Coupling-control ratio: Difference between revisions
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{{MitoPedia | {{MitoPedia | ||
|abbr=''CCR'' | |abbr=''CCR'' | ||
|description='''Coupling-control ratios''', ''CCR'', are [[flux control ratio]]s, ''FCR'', at a constant mitochondrial [[pathway-control state]]. In mitochondrial preparations, there are three well-defined coupling states of respiration, ''L'', ''P'', ''E'' ([[LEAK]], [[OXPHOS]], [[ | |description='''Coupling-control ratios''', ''CCR'', are [[flux control ratio]]s, ''FCR'', at a constant mitochondrial [[pathway-control state]]. In mitochondrial preparations, there are three well-defined coupling states of respiration, ''L'', ''P'', ''E'' ([[LEAK]], [[OXPHOS]], [[Electron transfer pathway]]). In living cells, the OXPHOS state cannot be induced, but a [[ROUTINE]] state of respiration, ''R'', can be measured. The reference state, ''J''<sub>ref</sub>, is defined by taking ''J''<sub>ref</sub> as the maximum flux, i.e. flux in the ET state, ''E'', such that the lower and upper limits of the ''CCR'' are defined as 0.0 and 1.0. Then there are two mitochondrial ''CCR'', [[L/E|''L/E'']] and [[P/E|''P/E'']], and two ''CCR'' for living cells, [[L/E|''L/E'']] and [[R/E control ratio|''R/E'']]. | ||
|info=[[Flux control ratio]] | |info=[[Flux control ratio]] | ||
}} | }} |
Revision as of 09:32, 3 June 2020
Description
Coupling-control ratios, CCR, are flux control ratios, FCR, at a constant mitochondrial pathway-control state. In mitochondrial preparations, there are three well-defined coupling states of respiration, L, P, E (LEAK, OXPHOS, Electron transfer pathway). In living cells, the OXPHOS state cannot be induced, but a ROUTINE state of respiration, R, can be measured. The reference state, Jref, is defined by taking Jref as the maximum flux, i.e. flux in the ET state, E, such that the lower and upper limits of the CCR are defined as 0.0 and 1.0. Then there are two mitochondrial CCR, L/E and P/E, and two CCR for living cells, L/E and R/E.
Abbreviation: CCR
Reference: Flux control ratio
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- Free OXPHOS capacity, โP = P-L
- OXPHOS coupling efficiency, jโP = โP/P = 1-L/P
- Free ROUTINE activity, โR = R-L
- ROUTINE coupling efficiency, jโR = โR/R = 1-L/R
- LEAK control ratio, L/E
- Free ET-capacity, โE = E-L
- ET-coupling efficiency, jโE = โE/E = 1-L/E
- netOXPHOS control ratio, โP/E=(P-L)/E
- Free OXPHOS capacity, โP = P-L
- netROUTINE control ratio, โR/E=(R-L)/E
- Free ROUTINE activity, โR = R-L
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- More details ยป ET-coupling efficiency
- OXPHOS-control ratio, P/E
- Excess E-P capacity, ExP = E-P
- Excess E-P capacity factor, jExP = ExP/E = 1-P/E
- Excess E-R capacity, ExR = E-R
- Excess E-R capacity factor, jExR = ExR/E = 1-R/E
Compare
- ยป Coupling control factor, CCF = 1-CCR
- ยป Respiratory acceptor control ratio, RCR
References
- Bioblast links: Normalization - >>>>>>> - Click on [Expand] or [Collapse] - >>>>>>>
- Rate
- ยป Normalization of rate
- ยป Flow
- ยป Oxygen flow
- ยป Flux
- ยป Oxygen flux
- ยป Flux control ratio
- ยป Coupling-control ratio
- ยป Pathway control ratio
- ยป Flux control efficiency
- Rate
- Quantities for normalization
- ยป Count in contrast to Number
- ยป Mitochondrial marker
- ยป O2k-Protocols: mitochondrial and marker-enzymes
- ยป Citrate synthase activity
- Quantities for normalization
- General
- ยป Extensive quantity
- ยป Specific quantity
- ยป Advancement
- ยป Motive unit
- ยป Iconic symbols
- General
- Related keyword lists
MitoPedia concepts:
Respiratory control ratio
MitoPedia methods:
Respirometry