Shumbe Leonard, Chevalier Anne, Legeret Bertrand, Taconnat Ludivine, Monnet Fabien, Havaux Michel
CEA, Direction des Sciences du Vivant, Institut de Biologie Environnementale et de Biotechnologie, F-13108 Saint-Paul-lez-Durance, France (L.S., A.C., B.L., F.M., M.H.);CNRS, UMR 7265 Biologie Végétale et Microbiologie Environnementales, F-13108 Saint-Paul-lez-Durance, France (L.S., A.C., B.L., F.M., M.H.);Aix-Marseille Université, F-13284 Marseille, France (L.S., A.C., B.L., F.M., M.H.);POPS Transcriptomic Platform, Institute of Plant Sciences Paris-Saclay IPS2, Rue de Noetzlin, 91405 Orsay, France (L.T.); andUniversité Avignon et des Pays de Vaucluse, 84000 Avignon, France (F.M.).
CEA, Direction des Sciences du Vivant, Institut de Biologie Environnementale et de Biotechnologie, F-13108 Saint-Paul-lez-Durance, France (L.S., A.C., B.L., F.M., M.H.);CNRS, UMR 7265 Biologie Végétale et Microbiologie Environnementales, F-13108 Saint-Paul-lez-Durance, France (L.S., A.C., B.L., F.M., M.H.);Aix-Marseille Université, F-13284 Marseille, France (L.S., A.C., B.L., F.M., M.H.);POPS Transcriptomic Platform, Institute of Plant Sciences Paris-Saclay IPS2, Rue de Noetzlin, 91405 Orsay, France (L.T.); andUniversité Avignon et des Pays de Vaucluse, 84000 Avignon, France (F.M.)
Plant Physiol. 2016 Mar;170(3):1757-71. doi: 10.1104/pp.15.01546. Epub 2016 Jan 8.
Studies of the singlet oxygen ((1)O2)-overproducing flu and chlorina1 (ch1) mutants of Arabidopsis (Arabidopsis thaliana) have shown that (1)O2-induced changes in gene expression can lead to either programmed cell death (PCD) or acclimation. A transcriptomic analysis of the ch1 mutant has allowed the identification of genes whose expression is specifically affected by each phenomenon. One such gene is OXIDATIVE SIGNAL INDUCIBLE1 (OXI1) encoding an AGC kinase that was noticeably induced by excess light energy and (1)O2 stress conditions leading to cell death. Photo-induced oxidative damage and cell death were drastically reduced in the OXI1 null mutant (oxi1) and in the double mutant ch1*oxi1 compared with the wild type and the ch1 single mutant, respectively. This occurred without any changes in the production rate of (1)O2 but was cancelled by exogenous applications of the phytohormone jasmonate. OXI1-mediated (1)O2 signaling appeared to operate through a different pathway from the previously characterized OXI1-dependent response to pathogens and H2O2 and was found to be independent of the EXECUTER proteins. In high-light-stressed plants, the oxi1 mutation was associated with reduced jasmonate levels and with the up-regulation of genes encoding negative regulators of jasmonate signaling and PCD. Our results show that OXI1 is a new regulator of (1)O2-induced PCD, likely acting upstream of jasmonate.
对拟南芥(Arabidopsis thaliana)中产生单线态氧((1)O2)的流感和叶绿素a1(ch1)突变体的研究表明,(1)O2诱导的基因表达变化可导致程序性细胞死亡(PCD)或适应性变化。对ch1突变体的转录组分析已鉴定出其表达受每种现象特异性影响的基因。其中一个这样的基因是氧化信号诱导基因1(OXI1),它编码一种AGC激酶,在过量光能和导致细胞死亡的(1)O2胁迫条件下会显著诱导表达。与野生型和ch1单突变体相比,OXI1缺失突变体(oxi1)和双突变体ch1*oxi1中的光诱导氧化损伤和细胞死亡分别大幅减少。这一现象在(1)O2产生速率没有任何变化的情况下发生,但通过外源施加植物激素茉莉酸酯可消除。OXI1介导的(1)O2信号似乎通过一条与先前表征的OXI1对病原体和H2O2的依赖性反应不同的途径起作用,并且发现它独立于EXECUTER蛋白。在高光胁迫的植物中,oxi1突变与茉莉酸酯水平降低以及编码茉莉酸酯信号和PCD负调节因子的基因上调有关。我们的结果表明,OXI1是(1)O2诱导的PCD的新调节因子,可能在茉莉酸酯上游起作用。
