Rationally Designed Base Editors for Precise Editing of the Sickle Cell Disease Mutation
出版年份 2021 全文链接
标题
Rationally Designed Base Editors for Precise Editing of the Sickle Cell Disease Mutation
作者
关键词
-
出版物
CRISPR Journal
Volume 4, Issue 2, Pages 169-177
出版商
Mary Ann Liebert Inc
发表日期
2021-04-20
DOI
10.1089/crispr.2020.0144
参考文献
相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。- Evaluation and minimization of Cas9-independent off-target DNA editing by cytosine base editors
- (2020) Jordan L. Doman et al. NATURE BIOTECHNOLOGY
- Continuous evolution of SpCas9 variants compatible with non-G PAMs
- (2020) Shannon M. Miller et al. NATURE BIOTECHNOLOGY
- Gene conversion following CRISPR/Cas9 DNA cleavage: an overlooked effect
- (2020) Gaetan Burgio GENE THERAPY
- Directed evolution of adenine base editors with increased activity and therapeutic application
- (2020) Nicole M. Gaudelli et al. NATURE BIOTECHNOLOGY
- Phage-assisted evolution of an adenine base editor with improved Cas domain compatibility and activity
- (2020) Michelle F. Richter et al. NATURE BIOTECHNOLOGY
- Cytosine base editors with minimized unguided DNA and RNA off-target events and high on-target activity
- (2020) Yi Yu et al. Nature Communications
- DNA capture by a CRISPR-Cas9–guided adenine base editor
- (2020) Audrone Lapinaite et al. SCIENCE
- Engineering domain-inlaid SaCas9 adenine base editors with reduced RNA off-targets and increased on-target DNA editing
- (2020) Minh Thuan Nguyen Tran et al. Nature Communications
- A Cas-embedding strategy for minimizing off-target effects of DNA base editors
- (2020) Yajing Liu et al. Nature Communications
- Engineering of high-precision base editors for site-specific single nucleotide replacement
- (2019) Junjie Tan et al. Nature Communications
- Cytosine base editor generates substantial off-target single-nucleotide variants in mouse embryos
- (2019) Erwei Zuo et al. SCIENCE
- Cytosine, but not adenine, base editors induce genome-wide off-target mutations in rice
- (2019) Shuai Jin et al. SCIENCE
- Transcriptome-wide off-target RNA editing induced by CRISPR-guided DNA base editors
- (2019) Julian Grünewald et al. NATURE
- Circularly permuted and PAM-modified Cas9 variants broaden the targeting scope of base editors
- (2019) Tony P. Huang et al. NATURE BIOTECHNOLOGY
- Analysis and minimization of cellular RNA editing by DNA adenine base editors
- (2019) Holly A. Rees et al. Science Advances
- An APOBEC3A-Cas9 base editor with minimized bystander and off-target activities
- (2018) Jason M Gehrke et al. NATURE BIOTECHNOLOGY
- Programmable base editing of A•T to G•C in genomic DNA without DNA cleavage
- (2017) Nicole M. Gaudelli et al. NATURE
- Increasing the genome-targeting scope and precision of base editing with engineered Cas9-cytidine deaminase fusions
- (2017) Y Bill Kim et al. NATURE BIOTECHNOLOGY
- Sickle Cell Disease
- (2017) Frédéric B. Piel et al. NEW ENGLAND JOURNAL OF MEDICINE
- Programmable editing of a target base in genomic DNA without double-stranded DNA cleavage
- (2016) Alexis C. Komor et al. NATURE
- Structures of a CRISPR-Cas9 R-loop complex primed for DNA cleavage
- (2016) F. Jiang et al. SCIENCE
- Engineered CRISPR-Cas9 nucleases with altered PAM specificities
- (2015) Benjamin P. Kleinstiver et al. NATURE
- Conformational control of DNA target cleavage by CRISPR–Cas9
- (2015) Samuel H. Sternberg et al. NATURE
- Crystal Structure of Cas9 in Complex with Guide RNA and Target DNA
- (2014) Hiroshi Nishimasu et al. CELL
- Structural basis of PAM-dependent target DNA recognition by the Cas9 endonuclease
- (2014) Carolin Anders et al. NATURE
- Steric and hydrophobic determinants of the solubilities of recombinant sickle cell hemoglobins
- (2010) M.T. Bihoreau et al. PROTEIN SCIENCE
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