Zhejiang Academy of Agricultural Sciences, Hangzhou, China.
State Key Laboratory for Agrobiotechnology, China Agricultural University, Beijing, China.
PLoS Genet. 2020 Nov 13;16(11):e1009119. doi: 10.1371/journal.pgen.1009119. eCollection 2020 Nov.
Avian eggshell color is an interesting genetic trait. Here, we report that the blue eggshell color of the domestic duck is caused by two cis-regulatory G to A transitions upstream of ABCG2, which encodes an efflux transporter. The juxtaposed blue eggshell allele A-A exhibited higher promoter activity and stronger nuclear protein binding capacity than the white eggshell allele G-G. Transcription factor analysis suggested differential binding capability of CTCF between blue eggshell and white eggshell alleles. Knockdown of CTCF expression significantly decreased the promoter activity of the blue eggshell but not the white eggshell allele. DNA methylation analysis revealed similar high methylation of the region upstream of the CTCF binding sites in both blue-eggshelled and white-eggshelled ducks. However, DNA methylation levels downstream of the binding sites were decreased and 35% lower in blue-eggshelled ducks than in white-eggshelled ducks. Consistent with the in vitro regulatory pattern of causative sites, ABCG2 exhibited higher expression in uteruses of blue-eggshelled ducks and also showed polarized distribution in their endometrial epithelial cells, distributing at the apical surface of endometrial epithelial cells and with orientation toward the uterine cavity, where the eggshell is pigmented. In conclusion, our results suggest that two cis-regulatory SNPs upstream of ABCG2 are the causative mutations for blue eggshells in ducks. The blue eggshell variant up-regulated ABCG2 expression through recruiting CTCF binding, which may function as a barrier element to shield the downstream region from high methylation levels present upstream. ABCG2 was identified as the only candidate causative gene for blue eggshells; it may function as an efflux transporter of biliverdin to the uterine cavity.
禽类蛋壳颜色是一个有趣的遗传特征。在这里,我们报告称,家鸭的蓝色蛋壳颜色是由 ABCG2 上游的两个顺式调控 G 到 A 转换引起的,ABCG2 编码一种外排转运蛋白。相邻的蓝色蛋壳等位基因 A-A 表现出比白色蛋壳等位基因 G-G 更高的启动子活性和更强的核蛋白结合能力。转录因子分析表明,CTC 因子在蓝色蛋壳和白色蛋壳等位基因之间具有不同的结合能力。CTCF 表达的敲低显著降低了蓝色蛋壳但不降低白色蛋壳等位基因的启动子活性。DNA 甲基化分析表明,在蓝色蛋壳和白色蛋壳鸭中,CTCF 结合位点上游区域的甲基化水平相似较高。然而,结合位点下游的 DNA 甲基化水平在蓝色蛋壳鸭中降低了 35%,低于白色蛋壳鸭。与致病位点的体外调控模式一致,ABCG2 在蓝色蛋壳鸭的子宫中表达较高,并且在其子宫内膜上皮细胞中也表现出极化分布,分布在子宫内膜上皮细胞的顶端表面,并朝向子宫腔,蛋壳在那里着色。总之,我们的结果表明,ABCG2 上游的两个顺式调控 SNP 是鸭蓝色蛋壳的致病突变。蓝色蛋壳变异通过募集 CTCF 结合来上调 ABCG2 表达,这可能作为一个屏障元件,将下游区域与上游存在的高甲基化水平隔离开来。ABCG2 被确定为蓝色蛋壳的唯一候选致病基因;它可能作为胆绿素向子宫腔的外排转运蛋白发挥作用。
