FhuF, an iron-regulated protein of Escherichia coli with a new type of [2Fe-2S] center

We previously used fhuF as a sensitive reporter gene of the iron status of Escherichia coli. In this report, the fhuF gene was identified as open read ing frame f262b at 99.2 min on the genome sequence map of E. coli K-12. The FhuF protein was labeled with a His-tag and then purified to electrophoret ic homogeneity. Based on sulfur determinations and Mossbauer and EPR spectr oscopy, FhuF was identified as a [2Fe-2S] protein. The g values (g(x) = 1.8 86, g(y) = 1.961, g(z) = 1.994) and some of the Mossbauer parameters of Fhu F obtained [oxidized protein as isolated: Delta E-Q,E-4,E-2K = 0.474 mm s(- 1); Fe3+ (reduced protein): Delta E-Q = 0.978 mm s(-1)] are not typical of common [2Fe-2S] proteins and indicate that FhuF has unusual structural prop erties. The primary sequence of FhuF does not show any sequence similiarities to kn own [2Fe-2S] proteins. By site-directed mutagenesis, each of the six cystei nes of FhuF was replaced by serine. EPR of the six reduced mutant proteins revealed that the terminal cysteine residues 244, 245, 256, and 259 form th e [2Fe-2S]Cys, cluster. Mutants having the Cys-to-Ser replacement at positi ons 244, 245, 256, or 259 did not complement a fhuF mutant. The motif Cys-C ys-Xaa(10)-Cys-Xaa(2)-Cys in FhuF differs considerably from the motif Cys-X aa(2)-Cys-Xaa(9-15)-Cys-Xaa(2)-Cys found in other [2Fe-2S] proteins. The un usual Cys Cys terminal group of the cluster may explain the atypical EPR an d Mossbauer spectroscopic properties of the FhuF protein; possibly the tetr ahedral symmetry at the ferric ion site is distorted. The phenotype of fhuF mutants and the structural features of the FhuF protein suggest that FhuF is involved in the reduction of ferric Iron in cytoplasmic ferrioxamine B.