Bifidobacterium choerinum: Difference between revisions

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==References==
==References==
4. Matsuki, Takahiro., Watanabe, Koichi., Fukuda, Masafumi., and Oyaizu, Hiroshi. (1999) <B>Distribution of Bifidobacterial Species in Human Intestinal Microflora Examined with 16S rRNA-Gene-Targeted Species-Specific Primers</B> Applied and Environmental Microbiology. 65:10, 4506-4512; http://www.ncbi.nlm.nih.gov/pmc/articles/PMC91600/

Revision as of 15:54, 25 April 2013

A Microbial Biorealm page on Bifidobacterium choerinum


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Classification

Higher Order Taxa

Bacteria; Actinobacteria; Actinobacteridae; Bifidobacteriales; Bifidobacteriaceae; Bifidobacterium choerinum

Species

Species of the Genus Bifidobacterium include: B. adolescentis;B. angulatum;B. animalis; B. asteroids; B. bifidum; B. boum;B. breve;B. catenulatum; B. choerinum; B. coryneforme;B. cuniculi;B. denticolens; B. dentium; B. gallicum; B. gallinarum; B. indicum;B. infantis;B. inopinatum;B. lactis;B. longum;B. magnum;B. merycicum;B. minimum;B. pseudocatenulatum;B. pseudolongum;B. pullorum;B. ruminantium; B. saeculare; B. subtile; B. suis;B. thermacidophilum;B. thermophilum.


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Description and Significance

Bifidobacterium choerinum is an autochthonous bifidobacterium species of the pig that is well adapted to the gut of pre-weaned piglets and shows potential probiotic properties (2).

Bifidobacterium choerinum is part of the B. pseudolongum group which is a branch of the Actinobacteria.

Genome Structure

Bifidobacterium chromosomes are circular shape. ? bp in length with a 50% G-C content.

The particular species of Bifidobacterium can be easily detected by using the species-specific PCR method for identifying Bifidobacterium strains isolated from human feces (4).

Cell and Colony Structure

Bifidobacteria choerinum is a Gram-positive, anaerobic, branched rod-shaped bacterium. This particular type of bacteria are non-sporing and also non-motile. It is 10-12 μm and has a V or Y-like appearance. The optimal temperature for growth is 37-41°C and a pH of 6.5-7.3. This bacterium has a hydrophobic character of bifidobacterium surface (3). Bifidobacterium accumulate iron when it is presented in the ferrous oxidation state. This form is expected under anaerobic conditions like the human colon or cattle rumen (3).



Bifidobacterium1.jpg

Metabolism

Bifidobacterium have been known to synthesize vitamins. It is an anaerobic microbe best grown in a TSA slant at 37°C. Significant amounts of polysaccharides normally galactose and glucose often associated with rhamnose (3). This bacterium is not considered to reduce nitrate (3). It also will not develop in the presence of CO2. When residing in the intestines, they are able to ferment sugars to produce lactic acid. It has also been shown to be resistant to aminoglycoside antibiotics while being susceptible to Beta-lactams (3).


This type of bacterium ferments glucose via the phosphoketolase pathway and not via glycolysis. The typical fermentation end products are acetate and lactate.

Ecology

This bacterium is ubiquitous, endosymbiotic inhabitant.

Pathology

Bifidobacterium choerinum are non-pathogenic.


Current Research

References

4. Matsuki, Takahiro., Watanabe, Koichi., Fukuda, Masafumi., and Oyaizu, Hiroshi. (1999) Distribution of Bifidobacterial Species in Human Intestinal Microflora Examined with 16S rRNA-Gene-Targeted Species-Specific Primers Applied and Environmental Microbiology. 65:10, 4506-4512; http://www.ncbi.nlm.nih.gov/pmc/articles/PMC91600/