The mechanism of neutral red-mediated microbial electrosynthesis in Escherichia coli: menaquinone reduction

The aim of this work was to elucidate the mechanism of mediated microbial electrosynthesis via neutral red from an electrode to fermenting Escherichia coli cultures in a bioelectrochemical system. Chemical reduction of NAD+ by reduced neutral red did not occur as predicted. Instead, neutral red was...

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Published inBioresource technology Vol. 192; no. C
Main Authors Harrington, Timothy D., Tran, Vi N., Mohamed, Abdelrhman, Renslow, Ryan, Biria, Saeid, Orfe, Lisa, Call, Douglas R., Beyenal, Haluk
Format Journal Article
LanguageEnglish
Published United States Elsevier 01.09.2015
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Abstract The aim of this work was to elucidate the mechanism of mediated microbial electrosynthesis via neutral red from an electrode to fermenting Escherichia coli cultures in a bioelectrochemical system. Chemical reduction of NAD+ by reduced neutral red did not occur as predicted. Instead, neutral red was shown to reduce the menaquinone pool in the inner bacterial membrane. The reduced menaquinone pool altered fermentative metabolite production via the arcB redox-sensing cascade in the absence of terminal electron acceptors. When the acceptors DMSO, fumarate, or nitrate were provided, as many as 19% of the electrons trapped in the reduced acceptors were derived from the electrode. These results demonstrate the mechanism of neutral red-mediated microbial electrosynthesis during fermentation as well as how neutral red enables microbial electrosynthesis of reduced terminal electron acceptors.
AbstractList The aim of this work was to elucidate the mechanism of mediated microbial electrosynthesis via neutral red from an electrode to fermenting Escherichia coli cultures in a bioelectrochemical system. Chemical reduction of NAD+ by reduced neutral red did not occur as predicted. Instead, neutral red was shown to reduce the menaquinone pool in the inner bacterial membrane. The reduced menaquinone pool altered fermentative metabolite production via the arcB redox-sensing cascade in the absence of terminal electron acceptors. When the acceptors DMSO, fumarate, or nitrate were provided, as many as 19% of the electrons trapped in the reduced acceptors were derived from the electrode. These results demonstrate the mechanism of neutral red-mediated microbial electrosynthesis during fermentation as well as how neutral red enables microbial electrosynthesis of reduced terminal electron acceptors.
Author Harrington, Timothy D.
Renslow, Ryan
Biria, Saeid
Beyenal, Haluk
Mohamed, Abdelrhman
Tran, Vi N.
Call, Douglas R.
Orfe, Lisa
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BackLink https://www.osti.gov/biblio/1416694$$D View this record in Osti.gov
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