• Journal of the Korean Wood Science and Technology
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• v.34 no.4
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• pp.46-53
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• 2006

This study was to screen white-rot fungi possesing strong lignin degrading enzymes, glucose-1 oxidase (GOD), laccase (LAC) and Mn-peroxidase (MnP), based on their decolorization activity of Remazol Brilliant Blue R (RBBR). In the midst of 20 tested fungi, 9 isolates were shown 4 kinds of activities such as RBBR decolorization, GOD, LAC and MnP. Relatively high active strains were identified as Phlebia radiata, Trametes versicolor, Abortiporus biennis, Gleophyllum odoratum and Cerrena unicolor. In particular, T. versicolor, G. odoratum, and C. unicolor, which have high activities of LAC, were used to confirm the optimal temperature and pH and to evaluate the effect of inducer, 2,5-xylidine on their LAC activity. The optimum temperatures for mycelial growth were $28^{\circ}C$ for T. versicolor and G. odoratum, and $25^{\circ}C$ for C. unicolor. The optimum pH for mycelial growth was 5.5. Three strains showed the increase of LAC enzyme activity by the addition of 2,5-xylidine. T. versicolor had the highest LAC activity of $22,700nkat/{\ell}$, corresponding to 11.3 times, G. odoratum $15,400nkat/{\ell}$, 9 times and C. unicolor $17,330nkat/{\ell}$, 5.5 times higher than those of the control.

• Journal of the Korean Wood Science and Technology
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• v.32 no.5
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• pp.1-11
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• 2004

This study explored how simultaneous treatment of monoammonium phosphate (MAP) and boric acid for Pinus densiflora and Populus euramericana influenced the properties such as fire resistance, preservation against Trametes versicolor and Tyromyces palustris, and compressive strength of the treated woods. For specific gravity and compressive strength, the treated woods were higher than the non-treated ones. For the analytical features observed by SEM, the cell walls of the non-treated woods were extremely destructed by T. palustris and T. versicolor while the treated ones relatively remained intact. Especially, P euramericana was more readily exposed to the attack of the rot fungi than P. densiflora.

• KSBB Journal
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• v.18 no.5
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• pp.398-403
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• 2003

Due to the low biodegradability of dyes, conventional biological wastewater treatment systems are inefficient in treating dye wastewater. Various white-rot fungi were investigated for the decolorization of six industrial dyes (reactive blue 5, reactive blue 16, reactive black 5, acid black 52, reactive orange 16, and acid violet 43). Among ten fungi, T. versicolor KCTC 16781 was selected as a testing strain because this had the best performance of decolorization for six dyes from the results of the solid culture experiments. In liquid culture medium, T. versicolor KCTC 16781 decolorized over 96% of six dyes for 48 hrs. Laccase started to produce in the early stage of the culture, and showed the highest peak value of 2.3 U/mL in 24 hrs. Enzyme activity remained constant until the end of culture. Fungal decolorization is a promising alternative to replace or supplement present treatment process.

• Journal of the Korean Wood Science and Technology
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• v.29 no.4
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• pp.60-66
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• 2001

For examine anti-degradation factors of acetylated wood, acetylated wood was incubated on Trametes versicolor. The laccase activity was examined in broth culture and solid fermentation that contain acetylated chips. The change of acetyl groups and chemical composition in the acetylated wood having massloss analysed by $^{13}C$-CP/MAS NMR. The laccase activity was detected in broth culture. When the T. versicolor contact to acetylated wood directly, the laccase activity was very low and couldn't maintain during test periods. Through the analysing of $^{13}C$-CP/MAS NMR, the acetylation took place carbohydrates as well as lignin and hydroxyl group of amorphous region was more easily substituted that of crystalline region The spectral analyses of $^{13}C$-CP/MAS NMR were shown that introduced acetyl bond was stable against fungal attack.

• Journal of Mushroom
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• v.13 no.1
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• pp.63-67
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• 2015

White rot fungi produce lignin-degrading enzymes such as laccase, manganese peroxidase and lignin peroxidase. These extracellular oxidases efficiently degrade recalcitrant synthetic dyestuffs with diverse chemical structures. Here, we examined the activities of lignin-degrading enzymes in Trametes versicolor using triphenyl methane dyes, crystal violet (CV) and malachite green (MG). Both dyes were decolorized by T. versicolor in solid and liquid culture conditions. T. versicolor decolorized MG more quickly than CV in both conditions. Among three ligninolytic enzymes, laccase was most abundantly found in the decolorization processes of CV and MG. However, higher activity of laccase was needed to degrade CV than MG. The much less activity of MnP was also detected. But the increase of MnP activity was well corresponded to the decolorization efficiency of CV, suggesting the involvement of MnP in CV degrading process. However, its role in the degradation process of MG is supposed to be subsidiary to laccase.

• Journal of Microbiology and Biotechnology
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• v.8 no.2
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• pp.129-133
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• 1998

The white-rot fungi Phanerochaete chrysosporium ATCC 24725, Pleurotus ostreatus ATCC 32783, Lentinus edodes ATCC 24462, and Trametes versicolor ATCC 42530 were studied for their ability to degrade lignin, phenanthrene, and anthracene. Lignin in rice-straw was degraded by 14.4, 28.73, and 33.88% by P. chrysosporium, T. versicolor, and P. ostreatus, respectively. Approximately 12% and 83% of phenanthrene was degraded in 1 and 5 days, respectively, when the pre-grown mycelIium matrix of P. ostreatus. was incubated with 10 ppm of phenanthrene in modified Kirk's medium (nitrogen limited) at $25^{\circ}C$. Approximately 2%> and 61% of phenanthrene was degraded when the phenanthrene concentration was increased to 30 ppm. Similar trends were observed with phenanthrene using P. chrysosporium. Mycelial growth of T. versicolor was less inhibited at 30 ppm phenanthrene than for P. ostreatus and P. chrysosporium. Better degradation of phenanthrene by T. versicolor may be attributed to better mycelium growth. One hundred percent of 15 ppm anthracene was degraded in 10 days by both P. chrysosporium and T. versicolor. 40 ppm anthracene inhibited the mycelial growth of P. chrysosporium. lignin peroxidase activity, which was previously reported to be involved in initial phenanthrene oxidation, was also detected from the culture broth of the strains tested. The rates of lignin peroxidase production in the cultures were not consistent with the rate of PAH hydrolysis during incubation.

• Korean Journal of Microbiology
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• v.39 no.3
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• pp.201-205
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• 2003

Laccase, lignin- and manganese peroxidase are implicated in the lignin degradation. The nucleotide sequences of four copper-binding domains in fungal laccases, and heme-binding domains of lignin- and manganese peroxidases are well conserved, and therefore these short fragments can be used for the PCR for the gene amplification. We synthesized several PCR primers according to their sequences, and run PCR to amplifiy the lignin degrading genes of Trametes versicolor isolated in Korea. PCR products were cloned with pGEM-T vector in order to determine their nucleotide sequences. A laccase fragment (1.3 kb) showed 65-97％ homologies, lignin peroxidase fragment (185 bp) showed 80-95％ homologies, and manganese peroxidase fragment (443 bp) showed 61-83％ homologies when compared with other white-rot fungal enzymes.

• Journal of Microbiology
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• v.45 no.3
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• pp.213-218
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• 2007

Trametes versicolor has a lignin degrading enzyme system, which is also involved in the degradation of diverse recalcitrant compounds. Manganese-dependent peroxidase (MnP) is one of the lignin degrading enzymes in T. versicolor. In this study, a cDNA clone of a putative MnP-coding gene was cloned and transferred into an expression vector (pBARGPE1) carrying a phosphinothricin resistance gene (bar) as a selectable marker to yield the expression vector, pBARTvMnP2. Transformants were generated through genetic transformation using pBARTvMnP2. The genomic integration of the MnP clone was confirmed by PCR with bar-specific primers. One transformant showed higher enzyme activity than the recipient strain did, and was genetically stable even after 10 consecutive transfers on non-selective medium.

• Journal of Microbiology
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• v.42 no.2
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• pp.94-98
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• 2004

Phenanthrene is a three-ring polycyclic aromatic hydrocarbon and commonly found as a pollutant in various environments. Degradation of phenanthrene by white rot fungus Trametes versicolor 951022 and its laccase, isolated in Korea, was investigated. After 36 h of incubation, about 46％ and 65％ of 100 mg/l of phenanthrene added in shaken and static fungal cultures were removed, respectively. Phenanthrene degradation was maximal at pH 6 and the optimal temperature for phenanthrene removal was 30$^{\circ}C$. Although the removal percentage of phenanthrene was highest (76.7％) at 10 mg/1 of phenanthrene concentration, the transformation rate was maximal (0.82 mg/h) at 100 mg/L of phenanthrene concentration in the fungal culture. When the purified laccase of T. versicolor 951022 reacted with phenanthrene, phenanthrene was not transformed. The addition of redox mediator, 2,2'-azino-bis-(3-ethylbenzthiazoline-6-sulfonic acid) (ABTS) or 1-hydroxybenzotriazole (HBT) to the reac-tion mixture increased oxidation of phenanthrene by laccase about 40％ and 30％, respectively.

• Korean Journal of Microbiology
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• v.42 no.1
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• pp.77-81
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• 2006

Degenerate primers corresponding to the sequences of the N-terminal regions of Mn-peroxidase isozymes were used to isolate the genomic fragments encoding the isozymes of Mn-peroxidase, CVMP1, CVMP2, CVMP3 and CVMP5 from the white-rot fungus Trametes versicolor KN9522. Three isozymes except one gave the expected PCR products (cmp1, cmp2 and cmp5) of about 900 base pairs, respectively. DNA sequence data obtained from each PCR products were used to analyze the BLAST program search on the National Center for Biotechnology Information. cmp1, cmp2 and cmp5 were similar to MPG-I (GenBank accession number Z30668) and PGV-II (GenBank accession number, Z54279) gene T. versicolor PRL572. PCR products of cmp1 and cmp2 showed 77%, 95% base sequence similarities to MPG-I gene and cmp5 showed about 88% similarity to PGV-II gene from T. versicolor PRL572. From this experiment, we could isolate genomic DNA fragments with degenerate primers designed from the N-terminal amino acid sequences of Mn-peroxidase isozyme family.