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- E-R control efficiency + ([[Image:j(E-R).jpg|50 px|E-R control effic … [[Image:j(E-R).jpg|50 px|E-R control efficiency]] The '''''E-R'' control efficiency''', ''j<sub>E-R</sub>'' = (''E-R'')/''E'' = 1-''R/E'', is an expression of the relative scope of increasing [[ROUTINE respiration]] in living cells by uncoupler titrations to obtain [[ET capacity]]. ''j<sub>E-R</sub>'' = 0.0 for zero ''E-R'' reserve capacity when ''R''=''E''; ''j<sub>E-R</sub>'' = 1.0 for the maximum limit when ''R''=0. The [[ROUTINE]] state of living cells is stimulated to [[electron transfer pathway]] capacity by [[uncoupler]] titration, which yields the [[E-R reserve capacity |''E-R'' reserve capacity]]. Since ET capacity is significantly higher than [[OXPHOS capacity]] in various cell types (as shown by '''[[cell ergometry]]'''), ''j<sub>E-R</sub>'' is not a reserve capacity available for the cell to increase oxidative phosphorylation, but strictly a scope (reserve) for uncoupling respiration. Similarly, the apparent [[E-P excess ET capacity |''E-P'' excess ET capacity]] is not a respiratory reserve in the sense of oxidative phosphorylation.[[E-P excess ET capacity |''E-P'' excess ET capacity]] is not a respiratory reserve in the sense of oxidative phosphorylation.)
