Replication timing maintains the global epigenetic state in human cells

Authors :: David M. Gilbert
Shin-ichiro Hiraga
Toyoaki Natsume
Danny Leung
Ipek Tasan
Xuemeng Zhou
Anne D. Donaldson
Meng Zhang
Daniel A. Bartlett
Xiaowen Lyu
Takayo Sasaki
Timour Baslan
Amar M. Singh
Victor G. Corces
Masato T. Kanemaki
Lotte P. Watts
Kyle N. Klein
Stephen Dalton
Huimin Zhao
Peiyao A. Zhao
Source :: Science
Publication Year :: 2021
Publisher :: American Association for the Advancement of Science (AAAS), 2021.
Abstract: Replication timing organizes epigenome The temporal order of DNA replication is conserved from yeast to humans, but its biological significance remains unclear. Klein et al. eliminated the protein RIF1, a master regulator of replication timing, in several human cell lines. RIF1 loss during the G1 phase of the cell cycle resulted in a heterogeneous, nearly random replication timing program from the first S phase that persisted even in stable RIF1-null clones. Altered replication timing was followed by replication-dependent redistribution of active and repressive histone modifications and alterations in genome architecture. These results support a model in which replication timing orchestrates the epigenetic state of newly replicated chromatin. Science , this issue p. 371