鹌鹑
生物
基因座(遗传学)
遗传学
羽毛
科图尼
内皮素3
等位基因
突变体
鹌鹑
受体
基因
内分泌学
内皮素
内皮素受体
动物
作者
Mitsuru Miwa,Miho Inoue‐Murayama,Hitomi Aoki,Takahiro Kunisada,Takahiro Hiragaki,Makoto Mizutani,Itó S
标识
DOI:10.1111/j.1365-2052.2007.01568.x
摘要
Summary The panda mutant in Japanese quail ( Coturnix japonica ) displays spots of wild‐type plumage on a white background and is controlled by an autosomal recessive allele ( s ). The dotted white is controlled by a third allele ( s dw ) of the s locus with s dw / s dw quail having less pigmentation than s / s quail. We mapped the s locus to the Japanese quail chromosome 4 (CJA04) in a previous study. The orthologous region of the chicken ( Gallus gallus ) genome includes endothelin receptor B2 ( EDNRB2 ), an avian‐specific paralog of endothelin receptor B ( EDNRB ). EDNRB mutations in mammals retard the migration of neural crest cells (NCCs), which results in a spotted coat colour and an enteric nervous defect. In the present study, we investigated the association between the s locus and EDNRB2 in Japanese quail. Sequence comparison among transcripts from livers of wild‐type, panda and dotted white quail revealed a nucleotide substitution (c.995G>A) leading to a p.R332H amino acid change that was specific to panda , whereas no amino acid substitution was found in dotted white birds. The amino acid position 332 is located in the sixth transmembrane domain and is highly conserved in both avian and mammalian endothelin receptors. The A allele at nucleotide position 995 was specific to panda ( s / s ) birds among 10 strains, and was mapped to the same chromosomal region as the s locus. Quantitative RT‐PCR revealed that EDNRB2 transcripts were reduced in both panda and dotted white mutants compared with wild‐type. However, there was no difference between the early embryos of wild‐type and panda with respect to the migration of NCCs. The genetic association of EDNRB2 with plumage colour in birds was found for the first time in this study.
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