CRISPR-FRT targets shared sites in a knock-out collection for off-the-shelf genome editing

Toon Swings; David C. Marciano; Benu Atri; Rachel E. Bosserman; Chen Wang; Marlies Leysen; Camille Bonte; Thomas Schalck; Ian Furey; Bram Van Den Bergh; Natalie Verstraeten; Peter J. Christie; Christophe Herman; Olivier Lichtarge; Jan Michiels

Journal ArticleOPEN ACCESS

CRISPR-FRT targets shared sites in a knock-out collection for off-the-shelf genome editing

Nature Communications (2018) 9(1)

DOI: 10.1038/s41467-018-04651-5

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Abstract

CRISPR advances genome engineering by directing endonuclease sequence specificity with a guide RNA molecule (gRNA). For precisely targeting a gene for modification, each genetic construct requires a unique gRNA. By generating a gRNA against the flippase recognition target (FRT) site, a common genetic element shared by multiple genetic collections, CRISPR-FRT circumvents this design constraint to provide a broad platform for fast, scarless, off-the-shelf genome engineering.

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Swings, T., Marciano, D. C., Atri, B., Bosserman, R. E., Wang, C., Leysen, M., … Michiels, J. (2018). CRISPR-FRT targets shared sites in a knock-out collection for off-the-shelf genome editing. Nature Communications, 9(1). https://doi.org/10.1038/s41467-018-04651-5

CRISPR-FRT targets shared sites in a knock-out collection for off-the-shelf genome editing

Abstract

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