EC Number |
Reaction |
Reference |
---|
3.2.1.14 | chitopentaose + H2O = chitobiose + chitotriose |
- |
- |
3.2.1.14 | chitopentaose + H2O = chitobiose + chitotriose |
catalytic mechanism with an important role of Trp-33 on enzyme processivity, CHI60 preferentially uses the endo-type mode on soluble and amorphous substrates and the exo-type mode on crystalline substrate, the enzyme hydrolyzes crystalline substrates with an exo-type mode processively while remaining tightly bound to the substrate. The prevalent mode of hydrolysis mediated by CHI60 is regulated by ionic strength |
-, 691649 |
3.2.1.14 | chitopentaose + H2O = chitobiose + chitotriose |
catalytic mechanism, overview |
690990 |
3.2.1.14 | chitopentaose + H2O = chitobiose + chitotriose |
catalytic reaction mechanism involving Glu119, overview |
664134 |
3.2.1.14 | chitopentaose + H2O = chitobiose + chitotriose |
chitooligosaccharide-binding modes and catalytic mechanism, overview |
693891 |
3.2.1.14 | chitopentaose + H2O = chitobiose + chitotriose |
double displacement reaction mechanism, overview |
-, 729155 |
3.2.1.14 | chitopentaose + H2O = chitobiose + chitotriose |
exo-type substrate cleavage mechanism |
-, 663742 |
3.2.1.14 | chitopentaose + H2O = chitobiose + chitotriose |
mode of action of ChiG, family 19 chitinases use a single-displacement reaction with inversion of the configuration of the anomeric carbon, overview |
-, 691185 |
3.2.1.14 | chitopentaose + H2O = chitobiose + chitotriose |
reaction mechanism, Glu315 is the acid/base during hydrolysis, the side-chain of the preceding Asp313 helps to position the N-acetyl moiety of the glycosyl sugar undergoing hydrolysis correctly, mutation of the conserved Tryp167 in the chitin-binding cleft of chitinase A enhances transglycosylation, transglycosylation reaction scheme, overview |
664383 |
3.2.1.14 | chitopentaose + H2O = chitobiose + chitotriose |
the enzyme shows endo- and exo-hydrolytic activity, as well as transglycosylation activity |
-, 663496 |