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Optimized base editors enable efficient editing in cells, organoids and mice.

Nature biotechnology (2018-07-04)
Maria Paz Zafra, Emma M Schatoff, Alyna Katti, Miguel Foronda, Marco Breinig, Anabel Y Schweitzer, Amber Simon, Teng Han, Sukanya Goswami, Emma Montgomery, Jordana Thibado, Edward R Kastenhuber, Francisco J Sánchez-Rivera, Junwei Shi, Christopher R Vakoc, Scott W Lowe, Darjus F Tschaharganeh, Lukas E Dow
ANOTACE

CRISPR base editing enables the creation of targeted single-base conversions without generating double-stranded breaks. However, the efficiency of current base editors is very low in many cell types. We reengineered the sequences of BE3, BE4Gam, and xBE3 by codon optimization and incorporation of additional nuclear-localization sequences. Our collection of optimized constitutive and inducible base-editing vector systems dramatically improves the efficiency by which single-nucleotide variants can be created. The reengineered base editors enable target modification in a wide range of mouse and human cell lines, and intestinal organoids. We also show that the optimized base editors mediate efficient in vivo somatic editing in the liver in adult mice.

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Sigma-Aldrich
Anti-APC Antibody, clone FE9, clone FE9, from mouse
Sigma-Aldrich
Poly(ethylene glycol), BioXtra, average mol wt 3,350, powder