Abstract
The eye color of birds, generally referring to the color of the iris, results from both pigmentation and structural coloration. Avian iris colors exhibit striking interspecific and intraspecific variations that correspond to unique evolutionary and ecological histories. Here, we identified the genetic basis of pearl (white) iris color in domestic pigeons (Columba livia) to explore the largely unknown genetic mechanism underlying the evolution of avian iris coloration. Using a genome-wide association study (GWAS) approach in 92 pigeons, we mapped the pearl iris trait to a 9 kb region containing the facilitative glucose transporter gene SLC2A11B. A nonsense mutation (W49X) leading to a premature stop codon in SLC2A11B was identified as the causal variant. Transcriptome analysis suggested that SLC2A11B loss of function may downregulate the xanthophore-differentiation gene CSF1R and the key pteridine biosynthesis gene GCH1, thus resulting in the pearl iris phenotype. Coalescence and phylogenetic analyses indicated that the mutation originated approximately 5,400 years ago, coinciding with the onset of pigeon domestication, while positive selection was likely associated with artificial breeding. Within Aves, potentially impaired SLC2A11B was found in six species from six distinct lineages, four of which associated with their signature brown or blue eyes and lack of pteridine. Analysis of vertebrate SLC2A11B orthologs revealed relaxed selection in the avian clade, consistent with the scenario that during and after avian divergence from the reptilian ancestor, the SLC2A11B-involved development of dermal chromatophores likely degenerated in the presence of feather coverage. Our findings provide new insight into the mechanism of avian iris color variations and the evolution of pigmentation in vertebrates.
Highlights
Integumentary pigmentation plays essential roles in camouflage, sexual selection, communication, and thermoregulation in vertebrates [1,2,3]
We identified the genetic basis of the pearl iris color in domestic pigeons (Columba livia) to a nonsense mutation W49X in SLC2A11B via whole
The dynamic color change and diverse pigmentation of poikilothermic vertebrates are mostly attributed to neural crest-derived dermal chromatophores, which are generally divided into three main categories: xanthophores/erythrophores, iridophores/leucophores, and melanophores [4,5,6]
Summary
Integumentary pigmentation plays essential roles in camouflage, sexual selection, communication, and thermoregulation in vertebrates [1,2,3]. The dynamic color change and diverse pigmentation of poikilothermic vertebrates are mostly attributed to neural crest-derived dermal chromatophores, which are generally divided into three main categories: xanthophores/erythrophores (yellow to red), iridophores/leucophores (iridescent color or white), and melanophores (black) [4,5,6]. The avian iris maintains the potential for complete development of all types of pigment cells that are comparable to the chromatophores in poikilothermic vertebrates, probably due to its external, exposed location where chromatophores are under constant selective pressure, remaining as a “pigment cell refugium” during avian evolution [7]. Iris color variation may reflect unique evolutionary histories and ecological adaptions and provides a unique angle for understanding avian radiation, as well as pigmentation evolution across vertebrates
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