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Molecular and Cellular Biology Volume 23, 2003 - Issue 11
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Transcriptional Regulation

Polyphosphate Loss Promotes SNF/SWI- and Gcn5-Dependent Mitotic Induction of PHO5

Daniel W. NeefDepartment of Biochemistry and Biophysics, Texas A&M University, College Station, Texas77843-2128
&
Michael P. KladdeDepartment of Biochemistry and Biophysics, Texas A&M University, College Station, Texas77843-2128Correspondence[email protected]
Pages 3788-3797 | Received 23 Oct 2002, Accepted 06 Mar 2003, Published online: 27 Mar 2023

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Franziska Ertel, A. Barbara Dirac-Svejstrup, Christina Bech Hertel, Dorothea Blaschke, Jesper Q. Svejstrup & Philipp Korber. (2010) In Vitro Reconstitution of PHO5 Promoter Chromatin Remodeling Points to a Role for Activator-Nucleosome Competition In Vivo. Molecular and Cellular Biology 30:16, pages 4060-4076.
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Santhi Pondugula, Daniel W. Neef, Warren P. Voth, Russell P. Darst, Archana Dhasarathy, M. Megan Reynolds, Shinya Takahata, David J. Stillman & Michael P. Kladde. (2009) Coupling Phosphate Homeostasis to Cell Cycle-Specific Transcription: Mitotic Activation of Saccharomyces cerevisiae PHO5 by Mcm1 and Forkhead Proteins. Molecular and Cellular Biology 29:18, pages 4891-4905.
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Christian J. Wippo, Bojana Silic Krstulovic, Franziska Ertel, Sanja Musladin, Dorothea Blaschke, Sabrina Stürzl, Guo-Cheng Yuan, Wolfram Hörz, Philipp Korber & Slobodan Barbaric. (2009) Differential Cofactor Requirements for Histone Eviction from Two Nucleosomes at the Yeast PHO84 Promoter Are Determined by Intrinsic Nucleosome Stability. Molecular and Cellular Biology 29:11, pages 2960-2981.
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Brian C. Del Rosario & Lucy F. Pemberton. (2008) Nap1 Links Transcription Elongation, Chromatin Assembly, and Messenger RNP Complex Biogenesis. Molecular and Cellular Biology 28:7, pages 2113-2124.
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Melissa W. Adkins, Stephanie K. Williams, Jeffrey Linger & Jessica K. Tyler. (2007) Chromatin Disassembly from the PHO5 Promoter Is Essential for the Recruitment of the General Transcription Machinery and Coactivators. Molecular and Cellular Biology 27:18, pages 6372-6382.
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Christina Bech Hertel, Gernot Längst, Wolfram Hörz & Philipp Korber. (2005) Nucleosome Stability at the Yeast PHO5 and PHO8 Promoters Correlates with Differential Cofactor Requirements for Chromatin Opening. Molecular and Cellular Biology 25:24, pages 10755-10767.
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Archana Dhasarathy & Michael P. Kladde. (2005) Promoter Occupancy Is a Major Determinant of Chromatin Remodeling Enzyme Requirements. Molecular and Cellular Biology 25:7, pages 2698-2707.
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Andrea A. Duina & Fred Winston. (2004) Analysis of a Mutant Histone H3 That Perturbs the Association of Swi/Snf with Chromatin. Molecular and Cellular Biology 24:2, pages 561-572.
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Articles from other publishers (50)

Geun-Don Kim, Danye Qiu, Henning Jacob Jessen & Andreas Mayer. (2023) Metabolic Consequences of Polyphosphate Synthesis and Imminent Phosphate Limitation. mBio.
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Yasmin Ahmed, Mélanie A. C. Ikeh, Donna M. MacCallum, Alison M. Day, Kevin Waldron & Janet Quinn. (2022) Blocking Polyphosphate Mobilization Inhibits Pho4 Activation and Virulence in the Pathogen Candida albicans. mBio 13:3.
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Weiran Chu, Yi Shi & Liang Zhang. (2022) Recovery of Phosphorus in Wastewater in the Form of Polyphosphates: A Review. Processes 10:1, pages 144.
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Luisa Vivian Schwarz, Maria Jose Valera, Ana Paula Longaray Delamare, Francisco Carrau & Sergio Echeverrigaray. (2022) A peculiar cell cycle arrest at g2/m stage during the stationary phase of growth in the wine yeast Hanseniaspora vineae.. Current Research in Microbial Sciences 3, pages 100129.
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Francisca Randez-Gil, Lino Bojunga, Francisco Estruch, Joris Winderickx, Maurizio Del Poeta & Jose A. Prieto. (2020) Sphingolipids and Inositol Phosphates Regulate the Tau Protein Phosphorylation Status in Humanized Yeast. Frontiers in Cell and Developmental Biology 8.
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Sisley Austin & Andreas Mayer. (2020) Phosphate Homeostasis − A Vital Metabolic Equilibrium Maintained Through the INPHORS Signaling Pathway. Frontiers in Microbiology 11.
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Jose A. Prieto, Francisco Estruch, Isaac Córcoles-Sáez, Maurizio Del Poeta, Robert Rieger, Irene Stenzel & Francisca Randez-Gil. (2020) Pho85 and PI(4,5)P2 regulate different lipid metabolic pathways in response to cold. Biochimica et Biophysica Acta (BBA) - Molecular and Cell Biology of Lipids 1865:2, pages 158557.
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Neda Savic, Shawn P Shortill, Misha Bilenky, Joseph M Dobbs, David Dilworth, Martin Hirst & Christopher J Nelson. (2019) Histone Chaperone Paralogs Have Redundant, Cooperative, and Divergent Functions in Yeast. Genetics 213:4, pages 1301-1316.
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Evgeniy Potapenko, Ciro D. Cordeiro, Guozhong Huang & Roberto Docampo. (2019) Pyrophosphate Stimulates the Phosphate-Sodium Symporter of Trypanosoma brucei Acidocalcisomes and Saccharomyces cerevisiae Vacuoles . mSphere 4:2.
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Evgeniy Potapenko, Ciro D. Cordeiro, Guozhong Huang, Melissa Storey, Christopher Wittwer, Amit K. Dutta, Henning J. Jessen, Vincent J. Starai & Roberto Docampo. (2018) 5-Diphosphoinositol pentakisphosphate (5-IP7) regulates phosphate release from acidocalcisomes and yeast vacuoles. Journal of Biological Chemistry 293:49, pages 19101-19112.
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Jonas Johannes Christ & Lars Mathias Blank. (2018) Analytical polyphosphate extraction from Saccharomyces cerevisiae. Analytical Biochemistry 563, pages 71-78.
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Javier Jiménez, Samuel Bru, Mariana P. C. Ribeiro & Josep Clotet. (2016) Polyphosphate: popping up from oblivion. Current Genetics 63:1, pages 15-18.
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Mélanie A. C. Ikeh, Stavroula L. Kastora, Alison M. Day, Carmen M. Herrero-de-Dios, Emma Tarrant, Kevin J. Waldron, A. Peter Banks, Judith M. Bain, David Lydall, Elizabeth A. Veal, Donna M. MacCallum, Lars P. Erwig, Alistair J. P. Brown & Janet Quinn. (2016) Pho4 mediates phosphate acquisition in Candida albicans and is vital for stress resistance and metal homeostasis . Molecular Biology of the Cell 27:17, pages 2784-2801.
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Kamlesh Kumar Yadav, Neelima Singh & Ram Rajasekharan. (2015) Responses to phosphate deprivation in yeast cells. Current Genetics 62:2, pages 301-307.
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Nicolas Nocetti & Iestyn Whitehouse. (2016) Nucleosome repositioning underlies dynamic gene expression. Genes & Development 30:6, pages 660-672.
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Kamlesh Kumar Yadav, Neelima Singh & Ram Rajasekharan. (2015) PHO 4 transcription factor regulates triacylglycerol metabolism under low‐phosphate conditions in S accharomyces cerevisiae . Molecular Microbiology 98:3, pages 456-472.
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Philipp Korber & Slobodan Barbaric. (2014) The yeast PHO5 promoter: from single locus to systems biology of a paradigm for gene regulation through chromatin. Nucleic Acids Research 42:17, pages 10888-10902.
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Sanja Musladin, Nils Krietenstein, Philipp Korber & Slobodan Barbaric. (2022) The RSC chromatin remodeling complex has a crucial role in the complete remodeler set for yeast PHO5 promoter opening . Nucleic Acids Research 42:7, pages 4270-4282.
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Gaurav Bairwa, Mubashshir Rasheed, Ritu Taigwal, Rosalin Sahoo & Rupinder Kaur. (2014) GPI (glycosylphosphatidylinositol)-linked aspartyl proteases regulate vacuole homoeostasis in Candida glabrata . Biochemical Journal 458:2, pages 323-334.
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Stephan Hamperl, Christopher R. Brown, Ana Villar Garea, Jorge Perez-Fernandez, Astrid Bruckmann, Katharina Huber, Manuel Wittner, Virginia Babl, Ulrike Stoeckl, Rainer Deutzmann, Hinrich Boeger, Herbert Tschochner, Philipp Milkereit & Joachim Griesenbeck. (2014) Compositional and structural analysis of selected chromosomal domains from Saccharomyces cerevisiae. Nucleic Acids Research 42:1, pages e2-e2.
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Shinya WatanabeMarta Radman-LivajaOliver J. RandoCraig L. Peterson. (2013) A Histone Acetylation Switch Regulates H2A.Z Deposition by the SWR-C Remodeling Enzyme. Science 340:6129, pages 195-199.
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Jakob Madsen Pedersen, Jacob Fredsoe, Morten Roedgaard, Lotte Andreasen, Kamilla Mundbjerg, Mogens Kruhøffer, Marie Brinch, Mikkel Heide Schierup, Lotte Bjergbaek & Anni Hangaard Andersen. (2012) DNA Topoisomerases Maintain Promoters in a State Competent for Transcriptional Activation in Saccharomyces cerevisiae. PLoS Genetics 8:12, pages e1003128.
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Ling CaiBenjamin P. Tu. (2012) Driving the Cell Cycle Through Metabolism. Annual Review of Cell and Developmental Biology 28:1, pages 59-87.
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Per O Ljungdahl & Bertrand Daignan-Fornier. (2012) Regulation of Amino Acid, Nucleotide, and Phosphate Metabolism in Saccharomyces cerevisiae . Genetics 190:3, pages 885-929.
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Christopher R. Brown, Changhui Mao, Elena Falkovskaia, Jason K. Law & Hinrich Boeger. (2011) In Vivo Role for the Chromatin-remodeling Enzyme SWI/SNF in the Removal of Promoter Nucleosomes by Disassembly Rather Than Sliding. Journal of Biological Chemistry 286:47, pages 40556-40565.
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Annalisa Lonetti, Zsolt Szijgyarto, Daniel Bosch, Omar Loss, Cristina Azevedo & Adolfo Saiardi. (2011) Identification of an Evolutionarily Conserved Family of Inorganic Polyphosphate Endopolyphosphatases. Journal of Biological Chemistry 286:37, pages 31966-31974.
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Andreas H. Ehrensberger & Roger D. Kornberg. (2011) Isolation of an activator-dependent, promoter-specific chromatin remodeling factor. Proceedings of the National Academy of Sciences 108:25, pages 10115-10120.
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Shu-Ping Lu & Su-Ju Lin. (2011) Phosphate-responsive Signaling Pathway Is a Novel Component of NAD+ Metabolism in Saccharomyces cerevisiae. Journal of Biological Chemistry 286:16, pages 14271-14281.
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Yun Zhou & Min Ni. (2010) SHORT HYPOCOTYL UNDER BLUE1 Truncations and Mutations Alter Its Association with a Signaling Protein Complex in Arabidopsis   . The Plant Cell 22:3, pages 703-715.
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Christopher D. Carvin & Michael P. Kladde. (2004) Effectors of Lysine 4 Methylation of Histone H3 in Saccharomyces cerevisiae Are Negative Regulators of PHO5 and GAL1-10. Journal of Biological Chemistry 279:32, pages 33057-33062.
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Melissa W Adkins, Susan R Howar & Jessica K Tyler. (2004) Chromatin Disassembly Mediated by the Histone Chaperone Asf1 Is Essential for Transcriptional Activation of the Yeast PHO5 and PHO8 Genes. Molecular Cell 14:5, pages 657-666.
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