Molecular Genetics Laboratory, Project Directorate on Cattle (ICAR), Meerut, Uttar Pradesh 250 001, India.
Res Vet Sci. 2013 Apr;94(2):256-62. doi: 10.1016/j.rvsc.2012.09.001. Epub 2012 Oct 6.
Mature spermatozoa contain thousands of mRNA transcripts. These untranslated mRNA may perhaps serve as a "footprint" of spermatogenesis since many of them might directly or indirectly be involved in fertilization, early embryo cleavage, poor semen quality and fertility. In this study, we tried to isolate high-quality RNA from mature spermatozoa and to monitor the expression profile of protamine 1 (PRM1) and protamine 2 (PRM2) gene in ejaculated spermatozoa of normal (good, % initial progressive motility: 57.61±1.41, n=9) and motility impaired (poor, % initial progressive motility: 18.45±1.61, n=8) crossbred Frieswal (HF×Sahiwal) bulls semen using real time quantitative PCR. Semen samples were subjected to discontinuous (45:90) Percoll gradient centrifugation, specifically to eliminate damaged spermatozoa and contaminating somatic cells. Total RNA was extracted from sperm pellets and cDNA was synthesized. Furthermore, the absence of contamination of germ cells, epithelial cells and leucocytes in all the RNA extractions was tested by RT-PCR targeting specific molecular markers like KIT, CDH1 and CD4, respectively. The presence of transcripts like PRM1, PRM2, DAZL, and PPIA were demonstrated in ejaculated spermatozoa using appropriate PCR primers without RNA amplification. Expression of PRM1 and PRM2 genes were evaluated by real time quantitative PCR using TaqMan chemistry, where PPIA was used as internal control. The cDNA synthesized from normal buffalo testicular tissue was served as positive control. The good quality semen producing group showed significantly higher level of PRM1 mRNAs expression as compared to the poor quality semen producers (P<0.05) indicating putative role of the gene and semen quality parameters especially initial progressive motility. However, PRM2 transcript levels were not significantly different between the groups (P>0.05).
成熟精子包含数千个 mRNA 转录本。这些未翻译的 mRNA 可能作为精子发生的“足迹”,因为它们中的许多可能直接或间接地参与受精、早期胚胎分裂、精液质量差和生育能力。在这项研究中,我们试图从成熟精子中分离高质量的 RNA,并使用实时定量 PCR 监测正常(良好,初始前向运动百分比:57.61±1.41,n=9)和运动能力受损(差,初始前向运动百分比:18.45±1.61,n=8)杂交 Frieswal(HF×Sahiwal)公牛精液中鱼精蛋白 1(PRM1)和鱼精蛋白 2(PRM2)基因的表达谱。精液样本进行不连续(45:90)Percoll 梯度离心,特别是消除受损的精子和污染的体细胞。从精子沉淀中提取总 RNA,并合成 cDNA。此外,通过针对特定分子标志物(如 KIT、CDH1 和 CD4)的 RT-PCR 测试所有 RNA 提取中生殖细胞、上皮细胞和白细胞的污染情况。使用适当的 PCR 引物在射出的精子中证明了 PRM1、PRM2、DAZL 和 PPIA 等转录物的存在,而无需 RNA 扩增。使用 TaqMan 化学法通过实时定量 PCR 评估 PRM1 和 PRM2 基因的表达,其中 PPIA 用作内参。从正常水牛睾丸组织合成的 cDNA 用作阳性对照。与低质量精液生产者相比,高质量精液生产者的 PRM1 mRNA 表达水平明显更高(P<0.05),表明该基因与精液质量参数,特别是初始前向运动能力之间存在潜在关系。然而,两组之间的 PRM2 转录物水平没有显著差异(P>0.05)。
