Lack of Periplasmic Non-heme Protein SorA Increases Current Generation.

Bacterial extracellular electron transport (EET) plays an important role in many natural and engineering processes. Some periplasmic non-heme redox proteins usually coexist with -type cytochromes (CTCs) during the EET process. However, in contrast to CTCs, little is known about the roles of these non-heme redox proteins in EET. In this study, the transcriptome of S12 showed that the gene encoding a periplasmic sulfite dehydrogenase molybdenum-binding subunit SorA was significantly up-regulated during electrode respiration in microbial fuel cells (MFCs) compared with that during azo-dye reduction. The maximum current density of MFCs catalyzed by a mutant strain lacking SorA (Δ) was 25% higher than that of wild strain S12 (20 vs. 16 μA/cm). Both biofilm formation and the current generation of the anodic biofilms were increased by the disruption of , which suggests that the existence of SorA in S12 inhibits electrode respiration. In contrast, disruption of had no effect on respiration by S12 with oxygen, fumarate, azo dye, or ferric citrate as electron acceptors. This is the first report of the specific effect of a periplasmic non-heme redox protein on EET to electrode and provides novel information for enhancing bacterial current generation.