Chromosome-level genome assembly and annotation of the crested gecko,Correlophus ciliatus, a lizard incapable of tail regeneration

The vast majority of gecko species are capable of tail regeneration, but singular geckos ofCorrelophus, Uroplatus, andNephrurusgenera are unable to regrow lost tails. Of these non-regenerative geckos, the crested gecko (Correlophus ciliatus) is distinguished by ready availability, ease of care, high productivity, and hybridization potential. These features makeC. ciliatusparticularly suited as a model for studying the genetic, molecular, and cellular mechanisms underlying loss of tail regeneration capabilities. We report a contiguous genome ofC. ciliatuswith a total size of 1.65 Gb, a total of 152 scaffolds, L50 of 6, and N50 of 109 Mb. Repetitive content consists of 40.41% of the genome, and a total of 30,780 genes were annotated. Assembly of the crested gecko genome provides a valuable resource for future comparative genomic studies between non-regenerative and regenerative geckos and other squamate reptiles.