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Why are dietary nucleotides essential nutrients?

  • George K. Grimble (a1)
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References

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Adjei, A. A. & Yamamoto, S. (1995). A dietary nucleoside-nucleotide mixture inhibits endotoxin-induced bacterial translocation in mice fed protein-free diet. Journal of Nutrition 125, 4248.
Bower, R. H., Cerra, F. B., Bershadsky, B., Licari, J. J., Hoyt, D. B., Jensen, G. L., van Buren, C. T., Rothkopf, M. M., Daly, J. M. & Adelsberg, B. R. (1995). Early enteral administration of a formula (Impact®) supplemented with arginine, nucleotides, and fish-oil in intensive care unit patients: results of a multicenter, prospective, randomized, clinical trial. Critical Care Medicine 23, 436449.
Brunser, O., Espinoza, J., Araya, M., Cruchet, S. & Gil, A. (1994). Effect of dietary nucleotide supplementation on diarrhoea1 disease in infants. Acta Paediutrica 83, 188191.
Bueno, J., Torres, M., Almendros, A., Carmona, R., Nuñez, M. C., Rios, A. & Gil, A. (1994). Effect of dietary nucleotides on small intestinal repair after diarrhoea Histological and ultrastructural changes. Gut 35,926933.
D'Mello, J. P. F. (1982). Utilization of dietary purines and pyrimidines by non-ruminant animals. Proceedings of the Nutrition Society 41, 301308.
Daly, J. M., Lieberman, M. D., Goldfine, J., Shou, J., Weintraub, F., Rosato, E. F. & Lavin, P. (1992). Enteral nutrition with supplemental arginine, RNA and omega-3 fatty acids in patients after operation: immunologic, metabolic, and clinical outcome. Surgery 112, 5667.
Giesecke, D. & Tiemeyer, W. (1982). Availability and metabolism of purines of single-cell proteins in monogastric animals. Proceedings of the Nutrition Society 41, 319327.
Golden, M. H. N., Waterlow, J. C. & Picou, D. (1981). Metabolism in 15N nucleic acids in children. In Nitrogen Metabolism in Man, pp. 269273 [Waterlow, J. C. and Stephen, J.M.L., editors]. London: Applied Science Publishers.
Goody, H. E. & Ellem, K. A. O. (1975). Nutritional effects on precursor uptake and compartmentalization of intracellular pools in relation to RNA synthesis. Biochimica et Biophysica Acta 383, 3039.
Grimble, G.K. (1993). Essential and conditionally-essential nutrients in clinical nutrition. Nutrition Research Reviews 6, 97119.
Grimble, G. K. (1994). Dietary nucleotides and gut mucosal defence. Gut 35 (Suppl.), S46S51.
Henderson, J. F., Lowe, J. K. & Barankiewicz, J. (1977). In Purine and Pyrimidine Metabolism. Ciba Foundation Symposium 48.Amsterdam:Elsevier.
Leleiko, N. S., Martin, B. A., Walsh, M., Kazlow, P., Rabinowitz, S. & Sterling, K. (1987). Tissue-specific gene expression results from a purine- and pyrimidine-free diet and 6-mercaptopurine in the rat small intestine and colon. Gastroenterology 93, 10141020.
Leleiko, N. S., Bronstein, A. D., Baliga, B. S. & Munro, H. N. (1983). De novo purine nucleotide synthesis in the rat small and large intestine: effect of dietary protein and purines. Journal of Pediatric Gastroenterology and Nufrition 2, 313319.
López-Navarro, A. T., Gil, A. & Sánchez-Pozo, A. (1995). Deprivation of dietary nucleotides results in a transient decrease in acid soluble nucleotides and RNA concentration in rat liver. Journal of Nutrition 125, 20902095.
López-Navarro, A. T., Bueno, J. D., Gil, A. & Sánchez-Pozo, A. (1996). Morphological changes in hepatocytes of rats deprived of dietary nucleotides. British Journal of Nutrition 76, 579589.
Ogoshi, S., Iwasa, M., Tonegarua, T. & Tamiya, T. (1985). Effect of nucleotide and nucleoside mixture on rats given total parenteral nutrition after 70 % hepatectomy. Journal of Parenteral and Enteral Nutrition 9, 339342.
Wiegers, U., Krarner, G., Klapproth, K. & Hilz, H. (1976). Separate pyrimidine-nucleotide pools for messenger-RNA and ribosomal-RNA synthesis in HeLa S3 cells. European Journal of Biochemistry 64, 535540.
Zollner, N. (1982). Purine and pyrimidine metabolism. Proceedings of the Nutrition Society 41, 329342.

Why are dietary nucleotides essential nutrients?

  • George K. Grimble (a1)

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