Difference between revisions of "Template:Keywords-MitoPedia BEC 2020.1"

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Table 8. Terms, symbols, and units including the Keywords—MitoPedia. 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
adenosine diphosphate	ADP	ADP	-	Tab. 1; Fig. 1, 2, 5
adenosine monophosphate	AMP	AMP	-	2 ADP ↔ ATP+AMP
adenosine triphosphate	ATP	ATP	-	Fig. 2, 5
adenylates	Adenine nucleotides	AMP, ADP, ATP	-	Section 2.5.1
alternative quinol oxidase	Alternative oxidase	AOX	-	Fig. 1B
amount of substance X	Amount	n_X or n(X)	[mol]	SI
ATP yield per O₂	ATP yield	Y_P»/O₂	1	P»/O₂ ratio measured in any respiratory state
catabolic rate of respiration	Cell respiration	J_kO₂; I_kO₂	varies	Fig. 1, 3; see flux J and flow I
catabolic reaction	Cell respiration	k	-	Fig. 1, 3
cell count	Count	N_ce	[x]	Tab. 4; Fig. 5; see number of cells
cell-count concentration	Concentration	C_ce	[x∙L^-1]	Tab. 4; C_ce = N_ce∙V^-1
cell mass	Body mass	m_ce	[kg]	Tab. 5; Fig. 5
cell mass, mass per cell	Body mass	M_{N_ce}	[kg∙x^-1]	Tab. 5; Fig. 5
cell-mass concentration in chamber	Concentration	C_{m_ce}	[kg∙L^-1]	see C_{m_s}: Tab. 4; C_{m_ce} = m_ce∙V^-1
cell viability index	Cell viability	VI	-	VI = N_vce∙N_ce^-1 = 1 - N_dce∙N_ce^-1
charge number of entity B	Charge number	z_B	1	Tab. 6; z_O₂ = 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; F₁F_O-ATPase is not a redox proton pump of the ETS, hence the term CV is not recommended
concentration of B, amount	Concentration	c_B = N_B∙V^-1	[mol∙L^-1]	SI: amount of substance concentration [[[Cohen 2008 IUPAC Green Book \|24]]]
concentration of O2, amount	Concentration	c_O₂ = n_O₂∙V^-1	[mol∙L^-1]	Box 2; [O₂]
concentration of X, count	Concentration	C_X = N_X∙V^-1	[x∙L^-1]	Tab. 4 (number concentration [[[Cohen 2008 IUPAC Green Book \|24]]])
count format	Format	N	[x]	Tab. 4, 5; Fig. 5
count of X	Count	N_X	[x]	SI; see number of entities X
coupling control	Coupling control ratio	CCR	-	Section 2.4.1
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 pathway	Electron transfer-pathway	ET-pathway	-	Overview; Fig. 1
electron transfer, state	Electron transfer-pathway	ET	-	Tab. 1; Fig. 2B, 4 (State 3u)
electron transfer system	Electron transfer-pathway	ETS	-	Fig. 2B, 4 (electron transport chain)
entity	Entity	X	[x]	single countable object; Tab. 4
ET-capacity	ET-capacity	E	varies	rate; Tab. 1; Fig. 2
ET-excess capacity	ET-capacity	E-P	varies	Fig. 2
flow, for O₂	Flow	I_O₂	[mol∙s^-1]	system-related extensive quantity; Fig. 5
flux, for O2	Flux	J_O₂	varies	size-specific quantity; Fig. 5
flux control ratio	Flux control ratio	FCR	1	background/reference flux; Fig. 5
inorganic phosphate	Phosphate	P_i	-	Fig. 1C
inorganic phosphate carrier	Phosphate carrier	PiC	-	Fig. 1C
International Union of Pure and Applied Chemistry, IUPAC	IUPAC	IUPAC	-	[[[Cohen 2008 IUPAC Green Book \|24]]]
International System of Units	International System of Units	SI	-	[[[Cohen 2008 IUPAC Green Book \|24]]]
isolated mitochondria	Isolated mitochondria	imt	-	[11]
LEAK-state	LEAK-respiration	LEAK	-	Tab. 1; Fig. 2 (compare State 4)
LEAK-respiration	LEAK-respiration	L	varies	rate; Tab. 1; Fig. 2
living cells	Living cells	ce	-	Tab. 5 (intact cells)
mass, dry mass	Body mass	m_d	[kg]	Fig. 5 (dry weight)
mass, wet mass	Body mass	m_w	[kg]	Fig. 5 (wet weight)
mass concentration of sample s in chamber	Concentration	C_m_s	[kg∙L^-1]	Tab. 4
mass format	Format	m	[kg]	Tab. 4
mass of sample s in a mixture	Mass	m_s	[kg]	SI: mass of pure sample m_S
mass per single object	Body mass	M_{N_X}	[kg∙x1]	Fig. 5; Tab. 4; SI: m(X); compare molar mass M(X)
MITOCARTA	MITOCARTA
mitochondria or mitochondrial	Mitochondria	mt	-	Box 1
mitochondrial concentration	Mitochondrial marker, Concentration	C_mtE = mtE∙V^-1	[mtEU∙L^-1]	Tab. 4
mitochondrial content per X	Mitochondrial marker	mtE_{N_X}	[mtEU∙x^-1]	mtE_{N_X} = mtE∙N_X^-1; Tab. 4
mitochondrial density per m_s	Mitochondrial marker, Density	D_{mtE/m_s}	[mtEU∙kg^-1]	D_{mtE/m_s}=mtE∙m_s^-1; Tab. 4
mitochondrial density per V_s	Mitochondrial marker, Density	D_{mtE/V_s}	[mtEU∙kg^-1]	D_{mtE/V_s}=mtE∙V_s^-1; Tab. 4
mitochondrial DNA	Mitochondria	mtDNA	-	Box 1
mitochondrial elementary marker	Mitochondria	mtE	[mtEU]	quantity of mt-marker; Tab. 4
mitochondrial elementary unit	Mitochondria	mtEU	varies	specific units for mt-marker; Tab. 4
mitochondrial inner membrane	Mitochondrial inner membrane	mtIM	-	Fig. 1; Box 1 (MIM)
mitochondrial outer membrane	Mitochondrial outer membrane	mtOM	-	Fig. 1; Box 1 (MIM)
mitochondrial preparations	Mitochondrial preparations	mt-prep	-	Tab. 5
mitochondrial recovery	Mitochondrial recovery	Y_mtE	1	fraction of mtE recovered from the tissue sample in imt-stock
mitochondrial yield	Mitochondrial yield	Y_mtE/m_s	[mtEU∙kg^-1]	mt-yield in imt-stock per mass of tissue sample; Y_mtE/m_s=Y_mtE∙D_mtE
MitoPedia	MitoPedia, MitoPedia: Respiratory states
molar format	Format	n	[mol]	Tab. 6
molar mass	Molar mass	M_B	[kg∙mol^-1]	compare M_N_B [kg∙x^-1]; SI M(X)
negative	Protonmotive force	neg	-	Fig. 4
normalization of rate	Normalization of rate	-	-	Tab. 4; Fig. 5
number of cells	Count	N_ce	[x]	total cell count of living cells, N_ce = N_vce + N_dce; Tab. 4, 5
number of dead cells	Cell viability	N_dce	[x]	non-viable cell count, loss of plasma membrane barrier function; Tab. 5
number of entities B	Count	N_B	[x]	Tab. 4 [[[Cohen 2008 IUPAC Green Book \|24]]]
number of entities X; count	Count	N_X	[x]	‘count’ is an SI quantity [11], but the counting unit [x] is not in the SI [95]; Tab. 4; Fig. 5
number of viable cells	Cell viability	N_vce	[x]	viable cell count, intact plasma membrane barrier function; Tab. 5
organisms	Organism	org	-	Tab. 5
oxidative phosphorylation	Oxidative phosphorylation	OXPHOS	-	Tab. 1
OXPHOS-capacity	OXPHOS-capacity	P	varies	rate; Tab. 1; Fig. 2
OXPHOS-state	OXPHOS-capacity	OXPHOS	-	Tab. 1; Fig. 2; OXPHOS-state distinguished from the process OXPHOS (State 3 at kinetically-saturating [ADP] and [P_i])
oxygen concentration	Oxygen concentration	c_O₂ = n_O₂∙V^-1	[mol∙L^-1]	[O₂]; Section 3.2
oxygen solubility	Oxygen solubility	S_O₂	[µmol·kPa^-1]	Section 2.6.3
oxygen flux, in reaction r	Oxygen flux	J_rO₂	varies	Overview
pathway control state	Pathway control state	PCS	-	Section 2.2
permeability transition	Permeability transition	mtPT	-	Fig. 3; Section 2.4.3 (MPT)
permeabilized cells	Permeabilized cells	pce	-	experimental permeabilization of plasma membrane; Tab. 5
permeabilized muscle fibers	Permeabilized muscle fibers	pfi	-	Tab. 5
permeabilized tissue	Permeabilized tissue	pti	-	Tab. 5
phosphorylation of ADP to ATP	Oxidative phosphorylation	P»	-	Tab. 1, 2; Fig. 1, 4
phosphorylation efficiency	Ergodynamic efficiency	ε	1	Section 2.4.1
P»/O2 ratio	Oxidative phosphorylation	P»/O2	1	mechanistic YP»/O2, calculated from pump stoichiometries; Fig. 1c
positive	positive	Protonmotive force	-	Fig. 4
proton in the neg compartment	Protonmotive force	H⁺_neg	[x]	Fig. 4
proton in the pos compartment	proton in the positive compartment	H⁺_pos	[x]	Fig. 4
protonmotive force	protonmotive force	pmF	[V]	Overview; Tab. 1; Fig 1a, 2, 4
rate in ET-state	ET	E	varies	ET-capacity; Tab. 1; Fig. 2, 4
rate in LEAK-state	LEAK-respiration	L	varies	Tab. 1: L(n), L(T), L(Omy); Fig. 2, 4
rate in OXPHOS-state	OXPHOS-capacity	P	varies	OXPHOS-capacity; Tab.1; Fig. 2, 4
rate in ROX state	Residual oxygen consumption	Rox	varies	Overview; Tab. 1
residual oxygen consumption	Residual oxygen consumption	ROX; Rox	-	state ROX; rate Rox; Tab. 1
respiration	Respirometry	J_rO₂	varies	rate of reaction r; Overview
respiratory state	MitoPedia: Respiratory states	-	-	Tab. 1, 3; Fig. 2, 4
respiratory supercomplex	Supercomplex	SCI_nIII_nIV_n	-	supramolecular assemblies with variable copy numbers (n) of CI, CIII and CIV; Box 1
sample in a mixture	Sample	s	-	diluted sample; Tab. 4, 5
steay state	Steady state	-	-	Section 2.5.6
substrate concentration at half-maximal rate	Concentration	c₅₀	[mol∙L^-1]	Section 2.1.2
substrate-uncoupler-inhibitor-titration	Substrate-uncoupler-inhibitor titration	SUIT	-	Section 2.2
system	System	-	-	Fig. 5
tissue homogenate	Tissue homogenate	thom	-	Tab. 5
uncoupling	Uncoupler titrations	-	-	Tab 2; Fig. 3
viable cells	Viable cells	vce	-	Tab. 5
volume format	Format	V	[L]	Tab. 6
volume of chamber	Volume	V	[L]	Tab. 4, 7; Fig. 5
volume of sample s in a mixture	Volume	V_s	[L]	Tab. 5; Fig. 5

@@ Line 218: / Line 218: @@
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 | substrate-uncoupler-inhibitor-titration || [[Substrate-uncoupler-inhibitor titration]] || SUIT || - || Section 2.2
+|-
+| system || [[System]] || - || - || Fig. 5
 |-
 | tissue homogenate || [[Tissue homogenate]] || thom || - || Tab. 5