EC Number |
Metals/Ions |
Reference |
---|
1.14.99.54 | Cu2+ |
the active site in is formed by residues His-37 and His-144 that coordinate the copper atom in a T-shaped geometry |
745380 |
1.14.99.54 | Cu2+ |
the calculated dissociation energies suggest that the reactive intermediate is either a Cu(II)-oxyl, a Cu(III)-oxyl, or a Cu(III)-hydroxide, indicating that O-O bond breaking occurs before the C-H activation step |
745387 |
1.14.99.54 | Cu2+ |
The copper ion lies in the center of a flat surface that interacts with the substrate. The equatorial plane includes the protein's N-terminal Ndelta of His-1 and the Nepsilon of His-83 |
736485 |
1.14.99.54 | Cu2+ |
the copper site is highly similar to that of the C1/C4 cellulose-oxidizing LPMO9A from Thermoascus aurantiacus and exhibits an octahedral coordination geometry with Jahn-Teller distortion. Dissociation constant is 12 nM |
741336 |
1.14.99.54 | Cu2+ |
the copper site of CelS2 is similar to that of chitin-active LPMO10s. Dissociation constant is 31 nM |
741336 |
1.14.99.54 | Cu2+ |
the oxidized catalytic center contains a Cu(II) coordinated by two His ligands, one of which has a His-brace in which the His-1 terminal amine group also coordinates to a copper. The final equatorial position of the Cu(II) is occupied by a water-derived ligand |
745374 |
1.14.99.54 | Cu2+ |
the reduction of the mononuclear active-site copper by ascorbic acid increases the affinity and the maximum binding capacity of LPMO for cellulose |
745381 |
1.14.99.54 | Cu2+ |
type II copper center, which exhibits a hexacoordination |
740707 |