Integrative Analysis Reveals Conserved R-Loop Features in Mouse Embryonic Stem Cells
Ohbeom Kwon, Hyeonwoo La, Seonho Yoo, Hyeonji Lee, Heeji Lee, Hoseong Lim, Chanhyeok Park, Dong Wook Han, Jeong-Tae Do, Hyuk Song, Youngsok Choi, Kwonho Hong

TL;DR
This study identifies conserved R-loop regions in mouse embryonic stem cells and shows they are linked to RNA metabolism and regulatory functions.
Contribution
The first integrated analysis of conserved R-loop regions in mouse embryonic stem cells using multiple experimental platforms.
Findings
Common R-loop regions are enriched in promoter-proximal and genic regions with CpG islands.
Genes with Common R-loops are highly expressed and involved in RNA metabolic processes.
Common R-loops are associated with specific transcription factor motifs like OCT4-SOX2 and CTCF.
Abstract
R-loops, three-stranded nucleic acid structures formed by an RNA-DNA hybrid, have emerged as important regulators of transcription and genome stability. Although advances in high-throughput sequencing have revealed widespread R-loop landscapes, platform-specific biases hinder the identification of conserved R-loops in specific cell types. Mouse embryonic stem cells, which are transcriptionally active, provide an ideal system for investigating the potential roles of stable R-loops in RNA biology. Here, we integrated 13 independent R-loop profiling datasets from four experimental platforms to define 27,950 Common R-loop regions in mouse embryonic stem cells and characterized their chromatin environment and associated biological functions. Common R-loop regions were reproducibly detected across methods and were preferentially localized to promoter-proximal and genic regions enriched in CpG…
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Taxonomy
TopicsDNA Repair Mechanisms · Genomics and Chromatin Dynamics · Bacterial Genetics and Biotechnology
