牛卵母细胞和胚胎总RNA基因表达研究的优化提取及冷冻保护剂对总RNA提取的影响。

TSitologiia i genetika Pub Date : 2015-07-01

K C Pavani, E E Baron, M Faheem, A Chaveiro, F Moreira Da Silva

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引用次数: 0

摘要

基因表达是理解牛卵母细胞减数分裂成熟以及胚胎发育潜力所必需的。在本研究中，为牛卵母细胞和胚胎设计了一种标准化的总RNA提取试剂方案，这被认为是特异性的和较便宜的。为此，我们将80个卵巢中回收的卵母细胞(n = 795)分为三组:第一组改良Trizol (MTP, n = 355);第二组硫氰酸胍方案(GNTC, n = 140)和第三组商业试剂盒方案(CKP, n = 60)。1组(n = 100)和3组(n = 20)卵母细胞分别用1,2丙二醇(PROH)或二甲基亚砜(DMSO)两种冷冻保护剂进行玻璃化冷冻。将剩余的240个卵母细胞分为3组，其中100个卵母细胞新鲜体外受精，140个卵母细胞用PROH (n = 70)和DMSO (n = 70)作为冷冻保护剂玻璃化，解冻后体外受精。受精后9天使用胚胎。在卵母细胞中进行基因扩增(SDHA、GAPDH和DNMT1)，在囊胚期体外产生的胚胎中进行基因量化(DNMT1) (n = 10)。进一步比较了提取效率。所有样品在GNTC方案下的纯度范围为1.10 ~ 1.25;CKP从2.05到2.63，开发的MTP从1.50到2.11，是最接近RNA样品预期纯度水平的最后一个(1.7到2.0)。对于30个新鲜卵母细胞，从分光光度计读数来看，MTP方案的总RNA浓度平均为127.8±9.3 ng μl(-1)，而CKP方案为46.4±9.5 ng μl(-1)， GNTC方案为476±12.9 ng μl(-1)。用MTP评价30个玻璃化/解冻卵母细胞的RNA, DMSO和PROH的总RNA浓度分别为61.3±3.3 ng μl(-1)和40.0 μ 12.4 ng μl(-1)。在总RNA浓度和纯度方面，囊胚期DMSO比PROH纯度更高(1.8 vs 1.2) (p < 0.05)。与其他方案相比，MTP的基因扩增效果也更好。在基因定量方面，本文提出的方案对GAPDH和SDHA归一化后的DNMT1基因进行定量，PCR效率为0.933。基因的扩增和定量证明了MTP比其他方案的特异性和效率。

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OPTIMISATION OF TOTAL RNA EXTRACTION FROM BOVINE OOCYTES AND EMBRYOS FOR GENE EXPRESSION STUDIES AND EFFECTS OF CRYOPROTECTANTS ON TOTAL RNA EXTRACTION.

Gene expression is required for understanding bovine oocytes meiotic maturation as well as the potential of embryonic development. In the present study a standardized reagent protocol for total RNA extraction was designed for bovine oocytes and embryos, which is considered specific and less expensive. For such purpose oocytes (n = 795) recovered from about 80 ovaries were divided in three groups: Group 1 modified Trizol (MTP, n = 355); Group 2 Guanidinium thiocyanate protocol (GNTC, n = 140) and Group 3 Commercial Kit protocol (CKP, n = 60). Oocytes belonging to group 1 (n = 100) and 3 (n = 20) were subjected to vitrification using two cryoprotectants 1,2 propandiol (PROH) or Dimethylsulfoxide (DMSO). The 240 remaining oocytes were divided into 3 groups in which 100 were used, in fresh, for in vitro fertilization, and 140 oocytes were vitrified using PROH (n = 70) and DMSO (n = 70) as cryoprotectants, being then fertilized in vitro after thawing. Embryos were used nine days after fertilization. Gene amplification (SDHA, (GAPDH and DNMT1) was performed in oocytes, and gene quantification (DNMT1) in in vitro produced embryos at the stage of blastocyst (n = 10). Efficiency of the extraction was further compared. The purity of all samples to different protocols ranged from 1.10 to 1.25 for GNTC protocol; from 2.05 to 2.63 for the CKP and from 1.50 to 2.11 for the developed MTP, being the last one nearest to the expected purity levels for RNA samples (1.7 to 2.0). On average, for 30 fresh oocytes, from spectrophotometer readings, total RNA concentration was 127.8 ± 9.3 ng μl(-1) for MTP, against 46.4 ± 9.5 ng μl(-1) from CKP and 476 ± 12.9 ng μl(-1) for GNTC protocol. Using the MTP to evaluate RNA in 30 vitrified/thawed oocytes, resulted in a total RNA concentration of 61.3 ± 3.3 ng μl(-1) and 40.0 μ 12.4 ng μ(-1), respectively for DMSO and PROH. Regarding total RNA concentration and purity, in blastocyst stage, more purity was observed in DMSO as compared to PROH (1.8 vs 1.2) (p < 0.05). Better results were also observed on the MTP for gene amplification when compared with the other protocols. For gene quantification, the proposed protocol quantified DNMT1 gene with PCR efficiency (0.933) after normalization against GAPDH and SDHA. Amplification and quantification of genes proved specificity and efficiency of the MTP over the other protocols.

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TSitologiia i genetika

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