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A Cas9 with PAM recognition for adenine dinucleotides

Noah Jakimo

May 18, 2020

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Robust Genome Editing with Broad Targeting CRISPR Enzymes

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Abstract

CRISPR-associated (Cas) DNA-endonucleases are remarkably effective tools for genome engineering, but have limited target ranges due to their protospacer adjacent motif (PAM) requirements. We demonstrate a critical expansion of the targetable sequence space for a type II-A CRISPR-associated enzyme through identification of the natural 5'-NAAN-3' PAM preference of Streptococcus macacae Cas9 (SmacCas9). To achieve efficient editing activity, we graft the PAM-interacting domain of SmacCas9 to its well-established ortholog from Streptococcus pyogenes (SpyCas9), and further engineer an increased efficiency variant (iSpyMac) for robust genome editing activity. We establish that our hybrids can target all adenine dinucleotide PAM sequences and possess robust and accurate editing capabilities in human cells.

via Nature Communications

A Cas9 with PAM recognition for adenine dinucleotides

People

Projects

Groups

Abstract

Nature-inspired CRISPR enzymes for expansive genome editing

Minimal PAM specificity of a highly similar SpCas9 ortholog

An engineered ScCas9 with broad PAM range and high specificity and activity

New CRISPR tool opens up more of the genome for editing

A Cas9 with PAM recognition for adenine dinucleotides

People

Projects

Groups

Share this publication

Abstract

Nature-inspired CRISPR enzymes for expansive genome editing

Minimal PAM specificity of a highly similar SpCas9 ortholog

An engineered ScCas9 with broad PAM range and high specificity and activity

New CRISPR tool opens up more of the genome for editing