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Abstract Current approaches to define chemical-genetic interactions (CGIs) in human cell lines are resource-intensive. We designed a scalable chemical-genetic screening platform by generating a DNA damage response (DDR)-focused custom sgRNA library targeting 1011 genes with 3033 sgRNAs. We performed five proof-of-principle compound screens and found that the compounds’ known modes-of-action (MoA) were enriched among the compounds’ CGIs. These scalable screens recapitulated expected CGIs at a comparable signal-to-noise ratio (SNR) relative to genome-wide screens. Furthermore, time-resolved CGIs, captured by sequencing screens at various time points, suggested an unexpected, late interstrand-crosslinking (ICL) repair pathway response to camptothecin-induced DNA damage. Our approach can facilitate screening compounds at scale with 20-fold fewer resources than commonly used genome-wide libraries and produce biologically informative CGI profiles.
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Billmann, Maximilian; Ward, Henry N.; Aregger, Michael; Costanzo, Michael; Andrews, Brenda J.; Boone, Charles; Moffat, Jason; Myers, Chad L. (, Cell Systems)
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Ward, Henry N.; Aregger, Michael; Gonatopoulos-Pournatzis, Thomas; Billmann, Maximilian; Ohsumi, Toshiro K.; Brown, Kevin R.; Blencowe, Benjamin J.; Moffat, Jason; Myers, Chad L. (, Nature Protocols)
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Gonatopoulos-Pournatzis, Thomas; Aregger, Michael; Brown, Kevin R.; Farhangmehr, Shaghayegh; Braunschweig, Ulrich; Ward, Henry N.; Ha, Kevin C.; Weiss, Alexander; Billmann, Maximilian; Durbic, Tanja; et al (, Nature Biotechnology)
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Aregger, Michael; Lawson, Keith A.; Billmann, Maximillian; Costanzo, Michael; Tong, Amy H.; Chan, Katherine; Rahman, Mahfuzur; Brown, Kevin R.; Ross, Catherine; Usaj, Matej; et al (, Nature Metabolism)
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Rahman, Mahfuzur; Billmann, Maximilian; Costanzo, Michael; Aregger, Michael; Tong, Amy H. Y.; Chan, Katherine; Ward, Henry N.; Brown, Kevin R.; Andrews, Brenda J.; Boone, Charles; et al (, Molecular Systems Biology)
