| Literature DB >> 31474564 |
Soichiro Yamanaka1, Hidenori Nishihara2, Hidehiro Toh3, Luis Augusto Eijy Nagai4, Kosuke Hashimoto5, Sung-Joon Park4, Aoi Shibuya1, Ana Maria Suzuki5, Yujiro Tanaka1, Kenta Nakai4, Piero Carninci5, Hiroyuki Sasaki3, Haruhiko Siomi6.
Abstract
Facultative heterochromatin forms and reorganizes in response to external stimuli. However, how the initial establishment of such a chromatin state is regulated in cell-cycle-arrested cells remains unexplored. Mouse gonocytes are arrested male germ cells, at which stage the genome-wide DNA methylome forms. Here, we discovered transiently accessible heterochromatin domains of several megabases in size in gonocytes and named them differentially accessible domains (DADs). Open DADs formed in gene desert and gene cluster regions, primarily at transposons, with the reprogramming of histone marks, suggesting DADs as facultative heterochromatin. De novo DNA methylation took place with two waves in gonocytes: the first region specific and the second genome-wide. DADs were resistant to the first wave and their opening preceded the second wave. In addition, the higher-order chromosome architecture was reorganized with less defined chromosome compartments in gonocytes. These findings suggest that multiple layers of chromatin reprogramming facilitate de novo DNA methylation.Entities:
Keywords: ATAC-seq; de novo DNA methylation; gene cluster; gene desert; gonocyte; transposon
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Year: 2019 PMID: 31474564 DOI: 10.1016/j.devcel.2019.07.023
Source DB: PubMed Journal: Dev Cell ISSN: 1534-5807 Impact factor: 12.270