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Respiration and substrate transport rates as well as reactive oxygen species production distinguish mitochondria from brain and liver

机译：呼吸和底物传输速率以及活性氧的产生将线粒体与大脑和肝脏区分开来

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BackgroundAberrant mitochondrial function, including excessive reactive oxygen species (ROS) production, has been implicated in the pathogenesis of human diseases. The use of mitochondrial inhibitors to ascertain the sites in the electron transport chain (ETC) resulting in altered ROS production can be an important tool. However, the response of mouse mitochondria to ETC inhibitors has not been thoroughly assessed. Here we set out to characterize the differences in phenotypic response to ETC inhibitors between the more energetically demanding brain mitochondria and less energetically demanding liver mitochondria in commonly utilized C57BL/6J mice.

机译：背景线粒体功能异常，包括过量的活性氧（ROS）产生，已经与人类疾病的发病机制有关。使用线粒体抑制剂来确定电子传输链（ETC）中的位点，从而导致ROS生成发生变化，这可能是重要的工具。但是，小鼠线粒体对ETC抑制剂的反应尚未得到彻底评估。在这里，我们着手表征在常用C57BL / 6J小鼠中，对能量要求较高的脑线粒体与对能量要求较低的肝线粒体之间对ETC抑制剂的表型反应差异。

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期刊名称 BMC Biochemistry
作者
Aaron M. Gusdon; Gabriel A. Fernandez-Bueno; Stephanie Wohlgemuth; Jenelle Fernandez; Jing Chen; Clayton E. Mathews;
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作者单位

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年(卷),期 2015(16),-1
年度 2015
页码 22
总页数 17
原文格式 PDF
正文语种
中图分类分子生物学;
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入库时间 2022-08-17 14:40:10

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专利

1. Respiration and substrate transport rates as well as reactive oxygen species production distinguish mitochondria from brain and liver [J] . Aaron M. Gusdon, Gabriel A. Fernandez-Bueno, Stephanie Wohlgemuth, BMC Biochemistry . 2015,第1期

机译：呼吸和底物传输速率以及活性氧的产生将线粒体与大脑和肝脏区分开来
2. Dicarboxylate carrier-mediated glutathione transport is essential for reactive oxygen species homeostasis and normal respiration in rat brain mitochondria. [J] . Kamga CK, Zhang SX, Wang Y American Journal of Physiology . 2010,第2aPta1期

机译：二羧酸二羧酸酯介导的谷胱甘肽转运对于大鼠脑线粒体的反应性氧物种稳态和正常呼吸至关重要。
3. Dicarboxylate carrier-mediated glutathione transport is essential for reactive oxygen species homeostasis and normal respiration in rat brain mitochondria. [J] . Kamga CK, Zhang SX, Wang Y American Journal of Physiology . 2010,第2aPta1期

机译：二羧酸盐载体介导的谷胱甘肽转运对于大鼠脑线粒体中的活性氧稳态和正常呼吸至关重要。
4. EFFECTS OF CALORIC RESTRICTION AND AGING ON THE GENERATION OF REACTIVE OXYGEN SPECIES IN RAT LIVER MITOCHONDRIA AND PEROXISOMES [C] . I IMADA, EF SATO, R KONAKA, International Symposium on Bioluminescence and Chemiluminescence . 2005

机译：热量限制和老化对大鼠肝线粒体和过氧化物血清反应性氧物种产生的影响
5. The production of mitochondrial reactive oxygen species at steady-state oxygen concentrations: Implications for oxygen sensing [D] . Hoffman, David Leland, III 2009

机译：稳态氧浓度下线粒体活性氧的产生：对氧传感的意义
6. The Neuromediator Glutamate through Specific Substrate Interactions Enhances Mitochondrial ATP Production and Reactive Oxygen Species Generation in Nonsynaptic Brain Mitochondria [O] . Alexander Panov, Peter Schonfeld, Sergey Dikalov, 2009

机译：神经介质谷氨酸通过特定的底物相互作用增强线粒体ATP的产生和活性氧的产生在非突触脑中线粒体
7. Respiration and substrate transport rates as well as reactive oxygen species production distinguish mitochondria from brain and liver [O] . 2015

机译：呼吸和底物传输速率以及活性氧的产生将线粒体与大脑和肝脏区分开来

Respiration and substrate transport rates as well as reactive oxygen species production distinguish mitochondria from brain and liver

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