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E3 连接酶的相互拮抗调控控制 ACC 合酶的稳定性和对应激的反应。

Reciprocal antagonistic regulation of E3 ligases controls ACC synthase stability and responses to stress.

机构信息

Department of Botany and Plant Pathology, Purdue University, West Lafayette, IN 47906.

The Center for Plant Biology, Purdue University, West Lafayette, IN 47906.

出版信息

Proc Natl Acad Sci U S A. 2021 Aug 24;118(34). doi: 10.1073/pnas.2011900118.

DOI:10.1073/pnas.2011900118
PMID:34404725
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8403943/
Abstract

Ethylene influences plant growth, development, and stress responses via crosstalk with other phytohormones; however, the underlying molecular mechanisms are still unclear. Here, we describe a mechanistic link between the brassinosteroid (BR) and ethylene biosynthesis, which regulates cellular protein homeostasis and stress responses. We demonstrate that as a scaffold, 1-aminocyclopropane-1-carboxylic acid (ACC) synthases (ACS), a rate-limiting enzyme in ethylene biosynthesis, promote the interaction between Seven-in-Absentia of (SINAT), a RING-domain containing E3 ligase involved in stress response, and ETHYLENE OVERPRODUCER 1 (ETO1) and ETO1-like (EOL) proteins, the E3 ligase adaptors that target a subset of ACS isoforms. Each E3 ligase promotes the degradation of the other, and this reciprocally antagonistic interaction affects the protein stability of ACS. Furthermore, 14-3-3, a phosphoprotein-binding protein, interacts with SINAT in a BR-dependent manner, thus activating reciprocal degradation. Disrupted reciprocal degradation between the E3 ligases compromises the survival of plants in carbon-deficient conditions. Our study reveals a mechanism by which plants respond to stress by modulating the homeostasis of ACS and its cognate E3 ligases.

摘要

乙烯通过与其他植物激素的串扰影响植物的生长、发育和应激反应;然而,其潜在的分子机制尚不清楚。在这里,我们描述了油菜素内酯(BR)和乙烯生物合成之间的一种机制联系,该联系调节细胞蛋白稳态和应激反应。我们证明,作为支架,乙烯生物合成的限速酶 1-氨基环丙烷-1-羧酸(ACC)合酶(ACS)促进了参与应激反应的 RING 结构域包含 E3 连接酶 Seven-in-Absentia 的(SINAT)与 ETHYLENE OVERPRODUCER 1(ETO1)和 ETO1 样(EOL)蛋白之间的相互作用,E3 连接酶衔接子靶向 ACS 同工型的亚组。每个 E3 连接酶促进另一个的降解,这种相互拮抗的相互作用影响 ACS 的蛋白稳定性。此外,磷蛋白结合蛋白 14-3-3 以 BR 依赖的方式与 SINAT 相互作用,从而激活相互降解。E3 连接酶之间的相互降解受损会影响植物在碳缺乏条件下的存活。我们的研究揭示了植物通过调节 ACS 及其同源 E3 连接酶的稳态来应对应激的机制。

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