Modularized CRISPR/dCas9 Effector Toolkit for Target-Specific Gene Regulation
- Michael Agne (1702855)
- Ilona Blank (1702831)
- Alica J. Emhardt (1702858)
- Christoph G. Gäbelein (1702822)
- Fenja Gawlas (1702852)
- Nadine Gillich (1702882)
- Patrick Gonschorek (794358)
- Thomas J. Juretschke (1702879)
- Stefan D. Krämer (1702840)
- Natalie Louis (1702867)
- Anne Müller (1702834)
- Alina Rudorf (1702825)
- Lisa M. Schäfer (1702837)
- Manuel C. Scheidmann (1702876)
- Lisa J. Schmunk (1702864)
- Philipp M. Schwenk (1702861)
- Maximilian R. Stammnitz (1702870)
- Philipp M. Warmer (1702849)
- Wilfried Weber (14478)
- Adrian Fischer (1702843)
- Beate Kaufmann (1702846)
- Hanna J. Wagner (1702873)
- Gerald Radziwill (1702828)
Publication date
December 2014
DOIAbstract
The ability to control mammalian genes in a synergistic mode using synthetic transcription factors is highly desirable in fields of tissue engineering, stem cell reprogramming and fundamental research. In this study, we developed a standardized toolkit utilizing an engineered CRISPR/Cas9 system that enables customizable gene regulation in mammalian cells. The RNA-guided dCas9 protein was implemented as a programmable transcriptional activator or repressor device, including targeting of endogenous loci. For facile assembly of single or multiple CRISPR RNAs, our toolkit comprises a modular RNAimer plasmid, which encodes the required noncoding RNA components
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