Vibrio harveyi: Difference between revisions
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==Cell structure and metabolism== | ==Cell structure and metabolism== | ||
'''Structure:''' Because ''V. harveyi'' is Gram-negative it has a cell wall that consists of two membranes: an outer membrane full of lipopolysaccharides and an inner cytoplasmic membrane. In between these is a periplasmic space housing a peptidoglycan layer. | '''Structure:''' Because ''V. harveyi'' is Gram-negative it has a cell wall that consists of two membranes: an outer membrane full of lipopolysaccharides and an inner cytoplasmic membrane. In between these is a periplasmic space housing a peptidoglycan layer. |
Revision as of 05:19, 3 May 2007
A Microbial Biorealm page on the genus Vibrio harveyi
Classification
Higher Order Taxa
- Kingdom: Bacteria
- Phylum: Proteobacteria
- Class: Gammaproteobacteria
- Order: Vibrionales
- Family: Vibrionaceae
Species
Vibrio harveyi
Synonyms: Lucibacterium harveyi, Beneckea harveyi, Achromobacter harveyi, Pseudomonas harveyi, Photobacterium harveyi, (Johnson and Shunk, 1936); Vibrio carchariae (Grimes, 1984); Vibrio trachuri, (Iwamoto, 1995)
Description and significance
Appearance: V. harveyi is curved rod shaped, Gram-negative, non-sporulating, and monotrichous (mobilized by a single polar flagellum). It also has the characteristic of bioluminesence.
Habitat: V. harveyi is a natural inhabitant of seawater, mainly tropical marine environments and brackish water.
Significance: Inter- and intra-bacterial communication, quorum sensing (Bassler). Sequencing of the genome would undoubtedly contribute to further understanding of this unique skill.
Genome structure
- The Microbial Sequencing Center of the Institute for Genomic Research is currently doing shotgun seguence research for the HY01 strain of Vibrio harveyi. This research is in conjunction with a project to identify the genome sequence for 17 different Vibrio species enabling extensive comprehension of the Vibrio genus.
Cell structure and metabolism
Structure: Because V. harveyi is Gram-negative it has a cell wall that consists of two membranes: an outer membrane full of lipopolysaccharides and an inner cytoplasmic membrane. In between these is a periplasmic space housing a peptidoglycan layer.
Metabolism: Vibrio harveyi is a heterotrophic, facultative anaerobic bacterium meaning it can swap between aerobic respiration and fermentation. This characteristic helps V. harveyi survive in low oxygen concentrations when enough fermentable material is present. Bioluminescence is controlled by the regulatory gene luxR in V. harveyi as well as population density-sensing (quorum sensing) autoinducer signaling molecules. Expression occurs when the enzyme luciferace oxidizes an organic compound releasing free energy in the form of light!
Quorum-Sensing: Vibrio harveyi is known to regulate gene expression based on its population density. This cell-to-cell communication ability is due to the release of autoinducers as a function of population in a given area and can occur between different bacterial species. Some examples of regulated activities based on quorum sensing include virulence, antibiotic production, biofilm formation, symbiosis, motility, and luminescence. V. harveyi actually produces two different autoinducer signals; one for intraspecies communication (denoted AI-1) and one for interspecies communication (AI-2).
Ecology
Describe any interactions with other organisms (included eukaryotes), contributions to the environment, effect on environment, etc.
Milky Sea: This phenomenon occurs when large areas of open ocean water are filled with luminescing "V. harveyi living in association with colonies of the microalga Phaeocystis." For centuries mariners documented strange instense glow covering the ocean (from horizon to horizon) at night. Even Jules Verne wrote about it in Twenty Thousand Leagues Under the Sea, describing the effect caused by "myriads of infusoria." The most famous and most referenced photograph of the milky sea effect was done at the Monterey Bay Aquarium Research Institute. Researcher Steve Haddock stated, "...that the light produced by the bacteria is actually blue, not white." Going on to say that the effect appears white because "the rods in our eye (used for night vision) don't discriminate color." [1]
Pathology
How does this organism cause disease? Human, animal, plant hosts? Virulence factors, as well as patient symptoms.
V. harveyi is a known cause of luminous vibrosis in comercially farmed oceanic invertebrates Going out with a glow. (as opposed to a bang)
Application to Biotechnology
Does this organism produce any useful compounds or enzymes? What are they and how are they used?
The interspecial autoinducer AI-2, produced by V. harveyi could be a significant molecule in biotechnology. Analysis of the autoinducer could lead to developement of synthetic inhibitors of the communication pathway. This interference has the possibility to disrupt virulence factors leading to novel antimicrobials.
- "AI-2 itself could well function as a broad-spectrum antibiotic that disrupts quorum-sensing systems in a wide variety of Gram-negative and Gram-positive pathogens." (Bassler, 2003)
Current Research
Enter summaries of the most recent research here--at least three required
References
- Bassler, Bonnie L. and Michael J. Federle. Interspecies communication in bacteria. Journal of Clinical Investigation. 2003. 112:1291-1299
- Bassler, Bonnie L. and Jennifer M. Henke. Three Parallel Quorum-Sensing Systems Regulate Gene Expression in Vibrio harveyi. J. Bacteriol. 2004 186: 6902-6914.
- Gauger, EJ. 16S ribosomal DNA sequencing confirms the synonymy of Vibrio harveyi and V. carchariae. Diseases of aquatic organisms. 2002 Nov 7;52(1):39-46.
- Iwamoto, Y. Vibrio trachuri sp. nov., a new species isolated from diseased Japanese horse mackerel. Microbiol. Immunol. 1995. 39(11):831-37
- Miller, Melissa B. and Bonnie L. Bassler. Quorum sensing in bacteria. Annual Review of Microbiology. 2001. 55:165-199
- Miller, S.D., S.H.D. Haddock, C.D. Elvidge, T.F. Lee. Detection of a bioluminescent milky sea from space. Proc. National Acadamy Science 2005. 102:14181-14184
- Nealson, K.H. and J.W. Hastings. Quorum sensing on a global scale: massive numbers of bioluminescent bacteria make milky seas Applied and Environmental Microbiology. 2006. 72:2295-2297
- Showalter, R.E., Martin, M.O., and Silverman, M.R. Cloning and nucleotide sequence of luxR, a regulatory gene controlling bioluminescence in Vibrio harveyi. J. Bacteriol. 1990. 172: 2946–2954.
- Thompson, FL. Vibrio trachuri Iwamoto et al. 1995 is a junior synonym of Vibrio harveyi (Johnson and Shunk 1936) Baumann et al. 1981. Int J Syst Evol Microbiol. 2002 May;52(Pt 3):973-6
Edited by Ryan Kendall of Rachel Larsen and Kit Pogliano's Bacteriology class Spring 2007