Characterization of<scp>M</scp>elioribacter roseusgen. nov., sp. nov., a novel facultatively anaerobic thermophilic cellulolytic bacterium from the class<scp>I</scp>gnavibacteria, and a proposal of a novel bacterial phylum<scp>I</scp>gnavibacteriae


Citation
Podosokorskaya et al. (2013). Environmental Microbiology 15 (6)
Names (1)
Abstract
SummaryA novel moderately thermophilic, facultatively anaerobic chemoorganotrophic bacterium strainP3M‐2Twas isolated from a microbial mat developing on the wooden surface of a chute under the flow of hot water (46°C) coming out of a 2775‐m‐deep oil exploration well (Tomsk region,Russia). StrainP3M‐2Tis a moderate thermophile and facultative anaerobe growing on mono‐, di‐ or polysaccharides by aerobic respiration, fermentation or by reducing diverse electron acceptors [nitrite,Fe(III),As(V)]. Its closest cultivated relative (90.8%rRNAgene sequence identity) isIgnavibacterium album, the only chemoorganotrophic member of the phylumChlorobi. New genus and speciesMelioribacter roseusare proposed for isolateP3M‐2T. Together withI. album, the new organism represents the classIgnavibacteriaassigned to the phylumChlorobi. The revealed group includes a variety of uncultured environmental clones, the16S rRNAgene sequences of some of which have been previously attributed to the candidate divisionZB1. Phylogenetic analysis ofM. roseusandI. albumbased on their23S rRNAandRecAsequences confirmed that these two organisms could represent an even deeper, phylum‐level lineage. Hence, we propose a new phylumIgnavibacteriaewithin theBacteroidetes–Chlorobigroup with a sole classIgnavibacteria, two familiesIgnavibacteriaceaeandMelioribacteraceaeand two speciesI. albumandM. roseus. This proposal correlates with chemotaxonomic data and phenotypic differences of both organisms from other cultured representatives ofChlorobi. The most essential differences, supported by the analyses of complete genomes of both organisms, are motility, facultatively anaerobic and obligately organotrophic mode of life, the absence of chlorosomes and the apparent inability to grow phototrophically.
Authors
Publication date
2013-06-01
DOI
10.1111/1462-2920.12067

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