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Journal Abstract Search

213 related items for PubMed ID: 6747846

  • 1. Effects of chronic stimulation on the metabolic heterogeneity of the fibre population in rabbit tibialis anterior muscle.
    Buchegger A, Nemeth PM, Pette D, Reichmann H.
    J Physiol; 1984 May; 350():109-19. PubMed ID: 6747846
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  • 2. Enzyme activities in the tibialis anterior muscle of young moderately active men and women: relationship with body composition, muscle cross-sectional area and fibre type composition.
    Jaworowski A, Porter MM, Holmbäck AM, Downham D, Lexell J.
    Acta Physiol Scand; 2002 Nov; 176(3):215-25. PubMed ID: 12392501
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  • 5. Activities of malate dehydrogenase, 3-hydroxyacyl-CoA dehydrogenase and fructose-1,6-diphosphatase with regard to metabolic subpopulations of fast- and slow-twitch fibres in rabbit muscles.
    Spamer C, Pette D.
    Histochemistry; 1979 Feb 26; 60(1):9-19. PubMed ID: 218915
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  • 6. Chronic long-term electrostimulation creates a unique metabolic enzyme profile in rabbit fast-twitch muscle.
    Hood DA, Pette D.
    FEBS Lett; 1989 Apr 24; 247(2):471-4. PubMed ID: 2714446
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  • 7. Enzyme levels in pools of microdissected human muscle fibres of identified type. Adaptive response to exercise.
    Essén-Gustavsson B, Henriksson J.
    Acta Physiol Scand; 1984 Apr 24; 120(4):505-15. PubMed ID: 6237550
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  • 9. Influence of intermittent long-term stimulation on contractile, histochemical and metabolic properties of fibre populations in fast and slow rabbit muscles.
    Pette D, Ramirez BU, Müller W, Simon R, Exner GU, Hildebrand R.
    Pflugers Arch; 1975 Dec 19; 361(1):1-7. PubMed ID: 128733
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  • 10. Species-specific effects of chronic nerve stimulation upon tibialis anterior muscle in mouse, rat, guinea pig, and rabbit.
    Simoneau JA, Pette D.
    Pflugers Arch; 1988 Jul 19; 412(1-2):86-92. PubMed ID: 3174388
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  • 11. Time-dependent increase of succinate dehydrogenase activity in low-frequency stimulated rabbit muscle: a comparison between microphotometric and biochemical methods.
    Skorjanc D, Heine G, Pette D.
    Histochem Cell Biol; 1997 Jan 19; 107(1):47-55. PubMed ID: 9049641
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  • 12. Enzyme activities in single electrophysiologically identified crab muscle fibres.
    Maier L, Pette D, Rathmayer W.
    J Physiol; 1986 Feb 19; 371():191-9. PubMed ID: 3701650
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  • 13. Histophotometry--the method of choice in quantifying dehydrogenase histochemistry.
    Punkt K, Erzen I, Krug H, Punkt J, Seidler E.
    Acta Histochem; 1989 Feb 19; 87(1):63-9. PubMed ID: 2513699
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  • 14. Restoration of fast muscle characteristics following cessation of chronic stimulation: physiological, histochemical and metabolic changes during slow-to-fast transformation.
    Brown JM, Henriksson J, Salmons S.
    Proc R Soc Lond B Biol Sci; 1989 Jan 23; 235(1281):321-46. PubMed ID: 2564683
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  • 17. Fibre sizes and histochemical staining characteristics in normal and chronically stimulated fast muscle of cat.
    Donselaar Y, Eerbeek O, Kernell D, Verhey BA.
    J Physiol; 1987 Jan 23; 382():237-54. PubMed ID: 2957493
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  • 18. Specific effects of low-frequency stimulation upon energy metabolism in tibialis anterior muscles of mouse, rat, guinea pig and rabbit.
    Simoneau JA, Pette D.
    Reprod Nutr Dev (1980); 1988 Jan 23; 28(3B):781-4. PubMed ID: 2973103
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  • 19. Chronic stimulation of mammalian muscle: enzyme and metabolic changes in individual fibres.
    Henriksson J, Salmons S, Lowry OH.
    Biomed Biochim Acta; 1989 Jan 23; 48(5-6):S445-54. PubMed ID: 2527028
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  • 20. Changes of energy metabolism, myosin light chain composition, lactate dehydrogenase isozyme pattern and fibre type distribution of denervated fast-twitch muscle from rabbit after low frequency stimulation.
    Reichmann H, Nix WA.
    Pflugers Arch; 1985 Oct 23; 405(3):244-9. PubMed ID: 4069981
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