Results: 4

1.
Fig. 3

Fig. 3. From: Multiplex Genome Engineering Using CRISPR/Cas Systems.

Evaluation of the SpCas9 specificity and comparison of efficiency with TALENs. (A) EMX1-targeting chimeric crRNAs with single point mutations were generated to evaluate the effects of spacer-protospacer mismatches. (B) SURVEYOR assay comparing the cleavage efficiency of different mutant chimeric RNAs. (C) Schematic showing the design of TALENs that target EMX1. (D) SURVEYOR gel comparing the efficiency of TALEN and SpCas9 (N = 3).

Le Cong, et al. Science. 2013 February 15;339(6121):819-823.
2.
Fig. 2

Fig. 2. From: Multiplex Genome Engineering Using CRISPR/Cas Systems.

SpCas9 can be reprogrammed to target multiple genomic loci in mammalian cells. (A) Schematic of the human EMX1 locus showing the location of five protospacers indicated by blue lines with corresponding PAM in magenta. (B) Schematic of the pre-crRNA:tracrRNA complex (top) showing hybridization between the direct repeat (gray) region of the pre-crRNA and tracrRNA. Schematic of a chimeric RNA design (12) (bottom). tracrRNA sequence is shown in red and the 20-bp spacer sequence in blue. (C) SURVEYOR assay comparing the efficacy of Cas9-mediated cleavage at five protospacers in the human EMX1 locus. Each protospacer was targeted by using either processed pre-crRNA:tracrRNA complex (crRNA) or chimeric RNA (chiRNA). Arrowheads indicate cleavage products for each protospacer target.

Le Cong, et al. Science. 2013 February 15;339(6121):819-823.
3.
Fig. 4

Fig. 4. From: Multiplex Genome Engineering Using CRISPR/Cas Systems.

Applications of Cas9 for homologous recombination and multiplex genome engineering. (A) Mutation of the RuvC I domain converts Cas9 into a nicking enzyme (SpCas9n). HNH, histidine-asparagine-histidine endonuclease domain. (B) Coexpression of EMX1-targeting chimeric RNA with SpCas9 leads to indels, whereas SpCas9n does not (N = 3). (C) Schematic representation of the recombination strategy. A homology repair (HR) template is designed to insert restriction sites into EMX1 locus. Primers used to amplify the modified region are shown as red arrows. (D) Restriction fragment length polymorphism gel analysis. Arrows indicate fragments generated by HindIII digestion. (E) Example chromatogram showing successful recombination. (F) SpCas9 can facilitate multiplex genome modification by using a crRNA array that contains two spacers targeting EMX1 and PVALB. Schematic showing the design of the crRNA array (top). Both spacers mediate efficient protospacer cleavage (bottom). (G) SpCas9 can be used to achieve precise genomic deletion. Two spacers targeting EMX1 (top) mediated a 118-bp genomic deletion (bottom).

Le Cong, et al. Science. 2013 February 15;339(6121):819-823.
4.
Fig. 1

Fig. 1. From: Multiplex Genome Engineering Using CRISPR/Cas Systems.

The type II CRISPR locus from S. pyogenes SF370 can be reconstituted in mammalian cells to facilitate targeted DSBs of DNA. (A) Engineering of SpCas9 and SpRNase III with NLSs enables import into the mammalian nucleus. GFP indicates green fluorescent protein; scale bars, 10 μm. (B) Mammalian expression of human codon–optimized SpCas9 (hSpCas9) and SpRNase III (hSpRNase III) genes were driven by the elongation factor 1α (EF1 α) promoter, whereas tracrRNA and pre-crRNA array (DR-Spacer-DR) were driven by the U6 promoter. A protospacer (blue highlight) from the human EMX1 locus with PAM was used as template for the spacer in the pre-crRNA array. (C) Schematic representation of base pairing between target locus and EMX1-targeting crRNA. Red arrow indicates putative cleavage site. (D) SURVEYOR assay for SpCas9-mediated indels. (E) An example chromatogram showing a microdeletion, as well as representative sequences of mutated alleles identified from 187 clonal amplicons. Red dashes, deleted bases; red bases, insertions or mutations.

Le Cong, et al. Science. 2013 February 15;339(6121):819-823.

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