|
Change of Gibbs free energy in sulfate dependent methane oxidation
|
Generic |
-18 |
kJ/mol |
104424 |
Schink B. Energetics... |
|
Number of protons translocated over the membrane from NADH/ubiquinone oxidation
|
Generic |
10 |
protons |
101773 |
Rich, PR. The molecular... |
|
Carbon and eletron recoveries and oxidation-reduction balance in the acetone-butanol-ethanol fermentation
|
Unspecified |
Table - link |
N/A |
106821 |
Byung Hong Kim, Geoffrey... |
|
Standard oxidation-reduction potentials of respiratory chain components at pH 7.0 and 30°C
|
Unspecified |
Table - link |
Volts |
109086 |
Gerhard Gottschalk, Bacterial... |
|
Oscillatory period for NADPH oxidation in plasma membrane of hypoctyls
|
Soybean Glycine max |
24 |
min |
103669 |
Cárdenas L, McKenna ST... |
|
Oxidation reduction potentials, absorbance bands and molar absorbance of compounds used in biochemical studies
|
Generic |
Table - link |
N/A |
105664 |
Loach, Paul A. Oxidation... |
|
in silico P/O ratio for oxidation of NADH and FADH2 during growth on glucose
|
Budding yeast Saccharomyces cerevisiae |
1.04 |
unitless |
110796 |
Famili I, Forster J,... |
|
Mean free-energy changes for the partial and complete aerobic oxidation of sulfur and its compounds
|
Generic |
Table - link |
N/A |
103645 |
Donovan P. Kelly, Th... |
|
Calculated maximum of sulfide oxidation in the bacterial layer at maximal illumination
|
Unspecified |
1.08 |
μmol H2S C/m^2/hour |
107750 |
Jorg Overmann, Heribert... |
|
Theoretical maximum yield of ATP on complete oxidation of 1 mol of:
|
Bacteria Escherichia coli |
Glucose: 26 mol of ATP: glycerol 15 mol of ATP: acetate 7 mol of ATP |
N/A |
109364 |
Kaleta C, Schäuble S... |
|
Rate of production of single-strand breaks (SSBs) and apurinic/apyrimidinic (AP) sites and oxidation products 8-oxoguanine (8-oxoG) and thymine glycol (TG) in DNA
|
Unspecified |
SSBs and AP sites in vivo ≈600 per h: 8-oxoG ≥≈200/cell/hour: TG ≥100/cell/hour |
N/A |
112979 |
Vilenchik MM, Knudson... |
|
Complete oxidation of 1 mol of glucose, glycerol and acetate leads to a theoretical maximum yield of ATP of
|
Bacteria Escherichia coli |
1 mol glucose 26mol ATP: 1 mol glycerol 15mol ATP: 1 mol acetate 7mol ATP |
mol ATP |
114969 |
Kaleta C, Schäuble S... |
|
Changes of Gibbs free energies under standard conditions in hydrogen-releasing reactions during oxidation of fermentation intermediates
|
Generic |
Table - link |
N/A |
108747 |
Stanley Falkow, Eugene... |
|
Pseudo-first order rate constant of the direct oxidation of reduced Ferredoxin by oxygen
|
Plants |
0.1-0.2 |
sec^-1 |
103371 |
Ivanov BN. Cooperation... |
|
Number of spontaneous lesions that occur in DNA within 24 h as a result of deamination, depurinization, oxidation, and incorrect methylation
|
Human Homo sapiens |
100000 |
Lesions/day |
106789 |
Krutyakov VM, Kravetskaya... |
|
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... |
|
Maximum yield of cytosolic ATP from the complete oxidation of sucrose to CO2 via aerobic glycolysis and the citric acid cycle
|
Unspecified |
Table - link |
ATP per sucrose |
106752 |
Taiz & Zeiger Plant ... |
|
Titre and rate constant (kcat/Km) of alkyl hydroperoxide reductase C (AhpC) and steady state H2O2 (hydrogen peroxide) concentration
|
Bacteria Escherichia coli |
AhpC titre ~5μM: AhpC kcat/Km 4×10^7M^−1×s^−1: H2O2 concentration ~50nM |
N/A |
112944 |
Imlay JA. The molecular... |
|
Aggregate rate of H2O2 [hydrogen peroxide] formation in aerobic E. coli and O2− [superoxide] formation rate
|
Bacteria Escherichia coli |
H2O2 formation rate 10–15 μM per second: O2− formation rate ~5 μM per second |
μM per second |
112943 |
Imlay JA. The molecular... |
|
Oxidative damages to DNA
|
Mammals |
rat ~10^5: human ~10^4 |
oxidative hits/cell/day |
112974 |
Ames BN, Shigenaga MK... |