Lactobacillus rogosae

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

Overview

  • Lactobacillus rogosae is a Gram-positive, non-spore-forming, strictly anaerobic, motile, rod-shaped bacterium. It has been detected in at least 5 gut microbiome compilation studies or metastudies. The DNA G+C content is 59%. Lactobacillus rogosae is probably a rare gut coloniser. (Holdeman1974; Hammes2011Bergey)



  • This organism has been recovered from human faeces. The risk classification (www.baua.de) for this organism is 1, i.e., low risk of infection and spread. Pathogenicity status unknown, or very unlikely to be pathogenic. Likely to be transient and not a long-term gut commensal.
    • GENERAL CHARACTERISTICS (Holdeman1974); (Hammes2011Bergey);
    Character Response
  • 🌡
  • Temperature tolerance:
  • doesn't grow at 30℃; grows at 37℃; doesn't grow at 45℃; Grows optimally at 37℃.
  • H+
  • Acid from carbohydrates usually produced:
  • fructose;
    • SPECIAL FEATURES (Holdeman1974); (Hammes2011Bergey);
    Character Response
  • Metabolites produced:
  • formate (minor); acetate; lactate (major); ethanol; succinate (minor); ammoniaminor;
  • Metabolites not produced:
  • H₂S; indole;

  • Holdeman, L. V., & Moore, W. E. C. (1974). New genus, Coprococcus, twelve new species, and emended descriptions of four previously described species of bacteria from human feces. International Journal of Systematic Bacteriology, 24(2), 260–277.

    • Details

    GENERAL
    Lineage Physiology General Growth Tolerances Hydrol./digest./degr.
    Phylum:  Firmicutes Class:  Bacilli Order:  Lactobacillales Family:  Lactobacillaceae Genus:  Lactobacillus Gram stain:  + O2 Relation.:  strictly anaerobic Spore:  No spore Motility:  Swimming Morphology:  Rod
    Health:  Unknown
    Source:  human faeces
    DNA G+C(%):  59
    Opt. T:  37℃
    Lower T(℃):  30(neg)
    Mid T(℃):  37(+)
    High T(℃):  45(neg)
    		Aesculin:  neg Gelatin:  neg Starch:  neg Hippurate:  neg Milk:  neg
    CARBOHYDRATE ACID FORMATION
    Monosaccharide O/F Oligosaccharide O/F Polysaccharide O/F Polyol O/F Other O/F
    Arabinose:  neg Fructose:  + Glucose:  neg Mannose:  neg D-Lyxose:  neg Rhamnose:  neg Sorbose:  neg Xylose:  neg L-Xylose:  neg Cellubiose:  vr Lactose:  vr Maltose:  neg Amygdalin:  neg Glycogen:  neg Inulin:  neg Starch:  neg Adonitol:  neg Glycerol:  neg Sorbitol:  neg Salicin:  neg
    SUBSTRATE ASSIMILATION & UTILISATION
    Monosaccharide util/assim Oligosaccharide util/assim Other carboh. util/assim Amino acid util/assim Organic acid util/assim
    Ribose:  neg Melibiose:  neg Sucrose:  neg Trehalose:  neg Aesculin:  neg Gluconate:  neg Mannitol:  neg Lactate:  neg
    METABOLITES - PRODUCTION & USE
    Fuel Usable Metabolites Metabolites Released Special Products Compounds Produced

    		Formate:  minor(+) Acetate:  + Lactate:  Major(+) Ethanol:  + Succinate:  minor(+) H2S:  neg Ammonia:  minor Indole:  neg

    References

    SPECIFIC REFERENCES FOR LACTOBACILLUS ROGOSAE
  • Holdeman1974 - New Genus, Coprococcus, Twelve New Species, and Emended Descriptions of Four Previously Described Species of Bacteria from Human Feces.
  • Hammes2011Bergey - Bergey's manual of systematic bacteriology. Vol. 3, The Firmicutes. Family Lactobacillaceae, Genus I. Lactobacillus
  • Miyake2015 - Dysbiosis in the Gut Microbiota of Patients with Multiple Sclerosis, with a Striking Depletion of Species Belonging to Clostridia XIVa and IV Clusters
  • ...............................
    • GUT MICROBIOME COMPILATIONS AND METASTUDIES FOR LACTOBACILLUS ROGOSAE
  • Lagier2016 - Culture of previously uncultured members of the human gut microbiota by culturomics.
  • Minerbi2019 - Altered microbiome composition in individuals with fibromyalgia
  • Moore1974 - Human fecal flora: the normal flora of 20 Japanese-Hawaiians.
  • RajilicStojanovic2014 - The first 1000 cultured species of the human gastrointestinal 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
  • ...............................
    • GENERAL REFERENCES FOR LACTOBACILLUS ROGOSAE
  • Ludwig2009 - Revised road map to the phylum Firmicutes.
  • Alkhalil2017 - Bacterial involvements in ulcerative colitis: molecular and microbiological studies
    • Added: April 08, 2021