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Literature DB >> 33596418

Persistence of RNA transcription during DNA replication delays duplication of transcription start sites until G2/M.

Jianming Wang¹, Patricia Rojas¹, Jingwen Mao¹, Martina Mustè Sadurnì¹, Olivia Garnier¹, Songshu Xiao¹, Martin R Higgs², Paloma Garcia³, Marco Saponaro⁴.

Abstract

As transcription and replication use DNA as substrate, conflicts between transcription and replication can occur, leading to genome instability with direct consequences for human health. To determine how the two processes are coordinated throughout S phase, we characterize both processes together at high resolution. We find that transcription occurs during DNA replication, with transcription start sites (TSSs) not fully replicated along with surrounding regions and remaining under-replicated until late in the cell cycle. TSSs undergo completion of DNA replication specifically when cells enter mitosis, when RNA polymerase II is removed. Intriguingly, G2/M DNA synthesis occurs at high frequency in unperturbed cell culture, but it is not associated with increased DNA damage and is fundamentally separated from mitotic DNA synthesis. TSSs duplicated in G2/M are characterized by a series of specific features, including high levels of antisense transcription, making them difficult to duplicate during S phase.

Entities: Chemical

Keywords: DNA damage; DNA replication; G2/M DNA synthesis; RNA polymerase II transcription; Replication origins; transcription-associated genome instability

Mesh：

Substances：
RNA

Year: 2021 PMID： 33596418 PMCID： PMC7900609 DOI： 10.1016/j.celrep.2021.108759

Source DB: PubMed Journal: Cell Rep Impact factor: 9.423

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