Abstract
CRISPR-associated base editors have been established as genome editing tools that enable base conversions in targeted DNA sequences, without generating double-strand breaks. Here, we describe the development of new base editors based on CRISPR-Cas12f1, a miniature Cas protein of only 422 amino acids. Chimeric constructs have been generated by fusing a catalytically inactive dCas12f1, to either a cytosine deaminase or an adenine deaminase. Using these synthetic fusion proteins, systematic analyses have been performed on base editing of a target sequence on a plasmid in Escherichia coli. Interestingly, apart from the previously described base editing of the displaced non-target DNA strand, we also observed efficient editing of the target DNA strand. This effect was not observed for Un1Cas12f1 BEs. In addition to the small size of AsCas12f1 base editors, its unique editing profile makes it a valuable addition to the CRISPR-Cas toolbox.