EC Number   |
Application |
Reference |
|---|
   1.11.1.14 | analysis |
different mechanisms for the bioelectrocatalysis of the enzyme depend on the chemical nature of the mediators and are of a special interest both for fundamental science and for application of the enzyme as solid-phase bio(electro)catalyst for decomposition/detection of of recalcitrant aromatic compounds |
672362 |
| 1.11.1.14 | analysis |
evaluation of the effect of enzyme dosage, incubation time, and H2O2 addition profile on lignin activation by quantifying the phenoxy radicals formed using electron paramagnetic resonance spectroscopy. At optimal conditions, i.e. dose of 15 /g and continuous addition of H2O2, the content of phenoxy radicals is doubled as compared with an untreated control |
-, 723975 |
| 1.11.1.14 | biofuel production |
the use of LiP may provide a cost-effective, efficient and greener route for the transformation of biomass into second-generation (2 G) biofuels. Lignin depolymerization is an important step in producing 2 G biofuels and other green chemicals as lignin protects cellulose and hemicellulose against the enzymes required to hydrolyse it to fermentable sugars |
764607 |
| 1.11.1.14 | biotechnology |
Pleurotus ostreatus is a good candidate for scale-up ligninolytic enzyme production |
701587 |
| 1.11.1.14 | degradation |
degradation of different recalcitrant compounds, removal of toxic dyes |
-, 704810 |
| 1.11.1.14 | degradation |
enzyme shows marked dye-decolorization efficiency and stability toward denaturing, oxidizing, and bleaching agents, and compatibility with EcoVax and Dipex as laundry detergents for 48 h at 40°C |
-, 742684 |
| 1.11.1.14 | degradation |
LiPH8 showing high acid stability will be a crucial player in biomass valorization using selective depolymerization of lignin |
764351 |
| 1.11.1.14 | degradation |
the electroenzymatic method using in situ-generated hydrogen peroxide is effective for oxidation of veratryl alcohol by lignin peroxidase. The method may be easily applied to biodegradation systems |
-, 706913 |
| 1.11.1.14 | degradation |
the enzyme can be used for PVC films biodegradation. Fungal metabolites are playing an immense role in developing various sustainable waste treatment processes. Production and characterization of a fungal lignin peroxidase with a potential to degrade polyvinyl chloride, method optimization, overview |
-, 764590 |
| 1.11.1.14 | degradation |
the partially purified LiP is able to degrade toxic synthetic polymer polyvinyl chloride (PVC) films, resulting in a 31% weight reduction of the films. LiP can effectively transform an endocrine disruptive hormone known as 17beta-estradiol (E2), which is considered a pollutant once released into the environment. Veratryl alcohol facilitates the enhanced removal and transformation of E2 by LiP and can perhaps also remove other closely related endocrine-disrupting impurities |
764607 |
