ENO1/YGR254W Literature Guide 
Other names published for ENO1: HSP48, enolase, phosphopyruvate hydratase ENO1, YGR254W
ENO1 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
ENO1 - Protein Sequence Features (28)
| Reference | Other Genes Addressed |
|---|---|
| Foyn H, et al. (2013) Protein N-terminal acetyltransferases act as N-terminal propionyltransferases in vitro and in vivo. Mol Cell Proteomics 12(1):42-54 |
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| Lesur A, et al. (2012) Peptides quantification by liquid chromatography with matrix-assisted laser desorption/ionization and selected reaction monitoring detection. J Proteome Res 11(10):4972-82 |
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| Carroll KM, et al. (2011) Absolute quantification of the glycolytic pathway in yeast: deployment of a complete QconCAT approach. Mol Cell Proteomics 10(12):M111.007633 |
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| Marino SM, et al. (2010) Characterization of Surface-Exposed Reactive Cysteine Residues in Saccharomyces cerevisiae. Biochemistry 49(35):7709-21 |
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| Schreier B and Hocker B (2010) Engineering the Enolase Magnesium II Binding Site: Implications for Its Evolution. Biochemistry 49(35):7582-9 |
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| Xie H, et al. (2009) Characterization of protein impurities and site-specific modifications using peptide mapping with liquid chromatography and data independent acquisition mass spectrometry. Anal Chem 81(14):5699-708 |
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| Gomes RA, et al. (2008) Protein glycation and methylglyoxal metabolism in yeast: finding peptide needles in protein haystacks. FEMS Yeast Res 8(1):174-81 |
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| Chakraborty AB, et al. (2007) Use of an integrated MS - multiplexed MS/MS data acquisition strategy for high-coverage peptide mapping studies. Rapid Commun Mass Spectrom 21(5):730-44 |
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| Zhao S, et al. (2007) Effects of the G376E and G157D mutations on the stability of yeast enolase - a model for human muscle enolase deficiency. FEBS J 275(1):97-106 |
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| Brandina I, et al. (2006) Enolase takes part in a macromolecular complex associated to mitochondria in yeast. Biochim Biophys Acta 1757(9-10):1217-1228 |
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| Gomes RA, et al. (2006) Yeast protein glycation in vivo by methylglyoxal. FEBS J 273(23):5273-87 |
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| Kenny DJ, et al. (2006) A parallel approach to post source decay MALDI-TOF analysis. J Am Soc Mass Spectrom 17(1):60-6 |
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| Sims PA, et al. (2006) Structure and catalytic properties of an engineered heterodimer of enolase composed of one active and one inactive subunit. J Mol Biol 355(3):422-31 |
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| Sims PA, et al. (2003) Reverse protonation is the key to general acid-base catalysis in enolase. Biochemistry 42(27):8298-306 |
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| Vinarov DA and Nowak T (1999) Role of His159 in yeast enolase catalysis. Biochemistry 38(37):12138-49 |
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| Brewer JM, et al. (1997) Effect of site-directed mutagenesis of His373 of yeast enolase on some of its physical and enzymatic properties. Biochim Biophys Acta 1340(1):88-96 |
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| Larsen TM, et al. (1996) A carboxylate oxygen of the substrate bridges the magnesium ions at the active site of enolase: structure of the yeast enzyme complexed with the equilibrium mixture of 2-phosphoglycerate and phosphoenolpyruvate at 1.8 A resolution. Biochemistry 35(14):4349-58 |
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| Poyner RR, et al. (1996) Toward identification of acid/base catalysts in the active site of enolase: comparison of the properties of K345A, E168Q, and E211Q variants. Biochemistry 35(5):1692-9 |
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| Ito K, et al. (1995) Detection of IgE antibody against Candida albicans enolase and its crossreactivity to Saccharomyces cerevisiae enolase. Clin Exp Allergy 25(6):522-8 |
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| Borders CL Jr, et al. (1994) A structural role for arginine in proteins: multiple hydrogen bonds to backbone carbonyl oxygens. Protein Sci 3(4):541-8 |
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| Verma M and Dutta SK (1994) DNA sequences encoding enolase are remarkably conserved from yeast to mammals. Life Sci 55(12):893-9 |
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| Lebioda L and Stec B (1991) Mechanism of enolase: the crystal structure of enolase-Mg2(+)-2-phosphoglycerate/phosphoenolpyruvate complex at 2.2-A resolution. Biochemistry 30(11):2817-22 |
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| Stec B and Lebioda L (1990) Refined structure of yeast apo-enolase at 2.25 A resolution. J Mol Biol 211(1):235-48 |
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| Lebioda L, et al. (1989) The structure of yeast enolase at 2.25-A resolution. An 8-fold beta + alpha-barrel with a novel beta beta alpha alpha (beta alpha)6 topology. J Biol Chem 264(7):3685-93 |
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| Sinha U and Brewer JM (1986) Yeast enolase carboxyl modification using Woodward's reagent K. Biochem Cell Biol 64(10):970-5 |
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| Chin CC, et al. (1981) The amino acid sequence of yeast enolase. J Biol Chem 256(3):1377-84 |
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| Chin CC, et al. (1981) The amino acid sequence of yeast enolase. Preparation and characterization of peptides produced by chemical and enzymatic fragmentation. J Biol Chem 256(3):1370-6 |
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| Hargrave PA and Wold F (1971) Studies on yeast enolase. Quantitative end group analyses and the effect of exopeptidase digestion. J Biol Chem 246(9):2904-9 |
