Influence of C4-Dcu transporters on hydrogenase and formate dehydrogenase activities in stationary phase-grown fermenting Escherichia coli

Abstract

During mixed-acid fermentation, Escherichia coli transports succinate mainly via transporters of the Dcu family. Here, we analyze the influence of Dcu transporters on hydrogenase (Hyd) and fermentative formate dehydrogenase (FDH-H) activities and how this is affected by external pH and carbon source. Using selected dcu mutations, it was shown that Dcu carriers mainly affect Hyd and FDH-H activities during glycerol but not glucose fermentation at acidic pH. During glycerol fermentation at pH 5.5, inactivation of either one or all Dcu carriers increased total Hyd activity by 60% compared with wild type. Under the same growth conditions, a dcuACBD mutant had a twofold higher FDH-H activity. When glucose was fermented in dcuD single mutant at pH 5.5, the FDH-H activity was also increased twofold compared with wild type. Interestingly, in dcuD or dcuACBD mutants at pH 7.5, Hyd activity was lowered by 20%. Taken together, it can be concluded that during glucose fermentation at pH 7.5, lack of DcuD affects Hyd enzyme activity, but at pH 5.5, it has a stronger effect on FDH-H activity. During glycerol fermentation, lack of Dcu carriers increased Hyd and FDH-H activities as revealed at pH 5.5. The results suggest that impairing Dcu transport function increases intracellular formate levels and thus affects H2 cycling and proton-motive force generation.