Abstract Background Protein kinases and phosphatases regulate protein phosphorylation, a critical means of modulating protein function, stability and localization. The identification of functional networks for protein phosphatases has been slow due to their redundant nature and the lack of large-scale analyses. We hypothesized that a genome-scale analysis of genetic interactions using the Synthetic Genetic Array could reveal protein phosphatase functional networks. We apply this approach to the conserved type 1 protein phosphatase Glc7, which regulates numerous cellular processes in budding yeast. Results We created a novel <it>glc7 </it>catalytic mutant (<it>glc7-E101Q</it>). Phenotypic analysis indicates that this novel allele exhibits slow growth and defects in glucose metabolism but normal cell cycle progression and chromosome segregation. This suggests that <it>glc7-E101Q </it>is a hypomorphic <it>glc7 </it>mutant. Synthetic Genetic Array analysis of <it>glc7-E101Q </it>revealed a broad network of 245 synthetic sick/lethal interactions reflecting that many processes are required when Glc7 function is compromised such as histone modification, chromosome segregation and cytokinesis, nutrient sensing and DNA damage. In addition, mitochondrial activity and inheritance and lipid metabolism were identified as new processes involved in buffering Glc7 function. An interaction network among 95 genes genetically interacting with <it>GLC7 </it>was constructed by integration of genetic and physical interaction data. The obtained network has a modular architecture, and the interconnection among the modules reflects the cooperation of the processes buffering Glc7 function. Conclusion We found 245 genes required for the normal growth of the <it>glc7-E101Q </it>mutant. Functional grouping of these genes and analysis of their physical and genetic interaction patterns bring new information on Glc7-regulated processes.</p

Bussey, Howard

Harrison, Paul

Knockleby, James

Lesage, Guillaume

Logan, Michael R

Mandato, Craig A

Neszt, Michael

Nguyen, Thao

Por, Hanting

Szapiel, Nicolas

Vogel, Jackie

Zadworny, Megan

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(eds): Guide to Yeast Genetics and Molecular Biology Part B.

A: Linking functionally related genes by sensitive and quantitative characterization of genetic interaction profiles. P r o c N a t l A c a d S c i U S A

A: The FK506 binding protein Fpr3 counteracts protein phosphatase 1 to maintain meiotic recombination checkpoint activity. Cell

AA: Regulation of Saccharomyces cerevisiae kinetochores by the type 1 phosphatase Glc7p. Genes Dev

AM: A Gip1p-Glc7p phosphatase complex regulates septin organization and spore wall formation.

Amon A: Closing mitosis: the functions of the Cdc14 phosphatase and its regulation. Annu Rev Genet

Barral Y: Phosphorylationdependent regulation of septin dynamics during the cell cycle. Dev Cell

Barral Y: The NoCut pathway links completion of cytokinesis to spindle midzone function to prevent chromosome breakage. Cell

Botstein D: Unlinked noncomplementation: isolation of new conditional-lethal mutations in each of the tubulin genes of Saccharomyces cerevisiae. Genetics

C: Global mapping of the yeast genetic interaction network. Science

Cannon JF: Regulation of yeast glycogen metabolism and sporulation by Glc7p protein phosphatase. Genetics

Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature

CS: Regulation of chromosome segregation by Glc8p, a structural homolog of mammalian inhibitor 2 that functions as both an activator and an inhibitor of yeast protein phosphatase 1. Mol Cell Biol

CS: Type 1 protein phosphatase acts in opposition to IpL1 protein kinase in regulating yeast chromosome segregation. Mol Cell Biol

De Virgilio C: The Ccr4-Not complex independently controls both Msn2-dependent transcriptional activation – via a newly identified Glc7/Bud14 type I protein phosphatase module – and TFIID promoter distribution. Mol Cell Biol

Designer deletion strains derived from Saccharomyces cerevisiae S288C: a useful set of strains and plasmids for PCRmediated gene disruption and other applications. Yeast

Diverse effects of betatubulin mutations on microtubule formation and function.

E: Epitope tagging of yeast genes using a PCR-based strategy: more tags and improved practical routines. Yeast

E: Sequential and distinct roles of the cadherin domain-containing protein Axl2p in cell polarization in yeast cell cycle. Mol Biol Cell

Establishing biorientation occurs with precocious separation of the sister kinetochores, but not the arms, in the early spindle of budding yeast. Cell

Fink GR: A positive selection for mutants lacking orotidine-5'-phosphate decarboxylase activity in yeast: 5-fluoro-orotic acid resistance. Mol Gen Genet

Functional diversity of protein phosphatase-1, a cellular economizer and reset button. Physiol Rev

Galitski T: Derivation of genetic interaction networks from quantitative phenotype data. Genome Biol

Glc7/ protein phosphatase 1 regulatory subunits can oppose the Ipl1/aurora protein kinase by redistributing Glc7. Mol Cell Biol

GM: Systematic determination of genetic network architecture. Nat Genet

Grunstein M: CDC14 of Saccharomyces cerevisiae. Cloning, sequence analysis, and transcription during the cell cycle.

Harashima S: A series of double disruptants for protein phosphatase genes in Saccharomyces cerevisiae and their phenotypic analysis. Yeast

Hieter P: A system of shuttle vectors and yeast host strains designed for efficient manipulation of DNA in Saccharomyces cerevisiae. Genetics

Hieter P: Multifunctional yeast high-copy-number shuttle vectors. Gene

Hughes TR: The synthetic genetic interaction spectrum of essential genes. Nat Genet

JD: A DNA integrity network in the yeast Saccharomyces cerevisiae. Cell

JD: A robust toolkit for functional profiling of the yeast genome. Mol Cell

JE: Mutational analysis of a Ser/Thr phosphatase. Identification of residues important in phosphoesterase substrate binding and catalysis.

kinase functions in chromosome segregation. Cell

KK: A colony color method identifies the vulnerability of mitochondria to oxidative damage. Mutagenesis

Krogan NJ: Exploration of the function and organization of the yeast early secretory pathway through an epistatic miniarray profile. Cell

Krogan NJ: Functional dissection of protein complexes involved in yeast chromosome biology using a genetic interaction map. Nature

M: REG1 binds to protein phosphatase type 1 and regulates glucose repression in Saccharomyces cerevisiae. Embo J

MC: Global control of histone modification by the anaphase-promoting complex. Mol Cell Biol

Mitochondrial respiratory mutants of Saccharomyces cerevisiae accumulate glycogen and readily mobilize it in a glucose-depleted medium. Microbiology

Phospho-regulation of kinetochore-microtubule attachments by the Aurora kinase Ipl1p. Cell

Phosphorylation of gamma-tubulin regulates microtubule organization in budding yeast. Dev Cell

Polo-like kinase Cdc5 controls the local activation of Rho1 to promote cytokinesis. Science

Pringle JR: Additional modules for versatile and economical PCR-based gene deletion and modification in Saccharomyces cerevisiae. Yeast

Roeder GS: Pachytene exit controlled by reversal of Mek1-dependent phosphorylation. Cell

RW: Mitotic stability of yeast chromosomes: a colony color assay that measures nondisjunction and chromosome loss. Cell

Scd5p mediates phosphoregulation of actin and endocytosis by the type 1 phosphatase Glc7p in yeast. Mol Biol Cell

Srienc F: Cell-cycle analysis of Saccharomyces cerevisiae.

Structural basis of protein phosphatase 1 regulation. Nature

Superti-Furga G: Functional organization of the yeast proteome by systematic analysis of protein complexes.

Systematic genetic analysis with ordered arrays of yeast deletion mutants. Science

Tatchell K: Alanine-scanning mutagenesis of protein phosphatase type 1 in the yeast Saccharomyces cerevisiae. Genetics

Tatchell K: Characterization of Gac1p, a regulatory subunit of protein phosphatase type I involved in glycogen accumulation in Saccharomyces cerevisiae. Mol Genet Genomics

Tatchell K: Defects in Saccharomyces cerevisiae protein phosphatase type I activate the spindle/kinetochore checkpoint. Genes Dev

Tatchell K: Dynamic localization of protein phosphatase type 1 in the mitotic cell cycle of Saccharomyces cerevisiae.

Tatchell K: Genetic interactions between GLC7, PPZ1 and PPZ2 in saccharomyces cerevisiae. Genetics

Tatchell K: Hyperactive glycogen synthase mutants of Saccharomyces cerevisiae suppress the glc7-1 protein phosphatase mutant.

Tatchell K: Mutations in yeast protein phosphatase type 1 that affect targeting subunit binding. Biochemistry

Tatchell K: The mutant type 1 protein phosphatase encoded by glc7-1 from Saccharomyces cerevisiae fails to interact productively with the GAC1-encoded regulatory subunit. Mol Cell Biol

The Bud14p-Glc7p complex functions as a cortical regulator of dynein in budding yeast. Embo J

The EGP1 gene may be a positive regulator of protein phosphatase type 1 in the growth control of Saccharomyces cerevisiae. Mol Cell Biol

The GLC7 type 1 protein phosphatase is required for glucose repression in Saccharomyces cerevisiae. Mol Cell Biol

The Glc7 type 1 protein phosphatase of Saccharomyces cerevisiae is required for cell cycle progression in G2/M. Mol Cell Biol

The Glc7p-interacting protein Bud14p attenuates polarized growth, pheromone response, and filamentous growth in Saccharomyces cerevisiae. Eukaryot Cell

The Sec1p/Munc18 (SM) protein, Vps45p, cycles on and off membranes during vesicle transport.

Three-dimensional structure of the catalytic subunit of protein serine/threonine phosphatase-1. Nature

Tyers M: BioGRID: a general repository for interaction datasets.

Tyers M: Systematic identification of protein complexes in Saccharomyces cerevisiae by mass spectrometry. Nature

Type 1 protein phosphatase is required for maintenance of cell wall integrity, morphogenesis and cell cycle progression in Saccharomyces cerevisiae.

Genetic interaction network of the Saccharomyces cerevisiae type 1 phosphatase Glc7