Maintaining genomic stability is vital for cellular equilibrium. In this study, we combined CRISPR-mediated base editing with pooled screening technologies to identify numerous mutations in lysine residues and protein-coding genes. The loss of these lysine residues and genes resulted in either sensitivity or resistance to DNA-damaging agents.
View Article and Find Full Text PDFSystematic perturbation of amino acids at endogenous loci provides diverse insights into protein function. Here, we performed a genome-wide screen to globally assess the cell fitness dependency of serine, threonine and tyrosine residues. Using an adenine base editor, we designed a whole-genome library comprising 817,089 single guide RNAs to perturb 584,337 S, T and Y sites.
View Article and Find Full Text PDFCanonical CRISPR-knockout (KO) screens rely on Cas9-induced DNA double-strand breaks (DSBs) to generate targeted gene KOs. These methodologies may yield distorted results because DSB-associated effects are often falsely assumed to be consequences of gene perturbation itself, especially when high copy-number sites are targeted. In the present study, we report a DSB-independent, genome-wide CRISPR screening method, termed iBARed cytosine base editing-mediated gene KO (BARBEKO).
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