Application | Comment | Organism |
---|---|---|
degradation | during degradation of bagasse, hemicellulose content, especially arabinan, and the cellulose crystallinity of bagasse affects the synergism of degrading enzymes cellulase and xylanase. Higher synergism (above 3.4) is observed for glucan conversion, at low levels of arabinan (0.9%), during the hydrolysis of peracetic acid pretreated bagasse. In contrast, 1-ethyl-3-methylimidazolium acetate pretreated bagasse shows lower cellulose crystallinity and achieves higher synergism (over 1.9) for xylan conversion. The combination of Thermobidfida endoglucanase Cel6A and xylanase Xyn11A results in higher synergism for glucan conversion than the combination of Cel6A with Clostridium thermocellum XynZ-C | Acetivibrio thermocellus |
degradation | during degradation of bagasse, hemicellulose content, especially arabinan, and the cellulose crystallinity of bagasse affects the synergism of degrading enzymes cellulase and xylanase. Higher synergism (above 3.4) is observed for glucan conversion, at low levels of arabinan (0.9%), during the hydrolysis of peracetic acid pretreated bagasse. In contrast, 1-ethyl-3-methylimidazolium acetate pretreated bagasse shows lower cellulose crystallinity and achieves higher synergism (over 1.9) for xylan conversion. The combination of Thermobidfida endoglucanase Cel6A and xylanase Xyn11A results in higher synergism for glucan conversion than the combination of Cel6A with Clostridium thermocellum XynZ-C | Thermobifida fusca |
Organism | UniProt | Comment | Textmining |
---|---|---|---|
Acetivibrio thermocellus | P10478 | - |
- |
Acetivibrio thermocellus DSM 1237 | P10478 | - |
- |
Thermobifida fusca | Q47QL8 | - |
- |
Synonyms | Comment | Organism |
---|---|---|
Xyn11A | - |
Thermobifida fusca |
XynZ | - |
Acetivibrio thermocellus |