(University of California - San Diego) Researchers say green fluorescent proteins, which could play role as 'sunscreen' or stress reducer, may be widespread in animal kingdom
Fluorescent proteins found in nature have been employed in a variety of scientific research purposes, from markers for tracing molecules in biomedicine to probes for testing environmental quality. Until now, such proteins have been identified mostly in jellyfish and corals, leading to the belief that the capacity for fluorescence in animals is exclusive to such primitive creatures.
Scientists at Scripps Institution of Oceanography at UC San Diego have discovered fluorescent-light emitting features in an evolutionarily important marine organism and say such a capacity may be much more prevalent across the animal kingdom than previously believed.
In the cover story of the October issue of Biological Bulletin, Dimitri Deheyn and his colleagues in La Jolla, Calif. and Japan describe finding green fluorescent proteins (GFPs) in amphioxus, a fish-like animal closely studied by scientists due to its evolutionarily important position at the base of a large phylum of animals called chordates. The researchers say amphioxus’ GFPs are very similar to those of corals, an interesting fact since the two animal groups are separated by hundreds of millions of years of evolution.
The finding emphasizes the idea that evolutionary preservation of fluorescence must play an important ecological function, Deheyn said. Many animals haven’t been tested for fluorescence and its prevalence in the animal kingdom remains unknown.
Deheyn made the discovery while analyzing a dozen specimens of the small, slender marine animals collected in Tampa, Fla., by Nick Holland, a professor of marine biology at Scripps and a paper coauthor.
“When I put the specimens under the blue light (used for evoking fluorescence), every single amphioxus had a bright green area in the anterior that was fluorescent,” said Deheyn.
Follow-on analyses in the Tampa specimens, along with similar species samples from France and Japan, revealed details of how the fluorescence spreads along the animal’s body as well as how the animal fluoresces at different stages of development.
Amphioxus—also called a lancelet—is found primarily in coastal areas and lives mostly burrowed in ocean sand except for its head. Previous studies have shown it to be sensitive to changes in light exposure.
Deheyn says the exact role of amphioxus’ fluorescence is not known. One hypothesis is that the proteins might be used as a form of “sunscreen,” protecting the animal by absorbing harmful ultraviolet light and shielding it away as fluorescent light. GFPs also may play a role as protective antioxidants, decreasing stress levels undergone by cells when exposed to temperature fluctuations or other environmental changes.
Fluorescence has been used extensively in biotechnology, biomedicine, bioengineering and lately in nanotechnology. GFPs have been used as markers to examine gene expression as well as probes for tracking how molecules transfer energy.
“(GFP) is an easy protein to work with and to use as a label,” said Deheyn, a scientist in the Marine Biology Research Division at Scripps. “It’s easy to locate and stimulate so it has been used widely around the world. There is a great deal of interest in finding new fluorescent compounds and proteins that can show different characteristics of light production.”
Deheyn’s latest investigations focus on finding GFPs in animals in marine as well as terrestrial environments.
In addition to Deheyn and Holland, Biological Bulletin paper’s coauthors include James McCarthy, Magali Porrachia and Greg Rouse of Scripps Oceanography, Kaoru Kubokawa of the University of Tokyo and Akio Murakami of Kobe University.
The study was funded by the Air Force Office of Scientific Research’s Biomimetics, Biomaterials and Biointerfacial Sciences program and the Ministry of Education, Culture, Sports, Science and Technology of Japan.
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