Abstract

Generation of recombinant vaccinia viruses opens many avenues for poxvirus research; however current methods for virus production can be laborious. Traditional methods rely on recombination strategies that produce engineered viruses at a low frequency, which then need to be identified and isolated from a large background of parent virus. For this reason, marker and reporter genes are often included, but in many cases these require removal in subsequent steps and the entire process is relatively inefficient. Cas9-mediated selection is a technique that repurposes Cas9/guide RNA complexes to amplify chosen subsets of vaccinia viruses. We refer to this approach as Cas9-mediated poxvirus recombinant recovery (CASPRR). Transient introduction of appropriately guided Cas9 allows for recovery of marker-free recombinant viruses in just 5days, and requires no additional virus modification. Following three rounds of purification, pure virus stocks are obtained. A newer method, stable expression of Cas9 and guide RNAs in a permissive cell line, allows for additional process streamlining, removing cell type-specific concerns related to transient transfection of Cas9. Within this chapter, the protocol for CASPRR is described in both a transient and stable expression model. These methods can be utilized to accelerate recovery of recombinant vaccinia viruses and be applied to generation of vaccinia libraries or novel therapeutic agents.

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