PHO12/YHR215W Literature Guide 
Other names published for PHO12: PHO10, YHR215W
PHO12 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
- Literature Curation Summary
- Pubmed Search
- Expanded Pubmed Search
- All genome-wide analysis papers
- Search Google Scholar
PHO12 Literature Curation Summary
Curated References for PHO12: 54
Date of last curation: 2013-04-16
| Reference | Other Genes Addressed |
|---|---|
| Bajwa PK, et al. (2013) Transcriptional profiling of Saccharomyces cerevisiae T2 cells upon exposure to hardwood spent sulphite liquor: comparison to acetic acid, furfural and hydroxymethylfurfural. Antonie Van Leeuwenhoek () |
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| Llopis S, et al. (2012) Transcriptomics in human blood incubation reveals the importance of oxidative stress response in Saccharomyces cerevisiae clinical strains. BMC Genomics 13(1):419 |
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| Nijkamp JF, et al. (2012) De novo sequencing, assembly and analysis of the genome of the laboratory strain Saccharomyces cerevisiae CEN.PK113-7D, a model for modern industrial biotechnology. Microb Cell Fact 11(1):36 |
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| Page B and Drouin G (2012) Stronger purifying selection against gene conversions in a pathogenic Saccharomyces cerevisiae strain. Genome 55(12):835-43 |
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| Postnikoff SD and Harkness TA (2012) Mechanistic insights into aging, cell-cycle progression, and stress response. Front Physiol 3():183 |
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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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| Bergwitz C and Juppner H (2011) Phosphate sensing. Adv Chronic Kidney Dis 18(2):132-44 |
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| Dos Santos SC and Sa-Correia I (2011) A genome-wide screen identifies yeast genes required for protection against or enhanced cytotoxicity of the antimalarial drug quinine. Mol Genet Genomics 286(5-6):333-46 |
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| Joshi A, et al. (2011) Structural and functional organization of RNA regulons in the post-transcriptional regulatory network of yeast. Nucleic Acids Res 39(21):9108-17 |
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| Nguyen HV, et al. (2011) Deciphering the Hybridisation History Leading to the Lager Lineage Based on the Mosaic Genomes of Saccharomyces bayanus Strains NBRC1948 and CBS380. PLoS One 6(10):e25821 |
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| Sambuk EV, et al. (2011) Acid phosphatases of budding yeast as a model of choice for transcription regulation research. Enzyme Res 2011():356093 |
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| Tu WY, et al. (2011) Rpl12p affects the transcription of the PHO pathway high-affinity inorganic phosphate transporters and repressible phosphatases. Yeast 28(6):481-93 |
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| Arino J (2010) Integrative Responses to High pH Stress in S. cerevisiae. OMICS 14(5):517-23 |
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| Marino SM, et al. (2010) Characterization of Surface-Exposed Reactive Cysteine Residues in Saccharomyces cerevisiae. Biochemistry 49(35):7709-21 |
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| Campiteli MG, et al. (2009) A reliable measure of similarity based on dependency for short time series: an application to gene expression networks. BMC Bioinformatics 10:270 |
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| Katju V, et al. (2009) Variation in gene duplicates with low synonymous divergence in Saccharomyces cerevisiae relative to Caenorhabditis elegans. Genome Biol 10(7):R75 |
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| Peiro-Chova L and Estruch F (2009) The yeast RNA polymerase II-associated factor Iwr1p is involved in the basal and regulated transcription of specific genes. J Biol Chem 284(42):28958-67 |
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| Pinson B, et al. (2009) Metabolic intermediates selectively stimulate transcription factor interaction and modulate phosphate and purine pathways. Genes Dev 23(12):1399-407 |
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| Carreto L, et al. (2008) Comparative genomics of wild type yeast strains unveils important genome diversity. BMC Genomics 9524 |
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| Gauthier S, et al. (2008) Co-regulation of yeast purine and phosphate pathways in response to adenylic nucleotide variations. Mol Microbiol 68(6):1583-94 |
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| Grund SE, et al. (2008) The inner nuclear membrane protein Src1 associates with subtelomeric genes and alters their regulated gene expression. J Cell Biol 182(5):897-910 |
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| Kasahara K, et al. (2008) Saccharomyces cerevisiae HMO1 interacts with TFIID and participates in start site selection by RNA polymerase II. Nucleic Acids Res 36(4):1343-57 |
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| Rojas M, et al. (2008) Genomewide expression profiling of cryptolepine-induced toxicity in Saccharomyces cerevisiae. Antimicrob Agents Chemother 52(11):3844-50 |
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| Coronado JE, et al. (2007) Conserved processes and lineage-specific proteins in fungal cell wall evolution. Eukaryot Cell 6(12):2269-77 |
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| Cliften PF, et al. (2006) After the duplication: gene loss and adaptation in Saccharomyces genomes. Genetics 172(2):863-72 |
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| Gonzalez A, et al. (2006) Transcriptional profiling of the protein phosphatase 2C family in yeast provides insights into the unique functional roles of Ptc1. J Biol Chem 281(46):35057-69 |
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| Houalla R, et al. (2006) Microarray detection of novel nuclear RNA substrates for the exosome. Yeast 23(6):439-54 |
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| Mouillon JM and Persson BL (2006) New aspects on phosphate sensing and signalling in Saccharomyces cerevisiae. FEMS Yeast Res 6(2):171-6 |
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| Gonze D, et al. (2005) Discrimination of yeast genes involved in methionine and phosphate metabolism on the basis of upstream motifs. Bioinformatics 21(17):3490-500 |
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| Panadero J, et al. (2005) Validation of a flour-free model dough system for throughput studies of baker's yeast. Appl Environ Microbiol 71(3):1142-7 |
