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PUBMED FOR HANDHELDS

Journal Abstract Search


377 related items for PubMed ID: 870086

  • 1. [A comparative study of the role of creatine phosphokinase isoenzymes in energy metabolism of skeletal and heart muscle].
    Saks VA, Seppet EK, Liulina NV.
    Biokhimiia; 1977 Apr; 42(4):579-88. PubMed ID: 870086
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  • 2. [Functional characterization of the creatine phosphokinase reactions in heart mitochondria and myofibrils].
    Saks VA, Lipina NV, Liulina IV, Chernousova GB, Fetter R, Smirnov VI, Chazov EI.
    Biokhimiia; 1976 Aug; 41(8):1460-70. PubMed ID: 1030648
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  • 3. [The functional coupling between MM isozyme of creatine phosphokinase (EC 2.7.3.2.) and MgATPase of myofibrils and (Na, K)ATPase of plasma membrane in heart cells].
    Saks VA, Lipina NV, Chernousova GB, Sharov VG, Smirnov VN, Chazov EI, Grosse R.
    Biokhimiia; 1976 Dec; 41(12):2099-109. PubMed ID: 139170
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  • 4. Studies of energy transport in heart cells. Mitochondrial isoenzyme of creatine phosphokinase: kinetic properties and regulatory action of Mg2+ ions.
    Saks VA, Chernousova GB, Gukovsky DE, Smirnov VN, Chazov EI.
    Eur J Biochem; 1975 Sep 01; 57(1):273-90. PubMed ID: 126157
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  • 5. Studies on the control of energy metabolism in mammalian cardiac muscle cells in culture.
    Seraydarian MW.
    Recent Adv Stud Cardiac Struct Metab; 1975 Sep 01; 8():181-90. PubMed ID: 1215636
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  • 6. Ultrastructural distribution of the M form of creatine phosphokinase in human muscle by immunogold labeling.
    Dankert JR, Papadi GP, Shields RP.
    Microsc Res Tech; 1992 Feb 01; 20(3):281-7. PubMed ID: 1543882
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  • 7. Isozymes of creatine kinase in mammalian cell cultures.
    Van Brussel E, Yang JJ, Seraydarian MW.
    J Cell Physiol; 1983 Aug 01; 116(2):221-6. PubMed ID: 6863402
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  • 8. Maintained coupling of oxidative phosphorylation to creatine kinase activity in sarcomeric mitochondrial creatine kinase-deficient mice.
    Boehm E, Veksler V, Mateo P, Lenoble C, Wieringa B, Ventura-Clapier R.
    J Mol Cell Cardiol; 1998 May 01; 30(5):901-12. PubMed ID: 9618231
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  • 13. Quantitative and qualitative adaptation of skeletal muscle mitochondria to increased physical activity.
    Zoll J, Koulmann N, Bahi L, Ventura-Clapier R, Bigard AX.
    J Cell Physiol; 2003 Feb 01; 194(2):186-93. PubMed ID: 12494457
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  • 14. Phosphocreatine synthesis by isolated rat skeletal muscle mitochondria is not dependent upon external ADP: a 31P NMR study.
    Kernec F, Le Tallec N, Nadal L, Bégué JM, Le Rumeur E.
    Biochem Biophys Res Commun; 1996 Aug 23; 225(3):819-25. PubMed ID: 8780696
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  • 16. Functional coupling of creatine kinases in muscles: species and tissue specificity.
    Ventura-Clapier R, Kuznetsov A, Veksler V, Boehm E, Anflous K.
    Mol Cell Biochem; 1998 Jul 23; 184(1-2):231-47. PubMed ID: 9746324
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  • 17. [Creatine kinase isoenzymes--characterization and functions in cell].
    Grzyb K, Skorkowski EF.
    Postepy Biochem; 2008 Jul 23; 54(3):274-83. PubMed ID: 19112826
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  • 19. Presence of (phospho)creatine in developing and adult skeletal muscle of mice without mitochondrial and cytosolic muscle creatine kinase isoforms.
    in 't Zandt HJ, de Groof AJ, Renema WK, Oerlemans FT, Klomp DW, Wieringa B, Heerschap A.
    J Physiol; 2003 May 01; 548(Pt 3):847-58. PubMed ID: 12640020
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  • 20. [Physiological role of the creatine kinase system and the problem of regulating the activity of mitochondrial creatine kinase].
    Lipskaia TIu.
    Nauchnye Doki Vyss Shkoly Biol Nauki; 1986 May 01; (9):5-14. PubMed ID: 3535908
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