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Mycelia

Distribution by Scientific Domains
Life Sciences77%
Chemistry15%
2 Other Domains8%
Distribution within Life Sciences
Plant Science28%
Biotechnology (Life Sciences)19%
Plant Pathology14%
Entomology5%
7 Other Subdomains34%

Kinds of Mycelia

  • fungal mycelia
    		•

    Selected Abstracts

    Effects of Whey Permeate-Based Medium on the Proximate Composition of Lentinus edodes in the Submerged Culture

    JOURNAL OF FOOD SCIENCE, Issue 6 2006
    Xiaojun Jeffrey Wu
    ABSTRACT:, Biomass production, crude water-soluble polysaccharide (WSP), ash content, mineral profile, and crude protein content were determined for Lentinus edodes mycelia grown on whey permeate (WP)-based medium with lactose content of 4.5% or defined synthetic medium, and harvested after 5, 10, 15, or 20 d of fermentation at 25 °C. Harvesting time and the type of media interact to alter the chemical content of mycelia. Mycelia grown in WP had greater (P < 0.05) WSP and ash than mycelia grown in the synthetic media. A maximum production of WSP was obtained on the 10th day (4.1 × 102± 71 mg WSP/g dried mycelia) from mycelia grown on the WP-based media. Mycelia grown on WP harvested on the 20th day had the highest value in ash content (18 ± 3%). Potassium was found to be the main constituent in the ash of mushroom mycelia, which was followed by phosphorus, sodium, calcium, and magnesium. A steady increase of ash content was only noted in mycelia grown on WP. The calcium content of WP-grown mycelia was at least 10 times higher compared to mycelia grown in the control media regardless the harvesting time. Data in this research suggested that WP was more favorable than the synthetic media in the production of WSP, which is traditionally known for their medicinal value in L. edodes. [source]

    Identification and Regulation of Genes from a Biocontrol Strain of Fusarium oxysporum

    JOURNAL OF PHYTOPATHOLOGY, Issue 9 2007
    D. R. Fravel
    Abstract Differential display with three time points revealed that thiram altered expression of numerous genes in the biocontrol fungus Fusarium oxysporum CS-20. Of the 101 bands purified from the differential display gel, 86 were successfully cloned, and 64 sequenced. Based on nucleic acid sequences, homology to known products was found using BLASTn for 26 sequences and homology to hypothetical proteins was found for six sequences, also from Gibberella zeae. One band (BM1 24-1) showed homology to an ABC transporter from three different fungi. Because of its association with detoxification functions, the ABC transporter was selected for further study. Mycelia of CS-20 were exposed to 25 ,g active ingredient (a.i.) thiram in liquid culture for various times from 0 to 8 h. Quantitative real-time PCR was used to evaluate gene expression. At 30 min after treatment with thiram, the ABC transporter was upregulated 20- to 25-fold relative to the control treatment. The ABC transporter was upregulated 15-fold at 1 h after treatment and 10-fold at 2 h. At 8 h after treatment, there was no difference between treated and non-treated for expression of the ABC transporter. Transcription of the gene encoding EST BM1 24-1 is induced in response to thiram treatment and may function in providing resistance in F. oxysporum isolate CS-20 to fungicides and other toxins. Tolerance to toxins may be critical to the successful inclusion of CS-20 in disease control strategies in cropping systems. [source]

    Coordinated Development of Yeast Colonies: An Experimental Analysis of the Adaptation to Different Nutrient Concentrations , Part 1

    ENGINEERING IN LIFE SCIENCES (ELECTRONIC), Issue 2 2005
    T. Walther
    Abstract The development of yeast colonies on solid agar substrates served as a model system to investigate the growth of higher fungi in a heterogeneous environment. Applying a new analytical technique , which was based on the estimation of the intensity of transmitted light from microscopic images taken along the colony radius , cell-density distributions inside fungal mycelia were measured at an extremely high spatial resolution. Using this method, the adaptation of yeast colonies to the limitation of different nutrients was investigated. Under conditions of carbon or nitrogen limitation, populations of the dimorphic model yeasts Yarrowia lipolytica and Candida boidinii underwent a transition in their morphology from solid colony to mycelial colony patterns. When grown under conditions that induced the mycelial morphology, colonies extended linearly at a constant rate irrespective of the initial nutrient concentration. In general, the cell density within the population declined at higher degrees of limitation. Nitrogen-limited colonies of both model yeasts, as well as carbon-limited Y.,lipolytica colonies proceeded to extend until the growth field was finally covered by the population. Under these conditions, areas of fairly constant cell densities were formed during the growth process. Only carbon-limited C.,boidinii colonies stopped extending at a final diameter which was small when compared to the size of the growth field, and formed a cell-density profile which was monotonically declining. The observed differences in the final colony diameter, and in the cell-density profile morphology indicated the presence of different regulatory mechanisms that ruled the colony development of the model yeasts. The presented monitoring technique for the biomass distribution inside fungal populations provided the basis for a quantitative and non-invasive description of mycelial development. [source]

    Plants, gall midges, and fungi: a three-component system

    ENTOMOLOGIA EXPERIMENTALIS ET APPLICATA, Issue 1 2008
    Odette Rohfritsch
    Abstract Larvae of gall midges (Diptera: Cecidomyiidae) induce the activation of plant cells, partial cell lysis, and differentiation of nutritive tissue. Specialized nutritive tissue is essential for larval development and plays a key role in gall organization. Midges of the tribes Lasiopterini and Asphondyliini, however, do not induce nutritive tissues as part of the formation of their galls. Instead, these ,ambrosia galls' contain fungal mycelia that line the interior surface of the chambers. The fungi not only provide Lasiopterini with nutrition, they also penetrate the stems, induce the lysis of the middle lamella of host cells, and open a channel to the vascular bundles. Larvae of Lasioptera arundinis (Schiner) (Lasiopterini) follow the fungus and feed on its mycelium along with adjoining stem cells of Phragmites australis (Cav.) Trin. (Poaceae). Eggs together with fungal conidia are deposited by the imago on the host. Asphondyliini use a needle-like ovipositor to introduce fungal conidia and eggs into the organs they attack. Larvae of Schizomyia galiorum Kieffer (Asphondyliini) are unable to initiate the gall or to develop in the flowers of Galium mollugo L. (Rubiaceae) without their fungal associate. In this article, I provide an overview of oviposition behaviour in the Asphondyliini, as well as descriptions of the ovipositor and the female post-abdominal segments. Gall formation by Lasiopterini and Asphondyliini and the role of associated fungi are discussed, as is the role of the fungus as an inquiline or an organizer of gall tissues and a nutritive device. [source]

    Identification and characterization of the n -6 fatty acid-producing Mucor rouxii native isolate CFR-G15

    EUROPEAN JOURNAL OF LIPID SCIENCE AND TECHNOLOGY, Issue 3 2010
    Shivaramu S. Mamatha
    Abstract In zygomycetes fungi, many Mucor spp. have been known to produce ,-linolenic acid (GLA) in their biomass. Among 250 soil samples screened, 20 Mucor isolates showed GLA in their mycelial mass under normal cultivation conditions. Sudan Black,B was used for screening their qualitative oleaginesity. Among the representative isolates, Mucor sp. CFR-G15, when grown in a fat-producing medium, showed a maximum lipid content of 30,±,1.32% in its mycelia and 14.42,±,0.74% GLA. By using gene-specific primers, the 18S rRNA gene and the ,6,DES gene were amplified by PCR technique. The nucleotide sequences of the 18S rRNA and ,6,DES genes exhibited >98% homology with M.,rouxii ATCC 24905 (accession nos. AF117923 and AF296076, respectively), suggesting taxonomic identity. The native isolate M.,rouxii CFR-G15 reported in this study was found to be promising for the development of an economical process in the industrial production of GLA. [source]

    Biochemical and molecular characterization of a laccase from the edible straw mushroom, Volvariella volvacea

    FEBS JOURNAL, Issue 2 2004
    Shicheng Chen
    We have isolated a laccase (lac1) from culture fluid of Volvariella volvacea, grown in a defined medium containing 150 µm CuSO4, by ion-exchange and gel filtration chromatography. Lac1 has a molecular mass of 58 kDa as determined by SDS/PAGE and an isoelectric point of 3.7. Degenerate primers based on the N-terminal sequence of purified lac1 and a conserved copper-binding domain were used to generate cDNA fragments encoding a portion of the lac1 protein and RACE was used to obtain full-length cDNA clones. The cDNA of lac1 contained an ORF of 1557 bp encoding 519 amino acids. The amino acid sequence from Ala25 to Asp41 corresponded to the N-terminal sequence of the purified protein. The first 24 amino acids are presumed to be a signal peptide. The expression of lac1 is regulated at the transcription level by copper and various aromatic compounds. RT-PCR analysis of gene transcription in fungal mycelia grown on rice-straw revealed that, apart from during the early stages of substrate colonization, lac1 was expressed at every stage of the mushroom developmental cycle defined in this study, although the levels of transcription varied considerably depending upon the developmental phase. Transcription of lac1 increased sharply during the latter phase of substrate colonization and reached maximum levels during the very early stages (primordium formation, pinhead stage) of fruit body morphogenesis. Gene expression then declined to ,,20,30% of peak levels throughout the subsequent stages of sporophore development. [source]

    Influence of arbuscular mycorrhizal mycelial exudates on soil bacterial growth and community structure

    FEMS MICROBIOLOGY ECOLOGY, Issue 2 2007
    Jonas F. Toljander
    Abstract Plant root systems colonized by arbuscular mycorrhizal (AM) fungi have previously been shown to influence soil bacterial populations; however, the direct influence of the AM extraradical mycelium itself on bacterial growth and community composition is not well understood. In this study, we investigated the effects of exudates produced by AM extraradical mycelia on the growth and development of an extracted soil bacterial community in vitro. The chemical composition of the mycelial exudates was analysed using proton nuclear magnetic resonance spectrometry. Following the addition of exudates to a bacterial community extracted from soil, bacterial growth and vitality were determined using a bacterial vitality stain and fluorescence microscopy. Changes in community composition were also analysed at various times over the course of 3 days by terminal restriction fragment length polymorphism analysis, in combination with cloning and sequencing of 16S rRNA genes. Mycelial exudates increased bacterial growth and vitality and changed bacterial community composition. Several Gammaproteobacteria, including a taxon within the Enterobacteriaceae, increased in frequency of occurrence in response to AM mycelial exudates. This study is the first attempt to identify carbohydrates from the extraradical mycelium of an AM fungus, and demonstrates the direct effects of mycelial exudates on a soil bacterial community. [source]

    Lead and cadmium uptake in the marine fungi Corollospora lacera and Monodictys pelagica

    FEMS MICROBIOLOGY ECOLOGY, Issue 3 2005
    Michael A.S. Taboski
    Abstract This study provides observations on the effects of lead and cadmium ions on the growth of two species of marine fungi, Corollospora lacera and Monodictys pelagica. On solid media lead appeared to have no effect on the radial rate of growth of fungi. Exposure to increasing cadmium concentrations on solid media resulted in significant reduction (P < 0.05) in the radial mycelial growth rates of both fungi, especially in M. pelagica. These results reveal significant difference in species sensitivity toward cadmium and, essentially, insensitivity toward lead exposure. In liquid cultures, the metal content of mycelia (metal mass found in mycelium, in mg), and the concentration of metal in dry mycelium (metal mass in 1 g of mycelium, in mg g,1) were both found to increase (P < 0.05) with the increase in the metal cation concentration, while mycelium dry mass decreased. As it was observed on solid media, cadmium cation affected more severely (P < 0.05) the growth of M. pelagica in liquid cultures. Ergosterol content of mycelia of C. lacera exposed to increasing cadmium cation concentration decreased, similarly to the trend observed for dry mycelial mass. It was found that ca. 93% of all lead sequestered by C. lacera is located extracellularly. M. pelagica was found to bioaccumulate over 60 mg of cadmium and over 6 mg of lead per 1 g of mycelium, while C. lacera bioaccumulated over 7 mg of cadmium and up to 250 mg of lead per 1 g of mycelium. Overall, the results indicate that both metal ions affect the growth of marine fungi with lead being accumulated extracellularly in the mycelia. Both metals accumulated by fungi may then enter the marine ecosystem food web, of which marine fungi are integral members. [source]

    Foliar susceptibility of eastern oak species to Phytophthora infection

    FOREST PATHOLOGY, Issue 5 2008
    Y. Balci
    Summary Seven different Phytophthora species were used to test the foliar susceptibility of the common eastern US oak species and understory plants to Phytophthora infection. The Phytophthora species employed were Phytophthora cambivora, Phytophthora cinnamomi, Phytophthora citricola, Phytophthora europaea, Phytophthora quercetorum, Phytophthora quercina -like and Phytophthora sp1. Inoculation of detached-leaves with agar plugs containing mycelia of Phytophthora provided an estimate of their relative susceptibility. Lesions were always greater when foliage was wounded and young. On deciduous plants, lesion sizes were considerably reduced with the increasing foliar age, although with evergreen plants lesion sizes remained similar regardless of foliar age when more aggressive isolates were tested. Infections seldom resulted when foliage was not wounded. With young and mature foliage, P. citricola usually produced the largest lesions. Young foliage of Quercus rubra was the most susceptible to infection followed by Castanea dentata for both wounded and non-wounded inoculations. Mature foliage of Hamamelis virginiana, Kalmia latifolia and Quercus alba were the most susceptible to wound and non-wound inoculations. [source]

    Methods for inoculum production and inoculation of Cistella japonica, the causal agent of resinous stem canker in Chamaecyparis obtusa

    FOREST PATHOLOGY, Issue 1 2008
    T. Yamanobe
    Summary The ascomycete Cistella japonica was cultured on potato dextrose agar medium (PDA) for inoculation into Chamaecyparis obtusa, enabling the development of an inoculation method suitable for use in a breeding programme aimed at selecting for families of Ch. obtusa resistant to resinous stem canker. Using PDA to generate the inoculum resolved the problems encountered with the previously used mixed medium of rice bran and wheat bran, including unfavourable characteristics, uncertain growth of Ci. japonica mycelia, and a complex culturing operation. The inoculation test induced resin exudation similar to that observed in natural infections, and reproduced clonal differences with regard to damage severity. [source]

    The use of the green fluorescent protein as a biomarker for sapstain fungi

    FOREST PATHOLOGY, Issue 3 2002
    S. LEE
    To understand wood colonization by sapstain fungi and their potential biocontrol agents, it is necessary to differentiate these organisms directly on their natural substrates. In the present study the feasibility of transforming with the green fluorescent protein (GFP), the sapstain fungus Ophiostoma piceae and a potential biocontrol agent Cartapip®, an Ophiostoma piliferum albino strain was assessed. Transformants of the two fungal species were screened by polymerase chain reaction and Southern blot analyses. The GFP was expressed in spores, synnemata and mycelia of the transformants grown in artificial media or wood. The growth, pigmentation and wood colonization of the transformants were similar to that of the non-transformants, suggesting that the presence of the gfp gene had no negative effect on the biology of the transformants. Using fluorescence and confocal microscopy, the GFP-expressing fungi were easily differentiated from the wild-type strains and other fungal species in wood, even 4 months after inoculation. The results show that the use of the GFP system is feasible to monitor Ophiostoma fungi in wood. Utilisation de la protéine fluorescente verte (GFP) comme marqueur biologique des champignons de bleuissement du bois Pour comprendre la colonisation du bois par les champignons de bleuissement et par les agents de lutte biologique potentiels, il est nécessaire de distinguer ces organismes directement dans leur substrat naturel. Nous avons évalué la possibilité de transformation par la protéine fluorescente verte (GFP) du champignon de bleuissement Ophiostoma piceae et d'une souche albinos de Ophiostoma piliferum, agent de lutte biologique potentiel Cartapip®. Des transformants des deux espèces fongiques ont été triés par analyses PCR et Southern blot. La GFP a été exprimée dans les spores, les synnemas et le mycélium des transformants cultivés sur milieux artificiels et sur bois. Avec les transformants, la croissance, la pigmentation et la colonisation du bois étaient semblables à celles des non transformants, ce qui suggère que la présence du gène gfp n'a pas d'effet négatif sur la biologie des transformants. Par microscopie confocale à fluorescence, les champignons exprimant la GFP ont été facilement distingués des souches de type sauvage et d'autres espèces fongiques dans le bois, même 4 mois après inoculation. Nos résultats montrent que l'utilisation de la GFP est possible pour suivre les Ophiostoma dans le bois. Verwendung des Grünen Fluoreszenzproteins als Biomarker für Bläuepilze Um die Besiedelung von Holz durch Bläuepilze und ihre möglichen Antagonisten zu verstehen, muss man diese Organismen direkt auf ihrem natürlichen Substrat unterscheiden können. Es wurde überprüft, ob sich der Bläuepilze Ophiostoma piceae und der mögliche Antagonist Cartapip®, ein Albinostamm von Ophiostoma piliferum, mit dem Grünen Fluoreszenzprotein (GFP) transformieren lassen. Transformierte Stämme der beiden Pilzarten wurden mit PCR und Southern Blot Analysen untersucht. Das GFP wurde in Sporen, Synnemata und Myzelien der transformierten Stämme exprimiert. Dies war auf künstlichen Medien ebenso wie auf Holz der Fall. Wachstum, Pigmentierung und Holzbesiedelung waren bei den transformierten Stämmen ähnlich wie bei den nichttransformierten; somit dürfte die Präsenz des gfpGens keine negativen Auswirkungen auf die Biologie der transformierten Stämme haben. Mit Hilfe der Fluoreszenz- und Konfokal-Mikroskopie konnten die GFP exprimierenden Pilze leicht von den Wildtyp-Stämmen und anderen Pilzarten auf Holz unterschieden werden. Dies war auch noch vier Monate nach der Inokulation der Fall. Die Ergebnisse zeigen, dass das GFP-System zur Beobachtung von Ophiostoma -Arten im Holz geeignet ist. [source]

    Interspecific carbon exchange and cost of interactions between basidiomycete mycelia in soil and wood

    FUNCTIONAL ECOLOGY, Issue 2 2002
    J. M. Wells
    Summary 1.,The outcome of interactions between wood decay basidiomycete fungi is affected by the size of territory held by a mycelium. We investigated the outcomes of interactions between the cord-forming saprotrophs Phanerochaete velutina (DC: Pers.) Parm., Phallus impudicus (L.) Pers. and Hypholoma fasciculare (Huds: Fr) Kumner over 152,155 days, determined as ability to capture or share territory in soil and wood, in terms of decay partitioning and the carbon cost of interactions. 2.,The outcome of interactions in wood alone differed from those in which the fungi competed for an opponents' inoculum in soil microcosms. Competitive ability (the ability to capture or co-occupy an opponent's inoculum) varied according to species and inoculum age. In wood block pairings in the absence of soil there was evidence that P. velutina opportunistically utilized C previously mobilized within an opponent's inoculum. 3.,In soil systems, short-term (28-day) respiratory losses of preloaded 14C (supplied as glucose) indicated that interaction could have a substantial C cost, depending on the resource quality of the opponents' inocula. Phallus impudicus inocula accumulated 14C from opponents' mycelia during ,deadlock' interactions, although reciprocal interspecific 14C transfer was not observed. 4.,Saprotrophic cord-forming basidiomycetes are considered to be highly conservative of acquired nutrients, representing a significant nutrient reservoir in woodland ecosytems. Here we demonstrate that a potential major pathway for nutrient mineralization by this group is nutrient loss during competitive interactions in soil. [source]

    Hereditary palmoplantar keratoderma (four cases in three generations)

    INTERNATIONAL JOURNAL OF DERMATOLOGY, Issue 2 2001
    Virendra N. Sehgal MD
    A 39-year-old man reported with progressive thickening of the skin of the hands and feet and an inability to flex his hand. It was largely asymptomatic; however, brisk walking caused excessive sweating, pain, and widening of the fissures on the soles of the feet. He was unable to walk barefooted. According to his mother, the first episode presented with blistering at 7 days of age. Ever since, the condition has steadily worsened to acquire the current status. He was married at the age of 18 years, and had a stillborn child 18 months afterwards. Presently, he has three children, two girls aged 14 and 12 years and a son aged 10 years. Both the daughters are similarly affected. While cataloguing the details of the pattern of inheritance, the mother of the index case was also found to be affected (Fig. 1). The natural history of the disease was identical. Figure 1. Palmoplantar keratoderma: pattern of inheritance; black indicates affected individuals Examination of the palms was marked by pronounced thickening of the skin resulting in the masking of palmar creases. The thickening was well demarcated and its margins were prominent and surrounded by an erythematous halo. The color of the skin was yellow and waxy (Fig. 2a). Contractures were present on all the fingers; nevertheless, the deformity of the middle and distal interphalangeal joints of the little finger was prominent. The soles of the feet had a similar morphology. In addition, marked fissuring was obvious (Fig. 2b). His daughters had an identical affliction of the palms and soles. The texture and morphology of the nails were normal. Light microscopy performed on scrapings from the fissures, mounted on 10% potassium hydroxide, revealed mycelia (hyphae) and spores. Figure 2. Well-demarcated hyperkeratosis depicting the yellow, waxy color of the palms, with masking of creases (a). Marked fissuring on the soles was prominent (b) Hematoxylin and eosin-stained microsections from the palms and soles showed exquisite changes in the epidermis characterized by considerable uniform orthohyperkeratosis. Hypergranulosis and acanthosis were other associated changes. In addition, perinuclear vacuolization and keratohyalin granules of varying sizes and shapes were located at the periphery of the cells. A sparse mononuclear infiltrate was located at the dermo-epidermal junction. Hyphae and spores of fungi were also identified in the stratum corneum (Fig. 3). Figure 3. Orthohyperkeratosis, hypergranulosis, and acanthosis. Perinuclear vacuolization and keratohyalin granules at the periphery of the cells; a sparse mononuclear infiltrate was also present (hematoxylin and eosin, ×,40 (a), ×,400 (b)) Itraconazole, 400 mg/day in two equally divided doses, was administered with major meals for 7 days. In addition, high doses of vitamin A (100,000 IU) were given daily for 2 weeks, supplemented by 12% salicylic acid (Salicylix SF12) ointment for daytime application and an ointment containing 6% coal tar and 3% salicylic acid (Salytar) for night-time application. This treatment is useful in recalcitrant cases. [source]

    Insecticidal activities of secondary metabolites of endophytic Pencillium sp. in Derris elliptica Benth

    JOURNAL OF APPLIED ENTOMOLOGY, Issue 8 2005
    M. Y. Hu
    Abstract:, A strain of endophytic Pencillium sp., which might produce rotenone or its analogues and showed bioactivity against aphids, was isolated from the fresh roots of Derris elliptica Benth. A total of 12 fractions, isolated from the chloroform extract of endophytic Pencillium sp. mycelia by silica gel column, were tested by bioassay and high-performance liquid chromatography (HPLC), and the more bioactive fractions were found to be D, E and J. Against the adult turnip aphid, Lipaphis erysimi, by dipping at a concentration of 1 mg/ml, the corrected mortalities of fraction D, E and J were 57.68, 63.28 and 69.74% after 48 h of treatment respectively. The three fractions also showed strong antifeeding activity against third instar larvae of Plutella xylostella in a laboratory bioassay. One absorption peak was detected in the HPLC picture of fraction D, it had a similar retention time as that of rotenone, and the chemical constituent, related to the absoption peak, had the same ultraviolet absorption picture as that of rotenone. Then it could be further concluded that the bioactive compounds in the fraction D could be rotenone or its analogous compounds. [source]

    Biotransformation enzymes in Cunninghamella blakesleeana (NCIM-687)

    JOURNAL OF BASIC MICROBIOLOGY, Issue 6 2006
    Sanjyot Bhosale
    Presence of higher enzyme levels of aminopyrine N-demethylase, aniline hydroxylase and 11- , hydroxylase activities were observed in Cunninghamella blakesleeana grown in potato-dextrose medium for 96 h. The enzyme activity preferred NADPH as a cofactor and showed inhibition with CO, indicating cytochrome P450 mediated reactions. A significant increase in aniline hydroxylase enzyme activity was observed when mycelia incubated in incubation medium containing different inducers (viz. camphor, cholesterol, naphthalene, veratrole, phenobarbital, n -hexadecane and ethyl alcohol) when compared with mycelia incubated in same way but in absence of inducers. Cunninghamella blakesleeana (NCIM 687) have shown the ability to degrade cholesterol, camphor and naphthalene when 96 h grown mycelia incubated in incubation medium containing these organic compounds. (© 2006 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) [source]

    Effect of Calcium Propionate and Water Activity on Growth and Aflatoxins Production by,Aspergillus flavus

    JOURNAL OF FOOD SCIENCE, Issue 2 2010
    Sahib Alam
    ABSTRACT:, The efficacy of calcium propionate at 2 different doses (0.5% and 1%) against growth and aflatoxins production by,Aspergillus flavus,(A-2092) was investigated,in vitro,on Czapek yeast extract agar at different levels of water activity (aw) in the range of 0.94 to 0.996aw.,A. flavus,spores germinated on all calcium propionate and aw,treatments; however, 1% calcium propionate at 0.94 aw,delayed the germination process for up to 10 d. The growing rate of mycelia was slower (0.28 mm/d) at 1% calcium propionate and 0.94 aw. Aflatoxins (B1, B2, G1, and G2) were also produced minimally (36.1, 1, 1.86, and 1.01 ng/g of media, respectively) at the aforementioned dose rate of calcium propionate and water activity. It was concluded that addition of calcium propionate and aw,amelioration can prove effective tools for suppressing the germination, growth rate, and aflatoxins production by,A. flavus,in substrate. [source]

    Antioxidant Properties of Edible Basidiomycete,Phellinus igniarius,in Submerged Cultures

    JOURNAL OF FOOD SCIENCE, Issue 1 2010
    Ming Yeou Lung
    ABSTRACT:, Dried mycelia and mycelia-free broths produced by submerged cultures of,Phellinus igniarius,under optimal culture conditions were extracted using methanol and hot water and investigated for antioxidant properties. Methanolic extracts from dried mycelia (MEM) and mycelia-free broth (MEB) showed significant antioxidant properties for all EC50 values less than 10 mg/mL except for MEB in scavenging effects on DPPH radicals. Hot water extracts from dried mycelia (HWEM) were evidenced by their low EC50 values (<10 mg/mL) to be effective in reducing power, chelating effect on ferrous ions, and scavenging effect on superoxide anions. ,-tocopherol was mainly found in MEM and ,-tocopherol in MEB. Ascorbic acid and total flavonoids were abundant in methanolic extracts (MEM + MEB), whereas total phenols were rich in HWEM. An excellent correlation between contents of total phenols and EC50 values was accomplished for antioxidant activity (R2= 0.996) and chelating ferrous ions ability (R2= 0.922). Practical Application: In our paper, the products by submerged culture of,Phellinus igniarius,exhibited powerful antioxidant properties. Results told that extracts from fermenting products by,P. igniarius,might be good sources for antioxidant-related functional foods and pharmaceutical industries. [source]

    Effects of Whey Permeate-Based Medium on the Proximate Composition of Lentinus edodes in the Submerged Culture

    JOURNAL OF FOOD SCIENCE, Issue 6 2006
    Xiaojun Jeffrey Wu
    ABSTRACT:, Biomass production, crude water-soluble polysaccharide (WSP), ash content, mineral profile, and crude protein content were determined for Lentinus edodes mycelia grown on whey permeate (WP)-based medium with lactose content of 4.5% or defined synthetic medium, and harvested after 5, 10, 15, or 20 d of fermentation at 25 °C. Harvesting time and the type of media interact to alter the chemical content of mycelia. Mycelia grown in WP had greater (P < 0.05) WSP and ash than mycelia grown in the synthetic media. A maximum production of WSP was obtained on the 10th day (4.1 × 102± 71 mg WSP/g dried mycelia) from mycelia grown on the WP-based media. Mycelia grown on WP harvested on the 20th day had the highest value in ash content (18 ± 3%). Potassium was found to be the main constituent in the ash of mushroom mycelia, which was followed by phosphorus, sodium, calcium, and magnesium. A steady increase of ash content was only noted in mycelia grown on WP. The calcium content of WP-grown mycelia was at least 10 times higher compared to mycelia grown in the control media regardless the harvesting time. Data in this research suggested that WP was more favorable than the synthetic media in the production of WSP, which is traditionally known for their medicinal value in L. edodes. [source]

    Effect of Monoterpenes on Lipid Composition and Sclerotial Development of Sclerotium cepivorum Berk.

    JOURNAL OF PHYTOPATHOLOGY, Issue 7-8 2006
    E. I. Lucini
    Abstract Monoterpenes have antifungal activity on pathogenic fungi. The purpose of this study was to examine the effect of seven monoterpenes on phospholipid and sterol composition of Sclerotium cepivorum Berk as well as lipid peroxidation of mycelia and sclerotia development. Most of the monoterpenes increased the ergosterol content with a consequent diminution in the phospholipid/sterol ratio. This ratio was significantly decreased by the thymol treatment. When the fungus was grown in the presence of thymol or borneol, the saturated fatty acid content and the lipid peroxides were increased, concomitant with an increase of the sclerotial diameter. These results indicate that thymol and borneol may be promoting generation of lipid peroxides. Sclerotial differentiation was retarded mainly by camphor, 1,8-cineole, linalool and menthol. [source]

    Fungal endophytes from Dioscorea zingiberensis rhizomes and their antibacterial activity

    LETTERS IN APPLIED MICROBIOLOGY, Issue 1 2008
    L. Xu
    Abstract Aims:, The aim of the study was to isolate and characterize the endophytic fungi from the rhizomes of the Chinese traditional medicinal plant Dioscorea zingiberensis and to detect their antibacterial activities. Methods and Results:, After strict sterile sample preparation, nine fungal endophytes were isolated from rhizomes of the Chinese traditional medicinal plant D. zingiberensis. The endophytes were classified by morphological traits and internal transcribed spacer (ITS) rRNA gene sequence analysis. Their ITS rDNA sequences were 99,100% identical to Nectria, Fusarium, Rhizopycnis, Acremonium and Penicillium spp. respectively. Of these, the most frequent genera were Fusarium and Nectria. One isolate, Dzf7, was unclassified on the basis of its low sequence similarity. The next closest species was Alternaria longissima (c. 92·4% sequence similarity). Endophyte isolate Dzf5 showed the closest sequence similarity (c. 99·5%) to an uncultured soil fungus (DQ420800) obtained from Cedar Creek, USA. Bioassays using a modified broth dilution test were used to detect the antibacterial activity of n -butanol extracts of both mycelia and culture filtrates of D. zingiberensis showed biological activity against Bacillus subtilis, Staphylococcus haemolyticus, Escherichia coli and Xanthomonas vesicatoria. Minimal inhibitory concentration (MIC) values of the extracts were between 31·25 ,g ml,1 and 125 ,g ml,1. Conclusions:, Endophytic fungus Dzf2 (c. 99·8% sequence similarity to Fusarium redolens) isolated from D. zingiberensis rhizome showed the most potent antibacterial activities. Significance and Impact of the Study:, Endophytic fungi isolated from D. zingiberensis may be used as potential producers of antibacterial natural products. [source]

    Molecular characterization, function and regulation of ammonium transporters (Amt) and ammonium-metabolizing enzymes (GS, NADP-GDH) in the ectomycorrhizal fungus Hebeloma cylindrosporum

    MOLECULAR MICROBIOLOGY, Issue 2 2003
    Arnaud Javelle
    Summary External hyphae, which play a key role in nitrogen nutrition of trees, are considered as the absorbing structures of the ectomycorrhizal symbiosis. Here, we have cloned and characterized Hebeloma cylindrosporum AMT1, GLNA and GDHA genes, which encode a third ammonium transporter, a glutamine synthetase and an NADP-dependent glutamate dehydrogenase respectively. Amt1 can fully restore the pseudohyphal growth defect of a Saccharomyces cerevisiae mep2 mutant, and this is the first evidence that a heterologous member of the Mep/Amt family complements this dimorphic change defect. Dixon plots of the inhibition of methylamine uptake by ammonium indicate that Amt1 has a much higher affinity than the two previously characterized members (Amt2 and Amt3) of the Amt/Mep family in H. cylindrosporum. We also identified the intracellular nitrogen pool(s) responsible for the modulation of expression of AMT1, AMT2, AMT3, GDHA and GLNA. In response to exogenously supplied ammonium or glutamine, AMT1, AMT2 and GDHA were downregulated and, therefore, these genes are subjected to nitrogen repression in H. cylindrosporum. Exogenously supplied nitrate failed to induce a downregulation of the five mRNAs after transfer of mycelia from a N-starved condition. Our results demonstrate that glutamine is the main effector for AMT1 and AMT2 repression, whereas GDHA repression is controlled by intracellular ammonium, independently of the intracellular glutamine or glutamate concentration. Ammonium transport activity may be controlled by intracellular NH4+. AMT3 and GLNA are highly expressed but not highly regulated. A model for ammonium assimilation in H. cylindrosporum is presented. [source]

    Enhanced biocontrol activity of Trichoderma virens transformants constitutively coexpressing ,-1,3- and ,-1,6-glucanase genes

    MOLECULAR PLANT PATHOLOGY, Issue 4 2007
    SLAVICA DJONOVI
    SUMMARY Evidence for the role of chitinases, proteases and ,-1,3- and ,-1,6-glucanases in mycoparasitism by Trichoderma species has been well documented. Moreover, constitutive over-expression of genes encoding individual cell-wall-degrading enzymes (CWDEs) has been shown to improve the potential of biological agents. In this study, we generated transformants of T. virens in which ,-1,3- and ,-1,6-glucanase genes, TvBgn2 and TvBgn3, respectively, were constitutively coexpressed in the same genetic T. virens Gv29.8 wild-type background. The double over-expression transformants (dOEs) grow and sporulate slower than the wild-type (WT). However, the reduction in growth did not seem to affect their mycoparasitic and biocontrol capabilities, as dOEs displayed much higher levels of total ,-1,3- and ,-1,6-glucanase activity than the WT. This higher enzymatic activity of dOEs positively correlated with observed in vitro inhibition of Pythium ultimum and Rhizoctonia solani mycelia, and with enhanced bioprotection of cotton seedlings against P. ultimum, R. solani and Rhizopus oryzae. Besides effective biocontrol of all pathogens at an original inoculum level, the performance of dOEs was highly enhanced (up to 312% of WT performance) when pathogen pressure was greater (i.e. concentration of inoculum was higher or pathogens applied in combination). These results demonstrate that the strategy of introducing multiple lytic enzyme-encoding genes through transformation of a given biocontrol strain can be successfully used to achieve better biocontrol. [source]

    Fusarium wilt (Fusarium oxysporum f. sp. vasinfectum) genes expressed during infection of cotton (Gossypium hirsutum),

    MOLECULAR PLANT PATHOLOGY, Issue 2 2006
    HELEN G. MCFADDEN
    SUMMARY We sought to identify Fusarium oxysporum f. sp. vasinfectum (Fov) genes that may be associated with pathogenicity. Initially we utilized microarray and Q-PCR technology to identify Fov genes expressed in root and hypocotyl tissues during a compatible infection of cotton. We identified 218 fungal clones representing 174 Fov non-redundant genes as expressed in planta. The majority of the expressed sequences were expressed in infected roots, with only six genes detected in hypocotyl tissue. The Fov genes identified were predominately of unknown function or associated with fungal growth and energy production. We then analysed the expression of the identified fungal genes in infected roots and in saprophytically grown mycelia and identified 11 genes preferentially expressed in plant tissue. A putative oxidoreductase gene (with homology to AtsC) was found to be highly preferentially expressed in planta. In Agrobacterium tumefaciens, AtsC is associated with virulence. Inoculation of a susceptible and a partially resistant cotton cultivar with either a pathogenic or a non-pathogenic isolate of Fov revealed that the expression of the Fov AtsC homologue was associated with pathogenicity and disease symptom formation. [source]

    The major Cu,Zn SOD of the phytopathogen Claviceps purpurea is not essential for pathogenicity

    MOLECULAR PLANT PATHOLOGY, Issue 1 2002
    Sabine Moore
    summary Superoxide dismutase (SOD) activities of the biotrophic pathogen Claviceps purpurea, which causes the ergot disease on a wide range of host grasses, were examined in axenic and pathogenic cultures. Almost all SOD activity in axenic culture originated from a single Cu,Zn SOD; a substantial part of this activity could be separated from lyophilized intact mycelia by gentle washing, indicating that this protein is at least partially secreted. The corresponding gene (cpsod1) was cloned and characterized; like other fungal Cu,Zn SOD genes, it groups with the extracellular mammalian Cu,Zn SODs in a phylogenetic tree. Northern analyses showed that cpsod1 is strongly induced by copper and weakly induced by iron; superoxide generated by paraquat, or xanthine and xanthine oxidase, as well as hydrogen peroxide, had no effect on gene expression under axenic conditions. Analysis of the deletion mutant ,cpsod1 showed that, although growth in axenic culture was generally slower, sensitivity to paraquat was not increased in comparison to the wild-type. Pathogenicity assays showed that this gene is not essential for parasitic growth in rye; no further soluble SOD activity is induced in the mutant. [source]

    Comparison of endo-polygalacturonase activities of citrus and non-citrus races of Geotrichum candidum, and cloning and expression of the corresponding genes

    MOLECULAR PLANT PATHOLOGY, Issue 5 2001
    Masayuki Nakamura
    summary Geotrichum candidum citrus race, a fungus that causes a sour rot disease in citrus fruits, secretes an endo-polygalacturonase (PG) that may facilitate the disease. There also exists a non-citrus race that is non-pathogenic to citrus fruits. In this research, we found that the PG activity of the citrus race isolates was much higher than that of the non-citrus race isolates in culture medium and inoculated lemon peel, and that there was a significant correlation between the PG activity and pathogenicity. We isolated the two corresponding PG genes, S31pg1 and S63pg1, from citrus race S31 and non-citrus race S63, respectively. S31PG1 and S63PG1 consisted of 368 and 369 amino acids, respectively. The two PG genes showed 68% identity at the amino acid level. In expression studies, S31pg1 transcript was detected in mycelia grown in liquid cultures of citrus race S31 containing either glucose, pectin or lemon peel broth. The transcript was also detected in lemon peel inoculated with the isolate. On the other hand, no transcript of S63pg1 was detected in mycelia grown on any liquid cultures of non-citrus race S63 and lemon peel inoculated with the isolate. These results indicate that PG may play an important role in the development of the sour rot symptom and be involved in the difference of pathogenicity between the two races. [source]

    Hyphal fusion to plant species connections , giant mycelia and community nutrient flow

    NEW PHYTOLOGIST, Issue 1 2004
    Iver Jakobsen
    First page of article [source]

    Cold adaptation in Arctic and Antarctic fungi

    NEW PHYTOLOGIST, Issue 2 2001
    Clare H. Robinson
    Summary Growth and activity at low temperatures and possible physiological and ecological mechanisms underlying survival of fungi isolated from the cold Arctic and Antarctic are reviewed here. Physiological mechanisms conferring cold tolerance in fungi are complex; they include increases in intracellular trehalose and polyol concentrations and unsaturated membrane lipids as well as secretion of antifreeze proteins and enzymes active at low temperatures. A combination of these mechanisms is necessary for the psychrotroph or psychrophile to function. Ecological mechanisms for survival might include cold avoidance; fungal spores may germinate annually in spring and summer, so avoiding the coldest months. Whether spores survive over winter or are dispersed from elsewhere is unknown. There are also few data on persistence of basidiomycete vs microfungal mycelia and on the relationship between low temperatures and the predominance of sterile mycelia in tundra soils. Acclimation of mycelia is a physiological adaptation to subzero temperatures; however, the extent to which this occurs in the natural environment is unclear. Melanin in dark septate hyphae, which predominate in polar soils, could protect hyphae from extreme temperatures and play a significant role in their persistence from year to year. [source]

    In vitro effects of flutriafol and azoxystrobin on Beauvaria bassiana and its efficacy against Tetranychus urticae

    PEST MANAGEMENT SCIENCE (FORMERLY: PESTICIDE SCIENCE), Issue 7 2010
    Mutimura C Gatarayiha
    Abstract BACKGROUND: Testing the compatibility of chemical pesticides and fungal biocontrol agents is necessary if these two agents are to be applied together in the integrated management of plant pests and diseases. In this study, the fungicides azoxystrobin (a strobilurin) and flutriafol (a triazole) were tested in vitro for their effects on germination of conidia and mycelial growth of Beauveria bassiana (Bals.) Vuill. and in bioassay for their effect on fungal activity against Tetranychus urticae Koch. The fungicides were tested at three different concentrations [recommended rate for field use (1 × X) and the dilutions 10,1× X and 10,2× X]. RESULTS: Flutriafol inhibited growth of mycelia and germination of the fungal conidia at all concentrations tested in vitro, and also reduced the efficacy of B. bassiana in bioassays against mites. The inhibitive effect of azoxystrobin in vitro varied with the concentration applied. A significant effect was observed at 1 × X and 10,1× X concentrations on both the germination of conidia and mycelia growth. At 10,2× X concentration, azoxystrobin showed little effect on B. bassiana. However, when this fungicide was tested in bioassays, none of the concentrations reduced B. bassiana activity against mites. CONCLUSION: Azoxystrobin was most compatible with B. bassiana, while flutriafol was the most harmful. Further studies are required to confirm the negative effect of flutriafol on B. bassiana activity. Copyright © 2010 Society of Chemical Industry [source]

    Involvement of G Proteins in the Mycelial Photoresponses of Phycomyces,

    PHOTOCHEMISTRY & PHOTOBIOLOGY, Issue 4 2004
    George Tsolakis
    ABSTRACT Many responses of the zygomycete fungus Phycomyces blakesleeanus are mediated by blue light, e.g. the stimulation of ,-carotene synthesis (photocarotenogenesis) and the formation of fruiting bodies (photomorphogenesis). Even though both responses have been described in detail genetically and biophysically, the underlying molecular events remain unknown. Applying a pharmacological approach in developing mycelia, we investigated the possible involvement of heterotrimeric G proteins in the blue-light transduction chains of both responses. G protein agonists (guanosine triphosphate analogues, cholera toxin, pertussis toxin) mimicked in darkness the effect of blue light for both responses, except for cholera toxin, which was ineffective in increasing the ,-carotene content of dark-grown mycelia. Experiments combining the two toxins indicated that photocarotenogenesis could involve an inhibitory G protein (Gi) type, whereas photomorphogenesis may depend on a transducin (Gt type)-like heterotrimer. The determination of the carB (phytoene dehydrogenase) and chs1 (chitin synthase 1) gene expression under various conditions of exogenous challenge supports the G protein participation. The fluctuations of the time course measurements of the carB and chs1 transcripts are discussed. [source]

    Calystegines in Calystegia sepium do not Inhibit Fungal Growth and Invertase Activity but Interact with Plant Invertase

    PLANT BIOLOGY, Issue 2 2004
    D. Höke
    Abstract: Calystegines are alkaloidal glycosidase inhibitors. They accumulate predominantly in young and meristemic parts of Calystegia sepium (Convolvulaceae). C. sepium, bindweed, infests meadows and cereal fields and is difficult to control chemically. Fungal pathogens against C. sepium are established as mycoherbicides. Stagonospora convolvuli LA39 attacks C. sepium and does not affect crop plants, but young plants of C. sepium are less susceptible to the fungus. The interaction of Stagonospora convolvuli with calystegines was investigated. Further, endophytic fungi of several classes were isolated from wild-grown Calystegia sepium leaves, and selected strains were tested for interaction with calystegines. Fungal growth on agar containing calystegines was not affected considerably. Plants in climate chambers were infected with an endophyte, Phomopsis, and with the fungal pathogen, Stagonospora convolvuli. Calystegine levels were measured in infected and non-infected plant tissues. Accumulation depended on developmental stage of the plant tissue and was not influenced by infection. Acid invertase was measured from fungal mycelia and from infected and non-infected plant tissues. Fungal acid invertase activity was not inhibited by 10 mM calystegine B2, while invertase from C. sepium leaves was inhibited. It is concluded that calystegines do not inhibit fungal development and sucrose consumption under the conditions of the present investigation, but may act by redirection of plant carbohydrate metabolism. [source]