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Journal Abstract Search

323 related items for PubMed ID: 8683579

  • 1. Mechanism of Fe(III)-Zn(II) purple acid phosphatase based on crystal structures.
    Klabunde T, Sträter N, Fröhlich R, Witzel H, Krebs B.
    J Mol Biol; 1996 Jun 21; 259(4):737-48. PubMed ID: 8683579
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  • 5. Fluoride inhibition of bovine spleen purple acid phosphatase: characterization of a ternary enzyme-phosphate-fluoride complex as a model for the active enzyme-substrate-hydroxide complex.
    Pinkse MW, Merkx M, Averill BA.
    Biochemistry; 1999 Aug 03; 38(31):9926-36. PubMed ID: 10433699
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  • 7. Phosphate forms an unusual tripodal complex with the Fe-Mn center of sweet potato purple acid phosphatase.
    Schenk G, Gahan LR, Carrington LE, Mitic N, Valizadeh M, Hamilton SE, de Jersey J, Guddat LW.
    Proc Natl Acad Sci U S A; 2005 Jan 11; 102(2):273-8. PubMed ID: 15625111
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  • 8. The Fe(III)Zn(II) form of recombinant human purple acid phosphatase is not activated by proteolysis.
    Funhoff EG, Bollen M, Averill BA.
    J Inorg Biochem; 2005 Feb 11; 99(2):521-9. PubMed ID: 15621285
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  • 9. Crystal structures of a purple acid phosphatase, representing different steps of this enzyme's catalytic cycle.
    Schenk G, Elliott TW, Leung E, Carrington LE, Mitić N, Gahan LR, Guddat LW.
    BMC Struct Biol; 2008 Jan 31; 8():6. PubMed ID: 18234116
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  • 10. Evidence for a conserved binding motif of the dinuclear metal site in mammalian and plant purple acid phosphatases: 1H NMR studies of the di-iron derivative of the Fe(III)Zn(II) enzyme from kidney bean.
    Battistuzzi G, Dietrich M, Löcke R, Witzel H.
    Biochem J; 1997 May 01; 323 ( Pt 3)(Pt 3):593-6. PubMed ID: 9169589
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  • 11. Conservation of the active site motif in Aspergillus niger (ficuum) pH 6.0 optimum acid phosphatase and kidney bean purple acid phosphatase.
    Mullaney EJ, Ullah AH.
    Biochem Biophys Res Commun; 1998 Feb 13; 243(2):471-3. PubMed ID: 9480832
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  • 12. Binuclear metal centers in plant purple acid phosphatases: Fe-Mn in sweet potato and Fe-Zn in soybean.
    Schenk G, Ge Y, Carrington LE, Wynne CJ, Searle IR, Carroll BJ, Hamilton S, de Jersey J.
    Arch Biochem Biophys; 1999 Oct 15; 370(2):183-9. PubMed ID: 10510276
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  • 14. Crystal structure of a mammalian purple acid phosphatase.
    Uppenberg J, Lindqvist F, Svensson C, Ek-Rylander B, Andersson G.
    J Mol Biol; 1999 Jul 02; 290(1):201-11. PubMed ID: 10388567
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  • 15. Mechanism of hydrolysis of phosphate esters by the dimetal center of 5'-nucleotidase based on crystal structures.
    Knöfel T, Sträter N.
    J Mol Biol; 2001 May 25; 309(1):239-54. PubMed ID: 11491293
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  • 16. Structure-function relationships of purple acid phosphatase from red kidney beans based on heterologously expressed mutants.
    Truong NT, Naseri JI, Vogel A, Rompel A, Krebs B.
    Arch Biochem Biophys; 2005 Aug 01; 440(1):38-45. PubMed ID: 16009331
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  • 18. Evidence for nonbridged coordination of p-nitrophenyl phosphate to the dinuclear Fe(III)-M(II) center in bovine spleen purple acid phosphatase during enzymatic turnover.
    Merkx M, Pinkse MW, Averill BA.
    Biochemistry; 1999 Aug 03; 38(31):9914-25. PubMed ID: 10433698
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  • 19. Zn-exchange and Mössbauer studies on the [Fe-Fe] derivatives of the purple acid Fe(III)-Zn(II)-phosphatase from kidney beans.
    Suerbaum H, Körner M, Witzel H, Althaus E, Mosel BD, Müller-Warmuth W.
    Eur J Biochem; 1993 May 15; 214(1):313-21. PubMed ID: 8508801
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  • 20. Structural relationship between the mammalian Fe(III)-Fe(II) and the Fe(III)-Zn(II) plant purple acid phosphatases.
    Klabunde T, Sträter N, Krebs B, Witzel H.
    FEBS Lett; 1995 Jun 19; 367(1):56-60. PubMed ID: 7601285
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