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Journal Abstract Search

188 related items for PubMed ID: 8049235

  • 1. Chelation of serine 39 to Mg2+ latches a gate at the active site of enolase: structure of the bis(Mg2+) complex of yeast enolase and the intermediate analog phosphonoacetohydroxamate at 2.1-A resolution.
    Wedekind JE, Poyner RR, Reed GH, Rayment I.
    Biochemistry; 1994 Aug 09; 33(31):9333-42. PubMed ID: 8049235
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  • 2. 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.
    Larsen TM, Wedekind JE, Rayment I, Reed GH.
    Biochemistry; 1996 Apr 09; 35(14):4349-58. PubMed ID: 8605183
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  • 3. Catalytic metal ion binding in enolase: the crystal structure of an enolase-Mn2+-phosphonoacetohydroxamate complex at 2.4-A resolution.
    Zhang E, Hatada M, Brewer JM, Lebioda L.
    Biochemistry; 1994 May 24; 33(20):6295-300. PubMed ID: 8193144
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  • 4. Structure of the bis divalent cation complex with phosphonoacetohydroxamate at the active site of enolase.
    Poyner RR, Reed GH.
    Biochemistry; 1992 Aug 11; 31(31):7166-73. PubMed ID: 1322695
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  • 5. Octahedral coordination at the high-affinity metal site in enolase: crystallographic analysis of the MgII--enzyme complex from yeast at 1.9 A resolution.
    Wedekind JE, Reed GH, Rayment I.
    Biochemistry; 1995 Apr 04; 34(13):4325-30. PubMed ID: 7703246
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  • 6. Functional and structural changes due to a serine to alanine mutation in the active-site flap of enolase.
    Poyner RR, Larsen TM, Wong SW, Reed GH.
    Arch Biochem Biophys; 2002 May 15; 401(2):155-63. PubMed ID: 12054465
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  • 8. Mechanism of enolase: the crystal structure of enolase-Mg2(+)-2-phosphoglycerate/phosphoenolpyruvate complex at 2.2-A resolution.
    Lebioda L, Stec B.
    Biochemistry; 1991 Mar 19; 30(11):2817-22. PubMed ID: 2007120
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  • 10. Inhibition of enolase: the crystal structures of enolase-Ca2(+)- 2-phosphoglycerate and enolase-Zn2(+)-phosphoglycolate complexes at 2.2-A resolution.
    Lebioda L, Stec B, Brewer JM, Tykarska E.
    Biochemistry; 1991 Mar 19; 30(11):2823-7. PubMed ID: 2007121
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  • 11. Ligand-induced domain movement in pyruvate kinase: structure of the enzyme from rabbit muscle with Mg2+, K+, and L-phospholactate at 2.7 A resolution.
    Larsen TM, Benning MM, Wesenberg GE, Rayment I, Reed GH.
    Arch Biochem Biophys; 1997 Sep 15; 345(2):199-206. PubMed ID: 9308890
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  • 12. An X-ray absorption spectroscopy study of the interactions of Ni2+ with yeast enolase.
    Wang S, Scott RA, Lebioda L, Zhou ZH, Brewer JM.
    J Inorg Biochem; 1995 May 15; 58(3):209-21. PubMed ID: 7782789
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  • 13. Role of His159 in yeast enolase catalysis.
    Vinarov DA, Nowak T.
    Biochemistry; 1999 Sep 14; 38(37):12138-49. PubMed ID: 10508418
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  • 17. Evolution of enzymatic activity in the enolase superfamily: structure of o-succinylbenzoate synthase from Escherichia coli in complex with Mg2+ and o-succinylbenzoate.
    Thompson TB, Garrett JB, Taylor EA, Meganathan R, Gerlt JA, Rayment I.
    Biochemistry; 2000 Sep 05; 39(35):10662-76. PubMed ID: 10978150
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  • 19. Mechanism of enolase: the crystal structure of asymmetric dimer enolase-2-phospho-D-glycerate/enolase-phosphoenolpyruvate at 2.0 A resolution.
    Zhang E, Brewer JM, Minor W, Carreira LA, Lebioda L.
    Biochemistry; 1997 Oct 14; 36(41):12526-34. PubMed ID: 9376357
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  • 20. Fluoride inhibition of enolase: crystal structure and thermodynamics.
    Qin J, Chai G, Brewer JM, Lovelace LL, Lebioda L.
    Biochemistry; 2006 Jan 24; 45(3):793-800. PubMed ID: 16411755
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