Genetic interaction network of the <it>Saccharomyces cerevisiae </it>type 1 phosphatase Glc7

Genetic interaction network of the <it>Saccharomyces cerevisiae </it>type 1 phosphatase Glc7

<p>Abstract</p> <p>Background</p> <p>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 t...

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Main Authors: Neszt Michael, Zadworny Megan, Por Hanting, Knockleby James, Szapiel Nicolas, Nguyen Thao, Logan Michael R, Harrison Paul, Bussey Howard, Mandato Craig A, Vogel Jackie, Lesage Guillaume
Format: Article
Language:English
Published: BMC 2008-07-01
Series:BMC Genomics
Online Access:http://www.biomedcentral.com/1471-2164/9/336
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spelling doaj-084abc822f314a199a2f019bf27dde842020-11-25T00:36:58ZengBMCBMC Genomics1471-21642008-07-019133610.1186/1471-2164-9-336Genetic interaction network of the <it>Saccharomyces cerevisiae </it>type 1 phosphatase Glc7Neszt MichaelZadworny MeganPor HantingKnockleby JamesSzapiel NicolasNguyen ThaoLogan Michael RHarrison PaulBussey HowardMandato Craig AVogel JackieLesage Guillaume<p>Abstract</p> <p>Background</p> <p>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.</p> <p>Results</p> <p>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.</p> <p>Conclusion</p> <p>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> http://www.biomedcentral.com/1471-2164/9/336
collection DOAJ
language English
format Article
sources DOAJ
author Neszt Michael
Zadworny Megan
Por Hanting
Knockleby James
Szapiel Nicolas
Nguyen Thao
Logan Michael R
Harrison Paul
Bussey Howard
Mandato Craig A
Vogel Jackie
Lesage Guillaume
spellingShingle Neszt Michael
Zadworny Megan
Por Hanting
Knockleby James
Szapiel Nicolas
Nguyen Thao
Logan Michael R
Harrison Paul
Bussey Howard
Mandato Craig A
Vogel Jackie
Lesage Guillaume
Genetic interaction network of the <it>Saccharomyces cerevisiae </it>type 1 phosphatase Glc7
BMC Genomics
author_facet Neszt Michael
Zadworny Megan
Por Hanting
Knockleby James
Szapiel Nicolas
Nguyen Thao
Logan Michael R
Harrison Paul
Bussey Howard
Mandato Craig A
Vogel Jackie
Lesage Guillaume
author_sort Neszt Michael
title Genetic interaction network of the <it>Saccharomyces cerevisiae </it>type 1 phosphatase Glc7
title_short Genetic interaction network of the <it>Saccharomyces cerevisiae </it>type 1 phosphatase Glc7
title_full Genetic interaction network of the <it>Saccharomyces cerevisiae </it>type 1 phosphatase Glc7
title_fullStr Genetic interaction network of the <it>Saccharomyces cerevisiae </it>type 1 phosphatase Glc7
title_full_unstemmed Genetic interaction network of the <it>Saccharomyces cerevisiae </it>type 1 phosphatase Glc7
title_sort genetic interaction network of the <it>saccharomyces cerevisiae </it>type 1 phosphatase glc7
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2008-07-01
description <p>Abstract</p> <p>Background</p> <p>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.</p> <p>Results</p> <p>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.</p> <p>Conclusion</p> <p>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>
url http://www.biomedcentral.com/1471-2164/9/336
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