Abstract
In mice, transcription from the zygotic genome starts at the mid-one-cell stage after fertilization. Previous studies showed that an enhancer is not required for transcription at this stage, and that the enhancer-dependent mechanism of transcription is established during the two-cell stage. However, these results were obtained using reporter gene assays with promoters derived from viruses, rather than from endogenous genes. We conducted a reporter-gene assay using the promoter of Tktl1, which is transcribed after fertilization, to investigate the mechanism regulating gene expression at the one-cell stage. When a plasmid containing the 2467 bp upstream and 25 bp downstream of the Tktl1 transcription start site (TSS) was microinjected into the nuclei of growing oocytes, and one-cell stage and early and late two-cell-stage embryos, transcriptional activity was detected in the one-cell- and two-cell-stage embryos, but not in the oocytes. It was highest at the early two-cell stage and was reduced at the late two-cell stage. The decrease in activity at the late two-cell stage was prevented by inhibiting the second round of DNA replication, suggesting that the transcriptionally repressive state is established during the two-cell stage by a mechanism coupled to DNA replication. When the Tktl1 promoter was deleted to leave 56 bp upstream of the TSS which includes GC and TATA boxes, transcriptional activity was still detected in one-cell-stage embryos, but not early or late two-cell-stage embryos. The core promoter of Tktl1 alone seems to be able to induce basal transcription at the one-cell stage. These results suggest that repressive chromatin is established after fertilization in two steps, which occur during the transition from the one- to two-cell stage and during DNA replication at the two-cell stage.
Highlights
In mammals, oocytes actively transcribe the genes during their growth phase and cease transcription when they are fully grown
We investigated the regulation of gene expression in the 1-cell stage embryos by using reporter gene assay
We successfully detected the luciferase activity in the 1-cell stage embryos which had not been treated with any cell cycle inhibitor like an aphidicolin
Summary
Oocytes actively transcribe the genes during their growth phase and cease transcription when they are fully grown. Since it has been known that hyperacetylated state caused by butyrate made the chromatin in the loosen state [13], the transcriptionally permissive state would be derived from the loosened chromatin in the 1-cell stage embryos, whereas the tight chromatin would make the repressive state at the 2-cell stage These studies well documented the change in the regulation of gene expression during 1- and 2-cell stage embryos, there is some concern that the results of these studies precisely reflect the mechanism regulating the expression of endogenous genes: they used the promoters derived from virus, not the endogenous one [7,8,9,10,11]. It is not certain whether the gene expression in the embryos arrested at 1-cell stage is regulated in the same manner as that in the normal 1-cell stage
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