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Researchers from Würzburg, Germany and the U.S. discover new type of CRISPR gene scissorsqrcode

Jan. 13, 2023

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Jan. 13, 2023

Like a Swiss army knife: Researchers from Würzburg and the U.S. discover new type of CRISPR gene scissors. New publication in "Nature".


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Chase Beisel (center) and Oleg Dmytrenko in the HIRI lab. (Image: HIRI)


Like humans, bacteria and archaea can be attacked by viruses. These microorganisms have developed their own immune defense strategies against their pathogens. Bacterial defenses, such as CRISPR-Cas systems, have diverse proteins and functions that help bacteria protect themselves against foreign invaders. The defense is based on a common mechanism: a CRISPR ribonucleic acid (crRNA), serving as a "guide RNA," helps detect regions of a foreign genome, such as the DNA of a virus, for targeted cleavage. The CRISPR-associated (Cas) nuclease directed by a crRNA can cut its target like a pair of scissors: a strategy of nature that humans have harnessed in many technologies.

"Considering how well different nucleases have been translated into new and improved technologies, any discovery in this field could bring new benefits to society," says Chase Beisel, describing a research motivation of his laboratory at the Würzburg Helmholtz Institute for RNA-based Infection Research (HIRI). The institute is a site of the Braunschweig Helmholtz Centre for Infection Research in cooperation with the Julius-Maximilians-Universität (JMU) in Würzburg. Beisel initiated the current study on a specific set of CRISPR-Cas systems with Matthew Begemann at Benson Hill, Inc. (Missouri) and Ryan Jackson at Utah State University in the U.S. The results were published today in the renowned journal Nature and were accompanied by detailed structural analysis from a second team, also led by Ryan Jackson, and by David Taylor at University of Texas.


 


Unique from any other known CRISPR nuclease

″We were exploring CRISPR nucleases that were originally clumped with Cas12a, nucleases that defend bacteria by recognizing and cleaving invasive DNA. Once we identified more of them, we realized that they were different enough from Cas12a to warrant a deeper dive,″ tells Oleg Dmytrenko, the first author of the study. ″This exploration led us to discover that these nucleases, which we called Cas12a2, do something very different not only from Cas12a but also from any other known CRISPR nuclease.″

The crucial difference lies in the mechanism of their defense action. When Cas12a2 recognizes invasive RNA, the nuclease cleaves it but can also damage other RNA and DNA inside the cell, impairing its growth and limiting the spread of the infection. ″In general, such defense strategies that abort the infection have been known in bacteria,″ says HIRI postdoc Oleg Dmytrenko. ″A few other CRISPR-Cas systems work in this way. However, a CRISPR-based defense mechanism that relies on a single nuclease to recognize the invader and degrade cellular DNA and RNA has not been observed before,″ the scientist says.

Funding

The study was supported by funding from the European Research Council (ERC Consolidator Award to Chase Beisel), the German Federal Agency for Disruptive Innovation (SPRIND), the Pre-4D program of the Helmholtz Centre for Infection Research, and with funds from the National Institutes of Health and the Welch Foundation.

Original publications

Dmytrenko O, Neumann GC, Hallmark T, Keiser DJ, Crowley VM, Vialetto E, Mougiakos I, Wandera KG, Domgaard H, Weber J, Gaudin T, Metcalf J, Gray BN, Begemann MB, Jackson RN, Beisel CL (2023): Cas12a2 elicits abortive infection via RNA-triggered destruction of dsDNA. Nature, https://www.nature.com/articles/s41586-022-05559-3

Bravo JPK, Hallmark T, Naegle B, Beisel CL, Jackson RN, Taylor DW (2023): Large-scale structural rearrangements unleash indiscriminate nuclease activity by CRISPR-Cas12a2, Nature, https://www.nature.com/articles/s41586-022-05560-w

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