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Advisor(s)
Abstract(s)
Ongoing ocean warming due to climate change poses new challenges for marine life and
its exploitation. We have used transcriptomics to find genetically based responses to increased
temperature in natural populations of the marine clam Ruditapes decussatus, which lives along
parallel thermal gradients in southern Europe. Clams of the Atlantic and West Mediterranean
races were collected in northern (cool) and a southern (warm) localities. The animals were kept
in running seawater in the warm, southern Atlantic locality for a 15-week period. During this
period, water temperature was raised to typical southern European summer values. After this
period, an expression profile was obtained for a total of 34 clams and 11,025 probes by means of an
oligonucleotide microarray. We found distinct transcriptional patterns for each population based on
a total of 552 differentially expressed genes (DEGs), indicating innate differences which probably
have a genetic basis. Race and latitude contributed significantly to gene expression differences, with
very different sets of DEGs. A gene ontology analysis showed that races differed mainly in the
genes involved in ribosomal function and protein biosynthesis, while genes related to glutathione
metabolism and ATP synthesis in the mitochondria were the most outstanding with respect to
north/south transcriptional differences.
Description
Keywords
Gene expression Bivalve Ocean warming Phylogeography Adaptation Ribosomal proteins Glutathione metabolism Electronic transport chain
Citation
Fishes 8 (4): 203 (2023)
Publisher
MDPI