OSH2/YDL019C Literature Guide 
Other names published for OSH2: YDL019C
OSH2 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Strains/Constructs
- Techniques and Reagents
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
OSH2 - Strains/Constructs (21)
| Reference | Other Genes Addressed |
|---|---|
| Alfaro G, et al. (2011) The sterol-binding protein Kes1/Osh4p is a regulator of polarized exocytosis. Traffic 12(11):1521-36 |
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| Georgiev A, et al. (2011) Osh proteins regulate membrane sterol organization but are not required for sterol movement between the ER and PM. Traffic 12(10):1341-55 |
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| Lee YJ, et al. (2011) Defects in very long chain Fatty Acid synthesis enhance alpha-synuclein toxicity in a yeast model of Parkinson's disease. PLoS One 6(1):e15946 |
|
| Shi Y, et al. (2011) Two novel WD40 domain-containing proteins, Ere1 and Ere2, function in the retromer-mediated endosomal recycling pathway. Mol Biol Cell 22(21):4093-107 |
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| Stefan CJ, et al. (2011) Osh Proteins Regulate Phosphoinositide Metabolism at ER-Plasma Membrane Contact Sites. Cell 144(3):389-401 |
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| Dawaliby R and Mayer A (2010) Microautophagy of the nucleus coincides with a vacuolar diffusion barrier at nuclear-vacuolar junctions. Mol Biol Cell 21(23):4173-83 |
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| Huber A, et al. (2009) Characterization of the rapamycin-sensitive phosphoproteome reveals that Sch9 is a central coordinator of protein synthesis. Genes Dev 23(16):1929-43 |
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| Schulz TA, et al. (2009) Lipid-regulated sterol transfer between closely apposed membranes by oxysterol-binding protein homologues. J Cell Biol 187(6):889-903 |
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| Fairn GD, et al. (2007) The oxysterol binding protein Kes1p regulates Golgi apparatus phosphatidylinositol-4-phosphate function. Proc Natl Acad Sci U S A 104(39):15352-7 |
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| Kozminski KG, et al. (2006) Homologues of oxysterol-binding proteins affect Cdc42p- and Rho1p-mediated cell polarization in Saccharomyces cerevisiae. Traffic 7(9):1224-42 |
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| Raychaudhuri S, et al. (2006) Nonvesicular sterol movement from plasma membrane to ER requires oxysterol-binding protein-related proteins and phosphoinositides. J Cell Biol 173(1):107-19 |
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| Mah AS, et al. (2005) Substrate specificity analysis of protein kinase complex Dbf2-Mob1 by peptide library and proteome array screening. BMC Biochem 6():22 |
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| Wang P, et al. (2005) AAA ATPases regulate membrane association of yeast oxysterol binding proteins and sterol metabolism. EMBO J 24(17):2989-99 |
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| Beh CT and Rine J (2004) A role for yeast oxysterol-binding protein homologs in endocytosis and in the maintenance of intracellular sterol-lipid distribution. J Cell Sci 117(Pt 14):2983-96 |
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| Kvam E and Goldfarb DS (2004) Nvj1p is the outer-nuclear-membrane receptor for oxysterol-binding protein homolog Osh1p in Saccharomyces cerevisiae. J Cell Sci 117(Pt 21):4959-68 |
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| Roy A and Levine TP (2004) Multiple pools of phosphatidylinositol 4-phosphate detected using the pleckstrin homology domain of Osh2p. J Biol Chem 279(43):44683-9 |
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| Loewen CJ, et al. (2003) A conserved ER targeting motif in three families of lipid binding proteins and in Opi1p binds VAP. EMBO J 22(9):2025-35 |
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| Ran H, et al. (2003) Human targets of Pseudomonas aeruginosa pyocyanin. Proc Natl Acad Sci U S A 100(24):14315-20 |
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| Beh CT, et al. (2001) Overlapping functions of the yeast oxysterol-binding protein homologues. Genetics 157(3):1117-40 |
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| Levine TP and Munro S (2001) Dual targeting of Osh1p, a yeast homologue of oxysterol-binding protein, to both the Golgi and the nucleus-vacuole junction. Mol Biol Cell 12(6):1633-44 |
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| Tuller G, et al. (1999) Deletion of six open reading frames from the left arm of chromosome IV of Saccharomyces cerevisiae. Yeast 15(12):1275-85 |
