Genome-wide Stability of the DNA Replication Program in Single Mammalian Cells

Overview

Journal Nat Genet

Specialty Genetics

Date 2019 Feb 27

PMID 30804559

Citations 41

Authors

Saori Takahashi

Hisashi Miura

Takahiro Shibata

Koji Nagao

Katsuzumi Okumura

Masato Ogata

Chikashi Obuse

Shin-Ichiro Takebayashi

Ichiro Hiratani

Affiliations

Soon will be listed here.

Abstract

Here, we report a single-cell DNA replication sequencing method, scRepli-seq, a genome-wide methodology that measures copy number differences between replicated and unreplicated DNA. Using scRepli-seq, we demonstrate that replication-domain organization is conserved among individual mouse embryonic stem cells (mESCs). Differentiated mESCs exhibited distinct profiles, which were also conserved among cells. Haplotype-resolved scRepli-seq revealed similar replication profiles of homologous autosomes, while the inactive X chromosome was clearly replicated later than its active counterpart. However, a small degree of cell-to-cell replication-timing heterogeneity was present, which was smallest at the beginning and the end of S phase. In addition, developmentally regulated domains were found to deviate from others and showed a higher degree of heterogeneity, thus suggesting a link to developmental plasticity. Moreover, allelic expression imbalance was found to strongly associate with replication-timing asynchrony. Our results form a foundation for single-cell-level understanding of DNA replication regulation and provide insights into three-dimensional genome organization.

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References

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