Abstract
In the context of agribusiness, the agricultural and livestock sectors generate a considerable quantity of waste on a daily basis. Solid-state fermentation (SSF) represents a potential alternative for mitigating the adverse effects of residue accumulation and for producing high-value products such as enzymes. Pleurotus pulmonarius is capable of producing a number of commercial enzymes, including amylases. Accordingly, the present study sought to produce, characterize, and apply amylases obtained from solid-state fermentation of cocoa and peach-palm waste by the fungus Pleurotus pulmonarius CCB19. The highest amylase production by P. pulmonarius was observed after 3days of solid-state fermentation of the cocoa shells, with an activity of 83.90 U/gds. The physicochemical characterization of the crude amylase using the artificial neural network (ANN) revealed that the highest activity was observed at pH 9 and a temperature of 20°C (120.7 U/gds). Furthermore, the amylase demonstrated stability in the majority of the tested conditions, maintaining up to 80% of its residual activity for up to 120min of incubation. With regard to the impact of ions and reagents on enzymatic activity, a positive effect was observed in the presence of Co+ ions at concentrations of 1 and 5mM, whereas Cu+ ions at 5mM demonstrated an inhibitory effect. The addition of SDS and EDTA reagents did not affect the observed activity. Furthermore, the extract was tested in commercial detergent formulations and demonstrated enhanced compatibility (110%) and efficacy (270% with boiled detergent) in removing starch stains from fabrics with Ariel liquid detergent. In conclusion, amylase derived from the fungus Pleurotus pulmonarius CCB19 exhibited favorable properties that make it a suitable candidate for use as an additive in laundry detergent formulations.
Published Version
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