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Journal Abstract Search

168 related items for PubMed ID: 11340058

  • 1. Structural relationships among regulated and unregulated phosphorylases.
    Buchbinder JL, Rath VL, Fletterick RJ.
    Annu Rev Biophys Biomol Struct; 2001; 30():191-209. PubMed ID: 11340058
    [Abstract] [Full Text] [Related]

  • 2. Evolution of allosteric control in glycogen phosphorylase.
    Hudson JW, Golding GB, Crerar MM.
    J Mol Biol; 1993 Dec 05; 234(3):700-21. PubMed ID: 8254668
    [Abstract] [Full Text] [Related]

  • 3. The crystal structure of Escherichia coli maltodextrin phosphorylase provides an explanation for the activity without control in this basic archetype of a phosphorylase.
    Watson KA, Schinzel R, Palm D, Johnson LN.
    EMBO J; 1997 Jan 02; 16(1):1-14. PubMed ID: 9009262
    [Abstract] [Full Text] [Related]

  • 4. Activation of human liver glycogen phosphorylase by alteration of the secondary structure and packing of the catalytic core.
    Rath VL, Ammirati M, LeMotte PK, Fennell KF, Mansour MN, Danley DE, Hynes TR, Schulte GK, Wasilko DJ, Pandit J.
    Mol Cell; 2000 Jul 02; 6(1):139-48. PubMed ID: 10949035
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  • 6. The evolution of an allosteric site in phosphorylase.
    Rath VL, Lin K, Hwang PK, Fletterick RJ.
    Structure; 1996 Apr 15; 4(4):463-73. PubMed ID: 8740368
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  • 8. Glycogen phosphorylase: control by phosphorylation and allosteric effectors.
    Johnson LN.
    FASEB J; 1992 Mar 15; 6(6):2274-82. PubMed ID: 1544539
    [Abstract] [Full Text] [Related]

  • 9. An engineered liver glycogen phosphorylase with AMP allosteric activation.
    Coats WS, Browner MF, Fletterick RJ, Newgard CB.
    J Biol Chem; 1991 Aug 25; 266(24):16113-9. PubMed ID: 1874749
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  • 10. Phosphorylase recognition and phosphorolysis of its oligosaccharide substrate: answers to a long outstanding question.
    Watson KA, McCleverty C, Geremia S, Cottaz S, Driguez H, Johnson LN.
    EMBO J; 1999 Sep 01; 18(17):4619-32. PubMed ID: 10469642
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  • 12. Partial activation of muscle phosphorylase by replacement of serine 14 with acidic residues at the site of regulatory phosphorylation.
    Buchbinder JL, Luong CB, Browner MF, Fletterick RJ.
    Biochemistry; 1997 Jul 01; 36(26):8039-44. PubMed ID: 9201951
    [Abstract] [Full Text] [Related]

  • 13. The α-glucan phosphorylase MalP of Corynebacterium glutamicum is subject to transcriptional regulation and competitive inhibition by ADP-glucose.
    Clermont L, Macha A, Müller LM, Derya SM, von Zaluskowski P, Eck A, Eikmanns BJ, Seibold GM.
    J Bacteriol; 2015 Apr 01; 197(8):1394-407. PubMed ID: 25666133
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  • 15. Distinct phosphorylation signals converge at the catalytic center in glycogen phosphorylases.
    Lin K, Hwang PK, Fletterick RJ.
    Structure; 1997 Nov 15; 5(11):1511-23. PubMed ID: 9384566
    [Abstract] [Full Text] [Related]

  • 16. Comparative analysis of species-independent, isozyme-specific amino-acid substitutions in mammalian muscle, brain and liver glycogen phosphorylases.
    Hudson JW, Hefferon KL, Crerar MM.
    Biochim Biophys Acta; 1993 Jul 10; 1164(2):197-208. PubMed ID: 7916624
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  • 17. The family of glycogen phosphorylases: structure and function.
    Newgard CB, Hwang PK, Fletterick RJ.
    Crit Rev Biochem Mol Biol; 1989 Jul 10; 24(1):69-99. PubMed ID: 2667896
    [Abstract] [Full Text] [Related]

  • 18. Quantification of the glycogen cascade system: the ultrasensitive responses of liver glycogen synthase and muscle phosphorylase are due to distinctive regulatory designs.
    Mutalik VK, Venkatesh KV.
    Theor Biol Med Model; 2005 May 20; 2():19. PubMed ID: 15907212
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  • 20. Allosteric inhibition of glycogen phosphorylase a by the potential antidiabetic drug 3-isopropyl 4-(2-chlorophenyl)-1,4-dihydro-1-ethyl-2-methyl-pyridine-3,5,6-tricarbo xylate.
    Oikonomakos NG, Tsitsanou KE, Zographos SE, Skamnaki VT, Goldmann S, Bischoff H.
    Protein Sci; 1999 Oct 20; 8(10):1930-45. PubMed ID: 10548038
    [Abstract] [Full Text] [Related]

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