Test

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Table 8. Terms, symbols, and units. SI base units are used, except for the liter [L = dm3]. SI refers to ref. [11].

Term Link to MitoPedia term Symbol Unit Links and comments
alternative quinol oxidase] alternative oxidase AOX - Fig. 1B
adenosine monophosphate AMP AMP - 2 ADP ↔ ATP+AMP
adenosine diphosphate ADP ADP - Tab. 1; Fig. 1, 2, 5
adenosine triphosphate ATP ATP - Fig. 2, 5
adenylates adenylates AMP, ADP, ATP - Section 2.5.1
amount of substance X amount nX or n(X) [mol] SI
ATP yield per O2 ATP yield YPΒ»/O2 - PΒ»/O2 ratio measured in any respiratory state
catabolic reaction catabolic reaction k - Fig. 1, 3
catabolic rate of respiration respiration JkO2; IkO2 varies Fig. 1, 3; see flux J and flow I
cell count cell count, count Nce [x] Tab. 4; Fig. 5; see number of cells
cell mass cell mass mce [kg] Tab. 5; Fig. 5
cell mass, mass per cell cell mass MNce [kgβˆ™xΒ­-1] Tab. 5; Fig. 5
cell-mass concentration mass concentration Cmce [kgβˆ™LΒ­-1] see Cms: Tab. 4; Cmce = mceβˆ™V-1
cell-count concentration count concentration Cce [xβˆ™LΒ­-1] Tab. 4; Cce = Nceβˆ™V-1
cell viability index cell viability VI - VI = Nvceβˆ™NceΒ­-1 = 1 - Ndceβˆ™NceΒ­-1
charge number of entity B charge number zB - Tab. 6; zO2 = 4 [[[Cohen 2008 IUPAC Green Book |24]]]
Complexes I to IV Complex I CI to CIV - respiratory ET Complexes are redox proton pumps; Fig. 1B; F1FO-ATPase is not a redox proton pump of the ETS, hence the term CV is not recommended
concentration of X, count concentration CX = NXβˆ™VΒ­-1 [xβˆ™L-1] Tab. 4 (number concentration [[[Cohen 2008 IUPAC Green Book |24]]])
concentration of B, amount concentration cB = NBβˆ™VΒ­-1 [molβˆ™LΒ­-1] SI: amount of substance concentration [[[Cohen 2008 IUPAC Green Book |24]]]
concentration of O2, amount concentration cO2 = nO2βˆ™VΒ­-1 [molβˆ™LΒ­-1] Box 2; [O2]
count of X count NX [x] SI; see number of entities X
coupling control state coupling control state CCS - Section 2.4.1
dead cells cell viability dce - Tab. 5
electrical format format e [C] Tab. 6
electron transfer, state electron transfer state ET - Tab. 1; Fig. 2B, 4 (State 3u)
electron transfer system electron transfer system ETS - Fig. 2B, 4 (electron transport chain)
entity entity X [x] single countable object; Tab. 4
ET-capacity Example Example Example Example
ET-excess capacity Example Example Example Example
flow, for O2 Example Example Example Example
flux, for O2 Example Example Example Example
inorganic phosphate Example Example Example Example
inorganic phosphate carrier Example Example Example Example
isolated mitochondria Example Example Example Example
living cells Example Example Example Example
LEAK-state Example Example Example Example
LEAK-respiration Example Example Example Example
mass concentration of sample s Example Example Example Example
mass format Example Example Example Example
mass of diluted sample Example Example Example Example
mass per single object Example Example Example Example
mass, dry mass Example Example Example Example
mass, wet mass Example Example Example Example
MITOCARTA Example Example Example Example
MitoPedia Example Example Example Example
mitochondria or mitochondrial Example Example Example Example
mitochondrial DNA Example Example Example Example
mitochondrial concentration Example Example Example Example
mitochondrial content Example Example Example Example
mitochondrial density Example Example Example Example
mitochondrial elementary marker Example Example Example Example
mitochondrial elementary unit Example Example Example Example
mitochondrial inner membrane Example Example Example Example
mitochondrial outer membrane Example Example Example Example
mitochondrial recovery Example Example Example Example
mitochondrial yield Example Example Example Example
molar format Example Example Example Example
molar mass Example Example Example Example
negative Example Example Example Example
count format Example Example Example Example
number of cells Example Example Example Example
number of dead cells Example Example Example Example
number of entities B Example Example Example Example
number of entities X; count Example Example Example Example
number of viable cells Example Example Example Example
organisms Example Example Example Example
oxidative phosphorylation Example Example Example Example
OXPHOS-state Example Example Example Example
OXPHOS-capacity Example Example Example Example
oxygen concentration Example Example Example Example
oxygen flux, in reaction r Example Example Example Example
pathway control state Example Example Example Example
permeability transition Example Example Example Example
permeabilized cells Example Example Example Example
permeabilized muscle fibers Example Example Example Example
permeabilized tissue Example Example Example Example
phosphorylation of ADP to ATP Example Example Example Example
PΒ»/O2 ratio Example Example Example Example
positive Example Example Example Example
proton in the negative compartment Example Example Example Example
proton in the positive compartment Example Example Example Example
protonmotive force Example Example Example Example
rate in ET-state Example Example Example Example
rate in LEAK-state Example Example Example Example
rate in OXPHOS-state Example Example Example Example
rate in ROX state Example Example Example Example
residual oxygen consumption Example Example Example Example
respiration Example Example Example Example
respiratory supercomplex Example Example Example Example
sample Example Example Example Example
substrate concentration at half-maximal rate Example Example Example Example
substrate-uncoupler-inhibitor-titration Example Example Example Example
tissue homogenate Example Example Example Example
viable cells Example Example Example Example
volume of chamber Example Example Example Example
volume format Example Example Example Example
volume of sample s volume Vs [L] Fig. 5; Tab. 5


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