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Green fluorescent protein regulation in the coral Acropora yongei during photoacclimation
Roth, M.S.; Latz, M.I.; Goericke, R.; Deheyn, D.D. (2010). Green fluorescent protein regulation in the coral Acropora yongei during photoacclimation. J. Exp. Biol. 213(21): 3644-3655.
In: Journal of Experimental Biology. Cambridge University Press: London. ISSN 0022-0949; e-ISSN 1477-9145, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

    Dinoflagellata [WoRMS]; Symbiodinium Freudenthal, 1962 [WoRMS]
Author keywords
    acclimation; dinoflagellate; fluorescence; GFP; light; photoprotection; Symbiodinium; symbiosis

Auteurs  Top 
  • Roth, M.S.
  • Latz, M.I.
  • Goericke, R.
  • Deheyn, D.D.

    Reef-building corals inhabit high light environments and are dependent on photosynthetic endosymbiotic dinoflagellates for nutrition. While photoacclimation responses of the dinoflagellates to changes in illumination are well understood, host photoacclimation strategies are poorly known. This study investigated fluorescent protein expression in the shallow-water coral Acropora yongei during a 30 day laboratory photoacclimation experiment in the context of its dinoflagellate symbionts. Green fluorescent protein (GFP) concentration measured by Western blotting changed reversibly with light intensity. The first 15 days of the photoacclimation experiment led to a ~1.6 times increase in GFP concentration for high light corals (900 µmol quanta m–2 s–1) and a ~4 times decrease in GFP concentration for low light corals (30 µmol quanta m–2 s–1) compared with medium light corals (300 µmol quanta m–2 s–1). Green fluorescence increased ~1.9 times in high light corals and decreased ~1.9 times in low light corals compared with medium light corals. GFP concentration and green fluorescence intensity were significantly correlated. Typical photoacclimation responses in the dinoflagellates were observed including changes in density, photosynthetic pigment concentration and photosynthetic efficiency. Although fluorescent proteins are ubiquitous and abundant in scleractinian corals, their functions remain ambiguous. These results suggest that scleractinian corals regulate GFP to modulate the internal light environment and support the hypothesis that GFP has a photoprotective function. The success of photoprotection and photoacclimation strategies, in addition to stress responses, will be critical to the fate of scleractinian corals exposed to climate change and other stressors.

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