| Literature DB >> 28709003 |
Yuwen Ke1, Yanan Xu2, Xuepeng Chen1, Songjie Feng3, Zhenbo Liu4, Yaoyu Sun1, Xuelong Yao1, Fangzhen Li4, Wei Zhu1, Lei Gao4, Haojie Chen5, Zhenhai Du6, Wei Xie6, Xiaocui Xu1, Xingxu Huang7, Jiang Liu8.
Abstract
High-order chromatin structure plays important roles in gene expression regulation. Knowledge of the dynamics of 3D chromatin structures during mammalian embryo development remains limited. We report the 3D chromatin architecture of mouse gametes and early embryos using an optimized Hi-C method with low-cell samples. We find that mature oocytes at the metaphase II stage do not have topologically associated domains (TADs). In sperm, extra-long-range interactions (>4 Mb) and interchromosomal interactions occur frequently. The high-order structures of both the paternal and maternal genomes in zygotes and two-cell embryos are obscure but are gradually re-established through development. The establishment of the TAD structure requires DNA replication but not zygotic genome activation. Furthermore, unmethylated CpGs are enriched in A compartment, and methylation levels are decreased to a greater extent in A compartment than in B compartment in embryos. In summary, the global reprogramming of chromatin architecture occurs during early mammalian development.Entities:
Keywords: Hi-C; TAD; chromatin structure; compartment; embryo development; epigenetic; gamete; zygotic genome activation
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Year: 2017 PMID: 28709003 DOI: 10.1016/j.cell.2017.06.029
Source DB: PubMed Journal: Cell ISSN: 0092-8674 Impact factor: 41.582