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W2954984209 abstract "Abstract Extracellular electron transport (EET) occurs in environmental iron-reducing bacteria and is mediated by an outer membrane multi-heme cytochrome complex (Cyts). It has critical implications for global mineral cycling and electrochemical microbial catalysis. The rate of EET mediated by multiple heme redox centers significantly increases in the presence of flavins and quinones. Their electron free energy does not entirely account for the fact that differential effects on EET rate enhancement vary significantly by factors ≥100. Here, we report on whole-cell electrochemical analysis of Shewanella oneidensis MR-1 using six flavin analogs and four quinones. We demonstrated that protonation of the nitrogen atom at position 5 (N5) of the isoalloxazine ring is essential for electron outflow acceleration as a bound non-covalent cofactor of Cyts. EET mediated by Cyts was accelerated at a rate dependent on p K a (N5). The EET rate largely decreased in response to the addition of deuterated water (D 2 O), while low concentration of D 2 O (4 %) had little impact on electron free energy difference of the heme and non-covalent bound cofactors, strongly suggesting that the protonation of N5 limits the rate of EET. Our findings directly link EET kinetics to proton transport reaction via N5 and provide a basis for the development of novel strategies for controlling EET-associated biological reactions. Significance statement The potential of various small molecules such as flavins and quinones to enhance the rate of extracellular electron transport (EET) has been exploited to develop environmental energy conversion systems. Flavins and quinones have similar molecular structures but their abilities to enhance EET vary by >100× in Shewanella oneidensis MR-1. These large differences are inconsistent with conventional models, which rely on redox potentials or diffusion constant of shuttling electron mediators. In this study, we demonstrated that the basicity of the nitrogen atom of the isoalloxazine ring (N5) enhances the rate of electron outflow when a flavin or quinone is a non-covalent cofactor of S. oneidensis MR-1 outer membrane c -type cytochromes." @default.
W2954984209 created "2019-07-12" @default.
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W2954984209 date "2019-06-28" @default.
W2954984209 modified "2023-10-02" @default.
W2954984209 title "Basicity of N5 in semiquinone enhances the rate of respiratory electron outflow in<i>Shewanella oneidensis</i>MR-1" @default.
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W2954984209 doi "https://doi.org/10.1101/686493" @default.
W2954984209 hasPublicationYear "2019" @default.
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