PHO85/YPL031C Literature Guide 
Other names published for PHO85: LDB15, phoU, YPL031C
PHO85 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
- Proteome-wide Analysis
- Other Topics
- Additional Information
PHO85 - All Curated References (247)
| Reference | Other Genes Addressed |
|---|---|
| Bermejo C, et al. (2013) Differential regulation of glucose transport activity in yeast by specific cAMP signatures. Biochem J () |
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| Culotta VC and Daly MJ (2013) Manganese Complexes: Diverse Metabolic Routes to Oxidative Stress Resistance in Prokaryotes and Yeast. Antioxid Redox Signal () |
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| Hernandez-Ortega S, et al. (2013) Defective in mitotic arrest 1 (dma1) ubiquitin ligase controls g1 cyclin degradation. J Biol Chem 288(7):4704-14 |
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| Jimenez J, et al. (2013) The yin and yang of cyclin control by nutrients. Cell Cycle 12(6):865-6 |
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| Menoyo S, et al. (2013) Phosphate-activated cyclin-dependent kinase stabilizes g1 cyclin to trigger cell cycle entry. Mol Cell Biol 33(7):1273-84 |
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| Michigami T (2013) Extracellular phosphate as a signaling molecule. Contrib Nephrol 180():14-24 |
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| 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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| Barberis M (2012) Sic1 as a timer of Clb cyclin waves in the yeast cell cycle--design principle of not just an inhibitor. FEBS J 279(18):3386-410 |
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| Brandman O, et al. (2012) A ribosome-bound quality control complex triggers degradation of nascent peptides and signals translation stress. Cell 151(5):1042-54 |
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| Cai L and Tu BP (2012) Driving the cell cycle through metabolism. Annu Rev Cell Dev Biol 28():59-87 |
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| Cardona F, et al. (2012) Phylogenetic origin and transcriptional regulation at the post-diauxic phase of SPI1, in Saccharomyces cerevisiae. Cell Mol Biol Lett 17(3):393-407 |
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| Choi HS, et al. (2012) Pho85p-Pho80p phosphorylation of yeast Pah1p phosphatidate phosphatase regulates its activity, location, abundance, and function in lipid metabolism. J Biol Chem 287(14):11290-301 |
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| Dos Santos SC, et al. (2012) Yeast toxicogenomics: genome-wide responses to chemical stresses with impact in environmental health, pharmacology, and biotechnology. Front Genet 3():63 |
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| Garcia B, et al. (2012) The importance of conserved features of yeast actin-binding protein 1 (Abp1p): the conditional nature of essentiality. Genetics 191(4):1199-211 |
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| Henry SA, et al. (2012) Metabolism and Regulation of Glycerolipids in the Yeast Saccharomyces cerevisiae. Genetics 190(2):317-49 |
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| Ljungdahl PO and Daignan-Fornier B (2012) Regulation of Amino Acid, Nucleotide, and Phosphate Metabolism in Saccharomyces cerevisiae. Genetics 190(3):885-929 |
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| Pultz D, et al. (2012) Global mapping of protein phosphorylation events identifies Ste20, Sch9 and the cell-cycle regulatory kinases Cdc28/Pho85 as mediators of fatty acid starvation responses in Saccharomyces cerevisiae. Mol Biosyst 8(3):796-803 |
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| Rosenfeld L and Culotta VC (2012) Phosphate disruption and metal toxicity in Saccharomyces cerevisiae: effects of RAD23 and the histone chaperone HPC2. Biochem Biophys Res Commun 418(2):414-9 |
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| Rosonina E, et al. (2012) Sumoylation of transcription factor Gcn4 facilitates its Srb10-mediated clearance from promoters in yeast. Genes Dev 26(4):350-5 |
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| Secco D, et al. (2012) Phosphate homeostasis in the yeast Saccharomyces cerevisiae, the key role of the SPX domain-containing proteins. FEBS Lett 586(4):289-95 |
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| Sharifpoor S, et al. (2012) Functional wiring of the yeast kinome revealed by global analysis of genetic network motifs. Genome Res 22(4):791-801 |
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| Truman AW, et al. (2012) CDK-dependent Hsp70 Phosphorylation controls G1 cyclin abundance and cell-cycle progression. Cell 151(6):1308-18 |
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| Weiss EL (2012) Mitotic exit and separation of mother and daughter cells. Genetics 192(4):1165-202 |
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| Wloka C and Bi E (2012) Mechanisms of cytokinesis in budding yeast. Cytoskeleton (Hoboken) 69(10):710-26 |
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| Yoshida S and Yokoyama A (2012) Identification and characterization of genes related to the production of organic acids in yeast. J Biosci Bioeng 113(5):556-61 |
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| de Virgilio C (2012) The essence of yeast quiescence. FEMS Microbiol Rev 36(2):306-39 |
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| Achcar F, et al. (2011) A Boolean probabilistic model of metabolic adaptation to oxygen in relation to iron homeostasis and oxidative stress. BMC Syst Biol 5(1):51 |
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| Barreto L, et al. (2011) A genomewide screen for tolerance to cationic drugs reveals genes important for potassium homeostasis in Saccharomyces cerevisiae. Eukaryot Cell 10(9):1241-50 |
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| Bergwitz C and Juppner H (2011) Phosphate sensing. Adv Chronic Kidney Dis 18(2):132-44 |
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| Burtner CR, et al. (2011) A genomic analysis of chronological longevity factors in budding yeast. Cell Cycle 10(9):1385-96 |
