Genome-Wide Mapping of Yeast Retrotransposon Integration Target Sites

Transposable elements (TEs) are present in virtually all organisms. TE integration into genomes contributes to their structure and evolution, but can also be harmful in some cases. Deciphering where and how TE integration is targeted is fundamental to understand their intricate relationship with their host and explore the outcome of TE mobility on genome evolution and cell fitness. In general, TEs display integration site preference, which differs between elements. High-throughput mapping of de novo insertions by deep sequencing has recently allowed identifying genome-wide integration preferences of several TEs. These studies have provided invaluable clues to address the molecular determinants of integration site preference. Here, we provide a step-by-step methodology to generate massive de novo insertion events and prepare a library of genomic DNA for next-generation sequencing. We also describe a primary bioinformatic procedure to map these insertions in the genome. The whole procedure comes from our recent work on the integration of Ty1 in Saccharomyces cerevisiae, but could be easily adapted to the study of other TEs.