Abstract
The emergence of the CRISPR/Cas system as a technology has transformed our ability to modify nucleic acids, and the CRISPR/Cas13 system has been used to target RNA. CasRx is a small type VI-D effector (Cas13d) with RNA knockdown efficiency that may have an interference effect on RNA viruses. However, the RNA virus-targeting activity of CasRx still needs to be verified in vivo in vertebrates. In this study, we successfully engineered a highly effective CasRx system for fish virus interference. We designed synthetic mRNA coding for CasRx and used CRISPR RNAs to guide it to target the red-spotted grouper nervous necrosis virus (RGNNV). This technique resulted in significant interference with virus infections both in vitro and in vivo. These results indicate that CRISPR/CasRx can be used to engineer interference against RNA viruses in fish, which provides a potential novel mechanism for RNA-guided immunity against other RNA viruses in vertebrates. IMPORTANCE RNA viruses are important viral pathogens infecting vertebrates and mammals. RNA virus populations are highly dynamic due to short generation times, large population sizes, and high mutation frequencies. Therefore, it is difficult to find widely effective ways to inhibit RNA viruses, and we urgently need to develop effective antiviral methods. CasRx is a small type VI-D effector (Cas13d) with RNA knockdown efficiency that can have an interference effect on RNA viruses. Nervous necrosis virus (NNV), a nonenveloped positive-strand RNA virus, is one of the most serious viral pathogens, infecting more than 40 cultured fish species and resulting in huge economic losses worldwide. Here, we establish a novel effective CasRx system for RNA virus interference using NNV and grouper (Epinephelus coioides) as a model. Our data showed that CasRx was most robust for RNA virus interference applications in fish, and we demonstrate its suitability for studying key questions related to virus biology.
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