Chronos: a cell population dynamics model of CRISPR experiments that improves inference of gene fitness effects

Chronos: a cell population dynamics model of CRISPR experiments that improves inference of gene fitness effects

CRISPR loss of function screens are powerful tools to interrogate biology but exhibit a number of biases and artifacts that can confound the results. Here, we introduce Chronos, an algorithm for inferring gene knockout fitness effects based on an explicit model of cell proliferation dynamics after C...

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Veröffentlicht in:Genome Biology 2021-12, Vol.22 (1), p.343-343, Article 343
Hauptverfasser: Dempster, Joshua M, Boyle, Isabella, Vazquez, Francisca, Root, David E, Boehm, Jesse S, Hahn, William C, Tsherniak, Aviad, McFarland, James M
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Analysis
Bias
Biomarkers, Tumor - genetics
Cell growth
Cell proliferation
Cloning
Clustered Regularly Interspaced Short Palindromic Repeats
Computational Biology
Copy number
CRISPR
CRISPR-Cas Systems
Experiments
Fitness
Gene Knockout Techniques
Gene Library
Genes
Genome
Genomes
Genotype & phenotype
Humans
Infections
Method
Methods
Mutation
Neoplasms - genetics
Population biology
Population Dynamics
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Zusammenfassung:CRISPR loss of function screens are powerful tools to interrogate biology but exhibit a number of biases and artifacts that can confound the results. Here, we introduce Chronos, an algorithm for inferring gene knockout fitness effects based on an explicit model of cell proliferation dynamics after CRISPR gene knockout. We test Chronos on two pan-cancer CRISPR datasets and one longitudinal CRISPR screen. Chronos generally outperforms competitors in separation of controls and strength of biomarker associations, particularly when longitudinal data is available. Additionally, Chronos exhibits the lowest copy number and screen quality bias of evaluated methods. Chronos is available at https://github.com/broadinstitute/chronos .
ISSN:1474-760X
1474-7596
1474-760X
DOI:10.1186/s13059-021-02540-7