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Embryonic genome instability upon DNA replication timing program emergence

Saori Takahashi, Hirohisa Kyogoku, Takuya Hayakawa, Hisashi Miura, Asami Oji, Yoshiko Kondo, Shin‐ichiro Takebayashi, Tomoya S. Kitajima, Ichiro Hiratani

2024Nature38 citationsDOIOpen Access PDF

Abstract

Faithful DNA replication is essential for genome integrity1–4. Under-replicated DNA leads to defects in chromosome segregation, which are common during embryogenesis5–8. However, the regulation of DNA replication remains poorly understood in early mammalian embryos. Here we constructed a single-cell genome-wide DNA replication atlas of pre-implantation mouse embryos and identified an abrupt replication program switch accompanied by a transient period of genomic instability. In 1- and 2-cell embryos, we observed the complete absence of a replication timing program, and the entire genome replicated gradually and uniformly using extremely slow-moving replication forks. In 4-cell embryos, a somatic-cell-like replication timing program commenced abruptly. However, the fork speed was still slow, S phase was extended, and markers of replication stress, DNA damage and repair increased. This was followed by an increase in break-type chromosome segregation errors specifically during the 4-to-8-cell division with breakpoints enriched in late-replicating regions. These errors were rescued by nucleoside supplementation, which accelerated fork speed and reduced the replication stress. By the 8-cell stage, forks gained speed, S phase was no longer extended and chromosome aberrations decreased. Thus, a transient period of genomic instability exists during normal mouse development, preceded by an S phase lacking coordination between replisome-level regulation and megabase-scale replication timing regulation, implicating a link between their coordination and genome stability. A single-cell genome-wide DNA replication atlas of pre-implantation mouse embryos reveals an abrupt replication program switch accompanied by a transient period of genomic instability.

Topics & Concepts

Replication (statistics)Genome instabilityDNA replicationEmbryonic stem cellGenomeBiologyGeneticsDNACell biologyGeneDNA damageVirologyDNA Repair MechanismsGenomics and Chromatin DynamicsPrenatal Screening and Diagnostics