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Genomic insights into the seawater adaptation in Cyprinidae

Ying Wang, Xuejing Zhang, Jing Wang, Cheng Wang, Fei Xiong, Yuting Qian, Minghui Meng, Min Zhou, Wenjun Chen, Zufa Ding, Dan Yu, Yang Liu, Yumei Chang, Shunping He, Liandong Yang

2024BMC Biology10 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Cyprinidae, the largest fish family, encompasses approximately 367 genera and 3006 species. While they exhibit remarkable adaptability to diverse aquatic environments, it is exceptionally rare to find them in seawater, with the Far Eastern daces being of few exceptions. Therefore, the Far Eastern daces serve as a valuable model for studying the genetic mechanisms underlying seawater adaptation in Cyprinidae. RESULTS: Here, we sequenced the chromosome-level genomes of two Far Eastern daces (Pseudaspius brandtii and P. hakonensis), the two known cyprinid fishes found in seawater, and performed comparative genomic analyses to investigate their genetic mechanism of seawater adaptation. Demographic history reconstruction of the two species reveals that their population dynamics are correlated with the glacial-interglacial cycles and sea level changes. Genomic analyses identified Pseudaspius-specific genetic innovations related to seawater adaptation, including positively selected genes, rapidly evolving genes, and conserved non-coding elements (CNEs). Functional assays of Pseudaspius-specific variants of the prolactin (prl) gene showed enhanced cell adaptation to greater osmolarity. Functional assays of Pseudaspius specific CNEs near atg7 and usp45 genes suggest that they exhibit higher promoter activity and significantly induced at high osmolarity. CONCLUSIONS: Our results reveal the genome-wide evidence for the evolutionary adaptation of cyprinid fishes to seawater, offering valuable insights into the molecular mechanisms supporting the survival of migratory fish in marine environments. These findings are significant as they contribute to our understanding of how cyprinid fishes navigate and thrive in diverse aquatic habitats, providing useful implications for the conservation and management of marine ecosystems.

Topics & Concepts

BiologyAdaptation (eye)CyprinidaeSeawaterEvolutionary biologyGenomeGeneEcologyZoologyGeneticsFisheryFish <Actinopterygii>NeuroscienceGenetic diversity and population structureGenomics and Phylogenetic StudiesReproductive biology and impacts on aquatic species
Genomic insights into the seawater adaptation in Cyprinidae | Litcius