Toward an understanding of the effects of agitation and aeration on growth and laccases production by Pleurotus ostreatus
R Tinoco-Valencia, C Gómez-Cruz, E Galindo… - Journal of …, 2014 - Elsevier
R Tinoco-Valencia, C Gómez-Cruz, E Galindo, L Serrano-Carreon
Journal of Biotechnology, 2014•ElsevierMycelial growth and laccase production by Pleurotus ostreatus CP50 cultured in a 10-L
mechanically agitated bioreactor were assessed through a 2 3 factorial experimental design.
The main effects and interactions of three factors (agitation, aeration and copper induction)
over five responses (μ, α Lacc, β Lacc, maximal volumetric laccase activity and maximal
biomass concentration) were analyzed. P. ostreatus growth was significantly improved when
culturing was conducted with high agitation (5.9 kW/m 3 s) and aeration flow (0.5 vvm) rates …
mechanically agitated bioreactor were assessed through a 2 3 factorial experimental design.
The main effects and interactions of three factors (agitation, aeration and copper induction)
over five responses (μ, α Lacc, β Lacc, maximal volumetric laccase activity and maximal
biomass concentration) were analyzed. P. ostreatus growth was significantly improved when
culturing was conducted with high agitation (5.9 kW/m 3 s) and aeration flow (0.5 vvm) rates …
Abstract
Mycelial growth and laccase production by Pleurotus ostreatus CP50 cultured in a 10-L mechanically agitated bioreactor were assessed through a 23 factorial experimental design. The main effects and interactions of three factors (agitation, aeration and copper induction) over five responses (μ, αLacc, βLacc, maximal volumetric laccase activity and maximal biomass concentration) were analyzed. P. ostreatus growth was significantly improved when culturing was conducted with high agitation (5.9 kW/m3 s) and aeration flow (0.5 vvm) rates. Under the experimental conditions evaluated, no evidence of hydrodynamic stress affecting fungal growth was observed. However, the high agitation and aeration conditions were detrimental for the growth-associated laccase production constant (αLacc), leading to a very complex optimization of the process. The maximal laccase volumetric activity (1.2 and 3.8 U/ml for non-induced and copper-induced cultures, respectively) was observed when the culturing was performed at a low agitation rate (0.9 kW/m3 s) and a high aeration flow rate (0.5 vvm). Laccase proteolysis may explain the complex interactions observed between agitation and aeration and the effects of these factors on the laccase volumetric activity observed in the cultures.
Elsevier
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