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Edited* by J. Woodland Hastings, Harvard University, Cambridge, MA, and approved March 5, 2013 (received for review November 29, 2012)
Abstract
Extracellular redox-active compounds, flavins and other quinones, have been hypothesized to play a major role in the delivery of electrons from cellular metabolic systems to extracellular insoluble substrates by a diffusion-based shuttling two-electron-transfer mechanism. Here we show that flavin molecules secreted by Shewanella oneidensis MR-1 enhance the ability of its outer-membrane c-type cytochromes (OM c-Cyts) to transport electrons as redox cofactors, but not free-form flavins. Whole-cell differential pulse voltammetry revealed that the redox potential of flavin was reversibly shifted more than 100 mV in a positive direction, in good agreement with increasing microbial current generation. Importantly, this flavin/OM c-Cyts interaction was found to facilitate a one-electron redox reaction via a semiquinone, resulting in a 103- to 105-fold faster reaction rate than that of free flavin. These results are not consistent with previously proposed redox-shuttling mechanisms but suggest that the flavin/OM c-Cyts interaction regulates the extent of extracellular electron transport coupled with intracellular metabolic activity.
- iron-reducing bacteria
- electromicrobiology
- microbial fuel cell
- whole-cell voltammetry
- flavin mononucleotide
Footnotes
- ↵1To whom correspondence may be addressed. E-mail: hashimoto{at}light.t.u-tokyo.ac.jp or nakamura{at}light.t.u-tokyo.ac.jp.
Author contributions: A.O. and R.N. designed research; A.O. performed research; A.O. contributed new reagents/analytic tools; A.O. analyzed data; A.O., and K.H., K.H.N., and R.N. wrote the paper.
The authors declare no conflict of interest.
↵*This Direct Submission article had a prearranged editor.
This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10.1073/pnas.1220823110/-/DCSupplemental.
Freely available online through the PNAS open access option.
Microbial extracellular electron transport
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