Physiological stress response to sulfide exposure of freshwater anaerobic methanotrophic archaea

Echeveste Medrano, Maider J.; Lee, Sarah; de Graaf, Rob; Holohan, B. Conall; Sánchez-Andrea, Irene; Jetten, Mike S. M.; Welte, Cornelia U.

doi:10.1101/2024.11.08.622618

2024

DOI: 10.1101/2024.11.08.622618

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Physiological stress response to sulfide exposure of freshwater anaerobic methanotrophic archaea

Maider J. Echeveste Medrano,

Sarah Lee,

Rob de Graaf

et al.

Abstract: Freshwater wetlands and coastal sediments are becoming hotspots for the emission of the greenhouse gas methane. Eutrophication-induced deposition of organic matter leads to elevated methanogenesis and sulfate reduction, thereby increasing the concentrations of methane and toxic sulfide, respectively. However, the effects of sulfide stress on the anaerobic methanotrophic biofilter have not been well explored. Here, we show how an enrichment culture dominated by the freshwater anaerobic methane-oxidizing archaeo… Show more

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Methanotrophic flexibility of ‘Ca. Methanoperedens’ and its interactions with sulfate-reducing bacteria in the sediment of meromictic Lake Cadagno

Echeveste Medrano,

Su,

Blattner

et al. 2024

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The greenhouse gas methane is an important contributor to global warming, with freshwater sediments representing important potential methane sources. Anaerobic methane-oxidizing archaea mitigate methane release into the atmosphere by coupling the oxidation of methane to the reduction of extracellular electron acceptors or through interspecies electron transfer with microbial partners. Understanding their metabolic flexibility and microbial interactions is crucial to assess their role in global methane cycling. Here, we investigated anoxic sediments of the meromictic freshwater Lake Cadagno (Switzerland), where Ca. Methanoperedens and sulfate-reducing bacteria co-occur, with metagenomics and long-term incubations. Incubations were performed with different electron acceptors, revealing that manganese oxides supported highest CH4 oxidation potential but enriched for Ca. Methanoperedens phylotypes that were hardly present in the inoculum. Combining data from the inoculum and incubations, we obtained five Ca. Methanoperedens genomes, each harboring different extracellular electron transfer pathways. In a reconstructed Desulfobacterota QYQD01 genome we observed large multi-heme cytochromes, type IV pili, and a putative loss of hydrogenases, suggesting facultative syntrophic interactions with Ca. Methanoperedens. We also screened for putative extrachromosomal elements in the Ca. Methanoperedens genomes, including BORGs. This research deepens our understanding of the metabolic flexibility and potential interspecific interactions of Ca. Methanoperedens in freshwater lakes.

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Methanotrophic flexibility of ‘Ca. Methanoperedens’ and its interactions with sulfate-reducing bacteria in the sediment of meromictic Lake Cadagno

Echeveste Medrano,

Su,

Blattner

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Physiological stress response to sulfide exposure of freshwater anaerobic methanotrophic archaea

Cited by 1 publication

References 73 publications

Methanotrophic flexibility of ‘Ca. Methanoperedens’ and its interactions with sulfate-reducing bacteria in the sediment of meromictic Lake Cadagno

Methanotrophic flexibility of ‘Ca. Methanoperedens’ and its interactions with sulfate-reducing bacteria in the sediment of meromictic Lake Cadagno

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