Parabacteroides

Parabacteroides
Scientific classification
Domain:	Bacteria
Phylum:	Bacteroidota
Class:	Bacteroidia
Order:	Bacteroidales
Family:	" Tannerellaceae "
Genus:	Parabacteroides; Sakamoto and Benno 2006
Type species
	Parabacteroides distasonis;
Species
	P. acidifaciens ; P. bouchesdurhonensis ; P. chartae ; P. chinchillae ; P. chongii ; P. distasonis ; P. faecavium ; P. faecis ; P. goldsteinii ; P. gordonii ; P. hominis ; P. intestinavium ; P. intestinigallinarum ; P. intestinipullorum ; P. johnsonii ; P. massiliensis ; P. merdae ; P. pacaensis ; P. pekinense ; P. provencensis ; P. timonensis Contents Taxonomy ; Genomics ; Species ; Role in the human gut microenvironment ; References ; Further reading ;

Last updated February 01, 2023

Parabacteroides is a Gram-negative, anaerobic, non-spore-forming genus from the family Tannerellaceae .^[2]^[3]^[4]^[5]

First isolated from fecal specimen in 1933, type strain Parabacteroides distasonis was originally classified under the name Bacteroides distasonis.^[6] The strain was re-classified to form the new genus Parabacteroides in 2006.^[7]Parabacteroides currently comprise 21 phylogenetically, ecologically, and metabolically diverse species, 11 of which are validly published in the taxonomic database List of Prokaryotic names with Standing in Nomenclature (LPSN).^[2]

Within the Parabacteroides genus, species P. distasonis and P. goldsteinii have been associated with beneficial effects in human health, relating to their integral role in gut microbiota along the digestive tract.^[8]^[9]^[10]

Taxonomy

The taxon ID number used for prokaryotic genus Parabacteroides is 516255.^[2] Parent taxon comes from bacterial family Tannerellaceae, identified by number 29533 in the online LPSN database.^[2]

Genomics

The genomes of Parabacteroides are highly variable, both across species and within a single strain. For example, genomes isolated from type strain P. distasonis range in size from approximately 4.5 to 5.2 Mb (megabases) and encode over 2,000 functional proteins, signifying substantial variation within the species.^[11]

Species

The genus Parabacteroides comprises the following species, 11 of which are validly published by the List of Prokaryotic names with Standing in Nomenclature (LPSN): ^[2]


Validly Named by the LPSN ^[2]	Not Validly Named by the LPSN ^[2]
P. acidifaciens Wang et al. 2019 P. chartae Tan et al. 2012 P. chinchillae Kitahara et al. 2013 P. chongii Kim et al. 2019 P. distasonis (Eggerth and Gagnon 1933) Sakamoto and Benno 2006 P. faecis Sakamoto et al. 2015 P. goldsteinii (Song et al. 2006) Sakamoto and Benno 2006 P. gordonii Sakamoto et al. 2009 P. hominis Liu et al. 2022 P. johnsonii Sakamoto et al. 2007 P. merdae (Johnson et al. 1986) Sakamoto and Benno 2006	P. bouchesdurhonensis Dione et al. 2018 P. faecavium Gilroy et. al 2021 P. intestinavium Gilroy et al. 2021 P. intestinigallinarum Gilroy et al. 2021 P. intestinipullorum Gilroy et al. 2021 P. massiliensis Bellali et al. 2019 P. pacaensis Benabdelkader et al. 2020 P. pekinense Li et al. 2022 P. provencensis Benabdelkader et al. 2020 P. timonensis Bilen et al. 2019

Role in the human gut microenvironment

Part of the bacterial order Bacteroidales present in the human gut ,Parabacteroides are commonly found within the gut microenvironment. Parabacteroides species constitute a significant component of microbiota along the digestive tract, benefitting from a commensal relationship with the human body. Intestinal microbiota also benefit the human host, modulating essential metabolism-related processes within the gut microenvironment.^[12]

P. distasonis and P. goldsteinii in particular form biofilms in the gut microbiota, allowing these species to survive under harsh conditions and maintain ample populations in extreme pH environments.^[8] Recent studies elucidate new applications of Parabacteroides as probiotics, supporting balanced microbiota composition as a benefit to human digestive health.^[8] Both P. distasonis and P. goldsteinii exhibit anti-obesity effects via production of secondary bile acids and succinate within the gut microenvironment.^[8]^[10] Studies on Parabacteroides species P. distasonis reveal metabolic benefits of this mechanism, including control of weight gain, decrease in hyperglycemia, and amelioration of hepatic steatosis and other metabolic diseases. ^[9]

Related Research Articles

The phylum Bacteroidota is composed of three large classes of Gram-negative, nonsporeforming, anaerobic or aerobic, and rod-shaped bacteria that are widely distributed in the environment, including in soil, sediments, and sea water, as well as in the guts and on the skin of animals.

Treponema is a genus of spiral-shaped bacteria. The major treponeme species of human pathogens is Treponema pallidum, whose subspecies are responsible for diseases such as syphilis, bejel, and yaws. Treponema carateum is the cause of pinta. Treponema paraluiscuniculi is associated with syphilis in rabbits. Treponema succinifaciens has been found in the gut microbiome of traditional rural human populations.

Gut microbiota, gut microbiome, or gut flora, are the microorganisms, including bacteria, archaea, fungi, and viruses that live in the digestive tracts of animals. The gastrointestinal metagenome is the aggregate of all the genomes of the gut microbiota. The gut is the main location of the human microbiome. The gut microbiota has broad impacts, including effects on colonization, resistance to pathogens, maintaining the intestinal epithelium, metabolizing dietary and pharmaceutical compounds, controlling immune function, and even behavior through the gut–brain axis.

Fibrobacterota is a small bacterial phylum which includes many of the major rumen bacteria, allowing for the degradation of plant-based cellulose in ruminant animals. Members of this phylum were categorized in other phyla. The genus Fibrobacter was removed from the genus Bacteroides in 1988.

The Alicyclobacillaceae are a family of Gram-positive bacteria. All members of this family are aerobic and form endospores.

Bacteroides is a genus of Gram-negative, obligate anaerobic bacteria. Bacteroides species are non endospore-forming bacilli, and may be either motile or nonmotile, depending on the species. The DNA base composition is 40–48% GC. Unusual in bacterial organisms, Bacteroides membranes contain sphingolipids. They also contain meso-diaminopimelic acid in their peptidoglycan layer.

Bacteroides fragilis is an anaerobic, Gram-negative, pleomorphic to rod-shaped bacterium. It is part of the normal microbiota of the human colon and is generally commensal, but can cause infection if displaced into the bloodstream or surrounding tissue following surgery, disease, or trauma.

Prevotellaceae is a family of bacteria from the order Bacteroidales. As a member of the phylum Bacteroidota, its species are gram negative – meaning their outer cell wall contains lipopolysaccharides. Since they are anaerobes, members of Prevotellaceae can live in areas where there is little to no oxygen – such as the guts of mammals.

Halorubrum is a genus in the family Halorubraceae. Halorubrum species areusually halophilic and can be found in waters with high salt concentration such as the Dead Sea or Lake Zabuye.

Faecalibacterium is a genus of bacteria. Its sole known species, Faecalibacterium prausnitzii is gram-positive, mesophilic, rod-shaped, anaerobic and is one of the most abundant and important commensal bacteria of the human gut microbiota. It is non-spore forming and non-motile. These bacteria produce butyrate and other short-chain fatty acids through the fermentation of dietary fiber.

Porphyromonas is a Gram-negative, non-spore-forming, obligately anaerobic and non-motile genus from the family of Porphyromonadaceae. There were 16 different Porphyromonas species documented as of 2015 which reside in both animal and human reservoirs. It was discovered more recently that Porphyromonas also exist with the environment, albeit to a lower extent. This genus is notably implicated in the modulation of oral cavity, respiratory tract, and gastrointestinal tract disease states. It is suggested that Porphyromonas either operate as benign bacteria pertinent to host immunity or are potential pathobionts that opportunistically provoke diseased states when homeostasis is disrupted. Despite its characterization not being fully elucidated due to sparse research, various studies report the prevalence of this genus at 58.7% in healthy states compared with 41.3% in diseased states.

Akkermansia is a genus in the phylum Verrucomicrobiota (Bacteria). The genus was first proposed by Derrien et al. (2004), with the type species Akkermansia muciniphila.

Alistipes is a Gram-negative genus of rod-shaped anaerobic bacteria in the phylum Bacteroidota. When members of this genus colonize the human gastrointestinal (GI) tract, they provide protective effects against colitis, autism, and cirrhosis. However, this genus can also cause dysbiosis by contributing to anxiety, chronic fatigue syndrome, depression, and hypertension. Showcasing priority effects in microbiome assembly, when infant GI tracts have bacteria of the species Staphylococcus but not the species Faecalibacterium, Alistipes species become less capable of colonization.

Parasutterella is a genus of Gram-negative, circular/rod-shaped, obligate anaerobic, non-spore forming bacteria from the Pseudomonadota phylum, Betaproteobacteria class and the family Sutterellaceae. Previously, this genus was considered "unculturable," meaning that it could not be characterized through conventional laboratory techniques, such as grow in culture due its unique requirements of anaerobic environment. The genus was initially discovered through 16S rRNA sequencing and bioinformatics analysis. By analyzing the sequence similarity, Parasutterella was determined to be related most closely to the genus Sutterella and previously classified in the family Alcaligenaceae.

Parabacteroides distasonis is a Gram-negative, non-sporeforming, obligately anaerobic, rod-shaped, and non-motile bacterium from the genus of Parabacteroides.

Parabacteroides merdae is a Gram-negative, non-sporeforming, obligately anaerobic, rod-shaped, and non-motile bacterium from the genus of Parabacteroides which has been isolated from human faeces in the United States.

Bacteroides thetaiotaomicron is a species of bacterium of the genus Bacteroides. It is a gram-negative obligate anaerobe. It is one of the most common bacteria found in human gut microbiota and is also an opportunistic pathogen. Its genome contains numerous genes specialized in digestion of polysaccharides. It is often used in research as a model organism for functional studies of the human microbiota.

Bacteroides caccae is a saccharolytic gram-negative bacterium from the genus Bacteroides. They are obligate anaerobes first isolated from human feces in the 1980s. Prior to their discovery, they were known as the 3452A DNA homology group. The type strain is now identified as ATCC 43185.

Komagataeibacter is a genus of bacteria in the family Acetobacteraceae. It was described in 2012 by Yamada et al. The type species is Komagataeibacter xylinus.

Snodgrassella alvi is a species of Gram-negative bacteria within the Neisseriaceae and the only known species of the genus Snodgrassella. It was isolated and scientifically described in 2012 by Waldan K. Kwong and Nancy A. Moran, who named the bacteria after the American entomologist Robert Evans Snodgrass.

References

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 Parte, A.C. "Parabacteroides". LPSN .
1 2 3 4 5 6 7 "Genus: Parabacteroides". lpsn.dsmz.de. Retrieved 2022-11-18.
↑ "UniProt". www.uniprot.org. Retrieved 2022-11-18.
↑ Bergey's manual of systematic bacteriology. David R. Boone, Richard W. Castenholz, George M. Garrity (2nd ed.). New York: Springer. 2011. ISBN 978-0-387-98771-2. OCLC 45951601.{{cite book}}: CS1 maint: others (link)
↑ Schaechter's mechanisms of microbial disease. Moselio Schaechter, N. Cary Engleberg, Victor J. DiRita, Terence Dermody (5th ed.). Philadelphia: Wolters Kluwer Health/Lippincott Williams & Wilkins. 2013. ISBN 978-0-7817-8744-4. OCLC 769141612.{{cite book}}: CS1 maint: others (link)
↑ Eggerth, A. H.; Gagnon, B. H. (1933). "The Bacteroides of Human Feces". Journal of Bacteriology. 25 (4): 389–413. doi:10.1128/jb.25.4.389-413.1933. ISSN 0021-9193. PMC 533498 . PMID 16559622.
↑ Sakamoto, Mitsuo; Benno, YoshimiYR 2006 (2006). "Reclassification of Bacteroides distasonis, Bacteroides goldsteinii and Bacteroides merdae as Parabacteroides distasonis gen. nov., comb. nov., Parabacteroides goldsteinii comb. nov. and Parabacteroides merdae comb. nov". International Journal of Systematic and Evolutionary Microbiology. 56 (7): 1599–1605. doi: 10.1099/ijs.0.64192-0 . ISSN 1466-5034. PMID 16825636.
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↑ Yang, Falong; Kumar, Anand; Davenport, Karen Walston; Kelliher, Julia Mae; Ezeji, Jessica C.; Good, Caryn E.; Jacobs, Michael R.; Conger, Mathew; West, Gail; Fiocchi, Claudio; Cominelli, Fabio; Dichosa, Armand Earl Ko; Rodriguez-Palacios, Alexander (2019-09-05). "Complete Genome Sequence of a Parabacteroides distasonis Strain (CavFT hAR46) Isolated from a Gut Wall-Cavitating Microlesion in a Patient with Severe Crohn's Disease". Microbiology Resource Announcements. 8 (36): e00585–19. doi:10.1128/MRA.00585-19. ISSN 2576-098X. PMC 6728636 . PMID 31488526.
↑ Rolls, Edmund T. (2016). "Reward Systems in the Brain and Nutrition". Annual Review of Nutrition . 36 (1): 435–470. doi:10.1146/annurev-nutr-071715-050725. PMID 27146018.