Protein turnover of breast muscle in germ-free and conventional chicks | British Journal of Nutrition | Cambridge Core (original) (raw)
Abstract
Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the 'Save PDF' action button.
1. The effect of the gut microflora on protein turnover in pectoral muscle (M. pectoralis profundus) was studied by means of dietary infusion of L-[UJ-14C]phenylalanine and of massive dose injection of L-[4-3H]phenylalanine in chicks fed on a semi-purified casein—gelatin (SCG) diet until 19 d of age, and in those subsequently given either a nitrogen-free (NF) diet or NF supplemented with methionine and arginine (MA) for a further 9 d.
2. Time-course changes in radioactivity released in expired carbon dioxide during the 8 h infusion period showed that isotopic equilibrium was reached in 4 h with the SCG diet and in 5 h with the MA diet. However, with the protein-deprived chicks given the NF diet, isotopic equilibrium was not achieved since radioactivity in CO2 increased linearly throughout.
3. On feeding the NF diet, fractional protein synthesis rate and the absolute amount of protein synthesized in chick breast muscle were reduced. These reductions were partially alleviated by supplementing the NF diet with methionine and arginine.
4. The fractional degradation rate of breast muscle was increased in chicks given the NF diet, while the absolute amount of protein degraded was decreased. The addition of methionine and arginine counteracted these changes brought about by protein starvation.
5. Generally speaking, the presence of the gut microflora had little, if any, effect on protein turnover rate in chick-breast muscle.
References
Coates, M. E., Fuller, R., Harrison, G. F., Lev, M. & Suffolk, S. F. (1963). British Journal of Nutrition 17, 141–150.CrossRefGoogle Scholar
Fowler, V. R. (1980). In Growth in animals, pp. 249–263. [Lawrence, T. L. J., editor]. London: Butterworths.CrossRefGoogle Scholar
Fuller, R. (1968). In The Germ-free Animal in Research, pp. 37–45 [Coates, M. E., editor]. London: Academic Press.Google Scholar
Garlick, P. J., Burk, T. L. & Swick, R. W. (1976). American Journal of Physiology 230, 1108–1112.CrossRefGoogle Scholar
Garlick, P. J., McNurlan, M. A. & Preedy, V. R. (1980). Biochemical Journal 92, 719–723.CrossRefGoogle Scholar
Garlick, P. J., Millward, D. J. & James, W. P. T. (1973). Biochemical Journal 136, 935–945.CrossRefGoogle Scholar
Garlick, P. J., Millward, D. J., James, W. P. T. & Waterlow, J. C. (1975). Biochimica et Biophysica Acta 414, 71–84.CrossRefGoogle Scholar
Goldberg, A. L. & Chang, T. W. (1978). Federation Proceedings 37, 2301–2307.Google Scholar
Harney, M. E., Swick, R. W. & Benevenga, N. J. (1976). American Journal of Physiology 231, 1018–1023.CrossRefGoogle Scholar
Laurent, G. J., Sparrow, M. P. & Millward, D. J. (1978). Biochemical Journal 176, 407–417.CrossRefGoogle Scholar
Lowry, O. H., Rosebrough, N. J., Farr, A. L. & Randall, R. J. (1951). Journal of Biological Chemistry 193, 265–275.CrossRefGoogle Scholar
McCaman, M. W. & Robins, E. (1962). Journal of Laboratory and Clinical Medicine 59, 885–890.Google Scholar
McNurlan, M. A., Tomkins, A. M. & Garlick, P. J. (1979). Biochemical Journal 178, 373–379.CrossRefGoogle Scholar
Millward, D. J., Garlic, P. J., Nnanyelugo, D. O. & Waterlow, J. C. (1976). Biochemical Journal 156, 185–188.CrossRefGoogle Scholar
Millward, D. J. & Waterlow, J. C. (1978). Federation Proceedings 37, 2283–2290.Google Scholar
Mitchell, H. H. (1959). In Protein and Amino Acid Nutrition, pp. 11–43 [Albanese, A. A., editor]. New york: Academic Press.Google Scholar
Munro, H. N. & Fleck, A. (1969). In Mammalian protein metabolism, vol. 3, pp. 443–525 [Munro, H. N., editor]. New York and London: Academic Press.Google Scholar
Muramatsu, T., Coates, M. E., Hewitt, D., Salter, D. N. & Garlick, P. J. (1983). British Journal of Nutrition 49, 453–462.CrossRefGoogle Scholar
Muramatsu, T. & Okumura, J. (1979 a). Nutrition Reports International 19, 335–342.Google Scholar
Muramatsu, T. & Okumura, J. (1979 b). Nutrition Reports International 20, 709–716.Google Scholar
Okumura, J., Hewitt, D. & Coates, M. E. (1978). British Journal of Nutrition 39, 99–104.CrossRefGoogle Scholar
Rolls, B. A., Turvey, A. & Coates, M. E. (1978). British Journal of Nutrition 39, 91–98.CrossRefGoogle Scholar