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Journal Article
Transcriptome analysis of differential gene expression in Dichomitus squalens during interspecific mycelial interactions and the potential link with laccase induction
Zixuan Zhong , Nannan Li , Binghui He , Yasuo Igarashi , Feng Luo
J. Microbiol. 2019;57(2):127-137.   Published online September 13, 2018
DOI: https://doi.org/10.1007/s12275-019-8398-y
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  • 9 Web of Science
  • 9 Crossref
AbstractAbstract
Interspecific mycelial interactions between white rot fungi are always accompanied by an increased production of laccase. In this study, the potential of the white rot fungus Dichomitus squalens to enhance laccase production during interactions with two other white rot fungi, Trametes versicolor or Pleurotus ostreatus, was assessed. To probe the mechanism of laccase induction and the role that laccase plays during combative interaction, we analyzed the differential gene expression profile of the laccase induction response to stressful conditions during fungal interaction. We further confirmed the expression patterns of 16 selected genes by qRT-PCR analysis. We noted that many differentially expressed genes (DEGs) encoded proteins that were involved in xenobiotic detoxification and reactive oxygen species (ROS) generation or reduction, including aldo/keto reductase, glutathione S-transferases, cytochrome P450 enzymes, alcohol oxidases and dehydrogenase, manganese peroxidase and laccase. Furthermore, many DEG-encoded proteins were involved in antagonistic mechanisms of nutrient acquisition and antifungal properties, including glycoside hydrolase, glucanase, chitinase and terpenoid synthases. DEG analyses effectively revealed that laccase induction was likely caused by protective responses to oxidative stress and nutrient competition during interspecific fungal interactions.

Citations

Citations to this article as recorded by  
  • Lignin-degrading enzyme production was enhanced by the novel transcription factor Ptf6 in synergistic microbial co-culture
    Qi Zhang, Qiong Wang, Haixiu Chen, Lei Chen, Feng Wang, Zhenghua Gu, Guiyang Shi, Liming Liu, Zhongyang Ding
    Microbiological Research.2024; 280: 127575.     CrossRef
  • Agrobacterium tumefaciens-mediated transformation of the white-rot fungus Dichomitus squalens
    Jing Li, Min Wu, Yasuo Igarashi, Feng Luo, Peng Chang
    Journal of Microbiological Methods.2023; 214: 106842.     CrossRef
  • Lignin degradation by co-cultured fungi: current status and future perspectives
    Jullio Kennedy Castro Soares, Vera Maria Valle Vitali, Marcelo Afonso Vallim
    Lilloa.2022; : 39.     CrossRef
  • Coprinopsis cinerea Uses Laccase Lcc9 as a Defense Strategy To Eliminate Oxidative Stress during Fungal‐Fungal Interactions
    Juanjuan Liu, Can Peng, Qiqi Han, Mengyao Wang, Gang Zhou, Bin Ye, Yazhong Xiao, Zemin Fang, Ursula Kües, Irina S. Druzhinina
    Applied and Environmental Microbiology.2022;[Epub]     CrossRef
  • Construction of a fungal consortium for effective degradation of rice straw lignin and potential application in bio-pulping
    Jinghong Wang, Lingling Li, Hongmin Xu, Yali Zhang, Yuxin Liu, Fangzheng Zhang, Guinan Shen, Lei Yan, Weiwei Wang, Hongzhi Tang, Huajiao Qiu, Ji-Dong Gu, Weidong Wang
    Bioresource Technology.2022; 344: 126168.     CrossRef
  • Melanin production and laccase mediated oxidative stress alleviation during fungal-fungal interaction among basidiomycete fungi
    Samim Dullah, Dibya Jyoti Hazarika, Gunajit Goswami, Tanushree Borgohain, Alokesh Ghosh, Madhumita Barooah, Ashok Bhattacharyya, Robin Chandra Boro
    IMA Fungus.2021;[Epub]     CrossRef
  • Fungal interactions induce changes in hyphal morphology and enzyme production
    Samim Dullah, Dibya Jyoti Hazarika, Assma Parveen, Merilin Kakoti, Tanushree Borgohain, Trishnamoni Gautom, Ashok Bhattacharyya, Madhumita Barooah, Robin Chandra Boro
    Mycology.2021; 12(4): 279.     CrossRef
  • Biological activities of a polysaccharide from the coculture of Ganoderma lucidum and Flammulina velutipes mycelia in submerged fermentation
    Jinyu Wu, Khwanta Kaewnarin, Xiaomeng Nie, Qingbiao Li, Ning He, Jiale Huang, Anli Geng
    Process Biochemistry.2021; 109: 10.     CrossRef
  • Comparative transcriptomics and transcriptional regulation analysis of enhanced laccase production induced by co-culture of Pleurotus eryngii var. ferulae with Rhodotorula mucilaginosa
    Qi Zhang, Liting Zhao, YouRan Li, Feng Wang, Song Li, Guiyang Shi, Zhongyang Ding
    Applied Microbiology and Biotechnology.2020; 104(1): 241.     CrossRef
Research Support, Non-U.S. Gov'ts
Biological Pretreatment of Softwood Pinus densiflora by Three White Rot Fungi
Jae-Won Lee , Ki-Seob Gwak , Jun-Yeong Park , Don-Ha Choi , Mi Kwon , In-Gyu Choi
J. Microbiol. 2007;45(6):485-491.
DOI: https://doi.org/2647 [pii]
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AbstractAbstract
The effects of biological pretreatment on the Japanese red pine Pinus densiflora, was evaluated after exposure to three white rot fungi Ceriporia lacerata, Stereum hirsutum, and Polyporus brumalis. Change in chemical composition, structural modification, and their susceptibility to enzymatic saccharification in the degraded wood were analyzed. Of the three white rot fungi tested, S. hirsutum selectively degraded the lignin of this sortwood rather than the holocellulose component. After eight weeks of pretreatment with S. hirsutum, total weight loss was 10.7%, while lignin loss was the highest at 14.52% among the tested samples. However, holocellulose loss was lower at 7.81% compared to those of C. lacerata and P. brumalis. Extracelluar enzymes from S. hirsutum showed higher activity of ligninase and lower activity of cellulase than those from other white rot fungi. Thus, total weight loss and changes in chemical composition of the Japanese red pine was well correlated with the enzyme activities related with lignin- and cellulose degradation in these fungi. Based on the data obtained from analysis of physical characterization of degraded wood by X-ray Diffractometry (XRD) and pore size distribution, S. hirsutum was considered as an effective potential fungus for biological pretreatment. In particular, the increase of available pore size of over 120 nm in pretreated wood powder with S. hirsutum made enzymes accessible for further enzymatic saccharification. When Japanese red pine chips treated with S. hirsutum were enzymatically saccharified using commercial enzymes (Cellulclast 1.5 L and Novozyme 188), sugar yield was greatly increased (21.01%) compared to non-pretreated control samples, indicating that white rot fungus S. hirsutum provides an effective process in increasing sugar yield from woody biomass.
Estrogenic Reduction of Styrene Monomer Degraded by Phanerochaete chrysosporium KFRI 20742
Jae-Won Lee , Soo-Min Lee , Eui-Ju Hong , Eui-Bae Jeung , Ha-Young Kang , Myung-Kil Kim , In-Gyu Choi
J. Microbiol. 2006;44(2):177-184.
DOI: https://doi.org/2367 [pii]
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AbstractAbstract
The characteristic biodegradation of monomeric styrene by Phanerochaete chrysosporium KFRI 20742, Trametes versicolor KFRI 20251 and Daldinia concentrica KFRI 40-1 was carried out to examine the resistance, its degradation efficiency and metabolites analysis. The estrogenic reduction effect of styrene by the fungi was also evaluated. The mycelium growth of fungi differentiated depending on the concentration levels of styrene. Additionally P. chrysosporium KFRI 20742 showed superior mycelium growth at less than 200 mg/l, while D. concentrica KFRI 40-1 was more than 200 mg/l. The degradation efficiency reached 99% during one day of incubation for all the fungi. Both manganese-dependent peroxidase and laccase activities in liquid medium were the highest at the initial stage of incubation, whereas the lowest was after the addition of styrene. However, both activities were gradually recovered after. The major metabolites of styrene by P. chrysosporium KFRI 20742 were 2-phenyl ethanol, benzoic acid, cyclohexadiene-1,4-dione, butanol and succinic acid. From one to seven days of incubating the fungi, the expression of pS2 mRNA widely known as an estrogen response gene was decreased down to the level of baseline after one day. Also, the estrogenic effect of styrene completely disappeared after treatment with supernatant of P. chrysosporium KFRI 20742 from one week of culture down to the levels of vehicle.
Degradation of Phenanthrene by Trametes versicolor and Its Laccase
Mun-Jung Han , Hyoung-Tae Choi , Hong-Gyu Song
J. Microbiol. 2004;42(2):94-98.
DOI: https://doi.org/2039 [pii]
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AbstractAbstract
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^oC. Although the removal percentage of phenanthrene was highest (76.7%) at 10 mg/ l 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 reaction mixture increased oxidation of phenanthrene by laccase about 40% and 30%, respectively.
Journal Article
Molecular Characteristics of Two Laccase from the Basidiomycete Fungus Polyporus brumalis
Sun-Hwa Ryu , A-Young Lee , Myungkil Kim
J. Microbiol. 2008;46(1):62-69.
DOI: https://doi.org/10.1007/s12275-007-0110-y
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  • 14 Scopus
AbstractAbstract
Two laccase cDNAs, pblac1 and pblac2, were cloned from a white-rot fungus strain, Polyporus brumalis (KFRI 20912). The cloned cDNAs consisted of 1,829 bp and 1,804 bp, and their open reading frames encoded proteins of 520 and 524 amino acids, with calculated molecular masses of approximately 55.9 kDa and 56 kDa, respectively. The deduced amino acid sequences of each protein showed 70% similarity. The copper binding regions were conserved in both proteins, as in other fungal laccases. RT-PCR analysis revealed that the transcript levels of the two laccases increased progressively in shallow stationary culture liquid medium. The transcript level of each laccase was induced when the fungus was exposed to di-butyl phthalate (DBP), suggesting that the two laccases are involved in DBP degradation. The overexpression of the pblac1 gene was derived by the promoter of a gene for glyceraldehyde-3-phosphate dehydrogenase, using a homologous system. The activity of laccase in the transformants was significantly higher than that of the wild type. The identification of these laccase cDNAs was a first step to characterize the molecular events related to the lignin degradation ability of this basidiomycetous fungus, as well as the degradation of many recalcitrant xenobiotics.
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