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V. ''parvula'' does not usually cause disease as it is an opportunistic pathogen
V. ''parvula'' does not usually cause disease as it is an opportunistic pathogen in rare cases it has been found to cause endocarditis, meningitis and osteomyelitis . Endocarditis is an infection of the heart which occurs when V. ''parvula'' makes its way into the blood stream and to the heart where it attaches to damages areas in the heart. Meningitis occurs when V. ''parvula'' passes through the blood brain barrier and is then able to infect areas in the brain and spinal cord. Osteomyelitis occurs when V. ''parvula'' travels through the blood stream and infects bone <sup>[[#References|]]</sup>.
==Application to biotechnology==
==Application to biotechnology==
Revision as of 01:19, 23 September 2016
Name Ashley de Klerk Bench C Date 13 Aug 2016 
Higher order taxa
Cellular organisms – Bacteria – Firmicutes – Negativicute – Veillonellales – Veillonellaceae – Veillonella
Species name: Veillonella parvula 
Type strain: DSM 2008 
Description and significance
The French scientists Veillon and Zuber first discovered V. parvula in 1898 . V. parvula is an anaerobic bacterium that has a gram negative cell wall . It isin the form of cocci, usually grown in pairsandit is commonly found in both the supra- and subgingival plaque, as well as the gastrointestinal tract . V. parvula is one of few bacteria spaecies that is able to be cultures. It does not play a functional role within the human body but has shown to cause disease on rare occasions. It is important to study V. parvula as it plays a significant role in the natural microbial food chain, and while V. parvula rarely causes disease, recent research has found that V. parvula may assist in the pathogenicity of other bacteria .
The V. parvula strains Te3T has a circular chromosome with a length of 2,132,142bp. There were 1,929 predicted genes from which 1,859 coded for proteins. It has a CG content of 38% and contains 15 pseudogenes. 73% of genes were assigned a putative function which the rest were annotated as hypothetical proteins .
Cell structure and metabolism
While V. parvula are non-motile and cannot adhear it surfaces itself, it is able to attach to specific surface structures present on other cells, often mediated by lectin-carbohydrate interactions . These connections between different bacterial species form a biofilm which provides nutrients and protection for the bacteria.
As V. parvula has a Gram-negative cell wall it has much less peptidoglycan than gram-positive bacteria and it has a cell membrane, as well as an outer membrane. While V. parvula is gram-negative bacterium and has lipopolysaccharides, it is more closely related to gram positive species such as Sporomusa, Megasphaera or Selenomonas as they both share the unusual presence of cadaverine and putrescine in their cell wall. A characteristic feature of V. parvula is the presence of plasmalogens such as plasmenylserine and plasmenylethanolamine as major constituents of the cytoplasmic membrane. These ether lipids replace phospholipids and play an important role in the regulation of membrane fluidity .
V. parvula have an unusual metabolism where they use methylmalony-CoA decarboxylase to convert the free energy derived from decarboxylation reactions into an electrochemical gradient of sodium ions . They utilize the metabolic end products of co-existing carbohydrate-fermenting . V. parvula is unable to use glucose and other carbohydrates for fermentation and is unable to grow on succinate as a sole carbon source however it can decarboxylate succinate during fermentation of malate or lactate.
V. parvula is an anaerobic bacterium which is located in both the supra- and subgingival plaque, as well as in the gastrointestinal tract. V. parvula plays a significant role in the natural microbial food chain but does not usually interact directly with the host.
V. parvula does not usually cause disease as it is an opportunistic pathogen however, in rare cases it has been found to cause endocarditis, meningitis and osteomyelitis . Endocarditis is an infection of the heart which occurs when V. parvula makes its way into the blood stream and to the heart where it attaches to damages areas in the heart. Meningitis occurs when V. parvula passes through the blood brain barrier and is then able to infect areas in the brain and spinal cord. Osteomyelitis occurs when V. parvula travels through the blood stream and infects bone .
Application to biotechnology
Bioengineering, biotechnologically relevant enzyme/compound production, drug targets,…
Current research involves the pathogenicity of duel-species biofilms compared to mono-species biofilms. For example, a study investigated the influences of the most dominant Cystic Fibrosis pathogen Pseudomonas aeruginosa and V. parvula during a biofilm associated infection process. It found that the presents of V. parvula supports the growth of P. aeruginosa at the site of infection. In addition, significantly higher levels of P. aeruginosa was recovered from tissue that was coinfected with both bacterial species compared to tissue that was monoinfected with P. aeruginosa. This suggests that while V. parvula rarely causes disease it may be facilitating the virulence of other pathogens .
3. Gronow, S., Welnitz, S., Lapidus, A.L., Nolan, M., Ivanova, N., Glavina Del Rio, T., Copeland, A., Chen, F., Tice, H., Pitluck, S., Cheng, J-F., Saunders, E.H., Rohde, M., Goker, M., Bristow, J., Eisen, J., Markowitz, V., Hugenholtz, P., Kyrpides, N.C., Klenk, H-P., Lucas, S. (2010) Complete genome sequence of Veillonella parvula type strain (Te3T). Standards in Genomic Sciences 2.
4. Pustelny, C., Komor, U., Pawar, V., Lorenz, A., Bielecka, A., Moter, A., Gocht, B., Eckweiler, D., Musken, M., Grothe, C., Lunsdorf, H., Weiss, S., Haussler, S. (2015) Contribution of Veillonella parvula to Pseudomonas aeruginosa-mediated pathogenicity in a murine tumor model system. Infection and immunity 83:417.
5. Hughes, C.V., Kolenbrander, P.E., Andersen, R.N., Moore, L.V. (1988) Coaggregation properties of human oral Veillonella spp.: relationship to colonization site and oral ecology. Applied and Environmental Microbiology 54:1957.
This page is written by Ashley de Klerk (43614404) for the MICR3004 course, Semester 2, 2016