ARG82/YDR173C Literature Guide 
Other names published for ARG82: ARGR3, IPK2, ARGRIII, inositol polyphosphate multikinase, YDR173C
ARG82 LITERATURE TOPICS
- Curated Literature
- Additional Literature
- All Curated References
- Primary Literature
- Reviews
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Other Topics
- Additional Information
ARG82 - Primary Literature (47)
| Reference | Other Genes Addressed |
|---|---|
| Sukhai MA, et al. (2013) Lysosomal disruption preferentially targets acute myeloid leukemia cells and progenitors. J Clin Invest 123(1):315-28 |
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| Worley J, et al. (2013) Inositol Pyrophosphates Regulate Cell Growth and the Environmental Stress Response by Activating the HDAC Rpd3L. Cell Rep () |
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| Bosch D and Saiardi A (2012) Arginine transcriptional response does not require inositol phosphate synthesis. J Biol Chem 287(45):38347-55 |
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| Chang J and Vancura A (2012) Analysis of SUC2 Promoter Structure by Nucleosome Scanning. Methods Mol Biol 809():321-33 |
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| Endo-Streeter S, et al. (2012) Structural studies and protein engineering of inositol phosphate multikinase. J Biol Chem 287(42):35360-9 |
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| Taylor R, et al. (2012) KCS1 deletion in Saccharomyces cerevisiae leads to a defect in translocation of autophagic proteins and reduces autophagosome formation. Autophagy 8(9):1300-11 |
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| Ottosson LG, et al. (2010) Sulfate Assimilation Mediates Tellurite Reduction and Toxicity in Saccharomyces cerevisiae. Eukaryot Cell 9(10):1635-1647 |
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| Guzinska K, et al. (2009) Role of Plc1p in regulation of Mcm1p-dependent genes. FEMS Microbiol Lett 295(2):245-50 |
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| Kanki T, et al. (2009) A genomic screen for yeast mutants defective in selective mitochondria autophagy. Mol Biol Cell 20(22):4730-8 |
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| Padmanabhan U, et al. (2009) Characterization of a Selective Inhibitor of Inositol Hexakisphosphate Kinases: USE IN DEFINING BIOLOGICAL ROLES AND METABOLIC RELATIONSHIPS OF INOSITOL PYROPHOSPHATES. J Biol Chem 284(16):10571-82 |
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| Zhu JQ, et al. (2009) Molecular characterization of ThIPK2, an inositol polyphosphate kinase gene homolog from Thellungiella halophila, and its heterologous expression to improve abiotic stress tolerance in Brassica napus. Physiol Plant 136(4):407-25 |
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| Yang L, et al. (2008) Enhancement of stress tolerance in transgenic tobacco plants constitutively expressing AtIpk2beta, an inositol polyphosphate 6-/3-kinase from Arabidopsis thaliana. Plant Mol Biol 66(4):329-43 |
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| Caddick SE, et al. (2007) A lysine accumulation phenotype of ScIpk2Delta mutant yeast is rescued by Solanum tuberosum inositol phosphate multikinase. Biochem J 403(3):381-9 |
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| Holmes W and Jogl G (2006) Crystal structure of inositol phosphate multikinase 2 and implications for substrate specificity. J Biol Chem 281(49):38109-16 |
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| Auesukaree C, et al. (2005) Plc1p, Arg82p, and Kcs1p, enzymes involved in inositol pyrophosphate synthesis, are essential for phosphate regulation and polyphosphate accumulation in Saccharomyces cerevisiae. J Biol Chem 280(26):25127-33 |
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| Fujii M and York JD (2005) A role for rat inositol polyphosphate kinases rIPK2 and rIPK1 in inositol pentakisphosphate and inositol hexakisphosphate production in rat-1 cells. J Biol Chem 280(2):1156-64 |
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| Resnick AC, et al. (2005) Inositol polyphosphate multikinase is a nuclear PI3-kinase with transcriptional regulatory activity. Proc Natl Acad Sci U S A 102(36):12783-8 |
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| Seeds AM, et al. (2005) Molecular definition of a novel inositol polyphosphate metabolic pathway initiated by inositol 1,4,5-trisphosphate 3-kinase activity in Saccharomyces cerevisiae. J Biol Chem 280(30):27654-61 |
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| Seeds AM, et al. (2004) A molecular basis for inositol polyphosphate synthesis in Drosophila melanogaster. J Biol Chem 279(45):47222-32 |
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| Yoon S, et al. (2004) Recruitment of the ArgR/Mcm1p repressor is stimulated by the activator Gcn4p: a self-checking activation mechanism. Proc Natl Acad Sci U S A 101(32):11713-8 |
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| El Alami M, et al. (2003) Arg82p is a bifunctional protein whose inositol polyphosphate kinase activity is essential for nitrogen and PHO gene expression but not for Mcm1p chaperoning in yeast. Mol Microbiol 49(2):457-68 |
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| Steger DJ, et al. (2003) Regulation of chromatin remodeling by inositol polyphosphates. Science 299(5603):114-6 |
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| Xia HJ, et al. (2003) Arabidopsis inositol polyphosphate 6-/3-kinase is a nuclear protein that complements a yeast mutant lacking a functional ArgR-Mcm1 transcription complex. Plant Cell 15(2):449-63 |
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| Dubois E, et al. (2002) In Saccharomyces cerevisiae, the inositol polyphosphate kinase activity of Kcs1p is required for resistance to salt stress, cell wall integrity, and vacuolar morphogenesis. J Biol Chem 277(26):23755-63 |
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| Nalaskowski MM, et al. (2002) The human homologue of yeast ArgRIII protein is an inositol phosphate multikinase with predominantly nuclear localization. Biochem J 366(Pt 2):549-56 |
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| Saiardi A, et al. (2002) Inositol pyrophosphates regulate endocytic trafficking. Proc Natl Acad Sci U S A 99(22):14206-11 |
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| Stevenson-Paulik J, et al. (2002) Molecular and biochemical characterization of two plant inositol polyphosphate 6-/3-/5-kinases. J Biol Chem 277(45):42711-8 |
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| Turner SD, et al. (2002) The E2 ubiquitin conjugase Rad6 is required for the ArgR/Mcm1 repression of ARG1 transcription. Mol Cell Biol 22(12):4011-9 |
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| Zhang T, et al. (2001) The transcriptional regulator, Arg82, is a hybrid kinase with both monophosphoinositol and diphosphoinositol polyphosphate synthase activity. FEBS Lett 494(3):208-12 |
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| Chi TH and Crabtree GR (2000) Perspectives: signal transduction. Inositol phosphates in the nucleus. Science 287(5460):1937-9 |
