EC Number | Organism | UniProt | Comment | Textmining |
---|---|---|---|---|
1.1.99.18 | Albifimbria verrucaria | - |
- |
- |
1.1.99.18 | Athelia rolfsii | - |
- |
- |
1.1.99.18 | Dichomera saubinetii | E7D6C1 | - |
- |
1.1.99.18 | Humicola insolens | Q9P8H5 | - |
- |
1.1.99.18 | Phanerochaete sordida | - |
- |
- |
1.1.99.18 | Phanerodontia chrysosporium | Q01738 | - |
- |
1.1.99.18 | Thermothelomyces fergusii | E7D6B9 | - |
- |
1.1.99.18 | Thermothelomyces myriococcoides | A9XK88 | - |
- |
1.1.99.18 | Trametes hirsuta | - |
- |
- |
1.1.99.18 | Trametes villosa | - |
- |
- |
EC Number | Substrates | Comment Substrates | Organism | Products | Comment (Products) | Rev. | Reac. |
---|---|---|---|---|---|---|---|
1.1.99.18 | cellobiose + acceptor | - |
Albifimbria verrucaria | cellobiono-1,5-lactone + reduced acceptor | - |
? | |
1.1.99.18 | cellobiose + acceptor | - |
Athelia rolfsii | cellobiono-1,5-lactone + reduced acceptor | - |
? | |
1.1.99.18 | cellobiose + acceptor | - |
Trametes hirsuta | cellobiono-1,5-lactone + reduced acceptor | - |
? | |
1.1.99.18 | cellobiose + acceptor | - |
Trametes villosa | cellobiono-1,5-lactone + reduced acceptor | - |
? | |
1.1.99.18 | cellobiose + acceptor | - |
Phanerochaete sordida | cellobiono-1,5-lactone + reduced acceptor | - |
? | |
1.1.99.18 | cellobiose + acceptor | - |
Phanerodontia chrysosporium | cellobiono-1,5-lactone + reduced acceptor | - |
? | |
1.1.99.18 | cellobiose + acceptor | - |
Humicola insolens | cellobiono-1,5-lactone + reduced acceptor | - |
? | |
1.1.99.18 | cellobiose + acceptor | - |
Thermothelomyces myriococcoides | cellobiono-1,5-lactone + reduced acceptor | - |
? | |
1.1.99.18 | cellobiose + acceptor | - |
Dichomera saubinetii | cellobiono-1,5-lactone + reduced acceptor | - |
? | |
1.1.99.18 | cellobiose + acceptor | - |
Thermothelomyces fergusii | cellobiono-1,5-lactone + reduced acceptor | - |
? |
EC Number | Synonyms | Comment | Organism |
---|---|---|---|
1.1.99.18 | Cdh | - |
Albifimbria verrucaria |
1.1.99.18 | Cdh | - |
Athelia rolfsii |
1.1.99.18 | Cdh | - |
Trametes hirsuta |
1.1.99.18 | Cdh | - |
Trametes villosa |
1.1.99.18 | Cdh | - |
Phanerochaete sordida |
1.1.99.18 | Cdh | - |
Phanerodontia chrysosporium |
1.1.99.18 | Cdh | - |
Humicola insolens |
1.1.99.18 | Cdh | - |
Thermothelomyces myriococcoides |
1.1.99.18 | Cdh | - |
Dichomera saubinetii |
1.1.99.18 | Cdh | - |
Thermothelomyces fergusii |
EC Number | Cofactor | Comment | Organism | Structure |
---|---|---|---|---|
1.1.99.18 | FAD | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Albifimbria verrucaria | |
1.1.99.18 | FAD | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Athelia rolfsii | |
1.1.99.18 | FAD | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Trametes hirsuta | |
1.1.99.18 | FAD | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Trametes villosa | |
1.1.99.18 | FAD | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Phanerochaete sordida | |
1.1.99.18 | FAD | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Phanerodontia chrysosporium | |
1.1.99.18 | FAD | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Humicola insolens | |
1.1.99.18 | FAD | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Thermothelomyces myriococcoides | |
1.1.99.18 | FAD | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Dichomera saubinetii | |
1.1.99.18 | FAD | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Thermothelomyces fergusii | |
1.1.99.18 | heme b | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Albifimbria verrucaria | |
1.1.99.18 | heme b | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Athelia rolfsii | |
1.1.99.18 | heme b | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Trametes hirsuta | |
1.1.99.18 | heme b | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Trametes villosa | |
1.1.99.18 | heme b | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Phanerochaete sordida | |
1.1.99.18 | heme b | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Phanerodontia chrysosporium | |
1.1.99.18 | heme b | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Humicola insolens | |
1.1.99.18 | heme b | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Thermothelomyces myriococcoides | |
1.1.99.18 | heme b | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Dichomera saubinetii | |
1.1.99.18 | heme b | flavocytochrome. Electrochemical methods are used to study the redox potentials of the FAD and the heme b cofactors | Thermothelomyces fergusii |