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395 related items for PubMed ID: 9576109

  • 1. Impaired cardiac energetics in mice lacking muscle-specific isoenzymes of creatine kinase.
    Saupe KW, Spindler M, Tian R, Ingwall JS.
    Circ Res; 1998 May 04; 82(8):898-907. PubMed ID: 9576109
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  • 2. Activation time of myocardial oxidative phosphorylation in creatine kinase and adenylate kinase knockout mice.
    Gustafson LA, Van Beek JH.
    Am J Physiol Heart Circ Physiol; 2002 Jun 04; 282(6):H2259-64. PubMed ID: 12003836
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  • 3. Mitochondrial creatine kinase is critically necessary for normal myocardial high-energy phosphate metabolism.
    Spindler M, Niebler R, Remkes H, Horn M, Lanz T, Neubauer S.
    Am J Physiol Heart Circ Physiol; 2002 Aug 04; 283(2):H680-7. PubMed ID: 12124216
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  • 4. 31P NMR studies of creatine kinase flux in M-creatine kinase-deficient mouse heart.
    Van Dorsten FA, Nederhoff MG, Nicolay K, Van Echteld CJ.
    Am J Physiol; 1998 Oct 04; 275(4):H1191-9. PubMed ID: 9746466
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  • 5. Enalapril treatment increases cardiac performance and energy reserve via the creatine kinase reaction in myocardium of Syrian myopathic hamsters with advanced heart failure.
    Nascimben L, Friedrich J, Liao R, Pauletto P, Pessina AC, Ingwall JS.
    Circulation; 1995 Mar 15; 91(6):1824-33. PubMed ID: 7882493
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  • 6. Mathematical model of compartmentalized energy transfer: its use for analysis and interpretation of 31P-NMR studies of isolated heart of creatine kinase deficient mice.
    Aliev MK, van Dorsten FA, Nederhoff MG, van Echteld CJ, Veksler V, Nicolay K, Saks VA.
    Mol Cell Biochem; 1998 Jul 15; 184(1-2):209-29. PubMed ID: 9746323
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  • 7. Over-expression of mitochondrial creatine kinase in the murine heart improves functional recovery and protects against injury following ischaemia-reperfusion.
    Whittington HJ, Ostrowski PJ, McAndrew DJ, Cao F, Shaw A, Eykyn TR, Lake HA, Tyler J, Schneider JE, Neubauer S, Zervou S, Lygate CA.
    Cardiovasc Res; 2018 May 01; 114(6):858-869. PubMed ID: 29509881
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  • 8. Nitric oxide inhibits creatine kinase and regulates rat heart contractile reserve.
    Gross WL, Bak MI, Ingwall JS, Arstall MA, Smith TW, Balligand JL, Kelly RA.
    Proc Natl Acad Sci U S A; 1996 May 28; 93(11):5604-9. PubMed ID: 8643623
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  • 9. Energetic basis for reduced contractile reserve in isolated rat hearts.
    Tian R, Ingwall JS.
    Am J Physiol; 1996 Apr 28; 270(4 Pt 2):H1207-16. PubMed ID: 8967358
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  • 10. Impairment of energy metabolism in intact residual myocardium of rat hearts with chronic myocardial infarction.
    Neubauer S, Horn M, Naumann A, Tian R, Hu K, Laser M, Friedrich J, Gaudron P, Schnackerz K, Ingwall JS.
    J Clin Invest; 1995 Mar 28; 95(3):1092-100. PubMed ID: 7883957
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  • 12. Effects of ischemia on skeletal muscle energy metabolism in mice lacking creatine kinase monitored by in vivo 31P nuclear magnetic resonance spectroscopy.
    in 't Zandt HJ, Oerlemans F, Wieringa B, Heerschap A.
    NMR Biomed; 1999 Oct 28; 12(6):327-34. PubMed ID: 10516614
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  • 13. Kinetic, thermodynamic, and developmental consequences of deleting creatine kinase isoenzymes from the heart. Reaction kinetics of the creatine kinase isoenzymes in the intact heart.
    Saupe KW, Spindler M, Hopkins JC, Shen W, Ingwall JS.
    J Biol Chem; 2000 Jun 30; 275(26):19742-6. PubMed ID: 10867023
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  • 14. Impaired voluntary running capacity of creatine kinase-deficient mice.
    Momken I, Lechêne P, Koulmann N, Fortin D, Mateo P, Doan BT, Hoerter J, Bigard X, Veksler V, Ventura-Clapier R.
    J Physiol; 2005 Jun 15; 565(Pt 3):951-64. PubMed ID: 15831533
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  • 17. Creatine kinase-deficient hearts exhibit increased susceptibility to ischemia-reperfusion injury and impaired calcium homeostasis.
    Spindler M, Meyer K, Strömer H, Leupold A, Boehm E, Wagner H, Neubauer S.
    Am J Physiol Heart Circ Physiol; 2004 Sep 15; 287(3):H1039-45. PubMed ID: 15105171
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