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Journal Abstract Search

146 related items for PubMed ID: 3530811

  • 1. 31P-NMR studies of respiratory regulation in the intact myocardium.
    From AH, Petein MA, Michurski SP, Zimmer SD, Uğurbil K.
    FEBS Lett; 1986 Oct 06; 206(2):257-61. PubMed ID: 3530811
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  • 2. Effect of substrate on mitochondrial NADH, cytosolic redox state, and phosphorylated compounds in isolated hearts.
    Scholz TD, Laughlin MR, Balaban RS, Kupriyanov VV, Heineman FW.
    Am J Physiol; 1995 Jan 06; 268(1 Pt 2):H82-91. PubMed ID: 7840306
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  • 4. Differences in nucleotide compartmentation and energy state in isolated and in situ rat heart: assessment by 31P-NMR spectroscopy.
    Williams JP, Headrick JP.
    Biochim Biophys Acta; 1996 Aug 07; 1276(1):71-9. PubMed ID: 8764892
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  • 7. Alterations in oxidative function and respiratory regulation in the post-ischemic myocardium.
    Zimmer SD, Uğurbil K, Michurski SP, Mohanakrishnan P, Ulstad VK, Foker JE, From AH.
    J Biol Chem; 1989 Jul 25; 264(21):12402-11. PubMed ID: 2745449
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  • 9. Relation among regional O2 consumption, high-energy phosphates, and substrate uptake in porcine right ventricle.
    Schwartz GG, Greyson CR, Wisneski JA, Garcia J, Steinman S.
    Am J Physiol; 1994 Feb 25; 266(2 Pt 2):H521-30. PubMed ID: 8141353
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  • 10. Respiratory control in the glucose perfused heart. A 31P NMR and NADH fluorescence study.
    Katz LA, Koretsky AP, Balaban RS.
    FEBS Lett; 1987 Sep 14; 221(2):270-6. PubMed ID: 3622766
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  • 12. Cardiac contractile function, oxygen consumption rate and cytosolic phosphates during inhibition of electron flux by amytal--a 31P-NMR study.
    Kupriyanov VV, Lakomkin VL, Korchazhkina OV, Stepanov VA, Steinschneider AYa, Kapelko VI.
    Biochim Biophys Acta; 1991 Jul 05; 1058(3):386-99. PubMed ID: 2065062
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  • 13. Requirement of glycolytic substrate for metabolic recovery during moderate low flow ischemia.
    Schaefer S, Prussel E, Carr LJ.
    J Mol Cell Cardiol; 1995 Oct 05; 27(10):2167-76. PubMed ID: 8576933
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  • 14. Transmural high energy phosphate distribution and response to alterations in workload in the normal canine myocardium as studied with spatially localized 31P NMR spectroscopy.
    Robitaille PM, Merkle H, Lew B, Path G, Hendrich K, Lindstrom P, From AH, Garwood M, Bache RJ, Uğurbil K.
    Magn Reson Med; 1990 Oct 05; 16(1):91-116. PubMed ID: 2255241
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  • 16. Control of oxidative metabolism in volume-overloaded rat hearts: effects of different lipid substrates.
    Ben Cheikh R, Guendouz A, Moravec J.
    Am J Physiol; 1994 May 05; 266(5 Pt 2):H2090-7. PubMed ID: 8203607
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  • 17. Respiratory control and substrate effects in the working rat heart.
    Jeffrey FM, Malloy CR.
    Biochem J; 1992 Oct 01; 287 ( Pt 1)(Pt 1):117-23. PubMed ID: 1417763
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  • 18. Respiratory control in heart muscle during fatty acid oxidation. Energy state or substrate-level regulation by Ca2+?
    Vuorinen KH, Ala-Rämi A, Yan Y, Ingman P, Hassinen IE.
    J Mol Cell Cardiol; 1995 Aug 01; 27(8):1581-91. PubMed ID: 8523421
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  • 19. Dissociation between adenosine release, MVO2, and energy status in working guinea pig hearts.
    Decking UK, Arens S, Schlieper G, Schulze K, Schrader J.
    Am J Physiol; 1997 Jan 01; 272(1 Pt 2):H371-81. PubMed ID: 9038958
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  • 20. Control of respiration in isolated mitochondria: quantitative evaluation of the dependence of respiratory rates on [ATP], [ADP], and [Pi].
    Holian A, Owen CS, Wilson DF.
    Arch Biochem Biophys; 1977 May 01; 181(1):164-71. PubMed ID: 879801
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