Difference between revisions of "Rickettsia prowazekii"

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[http://www.academicjournals.org/AJB/PDF/Pdf2004/JanPDFs2004/Ojumu%20et%20al.pdf 5 Production of Polyhydroxyalkanoates, a bacterial biodegradable polymer]
[http://www.academicjournals.org/AJB/PDF/Pdf2004/JanPDFs2004/Ojumu%20et%20al.pdf 5 Production of Polyhydroxyalkanoates, a bacterial biodegradable polymer]
[http://www.cdc.gov/ncidod/eid/vol8no12/02-0111.htm 6 Human Pathogens in Body and Head Lice]
[http://www.cdc.gov/ncidod/eid/vol4no2/azad.htm 7 Rickettsial Pathogens and Their Arthropod Vectors]
[http://www.phppo.cdc.gov/ncidod/eid/vol12no03/pdfs/05-0888.pdf 8 ''Rickettsia prowazekii'' and Real-Time PCR]
[http://www.webmd.com/skin-problems-and-treatments/Rocky-Mountain-Spotted-Fever 9 WebMD]
Edited by Matthew Noble, student of [mailto:ralarsen@ucsd.edu Rachel Larsen]
Edited by Matthew Noble, student of [mailto:ralarsen@ucsd.edu Rachel Larsen]

Revision as of 17:22, 4 June 2007

A Microbial Biorealm page on the genus Rickettsia prowazekii


Higher order taxa

Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Rickettsiaceae


NCBI: Taxonomy

Rickettsia prowazekii

Description and significance

The body louse is a vector for typhus in humans, CDC

Rickettsia prowazekii is an intracellular, bacilli bacteria that is the cause of epidemic typhus in humans. In the early 20th century, Howard Ricketts linked typhus to Spotted Fever while Stanislaus von Prowazek discovered typhus was transmitted to humans by the feces of lice, not the bite. Both Ricketts and Prowazek were killed by typhus while working with the disease, so the bacteria was named for them. The genome was fully sequenced by the end of the century. Since World War II the only other major breakout was during the Burundo civil war in the late 1990's. Now, the main point of research regarding R. prowazekii is its linkage to the origin of mitochondria. R. prowazekii has a small genome and is the first alpha-proteobacterial, gram negative genome to be sequenced. [3]

Genome structure

The R. prowazekii genome is composed of a singular circular chromosome, containing 1,111,523 base pairs and 834 protein coding genes. Also, 24% of R. prowazekii DNA is non-coding- the largest amount in any microbial genome. No genes code for anaerobic glycolosis, however, complete coding sequences for the tricarboxylicacid (TCA) cycle and respiratory-chain complex are found. [3]

Cell structure and metabolism

R. prowazekii is a Gram-, intracellular bacteria with a bacilli (rod like) structure. Genomic codes for LPS and Peptidoglycan formation are both complete in R. prowazekii'.

As mentioned above, R. prowazekii cannot produce pyruvate from any glycolytic pathway. However, enzymes required for pyruvate metabolism are coded for by Rickettsia indicating that the microbe must acquire it somehow. One such mechanism for this acquisition is acquiring Phosphoenol Pyruvate (PEP) directly from it's host. Rickettsia also lack coding sequences for Nitrogen metabolism which allows the synthesis of glutamine, indicating that, like PEP, glutamine must be acquired directly from the host cells. [2]

Rickettsia also gain energy from oxidative phosphorylation and ATP translocases. First, Rickettsia code for 5 copies of ATP translocases indicating the importance they have in obtaining energy for the microbe. The translocases allow the cell to take up ATP produced by the host. This is the major ATP capturing method for Rickettsia since the cell will use translocases after entering a host cell to capture the host ATP before initiating its own pathways. Once it has used up all the host ATP, it will initiate the electron transport chain, which culminates with ATP Synthase and the production of ATP. [2]

Another key molecule produced is polyhydroxyalkanoate (PHA), which is produced in high numbers when the nutrient source for the cell begins to diminsh. PHA's are great carbon storing molecules and in the case of cellular starvation, PHA will serve as a carbon and energy source to maintain survival. [5]


Describe any interactions with other organisms (included eukaryotes), contributions to the environment, effect on environment, etc.


The typical cycles of flea-borne Rickettsia being passing to humans; the cycle of R. prowazekii in lice is similar, CDC

R. prowazekii is the cause of epidemic typhus in humans. The disease is passed to humans through the body louse, or lice. Because of this it primarily shows up in areas of overpopulation and poor economy. [6]

Lice do not pass R. prowazekii onto humans directly through their bites. The lice will bite or scratch the human host until the skin is broken but then the bacteria is transferred via feces from the louse left in the wound. The lice may infect multiple human hosts i nthis manner but will die within 2 weeks of infecting the first host. Because the lice die, and thus the number of organisms that can pass on the disease decrease, R. prowazekii is able to survive in its human hosts for long periods of time and reinfect a "clean" louse so that the cycle will continue. [7]

Epidemic Typhus will cause death in up to 40% of untreated cases. The Center for Disease Control classifies R. prowazekii as a class B bioterrorism agent due to its "ability to be aquired via aerosol (like anthrax another deadly pathogen), efficient antropod transmission, and severe clinical outcome and death in untreated cases." [8]

Symptoms of epidemic typhus include early onset fever, nausea, muscle pain, and headaches. Also, after a few days after the fever comes, a pink rash will develop first on the extremeties and will move to the stomach and buttocks. Eventually the pink will raise up and also become darker. [9]

Application to Biotechnology

As mentioned above in the Metabolism section, R. prowazekii produce PHA's which are excellent for storing carbon. Current reasearch on PHA's includes looking into their usefulness as a biodegradable plastic. PHA's exhibit material properties that can range from rubber-like to the stiff and brittle class of PHA's known as PHB (poly-beta-hydroxybutyrate) making them a very viable substitute for synthetic plastics. [5]

Current Research

Enter summaries of the most recent research here--at least three required


1 PATRIC: PathoSystems Resource Integration Center: Rickettsia prowazekii str. Madrid E

2 Some lessons from Rickettsia genomics FEMS Microbiol Rev. 2005 Jan;29(1):99-117

3 A century of typhus, lice and Rickettsia

4 The genome of Rickettsia prowazekii and some thoughts on the origin of mitochondria and hydrogenosomes

5 Production of Polyhydroxyalkanoates, a bacterial biodegradable polymer

6 Human Pathogens in Body and Head Lice

7 Rickettsial Pathogens and Their Arthropod Vectors

8 Rickettsia prowazekii and Real-Time PCR

9 WebMD

Edited by Matthew Noble, student of Rachel Larsen