Abstract
R-loops are transcriptional by-products formed by a hybrid of the nascent RNA molecule with its DNA template and the displaced nontemplate DNA strand. The single stranded nature of the displaced nontemplate strand makes it vulnerable to attack. This property is used in nature to cause directed mutagenesis and breaks by the action of the activation-induced cytosine deaminase (AID) enzyme and can thus be exploited to detect the presence of R-loops even when they form at low frequencies by overexpressing this enzyme in vivo or by in vitro treatment with the bisulfite anion, which further allows nucleotide resolution. This is of particular relevance given the fact that R-loops have the potential to hamper DNA replication and repair, threatening genome integrity. Here, we describe the protocols used in the yeast Saccharomyces cerevisiae to infer the presence ofR-loops through increased AID-induced DNA damage, measured as increased recombination or Rad52 foci formation as well as to detect single R-loop molecules and determine their length at particular genomic sites via bisulfite treatment and amplification.
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