Anais da Academia Brasileira de Ciências (Aug 2020)

Iron Or Zinc Bioaccumulated In Mycelial Biomass Of Edible Basidiomycetes

  • SUZANA H. UMEO,
  • MARIA GRACIELA I. FARIA,
  • DOUGLAS C. DRAGUNSKI,
  • JULIANA S. DO VALLE,
  • NELSON B. COLAUTO,
  • GIANI ANDREA LINDE

DOI
https://doi.org/10.1590/0001-3765202020191350
Journal volume & issue
Vol. 92, no. suppl 2

Abstract

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Abstract Iron and zinc bioaccumulation in mycelial biomass of different medicinal basidiomycetes was evaluated in order to produce metal-enriched mycelial biomass as an alternative functional food from non-animal sources and based on biotechnology processes. Pleurotus ostreatus strain U2-9, U2-11, U6-8, and U6-9, Pleurotus eryngii strain U8-11, Schizophyllum commune strain U6-7, and Lentinula edodes strain U6-11 and U6-12 were grown in malt extract agar with or without addition of 50 mg/L iron or 7.5 mg/L zinc. The mycelial biomass was separated and iron and zinc concentrations were determined in a flame atomic absorption spectrophotometer. Basidiomycete strains presented different growth rates with the presence of iron and zinc; there was no dependence between the metal bioaccumulation and the fungal growth. The fungi presented greater capacity to bioaccumulate iron than zinc. P. ostreatus (U2-9) has greater iron bioaccumulation (3197.7 mg/kg) while P. ostreatus (U6-8) greater zinc bioaccumulation (440.4 mg/kg) in mycelial biomass. P. ostreatus (U2-9), P. ostreatus (U2-11), and S. commune (U6-7) had the highest metal translocation rates from the culture medium to mycelial biomass. The mycelial biomass enriched with iron or zinc is an alternative to a new functional food from non-animal sources.

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