Jiangsu Agri-animal Husbandry Vocational College, Taizhou, China.
College of Animal Science and Technology, Nanjing Agricultural University, Nanjing, China.
Anim Sci J. 2022 Jan-Dec;93(1):e13738. doi: 10.1111/asj.13738.
Chinese indigenous Mi gilts have clearer estrus expression than European Large White gilts, and sulfotransferase 1C1 (SULT1C1) gene was differentially expressed between them. To investigate the differential expression mechanism of porcine SULT1C1 gene, we cloned its promoter region and predicted its activity. Six deletion expression vectors (P1, P2, P3, P4, P5, and P6) for the promoter of SULT1C1 gene were constructed. Vector P3 (-1084/+261) had the highest expression activity, whereas vector P4 (-642/+261) showed a reduced in promoter activity, which suggests that the core promoter region of SULT1C1 gene is located between -1084 bp and -642 bp. Two single nucleotide polymorphisms (SNPs), c. - 994 G > A (rs345070974) and c. - 946 G > A (rs337902009) were found in Mi and Large White gilts between -1100 and -661 bp, and the expression vectors with four haplotypes (GG, AA, GA, and AG) of two SNPs were constructed. The relative luciferase activity of vector with haplotype GG was the greatest among four vectors. These indicate that c. - 994 G > A and c. - 946 G > A are key mutations for promoter activity of SULT1C1 gene. Porcine SULT1C1 promoter with -994 G allele and -946 G allele significantly improved the gene expression level. It could be involved in different estrus expression between Large White and Mi gilts.
中国本土米猪的发情表现比欧洲长白猪更为明显,且磺基转移酶 1C1(SULT1C1)基因在两者之间存在差异表达。为探究猪 SULT1C1 基因的差异表达机制,本研究克隆了其启动子区并预测了其活性。构建了 SULT1C1 基因启动子的 6 个缺失表达载体(P1、P2、P3、P4、P5 和 P6)。载体 P3(-1084/+261)具有最高的表达活性,而载体 P4(-642/+261)的启动子活性降低,提示 SULT1C1 基因的核心启动子区域位于-1084bp 到-642bp 之间。在米猪和长白猪之间,发现了两个单核苷酸多态性(SNP),c.-994G>A(rs345070974)和 c.-946G>A(rs337902009),位于-1100 到-661bp 之间,构建了包含这两个 SNP 的四个单倍型(GG、AA、GA 和 AG)的表达载体。四个载体中,携带 GG 单倍型的载体的相对荧光素酶活性最大。这些结果表明,c.-994G>A 和 c.-946G>A 是 SULT1C1 基因启动子活性的关键突变。猪 SULT1C1 启动子携带-994G 等位基因和-946G 等位基因显著提高了基因表达水平。它可能参与了长白猪和米猪之间不同发情表现的差异。
