Evaluation and Design of Genome-Wide CRISPR/SpCas9 Knockout Screens

Hart, Traver; Tong, Amy; Chan, Katie; Leeuwen, Jolanda van; Seetharaman, Ashwin; Aregger, Michael; Chandrashekhar, Megha; Hustedt, Nicole; Seth, Sahil; Noonan, Avery J. C.; Habsid, Andrea; Сизова, О. С.; Nedyalkova, L.; Climie, Ryan; Tworzyanski, Leanne; Lawson, Keith A.; Sartori, Maria A.; Alibeh, Sabriyeh; Tieu, David; Masud, Sanna; Mero, Patricia; Weiß, Alexander; Brown, Kevin R.; Ušaj, Matej; Billmann, Maximilian; Rahman, Mahfuzur; Constanzo, Michael; Myers, Chad L.; Andrews, Brenda; Boone, Charles; Durocher, Daniel; Moffat, Jason

doi:10.1534/g3.117.041277

Cited by 434 publications

(507 citation statements)

References 25 publications

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“…We identified features of protein complexes that underpin differences in recall between the two genetic perturbation datasets. Protein complexes recalled only in the CRISPR dataset were significantly depleted of core essential genes (Hart et al, 2015; Hart et al, 2017b), lower median gene expression levels, and had lower sequence conservation (Wilcoxon rank sum test, p < 1e-3) (Figure 2E, Table S3). …”

Section: Resultsmentioning

confidence: 99%

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Interrogation of Mammalian Protein Complex Structure, Function, and Membership Using Genome-Scale Fitness Screens

et al. 2018

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Summary Protein complexes are assemblies of subunits that have co-evolved to execute one or many coordinated functions in the cellular environment. Functional annotation of mammalian protein complexes is critical to understanding biological processes as well as disease mechanisms. Here, we used genetic co-essentiality derived from genome-scale RNAi- and CRISPR-Cas9- based fitness screens performed across hundreds of human cancer cell lines to assign measures of functional similarity. From these measures, we systematically built and characterized functional similarity networks which recapitulate known structural and functional features of well-studied protein complexes and resolve novel functional modules within complexes lacking structural resolution, such as the mammalian SWI/SNF complex. Finally, by integrating functional networks with large protein-protein interaction networks, we discovered novel protein complexes involving recently-evolved genes of unknown function. Taken together, these findings demonstrate the utility of genetic perturbation screens alone and in combination with large-scale biophysical data to enhance our understanding of mammalian protein complexes in normal and disease states.

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Section: Resultsmentioning

confidence: 99%

“…Core essential genes were defined as the union of the CEG1 (Hart et al, 2015) and CEG2 (Hart et al, 2017b) datasets. Gene expression data was taken from the CCLE RNA-seq data for these cell lines (Barretina et al, 2012), and human-mouse dN/dS was obtained from BioMart (Smedley et al, 2015).…”

Section: Star Methodsmentioning

confidence: 99%

Interrogation of Mammalian Protein Complex Structure, Function, and Membership Using Genome-Scale Fitness Screens

et al. 2018

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“…Negative controls are essential for library design to evaluate experimental noise and the effects of the delivery of CRISPR reagents. Published libraries have often included non-targeting controls as 1%–5% of the total number of gRNAs in the library (Sanjana et al, 2014), but recent studies have suggested that gRNAs targeting non-essential genes can also serve this purpose (Hart et al, 2017). Alternative negative controls include targeting safe-harbor genomic regions (e.g., AAVS1 ) (Rosenbluh et al, 2017; Wang et al, 2014) as well as targeting GFP or luciferase in GFP- and luciferase-negative cells, respectively.…”

Section: Library Designmentioning

confidence: 99%

“…However, a number of gene-targeted studies have sought to identify essential genes in different cell types. These screens have, in general, identified similar sets of genes, although they also have found a smaller number of genes unique to a particular study and different relative essentiality ranks among genes identified in multiple studies (Hart et al, 2017; Rauscher et al, 2017a). It remains unclear whether these discrepancies are due to cell-type-specific effects, experimental artifacts, or differences in computational analysis of screen data.…”

Section: Pitfalls Of Pooled Crispr Screeningmentioning

confidence: 99%

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High-Throughput Approaches to Pinpoint Function within the Noncoding Genome

2017

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The clustered regularly interspaced short palindromic repeats (CRISPR)-Cas nuclease system is a powerful tool for genome editing, and its simple programmability has enabled high-throughput genetic and epigenetic studies. These high-throughput approaches offer investigators a toolkit for functional interrogation of not only protein-coding genes but also noncoding DNA. Historically, noncoding DNA has lacked the detailed characterization that has been applied to protein-coding genes in large part because there has not been a robust set of methodologies for perturbing these regions. Although the majority of high-throughput CRISPR screens have focused on the coding genome to date, an increasing number of CRISPR screens targeting noncoding genomic regions continue to emerge. Here, we review high-throughput CRISPR-based approaches to uncover and understand functional elements within the noncoding genome and discuss practical aspects of noncoding library design and screen analysis.

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Pooled CRISPR KO Screens for Target Identification

Grotz¹,

Deswal²

2022

Genome Editing in Drug Discovery

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Evaluation and Design of Genome-Wide CRISPR/SpCas9 Knockout Screens

Cited by 434 publications

References 25 publications

Interrogation of Mammalian Protein Complex Structure, Function, and Membership Using Genome-Scale Fitness Screens

Interrogation of Mammalian Protein Complex Structure, Function, and Membership Using Genome-Scale Fitness Screens

High-Throughput Approaches to Pinpoint Function within the Noncoding Genome

Pooled CRISPR KO Screens for Target Identification

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