Effect of culture conditions on antifouling compound production of a sponge-associated fungus

Microorganisms associated with invertebrate hosts have long been suggested to be a source for bioactive metabolites. In this study, we reported that a sponge-associated fungus, Letendraea helminthicola, produced two antifouling compounds: 3-methyl-N-(2-phenylethyl) butanamide and cyclo(D-Pro-D-Phe). To optimize the production of these antifouling compounds, we then examined the production of compounds under different culture conditions (temperature, salinity, pH, and carbon and nitrogen sources). This fungus grew well and produced more compounds at temperatures between 18 and 30°C; the fungus grew well at 75 parts per thousand (ppt) salinity but produced the highest amount of antifouling compounds at 30 and 45 ppt. The optimal initial pH value for mycelial growth was 5.5 to 6.5, whereas the production of the antifouling compounds was maximized at pH 3.5 and 4.5. Glucose and xylose (as carbon sources) increased the production of antifouling compounds. Yeast extract and peptone (as nitrogen sources) maximized the production of mycelial biomass and antifouling compounds. Our results indicate that culture conditions greatly affect the production of bioactive compounds from mycelial fungal cultures as exemplified by strain L. helminthicola and that the conditions favorable for fungal growth may not be the best conditions for bioactive compound production.     

Fruiting-body formation, cultivation properties, and host specificity of a fungicolous fungus, Asterophora lycoperdoides

We report the fruiting-body formation and cultivation properties of Asterophora lycoperdoides, a fungicolous fungus. Asterophora lycoperdoides formed fruiting bodies on potato dextrose agar medium in approximately 1 week, although this fungus shows high host specificity to Russula nigricans in nature. Optimal temperature of mycelial growth and fruiting-body formation was 25°C. Mannitol or soluble starch was preferably used as a carbon source, and amino nitrogen was preferably used as the nitrogen source. For a better understanding of the relationship between A. lycoperdoides and R. nigricans, we cultivated A. lycoperdoides on media supplemented with freeze-dried fruiting bodies of various fungi. The germination rate was approximately 2.5 times higher on the medium containing freeze-dried R. nigricans than that on the PDA medium. The mycelia extended most rapidly in the presence of R. nigricans. Furthermore, the stipe length of its fruiting body was the longest on the medium containing R. nigricans. These results indicated that A. lycoperdoides can grow faster by utilizing certain substances that are abundantly contained in R. nigricans, such as mannitol, or by utilizing R. nigricans itself. It is considered that the constituents of R. nigricans might contribute to the host specificity of A. lycoperdoides.     

The effect of copper on the growth of wood-rotting fungi and a blue-stain fungus

The effect of copper (II) ions on the growth of three brown-rot fungi, six white-rot fungi and one blue-stain fungus in solid medium was evaluated. The fungi were grown in malt extract agar with different concentrations of copper added, and the radial growth rate was determined. At the end of the incubation period, the mycelial biomass and the media pH were determined. The white-rot and blue-stain fungus grew up to 3 mM and 6 mM copper, respectively and the brown-rot fungi were the only ones that grew up to 10 mM, with higher growth rates than those shown by the other fungi. In general, the brown-rot fungi produced greater acidification in the culture media than the white-rot fungi and blue-stain fungus, and the acidification increased when the amount of copper was increased. The biomass production for the different species, in the absence or presence of copper, was not related to the radial growth rate, and the fungal species that produced the greatest biomass amounts did not correspond to those that presented the highest growth rates. The brown-rot fungi Wolfiporia cocos and Laetiporus sulfureus and blue-stain fungus Ophiostoma sp. demonstrated greater tolerance to high copper concentrations in solid medium than the white-rot fungi, determined as radial growth rate. On the other hand, the highest biomass producers in solid medium with copper added were the white-rot fungi Ganoderma australe and Trametes versicolor and the brown-rot fungus Gloeophyllum trabeum.     

Dracaena Leaf Proliferosis, a Newly Recorded Disease Affecting Dracaena sanderiana in Egypt

Dracaena leaf proliferosis is a newly reported disease affecting Dracaena sanderiana in Egypt. A cause and effect relationship between this disease and the fungus,Fusarium proliferatum var. minus has been established. In addition to D. sanderiana the fungus was found to be pathogenic, when tested in the laboratory, to several other members of the family Liliaceae. While the in vitro growth of the fungus is optimum at 25 °C, symptom expression is best at 30°C. Twelve fungicides were tested for their in vitro effect on fungal growth. Benlate, Rubigan, Saprol, Cercobin and Vitavax-200 came first on the list and inhibited growth at 2.5, 12.0, 55.0, 75.0, and 94.0 μg/ml, respectively. Although, Benlate was the most effective fungicide in this respect it failed to demonstrate similar effect on disease development when applied to plants artificially inoculated with the fungus. Fungal growth was completely inhibited on PDA medium by a bacterium belonging to Bacillus sp. but when the bacterium at a concentration of 1 × 10¹¹ cell/ml was applied 24 h before, at the same time with, or 24 h after inoculation no control of the disease was achieved. Naturally-infected plants could, however, be freed from infection when subjected to a hot air treatment at 35 ± 5 °C during day time and 25 ± 5° C at night for 3 months.     

Semi-defined Medium for in vitro Cultivation of the Fastidious Insect Pathogenic Fungus Cordyceps unilateralis

Cordyceps unilateralis is a fastidious fungal pathogen affecting ants. Up to now, only the complex and expensive Grace’s insect cell culture medium has been used for in vitro cultivation (as blastospores and mycelium) of this fungus. To obtain an inexpensive and less complicated medium, the effects of carbon and nitrogen sources, salt solution and carbon-to-nitrogen (C:N) ratio on the growth of this fungus were examined. Glucose was the most important factor for blastospore formation, and yeast extract could be used as a nitrogen source for blastospore formation and mycelial growth. A suitable C:N ratio (glucose: yeast extract) was 33.3:1. As a result, a new semi-defined medium was achieved, composed of 26.68 g L⁻¹ glucose, 3.3 g L⁻¹ yeast extract and salt solution. This medium supported blastospore formation and mycelial growth of all tested C. unilateralis isolates.     

Cultural properties of a luminous mushroom,Mycena chlorophos

Cultural conditions on mycelial growth and fruit-body formation ofMycena chlorophos were studied. The optimum temperature of the mycelial growth was 27°C and the optimum initial pH of medium was 4.0. Peptone agar medium was suitable for the spawn culture. Compost medium containing rice bran at 10% (fw/fw) was appropriate for fruitbody formation in the Petri dish. Light was essential for initiation of primordia, and low-temperature treatment induced fruit-body formation effectively. The optimum conditions for fruit-body formation were found to be the cultivation at 27°C for 4 wk and continued cultivation for 3 wk under illumination at an intensity above 0.2 lx and at 21°C after casing with moist compost powder. In the fruit-bodies obtained, the maximum photosensitive wavelength of luminescence was 522 nm and the optimum temperature for emission was 27°C. The luminescence of a fruit-body was observed for about 3 d consecutively at 21°C.     

Production of fruit-bodies of a mycorrhizal fungus,Lyophyllum shimeji,in pure culture

Cultivation of mycorrhizal fungus,Lyophyllum shimeji, was examined using selected strains capable of forming primordia in pure culture. Mycelia grew fastest on barley grains containing synthetic liquid medium. The primordia readily formed in test-tubes after lowering the incubation temperature from 23°C to 15°C. The co-existence of pine seedlings had no promotive effect on primordium formation. Fruit-bodies formed on a medium consisting of barley, beech sawdust, and liquid synthetic nutrients in 500-ml glass bottles. Mature fruit-bodies produced basidiospores. The spores thus produced could germinate on an agar medium and formed mycelial colonies. Thereby, the life cycle inL. shimeji was accomplished in pure culture without using the host plant.     

A Comparison of the Effects of Temperature on the Growth of Fusarium oxysporum f. sp. narcissi in Solid and Liquid Media

The effect of different temperatures on mycelial growth of Fusarium oxysporum f. sp. narcissi in liquid and on solid medium was compared. Differences between optimum and maximum temperatures using these substrates were considerable and, could lead to different interpretations of the parasitic growth of the pathogen in vascular tissues, for example, in liquid culture Fusarium grew at 45°C whereas it did not on solid media. Initially F. oxysporum f. sp. narcissi may, be encouraged to grow faster in warm air drying systems than those using lower temperatures. The rates of diffusion between 17°C and 35°C are not markedly different. The speed with which moisture is removed from the internal tissues of the remaining roots is governed more by air flow over the bulbs than by temperature.     

Reaction of <Emphasis Type="Italic">Bipolaris euphorbiae</Emphasis> to environmental factors and its tolerance to solar and ultraviolet radiation

The determination of the ideal cultivation conditions and the knowledge of solar radiation tolerance are important aspects that must be investigated for the use of Bipolaris euphorbiae Muchovej and Carvalho as a biocontrol agent. The present study was done to assess the growth rate, sporulation and viability of the fungus cultivated under different conditions of the initial pH value of the growth medium, temperature and photoperiod. The tolerance of this fungus’ conidia to light from a source simulating solar and ultraviolet radiation was also assessed. B. euphorbiae was affected by different pH values of the growth medium being 6.0 the adequate pH for fungus cultivation. Incubation of the fungus under temperatures of 22, 25 and 28°C enhanced mycelium growth, while sporulation and viability of conidia were better at 22 and 16°C. Different regimens of exposure to light of fungal cultures only affect sporulation. Conidia exposed to solar and ultraviolet radiation for 8 h and 90 min, respectively, presented viabilities higher than 92%, indicating high tolerance levels to radiation exposure.     

絮缘蘑菇生物学特性及驯化栽培

对采自祁连山地区的一株野生食用菌进行分离,通过形态学及其ITS序列的分子系统发育分析鉴定为絮缘蘑菇Agaricus subfloccosus。以分离纯化获得的菌株作为实验材料,对该种的生物学特性和驯化栽培进行研究。检测了不同碳源、氮源、温度、pH、无机盐、维生素在固体培养条件下对絮缘蘑菇菌丝生长的影响,对以上6个因素进行单因素试验,从中挑选出3个较优因素的最优水平进行正交试验。结果表明：实验范围内,絮缘蘑菇菌丝生长最佳碳源为蔗糖,最佳氮源为硝酸钾,最佳无机盐为硫酸镁,最佳维生素为VB₁₂,最佳温度为16℃,最佳pH为6。影响较大的3个因素为碳源、无机盐和pH,絮缘蘑菇最适的营养因子最佳组合配方为：蔗糖25g/L,硝酸钾2g/L,硫酸镁2g/L,pH为5.0。驯化栽培过程中,栽培配方为：木屑79%、高粱籽5%、玉米面5%、石膏1%、麸皮10%。温度16℃使絮缘蘑菇菌丝在90d左右满袋,覆土可培育出子实体。     

CGTase,a novel antimicrobial protein from Bacillus cereus YUPP-10, suppresses Verticillium dahliae and mediates plant defence responses

Verticillium wilt is a plant vascular disease caused by the soilborne fungus Verticillium dahliae that severely limits cotton production. In a previous study, we screened Bacillus cereus YUPP-10, an efficient antagonistic bacterium, to uncover mechanisms for controlling verticillium wilt. Here, we report a novel antimicrobial cyclodextrin glycosyltransferase (CGTase) from YUPP-10. Compared to other CGTases, six different conserved domains were identified, and six mutants were constructed by gene splicing with overlap extension PCR. Functional analysis showed that domain D was important for hydrolysis activity and domains A1 and C were important for inducing disease resistance. Direct effects of recombinant CGTase on V. dahliae included reduced mycelial growth, spore germination, spore production, and microsclerotia germination. In addition, CGTase also elicited cotton's innate defence reactions. Transgenic Arabidopsis thaliana lines that overexpress CGTase showed higher resistance to verticillium wilt. Transgenic CGTase A. thaliana plants grew faster and resisted disease better. CGTase overexpression enabled a burst of reactive oxygen species production and activated pathogenesis-related gene expression, indicating that the transgenic cotton was better prepared to protect itself from infection. Our work revealed that CGTase could inhibit the growth of V. dahliae, activate innate immunity, and play a major role in the biocontrol of fungal pathogens.     

Proteome analysis of fungal and bacterial involvement in leaf litter decomposition

Fungi and bacteria are key players in the decomposition of leaf litter, but their individual contributions to the process and their interactions are still poorly known. We combined semi‐quantitative proteome analyses (1‐D PAGE‐LC‐MS/MS) with qualitative and quantitative analyses of extracellular degradative enzyme activities to unravel the respective roles of a fungus and a bacterium during litter decomposition. Two model organisms, a mesophilic Gram‐negative bacterium (Pectobacterium carotovorum) and an ascomycete (Aspergillus nidulans), were grown in both, pure culture and co‐culture on minimal medium containing either glucose or beech leaf litter as sole carbon source. P. carotovorum grew best in co‐culture with the fungus, whereas growth of A. nidulans was significantly reduced when the bacterium was present. This observation suggests that P. carotovorum has only limited capabilities to degrade leaf litter and profits from the degradation products of A. nidulans at the expense of fungal growth. In accordance with this interpretation, our proteome analysis revealed that most of the extracellular biodegradative enzymes (i.e. proteases, pectinases, and cellulases) in the cultures with beech litter were expressed by the fungus, the bacterium producing only low levels of pectinases.     

Ornithine decarboxylase in Paracoccidioides brasiliensis

Ornithine decarboxylase in Paracoccidioides brasiliensis, a dimorphic human pathogenic fungus, was more active at 37° C in the yeast phase and at 30° C in the mycelial phase. In contrast to other fungal systems, yeast growth and mycelium-to-yeast transition in P. brasiliensis were accompanied by a high activity of ornithine decarboxylase at the onset of the budding process, the activity of which was inhibited by 1,4-diamino-2-butanone. The activity of ornithine decarboxylase remained at a basal level during vegetative growth of both the mycelial phase and the late stage of yeast phase, and also through the yeast-to-mycelium transition. Received: 18 December 1995 / Accepted: 8 March 1996     

Stimulation of Mycelial Growth of Endothia parasitica by Heavy Metals

Of 16 metal cations tested on agar medium, only copper and iron stimulated mycelial growth of Endothia parasitica in relatively high concentrations. Similarly enhanced growth was produced in high (32%) glucose concentrations and also when the fungus was grown on cellophane placed over the agar surface. E. parasitica secreted large amounts of oxalate that precipitated primarily as calcium oxalate at the periphery of the fungal colony, causing an opaque halo in the medium. Mycelial growth was retarded greatly when calcium oxalate accumulated, but retardation was reversed by copper and iron salts that prevented accumulation of the calcium oxalate crystals. E. parasitica grew well on media containing copper oxalate and copper-calcium oxalate but grew poorly with calcium oxalate as the carbon source and was inhibited by sodium oxalate in the medium. The specificity by which only copper and iron salts stimulated mycelial growth suggested that the metal and oxalate ions interact to form specific oxalate complexes that reverse the inhibition of simple oxalate salts. This probably accounts for enhanced growth in the presence of otherwise toxic levels of metals and oxalate. The stimulation did not occur in liquid cultures.     

Effect of environmental factors and precursors on oxalic acid production,mycelial biomass and virulence of a potential bioherbicide isolate of Sclerotium rolfsii SC64 produced in liquid culture

The fungus Sclerotium rolfsii is presently under development as a bioherbicide for broadleaf weed species using fungus-infested substrates as application material in this laboratory. The effect of environmental factors and three precursors (citric acid, ascorbic acid, and sodium succinate) on mycelial growth, oxalic acid production, and virulence by SC64 in liquid culture were investigated. The results showed that for mycelia growth the optimum liquid medium was Modified Richard's solution (MRS) among the five tested media, but potato dextrose broth (PDB) produced the maximum oxalic acid production and virulence on detached Solidago canadensis leaves. When PDB was used as the basic medium, the oxalic acid/mycelial dry weight (mg g^–1) ratio reached the peak 4 days after inoculation. The optimum temperature for oxalic acid production was at 27°C, but increased mycelial dry weight and virulence were observed at 30°C. The optimum range of initial pH value for oxalic acid accumulation was 4.0–6.0, with the optimal pH 5.0; highest mycelial growth was with an initial pH 3.5–6.0 (optimum pH 5.0) and subsequently pH 3.5–5.5 (maximum at pH 3.5). Both mycelial dry weight and oxalic acid production showed a decreasing trend as a result of the precursor of oxalic acid being added to PDB. Among the three precursors, the greatest decrease in mycelial dry weight, and oxalic acid production was caused by sodium succinate. This clarification of optimal conditions for production of mycelial biomass while insuring high concentrations of oxalic acid and high virulence should be useful for further development of this fungus as biocontrol agent.     

Influence of pH on in vitro mycelial growth in three Japanese truffle species: Tuber japonicum,T. himalayense,and T. longispinosum

Truffle species indigenous to Japan include a white-colored truffle Tuber japonicum and two black-colored truffles, T. himalayense and T. longispinosum. As the fruiting bodies of these Tuber species are promising edible, studies on the artificial cultivation for these truffles are currently underway in Japan. In the present study, we investigated the influence of pH on in vitro mycelial growth in these Tuber species to determine the optimal pH conditions for the cultivation of these truffles. Mycelia of five strains from each species were cultured in modified Melin–Norkrans liquid medium at different pH values. Tuber japonicum grew well at pH 5.0 and 6.0, whereas T. himalayense and T. longispinosum grew well at pH 7.0. This results suggest that the optimal pH for mycelial growth varies among Tuber species. The growth data collected in this study can be used to design optimal pH conditions for artificial cultivation of these Japanese truffles.     

Influence of culture media and environmental factors on mycelial growth and pycnidial production of Sphaeropsis pyriputrescens

Sphaeropsis pyriputrescens, the causal agent of Sphaeropsis rot of pears and apples, is a recently described species. In this study the effects of culture media, temperature, water potential, pH and light on mycelial growth and pycnidial production of S. pyriputrescens were evaluated. Apple juice agar and pear juice agar were most suitable for mycelial growth of all six isolates tested. Cornmeal agar was not suitable for either mycelial growth or pycnidial production. The fungus grew from -3 to 25 C, with optimum growth at 20 C and no growth at 30 C. The fungus grew at water potential as low as -5.6 MPa on potassium chloride-amended potato-dextrose agar (PDA). Hyphal extension was not observed at -7.3 MPa after 10 d incubation, but growth resumed when the inoculum plugs were placed on PDA. The fungus grew at pH 3.3-6.3 and optimum growth was at pH 3.3-4.2. No mycelial growth was observed at pH above 7.2 after 10 d incubation, but growth resumed when the inoculum plugs were transferred onto PDA. Regardless of medium tested, few pycnidia formed at 20 C in the dark. Pycnidial production was enhanced significantly by fluorescent light, but continuous light appeared to reduce pycnidial production, depending on the medium. Oatmeal agar (OMA) was most suitable for production of pycnidia and conidia. Pycnidia that formed on 3 wk old OMA cultures at 20 C under 12 h light/12 h dark produced abundant conidia, and the technique is recommended for inoculum production.     

Morphology and ultrastructure of a Penicillium sp. grown on n-hexadecane or peptone.

The morphology and ultrastructure of a Penicillium sp. grown on n-hexadecane or on peptone in shake-culture were compared using transmission and scanning electron microscopy. The fungus grew as hollow mycelial balls surrounding individual hydrocarbon droplets on n-hexadecane and as solid mycelial balls on peptone. A dense layer of fungal mycelium that showed irregular forms, fusion, and increase in hyphal size formed at the hydrocarbon-water interface. Inclusions were present in the hexadecane-grown fungus that were absent when the Penicillium sp. was grown on peptone. Problems of fixation made it difficult to differentiate detailed changes in the cytoplasm when the fungus was examined with the transmission electron microscope.     

Morphology and ultrastructure of a Penicillium sp. grown on n-hexadecane or peptone.

The morphology and ultrastructure of a Penicillium sp. grown on n-hexadecane or on peptone in shake-culture were compared using transmission and scanning electron microscopy. The fungus grew as hollow mycelial balls surrounding individual hydrocarbon droplets on n-hexadecane and as solid mycelial balls on peptone. A dense layer of fungal mycelium that showed irregular forms, fusion, and increase in hyphal size formed at the hydrocarbon-water interface. Inclusions were present in the hexadecane-grown fungus that were absent when the Penicillium sp. was grown on peptone. Problems of fixation made it difficult to differentiate detailed changes in the cytoplasm when the fungus was examined with the transmission electron microscope.     

Mycelium growth kinetics and optimal temperature conditions for the cultivation of edible mushroom species on lignocellulosic substrates

The influence of environmental parameters on mycelial linear growth ofPleurotus ostreatus, P. eryngii, P. pulmonarius, Agrocybe aegerita, Lentinula edodes, Volvariella volvacea andAuricularia auricula-judae was determined in two different nutrient media in a wide range of temperature, forming the basis for the assessment of their temperature optimaV. volvacea grew faster at 35°C,P. eryngii at 25°C,P. ostreatus andP. pulmonarius at 30°C,A. aegerita at 25 or 30°C andA. auricula-judae at 20 or 25°C depending on the nutrient medium used andL. edodes at 20 or 30°C depending on the strain examined. The mycelium extension rates were evaluated on seven mushroom cultivation substrates: wheat straw, cotton gin-trash, peanut shells, poplar sawdust, oak sawdust, corn cobs and olive press-cake. The mycelium extension rates (linear growth and colonization rates) were determined by the ‘race-tube’ technique, and were found to be the highest on cotton gin-trash, peanut shells and poplar sawdust forPleurotus spp. andA. aegerita. Wheat straw, peanut shells and particularly cotton gin-trash supported fast growth ofV. volvacea, whereas wheat straw was the most suitable substrate forL. edodes andA. auricula-judae. Supplemented oak sawdust and olive press-cake were poor substrates for most species examined, white almost all strains performed adequately on corn cobs.