RRC ID 88312
Author Araya-Donoso R, Baty SM, Johnson JE, Lasku E, Taft JM, Fisher RE, Losos JB, Dolby GA, Kusumi K, Geneva AJ.
Title Structural Rearrangements and Selection Promote Phenotypic Evolution in Anolis Lizards.
Journal Genome Biol Evol
Abstract The genomic characteristics of adaptively radiated groups could contribute to their high species number and ecological disparity, by increasing their evolutionary potential. Here, we explored the genomic variation of Anolis lizards, focusing on three species with distinct phenotypes: Anolis auratus, one of the species with the longest tail; Anolis frenatus, one of the largest species; and Anolis carolinensis, one of the species that inhabits the coldest environments. We assembled and annotated two new chromosome-level reference genomes for A. auratus and A. frenatus and compared them with the available genomes of A. carolinensis and Anolis sagrei. We evaluated the presence of structural rearrangements, quantified the density of repeat elements, and identified potential signatures of positive selection in coding and regulatory regions. We detected substantial rearrangements in scaffolds 1, 2, and 3 of A. frenatus different from the other species, in which the rearrangement breakpoints corresponded to hotspots of developmental genes. Further, we detected an accumulation of repeats around key developmental genes in anoles and phrynosomatid outgroups. Finally, coding sequences and regulatory regions of genes relevant to development and physiology showed variation that could be associated with the unique phenotypes of the analyzed species. Our results show examples of the hierarchical genomic variation within anoles that could provide the substrate that promoted phenotypic disparity and contributed to their adaptive radiation.
Volume 17(11)
Published 2025-10-27
DOI 10.1093/gbe/evaf196
PII 8303492
PMID 41140024
PMC PMC12596200
MeSH Animals Biological Evolution Evolution, Molecular* Female Gene Rearrangement Genetic Variation Genome Lizards* / genetics Phenotype Selection, Genetic*
IF 3.462
Resource
GBIF Reptile specimens of Kanagawa Prefectural Museum of Natural History Herpetological specimens of Okinawa Prefectural Museum & Art Museum Herpetological collection of National Museum of Nature and Science Herpetological (amphibian & reptile) specimens of Ryukyu University Museum (Fujukan)