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Comparing 13 different CRISPR-Cas9 DNA scissors

Computational models based on deep learning predict the activities of SpCas9 variants and provide a useful guide for selecting the most appropriate one

CRISPR-Cas9 has become one of the most convenient and effective biotechnology tools used to cut specific DNA sequences. Starting from Streptococcus pyogenes Cas9 (SpCas9), a multitude of variants have been engineered and employed for experiments worldwide. Although all these systems are targeting and cleaving a specific DNA sequence, they also exhibit relatively high off-target activities with potentially harmful effects.

Led by Professor Hyongbum Henry Kim, the research team of the Center for Nanomedicine, within the Institute for Basic Science (IBS, South Korea), has achieved the most extensive high-throughput analysis of CRISPR-Cas9 activities. The team developed deep-learning-based computational models that predict the activities of SpCas9 variants for different DNA sequences. Published in Nature Biotechnology, this study represents a useful guide for selecting the most appropriate SpCas9 variant.

Figure 1 Schematics of the CRISPR-Cas9 system. A guide RNA guides Cas9 to the target DNA sequence, which is followed by the short protospacer adjacent motif (PAM). Researchers across the globe have been adopting this technology to cut DNA at desired positions (Credit: Kim, H., & Kim, J. S. Nature Reviews Genetics, 2014).
▲ Figure 1. Schematics of the CRISPR-Cas9 system. A guide RNA guides Cas9 to the target DNA sequence, which is followed by the short protospacer adjacent motif (PAM). Researchers across the globe have been adopting this technology to cut DNA at desired positions (Credit: Kim, H., & Kim, J. S. Nature Reviews Genetics, 2014).

This study surpassed all previous reports, which had evaluated only up to three Cas9 systems. IBS researchers compared 13 SpCas9 variants and defined which four-nucleotide sequences can be used as protospacer adjacent motif (PAM) – a short DNA sequence that is required for Cas9 to cut and is positioned immediately after the DNA sequence targeted for cleavage.

Figure 2 PAM compatibilities for SpCas9 variants. (a) Darker colors indicates higher frequency of DNA cleavage. (b) Among these four variants (SpCas9, VRQR, xCas9 and SpCas9-NG), SpCas9-NG has been the traditional choice for all PAM sequences that have a guanine (G) as the second nucleotide. However, these results shows that for PAM sequences AGAG and GGCG, for example, the Cas9 variant VRQR (in blue) would be preferable.
▲ Figure 2. PAM compatibilities for SpCas9 variants. (a) Darker colors indicates higher frequency of DNA cleavage. (b) Among these four variants (SpCas9, VRQR, xCas9 and SpCas9-NG), SpCas9-NG has been the traditional choice for all PAM sequences that have a guanine (G) as the second nucleotide. However, these results shows that for PAM sequences NGAG and NGCG, for example, the VRQR variant (in blue) would be preferable.

Additionally, they evaluated the specificity of six different high-fidelity SpCas9 variants, and found that evoCas9 has the highest specificity, while the original wild-type SpCas9 has the lowest. Although evoCas9 is very specific, it also shows low activity at many target sequences: these results imply that, depending on the DNA target sequence, other high-fidelity Cas9 variants could be preferred.

Figure 3 Comparing the specificity of the SpCas9 variants with a DNA sequence that has a single mismatch between the guide RNA and the target sequence. evoCas9 and the original SpCas9 exhibit the highest and the lowest specificity, respectively.
▲ Figure 3. Comparing the specificity of the SpCas9 variants with a DNA sequence that has a single mismatch between the guide RNA and the target sequence. evoCas9 and the original SpCas9 exhibit the highest and the lowest specificity, respectively.

Based on these results, IBS researchers developed DeepSpCas9variants (http://deepcrispr.info/DeepSpCas9variants/), a computational tool to predict the activities of SpCas9 variants. By accessing this public website, users may input the desired DNA target sequence, find out the most suitable SpCas9 variant and take full advantage of the CRISPR technology.

“We began this research when we noticed the critical lack of a systematic comparison among the different SpCas9 variants,” says Kim. “Now, using DeepSpCas9variants, researchers can select the most appropriate SpCas9 variants for their own research purposes.”

Notes for editors

- References
Nahye Kim, Hui Kwon Kim, Sungtae Lee, Jung Hwa Seo, Jae Woo Choi, Jinman Park, Seonwoo Min, Sungroh Yoon, Sung-Rae Cho and Hyongbum Henry Kim. Prediction of the sequence-specific cleavage activity of Cas9 variants. Nature Biotechnology (2020).
https://doi.org/10.1038/s41587-020-0537-9

- Media Contact
For further information or to request media assistance, please contact Prof. Hyongbum Henry Kim, IBS Center for Nanomedicine (hkim1@yuhs.ac); Mr. Bae Daewoong, Head of Communications Team, Institute for Basic Science (IBS) (+82-42-878-8195, woongs@ibs.re.kr); or Ms. Dahee Carol Kim, Public Information Officer of IBS & Science Communicator (+82-42-878-8133, clitie620@ibs.re.kr).

- About the Institute for Basic Science (IBS)
IBS was founded in 2011 by the government of the Republic of Korea with the sole purpose of driving forward the development of basic science in South Korea. IBS has 30 research centers as of January 2020. There are ten physics, two mathematics, six chemistry, six life science, one Earth science, and five interdisciplinary research centers.

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    Last Update 2023-11-28 14:20