Literature DB >> 21725016

Autotrophic methanotrophy in verrucomicrobia: Methylacidiphilum fumariolicum SolV uses the Calvin-Benson-Bassham cycle for carbon dioxide fixation.

Ahmad F Khadem1, Arjan Pol, Adam Wieczorek, Seyed S Mohammadi, Kees-Jan Francoijs, Henk G Stunnenberg, Mike S M Jetten, Huub J M Op den Camp.   

Abstract

Genome data of the extreme acidophilic verrucomicrobial methanotroph Methylacidiphilum fumariolicumstrain SolV indicated the ability of autotrophic growth. This was further validated by transcriptome analysis, which showed that all genes required for a functional Calvin-Benson-Bassham (CBB) cycle were transcribed. Experiments with (13)CH(4) or (13)CO(2) in batch and chemostat cultures demonstrated that CO(2) is the sole carbon source for growth of strain SolV. In the presence of CH(4), CO(2) concentrations in the headspace below 1% (vol/vol) were growth limiting, and no growth was observed when CO(2)concentrations were below 0.3% (vol/vol). The activity of the key enzyme of the CBB cycle, ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBisCO), measured with a (13)C stable-isotope method was about 70 nmol CO(2) fixed · min(-1)· mg of protein(-1). An immune reaction with antibody against the large subunit of RuBisCO on Western blots was found only in the supernatant fractions of cell extracts. The apparent native mass of the RuBisCO complex in strain SolV was about 482 kDa, probably consisting of 8 large (53-kDa) and 8 small (16-kDa) subunits. Based on phylogenetic analysis of the corresponding RuBisCO gene, we postulate that RuBisCO of the verrucomicrobial methanotrophs represents a new type of form I RuBisCO.

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Year:  2011        PMID: 21725016      PMCID: PMC3165502          DOI: 10.1128/JB.00407-11

Source DB:  PubMed          Journal:  J Bacteriol        ISSN: 0021-9193            Impact factor:   3.490


  28 in total

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3.  Composition of archaeal, bacterial, and eukaryal RuBisCO genotypes in three Western Pacific arc hydrothermal vent systems.

Authors:  Hosam Easa Elsaied; Hiroyuki Kimura; Takeshi Naganuma
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4.  Environmental, genomic and taxonomic perspectives on methanotrophic Verrucomicrobia.

Authors:  Huub J M Op den Camp; Tajul Islam; Matthew B Stott; Harry R Harhangi; Alexander Hynes; Stefan Schouten; Mike S M Jetten; Nils-Kåre Birkeland; Arjan Pol; Peter F Dunfield
Journal:  Environ Microbiol Rep       Date:  2009-03-03       Impact factor: 3.541

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Authors:  Thomas Kaupper; Lucas W Mendes; Monica Harnisz; Sascha M B Krause; Marcus A Horn; Adrian Ho
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4.  Diversity and Distribution of Thermophilic Bacteria in Hot Springs of Pakistan.

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5.  Autotrophic carbon dioxide fixation via the Calvin-Benson-Bassham cycle by the denitrifying methanotroph "Candidatus Methylomirabilis oxyfera".

Authors:  Olivia Rasigraf; Dorien M Kool; Mike S M Jetten; Jaap S Sinninghe Damsté; Katharina F Ettwig
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6.  Genome sequence of the haloalkaliphilic methanotrophic bacterium Methylomicrobium alcaliphilum 20Z.

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7.  Genomic and transcriptomic analyses of the facultative methanotroph Methylocystis sp. strain SB2 grown on methane or ethanol.

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8.  Bacterial CS2 hydrolases from Acidithiobacillus thiooxidans strains are homologous to the archaeal catenane CS2 hydrolase.

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9.  Expanding the verrucomicrobial methanotrophic world: description of three novel species of Methylacidimicrobium gen. nov.

Authors:  Muriel C F van Teeseling; Arjan Pol; Harry R Harhangi; Sietse van der Zwart; Mike S M Jetten; Huub J M Op den Camp; Laura van Niftrik
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10.  Analysis of cbbL, nifH, and pufLM in Soils from the Sør Rondane Mountains, Antarctica, Reveals a Large Diversity of Autotrophic and Phototrophic Bacteria.

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Journal:  Microb Ecol       Date:  2015-11-19       Impact factor: 4.552
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