- Engineering megabase-sized genomic deletions with MACHETE (Molecular Alteration of Chromosomes with Engineered Tandem Elements).
Engineering megabase-sized genomic deletions with MACHETE (Molecular Alteration of Chromosomes with Engineered Tandem Elements).
The elimination of large genomic regions has been enabled by the advent of site-specific nucleases. However, as the intended deletions get larger, the efficiency of successful engineering decreases to a point where it is not feasible to retrieve edited cells due to the rarity of on-target events. To address this issue, we developed a system called molecular alteration of chromosomes with engineered tandem elements (MACHETE). MACHETE is a CRISPR-Cas9-based system involving two stages: the initial insertion of a bicistronic positive/negative selection cassette to the locus of interest. This is followed by the introduction of single-guide RNAs flanking the knockin cassette to engineer the intended deletion, where only cells that have lost the locus survive the negative selection. In contrast to other approaches optimizing the activity of sequence-specific nucleases, MACHETE selects for the deletion event itself, thus greatly enriching for cells with the engineered alteration. The procedure routinely takes 4-6 weeks from design to selection of polyclonal populations bearing the deletion of interest. We have successfully deployed MACHETE to engineer deletions of up to 45 Mb, as well as the rapid creation of allelic series to map the relevant activities within a locus. This protocol details the design and step-by-step procedure to engineer megabase-sized deletions in cells of interest, with potential application for cancer genetics, transcriptional regulation, genome architecture and beyond.