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Purification and characterization of Arabidopsis thaliana oligosaccharyltransferase complexes from the native host: a protein super-expression system for structural studies.从天然宿主中纯化和表征拟南芥糖基转移酶复合物:用于结构研究的蛋白质超表达系统。
Plant J. 2018 Apr;94(1):131-145. doi: 10.1111/tpj.13847. Epub 2018 Mar 12.
3
Piecing the Puzzle Together: The Central Role of Reactive Oxygen Species and Redox Hubs in Chloroplast Retrograde Signaling.拼凑谜题:活性氧物质和氧化还原枢纽在叶绿体逆行信号中的核心作用。
Antioxid Redox Signal. 2019 Mar 20;30(9):1206-1219. doi: 10.1089/ars.2017.7392. Epub 2017 Dec 11.
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The Life and Death of a Plant Cell.植物细胞的生与死。
Annu Rev Plant Biol. 2017 Apr 28;68:375-404. doi: 10.1146/annurev-arplant-043015-111655. Epub 2017 Jan 11.
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Melatonin is required for H O - and NO-mediated defense signaling through MAPKKK3 and OXI1 in Arabidopsis thaliana.褪黑素通过 MAPKKK3 和 OXI1 在拟南芥中介导 H O - 和 NO 介导的防御信号传导。
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Functional and regulatory conservation of the soybean ER stress-induced DCD/NRP-mediated cell death signaling in plants.大豆内质网应激诱导的DCD/NRP介导的植物细胞死亡信号传导的功能和调控保守性
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Plant protein glycosylation.植物蛋白糖基化
Glycobiology. 2016 Sep;26(9):926-939. doi: 10.1093/glycob/cww023. Epub 2016 Feb 23.
9
Singlet Oxygen-Induced Cell Death in Arabidopsis under High-Light Stress Is Controlled by OXI1 Kinase.高光胁迫下拟南芥中单线态氧诱导的细胞死亡受OXI1激酶调控。
Plant Physiol. 2016 Mar;170(3):1757-71. doi: 10.1104/pp.15.01546. Epub 2016 Jan 8.
10
Regulation of Jasmonate-Induced Leaf Senescence by Antagonism between bHLH Subgroup IIIe and IIId Factors in Arabidopsis.拟南芥中bHLH亚组IIIe和IIId因子之间的拮抗作用对茉莉酸诱导的叶片衰老的调控
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OXI1 和 DAD 通过茉莉酸和水杨酸水平拮抗调节光诱导的细胞死亡。

OXI1 and DAD Regulate Light-Induced Cell Death Antagonistically through Jasmonate and Salicylate Levels.

机构信息

Aix-Marseille University, Centre National de la Recherche Scientifique, Commissariat à l'Energie Atomique et aux Energies Alternatives, UMR 7265 Biosciences and Biotechnologies Institute of Aix- Marseille, CEA/Cadarache, F-13108 Saint-Paul-lès-Durance, France.

Laboratory of Growth Regulators, Institute of Experimental Botany, The Czech Academy of Sciences, Palacký University, CZ-78371 Olomouc, Czech Republic.

出版信息

Plant Physiol. 2019 Jul;180(3):1691-1708. doi: 10.1104/pp.19.00353. Epub 2019 May 13.

DOI:10.1104/pp.19.00353
PMID:31123095
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6752932/
Abstract

Singlet oxygen produced from triplet excited chlorophylls in photosynthesis is a signal molecule that can induce programmed cell death (PCD) through the action of the OXIDATIVE STRESS INDUCIBLE 1 (OXI1) kinase. Here, we identify two negative regulators of light-induced PCD that modulate expression: DAD1 and DAD2, homologs of the human antiapoptotic protein DEFENDER AGAINST CELL DEATH. Overexpressing in Arabidopsis () increased plant sensitivity to high light and induced early senescence of mature leaves. Both phenomena rely on a marked accumulation of jasmonate and salicylate. or overexpression decreased expression, jasmonate levels, and sensitivity to photooxidative stress. Knock-out mutants of or exhibited the opposite responses. Exogenous applications of jasmonate upregulated salicylate biosynthesis genes and caused leaf damage in wild-type plants but not in the salicylate biosynthesis mutant , indicating that salicylate plays a crucial role in PCD downstream of jasmonate. Treating plants with salicylate upregulated the genes and downregulated We conclude that OXI1 and DAD are antagonistic regulators of cell death through modulating jasmonate and salicylate levels. High light-induced PCD thus results from a tight control of the relative activities of these regulating proteins, with DAD exerting a negative feedback control on expression.

摘要

光合作用中来自三重态激发态叶绿素的单线态氧是一种信号分子,可通过氧化应激诱导 1(OXI1)激酶的作用诱导程序性细胞死亡(PCD)。在这里,我们确定了两种负调控光诱导 PCD 的调节剂:DAD1 和 DAD2,它们是人类抗凋亡蛋白 DEFENDER AGAINST CELL DEATH 的同源物。在拟南芥中过表达 会增加植物对高光的敏感性,并诱导成熟叶片的早期衰老。这两种现象都依赖于茉莉酸和水杨酸的明显积累。 或 过表达会降低 表达水平、茉莉酸水平和对光氧化应激的敏感性。 或 的敲除突变体表现出相反的反应。外源施用茉莉酸会上调水杨酸生物合成基因,并导致野生型植物叶片损伤,但在水杨酸生物合成突变体 中不会,表明水杨酸在茉莉酸下游的 PCD 中起着至关重要的作用。用水杨酸处理植物会上调 基因并下调 我们得出结论,OXI1 和 DAD 通过调节茉莉酸和水杨酸水平来拮抗细胞死亡的调节因子。因此,高光诱导的 PCD 是这些调节蛋白相对活性的严格控制的结果,DAD 对 表达施加负反馈控制。