Issue 48, 2021

Outer-sphere electron transfer does not underpin B12-dependent olefinic reductive dehalogenation in anaerobes

Abstract

Anaerobic microbial B12-dependent reductive dehalogenation may pave a way to remediate soil, sediment, and underground water contaminated with halogenated olefins. The chemical reaction is initiated by electron transfer (ET) from supernucleophilic cob(I)alamin (B12s). However, the inherent mechanism as outer-sphere or inner-sphere route is still under debate. To clarify the possibility of an outer-sphere pathway, we calculated free energy barriers of the initial steps of all outer-sphere ET routes by Marcus theory employing density functional theory (DFT). For 18 fluorinated, chlorinated, and brominated ethenes as representative olefins, 164 of 165 reactions with free energy barriers larger than 20 kcal mol−1 are not feasible under physiological dehalogenase conditions. Moreover, electronic structure analysis of perbromoethene with an outer-sphere free energy barrier of 18.2 kcal mol−1 reveals no ET initiation down to Co⋯Br and Co⋯C distances of 3.15 Å. The results demonstrate that the B12-catalyzed reductive dechlorination of olefins in microbes should proceed through an inner-sphere ET pathway.

Graphical abstract: Outer-sphere electron transfer does not underpin B12-dependent olefinic reductive dehalogenation in anaerobes

Supplementary files

Article information

Article type
Paper
Submitted
09 Oct 2021
Accepted
27 Nov 2021
First published
01 Dec 2021

Phys. Chem. Chem. Phys., 2021,23, 27520-27524

Outer-sphere electron transfer does not underpin B12-dependent olefinic reductive dehalogenation in anaerobes

S. Zhang, L. Adrian and G. Schüürmann, Phys. Chem. Chem. Phys., 2021, 23, 27520 DOI: 10.1039/D1CP04632B

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