Simple Summary R-loops, also referred to as RNA: DNA hybrids, are tripartite structures formed when a single-stranded RNA molecule forms a complex with a double-stranded DNA duplex via homology-directed base… Click to show full abstract
Simple Summary R-loops, also referred to as RNA: DNA hybrids, are tripartite structures formed when a single-stranded RNA molecule forms a complex with a double-stranded DNA duplex via homology-directed base pairing. Many cellular functions are thought to be mediated by R-loops, including gene regulation, DNA replication, chromatin patterning, and DNA repair. R-loops are common and dynamic structures that account for up to 5% of mammalian genomes. In this review, we present an updated review of R-loops at a specific locus, telomeres. We summarize recent advances in the protein factors that regulate the formation and resolution of R-loops at telomeres. We also discuss the role of persistent or unscheduled R-loops in promoting genome and telomere instability and their links to human diseases. Abstract Telomeric repeat containing RNA (TERRA) is transcribed from subtelomeric regions to telomeres. TERRA RNA can invade telomeric dsDNA and form telomeric R-loop structures. A growing body of evidence suggests that TERRA-mediated R-loops are critical players in telomere length homeostasis. Here, we will review current knowledge on the regulation of R-loop levels at telomeres. In particular, we will discuss how the central player TERRA and its binding proteins modulate R-loop levels through various mechanisms. We will further provide an overview of the consequences of TERRA-mediated persistent or unscheduled R-loops at telomeres in human ALT cancers and other organisms, with a focus on telomere length regulation after replication interference-induced damage and DNA homologous recombination-mediated repair.
               
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