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• Biochemical coupling efficiency
  ...'' = ''E''). The biochemical coupling efficiency is independent of kinetic control by the phosphorylation system. == Keywords ==
  901 bytes (110 words) - 01:27, 31 December 2020
• L/R coupling-control ratio
  ...ng-control ratio combines the effects of coupling (''L/E''), physiological control of energy demand, and limitation by the OXPHOS capacity. == Keywords ==
  833 bytes (104 words) - 01:32, 31 December 2020
• L/P coupling-control ratio
  ...rol ratio''' or LEAK/OXPHOS coupling-control ratio combines the effects of coupling (''L/E'') and limitation by the phosphorylation system (''P/E''); ''L/P'' = == Keywords ==
  963 bytes (120 words) - 18:26, 1 January 2021
• Uncoupling-control ratio
  ...6 Am J Physiol Cell Physiol|Steinlechner et al 1996]]). Compare [[ROUTINE-control ratio]] (''R/E'') [[Gnaiger 2008 POS|(Gnaiger 2008)]]. == Biochemical coupling efficiency: from 0 to <1 ==
  845 bytes (90 words) - 11:40, 11 November 2020
• Net P/E control ratio
  ...or [[LEAK respiration]]) as a fraction of [[ET capacity]]. The net ''P/E'' control ratio remains constant, if [[dyscoupling]] is fully compensated by an incre == Keywords ==
  657 bytes (86 words) - 01:31, 31 December 2020
• Net R/E control ratio
  ...or [[LEAK respiration]]) as a fraction of [[ET capacity]]. The net ''R/E'' control ratio remains constant, if [[dyscoupling]] is fully compensated by an incre == Keywords ==
  706 bytes (88 words) - 01:13, 31 December 2020
• R-L control efficiency
  |description=[[File:J(R-L).jpg|50 px|R-L ROUTINE-coupling efficiency]] ...The background state is the [[LEAK respiration|LEAK]] state, and the flux control variable is stimulation to ROUTINE respiration by physiologically controlle
  1 KB (179 words) - 20:19, 1 January 2021
• Coupling-control ratio
  ...'P/E'']], and two ''CCR'' for living cells, [[L/E |''L/E'']] and [[ROUTINE-control ratio |''R/E'']]. |info=[[Flux control ratio]], [[Gnaiger 2020 BEC MitoPathways]]
  2 KB (223 words) - 18:57, 7 February 2021
• 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]]. '''Coupling-control states:''' [[Image:P.jpg|link=OXPHOS capacity|OXPHOS capacity]] [[Image:R.j
  2 KB (293 words) - 18:58, 7 February 2021
• R/E control ratio
  ...E respiration]] ''R'' and (noncoupled) [[ET capacity]] ''E''. The ''R/E'' control ratio is an expression of how close ROUTINE respiration operates to ET capa == Boundaries of the ''R/E'' control ratio ==
  2 KB (256 words) - 01:19, 31 December 2020
• L/E coupling-control ratio
  ...f oxygen consumption in ''L'' and ''E'' sequentially. The ''L/E'' coupling-control ratio is an index of [[uncoupling]] or [[dyscoupling]] at constant ET-capac == Keywords ==
  2 KB (237 words) - 21:12, 19 March 2022
• E-R control efficiency
  |description=[[Image:j(E-R).jpg|50 px|E-R control efficiency]] The '''''E-R'' control efficiency''', ''j_E-R'' = (''E-R'')/''E'' = 1-''R/E'', is an exp |info=[[Flux control efficiency]]
  1 KB (193 words) - 16:32, 13 December 2023
• E-P control efficiency
  ...ontrol over OXPHOS capacity. ''j_E-P'' increases with increasing control of the phosphorylation system over OXPHOS capacity. ''j_E-P'' = 1 |info=[[Flux control efficiency]], [[Gnaiger 2020 BEC MitoPathways]]
  2 KB (288 words) - 18:29, 1 January 2021
• 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. == Keywords ==
  774 bytes (96 words) - 01:33, 31 December 2020
• Metabolic control variable
  |description=A '''metabolic control variable''' ''X'' causes the transition between a [[background state]] Y (b |info=[[Flux control efficiency]]
  858 bytes (123 words) - 18:19, 10 November 2020
• E-R reserve capacity
  == Keywords == {{Template:Keywords: Coupling control}}
  582 bytes (68 words) - 01:35, 31 December 2020
• E-L coupling efficiency
  ...ency |''P-L'' control efficiency]] if ''P=E'' as evaluated in a [[coupling-control protocol]]. |info=[[Flux control efficiency]]
  4 KB (522 words) - 23:34, 14 June 2022
• Coupling-control protocol
  ...e consisting of three coupling control states. The term '''phosphorylation control protocol''', PCP, has been introduced synonymous for CCP. ...sted to replace the term 'phosphorylation control protocol' by '''coupling-control protocol, CCP'''.
  6 KB (874 words) - 10:49, 30 October 2023
• E-L net ET capacity
  == Keywords == {{Template:Keywords: Coupling control}}
  781 bytes (111 words) - 01:32, 31 December 2020
• Flux control efficiency
  ...ontrol efficiencies''' express the control of respiration by a [[metabolic control variable]], ''X'', as a fractional change of flux from ''Y_X'' to ...to [[elasticity|elasticities]] of [[metabolic control analysis]], the flux control efficiency of ''X'' upon background ''Y_X'' is expressed as the c
  8 KB (1,272 words) - 18:27, 1 January 2021

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