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The mechanism of passage of endogenous urea through the rumen wall and the role of ureolytic epithelial bacteria in the urea flux

Published online by Cambridge University Press:  09 March 2007

K.-.J. Cheng
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen AB2 9SB
R. J. Wallace
Affiliation:
Rowett Research Institute, Bucksburn, Aberdeen AB2 9SB
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Abstract

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1. The rumen urea concentration in gnotobiotic lambs lacking ureolytic bacteria was equal to that of blood.

2. Bacterial urease (EC 3.5.1.5.) activity in sheep fed by intraruminal and intra-abomasal infusion was inversely related to rumen ammonia concentration.

3. A model is proposed for the facilitation and control of urea flux by wall-bound ureolytic bacteria.

Type
Papers on General Nutrition
Copyright
Copyright © The Nutrition Society 1979

References

Alexander, T. J. L. & Lysons, R. J. (1971). Br. vet. J. 127, 349.CrossRefGoogle Scholar
Alexander, T. J. L., Lysons, R. J., Elliot, L. M. & Wellstead, P. D. (1973 a). Lab. Anim. 7, 195.CrossRefGoogle Scholar
Alexander, T. J. L., Lysons, R. J., Elliot, L. M. & Wellstead, P. D. (1973 b). Lab. Anim. 7, 239.CrossRefGoogle Scholar
Allen, S. A. & Miller, E. L. (1976). Br. J. Nutr. 36, 353.CrossRefGoogle Scholar
Chalupa, W. (1972). Fedn Proc. Fedn Am. Socs exp. Biol. 31, 1152.Google Scholar
Cheng, K.-J., Bailey, C. B. M., Hironaka, R. & Costerton, J. W. (1979). Can. J. Anim. Sci. 59, 207.CrossRefGoogle Scholar
Cheng, K.-J., McCowan, R. P. & Costerton, J. W. (1979). Am. J. clin. Nutr. 32, 139.CrossRefGoogle Scholar
Cook, A. R. (1976). J. gen. Microbiol. 92, 32.CrossRefGoogle Scholar
Harmeyer, J. & Várady, J. (1972). Tracer Studies on Non-Protein Nitrogen for Ruminants, p. 91. Vienna: International Atomic Energy Agency.Google Scholar
Harrop, C. J. F. & Phillipson, A. T. (1974). J. agric. Sci., Camb. 82, 399.CrossRefGoogle Scholar
Hill, H., Decker, P., Hörnicke, H., Höller, H. & Gärtner, K. (1961). Use of Radioisotopes in Animal Biology and the Medical Sciences, vol. 2, p. 205. London: Academic Press.Google Scholar
Houpt, T. R. (1970). In Physiology of Digestion and Metabolism in the Ruminant, p. 119. [Phillipson, A. T., editor]. Newcastle upon Tyne: Oriel Press.Google Scholar
Houpt, T. R. & Houpt, K. A. (1964). Fedn Proc. Fedn Am. Socs exp. Biol. 23, 262.Google Scholar
Houpt, T. R. & Houpt, K. A. (1968). Am. J. Physiol. 214, 1296.CrossRefGoogle Scholar
Juhász, B. (1963). Nitrogén Körfolyamat Kérödzökben Magyar Állatorvosok lapja. 18, 30.Google Scholar
Juhász, B. (1965). vet. Acad. Sci. hung. 15, 25.Google Scholar
Kennedy, D. M. & Milligan, L. P. (1978). Br. J. Nutr. 40. 149.CrossRefGoogle Scholar
Mann, S. O. & Stewart, C. S. (1974). J. gen. Microbiol. 84, 379.CrossRefGoogle Scholar
Marsh, W. H., Fingerhut, B. & Miller, H. (1965). Clin. Chem. 11, 624.CrossRefGoogle Scholar
Ørskov, E. R., Grubb, D. A., Wenham, G. & Corrigall, W. (1979). Br. J. Nutr. 41, 553.CrossRefGoogle Scholar
Thornton, R. F. (1970). Aust. J. agric. Res. 21, 323.CrossRefGoogle Scholar
Várady, J., Boda, K., Havassy, I. & Bajo, M. (1969). Physiologia bohemoslov. 18, 23.Google Scholar
Várady, J., Boda, K., Havassy, I., Bajo, M. & Tomás, J. (1967). Physiologia bohemoslov. 16, 571.Google Scholar
Várady, J., Boda, K., Tomás, J., Havassy, I. & Bajo, M. (1967). Veterinarni medicina 12, 347.Google Scholar
Várady, J. & Harmeyer, J. (1972). Tracer Studies on Non-Protein Nitrogen for Ruminants, p. 79. Vienna: International Atomic Energy Agency.Google Scholar
von Engelhardt, W. & Hinderer, S. (1976). Tracer Studies on Non-Protein Nitrogen for Ruminants, vol. 3, p. 57. Vienna: International Atomic Energy Agency.Google Scholar
von Engelhardt, W., Hinderer, S. & Wipper, E. (1978). In Ruminant Digestion and Feed Evaluation, p. 41. [Osbourn, D. F., Beever, D. E. and Thornson, D. J., editors]. London: Agricultural Research Council.Google Scholar
von Engelhardt, W. & Nickel, W. (1965). Arch. ges. Physiol. 286, 57.CrossRefGoogle Scholar
Wallace, R. J., Cheng, K.-J., Dinsdale, D. & Ørskov, E. R. (1979). Nature, Lond. 279, 424.CrossRefGoogle Scholar
Weatherburn, M. W. (1967). Analyt. Chem. 39, 971.CrossRefGoogle Scholar