%0 Journal Article %A Anna I. Vickrey %A Rebecca Bruders %A Zev Kronenberg %A Emma Mackey %A Ryan J. Bohlender %A Emily T. Maclary %A E.J. Osborne %A Kevin P. Johnson %A Chad D. Huff %A Mark Yandell %A Michael D. Shapiro %T Protein-coding variation and introgression of regulatory alleles drive plumage pattern diversity in the rock pigeon %D 2018 %R 10.1101/242552 %J bioRxiv %P 242552 %X Birds and other vertebrates display stunning variation in pigmentation patterning, yet the genes controlling this diversity remain largely unknown. Rock pigeons (Columba livia) are fundamentally one of four color pattern phenotypes, in decreasing order of melanism: T-check, checker, bar (ancestral), or barless. Using whole-genome scans, we identified NDP as a candidate gene for this variation. Allele-specific expression differences in NDP indicate cis-regulatory differences between ancestral and melanistic alleles. Sequence comparisons suggest that derived alleles originated in the speckled pigeon (Columba guinea), providing a striking example of introgression of alleles that are favored by breeders and are potentially advantageous in the wild. In contrast, barless rock pigeons have an increased incidence of vision defects and, like two human families with hereditary blindness, carry start-codon mutations in NDP. In summary, we find unexpected links between color pattern, introgression, and vision defects associated with regulatory and coding variation at a single locus. %U https://www.biorxiv.org/content/biorxiv/early/2018/01/05/242552.full.pdf