[Alsen P., Enns C., Wessling - Resnick M. (2001). Chemistry and biology of eukaryotic iron metabolism. Int. J. Biochem. Cell. Biol., 33: 940-959.]Search in Google Scholar
[Andrews N.C. (2002). Metal transporters and disease. Curr. Opin. Chem. Biol., 6: 181-186.]Search in Google Scholar
[Andrews N.C., Roy C.N. (2003). Forging iron links. Blood, 101, p. 2450.10.1182/blood-2003-01-0278]Search in Google Scholar
[Arnold J., Sangwaiya A., Bhatkal B., Arnold A. (2008). Defective release of Hepcidin not defective synthesis is the primary pathogenic mechanism in HFE-Haemochromatosis. Med. Hypotheses, 70, 6: 1197-1200.]Search in Google Scholar
[Bednarek D., Kondracki M. (1997). Bioelements and animal immunity. In: Siwicki A.K. (Ed.), The effect of xenobiotics on immunity system (in Polish). Inland Fisheries Institute, Olsztyn, pp. 85-94.]Search in Google Scholar
[Chung J., Wessling-Resnick M. (2003). Molecular mechanisms and regulation of iron transport. Crit. Rev. Clin. Lab. Sci., 40: 151-182.]Search in Google Scholar
[Collins H.L. (2003). The role of iron in infections with intracellular bacteria. Immunol. Lett., 85: 193-195.]Search in Google Scholar
[Dębska M. (2005). Evaluation of the supply of European bison from the Białowieża Forest in mineral components (in Polish). Doctoral thesis, Warsaw University of Life Sciences - SGGW, Warsaw.]Search in Google Scholar
[Doyle J.J. (1979). Toxic and essential elements in bone - a review. J. Anim. Sci., 49: 482-497.]Search in Google Scholar
[Drożdż A. (1981). Features of hoof structure: mineral composition of the horn in nine groups of Friesian F1 crossbreeds (in Polish). Doctoral thesis, Warsaw University of Life Sciences - SGGW, Warsaw.]Search in Google Scholar
[Dymnicka M., Debska M., Arkuszewska E., Olech W. (2009). Serum and tissues concentrations of selected biochemical and mineral compounds in relation to the incidence of balanoposthitis in European bison. Rocz. Nauk. PTZ, 5 (1): 129-137.]Search in Google Scholar
[Falandysz J. (1993). Some toxic and essential trace metals in cattle from northern part of Poland. Sci. Total Environ., 136: 177-191.]Search in Google Scholar
[Falandysz J. (1994). Some toxic and trace metals in big game hunted in the northern part of Poland in 1987-1991. Sci. Total Environ., 141: 59-73.]Search in Google Scholar
[Ganz T. (2003). Hepcidin, a key regulator of iron metabolism and mediator of anemia of inflammation. Blood, 102: 783-788.]Search in Google Scholar
[Ganz T. (2007). Molecular control of iron transport. J. Am. Soc. Nephrol., 18: 394-400.]Search in Google Scholar
[Jurczyk K. (2000). The role of iron in liver diseases (in Polish). Post. Nauk. Med., 1: 1-5.]Search in Google Scholar
[Kabata - Pendias A., Pendias H. (1999). Biogeochemistry of trace elements (in Polish). Second edition. Warsaw.]Search in Google Scholar
[Kleczkowski M., Kluciński W., Sikora J., Kasztela n R. (2004). Role of selected minerals in the oxidative processes of organisms. Med. Weter., 60, 3: 242-245.]Search in Google Scholar
[Kośla T. (1989). Eisenstatus, -bedarf und-versorgung des Pferdes. Mengen- und Spurenelemente, Univ. Leipzig 9: 175-182.]Search in Google Scholar
[Kośla T. (1999). Biological and chemical pollutants of agricultural products (in Polish). Publishing house SGGW, Warsaw, Poland.]Search in Google Scholar
[Kośla T., Skibniewska E.M. (2010). Influence of hepcidin on iron metabolism. Med. Weter., 66, 5: 291-293.]Search in Google Scholar
[Kushner J.P., Porter J.P., Olivieri N.F. (2001). Secondary iron overload. Hematology, 1: 47-61.]Search in Google Scholar
[Leong W.I., Lönnerdal B. (2004). Hepcidin, the recently identified peptide that appears to regulate iron absorption. J. Nutr., 134: 1-4.]Search in Google Scholar
[Mazur A., Feillet- Coudray Ch., Romier B., Bayle D., Gueux E., Ruivard M., Coudray Ch., Rayssiguier Y. (2003). Dietary iron regulates hepcidin 1 and 2 mRNA in mice. Metabolism, 52, 10: 1229-1231.]Search in Google Scholar
[Miranda M., López- Alonso M., Benedito J.L. (2006). Copper, zinc, iron, and manganese accumulation in cattle from Asturias (northern Spain). Biol. Trace Elem. Res., 2: 135-143.]Search in Google Scholar
[Nemeth E., Valore E.V., Territo M., Schiller G., Lichtenstein A., Ganz T. (2003).]Search in Google Scholar
[Hepcidin, a putative mediator of anemia of inflammation, is a type II acute-phase protein. Blood, 101: 2461-2463.10.1182/blood-2002-10-323512433676]Search in Google Scholar
[Nicolas G., Bennoun M., Devaux I., Beaumont C., Grandchamp B., Kahn A., Vaulont S. (2001). Lack of hepcidin gene expression and severe tissue iron overload in upstream stimulatory factor 2 (USF2) knockout mice. Proc. Nat. Acad. Sci., 98: 8780-8785.]Search in Google Scholar
[Puls R. (1988). Mineral levels in animal health. Trinity Western University Press, British Columbia, Canada.]Search in Google Scholar
[Smith J.W., Andrews St. (1964). Observations on the water content of bone. J. Bone Joint Surg., 46B: 553-562.]Search in Google Scholar
[Vengušt G., Vengušt A. (2004). Some minerals as well as trace and toxic elements in livers of fallow deer (Dama dama) in Slovenia. Eur. J. Wildl. Res., 50: 59-61.]Search in Google Scholar
[Weiss G. (2002). Pathogenesis and treatment of anaemia of chronic disease. Blood Rev., 16: 87-96.]Search in Google Scholar
[Zhang A.S., Xiong S., Tsukamoto H., Enns C.A. (2004). Localization of iron metabolismrelated mRNAs in rat liver indicates that HFE is predominantly expressed in hepatocyte. Blood, 103: 1509-1514. ]Search in Google Scholar