R-loop homeostasis in genome dynamics, gene expression and development
Copyright policy )R-loop homeostasis in genome dynamics, gene expression and development
R-loops are double-edge swords with functional roles that in many cases constitute a threat to genome integrity and gene expression with relevant consequences in cell physiology and development. A number of factors have evolved to control R-loop homeostasis by acting at the levels of R-loop prevention, resolution, or the repair of the R-loop-induced DNA lesion. Deciphering the role of R-loops generated under different stresses and the plethora of processes controlling their homeostasis has become crucial to evaluate their impact in cell physiology and the biological significance of their association with development and disease. Here, we review publications of the last 2 years that help understand their biological role.
Genome, DNA Repair, Gene Expression Regulation, Humans, Homeostasis, Animals, R-Loop Structures, Genomic Instability, DNA Damage
Genome, DNA Repair, Gene Expression Regulation, Humans, Homeostasis, Animals, R-Loop Structures, Genomic Instability, DNA Damage
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