Onychodactylus fischeri was created in 1886.
Pseudoraja fischeri was created in 1954.
Mitromorpha fischeri was created in 1900.
Meharia fischeri was created in 2008.
Joculator fischeri was created in 2002.
Sean M. Callahan has written: 'The quorum-sensing regulon of Vibrio fischeri' -- subject(s): Bioluminescence, Genetics, Vibrio fischeri, Cellular signal transduction, Genetic transcription, Regulation
Vibrio fischeri is a gram-negative rod-shaped bacterium found globally in the marine environments. It has bioluminescent properties, and is found predominantly in symbiosis with various marine animals, such as the bobtail squid. It is heterotrophic and moves by means of flagella. Free living V. fischeri survive on decaying organic matter (see saprotroph). The bacterium is a key research organism for examination of microbial bioluminescence, quorum sensing, and bacterial-animal symbiosis.
Are you asking about fischeria, rather than fischeri?Fischeria is a Genus of the Family of Tachinidae, from the Order of Diptera, from the class of Insecta, from the Phylum of Arthopoda, and from the Animal Kingdom.Kingdom - AnimalPhylum - ArthopodaClass - InsectaOrder - DipteraFamily - TachinidaeGenus - FisheriaA layperson would classify this as a fly.
The scientific or taxonomic name would be Somateria fischeri.
squids have a bacteria in there body that make bio luminance known as Vibrio Fischeri" they control it in there light organ by shutters as u control ur eye
The Microtox test was introduced in 1979 as a microscale acute toxicity test. It tests the effect that toxins contained in a water or soil sample has on the bioluminescence of the bacteria V. fischeri. Although the test can detect toxins in the sample it fails in the fact that it cannot tell you what the toxin is.
Yes. There are planktonic strains of the organism V. Fischeri however, which also has a rare yellow bioluminescence, but is a bacteria rather than a worm. It lives is very low quantities in all oceans of the world and is found in higher concentrations within special light organs of deep sea marine life, and in the gut of marine mammals.
The umu-lux test is a genotoxicity test using the two genetically modified Salmonella typhimuriumTA1535 strains (TL210 and TL210ctl) transformed with the luxC, D, A, B, E (luciferase gene and fatty acid reductase genes) of Vibrio fischeri as a reporter gene. The TL210 strain detects genotoxicants and the TL210ctl strain detect cytotoxicants. In order to develop a highly sensitive, simple, and rapid genotoxicity detection system, the biosensor using these immobilized strains was developed. .