Abstract
Most genetic engineering applications reported thus far rely on the type II-A CRISPR-Cas9 nuclease from Streptococcus pyogenes (SpyCas9), limiting the genome-targeting scope. In this study, we demonstrate that a small, naturally accurate, and thermostable type II-C Cas9 ortholog from Geobacillus thermodenitrificans (ThermoCas9) with alternative target site preference is active in human cells, and it can be used as an efficient genome editing tool, especially for gene disruption. In addition, we develop a ThermoCas9-mediated base editor, called ThermoBE4, for programmable nicking and subsequent C-to-T conversions in human genomes. ThermoBE4 exhibits a three times larger window of activity compared with the corresponding SpyCas9 base editor (BE4), which may be an advantage for gene mutagenesis applications. Hence, ThermoCas9 provides an alternative platform that expands the targeting scope of both genome and base editing in human cells.
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