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A list of all pages that have property "Description" with value "[[File:J(E-L).jpg|50 px|E-L coupling efficiency]] The '''''E-L'' coupling efficiency''', ''jE-L'' = (''E-L'')/''E'' = 1-''L/E'', is 0.0 at zero coupling (''L''=''E'') and 1.0 at the limit of a fully coupled system (''L''=0). The background state is the [[LEAK respiration|LEAK]] state which is stimulated to flux in the [[electron transfer pathway]] reference state by [[uncoupler]] titration. LEAK states ''L''N or ''L''T may be stimulated first by saturating ADP (rate ''P'' in the OXPHOS state) with subsequent uncoupler titration to the ET state with maximum rate ''E''. The ''E-L'' coupling efficiency is based on measurement of a [[coupling-control ratio]] ([[LEAK-control ratio]], ''L/E''), whereas the thermodynamic or [[ergodynamic efficiency]] of coupling between ATP production (phosphorylation of ADP to ATP) and oxygen consumption is based on measurement of the output/input flux ratio (P»/O2 ratio) and output/input force ratio (Gibbs force of phosphorylation/Gibbs force of oxidation). The [[biochemical coupling efficiency]] expressed as the ''E-L'' coupling efficiency is independent of kinetic control by the ''E-P'' control efficiency, and is equal to the [[P-L control efficiency |''P-L'' control efficiency]] if ''P=E'' as evaluated in a [[coupling-control protocol]]. » [[#Biochemical_coupling_efficiency:_from_0_to_.3C1 | '''MiPNet article''']]". Since there have been only a few results, also nearby values are displayed.

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E-L coupling efficiency + ([[File:J(E-L).jpg|50 px|E-L coupling effic … [[File:J(E-L).jpg|50 px|E-L coupling efficiency]] The '''''E-L'' coupling efficiency''', ''jE-L'' = (''E-L'')/''E'' = 1-''L/E'', is 0.0 at zero coupling (''L''=''E'') and 1.0 at the limit of a fully coupled system (''L''=0). The background state is the [[LEAK respiration|LEAK]] state which is stimulated to flux in the [[electron transfer pathway]] reference state by [[uncoupler]] titration. LEAK states ''L''N or ''L''T may be stimulated first by saturating ADP (rate ''P'' in the OXPHOS state) with subsequent uncoupler titration to the ET state with maximum rate ''E''. The ''E-L'' coupling efficiency is based on measurement of a [[coupling-control ratio]] ([[LEAK-control ratio]], ''L/E''), whereas the thermodynamic or [[ergodynamic efficiency]] of coupling between ATP production (phosphorylation of ADP to ATP) and oxygen consumption is based on measurement of the output/input flux ratio (P»/O2 ratio) and output/input force ratio (Gibbs force of phosphorylation/Gibbs force of oxidation). The [[biochemical coupling efficiency]] expressed as the ''E-L'' coupling efficiency is independent of kinetic control by the ''E-P'' control efficiency, and is equal to the [[P-L control efficiency |''P-L'' control efficiency]] if ''P=E'' as evaluated in a [[coupling-control protocol]].» [[#Biochemical_coupling_efficiency:_from_0_to_.3C1 | '''MiPNet article''']]#Biochemical_coupling_efficiency:_from_0_to_.3C1 | '''MiPNet article''']])

E-L coupling efficiency +