The Chemical Genomic Portrait of Yeast: Uncovering a Phenotype for All Genes

Maureen E. Hillenmeyer; Eula Fung; Jan Wildenhain; Sarah E. Pierce; Shawn Hoon; William Lee; Michael Proctor; Robert P. St.Onge; Mike Tyers; Daphne Koller; Russ B. Altman; Ronald W. Davis; Corey Nislow; Guri Giaever

doi:10.1126/science.1150021

The Chemical Genomic Portrait of Yeast: Uncovering a Phenotype for All Genes

Maureen E. Hillenmeyer(Mount Sinai Hospital), Eula Fung(Mount Sinai Hospital), Jan Wildenhain(Mount Sinai Hospital), Sarah E. Pierce(Mount Sinai Hospital), Shawn Hoon(Mount Sinai Hospital), William Lee(Mount Sinai Hospital), Michael Proctor(Mount Sinai Hospital), Robert P. St.Onge(Mount Sinai Hospital), Mike Tyers(Mount Sinai Hospital), Daphne Koller(Mount Sinai Hospital), Russ B. Altman(Mount Sinai Hospital), Ronald W. Davis(Mount Sinai Hospital), Corey Nislow(Mount Sinai Hospital), Guri Giaever(Mount Sinai Hospital)

Science

April 17, 2008

10.1126/science.1150021

Cited by 1,044Open Access

Full Text

Abstract

Genetics aims to understand the relation between genotype and phenotype. However, because complete deletion of most yeast genes ( approximately 80%) has no obvious phenotypic consequence in rich medium, it is difficult to study their functions. To uncover phenotypes for this nonessential fraction of the genome, we performed 1144 chemical genomic assays on the yeast whole-genome heterozygous and homozygous deletion collections and quantified the growth fitness of each deletion strain in the presence of chemical or environmental stress conditions. We found that 97% of gene deletions exhibited a measurable growth phenotype, suggesting that nearly all genes are essential for optimal growth in at least one condition.

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