Transcriptomic responses to heat stress and bleaching in the elkhorn coral Acropora palmata

Citation data:

Marine Ecology Progress Series, ISSN: 0171-8630, Vol: 402, Page: 97-113

Publication Year:
2010
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Repository URL:
http://hdl.handle.net/10754/323512
DOI:
10.3354/meps08372
Author(s):
Michael K. Desalvo; Shinichi Sunagawa; Christian R. Voolstra; Mónica Medina
Publisher(s):
Inter-Research Science Center; Inter Research
Tags:
Agricultural and Biological Sciences; Environmental Science
article description
The emergence of genomic tools for reef-building corals and symbiotic anemones comes at a time when alarming losses in coral cover are being observed worldwide. These tools hold great promise in elucidating novel and unforeseen cellular processes underlying the successful mutualism between corals and their dinoflagellate endosymbionts Symbiodinium spp. Since thermal stress triggers a breakdown in the symbiosis (coral bleaching), measuring the transcriptomic response to thermal stress-induced bleaching offers an extraordinary view of cellular processes that are specific to coral-algal symbioses. In the present study, we utilized a cDNA microarray containing 2059 genes of the threatened Caribbean elkhorn coral Acropora palmata to identify genes that are differentially expressed upon thermal stress. Fragments from replicate colonies were exposed to elevated temperature for 2 d, and samples were frozen for microarray analysis after 24 and 48 h. Totals of 204 and 104 genes were differentially expressed in samples that were collected 1 and 2 d after thermal stress, respectively. Analysis of the differentially expressed genes indicates a cellular stress response in A. palmata involving (1) growth arrest, (2) chaperone activity, (3) nucleic acid stabilization and repair, and (4) removal of damaged macromolecules. Other differentially expressed processes include sensory perception, metabolite transfer between host and endosymbiont, nitric oxide signaling, and modifications to the actin cytoskeleton and extracellular matrix. The results are compared with those from a previous coral microarray study of thermal stress in Montastraea faveolata, and point to an overall evolutionary conserved bleaching response in scleractinian corals. © Inter-Research 2010, www.int-res.com.