HSP82/YPL240C Literature Guide 
Other names published for HSP82: HSP90, Hsp90 family chaperone HSP82, YPL240C
HSP82 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
- HSP82 Summary Paragraph
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- All genome-wide analysis papers
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HSP82 Literature Curation Summary
Curated References for HSP82: 473
Date of last curation: 2013-03-31
| Reference | Other Genes Addressed |
|---|---|
| Xu Y, et al. (1999) Maturation of the tyrosine kinase c-src as a kinase and as a substrate depends on the molecular chaperone Hsp90. Proc Natl Acad Sci U S A 96(1):109-14 |
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| Yue L, et al. (1999) Genetic analysis of viable Hsp90 alleles reveals a critical role in Drosophila spermatogenesis. Genetics 151(3):1065-79 |
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| Zhang L and Hach A (1999) Molecular mechanism of heme signaling in yeast: the transcriptional activator Hap1 serves as the key mediator. Cell Mol Life Sci 56(5-6):415-26 |
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| Bohen SP (1998) Genetic and biochemical analysis of p23 and ansamycin antibiotics in the function of Hsp90-dependent signaling proteins. Mol Cell Biol 18(6):3330-9 |
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| Deegenaars ML and Watson K (1998) Heat shock response in the thermophilic enteric yeast Arxiozyma telluris. Appl Environ Microbiol 64(8):3063-5 |
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| Delling U, et al. (1998) Identification of Saccharomyces cerevisiae genes conferring resistance to quinoline ring-containing antimalarial drugs. Antimicrob Agents Chemother 42(5):1034-41 |
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| Dolinski KJ, et al. (1998) CNS1 encodes an essential p60/Sti1 homolog in Saccharomyces cerevisiae that suppresses cyclophilin 40 mutations and interacts with Hsp90. Mol Cell Biol 18(12):7344-52 |
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| Duina AA, et al. (1998) Requirement for Hsp90 and a CyP-40-type cyclophilin in negative regulation of the heat shock response. J Biol Chem 273(30):18974-8 |
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| Duina AA, et al. (1998) The peptidyl-prolyl isomerase domain of the CyP-40 cyclophilin homolog Cpr7 is not required to support growth or glucocorticoid receptor activity in Saccharomyces cerevisiae. J Biol Chem 273(18):10819-22 |
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| Fang Y, et al. (1998) SBA1 encodes a yeast hsp90 cochaperone that is homologous to vertebrate p23 proteins. Mol Cell Biol 18(7):3727-34 |
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| Geymonat M, et al. (1998) Ssa1p chaperone interacts with the guanine nucleotide exchange factor of ras Cdc25p and controls the cAMP pathway in Saccharomyces cerevisiae. Mol Microbiol 30(4):855-64 |
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| Gray NS, et al. (1998) Exploiting chemical libraries, structure, and genomics in the search for kinase inhibitors. Science 281(5376):533-8 |
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| Gross C and Watson K (1998) Application of mRNA differential display to investigate gene expression in thermotolerant cells of Saccharomyces cerevisiae. Yeast 14(5):431-42 |
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| Louvion JF, et al. (1998) Hsp90 is required for pheromone signaling in yeast. Mol Biol Cell 9(11):3071-83 |
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| Marsh JA, et al. (1998) Cns1 is an essential protein associated with the hsp90 chaperone complex in Saccharomyces cerevisiae that can restore cyclophilin 40-dependent functions in cpr7Delta cells. Mol Cell Biol 18(12):7353-9 |
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| McNeil JB, et al. (1998) Activated transcription independent of the RNA polymerase II holoenzyme in budding yeast. Genes Dev 12(16):2510-21 |
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| Miller CA 3rd, et al. (1998) Assessment of aryl hydrocarbon receptor complex interactions using pBEVY plasmids: expressionvectors with bi-directional promoters for use in Saccharomyces cerevisiae. Nucleic Acids Res 26(15):3577-83 |
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| Obermann WM, et al. (1998) In vivo function of Hsp90 is dependent on ATP binding and ATP hydrolysis. J Cell Biol 143(4):901-10 |
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| Panaretou B, et al. (1998) ATP binding and hydrolysis are essential to the function of the Hsp90 molecular chaperone in vivo. EMBO J 17(16):4829-36 |
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| Pratt WB (1998) The hsp90-based chaperone system: involvement in signal transduction from a variety of hormone and growth factor receptors. Proc Soc Exp Biol Med 217(4):420-34 |
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| Scheibel T, et al. (1998) Two chaperone sites in Hsp90 differing in substrate specificity and ATP dependence. Proc Natl Acad Sci U S A 95(4):1495-9 |
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| Treger JM, et al. (1998) Transcriptional factor mutations reveal regulatory complexities of heat shock and newly identified stress genes in Saccharomyces cerevisiae. J Biol Chem 273(41):26875-9 |
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| Zhang L, et al. (1998) Molecular mechanism governing heme signaling in yeast: a higher-order complex mediates heme regulation of the transcriptional activator HAP1. Mol Cell Biol 18(7):3819-28 |
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| Caplan AJ (1997) Yeast molecular chaperones and the mechanism of steroid hormone action. Trends Endocrinol Metab 8(7):271-5 |
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| Chang HC, et al. (1997) In vivo analysis of the Hsp90 cochaperone Sti1 (p60). Mol Cell Biol 17(1):318-25 |
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| Dzeletovic N, et al. (1997) Regulation of dioxin receptor function by omeprazole. J Biol Chem 272(19):12705-13 |
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| Eng FC, et al. (1997) Probing the structure and function of the estrogen receptor ligand binding domain by analysis of mutants with altered transactivation characteristics. Mol Cell Biol 17(8):4644-53 |
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| Nathan DF, et al. (1997) In vivo functions of the Saccharomyces cerevisiae Hsp90 chaperone. Proc Natl Acad Sci U S A 94(24):12949-56 |
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| Prodromou C, et al. (1997) A molecular clamp in the crystal structure of the N-terminal domain of the yeast Hsp90 chaperone. Nat Struct Biol 4(6):477-82 |
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| Prodromou C, et al. (1997) Identification and structural characterization of the ATP/ADP-binding site in the Hsp90 molecular chaperone. Cell 90(1):65-75 |
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