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Genomic patterns of transcription–replication interactions in mouse primary B cells

Commodore P. St Germain, Hongchang Zhao, Vrishti Sinha, Lionel A. Sanz, Frédéric Chédin, Jacqueline H. Barlow

2022Nucleic Acids Research29 citationsDOIOpen Access PDF

Abstract

Conflicts between transcription and replication machinery are a potent source of replication stress and genome instability; however, no technique currently exists to identify endogenous genomic locations prone to transcription-replication interactions. Here, we report a novel method to identify genomic loci prone to transcription-replication interactions termed transcription-replication immunoprecipitation on nascent DNA sequencing, TRIPn-Seq. TRIPn-Seq employs the sequential immunoprecipitation of RNA polymerase 2 phosphorylated at serine 5 (RNAP2s5) followed by enrichment of nascent DNA previously labeled with bromodeoxyuridine. Using TRIPn-Seq, we mapped 1009 unique transcription-replication interactions (TRIs) in mouse primary B cells characterized by a bimodal pattern of RNAP2s5, bidirectional transcription, an enrichment of RNA:DNA hybrids, and a high probability of forming G-quadruplexes. TRIs are highly enriched at transcription start sites and map to early replicating regions. TRIs exhibit enhanced Replication Protein A association and TRI-associated genes exhibit higher replication fork termination than control transcription start sites, two marks of replication stress. TRIs colocalize with double-strand DNA breaks, are enriched for deletions, and accumulate mutations in tumors. We propose that replication stress at TRIs induces mutations potentially contributing to age-related disease, as well as tumor formation and development.

Topics & Concepts

BiologyTranscription (linguistics)DNA replicationControl of chromosome duplicationOrigin recognition complexLicensing factorOrigin of replicationReplication factor CPre-replication complexEukaryotic DNA replicationDNA replication factor CDT1GeneticsRNA polymerase IIMolecular biologyGenePromoterGene expressionPhilosophyLinguisticsGenomics and Chromatin DynamicsRNA modifications and cancerDNA Repair Mechanisms