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• Limiting oxygen pressure
  ...e]]''', ''p''_c, below which [[aerobic]] catabolism (respiration or oxygen consumption) declines significantly. Communicated by [[Gnaiger E]] 2014-03-05
  778 bytes (105 words) - 14:32, 21 October 2021
• Aerobic
  ...ic ''metabolism'' may proceed in the absence or presence of oxygen (anoxic or oxic ''conditions''), aerobic ''metabolism'' is restricted to oxic ''condit Communicated by [[Gnaiger E]] 2014-03-04, edited 2021-10-06
  993 bytes (124 words) - 14:30, 21 October 2021
• Hypoxia
  ...ular anoxia. Clinical oxygen treatment ('environmental hyperoxia') may not or only partially overcome pathological tissue hypoxia. Communicated by [[Gnaiger E]] (2014-05-29) edited 2021-11-11
  1 KB (174 words) - 10:24, 11 November 2021
• Anaerobic
  ...erobic ''metabolism'' may proceed not only under [[anoxic]] ''conditions'' or ''states'', but also under [[hyperoxic]] and [[normoxic]] conditions ('''ae Communicated by [[Gnaiger E]] 2014-03-05
  981 bytes (118 words) - 14:32, 21 October 2021
• Critical oxygen pressure
  ...ssure, ''p''_O2, below which [[aerobic]] catabolism (respiration or oxygen consumption) declines significantly. If [[anaerobic]] catabolism is Communicated by [[Gnaiger E]] 2013-03-05, edited 2013-09-14
  868 bytes (123 words) - 14:32, 21 October 2021
• Microxia
  Communicated by [[Gnaiger E]] 2021-10-05 {{Template:Normoxic - state or rate}}
  557 bytes (73 words) - 14:48, 21 October 2021
• Hyperoxia
  ...lar hyperoxia is imposed on isolated cells and isolated mitochondria at air-level oxygen pressures which are higher compared to cellular and intracellul Communicated by [[Gnaiger E]] 2021-10-06
  738 bytes (92 words) - 14:47, 21 October 2021
• Normoxia
  ...ellular ''p''_O₂ to the level of intracellular tissue normoxia requires lowering the ambient ''p''_O₂ of the medium t Communicated by [[Gnaiger E]] (2021-10-05) last update 2021-12-12
  2 KB (290 words) - 20:33, 12 December 2021
• Anoxia
  ...e place, whereas '''''[[anaerobic]] metabolism''''' may proceed under oxic or anoxic conditions. Communicated by [[Gnaiger E]] 2014-03-05
  1 KB (199 words) - 14:32, 21 October 2021
• Lambert 2004 Biochem J
  ...the pH gradient across the mitochondrial inner membrane. Biochem J 382:511-7. ...of superoxide by complex I during reverse electron transport was at least 3-fold more sensitive to the pH gradient than to the membrane potential.
  2 KB (254 words) - 00:17, 18 February 2022
• Dominiak 2018 Redox Biol
  ...gen species formation and the coenzyme Q reduction level. Redox Biol 18:256-265. ...ncreases. We propose that the mQ pool reduction level (endogenous mQ redox state) could be a useful endogenous reporter that allows indirect assessment of o
  2 KB (289 words) - 13:44, 18 August 2021
• Gnaiger 1998 Biochim Biophys Acta
  ...ochim Biophys Acta 1365:249-54. https://doi.org/10.1016/S0005-2728(98)00076-0 ...lative to the Electron transfer-pathway and a correspondingly low turnover rate of this enzyme, consistent with the concept of kinetic trapping of oxygen [
  4 KB (505 words) - 16:27, 24 April 2023
• Van den Bergen 1994 Eur J Biochem
  ...ween quinol-oxidizing and quinone-reducing pathways. Eur J Biochem 226:1071-8. ...ggested that the oxidation of cytoplasmic NADH ''in vivo'' uses the cyanide-resistant pathway more than the pathway involving the oxidation of succinate
  7 KB (1,023 words) - 09:03, 16 July 2021
• Du 2016 J Exp Biol
  ...a acclimation in killifish (''Fundulus heteroclitus''). J Exp Biol 219:1130-8. ...ial respiration. However, both patterns of hypoxia acclimation reduced the rate of ROS emission from mitochondria when compared at a common O₂ t
  2 KB (331 words) - 13:41, 7 March 2020
• Gnaiger 2001 Respir Physiol
  ...d adenosine diphosphate supply. https://doi.org/10.1016/S0034-5687(01)00307-3 |info=Respir Physiol 128:277-97. [http://www.ncbi.nlm.nih.gov/pubmed/11718759 PMID: 11718759], [[File:PDF
  7 KB (963 words) - 06:05, 3 April 2024
• Komlodi 2018 J Bioenerg Biomembr
  ...xide production in brain and heart mitochondria. J Bioenerg Biomembr 50:355-365 ...s a therapeutic strategy to attenuate RET-driven ROS generation in ischemia-reperfusion injury.
  3 KB (439 words) - 04:34, 19 July 2022
• Hickey 2014 Abstract MiP2014
  ...ia produce less ATP in normoxia, they consume as much ATP in anoxic infarct-like states (Fig. 1). |area=Respiration, mt-Membrane
  4 KB (547 words) - 17:26, 7 November 2016
• Komlodi 2017 MiP2017
  ...racellular range, contrasting results were reported either with increasing or decreasing H₂O₂ production rates. Such differences mi ...he highly specific Amplex UltraRed assay in MiR05 and KCl-based media. The rate of H₂O₂ generation was corrected for chemical backgro
  5 KB (734 words) - 18:54, 10 January 2022
• Stelfa 2018 MiP2018
  ...roprotective compound R-phenibut protects brain mitochondria against anoxia-reoxygenation damage ''in vitro''. |authors=Stelfa G, Makrecka-Kuka M, Zvejniece L, Svalbe B, Vavers E, Kupats E, Dambrova M
  4 KB (521 words) - 12:48, 17 March 2019
• Murphy 2009 Biochem J
  ...MP (2009) How mitochondria produce reactive oxygen species. Biochem J 417:1-13. ...tron donors, the local concentration of O₂ and the second-order rate constants for the reactions between them. Two modes of operation by isolate
  6 KB (883 words) - 11:59, 20 December 2022

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