Coriolus versicolor

Kondo R, H Yamagami, K Sakai (1993) Xylosation of phenolic hydroxyl groups of the monomeric lignin model compounds 4-methylgnaiacol and vanillyl alcohol by Coriolus versicolor. Appl Environ Microbiol 59 438-441. [Pg.421]

Ullah, M.A., Bedford, C.T., and Evans, C.S., Reactions of pentachlorophenol with laccase from Coriolus versicolor, Appl. Microbiol. Biotechnol., 53, 230-234, 2000. [Pg.685]

Jiang-Ping L, Wei L, Li-Ming X, Pei-Lin C (2001) Production of laccase by Coriolus versicolor and its application in decolorization of dyestuffs. I. Production of laccase by batch and repeated-batch processes. J Environ Sci 15 1—4... [Pg.168]

Orange II decolorization by immobilized thermotolerant fungus Coriolus versicolor RC3 was investigated [65]. They found that dye decolorization by immobilized fungus on the PuF with 1 g/L of glucose and 0.2 g/L of ammonium oxalate provided a faster decolorization rate. From their results, 1.5 cm1 2 3 4 5 6 7 8 of the PuF showed the most suitable size for immobilization when compare with 1.0 and 2.0 cm3 material size. Orange II decolorization efficiency was enhanced when HRT of the system was increased. [Pg.178]

Mazmanci MA, Unyayar A, Ekiz HI (2002) Decolorization of Methylene Blue by White Rot Fungus Coriolus versicolor. Fresenius Environ Bull 11 5... [Pg.178]

Srikanlayanukul M, Kitwechkun W, Watanabe T, Khanongnuch C (2008) Decolorization of Orange II by immobilized Thermotolerant white rot fungus Coriolus versicolor RC3 in Packed-Bed bioreactor. Biotechnology 7 280-286... [Pg.182]

Highley T, Murmanis LL. Determination of hydrogen peroxide production in Coriolus versicolor and Poriaplacenta during wood degradation. Mater Org 1985 29 241-252. [Pg.47]

Moore NL, Mariam DH, Williams AL, Dashek WV. Substrate specificity, de novo synthesis and partial purification of polyphenol oxidase derived from the wood-decay fungus, Coriolus versicolor. J Indust Microbiol 1989 4 349-364. [Pg.193]

Moore NL, Brako LA, ClaussenC, Jones BR, Dashek WV. Distribution of polyphenol oxidase in organelles ofhyphae of the wood deteriorating fungus, Coriolus versicolor. Biodeterioration Research 4. Plenum Press, New York, 1994. [Pg.193]

Trametes (Coriolus) versicolor Hondo spruce (Picea jezoensis) 6 31 Imamura and Nishimoto (1 987a)... [Pg.62]

Trametes (Coriolus) versicolor Japanese beech (Tagus crenata) 16 72 Takahashi eta/. (1 989)... [Pg.62]

Trametes (Coriolus) versicolor (CTB 863A) Beech (Tagus sylvatica) 12 34 Beckers eta/. (1994)... [Pg.62]

Timar, M.C., Pitman, A. and Mihai, M.D. (1998). The decay resistance of chemically modified aspen composites to the white rot fungus Coriolus versicolor (L.) Quelet. International Research Group on Wood Preservation, Doc. No. IRG/WP 98-40122. [Pg.228]

Most of the degradation products shown in Figure 1A were also detected in the degradation of the 3-0-4 dimers by other white-rot fungi, Coriolus versicolor (29,30) and Coriolus hirsutus 31). [Pg.237]

Three laccase preparations (I, II and III) were isolated from the racellular culture medium of Coriolus versicolor by consecutive fractionation through Sephadex G50 and DEAE Sephadex A25 (84). The laccase III preparation at pH 4.0 reduced the apparent molecular weight of a lignin-derived fraction that had been obtained by eluting the water-soluble extract of a cellulase treated ezomatsu wood residue through... [Pg.264]

En me Treatment of LCCs. Purified Bacillus circulans xylanase (specific activity, 110 units/mg protein), purified Coriolus versicolor )9-mannanase (specific activity 179 units/mg protein), purified Thermoascus aurianticum /8-glucosidase (specific activity, 150 units/mg protein), and purified Schizophyllum commune acetyl xylan esterase (AXE specific activity, 180 units/mg protein) were used. Unit activity for xylanase and )9-mannanase was defined as the amount of enzyme catalyzing the release of 1 /xmol reducing power per minute at 50°C and pH 6.0 using oat spelts... [Pg.271]

Reid, I.D. Paice, M.G. Ho, C. Jurasek, L. Biological bleaching of softwood Kraft pulp with the fungus, Trametes (Coriolus) versicolor. Tappi J. 1990, 73, 149-153. [Pg.494]

Kirkpatrick, N. Reid, I.D. Ziomek, F. Paice, M.G. Biological bleaching of hardwood Kraft pulp using Trametes Coriolus) versicolor immobilized in pol3uirethane foam. Appl. Microbiol. Biotechnol. 1990, 33, 105-108. [Pg.494]

Wang, S.-H. Ferguson, J.F. McCarthy, J.L. The decolorization and dechlorination of Kraft bleach plant effluent solutes by use of three fungi Ganderma lacidum, Coriolus versicolor and Hericium erinaceum. Holzforschung, 1992, 46, 219-233. [Pg.496]

Livemoche, D. Jurasek L. Desrochers, M. Dorica J. Veliky, LA. Removal of color from Kraft mill wastewaters with the cultures of white-rot fungi and with immobilized mycelium of Coriolus versicolor. Biotechnol. Bioengg. 1983, 25, 2055-2065. [Pg.496]

Limura, Y. Hartkainen, P. Tatsumi. K. Dechlorination of tetrachloroguaiacol by laccase of white-rot basidiomycete Coriolus versicolor. Appl. Microbiol. Biotechnol. 1996, 45, 434-439. [Pg.498]

Organism. Coriolus versicolor strain 28A PRL (Building Research Establishment, Princes Risborough Laboratory, Aylesbury, Bucks.,U.K.) was maintained on a solid medium of 3% (w/v) malt extract, 2% (w/v) agar at 20°C, or on nitrogen-limited nutrient medium (17) solidified with 2% agar. [Pg.427]

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