DRS2/YAL026C Literature Guide 
Other names published for DRS2: FUN38, SWA3, aminophospholipid-translocating P4-type ATPase DRS2, YAL026C
DRS2 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
- Other Topics
- Additional Information
DRS2 - All Curated References (99)
| Reference | Other Genes Addressed |
|---|---|
| Baldridge RD and Graham TR (2013) Two-gate mechanism for phospholipid selection and transport by type IV P-type ATPases. Proc Natl Acad Sci U S A 110(5):E358-67 |
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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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| Tsai PC, et al. (2013) Arl1p regulates spatial membrane organization at the trans-Golgi network through interaction with Arf-GEF Gea2p and flippase Drs2p. Proc Natl Acad Sci U S A 110(8):E668-77 |
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| Baldridge RD and Graham TR (2012) Identification of residues defining phospholipid flippase substrate specificity of type IV P-type ATPases. Proc Natl Acad Sci U S A 109(6):E290-8 |
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| Chen J, et al. (2012) Accumulation of an antidepressant in vesiculogenic membranes of yeast cells triggers autophagy. PLoS One 7(4):e34024 |
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| Jacquot A, et al. (2012) Phosphatidylserine stimulation of Drs2p?Cdc50p lipid translocase dephosphorylation is controlled by phosphatidylinositol-4-phosphate. J Biol Chem 287(16):13249-61 |
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| Johansen J, et al. (2012) Vesicle trafficking from a lipid perspective: Lipid regulation of exocytosis in Saccharomyces cerevisiae. Cell Logist 2(3):151-160 |
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| Puts CF, et al. (2012) Mapping functional interactions in a heterodimeric phospholipid pump. J Biol Chem 287(36):30529-40 |
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| Schuh AL and Audhya A (2012) Phosphoinositide signaling during membrane transport in Saccharomyces cerevisiae. Subcell Biochem 59():35-63 |
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| Sebastian TT, et al. (2012) Phospholipid flippases: building asymmetric membranes and transport vesicles. Biochim Biophys Acta 1821(8):1068-77 |
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| Stone A, et al. (2012) Biochemical characterization of P4-ATPase mutations identified in patients with progressive familial intrahepatic cholestasis. J Biol Chem 287(49):41139-51 |
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| Brett CL, et al. (2011) Genome-Wide Analysis Reveals the Vacuolar pH-Stat of Saccharomyces cerevisiae. PLoS One 6(3):e17619 |
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| Graham TR and Burd CG (2011) Coordination of Golgi functions by phosphatidylinositol 4-kinases. Trends Cell Biol 21(2):113-21 |
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| Santiago-Tirado FH and Bretscher A (2011) Membrane-trafficking sorting hubs: cooperation between PI4P and small GTPases at the trans-Golgi network. Trends Cell Biol 21(9):515-25 |
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| Spitzer M, et al. (2011) Cross-species discovery of syncretic drug combinations that potentiate the antifungal fluconazole. Mol Syst Biol 7():499 |
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| Takahashi Y, et al. (2011) Isolation and characterization of novel mutations in CDC50, the non-catalytic subunit of the Drs2p phospholipid flippase. J Biochem 149(4):423-32 |
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| Tanaka K, et al. (2011) Functions of phospholipid flippases. J Biochem 149(2):131-43 |
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| Villa-Garcia MJ, et al. (2011) Genome-wide screen for inositol auxotrophy in Saccharomyces cerevisiae implicates lipid metabolism in stress response signaling. Mol Genet Genomics 285(2):125-49 |
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| Banuelos MG, et al. (2010) Genomic analysis of severe hypersensitivity to hygromycin B reveals linkage to vacuolar defects and new vacuolar gene functions in Saccharomyces cerevisiae. Curr Genet 56(2):121-37 |
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| Berthelet S, et al. (2010) Functional Genomics Analysis of the Saccharomyces cerevisiae Iron Responsive Transcription Factor Aft1 Reveals Iron-Independent Functions. Genetics 185(3):1111-28 |
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| Guo Y, et al. (2010) Phosphatidylserine Is Involved in the Ferrichrome-induced Plasma Membrane Trafficking of Arn1 in Saccharomyces cerevisiae. J Biol Chem 285(50):39564-73 |
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| Kovalchuk A and Driessen AJ (2010) Phylogenetic analysis of fungal ABC transporters. BMC Genomics 11():177 |
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| Paulusma CC and Elferink RP (2010) P4 ATPases--the physiological relevance of lipid flipping transporters. FEBS Lett 584(13):2708-16 |
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| Puts CF, et al. (2010) A P(4)-ATPase Protein Interaction Network Reveals a Link between Aminophospholipid Transport and Phosphoinositide Metabolism. J Proteome Res 9(2):833-42 |
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| van der Velden LM, et al. (2010) Biochemical and cellular functions of P4 ATPases. Biochem J 431(1):1-11 |
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| Anand VC, et al. (2009) Genome-wide analysis of AP-3-dependent protein transport in yeast. Mol Biol Cell 20(5):1592-604 |
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| Lenoir G, et al. (2009) Cdc50p plays a vital role in the ATPase reaction cycle of the putative aminophospholipid transporter drs2p. J Biol Chem 284(27):17956-67 |
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| Muthusamy BP, et al. (2009) Control of protein and sterol trafficking by antagonistic activities of a type IV P-type ATPase and oxysterol binding protein homologue. Mol Biol Cell 20(12):2920-31 |
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| Muthusamy BP, et al. (2009) Linking phospholipid flippases to vesicle-mediated protein transport. Biochim Biophys Acta 1791(7):612-9 |
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| Natarajan P, et al. (2009) Regulation of a Golgi flippase by phosphoinositides and an ArfGEF. Nat Cell Biol 11(12):1421-6 |
