Abstract
Knockout CRISPR screening enables the unbiased discovery of genes with afunctional role in almostanycellular or molecular process of interest. The approach couples a genome-scale library of guide RNA (gRNA), the Cas9 endonuclease, and a faithful phenotypic read-out to systematically identify candidate genes via their loss-of-function effect. Here we provide a detailed description of the CRISPR screen protocol and outline how to apply it to decipher the gene networks that underlie developmental cell fate decisions. As a paradigm we use the in vitro model of cell state transition(s) from naive pluripotency to primordial germ cell (PGC) fate, exploiting the Stella-GFP:Esg1-tdTomato (SGET) mouse ESC line. The principles in this protocol can be readily adapted to characterize lineage regulators for other cell fate models and/or for other species.
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