EC Number |
KM Value [mM] |
KM Value Maximum [mM] |
Substrate |
Reference |
---|
1.11.1.14 | -999 |
- |
more |
bioelectric oxidation of organic substrates by LiP immobilized on graphite electrode |
672362 |
1.11.1.14 | -999 |
- |
more |
comparison of kinetic parameters of tyrosinase (EC 1.14.18.1) and lignin peroxidase (EC 1.11.1.14) (LiP) using veratryl alcohol as the substrate, overview |
744553 |
1.11.1.14 | -999 |
- |
more |
Michaelis-Menten analogous model is applied to fit experimental data of lignin oxidative degradation. The apparent Michaelis constant of purified LiP product (3.02 mg/ml) is lower than that of the crude LiP solution (4.74 mg/ml), and the apparent maximum reaction rate of the purified LiP product (1.15mg/ml/h) is higher than that of the crude LiP solution (0.86 mg/ml/h). The maximum Ytrs (49.8%) is obtained when the beta-glucosidase activity is 0. The activities of LiP, endo-beta-1,4-glucanase and exo-beta-1,4-glucanase are 10.77, 3.360 and 3.427 U/ml (3:1:1), respectively. The components and structure of the substrate is extremely different before and after synergistic action under optimal conditions. Comparison of kinetic parameters between crude enzyme solution and purified product, detailed overview |
765137 |
1.11.1.14 | -999 |
- |
more |
Michaelis-Menten kinetics by mutant enzyme N246A |
763987 |
1.11.1.14 | -999 |
- |
more |
Michaelis-Menten kinetics. The Michaelis-Menten (MM) analogous model suitable for oxidation degradation reaction of lignin containing two parameters, including the apparent maximum rate (ma,max) and apparent Michael constant (ka,m), is deduced. The oxidation degradation of lignin in lignocellullosic biomass in a dilute solution system follows the MM analogous model |
765753 |
1.11.1.14 | -999 |
- |
more |
Michalis-Menten kinetics |
764314 |
1.11.1.14 | 0.009 |
- |
H2O2 |
pH 4.5, 25°C |
741754 |
1.11.1.14 | 0.013 |
- |
methylene blue |
lignine peroxidas activity, pH 3.5, 25°C |
724482 |
1.11.1.14 | 0.0271 |
- |
veratryl alcohol |
20 microM H2O2 |
702749 |
1.11.1.14 | 0.03 |
- |
H2O2 |
- |
394595 |