[1. Ayaz, F. A., Torun, H., Özel, A., Col, M., Duran, C., Sesli, E., Colac, A., 2011: Nutritional value of some wild edible mushrooms from the Black Sea region (Turkey). Turkish Journal of Biochemistry, 36, 385—393.]Search in Google Scholar
[2. Borovička, J. Kotrba, P., Gryndler, M., Mihaljevič, M., Řanda, Z., Rohovec, J. et al., C. E., 2010: Bioaccumulation of silver in ectomycorrhizal and saprobic macrofungi from Pristine and polluted areas. Science of the Total Environment, 408, 2773—2744.10.1016/j.scitotenv.2010.02.031]Search in Google Scholar
[3. Çağlarirmak, N., 2007: The nutrients of exotic mushrooms (Lentinula edodes and Pleurotus species) and an estimated approach to the volalite compounds. Food Chemistry, 105, 1188—1194.10.1016/j.foodchem.2007.02.021]Search in Google Scholar
[4. Cocchi, L., Vescovi, L., Petrini L. E., Petrini, O., 2006: Heavy metals in edible mushrooms in Italy. Food Chemistry, 98, 277—284.10.1016/j.foodchem.2005.05.068]Search in Google Scholar
[5. Falandysz, J., Borovička, J., 2013: Macro and trace mineral constituents and radionuclides in mushrooms: health benefits and risks. Appl. Microbiol. Biotechnol., 97, 477—501.10.1007/s00253-012-4552-8]Search in Google Scholar
[6. Ferreira, I. C. F. R., Barros, L., Abreu, R. M. V., 2009: Antioxidant in wild mushrooms. Current Medicinal Chemistry, 16, 1543—1560.10.2174/092986709787909587]Search in Google Scholar
[7. Gadd, G. M., 2007: Geomycology: biogeochemical transformations of rock, minerals and radionuclides by fungi, bioweathering and bioremendiation. Mycol. Res., 111, 3—49.10.1016/j.mycres.2006.12.001]Search in Google Scholar
[8. Kalač, P., Svoboda, L., 2000: A review of trace element concentrations in edible mushrooms. Food Chemistry, 69, 273—281.10.1016/S0308-8146(99)00264-2]Search in Google Scholar
[9. Kalač, P., Svoboda, L., Havlíčková, B., 2004: Contents of cadmium and mercury in edible mushrooms. A review. Journal of Applied Biomedicine, 2, 15—20.10.32725/jab.2004.002]Search in Google Scholar
[10. Kalač, P., 2009: Chemical composition and nutritional value of European species of wild growing mushrooms. A review. Food Chemistry, 113, 9—16.10.1016/j.foodchem.2008.07.077]Search in Google Scholar
[11. Kalač, P., 2010: Trace element contents in European species of wild growing edible mushrooms: A review for the period 2000—2009. Food Chemistry, 122, 2—15.10.1016/j.foodchem.2010.02.045]Search in Google Scholar
[12. Kaya, A., Bag, H., 2010: Trace element contents of edible macrofungi growing in Adiyaman, Turkey. Asian Journal of Chemistry, 22, 1515—1521.]Search in Google Scholar
[13. Kim, Y. S., Im, J., Choi, J. N., Kang, S. S., Lee, Y. J., Lee, C. H. et al., 2010: Induction of ICM-1 by Armillaria mellea is mediated though generation of reactive oxygen species and JNK activation. Journal of Ethnopharmacology, 128, 198—205.10.1016/j.jep.2010.01.01120079413]Search in Google Scholar
[14. Konuk, M., Afyon, A., Yağiz. A., 2007: Minor element and heavy metal contents of wild growing and edible mushrooms from Western Black sea region of Turkey. Fresenius Environmental Bulletin PSP, 16, 1359—1362.]Search in Google Scholar
[15. Lindequist, U., Niedermeyer, T. H. J., Jülich, W. D., 2005: The Pharmacological Potential of Mushrooms. eCAM, 2, 285—299.10.1093/ecam/neh107119354716136207]Search in Google Scholar
[16. Lung, M. Y., Chang, Y. C., 2011: Antioxidant Properties of the Edible Basidiomycete Armillaria mellea in Submerget Cultures. Int. J. Mol. Sci., 12, 6367—6384.10.3390/ijms12106367321098322072892]Search in Google Scholar
[17. Maihara, V. A., Moura, P. L. C., Catharino, M. G. M., Moreira, E. G., Castro, L. P., Figueira, R. C. L., 2012: Cadmium determination in Lentinus edodesmushroom species. Ciencia e Technologia de Alimentos, 32, 553—557.10.1590/S0101-20612012005000080]Search in Google Scholar
[18. Milovanovič, I., Brčeski. I., Stajič, M., Korač, A., Vukojevič, J., Kneževič, A., 2014: Potential of Pleurotus ostreatus mycelium for selenium absorption. Scientific World Journal, 1—8, ID 681834, http://dx.doi.org/10.1155/2014/681834.10.1155/2014/681834406685325003145]Search in Google Scholar
[19. Muszyńska, B., Suƚkowska-Ziaja, K., Woƚkowska, M., Ekiert, H., 2011: Chemical, pharmacological, and biological characterization of the culinary-medicinal Honey mushroom, Armillaria mellea (Vahl) P. Kumm. (Agaricomycetideae): A review. International Journal of Medicinal Mushrooms, 13, 167—175.10.1615/IntJMedMushr.v13.i2.90]Search in Google Scholar
[20. Radulescu, C., Stihi, C., Busuioc, G., Gheboianu, A. I., Popescu, I. V., 2010: Studies concerning heavy metals bioaccumulation of wild edible mushrooms from industrial area by using spectrometric techniques. Bull. Environ. Contam. Toxicol., 84, 641—646.10.1007/s00128-010-9976-120405104]Search in Google Scholar
[21. Rudawska, M., Leski, T., 2005: Macro- and microelement contents in fruiting bodies of wild mushrooms from the Notecka forest in west-central Poland. Food Chemistry, 92, 499—506.10.1016/j.foodchem.2004.08.017]Search in Google Scholar
[22. Slovak Codex Alimentarius, Chemical contaminants, 2005: Supplement No. 1 and 2 to the third and tenth chapters of the second volume of the Codex Alimentarius: Contaminants in Food, Part A: Chemical Elements (In Slovak). XXXV, 7—1.]Search in Google Scholar
[23. Soeroes, Cs., Kienzl, N., Ipolyi, I., Dernovics, M., Fodor, P., Kuehnelt, D., 2005: Arsenic uptake and arsenic compounds in cultivated Agaricus bisporus. Food Control, 16, 459—464.10.1016/j.foodcont.2004.05.007]Search in Google Scholar
[24. Vaz, J. A., Barros, L., Martins, A., Santos-Buelga, C., Vasconcelos, M. H., Ferreira, I. C. F. R., 2011: Chemical composition of wild edible mushrooms and antioxidant properties of their water soluble polysaccharidic and ethanolic fractions. Food Chemistry, 126, 610—616.10.1016/j.foodchem.2010.11.063]Search in Google Scholar
[25. Vetter, J., 1995: Boron content of edible mushrooms of Hungary. Zeitschrift für Lebensmittel Unterschung und Forschung, 201,524—52710.1007/BF012015768585328]Search in Google Scholar
[26. Vetter, J., 2004: Arsenic content of some edible mushroom species. European Food Research and Technology, 219, 71—74.10.1007/s00217-004-0905-6]Search in Google Scholar
[27. Wasser, S. P., Veis, A., 1999: Medicinal properties of substances occurring in higher Basidiomycetes mushrooms: current perspective (review). International Journal of Medicinal Mushrooms, 1, 31—36.10.1615/IntJMedMushrooms.v1.i1.30]Search in Google Scholar
[28. World Health Organization. Evaluation of certain of food additives and contaminants, 1989: 33rd Report of the Joint FAO/WHO expert Committee on Food Additives. Geneva — WHO, WHO Technical Report Series, 776, 26—27.]Search in Google Scholar
[29. Xu, Y., Chen, P., Zhang, L., Ashida, H., 2012: Chain structures of glucans from Lentinus edodesand effects on NO production from RAW 264.7 macrophages. Carbohydrate Polymers, 87, 1855—1862.10.1016/j.carbpol.2011.10.015]Search in Google Scholar
[30. Zhang, Y., Li, S., Wang, X., Zhang, L., Cheung, P. C. K., 2011: Advances in lentinan: Isolation, structure, chain conformation and bioactivities. Food Hydrocoloids, 25, 196—206.10.1016/j.foodhyd.2010.02.001]Search in Google Scholar
[31. Zhang, D., Zhang, Y., Morawska, E., Bielawski L., Krasińska, G., Drewnowska, M. et al., 2013: Trace element in Leccinum scabrum mushrooms and topsoil from Kƚodzka Dale in Sudety mountains, Poland. Jounal of Mountain Science, 10, 621—627.10.1007/s11629-013-2384-3]Search in Google Scholar