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• Net R/E control ratio
  ...ly compensated by an increase of ROUTINE respiration and [[R-L net ROUTINE capacity]], ''R-L'', is maintained constant. {{Template:Keywords: Coupling control}}
  706 bytes (88 words) - 01:13, 31 December 2020
• E-R control efficiency
  |abbr=''j_E-R'' ...ation. Similarly, the apparent [[E-P excess ET capacity |''E-P'' excess ET capacity]] is not a respiratory reserve in the sense of oxidative phosphorylation.
  1 KB (193 words) - 16:32, 13 December 2023
• Biochemical coupling efficiency
  ...'' = ''E''). The biochemical coupling efficiency is independent of kinetic control by the phosphorylation system. ::::* Expand Bioblast links to '''Biochemical coupling efficiency'''
  901 bytes (110 words) - 01:27, 31 December 2020
• E-R reserve capacity
  |abbr=''E-R'' ...ve capacity]] The '''''E-R'' reserve capacity''' is the difference of [[ET capacity]] and [[ROUTINE respiration]]. For further information, see [[Cell ergometr
  582 bytes (68 words) - 01:35, 31 December 2020
• L/R coupling-control ratio
  ...E''), physiological control of energy demand, and limitation by the OXPHOS capacity. {{Template:Keywords: Coupling control}}
  833 bytes (104 words) - 01:32, 31 December 2020
• R/E control ratio
  ...rol ratio is an expression of how close ROUTINE respiration operates to ET capacity. == Boundaries of the ''R/E'' control ratio ==
  2 KB (256 words) - 01:19, 31 December 2020
• MitoPedia: Respiratory control ratios
  ...]] closer with the general concept of [[efficiency]] and linking [[pathway control ratio]]s with the definition of [[additivity]] (Gnaiger 2020). == MitoPedia terms: Respiratory control ratios ==
  2 KB (309 words) - 11:37, 22 March 2022
• Harmonization
  | ''P'' || [[OXPHOS capacity]], in OXPHOS state of mt-preparations || [[State 3]] | ''E'' || [[ET capacity]], electron transfer capacity || maximum respiration; State 3u
  2 KB (263 words) - 14:27, 19 October 2022
• Net P/E control ratio
  ...]] is fully compensated by an increase of OXPHOS capacity and [[net OXPHOS capacity P-L]], ''P-L'', is maintained constant. {{Template:Keywords: Coupling control}}
  657 bytes (86 words) - 01:31, 31 December 2020
• SUIT-003 Ce1;ce2U;ce3Rot;ce4S;ce5Ama
  ::: '''[[SUIT protocol pattern]]:''' linear monodirectional cell [[coupling-control protocol]] (ceCCP) [[File:R;L;E format_(S).jpg|200px]] In the diagrams of coupling-control protocols for intact cells (ceCCP), the steps may be replaced by the respir
  827 bytes (121 words) - 16:33, 3 June 2020
• SUIT-003 Ce1;ce1SD;ce3U;ce4Rot;ce5Ama
  ::: '''[[SUIT protocol pattern]]:''' linear monodirectional cell [[coupling-control protocol]] (ceCCP) [[File:R;L;E format_(S).jpg|200px]] In the diagrams of coupling-control protocols for intact cells (ceCCP), the steps may be replaced by the respir
  828 bytes (121 words) - 16:24, 2 June 2020
• SUIT-003 Ce1;ce3U;ce4Rot;ce5S;ce6Ama
  ::: '''[[SUIT protocol pattern]]:''' linear monodirectional cell [[coupling-control protocol]] (ceCCP) [[File:R;L;E format_(S).jpg|200px]] In the diagrams of coupling-control protocols for intact cells (ceCCP), the steps may be replaced by the respir
  827 bytes (121 words) - 16:24, 2 June 2020
• E-P excess capacity
  ...erts a limiting effect on OXPHOS capacity. In addition, ''E-P'' depends on coupling efficiency, since ''P'' aproaches ''E'' at increasing uncoupling. ::::* Expand Bioblast links to '''''E-P'' excess capacity'''
  774 bytes (96 words) - 01:33, 31 December 2020
• Coupling-control state
  ...r]]s (e.g. [[CCCP]]). [[Coupling-control protocol]]s induce these coupling-control states sequentially at a constant [[electron-transfer-pathway state]]. ...OUTINE respiration|ROUTINE respiration]] [[Image:E.jpg|link=ET capacity|ET capacity]] [[Image:L.jpg|link=LEAK respiration|LEAK respiration]] - [[Image:ROX.jpg|
  2 KB (293 words) - 18:58, 7 February 2021
• E-P control efficiency
  ...oupler]] titration, which yields the [[E-P excess capacity |''E-P'' excess capacity]]. |info=[[Flux control efficiency]], [[Gnaiger 2020 BEC MitoPathways]]
  2 KB (288 words) - 18:29, 1 January 2021
• E-L net ET capacity
  ...nd cation cycling: ''E'' = ''E-L''+''L_P'' (see [[P-L net OXPHOS capacity]]). ::::* Expand Bioblast links to '''''E-L'' net ET capacity'''
  781 bytes (111 words) - 01:32, 31 December 2020
• R-L net ROUTINE capacity
  ...ed in living cells, therefore, is partitioned into the ''R-L'' net ROUTINE capacity, strictly coupled to phosphorylation ''P»'', and nonphosphorylating LEAK r ::::* Expand Bioblast links to '''''R-L'' net ROUTINE capacity'''
  1 KB (201 words) - 01:33, 31 December 2020
• MitoPedia: Respiratory states
  ::: '''Coupling-control states''' - symbols for rates ...OUTINE respiration|ROUTINE-respiration]] [[Image:E.jpg|link=ET capacity|ET capacity]] [[Image:L.jpg|link=LEAK respiration|LEAK respiration]] - [[Image:ROX.jpg|
  2 KB (243 words) - 08:37, 25 November 2023
• Respiratory state
  ...ndrial respiratory states must be defined in terms of both, the [[coupling-control state]] and the [[electron-transfer-pathway state]]. ...R.jpg|right|link=ROUTINE respiration|ROUTINE]] [[Image:E.jpg|right|link=ET capacity|ETS]] [[Image:L.jpg|right|link=LEAK respiration|LEAK]] [[Image:ROX.jpg|righ
  3 KB (400 words) - 15:50, 15 August 2021
• L/E coupling-control ratio
  ...trol ratio is an index of [[uncoupling]] or [[dyscoupling]] at constant ET-capacity. ''L/E'' increases with uncoupling from a theoretical minimum of 0.0 for a {{Template:Keywords: Coupling control}}
  2 KB (237 words) - 21:12, 19 March 2022

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