Metabolic characteristics of semitendinosus and gluteus medius muscles in bullfighting bulls at enzymatic level

Free Access

Issue		Ann. Zootech. Volume 49, Number 5, September-October 2000


Page(s)		425 - 434
DOI		https://doi.org/10.1051/animres:2000133

References

1: Bass A., Brdiczka D., Eyer P., Pofer S., Pette D., Metabolic differentiation of distinct muscle types at level of enzymatic organization, Eur. J. Biochem. 10 (1969) 198-206.
2: Blanco L., Adaptaciones bioquímicas del músculo esquelético debido al entrenamiento en caballos de raza Espa nola y Árabe, Ph.D. thesis, University of Córdoba, Spain, 1995, 253 p.
3: Brooke M.H., Kaiser K.K., Muscle fibre types: how many and what kind?, Arch. Neurol. 23 (1970) 369-279.
4: Bruce V.L., Turek R.J., Schurg W.A., Muscle fibre compartmentalisation in the gluteus medius of the horse, Equine Vet. J. 25 (1993) 69-72.
5: Burleigh G., Schimke R.T., On the activities of some enzymes concerned with glycolysis and glycogenolysis in extracts of rabbit skeletal muscle, Biochem. Biophys. Res. Commun. 31 (1968) 831-836.
6: Essén B., Lindholm A., Thornton J., Histochemical properties of muscle fiber types and enzyme activities in skeletal muscles of standardbred trotters of different ages, Equine Vet. J. 12 (1980) 175-180.
7: Essén-Gustavsson B., Lindholm A., Muscle fibre characteristics of active and inactive standardbred horses, Equine Vet. J. 17 (1985) 434-438.
8: García-Lima M.L., Caraterísticas fibrilares y patrón de deplección glucogénica y su relación con el metabolismo energético en el toro bravo, Tesina de Licenciatura, Universidad de Córdoba, Spain, 1999, 130 p.
9: Gottlieb M., Essén-Gustavsson B., Lindholm A., Persson S.G.B., Cardio-respiratory and muscle metabolic responses to draught work on a treadmill in standardbred horses, in: Gillespie J.R., Robinson N.E. (Eds.), Equine Exercise Physiology 2, ICEEP Publications, Davis, California, 1987, pp. 384-392.
10: Green H.J., Reichmann H., Pette D., Fibre type specific transformations in the enzyme activity pattern of rat vastus lateralis muscle by prolonged endurance training, Pflügers Arch. 399 (1983) 216-222.
11: Hodgson D.R., Rose R.J., Dimauro J., Allen J.R., Effects of a submaximal treadmill training programme on histochemical properties enzyme activities and glycogen utilization of skeletal muscle in the horse, Equine Vet. J. 17 (1985) 300-305.
12: Karlström K., Capillary supply, fibre type composition and enzymatic profile of equine, bovine and porcine locomotor and nonlocomotor muscles, Ph.D. thesis, University of Sweden, Uppsala, 1995, 62 p.
13: Kline K.H., Bechtel P.J., Changes in the metabolic profile of the equine gluteus medius as a function of sampling depth, Comp. Biochem. Physiol. A 91(1988) 815-819.
14: Kline K.H., Bechtel P.J., Changes in the metabolic profile of equine muscle from birth through 1 year of age, J. Appl. Physiol. 68 (1990) 1399-1404.
15: Komi P.V., Vitasolo J., Hasu M., Thorstensson A., Sjödin B., Karlsson I., Skeletal muscle fibers and muscle enzyme activities in monozygous and dizygous twins of both sexs, Acta Physiol. Scand. 100 (1977) 385-392.
16: LaNoué K.F., Bryla J., Williamson J.R., Feedback interactions in the control of citric acid cycle activity in rat heart mitochondrial, J. Biol. Chem. 247 (1972) 667-679.
17: Lindholm A., Piehl K., Fibre composition, enzyme activity and concentrations of metabolites and electrolytes in muscle of Standardbred horses, Acta Vet. Scand. 15 (1974) 287-309.
18: Lindholm A., Saltin B., The physiological and biochemical response of Standardbred horses to exercise of varying speed and duration, Acta Vet. Scand. 15 (1974) 310-324.
19: Mu noz A., Castejón F.M., Agüera E.I., Gómez-Torrico M.S., Essén-Gustavsson B., Estudio comparativo del perfil enzimático muscular en toros bravos de diversas ganaderías, in: Consejo General de Colegios de Veterinarios de Espa na (Eds.), Proceedings of Frist World Congress of Veterinary Bullfighting, Córdoba, Spain,1997, pp. 203-206.
20: Nimmo M.A., Snow D.H., Changes in muscle glycogen, lactate and pyruvate concentrations in the Thoroughred horses following maximal exercise, in: Snow D.H., Persson S.G.B., Rose R.J. (Eds.), Equine Exercise Physiology, Cambridge, Granta Editions, England, 1983, pp. 237-244.
21: Pette D., Hofer H.W., The constant proportion enzyme group concept in selection of reference enzymes in metabolism, in: Trends in enzyme histochemistry and cytochemistry, Ciba Foundation Symposium 73 (New Series), Excepta medica, Amsterdan, Oxford, New York, 1980, pp. 231-244.
22: Pette D., Spamer C., Metabolic properties of muscle fibers, Federation Proc. 45 (1986) 2910-2914.
23: Rosser B.W.C., Norris B.J., Nemeth P.M., Metabolic capacity of individual muscle fibers from different anatomics locations, J. Histochem. Cytochem. 40 (1992) 819-825.
24: Solomon M.B., West R.L., Carpenter J.W., Fibre types in the longisimus muscle from water buffalo and selected domestic beef breeds, Meat Sci. 13 (1985) 129-135.
25: Strayer L., in: Reverté 3rd ed., Biochemistry, Barcelona, Spain, 1988.
26: Valberg S., Essén-Gustavsson B., Metabolic respone to racing determined in pools of type I, IIA and IIB fibres, in: Gillespie J.R., Robinson N.E. (Eds.), Equine Exercise Physiology 2, ICEEP Publications, Davis, California, 1987, pp. 290-310.

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