Results 181 to 190 of about 13,406 (236)

Responses to and detoxification of esculin in white-rot fungi

Raphaël Bchini, Sylvain Darnet, Arthur de Butler, Annick Doan, Lydie Oliveira Correia, David Navarro, Éric Record, Mélanie Morel‐Rouhier   +7 more
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Optimization of Laccase Production using White Rot Fungi and Agricultural Wastes in Solid-State Fermentation

, 2013
Hendro Risdianto, Elis Sofianti, Sri Harjati Suhardi, Tjandra Setiadi   +3 more
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The Binderless Fiberboard Was Prepared by White Rot Fungi Pretreatment with Waste Poplar Wood Powder

Yanling Wu, Xianrui Chen, Qingzhao Liao, Ning Xiao, Yanming Li, Zhimin Huang, Shangxian Xie   +6 more
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Biodegradation of Lignin by White Rot Fungi

Fungal Genetics and Biology, 1999
A review is presented related to the biochemistry of lignocellulose transformation. The biodegradation of wood constituents is currently understood as a multienzymatic process with the mediation of small molecules; therefore, this review will focus on the roles of these small molecular compounds and radicals working in concert with enzymes.
A, Leonowicz, A, Matuszewska, J, Luterek, D, Ziegenhagen, M, Wojtaś-Wasilewska, N S, Cho, M, Hofrichter, J, Rogalski   +7 more
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White Rot Fungi: Nature’s Scavenger

2020
The 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 ...
Ajit Patel, Vanita Patel, Harsh Patel, Ujjval Trivedi, Kamlesh Patel   +4 more
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Pollutant Degradation by White Rot Fungi

1994
The white rot fungi technology is very different from other more well-established methods of bioremediation (e.g., bacterial systems). The differences are primarily due to the mechanisms discussed previously. The unusual mechanisms used by the fungi provide them with several advantages for pollutant degradation, but the complexity of these mechanisms ...
D P, Barr, S D, Aust
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Biodegradation by White-Rot Fungi

2002
White-rot basidiomycete fungi selectively decay lignin in plant tissues. They are the only organisms known which are able to extensively mineralise lignin to carbon dioxide and water. This ability is unusual because lignin is a particularly complex aromatic macromolecule intrinsically resistant to enzymatic and hydrolytic attack.
J. P. Ralph, D. E. A. Catcheside
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Lignin degradeation by white rot fungi

Plant, Cell and Environment, 1987
Abstract. The wood‐degrading white‐rot fungus Phanerochaete chrysosporium, has been the subject of intensive research in recent years and, based upon isolation of the extracellular enzyme ligninase, major advances have now been made toward elucidating the mechanism by which this fungus degrades lignin.
P. J. HARVEY, H. E. SCHOEMAKER, J. M. PALMER   +2 more
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Characterization of Lignocellulolytic Enzymes from White-Rot Fungi

Current Microbiology, 2014
The development of alternative energy sources by applying lignocellulose-based biofuel technology is critically important because of the depletion of fossil fuel resources, rising fossil fuel prices, security issues regarding the fossil fuel supply, and environmental issues.
Tamilvendan, Manavalan, Arulmani, Manavalan, Klaus, Heese   +2 more
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