All pyrroloquinoline quinone (PQQ)-containing dehydrogenases whose structures are known contain Ca(2+) bonded to the PQQ at the active site. However, membrane glucose dehydrogenase (GDH) requires reconstitution with PQQ and Mg(2+) ions (but not Ca(2+)) for activity. To address the question of whether the Mg(2+) replaces the usual active site Ca(2+) in this enzyme, mutant GDHs were produced in which residues proposed to be involved in binding metal ion were modified (D354N-GDH and N355D-GDH and D354N-GDH/N355D-GDH). The most remarkable observation was that reconstitution with PQQ of the mutant enzymes was not supported by Mg(2+) ions as in the wild-type GDH, but it could be supported by Ca(2+), Sr(2+) or Ba(2+) ions. This was competitively inhibited by Mg(2+). This result, together with studies on the kinetics of the modified enzymes have led to the conclusion that, although a Ca(2+) ion is able to form part of the active site of the genetically modified GDH, as in all other PQQ-containing quinoproteins, a Mg(2+) ion surprisingly replaces Ca(2+) in the active site of the wild-type GDH.