EC Number   |
|---|
   1.14.99.53 | - |
| 1.14.99.53 | 1.1 A resolution room-temperature X-ray structure and 2.1 A resolution neutron structure, show a putative dioxygen species equatorially bound to the active site copper with elongated density for the dioxygen, most consistent with a Cu(II)-bound peroxide |
| 1.14.99.53 | 1.55 A resolution structure of N-terminal LPMO10A module reveals deletions of interacting loops that protrude from the core beta-sandwich scaffold in larger LPMO10s |
| 1.14.99.53 | analysis of the copper active site |
| 1.14.99.53 | calculation of solution structure. Ca2+, Mg2+, Fe3+, Co2+, Zn2+, or Cu2+ ions show binding to an interaction site located between His28 and His114 |
| 1.14.99.53 | comparative analysis of sequences, solved structures, and homology models from AA9 and AA10 LPMO families.The two LPMO families are highly conserved, structurally they have minimal sequence similarity outside the active site residues |
| 1.14.99.53 | crystal structure in the Cu(II)-bound form and photoreduction of the crystalline protein in the x-ray beam, leading to conversion from the initial Cu(II)-oxidized form with two coordinated water molecules, which adopts a trigonal bipyramidal geometry, to a reduced Cu(I) form in a T-shaped geometry with no coordinated water molecules |
| 1.14.99.53 | crystallization at pH 3.5. Structure shows shows significant disorder of the active site in the absence of substrate ligand |
| 1.14.99.53 | homology modeling and molecular docking, a binding site for the chitin heptamer exists near the histidine brace active site |
| 1.14.99.53 | homology modeling reveals the typical central beta-sandwich fold of LPMOs, as well as flexible loops and two stabilizing disulfide bonds. The active site contains the histidine brace, consisting of His1 and His96 coordinating the copper cofactor, and the axial, non-coordinating residue Phe187 |
