. 2017 Oct 13;292(48):19556–19564. doi: 10.1074/jbc.M117.804914

Table 2.

Q₁₀ coefficients for reaction fluxes

Reaction and metabolite abbreviations are BiGG database identifiers. GGCT, glutamyl cyclotransferase; GLUCYS, γ-glutamylcysteine synthetase; GTHS, glutathione synthase; GLNS, glutamine synthetase; ADK1 , adenylase kinase; PPA, inorganic diphosphatase; PGK, phosphoglycerate kinase; ENO , enolase; PGM, phosphoglycerate mutase; ADA, adenosine deaminase; PYK, pyruvate kinase; HEX1, hexokinase; AMPDA, adenosine monophosphate deaminase; GAPD, glyceraldehyde-3-phosphate dehydrogenase; PFK , phosphofructokinase; FBA, fructose-bisphosphate aldolase; TPI, triose-phosphate isomerase; PGI, glucose-6-phosphate isomerase; PEPCK, phosphoenolpyruvate carboxylase; NDPK1, nucleoside-diphosphate kinase (ATP:GDP); NTD11, 5′-nucleotidase (IMP); NTD7, 5′-nucleotidase (AMP); PRPPS, phosphoribosylpyrophosphate synthetase; PDE1, 3′,5′-cyclic-nucleotide phosphodiesterase; ADNCYC, adenylate cyclase; DPGase, diphosphoglycerate phosphatase; GLUN, glutaminase; GUAPRT, guanine phosphoribosyltransferase; NTD9, 5′-nucleotidase (GMP); PUNP3, purine-nucleoside phosphorylase (guanosine); PPM, phosphopentomutase; PUNP5, purine-nucleoside phosphorylase (inosine); OPAHir, 5-oxoproline amidohydrolase (ATP-hydrolyzing); P C, pyruvate carboxylase ; HXPRT, hypoxanthine phosphoribosyltransferase; g lucys , γ-l-glutamyl-l-cysteine; 5 oxpro , 5-oxoproline; gthrd, reduced glutathione; 3pg, 3-phospho-d-glycerate; 13dpg, 3-phospho-d-glyceroyl phosphate; 2pg, 2-phospho-d-glycerate; pep, phosphoenolpyruvate; adn, adenosine; ins, inosine; pyr, pyruvate; g6p, d-glucose 6-phosphate; imp, inositate; g3p, glyceraldehyde 3-phosphate; f6p, d-fructose 6-phosphate; fdp, d-fructose 1,6-bisphosphate; dhap, dihydroxyacetone phosphate; oaa, oxaloacetate; r5p, α-d-ribose 5-phosphate; prpp, 5-phospho-α-d-ribose 1-diphosphate; 23dpg, 2,3-disphospho-d-glycerate; gua, guanine; gsn, guanosine; r1p, α-d-ribose 1-phosphate; hxan, hypoxanthine.

Reaction	Q₁₀	R²	Formula
GGCT	1.98	0.93	glucys → 5oxpro + cys-L
GLUCYS	2.06	0.93	atp + cys-L + glu-L → adp + glucys + h + pi
GTHS	2.21	0.93	atp + glucys + gly → adp + gthrd + h + pi
GLNS	2.23	0.91	atp + glu-L + nh4 → adp + gln-L + h + pi
ADK1	2.29	0.91	amp + atp ⇆ 2 adp
PPA	2.40	0.94	h2o + ppi → h + 2 pi
PGK	2.53	0.95	3pg + atp ⇆ 13dpg + adp
ENO	2.57	0.95	2pg ⇆ h2o + pep
PGM	2.57	0.95	2pg ⇆ 3pg
ADA	2.58	0.99	adn + h2o + h → ins + nh4
PYK	2.59	0.95	adp + h + pep → atp + pyr
HEX1	2.60	0.95	atp + glc-D → adp + g6p + h
AMPDA	2.62	0.99	amp + h2o + h → imp + nh4
GAPD	2.63	0.95	g3p + nad + pi ⇆ 13dpg + h + nadh
PFK	2.65	0.96	atp + f6p → adp + fdp + h
FBA	2.65	0.96	fdp ⇆ dhap + g3p
TPI	2.65	0.96	dhap ⇆ g3p
PGI	2.72	0.96	g6p ⇆ f6p
PEPCK	3.04	0.93	gtp + oaa → co2 + gdp + pep
NDPK1	3.04	0.93	atp + gdp ⇆ adp + gtp
NTD11	3.60	0.91	h2o + imp → ins + pi
NTD7	3.70	0.91	amp + h2o → adn + pi
PRPPS	3.78	0.93	atp + r5p ⇆ amp + h + prpp
PDE1	3.79	0.91	camp + h2o → amp + h
ADNCYC	3.79	0.91	atp → camp + ppi
DPGase	3.79	0.91	23dpg + h2o → 3pg + pi
GLUN	3.79	0.91	gln-L + h2o → glu-L + nh4
GUAPRT	3.81	0.91	gua + prpp → gmp + ppi
NTD9	3.81	0.91	gmp + h2o → gsn + pi
PUNP3	3.81	0.91	gsn + pi ⇆ gua + r1p
PPM	4.04	0.95	r1p ⇆ r5p
PUNP5	4.16	0.96	ins + pi ⇆ hxan + r1p
OPAHir	4.26	0.92	5oxpro + atp + 2 h2o → adp + glu-L + h + pi
PC	4.34	0.94	atp + hco3 + pyr → adp + h + oaa + pi
HXPRT	4.54	0.96	hxan + prpp → imp + ppi