Global Gene Deletion Analysis Exploring Yeast Filamentous Growth

Owen Ryan; Rebecca S. Shapiro; Christoph F. Kurat; David Mayhew; Anastasia Baryshnikova; Brian Chin; Zhen‐Yuan Lin; Michael J. Cox; Frederick S. Vizeacoumar; Doris Cheung; Sondra Bahr; Kyle Tsui; Faïza Tebbji; Adnane Sellam; Fabian Istel; Tobias Schwarzmüller; Todd B. Reynolds; Karl Kuchler; David K. Gifford; Malcolm Whiteway; Guri Giaever; Corey Nislow; Michael Costanzo; Anne‐Claude Gingras; Robi D. Mitra; Brenda Andrews; Gerald R. Fink; Leah E. Cowen; Charles Boone

doi:10.1126/science.1224339

Global Gene Deletion Analysis Exploring Yeast Filamentous Growth

Owen Ryan(University of Toronto), Rebecca S. Shapiro(University of Toronto), Christoph F. Kurat(University of Toronto), David Mayhew, Anastasia Baryshnikova(University of Toronto), Brian Chin(Whitehead Institute for Biomedical Research), Zhen‐Yuan Lin(Mount Sinai Hospital), Michael J. Cox(University of Toronto), Frederick S. Vizeacoumar(Mount Sinai Hospital), Doris Cheung(University of Toronto), Sondra Bahr(University of Toronto), Kyle Tsui(University of Toronto), Faïza Tebbji(National Academies of Sciences, Engineering, and Medicine), Adnane Sellam(National Academies of Sciences, Engineering, and Medicine), Fabian Istel(Max Perutz Labs), Tobias Schwarzmüller(Max Perutz Labs), Todd B. Reynolds(University of Tennessee at Knoxville), Karl Kuchler(Max Perutz Labs), David K. Gifford(Broad Institute), Malcolm Whiteway(National Academies of Sciences, Engineering, and Medicine), Guri Giaever(University of Toronto), Corey Nislow(University of Toronto), Michael Costanzo(University of Toronto), Anne‐Claude Gingras(Mount Sinai Hospital), Robi D. Mitra, Brenda Andrews(University of Toronto), Gerald R. Fink(Broad Institute), Leah E. Cowen(University of Toronto), Charles Boone(University of Toronto)

Science

September 13, 2012

10.1126/science.1224339

Cited by 221

Abstract

The dimorphic switch from a single-cell budding yeast to a filamentous form enables Saccharomyces cerevisiae to forage for nutrients and the opportunistic pathogen Candida albicans to invade human tissues and evade the immune system. We constructed a genome-wide set of targeted deletion alleles and introduced them into a filamentous S. cerevisiae strain, Σ1278b. We identified genes involved in morphologically distinct forms of filamentation: haploid invasive growth, biofilm formation, and diploid pseudohyphal growth. Unique genes appear to underlie each program, but we also found core genes with general roles in filamentous growth, including MFG1 (YDL233w), whose product binds two morphogenetic transcription factors, Flo8 and Mss11, and functions as a critical transcriptional regulator of filamentous growth in both S. cerevisiae and C. albicans.

Related Papers

No related papers found

Powered by citation graph analysis