Providencia alcalifaciens: Difference between revisions

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==Metabolism==
==Metabolism==


''Providencia alcalifaciens'' is a facultative anaerobe and is chemoorganotrophic. ''P. alcalifaciens'' can use respiratory or fermentative types of metabolism. D-Glucose is catabolized by ''P. alcalifaciens'' with the production of gas. This bacteria is oxidase-negative. ''P. alcalifaciens'' is unable to ferment the following sugars: mannitol, xylose, or galactose.
''Providencia alcalifaciens'' is a facultative anaerobe and is chemoorganotrophic. ''P. alcalifaciens'' can use respiratory or fermentative types of metabolism. D-Glucose is catabolized by ''P. alcalifaciens'' with the production of gas. This bacteria is oxidase-negative. ''P. alcalifaciens'' is unable to ferment the following sugars: mannitol, xylose, or galactose.<sup>6</sup>


==Ecology==
==Ecology==

Revision as of 18:02, 9 May 2012

This student page has not been curated.

A Microbial Biorealm page on the genus Providencia alcalifaciens

Scanning electron micrograph of Providencia alcalifaciens [[1]]

Classification

Higher order taxa

Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacteriales; Enterobacteriaceae; Providencia

Species

Providencia alcalifaciens

NCBI: [2]


Description and significance

P. alcalifaciens is a rod-shaped gram-negative bacterium. 6This bacterium is associated with diarrhea in children and travelers. It is found in the gastrointestinal tract. Scientists have found that some strains of P. alcalifaciens are invasive to intestinal mucosa and other cell types in eukaryotes. In a study on the invasiveness of P. alcalifaciens on HEp-2 cells, the number of HEp-2 cells decreased within 6 hours after infection.5 This microbe causes actin condensation in the invaded cells. P. alcalifaciens thrives in environments around 37 degrees celsius especially for invasion. A study found that the microfilament inhibitor cytochalasin D inhibits the invasion by P. alcalifaciens. 2

Genome structure

NCBI: [3]

According to the NCBI database, P. alcalifaciens is made up of 4,022 protein sequences encoded in a 4.03 Mb genome. The GC content is 41.8% 5. The genome was sequenced in 2008, isolated from human feces. Most P. alcalifaciens strains are organized in plasmids. Scientists are trying to determine whether the invasiveness and genome structure of the different bacterial strains have certain correlations concerning the presence of plasmids.

Cell and colony structure

Providencia alcalifaciens are rod-shaped and usually 0.6-0.8 x 1.5-2.5μm in size. P. alcalifaciens are gram negative. 6

Metabolism

Providencia alcalifaciens is a facultative anaerobe and is chemoorganotrophic. P. alcalifaciens can use respiratory or fermentative types of metabolism. D-Glucose is catabolized by P. alcalifaciens with the production of gas. This bacteria is oxidase-negative. P. alcalifaciens is unable to ferment the following sugars: mannitol, xylose, or galactose.6

Ecology

P. alcalifaciens is found in many different human and animal reservoirs. It is usually found in the gut or digestive tract and mostly seen in travelers who have traveled to developing countries. Young children and the elderly are at a higher risk for this infection.

Pathology

Infection symptoms include diarrhea, abdominal pain, and fever. P. alcalifaciens is believed to be involved in gastroenteritis. This bacteria is associated with travelers overseas. A problem of treating the infection from P. alcalifaciens is arising due to antibiotic resistance. There are two modes of entry that have been associated with P. alcalifaciens. The bacteria is associated with actin condensation and endocytosis by a process of polymerizing the cytoskeletal components. P. alcalifaciens is also associated with interfering with tight junctions and entering into the intercellular spaces and thriving there.

References

(1) Albert, M.J, M. Ansaruzzaman, et al. Characteristics of invasion by HEp-2 cells by Providencia alcalifaciens. J Med Microbiol. 1995 March; 42 [doi: 10.1099/00222615-42-3-186].

(2) Mathan MM, Mathan VI, Albert MJ. Electron microscope study of the attachment and penetration of rabbit intestinal epithelium by Providencia alcalifaciens. J Pathol. 1993 Sep; 171(1): 67-71.

(3) Penner, J.L, M.A Preston. Difference among Providencia species in their in vitro susceptibilities to five antibiotics. Antimicrob Agents and Chemother. 1980 December; 18(6): 868-871.

(4) Sobreira, Marise, Nilma Leal, et al. Molecular analysis of clinical isolates of Providencia alcalifaciens. J Med Microbiol. 2001 Jan; 50(1) 29-34.

(5) http://www.ncbi.nlm.nih.gov/genome/?term=txid126385

(6) Williams and Wilkins, William. "Bergey’s Manual of Determinative Bacterialology." 9th ed. Lippincott, 1994. Print.

Edited by Victoria Hughes of Dr. Lisa R. Moore, University of Southern Maine, Department of Biological Sciences, http://www.usm.maine.edu/bio