Life Sciences Commons^™

Sex Chromosome Turnover In Bent-Toed Geckos (Cyrtodactylus), Shannon E. Keating, Madison Blumer, L. Lee Grismer, Aung Lin, Stuart V. Nielsen, Myint Kyaw Thura, Perry L. Wood Jr., Evan S.H. Quah, Tony Gamble

Biological Sciences Faculty Research and Publications

Lizards and snakes (squamates) are known for their varied sex determining systems, and gecko lizards are especially diverse, having evolved sex chromosomes independently multiple times. While sex chromosomes frequently turnover among gecko genera, intrageneric turnovers are known only from Gekko and Hemidactylus. Here, we used RADseq to identify sex-specific markers in two species of Burmese bent-toed geckos. We uncovered XX/XY sex chromosomes in Cyrtodactylus chaunghanakwaensis and ZZ/ZW sex chromosomes in Cyrtodactylus pharbaungensis. This is the third instance of intrageneric turnover of sex chromosomes in geckos. Additionally, Cyrtodactylus are closely related to another genus with intrageneric turnover, Hemidactylus. …

Draft Genome Of The Leopard Gecko, Eublepharis Macularius, Zijun Xiong, Fang Li, Long Zhou, Tony Gamble, Jiao Zheng, Ling Kui, Cai Li, Shengbin Li, Huanming Yang, Guojie Zhang

Biological Sciences Faculty Research and Publications

Background

Geckos are among the most species-rich reptile groups and the sister clade to all other lizards and snakes. Geckos possess a suite of distinctive characteristics, including adhesive digits, nocturnal activity, hard, calcareous eggshells, and a lack of eyelids. However, one gecko clade, the Eublepharidae, appears to be the exception to most of these ‘rules’ and lacks adhesive toe pads, has eyelids, and lays eggs with soft, leathery eggshells. These differences make eublepharids an important component of any investigation into the underlying genomic innovations contributing to the distinctive phenotypes in ‘typical’ geckos.

Findings

We report high-depth genome sequencing, assembly, and …

Into The Light: Diurnality Has Evolved Multiple Times In Geckos, Tony Gamble, E. Greenbaum, Todd R. Jackman, Aaron M. Bauer

Biological Sciences Faculty Research and Publications

Geckos are the only major lizard group consisting mostly of nocturnal species. Nocturnality is presumed to have evolved early in gecko evolution and geckos possess numerous adaptations to functioning in low light and at low temperatures. However, not all gecko species are nocturnal and most diurnal geckos have their own distinct adaptations to living in warmer, sunlit environments. We reconstructed the evolution of gecko activity patterns using a newly generated time-calibrated phylogeny. Our results provide the first phylogenetic analysis of temporal activity patterns in geckos and confirm an ancient origin of nocturnality at the root of the gecko tree. We …

Coming To America: Multiple Origins Of New World Geckos, Tony Gamble, A. M. Bauer, G. R. Colli, E. Greenbaum, T. R. Jackman, Laurie J. Vitt, Andrew M. Simons

Biological Sciences Faculty Research and Publications

Geckos in the Western Hemisphere provide an excellent model to study faunal assembly at a continental scale. We generated a time-calibrated phylogeny, including exemplars of all New World gecko genera, to produce a biogeographic scenario for the New World geckos. Patterns of New World gecko origins are consistent with almost every biogeographic scenario utilized by a terrestrial vertebrate with different New World lineages showing evidence of vicariance, dispersal via temporary land bridge, overseas dispersal, or anthropogenic introductions. We also recovered a strong relationship between clade age and species diversity, with older New World lineages having more species than more recently …