Template:Keywords: Coupling control: Difference between revisions

Revision as of 04:26, 9 November 2020

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Mitochondrial and cellular respiratory rates in coupling control states

OXPHOS-capacity P = P´-Rox

ROUTINE-respiration R = R´-Rox

ET-capacity E = E´-Rox

LEAK-respiration L = L´-Rox

» LEAK-state with ATP

» LEAK-state with oligomycin

» LEAK-state without adenylates

Residual oxygen consumption Rox

Chance and Williams nomenclature: respiratory states

» State 1

» State 2

» State 3

» State 4

» State 5

Flux control ratios related to coupling in mt-preparations and living cells

L/P coupling control ratio, L/P

» RCR = P/L

L/R coupling control ratio, L/R

LEAK-control ratio, L/E

» UCR = E/L

OXPHOS-control ratio, P/E

ROUTINE-control ratio, R/E

Net OXPHOS-control ratio, (P-L)/E

Net ROUTINE-control ratio, (R-L)/E

Net, excess, and reserve capacities of respiration

Net OXPHOS-capacity P-L, P-L

Net ROUTINE-activity R-L, R-L

Net ET-capacity E-L, E-L

ET-excess capacity E-P, E-P

ET-reserve capacity E-R, E-R

Flux control efficiencies related to coupling control ratios

OXPHOS-coupling efficiency P-L, j_P-L = (P-L)/P = 1-L/P

ROUTINE-coupling efficiency R-L, j_R-L = (R-L)/R = 1-L/R

ET-coupling efficiency E-L, j_E-L = (E-L)/E = 1-L/E

» Biochemical coupling efficiency

ET-excess control efficiency E-P, j_E-P = (E-P)/E = 1-P/E

ET-reserve control efficiency E-R, j_E-R = (E-R)/E = 1-R/E

General

» Basal respiration

» Baseline state

» Dyscoupled respiration

» Dyscoupling

» Electron leak

» ET-coupling efficiency

» Flux control efficiency j_Z-Y

» Flux control ratio

» Oxidative phosphorylation

» Oxygen flow

» Oxygen flux

» Permeabilized cells

» Phosphorylation system

» Proton leak

» Proton slip

» Respiratory acceptor control ratio RCR

» Respiratory state

» Static head

» Uncoupling

```
The Blue Book 2020
```
OXPHOS-, ROUTINE-, ET-, and LEAK states; respiratory capacities (P, R, E, L) corrected for residual oxygen consumption Rox.
4-compartmental OXPHOS model. (1) ET capacity E of the noncoupled electron transfer system ETS. OXPHOS capacity P is partitioned into (2) the dissipative LEAK component L, and (3) ADP-stimulated P-L net OXPHOS capacity. (4) If P-L is kinetically limited by a low capacity of the phosphorylation system to utilize the protonmotive force pmF, then the apparent E-P excess capacity is available to drive coupled processes other than phosphorylation P» (ADP to ATP) without competing with P».
(P-L)/P is the OXPHOS P-L control efficiency. The biochemical coupling efficiency is independent of kinetic control by the phosphorylation system when expressed as the E-L coupling efficiency, (E-L)/E. (E-P)/E is the kinetic E-P control efficiency.

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 ::: <span style="font-size:105%; color:##424242"> '''Bioblast links: Coupling control''' - >>>>>>> - Click on [Expand] or [Collapse] - >>>>>>></span>
 <div class="mw-collapsible-content">
 == Mitochondrial and cellular respiratory rates in coupling control states ==
-:::: [[File:P.jpg |link=OXPHOS-capacity]] [[OXPHOS-capacity]] ''P''
+:::: [[File:P.jpg |link=OXPHOS-capacity]] [[OXPHOS-capacity]] ''P'' = ''P´''-''Rox''
+:::: [[File:R.jpg |link=ROUTINE-respiration]] [[ROUTINE-respiration]] ''R'' = ''R´''-''Rox''
-:::: [[File:R.jpg |link=ROUTINE-respiration]] [[ROUTINE-respiration]] ''R''
+:::: [[File:E.jpg |link=ET-capacity]] [[ET-capacity]] ''E'' = ''E´''-''Rox''
+:::: [[File:L.jpg |link=LEAK-respiration]] [[LEAK-respiration]] ''L'' = ''L´''-''Rox''
-:::: [[File:E.jpg |link=ET-capacity]] [[ET-capacity]] ''E''
+::::» [[LEAK-state with ATP]]
+::::» [[LEAK-state with Omy|LEAK-state with oligomycin]]
-:::: [[File:L.jpg |link=LEAK-respiration]] [[LEAK-respiration]] ''L''
+::::» [[LEAK-state without adenylates]]
 :::: [[File:ROX.jpg |link=Residual oxygen consumption]] [[Residual oxygen consumption]] ''Rox''
@@ Line 28: / Line 27: @@
 == Flux control ratios related to coupling in mt-preparations and living cells ==
-::::* [[L/P coupling control ratio |''L/P'' coupling control ratio]], ''L/P''
+:::: [[Image:L over P.jpg|50 px|link=L/P coupling control ratio |''L/P'' coupling control ratio]] [[L/P coupling control ratio |''L/P'' coupling control ratio]], ''L/P''
-::::* [[L/R coupling control ratio |''L/R'' coupling control ratio]], ''L/R''
+:::::» [[RCR]] = ''P/L''
-::::* [[LEAK-control ratio]], ''L/E''
+:::: [[Image:L over R.jpg|50 px|link=L/R coupling control ratio |''L/R'' coupling control ratio]] [[L/R coupling control ratio |''L/R'' coupling control ratio]], ''L/R''
-::::* [[OXPHOS-control ratio]], ''P/E''
+:::: [[Image:L over E.jpg|50 px|link=LEAK-control ratio |LEAK-control ratio]] [[LEAK-control ratio]], ''L/E''
-::::* [[ROUTINE-control ratio]], ''R/E''
+:::::» [[UCR]] = ''E/L''
+:::: [[Image:P over E.jpg|50 px|link=OXPHOS-control ratio |OXPHOS-control ratio]] [[OXPHOS-control ratio]], ''P/E''
+:::: [[Image:R over E.jpg|50 px|link=ROUTINE-control ratio |ROUTINE-control ratio]] [[ROUTINE-control ratio]], ''R/E''
-::::* [[Net OXPHOS-control ratio]], (''P-L'')/''E''
+:::: [[Image:NetP over E.jpg|60 px|link=Net OXPHOS-control ratio |Net OXPHOS-control ratio]] [[Net OXPHOS-control ratio]], (''P-L'')/''E''
-::::* [[Net ROUTINE-control ratio]], (''R-L'')/''E''
+:::: [[Image:NetR over E.jpg|60 px|link=Net ROUTINE-control ratio |Net ROUTINE-control ratio]] [[Net ROUTINE-control ratio]], (''R-L'')/''E''
 == Net, excess, and reserve capacities of respiration ==
-::::* [[Net OXPHOS-capacity P-L]], ''P-L''
+:::: [[Image:P-L.jpg|50 px|link=Net OXPHOS-capacity P-L |Net OXPHOS-capacity P-L]] [[Net OXPHOS-capacity P-L]], ''P-L''
-::::* [[Net ROUTINE-activity R-L]], ''R-L''
+:::: [[Image:R-L.jpg|50 px|link=Net ROUTINE-activity R-L |Net ROUTINE-activity R-L]] [[Net ROUTINE-activity R-L]], ''R-L''
-::::* [[Net ET-capacity E-L]], ''E-L''
+:::: [[Image:E-L.jpg|50 px|link=Net ET-capacity E-L |Net ET-capacity E-L]] [[Net ET-capacity E-L]], ''E-L''
-::::* [[ET-excess capacity E-P]], ''E-P''
+:::: [[Image:ExP.jpg|60 px|link=ET-excess capacity E-P |ET-excess capacity E-P]] [[ET-excess capacity E-P]], ''E-P''
 ::::* [[ET-reserve capacity E-R]], ''E-R''
@@ Line 49: / Line 50: @@
 == Flux control efficiencies related to coupling control ratios ==
-:::: [[OXPHOS-coupling efficiency P-L]], (''P-L'')/''P'' = 1-''L/P''
+:::: [[Image:j--P.jpg|50 px|link=OXPHOS-coupling efficiency P-L |OXPHOS-coupling efficiency P-L]] [[OXPHOS-coupling efficiency P-L]], ''j<sub>P-L</sub>'' = (''P-L'')/''P'' = 1-''L/P''
-:::: [[ROUTINE-coupling efficiency R-L]], (''R-L'')/''R'' = 1-''L/R''
+:::: [[Image:j--R.jpg|50 px|link=ROUTINE-coupling efficiency R-L |ROUTINE-coupling efficiency R-L]] [[ROUTINE-coupling efficiency R-L]], ''j<sub>R-L</sub>'' = (''R-L'')/''R'' = 1-''L/R''
-:::: [[ET-coupling efficiency E-L]], (''E-L'')/''E'' = 1-''L/E''
+:::: [[Image:j--E.jpg|50 px|link=ET-coupling efficiency |ET-coupling efficiency E-L]] [[ET-coupling efficiency E-L]], ''j<sub>E-L</sub>'' = (''E-L'')/''E'' = 1-''L/E''
-:::: [[ET-excess control efficiency E-P]], (''E-P'')/''E'' = ''1-''P/E''
+:::::» [[Biochemical coupling efficiency]]
-:::: [[ET-reserve control efficiency E-R]], (''E-R'')/''E'' = 1-''R/E''
+:::: [[Image:jExP.jpg|50 px|link=ET-excess control efficiency E-P]] [[ET-excess control efficiency E-P]], ''j<sub>E-P</sub>'' = (''E-P'')/''E'' = ''1-''P/E''
+:::: [[Image:jExR.jpg|50 px|link=ET-reserve control efficiency E-R |ET-reserve control efficiency E-R]] [[ET-reserve control efficiency E-R]], ''j<sub>E-R</sub>'' = (''E-R'')/''E'' = 1-''R/E''
 == General ==
 ::::» [[Basal respiration]]
+::::» [[Baseline state]]
+::::» [[Dyscoupled respiration]]
 ::::» [[Dyscoupling]]
+::::» [[Electron leak]]
 ::::» [[ET-coupling efficiency]]
-::::» [[Flux control efficiency]]
+::::» [[Flux control efficiency]] ''j<sub>Z-Y</sub>''
 ::::» [[Flux control ratio]]
 ::::» [[Oxidative phosphorylation]]
 ::::» [[Oxygen flow]]
 ::::» [[Oxygen flux]]
 ::::» [[Permeabilized cells]]
+::::» [[Phosphorylation system]]
+::::» [[Proton leak]]
+::::» [[Proton slip]]
 ::::» [[Respiratory acceptor control ratio]] RCR
+::::» [[Respiratory state]]
+::::» [[Static head]]
 ::::» [[Uncoupling]]