Initial molecular biological studies of the xylanolytic system of phanerochaete chrysosporium
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Initial molecular biological studies of the xylanolytic system of phanerochaete chrysosporium

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Published by UMIST in Manchester .
Written in English


Book details:

Edition Notes

StatementO. Loera-Corral ; supervised by P. Sims.
ContributionsSims, S., Biochemistry.
ID Numbers
Open LibraryOL17385048M

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Analysis of complex gene families in the lignin-degrading basidiomycete Phanerochaete chrysosporium has been hampered by the dikaryotic nuclear condition. To facilitate genetic investigations in P. chrysosporium strain BRM-F, we isolated a homokaryon from regenerated protoplasts. The nuclear condition wasCited by: Screening of static culture and comparison of batch and continuous culture for the textile dye biological decolorization by Phanerochaete Available via license: CC BY-NC Abstract: In this study, the important variables of organic acids degradation with Phanerochaete chrysosporium were selected in refractory arsenic-bearing and carbonaceous gold ores. The eight variables of fungal degradation of carbonaceous matter were confirmed by the previous single factor experiments, which were guaiacol concentration, dextrin concentration, tween concentration, oxalic . Phanerochaete chrysosporium is the best studied organism with respect to lignin degradation, but its degradation of the xylan component of lignocellulose is only now being studied. When grown on.

The white-rot basidiomycetes Phanerochaete chrysosporium is a model fungus used to investigate the secondary metabolism and lignin degradation. Genomic sequencing reveals the presence of at least 18 genes encoding putative epoxide hydrolases (EHs). One cDNA encoding EH (designated as PchEHA) was cloned and expressed in Escherichia coli. In comparison, the sugar yield of OPEFB pretreated by Phanerochaete chrysosporium was ± mg/g. This study showed that S. commune ENN1 was feasible to remove lignin of OPEFB through biological pretreatment for enzymatic saccharification without washing and addition of nutrients.   A coupled photocatalytic-biological process for phenol degradation in the Phanerochaete chrysosporium-oxalate-Fe3O4 system. International Biodeterioration & Biodegradation , 97, DOI: / Sun-Hwa Ryu, Myung-Kil Kim. Protoplast Isolation and Genetic Transformation of Polyporus brumalis. Total Cites: , (#10 of all journals and #1 of journals in the Biochemistry & Molecular Biology Category) Eigenfactor score: (#38 of all journals and #3 of journals in the Biochemistry & Molecular Biology Category) Cited Half-Life: ; Google Scholar’s h-5 index ().

  Decelle B., Tsang A. & Storms R. K. Cloning, functional expression and characterization of three Phanerochaete chrysosporium endo-1, 4-β-xylanases. Current . White-rot fungus, Phanerochaete chrysosporium, was selected as the biotic degradation agent since it is known to thoroughly degrade coir fibers. Kanmani et al. () reported that of the six fungal strains tested in their work, only two (P. chrysosporium and R. stolonifer) were able to degrade coir waste. The xylanase system of Streptomyces cyaneus is shown to include three enzymes, two of which are inducible by xylan. A novel assay method was developed and used to demonstrate that the third is constitutive and also non-repressible by glucose. Fungal degradation of wood: initial Proteomic analysis of extracellular proteins of Phanerochaete chrysosporium grown on oak substrate. Current Genetics Abdel-Raheem, A. and Shearer, C.A. (). multiple xylanolytic and cellulolytic enzymes by thermophilic fungus Myceliophthora s .