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JD Arthington , AR Spell , LR Corah & F Blecha (1996) Effect of molybdenum-induced copper deficiency on in vivo and in vitro measures of neutrophil chemotaxis both before and following an inflammatory stressor. Journal of Animal Science 74, 2759–2764.
A Baker , L Harvey , G Majsak-Newman , S Fairweather-Tait , A Flynn & K Cashman (1998) Effect of dietary copper intakes on biochemical markers of bone metabolism in healthy adult males. European Journal of Clinical Nutrition 53, 408–412.
S Bala & LM Failla (1992) Copper deficiency reversibly impairs DNA synthesis in activated T lymphocytes by limiting interleukin 2 activity. Proceedings of the National Academy of Science, USA 89, 6794–6797.
S Bala , ML Failla & JK Lunney (1990) T cell numbers and mitogenic responsiveness of peripheral blood mononuclear cells are decreased in copper deficient rats. Nutrition Research 10, 749–760.
R Boyne & JR Arthur (1981) Effects of selenium and copper deficiency of neutrophil function in cattle. Journal of Comparative Pathology 91, 271–276.
DM Danks (1988) Copper deficiency in humans. Annual Review of Nutrition 8, 235–257.
J Eaton-Evans , WE Mcllrath , WE Jackson , H McCartney & JJ Strain (1996) Copper supplementation and the maintenance of bone mineral density in middle-aged women. Journal of Trace Elements in Experimental Medicine 9, 87–94.
G Heresi , C Castillo-Duran , C Munoz , M Arevalo & L Schlesinger (1985) Phagocytosis and immunoglobulins levels in hypocupremic infants. Nutrition Research 5, 1327–1334.
S Higuchi , M Hirashima , H Nunoi , A Higashi , H Naoe & I Matsuda (1995) Characterization of antineutrophil antibodies in patients with neutropenia associated with nutritional copper deficiency. Acta Haematologica 94, 192–195.
V Kishore , N Latman , DW Roberts , JB Barnett & JRJ Sorenson (1984) Effect of nutritional copper deficiency on adjuvant arthritis and immunocompetence in the rat. Agents Action 14, 274–282.
CG Lai , WH Huang , A Askari , Y Wang , N Sarvazyan , LM Klevay & TH Chiu (1994) Differential regulation of superoxide dismutase in copper deficient rat organs. Free Radical Biology and Medicine 16, 613–620.
CG Lai , WH Huang , LM Klevay , WT Gunning 3rd & TH Chiu (1996) Antioxidant enzyme gene transcription in copper deficient rat liver. Free Radical Biology and Medicine 21, 233–240.
OA Lukasewycz & JR Prohaska (1983) Lymphocytes from copper deficient mice exhibit decreased mitogen reactivity. Nutrition Research 3, 335–341.
JI Manser , CS Crawford , EE Tyrala , NL Brodsky & WD Grover (1980) Serum copper concentrations in sick and well preterm infants. Journal of Paediatrics 97, 795–799.
DW Montgomery , LK Don , CF Zukosi & M Chvapil (1974) The effect of zinc and other metals on complement hemolysis of SRBC in vitro. Proceedings of the Society of Experimental Biology and Medicine 145, 263–267.
SA Mulhern , AR Vessey , GL Taylor & LE Magruder (1985) Suppression of antibody response by excess dietary zinc exposure during certain stages of ontogeny. Proceedings of the Society of Experimental Biology and Medicine 180, 453–461.
CR Paterson & J Burns (1988) Copper deficiency in infancy. Journal of Biochemical Nutrition 4, 175–190.
SS Percival (1995) Neutropenia caused by copper deficiency: Possible mechanism of action. Nutrition Reviews 53, 59–66.
JR Prohaska , WR Bailey , AM Gross & JJ Korte (1990) Effect of dietary copper deficiency on the distribution of dopamine and norepinephrine in mice and rats. Journal of Nutritional Biochemistry 1, 149–154.
JR Prohaska & OA Lukasewycz (1989) Biochemical and immunological changes in mice following postweaning copper deficiency. Biological Trace Element Research 22, 101–112.
JR Prohaska & OA Lukasewycz (1990) Effects of copper deficiency on the immune system. Advances in Experimental Medicine and Biology 262, 123–143.
JR Prohaska , RA Sunde & KB Zinn (1992) Livers from copper deficient rats have lower glutathione peroxidase activity and mRNA levels but normal liver selenium levels. Journal of Nutritional Biochemistry 3, 429–436.
LSF Soderberg , JB Barnett , ML Baker , H Salari & JRJ Sorenson (1987) Copper (II)2(3,5-diisopropylsalicylate)2 accelerated recovery of B and T cell reactivity following irradiation. Scandinavian Journal of Immunology 26, 495–501.
NF Suttle & DG Jones (1986) Copper and disease resistance in sheep: a rare natural confirmation of interaction between a specific nutrient and infection. Proceedings of the Nutrition Society 45, 317–325.
E Turley , A McKeown , MP Bonham , JM O'Connor , C Chopra , LJ Harvey , G Majsak-Newman , SJ Fairweather-Tait , S Bügel , B-M Sandström , E Rock , A Mazur , Y Rayssiguier & JJ Strain (2000) Copper supplementation in humans does not affect the susceptibility of low density lipoprotein to in vitro induced oxidation (FOODCUE project). Free Radical Biology and Medicine 29, 1129–1134.
E Vyas & RK Chandra (1983) Thymic factor activity, lymphocyte stimulation response and antibody producing cells in copper deficiency. Nutrition Research 3, 343–349.
MM Windhauser , LC Kappel , J McClure & M Hegsted (1991) Suboptimal levels of dietary copper vary immunoresponsiveness in rats. Biological Trace Element Research 30, 205–217.