SEC14/YMR079W Literature Guide 
Other names published for SEC14: PIT1, YMR079W
SEC14 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
SEC14 - Function/Process (46)
| Reference | Other Genes Addressed |
|---|---|
| Mousley CJ, et al. (2008) Trans-Golgi network and endosome dynamics connect ceramide homeostasis with regulation of the unfolded protein response and TOR signaling in yeast. Mol Biol Cell 19(11):4785-803 |
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| Qiu H, et al. (2008) Identification of genes that function in the biogenesis and localization of small nucleolar RNAs in Saccharomyces cerevisiae. Mol Cell Biol 28(11):3686-99 |
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| Schaaf G, et al. (2008) Functional anatomy of phospholipid binding and regulation of phosphoinositide homeostasis by proteins of the sec14 superfamily. Mol Cell 29(2):191-206 |
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| Howe AG, et al. (2007) Regulation of Phosphoinositide Levels by the Phospholipid Transfer Protein Sec14p Controls Cdc42p/p21-Activated Kinase-Mediated Cell Cycle Progression at Cytokinesis. Eukaryot Cell 6(10):1814-23 |
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| Altmann K and Westermann B (2005) Role of essential genes in mitochondrial morphogenesis in Saccharomyces cerevisiae. Mol Biol Cell 16(11):5410-7 |
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| Bohme K, et al. (2004) The Arabidopsis COW1 gene encodes a phosphatidylinositol transfer protein essential for root hair tip growth. Plant J 40(5):686-98 |
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| Rudge SA, et al. (2004) Roles of phosphoinositides and of Spo14p (phospholipase D)-generated phosphatidic acid during yeast sporulation. Mol Biol Cell 15(1):207-18 |
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| Panagabko C, et al. (2003) Ligand specificity in the CRAL-TRIO protein family. Biochemistry 42(21):6467-74 |
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| Schnabl M, et al. (2003) Subcellular localization of yeast Sec14 homologues and their involvement in regulation of phospholipid turnover. Eur J Biochem 270(15):3133-45 |
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| Chang HJ, et al. (2002) Role of the unfolded protein response pathway in regulation of INO1 and in the sec14 bypass mechanism in Saccharomyces cerevisiae. Genetics 162(1):29-43 |
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| Li X, et al. (2002) Analysis of oxysterol binding protein homologue Kes1p function in regulation of Sec14p-dependent protein transport from the yeast Golgi complex. J Cell Biol 157(1):63-77 |
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| Rudge SA, et al. (2002) Differential regulation of Saccharomyces cerevisiae phospholipase D in sporulation and Sec14-independent secretion. Genetics 160(4):1353-61 |
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| Tang X, et al. (2002) Characterization and regulation of yeast Ca2+-dependent phosphatidylethanolamine-phospholipase D activity. Eur J Biochem 269(15):3821-30 |
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| Yanagisawa LL, et al. (2002) Activity of specific lipid-regulated ADP ribosylation factor-GTPase-activating proteins is required for Sec14p-dependent Golgi secretory function in yeast. Mol Biol Cell 13(7):2193-206 |
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| Grant AM, et al. (2001) NBD-labeled phosphatidylcholine and phosphatidylethanolamine are internalized by transbilayer transport across the yeast plasma membrane. Traffic 2(1):37-50 |
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| Henneberry AL, et al. (2001) Phosphatidylcholine synthesis influences the diacylglycerol homeostasis required for SEC14p-dependent Golgi function and cell growth. Mol Biol Cell 12(3):511-20 |
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| Pinxteren JA, et al. (2001) Phosphatidylinositol transfer proteins and protein kinase C make separate but non-interacting contributions to the phosphorylation state necessary for secretory competence in rat mast cells. Biochem J 356(Pt 1):287-96 |
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| Rudge SA, et al. (2001) SPO14 separation-of-function mutations define unique roles for phospholipase D in secretion and cellular differentiation in Saccharomyces cerevisiae. Genetics 158(4):1431-44 |
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| Xie Z, et al. (2001) Evidence for an intrinsic toxicity of phosphatidylcholine to Sec14p-dependent protein transport from the yeast Golgi complex. Mol Biol Cell 12(4):1117-29 |
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| Xu Y, et al. (2001) Novel members of the human oxysterol-binding protein family bind phospholipids and regulate vesicle transport. J Biol Chem 276(21):18407-14 |
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| Finger FP and Novick P (2000) Synthetic interactions of the post-Golgi sec mutations of Saccharomyces cerevisiae. Genetics 156(3):943-51 |
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| Lewis MJ, et al. (2000) Specific retrieval of the exocytic SNARE Snc1p from early yeast endosomes. Mol Biol Cell 11(1):23-38 |
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| Li X, et al. (2000) Identification of a novel family of nonclassic yeast phosphatidylinositol transfer proteins whose function modulates phospholipase D activity and Sec14p-independent cell growth. Mol Biol Cell 11(6):1989-2005 |
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| Hama H, et al. (1999) Direct involvement of phosphatidylinositol 4-phosphate in secretion in the yeast Saccharomyces cerevisiae. J Biol Chem 274(48):34294-300 |
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| Kim K, et al. (1999) Isolation and characterization of the Saccharomyces cerevisiae EKI1 gene encoding ethanolamine kinase. J Biol Chem 274(21):14857-66 |
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| Phillips SE, et al. (1999) Yeast Sec14p deficient in phosphatidylinositol transfer activity is functional in vivo. Mol Cell 4(2):187-97 |
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| Stock SD, et al. (1999) SEC14-dependent secretion in Saccharomyces cerevisiae. Nondependence on sphingolipid synthesis-coupled diacylglycerol production. J Biol Chem 274(19):12979-83 |
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| Jones SM, et al. (1998) A phosphatidylinositol 3-kinase and phosphatidylinositol transfer protein act synergistically in formation of constitutive transport vesicles from the trans-Golgi network. J Biol Chem 273(17):10349-54 |
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| Simon JP, et al. (1998) An essential role for the phosphatidylinositol transfer protein in the scission of coatomer-coated vesicles from the trans-Golgi network. Proc Natl Acad Sci U S A 95(19):11181-6 |
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| Wooding S and Pelham HR (1998) The dynamics of golgi protein traffic visualized in living yeast cells. Mol Biol Cell 9(9):2667-80 |
