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Characterization of the yeast ionome: a genome-wide analysis of nutrient mineral and trace element homeostasis in Saccharomyces cerevisiae

David J Eide*, Suzanne Clark, T Murlidharan Nair, Mathias Gehl, Michael Gribskov, Mary L Guerinot and Jeffrey F Harper

Genome Biology 2005, 6:R77 doi:10.1186/gb-2005-6-9-r77

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Research article   Open Access

A genome-wide deletion mutant screen identifies pathways affected by nickel sulfate in Saccharomyces cerevisiae

Adriana Arita, Xue Zhou, Thomas P Ellen, Xin Liu, Jingxiang Bai, John P Rooney, Adrienne Kurtz, Catherine B Klein, Wei Dai, Thomas J Begley, Max Costa BMC Genomics 2009, 10:524 (15 November 2009)

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Research article   Open Access

Structure and properties of transcriptional networks driving selenite stress response in yeasts

Hélène Salin, Vivienne Fardeau, Eugenia Piccini, Gaelle Lelandais, Véronique Tanty, Sophie Lemoine, Claude Jacq, Frédéric Devaux BMC Genomics 2008, 9:333 (15 July 2008)

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Membrane transporters and protein traffic networks differentially affecting metal tolerance: a genomic phenotyping study in yeast

Roberta Ruotolo, Gessica Marchini, Simone Ottonello Genome Biology 2008, 9:R67 (7 April 2008)

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Genomic phenotyping was used to assess the role of all non-essential S. cerevisiae proteins in modulating cell viability after exposure to cadmium, nickel and other metals.

Research   Open Access

Systematic screening of polyphosphate (poly P) levels in yeast mutant cells reveals strong interdependence with primary metabolism

Florian M Freimoser, Hans Hürlimann, Claude A Jakob, Thomas P Werner, Nikolaus Amrhein Genome Biology 2006, 7:R109 (15 November 2006)

Abstract | Full text | PDF | PubMed | Cited on BioMed Central | Editor’s summary

A systematic analysis of polyphosphate levels in yeast knockout strains for almost every non-essential gene identified 255 genes involved in the maintenance of normal polyphosphate content and provides insights into phosphate homeostasis.

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