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July 2nd, 2025
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University of Toronto
systems biology
biorxiv

A global genetic interaction map of a human cell reveals conserved principles of genetic networks

Billmann, M.Open in Google Scholar•Costanzo, M.Open in Google Scholar•Zhang, X.Open in Google Scholar•Hassan, A. Z.Open in Google Scholar•Rahman, M.Open in Google Scholar•Brown, K. R.Open in Google Scholar•Chan, K. S.Open in Google Scholar•Tong, A. H.Open in Google Scholar•Pons, C.Open in Google Scholar•Ward, H. N.Open in Google Scholaret al.

We generated a genome-scale, genetic interaction network from the analysis of more than 4 million double mutants in the haploid human cell line, HAP1. The network maps ~90,000 genetic interactions, including thousands of extreme synthetic lethal and genetic suppression interactions. Genetic interaction profiles enabled assembly of a hierarchical model of cell function, including modules corresponding to protein complexes, pathways, biological processes, and cellular compartments. Comparative analyses showed that general principles of genetic networks are conserved from yeast to human cells. A genetic interaction network mapped in a single genetic background complements the DepMap gene co-essentiality network, recapitulating many of the same biological connections and also capturing unique functional information to reveal roles of uncharacterized genes and molecular determinants of specific cancer cell line genetic dependencies.

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