Background: As an important farm animal, pig functional genomic study can help understand the molecular mechanism related to the key economic traits of pig, such as growth, reproduction, or disease. The genome-scale library based on clustered regularly interspaced short palindromic repeat (CRISPR)/CRISPR-associated endonuclease Cas9 (Cas9) system facilitates discovery of key genes involved in a specific function or phenotype, allowing for an effective "phenotype-to-genotype" strategy for functional genomic study.
Methods and results: We designed and constructed a pig genome-scale CRISPR/Cas9 knockout library targeting 16,888 genes with 970,001 unique sgRNAs. The library is a single-vector system including both Cas9 and sgRNA, and packaged into lentivirus for an easy cell delivery for screening. To establish a screening method in pig cells, we used diphtheria toxin (DT)-induced cell death as a model to screen the host genes critical for DT toxicity in pig PK-15 cells. After lentiviral transduction and two sequential screening with DT treatment, the highest-ranking candidates we identified were previously validated genes, HBEGF, DPH1, DPH2, DPH3, DPH5, DNAJC24, and ZBTB17, which are DT receptor and the key factors involved in biosynthesis of diphthamide, the target of DT action. The function and gene essentiality of candidates were further confirmed by gene knockout and DT toxicity assay in PK-15 cells.
Conclusions: Our CRISPR knockout library targeting pig whole genome establishes a promising platform for pig functional genomic analysis.
Keywords: CRISPR library; CRISPR-Cas9 system; diphtheria toxin; gene knockout; high-throughput screening; pig; sgRNA.
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