Knock-in and precise nucleotide substitution using near-PAMless engineered Cas9 variants in Dictyostelium discoideum

Yuu Asano,Kensuke Yamashita,Aoi Hasegawa,Tetsuya Muramoto,Hoshie Iriki,Takanori Ogasawara

doi:10.1038/s41598-021-89546-0

Yuu Asano, Kensuke Yamashita + Show 4 more

Open Access

https://doi.org/10.1038/s41598-021-89546-0

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Journal: Scientific Reports	Publication Date: May 27, 2021
Citations: 13	License type: open-access

Affiliation: Toho University

Abstract

The powerful genome editing tool Streptococcus pyogenes Cas9 (SpCas9) requires the trinucleotide NGG as a protospacer adjacent motif (PAM). The PAM requirement is limitation for precise genome editing such as single amino-acid substitutions and knock-ins at specific genomic loci since it occurs in narrow editing window. Recently, SpCas9 variants (i.e., xCas9 3.7, SpCas9-NG, and SpRY) were developed that recognise the NG dinucleotide or almost any other PAM sequences in human cell lines. In this study, we evaluated these variants in Dictyostelium discoideum. In the context of targeted mutagenesis at an NG PAM site, we found that SpCas9-NG and SpRY were more efficient than xCas9 3.7. In the context of NA, NT, NG, and NC PAM sites, the editing efficiency of SpRY was approximately 60% at NR (R = A and G) but less than 22% at NY (Y = T and C). We successfully used SpRY to generate knock-ins at specific gene loci using donor DNA flanked by 60 bp homology arms. In addition, we achieved point mutations with efficiencies as high as 97.7%. This work provides tools that will significantly expand the gene loci that can be targeted for knock-out, knock-in, and precise point mutation in D. discoideum.

Highlights

The powerful genome editing tool Streptococcus pyogenes Cas[9] (SpCas9) requires the trinucleotide NGG as a protospacer adjacent motif (PAM)
The PAM requirement significantly decreases the number of targetable sites, especially in the AT-rich D. discoideum genome
Homologydirected repair (HDR) mediated gene knock-in and precise nucleotide substitution, which are genome editing applications that require high-resolution targeting, are even more strongly affected by the PAM requirement because these types of editing must generally occur in a narrow window around the target sequence

Summary

Introduction

The powerful genome editing tool Streptococcus pyogenes Cas[9] (SpCas9) requires the trinucleotide NGG as a protospacer adjacent motif (PAM). Homologydirected repair (HDR) mediated gene knock-in and precise nucleotide substitution, which are genome editing applications that require high-resolution targeting, are even more strongly affected by the PAM requirement because these types of editing must generally occur in a narrow window around the target sequence. To overcome these limitations on targeting range, several Cas[9] variants with distinct PAM sequences have been developed, including SpCas9-VQR, SpCas9-VRER, and SpCas9-EQR16. A demonstration that SpCas[9] variants such as xCas9 3.7, SpCas9-NG, and SpRY could be used in D. discoideum would expand the potential for gene knockouts, gene knock-ins, and precise base substitutions in regions that do not contain canonical NGG PAMs

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