Efficient genome editing by CRISPR-Mb3Cas12a in mice | Zendy

Zhuqing Wang | Zendy; Yue Wang | Zendy; Shawn Wang | Zendy; Andrew Gorzalski | Zendy; Hayden McSwiggin | Zendy; Tian Yu | Zendy; Kimberly Castaneda-Garcia | Zendy; Brian C. Prince | Zendy; Hetan Wang | Zendy; Huili Zheng | Zendy; Wei Yan | Zendy

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Efficient genome editing by CRISPR-Mb3Cas12a in mice

Author(s) -

Zhuqing Wang,

Yue Wang,

Shawn Wang,

Andrew Gorzalski,

Hayden McSwiggin,

Tian Yu,

Kimberly Castaneda-Garcia,

Brian C. Prince,

Hetan Wang,

Huili Zheng,

Wei Yan

Publication year - 2020

Publication title -

journal of cell science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.384

H-Index - 278

eISSN - 1477-9137

pISSN - 0021-9533

DOI - 10.1242/jcs.240705

Subject(s) - biology , crispr , genome editing , genome , computational biology , genetics , evolutionary biology , gene

As an alternative and complementary approach to Cas9-based genome editing, Cas12a has not been widely used in mammalian cells largely due to its strict requirement for the TTTV protospacer adjacent motif (PAM) sequence. Here, we report that Mb3Cas12a (Moraxella bovoculi AAX11_00205) can efficiently edit the mouse genome based on the TTV PAM sequence with minimal numbers of large on-target deletions or insertions. When TTTV PAM sequence-targeting CRISPR (cr)RNAs of 23 nt spacers are used, >70% of the founders obtained are edited. Moreover, the use of Mb3Cas12a tagged to monomeric streptavidin (mSA) in conjunction with biotinylated DNA donor template leads to high knock-in efficiency in two-cell mouse embryos, with 40% of founders obtained containing the desired knock-in sequences.

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