| Literature DB >> 31837995 |
Zhenhai Du1, Hui Zheng1, Yumiko K Kawamura2, Ke Zhang1, Johanna Gassler3, Sean Powell3, Qianhua Xu1, Zili Lin1, Kai Xu1, Qian Zhou4, Evgeniy A Ozonov2, Nathalie Véron2, Bo Huang1, Lijia Li1, Guang Yu1, Ling Liu1, Wan Kin Au Yeung5, Peizhe Wang6, Lei Chang7, Qiujun Wang1, Aibin He8, Yujie Sun7, Jie Na6, Qingyuan Sun4, Hiroyuki Sasaki5, Kikuë Tachibana9, Antoine H F M Peters10, Wei Xie11.
Abstract
In mammals, chromatin organization undergoes drastic reorganization during oocyte development. However, the dynamics of three-dimensional chromatin structure in this process is poorly characterized. Using low-input Hi-C (genome-wide chromatin conformation capture), we found that a unique chromatin organization gradually appears during mouse oocyte growth. Oocytes at late stages show self-interacting, cohesin-independent compartmental domains marked by H3K27me3, therefore termed Polycomb-associating domains (PADs). PADs and inter-PAD (iPAD) regions form compartment-like structures with strong inter-domain interactions among nearby PADs. PADs disassemble upon meiotic resumption from diplotene arrest but briefly reappear on the maternal genome after fertilization. Upon maternal depletion of Eed, PADs are largely intact in oocytes, but their reestablishment after fertilization is compromised. By contrast, depletion of Polycomb repressive complex 1 (PRC1) proteins attenuates PADs in oocytes, which is associated with substantial gene de-repression in PADs. These data reveal a critical role of Polycomb in regulating chromatin architecture during mammalian oocyte growth and early development.Entities:
Keywords: Chromatin architecture; Embryos; Hi-C; Oocytes; Polycomb; Polycomb-associating domains (PADs)
Year: 2019 PMID: 31837995 DOI: 10.1016/j.molcel.2019.11.011
Source DB: PubMed Journal: Mol Cell ISSN: 1097-2765 Impact factor: 17.970