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Two Reference-Quality Sea Snake Genomes Reveal Their Divergent Evolution of Adaptive Traits and Venom Systems

Li An, Junjie Wang, Kuo Sun, Shuocun Wang, Xin Zhao, Tingfang Wang, Liyan Xiong, Wei‐Heng Xu, Lei Qiu, Yan Shang, Runhui Liu, Sheng Wang, Yiming Lu

2021Molecular Biology and Evolution47 citationsDOIOpen Access PDF

Abstract

True sea snakes (Hydrophiini) are among the last and most successful clades of vertebrates that show secondary marine adaptation, exhibiting diverse phenotypic traits and lethal venom systems. To better understand their evolution, we generated the first chromosome-level genomes of two representative Hydrophiini snakes, Hydrophis cyanocinctus and H. curtus. Through comparative genomics we identified a great expansion of the underwater olfaction-related V2R gene family, consisting of more than 1,000 copies in both snakes. A series of chromosome rearrangements and genomic structural variations were recognized, including large inversions longer than 30 megabase (Mb) on sex chromosomes which potentially affect key functional genes associated with differentiated phenotypes between the two species. By integrating multiomics we found a significant loss of the major weapon for elapid predation, three-finger toxin genes, which displayed a dosage effect in H. curtus. These genetic changes may imply mechanisms that drove the divergent evolution of adaptive traits including prey preferences between the two closely related snakes. Our reference-quality sea snake genomes also enrich the repositories for addressing important issues on the evolution of marine tetrapods, and provide a resource for discovering marine-derived biological products.

Topics & Concepts

BiologyEvolutionary biologyGenomeQuality (philosophy)ZoologyGeneGeneticsComputational biologyPhilosophyEpistemologyAmphibian and Reptile BiologySpider Taxonomy and Behavior StudiesGenomics and Phylogenetic Studies
Two Reference-Quality Sea Snake Genomes Reveal Their Divergent Evolution of Adaptive Traits and Venom Systems | Litcius