Taylor D M, Ray P F, Ao A, Winston R M, Handyside A H
Institute of Obstetrics and Gynaecology, Royal Postgraduate Medical School, Hammersmith Hospital, London, United Kingdom.
Mol Reprod Dev. 1997 Dec;48(4):442-8. doi: 10.1002/(SICI)1098-2795(199712)48:4<442::AID-MRD4>3.0.CO;2-Q.
The transition between dependence on maternal transcripts and proteins inherited in the oocyte and embryonic gene expression in the human preimplantation embryo occurs at the four- to eight-cell stage. Recently, studies using reverse transcriptase polymerase chain reaction (RT-PCR) have detected paternal transcripts for the Y-linked genes, ZFY and SRY, and the myotonic dystrophy associated protein kinase gene, DK, as early as the late pronucleate one-cell stage. However, expression at the protein level has not been demonstrated and its function at these early stages is unknown. Using coding sequence polymorphisms to distinguish maternal and paternal transcripts, we have examined the transcription of two ubiquitously expressed genes: X-linked glucose-6-phosphate dehydrogenase (G6PD) and adenosine deaminase (ADA). Both G6PD and ADA are housekeeping genes with TATA-less promoters which, because of their roles in metabolism and ubiquitous expression, may provide a more reliable indication of the timing of activation of the embryonic genome. They also each have biallelic polymorphisms with a high heterozygosity ratio which can be detected by restriction digestion. Couples undergoing in vitro fertilization (IVF) were screened for these polymorphisms. Individual spare oocytes and embryos at different stages of preimplantation development were analyzed by RT-PCR and appropriate restriction digestion in those cases in which the male partner carried a different allele to the female partner. In addition, since only female embryos inherit the paternal allele of X-linked G6PD, cDNA was also analyzed for ZFX/ZFY transcripts to identify the sex of each embryo. One hundred and twenty three individual oocytes and embryos were analyzed by RT-PCR and restriction digestion to detect the paternal transcripts from the polymorphic alleles. Maternal transcripts for G6PD, ADA, and ZFX were detected in all oocytes and embryos and at all stages. Following restriction digestion, paternal G6PD and ZFY transcripts were first detected at the four-cell stage and paternal ADA transcripts in an embryo at the three-cell stage coinciding with the onset of dependency on transcription from the embryonic genome. This approach should be widely applicable to other genes since similar polymorphisms exist in the coding regions of many genes.
人类植入前胚胎中,从依赖卵母细胞中继承的母体转录本和蛋白质向胚胎基因表达的转变发生在4至8细胞阶段。最近,使用逆转录聚合酶链反应(RT-PCR)的研究早在原核晚期单细胞阶段就检测到了Y连锁基因ZFY和SRY以及强直性肌营养不良相关蛋白激酶基因DK的父本转录本。然而,尚未证明蛋白质水平的表达,其在这些早期阶段的功能也未知。利用编码序列多态性来区分母本和父本转录本,我们检测了两个普遍表达基因的转录情况:X连锁葡萄糖-6-磷酸脱氢酶(G6PD)和腺苷脱氨酶(ADA)。G6PD和ADA都是具有无TATA启动子的管家基因,由于它们在代谢中的作用和普遍表达,可能为胚胎基因组激活时间提供更可靠的指示。它们各自还具有高杂合度比例的双等位基因多态性,可通过限制性消化检测到。对接受体外受精(IVF)的夫妇进行这些多态性筛查。在男性伴侣与女性伴侣携带不同等位基因的情况下,通过RT-PCR和适当的限制性消化对植入前发育不同阶段的单个备用卵母细胞和胚胎进行分析。此外,由于只有雌性胚胎继承X连锁G6PD的父本等位基因,还对cDNA进行ZFX/ZFY转录本分析以确定每个胚胎的性别。通过RT-PCR和限制性消化分析了123个单个卵母细胞和胚胎,以检测多态性等位基因的父本转录本。在所有卵母细胞、胚胎及其所有阶段均检测到G6PD、ADA和ZFX的母本转录本。限制性消化后,在4细胞阶段首次检测到父本G6PD和ZFY转录本,在一个3细胞阶段的胚胎中检测到父本ADA转录本,这与对胚胎基因组转录的依赖性开始时间一致。由于许多基因的编码区存在类似的多态性,这种方法应该广泛适用于其他基因。
