Reactive oxygen species: Re-evaluation of generation, monitoring and role in stress-signaling in phototrophic organisms

SchmittF.-J.; RengerG.; FriedrichT.; KreslavskiV.D.; ZharmukhamedovS.K.; LosD.A.; KuznetsovV.V.; AllakhverdievS.I.

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Reactive oxygen species: Re-evaluation of generation, monitoring and role in stress-signaling in phototrophic organisms

机译：反应性氧物种：重新评估光营养生物中应激信号中的产生，监测和作用

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This review provides an overview about recent developments and current knowledge about monitoring, generation and the functional role of reactive oxygen species (ROS) - H2O2, HO2, HO, OH -, 1O2 and O2 - - in both oxidative degradation and signal transduction in photosynthetic organisms including microscopic techniques for ROS detection and controlled generation. Reaction schemes elucidating formation, decay and signaling of ROS in cyanobacteria as well as from chloroplasts to the nuclear genome in eukaryotes during exposure of oxygen-evolving photosynthetic organisms to oxidative stress are discussed that target the rapidly growing field of regulatory effects of ROS on nuclear gene expression.

机译：本综述概述了关于最近的发展，发电和反应性氧（ROS） - H2O2，HO2，HO2，OH，OH - ，1O2和O2 - 在光合氧化降解和信号转导的情况下的监测，发电和功能作用的概略包括用于ROS检测和受控生成的微观技术的生物。讨论了在暴露于氧化胁迫的氧化的光合生物的暴露过程中，阐明了树脂菌的形成，衰减和ROS中ROS的核基因组的反应方案以及从氧化胁迫的氧化胁迫下的核基因组。表达。

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来源
《Biochimica et biophysica acta. Bioenergetics》 |2014年第6期|共14页
作者
SchmittF.-J.; RengerG.; FriedrichT.; KreslavskiV.D.; ZharmukhamedovS.K.; LosD.A.; KuznetsovV.V.; AllakhverdievS.I.;
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作者单位

Technical University Berlin Institute of Chemistry Max-Volmer-Laboratory of Biophysical Chemistry;

Technical University Berlin Institute of Chemistry Max-Volmer-Laboratory of Biophysical Chemistry;

Technical University Berlin Institute of Chemistry Max-Volmer-Laboratory of Biophysical Chemistry;

Institute of Basic Biological Problems Russian Academy of Sciences Institutskaya Street 2;

Institute of Basic Biological Problems Russian Academy of Sciences Institutskaya Street 2;

Institute of Plant Physiology Russian Academy of Sciences Botanicheskaya Street 35 Moscow 127276;

Institute of Plant Physiology Russian Academy of Sciences Botanicheskaya Street 35 Moscow 127276;

Institute of Basic Biological Problems Russian Academy of Sciences Institutskaya Street 2;

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原文格式 PDF
正文语种 eng
中图分类生物化学;
关键词
Chloroplast; Oxidative stress; Photosynthesis; Plant cells; Reactive oxygen species; Signaling systems;

机译：叶绿体;氧化应激;光合作用;植物细胞;活性氧物种;信号系统;

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2. Reactive oxygen species: Re-evaluation of generation, monitoring and role in stress-signaling in phototrophic organisms [J] . SchmittF.-J., RengerG., FriedrichT., Biochimica et biophysica acta. Bioenergetics . 2014,第6期

机译：活性氧：重新评估光养生物的产生，监测和在胁迫信号中的作用
3. Reactive oxygen species: Re-evaluation of generation, monitoring and role in stress-signaling in phototrophic organisms [J] . SchmittF.-J., RengerG., FriedrichT., Biochimica et biophysica acta. Bioenergetics . 2014,第6期

机译：活性氧：重新评估光养生物的产生，监测和在胁迫信号中的作用
4. Reactive oxygen species: Re-evaluation of generation, monitoring and role in stress-signaling in phototrophic organisms [J] . SchmittF.-J., RengerG., FriedrichT., Biochimica et biophysica acta. Bioenergetics . 2014,第6期

机译：反应性氧物种：重新评估光营养生物中应激信号中的产生，监测和作用
5. REACTIVITY OF ACTIVE OXYGEN SPECIES TOWARD C-2 POSITION OF CARBOHYDRATE AND ITS DEPENDENCE ON THE ORIGIN OF ACTIVE OXYGEN SPECIES UNDER OXYGEN BLEACHING CONDITIONS [C] . Akihiko Nakagawa, Tomoya Yokoyama, Yuji Matsumoto ISWFPC;International symposium on wood, fiber and pulping chemistry . 2011

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6. Fluorescent Nanosensors for the Monitoring of Different Intracellular Reactive Oxygen Species (ROS) [D] . Adrien, Ratier. 2020

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机译：二甲双胍通过抑制活性氧的产生和炎症反应保护H9C2心肌细胞免受高糖和缺氧/复氧损伤的影响：AMPK和JNK的作用
8. Reactive oxygen species: Re-evaluation of generation, monitoring and role in stress-signaling in phototrophic organisms [O] . Schmitt Franz-Josef, Renger Gernot, Friedrich Thomas, 2014

机译：活性氧：重新评估光养生物的产生，监测和在胁迫信号中的作用

Reactive oxygen species: Re-evaluation of generation, monitoring and role in stress-signaling in phototrophic organisms

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