Desulfobulbus japonicus sp. nov., a novel Gram-negative propionate-oxidizing, sulfate-reducing bacterium isolated from an estuarine sediment in Japan.

@article{Suzuki2007DesulfobulbusJS,
  title={Desulfobulbus japonicus sp. nov., a novel Gram-negative propionate-oxidizing, sulfate-reducing bacterium isolated from an estuarine sediment in Japan.},
  author={D. Suzuki and A. Ueki and Aya Amaishi and K. Ueki},
  journal={International journal of systematic and evolutionary microbiology},
  year={2007},
  volume={57 Pt 4},
  pages={
          849-55
        }
}
  • D. Suzuki, A. Ueki, +1 author K. Ueki
  • Published 2007
  • Biology, Medicine
  • International journal of systematic and evolutionary microbiology
Two strictly anaerobic, mesophilic, sulfate-reducing bacterial strains, Pro1(T) and Pro16, were isolated from an estuarine sediment in the Sea of Japan of the Japanese islands and were characterized by phenotypic and phylogenetic methods. [...] Key Result Strains Pro1(T) and Pro16 had almost the same physiological and chemotaxonomic characteristics. Cells of both strains were Gram-negative, motile, non-spore-forming rods. Catalase activity was not detected.Expand
Desulfoluna butyratoxydans gen. nov., sp. nov., a novel Gram-negative, butyrate-oxidizing, sulfate-reducing bacterium isolated from an estuarine sediment in Japan.
TLDR
A strictly anaerobic, mesophilic, sulfate-reducing bacterial strain, isolated from an estuarine sediment from the Sea of Japan bordering the Japanese islands and was characterized phenotypically and phylogenetically, placing it in the class Deltaproteobacteria. Expand
Desulfovibrio portus sp. nov., a novel sulfate-reducing bacterium in the class Deltaproteobacteria isolated from an estuarine sediment.
TLDR
A strictly anaerobic, mesophilic, sulfate-reducing bacterial strain isolated from an estuarine sediment in the Sea of Japan of the Japanese islands was characterized phenotypically and phylogenetically and assigned the strain to the family Desulfovibrionaceae within the class Deltaproteobacteria. Expand
Desulfovibrio butyratiphilus sp. nov., a Gram-negative, butyrate-oxidizing, sulfate-reducing bacterium isolated from an anaerobic municipal sewage sludge digester.
TLDR
On the basis of significant differences in 16S rRNA gene sequences and phenotypic characteristics, the sewage sludge strains are considered to represent a single novel species of the genus Desulfovibrio, for which the name Desulfvibrio butyratiphilus sp. Expand
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TLDR
It is proposed that the isolate represents a novel species, Desulfobulbus oligotrophicus sp. Expand
Desulfovibrio oceani subsp. oceani sp. nov., subsp. nov. and Desulfovibrio oceani subsp. galateae subsp. nov., novel sulfate-reducing bacteria isolated from the oxygen minimum zone off the coast of Peru
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Two deltaproteobacterial sulfate reducers isolated from the oxygen minimum zone water column off the coast of Peru were isolated andPhylogenetic analysis of 16S rRNA and dsrAB gene sequences showed that both strains belong to the genus Desulfovibrio, and based on a polyphasic investigation it is proposed that strains I.8.1 T and I.9.1T represent a novel species. Expand
Diversity of substrate utilization and growth characteristics of sulfate-reducing bacteria isolated from estuarine sediment in Japan.
TLDR
It was indicated by the phylogenetic and physiological analyses of the isolates that the SRB community composed of diverse lineages of bacteria living in anoxic estuarine sediment should be able to play an extensive role in the carbon cycle as well as the sulfur cycle of the earth. Expand
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TLDR
The 3.1-Mbp D. oligotrophicus genome sequence enables studies of diverse environmental adaptations and the evolutionary genomics of mercury methylation mechanisms. Expand
Sulfate-reducing bacteria Desulfobulbus sp. strain BH from a freshwater lake in Guizhou Province, China
TLDR
A detailed study of the dominating Desulfobulbus isolate designated as strain BH revealed its difference in regards to genetic, morphological, physiological, and biochemical characteristics from the other species of this genus. Expand
A genomic view on syntrophic versus non-syntrophic lifestyle in anaerobic fatty acid degrading communities.
In sulfate-reducing and methanogenic environments complex biopolymers are hydrolyzed and degraded by fermentative micro-organisms that produce hydrogen, carbon dioxide and short chain fatty acids.Expand
Impact of copper on the abundance and diversity of sulfate-reducing prokaryotes in two chilean marine sediments.
TLDR
It is shown that SRPs are sensitive to high copper concentrations, as the mean number of SRPs all along the contaminated sediment was two orders of magnitude lower than in the reference sediment. Expand
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A strictly anaerobic, mesophilic, sulfate-reducing bacterial strain isolated from an estuarine sediment in the Sea of Japan was characterized phenotypically and phylogenetically and placed in the class Deltaproteobacteria. Expand
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