Abstract
R-loop are physiologically present on genomic DNA of different organisms and play important roles in genome regulation. However, an increase in their abundance and/or size has been suggested to interfere with the DNA replication process, contributing to genome instability. Most available approaches to monitor R-loops are based on antibodies/enzymes that cannot effectively distinguish R-loops from DNA-RNA hybrids and assess R-loop size and frequency in a population of molecules. Electron microscopy has successfully allowed single-molecule visualization of DNA replication and repair intermediates, uncovering key architectural modifications in DNA, induced by genotoxic stress or by the associated cellular response. Here, we describe recent modifications of this visualization workflow to implement partial automation of image acquisition and analysis. Coupling this refined workflow with sample preparation procedures that protect R-loop stability allows for direct visualization of R-loop structures on genomic DNA, independently from probes. Combining single-molecule information and DNA content assessment, this approach provides direct estimations of R-loop frequency, size, and burden on genomic DNA.
Published Version
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