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194 related items for PubMed ID: 6996713

  • 1. Characterization of the histidine residues in alkaline phosphatase by carbon-13 nuclear magnetic resonance.
    Otvos JD, Browne DT.
    Biochemistry; 1980 Aug 19; 19(17):4011-21. PubMed ID: 6996713
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  • 2. Characterization of the properties of the multiple metal binding sites in alkaline phosphatase by carbon-13 nuclear magnetic resonance.
    Otvos JD, Armitage IM.
    Biochemistry; 1980 Aug 19; 19(17):4021-30. PubMed ID: 6996714
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  • 3. Determination by cadmium-113 nuclear magnetic resonance of the structural basis for metal ion dependent anticooperativity in alkaline phosphatase.
    Otvos JD, Armitage IM.
    Biochemistry; 1980 Aug 19; 19(17):4031-43. PubMed ID: 6996715
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  • 4. Studies of individual carbon sites of azurin from Pseudomonas aeruginosa by natural-abundance carbon-13 nuclear magnetic resonance spectroscopy.
    Ugurbil K, Norton RS, Allerhand A, Bersohn R.
    Biochemistry; 1977 Mar 08; 16(5):886-94. PubMed ID: 14666
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  • 9. The roles of Glu-327 and His-446 in the bisphosphatase reaction of rat liver 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase probed by NMR spectroscopic and mutational analyses of the enzyme in the transient phosphohistidine intermediate complex.
    Okar DA, Live DH, Kirby TL, Karschnia EJ, von Weymarn LB, Armitage IM, Lange AJ.
    Biochemistry; 1999 Apr 06; 38(14):4471-9. PubMed ID: 10194369
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  • 11. Active-site serine phosphate and histidine residues of phosphoglucomutase: pH titration studies monitored by 1H and 31P NMR spectroscopy.
    Rhyu GI, Ray WJ, Markley JL.
    Biochemistry; 1985 Aug 27; 24(18):4746-53. PubMed ID: 2934085
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  • 12. 31P nuclear magnetic resonance of phosphoenzyme intermediates of alkaline phosphatase.
    Gettins P, Coleman JE.
    J Biol Chem; 1983 Jan 10; 258(1):408-16. PubMed ID: 6336753
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  • 13. Detection and classification of hyperfine-shifted 1H, 2H, and 15N resonances of the Rieske ferredoxin component of toluene 4-monooxygenase.
    Xia B, Pikus JD, Xia W, McClay K, Steffan RJ, Chae YK, Westler WM, Markley JL, Fox BG.
    Biochemistry; 1999 Jan 12; 38(2):727-39. PubMed ID: 9888813
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  • 14. Tautomeric states of the active-site histidines of phosphorylated and unphosphorylated IIIGlc, a signal-transducing protein from Escherichia coli, using two-dimensional heteronuclear NMR techniques.
    Pelton JG, Torchia DA, Meadow ND, Roseman S.
    Protein Sci; 1993 Apr 12; 2(4):543-58. PubMed ID: 8518729
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  • 15. Fluorine-19 nuclear magnetic resonance study of fluorotyrosine alkaline phosphatase: the influence of zinc on protein structure and a conformational change induced by phosphate binding.
    Hull WE, Sykes BD.
    Biochemistry; 1976 Apr 06; 15(7):1535-46. PubMed ID: 4091
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  • 19. Kinetic and X-ray structural studies of a mutant Escherichia coli alkaline phosphatase (His-412-->Gln) at one of the zinc binding sites.
    Ma L, Kantrowitz ER.
    Biochemistry; 1996 Feb 20; 35(7):2394-402. PubMed ID: 8652582
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  • 20. Guanyl-specific ribonuclease from the fungus Penicillium chrysogenum strain 152 and its complex with guanosine 3'-phosphate studied by nuclear magnetic resonance.
    Yakovlev GI, Karpeisky MY, Bezborodova SI, Beletskaja OP, Sakharovsky VG.
    Eur J Biochem; 1980 Aug 20; 109(1):75-85. PubMed ID: 6250840
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