BMC Genomics (Aug 2024)
The somatic genome of Eptatretus okinoseanus reveals the adaptation to deep-sea oligotrophic environment
Abstract
Abstract Background Hagfishes are fascinating creatures that typically inhabit the deep sea. The deep sea is characterized by its lack of sunlight, primary productivity, and diminishing biomass with increasing ocean depth. Therefore, hagfishes living in this environment must develop effective survival strategies to adapt to the limited food supply. Deep-sea hagfishes have been observed to survive without food intake for up to one year. In this study, we have assembled a high-quality somatic genome of the deep-sea hagfish (Eptatretus okinoseanus) captured below 1,000 m. We compared the genome of E. okinoseanus with the genomes of inshore hagfish, lampreys, and other related species to investigate the genetic factors underlying the deep-sea hagfish adaptations to the environment. Results The E. okinoseanus somatic genome was estimated to be 1.89 Gb and assembled into 17 pseudochromosomes. Phylogenetic analysis showed that shallow-sea and deep-sea hagfishes diverged approximately 58.8 million years ago. We found Perilipin gene family was significantly expanded in deep sea E. okinoseanus, which promotes triacylglycerol storage. Furthermore, a series of genes involved in fatty acid synthesis and metabolism, blood glucose regulation, and metabolic rate regulation were also expanded, rapid evolution or positive selection, and these changes contribute to their efficiency in energy utilization. Among these genes, the positively selected gene JNK may play an important role in energy metabolism. In addition, the olfactory receptors of the deep-sea hagfish were significantly expanded to 86, and three conserved motifs present only in hagfishes olfactory receptors were identified, which may facilitate the rapid localization of carrion. Conclusions This study provides valuable genomic resources for insights into the survival strategies of deep-sea hagfishes in oligotrophic environments.
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