Genome editing in plants using the compact editor CasΦ

CRISPR-Cas systems have been developed as important tools for plant genome engineering. Here, we demonstrate that the hypercompact CasΦ nuclease is able to generate stably inherited gene edits in Arabidopsis, and that CasΦ guide RNAs can be expressed with either the Pol-III U6 promoter or a Pol-II promoter together with ribozyme mediated RNA processing. Using the Arabidopsis fwa epiallele we show that CasΦ displays higher editing efficiency when the target locus is not DNA methylated, suggesting that CasΦ is sensitive to chromatin environment. Importantly, two CasΦ protein variants, vCasΦ and nCasΦ, both showed much higher editing efficiency relative to the wildtype CasΦ enzyme, and yielded more offspring plants with inherited edits. Extensive genomic analysis of gene edited plants showed no off-target editing, suggesting that CasΦ is highly specific. The hypercompact size, flexible PAM and wide range of working temperatures make CasΦ an excellent addition to existing plant genome editing systems. This dataset includes amplicon sequencing data to evaluate the editing efficiencies of target loci by CasΦ, and whole genome sequencing to assess the off-target editing level by CasΦ in plants.