Temporal regulation of head-on transcription at replication initiation sites

Abstract

Head-on (HO) collisions between the DNA replication machinery and RNA polymerase over R-loop forming sequences (RLFS) are genotoxic, leading to replication fork blockage and DNA breaks. Current models suggest that HO collisions are avoided through replication initiation site (RIS) positioning upstream of active genes, ensuring co-orientation of replication fork movement and genic transcription. However, this model does not account for pervasive transcription, or intragenic RIS. Moreover, pervasive transcription initiation and CG-rich DNA is a feature of RIS, suggesting that HO transcription units (HO TUs) capable of forming R-loops might occur. Through mining phased GRO-seq data, and developing an informatics strategy to stringently identify RIS, we demonstrate that HO TUs containing RLFS occur at RIS in MCF-7 cells, and are downregulated at the G1/S phase boundary. Our analysis reveals a novel spatiotemporal relationship between transcription and replication, and supports the idea that HO collisions are avoided through transcriptional regulatory mechanisms.