Alt-R CRISPR-Cas9 System
Simple delivery of ribonucleoprotein complexes (crRNA:tracrRNA:Cas9 or sgRNA:Cas9).
CRISPR-Cas9 genome editing methods use a Cas9 endonuclease to generate double-stranded breaks in DNA. Cas9 endonuclease requires a CRISPR RNA (crRNA) to specify the DNA target sequence, and the crRNA must be combined with the transactivating crRNA (tracrRNA)
to activate the endonuclease and create a functional editing ribonucleoprotein complex (Figure 1A). In an alternative approach, the crRNA and tracrRNA can be delivered as a single RNA oligonucleotide (Figure 1B). After cleavage, DNA is then repaired
by non-homologous end-joining (NHEJ) or homology-directed recombination (HDR), resulting in a modified sequence. Alt-R CRISPR-Cas9 reagents and kits provide essential, optimized tools needed to use this pathway for genome editing research.
|Alt-R CRISPR-Cas9 System|
Option 1: Alt-R CRISPR-Cas9 crRNA:tracrRNA
Alt-R CRISPR-Cas9 crRNA
- Must be used with tracrRNA
- Target-specific RNA oligo, custom synthesized based on your sequence
- Contains chemical modifications to protect from degradation by cellular RNases
- crRNA XT contains additional modifications for improved stability and performance when using 2-part gRNAs under challenging conditions (e.g., high nuclease environments or with Cas9 mRNA)
Alt-R CRISPR-Cas9 tracrRNA
- For use with crRNA or crRNA XT
- Universal RNA oligo (unlabeled or fluorescently labeled) that forms an RNA duplex with crRNA and subsequently complexes with Cas9 nuclease
- Contains additional chemical modifications to protect from degradation by cellular RNases
|Option 2: Alt-R CRISPR-Cas9 sgRNA|
- Alternative to using crRNA:tracrRNA
- A single, long, fusion RNA oligonucleotide containing both crRNA and tracrRNA regions
- Contains additional chemical modifications for improved stability and performance when using gRNAs under challenging conditions (e.g., high nuclease environments or with Cas9 mRNA)
|Alt-R S.p. Cas9 Nuclease/Nickase|
- Proteins that binds the crRNA:tracrRNA duplex, creating an experiment-ready, active ribonucleoprotein (RNP) complex
- Available as Cas9 wild-type, HiFi, or nickase variants (D10A and H840A)
- Contain nuclear localization signals (NLSs) for optimal performance
|Additional reagents and kits|
|Alt-R CRISPR-Cas9 Control Kits |
- Human, rat, or mouse
- Contains positive control crRNA, negative control crRNA, tracrRNA, PCR primers for analysis of samples transfected with the positive control crRNA
|Alt-R CRISPR-Cas9 Electroporation Enhancer||For primary and difficult-to-transfect cells|
|Alt-R Genome Editing Detection Kit||For mutation detection and estimating editing efficiency|
The Alt-R CRISPR-Cas9 System offers two options for generating synthetic guide RNAs. The two-part system pairs an optimized, shortened universal tracrRNA oligonucleotide (67 nt) with an optimized, shortened, target-specific crRNA oligonucleotide (36 nt) for improved targeting of Cas9 to dsDNA targets (Figure 2). The single guide RNA (sgRNA) option combines the crRNA and tracrRNA segments into one long RNA molecule, reducing the number of components and simplifying the CRISPR workflow.
While delivering Cas9 nuclease as part of an RNP is the preferred method, the Alt-R CRISPR-Cas9 System is also compatible with S. pyogenes Cas9 from any source, including cells that stably express S. pyogenes Cas9 endonuclease, or when Cas9 is introduced as a DNA or mRNA construct.
Option 1 (2-part guide RNA)
All Alt-R CRISPR-Cas9 crRNAs are 35–36 nt RNA oligos containing the 19 or 20 nt target-specific protospacer region, along with the 16 nt tracrRNA fusion domain. We recommend 20 nt protospacers for most applications. crRNAs must be duplexed with
Alt-R CRISPR-Cas9 tracrRNA before RNP complex formation.
Alt-R CRISPR-Cas9 crRNAs are synthesized with proprietary chemical modifications, which protect the crRNA from degradation by cellular RNases and further improve on-target editing performance. When using 2-part gRNAs under highly challenging conditions
(e.g., high nuclease environments or with Cas9 mRNA), use Alt-R CRISPR-Cas9 crRNA XT, which have additional chemical modifications for the highest level of stability and performance.
We guarantee* our predesigned guide RNAs targeting human, mouse, rat, zebrafish, or nematode genes. For other species, you may use our proprietary algorithms to design custom guide RNAs. If you have protospacer designs of your own or from publications,
use our design checker tool to assess their on- and off-targeting potential before ordering guide RNAs that are synthesized using our Alt-R guide RNA modifications.
- Alt-R CRISPR-Cas9 tracrRNA
The 67 nt Alt-R tracrRNA is much shorter than the classical 89 bases of the natural S. pyogenes tracrRNA. We find that shortening the tracrRNA increases on-target performance. Alt-R CRISPR tracrRNA also contains proprietary chemical modifications
that confer increased nuclease resistance.
Alt-R CRISPR-Cas9 tracrRNA labeled with ATTO™ 550 (ATTO-TEC) provide the same function as their unlabeled counterparts. However, the fluorescent dye allows you to monitor transfection or electroporation efficiency during preliminary experiments
to optimize transfection conditions in your cell types (Figure 3).
Labeled tracrRNAs can also help concentrate transfected cells via FACS (fluorescence-activated cell sorting) analysis, which can simplify your screening process for cells with CRISPR events. (For more information and tips on using Alt-R CRISPR-Cas9 tracrRNA – ATTO 550, see the application note.)
Alt-R CRISPR tracrRNA orders include Nuclease-Free Duplex Buffer for forming the complex between crRNA and tracrRNA oligos. Alt-R tracrRNA can be ordered in larger scale and paired with all of your target specific crRNAs, allowing for an easy and a cost-effective means of studying many CRISPR sites.
Option 2 (single guide RNA)
Alt-R CRISPR-Cas sgRNA
Alt-R CRISPR-Cas9 sgRNAs are long RNA oligonucleotides (99–100 bases) containing the target-specific crRNA region and the Cas9-interacting tracrRNA region within a single molecule (i.e., 19–20 base protospacer region and 80-base universal sgRNA region). Like other Alt-R RNAs, it contains chemical modifications to stabilize the RNA, increasing resistance to nuclease activity. For challenging conditions (e.g., high nuclease environments or with Cas9 mRNA), sgRNAs may provide increased potency.
The Alt-R S.p. Cas9 Nuclease V3 enzyme is a high purity, recombinant S. pyogenes Cas9. The enzymes include nuclear localization sequences (NLSs) and C-terminal 6-His tags. The S. pyogenes Cas9 enzyme must be combined with a gRNA to produce
a functional, target-specific editing complex. For the best editing, combine the Alt-R S.p. Cas9 Nuclease V3 enzyme with the optimized Alt-R CRISPR gRNA in equimolar amounts.
- Alt-R S.p. HiFi Cas9 nuclease
The Alt-R S.p. HiFi Cas9 Nuclease V3 offers improved specificity over wild-type Cas9, greatly reducing the risk of off-target cutting events. This Cas9 variant also preserves the high level of editing efficiency expected from a Cas9 nuclease, maintaining 90–100% on-target editing activity at most sites. For applications that are sensitive to off-target events, combining the Alt-R S.p. HiFi Cas9 Nuclease V3 with optimized Alt-R CRISPR-Cas9 gRNA (crRNA:tracrRNA) is highly recommended.
Cas9 nickases allow specific cutting of only one strand at the DNA target site. Cuts to both strands of DNA are accomplished by using either Alt-R S.p. Cas9 D10A Nickase V3 or Alt-R S.p. Cas9 H840A Nickase V3, with 2 gRNAs that target two neighboring Cas9 sites, one on either strand of the target region. This functionally increases the length of the recognition sequence from 20 to 40 bases. For more information about using Cas9 nickases, see the application note.
Alt-R S.p. dCas9 Protein V3 has mutations that result in the loss of nuclease activity. This protein can form RNP complexes with Alt-R gRNAs and bind to the target region specified by the gRNA without cutting the DNA.
- Alt-R S.p. Cas9 Expression Plasmid
In some cases, transfection of RNP or the creation of stably transfected cells is not possible. In those applications, Alt‑R S.p. Cas9 Expression Plasmid is designed to provide expression of Cas9 endonuclease under CMV promoter control. Note that the plasmid contains no eukaryotic selectable marker, making expression of S.p. Cas9 transient. The Alt-R CRISPR-Cas9 System Plasmid User Guide provides instructions for using this plasmid.
Additional reagents and kits
Alt-R CRISPR-Cas9 Control crRNAs and PCR Assays
Optional controls for human, mouse, and rat are available for the 2-part Alt-R CRISPR-Cas9 System.
We recommend using the appropriate Alt-R CRISPR-Cas9 Control Kit for studies in human, mouse, or rat cells. The control kits include an Alt-R CRISPR HPRT Positive Control crRNA targeting the HPRT (hypoxanthine phosphoribosyltransferase)
gene and a computationally validated Alt-R CRISPR-Cas9 Negative Control crRNA. The kit also includes the Alt-R CRISPR-Cas9 tracrRNA for complexing with the crRNA controls, Nuclease-Free Duplex Buffer, and validated PCR primers for amplifying the targeted
HPRT region in the selected organism. The inclusion of the PCR assay makes the kits ideal for verification of HPRT modification using the Alt-R Genome Editing Detection Kit.
Alt-R control kit components can also be ordered individually.
For information about sgRNA controls, contact firstname.lastname@example.org.
Alt-R Cas9 Electroporation Enhancer
If you are studying primary or hard-to-transfect cells, electroporation is often a viable alternative to lipid-based transfection in CRISPR experiments. The Alt-R Cas9 Electroporation Enhancer is a Cas9-specific carrier DNA that is optimized to work with
the Amaxa® Nucleofector® device (Lonza) and Neon® System (Thermo Fisher) to increase transfection efficiency and thereby increase genome editing efficiency (Figure 4).
Alt-R Genome Editing Detection Kit
Use this kit to detect on-target genome editing and estimate genome editing efficiency in CRISPR experiments. Learn more >>