Phased chromosome-level genome provides insights into the molecular adaptation for migratory lifestyle and population diversity for Pacific saury, Cololabis saira

Abstract

The Pacific saury (Cololabis saira) is a pelagic fish commonly found in the North Pacific Ocean. Its population diversity and migratory lifestyle have long captured global attention. Despite the inherent complexity of the C. saira genome, characterized by extremely high heterozygosity, we successfully assembled a phased chromosome-level genome. The genome analysis revealed the expansion and natural selection of numerous functional genes, likely contributing to its enduring and extensive migratory lifestyle. Notably, gpr35 and igh genes showed significant expansion in the C. saira genome, potentially associated with regulating the immune response against environmental parasites and pathogens. Moreover, genes involved in DNA repair/replication and peroxisome function, including atm, ercc6, pex14, and pex16, displayed evidence of positive selection. Based on genome-sequencing of 80 individuals from eight sampling sites, we demonstrated that the genomic divergence among C. saira populations is relatively low. However, the sampling sites could be grouped into two distinct clusters, roughly corresponding to the migratory route of C. saira. This suggests a possible genome-wide divergence for C. saira within the open ocean region. Furthermore, the trmu gene, responsible for controlling otolith development and sharpness, exhibited differentiation between the two groups, consistent with previously reported differences in otolith morphology. This study has provided a reference genome and insights into the evolution, ecology, and conservation of Pacific saury and closely-related species. Phased chromosome-level genome provides insights into the molecular adaptation for enduring and extensive migratory lifestyle and population diversity for Pacific saury.