Reconstitution of the [4Fe-4S] cluster in FNR and demonstration of the aerobic-anaerobic transcription switch in vitro

The FNR protein of Escherichia coli is a redox-responsive transcription regulator that activates and represses a family of genes required for anaerobic and aerobic metabolism, Reconstitution of wild-type FNR by anaerobic treatment with ferrous ions, cysteine and the NifS protein of Azotobacter vinelandii leads to the incorporation of two [4Fe-4S](2+) clusters per FNR dimer. The UV-visible spectrum of reconstituted FNR has a broad absorbance at 420 nm, The clusters are EPR silent under anaerobic conditions but are degraded to [3Fe-4S](+) by limited oxidation with air, and completely lost on prolonged air exposure, The association of FNR with the iron-sulphur clusters is confirmed by CD spectroscopy. Incorporation of the [4Fe-4S](2+) clusters increases site-specific DNA binding about 7-fold compared with apo-FNR, Anaerobic transcription activation and repression in vitro likewise depends on the presence of the iron-sulphur cluster: and its inactivation under aerobic conditions provides a demonstration in vitro of the FNR-mediated aerobic-anaerobic transcriptional switch.