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- #REDIRECT [[Additive effect of convergent electron flow]]57 bytes (7 words) - 08:28, 28 March 2016
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- ...spiration. For more details, see: [[Additive effect of convergent electron flow]].1 KB (149 words) - 18:49, 1 January 2021
- ...l>II). This condition of complete additivity, NS=N+S, would be obtained if electron channeling through supercomplex CI, CIII and CIV does not interact with the3 KB (428 words) - 15:34, 31 January 2024
- ...ction]] and [[F-junction]] upstream, provides the rationale for defining [[Electron-transfer-pathway state]]s and [[categories of SUIT protocols]]. ...tron flow]] at the Q-junction, exerting an additive effect on flux, versus electron gaiting for separation of single N- and S-input pathways (upper panel: [[Gn2 KB (291 words) - 19:31, 25 August 2023
- ...dium. NS in combination exerts an [[additive effect of convergent electron flow]] in most types of mitochondria. |info=[[Electron-transfer-pathway state]], [[Gnaiger 2020 BEC MitoPathways]], [[Gnaiger_20094 KB (604 words) - 08:32, 25 November 2023
- ...batini DM (2021) Fumarate is a terminal electron acceptor in the mammalian electron transport chain. Science 374:1227-37. https://doi.org/10.1126/science.abi74 ...se the SDH complex under hypoxia. Thus, we delineate a circuit of electron flow in the mammalian ETC that maintains mitochondrial functions under oxygen li2 KB (224 words) - 09:03, 2 April 2023
- ::::» [[Additive effect of convergent electron flow]] ::::» [[Convergent electron flow]]2 KB (284 words) - 18:29, 17 March 2022
- ...synthase). This documents an additive effect of convergent CI&II electron flow to the Q-junction, with consistent results obtained with permeabilized musc ::::» [[Additive effect of convergent electron flow]]1 KB (193 words) - 18:30, 17 March 2022
- ...SRot (CII). This documents an additive effect of convergent CI&II electron flow to the Q-junction, with consistent results obtained with permeabilized musc ::::» [[Additive effect of convergent electron flow]]3 KB (378 words) - 18:30, 17 March 2022
- ...r, respiration is limited artificially by supplying N- or S-substrates for electron input through either Complex I or II. High-resolution respirometry with min ...mitochondrial respiratory capacity by temperature in mouse heart: electron flow through the Q-junction in permeabilized fibers. Sci Rep 7:2840. - [[Lemieux7 KB (968 words) - 23:59, 24 April 2024
- ...to Q), NS<sub>''P''</sub>: Respiratory stimulation by convergent electron flow through Complexes I<small>&</small>II at the Q-junction, in the coupled sta | electron transfer-pathway (ET-pathway) capacity with type NS substrates, NS<sub>''E'4 KB (574 words) - 16:13, 14 April 2020
- |description=In the mitochondrial '''electron transfer pathway''' (ET pathway) electrons are transferred from externally » [[#Electron transfer pathway versus electron transport chain |'''MiPNet article''']]5 KB (646 words) - 01:06, 31 December 2020
- ...mitochondrial respiratory capacity by temperature in mouse heart: electron flow through the Q-junction in permeabilized fibers. Sci Rep 7:2840. doi:10.1038 ...linked mt-matrix dehydrogenases and the phosphorylation system rather than electron transfer complexes as the primary drivers of thermal sensitivity at low tem4 KB (595 words) - 09:34, 30 November 2023
- ...O<sub>2</sub> flux declines dramatically. Pyruvate (P) supports the [[NADH Electron transfer-pathway state|NADH-pathway]] and thus the convergent NS-pathway wi ...the LEAK state, which prevents excessively high H<sub>2</sub>O<sub>2</sub> flow.5 KB (832 words) - 00:10, 13 April 2021
- ...pacity, and were further diminished in uncoupled mitochondria respiring at electron transfer-pathway capacity. Simultaneous measurement of mitochondrial respir4 KB (484 words) - 19:56, 7 January 2024
- ...fect on OXPHOS or ET capacity (''P'' or ''E'', respectively) of convergent electron-input into the Q-junction. Substrate-uncoupler-inhibitor titration (SUIT) p ...in SUIT protocols used to study the additive effect of convergent electron flow at the Q-junction.4 KB (625 words) - 08:33, 28 July 2022
- ...b>O<sub>2</sub> production in the LEAK state. Pyruvate (P) supports [[NADH Electron transfer-pathway state|NADH-pathway (N)]], and usually in the presence of A ...ect, which would lead to a decrease in N-linked respiration and in reverse electron transfer-supported H<sub>2</sub>O<sub>2</sub> flux ([[RET]]).5 KB (681 words) - 00:11, 13 April 2021
- ...see [[Gnaiger 2009 Int J Biochem Cell Biol]]). The S-pathway describes the electron flux through [[Complex II]] (CII; see [[succinate dehydrogenase]], SDH) fro |info=[[Electron-transfer-pathway state]], [[Gnaiger 2020 BEC MitoPathways]], [[Gnaiger 20008 KB (1,053 words) - 08:04, 30 March 2023
- ...nsity interval training (HIIT) induces specific changes in respiration and electron leakage in the mitochondria of different rat skeletal muscles. PLoS One 10: ...strates. Unexpectedly, the HIIT protocol induced different respiration and electron leakage responses in different types of muscle.3 KB (437 words) - 15:45, 13 November 2017
- ...ondrial [[coupling-control state]]s. [[Coupling-control state]]s require [[Electron-transfer-pathway state|ET-pathway competent states]], including oxygen supp ...ways are stimulated by fuel substrates (CHNO) feeding electrons into the [[Electron transfer pathway]] at different levels of integration and in the presence o15 KB (1,913 words) - 19:27, 25 August 2023
- ...must be defined in terms of both, the [[coupling-control state]] and the [[electron-transfer-pathway state]]. ::::* [[OXPHOS]], [[LEAK respiration]], [[Electron transfer pathway|ET-pathway]] (''P, L, E'') - corrected for [[ROX]]. ''CCR'3 KB (400 words) - 15:50, 15 August 2021
