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Starting with undifferentiated human primary neural stem cells (NSCs) or pluripotent stem cell (PSC)–derived NSCs, expanded in a defined culture system such as Gibco StemPro NSC Serum-Free Medium (SFM) on Gibco Geltrex matrix, is ideal for efficient transfection.
Step | Tube | Complexation component | Amount per well (24-well plate) |
---|---|---|---|
1 | Tube 1 | Opti-MEM I medium | 25 μL |
Lipofectamine Stem reagent | 1 μL | ||
2 | Tube 2 | Opti-MEM I medium | 25 μL |
DNA (0.5–5 μg/μL) | 500 ng | ||
3 | Add tube 2 solution to tube 1, and mix well. | ||
4 | Incubate mixture from step 3 for 10 minutes at room temperature. | ||
5 | Add 50 μL of complex from step 4 to each well; gently swirl plate to ensure even distribution of the complex across the entire well. | ||
6 | Return culture dish to incubator and culture at 37°C with 5% CO2, overnight. | ||
7 | The following day, overlay an additional 0.5 mL of StemPro NSC SFM per well, if NSCs are going to be transfected for 48 hours. |
Observe NSCs transfected with a GFP reporter construct at 24 and 48 hours posttransfection by fluorescence microscopy or flow cytometry for endpoint analysis (Figure 1).
Figure 1. Posttransfection analysis of NSCs. (A) Fluorescence image demonstrating 59% transfection efficiency, and (B) bright-field image. NSCs are shown 24 hours after transfection with 500 ng of a 6 kb EF1α-GFP plasmid and 1 μL of Lipofectamine Stem reagent in StemPro NSC SFM on Geltrex matrix.
Step | Tube | Complexation component | Amount per well (24-well plate) |
---|---|---|---|
1 | Tube 1 | Opti-MEM I medium | 25 μL |
Lipofectamine Stem reagent | 1 μL | ||
2 | Tube 2 | Opti-MEM I medium | 25 μL |
mRNA (0.5–5 μg/μL) | 250 ng | ||
3 | Add tube 2 solution to tube 1, and mix well. | ||
4 | Incubate mixture from step 3 for 10 minutes at room temperature. | ||
5 | Add 50 μL of complex from step 4 to each well; gently swirl plate to ensure even distribution of the complex across the entire well. | ||
6 | Return culture dish to incubator and culture at 37°C with 5% CO2, overnight. | ||
7 | The following day, overlay an additional 0.5 mL of StemPro NSC SFM per well, if NSCs are going to be transfected for 48 hours. |
Observe PSCs transfected with a fluorescent mRNA at 24 and 48 hours posttransfection by fluorescence microscopy or flow cytometry for endpoint analysis (Figure 2).
Figure 2. Posttransfection analysis of NSCs. (A) Fluorescence image demonstrating 70% transfection efficiency, and (B) bright-field image. iPSC-derived NSCs (NCRM1) are shown 36 hours after transfection with 250 ng of GFP mRNA and 1 μL of Lipofectamine Stem reagent in StemPro NSC SFM on Geltrex matrix.
RNP complex components:
Step | Tube | Complexation component | Amount per well (24-well plate) |
---|---|---|---|
1 | Tube 1 | Opti-MEM I medium | 25 μL |
Lipofectamine Stem reagent | 1 μL | ||
2 | Tube 2 | Opti-MEM I medium | 25 μL |
Cas9 nuclease | 500 ng | ||
gRNA (0.1–0.5 μg/μL) | 125 ng | ||
3 | Add tube 2 solution to tube 1, and mix well. | ||
4 | Incubate mixture from step 3 for 10 minutes at room temperature. | ||
5 | Add 50 μL of complex from step 4 to each well; gently swirl plate to ensure even distribution of the complex across the entire well. | ||
6 | Return culture dish to incubator and culture at 37°C with 5% CO2, overnight. | ||
7 | The following day, overlay an additional 0.5 mL of StemPro NSC SFM per well, if NSCs are going to be transfected for 48 hours. |
Observe PSCs transfected with a GFP reporter construct at 24 and 48 hours posttransfection by fluorescence microscopy or flow cytometry, and analyze double-stranded break (DSB) formation using the Invitrogen GeneArt Genomic Cleavage Detection Kit or a similar assay (Figure 3).
Figure 3. Posttransfection analysis of NSCs. (A) Fluorescence image demonstrating 60% transfection efficiency, and (B) bright-field image. iPSC-derived NSCs (NCRM1) are shown 24 hours posttransfection with 500 ng of GeneArt Platinum Cas9 Nuclease, 125 ng of gRNA, 50 ng of GFP mRNA, and 1 μL of Lipofectamine Stem reagent in StemPro NSC SFM on Geltrex matrix. (C) Genomic cleavage detection analysis of iPSC-derived NSCs 48 hours posttransfection, demonstrating 56% indel formation within the EMX1 locus.
In addition to RNP transfection efficiency, the efficiency of DSB/indel formation at a given locus can depend on gRNA design. Use the Invitrogen GeneArt CRISPR Search and Design Tool, available at thermofisher.com/crisprdesign, to search our database of >600,000 predesigned gRNA sequences specific to every gene in the human genome. These predesigned gRNAs are optimized for gene knockout and typically target the first 3 transcribed exons per gene.
Clone and generate your own gRNA using the Invitrogen GeneArt Precision gRNA Synthesis Kit (Cat. No. A29377). gRNA concentration can be quantified on the Invitrogen Qubit 3 Fluorometer (Cat. No. Q33216) coupled with the Invitrogen Qubit RNA BR Assay Kit (Cat. No. Q10210).
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