Dataset Information

One-step generation of conditional and reversible gene knockouts.

ABSTRACT: Loss-of-function studies are key for investigating gene function, and CRISPR technology has made genome editing widely accessible in model organisms and cells. However, conditional gene inactivation in diploid cells is still difficult to achieve. Here, we present CRISPR-FLIP, a strategy that provides an efficient, rapid and scalable method for biallelic conditional gene knockouts in diploid or aneuploid cells, such as pluripotent stem cells, 3D organoids and cell lines, by co-delivery of CRISPR-Cas9 and a universal conditional intronic cassette.

SUBMITTER: Andersson-Rolf A

PROVIDER: S-EPMC5777571 | biostudies-literature | 2017 Mar

REPOSITORIES: biostudies-literature

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Publications

One-step generation of conditional and reversible gene knockouts.

Andersson-Rolf Amanda A Mustata Roxana C RC Merenda Alessandra A Kim Jihoon J Perera Sajith S Grego Tiago T Andrews Katie K Tremble Katie K Silva José C R JC Fink Juergen J Skarnes William C WC Koo Bon-Kyoung BK

Nature methods 20170130 3

Loss-of-function studies are key for investigating gene function, and CRISPR technology has made genome editing widely accessible in model organisms and cells. However, conditional gene inactivation in diploid cells is still difficult to achieve. Here, we present CRISPR-FLIP, a strategy that provides an efficient, rapid and scalable method for biallelic conditional gene knockouts in diploid or aneuploid cells, such as pluripotent stem cells, 3D organoids and cell lines, by co-delivery of CRISPR- ...[more]

PMID: 28135257

Dataset Information

One-step generation of conditional and reversible gene knockouts.

Publications

One-step generation of conditional and reversible gene knockouts.

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