Role of multiple ArcA recognition sites in anaerobic regulation of succinate dehydrogenase ( sdhCDAB ) gene expression in Escherichia coli

Succinate dehydrogenase ( sdhCDAB  ) gene expression in Escherichia coli is negatively regulated by the arcA and fnr gene products during anaerobic cell growth conditions. The controlled synthesis of this sole membrane‐bound enzyme of the tricarboxylic acid cycle allows optimal participation in the aerobic electron transport pathway for the generation of energy via oxidative phosphorylation reactions. To understand how ArcA participates in the anaerobic repression of sdhCDAB expression, a family of sdhC–lacZ fusions was constructed and analysed in vivo . DNase I footprint and gel shift assays using purified ArcA protein revealed the location of four distinct and independent ArcA binding sites in the sdhC promoter region. ArcA sites, designated sites 1 and 2, are centred at −205 bp and −119 bp upstream of the sdhC promoter, respectively, whereas ArcA site 3 overlaps the −35 and −10 regions of the sdhC promoter. A fourth ArcA site is centred at + 257 bp downstream of the sdhC promoter. They are bound with differing affinity by ArcA and ArcA phosphate. The in vivo studies, in combination with the in vitro studies, indicate that ArcA site 3 is necessary and sufficient for the ArcA‐dependent repression of sdhC gene expression, while the DNA region containing ArcA site 2 contributes to maximal gene expression. The DNA‐containing ArcA sites 1 and 4 provide minor roles in the ArcA regulation of sdhC expression. Lastly, the Fnr‐dependent control of sdhCDAB gene expression was shown to occur independently of the ArcA and to require DNA sequences near the start of sdhC transcription.