Terrahaemophilus aromaticivorans

Bacteria
General | Carbohydrate O/F | Substrate utilisation | Enzymes | Metabolites | Antibiotics

Overview

  • Terrahaemophilus aromaticivorans is a Gram-negative, non-spore-forming, bacterium. It has been detected in at least 2 gut microbiome compilation studies or metastudies. Terrahaemophilus aromaticivorans is probably a rare gut coloniser. (Balan2018; Chung2019)



  • This organism has been recovered from human faeces, oral cavity and petroleum sludge. Pathogenicity status unknown, or very unlikely to be pathogenic. A possible gut commensal.
    • GENERAL CHARACTERISTICS (Chung2019);
    Character Response
  • Substrates assimilated or utilised:
  • inulin;
  • NOTES

    Little is known about this organism.

    Hirano, S., Kitauchi, F., Haruki, M., Imanaka, T., Morikawa, M., and Kanaya, S. "Terrahaemophilus aromaticivorans gen. nov. sp. nov., a terrestrial Pasteurellaceae isolated from petroleum sludge." Unpublished (as of 26 December 2002)

    • Details

    GENERAL
    Lineage Physiology General Growth Tolerances Hydrol./digest./degr.
    Phylum:  Proteobacteria Class:  Gammaproteobacteria Order:  Pasteurellales Family:  Pasteurellaceae Genus:  Terrahaemophilus Gram stain:  neg Spore:  No spore
    Health:  Unknown
    Source:  human faeces, oral cavity and petroleum sludge
    SUBSTRATE ASSIMILATION & UTILISATION
    Monosaccharide util/assim Oligosaccharide util/assim Other carboh. util/assim Amino acid util/assim Organic acid util/assim
    Inulin:  +

    References

    SPECIFIC REFERENCES FOR TERRAHAEMOPHILUS AROMATICIVORANS
  • Balan2018 - Keystone Species in Pregnancy Gingivitis: A Snapshot of Oral Microbiome During Pregnancy and Postpartum Period.
  • Chung2019 - Impact of carbohydrate substrate complexity on the diversity of the human colonic microbiota.
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    • GUT MICROBIOME COMPILATIONS AND METASTUDIES FOR TERRAHAEMOPHILUS AROMATICIVORANS
  • Chung2019 - Impact of carbohydrate substrate complexity on the diversity of the human colonic microbiota.
  • Walker2011 - High-throughput clone library analysis of the mucosa-associated microbiota reveals dysbiosis and differences between inflamed and non-inflamed regions of the intestine in inflammatory bowel disease.
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    • Added: October 28, 2021