Autoreduction and aggregation of fungal laccase in solution phase: possible correlation with a resting form of laccase

This paper reports results of a reexamination of some poorly understood peculiarities of laccases, an enzyme family which has been extensively studied in our laboratories as well as by others for some years. The issue that is reconsidered here is the previously proposed existence of "active" and "resting" forms of laccases. The presence of fungal laccases with partly reduced active sites is demonstrated. Of further interest is that an aggregated state in solution, not to our knowledge previously noted for laccase, has been found by using small-angle X-ray scattering as well as thorough analysis of the results of several biochemical experiments. Under some conditions, this aggregated state may correlate with the resting form of the laccases, although this resting form could have a broader significance. It was shown that Trametes ochracea laccase had some anomalous characteristics, which could be correlated with the high concentration of the "resting" enzyme. The mechanism of formation of resting laccase is suggested. Knowledge of the resting state is of importance for in vitro studies. Additionally, a suggestion about the possible regulatory role of this form in vivo is mentioned.     

Enzymatic characterization of Chilean native wood-rotting fungi for potential use in the bioremediation of polluted environments with chlorophenols

This work presents a preliminary report of a series of studies on the ability of several indigenous wood-rotting fungi from Chile to produce hydrolytic and ligninolytic enzymes and the evaluation of these native microorganism to future research on potential applications in bioremediation programs. Wood-rotting Basidiomycete fungi were collected from indigenous hardwood forest in the South of Chile. Twenty-eight strains were identified and qualitative enzymatic tests for peroxidases, laccase, tyrosinase, xylanase and cellulase production were performed in solid medium. Eleven selected strains were evaluated in liquid medium to quantify their ligninolytic enzyme production and their capacity to grow in solid medium supplemented with 2,4-dichlorophenol (2,4-DCF), 2,4,6-trichlorophenol (2,4,6-TCF) and pentachlorophenol (PCP). PCP degradation and ligninolytic enzymes production were also evaluated in liquid medium. Results showed that laccase was present in 28 of the selected strains (≈73%). Peroxidase was present in 40% and cellulase in 37% of the strains. Xilanase and tyrosinase were obtained in a smaller percentage in the strains (28% and 7%, respectively). The 11 selected strains showed high concentrations of lignin peroxidase (Lip) and manganese peroxidase (MnP). Anthracophyllum discolor (Sp4), produced LiP and MnP at 90.3 and MnP 125.5 U L⁻¹ respectively, compared to the control fungus Phanerochaete chrysosporium CECT-2798 that produced 58.1 and 118.4 U L⁻¹ of LiP and MnP. Tolerance test showed that native Chilean fungi did not present high tolerance to 2,4,6-TCF and PCP but were quite tolerant to 25 and 50 mg L⁻¹ of 2,4-DCF. However, pre-acclimatization in 2,4-DCP notably improved the growth in medium with 2,4,6-TCP and PCP. PCP in liquid medium was efficiently degraded by the fungi Anthracophyllum discolor, Lenzites betulina (Ru-30) and Galerina patagónica (Sp3), and the major MnP activity was produced by A. discolor (Sp4) (67 U L⁻¹).     

Removal of estrogenic activity from endocrine-disrupting chemicals by purified laccase of Phlebia tremellosa

A white-rot basidiomycete, Phlebia tremellosa, produced a laccase that showed increased activity during degradation of phthalates. A laccase was purified through the ion exchange chromatography and preparative gel electrophoresis, and the estimated molecular weight was 75 kDa. The optimum pH and temperature of the purified laccase was pH 4.0 and 20 degrees C, respectively. The K(m) value of the enzyme was 55.7 microM, and the V(max) was 0.0541 OD min(-1) U(-1) for o-tolidine. Purified laccase reduced the estrogenic activity of four different endocrine-disrupting chemicals. However, this effect was reduced by a laccase inhibitor, kojic acid, which confirmed that the laccase was involved in the removal of estrogenic activity.     

Immobilization of <Emphasis Type="Italic">Psilocybe castanella</Emphasis> on ceramic (slate) supports and its potential for soil bioremediation

The objective of the present study was to develop and characterize a support for the immobilization of Psilocybe castanella in order to optimize the process of incorporation of fungal inoculum into the soil. The ceramic supports were fabricated from slate powder in the shape of hollow spheres by the slip casting technique (suspension: 40% v/v). The sintering temperature was evaluated in the range of 850–1,070°C and porosity was analyzed by mercury intrusion. The temperature of 1,050°C was the most adequate for sintering of the ceramic supports, with the porosity obtained being less than 1%. The fungus was immobilized on the ceramic supports containing lignocellulosic substrate using disks of fungal mycelium grown on 2% malt agar as the inoculum. Fungal biomass was estimated by the quantification of ergosterol. Peroxidase and laccase activities were determined by the oxidation of ABTS in the presence and absence of H₂O₂, respectively. The efficiency of the immobilized inoculum was tested in a grinder containing coarse sand for 45 min at 75 rpm. The supports were colonized with P. castanella and enzymatic activities were detected after the fifth day of fungal growth. Immobilization of the fungus on the ceramic support provided 80% protection of the inoculum against loss of efficiency during mixture with soil. The results demonstrate the potential of the ceramic supports produced with slate powder for immobilization of basidiomycetous fungi and for application to soil bioremediation processes.     

Characteristics of endophytic fungi from Polygonum hydropiper suggest potential application for P-phytoextraction

Endophytes may play important roles in phytoremediation; however, little information is available on the endophytes of phosphorus (P)-accumulating plants and their potential application in P-phytoextraction. Here, 30 endophytic fungi were isolated from Polygonum hydropiper and classified into 24 taxonomic groups, with 76.7% being Ascomycota and 23.3% being Basidiomycota. Metarhizium anisopliae, Guignardia mangiferae and Phaeophlebiopsis peniophoroides were the dominant species. The Simpson and Shannon diversity indices were higher in shoots than in roots. The isolates had varied plant-growth-promoting traits with all being indole-3-acetic acid positive and only 18 exhibiting siderophore activities. P solubilization capability varied with fungal species and P sources; it correlated negatively with pH but positively with organic acids in a tricalcium phosphate medium. However, in a phytin medium, it did not correlate with pH, but positively with phosphatase activities. Five endophytes were found to have the greatest potential as inoculants to assist P. hydropiper in future P-phytoextraction studies.     

Removal of estrogenic activity of endocrine-disrupting genistein by ligninolytic enzymes from white rot fungi

Endocrine-disrupting genistein was treated with the white rot fungus Phanerochaete sordida YK-624 under ligninolytic condition with low-nitrogen and high-carbon culture medium. Genistein decreased by 93% after 4 days of treatment and the activities of ligninolytic enzymes, manganese peroxidase (MnP) and laccase, were detected during treatment, thus suggesting that the disappearance of genistein is related to ligninolytic enzymes produced extracellularly by white rot fungi. Therefore, genistein was treated with MnP, laccase, and the laccase-mediator system with 1-hydroxybenzotriazole (HBT) as a mediator. HPLC analysis demonstrated that genistein disappeared almost completely in the reaction mixture after 4 h of treatment with either MnP, laccase, or the laccase-HBT system. Using the yeast two-hybrid assay system, it was also confirmed that three enzymatic treatments completely removed the estrogenic activity of genistein after 4h. These results strongly suggest that ligninolytic enzymes are effective in removing the estrogenic activity of genistein.     

Entomopathogenic fungi from Argentina for the control of Schistocerca cancellata (Orthoptera: Acrididae) nymphs: fungal pathogenicity and enzyme activity

The South American locust Schistocerca cancellata (Serville) was the most serious agricultural pest in Argentina during the first half of the last century and remains as a threat when preventive control measures are relaxed in the outbreak area. In this study, we analysed in the laboratory, the effectiveness of 26 fungal strains (isolated from both insects and soil collected in Argentina) for S. cancellata control and determined the relationship between the chitinase, protease and lipase levels in these fungi and their insecticidal activities. We observed that Beauveria bassiana (isolate LPSC 1067) caused the highest mortality (90±1.03%), the highest values of chitinolytic, proteolytic and lipolytic activity were 6.13±0.05, 2.56±0.11 and 2.33±0.47, respectively, and the lowest median lethal time was 5.96 days. This is the first time that a wide variability in chitinase, protease and lipase activity as well as in virulence has been reported in a representative sample of different entomopathogenic fungal strains from Argentina.     

The chemical composition,antifungal, antioxidant and antimutagenicity properties of bioactive compounds from fungal endophytes associated with Thai orchids

Some plant‐derived bioactive compounds produced by fungal endophytes have been proven to have antimicrobial and antioxidant activities. In this study, endophytic fungi were isolated from 20 orchid samples collected in northern Thailand from 12 genera of orchids. In total, 97 isolates were isolated from the leaves (44.3%), stems (40.2%) and flowers (15.5%) of the orchid samples. The antifungal activity was investigated of the endophytic isolates against the plant pathogenic fungi. The results showed that 13 endophytic isolates provided antifungal activities against Fusarium sp., Colletotrichum sp. and Curvularia sp. The endophyte CK F05‐5, which was isolated from the flower part of Dendrobium lindleyi, was chosen for further testing because it the highest level of antifungal activity against Fusarium sp. The isolate CK F05‐5 was identified as Fusarium oxysporum on the basis of its ITS sequences of 5.8 s rRNA, and phytochemical analysis revealed the presence of coumarins. The ethyl acetate extract of CK F05‐5 was examined for its total phenolic content and antioxidant activity using Folin–Ciocalteu's reagent and 2,2‐diphenyl‐1‐picrylhydrazyl (DPPH) radical scavenging assay, respectively. The phenolic content was 160.51 mg of GAE/g of extract, and the free radical scavenging activity was 89.61 µg/ml at the half maximal inhibitory concentration (IC₅₀). The antimutagenic potential of the ethyl acetate extract of CK F05‐5 against Trp‐P‐1 mutagenic substances was determined using the Ames test which revealed that the extract of CK F05‐5 at 10 mg/plate had the highest antimutagenic activity against Trp‐P‐1 (51.2%) and 39.6% for strains TA98 and TA100, respectively. The active compounds present in the acetate extract of CK F05‐5 were examined using GC‐MS analysis, which displayed the presence of gibepyrone A, pyrrolo [1, 2‐a] pyrazine‐1, 4‐dione, hexahydro‐3‐(2‐methylpropyl) and indoleacetic acid as major components. Based on the results, this endophytic fungus contains various bioactive components that have various biological activities. This useful information could help in producing potentially valuable and novel pharmaceutical products.     

Efficient production of Al(OH)3‐immobilized laccase with a Heterobasidion annosum strain selected by microplate screening

Aims: Wild‐type white rot fungi are the most important production organisms for laccase, a promising oxidative biocatalyst with numerous applications. This study aimed at identifying novel highly productive strains, finding optimal cultivation conditions for laccase production and establishing a simple immobilization procedure. Methods and Results: By using a newly developed 96‐well microplate cultivation method, 23 species of white rot fungi, represented by 29 strains, were directly compared with regard to the amount of secreted laccase. Both, with glucose and spruce saw dust as growth substrate a Heterobasidion annosum strain and a Physisporinus vitreus strain were the most productive (730–2200 U l^?1 of secreted laccase). Cultivation conditions for laccase production with H. annosum were optimized in larger‐scale liquid cultures. Aeration with a sparger lead to a 3·8‐fold increase in laccase activity when compared to nonaerated flask cultures. More than 3000 U l^?1 laccase was produced in glucose medium supplemented with yeast extract and the inducer veratryl alcohol. Culture supernatant was incubated with short‐range ordered Al(OH)₃ particles to directly immobilize and concentrate laccase by adsorption. Active laccase was recovered in 40% yield and the Al(OH)₃‐adsorbed laccase was suitable for repeated decolourization of indigo carmine. Conclusions: Microplate cultivation allowed a large‐scale comparison of the capacity of different fungal species for laccase production. Laccase secretion of a highly productive H. annosum strain was found to vary strongly with different cultivation conditions. Adsorption to Al(OH)₃ proved to be suitable as direct immobilization technique. Significance and Impact of the Study: The microplate screening method simplifies strain and medium development for laccase production. Two novel fungal strains suitable for laccase production were identified. Procedures for simple and efficient production of immobilized H. annosum laccase were established.     

Altertoxins with potent anti-HIV activity from Alternaria tenuissima QUE1Se,a fungal endophyte of Quercus emoryi

Screening of a small library of natural product extracts derived from endophytic fungi of the Sonoran desert plants in a cell-based anti-HIV assay involving T-cells infected with the HIV-1 virus identified the EtOAc extract of a fermentation broth of Alternaria tenuissima QUE1Se inhabiting the stem tissue of Quercus emoryi as a promising candidate for further investigation. Bioactivity-guided fractionation of this extract led to the isolation and identification of two new metabolites, altertoxins V (1) and VI (2) together with the known compounds, altertoxins I (3), II (4), and III (5). The structures of 1 and 2 were determined by detailed spectroscopic analysis and those of 3–5 were established by comparison with reported data. When tested in our cell-based assay at concentrations insignificantly toxic to T-cells, altertoxins V (1), I (3), II (4), and III (5) completely inhibited replication of the HIV-1 virus at concentrations of 0.50, 2.20, 0.30, and 1.50 μM, respectively. Our findings suggest that the epoxyperylene structural scaffold in altertoxins may be manipulated to produce potent anti-HIV therapeutics.     

金荞麦和苦荞麦抗菌活性内生真菌的筛选及鉴定

从药用植物金荞麦和苦荞麦的根、茎、叶、花中分离到62株内生真菌,并以金黄色葡萄球菌(Staphylococcus aureus)、大肠杆菌(Escherichia coli)、枯草芽孢杆菌(Bacillus subtilis)[CMCC(B)63501]、小麦赤霉病菌(Fusarium graminearum)、黄瓜枯萎病菌(Fusarium oxysporum f.sp.cu-cumerinum)和绵腐病菌(Pythium aphanidermatum)6种微生物为指示菌对分离到的内生真菌进行抗菌活性检测。结果发现,分离的内生真菌菌株KQH-01、KQH-02和JQY-1的发酵醇提取物具有较好的抑菌活性。形态学特征和分子鉴定确定菌株KQH-01为炭角菌属(Xylaria sp.)真菌,菌株KQH-02为球毛壳菌(Chaetomium globosum),菌株JQY-1为葡萄座腔菌(Botryosphaeria dothidea)。     

Isolation of autochthonous non-white rot fungi with potential for enzymatic upgrading of Venezuelan extra-heavy crude oil

The increasing world demand for fuels makes it necessary to exploit the largest reserve of extra-heavy crude oil (EHCO) of the Orinoco Oil Belt from Venezuela. We propose the use of extracellular oxidative enzymes, in particular, lignin-degrading enzyme systems (LDS) of fungi, for enzymatic improvement of EHCO. Autochthonous non-white rot fungal strains able to use EHCO, and several polycyclic aromatic hydrocarbons (PAHs) as sole carbon source and energy, were isolated from EHCO-polluted soils and identified as belonging to the genera Fusarium, Penicillium, Trichoderma, Aspergillus, Neosartorya, Pseudallescheria, Cladosporium, Pestalotiopsis, Phoma and Paecillomyces. Phenotypic and biochemical assays revealed the ability of these filamentous fungi to synthesize extracellular oxidative enzymes, and suggested a relationship between the LDS and EHCO bioconversion. This work reports, for the first time, the use of o-phenylenediamine dihydrochloride (OPD) as substrate to measure extracellular ligninolytic peroxidases (ELP) in culture broths of filamentous fungi (Fusarium solani HP-1), and constitutes the first formal study of the fungal community associated with the EHCO of the Orinoco Oil Belt.     

A novel PCR-based approach for the detection and classification of potential cellulolytic fungal strains isolated from museum items and surrounding indoor environment

Aims: To develop a novel PCR‐based method able to detect potential cellulolytic filamentous fungi and to classify them exploiting the amplification of the cellobiohydrolase gene (cbh‐I) and its polymorphism. Methods and Results: A mixed approach including the combination of (i) fungal cultivation and isolation, (ii) classification of fungal isolates through the amplification of the cbh gene using a fluorescently labelled primer (f‐CBH‐PCR) and (iii) final fungal identification based on amplification and sequencing of the ITS1‐5.8S rDNA‐ITS2 region of the selected fungal strains was developed. By this approach, it was possible to screen 77 fungal strains belonging to 14 genera and 26 species. Conclusions: The f‐CBH‐PCR permitted the discrimination of fungal species, producing typical f‐CBH profiles. Significance and Impact of the Study: In this study, the cbh gene was used as a preliminary classification tool able to differentiate among themselves the fungal members isolated from indoor museum items and surrounding environment. Such mixed approach consented the fast identification of all isolated fungal strains. The f‐CBH‐PCR method demonstrated its discrimination power, and it can be considered as a new molecular system suitable for the classification of fungal strains isolated from different environments.     

Isolation and bioelectrochemical characterization of novel fungal sources with oxidasic activity applied in situ for the cathodic oxygen reduction in microbial fuel cells

Brazilian filamentous fungi Rhizopus sp. (SIS-31), Aspergillus sp. (SIS-18) and Penicillium sp. (SIS-21), sources of oxidases were isolated from Caatinga's soils and applied during the in situ cathodic oxygen reduction in fuel cells. All strains were cultivated in submerged cultures using an optimized saline medium enriched with 10 g L⁻¹ of glucose, 3.0 g L⁻¹ of peptone and 0.0005 g L⁻¹ of CuSO₄ as enzyme inducer. Parameters of oxidase activity, glucose consumption and microbial growth were evaluated. In-cell experiments evaluated by chronoamperometry were performed and two different electrode compositions were also compared. Maximum current densities of 125.7, 98.7 and 11.5 μA cm⁻² were observed before 24 h and coulombic efficiencies of 56.5, 46.5 and 23.8% were obtained for SIS-31, SIS-21 and SIS-18, respectively. Conversely, maximum power outputs of 328.73, 288.80 and 197.77 mW m⁻³ were observed for SIS-18, SIS-21 and SIS-31, respectively. This work provides the primary experimental evidences that fungi isolated from the Caatinga region in Brazil can serve as efficient biocatalysts during the oxygen reduction in air-cathodes to improve electricity generation in MFCs.     

Bioprospecting for fungi with potential pathogenic activity on leaves of Agave tequilana Weber var. Azul

Thirty different fungal strains were isolated from A. tequilana leaves showing disease symptoms such as wilt and curled leaves, black, red and chlorotic spots. Ten genera were identified and confirmed by using the LSU D1/D2 rDNA and ITS1‐5.8S‐ITS2 regions, mainly of the Ascomycota phylum, where the Lasiodiploidia and Neoscytalidium genera were the more (46.6%) abundant. The other genera identified were Cladosporium, Cytospora, Epicoccum, Flavodon, Lasiodiplodia, Myrmaecium, Neoscytalidium, Penicillium, Peniophora, Purpureocillium, Trametes and Fusarium. Five strains of Lasiodiplodia and one of Fusarium were selected based on their representativeness and pathogenic potential on Agaves. Pathogenic potential was analysed by both, an infection assay, evidenced as necrosis, and by pectinolytic activity. Specifically, necrosis infection assay was conducted by puncture (wounded) infection and by direct mycelium contact. In general, Lasiodiplodia strains exhibited different pathogenic profiles according to their necrosis percentages, regardless of the infection method used. Fusarium strain analysed also showed a high necrosis infection (> 99%). Pectinolytic activity used as an indirect measurement of pathogenesis presented a high Fusarium extract activity (peaking at 23.9 U). Lasiodiplodia strains exhibited up 6 times more enzymatic activity (peaking at 143.5) than Fusarium strain analysed. In addition, Agave leaf extracts used totally or partially as carbon source during fungal induction culture may induce different pathogenic activities in these strains. In general, the two pathogenicity assays implemented evidenced differences in the pathogenicity profile of these analysed strains.     

Effective pH pretreatment and cell disruption method for real-time intracellular enzyme activity assay of a marine fungus covered with pigments

Filamentous fungi are capable producers of many bioactive compounds, and real-time intracellular enzyme activity assay is an essential guidance for their bioprocess developments. However, there are many difficulties in preparing homogenate for enzyme activity assay, such as disrupting fungal cell with complicated cellular structure and solid cell wall, removing abundant extracellular metabolites accumulating on mycelia, and so on. Halorosellinia sp. (No. 1403) was a marine-derived filamentous fungus producing a potential antitumor compound 1403C, and the deep red pigments (with main component of 1403C) covering on its mycelia showed strong absorption in a wide range, which critically affected the measurement of many enzyme activities. In this study, we developed an effective pH pretreatment and cell disruption method to prepare homogenate for enzyme activity assay. When mycelia were washed by the solution with pH 5.0 for 3?min, most pigments could be removed without severe loss on enzyme activities. Afterward, grinding with mini bead for 15?min with alternating cooling could effectively disrupt both cell wall and mitochondrial membrane. These methods have been successfully applied on real-time intracellular enzyme activity assay of Halorosellinia sp. (No. 1403) and can offer enlightenment for other filamentous fungi with similar problems.     

Phenoloxidase (E.C. 1.14.18.1) from the byssus gland of Mytilus edulis: Purification,partial characterization and application for screening products with potential antifouling activities

Although a total ban on the use of TBT coatings is not expected in the short term, there is a growing need for environmentally safe antifouling systems. To assist in the rapid screening of a large number of potential antifouling substances, a method that is simple, efficient and inexpensive is required. The production of byssus threads by the blue mussel, Mytilus edulis, has often been studied for testing the antifouling efficacy of various compounds. The present study reports a new antifouling assay based on the inhibition of purified M. edulis phenoloxidase activity. The method has the advantage of being specific, reliable, sensitive and rapid.