|
Properties of yeast glycolytic enzymes (protein abundance, mRNA abundance, and flux)
|
Budding yeast Saccharomyces cerevisiae |
Table - link |
N/A |
101928 |
Dan G Fraenkel. The top... |
|
Flux of glucose-derived two-carbon units into the TCA [tricarboxylic acid] cycle consumed the following fraction of pyruvate:
|
Various |
in E. coli 24%: in mammalian iBMK cell 13%: in yeast 2% |
% of pyruvate made |
112685 |
Park JO et al., Metabolite... |
|
ATP flux through VDAC1 (voltage-dependent anion channel 1) in high ATP concentrations
|
Bread mold Neurospora crassa |
50000 |
ATP/sec |
116877 |
Choudhary OP, Paz A,... |
|
Fraction of the total flux to 14CO2 via the oxidative limb of the pentose phosphate pathway (OPPP)
|
Bacteria Escherichia coli |
Table - link |
N/A |
110837 |
Shearer G, Lee JC, Koo JA... |
|
Estimated intracellular metabolic fluxes applying isotopic (non)-stationary MFA (metabolic flux analysis)
|
Bacteria Corynebacterium glutamicum |
Table - link |
mmol/gCDW/h |
109704 |
Noack S, Nöh K, Moch M... |
|
The DMS concentrations and sea-to-air flux from the major ecological regions of the world ocean
|
Biosphere |
Table - link |
N/A |
107540 |
Andreae MO, Raemdonck... |
|
Glycolytic flux and intermediary concentrations obtained in vivo (cells) and by in silico modeling for AS-30D cells
|
Rat Rattus norvegicus |
Table - link |
N/A |
107335 |
Marín-Hernández A et al.... |
|
Fraction of the electron flux through any particular enzyme that is likely to be intercepted by O2
|
Bacteria Escherichia coli |
0.1-1.0 |
% |
112942 |
Imlay JA. The molecular... |
|
Characteristics of flux distributions producing the 20 amino acids from glucose, glycerol, and acetate
|
Bacteria Escherichia coli |
Table - link |
N/A |
109360 |
Kaleta C, Schäuble S... |
|
Discharge weighted average silicic acid concentration in rivers (for total flux see comments section)
|
Biosphere |
150 |
µM |
114433 |
Tréguer P et al., The... |
|
Anion flux and turnover number of chloride self-exchange, and chloride and bicarbonate self-exchange in fetal red cells
|
Human Homo sapiens |
Table - link |
N/A |
110926 |
Brahm J, Wimberley PD.... |
|
Experimental estimates of flux control coefficients for enzymes in the Calvin–Benson cycle and the pathways of sucrose and starch
|
Plants |
Table - link |
N/A |
107026 |
Stitt M, Lunn J, Usadel... |
|
Some estimates of flux (specific mass transfer) in the supersymplast of some aquatic macrophytes, with data on terrestrial macrophytes for comparison
|
Plants |
Table - link |
N/A |
105377 |
Raven JA (1984) ‘Energetics... |
|
Carbon assimilatory fluxes of a photosynthetic leaf
|
Thale cress Arabidopsis thaliana |
Figure - link |
N/A |
113454 |
Ma F, Jazmin LJ, Young JD... |
|
Relative static permittivity (dielectric constant) of aqueous fluids
|
constants |
80 |
Unitless |
104079 |
Stein, Wilfred D., Channels... |
|
Net rate of photosynthesis JCO2
|
Biosphere |
10 |
µmol CO2/m^2 /sec |
100674 |
Nobel, P. S. "Plant ... |
|
Metabolic fluxes in developing embryos
|
Sunflower Helianthus annuus |
Table - link |
nmol molecule/h/embryo |
108768 |
Alonso AP, Goffman FD... |
|
Source of CO2 released
|
Thale cress Arabidopsis thaliana |
Respiration 60: oxidative pentose phosphate pathway 27: fatty acid synthesis 9 |
% |
109006 |
Williams TC, Poolman MG... |
|
Ratio of linear to cyclic electron flow around PS I is dark adapted leaves
|
Spinach Spinacia oleracea |
0.43 |
unitless |
116137 |
Joliot, Pierre, and Anne... |
|
Ratio of linear to cyclic electron flow around PS I is pre-illuminated leaves
|
Spinach Spinacia oleracea |
1.63 |
unitless |
116138 |
Joliot, Pierre, and Anne... |