Spectral diversity of fluorescent proteins from the anthozoan Corynactis californica

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Schnitzler, C. E., Keenan, R. J., McCord, R., Matysik, A., Christianson, L. M., & Haddock, S. H. D. (2008). Spectral diversity of fluorescent proteins from the anthozoan Corynactis californica. Marine Biotechnology, 10(3), 328-342. doi:10.1007/s10126-007-9072-7
TitleSpectral diversity of fluorescent proteins from the anthozoan Corynactis californica
AuthorsC. Schnitzler, R. Keenan, R. McCord, A. Matysik, L. Christianson, S. Haddock
AbstractColor morphs of the temperate, nonsymbiotic corallimorpharian Corynactis californica show variation in pigment pattern and coloring. We collected seven distinct color morphs of C. californica from subtidal locations in Monterey Bay, California, and found that tissue- and color-morph-specific expression of at least six different genes is responsible for this variation. Each morph contains at least three to four distinct genetic loci that code for these colors, and one morph contains at least five loci. These genes encode a subfamily of new GFP-like proteins, which fluoresce across the visible spectrum from green to red, while sharing between 75% to 89% pairwise amino-acid identity. Biophysical characterization reveals interesting spectral properties, including a bright yellow protein, an orange protein, and a red protein exhibiting a "fluorescent timer" phenotype. Phylogenetic analysis indicates that the FP genes from this species evolved together but that diversification of anthozoan fluorescent proteins has taken place outside of phylogenetic constraints, especially within the Corallimorpharia. The discovery of more examples of fluorescent proteins in a non-bioluminescent, nonsymbiotic anthozoan highlights possibilities of adaptive ecological significance unrelated to light regulation for algal symbionts. The patterns and colors of fluorescent proteins in C. californica and similar species may hold meaning for organisms that possess the visual pigments to distinguish them. © 2007 Springer Science+Business Media, LLC.
JournalMarine Biotechnology
Start page328
End page342
SubjectsCorallimorpharian, Fluorescent proteins, Phenotypic plasticity, Algae, Bioluminescence, Fluorescence, Genes, Pigments, Plasticity, Proteins, photoprotein, color morph, gene expression, genetics, invertebrate, phylogenetics, pigment, protein, amino acid sequence, animal, Anthozoa, article, chemistry, metabolism, molecular cloning, molecular genetics, nucleotide sequence, phylogeny, polymerase chain reaction, sequence alignment, sequence homology, spectrofluorometry, Animals, Cloning, Molecular, Luminescent Proteins, Molecular Sequence Data, Sequence Homology, Amino Acid, Spectrometry, Fluorescence, California, Monterey Bay, North America, United States, Corallimorpharia, Corynactis californica
NoteCited By (since 1996):5, Invertebrates, CODEN: MABIF