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CAS9 transcriptional activators for target specificity screening and paired nickases for cooperative genome engineering

2013; Nature Portfolio; Volume: 31; Issue: 9 Linguagem: Inglês

10.1038/nbt.2675

1546-1696

Prashant Mali, John Aach, P. Benjamin Stranges, Kevin M. Esvelt, Mark Moosburner, Sriram Kosuri, Luhan Yang, George M. Church,

RNA Interference and Gene Delivery

A screen in human cells defines the targeting specificities of sgRNA:Cas9 and TAL-based transcriptional activators. Prokaryotic type II CRISPR-Cas systems can be adapted to enable targeted genome modifications across a range of eukaryotes1,2,3,4,5,6,7. Here we engineer this system to enable RNA-guided genome regulation in human cells by tethering transcriptional activation domains either directly to a nuclease-null Cas9 protein or to an aptamer-modified single guide RNA (sgRNA). Using this functionality we developed a transcriptional activation–based assay to determine the landscape of off-target binding of sgRNA:Cas9 complexes and compared it with the off-target activity of transcription activator–like (TALs) effectors8,9. Our results reveal that specificity profiles are sgRNA dependent, and that sgRNA:Cas9 complexes and 18-mer TAL effectors can potentially tolerate 1–3 and 1–2 target mismatches, respectively. By engineering a requirement for cooperativity through offset nicking for genome editing or through multiple synergistic sgRNAs for robust transcriptional activation, we suggest methods to mitigate off-target phenomena. Our results expand the versatility of the sgRNA:Cas9 tool and highlight the critical need to engineer improved specificity.