Recent studies have indicated that various corals might have different degrees of resistance to elevated CO 2 levels. However, the underlying molecular mechanism accounting for these differences is still poorly understood. In this study, RNA-seq data were analyzed to identify differentially expressed genes in two coral species (Acropora austera and Acropora cerealis) in response to high CO 2 levels. The calcification rates were higher in high CO 2 treatment than the control in A. austera, but was not significantly different in A. cerealis. A KEGG database search revealed that in both coral species, most Ca 2+ transporters were present in the calcium signaling pathway, which could be important in the CO 2 regulation of coral calcification. The gene expression levels of many CO 2 and HCO 3− transporters were not affected by elevated CO 2 . Nevertheless, high CO 2 levels did have an effect on the expression of certain Ca 2+ transporters. The upregulation of Ca 2+ transporters likely explained the higher resistance of A. austera to high CO 2 than A. cerealis.
CITATION STYLE
Yuan, X., Huang, H., Zhou, W., Guo, Y., Yuan, T., & Liu, S. (2019). Gene Expression Profiles of Two Coral Species with Varied Resistance to Ocean Acidification. Marine Biotechnology, 21(2), 151–160. https://doi.org/10.1007/s10126-018-9864-y
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