Ardawi MSM , Newsholme EA: Glutamine netabolism in lymphocytes of the rat. Biochem J212:835-842, 1983
2.
Ardawi MSM , Newsholme EA: Metabolism in lymphocytes and its importance in the immune response. Essays Biochem21:1-44, 1985
3.
Newsholme P. , Curi R., Newsholme EA: Metabolism of glucose, glutamine, long-chain fatty acids and ketone bodies by murine macrophages . Biochem J239:121-125, 1986
4.
Newsholme EA , Newsholme P., Curi R.: The role of the citric acid cycle in cells of the immune system and its importance in sepsis, trauma, and burns. Biochem Soc Symp54:145-162, 1987
5.
Newsholme EA , Newsholme P., Curi R., et al: A role for muscle in the immune system and its importance in surgery, trauma, sepsis and burns . Nutrition4:261-2168, 1988
6.
Newsholme EA, Leech AR: Biochemistry for the Medical Sciences. John Wiley & Sons, Chichester, 1983, pp 233-234
7.
Kovacevic Z. , McGivan JD: Mitochondrial metabolism of glutamine and glutamate and its physiological significance. Physiol Rev63:547-605, 1983
8.
Newsholme EA , Crabtree B., Ardawi MSM: The role of high rates of glycolysis and glutamine utilisation in rapidly dividing cells. Biosci Rep4:393-400, 1985
9.
Newsholme EA , Crabtree B., Ardawi MSM: Glutamine metabolism in lymphocytes. Its biochemical, physiological and clinical importance. Q J Exp Physiol70:473-489, 1985
10.
Windmueller HG, Spaeth AE: Uptake and metabolism of plasma glutamine by the small intestine. J Biol Chem49:5070-5071, 1974
11.
Clowes GA, Heiderman M., Lundberg B., et al: Effects of parenteral alimentation on amino acid metabolism in septic patients. Surgery88:531-543, 1980
12.
Stjernstrom H., Lund J., Wiklund L., et al: The influence of abdominal surgical trauma on the exchange of blood-borne amino acids in humans. Clin Nutr5:123-131, 1986
13.
Ardawi MSM : Skeletal muscle glutamine production in thermally injured rats. Clin Sci74:165-172, 1988
14.
Crabtree B. , Newsholme EA: A quantitative approach to metabolic control . Curr Top Cell Regul25:21-76, 1985
15.
Parry-Billings, M.: Studies of glutamine release from skeletal i cle. D Phil Thesis, Oxford University, 1989
16.
Rennie MJ, Watt PW: Kinetics of glutamate and glutamine transport in perfused rat muscle . J Physiol361:37, 1985
17.
Hundal HS, Watt PW, Rennie MJ: Amino acid transport in perfused rat skeletal muscle. Biochem Soc Symp14:1070-1071, 1986
18.
Rennie MJ, Hundal HS, Babij P., et al: Characteristics of a glutamine carrier in skeletal muscle have important consequences for nitrogen loss in injury, infection, and chronic disease. Lancet1:1008-1011, 1986
19.
Crompton M. , Caparo M., Carafoli E.: The sodium induced efflux of calcium from heart mitochondria. A possible mechanism for the regulation of mitochondrial calcium. Eur J Biochem69:453-462, 1976
20.
Fürst P., Albers S., Stehle P.: Stress-induced intracellular glutamine depletion. The potential use of glutamine-containing dipeptides in parenteral nutrition. Contr Infusion Ther Clin Nutr17:117-136, 1987
21.
Roth E., Funovics J., Mühlbacher F., et al: Metabolic disorders in severe abdominal sepsis: Glutamine deficiency in skeletal muscle. Clin Nutr1:25-41, 1982
22.
MacLennan PA , Brown RA, Rennie MJ: A positive relationship between protein synthetic rate and intracellular glutamine concentration in perfused rat skeletal muscle . FEBS Lett215:187-191, 1987
23.
MacLennan PA , Smith K., Weryk B., et al: Inhibition of protein breakdown by glutamine in perfused rat skeletal muscle. FEBS Lett237:133-136, 1988
24.
Wolfe RR, Peters EJ, Herndon DN, et al: Effect of severe burn injury on substrate cycling by glucose and fatty acids. N Engl J Med317:403-408, 1987
25.
Szondy Z., Newsholme EA: The effect of glutamine concentration on the activity of carbamyl phosphate synthase II and on the incorporation of [3H] thymidine into DNA in rat mesenteric lymphocytes stimulated by phytohemagglutinin. Biochem J261:979-983, 1989
