小尾寒羊高繁殖力候选基因BMP15和GDF 9的研究

以控制Belclare和Cambridge绵羊高繁殖力的骨形态发生蛋白 15 (bonemorphogeneticprotein 15 ,BMP15 )基因和生长分化因子 9(growthdifferentiationfactor 9,GDF9)基因为候选基因 ,采用PCR RFLP技术检测BMP15基因和GDF9基因在高繁殖力绵羊品种 (小尾寒羊、湖羊 )以及低繁殖力绵羊品种 (多赛特羊、特克塞尔羊、德国肉用美利奴羊 )中的单核苷酸多态性 ,同时研究这两个基因对小尾寒羊高繁殖力的影响。结果表明 :在 5个绵羊品种中都没有检测到GDF9基因的G8突变 (C→T) ,也没有检测到BMP15基因的B4突变 (G→T)。高繁殖力的小尾寒羊在BMP15基因编码序列第 718位碱基处发生了与Belclare绵羊和Cambridge绵羊相同的B2突变 (C→T) ,而其余 4个绵羊品种则没有发生这种突变。对于BMP15基因的B2突变 ,在小尾寒羊中检测到AA、AB两种基因型 ,A等位基因频率为 0 734,B等位基因频率为 0 2 6 6。小尾寒羊与其余 4个绵羊品种间B2突变基因型分布差异极显著 (P <0 0 0 1)。突变杂合基因型 (AB)小尾寒羊平均产羔数比野生纯合基因型 (AA)多 0 6 2只 (P <0 0 1)。研究结果表明 ,BMP15B2突变对小尾寒羊高繁殖力影响作用十分明显 ,同时排除了GDF9G8突变和BMP15B4突变影响小尾寒羊高繁殖力的可能性     

Nucleotide sequencing and DNA polymorphism studies of BMP 15 gene in Corriedale and local Kashmir valley sheep (Ovis aries)

The families of TGF-β proteins are the most important growth factors in the ovary for growth and differentiation of early ovarian follicles. Three related oocyte-derived members of the transforming growth factor-β superfamily, namely GDF9, BMP15 and BMPR-IB have been shown to be essential for follicular growth and ovulation. The objective of the present study was to detect the incidence of mutation in intronic portion of BMP 15 gene in Corriedale and local Kashmir valley sheep breeds. Blood samples were collected from 85 ewes and genomic DNA was extracted using the modified phenol chloroform method. The quantity and quality of extracted DNA was examined using spectrophotometry and gel electrophoresis, respectively. A fragment with the size of 356 bp was amplified using polymerase chain reaction (PCR) with a pair of specific primers. The amplified PCR products were digested with Mph11031 restriction enzyme. In the presence of mutation at this locus, the Mph11031 enzyme cannot recognize the restriction site. However, here in the absence of mutations, the enzyme recognizes one restriction site and divides the amplified fragment into two fragments of 152 and 204 bp. The 356 bp fragment was also analyzed for polymorphism by SSCP technique. The results indicated two different banding patterns AA and AB for this fragment. Later on two different allelic forms A and B were confirmed by nucleotide sequencing. The 356 bp nucleotide sequence was subjected to alignment analysis and it was observed that sequence similarity of this fragment with that of other sheep and Jining grey goat was more than 97.8%. Phylogenetic analysis revealed that both designated A and B alleles as well as published sequence of sheep form a common cluster indicating their evolutionary closeness. The origin of Jining grey goat was located some distance away from the sheep. The overall frequencies of AA and AB genotypes were 0.79 and 0.21. The breed wise frequencies were 0.78 and 0.22 in Corriedale sheep and the frequencies in Kashmir valley sheep were 0.80 and 0.20 for AA and AB genotypes, respectively. The overall allelic frequencies of A and B alleles were 0.89 and 0.11 whereas allelic frequencies Corriedale sheep was 0.89 and 0.11 and that of Kashmir valley sheep were 0.90 and 0.10.     

Dynamics of expression of growth differentiation factor 15 in normal and PIN development in the mouse

Growth differentiation factor (GDF15) is a distant member of the transforming growth factor-beta superfamily, a diverse group of structurally related proteins that exert multiple effects on cell fate such as on cell growth and differentiation but little is known about GDF15 in these processes. Previously we observed the mature GDF15 to be associated with human prostate carcinogenesis hence prompting us to study GDF15 further. Here we report gdf15 expression both at the RNA and protein levels, in normal prostatic tissues of wild type (wt) and prostatic intraepithelial neoplasia (PIN) of transgenic (Tg) 12T-7s model mice during embryonic, postnatal, and adult prostate formation up to 15 weeks after birth. Dynamic changes in expression, at both the mRNA and protein level, correlated with cell proliferation and differentiation during distinct phases of normal mouse prostate development and alterations in the dynamics of gdf15 expression correlated with the changes in development resulting in PIN formation. Most notably mature gdf15 protein was significantly elevated during hyperplasia and PIN development. Changes in the protein levels did not always correlate well with the mRNA levels. This was more prominent during PIN than during normal prostate development suggesting that this may also be an indicator of disturbed regulation of gdf15 in PIN. We propose that gdf15 is a growth factor with dual function either promoting proliferation or growth arrest and differentiation due most likely to differences in cellular differentiation. Because of the differentiation defect in PIN its epithelium no longer responds to gdf15 by cellular growth arrest as does the normal epithelium and gdf may even stimulate proliferation. The data supports our hypothesis that GDF15 plays a role in the early stages of human prostate cancer.