Abstract
Simple SummaryA central goal of livestock genomic study is to find causal genes underlying economic traits and identify effective variations which can be used as molecular markers for livestock breeding. The cattle KCNJ12 gene is an important candidate gene. To date, however, there have been no reports about the use of its missense mutation as a marker in cattle stature. In this study, missense mutation in KCNJ12 was firstly verified, which led to a change in its protein sequence. Further, a significant association was detected between the mutation of KCNJ12 and cattle stature, and we determined that the mutation in KCNJ12 could be used as a molecular marker in beef breeding programs. In addition, expression analysis of the KCNJ12 gene revealed high abundance in muscle and potential roles in bovine myocyte differentiation, which may be the subject of our future research.The potassium inwardly rectifying channel, subfamily J, member 12 (KCNJ12) gene is a promising candidate for economic traits because of its crucial roles in myoblast development. Here, a missense mutation (Cys > Arg) was first detected to be located in exon 3 of KCNJ12 from three Chinese cattle breeds by DNA-pool sequencing. Then, we performed an association analysis of this single-nucleotide polymorphism (SNP) with stature in three Chinese cattle populations (n = 820). A significantly positive correlation was revealed by a reduced animal general linear model and the CC genotype was the most favorable in three breeds. Further, we measured the expression profile of the KCNJ12 gene in various cattle tissues and primary bovine skeletal muscle cells. Ubiquitous expression with high abundance in muscle was observed. Further, in primary bovine skeletal muscle cells, the KCNJ12 mRNA expression was gradually up-regulated in differentiation medium (DM) compared with that in growth medium (GM), suggesting that the KCNJ12 gene is involved in bovine myocyte differentiation. Conclusively, the KCNJ12 gene is a functional candidate gene which can be used as a molecular marker for cattle breeding.
Highlights
Understanding the growth and development of skeletal muscle is one of the most important goals in animal and meat science
Compared with that in growth medium (GM), suggesting that the KCNJ12 gene is involved in bovine myocyte differentiation
Meat characteristics are directly affected by many factors, among which genetic factors are of prime importance because genetic improvement is permanent and cumulative when inherited by subsequent generations
Summary
Understanding the growth and development of skeletal muscle is one of the most important goals in animal and meat science. Meat characteristics are directly affected by many factors, among which genetic factors are of prime importance because genetic improvement is permanent and cumulative when inherited by subsequent generations. Identifying the causal loci of meat productivity and quality is a subject of intense research, and at present, only a fraction of these loci have been discovered [1]. It is Animals 2019, 9, 273; doi:10.3390/ani9050273 www.mdpi.com/journal/animals. Animals 2019, 9, 273 urgent to discover these loci and improve our understanding of their molecular mechanisms in skeletal muscle development. Subfamily J, member 12 (KCNJ12) belongs to the inwardrectifier potassium channel family, which includes the strong inward-rectifier channels (Kir2.x), the G-protein-activated inward-rectifier channels (Kir3.x), and the ATP-sensitive channels (Kir6.x)
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