Your search keyword '"Coprinopsis cinerea"' showing total 469 results

1. Enhanced extracellular production of laccase in Coprinopsis cinerea by silencing chitinase gene.

Author

Yao, Dongbang, Ma, Yuting, Ran, Jie, Wang, Jiaxiu, Kües, Ursula, Liu, Juanjuan, Zhou, Danya, Zhang, Xuecheng, Fang, Zemin, and Xiao, Yazhong

Subjects

*LACCASE, *GENE silencing, *RNA interference, *SMALL interfering RNA, *POLYPHENOL oxidase, *GENE expression

Abstract

Laccase, a copper-containing polyphenol oxidase, is an important green biocatalyst. In this study, Laccase Lcc5 was homologous recombinantly expressed in Coprinopsis cinerea and a novel strategy of silencing chitinase gene expression was used to enhance recombinant Lcc5 extracellular yield. Two critical chitinase genes, ChiEn1 and ChiE2, were selected by analyzing the transcriptome data of C. cinerea FA2222, and their silent expression was performed by RNA interference (RNAi). It was found that silencing either ChiEn1 or ChiE2 reduced sporulation and growth rate, and increased cell wall sensitivity, but had no significant effect on mycelial branching. Among them, the extracellular laccase activity of the ChiE2-silenced engineered strain Cclcc5-antiChiE2-5 and the control Cclcc5-13 reached the highest values (38.2 and 25.5 U/mL, respectively) at 250 and 150 rpm agitation speeds, corresponding to productivity of 0.35 and 0.19 U/mL·h, respectively, in a 3-L fermenter culture. Moreover, since Cclcc5-antiChiE2-5 could withstand greater shear forces, its extracellular laccase activity was 2.6-fold higher than that of Cclcc5-13 when the agitation speed was all at 250 rpm. To our knowledge, this is the first report of enhanced recombinant laccase production in C. cinerea by silencing the chitinase gene. This study will pave the way for laccase industrial production and accelerate the development of a C. cinerea high-expression system. Key points: • ChiEn1 and ChiE2 are critical chitinase genes in C. cinerea FA2222 genome. • Chitinase gene silencing enhanced the tolerance of C. cinerea to shear forces. • High homologous production of Lcc5 is achieved by fermentation in a 3-L fermenter. [ABSTRACT FROM AUTHOR]

Published

2024

2. Application of fungal inoculants enhances colonization of secondary bacterial degraders during in situ paddy straw degradation: a genomic insights into cross-domain synergism

Author

Singh, Arjun, T.V., Abiraami, Singh, Surender, Saxena, Anil Kumar, and Nain, Lata

Published

2024

3. Snowball: a novel gene family required for developmental patterning of fruiting bodies of mushroom-forming fungi (Agaricomycetes)

Author

Csenge Földi, Zsolt Merényi, Bálint Balázs, Árpád Csernetics, Nikolett Miklovics, Hongli Wu, Botond Hegedüs, Máté Virágh, Zhihao Hou, Xiao-Bin Liu, László Galgóczy, and László G. Nagy

Subjects

mushroom development, unannotated genes, Basidiomycota, tissue differentiation, Coprinopsis cinerea, fruiting body, Microbiology, QR1-502

Abstract

ABSTRACTThe morphogenesis of sexual fruiting bodies of fungi is a complex process determined by a genetically encoded program. Fruiting bodies reached the highest complexity levels in the Agaricomycetes; yet, the underlying genetics is currently poorly known. In this work, we functionally characterized a highly conserved gene termed snb1, whose expression level increases rapidly during fruiting body initiation. According to phylogenetic analyses, orthologs of snb1 are present in almost all agaricomycetes and may represent a novel conserved gene family that plays a substantial role in fruiting body development. We disrupted snb1 using CRISPR/Cas9 in the agaricomycete model organism Coprinopsis cinerea. snb1 deletion mutants formed unique, snowball-shaped, rudimentary fruiting bodies that could not differentiate caps, stipes, and lamellae. We took advantage of this phenotype to study fruiting body differentiation using RNA-Seq analyses. This revealed differentially regulated genes and gene families that, based on wild-type RNA-Seq data, were upregulated early during development and showed tissue-specific expression, suggesting a potential role in differentiation. Taken together, the novel gene family of snb1 and the differentially expressed genes in the snb1 mutants provide valuable insights into the complex mechanisms underlying developmental patterning in the Agaricomycetes.IMPORTANCEFruiting bodies of mushroom-forming fungi (Agaricomycetes) are complex multicellular structures, with a spatially and temporally integrated developmental program that is, however, currently poorly known. In this study, we present a novel, conserved gene family, Snowball (snb), termed after the unique, differentiation-less fruiting body morphology of snb1 knockout strains in the model mushroom Coprinopsis cinerea. snb is a gene of unknown function that is highly conserved among agaricomycetes and encodes a protein of unknown function. A comparative transcriptomic analysis of the early developmental stages of differentiated wild-type and non-differentiated mutant fruiting bodies revealed conserved differentially expressed genes which may be related to tissue differentiation and developmental patterning fruiting body development.

Published

2024

4. The Genome-Wide Characterization of Alternative Splicing and RNA Editing in the Development of Coprinopsis cinerea.

Author

Xie, Yichun, Chan, Po-Lam, Kwan, Hoi-Shan, and Chang, Jinhui

Subjects

*ALTERNATIVE RNA splicing, *RNA editing, *GENE expression, *LIFE cycles (Biology), *GENETIC transcription regulation, *GENE regulatory networks, *FUNGAL spores

Abstract

Coprinopsis cinerea is one of the model species used in fungal developmental studies. This mushroom-forming Basidiomycetes fungus has several developmental destinies in response to changing environments, with dynamic developmental regulations of the organism. Although the gene expression in C. cinerea development has already been profiled broadly, previous studies have only focused on a specific stage or process of fungal development. A comprehensive perspective across different developmental paths is lacking, and a global view on the dynamic transcriptional regulations in the life cycle and the developmental paths is far from complete. In addition, knowledge on co- and post-transcriptional modifications in this fungus remains rare. In this study, we investigated the transcriptional changes and modifications in C. cinerea during the processes of spore germination, vegetative growth, oidiation, sclerotia formation, and fruiting body formation by inducing different developmental paths of the organism and profiling the transcriptomes using the high-throughput sequencing method. Transition in the identity and abundance of expressed genes drive the physiological and morphological alterations of the organism, including metabolism and multicellularity construction. Moreover, stage- and tissue-specific alternative splicing and RNA editing took place and functioned in C. cinerea. These modifications were negatively correlated to the conservation features of genes and could provide extra plasticity to the transcriptome during fungal development. We suggest that C. cinerea applies different molecular strategies in its developmental regulation, including shifts in expressed gene sets, diversifications of genetic information, and reversible diversifications of RNA molecules. Such features would increase the fungal adaptability in the rapidly changing environment, especially in the transition of developmental programs and the maintenance and balance of genetic and transcriptomic divergence. The multi-layer regulatory network of gene expression serves as the molecular basis of the functioning of developmental regulation. [ABSTRACT FROM AUTHOR]

Published

2023

5. Successful Treatment of Rare Pulmonary Coprinopsis cinerea Infection in a 17-Year-Old Female After Hematopoietic Stem Cell Transplantation: A Case Report

Author

Yu U, Cao K, Yang C, Wang C, Li Y, Zhou X, Zhang Q, Wang Y, Wen F, Liu S, and Wang X

Subjects

coprinopsis cinerea, hormographiella aspergillata, invasive fungal infection, hematopoietic stem cell transplantation, leukemia, case report, Infectious and parasitic diseases, RC109-216

Abstract

Uet Yu,1 Ke Cao,2 Chunlan Yang,1 Chunjing Wang,1 Yue Li,1 Xiaohui Zhou,1 Qian Zhang,1 Yuanxiang Wang,3 Feiqiu Wen,1 Sixi Liu,1 Xiaodong Wang1 1Department of Hematology and Oncology, Shenzhen Children’s Hospital, Shenzhen, People’s Republic of China; 2Department of Laboratory Medicine, Shenzhen Children’s Hospital, Shenzhen, People’s Republic of China; 3Department of Cardiothoracic Surgery, Shenzhen Children’s Hospital, Shenzhen, People’s Republic of ChinaCorrespondence: Xiaodong Wang; Sixi Liu, Email donlevin@live.cn; tiger647@126.comAbstract: Invasive fungal infections (IFIs) are among the most severe complications in recipients of hematopoietic stem cell transplantation (HSCT) recipients and in patients with hematological malignancies. An increasing number of uncommon fungal infections have been reported in this era of antifungal prophylaxis. Coprinopsis cinerea is a rare pathogen that causes opportunistic infections in the immunocompromised patients, including HSCT recipients and is associated with very high mortality rates. Herein, we present a successfully treated pediatric HSCT patient with breakthrough pulmonary IFI caused by Coprinopsis cinerea despite posaconazole, prophylaxis using multidisciplinary approaches.Keywords: Coprinopsis cinerea, Hormographiella aspergillata, invasive fungal infection, hematopoietic stem cell transplantation, leukemia, case report

Published

2023

6. Coprinopsis cinerea Galectin CGL1 Induces Apoptosis and Inhibits Tumor Growth in Colorectal Cancer Cells.

Author

Yan, Mengli, Chen, Yaxuan, Li, Mengke, Wu, Jiamin, Fang, Zemin, Wang, Junjun, and Liu, Juanjuan

Subjects

*TUMOR growth, *CANCER cell growth, *APOPTOSIS, *COLON tumors, *GALECTINS, *COLORECTAL cancer, *CANCER cells

Abstract

Mushroom galectins are promising anticancer agents for their low IC50 values against cancer cells in vitro. In this study, two Coprinopsis cinerea galectins, CGL1 and CGL2, were heterologously expressed, and their biochemistry properties and anticancer effects were evaluated. The purified galectins were thermostable at neutral pH conditions. They both existed as tetramers and shared a high affinity towards lactose. CGL1 and CGL2 strongly inhibited the cell viability of many cancer cell lines, including three colorectal cancer cells, in a dose-dependent manner by inducing mitochondria-mediated caspase-dependent apoptosis. Furthermore, CGL1 exhibited higher apoptosis-inducing ability and cytotoxicity than CGL2. In vivo cell viability experiments based on two xenograft mouse models showed that CGL1 had a more substantial inhibitory effect than CGL2 on HCT116 tumor growth (p < 0.0001), whereas only CGL1 inhibited DLD1 tumor growth (p < 0.01). This is the first study to evaluate the anti-colorectal cancer effect of mushroom lectins in vivo, and our results showed that CGL1 is a potent agent for colorectal cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2023

7. Characterization of linoleate dioxygenases in basidiomycetes and the functional role of CcLdo1 in regulating fruiting body development in Coprinopsis cinerea.

Author

Chen, Jing, Qu, Rong, Chen, Qiurong, Zhang, Ziyu, Wu, Siting, Bao, Mengyu, Wang, Xinyue, Liu, Lei, Lyu, Siqi, Tian, Jialu, Lyu, Linna, Yu, Cigang, Yuan, Sheng, and Liu, Zhonghua

Subjects

*FRUITING bodies (Fungi), *DIOXYGENASES, *BASIDIOMYCETES, *METABOLITES, *CYTOCHROME P-450, *FUNGICIDE resistance

Abstract

• Linoleate dioxygenases from Basidiomycota formed a distinct clade with four groups. • The cytochrome P450 domains of LDOs from Basidiomycota displayed high diversity. • Deletion of the Ccldo1 in C. cinerea leads to an increase in fruiting body formation. • CcLdo1 negatively regulate the sexual reproduction process in C. cinerea. Coprinopsis cinerea , a model fungus, is utilized for investigating the developmental mechanisms of basidiomycetes. The development of basidiomycetes is a highly organized process that requires coordination among genetic, environmental, and physiological factors. Oxylipins, a class of widely distributed signaling molecules, play crucial roles in fungal biology. Among oxylipins, the sexual pheromone-inducing factors (psi factors) have been identified as key regulators of the balance between asexual and sexual spore development in Ascomycetes. Linoleate dioxygenases are enzymes involved in the biosynthesis of psi factors, yet their specific physiological functions in basidiomycete development remain unclear. In this study, linoleate dioxygenases in basidiomycetes were identified and characterized. Phylogenetic analysis revealed that linoleate dioxygenases from Basidiomycota formed a distinct clade, with linoleate dioxygenases from Agaricomycetes segregating into three groups and those from Ustilaginomycetes forming a separate group. Both basidiomycete and ascomycete linoleate dioxygenases shared two characteristic domains: the N-terminal of linoleate dioxygenase domain and the C-terminal of cytochrome P450 domain. While the linoleate dioxygenase domains exhibited similarity between basidiomycetes and ascomycetes, the cytochrome P450 domains displayed high diversity in key sites. Furthermore, the gene encoding the linoleate dioxygenase Ccldo1 in C. cinerea was knocked out, resulting in a significant increase in fruiting body formation without affecting asexual conidia production. This observation suggests that secondary metabolites synthesized by CcLdo1 negatively regulate the sexual reproduction process in C. cinerea while not influencing the asexual reproductive process. This study represents the first identification of a gene involved in secondary metabolite synthesis that regulates basidiocarp development in a basidiomycete. [ABSTRACT FROM AUTHOR]

Published

2024

8. The Genome-Wide Characterization of Alternative Splicing and RNA Editing in the Development of Coprinopsis cinerea

Author

Yichun Xie, Po-Lam Chan, Hoi-Shan Kwan, and Jinhui Chang

Subjects

Coprinopsis cinerea, life history, RNA editing, alternative splicing, transcriptomic divergence, adaptation, Biology (General), QH301-705.5

Abstract

Coprinopsis cinerea is one of the model species used in fungal developmental studies. This mushroom-forming Basidiomycetes fungus has several developmental destinies in response to changing environments, with dynamic developmental regulations of the organism. Although the gene expression in C. cinerea development has already been profiled broadly, previous studies have only focused on a specific stage or process of fungal development. A comprehensive perspective across different developmental paths is lacking, and a global view on the dynamic transcriptional regulations in the life cycle and the developmental paths is far from complete. In addition, knowledge on co- and post-transcriptional modifications in this fungus remains rare. In this study, we investigated the transcriptional changes and modifications in C. cinerea during the processes of spore germination, vegetative growth, oidiation, sclerotia formation, and fruiting body formation by inducing different developmental paths of the organism and profiling the transcriptomes using the high-throughput sequencing method. Transition in the identity and abundance of expressed genes drive the physiological and morphological alterations of the organism, including metabolism and multicellularity construction. Moreover, stage- and tissue-specific alternative splicing and RNA editing took place and functioned in C. cinerea. These modifications were negatively correlated to the conservation features of genes and could provide extra plasticity to the transcriptome during fungal development. We suggest that C. cinerea applies different molecular strategies in its developmental regulation, including shifts in expressed gene sets, diversifications of genetic information, and reversible diversifications of RNA molecules. Such features would increase the fungal adaptability in the rapidly changing environment, especially in the transition of developmental programs and the maintenance and balance of genetic and transcriptomic divergence. The multi-layer regulatory network of gene expression serves as the molecular basis of the functioning of developmental regulation.

Published

2023

9. pH Distribution along Growing Fungal Hyphae at Microscale.

Author

Xiong, Bi-Jing, Stanley, Claire E., Dusny, Christian, Schlosser, Dietmar, Harms, Hauke, and Wick, Lukas Y.

Subjects

*FLUORIMETRY, *SURFACE analysis, *SYNECHOCYSTIS, *MICROSCOPY, *ORGANIC compounds, *MICROFLUIDIC devices

Abstract

Creating unique microenvironments, hyphal surfaces and their surroundings allow for spatially distinct microbial interactions and functions at the microscale. Using a microfluidic system and pH-sensitive whole-cell bioreporters (Synechocystis sp. PCC6803) attached to hyphae, we spatially resolved the pH along surfaces of growing hyphae of the basidiomycete Coprinopsis cinerea. Time-lapse microscopy analysis of ratiometric fluorescence signals of >2400 individual bioreporters revealed an overall pH drop from 6.3 ± 0.4 (n = 2441) to 5.0 ± 0.3 (n = 2497) within 7 h after pH bioreporter loading to hyphal surfaces. The pH along hyphal surfaces varied significantly (p < 0.05), with pH at hyphal tips being on average ~0.8 pH units lower than at more mature hyphal parts near the entrance of the microfluidic observation chamber. Our data represent the first dynamic in vitro analysis of surface pH along growing hyphae at the micrometre scale. Such knowledge may improve our understanding of spatial, pH-dependent hyphal processes, such as the degradation of organic matter or mineral weathering. [ABSTRACT FROM AUTHOR]

Published

2022

10. Invasive Hormographiella aspergillata infection in patients with acute myeloid leukemia: Report of two cases successfully treated and review of the literature

Author

Jonathan Tschopp, Jean Yannis Perentes, Catherine Beigelman-Aubry, Sabina Berezowska, Alban Lovis, Olivier Spertini, Pierre-Yves Bochud, and Frederic Lamoth

Subjects

Coprinopsis cinerea, Hormographiella aspergillata, Voriconazole, Amphotericin B, Fungal PCR, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Hormographiella aspergillata is a rare cause of invasive mold infection, mostly described in patients with hematological malignancies. We describe two cases of invasive H. aspergillata infections in patients with acute myeloid leukemia, successfully managed with complete surgical resection of the lesions and antifungal therapy of voriconazole alone or liposomal amphotericin B, followed by voriconazole, highlighting the key role of a multidisciplinary approach for the treatment of this rare and severe invasive mold infection.

Published

2021

11. Impact of Fungal Hyphae on Growth and Dispersal of Obligate Anaerobic Bacteria in Aerated Habitats

Author

Bi-Jing Xiong, Sabine Kleinsteuber, Heike Sträuber, Christian Dusny, Hauke Harms, and Lukas Y. Wick

Subjects

Coprinopsis cinerea, oxygen, hyphae, bacterial-fungal interactions, mycosphere, planar optode, Microbiology, QR1-502

Abstract

ABSTRACT Anoxic microsites arising in fungal biofilms may foster the presence of obligate anaerobes. Here, we analyzed whether and to which degree hyphae of Coprinopsis cinerea thriving in oxic habitats enable the germination, growth, and dispersal of the obligate anaerobic soil bacterium Clostridium acetobutylicum. Time-resolved optical oxygen mapping, microscopy, and metabolite analysis revealed the formation and persistence of anoxic circum hyphal niches, allowing for spore germination, growth, and fermentative activity of the obligate anaerobe in an otherwise inhabitable environment. Hypoxic liquid films containing 80% ± 10% of atmospheric oxygen saturation around single air-exposed hyphae thereby allowed for efficient clostridial dispersal amid spatially separated (>0.5 cm) anoxic sites. Hyphae hence may serve as good networks for the activity and spatial organization of obligate anaerobic bacteria in oxygenated heterogeneous environments such as soil. IMPORTANCE Although a few studies have reported on the presence of anoxic microniches in fungal biofilms, knowledge of the effects of fungal oxygen consumption on bacterial-fungal interactions is limited. Here, we demonstrate the existence and persistence of oxygen-free zones in air-exposed mycelia enabling spore germination, growth, fermentative activity, and dispersal of the obligate anaerobe. Our study points out a previously overlooked role of aerobic fungi in creating and bridging anoxic microniches in ambient oxic habitats. Air-exposed hyphae hence may act as a scaffold for activity and dispersal of strictly anaerobic microbes. Given the short-term tolerance of strict anaerobes to oxygen and reduced oxygen content in the mycosphere, hyphae can promote spatial organization of both obligate anaerobic and aerobic bacteria. Such finding may be important for a better understanding of previously observed co-occurrences of aerobes and anaerobes in well-aerated habitats such as upland soils.

Published

2022

12. The exp2 gene, which encodes a protein with two zinc finger domains, regulates cap expansion and autolysis in Coprinopsis cinerea.

Author

Sakamoto, Yuichi, Sato, Shiho, Yoshida, Hiroshi, Takahashi, Machiko, Osakabe, Keishi, and Muraguchi, Hajime

Subjects

*ZINC-finger proteins, *AUTOLYSIS, *FRUITING bodies (Fungi), *FUNGAL cell walls, *TRANSCRIPTION factors, *CULTIVATED mushroom, *GENES

Abstract

Cap expansion in agaricoid mushroom species is an important event for sexual reproduction because meiosis occurs in basidia under the cap, and basidiospores can be released by opening the cap. However, molecular mechanisms underlying cap expansion in basidiomycetes remain poorly understood. We aimed to elucidate the molecular mechanisms of cap expansion in basidiomycetes by analyzing the unique cap- expansionless UV mutant #13 (exp2–1) in Coprinopsis cinerea. Linkage analysis and consequent genome sequence analysis revealed that the gene responsible for the mutant phenotypes encodes a putative transcription factor with two C2H2 zinc finger motifs. The mutant that was genome-edited to lack exp2 exhibited an expansionless phenotype. Some of the genes encoding cell wall degradation-related enzymes showed decreased expression during cap expansion and autolysis in the exp2 UV and genome-edited mutant. The exp2 gene is widely conserved in Agaricomycetes, suggesting that Exp2 homologs regulate fruiting body maturation in Agaricomycetes, especially cap expansion in Agaricoid-type mushroom-forming fungi. Therefore, exp2 homologs could be a target for mushroom breeding to maintain shape after harvest for some cultivating mushrooms, presenting a promising avenue for further research in breeding techniques. [Display omitted] • A novel cap- expansionless mutant, (exp2–1), was isolated from Coprinopsis cinerea. • The exp2 gene encodes a putative transcription factor that has two C2H2 zinc finger motifs. • The exp2 gene was edited by CRISPR/Cas9. • The Exp2 protein regulates expression of cell wall-degrading enzymes. [ABSTRACT FROM AUTHOR]

Published

2024

13. Novel Fatty Acid Chain-Shortening by Fungal Peroxygenases Yielding 2C-Shorter Dicarboxylic Acids.

Author

Olmedo, Andrés, Ullrich, René, Hofrichter, Martin, del Río, José C., Martínez, Ángel T., and Gutiérrez, Ana

Subjects

DICARBOXYLIC acids, FATTY acids, EXTRACELLULAR enzymes, CARBOXYL group, FUNGAL enzymes, UNSATURATED fatty acids, SATURATED fatty acids

Abstract

Unspecific peroxygenases (UPOs), the extracellular enzymes capable of oxygenating a potpourri of aliphatic and aromatic substrates with a peroxide as co-substrate, come out with a new reaction: carbon-chain shortening during the conversion of fatty acids with the well-known UPOs from Coprinopsis cinerea (rCciUPO) and Cyclocybe (Agrocybe) aegerita (AaeUPO). Although a pathway (Cα-oxidation) for shortening the hydrocarbon chain of saturated fatty acids has already been reported for the UPO from Marasmius rotula (MroUPO), it turned out that rCciUPO and AaeUPO shorten the chain length of both saturated and unsaturated fatty acids in a different way. Thus, the reaction sequence does not necessarily start at the Cα-carbon (adjacent to the carboxyl group), as in the case of MroUPO, but proceeds through the subterminal (ω-1 and ω-2) carbons of the chain via several oxygenations. This new type of shortening leads to the formation of a dicarboxylic fatty acid reduced in size by two carbon atoms in the first step, which can subsequently be further shortened, carbon by carbon, by the UPO Cα-oxidation mechanism. [ABSTRACT FROM AUTHOR]

Published

2022

14. Erratum: Cytoplasmic Lipases—A Novel Class of Fungal Defense Proteins Against Nematodes

Author

Frontiers Production Office

Subjects

Coprinopsis cinerea, fungal toxins, toxic enzymes, inducible defense, nematotoxicity, esterase, Plant culture, SB1-1110

Published

2022

15. Gene age shapes the transcriptional landscape of sexual morphogenesis in mushroom-forming fungi (Agaricomycetes)

Author

Zsolt Merényi, Máté Virágh, Emile Gluck-Thaler, Jason C Slot, Brigitta Kiss, Torda Varga, András Geösel, Botond Hegedüs, Balázs Bálint, and László G Nagy

Subjects

Pleurotus ostreatus, Cryptococcus neoformans, Coprinopsis cinerea, developmental hourglass, allelic imbalance, mushroom-forming fungi, Medicine, Science, Biology (General), QH301-705.5

Abstract

Multicellularity has been one of the most important innovations in the history of life. The role of gene regulatory changes in driving transitions to multicellularity is being increasingly recognized; however, factors influencing gene expression patterns are poorly known in many clades. Here, we compared the developmental transcriptomes of complex multicellular fruiting bodies of eight Agaricomycetes and Cryptococcus neoformans, a closely related human pathogen with a simple morphology. In-depth analysis in Pleurotus ostreatus revealed that allele-specific expression, natural antisense transcripts, and developmental gene expression, but not RNA editing or a ‘developmental hourglass,’ act in concert to shape its transcriptome during fruiting body development. We found that transcriptional patterns of genes strongly depend on their evolutionary ages. Young genes showed more developmental and allele-specific expression variation, possibly because of weaker evolutionary constraint, suggestive of nonadaptive expression variance in fruiting bodies. These results prompted us to define a set of conserved genes specifically regulated only during complex morphogenesis by excluding young genes and accounting for deeply conserved ones shared with species showing simple sexual development. Analysis of the resulting gene set revealed evolutionary and functional associations with complex multicellularity, which allowed us to speculate they are involved in complex multicellular morphogenesis of mushroom fruiting bodies.

Published

2022

16. Coprinopsis cinerea Uses Laccase Lcc9 as a Defense Strategy To Eliminate Oxidative Stress during Fungal-Fungal Interactions.

Author

Juanjuan Liu, Can Peng, Qiqi Han, Mengyao Wang, Gang Zhou, Bin Ye, Yazhong Xiao, emin Fang, and Kües, Ursula

Subjects

*OXIDATIVE stress, *LACCASE, *REACTIVE oxygen species

Abstract

Frequently, laccases are triggered during fungal cocultivation for overexpression. The function of these activated laccases during coculture has not been clarified. Previously, we reported that Gongronella sp. w5 (w5) (Mucoromycota, Mucoromycetes) specifically triggered the laccase Lcc9 overexpression in Coprinopsis cinerea (Basidiomycota, Agaricomycetes). To systematically analyze the function of the overexpressed laccase during fungal interaction, C. cinerea mycelia before and after the initial Lcc9 overexpression were chosen for transcriptome analysis. Results showed that accompanied by specific utilization of fructose as carbohydrate substrate, oxidative stress derived from antagonistic compounds secreted by w5 appears to be a signal critical for laccase production in C. cinerea. A decrease in reactive oxygen species (ROS) in the C. cinerea wild-type strain followed the increase in laccase production, and then lcc9 transcription and laccase activity stopped. By comparison, increased H2O2 content and mycelial ROS levels were observed during the entire cocultivation in lcc9 silenced C. cinerea strains. Moreover, lcc9 silencing slowed down the C. cinerea mycelial growth, affected hyphal morphology, and decreased the asexual sporulation in coculture. Our results showed that intracellular ROS acted as signal molecules to stimulate defense responses by C. cinerea with the expression of oxidative stress response regulator Skn7 and various detoxification proteins. Lcc9 takes part in a defense strategy to eliminate oxidative stress during the interspecific interaction with w5. [ABSTRACT FROM AUTHOR]

Published

2022

17. Production of Recombinant Laccase From Coprinopsis cinerea and Its Effect in Mediator Promoted Lignin Oxidation at Neutral pH

Author

Jussi Kontro, Christina Lyra, Milla Koponen, Jaana Kuuskeri, Mika A. Kähkönen, Janne Wallenius, Xing Wan, Jussi Sipilä, Miia R. Mäkelä, Paula Nousiainen, and Kristiina Hildén

Subjects

Coprinopsis cinerea, laccase characteristics, laccase-mediator systems, lignin depolymerization, structural analysis, Biotechnology, TP248.13-248.65

Abstract

Laccases are multi-copper oxidases that use molecular oxygen as the electron acceptor to oxidize phenolic and indirectly also non-phenolic substrates by mechanisms involving radicals. Due to their eco-friendliness and broad substrate specificity, laccases span a wide range of biotechnological applications. We have heterologously expressed a laccase from the coprophilic basidiomycete Coprinopsis cinerea (CcLcc9) in the methylotrophic yeast Pichia pastoris. The recombinant CcLcc9 (rCcLcc9) oxidized 2,6-dimethoxyphenol in the neutral pH range, and showed thermostability up to 70°C. The rCcLcc9 efficiently oxidized veratryl alcohol to veratraldehyde in the presence of low molecular weight mediators syringyl nitrile, methyl syringate and violuric acid, which are syringyl-type plant phenolics that have shown potential as natural co-oxidants for lignocellulosic materials. In addition, rCcLcc9 is able to depolymerize biorefinery hardwood lignin in the presence of methyl syringate and syringyl nitrile as indicated by gel permeation chromatography, and infrared spectral and nucleic magnetic resonance analyses. Furthermore, we showed that several added-value aromatic compounds, such as vanillin, vanillic acid, syringaldehyde, syringic acid and p-hydroxybenzoic acid, were formed during sequential biocatalytic chemical degradation of biorefinery lignin, indicating that rCcLcc9 harbors a great potential for sustainable processes of circular economy and modern biorefineries.

Published

2021

18. Coprinopsis cinerea Galectin CGL1 Induces Apoptosis and Inhibits Tumor Growth in Colorectal Cancer Cells

Author

Mengli Yan, Yaxuan Chen, Mengke Li, Jiamin Wu, Zemin Fang, Junjun Wang, and Juanjuan Liu

Subjects

Coprinopsis cinerea, galectin, CGL1, colorectal cancer, apoptosis, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Mushroom galectins are promising anticancer agents for their low IC50 values against cancer cells in vitro. In this study, two Coprinopsis cinerea galectins, CGL1 and CGL2, were heterologously expressed, and their biochemistry properties and anticancer effects were evaluated. The purified galectins were thermostable at neutral pH conditions. They both existed as tetramers and shared a high affinity towards lactose. CGL1 and CGL2 strongly inhibited the cell viability of many cancer cell lines, including three colorectal cancer cells, in a dose-dependent manner by inducing mitochondria-mediated caspase-dependent apoptosis. Furthermore, CGL1 exhibited higher apoptosis-inducing ability and cytotoxicity than CGL2. In vivo cell viability experiments based on two xenograft mouse models showed that CGL1 had a more substantial inhibitory effect than CGL2 on HCT116 tumor growth (p < 0.0001), whereas only CGL1 inhibited DLD1 tumor growth (p < 0.01). This is the first study to evaluate the anti-colorectal cancer effect of mushroom lectins in vivo, and our results showed that CGL1 is a potent agent for colorectal cancer treatment.

Published

2022

19. Cytoplasmic Lipases—A Novel Class of Fungal Defense Proteins Against Nematodes

Author

Annageldi Tayyrov, Chunyue Wei, Céline Fetz, Aleksandr Goryachkin, Philipp Schächle, Laura Nyström, and Markus Künzler

Subjects

Coprinopsis cinerea, fungal toxins, toxic enzymes, inducible defense, nematotoxicity, esterase, Plant culture, SB1-1110

Abstract

Fungi are an attractive food source for predators such as fungivorous nematodes. Several fungal defense proteins and their protective mechanisms against nematodes have been described. Many of these proteins are lectins which are stored in the cytoplasm of the fungal cells and bind to specific glycan epitopes in the digestive tract of the nematode upon ingestion. Here, we studied two novel nematotoxic proteins with lipase domains from the model mushroom Coprinopsis cinerea. These cytoplasmically localized proteins were found to be induced in the vegetative mycelium of C. cinerea upon challenge with fungivorous nematode Aphelenchus avenae. The proteins showed nematotoxicity when heterologously expressed in E. coli and fed to several bacterivorous nematodes. Site-specific mutagenesis of predicted catalytic residues eliminated the in-vitro lipase activity of the proteins and significantly reduced their nematotoxicity, indicating the importance of the lipase activity for the nematotoxicity of these proteins. Our results suggest that cytoplasmic lipases constitute a novel class of fungal defense proteins against predatory nematodes. These findings improve our understanding of fungal defense mechanisms against predators and may find applications in the control of parasitic nematodes in agriculture and medicine.

Published

2021

20. Invasive Hormographiella aspergillata infection in patients with acute myeloid leukemia: Report of two cases successfully treated and review of the literature.

Author

Tschopp, Jonathan, Perentes, Jean Yannis, Beigelman-Aubry, Catherine, Berezowska, Sabina, Lovis, Alban, Spertini, Olivier, Bochud, Pierre-Yves, and Lamoth, Frederic

Abstract

Hormographiella aspergillata is a rare cause of invasive mold infection, mostly described in patients with hematological malignancies. We describe two cases of invasive H. aspergillata infections in patients with acute myeloid leukemia, successfully managed with complete surgical resection of the lesions and antifungal therapy of voriconazole alone or liposomal amphotericin B, followed by voriconazole, highlighting the key role of a multidisciplinary approach for the treatment of this rare and severe invasive mold infection. • Hormographiella apergillata is a rare cause of invasive mold infection. • Early invasive procedures with tissue biopsies are crucial to obtain a diagnosis. • Surgical source control of all lesions should be attempted as soon as possible. • Liposomal amphotericin B is probably the best empirical antifungal therapy. • Maintenance with voriconazole can be considered after achieving source control. [ABSTRACT FROM AUTHOR]

Published

2021

21. Hormographiella aspergillata pulmonary infections: Detection and identification of the fungus using pan-fungal PCR assays and DNA sequencing.

Author

Nevez, Gilles, Guillerm, Gaelle, Talarmin, Jean-Philippe, Quinio, Dorothée, Iriart, Xavier, Lissillour, Pierre-Luc, Rezig, Schéhérazade, Fangous, Marie-Sarah, Ranty, Marion, Bodenes, Laetitia, Aubron, Cécile, Couturier, Marie-Anne, and Le Gal, Solène

Abstract

Hormographiella aspergillata is a basidiomycete exceptionally involved in invasive fungal infections (IFI). We report a case of H. aspergillata pulmonary infection in a 30-year-old female in a context of pancytopenia and relapsed of acute myeloid leukemia (AML). She presented with fever, thoracic pain, left pleural effusion and pneumonia, diagnosed on chest X-ray and CT-scan. Direct examination of a bronchoalveolar lavage (BAL) specimen performed on day (d) 10 was negative, while the culture was positive on d30. H. aspergillata was suspected, considering macroscopic and microscopic examination. Its identification was confirmed using Microflex® Bruker mass spectrometry and pan-fungal (PF)-PCR assay followed by DNA sequencing. After this initial diagnosis, the patient was monitored for 2.8 years. She was treated with liposomal amphotericin B and/or voriconazole until switching to isavuconazole on d298 due to side-effects. This antifungal treatment was maintained until d717 and then discontinued, the patient being considered as cured. Over this follow-up period, the patient was submitted to recurrent pulmonary sampling. Each time, cultures were negative, while PF – PCR assays and DNA sequencing confirmed the presence of H. aspergillata. The present case-report is the 32nd observation of H. aspergillata invasive infection showing that this IFI is still infrequent. Fifteen have occurred in patients with AML, which appears as the most frequent underlying disease favoring this IFI. Six recent case-reports in addition to ours highlight PF-PCR assays and DNA sequencing as relevant diagnostic tools that must be included in routine diagnosis and monitoring of IFI, specifically those due to rare basidiomycetes. [ABSTRACT FROM AUTHOR]

Published

2024

22. Signal peptide replacement resulted in recombinant homologous expression of laccase Lcc8 in Coprinopsis cinerea

Author

Marcus Schulze, Lukas Geisler, Andrzej Majcherczyk, and Martin Rühl

Subjects

Laccase, Coprinopsis cinerea, Signal peptide, Multi-copper oxidase, Purification, Biochemical characterization, Biotechnology, TP248.13-248.65, Microbiology, QR1-502

Abstract

Abstract Although the model agaricomycete Coprinopsis cinerea possess 17 different laccase genes, up to now only four C. cinerea laccases have been purified and characterized to some degree. By exchanging the nucleotide sequence of the deduced signal peptide of Lcc8 it was possible to homologously express lcc8 in C. cinerea under control of the Agaricus bisporus gdpII promoter and the C. cinerea lcc1 terminator. The purified Lcc8 showed two bands in the SDS-PAGE with a molecular weight of 64 kDa and 77 kDa, respectively. The IEF determined pI values of 3.3 and 3.4 for both bands. The optimal pH for oxidation of the substrates ABTS, 2,6-dimethoxyphenol, guaiacol and syringaldazine was pH 4.0, pH 5.0, pH 4.5 and pH 5.0, respectively. Best pH for enzyme storage was pH 8.0. The optimal temperature for oxidation of ABTS was 63 °C, while Lcc8 showed activity of at least 50% over 300 min at 50 °C. The comparable high stability of Lcc8 at alkaline pH and higher temperatures can be of interest for biotechnical applications.

Published

2019

23. pH Distribution along Growing Fungal Hyphae at Microscale

Author

Bi-Jing Xiong, Claire E. Stanley, Christian Dusny, Dietmar Schlosser, Hauke Harms, and Lukas Y. Wick

Subjects

bioreporter, microfluidics, hyphosphere, mycosphere, Coprinopsis cinerea, single cell, Biology (General), QH301-705.5

Abstract

Creating unique microenvironments, hyphal surfaces and their surroundings allow for spatially distinct microbial interactions and functions at the microscale. Using a microfluidic system and pH-sensitive whole-cell bioreporters (Synechocystis sp. PCC6803) attached to hyphae, we spatially resolved the pH along surfaces of growing hyphae of the basidiomycete Coprinopsis cinerea. Time-lapse microscopy analysis of ratiometric fluorescence signals of >2400 individual bioreporters revealed an overall pH drop from 6.3 ± 0.4 (n = 2441) to 5.0 ± 0.3 (n = 2497) within 7 h after pH bioreporter loading to hyphal surfaces. The pH along hyphal surfaces varied significantly (p < 0.05), with pH at hyphal tips being on average ~0.8 pH units lower than at more mature hyphal parts near the entrance of the microfluidic observation chamber. Our data represent the first dynamic in vitro analysis of surface pH along growing hyphae at the micrometre scale. Such knowledge may improve our understanding of spatial, pH-dependent hyphal processes, such as the degradation of organic matter or mineral weathering.

Published

2022

24. Novel Fatty Acid Chain-Shortening by Fungal Peroxygenases Yielding 2C-Shorter Dicarboxylic Acids

Author

Andrés Olmedo, René Ullrich, Martin Hofrichter, José C. del Río, Ángel T. Martínez, and Ana Gutiérrez

Subjects

chain shortening, fatty acids, peroxygenation, EC 1.11.2.1, Coprinopsis cinerea, Agrocybe aegerita, Therapeutics. Pharmacology, RM1-950

Abstract

Unspecific peroxygenases (UPOs), the extracellular enzymes capable of oxygenating a potpourri of aliphatic and aromatic substrates with a peroxide as co-substrate, come out with a new reaction: carbon-chain shortening during the conversion of fatty acids with the well-known UPOs from Coprinopsis cinerea (rCciUPO) and Cyclocybe (Agrocybe) aegerita (AaeUPO). Although a pathway (Cα-oxidation) for shortening the hydrocarbon chain of saturated fatty acids has already been reported for the UPO from Marasmius rotula (MroUPO), it turned out that rCciUPO and AaeUPO shorten the chain length of both saturated and unsaturated fatty acids in a different way. Thus, the reaction sequence does not necessarily start at the Cα-carbon (adjacent to the carboxyl group), as in the case of MroUPO, but proceeds through the subterminal (ω-1 and ω-2) carbons of the chain via several oxygenations. This new type of shortening leads to the formation of a dicarboxylic fatty acid reduced in size by two carbon atoms in the first step, which can subsequently be further shortened, carbon by carbon, by the UPO Cα-oxidation mechanism.

Published

2022

25. Snowball: a novel gene family required for developmental patterning of fruiting bodies of mushroom-forming fungi (Agaricomycetes).

Author

Földi C, Merényi Z, Balázs B, Csernetics Á, Miklovics N, Wu H, Hegedüs B, Virágh M, Hou Z, Liu X-B, Galgóczy L, and Nagy LG

Subjects

Fruiting Bodies, Fungal genetics, Phylogeny, Fungal Proteins genetics, Agaricales genetics, Basidiomycota metabolism, Ascomycota metabolism

Abstract

The morphogenesis of sexual fruiting bodies of fungi is a complex process determined by a genetically encoded program. Fruiting bodies reached the highest complexity levels in the Agaricomycetes; yet, the underlying genetics is currently poorly known. In this work, we functionally characterized a highly conserved gene termed snb1 , whose expression level increases rapidly during fruiting body initiation. According to phylogenetic analyses, orthologs of snb1 are present in almost all agaricomycetes and may represent a novel conserved gene family that plays a substantial role in fruiting body development. We disrupted snb1 using CRISPR/Cas9 in the agaricomycete model organism Coprinopsis cinerea. snb1 deletion mutants formed unique, snowball-shaped, rudimentary fruiting bodies that could not differentiate caps, stipes, and lamellae. We took advantage of this phenotype to study fruiting body differentiation using RNA-Seq analyses. This revealed differentially regulated genes and gene families that, based on wild-type RNA-Seq data, were upregulated early during development and showed tissue-specific expression, suggesting a potential role in differentiation. Taken together, the novel gene family of snb1 and the differentially expressed genes in the snb1 mutants provide valuable insights into the complex mechanisms underlying developmental patterning in the Agaricomycetes., Importance: Fruiting bodies of mushroom-forming fungi (Agaricomycetes) are complex multicellular structures, with a spatially and temporally integrated developmental program that is, however, currently poorly known. In this study, we present a novel, conserved gene family, Snowball (snb), termed after the unique, differentiation-less fruiting body morphology of snb1 knockout strains in the model mushroom Coprinopsis cinerea. snb is a gene of unknown function that is highly conserved among agaricomycetes and encodes a protein of unknown function. A comparative transcriptomic analysis of the early developmental stages of differentiated wild-type and non-differentiated mutant fruiting bodies revealed conserved differentially expressed genes which may be related to tissue differentiation and developmental patterning fruiting body development., Competing Interests: The authors declare no conflict of interest.

Published

2024

26. Hormographiella aspergillata pulmonary infections: Detection and identification of the fungus using pan-fungal PCR assays and DNA sequencing.

Author

Nevez G, Guillerm G, Talarmin JP, Quinio D, Iriart X, Lissillour PL, Rezig S, Fangous MS, Ranty M, Bodenes L, Aubron C, Couturier MA, and Le Gal S

Subjects

Adult, Female, Humans, Antifungal Agents therapeutic use, Polymerase Chain Reaction, Sequence Analysis, DNA, Agaricales, Basidiomycota genetics, Leukemia, Myeloid, Acute drug therapy, Lung Diseases, Fungal diagnosis, Lung Diseases, Fungal drug therapy, Lung Diseases, Fungal microbiology, Pneumonia

Abstract

Hormographiella aspergillata is a basidiomycete exceptionally involved in invasive fungal infections (IFI). We report a case of H. aspergillata pulmonary infection in a 30-year-old female in a context of pancytopenia and relapsed of acute myeloid leukemia (AML). She presented with fever, thoracic pain, left pleural effusion and pneumonia, diagnosed on chest X-ray and CT-scan. Direct examination of a bronchoalveolar lavage (BAL) specimen performed on day (d) 10 was negative, while the culture was positive on d30. H. aspergillata was suspected, considering macroscopic and microscopic examination. Its identification was confirmed using Microflex® Bruker mass spectrometry and pan-fungal (PF)-PCR assay followed by DNA sequencing. After this initial diagnosis, the patient was monitored for 2.8 years. She was treated with liposomal amphotericin B and/or voriconazole until switching to isavuconazole on d298 due to side-effects. This antifungal treatment was maintained until d717 and then discontinued, the patient being considered as cured. Over this follow-up period, the patient was submitted to recurrent pulmonary sampling. Each time, cultures were negative, while PF - PCR assays and DNA sequencing confirmed the presence of H. aspergillata. The present case-report is the 32nd observation of H. aspergillata invasive infection showing that this IFI is still infrequent. Fifteen have occurred in patients with AML, which appears as the most frequent underlying disease favoring this IFI. Six recent case-reports in addition to ours highlight PF-PCR assays and DNA sequencing as relevant diagnostic tools that must be included in routine diagnosis and monitoring of IFI, specifically those due to rare basidiomycetes., Competing Interests: Declaration of competing interest The authors declare there is no conflict of interests., (Copyright © 2024 SFMM. Published by Elsevier Masson SAS. All rights reserved.)

Published

2024

27. Heterologous expression and characterization of a novel chitin deacetylase, CDA3, from the mushroom Coprinopsis cinerea.

Author

Bai, Yang, Wang, Yanxin, Liu, Xiao, Zhao, Jing, Kang, LiQin, Liu, Zhonghua, and Yuan, Sheng

Subjects

*CHITIN, *ACETYL group, *DEACETYLATION, *MUSHROOMS, *CHITOSAN, *AMINO acids

Abstract

The chitin deacetylase CDA3 from C. cinerea deacetylated chitin-oligosaccharides with dp ≥ 2. Since CDA3 firstly removed the intermediate acetyl group of (GlcNAc) 4 , it was an endo -acting deacetylase. Different from previously reported deacetylation modes, CDA3 deacetylated chitinbiose at either the reducing end or the nonreducing end; CDA3 deacetylated chitintriose at any subsite including the end and the intermediate; CDA3 further removed acetyl groups at any subsite, the intermediate, nonreducing and reducing end of chitintetraose after removal of the first intermediate acetyl group. 3D structural analysis showed that CDA3 has aromatic amino acids distributing at both the +1 and −1 subsites of the catalytic site, which may be responsible for its distinctive deacetylation mode. Furthermore, CDA3 was active on crystalline chitin, its deacetylation activity increased with the DA decreases of chitinous substrates and showed a higher activity towards the cell wall of the basal stipe with the higher molar ratio of GlcN/GlcNAc than that of the apical stipe with the lower molar ratio of GlcN/GlcNAc. CDA3 with distinctive deacetylation mode and activity indicates its function during the maturation of the fruiting bodies of C. cinerea and a potential for preparation of mushroom chitosan for application in the food, cosmetics, and pharmaceutical industries. • CDA3 deacetylation mode was freer than reported CDAs • CDA3 deacetylation activity increased with the DDA increases of chitinous substrates • CDA3 deacetylation activity towards stipe walls was higher than shrimp crystalline chitin • CDA3 deacetylation activity was higher towards basal stipe walls than apical stipe walls [ABSTRACT FROM AUTHOR]

Published

2020

28. Crystal Structure of the Catalytic and Cytochrome b Domains in a Eukaryotic Pyrroloquinoline Quinone-Dependent Dehydrogenase.

Author

Kouta Takeda, Takuya Ishida, Makoto Yoshida, Masahiro Samejima, Hiroyuki Ohno, Kiyohiko Igarashi, and Nobuhumi Nakamura

Subjects

*CYTOCHROME b, *CRYSTAL structure, *PQQ (Biochemistry), *CALCIUM ions, *CHARGE exchange, *CYTOCHROME c, *FUNGAL enzymes

Abstract

Pyrroloquinoline quinone (PQQ) was discovered as a redox cofactor of prokaryotic glucose dehydrogenases in the 1960s, and subsequent studies have demonstrated its importance not only in bacterial systems but also in higher organisms. We have previously reported a novel eukaryotic quinohemoprotein that exhibited PQQ-dependent catalytic activity in a eukaryote. The enzyme, pyranose dehydrogenase (PDH), from the filamentous fungus Coprinopsis cinerea (CcPDH) of the Basidiomycete division, is composed of a catalytic PQQ-dependent domain classified as a member of the novel auxiliary activity family 12 (AA12), an AA8 cytochrome b domain, and a family 1 carbohydrate-binding module (CBM1), as defined by the Carbohydrate-Active Enzymes (CAZy) database. Here, we present the crystal structures of the AA12 domain in its apo- and holo-forms and the AA8 domain of this enzyme. The crystal structures of the holo-AA12 domain bound to PQQ provide direct evidence that eukaryotes have PQQ-dependent enzymes. The AA12 domain exhibits a six-blade β-propeller fold that is also present in other known PQQ-dependent glucose dehydrogenases in bacteria. A loop structure around the active site and a calcium ion binding site are unique among the known structures of bacterial quinoproteins. The AA8 cytochrome domain has a positively charged area on its molecular surface, which is partly due to the propionate group of the heme interacting with Arg181; this feature differs from the characteristics of cytochrome b in the AA8 domain of the fungal cellobiose dehydrogenase and suggests that this difference may affect the pH dependence of electron transfer. [ABSTRACT FROM AUTHOR]

Published

2019

29. Role of N-glycosylation on the specific activity of a Coprinopsis cinerea laccase Lcc9 expressed in Pichia pastoris.

Author

Xu, Ganfei, Wu, Yawen, Zhang, Yinliang, Fang, Wei, Xiao, Yazhong, and Fang, Zemin

Subjects

*PICHIA pastoris, *LACCASE, *BOTRYTIS cinerea, *MOLECULAR weights, *THERMAL stability, *GLYCOSYLATION, *DEGLYCOSYLATION

Abstract

Laccase Lcc9 from Coprinopsis cinerea heterologously expressed in Pichia pastoris (rLcc9) displayed different molecular weight and specific activity from the native laccase (nLcc9). Glycosylation may play a role in regulating the Lcc9 specific activity. To elucidate this hypothesis, in this study, firstly we demonstrated that rLcc9 and nLcc9 were glycoproteins, and then enzymatically deglycosylated them. The obtained drLcc9 and dnLcc9 showed an apparent decrease in their specific activities. Three putative N -glycosylation sites (N293, N313, and N454) were then predicted in Lcc9 and substituted to evaluate their roles in its specific activity. Molecular weight analysis on those mutants suggested that glycosylation should have occurred on N313 and N454 whereas not on N293 in rLcc9. Comparison of catalytic properties of those mutants revealed that glycosylation at N313 and N454 in rLcc9 could affect the binding affinity to substrates and the catalytic rate, respectively. In addition, the glycosylation could also affect the thermal stability of rLcc9 and nLcc9 since deglycosylation of those Lcc9s resulted in decreases in their thermal stability to some extent. These results will help us to understand the effect of glycosylation on biochemical characteristics of fungal laccases, and provide us support for the improvement of fungal laccase activity based on N -linked glycosylation modification. [ABSTRACT FROM AUTHOR]

Published

2019

30. Glucanase-Induced Stipe Wall Extension Shows Distinct Differences from Chitinase-Induced Stipe Wall Extension of Coprinopsis cinerea.

Author

Liqin Kang, Jiangsheng Zhou, Rui Wang, Xingwei Zhang, Cuicui Liu, Zhonghua Liu, and Sheng Yuan

Subjects

*CHITIN, *POLYSACCHARIDES, *GLUCANASES, *GLUCOSIDASES, *SPINE

Abstract

This study reports that a high concentration of the endo-β-1,3-glucanase ENG (200μg ml-1) induced heat-inactivated stipe wall extension of Coprinopsis cinerea, whereas a high concentration of the extracellular β-glucosidase BGL2 (1,000μg ml-1) did not; however, in combination, low concentrations of ENG (25μg ml-1) and BGL2 (260μg ml-1) induced heat-inactivated stipe cell wall extension. In contrast to the previously reported chitinase-reconstituted stipe wall extension, β-1,3-glucanase-reconstituted heat-inactivated stipe cell wall extension initially exhibited a fast extension rate that quickly decreased to zero after approximately 60 min; the stipe cell wall extension induced by a high concentration of β-1,3-glucanase did not result in stipe breakage during measurement, and the inner surfaces of glucanase-reconstituted extended cell walls still remained as amorphous matrices that did not appear to have been damaged. These distinctive features of the β-1,3-glucanase-reconstituted wall extension may be because chitin chains are cross-linked not only to the nonreducing termini of the side chains and the backbones of β-1,6 branched β-1,3-glucans but also to other polysaccharides. Remarkably, a low concentration of either the β-1,3-glucanase ENG or of chitinase ChiE1 did not induce heat-inactivated stipe wall extension, but a combination of these two enzymes, each at a low concentration, showed stipe cell wall extension activity that exhibited a steady and continuous wall extension profile. Therefore, we concluded that the stipe cell wall extension is the result of the synergistic actions of glucanases and chitinases. [ABSTRACT FROM AUTHOR]

Published

2019

31. The Coprinopsis cinerea Tup1 homologue Cag1 is required for gill formation during fruiting body morphogenesis

Author

Ryo Masuda, Naoki Iguchi, Kooki Tukuta, Takahiro Nagoshi, Kazuki Kemuriyama, and Hajime Muraguchi

Subjects

Cap, Coprinopsis cinerea, Fruiting, Gill trama, Pileus, Tup1, Science, Biology (General), QH301-705.5

Abstract

The pileus (cap) of the fruiting body in homobasidiomycete fungi bears the hymenium, a layer of cells that includes the basidia where nuclear fusion, meiosis and sporulation occur. Coprinopsis cinerea is a model system for studying fruiting body development. The hymenium of C. cinerea forms at the surface of the gills in the pileus. In a previous study, we identified a mutation called cap-growthless1-1 (cag1-1) that blocks gill formation, which yields primordia that never mature. In this study, we found that the cag1 gene encodes a homologue of Saccharomyces cerevisiae Tup1. The C. cinerea genome contains another Tup1 homologue gene called Cc.tupA. Reciprocal tagging of Cag1 and Cc.TupA with green and red fluorescent proteins revealed that the relative ratios of the amounts of the two Tup1 paralogues varied among tissues. Compared with Cc.TupA, Cag1 was preferentially expressed in the gill trama tissue cells, suggesting that the function of Cag1 is required for gill trama tissue differentiation and maintenance. Yeast two-hybrid analysis and co-localisation of Cag1 and Cc.TupA suggested that Cag1 interacts with Cc.TupA in the nuclei of certain cells.

Published

2016

32. Tissue Stainingto Studythe Fruiting Process of Coprinopsis cinerea.

Author

SUBBA, Shanta, WINKLER, Marco, and KÜES, Ursula

Subjects

FRUIT processing, MALACHITE green, FRUIT growing, EDIBLE mushrooms, FRUIT development, EOSIN

Abstract

Copyright of Acta Edulis Fungi is the property of Acta Edulis Fungi and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

33. Coprinopsis neocinerea sp. nov., an ammonia fungus from Southern Vietnam.

Author

Nguyen, Phuong Thao, Pham, Nguyen Duc Hoang, Suzuki, Akira, Shimizu, Kiminori, and Fukiharu, Toshimitsu

Subjects

*BOTRYTIS cinerea, *AMMONIA, *FUNGI

Abstract

Coprinopsis neocinerea sp. nov. (Basidiomycota, Agaricales , Psathyrellaceae), is a new Coprinoid ammonia fungus from broadleaf mixed forest in Vietnam. In macro- and micromorphology, this species is similar to C. cinerea , but differs in having upheaved and humpbacked abaxial side shape of basidiospores. Phylogenetic analysis with nuclear ribosomal internal transcribed spacer (ITS) data also supports this new taxon. • One new ammonia fungus Coprinopsis neocinerea from Vietnam is described. • Phylogenetic analysis supported species in genus Coprinopsis subsection Lanatuli. • This new species is distinct by having an upheaved and humpacked basidiospores. [ABSTRACT FROM AUTHOR]

Published

2019

34. A cellulolytic fungal biofilm enhances the consolidated bioconversion of cellulose to short chain fatty acids by the rumen microbiome.

Author

Xiros, Charilaos, Shahab, Robert Lawrence, and Studer, Michael Hans-Peter

Subjects

*CELLULOLYTIC bacteria, *BIOFILMS, *SHORT-chain fatty acids, *RUMEN microbiology, *MEMBRANE reactors, CELLULOSE microbiology

Abstract

The ability of the multispecies biofilm membrane reactors (MBM reactors) to provide distinguished niches for aerobic and anaerobic microbes at the same time was used for the investigation of the consolidated bioprocessing of cellulose to short chain fatty acids (SCFAs). A consortium based consolidated bioprocess (CBP) was designed. The rumen microbiome was used as the converting microbial consortium, co-cultivated with selected individual aerobic fungi which formed a biofilm on the tubular membrane flushed with oxygen. The beneficial effect of the fungal biofilm on the process yields and productivities was attributed to the enhanced cellulolytic activities compared with those achieved by the rumen microbiome alone. At 30 °C, the MBM system with Trichoderma reesei biofilm reached a concentration 39% higher (7.3 g/L SCFAs), than the rumen microbiome alone (5.1 g/L) using 15 g/L crystalline cellulose as the substrate. Fermentation temperature was crucial especially for the composition of the short chain fatty acids produced. The temperature increase resulted in shorter fatty acids produced. While a mixture of acetic, propionic, butyric, and caproic acids was produced at 30 °C with Trichoderma reesei biofilm, butyric and caproic acids were not detected during the fermentations at 37.5 °C carried out with Coprinopsis cinerea as the biofilm forming fungus. Apart from the presence of the fungal biofilm, no parameter studied had a significant impact on the total yield of organic acids produced, which reached 0.47 g of total SCFAs per g of cellulose (at 30 °C and at pH 6, with rumen inoculum to total volume ratio equal to 0.372). [ABSTRACT FROM AUTHOR]

Published

2019

35. Gongronella sp. w5 elevates Coprinopsis cinerea laccase production by carbon source syntrophism and secondary metabolite induction.

Author

Hu, Jun, Zhang, Yinliang, Xu, Yong, Sun, Qiuying, Liu, Juanjuan, Fang, Wei, Xiao, Yazhong, Kües, Ursula, and Fang, Zemin

Subjects

*LACCASE, *BOTRYTIS cinerea

Abstract

When sucrose was used as the carbon source, the Basidiomycete Coprinopsis cinerea showed poor growth and low laccase activity in pure culture, but greatly enhanced the level of laccase activity (>1800 U/L) during coculture with the Mucoromycete Gongronella sp. w5. As a result, the mechanism of laccase overproduction in coculture was investigated by starting from clarifying the function of sucrose. Results demonstrated that Gongronella sp. w5 in the coculture system hydrolyzed sucrose to glucose and fructose by an intracellular invertase. Fructose rather than glucose was supplied by Gongronella sp. w5  as the readily available carbon source for C. cinerea, and contributed to an alteration of its growth behavior and a basal laccase secretion of 110.6 ± 3.3 U/L. On the other hand, separating Gongronella sp. w5 of C. cinerea by transfer into dialysis tubes yielded the same level of laccase activity as without separation, indicating that enhanced laccase production probably resulted from the metabolites in the fermentation broth. Further investigation showed that the ethyl acetate-extracted metabolites generated by Gongronella sp. w5 induced C. cinerea laccase production. One of the laccase-inducing compounds namely p-hydroxybenzoic acid (HBA) was purified and identified from the extract. When using HBA as the inducer and fructose as the carbon source in monoculture, C. cinerea observed similar high laccase activity to that in coculture, and zymograms revealed the same expression of laccase Lcc9 as the main and Lcc1 and Lcc5 as the minor enzymes. Overall, our experiments verified that Gongronella sp. w5 elevates Coprinopsis cinerea laccase production by carbon source syntrophism and secondary metabolite induction. [ABSTRACT FROM AUTHOR]

Published

2019

36. Blue light exposure and nutrient conditions influence the expression of genes involved in simultaneous hyphal knot formation in Coprinopsis cinerea.

Author

Sakamoto, Yuichi, Sato, Shiho, Ito, Miyuki, Ando, Yuki, Nakahori, Kiyoshi, and Muraguchi, Hajime

Subjects

*BLUE light, *GENES, *HYPHOMYCETES, *BLOOD sugar, *GALECTINS

Abstract

Graphical abstract Highlights • C. cinerea hyphal knots formed simultaneously by light in glucose limited condition. • The fas1 , cfs1, cfs2 and nod1 are highly transcribed at 1 h after light exposure. • Galectins, pheromone, laccase are upregulated 10 h after blue light exposure. • Glucose content affect expressions of those genes after blue light exposure. • Blue light would accelerate hyphal knot induction under nutrient limited condition. Abstract Light and nutrients are crucial environmental factors influencing fungal sexual reproduction. Blue light induces simultaneous hyphal knot formation in Coprinopsis cinerea mycelia grown on low-glucose media but not in mycelia grown on high-glucose media. Many hyphal knots are visible in the arc near the edge of the colony one day after 15 min of blue light stimulation. These findings collectively suggest that blue light accelerates hyphal knot induction in nutrient-limited conditions. Transcriptome analysis revealed that gene expression after light exposure is divided into at least two major stages. In the first stage, genes coding for fasciclin (fas1), cyclopropane-fatty-acyl-phospholipid synthases (cfs1 and cfs2), and putative lipid exporter (nod1) are highly expressed after 1 h of light exposure in the mycelial region where the hyphal knot will be developed. These genes are upregulated by blue light and not influenced by glucose condition and mating. These results suggest that although some of the genes are critical for induction of the hyphal knots, they are not sufficient for hyphal knot development. In the second gene expression stage, genes encoding galectins (cgl1-3), farnesyl cysteine-carboxyl methyltransferases, mating pheromone-containing protein, nucleus protein (ich1), and laccase (lcc1) are specifically upregulated at 10–16 h after blue light exposure when the mycelia are cultivated on low-glucose media. These genes might be involved in the architecture of hyphal knots or signal transduction for further fruiting body development. These results contribute to the understanding of the effect of environmental factors on sexual reproduction in basidiomycetous fungi [ABSTRACT FROM AUTHOR]

Published

2018

37. Transgenic rice plants expressing the α-L-arabinofuranosidase of Coprinopsis cinerea exhibit strong dwarfism and markedly enhanced tillering

Author

Yasuyoshi Mayuzumi, Ryo Maruyama, Shinya Kawai, and Jun Morisawa

Subjects

Arabinose, biology, food and beverages, Dwarfism, Plant Science, biology.organism_classification, medicine.disease, Genetically modified rice, chemistry.chemical_compound, Coprinopsis cinerea, Horticulture, chemistry, Arabinoxylan, medicine, Lignin, Hemicellulose, Elongation, Agronomy and Crop Science, Biotechnology

Abstract

Lignocellulosic materials are potential renewable sources of fermentable sugars for bioethanol production. In this study, we used the CcAbf62A gene encoding CcAbf62A, a putative extracellular α-L-arabinofuranosidase, cloned from the mycotrophic basidiomycete Coprinopsis cinerea. CcAbf62A acts on arabinoxylan, the major hemicellulose of grasses, releasing arabinose. CcAbf62A was introduced into rice with the aim of enhancing delignification efficiency and the availability of lignocellulosic materials without reducing lignin content. Among the 32 lines of regenerated transgenic rice, 13 exhibited markedly disrupted elongation growth and excessive tillering (dwarf), seven showed delayed elongation growth (retarded-growth), and 12 showed phenotypes similar to those of control plants (normal). Additionally, the dwarf lines showed reduced acclimation. RT-PCR analysis revealed that dwarf lines had higher levels of CcAbf62A expression than retarded-growth and normal lines. Although the lignin content of transgenic rice plants expressing CcAbf62A did not differ significantly from that of control rice plants, dwarf lines were characterized by delayed deposition of lignin in the culms compared with the controls. The reduced acclimation ability of dwarf lines is believed to be associated with increased water loss and reduced water conductivity concomitant with delayed lignin deposition. Contrary to expectations, the alkaline delignification rates of dwarf and retarded-growth Abf lines were slightly lower than those of control rice plants. Our findings indicate that CcAbf62A reduces ferulate-lignin cross-links by detaching arabinose side chains from arabinoxylan and increases the relative abundance of alkaline-resistant benzyl ether cross-links. CcAbf62A is anticipated to provide new approaches for breeding plants containing altered lignocellulosic materials or lodging-resistant crops.

Published

2021

38. The Fvclp1 gene regulates mycelial growth and fruiting body development in edible mushroom Flammulina velutipes

Author

Qingji Wang, Siyuan Jiang, Irum Mukhtar, Tiansheng Chou, Li Meng, Wei Wang, Li Wang, Baogui Xie, and Xiaomeng Lyu

Subjects

Gene knockdown, Hypha, biology, fungi, food and beverages, General Medicine, biology.organism_classification, Biochemistry, Microbiology, Cell biology, Edible mushroom, Coprinopsis cinerea, Genetics, Clamp connection, Molecular Biology, Mycelium, Dikaryon, Flammulina

Abstract

Fruiting body development in Agaricomycetes represents the most complex and unclear process in the fungi. Mating type pathways (A and B) and transcription factors are important regulators in the sexual development of mushrooms. It is known that clampless1 (clp1) is an additional gene that participate under the homeodomain (HD) genes in the matA pathway and clp1 inactivation blocks clamps formation in Coprinopsis cinerea. In this study we identified and analyzed a homologous Fvclp1 gene in the edible mushroom Flammulina velutipes. The coding sequence of the Fvclp1 was 1011 bp without intron interruption, encoding a protein of 336 amino acids. To exhibit the role of Fvclp1 in clamp development and fruiting body formation, knockdown and overexpression mutants were prepared. No significant difference was observed in the monokaryotic hyphal morphology of overexpression and knockdown transformants. In the dikaryotic hyphae from the compatible crossings between the wild-type L22 strain and Fvclp1 knockdown or overexpression mutants, clamp connections developed. However, knockdown mutants could generate fewer fruiting bodies than the wild-type strain. On the contrary, reduced mycelial growth rate but improved fruiting ability was observed in the dikaryotic Fvclp1 overexpression mutants as compared to the wild-type strain. These results indicate that Fvclp1 is necessary and actively involved in fruiting body development in F. velutipes. Overall, these findings suggest that further studies on the function of Fvclp1 would advance our understanding of sexual reproduction and fruiting body development in edible mushrooms.

Published

2021

39. Characterization of CoPK02, a Ca2+/calmodulin-dependent protein kinase in mushroom Coprinopsis cinerea.

Author

Yamashita, Masashi, Sueyoshi, Noriyuki, Yamada, Hiroki, Katayama, Syouichi, Senga, Yukako, Takenaka, Yasuhiro, Ishida, Atsuhiko, Kameshita, Isamu, and Shigeri, Yasushi

Subjects

*ASPERGILLUS nidulans, *PROTEIN kinases

Abstract

We surveyed genome sequences from the basidiomycetous mushroom Coprinopsis cinerea and isolated a cDNA homologous to CMKA, a calmodulin-dependent protein kinase (CaMK) in Aspergillus nidulans. We designated this sequence, encoding 580 amino acids with a molecular weight of 63,987, as CoPK02. CoPK02 possessed twelve subdomains specific to protein kinases and exhibited 43, 35, 40% identity with rat CaMKI, CaMKII, CaMKIV, respectively, and 40% identity with CoPK12, one of the CaMK orthologs in C. cinerea. CoPK02 showed significant autophosphorylation activity and phosphorylated exogenous proteins in the presence of Ca2+/CaM. By the CaM-overlay assay we confirmed that the C-terminal sequence (Trp346-Arg358) was the calmodulin-binding site, and that the binding of Ca2+/CaM to CoPK02 was reduced by the autophosphorylation of CoPK02. Since CoPK02 evolved in a different clade from CoPK12, and showed different gene expression compared to that of CoPK32, which is homologous to mitogen-activated protein kinase-activated protein kinase, CoPK02 and CoPK12 might cooperatively regulate Ca2+-signaling in C. cinerea. [ABSTRACT FROM AUTHOR]

Published

2018

40. Characterization of an aryl-alcohol oxidase from the plant saprophytic basidiomycete Coprinopsis cinerea with broad substrate specificity against aromatic alcohols.

Author

Tamaru, Yoshiaki, Umezawa, Kiwamu, and Yoshida, Makoto

Subjects

MUTAGENESIS, BASIDIOMYCETES, ALCOHOL oxidase, GENETIC mutation, BIOCHEMICAL substrates

Abstract

Objectives: The aim of the study was to obtain information about the enzymatic properties of aryl-alcohol oxidase from the plant saprophytic basidiomycete Coprinopsis cinerea (rCcAAO), which is classified into the auxiliary activities family 3 subfamily 2 (AA3_2).Results: The gene encoding AAO from the plant saprophytic basidiomycete Coprinopsis cinerea (CcAAO) was cloned, and the recombinant CcAAO (rCcAAO) was heterologously expressed in the methylotrophic yeast Pichia pastoris. The purified rCcAAO showed significant activity not only against trans,trans-2,4-hexadien-1-ol but also against a broad range of aromatic alcohols including aromatic compounds that were reported to be poor substrates for known AAOs. Moreover, site-directed mutagenesis analysis demonstrated that mutants with substitutions from leucine to phenylalanine and tryptophan at position 416 exhibited decreases of activity for aromatic alcohols but still maintained the activity for trans,trans-2,4-hexadien-1-ol.Conclusions: Leucine 416 in CcAAO contributes to the broad substrate specificity against various aromatic alcohols, which is useful for the production of hydrogen peroxide using this enzyme. [ABSTRACT FROM AUTHOR]

Published

2018

41. Heterologous expression, characterization and possible functions of the chitin deacetylases, Cda1 and Cda2, from mushroom Coprinopsis cinerea.

Author

Yanxin Wang, Xin Niu, Xiaoli Guo, Han Yu, Zhonghua Liu, Zhenqing Zhang, and Sheng Yuan

Subjects

*CHITIN deacetylase, *AMINO acids, *ACETYLATION

Abstract

Two chitin deacetylases, Cda1 and Cda2, from Coprinopsis cinerea were expressed and characterized. Cda1 preferably deacetylates the nonreducing end residue of (GlcNAc)2, the internal or nonreducing end residue of (GlcNAc)3 and the nonreducing residue of (GlcNAc)6 after deacetylating the internal residues. In contrast, Cda2 preferably deacetylates the reducing end residue of (GlcNAc)2, the internal or reducing end residue of (GlcNAc)3 and the reducing residue of (GlcNAc)6 after deacetylating the internal residues. Furthermore, Cda1 prefers chitohexaose with higher degrees of acetylation for deacetylation, while Cda2 shows a weaker preference for chitohexaose with varying degrees of acetylation. The predicted Cda1 structure shows more hydrophobic aromatic amino acids on the surface near subsite +1 in the active site than on the surface near subsite -1, whereas the predicted Cda2 structure has more hydrophobic aromatic amino acids on the surface near subsite -1 than on the surface near subsite +1, which may be the molecular basis of the distinctive catalytic features between Cda1 and Cda2. Notably, Cda1 has a high transcription level in the nonelongating basal stipe region, whereas Cda2 has a high transcription level in the elongating apical stipe region, and the transcription level of the former is approximately five times that of the latter. Correspondingly, the molar ratio of GlcN/GlcNAc increased from 0.15 in the cell wall of the apical stipe region to 0.22 in the cell wall of the basal stipe region. Different modes of action of Cda1 and Cda2 may be related to their functions in the different stipe regions. [ABSTRACT FROM AUTHOR]

Published

2018

42. Antifungal Potential of Myco-molecules of Coprinopsis cinerea (Schaeff) S. Gray s.lat. against Fusarium spp.

Author

Jeeva, S. and Krishnamoorthy, A. S.

Subjects

*COPRINUS, *FUSARIUM diseases of plants, *ANTIFUNGAL agents

Abstract

Inky cap mushroom (Coprinus sp) possesses vital antifungal properties against the major wilt causing pathogens of banana, tomato and chilli. Wilt disease caused by Fusarium oxysporum f. sp. cubense in banana, F. o. f. sp. lycopersici in tomato and F.brachygibbosum in chilli were obtained and the antifungal activities of Coprinus cinerea was assessed. Methanolic extract from the fruiting bodies of inky cap C. cinerea consisted of molecules which could inhibit the growth of Fusarium spp at 2000 ppm. Results showed 54.5, 52.2 and 51.1 per cent of mycelia inhibition of F. oxysporum f. sp. cubense, F. o. f. sp. lycopersici and F. brachygibbosum, respectively when the methanolic extract of C. cinerea was used in agar wells in petri dishes. GC-MS analysis of the methanolic extract of the fruiting bodies of inky cap indicated the presence of 9 different compounds viz., formic acid, 2-propenyl ester; acetic acid; D-alanine; N-propargyloxycarbonyl-; isohexyl ester; 4H-Pyran-4-one; 2,3-dihydro-3,5-dihydroxy-6-methyl-; n-hexadecanoic acid; octasiloxane; 1,1,3,3,5,5,7,7,9,9,11,11,13,13,15,15-hexadecamethyl-; 2,7-diphenyl-1,6-dioxopyridazino [4,5:2',3'] pyrrolo[4',5'-d]pyridazine; squalene and 2-Nonadecanone 2,4-dinitrophenylhydrazine. Among these compounds, formic acid, 2-propenyl ester, acetic acid; n-hexadecanoic acid; 2,7-diphenyl-1,6-dioxopyridazino [4,5:2',3'] pyrrolo[4',5'-d]pyridazine; squalene; 2-nonadecanone 2,4-dinitrophenylhydrazine are have been reported to possess antifungal activities. [ABSTRACT FROM AUTHOR]

Published

2018

43. Improved Treatment and Utilization of Rice Straw by Coprinopsis cinerea.

Author

Zhang, Wenming, Wu, Sihua, Cai, Liyin, Liu, Xiaole, Wu, Hao, Xin, Fengxue, Zhang, Min, and Jiang, Min

Abstract

As one of the most abundant renewable resources, rice straw is an attractive lignocellulosic material for animal feeding or for the production of biochemical. An appropriate pre-treatment technique is essential for converting rice straw to rich fodder or biofuel. Based on previous work, Coprinopsis cinerea can grow on rice straw medium and therefore it is useful for the treatment of rice straw. However, little is known regarding its degradation systems and nutrition values. In this study, we firstly found that C. cinerea could grow rapidly on rice straw without any additives by the production of a series of enzymes (laccase, cellulase, and xylanase) and that the microstructure and contents of rice straw changed significantly after being treated by C. cinerea. We propose that a possible underlying mechanism exists in the degradation. Moreover, C. cinerea has a high nutrition value (23.5% crude protein and 22.2% total amino acids). Hence, fermented rice straw with mycelium could be a good animal feedstuff resource instead of expensive forage. The direct usage of C. cinerea treatment is expected to be a practical, cost-effective, and environmental-friendly approach for enhancing the nutritive value and digestibility of rice straw. [ABSTRACT FROM AUTHOR]

Published

2018

44. Impact of fungal hyphae on growth and dispersal of obligate anaerobic bacteria in aerated habitats

Author

Xiong, Bijing, Kleinsteuber, Sabine, Sträuber, Heike, Dusny, Christian, Harms, Hauke, Wick, Lukas, Xiong, Bijing, Kleinsteuber, Sabine, Sträuber, Heike, Dusny, Christian, Harms, Hauke, and Wick, Lukas

Abstract

Anoxic microsites arising in fungal biofilms may foster the presence of obligate anaerobes. Here, we analyzed whether and to which degree hyphae of Coprinopsis cinerea thriving in oxic habitats enable the germination, growth, and dispersal of the obligate anaerobic soil bacterium Clostridium acetobutylicum. Time-resolved optical oxygen mapping, microscopy, and metabolite analysis revealed the formation and persistence of anoxic circum hyphal niches, allowing for spore germination, growth, and fermentative activity of the obligate anaerobe in an otherwise inhabitable environment. Hypoxic liquid films containing 80% ± 10% of atmospheric oxygen saturation around single air-exposed hyphae thereby allowed for efficient clostridial dispersal amid spatially separated (>0.5 cm) anoxic sites. Hyphae hence may serve as good networks for the activity and spatial organization of obligate anaerobic bacteria in oxygenated heterogeneous environments such as soil.IMPORTANCE Although a few studies have reported on the presence of anoxic microniches in fungal biofilms, knowledge of the effects of fungal oxygen consumption on bacterial-fungal interactions is limited. Here, we demonstrate the existence and persistence of oxygen-free zones in air-exposed mycelia enabling spore germination, growth, fermentative activity, and dispersal of the obligate anaerobe. Our study points out a previously overlooked role of aerobic fungi in creating and bridging anoxic microniches in ambient oxic habitats. Air-exposed hyphae hence may act as a scaffold for activity and dispersal of strictly anaerobic microbes. Given the short-term tolerance of strict anaerobes to oxygen and reduced oxygen content in the mycosphere, hyphae can promote spatial organization of both obligate anaerobic and aerobic bacteria. Such finding may be important for a better understanding of previously observed co-occurrences of aerobes and anaerobes in well-aerated habitats such as upland soils.

Published

2022

45. pH distribution along growing fungal hyphae at microscale

Author

Xiong, Bijing, Stanley, C.E., Dusny, Christian, Schlosser, Dietmar, Harms, Hauke, Wick, Lukas, Xiong, Bijing, Stanley, C.E., Dusny, Christian, Schlosser, Dietmar, Harms, Hauke, and Wick, Lukas

Abstract

Creating unique microenvironments, hyphal surfaces and their surroundings allow for spatially distinct microbial interactions and functions at the microscale. Using a microfluidic system and pH-sensitive whole-cell bioreporters (Synechocystis sp. PCC6803) attached to hyphae, we spatially resolved the pH along surfaces of growing hyphae of the basidiomycete Coprinopsis cinerea. Time-lapse microscopy analysis of ratiometric fluorescence signals of >2400 individual bioreporters revealed an overall pH drop from 6.3 ± 0.4 (n = 2441) to 5.0 ± 0.3 (n = 2497) within 7 h after pH bioreporter loading to hyphal surfaces. The pH along hyphal surfaces varied significantly (p < 0.05), with pH at hyphal tips being on average ~0.8 pH units lower than at more mature hyphal parts near the entrance of the microfluidic observation chamber. Our data represent the first dynamic in vitro analysis of surface pH along growing hyphae at the micrometre scale. Such knowledge may improve our understanding of spatial, pH-dependent hyphal processes, such as the degradation of organic matter or mineral weathering.

Published

2022

46. The molecular mechanism of stipe cell wall extension for mushroom stipe elongation growth

Author

Zhonghua Liu, Sheng Yuan, Jingjing Bi, Xiao Liu, Jiangsheng Zhou, Liqin Kang, and Cuicui Liu

Subjects

chemistry.chemical_classification, 0303 health sciences, 030306 microbiology, Turgor pressure, Biology, Polysaccharide, biology.organism_classification, Microbiology, Cell wall, 03 medical and health sciences, chemistry.chemical_compound, Coprinopsis cinerea, Stipe (mycology), Chitin, chemistry, Chitinase, biology.protein, Biophysics, Elongation, 030304 developmental biology

Abstract

Stipe elongation growth is one of the remarkable characteristics of the growth and development of basidiomycete fruiting bodies. Stipe elongation is resulting from the lateral extension of stipe cells. The stipe cell is enclosed within a thin cell wall which must be loosened to expand the wall surface area for accommodation of the enlarged protoplast as the stipe cell elongates. In fungal cell walls, chitin molecules associate with each other by interchain hydrogen bonds to form chitin microfibrils which are cross-linked covalently to matrix polysaccharides. Early, some scientists proposed that stipe elongation was the result of enzymatic degradation of wall polysaccharides, whereas other researchers suggested that stipe elongation resulted from nonhydrolytic disruption of the hydrogen bonds by turgor pressure between wall polysaccharides. Recently, an extensometer was used to determine stipe wall extension for elucidation of the molecular mechanism of stipe elongation. In Coprinopsis cinerea, the native stipe cell wall is induced to extend by acidic buffers and the acid-induced native wall extension activity is located in the growing apical stipe region. A series of current experiments indicate that chitinases play a key role in the stipe wall extension, and β-glucanases mainly function in the wall remodeling for regulation of stipe wall expansibility to cooperate with chitinase to induce stipe wall extension. In addition, fungal expansin-like proteins can bind to chitin to enhance chitin hydrolysis, and their expression pattern is consistent with the stipe elongation growth, which is suggested to play an auxiliary role in the stipe wall extension.

Published

2021

47. Molecular Mechanism by Which the GATA Transcription Factor CcNsdD2 Regulates the Developmental Fate of

Author

Cuicui, Liu, Liqin, Kang, Miao, Lin, Jingjing, Bi, Zhonghua, Liu, and Sheng, Yuan

Subjects

sclerotium, primary hyphal knot, Coprinopsis cinerea, fungi, primordium, food and beverages, fruiting body, secondary hyphal knot, transcription factor, Research Article, light stimulation

Abstract

Coprinopsis cinerea has seven homologs of the Aspergillus nidulans transcription factor NsdD. Of these, CcNsdD1 and CcNsdD2 from C. cinerea show the best identities of 62 and 50% to A. nidulans NsdD, respectively. After 4 days of constant darkness cultivation, CcnsdD2, but not CcnsdD1, was upregulated on the first day of light/dark cultivation to induce fruiting bodies, and overexpression of CcnsdD2, but not CcnsdD1, produced more fruiting bodies under a light/dark rhythm. Although single knockdown of CcnsdD2 did not affect fruiting body production due to upregulation of its homolog CcnsdD1, the double-knockdown CcNsdD1/NsdD2-RNAi transformant showed defects in fruiting body formation under a light/dark rhythm. Knockdown of CcnsdD1/nsdD2 led to the differentiation of primary hyphal knots into sclerotia rather than secondary hyphal knots under a light/dark rhythm, similar to the differentiation of primary hyphal knots into sclerotia of the wild-type strain under darkness. The CcNsdD2-overexpressing transformant produced more primary hyphal knots, secondary hyphal knots, and fruiting bodies under a light/dark rhythm but only more primary hyphal knots and sclerotia under darkness. RNA-seq revealed that some genes reported previously to be involved in formation of hyphal knots and primordia, cyclopropane-fatty-acyl-phospholipid synthases cfs1-3, galectins cgl1-3, and hydrophobins hyd1-3 were downregulated in the CcNsdD1/NsdD2-RNAi transformant compared to the mock transformant. ChIP-seq and electrophoretic mobility shift assay demonstrated that CcNsdD2 bound to promoter regulatory sequences containing a GATC motif in cfs1, cfs2, cgl1, and hyd1. A molecular mechanism by which CcNsdD2 regulates the developmental fate of C. cinerea under dark or light conditions is proposed.

Published

2022

48. Structure of the Catalytic Domain of α- l-Arabinofuranosidase from Coprinopsis cinerea, CcAbf62A, Provides Insights into Structure-Function Relationships in Glycoside Hydrolase Family 62.

Author

Tonozuka, Takashi, Tanaka, Yutaro, Okuyama, Shunsaku, Miyazaki, Takatsugu, Nishikawa, Atsushi, and Yoshida, Makoto

Abstract

α- l-Arabinofuranosidases, belonging to the glycoside hydrolase family (GH) 62, hydrolyze the α-1,2- or α-1,3-bond to liberate l-arabinofuranose from the xylan backbone. Here, we determined the structure of the C-terminal catalytic domain of CcAbf62A, a GH62 α- l-arabinofuranosidase from Coprinopsis cinerea. CcAbf62A is composed of a five-bladed β-propeller, as observed in other GH62 enzymes. The structure near the active site of CcAbf62A is also highly homologous to those of other GH62 enzymes. However, a calcium atom in the catalytic center interacts with an asparagine residue, Asn279, which is not found in other GH62 enzymes. In addition, some residues in subsites +3R, +2NR, +3NR, and +4NR of CcAbf62A are not conserved in other GH62 enzymes. In particular, a histidine residue, His221, is uniquely observed in subsite +2NR of CcAbf62A, which is likely to influence the substrate specificity. The results obtained here suggest that the amino acid residues that interact with the xylan backbone vary among the GH62 enzymes, despite the high similarity of their overall structures. [ABSTRACT FROM AUTHOR]

Published

2017

49. Characterization of the complete mitochondrial genome of Coprinellus micaceus, a wild saprobic mushroom in China

Author

Wang Shurong, Jiang-ping Zhang, Yi-rong He, Chang Mingchang, and Meng Junlong

Subjects

0106 biological sciences, 0301 basic medicine, Genetics, Mushroom, Mitochondrial DNA, mitogenome, biology, Phylogenetic tree, Fungi, food and beverages, Coprinellus micaceus, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Coprinopsis cinerea, 030104 developmental biology, evolution, Molecular Biology, Gene, Mitogenome Announcement, GC-content, Research Article

Abstract

The Glistening Inkcap (Coprinellus micaceus) is a wild saprobic mushroom in China. In this study, we assembled and annotated its complete mitochondrial genome using raw data sequenced through Illumina NovaSeq 6000 platform (Illumina, San Diego, CA). The length of the C. micaceus mitochondrial genome is 65,450 bp with 33.05% GC content. Totally, 41 genes, including 14 protein-coding genes, 25 tRNAs and 2 rRNAs were identified in the mitochondrial genome. Phylogenetic analysis showed that the mitochondrial genome relationship between C. micaceus and Coprinopsis cinerea was the closest.

Published

2021

50. Comparative study of β-glucan-degrading enzymes from Coprinopsis cinerea for their capacities to induce stipe cell wall extension

Author

Liqin Kang, Rui Wang, Xiao Liu, Jiangsheng Zhou, Cuicui Liu, Sheng Yuan, Zhonghua Liu, and Xingwei Zhang

Subjects

Spectrometry, Mass, Electrospray Ionization, Autolysis (biology), beta-Glucans, Chitin, 02 engineering and technology, Biochemistry, Fungal Proteins, Cell wall, 03 medical and health sciences, Cell Wall, Tandem Mass Spectrometry, Structural Biology, RNA, Messenger, Molecular Biology, β glucosidase, Volume concentration, 030304 developmental biology, Glucan, chemistry.chemical_classification, 0303 health sciences, biology, Glucan Endo-1,3-beta-D-Glucosidase, Chitinases, General Medicine, Hydrogen-Ion Concentration, 021001 nanoscience & nanotechnology, biology.organism_classification, Cell biology, Coprinopsis cinerea, Enzyme, Solubility, chemistry, Carbohydrate Metabolism, Elongation, Agaricales, 0210 nano-technology

Abstract

We previously reported endo-β-1,3-glucanase ENG in combination with β-glucosidase BGL2 at low concentration induced stipe cell wall extension. This study further explored ENG could be replaced by endo-β-1,3(4)-glucanase ENG16A in combination with BGL2 to induce stipe cell wall extension; similarly, BGL2 could be replaced by β-glucosidase BGL1 to cooperate with ENG to induce stipe cell wall extension. However, ENG could not be replaced by exo-β-1,3-glucanase EXG in combination with BGL2 to induce stipe cell wall extension, although EXG alone released higher level of soluble sugars from the stipe cell walls during the reconstituted wall extension than that released from the stipe cell walls by a combination of ENG16A or ENG and BGL2 or BGL1, which was different from chitinase-mediated stipe cell wall extension. These results indicate endo-β-1,3-glucanases loosen the stipe cell wall, whereas exo-β-1,3-glucanases and β-glucosidases play a synergistic role to maintain a low and efficient concentration of endo-β-1,3-glucanases for stipe cell wall extension. Furthermore, ENG was expressed at a very high level in the matured pilei, in contrast, ENG16A was expressed at a very high level in the elongating apical stipe. Therefore, ENG16A might be involved in stipe elongation growth, while ENG might participate in autolysis of pilei.

Published

2020