Vibrio fischeri

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Vibrio fischeri
Vibrio Fischeri- PNAS 2005; 102(8) 2673-4, Figure 2.1 lores.jpg
Scientific classification
Kingdom: Bacteria
Phylum: Proteobacteria
Class: Gammaproteobacteria
Order: Vibrionales
Family: Vibrionaceae
Genus: Aliivibrio
Species: V. fischeri
Binomial name
Vibrio fischeri


Description and significance

Vibrio fischeri is a gram-negative marine bioluminescent bacterium that forms symbiosis with various species of fish and squid (Ruby, Oxygen). V. fischeri is a member of the Vibrionacea family of marine γ-proteobacteria which includes many species having symbiotic and pathogenic relationships with animals (Ruby, Complete genome). The bioluminescent bacteria chemically produces light in a reaction where a substrate molecule, luciferin is oxidized by an enzyme, luciferase. This process emits light energy rather than heat energy (Herring, Bioluminescence). The proteins necessary for the production of bioluminescence are encoded in a set of genes called the lux operon. The expression of the lux operon and other genes depend upon the presence of a signal molecule known as N-acyl homoserine lactone (AHL). The accumulation of the AHL is a function of population density and hence, bioluminescence can only occur after the bacterium reaches a critical population threshold. The expression of genes through the interaction of bacteria through a signal molecule is known as quorum sensing (NCBI). Intercellular communication via signal molecules has been shown to regulate genes whose products are needed for establishment of virulence, symbiosis, biofilm formation, plasmid transfer and morphogenesis in a variety of microorganisms (Wiley, Microbiology). Prior to its discovery in V. fischeri, quorum sensing and other mechanisms for bacterial cell communication was unknown. The particular symbiosis between a strain of V. fischeri and its host, the Hawian bobtail squid Euprmma scolopes, has been studied extensively. Comparative studies between symbiotic species, like V. fischeri, and human pathogenic species, like Vibrio cholerae, are being examined to elucidate the mechanisms for pathogenesis and pathogenic/host relationships (Ruby, complete).

Genome structure

Cell structure and metabolism

Ecology

Vibrio fischeri can be found in the upper 1000m of the ocean, living freely, or amongst the mixed biota in the guts of marine animals but is more commonly found as symbionts

Pathology

Vibrio fischeri is non-pathogenic to humans but three other members of the Vibrios family are. These are; V. cholerae, V.parahaemolytus, V. vulnificus.

Application to Biotechnology

Current Research

References

http://www.isbc.unibo.it/Files/BC_PlanktonNekton.htm

http://web.uconn.edu/mcbstaff/graf/VfEs/VfEssym.htm