Biological Nitrogen Removal Database

A manually curated data resource for microbial nitrogen removal


Detailed information

Microorganism

Thauera aromatica strain LG356

Taxonomy

  • Phylum : Proteobacteria
  • Class : Betaproteobacteria
  • Order :Rhodocyclales
  • Family : Zoogloeaceae
  • Genus : Thauera

Electron Acceptor

NO3-

Electron Donor

Benzoate

Information about Article

Reference:Mechichi et al., 2002

Title:Phylogenetic and Metabolic Diversity of Bacteria Degrading Aromatic Compounds Under Denitrifying Conditions, and Description of Thauera Phenylacetica Sp. Nov., Thauera Aminoaromaticasp. Nov., and Azoarcus Buckelii Sp. Nov

Pubmed ID:12070766

Pubmed link:Link

Full research link:Link

Abstract: Six strains of denitrifying bacteria isolated from various oxic and anoxic habitats on different monocyclic aromatic substrates were characterized by sequencing 16S rRNA genes, determining physiological and morphological traits, and DNA-DNA hybridization. According to these criteria, strains S100, SP and LG356 were identified as members of Thauera aromatica. Strains B5-1 and B5-2 were tentatively affiliated to the species Azoarcus tolulyticus. Strains B4P and S2 were only distantly related to each other and to other described Thauera species. These two strains are proposed as the type strains of two new species, Thauera phenylacetica sp. nov. and Thauera aminoaromaticasp. nov., respectively. By 16S rRNA gene analysis, strain U120 was highly related to the type strains of Azoarcus evansii and Azoarcus anaerobius, whereas corresponding DNA-DNA reassociation values indicated only a low degree of genomic relatedness. Based upon a low DNA similarity value and the presence of distinguishing physiological properties, strain U120 is proposed as the type strain of a new species, Azoarcus buckelii sp. nov. Almost all of the new isolates were obtained with different substrates. The highly varied substrate spectra of the isolates indicates that an even higher diversity of denitrifying bacteria degrading aromatic compounds would be discovered in the different habitats by using a larger spectrum of aromatic substrates for enrichment and isolation.