Your search keyword '"White-rot fungi"' showing total 1,329 results

1. Fungal biorefinery for simultaneous production of enzymes and bioconversion of agro-industrial residues into renewable sugars and phenolic compounds.

Author

da Silva Soares, Thaiany, Haminiuk, Charles Windson Isidoro, and Maciel, Giselle Maria

Abstract

Agro-industrial residues have progressed from an environmental concern toward sustainable and cost-effective sources of biopolymers and value-added chemicals. However, pre-treatments are often required for efficient extraction of the desired products from these residues. Fungal biorefinery is an interesting approach for the bioconversion of various biomasses into multiple products in a single batch. This study focuses on the utilization of six agro-industrial residues (grape pomace, sugarcane bagasse, rice husks, spent coffee grounds, residual diatomaceous earth, and wastepaper) in statistically designed combinations to evaluate the production of enzymes and the release of reducing sugars and phenolic compounds by the fungi Trametes villosa and Pycnoporus sanguineus, inoculated as mycelial pellets or mycelial discs. Both fungi demonstrated concurrent production of cellulases, pectinases, and laccases in semi-solid media, releasing sugars and phenolics from the substrates. However, each fungus exhibited distinct responses to different media compositions. P. sanguineus was the best cellulase producer, achieving a filter paper activity of 0.58 U mL−1 when inoculated as mycelial discs. T. villosa, on the other hand, excelled in producing pectinases (7.58 U mL−1 as mycelial discs) and laccases (1438 U L−1 as mycelial pellets). The highest concentrations of reducing sugars and phenolic compounds were found in extracts derived from P. sanguineus mycelial discs (37.12 mg mL−1) and T. villosa mycelial discs (0.261 mg GAE mL−1), respectively. Grape pomace and the addition of copper sulfate in the culture media consistently demonstrated their beneficial impact on the overall process. [ABSTRACT FROM AUTHOR]

Published

2024

2. Large-scale phylogenomic insights into the evolution of the Hymenochaetales.

Author

Zhao, Heng, Wu, Fang, Maurice, Sundy, Pavlov, Igor N., Krutovsky, Konstantin V., Liu, Hong-Gao, Yuan, Yuan, and Dai, Yu-Cheng

Subjects

*MOLECULAR clock, *WOOD, *GENETIC speciation, *GENOMES, *FAMILY relations

Abstract

The Hymenochaetales is an order with most species as wood-inhabiting fungi that have high phylogenetic complexity and morphological diversity. Species in this order play important roles in forest ecosystems and include wood decomposers, pathogens, and those that form ectomycorrhizal associations. However, we have limited knowledge of the patterns of large-scale evolutionary history of the order. In this study, using 171 genomes, including 113 newly assembled, we reconstructed the phylogenomic relationships, divergence times, biogeographic patterns, morphological evolution of basidiomata, and patterns of speciation/extinction in the Hymenochaetales. The phylogenomic relationships of 12 families within the Hymenochaetales suggested that 10 families can be accepted, and 2 families rejected. Molecular clock dating analyses suggested that the Hymenochaetales possibly started a rapid family-wide and genus-wide radiation during the early Cretaceous to late Jurassic and Cretaceous, respectively. Reconstruction of the ancestral state implied that Hymenochaetales probably originated from the temperate regions of Asia, with the basidiomata of the common ancestor likely being a corticioid species that rapidly transformed between the early Cretaceous and late Jurassic, coinciding with radiations at the family level. Furthermore, we detected a gradually increasing trend of speciation, extinction, and net diversification rates. We provided large-scale genomes of the Hymenochaetales and revealed evolutionary history patterns, which are key to understanding the evolution of fungi. [ABSTRACT FROM AUTHOR]

Published

2024

3. Large-scale phylogenomic insights into the evolution of the Hymenochaetales

Author

Heng Zhao, Fang Wu, Sundy Maurice, Igor N. Pavlov, Konstantin V. Krutovsky, Hong-Gao Liu, Yuan Yuan, and Yu-Cheng Dai

Subjects

Ancestral state, biogeographic patterns, Hymenochaetaceae, molecular clock dating, white-rot fungi, wood-decay fungi, Biology (General), QH301-705.5, Microbiology, QR1-502

Abstract

The Hymenochaetales is an order with most species as wood-inhabiting fungi that have high phylogenetic complexity and morphological diversity. Species in this order play important roles in forest ecosystems and include wood decomposers, pathogens, and those that form ectomycorrhizal associations. However, we have limited knowledge of the patterns of large-scale evolutionary history of the order. In this study, using 171 genomes, including 113 newly assembled, we reconstructed the phylogenomic relationships, divergence times, biogeographic patterns, morphological evolution of basidiomata, and patterns of speciation/extinction in the Hymenochaetales. The phylogenomic relationships of 12 families within the Hymenochaetales suggested that 10 families can be accepted, and 2 families rejected. Molecular clock dating analyses suggested that the Hymenochaetales possibly started a rapid family-wide and genus-wide radiation during the early Cretaceous to late Jurassic and Cretaceous, respectively. Reconstruction of the ancestral state implied that Hymenochaetales probably originated from the temperate regions of Asia, with the basidiomata of the common ancestor likely being a corticioid species that rapidly transformed between the early Cretaceous and late Jurassic, coinciding with radiations at the family level. Furthermore, we detected a gradually increasing trend of speciation, extinction, and net diversification rates. We provided large-scale genomes of the Hymenochaetales and revealed evolutionary history patterns, which are key to understanding the evolution of fungi.

Published

2024

4. Butylated Hydroxytoluene and Ethylenediaminetetraacetic Acid Combined with Cedarwood Oil as Wood Treatments for Protection from Subterranean Termites and Wood-Decaying Fungi

Author

Fred J. Eller, Grant T. Kirker, Mark E. Mankowski, and Gordon W. Selling

Subjects

juniperus virginiana, butylated hydroxytoluene, edta, reticulitermes, white-rot fungi, brown-rot fungi, eastern red cedar, wood preservation, Biotechnology, TP248.13-248.65

Abstract

The effects of the antioxidant, butylated hydroxytoluene (BHT), and the metal chelator, ethylenediaminetetraacetic acid (EDTA) in combination with cedarwood oil (CWO) were investigated for wood preservation against subterranean termites as well as two species of white-rot decay fungi and two species of brown-rot decay fungi. Vacuum pressure impregnation was used to treat wood blocks. Resistance of the treated wood test blocks was evaluated using a no-choice bioassay for termites and a soil bottle assay wood decay fungi. Eight treatments were tested: H2O only; BHT only; EDTA only; BHT with EDTA; CWO only; CWO with EDTA; CWO with BHT; and CWO with BHT plus EDTA. For termites, the lowest percentage wood mass losses were for the EDTA, BHT, CWO, and CWO/EDTA treatments, all of which were statistically equivalent. Correspondingly, these treatments all had the highest termite mortalities at 100%. The four species of decay fungi were affected differently by the wood treatments; however, overall CWO and EDTA gave the best protection against wood mass loss. The addition of BHT did not decrease mass loss.

Published

2024

5. Dietary incorporation of brown seaweed spent oyster mushroom substrate alters growth performance, physiological responses and meat quality parameters in Boschveld roosters

Author

Godfrey Mhlongo and Caven M. Mnisi

Subjects

Blood parameters, Chickens, Meat quality, Performance, Seaweed, White-rot fungi, Medicine, Science

Abstract

Abstract Use of brown seaweed (Ecklonia maxima) as a nutraceutical source in indigenous chicken diets is limited by high dietary fibre levels. Inoculating seaweeds with oyster mushroom (Pleurotus ostreatus) spawn (OMS) could enhance the utility of the spent mushroom substrate (SMS). This study investigated the effect of feeding incremental levels of brown seaweed SMS on growth performance, physiological responses, and meat quality parameters in Boschveld roosters. A total of 324, 4-week-old Boschveld roosters were weighed and randomly allotted to 36 pens (9 birds per pen) to produce six replicates per dietary treatment. The diets were formulated as follows: a standard grower diet (CON); and CON containing 150 g/kg of brown seaweed inoculated with OMS at 0 (SMS0), 20 (SMS20), 30 (SMS30), 40 (SMS40) and 50% (SMS50). Birds fed diet CON had the least feed intake (p 0.05) were observed for breast meat quality parameters. In conclusion, feeding brown seaweed SMS improved growth performance and slaughter weight, altered some blood parameters and internal organs, without affecting breast meat quality of Boschveld roosters. Based on the quadratic response for BWG, the optimum OMS level was deduced at 20% in a brown seaweed-based Boschveld rooster diet.

Published

2024

6. Enhanced biodegradation of benzo[a]pyrene with Trametes versicolor stimulated by citric acid.

Author

Zhang, Zhou, Wang, Litao, Liang, Hong, Chen, Guanyu, Tao, Huayu, Wu, Jing, and Gao, Dawen

Abstract

Polycyclic aromatic hydrocarbons (PAHs) are a class of persistent organic pollutants with carcinogenic, mutagenic and teratogenic effects. The white-rot fungi in the fungal group have significant degradation ability for high molecular weight organic pollutants. However, exogenous fungi are easily antagonized by indigenous microorganisms. Low molecular weight organic acids, a small molecular organic matter secreted by plants, can provide carbon sources for soil microorganisms. Combining organic acids with white rot fungi may improve the nutritional environment of fungi. In this study, immobilized Trametes versicolor was used to degrade benzo[a]pyrene in soil, and its effect on removing benzo[a]pyrene in soil mediated by different low molecular weight organic acids was investigated. The results showed that when the degradation was 35 days, the removal effect of the experimental group with citric acid was the best, reaching 43.7%. The degradation effect of Trametes versicolor on benzo[a]pyrene was further investigated in the liquid medium when citric acid was added, and the effects of citric acid on the biomass, extracellular protein concentration and laccase activity of Trametes versicolor were investigated by controlling different concentrations of citric acid. In general, citric acid can act as a carbon source for Trametes versicolor and promote its extracellular protein secretion and laccase activity, thereby accelerating the mineralization of benzo[a]pyrene by Trametes versicolor. Therefore, citric acid can be used as a biostimulant in the remediation of PAHs contaminated soil with Trametes versicolor. [ABSTRACT FROM AUTHOR]

Published

2024

7. Butylated Hydroxytoluene and Ethylenediaminetetraacetic Acid Combined with Cedarwood Oil as Wood Treatments for Protection from Subterranean Termites and Wood-Decaying Fungi.

Author

Eller, Fred J., Kirker, Grant T., Mankowski, Mark E., and Selling, Gordon W.

Subjects

*BUTYLATED hydroxytoluene, *WOOD-decaying fungi, *PRESERVATION of wood, *WOOD, *ETHYLENEDIAMINETETRAACETIC acid

Abstract

The effects of the antioxidant, butylated hydroxytoluene (BHT), and the metal chelator, ethylenediaminetetraacetic acid (EDTA) in combination with cedarwood oil (CWO) were investigated for wood preservation against subterranean termites as well as two species of white-rot decay fungi and two species of brown-rot decay fungi. Vacuum pressure impregnation was used to treat wood blocks. Resistance of the treated wood test blocks was evaluated using a no-choice bioassay for termites and a soil bottle assay wood decay fungi. Eight treatments were tested: H2O only; BHT only; EDTA only; BHT with EDTA; CWO only; CWO with EDTA; CWO with BHT; and CWO with BHT plus EDTA. For termites, the lowest percentage wood mass losses were for the EDTA, BHT, CWO, and CWO/EDTA treatments, all of which were statistically equivalent. Correspondingly, these treatments all had the highest termite mortalities at 100%. The four species of decay fungi were affected differently by the wood treatments; however, overall CWO and EDTA gave the best protection against wood mass loss. The addition of BHT did not decrease mass loss. [ABSTRACT FROM AUTHOR]

Published

2024

8. Two Zn2Cys6-type transcription factors respond to aromatic compounds and regulate the expression of laccases in the whiterot fungus Trametes hirsuta.

Author

Chenkai Wang, Xinlei Zhang, Kun Wu, Shenglong Liu, Xiang Li, Chaona Zhu, Yazhong Xiao, Zemin Fang, and Juanjuan Liu

Subjects

*TRANSCRIPTION factors, *ENDOENZYMES, *ISOTHERMAL titration calorimetry, *TOLUIDINE, *AROMATIC compounds, *LACCASE

Abstract

White-rot fungi differentially express laccases when they encounter aromatic compounds. However, the underlying mechanisms are still being explored. Here, proteomics analysis revealed that in addition to increased laccase activity, proteins involved in sphingolipid metabolism and toluene degradation as well as some cytochrome P450s (CYP450s) were differentially expressed and significantly enriched during 48 h of o-toluidine exposure, in Trametes hirsuta AH28-2. Two Zn2Cys6-type transcription factors (TFs), TH8421 and TH4300, were upregulated. Bioinformatics docking and isothermal titration calorimetry assays showed that each of them could bind directly to o-toluidine and another aromatic monomer, guaiacol. Binding to aromatic compounds promoted the formation of TH8421/TH4300 heterodimers. TH8421 and TH4300 silencing in T. hirsuta AH28-2 led to decreased transcriptional levels and activities of LacA and LacB upon o-toluidine and guaiacol exposure. EMSA and ChIP-qPCR analysis further showed that TH8421 and TH4300 bound directly with the promoter regions of lacA and lacB containing CGG or CCG motifs. Furthermore, the two TFs were involved in direct and positive regulation of the transcription of some CYP450s. Together, TH8421 and TH4300, two key regulators found in T. hirsuta AH28-2, function as heterodimers to simultaneously trigger the expression of downstream laccases and intracellular enzymes. Monomeric aromatic compounds act as ligands to promote heterodimer formation and enhance the transcriptional activities of the two TFs. [ABSTRACT FROM AUTHOR]

Published

2024

9. Fungal behavior and recent developments in biopulping technology.

Author

Bari, Ehsan, Far, Mohammad Ghorbanian, Daniel, Geoffrey, Bozorgzadeh, Younes, Ribera, Javier, Aghajani, Hamed, and Hosseinpourpia, Reza

Subjects

*WOOD chips, *WOOD-decaying fungi, *CIRCULAR economy, *LIGNINS, *ENERGY consumption, *CELLULOSE

Abstract

Biological pretreatment of wood chips by fungi is a well-known approach prior to mechanical- or chemical pulp production. For this biological approach, a limited number of white-rot fungi with an ability to colonize and selectively degrade lignin are used to pretreat wood chips allowing the remaining cellulose to be processed for further applications. Biopulping is an environmentally friendly technology that can reduce the energy consumption of traditional pulping processes. Fungal pretreatment also reduces the pitch content in the wood chips and improves the pulp quality in terms of brightness, strength, and bleachability. The bleached biopulps are easier to refine compared to pulps produced by conventional methodology. In the last decades, biopulping has been scaled up with pilot trials towards industrial level, with optimization of several intermediate steps and improvement of economic feasibility. Nevertheless, fundamental knowledge on the biochemical mechanisms involved in biopulping is still lacking. Overall, biopulping technology has advanced rapidly during recent decades and pilot mill trials have been implemented. The use of fungi as pretreatment for pulp production is in line with modern circular economy strategies and can be implemented in existing production plants. In this review, we discuss some recent advances in biopulping technology, which can improve mechanical-, chemical-, and organosolv pulping processes along with their mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

10. Coriolopsis trogii MUT3379: A Novel Cell Factory for High-Yield Laccase Production.

Author

Mellere, Luca, Bellasio, Martina, Berini, Francesca, Marinelli, Flavia, Armengaud, Jean, and Beltrametti, Fabrizio

Subjects

TANDEM mass spectrometry, INDUSTRIAL enzymology, OXIDASES, MANUFACTURING processes, WOOD, LACCASE

Abstract

Coriolopsis trogii is a basidiomycete fungus which utilizes a large array of lignin-modifying enzymes to colonize and decompose dead wood. Its extracellular enzymatic arsenal includes laccases, i.e., polyphenol oxidases of relevant interest for different industrial applications thanks to their ability to oxidize a diverse range of natural and synthetic compounds. In this work, the production of laccases in C. trogii MUT3379 was explored and improved. From an initial production of ca. 10,000 U L−1, the fermentation process was gradually optimized, reaching a final yield of ca. 200,000 U L−1. An SDS-PAGE analysis of the secretome highlighted the presence of a main protein of ca. 60 kDa showing laccase activity, which was designated as Lac3379-1 once its primary sequence was established by tandem mass spectrometry. The characterization of Lac3379-1 revealed a remarkable enzymatic stability in the presence of surfactants and solvents and a diversified activity on a broad range of substrates, positioning it as an interesting tool for diverse biotechnological applications. The high-yield and robust production process indicates C. trogii MUT3379 as a promising cell factory for laccases, offering new perspectives for industrial applications of lignin-modifying enzymes. [ABSTRACT FROM AUTHOR]

Published

2024

11. Dietary incorporation of brown seaweed spent oyster mushroom substrate alters growth performance, physiological responses and meat quality parameters in Boschveld roosters.

Author

Mhlongo, Godfrey and Mnisi, Caven M.

Subjects

*PLEUROTUS ostreatus, *MEAT quality, *SUBSTRATES (Materials science), *ROOSTERS, *LEUCOCYTES, *MARINE algae

Abstract

Use of brown seaweed (Ecklonia maxima) as a nutraceutical source in indigenous chicken diets is limited by high dietary fibre levels. Inoculating seaweeds with oyster mushroom (Pleurotus ostreatus) spawn (OMS) could enhance the utility of the spent mushroom substrate (SMS). This study investigated the effect of feeding incremental levels of brown seaweed SMS on growth performance, physiological responses, and meat quality parameters in Boschveld roosters. A total of 324, 4-week-old Boschveld roosters were weighed and randomly allotted to 36 pens (9 birds per pen) to produce six replicates per dietary treatment. The diets were formulated as follows: a standard grower diet (CON); and CON containing 150 g/kg of brown seaweed inoculated with OMS at 0 (SMS0), 20 (SMS20), 30 (SMS30), 40 (SMS40) and 50% (SMS50). Birds fed diet CON had the least feed intake (p < 0.05) than all the other SMS treatment levels in weeks 7, 8, 12, 14 and 15. Diet SMS40 promoted higher (p < 0.05) body weight gain (BWG) than CON in weeks 6, 7, 9 and 14. Gain-to-feed ratio linearly increased in weeks 7 [R2 = 0.288; p = 0.010], 11 [R2 = 0.581, p = 0.0001] and 14 [R2 = 0.389, p = 0.004], respectively. Quadratic responses (p < 0.05) were observed for BWG in week 5, white blood cells, heterophils, platelets, lymphocytes, monocytes, and relative spleen and large intestine weights as OMS levels increased. Linear increases were recorded for slaughter [R2 = 0.197, p = 0.017] and breast weights [R2 = 0.197, p = 0.020] as OMS levels increased. Diet SMS0 promoted higher (p < 0.05) relative caeca weights than the CON and SMS treatment groups. Neither quadratic nor linear responses (p > 0.05) were observed for breast meat quality parameters. In conclusion, feeding brown seaweed SMS improved growth performance and slaughter weight, altered some blood parameters and internal organs, without affecting breast meat quality of Boschveld roosters. Based on the quadratic response for BWG, the optimum OMS level was deduced at 20% in a brown seaweed-based Boschveld rooster diet. [ABSTRACT FROM AUTHOR]

Published

2024

12. Effects of Orange Peel Extract on Laccase Activity and Gene Expression in Trametes versicolor.

Author

Vandelook, Simon, Bassleer, Berend, Elsacker, Elise, and Peeters, Eveline

Subjects

*ORANGE peel, *FRUIT extracts, *TRAMETES versicolor, *GENE expression, *LACCASE, *ISOENZYMES

Abstract

The genome of Trametes versicolor encodes multiple laccase isozymes, the expression of which is responsive to various conditions. Here, we set out to investigate the potential of orange peel extract as an inducer of laccase production in this white-rot fungus, in comparison to the previously identified inducing chemical compound, veratryl alcohol. For four geographically distinct T. versicolor strains, a positive correlation has been observed between their oxidative activity and incubation time in liquid cultures. The addition of 20% orange peel extract or 5 mM veratryl alcohol caused a rapid increase in the oxidative potential of T. versicolor M99 after 24 h, with a more pronounced effect observed for the orange peel extract. To elucidate the underlying molecular mechanisms of the induced laccase activity, a transcriptional gene expression analysis was performed for the seven individual laccase genes in T. versicolor, revealing the upregulation of several laccase genes in response to the addition of each inducer. Notably, the gene encoding TvLac5 demonstrated a substantial upregulation in response to the addition of 20% orange peel extract, likely contributing to the observed increase in its oxidative potential. In conclusion, our results demonstrate that orange peels are a promising agro-industrial side stream for implementation as inducing agents in large-scale laccase production with T. versicolor. [ABSTRACT FROM AUTHOR]

Published

2024

13. Production and immobilization of laccases from monoculture and co-culture of Trametes villosa and Pycnoporus sanguineus for sustainable biodegradation of ciprofloxacin.

Author

Braga, Dayane Moreira, Brugnari, Tatiane, Haminiuk, Charles Windson Isidoro, and Maciel, Giselle Maria

Subjects

*LACCASE, *ENZYME stability, *CIPROFLOXACIN, *BIODEGRADATION, *AMMONIUM sulfate, *DRINKING water

Abstract

The presence of antibiotics in water systems and drinking water has detrimental effects on various organisms and poses health risks to both animals and humans. This study describes a sustainable approach using laccases to remove ciprofloxacin from water solutions. Laccases produced by monoculture of Trametes villosa and in co-culture with Pycnoporus sanguineus were immobilized using the method of cross-linked enzyme aggregates (CLEAs). The immobilization process was statistically optimized, and the biocatalysts were characterized and applied for biodegradation of ciprofloxacin at different concentrations. Laccase production was enhanced in co-culture conditions, yielding isoforms of molecular masses ranging from 55 to 45 kDa. Optimum conditions for immobilizing laccases by CLEAs were achieved with ammonium sulfate as a precipitant and glutaraldehyde as a cross-linker. Immobilization improved the thermal stability of the enzymes at 40 °C and 55 °C, and both forms of laccase CLEAs retained approximately 38% of their initial activity after five reuse cycles. Free and immobilized laccases demonstrated comparable efficiency in removing ciprofloxacin from aqueous solutions (at 2.5 mg L−1) with a 53–62% removal rate in the presence of 4-hydroxybenzoic acid as a natural redox mediator. The degradation of ciprofloxacin by laccases also reduced its antimicrobial activity against Escherichia coli. [Display omitted] • Co-culture of Trametes villosa with Pycnoporus sanguineus enhances laccase production. • Laccases immobilized as CLEAS exhibited improved thermal stability and reusability. • Free and immobilized laccases effectively catalyzed the degradation of ciprofloxacin • Enzymatic biodegradation of ciprofloxacin reduced its action against Escherichia coli. [ABSTRACT FROM AUTHOR]

Published

2024

14. Effects of spent substrate of oyster mushroom (Pleurotus ostreatus) on ruminal fermentation, microbial community and growth performance in Hu sheep

Author

Mu-Long Lu, Guo-Hong Yuan, Halidai Rehemujiang, Chang-Chang Li, Li-Hong Hu, Ping-Ping Duan, Li-Dong Zhang, Qi-Yu Diao, Kai-Dong Deng, and Gui-Shan Xu

Subjects

white-rot fungi, fungal pretreatment, gossypol, rumen microorganisms, spent mushroom substrate, Microbiology, QR1-502

Abstract

IntroductionThe study aimed to evaluate the effects of Pleurotus Spent Mushroom Substrate (P.SMS) on the rumen microbiota, encompassing bacteria and fungi, as well as their interactions in Hu sheep.MethodsA total of forty-five 3-month-old Hu sheep were randomly assigned to five groups. Each group was fed diets in which whole-plant corn silage (WPCS) was substituted with P.SMS at varying levels: 0% (CON), 5% (PSMS5), 10% (PSMS10), 15% (PSMS15), or 20% (PSMS20).ResultsThe results indicated that higher proportions of P.SMS during the experimental period might have a detrimental effect on feed utilization efficiency, kidney function, and blood oxygen-carrying capacity. Notably, moderate levels of P.SMS, specifically below 15%, were associated with improvements in rumen NH3-N levels and absorption capacity. The results indicated that (1) PSMS20 exhibited a significantly higher feed-to-gain ratio compared to CON (P

Published

2024

15. Sustainable Innovations and Production Strategies of White Rot Fungi-Derived Laccase

Author

Das, Junmoni, Badak, Marjum, Singh, R. K., Gupta, Juhi, editor, and Verma, Akarsh, editor

Published

2024

16. Catalytic function of the laccase enzyme in response to chlorpyrifos and 2,4-dichlorophenoxyacetic acid: behavior in controlled and simulated environments

Author

Ayala Schimpf, Alan Rolando, Ortellado, Laura Ester, Gamarra, Marcelo Daniel, Fonseca, María Isabel, and Zapata, Pedro Darío

Published

2024

17. A novel laccase from Trametes polyzona with high performance in the decolorization of textile dyes

Author

Daniela Bucchieri, Marco Mangiagalli, Francesca Martani, Pietro Butti, Marina Lotti, Immacolata Serra, and Paola Branduardi

Subjects

Trametes polyzona, Laccase, Laccase mediator system, Acetosyringone, White-rot fungi, Textile dyes, Biotechnology, TP248.13-248.65, Microbiology, QR1-502

Abstract

Abstract Laccases are multicopper oxidases able to oxidize several phenolic compounds and find application in numerous industrial applications. Among laccase producers, white-rot fungi represent a valuable source of multiple isoforms and isoenzymes of these multicopper oxidases. Here we describe the identification, biochemical characterization, and application of laccase 2 from Trametes polyzona (TP-Lac2), a basidiomycete fungus emerged among others that have been screened by plate assay. This enzyme has an optimal temperature of 50 °C and in acidic conditions it is able to oxidize both phenolic and non-phenolic compounds. The ability of TP-Lac2 to decolorize textile dyes was tested in the presence of natural and synthetic mediators at 30 °C and 50 °C. Our results indicate that TP-Lac2 most efficiently decolorizes (decolorization rate > 75%) malachite green oxalate, orange G, amido black10B and bromocresol purple in the presence of acetosyringone and 2,2′-azinobis (3-ethylbenzthiazoline-6-sulfonate)—ABTS. Overall, the laccase mediator system consisting of TP-Lac2 and the natural mediator acetosyringone has potential as an environmentally friendly alternative for wastewater treatment in the textile industry.

Published

2024

18. Phenothiazines Rapidly Induce Laccase Expression and Lignin-Degrading Properties in the White-Rot Fungus Phlebia radiata

Author

Hirakawa, Matthew P, Rodriguez, Alberto, Tran-Gyamfi, Mary B, Light, Yooli K, Martinez, Salvador, Diamond-Pott, Henry, Simmons, Blake A, and Sale, Kenneth L

Subjects

Microbiology, Biological Sciences, white-rot fungi, laccase, lignin, phenothiazine

Abstract

Phlebia radiata is a widespread white-rot basidiomycete fungus with significance in diverse biotechnological applications due to its ability to degrade aromatic compounds, xenobiotics, and lignin using an assortment of oxidative enzymes including laccase. In this work, a chemical screen with 480 conditions was conducted to identify chemical inducers of laccase expression in P. radiata. Among the chemicals tested, phenothiazines were observed to induce laccase activity in P. radiata, with promethazine being the strongest laccase inducer of the phenothiazine-derived compounds examined. Secretomes produced by promethazine-treated P. radiata exhibited increased laccase protein abundance, increased enzymatic activity, and an enhanced ability to degrade phenolic model lignin compounds. Transcriptomics analyses revealed that promethazine rapidly induced the expression of genes encoding lignin-degrading enzymes, including laccase and various oxidoreductases, showing that the increased laccase activity was due to increased laccase gene expression. Finally, the generality of promethazine as an inducer of laccases in fungi was demonstrated by showing that promethazine treatment also increased laccase activity in other relevant fungal species with known lignin conversion capabilities including Trametes versicolor and Pleurotus ostreatus.

Published

2023

19. The potential of white and soft-rot fungi for biodegradation of multi-walled carbon nanotubes (MWCNTs): characterization and enzyme analysis.

Author

Maroof, Simin, Moghimi, Hamid, Ghobad-Nejhad, Masoomeh, and Taheri, Ramezan Ali

Subjects

*MULTIWALLED carbon nanotubes, *LACCASE, *TRANSMISSION electron microscopes, *MANGANESE peroxidase, *SCANNING electron microscopes, *SURFACE charges

Abstract

Multi-walled carbon nanotubes (MWCNTs) have significant environmental concerns for soil, water and ecosystems. Since their harmful effects on human health, including respiratory disease, they are considered dangerous substances. Thus, it is required to discover a constructive solution to decrease of MWCNT toxicity. Due to their high degradability, white rot and soft rot fungi have been used in the biodegradation of various pollutants. In this study, we evaluated the ability of native Iranian white and soft rot fungi to degrade MWCNTs mainly by means of dynamic light scattering (DLS) and surface charge measurement. In this regard, growth kinetics, CO2 and protein production, size, surface charge and pH change were measured. Continuous Raman spectroscopy, scanning electron microscope (SEM) and transmission electron microscope (TEM) imaging were carried out to detect the process of degradation. The results showed that the morphology, arrangement, size and diameter of MWCNTs were modified due to fungal degradation. The cytotoxicity of treated MWCNTs was determined by the MTT test. The results indicated that native Iranian white and soft rot fungi have a significant ability for degradation of MWCNTs. Furthermore, it could be concluded that fungal treatment could reduce the toxicity of MWCNTs and the best result was achieved in 500 ppm MWCNTs for Trichoderma sp. The activities of oxidative enzymes such as laccase, manganese peroxidase (MnP) and lignin peroxidase (LiP) were measured to determine the mechanism of degradation. Enzyme assays have suggested that these oxidising enzymes especially laccase might play a key role in the degradation of MWCNTs in white rot and soft rot fungi. The overall results confirmed the reproductive ability of Trichoderma sp. WF29 as a soft rot and two white rot fungi Irpex lacteus WF36 and Trametes versicolor to degrade MWCNT. [ABSTRACT FROM AUTHOR]

Published

2024

20. Revisiting the phylogeny and taxonomy of the genus Sidera (Hymenochaetales, Basidiomycota) with particular emphasis on S. vulgaris.

Author

Fryssouli, Vassiliki, Polemis, Elias, Typas, Milton A., and Zervakis, Georgios I.

Subjects

*BIOLOGICAL classification, *BASIDIOMYCOTA, *PHYLOGENY, *RECOMBINANT DNA

Abstract

The genus Sidera (Hymenochaetales, Basidiomycota) comprises white-rot, mono- or dimitic fungi with poroid or hydnoid hymenophore. It has a worldwide distribution albeit with fewer species present in the Southern Hemisphere. Although recent studies revealed the existence of several new Sidera species, there are still taxonomic inconsistencies and obscure phylogenetic relationships amongst certain taxa of the genus. In this work, a large number of Sidera collections were used to obtain an updated phylogeny, based on ITS and 28S rDNA sequences by including new material from Mediterranean Europe. The monophyly of the genus was strongly supported and all species with poroid hymenophore formed a highly-supported lineage with two major subclades. In total, 23 putative species were recognised. Amongst those, five are considered to possibly represent entities new to science, but further work is required since they are represented by single specimens or environmental sequences. Examined collections originally named S. lenis from southern Europe were grouped within S. vulgaris. Similarly, several collections under various names were hereby identified as S. vulgaris, including those of the recently described species S. tibetica. Furthermore, a critical discussion (based on morphoanatomical findings) is made on the key features that could be used to distinguish S. lenis from S. vulgaris. [ABSTRACT FROM AUTHOR]

Published

2024

21. Biologically active secondary metabolites from white-rot fungi.

Author

Pinar, Orkun, Rodriguez-Couto, Susana, Hassane, Abdallah M. A., and Jeelani, Ishtiaq

Subjects

*METABOLITES, *BIOACTIVE compounds, *MICROORGANISMS, *ANTI-infective agents, *ANTINEOPLASTIC agents

Abstract

In recent years, there has been a considerable rise in the production of novel metabolites derived from fungi compared to the ones originating from bacteria. These organic substances are utilized in various sectors such as farming, healthcare, and pharmaceutical. Since all dividing living cells contain primary metabolites, secondary metabolites are synthesized by utilizing intermediate compounds or by-products generated from the primary metabolic pathways. Secondary metabolites are not critical for the growth and development of an organism; however, they exhibit a variety of distinct biological characteristics. White-rot fungi are the only microorganisms able to decompose all wood components. Hence, they play an important role in both the carbon and nitrogen cycles by decomposing non-living organic substrates. They are ubiquitous in nature, particularly in hardwood (e.g., birch and aspen) forests. White-rot fungi, besides ligninolytic enzymes, produce different bioactive substances during their secondary metabolism including some compounds with antimicrobial and anticancer properties. Such properties could be of potential interest for the pharmaceutical industries. Considering the importance of the untapped biologically active secondary metabolites from white-rot fungi, the present paper reviews the secondary metabolites produced by white-rot fungi with different interesting bioactivities. [ABSTRACT FROM AUTHOR]

Published

2024

22. A novel laccase from Trametes polyzona with high performance in the decolorization of textile dyes.

Author

Bucchieri, Daniela, Mangiagalli, Marco, Martani, Francesca, Butti, Pietro, Lotti, Marina, Serra, Immacolata, and Branduardi, Paola

Subjects

*HIGH performance textiles, *LACCASE, *MALACHITE green, *OXIDASES, *ISOENZYMES, *COLOR removal in industrial waste purification, *PHENOLS

Abstract

Laccases are multicopper oxidases able to oxidize several phenolic compounds and find application in numerous industrial applications. Among laccase producers, white-rot fungi represent a valuable source of multiple isoforms and isoenzymes of these multicopper oxidases. Here we describe the identification, biochemical characterization, and application of laccase 2 from Trametes polyzona (TP-Lac2), a basidiomycete fungus emerged among others that have been screened by plate assay. This enzyme has an optimal temperature of 50 °C and in acidic conditions it is able to oxidize both phenolic and non-phenolic compounds. The ability of TP-Lac2 to decolorize textile dyes was tested in the presence of natural and synthetic mediators at 30 °C and 50 °C. Our results indicate that TP-Lac2 most efficiently decolorizes (decolorization rate > 75%) malachite green oxalate, orange G, amido black10B and bromocresol purple in the presence of acetosyringone and 2,2′-azinobis (3-ethylbenzthiazoline-6-sulfonate)—ABTS. Overall, the laccase mediator system consisting of TP-Lac2 and the natural mediator acetosyringone has potential as an environmentally friendly alternative for wastewater treatment in the textile industry. Key points: A novel laccase from T. polyzona was induced by the addition of veratryl alcohol TP-Lac2 was heterologous expressed in S. cerevisiae and biochemically characterized TP-Lac2 efficiently decolorizes textile dyes using acetosyringone as mediator [ABSTRACT FROM AUTHOR]

Published

2024

23. Selection of White-Rot Fungi for Decolorization of Palm Oil Mill Effluent and Evaluation of Biodegradation and Biosorption Processes.

Author

Ridtibud, Sanhathai, Suwannasai, Nuttika, Sawasdee, Apichaya, Champreda, Verawat, Phosri, Cherdchai, Sarp, Sarper, Pisutpaisal, Nipon, and Boonyawanich, Siriorn

Subjects

OIL mills, MANGANESE enzymes, BIODEGRADATION, MANGANESE peroxidase, FUNGI, LIGNINS, COLOR removal (Sewage purification)

Abstract

Ten species of white-rot fungi were evaluated for their ability to decolorization of palm oil mill effluent. The highest decolorization efficiency was found with Trametes elegans (PP17-06), followed by Ganoderma sp.2 (PW17-06) and Ganoderma sp.2 (PW17-177), respectively. T. elegans was further evaluated for the long-term performance of decolorization for 24 d. The optimal retention time for the decolorization was 8 d, with a color removal efficiency of 47.7%. Beyond 18 d of incubation, decolorization efficiency was reduced due to the autolysis of enzymes. During the biodegradation process, manganese peroxidase enzyme activities reached a maximum of 36.03 U.L-1. However, no significant laccase and lignin peroxidase activities were observed. T. elegans was also assessed for decolorization performance through biosorption on mycelial biomass. The synthesis of the enzyme was prevented by exposing the mycelium to HgCl2. Within an optimal contact time of 2 d, decolorization efficiency reached 12.5% with ADMI reduction from 4259.0 (±20.1) ADMI to 3727 (±104.04) ADMI. Results indicate that the adsorption capacity was reached at this time, and no significant color removal can be achieved by biomass. Results obtained in this study showed the potential of T. elegans in decolorizing palm oil mill effluent. [ABSTRACT FROM AUTHOR]

Published

2024

24. Effective Decolorization and Detoxification of Single and Mixed Dyes with Crude Laccase Preparation from a White-Rot Fungus Strain Pleurotus eryngii.

Author

Ge, Mingrui, Deng, Wei, Wang, Ziyi, Weng, Chenwen, and Yang, Yang

Subjects

*LACCASE, *POLLUTANTS, *DYES & dyeing, *VAT dyes, *PLEUROTUS, *ETHYLENE glycol

Abstract

To fully harness the potential of laccase in the efficient decolorization and detoxification of single and mixed dyes with diverse chemical structures, we carried out a systematic study on the decolorization and detoxification of single and mixed dyes using a crude laccase preparation obtained from a white-rot fungus strain, Pleurotus eryngii. The crude laccase preparation showed efficient decolorization of azo, anthraquinone, triphenylmethane, and indigo dyes, and the reaction rate constants followed the order Remazol Brilliant Blue R > Bromophenol blue > Indigo carmine > New Coccine > Reactive Blue 4 > Reactive Black 5 > Acid Orange 7 > Methyl green. This laccase preparation exhibited notable tolerance to SO42− salts such as MnSO4, MgSO4, ZnSO4, Na2SO4, K2SO4, and CdSO4 during the decolorization of various types of dyes, but was significantly inhibited by Cl− salts. Additionally, this laccase preparation demonstrated strong tolerance to some organic solvents such as glycerol, ethylene glycol, propanediol, and butanediol. The crude laccase preparation demonstrated the efficient decolorization of dye mixtures, including azo + azo, azo + anthraquinone, azo + triphenylmethane, anthraquinone + indigo, anthraquinone + triphenylmethane, and indigo + triphenylmethane dyes. The decolorization kinetics of mixed dyes provided preliminary insight into the interactions between dyes in the decolorization process of mixed dyes, and the underlying reasons and mechanisms were discussed. Importantly, the crude laccase from Pleurotus eryngii showed efficient repeated-batch decolorization of single-, two-, and four-dye mixtures. This crude laccase demonstrated high stability and reusability in repeated-batch decolorization. Furthermore, this crude laccase was efficient in the detoxification of different types of single dyes and mixed dyes containing different types of dyes, and the phytotoxicity of decolorized dyes (single and mixed dyes) was significantly reduced. The crude laccase efficiently eliminated phytotoxicity associated with single and mixed dyes. Consequently, the crude laccase from Pleurotus eryngii offers significant potential for practical applications in the efficient decolorization and management of single and mixed dye pollutants with different chemical structures. [ABSTRACT FROM AUTHOR]

Published

2024

25. Mycoremediation of Synthetic Azo Dyes by White-Rot Fungi Grown on Diary Waste: A Step toward Sustainable and Circular Bioeconomy.

Author

Gugel, Irene, Summa, Daniela, Costa, Stefania, Manfredini, Stefano, Vertuani, Silvia, Marchetti, Filippo, and Tamburini, Elena

Subjects

FUNGAL remediation, SUSTAINABLE development, MANGANESE peroxidase, AZO dyes, DAIRY waste, ENDOCRINE disruptors, LIGNIN structure, COLOR removal (Sewage purification)

Abstract

This study assesses the efficacy of three white-rot fungi—Bjerkandera adusta, Phanerochaete chrysosporium, and Trametes versicolor—in degrading synthetic dyes and lignin in pulp and paper mill effluents, which annually contribute around 40,000 million cubic meters of dyed waste. Exploiting the structural resemblance of dyes to lignin, the fungi utilize ligninolytic enzymes—lignin peroxidase, manganese peroxidase, and laccase—to break down the pollutants. Initial mycoremediation trials in synthetic dye solutions with Direct black 80, Direct yellow 11, Basic brown 1, Orange II, and Red 8 BLP achieved decolorization rates of 70–80% within 7 days, except for Red 8 BLP. Both soluble and insoluble lignin fractions were significantly reduced, with an overall removal rate of 80–90%. Contrary to prior beliefs about the recalcitrance of azo dyes, B. adusta demonstrated substantial biodegradation capabilities, even on non-lignocellulosic substrates, such as dairy waste. The decolorization efficacy varied with dye structure, suggesting that efficiency should not be judged solely on color reduction. Remarkably, B. adusta also effectively decolorized and removed lignin from actual mill effluents without pH alteration, indicating a viable low-cost bioremediation strategy. This invites further investigation into optimizing B. adusta for industrial wastewater biodecolorization, especially in the field of PAHs (Polycyclic Aromatic Hydrocarbons) and EDCs (Endocrine Disrupting Chemicals). [ABSTRACT FROM AUTHOR]

Published

2024

26. Induction of Extracellular Hydroxyl Radicals Production in the White-Rot Fungus Pleurotus eryngii for Dyes Degradation: An Advanced Bio-oxidation Process.

Author

García-Martín, Ana Belén, Rodríguez, Juana, Molina-Guijarro, José Manuel, Fajardo, Carmen, Domínguez, Gabriela, Hernández, Manuel, and Guillén, Francisco

Subjects

*HYDROXYL group, *DYES & dyeing, *PLEUROTUS, *FENTON'S reagent, *OXIDATION states, *POLLUTION remediation

Abstract

Among pollution remediation technologies, advanced oxidation processes (AOPs) are genuinely efficient since they are based on the production of strong, non-selective oxidants, mainly hydroxyl radicals (·OH), by a set of physicochemical methods. The biological counterparts of AOPs, which may be referred to as advanced bio-oxidation processes (ABOPs), have begun to be investigated since the mechanisms of induction of ·OH production in fungi are known. To contribute to the development of ABOPs, advanced oxidation of a wide number of dyes by the white-rot fungus Pleurotus eryngii, via a quinone redox cycling (QRC) process based on Fenton's reagent formation, has been described for the first time. The fungus was incubated with 2,6-dimethoxy-1,4-benzoquinone (DBQ) and Fe3+-oxalate, with and without Mn2+, leading to different ·OH production rates, around twice higher with Mn2+. Thanks to this process, the degradative capacity of the fungus increased, not only oxidising dyes it was not otherwise able to, but also increasing the decolorization rate of 20 dyes by more than 7 times in Mn2+ incubations. In terms of process efficacy, it is noteworthy that with Mn2+ the degradation of the dyes reached values of 90–100% in 2–4 h, which are like those described in some AOPs based on the Fenton reaction. [ABSTRACT FROM AUTHOR]

Published

2024

27. Study on the degradation conditions of corn stalks by Asian corn borer digestive enzymes combined with white-rot fungus.

Author

Yanchen Wang

Abstract

Since the environmentally friendly reuse of corn stalks attracts more and more attention, it is an efficient and feasible way to reuse corn stalks as forage. However, whether the cellulose, lignin, and hemicellulose within corn stalks can be effectively decomposed becomes a key to reusing corn stalks as forage. Orthogonal test was designed by five different degradation temperatures (22°C, 24°C, 26°C, 28°C, 30°C), five different pH values (4, 5, 6, 8, 10), and five different degradation time durations (5, 15, 25, 30, and 35 days) to examine 25 kinds of different degradation conditions. It was found that the decomposition effect of hemicellulose, cellulose, and lignin, of group 25 (26°C, pH =5, 25 days) was stronger compared with other groups, with the contents calculated as 8.22%, 31.55%, and 22.55% individually (p < 0.01, p < 0.05). Group 19 (22°C, pH = 4, 5 days) revealed the worst degradation effect of cellulose, lignin, and hemicellulose compared to other groups, with contents calculated as 15.48%, 38.85%, and 29.57%, individually (p < 0.01, p < 0.05). The research data deliver a basis for ideal degradation conditions for corn stalks degradation in combination with the digestive enzymes of P. chrysosporium and O. furnacalis larva. Aiming to explore a highly efficient and environmentally friendly corn stalk degradation method. [ABSTRACT FROM AUTHOR]

Published

2024

28. Xenobiotic Removal by Trametes hirsuta LE-BIN 072 Activated Carbon-Based Mycelial Pellets: Remazol Brilliant Blue R Case Study.

Author

Glazunova, Olga. A., Moiseenko, Konstantin V., and Fedorova, Tatyana V.

Subjects

XENOBIOTICS, FUNGAL enzymes, FUNGAL remediation, ANTHRAQUINONE dyes, FUNGAL cultures

Abstract

As a toxic xenobiotic compound, the anthraquinone dye Remazol Brilliant Blue R (RBBR) poses a serious threat to aquatic ecosystems. In the present study, the ability of Trametes hirsuta to remove RBBR from the medium was investigated, and the role of adsorption by fungal mycelium and biodegradation by fungal enzymes was evaluated. It was shown that the whole fungal culture was able to remove up to 97% of the dye within the first four hours of incubation. Based on enzymatic activities in the culture broth, laccases were proposed to be the main enzymes contributing to RBBR degradation, and RT-qPCR measurements demonstrated an increase in transcription for the two laccase genes—lacA and lacB. Composite mycelial pellets of T. hirsuta with improved adsorption ability were prepared by adding activated carbon to the growth medium, and the induction of laccase activity by carbon was shown. For composite pellets, the RBBR decolorization degree was about 1.9 times higher at 1 h of incubation compared to carbon-free pellets. Hence, it was shown that using fungal mycelium pellets containing activated carbon can be an effective and economical method of dye removal. [ABSTRACT FROM AUTHOR]

Published

2024

29. Valorization of lignocellulosic wastes for extracellular enzyme production by novel Basidiomycetes: screening, hydrolysis, and bioethanol production.

Author

Ilić, Nevena, Davidović, Slađana, Milić, Marija, Rajilić-Stojanović, Mirjana, Pecarski, Danijela, Ivančić-Šantek, Mirela, Mihajlovski, Katarina, and Dimitrijević-Branković, Suzana

Abstract

This study aimed at the exploitation of lignocellulosic wastes for the evaluation of the newly isolated white-rot fungal strains enzymatic potential for bioethanol production. The isolates belonging to Basidiomycetes, Fomes fomentarius TMF2, Schizophyllum commune TMF3, and Bjerkandera adusta TMF1, could synthesize extracellular laccase and various hydrolase while growing on lignocellulosic waste materials. More specifically, for the first time, F. fomentarius TMF2 synthesized laccase using sunflower meal as a substrate. This substrate could stimulate B. adusta TMF1 for carboxymethyl cellulase and Avicelase production. The isolate B. adusta TMF1 was able to produce amylase during its growth on brewerʼs spent grain, which is up to now the best result reported for this activity of any B. adusta strain. Soybean meal was the most potent substrate for stimulating pectinase production by B. adusta TMF1 and S. commune TMF3. While growing on brewerʼs spent grain, B. adusta TMF1 and S. commune TMF3 produced high levels of xylanase. Spent coffee residues were for the first time tested as a substrate for hydrolase production by selected fungal species. Also, this is the first attempt where the produced enzymes by isolate B. adusta TMF1 were used for lignocellulose hydrolysis of brewerʼs spent grain and corn stover for bioethanol production, where under non-optimized conditions 0.94 g/L and 0.86 g/L of bioethanol could be produced, respectively. This study showed that novel white-rot fungal isolates, especially B. adusta TMF1, could grow on unexploited, low-cost lignocellulosic substrates and to produce biotechnological value-added products within environmental and economical accepted processes. [ABSTRACT FROM AUTHOR]

Published

2023

30. Pure lignin induces overexpression of cytochrome P450 (CYP) encoding genes and brings insights into the lignocellulose depolymerization by Trametes villosa

Author

Luiz Marcelo Ribeiro Tomé, Mariana Teixeira Dornelles Parise, Doglas Parise, Vasco Ariston de Carvalho Azevedo, Bertram Brenig, Fernanda Badotti, and Aristóteles Góes-Neto

Subjects

Lignocellulose, CAZymes, Transcriptomics, White-rot fungi, Renewable energy, Sustainability, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Trametes villosa is a remarkable white-rot fungus (WRF) with the potential to be applied in lignocellulose conversion to obtain chemical compounds and biofuels. Lignocellulose breakdown by WRF is carried out through the secretion of oxidative and hydrolytic enzymes. Despite the existing knowledge about this process, the complete molecular mechanisms involved in the regulation of this metabolic system have not yet been elucidated. Therefore, in order to understand the genes and metabolic pathways regulated during lignocellulose degradation, the strain T. villosa CCMB561 was cultured in media with different carbon sources (lignin, sugarcane bagasse, and malt extract). Subsequently, biochemical assays and differential gene expression analysis by qPCR and high-throughput RNA sequencing were carried out. Our results revealed the ability of T. villosa CCMB561 to grow on lignin (AL medium) as the unique carbon source. An overexpression of Cytochrome P450 was detected in this medium, which may be associated with the lignin O-demethylation pathway. Clusters of up-regulated CAZymes-encoding genes were identified in lignin and sugarcane bagasse, revealing that T. villosa CCMB561 acts simultaneously in the depolymerization of lignin, cellulose, hemicellulose, and pectin. Furthermore, genes encoding nitroreductases and homogentisate-1,2-dioxygenase that act in the degradation of organic pollutants were up-regulated in the lignin medium. Altogether, these findings provide new insights into the mechanisms of lignocellulose degradation by T. villosa and confirm the ability of this fungal species to be applied in biorefineries and in the bioremediation of organic pollutants.

Published

2024

31. Biologically active secondary metabolites from white-rot fungi

Author

Orkun Pinar and Susana Rodríguez-Couto

Subjects

white-rot fungi, secondary metabolites, biologically active compounds, bioactive properties, therapeutic substances, Chemistry, QD1-999

Abstract

In recent years, there has been a considerable rise in the production of novel metabolites derived from fungi compared to the ones originating from bacteria. These organic substances are utilized in various sectors such as farming, healthcare, and pharmaceutical. Since all dividing living cells contain primary metabolites, secondary metabolites are synthesized by utilizing intermediate compounds or by-products generated from the primary metabolic pathways. Secondary metabolites are not critical for the growth and development of an organism; however, they exhibit a variety of distinct biological characteristics. White-rot fungi are the only microorganisms able to decompose all wood components. Hence, they play an important role in both the carbon and nitrogen cycles by decomposing non-living organic substrates. They are ubiquitous in nature, particularly in hardwood (e.g., birch and aspen) forests. White-rot fungi, besides ligninolytic enzymes, produce different bioactive substances during their secondary metabolism including some compounds with antimicrobial and anticancer properties. Such properties could be of potential interest for the pharmaceutical industries. Considering the importance of the untapped biologically active secondary metabolites from white-rot fungi, the present paper reviews the secondary metabolites produced by white-rot fungi with different interesting bioactivities.

Published

2024

32. Coriolopsis trogii MUT3379: A Novel Cell Factory for High-Yield Laccase Production

Author

Luca Mellere, Martina Bellasio, Francesca Berini, Flavia Marinelli, Jean Armengaud, and Fabrizio Beltrametti

Subjects

laccase, Coriolopsis trogii, cell factory, white-rot fungi, basidiomycetes, high-yield, Fermentation industries. Beverages. Alcohol, TP500-660

Abstract

Coriolopsis trogii is a basidiomycete fungus which utilizes a large array of lignin-modifying enzymes to colonize and decompose dead wood. Its extracellular enzymatic arsenal includes laccases, i.e., polyphenol oxidases of relevant interest for different industrial applications thanks to their ability to oxidize a diverse range of natural and synthetic compounds. In this work, the production of laccases in C. trogii MUT3379 was explored and improved. From an initial production of ca. 10,000 U L−1, the fermentation process was gradually optimized, reaching a final yield of ca. 200,000 U L−1. An SDS-PAGE analysis of the secretome highlighted the presence of a main protein of ca. 60 kDa showing laccase activity, which was designated as Lac3379-1 once its primary sequence was established by tandem mass spectrometry. The characterization of Lac3379-1 revealed a remarkable enzymatic stability in the presence of surfactants and solvents and a diversified activity on a broad range of substrates, positioning it as an interesting tool for diverse biotechnological applications. The high-yield and robust production process indicates C. trogii MUT3379 as a promising cell factory for laccases, offering new perspectives for industrial applications of lignin-modifying enzymes.

Published

2024

33. Fungal Bioremediation of Soils Contaminated by Petroleum Hydrocarbons

Author

Calvo, Concepción, RathanKumar, Abiram Karanam, Saikia, Kongkona, Rodríguez-Calvo, Alfonso, González-López, Jesús, Cabana, Hubert, Aranda, Elisabet, Silva-Castro, Gloria Andrea, Kumar, Vaidyanathan Vinoth, Samuel Jacob, B., editor, Ramani, K., editor, and Vinoth Kumar, V., editor

Published

2023

34. Biological Pretreatment Strategies for Second-Generation Lignocellulosic Biomass to Enhance Ethanol Production

Author

Kaur, Manmeet, Gill, Mandeep Kaur, Sharma, Shivani, Kocher, G. S., Sodhi, H. S., Srivastava, Neha, Series Editor, Mishra, P. K., Series Editor, Verma, Bhawna, editor, and Mishra, P.K., editor

Published

2023

35. Ergosterol and Its Metabolites Induce Ligninolytic Activity in the Lignin-Degrading Fungus Phanerochaete sordida YK-624.

Author

Wang, Jianqiao, Yin, Ru, Hashizume, Yuki, Todoroki, Yasushi, Mori, Toshio, Kawagishi, Hirokazu, and Hirai, Hirofumi

Subjects

*ERGOSTEROL, *PHANEROCHAETE, *ELECTROSPRAY ionization mass spectrometry, *NUCLEAR magnetic resonance, *SULFATE pulping process, *METABOLITES

Abstract

White-rot fungi are the most important group of lignin biodegraders. Phanerochaete sordida YK-624 has higher ligninolytic activity than that of model white-rot fungi. However, the underlying mechanism responsible for lignin degradation by white-rot fungi remains unknown, and the induced compounds isolated from white-rot fungi for lignin degradation have never been studied. In the present study, we tried to screen ligninolytic-inducing compounds produced by P. sordida YK-624. After large-scale incubation of P. sordida YK-624, the culture and mycelium were separated by filtration. After the separation and purification, purified compounds were analyzed by high-resolution electrospray ionization mass spectrometry and nuclear magnetic resonance. The sterilized unbleached hardwood kraft pulp was used for the initial evaluation of ligninolytic activity. Ergosterol was isolated and identified and it induced the lignin-degrading activity of this fungus. Moreover, we investigated ergosterol metabolites from P. sordida YK-624, and the ergosterol metabolites ergosta-4,7,22-triene-3,6-dione and ergosta-4,6,8(14),22-tetraen-3-one were identified and then chemically synthesized. These compounds significantly improved the lignin-degrading activity of the fungus. This is the first report on the ligninolytic-inducing compounds produced by white-rot fungi. [ABSTRACT FROM AUTHOR]

Published

2023

36. Exoproteomic Study and Transcriptional Responses of Laccase and Ligninolytic Peroxidase Genes of White-Rot Fungus Trametes hirsuta LE-BIN 072 Grown in the Presence of Monolignol-Related Phenolic Compounds.

Author

Moiseenko, Konstantin V., Glazunova, Olga A., Savinova, Olga S., and Fedorova, Tatyana V.

Subjects

*LACCASE, *PHENOLS, *MOLECULES, *PEROXIDASE, *SYRINGIC acid, *AROMATIC compounds

Abstract

Being an abundant renewable source of aromatic compounds, lignin is an important component of future bio-based economy. Currently, biotechnological processing of lignin through low molecular weight compounds is one of the conceptually promising ways for its valorization. To obtain lignin fragments suitable for further inclusion into microbial metabolism, it is proposed to use a ligninolytic system of white-rot fungi, which mainly comprises laccases and peroxidases. However, laccase and peroxidase genes are almost always represented by many non-allelic copies that form multigene families within the genome of white-rot fungi, and the contributions of exact family members to the overall process of lignin degradation has not yet been determined. In this article, the response of the Trametes hirsuta LE-BIN 072 ligninolytic system to the presence of various monolignol-related phenolic compounds (veratryl alcohol, p-coumaric acid, vanillic acid, and syringic acid) in culture media was monitored at the level of gene transcription and protein secretion. By showing which isozymes contribute to the overall functioning of the ligninolytic system of the T. hirsuta LE-BIN 072, the data obtained in this study will greatly contribute to the possible application of this fungus and its ligninolytic enzymes in lignin depolymerization processes. [ABSTRACT FROM AUTHOR]

Published

2023

37. Efficient production of cellooligosaccharides and xylooligosaccharides by combined biological pretreatment and enzymatic hydrolysis process

Author

Felipuci, Jefferson Poles, de Freitas, Caroline, Sanches, Alex Otávio, Grillo, Renato, Attili-Angelis, Derlene, and Brienzo, Michel

Published

2024

38. Extracellular enzymes secreted in the mycelial block of Lentinula edodes during hyphal growth

Author

Nanae Kobayashi, Nagisa Wada, Haruna Yokoyama, Yuki Tanaka, Tomohiro Suzuki, Naoto Habu, and Naotake Konno

Subjects

Lentinula edodes, Laccase, Mushroom, Sawdust medium cultivation, White-rot fungi, Biotechnology, TP248.13-248.65, Microbiology, QR1-502

Abstract

Abstract Lentinula edodes (shiitake mushroom) is one of the most widely cultivated edible mushrooms and is primarily cultivated using sawdust medium. While there have been improvements in the cultivation technology, the mechanism of mycelial block cultivation, such as mycelial growth and enzymatic sawdust degradation, has not been clarified. In this study, the mycelium was elongated longitudinally in the bottle sawdust culture for 27 days, and the cultivated sawdust medium was divided into three sections (top, middle, and bottom parts). To determine spatial heterogeneity in the enzyme secretion, the enzymatic activities of each part were analyzed. Lignocellulose degradation enzymes, such as endoglucanase, xylanase, and manganese peroxidase were highly secreted in the top part of the medium. On the other hand, amylase, pectinase, fungal cell wall degradation enzyme (β-1,3-glucanase, β-1,6-glucanase, and chitinase), and laccase activities were higher in the bottom part. The results indicate that the principal sawdust degradation occurs after mycelial colonization. Proteins with the laccase activity were purified from the bottom part of the medium, and three laccases, Lcc5, Lcc6 and Lcc13, were identified. In particular, the expression of Lcc13 gene was higher in the bottom part compared with the level in the top part, suggesting Lcc13 is mainly produced from the tip region and have important roles for mycelial spread and nutrient uptake during early stage of cultivation.

Published

2023

39. Optimization of the removal efficiency of o-Toluidine: Adsorption on sugarcane bagasse or biodegradation using Phanerochaete chrysosporium immobilized on bagasse?

Author

Amene Azaritorbat and Bahram Nasernejad

Subjects

Adsorption, Biodegradation, O-toluidine, Sugarcane bagasse, White-rot fungi, pH, Chemical engineering, TP155-156

Abstract

O-Toluidine has been categorized as a human carcinogen. In this paper, the removal efficiency of o-toluidine through adsorption and biodegradation was compared. Sugarcane bagasse (SCB) was used as an adsorbent and then was applied for the immobilization of white-rot fungi, Phanerochaete chrysosporium, and biodegradation of the contaminant. Response surface methodology (RSM) was applied to investigate the primary and binary effects of parameters in both processes. The impact of temperature, pH, initial o-toluidine concentration, and the adsorbent dose was investigated in the adsorption process. In the biodegradation process, the influence of temperature, pH, and initial o-toluidine concentration was studied. In addition, the effect of inoculum content and stationery, and agitated culture was assessed. According to the results, the models developed for both processes were statistically significant and fitted well with the experimental data. Implementation of the processes at the determined optimum conditions resulted in 65.8% and 96.4% removal efficiency for the adsorption and biodegradation processes, respectively, which shows that the latter was more efficient.

Published

2023

40. Effects of Orange Peel Extract on Laccase Activity and Gene Expression in Trametes versicolor

Author

Simon Vandelook, Berend Bassleer, Elise Elsacker, and Eveline Peeters

Subjects

laccase, Trametes versicolor, white-rot fungi, orange peels, transcriptional expression, Biology (General), QH301-705.5

Abstract

The genome of Trametes versicolor encodes multiple laccase isozymes, the expression of which is responsive to various conditions. Here, we set out to investigate the potential of orange peel extract as an inducer of laccase production in this white-rot fungus, in comparison to the previously identified inducing chemical compound, veratryl alcohol. For four geographically distinct T. versicolor strains, a positive correlation has been observed between their oxidative activity and incubation time in liquid cultures. The addition of 20% orange peel extract or 5 mM veratryl alcohol caused a rapid increase in the oxidative potential of T. versicolor M99 after 24 h, with a more pronounced effect observed for the orange peel extract. To elucidate the underlying molecular mechanisms of the induced laccase activity, a transcriptional gene expression analysis was performed for the seven individual laccase genes in T. versicolor, revealing the upregulation of several laccase genes in response to the addition of each inducer. Notably, the gene encoding TvLac5 demonstrated a substantial upregulation in response to the addition of 20% orange peel extract, likely contributing to the observed increase in its oxidative potential. In conclusion, our results demonstrate that orange peels are a promising agro-industrial side stream for implementation as inducing agents in large-scale laccase production with T. versicolor.

Published

2024

41. WHITE-ROT FUNGAL PRETREATMENT OF WHEAT STRAW: EFFECT ON ENZYMATIC HYDROLYSIS OF CARBOHYDRATE POLYMERS.

Author

KNEŽEVIĆ, ALEKSANDAR, ĐOKIĆ, IVANA, TOSTI, TOMISLAV, POPOVIĆ, SLAĐANA, MILOJKOVIĆ-OPSENICA, DUŠANKA, and VUKOJEVIĆ, JELENA

Subjects

*HYDROLYSIS, *WHEAT straw, *CARBOHYDRATES, *FUNGI, *LIGNINS

Abstract

The aim of the study was the comparative analysis of degradation of wheat straw lignin by white-rot fungi and its implications on the efficiency of enzymatic hydrolysis of holocellulose. Peroxidases were found to be predominantly responsible for lignin degradation, even though high laccase activities were detected, especially in the initial stages of fungal culturing. The studied fungal species showed various ability to degrade lignin in wheat straw, which further affected the release of reducing sugars during enzymatic saccharification. The highest rate of lignin, hemicelluloses and cellulose degradation was noticed in the sample pretreated with Irpex lacteus. Among all the tested species, only Ganoderma resinaceum was found as a suitable lignin degrader, with 2-fold higher hydrolysis yield (51.1 ± 4.7%) than in the control. A key mechanism that enhances convertibility of carbohydrates is the selective lignin removal from biomass. Operating time, holocellulose loss and unpredictable fungal response to culturing conditions are the main challenges in fungal pretreatment of lignocellulosic feedstock. [ABSTRACT FROM AUTHOR]

Published

2023

42. White-rot fungi scavenge reactive oxygen species, which drives pH-dependent exo-enzymatic mechanisms and promotes CO2 efflux.

Author

Jofré-Fernández, Ignacio, Matus-Baeza, Francisco, and Merino-Guzmán, Carolina

Subjects

SUPEROXIDES, REACTIVE oxygen species, MANGANESE peroxidase, FOREST soils, HABER-Weiss reaction, HYDROXYL group, SOIL acidity, LIGNIN structure

Abstract

Soil organic matter (SOM) decomposition mechanisms in rainforest ecosystems are governed by biotic and abiotic procedures which depend on available oxygen in the soil. White-rot fungi (WRF) play an important role in the primary decomposition of SOM via enzymatic mechanisms (biotic mechanism), which are linked to abiotic oxidative reactions (e.g., Fenton reaction), where both processes are dependent on reactive oxygen species (ROS) and soil pH variation, which has yet been studied. In humid temperate forest soils, we hypothesize that soil pH is a determining factor that regulates the production and consumption of ROS during biotic and abiotic SOM decomposition. Three soils from different parent materials and WRF inoculum were considered for this study: granitic (Nahuelbuta, Schizophyllum commune), metamorphic (Alerce Costero, Stereum hirsutum), and volcanic-allophanic (Puyehue, Galerina patagonica). CO2 fluxes, lignin peroxidase, manganese peroxidase, and dye-decolorizing peroxidase levels were all determined. Likewise, the production of superoxide anion (O2•-), hydrogen peroxide (H2O2), and hydroxyl radicals (•OH) were assessed in soils microcosms after 36 days of anaerobic incubation with WRF inoculum and induced Fenton reaction under pH variations ranging from 2.5 to 5.1. ROS significantly increased biotic and abiotic CO2 emissions in all tested soils, according to the findings. The highest values (217.45 mg C kg−1 ) were found during the anaerobic incubation of sterilized and inoculated soils with WRF at a natural pH of 4.5. At pH 4.0, the lowest levels of C mineralization (82 mg C kg−1 ) were found in Nahuelbuta soil. Enzyme activities showed different trends as pH changed. The Fenton reaction consumed more H2O2 between pH 3 and 4, but less between pH 4.5 and 2.5. The mechanisms that oxidized SOM are extremely sensitive to variations in soil pH and the stability of oxidant radical and non-radical compounds, according to our findings. [ABSTRACT FROM AUTHOR]

Published

2023

43. Fungal Biotransformation of Hazardous Organic Compounds in Wood Waste.

Author

Komorowicz, Magdalena, Janiszewska-Latterini, Dominika, Przybylska-Balcerek, Anna, and Stuper-Szablewska, Kinga

Subjects

*WOOD waste, *BIOCONVERSION, *ORGANIC compounds, *BIODEGRADATION of wood, *WOOD-decaying fungi, *LITERATURE reviews, *LIGNOCELLULOSE

Abstract

A diverse spectrum of organisms, such as fungi, bacteria, and actinomycetes, can degrade and transform organic matter, including wood, into valuable nutrients. A sustainable economy has the goal of efficiently using waste as raw materials, and in this optic, it uses biological preparations more and more often, supporting the decomposition of lignocellulosic waste. With reference to wood wastes, which are produced in a substantial amount by the forest and wood industry, one of the possibilities to biodegrade such lignocellulosic material is the composting process. In particular, microbiological inoculum containing dedicated fungi can contribute to the biodegradation of wood waste, as well as the biotransformation of substances from the protection of wood, such as pentachlorophenol (PCP), lindane (hexachlorobenzene) and polycyclic aromatic hydrocarbons (PAHs). The purpose of this research was to produce a literature review in terms of the selection of decay fungi that could potentially be used in toxic biotransformation unions. The findings of the literature review highlighted how fungi such as Bjerkandera adusta, Phanerochaete chrysosporium, and Trametes versicolor might be ingredients of biological consortia that can be effectively applied in composting wood waste containing substances such as pentachlorophenol, lindane, and polycyclic aromatic hydrocarbons (PAHs). [ABSTRACT FROM AUTHOR]

Published

2023

44. Lignin Nanoparticles with Entrapped Thymus spp. Essential Oils for the Control of Wood-Rot Fungi.

Author

Zikeli, Florian, Vettraino, Anna Maria, Biscontri, Margherita, Bergamasco, Sara, Palocci, Cleofe, Humar, Miha, and Romagnoli, Manuela

Subjects

*ESSENTIAL oils, *FUNGAL cell walls, *THYMUS, *LIGNINS, *LIGNANS, *PRESERVATION of wood, *LIGNIN structure, *TRAMETES versicolor

Abstract

After decades of utilization of fossil-based and environmentally hazardous compounds for wood preservation against fungal attack, there is a strong need to substitute those compounds with bio-based bioactive solutions, such as essential oils. In this work, lignin nanoparticles containing four essential oils from thyme species (Thymus capitatus, Coridothymus capitatus, T. vulgaris, and T. vulgaris Demeter) were applied as biocides in in vitro experiments to test their anti-fungal effect against two white-rot fungi (Trametes versicolor and Pleurotus ostreatus) and two brown-rot fungi (Poria monticola and Gloeophyllum trabeum). Entrapment of essential oils provided a delayed release over a time frame of 7 days from the lignin carrier matrix and resulted in lower minimum inhibitory concentrations of the essential oils against the brown-rot fungi (0.30–0.60 mg/mL), while for the white-rot fungi, identical concentrations were determined compared with free essential oils (0.05–0.30 mg/mL). Fourier Transform infrared (FTIR) spectroscopy was used to assess the fungal cell wall changes in the presence of essential oils in the growth medium. The results regarding brown-rot fungi present a promising approach for a more effective and sustainable utilization of essential oils against this class of wood-rot fungi. In the case of white-rot fungi, lignin nanoparticles, as essential oils delivery vehicles, still need optimization in their efficacy. [ABSTRACT FROM AUTHOR]

Published

2023

45. Surfactants double the biodegradation rate of persistent polycyclic aromatic hydrocarbons (PAHs) by a white-rot fungus Phanerochaete sordida.

Author

Li, Qiaoyu, Wang, Jianqiao, Wang, Ziyu, Zhang, Wenquan, Zhan, Hongjie, Xiao, Tangfu, Yu, Xiaolong, and Zheng, Yan

Subjects

PHENANTHRENE, POLYCYCLIC aromatic hydrocarbons, WOOD decay, BENZOPYRENE, PHANEROCHAETE, NONIONIC surfactants, SURFACE active agents

Abstract

Polycyclic aromatic hydrocarbons (PAHs) are persistent in the environment and are toxic to humans and animals, rendering its remediation necessary but challenging. A white-rot fungus excellent in lignin degradation, Phanerochaete sordida YK-624, was chosen to improve biodegradation of high molecular weight thus persistent PAHs, assisted by surfactants. Efficacy to degrade three PAHs, phenanthrene, pyrene and benzo(a)pyrene, representing 3-, 4-, and 5-ring structure, was compared in liquid culture at low (5 mg L−1) and high (50 mg L−1) concentrations with or without fungi and/or surfactants. At the low concentration, phenanthrene and pyrene were completely degraded by P. sordida YK-624 after 8 and 16 day incubation, while 88.9% benzo(a)pyrene degradation was observed by 24 days. Degradation of phenanthrene, pyrene and benzo(a)pyrene at the high concentration reached 89.2%, 61.9% and 28.6%, respectively, after 32 day incubation. In addition, the t1/2 of phenanthrene were 1.17 or 11.55 days, while the t1/2 of pyrene and benzo(a)pyrene were 1.93 or 17.33 days and 7.70 or 69.30 days, for low or high concentrations, respectively. The highest mycelial biomass at 46.1 mg was observed in incubation of 5 mg L−1 benzo(a)pyrene, exceeding the biomass in the control by 10 mg, suggesting that P. sordida YK-624 might utilize PAHs as a substrate for growth. With increasing concentration of cytochrome P450s inhibitor piperonyl butoxide (PB), the degradation of PAHs decreased, demonstrating the involvement of cytochrome P450s. For instance, the removals of phenanthrene, pyrene and benzo(a)pyrene at the low concentration were 85.7%, 36.3% and 49.0% in the presence of 500 mg L−1 PB at 24 days, compared with the controls of 100%, 100%, and 88.9%, respectively. Furthermore, three nonionic surfactants enhanced benzo(a)pyrene degradation. The 32 day degradation of benzo(a)pyrene was increased to 62.4%, 41.9% and 53.3% when 1 g L−1 Brij 30, 1 g L−1 Triton X-100, and 2 g L−1 Tween 80 were added. Benzo(a)pyrene degradation was increased approximately twofold by the addition of 1 g L−1 Brij 30. Thus, P. sordida YK-624 holds the potential for bioremediation of persistent PAHs, especially with the addition of nonionic surfactants. [ABSTRACT FROM AUTHOR]

Published

2023

46. Biodegradation of Phthalic Acid Esters by the White-Rot Fungus Peniophora lycii.

Author

Savinova, O. S., Shabaev, A. V., and Fedorova, T. V.

Subjects

*PHTHALATE esters, *DIETHYL phthalate, *FUNGAL remediation, *DIBUTYL phthalate, *BIODEGRADATION, *FUNGI

Abstract

The ability of the white-rot fungus Peniophora lycii LE-BIN 2142 to degrade such phthalic acid esters (PAEs) as diethyl phthalate (DEP), dibutyl phthalate (DBP), di(2-ethylhexyl) phthalate (DEHP), diisobutyl phthalate (DiBP), and n-butylbenzyl phthalate (BBP) was studied. It was shown that DEHP was most efficiently biodegraded by the fungus (over 98% on day 6 of cultivation). The residual content of DBP and DiBP in the culture liquid of the fungus at the end of cultivation (10 days) was ~17–18%. BBP turned out to be the most difficult-to-degrade compound: its residual content on day 10 of P. lycii cultivation was ~40%. DEP was resistant to fungal biodegradation and exhibited a toxic effect at 1.5 g/L: the rate of radial growth of the fungus on agar decreased threefold compared to the control, and the amount of fungal biomass during liquid-phase submerged cultivation decreased by about 1.5 times. During the cultivation of P. lycii on media with PAEs, an increase in esterase activity by about 2 times and a significant decrease (by 2–4 times) in oxidase activity was shown compared to the control medium without phthalates. [ABSTRACT FROM AUTHOR]

Published

2023

47. New approach to encapsulation of Trametes versicolor in calcium alginate beads: a promising biological pretreatment method for enhanced anaerobic digestion.

Author

Uzun, Omer, Ince, Orhan, Ozbayram, E. Gozde, Akyol, Çağrı, and Ince, Bahar

Abstract

This study sets a specific focus to explore the effectiveness of encapsulation of white-rot fungi as a novel biological pretreatment strategy on biogas production in anaerobic digesters. For this purpose, Trametes versicolor culture was entrapped in Ca-alginate beads and used in a fungal pretreatment step prior to co-digestion of cow manure, food waste, and waste-activated sludge. The results revealed that pretreatment with encapsulated T. versicolor led to an enhancement of biomethane production in all digesters and contributed to an increase in methane yield up to 35%. The maximum methane yield was observed in the digesters co-treating food waste and waste-activated sludge, recorded as 519 mL CH4/g TVSused. On the other hand, much lower methane yield (ranged 161–174 mL CH4/g TVSused) was observed in the digesters operated without food waste and the pretreatment did not reveal any considerable enhancement in methane production in these digesters. [ABSTRACT FROM AUTHOR]

Published

2023

48. Transcriptomics and co-expression network analysis revealing candidate genes for the laccase activity of Trametes gibbosa

Author

Jie Chen, Yi Ye, Yujie Chi, Xin Hao, and Qingquan Zhao

Subjects

White-rot fungi, Laccase, WGCNA, Mitochondria, Microbiology, QR1-502

Abstract

Abstract Background Trametes gibbosa, which is a white-rot fungus of the Polyporaceae family found in the cold temperate zone, causes spongy white rot on wood. Laccase can oxidize benzene homologs and is one of the important oxidases for white rot fungi to degrade wood. However, the pathway of laccase synthesis in white rot fungi is unknown. Results The peak value of laccase activity reached 135.75 U/min/L on the 9th day. For laccase activity and RNA-seq data, gene expression was segmented into 24 modules. Turquoise and blue modules had greater associations with laccase activity (positively 0.94 and negatively -0.86, respectively). For biology function, these genes were concentrated on the cell cycle, citrate cycle, nicotinate, and nicotinamide metabolism, succinate dehydrogenase activity, flavin adenine dinucleotide binding, and oxidoreductase activity which are highly related to the laccase synthetic pathway. Among them, gene_8826 (MW199767), gene_7458 (MW199766), gene_61 (MW199765), gene_1741 (MH257605), and gene_11087 (MK805159) were identified as central genes. Conclusion Laccase activity steadily increased in wood degradation. Laccase oxidation consumes oxygen to produce hydrogen ions and water during the degradation of wood. Some of the hydrogen ions produced can be combined by Flavin adenine dinucleotide (FAD) to form reduced Flavin dinucleotide (FADH2), which can be transmitted. Also, the fungus was starved of oxygen throughout fermentation, and the NADH and FADH2 are unable to transfer hydrogen under hypoxia, resulting in the inability of NAD and FAD to regenerate and inhibit the tricarboxylic acid cycle of cells. These key hub genes related to laccase activity play important roles in the molecular mechanisms of laccase synthesis for exploring industrial excellent strains.

Published

2023

49. Copper increases laccase gene transcription and extracellular laccase activity in Pleurotus eryngii KS004

Author

Sharghi, Sara, Ahmadi, Farajollah Shahriari, Kakhki, Amin Mirshamsi, and Farsi, Mohammad

Published

2024

50. The Development of White-Rot Fungi as a Mycoremediation Product

Author

Ngadin, A. A., Taghavi, E., Eaton, T., Gupta, Vijai Kumar, Series Editor, Tuohy, Maria G., Series Editor, and Shukla, Amritesh Chandra, editor

Published

2022