Prevotella Melaninogenica
A Microbial Biorealm page on the genus Prevotella Melaninogenica
Classification
Higher order taxa
Cellular organisms; Bacteria; Bacteroidetes/Chlorobi group; Bacteroidetes; Bacteroidetes (class); Bacteroidales; Prevotellaceae; Prevotella [Others may be used. Use NCBI link to find]
Species
Prevotella Melaninogenica Synonym: Bacteroides melaninogenicus subsp. melaninogenicus
NCBI: Taxonomy |
Description and significance
Prevotella Melaninogenica is generally found in the oral cavity causing opportunistic pathogen in humans and the rumen of cattle and sheep which helps to break down protein and carbohydrates food. Similar to all species of the genus Prevotella, it is strictly anaerobic, gram-negative bacterium with non-spore forming coccobacilli. When Prevotella melaninogenica grows on blood-containing media, it gives black pigment that can be easily seen in adults with rapidly progressing periodontitis lesions. This bacterium is nonmotile, therefore usually forms biofilm. In addition, P. melaninogenica includes those organisms which hydrolyze esculin but not starch and produce acid in peptone-yeast-glucose medium and peptone-yeast-mannose medium. It is catalase negative, indole negative, lipase negative and bile sensitive. It also liquefies gelatin and clots milk which shows this organism is very acidic. Because of its acidity it prevents the bovine disease of rumen acidosis however, affects milk production due to too much acid in stomach. The genus Prevotella used to be part of the genus Bacteroides, therefore, there are similarities and differences that these two genera share.
Genome structure
The genome of P. Melaninogenica was sequenced using the hemolytic strain P. melaninogenica 361B. After this strain is transformed into E. coli MC1061 and screened for hemolytic clones, four clones were identified. One of these strains, HA1001, was used for sequence analysis. It is 3,033 bp long and computer analysis found two open reading frames in the insert: glnA and phyA. However, glnA holds strong homology to the amino terminal half of the Beacteroides fragilis gene. This has circular topology with a 43% G+C content. B. Fragilis is composed of 4184 protein coding genes with 92 structural RNAs. This genome also contains 71 pseudo genes that resembles a gene however lacks a genetic function. This similarity in genome of the genus Bacteroides and the genus Prevotella also shows that they have many resemblances they share. Currently P. intermedia and P. ruminicola are being sequenced.
Cell structure and metabolism
Prevotella Melaninogenica is gram-negative bacterium. Between outer and inner cell wall the membrane proteins are present in order to break down and hydrolyze the nutrients. Gram-negative bacterium has large periplasm where degradation of enzyme, attachment to proteins and impression of environment take place. The current studies have found that most of preteinase activity is taking place on the surface and within the P. melaninogenica.
Prevotella Malaninogenica hydrolyzes esculin but not starch. Esculin is blue florescent glucoside which gets hydrolyzed to glucose and esculetin (6,7-dihydroxycoumarin) due to heat and acid. This method can proceed also through amylolytic fermentation using ATP. This ATP gets created through the process of substrate level phspholyration which generates ATP during catabolism and sets the membrane gradient. This organism does not reduce urease or nitrogen which could mean that P. Melaninogenica only receives its nutrients from organic donor. This organism produces acetic, isobutyric and isovaleric acids. From this metabolism process, hydrolysis of esculin can be determined by measuring acid production from the fermentation of glucose and detection of esculetin by its reaction with iron which forms black colored pigments.
Ecology
Describe any interactions with other organisms (included eukaryotes), contributions to the environment, effect on environment, etc.
Pathology
How does this organism cause disease? Human, animal, plant hosts? Virulence factors, as well as patient symptoms.
Application to Biotechnology
Does this organism produce any useful compounds or enzymes? What are they and how are they used?
Current Research
Enter summaries of the most recent research here--at least three required
References
1. Yanagisawa, M., Kuriyama, T., Williams, D., Nakagawa, K., Karasawa, T. “Proteinase Activity of Prevotella Species Associated with Oral Purulent Infection.” CURRENT MICROBIOLOGY. 2006 . Vol. 52. pp. 375–378
2. Shi, M., Xu, B., Azakami, K., Morikawa, T., Watanabe, K., Morimoto, K., Komatsu, M., Aoyama, K., & Takeuchi, T. “Dual role of vitamin C in an oxygen-sensitive system: Discrepancy between DNA damage and dell death.” Free Radical Research, February 2005; 39(2): pp. 213–220
3. Zambon, J., Reynolds, H. & Slots, J. “Black-Pigmented Bacteroides Spp. in the Human Oral Cavity.” INFECTION AND IMMUNITY, Apr. 1981, p. 198-203
4. Harding, G., Sutter, V., Finegold, S. & Bricknell, K. “Characterization of Bacteroides melaninogenicus.” JOURNAL OF CLINICAL MICROBIOLOGY, Oct. 1976, p. 354-359
5. Allison, H. & Hillman, J. “Cloning and Characterization of a Prevotella melaninogenica Hemolysin.” INFECTION AND IMMUNITY, July 1997, p. 2765–2771
6. HN Shah and DM Collins “Prevotella, a new genus to include Bacteroides melaninogenicus and related species formerly classified in the genus Bacteroides.” International Journal of Systematic Bacteriology, 1990, Vol 40, pp205-208
7. Paster, B., Dewhirst, F., Olsen, I., & Fraser, G. “Phylogeny of Bacteroides, Prevotella, and Porphyromonas spp. and Related Bacteria.” JOURNAL OF BACTERIOLOGY, Feb. 1994, p. 725-732
8. http://www.ncbi.nlm.nih.gov/sites/entrez?db=genome&cmd=search&term=Prevotella %20melaninogenica
9. A. Rajasuo1, K. Perkki, S. Nyfors, H. Jousimies-Somer, and J.H. Meurman “Bacteremia Following Surgical Dental Extraction with an Emphasis on Anaerobic Strains.” J Dent Res, 2004, 83(2): pp. 170-174
Edited by Min Kyung Kim, student of Rachel Larsen