Determination of the structure of an endoglucanase fromAspergillus nigerand its mode of inhibition by palladium chloride

The fungus Aspergillus niger is a main source of industrial cellulase. β-1,4-Endoglucanase is the major component of cellulase from A. niger. In spite of widespread applications, little is known about the structure of this enzyme. Here, the structure of β-1,4-endoglucanase from A. niger (EglA) was determined at 2.1 Å resolution. Although there is a low sequence identity between EglA and CelB2, another member of family 12, the three-dimensional structures of their core regions are quite similar. The structural differences are mostly found in the loop regions, where CelB2 has an extra β-sheet (β-sheet C) at the non-reducing end of the binding cleft of the native enzyme. Incubation of EglA with PdCl2 irreversibly inhibits the EglA activity. Structural studies of the enzyme–palladium complex show that three Pd2+ ions bind to each EglA molecule. One of the Pd2+ ions forms a coordinate covalent bond with Met118 Sδ and the nucleophilic Glu116 O∊1 at the active site of the enzyme. The other two Pd2+ ions bind on the surface of the protein. Binding of Pd2+ ions to EglA does not change the general conformation of the backbone of the protein significantly. Based on this structural study, one can conclude that the palladium ion directly binds to and blocks the active site of EglA and thus inactivates the enzyme.