A chromosome-level reference genome assembly for Gilbert's skink Plestiodon gilberti.

Abstract

Advances in genomic studies are revealing that gene flow between species is more frequent than previously understood, although the ways in which hybridization can bias gene flow across species boundaries or the extent to which introgression might be adaptive remain unexplored in most systems. We report on an annotated chromosome-level genome assembly for the Gilbert's skink, Plestiodon gilberti, one of 18 clades of reptiles and amphibians selected for reference genome sequencing in the California Conservation Genomics Project (CCGP). This assembly was produced using Pacific Biosciences HiFi long reads and Omni-C proximity ligation data. Although members of the Scincidae comprise nearly one-quarter of all lizard species (1785 described species), this de novo assembly represents one of only 10 skink species globally and the first North American skink with a reference genome. The assembly has a total length of ~ 1.57 Gb, a scaffold N50 length of ~ 231.32 Mb, read coverage of ~56X, and BUSCO completeness score of 97.2% based on the Tetrapoda ortholog database. Plestiodon gilberti is a member of the Plestiodon skiltonianus species complex, a group with many of the characteristics of ecological speciation but where ancient hybridization events present challenges to disentangling the initial patterns of lineage divergence. Combined with dense sampling of resequenced genomes in the CCGP, including other members of the P. skiltonianus complex, this reference genome will enable future analyses of the links between divergent selection and the genes underlying speciation, as well as the potential for introgression to enable adaptation to new or changing environments.