SygRNA® Cas9 RNP Sigma-Aldrich 代谢组学

继ZFN（Zinc Finger Nucleases）技术后，Merck在2013年推出新一代基因组编辑工具--CRISPR/Cas9，让研究人员以更快、更经济的方式实现基因组特定位点的编辑。凭借过去10年在基因组编辑领域的丰富经验积累以及专业的生物信息学平台，Merck已经成功设计出覆盖人类，小鼠和大鼠三个物种的所有基因的CRISPR/Cas9载体，并可以提供在线定制服务，以及完整的CRISPR实验workflow解决方案。此外，默克与Sanger Institute合作开发了人、小鼠全基因组CRISPR 文库，以帮助科学家实现基因功能的快速筛选、规模化的模型建立以及药物作用筛选等。

• GX：优化的载体设计，限度提高转染效率，简化筛选工作
• 特异：特殊的gRNA设计和双切口酶系统，限度提高特异性
• 全面：产品齐全，可提供质粒、RNA、慢病毒载体、RNP等形式，涵盖人、大鼠、小鼠、植物等多个物种，更有Sanger Arrayed和Broad Pools全基因组文库以及重要通路的亚文库
• 掌控：强大的慢病毒全基因组文库可轻松进行高通量筛选，全面掌控人或小鼠的基因组

CRISPR/Cas9 基因编辑工具

• Sanger Arrayed Lentiviral CRISPR   Libraries • Lentiviral CRISPR Pools Libraries • CRISPR/Cas9单载体表达系统 • CRISPR Cas9-D10A双切口酶系统 • SygRNA® Cas9 RNP系统 • CRISPR/Cas9基因激活表达载体 • CRISPR/Cas9在植物中的应用 • Cas9蛋白 • CRISPR对照 (DNA and Virus)

The CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) system was discovered in bacteria, where it functions much like an immune system against invading viruses and plasmid DNA. Short DNA sequences (spacers) from invading viruses are incorporated at CRISPR loci within the bacterial genome and serve as “memory” of previous infections. Reinfection triggers complementary mature CRISPR RNA (crRNA) to find a matching viral sequence. Together, the crRNA and  trans-activating crRNA (tracrRNA) guide CRISPR-associated (Cas) nuclease to cleave double-strand breaks in “foreign” DNA sequences.

The type II prokaryotic CRISPR “immune system” has been engineered to function as an RNA-guided, mammalian genome editing tool that is simple, easy and quick to implement. SygRNA^® (synthetic crRNA and tracrRNA) when combined with Cas9 protein, form ribonucleoprotein (RNP) complexes that target a specific genomic locus.

Direct introduction of Cas9 RNP strengthens and expands the applications of CRISPR genome modification technology by eliminating the possibility of plasmid DNA integration into the host genome. In initial reports, Cas9:sgRNA RNP resulted in efficient genome modification with higher specificity when compared to cells transfected with Cas9 plasmid (Juris et al. 2015, Kim et al., 2014, Lin et al. 2015, Liang et al. 2015). Furthermore, Cas9 RNP technology holds great promise for therapeutic applications including the recent successful generation of knock-in primary human T cells (Schumann et al. 2015).

Figure 1. Three-component Type II CRISPR/Cas9:

• Cas9 Protein
• crRNA
• tracrRNA
   

General Considerations

We recommend using your preferred method to introduce nucleic acids into your cells of interest. Sigma-Aldrich provides a variety of transfection reagents, cell culture media and plates, and custom DNA primers for detection of CRISPR-mediated genome editing. For your reference, we have suggested protocols below.

Recommendations

• Assemble SygRNA^®:Cas9 Protein complexes (RNP) on ice, immediately before use.
• In all instances, combine equal molar amounts of crRNA:tracrRNA.
• For transfection of RNP using a transfection reagent, prepare RNP using a ratio between 1:1:1 to 5:5:1 crRNA:tracrRNA:Cas9 protein.
• For nucleofection of RNP, prepare RNP using a ratio between 1:1:1 to 5:5:2 crRNA:tracrRNA:Cas9 protein.

In general, the steps required for successful introduction of Cas9 RNP into cultured and primary cells are:

1. Prepare SygRNA^® crRNA and tracrRNA reagents
2. Prepare cells
3. Assemble Cas9 RNP
4. Transfect cells with RNP
5. Harvest and assay cells

Preparation and storage of SygRNA^® and Cas9 Protein

SygRNA^® Resuspension – Resuspend dried SygRNA^® crRNAs and tracrRNAs to a concentration of 20 µM (20 picomoles per µl) each in 10 mM Tris-containing buffer* of pH between 7 and 8.
 

*For example, combine 1 ml of 1 M Trizma Hydrochloride Solution (Product No. T2663) with 99 ml nuclease-free water (Product No. W4502) (1:100 dilution) to make a 10 mM solution.

SygRNA^® Storage – Store SygRNA^® stock solutions at -20 °C in a non frost-free freezer and avoid multiple freeze-thaw cycles. Store at -70 °C long term.

Cas9 Protein Resuspension

1. Resuspend the lyophilized Cas9 protein with the supplied 50% glycerol solution according to the table below to achieve a concentration of 5 mg/ml (30 pmol/µl).
2. If a lower concentration of Cas9 protein is required, dilute the Cas9 protein with supplied Dilution buffer immediately before use. Store diluted protein on ice, up to 6 hours.

Cas9 protein storage – Aliquot Cas9 protein solution and store at -20 °C in a non frost-free freezer for up to one month.  Store at -70 °C long term.

Preparation of Cells

Approximately 18-24 hours before use, plate cells in complete growth medium. For most cell types, cultures should be 50-80% confluent at the time of transfection.

Preparation of SygRNA^® RNP and transfection with TransIT-CRISPR^®

6-well plate protocol:
Prepare TransIT-CRISPR:SygRNA^® RNP immediately before transfection

• Warm TransIT-CRISPR Transfection Reagent to room temperature and vortex gently.
• Pipet 1.5 to 15 µl each of 20 µM SygRNA^® crRNA and tracrRNA stock solutions to sterile tube on ice.
• Add 1 to 2 µl of Cas9 protein (30 to 60 pmol) to tube containing synthetic crRNA and tracrRNA. Gently pipet up-and-down to mix.  Incubate on ice 30 minutes for complex formation.
• Add 250 µl of serum-free or reduced serum medium to Cas9 RNP.
• Add 5 - 6.25 µl of TransIT-CRISPR reagent to Cas9 RNP. (Optimized in U2OS cells) The ratio of Cas9 RNP to TransIT-CRISPR reagent may need to be optimized for each cell type.
• Pipet up-and-down gently to mix.
• Incubate at room temperature for 15 – 30 minutes to allow transfection complex formation.

Distribute transfection complexes to cells in complete growth medium

• For each sample, distribute TransIT-CRISPR^®:SygRNA^® RNP drop-wise throughout well.
• Gently rock culture vessel back-and-forth and from side-to-side to distribute TransIT-CRISPR:SygRNA^® RNP complexes.
  Incubate cells 24-72 hours before harvest for assay. It is not necessary to replace the medium.

Additional information can be found at the TransIT-CRISPR technical information page.
*TransIT is a registered trademark of Mirus Bio LLC.

Preparation and Nucleofection of SygRNA^® RNP

12-well plate protocol:
Prepare Nucleofector^® Solution and Cells

• Prepare Nucleofector Kit reagents according to manufacturer’s instructions.
• Using a 12-well plate as an example: obtain enough cells for approximately 250k cells per well in a 12-well plate (final volume per well will be 1 ml).
• Concentrate the cells by centrifugation and remove the medium by aspiration.
• Resuspend cells in Nucleofector Solution, with supplement added, at a volume that will allow the distribution of 100 µl of solution per well.
• Place 0.5 ml of Complete Medium to each well of a 12-well plate.

Prepare SygRNA^® RNP

• Dilute SygRNA^® crRNA and tracrRNA to a 10 µM working solution using a 10 mM Tris-containing buffer* of pH between 7 and 8.
• Pipet 0.6 to 7.5 µl (6 pmol to 75 pmol) of each RNA to sterile tube on ice.
• Dilute Cas9 protein to 1 mg/ml using the supplied Dilution buffer and store on ice.
• Pipet 1 to 5 µl (6 pmol to 30 pmol) of Cas9 protein to the synthetic crRNA and synthetic tracrRNA, mix gently, and incubate at room temperature for 5 minutes. The final volume of SygRNA^® crRNA and tracrRNAplus Cas9 protein should be less than 20 µl.

Nucleofect SygRNA^® RNP

• Pipet 100 µl of resuspended cells in Nucleofector solution to the tube containing RNA and Cas9 protein and pipet gently to mix completely.
• Transfer cell/RNP complex suspension to a certified cuvette.
• Select the appropriate Nucleofector Program and process cells according to manufacturer’s directions.

Distribute nucleofected cells to each well

• Immediately add 400 µl of complete medium to the cuvette and gently transfer the sample into the appropriate well of the prepared 12-well plate. Use the pipettes supplied with the kit and avoid repeated aspiration of the sample.
• Allow cells to grow for 24-72 hours before harvesting for assay. It is not necessary to replace the medium.

Figure 2. Outline of delivering Cas9 RNPs

Figure 3. Modification of the AAVS1 locus by SygRNA^® crRNA and tracrRNARNPs
K562 cells were nucleofected with RNPs composed of synthetic tracrRNA and AAVS1-targeting synthetic crRNA (combined at 1:1 molar ratio) plus 1 µg or 5 µg of Cas9 protein. Cel-1 mutation detection of indels at the AAVS1 locus was performed 48 hours post-transfection.