Zn2+-Sensing by the Cyanobacterial Metallothionein Repressor SmtB: Different Motifs Mediate Metal-Induced Protein-DNA Dissociation

SmtB is a member of a family of repressors which dissociate from DNA in the presence of metals; Zn2+ being the most potent inducer of metallothionein gene (smtA) transcription in vivo. In Synechococcus PCC 7942 cells devoid of chromosomal smtB, four plasmid-encoded mutants of SmtB (C61S, T11S/C14S, C121S and H105R/H106R) repressed lacZ expression driven by the smtA operator-promoter. Gel retardation assays with extracts from the complemented cells detected multiple SmtB-dependent complexes similar to those obtained with extracts from wild-type cells or with recombinant-SmtB. Elevated [Zn2+] alleviated repression in vivo by all of the mutants except H105R/H106R. These His residues (one or both) are therefore essential for Zn2+-sensing while, contrary to expectations, Cys residues are not. Hence different motifs facilitate metal-induced DNA-dissociation by SmtB and ArsR (the related oxyanion-sensing repressor), presumably generating variety in the spectra of metals sensed. Nucleotides and amino acids involved in DNA-SmtB interaction have been further defined/inferred and we also confirm that additional unknown factors form specific associations with the smt operator-promoter in elevated [Zn2+].