Analysis of methanotrophic bacteria in Movile Cave by stable isotope probing

Citation

Material Information

Title:
Analysis of methanotrophic bacteria in Movile Cave by stable isotope probing
Series Title:
environmental microbiology
Creator:
Hutchens, Elena
Radajewski, Stefan
Dumont G., Marc
McDonald R., Ian
Murrell J., Colin
Publication Date:
Language:
English

Subjects

Subjects / Keywords:
Chemoautotrophic ( local )
Chemistry ( local )
Genre:
serial ( sobekcm )

Notes

Abstract:
Movile Cave is an unusual groundwater ecosystem that is supported by in situ chemoautotrophic production. The cave atmosphere contains 1–2% methane (CH4), although much higher concentrations are found in gas bubbles that keep microbial mats afloat on the water surface. As previous analyses of stable carbon isotope ratios have suggested that methane oxidation occurs in this environment, we hypothesized that aerobic methane‐oxidizing bacteria (methanotrophs) are active in Movile Cave. To identify the active methanotrophs in the water and mat material from Movile Cave, a microcosm was incubated with a 10%13CH4 headspace in a DNA‐based stable isotope probing (DNA‐SIP) experiment. Using improved centrifugation conditions, a 13C‐labelled DNA fraction was collected and used as a template for polymerase chain reaction amplification. Analysis of genes encoding the small‐subunit rRNA and key enzymes in the methane oxidation pathway of methanotrophs identified that strains of Methylomonas, Methylococcus and Methylocystis/Methylosinus had assimilated the 13CH4, and that these methanotrophs contain genes encoding both known types of methane monooxygenase (MMO). Sequences of non‐methanotrophic bacteria and an alga provided evidence for turnover of CH4 due to possible cross‐feeding on 13C‐labelled metabolites or biomass. Our results suggest that aerobic methanotrophs actively convert CH4 into complex organic compounds in Movile Cave and thus help to sustain a diverse community of microorganisms in this closed ecosystem.
Original Version:
environmental microbiology, Vol. 6, no. 2 (2004-02-01).

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University of South Florida Library
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University of South Florida
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