Cas9 and Cas12a are available as recombinant proteins, useful in a wide range of genome editing experiments. Important differences between Cas9 and Cas12a are described here to help you choose which system to use.
CRISPR genome editing uses a CRISPR-associated (Cas) enzyme. Several Cas enzymes have been identified in various bacterial systems. Some of these have been adapted by scientists for use in eukaryotic systems. The two most popular enzymes used in CRISPR genome editing are Cas9 and Cas12a (Cpf1). These enzymes are highly functional, do not require binding to other enzymes, and can be readily programmed to target the desired genomic DNA site. This programming occurs through a short guide RNA (gRNA) molecule that is designed by the researcher. The Cas9 or Cas12a enzyme binds the gRNA, forming a ribonucleoprotein (RNP). Then, the gRNA directs the RNP to the targeted site in the genomic DNA, where the Cas enzyme cuts the genome.
The Alt-R CRISPR-Cas systems from IDT work as follows: You receive chemically synthesized gRNA and recombinant, fully formed Cas enzyme (either Cas9 or Cas12a). You can also obtain positive and negative gRNA controls, an electroporation enhancer, a DNA donor for homology-directed repair (HDR), and an HDR enhancer. Once you have these reagents, you simply combine the gRNA and the Cas enzyme on the bench, forming the RNP, and then use electroporation to deliver this RNP to your cells. This is how genome editing is accomplished quickly and accurately. Ultimately you can determine your results using next generation sequencing (NGS).
The Cas9 and Cas12a enzymes have some important differences. Firstly, Cas9 recognizes a different protospacer-adjacent motif (PAM) than Cas12a does (Table 1). Secondly, Cas9 in nature uses a two-part guide RNA (crRNA and tracrRNA)—although for research purposes, these two parts are often fused as a single-guide RNA (sgRNA)—whereas Cas12a naturally uses just a one-part gRNA (crRNA).
|Feature||Cas9 system||Cas12a (Cpf1) system|
|Applications||General genome editing|
General genome editing
|Guide RNA options|
crRNA and tracrRNA*
|Guide RNA lengths (native)|
crRNA: 42 nt
|crRNA: 42–44 nt|
Class 2, Cas type II
Class 2, Cas type V
|DNA cleavage||Wild-type and high fidelity: the blunt-ended cut is 3 bases upstream of the target protospacer sequence||A staggered cut is created. The 5′ overhang is near the 5′ end of the target protospacer sequence|
TTTV for Cas12a V3
† N = any base; V = A, C, or G
Alt-R products for gene editing with either Cas9 or Cas12a are available. These products include recombinant Cas enzymes, gRNA that can be designed for your target region using our web-based tools, and all the necessary reagents, kits, and controls. All of the Alt-R CRISPR products have been developed by our in-house scientists using the latest knowledge in genome editing.
The Alt-R recombinant Cas enzymes can be directly used in a wide variety of cells, eliminating the need for plasmid expression. This significant time savings is additionally augmented by our engineered Cas mutations, which increase efficiency and specificity, and also our Alt-R gRNA designs with chemical modifications, which give outstanding CRISPR cutting efficiency and specificity. Our Alt-R CRISPR systems are useful in a wide variety of cells and organisms, including mammalian cells, C. elegans, zebrafish, plants, and other systems. For plants in particular, the Cas12a system includes Cas12a Ultra, which is exceptionally efficacious at lower temperatures.