Nydia Van Dyk scite author profile

A genome-scale genetic interaction map was constructed by examining 5.4 million gene-gene pairs for synthetic genetic interactions, generating quantitative genetic interaction profiles for ~75% of all genes in the budding yeast, Saccharomyces cerevisiae. A network based on genetic interaction profiles reveals a functional map of the cell in which genes of similar biological processes cluster together in coherent subsets, and highly correlated profiles delineate specific pathways to define gene function. The global network identifies functional cross-connections between all bioprocesses, mapping a cellular wiring diagram of pleiotropy. Genetic interaction degree correlated with a number of different gene attributes, which may be informative about genetic network hubs in other organisms. We also demonstrate that extensive and unbiased mapping of the genetic landscape provides a key for interpretation of chemical-genetic interactions and drug target identification.

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A global genetic interaction network maps a wiring diagram of cellular function

Costanzo

VanderSluis

Koch

et al. 2016

Science

1,107

105

1,607

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We generated a global genetic interaction network for Saccharomyces cerevisiae, constructing over 23 million double mutants, identifying ~550,000 negative and ~350,000 positive genetic interactions. This comprehensive network maps genetic interactions for essential gene pairs, highlighting essential genes as densely connected hubs. Genetic interaction profiles enabled assembly of a hierarchical model of cell function, including modules corresponding to protein complexes and pathways, biological processes, and cellular compartments. Negative interactions connected functionally related genes, mapped core bioprocesses, and identified pleiotropic genes, whereas positive interactions often mapped general regulatory connections among gene pairs, rather than shared functionality. The global network illustrates how coherent sets of genetic interactions connect protein complex and pathway modules to map a functional wiring diagram of the cell.

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Systematic analysis of complex genetic interactions

Kuzmin

VanderSluis

Wang

et al. 2018

Science

230

219

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To systematically explore complex genetic interactions, we constructed ~200,000 yeast triple mutants and scored negative trigenic interactions. We selected double mutant query genes across a broad spectrum of biological processes, spanning a range of quantitative features of the global digenic interaction network and tested for a genetic interaction with a third mutation. Trigenic interactions often occurred among functionally related genes and essential genes were hubs on the trigenic network. Despite their functional enrichment, trigenic interactions tended to link genes in distant bioprocesses and display a weaker magnitude than digenic interactions. We estimate that the global trigenic interaction network is ~100-fold larger than the global digenic network, highlighting the potential for complex genetic interactions to impact the biology of inheritance, including the genotype to phenotype relationship.

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Integrating high-throughput genetic interaction mapping and high-content screening to explore yeast spindle morphogenesis

Vizeacoumar

Dyk

Vizeacoumar

et al. 2010

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Data from: Systematic analysis of complex genetic interactions

Kuzmin¹,

VanderSluis²,

Wang³

et al. 2019

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Nydia Van Dyk

The Genetic Landscape of a Cell

A global genetic interaction network maps a wiring diagram of cellular function

Systematic analysis of complex genetic interactions

Integrating high-throughput genetic interaction mapping and high-content screening to explore yeast spindle morphogenesis

Data from: Systematic analysis of complex genetic interactions

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