Streptococcus australis

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

Overview

  • Streptococcus australis is a Gram-positive, non-spore-forming, facultatively anaerobic, non-motile, coccus bacterium. It has been detected in at least 12 gut microbiome compilation studies or metastudies. The DNA G+C content is 43.5%. Streptococcus australis is probably a common, although minor, coloniser of the gut. (Willcox2001; Whiley2011Bergey; Rossi2016)



  • This organism has been recovered from oral flora, human faeces and clinical specimens (saliva, blood, sputum). The risk classification (www.baua.de) for this organism is 1, i.e., low risk of infection and spread. Is a rare opportunistic pathogen. A possible gut commensal.
    • QUIRKS
  • Found in human breast milk (Jeurink2013).
    • GENERAL CHARACTERISTICS (Willcox2001); (Whiley2011Bergey);
    Character Response
  • Substrates hydrolysed or digested:
  • arginine; gelatin;
  • H+
  • Acid from carbohydrates usually produced:
  • fructose; galactose; glucose; mannose; lactose; maltose; pullulan; sucrose; N-Ac glucosamine; salicin;
  • Active enzymes:
  • Ala arylamidase; Ala-Phe-Pro arylamidase; alkaline phosphatase; α-glucosidase; Gly-Trp arylamidase; Leu arylamidase;
    • SPECIAL FEATURES (Willcox2001); (Whiley2011Bergey);
    Character Response
  • Metabolites produced:
  • lactate;
  • Metabolites not produced:
  • indole;
  • VP test:
  • not active
  • Haemolysis:
  • alpha
  • Nitrate:
  • not reduced

  • Streptococci are members of the normal flora. Virulence factors of group A streptococci include (1) M protein and lipoteichoic acid for attachment; (2) a hyaluronic acid capsule that inhibits phagocytosis; (3) other extracellular products, such as pyrogenic (erythrogenic) toxin, which causes the rash of scarlet fever; and (4) streptokinase, streptodornase (DNase B), and streptolysins. Some strains are nephritogenic. Immune-mediated sequelae do not reflect dissemination of bacteria. Nongroup A strains have no defined virulence factors. In humans, diseases associated with the streptococci occur chiefly in the respiratory tract, bloodstream, or as skin infections. [https://www.ncbi.nlm.nih.gov/books/NBK7611/]

  • GutFeeling KnowledgeBase COMMENTS [Website]

    The genus Streptococcus , a heterogeneous group of Gram-positive bacteria, has broad significance in medicine and industry. Various streptococci are important ecologically as part of the normal microbial flora of animals and humans; some can also cause diseases that range from subacute to acute or even chronic. Among the significant human diseases attributable to streptococci are scarlet fever, rheumatic heart disease, glomerulonephritis, and pneumococcal pneumonia. Streptococci are essential in industrial and dairy processes and as indicators of pollution. [https://www.ncbi.nlm.nih.gov/books/NBK7611/]

  • Lagier, J.-C., Armougom, F., Million, M., Hugon, P., Pagnier, I., Robert, C., Bittar, F., Fournous, G., Gimenez, G., Maraninchi, M., Trape, J.-F., Koonin, E. V., La Scola, B., & Raoult, D. (2012). Microbial culturomics: paradigm shift in the human gut microbiome study. Clinical Microbiology and Infection: The Official Publication of the European Society of Clinical Microbiology and Infectious Diseases, 18(12), 1185–1193.

    • Details

    GENERAL
    Lineage Physiology General Growth Tolerances Hydrol./digest./degr.
    Phylum:  Firmicutes Class:  Bacilli Order:  Lactobacillales Family:  Streptococcaceae Genus:  Streptococcus Gram stain:  + O2 Relation.:  facultatively anaerobic Spore:  No spore Motility:  Sessile Morphology:  Coccus
    Health:  Unknown
    Source:  oral flora, human faeces and clinical specimens (saliva, blood, sputum)
    DNA G+C(%):  43.5
    		Aesculin:  vr Urea:  neg Gelatin:  + Arginine:  + Hippurate:  neg
    CARBOHYDRATE ACID FORMATION
    Monosaccharide O/F Oligosaccharide O/F Polysaccharide O/F Polyol O/F Other O/F
    Arabinose:  neg D-Arabinose:  neg L-Arabinose:  neg Fructose:  + Fucose:  neg D-Fucose:  neg Galactose:  + Glucose:  + Mannose:  + Rhamnose:  neg Ribose:  neg Sorbose:  neg D-Tagatose:  neg Xylose:  neg L-Xylose:  neg Cellubiose:  neg Gentiobiose:  neg Lactose:  + Maltose:  + Melezitose:  neg Melibiose:  neg Sucrose:  + Trehalose:  neg Turanose:  neg Amygdalin:  neg Dextrin:  neg Glycogen:  neg Inulin:  neg Starch:  neg Adonitol:  neg D-Arabitol:  neg L-Arabitol:  neg Dulcitol:  neg Erythritol:  neg Glycerol:  neg Inositol:  neg Mannitol:  neg Sorbitol:  neg Xylitol:  neg Arbutin:  neg Gluconate:  neg 2-Ketogluconate:  neg 5-Ketogluconate:  neg Me-α-D-Glc:  neg Me-α-D-Mann:  neg Me-Xyloside:  neg NAc-α-GA:  + Salicin:  +
    SUBSTRATE ASSIMILATION & UTILISATION
    Monosaccharide util/assim Oligosaccharide util/assim Other carboh. util/assim Amino acid util/assim Organic acid util/assim
    Melibiose:  neg Hippurate:  neg
    ENZYME ACTIVITY
    Enzymes: General Enzymes: Carbohydrate Enzymes: Protein Enzymes: Arylamidases Enzymes: Esters/fats
    Catalase:  neg Urease:  neg Ac-β-glcamnd:  neg α-Fucosidase:  neg α-Galactosidase:  neg β-Galactosidase:  vr α-Glucosidase:  + β-Glucosidase:  vr β-Glucuronidase:  neg α-Mannosidase:  neg β-Mannosidase:  neg ArgDH:  vr GluDC:  neg AlanineAA:  + AlaPheProAA:  + GluGluAA:  neg GlyTrpAA:  + GlyAA:  vr LeuAA:  + LeuGlyAA:  vr PyrrolidAA:  neg AlkalineP:  + AcidP:  neg Esterase(C4):  neg EstLip(C8):  neg Lipase(C14):  neg
    METABOLITES - PRODUCTION & USE
    Fuel Usable Metabolites Metabolites Released Special Products Compounds Produced

    		Lactate:  + Indole:  neg

    References

    SPECIFIC REFERENCES FOR STREPTOCOCCUS AUSTRALIS
  • Willcox2001 - Streptococcus australis sp. nov., a novel oral streptococcus.
  • Whiley2011Bergey - Bergey's manual of systematic bacteriology. Vol. 3, The Firmicutes. Family Streptococcaceae, Genus I. Streptococcus
  • Rossi2016 - Mining metagenomic whole genome sequences revealed subdominant but constant Lactobacillus population in the human gut microbiota.
  • ...............................
    • GUT MICROBIOME COMPILATIONS AND METASTUDIES FOR STREPTOCOCCUS AUSTRALIS
  • Byrd2020 - Stability and dynamics of the human gut microbiome and its association with systemic immune traits.
  • Chen2020 - Structural and Functional Characterization of the Gut Microbiota in Elderly Women With Migraine
  • Chen2020a - Featured Gut Microbiomes Associated With the Progression of Chronic Hepatitis B Disease
  • Forster2019 - A human gut bacterial genome and culture collection for improved metagenomic analyses.
  • Hu2019 - The Gut Microbiome Signatures Discriminate Healthy From Pulmonary Tuberculosis Patients
  • Lagier2016 - Culture of previously uncultured members of the human gut microbiota by culturomics.
  • McLaughlin2010 - The bacteriology of pouchitis: a molecular phylogenetic analysis using 16S rRNA gene cloning and sequencing.
  • New2022 - Collective effects of human genomic variation on microbiome function.
  • RajilicStojanovic2014 - The first 1000 cultured species of the human gastrointestinal microbiota.
  • Rothschild2018 - Environment dominates over host genetics in shaping human gut microbiota.
  • Yang2020 - Species-Level Analysis of Human Gut Microbiota With Metataxonomics.
  • Yang2020a - Establishing high-accuracy biomarkers for colorectal cancer by comparing fecal microbiomes in patients with healthy families
  • Zeller2014 - Potential of fecal microbiota for early-stage detection of colorectal cancer
  • ...............................
    • GENERAL REFERENCES FOR STREPTOCOCCUS AUSTRALIS
  • Ludwig2009 - Revised road map to the phylum Firmicutes.
    • Added: April 08, 2021