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A new bioreactor design for culturing basidiomycetes: Mycelial biomass production in submerged cultures of Ceriporiopsis subvermispora

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Autor(es):
Domingos, Marcelo ; de Souza-Cruz, Priscila Brasil ; Ferraz, Andre ; Ramalho Prata, Arnaldo Marcio
Número total de Autores: 4
Tipo de documento: Artigo Científico
Fonte: Chemical Engineering Science; v. 170, p. 7-pg., 2017-10-12.
Resumo

Oxygen transfer in submerged cultures of basidiomycetes is a key factor for efficient fungal growth. However, conventional stirred tank and airlift reactors are not utterly suitable for basidiomycetes culturing because they promote high shear stress to the mycelial hyphae and favor rapid agglomeration of mycelial pellets, compromising the diffusion of oxygen to the inner side of mycelium. We describe an original reactor design that overcome some of the limitations of conventional bioreactors used in submerged cultures of basidiomycetes. The strategy was to use a mechanism that permits simultaneous axis rotation and air injection, being the agitation promoted by an L-shaped tube. Adherence of mycelium and shear stress is avoided once only rounded surfaces exist inside the bioreactor. Ceriporiopsis subvermispora was, selected as a model basidiomycete. The most productive system employed sucrose/corn steep liquor as the culture medium and pulsed addition of sucrose during the culturing. This approach provided efficient mycelial growth (maximum of 14.1 g center dot L-1 and avoided pH increase and pellet agglomeration throughout the fungal cultivation for 7 days, resulting in a biomass productivity of 1.72 g center dot L-1.day(-1). Microscopic evaluation of chlamydospores accumulation in the grown mycelium confirmed that minimal fungal stress occurred in the cultures performed in the new designed bioreactor, contrasting with cultures carried out in conventional stirred tank bioreactors. (C) 2017 Elsevier Ltd. All rights reserved. (AU)

Processo FAPESP: 02/07747-0 - Estudo da biodegradação de madeira por fungos dos gêneros Ceriporiopsis Dom. e Phlebia Fr.
Beneficiário:Priscila Brasil de Souza Cruz
Modalidade de apoio: Bolsas no Brasil - Doutorado