E-P control efficiency: Difference between revisions
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{{MitoPedia | {{MitoPedia | ||
|abbr=Δ''j<sub>E-P</sub>'', ''CCF<sub>E-P</sub>'' | |abbr=Δ''j<sub>E-P</sub>'', ''CCF<sub>E-P</sub>'' | ||
|description=The '''''E-P'' coupling control factor''', Δ''j<sub>E-P</sub>'' = (''E-P'')/''E'', is the '''apparent ETS excess capacity over ''P'''''; 0.0 for zero excess capacity when ''P''=''E''. The [[OXPHOS]] state of mt-preparations is stimulated to [[ETS]] by [[uncoupler]] titration. Δ''j<sub>E-P</sub>'' | |description=The '''''E-P'' coupling control factor''', Δ''j<sub>E-P</sub>'' = (''E-P'')/''E'', is the '''apparent ETS excess capacity over ''P'''''; 0.0 for zero excess capacity when ''P''=''E''. The [[OXPHOS]] state of mt-preparations is stimulated to [[ETS]] by [[uncoupler]] titration. Δ''j<sub>E-P</sub>'' is zero when the phosphorylation system does not exert any control over OXPHOS capacity (''P''=''E'') and increases with increasing control of the phosphorylation system over OXPHOS capacity in a constant substrate state. | ||
|info=[[Flux control factor]] | |info=[[Flux control factor]] | ||
}} | }} |
Revision as of 10:59, 24 November 2013
Description
[[Description::The E-P coupling control factor, ΔjE-P = (E-P)/E, is the apparent ETS excess capacity over P; 0.0 for zero excess capacity when P=E. The OXPHOS state of mt-preparations is stimulated to ETS by uncoupler titration. ΔjE-P is zero when the phosphorylation system does not exert any control over OXPHOS capacity (P=E) and increases with increasing control of the phosphorylation system over OXPHOS capacity in a constant substrate state.]]
Abbreviation: ΔjE-P, CCFE-P
Reference: [[Info::Flux control factor]]
MitoPedia methods:
Respirometry
MitoPedia topics:
Respiratory control ratio
Compare
- OXPHOS control ratio per ETS (phosphorylation system control ratio)