An integrated enzymatic and computational pipeline for quantifying off-target base-editing

DNA base editing is increasingly used for human genetic modification, but methods for monitoring off-target editing are nascent. Here we present a simple model-independent workflow for identifying sites of off-target base-editing in relevant cell types on a genome-wide level. We report that sites of off-target editing by the ABE8e editor could be identified using an ABE8e derivative with restored DSB cleavage activity. This allows marking of enzyme-generated double-stranded (ds) DNA breaks by incorporation of dsDNA oligonucleotides that are transfected into primary target cells. DNA sequencing at sites of oligonucleotide incorporation reported both the genomic location of off-target cleavage and the extent of base-editing nearby. We present a platform combining this cellular (BEiGUIDE-Seq) and computational workflow (CRISPRito) to generate optimized amplicon panels for convenient monitoring of off-target base editing. This work introduces a generalizable strategy to evaluate off-target edits in patient-derived cells, addressing a critical safety gap for clinical base editing.