E-L net ET capacity: Difference between revisions

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{{MitoPedia
{{MitoPedia
|abbr=''E-L''
|abbr=''E-L''
|description=[[Image:E-L.jpg|50 px|Free ET capacity]] The '''free ET capacity''', ''E-L'', is the [[ET capacity]] corrected for [[LEAK respiration]]. ''E-L'' is the respiratory capacity potentially available for ion transport and phosphorylation of ADP to ATP. Oxygen consumption in the ET-pathway state, therefore, is partitioned into the free ET capacity, ''E-L'', and LEAK respiration, ''L<sub>P</sub>'', compensating for proton leaks, slip and cation cycling: ''E'' = ''E-L''+''L<sub>P</sub>'' (see [[free OXPHOS capacity]]).
|description=[[Image:E-L.jpg|50 px|Net ET-capacity E-L]] The '''net ET-capacity E-L''', ''E-L'', is the [[ET-capacity]] corrected for [[LEAK-respiration]]. ''E-L'' is the respiratory capacity potentially available for ion transport and phosphorylation of ADP to ATP. Oxygen consumption in the ET-pathway state, therefore, is partitioned into the net ET-capacity ''E-L'', and LEAK-respiration, ''L<sub>P</sub>'', compensating for proton leaks, slip and cation cycling: ''E'' = ''E-L''+''L<sub>P</sub>'' (see [[Net OXPHOS-capacity P-L]]).
|info=[[Gnaiger 2020 MitoPathways]]
|info=[[Gnaiger 2020 MitoPathways]]
}}
}}
ย  Communicated by [[Gnaiger E]] (2014-09-21) last upate 2020-11-07.
ย  Communicated by [[Gnaiger E]] (2014-09-21) last upate 2020-11-07.
[[File:EPL-free and excess.jpg|right|300px|thumb|[[Gnaiger 2020 MitoPathways |The Blue Book 2020]]]]


== Coupling control states for ''E-L'' ==
== Keywords ==
::ยป [[Respiratory state]]
{{Template:Keywords: Coupling control}}
* [[Reference state]], rate ''Z<sub>X</sub>'': [[Image:E.jpg|link=ET capacity|ET capacity]] [[ET capacity]]; ''E'' = ''Eยด''-''Rox''
* [[Background state]], rate ''Y<sub>X</sub>'': [[Image:L.jpg|link=LEAK respiration|LEAK]] [[LEAK respiration]]; ''L'' = ''Lยด''-''Rox''
* [[Metabolic control variable]], ''X=Z<sub>X</sub>-Y<sub>X</sub>'': [[Image:E-L.jpg|50 px|link=Free ET capacity |Free ET capacity]] Scope of uncoupler stimulation, [[Free ET capacity]] ''E-L''
ย 
ย 
== Flux control efficiency ==
::ยป [[Flux control efficiency]], ''j<sub>Z-Y</sub>''
* [[Coupling control efficiency]], 1-''Y<sub>X</sub>/Z<sub>X</sub>'': [[Image:j--E.jpg|50 px|link=ET-coupling efficiency |ET-coupling efficiency]] ''E-L'' coupling control efficiency, [[ET-coupling efficiency]]: ''j<sub>E-L</sub>'' = (''E-L'')/''E'' = 1-''L/E''
ย 
ย 
== Compare ==
* mt-Preparations [[Image:P-L.jpg|50 px|link=Free OXPHOS capacity |Free OXPHOS capacity]] [[Free OXPHOS capacity]], ''P-L''
* Intact cells [[Image:R-L.jpg|50 px|link=Free ROUTINE activity |Free ROUTINE activity]] [[Free ROUTINE activity]], ''R-L''

Revision as of 03:18, 9 November 2020


high-resolution terminology - matching measurements at high-resolution


E-L net ET capacity

Description

Net ET-capacity E-L The net ET-capacity E-L, E-L, is the ET-capacity corrected for LEAK-respiration. E-L is the respiratory capacity potentially available for ion transport and phosphorylation of ADP to ATP. Oxygen consumption in the ET-pathway state, therefore, is partitioned into the net ET-capacity E-L, and LEAK-respiration, LP, compensating for proton leaks, slip and cation cycling: E = E-L+LP (see Net OXPHOS-capacity P-L).

Abbreviation: E-L

Reference: Gnaiger 2020 MitoPathways 

Communicated by Gnaiger E (2014-09-21) last upate 2020-11-07.

Keywords

  • The Blue Book 2020
    The Blue Book 2020
  • OXPHOS-, ROUTINE-, ET-, and LEAK states; respiratory capacities (P, R, E, L) corrected for residual oxygen consumption Rox.

    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 Pยป (ADP to ATP) without competing with Pยป.

    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 Pยป (ADP to ATP) without competing with Pยป.

  • Flux control ratios related to coupling.png
  • Net, excess, and reserve capacities PREL.png
  • (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.

    (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.


Questions.jpg


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1. Mitochondrial and cellular respiratory rates in coupling-control states

OXPHOS-coupled energy cycles. Source: The Blue Book
ยป Baseline state
Respiratory rate Defining relations Icon
OXPHOS capacity P = Pยด-Rox P.jpg mt-preparations
ROUTINE respiration R = Rยด-Rox R.jpg living cells
ET capacity E = Eยด-Rox E.jpg ยป Level flow
ยป Noncoupled respiration - Uncoupler
LEAK respiration L = Lยด-Rox L.jpg ยป Static head
ยป LEAK state with ATP
ยป LEAK state with oligomycin
ยป LEAK state without adenylates
Residual oxygen consumption Rox L = Lยด-Rox ROX.jpg
  • Chance and Williams nomenclature: respiratory states
ยป State 1 โ€”ยป State 2 โ€”ยป State 3 โ€”ยป State 4 โ€”ยป State 5

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

ยป Flux control ratio
ยป Coupling-control ratio
ยป Coupling-control protocol
FCR Definition Icon
L/P coupling-control ratio L/P L/P coupling-control ratio ยป Respiratory acceptor control ratio, RCR = P/L
L/R coupling-control ratio L/R L/R coupling-control ratio
L/E coupling-control ratio L/E L/E coupling-control ratio ยป Uncoupling-control ratio, UCR = E/L (ambiguous)
P/E control ratio P/E P/E control ratio
R/E control ratio R/E R/E control ratio ยป Uncoupling-control ratio, UCR = E/L
net P/E control ratio (P-L)/E net P/E control ratio
net R/E control ratio (R-L)/E net R/E control ratio

3. Net, excess, and reserve capacities of respiration

Respiratory net rate Definition Icon
P-L net OXPHOS capacity P-L P-L net OXPHOS capacity
R-L net ROUTINE capacity R-L R-L net ROUTINE capacity
E-L net ET capacity E-L E-L net ET capacity
E-P excess capacity E-P E-P excess capacity
E-R reserve capacity E-R E-R reserve capacity

4. Flux control efficiencies related to coupling-control ratios

ยป Flux control efficiency jZ-Y
ยป Background state
ยป Reference state
ยป Metabolic control variable
Coupling-control efficiency Definition Icon Canonical term
P-L control efficiency jP-L = (P-L)/P = 1-L/P P-L control efficiency P-L OXPHOS-flux control efficiency
R-L control efficiency jR-L = (R-L)/R = 1-L/R R-L control efficiency R-L ROUTINE-flux control efficiency
E-L coupling efficiency jE-L = (E-L)/E = 1-L/E E-L coupling efficiency E-L ET-coupling efficiency ยป Biochemical coupling efficiency
E-P control efficiency jE-P = (E-P)/E = 1-P/E E-P control efficiency E-P ET-excess flux control efficiency
E-R control efficiency jE-R = (E-R)/E = 1-R/E E-R control efficiency E-R ET-reserve flux control efficiency

5. General

ยป Basal respiration
ยป Cell ergometry
ยป Dyscoupled respiration
ยป Dyscoupling
ยป Electron leak
ยป Electron-transfer-pathway state
ยป Hyphenation
ยป Oxidative phosphorylation
ยป Oxygen flow
ยป Oxygen flux
ยป Permeabilized cells
ยป Phosphorylation system
ยป Proton leak
ยป Proton slip
ยป Respiratory state
ยป Uncoupling


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