Litcius/Paper detail

Rationally Designed Base Editors for Precise Editing of the Sickle Cell Disease Mutation

S. Haihua Chu, Michael S. Packer, Holly A. Rees, Dieter K. Lam, Yi Yu, Jeffrey Marshall, Lo-I Cheng, Daisy Lam, Jenny Olins, Fei Ann Ran, Alexander Liquori, Bob Gantzer, Jeremy Decker, David A. Born, Luis Barrera, Adam J. Hartigan, Nicole M. Gaudelli, Giuseppe Ciaramella, Ian M. Slaymaker

2021The CRISPR Journal85 citationsDOI

Abstract

Base editors are fusions of a deaminase and CRISPR-Cas ribonucleoprotein that allow programmable installment of transition mutations without double-strand DNA break intermediates. The breadth of potential base editing targets is frequently limited by the requirement of a suitably positioned Cas9 protospacer adjacent motif. To address this, we used structures of Cas9 and TadA to design a set of inlaid base editors (IBEs), in which deaminase domains are internal to Cas9. Several of these IBEs exhibit shifted editing windows and greater editing efficiency, enabling editing of targets outside the canonical editing window with reduced DNA and RNA off-target editing frequency. Finally, we show that IBEs enable conversion of the pathogenic sickle cell hemoglobin allele to the naturally occurring HbG-Makassar variant in patient-derived hematopoietic stem cells.

Topics & Concepts

CRISPRGenome editingCas9RNA editingBiologyDNAComputational biologyGeneticsRNAGeneCRISPR and Genetic EngineeringRNA regulation and diseaseMosquito-borne diseases and control