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本文引用的文献

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Regulation of Primary Metabolism in Response to Low Oxygen Availability as Revealed by Carbon and Nitrogen Isotope Redistribution.碳氮同位素重新分布揭示的低氧条件下初级代谢的调控
Plant Physiol. 2016 Jan;170(1):43-56. doi: 10.1104/pp.15.00266. Epub 2015 Nov 9.
2
Reduced levels of NADH-dependent glutamate dehydrogenase decrease the glutamate content of ripe tomato fruit but have no effect on green fruit or leaves.NADH 依赖性谷氨酸脱氢酶水平降低会减少成熟番茄果实中的谷氨酸含量,但对未成熟果实或叶片没有影响。
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Unsaturation of very-long-chain ceramides protects plant from hypoxia-induced damages by modulating ethylene signaling in Arabidopsis.超长链神经酰胺的不饱和化通过调节拟南芥中的乙烯信号传导来保护植物免受缺氧诱导的损伤。
PLoS Genet. 2015 Mar 30;11(3):e1005143. doi: 10.1371/journal.pgen.1005143. eCollection 2015 Mar.
4
Salt-induced stabilization of EIN3/EIL1 confers salinity tolerance by deterring ROS accumulation in Arabidopsis.盐诱导的EIN3/EIL1稳定通过抑制拟南芥中活性氧的积累赋予耐盐性。
PLoS Genet. 2014 Oct 16;10(10):e1004664. doi: 10.1371/journal.pgen.1004664. eCollection 2014 Oct.
5
Ethylene plays an essential role in the recovery of Arabidopsis during post-anaerobiosis reoxygenation.乙烯在拟南芥厌氧后复氧过程的恢复中起着至关重要的作用。
Plant Cell Environ. 2014 Oct;37(10):2391-405. doi: 10.1111/pce.12292. Epub 2014 Mar 12.
6
Selective mRNA sequestration by OLIGOURIDYLATE-BINDING PROTEIN 1 contributes to translational control during hypoxia in Arabidopsis.Oligouridylate-Binding Protein 1 通过选择性地结合 mRNA 来调控拟南芥低氧条件下的翻译。
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7
Characterization of distinct root and shoot responses to low-oxygen stress in Arabidopsis with a focus on primary C- and N-metabolism.拟南芥中根系和地上部分对低氧胁迫的不同响应特征,重点关注初级碳代谢和氮代谢。
Plant Cell Environ. 2014 Oct;37(10):2366-80. doi: 10.1111/pce.12282. Epub 2014 Mar 12.
8
Translational dynamics revealed by genome-wide profiling of ribosome footprints in Arabidopsis.通过对拟南芥核糖体足迹的全基因组分析揭示翻译动力学。
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9
Ethylene signaling: simple ligand, complex regulation.乙烯信号转导:简单配体,复杂调控。
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10
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乙烯调节的谷氨酸脱氢酶在缺氧复氧过程中微调代谢。

Ethylene-Regulated Glutamate Dehydrogenase Fine-Tunes Metabolism during Anoxia-Reoxygenation.

作者信息

Tsai Kuen-Jin, Lin Chih-Yu, Ting Chen-Yun, Shih Ming-Che

机构信息

Institute of Plant Biology, National Taiwan University, Taipei 115, Taiwan (K.-J.T., M.-C.S.); and.

Agricultural Biotechnology Research Center, Academia Sinica, Taipei 115, Taiwan (K.-J.T., C.-Y.L., C.-Y.T., M.-C.S.).

出版信息

Plant Physiol. 2016 Nov;172(3):1548-1562. doi: 10.1104/pp.16.00985. Epub 2016 Sep 27.

DOI:10.1104/pp.16.00985
PMID:27677986
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5100772/
Abstract

Ethylene is an essential hormone in plants that is involved in low-oxygen and reoxygenation responses. As a key transcription factor in ethylene signaling, ETHYLENE INSENSITIVE3 (EIN3) activates targets that trigger various responses. However, most of these targets are still poorly characterized. Through analyses of our microarray data and the published Arabidopsis (Arabidopsis thaliana) EIN3 chromatin immunoprecipitation sequencing data set, we inferred the putative targets of EIN3 during anoxia-reoxygenation. Among them, GDH2, which encodes one subunit of glutamate dehydrogenase (GDH), was chosen for further studies for its role in tricarboxylic acid cycle replenishment. We demonstrated that both GDH1 and GDH2 are induced during anoxia and reoxygenation and that this induction is mediated via ethylene signaling. In addition, the results of enzymatic assays showed that the level of GDH during anoxia-reoxygenation decreased in the ethylene-insensitive mutants ein2-5 and ein3eil1 Global metabolite analysis indicated that the deamination activity of GDH might regenerate 2-oxoglutarate, which is a cosubstrate that facilitates the breakdown of alanine by alanine aminotransferase when reoxygenation occurs. Moreover, ineffective tricarboxylic acid cycle replenishment, disturbed carbohydrate metabolism, reduced phytosterol biosynthesis, and delayed energy regeneration were found in gdh1gdh2 and ethylene mutants during reoxygenation. Taken together, these data illustrate the essential role of EIN3-regulated GDH activity in metabolic adjustment during anoxia-reoxygenation.

摘要

乙烯是植物中的一种重要激素,参与低氧和复氧反应。作为乙烯信号传导中的关键转录因子,乙烯不敏感3(EIN3)激活引发各种反应的靶标。然而,这些靶标中的大多数仍未得到充分表征。通过分析我们的微阵列数据和已发表的拟南芥(Arabidopsis thaliana)EIN3染色质免疫沉淀测序数据集,我们推断了缺氧-复氧过程中EIN3的假定靶标。其中,编码谷氨酸脱氢酶(GDH)一个亚基的GDH2因其在三羧酸循环补充中的作用而被选作进一步研究对象。我们证明,GDH1和GDH2在缺氧和复氧过程中均被诱导,且这种诱导是通过乙烯信号传导介导的。此外,酶活性测定结果表明,在乙烯不敏感突变体ein2-5和ein3eil1中,缺氧-复氧过程中GDH的水平降低。全局代谢物分析表明,GDH的脱氨活性可能再生2-氧代戊二酸,这是一种共底物,在复氧时促进丙氨酸转氨酶分解丙氨酸。此外,在复氧过程中,gdh1gdh2和乙烯突变体中发现三羧酸循环补充无效、碳水化合物代谢紊乱、植物甾醇生物合成减少以及能量再生延迟。综上所述,这些数据说明了EIN3调节的GDH活性在缺氧-复氧过程中代谢调节中的重要作用。