA 结合是可有可无的。相反,蛋白质相互作用分析显示,多个 START 突变体的等位基因的 GL2 二聚化受损,但 HD 突变体没有。通过体内环己酰亚胺追踪实验,我们提供了 START 而不是 HD 在维持蛋白质稳定性中的作用的证据。这项工作推进了我们对 HD-Zip TFs 作为植物表皮发育的多结构域调节因子的机制理解。

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