Vibrio cholerae: Difference between revisions

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The Cholera genome sequencing started in 1997 and was completed several years ago which revealed the bacterium`s two circular chromosomes with the larger of the chromosome having approximately 3 million base pairs. The smaller of the pair chromosomes have approximately one million. Of the total 3,885 genes of Vibrio cholerae, approximately 75% of those genes reside on the larger chromosome. Obtaining this extra chromosome gives a competitive advantage for the survival of V. cholerae in diverse environments.
The Cholera genome sequencing started in 1997 and was completed several years ago which revealed the bacterium`s two circular chromosomes with the larger of the chromosome having approximately 3 million base pairs. The smaller of the pair chromosomes have approximately one million. Of the total 3,885 genes of Vibrio cholerae, approximately 75% of those genes reside on the larger chromosome. Obtaining this extra chromosome gives a competitive advantage for the survival of V. cholerae in diverse environments.


According to the authors Kaper et. al at the University of Maryland School of Medicine, ''Vibrio cholerae''`s  familial species seized a [[megaplasmid]] and over time the two organisms exchanged genes and genetic information and relied on each other for survival.
According to the authors Kaper et. al at the University of Maryland School of Medicine, ''Vibrio cholerae''`s  familial species seized a large [[plasmid]] and over time the two organisms exchanged genes and genetic information and relied on each other for survival.


==Cell structure and metabolism==
==Cell structure and metabolism==

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V cholerae.jpg
Scientific classification
Kingdom: Eubacteria
Phylum: Proteobacteria
Class: Gamma Proteobacteria
Order: Vibrionales
Family: Vibrionaceae
Genus: Vibrio
Species: cholerae
Binomial name
Vibrio cholerae

Description and significance

767px-Cholera bacteria SEM.jpg

Vibrio Cholerae is a gram-negative, curved rod-shaped bacterium that has a single polar flagellum. It is an aerobic organism and thrives best in alkaline mediums.

Genome structure

The Cholera genome sequencing started in 1997 and was completed several years ago which revealed the bacterium`s two circular chromosomes with the larger of the chromosome having approximately 3 million base pairs. The smaller of the pair chromosomes have approximately one million. Of the total 3,885 genes of Vibrio cholerae, approximately 75% of those genes reside on the larger chromosome. Obtaining this extra chromosome gives a competitive advantage for the survival of V. cholerae in diverse environments.

According to the authors Kaper et. al at the University of Maryland School of Medicine, Vibrio cholerae`s familial species seized a large plasmid and over time the two organisms exchanged genes and genetic information and relied on each other for survival.

Cell structure and metabolism

Describe any interesting features and/or cell structures; how it gains energy; what important molecules it produces.

Ecology

Vibrio cholerae resides in aquatic habitats and are able to thrive in both fresh water and marine environments. In fresh water environments, the bacteria will inhabit lakes, ponds, and rivers. Marine environments such as oceans and seas are also places where V. cholerae can be found.

V. cholerae are also readily found in costal areas where there are significant amounts of algal bloom. Overabundance of algal blooms such as phytoplankton and zooplankton have tremendous consequences on food and water safety because Vibrio cholerae attaches itself to small marine crustaceans called Copepods which help spread Cholera.

Pathology

Vibrio cholerae is the causative agent of a serious epidemic disease Cholera. Cholera is a harmful bacterial ailment that often causes severe diarrhea which is usually procurred by drinking contaminated water. When ingested, Vibrio cholerae adapts itself to colonize in the human intestinal tract, mainly the small intestine. It then attaches to the mucosal surface which the Vibrio cholerae would produce an extoxin, the cholera toxin. The cholera toxin would then act on the intestinal mucosal cells by altering the ion transport pumps that control ion fluxes. Since water freely passes through membranes, the only way to control the movement of water into and out of tissue is to control the concentration of ions in the body. The cholera toxin diminishes the net flow of sodium into the tissue and generates a net flow of chloride and water out of the tissue and into the lumen. This causes an electrolyte imbalance in the system which in consequence, bring about copious amounts of diarrhea. If left untreated, death may ensue within a matter of hours.

Since the advancement of modern sewages and water treatment facilities, Cholera have been reduced tremendously in industrialized countries. However, Cholera is still substantially present in other parts of the world such as Asia, the Middle East, Latin America, and Sub-Saharan Africa. Social and environmental factors in these areas such as poverty, war, or natural disasters foster cholera outbreaks because people are forced to live in congested conditions with poor and insufficient sanitation.

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

[Sample reference] Takai, K., Sugai, A., Itoh, T., and Horikoshi, K. "Palaeococcus ferrophilus gen. nov., sp. nov., a barophilic, hyperthermophilic archaeon from a deep-sea hydrothermal vent chimney". International Journal of Systematic and Evolutionary Microbiology. 2000. Volume 50. p. 489-500.