Results
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| Property | Organism | Value | Units | ID | Details |
|---|---|---|---|---|---|
| E-alpha-D-Glucose-6-phosphate Dissociation constant | Generic | 0.069 | mM | 101876 | Gerber, G., H. Preissler... |
| Half-life of purified G6PDH (Glucose-6-phosphate dehydrogenase) | Bacteria Escherichia coli | 65.3 (±17.4 Table - link) | hours | 114107 | Schüürmann J et al.,... |
| Kinetic parameters for glucose-6 phosphate dehydrogenase substrates in human erythrocytes | Human Homo sapiens | Table - link | N/A | 101903 | See references in ta... |
| Kinetic values of purified and displayed G6PDH [Glucose-6-phosphate dehydrogenase] | Bacteria Escherichia coli | Table - link | N/A | 114106 | Schüürmann J et al.,... |
| Functional half-life of glucose 6-phosphate dehydrogenase (G6PD) in red blood cells | Human Homo sapiens | 48 | Days | 106465 | Nave KA. Myelination... |
| Apparent penetration of glucose-6-P through microsomal membrane | Rat Rattus norvegicus | Table - link | N/A | 106997 | Ballas LM, Arion WJ.... |
| Km of phosphofructokinase-2 for fructose 6-phosphate | Bacteria Escherichia coli | 58 | µM | 104956 | Baez M, Rodríguez PH... |
| Glucosamine-6-phosphate-induced rate constant of riboswitch | Bacteria Bacillus subtilis | ~100 | min^-1 | 110860 | Breaker RR. Riboswitches... |
| Glucosamine-6-phosphate binding constant to glmS ribozymes | Bacteria Bacillus subtilis | 200 | µM | 110861 | Winkler WC, Nahvi A, Roth A... |
| Fructose-6-phosphate concentration in E. coli grown on synthetic medium containing 0.1 mM phosphate | Bacteria Escherichia coli | 0.95 (±0.2) | mM | 104819 | Danchin A, Dondon L,... |
| Intracellular Hexose-P concentration in glucose-fed, exponentially growing E. coli | Bacteria Escherichia coli | 8.8 | mM | 104695 | Bennett BD, Kimball EH... |
| Concentration of phosphate in glucose medium, aerobic growth | Budding yeast Saccharomyces cerevisiae | 22 (±1) | mM | 106019 | Lagunas R, Gancedo C.... |
| Effects of D-glucose and D-mannose on rate of utilization of glucose 6-P by intact and disrupted microsomes | Rat Rattus norvegicus | Table - link | N/A | 106995 | Arion WJ, Ballas LM, Lange AJ... |
| Fraction of consumed glucose molecules that enter the pentose phosphate pathway | Budding yeast Saccharomyces cerevisiae | 16.2 Batch culture 44.2 Chemostat | % | 105895 | Gombert AK, Moreira dos... |
| Half life of cation-independent mannose-6-phosphate receptor (CI-MPR) protein in HeLa cell | Human Homo sapiens | 26 | hours | 104380 | Ganley IG, Carroll K... |
| Gibbs free energy of hydrolysis of phosphate hydrolysis of several compounds | Generic | Table - link | kJ/mole | 105564 | Joyce J. Diwan Biochemistry... |
| DNA and RNA phosphate backbone corresponds to phosphate concentration of: | Bacteria Escherichia coli | 300 to 400 | mM phosphate | 107112 | Roe AJ, McLaggan D, Davidson... |
| Free energy changes of the pentose phosphate cycles | Green algae Chlorella pyrenoidosa | Table - link | N/A | 105828 | Bassham JA, Krause GH.... |
| Net flux through the oxidative pentose phosphate pathway as fraction of glucose uptake | Various | in E. coli 20%: in yeast 3%: in mammalian iBMK cell 2% | % of glucose uptake | 112684 | Park JO et al., Metabolite... |
| Free cytosolic phosphate concentration | Budding yeast Saccharomyces cerevisiae | 10 - 75 | mM | 107757 | van Eunen K et al., Measuring... |