The first comparative genome study between two corals reveals significant evolutionary differences. These findings could help scientists understand the resilience of corals and how they might respond to climate change.
"Before we began sequencing, we had to develop a method to obtain Stylophora DNA that was not contaminated by DNA from the coral's symbiotic algae," says Aranda. "We removed the symbionts by isolating the coral nuclei before extracting the DNA."
Corals exhibit high levels of genetic variation within the same species. This makes it even more difficult to stitch the genome together from the fragmented pieces of DNA.
"Once you have sequenced your genome, you must pick out and label each individual gene," says Voolstra. "It's like trying to read a book with no spaces between the words!"
Once they had the complete genome, the researchers searched for proteins and genes conserved across the two corals. Genes that matched one-to-one across both species tended to be those that control the basic necessities for staying alive. Where the corals differed, however, was in areas like immunity and specific symbiotic relationships.
"If one coral has one copy of a gene while the other has many, it implies that selective, evolutionary forces have come into play, such as building immunity to a specific pathogen," says Aranda. "On the other hand, where the corals have selected to live with different symbiotic algae and bacteria, completely different genes and proteins are expanded by each coral."
Their results, published in Scientific Reports, indicate that Stylophora and Acropora are surprisingly genetically disparate. It remains to be seen whether all corals in one clade follow similar genetic patterns or simply that the team happened to pick out two species that are wildly different. Further clarification will be sought through a larger-scale project called Reef Future Genomics (ReFuGe 2020), which will sequence an additional eight coral genomes by 2020.
"Rather beautifully, with the completion of the Stylophora pistillata genome, we now have the genome for an entire coral holobiont--the coral, the symbiont and its associated bacteria," says Voolstra.
Source: King Abdullah University of Science and Technology [January 29, 2018]