Microhomologies are prevalent at Cas9-induced larger deletions | Zendy

Dominic D. G. Owens | Zendy; Adam Caulder | Zendy; Vincent Frontera | Zendy; Joe Harman | Zendy; Alasdair Allan | Zendy; Akin Bucakci | Zendy; Lucas Greder | Zendy; Gemma Codner | Zendy; Philip Hublitz | Zendy; Peter J. McHugh | Zendy; Lydia Teboul | Zendy; Marella de Bruijn | Zendy

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Microhomologies are prevalent at Cas9-induced larger deletions

Author(s) -

Dominic D. G. Owens,

Adam Caulder,

Vincent Frontera,

Joe Harman,

Alasdair Allan,

Akin Bucakci,

Lucas Greder,

Gemma Codner,

Philip Hublitz,

Peter J. McHugh,

Lydia Teboul,

Marella de Bruijn

Publication year - 2019

Publication title -

nucleic acids research

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 9.008

H-Index - 537

eISSN - 1362-4954

pISSN - 0305-1048

DOI - 10.1093/nar/gkz459

Subject(s) - biology , crispr , genetics , cas9 , breakpoint , nuclease , genome editing , genotyping , genome , computational biology , human genetics , gene , chromosome , genotype

The CRISPR system is widely used in genome editing for biomedical research. Here, using either dual paired Cas9D10A nickases or paired Cas9 nuclease we characterize unintended larger deletions at on-target sites that frequently evade common genotyping practices. We found that unintended larger deletions are prevalent at multiple distinct loci on different chromosomes, in cultured cells and mouse embryos alike. We observed a high frequency of microhomologies at larger deletion breakpoint junctions, suggesting the involvement of microhomology-mediated end joining in their generation. In populations of edited cells, the distribution of larger deletion sizes is dependent on proximity to sgRNAs and cannot be predicted by microhomology sequences alone.

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