VMA9/YCL005W-A Literature Guide 
Other names published for VMA9: CWH36, LDB10, YCL005W-A
VMA9 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
VMA9 - Additional Literature (32)
| Reference | Other Genes Addressed |
|---|---|
| Ferencz C, et al. (2013) Estimating the rotation rate in the vacuolar proton-ATPase in native yeast vacuolar membranes. Eur Biophys J 42(2-3):147-58 |
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| Haarer B, et al. (2013) Actin dosage lethality screening in yeast mediated by selective ploidy ablation reveals links to urmylation/wobble codon recognition and chromosome stability. G3 (Bethesda) 3(3):553-61 |
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| Benlekbir S, et al. (2012) Structure of the vacuolar-type ATPase from Saccharomyces cerevisiae at 11-? resolution. Nat Struct Mol Biol 19(12):1356-62 |
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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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| Kloster A and Olsen LF (2012) Oscillations in glycolysis in Saccharomyces cerevisiae: the role of autocatalysis and intracellular ATPase activity. Biophys Chem 165-166():39-47 |
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| Matsuda S, et al. (2012) A Cytotoxic Type III Secretion Effector of Vibrio parahaemolyticus Targets Vacuolar H(+)-ATPase Subunit c and Ruptures Host Cell Lysosomes. PLoS Pathog 8(7):e1002803 |
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| Milgrom EM and Milgrom YM (2012) MgATP-concentration dependence of protection of yeast vacuolar V-ATPase from inactivation by 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole supports a bi-site catalytic mechanism of ATP hydrolysis. Biochem Biophys Res Commun 423(2):355-9 |
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| Mizuta M, et al. (2012) Screening for yeast mutants defective in recipient ability for transkingdom conjugation with Escherichia coli revealed importance of vacuolar ATPase activity in the horizontal DNA transfer phenomenon. Microbiol Res 167(5):311-6 |
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| Parsons LS and Wilkens S (2012) Probing subunit-subunit interactions in the yeast vacuolar ATPase by Peptide arrays. PLoS One 7(10):e46960 |
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| Plass M, et al. (2012) RNA secondary structure mediates alternative 3'ss selection in Saccharomyces cerevisiae. RNA 18(6):1103-15 |
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| Ma P and Xia X (2011) Factors affecting splicing strength of yeast genes. Comp Funct Genomics 2011():212146 |
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| Dechant R, et al. (2010) Cytosolic pH is a second messenger for glucose and regulates the PKA pathway through V-ATPase. EMBO J 29(15):2515-26 |
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| Diakov TT and Kane PM (2010) Regulation of vacuolar proton-translocating ATPase activity and assembly by extracellular pH. J Biol Chem 285(31):23771-8 |
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| Dias PJ, et al. (2010) Insights into the mechanisms of toxicity and tolerance to the agricultural fungicide mancozeb in yeast, as suggested by a chemogenomic approach. OMICS 14(2):211-27 |
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| Omara WA, et al. (2010) Conditional cell-wall mutants of Saccharomyces cerevisiae as delivery vehicles for therapeutic agents in vivo to the GI tract. J Biotechnol 147(2):136-43 |
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| Rainey MM, et al. (2010) The antidepressant sertraline targets intracellular vesiculogenic membranes in yeast. Genetics 185(4):1221-33 |
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| Samarao SS, et al. (2009) V H(+)-ATPase along the yeast secretory pathway: Energization of the ER and Golgi membranes. Biochim Biophys Acta 1788(2):303-13 |
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| Teixeira MC, et al. (2009) Genome-wide identification of Saccharomyces cerevisiae genes required for maximal tolerance to ethanol. Appl Environ Microbiol 75(18):5761-72 |
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| Diepholz M, et al. (2008) A Different Conformation for EGC Stator Subcomplex in Solution and in the Assembled Yeast V-ATPase: Possible Implications for Regulatory Disassembly. Structure 16(12):1789-98 |
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| Fei W, et al. (2008) Genome-wide analysis of sterol-lipid storage and trafficking in Saccharomyces cerevisiae. Eukaryot Cell 7(2):401-14 |
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| Jin YH, et al. (2008) Global transcriptome and deletome profiles of yeast exposed to transition metals. PLoS Genet 4(4):e1000053 |
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| Shima J, et al. (2008) Possible roles of vacuolar H(+)-ATPase and mitochondrial function in tolerance to air-drying stress revealed by genome-wide screening of Saccharomyces cerevisiae deletion strains. Yeast 25(3):179-90 |
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| Zhang Z, et al. (2008) Structure of the yeast vacuolar ATPase. J Biol Chem 283(51):35983-95 |
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| Ando A, et al. (2007) Identification and classification of genes required for tolerance to freeze-thaw stress revealed by genome-wide screening of Saccharomyces cerevisiae deletion strains. FEMS Yeast Res 7(2):244-53 |
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| Liao C, et al. (2007) Genomic Screening in Vivo Reveals the Role Played by Vacuolar H+ ATPase and Cytosolic Acidification in Sensitivity to DNA-Damaging Agents Such as Cisplatin. Mol Pharmacol 71(2):416-25 |
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| Padilla-Lopez S and Pearce DA (2006) Saccharomyces cerevisiae lacking Btn1p modulate vacuolar ATPase activity to regulate pH imbalance in the vacuole. J Biol Chem 281(15):10273-80 |
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| Martinez-Munoz GA and Pena A (2005) In situ study of K+ transport into the vacuole of Saccharomyces cerevisiae. Yeast 22(9):689-704 |
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| Perrone GG, et al. (2005) Genetic and environmental factors influencing glutathione homeostasis in Saccharomyces cerevisiae. Mol Biol Cell 16(1):218-30 |
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| Sambade M, et al. (2005) A genomic screen for yeast vacuolar membrane ATPase mutants. Genetics 170(4):1539-51 |
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| Serrano R, et al. (2004) Copper and iron are the limiting factors for growth of the yeast Saccharomyces cerevisiae in an alkaline environment. J Biol Chem 279(19):19698-704 |
