Inositol pyrophosphate catabolism by three families of phosphatases regulates plant growth and development.

IF 4 2区生物学 Q1 GENETICS & HEREDITY

PLoS Genetics Pub Date : 2024-11-12 DOI:10.1371/journal.pgen.1011468

Florian Laurent, Simon M Bartsch, Anuj Shukla, Felix Rico-Resendiz, Daniel Couto, Christelle Fuchs, Joël Nicolet, Sylvain Loubéry, Henning J Jessen, Dorothea Fiedler, Michael Hothorn

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Abstract

Inositol pyrophosphates (PP-InsPs) are nutrient messengers whose cellular levels are precisely regulated. Diphosphoinositol pentakisphosphate kinases (PPIP5Ks) generate the active signaling molecule 1,5-InsP8. PPIP5Ks harbor phosphatase domains that hydrolyze PP-InsPs. Plant and Fungi Atypical Dual Specificity Phosphatases (PFA-DSPs) and NUDIX phosphatases (NUDTs) are also involved in PP-InsP degradation. Here, we analyze the relative contributions of the three different phosphatase families to plant PP-InsP catabolism. We report the biochemical characterization of inositol pyrophosphate phosphatases from Arabidopsis and Marchantia polymorpha. Overexpression of different PFA-DSP and NUDT enzymes affects PP-InsP levels and leads to stunted growth phenotypes in Arabidopsis. nudt17/18/21 knock-out mutants have altered PP-InsP pools and gene expression patterns, but no apparent growth defects. In contrast, Marchantia polymorpha Mppfa-dsp1ge, Mpnudt1ge and Mpvip1ge mutants display severe growth and developmental phenotypes and associated changes in cellular PP-InsP levels. Analysis of Mppfa-dsp1geand Mpvip1ge mutants supports a role for PP-InsPs in Marchantia phosphate signaling, and additional functions in nitrate homeostasis and cell wall biogenesis. Simultaneous elimination of two phosphatase activities enhanced the observed growth phenotypes. Taken together, PPIP5K, PFA-DSP and NUDT inositol pyrophosphate phosphatases regulate growth and development by collectively shaping plant PP-InsP pools.

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三个磷酸酶家族对肌醇焦磷酸的分解调节植物的生长和发育。

肌醇焦磷酸盐（PP-InsPs）是一种营养信使，其细胞水平受到精确调控。二磷酸肌醇五磷酸激酶（PPIP5Ks）产生活性信号分子 1,5-InsP8。PPIP5Ks 含有磷酸酶结构域，可水解 PP-InsPs。植物和真菌的非典型双特异性磷酸酶（PFA-DSPs）和 NUDIX 磷酸酶（NUDTs）也参与了 PP-InsP 的降解。在这里，我们分析了三个不同磷酸酶家族对植物 PP-InsP 分解代谢的相对贡献。我们报告了拟南芥和马钱子属植物中肌醇焦磷酸磷酸酶的生化特征。过量表达不同的 PFA-DSP 和 NUDT 酶会影响 PP-InsP 水平，导致拟南芥生长迟缓。相反，Marchantia polymorpha Mppfa-dsp1ge、Mpnudt1ge 和 Mpvip1ge 突变体则表现出严重的生长和发育表型以及相关的细胞 PP-InsP 水平变化。对 Mppfa-dsp1ge 和 Mpvip1ge 突变体的分析支持 PP-InsPs 在马钱子磷酸盐信号转导中的作用，以及在硝酸盐稳态和细胞壁生物生成中的其他功能。同时消除两种磷酸酶活性会增强观察到的生长表型。综上所述，PPIP5K、PFA-DSP 和 NUDT 肌醇焦磷酸磷酸酶通过共同塑造植物 PP-InsP 池来调节生长和发育。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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PLoS Genetics GENETICS & HEREDITY-

自引率

2.20%

发文量

438

期刊介绍： PLOS Genetics is run by an international Editorial Board, headed by the Editors-in-Chief, Greg Barsh (HudsonAlpha Institute of Biotechnology, and Stanford University School of Medicine) and Greg Copenhaver (The University of North Carolina at Chapel Hill). Articles published in PLOS Genetics are archived in PubMed Central and cited in PubMed.