Abstract
The targeting scope of Streptococcus pyogenes Cas9 (SpCas9) and its engineered variants is largely restricted to protospacer-adjacent motif (PAM) sequences containing Gs. Here, we report the evolution of three new SpCas9 variants that collectively recognize NRNH PAMs (where R = A or G and H = A, C, or T) using phage-assisted non-continuous evolution (PANCE), three new phage-assisted continuous evolution (PACE) strategies for DNA binding, and a secondary selection for DNA cleavage. The targeting capabilities of these evolved variants and SpCas9-NG were characterized in HEK293T cells using a library of 11,776 genomically integrated protospacer-sgRNA pairs containing all possible NNNN PAMs. The evolved variants mediate indel formation and base editing in human cells and enable the A•T-to-G•C base editing of a sickle-cell anemia mutation using a previously inaccessible CACC PAM. These new evolved SpCas9s, together with previously reported variants, in principle enable targeting the majority of NR PAM sequences and substantially reduce the fraction of genomic sites that are inaccessible by Cas9-based methods.
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