Geobacter uraniireducens NikR displays a DNA binding mode distinct from other members of the NikR family.

NikR is a nickel-responsive ribbon-helix-helix transcription factor present in many bacteria and archaea. The DNA binding properties of Escherichia coli and Helicobacter pylori NikR (factors EcNikR and HpNikR, respectively) have revealed variable features of DNA recognition. EcNikR represses a single operon by binding to a perfect inverted repeat sequence, whereas HpNikR binds to promoters from multiple genes that contain poorly conserved inverted repeats. These differences are due in large part to variations in the amino acid sequences of the DNA-contacting β-sheets, as well as residues preceding the β-sheets of these two proteins. We present here evidence of another variation in DNA recognition by the NikR protein from Geobacter uraniireducens (GuNikR). GuNikR has an Arg-Gly-Ser β-sheet that binds specifically to an inverted repeat sequence distinct from those recognized by Ec- or HpNikR. The N-terminal residues that precede the GuNikR β-sheet residues are required for high-affinity DNA binding. Mutation of individual arm residues dramatically reduced the affinity of GuNikR for specific DNA. Interestingly, GuNikR tetramers are capable of binding cooperatively to the promoter regions of two different genes, nik(MN)1 and nik(MN)2. Cooperativity was not observed for the closely related G. bemidjiensis NikR, which recognizes the same operator sequence. The cooperative mode of DNA binding displayed by GuNikR could affect the sensitivity of transporter gene expression to changes in intracellular nickel levels.