Faecalibacterium: Difference between revisions
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{{ | {{DISPLAYTITLE:''Faecalibacterium''}} | ||
{{Taxobox | |||
| name = ''Faecalibacterium'' | |||
{{ | | image = <!-- Image of Faecalibacterium --> | ||
| image_caption = ''Faecalibacterium'' under a microscope | |||
| domain = [[Bacteria]] | |||
| phylum = [[Bacteroidota]] | |||
| classis = [[Bacteroidia]] | |||
| ordo = [[Bacteroidales]] | |||
| familia = [[Ruminococcaceae]] | |||
| genus = '''''Faecalibacterium''''' | |||
| genus_authority = Duncan et al. 2002 | |||
| type_species = ''Faecalibacterium prausnitzii'' | |||
| subdivision_ranks = Species | |||
| subdivision = ''F. prausnitzii'' | |||
}} | |||
'''''Faecalibacterium''''' is a genus of [[Gram-positive bacteria]] that is a major component of the human gut [[microbiota]]. It is known for its role in maintaining gut health and its anti-inflammatory properties. The genus contains a single species, ''Faecalibacterium prausnitzii''. | |||
==Taxonomy== | |||
''Faecalibacterium'' belongs to the family [[Ruminococcaceae]], within the order [[Bacteroidales]]. It is classified under the phylum [[Bacteroidota]], which is part of the domain [[Bacteria]]. The genus was first described by Duncan et al. in 2002. | |||
==Morphology== | |||
''Faecalibacterium'' species are [[anaerobic]], non-spore-forming, and rod-shaped. They are [[Gram-positive]], although they may appear Gram-variable due to their thin cell wall structure. The cells are typically 0.5-1.0 µm in diameter and 2-3 µm in length. | |||
==Metabolism== | |||
''Faecalibacterium'' is an obligate anaerobe, meaning it thrives in environments devoid of [[oxygen]]. It is a saccharolytic bacterium, primarily fermenting carbohydrates to produce [[short-chain fatty acids]] (SCFAs), such as [[butyrate]]. Butyrate is a key energy source for [[colonocytes]] and has anti-inflammatory effects in the gut. | |||
==Role in the Gut Microbiota== | |||
''Faecalibacterium prausnitzii'' is one of the most abundant and important commensal bacteria in the human [[gut microbiome]]. It plays a crucial role in maintaining gut health by: | |||
* Producing butyrate, which nourishes colonocytes and maintains the integrity of the [[intestinal barrier]]. | |||
* Modulating the [[immune system]] by reducing [[inflammation]] and promoting the production of anti-inflammatory cytokines. | |||
* Competing with pathogenic bacteria, thereby preventing infections. | |||
==Clinical Significance== | |||
A decrease in ''Faecalibacterium'' abundance has been associated with several [[gastrointestinal disorders]], including [[inflammatory bowel disease]] (IBD), [[Crohn's disease]], and [[ulcerative colitis]]. Low levels of ''Faecalibacterium'' have also been linked to [[irritable bowel syndrome]] (IBS) and [[colorectal cancer]]. | |||
==Potential Therapeutic Uses== | |||
Due to its beneficial effects, ''Faecalibacterium prausnitzii'' is being studied as a potential [[probiotic]] for the treatment of inflammatory bowel diseases and other gut-related conditions. Research is ongoing to develop methods to increase its abundance in the gut, such as through [[dietary interventions]] and [[fecal microbiota transplantation]]. | |||
==Research and Future Directions== | |||
Current research is focused on understanding the mechanisms by which ''Faecalibacterium'' exerts its beneficial effects, as well as exploring its interactions with other members of the gut microbiota. Advances in [[metagenomics]] and [[metabolomics]] are providing new insights into its role in health and disease. | |||
==See Also== | |||
* [[Gut microbiota]] | |||
* [[Probiotics]] | |||
* [[Short-chain fatty acids]] | |||
==External Links== | |||
* [Link to relevant scientific resources] | |||
{{Bacteria}} | |||
[[Category:Bacteria genera]] | |||
[[Category:Gut flora]] | |||
[[Category:Ruminococcaceae]] | |||
Latest revision as of 21:36, 1 January 2025
Faecalibacterium is a genus of Gram-positive bacteria that is a major component of the human gut microbiota. It is known for its role in maintaining gut health and its anti-inflammatory properties. The genus contains a single species, Faecalibacterium prausnitzii.
Taxonomy[edit]
Faecalibacterium belongs to the family Ruminococcaceae, within the order Bacteroidales. It is classified under the phylum Bacteroidota, which is part of the domain Bacteria. The genus was first described by Duncan et al. in 2002.
Morphology[edit]
Faecalibacterium species are anaerobic, non-spore-forming, and rod-shaped. They are Gram-positive, although they may appear Gram-variable due to their thin cell wall structure. The cells are typically 0.5-1.0 µm in diameter and 2-3 µm in length.
Metabolism[edit]
Faecalibacterium is an obligate anaerobe, meaning it thrives in environments devoid of oxygen. It is a saccharolytic bacterium, primarily fermenting carbohydrates to produce short-chain fatty acids (SCFAs), such as butyrate. Butyrate is a key energy source for colonocytes and has anti-inflammatory effects in the gut.
Role in the Gut Microbiota[edit]
Faecalibacterium prausnitzii is one of the most abundant and important commensal bacteria in the human gut microbiome. It plays a crucial role in maintaining gut health by:
- Producing butyrate, which nourishes colonocytes and maintains the integrity of the intestinal barrier.
- Modulating the immune system by reducing inflammation and promoting the production of anti-inflammatory cytokines.
- Competing with pathogenic bacteria, thereby preventing infections.
Clinical Significance[edit]
A decrease in Faecalibacterium abundance has been associated with several gastrointestinal disorders, including inflammatory bowel disease (IBD), Crohn's disease, and ulcerative colitis. Low levels of Faecalibacterium have also been linked to irritable bowel syndrome (IBS) and colorectal cancer.
Potential Therapeutic Uses[edit]
Due to its beneficial effects, Faecalibacterium prausnitzii is being studied as a potential probiotic for the treatment of inflammatory bowel diseases and other gut-related conditions. Research is ongoing to develop methods to increase its abundance in the gut, such as through dietary interventions and fecal microbiota transplantation.
Research and Future Directions[edit]
Current research is focused on understanding the mechanisms by which Faecalibacterium exerts its beneficial effects, as well as exploring its interactions with other members of the gut microbiota. Advances in metagenomics and metabolomics are providing new insights into its role in health and disease.
See Also[edit]
External Links[edit]
- [Link to relevant scientific resources]
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