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Beyond Enzyme Production: Solid State Fermentation (SSF) as an Alternative Approach to Produce Antioxidant Polysaccharides

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  • Ramón Verduzco-Oliva

    (Tecnologico de Monterrey, Escuela de Ingenierıa y Ciencias, Centro de Biotecnologıa FEMSA, Monterrey, Nuevo Leon 64849, Mexico)

  • Janet Alejandra Gutierrez-Uribe

    (Tecnologico de Monterrey, Escuela de Ingenierıa y Ciencias, Centro de Biotecnologıa FEMSA, Monterrey, Nuevo Leon 64849, Mexico
    Tecnologico de Monterrey, Campus Puebla, Vía Atlixcáyotl 5718, Reserva Territorial Atlixcáyotl, Puebla, Puebla 72453, Mexico)

Abstract

Solid state fermentation (SSF) is a sustainable process that uses low amounts of water and transforms plant-based agro-industrial residues into valuable products such as enzymes, biofuels, nanoparticles and other bioactive compounds. Many fungal species can be used in SSF because of their low requirements of water, O 2 and light. During SSF, plant-based wastes rich in soluble and insoluble fiber are utilized by lignocellulolytic fungi that have enzymes such as lignases, celullases or hemicelullases that break fiber hard structure. During the hydrolysis of lignin, some phenolic compounds are released but fungi also synthetize bioactive compounds such as mycophenolic acid, dicerandrol C, phenylacetates, anthraquinones, benzofurans and alkenyl phenols that have health beneficial effects such as antitumoral, antimicrobial, antioxidant and antiviral activities. Another important group of compounds synthetized by fungi during SSF are polysaccharides that also have important health promoting properties. Polysaccharides have antioxidant, antiproliferative and immunomodulatory activities as well as prebiotic effects. Fungal SSF has also proved to be a process which can release high contents of phenolics and it also increases the bioactivity of these compounds.

Suggested Citation

  • Ramón Verduzco-Oliva & Janet Alejandra Gutierrez-Uribe, 2020. "Beyond Enzyme Production: Solid State Fermentation (SSF) as an Alternative Approach to Produce Antioxidant Polysaccharides," Sustainability, MDPI, vol. 12(2), pages 1-14, January.
    • Handle: RePEc:gam:jsusta:v:12:y:2020:i:2:p:495-:d:306622
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    References listed on IDEAS

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    1. Laura Mejias & Alejandra Cerda & Raquel Barrena & Teresa Gea & Antoni Sánchez, 2018. "Microbial Strategies for Cellulase and Xylanase Production through Solid-State Fermentation of Digestate from Biowaste," Sustainability, MDPI, vol. 10(7), pages 1-15, July.
    2. Artur Rogowski & Jonathon A. Briggs & Jennifer C. Mortimer & Theodora Tryfona & Nicolas Terrapon & Elisabeth C. Lowe & Arnaud Baslé & Carl Morland & Alison M. Day & Hongjun Zheng & Theresa E. Rogers &, 2015. "Glycan complexity dictates microbial resource allocation in the large intestine," Nature Communications, Nature, vol. 6(1), pages 1-16, November.
    3. Caroline Fritsch & Andreas Staebler & Anton Happel & Miguel Angel Cubero Márquez & Ingrid Aguiló-Aguayo & Maribel Abadias & Miriam Gallur & Ilaria Maria Cigognini & Angela Montanari & Maria Jose López, 2017. "Processing, Valorization and Application of Bio-Waste Derived Compounds from Potato, Tomato, Olive and Cereals: A Review," Sustainability, MDPI, vol. 9(8), pages 1-46, August.
    4. Noraziah Abu Yazid & Raquel Barrena & Dimitrios Komilis & Antoni Sánchez, 2017. "Solid-State Fermentation as a Novel Paradigm for Organic Waste Valorization: A Review," Sustainability, MDPI, vol. 9(2), pages 1-28, February.
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    1. Fabio Minervini & Francesca Comitini & Annalisa De Boni & Giuseppina Maria Fiorino & Francisca Rodrigues & Ali Zein Alabiden Tlais & Ilaria Carafa & Maria De Angelis, 2022. "Sustainable and Health-Protecting Food Ingredients from Bioprocessed Food by-Products and Wastes," Sustainability, MDPI, vol. 14(22), pages 1-28, November.

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