CRISPR-SKIP: programmable gene splicing with single base editors

CRISPR-SKIP: programmable gene splicing with single base editors

CRISPR gene editing has revolutionized biomedicine and biotechnology by providing a simple means to engineer genes through targeted double-strand breaks in the genomic DNA of living cells. However, given the stochasticity of cellular DNA repair mechanisms and the potential for off-target mutations,...

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Veröffentlicht in:Genome Biology 2018-08, Vol.19 (1), p.107-107, Article 107
Hauptverfasser: Gapinske, Michael, Luu, Alan, Winter, Jackson, Woods, Wendy S, Kostan, Kurt A, Shiva, Nikhil, Song, Jun S, Perez-Pinera, Pablo
Format: Artikel
Sprache:eng
Schlagworte:
Alternative splicing
Base editing
Base Pairing - genetics
Base Sequence
Biotechnology
Cell Line
Cloning
Clustered Regularly Interspaced Short Palindromic Repeats - genetics
Consensus Sequence - genetics
CRISPR
CRISPR-Cas9
Cytidine deaminase
Deoxyribonucleic acid
DNA
DNA repair
Efficiency
Exon skipping
Exons - genetics
Gene Editing
Gene expression
Gene therapy
Genome
Genomes
High-Throughput Nucleotide Sequencing
Humans
Method
Methods
Muscular dystrophy
Mutation
Penicillin
Physiological aspects
Plasmids
Proteins
RNA Splice Sites - genetics
RNA splicing
Splicing
Stochasticity
Synthetic biology
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Zusammenfassung:CRISPR gene editing has revolutionized biomedicine and biotechnology by providing a simple means to engineer genes through targeted double-strand breaks in the genomic DNA of living cells. However, given the stochasticity of cellular DNA repair mechanisms and the potential for off-target mutations, technologies capable of introducing targeted changes with increased precision, such as single-base editors, are preferred. We present a versatile method termed CRISPR-SKIP that utilizes cytidine deaminase single-base editors to program exon skipping by mutating target DNA bases within splice acceptor sites. Given its simplicity and precision, CRISPR-SKIP will be broadly applicable in gene therapy and synthetic biology.
ISSN:1474-760X
1474-7596
1474-760X
DOI:10.1186/s13059-018-1482-5