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 - Substrates/Ligands/Cofactors (40)
| Reference | Other Genes Addressed |
|---|---|
| K Suresh K, et al. (2011) Comparative and chemical proteomic approaches reveal gatifloxacin deregulates enzymes involved in glucose metabolism. J Toxicol Sci 36(6):787-96 |
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| Brewer JM, et al. (2010) Stopped-flow studies of the reaction of d-tartronate semialdehyde-2-phosphate with human neuronal enolase and yeast enolase 1. FEBS Lett 584(5):979-983 |
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| Fendt SM, et al. (2010) Tradeoff between enzyme and metabolite efficiency maintains metabolic homeostasis upon perturbations in enzyme capacity. Mol Syst Biol 6():356 |
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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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| Hakobyan D and Nazaryan K (2006) Molecular dynamics simulation of interactions in glycolytic enzymes. Biochemistry (Mosc) 71(4):370-5 |
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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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| De D, et al. (2005) Inactive enzymatic mutant proteins (phosphoglycerate mutase and enolase) as sugar binders for ribulose-1,5-bisphosphate regeneration reactors. Microb Cell Fact 4(1):5 |
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| Kornblatt MJ, et al. (2004) Use of hydrostatic pressure to produce 'native' monomers of yeast enolase. Eur J Biochem 271(19):3897-904 |
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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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| Brewer JM, et al. (2000) The H159A mutant of yeast enolase 1 has significant activity. Biochem Biophys Res Commun 276(3):1199-202 |
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| Cabiscol E, et al. (2000) Oxidative stress promotes specific protein damage in Saccharomyces cerevisiae. J Biol Chem 275(35):27393-8 |
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| Gonzalez B, et al. (2000) Dynamic in vivo (31)P nuclear magnetic resonance study of Saccharomyces cerevisiae in glucose-limited chemostat culture during the aerobic-anaerobic shift. Yeast 16(6):483-97 |
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| Teusink B, et al. (2000) Can yeast glycolysis be understood in terms of in vitro kinetics of the constituent enzymes? Testing biochemistry. Eur J Biochem 267(17):5313-29 |
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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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| Vinarov DA and Nowak T (1998) pH dependence of the reaction catalyzed by yeast Mg-enolase. Biochemistry 37(43):15238-46 |
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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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| Reed GH, et al. (1996) Structural and mechanistic studies of enolase. Curr Opin Struct Biol 6(6):736-43 |
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| Lee BH and Nowak T (1992) Influence of pH on the Mn2+ activation of and binding to yeast enolase: a functional study. Biochemistry 31(7):2165-71 |
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| Lee ME and Nowak T (1992) 25Mg NMR studies of yeast enolase and rabbit muscle pyruvate kinase. Arch Biochem Biophys 293(2):264-73 |
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| Poyner RR and Reed GH (1992) Structure of the bis divalent cation complex with phosphonoacetohydroxamate at the active site of enolase. Biochemistry 31(31):7166-73 |
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| al-Giery AG and Brewer JM (1992) Characterization of the interaction of yeast enolase with polynucleotides. Biochim Biophys Acta 1159(2):134-40 |
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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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| Lebioda L, et al. (1991) Inhibition of enolase: the crystal structures of enolase-Ca2(+)- 2-phosphoglycerate and enolase-Zn2(+)-phosphoglycolate complexes at 2.2-A resolution. Biochemistry 30(11):2823-7 |
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| Kornblatt MJ and Musil R (1990) The inhibition of yeast enolase by Li+ and Na+1. Arch Biochem Biophys 277(2):301-5 |
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| Entian KD, et al. (1987) Studies on the regulation of enolases and compartmentation of cytosolic enzymes in Saccharomyces cerevisiae. Biochim Biophys Acta 923(2):214-21 |
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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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| Spencer SG, et al. (1985) Cadmium(II)-113 NMR studies of the mechanism of metal ion activation of yeast enolase. J Inorg Biochem 24(1):47-57 |
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| Anderson VE, et al. (1984) Reaction intermediate analogues for enolase. Biochemistry 23(12):2779-86 |
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| Rose SL, et al. (1984) Kinetic and physical properties of Co2+ enolase. J Biol Chem 259(7):4405-13 |
