2012
DOI: 10.1073/pnas.1208795109
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Autotrophy as a predominant mode of carbon fixation in anaerobic methane-oxidizing microbial communities

Abstract: The methane-rich, hydrothermally heated sediments of the Guaymas Basin are inhabited by thermophilic microorganisms, including anaerobic methane-oxidizing archaea (mainly ANME-1) and sulfatereducing bacteria (e.g., HotSeep-1 cluster). We studied the microbial carbon flow in ANME-1/ HotSeep-1 enrichments in stable-isotopeprobing experiments with and without methane. The relative incorporation of 13 C from either dissolved inorganic carbon or methane into lipids revealed that methane-oxidizing archaea assimilate… Show more

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Cited by 129 publications
(155 citation statements)
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“…10-Methylhexadecanoic acid, a characteristic lipid for 'Methylomirabilis oxyfera', a freshwater bacterium capable of oxidizing methane with nitrite 33 , was either not detected at these sites or found in rather low abundance (o1.5% of all fatty acids; data not shown). This proposed biomarker for n-damo 48 was not sufficiently depleted in 13 C to unambiguously support a relationship with AOM (Supplementary Table 3); a conclusive relationship of this biomarker to AOM is complicated by the evidence for chemoorganoautotrophy of M. oxyfera 49 , in analogy to some ANME archaea 47 , and additional sources of this biomarker such as sulphate-reducing 50 and anammox bacteria 51 . The other proposed diagnostic lipid for M. oxyfera, 10-methyl-hexadec-7-enoic acid 48 , was not detected in any sample.…”
Section: Resultsmentioning
confidence: 97%
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“…10-Methylhexadecanoic acid, a characteristic lipid for 'Methylomirabilis oxyfera', a freshwater bacterium capable of oxidizing methane with nitrite 33 , was either not detected at these sites or found in rather low abundance (o1.5% of all fatty acids; data not shown). This proposed biomarker for n-damo 48 was not sufficiently depleted in 13 C to unambiguously support a relationship with AOM (Supplementary Table 3); a conclusive relationship of this biomarker to AOM is complicated by the evidence for chemoorganoautotrophy of M. oxyfera 49 , in analogy to some ANME archaea 47 , and additional sources of this biomarker such as sulphate-reducing 50 and anammox bacteria 51 . The other proposed diagnostic lipid for M. oxyfera, 10-methyl-hexadec-7-enoic acid 48 , was not detected in any sample.…”
Section: Resultsmentioning
confidence: 97%
“…The isotopic enrichment of archaeal lipids relative to methane is best explained by additional biological sources of these compounds, for example, from heterotrophic archaea 45 or autotropic archaea such as ammonium-oxidizing thaumarcharchaea 46 . Alternatively, the incorporation of DIC rather than methane into methane-oxidizing archaeal lipids 47 could explain the observed 13 C-enriched values. Notably, the archaeal biphytanes are 13 C-depleted relative to CO 2 by À 42 to À 17%, consistent with a predominant origin from autotrophic, methane-oxidizing archaea 47 .…”
Section: Resultsmentioning
confidence: 99%
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“…The ANME-1 archaea were assumed to be obligatory methanotrophs, but recent studies provide evidence of co-occurrence of AOM and methanogenesis (Lloyd et al, 2011;Bertram et al, 2013;Wang et al, 2013). ANMEs were shown to assimilate inorganic carbon (Kellermann et al, 2012), but also to be capable of growing on acetate, pyruvate or butyrate using thiosulfate as an electron acceptor (Jagersma et al, 2012). The acetate-metabolizing potential in ANME2a was supported by the identification of the ion-motive electron transport complex Rnf that is independent of H 2 (Wang et al, 2013).…”
Section: Methanogenesis and Aommentioning
confidence: 92%