Difference between revisions of "Talk:Cell ergometry"

Old nomenclature - Cell ergometry: living cells

Respiratory coupling states in living cells

ROUTINE respiration, R = R´-Rox

Free ROUTINE activity, ≈R = R-L

ET capacity, E = E´-Rox

Free ET capacity, ≈E = E-L

Excess E-R capacity, ExR = E-R

LEAK respiration, L = L´-Rox

Residual oxygen consumption, ROX (subtracted from apparent fluxes (R´, E´, L´)

Respiratory coupling control ratios in living cells

L/R coupling control ratio, L/R

LEAK-control ratio, L/E

ROUTINE-control ratio, R/E

Respiratory coupling control factors in living cells

ROUTINE coupling efficiency: j_≈R = ≈R/R =(R-L)/R = 1-L/R

E-L coupling efficiency, E-L control factor: j_≈E = ≈E/E = (E-L)/E = 1-L/E

Excess E-R capacity factor, E-R coupling control factor: j_ExR = (E-R)/E = 1-R/E

netROUTINE control ratio, ≈R/E control ratio: ≈R/E = (R-L)/E

Gnaiger 2020 BEC MitoPathways: Fig. 2.4.

Cell ergometry: permeabilized cells

Respiratory coupling states in mt-preparations

OXPHOS capacity, P = P´-Rox

Free OXPHOS capacity, ≈P = P-L

ET capacity, E = E´-Rox

Free ET capacity, ≈E = E-L

Excess E-P capacity, ExP = E-P

LEAK respiration, L = L´-Rox

Residual oxygen consumption, Rox (subtracted from P´, E´, L´)

Respiratory coupling control ratios in mt-preparations

L/P coupling control ratio: L/P

LEAK-control ratio, L/E

OXPHOS-control ratio, P/E

Respiratory coupling control factors in mt-preparations

OXPHOS-coupling efficiency, (P-L or ≈P control factor): j_≈P = ≈P/P = (P-L)/P = 1-L/P

E-L coupling efficiency, E-L control factor: j_≈E = ≈E/E = (E-L)/E = 1-L/E

Excess E-P capacity factor, E-P coupling control factor: j_ExP = (E-P)/E = 1-P/E

netOXPHOS control ratio, ≈P/E control ratio: ≈P/E = (P-L)/E

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