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Deciphering the link between salicylic acid signaling and sphingolipid metabolism.解析水杨酸信号转导与鞘脂代谢之间的联系。
Front Plant Sci. 2015 Mar 9;6:125. doi: 10.3389/fpls.2015.00125. eCollection 2015.
2
The Polyadenylation Factor Subunit CLEAVAGE AND POLYADENYLATION SPECIFICITY FACTOR30: A Key Factor of Programmed Cell Death and a Regulator of Immunity in Arabidopsis.聚腺苷酸化因子亚基切割与聚腺苷酸化特异性因子30:拟南芥中程序性细胞死亡的关键因子及免疫调节因子
Plant Physiol. 2014 Jun;165(2):732-746. doi: 10.1104/pp.114.236083. Epub 2014 Apr 4.
3
Regulation of primary plant metabolism during plant-pathogen interactions and its contribution to plant defense.植物与病原体相互作用过程中初级植物代谢的调控及其对植物防御的贡献。
Front Plant Sci. 2014 Feb 10;5:17. doi: 10.3389/fpls.2014.00017. eCollection 2014.
4
Substantial roles of hexokinase and fructokinase in the effects of sugars on plant physiology and development.己糖激酶和果糖激酶在糖对植物生理和发育的影响中起着重要作用。
J Exp Bot. 2014 Mar;65(3):809-19. doi: 10.1093/jxb/ert400. Epub 2013 Nov 30.
5
Proposed minimum reporting standards for chemical analysis Chemical Analysis Working Group (CAWG) Metabolomics Standards Initiative (MSI).化学分析最低报告标准建议 化学分析工作组(CAWG)代谢组学标准倡议(MSI)
Metabolomics. 2007 Sep;3(3):211-221. doi: 10.1007/s11306-007-0082-2.
6
Multifunctional fructans and raffinose family oligosaccharides.多功能果聚糖和棉子糖家族低聚糖。
Front Plant Sci. 2013 Jul 9;4:247. doi: 10.3389/fpls.2013.00247. eCollection 2013.
7
The role of phosphoinositides and inositol phosphates in plant cell signaling.磷脂酰肌醇和肌醇磷酸在植物细胞信号转导中的作用。
Adv Exp Med Biol. 2013;991:141-57. doi: 10.1007/978-94-007-6331-9_8.
8
Dual function of MIPS1 as a metabolic enzyme and transcriptional regulator.MIPS1 的双重功能:既是代谢酶又是转录调节剂。
Nucleic Acids Res. 2013 Mar 1;41(5):2907-17. doi: 10.1093/nar/gks1458. Epub 2013 Jan 21.
9
Sphingolipids and plant defense/disease: the "death" connection and beyond.鞘脂类与植物防御/疾病:“死亡”的关联及其他。
Front Plant Sci. 2012 Apr 10;3:68. doi: 10.3389/fpls.2012.00068. eCollection 2012.
10
Sugars and plant innate immunity.糖与植物先天免疫。
J Exp Bot. 2012 Jun;63(11):3989-98. doi: 10.1093/jxb/ers129. Epub 2012 May 2.

拟南芥己糖激酶1参与由肌醇积累介导的细胞死亡过程。

Involvement of Arabidopsis Hexokinase1 in Cell Death Mediated by Myo-Inositol Accumulation.

作者信息

Bruggeman Quentin, Prunier Florence, Mazubert Christelle, de Bont Linda, Garmier Marie, Lugan Raphaël, Benhamed Moussa, Bergounioux Catherine, Raynaud Cécile, Delarue Marianne

机构信息

Université Paris-Sud, Institute of Plant Sciences Paris-Saclay IPS2 (Bâtiment 630), UMR CNRS-INRA 9213, Saclay Plant Sciences, 91405 Orsay, France.

Institut de Biologie Moléculaire des Plantes, Unité Propre de Recherche 2357 CNRS, Université de Strasbourg, 67084 Strasbourg Cedex, France.

出版信息

Plant Cell. 2015 Jun;27(6):1801-14. doi: 10.1105/tpc.15.00068. Epub 2015 Jun 5.

DOI:10.1105/tpc.15.00068
PMID:26048869
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4498202/
Abstract

Programmed cell death (PCD) is essential for several aspects of plant life, including development and stress responses. We recently identified the mips1 mutant of Arabidopsis thaliana, which is deficient for the enzyme catalyzing the limiting step of myo-inositol (MI) synthesis. One of the most striking features of mips1 is the light-dependent formation of lesions on leaves due to salicylic acid (SA)-dependent PCD. Here, we identified a suppressor of PCD by screening for mutations that abolish the mips1 cell death phenotype. Our screen identified the hxk1 mutant, mutated in the gene encoding the hexokinase1 (HXK1) enzyme that catalyzes sugar phosphorylation and acts as a genuine glucose sensor. We show that HXK1 is required for lesion formation in mips1 due to alterations in MI content, via SA-dependant signaling. Using two catalytically inactive HXK1 mutants, we also show that hexokinase catalytic activity is necessary for the establishment of lesions in mips1. Gas chromatography-mass spectrometry analyses revealed a restoration of the MI content in mips1 hxk1 that it is due to the activity of the MIPS2 isoform, while MIPS3 is not involved. Our work defines a pathway of HXK1-mediated cell death in plants and demonstrates that two MIPS enzymes act cooperatively under a particular metabolic status, highlighting a novel checkpoint of MI homeostasis in plants.

摘要

程序性细胞死亡(PCD)对于植物生命的多个方面至关重要,包括发育和应激反应。我们最近鉴定了拟南芥的mips1突变体,该突变体缺乏催化肌醇(MI)合成限速步骤的酶。mips1最显著的特征之一是由于水杨酸(SA)依赖性PCD导致叶片上光依赖性损伤的形成。在这里,我们通过筛选消除mips1细胞死亡表型的突变来鉴定PCD的一个抑制子。我们的筛选鉴定出hxk1突变体,其在编码己糖激酶1(HXK1)的基因中发生突变,该酶催化糖磷酸化并作为真正的葡萄糖传感器。我们表明,由于MI含量的改变,通过SA依赖性信号传导,HXK1是mips1中损伤形成所必需的。使用两个无催化活性的HXK1突变体,我们还表明己糖激酶催化活性对于mips1中损伤的形成是必需的。气相色谱 - 质谱分析显示mips1 hxk1中MI含量恢复,这是由于MIPS2同工型的活性,而MIPS3不参与。我们的工作定义了植物中HXK1介导的细胞死亡途径,并证明两种MIPS酶在特定代谢状态下协同作用,突出了植物中MI稳态的一个新的检查点。