Genome-wide CRISPR phenotypic screens are clarifying many fundamental biological phenomena. While pooled screens can be used to study selectable features, arrayed CRISPR libraries extend the screening territory to cell-nonautonomous, biochemical and morphological phenotypes. Using a novel high-fidelity liquid-phase plasmid cloning technology, we generated two human genome-wide arrayed libraries termed T.spiezzo (gene ablation, 19,936 plasmids) and T.gonfio (gene activation and epigenetic silencing, 22,442 plasmids). Each plasmid encodes four non-overlapping single-guide RNAs (sgRNAs), each driven by a unique housekeeping promoter, as well as lentiviral and transposable vector sequences. The sgRNAs were designed to tolerate most DNA polymorphisms identified in 10,000 human genomes, thereby maximizing their versatility. Sequencing confirmed that ~90% of each plasmid population contained ≥3 intact sgRNAs. Deletion, activation and epigenetic silencing experiments showed efficacy of 75-99%, up to 10,000x and 76-92%, respectively; lentiviral titers were ~10^7/ml. As a proof of concept, we investigated the effect of individual activation of each human transcription factor (n=1,634) on the expression of the cellular prion protein PrPC. We identified 24 upregulators and 12 downregulators of PrPC expression. Hence, the T.spiezzo and T.gonfio libraries represent a powerful resource for the individual perturbation of human protein-coding genes.
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