CHO2/YGR157W Literature Guide 
Other names published for CHO2: PEM1, phosphatidylethanolamine N-methyltransferase, YGR157W
CHO2 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Cellular Location
- Function/Process
- Genetic Interactions
- Mutants/Phenotypes
- Regulation of
- Regulatory Role
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
CHO2 - Mutants/Phenotypes (44)
| Reference | Other Genes Addressed |
|---|---|
| Redon M, et al. (2012) Effect of low temperature upon vitality of Saccharomyces cerevisiae phospholipid mutants. Yeast 29(10):443-52 |
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| Sharifpoor S, et al. (2012) Functional wiring of the yeast kinome revealed by global analysis of genetic network motifs. Genome Res 22(4):791-801 |
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| Ambroset C, et al. (2011) Deciphering the molecular basis of wine yeast fermentation traits using a combined genetic and genomic approach. G3 (Bethesda) 1(4):263-81 |
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| Bilgin M, et al. (2011) Quantitative profiling of PE, MMPE, DMPE, and PC lipid species by multiple precursor ion scanning: a tool for monitoring PE metabolism. Biochim Biophys Acta 1811(12):1081-9 |
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| Chang HY, et al. (2011) Genome-wide analysis to identify pathways affecting telomere-initiated senescence in budding yeast. G3 (Bethesda) 1(3):197-208 |
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| Fei W, et al. (2011) A role for phosphatidic Acid in the formation of "supersized" lipid droplets. PLoS Genet 7(7):e1002201 |
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| Kitagawa T, et al. (2011) Identification of genes that enhance cellulase protein production in yeast. J Biotechnol 151(2):194-203 |
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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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| He X, et al. (2010) Prevalent positive epistasis in Escherichia coli and Saccharomyces cerevisiae metabolic networks. Nat Genet 42(3):272-6 |
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| Burston HE, et al. (2009) Regulators of yeast endocytosis identified by systematic quantitative analysis. J Cell Biol 185(6):1097-110 |
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| Garbarino J, et al. (2009) Sterol and diacylglycerol acyltransferase deficiency triggers fatty acid-mediated cell death. J Biol Chem 284(45):30994-1005 |
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| Han GS, et al. (2008) An unconventional diacylglycerol kinase that regulates phospholipid synthesis and nuclear membrane growth. J Biol Chem 283(29):20433-42 |
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| Malanovic N, et al. (2008) S-Adenosyl-L-homocysteine Hydrolase, Key Enzyme of Methylation Metabolism, Regulates Phosphatidylcholine Synthesis and Triacylglycerol Homeostasis in Yeast: IMPLICATIONS FOR HOMOCYSTEINE AS A RISK FACTOR OF ATHEROSCLEROSIS. J Biol Chem 283(35):23989-99 |
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| Reynolds JM, et al. (2008) Biochemical and Genetic Analysis of the Phosphoethanolamine Methyltransferase of the Human Malaria Parasite Plasmodium falciparum. J Biol Chem 283(12):7894-900 |
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| Tanaka K, et al. (2008) Incorporation and remodeling of extracellular phosphatidylcholine with short acyl residues in Saccharomyces cerevisiae. Biochim Biophys Acta 1781(8):391-9 |
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| Riekhof WR, et al. (2007) Lysophosphatidylcholine metabolism in Saccharomyces cerevisiae: the role of P-type ATPases in transport and a broad specificity acyltransferase in acylation. J Biol Chem 282(51):36853-61 |
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| Boumann HA, et al. (2006) Depletion of phosphatidylcholine in yeast induces shortening and increased saturation of the lipid acyl chains: evidence for regulation of intrinsic membrane curvature in a eukaryote. Mol Biol Cell 17(2):1006-17 |
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| Gatbonton T, et al. (2006) Telomere length as a quantitative trait: genome-wide survey and genetic mapping of telomere length-control genes in yeast. PLoS Genet 2(3):e35 |
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| Hancock LC, et al. (2006) Genomic analysis of the Opi- phenotype. Genetics 173(2):621-34 |
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| Boumann HA and de Kroon AI (2005) The contributions of biosynthesis and acyl chain remodelling to the molecular species profile of phosphatidylcholine in yeast. Biochem Soc Trans 33(Pt 5):1146-9 |
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| Gohil VM, et al. (2005) Synthetic lethal interaction of the mitochondrial phosphatidylethanolamine and cardiolipin biosynthetic pathways in Saccharomyces cerevisiae. J Biol Chem 280(42):35410-6 |
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| Pessi G, et al. (2005) In vivo evidence for the specificity of Plasmodium falciparum phosphoethanolamine methyltransferase and its coupling to the Kennedy pathway. J Biol Chem 280(13):12461-6 |
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| Serviene E, et al. (2005) Genome-wide screen identifies host genes affecting viral RNA recombination. Proc Natl Acad Sci U S A 102(30):10545-50 |
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| Boumann HA, et al. (2004) The yeast phospholipid N-methyltransferases catalyzing the synthesis of phosphatidylcholine preferentially convert di-C16:1 substrates both in vivo and in vitro. J Biol Chem 279(39):40314-9 |
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| Choi JY, et al. (2004) Phosphatidylcholine and N-methylated phospholipids are nonessential in Saccharomyces cerevisiae. J Biol Chem 279(40):42321-30 |
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| Roggero R, et al. (2004) Unraveling the mode of action of the antimalarial choline analog G25 in Plasmodium falciparum and Saccharomyces cerevisiae. Antimicrob Agents Chemother 48(8):2816-24 |
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| Janssen MJ, et al. (2002) Cooperative activity of phospholipid-N-methyltransferases localized in different membranes. FEBS Lett 513(2-3):197-202 |
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| Dowd SR, et al. (2001) Turnover of phosphatidylcholine in Saccharomyces cerevisiae. The role of the CDP-choline pathway. J Biol Chem 276(6):3756-63 |
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| Daum G, et al. (1999) Systematic analysis of yeast strains with possible defects in lipid metabolism. Yeast 15(7):601-14 |
