EC Number |
Metals/Ions |
Reference |
---|
4.1.1.2 | Mn2+ |
- |
678138, 747434 |
4.1.1.2 | Mn2+ |
contains 2 Mn2+ per subunit, role in catalysis, mechanism, 2 Mn-binding sites, the N-terminal Mn-binding site 1 is catalytically active |
652532 |
4.1.1.2 | Mn2+ |
contains manganese |
715299 |
4.1.1.2 | Mn2+ |
contains Mn2+ in its resting state and two Mn-binding sites, may be only the C-terminal binding site is catalytically active, the N-terminal site not, manganese in the active site can abstract an electron from bound substrate |
651590 |
4.1.1.2 | Mn2+ |
dependent on |
687082, 747145 |
4.1.1.2 | Mn2+ |
dependent on, two Mn(II) centers located in the N- and C-terminal cupin domains of the enzyme, hydrogen bonding interaction between the side chains of a conserved Tryp132 and Glu101 coordinating Mn(II) in the N-terminal domain. Computational analysis of electronic properties of protein-bound Mn(II) ions using X-ray crystal protein structure with PDB ID 1UW8, quantum mechanical/molecular mechanical optimization and modeling, density functional theory and density functional theory/molecular mechanical calculations. Experimental and calculated fine structure parameters of wild-type and W132F mutant enzymes, overview |
727697 |
4.1.1.2 | Mn2+ |
His-tagged recombinant enzyme contains 1.2 Mn2+ per subunit, non-His-tagged recombinant enzyme contains 2.0 Mn2+ per subunit |
705343 |
4.1.1.2 | Mn2+ |
metalloenzyme, Mn2+-dependent, each cupin domain contains one Mn-binding site that is buried deeply inside the beta-barrel, 2 binding sites within a monomer, mode of binding, mechanism |
650168 |
4.1.1.2 | Mn2+ |
Mn2+ binding to the enzyme is not easy to release |
716726 |
4.1.1.2 | Mn2+ |
Mn2+-dependent |
651732 |