Impact of Submerged Fermentation Parameters on Proteins Extracted from Ganoderma sichuanense and Their Antioxidant Potential
Vítor Alves Pessoa, Larissa Ramos Chevreuil, Roziane Rodrigues Nunes, Daiane Barão Pereira, Giovanna Lima-Silva, Larissa Batista do Nascimento Soares, Aldenora dos Santos Vasconcelos, Sérgio Dantas de Oliveira-Junior, Walter J. Martínez-Burgos, Ceci Sales-Campos

TL;DR
This study explores how fermentation conditions affect antioxidant proteins from the mushroom Ganoderma sichuanense and identifies an optimal method for their production.
Contribution
The study identifies optimal submerged fermentation parameters for maximizing antioxidant protein production from Ganoderma sichuanense.
Findings
The extract from static culture with specific media components showed highest protein and phenolic content and strongest antioxidant activity.
Static cultures produced higher protein band intensities in SDS-PAGE compared to agitated cultures.
The CM1S extract demonstrated cytoprotective potential against oxidative stress in yeast cells.
Abstract
Ganoderma sichuanense is a widely studied medicinal mushroom, but the production of its antioxidant proteins has been scarcely evaluated. We assess the influence of different concentrations of culture media components under submerged fermentation, with and without agitation, on production of proteins with antioxidant activity from the mycelial biomass of G. sichuanense. Protein extracts were characterized by scanning electron microscopy, X-ray diffraction, and attenuated total reflectance Fourier-transform infrared spectroscopy. They were also analyzed for total protein and phenolic contents, antioxidant activities (ABTS•+, DPPH•, chelating ability, and reducing power), and electrophoretic profiles by SDS-PAGE. The most active extract was tested for cytoprotective potential under H2O2-induced oxidative stress in Saccharomyces cerevisiae. Growth kinetics of the best fermentation…
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Taxonomy
TopicsFungal Biology and Applications · Fungal and yeast genetics research · Polysaccharides and Plant Cell Walls
