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Analysis of Genome Architecture during SCNT Reveals a Role of Cohesin in Impeding Minor ZGA.

Molecular cell (2020-06-25)
Ke Zhang, Dan-Ya Wu, Hui Zheng, Yao Wang, Qiao-Ran Sun, Xin Liu, Li-Yan Wang, Wen-Jing Xiong, Qiujun Wang, James D P Rhodes, Kai Xu, Lijia Li, Zili Lin, Guang Yu, Weikun Xia, Bo Huang, Zhenhai Du, Yao Yao, Kim A Nasmyth, Robert J Klose, Yi-Liang Miao, Wei Xie
RÉSUMÉ

Somatic cell nuclear transfer (SCNT) can reprogram a somatic nucleus to a totipotent state. However, the re-organization of 3D chromatin structure in this process remains poorly understood. Using low-input Hi-C, we revealed that, during SCNT, the transferred nucleus first enters a mitotic-like state (premature chromatin condensation). Unlike fertilized embryos, SCNT embryos show stronger topologically associating domains (TADs) at the 1-cell stage. TADs become weaker at the 2-cell stage, followed by gradual consolidation. Compartments A/B are markedly weak in 1-cell SCNT embryos and become increasingly strengthened afterward. By the 8-cell stage, somatic chromatin architecture is largely reset to embryonic patterns. Unexpectedly, we found cohesin represses minor zygotic genome activation (ZGA) genes (2-cell-specific genes) in pluripotent and differentiated cells, and pre-depleting cohesin in donor cells facilitates minor ZGA and SCNT. These data reveal multi-step reprogramming of 3D chromatin architecture during SCNT and support dual roles of cohesin in TAD formation and minor ZGA repression.

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