RNA-Guided Human Genome Engineering via Cas9

Prashant Mali(Harvard University), Luhan Yang(Harvard University), Kevin M. Esvelt(Harvard University), John Aach(Harvard University), Marc Güell(Harvard University), James E. DiCarlo(Boston University), Julie E. Norville(Harvard University), George M. Church(Harvard University)
Science
January 4, 2013
10.1126/science.1232033
Cited by 9,355Open Access
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Abstract

Bacteria and archaea have evolved adaptive immune defenses, termed clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated (Cas) systems, that use short RNA to direct degradation of foreign nucleic acids. Here, we engineer the type II bacterial CRISPR system to function with custom guide RNA (gRNA) in human cells. For the endogenous AAVS1 locus, we obtained targeting rates of 10 to 25% in 293T cells, 13 to 8% in K562 cells, and 2 to 4% in induced pluripotent stem cells. We show that this process relies on CRISPR components; is sequence-specific; and, upon simultaneous introduction of multiple gRNAs, can effect multiplex editing of target loci. We also compute a genome-wide resource of ~190 K unique gRNAs targeting ~40.5% of human exons. Our results establish an RNA-guided editing tool for facile, robust, and multiplexable human genome engineering.

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