Proteogenomic analysis of Georgfuchsia toluolica revealed unexpected concurrent aerobic and anaerobic toluene degradation - Archive ouverte HAL
Article Dans Une Revue Environmental Microbiology Reports Année : 2021

Proteogenomic analysis of Georgfuchsia toluolica revealed unexpected concurrent aerobic and anaerobic toluene degradation

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Denitrifying Betaproteobacteria play a key role in the anaerobic degradation of monoaromatic hydrocarbons. We performed a multi‐omics study to better understand the metabolism of the representative organism Georgfuchsia toluolica strain G5G6 known as a strict anaerobe coupling toluene oxidation with dissimilatory nitrate and Fe(III) reduction. Despite the genomic potential for degradation of different carbon sources, we did not find sugar or organic acid transporters, in line with the inability of strain G5G6 to use these substrates. Using a proteomics analysis, we detected proteins of fumarate‐dependent toluene activation, membrane‐bound nitrate reductase, and key components of the metal‐reducing (Mtr) pathway under both nitrate‐ and Fe(III)‐reducing conditions. High abundance of the multiheme cytochrome MtrC implied that a porin–cytochrome complex was used for respiratory Fe(III) reduction. Remarkably, strain G5G6 contains a full set of genes for aerobic toluene degradation, and we detected enzymes of aerobic toluene degradation under both nitrate‐ and Fe(III)‐reducing conditions. We further detected an ATP‐dependent benzoyl‐CoA reductase, reactive oxygen species detoxification proteins, and cytochrome c oxidase indicating a facultative anaerobic lifestyle of strain G5G6. Correspondingly, we found diffusion through the septa a substantial source of oxygen in the cultures enabling concurrent aerobic and anaerobic toluene degradation by strain G5G6.
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hal-04543783 , version 1 (12-04-2024)

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Siavash Atashgahi, Margreet J Oosterkamp, Peng Peng, Jeroen Frank, Beate Kraft, et al.. Proteogenomic analysis of Georgfuchsia toluolica revealed unexpected concurrent aerobic and anaerobic toluene degradation. Environmental Microbiology Reports, 2021, 13 (6), pp.841-851. ⟨10.1111/1758-2229.12996⟩. ⟨hal-04543783⟩
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