OPFR removal by white rot fungi: screening of removers and approach to the removal mechanism. [PDF]
Front Fungal BiolLosantos D, Sarra M, Caminal G.
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Methionine oxidation of carbohydrate-active enzymes during white-rot wood decay. [PDF]
Appl Environ MicrobiolMolinelli L +7 more
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Production and characterization of acidophilic xylanase from wood degrading white rot fungus by solid-state fermentation of wheat straw. [PDF]
HeliyonAbena T, Simachew A.
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Oxidative stress and culture atmosphere effects on bioactive compounds and laccase activity in the white rot fungus Phlebia radiata on birch wood substrate. [PDF]
Curr Res Microb SciKiviniemi E +4 more
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Correction: A complex metabolic network and its biomarkers regulate laccase production in white-rot fungus Cerrena unicolor 87613. [PDF]
Microb Cell FactZhang LB +5 more
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Biomethanation of white rotted and brown rotted rice straw
Bioprocess Engineering, 1999Biomethanation of white rotted and brown rotted rice straw was taken for the present investigation and their efficiency on biomethanation has been tested. Rice straw was treated with white rot fungus Phanerochaete chrysosporium (PC) and brown rot fungus Polyporus ostreiformis (PO).
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Pollutant Degradation by White Rot Fungi
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Wood Degradation by Brown-Rot and White-Rot Fungi
2004Elucidating the mechanism of biological wood decay is not only important ecologically due to its role in the carbon cycle, but also due to its economic significance. Research into this fundamental process has resulted in a large number of potential applications in the pulp and paper industry.
T. Mester, E. Varela, M. Tien
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White Rot Fungi: Nature’s Scavenger
2020The world’s worst offenders in terms of pollution are related to the xenobiotic organopollutants, often toxic and recalcitrant in nature. They have complex aromatic structures which are persistent and recalcitrant, for example, xenobiotics such as phenols, plastics, hydrocarbons, paints, synthetic dyes, pesticides, insecticides, paper and pulp mill ...
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