Literature DB >> 32393889

Increasing the efficiency and targeting range of cytidine base editors through fusion of a single-stranded DNA-binding protein domain.

Xiaohui Zhang1, Liang Chen1, Biyun Zhu1, Liren Wang1, Caiyu Chen1, Mengjia Hong1, Yifan Huang1, Huiying Li1, Honghui Han2, Bailian Cai3, Weishi Yu1,4, Shuming Yin1, Lei Yang1, Zuozhen Yang4, Meizhen Liu1, Ying Zhang1, Zhiyong Mao3, Yuxuan Wu1, Mingyao Liu1, Dali Li5.   

Abstract

Cytidine base editors are powerful genetic tools that catalyse cytidine to thymidine conversion at specific genomic loci, and further improvement of the editing range and efficiency is critical for their broader applications. Through insertion of a non-sequence-specific single-stranded DNA-binding domain from Rad51 protein between Cas9 nickase and the deaminases, serial hyper cytidine base editors were generated with substantially increased activity and an expanded editing window towards the protospacer adjacent motif in both cell lines and mouse embryos. Additionally, hyeA3A-BE4max selectively catalysed cytidine conversion in TC motifs with a broader editing range and much higher activity (up to 257-fold) compared with eA3A-BE4max. Moreover, hyeA3A-BE4max specifically generated a C-to-T conversion without inducing bystander mutations in the haemoglobin gamma gene promoter to mimic a naturally occurring genetic variant for amelioration of β-haemoglobinopathy, suggesting the therapeutic potential of the improved base editors.

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Year:  2020        PMID: 32393889     DOI: 10.1038/s41556-020-0518-8

Source DB:  PubMed          Journal:  Nat Cell Biol        ISSN: 1465-7392            Impact factor:   28.824


  46 in total

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5.  Base editing with a Cpf1-cytidine deaminase fusion.

Authors:  Xiaosa Li; Ying Wang; Yajing Liu; Bei Yang; Xiao Wang; Jia Wei; Zongyang Lu; Yuxi Zhang; Jing Wu; Xingxu Huang; Li Yang; Jia Chen
Journal:  Nat Biotechnol       Date:  2018-03-19       Impact factor: 54.908

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9.  An APOBEC3A-Cas9 base editor with minimized bystander and off-target activities.

Authors:  Jason M Gehrke; Oliver Cervantes; M Kendell Clement; Yuxuan Wu; Jing Zeng; Daniel E Bauer; Luca Pinello; J Keith Joung
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2.  Engineering a precise adenine base editor with minimal bystander editing.

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3.  Peptide fusion improves prime editing efficiency.

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4.  Reconstructed glycosylase base editors GBE2.0 with enhanced C-to-G base editing efficiency and purity.

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6.  Precision genome editing using cytosine and adenine base editors in mammalian cells.

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Review 7.  CRISPR-based genome editing through the lens of DNA repair.

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8.  Imperfect guide-RNA (igRNA) enables CRISPR single-base editing with ABE and CBE.

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Review 9.  Next-Generation CRISPR Technologies and Their Applications in Gene and Cell Therapy.

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Review 10.  Precision Breeding Made Real with CRISPR: Illustration through Genetic Resistance to Pathogens.

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