Literature DB >> 32315033

Enabling large-scale genome editing at repetitive elements by reducing DNA nicking.

Cory J Smith1,2, Oscar Castanon1,2,3, Khaled Said1,2, Verena Volf1,2,4, Parastoo Khoshakhlagh1,2, Amanda Hornick1,2, Raphael Ferreira5, Chun-Ting Wu1,2, Marc Güell6, Shilpa Garg1, Alex H M Ng1,2, Hannu Myllykallio3, George M Church1,2.   

Abstract

To extend the frontier of genome editing and enable editing of repetitive elements of mammalian genomes, we made use of a set of dead-Cas9 base editor (dBE) variants that allow editing at tens of thousands of loci per cell by overcoming the cell death associated with DNA double-strand breaks and single-strand breaks. We used a set of gRNAs targeting repetitive elements-ranging in target copy number from about 32 to 161 000 per cell. dBEs enabled survival after large-scale base editing, allowing targeted mutations at up to ∼13 200 and ∼12 200 loci in 293T and human induced pluripotent stem cells (hiPSCs), respectively, three orders of magnitude greater than previously recorded. These dBEs can overcome current on-target mutation and toxicity barriers that prevent cell survival after large-scale genome engineering.
© The Author(s) 2020. Published by Oxford University Press on behalf of Nucleic Acids Research.

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Year:  2020        PMID: 32315033      PMCID: PMC7229841          DOI: 10.1093/nar/gkaa239

Source DB:  PubMed          Journal:  Nucleic Acids Res        ISSN: 0305-1048            Impact factor:   16.971


  53 in total

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3.  Predictable and precise template-free CRISPR editing of pathogenic variants.

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5.  Fast gapped-read alignment with Bowtie 2.

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8.  Transcriptome-wide off-target RNA editing induced by CRISPR-guided DNA base editors.

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Review 3.  Engineering three-dimensional genome folding.

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7.  Sequential Activation of Guide RNAs to Enable Successive CRISPR-Cas9 Activities.

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8.  Global chromosome rearrangement induced by CRISPR-Cas9 reshapes the genome and transcriptome of human cells.

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