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- Title
LI Detector: a framework for sensitive colony-based screens regardless of the distribution of fitness effects.
- Authors
Parikh, Saurin Bipin; Coelho, Nelson Castilho; Carvunis, Anne-Ruxandra
- Abstract
Microbial growth characteristics have long been used to investigate fundamental questions of biology. Colony-based high-throughput screens enable parallel fitness estimation of thousands of individual strains using colony growth as a proxy for fitness. However, fitness estimation is complicated by spatial biases affecting colony growth, including uneven nutrient distribution, agar surface irregularities, and batch effects. Analytical methods that have been developed to correct for these spatial biases rely on the following assumptions: (1) that fitness effects are normally distributed, and (2) that most genetic perturbations lead to minor changes in fitness. Although reasonable for many applications, these assumptions are not always warranted and can limit the ability to detect small fitness effects. Beneficial fitness effects, in particular, are notoriously difficult to detect under these assumptions. Here, we developed the linear interpolation-based detector (LI Detector) framework to enable sensitive colony-based screening without making prior assumptions about the underlying distribution of fitness effects. The LI Detector uses a grid of reference colonies to assign a relative fitness value to every colony on the plate. We show that the LI Detector is effective in correcting for spatial biases and equally sensitive toward increase and decrease in fitness. LI Detector offers a tunable system that allows the user to identify small fitness effects with unprecedented sensitivity and specificity. LI Detector can be utilized to develop and refine gene-gene and gene-environment interaction networks of colony-forming organisms, including yeast, by increasing the range of fitness effects that can be reliably detected.
- Subjects
DETECTORS; HIGH throughput screening (Drug development); GENOTYPE-environment interaction; MICROBIAL growth
- Publication
G3: Genes | Genomes | Genetics, 2021, Vol 11, Issue 2, p1
- ISSN
2160-1836
- Publication type
Article
- DOI
10.1093/g3journal/jkaa068