Cloning and expression of the growth hormone gene and its effect on the proliferation of skeletal muscle cells of Guizhou cattle / 生物工程学报

The aim of this study was to investigate the expression of growth hormone (GH) gene on skeletal muscle cell proliferation of Guizhou cattle. The coding sequence of cattle GH gene was amplified by reverse transcription PCR, cloned into the pUCM-T vector and then used to construct the GH gene overexpression vector pEGFP-N3-GH. The expression of the GH gene in skeletal muscle-related tissues (psoas major and longissimus dorsi) of Guizhou cattle was determined by real-time fluorescent quantitative PCR (RT-qPCR). This was followed by culturing and identification of the bovine primary skeletal muscle cells. Subsequently, we introduced the GH gene overexpression vector into the cells to investigate its effect on the proliferation of bovine skeletal muscle cells and the expression of insulin like growth factor 1 and 2 genes related to skeletal muscle growth and development. RT-qPCR results showed that the expression level of GH gene was higher in the psoas major than in the longissimus dorsi of Guizhou cattle, and the expression level in the psoas major of Guanling cattle and Weining cattle was significantly higher than in the longissimus dorsi (P<0.05). The transfection and proliferation results showed that pEGFP-N3-GH significantly increased the expression of GH, IGF-1, and IGF-2 genes in skeletal muscle cells compared to pEGFP-N3 (PP<0.05), and that overexpression of the GH gene also significantly increased the proliferation rate of skeletal muscle cells at the four periods examined (PP<0.01). Our results suggest that GH gene can promote the proliferation of skeletal muscle cells of Guizhou cattle and exerts a positive regulatory effect. This lays the foundation for further exploring the mechanism by which the GH gene affects the growth and development of Guizhou cattle.

Single nucleotide polymorphism analysis of growth hormone gene in Tibet minipigs / 中国比较医学杂志

Objective To screen genotypes of small body in Tibet minipigs by single nucleotide polymorphism analysis (SNP) of growth hormone (GH) gene.Methods The PCR products are sequenced.According to the results, SNP analysis are applied in GH gene 5′fragment of 108 Tibet minipigs .Results Five mutation points were found by comparison.The polymorphism information content of the T45C locus is highest.The results of growth traits of different genotypes showed that the abdomen of 6~8 month old Tibet minipigs of TC genotype at T 45C mutation site is small; the weight and height of 3~5 month old Tibet minipigs of AA genotype at G 84A mutation site is small; the body length and height of 6~8month old Tibet minipigs of GG genotype at G 93A mutation site is small.Conclusion The AA TC, GG genotypes of T45C, G84A, G93A mutation sites in GH gene may be associated with small body .We also found that genetic mutations always occur in the above sites with high heterozygosity and genetic diversity , which can provide rich material for breeding research .

Molecular studies in growth hormone gene deletions in patients with isolated growth hormone deficiency.

Human GH deficiency (GHD) occurs in 1 in 4,000-10,000, and up to 30 percent of cases have an affected first degree relative suggesting many cases may be familial. To determine the GHD cases cased by GH gene defects we analyzed the GH genes of 90 consecutive cases. Genomic DNAs were used for PCR amplification of 2.7 kb fragments containing subjects’ GH gene; these PCR products were subjects to determine GH gene deletions. PCR products of 1900 and 1919 bp were obtained. By using the combination of restriction enzymes BglI, HaeII and SmaI to digest these PCR products, the various sizes of GH gene deletion can be detected. None of the possible deletions was found in these patients by either PCR or Southern blot analysis.