Biologically active secondary metabolites from white-rot fungi [PDF]
Frontiers in ChemistryIn recent years, there has been a considerable rise in the production of novel metabolites derived from fungi compared to the ones originating from bacteria.
Orkun Pinar, Susana Rodríguez-Couto
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Role of white rot fungi in sustainable remediation of heavy metals from the contaminated environment [PDF]
MycologyHeavy metal contamination has severe impacts on the natural environment. The currently existing physico-chemical methods have certain limitations, restricting their wide-scale application.
Vipin Kumar Singh, Rishikesh Singh
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Enzyme Activities of Five White-Rot Fungi in the Presence of Nanocellulose [PDF]
Journal of Fungi, 2021 White-rot fungi can degrade all lignocellulose components due to their potent lignin and cellulose-degrading enzymes. In this study, five white-rot fungi, Trametes versicolor, Trametes pubescens, Ganoderma adspersum, Ganoderma lipsiense, and Rigidoporus ...
Carolina Reyes +4 more
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BIOMODIFICATION OF KENAF USING WHITE ROT FUNGI [PDF]
BioResources, 2012 White rot fungi can be used as a pretreatment of biomass to degrade lignin. It also alters the structure of the lignocellulosic matter, thus increasing its accessibility to enzymes able to convert polysaccharides into simple sugars.
Rasmina Halis, +3 more
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Fermentation, 2022 Various pretreatments are employed to increase the utilization of rice straw as a ruminant feed ingredient to minimize its negative environmental impact. However, an efficient alternative is still needed.
Osmond Datsomor +6 more
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Metabolic mechanism of lignin-derived aromatics in white-rot fungi. [PDF]
Appl Microbiol BiotechnolWhite-rot fungi, such as Phanerochaete chrysosporium, play a crucial role in biodegrading lignocellulosic biomass including cellulose, hemicellulose, and lignin.
Kato H, Miura D, Kato M, Shimizu M.
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White Rot Fungi as Tools for the Bioremediation of Xenobiotics: A Review. [PDF]
J Fungi (Basel)Industrial development has enhanced the release into the environment of large quantities of chemical compounds with high toxicity and limited prospects of degradation.
Torres-Farradá G +4 more
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Biodelignification of lignocellulose using ligninolytic enzymes from white-rot fungi. [PDF]
Heliyon, 2022 Lignocellulose is the most abundant biomass available on earth, including wood and agricultural wastes such as rice straw, corn cobs, and oil palm empty bunches.
Suryadi H +6 more
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Systems biology-guided understanding of white-rot fungi for biotechnological applications: A review. [PDF]
iScience, 2022 Summary Plant-derived biomass is the most abundant biogenic carbon source on Earth. Despite this, only a small clade of organisms known as white-rot fungi (WRF) can efficiently break down both the polysaccharide and lignin components of plant cell walls.
Kijpornyongpan T +3 more
europepmc +2 more sources
Isolation and identification of local white-rot fungi from West Sumatra and their potential for biodelignification of ruminant feed [PDF]
Journal of Advanced Veterinary and Animal ResearchObjective: This research aimed to isolate and identify potential white-rot fungi from various locations in West Sumatra, Indonesia, that could be used for biodelignification of animal feed ingredients.
Eli Ratni +3 more
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