T. T. Tran, H. S. Tran, B. T. Le, S. Nguyen, H. Vu, O. Kim
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Val16Glu) in exon 1, and three synonymous SNPs (8859 G>A, 11713 C>A, 11992 T>C) in exon 4. The non-synonymous SNP 525 T>A (p.Val16Glu) was filtered to the next step of SNP validation. For validation, the SNP was individually genotyped in the test populations of 70 fast- growing fish and 70 slow- growing fish by single base extension method. Data analysis from the total SNPs which were collected from 80 fast- growing fish and 80 slow- growing fish indicated that non-synonymous SNP 525 T>A (p.Val16Glu) was significantly associated to the growth of striped catfish (p-value <0.001). Analysis of genetic diversity parameters (PIC, MAF) suggested that this SNP is a common variant, contributes significantly to the genetic variance. 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引用次数: 0
摘要
胰岛素样生长因子结合蛋白5 (IGFBP5)是IGFBP家族中最保守的成员,具有广泛的影响细胞生长的生物活性。本研究旨在探讨IGFBP5基因的遗传变异与斑纹鲶鱼(Pangasianodon hypophthalmus)生长的关系。在两个生长选择种群(快生长和慢生长)中发现并验证了IGFBP5基因的单核苷酸多态性(snp)。为了发现SNP,我们直接对10条快生长鱼和10条慢生长鱼的IGFBP5片段进行了Sanger测序。在这个阶段,发现了4个外显子SNP,包括1号外显子的非同义SNP 525 T> a (p. Val16Glu)和4号外显子的3个同义SNP (8859 G> a, 11713 C> a, 11992 T>C)。非同义SNP 525 T>A (p.Val16Glu)被过滤到SNP验证的下一步。为了验证该SNP,我们用单碱基延伸法对70条快生长鱼和70条慢生长鱼的测试群体进行了基因分型。对80条快生长鱼和80条慢生长鱼的总SNP数据分析表明,非同义SNP 525 T>A (p.Val16Glu)与条纹鲶鱼的生长显著相关,IGFBP5基因的p值A (p.Val16Glu)将成为标记辅助选择(MAS)的SNP候选标记,可用于巴鲶鱼育种。
Significant association between a non-synonymous snp in IGFBP5 gene and the growth of striped catfish (Pangasianodon hypophthalmus, Sauvage, 1878)
Insulin-like growth factor binding protein 5 (IGFBP5) is the highest conserved member of IGFBP family, and has the broad range of biological activities effecting on the cell growth. This study aims to investigate the association between genetic variation in IGFBP5 gene and the growth of striped catfish (Pangasianodon hypophthalmus). Single nucleotide polymorphisms (SNPs) were discovered and validated in IGFBP5 gene from two growth-selected populations (fast- and slow- growing fish). For SNP discovery, the fragments of IGFBP5 from sample sets of 10 fast- growing fish and 10 slow- growing fish were directly sequenced by Sanger sequencing. In this stage, 4 exonic SNPs were discovered, including a non-synonymous SNP 525 T>A (p. Val16Glu) in exon 1, and three synonymous SNPs (8859 G>A, 11713 C>A, 11992 T>C) in exon 4. The non-synonymous SNP 525 T>A (p.Val16Glu) was filtered to the next step of SNP validation. For validation, the SNP was individually genotyped in the test populations of 70 fast- growing fish and 70 slow- growing fish by single base extension method. Data analysis from the total SNPs which were collected from 80 fast- growing fish and 80 slow- growing fish indicated that non-synonymous SNP 525 T>A (p.Val16Glu) was significantly associated to the growth of striped catfish (p-value <0.001). Analysis of genetic diversity parameters (PIC, MAF) suggested that this SNP is a common variant, contributes significantly to the genetic variance. The non-synonymous SNP 525 T>A (p.Val16Glu) in IGFBP5 gene would become a SNP marker candidate for marker assisted selection (MAS) that can be used in pangasius breeding.
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