Project description:RNA expression patterns of Lophelia pertusa to low pH are analyzed and presented to understand how the corals will respond to future environmental conditions

Project description:Lophelia pertusa Metagenomes

Project description:Trematosphaeria pertusa CBS 122368 Transcriptome or Gene expression

Project description:Lophelia pertusa response to low pH

Project description:Trematosphaeria pertusa strain:CBS 122368 Genome sequencing and assembly

Project description:Lophelia pertusa overview

Project description:Lophelia pertusa Genome Sequencing

Project description:The 16S gene marker has been chosen to target the bacterial microbiome associated to cold-water coral Lophelia pertusa in the Atlantic Ocan under warming temperatures

Project description:Lophelia pertusa is a widespread colonial cold-water coral which can form large three-dimensional habitats for benthic communities. Although it is known to construct an aragonite skeleton with optically opaque and translucent bands, details of its biomineralized structure are unclear. New crystallographic data obtained from Lophelia pertusa using electron backscatter diffraction (EBSD) reveal a remarkably high degree of multiscale self-ordering and provide unprecedented detail on crystallographic orientations within the coral skeleton. The EBSD data unequivocally demonstrate a self-regulated architecture across a range of spatial scales, resulting in a specific structure which contributes to the physical robustness of its skeleton and an evolutionary advantage in such habitats.

Project description:Like their shallow-water counterparts, cold-water corals create reefs that support highly diverse communities, and these structures are subject to numerous anthropogenic threats. Here, we present the genome assembly of Lophelia pertusa from the southeastern coast of the USA, the first one for a deep-sea scleractinian coral species. We generated PacBio continuous long reads data for an initial assembly and proximity ligation data for scaffolding. The assembly was annotated using evidence from transcripts, proteins, and ab initio gene model predictions. This assembly is comparable to high-quality reference genomes from shallow-water scleractinian corals. The assembly comprises 2,858 scaffolds (N50 1.6 Mbp) and has a size of 556.9 Mbp. Approximately 57% of the genome comprises repetitive elements and 34% of coding DNA. We predicted 41,089 genes, including 91.1% of complete metazoan orthologs. This assembly will facilitate investigations into the ecology of this species and the evolution of deep-sea corals.