AGC 激酶和 MAB4/MEL 蛋白通过限制植物细胞中的侧向扩散来维持 PIN 极性。

AGC kinases and MAB4/MEL proteins maintain PIN polarity by limiting lateral diffusion in plant cells.

机构信息

Institute of Science and Technology Austria (IST Austria), 3400 Klosterneuburg, Austria; Department of Experimental Plant Biology, Faculty of Science, Charles University, 12844 Prague, Czechia; Department of Plant Biotechnology and Bioinformatics, Ghent University, 9052 Ghent, Belgium; VIB Center for Plant Systems Biology, 9052 Ghent, Belgium.

Plant Developmental Genetics, Institute of Biology Leiden, Leiden University, 2333 BE Leiden, the Netherlands; Plant Ecophysiology, Institute of Environmental Biology, Utrecht University, 3584 CH Utrecht, the Netherlands.

出版信息

Curr Biol. 2021 May 10;31(9):1918-1930.e5. doi: 10.1016/j.cub.2021.02.028. Epub 2021 Mar 10.

DOI:10.1016/j.cub.2021.02.028

PMID:33705718

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8112251/

Abstract

Polar subcellular localization of the PIN exporters of the phytohormone auxin is a key determinant of directional, intercellular auxin transport and thus a central topic of both plant cell and developmental biology. Arabidopsis mutants lacking PID, a kinase that phosphorylates PINs, or the MAB4/MEL proteins of unknown molecular function display PIN polarity defects and phenocopy pin mutants, but mechanistic insights into how these factors convey PIN polarity are missing. Here, by combining protein biochemistry with quantitative live-cell imaging, we demonstrate that PINs, MAB4/MELs, and AGC kinases interact in the same complex at the plasma membrane. MAB4/MELs are recruited to the plasma membrane by the PINs and in concert with the AGC kinases maintain PIN polarity through limiting lateral diffusion-based escape of PINs from the polar domain. The PIN-MAB4/MEL-PID protein complex has self-reinforcing properties thanks to positive feedback between AGC kinase-mediated PIN phosphorylation and MAB4/MEL recruitment. We thus uncover the molecular mechanism by which AGC kinases and MAB4/MEL proteins regulate PIN localization and plant development.

摘要

质体定位的 PIN 外排泵是植物激素生长素的关键决定因素，决定了生长素的定向、细胞间运输，因此是植物细胞和发育生物学的核心主题。拟南芥突变体缺乏 PID，一种磷酸化 PIN 的激酶，或 MAB4/MEL 蛋白，具有未知的分子功能，表现出 PIN 极性缺陷，并与 pin 突变体表型相似，但这些因子如何传递 PIN 极性的机制尚不清楚。在这里，我们通过将蛋白质生物化学与定量活细胞成像相结合，证明了 PIN、MAB4/MEL 和 AGC 激酶在质膜上相互作用形成同一个复合物。MAB4/MEL 被 PIN 募集到质膜上，并与 AGC 激酶一起通过限制 PIN 基于侧向扩散的逃离极性区域来维持 PIN 极性。由于 AGC 激酶介导的 PIN 磷酸化和 MAB4/MEL 募集之间的正反馈，PIN-MAB4/MEL-PID 蛋白复合物具有自我增强的特性。因此，我们揭示了 AGC 激酶和 MAB4/MEL 蛋白调节 PIN 定位和植物发育的分子机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4507/8112251/1cc1e57af65d/fx1.jpg

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AGC 激酶和 MAB4/MEL 蛋白通过限制植物细胞中的侧向扩散来维持 PIN 极性。

AGC kinases and MAB4/MEL proteins maintain PIN polarity by limiting lateral diffusion in plant cells.

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