A Hybrid Extracellular Electron Transfer Pathway Enhances the Survival of Vibrio natriegens
Bridget Conley, Matthew T. Weinstock, Daniel R. Bond, Jeffrey A. Gralnick
Abstract
Bacteria from the genus Vibrio occupy a variety of marine and brackish niches with fluctuating nutrient and energy sources. When oxygen is limited, fermentation or alternative respiration pathways must be used to conserve energy. In sedimentary environments, insoluble oxide minerals (primarily iron and manganese) are able to serve as electron acceptors for anaerobic respiration by microorganisms capable of extracellular electron transfer, a metabolism that enables the use of these insoluble substrates. Here, we identify the mechanism for extracellular electron transfer in Vibrio natriegens , which uses a combination of strategies previously identified in Shewanella and Aeromonas . We show that extracellular electron transfer enhanced survival of V. natriegens under fermentative conditions, which may be a generalized strategy among Vibrio spp. predicted to have this metabolism.