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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
- ...thway state |type N substrates]] & [[succinate]], with convergent electron flow in the NS-pathway for reconstitution of TCA cycle function.216 bytes (27 words) - 15:52, 14 February 2019
- ...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
- ...nate, S, and electron transfer through CII to the Q-junction, with further electron transfer through CIII and CIV to oxygen. Convergent electron flow from a combination of NADH-generating substrates (N) and succinate (S) has2 KB (268 words) - 09:58, 3 June 2020
- ...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
- ::::Β» [[Convergent electron flow]] ::::Β» [[Reverse electron flow from CII to CI]]2 KB (135 words) - 10:18, 3 April 2021
- ...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
- ::::Β» [[Additive effect of convergent electron flow]] ::::Β» [[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 ::::Β» [[Additive effect of convergent electron flow]]1 KB (193 words) - 18:30, 17 March 2022
- ...inhibitors, ''e.g.'' oligomycin. [[Additive effect of convergent electron flow]] through [[N-pathway control state|NADH-]] and [[NS-pathway control state|2 KB (220 words) - 12:55, 25 November 2020
- ...SRot (CII). This documents an additive effect of convergent CI&II electron flow to the Q-junction, with consistent results obtained with permeabilized musc ::::Β» [[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 (975 words) - 13:46, 1 May 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 Β» [[#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
- ...''e.g.'' oligomycin. Optionally, [[additive effect of convergent electron flow]] through [[N-pathway control state|NADH-]] and [[NS-pathway control state| ::::* [[SUIT-008]]: A protocol to evaluate NS-linked pathway in the OXPHOS and ET states.5 KB (641 words) - 12:44, 25 November 2020
- ...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
- ...respiration 24h after focal TBI. These alterations in convergent electron flow though both complex I and II-driven respiration resulted in significantly l4 KB (535 words) - 14:54, 13 November 2017
- ...aldez LB (2016) Mitochondrial nitric oxide production supported by reverse electron transfer. Arch Biochem Biophys 607:8-19. ...t the inhibitory effect of rotenone on NO production is due to an electron flow inhibition and not to a direct action on mtNOS structure. NO production sus2 KB (328 words) - 10:46, 24 June 2019
- ...ion can contribute to increased oxidative stress by triggering the reverse electron transport from the CoQ<sub>10</sub> cycle (Q-junction) to CI. ...ty, as additional uncoupler titration is necessary to reach the maximum O2 flow at this state.3 KB (457 words) - 22:56, 23 September 2023
- ...: Potential mechanism for brain ischemia-reperfusion injury. J Cereb Blood Flow Metab 37:3649-58. |journal=J Cereb Blood Flow Metab2 KB (348 words) - 21:42, 13 April 2022
- ...pacities. There were exercise-induced increases in the tissue-level oxygen flow (IO<sub>2</sub>-tissue [pmolΒ·s<sup>-1</sup> Β·mL blood<sup>-1</sup> ]) for2 KB (337 words) - 15:40, 20 June 2023
- ...physiological relevance, whereas an increased ROS production from forward electron transport may underlay the manifestations of premature aging observed in th3 KB (378 words) - 16:01, 13 November 2017
- ...programming of OXPHOS-capacity. This would be obscured when considerig the electron transfer-pathway (Fig. 1) or ET-capacity as being primarily controlled by t ...rotocols starting with either PM or GM (SUIT 1 and 2), convergent electron flow at the Q-junction in the NADH&succinate (NS) pathway, and azide titrations7 KB (927 words) - 18:53, 10 January 2022
- ...Reductions in nitric oxide (NO) bioavailability can reduce cerebral blood flow, promote the deposition of Ξ²-amyloid (AΞ²), and contribute to mitochondria ...carbonyl cyanide m-chlorophenyl hydrazine (CCCP) (0.5 Β΅M/step) to achieve NS-linked ET capacity (NS<sub>''E''</sub>). Next, we titrated rotenone (0.5 Β΅M) to m6 KB (904 words) - 08:41, 28 July 2022
- ...omplex II (CII) convergent electron flow to the Q-junction and to identify electron transport system (ETS) alterations in fresh PCa tissue. The results documen |keywords=TCA cycle, Citrate, Electron transport system, Respiratory analysis2 KB (313 words) - 18:32, 3 November 2022
- |title=The functional design of the electron transfer system (ETS) and mitochondrial respiratory control. ...(permeabilized cells and tissues, homogenates, isolated mitochondria). The electron transfer-pathway (ET) capacity of mt-preparations depends on (i) substrate7 KB (953 words) - 18:33, 10 January 2022
- ...xcess Complex IV capacity above NS-pathway capacity. In contrast, electron flow reached only 60% when supported by succinate alone through Complexes II, II3 KB (477 words) - 11:08, 27 November 2021
- ...and female offspring were collected at postnatal days (PD) 1, 14, and 28. Electron transport system and fatty acid Ξ²-oxidation capacities were assessed in pe ...w through complexes I and II; P=0.06), and the succinate-pathway (electron flow through complex II; P=0.02) were reduced in ID male pups only, while comple4 KB (583 words) - 13:01, 17 September 2019
- ...are protons pumped out of the matrix phase to the positive P-phase. Proton flow to the negative matrix phase (H<sup>+</sup><sub>in</sub>) drives the phosph ...n flux]] in state ''P'', ''J''<sub>O<sub>2</sub>''P''</sub> or as [[oxygen flow]] in state ''P'', ''I''<sub>O<sub>2</sub>''P''</sub>. If these conditions a6 KB (808 words) - 01:02, 31 December 2020
- ...ate an important link between ischemic tissue bioenergetics and limb blood flow and indicate that the mitochondria may be a pharmaceutical target for thera2 KB (296 words) - 15:17, 28 March 2018
- ...s. Our results suggest that by regulating calcium uptake the mitochondrial electron transfer system is a hub for coordinating cellular adaption under functiona3 KB (366 words) - 13:55, 1 May 2024
- ...the Q-cycle, providing diagnostic information on specific branches of the Electron transfer pathway. Oxygen levels are maintained above air saturation in prot ...esence of a cocktail of Complex I-linked substrates (glutamate&malate) and electron transferring flavoprotein-linked substrate (octanoylcarnitine). It is sugge8 KB (1,056 words) - 10:11, 23 May 2022
- ...te β and transfer electrons to Q followed by oxidation via Complex III and electron transfer to Complex IV and O<sub>2</sub>. Respiratory rates are modulated b ...d, when the phosphorylation system does not limit respiration and electron flow exerts a maximum pull effect downstream of the Q-junction.4 KB (580 words) - 18:34, 5 May 2022
- ...on octanoylcarnitine+malate+pyruvate+succinate fueling convergent electron flow from fatty acid oxidation, NADH-linked pathway and succinate (FNS<sub>''P''5 KB (623 words) - 11:22, 17 January 2019
- ...bition of Indo. This metabolic effect in concert with a reduction of blood flow likely accounts for ''in-vivo'' changes in muscle O<sub>2</sub> consumption2 KB (347 words) - 17:00, 9 November 2017
- ...al respiration tested, including forward, reverse, and convergent electron flow. Alternative oxidase activity does not seem to explain these differences. H3 KB (376 words) - 16:44, 21 November 2018
- ...ystem, reflect the balance between (''1'') reducing capacities of electron flow from fuel substrates converging at the Q-junction, (''2'') oxidative capaci ...upercomplex organization. The direct proportionality of CoQ2 reduction and electron input capacities through the CI-Q-CIII and CII-Q-CIII segments suggests tha5 KB (767 words) - 08:41, 8 January 2023
- ...mitochondrial respiratory capacity by temperature in mouse heart: electron flow through the Q-junction in permeabilized fibers. Sci Rep 7:2840. - [[Lemieux2 KB (205 words) - 12:34, 3 November 2018
- ...ystem, reflect the balance between (''1'') reducing capacities of electron flow from fuel substrates converging at the Q-junction, (''2'') oxidative capaci ...organization. The direct proportionality of CoQ<sub>2</sub> reduction and electron input capacities through the CI-Q-CIII and CII-Q-CIII segments suggests tha6 KB (810 words) - 16:37, 21 January 2024
- ...Ξ²-oxidation, generating (enzyme-bound) FADH<sub>2</sub>, the substrate of electron transferring flavoprotein (CETF). Succinate does not belong to the type 4 s ...mitochondrial respiratory capacity by temperature in mouse heart: electron flow through the Q-junction in permeabilized fibers. Sci Rep 7:2840. - [[Lemieux6 KB (827 words) - 11:51, 3 November 2018
- ...mitochondrial respiratory capacity by temperature in mouse heart: electron flow through the Q-junction in permeabilized fibers. Sci Rep 7:2840, DOI:10.10384 KB (513 words) - 18:56, 22 May 2019
- ...activating convergent electron flow from CI+II into the Q junction of the electron transport system (ET-pathway); CII_P, 302.26 +/- 50.16 (CII dependent OXPHO2 KB (325 words) - 11:42, 23 January 2019
- ...ion improves walking performance. Exercise does not usually increase blood flow, but seems to increase muscle mitochondrial enzyme activities. Although exe ...F)P (p = 0.0005), complex I + complex II (CI + CII + ETF)P (p = 0.011) and electron transfer-pathway capacity (CI + CII + ETF)E (p = 0.021) and OXPHOS coupling3 KB (425 words) - 09:57, 11 June 2018
- ...-pathway flux"? - The NS-pathway is defined as the pathway with convergent electron input into the Q-junction from N- and S-substrates. N+S is the algebraic su ...nd Figure 1: 'A simplistic view of this convergence predicts that electron flow from N-pathway substrates sum with succinate (S-pathway) electrons to accou10 KB (1,472 words) - 12:58, 26 May 2022
- ...is simultaneous electron transfer from FAO into the Q-junction through the electron transferring flavoprotein dehydrogenase complex (CETFDH) and Complex I. <br - Β»'''[[Additive effect of convergent electron flow]]'''Β« <br>6 KB (800 words) - 08:49, 6 May 2024
- ...es for ETFP, electron transport system capacity (ET-pathway), and electron flow specific to complex II (CIIP) (P < 0.05). Collectively, these findings supp2 KB (354 words) - 21:47, 8 March 2020
- ...rol 3-phosphate. Our results underscore the critical importance of reverse electron transfer in the brain, where a significant amount of succinate can be accum ...ation, Antimycin A, Complex I, Ischemia/reperfusion, Mitochondria, Reverse electron transfer3 KB (461 words) - 21:43, 13 April 2022
- ...tochondrial protein synthesis and respiration increase with low-load blood flow restricted as well as high-load resistance training. Front Physiol 9:1796. ...ise with high loading may not constitute a viable approach. Low-load blood flow restricted resistance exercise (BFRRE) has emerged as a time-effective low-4 KB (476 words) - 12:39, 8 August 2019
- ...Dennis KMJH, van Loon LJC, Burr JF, Goossens GH, Holloway GP (2019) Blood flow restricted resistance exercise and reductions in oxygen tension attenuate m ...submaximal (βΌ50-fold) mitochondrial ROS emission rates and the fraction of electron leak to ROS compared to room air (200 ΞΌm). Combined, these data demonstrat3 KB (407 words) - 15:26, 15 October 2019
- ...ix-targeted ubiquinone MitoQ<sub>10</sub> acts as anti-oxidant at retarded electron transport or proton pumping within Complex I. Int J Biochem Cell Biol 41:16 ...omplex I-derived superoxide generation is already elevated due to electron flow retardation. Moreover, unlike mitochondrial uncoupling, MitoQ<sub>10</sub>3 KB (405 words) - 15:40, 13 November 2017
- ...y inhibition in C2C12 myoblasts could be attenuated by convergent electron flow into CIII, restoring respiration up to 89% of control. In conclusion, CIII2 KB (278 words) - 14:36, 27 March 2018
- ...> production driven by the [[Reverse electron flow from CII to CI| reverse electron transfer]] (RET) in isolated mitochondria, tissue homogenate and permeabili4 KB (625 words) - 12:09, 7 March 2024
- ...on. As a consequence, convergent electron flow from Complexes CI+II of the electron transfer-pathway ([[ET-pathway]]) to the [[Q-junction]] exerts an additive3 KB (393 words) - 18:20, 10 January 2022
- ...rrest underwent high-resolution respirometry to evaluate the mitochondrial electron transport system and immunohistochemical analyses to assess neuropathology. ...on pressure (25.0β―Β±β―2.6 vs. 19.1β―Β±β―1.8β―mmHg; pβ―=β―0.02); and cerebral blood flow relative to baseline (rCBF: 243.2β―Β±β―54.1 vs. 115.5β―Β±β―37.2%; pβ―=3 KB (400 words) - 10:38, 22 July 2021
- ...ntration in increased). These changes include altered directional electron flow, altered NADH/NAD<sup>+</sup> redox cycling, metabolite exit, and OAA inhib2 KB (299 words) - 16:52, 9 November 2017
- ...with muscle-specific knockout of STAT3 (mKO). First, we developed a novel flow cytometry-based approach to confirm that STAT3 is present in skeletal muscl2 KB (319 words) - 11:27, 3 March 2020
- ...ependent of the CHO substrate combination supporting CI&II-linked electron flow in the presence or absence of 0.2 mM octanoyl carnitine (FAO).6 KB (853 words) - 18:30, 10 January 2022
- ::::* Flux and flow: clarification of normalization. ::::* '''[[Electron transfer pathway]]'''12 KB (1,564 words) - 23:40, 25 January 2021
- ...m ischemia is defined as the time interval after the interruption of blood flow while the tissue remains at body temperature. The evaluation of mitochondri ...ude fatty acid oxidation F-, NADH N-, succinate S-, glycerol phosphate Gp- electron transfer (ET) pathways. Fluxes were normalized by tissue or protein mass, o3 KB (478 words) - 13:44, 18 April 2023
- ...h Gnaiger.jpg|left|90px|Erich Gnaiger]] Mitochondrial states and rates: 1. Electron transfer pathways and respiratory control. 2. Coupling control. ...er-inhibitor titrations ([[SUIT]]) are applied to experimentally control [[electron transfer-pathway]]s in [[mitochondrial preparations]]. Complementary to [[p10 KB (1,441 words) - 23:46, 25 January 2021
- ...d, in an FAD reduction assay, that SNAP blocked the intrinsic SDH electron flow in much the same way as thenoyltrifluoroacetone (TTFA), a noncompetitive SD2 KB (337 words) - 10:17, 9 November 2016
- ...vel, supported by increased LEAK respiration, and a drastic drop in oxygen flow devoted to ADP phosphorylation in respirometry measurements. Furthermore, p3 KB (367 words) - 17:36, 5 October 2023
- ...ons were essentially normalized by AOX, showing that the restored electron flow upstream of cIII was sufficient to prevent cardiac energetic crisis and det2 KB (347 words) - 10:12, 8 June 2020
- ...flux]] in the LEAK state, ''J''<sub>O<sub>2</sub>''L''</sub>, or [[oxygen flow]], ''I''<sub>O<sub>2</sub>''L''</sub>). If these conditions are defined and ...ing. 2[H] indicates the reduced hydrogen equivalents of CHO substrates and electron transfer to oxygen. H<sup>+</sup><sub>out</sub> are protons pumped out of t12 KB (1,658 words) - 01:03, 31 December 2020
- ...M succinate (NS-OXPHOS capacity). 5U: uncoupler titrations to evaluate the electron transfer- (ET-) capacity (NS-ET capacity). 6Rot: inhibition of CI by roteno ...mitochondrial respiratory capacity by temperature in mouse heart: electron flow through the Q-junction in permeabilized fibers. Sci Rep 7:2840. [[SUIT-8_O27 KB (971 words) - 12:55, 21 February 2023
- ...mitochondrial respiratory capacity by temperature in mouse heart: electron flow through the Q-junction in permeabilized fibers. Sci Rep 7:2840. [[Lemieux 23 KB (401 words) - 15:30, 5 January 2022
- ...nate (NS-OXPHOS capacity). :'''5U:''' uncoupler titrations to evaluate the electron transfer- (ET-) capacity (NS-ET capacity). '''6Rot:''' inhibition of CI by ...mitochondrial respiratory capacity by temperature in mouse heart: electron flow through the Q-junction in permeabilized fibers. Sci Rep 7:2840, DOI:10.10388 KB (1,064 words) - 08:25, 8 January 2023
- ! MitoPedia: [[Electron-transfer-pathway state]]s | style="text-align:left"|Convergent CI- and CII-linked electron flow to the [[Q-junction]]62 KB (7,038 words) - 14:31, 22 August 2023
- ...> production driven by the [[Reverse electron flow from CII to CI| reverse electron transfer]] (RET) on isolated mitochondria, tissue homogenate and permeabili5 KB (778 words) - 23:47, 12 April 2021
- ...mitochondrial respiratory capacity by temperature in mouse heart: electron flow through the Q-junction in permeabilized fibers. Sci Rep 7:2840. [[Lemieux 23 KB (422 words) - 15:30, 5 January 2022
- ...ccinate) are added simultaneously, the increased electron flow through the Electron transfer-pathway ([[ET-capacity|''E'', non-coupled]]) allows the detection5 KB (683 words) - 11:16, 8 June 2020
- |description=[[File:E.jpg]] '''T capacity''' is the respiratory electron-transfer-pathway capacity ''E'' of mitochondria measured as oxygen consumpt ...arations supported by an ET-pathway competent state, exemplified as the NS-electron transfer pathway state (CI<small>&</small>II-linked substrate supply). Modi11 KB (1,488 words) - 20:30, 19 March 2022
- ...mitochondrial respiratory capacity by temperature in mouse heart: electron flow through the Q-junction in permeabilized fibers. Sci Rep 7:2840, DOI:10.1038 ::::Β» MitoPathways - the electron transfer-pathway12 KB (1,521 words) - 14:23, 15 May 2023
- ...le electron supply pathways converging at the Q-junction. ET-pathways with electron entry separately through NADH (pyruvate&malate or glutamate&malate) or succ6 KB (850 words) - 12:27, 5 March 2024
- ...x-vivo model of ischemia/reperfusion (I/R) injury. Infarct areas, coronary flow and heart rates were not different between wild-type and BK-/- hearts upon4 KB (507 words) - 13:45, 7 March 2020
- ...mitochondrial respiratory capacity by temperature in mouse heart: electron flow through the Q-junction in permeabilized fibers. Sci Rep 7:2840. - [[SUIT-007 KB (952 words) - 19:05, 10 January 2022
- ...lymphoblastoid cell line and found that the oxidative phosphorylation and electron transfer of the NADH- and succinate-linked pathways, and cytochrome c oxida ...H., Alavi Shoushtari, A. & Villagonzalo, K. A. Targeting the mitochondrial electron transport chain in autism, a systematic review and synthesis of a novel the13 KB (1,727 words) - 08:19, 8 January 2023
- ...rs in bioenergetics''' will provide a fresh look at concepts in a state of flow rather than as fixed paradigms, which tend to be forgotten or distorted wit ...is simultaneous electron transfer from FAO into the Q-junction through the electron transferring flavoprotein dehydrogenase complex (CETFDH) and Complex I. <br29 KB (4,269 words) - 09:03, 13 May 2024
- ...mitochondrial respiratory capacity by temperature in mouse heart: electron flow through the Q-junction in permeabilized fibers. Sci Rep 7:2840. - [[Lemieux13 KB (1,952 words) - 19:12, 10 January 2022
- ...lution respirometry; Oroboros Instruments, Innsbruck, Austria), as well as flow cytometry (BD FACS Canto II, BD Bioscience, San Jose, CA, USA) with the JC- ...itochondrial respirometry capacity by temperaturΔ in mouse heart: electron flow through the Q-junction in permeablized fibres. Sci Rep 7:2840, DOI:10.1038/9 KB (1,293 words) - 04:19, 12 February 2020
- ...mitochondrial respiratory capacity by temperature in mouse heart: electron flow through the Q-junction in permeabilized fibers. Sci Rep 7:2840, DOI:10.10387 KB (913 words) - 11:07, 3 July 2019
- ...es using two isolation methods: differential centrifugation and continuous-flow separation. - [[Garcia-Souza_LF#MitoEAGLE_Short-Term_Scientific_Mission|Β»A ...a 2018 J Cereb Blood Flow Metab|Stepanova ''et al.'' (2018), J Cereb Blood Flow Metab]]33 KB (4,250 words) - 15:07, 2 February 2022
- ...idative phosphorylation (OXPHOS) determined in mitochondrial preparations, electron transfer (ET) capacity, LEAK respiration, and the distinction of uncoupled, ...0001.v1 Gnaiger et al 2000]). The effect of metabolic control variables on flow or flux can be expressed by normalization for rate in a ''reference state''89 KB (12,074 words) - 17:54, 6 May 2024
- ...962) Studies on the electron transfer-pathway. XLII. Reconstitution of the electron transfer-pathway. J Biol Chem 237:2661-9. - [[Hatefi 1962 J Biol Chem |Β»Bi :::# Mitchell P (1961) Coupling of phosphorylation to electron and hydrogen transfer by a chemi-osmotic type of mechanism. Nature 191:144-51 KB (7,005 words) - 04:36, 19 July 2022
- |'''"Our results suggest increased proton and electron leak and a decreased ETS capacity in platelets in chronic smoke-exposed ani |'''"NS-linked OXPHOS and ET capacity [were] decreased after prolonged exposure to BAM15."38 KB (5,234 words) - 13:18, 9 January 2023
- ...te of CI compared to succinate as substrate of CII. Their oxidation is a 2-electron reaction. == Supplement 2. Electron transfer from CI βΆ CII βΆ CIII ==183 members (3 subcategories, 0 files) - 00:00, 28 November 2023
- |'''Coenzyme Q - a mobile redox compound in the electron transfer system '''<br> ...sues and cells. In humans, CoQ<sub>10</sub> occurring in the mitochondrial electron transfer system transfers electrons from dehydrogenases and respiratory com85 KB (11,819 words) - 14:18, 10 January 2022
- |'''"Our results suggest increased proton and electron leak and a decreased ETS capacity in platelets in chronic smoke-exposed ani |'''"NS-linked OXPHOS and ET capacity [were] decreased after prolonged exposure to BAM15."87 KB (11,941 words) - 15:14, 16 November 2023
- ...esidual oxygen consumption, ROX, State 2, State 3, State 4, normalization, flow, flux, O<sub>2</sub> ...bstrates (electron donors) and reduction of O<sub>2</sub> catalysed by the electron transfer system, ETS: ('''mt''') mitochondrial catabolic respiration; ('''c38 KB (5,252 words) - 08:27, 8 January 2023
- ...respiratory states, to protonmotive force, to normalization of respiratory flow and flux; (''3'') the complex thermodynamic treatment in Section 3 of compa ...al determination of mitochondrial content via two-dimensional transmission electron microscopy can have limitations due to the dynamics of mitochondrial size (192 KB (29,606 words) - 09:05, 18 March 2020
- |title=Gnaiger E (2024) Complex II ambiguities β FADH<sub>2</sub> in the electron transfer system. J Biol Chem 300:105470. https://doi.org/10.1016/j.jbc.2023 ...ricarboxylic acid cycle. However, several graphical representations of the electron transfer system depict FADH<sub>2</sub> in the mitochondrial matrix as a su135 KB (18,142 words) - 13:29, 1 May 2024
- ...l count]] β’ [[Coupling-control ratio]] β’ [[Electron transfer pathway]] β’ [[Flow]] β’ [[Flux]] β’ [[Flux control ratio]] β’ [[IUPAC]] β’ [[LEAK respirat ...mitochondrial respiratory capacity by temperature in mouse heart: electron flow through the Q-junction in permeabilized fibers. Sci Rep 7:2840. - [[Lemieux59 KB (8,156 words) - 13:41, 1 May 2024
